{ "umap_config": { "n_neighbors": 100, "min_dist": 0.3, "epochs": 200 }, "axis_labels": [ "Quantum imaging", "Quantum Life Science Sensing", "Quantum sensing Detection", "Quantum sensing Metrology", "Quantum sensing navigation", "Quantum sensing Position", "Quantum sensing Timing", "Quantum sensing", "Quantum control" ], "papers": [ { "id": 0, "title": "Parameter estimation from quantum-jump data using neural networks", "abstract": "We present an inference method utilizing artificial neural networks for parameter estimation of a quantum probe monitored through a single continuous measurement. Unlike existing approaches focusing o...", "citations": 5, "author_count": 8, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 0, "doi": "10.1088/2058-9565/ad3c68", "umap_coordinates": { "x": 395.0684814453125, "y": 137.07350158691406, "z": 206.8672637939453 }, "tsne_coordinates": { "x": -34.13841247558594, "y": -9.357664108276367, "z": -3.1544220447540283 }, "pca_coordinates": { "x": 2.064213275909424, "y": 1.7546881437301636, "z": 1.5490646362304688 }, "axis_scores": { "Quantum imaging": 0.7168866991996765, "Quantum Life Science Sensing": 0.7101095914840698, "Quantum sensing Detection": 0.7144245505332947, "Quantum sensing Metrology": 0.7107784152030945, "Quantum sensing navigation": 0.747006893157959, "Quantum sensing Position": 0.7047773599624634, "Quantum sensing Timing": 0.6949485540390015, "Quantum sensing": 0.7267659306526184, "Quantum control": 0.6995764970779419 } }, { "id": 1, "title": "Nanowire-based integrated photonics for quantum information and quantum sensing", "abstract": "At the core of quantum photonic information processing and sensing, two major building pillars are single-photon emitters and single-photon detectors. In this review, we systematically summarize the w...", "citations": 61, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1, "doi": "10.1515/nanoph-2022-0652", "umap_coordinates": { "x": 393.99346923828125, "y": 134.47740173339844, "z": 205.9925994873047 }, "tsne_coordinates": { "x": 5.800889015197754, "y": -2.3456709384918213, "z": -29.56617546081543 }, "pca_coordinates": { "x": -0.29527604579925537, "y": -1.7693347930908203, "z": 2.5696539878845215 }, "axis_scores": { "Quantum imaging": 0.7549986839294434, "Quantum Life Science Sensing": 0.7591503858566284, "Quantum sensing Detection": 0.755845308303833, "Quantum sensing Metrology": 0.7738944292068481, "Quantum sensing navigation": 0.7682197093963623, "Quantum sensing Position": 0.7374635338783264, "Quantum sensing Timing": 0.7217731475830078, "Quantum sensing": 0.7742137312889099, "Quantum control": 0.7166129946708679 } }, { "id": 2, "title": "Continuous Microwave Photon Counting by Semiconductor-Superconductor Hybrids", "abstract": "We present a continuous microwave photon counter based on superconducting cavity-coupled semiconductor quantum dots. The device utilizes photon-assisted tunneling in a double quantum dot with tunnelin...", "citations": 4, "author_count": 8, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2, "doi": "10.1103/PhysRevLett.133.217001", "umap_coordinates": { "x": 395.0741271972656, "y": 135.41246032714844, "z": 207.9715118408203 }, "tsne_coordinates": { "x": -14.389092445373535, "y": -21.25897979736328, "z": -1.0968544483184814 }, "pca_coordinates": { "x": 3.2086873054504395, "y": -1.7031750679016113, "z": 2.1757774353027344 }, "axis_scores": { "Quantum imaging": 0.6946326494216919, "Quantum Life Science Sensing": 0.7087230682373047, "Quantum sensing Detection": 0.7051270604133606, "Quantum sensing Metrology": 0.6912137269973755, "Quantum sensing navigation": 0.6950783729553223, "Quantum sensing Position": 0.6592406630516052, "Quantum sensing Timing": 0.6764219999313354, "Quantum sensing": 0.7070565819740295, "Quantum control": 0.6645058393478394 } }, { "id": 3, "title": "Quantum measurement encoding for quantum metrology", "abstract": "Preserving the precision of the parameter of interest in the presence of environmental decoherence is an important yet challenging task in dissipative quantum sensing. In this work, we study quantum m...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3, "doi": "10.1103/PhysRevResearch.6.043084", "umap_coordinates": { "x": 395.3962097167969, "y": 136.8668670654297, "z": 207.66763305664062 }, "tsne_coordinates": { "x": -23.283472061157227, "y": -21.001441955566406, "z": -3.3583905696868896 }, "pca_coordinates": { "x": 4.522256374359131, "y": 0.9723860025405884, "z": 2.0240983963012695 }, "axis_scores": { "Quantum imaging": 0.76361083984375, "Quantum Life Science Sensing": 0.7800272107124329, "Quantum sensing Detection": 0.7680553197860718, "Quantum sensing Metrology": 0.7959789037704468, "Quantum sensing navigation": 0.7793453335762024, "Quantum sensing Position": 0.760787844657898, "Quantum sensing Timing": 0.7396257519721985, "Quantum sensing": 0.781196117401123, "Quantum control": 0.7204137444496155 } }, { "id": 4, "title": "Experimental characterization of quantum polarization of three-photon states", "abstract": "We experimentally investigate various quantum polarization features of three-photon quantum states, including product and entangled states with varying purity. The three-photon quantum states are cate...", "citations": 5, "author_count": 4, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4, "doi": "10.1103/PhysRevA.96.033840", "umap_coordinates": { "x": 395.4415588378906, "y": 135.67535400390625, "z": 207.66368103027344 }, "tsne_coordinates": { "x": -18.05445671081543, "y": -9.638019561767578, "z": -4.064385414123535 }, "pca_coordinates": { "x": 3.24910306930542, "y": 0.3701467514038086, "z": 1.3667545318603516 }, "axis_scores": { "Quantum imaging": 0.7722292542457581, "Quantum Life Science Sensing": 0.7762283086776733, "Quantum sensing Detection": 0.7760933637619019, "Quantum sensing Metrology": 0.7505826950073242, "Quantum sensing navigation": 0.7527933120727539, "Quantum sensing Position": 0.7319801449775696, "Quantum sensing Timing": 0.7138218283653259, "Quantum sensing": 0.78037428855896, "Quantum control": 0.7284708619117737 } }, { "id": 5, "title": "Molecular Ligands Control Superlattice Structure and Crystallite Orientation in Colloidal Quantum Dot Solids", "abstract": "Colloidal quantum dot solids represent a new materials platform that has garnered interest for a variety of electronic, optoelectronic, and photovoltaic applications. In such solids, individual quantu...", "citations": 21, "author_count": 5, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5, "doi": "10.1021/acs.chemmater.6b03076", "umap_coordinates": { "x": 391.9656066894531, "y": 134.9500732421875, "z": 206.2644500732422 }, "tsne_coordinates": { "x": 15.186946868896484, "y": -5.258410930633545, "z": -10.466512680053711 }, "pca_coordinates": { "x": -0.773138701915741, "y": -4.489776134490967, "z": -3.7043051719665527 }, "axis_scores": { "Quantum imaging": 0.7441118359565735, "Quantum Life Science Sensing": 0.73039311170578, "Quantum sensing Detection": 0.7147672176361084, "Quantum sensing Metrology": 0.714368999004364, "Quantum sensing navigation": 0.7315524816513062, "Quantum sensing Position": 0.7161946296691895, "Quantum sensing Timing": 0.6771330833435059, "Quantum sensing": 0.7332261800765991, "Quantum control": 0.7288097143173218 } }, { "id": 6, "title": "Ultrafast coherent manipulation of trions in site-controlled nanowire quantum dots", "abstract": "Physical implementations of large-scale quantum processors based on solid-state platforms benefit from realizations of quantum bits positioned in regular arrays. Self-assembled quantum dots are well e...", "citations": 13, "author_count": 13, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6, "doi": "10.1364/OPTICA.3.001430", "umap_coordinates": { "x": 393.4941711425781, "y": 134.5796356201172, "z": 207.07594299316406 }, "tsne_coordinates": { "x": -5.142144203186035, "y": -11.867547035217285, "z": -31.993009567260742 }, "pca_coordinates": { "x": 1.0037789344787598, "y": -2.79927396774292, "z": 2.5326666831970215 }, "axis_scores": { "Quantum imaging": 0.7585084438323975, "Quantum Life Science Sensing": 0.719668447971344, "Quantum sensing Detection": 0.7471398711204529, "Quantum sensing Metrology": 0.7293899059295654, "Quantum sensing navigation": 0.7482074499130249, "Quantum sensing Position": 0.7189376354217529, "Quantum sensing Timing": 0.743925929069519, "Quantum sensing": 0.7526575326919556, "Quantum control": 0.7283663153648376 } }, { "id": 7, "title": "QuantEYE: A quantum optics instrument for extremely large telescopes", "abstract": "We have carried out a conceptual study for an instrument (QuantEYE) capable to detect and measure photon-stream statistics, e.g. power spectra or autocorrelation functions. Such functions increase wit...", "citations": 4, "author_count": 13, "categories": [ "Astronomy & Astrophysics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7, "doi": "10.1117/12.671184", "umap_coordinates": { "x": 395.08990478515625, "y": 134.02487182617188, "z": 206.37698364257812 }, "tsne_coordinates": { "x": -2.6568241119384766, "y": 11.734071731567383, "z": -24.46651268005371 }, "pca_coordinates": { "x": -0.21522367000579834, "y": 1.1269360780715942, "z": 2.864429235458374 }, "axis_scores": { "Quantum imaging": 0.7712724208831787, "Quantum Life Science Sensing": 0.7543795108795166, "Quantum sensing Detection": 0.7650429606437683, "Quantum sensing Metrology": 0.7593666911125183, "Quantum sensing navigation": 0.7522748112678528, "Quantum sensing Position": 0.7314055562019348, "Quantum sensing Timing": 0.7370874285697937, "Quantum sensing": 0.7793290019035339, "Quantum control": 0.732307493686676 } }, { "id": 8, "title": "Transient Evolutional Dynamics of Quantum-Dot Molecular Phase Coherence for Sensitive Optical Switching", "abstract": "Atomic phase coherence (quantum interference) in a multilevel atomic gas exhibits a number of interesting phenomena. Such an atomic quantum coherence effect can be generalized to a quantum-dot molecul...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 8, "doi": "10.7566/JPSJ.87.044401", "umap_coordinates": { "x": 392.9344177246094, "y": 136.06898498535156, "z": 206.74874877929688 }, "tsne_coordinates": { "x": 18.34943962097168, "y": -8.765518188476562, "z": 15.518390655517578 }, "pca_coordinates": { "x": 1.435093879699707, "y": -0.2731051445007324, "z": -1.1954553127288818 }, "axis_scores": { "Quantum imaging": 0.7368854880332947, "Quantum Life Science Sensing": 0.7419812083244324, "Quantum sensing Detection": 0.7205162048339844, "Quantum sensing Metrology": 0.6940336227416992, "Quantum sensing navigation": 0.7289390563964844, "Quantum sensing Position": 0.7063936591148376, "Quantum sensing Timing": 0.724938690662384, "Quantum sensing": 0.726344883441925, "Quantum control": 0.7190878391265869 } }, { "id": 9, "title": "Quantum wells and quantum dots for photonics and electronics: fundamentals and applications", "abstract": "We present our recent results on exciton-polariton photonics in microcavities with embedded quantum wells (QWs) and in quantum-dot (QD) lattices. Quantum transport in nanostructures based on QWs and Q...", "citations": 2, "author_count": 4, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 9, "doi": "10.1109/LDS.1998.713842", "umap_coordinates": { "x": 394.0143127441406, "y": 133.90110778808594, "z": 206.53823852539062 }, "tsne_coordinates": { "x": -0.0978604182600975, "y": -0.38177114725112915, "z": -32.2786750793457 }, "pca_coordinates": { "x": -0.5624092817306519, "y": -2.991913318634033, "z": 0.7565461993217468 }, "axis_scores": { "Quantum imaging": 0.7529624104499817, "Quantum Life Science Sensing": 0.7827898263931274, "Quantum sensing Detection": 0.7675557136535645, "Quantum sensing Metrology": 0.7554893493652344, "Quantum sensing navigation": 0.7402840852737427, "Quantum sensing Position": 0.7284417152404785, "Quantum sensing Timing": 0.7214328050613403, "Quantum sensing": 0.7781348824501038, "Quantum control": 0.7355527877807617 } }, { "id": 10, "title": "Quantum dots defined in InAs quantum wires by local gate electrodes", "abstract": "Single and double quantum dots are fabricated by inducing tunnelbarriers in homogenous InAs nanowires with local gates. By depositing the nanowires onto a grid of thin gold electrodes the potential la...", "citations": 2, "author_count": 4, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 10, "doi": null, "umap_coordinates": { "x": 391.8246765136719, "y": 139.27268981933594, "z": 209.33233642578125 }, "tsne_coordinates": { "x": -9.136885643005371, "y": 46.72888946533203, "z": -6.148654460906982 }, "pca_coordinates": { "x": 0.2524681091308594, "y": 0.10014867782592773, "z": -1.3446989059448242 }, "axis_scores": { "Quantum imaging": 0.7342044115066528, "Quantum Life Science Sensing": 0.7466579675674438, "Quantum sensing Detection": 0.7533999681472778, "Quantum sensing Metrology": 0.7359453439712524, "Quantum sensing navigation": 0.7603433132171631, "Quantum sensing Position": 0.737322211265564, "Quantum sensing Timing": 0.7185884714126587, "Quantum sensing": 0.760998547077179, "Quantum control": 0.7486190795898438 } }, { "id": 11, "title": "Scanning gate imaging of quantum dots in 1D ultra-thin InAs/InP nanowires", "abstract": "We use a scanning gate microscope (SGM) to characterize one-dimensional ultra-thin (diameter approximate to 30 nm) InAs/InP heterostructure nanowires containing a nominally 300 nm long InAs quantum do...", "citations": 28, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 11, "doi": "10.1088/0957-4484/22/18/185201", "umap_coordinates": { "x": 392.9317321777344, "y": 134.08755493164062, "z": 207.73446655273438 }, "tsne_coordinates": { "x": 22.7816104888916, "y": -15.644146919250488, "z": 9.627726554870605 }, "pca_coordinates": { "x": -0.28725385665893555, "y": -2.2213892936706543, "z": 4.19257926940918 }, "axis_scores": { "Quantum imaging": 0.7758516669273376, "Quantum Life Science Sensing": 0.7409986257553101, "Quantum sensing Detection": 0.7524305582046509, "Quantum sensing Metrology": 0.748520016670227, "Quantum sensing navigation": 0.7570821642875671, "Quantum sensing Position": 0.7307060956954956, "Quantum sensing Timing": 0.7236753702163696, "Quantum sensing": 0.762178361415863, "Quantum control": 0.704677939414978 } }, { "id": 12, "title": "Quantum States for Quantum Measurements", "abstract": "This work introduces a different way to understand the concept of quantum state (QS) with incidence on the concept of measurement. The mathematical architecture is unchanged; abstract QSs are elements...", "citations": 6, "author_count": 2, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 12, "doi": "10.1016/B978-0-12-386013-2.00002-4", "umap_coordinates": { "x": 394.91314697265625, "y": 136.24151611328125, "z": 206.15493774414062 }, "tsne_coordinates": { "x": -16.472702026367188, "y": 1.839048147201538, "z": -1.4807333946228027 }, "pca_coordinates": { "x": 0.5615590810775757, "y": 0.802925705909729, "z": 0.3349229693412781 }, "axis_scores": { "Quantum imaging": 0.7570427656173706, "Quantum Life Science Sensing": 0.7739938497543335, "Quantum sensing Detection": 0.7731433510780334, "Quantum sensing Metrology": 0.7762686610221863, "Quantum sensing navigation": 0.7651395797729492, "Quantum sensing Position": 0.7693380117416382, "Quantum sensing Timing": 0.7406615018844604, "Quantum sensing": 0.7866674661636353, "Quantum control": 0.7401520609855652 } }, { "id": 13, "title": "Oscillating photonic Bell state from a semiconductor quantum dot for quantum key distribution", "abstract": "An on-demand source of bright entangled photon pairs is desirable for quantum key distribution (QKD) and quantum repeaters. The leading candidate to generate such pairs is based on spontaneous paramet...", "citations": 14, "author_count": 14, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 13, "doi": "10.1038/s42005-024-01547-3", "umap_coordinates": { "x": 393.652099609375, "y": 135.26255798339844, "z": 206.56280517578125 }, "tsne_coordinates": { "x": -6.570678234100342, "y": 1.2824077606201172, "z": -3.4298439025878906 }, "pca_coordinates": { "x": 0.10410499572753906, "y": -1.3825533390045166, "z": 0.7599131464958191 }, "axis_scores": { "Quantum imaging": 0.7163398265838623, "Quantum Life Science Sensing": 0.712382972240448, "Quantum sensing Detection": 0.720583975315094, "Quantum sensing Metrology": 0.7107506990432739, "Quantum sensing navigation": 0.7296931147575378, "Quantum sensing Position": 0.7184345126152039, "Quantum sensing Timing": 0.7072093486785889, "Quantum sensing": 0.728283703327179, "Quantum control": 0.711756706237793 } }, { "id": 14, "title": "Dark matter direct detection with quantum dots", "abstract": "We propose using quantum dots as novel targets to probe sub-GeV dark matter-electron interactions. Quantum dots are nanocrystals of semiconducting material, which are commercially available, with gram...", "citations": 12, "author_count": 6, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 14, "doi": "10.1103/PhysRevD.107.095035", "umap_coordinates": { "x": 396.0171203613281, "y": 135.19439697265625, "z": 208.02532958984375 }, "tsne_coordinates": { "x": -23.007715225219727, "y": -13.213154792785645, "z": -11.067084312438965 }, "pca_coordinates": { "x": 3.5443835258483887, "y": -1.0546634197235107, "z": 3.519810199737549 }, "axis_scores": { "Quantum imaging": 0.7736129760742188, "Quantum Life Science Sensing": 0.7879313230514526, "Quantum sensing Detection": 0.8089950084686279, "Quantum sensing Metrology": 0.7704833149909973, "Quantum sensing navigation": 0.7786329388618469, "Quantum sensing Position": 0.7353440523147583, "Quantum sensing Timing": 0.7227195501327515, "Quantum sensing": 0.7914354205131531, "Quantum control": 0.7408639788627625 } }, { "id": 15, "title": "Carrier dynamics in quantum dot structures with different interdot spacings", "abstract": "Photoexcited carrier dynamics have been examined by time-resolved photoluminescence in InGaAs/GaAs quantum dot structures with dot density ranging from 3.7 x 10(8) to 2.4 x 10(10) cm(-2). The time of ...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 15, "doi": "10.1016/S0921-4526(99)00247-1", "umap_coordinates": { "x": 392.9757080078125, "y": 135.0769805908203, "z": 207.8582763671875 }, "tsne_coordinates": { "x": 21.02922248840332, "y": -3.409914255142212, "z": 19.625282287597656 }, "pca_coordinates": { "x": 1.6375269889831543, "y": -2.4156579971313477, "z": 0.00015544891357421875 }, "axis_scores": { "Quantum imaging": 0.7058596611022949, "Quantum Life Science Sensing": 0.7104195356369019, "Quantum sensing Detection": 0.6862218976020813, "Quantum sensing Metrology": 0.6964575052261353, "Quantum sensing navigation": 0.7062963843345642, "Quantum sensing Position": 0.7076454758644104, "Quantum sensing Timing": 0.7138830423355103, "Quantum sensing": 0.6981489062309265, "Quantum control": 0.6804137229919434 } }, { "id": 16, "title": "Spectroscopy, imaging and switching behaviour of individual InP/GaInP quantum dots", "abstract": "We have measured the photoluminescence of individual quantum dots grown by the Stranski-Krastanow growth mode. Studies of many individual quantum dots reveal that about one quantum dot in a thousand s...", "citations": 13, "author_count": 7, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 16, "doi": "10.1143/JJAP.36.4188", "umap_coordinates": { "x": 392.7916259765625, "y": 134.35110473632812, "z": 207.70045471191406 }, "tsne_coordinates": { "x": 26.963895797729492, "y": -14.036892890930176, "z": 5.726930618286133 }, "pca_coordinates": { "x": -0.112099289894104, "y": -2.333634853363037, "z": 1.1969835758209229 }, "axis_scores": { "Quantum imaging": 0.7706486582756042, "Quantum Life Science Sensing": 0.7495265603065491, "Quantum sensing Detection": 0.7412765622138977, "Quantum sensing Metrology": 0.7263392210006714, "Quantum sensing navigation": 0.7236749529838562, "Quantum sensing Position": 0.7158075571060181, "Quantum sensing Timing": 0.707044243812561, "Quantum sensing": 0.7576673626899719, "Quantum control": 0.7103255987167358 } }, { "id": 17, "title": "Quantum photonic base states: concept and molecular modeling. Managing chemical process descriptions beyond semi-classic schemes", "abstract": "Four fundamental aspects bearing on molecular simulations are considered: (1) A different perception of quantum states; mappings from abstract Hilbert space down to laboratory levels; (2) Introduction...", "citations": 3, "author_count": 2, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 17, "doi": "10.1007/s00894-014-2110-2", "umap_coordinates": { "x": 394.3914794921875, "y": 136.89752197265625, "z": 205.85121154785156 }, "tsne_coordinates": { "x": -13.034451484680176, "y": 11.91153335571289, "z": 23.750146865844727 }, "pca_coordinates": { "x": -0.9731051921844482, "y": 1.1874308586120605, "z": -1.3079869747161865 }, "axis_scores": { "Quantum imaging": 0.7446272969245911, "Quantum Life Science Sensing": 0.7526496648788452, "Quantum sensing Detection": 0.7344617247581482, "Quantum sensing Metrology": 0.7377095818519592, "Quantum sensing navigation": 0.7420961260795593, "Quantum sensing Position": 0.7192150950431824, "Quantum sensing Timing": 0.7143444418907166, "Quantum sensing": 0.7561628818511963, "Quantum control": 0.7610201835632324 } }, { "id": 18, "title": "Voltage and temperature limits for the operation of a quantum dot ratchet", "abstract": "Open quantum dots without spatial inversion symmetry can partially rectify a small AC voltage because of the asymmetric effect of an electric field on the electron interference inside the dot. Quantum...", "citations": 6, "author_count": 10, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 18, "doi": "10.1016/S0921-4526(99)00370-1", "umap_coordinates": { "x": 393.7035827636719, "y": 135.0800018310547, "z": 206.7108612060547 }, "tsne_coordinates": { "x": -13.397981643676758, "y": 4.29298210144043, "z": 1.5499624013900757 }, "pca_coordinates": { "x": -0.6225228905677795, "y": 0.10933685302734375, "z": 0.0701332688331604 }, "axis_scores": { "Quantum imaging": 0.6894334554672241, "Quantum Life Science Sensing": 0.7383267879486084, "Quantum sensing Detection": 0.7163819074630737, "Quantum sensing Metrology": 0.7246520519256592, "Quantum sensing navigation": 0.709081768989563, "Quantum sensing Position": 0.7312218546867371, "Quantum sensing Timing": 0.716017484664917, "Quantum sensing": 0.7213271856307983, "Quantum control": 0.7147098779678345 } }, { "id": 19, "title": "Carrier dynamics in InGaAs/GaAs quantum dots", "abstract": "We report on time-resolved photoluminescence measurements of In0.5Ga0.5As/GnAs as-grown and intermixed quantum dots and quantum wells. At room temperature, carrier capture times as short as 2 ps have ...", "citations": 9, "author_count": 3, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 19, "doi": "10.1002/1521-3951(199711)204:1<290::AID-PSSB290>3.0.CO;2-Z", "umap_coordinates": { "x": 392.8299560546875, "y": 134.8103790283203, "z": 207.99363708496094 }, "tsne_coordinates": { "x": 30.673370361328125, "y": -1.6715024709701538, "z": 17.022991180419922 }, "pca_coordinates": { "x": 0.9858477115631104, "y": -1.6208429336547852, "z": -0.8370482921600342 }, "axis_scores": { "Quantum imaging": 0.719467043876648, "Quantum Life Science Sensing": 0.7075190544128418, "Quantum sensing Detection": 0.7176048755645752, "Quantum sensing Metrology": 0.6985973119735718, "Quantum sensing navigation": 0.7371572852134705, "Quantum sensing Position": 0.7102113962173462, "Quantum sensing Timing": 0.7130054235458374, "Quantum sensing": 0.723892092704773, "Quantum control": 0.7274953722953796 } }, { "id": 20, "title": "A three-level dark state and double-control single-photon logic gates via quantum coherent control", "abstract": "Multilevel quantum coherence and its quantum-vacuum counterpart, where a three-level dark state is involved, are suggested in order to achieve new photonic and quantum optical applications. It is show...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 20, "doi": "10.1002/andp.201100183", "umap_coordinates": { "x": 394.7782287597656, "y": 134.05029296875, "z": 207.40780639648438 }, "tsne_coordinates": { "x": -7.7202277183532715, "y": -8.913153648376465, "z": -18.455812454223633 }, "pca_coordinates": { "x": 0.43288934230804443, "y": -0.7266030311584473, "z": 2.3088183403015137 }, "axis_scores": { "Quantum imaging": 0.7608156800270081, "Quantum Life Science Sensing": 0.7381348013877869, "Quantum sensing Detection": 0.7654417157173157, "Quantum sensing Metrology": 0.7389870882034302, "Quantum sensing navigation": 0.7433475255966187, "Quantum sensing Position": 0.6984788179397583, "Quantum sensing Timing": 0.7160762548446655, "Quantum sensing": 0.7699931859970093, "Quantum control": 0.7835958003997803 } }, { "id": 21, "title": "Dose reduction using photon counting X-ray imaging", "abstract": "Radiation dose to the patient, contrast and position resolution are important quality factors in medical X-ray imaging. A novel technique for digital X-ray imaging has been developed, using photon cou...", "citations": 12, "author_count": 11, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 21, "doi": "10.1117/12.430920", "umap_coordinates": { "x": 395.491943359375, "y": 133.0813446044922, "z": 205.65806579589844 }, "tsne_coordinates": { "x": -7.260324478149414, "y": 21.636205673217773, "z": -22.940385818481445 }, "pca_coordinates": { "x": -3.2646095752716064, "y": 1.916656732559204, "z": 4.916087627410889 }, "axis_scores": { "Quantum imaging": 0.7623399496078491, "Quantum Life Science Sensing": 0.7216965556144714, "Quantum sensing Detection": 0.7334149479866028, "Quantum sensing Metrology": 0.7161282896995544, "Quantum sensing navigation": 0.7228741645812988, "Quantum sensing Position": 0.7061243057250977, "Quantum sensing Timing": 0.70662522315979, "Quantum sensing": 0.7293614745140076, "Quantum control": 0.6866853833198547 } }, { "id": 22, "title": "Optical pumping as artificial doping in quantum dots-in-a-well infrared photodetectors", "abstract": "Resonant optical pumping across the band gap was used as artificial doping in InAs/In0.15Ga0.85As/GaAs quantum dots-in-a-well infrared photodetectors. A selective increase in the electron population i...", "citations": 8, "author_count": 10, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 22, "doi": "10.1063/1.3073048", "umap_coordinates": { "x": 393.1502380371094, "y": 133.84378051757812, "z": 208.2566680908203 }, "tsne_coordinates": { "x": 34.24534225463867, "y": -20.258689880371094, "z": -1.5272481441497803 }, "pca_coordinates": { "x": 1.1324615478515625, "y": -3.744255542755127, "z": 2.9224610328674316 }, "axis_scores": { "Quantum imaging": 0.7285078167915344, "Quantum Life Science Sensing": 0.7153342366218567, "Quantum sensing Detection": 0.7289968132972717, "Quantum sensing Metrology": 0.7052662968635559, "Quantum sensing navigation": 0.7115973830223083, "Quantum sensing Position": 0.6964733600616455, "Quantum sensing Timing": 0.6839187741279602, "Quantum sensing": 0.7309823036193848, "Quantum control": 0.6761763095855713 } }, { "id": 23, "title": "Quantum Dot Charging By Means Of Temperature And Magnetic Field", "abstract": "A micro-photoluminescence study of individual InAs/GaAs quantum dots is presented. It is demonstrated that by varying the strength of an applied magnetic field and/or the temperature, the charge state...", "citations": 1, "author_count": 4, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 23, "doi": "10.1063/1.3666439", "umap_coordinates": { "x": 393.4295959472656, "y": 134.5399169921875, "z": 208.1808624267578 }, "tsne_coordinates": { "x": 25.14642333984375, "y": -28.70639419555664, "z": 6.321204662322998 }, "pca_coordinates": { "x": 1.670459508895874, "y": -2.54892635345459, "z": -0.546363353729248 }, "axis_scores": { "Quantum imaging": 0.7629087567329407, "Quantum Life Science Sensing": 0.7809629440307617, "Quantum sensing Detection": 0.7659408450126648, "Quantum sensing Metrology": 0.7783190608024597, "Quantum sensing navigation": 0.747072160243988, "Quantum sensing Position": 0.7356522679328918, "Quantum sensing Timing": 0.734365701675415, "Quantum sensing": 0.7862963080406189, "Quantum control": 0.7565960884094238 } }, { "id": 24, "title": "Linking microscale morphologies to localised performance in singlet fission quantum dot photon multiplier thin films", "abstract": "Hybrid small-molecule/quantum dot films have the potential to reduce thermalization losses in single-junction photovoltaics as photon multiplication devices. Here grazing incidence X-ray scattering, o...", "citations": 5, "author_count": 16, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 24, "doi": "10.1039/d2tc00677d", "umap_coordinates": { "x": 391.8330078125, "y": 135.29824829101562, "z": 205.28379821777344 }, "tsne_coordinates": { "x": 15.649173736572266, "y": -4.488822937011719, "z": -32.08393478393555 }, "pca_coordinates": { "x": -1.7870670557022095, "y": -1.9133343696594238, "z": -0.24861490726470947 }, "axis_scores": { "Quantum imaging": 0.702226996421814, "Quantum Life Science Sensing": 0.722237765789032, "Quantum sensing Detection": 0.7013290524482727, "Quantum sensing Metrology": 0.7082322835922241, "Quantum sensing navigation": 0.6805828809738159, "Quantum sensing Position": 0.6947774291038513, "Quantum sensing Timing": 0.6790236830711365, "Quantum sensing": 0.7078105211257935, "Quantum control": 0.6752474904060364 } }, { "id": 25, "title": "Dose-efficient system for digital mammography", "abstract": "We are developing a dose-efficient system for digital mammography. The system incorporates a refractive x-ray lens combined with a photon counting silicon sensor system. The system matches the digital...", "citations": 25, "author_count": 9, "categories": [ "Engineering" ], "year": 2000, "topic": [ "all" ], "embedding_index": 25, "doi": "10.1117/12.384498", "umap_coordinates": { "x": 395.6355285644531, "y": 133.0221405029297, "z": 205.8188934326172 }, "tsne_coordinates": { "x": -7.490224361419678, "y": 24.20625114440918, "z": -24.39203643798828 }, "pca_coordinates": { "x": -2.4985527992248535, "y": 1.4832572937011719, "z": 3.9020166397094727 }, "axis_scores": { "Quantum imaging": 0.7277873158454895, "Quantum Life Science Sensing": 0.7051544189453125, "Quantum sensing Detection": 0.7135182023048401, "Quantum sensing Metrology": 0.7010960578918457, "Quantum sensing navigation": 0.6795108914375305, "Quantum sensing Position": 0.6799827814102173, "Quantum sensing Timing": 0.6818660497665405, "Quantum sensing": 0.7093021273612976, "Quantum control": 0.661004900932312 } }, { "id": 26, "title": "Oxygen-Controlled Photoconductivity in ZnO Nanowires Functionalized with Colloidal CdSe Quantum Dots", "abstract": "ZnO nanowire arrays were functionalized with colloidal CdSe quantum dots stabilized by 3-mercaptopropionic acid to form hybrid devices. The photoconductivity of the nanowire/quantum-dot devices was st...", "citations": 32, "author_count": 6, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 26, "doi": "10.1021/jp307235u", "umap_coordinates": { "x": 392.50732421875, "y": 134.383056640625, "z": 206.02438354492188 }, "tsne_coordinates": { "x": 19.524688720703125, "y": 7.669775485992432, "z": 4.561392784118652 }, "pca_coordinates": { "x": -1.3655047416687012, "y": -3.779885768890381, "z": 0.19677120447158813 }, "axis_scores": { "Quantum imaging": 0.7193843722343445, "Quantum Life Science Sensing": 0.7396184206008911, "Quantum sensing Detection": 0.7146593928337097, "Quantum sensing Metrology": 0.6936759948730469, "Quantum sensing navigation": 0.7257767915725708, "Quantum sensing Position": 0.6894367337226868, "Quantum sensing Timing": 0.6678029298782349, "Quantum sensing": 0.7264955639839172, "Quantum control": 0.7259854674339294 } }, { "id": 27, "title": "Crystallization and quantum melting of few electron system in a spherical quantum dot: quantum Monte Carlo simulation", "abstract": "Spherical quantum dots with a few charged Fermi particles (electrons or holes) are studied for different total spins. Simulation by quantum path integral Monte Carlo method is performed. The dependenc...", "citations": 4, "author_count": 4, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 27, "doi": "10.1016/S0038-1098(02)00484-2", "umap_coordinates": { "x": 393.34063720703125, "y": 135.08151245117188, "z": 206.73776245117188 }, "tsne_coordinates": { "x": 2.6627047061920166, "y": -12.552224159240723, "z": 6.863675594329834 }, "pca_coordinates": { "x": 0.2850332260131836, "y": -1.6743950843811035, "z": -0.47034168243408203 }, "axis_scores": { "Quantum imaging": 0.732377290725708, "Quantum Life Science Sensing": 0.7562941908836365, "Quantum sensing Detection": 0.7366526126861572, "Quantum sensing Metrology": 0.7477543354034424, "Quantum sensing navigation": 0.726593017578125, "Quantum sensing Position": 0.7145833969116211, "Quantum sensing Timing": 0.7076075077056885, "Quantum sensing": 0.7401124238967896, "Quantum control": 0.7076942920684814 } }, { "id": 28, "title": "Entangled Photon Pair Generation in the Telecom O-Band from Nanowire Quantum Dots", "abstract": "Entangled photon pairs at telecom wavelengths are essential for quantum communication, distributed computing, and quantum-enhanced sensing. The telecom O-band offers low chromatic dispersion and fiber...", "citations": 1, "author_count": 10, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 28, "doi": "10.1021/acs.nanolett.5c01130", "umap_coordinates": { "x": 393.37164306640625, "y": 134.3424072265625, "z": 207.37925720214844 }, "tsne_coordinates": { "x": 16.04564666748047, "y": -18.547407150268555, "z": -17.48565101623535 }, "pca_coordinates": { "x": 0.6414072513580322, "y": -3.0295329093933105, "z": 1.9390296936035156 }, "axis_scores": { "Quantum imaging": 0.7291393280029297, "Quantum Life Science Sensing": 0.7431823015213013, "Quantum sensing Detection": 0.7543802261352539, "Quantum sensing Metrology": 0.7247711420059204, "Quantum sensing navigation": 0.7355495691299438, "Quantum sensing Position": 0.7198797464370728, "Quantum sensing Timing": 0.7096428275108337, "Quantum sensing": 0.7482538223266602, "Quantum control": 0.6914663314819336 } }, { "id": 29, "title": "Photophysics of substituted polythiophenes", "abstract": "We have measured the photoluminescence quantum yield and photoluminescence lifetime for a series of polythiophenes, in solution, and the quantum yield for the same polymers in thin films. Depending on...", "citations": 154, "author_count": 7, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 29, "doi": "10.1021/jp983684u", "umap_coordinates": { "x": 392.2357482910156, "y": 135.96949768066406, "z": 205.30433654785156 }, "tsne_coordinates": { "x": 0.25837409496307373, "y": 3.6825568675994873, "z": -15.6643705368042 }, "pca_coordinates": { "x": -1.8016434907913208, "y": -2.7104291915893555, "z": -0.7270810604095459 }, "axis_scores": { "Quantum imaging": 0.7308546900749207, "Quantum Life Science Sensing": 0.737175464630127, "Quantum sensing Detection": 0.7204404473304749, "Quantum sensing Metrology": 0.7003293037414551, "Quantum sensing navigation": 0.6891846060752869, "Quantum sensing Position": 0.7017697095870972, "Quantum sensing Timing": 0.7153114080429077, "Quantum sensing": 0.7358040809631348, "Quantum control": 0.6920113563537598 } }, { "id": 30, "title": "Unravelling the ultrafast charge dynamics in PbS quantum dots through resonant Auger mapping of the sulfur K-edge", "abstract": "There is a great fundamental interest in charge dynamics of PbS quantum dots, as they are promising for application in photovoltaics and other optoelectronic devices. The ultrafast charge transport is...", "citations": 4, "author_count": 9, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 30, "doi": "10.1039/d2ra06091d", "umap_coordinates": { "x": 392.2347717285156, "y": 135.12120056152344, "z": 206.42889404296875 }, "tsne_coordinates": { "x": 13.211262702941895, "y": -1.521157145500183, "z": 2.942359685897827 }, "pca_coordinates": { "x": -0.5430294871330261, "y": -3.0621581077575684, "z": -1.03895103931427 }, "axis_scores": { "Quantum imaging": 0.7292472124099731, "Quantum Life Science Sensing": 0.7613264322280884, "Quantum sensing Detection": 0.7290030121803284, "Quantum sensing Metrology": 0.7199462056159973, "Quantum sensing navigation": 0.7328330278396606, "Quantum sensing Position": 0.7195590138435364, "Quantum sensing Timing": 0.6955368518829346, "Quantum sensing": 0.7385459542274475, "Quantum control": 0.6852876543998718 } }, { "id": 31, "title": "Photon Cascade from a Single Crystal Phase Nanowire Quantum Dot", "abstract": "We report the first comprehensive experimental and theoretical study of the optical properties of single crystal phase quantum dots in InP nanowires. Crystal phase quantum dots are defined by a transi...", "citations": 41, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 31, "doi": "10.1021/acs.nanolett.5b04217", "umap_coordinates": { "x": 394.0586242675781, "y": 133.68194580078125, "z": 207.75204467773438 }, "tsne_coordinates": { "x": 15.6600341796875, "y": -18.128494262695312, "z": -14.10787582397461 }, "pca_coordinates": { "x": 0.6883828639984131, "y": -4.345879077911377, "z": 2.567789077758789 }, "axis_scores": { "Quantum imaging": 0.7399591207504272, "Quantum Life Science Sensing": 0.7413513660430908, "Quantum sensing Detection": 0.7540677189826965, "Quantum sensing Metrology": 0.7177517414093018, "Quantum sensing navigation": 0.7264484763145447, "Quantum sensing Position": 0.7037824392318726, "Quantum sensing Timing": 0.7000972032546997, "Quantum sensing": 0.7505019903182983, "Quantum control": 0.7060953974723816 } }, { "id": 32, "title": "On-Demand Generation of Entangled Photon Pairs in the Telecom C-Band with InAs Quantum Dots", "abstract": "Entangled photons are an integral part in quantum optics experiments and a key resource in quantum imaging, quantum communication, and photonic quantum information processing. Making this resource ava...", "citations": 61, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 32, "doi": "10.1021/acsphotonics.1c00504", "umap_coordinates": { "x": 393.3944396972656, "y": 134.24815368652344, "z": 207.2327423095703 }, "tsne_coordinates": { "x": 15.886417388916016, "y": -18.95140838623047, "z": -17.525352478027344 }, "pca_coordinates": { "x": -0.33033978939056396, "y": -2.590912342071533, "z": 3.1311187744140625 }, "axis_scores": { "Quantum imaging": 0.7439531683921814, "Quantum Life Science Sensing": 0.7358155250549316, "Quantum sensing Detection": 0.7572970986366272, "Quantum sensing Metrology": 0.7287265062332153, "Quantum sensing navigation": 0.7216647863388062, "Quantum sensing Position": 0.6992774605751038, "Quantum sensing Timing": 0.7102029323577881, "Quantum sensing": 0.7565550208091736, "Quantum control": 0.7037057280540466 } }, { "id": 33, "title": "Observations and quantum information", "abstract": "The concept of quantum information in a state is analysed. For a component of an entangled state, the potential measurements are claimed to define a contest, against which the information is to be int...", "citations": 6, "author_count": 2, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 33, "doi": "10.1080/095003400148222", "umap_coordinates": { "x": 395.4476013183594, "y": 136.83163452148438, "z": 206.3693084716797 }, "tsne_coordinates": { "x": -27.25197982788086, "y": 2.0684592723846436, "z": 5.996812343597412 }, "pca_coordinates": { "x": 1.8583178520202637, "y": 3.2412028312683105, "z": 1.746351957321167 }, "axis_scores": { "Quantum imaging": 0.8032591342926025, "Quantum Life Science Sensing": 0.7982127666473389, "Quantum sensing Detection": 0.8019688725471497, "Quantum sensing Metrology": 0.7831622362136841, "Quantum sensing navigation": 0.79285728931427, "Quantum sensing Position": 0.7621005177497864, "Quantum sensing Timing": 0.7530989050865173, "Quantum sensing": 0.8131536245346069, "Quantum control": 0.7645565867424011 } }, { "id": 34, "title": "Scaling laws of the Kondo problem at finite frequency", "abstract": "Driving a quantum system at finite frequency allows one to explore its dynamics. This has become a well-mastered resource for controlling the quantum state of two-level systems in the context of quant...", "citations": 6, "author_count": 7, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 34, "doi": "10.1103/PhysRevB.98.075121", "umap_coordinates": { "x": 394.59234619140625, "y": 136.6990966796875, "z": 208.49172973632812 }, "tsne_coordinates": { "x": -6.6302080154418945, "y": -25.98219871520996, "z": 8.263957977294922 }, "pca_coordinates": { "x": 5.206491947174072, "y": 0.23970413208007812, "z": -0.49504002928733826 }, "axis_scores": { "Quantum imaging": 0.7180492281913757, "Quantum Life Science Sensing": 0.7594447135925293, "Quantum sensing Detection": 0.7265481948852539, "Quantum sensing Metrology": 0.7195311188697815, "Quantum sensing navigation": 0.7295979857444763, "Quantum sensing Position": 0.7084107398986816, "Quantum sensing Timing": 0.7034018039703369, "Quantum sensing": 0.7335624098777771, "Quantum control": 0.7072397470474243 } }, { "id": 35, "title": "Gate-defined double quantum dot with integrated charge sensors realized in InGaAs/InP by incorporating a high-κ dielectric", "abstract": "A gate-defined double quantum dot with two integrated quantum point contact charge sensors is realized in an InGaAs/InP heterostructure by employing a high-kappa HfO(2) thin film as gate dielectric an...", "citations": 8, "author_count": 5, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 35, "doi": "10.1063/1.3409223", "umap_coordinates": { "x": 392.80810546875, "y": 133.9204559326172, "z": 208.2334442138672 }, "tsne_coordinates": { "x": 29.289100646972656, "y": -20.9925594329834, "z": 5.854940414428711 }, "pca_coordinates": { "x": 0.605259895324707, "y": -3.7909274101257324, "z": 3.760791301727295 }, "axis_scores": { "Quantum imaging": 0.7589481472969055, "Quantum Life Science Sensing": 0.7497324347496033, "Quantum sensing Detection": 0.767895519733429, "Quantum sensing Metrology": 0.757357656955719, "Quantum sensing navigation": 0.7406717538833618, "Quantum sensing Position": 0.7316882610321045, "Quantum sensing Timing": 0.717546820640564, "Quantum sensing": 0.7739729881286621, "Quantum control": 0.7093158960342407 } }, { "id": 36, "title": "Current-voltage asymmetries and negative differential conductance due to strong electron correlations in double quantum dots - art. no. 085301", "abstract": "A theory for asymmetric current-voltage characteristics, in particular negative differential conductance, for double quantum dots with strongly correlated electron states is formulated. By expressing ...", "citations": 41, "author_count": 3, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 36, "doi": "10.1103/PhysRevB.70.085301", "umap_coordinates": { "x": 393.91253662109375, "y": 135.1194305419922, "z": 208.6962890625 }, "tsne_coordinates": { "x": 2.309872627258301, "y": -28.27280044555664, "z": -2.4751973152160645 }, "pca_coordinates": { "x": 2.99137020111084, "y": -2.6032590866088867, "z": 0.8372629284858704 }, "axis_scores": { "Quantum imaging": 0.7188954949378967, "Quantum Life Science Sensing": 0.7045547962188721, "Quantum sensing Detection": 0.7107605934143066, "Quantum sensing Metrology": 0.6879364252090454, "Quantum sensing navigation": 0.7027294635772705, "Quantum sensing Position": 0.6822400689125061, "Quantum sensing Timing": 0.6702086925506592, "Quantum sensing": 0.7107684016227722, "Quantum control": 0.6825129389762878 } }, { "id": 37, "title": "Transduction of quantum information from charge qubit to nanomechanical cat-state", "abstract": "We suggest a nanoelectromechanical setup and corresponding time-protocol of its manipulation by which we transduce quantum information from charge qubit to nanomechanical cat-state. The setup is based...", "citations": 4, "author_count": 5, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 37, "doi": "10.1016/j.physb.2023.415049", "umap_coordinates": { "x": 394.4726867675781, "y": 136.3014373779297, "z": 206.73455810546875 }, "tsne_coordinates": { "x": -11.757364273071289, "y": 6.65909481048584, "z": 12.120923042297363 }, "pca_coordinates": { "x": 2.0780539512634277, "y": 0.13833189010620117, "z": -0.29440584778785706 }, "axis_scores": { "Quantum imaging": 0.7763552069664001, "Quantum Life Science Sensing": 0.795676052570343, "Quantum sensing Detection": 0.7913631796836853, "Quantum sensing Metrology": 0.784112811088562, "Quantum sensing navigation": 0.7888635993003845, "Quantum sensing Position": 0.7774040699005127, "Quantum sensing Timing": 0.7333647012710571, "Quantum sensing": 0.8051452040672302, "Quantum control": 0.7663648128509521 } }, { "id": 38, "title": "Quantum error correction with dissipatively stabilized squeezed-cat qubits", "abstract": "Noise-biased qubits are a promising route toward significantly reducing the hardware overhead associated with quantum error correction. The squeezed-cat code, a nonlocal encoding in phase space based ...", "citations": 27, "author_count": 3, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 38, "doi": "10.1103/PhysRevA.107.032423", "umap_coordinates": { "x": 395.3697204589844, "y": 136.20648193359375, "z": 208.0467529296875 }, "tsne_coordinates": { "x": -21.654674530029297, "y": -17.431833267211914, "z": -7.239791393280029 }, "pca_coordinates": { "x": 5.331082344055176, "y": -0.555943489074707, "z": 1.9745745658874512 }, "axis_scores": { "Quantum imaging": 0.7210103273391724, "Quantum Life Science Sensing": 0.7092911005020142, "Quantum sensing Detection": 0.7451356649398804, "Quantum sensing Metrology": 0.7238520383834839, "Quantum sensing navigation": 0.7537617683410645, "Quantum sensing Position": 0.7200016975402832, "Quantum sensing Timing": 0.7124933004379272, "Quantum sensing": 0.7511988282203674, "Quantum control": 0.7410858273506165 } }, { "id": 39, "title": "Quantum dot asymmetry and the nature of excited hole states probed by the doubly positively charged exciton X2+", "abstract": "In this experimental and theoretical study, it was found that the emission pattern of the doubly positively charged exciton complex X2+ strongly depends on the nature of the involved excited hole stat...", "citations": 6, "author_count": 8, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 39, "doi": "10.1103/PhysRevB.88.045321", "umap_coordinates": { "x": 393.8408508300781, "y": 135.352783203125, "z": 208.2789764404297 }, "tsne_coordinates": { "x": 3.884761095046997, "y": -27.705778121948242, "z": -2.8505666255950928 }, "pca_coordinates": { "x": 1.672393798828125, "y": -2.1592555046081543, "z": -1.0112096071243286 }, "axis_scores": { "Quantum imaging": 0.7064328193664551, "Quantum Life Science Sensing": 0.6993266344070435, "Quantum sensing Detection": 0.6959854960441589, "Quantum sensing Metrology": 0.6764883399009705, "Quantum sensing navigation": 0.6900126934051514, "Quantum sensing Position": 0.6962343454360962, "Quantum sensing Timing": 0.6760001182556152, "Quantum sensing": 0.7069070339202881, "Quantum control": 0.6936972141265869 } }, { "id": 40, "title": "Combinatorial structure of a holonomic controlled phase gate", "abstract": "We investigate the combinatorial structures of a holonomic controlled quantum gate based on toric varieties. In particular, we in detail discuss the combinatorial structures of a two-qubit holonomic c...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 40, "doi": "10.1063/1.3688963", "umap_coordinates": { "x": 394.85662841796875, "y": 137.36862182617188, "z": 207.55245971679688 }, "tsne_coordinates": { "x": -32.567222595214844, "y": -9.067930221557617, "z": 13.644606590270996 }, "pca_coordinates": { "x": 3.0112481117248535, "y": 2.4631009101867676, "z": -0.2723628580570221 }, "axis_scores": { "Quantum imaging": 0.7181594967842102, "Quantum Life Science Sensing": 0.6976146697998047, "Quantum sensing Detection": 0.7084667682647705, "Quantum sensing Metrology": 0.7087897062301636, "Quantum sensing navigation": 0.7343344688415527, "Quantum sensing Position": 0.7075765132904053, "Quantum sensing Timing": 0.7161661982536316, "Quantum sensing": 0.7233770489692688, "Quantum control": 0.741620659828186 } }, { "id": 41, "title": "Detection of charge states in nanowire quantum dots using a quantum point contact", "abstract": "The authors demonstrate operation of a charge readout scheme for quantum dots in a semiconductor nanowire using a quantum point contact defined in a GaAs/AlGaAs two-dimensional electron gas beneath th...", "citations": 29, "author_count": 8, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 41, "doi": "10.1063/1.2732829", "umap_coordinates": { "x": 393.5563049316406, "y": 134.22665405273438, "z": 208.4007110595703 }, "tsne_coordinates": { "x": 24.288372039794922, "y": -28.762990951538086, "z": 3.026008129119873 }, "pca_coordinates": { "x": 1.7811322212219238, "y": -4.291291236877441, "z": 3.070065975189209 }, "axis_scores": { "Quantum imaging": 0.7354980707168579, "Quantum Life Science Sensing": 0.7624979019165039, "Quantum sensing Detection": 0.7851694226264954, "Quantum sensing Metrology": 0.7628772258758545, "Quantum sensing navigation": 0.7443165183067322, "Quantum sensing Position": 0.768297553062439, "Quantum sensing Timing": 0.7236043214797974, "Quantum sensing": 0.7827666401863098, "Quantum control": 0.7238296866416931 } }, { "id": 42, "title": "Semi-definite programming and quantum information", "abstract": "This paper presents a comprehensive exploration of semi-definite programming (SDP) techniques within the context of quantum information. It examines the mathematical foundations of convex optimization...", "citations": 14, "author_count": 2, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 42, "doi": "10.1088/1751-8121/ad2b85", "umap_coordinates": { "x": 394.9723205566406, "y": 136.91078186035156, "z": 206.41598510742188 }, "tsne_coordinates": { "x": -32.145294189453125, "y": -6.746151924133301, "z": -1.8971854448318481 }, "pca_coordinates": { "x": 1.2452125549316406, "y": 1.2120447158813477, "z": -0.06442850828170776 }, "axis_scores": { "Quantum imaging": 0.7775618433952332, "Quantum Life Science Sensing": 0.7494301795959473, "Quantum sensing Detection": 0.7645188570022583, "Quantum sensing Metrology": 0.7501124739646912, "Quantum sensing navigation": 0.7728165984153748, "Quantum sensing Position": 0.7376365065574646, "Quantum sensing Timing": 0.7221482396125793, "Quantum sensing": 0.7799129486083984, "Quantum control": 0.764764666557312 } }, { "id": 43, "title": "Direct generation of three-photon polarization entanglement", "abstract": "Non-classical states of light are of fundamental importance for emerging quantum technologies. All optics experiments producing multi-qubit entangled states have until now relied on outcome post-selec...", "citations": 157, "author_count": 11, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 43, "doi": "10.1038/NPHOTON.2014.218", "umap_coordinates": { "x": 395.3310241699219, "y": 135.4756317138672, "z": 207.0330352783203 }, "tsne_coordinates": { "x": -19.387605667114258, "y": -6.942288398742676, "z": -10.512853622436523 }, "pca_coordinates": { "x": 0.2601156234741211, "y": -0.3062131404876709, "z": 2.8017382621765137 }, "axis_scores": { "Quantum imaging": 0.7879650592803955, "Quantum Life Science Sensing": 0.7633853554725647, "Quantum sensing Detection": 0.7835454940795898, "Quantum sensing Metrology": 0.7326393127441406, "Quantum sensing navigation": 0.7649997472763062, "Quantum sensing Position": 0.7168174982070923, "Quantum sensing Timing": 0.7035054564476013, "Quantum sensing": 0.7835267186164856, "Quantum control": 0.7348777651786804 } }, { "id": 44, "title": "Facile synthesis of nitrogen, sulfur co-doped carbon quantum dots for selective detection of mercury (II)", "abstract": "Developing carbon quantum dots with high throughput and quantum yields is important to boost their application in environmental detection. This study proposes nitrogen, sulfur co-doped carbon quantum ...", "citations": 52, "author_count": 8, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 44, "doi": "10.1007/s10311-023-01660-9", "umap_coordinates": { "x": 392.90716552734375, "y": 133.70211791992188, "z": 205.32427978515625 }, "tsne_coordinates": { "x": 22.229366302490234, "y": 10.750741958618164, "z": -11.597396850585938 }, "pca_coordinates": { "x": -3.832075595855713, "y": -2.197279453277588, "z": 1.0872890949249268 }, "axis_scores": { "Quantum imaging": 0.686236560344696, "Quantum Life Science Sensing": 0.7090890407562256, "Quantum sensing Detection": 0.7149067521095276, "Quantum sensing Metrology": 0.6969687938690186, "Quantum sensing navigation": 0.6990244388580322, "Quantum sensing Position": 0.6725732684135437, "Quantum sensing Timing": 0.6540466547012329, "Quantum sensing": 0.7117801904678345, "Quantum control": 0.6683918237686157 } }, { "id": 45, "title": "A geometric framework for mixed quantum states based on a Kahler structure", "abstract": "In this paper we introduce a geometric framework for mixed quantum states based on a Kahler structure. The geometric framework includes a symplectic form, an almost complex structure, and a Riemannian...", "citations": 6, "author_count": 2, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 45, "doi": "10.1088/1751-8113/48/25/255301", "umap_coordinates": { "x": 395.22808837890625, "y": 137.62010192871094, "z": 207.07968139648438 }, "tsne_coordinates": { "x": -36.15909194946289, "y": -6.6423869132995605, "z": 7.266408443450928 }, "pca_coordinates": { "x": 2.680771827697754, "y": 4.237826347351074, "z": -0.6860451698303223 }, "axis_scores": { "Quantum imaging": 0.6967983245849609, "Quantum Life Science Sensing": 0.6704981327056885, "Quantum sensing Detection": 0.6599858999252319, "Quantum sensing Metrology": 0.6757665872573853, "Quantum sensing navigation": 0.700254499912262, "Quantum sensing Position": 0.6737468838691711, "Quantum sensing Timing": 0.6413761377334595, "Quantum sensing": 0.6793022155761719, "Quantum control": 0.6734938025474548 } }, { "id": 46, "title": "Phonon-Assisted Two-Photon Interference from Remote Quantum Emitters", "abstract": "Photonic quantum technologies are on the verge of finding applications in everyday life with quantum cryptography and quantum simulators on the horizon. Extensive research has been carried out to iden...", "citations": 98, "author_count": 9, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 46, "doi": "10.1021/acs.nanolett.7b00777", "umap_coordinates": { "x": 392.8873291015625, "y": 134.54107666015625, "z": 206.43594360351562 }, "tsne_coordinates": { "x": 13.09504508972168, "y": -15.189600944519043, "z": -15.998394966125488 }, "pca_coordinates": { "x": -0.6237033605575562, "y": -2.274512767791748, "z": 2.889322280883789 }, "axis_scores": { "Quantum imaging": 0.7280744910240173, "Quantum Life Science Sensing": 0.7128697633743286, "Quantum sensing Detection": 0.730396032333374, "Quantum sensing Metrology": 0.7033560872077942, "Quantum sensing navigation": 0.7099004983901978, "Quantum sensing Position": 0.693795919418335, "Quantum sensing Timing": 0.6921893954277039, "Quantum sensing": 0.7360948324203491, "Quantum control": 0.6868224740028381 } }, { "id": 47, "title": "Strain-Controlled Quantum Dot Fine Structure for Entangled Photon Generation at 1550 nm", "abstract": "Entangled photon generation at 1550 nm in the telecom C-band is of critical importance as it enables the realization of quantum communication protocols over long distance using deployed telecommunicat...", "citations": 37, "author_count": 13, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 47, "doi": "10.1021/acs.nanolett.1c04024", "umap_coordinates": { "x": 392.7016906738281, "y": 134.24732971191406, "z": 206.8533172607422 }, "tsne_coordinates": { "x": 17.09954833984375, "y": -14.431291580200195, "z": -11.716903686523438 }, "pca_coordinates": { "x": -0.36887073516845703, "y": -3.7605814933776855, "z": 0.7159373164176941 }, "axis_scores": { "Quantum imaging": 0.7476388216018677, "Quantum Life Science Sensing": 0.7527350187301636, "Quantum sensing Detection": 0.736215353012085, "Quantum sensing Metrology": 0.7373324036598206, "Quantum sensing navigation": 0.7413393259048462, "Quantum sensing Position": 0.7397325038909912, "Quantum sensing Timing": 0.7127470374107361, "Quantum sensing": 0.7536060810089111, "Quantum control": 0.7436539530754089 } }, { "id": 48, "title": "Hybridization of Electron and Hole States in Semiconductor Quantum-Dot Molecules", "abstract": "", "citations": 17, "author_count": 8, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 48, "doi": "10.1002/smll.200801214", "umap_coordinates": { "x": 392.761474609375, "y": 135.3492889404297, "z": 207.3419647216797 }, "tsne_coordinates": { "x": 23.6932315826416, "y": -2.5034494400024414, "z": 13.512948989868164 }, "pca_coordinates": { "x": 1.417236089706421, "y": -2.825148582458496, "z": -0.3357464075088501 }, "axis_scores": { "Quantum imaging": 0.7478266358375549, "Quantum Life Science Sensing": 0.7416572570800781, "Quantum sensing Detection": 0.745972216129303, "Quantum sensing Metrology": 0.7259483337402344, "Quantum sensing navigation": 0.7348012328147888, "Quantum sensing Position": 0.717668890953064, "Quantum sensing Timing": 0.692257821559906, "Quantum sensing": 0.7506899833679199, "Quantum control": 0.712942361831665 } }, { "id": 49, "title": "Two-particle time-domain interferometry in the fractional quantum Hall effect regime", "abstract": "Quasi-particles are elementary excitations of condensed matter quantum phases. Demonstrating that they keep quantum coherence while propagating is a fundamental issue for their manipulation for quantu...", "citations": 12, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 49, "doi": "10.1038/s41467-022-33603-3", "umap_coordinates": { "x": 393.66864013671875, "y": 135.9886932373047, "z": 207.43411254882812 }, "tsne_coordinates": { "x": 8.147737503051758, "y": -9.539031982421875, "z": 20.501880645751953 }, "pca_coordinates": { "x": 1.5865986347198486, "y": 0.7075732946395874, "z": 0.06744569540023804 }, "axis_scores": { "Quantum imaging": 0.7434183359146118, "Quantum Life Science Sensing": 0.7490390539169312, "Quantum sensing Detection": 0.7295453548431396, "Quantum sensing Metrology": 0.7344943881034851, "Quantum sensing navigation": 0.7400073409080505, "Quantum sensing Position": 0.7302083373069763, "Quantum sensing Timing": 0.7545770406723022, "Quantum sensing": 0.7481933832168579, "Quantum control": 0.7136908173561096 } }, { "id": 50, "title": "Spectroscopic studies of random telegraph noise in InAs quantum dots in GaAs", "abstract": "We have observed and investigated random telegraph noise in the photoluminescence from InAs quantum dots in GaAs. The luminescence from a single quantum dot, exhibiting switching between two levels, h...", "citations": 11, "author_count": 7, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 50, "doi": "10.1063/1.1518792", "umap_coordinates": { "x": 393.2396545410156, "y": 134.2821044921875, "z": 208.47872924804688 }, "tsne_coordinates": { "x": 19.02861976623535, "y": -26.618568420410156, "z": 3.651602029800415 }, "pca_coordinates": { "x": 2.1486666202545166, "y": -1.9082016944885254, "z": 2.489622116088867 }, "axis_scores": { "Quantum imaging": 0.7472001910209656, "Quantum Life Science Sensing": 0.7416725158691406, "Quantum sensing Detection": 0.7540802955627441, "Quantum sensing Metrology": 0.7481077909469604, "Quantum sensing navigation": 0.7564226388931274, "Quantum sensing Position": 0.732708215713501, "Quantum sensing Timing": 0.7308567762374878, "Quantum sensing": 0.7670483589172363, "Quantum control": 0.7045694589614868 } }, { "id": 51, "title": "LATERAL QUANTIZATION EFFECTS IN LITHOGRAPHICALLY DEFINED CDZNSE/ZNSE QUANTUM DOTS AND QUANTUM WIRES", "abstract": "", "citations": 67, "author_count": 9, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 51, "doi": "10.1063/1.115504", "umap_coordinates": { "x": 392.8982849121094, "y": 134.23971557617188, "z": 207.9279327392578 }, "tsne_coordinates": { "x": 28.370473861694336, "y": -13.974910736083984, "z": -4.356128692626953 }, "pca_coordinates": { "x": 1.770967721939087, "y": -3.0384984016418457, "z": 0.8386320471763611 }, "axis_scores": { "Quantum imaging": 0.7578426003456116, "Quantum Life Science Sensing": 0.735856294631958, "Quantum sensing Detection": 0.7529295086860657, "Quantum sensing Metrology": 0.7550106048583984, "Quantum sensing navigation": 0.7662946581840515, "Quantum sensing Position": 0.7489655017852783, "Quantum sensing Timing": 0.7291415929794312, "Quantum sensing": 0.7674916386604309, "Quantum control": 0.7598303556442261 } }, { "id": 52, "title": "Excited state dynamics in In0.5Al0.04Ga0.46As/Al0.08Ga0.92As self-assembled quantum dots", "abstract": "We use time-resolved photoluminescence spectroscopy to probe the relaxation of excited states in In0.5Al0.04Ga0.40As/Al0.08Ga0.92As self-assembled quantum dots. The relaxation rate of excitons confine...", "citations": 1, "author_count": 7, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 52, "doi": "10.1002/1521-3951(200103)224:2<447::AID-PSSB447>3.0.CO;2-F", "umap_coordinates": { "x": 392.50311279296875, "y": 134.6807861328125, "z": 207.66925048828125 }, "tsne_coordinates": { "x": 31.1502685546875, "y": -1.9231663942337036, "z": 17.217079162597656 }, "pca_coordinates": { "x": -0.04896104335784912, "y": -2.086799144744873, "z": -1.1091904640197754 }, "axis_scores": { "Quantum imaging": 0.7267588376998901, "Quantum Life Science Sensing": 0.7414539456367493, "Quantum sensing Detection": 0.7209649085998535, "Quantum sensing Metrology": 0.7076162099838257, "Quantum sensing navigation": 0.7296624183654785, "Quantum sensing Position": 0.7045063376426697, "Quantum sensing Timing": 0.7052391767501831, "Quantum sensing": 0.7321418523788452, "Quantum control": 0.7257298231124878 } }, { "id": 53, "title": "Evaluation of a photon counting mammography system", "abstract": "The most natural way of digital X-ray imaging is photon counting as the photon flux in itself is digital. In photon counting, the information in the X-ray flux is used more efficiently as the informat...", "citations": 15, "author_count": 13, "categories": [ "Engineering" ], "year": 2002, "topic": [ "all" ], "embedding_index": 53, "doi": "10.1117/12.465560", "umap_coordinates": { "x": 395.3638916015625, "y": 132.76400756835938, "z": 205.81138610839844 }, "tsne_coordinates": { "x": -6.470556259155273, "y": 21.517059326171875, "z": -25.373321533203125 }, "pca_coordinates": { "x": -3.0996100902557373, "y": 1.685612440109253, "z": 4.7415947914123535 }, "axis_scores": { "Quantum imaging": 0.7394394874572754, "Quantum Life Science Sensing": 0.716440737247467, "Quantum sensing Detection": 0.7364919781684875, "Quantum sensing Metrology": 0.7171630859375, "Quantum sensing navigation": 0.7108278274536133, "Quantum sensing Position": 0.7083498239517212, "Quantum sensing Timing": 0.6999117136001587, "Quantum sensing": 0.7286200523376465, "Quantum control": 0.6650757193565369 } }, { "id": 54, "title": "Changes in luminescence intensities and carrier dynamics induced by proton irradiation in InxGa1-xAs/GaAs quantum dots - art. no. 235314", "abstract": "The effects of proton irradiation (1.5 MeV) on photoluminescence intensities and carrier dynamics were compared between InGaAs/GaAs quantum dots and similar quantum well structures. A significant enha...", "citations": 31, "author_count": 8, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 54, "doi": "10.1103/PhysRevB.66.235314", "umap_coordinates": { "x": 393.4030456542969, "y": 135.1023712158203, "z": 208.96104431152344 }, "tsne_coordinates": { "x": 9.427023887634277, "y": -33.143062591552734, "z": -1.1061490774154663 }, "pca_coordinates": { "x": 2.905134677886963, "y": -0.8236434459686279, "z": -0.4349832534790039 }, "axis_scores": { "Quantum imaging": 0.6889347434043884, "Quantum Life Science Sensing": 0.7024684548377991, "Quantum sensing Detection": 0.682285487651825, "Quantum sensing Metrology": 0.6667339205741882, "Quantum sensing navigation": 0.6804052591323853, "Quantum sensing Position": 0.667939305305481, "Quantum sensing Timing": 0.6731640100479126, "Quantum sensing": 0.6890782713890076, "Quantum control": 0.6672781109809875 } }, { "id": 55, "title": "Information gain when measuring an unknown qubit", "abstract": "In quantum information the fundamental information-containing system is the qubit. A measurement of a single qubit can at most yield one classical bit. However, a dichotomous measurement of an unknown...", "citations": 6, "author_count": 2, "categories": [ "Education & Educational Research" ], "year": 2018, "topic": [ "all" ], "embedding_index": 55, "doi": "10.1088/1361-6404/aa94e4", "umap_coordinates": { "x": 395.41632080078125, "y": 136.16098022460938, "z": 206.5366668701172 }, "tsne_coordinates": { "x": -35.38014221191406, "y": -3.6771891117095947, "z": -3.629673719406128 }, "pca_coordinates": { "x": 1.8840854167938232, "y": 3.6928579807281494, "z": 2.1589090824127197 }, "axis_scores": { "Quantum imaging": 0.7675662636756897, "Quantum Life Science Sensing": 0.7542999982833862, "Quantum sensing Detection": 0.7701135873794556, "Quantum sensing Metrology": 0.7567942142486572, "Quantum sensing navigation": 0.7561362981796265, "Quantum sensing Position": 0.7507357597351074, "Quantum sensing Timing": 0.732190728187561, "Quantum sensing": 0.7838709354400635, "Quantum control": 0.7359985113143921 } }, { "id": 56, "title": "Fermion-parity qubit in a proximitized double quantum dot", "abstract": "Bound states in quantum dots coupled to superconductors can be in a coherent superposition of states with different electron number but with the same fermion parity. Electrostatic gating can tune this...", "citations": 10, "author_count": 7, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 56, "doi": "10.1103/PhysRevResearch.6.023281", "umap_coordinates": { "x": 394.26025390625, "y": 135.72511291503906, "z": 208.32882690429688 }, "tsne_coordinates": { "x": -0.4565068185329437, "y": -21.27118682861328, "z": 2.7719390392303467 }, "pca_coordinates": { "x": 3.3253016471862793, "y": -1.5631403923034668, "z": 0.01634800434112549 }, "axis_scores": { "Quantum imaging": 0.7451739311218262, "Quantum Life Science Sensing": 0.7458468079566956, "Quantum sensing Detection": 0.7531134486198425, "Quantum sensing Metrology": 0.7434225678443909, "Quantum sensing navigation": 0.7591704726219177, "Quantum sensing Position": 0.7623018622398376, "Quantum sensing Timing": 0.7266958355903625, "Quantum sensing": 0.7609493732452393, "Quantum control": 0.7221216559410095 } }, { "id": 57, "title": "Optically detected microwave resonance and carrier dynamics in InAs/GaAs quantum dots", "abstract": "The properties of small-sized high density InAs/GaAs quantum dots (emitting at 1.25 eV) are studied by means of optically detected microwave resonance spectroscopy and time resolved photoluminescence ...", "citations": 1, "author_count": 8, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 57, "doi": null, "umap_coordinates": { "x": 391.6910400390625, "y": 139.13352966308594, "z": 209.35623168945312 }, "tsne_coordinates": { "x": -12.216087341308594, "y": 45.7825813293457, "z": -5.739531517028809 }, "pca_coordinates": { "x": 0.4490206241607666, "y": 0.666083812713623, "z": -1.0634276866912842 }, "axis_scores": { "Quantum imaging": 0.7336625456809998, "Quantum Life Science Sensing": 0.7500659823417664, "Quantum sensing Detection": 0.7534493207931519, "Quantum sensing Metrology": 0.7217015624046326, "Quantum sensing navigation": 0.7365796566009521, "Quantum sensing Position": 0.7122580409049988, "Quantum sensing Timing": 0.7059968709945679, "Quantum sensing": 0.739354133605957, "Quantum control": 0.7131299376487732 } }, { "id": 58, "title": "Quantum interference in transport through almost symmetric double quantum dots", "abstract": "We theoretically investigate transport signatures of quantum interference in highly symmetric double quantum dots in a parallel geometry and demonstrate that extremely weak symmetry-breaking effects c...", "citations": 11, "author_count": 3, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 58, "doi": "10.1103/PhysRevB.99.125406", "umap_coordinates": { "x": 394.17474365234375, "y": 135.15362548828125, "z": 208.89036560058594 }, "tsne_coordinates": { "x": -2.1529669761657715, "y": -27.65625762939453, "z": -1.9981492757797241 }, "pca_coordinates": { "x": 5.085336685180664, "y": -2.023972511291504, "z": 2.083864688873291 }, "axis_scores": { "Quantum imaging": 0.7695093154907227, "Quantum Life Science Sensing": 0.7324182987213135, "Quantum sensing Detection": 0.7591466307640076, "Quantum sensing Metrology": 0.7455824613571167, "Quantum sensing navigation": 0.7572634220123291, "Quantum sensing Position": 0.7205678224563599, "Quantum sensing Timing": 0.7368890047073364, "Quantum sensing": 0.766044557094574, "Quantum control": 0.7346218824386597 } }, { "id": 59, "title": "Tracking the Dynamics of an Ideal Quantum Measurement", "abstract": "The existence of ideal quantum measurements is one of the fundamental predictions of quantum mechanics. In theory, an ideal measurement projects a quantum state onto the eigenbasis of the measurement ...", "citations": 23, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 59, "doi": "10.1103/PhysRevLett.124.080401", "umap_coordinates": { "x": 394.87200927734375, "y": 136.9652862548828, "z": 207.32118225097656 }, "tsne_coordinates": { "x": -23.238182067871094, "y": -19.642168045043945, "z": 2.6859326362609863 }, "pca_coordinates": { "x": 4.235616207122803, "y": 1.3132972717285156, "z": 1.4425458908081055 }, "axis_scores": { "Quantum imaging": 0.8018344044685364, "Quantum Life Science Sensing": 0.7828806638717651, "Quantum sensing Detection": 0.7921575307846069, "Quantum sensing Metrology": 0.7757484316825867, "Quantum sensing navigation": 0.8012070655822754, "Quantum sensing Position": 0.7960550785064697, "Quantum sensing Timing": 0.7907504439353943, "Quantum sensing": 0.7944444417953491, "Quantum control": 0.7859135270118713 } }, { "id": 60, "title": "Effects of Shape and Strain Distribution of Quantum Dots on Optical Transition in the Quantum Dot Infrared Photodetectors", "abstract": "We present a systemic theoretical study of the electronic properties of the quantum dots inserted in quantum dot infrared photodetectors (QDIPs). The strain distribution of three different shaped quan...", "citations": 24, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 60, "doi": "10.1007/s11671-008-9175-8", "umap_coordinates": { "x": 392.8880920410156, "y": 134.26629638671875, "z": 207.04905700683594 }, "tsne_coordinates": { "x": 33.12882614135742, "y": -1.266080379486084, "z": 8.731376647949219 }, "pca_coordinates": { "x": -2.228846788406372, "y": -2.2112507820129395, "z": 0.602216899394989 }, "axis_scores": { "Quantum imaging": 0.7121900320053101, "Quantum Life Science Sensing": 0.7288858294487, "Quantum sensing Detection": 0.7003562450408936, "Quantum sensing Metrology": 0.6963911056518555, "Quantum sensing navigation": 0.6798915863037109, "Quantum sensing Position": 0.7081297636032104, "Quantum sensing Timing": 0.6963352560997009, "Quantum sensing": 0.7124456167221069, "Quantum control": 0.6849532723426819 } }, { "id": 61, "title": "Origin of photocurrent in lateral quantum dots-in-a-well infrared photodetectors", "abstract": "Interband and intersubband transitions of lateral InAs/In0.15Ga0.85As dots-in-a-well quantum dot infrared photodetectors were studied in order to determine the origin of the photocurrent. The main int...", "citations": 46, "author_count": 10, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 61, "doi": "10.1063/1.2207493", "umap_coordinates": { "x": 392.8768005371094, "y": 133.66990661621094, "z": 207.84091186523438 }, "tsne_coordinates": { "x": 34.98895263671875, "y": -19.211275100708008, "z": -1.5684328079223633 }, "pca_coordinates": { "x": -0.3826078176498413, "y": -4.636908531188965, "z": 1.5514681339263916 }, "axis_scores": { "Quantum imaging": 0.7102815508842468, "Quantum Life Science Sensing": 0.7173207402229309, "Quantum sensing Detection": 0.7098285555839539, "Quantum sensing Metrology": 0.6795539855957031, "Quantum sensing navigation": 0.6936917304992676, "Quantum sensing Position": 0.6892618536949158, "Quantum sensing Timing": 0.6744565963745117, "Quantum sensing": 0.7123225927352905, "Quantum control": 0.6690086722373962 } }, { "id": 62, "title": "Observation of spin-dependent quantum jumps via quantum dot resonance fluorescence", "abstract": "Reliable preparation, manipulation and measurement protocols are necessary to exploit a physical system as a quantum bit(1). Spins in optically active quantum dots offer one potential realization(2,3)...", "citations": 145, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 62, "doi": "10.1038/nature09359", "umap_coordinates": { "x": 393.5741882324219, "y": 135.9223175048828, "z": 206.89381408691406 }, "tsne_coordinates": { "x": -6.13685417175293, "y": -5.322033405303955, "z": -8.091306686401367 }, "pca_coordinates": { "x": 0.8884849548339844, "y": -1.86625337600708, "z": -0.3687933087348938 }, "axis_scores": { "Quantum imaging": 0.7756693959236145, "Quantum Life Science Sensing": 0.7878260612487793, "Quantum sensing Detection": 0.7799819111824036, "Quantum sensing Metrology": 0.755177915096283, "Quantum sensing navigation": 0.78255295753479, "Quantum sensing Position": 0.7507855892181396, "Quantum sensing Timing": 0.7463682293891907, "Quantum sensing": 0.7881674766540527, "Quantum control": 0.7381042242050171 } }, { "id": 63, "title": "Effects of non-orthogonality and electron correlations on the time-dependent current through quantum dots", "abstract": "Three issues are analyzed in the physics of time-dependent tunneling current through a quantum dot with strongly correlated electrons coupled to two external contact leads: (i) nonorthogonality of the...", "citations": 30, "author_count": 4, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 63, "doi": "10.1103/PhysRevB.66.195319", "umap_coordinates": { "x": 394.3177795410156, "y": 135.4347381591797, "z": 208.15267944335938 }, "tsne_coordinates": { "x": -7.233506679534912, "y": -32.776573181152344, "z": -5.306822776794434 }, "pca_coordinates": { "x": 3.287044048309326, "y": -1.1683082580566406, "z": 1.5549910068511963 }, "axis_scores": { "Quantum imaging": 0.7422477602958679, "Quantum Life Science Sensing": 0.7421090602874756, "Quantum sensing Detection": 0.7410022616386414, "Quantum sensing Metrology": 0.7155666351318359, "Quantum sensing navigation": 0.7328588962554932, "Quantum sensing Position": 0.7072066068649292, "Quantum sensing Timing": 0.7326693534851074, "Quantum sensing": 0.7427154779434204, "Quantum control": 0.7273902893066406 } }, { "id": 64, "title": "Quantum correlations in dual quantum measurements", "abstract": "We analyze the quantum measurement properties of dual non-degenerate parametric amplifers in the twin-beam configuration, in the cascaded back-action-evasion configuration, and in Kerr-type photon-num...", "citations": 8, "author_count": 3, "categories": [ "Optics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 64, "doi": "10.1007/s003400050169", "umap_coordinates": { "x": 395.1227722167969, "y": 136.11566162109375, "z": 206.7142333984375 }, "tsne_coordinates": { "x": -38.1446647644043, "y": 2.585237741470337, "z": 12.766806602478027 }, "pca_coordinates": { "x": 2.188917636871338, "y": 1.1822445392608643, "z": 2.4327540397644043 }, "axis_scores": { "Quantum imaging": 0.7858189940452576, "Quantum Life Science Sensing": 0.7785889506340027, "Quantum sensing Detection": 0.7956421375274658, "Quantum sensing Metrology": 0.7812994718551636, "Quantum sensing navigation": 0.8006996512413025, "Quantum sensing Position": 0.7794550657272339, "Quantum sensing Timing": 0.7594103813171387, "Quantum sensing": 0.8000354170799255, "Quantum control": 0.7351608276367188 } }, { "id": 65, "title": "Giant, Level-Dependent g Factors in InSb Nanowire Quantum Dots", "abstract": "We report on magnetotransport measurements on InSb nanowire quantum dots. The measurements show that the quantum levels of the InSb quantum dots have giant g factors, with absolute values up to simila...", "citations": 248, "author_count": 9, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 65, "doi": "10.1021/nl901333a", "umap_coordinates": { "x": 392.4455261230469, "y": 134.2063751220703, "z": 207.5343780517578 }, "tsne_coordinates": { "x": 14.868386268615723, "y": -20.127256393432617, "z": -4.1695990562438965 }, "pca_coordinates": { "x": 0.5128246545791626, "y": -3.8165717124938965, "z": -0.8192811012268066 }, "axis_scores": { "Quantum imaging": 0.7184668183326721, "Quantum Life Science Sensing": 0.7422857880592346, "Quantum sensing Detection": 0.7240269780158997, "Quantum sensing Metrology": 0.7047924995422363, "Quantum sensing navigation": 0.7379506230354309, "Quantum sensing Position": 0.6996425986289978, "Quantum sensing Timing": 0.6864306926727295, "Quantum sensing": 0.7380152344703674, "Quantum control": 0.7043102383613586 } }, { "id": 66, "title": "A stable wavelength-tunable triggered source of single photons and cascaded photon pairs at the telecom C-band", "abstract": "The implementation of fiber-based long-range quantum communication requires tunable sources of single photons at the telecom C-band. Stable and easy-to-implement wavelength-tunability of individual so...", "citations": 26, "author_count": 12, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 66, "doi": "10.1063/1.5021483", "umap_coordinates": { "x": 394.63720703125, "y": 133.58062744140625, "z": 207.52394104003906 }, "tsne_coordinates": { "x": -8.960953712463379, "y": 5.651541709899902, "z": -36.09905242919922 }, "pca_coordinates": { "x": -0.31603384017944336, "y": -1.96775484085083, "z": 2.6795458793640137 }, "axis_scores": { "Quantum imaging": 0.6740570068359375, "Quantum Life Science Sensing": 0.712129533290863, "Quantum sensing Detection": 0.72188401222229, "Quantum sensing Metrology": 0.6983275413513184, "Quantum sensing navigation": 0.6650711297988892, "Quantum sensing Position": 0.6632547974586487, "Quantum sensing Timing": 0.7026591897010803, "Quantum sensing": 0.716977059841156, "Quantum control": 0.6736897826194763 } }, { "id": 67, "title": "Resonance Fluorescence of GaAs Quantum Dots with Near-Unity Photon Indistinguishability", "abstract": "Photonic quantum technologies call for scalable quantum light sources that can be integrated, while providing the end user with single and entangled photons on demand. One promising candidate is strai...", "citations": 80, "author_count": 14, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 67, "doi": "10.1021/acs.nanolett.8b05132", "umap_coordinates": { "x": 393.17901611328125, "y": 134.52734375, "z": 207.22384643554688 }, "tsne_coordinates": { "x": -1.3315415382385254, "y": -14.176389694213867, "z": -11.515077590942383 }, "pca_coordinates": { "x": 0.6239995956420898, "y": -3.68966007232666, "z": 2.444300651550293 }, "axis_scores": { "Quantum imaging": 0.748802661895752, "Quantum Life Science Sensing": 0.7618594169616699, "Quantum sensing Detection": 0.762661337852478, "Quantum sensing Metrology": 0.7592315673828125, "Quantum sensing navigation": 0.7349139451980591, "Quantum sensing Position": 0.7169440388679504, "Quantum sensing Timing": 0.7117391228675842, "Quantum sensing": 0.7656773924827576, "Quantum control": 0.6838499903678894 } }, { "id": 68, "title": "Carrier capture and relaxation in quantum dot structures with different dot densities", "abstract": "Carrier dynamics has been measured by time-resolved photoluminescence in self-assembled InGaAs/GaAs quantum dot structures with dot density of the order of 10(8) to 10(10) cm(2). The time of carrier t...", "citations": 1, "author_count": 3, "categories": [ "Engineering" ], "year": 2000, "topic": [ "all" ], "embedding_index": 68, "doi": "10.1016/S0167-9317(99)00467-0", "umap_coordinates": { "x": 392.77740478515625, "y": 135.0713653564453, "z": 207.41815185546875 }, "tsne_coordinates": { "x": 21.025419235229492, "y": -3.3496031761169434, "z": 19.56291389465332 }, "pca_coordinates": { "x": 0.18546652793884277, "y": -1.483461856842041, "z": -0.8153001666069031 }, "axis_scores": { "Quantum imaging": 0.7068082690238953, "Quantum Life Science Sensing": 0.7136867046356201, "Quantum sensing Detection": 0.6898460388183594, "Quantum sensing Metrology": 0.6853916049003601, "Quantum sensing navigation": 0.6919158697128296, "Quantum sensing Position": 0.6869213581085205, "Quantum sensing Timing": 0.6657429337501526, "Quantum sensing": 0.697971761226654, "Quantum control": 0.6820136904716492 } }, { "id": 69, "title": "Enhancing PbS Colloidal Quantum Dot Tandem Solar Cell Performance by Graded Band Alignment", "abstract": "Colloidal quantum dot solids are attractive candidates for tandem solar cells because of their widely tunable bandgaps. However, the development of the quantum dot tandem solar cell has lagged far beh...", "citations": 36, "author_count": 11, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 69, "doi": "10.1021/acs.jpclett.9b02423", "umap_coordinates": { "x": 391.9007263183594, "y": 134.0293426513672, "z": 205.7941436767578 }, "tsne_coordinates": { "x": 25.191410064697266, "y": -3.8232126235961914, "z": -13.44522762298584 }, "pca_coordinates": { "x": -2.6895599365234375, "y": -4.827674865722656, "z": 0.22928667068481445 }, "axis_scores": { "Quantum imaging": 0.721064567565918, "Quantum Life Science Sensing": 0.698570728302002, "Quantum sensing Detection": 0.6902878284454346, "Quantum sensing Metrology": 0.693924069404602, "Quantum sensing navigation": 0.696902334690094, "Quantum sensing Position": 0.6954743266105652, "Quantum sensing Timing": 0.6835306286811829, "Quantum sensing": 0.7067503333091736, "Quantum control": 0.691467821598053 } }, { "id": 70, "title": "Crux of Using the Cascaded Emission of a Three-Level Quantum Ladder System to Generate Indistinguishable Photons", "abstract": "We investigate the degree of indistinguishability of cascaded photons emitted from a three-level quantum ladder system; in our case the biexciton-exciton cascade of semiconductor quantum dots. For the...", "citations": 52, "author_count": 17, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 70, "doi": "10.1103/PhysRevLett.125.233605", "umap_coordinates": { "x": 395.6731262207031, "y": 135.76919555664062, "z": 207.43113708496094 }, "tsne_coordinates": { "x": -13.60059642791748, "y": -13.184369087219238, "z": -5.396193027496338 }, "pca_coordinates": { "x": 3.2805466651916504, "y": 0.5459918975830078, "z": 1.8921356201171875 }, "axis_scores": { "Quantum imaging": 0.7372472286224365, "Quantum Life Science Sensing": 0.7325838208198547, "Quantum sensing Detection": 0.739902913570404, "Quantum sensing Metrology": 0.6958603858947754, "Quantum sensing navigation": 0.7131367325782776, "Quantum sensing Position": 0.6679461598396301, "Quantum sensing Timing": 0.6732364892959595, "Quantum sensing": 0.7377859950065613, "Quantum control": 0.6917393207550049 } }, { "id": 71, "title": "Dynamic Distance Measure on Spaces of Isospectral Mixed Quantum States", "abstract": "Distance measures are used to quantify the extent to which information is preserved or altered by quantum processes, and thus are indispensable tools in quantum information and quantum computing. In t...", "citations": 8, "author_count": 3, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 71, "doi": "10.3390/e15093688", "umap_coordinates": { "x": 394.70184326171875, "y": 137.23678588867188, "z": 206.53231811523438 }, "tsne_coordinates": { "x": -37.35011672973633, "y": -6.057521343231201, "z": 11.624343872070312 }, "pca_coordinates": { "x": 1.1501142978668213, "y": 2.5621585845947266, "z": -1.8786537647247314 }, "axis_scores": { "Quantum imaging": 0.754301905632019, "Quantum Life Science Sensing": 0.7566456198692322, "Quantum sensing Detection": 0.7289996147155762, "Quantum sensing Metrology": 0.7420857548713684, "Quantum sensing navigation": 0.7497432231903076, "Quantum sensing Position": 0.7385655641555786, "Quantum sensing Timing": 0.704906702041626, "Quantum sensing": 0.7473759651184082, "Quantum control": 0.7163564562797546 } }, { "id": 72, "title": "Rapid carrier relaxation by phonon emission in In0.6Ga0.4As/GaAs quantum dots -: art. no. 115307", "abstract": "Carrier transfer into quantum dots has been investigated by time-resolved photoluminescence spectroscopy in a set of In0.6Ga0.4As/GaAs quantum dot structures with gradually changing interband transiti...", "citations": 24, "author_count": 4, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 72, "doi": "10.1103/PhysRevB.64.115307", "umap_coordinates": { "x": 393.65869140625, "y": 135.19723510742188, "z": 208.9762420654297 }, "tsne_coordinates": { "x": 9.180150032043457, "y": -31.92714500427246, "z": 0.15982751548290253 }, "pca_coordinates": { "x": 3.8185787200927734, "y": -1.7877197265625, "z": 0.6724664568901062 }, "axis_scores": { "Quantum imaging": 0.688595712184906, "Quantum Life Science Sensing": 0.6906753778457642, "Quantum sensing Detection": 0.6937185525894165, "Quantum sensing Metrology": 0.683745801448822, "Quantum sensing navigation": 0.6960076093673706, "Quantum sensing Position": 0.6691208481788635, "Quantum sensing Timing": 0.6869609951972961, "Quantum sensing": 0.7049310207366943, "Quantum control": 0.6802716851234436 } }, { "id": 73, "title": "Temperature and Magnetic Field Effects on the Transport Controlled Charge State of a Single Quantum Dot", "abstract": "Individual InAs/GaAs quantum dots are studied by micro-photoluminescence. By varying the strength of an applied external magnetic field and/or the temperature, it is demonstrated that the charge state...", "citations": 5, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 73, "doi": "10.1007/s11671-010-9618-x", "umap_coordinates": { "x": 393.8247375488281, "y": 134.29318237304688, "z": 207.7991943359375 }, "tsne_coordinates": { "x": 20.21729278564453, "y": -26.43449592590332, "z": 19.116456985473633 }, "pca_coordinates": { "x": -0.018050789833068848, "y": -1.368931770324707, "z": -0.8239619135856628 }, "axis_scores": { "Quantum imaging": 0.6842157244682312, "Quantum Life Science Sensing": 0.7007400393486023, "Quantum sensing Detection": 0.6802399754524231, "Quantum sensing Metrology": 0.6859504580497742, "Quantum sensing navigation": 0.6763363480567932, "Quantum sensing Position": 0.6858572959899902, "Quantum sensing Timing": 0.6860027313232422, "Quantum sensing": 0.7017244696617126, "Quantum control": 0.712401270866394 } }, { "id": 74, "title": "Ultrafast photoinduced dynamics in quantum dot-based systems for light harvesting", "abstract": "Colloidal semiconductor nanocrystals, referred to as quantum dots, offer simple low-temperature solution-based methods for constructing optoelectronic devices such as light emitting diodes and solar c...", "citations": 28, "author_count": 5, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 74, "doi": "10.1007/s12274-015-0751-9", "umap_coordinates": { "x": 392.98089599609375, "y": 135.65621948242188, "z": 206.615966796875 }, "tsne_coordinates": { "x": 14.981748580932617, "y": 4.183579921722412, "z": 13.1863374710083 }, "pca_coordinates": { "x": -0.1612783670425415, "y": -2.387383460998535, "z": -0.6019765138626099 }, "axis_scores": { "Quantum imaging": 0.7243384122848511, "Quantum Life Science Sensing": 0.7399525046348572, "Quantum sensing Detection": 0.7180237770080566, "Quantum sensing Metrology": 0.6969596743583679, "Quantum sensing navigation": 0.7106672525405884, "Quantum sensing Position": 0.6868481636047363, "Quantum sensing Timing": 0.6954018473625183, "Quantum sensing": 0.7225849628448486, "Quantum control": 0.7088146209716797 } }, { "id": 75, "title": "Multiple-quantum relaxation in the magic-angle-spinning NMR of 13C spin pairs", "abstract": "We determine the decay rate constants of zero-, double- and single-quantum coherence for C-13 spin pairs in ma,magic-angle-spinning solid-state NMR. The double-quantum coherence is excited by a C7 pul...", "citations": 28, "author_count": 6, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 75, "doi": "10.1016/S0926-2040(99)00008-9", "umap_coordinates": { "x": 392.8668212890625, "y": 136.82089233398438, "z": 206.9682159423828 }, "tsne_coordinates": { "x": 17.132612228393555, "y": -0.24554984271526337, "z": 30.078474044799805 }, "pca_coordinates": { "x": 0.00868833065032959, "y": 1.894754409790039, "z": -1.090562105178833 }, "axis_scores": { "Quantum imaging": 0.6828681826591492, "Quantum Life Science Sensing": 0.7024527788162231, "Quantum sensing Detection": 0.6748013496398926, "Quantum sensing Metrology": 0.6847079396247864, "Quantum sensing navigation": 0.6832935810089111, "Quantum sensing Position": 0.6915609836578369, "Quantum sensing Timing": 0.6985487341880798, "Quantum sensing": 0.6871229410171509, "Quantum control": 0.6590628027915955 } }, { "id": 76, "title": "Robustness of Learning-Assisted Adaptive Quantum-Enhanced Metrology in the Presence of Noise", "abstract": "Reinforcement learning algorithms have been shown to generate procedures for executing quantum control tasks to desired performances. Although reinforcement learning has been effective, its robustness...", "citations": 4, "author_count": 4, "categories": [ "Computer Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 76, "doi": null, "umap_coordinates": { "x": 391.56976318359375, "y": 139.79873657226562, "z": 208.96771240234375 }, "tsne_coordinates": { "x": -10.889554023742676, "y": 44.4545783996582, "z": 1.7339891195297241 }, "pca_coordinates": { "x": -0.5415949821472168, "y": 3.779350519180298, "z": 1.0044071674346924 }, "axis_scores": { "Quantum imaging": 0.7308155298233032, "Quantum Life Science Sensing": 0.7264478206634521, "Quantum sensing Detection": 0.7384138703346252, "Quantum sensing Metrology": 0.7611500024795532, "Quantum sensing navigation": 0.7514671683311462, "Quantum sensing Position": 0.7178604602813721, "Quantum sensing Timing": 0.6841368675231934, "Quantum sensing": 0.7494524121284485, "Quantum control": 0.7396851181983948 } }, { "id": 77, "title": "Nanowire Quantum Dots Tuned to Atomic Resonances", "abstract": "Quantum dots tuned to atomic resonances represent an emerging field of hybrid quantum systems where the advantages of quantum dots and natural atoms can be combined. Embedding quantum dots in nanowire...", "citations": 58, "author_count": 11, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 77, "doi": "10.1021/acs.nanolett.8b03363", "umap_coordinates": { "x": 392.50445556640625, "y": 134.36935424804688, "z": 206.9578857421875 }, "tsne_coordinates": { "x": 16.508922576904297, "y": -14.86341667175293, "z": -9.240527153015137 }, "pca_coordinates": { "x": 0.2821986675262451, "y": -5.4862847328186035, "z": -0.474913090467453 }, "axis_scores": { "Quantum imaging": 0.7341762185096741, "Quantum Life Science Sensing": 0.7589533925056458, "Quantum sensing Detection": 0.7595639824867249, "Quantum sensing Metrology": 0.7450452446937561, "Quantum sensing navigation": 0.7531535625457764, "Quantum sensing Position": 0.7340493202209473, "Quantum sensing Timing": 0.721714437007904, "Quantum sensing": 0.7719483375549316, "Quantum control": 0.728043258190155 } }, { "id": 78, "title": "The influence of carrier diffusion on the formation of charged excitons in InAs/GaAs quantum dots", "abstract": "It is demonstrated that the photoluminescence spectra of single self-assembled quantum dots are very sensitive to the excitation energy and crystal temperature. A qualitative explanation is given in t...", "citations": 4, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 78, "doi": "10.1016/S1386-9477(01)00496-9", "umap_coordinates": { "x": 392.6724853515625, "y": 134.58267211914062, "z": 207.1297149658203 }, "tsne_coordinates": { "x": 33.19561767578125, "y": -11.299308776855469, "z": 13.925497055053711 }, "pca_coordinates": { "x": -1.5280519723892212, "y": -2.143716335296631, "z": -0.6571623086929321 }, "axis_scores": { "Quantum imaging": 0.6982908248901367, "Quantum Life Science Sensing": 0.7068023681640625, "Quantum sensing Detection": 0.6954150199890137, "Quantum sensing Metrology": 0.6655941605567932, "Quantum sensing navigation": 0.6914770603179932, "Quantum sensing Position": 0.6915605664253235, "Quantum sensing Timing": 0.6807095408439636, "Quantum sensing": 0.7002190351486206, "Quantum control": 0.6801676750183105 } }, { "id": 79, "title": "Dye-based photonic sensing systems", "abstract": "We report on dye-based photonic sensing systems which are fabricated and packaged at wafer scale. For the first time luminescent organic nanocomposite thin-films deposited by plasma technology are int...", "citations": 14, "author_count": 16, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 79, "doi": "10.1016/j.snb.2016.01.092", "umap_coordinates": { "x": 393.4714050292969, "y": 134.03480529785156, "z": 205.34286499023438 }, "tsne_coordinates": { "x": 13.772656440734863, "y": 15.354867935180664, "z": -8.480057716369629 }, "pca_coordinates": { "x": -3.3760929107666016, "y": -1.9946660995483398, "z": 1.2153410911560059 }, "axis_scores": { "Quantum imaging": 0.7923230528831482, "Quantum Life Science Sensing": 0.7876679301261902, "Quantum sensing Detection": 0.7994289398193359, "Quantum sensing Metrology": 0.7744050621986389, "Quantum sensing navigation": 0.7935048937797546, "Quantum sensing Position": 0.7745629549026489, "Quantum sensing Timing": 0.7302768230438232, "Quantum sensing": 0.8094884157180786, "Quantum control": 0.7486096620559692 } }, { "id": 80, "title": "Multiple-photon spectrum of CdS semiconductor quantum dot for bioimaging", "abstract": "We study the dynamic processes of multiple-photon absorption and emission in a semiconductor quantum dot. By the non-perturbative time-dependent Schrodinger equation, it is shown that electrons in the...", "citations": 5, "author_count": 4, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 80, "doi": "10.1016/j.tsf.2005.12.207", "umap_coordinates": { "x": 394.323486328125, "y": 133.29579162597656, "z": 205.0607452392578 }, "tsne_coordinates": { "x": 14.492700576782227, "y": 20.709924697875977, "z": -15.68769359588623 }, "pca_coordinates": { "x": -5.0650482177734375, "y": -1.384751319885254, "z": 1.589005947113037 }, "axis_scores": { "Quantum imaging": 0.7336366176605225, "Quantum Life Science Sensing": 0.7464720606803894, "Quantum sensing Detection": 0.7101657390594482, "Quantum sensing Metrology": 0.7143003344535828, "Quantum sensing navigation": 0.6727438569068909, "Quantum sensing Position": 0.6733921766281128, "Quantum sensing Timing": 0.6851918697357178, "Quantum sensing": 0.7174091935157776, "Quantum control": 0.6538054347038269 } }, { "id": 81, "title": "Dynamical Excitation Control and Multimode Emission of an Atom-Photon Bound State", "abstract": "Atom-photon bound states arise from the coupling of quantum emitters to the band edge of dispersion-engineered waveguides. Thanks to their tunable-range interactions, they are promising building block...", "citations": 2, "author_count": 7, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 81, "doi": "10.1103/PhysRevLett.134.133601", "umap_coordinates": { "x": 394.68365478515625, "y": 135.7738800048828, "z": 207.8931427001953 }, "tsne_coordinates": { "x": -12.746965408325195, "y": -22.47686767578125, "z": -4.5960588455200195 }, "pca_coordinates": { "x": 4.18379020690918, "y": -0.677863597869873, "z": 0.4999147057533264 }, "axis_scores": { "Quantum imaging": 0.7244346737861633, "Quantum Life Science Sensing": 0.718059241771698, "Quantum sensing Detection": 0.7392078638076782, "Quantum sensing Metrology": 0.721393883228302, "Quantum sensing navigation": 0.7188786268234253, "Quantum sensing Position": 0.6993041038513184, "Quantum sensing Timing": 0.6848657131195068, "Quantum sensing": 0.7315219044685364, "Quantum control": 0.7221897840499878 } }, { "id": 82, "title": "Generating visible single photons on demand with single InP quantum dots", "abstract": "We present photon correlation measurements performed on a device based on single InP quantum dots. The device consists of a 400 nm thick membrane containing a low density of quantum dots on a metal mi...", "citations": 104, "author_count": 6, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 82, "doi": "10.1063/1.1558952", "umap_coordinates": { "x": 393.8354797363281, "y": 133.58737182617188, "z": 207.9074249267578 }, "tsne_coordinates": { "x": 24.567049026489258, "y": -22.41267967224121, "z": -13.920289039611816 }, "pca_coordinates": { "x": 0.2549477815628052, "y": -3.994401454925537, "z": 4.760403156280518 }, "axis_scores": { "Quantum imaging": 0.7579715251922607, "Quantum Life Science Sensing": 0.7440416216850281, "Quantum sensing Detection": 0.760420024394989, "Quantum sensing Metrology": 0.7504810094833374, "Quantum sensing navigation": 0.7181053757667542, "Quantum sensing Position": 0.6867384314537048, "Quantum sensing Timing": 0.6973413825035095, "Quantum sensing": 0.7674801349639893, "Quantum control": 0.7159818410873413 } }, { "id": 83, "title": "Recent advances in the modification of carbon-based quantum dots for biomedical applications", "abstract": "Carbon-based quantum dots (CDs) are mainly divided into two sub-groups; carbon quantum dots (CQDs) and graphene quantum dots (GQDs), which exhibit outstanding photoluminescence (PL) properties, low to...", "citations": 181, "author_count": 8, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 83, "doi": "10.1016/j.msec.2020.111756", "umap_coordinates": { "x": 393.9562072753906, "y": 134.08230590820312, "z": 204.53663635253906 }, "tsne_coordinates": { "x": 16.454017639160156, "y": 21.21763801574707, "z": -6.215440273284912 }, "pca_coordinates": { "x": -4.721208095550537, "y": -0.022750377655029297, "z": 0.01110750436782837 }, "axis_scores": { "Quantum imaging": 0.7055801749229431, "Quantum Life Science Sensing": 0.7374960780143738, "Quantum sensing Detection": 0.6971107721328735, "Quantum sensing Metrology": 0.706730306148529, "Quantum sensing navigation": 0.6868467330932617, "Quantum sensing Position": 0.7045241594314575, "Quantum sensing Timing": 0.6947163939476013, "Quantum sensing": 0.7122374773025513, "Quantum control": 0.6893981099128723 } }, { "id": 84, "title": "Point contact readout for a quantum dot terahertz sensor", "abstract": "We introduce a terahertz radiation sensor in which the photon-induced ionization state of a quantum dot is monitored by a point contact formed in the same semiconductor heterostructure. For comparison...", "citations": 14, "author_count": 9, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 84, "doi": "10.1063/1.2968193", "umap_coordinates": { "x": 393.771728515625, "y": 134.25799560546875, "z": 208.2998046875 }, "tsne_coordinates": { "x": 24.279111862182617, "y": -29.0081787109375, "z": 3.786369562149048 }, "pca_coordinates": { "x": 1.1769647598266602, "y": -2.2375059127807617, "z": 2.4708871841430664 }, "axis_scores": { "Quantum imaging": 0.7332563996315002, "Quantum Life Science Sensing": 0.7685598134994507, "Quantum sensing Detection": 0.7644227743148804, "Quantum sensing Metrology": 0.7767789959907532, "Quantum sensing navigation": 0.7287875413894653, "Quantum sensing Position": 0.7564258575439453, "Quantum sensing Timing": 0.7350163459777832, "Quantum sensing": 0.7759644985198975, "Quantum control": 0.7189072370529175 } }, { "id": 85, "title": "Dynamical quantum correlations after sudden quenches", "abstract": "We employ the mean-field approach in the fermionic picture of the spin-1/2 XXZ chain to investigate the dynamics of bipartite quantum discord and concurrence under sudden quenching. In this case, when...", "citations": 25, "author_count": 6, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 85, "doi": "10.1103/PhysRevA.98.052338", "umap_coordinates": { "x": 395.02880859375, "y": 136.65235900878906, "z": 208.52537536621094 }, "tsne_coordinates": { "x": -20.09518051147461, "y": -22.181476593017578, "z": 10.693788528442383 }, "pca_coordinates": { "x": 6.190103530883789, "y": 1.3756619691848755, "z": -1.7836802005767822 }, "axis_scores": { "Quantum imaging": 0.7017114162445068, "Quantum Life Science Sensing": 0.7154884338378906, "Quantum sensing Detection": 0.7092655897140503, "Quantum sensing Metrology": 0.687269926071167, "Quantum sensing navigation": 0.7027631998062134, "Quantum sensing Position": 0.6906797289848328, "Quantum sensing Timing": 0.72995924949646, "Quantum sensing": 0.7173280715942383, "Quantum control": 0.7135365009307861 } }, { "id": 86, "title": "Dynamic Quantum Matter", "abstract": "", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 86, "doi": "10.1002/andp.202000037", "umap_coordinates": { "x": 394.45977783203125, "y": 136.67279052734375, "z": 206.05429077148438 }, "tsne_coordinates": { "x": -12.539365768432617, "y": 14.979187965393066, "z": 15.79798412322998 }, "pca_coordinates": { "x": 0.7916520833969116, "y": 2.3247804641723633, "z": -2.127849817276001 }, "axis_scores": { "Quantum imaging": 0.7877411842346191, "Quantum Life Science Sensing": 0.7841046452522278, "Quantum sensing Detection": 0.7707404494285583, "Quantum sensing Metrology": 0.7679248452186584, "Quantum sensing navigation": 0.7857500910758972, "Quantum sensing Position": 0.7556455135345459, "Quantum sensing Timing": 0.7516552209854126, "Quantum sensing": 0.7864258289337158, "Quantum control": 0.7878358364105225 } }, { "id": 87, "title": "Unconditional Quantum Correlations do not Violate Bell's Inequality", "abstract": "In this paper I demonstrate that the quantum correlations of polarization (or spin) observables used in Bell's argument against local realism have to be interpreted as conditional quantum correlations...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 87, "doi": "10.1007/s10701-015-9930-5", "umap_coordinates": { "x": 395.34698486328125, "y": 136.9215087890625, "z": 206.15951538085938 }, "tsne_coordinates": { "x": -31.02658462524414, "y": 3.406646966934204, "z": 6.6739678382873535 }, "pca_coordinates": { "x": 2.347884178161621, "y": 2.2292470932006836, "z": 1.3806979656219482 }, "axis_scores": { "Quantum imaging": 0.7114129662513733, "Quantum Life Science Sensing": 0.7132675647735596, "Quantum sensing Detection": 0.7291504144668579, "Quantum sensing Metrology": 0.7220264673233032, "Quantum sensing navigation": 0.7332203984260559, "Quantum sensing Position": 0.7201233506202698, "Quantum sensing Timing": 0.7062584757804871, "Quantum sensing": 0.7375193238258362, "Quantum control": 0.6916640996932983 } }, { "id": 88, "title": "Experimental multilocation remote state preparation", "abstract": "Transmission of quantum states is a central task in quantum information science. Remote state preparation (RSP) has the same goal as teleportation, i.e., transferring quantum information without sendi...", "citations": 44, "author_count": 5, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 88, "doi": "10.1103/PhysRevA.88.032304", "umap_coordinates": { "x": 395.6193542480469, "y": 136.7892303466797, "z": 207.76866149902344 }, "tsne_coordinates": { "x": -20.69026756286621, "y": -8.559374809265137, "z": -3.4876670837402344 }, "pca_coordinates": { "x": 4.040948390960693, "y": 3.131519079208374, "z": -0.7753187417984009 }, "axis_scores": { "Quantum imaging": 0.7300390601158142, "Quantum Life Science Sensing": 0.749346137046814, "Quantum sensing Detection": 0.7185462713241577, "Quantum sensing Metrology": 0.7318191528320312, "Quantum sensing navigation": 0.7351967096328735, "Quantum sensing Position": 0.7201421856880188, "Quantum sensing Timing": 0.6917357444763184, "Quantum sensing": 0.7399343252182007, "Quantum control": 0.7162095904350281 } }, { "id": 89, "title": "THz Spectroscopy Using Low Temperature Mesoscopic Devices", "abstract": "The prototype of a THz spectroscopic camera based on low temperature mesoscopic devices is presented. The core of this system is an array of Quantum-Dots coupled to Quantum Point Contact sensors. Read...", "citations": 1, "author_count": 12, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 89, "doi": "10.1007/s10909-012-0599-2", "umap_coordinates": { "x": 394.1035461425781, "y": 134.54603576660156, "z": 206.51348876953125 }, "tsne_coordinates": { "x": 17.83534812927246, "y": 6.064408779144287, "z": 14.435140609741211 }, "pca_coordinates": { "x": -0.5733979940414429, "y": -0.9930305480957031, "z": 1.1971418857574463 }, "axis_scores": { "Quantum imaging": 0.6777298450469971, "Quantum Life Science Sensing": 0.7333825826644897, "Quantum sensing Detection": 0.698335587978363, "Quantum sensing Metrology": 0.703551173210144, "Quantum sensing navigation": 0.6746436953544617, "Quantum sensing Position": 0.6862208247184753, "Quantum sensing Timing": 0.6987481117248535, "Quantum sensing": 0.7076200246810913, "Quantum control": 0.6521575450897217 } }, { "id": 90, "title": "Magnetotransport properties of graphene layers decorated with colloid quantum dots", "abstract": "The hybrid graphene-quantum dot devices can potentially be used to tailor the electronic, optical, and chemical properties of graphene. Here, the low temperature electronic transport properties of bil...", "citations": 2, "author_count": 6, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 90, "doi": "10.1088/1674-1056/28/6/067201", "umap_coordinates": { "x": 393.8941955566406, "y": 135.217529296875, "z": 207.01449584960938 }, "tsne_coordinates": { "x": -14.63354778289795, "y": -5.97363805770874, "z": -18.957931518554688 }, "pca_coordinates": { "x": 0.6014273166656494, "y": -1.059281826019287, "z": -0.42560166120529175 }, "axis_scores": { "Quantum imaging": 0.7195097208023071, "Quantum Life Science Sensing": 0.7463972568511963, "Quantum sensing Detection": 0.7043039798736572, "Quantum sensing Metrology": 0.719005286693573, "Quantum sensing navigation": 0.7184830904006958, "Quantum sensing Position": 0.6959819197654724, "Quantum sensing Timing": 0.6739828586578369, "Quantum sensing": 0.728362500667572, "Quantum control": 0.6867747902870178 } }, { "id": 91, "title": "Electromagnetically-induced-transparency plasmonics: Quantum-interference-assisted tunable surface-plasmon-polariton resonance and excitation", "abstract": "An experimentally feasible configuration of a prism coupler with an electromagnetically-induced-transparency (EIT) medium layer, e.g., a semiconductor-quantum-dot (SQD) medium, deposited upon its pris...", "citations": 16, "author_count": 2, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 91, "doi": "10.1103/PhysRevA.90.023814", "umap_coordinates": { "x": 393.6455383300781, "y": 135.19134521484375, "z": 207.5266571044922 }, "tsne_coordinates": { "x": 0.4417564868927002, "y": -15.633749008178711, "z": -15.694496154785156 }, "pca_coordinates": { "x": 1.5588679313659668, "y": -2.6555142402648926, "z": 1.0154297351837158 }, "axis_scores": { "Quantum imaging": 0.7354658246040344, "Quantum Life Science Sensing": 0.7108564972877502, "Quantum sensing Detection": 0.718730628490448, "Quantum sensing Metrology": 0.7009186744689941, "Quantum sensing navigation": 0.6943161487579346, "Quantum sensing Position": 0.6722093820571899, "Quantum sensing Timing": 0.6776168942451477, "Quantum sensing": 0.7254140377044678, "Quantum control": 0.6884217858314514 } }, { "id": 92, "title": "Photonic astronomy and quantum optics", "abstract": "Quantum optics potentially offers an information channel from the Universe beyond the established ones of imaging and spectroscopy. All existing cameras and all spectrometers measure aspects of the fi...", "citations": 12, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 92, "doi": null, "umap_coordinates": { "x": 391.8031005859375, "y": 139.28465270996094, "z": 209.39126586914062 }, "tsne_coordinates": { "x": -10.196493148803711, "y": 40.47765350341797, "z": -6.202396869659424 }, "pca_coordinates": { "x": -0.6854738593101501, "y": 2.7882027626037598, "z": -0.7080751657485962 }, "axis_scores": { "Quantum imaging": 0.7832685708999634, "Quantum Life Science Sensing": 0.7736601233482361, "Quantum sensing Detection": 0.7649053931236267, "Quantum sensing Metrology": 0.7618884444236755, "Quantum sensing navigation": 0.7685346603393555, "Quantum sensing Position": 0.7238114476203918, "Quantum sensing Timing": 0.7130013108253479, "Quantum sensing": 0.7775263786315918, "Quantum control": 0.7575334310531616 } }, { "id": 93, "title": "Beating signals in CdSe quantum dots measured by low-temperature 2D spectroscopy", "abstract": "Advances in ultrafast spectroscopy can provide access to dynamics involving nontrivial quantum correlations and their evolutions. In coherent 2D spectroscopy, the oscillatory time dependence of a sign...", "citations": 5, "author_count": 9, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 93, "doi": "10.1063/5.0089798", "umap_coordinates": { "x": 393.2694091796875, "y": 135.85140991210938, "z": 206.5618438720703 }, "tsne_coordinates": { "x": 9.137991905212402, "y": -3.69338321685791, "z": 10.02816104888916 }, "pca_coordinates": { "x": 0.6877164840698242, "y": -1.8979687690734863, "z": 0.03830552101135254 }, "axis_scores": { "Quantum imaging": 0.717864453792572, "Quantum Life Science Sensing": 0.750795841217041, "Quantum sensing Detection": 0.7413674592971802, "Quantum sensing Metrology": 0.7216798663139343, "Quantum sensing navigation": 0.7049759030342102, "Quantum sensing Position": 0.7270290851593018, "Quantum sensing Timing": 0.7541854381561279, "Quantum sensing": 0.736257791519165, "Quantum control": 0.6983693838119507 } }, { "id": 94, "title": "Templating growth of gold nanostructures with a CdSe quantum dot array", "abstract": "In optoelectronic devices based on quantum dot arrays, thin nanolayers of gold are preferred as stable metal contacts and for connecting recombination centers. The optimal morphology requirements are ...", "citations": 26, "author_count": 9, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 94, "doi": "10.1039/c5nr01121c", "umap_coordinates": { "x": 392.271240234375, "y": 134.61195373535156, "z": 206.3922119140625 }, "tsne_coordinates": { "x": 14.233039855957031, "y": -11.09804630279541, "z": -4.588953971862793 }, "pca_coordinates": { "x": -1.7688912153244019, "y": -3.60160493850708, "z": 0.1554386019706726 }, "axis_scores": { "Quantum imaging": 0.6680147051811218, "Quantum Life Science Sensing": 0.7066779732704163, "Quantum sensing Detection": 0.6957864761352539, "Quantum sensing Metrology": 0.6891142725944519, "Quantum sensing navigation": 0.6822076439857483, "Quantum sensing Position": 0.6856650114059448, "Quantum sensing Timing": 0.6738876104354858, "Quantum sensing": 0.6943877935409546, "Quantum control": 0.6646212339401245 } }, { "id": 95, "title": "Two-mode Schrodinger-cat states with nonlinear optomechanics: generation and verification of non-Gaussian mechanical entanglement", "abstract": "Cavity quantum optomechanics has emerged as a new platform for quantum science and technology with applications ranging from quantum-information processing to tests of the foundations of physics. Of c...", "citations": 18, "author_count": 5, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 95, "doi": "10.1088/2058-9565/ac6dfd", "umap_coordinates": { "x": 395.4360046386719, "y": 136.2762908935547, "z": 206.97975158691406 }, "tsne_coordinates": { "x": -30.687681198120117, "y": -8.287242889404297, "z": -7.2347493171691895 }, "pca_coordinates": { "x": 2.40510892868042, "y": 2.7383522987365723, "z": 2.9044206142425537 }, "axis_scores": { "Quantum imaging": 0.7132542133331299, "Quantum Life Science Sensing": 0.6912172436714172, "Quantum sensing Detection": 0.7151370644569397, "Quantum sensing Metrology": 0.7226789593696594, "Quantum sensing navigation": 0.7254093289375305, "Quantum sensing Position": 0.6785781383514404, "Quantum sensing Timing": 0.6733187437057495, "Quantum sensing": 0.7135337591171265, "Quantum control": 0.68418949842453 } }, { "id": 96, "title": "Optical absorption cross section and quantum efficiency of a single silicon quantum dot", "abstract": "Direct measurements of the optical absorption cross section (sigma) and exciton lifetime are performed on a single silicon quantum dot fabricated by electron beam lithography (EBL), reactive ion etchi...", "citations": 8, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 96, "doi": "10.1117/12.2017483", "umap_coordinates": { "x": 394.375244140625, "y": 133.3614044189453, "z": 207.13824462890625 }, "tsne_coordinates": { "x": -6.582571983337402, "y": 6.091403007507324, "z": -27.943979263305664 }, "pca_coordinates": { "x": -1.1089794635772705, "y": -3.1231884956359863, "z": 4.323181629180908 }, "axis_scores": { "Quantum imaging": 0.7491133213043213, "Quantum Life Science Sensing": 0.7504178285598755, "Quantum sensing Detection": 0.7527242302894592, "Quantum sensing Metrology": 0.7640352845191956, "Quantum sensing navigation": 0.7261462807655334, "Quantum sensing Position": 0.716745913028717, "Quantum sensing Timing": 0.6968696713447571, "Quantum sensing": 0.7594777941703796, "Quantum control": 0.7106478810310364 } }, { "id": 97, "title": "Scalable Generation and Detection of on-Demand W States in Nanophotonic Circuits", "abstract": "Quantum physics phenomena,entanglement and coherence,are crucialfor quantum information protocols, but understanding these in systemswith more than two parts is challenging due to increasing complexit...", "citations": 17, "author_count": 12, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 97, "doi": "10.1021/acs.nanolett.3c01551", "umap_coordinates": { "x": 393.6452941894531, "y": 133.9676513671875, "z": 206.96690368652344 }, "tsne_coordinates": { "x": 16.429231643676758, "y": -17.132862091064453, "z": -18.39815330505371 }, "pca_coordinates": { "x": -0.02955162525177002, "y": -2.686708927154541, "z": 2.2801873683929443 }, "axis_scores": { "Quantum imaging": 0.7443569302558899, "Quantum Life Science Sensing": 0.7513644695281982, "Quantum sensing Detection": 0.7613743543624878, "Quantum sensing Metrology": 0.7513777017593384, "Quantum sensing navigation": 0.7512539625167847, "Quantum sensing Position": 0.7251175045967102, "Quantum sensing Timing": 0.7248549461364746, "Quantum sensing": 0.7702330946922302, "Quantum control": 0.725804328918457 } }, { "id": 98, "title": "Learning in quantum control: High-dimensional global optimization for noisy quantum dynamics", "abstract": "Quantum control is valuable for various quantum technologies such as high-fidelity gates for universal quantum computing, adaptive quantum-enhanced metrology, and ultra-cold atom manipulation. Althoug...", "citations": 77, "author_count": 6, "categories": [ "Computer Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 98, "doi": "10.1016/j.neucom.2016.12.087", "umap_coordinates": { "x": 394.8164367675781, "y": 136.44400024414062, "z": 205.6068572998047 }, "tsne_coordinates": { "x": -14.081907272338867, "y": 11.422858238220215, "z": 15.021531105041504 }, "pca_coordinates": { "x": 1.3146910667419434, "y": 1.3560543060302734, "z": -0.20266491174697876 }, "axis_scores": { "Quantum imaging": 0.7905108332633972, "Quantum Life Science Sensing": 0.7580838203430176, "Quantum sensing Detection": 0.7753775715827942, "Quantum sensing Metrology": 0.7576061487197876, "Quantum sensing navigation": 0.8112720847129822, "Quantum sensing Position": 0.7600355744361877, "Quantum sensing Timing": 0.7189473509788513, "Quantum sensing": 0.784541666507721, "Quantum control": 0.8138168454170227 } }, { "id": 99, "title": "Bright nanoscale source of deterministic entangled photon pairs violating Bell's inequality", "abstract": "Global, secure quantum channels will require efficient distribution of entangled photons. Long distance, low-loss interconnects can only be realized using photons as quantum information carriers. Howe...", "citations": 64, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 99, "doi": "10.1038/s41598-017-01509-6", "umap_coordinates": { "x": 394.89483642578125, "y": 135.2498321533203, "z": 206.8333282470703 }, "tsne_coordinates": { "x": -16.462139129638672, "y": -2.3635642528533936, "z": -0.7638341188430786 }, "pca_coordinates": { "x": 0.16417336463928223, "y": -1.0840673446655273, "z": 1.7800559997558594 }, "axis_scores": { "Quantum imaging": 0.7762472033500671, "Quantum Life Science Sensing": 0.7650260925292969, "Quantum sensing Detection": 0.7778966426849365, "Quantum sensing Metrology": 0.7545118927955627, "Quantum sensing navigation": 0.7628819942474365, "Quantum sensing Position": 0.7568230032920837, "Quantum sensing Timing": 0.751806378364563, "Quantum sensing": 0.7846323847770691, "Quantum control": 0.7174450159072876 } }, { "id": 100, "title": "Symmetries and the Polarized Optical Spectra of Exciton Complexes in Quantum Dots", "abstract": "A systematic and simple theoretical approach is proposed to analyze true degeneracies and polarized decay patterns of exciton complexes in semiconductor quantum dots. The results provide reliable spec...", "citations": 57, "author_count": 8, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 100, "doi": "10.1103/PhysRevLett.107.127403", "umap_coordinates": { "x": 393.66357421875, "y": 135.2048797607422, "z": 208.37152099609375 }, "tsne_coordinates": { "x": 9.341340065002441, "y": -24.578475952148438, "z": 3.7309839725494385 }, "pca_coordinates": { "x": 3.3541369438171387, "y": -2.909555435180664, "z": 0.17688840627670288 }, "axis_scores": { "Quantum imaging": 0.7234106063842773, "Quantum Life Science Sensing": 0.7155966758728027, "Quantum sensing Detection": 0.7128042578697205, "Quantum sensing Metrology": 0.6904292702674866, "Quantum sensing navigation": 0.708724856376648, "Quantum sensing Position": 0.6757668852806091, "Quantum sensing Timing": 0.6907865405082703, "Quantum sensing": 0.7157126069068909, "Quantum control": 0.6879886984825134 } }, { "id": 101, "title": "Quasiclassical approach to quantum quench dynamics in the presence of an excited-state quantum phase transition", "abstract": "The dynamics of a quantum system following a sudden, highly nonadiabatic change of its control parameter (quantum quench) is studied with quasiclassical techniques. Recent works have shown, using exac...", "citations": 11, "author_count": 7, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 101, "doi": "10.1103/PhysRevA.103.032213", "umap_coordinates": { "x": 394.9823303222656, "y": 136.9068603515625, "z": 208.12818908691406 }, "tsne_coordinates": { "x": -21.975736618041992, "y": -16.936866760253906, "z": 9.7557954788208 }, "pca_coordinates": { "x": 5.430741786956787, "y": 0.3169262409210205, "z": -1.8458595275878906 }, "axis_scores": { "Quantum imaging": 0.7347959280014038, "Quantum Life Science Sensing": 0.7359986901283264, "Quantum sensing Detection": 0.7430842518806458, "Quantum sensing Metrology": 0.711745023727417, "Quantum sensing navigation": 0.7407533526420593, "Quantum sensing Position": 0.7141529321670532, "Quantum sensing Timing": 0.7015595436096191, "Quantum sensing": 0.7460097670555115, "Quantum control": 0.7381512522697449 } }, { "id": 102, "title": "Quantum information processing with superconducting circuits: a review", "abstract": "During the last ten years, superconducting circuits have passed from being interesting physical devices to becoming contenders for near-future useful and scalable quantum information processing (QIP)....", "citations": 858, "author_count": 2, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 102, "doi": "10.1088/1361-6633/aa7e1a", "umap_coordinates": { "x": 395.0875549316406, "y": 135.5448455810547, "z": 206.59999084472656 }, "tsne_coordinates": { "x": -35.00772476196289, "y": -4.203544616699219, "z": -6.116997241973877 }, "pca_coordinates": { "x": 1.767993688583374, "y": 1.207756757736206, "z": 2.6030356884002686 }, "axis_scores": { "Quantum imaging": 0.7567873001098633, "Quantum Life Science Sensing": 0.7409432530403137, "Quantum sensing Detection": 0.7535925507545471, "Quantum sensing Metrology": 0.7278610467910767, "Quantum sensing navigation": 0.7555742263793945, "Quantum sensing Position": 0.7065972685813904, "Quantum sensing Timing": 0.735385000705719, "Quantum sensing": 0.7660261988639832, "Quantum control": 0.7313349843025208 } }, { "id": 103, "title": "Dynamics of quantum coherence and quantum Fisher information after a sudden quench", "abstract": "The dynamics of relative entropy and l(1) norm of coherence, as well as, the Wigner-Yanase skew and quantum Fisher information are studied in the one-dimensional XY spin chain in the presence of a tim...", "citations": 42, "author_count": 3, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 103, "doi": "10.1103/PhysRevA.101.062105", "umap_coordinates": { "x": 395.0252685546875, "y": 136.57867431640625, "z": 208.22720336914062 }, "tsne_coordinates": { "x": -20.549203872680664, "y": -22.178552627563477, "z": 10.797502517700195 }, "pca_coordinates": { "x": 5.112322807312012, "y": 1.5402143001556396, "z": -1.1699268817901611 }, "axis_scores": { "Quantum imaging": 0.7370554208755493, "Quantum Life Science Sensing": 0.7555817365646362, "Quantum sensing Detection": 0.7445048093795776, "Quantum sensing Metrology": 0.718562662601471, "Quantum sensing navigation": 0.735693633556366, "Quantum sensing Position": 0.7075525522232056, "Quantum sensing Timing": 0.7191184759140015, "Quantum sensing": 0.7514211535453796, "Quantum control": 0.7268252372741699 } }, { "id": 104, "title": "ENTROPY, INFORMATION AND QUANTUM MEASUREMENTS", "abstract": "", "citations": 249, "author_count": 2, "categories": [ "Physics" ], "year": 1973, "topic": [ "all" ], "embedding_index": 104, "doi": "10.1007/BF01646743", "umap_coordinates": { "x": 394.9850158691406, "y": 136.88430786132812, "z": 205.73231506347656 }, "tsne_coordinates": { "x": -28.347301483154297, "y": -3.173548460006714, "z": 16.06612777709961 }, "pca_coordinates": { "x": 1.5010366439819336, "y": 2.3738455772399902, "z": 0.12130439281463623 }, "axis_scores": { "Quantum imaging": 0.7760642170906067, "Quantum Life Science Sensing": 0.7824927568435669, "Quantum sensing Detection": 0.7745004892349243, "Quantum sensing Metrology": 0.770343005657196, "Quantum sensing navigation": 0.7787460684776306, "Quantum sensing Position": 0.7535883784294128, "Quantum sensing Timing": 0.7222852110862732, "Quantum sensing": 0.7942884564399719, "Quantum control": 0.7630246877670288 } }, { "id": 105, "title": "Single quantum dots emit single photons at a time:: Antibunching experiments", "abstract": "We have studied the photoluminescence correlation from a single InAs/GaAs self-assembled Stranski-Krastanow quantum dot under continuous, as well as under pulsed excitation. Under weak continuous exci...", "citations": 243, "author_count": 11, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 105, "doi": "10.1063/1.1366367", "umap_coordinates": { "x": 394.15179443359375, "y": 133.6359405517578, "z": 207.8113250732422 }, "tsne_coordinates": { "x": 23.50125503540039, "y": -21.748165130615234, "z": -10.9187593460083 }, "pca_coordinates": { "x": 1.4500460624694824, "y": -2.863616943359375, "z": 3.339310646057129 }, "axis_scores": { "Quantum imaging": 0.772424042224884, "Quantum Life Science Sensing": 0.750128448009491, "Quantum sensing Detection": 0.784080982208252, "Quantum sensing Metrology": 0.7610102891921997, "Quantum sensing navigation": 0.7454786896705627, "Quantum sensing Position": 0.7278369069099426, "Quantum sensing Timing": 0.7535220384597778, "Quantum sensing": 0.7884063720703125, "Quantum control": 0.7342577576637268 } }, { "id": 106, "title": "Quantum size effects of CO reactivity on metallic quantum dots", "abstract": "We study the reactivity of a metallic quantum dot when exposed to a gas phase CO molecule. First, we perform a Newns-Anderson model calculation in which the valence electrons of the quantum dot are co...", "citations": 10, "author_count": 4, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 106, "doi": "10.1016/j.susc.2005.08.044", "umap_coordinates": { "x": 392.78387451171875, "y": 134.16720581054688, "z": 206.00401306152344 }, "tsne_coordinates": { "x": 31.34182357788086, "y": -6.105752944946289, "z": -3.0214548110961914 }, "pca_coordinates": { "x": -1.284940481185913, "y": -1.935511589050293, "z": -2.0355327129364014 }, "axis_scores": { "Quantum imaging": 0.7509134411811829, "Quantum Life Science Sensing": 0.7735488414764404, "Quantum sensing Detection": 0.7581297755241394, "Quantum sensing Metrology": 0.7326444983482361, "Quantum sensing navigation": 0.718740701675415, "Quantum sensing Position": 0.7346290349960327, "Quantum sensing Timing": 0.7186363935470581, "Quantum sensing": 0.7714084386825562, "Quantum control": 0.7500135898590088 } }, { "id": 107, "title": "Single electron pumping in InAs nanowire double quantum dots", "abstract": "Closely spaced local gate electrodes are used to electrically define a double quantum dot along an InAs nanowire crystal. By applying a periodic pulse sequence to two plunger gate electrodes controlli...", "citations": 51, "author_count": 4, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 107, "doi": "10.1063/1.2767197", "umap_coordinates": { "x": 393.47784423828125, "y": 133.78509521484375, "z": 208.18760681152344 }, "tsne_coordinates": { "x": 22.261825561523438, "y": -22.623401641845703, "z": -4.365081787109375 }, "pca_coordinates": { "x": 1.3453848361968994, "y": -6.325526714324951, "z": 2.7890024185180664 }, "axis_scores": { "Quantum imaging": 0.7324608564376831, "Quantum Life Science Sensing": 0.731386125087738, "Quantum sensing Detection": 0.7458880543708801, "Quantum sensing Metrology": 0.7328851819038391, "Quantum sensing navigation": 0.732010006904602, "Quantum sensing Position": 0.7080105543136597, "Quantum sensing Timing": 0.6970797181129456, "Quantum sensing": 0.7555162310600281, "Quantum control": 0.7128061652183533 } }, { "id": 108, "title": "Graphitic Carbon Nitride/CdSe Quantum Dot/Iron Carbonyl Cluster Composite for Enhanced Photocatalytic Hydrogen Evolution", "abstract": "A g-C3N4/CdSe quantum dot/[Fe2S2(CO)(6)] composite has been successfully constructed. The structure and chemical composition of the composite were investigated via, inter alia, transmission electron m...", "citations": 29, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 108, "doi": "10.1021/acsanm.1c01096", "umap_coordinates": { "x": 392.1258544921875, "y": 134.2686004638672, "z": 205.3230743408203 }, "tsne_coordinates": { "x": 19.995275497436523, "y": 4.493619441986084, "z": -6.802052021026611 }, "pca_coordinates": { "x": -2.5466055870056152, "y": -3.4676480293273926, "z": -1.2049014568328857 }, "axis_scores": { "Quantum imaging": 0.7017377018928528, "Quantum Life Science Sensing": 0.7011843323707581, "Quantum sensing Detection": 0.6944562792778015, "Quantum sensing Metrology": 0.6654833555221558, "Quantum sensing navigation": 0.6743909120559692, "Quantum sensing Position": 0.6513166427612305, "Quantum sensing Timing": 0.6492055058479309, "Quantum sensing": 0.6952052712440491, "Quantum control": 0.6848136186599731 } }, { "id": 109, "title": "Ultrafast charge transfer dynamics in lead sulfide quantum dots probed with resonant Auger spectroscopy at the lead M-edge", "abstract": "PbS quantum dots (QDs) hold significant potential for next-generation photovoltaic and photodetector applications due to their size-dependent electronic properties and strong absorption in the near-in...", "citations": 1, "author_count": 7, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 109, "doi": "10.1039/d5ra00479a", "umap_coordinates": { "x": 392.6640319824219, "y": 135.53622436523438, "z": 206.86473083496094 }, "tsne_coordinates": { "x": 12.691635131835938, "y": -1.6097781658172607, "z": 3.1586999893188477 }, "pca_coordinates": { "x": 0.4784059524536133, "y": -2.731900691986084, "z": -1.13238525390625 }, "axis_scores": { "Quantum imaging": 0.7129985094070435, "Quantum Life Science Sensing": 0.7334480285644531, "Quantum sensing Detection": 0.7153515815734863, "Quantum sensing Metrology": 0.7021971940994263, "Quantum sensing navigation": 0.6974605321884155, "Quantum sensing Position": 0.706675112247467, "Quantum sensing Timing": 0.681844174861908, "Quantum sensing": 0.7158039808273315, "Quantum control": 0.6815670132637024 } }, { "id": 110, "title": "Phase property of the transmission through a quantum dot", "abstract": "We present a theoretical study of the phase property of the transmission coefficient of a quantum dot. We model the quantum dot by a cross-bar structure and take account of electron-electron interacti...", "citations": 12, "author_count": 3, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 110, "doi": "10.1088/0953-8984/13/15/304", "umap_coordinates": { "x": 394.6387634277344, "y": 136.37725830078125, "z": 207.1809539794922 }, "tsne_coordinates": { "x": -35.932838439941406, "y": -3.9259283542633057, "z": 20.89985466003418 }, "pca_coordinates": { "x": 2.3727471828460693, "y": 1.4123644828796387, "z": 0.6361111998558044 }, "axis_scores": { "Quantum imaging": 0.7569829821586609, "Quantum Life Science Sensing": 0.7486348152160645, "Quantum sensing Detection": 0.7370555996894836, "Quantum sensing Metrology": 0.726645827293396, "Quantum sensing navigation": 0.7463203072547913, "Quantum sensing Position": 0.7333346605300903, "Quantum sensing Timing": 0.7186795473098755, "Quantum sensing": 0.7467091679573059, "Quantum control": 0.7134156823158264 } }, { "id": 111, "title": "Reconfigurable photonics with on-chip single-photon detectors", "abstract": "Integrated quantum photonics offers a promising path to scale up quantum optics experiments by miniaturizing and stabilizing complex laboratory setups. Central elements of quantum integrated photonics...", "citations": 140, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 111, "doi": "10.1038/s41467-021-21624-3", "umap_coordinates": { "x": 394.6129150390625, "y": 133.45025634765625, "z": 206.9733123779297 }, "tsne_coordinates": { "x": -7.602322101593018, "y": 0.6871072053909302, "z": -25.65146827697754 }, "pca_coordinates": { "x": -1.9201327562332153, "y": -1.676124095916748, "z": 4.948846817016602 }, "axis_scores": { "Quantum imaging": 0.7203212976455688, "Quantum Life Science Sensing": 0.727015495300293, "Quantum sensing Detection": 0.7374605536460876, "Quantum sensing Metrology": 0.7220076322555542, "Quantum sensing navigation": 0.7109161019325256, "Quantum sensing Position": 0.6907027959823608, "Quantum sensing Timing": 0.7074178457260132, "Quantum sensing": 0.7438641786575317, "Quantum control": 0.6838284730911255 } }, { "id": 112, "title": "Geometry of quantum evolution for mixed quantum states", "abstract": "The geometric formulation of quantum mechanics is a very interesting field of research which has many applications in the emerging field of quantum computation and quantum information, such as schemes...", "citations": 11, "author_count": 3, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 112, "doi": "10.1088/0031-8949/2014/T160/014004", "umap_coordinates": { "x": 395.0542297363281, "y": 137.10528564453125, "z": 207.10641479492188 }, "tsne_coordinates": { "x": -36.191986083984375, "y": -5.550238609313965, "z": 9.83725357055664 }, "pca_coordinates": { "x": 2.8819093704223633, "y": 3.8275833129882812, "z": -0.5735265016555786 }, "axis_scores": { "Quantum imaging": 0.7642771005630493, "Quantum Life Science Sensing": 0.7534251809120178, "Quantum sensing Detection": 0.7356510162353516, "Quantum sensing Metrology": 0.7473698854446411, "Quantum sensing navigation": 0.7640398740768433, "Quantum sensing Position": 0.739905834197998, "Quantum sensing Timing": 0.7265477180480957, "Quantum sensing": 0.7465440630912781, "Quantum control": 0.7224384546279907 } }, { "id": 113, "title": "Transport studies of electron-hole and spin-orbit interaction in GaSb/InAsSb core-shell nanowire quantum dots", "abstract": "We report low-temperature transport studies of parallel double quantum dots formed in GaSb/InAsSb core-shell nanowires. At negative gate voltages, regular patterns of Coulomb diamonds are observed in ...", "citations": 23, "author_count": 6, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 113, "doi": "10.1103/PhysRevB.91.161301", "umap_coordinates": { "x": 393.4803466796875, "y": 134.7227325439453, "z": 208.906005859375 }, "tsne_coordinates": { "x": 10.27078628540039, "y": -23.194190979003906, "z": -0.9660038948059082 }, "pca_coordinates": { "x": 3.8070363998413086, "y": -4.027614593505859, "z": 0.7233709692955017 }, "axis_scores": { "Quantum imaging": 0.6925714015960693, "Quantum Life Science Sensing": 0.705754280090332, "Quantum sensing Detection": 0.7054109573364258, "Quantum sensing Metrology": 0.6859320998191833, "Quantum sensing navigation": 0.7207657694816589, "Quantum sensing Position": 0.689993143081665, "Quantum sensing Timing": 0.6698634624481201, "Quantum sensing": 0.7141975164413452, "Quantum control": 0.684796929359436 } }, { "id": 114, "title": "Entanglement measure for general pure multipartite quantum states", "abstract": "We propose an explicit formula for a measure of entanglement of pure multipartite quantum states. We discuss the mathematical structure of the measure and give a brief explanation of its physical moti...", "citations": 13, "author_count": 3, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 114, "doi": "10.1088/0305-4470/37/39/012", "umap_coordinates": { "x": 395.4835205078125, "y": 137.05422973632812, "z": 206.8357696533203 }, "tsne_coordinates": { "x": -33.193363189697266, "y": -2.291670799255371, "z": 1.6246432065963745 }, "pca_coordinates": { "x": 1.851588487625122, "y": 2.6663172245025635, "z": 1.5979361534118652 }, "axis_scores": { "Quantum imaging": 0.7288885116577148, "Quantum Life Science Sensing": 0.718723714351654, "Quantum sensing Detection": 0.7238013744354248, "Quantum sensing Metrology": 0.7093861103057861, "Quantum sensing navigation": 0.7212429046630859, "Quantum sensing Position": 0.7036377191543579, "Quantum sensing Timing": 0.677260160446167, "Quantum sensing": 0.7315990328788757, "Quantum control": 0.7177109122276306 } }, { "id": 115, "title": "Dynamic generation of photonic spatial quantum states with an all-fiber platform", "abstract": "Photonic spatial quantum states are a subject of great interest for applications in quantum communication. One important challenge has been how to dynamically generate these states using only fiber-op...", "citations": 8, "author_count": 5, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 115, "doi": "10.1364/OE.481974", "umap_coordinates": { "x": 394.5552673339844, "y": 134.55545043945312, "z": 206.44004821777344 }, "tsne_coordinates": { "x": 3.54811692237854, "y": -5.798696517944336, "z": -26.99819564819336 }, "pca_coordinates": { "x": 0.10045433044433594, "y": 0.610291600227356, "z": 2.329329252243042 }, "axis_scores": { "Quantum imaging": 0.7591978311538696, "Quantum Life Science Sensing": 0.7031128406524658, "Quantum sensing Detection": 0.7233250737190247, "Quantum sensing Metrology": 0.7210861444473267, "Quantum sensing navigation": 0.752541720867157, "Quantum sensing Position": 0.731324315071106, "Quantum sensing Timing": 0.7127473950386047, "Quantum sensing": 0.7400975227355957, "Quantum control": 0.7230427265167236 } }, { "id": 116, "title": "Detectors for the future of X-ray imaging", "abstract": "In recent decades, developments in detectors for X-ray imaging have improved dose efficiency. This has been accomplished with for example, structured scintillators such as columnar CsI, or with direct...", "citations": 42, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 116, "doi": "10.1093/rpd/ncq074", "umap_coordinates": { "x": 395.5845947265625, "y": 133.4041748046875, "z": 205.0738983154297 }, "tsne_coordinates": { "x": -8.324057579040527, "y": 35.11661911010742, "z": -19.1322078704834 }, "pca_coordinates": { "x": -2.27285099029541, "y": 3.20639705657959, "z": 1.2950522899627686 }, "axis_scores": { "Quantum imaging": 0.7095869183540344, "Quantum Life Science Sensing": 0.7255529165267944, "Quantum sensing Detection": 0.6936845183372498, "Quantum sensing Metrology": 0.6637777090072632, "Quantum sensing navigation": 0.7033930420875549, "Quantum sensing Position": 0.6934359669685364, "Quantum sensing Timing": 0.6696701049804688, "Quantum sensing": 0.6881152391433716, "Quantum control": 0.6643643975257874 } }, { "id": 117, "title": "Simultaneous minimum-uncertainty measurement of discrete-valued complementary observables", "abstract": "We have made the first experimental demonstration of the simultaneous minimum uncertainty product between two complementary observables for a two-state system (a qubit). A partially entangled two-phot...", "citations": 25, "author_count": 4, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 117, "doi": "10.1103/PhysRevLett.86.4423", "umap_coordinates": { "x": 395.818603515625, "y": 136.15916442871094, "z": 207.62583923339844 }, "tsne_coordinates": { "x": -15.423824310302734, "y": -6.968020439147949, "z": 0.3864457905292511 }, "pca_coordinates": { "x": 2.7084922790527344, "y": 1.3075664043426514, "z": 3.3855385780334473 }, "axis_scores": { "Quantum imaging": 0.7542476058006287, "Quantum Life Science Sensing": 0.7714163064956665, "Quantum sensing Detection": 0.793102502822876, "Quantum sensing Metrology": 0.798979640007019, "Quantum sensing navigation": 0.7623907327651978, "Quantum sensing Position": 0.7661629915237427, "Quantum sensing Timing": 0.7660327553749084, "Quantum sensing": 0.7913672924041748, "Quantum control": 0.7132183313369751 } }, { "id": 118, "title": "Carrier diffusion in the barrier enabling formation of charged excitons in InAs/GaAs quantum dots", "abstract": "It is demonstrated that the photoluminescence spectra of single self-assembled quantum dots are very sensitive to the experimental conditions, such as excitation energy and crystal temperature. A qual...", "citations": 2, "author_count": 8, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 118, "doi": "10.12693/APhysPolA.100.387", "umap_coordinates": { "x": 393.0025329589844, "y": 134.5362548828125, "z": 207.23374938964844 }, "tsne_coordinates": { "x": 33.743568420410156, "y": -11.532575607299805, "z": 14.927672386169434 }, "pca_coordinates": { "x": 0.15893912315368652, "y": -1.5542101860046387, "z": 1.249035358428955 }, "axis_scores": { "Quantum imaging": 0.6928038597106934, "Quantum Life Science Sensing": 0.6983213424682617, "Quantum sensing Detection": 0.7010855078697205, "Quantum sensing Metrology": 0.6804737448692322, "Quantum sensing navigation": 0.6994633078575134, "Quantum sensing Position": 0.6909118890762329, "Quantum sensing Timing": 0.6992844939231873, "Quantum sensing": 0.7054978013038635, "Quantum control": 0.687411904335022 } }, { "id": 119, "title": "Quantum state tomography with quantum shot noise - art. no. 041305", "abstract": "We propose a scheme for a complete reconstruction of one- and two-particle orbital quantum states in mesoscopic conductors. The conductor in the transport state continuously emits orbital quantum stat...", "citations": 49, "author_count": 3, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 119, "doi": "10.1103/PhysRevB.73.041305", "umap_coordinates": { "x": 395.45941162109375, "y": 135.98553466796875, "z": 207.9097900390625 }, "tsne_coordinates": { "x": -24.738929748535156, "y": -14.209671974182129, "z": -9.423921585083008 }, "pca_coordinates": { "x": 5.314014911651611, "y": 1.5309491157531738, "z": 3.572793483734131 }, "axis_scores": { "Quantum imaging": 0.7536984086036682, "Quantum Life Science Sensing": 0.7234394550323486, "Quantum sensing Detection": 0.7572522759437561, "Quantum sensing Metrology": 0.7460001707077026, "Quantum sensing navigation": 0.7578369379043579, "Quantum sensing Position": 0.7154546976089478, "Quantum sensing Timing": 0.722481369972229, "Quantum sensing": 0.7609577775001526, "Quantum control": 0.7392958402633667 } }, { "id": 120, "title": "Self-assembled InN quantum dots on side facets of GaN nanowires", "abstract": "Self-assembled, atomic diffusion controlled growth of InN quantum dots was realized on the side facets of dislocation-free and c-oriented GaN nanowires having a hexagonal cross-section. The nanowires ...", "citations": 17, "author_count": 18, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 120, "doi": "10.1063/1.5022756", "umap_coordinates": { "x": 392.763427734375, "y": 133.5876007080078, "z": 207.95814514160156 }, "tsne_coordinates": { "x": 23.310009002685547, "y": -18.347936630249023, "z": -4.5072150230407715 }, "pca_coordinates": { "x": 0.15811753273010254, "y": -5.739832401275635, "z": 2.299434185028076 }, "axis_scores": { "Quantum imaging": 0.7390496730804443, "Quantum Life Science Sensing": 0.7269530892372131, "Quantum sensing Detection": 0.7296361327171326, "Quantum sensing Metrology": 0.7285588979721069, "Quantum sensing navigation": 0.7265626192092896, "Quantum sensing Position": 0.6940165162086487, "Quantum sensing Timing": 0.6608927845954895, "Quantum sensing": 0.7422757148742676, "Quantum control": 0.7077454328536987 } }, { "id": 121, "title": "Strain-Tunable Quantum Integrated Photonics", "abstract": "Semiconductor quantum dots are crucial parts of the photonic quantum technology toolbox because they show excellent single-photon emission properties in addition to their potential as solid-state qubi...", "citations": 76, "author_count": 13, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 121, "doi": "10.1021/acs.nanolett.8b03937", "umap_coordinates": { "x": 393.22509765625, "y": 134.25518798828125, "z": 207.0623321533203 }, "tsne_coordinates": { "x": 17.04892349243164, "y": -14.914682388305664, "z": -11.367079734802246 }, "pca_coordinates": { "x": -0.39668476581573486, "y": -3.894585132598877, "z": 0.7013401389122009 }, "axis_scores": { "Quantum imaging": 0.785344123840332, "Quantum Life Science Sensing": 0.7708903551101685, "Quantum sensing Detection": 0.7660652995109558, "Quantum sensing Metrology": 0.7561103105545044, "Quantum sensing navigation": 0.7668553590774536, "Quantum sensing Position": 0.7615474462509155, "Quantum sensing Timing": 0.7515772581100464, "Quantum sensing": 0.788919985294342, "Quantum control": 0.7644624710083008 } }, { "id": 122, "title": "COMBATING ENTANGLEMENT SUDDEN DEATH WITH NON-LOCAL QUANTUM-ERROR CORRECTION", "abstract": "We study the possibility of preventing finite-time disentanglement caused by dissipation by making use of non-local quantum error correction. This is made in comparison to previous results, where it w...", "citations": 1, "author_count": 3, "categories": [ "Computer Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 122, "doi": "10.1142/S0219749909004608", "umap_coordinates": { "x": 395.5301818847656, "y": 136.5205078125, "z": 207.47312927246094 }, "tsne_coordinates": { "x": -31.884357452392578, "y": -29.256004333496094, "z": -0.8392176032066345 }, "pca_coordinates": { "x": 2.3268094062805176, "y": 3.2043581008911133, "z": 1.1541931629180908 }, "axis_scores": { "Quantum imaging": 0.7046682238578796, "Quantum Life Science Sensing": 0.7187054753303528, "Quantum sensing Detection": 0.7256172895431519, "Quantum sensing Metrology": 0.6995906829833984, "Quantum sensing navigation": 0.7129085659980774, "Quantum sensing Position": 0.6903533935546875, "Quantum sensing Timing": 0.7069291472434998, "Quantum sensing": 0.7214189767837524, "Quantum control": 0.7107418775558472 } }, { "id": 123, "title": "Single-shot Adaptive Measurement for Quantum-enhanced Metrology", "abstract": "Quantum-enhanced metrology aims to estimate an unknown parameter such that the precision scales better than the shot-noise bound. Single-shot adaptive quantum-enhanced metrology (AQEM) is a promising ...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 123, "doi": "10.1117/12.2237355", "umap_coordinates": { "x": 395.0331726074219, "y": 133.13165283203125, "z": 206.67123413085938 }, "tsne_coordinates": { "x": -6.811634540557861, "y": 8.711156845092773, "z": -26.099641799926758 }, "pca_coordinates": { "x": -0.0922081470489502, "y": -0.08061385154724121, "z": 4.92456579208374 }, "axis_scores": { "Quantum imaging": 0.7568063735961914, "Quantum Life Science Sensing": 0.7396833300590515, "Quantum sensing Detection": 0.7658107280731201, "Quantum sensing Metrology": 0.8018741011619568, "Quantum sensing navigation": 0.7605823278427124, "Quantum sensing Position": 0.7356595993041992, "Quantum sensing Timing": 0.7237643599510193, "Quantum sensing": 0.7772817611694336, "Quantum control": 0.7313175201416016 } }, { "id": 124, "title": "Coherent phonon source based on electron spin resonance in a quantum-dot qubit", "abstract": "One of the key requirements for quantum phononics, especially for scenarios involving quantum communication and quantum-state transduction, is the implementation of a controlled phonon source, ultimat...", "citations": 1, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 124, "doi": "10.1038/s41598-025-96345-4", "umap_coordinates": { "x": 393.7784729003906, "y": 134.93357849121094, "z": 207.17764282226562 }, "tsne_coordinates": { "x": 7.439626216888428, "y": -9.719003677368164, "z": 8.273459434509277 }, "pca_coordinates": { "x": 0.7273105382919312, "y": -2.542102336883545, "z": 1.8518364429473877 }, "axis_scores": { "Quantum imaging": 0.7280515432357788, "Quantum Life Science Sensing": 0.7192261815071106, "Quantum sensing Detection": 0.7342161536216736, "Quantum sensing Metrology": 0.7044461965560913, "Quantum sensing navigation": 0.7244632244110107, "Quantum sensing Position": 0.7205777764320374, "Quantum sensing Timing": 0.7227410674095154, "Quantum sensing": 0.7378782629966736, "Quantum control": 0.6956794857978821 } }, { "id": 125, "title": "Nonperturbative dynamic photon absorption of quantum wells", "abstract": "Optical photoresponse of quantum wells in the nonperturbative regime has been studied by high-power and ultrafast-oscillating free-electron laser (FEL) experiments, which revealed a profound deviation...", "citations": 1, "author_count": 9, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 125, "doi": "10.1063/1.2194230", "umap_coordinates": { "x": 393.56549072265625, "y": 134.85031127929688, "z": 207.7739715576172 }, "tsne_coordinates": { "x": 24.84353256225586, "y": -26.781280517578125, "z": -8.501921653747559 }, "pca_coordinates": { "x": 1.627269983291626, "y": -1.016617774963379, "z": 0.7235717177391052 }, "axis_scores": { "Quantum imaging": 0.7670060396194458, "Quantum Life Science Sensing": 0.7729640007019043, "Quantum sensing Detection": 0.7683348655700684, "Quantum sensing Metrology": 0.7494068145751953, "Quantum sensing navigation": 0.7574983239173889, "Quantum sensing Position": 0.721000075340271, "Quantum sensing Timing": 0.7125755548477173, "Quantum sensing": 0.7737447023391724, "Quantum control": 0.7294320464134216 } }, { "id": 126, "title": "Spectroscopic properties of new and convenient standards for measuring fluorescence quantum yields", "abstract": "Three perylene derivatives with fluorescent quantum yields of 100% are suggested as new useful standards for the determination of fluorescence quantum yields. The compounds are N,N'-bis(1-hexylheptyl)...", "citations": 217, "author_count": 4, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 126, "doi": "10.1039/a804973d", "umap_coordinates": { "x": 392.83935546875, "y": 135.14022827148438, "z": 204.9331817626953 }, "tsne_coordinates": { "x": -3.5140655040740967, "y": 9.83905029296875, "z": -2.8562638759613037 }, "pca_coordinates": { "x": -3.577558994293213, "y": -0.863823413848877, "z": -0.21489384770393372 }, "axis_scores": { "Quantum imaging": 0.7020876407623291, "Quantum Life Science Sensing": 0.7584273815155029, "Quantum sensing Detection": 0.7064871788024902, "Quantum sensing Metrology": 0.7232053279876709, "Quantum sensing navigation": 0.6906886100769043, "Quantum sensing Position": 0.6825487613677979, "Quantum sensing Timing": 0.6666155457496643, "Quantum sensing": 0.7239716649055481, "Quantum control": 0.6795054078102112 } }, { "id": 127, "title": "InP/ZnS quantum dots synthesis and photovoltaic application", "abstract": "In the present paper hybrid core-shell InP/ZnS quantum dots were prepared by the one pot synthesis method which does not require additional component injections and which complies more with cost requi...", "citations": 13, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 127, "doi": "10.1007/s13204-022-02658-5", "umap_coordinates": { "x": 392.3439025878906, "y": 134.14744567871094, "z": 207.1577606201172 }, "tsne_coordinates": { "x": 27.071725845336914, "y": -8.85633659362793, "z": 7.167150974273682 }, "pca_coordinates": { "x": -2.8642196655273438, "y": -3.265442371368408, "z": 0.421805202960968 }, "axis_scores": { "Quantum imaging": 0.7164561748504639, "Quantum Life Science Sensing": 0.719875156879425, "Quantum sensing Detection": 0.7074448466300964, "Quantum sensing Metrology": 0.7079690098762512, "Quantum sensing navigation": 0.7058995366096497, "Quantum sensing Position": 0.7075300812721252, "Quantum sensing Timing": 0.6934914588928223, "Quantum sensing": 0.7149438261985779, "Quantum control": 0.7048860788345337 } }, { "id": 128, "title": "Observation of photon noise by cold-electron bolometers", "abstract": "We have observed the photon noise by measuring a response to the black body 350 GHz radiation and noise of the cold-electron bolometers (CEBs). The experimental results have been fit to the theoretica...", "citations": 31, "author_count": 8, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 128, "doi": "10.1063/1.4982031", "umap_coordinates": { "x": 394.7010498046875, "y": 134.5128173828125, "z": 207.54478454589844 }, "tsne_coordinates": { "x": -14.93759536743164, "y": -7.531167984008789, "z": -37.35686111450195 }, "pca_coordinates": { "x": 2.6695556640625, "y": -0.353778600692749, "z": 3.370466709136963 }, "axis_scores": { "Quantum imaging": 0.7381399273872375, "Quantum Life Science Sensing": 0.7396597266197205, "Quantum sensing Detection": 0.7658669352531433, "Quantum sensing Metrology": 0.7333695292472839, "Quantum sensing navigation": 0.7410897612571716, "Quantum sensing Position": 0.7074302434921265, "Quantum sensing Timing": 0.6992175579071045, "Quantum sensing": 0.7534449696540833, "Quantum control": 0.704797089099884 } }, { "id": 129, "title": "Dynamic switching of hole character and single photon polarization using the quantum confined Stark effect in quantum dot-in-dot structures", "abstract": "The engineering of the three-dimensional (3D) heterostructure potential in GaAs/AlGaAs pyramidal quantum dot-in-dots (DiDs) provides control over the valence band symmetry and hence on the polarizatio...", "citations": 2, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 129, "doi": "10.1088/0957-4484/21/28/285202", "umap_coordinates": { "x": 392.9908142089844, "y": 135.05831909179688, "z": 207.61109924316406 }, "tsne_coordinates": { "x": 18.807662963867188, "y": -10.32241153717041, "z": 15.788054466247559 }, "pca_coordinates": { "x": 1.0144495964050293, "y": -1.8066515922546387, "z": 0.9224775433540344 }, "axis_scores": { "Quantum imaging": 0.7406281232833862, "Quantum Life Science Sensing": 0.7478541731834412, "Quantum sensing Detection": 0.7345798015594482, "Quantum sensing Metrology": 0.7108614444732666, "Quantum sensing navigation": 0.7369961142539978, "Quantum sensing Position": 0.7090436816215515, "Quantum sensing Timing": 0.6973716020584106, "Quantum sensing": 0.7428397536277771, "Quantum control": 0.7225096225738525 } }, { "id": 130, "title": "Carrier recombination in aligned InAs/GaAs quantum dots grown on strain-relaxed InGaAs layers", "abstract": "Alignment of InAs quantum dots was achieved by introducing misfit dislocations in a metastable InGaAs layer and subsequent annealing. Photoexcited carrier dynamics were studied using time-resolved pho...", "citations": 2, "author_count": 9, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 130, "doi": "10.1002/pssc.200303046", "umap_coordinates": { "x": 392.5530090332031, "y": 134.35939025878906, "z": 207.9788818359375 }, "tsne_coordinates": { "x": 32.9803466796875, "y": -9.180034637451172, "z": 11.517251968383789 }, "pca_coordinates": { "x": -0.04024159908294678, "y": -3.529697895050049, "z": 0.35633963346481323 }, "axis_scores": { "Quantum imaging": 0.6926760077476501, "Quantum Life Science Sensing": 0.6932471394538879, "Quantum sensing Detection": 0.6827269792556763, "Quantum sensing Metrology": 0.6818922758102417, "Quantum sensing navigation": 0.704204261302948, "Quantum sensing Position": 0.7253405451774597, "Quantum sensing Timing": 0.7066429257392883, "Quantum sensing": 0.6953536868095398, "Quantum control": 0.6892343759536743 } }, { "id": 131, "title": "Modification of emission rate in broadband deterministic micropillar cavities", "abstract": "We investigate the efficient generation of photons in broadband deterministic quantum dot-micropillar cavities. The quantum-dot cavity coupling leads to Purcell factors above 2 for both exciton and bi...", "citations": 1, "author_count": 8, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 131, "doi": null, "umap_coordinates": { "x": 391.4057922363281, "y": 139.55577087402344, "z": 208.91860961914062 }, "tsne_coordinates": { "x": -5.522891998291016, "y": 51.91402816772461, "z": -5.238226890563965 }, "pca_coordinates": { "x": -0.1335991621017456, "y": 2.8760862350463867, "z": -0.8033087253570557 }, "axis_scores": { "Quantum imaging": 0.7008782625198364, "Quantum Life Science Sensing": 0.7005025148391724, "Quantum sensing Detection": 0.7077832818031311, "Quantum sensing Metrology": 0.697672963142395, "Quantum sensing navigation": 0.7091360092163086, "Quantum sensing Position": 0.6826745271682739, "Quantum sensing Timing": 0.6911022067070007, "Quantum sensing": 0.7075870037078857, "Quantum control": 0.6967621445655823 } }, { "id": 132, "title": "Electron resonant tunneling through InAs/GaAs quantum dots embedded in a Schottky diode with an AlAs insertion layer", "abstract": "Molecular beam epitaxy was employed to manufacture self-assembled InAs/GaAs quantum dot Schottky resonant tunneling diodes. By virtue of a thin AlAs insertion barrier, the thermal current was effectiv...", "citations": 42, "author_count": 9, "categories": [ "Electrochemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 132, "doi": "10.1149/1.2202091", "umap_coordinates": { "x": 393.40081787109375, "y": 134.29344177246094, "z": 208.26617431640625 }, "tsne_coordinates": { "x": 25.444726943969727, "y": -31.033069610595703, "z": -6.652689456939697 }, "pca_coordinates": { "x": 2.16690731048584, "y": -2.45143461227417, "z": 2.7420814037323 }, "axis_scores": { "Quantum imaging": 0.7264769673347473, "Quantum Life Science Sensing": 0.7161663174629211, "Quantum sensing Detection": 0.7333722710609436, "Quantum sensing Metrology": 0.7097228765487671, "Quantum sensing navigation": 0.7289086580276489, "Quantum sensing Position": 0.7108298540115356, "Quantum sensing Timing": 0.7015699744224548, "Quantum sensing": 0.7392303347587585, "Quantum control": 0.6945927143096924 } }, { "id": 133, "title": "Quantum State Tomography with Conditional Generative Adversarial Networks", "abstract": "Quantum state tomography (QST) is a challenging task in intermediate-scale quantum devices. Here, we apply conditional generative adversarial networks (CGANs) to QST. In the CGAN framework, two duelin...", "citations": 122, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 133, "doi": "10.1103/PhysRevLett.127.140502", "umap_coordinates": { "x": 395.6351013183594, "y": 136.4965362548828, "z": 207.61012268066406 }, "tsne_coordinates": { "x": -23.946041107177734, "y": -14.429279327392578, "z": -8.922167778015137 }, "pca_coordinates": { "x": 5.206849575042725, "y": 1.445076823234558, "z": 3.8390955924987793 }, "axis_scores": { "Quantum imaging": 0.7641177177429199, "Quantum Life Science Sensing": 0.7164394855499268, "Quantum sensing Detection": 0.7561381459236145, "Quantum sensing Metrology": 0.7363477349281311, "Quantum sensing navigation": 0.7527792453765869, "Quantum sensing Position": 0.7058417201042175, "Quantum sensing Timing": 0.7335706353187561, "Quantum sensing": 0.7663947939872742, "Quantum control": 0.7461448907852173 } }, { "id": 134, "title": "Spin transmission through quantum dots with strong spin-orbit interaction", "abstract": "Quantum oscillations of the spin conductance through regular and chaotic 2D quantum dots under the varying Rashba spin-orbit interaction and at zero magnetic field have been investigated numerically b...", "citations": 11, "author_count": 4, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 134, "doi": "10.1016/j.physleta.2004.04.048", "umap_coordinates": { "x": 392.97247314453125, "y": 135.2515106201172, "z": 207.5542449951172 }, "tsne_coordinates": { "x": 17.109493255615234, "y": -21.950687408447266, "z": 1.3226524591445923 }, "pca_coordinates": { "x": 0.9978578090667725, "y": -2.8553786277770996, "z": 2.1335055828094482 }, "axis_scores": { "Quantum imaging": 0.7682278752326965, "Quantum Life Science Sensing": 0.7361802458763123, "Quantum sensing Detection": 0.7486726641654968, "Quantum sensing Metrology": 0.7288368940353394, "Quantum sensing navigation": 0.7283440828323364, "Quantum sensing Position": 0.7068934440612793, "Quantum sensing Timing": 0.7048344016075134, "Quantum sensing": 0.7627795934677124, "Quantum control": 0.7221440672874451 } }, { "id": 135, "title": "Gate-defined quantum-dot devices realized in InGaAs/InP by incorporating a HfO2 layer as gate dielectric", "abstract": "Gate-defined quantum dots in an InGaAs/InP heterostructure are realized by incorporating a high-kappa HfO2 material as a gate dielectric using atomic layer deposition. The fabricated quantum-dot devic...", "citations": 23, "author_count": 6, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 135, "doi": "10.1063/1.3077188", "umap_coordinates": { "x": 392.8515930175781, "y": 133.99826049804688, "z": 208.28175354003906 }, "tsne_coordinates": { "x": 30.405080795288086, "y": -20.4538631439209, "z": 6.481454372406006 }, "pca_coordinates": { "x": 2.0139122009277344, "y": -2.895840644836426, "z": 2.0017170906066895 }, "axis_scores": { "Quantum imaging": 0.7440296411514282, "Quantum Life Science Sensing": 0.7319391369819641, "Quantum sensing Detection": 0.7325618863105774, "Quantum sensing Metrology": 0.7412831783294678, "Quantum sensing navigation": 0.719219446182251, "Quantum sensing Position": 0.6888719797134399, "Quantum sensing Timing": 0.6921579241752625, "Quantum sensing": 0.7516178488731384, "Quantum control": 0.7106038928031921 } }, { "id": 136, "title": "Efficient Contextual Ontological Model of n-Qubit Stabilizer Quantum Mechanics", "abstract": "The most well-known tool for studying contextuality in quantum computation is the n-qubit Stabilizer state tableau representation. We provide an extension that not only describes the quantum state but...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 136, "doi": "10.1103/PhysRevLett.129.130401", "umap_coordinates": { "x": 394.92529296875, "y": 137.37081909179688, "z": 206.72047424316406 }, "tsne_coordinates": { "x": -20.151622772216797, "y": 4.954086780548096, "z": 10.51028060913086 }, "pca_coordinates": { "x": 3.1434974670410156, "y": 2.507230520248413, "z": -0.7097288966178894 }, "axis_scores": { "Quantum imaging": 0.7616367340087891, "Quantum Life Science Sensing": 0.7538081407546997, "Quantum sensing Detection": 0.7576197385787964, "Quantum sensing Metrology": 0.7476325035095215, "Quantum sensing navigation": 0.7909266948699951, "Quantum sensing Position": 0.7485101222991943, "Quantum sensing Timing": 0.7438794374465942, "Quantum sensing": 0.7807274460792542, "Quantum control": 0.762007474899292 } }, { "id": 137, "title": "LOW-NOISE OPTOELECTRONIC PHOTON NUMBER AMPLIFIER AND QUANTUM-OPTICAL TAP (VOL 18, PG 2138, 1993)", "abstract": "", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 137, "doi": "10.1364/OL.19.000922", "umap_coordinates": { "x": 394.7027893066406, "y": 134.38348388671875, "z": 206.82333374023438 }, "tsne_coordinates": { "x": -4.263794422149658, "y": -3.7317280769348145, "z": -28.464284896850586 }, "pca_coordinates": { "x": 0.3380858898162842, "y": 0.38523149490356445, "z": 3.48004150390625 }, "axis_scores": { "Quantum imaging": 0.7458266019821167, "Quantum Life Science Sensing": 0.7424241304397583, "Quantum sensing Detection": 0.7557684183120728, "Quantum sensing Metrology": 0.737044095993042, "Quantum sensing navigation": 0.7446368932723999, "Quantum sensing Position": 0.7330812215805054, "Quantum sensing Timing": 0.724612295627594, "Quantum sensing": 0.7531512379646301, "Quantum control": 0.7157132029533386 } }, { "id": 138, "title": "Efficient double-quantum excitation in rotational resonance NMR", "abstract": "We present a new technique for double-quantum excitation in magic-angle-spinning solid-state NMR, The method involves (i) preparation of nonequilibrium longitudinal magnetization; (ii) mechanical exci...", "citations": 25, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 138, "doi": "10.1006/jmre.2000.2080", "umap_coordinates": { "x": 392.67510986328125, "y": 136.6661376953125, "z": 206.72727966308594 }, "tsne_coordinates": { "x": 13.926735877990723, "y": 3.4972691535949707, "z": 33.391387939453125 }, "pca_coordinates": { "x": -0.7324515581130981, "y": 0.9480224847793579, "z": -0.4330446124076843 }, "axis_scores": { "Quantum imaging": 0.7679142355918884, "Quantum Life Science Sensing": 0.7357578873634338, "Quantum sensing Detection": 0.7221407294273376, "Quantum sensing Metrology": 0.7207175493240356, "Quantum sensing navigation": 0.7157707214355469, "Quantum sensing Position": 0.6902058124542236, "Quantum sensing Timing": 0.6974449157714844, "Quantum sensing": 0.7395913600921631, "Quantum control": 0.7076222896575928 } }, { "id": 139, "title": "Weak cloning of an unknown quantum state", "abstract": "The impossibility to clone an unknown quantum state is a powerful principle to understand the nature of quantum mechanics, especially within the context of quantum computing and quantum information. T...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 139, "doi": "10.1016/j.physleta.2006.01.075", "umap_coordinates": { "x": 395.5473937988281, "y": 136.8975067138672, "z": 207.03709411621094 }, "tsne_coordinates": { "x": -22.736005783081055, "y": -5.07505989074707, "z": 9.017906188964844 }, "pca_coordinates": { "x": 2.645620822906494, "y": 3.1240909099578857, "z": 0.26809877157211304 }, "axis_scores": { "Quantum imaging": 0.7430030703544617, "Quantum Life Science Sensing": 0.7432687878608704, "Quantum sensing Detection": 0.7596848011016846, "Quantum sensing Metrology": 0.7224379777908325, "Quantum sensing navigation": 0.7566906213760376, "Quantum sensing Position": 0.7559016942977905, "Quantum sensing Timing": 0.6911386251449585, "Quantum sensing": 0.7572616934776306, "Quantum control": 0.7332345247268677 } }, { "id": 140, "title": "An efficient source of single photons: a single quantum dot in a micropost microcavity", "abstract": "We have used a single quantum dot in a micropost microcavity to generate triggered single photons. Coupling between the quantum-dot dipole and the confined microcavity mode leads to a large enhancemen...", "citations": 11, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 140, "doi": "10.1016/S1386-9477(02)00872-X", "umap_coordinates": { "x": 394.37939453125, "y": 133.5340118408203, "z": 207.5013427734375 }, "tsne_coordinates": { "x": -11.4079008102417, "y": -5.351212501525879, "z": -26.33230209350586 }, "pca_coordinates": { "x": -1.8743717670440674, "y": -2.1443848609924316, "z": 3.895691394805908 }, "axis_scores": { "Quantum imaging": 0.7282459139823914, "Quantum Life Science Sensing": 0.7145020961761475, "Quantum sensing Detection": 0.7327353954315186, "Quantum sensing Metrology": 0.7282714247703552, "Quantum sensing navigation": 0.7031104564666748, "Quantum sensing Position": 0.701914370059967, "Quantum sensing Timing": 0.6892780065536499, "Quantum sensing": 0.7354536652565002, "Quantum control": 0.6748764514923096 } }, { "id": 141, "title": "QUANTUM YIELDS OF PHOTOSYNTHESIS AT TEMPERATURES BETWEEN -2-DEGREES C AND 35-DEGREES C IN A COLD-TOLERANT C-3 PLANT (PINUS-SYLVESTRIS) DURING THE COURSE OF ONE YEAR", "abstract": "Quantum yields of photosynthetic CO2 uptake by Pinus sylvestris (L.) shoots were measured at temperatures between -2.degree. C and 35.degree. C from September 1984 to September 1985. The ratio of vari...", "citations": 106, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1987, "topic": [ "all" ], "embedding_index": 141, "doi": "10.1111/j.1365-3040.1987.tb01608.x", "umap_coordinates": { "x": 394.463134765625, "y": 135.96324157714844, "z": 203.82965087890625 }, "tsne_coordinates": { "x": 9.737351417541504, "y": 34.19163513183594, "z": 14.282752990722656 }, "pca_coordinates": { "x": -0.6754646301269531, "y": 1.5954880714416504, "z": 0.6119021773338318 }, "axis_scores": { "Quantum imaging": 0.7228034138679504, "Quantum Life Science Sensing": 0.7541433572769165, "Quantum sensing Detection": 0.7226002812385559, "Quantum sensing Metrology": 0.7306486964225769, "Quantum sensing navigation": 0.7087224125862122, "Quantum sensing Position": 0.7027421593666077, "Quantum sensing Timing": 0.7395296692848206, "Quantum sensing": 0.7423720359802246, "Quantum control": 0.7255042195320129 } }, { "id": 142, "title": "Readout of relaxation rates by nonadiabatic pumping spectroscopy", "abstract": "We put forward nonadiabatic charge pumping as a method for accessing the different charge relaxation rates as well as the relaxation rates of excited orbital states in double-quantum-dot setups, based...", "citations": 11, "author_count": 5, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 142, "doi": "10.1103/PhysRevB.93.235401", "umap_coordinates": { "x": 393.7145080566406, "y": 136.26820373535156, "z": 207.50889587402344 }, "tsne_coordinates": { "x": -8.810952186584473, "y": -27.569780349731445, "z": 3.285081148147583 }, "pca_coordinates": { "x": 3.4821457862854004, "y": 0.5347962379455566, "z": 0.40594762563705444 }, "axis_scores": { "Quantum imaging": 0.7279523611068726, "Quantum Life Science Sensing": 0.7500195503234863, "Quantum sensing Detection": 0.743245005607605, "Quantum sensing Metrology": 0.717666745185852, "Quantum sensing navigation": 0.7310194969177246, "Quantum sensing Position": 0.6971380710601807, "Quantum sensing Timing": 0.7123532295227051, "Quantum sensing": 0.7437668442726135, "Quantum control": 0.7093862295150757 } }, { "id": 143, "title": "Detecting telecom single photons with (99.5+0.5-2.07)% system detection efficiency and high time resolution", "abstract": "Single photon detectors are indispensable tools in optics, from fundamental measurements to quantum information processing. The ability of superconducting nanowire single photon detectors (SNSPDs) to ...", "citations": 222, "author_count": 13, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 143, "doi": "10.1063/5.0039772", "umap_coordinates": { "x": 394.8531799316406, "y": 133.2571258544922, "z": 207.16830444335938 }, "tsne_coordinates": { "x": -11.667442321777344, "y": 6.3857879638671875, "z": -34.835601806640625 }, "pca_coordinates": { "x": -1.0179517269134521, "y": -0.8399901390075684, "z": 5.090768337249756 }, "axis_scores": { "Quantum imaging": 0.7373605966567993, "Quantum Life Science Sensing": 0.7581815123558044, "Quantum sensing Detection": 0.7642027735710144, "Quantum sensing Metrology": 0.7513889670372009, "Quantum sensing navigation": 0.7202497720718384, "Quantum sensing Position": 0.7149529457092285, "Quantum sensing Timing": 0.7462811470031738, "Quantum sensing": 0.7492132782936096, "Quantum control": 0.6735519766807556 } }, { "id": 144, "title": "Self-assembled quantum dots in a nanowire system for quantum photonics", "abstract": "Quantum dots embedded within nanowires represent one of the most promising technologies for applications in quantum photonics. Whereas the top-down fabrication of such structures remains a technologic...", "citations": 333, "author_count": 20, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 144, "doi": "10.1038/NMAT3557", "umap_coordinates": { "x": 392.6151428222656, "y": 134.15013122558594, "z": 207.1788787841797 }, "tsne_coordinates": { "x": 16.57000732421875, "y": -11.19377326965332, "z": -5.103583335876465 }, "pca_coordinates": { "x": -0.06868517398834229, "y": -4.387534141540527, "z": 1.5116183757781982 }, "axis_scores": { "Quantum imaging": 0.7470643520355225, "Quantum Life Science Sensing": 0.7487339377403259, "Quantum sensing Detection": 0.7533772587776184, "Quantum sensing Metrology": 0.7447082996368408, "Quantum sensing navigation": 0.766447126865387, "Quantum sensing Position": 0.7297543287277222, "Quantum sensing Timing": 0.7002997994422913, "Quantum sensing": 0.7605700492858887, "Quantum control": 0.7264436483383179 } }, { "id": 145, "title": "A metal-wire/quantum-dot composite metamaterial with negative ε and compensated optical loss", "abstract": "Numerical simulations of a binary mixture of quantum dots exhibiting gain with silver nanorods are performed, showing the feasibility of lossless negative epsilon operation for realistic material stru...", "citations": 42, "author_count": 8, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 145, "doi": "10.1063/1.3013331", "umap_coordinates": { "x": 393.76434326171875, "y": 134.40744018554688, "z": 208.01406860351562 }, "tsne_coordinates": { "x": 27.322853088378906, "y": -19.627613067626953, "z": -22.56055450439453 }, "pca_coordinates": { "x": 0.6141114234924316, "y": -3.3409652709960938, "z": 1.4882073402404785 }, "axis_scores": { "Quantum imaging": 0.7164408564567566, "Quantum Life Science Sensing": 0.71006178855896, "Quantum sensing Detection": 0.7228145003318787, "Quantum sensing Metrology": 0.7187240123748779, "Quantum sensing navigation": 0.7003732919692993, "Quantum sensing Position": 0.6868259310722351, "Quantum sensing Timing": 0.6691713333129883, "Quantum sensing": 0.7291482090950012, "Quantum control": 0.6726036071777344 } }, { "id": 146, "title": "Dose reduction in medical X-ray imaging using noise free photon counting", "abstract": "A novel technology based on photon counting gaseous detectors has been developed for medical X-ray imaging applications. The technology allows a significant dose reduction over existing screen-film sy...", "citations": 25, "author_count": 10, "categories": [ "Instruments & Instrumentation" ], "year": 2001, "topic": [ "all" ], "embedding_index": 146, "doi": "10.1016/S0168-9002(01)00920-2", "umap_coordinates": { "x": 395.2684631347656, "y": 133.14697265625, "z": 205.30555725097656 }, "tsne_coordinates": { "x": -7.811048984527588, "y": 17.891191482543945, "z": -11.097444534301758 }, "pca_coordinates": { "x": -3.0341320037841797, "y": 1.833233118057251, "z": 3.841794967651367 }, "axis_scores": { "Quantum imaging": 0.7213712334632874, "Quantum Life Science Sensing": 0.7139395475387573, "Quantum sensing Detection": 0.7044801712036133, "Quantum sensing Metrology": 0.7005947232246399, "Quantum sensing navigation": 0.6991246342658997, "Quantum sensing Position": 0.6848195791244507, "Quantum sensing Timing": 0.6706684827804565, "Quantum sensing": 0.7030733227729797, "Quantum control": 0.6572005152702332 } }, { "id": 147, "title": "Dynamics of steered quantum coherence and magic resource under sudden quench", "abstract": "We explore the dynamics of l1\\documentclass[12pt]{minimal} \\usepackage{amsmath} \\usepackage{wasysym} \\usepackage{amsfonts} \\usepackage{amssymb} \\usepackage{amsbsy} \\usepackage{mathrsfs} \\usepackage{up...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 147, "doi": "10.1007/s11128-024-04414-w", "umap_coordinates": { "x": 395.0162658691406, "y": 136.9745330810547, "z": 207.60003662109375 }, "tsne_coordinates": { "x": -21.847352981567383, "y": -22.416126251220703, "z": 11.145519256591797 }, "pca_coordinates": { "x": 2.1949820518493652, "y": 2.480083465576172, "z": -1.8424484729766846 }, "axis_scores": { "Quantum imaging": 0.7052180767059326, "Quantum Life Science Sensing": 0.7018177509307861, "Quantum sensing Detection": 0.7034463882446289, "Quantum sensing Metrology": 0.6929007172584534, "Quantum sensing navigation": 0.7131940126419067, "Quantum sensing Position": 0.6870758533477783, "Quantum sensing Timing": 0.695828914642334, "Quantum sensing": 0.7135467529296875, "Quantum control": 0.7310245633125305 } }, { "id": 148, "title": "Photoexcited carrier transfer in InGaAs quantum dot structures: Dependence on the dot density", "abstract": "Carrier dynamics has been measured by time-resolved photoluminescence in self-assembled InGaAs/GaAs quantum-dot structures with dot density of the order of 10(8)-10(10) cm(-2). The time of carrier tra...", "citations": 44, "author_count": 3, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 148, "doi": "10.1063/1.126359", "umap_coordinates": { "x": 393.13360595703125, "y": 133.84521484375, "z": 208.20021057128906 }, "tsne_coordinates": { "x": 28.914064407348633, "y": -19.94340705871582, "z": -1.2378958463668823 }, "pca_coordinates": { "x": 1.179567813873291, "y": -4.770359516143799, "z": 1.6213736534118652 }, "axis_scores": { "Quantum imaging": 0.7388392090797424, "Quantum Life Science Sensing": 0.7144528031349182, "Quantum sensing Detection": 0.7330076694488525, "Quantum sensing Metrology": 0.717718243598938, "Quantum sensing navigation": 0.6970334053039551, "Quantum sensing Position": 0.6997374296188354, "Quantum sensing Timing": 0.6750152111053467, "Quantum sensing": 0.7374759316444397, "Quantum control": 0.7141797542572021 } }, { "id": 149, "title": "Superposition of two-mode squeezed states for quantum information processing and quantum sensing", "abstract": "We investigate superpositions of two-mode squeezed states (TMSSs), which have potential applications in quantum information processing and quantum sensing. We study some properties of these nonclassic...", "citations": 42, "author_count": 6, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 149, "doi": "10.1103/PhysRevA.103.062405", "umap_coordinates": { "x": 395.2565002441406, "y": 136.28526306152344, "z": 207.06036376953125 }, "tsne_coordinates": { "x": -29.827733993530273, "y": -22.241601943969727, "z": -4.407275199890137 }, "pca_coordinates": { "x": 2.755253791809082, "y": -0.10460257530212402, "z": 2.685817241668701 }, "axis_scores": { "Quantum imaging": 0.7361851334571838, "Quantum Life Science Sensing": 0.7434061169624329, "Quantum sensing Detection": 0.7666890621185303, "Quantum sensing Metrology": 0.7568567991256714, "Quantum sensing navigation": 0.7341093420982361, "Quantum sensing Position": 0.7280497550964355, "Quantum sensing Timing": 0.7101996541023254, "Quantum sensing": 0.7712484002113342, "Quantum control": 0.6979984641075134 } }, { "id": 150, "title": "Initialization of a spin qubit in a site-controlled nanowire quantum dot", "abstract": "A fault-tolerant quantum repeater or quantum computer using solid-state spin-based quantum bits will likely require a physical implementation with many spins arranged in a grid. Self-assembled quantum...", "citations": 51, "author_count": 12, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 150, "doi": "10.1088/1367-2630/18/5/053024", "umap_coordinates": { "x": 392.870361328125, "y": 134.76695251464844, "z": 207.6344757080078 }, "tsne_coordinates": { "x": 35.28798294067383, "y": -12.7012300491333, "z": 3.5542354583740234 }, "pca_coordinates": { "x": 1.6290996074676514, "y": 0.014229059219360352, "z": 1.9119746685028076 }, "axis_scores": { "Quantum imaging": 0.7148171067237854, "Quantum Life Science Sensing": 0.675408124923706, "Quantum sensing Detection": 0.702251136302948, "Quantum sensing Metrology": 0.6950358748435974, "Quantum sensing navigation": 0.7389746904373169, "Quantum sensing Position": 0.73485267162323, "Quantum sensing Timing": 0.7250446677207947, "Quantum sensing": 0.7168017029762268, "Quantum control": 0.7017312049865723 } }, { "id": 151, "title": "Impact of temporal correlations, coherence, and postselection on two-photon interference", "abstract": "Two-photon interference is an indispensable resource in quantum photonics, but it is not straightforward to achieve. The cascaded generation of photon pairs contains intrinsic temporal correlations th...", "citations": 3, "author_count": 10, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 151, "doi": "10.1103/PhysRevResearch.7.013190", "umap_coordinates": { "x": 395.4455261230469, "y": 135.52920532226562, "z": 207.1300506591797 }, "tsne_coordinates": { "x": -7.604840278625488, "y": -11.957906723022461, "z": -7.654477596282959 }, "pca_coordinates": { "x": 1.7651257514953613, "y": 1.0769225358963013, "z": 1.2628962993621826 }, "axis_scores": { "Quantum imaging": 0.7677305936813354, "Quantum Life Science Sensing": 0.7524317502975464, "Quantum sensing Detection": 0.759155809879303, "Quantum sensing Metrology": 0.7364097833633423, "Quantum sensing navigation": 0.7423286437988281, "Quantum sensing Position": 0.7297669053077698, "Quantum sensing Timing": 0.7695339322090149, "Quantum sensing": 0.7627399563789368, "Quantum control": 0.7405918836593628 } }, { "id": 152, "title": "Single-photon counters in the telecom wavelength region of 1550 nm for quantum information processing", "abstract": "We describe the status of commercially available InGaAs/InP avalanche photodiodes for use as single-photon counters in the telecom wavelength region of 1550 nm....", "citations": 32, "author_count": 5, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 152, "doi": "10.1080/09500340110075131", "umap_coordinates": { "x": 394.8673400878906, "y": 133.64697265625, "z": 207.1354217529297 }, "tsne_coordinates": { "x": -16.57671546936035, "y": 3.621302604675293, "z": -24.90289878845215 }, "pca_coordinates": { "x": -1.044114589691162, "y": 0.953522801399231, "z": 4.1272759437561035 }, "axis_scores": { "Quantum imaging": 0.7145616412162781, "Quantum Life Science Sensing": 0.7376106381416321, "Quantum sensing Detection": 0.7387173175811768, "Quantum sensing Metrology": 0.7404983639717102, "Quantum sensing navigation": 0.7338248491287231, "Quantum sensing Position": 0.7175961136817932, "Quantum sensing Timing": 0.7352925539016724, "Quantum sensing": 0.7368520498275757, "Quantum control": 0.6857839822769165 } }, { "id": 153, "title": "Entanglement tensor for a general pure multipartite quantum state", "abstract": "We propose an entanglement tensor to quantitatively compute the entanglement of a general pure multipartite quantum state. We compare the ensuing tensor with the concurrence for bipartite state and ap...", "citations": 9, "author_count": 3, "categories": [ "Computer Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 153, "doi": null, "umap_coordinates": { "x": 391.9880065917969, "y": 139.40774536132812, "z": 208.5166778564453 }, "tsne_coordinates": { "x": -17.851329803466797, "y": 38.371803283691406, "z": -0.5912630558013916 }, "pca_coordinates": { "x": 1.4715635776519775, "y": 2.892618179321289, "z": -1.658869743347168 }, "axis_scores": { "Quantum imaging": 0.7355245351791382, "Quantum Life Science Sensing": 0.6956079006195068, "Quantum sensing Detection": 0.7190712094306946, "Quantum sensing Metrology": 0.6986523866653442, "Quantum sensing navigation": 0.7127853035926819, "Quantum sensing Position": 0.6845995187759399, "Quantum sensing Timing": 0.6594680547714233, "Quantum sensing": 0.7294972538948059, "Quantum control": 0.7222035527229309 } }, { "id": 154, "title": "Efficient catalysis of the photoisomerization of stilbene derivatives by zinc porphyrin complexation", "abstract": "Very high quantum yields have been obtained for the cis-trans photoisomerization of 1-(1-naphthyl)-2-(4-pyridyl)ethylene (NPE) using zinc(II)-5,15-(3,5-di-tert-butylphenyl)-2,8,12,18-tetraethyl-3,7,13...", "citations": 5, "author_count": 3, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 154, "doi": "10.1016/S1010-6030(01)00493-2", "umap_coordinates": { "x": 392.4792175292969, "y": 135.38595581054688, "z": 205.1669464111328 }, "tsne_coordinates": { "x": -0.29291245341300964, "y": 9.748407363891602, "z": -5.978651523590088 }, "pca_coordinates": { "x": -4.311694145202637, "y": -2.060746669769287, "z": -0.06021517515182495 }, "axis_scores": { "Quantum imaging": 0.68297278881073, "Quantum Life Science Sensing": 0.7010765075683594, "Quantum sensing Detection": 0.6709793210029602, "Quantum sensing Metrology": 0.6616607904434204, "Quantum sensing navigation": 0.6499398946762085, "Quantum sensing Position": 0.6596085429191589, "Quantum sensing Timing": 0.6577929854393005, "Quantum sensing": 0.6834918260574341, "Quantum control": 0.6481083631515503 } }, { "id": 155, "title": "Correlation spectroscopy of excitons and biexcitons on a single quantum dot - art. no. 053814", "abstract": "We report the observation of antibunched emission from single self-assembled InAs quantum dots under various conditions. We have measured the correlation function of the photon emission pertaining to ...", "citations": 21, "author_count": 11, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 155, "doi": "10.1103/PhysRevA.66.053814", "umap_coordinates": { "x": 394.46954345703125, "y": 134.33831787109375, "z": 208.45372009277344 }, "tsne_coordinates": { "x": 4.854831218719482, "y": -27.437559127807617, "z": -8.41080379486084 }, "pca_coordinates": { "x": 3.981569766998291, "y": -2.6817336082458496, "z": 2.502075433731079 }, "axis_scores": { "Quantum imaging": 0.7239505648612976, "Quantum Life Science Sensing": 0.7366331815719604, "Quantum sensing Detection": 0.7524527907371521, "Quantum sensing Metrology": 0.7376652359962463, "Quantum sensing navigation": 0.7219850420951843, "Quantum sensing Position": 0.7122247219085693, "Quantum sensing Timing": 0.719640851020813, "Quantum sensing": 0.7470938563346863, "Quantum control": 0.6928555965423584 } }, { "id": 156, "title": "An area efficient readout architecture for photon counting color imaging", "abstract": "The introduction of several energy levels, namely color imaging, in photon counting X-ray image sensors is a trade-off between circuit complexity and spatial resolution. In this paper, we propose a pi...", "citations": 3, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2007, "topic": [ "all" ], "embedding_index": 156, "doi": "10.1016/j.nima.2007.01.140", "umap_coordinates": { "x": 394.6572265625, "y": 132.76458740234375, "z": 205.50289916992188 }, "tsne_coordinates": { "x": -14.27152156829834, "y": 18.43004608154297, "z": -11.842809677124023 }, "pca_coordinates": { "x": -3.1930365562438965, "y": -0.33896398544311523, "z": 4.341075420379639 }, "axis_scores": { "Quantum imaging": 0.7448012232780457, "Quantum Life Science Sensing": 0.6948331594467163, "Quantum sensing Detection": 0.719438910484314, "Quantum sensing Metrology": 0.7101910710334778, "Quantum sensing navigation": 0.7094325423240662, "Quantum sensing Position": 0.6811225414276123, "Quantum sensing Timing": 0.6932507157325745, "Quantum sensing": 0.720033586025238, "Quantum control": 0.6723101139068604 } }, { "id": 157, "title": "Mental States Follow Quantum Mechanics During Perception and Cognition of Ambiguous Figures", "abstract": "Processes undergoing quantum mechanics exhibit quantum interference effects. In this case, quantum probabilities result to be different from classical ones because they contain an additional so-called...", "citations": 37, "author_count": 7, "categories": [ "Mathematics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 157, "doi": null, "umap_coordinates": { "x": 392.2165832519531, "y": 139.33596801757812, "z": 209.17779541015625 }, "tsne_coordinates": { "x": -11.19442367553711, "y": 37.307735443115234, "z": -0.11769120395183563 }, "pca_coordinates": { "x": 1.924607753753662, "y": 5.07370662689209, "z": -1.7236783504486084 }, "axis_scores": { "Quantum imaging": 0.779424250125885, "Quantum Life Science Sensing": 0.7756117582321167, "Quantum sensing Detection": 0.7628427147865295, "Quantum sensing Metrology": 0.764113187789917, "Quantum sensing navigation": 0.8047555685043335, "Quantum sensing Position": 0.7779726386070251, "Quantum sensing Timing": 0.7518477439880371, "Quantum sensing": 0.7787110209465027, "Quantum control": 0.762793242931366 } }, { "id": 158, "title": "Imaging a one-electron InAs quantum dot in an InAs/InP nanowire", "abstract": "Nanowire heterostructures define high-quality few-electron quantum dots for nanoelectronics, spintronics, and quantum information processing. We use a cooled scanning probe microscope (SPM) to image a...", "citations": 42, "author_count": 7, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 158, "doi": "10.1103/PhysRevB.77.245327", "umap_coordinates": { "x": 393.4533386230469, "y": 134.3637237548828, "z": 208.5953826904297 }, "tsne_coordinates": { "x": 1.5758795738220215, "y": -26.773996353149414, "z": 4.058532238006592 }, "pca_coordinates": { "x": 3.218817710876465, "y": -3.5456604957580566, "z": 3.5482420921325684 }, "axis_scores": { "Quantum imaging": 0.7597324252128601, "Quantum Life Science Sensing": 0.7285462617874146, "Quantum sensing Detection": 0.7509069442749023, "Quantum sensing Metrology": 0.7341138124465942, "Quantum sensing navigation": 0.7552070021629333, "Quantum sensing Position": 0.7309925556182861, "Quantum sensing Timing": 0.7064223885536194, "Quantum sensing": 0.7512909770011902, "Quantum control": 0.6922619342803955 } }, { "id": 159, "title": "Studies of hypro-mellose (HPMC) functionalized ZnS:Mn fluorescent quantum dots", "abstract": "Fluorescent ZnS:Mn quantum dots coated with hypro-mellose (HPMC) were synthesized by using simple and facile chemical precipitation technique in which HPMC acts as a novel organic surfactant to passiv...", "citations": 4, "author_count": 11, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 159, "doi": "10.1007/s10854-016-5746-0", "umap_coordinates": { "x": 393.1072998046875, "y": 135.17059326171875, "z": 204.88385009765625 }, "tsne_coordinates": { "x": 32.6551399230957, "y": 9.767910957336426, "z": 2.2704808712005615 }, "pca_coordinates": { "x": -4.459347248077393, "y": 1.4400146007537842, "z": -0.6719488501548767 }, "axis_scores": { "Quantum imaging": 0.7235556244850159, "Quantum Life Science Sensing": 0.7336969971656799, "Quantum sensing Detection": 0.7015326619148254, "Quantum sensing Metrology": 0.7030922770500183, "Quantum sensing navigation": 0.7136459350585938, "Quantum sensing Position": 0.7002802491188049, "Quantum sensing Timing": 0.6664642095565796, "Quantum sensing": 0.7232165336608887, "Quantum control": 0.701567530632019 } }, { "id": 160, "title": "Heat, molecular vibrations, and adiabatic driving in non-equilibrium transport through interacting quantum dots", "abstract": "In this article we review aspects of charge and heat transport in interacting quantum dots and molecular junctions under stationary and time-dependent non-equilibrium conditions due to finite electric...", "citations": 35, "author_count": 7, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 160, "doi": "10.1002/pssb.201349219", "umap_coordinates": { "x": 394.17694091796875, "y": 136.19895935058594, "z": 207.1477508544922 }, "tsne_coordinates": { "x": -14.685372352600098, "y": -9.486799240112305, "z": 16.32014274597168 }, "pca_coordinates": { "x": 2.069835662841797, "y": -0.9327490329742432, "z": -0.622733473777771 }, "axis_scores": { "Quantum imaging": 0.744594156742096, "Quantum Life Science Sensing": 0.7225236892700195, "Quantum sensing Detection": 0.732255220413208, "Quantum sensing Metrology": 0.7187179327011108, "Quantum sensing navigation": 0.7416279911994934, "Quantum sensing Position": 0.7057948708534241, "Quantum sensing Timing": 0.7146672010421753, "Quantum sensing": 0.7431104779243469, "Quantum control": 0.748382568359375 } }, { "id": 161, "title": "Time Dependent Study of Multiple Exciton Generation in Nanocrystal Quantum Dots", "abstract": "We study the exciton dynamics in an optically excited nanocrystal quantum dot. Multiple exciton formation is more efficient in nanocrystal quantum dots compared to bulk semiconductors due to enhanced ...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 161, "doi": "10.1088/1742-6596/696/1/012012", "umap_coordinates": { "x": 393.2184143066406, "y": 135.0013885498047, "z": 206.92527770996094 }, "tsne_coordinates": { "x": 21.2176513671875, "y": -9.670114517211914, "z": 18.178668975830078 }, "pca_coordinates": { "x": -0.11385297775268555, "y": -1.235151767730713, "z": 0.6212841868400574 }, "axis_scores": { "Quantum imaging": 0.7102144956588745, "Quantum Life Science Sensing": 0.7165554761886597, "Quantum sensing Detection": 0.6972729563713074, "Quantum sensing Metrology": 0.6823810935020447, "Quantum sensing navigation": 0.6847756505012512, "Quantum sensing Position": 0.680243968963623, "Quantum sensing Timing": 0.7277909517288208, "Quantum sensing": 0.7018839716911316, "Quantum control": 0.6889573931694031 } }, { "id": 162, "title": "Bright Single InAsP Quantum Dots at Telecom Wavelengths in Position-Controlled InP Nanowires: The Role of the Photonic Waveguide", "abstract": "We report on the site-selected growth of bright single InAsP quantum dots embedded within InP photonic nanowire waveguides emitting at telecom wavelengths. We demonstrate a dramatic dependence of the ...", "citations": 104, "author_count": 15, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 162, "doi": "10.1021/acs.nanolett.8b00550", "umap_coordinates": { "x": 392.3603210449219, "y": 134.0719451904297, "z": 207.57290649414062 }, "tsne_coordinates": { "x": 17.138690948486328, "y": -14.607548713684082, "z": -4.486670970916748 }, "pca_coordinates": { "x": -0.8876849412918091, "y": -5.388058185577393, "z": 2.24830961227417 }, "axis_scores": { "Quantum imaging": 0.6950235366821289, "Quantum Life Science Sensing": 0.67085200548172, "Quantum sensing Detection": 0.6918987035751343, "Quantum sensing Metrology": 0.6791204214096069, "Quantum sensing navigation": 0.7090518474578857, "Quantum sensing Position": 0.7352334856987, "Quantum sensing Timing": 0.6836071014404297, "Quantum sensing": 0.6956610679626465, "Quantum control": 0.6547002196311951 } }, { "id": 163, "title": "Polydispersity of the photoluminescence quantum yield in single conjugated polymer chains", "abstract": "The conjugated polymer poly(2-methoxy-5-(2'-ethylhexyloxy)-1,4-pheiiylene vinylene) (MEH-PPV) was studied by a single-molecule imaging technique. A comparison of statistical distributions of fluoresce...", "citations": 4, "author_count": 3, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 163, "doi": "10.1016/j.chemphys.2005.06.017", "umap_coordinates": { "x": 393.2837219238281, "y": 134.24447631835938, "z": 206.75592041015625 }, "tsne_coordinates": { "x": -2.636937379837036, "y": -6.494459629058838, "z": -19.496328353881836 }, "pca_coordinates": { "x": -1.545285940170288, "y": -2.083955764770508, "z": 0.20523065328598022 }, "axis_scores": { "Quantum imaging": 0.7287676334381104, "Quantum Life Science Sensing": 0.7561733722686768, "Quantum sensing Detection": 0.7323830127716064, "Quantum sensing Metrology": 0.7083889842033386, "Quantum sensing navigation": 0.6904024481773376, "Quantum sensing Position": 0.6964004039764404, "Quantum sensing Timing": 0.6912779808044434, "Quantum sensing": 0.7354620695114136, "Quantum control": 0.7069793343544006 } }, { "id": 164, "title": "Atomically sharp, crystal phase defined GaAs quantum dots", "abstract": "Crystal phase defined heterostructures, or polytype heterostructures, are atomically sharp with no intermixing, which makes them ideal contenders for a wide range of applications. Although polytype qu...", "citations": 9, "author_count": 7, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 164, "doi": "10.1063/5.0072151", "umap_coordinates": { "x": 393.2066650390625, "y": 134.08242797851562, "z": 207.98773193359375 }, "tsne_coordinates": { "x": 25.997390747070312, "y": -14.752962112426758, "z": -3.806232452392578 }, "pca_coordinates": { "x": 1.4542810916900635, "y": -3.559813976287842, "z": 0.2745206952095032 }, "axis_scores": { "Quantum imaging": 0.7577502131462097, "Quantum Life Science Sensing": 0.7650336623191833, "Quantum sensing Detection": 0.763630747795105, "Quantum sensing Metrology": 0.7651501893997192, "Quantum sensing navigation": 0.7647721767425537, "Quantum sensing Position": 0.7541913986206055, "Quantum sensing Timing": 0.7408787608146667, "Quantum sensing": 0.7821663618087769, "Quantum control": 0.7503562569618225 } }, { "id": 165, "title": "Harvesting a Wide Spectral Range of Electronic Coherences with Disordered Quasi-Homo Dimeric Assemblies at Room Temperature", "abstract": "A wide variety of photoinduced electronic coherences are shown to be robust with respect to dephasing in ensembles of quasi-homodimers assembled with sub-nm ligands from colloidal 3 nm CdSe quantum do...", "citations": 4, "author_count": 8, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 165, "doi": "10.1002/qute.202200060", "umap_coordinates": { "x": 393.0845947265625, "y": 136.3692169189453, "z": 206.99093627929688 }, "tsne_coordinates": { "x": 7.731468677520752, "y": -0.8081228733062744, "z": 14.547150611877441 }, "pca_coordinates": { "x": 0.9342448711395264, "y": -2.2052621841430664, "z": -1.3687856197357178 }, "axis_scores": { "Quantum imaging": 0.7159742116928101, "Quantum Life Science Sensing": 0.7497164011001587, "Quantum sensing Detection": 0.7078282833099365, "Quantum sensing Metrology": 0.7007223963737488, "Quantum sensing navigation": 0.6865414977073669, "Quantum sensing Position": 0.6644764542579651, "Quantum sensing Timing": 0.6848004460334778, "Quantum sensing": 0.7213485240936279, "Quantum control": 0.6921980977058411 } }, { "id": 166, "title": "Fast Monolayer Adsorption and Slow Energy Transfer in CdSe Quantum Dot Sensitized ZnO Nanowires", "abstract": "A method for CdSe quantum dot (QD) sensitization of ZnO nanowires (NW) with fast adsorption rate is applied. Photoinduced excited state dynamics of the quantum dots in the case of more than monolayer ...", "citations": 31, "author_count": 9, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 166, "doi": "10.1021/jp3098632", "umap_coordinates": { "x": 392.2851257324219, "y": 135.3067169189453, "z": 206.41476440429688 }, "tsne_coordinates": { "x": 16.91169548034668, "y": 3.9687349796295166, "z": 7.879250526428223 }, "pca_coordinates": { "x": -0.18018031120300293, "y": -4.124170780181885, "z": -1.4479329586029053 }, "axis_scores": { "Quantum imaging": 0.6734908819198608, "Quantum Life Science Sensing": 0.6907810568809509, "Quantum sensing Detection": 0.6781712770462036, "Quantum sensing Metrology": 0.6440661549568176, "Quantum sensing navigation": 0.6650077700614929, "Quantum sensing Position": 0.6622218489646912, "Quantum sensing Timing": 0.6627431511878967, "Quantum sensing": 0.6872842311859131, "Quantum control": 0.6525647044181824 } }, { "id": 167, "title": "The calculation of InGaN quantum dot formation mechanism on GaN pyramid", "abstract": "An equilibrium approach is used to calculate the free energy and composition distribution of InGaN/GaN quantum dot located on the InGaN/GaN pyramid. The energy balance method is adopted to predict cri...", "citations": 3, "author_count": 8, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 167, "doi": "10.1016/j.spmi.2015.03.067", "umap_coordinates": { "x": 392.7701721191406, "y": 133.7677001953125, "z": 207.34373474121094 }, "tsne_coordinates": { "x": 30.2542724609375, "y": -4.975775718688965, "z": 12.133907318115234 }, "pca_coordinates": { "x": -0.7401130199432373, "y": -1.755506992340088, "z": 0.8583671450614929 }, "axis_scores": { "Quantum imaging": 0.7405794262886047, "Quantum Life Science Sensing": 0.7158620357513428, "Quantum sensing Detection": 0.7251339554786682, "Quantum sensing Metrology": 0.7279707789421082, "Quantum sensing navigation": 0.7190271615982056, "Quantum sensing Position": 0.7027507424354553, "Quantum sensing Timing": 0.6872707605361938, "Quantum sensing": 0.7287601828575134, "Quantum control": 0.7161512970924377 } }, { "id": 168, "title": "Linearly polarized photoluminescence from an ensemble of wurtzite GaN/AlN quantum dots", "abstract": "Microphotoluminescence from GaN/AlN quantum dots grown by molecular beam epitaxy on sapphire substrates along the (0001) axis has been studied. To produce quantum dots of different average sizes and d...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 168, "doi": "10.1134/S0021364010090043", "umap_coordinates": { "x": 393.1105651855469, "y": 133.92127990722656, "z": 207.17311096191406 }, "tsne_coordinates": { "x": 25.394628524780273, "y": -9.971084594726562, "z": 1.178790807723999 }, "pca_coordinates": { "x": -1.018290638923645, "y": -3.1183691024780273, "z": 1.1813230514526367 }, "axis_scores": { "Quantum imaging": 0.6874082684516907, "Quantum Life Science Sensing": 0.7077135443687439, "Quantum sensing Detection": 0.6777268648147583, "Quantum sensing Metrology": 0.670567512512207, "Quantum sensing navigation": 0.6845111846923828, "Quantum sensing Position": 0.6684997081756592, "Quantum sensing Timing": 0.654335618019104, "Quantum sensing": 0.6953672170639038, "Quantum control": 0.668727457523346 } }, { "id": 169, "title": "Coulomb blockade in an atomically thin quantum dot coupled to a tunable Fermi reservoir", "abstract": "Gate-tunable quantum-mechanical tunnelling of particles between a quantum confined state and a nearby Fermi reservoir of delocalized states has underpinned many advances in spintronics and solid-state...", "citations": 72, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 169, "doi": "10.1038/s41565-019-0402-5", "umap_coordinates": { "x": 393.24951171875, "y": 134.9812469482422, "z": 207.1026153564453 }, "tsne_coordinates": { "x": 6.5204973220825195, "y": -9.716832160949707, "z": 9.56779956817627 }, "pca_coordinates": { "x": 1.0297696590423584, "y": -3.1437859535217285, "z": 0.7599682211875916 }, "axis_scores": { "Quantum imaging": 0.7314273118972778, "Quantum Life Science Sensing": 0.7104396820068359, "Quantum sensing Detection": 0.7248269319534302, "Quantum sensing Metrology": 0.7032372355461121, "Quantum sensing navigation": 0.720470130443573, "Quantum sensing Position": 0.7109249234199524, "Quantum sensing Timing": 0.7196693420410156, "Quantum sensing": 0.7401184439659119, "Quantum control": 0.7124350070953369 } }, { "id": 170, "title": "LOW-NOISE PHOTON NUMBER MANIPULATION USING SEMICONDUCTOR LIGHT EMITTERS AND RECEIVERS", "abstract": "The photon number (intensity) of a light beam can be read out and amplified essentially without adding any noise. In this article we will describe recent proof-of-principle experiments using simple op...", "citations": 4, "author_count": 6, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 170, "doi": "10.1142/S0217979295001324", "umap_coordinates": { "x": 394.7038879394531, "y": 134.20135498046875, "z": 206.55926513671875 }, "tsne_coordinates": { "x": -5.298634052276611, "y": -3.0176212787628174, "z": -26.364818572998047 }, "pca_coordinates": { "x": -1.3707730770111084, "y": 0.0063152313232421875, "z": 4.356103420257568 }, "axis_scores": { "Quantum imaging": 0.731609046459198, "Quantum Life Science Sensing": 0.7292184829711914, "Quantum sensing Detection": 0.747105598449707, "Quantum sensing Metrology": 0.7387364506721497, "Quantum sensing navigation": 0.7511996626853943, "Quantum sensing Position": 0.731563925743103, "Quantum sensing Timing": 0.7097010612487793, "Quantum sensing": 0.7439486384391785, "Quantum control": 0.7113833427429199 } }, { "id": 171, "title": "Highly tensile-strained Ge quantum dots on GaSb by MBE for light sources on Si", "abstract": "", "citations": 2, "author_count": 6, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 171, "doi": null, "umap_coordinates": { "x": 391.77899169921875, "y": 139.72518920898438, "z": 209.5625457763672 }, "tsne_coordinates": { "x": -6.761366367340088, "y": 47.986915588378906, "z": -5.683198928833008 }, "pca_coordinates": { "x": -1.5343310832977295, "y": 1.5696688890457153, "z": -1.8223977088928223 }, "axis_scores": { "Quantum imaging": 0.707640528678894, "Quantum Life Science Sensing": 0.7135185599327087, "Quantum sensing Detection": 0.7022855877876282, "Quantum sensing Metrology": 0.6953600645065308, "Quantum sensing navigation": 0.6985201239585876, "Quantum sensing Position": 0.685676634311676, "Quantum sensing Timing": 0.664749026298523, "Quantum sensing": 0.7166596055030823, "Quantum control": 0.7114052772521973 } }, { "id": 172, "title": "Double-negative atomic vapor assisted by two-photon quantum coherence", "abstract": "A scenario for realizing simultaneously negative permittivity and permeability of a two-photon quantum-coherent atomic vapor is suggested in order to achieve a left-handed atomic medium with a negativ...", "citations": 2, "author_count": 2, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 172, "doi": "10.1364/JOSAB.29.003192", "umap_coordinates": { "x": 393.4346008300781, "y": 135.76979064941406, "z": 206.80458068847656 }, "tsne_coordinates": { "x": 1.705451488494873, "y": -9.61343002319336, "z": 0.36740466952323914 }, "pca_coordinates": { "x": 0.9660556316375732, "y": -1.4325695037841797, "z": 0.7946330904960632 }, "axis_scores": { "Quantum imaging": 0.7390212416648865, "Quantum Life Science Sensing": 0.7207608222961426, "Quantum sensing Detection": 0.7329190969467163, "Quantum sensing Metrology": 0.7102078199386597, "Quantum sensing navigation": 0.7178807258605957, "Quantum sensing Position": 0.6782666444778442, "Quantum sensing Timing": 0.6885983943939209, "Quantum sensing": 0.7365167140960693, "Quantum control": 0.7149339914321899 } }, { "id": 173, "title": "A resource theory of quantum measurements", "abstract": "Resource theories are broad frameworks that capture how useful objects are in performing specific tasks. In this paper we devise a formal resource theory quantum measurements, focusing on the ability ...", "citations": 15, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 173, "doi": "10.1088/1751-8121/abed67", "umap_coordinates": { "x": 395.43817138671875, "y": 136.83154296875, "z": 206.40890502929688 }, "tsne_coordinates": { "x": -36.67231750488281, "y": -4.242760181427002, "z": -2.179950475692749 }, "pca_coordinates": { "x": 1.667785882949829, "y": 3.6481175422668457, "z": 2.06366229057312 }, "axis_scores": { "Quantum imaging": 0.7641882300376892, "Quantum Life Science Sensing": 0.7368736863136292, "Quantum sensing Detection": 0.7587845921516418, "Quantum sensing Metrology": 0.7581885457038879, "Quantum sensing navigation": 0.7591539621353149, "Quantum sensing Position": 0.7476797103881836, "Quantum sensing Timing": 0.744376003742218, "Quantum sensing": 0.776835024356842, "Quantum control": 0.7447009086608887 } }, { "id": 174, "title": "Pauli spin blockade in carbon nanotube double quantum dots", "abstract": "We report Pauli spin blockade in a carbon nanotube double quantum dot defined by tunnel barriers at the contacts and a structural defect in the nanotube. We observe a pronounced current suppression fo...", "citations": 43, "author_count": 12, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 174, "doi": "10.1103/PhysRevB.77.245439", "umap_coordinates": { "x": 393.8431701660156, "y": 134.99327087402344, "z": 209.16781616210938 }, "tsne_coordinates": { "x": -0.29269173741340637, "y": -26.76087760925293, "z": 2.3382015228271484 }, "pca_coordinates": { "x": 3.690657615661621, "y": -3.2232580184936523, "z": 0.6810514330863953 }, "axis_scores": { "Quantum imaging": 0.7261675596237183, "Quantum Life Science Sensing": 0.7383660674095154, "Quantum sensing Detection": 0.7361370325088501, "Quantum sensing Metrology": 0.7179186344146729, "Quantum sensing navigation": 0.734981894493103, "Quantum sensing Position": 0.7188363671302795, "Quantum sensing Timing": 0.7061107754707336, "Quantum sensing": 0.7416698932647705, "Quantum control": 0.7241001129150391 } }, { "id": 175, "title": "Nanomechanical manipulation of superconducting charge-qubit quantum networks", "abstract": "We suggest a nanoelectromechanical setup and corresponding time -protocol for controlling parameters in order to demonstrate nanomechanical manipulation of superconducting charge-qubit quantum network...", "citations": 4, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 175, "doi": "10.1016/j.physb.2024.415988", "umap_coordinates": { "x": 393.8195495605469, "y": 135.725830078125, "z": 206.97459411621094 }, "tsne_coordinates": { "x": -11.664399147033691, "y": 6.442254543304443, "z": 12.710668563842773 }, "pca_coordinates": { "x": 1.7911369800567627, "y": -0.8639955520629883, "z": -0.22691741585731506 }, "axis_scores": { "Quantum imaging": 0.7659443020820618, "Quantum Life Science Sensing": 0.7676935195922852, "Quantum sensing Detection": 0.7671395540237427, "Quantum sensing Metrology": 0.7589995861053467, "Quantum sensing navigation": 0.7914210557937622, "Quantum sensing Position": 0.779856264591217, "Quantum sensing Timing": 0.7412351965904236, "Quantum sensing": 0.7814945578575134, "Quantum control": 0.7654569149017334 } }, { "id": 176, "title": "Strong room-temperature optical and spin polarization in InAs/GaAs quantum dot structures", "abstract": "Room-temperature optical and spin polarization up to 35% is reported in InAs/GaAs quantum dots in zero magnetic field under optical spin injection using continuous-wave optical orientation spectroscop...", "citations": 22, "author_count": 6, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 176, "doi": "10.1063/1.3592572", "umap_coordinates": { "x": 393.1906433105469, "y": 134.25802612304688, "z": 208.2354736328125 }, "tsne_coordinates": { "x": 18.749313354492188, "y": -22.32919692993164, "z": 1.5250967741012573 }, "pca_coordinates": { "x": 1.7700810432434082, "y": -5.232865810394287, "z": 0.8457116484642029 }, "axis_scores": { "Quantum imaging": 0.7371876239776611, "Quantum Life Science Sensing": 0.7328039407730103, "Quantum sensing Detection": 0.7345289587974548, "Quantum sensing Metrology": 0.7232283353805542, "Quantum sensing navigation": 0.7188843488693237, "Quantum sensing Position": 0.7067221999168396, "Quantum sensing Timing": 0.6886721253395081, "Quantum sensing": 0.7533406019210815, "Quantum control": 0.7052745223045349 } }, { "id": 177, "title": "Optical up-conversion processes in InAs quantum dots", "abstract": "Up-converted photoluminescence (UPL) in InAs/GaAs self-assembled quantum dots (QDs) is reported. With a resonant excitation of QDs we observe an efficient emission from the GaAs barrier. The excitatio...", "citations": 10, "author_count": 7, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 177, "doi": "10.1143/JJAP.40.2080", "umap_coordinates": { "x": 393.2735290527344, "y": 134.52688598632812, "z": 207.31727600097656 }, "tsne_coordinates": { "x": 4.037002086639404, "y": 1.5736769437789917, "z": -25.67531967163086 }, "pca_coordinates": { "x": 1.2960309982299805, "y": -2.2372288703918457, "z": 1.044623613357544 }, "axis_scores": { "Quantum imaging": 0.7538720369338989, "Quantum Life Science Sensing": 0.7407668232917786, "Quantum sensing Detection": 0.7458898425102234, "Quantum sensing Metrology": 0.711958646774292, "Quantum sensing navigation": 0.7272032499313354, "Quantum sensing Position": 0.703961193561554, "Quantum sensing Timing": 0.7216115593910217, "Quantum sensing": 0.7516804933547974, "Quantum control": 0.7317250967025757 } }, { "id": 178, "title": "QUANTUM STATISTICS OF QUANTUM MEASUREMENT", "abstract": "", "citations": 4, "author_count": 2, "categories": [ "Physics" ], "year": 1987, "topic": [ "all" ], "embedding_index": 178, "doi": "10.1088/0031-8949/36/6/002", "umap_coordinates": { "x": 395.2210388183594, "y": 136.5386962890625, "z": 206.6615447998047 }, "tsne_coordinates": { "x": -34.074039459228516, "y": -0.4377620220184326, "z": 2.489931106567383 }, "pca_coordinates": { "x": 2.9712939262390137, "y": 3.2318050861358643, "z": 2.1214041709899902 }, "axis_scores": { "Quantum imaging": 0.786675214767456, "Quantum Life Science Sensing": 0.8062601089477539, "Quantum sensing Detection": 0.8043550252914429, "Quantum sensing Metrology": 0.804940402507782, "Quantum sensing navigation": 0.8025922179222107, "Quantum sensing Position": 0.7905551195144653, "Quantum sensing Timing": 0.7745107412338257, "Quantum sensing": 0.8128945827484131, "Quantum control": 0.755500316619873 } }, { "id": 179, "title": "Superconducting Qubits: Current State of Play", "abstract": "Superconducting qubits are leading candidates in the race to build a quantum computer capable of realizing computations beyond the reach of modern supercomputers. The superconducting qubit modality ha...", "citations": 1180, "author_count": 8, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 179, "doi": "10.1146/annurev-conmatphys-031119-050605", "umap_coordinates": { "x": 395.1405029296875, "y": 136.0723114013672, "z": 207.168701171875 }, "tsne_coordinates": { "x": -32.689544677734375, "y": -25.309297561645508, "z": -11.201313972473145 }, "pca_coordinates": { "x": 2.988433361053467, "y": 1.379859209060669, "z": -0.2321009337902069 }, "axis_scores": { "Quantum imaging": 0.7413303256034851, "Quantum Life Science Sensing": 0.7614578008651733, "Quantum sensing Detection": 0.7362539768218994, "Quantum sensing Metrology": 0.7269838452339172, "Quantum sensing navigation": 0.7461825609207153, "Quantum sensing Position": 0.7314445376396179, "Quantum sensing Timing": 0.7194737792015076, "Quantum sensing": 0.7472510933876038, "Quantum control": 0.7526638507843018 } }, { "id": 180, "title": "Statistics of the Bifurcation in Quantum Measurement", "abstract": "We model quantum measurement of a two-level system mu. Previous obstacles for understanding the measurement process are removed by basing the analysis of the interaction between mu and the measurement...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 180, "doi": "10.3390/e21090834", "umap_coordinates": { "x": 395.29443359375, "y": 137.02085876464844, "z": 206.28463745117188 }, "tsne_coordinates": { "x": -30.815643310546875, "y": 8.126395225524902, "z": 26.164690017700195 }, "pca_coordinates": { "x": 3.143836498260498, "y": 2.310851812362671, "z": -0.3852156698703766 }, "axis_scores": { "Quantum imaging": 0.7297191619873047, "Quantum Life Science Sensing": 0.7664062976837158, "Quantum sensing Detection": 0.7674791216850281, "Quantum sensing Metrology": 0.7527848482131958, "Quantum sensing navigation": 0.7626733183860779, "Quantum sensing Position": 0.736446738243103, "Quantum sensing Timing": 0.7424777746200562, "Quantum sensing": 0.7599542737007141, "Quantum control": 0.7276524305343628 } }, { "id": 181, "title": "Experimental demonstration of the relative phase operator", "abstract": "We have experimentally demonstrated a realization of the two-mode relative phase operator introduced by Luis and Sanchez-Soto (Luis A and Sanchez-Soto L L 1993 Phys. Rev. A 48 4702). The relative phas...", "citations": 36, "author_count": 8, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 181, "doi": "10.1088/1464-4266/2/2/307", "umap_coordinates": { "x": 395.0849914550781, "y": 136.53829956054688, "z": 206.6995391845703 }, "tsne_coordinates": { "x": -22.21548080444336, "y": 1.9141407012939453, "z": -11.08713436126709 }, "pca_coordinates": { "x": 1.6192238330841064, "y": 4.220026016235352, "z": 1.6273579597473145 }, "axis_scores": { "Quantum imaging": 0.7611523866653442, "Quantum Life Science Sensing": 0.7391238212585449, "Quantum sensing Detection": 0.7523052096366882, "Quantum sensing Metrology": 0.7571152448654175, "Quantum sensing navigation": 0.7647578716278076, "Quantum sensing Position": 0.7661268711090088, "Quantum sensing Timing": 0.7562602758407593, "Quantum sensing": 0.7628362774848938, "Quantum control": 0.7259776592254639 } }, { "id": 182, "title": "Exciton Fine-Structure Splitting in Self-Assembled Lateral In As/GaAs Quantum-Dot Molecular Structures", "abstract": "Fine-structure splitting (FSS) of excitons in semiconductor nanostructures is a key parameter that has significant implications in photon entanglement and polarization conversion between electron spin...", "citations": 9, "author_count": 8, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 182, "doi": "10.1021/acsnano.5b01387", "umap_coordinates": { "x": 392.26055908203125, "y": 134.43106079101562, "z": 207.86427307128906 }, "tsne_coordinates": { "x": 19.320735931396484, "y": -13.601207733154297, "z": 2.600714683532715 }, "pca_coordinates": { "x": 0.9688231945037842, "y": -5.720941066741943, "z": -0.970311164855957 }, "axis_scores": { "Quantum imaging": 0.6848467588424683, "Quantum Life Science Sensing": 0.6732743978500366, "Quantum sensing Detection": 0.6574075818061829, "Quantum sensing Metrology": 0.6545652747154236, "Quantum sensing navigation": 0.6772885322570801, "Quantum sensing Position": 0.6538912057876587, "Quantum sensing Timing": 0.6210801601409912, "Quantum sensing": 0.6714903116226196, "Quantum control": 0.6539722681045532 } }, { "id": 183, "title": "Auger processes in InAs self-assembled quantum dots", "abstract": "An experimental evidence of Anger-like excitation processes in InAs/GaAs quantum dots is demonstrated . Photoluminescence spectra of resonantly excited dots exhibit a rich satellite structure below th...", "citations": 15, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 183, "doi": "10.1016/S1386-9477(99)00212-X", "umap_coordinates": { "x": 392.3618469238281, "y": 134.56182861328125, "z": 207.74110412597656 }, "tsne_coordinates": { "x": 31.59781837463379, "y": -8.070062637329102, "z": 20.171554565429688 }, "pca_coordinates": { "x": 0.9411094188690186, "y": -2.5312914848327637, "z": 0.7807196974754333 }, "axis_scores": { "Quantum imaging": 0.7000172138214111, "Quantum Life Science Sensing": 0.709430456161499, "Quantum sensing Detection": 0.7089210748672485, "Quantum sensing Metrology": 0.6945685148239136, "Quantum sensing navigation": 0.6934210062026978, "Quantum sensing Position": 0.6788591146469116, "Quantum sensing Timing": 0.6842710971832275, "Quantum sensing": 0.7106890678405762, "Quantum control": 0.6677314043045044 } }, { "id": 184, "title": "Microphotoluminescence studies of tunable wurtzite InAs0.85P0.15 quantum dots embedded in wurtzite InP nanowires", "abstract": "We have investigated the effects of strong confinement in wurtzite InAs0.85P0.15 quantum dots embedded in wurtzite InP nanowires using microphotoluminescence spectroscopy. Strain-dependent k . p calcu...", "citations": 18, "author_count": 8, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 184, "doi": "10.1103/PhysRevB.80.041312", "umap_coordinates": { "x": 392.6697692871094, "y": 134.49835205078125, "z": 208.26373291015625 }, "tsne_coordinates": { "x": 22.88256072998047, "y": -14.958815574645996, "z": 6.065914154052734 }, "pca_coordinates": { "x": 1.9140503406524658, "y": -3.956664562225342, "z": 1.2136330604553223 }, "axis_scores": { "Quantum imaging": 0.7235547304153442, "Quantum Life Science Sensing": 0.7181785106658936, "Quantum sensing Detection": 0.7124761343002319, "Quantum sensing Metrology": 0.7085574269294739, "Quantum sensing navigation": 0.7128636837005615, "Quantum sensing Position": 0.6981216073036194, "Quantum sensing Timing": 0.6924231052398682, "Quantum sensing": 0.7195311784744263, "Quantum control": 0.692246675491333 } }, { "id": 185, "title": "Quantum-dot thermometry", "abstract": "We present a method for the measurement of a temperature differential across a single quantum dot that has transmission resonances that are separated in energy by much more than the thermal energy. We...", "citations": 18, "author_count": 7, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 185, "doi": "10.1063/1.2826268", "umap_coordinates": { "x": 393.8918762207031, "y": 134.11053466796875, "z": 207.91110229492188 }, "tsne_coordinates": { "x": 24.240686416625977, "y": -29.69989013671875, "z": 6.485106945037842 }, "pca_coordinates": { "x": 1.1175782680511475, "y": -1.9226374626159668, "z": 2.2539243698120117 }, "axis_scores": { "Quantum imaging": 0.8119753003120422, "Quantum Life Science Sensing": 0.8299528360366821, "Quantum sensing Detection": 0.8338865041732788, "Quantum sensing Metrology": 0.8398033976554871, "Quantum sensing navigation": 0.7996455430984497, "Quantum sensing Position": 0.7963641881942749, "Quantum sensing Timing": 0.7880006432533264, "Quantum sensing": 0.8502286076545715, "Quantum control": 0.7897360324859619 } }, { "id": 186, "title": "Dynamical properties of a vibrating molecular quantum dot in a Josephson junction", "abstract": "We investigate dynamical transport aspects of a combined nanomechanical-superconducting device in which Cooper pair tunneling interfere with the mechanical motion of a vibrating molecular quantum dot ...", "citations": 6, "author_count": 4, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 186, "doi": "10.1103/PhysRevB.81.155440", "umap_coordinates": { "x": 394.20501708984375, "y": 135.8297882080078, "z": 208.7505340576172 }, "tsne_coordinates": { "x": -11.940998077392578, "y": -24.16564178466797, "z": 6.118658065795898 }, "pca_coordinates": { "x": 5.1819634437561035, "y": -2.0575733184814453, "z": -0.653945803642273 }, "axis_scores": { "Quantum imaging": 0.7244256138801575, "Quantum Life Science Sensing": 0.7207831144332886, "Quantum sensing Detection": 0.7229428291320801, "Quantum sensing Metrology": 0.6970399022102356, "Quantum sensing navigation": 0.7294321656227112, "Quantum sensing Position": 0.7031375765800476, "Quantum sensing Timing": 0.7040987610816956, "Quantum sensing": 0.7300548553466797, "Quantum control": 0.7111805081367493 } }, { "id": 187, "title": "Confined energy states in quantum dots detected by a resonant differential capacitance method", "abstract": "A novel method is demonstrated for revealing the presence of confined energy states in quantum dots. The samples used are Schottky diodes with quantum dots inserted in a plane inside its depletion reg...", "citations": 6, "author_count": 4, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 187, "doi": "10.1063/1.3168408", "umap_coordinates": { "x": 393.44683837890625, "y": 134.66250610351562, "z": 208.1245574951172 }, "tsne_coordinates": { "x": 24.955303192138672, "y": -30.244192123413086, "z": 1.8399250507354736 }, "pca_coordinates": { "x": 1.854278326034546, "y": -2.507260799407959, "z": 0.6356424689292908 }, "axis_scores": { "Quantum imaging": 0.7368520498275757, "Quantum Life Science Sensing": 0.7760419249534607, "Quantum sensing Detection": 0.7833043336868286, "Quantum sensing Metrology": 0.753650963306427, "Quantum sensing navigation": 0.7330483198165894, "Quantum sensing Position": 0.733405590057373, "Quantum sensing Timing": 0.7141046524047852, "Quantum sensing": 0.7779672145843506, "Quantum control": 0.7139330506324768 } }, { "id": 188, "title": "Diffraction and boundary conditions in semiclassical open billiards - art. no. 155316", "abstract": "The conductance through open quantum dots, or quantum billiards, shows fluctuations that can be explained as interference between waves following different paths between the leads of the billiard. We ...", "citations": 5, "author_count": 2, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 188, "doi": "10.1103/PhysRevB.66.155316", "umap_coordinates": { "x": 394.3404541015625, "y": 135.65538024902344, "z": 208.92996215820312 }, "tsne_coordinates": { "x": 1.0060200691223145, "y": -33.16737365722656, "z": -2.1120059490203857 }, "pca_coordinates": { "x": 3.66414737701416, "y": 0.09969043731689453, "z": 0.5587809681892395 }, "axis_scores": { "Quantum imaging": 0.6914510726928711, "Quantum Life Science Sensing": 0.7108449935913086, "Quantum sensing Detection": 0.6941583752632141, "Quantum sensing Metrology": 0.7080286741256714, "Quantum sensing navigation": 0.7080832123756409, "Quantum sensing Position": 0.688654363155365, "Quantum sensing Timing": 0.6884850263595581, "Quantum sensing": 0.7059217095375061, "Quantum control": 0.6862765550613403 } }, { "id": 189, "title": "Tunable zero-field Kondo splitting in a quantum dot", "abstract": "We present detailed low-temperature transport measurements of a single quantum dot formed in an InGaAs/InP heterostructure with a strong tunnel coupling to the source and drain leads. The conventional...", "citations": 4, "author_count": 5, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 189, "doi": "10.1103/PhysRevB.88.085407", "umap_coordinates": { "x": 394.0972900390625, "y": 135.6873321533203, "z": 208.6659698486328 }, "tsne_coordinates": { "x": -6.522083282470703, "y": -24.89229965209961, "z": 9.155845642089844 }, "pca_coordinates": { "x": 4.7914347648620605, "y": -2.2444052696228027, "z": -0.6255625486373901 }, "axis_scores": { "Quantum imaging": 0.7232025265693665, "Quantum Life Science Sensing": 0.726772129535675, "Quantum sensing Detection": 0.7238414883613586, "Quantum sensing Metrology": 0.7123388648033142, "Quantum sensing navigation": 0.7299448847770691, "Quantum sensing Position": 0.701326310634613, "Quantum sensing Timing": 0.690822184085846, "Quantum sensing": 0.7343581318855286, "Quantum control": 0.7194451689720154 } }, { "id": 190, "title": "A Nanoscale Standard for the Seebeck Coefficient", "abstract": "The Seebeck coefficient, a key parameter describing a material's thermoelectric performance, is generally difficult to measure, and no intrinsic calibration standard exists. Quantum dots and single el...", "citations": 24, "author_count": 5, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 190, "doi": "10.1021/nl202258f", "umap_coordinates": { "x": 393.15411376953125, "y": 134.96432495117188, "z": 205.4996795654297 }, "tsne_coordinates": { "x": -6.531437873840332, "y": 9.363668441772461, "z": -3.7686092853546143 }, "pca_coordinates": { "x": -1.4617915153503418, "y": -0.9609334468841553, "z": -0.46788308024406433 }, "axis_scores": { "Quantum imaging": 0.6590816974639893, "Quantum Life Science Sensing": 0.7241769433021545, "Quantum sensing Detection": 0.67303466796875, "Quantum sensing Metrology": 0.7032415866851807, "Quantum sensing navigation": 0.695207417011261, "Quantum sensing Position": 0.6743333339691162, "Quantum sensing Timing": 0.6581096053123474, "Quantum sensing": 0.6972981691360474, "Quantum control": 0.6657362580299377 } }, { "id": 191, "title": "Simulations of quantum dynamics with fermionic phase-space representations using numerical matrix factorizations as stochastic gauges", "abstract": "The Gaussian phase-space representation can be used to implement quantum dynamics for fermionic particles numerically. To improve numerical results, we explore the use of dynamical diffusion gauges in...", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 191, "doi": "10.1088/1751-8121/ad0e2b", "umap_coordinates": { "x": 394.2796325683594, "y": 137.5357666015625, "z": 206.97581481933594 }, "tsne_coordinates": { "x": -36.5968132019043, "y": -11.185349464416504, "z": -3.920727252960205 }, "pca_coordinates": { "x": 3.2726635932922363, "y": 2.2178235054016113, "z": -0.48369550704956055 }, "axis_scores": { "Quantum imaging": 0.7220413684844971, "Quantum Life Science Sensing": 0.7022277116775513, "Quantum sensing Detection": 0.6899189352989197, "Quantum sensing Metrology": 0.6927277445793152, "Quantum sensing navigation": 0.7490025162696838, "Quantum sensing Position": 0.6789758205413818, "Quantum sensing Timing": 0.6987103819847107, "Quantum sensing": 0.7076199650764465, "Quantum control": 0.7268465757369995 } }, { "id": 192, "title": "Limits on Integration as Determined by Power Dissipation and Signal-to-Noise Ratio in Loss-Compensated Photonic Integrated Circuits Based on Metal/Quantum-Dot Materials", "abstract": "We analyze the power dissipation that is associated with using the gain of an embedded medium (quantum dots) to overcome the losses inherent in plasmonics systems employed to produce a negative dielec...", "citations": 23, "author_count": 6, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 192, "doi": "10.1109/JQE.2009.2036743", "umap_coordinates": { "x": 394.1973571777344, "y": 134.00137329101562, "z": 206.9858856201172 }, "tsne_coordinates": { "x": 3.5726046562194824, "y": -0.9075223207473755, "z": -31.809642791748047 }, "pca_coordinates": { "x": 0.2548307180404663, "y": -1.5813117027282715, "z": 2.0898244380950928 }, "axis_scores": { "Quantum imaging": 0.7703719735145569, "Quantum Life Science Sensing": 0.7645408511161804, "Quantum sensing Detection": 0.7807126045227051, "Quantum sensing Metrology": 0.7657803297042847, "Quantum sensing navigation": 0.7553749084472656, "Quantum sensing Position": 0.7514785528182983, "Quantum sensing Timing": 0.7248499989509583, "Quantum sensing": 0.7769356966018677, "Quantum control": 0.740943193435669 } }, { "id": 193, "title": "Polarization-dependent light-matter coupling and highly indistinguishable resonant fluorescence photons from quantum dot-micropillar cavities with elliptical cross section", "abstract": "We study the optical properties of coupled quantum dot-microcavity systems with an elliptical cross section. First, we develop an analytic model that describes the spectrum of the cavity modes that ar...", "citations": 19, "author_count": 9, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 193, "doi": "10.1103/PhysRevB.100.115305", "umap_coordinates": { "x": 395.4654235839844, "y": 135.5701904296875, "z": 207.94766235351562 }, "tsne_coordinates": { "x": -8.742602348327637, "y": -18.072086334228516, "z": -4.842679977416992 }, "pca_coordinates": { "x": 3.35300350189209, "y": -1.5910892486572266, "z": 1.7761662006378174 }, "axis_scores": { "Quantum imaging": 0.7417809963226318, "Quantum Life Science Sensing": 0.7407723665237427, "Quantum sensing Detection": 0.7454230785369873, "Quantum sensing Metrology": 0.7223082184791565, "Quantum sensing navigation": 0.7185055017471313, "Quantum sensing Position": 0.6755677461624146, "Quantum sensing Timing": 0.6699368953704834, "Quantum sensing": 0.7461204528808594, "Quantum control": 0.6951428055763245 } }, { "id": 194, "title": "Semidefinite programming relaxations for quantum correlations", "abstract": "Semidefinite programs are convex optimization problems involving a linear objective function and a domain of positive-semidefinite matrices. Over the past two decades, they have become an indispensabl...", "citations": 27, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 194, "doi": "10.1103/RevModPhys.96.045006", "umap_coordinates": { "x": 395.1292724609375, "y": 137.07835388183594, "z": 207.07554626464844 }, "tsne_coordinates": { "x": -21.04693031311035, "y": 7.974974632263184, "z": 0.7785708904266357 }, "pca_coordinates": { "x": 2.3898816108703613, "y": 1.5236380100250244, "z": -0.6902317404747009 }, "axis_scores": { "Quantum imaging": 0.7537491321563721, "Quantum Life Science Sensing": 0.7467234134674072, "Quantum sensing Detection": 0.7389137148857117, "Quantum sensing Metrology": 0.7331461906433105, "Quantum sensing navigation": 0.7353829741477966, "Quantum sensing Position": 0.6986843347549438, "Quantum sensing Timing": 0.7209307551383972, "Quantum sensing": 0.754439651966095, "Quantum control": 0.7242845892906189 } }, { "id": 195, "title": "Circuit QED with a quantum-dot charge qubit dressed by Cooper pairs", "abstract": "Coupling double-quantum-dot circuits to microwave cavities provides a powerful means to control, couple, and manipulate qubits based on the charge or spin of individual electrons. Here, we revisit thi...", "citations": 58, "author_count": 8, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 195, "doi": "10.1103/PhysRevB.98.155313", "umap_coordinates": { "x": 395.0802001953125, "y": 135.85255432128906, "z": 208.58157348632812 }, "tsne_coordinates": { "x": -10.280834197998047, "y": -24.1259765625, "z": 0.07775552570819855 }, "pca_coordinates": { "x": 5.979112148284912, "y": -1.498422384262085, "z": 2.1180601119995117 }, "axis_scores": { "Quantum imaging": 0.7152851819992065, "Quantum Life Science Sensing": 0.7122143507003784, "Quantum sensing Detection": 0.7453992366790771, "Quantum sensing Metrology": 0.7186429500579834, "Quantum sensing navigation": 0.7329676151275635, "Quantum sensing Position": 0.7042297720909119, "Quantum sensing Timing": 0.70745849609375, "Quantum sensing": 0.7396841049194336, "Quantum control": 0.7166944146156311 } }, { "id": 196, "title": "Continuous-variable quantum state tomography of photoelectrons", "abstract": "We propose a continuous variable quantum state tomography protocol of electrons which result from the ion-ization of atoms or molecules by the absorption of extreme ultraviolet light pulses. Our proto...", "citations": 27, "author_count": 16, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 196, "doi": "10.1103/PhysRevResearch.4.033220", "umap_coordinates": { "x": 395.36090087890625, "y": 136.37110900878906, "z": 207.64654541015625 }, "tsne_coordinates": { "x": -19.091930389404297, "y": -14.67504596710205, "z": 0.25751176476478577 }, "pca_coordinates": { "x": 3.626039981842041, "y": 1.7165484428405762, "z": 1.0247697830200195 }, "axis_scores": { "Quantum imaging": 0.7840062975883484, "Quantum Life Science Sensing": 0.7877165079116821, "Quantum sensing Detection": 0.7893712520599365, "Quantum sensing Metrology": 0.7689926624298096, "Quantum sensing navigation": 0.7758943438529968, "Quantum sensing Position": 0.7634695768356323, "Quantum sensing Timing": 0.7426231503486633, "Quantum sensing": 0.7980200052261353, "Quantum control": 0.7589669823646545 } }, { "id": 197, "title": "InP quantum dots in GaInP", "abstract": "InP quantum dots grown on GaInP by the Stranski-Krastanow technique are less well studied than InAs quantum dots grown on GaAs. We here give a review of the main experimental evidence for the InP dots...", "citations": 10, "author_count": 2, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 197, "doi": "10.1088/0953-8984/16/35/015", "umap_coordinates": { "x": 392.7735900878906, "y": 134.4906463623047, "z": 208.2135467529297 }, "tsne_coordinates": { "x": 26.982858657836914, "y": -15.223869323730469, "z": 7.865811824798584 }, "pca_coordinates": { "x": 0.8949069976806641, "y": -1.3755073547363281, "z": 1.2937259674072266 }, "axis_scores": { "Quantum imaging": 0.7491634488105774, "Quantum Life Science Sensing": 0.7359437942504883, "Quantum sensing Detection": 0.7396963238716125, "Quantum sensing Metrology": 0.7223957777023315, "Quantum sensing navigation": 0.7289863228797913, "Quantum sensing Position": 0.7239155769348145, "Quantum sensing Timing": 0.6990845799446106, "Quantum sensing": 0.7472217082977295, "Quantum control": 0.7038055658340454 } }, { "id": 198, "title": "Proton stopping power ratio prediction using photon-counting computed tomography and deep learning", "abstract": "Proton radiation therapy has the potential of achieving precise dose delivery to the tumor while sparing non-cancerous surrounding tissue, owing to the sharp Bragg peaks of protons. Aligning the high ...", "citations": 1, "author_count": 7, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 198, "doi": "10.1117/12.3006363", "umap_coordinates": { "x": 395.6730651855469, "y": 133.1884307861328, "z": 205.7196502685547 }, "tsne_coordinates": { "x": -7.732230186462402, "y": 19.77158546447754, "z": -22.548076629638672 }, "pca_coordinates": { "x": -2.271554946899414, "y": 2.737936019897461, "z": 4.438143253326416 }, "axis_scores": { "Quantum imaging": 0.7267940640449524, "Quantum Life Science Sensing": 0.7223287224769592, "Quantum sensing Detection": 0.7310692071914673, "Quantum sensing Metrology": 0.7008392214775085, "Quantum sensing navigation": 0.7242448329925537, "Quantum sensing Position": 0.7024223804473877, "Quantum sensing Timing": 0.7022308111190796, "Quantum sensing": 0.71929931640625, "Quantum control": 0.6640232801437378 } }, { "id": 199, "title": "Spin States of Holes in Ge/Si Nanowire Quantum Dots", "abstract": "We investigate tunable hole quantum dots defined by surface gating Ge/Si core-shell nanowire heterostructures. In single level Coulomb-blockade transport measurements at low temperatures spin doublets...", "citations": 83, "author_count": 9, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 199, "doi": "10.1103/PhysRevLett.101.186802", "umap_coordinates": { "x": 393.70068359375, "y": 134.89352416992188, "z": 208.763671875 }, "tsne_coordinates": { "x": 4.997210502624512, "y": -24.349641799926758, "z": 2.406043767929077 }, "pca_coordinates": { "x": 4.783425331115723, "y": -3.523730754852295, "z": 1.0769708156585693 }, "axis_scores": { "Quantum imaging": 0.7302601933479309, "Quantum Life Science Sensing": 0.7437883615493774, "Quantum sensing Detection": 0.7485671043395996, "Quantum sensing Metrology": 0.7267278432846069, "Quantum sensing navigation": 0.7543306946754456, "Quantum sensing Position": 0.7446494102478027, "Quantum sensing Timing": 0.7175693511962891, "Quantum sensing": 0.7552868127822876, "Quantum control": 0.7011831998825073 } }, { "id": 200, "title": "Classification and reconstruction of optical quantum states with deep neural networks", "abstract": "We apply deep-neural-network-based techniques to quantum state classification and reconstruction. Our methods demonstrate high classification accuracies and reconstruction fidelities, even in the pres...", "citations": 64, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 200, "doi": "10.1103/PhysRevResearch.3.033278", "umap_coordinates": { "x": 395.4676208496094, "y": 136.29415893554688, "z": 207.61961364746094 }, "tsne_coordinates": { "x": -25.232011795043945, "y": -16.267545700073242, "z": -10.396683692932129 }, "pca_coordinates": { "x": 3.8155179023742676, "y": 0.43202781677246094, "z": 2.0153329372406006 }, "axis_scores": { "Quantum imaging": 0.7893182039260864, "Quantum Life Science Sensing": 0.7704639434814453, "Quantum sensing Detection": 0.7829615473747253, "Quantum sensing Metrology": 0.7691713571548462, "Quantum sensing navigation": 0.7896041870117188, "Quantum sensing Position": 0.7367563247680664, "Quantum sensing Timing": 0.704439640045166, "Quantum sensing": 0.7877779006958008, "Quantum control": 0.7370317578315735 } }, { "id": 201, "title": "Qubit readout and quantum sensing with pulses of quantum radiation", "abstract": "Different hypotheses about a quantum system such as the logical state of a qubit or the value of physical interaction parameters can be investigated by the interaction with a probe field. Such fields ...", "citations": 3, "author_count": 3, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 201, "doi": "10.1103/PhysRevA.107.013705", "umap_coordinates": { "x": 395.69317626953125, "y": 136.1079864501953, "z": 207.82589721679688 }, "tsne_coordinates": { "x": -21.383407592773438, "y": -15.467119216918945, "z": -8.689276695251465 }, "pca_coordinates": { "x": 3.925107479095459, "y": 0.33080244064331055, "z": 3.8562769889831543 }, "axis_scores": { "Quantum imaging": 0.7511982321739197, "Quantum Life Science Sensing": 0.7598098516464233, "Quantum sensing Detection": 0.7653536200523376, "Quantum sensing Metrology": 0.7482924461364746, "Quantum sensing navigation": 0.7489885687828064, "Quantum sensing Position": 0.720473051071167, "Quantum sensing Timing": 0.7484715580940247, "Quantum sensing": 0.7676107883453369, "Quantum control": 0.7057358026504517 } }, { "id": 202, "title": "Pure Organic Redox Couple for Quantum-Dot-Sensitized Solar Cells", "abstract": "", "citations": 16, "author_count": 7, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 202, "doi": "10.1002/chem.201003527", "umap_coordinates": { "x": 392.1940612792969, "y": 134.135498046875, "z": 205.0427703857422 }, "tsne_coordinates": { "x": 20.043195724487305, "y": 2.5651707649230957, "z": -12.807337760925293 }, "pca_coordinates": { "x": -2.3777055740356445, "y": -3.569446086883545, "z": -2.5265843868255615 }, "axis_scores": { "Quantum imaging": 0.7210129499435425, "Quantum Life Science Sensing": 0.7673302888870239, "Quantum sensing Detection": 0.7314268946647644, "Quantum sensing Metrology": 0.7164548635482788, "Quantum sensing navigation": 0.7115289568901062, "Quantum sensing Position": 0.6867457032203674, "Quantum sensing Timing": 0.6695421934127808, "Quantum sensing": 0.7417089343070984, "Quantum control": 0.7277116179466248 } }, { "id": 203, "title": "Phase breaking as a probe of the intrinsic level spectrum of open quantum dots", "abstract": "We measure the dependence of the phase breaking time on temperature and on de voltage in ballistic split-gate quantum dots, the lead openings of which are defined by means of quantum point contacts. E...", "citations": 15, "author_count": 13, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 203, "doi": "10.1002/1521-3951(199711)204:1<314::AID-PSSB314>3.0.CO;2-A", "umap_coordinates": { "x": 393.1763000488281, "y": 135.46762084960938, "z": 207.57745361328125 }, "tsne_coordinates": { "x": 31.941421508789062, "y": -2.6789846420288086, "z": 16.391210556030273 }, "pca_coordinates": { "x": 0.8464529514312744, "y": 0.08248662948608398, "z": -0.05624610185623169 }, "axis_scores": { "Quantum imaging": 0.728861927986145, "Quantum Life Science Sensing": 0.7622393369674683, "Quantum sensing Detection": 0.7492662668228149, "Quantum sensing Metrology": 0.7294794321060181, "Quantum sensing navigation": 0.736892580986023, "Quantum sensing Position": 0.719954788684845, "Quantum sensing Timing": 0.718451201915741, "Quantum sensing": 0.7558152675628662, "Quantum control": 0.7212567925453186 } }, { "id": 204, "title": "Optical characterization of quantum wires and quantum dots", "abstract": "Different optical techniques are described for the characterization of low-dimensional semiconductor structures like quantum wires and quantum dots. The main motivation for the strong interest in thes...", "citations": 17, "author_count": 8, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 204, "doi": "10.1002/pssa.2211520127", "umap_coordinates": { "x": 393.23126220703125, "y": 134.09693908691406, "z": 206.4599151611328 }, "tsne_coordinates": { "x": 33.05530548095703, "y": 1.950992465019226, "z": 1.9123239517211914 }, "pca_coordinates": { "x": -1.0933866500854492, "y": -2.6958250999450684, "z": 1.427583932876587 }, "axis_scores": { "Quantum imaging": 0.753637433052063, "Quantum Life Science Sensing": 0.777244508266449, "Quantum sensing Detection": 0.7598456144332886, "Quantum sensing Metrology": 0.7640085220336914, "Quantum sensing navigation": 0.7540098428726196, "Quantum sensing Position": 0.740868091583252, "Quantum sensing Timing": 0.7233468890190125, "Quantum sensing": 0.7746094465255737, "Quantum control": 0.7464095950126648 } }, { "id": 205, "title": "Microwave quantum optics and electron transport through a metallic dot strongly coupled to a transmission line cavity", "abstract": "We investigate theoretically the properties of the photon state and the electronic transport in a system consisting of a metallic quantum dot strongly coupled to a superconducting microwave transmissi...", "citations": 26, "author_count": 3, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 205, "doi": "10.1103/PhysRevB.85.045446", "umap_coordinates": { "x": 394.3876647949219, "y": 135.1627655029297, "z": 208.70387268066406 }, "tsne_coordinates": { "x": -8.847850799560547, "y": -24.69540023803711, "z": -0.047026343643665314 }, "pca_coordinates": { "x": 4.25648832321167, "y": -2.747459888458252, "z": 1.4576256275177002 }, "axis_scores": { "Quantum imaging": 0.7333843111991882, "Quantum Life Science Sensing": 0.7254388332366943, "Quantum sensing Detection": 0.743090808391571, "Quantum sensing Metrology": 0.7173655033111572, "Quantum sensing navigation": 0.7293931245803833, "Quantum sensing Position": 0.6944366693496704, "Quantum sensing Timing": 0.6754276156425476, "Quantum sensing": 0.7436439990997314, "Quantum control": 0.7077877521514893 } }, { "id": 206, "title": "Electro-Optics of Colloidal Quantum Dot Solids for Thin-Film Solar Cells", "abstract": "The electro-optics of thin-film stacks within photovoltaic devices plays a critical role for the exciton and charge generation and therefore the photovoltaic performance. The complex refractive indexe...", "citations": 28, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 206, "doi": "10.1002/adfm.201503338", "umap_coordinates": { "x": 392.8147888183594, "y": 133.7344512939453, "z": 205.95729064941406 }, "tsne_coordinates": { "x": 32.754825592041016, "y": 4.997239112854004, "z": -8.714111328125 }, "pca_coordinates": { "x": -1.3423638343811035, "y": -3.4446816444396973, "z": -0.7581186294555664 }, "axis_scores": { "Quantum imaging": 0.7391409277915955, "Quantum Life Science Sensing": 0.7587838768959045, "Quantum sensing Detection": 0.7254888415336609, "Quantum sensing Metrology": 0.7416219711303711, "Quantum sensing navigation": 0.720599889755249, "Quantum sensing Position": 0.7043673992156982, "Quantum sensing Timing": 0.6756286025047302, "Quantum sensing": 0.7397957444190979, "Quantum control": 0.7129892110824585 } }, { "id": 207, "title": "Backward retrieval in optical quantum memory controlled by an external field", "abstract": "A scheme for backward retrieval in optical quantum memories in which information is stored in collective states of an extended resonant atomic ensemble is developed such that phase conjugation can be ...", "citations": 3, "author_count": 3, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 207, "doi": "10.1103/PhysRevA.78.043808", "umap_coordinates": { "x": 394.30157470703125, "y": 136.6743927001953, "z": 208.2930145263672 }, "tsne_coordinates": { "x": -0.8307474255561829, "y": -30.682785034179688, "z": 21.78487777709961 }, "pca_coordinates": { "x": 3.3674020767211914, "y": 1.6374890804290771, "z": -0.576291561126709 }, "axis_scores": { "Quantum imaging": 0.7303676009178162, "Quantum Life Science Sensing": 0.7153139114379883, "Quantum sensing Detection": 0.7202125787734985, "Quantum sensing Metrology": 0.6867882609367371, "Quantum sensing navigation": 0.7374759316444397, "Quantum sensing Position": 0.6937053203582764, "Quantum sensing Timing": 0.6870937347412109, "Quantum sensing": 0.7255872488021851, "Quantum control": 0.7117774486541748 } }, { "id": 208, "title": "Quantum coherence and decoherence of protons and muons in condensed matter", "abstract": "The coherence in quantum superposition states of protons (and chemically similar particles, the positive muons) has been studied in some condensed matter environments. It is shown that if the proton s...", "citations": 5, "author_count": 2, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 208, "doi": "10.1140/epjd/e2002-00244-6", "umap_coordinates": { "x": 394.9717712402344, "y": 136.65060424804688, "z": 206.60105895996094 }, "tsne_coordinates": { "x": -27.51197052001953, "y": 9.37448787689209, "z": 2.0524182319641113 }, "pca_coordinates": { "x": 2.969428539276123, "y": 2.9715662002563477, "z": -1.0314234495162964 }, "axis_scores": { "Quantum imaging": 0.7496694326400757, "Quantum Life Science Sensing": 0.7559414505958557, "Quantum sensing Detection": 0.7304686307907104, "Quantum sensing Metrology": 0.7110791206359863, "Quantum sensing navigation": 0.7396351099014282, "Quantum sensing Position": 0.732197642326355, "Quantum sensing Timing": 0.7258211970329285, "Quantum sensing": 0.7378687262535095, "Quantum control": 0.7388920783996582 } }, { "id": 209, "title": "Optimal local measurements in single-parameter quantum metrology", "abstract": "Quantum measurement plays a crucial role in quantum metrology. Due to the limitations of experimental capabilities, collectively measuring multiple copies of probing systems can present significant ch...", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 209, "doi": "10.1103/PhysRevA.111.022436", "umap_coordinates": { "x": 394.95361328125, "y": 134.37518310546875, "z": 208.04849243164062 }, "tsne_coordinates": { "x": 4.090773582458496, "y": -20.941844940185547, "z": -14.069130897521973 }, "pca_coordinates": { "x": 2.959909439086914, "y": -0.4388394355773926, "z": 2.6579136848449707 }, "axis_scores": { "Quantum imaging": 0.7518171668052673, "Quantum Life Science Sensing": 0.7618434429168701, "Quantum sensing Detection": 0.7669611573219299, "Quantum sensing Metrology": 0.8015424013137817, "Quantum sensing navigation": 0.7685009241104126, "Quantum sensing Position": 0.7693661451339722, "Quantum sensing Timing": 0.7366721034049988, "Quantum sensing": 0.7850821614265442, "Quantum control": 0.7340258359909058 } }, { "id": 210, "title": "Spectroscopy of hot electron pair emission from a driven quantum dot", "abstract": "On-demand emission of individual electrons for the implementation of flying qubits and quantum electronoptics experiments requires precise knowledge and tunability of emission times and energies. Cruc...", "citations": 4, "author_count": 5, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 210, "doi": "10.1103/PhysRevB.109.115433", "umap_coordinates": { "x": 394.5155334472656, "y": 134.79624938964844, "z": 208.67367553710938 }, "tsne_coordinates": { "x": -5.669743061065674, "y": -25.348203659057617, "z": -0.06590870022773743 }, "pca_coordinates": { "x": 3.846951484680176, "y": -3.2145886421203613, "z": 1.9378747940063477 }, "axis_scores": { "Quantum imaging": 0.7213146090507507, "Quantum Life Science Sensing": 0.7490279078483582, "Quantum sensing Detection": 0.7577652931213379, "Quantum sensing Metrology": 0.7377375364303589, "Quantum sensing navigation": 0.7161029577255249, "Quantum sensing Position": 0.697550892829895, "Quantum sensing Timing": 0.6984874606132507, "Quantum sensing": 0.7485450506210327, "Quantum control": 0.6937512159347534 } }, { "id": 211, "title": "A fiber-optic spectroscopic setup for isomerization quantum yield determination", "abstract": "A spectroscopic setup for isomerization quantum yield determination is reported. The setup combines fiber-coupled LEDs, a commercially calibrated thermopile detector for measurement of the photon flux...", "citations": 8, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 211, "doi": "10.3762/bjoc.20.150", "umap_coordinates": { "x": 393.0509948730469, "y": 136.26290893554688, "z": 205.19317626953125 }, "tsne_coordinates": { "x": 4.9036335945129395, "y": 6.352557182312012, "z": -5.912168025970459 }, "pca_coordinates": { "x": -1.9324190616607666, "y": 1.548341989517212, "z": -0.5371788740158081 }, "axis_scores": { "Quantum imaging": 0.6899482011795044, "Quantum Life Science Sensing": 0.7214300036430359, "Quantum sensing Detection": 0.6923673152923584, "Quantum sensing Metrology": 0.693323016166687, "Quantum sensing navigation": 0.6829697489738464, "Quantum sensing Position": 0.6852737665176392, "Quantum sensing Timing": 0.6691679358482361, "Quantum sensing": 0.701526939868927, "Quantum control": 0.6619207859039307 } }, { "id": 212, "title": "Statistics of electron emission from InAs/GaAs quantum dots", "abstract": "A theoretical treatment for thermal and tunneling emission of electrons from InAs/GaAs quantum dots is performed to achieve effective emission rates corresponding to experimentally obtained quantities...", "citations": 13, "author_count": 4, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 212, "doi": "10.1016/j.msec.2005.09.048", "umap_coordinates": { "x": 393.11566162109375, "y": 133.9571075439453, "z": 207.6177520751953 }, "tsne_coordinates": { "x": 38.43112564086914, "y": -8.838057518005371, "z": 8.062967300415039 }, "pca_coordinates": { "x": -0.24722182750701904, "y": -2.0695486068725586, "z": 1.7548418045043945 }, "axis_scores": { "Quantum imaging": 0.7122945189476013, "Quantum Life Science Sensing": 0.7139584422111511, "Quantum sensing Detection": 0.7205371856689453, "Quantum sensing Metrology": 0.704563558101654, "Quantum sensing navigation": 0.7100188732147217, "Quantum sensing Position": 0.7014864087104797, "Quantum sensing Timing": 0.7096365094184875, "Quantum sensing": 0.7228369116783142, "Quantum control": 0.687798023223877 } }, { "id": 213, "title": "Geometric phases in quantum information", "abstract": "The rise of quantum information science has opened up a new venue for applications of the geometric phase (GP), as well as triggered new insights into its physical, mathematical, and conceptual nature...", "citations": 88, "author_count": 2, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 213, "doi": "10.1002/qua.24941", "umap_coordinates": { "x": 394.88714599609375, "y": 137.64508056640625, "z": 207.39634704589844 }, "tsne_coordinates": { "x": -32.414459228515625, "y": -7.804880619049072, "z": 10.583847999572754 }, "pca_coordinates": { "x": 3.649209976196289, "y": 2.576559066772461, "z": -1.168590784072876 }, "axis_scores": { "Quantum imaging": 0.8073787689208984, "Quantum Life Science Sensing": 0.7687491178512573, "Quantum sensing Detection": 0.7815894484519958, "Quantum sensing Metrology": 0.7851654291152954, "Quantum sensing navigation": 0.8171654939651489, "Quantum sensing Position": 0.7975691556930542, "Quantum sensing Timing": 0.7890552282333374, "Quantum sensing": 0.7993203997612, "Quantum control": 0.7794031500816345 } }, { "id": 214, "title": "Tunable double quantum dots in InAs nanowires defined by local gate electrodes", "abstract": "We report on low-temperature transport measurements on single and double quantum dots defined using local gates to electrostatically deplete InAs nanowires grown by chemical beam epitaxy. This techniq...", "citations": 156, "author_count": 5, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 214, "doi": "10.1021/nl050850i", "umap_coordinates": { "x": 392.50860595703125, "y": 133.97976684570312, "z": 207.351318359375 }, "tsne_coordinates": { "x": 15.775699615478516, "y": -18.678722381591797, "z": -6.048745632171631 }, "pca_coordinates": { "x": -0.7590256929397583, "y": -4.975223541259766, "z": -0.059164345264434814 }, "axis_scores": { "Quantum imaging": 0.7095287442207336, "Quantum Life Science Sensing": 0.7245045304298401, "Quantum sensing Detection": 0.7168526649475098, "Quantum sensing Metrology": 0.7066289186477661, "Quantum sensing navigation": 0.7212070226669312, "Quantum sensing Position": 0.7055544257164001, "Quantum sensing Timing": 0.69724440574646, "Quantum sensing": 0.7298637628555298, "Quantum control": 0.716162919998169 } }, { "id": 215, "title": "Electron-electron interactions in graphene field-induced quantum dots in a high magnetic field", "abstract": "We study the effect of electron-electron interaction in graphene quantum dots defined by an external electrostatic potential and a high magnetic field. To account for the electron-electron interaction...", "citations": 5, "author_count": 4, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 215, "doi": "10.1103/PhysRevB.92.075431", "umap_coordinates": { "x": 393.1848449707031, "y": 135.99502563476562, "z": 208.85873413085938 }, "tsne_coordinates": { "x": 13.558201789855957, "y": -28.580549240112305, "z": 10.559388160705566 }, "pca_coordinates": { "x": 3.4329771995544434, "y": -2.6851463317871094, "z": -1.990750789642334 }, "axis_scores": { "Quantum imaging": 0.7118664383888245, "Quantum Life Science Sensing": 0.7132384777069092, "Quantum sensing Detection": 0.6999876499176025, "Quantum sensing Metrology": 0.684457004070282, "Quantum sensing navigation": 0.6966297626495361, "Quantum sensing Position": 0.6765131950378418, "Quantum sensing Timing": 0.6462557315826416, "Quantum sensing": 0.708114504814148, "Quantum control": 0.6979067325592041 } }, { "id": 216, "title": "Certification of quantum states with hidden structure of their bitstrings", "abstract": "The rapid development of quantum computing technologies already made it possible to manipulate a collective state of several dozens of qubits, which poses a strong demand on efficient methods for char...", "citations": 17, "author_count": 7, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 216, "doi": "10.1038/s41534-022-00559-7", "umap_coordinates": { "x": 395.3143005371094, "y": 137.2180938720703, "z": 206.60020446777344 }, "tsne_coordinates": { "x": -21.485816955566406, "y": 3.890406847000122, "z": -2.2474846839904785 }, "pca_coordinates": { "x": 1.5695133209228516, "y": 2.542827606201172, "z": -0.09992986917495728 }, "axis_scores": { "Quantum imaging": 0.7631272077560425, "Quantum Life Science Sensing": 0.7702050805091858, "Quantum sensing Detection": 0.767358660697937, "Quantum sensing Metrology": 0.7643206715583801, "Quantum sensing navigation": 0.7761414647102356, "Quantum sensing Position": 0.753779947757721, "Quantum sensing Timing": 0.7359886765480042, "Quantum sensing": 0.7791018486022949, "Quantum control": 0.7489871978759766 } }, { "id": 217, "title": "Exciton generation and recombination dynamics of quantum dots embedded in GaNAsP nanowires", "abstract": "Semiconductor quantum dots (QDs) acting as single-photon-emitters are potential building blocks for various applications in future quantum information technology. For such applications, a thorough und...", "citations": 6, "author_count": 6, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 217, "doi": "10.1103/PhysRevB.103.165425", "umap_coordinates": { "x": 393.44183349609375, "y": 134.83782958984375, "z": 208.73204040527344 }, "tsne_coordinates": { "x": 8.174651145935059, "y": -23.318805694580078, "z": 0.2987115979194641 }, "pca_coordinates": { "x": 4.323535919189453, "y": -5.170493125915527, "z": 0.47906869649887085 }, "axis_scores": { "Quantum imaging": 0.7081833481788635, "Quantum Life Science Sensing": 0.7142309546470642, "Quantum sensing Detection": 0.7121085524559021, "Quantum sensing Metrology": 0.6896541714668274, "Quantum sensing navigation": 0.7194766402244568, "Quantum sensing Position": 0.6866756677627563, "Quantum sensing Timing": 0.6804968118667603, "Quantum sensing": 0.7107054591178894, "Quantum control": 0.67983478307724 } }, { "id": 218, "title": "Effects of proton irradiation on luminescence emission and carrier dynamics of self-assembled III-V quantum dots", "abstract": "The effects of proton irradiation (1.5 MeV) on photoluminescence intensities and carrier dynamics were compared between III-V quantum dots and similar quantum well structures. A significant enhancemen...", "citations": 35, "author_count": 8, "categories": [ "Engineering" ], "year": 2002, "topic": [ "all" ], "embedding_index": 218, "doi": "10.1109/TNS.2002.806018", "umap_coordinates": { "x": 393.61419677734375, "y": 134.21905517578125, "z": 206.29148864746094 }, "tsne_coordinates": { "x": 14.627985954284668, "y": 26.35881233215332, "z": -19.208786010742188 }, "pca_coordinates": { "x": -0.8863581418991089, "y": -2.1176838874816895, "z": -0.2878263294696808 }, "axis_scores": { "Quantum imaging": 0.7475844025611877, "Quantum Life Science Sensing": 0.7712467908859253, "Quantum sensing Detection": 0.7436102032661438, "Quantum sensing Metrology": 0.7172057628631592, "Quantum sensing navigation": 0.742486298084259, "Quantum sensing Position": 0.7131256461143494, "Quantum sensing Timing": 0.7285889387130737, "Quantum sensing": 0.7523095011711121, "Quantum control": 0.7201977968215942 } }, { "id": 219, "title": "A cross-sectional scanning tunneling microscopy study of a quantum dot infrared photodetector structure", "abstract": "We report on cross-sectional scanning tunneling microscopy studies of a quantum dot infrared photodetector structure consisting of multiple InGaAs quantum wells containing InAs quantum dots and separa...", "citations": 22, "author_count": 7, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 219, "doi": "10.1063/1.2245195", "umap_coordinates": { "x": 393.5097961425781, "y": 134.04327392578125, "z": 208.27200317382812 }, "tsne_coordinates": { "x": 26.58957290649414, "y": -27.606426239013672, "z": 2.077786922454834 }, "pca_coordinates": { "x": 0.08293640613555908, "y": -2.30930233001709, "z": 2.2819793224334717 }, "axis_scores": { "Quantum imaging": 0.7277045249938965, "Quantum Life Science Sensing": 0.7392762303352356, "Quantum sensing Detection": 0.7284389138221741, "Quantum sensing Metrology": 0.7264938950538635, "Quantum sensing navigation": 0.7041599750518799, "Quantum sensing Position": 0.7019563913345337, "Quantum sensing Timing": 0.6685224771499634, "Quantum sensing": 0.7373531460762024, "Quantum control": 0.6848612427711487 } }, { "id": 220, "title": "Luminescence properties of Ge quantum dots produced by MBE at different temperatures", "abstract": "The influence of the growth temperature on the structural and optical properties of Ge quantum dots in Si has been studied. We show that intermixing of Si in the dots strongly affect the band alignmen...", "citations": 2, "author_count": 6, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 220, "doi": "10.1109/GROUP4.2004.1416693", "umap_coordinates": { "x": 393.4077453613281, "y": 134.39842224121094, "z": 206.76068115234375 }, "tsne_coordinates": { "x": 38.86201858520508, "y": -7.998934745788574, "z": 1.2193341255187988 }, "pca_coordinates": { "x": 0.043560028076171875, "y": -0.5730388164520264, "z": -0.5246055126190186 }, "axis_scores": { "Quantum imaging": 0.717625081539154, "Quantum Life Science Sensing": 0.7385237812995911, "Quantum sensing Detection": 0.7055431604385376, "Quantum sensing Metrology": 0.7022230625152588, "Quantum sensing navigation": 0.7013989090919495, "Quantum sensing Position": 0.7040666341781616, "Quantum sensing Timing": 0.691550076007843, "Quantum sensing": 0.7173792719841003, "Quantum control": 0.6993647217750549 } }, { "id": 221, "title": "Propagating Surface Plasmon Induced Photon Emission from Quantum Dots", "abstract": "We investigate the interaction between propagating surface plasmons in silver nanowires and excitons generated in quantum dots. We show propagating surface plasmons can excite excitons, which results ...", "citations": 196, "author_count": 6, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 221, "doi": "10.1021/nl9023897", "umap_coordinates": { "x": 392.9383239746094, "y": 134.13902282714844, "z": 206.57777404785156 }, "tsne_coordinates": { "x": 14.39283561706543, "y": -15.48542594909668, "z": -14.855995178222656 }, "pca_coordinates": { "x": -1.0486682653427124, "y": -3.695711135864258, "z": 0.8314149975776672 }, "axis_scores": { "Quantum imaging": 0.7265412211418152, "Quantum Life Science Sensing": 0.7439815998077393, "Quantum sensing Detection": 0.7368990182876587, "Quantum sensing Metrology": 0.7113747000694275, "Quantum sensing navigation": 0.7284201383590698, "Quantum sensing Position": 0.7127850651741028, "Quantum sensing Timing": 0.6725571751594543, "Quantum sensing": 0.7360007166862488, "Quantum control": 0.6847727298736572 } }, { "id": 222, "title": "Solid state quantum memory using complete absorption and re-emission of photons by tailored and externally controlled inhomogeneous absorption profiles", "abstract": "We present a scheme for storage and retrieval of the quantum state of a single-photon or a weak classical or non-classical optical wave-packet, in a solid-state medium. We describe how the spectral ab...", "citations": 166, "author_count": 3, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 222, "doi": "10.1016/j.optcom.2004.11.077", "umap_coordinates": { "x": 393.542236328125, "y": 134.8609161376953, "z": 205.58555603027344 }, "tsne_coordinates": { "x": 13.056751251220703, "y": 8.35948371887207, "z": -0.7704625129699707 }, "pca_coordinates": { "x": -2.3018674850463867, "y": -0.33864641189575195, "z": 1.6293728351593018 }, "axis_scores": { "Quantum imaging": 0.7498885989189148, "Quantum Life Science Sensing": 0.7444047331809998, "Quantum sensing Detection": 0.7203034162521362, "Quantum sensing Metrology": 0.7275084257125854, "Quantum sensing navigation": 0.7156604528427124, "Quantum sensing Position": 0.6830837726593018, "Quantum sensing Timing": 0.6786581873893738, "Quantum sensing": 0.7435590028762817, "Quantum control": 0.690098762512207 } }, { "id": 223, "title": "Optical reflection from excitonic quantum-dot multilayer structures", "abstract": "We study theoretically and experimentally the optical reflection from excitonic quantum-dot (QD) multilayer structures composed of InAs QDs in a GaAs substrate. Quantum mechanical and finite-differenc...", "citations": 7, "author_count": 8, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 223, "doi": "10.1063/1.3021084", "umap_coordinates": { "x": 393.5987548828125, "y": 133.96922302246094, "z": 208.08924865722656 }, "tsne_coordinates": { "x": 27.4637451171875, "y": -25.011856079101562, "z": -9.009574890136719 }, "pca_coordinates": { "x": 1.6621506214141846, "y": -4.108897686004639, "z": 0.9994370341300964 }, "axis_scores": { "Quantum imaging": 0.7468523979187012, "Quantum Life Science Sensing": 0.7487459182739258, "Quantum sensing Detection": 0.741592288017273, "Quantum sensing Metrology": 0.7367534637451172, "Quantum sensing navigation": 0.7039086818695068, "Quantum sensing Position": 0.6874317526817322, "Quantum sensing Timing": 0.6691878437995911, "Quantum sensing": 0.7489970922470093, "Quantum control": 0.6833374500274658 } }, { "id": 224, "title": "Two-photon imaging and quantum holography", "abstract": "We discuss when the use of entangled photon pairs in an imaging system can be simulated with a classically correlated source. In particular, we consider two recently proposed schemes with 'bucket dete...", "citations": 8, "author_count": 4, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 224, "doi": "10.1088/1464-4266/6/6/003", "umap_coordinates": { "x": 395.0366516113281, "y": 134.72561645507812, "z": 206.279541015625 }, "tsne_coordinates": { "x": -20.568017959594727, "y": -0.684955894947052, "z": -13.567560195922852 }, "pca_coordinates": { "x": -0.6451204419136047, "y": 1.503907561302185, "z": 2.986015796661377 }, "axis_scores": { "Quantum imaging": 0.7971309423446655, "Quantum Life Science Sensing": 0.7460900545120239, "Quantum sensing Detection": 0.7417559027671814, "Quantum sensing Metrology": 0.7446854710578918, "Quantum sensing navigation": 0.7382773160934448, "Quantum sensing Position": 0.7184076309204102, "Quantum sensing Timing": 0.7251156568527222, "Quantum sensing": 0.7607651352882385, "Quantum control": 0.708430290222168 } }, { "id": 225, "title": "Ultra Long-Lived Radiative Trap States in CdSe Quantum Dots", "abstract": "Surface states and traps play an important role in the photophysics of colloidal quantum dots. These states typically lead to large red-shifted photoluminescence. We have used steady-state and time-re...", "citations": 79, "author_count": 8, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 225, "doi": "10.1021/jp506536h", "umap_coordinates": { "x": 392.08251953125, "y": 135.36862182617188, "z": 206.1444854736328 }, "tsne_coordinates": { "x": 16.15717124938965, "y": -2.982161521911621, "z": 10.219541549682617 }, "pca_coordinates": { "x": 0.08498454093933105, "y": -3.3524999618530273, "z": -1.6952834129333496 }, "axis_scores": { "Quantum imaging": 0.7104232311248779, "Quantum Life Science Sensing": 0.7546903491020203, "Quantum sensing Detection": 0.7118359208106995, "Quantum sensing Metrology": 0.6784984469413757, "Quantum sensing navigation": 0.689361572265625, "Quantum sensing Position": 0.6905558705329895, "Quantum sensing Timing": 0.7036219835281372, "Quantum sensing": 0.7298376560211182, "Quantum control": 0.6763637065887451 } }, { "id": 226, "title": "Quantum computing based on space states without charge transfer", "abstract": "An implementation of a quantum computer based on space states in double quantum dots is discussed. There is no charge transfer in qubits during a calculation, therefore, uncontrolled entanglement betw...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 226, "doi": "10.1016/j.physleta.2010.06.023", "umap_coordinates": { "x": 394.5387268066406, "y": 136.591796875, "z": 206.46778869628906 }, "tsne_coordinates": { "x": -25.91803550720215, "y": -6.0906982421875, "z": 20.428091049194336 }, "pca_coordinates": { "x": 2.22713041305542, "y": 1.147128939628601, "z": -0.08765643835067749 }, "axis_scores": { "Quantum imaging": 0.744535505771637, "Quantum Life Science Sensing": 0.7526095509529114, "Quantum sensing Detection": 0.7493257522583008, "Quantum sensing Metrology": 0.7259734272956848, "Quantum sensing navigation": 0.7482870817184448, "Quantum sensing Position": 0.7434984445571899, "Quantum sensing Timing": 0.7098197937011719, "Quantum sensing": 0.7609574198722839, "Quantum control": 0.7438458800315857 } }, { "id": 227, "title": "Analysis of NbN Hot Electron Bolometer Receiver Noise Temperatures Above 2 THz With a Quantum Noise Model", "abstract": "This paper summarizes our receiver noise temperature data of NbN HEB mixers obtained at a number of local oscillator frequencies between 1.9 to 4.3 THz in order to verify the role of quantum noise. Th...", "citations": 6, "author_count": 8, "categories": [ "Engineering" ], "year": 2009, "topic": [ "all" ], "embedding_index": 227, "doi": "10.1109/TASC.2009.2018817", "umap_coordinates": { "x": 394.4637756347656, "y": 134.25820922851562, "z": 207.33181762695312 }, "tsne_coordinates": { "x": -0.7427924871444702, "y": -2.510901689529419, "z": -45.365970611572266 }, "pca_coordinates": { "x": 1.3453330993652344, "y": -0.20662641525268555, "z": 2.6091256141662598 }, "axis_scores": { "Quantum imaging": 0.6970726251602173, "Quantum Life Science Sensing": 0.7053359746932983, "Quantum sensing Detection": 0.7229397296905518, "Quantum sensing Metrology": 0.7113467454910278, "Quantum sensing navigation": 0.7272593379020691, "Quantum sensing Position": 0.6950151324272156, "Quantum sensing Timing": 0.7256825566291809, "Quantum sensing": 0.7181731462478638, "Quantum control": 0.6768909096717834 } }, { "id": 228, "title": "Triplet-blockaded Josephson supercurrent in double quantum dots", "abstract": "Serial double quantum dots created in semiconductor nanostructures provide a versatile platform for investigating two-electron spin quantum states, which can be tuned by electrostatic gating and an ex...", "citations": 23, "author_count": 11, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 228, "doi": "10.1103/PhysRevB.102.220505", "umap_coordinates": { "x": 393.9403381347656, "y": 135.4755859375, "z": 208.99497985839844 }, "tsne_coordinates": { "x": -0.6877333521842957, "y": -25.18516731262207, "z": 1.6035454273223877 }, "pca_coordinates": { "x": 4.083817005157471, "y": -4.61390495300293, "z": -0.4529098868370056 }, "axis_scores": { "Quantum imaging": 0.7100939154624939, "Quantum Life Science Sensing": 0.7292149662971497, "Quantum sensing Detection": 0.7190349102020264, "Quantum sensing Metrology": 0.7006660103797913, "Quantum sensing navigation": 0.7011680603027344, "Quantum sensing Position": 0.6800711750984192, "Quantum sensing Timing": 0.697313129901886, "Quantum sensing": 0.7236150503158569, "Quantum control": 0.6982066631317139 } }, { "id": 229, "title": "Geodesics and the best measurement for distinguishing quantum states", "abstract": "From statistical distinguishability of probability distributions, one can define distinguishability of quantum states. A corresponding measurement to perform, optimal in a definite sense, for distingu...", "citations": 8, "author_count": 2, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 229, "doi": "10.1088/0305-4470/38/44/L01", "umap_coordinates": { "x": 395.2531433105469, "y": 137.18301391601562, "z": 206.50074768066406 }, "tsne_coordinates": { "x": -37.24213790893555, "y": -4.214963436126709, "z": 9.422197341918945 }, "pca_coordinates": { "x": 0.719219446182251, "y": 4.29023551940918, "z": 1.45367431640625 }, "axis_scores": { "Quantum imaging": 0.6980985999107361, "Quantum Life Science Sensing": 0.6941894292831421, "Quantum sensing Detection": 0.6880771517753601, "Quantum sensing Metrology": 0.6765483021736145, "Quantum sensing navigation": 0.7307423949241638, "Quantum sensing Position": 0.7230602502822876, "Quantum sensing Timing": 0.6840708255767822, "Quantum sensing": 0.6947024464607239, "Quantum control": 0.6470437049865723 } }, { "id": 230, "title": "Parallel-Coupled Quantum Dots in InAs Nanowires", "abstract": "We use crystal-phase tuning during epitaxial growth of InAs nanowires to create quantum dots with very strong confinement. A set of gate electrodes are used to reproducibly split the quantum dots into...", "citations": 28, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 230, "doi": "10.1021/acs.nanolett.7b04090", "umap_coordinates": { "x": 392.5377197265625, "y": 133.9850616455078, "z": 207.60244750976562 }, "tsne_coordinates": { "x": 16.2568359375, "y": -14.869800567626953, "z": -6.12119722366333 }, "pca_coordinates": { "x": 0.7297794818878174, "y": -5.930654048919678, "z": 1.7931113243103027 }, "axis_scores": { "Quantum imaging": 0.7287652492523193, "Quantum Life Science Sensing": 0.7183713316917419, "Quantum sensing Detection": 0.735367476940155, "Quantum sensing Metrology": 0.706123948097229, "Quantum sensing navigation": 0.7309949994087219, "Quantum sensing Position": 0.7282942533493042, "Quantum sensing Timing": 0.7092025279998779, "Quantum sensing": 0.7369658350944519, "Quantum control": 0.6963943839073181 } }, { "id": 231, "title": "Correlation lengths in stacked InAs quantum dot systems studied by cross-sectional scanning tunnelling microscopy", "abstract": "We have studied the influence of the InP spacer layer thickness on stacked InAs/InP quantum dots, using cross-sectional scanning tunnelling microscopy. We show that for a spacer layer thickness of up ...", "citations": 7, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 231, "doi": "10.1088/0957-4484/18/14/145403", "umap_coordinates": { "x": 393.28314208984375, "y": 134.71400451660156, "z": 208.1173553466797 }, "tsne_coordinates": { "x": 20.50140380859375, "y": -14.466741561889648, "z": 9.039473533630371 }, "pca_coordinates": { "x": 1.729982852935791, "y": -0.4697401523590088, "z": 3.020580768585205 }, "axis_scores": { "Quantum imaging": 0.713556170463562, "Quantum Life Science Sensing": 0.7013893127441406, "Quantum sensing Detection": 0.6907997131347656, "Quantum sensing Metrology": 0.7089839577674866, "Quantum sensing navigation": 0.7344022393226624, "Quantum sensing Position": 0.7222684621810913, "Quantum sensing Timing": 0.727766752243042, "Quantum sensing": 0.7104157209396362, "Quantum control": 0.6637712717056274 } }, { "id": 232, "title": "Multimode character of quantum states released from a superconducting cavity", "abstract": "Quantum state transfer by propagating wave packets of electromagnetic radiation requires tunable couplings between the sending and receiving quantum systems and the propagation channel or waveguide. T...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 232, "doi": "10.1103/PhysRevResearch.5.043071", "umap_coordinates": { "x": 394.8545837402344, "y": 135.98780822753906, "z": 207.70867919921875 }, "tsne_coordinates": { "x": -12.840806007385254, "y": -22.093252182006836, "z": -5.837193489074707 }, "pca_coordinates": { "x": 4.195938587188721, "y": -0.13434362411499023, "z": 0.21221303939819336 }, "axis_scores": { "Quantum imaging": 0.7344866991043091, "Quantum Life Science Sensing": 0.7768274545669556, "Quantum sensing Detection": 0.7563664317131042, "Quantum sensing Metrology": 0.7524853944778442, "Quantum sensing navigation": 0.7384243607521057, "Quantum sensing Position": 0.7313035726547241, "Quantum sensing Timing": 0.703104555606842, "Quantum sensing": 0.7590373754501343, "Quantum control": 0.7026065587997437 } }, { "id": 233, "title": "Many-body perturbation theory calculations on circular quantum dots", "abstract": "The possibility to use perturbation theory to systematically improve calculations on circular quantum dots is investigated. A few different starting points, including Hartree-Fock, are tested and the ...", "citations": 10, "author_count": 3, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 233, "doi": "10.1103/PhysRevB.76.045314", "umap_coordinates": { "x": 394.46722412109375, "y": 135.5562286376953, "z": 208.84214782714844 }, "tsne_coordinates": { "x": 3.078075885772705, "y": -32.89989471435547, "z": 3.1859288215637207 }, "pca_coordinates": { "x": 3.8002119064331055, "y": -1.5520248413085938, "z": -0.47604042291641235 }, "axis_scores": { "Quantum imaging": 0.7277160286903381, "Quantum Life Science Sensing": 0.7486904859542847, "Quantum sensing Detection": 0.7521561980247498, "Quantum sensing Metrology": 0.7209651470184326, "Quantum sensing navigation": 0.7251212000846863, "Quantum sensing Position": 0.7169210910797119, "Quantum sensing Timing": 0.7047617435455322, "Quantum sensing": 0.7557182908058167, "Quantum control": 0.7332109808921814 } }, { "id": 234, "title": "Angular conductance resonances of quantum dots strongly coupled to noncollinearly oriented ferromagnetic leads - art. no. 045415", "abstract": "The transport properties of quantum dots coupled to noncollinear magnetic leads is investigated. It is found that the conductance, and current, of the system in the strongly coupled regime is a nonmon...", "citations": 20, "author_count": 2, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 234, "doi": "10.1103/PhysRevB.72.045415", "umap_coordinates": { "x": 393.7127685546875, "y": 135.84376525878906, "z": 209.03408813476562 }, "tsne_coordinates": { "x": -4.783975601196289, "y": -35.606285095214844, "z": 11.273036003112793 }, "pca_coordinates": { "x": 3.8201870918273926, "y": -1.7547316551208496, "z": 0.3147249221801758 }, "axis_scores": { "Quantum imaging": 0.7070294618606567, "Quantum Life Science Sensing": 0.7024863958358765, "Quantum sensing Detection": 0.7119866013526917, "Quantum sensing Metrology": 0.7026235461235046, "Quantum sensing navigation": 0.7245429754257202, "Quantum sensing Position": 0.7166943550109863, "Quantum sensing Timing": 0.6898801922798157, "Quantum sensing": 0.7281837463378906, "Quantum control": 0.7025518417358398 } }, { "id": 235, "title": "Orbital Topology Controlling Charge Injection in Quantum-Dot-Sensitized Solar Cells", "abstract": "Quantum-dot-sensitized solar cells are emerging as a promising development of dye-sensitized solar cells, where photostable semiconductor quantum dots replace molecular dyes. Upon photoexcitation of a...", "citations": 35, "author_count": 8, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 235, "doi": "10.1021/jz5001193", "umap_coordinates": { "x": 392.2169494628906, "y": 135.00526428222656, "z": 206.78326416015625 }, "tsne_coordinates": { "x": 24.788450241088867, "y": 2.3669748306274414, "z": 19.47561264038086 }, "pca_coordinates": { "x": 0.4726402759552002, "y": -3.3212313652038574, "z": -2.4632568359375 }, "axis_scores": { "Quantum imaging": 0.7281665205955505, "Quantum Life Science Sensing": 0.7289385795593262, "Quantum sensing Detection": 0.7139012813568115, "Quantum sensing Metrology": 0.7053952813148499, "Quantum sensing navigation": 0.7309492826461792, "Quantum sensing Position": 0.7105427384376526, "Quantum sensing Timing": 0.6937349438667297, "Quantum sensing": 0.7295948266983032, "Quantum control": 0.7405700087547302 } }, { "id": 236, "title": "Quantum correlations in connected multipartite Bell experiments", "abstract": "Bell experiments measure correlations between outcomes of a number of observers measuring on a shared physical state emitted from a single source. Quantum correlations arising in such Bell experiments...", "citations": 40, "author_count": 2, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 236, "doi": "10.1088/1751-8113/49/14/145304", "umap_coordinates": { "x": 395.15557861328125, "y": 136.53414916992188, "z": 207.2093048095703 }, "tsne_coordinates": { "x": -31.191083908081055, "y": -6.778404712677002, "z": 2.592698097229004 }, "pca_coordinates": { "x": 3.512382984161377, "y": 2.841362714767456, "z": 1.6157186031341553 }, "axis_scores": { "Quantum imaging": 0.7175109386444092, "Quantum Life Science Sensing": 0.7033413052558899, "Quantum sensing Detection": 0.7119963765144348, "Quantum sensing Metrology": 0.7069054841995239, "Quantum sensing navigation": 0.7215312719345093, "Quantum sensing Position": 0.7150920629501343, "Quantum sensing Timing": 0.7049990892410278, "Quantum sensing": 0.7248184680938721, "Quantum control": 0.7033252120018005 } }, { "id": 237, "title": "Complete reconstruction of the quantum state of a single-photon wave packet absorbed by a Doppler-broadened transition - art. no. 173601", "abstract": "An idea for how to reconstruct the quantum state of a nonstationary single-photon wave packet absorbed in a macroscopic medium with inhomogeneously broadened lines is presented. An analytical treatmen...", "citations": 323, "author_count": 3, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 237, "doi": "10.1103/PhysRevLett.87.173601", "umap_coordinates": { "x": 394.90045166015625, "y": 134.2618408203125, "z": 208.159423828125 }, "tsne_coordinates": { "x": -3.1342198848724365, "y": -21.47446632385254, "z": -11.410100936889648 }, "pca_coordinates": { "x": 2.9375572204589844, "y": 0.2741680145263672, "z": 2.843155860900879 }, "axis_scores": { "Quantum imaging": 0.7264257669448853, "Quantum Life Science Sensing": 0.747054398059845, "Quantum sensing Detection": 0.7374434471130371, "Quantum sensing Metrology": 0.7361597418785095, "Quantum sensing navigation": 0.7286874055862427, "Quantum sensing Position": 0.7070007920265198, "Quantum sensing Timing": 0.7077327966690063, "Quantum sensing": 0.7478653192520142, "Quantum control": 0.6836138963699341 } }, { "id": 238, "title": "Dephasing Free Photon Entanglement with a Quantum Dot", "abstract": "Generation of photon pairs from quantum dots with near-unity entanglement fidelity has been a long-standing scientific challenge. It is generally thought that the nuclear spins limit the entanglement ...", "citations": 27, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 238, "doi": "10.1021/acsphotonics.8b01496", "umap_coordinates": { "x": 394.6653137207031, "y": 134.71400451660156, "z": 207.24209594726562 }, "tsne_coordinates": { "x": -20.219770431518555, "y": -13.54206657409668, "z": -14.36914348602295 }, "pca_coordinates": { "x": 1.1110045909881592, "y": -1.6658668518066406, "z": 3.3000731468200684 }, "axis_scores": { "Quantum imaging": 0.7688174247741699, "Quantum Life Science Sensing": 0.7420390844345093, "Quantum sensing Detection": 0.7803423404693604, "Quantum sensing Metrology": 0.7404770851135254, "Quantum sensing navigation": 0.7456165552139282, "Quantum sensing Position": 0.7237171530723572, "Quantum sensing Timing": 0.7273733615875244, "Quantum sensing": 0.7725921273231506, "Quantum control": 0.7286193370819092 } }, { "id": 239, "title": "Classical representation of quantum means and quantum dynamics", "abstract": "", "citations": 8, "author_count": 2, "categories": [ "Mathematics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 239, "doi": "10.1134/S1064562406030343", "umap_coordinates": { "x": 395.0014343261719, "y": 137.6032257080078, "z": 206.48867797851562 }, "tsne_coordinates": { "x": -24.299291610717773, "y": 6.435242176055908, "z": 13.724194526672363 }, "pca_coordinates": { "x": 3.319535732269287, "y": 3.5975403785705566, "z": -1.1024388074874878 }, "axis_scores": { "Quantum imaging": 0.7508306503295898, "Quantum Life Science Sensing": 0.7653234601020813, "Quantum sensing Detection": 0.7500619292259216, "Quantum sensing Metrology": 0.7523386478424072, "Quantum sensing navigation": 0.7689825892448425, "Quantum sensing Position": 0.7289596199989319, "Quantum sensing Timing": 0.7330995202064514, "Quantum sensing": 0.7702468633651733, "Quantum control": 0.778596043586731 } }, { "id": 240, "title": "Efficient Large-Scale Many-Body Quantum Dynamics via Local-Information Time Evolution", "abstract": "During time evolution of many-body systems entanglement grows rapidly, limiting exact simulations to small-scale systems or small timescales. Quantum information tends, however, to flow towards larger...", "citations": 15, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 240, "doi": "10.1103/PRXQuantum.5.020352", "umap_coordinates": { "x": 395.4192810058594, "y": 136.76417541503906, "z": 207.31163024902344 }, "tsne_coordinates": { "x": -32.62622833251953, "y": -19.74603271484375, "z": 0.5644452571868896 }, "pca_coordinates": { "x": 2.7709500789642334, "y": 0.6384649276733398, "z": 0.8575584292411804 }, "axis_scores": { "Quantum imaging": 0.7928516268730164, "Quantum Life Science Sensing": 0.7621551752090454, "Quantum sensing Detection": 0.7809054851531982, "Quantum sensing Metrology": 0.7650539875030518, "Quantum sensing navigation": 0.7750915288925171, "Quantum sensing Position": 0.7617690563201904, "Quantum sensing Timing": 0.7548611164093018, "Quantum sensing": 0.7951325178146362, "Quantum control": 0.7769008278846741 } }, { "id": 241, "title": "Stacked InAs quantum dots in InP studied by cross-sectional scanning tunnelling microscopy", "abstract": "We report on cross-sectional scanning tunnelling microscopy (XSTM) measurements on vertically stacked InAs quantum dots in InP barriers. We have investigated two-, five- and tenfold stacked quantum do...", "citations": 17, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 241, "doi": "10.1088/0957-4484/15/12/001", "umap_coordinates": { "x": 392.5471496582031, "y": 134.37022399902344, "z": 208.09625244140625 }, "tsne_coordinates": { "x": 21.201936721801758, "y": -14.730497360229492, "z": 8.9887056350708 }, "pca_coordinates": { "x": 0.016204118728637695, "y": -1.9355697631835938, "z": 2.2804017066955566 }, "axis_scores": { "Quantum imaging": 0.7120524048805237, "Quantum Life Science Sensing": 0.704734206199646, "Quantum sensing Detection": 0.6843135356903076, "Quantum sensing Metrology": 0.6989324688911438, "Quantum sensing navigation": 0.714123547077179, "Quantum sensing Position": 0.7077068090438843, "Quantum sensing Timing": 0.6780272126197815, "Quantum sensing": 0.7063688039779663, "Quantum control": 0.6671070456504822 } }, { "id": 242, "title": "Metastability and quantum coherence assisted sensing in interacting parallel quantum dots", "abstract": "We study the transient dynamics subject to quantum coherence effects of two interacting parallel quantum dots weakly coupled to macroscopic leads. The stationary particle current of this quantum syste...", "citations": 5, "author_count": 5, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 242, "doi": "10.1103/PhysRevB.107.125424", "umap_coordinates": { "x": 394.6248779296875, "y": 135.94100952148438, "z": 208.69387817382812 }, "tsne_coordinates": { "x": -7.414309501647949, "y": -26.993391036987305, "z": -4.151451587677002 }, "pca_coordinates": { "x": 4.4034199714660645, "y": -1.836937427520752, "z": 1.0818889141082764 }, "axis_scores": { "Quantum imaging": 0.7501257658004761, "Quantum Life Science Sensing": 0.7604827880859375, "Quantum sensing Detection": 0.7793450355529785, "Quantum sensing Metrology": 0.7564272284507751, "Quantum sensing navigation": 0.7537699341773987, "Quantum sensing Position": 0.7398756742477417, "Quantum sensing Timing": 0.728005051612854, "Quantum sensing": 0.7722116112709045, "Quantum control": 0.7296336889266968 } }, { "id": 243, "title": "Universal non-adiabatic holonomic gates in quantum dots and single-molecule magnets", "abstract": "Geometric manipulation of a quantum system offers a method for fast, universal and robust quantum information processing. Here, we propose a scheme for universal all-geometric quantum computation usin...", "citations": 69, "author_count": 4, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 243, "doi": "10.1088/1367-2630/16/1/013029", "umap_coordinates": { "x": 394.2058410644531, "y": 136.41529846191406, "z": 208.00535583496094 }, "tsne_coordinates": { "x": -34.075904846191406, "y": -10.790243148803711, "z": 15.680580139160156 }, "pca_coordinates": { "x": 2.7729287147521973, "y": 0.3074150085449219, "z": 1.0467662811279297 }, "axis_scores": { "Quantum imaging": 0.7290206551551819, "Quantum Life Science Sensing": 0.7135791182518005, "Quantum sensing Detection": 0.7277600765228271, "Quantum sensing Metrology": 0.7249636054039001, "Quantum sensing navigation": 0.7301591038703918, "Quantum sensing Position": 0.697345495223999, "Quantum sensing Timing": 0.7151541113853455, "Quantum sensing": 0.7432371973991394, "Quantum control": 0.7240555882453918 } }, { "id": 244, "title": "Size control of self-assembled quantum dots", "abstract": "We present a way to calculate density and size of self-assembled quantum dots for varying deposition conditions (temperature and deposition rate). The density is calculated with a rate equation approa...", "citations": 2, "author_count": 3, "categories": [ "Crystallography" ], "year": 2000, "topic": [ "all" ], "embedding_index": 244, "doi": "10.1016/S0022-0248(00)00779-X", "umap_coordinates": { "x": 392.4362487792969, "y": 134.09791564941406, "z": 206.85836791992188 }, "tsne_coordinates": { "x": 32.10737228393555, "y": -7.377254486083984, "z": 2.1772782802581787 }, "pca_coordinates": { "x": -2.7445390224456787, "y": -2.5372586250305176, "z": -1.0283347368240356 }, "axis_scores": { "Quantum imaging": 0.7159643769264221, "Quantum Life Science Sensing": 0.7411357760429382, "Quantum sensing Detection": 0.7178985476493835, "Quantum sensing Metrology": 0.716340959072113, "Quantum sensing navigation": 0.7047023773193359, "Quantum sensing Position": 0.7270168662071228, "Quantum sensing Timing": 0.674615204334259, "Quantum sensing": 0.7327502965927124, "Quantum control": 0.7407549023628235 } }, { "id": 245, "title": "Decoherence in a crystal-phase defined double quantum dot charge qubit strongly coupled to a high-impedance resonator", "abstract": "Decoherence of a charge qubit is usually credited to charge noise in the environment. Here we show that charge noise may not be the limiting factor for the qubit coherence. To this end, we study coher...", "citations": 3, "author_count": 12, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 245, "doi": "10.1103/PhysRevResearch.6.043134", "umap_coordinates": { "x": 394.5371398925781, "y": 135.59674072265625, "z": 208.2525177001953 }, "tsne_coordinates": { "x": -7.4599175453186035, "y": -23.493677139282227, "z": 2.9424331188201904 }, "pca_coordinates": { "x": 3.742003917694092, "y": -1.4534554481506348, "z": -0.2743344306945801 }, "axis_scores": { "Quantum imaging": 0.7632535696029663, "Quantum Life Science Sensing": 0.7906390428543091, "Quantum sensing Detection": 0.7755147218704224, "Quantum sensing Metrology": 0.7527042031288147, "Quantum sensing navigation": 0.7657692432403564, "Quantum sensing Position": 0.755172848701477, "Quantum sensing Timing": 0.7329862117767334, "Quantum sensing": 0.7810122966766357, "Quantum control": 0.7540469169616699 } }, { "id": 246, "title": "Gaussian quantum estimation of the loss parameter in a thermal environment", "abstract": "Lossy bosonic channels play an important role in a number of quantum information tasks, since they well approximate thermal dissipation in an experiment. Here, we characterize their metrological power...", "citations": 23, "author_count": 3, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 246, "doi": "10.1088/1751-8121/ac83fa", "umap_coordinates": { "x": 395.3894958496094, "y": 135.89166259765625, "z": 206.4866485595703 }, "tsne_coordinates": { "x": -36.047584533691406, "y": -3.7134385108947754, "z": -2.548007011413574 }, "pca_coordinates": { "x": 0.7565975189208984, "y": 3.0614805221557617, "z": 1.9335026741027832 }, "axis_scores": { "Quantum imaging": 0.7428210377693176, "Quantum Life Science Sensing": 0.7396870255470276, "Quantum sensing Detection": 0.7385227084159851, "Quantum sensing Metrology": 0.7424303293228149, "Quantum sensing navigation": 0.7517163157463074, "Quantum sensing Position": 0.7514944076538086, "Quantum sensing Timing": 0.7120820879936218, "Quantum sensing": 0.7515279650688171, "Quantum control": 0.7185014486312866 } }, { "id": 247, "title": "Parametric effects in circuit quantum electrodynamics", "abstract": "We review recent advances in the research on quantum parametric phenomena in superconducting circuits with Josephson junctions. We discuss physical processes in parametrically driven tunable cavity an...", "citations": 42, "author_count": 3, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 247, "doi": "10.1063/1.5116533", "umap_coordinates": { "x": 393.67279052734375, "y": 135.00770568847656, "z": 208.0156707763672 }, "tsne_coordinates": { "x": -5.80800724029541, "y": -11.782357215881348, "z": 19.441877365112305 }, "pca_coordinates": { "x": 3.224212169647217, "y": -1.7351717948913574, "z": 0.2665709853172302 }, "axis_scores": { "Quantum imaging": 0.7478138208389282, "Quantum Life Science Sensing": 0.7266939878463745, "Quantum sensing Detection": 0.7387645840644836, "Quantum sensing Metrology": 0.7382665276527405, "Quantum sensing navigation": 0.7332985997200012, "Quantum sensing Position": 0.7168879508972168, "Quantum sensing Timing": 0.7106419801712036, "Quantum sensing": 0.7559221982955933, "Quantum control": 0.7401418685913086 } }, { "id": 248, "title": "Asymmetric negative differential conductance in double quantum dots", "abstract": "An explanation for the recently observed asymmetric negative differential conductance (NDC) in a double-quantum-dot system attached to metallic external contacts is proposed. The NDC was observed only...", "citations": 12, "author_count": 3, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 248, "doi": "10.1088/0953-8984/16/8/L03", "umap_coordinates": { "x": 393.32574462890625, "y": 134.89759826660156, "z": 207.9202423095703 }, "tsne_coordinates": { "x": 1.8344792127609253, "y": -29.08882713317871, "z": -3.6624867916107178 }, "pca_coordinates": { "x": 0.9880599975585938, "y": -1.5270113945007324, "z": 0.8012246489524841 }, "axis_scores": { "Quantum imaging": 0.7260044813156128, "Quantum Life Science Sensing": 0.7216804623603821, "Quantum sensing Detection": 0.729343831539154, "Quantum sensing Metrology": 0.6969691514968872, "Quantum sensing navigation": 0.7070046663284302, "Quantum sensing Position": 0.691990315914154, "Quantum sensing Timing": 0.6771456003189087, "Quantum sensing": 0.7260095477104187, "Quantum control": 0.6972573399543762 } }, { "id": 249, "title": "Theory of Compression Channels for Postselected Quantum Metrology", "abstract": "The postselected quantum metrological scheme is especially advantageous when the final measurements are either very noisy or expensive in practical experiments. In this Letter, we put forward a genera...", "citations": 9, "author_count": 2, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 249, "doi": "10.1103/PhysRevLett.132.250802", "umap_coordinates": { "x": 395.62554931640625, "y": 136.81756591796875, "z": 207.68728637695312 }, "tsne_coordinates": { "x": -23.088611602783203, "y": -23.29192352294922, "z": -3.00697922706604 }, "pca_coordinates": { "x": 2.8220667839050293, "y": 2.955300807952881, "z": 2.859370231628418 }, "axis_scores": { "Quantum imaging": 0.7218780517578125, "Quantum Life Science Sensing": 0.7066611051559448, "Quantum sensing Detection": 0.7247358560562134, "Quantum sensing Metrology": 0.7526453733444214, "Quantum sensing navigation": 0.7178807854652405, "Quantum sensing Position": 0.7082209587097168, "Quantum sensing Timing": 0.7188583612442017, "Quantum sensing": 0.7350559234619141, "Quantum control": 0.6997948884963989 } }, { "id": 250, "title": "Heralding entangled optical photons from a microwave quantum processor", "abstract": "Exploiting the strengths of different quantum hardware components may increase the capabilities of emerging quantum processors. Here we propose and analyze a quantum architecture that leverages the no...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 250, "doi": "10.1103/PhysRevApplied.22.034068", "umap_coordinates": { "x": 395.5650329589844, "y": 135.91168212890625, "z": 207.43255615234375 }, "tsne_coordinates": { "x": -13.735672950744629, "y": -24.197410583496094, "z": -7.4398674964904785 }, "pca_coordinates": { "x": 3.1142001152038574, "y": 0.9357857704162598, "z": 2.0894665718078613 }, "axis_scores": { "Quantum imaging": 0.7363197207450867, "Quantum Life Science Sensing": 0.7229450345039368, "Quantum sensing Detection": 0.7321317791938782, "Quantum sensing Metrology": 0.7102916240692139, "Quantum sensing navigation": 0.7099496722221375, "Quantum sensing Position": 0.6678693890571594, "Quantum sensing Timing": 0.6917787790298462, "Quantum sensing": 0.737910807132721, "Quantum control": 0.6811871528625488 } }, { "id": 251, "title": "Hyperfine interaction limits polarization entanglement of photons from semiconductor quantum dots", "abstract": "Excitons in quantum dots are excellent sources of polarization-entangled photon pairs, but a quantitative understanding of their interaction with the nuclear spin bath is still missing. Here we invest...", "citations": 6, "author_count": 16, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 251, "doi": "10.1103/PhysRevB.108.L081405", "umap_coordinates": { "x": 394.88299560546875, "y": 135.82481384277344, "z": 207.78968811035156 }, "tsne_coordinates": { "x": -13.959418296813965, "y": -12.971363067626953, "z": -13.550799369812012 }, "pca_coordinates": { "x": 3.5734481811523438, "y": -1.333397388458252, "z": 1.07840895652771 }, "axis_scores": { "Quantum imaging": 0.756445050239563, "Quantum Life Science Sensing": 0.7402496337890625, "Quantum sensing Detection": 0.7420320510864258, "Quantum sensing Metrology": 0.7109614610671997, "Quantum sensing navigation": 0.7234398126602173, "Quantum sensing Position": 0.7050499320030212, "Quantum sensing Timing": 0.6770825386047363, "Quantum sensing": 0.7456650137901306, "Quantum control": 0.7121509909629822 } }, { "id": 252, "title": "Complete band gaps in three-dimensional quantum dot photonic crystals", "abstract": "Nonlocal investigations have been performed about exciton-photon couplings in three-dimensional quantum-dot (QD) photonic crystals and a complete photonic band gap has been found in the band structure...", "citations": 9, "author_count": 6, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 252, "doi": "10.1103/PhysRevB.74.115325", "umap_coordinates": { "x": 394.27972412109375, "y": 135.31065368652344, "z": 208.83352661132812 }, "tsne_coordinates": { "x": -7.854773998260498, "y": -21.562255859375, "z": -6.114477157592773 }, "pca_coordinates": { "x": 3.8449745178222656, "y": -2.3580574989318848, "z": 0.8891814351081848 }, "axis_scores": { "Quantum imaging": 0.7312740087509155, "Quantum Life Science Sensing": 0.7250239849090576, "Quantum sensing Detection": 0.7244755625724792, "Quantum sensing Metrology": 0.7365032434463501, "Quantum sensing navigation": 0.7237687706947327, "Quantum sensing Position": 0.6921857595443726, "Quantum sensing Timing": 0.6950113773345947, "Quantum sensing": 0.737784206867218, "Quantum control": 0.7037332057952881 } }, { "id": 253, "title": "Interference contrast in multisource few-photon optics", "abstract": "Many recent experiments employ several parametric down-conversion (PDC) sources to get multiphoton interference. Such interference has applications in quantum information. We study here how effects du...", "citations": 15, "author_count": 6, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 253, "doi": "10.1088/0953-4075/42/11/114004", "umap_coordinates": { "x": 395.3502502441406, "y": 134.38629150390625, "z": 206.1778106689453 }, "tsne_coordinates": { "x": -8.536563873291016, "y": 9.674691200256348, "z": -18.62990951538086 }, "pca_coordinates": { "x": -1.0800220966339111, "y": 1.6778786182403564, "z": 4.069947719573975 }, "axis_scores": { "Quantum imaging": 0.7401447892189026, "Quantum Life Science Sensing": 0.6861071586608887, "Quantum sensing Detection": 0.7053468823432922, "Quantum sensing Metrology": 0.6893376111984253, "Quantum sensing navigation": 0.6968927383422852, "Quantum sensing Position": 0.6814780831336975, "Quantum sensing Timing": 0.6778646111488342, "Quantum sensing": 0.7069004774093628, "Quantum control": 0.6579875349998474 } }, { "id": 254, "title": "Squeezing and Multimode Entanglement of Surface Acoustic Wave Phonons", "abstract": "Exploiting multiple modes in a quantum acoustic device could enable applications in quantum information in a hardware-efficient setup, including quantum simulation in a synthetic dimension and continu...", "citations": 31, "author_count": 10, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 254, "doi": "10.1103/PRXQuantum.3.010312", "umap_coordinates": { "x": 395.4796447753906, "y": 137.0895538330078, "z": 207.23504638671875 }, "tsne_coordinates": { "x": -31.38816261291504, "y": -21.608762741088867, "z": -3.1969077587127686 }, "pca_coordinates": { "x": 3.0514445304870605, "y": 0.2963886260986328, "z": 2.463809013366699 }, "axis_scores": { "Quantum imaging": 0.7378358244895935, "Quantum Life Science Sensing": 0.7226704359054565, "Quantum sensing Detection": 0.7562233805656433, "Quantum sensing Metrology": 0.761860191822052, "Quantum sensing navigation": 0.7407145500183105, "Quantum sensing Position": 0.7479709982872009, "Quantum sensing Timing": 0.7120498418807983, "Quantum sensing": 0.7657089233398438, "Quantum control": 0.7227118611335754 } }, { "id": 255, "title": "Double-quantum excitation in the NMR of spinning solids by pulse-assisted rotational resonance", "abstract": "We describe a new technique for double-quantum excitation in magic-angle-spinning NMR of powdered solids. The technique is designed to efficiently excite double-quantum coherence in the vicinity of a ...", "citations": 9, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2001, "topic": [ "all" ], "embedding_index": 255, "doi": "10.1006/jmre.2000.2243", "umap_coordinates": { "x": 392.688232421875, "y": 136.81422424316406, "z": 206.82261657714844 }, "tsne_coordinates": { "x": 14.650652885437012, "y": 3.3209269046783447, "z": 32.744388580322266 }, "pca_coordinates": { "x": -0.5609338879585266, "y": 1.1695635318756104, "z": -0.7463918328285217 }, "axis_scores": { "Quantum imaging": 0.7304970622062683, "Quantum Life Science Sensing": 0.7237834930419922, "Quantum sensing Detection": 0.7004185318946838, "Quantum sensing Metrology": 0.7154815196990967, "Quantum sensing navigation": 0.6968558430671692, "Quantum sensing Position": 0.6848713755607605, "Quantum sensing Timing": 0.6846070289611816, "Quantum sensing": 0.7201018333435059, "Quantum control": 0.6915798783302307 } }, { "id": 256, "title": "Detection of Coherent Terahertz Radiation from a High-Temperature Superconductor Josephson Junction by a Semiconductor Quantum-Dot Detector", "abstract": "We examine the application of Josephson radiation emitters to spectral calibration of single-photon-resolving detectors. Josephson junctions are patterned in a YBCO film on a bicrystal sapphire substr...", "citations": 11, "author_count": 10, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 256, "doi": "10.1103/PhysRevApplied.5.024010", "umap_coordinates": { "x": 394.7519226074219, "y": 134.90541076660156, "z": 208.37611389160156 }, "tsne_coordinates": { "x": -6.396574020385742, "y": -24.72844696044922, "z": 1.4731037616729736 }, "pca_coordinates": { "x": 3.7344870567321777, "y": -2.0430331230163574, "z": 2.870739698410034 }, "axis_scores": { "Quantum imaging": 0.7305886745452881, "Quantum Life Science Sensing": 0.758649468421936, "Quantum sensing Detection": 0.7600721120834351, "Quantum sensing Metrology": 0.724892258644104, "Quantum sensing navigation": 0.7352190017700195, "Quantum sensing Position": 0.7158777713775635, "Quantum sensing Timing": 0.7351089715957642, "Quantum sensing": 0.7461544871330261, "Quantum control": 0.6897927522659302 } }, { "id": 257, "title": "Electron tunneling from quantum dots characterized by deep level transient spectroscopy", "abstract": "Electron tunneling from InAs/GaAs quantum dots has been studied by deep level transient spectroscopy (DLTS). Comparing DLTS data with theory, we demonstrate how the results can be interpreted for situ...", "citations": 21, "author_count": 5, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 257, "doi": "10.1063/1.2790846", "umap_coordinates": { "x": 393.3943786621094, "y": 134.3924560546875, "z": 208.35250854492188 }, "tsne_coordinates": { "x": 25.38686180114746, "y": -25.16225814819336, "z": 3.646707534790039 }, "pca_coordinates": { "x": 2.12117338180542, "y": -3.141479969024658, "z": 0.5440648198127747 }, "axis_scores": { "Quantum imaging": 0.7451685070991516, "Quantum Life Science Sensing": 0.7684059143066406, "Quantum sensing Detection": 0.7541695833206177, "Quantum sensing Metrology": 0.7337944507598877, "Quantum sensing navigation": 0.724949300289154, "Quantum sensing Position": 0.700354814529419, "Quantum sensing Timing": 0.7038353085517883, "Quantum sensing": 0.7629125714302063, "Quantum control": 0.7070964574813843 } }, { "id": 258, "title": "Optomechanical Control of Quantum Yield in Trans-Cis Ultrafast Photoisomerization of a Retinal Chromophore Model", "abstract": "The quantum yield of a photochemical reaction is one of the most fundamental quantities in photochemistry, as it measures the efficiency of the transduction of light energy into chemical energy. Natur...", "citations": 27, "author_count": 11, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 258, "doi": "10.1002/anie.201611265", "umap_coordinates": { "x": 393.18780517578125, "y": 136.1153564453125, "z": 205.5404510498047 }, "tsne_coordinates": { "x": -0.4524286091327667, "y": 17.243133544921875, "z": 12.136488914489746 }, "pca_coordinates": { "x": -0.8914195895195007, "y": 0.21993756294250488, "z": -0.9855825901031494 }, "axis_scores": { "Quantum imaging": 0.7483203411102295, "Quantum Life Science Sensing": 0.7600237131118774, "Quantum sensing Detection": 0.7432746291160583, "Quantum sensing Metrology": 0.7395784258842468, "Quantum sensing navigation": 0.7263928651809692, "Quantum sensing Position": 0.7049023509025574, "Quantum sensing Timing": 0.7160245180130005, "Quantum sensing": 0.753487229347229, "Quantum control": 0.7422969341278076 } }, { "id": 259, "title": "METAL-NANOSHELL/QUANTUM-DOT ARRAY WAVEGUIDES WITH COMPENSATED LOSS", "abstract": "Dispersion properties of nanoarray waveguides composed of near-field-coupled arrays of metal-clad quantum dots (QDs) are calculated. The high loss due to operation of the metal shells close to resonan...", "citations": 1, "author_count": 4, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 259, "doi": "10.1142/S0218863510005492", "umap_coordinates": { "x": 393.5202331542969, "y": 134.0338134765625, "z": 206.84860229492188 }, "tsne_coordinates": { "x": 27.23907470703125, "y": -18.116321563720703, "z": -23.14511489868164 }, "pca_coordinates": { "x": -0.39702022075653076, "y": -2.3570446968078613, "z": 2.068049430847168 }, "axis_scores": { "Quantum imaging": 0.6974993944168091, "Quantum Life Science Sensing": 0.6917827129364014, "Quantum sensing Detection": 0.6913977861404419, "Quantum sensing Metrology": 0.7129716873168945, "Quantum sensing navigation": 0.7031174898147583, "Quantum sensing Position": 0.6877841949462891, "Quantum sensing Timing": 0.6641097664833069, "Quantum sensing": 0.704298198223114, "Quantum control": 0.6793826818466187 } }, { "id": 260, "title": "Auger recombination in In(Ga)Sb/InAs quantum dots", "abstract": "We report on the epitaxial formation of type II In0.5Ga0.5Sb/InAs and InSb/InAs quantum dot ensembles using metal organic vapor phase epitaxy. Employing scanning tunneling spectroscopy, we determine s...", "citations": 13, "author_count": 12, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 260, "doi": "10.1063/1.4905455", "umap_coordinates": { "x": 392.8396911621094, "y": 134.12655639648438, "z": 208.39309692382812 }, "tsne_coordinates": { "x": 27.023225784301758, "y": -17.950029373168945, "z": 0.026171667501330376 }, "pca_coordinates": { "x": 2.2594213485717773, "y": -3.782562732696533, "z": 0.9198905825614929 }, "axis_scores": { "Quantum imaging": 0.7226319909095764, "Quantum Life Science Sensing": 0.7346986532211304, "Quantum sensing Detection": 0.7411100268363953, "Quantum sensing Metrology": 0.7198572158813477, "Quantum sensing navigation": 0.7307299375534058, "Quantum sensing Position": 0.7116507291793823, "Quantum sensing Timing": 0.7024500966072083, "Quantum sensing": 0.74357670545578, "Quantum control": 0.6884866952896118 } }, { "id": 261, "title": "Majorisation-minimisation algorithm for optimal state discrimination in quantum communications", "abstract": "Designing optimal measurement operators for quantum state discrimination (QSD) is an important problem in quantum communications and cryptography applications. Prior works have demonstrated that optim...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 261, "doi": "10.1049/qtc2.12107", "umap_coordinates": { "x": 394.98907470703125, "y": 136.7217559814453, "z": 206.19639587402344 }, "tsne_coordinates": { "x": -30.440025329589844, "y": -2.3645222187042236, "z": -3.0164740085601807 }, "pca_coordinates": { "x": 1.1157684326171875, "y": 2.0653486251831055, "z": 0.68892902135849 }, "axis_scores": { "Quantum imaging": 0.7602543830871582, "Quantum Life Science Sensing": 0.7417778372764587, "Quantum sensing Detection": 0.779292106628418, "Quantum sensing Metrology": 0.7641714215278625, "Quantum sensing navigation": 0.7726742029190063, "Quantum sensing Position": 0.7606830596923828, "Quantum sensing Timing": 0.7575635313987732, "Quantum sensing": 0.7718509435653687, "Quantum control": 0.7534489631652832 } }, { "id": 262, "title": "Shared access to quantum information - art. no. 044301", "abstract": "It is shown that quantum mechanics allows a qubit to be transferred so that it can be accessed symmetrically by two observers. These can then decide later which one is to take possession of the quantu...", "citations": 2, "author_count": 3, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 262, "doi": "10.1103/PhysRevA.62.044301", "umap_coordinates": { "x": 395.59454345703125, "y": 136.603515625, "z": 207.6707000732422 }, "tsne_coordinates": { "x": -24.02046775817871, "y": -15.400046348571777, "z": 3.527125597000122 }, "pca_coordinates": { "x": 4.5555195808410645, "y": 0.8146853446960449, "z": 1.6792511940002441 }, "axis_scores": { "Quantum imaging": 0.7538942694664001, "Quantum Life Science Sensing": 0.7500619888305664, "Quantum sensing Detection": 0.7585383653640747, "Quantum sensing Metrology": 0.7539659738540649, "Quantum sensing navigation": 0.7590840458869934, "Quantum sensing Position": 0.7248026728630066, "Quantum sensing Timing": 0.7123979330062866, "Quantum sensing": 0.7779625058174133, "Quantum control": 0.7534326314926147 } }, { "id": 263, "title": "Experimentally testable geometric phase of sequences of Everett's relative quantum states", "abstract": "Everett's concept of relative state is used to introduce a geometric phase that depends nontrivially on entanglement in a pure quantum state. We show that this phase can be measured in multiparticle i...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 263, "doi": "10.1209/0295-5075/86/30005", "umap_coordinates": { "x": 395.0685119628906, "y": 137.39402770996094, "z": 207.3313446044922 }, "tsne_coordinates": { "x": -23.068204879760742, "y": 2.0649750232696533, "z": -11.19881820678711 }, "pca_coordinates": { "x": 2.461930990219116, "y": 4.557577133178711, "z": 0.004610121250152588 }, "axis_scores": { "Quantum imaging": 0.7190180420875549, "Quantum Life Science Sensing": 0.727353572845459, "Quantum sensing Detection": 0.7012488842010498, "Quantum sensing Metrology": 0.7142325043678284, "Quantum sensing navigation": 0.7457633018493652, "Quantum sensing Position": 0.7340671420097351, "Quantum sensing Timing": 0.7517496943473816, "Quantum sensing": 0.715241551399231, "Quantum control": 0.694961428642273 } }, { "id": 264, "title": "Non-equilibrium triplet blockade in parallel coupled quantum dots", "abstract": "It is theoretically demonstrated that parallel weakly tunnel coupled quantum dots exhibit non-equilibrium blockade regimes caused by a full occupation in the spin triplet state, in analogy to the Paul...", "citations": 7, "author_count": 2, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 264, "doi": "10.1088/1367-2630/8/7/114", "umap_coordinates": { "x": 393.84722900390625, "y": 135.9643096923828, "z": 207.45372009277344 }, "tsne_coordinates": { "x": 15.55958366394043, "y": -19.146678924560547, "z": 17.77213478088379 }, "pca_coordinates": { "x": 2.320416212081909, "y": -0.2693979740142822, "z": 0.914827287197113 }, "axis_scores": { "Quantum imaging": 0.7367544174194336, "Quantum Life Science Sensing": 0.7147993445396423, "Quantum sensing Detection": 0.7272830605506897, "Quantum sensing Metrology": 0.705558717250824, "Quantum sensing navigation": 0.7120019793510437, "Quantum sensing Position": 0.7084735035896301, "Quantum sensing Timing": 0.7245470881462097, "Quantum sensing": 0.7243505120277405, "Quantum control": 0.7145622372627258 } }, { "id": 265, "title": "SQUIDs for magnetic and electromagnetic methods in mineral exploration", "abstract": "Research on quantum sensors for the detection of magnetic fields (quantum magnetometers) is one of the fast-moving areas of Quantum Technologies. Since there exist expectations about their use in geop...", "citations": 35, "author_count": 11, "categories": [ "Business & Economics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 265, "doi": "10.1007/s13563-022-00333-3", "umap_coordinates": { "x": 393.98016357421875, "y": 134.902099609375, "z": 205.83447265625 }, "tsne_coordinates": { "x": -10.37349796295166, "y": 4.128337860107422, "z": 4.178711891174316 }, "pca_coordinates": { "x": -1.833827257156372, "y": 1.2550435066223145, "z": -2.3163630962371826 }, "axis_scores": { "Quantum imaging": 0.6694488525390625, "Quantum Life Science Sensing": 0.694003164768219, "Quantum sensing Detection": 0.6565518975257874, "Quantum sensing Metrology": 0.6843113303184509, "Quantum sensing navigation": 0.7067335247993469, "Quantum sensing Position": 0.659481406211853, "Quantum sensing Timing": 0.6220155358314514, "Quantum sensing": 0.6730035543441772, "Quantum control": 0.6537209749221802 } }, { "id": 266, "title": "Universal quantum computation and quantum error correction using discrete holonomies", "abstract": "Holonomic quantum computation exploits a quantum state's nontrivial, matrix-valued geometric phase (holonomy) to perform fault-tolerant computation. Holonomies arising from systems where the Hamiltoni...", "citations": 5, "author_count": 3, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 266, "doi": "10.1103/PhysRevA.105.022402", "umap_coordinates": { "x": 395.06103515625, "y": 137.0538330078125, "z": 208.16851806640625 }, "tsne_coordinates": { "x": -22.181623458862305, "y": -16.53229522705078, "z": 0.333615779876709 }, "pca_coordinates": { "x": 4.8710503578186035, "y": 0.809420108795166, "z": -0.10863453149795532 }, "axis_scores": { "Quantum imaging": 0.7634935975074768, "Quantum Life Science Sensing": 0.7795982360839844, "Quantum sensing Detection": 0.7742936015129089, "Quantum sensing Metrology": 0.7693509459495544, "Quantum sensing navigation": 0.7704569101333618, "Quantum sensing Position": 0.7417048215866089, "Quantum sensing Timing": 0.7524639964103699, "Quantum sensing": 0.7886400818824768, "Quantum control": 0.763318657875061 } }, { "id": 267, "title": "Dynamic analysis of multiple-photon optical processes in semiconductor quantum dots", "abstract": "Semiconductor quantum dots (QDs) have been gaining much attention because of their outstanding properties for multiple-photon microscopy applications. By solving nonperturbatively the time-dependent S...", "citations": 9, "author_count": 5, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 267, "doi": "10.1088/0953-8984/18/39/033", "umap_coordinates": { "x": 393.283203125, "y": 135.0994873046875, "z": 207.11361694335938 }, "tsne_coordinates": { "x": 20.510196685791016, "y": -9.694194793701172, "z": 18.034059524536133 }, "pca_coordinates": { "x": 0.23956811428070068, "y": 0.30728888511657715, "z": 0.7644544243812561 }, "axis_scores": { "Quantum imaging": 0.7433820962905884, "Quantum Life Science Sensing": 0.7356295585632324, "Quantum sensing Detection": 0.7289864420890808, "Quantum sensing Metrology": 0.7111902236938477, "Quantum sensing navigation": 0.7137568593025208, "Quantum sensing Position": 0.6937586069107056, "Quantum sensing Timing": 0.7061256170272827, "Quantum sensing": 0.72682785987854, "Quantum control": 0.7065871953964233 } }, { "id": 268, "title": "Metallic quantum dots", "abstract": "In a quantum dot, the electrons are confined in all three dimensions to a length scale of the order of the electron Fermi wavelength. Due to the confinement, quantum effects will dominate over the bul...", "citations": 44, "author_count": 3, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 268, "doi": "10.1088/0953-8984/17/13/004", "umap_coordinates": { "x": 394.3076171875, "y": 135.3603057861328, "z": 206.87600708007812 }, "tsne_coordinates": { "x": 0.9257982969284058, "y": -4.943637847900391, "z": 22.520885467529297 }, "pca_coordinates": { "x": 0.5587079524993896, "y": -0.2742795944213867, "z": 0.44042402505874634 }, "axis_scores": { "Quantum imaging": 0.7490743398666382, "Quantum Life Science Sensing": 0.761042058467865, "Quantum sensing Detection": 0.7498814463615417, "Quantum sensing Metrology": 0.7280641198158264, "Quantum sensing navigation": 0.7386964559555054, "Quantum sensing Position": 0.7217932939529419, "Quantum sensing Timing": 0.7110450267791748, "Quantum sensing": 0.7554411292076111, "Quantum control": 0.7159526944160461 } }, { "id": 269, "title": "Estimation of the spatial decoherence time in circular quantum dots", "abstract": "We propose a simple phenomenological model to estimate the spatial decoherence time in quantum dots. The dissipative phase-space dynamics is described in terms of the density matrix and the correspond...", "citations": 3, "author_count": 4, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 269, "doi": "10.1103/PhysRevB.79.245310", "umap_coordinates": { "x": 395.2242431640625, "y": 135.70176696777344, "z": 207.44837951660156 }, "tsne_coordinates": { "x": -11.74531078338623, "y": -35.653175354003906, "z": -2.950124979019165 }, "pca_coordinates": { "x": 2.6337080001831055, "y": 0.6336166858673096, "z": 1.0976030826568604 }, "axis_scores": { "Quantum imaging": 0.7668604254722595, "Quantum Life Science Sensing": 0.7749521136283875, "Quantum sensing Detection": 0.7775234580039978, "Quantum sensing Metrology": 0.7581787705421448, "Quantum sensing navigation": 0.7688561081886292, "Quantum sensing Position": 0.7924156188964844, "Quantum sensing Timing": 0.7733897566795349, "Quantum sensing": 0.7756859064102173, "Quantum control": 0.740477442741394 } }, { "id": 270, "title": "Quantum Noise Secured Terahertz Communications", "abstract": "The terahertz communications display an important role in high-speed wireless communications, the security threat from the eavesdroppers in the terahertz communications has been gaining attention rece...", "citations": 13, "author_count": 12, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 270, "doi": "10.1109/JSTQE.2022.3218848", "umap_coordinates": { "x": 395.0003662109375, "y": 134.3453826904297, "z": 206.82981872558594 }, "tsne_coordinates": { "x": -0.06569496542215347, "y": 2.4752631187438965, "z": -38.42431640625 }, "pca_coordinates": { "x": 1.0791211128234863, "y": -0.052907466888427734, "z": 0.7802140116691589 }, "axis_scores": { "Quantum imaging": 0.7400330901145935, "Quantum Life Science Sensing": 0.7651368379592896, "Quantum sensing Detection": 0.7530105113983154, "Quantum sensing Metrology": 0.7429996728897095, "Quantum sensing navigation": 0.7546957731246948, "Quantum sensing Position": 0.7225988507270813, "Quantum sensing Timing": 0.7420509457588196, "Quantum sensing": 0.7645986080169678, "Quantum control": 0.7456822991371155 } }, { "id": 271, "title": "Electron Transfer Mediated by Iron Carbonyl Clusters Enhance Light-Driven Hydrogen Evolution in Water by Quantum Dots", "abstract": "Photocatalytic water splitting has become a promising strategy for converting solar energy into clean and carbon-neutral solar fuels in a low-cost and environmentally benign way. Hydrogen gas is such ...", "citations": 10, "author_count": 12, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 271, "doi": "10.1002/cssc.202000300", "umap_coordinates": { "x": 392.31768798828125, "y": 134.52232360839844, "z": 205.23313903808594 }, "tsne_coordinates": { "x": 20.034875869750977, "y": 7.237049579620361, "z": -4.442675590515137 }, "pca_coordinates": { "x": -1.872237205505371, "y": -2.3862061500549316, "z": -2.073374032974243 }, "axis_scores": { "Quantum imaging": 0.7447916865348816, "Quantum Life Science Sensing": 0.7395157217979431, "Quantum sensing Detection": 0.7238928079605103, "Quantum sensing Metrology": 0.6951404809951782, "Quantum sensing navigation": 0.7019153833389282, "Quantum sensing Position": 0.670154333114624, "Quantum sensing Timing": 0.673629105091095, "Quantum sensing": 0.7344891428947449, "Quantum control": 0.7363502383232117 } }, { "id": 272, "title": "Electrostatic effects in coupled quantum dot-point contact-single electron transistor devices", "abstract": "We study the operation of a system where quantum dot (QD) and point contact (PC) defined in a two-dimensional electron gas of a high-mobility GaAs/AlGaAs heterostructure are capacitively coupled to ea...", "citations": 5, "author_count": 9, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 272, "doi": "10.1063/1.4736419", "umap_coordinates": { "x": 393.88677978515625, "y": 133.96131896972656, "z": 208.45252990722656 }, "tsne_coordinates": { "x": 19.96296501159668, "y": -30.645767211914062, "z": -1.4188703298568726 }, "pca_coordinates": { "x": 1.2219221591949463, "y": -4.387248992919922, "z": 1.0727627277374268 }, "axis_scores": { "Quantum imaging": 0.6998698711395264, "Quantum Life Science Sensing": 0.7162942290306091, "Quantum sensing Detection": 0.7087956070899963, "Quantum sensing Metrology": 0.7050965428352356, "Quantum sensing navigation": 0.6829771995544434, "Quantum sensing Position": 0.7030662894248962, "Quantum sensing Timing": 0.6756262183189392, "Quantum sensing": 0.7220166325569153, "Quantum control": 0.6992325782775879 } }, { "id": 273, "title": "Energy level scheme of InAs/InxGa1-xAs/GaAs quantum-dots-in-a-well infrared photodetector structures", "abstract": "A thorough investigation of quantum-dots-in-a-well structures for infrared photodetector applications has been performed employing different experimental techniques. The electronic structure of self-a...", "citations": 19, "author_count": 12, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 273, "doi": "10.1103/PhysRevB.82.035314", "umap_coordinates": { "x": 392.87115478515625, "y": 134.40162658691406, "z": 208.584228515625 }, "tsne_coordinates": { "x": 12.332776069641113, "y": -29.51546287536621, "z": -0.13137005269527435 }, "pca_coordinates": { "x": 2.664693832397461, "y": -3.445389747619629, "z": 1.5719740390777588 }, "axis_scores": { "Quantum imaging": 0.7136803865432739, "Quantum Life Science Sensing": 0.7161439061164856, "Quantum sensing Detection": 0.7183189392089844, "Quantum sensing Metrology": 0.7007615566253662, "Quantum sensing navigation": 0.7085085511207581, "Quantum sensing Position": 0.7088572978973389, "Quantum sensing Timing": 0.6878935098648071, "Quantum sensing": 0.721233606338501, "Quantum control": 0.669414222240448 } }, { "id": 274, "title": "Spectral weighted geometric phase for mixed quantum states", "abstract": "Geometric phase has found a broad spectrum of applications in both classical and quantum physics. In this work we discuss a geometric phase for mixed quantum states based on traces of spectral weighte...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 274, "doi": "10.1088/0031-8949/2014/T163/014027", "umap_coordinates": { "x": 394.9491882324219, "y": 137.05831909179688, "z": 207.2598876953125 }, "tsne_coordinates": { "x": -34.54274368286133, "y": -5.945091724395752, "z": 8.746514320373535 }, "pca_coordinates": { "x": 1.9877524375915527, "y": 2.6626291275024414, "z": 0.8751720786094666 }, "axis_scores": { "Quantum imaging": 0.7410073280334473, "Quantum Life Science Sensing": 0.7187676429748535, "Quantum sensing Detection": 0.7147355079650879, "Quantum sensing Metrology": 0.7463980913162231, "Quantum sensing navigation": 0.7410914301872253, "Quantum sensing Position": 0.7263164520263672, "Quantum sensing Timing": 0.7259053587913513, "Quantum sensing": 0.7327300906181335, "Quantum control": 0.6983886957168579 } }, { "id": 275, "title": "Interaction (energy exchange) free and quantum nondemolition measurements", "abstract": "Wa analyze interaction (energy exchange) free measurements on classical and quantum objects. We show the transition from a classical interaction free measurement to a quantum nondemolition measurement...", "citations": 30, "author_count": 4, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 275, "doi": "10.1103/PhysRevLett.80.1198", "umap_coordinates": { "x": 395.5652770996094, "y": 136.15602111816406, "z": 207.84519958496094 }, "tsne_coordinates": { "x": -11.383397102355957, "y": -11.934762954711914, "z": 3.035121202468872 }, "pca_coordinates": { "x": 3.3796463012695312, "y": 0.9147534370422363, "z": 0.03734678030014038 }, "axis_scores": { "Quantum imaging": 0.7246528267860413, "Quantum Life Science Sensing": 0.7517881989479065, "Quantum sensing Detection": 0.7334885597229004, "Quantum sensing Metrology": 0.7218743562698364, "Quantum sensing navigation": 0.7188409566879272, "Quantum sensing Position": 0.7076163291931152, "Quantum sensing Timing": 0.7103520631790161, "Quantum sensing": 0.7396230697631836, "Quantum control": 0.6996057629585266 } }, { "id": 276, "title": "Towards quantitative three-dimensional characterisation of buried InAs quantum dots", "abstract": "InAs quantum dots grown on InP or InGaAsP are used for optical communication applications operating in the 1.3 - 1.55 mu m wavelength range. It is generally understood that the optical properties of s...", "citations": 2, "author_count": 8, "categories": [ "Microscopy" ], "year": 2011, "topic": [ "all" ], "embedding_index": 276, "doi": "10.1088/1742-6596/326/1/012046", "umap_coordinates": { "x": 392.74066162109375, "y": 134.51828002929688, "z": 207.4707489013672 }, "tsne_coordinates": { "x": 26.25395393371582, "y": -10.577567100524902, "z": -2.395770311355591 }, "pca_coordinates": { "x": -0.3344249725341797, "y": -0.8591084480285645, "z": 0.9920817017555237 }, "axis_scores": { "Quantum imaging": 0.7181952595710754, "Quantum Life Science Sensing": 0.7236459851264954, "Quantum sensing Detection": 0.7010061144828796, "Quantum sensing Metrology": 0.7095574140548706, "Quantum sensing navigation": 0.730226457118988, "Quantum sensing Position": 0.7236660718917847, "Quantum sensing Timing": 0.6655241250991821, "Quantum sensing": 0.7176933884620667, "Quantum control": 0.6781020164489746 } }, { "id": 277, "title": "Measuring the quantum state of photoelectrons", "abstract": "A photoelectron, emitted due to the absorption of light quanta as described by the photoelectric effect, is often characterized experimentally by a classical quantity, its momentum. However, since the...", "citations": 16, "author_count": 21, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 277, "doi": "10.1038/s41566-024-01607-8", "umap_coordinates": { "x": 394.7490234375, "y": 135.60342407226562, "z": 206.1784210205078 }, "tsne_coordinates": { "x": -14.605310440063477, "y": 1.916849136352539, "z": -1.811917781829834 }, "pca_coordinates": { "x": -0.582770824432373, "y": -0.5643744468688965, "z": 2.188185214996338 }, "axis_scores": { "Quantum imaging": 0.7753674983978271, "Quantum Life Science Sensing": 0.7985581755638123, "Quantum sensing Detection": 0.7977979779243469, "Quantum sensing Metrology": 0.7865633964538574, "Quantum sensing navigation": 0.7602676153182983, "Quantum sensing Position": 0.781561017036438, "Quantum sensing Timing": 0.7514932155609131, "Quantum sensing": 0.8060861229896545, "Quantum control": 0.724175214767456 } }, { "id": 278, "title": "Single-Photon Detectors on Arbitrary Photonic Substrates", "abstract": "Detecting nonclassical light is a central requirement for photonics-based quantum technologies. Unrivaled high efficiencies and low dark counts have positioned superconducting nanowire single-photon d...", "citations": 1, "author_count": 20, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 278, "doi": "10.1021/acsphotonics.5c00345", "umap_coordinates": { "x": 394.4806823730469, "y": 133.24827575683594, "z": 207.22116088867188 }, "tsne_coordinates": { "x": 14.365628242492676, "y": -13.852473258972168, "z": -19.934528350830078 }, "pca_coordinates": { "x": -2.110776901245117, "y": -3.369126796722412, "z": 4.1628618240356445 }, "axis_scores": { "Quantum imaging": 0.7546358108520508, "Quantum Life Science Sensing": 0.7363221049308777, "Quantum sensing Detection": 0.7615220546722412, "Quantum sensing Metrology": 0.7423451542854309, "Quantum sensing navigation": 0.7236404418945312, "Quantum sensing Position": 0.7154321670532227, "Quantum sensing Timing": 0.7021563649177551, "Quantum sensing": 0.763647198677063, "Quantum control": 0.7011682987213135 } }, { "id": 279, "title": "Classical Cost of Transmitting a Qubit", "abstract": "We consider general prepare-and-measure scenarios in which Alice can transmit qubit states to Bob, who can perform general measurements in the form of positive operator-valued measures (POVMs). We sho...", "citations": 15, "author_count": 4, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 279, "doi": "10.1103/PhysRevLett.130.120801", "umap_coordinates": { "x": 395.3191833496094, "y": 136.63876342773438, "z": 207.22247314453125 }, "tsne_coordinates": { "x": -24.094947814941406, "y": -18.451311111450195, "z": 5.254383087158203 }, "pca_coordinates": { "x": 4.482792377471924, "y": 2.25095534324646, "z": 1.3080198764801025 }, "axis_scores": { "Quantum imaging": 0.7812386155128479, "Quantum Life Science Sensing": 0.7675220370292664, "Quantum sensing Detection": 0.7803753614425659, "Quantum sensing Metrology": 0.759115993976593, "Quantum sensing navigation": 0.7664327621459961, "Quantum sensing Position": 0.7543983459472656, "Quantum sensing Timing": 0.7777352333068848, "Quantum sensing": 0.7967565059661865, "Quantum control": 0.7624457478523254 } }, { "id": 280, "title": "Electron Transfer in Quantum-Dot-Sensitized ZnO Nanowires: Ultrafast Time-Resolved Absorption and Terahertz Study", "abstract": "Photoinduced electron injection dynamics from CdSe quantum dots to ZnO nanowires is studied by transient absorption and time-resolved terahertz spectroscopy measurements. Ultrafast electron transfer f...", "citations": 127, "author_count": 10, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 280, "doi": "10.1021/ja3029679", "umap_coordinates": { "x": 392.28314208984375, "y": 135.090087890625, "z": 206.78543090820312 }, "tsne_coordinates": { "x": 16.358705520629883, "y": 2.632441520690918, "z": 8.292433738708496 }, "pca_coordinates": { "x": -0.7012395858764648, "y": -5.116079807281494, "z": -0.6116768717765808 }, "axis_scores": { "Quantum imaging": 0.6971331238746643, "Quantum Life Science Sensing": 0.7341737747192383, "Quantum sensing Detection": 0.6993920207023621, "Quantum sensing Metrology": 0.686561644077301, "Quantum sensing navigation": 0.6808305382728577, "Quantum sensing Position": 0.6648343205451965, "Quantum sensing Timing": 0.6818180680274963, "Quantum sensing": 0.7098647356033325, "Quantum control": 0.6631062626838684 } }, { "id": 281, "title": "Charge state readout and hyperfine interaction in a few-electron InGaAs double quantum dot", "abstract": "A laterally defined InGaAs double quantum dot with an integrated charge readout sensor is realized in an InGaAs/InP heterostructure. The charge states of the double quantum dot are measured with the u...", "citations": 9, "author_count": 3, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 281, "doi": "10.1103/PhysRevB.83.235302", "umap_coordinates": { "x": 394.11273193359375, "y": 135.35450744628906, "z": 208.611083984375 }, "tsne_coordinates": { "x": 4.684569835662842, "y": -23.148860931396484, "z": -5.0450239181518555 }, "pca_coordinates": { "x": 3.6378092765808105, "y": -2.2698025703430176, "z": 0.48429983854293823 }, "axis_scores": { "Quantum imaging": 0.7379627823829651, "Quantum Life Science Sensing": 0.728567898273468, "Quantum sensing Detection": 0.7414233684539795, "Quantum sensing Metrology": 0.7241272330284119, "Quantum sensing navigation": 0.7177289724349976, "Quantum sensing Position": 0.7049304842948914, "Quantum sensing Timing": 0.693589448928833, "Quantum sensing": 0.739519476890564, "Quantum control": 0.7134488821029663 } }, { "id": 282, "title": "Acousto-electric single-photon detector", "abstract": "We propose a novel concept for a semiconductor-based single-photon detector for quantum information processing, which is capable of discriminating the number of photons in a light pulse. The detector ...", "citations": 3, "author_count": 10, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 282, "doi": "10.1117/12.722789", "umap_coordinates": { "x": 395.0405578613281, "y": 133.16586303710938, "z": 206.8902130126953 }, "tsne_coordinates": { "x": -7.474084377288818, "y": 8.671980857849121, "z": -27.453699111938477 }, "pca_coordinates": { "x": -0.9765845537185669, "y": -1.2639682292938232, "z": 4.2258620262146 }, "axis_scores": { "Quantum imaging": 0.7452394962310791, "Quantum Life Science Sensing": 0.7425358295440674, "Quantum sensing Detection": 0.7708734273910522, "Quantum sensing Metrology": 0.7409185171127319, "Quantum sensing navigation": 0.7352067828178406, "Quantum sensing Position": 0.7223910093307495, "Quantum sensing Timing": 0.7195400595664978, "Quantum sensing": 0.767494797706604, "Quantum control": 0.6956693530082703 } }, { "id": 283, "title": "Simple, Reliable, and Noise-Resilient Continuous-Variable Quantum State Tomography with Convex Optimization", "abstract": "Precise reconstruction of unknown quantum states from measurement data, a process commonly called quantum state tomography, is a crucial component in the development of quantum informa-tion processing...", "citations": 15, "author_count": 2, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 283, "doi": "10.1103/PhysRevApplied.18.044041", "umap_coordinates": { "x": 395.9873352050781, "y": 136.3840789794922, "z": 207.46307373046875 }, "tsne_coordinates": { "x": -26.787242889404297, "y": -12.015042304992676, "z": -6.141873359680176 }, "pca_coordinates": { "x": 2.668818473815918, "y": 1.3987128734588623, "z": 2.493135929107666 }, "axis_scores": { "Quantum imaging": 0.737740159034729, "Quantum Life Science Sensing": 0.7411358952522278, "Quantum sensing Detection": 0.7520745396614075, "Quantum sensing Metrology": 0.7196072340011597, "Quantum sensing navigation": 0.7395505309104919, "Quantum sensing Position": 0.69601970911026, "Quantum sensing Timing": 0.7091442942619324, "Quantum sensing": 0.757608950138092, "Quantum control": 0.7378685474395752 } }, { "id": 284, "title": "Spin polarization of the neutral exciton in a single InAs quantum dot at zero magnetic field", "abstract": "A high degree of spin polarization for the neutral exciton in individual quantum dots, at zero external magnetic field, is monitored. While a high polarization degree is commonly observed for the char...", "citations": 9, "author_count": 4, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 284, "doi": "10.1103/PhysRevB.80.193413", "umap_coordinates": { "x": 393.49285888671875, "y": 135.18019104003906, "z": 208.9563446044922 }, "tsne_coordinates": { "x": 10.853337287902832, "y": -30.748638153076172, "z": 6.681150436401367 }, "pca_coordinates": { "x": 3.8717379570007324, "y": -3.179676055908203, "z": -0.9298039078712463 }, "axis_scores": { "Quantum imaging": 0.6982458233833313, "Quantum Life Science Sensing": 0.7117832899093628, "Quantum sensing Detection": 0.6934618353843689, "Quantum sensing Metrology": 0.6813920736312866, "Quantum sensing navigation": 0.7098812460899353, "Quantum sensing Position": 0.6859937310218811, "Quantum sensing Timing": 0.6562872529029846, "Quantum sensing": 0.702950656414032, "Quantum control": 0.6873499751091003 } }, { "id": 285, "title": "LIFETIME MEASUREMENTS OF EXCITED QUANTUM STATES USING A DIODE-LASER - RADIATIVE LIFETIME OF THE B2-SIGMA+ STATE IN BACL", "abstract": "", "citations": 13, "author_count": 4, "categories": [ "Optics" ], "year": 1988, "topic": [ "all" ], "embedding_index": 285, "doi": "10.1016/0030-4018(88)90315-X", "umap_coordinates": { "x": 393.4967956542969, "y": 135.86386108398438, "z": 205.94407653808594 }, "tsne_coordinates": { "x": 5.151857376098633, "y": 2.7404139041900635, "z": 16.076732635498047 }, "pca_coordinates": { "x": -1.6060354709625244, "y": 0.1522834300994873, "z": -0.5986120700836182 }, "axis_scores": { "Quantum imaging": 0.6736392974853516, "Quantum Life Science Sensing": 0.729435920715332, "Quantum sensing Detection": 0.6864660978317261, "Quantum sensing Metrology": 0.6913512945175171, "Quantum sensing navigation": 0.6688060164451599, "Quantum sensing Position": 0.6777693033218384, "Quantum sensing Timing": 0.6847795248031616, "Quantum sensing": 0.6977457404136658, "Quantum control": 0.6443073153495789 } }, { "id": 286, "title": "Dynamical interference structures in fully coupled bound-bound state quantum wave-packet dynamics - art. no. 033418", "abstract": "The quantum wave-packet dynamics in a bound-bound state system at intermediate coupling strength, the A and b states in the Rb-2 molecule coupled by spin-orbit interaction, was studied by ultrafast pu...", "citations": 14, "author_count": 5, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 286, "doi": "10.1103/PhysRevA.70.033418", "umap_coordinates": { "x": 395.072265625, "y": 136.79119873046875, "z": 208.15896606445312 }, "tsne_coordinates": { "x": -16.93614959716797, "y": -13.82614803314209, "z": 16.795745849609375 }, "pca_coordinates": { "x": 5.581048488616943, "y": 0.9214900732040405, "z": -0.0024750828742980957 }, "axis_scores": { "Quantum imaging": 0.740584135055542, "Quantum Life Science Sensing": 0.698663592338562, "Quantum sensing Detection": 0.7135423421859741, "Quantum sensing Metrology": 0.691044807434082, "Quantum sensing navigation": 0.7284680604934692, "Quantum sensing Position": 0.6968526840209961, "Quantum sensing Timing": 0.6835363507270813, "Quantum sensing": 0.718195378780365, "Quantum control": 0.7131010890007019 } }, { "id": 287, "title": "Phase Entanglers for Multi-Qubit States", "abstract": "The emerging and innovative field of quantum computation and quantum information could bring new insight to our understanding of nature with many applications such as quantum cryptography, quantum sec...", "citations": 1, "author_count": 2, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 287, "doi": "10.1166/jctn.2010.1540", "umap_coordinates": { "x": 394.36505126953125, "y": 136.93310546875, "z": 206.81497192382812 }, "tsne_coordinates": { "x": -26.946876525878906, "y": -3.3774776458740234, "z": -4.2739481925964355 }, "pca_coordinates": { "x": 1.6682186126708984, "y": 1.4136765003204346, "z": 1.9284203052520752 }, "axis_scores": { "Quantum imaging": 0.7553696632385254, "Quantum Life Science Sensing": 0.741005003452301, "Quantum sensing Detection": 0.7545753121376038, "Quantum sensing Metrology": 0.7484861612319946, "Quantum sensing navigation": 0.7597640156745911, "Quantum sensing Position": 0.7307569980621338, "Quantum sensing Timing": 0.7711203694343567, "Quantum sensing": 0.7684012651443481, "Quantum control": 0.7382783889770508 } }, { "id": 288, "title": "Detection of the relaxation rates of an interacting quantum dot by a capacitively coupled sensor dot", "abstract": "We present a theoretical study of the detection of the decay time scales for a single-level quantum dot by means of a capacitively coupled sensor dot, which acts as an electrometer. We investigate the...", "citations": 27, "author_count": 5, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 288, "doi": "10.1103/PhysRevB.89.195305", "umap_coordinates": { "x": 394.2693176269531, "y": 135.5572509765625, "z": 208.25343322753906 }, "tsne_coordinates": { "x": -8.721896171569824, "y": -26.03660011291504, "z": 3.4748380184173584 }, "pca_coordinates": { "x": 3.580531597137451, "y": -0.7008752822875977, "z": 0.8380973935127258 }, "axis_scores": { "Quantum imaging": 0.7336961030960083, "Quantum Life Science Sensing": 0.7676502466201782, "Quantum sensing Detection": 0.76279616355896, "Quantum sensing Metrology": 0.7367392778396606, "Quantum sensing navigation": 0.7234354615211487, "Quantum sensing Position": 0.7112022638320923, "Quantum sensing Timing": 0.7211871147155762, "Quantum sensing": 0.7596950531005859, "Quantum control": 0.7010617852210999 } }, { "id": 289, "title": "Constructing quantum mechanical models starting from diabatic schemes: Quantum states for simulations bond break/formation-I. Feshbach-like quantum states and electronuclear wave functions", "abstract": "A quantum description adapted to scrutinize chemical reaction mechanisms obtains by implementing an electronuclear separation via quantum numbers method; truly diabatic base states obtain that sustain...", "citations": 3, "author_count": 4, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 289, "doi": "10.1007/s10910-011-9942-0", "umap_coordinates": { "x": 394.0232238769531, "y": 137.2349853515625, "z": 206.28277587890625 }, "tsne_coordinates": { "x": -14.771455764770508, "y": 16.40597915649414, "z": 26.033578872680664 }, "pca_coordinates": { "x": 1.4967272281646729, "y": 1.6103847026824951, "z": -2.243868112564087 }, "axis_scores": { "Quantum imaging": 0.692731499671936, "Quantum Life Science Sensing": 0.7160078883171082, "Quantum sensing Detection": 0.6791417598724365, "Quantum sensing Metrology": 0.6867579221725464, "Quantum sensing navigation": 0.7058929204940796, "Quantum sensing Position": 0.67917799949646, "Quantum sensing Timing": 0.6818101406097412, "Quantum sensing": 0.693811297416687, "Quantum control": 0.6773473024368286 } }, { "id": 290, "title": "Photon mapping of quantum dots using a scanning tunneling microscope", "abstract": "Scanning tunneling microscopy (STM) and scanning tunneling luminescence (STL) have been used to investigate the geometric and optical properties of individual self-assembled InP quantum dots overgrown...", "citations": 28, "author_count": 8, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 290, "doi": "10.1063/1.1527239", "umap_coordinates": { "x": 393.593505859375, "y": 134.0064697265625, "z": 208.19630432128906 }, "tsne_coordinates": { "x": 25.200305938720703, "y": -27.884132385253906, "z": 2.2182226181030273 }, "pca_coordinates": { "x": 1.0056908130645752, "y": -2.817565441131592, "z": 3.312565326690674 }, "axis_scores": { "Quantum imaging": 0.7731066942214966, "Quantum Life Science Sensing": 0.7613823413848877, "Quantum sensing Detection": 0.782027006149292, "Quantum sensing Metrology": 0.7797877788543701, "Quantum sensing navigation": 0.7691428661346436, "Quantum sensing Position": 0.7396053075790405, "Quantum sensing Timing": 0.7303040027618408, "Quantum sensing": 0.7896144390106201, "Quantum control": 0.7186545729637146 } }, { "id": 291, "title": "Changes in carrier dynamics induced by proton irradiation in quantum dots", "abstract": "The effects of proton irradiation on carrier dynamics were investigated by time-resolved photoluminescence on different InGaAs/GaAs quantum-dot (QD) structures varying in QD surface density and substr...", "citations": 22, "author_count": 8, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 291, "doi": "10.1016/S0921-4526(01)01361-8", "umap_coordinates": { "x": 393.1527099609375, "y": 135.80715942382812, "z": 206.40960693359375 }, "tsne_coordinates": { "x": 11.304654121398926, "y": 7.59416389465332, "z": 16.919170379638672 }, "pca_coordinates": { "x": -0.480599045753479, "y": -1.1799988746643066, "z": -1.3569533824920654 }, "axis_scores": { "Quantum imaging": 0.7240251898765564, "Quantum Life Science Sensing": 0.7519998550415039, "Quantum sensing Detection": 0.7122868299484253, "Quantum sensing Metrology": 0.6828973293304443, "Quantum sensing navigation": 0.7042005658149719, "Quantum sensing Position": 0.7114218473434448, "Quantum sensing Timing": 0.6912405490875244, "Quantum sensing": 0.7183604836463928, "Quantum control": 0.6966754198074341 } }, { "id": 292, "title": "Strain and optical transitions in InAs quantum dots on (001) GaAs", "abstract": "To investigate the strain characteristics of InAs quantum dots grown on (001) GaAs by solid source molecular beam epitaxy we have compared calculated transition energies with those obtained from photo...", "citations": 13, "author_count": 7, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 292, "doi": "10.1006/spmi.2001.1009", "umap_coordinates": { "x": 392.653564453125, "y": 134.14865112304688, "z": 207.5273895263672 }, "tsne_coordinates": { "x": 34.08005905151367, "y": -5.981348991394043, "z": 12.842140197753906 }, "pca_coordinates": { "x": -0.37047791481018066, "y": -2.7501535415649414, "z": 1.512281894683838 }, "axis_scores": { "Quantum imaging": 0.7056219577789307, "Quantum Life Science Sensing": 0.6889994144439697, "Quantum sensing Detection": 0.6883224844932556, "Quantum sensing Metrology": 0.6983940005302429, "Quantum sensing navigation": 0.6784358620643616, "Quantum sensing Position": 0.6973223090171814, "Quantum sensing Timing": 0.6861893534660339, "Quantum sensing": 0.704910933971405, "Quantum control": 0.6714709997177124 } }, { "id": 293, "title": "Electron accumulation in single InP quantum dots observed by photoluminescence - art. no. 233308", "abstract": "Single quantum-dot spectroscopy has revealed characteristic but so far unexplained differences in the optical spectra from different quantum-dot systems. We propose a size-dependent accumulation of ca...", "citations": 45, "author_count": 6, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 293, "doi": "10.1103/PhysRevB.64.233308", "umap_coordinates": { "x": 393.8125, "y": 134.6851348876953, "z": 209.0666961669922 }, "tsne_coordinates": { "x": 7.33129358291626, "y": -31.271221160888672, "z": -3.4554553031921387 }, "pca_coordinates": { "x": 3.173039436340332, "y": -3.725493907928467, "z": 1.5717730522155762 }, "axis_scores": { "Quantum imaging": 0.6987730860710144, "Quantum Life Science Sensing": 0.7037904262542725, "Quantum sensing Detection": 0.7102817893028259, "Quantum sensing Metrology": 0.689924418926239, "Quantum sensing navigation": 0.6881753206253052, "Quantum sensing Position": 0.6759698987007141, "Quantum sensing Timing": 0.6458021402359009, "Quantum sensing": 0.7021140456199646, "Quantum control": 0.6627535820007324 } }, { "id": 294, "title": "Electrical characterization of InAs/GaAs quantum dots by frequency spectroscopy", "abstract": "The frequency dependence of differential capacitance from a layer of InAs quantum dots embedded in the space charge region of a GaAs Schottky diode has been investigated. From a theoretical treatment ...", "citations": 6, "author_count": 4, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 294, "doi": "10.1016/j.msec.2006.09.026", "umap_coordinates": { "x": 393.07965087890625, "y": 134.0999755859375, "z": 207.046630859375 }, "tsne_coordinates": { "x": 38.34999465942383, "y": -8.0244722366333, "z": 9.934576988220215 }, "pca_coordinates": { "x": -1.1292458772659302, "y": -1.8283090591430664, "z": 0.9362955689430237 }, "axis_scores": { "Quantum imaging": 0.7155917882919312, "Quantum Life Science Sensing": 0.7558934092521667, "Quantum sensing Detection": 0.7311660647392273, "Quantum sensing Metrology": 0.7300955057144165, "Quantum sensing navigation": 0.7097043395042419, "Quantum sensing Position": 0.7224059700965881, "Quantum sensing Timing": 0.7168214321136475, "Quantum sensing": 0.7423397302627563, "Quantum control": 0.6928518414497375 } }, { "id": 295, "title": "Generating mechanical and optomechanical entanglement via pulsed interaction and measurement", "abstract": "Entanglement generation at a macroscopic scale offers an exciting avenue to develop new quantum technologies and study fundamental physics on a tabletop. Cavity quantum optomechanics provides an ideal...", "citations": 28, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 295, "doi": "10.1088/1367-2630/ab7ddd", "umap_coordinates": { "x": 395.2884826660156, "y": 135.84161376953125, "z": 206.82504272460938 }, "tsne_coordinates": { "x": -24.66408920288086, "y": -9.877272605895996, "z": -17.72685432434082 }, "pca_coordinates": { "x": 1.42289137840271, "y": 2.555490016937256, "z": 3.0224039554595947 }, "axis_scores": { "Quantum imaging": 0.738377571105957, "Quantum Life Science Sensing": 0.7077560424804688, "Quantum sensing Detection": 0.7169698476791382, "Quantum sensing Metrology": 0.7181228399276733, "Quantum sensing navigation": 0.7066090106964111, "Quantum sensing Position": 0.694637656211853, "Quantum sensing Timing": 0.7180300354957581, "Quantum sensing": 0.7284922003746033, "Quantum control": 0.7070499658584595 } }, { "id": 296, "title": "Transport in serial spinful multiple-dot systems: The role of electron-electron interactions and coherences", "abstract": "Quantum dots are nanoscopic systems, where carriers are confined in all three spatial directions. Such nanoscopic systems are suitable for fundamental studies of quantum mechanics and are candidates f...", "citations": 12, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 296, "doi": "10.1038/srep22761", "umap_coordinates": { "x": 392.8147888183594, "y": 135.6107635498047, "z": 207.81785583496094 }, "tsne_coordinates": { "x": 13.247474670410156, "y": -15.043769836425781, "z": -1.778774619102478 }, "pca_coordinates": { "x": 0.40827322006225586, "y": -2.6918158531188965, "z": -0.16369789838790894 }, "axis_scores": { "Quantum imaging": 0.7157819271087646, "Quantum Life Science Sensing": 0.691646158695221, "Quantum sensing Detection": 0.6876579523086548, "Quantum sensing Metrology": 0.6819977164268494, "Quantum sensing navigation": 0.7134331464767456, "Quantum sensing Position": 0.6863427758216858, "Quantum sensing Timing": 0.6889074444770813, "Quantum sensing": 0.7014617919921875, "Quantum control": 0.686909556388855 } }, { "id": 297, "title": "Photon correlation spectroscopy for observing natural lasers", "abstract": "Natural laser emission may be produced whenever suitable atomic energy levels become overpopulated. Strong evidence for laser emission exists in astronomical sources such as Eta Carinae, and other lum...", "citations": 7, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 297, "doi": null, "umap_coordinates": { "x": 391.5047607421875, "y": 139.7076416015625, "z": 209.3032684326172 }, "tsne_coordinates": { "x": -8.14281177520752, "y": 39.86580276489258, "z": -7.769813060760498 }, "pca_coordinates": { "x": -1.5047106742858887, "y": 3.720433473587036, "z": 1.6482839584350586 }, "axis_scores": { "Quantum imaging": 0.7363630533218384, "Quantum Life Science Sensing": 0.7570736408233643, "Quantum sensing Detection": 0.7463124990463257, "Quantum sensing Metrology": 0.7353658676147461, "Quantum sensing navigation": 0.7394627332687378, "Quantum sensing Position": 0.6942718029022217, "Quantum sensing Timing": 0.7073422074317932, "Quantum sensing": 0.743462324142456, "Quantum control": 0.6966826319694519 } }, { "id": 298, "title": "Sharp exciton emission from single InAs quantum dots in GaAs nanowires", "abstract": "We have performed photoluminescence spectroscopy on single GaAs nanowires with InAs quantum dots in the form of thin slices of InAs, possibly alloyed with Ga as InGaAs, incorporated into the GaAs. The...", "citations": 131, "author_count": 5, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 298, "doi": "10.1063/1.1611261", "umap_coordinates": { "x": 393.3481750488281, "y": 133.6643829345703, "z": 208.4430694580078 }, "tsne_coordinates": { "x": 23.01235580444336, "y": -22.764341354370117, "z": -4.102291107177734 }, "pca_coordinates": { "x": 1.5556111335754395, "y": -6.325412273406982, "z": 2.7661495208740234 }, "axis_scores": { "Quantum imaging": 0.7007225751876831, "Quantum Life Science Sensing": 0.6963493824005127, "Quantum sensing Detection": 0.7212967872619629, "Quantum sensing Metrology": 0.7033836245536804, "Quantum sensing navigation": 0.6953173279762268, "Quantum sensing Position": 0.6790772676467896, "Quantum sensing Timing": 0.6789733171463013, "Quantum sensing": 0.7286455631256104, "Quantum control": 0.6736105680465698 } }, { "id": 299, "title": "Scalable solid-state qubits: challenging decoherence and read-out", "abstract": "We review some basic facts about qubits and qubit processing. After a brief survey of solid-state qubits, we focus on quantized electrical circuits and superconducting qubits based oil Josephson Junct...", "citations": 10, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 299, "doi": "10.1098/rsta.2003.1202", "umap_coordinates": { "x": 394.893798828125, "y": 136.8785858154297, "z": 206.4405517578125 }, "tsne_coordinates": { "x": -29.426074981689453, "y": 11.629256248474121, "z": 11.549314498901367 }, "pca_coordinates": { "x": 1.0406005382537842, "y": 1.2272614240646362, "z": 0.39360684156417847 }, "axis_scores": { "Quantum imaging": 0.7586185336112976, "Quantum Life Science Sensing": 0.7628137469291687, "Quantum sensing Detection": 0.7556261420249939, "Quantum sensing Metrology": 0.7506500482559204, "Quantum sensing navigation": 0.7519577145576477, "Quantum sensing Position": 0.7335950136184692, "Quantum sensing Timing": 0.7301152348518372, "Quantum sensing": 0.7805993556976318, "Quantum control": 0.7397936582565308 } }, { "id": 300, "title": "Dressed Interference in Giant Superatoms: Entanglement Generation and Transfer", "abstract": "We introduce the concept of giant superatoms (GSAs), where two or more interacting atoms are nonlocally coupled to a waveguide through one of them, and explore their unconventional quantum dynamics. F...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 300, "doi": "10.1103/crzs-k718", "umap_coordinates": { "x": 394.4590148925781, "y": 136.27244567871094, "z": 208.44659423828125 }, "tsne_coordinates": { "x": 9.382067680358887, "y": -18.57067108154297, "z": 17.783796310424805 }, "pca_coordinates": { "x": 2.5296311378479004, "y": 0.023570537567138672, "z": -0.6874327659606934 }, "axis_scores": { "Quantum imaging": 0.7371901869773865, "Quantum Life Science Sensing": 0.727634072303772, "Quantum sensing Detection": 0.7295792698860168, "Quantum sensing Metrology": 0.7097079157829285, "Quantum sensing navigation": 0.7298431396484375, "Quantum sensing Position": 0.6968973278999329, "Quantum sensing Timing": 0.6904988288879395, "Quantum sensing": 0.7460026741027832, "Quantum control": 0.7205479741096497 } }, { "id": 301, "title": "Luminescent Transparent Wood", "abstract": "Luminescent transparent wood is prepared by combining the complementary properties of naturally grown anisotropic porous wood and luminescent quantum dots. The wood structure introduces strong diffuse...", "citations": 168, "author_count": 7, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 301, "doi": "10.1002/adom.201600834", "umap_coordinates": { "x": 393.8301696777344, "y": 134.70761108398438, "z": 204.8763885498047 }, "tsne_coordinates": { "x": 19.920072555541992, "y": 35.369895935058594, "z": -3.384934663772583 }, "pca_coordinates": { "x": -3.277860403060913, "y": 0.556963324546814, "z": -0.256447970867157 }, "axis_scores": { "Quantum imaging": 0.7497238516807556, "Quantum Life Science Sensing": 0.7625902891159058, "Quantum sensing Detection": 0.7366300821304321, "Quantum sensing Metrology": 0.7281719446182251, "Quantum sensing navigation": 0.7195454835891724, "Quantum sensing Position": 0.688949465751648, "Quantum sensing Timing": 0.6717679500579834, "Quantum sensing": 0.7507291436195374, "Quantum control": 0.7203704118728638 } }, { "id": 302, "title": "High-Fidelity Optical Readout of a Nuclear-Spin Qubit in Silicon Carbide", "abstract": "Quantum state readout is a key requirement for a successful qubit platform. In this work, we demonstrate a high-fidelity quantum state readout of a V2 center nuclear spin based on a repetitive readout...", "citations": 16, "author_count": 10, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 302, "doi": "10.1103/PhysRevLett.132.180804", "umap_coordinates": { "x": 394.4880065917969, "y": 135.24183654785156, "z": 208.12692260742188 }, "tsne_coordinates": { "x": 5.9882402420043945, "y": -15.772185325622559, "z": 0.7982506155967712 }, "pca_coordinates": { "x": 3.489116668701172, "y": -1.4647047519683838, "z": 2.266338348388672 }, "axis_scores": { "Quantum imaging": 0.7502360939979553, "Quantum Life Science Sensing": 0.7536943554878235, "Quantum sensing Detection": 0.7531812191009521, "Quantum sensing Metrology": 0.7368324995040894, "Quantum sensing navigation": 0.7409057021141052, "Quantum sensing Position": 0.7130159139633179, "Quantum sensing Timing": 0.707226574420929, "Quantum sensing": 0.7622089982032776, "Quantum control": 0.721846342086792 } }, { "id": 303, "title": "Coherence of an Electronic Two-Level System under Continuous Charge Sensing by a Quantum Dot Detector", "abstract": "We investigate experimentally the quantum coherence of an electronic two-level system in a double quantum dot under continuous charge detection. The charge state of the two-level system is monitored b...", "citations": 1, "author_count": 11, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 303, "doi": "10.1103/PhysRevLett.134.023601", "umap_coordinates": { "x": 394.2813415527344, "y": 136.21197509765625, "z": 208.06861877441406 }, "tsne_coordinates": { "x": -5.312276363372803, "y": -21.35457992553711, "z": 0.7062193155288696 }, "pca_coordinates": { "x": 3.335010528564453, "y": -1.071465253829956, "z": -0.17881959676742554 }, "axis_scores": { "Quantum imaging": 0.7279818654060364, "Quantum Life Science Sensing": 0.7538497447967529, "Quantum sensing Detection": 0.7520992159843445, "Quantum sensing Metrology": 0.7229734063148499, "Quantum sensing navigation": 0.7171533107757568, "Quantum sensing Position": 0.7121664881706238, "Quantum sensing Timing": 0.7128251194953918, "Quantum sensing": 0.7456613779067993, "Quantum control": 0.7186360955238342 } }, { "id": 304, "title": "Spatially direct and indirect transitions observed for Si/Ge quantum dots", "abstract": "The optical properties of Ge quantum dots embedded in Si were investigated by means of photoluminescence, with temperature and excitation power density as variable parameters. Two different types of r...", "citations": 43, "author_count": 6, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 304, "doi": "10.1063/1.1587259", "umap_coordinates": { "x": 393.4010314941406, "y": 133.99066162109375, "z": 208.2710418701172 }, "tsne_coordinates": { "x": 29.3322696685791, "y": -16.477664947509766, "z": -7.984621047973633 }, "pca_coordinates": { "x": 2.0195045471191406, "y": -1.3017420768737793, "z": 1.7403507232666016 }, "axis_scores": { "Quantum imaging": 0.7622491717338562, "Quantum Life Science Sensing": 0.7393882274627686, "Quantum sensing Detection": 0.7513356804847717, "Quantum sensing Metrology": 0.7314026355743408, "Quantum sensing navigation": 0.7391710877418518, "Quantum sensing Position": 0.7226086258888245, "Quantum sensing Timing": 0.7111246585845947, "Quantum sensing": 0.7522469162940979, "Quantum control": 0.6988348960876465 } }, { "id": 305, "title": "Central-moment description of polarization for quantum states of light", "abstract": "We present a moment expansion for the systematic characterization of the polarization properties of quantum states of light. Specifically, we link the method to the measurements of the Stokes operator...", "citations": 15, "author_count": 10, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 305, "doi": "10.1103/PhysRevA.85.053835", "umap_coordinates": { "x": 394.676025390625, "y": 136.62493896484375, "z": 207.99923706054688 }, "tsne_coordinates": { "x": -17.735387802124023, "y": -13.129231452941895, "z": -5.962613105773926 }, "pca_coordinates": { "x": 2.632540225982666, "y": 1.2347285747528076, "z": -0.6235814094543457 }, "axis_scores": { "Quantum imaging": 0.7288230061531067, "Quantum Life Science Sensing": 0.7219709753990173, "Quantum sensing Detection": 0.7318621277809143, "Quantum sensing Metrology": 0.719367265701294, "Quantum sensing navigation": 0.716846764087677, "Quantum sensing Position": 0.6887185573577881, "Quantum sensing Timing": 0.6765254735946655, "Quantum sensing": 0.733892560005188, "Quantum control": 0.7127880454063416 } }, { "id": 306, "title": "Propagating phonons coupled to an artificial atom", "abstract": "Quantum information can be stored in micromechanical resonators, encoded as quanta of vibration known as phonons. The vibrational motion is then restricted to the stationary eigenmodes of the resonato...", "citations": 469, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 306, "doi": "10.1126/science.1257219", "umap_coordinates": { "x": 394.4808654785156, "y": 135.87139892578125, "z": 207.38426208496094 }, "tsne_coordinates": { "x": -1.2192960977554321, "y": -12.445921897888184, "z": 20.256147384643555 }, "pca_coordinates": { "x": 2.0029420852661133, "y": -0.8698248863220215, "z": 0.7704526782035828 }, "axis_scores": { "Quantum imaging": 0.7393615245819092, "Quantum Life Science Sensing": 0.7527370452880859, "Quantum sensing Detection": 0.7480595707893372, "Quantum sensing Metrology": 0.7291821837425232, "Quantum sensing navigation": 0.7744729518890381, "Quantum sensing Position": 0.7245503067970276, "Quantum sensing Timing": 0.7213576436042786, "Quantum sensing": 0.7619117498397827, "Quantum control": 0.7439193725585938 } }, { "id": 307, "title": "Experimental Implementation of a Kochen-Specker Set of Quantum Tests", "abstract": "The conflict between classical and quantum physics can be identified through a series of yes-no tests on quantum systems, without it being necessary that these systems be in special quantum states. Ko...", "citations": 84, "author_count": 8, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 307, "doi": "10.1103/PhysRevX.3.011012", "umap_coordinates": { "x": 395.85809326171875, "y": 136.26727294921875, "z": 207.43572998046875 }, "tsne_coordinates": { "x": -23.071197509765625, "y": -12.710577011108398, "z": -1.7507797479629517 }, "pca_coordinates": { "x": 3.6838650703430176, "y": 2.11907958984375, "z": 2.622087001800537 }, "axis_scores": { "Quantum imaging": 0.7304340600967407, "Quantum Life Science Sensing": 0.7458792924880981, "Quantum sensing Detection": 0.737023115158081, "Quantum sensing Metrology": 0.7434373497962952, "Quantum sensing navigation": 0.7254338264465332, "Quantum sensing Position": 0.7233571410179138, "Quantum sensing Timing": 0.7258272171020508, "Quantum sensing": 0.7524086236953735, "Quantum control": 0.7018151879310608 } }, { "id": 308, "title": "Acoustic Modulation of Individual Nanowire Quantum Dots Integrated into a Hybrid Thin-Film Lithium Niobate Photonic Platform", "abstract": "Surface acoustic waves are a powerful tool for controlling quantum systems, including quantum dots (QDs), where the oscillating strain field can modulate the emission wavelengths. We integrate InAsP/I...", "citations": 6, "author_count": 8, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 308, "doi": "10.1021/acs.nanolett.4c03402", "umap_coordinates": { "x": 392.94635009765625, "y": 133.83465576171875, "z": 207.07286071777344 }, "tsne_coordinates": { "x": 15.560961723327637, "y": -11.498259544372559, "z": -9.97537899017334 }, "pca_coordinates": { "x": -1.0478746891021729, "y": -4.7090325355529785, "z": 2.4592671394348145 }, "axis_scores": { "Quantum imaging": 0.7282396554946899, "Quantum Life Science Sensing": 0.7011805772781372, "Quantum sensing Detection": 0.7098316550254822, "Quantum sensing Metrology": 0.6942678093910217, "Quantum sensing navigation": 0.7153877019882202, "Quantum sensing Position": 0.6948687434196472, "Quantum sensing Timing": 0.6822526454925537, "Quantum sensing": 0.7232626080513, "Quantum control": 0.6944165229797363 } }, { "id": 309, "title": "Quantum Information Biology: From Information Interpretation of Quantum Mechanics to Applications in Molecular Biology and Cognitive Psychology", "abstract": "We discuss foundational issues of quantum information biology (QIB)-one of the most successful applications of the quantum formalism outside of physics. QIB provides a multi-scale model of information...", "citations": 47, "author_count": 7, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 309, "doi": "10.1007/s10701-015-9929-y", "umap_coordinates": { "x": 394.72509765625, "y": 136.80178833007812, "z": 205.86651611328125 }, "tsne_coordinates": { "x": -28.5579833984375, "y": 3.7595744132995605, "z": 11.011128425598145 }, "pca_coordinates": { "x": 0.3659486770629883, "y": 1.9774677753448486, "z": 0.520908772945404 }, "axis_scores": { "Quantum imaging": 0.7787110209465027, "Quantum Life Science Sensing": 0.8004999756813049, "Quantum sensing Detection": 0.7767550945281982, "Quantum sensing Metrology": 0.7561014890670776, "Quantum sensing navigation": 0.7761955261230469, "Quantum sensing Position": 0.7545464038848877, "Quantum sensing Timing": 0.7339960336685181, "Quantum sensing": 0.7862023711204529, "Quantum control": 0.741462767124176 } }, { "id": 310, "title": "Gate defined quantum dot realized in a single crystalline InSb nanosheet", "abstract": "A single crystalline InSb nanosheet is an emerging planar semiconductor material with potential applications in electronics, infrared optoelectronics, spintronics, and topological quantum computing. H...", "citations": 16, "author_count": 8, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 310, "doi": "10.1063/1.5064368", "umap_coordinates": { "x": 393.7588806152344, "y": 133.7050018310547, "z": 208.24484252929688 }, "tsne_coordinates": { "x": 21.3692626953125, "y": -28.75181007385254, "z": 2.4358012676239014 }, "pca_coordinates": { "x": 2.2158920764923096, "y": -4.243677616119385, "z": 1.9351987838745117 }, "axis_scores": { "Quantum imaging": 0.7613147497177124, "Quantum Life Science Sensing": 0.7695984244346619, "Quantum sensing Detection": 0.768716037273407, "Quantum sensing Metrology": 0.7690379619598389, "Quantum sensing navigation": 0.7561672329902649, "Quantum sensing Position": 0.7309708595275879, "Quantum sensing Timing": 0.7242443561553955, "Quantum sensing": 0.7825345396995544, "Quantum control": 0.7447412014007568 } }, { "id": 311, "title": "Temperature influence on optical charging of self-assembled InAs/GaAs semiconductor quantum dots", "abstract": "It is demonstrated that the photoluminescence spectra of single self-assembled InAs/GaAs quantum dots are very sensitive to excitation energy and crystal temperature. This is qualitatively explained i...", "citations": 33, "author_count": 8, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 311, "doi": "10.1063/1.1370547", "umap_coordinates": { "x": 392.8819580078125, "y": 133.80885314941406, "z": 208.15025329589844 }, "tsne_coordinates": { "x": 28.051441192626953, "y": -24.0185546875, "z": -0.7132127285003662 }, "pca_coordinates": { "x": 0.8369898796081543, "y": -4.441516399383545, "z": 1.0979769229888916 }, "axis_scores": { "Quantum imaging": 0.7253603339195251, "Quantum Life Science Sensing": 0.7524788975715637, "Quantum sensing Detection": 0.7378650307655334, "Quantum sensing Metrology": 0.7372393608093262, "Quantum sensing navigation": 0.718618631362915, "Quantum sensing Position": 0.7160823941230774, "Quantum sensing Timing": 0.7195367813110352, "Quantum sensing": 0.7503116130828857, "Quantum control": 0.7178353071212769 } }, { "id": 312, "title": "Highly Wavelength-Selective Self-Powered Solar-Blind Ultraviolet Photodetector Based on Colloidal Aluminum Nitride Quantum Dots", "abstract": "Colloidal quantum dots are semiconductor nanocrystals endowed with unique optoelectronic properties. A major challenge to the field is the lack of methods for synthesizing quantum dots exhibit strong ...", "citations": 9, "author_count": 7, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 312, "doi": "10.1002/smll.202312127", "umap_coordinates": { "x": 392.4351501464844, "y": 133.36566162109375, "z": 205.67596435546875 }, "tsne_coordinates": { "x": 27.52691650390625, "y": 2.960869550704956, "z": -17.061668395996094 }, "pca_coordinates": { "x": -4.134827613830566, "y": -4.7034687995910645, "z": 1.1655924320220947 }, "axis_scores": { "Quantum imaging": 0.6669765710830688, "Quantum Life Science Sensing": 0.7162427306175232, "Quantum sensing Detection": 0.6803807020187378, "Quantum sensing Metrology": 0.6836589574813843, "Quantum sensing navigation": 0.669796347618103, "Quantum sensing Position": 0.6526502966880798, "Quantum sensing Timing": 0.6176677346229553, "Quantum sensing": 0.6909840106964111, "Quantum control": 0.6543677449226379 } }, { "id": 313, "title": "Quantum-polarization state tomography", "abstract": "We propose and demonstrate a method for quantum-state tomography of qudits encoded in the quantum polarization of N-photon states. This is achieved by distributing N photons nondeterministically into ...", "citations": 22, "author_count": 5, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 313, "doi": "10.1103/PhysRevA.94.020105", "umap_coordinates": { "x": 395.27008056640625, "y": 136.1715087890625, "z": 207.8928680419922 }, "tsne_coordinates": { "x": -19.53461456298828, "y": -14.910908699035645, "z": -2.1609385013580322 }, "pca_coordinates": { "x": 4.679650783538818, "y": 0.31519412994384766, "z": 0.9751481413841248 }, "axis_scores": { "Quantum imaging": 0.788509726524353, "Quantum Life Science Sensing": 0.7782166004180908, "Quantum sensing Detection": 0.795344352722168, "Quantum sensing Metrology": 0.7614047527313232, "Quantum sensing navigation": 0.7882699966430664, "Quantum sensing Position": 0.7621084451675415, "Quantum sensing Timing": 0.7404549717903137, "Quantum sensing": 0.7976628541946411, "Quantum control": 0.755820631980896 } }, { "id": 314, "title": "Highly Controllable Synthesis and DFT Calculations of Double/Triple-Halide CsPbX3 (X = Cl, Br, I) Perovskite Quantum Dots: Application to Light-Emitting Diodes", "abstract": "Although all-inorganic CsPbX3 (X = Cl, Br, I) perovskite quantum dots (PQDs) have evoked exciting new opportunities for optoelectronic applications due to their remarkable optical properties, their em...", "citations": 32, "author_count": 5, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 314, "doi": "10.3390/nano9020172", "umap_coordinates": { "x": 391.6007385253906, "y": 133.73126220703125, "z": 205.48976135253906 }, "tsne_coordinates": { "x": 22.810232162475586, "y": -0.10538458824157715, "z": -19.893735885620117 }, "pca_coordinates": { "x": -2.5709943771362305, "y": -3.551724910736084, "z": -1.7067694664001465 }, "axis_scores": { "Quantum imaging": 0.7324180006980896, "Quantum Life Science Sensing": 0.7461443543434143, "Quantum sensing Detection": 0.7180800437927246, "Quantum sensing Metrology": 0.708634078502655, "Quantum sensing navigation": 0.7022760510444641, "Quantum sensing Position": 0.6871313452720642, "Quantum sensing Timing": 0.6887350678443909, "Quantum sensing": 0.7434475421905518, "Quantum control": 0.7288004159927368 } }, { "id": 315, "title": "Experimental certification of an informationally complete quantum measurement in a device-independent protocol", "abstract": "Minimal informationally complete positive operator-valued measures (MIC-POVMs) are special kinds of measurement in quantum theory in which the statistics of their d(2)-outcomes are enough to reconstru...", "citations": 32, "author_count": 7, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 315, "doi": "10.1364/OPTICA.377959", "umap_coordinates": { "x": 395.8007507324219, "y": 136.39431762695312, "z": 206.80838012695312 }, "tsne_coordinates": { "x": -24.872404098510742, "y": -6.2776265144348145, "z": -7.354243278503418 }, "pca_coordinates": { "x": 0.5322091579437256, "y": 2.9564197063446045, "z": 4.372720241546631 }, "axis_scores": { "Quantum imaging": 0.7593929767608643, "Quantum Life Science Sensing": 0.7187089323997498, "Quantum sensing Detection": 0.7367600798606873, "Quantum sensing Metrology": 0.7398062944412231, "Quantum sensing navigation": 0.7394628524780273, "Quantum sensing Position": 0.7181898951530457, "Quantum sensing Timing": 0.7071396708488464, "Quantum sensing": 0.7558948993682861, "Quantum control": 0.7105846405029297 } }, { "id": 316, "title": "Characterization of electrostatically defined bottom-heated InAs nanowire quantum dot systems", "abstract": "Conversion of temperature gradients to charge currents in quantum dot systems enables probing various concepts from highly efficient energy harvesting and fundamental thermodynamics to spectroscopic p...", "citations": 6, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 316, "doi": "10.1088/1367-2630/ac434c", "umap_coordinates": { "x": 392.6160888671875, "y": 134.1510009765625, "z": 207.38279724121094 }, "tsne_coordinates": { "x": 25.15360450744629, "y": -11.034039497375488, "z": -3.3674373626708984 }, "pca_coordinates": { "x": -0.7704204320907593, "y": -2.7551627159118652, "z": -0.2286296784877777 }, "axis_scores": { "Quantum imaging": 0.6980690360069275, "Quantum Life Science Sensing": 0.7202763557434082, "Quantum sensing Detection": 0.6938976049423218, "Quantum sensing Metrology": 0.6943271160125732, "Quantum sensing navigation": 0.7008299827575684, "Quantum sensing Position": 0.6921753287315369, "Quantum sensing Timing": 0.6944414377212524, "Quantum sensing": 0.7111722230911255, "Quantum control": 0.7029495239257812 } }, { "id": 317, "title": "InAs quantum dots and quantum wells grown on stacking-fault controlled InP nanowires with wurtzite crystal structure", "abstract": "Heteroepitaxial growth of InAs was investigated on sidewalls of InP nanowires (NWs) using metal-organic vapor phase epitaxy. InAs quantum wells (QWs) with smooth surface were formed on the InP NWs hav...", "citations": 30, "author_count": 7, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 317, "doi": "10.1063/1.3646386", "umap_coordinates": { "x": 392.63232421875, "y": 134.00234985351562, "z": 208.43218994140625 }, "tsne_coordinates": { "x": 23.812114715576172, "y": -17.30039405822754, "z": 5.161726474761963 }, "pca_coordinates": { "x": 1.6926240921020508, "y": -5.146052837371826, "z": 1.8680942058563232 }, "axis_scores": { "Quantum imaging": 0.7013717889785767, "Quantum Life Science Sensing": 0.6919246912002563, "Quantum sensing Detection": 0.6906333565711975, "Quantum sensing Metrology": 0.7024548053741455, "Quantum sensing navigation": 0.7085173726081848, "Quantum sensing Position": 0.6788192987442017, "Quantum sensing Timing": 0.6806601285934448, "Quantum sensing": 0.7112511992454529, "Quantum control": 0.7036667466163635 } }, { "id": 318, "title": "Quantum Support Vector Regression for Disability Insurance", "abstract": "We propose a hybrid classical-quantum approach for modeling transition probabilities in health and disability insurance. The modeling of logistic disability inception probabilities is formulated as a ...", "citations": 3, "author_count": 3, "categories": [ "Business & Economics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 318, "doi": "10.3390/risks9120216", "umap_coordinates": { "x": 395.02239990234375, "y": 136.5843048095703, "z": 205.50540161132812 }, "tsne_coordinates": { "x": -25.91423988342285, "y": 15.83284854888916, "z": 13.442805290222168 }, "pca_coordinates": { "x": -0.16061604022979736, "y": 2.3957223892211914, "z": -0.6767396926879883 }, "axis_scores": { "Quantum imaging": 0.7453725337982178, "Quantum Life Science Sensing": 0.7815452814102173, "Quantum sensing Detection": 0.7527664303779602, "Quantum sensing Metrology": 0.7411432862281799, "Quantum sensing navigation": 0.7462999224662781, "Quantum sensing Position": 0.7152057886123657, "Quantum sensing Timing": 0.7178277969360352, "Quantum sensing": 0.7569602131843567, "Quantum control": 0.7352084517478943 } }, { "id": 319, "title": "Optimal geometry of lateral GaAs and Si/SiGe quantum dots for electrical control of spin qubits", "abstract": "We investigate the effects of the orientation of the magnetic field and the orientation of a quantum dot, with respect to crystallographic coordinates, on the quality of an electrically controlled qub...", "citations": 15, "author_count": 4, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 319, "doi": "10.1103/PhysRevB.93.235413", "umap_coordinates": { "x": 393.5132141113281, "y": 134.80392456054688, "z": 208.61376953125 }, "tsne_coordinates": { "x": 5.650186538696289, "y": -25.824275970458984, "z": 2.116314649581909 }, "pca_coordinates": { "x": 3.3122925758361816, "y": -1.926866054534912, "z": 0.7265612483024597 }, "axis_scores": { "Quantum imaging": 0.727904736995697, "Quantum Life Science Sensing": 0.7302577495574951, "Quantum sensing Detection": 0.7235822081565857, "Quantum sensing Metrology": 0.7320794463157654, "Quantum sensing navigation": 0.7526403665542603, "Quantum sensing Position": 0.745394229888916, "Quantum sensing Timing": 0.7154150009155273, "Quantum sensing": 0.7405571937561035, "Quantum control": 0.7349862456321716 } }, { "id": 320, "title": "Structural imaging of a Si quantum dot:: Towards combined PL and TEM characterization", "abstract": "Individual silicon quantum dots were fabricated by electron-beam lithography, plasma etching and a two-step oxidation process. This enables photoluminescence (PL) from individual dots at various tempe...", "citations": 6, "author_count": 5, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 320, "doi": "10.1016/j.jlumin.2006.08.061", "umap_coordinates": { "x": 393.865966796875, "y": 133.22100830078125, "z": 206.1987762451172 }, "tsne_coordinates": { "x": 37.50100326538086, "y": 0.04671022295951843, "z": 0.4760441780090332 }, "pca_coordinates": { "x": -3.710857391357422, "y": -1.2888500690460205, "z": 2.324666738510132 }, "axis_scores": { "Quantum imaging": 0.7664694786071777, "Quantum Life Science Sensing": 0.7296387553215027, "Quantum sensing Detection": 0.7162386775016785, "Quantum sensing Metrology": 0.7246692776679993, "Quantum sensing navigation": 0.6990230083465576, "Quantum sensing Position": 0.7250920534133911, "Quantum sensing Timing": 0.6722680926322937, "Quantum sensing": 0.7248969674110413, "Quantum control": 0.6591858267784119 } }, { "id": 321, "title": "Direct generation of linearly polarized photon emission with designated orientations from site-controlled InGaN quantum dots", "abstract": "Semiconductor quantum dots (QDs) have been demonstrated viable for efficient light emission applications, in particular for the emission of single photons on demand. However, the preparation of QDs em...", "citations": 67, "author_count": 9, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 321, "doi": "10.1038/lsa.2014.20", "umap_coordinates": { "x": 393.8099365234375, "y": 134.56466674804688, "z": 206.61680603027344 }, "tsne_coordinates": { "x": 21.334735870361328, "y": -21.63059425354004, "z": -12.069087982177734 }, "pca_coordinates": { "x": -1.73409104347229, "y": -1.8838515281677246, "z": 2.5928211212158203 }, "axis_scores": { "Quantum imaging": 0.7265416383743286, "Quantum Life Science Sensing": 0.6988085508346558, "Quantum sensing Detection": 0.7097926735877991, "Quantum sensing Metrology": 0.6880306601524353, "Quantum sensing navigation": 0.7204943895339966, "Quantum sensing Position": 0.706113874912262, "Quantum sensing Timing": 0.6746966242790222, "Quantum sensing": 0.7180777788162231, "Quantum control": 0.6799756288528442 } }, { "id": 322, "title": "Gate control, g factors, and spin-orbit energy of p-type GaSb nanowire quantum dot devices", "abstract": "Proposals for quantum information applications are frequently based on the coherent manipulation of spins confined to quantum dots. For these applications, p-type III-V material systems promise a redu...", "citations": 3, "author_count": 7, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 322, "doi": "10.1103/PhysRevB.103.L241411", "umap_coordinates": { "x": 393.08917236328125, "y": 135.0276336669922, "z": 208.77223205566406 }, "tsne_coordinates": { "x": 11.4277982711792, "y": -22.089204788208008, "z": -1.7925103902816772 }, "pca_coordinates": { "x": 2.843177318572998, "y": -2.617006778717041, "z": -0.3668345808982849 }, "axis_scores": { "Quantum imaging": 0.6750941276550293, "Quantum Life Science Sensing": 0.7056314945220947, "Quantum sensing Detection": 0.6915026903152466, "Quantum sensing Metrology": 0.6799210906028748, "Quantum sensing navigation": 0.7029773592948914, "Quantum sensing Position": 0.6888710260391235, "Quantum sensing Timing": 0.6687492728233337, "Quantum sensing": 0.7079206705093384, "Quantum control": 0.7074232697486877 } }, { "id": 323, "title": "Pulse-level noisy quantum circuits with QuTiP", "abstract": "The study of the impact of noise on quantum circuits is especially relevant to guide the progress of Noisy Intermediate-Scale Quantum (NISQ) computing. In this paper, we address the pulse-level simula...", "citations": 35, "author_count": 8, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 323, "doi": "10.22331/q-2022-01-24-630", "umap_coordinates": { "x": 395.4544982910156, "y": 135.88087463378906, "z": 206.53070068359375 }, "tsne_coordinates": { "x": -21.660268783569336, "y": 0.06470930576324463, "z": -3.461554527282715 }, "pca_coordinates": { "x": 1.241800308227539, "y": 1.631495475769043, "z": 2.72906494140625 }, "axis_scores": { "Quantum imaging": 0.7616616487503052, "Quantum Life Science Sensing": 0.7507911324501038, "Quantum sensing Detection": 0.7694770693778992, "Quantum sensing Metrology": 0.7620040774345398, "Quantum sensing navigation": 0.7661167979240417, "Quantum sensing Position": 0.755048394203186, "Quantum sensing Timing": 0.7657557725906372, "Quantum sensing": 0.774361252784729, "Quantum control": 0.7505054473876953 } }, { "id": 324, "title": "Hydrogen passivation of self assembled InAs quantum dots", "abstract": "A systematic study on the hydrogen passivation of nonradiative centers in InAs quantum dot's grown on GaAs substrates is presented. The samples used in this study were grown by molecular beam epitaxy....", "citations": 27, "author_count": 7, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 324, "doi": "10.1063/1.1515379", "umap_coordinates": { "x": 393.0841979980469, "y": 133.83497619628906, "z": 208.4479217529297 }, "tsne_coordinates": { "x": 25.832426071166992, "y": -21.218761444091797, "z": -2.7621309757232666 }, "pca_coordinates": { "x": 1.6032776832580566, "y": -3.9264392852783203, "z": 1.0966906547546387 }, "axis_scores": { "Quantum imaging": 0.7574112415313721, "Quantum Life Science Sensing": 0.7632260918617249, "Quantum sensing Detection": 0.7560335993766785, "Quantum sensing Metrology": 0.7381182909011841, "Quantum sensing navigation": 0.7440758943557739, "Quantum sensing Position": 0.7109090089797974, "Quantum sensing Timing": 0.696438193321228, "Quantum sensing": 0.7707153558731079, "Quantum control": 0.7378767132759094 } }, { "id": 325, "title": "Quantum teleportation using three-particle entanglement", "abstract": "We investigate the teleportation of a quantum state using three-particle entanglement to either one of two receivers in such a way that, generally, either one of the two, but only one, ran fully recon...", "citations": 930, "author_count": 3, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 325, "doi": "10.1103/PhysRevA.58.4394", "umap_coordinates": { "x": 395.7430114746094, "y": 136.22738647460938, "z": 207.65818786621094 }, "tsne_coordinates": { "x": -15.833817481994629, "y": -10.82626724243164, "z": 2.241020441055298 }, "pca_coordinates": { "x": 5.2621989250183105, "y": 1.5013113021850586, "z": 2.385122299194336 }, "axis_scores": { "Quantum imaging": 0.7638512849807739, "Quantum Life Science Sensing": 0.736105740070343, "Quantum sensing Detection": 0.7597411870956421, "Quantum sensing Metrology": 0.7352317571640015, "Quantum sensing navigation": 0.7753101587295532, "Quantum sensing Position": 0.739294707775116, "Quantum sensing Timing": 0.7271709442138672, "Quantum sensing": 0.7721499800682068, "Quantum control": 0.7373411059379578 } }, { "id": 326, "title": "Continuous-Variable Triple-Photon States Quantum Entanglement", "abstract": "We investigate the quantum entanglement of the three modes associated with the three-photon states obtained by triple-photon generation in a phase-matched third-order nonlinear optical interaction. Al...", "citations": 56, "author_count": 6, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 326, "doi": "10.1103/PhysRevLett.120.043601", "umap_coordinates": { "x": 395.58709716796875, "y": 136.1341094970703, "z": 208.0106201171875 }, "tsne_coordinates": { "x": -18.43576431274414, "y": -14.38083267211914, "z": 0.9412747621536255 }, "pca_coordinates": { "x": 4.476179122924805, "y": 0.7586095333099365, "z": 1.6419754028320312 }, "axis_scores": { "Quantum imaging": 0.7812812328338623, "Quantum Life Science Sensing": 0.7729600667953491, "Quantum sensing Detection": 0.7854067087173462, "Quantum sensing Metrology": 0.7518567442893982, "Quantum sensing navigation": 0.7703762650489807, "Quantum sensing Position": 0.7470828294754028, "Quantum sensing Timing": 0.7654379606246948, "Quantum sensing": 0.793932318687439, "Quantum control": 0.7693231701850891 } }, { "id": 327, "title": "Quantum Overlapping Tomography", "abstract": "It is now experimentally possible to entangle thousands of qubits, and efficiently measure each qubit in parallel in a distinct basis. To fully characterize an unknown entangled state of n qubits, one...", "citations": 102, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 327, "doi": "10.1103/PhysRevLett.124.100401", "umap_coordinates": { "x": 395.3728942871094, "y": 136.22848510742188, "z": 207.88262939453125 }, "tsne_coordinates": { "x": -18.241565704345703, "y": -17.683822631835938, "z": 1.897316575050354 }, "pca_coordinates": { "x": 4.8182573318481445, "y": 0.8483507633209229, "z": 2.56584095954895 }, "axis_scores": { "Quantum imaging": 0.8024539351463318, "Quantum Life Science Sensing": 0.77280193567276, "Quantum sensing Detection": 0.7989556789398193, "Quantum sensing Metrology": 0.7819837331771851, "Quantum sensing navigation": 0.7675355076789856, "Quantum sensing Position": 0.7457366585731506, "Quantum sensing Timing": 0.7862651348114014, "Quantum sensing": 0.8015214800834656, "Quantum control": 0.7573462128639221 } }, { "id": 328, "title": "Transmitting qubits through relativistic fields", "abstract": "Wireless communication derives its power from the simultaneous emission of signals in multiple directions. However, in the context of quantum communication, this phenomenon must be reconciled carefull...", "citations": 27, "author_count": 5, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 328, "doi": "10.1088/1751-8121/aae78a", "umap_coordinates": { "x": 395.2548828125, "y": 136.48202514648438, "z": 206.41195678710938 }, "tsne_coordinates": { "x": -39.26354217529297, "y": -4.756477355957031, "z": -3.7152910232543945 }, "pca_coordinates": { "x": 2.1008710861206055, "y": 2.608614921569824, "z": 1.602647066116333 }, "axis_scores": { "Quantum imaging": 0.7440904974937439, "Quantum Life Science Sensing": 0.6973501443862915, "Quantum sensing Detection": 0.7055191397666931, "Quantum sensing Metrology": 0.7033014893531799, "Quantum sensing navigation": 0.7375962138175964, "Quantum sensing Position": 0.6835978031158447, "Quantum sensing Timing": 0.716232419013977, "Quantum sensing": 0.7323850989341736, "Quantum control": 0.7153032422065735 } }, { "id": 329, "title": "Angular conductance resonances of quantum dots non-collinearly coupled to ferromagnetic leads", "abstract": "The zero-bias conductance of quantum dots coupled to ferromagnetic leads is investigated. In the strong-coupling regime, it is found that the conductance is a non-monotonic function of the angle betwe...", "citations": 27, "author_count": 2, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 329, "doi": "10.1209/epl/i2005-10043-1", "umap_coordinates": { "x": 393.7500305175781, "y": 135.72267150878906, "z": 208.38314819335938 }, "tsne_coordinates": { "x": -4.8773980140686035, "y": -35.6324348449707, "z": 10.849325180053711 }, "pca_coordinates": { "x": 1.9838662147521973, "y": -0.8563079833984375, "z": 0.8200772404670715 }, "axis_scores": { "Quantum imaging": 0.7348967790603638, "Quantum Life Science Sensing": 0.7280840873718262, "Quantum sensing Detection": 0.7329809665679932, "Quantum sensing Metrology": 0.7305859923362732, "Quantum sensing navigation": 0.7279223799705505, "Quantum sensing Position": 0.7379340529441833, "Quantum sensing Timing": 0.7198103070259094, "Quantum sensing": 0.7433234453201294, "Quantum control": 0.7208311557769775 } }, { "id": 330, "title": "Duality and self-duality for dynamical quantum groups", "abstract": "We define a natural concept of duality for the h-Hopf algebroids introduced by Etingof and Varchenko. We prove that the special case of the trigonometric SL(2) dynamical quantum group is self-dual, an...", "citations": 4, "author_count": 2, "categories": [ "Mathematics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 330, "doi": "10.1023/B:ALGE.0000042118.49950.ca", "umap_coordinates": { "x": 394.6108093261719, "y": 137.36163330078125, "z": 207.4970703125 }, "tsne_coordinates": { "x": -29.244640350341797, "y": -6.711034774780273, "z": 22.452404022216797 }, "pca_coordinates": { "x": 2.3185830116271973, "y": 0.8070569038391113, "z": -2.6982736587524414 }, "axis_scores": { "Quantum imaging": 0.7061210870742798, "Quantum Life Science Sensing": 0.7149555683135986, "Quantum sensing Detection": 0.6904138326644897, "Quantum sensing Metrology": 0.6765756011009216, "Quantum sensing navigation": 0.7185599207878113, "Quantum sensing Position": 0.6754091382026672, "Quantum sensing Timing": 0.675915539264679, "Quantum sensing": 0.6957985758781433, "Quantum control": 0.7310441732406616 } }, { "id": 331, "title": "Optical investigation of InAs/InP quantum dots at different temperatures and under electric field", "abstract": "The electronic structure of InAs quantum dots in InP is fairly well known from theory as well as from experimental work using photocapacitance, DLTS and photoluminescence spectroscopy. Both electrons ...", "citations": 19, "author_count": 8, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 331, "doi": "10.1016/S0040-6090(99)00910-4", "umap_coordinates": { "x": 392.6589660644531, "y": 134.11451721191406, "z": 207.3971710205078 }, "tsne_coordinates": { "x": 29.77829360961914, "y": -12.174176216125488, "z": 8.259928703308105 }, "pca_coordinates": { "x": -0.8943562507629395, "y": -2.79541015625, "z": 0.30948561429977417 }, "axis_scores": { "Quantum imaging": 0.7150675654411316, "Quantum Life Science Sensing": 0.7294608950614929, "Quantum sensing Detection": 0.6960513591766357, "Quantum sensing Metrology": 0.6928406953811646, "Quantum sensing navigation": 0.6888924837112427, "Quantum sensing Position": 0.6977291703224182, "Quantum sensing Timing": 0.6804519891738892, "Quantum sensing": 0.7094149589538574, "Quantum control": 0.6635088920593262 } }, { "id": 332, "title": "Local information flow in quantum quench dynamics", "abstract": "We investigate the out-of-equilibrium dynamics of quantum information in one-dimensional systems undergoing a quantum quench using a local perspective based on the information lattice. This framework ...", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 332, "doi": "10.1103/v7gb-5gq8", "umap_coordinates": { "x": 395.3491516113281, "y": 137.14431762695312, "z": 207.9427032470703 }, "tsne_coordinates": { "x": -32.84162139892578, "y": -16.629465103149414, "z": 5.4882121086120605 }, "pca_coordinates": { "x": 5.184205532073975, "y": 2.1922521591186523, "z": -1.4433764219284058 }, "axis_scores": { "Quantum imaging": 0.7559453845024109, "Quantum Life Science Sensing": 0.7265481352806091, "Quantum sensing Detection": 0.7448450922966003, "Quantum sensing Metrology": 0.7268044948577881, "Quantum sensing navigation": 0.7765445709228516, "Quantum sensing Position": 0.7357345223426819, "Quantum sensing Timing": 0.7148392796516418, "Quantum sensing": 0.7550240755081177, "Quantum control": 0.7731287479400635 } }, { "id": 333, "title": "Q2Logic: A Coarse-Grained FPGA Overlay targeting Schro(sic)dinger Quantum Circuit Simulations", "abstract": "Quantum computing is emerging as an important (but radical) technology that might take us beyond Moore's law for certain applications. Today, in parallel with improving quantum computers, computer sci...", "citations": 4, "author_count": 2, "categories": [ "Computer Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 333, "doi": "10.1109/IPDPSW59300.2023.00078", "umap_coordinates": { "x": 394.9063720703125, "y": 135.93545532226562, "z": 206.30662536621094 }, "tsne_coordinates": { "x": -16.61043930053711, "y": 15.091257095336914, "z": 12.458568572998047 }, "pca_coordinates": { "x": 1.4011330604553223, "y": 1.6314666271209717, "z": 0.8587422966957092 }, "axis_scores": { "Quantum imaging": 0.7636348009109497, "Quantum Life Science Sensing": 0.7264143228530884, "Quantum sensing Detection": 0.7311142683029175, "Quantum sensing Metrology": 0.7320327758789062, "Quantum sensing navigation": 0.7324446439743042, "Quantum sensing Position": 0.7124480605125427, "Quantum sensing Timing": 0.7346283793449402, "Quantum sensing": 0.755897045135498, "Quantum control": 0.7501839995384216 } }, { "id": 334, "title": "Probing the sensitivity of electron wave interference to disorder-induced scattering in solid-state devices", "abstract": "The study of electron motion in semiconductor billiards has elucidated our understanding of quantum interference and quantum chaos. The central assumption is that ionized donors generate only minor pe...", "citations": 10, "author_count": 15, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 334, "doi": "10.1103/PhysRevB.85.195319", "umap_coordinates": { "x": 394.0678405761719, "y": 134.97348022460938, "z": 209.06451416015625 }, "tsne_coordinates": { "x": 8.165127754211426, "y": -24.472469329833984, "z": -4.505377769470215 }, "pca_coordinates": { "x": 3.930487632751465, "y": -2.5581436157226562, "z": 1.72076416015625 }, "axis_scores": { "Quantum imaging": 0.7152418494224548, "Quantum Life Science Sensing": 0.7386246919631958, "Quantum sensing Detection": 0.7403256297111511, "Quantum sensing Metrology": 0.7187001705169678, "Quantum sensing navigation": 0.7199124097824097, "Quantum sensing Position": 0.7068887948989868, "Quantum sensing Timing": 0.6790340542793274, "Quantum sensing": 0.742578387260437, "Quantum control": 0.6942784190177917 } }, { "id": 335, "title": "Improved Performance of Colloidal CdSe Quantum Dot-Sensitized Solar Cells by Hybrid Passivation", "abstract": "A hybrid passivation strategy is employed to modify the surface of colloidal CdSe quantum dots (QDs) for quantum dot-sensitized solar cells (QDSCs), by using mercaptopropionic acid (MPA) and iodide an...", "citations": 41, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 335, "doi": "10.1021/am504536a", "umap_coordinates": { "x": 392.0503845214844, "y": 133.72857666015625, "z": 205.29531860351562 }, "tsne_coordinates": { "x": 27.987422943115234, "y": -2.949859380722046, "z": -13.47718620300293 }, "pca_coordinates": { "x": -2.7904295921325684, "y": -4.804043292999268, "z": -0.46427738666534424 }, "axis_scores": { "Quantum imaging": 0.6693848371505737, "Quantum Life Science Sensing": 0.6736562252044678, "Quantum sensing Detection": 0.6595967411994934, "Quantum sensing Metrology": 0.6538118124008179, "Quantum sensing navigation": 0.6469085216522217, "Quantum sensing Position": 0.6273865699768066, "Quantum sensing Timing": 0.6086830496788025, "Quantum sensing": 0.6775976419448853, "Quantum control": 0.6699424982070923 } }, { "id": 336, "title": "Triple-quantum dynamics in multiple-spin systems undergoing magic-angle spinning: application to 13C homonuclear correlation spectroscopy", "abstract": "We analyze the multiple-quantum dynamics governed by a new homonuclear recoupling strategy effecting an average dipolar Hamiltonian comprising three-spin triple-quantum operators (e.g., Sp+Sq+Sr+) und...", "citations": 25, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 336, "doi": "10.1016/j.jmr.2004.12.008", "umap_coordinates": { "x": 392.87548828125, "y": 136.73138427734375, "z": 206.96755981445312 }, "tsne_coordinates": { "x": 16.786794662475586, "y": -0.5276895761489868, "z": 31.083126068115234 }, "pca_coordinates": { "x": 0.21479344367980957, "y": 2.2125093936920166, "z": -1.969663143157959 }, "axis_scores": { "Quantum imaging": 0.7334735989570618, "Quantum Life Science Sensing": 0.73681640625, "Quantum sensing Detection": 0.7151632905006409, "Quantum sensing Metrology": 0.7027318477630615, "Quantum sensing navigation": 0.7062484622001648, "Quantum sensing Position": 0.6929922103881836, "Quantum sensing Timing": 0.7148948311805725, "Quantum sensing": 0.7262113094329834, "Quantum control": 0.709446907043457 } }, { "id": 337, "title": "Comment on Measurement of quantum states of neutrons in the Earth's gravitational field -: art. no. 108701", "abstract": "In the paper by Nesvizhevsky [Phys. Rev. D 67, 102002 (2003)], it is argued that the lowest quantum state of neutrons in the Earth's gravitational field has been experimentally identified. While this ...", "citations": 11, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 337, "doi": "10.1103/PhysRevD.68.108701", "umap_coordinates": { "x": 395.3001403808594, "y": 136.37449645996094, "z": 207.6466064453125 }, "tsne_coordinates": { "x": -27.450151443481445, "y": -14.241523742675781, "z": 2.58921217918396 }, "pca_coordinates": { "x": 3.89024019241333, "y": 1.9270025491714478, "z": 0.6949264407157898 }, "axis_scores": { "Quantum imaging": 0.7102572321891785, "Quantum Life Science Sensing": 0.7525884509086609, "Quantum sensing Detection": 0.7320051789283752, "Quantum sensing Metrology": 0.7321192622184753, "Quantum sensing navigation": 0.7489643096923828, "Quantum sensing Position": 0.72730553150177, "Quantum sensing Timing": 0.7043877840042114, "Quantum sensing": 0.7392727732658386, "Quantum control": 0.688834011554718 } }, { "id": 338, "title": "Strain state in semiconductor quantum dots on surfaces: a comparison of electron microscopy and finite element calculations", "abstract": "The strain distribution in InP quantum dots, coherently grown on a GaInP substrate, was determined by image analysis of high-resolution electron microscopy images. Image simulations were used to verif...", "citations": 17, "author_count": 5, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 338, "doi": "10.1016/S0039-6028(98)00084-3", "umap_coordinates": { "x": 392.6899719238281, "y": 134.63462829589844, "z": 207.2310333251953 }, "tsne_coordinates": { "x": 31.923311233520508, "y": -3.397704839706421, "z": 5.872560501098633 }, "pca_coordinates": { "x": -0.6584363579750061, "y": -2.562234401702881, "z": -0.19532781839370728 }, "axis_scores": { "Quantum imaging": 0.7075715661048889, "Quantum Life Science Sensing": 0.7361920475959778, "Quantum sensing Detection": 0.6955386996269226, "Quantum sensing Metrology": 0.7096250653266907, "Quantum sensing navigation": 0.6999417543411255, "Quantum sensing Position": 0.7332653403282166, "Quantum sensing Timing": 0.6687688231468201, "Quantum sensing": 0.707630455493927, "Quantum control": 0.6620638966560364 } }, { "id": 339, "title": "Transmon qubit readout fidelity at the threshold for quantum error correction without a quantum-limited amplifier", "abstract": "High-fidelity and rapid readout of a qubit state is key to quantum computing and communication, and it is a prerequisite for quantum error correction. We present a readout scheme for superconducting q...", "citations": 62, "author_count": 21, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 339, "doi": "10.1038/s41534-023-00689-6", "umap_coordinates": { "x": 395.167236328125, "y": 135.8706512451172, "z": 207.02342224121094 }, "tsne_coordinates": { "x": -18.994972229003906, "y": 0.8148197531700134, "z": -2.1224911212921143 }, "pca_coordinates": { "x": 1.4732086658477783, "y": 1.4959760904312134, "z": 2.289673328399658 }, "axis_scores": { "Quantum imaging": 0.7153351902961731, "Quantum Life Science Sensing": 0.7170202732086182, "Quantum sensing Detection": 0.7389113903045654, "Quantum sensing Metrology": 0.7384101152420044, "Quantum sensing navigation": 0.712327778339386, "Quantum sensing Position": 0.7333790063858032, "Quantum sensing Timing": 0.7370866537094116, "Quantum sensing": 0.7378512024879456, "Quantum control": 0.6783010959625244 } }, { "id": 340, "title": "Selective coupling of superconducting charge qubits mediated by a tunable stripline cavity", "abstract": "We theoretically investigate selective coupling of superconducting charge qubits mediated by a superconducting stripline cavity with a tunable resonance frequency. The frequency control is provided by...", "citations": 145, "author_count": 4, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 340, "doi": "10.1103/PhysRevB.74.224506", "umap_coordinates": { "x": 394.26904296875, "y": 135.36231994628906, "z": 208.00253295898438 }, "tsne_coordinates": { "x": -12.592718124389648, "y": -25.078752517700195, "z": -12.11878776550293 }, "pca_coordinates": { "x": 3.243797779083252, "y": -1.2424559593200684, "z": 0.3931959271430969 }, "axis_scores": { "Quantum imaging": 0.6696674823760986, "Quantum Life Science Sensing": 0.679330050945282, "Quantum sensing Detection": 0.6838328242301941, "Quantum sensing Metrology": 0.6583452820777893, "Quantum sensing navigation": 0.7071256637573242, "Quantum sensing Position": 0.6720491051673889, "Quantum sensing Timing": 0.6687368154525757, "Quantum sensing": 0.6975857019424438, "Quantum control": 0.6942979693412781 } }, { "id": 341, "title": "Optomechanical tuning of the polarization properties of micropillar cavity systems with embedded quantum dots", "abstract": "Strain tuning emerged as an appealing tool for tuning of fundamental optical properties of solid-state quantum emitters. In particular, the wavelength and fine structure of quantum dot states can be t...", "citations": 8, "author_count": 11, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 341, "doi": "10.1103/PhysRevB.101.245308", "umap_coordinates": { "x": 393.963623046875, "y": 134.9871368408203, "z": 207.81393432617188 }, "tsne_coordinates": { "x": -8.861331939697266, "y": -18.575180053710938, "z": -4.193580627441406 }, "pca_coordinates": { "x": 2.603351593017578, "y": -2.537238597869873, "z": 0.9507392048835754 }, "axis_scores": { "Quantum imaging": 0.7540992498397827, "Quantum Life Science Sensing": 0.7561336755752563, "Quantum sensing Detection": 0.7564034461975098, "Quantum sensing Metrology": 0.7520657777786255, "Quantum sensing navigation": 0.7389748692512512, "Quantum sensing Position": 0.7213079333305359, "Quantum sensing Timing": 0.7056242823600769, "Quantum sensing": 0.7649601697921753, "Quantum control": 0.7385107278823853 } }, { "id": 342, "title": "Strain effects on individual quantum dots: Dependence of cap layer thickness - art. no. 085302", "abstract": "We have studied the effects of strain on individual self-assembled quantum dots (QDs) exemplified by InP dots embedded in GaInP. The quantum dot sample was etched from the top and in this way the amou...", "citations": 24, "author_count": 6, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 342, "doi": "10.1103/PhysRevB.72.085302", "umap_coordinates": { "x": 392.8479919433594, "y": 134.37416076660156, "z": 207.9904327392578 }, "tsne_coordinates": { "x": 10.852507591247559, "y": -27.096811294555664, "z": -2.3932716846466064 }, "pca_coordinates": { "x": 0.7871570587158203, "y": -2.9197936058044434, "z": -0.09323889017105103 }, "axis_scores": { "Quantum imaging": 0.7093347311019897, "Quantum Life Science Sensing": 0.7076529264450073, "Quantum sensing Detection": 0.6971334218978882, "Quantum sensing Metrology": 0.6921731233596802, "Quantum sensing navigation": 0.6829894781112671, "Quantum sensing Position": 0.7126781344413757, "Quantum sensing Timing": 0.6823523044586182, "Quantum sensing": 0.7145518660545349, "Quantum control": 0.7054741382598877 } }, { "id": 343, "title": "Heterogeneity in the fluorescence of graphene and graphene oxide quantum dots", "abstract": "Heterogeneity is an inherent property of a wealth of real-world nanomaterials and yet rarely in the reporting of new properties is its effect sufficiently addressed. Graphene quantum dots (GQDs) - flu...", "citations": 63, "author_count": 11, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 343, "doi": "10.1007/s00604-017-2075-9", "umap_coordinates": { "x": 393.8810729980469, "y": 135.30810546875, "z": 205.00503540039062 }, "tsne_coordinates": { "x": -3.977221727371216, "y": 16.258378982543945, "z": 2.522791624069214 }, "pca_coordinates": { "x": -2.2253522872924805, "y": -0.9992396831512451, "z": -1.0363283157348633 }, "axis_scores": { "Quantum imaging": 0.7319879531860352, "Quantum Life Science Sensing": 0.7456755638122559, "Quantum sensing Detection": 0.7168625593185425, "Quantum sensing Metrology": 0.7005448341369629, "Quantum sensing navigation": 0.6988947987556458, "Quantum sensing Position": 0.6883922815322876, "Quantum sensing Timing": 0.6751524209976196, "Quantum sensing": 0.7252358198165894, "Quantum control": 0.6893071532249451 } }, { "id": 344, "title": "Simulations of electron transport through three-dimensional quantum structures", "abstract": "In this work, we report on numerical simulations of electron transport through three-dimensional (3D) quantum structures in both linear and nonlinear response regimes of transport. The structures cons...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 344, "doi": "10.1238/Physica.Topical.079a00085", "umap_coordinates": { "x": 394.1463928222656, "y": 135.82264709472656, "z": 207.2095947265625 }, "tsne_coordinates": { "x": 6.170435428619385, "y": -3.758681535720825, "z": 27.687639236450195 }, "pca_coordinates": { "x": 2.322115898132324, "y": -0.5683443546295166, "z": -0.06219291687011719 }, "axis_scores": { "Quantum imaging": 0.7505113482475281, "Quantum Life Science Sensing": 0.7445813417434692, "Quantum sensing Detection": 0.7184173464775085, "Quantum sensing Metrology": 0.7082294225692749, "Quantum sensing navigation": 0.7476269602775574, "Quantum sensing Position": 0.7020633816719055, "Quantum sensing Timing": 0.6825658679008484, "Quantum sensing": 0.7295965552330017, "Quantum control": 0.717954695224762 } }, { "id": 345, "title": "High-performance photon number resolving detectors for 850-950 nm wavelength range", "abstract": "Since their first demonstration in 2001 [Gol'tsman et al., Appl. Phys. Lett. 79, 705-707 (2001)], superconducting-nanowire single-photon detectors (SNSPDs) have witnessed two decades of great developm...", "citations": 19, "author_count": 9, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 345, "doi": "10.1063/5.0204340", "umap_coordinates": { "x": 394.8114318847656, "y": 133.5902099609375, "z": 206.53033447265625 }, "tsne_coordinates": { "x": -22.507802963256836, "y": 3.2489051818847656, "z": -30.615768432617188 }, "pca_coordinates": { "x": -1.3104723691940308, "y": -1.4392099380493164, "z": 3.5985307693481445 }, "axis_scores": { "Quantum imaging": 0.7092309594154358, "Quantum Life Science Sensing": 0.725666880607605, "Quantum sensing Detection": 0.7195502519607544, "Quantum sensing Metrology": 0.7211781144142151, "Quantum sensing navigation": 0.7039141058921814, "Quantum sensing Position": 0.7093265652656555, "Quantum sensing Timing": 0.6971833109855652, "Quantum sensing": 0.7152875661849976, "Quantum control": 0.6495972871780396 } }, { "id": 346, "title": "Native Conditional iSWAP Operation with Superconducting Artificial Atoms", "abstract": "Controlling the flow of quantum information is a fundamental task for quantum computers, which is unfeasible to realize on classical devices. Coherent devices, which can process quantum states are thu...", "citations": 8, "author_count": 20, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 346, "doi": "10.1103/PhysRevApplied.20.034072", "umap_coordinates": { "x": 394.8876037597656, "y": 136.2731170654297, "z": 207.8143310546875 }, "tsne_coordinates": { "x": -17.7091007232666, "y": -23.762725830078125, "z": 7.880758285522461 }, "pca_coordinates": { "x": 3.752363681793213, "y": -0.26570940017700195, "z": -0.11539185047149658 }, "axis_scores": { "Quantum imaging": 0.7076868414878845, "Quantum Life Science Sensing": 0.7251443266868591, "Quantum sensing Detection": 0.718133807182312, "Quantum sensing Metrology": 0.6973497271537781, "Quantum sensing navigation": 0.7299224138259888, "Quantum sensing Position": 0.6813899874687195, "Quantum sensing Timing": 0.6731735467910767, "Quantum sensing": 0.734228253364563, "Quantum control": 0.7286372780799866 } }, { "id": 347, "title": "Two-photon interference from two blinking quantum emitters", "abstract": "We investigate the effect of blinking on the two-photon interference measurement from two independent quantum emitters. We find that blinking significantly alters the statistics in the Hong-Ou-Mandel ...", "citations": 14, "author_count": 10, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 347, "doi": "10.1103/PhysRevB.96.075430", "umap_coordinates": { "x": 394.6236572265625, "y": 135.05543518066406, "z": 207.62655639648438 }, "tsne_coordinates": { "x": -3.7152369022369385, "y": -17.05173110961914, "z": -9.746716499328613 }, "pca_coordinates": { "x": 2.3382954597473145, "y": -1.7825407981872559, "z": 2.111300468444824 }, "axis_scores": { "Quantum imaging": 0.7498464584350586, "Quantum Life Science Sensing": 0.7513998746871948, "Quantum sensing Detection": 0.7604539394378662, "Quantum sensing Metrology": 0.7309148907661438, "Quantum sensing navigation": 0.7207045555114746, "Quantum sensing Position": 0.7155606746673584, "Quantum sensing Timing": 0.7163970470428467, "Quantum sensing": 0.7591047286987305, "Quantum control": 0.7101965546607971 } }, { "id": 348, "title": "Magnetic properties of quantum dots and rings", "abstract": "Exact many-body methods as well as current-spin-density functional theory are used to study the magnetism and electron localization in two-dimensional quantum dots and quasi-one-dimensional quantum ri...", "citations": 32, "author_count": 5, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 348, "doi": "10.1007/s100530170134", "umap_coordinates": { "x": 392.7496032714844, "y": 135.8867645263672, "z": 206.8873291015625 }, "tsne_coordinates": { "x": 12.76270866394043, "y": -14.011674880981445, "z": 23.7293643951416 }, "pca_coordinates": { "x": -0.9073396921157837, "y": -0.6174004077911377, "z": -2.2871780395507812 }, "axis_scores": { "Quantum imaging": 0.7473657727241516, "Quantum Life Science Sensing": 0.7620394825935364, "Quantum sensing Detection": 0.7329361438751221, "Quantum sensing Metrology": 0.7354060411453247, "Quantum sensing navigation": 0.7262827754020691, "Quantum sensing Position": 0.7216662168502808, "Quantum sensing Timing": 0.7043380737304688, "Quantum sensing": 0.7554727792739868, "Quantum control": 0.7341827750205994 } }, { "id": 349, "title": "Beam-profile-compensated quantum yield measurements of upconverting nanoparticles", "abstract": "The quantum yield is a critically important parameter in the development of lanthanide-based upconverting nanoparticles (UCNPs) for use as novel contrast agents in biological imaging and optical repor...", "citations": 17, "author_count": 8, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 349, "doi": "10.1039/c7cp03785f", "umap_coordinates": { "x": 393.3479309082031, "y": 134.02615356445312, "z": 205.92747497558594 }, "tsne_coordinates": { "x": 14.11161994934082, "y": 21.088897705078125, "z": -26.375883102416992 }, "pca_coordinates": { "x": -2.478026866912842, "y": -1.5099830627441406, "z": 1.7136707305908203 }, "axis_scores": { "Quantum imaging": 0.7424842715263367, "Quantum Life Science Sensing": 0.735378086566925, "Quantum sensing Detection": 0.7240550518035889, "Quantum sensing Metrology": 0.731361448764801, "Quantum sensing navigation": 0.7242425680160522, "Quantum sensing Position": 0.7287857532501221, "Quantum sensing Timing": 0.6877695322036743, "Quantum sensing": 0.733239471912384, "Quantum control": 0.7002946138381958 } }, { "id": 350, "title": "Noncommutative Geometrical Structures of Multi-Qubit Entangled States", "abstract": "We study the noncommutative geometrical structures of quantum entangled states. We show that the space of a pure entangled state is a noncommutative space. In particular we show that by rewriting the ...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 350, "doi": "10.1007/s10773-010-0658-x", "umap_coordinates": { "x": 395.1732177734375, "y": 137.45523071289062, "z": 207.0409393310547 }, "tsne_coordinates": { "x": -29.986343383789062, "y": -2.568049192428589, "z": 10.904253959655762 }, "pca_coordinates": { "x": 2.547001838684082, "y": 3.166606903076172, "z": 1.5546534061431885 }, "axis_scores": { "Quantum imaging": 0.7450585961341858, "Quantum Life Science Sensing": 0.7245801091194153, "Quantum sensing Detection": 0.7284722328186035, "Quantum sensing Metrology": 0.7393743991851807, "Quantum sensing navigation": 0.7531253099441528, "Quantum sensing Position": 0.751313328742981, "Quantum sensing Timing": 0.7273795008659363, "Quantum sensing": 0.7426726818084717, "Quantum control": 0.7163965106010437 } }, { "id": 351, "title": "Influence of Quantum Interference on the Thermoelectric Properties of Molecular Junctions", "abstract": "Molecular junctions offer unique opportunities for controlling charge transport on the atomic scale and for studying energy conversion. For example, quantum interference effects in molecular junctions...", "citations": 141, "author_count": 13, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 351, "doi": "10.1021/acs.nanolett.8b02207", "umap_coordinates": { "x": 393.0193176269531, "y": 134.8046112060547, "z": 207.09507751464844 }, "tsne_coordinates": { "x": 5.679086208343506, "y": -18.911020278930664, "z": 6.224180221557617 }, "pca_coordinates": { "x": 0.9563238620758057, "y": -3.480663299560547, "z": -0.2691574990749359 }, "axis_scores": { "Quantum imaging": 0.7388757467269897, "Quantum Life Science Sensing": 0.7344457507133484, "Quantum sensing Detection": 0.7213443517684937, "Quantum sensing Metrology": 0.7003829479217529, "Quantum sensing navigation": 0.7128499150276184, "Quantum sensing Position": 0.7016115188598633, "Quantum sensing Timing": 0.7109642624855042, "Quantum sensing": 0.7363587021827698, "Quantum control": 0.711219847202301 } }, { "id": 352, "title": "Two-electron quantum dot in tilted magnetic fields: Sensitivity to the confinement model", "abstract": "Semiconductor quantum dots are conventionally treated within the effective-mass approximation and a harmonic model potential in the two-dimensional plane for the electron confinement. The validity of ...", "citations": 7, "author_count": 6, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 352, "doi": "10.1140/epjb/e2013-40677-x", "umap_coordinates": { "x": 393.4245300292969, "y": 136.4793243408203, "z": 207.49598693847656 }, "tsne_coordinates": { "x": 16.638944625854492, "y": -23.11712074279785, "z": 13.32476806640625 }, "pca_coordinates": { "x": 1.3669559955596924, "y": 0.37902283668518066, "z": -1.5967010259628296 }, "axis_scores": { "Quantum imaging": 0.7125006914138794, "Quantum Life Science Sensing": 0.6989700198173523, "Quantum sensing Detection": 0.6982553601264954, "Quantum sensing Metrology": 0.6873044371604919, "Quantum sensing navigation": 0.7118864059448242, "Quantum sensing Position": 0.7071141004562378, "Quantum sensing Timing": 0.6905674934387207, "Quantum sensing": 0.7055760025978088, "Quantum control": 0.716350257396698 } }, { "id": 353, "title": "Controlling Atom-Photon Bound States in an Array of Josephson-Junction Resonators", "abstract": "Engineering the electromagnetic environment of a quantum emitter gives rise to a plethora of exotic light -matter interactions. In particular, photonic lattices can seed long-lived atom-photon bound s...", "citations": 70, "author_count": 11, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 353, "doi": "10.1103/PhysRevX.12.031036", "umap_coordinates": { "x": 394.314697265625, "y": 135.52423095703125, "z": 208.2270965576172 }, "tsne_coordinates": { "x": -5.838780403137207, "y": -17.7130069732666, "z": 10.478938102722168 }, "pca_coordinates": { "x": 4.191211700439453, "y": -1.7527928352355957, "z": 0.9641390442848206 }, "axis_scores": { "Quantum imaging": 0.7452770471572876, "Quantum Life Science Sensing": 0.7412859201431274, "Quantum sensing Detection": 0.7476879954338074, "Quantum sensing Metrology": 0.7393953204154968, "Quantum sensing navigation": 0.7670586109161377, "Quantum sensing Position": 0.7517859935760498, "Quantum sensing Timing": 0.735568106174469, "Quantum sensing": 0.7628778219223022, "Quantum control": 0.7520694732666016 } }, { "id": 354, "title": "Dissipative preparation of fractional Chern insulators", "abstract": "We report on the numerically exact simulation of the dissipative dynamics governed by quantum master equations that feature fractional quantum Hall states as unique steady states. In particular, for t...", "citations": 15, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 354, "doi": "10.1103/PhysRevResearch.3.043119", "umap_coordinates": { "x": 395.15582275390625, "y": 137.05401611328125, "z": 208.28225708007812 }, "tsne_coordinates": { "x": -15.859935760498047, "y": -20.04453468322754, "z": 9.624377250671387 }, "pca_coordinates": { "x": 4.128966808319092, "y": 0.8870033025741577, "z": -1.5977203845977783 }, "axis_scores": { "Quantum imaging": 0.7414442896842957, "Quantum Life Science Sensing": 0.7603867650032043, "Quantum sensing Detection": 0.7369975447654724, "Quantum sensing Metrology": 0.7126419544219971, "Quantum sensing navigation": 0.731445848941803, "Quantum sensing Position": 0.7087193131446838, "Quantum sensing Timing": 0.7132735252380371, "Quantum sensing": 0.751613974571228, "Quantum control": 0.727444052696228 } }, { "id": 355, "title": "Comparison of Zn1-xMnxTe/ZnTe multiple-quantum wells and quantum dots by below-bandgap photomodulated reflectivity", "abstract": "Large-area high-density patterns of quantum dots with a diameter of 200 nm have been prepared from a series of four Zno(0.93)Mn(0.07)Te/ZnTe multiple quantum well structures of different well width (4...", "citations": 16, "author_count": 6, "categories": [ "Engineering" ], "year": 1996, "topic": [ "all" ], "embedding_index": 355, "doi": "10.1088/0268-1242/11/12/017", "umap_coordinates": { "x": 393.35980224609375, "y": 134.4585418701172, "z": 207.0060577392578 }, "tsne_coordinates": { "x": 29.185779571533203, "y": -13.200879096984863, "z": 18.488805770874023 }, "pca_coordinates": { "x": -1.4843878746032715, "y": -1.1719419956207275, "z": 2.602299451828003 }, "axis_scores": { "Quantum imaging": 0.7140772342681885, "Quantum Life Science Sensing": 0.6866385340690613, "Quantum sensing Detection": 0.6898989677429199, "Quantum sensing Metrology": 0.7142142057418823, "Quantum sensing navigation": 0.6947747468948364, "Quantum sensing Position": 0.6826185584068298, "Quantum sensing Timing": 0.6860336661338806, "Quantum sensing": 0.6970107555389404, "Quantum control": 0.6780328154563904 } }, { "id": 356, "title": "Quantum dots with interacting electrons: Energy spectra and magnetization", "abstract": "The energy spectra and magnetization of a two-electron, square quantum dot is investigated theoretically by numerical diagonalization of the many-particle Hamiltonian of the system. The electron-elect...", "citations": 20, "author_count": 3, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 356, "doi": "10.1016/S0921-4526(98)00556-0", "umap_coordinates": { "x": 393.4602966308594, "y": 135.37042236328125, "z": 207.3793182373047 }, "tsne_coordinates": { "x": -1.3897567987442017, "y": -37.54553985595703, "z": -12.121421813964844 }, "pca_coordinates": { "x": 0.19840168952941895, "y": -1.9748101234436035, "z": 0.7853614687919617 }, "axis_scores": { "Quantum imaging": 0.7503244876861572, "Quantum Life Science Sensing": 0.738317608833313, "Quantum sensing Detection": 0.7230327725410461, "Quantum sensing Metrology": 0.7271442413330078, "Quantum sensing navigation": 0.7081308364868164, "Quantum sensing Position": 0.6984717845916748, "Quantum sensing Timing": 0.6726030111312866, "Quantum sensing": 0.7309565544128418, "Quantum control": 0.6791868805885315 } }, { "id": 357, "title": "Solving Quantum Dynamics with a Lie-Algebra Decoupling Method", "abstract": "Quantum technologies rely on the control of quantum systems at the level of individual quanta. Mathematically, this control is described by Hamiltonian or Liouvillian evolution, requiring the applicat...", "citations": 4, "author_count": 3, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 357, "doi": "10.1103/PRXQuantum.6.010201", "umap_coordinates": { "x": 394.7265625, "y": 136.7118682861328, "z": 207.1321258544922 }, "tsne_coordinates": { "x": -34.37469482421875, "y": -20.74838638305664, "z": 1.2763259410858154 }, "pca_coordinates": { "x": 2.5445618629455566, "y": 2.737257957458496, "z": -0.042458951473236084 }, "axis_scores": { "Quantum imaging": 0.7346048355102539, "Quantum Life Science Sensing": 0.7184469699859619, "Quantum sensing Detection": 0.725692093372345, "Quantum sensing Metrology": 0.7281937003135681, "Quantum sensing navigation": 0.7262362241744995, "Quantum sensing Position": 0.718991756439209, "Quantum sensing Timing": 0.7120220065116882, "Quantum sensing": 0.7344562411308289, "Quantum control": 0.7407746911048889 } }, { "id": 358, "title": "Shallow donor inside core/shell spherical nanodot: Effect of nanostructure size and dielectric environment on energy spectrum", "abstract": "We have reported the impact of the core and shell radii on the energy spectrum of centered shallow donor confined inside CdSe/ZnTe core/shell quantum dot and ZnTe/CdSe inverted core/shell quantum dot....", "citations": 24, "author_count": 6, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 358, "doi": "10.1016/j.spmi.2017.07.063", "umap_coordinates": { "x": 392.6834716796875, "y": 133.9384307861328, "z": 206.15371704101562 }, "tsne_coordinates": { "x": 28.839492797851562, "y": 3.252243995666504, "z": 8.727835655212402 }, "pca_coordinates": { "x": -2.648169994354248, "y": -2.277616024017334, "z": -0.3739818036556244 }, "axis_scores": { "Quantum imaging": 0.726880669593811, "Quantum Life Science Sensing": 0.7444994449615479, "Quantum sensing Detection": 0.710822343826294, "Quantum sensing Metrology": 0.6976878046989441, "Quantum sensing navigation": 0.6856032609939575, "Quantum sensing Position": 0.7045973539352417, "Quantum sensing Timing": 0.6724315881729126, "Quantum sensing": 0.7234621047973633, "Quantum control": 0.6666094064712524 } }, { "id": 359, "title": "A new series expansion method and its application to photon-counting CT reconstruction", "abstract": "The introduction of photon-counting detectors in x-ray computed tomography raises the question of how reconstruction algorithms should be adapted to photon-counting measurement data. The transition fr...", "citations": 1, "author_count": 5, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 359, "doi": "10.1117/12.2549623", "umap_coordinates": { "x": 395.6639709472656, "y": 132.75511169433594, "z": 205.6851806640625 }, "tsne_coordinates": { "x": -3.7426419258117676, "y": 20.607202529907227, "z": -20.737037658691406 }, "pca_coordinates": { "x": -2.324291706085205, "y": 3.074648141860962, "z": 3.2455077171325684 }, "axis_scores": { "Quantum imaging": 0.6972129940986633, "Quantum Life Science Sensing": 0.6958817839622498, "Quantum sensing Detection": 0.7055891752243042, "Quantum sensing Metrology": 0.6744152307510376, "Quantum sensing navigation": 0.6877950429916382, "Quantum sensing Position": 0.6781207919120789, "Quantum sensing Timing": 0.6995953321456909, "Quantum sensing": 0.6990896463394165, "Quantum control": 0.661890983581543 } }, { "id": 360, "title": "Experimental Test of Fidelity Limits in Six-Photon Interferometry and of Rotational Invariance Properties of the Photonic Six-Qubit Entanglement Singlet State", "abstract": "Quantum multiphoton interferometry has now reached the six-photon stage. Thus far, the observed fidelities of entangled states never reached 2/3. We report a high fidelity (estimated at 88%) experimen...", "citations": 37, "author_count": 4, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 360, "doi": "10.1103/PhysRevLett.103.150501", "umap_coordinates": { "x": 395.917724609375, "y": 136.20880126953125, "z": 207.40347290039062 }, "tsne_coordinates": { "x": -19.163597106933594, "y": -7.927239418029785, "z": -1.1032518148422241 }, "pca_coordinates": { "x": 3.054203510284424, "y": 1.320530652999878, "z": 2.086465835571289 }, "axis_scores": { "Quantum imaging": 0.7407954931259155, "Quantum Life Science Sensing": 0.7468775510787964, "Quantum sensing Detection": 0.733905017375946, "Quantum sensing Metrology": 0.7387585639953613, "Quantum sensing navigation": 0.7259289026260376, "Quantum sensing Position": 0.7255983948707581, "Quantum sensing Timing": 0.7166661024093628, "Quantum sensing": 0.744004487991333, "Quantum control": 0.699087381362915 } }, { "id": 361, "title": "Experimental Characterization of Unsharp Qubit Observables and Sequential Measurement Incompatibility via Quantum Random Access Codes", "abstract": "Unsharp measurements are increasingly important for foundational insights in quantum theory and quantum information applications. Here, we report an experimental implementation of unsharp qubit measur...", "citations": 56, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 361, "doi": "10.1103/PhysRevLett.125.080403", "umap_coordinates": { "x": 395.9876708984375, "y": 136.39173889160156, "z": 207.302734375 }, "tsne_coordinates": { "x": -18.351537704467773, "y": -6.7447509765625, "z": 0.7590917944908142 }, "pca_coordinates": { "x": 4.686965465545654, "y": 2.069159984588623, "z": 3.1178829669952393 }, "axis_scores": { "Quantum imaging": 0.7511775493621826, "Quantum Life Science Sensing": 0.733552098274231, "Quantum sensing Detection": 0.7612279057502747, "Quantum sensing Metrology": 0.7580893039703369, "Quantum sensing navigation": 0.7545186281204224, "Quantum sensing Position": 0.7434850931167603, "Quantum sensing Timing": 0.7502520084381104, "Quantum sensing": 0.7647923827171326, "Quantum control": 0.7173323035240173 } }, { "id": 362, "title": "Ultrafast Dynamics in Cu-Deficient CuInS2 Quantum Dots: SubBandgap Transitions and Self-Assembled Molecular Catalysts", "abstract": "The photophysical properties of Cu-deficient Cu01.2In1Sx quantum dots synthesized through a facile aqueous-based procedure have been investigated. Transient absorption experiments were carried out pro...", "citations": 25, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 362, "doi": "10.1021/acs.jpcc.1c02468", "umap_coordinates": { "x": 392.13201904296875, "y": 135.61634826660156, "z": 206.87960815429688 }, "tsne_coordinates": { "x": 12.08246898651123, "y": 0.08574987947940826, "z": 8.152443885803223 }, "pca_coordinates": { "x": 0.20440292358398438, "y": -4.651885032653809, "z": -2.6140198707580566 }, "axis_scores": { "Quantum imaging": 0.7263444662094116, "Quantum Life Science Sensing": 0.736580491065979, "Quantum sensing Detection": 0.7239950299263, "Quantum sensing Metrology": 0.6837596893310547, "Quantum sensing navigation": 0.7149320840835571, "Quantum sensing Position": 0.6697349548339844, "Quantum sensing Timing": 0.6863406300544739, "Quantum sensing": 0.7221152782440186, "Quantum control": 0.7269858717918396 } }, { "id": 363, "title": "Dynamic magneto-caloric effect of a multilayer nanographene: Dynamic quantum Monte Carlo", "abstract": "Using the dynamic quantum Monte Carlo simulation, the dynamic magnetocaloric effect of a ferromagnetic multilayer nanographene (MNG) is studied within the dynamic Ising model under the applied of a ti...", "citations": 25, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 363, "doi": "10.1016/j.physe.2018.09.008", "umap_coordinates": { "x": 393.1200866699219, "y": 135.94729614257812, "z": 207.0326385498047 }, "tsne_coordinates": { "x": -2.1549386978149414, "y": 11.339619636535645, "z": 39.70553207397461 }, "pca_coordinates": { "x": 0.045479536056518555, "y": 0.3174116611480713, "z": -1.929616928100586 }, "axis_scores": { "Quantum imaging": 0.7617849707603455, "Quantum Life Science Sensing": 0.770300030708313, "Quantum sensing Detection": 0.7328334450721741, "Quantum sensing Metrology": 0.7241142988204956, "Quantum sensing navigation": 0.7432708144187927, "Quantum sensing Position": 0.7072386741638184, "Quantum sensing Timing": 0.6911270618438721, "Quantum sensing": 0.7498801946640015, "Quantum control": 0.7376137375831604 } }, { "id": 364, "title": "Dephasing due to quasiparticle tunneling in fluxonium qubits: a phenomenological approach", "abstract": "The fluxonium qubit has arisen as one of the most promising candidate devices for implementing quantum information in superconducting devices, since it is both insensitive to charge noise (like flux q...", "citations": 13, "author_count": 5, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 364, "doi": "10.1088/1367-2630/17/6/065012", "umap_coordinates": { "x": 394.31524658203125, "y": 136.31790161132812, "z": 207.49179077148438 }, "tsne_coordinates": { "x": 0.9131990075111389, "y": -12.830738067626953, "z": 24.566865921020508 }, "pca_coordinates": { "x": 3.0168662071228027, "y": 1.8486868143081665, "z": -0.35184913873672485 }, "axis_scores": { "Quantum imaging": 0.7458714246749878, "Quantum Life Science Sensing": 0.7442710995674133, "Quantum sensing Detection": 0.7399840354919434, "Quantum sensing Metrology": 0.7268392443656921, "Quantum sensing navigation": 0.7523870468139648, "Quantum sensing Position": 0.7298861742019653, "Quantum sensing Timing": 0.7130232453346252, "Quantum sensing": 0.7527139186859131, "Quantum control": 0.7307696342468262 } }, { "id": 365, "title": "Preface of the special issue quantum foundations: information approach", "abstract": "This special issue is based on the contributions of a group of top experts in quantum foundations and quantum information and probability. It enlightens a number of interpretational, mathematical and ...", "citations": 9, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 365, "doi": "10.1098/rsta.2015.0244", "umap_coordinates": { "x": 395.0851135253906, "y": 136.933349609375, "z": 205.89283752441406 }, "tsne_coordinates": { "x": -28.935766220092773, "y": 11.282512664794922, "z": 13.105100631713867 }, "pca_coordinates": { "x": 1.0374784469604492, "y": 2.9890899658203125, "z": -0.6515570878982544 }, "axis_scores": { "Quantum imaging": 0.7621673941612244, "Quantum Life Science Sensing": 0.7819035053253174, "Quantum sensing Detection": 0.7655081152915955, "Quantum sensing Metrology": 0.7512330412864685, "Quantum sensing navigation": 0.7645456790924072, "Quantum sensing Position": 0.7524763941764832, "Quantum sensing Timing": 0.7369446754455566, "Quantum sensing": 0.7805452346801758, "Quantum control": 0.7451746463775635 } }, { "id": 366, "title": "Stable and efficient hybrid Ag-In-S/ZnS@SiO2-carbon quantum dots nanocomposites for white light-emitting diodes", "abstract": "As a promising energy-saving technique, the eco-friendly and low-cost solid-state white light-emitting diodes (WLEDs) based on quantum dots (QDs) have been widely studied. Herein, a WLED device prepar...", "citations": 30, "author_count": 12, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 366, "doi": "10.1016/j.cej.2020.124654", "umap_coordinates": { "x": 392.64996337890625, "y": 133.5921630859375, "z": 205.28404235839844 }, "tsne_coordinates": { "x": 26.163148880004883, "y": 8.806121826171875, "z": -7.050056457519531 }, "pca_coordinates": { "x": -4.050758361816406, "y": -3.3986639976501465, "z": -0.8874342441558838 }, "axis_scores": { "Quantum imaging": 0.6926869750022888, "Quantum Life Science Sensing": 0.7173603773117065, "Quantum sensing Detection": 0.6903834939002991, "Quantum sensing Metrology": 0.6744388341903687, "Quantum sensing navigation": 0.688113272190094, "Quantum sensing Position": 0.6705341339111328, "Quantum sensing Timing": 0.6616019010543823, "Quantum sensing": 0.7013764381408691, "Quantum control": 0.7059574723243713 } }, { "id": 367, "title": "Entanglement measures of Majorana bound states", "abstract": "Majorana bound states emerge in topological superconductors as zero-energy edge states exhibiting spatial nonlocality. Despite the enormous advances, the detection of Majorana bound states is still ch...", "citations": 8, "author_count": 3, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 367, "doi": "10.1103/PhysRevB.110.224510", "umap_coordinates": { "x": 395.4039611816406, "y": 136.7165985107422, "z": 208.18020629882812 }, "tsne_coordinates": { "x": -23.19557762145996, "y": -11.849761009216309, "z": 8.439677238464355 }, "pca_coordinates": { "x": 5.4890666007995605, "y": 0.6301268339157104, "z": 0.5814034342765808 }, "axis_scores": { "Quantum imaging": 0.7480971813201904, "Quantum Life Science Sensing": 0.7356940507888794, "Quantum sensing Detection": 0.7583180665969849, "Quantum sensing Metrology": 0.7421600222587585, "Quantum sensing navigation": 0.7543877363204956, "Quantum sensing Position": 0.7359070777893066, "Quantum sensing Timing": 0.6977559328079224, "Quantum sensing": 0.760860025882721, "Quantum control": 0.7333031892776489 } }, { "id": 368, "title": "Quantum computation in noiseless subsystems with fast non-Abelian holonomies", "abstract": "Quantum-information processing requires a high degree of isolation from the detrimental effects of the environment as well as an extremely precise level of control of the way quantum dynamics unfolds ...", "citations": 93, "author_count": 6, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 368, "doi": "10.1103/PhysRevA.89.042302", "umap_coordinates": { "x": 395.2283935546875, "y": 136.81166076660156, "z": 208.30459594726562 }, "tsne_coordinates": { "x": -25.708120346069336, "y": -25.875255584716797, "z": 12.408637046813965 }, "pca_coordinates": { "x": 5.362928867340088, "y": 0.7923489809036255, "z": 0.5695187449455261 }, "axis_scores": { "Quantum imaging": 0.7255498170852661, "Quantum Life Science Sensing": 0.7164087891578674, "Quantum sensing Detection": 0.7295657992362976, "Quantum sensing Metrology": 0.711757481098175, "Quantum sensing navigation": 0.7428186535835266, "Quantum sensing Position": 0.6860643625259399, "Quantum sensing Timing": 0.7037469744682312, "Quantum sensing": 0.7366890907287598, "Quantum control": 0.7203705906867981 } }, { "id": 369, "title": "Efficient source of single photons: A single quantum dot in a micropost microcavity", "abstract": "We have demonstrated efficient production of triggered single photons by coupling a single semiconductor quantum dot to a three-dimensionally confined optical mode in a micropost microcavity. The effi...", "citations": 662, "author_count": 8, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 369, "doi": "10.1103/PhysRevLett.89.233602", "umap_coordinates": { "x": 394.57196044921875, "y": 133.9757537841797, "z": 208.22042846679688 }, "tsne_coordinates": { "x": -0.9751233458518982, "y": -22.28152847290039, "z": -11.474142074584961 }, "pca_coordinates": { "x": 2.1893668174743652, "y": -3.031911849975586, "z": 3.321227550506592 }, "axis_scores": { "Quantum imaging": 0.7411940693855286, "Quantum Life Science Sensing": 0.7495037317276001, "Quantum sensing Detection": 0.764853298664093, "Quantum sensing Metrology": 0.7504191398620605, "Quantum sensing navigation": 0.7334629893302917, "Quantum sensing Position": 0.7105233073234558, "Quantum sensing Timing": 0.7065684199333191, "Quantum sensing": 0.763687014579773, "Quantum control": 0.7055830359458923 } }, { "id": 370, "title": "Linearly polarized single photon antibunching from a site-controlled InGaN quantum dot", "abstract": "We report on the observation of linearly polarized single photon antibunching in the excitonic emission from a site-controlled InGaN quantum dot. The measured second order coherence function exhibits ...", "citations": 16, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 370, "doi": "10.1063/1.4893476", "umap_coordinates": { "x": 394.0079040527344, "y": 133.53713989257812, "z": 207.9828643798828 }, "tsne_coordinates": { "x": 22.714569091796875, "y": -21.773868560791016, "z": -11.48427963256836 }, "pca_coordinates": { "x": 1.5213837623596191, "y": -3.7131552696228027, "z": 3.7022714614868164 }, "axis_scores": { "Quantum imaging": 0.7433673143386841, "Quantum Life Science Sensing": 0.7022609710693359, "Quantum sensing Detection": 0.7442148923873901, "Quantum sensing Metrology": 0.7176506519317627, "Quantum sensing navigation": 0.7263779640197754, "Quantum sensing Position": 0.7156639099121094, "Quantum sensing Timing": 0.6963227391242981, "Quantum sensing": 0.7462171912193298, "Quantum control": 0.6956135034561157 } }, { "id": 371, "title": "Simulating Positive-Operator-Valued Measures with Projective Measurements", "abstract": "Standard projective measurements (PMs) represent a subset of all possible measurements in quantum physics, defined by positive-operator-valued measures. We study what quantum measurements are projecti...", "citations": 102, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 371, "doi": "10.1103/PhysRevLett.119.190501", "umap_coordinates": { "x": 395.97113037109375, "y": 136.44744873046875, "z": 207.7074432373047 }, "tsne_coordinates": { "x": -22.96578598022461, "y": -14.687851905822754, "z": -8.25805377960205 }, "pca_coordinates": { "x": 3.551342010498047, "y": 2.5416064262390137, "z": 4.191041946411133 }, "axis_scores": { "Quantum imaging": 0.7610064744949341, "Quantum Life Science Sensing": 0.7407689094543457, "Quantum sensing Detection": 0.7639707326889038, "Quantum sensing Metrology": 0.7594919800758362, "Quantum sensing navigation": 0.755700945854187, "Quantum sensing Position": 0.7502698302268982, "Quantum sensing Timing": 0.7562613487243652, "Quantum sensing": 0.7698307633399963, "Quantum control": 0.7194861769676208 } }, { "id": 372, "title": "Single Photon Sources from 2D-Materials and Interfacing with Waveguides for Quantum Technological Applications", "abstract": "Photonic quantum technological applications require single photon sources as sources of qubits. Two-dimensional (2D) material platforms have emerged as deterministic, scalable, and on-chip integrated ...", "citations": 1, "author_count": 7, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 372, "doi": "10.1002/qute.202400648", "umap_coordinates": { "x": 394.0403747558594, "y": 133.5539093017578, "z": 206.94029235839844 }, "tsne_coordinates": { "x": 0.33513060212135315, "y": -18.531843185424805, "z": -19.10164451599121 }, "pca_coordinates": { "x": -1.608101487159729, "y": -2.74117374420166, "z": 3.105048418045044 }, "axis_scores": { "Quantum imaging": 0.7536808848381042, "Quantum Life Science Sensing": 0.7498108744621277, "Quantum sensing Detection": 0.7409730553627014, "Quantum sensing Metrology": 0.7597760558128357, "Quantum sensing navigation": 0.7353476881980896, "Quantum sensing Position": 0.7109284996986389, "Quantum sensing Timing": 0.7245513200759888, "Quantum sensing": 0.7561760544776917, "Quantum control": 0.7073858380317688 } }, { "id": 373, "title": "ABSENCE OF VALLEY SPLITTING AND QUANTUM INTERFERENCE EFFECTS IN THE QUANTUM HALL REGIME OF A NARROW 2 DIMENSIONAL ELECTRON-GAS IN SI", "abstract": "", "citations": 11, "author_count": 6, "categories": [ "Physics" ], "year": 1989, "topic": [ "all" ], "embedding_index": 373, "doi": "10.1016/0038-1098(89)90248-2", "umap_coordinates": { "x": 393.70318603515625, "y": 135.19509887695312, "z": 207.9371337890625 }, "tsne_coordinates": { "x": 15.350096702575684, "y": -20.772350311279297, "z": 6.779139041900635 }, "pca_coordinates": { "x": 1.8367547988891602, "y": -0.0970461368560791, "z": 1.4542667865753174 }, "axis_scores": { "Quantum imaging": 0.6924526691436768, "Quantum Life Science Sensing": 0.6923170685768127, "Quantum sensing Detection": 0.6902318000793457, "Quantum sensing Metrology": 0.6814291477203369, "Quantum sensing navigation": 0.6954936385154724, "Quantum sensing Position": 0.6741912364959717, "Quantum sensing Timing": 0.6622953414916992, "Quantum sensing": 0.6921769380569458, "Quantum control": 0.6481468677520752 } }, { "id": 374, "title": "Deterministic Generation of Frequency-Bin-Encoded Microwave Photons", "abstract": "A distributed quantum computing network requires a quantum communication channel between spatially separated processing units. In superconducting circuits, such a channel can be implemented based on p...", "citations": 2, "author_count": 11, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 374, "doi": "10.1103/PhysRevLett.134.240803", "umap_coordinates": { "x": 395.1955871582031, "y": 135.92971801757812, "z": 207.4032440185547 }, "tsne_coordinates": { "x": -4.256166458129883, "y": -24.0125789642334, "z": -15.337994575500488 }, "pca_coordinates": { "x": 4.398558139801025, "y": 0.5208938121795654, "z": 1.0270323753356934 }, "axis_scores": { "Quantum imaging": 0.741024911403656, "Quantum Life Science Sensing": 0.7387384176254272, "Quantum sensing Detection": 0.7524266242980957, "Quantum sensing Metrology": 0.7386043071746826, "Quantum sensing navigation": 0.7592011094093323, "Quantum sensing Position": 0.7062644958496094, "Quantum sensing Timing": 0.739924967288971, "Quantum sensing": 0.7589519023895264, "Quantum control": 0.7253816723823547 } }, { "id": 375, "title": "Coupling between lateral modes in a vertical resonant tunneling structure", "abstract": "We present experimental results and theoretical calculations of the vertical electron transport through a laterally constricted resonant tunneling transistor. Current-voltage measurements at 4.2 K sho...", "citations": 2, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 375, "doi": "10.1016/S1386-9477(02)00242-4", "umap_coordinates": { "x": 393.6272277832031, "y": 135.50814819335938, "z": 206.9077606201172 }, "tsne_coordinates": { "x": 23.26030158996582, "y": -6.240787029266357, "z": 24.343835830688477 }, "pca_coordinates": { "x": 0.7790896892547607, "y": 1.072924017906189, "z": 0.21515172719955444 }, "axis_scores": { "Quantum imaging": 0.6860448122024536, "Quantum Life Science Sensing": 0.6697490215301514, "Quantum sensing Detection": 0.6640123724937439, "Quantum sensing Metrology": 0.6659563779830933, "Quantum sensing navigation": 0.695306122303009, "Quantum sensing Position": 0.6712462902069092, "Quantum sensing Timing": 0.6634879112243652, "Quantum sensing": 0.6776901483535767, "Quantum control": 0.6635414361953735 } }, { "id": 376, "title": "FLUXOID QUANTIZATION IN QUANTUM DOTS WITH LANDAU-LEVEL EDGE STATES", "abstract": "The conductance of a GaAs/GaAlAs quantum dot with only one spin-degenerate Landau level populated exhibits Aharonov-Bohm type oscillations when plotted as a function of magnetic field. The conductance...", "citations": 1, "author_count": 5, "categories": [ "Engineering" ], "year": 1995, "topic": [ "all" ], "embedding_index": 376, "doi": "10.1088/0268-1242/10/10/004", "umap_coordinates": { "x": 393.8027648925781, "y": 135.3544921875, "z": 207.56771850585938 }, "tsne_coordinates": { "x": 23.173477172851562, "y": -14.768857955932617, "z": 16.554574966430664 }, "pca_coordinates": { "x": 1.6768522262573242, "y": 0.023876190185546875, "z": 0.14094942808151245 }, "axis_scores": { "Quantum imaging": 0.7443883419036865, "Quantum Life Science Sensing": 0.7168740034103394, "Quantum sensing Detection": 0.711583137512207, "Quantum sensing Metrology": 0.7077398896217346, "Quantum sensing navigation": 0.7309316396713257, "Quantum sensing Position": 0.7099992036819458, "Quantum sensing Timing": 0.6907410621643066, "Quantum sensing": 0.7212729454040527, "Quantum control": 0.719892144203186 } }, { "id": 377, "title": "Direct measurement of spin dynamics in InAs/GaAs quantum dots using time-resolved resonance fluorescence", "abstract": "We temporally resolve the resonance fluorescence from an electron spin confined to a single self-assembled quantum dot to measure directly the spin's optical initialization and natural relaxation time...", "citations": 61, "author_count": 8, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 377, "doi": "10.1103/PhysRevB.81.035332", "umap_coordinates": { "x": 393.11065673828125, "y": 135.22113037109375, "z": 208.43760681152344 }, "tsne_coordinates": { "x": 9.917207717895508, "y": -30.02190589904785, "z": 3.2598073482513428 }, "pca_coordinates": { "x": 2.9970545768737793, "y": -2.621957778930664, "z": 0.36332935094833374 }, "axis_scores": { "Quantum imaging": 0.7437015175819397, "Quantum Life Science Sensing": 0.773125946521759, "Quantum sensing Detection": 0.7563354969024658, "Quantum sensing Metrology": 0.7317792177200317, "Quantum sensing navigation": 0.7536914348602295, "Quantum sensing Position": 0.7323668003082275, "Quantum sensing Timing": 0.7231196165084839, "Quantum sensing": 0.7652155160903931, "Quantum control": 0.7228147983551025 } }, { "id": 378, "title": "Basic Modeling of Openness, Quantum States and Transport in Two- and Three-Dimensional Ballistic Cavities", "abstract": "A basic model for particle states and current flow in open quantum dots/billiards are investigated. The model is unconventional and extends the use of complex potentials first introduced in phenomenol...", "citations": 1, "author_count": 3, "categories": [ "Mathematics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 378, "doi": null, "umap_coordinates": { "x": 392.10223388671875, "y": 139.33502197265625, "z": 208.93035888671875 }, "tsne_coordinates": { "x": -12.580340385437012, "y": 42.11872863769531, "z": -2.751657247543335 }, "pca_coordinates": { "x": 1.6966004371643066, "y": 3.82108211517334, "z": -2.6080965995788574 }, "axis_scores": { "Quantum imaging": 0.765593409538269, "Quantum Life Science Sensing": 0.7598048448562622, "Quantum sensing Detection": 0.749417781829834, "Quantum sensing Metrology": 0.7542155981063843, "Quantum sensing navigation": 0.7681925296783447, "Quantum sensing Position": 0.7142413258552551, "Quantum sensing Timing": 0.708737850189209, "Quantum sensing": 0.7679809331893921, "Quantum control": 0.7708999514579773 } }, { "id": 379, "title": "Spin-orbit-enhanced Wigner localization in quantum dots", "abstract": "We investigate quantum dots with Rashba spin-orbit coupling in the strongly-correlated regime. We show that the presence of the Rashba interaction enhances the Wigner localization in these systems, ma...", "citations": 10, "author_count": 5, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 379, "doi": "10.1103/PhysRevB.84.235117", "umap_coordinates": { "x": 394.0314025878906, "y": 135.51553344726562, "z": 209.31459045410156 }, "tsne_coordinates": { "x": 4.2601470947265625, "y": -27.663236618041992, "z": 5.0466108322143555 }, "pca_coordinates": { "x": 4.025462627410889, "y": -3.2805533409118652, "z": 1.1126351356506348 }, "axis_scores": { "Quantum imaging": 0.7344589829444885, "Quantum Life Science Sensing": 0.71881502866745, "Quantum sensing Detection": 0.7359616756439209, "Quantum sensing Metrology": 0.7221527695655823, "Quantum sensing navigation": 0.7379488945007324, "Quantum sensing Position": 0.7054972648620605, "Quantum sensing Timing": 0.6963804364204407, "Quantum sensing": 0.7447185516357422, "Quantum control": 0.7204283475875854 } }, { "id": 380, "title": "Generalized measurements on qubits in quantum randomness certification and expansion", "abstract": "Quantum mechanics has greatly impacted our understanding of microscopic nature. One of the key concepts of this theory is generalized measurements, which have proven useful in various quantum informat...", "citations": 4, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 380, "doi": "10.1103/PhysRevApplied.22.044041", "umap_coordinates": { "x": 395.57611083984375, "y": 136.87100219726562, "z": 207.32354736328125 }, "tsne_coordinates": { "x": -27.405447006225586, "y": -14.82956314086914, "z": -0.4397112727165222 }, "pca_coordinates": { "x": 4.206955432891846, "y": 2.4158244132995605, "z": 0.26316410303115845 }, "axis_scores": { "Quantum imaging": 0.7488976716995239, "Quantum Life Science Sensing": 0.7552820444107056, "Quantum sensing Detection": 0.7647747993469238, "Quantum sensing Metrology": 0.7629719376564026, "Quantum sensing navigation": 0.7733246088027954, "Quantum sensing Position": 0.7465507388114929, "Quantum sensing Timing": 0.733928918838501, "Quantum sensing": 0.780366837978363, "Quantum control": 0.7400271892547607 } }, { "id": 381, "title": "Dispersive charge and flux qubit readout as a quantum measurement process", "abstract": "We analyze the dispersive readout of superconducting charge and flux qubits as a quantum measurement process. The measurement oscillator frequency is considered much lower than the qubit frequency. Th...", "citations": 7, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 381, "doi": "10.1007/s10909-006-9261-1", "umap_coordinates": { "x": 393.7516174316406, "y": 136.1567840576172, "z": 206.7456512451172 }, "tsne_coordinates": { "x": -11.520472526550293, "y": 4.3853278160095215, "z": 11.975226402282715 }, "pca_coordinates": { "x": 0.7424502372741699, "y": 0.3260674476623535, "z": 0.3010196089744568 }, "axis_scores": { "Quantum imaging": 0.7474459409713745, "Quantum Life Science Sensing": 0.7601089477539062, "Quantum sensing Detection": 0.7590851783752441, "Quantum sensing Metrology": 0.7464041709899902, "Quantum sensing navigation": 0.7625133991241455, "Quantum sensing Position": 0.7567644119262695, "Quantum sensing Timing": 0.7262025475502014, "Quantum sensing": 0.7703757286071777, "Quantum control": 0.7341200709342957 } }, { "id": 382, "title": "Interface-resolved photovoltage generation dynamics and band structure evolution in a PbS quantum dot solar cell", "abstract": "For directed development of solar cells using nanomaterials such as quantum dots, there is a need to understand the device function in detail. Understanding where photovoltage is generated in a device...", "citations": 5, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 382, "doi": "10.1039/d4nr03428g", "umap_coordinates": { "x": 392.0666809082031, "y": 135.14512634277344, "z": 207.0989532470703 }, "tsne_coordinates": { "x": 14.708128929138184, "y": -0.5026088356971741, "z": 1.7730274200439453 }, "pca_coordinates": { "x": 0.4701497554779053, "y": -4.705142974853516, "z": -2.4795987606048584 }, "axis_scores": { "Quantum imaging": 0.7016644477844238, "Quantum Life Science Sensing": 0.7510732412338257, "Quantum sensing Detection": 0.6907799243927002, "Quantum sensing Metrology": 0.6679147481918335, "Quantum sensing navigation": 0.7053027153015137, "Quantum sensing Position": 0.6832906603813171, "Quantum sensing Timing": 0.6492577791213989, "Quantum sensing": 0.6964264512062073, "Quantum control": 0.6832748651504517 } }, { "id": 383, "title": "Effect of the change of heteroatom on phenyl capped benzazole: Photophysical and electrochemical properties from the structural viewpoint", "abstract": "Donor-acceptor-donor type phenyl capped benzazoles were synthesized and their photophysical properties were studied. By changing the heteroatom (N, O, S and Se) of central acceptor benzazole unit, the...", "citations": 8, "author_count": 4, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 383, "doi": "10.1016/j.jlumin.2017.10.029", "umap_coordinates": { "x": 392.7286376953125, "y": 135.90438842773438, "z": 204.69949340820312 }, "tsne_coordinates": { "x": 5.773988246917725, "y": 11.185738563537598, "z": -3.824728012084961 }, "pca_coordinates": { "x": -2.750065803527832, "y": -0.6993253231048584, "z": -3.027881383895874 }, "axis_scores": { "Quantum imaging": 0.7360236644744873, "Quantum Life Science Sensing": 0.7409560084342957, "Quantum sensing Detection": 0.7238717675209045, "Quantum sensing Metrology": 0.7095775008201599, "Quantum sensing navigation": 0.7130727171897888, "Quantum sensing Position": 0.7358293533325195, "Quantum sensing Timing": 0.6846890449523926, "Quantum sensing": 0.7393931150436401, "Quantum control": 0.7409759759902954 } }, { "id": 384, "title": "FABRICATION AND CHARACTERIZATION OF SI-SI0.7GE0.3 QUANTUM-DOT LIGHT-EMITTING-DIODES", "abstract": "The fabrication and room temperature operation of 50 nm quantum dot light emitting diodes based on Si-Si0.7Ge0.3 superlattices is described. The diodes emit light efficiently at 1.3 mu m at room tempe...", "citations": 50, "author_count": 5, "categories": [ "Engineering" ], "year": 1995, "topic": [ "all" ], "embedding_index": 384, "doi": "10.1049/el:19950924", "umap_coordinates": { "x": 393.6383972167969, "y": 133.59678649902344, "z": 207.16490173339844 }, "tsne_coordinates": { "x": 40.68674850463867, "y": -5.680196762084961, "z": 0.5227245092391968 }, "pca_coordinates": { "x": -0.7654932737350464, "y": -0.6292660236358643, "z": 1.559023141860962 }, "axis_scores": { "Quantum imaging": 0.734433114528656, "Quantum Life Science Sensing": 0.7604868412017822, "Quantum sensing Detection": 0.7344407439231873, "Quantum sensing Metrology": 0.7230015993118286, "Quantum sensing navigation": 0.7198911905288696, "Quantum sensing Position": 0.7204630970954895, "Quantum sensing Timing": 0.6842899918556213, "Quantum sensing": 0.7394022345542908, "Quantum control": 0.7065891027450562 } }, { "id": 385, "title": "Four-Terminal Tandem Solar Cell with Dye-Sensitized and PbS Colloidal Quantum-Dot-Based Subcells", "abstract": "In this work, high-performance four-terminal solution-processed tandem solar cells were fabricated by using dye-sensitized solar cells (DSSCs) as top-cells and lead sulfide (PbS) colloidal quantum dot...", "citations": 31, "author_count": 10, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 385, "doi": "10.1021/acsaem.0c00030", "umap_coordinates": { "x": 391.8313293457031, "y": 134.2963104248047, "z": 205.6522216796875 }, "tsne_coordinates": { "x": 24.69896125793457, "y": -5.047933578491211, "z": -13.128301620483398 }, "pca_coordinates": { "x": -2.3965983390808105, "y": -4.076699256896973, "z": 0.6813399195671082 }, "axis_scores": { "Quantum imaging": 0.6639665365219116, "Quantum Life Science Sensing": 0.6955646276473999, "Quantum sensing Detection": 0.6623395681381226, "Quantum sensing Metrology": 0.6561656594276428, "Quantum sensing navigation": 0.6490949392318726, "Quantum sensing Position": 0.6599537134170532, "Quantum sensing Timing": 0.6568848490715027, "Quantum sensing": 0.671834409236908, "Quantum control": 0.6297109127044678 } }, { "id": 386, "title": "The role of quantum coherence in dimer and trimer excitation energy transfer", "abstract": "Recent progress in resource theory of quantum coherence has resulted in measures to quantify coherence in quantum systems. Especially, the l1-norm and relative entropy of coherence have been shown to ...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 386, "doi": "10.1088/1367-2630/aa916b", "umap_coordinates": { "x": 393.53179931640625, "y": 136.39744567871094, "z": 206.27401733398438 }, "tsne_coordinates": { "x": 8.887880325317383, "y": -0.7411099076271057, "z": 18.21417236328125 }, "pca_coordinates": { "x": 1.3538336753845215, "y": 0.667156457901001, "z": -1.489560604095459 }, "axis_scores": { "Quantum imaging": 0.7399193644523621, "Quantum Life Science Sensing": 0.7441146373748779, "Quantum sensing Detection": 0.720521867275238, "Quantum sensing Metrology": 0.7094733715057373, "Quantum sensing navigation": 0.7065979838371277, "Quantum sensing Position": 0.6986322402954102, "Quantum sensing Timing": 0.7108656167984009, "Quantum sensing": 0.7374042272567749, "Quantum control": 0.7262960076332092 } }, { "id": 387, "title": "PRACTICAL ASPECTS OF 2D NMR FOR ASSIGNING THE NON-EXCHANGEABLE PROTONS IN DNA-RNA FRAGMENTS", "abstract": "Using the branched trimer A3''-5''A2--5''A as an example, different 2D NMR experiments such as homonuclear correlations via single-quantum coherence, double-quantum filtration via double-quantum coher...", "citations": 2, "author_count": 2, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1988, "topic": [ "all" ], "embedding_index": 387, "doi": "10.1016/0165-022X(88)90049-8", "umap_coordinates": { "x": 392.6993103027344, "y": 136.86373901367188, "z": 205.8907470703125 }, "tsne_coordinates": { "x": 13.026474952697754, "y": 8.397994041442871, "z": 26.774816513061523 }, "pca_coordinates": { "x": -2.5106024742126465, "y": 3.0293750762939453, "z": -2.8483376502990723 }, "axis_scores": { "Quantum imaging": 0.6610848903656006, "Quantum Life Science Sensing": 0.6754515171051025, "Quantum sensing Detection": 0.625839352607727, "Quantum sensing Metrology": 0.6357079148292542, "Quantum sensing navigation": 0.6569392085075378, "Quantum sensing Position": 0.6523816585540771, "Quantum sensing Timing": 0.6209614276885986, "Quantum sensing": 0.6480796337127686, "Quantum control": 0.6301091313362122 } }, { "id": 388, "title": "Quantum networks using rare-earth ions", "abstract": "We review concepts and recent work related to creating light-matter interfaces for future quantum networks based on rare-earth ion-doped crystals. More precisely, we explore their unique suitability f...", "citations": 9, "author_count": 6, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 388, "doi": "10.1088/2058-9565/addd93", "umap_coordinates": { "x": 395.0364990234375, "y": 136.61741638183594, "z": 207.0243377685547 }, "tsne_coordinates": { "x": -35.09105682373047, "y": -9.168484687805176, "z": -2.109377384185791 }, "pca_coordinates": { "x": 1.2228689193725586, "y": 1.3609169721603394, "z": 1.340118408203125 }, "axis_scores": { "Quantum imaging": 0.7464383244514465, "Quantum Life Science Sensing": 0.7342076301574707, "Quantum sensing Detection": 0.7342509627342224, "Quantum sensing Metrology": 0.7280176877975464, "Quantum sensing navigation": 0.7481017708778381, "Quantum sensing Position": 0.7046427130699158, "Quantum sensing Timing": 0.70421302318573, "Quantum sensing": 0.7457199096679688, "Quantum control": 0.7060078978538513 } }, { "id": 389, "title": "Can chemistry be derived from quantum mechanics? Chemical dynamics and structure", "abstract": "Following an early suggestion by Dirac, contemporary quantum mechanics (QM) and measurement theory are used to stepwise construct a conceptual framework to chemistry. In QM arbitrary physical quantum ...", "citations": 11, "author_count": 2, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 389, "doi": "10.1007/s10910-005-9012-6", "umap_coordinates": { "x": 394.74676513671875, "y": 137.70193481445312, "z": 206.0599822998047 }, "tsne_coordinates": { "x": -33.720603942871094, "y": 9.315479278564453, "z": 17.599647521972656 }, "pca_coordinates": { "x": 0.9885079860687256, "y": 2.6973445415496826, "z": -3.653895139694214 }, "axis_scores": { "Quantum imaging": 0.7145063877105713, "Quantum Life Science Sensing": 0.7779597043991089, "Quantum sensing Detection": 0.7198612689971924, "Quantum sensing Metrology": 0.7119216918945312, "Quantum sensing navigation": 0.7421407103538513, "Quantum sensing Position": 0.697125256061554, "Quantum sensing Timing": 0.665723443031311, "Quantum sensing": 0.7338276505470276, "Quantum control": 0.7273854613304138 } }, { "id": 390, "title": "Magneto-photoluminescence studies of Zn1-xMnxTe/ZnTe multiple quantum-well and quantum-dot structures", "abstract": "Wide quantum dots were fabricated from multiple quantum-well (MQW) structures based on Zn1-xMnxTe/ZnTe (x = 0.076) dilute magnetic semiconductors and were investigated via photoluminescence (PL) in a ...", "citations": 1, "author_count": 8, "categories": [ "Crystallography" ], "year": 1998, "topic": [ "all" ], "embedding_index": 390, "doi": null, "umap_coordinates": { "x": 391.8455810546875, "y": 139.67271423339844, "z": 209.4963836669922 }, "tsne_coordinates": { "x": -4.789937973022461, "y": 43.56356430053711, "z": -2.900189161300659 }, "pca_coordinates": { "x": -2.385195732116699, "y": 2.7031760215759277, "z": -2.8021554946899414 }, "axis_scores": { "Quantum imaging": 0.7494466304779053, "Quantum Life Science Sensing": 0.7580382823944092, "Quantum sensing Detection": 0.744107723236084, "Quantum sensing Metrology": 0.7407525181770325, "Quantum sensing navigation": 0.739631712436676, "Quantum sensing Position": 0.7092481255531311, "Quantum sensing Timing": 0.6986818313598633, "Quantum sensing": 0.7605677247047424, "Quantum control": 0.7647745013237 } }, { "id": 391, "title": "Magnetism in one-dimensional quantum dot arrays - art. no. 165324", "abstract": "We employ the density functional Kohn-Sham method in the local spin-density approximation to study the electronic structure and magnetism of quasi-one-dimensional periodic arrays of few-electron quant...", "citations": 9, "author_count": 5, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 391, "doi": "10.1103/PhysRevB.72.165324", "umap_coordinates": { "x": 394.030029296875, "y": 135.46878051757812, "z": 209.2047119140625 }, "tsne_coordinates": { "x": 2.2566373348236084, "y": -33.58694839477539, "z": 6.406439781188965 }, "pca_coordinates": { "x": 4.527171611785889, "y": -2.5965147018432617, "z": -0.5814819931983948 }, "axis_scores": { "Quantum imaging": 0.7107096314430237, "Quantum Life Science Sensing": 0.7191437482833862, "Quantum sensing Detection": 0.715828537940979, "Quantum sensing Metrology": 0.7296263575553894, "Quantum sensing navigation": 0.7250045537948608, "Quantum sensing Position": 0.7032632827758789, "Quantum sensing Timing": 0.6818910837173462, "Quantum sensing": 0.7239753007888794, "Quantum control": 0.6989280581474304 } }, { "id": 392, "title": "Heat rectification through single and coupled quantum dots", "abstract": "We study heat rectification through quantum dots in the Coulomb blockade regime using a master equation approach. We consider both cases of two-terminal and four-terminal devices. In the two-terminal ...", "citations": 33, "author_count": 7, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 392, "doi": "10.1088/1367-2630/ac53b8", "umap_coordinates": { "x": 394.4610290527344, "y": 134.1688995361328, "z": 207.91409301757812 }, "tsne_coordinates": { "x": 0.0049558780156075954, "y": -26.078577041625977, "z": -19.438417434692383 }, "pca_coordinates": { "x": 0.7935854196548462, "y": -1.741689682006836, "z": 1.707336664199829 }, "axis_scores": { "Quantum imaging": 0.7489169836044312, "Quantum Life Science Sensing": 0.7552228569984436, "Quantum sensing Detection": 0.7438854575157166, "Quantum sensing Metrology": 0.7409572005271912, "Quantum sensing navigation": 0.7264869809150696, "Quantum sensing Position": 0.6898630261421204, "Quantum sensing Timing": 0.7004362940788269, "Quantum sensing": 0.7685176134109497, "Quantum control": 0.7585572004318237 } }, { "id": 393, "title": "SWITCH ENERGY ANALYSIS OF QUANTUM INTERFERENCE DIRECTIONAL-COUPLERS", "abstract": "Electronic quantum interference directional coupler switches are analyzed in terms of switching voltages, energies, and speeds and shown to be superior to present electronic switches. Comparison with ...", "citations": 10, "author_count": 3, "categories": [ "Engineering" ], "year": 1992, "topic": [ "all" ], "embedding_index": 393, "doi": "10.1109/3.119490", "umap_coordinates": { "x": 394.17059326171875, "y": 134.97515869140625, "z": 207.75413513183594 }, "tsne_coordinates": { "x": 11.252140045166016, "y": -37.577606201171875, "z": -14.237648963928223 }, "pca_coordinates": { "x": 2.339110851287842, "y": -0.3221919536590576, "z": 0.4674984812736511 }, "axis_scores": { "Quantum imaging": 0.7487008571624756, "Quantum Life Science Sensing": 0.7520999908447266, "Quantum sensing Detection": 0.7560933232307434, "Quantum sensing Metrology": 0.7375603914260864, "Quantum sensing navigation": 0.7471007108688354, "Quantum sensing Position": 0.7272336483001709, "Quantum sensing Timing": 0.7126172780990601, "Quantum sensing": 0.765657365322113, "Quantum control": 0.739598274230957 } }, { "id": 394, "title": "Deterministic Integration of Single Photon Sources in Silicon Based Photonic Circuits", "abstract": "A major step toward fully integrated quantum optics is the deterministic incorporation of high quality single photon sources in on-chip optical circuits. We show a novel hybrid approach in which prese...", "citations": 180, "author_count": 9, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 394, "doi": "10.1021/acs.nanolett.5b04709", "umap_coordinates": { "x": 394.1546936035156, "y": 133.3568572998047, "z": 207.39601135253906 }, "tsne_coordinates": { "x": 15.217840194702148, "y": -14.389761924743652, "z": -21.65367889404297 }, "pca_coordinates": { "x": 0.20868754386901855, "y": -2.8387904167175293, "z": 3.845520496368408 }, "axis_scores": { "Quantum imaging": 0.738029956817627, "Quantum Life Science Sensing": 0.7355907559394836, "Quantum sensing Detection": 0.750751256942749, "Quantum sensing Metrology": 0.7447545528411865, "Quantum sensing navigation": 0.7564979791641235, "Quantum sensing Position": 0.7363952994346619, "Quantum sensing Timing": 0.7441574335098267, "Quantum sensing": 0.7529666423797607, "Quantum control": 0.7045177221298218 } }, { "id": 395, "title": "Fast generation of Schrödinger cat states using a Kerr-tunable superconducting resonator", "abstract": "Schrodinger cat states, quantum superpositions of macroscopically distinct classical states, are an important resource for quantum communication, quantum metrology and quantum computation. Especially,...", "citations": 32, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 395, "doi": "10.1038/s41467-023-42057-0", "umap_coordinates": { "x": 394.30682373046875, "y": 135.26954650878906, "z": 206.8627471923828 }, "tsne_coordinates": { "x": 1.6455118656158447, "y": -9.756933212280273, "z": 13.795600891113281 }, "pca_coordinates": { "x": 0.4224116802215576, "y": 0.000225067138671875, "z": 0.5668044686317444 }, "axis_scores": { "Quantum imaging": 0.7056476473808289, "Quantum Life Science Sensing": 0.7363272905349731, "Quantum sensing Detection": 0.7218543291091919, "Quantum sensing Metrology": 0.7080451846122742, "Quantum sensing navigation": 0.7237406373023987, "Quantum sensing Position": 0.6935332417488098, "Quantum sensing Timing": 0.7063811421394348, "Quantum sensing": 0.7360495328903198, "Quantum control": 0.6966456174850464 } }, { "id": 396, "title": "Low contact resistance in epitaxial graphene devices for quantum metrology", "abstract": "We investigate Ti/Au contacts to monolayer epitaxial graphene on SiC (0001) for applications in quantum resistance metrology. Using three-terminal measurements in the quantum Hall regime we observed v...", "citations": 24, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 396, "doi": "10.1063/1.4928653", "umap_coordinates": { "x": 393.88409423828125, "y": 134.19187927246094, "z": 207.9439697265625 }, "tsne_coordinates": { "x": 26.927499771118164, "y": -33.25673294067383, "z": 0.14057953655719757 }, "pca_coordinates": { "x": 2.359663486480713, "y": -2.1496310234069824, "z": 1.544255018234253 }, "axis_scores": { "Quantum imaging": 0.7065646648406982, "Quantum Life Science Sensing": 0.7444072961807251, "Quantum sensing Detection": 0.7454341053962708, "Quantum sensing Metrology": 0.7642149925231934, "Quantum sensing navigation": 0.7260850667953491, "Quantum sensing Position": 0.7321662902832031, "Quantum sensing Timing": 0.6922928690910339, "Quantum sensing": 0.7520738840103149, "Quantum control": 0.7029083371162415 } }, { "id": 397, "title": "Coupling of an erbium spin ensemble to a superconducting resonator", "abstract": "A quantum coherent interface between optical and microwave photons can be used as a basic building block within a future quantum information network. The interface is envisioned as an ensemble of rare...", "citations": 35, "author_count": 13, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 397, "doi": "10.1088/0953-4075/45/12/124019", "umap_coordinates": { "x": 394.45361328125, "y": 135.9289093017578, "z": 207.30441284179688 }, "tsne_coordinates": { "x": 0.1692587435245514, "y": -14.392942428588867, "z": 29.576501846313477 }, "pca_coordinates": { "x": 1.6925134658813477, "y": 0.6371607780456543, "z": 0.5957159399986267 }, "axis_scores": { "Quantum imaging": 0.704788088798523, "Quantum Life Science Sensing": 0.7242220640182495, "Quantum sensing Detection": 0.7128427028656006, "Quantum sensing Metrology": 0.696318507194519, "Quantum sensing navigation": 0.7228857278823853, "Quantum sensing Position": 0.7204688191413879, "Quantum sensing Timing": 0.6980736255645752, "Quantum sensing": 0.7257010340690613, "Quantum control": 0.6938552260398865 } }, { "id": 398, "title": "Electro-optic switch based on near-field-coupled quantum dots", "abstract": "The propagation of exciton polaritons in near-field-coupled quantum-dot (QD) chains is modeled by a density-matrix formalism. It is shown that at least for low-temperature operation it is possible usi...", "citations": 9, "author_count": 3, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 398, "doi": "10.1007/s00339-014-8420-5", "umap_coordinates": { "x": 393.9875793457031, "y": 134.76296997070312, "z": 206.18907165527344 }, "tsne_coordinates": { "x": -16.33378791809082, "y": 6.8966474533081055, "z": -1.5568422079086304 }, "pca_coordinates": { "x": -0.6103547811508179, "y": -1.3123927116394043, "z": 1.8530728816986084 }, "axis_scores": { "Quantum imaging": 0.718147337436676, "Quantum Life Science Sensing": 0.7388577461242676, "Quantum sensing Detection": 0.7331230640411377, "Quantum sensing Metrology": 0.7338384389877319, "Quantum sensing navigation": 0.7145470380783081, "Quantum sensing Position": 0.7081298828125, "Quantum sensing Timing": 0.6839424967765808, "Quantum sensing": 0.7447591423988342, "Quantum control": 0.7180476188659668 } }, { "id": 399, "title": "Dynamic Strain Modulation of a Nanowire Quantum Dot Compatible with a Thin-Film Lithium Niobate Photonic Platform", "abstract": "The integration of indistinguishable single photon sources in photonic circuits is a major prerequisite for on-chip quantum applications. Among the various high-quality sources, nanowire quantum dots ...", "citations": 10, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 399, "doi": "10.1021/acsphotonics.3c00821", "umap_coordinates": { "x": 393.06134033203125, "y": 133.90077209472656, "z": 206.98252868652344 }, "tsne_coordinates": { "x": 15.340791702270508, "y": -11.46507453918457, "z": -10.492316246032715 }, "pca_coordinates": { "x": -1.7447257041931152, "y": -3.1028614044189453, "z": 1.8599295616149902 }, "axis_scores": { "Quantum imaging": 0.7528402805328369, "Quantum Life Science Sensing": 0.7227774858474731, "Quantum sensing Detection": 0.7216163873672485, "Quantum sensing Metrology": 0.710578441619873, "Quantum sensing navigation": 0.731095552444458, "Quantum sensing Position": 0.7290576696395874, "Quantum sensing Timing": 0.6961112022399902, "Quantum sensing": 0.7306821346282959, "Quantum control": 0.7109578251838684 } }, { "id": 400, "title": "Quantum control with quantum light of molecular nonadiabaticity", "abstract": "Coherent control experiments in molecules are often done with shaped laser fields. The electric field is described classically and control over the time evolution of the system is achieved by shaping ...", "citations": 23, "author_count": 5, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 400, "doi": "10.1103/PhysRevA.100.053421", "umap_coordinates": { "x": 395.31353759765625, "y": 136.15408325195312, "z": 207.8373565673828 }, "tsne_coordinates": { "x": -20.10085105895996, "y": -17.39147186279297, "z": -10.845270156860352 }, "pca_coordinates": { "x": 4.239571571350098, "y": -0.6868805885314941, "z": 0.23175424337387085 }, "axis_scores": { "Quantum imaging": 0.7627123594284058, "Quantum Life Science Sensing": 0.7533059120178223, "Quantum sensing Detection": 0.7546638250350952, "Quantum sensing Metrology": 0.7304220199584961, "Quantum sensing navigation": 0.7589459419250488, "Quantum sensing Position": 0.7111600041389465, "Quantum sensing Timing": 0.7117679119110107, "Quantum sensing": 0.7603104114532471, "Quantum control": 0.8062860369682312 } }, { "id": 401, "title": "Probing Majorana localization in minimal Kitaev chains through a quantum dot", "abstract": "Artificial Kitaev chains, formed by quantum dots coupled via superconductors, have emerged as a promising platform for realizing Majorana bound states. Even a minimal Kitaev chain (a quantum dot-super...", "citations": 32, "author_count": 5, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 401, "doi": "10.1103/PhysRevResearch.5.043182", "umap_coordinates": { "x": 395.3551025390625, "y": 137.05577087402344, "z": 208.24136352539062 }, "tsne_coordinates": { "x": -31.51580047607422, "y": -25.162004470825195, "z": 6.428915023803711 }, "pca_coordinates": { "x": 3.043776512145996, "y": 0.6970067024230957, "z": 0.6017987132072449 }, "axis_scores": { "Quantum imaging": 0.744067370891571, "Quantum Life Science Sensing": 0.7389088273048401, "Quantum sensing Detection": 0.7437264919281006, "Quantum sensing Metrology": 0.7437303066253662, "Quantum sensing navigation": 0.7629027366638184, "Quantum sensing Position": 0.7260590195655823, "Quantum sensing Timing": 0.691034734249115, "Quantum sensing": 0.749609112739563, "Quantum control": 0.6994590163230896 } }, { "id": 402, "title": "Faraday rotation in two-dimensional magneto-optic photonic crystal", "abstract": "We study the enhancement of Faraday rotation in a two-dimensional square-lattice magneto-optic photonic crystal at optical wavelengths. We show that on incidence of a TM plane wave onto the magneto-op...", "citations": 6, "author_count": 3, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 402, "doi": "10.1016/j.optcom.2005.04.064", "umap_coordinates": { "x": 393.4111633300781, "y": 134.87391662597656, "z": 206.49937438964844 }, "tsne_coordinates": { "x": 6.970252990722656, "y": -11.618083953857422, "z": -28.04543685913086 }, "pca_coordinates": { "x": -0.8420811891555786, "y": -0.10479092597961426, "z": -0.4387485682964325 }, "axis_scores": { "Quantum imaging": 0.7605988383293152, "Quantum Life Science Sensing": 0.7447700500488281, "Quantum sensing Detection": 0.7389493584632874, "Quantum sensing Metrology": 0.7533180713653564, "Quantum sensing navigation": 0.7476773262023926, "Quantum sensing Position": 0.7171319723129272, "Quantum sensing Timing": 0.692274808883667, "Quantum sensing": 0.7530986070632935, "Quantum control": 0.732608437538147 } }, { "id": 403, "title": "Nonlinear thermoelectric response due to energy-dependent transport properties of a quantum dot", "abstract": "Quantum dots are useful model systems for studying quantum thermoelectric behavior because of their highly energy-dependent electron transport properties, which are tunable by electrostatic gating. As...", "citations": 21, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 403, "doi": "10.1016/j.physe.2015.10.007", "umap_coordinates": { "x": 393.2475891113281, "y": 134.7848358154297, "z": 206.6146697998047 }, "tsne_coordinates": { "x": 27.90365982055664, "y": 7.851290702819824, "z": 11.487371444702148 }, "pca_coordinates": { "x": 0.17122578620910645, "y": -2.6843957901000977, "z": 0.18674153089523315 }, "axis_scores": { "Quantum imaging": 0.737451434135437, "Quantum Life Science Sensing": 0.7419437170028687, "Quantum sensing Detection": 0.7338749170303345, "Quantum sensing Metrology": 0.7103081941604614, "Quantum sensing navigation": 0.7134726643562317, "Quantum sensing Position": 0.7055922746658325, "Quantum sensing Timing": 0.6872053742408752, "Quantum sensing": 0.7422332763671875, "Quantum control": 0.694837749004364 } }, { "id": 404, "title": "ZnO@Ag2S core-shell nanowire arrays for environmentally friendly solid-state quantum dot-sensitized solar cells with panchromatic light capture and enhanced electron collection", "abstract": "A solid-state environmentally friendly Ag2S quantum dot-sensitized solar cell (QDSSC) is demonstrated. The photovoltaic device is fabricated by applying ZnO@Ag2S core-shell nanowire arrays (NWAs) as l...", "citations": 39, "author_count": 6, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 404, "doi": "10.1039/c4cp06068g", "umap_coordinates": { "x": 391.9446716308594, "y": 134.0310821533203, "z": 205.68344116210938 }, "tsne_coordinates": { "x": 20.234033584594727, "y": -3.016022205352783, "z": -7.807740688323975 }, "pca_coordinates": { "x": -2.854458808898926, "y": -6.007811069488525, "z": 0.17607539892196655 }, "axis_scores": { "Quantum imaging": 0.6604458093643188, "Quantum Life Science Sensing": 0.6793226003646851, "Quantum sensing Detection": 0.6698422431945801, "Quantum sensing Metrology": 0.6559061408042908, "Quantum sensing navigation": 0.6627829074859619, "Quantum sensing Position": 0.6471423506736755, "Quantum sensing Timing": 0.6205543279647827, "Quantum sensing": 0.6785925626754761, "Quantum control": 0.6572862267494202 } }, { "id": 405, "title": "Blinking Statistics of Silicon Quantum Dots", "abstract": "The blinking statistics of numerous single silicon quantum dots fabricated by electron-beam lithography, plasma etching, and oxidation have been analyzed. Purely exponential on- and off-time distribut...", "citations": 36, "author_count": 5, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 405, "doi": "10.1021/nl203618h", "umap_coordinates": { "x": 393.22833251953125, "y": 133.9648895263672, "z": 207.58912658691406 }, "tsne_coordinates": { "x": 23.10216522216797, "y": 0.4768574833869934, "z": 8.787178993225098 }, "pca_coordinates": { "x": -0.24864298105239868, "y": -3.2904224395751953, "z": 0.27283185720443726 }, "axis_scores": { "Quantum imaging": 0.6971561908721924, "Quantum Life Science Sensing": 0.7469040155410767, "Quantum sensing Detection": 0.7246673107147217, "Quantum sensing Metrology": 0.7114005088806152, "Quantum sensing navigation": 0.7166915535926819, "Quantum sensing Position": 0.7045243382453918, "Quantum sensing Timing": 0.6946399211883545, "Quantum sensing": 0.7276284694671631, "Quantum control": 0.694315493106842 } }, { "id": 406, "title": "Near-Unity Quantum Yield ZnSeTe Quantum Dots Enabled by Controlling Shell Growth for Efficient Deep-Blue Light-Emitting Diodes", "abstract": "Core-shell structural ZnSeTe/ZnSe/ZnS quantum dots (QDs) have attracted great attention for advanced illumination and displays because of their environmentally friendly composition, but still sufferin...", "citations": 31, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 406, "doi": "10.1002/adfm.202313811", "umap_coordinates": { "x": 392.53643798828125, "y": 133.55853271484375, "z": 205.78184509277344 }, "tsne_coordinates": { "x": 29.180631637573242, "y": 2.100766181945801, "z": -14.748696327209473 }, "pca_coordinates": { "x": -2.7326278686523438, "y": -3.6149868965148926, "z": 0.37314659357070923 }, "axis_scores": { "Quantum imaging": 0.7387178540229797, "Quantum Life Science Sensing": 0.7428199052810669, "Quantum sensing Detection": 0.7331836223602295, "Quantum sensing Metrology": 0.7572982907295227, "Quantum sensing navigation": 0.7308319807052612, "Quantum sensing Position": 0.6989644765853882, "Quantum sensing Timing": 0.6981420516967773, "Quantum sensing": 0.7451246976852417, "Quantum control": 0.7389383912086487 } }, { "id": 407, "title": "Quantum Phenomena in Nanomaterials: Coherent Superpositions of Fine Structure States in CdSe Nanocrystals at Room Temperature", "abstract": "One of the most recent developments at the forefront of nanotechnology is the attempt to exploit quantum phenomena in nanometer scale materials, exploring novel applications of quantum effects. An eff...", "citations": 36, "author_count": 10, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 407, "doi": "10.1021/acs.jpcc.9b11153", "umap_coordinates": { "x": 392.4413146972656, "y": 135.11720275878906, "z": 206.8944854736328 }, "tsne_coordinates": { "x": 20.637432098388672, "y": -1.1164264678955078, "z": 4.178206443786621 }, "pca_coordinates": { "x": 1.2418522834777832, "y": -3.67258358001709, "z": -0.17851907014846802 }, "axis_scores": { "Quantum imaging": 0.7547881007194519, "Quantum Life Science Sensing": 0.7545114159584045, "Quantum sensing Detection": 0.7503576278686523, "Quantum sensing Metrology": 0.7334471940994263, "Quantum sensing navigation": 0.7217507362365723, "Quantum sensing Position": 0.7110199928283691, "Quantum sensing Timing": 0.7110334038734436, "Quantum sensing": 0.7604877352714539, "Quantum control": 0.7240925431251526 } }, { "id": 408, "title": "Quantum metrology at the limit with extremal Majorana constellations", "abstract": "Quantum metrology allows for a tremendous boost in the accuracy of measurement of diverse physical parameters. The estimation of a rotation constitutes a remarkable example of this quantum-enhanced pr...", "citations": 50, "author_count": 12, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 408, "doi": "10.1364/OPTICA.4.001429", "umap_coordinates": { "x": 395.490966796875, "y": 136.52195739746094, "z": 206.92970275878906 }, "tsne_coordinates": { "x": -36.5756950378418, "y": -11.58335018157959, "z": 9.775875091552734 }, "pca_coordinates": { "x": 1.9497766494750977, "y": 3.1025185585021973, "z": 1.967111349105835 }, "axis_scores": { "Quantum imaging": 0.7285334467887878, "Quantum Life Science Sensing": 0.701230525970459, "Quantum sensing Detection": 0.7218142747879028, "Quantum sensing Metrology": 0.7442254424095154, "Quantum sensing navigation": 0.7311525344848633, "Quantum sensing Position": 0.7262342572212219, "Quantum sensing Timing": 0.6807483434677124, "Quantum sensing": 0.7147696614265442, "Quantum control": 0.7066322565078735 } }, { "id": 409, "title": "Effects of the large distribution of CdS quantum dot sizes on the charge transfer interactions into TiO2 nanotubes for photocatalytic hydrogen generation", "abstract": "Hydrogen fuels generated by water splitting using a photocatalyst and solar irradiation are currently gaining the strength to diversify the world energy matrix in a green way. CdS quantum dots have re...", "citations": 29, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 409, "doi": "10.1088/0957-4484/27/28/285401", "umap_coordinates": { "x": 392.8660583496094, "y": 134.1268768310547, "z": 205.8732147216797 }, "tsne_coordinates": { "x": 26.636545181274414, "y": 1.586861252784729, "z": -7.160216331481934 }, "pca_coordinates": { "x": -2.009129047393799, "y": -1.6050658226013184, "z": 0.18294668197631836 }, "axis_scores": { "Quantum imaging": 0.6712973713874817, "Quantum Life Science Sensing": 0.6918836236000061, "Quantum sensing Detection": 0.6614726185798645, "Quantum sensing Metrology": 0.6438016891479492, "Quantum sensing navigation": 0.6437904238700867, "Quantum sensing Position": 0.6450110673904419, "Quantum sensing Timing": 0.666169285774231, "Quantum sensing": 0.6761809587478638, "Quantum control": 0.663075864315033 } }, { "id": 410, "title": "Quantum noise in a terahertz hot electron bolometer mixer", "abstract": "We have measured the noise temperature of a single, sensitive superconducting NbN hot electron bolometer (HEB) mixer in a frequency range from 1.6 to 5.3 THz, using a setup with all the key components...", "citations": 73, "author_count": 9, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 410, "doi": "10.1063/1.3364936", "umap_coordinates": { "x": 394.03271484375, "y": 134.64366149902344, "z": 208.39572143554688 }, "tsne_coordinates": { "x": -0.3531710207462311, "y": -0.5914461612701416, "z": -46.03446578979492 }, "pca_coordinates": { "x": 3.3914170265197754, "y": -1.374234914779663, "z": 1.4739611148834229 }, "axis_scores": { "Quantum imaging": 0.7022209167480469, "Quantum Life Science Sensing": 0.6932911276817322, "Quantum sensing Detection": 0.7128731608390808, "Quantum sensing Metrology": 0.7118270397186279, "Quantum sensing navigation": 0.7011703252792358, "Quantum sensing Position": 0.6741214990615845, "Quantum sensing Timing": 0.695405900478363, "Quantum sensing": 0.7239383459091187, "Quantum control": 0.6877890229225159 } }, { "id": 411, "title": "FTO-free top-illuminated colloidal quantum dot electro-optics in devices", "abstract": "A solar cell device architecture with top-illumination, where the light does not pass through the substrate, is advantageous for many applications. It is also specifically useful for the construction ...", "citations": 1, "author_count": 7, "categories": [ "Energy & Fuels" ], "year": 2017, "topic": [ "all" ], "embedding_index": 411, "doi": "10.1016/j.solener.2017.10.018", "umap_coordinates": { "x": 392.8052673339844, "y": 133.75364685058594, "z": 205.4381866455078 }, "tsne_coordinates": { "x": 33.14753341674805, "y": 5.787798881530762, "z": -9.656819343566895 }, "pca_coordinates": { "x": -2.954636335372925, "y": -2.7856063842773438, "z": 0.4431920647621155 }, "axis_scores": { "Quantum imaging": 0.7499163150787354, "Quantum Life Science Sensing": 0.7354587316513062, "Quantum sensing Detection": 0.7360274195671082, "Quantum sensing Metrology": 0.7428017854690552, "Quantum sensing navigation": 0.725115180015564, "Quantum sensing Position": 0.7202160358428955, "Quantum sensing Timing": 0.7029345631599426, "Quantum sensing": 0.7488739490509033, "Quantum control": 0.7097942233085632 } }, { "id": 412, "title": "Probing Confined Phonon Modes by Transport through a Nanowire Double Quantum Dot", "abstract": "Strong radial confinement in semiconductor nanowires leads to modified electronic and phononic energy spectra. We analyze the current response to the interplay between quantum confinement effects of t...", "citations": 50, "author_count": 7, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 412, "doi": "10.1103/PhysRevLett.104.036801", "umap_coordinates": { "x": 394.2906799316406, "y": 134.79173278808594, "z": 208.2941131591797 }, "tsne_coordinates": { "x": -2.7666268348693848, "y": -23.57192611694336, "z": 3.0114588737487793 }, "pca_coordinates": { "x": 3.6369218826293945, "y": -3.330265522003174, "z": 2.404237747192383 }, "axis_scores": { "Quantum imaging": 0.725203275680542, "Quantum Life Science Sensing": 0.7366961240768433, "Quantum sensing Detection": 0.7462020516395569, "Quantum sensing Metrology": 0.7244814038276672, "Quantum sensing navigation": 0.7521284818649292, "Quantum sensing Position": 0.7169181108474731, "Quantum sensing Timing": 0.700131893157959, "Quantum sensing": 0.749059796333313, "Quantum control": 0.7025611400604248 } }, { "id": 413, "title": "Nonequilibrium supercurrent through a quantum dot: Current harmonics and proximity effect due to a normal-metal lead", "abstract": "We study the out-of-equilibrium current through a quantum dot which is placed between two superconducting leads held at fixed voltage bias, considering both cases of the absence and the presence of an...", "citations": 27, "author_count": 6, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 413, "doi": "10.1103/PhysRevB.80.184510", "umap_coordinates": { "x": 393.8872375488281, "y": 135.85140991210938, "z": 209.0096435546875 }, "tsne_coordinates": { "x": -1.6881670951843262, "y": -33.00480651855469, "z": 9.115785598754883 }, "pca_coordinates": { "x": 3.0082244873046875, "y": -1.7409324645996094, "z": -0.3052116632461548 }, "axis_scores": { "Quantum imaging": 0.6917426586151123, "Quantum Life Science Sensing": 0.7049930691719055, "Quantum sensing Detection": 0.6892827153205872, "Quantum sensing Metrology": 0.6708731055259705, "Quantum sensing navigation": 0.6930268406867981, "Quantum sensing Position": 0.6828358769416809, "Quantum sensing Timing": 0.659896194934845, "Quantum sensing": 0.691069483757019, "Quantum control": 0.6763888001441956 } }, { "id": 414, "title": "Generating spatially entangled itinerant photons with waveguide quantum electrodynamics", "abstract": "Realizing a fully connected network of quantum processors requires the ability to distribute quantum entanglement. For distant processing nodes, this can be achieved by generating, routing, and captur...", "citations": 45, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 414, "doi": "10.1126/sciadv.abb8780", "umap_coordinates": { "x": 395.21746826171875, "y": 135.67544555664062, "z": 206.9182586669922 }, "tsne_coordinates": { "x": -17.247615814208984, "y": -19.2780818939209, "z": -15.071887016296387 }, "pca_coordinates": { "x": 1.3140161037445068, "y": -0.012521743774414062, "z": 3.201908588409424 }, "axis_scores": { "Quantum imaging": 0.7590044736862183, "Quantum Life Science Sensing": 0.6966409683227539, "Quantum sensing Detection": 0.7238714098930359, "Quantum sensing Metrology": 0.7196587324142456, "Quantum sensing navigation": 0.7521661520004272, "Quantum sensing Position": 0.7016046643257141, "Quantum sensing Timing": 0.7190767526626587, "Quantum sensing": 0.7307108044624329, "Quantum control": 0.7113705277442932 } }, { "id": 415, "title": "Polarized emission and excitonic fine structure energies of InGaN quantum dots", "abstract": "The linear polarization of the excitonic emission from quantum dot-like potential minima formed in a thin InGaN layer is investigated. The recorded emission lines exhibit significant intensity linearl...", "citations": 1, "author_count": 9, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 415, "doi": "10.1016/j.physb.2011.09.084", "umap_coordinates": { "x": 393.0751647949219, "y": 134.31813049316406, "z": 206.82032775878906 }, "tsne_coordinates": { "x": 26.15321159362793, "y": 4.445696830749512, "z": 10.190906524658203 }, "pca_coordinates": { "x": -0.5395825505256653, "y": -4.015701770782471, "z": -0.13884228467941284 }, "axis_scores": { "Quantum imaging": 0.7387343645095825, "Quantum Life Science Sensing": 0.7253867387771606, "Quantum sensing Detection": 0.7111091017723083, "Quantum sensing Metrology": 0.6997838616371155, "Quantum sensing navigation": 0.7064579129219055, "Quantum sensing Position": 0.6916495561599731, "Quantum sensing Timing": 0.6634759306907654, "Quantum sensing": 0.7253463864326477, "Quantum control": 0.6818185448646545 } }, { "id": 416, "title": "Enhancement of room-temperature photoluminescence in InAs quantum dots", "abstract": "We report pronounced enhancement of room-temperature photoluminescence up to 80-fold induced by proton implantation and the rapid thermal annealing process in a multilayer InAs/GaAs quantum-dot struct...", "citations": 33, "author_count": 9, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 416, "doi": "10.1063/1.1623324", "umap_coordinates": { "x": 392.9656982421875, "y": 133.6380615234375, "z": 208.17555236816406 }, "tsne_coordinates": { "x": 30.120750427246094, "y": -21.93276596069336, "z": -4.119456768035889 }, "pca_coordinates": { "x": -0.07414913177490234, "y": -5.0624566078186035, "z": 1.6060078144073486 }, "axis_scores": { "Quantum imaging": 0.7398626208305359, "Quantum Life Science Sensing": 0.7226040363311768, "Quantum sensing Detection": 0.7364704012870789, "Quantum sensing Metrology": 0.7282956838607788, "Quantum sensing navigation": 0.6966637372970581, "Quantum sensing Position": 0.6963387727737427, "Quantum sensing Timing": 0.7016022205352783, "Quantum sensing": 0.7445777654647827, "Quantum control": 0.7053706645965576 } }, { "id": 417, "title": "Exciton polaritons in quantum-dot photonic crystals", "abstract": "We present a theory of the photonic band structure of three-dimensional arrays of quantum dots (QDs). A system of Maxwell's and material equations is solved and the dispersion equation for exciton-pol...", "citations": 31, "author_count": 4, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 417, "doi": "10.1134/1.1309465", "umap_coordinates": { "x": 393.5771789550781, "y": 134.4773406982422, "z": 208.042236328125 }, "tsne_coordinates": { "x": 15.865557670593262, "y": -25.718311309814453, "z": 0.5552436709403992 }, "pca_coordinates": { "x": 2.72849702835083, "y": -3.05471134185791, "z": 0.6251832842826843 }, "axis_scores": { "Quantum imaging": 0.7427059412002563, "Quantum Life Science Sensing": 0.7123609185218811, "Quantum sensing Detection": 0.7454221844673157, "Quantum sensing Metrology": 0.7233190536499023, "Quantum sensing navigation": 0.7376277446746826, "Quantum sensing Position": 0.7162346243858337, "Quantum sensing Timing": 0.7058618664741516, "Quantum sensing": 0.7513940334320068, "Quantum control": 0.7339627742767334 } }, { "id": 418, "title": "Quantum dynamics of lattice states with compact support in an extended Bose-Hubbard model", "abstract": "We study the dynamical properties, with special emphasis on mobility, of quantum lattice compactons (QLCs) in a one-dimensional Bose-Hubbard model extended with pair-correlated hopping. These are quan...", "citations": 6, "author_count": 3, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 418, "doi": "10.1103/PhysRevA.88.033605", "umap_coordinates": { "x": 394.65277099609375, "y": 137.06561279296875, "z": 208.17979431152344 }, "tsne_coordinates": { "x": -31.570751190185547, "y": -18.896730422973633, "z": 12.547229766845703 }, "pca_coordinates": { "x": 5.118320941925049, "y": 0.2542397975921631, "z": -1.5848428010940552 }, "axis_scores": { "Quantum imaging": 0.708101749420166, "Quantum Life Science Sensing": 0.7091529369354248, "Quantum sensing Detection": 0.7007923722267151, "Quantum sensing Metrology": 0.6879289746284485, "Quantum sensing navigation": 0.7183915972709656, "Quantum sensing Position": 0.7004116773605347, "Quantum sensing Timing": 0.6699213981628418, "Quantum sensing": 0.7132803201675415, "Quantum control": 0.6994950175285339 } }, { "id": 419, "title": "Spectral signatures of high-symmetry quantum dots and effects of symmetry breaking", "abstract": "High symmetry epitaxial quantum dots (QDs) with three or more symmetry planes provide a very promising route for the generation of entangled photons for quantum information applications. The great cha...", "citations": 11, "author_count": 10, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 419, "doi": "10.1088/1367-2630/17/10/103017", "umap_coordinates": { "x": 393.27569580078125, "y": 135.75189208984375, "z": 207.09628295898438 }, "tsne_coordinates": { "x": 11.035544395446777, "y": -23.27519989013672, "z": 5.077716827392578 }, "pca_coordinates": { "x": 0.6273895502090454, "y": -0.8745889663696289, "z": 0.48528939485549927 }, "axis_scores": { "Quantum imaging": 0.765217661857605, "Quantum Life Science Sensing": 0.7540366053581238, "Quantum sensing Detection": 0.7509932518005371, "Quantum sensing Metrology": 0.7376022338867188, "Quantum sensing navigation": 0.7232446074485779, "Quantum sensing Position": 0.7180907130241394, "Quantum sensing Timing": 0.7305278182029724, "Quantum sensing": 0.7569783329963684, "Quantum control": 0.7110074162483215 } }, { "id": 420, "title": "Efficient Single-Photon Detection with 7.7 ps Time Resolution for Photon-Correlation Measurements", "abstract": "A broad range of scientific and industrial disciplines require precise optical measurements at very low light levels. Single-photon detectors combining high efficiency and high time resolution are piv...", "citations": 94, "author_count": 23, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 420, "doi": "10.1021/acsphotonics.0c00433", "umap_coordinates": { "x": 394.8240966796875, "y": 133.23306274414062, "z": 206.89646911621094 }, "tsne_coordinates": { "x": -11.989556312561035, "y": 7.004952430725098, "z": -33.74522399902344 }, "pca_coordinates": { "x": -2.10905122756958, "y": -1.811659812927246, "z": 4.877784252166748 }, "axis_scores": { "Quantum imaging": 0.7134246230125427, "Quantum Life Science Sensing": 0.7149402499198914, "Quantum sensing Detection": 0.7110079526901245, "Quantum sensing Metrology": 0.6926259398460388, "Quantum sensing navigation": 0.6917189359664917, "Quantum sensing Position": 0.6802796721458435, "Quantum sensing Timing": 0.7251192331314087, "Quantum sensing": 0.7147688269615173, "Quantum control": 0.6454993486404419 } }, { "id": 421, "title": "Carrier capture and escape in InxGa1-xAs/GaAs quantum dots:: Effects of intermixing", "abstract": "We have investigated photoexcited carrier dynamics in as-grown and intermixed InxGa1-xAs/GaAs quantum dots and quantum wells by time-resolved photoluminescence with subpicosecond temporal resolution. ...", "citations": 49, "author_count": 3, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 421, "doi": "10.1103/PhysRevB.59.4630", "umap_coordinates": { "x": 392.9736328125, "y": 134.7544403076172, "z": 208.64266967773438 }, "tsne_coordinates": { "x": 14.047146797180176, "y": -32.32136154174805, "z": -0.9100384712219238 }, "pca_coordinates": { "x": 2.748915672302246, "y": -2.2889347076416016, "z": 0.42229849100112915 }, "axis_scores": { "Quantum imaging": 0.6869274377822876, "Quantum Life Science Sensing": 0.673141360282898, "Quantum sensing Detection": 0.6798515319824219, "Quantum sensing Metrology": 0.6722275614738464, "Quantum sensing navigation": 0.6792114973068237, "Quantum sensing Position": 0.664401113986969, "Quantum sensing Timing": 0.6745489239692688, "Quantum sensing": 0.6925480365753174, "Quantum control": 0.6722148656845093 } }, { "id": 422, "title": "Solution processed flexible and bending durable heterojunction colloidal quantum dot solar cell", "abstract": "A flexible hybrid heterojunction PbS colloidal quantum dot solar cell, where the photoactive layers are deposited using a solution processed fabrication approach under ambient condition and at room te...", "citations": 32, "author_count": 5, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 422, "doi": "10.1039/c5nr02617b", "umap_coordinates": { "x": 391.75848388671875, "y": 134.51100158691406, "z": 205.16566467285156 }, "tsne_coordinates": { "x": 13.769912719726562, "y": 0.9836661219596863, "z": -13.977639198303223 }, "pca_coordinates": { "x": -2.6783974170684814, "y": -3.73024320602417, "z": -1.7820274829864502 }, "axis_scores": { "Quantum imaging": 0.6603614687919617, "Quantum Life Science Sensing": 0.7187387347221375, "Quantum sensing Detection": 0.6727752089500427, "Quantum sensing Metrology": 0.6674327254295349, "Quantum sensing navigation": 0.6749796867370605, "Quantum sensing Position": 0.6674010157585144, "Quantum sensing Timing": 0.6378671526908875, "Quantum sensing": 0.68516606092453, "Quantum control": 0.6632896661758423 } }, { "id": 423, "title": "The multifarious quantum information", "abstract": "This paper considers the scope and possibilities of quantum information within the consensus interpretation of the theory. It is pointed out that a prepared quantum state offers a multitude of answers...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 423, "doi": "10.1007/s11128-006-0032-3", "umap_coordinates": { "x": 395.06787109375, "y": 137.03140258789062, "z": 205.72105407714844 }, "tsne_coordinates": { "x": -34.239986419677734, "y": 0.650009274482727, "z": 11.522966384887695 }, "pca_coordinates": { "x": 0.4760901927947998, "y": 2.359409809112549, "z": 0.036819517612457275 }, "axis_scores": { "Quantum imaging": 0.793525755405426, "Quantum Life Science Sensing": 0.8021950125694275, "Quantum sensing Detection": 0.7862832546234131, "Quantum sensing Metrology": 0.7841700911521912, "Quantum sensing navigation": 0.7721892595291138, "Quantum sensing Position": 0.7480738162994385, "Quantum sensing Timing": 0.7163870930671692, "Quantum sensing": 0.8010468482971191, "Quantum control": 0.752348780632019 } }, { "id": 424, "title": "Quantum interference in organic solid", "abstract": "We demonstrate high contrast quantum interference between one-photon and three-photon absorption pathways in an organic solid at room temperature. Illumination of a thin polymer film activated with fl...", "citations": 8, "author_count": 6, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 424, "doi": "10.1364/OPEX.13.006033", "umap_coordinates": { "x": 394.3131408691406, "y": 134.91253662109375, "z": 206.8129119873047 }, "tsne_coordinates": { "x": -1.815903902053833, "y": -11.65864372253418, "z": -21.96925926208496 }, "pca_coordinates": { "x": 2.1873202323913574, "y": 0.039609432220458984, "z": 0.7287566065788269 }, "axis_scores": { "Quantum imaging": 0.8125486373901367, "Quantum Life Science Sensing": 0.7775752544403076, "Quantum sensing Detection": 0.7902793884277344, "Quantum sensing Metrology": 0.7712039947509766, "Quantum sensing navigation": 0.7719516158103943, "Quantum sensing Position": 0.7498359084129333, "Quantum sensing Timing": 0.754260778427124, "Quantum sensing": 0.8045145869255066, "Quantum control": 0.7742187976837158 } }, { "id": 425, "title": "Quantum measurement of broadband nonclassical light fields", "abstract": "Based on the measurement of quantum correlation functions, the quantum statistical properties of spectral measurements are studied for broadband radiation fields. The spectral filtering of light befor...", "citations": 4, "author_count": 5, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 425, "doi": "10.1103/PhysRevA.91.013816", "umap_coordinates": { "x": 395.543701171875, "y": 135.81678771972656, "z": 207.38284301757812 }, "tsne_coordinates": { "x": -23.554487228393555, "y": -6.903926372528076, "z": 3.8762338161468506 }, "pca_coordinates": { "x": 3.5668749809265137, "y": 0.7686550617218018, "z": 2.440675973892212 }, "axis_scores": { "Quantum imaging": 0.7878310680389404, "Quantum Life Science Sensing": 0.7933474183082581, "Quantum sensing Detection": 0.8108707070350647, "Quantum sensing Metrology": 0.7948099970817566, "Quantum sensing navigation": 0.7831920385360718, "Quantum sensing Position": 0.7570870518684387, "Quantum sensing Timing": 0.7399232387542725, "Quantum sensing": 0.8141212463378906, "Quantum control": 0.7476605772972107 } }, { "id": 426, "title": "Enhanced Power Conversion Efficiency via Hybrid Ligand Exchange Treatment of p-Type PbS Quantum Dots", "abstract": "PbS quantum dot solar cells (QDSCs) have emerged as a promising low-cost, solution-processable solar energy harvesting device and demonstrated good air stability and potential for large-scale commerci...", "citations": 50, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 426, "doi": "10.1021/acsami.9b23492", "umap_coordinates": { "x": 391.641845703125, "y": 133.83102416992188, "z": 205.49005126953125 }, "tsne_coordinates": { "x": 26.239124298095703, "y": -3.0899693965911865, "z": -14.1549654006958 }, "pca_coordinates": { "x": -3.39713716506958, "y": -5.196267604827881, "z": -0.09705668687820435 }, "axis_scores": { "Quantum imaging": 0.7126070261001587, "Quantum Life Science Sensing": 0.6916993856430054, "Quantum sensing Detection": 0.6791731715202332, "Quantum sensing Metrology": 0.6626236438751221, "Quantum sensing navigation": 0.6664351224899292, "Quantum sensing Position": 0.6542618870735168, "Quantum sensing Timing": 0.6363611221313477, "Quantum sensing": 0.69417405128479, "Quantum control": 0.6724790334701538 } }, { "id": 427, "title": "Carrier spin dynamics in modulation-doped InAs/GaAs quantum dots", "abstract": "Photoexcited electron and hole spin relaxation was studied in modulation-doped and undoped InAs/GaAs quantum dots by means of time-resolved photoluminescence. After excitation into the barriers or the...", "citations": 14, "author_count": 4, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 427, "doi": "10.1063/1.2337776", "umap_coordinates": { "x": 392.9213562011719, "y": 134.62115478515625, "z": 208.3692169189453 }, "tsne_coordinates": { "x": 21.267580032348633, "y": -24.635007858276367, "z": 3.8921995162963867 }, "pca_coordinates": { "x": 3.3080883026123047, "y": -3.9597134590148926, "z": -0.4347549080848694 }, "axis_scores": { "Quantum imaging": 0.7365756034851074, "Quantum Life Science Sensing": 0.7313485145568848, "Quantum sensing Detection": 0.7412179708480835, "Quantum sensing Metrology": 0.7245088815689087, "Quantum sensing navigation": 0.7524629831314087, "Quantum sensing Position": 0.712274968624115, "Quantum sensing Timing": 0.6957067847251892, "Quantum sensing": 0.7490929365158081, "Quantum control": 0.7382001876831055 } }, { "id": 428, "title": "Geometry and Structure of Quantum Phase Space", "abstract": "The application of geometry to physics has provided us with new insightful information about many physical theories such as classical mechanics, general relativity, and quantum geometry (quantum gravi...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 428, "doi": "10.1007/s10701-015-9907-4", "umap_coordinates": { "x": 394.7512512207031, "y": 136.99227905273438, "z": 206.52235412597656 }, "tsne_coordinates": { "x": -31.31098747253418, "y": -2.1012279987335205, "z": 11.397676467895508 }, "pca_coordinates": { "x": 2.287357807159424, "y": 2.969895362854004, "z": -0.37295371294021606 }, "axis_scores": { "Quantum imaging": 0.7886870503425598, "Quantum Life Science Sensing": 0.7869305610656738, "Quantum sensing Detection": 0.7591260075569153, "Quantum sensing Metrology": 0.7707534432411194, "Quantum sensing navigation": 0.7946540117263794, "Quantum sensing Position": 0.7857503890991211, "Quantum sensing Timing": 0.7585148215293884, "Quantum sensing": 0.7754479050636292, "Quantum control": 0.7597252726554871 } }, { "id": 429, "title": "Determining a temperature differential across a quantum dot", "abstract": "We present a method for determining a temperature differential across a quantum dot. If the device has a transmission function with sufficiently spaced resonant energies, then one can distinguish elec...", "citations": 3, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 429, "doi": "10.1016/j.physe.2007.09.197", "umap_coordinates": { "x": 393.6253662109375, "y": 134.56405639648438, "z": 206.3507080078125 }, "tsne_coordinates": { "x": 27.194656372070312, "y": 8.521894454956055, "z": 11.135725021362305 }, "pca_coordinates": { "x": 0.3279455900192261, "y": -1.1671373844146729, "z": 0.39987701177597046 }, "axis_scores": { "Quantum imaging": 0.7409387826919556, "Quantum Life Science Sensing": 0.7618821263313293, "Quantum sensing Detection": 0.7586811780929565, "Quantum sensing Metrology": 0.7559948563575745, "Quantum sensing navigation": 0.7408119440078735, "Quantum sensing Position": 0.7558943629264832, "Quantum sensing Timing": 0.7429593801498413, "Quantum sensing": 0.7672649621963501, "Quantum control": 0.7267268896102905 } }, { "id": 430, "title": "Quantum teleportation with imperfect quantum dots", "abstract": "Efficient all-photonic quantum teleportation requires fast and deterministic sources of highly indistinguishable and entangled photons. Solid-state-based quantum emitters-notably semiconductor quantum...", "citations": 46, "author_count": 12, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 430, "doi": "10.1038/s41534-020-00356-0", "umap_coordinates": { "x": 395.3128662109375, "y": 135.90386962890625, "z": 206.6172332763672 }, "tsne_coordinates": { "x": -20.21890640258789, "y": 0.2134820967912674, "z": -3.2660179138183594 }, "pca_coordinates": { "x": 1.398184061050415, "y": 0.11952042579650879, "z": 3.1281239986419678 }, "axis_scores": { "Quantum imaging": 0.809910237789154, "Quantum Life Science Sensing": 0.769312858581543, "Quantum sensing Detection": 0.7964513301849365, "Quantum sensing Metrology": 0.7866926193237305, "Quantum sensing navigation": 0.7915365695953369, "Quantum sensing Position": 0.7851664423942566, "Quantum sensing Timing": 0.7847957611083984, "Quantum sensing": 0.8087601661682129, "Quantum control": 0.7627496719360352 } }, { "id": 431, "title": "Synthesis of CdSe quantum dots via paraffin liquid and oleic acid", "abstract": "This paper reported an efficient and rapid method to produce highly monodispersed CdSe quantum dots (QDs), in which the traditional trioctylphosphine oxide (TOPO) was replaced by paraffin liquid as so...", "citations": 18, "author_count": 3, "categories": [ "Engineering" ], "year": 2008, "topic": [ "all" ], "embedding_index": 431, "doi": "10.1631/jzus.A071436", "umap_coordinates": { "x": 393.2046813964844, "y": 134.51170349121094, "z": 205.9202423095703 }, "tsne_coordinates": { "x": 33.381675720214844, "y": 6.075644493103027, "z": -0.12663178145885468 }, "pca_coordinates": { "x": -1.9766871929168701, "y": -0.6064515113830566, "z": -0.8703484535217285 }, "axis_scores": { "Quantum imaging": 0.7320631146430969, "Quantum Life Science Sensing": 0.7240526676177979, "Quantum sensing Detection": 0.7118436694145203, "Quantum sensing Metrology": 0.6947713494300842, "Quantum sensing navigation": 0.7042566537857056, "Quantum sensing Position": 0.6726216673851013, "Quantum sensing Timing": 0.6755172610282898, "Quantum sensing": 0.724062979221344, "Quantum control": 0.7309807538986206 } }, { "id": 432, "title": "In situ growth of nano-structures by metal-organic vapour phase epitaxy", "abstract": "Using spontaneous self-organization effects is an efficient way to produce nano-structures, as for instance quantum wires and quantum dots. This article is focused on the strain-induced self-organizat...", "citations": 90, "author_count": 6, "categories": [ "Crystallography" ], "year": 1997, "topic": [ "all" ], "embedding_index": 432, "doi": "10.1016/S0022-0248(96)00518-0", "umap_coordinates": { "x": 392.70794677734375, "y": 134.43399047851562, "z": 207.04820251464844 }, "tsne_coordinates": { "x": 29.572479248046875, "y": -6.838428020477295, "z": 6.268891334533691 }, "pca_coordinates": { "x": -1.571037769317627, "y": -2.0746278762817383, "z": -0.8405651450157166 }, "axis_scores": { "Quantum imaging": 0.7101449966430664, "Quantum Life Science Sensing": 0.7200579643249512, "Quantum sensing Detection": 0.6935224533081055, "Quantum sensing Metrology": 0.7041634321212769, "Quantum sensing navigation": 0.7000659704208374, "Quantum sensing Position": 0.7056481838226318, "Quantum sensing Timing": 0.6545922756195068, "Quantum sensing": 0.7077527046203613, "Quantum control": 0.679885745048523 } }, { "id": 433, "title": "Photoluminescence up-conversion in InAs/GaAs self-assembled quantum dots", "abstract": "We report up-converted photoluminescence in a structure with InAs quantum dots embedded in GaAs. An efficient emission from the GaAs barrier is observed with resonant excitation of both the dots and t...", "citations": 105, "author_count": 7, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 433, "doi": "10.1063/1.1306653", "umap_coordinates": { "x": 392.887939453125, "y": 133.81842041015625, "z": 208.2923583984375 }, "tsne_coordinates": { "x": 27.251859664916992, "y": -20.889822006225586, "z": -3.0596418380737305 }, "pca_coordinates": { "x": 1.047581672668457, "y": -5.465835094451904, "z": 1.9980354309082031 }, "axis_scores": { "Quantum imaging": 0.7423719763755798, "Quantum Life Science Sensing": 0.7558222413063049, "Quantum sensing Detection": 0.7552282810211182, "Quantum sensing Metrology": 0.7321539521217346, "Quantum sensing navigation": 0.7238693833351135, "Quantum sensing Position": 0.7130772471427917, "Quantum sensing Timing": 0.6836228370666504, "Quantum sensing": 0.7613443732261658, "Quantum control": 0.713085412979126 } }, { "id": 434, "title": "Symmetries of quantum evolutions", "abstract": "A cornerstone of quantum mechanics is the characterization of symmetries provided by Wigner's theorem. Wigner's theorem establishes that every symmetry of the quantum state space must be either a unit...", "citations": 23, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 434, "doi": "10.1103/PhysRevResearch.3.033028", "umap_coordinates": { "x": 394.7659606933594, "y": 137.1421356201172, "z": 207.7468719482422 }, "tsne_coordinates": { "x": -19.08058738708496, "y": -19.916095733642578, "z": 4.7298970222473145 }, "pca_coordinates": { "x": 5.509619235992432, "y": 1.6376214027404785, "z": -1.6389639377593994 }, "axis_scores": { "Quantum imaging": 0.7781996130943298, "Quantum Life Science Sensing": 0.7851957082748413, "Quantum sensing Detection": 0.7638038396835327, "Quantum sensing Metrology": 0.7558755874633789, "Quantum sensing navigation": 0.7975389361381531, "Quantum sensing Position": 0.7340272068977356, "Quantum sensing Timing": 0.7221566438674927, "Quantum sensing": 0.7786798477172852, "Quantum control": 0.7673648595809937 } }, { "id": 435, "title": "Thermoelectric signatures of a Majorana bound state coupled to a quantum dot", "abstract": "We theoretically investigate the possibility to use thermolectric measurements to detect Majorana bound states and to investigate their coupling to a dissipative environment. The particle-hole symmetr...", "citations": 74, "author_count": 2, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 435, "doi": "10.1088/1367-2630/16/1/015029", "umap_coordinates": { "x": 393.9532470703125, "y": 135.33401489257812, "z": 207.6312713623047 }, "tsne_coordinates": { "x": -0.5144347548484802, "y": -19.08183479309082, "z": 6.388187408447266 }, "pca_coordinates": { "x": 1.6641771793365479, "y": -0.5798487663269043, "z": 0.5620021224021912 }, "axis_scores": { "Quantum imaging": 0.7173855304718018, "Quantum Life Science Sensing": 0.7087105512619019, "Quantum sensing Detection": 0.7243193984031677, "Quantum sensing Metrology": 0.7042527794837952, "Quantum sensing navigation": 0.6959339380264282, "Quantum sensing Position": 0.702216625213623, "Quantum sensing Timing": 0.6992560625076294, "Quantum sensing": 0.7260625958442688, "Quantum control": 0.6796228289604187 } }, { "id": 436, "title": "Contrast-enhanced spectral mammography with a photon-counting detector", "abstract": "Methods: A framework for system characterization was set up that included quantum and anatomical noise and a theoretical model of the system was benchmarked to phantom measurements. Results: Optimal c...", "citations": 91, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2010, "topic": [ "all" ], "embedding_index": 436, "doi": "10.1118/1.3371689", "umap_coordinates": { "x": 395.6451416015625, "y": 132.5502166748047, "z": 205.75086975097656 }, "tsne_coordinates": { "x": -11.04062557220459, "y": 21.30438804626465, "z": -26.422954559326172 }, "pca_coordinates": { "x": -1.6148306131362915, "y": 0.6828359365463257, "z": 6.089186191558838 }, "axis_scores": { "Quantum imaging": 0.7145370841026306, "Quantum Life Science Sensing": 0.6721610426902771, "Quantum sensing Detection": 0.7150764465332031, "Quantum sensing Metrology": 0.702934741973877, "Quantum sensing navigation": 0.6864153146743774, "Quantum sensing Position": 0.6543968915939331, "Quantum sensing Timing": 0.6539065837860107, "Quantum sensing": 0.7014144062995911, "Quantum control": 0.6222965717315674 } }, { "id": 437, "title": "Universal Shot-Noise Limit for Quantum Metrology with Local Hamiltonians", "abstract": "Quantum many-body interactions can induce quantum entanglement among particles, rendering them valuable resources for quantum-enhanced sensing. In this work, we establish a link between the bound on t...", "citations": 13, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 437, "doi": "10.1103/PhysRevLett.132.100803", "umap_coordinates": { "x": 395.4796142578125, "y": 136.45692443847656, "z": 207.9646453857422 }, "tsne_coordinates": { "x": -27.77194595336914, "y": -14.613892555236816, "z": 6.906416416168213 }, "pca_coordinates": { "x": 4.858511447906494, "y": 0.8110194206237793, "z": 2.0297293663024902 }, "axis_scores": { "Quantum imaging": 0.7410888671875, "Quantum Life Science Sensing": 0.7630656361579895, "Quantum sensing Detection": 0.7747914791107178, "Quantum sensing Metrology": 0.7778900861740112, "Quantum sensing navigation": 0.7697232961654663, "Quantum sensing Position": 0.7379664182662964, "Quantum sensing Timing": 0.7203840613365173, "Quantum sensing": 0.7712111473083496, "Quantum control": 0.7313386797904968 } }, { "id": 438, "title": "Temporal correlation of blinking events in CdSe/ZnS and Si/SiO2 nanocrystals", "abstract": "Well passivated single Si/SiO2 nanoparticles obey mono exponential blinking statistics, whereas CdSe/ZnS quantum dots follow an apparent (truncated) power-law. Log-normal distributions are found to de...", "citations": 7, "author_count": 5, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 438, "doi": "10.1016/j.physb.2013.12.036", "umap_coordinates": { "x": 392.9396057128906, "y": 134.17007446289062, "z": 207.07958984375 }, "tsne_coordinates": { "x": 25.22526741027832, "y": 1.0345135927200317, "z": 6.829723834991455 }, "pca_coordinates": { "x": -0.11675775051116943, "y": -1.922780990600586, "z": 0.19440609216690063 }, "axis_scores": { "Quantum imaging": 0.7505856156349182, "Quantum Life Science Sensing": 0.7708761692047119, "Quantum sensing Detection": 0.7662811875343323, "Quantum sensing Metrology": 0.7347282767295837, "Quantum sensing navigation": 0.7355525493621826, "Quantum sensing Position": 0.7439631819725037, "Quantum sensing Timing": 0.7778447270393372, "Quantum sensing": 0.757936954498291, "Quantum control": 0.7302431464195251 } }, { "id": 439, "title": "Dielectric function of quantum dots in the strong confinement regime", "abstract": "The complex dielectric function of quantum dots (QDs) with a core-shell structure is modeled in the strong confinement regime. These results should be useful for the design of negative epsilon optical...", "citations": 50, "author_count": 4, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 439, "doi": "10.1063/1.3309343", "umap_coordinates": { "x": 393.3279113769531, "y": 134.2998504638672, "z": 207.9365234375 }, "tsne_coordinates": { "x": 18.56320571899414, "y": -21.69985008239746, "z": 4.3386454582214355 }, "pca_coordinates": { "x": 1.129354476928711, "y": -3.8600659370422363, "z": -0.8984974026679993 }, "axis_scores": { "Quantum imaging": 0.734261691570282, "Quantum Life Science Sensing": 0.773659348487854, "Quantum sensing Detection": 0.7471363544464111, "Quantum sensing Metrology": 0.7317551374435425, "Quantum sensing navigation": 0.7159134149551392, "Quantum sensing Position": 0.698589026927948, "Quantum sensing Timing": 0.669984757900238, "Quantum sensing": 0.7570552825927734, "Quantum control": 0.7028176188468933 } }, { "id": 440, "title": "Experimental implementation of precisely tailored light-matter interaction via inverse engineering", "abstract": "Accurate and efficient quantum control in the presence of constraints and decoherence is a requirement and a challenge in quantum information processing. Shortcuts to adiabaticity, originally proposed...", "citations": 9, "author_count": 10, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 440, "doi": "10.1038/s41534-021-00473-4", "umap_coordinates": { "x": 394.9329528808594, "y": 135.4165496826172, "z": 206.49380493164062 }, "tsne_coordinates": { "x": -17.16438865661621, "y": 4.340496063232422, "z": -5.828372478485107 }, "pca_coordinates": { "x": -1.5553762912750244, "y": 1.3419917821884155, "z": 2.190629720687866 }, "axis_scores": { "Quantum imaging": 0.7825821042060852, "Quantum Life Science Sensing": 0.7495413422584534, "Quantum sensing Detection": 0.7341066598892212, "Quantum sensing Metrology": 0.7482722997665405, "Quantum sensing navigation": 0.7466247081756592, "Quantum sensing Position": 0.7259000539779663, "Quantum sensing Timing": 0.7149607539176941, "Quantum sensing": 0.7587258219718933, "Quantum control": 0.7391150593757629 } }, { "id": 441, "title": "Size and shape engineering of vertically-stacked InAs quantum dots", "abstract": "Spontaneous formation of nanostructures during epitaxial growth is one of the most successful techniques for in situ fabrication of quantum dots (QDs). We describe new size and shape engineering proce...", "citations": 4, "author_count": 6, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 441, "doi": null, "umap_coordinates": { "x": 391.68316650390625, "y": 138.9610595703125, "z": 209.04910278320312 }, "tsne_coordinates": { "x": -10.395689964294434, "y": 46.59144973754883, "z": -9.070032119750977 }, "pca_coordinates": { "x": -2.0464279651641846, "y": -0.8370943069458008, "z": -1.0280859470367432 }, "axis_scores": { "Quantum imaging": 0.7508125305175781, "Quantum Life Science Sensing": 0.7523948550224304, "Quantum sensing Detection": 0.7293974161148071, "Quantum sensing Metrology": 0.741837203502655, "Quantum sensing navigation": 0.742284893989563, "Quantum sensing Position": 0.7393350005149841, "Quantum sensing Timing": 0.7089298367500305, "Quantum sensing": 0.7543080449104309, "Quantum control": 0.7437343597412109 } }, { "id": 442, "title": "Efficient and continuous microwave photoconversion in hybrid cavity-semiconductor nanowire double quantum dot diodes", "abstract": "Efficient conversion of microwave photons into electrical current would enable several applications in quantum technologies, especially if one could step outside of the gated-time regime. Here, the au...", "citations": 41, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 442, "doi": "10.1038/s41467-021-25446-1", "umap_coordinates": { "x": 392.8431701660156, "y": 134.21299743652344, "z": 206.10623168945312 }, "tsne_coordinates": { "x": 8.799273490905762, "y": -9.90140438079834, "z": -0.8293684124946594 }, "pca_coordinates": { "x": -1.10357666015625, "y": -3.84653377532959, "z": 1.365541934967041 }, "axis_scores": { "Quantum imaging": 0.7044974565505981, "Quantum Life Science Sensing": 0.7154257893562317, "Quantum sensing Detection": 0.7064127326011658, "Quantum sensing Metrology": 0.6897274851799011, "Quantum sensing navigation": 0.6908655166625977, "Quantum sensing Position": 0.6605689525604248, "Quantum sensing Timing": 0.6697150468826294, "Quantum sensing": 0.7176452875137329, "Quantum control": 0.697133481502533 } }, { "id": 443, "title": "Quantum-like modeling in biology with open quantum systems and instruments", "abstract": "We present the novel approach to mathematical modeling of information processes in biosystems. It explores the mathematical formalism and methodology of quantum theory, especially quantum measurement ...", "citations": 36, "author_count": 4, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 443, "doi": "10.1016/j.biosystems.2020.104328", "umap_coordinates": { "x": 394.69708251953125, "y": 137.14219665527344, "z": 205.70391845703125 }, "tsne_coordinates": { "x": -18.541791915893555, "y": 11.73283576965332, "z": 17.65703010559082 }, "pca_coordinates": { "x": 0.448283314704895, "y": 1.7615959644317627, "z": -0.4850386083126068 }, "axis_scores": { "Quantum imaging": 0.7820577025413513, "Quantum Life Science Sensing": 0.8122584819793701, "Quantum sensing Detection": 0.7761788964271545, "Quantum sensing Metrology": 0.7722988724708557, "Quantum sensing navigation": 0.7780311703681946, "Quantum sensing Position": 0.7398983836174011, "Quantum sensing Timing": 0.7387030720710754, "Quantum sensing": 0.787570059299469, "Quantum control": 0.7677323222160339 } }, { "id": 444, "title": "Collective quantum phase slips in multiple nanowire junctions", "abstract": "Realization of robust coherent quantum phase slips represents a significant experimental challenge. Here we propose a design consisting of multiple nanowire junctions to realize a phase-slip flux qubi...", "citations": 8, "author_count": 5, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 444, "doi": "10.1103/PhysRevA.99.012309", "umap_coordinates": { "x": 393.6607666015625, "y": 134.5918731689453, "z": 208.49607849121094 }, "tsne_coordinates": { "x": 11.54340934753418, "y": -24.036222457885742, "z": -5.766480445861816 }, "pca_coordinates": { "x": 4.460827827453613, "y": -3.28572940826416, "z": 1.5974421501159668 }, "axis_scores": { "Quantum imaging": 0.7094168663024902, "Quantum Life Science Sensing": 0.7060366272926331, "Quantum sensing Detection": 0.7222219705581665, "Quantum sensing Metrology": 0.7069625854492188, "Quantum sensing navigation": 0.7343734502792358, "Quantum sensing Position": 0.7110929489135742, "Quantum sensing Timing": 0.713901162147522, "Quantum sensing": 0.7282940149307251, "Quantum control": 0.6997269988059998 } }, { "id": 445, "title": "Ligand-Mediated Quantum Yield Enhancement in 1-D Silver Organothiolate Metal-Organic Chalcogenolates", "abstract": "X-ray free electron laser (XFEL) microcrystallography and synchrotron single-crystal crystallography are used to evaluate the role of organic substituent position on the optoelectronic properties of m...", "citations": 6, "author_count": 45, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 445, "doi": "10.1002/adfm.202414914", "umap_coordinates": { "x": 392.2252502441406, "y": 134.67111206054688, "z": 205.37716674804688 }, "tsne_coordinates": { "x": 35.722225189208984, "y": 0.06878040730953217, "z": -15.70141887664795 }, "pca_coordinates": { "x": -2.4726028442382812, "y": -2.4167990684509277, "z": -1.3420939445495605 }, "axis_scores": { "Quantum imaging": 0.7291066646575928, "Quantum Life Science Sensing": 0.7091637849807739, "Quantum sensing Detection": 0.7157197594642639, "Quantum sensing Metrology": 0.7190867066383362, "Quantum sensing navigation": 0.6986393928527832, "Quantum sensing Position": 0.6676334142684937, "Quantum sensing Timing": 0.666074275970459, "Quantum sensing": 0.7219710350036621, "Quantum control": 0.7105347514152527 } }, { "id": 446, "title": "Electron capture cross sections of InAs/GaAs quantum dots", "abstract": "By measuring the thermal emission rates of electrons from InAs/GaAs quantum dots, capture cross sections in the extremely high region of 10(-11)-10(-10) cm(2) have been found. These data have been con...", "citations": 42, "author_count": 6, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 446, "doi": "10.1063/1.1802377", "umap_coordinates": { "x": 393.1687927246094, "y": 133.67141723632812, "z": 208.39022827148438 }, "tsne_coordinates": { "x": 25.3897647857666, "y": -24.514793395996094, "z": -0.04001603648066521 }, "pca_coordinates": { "x": 1.296729564666748, "y": -4.058773994445801, "z": 2.302151918411255 }, "axis_scores": { "Quantum imaging": 0.7323044538497925, "Quantum Life Science Sensing": 0.7350506782531738, "Quantum sensing Detection": 0.7451556921005249, "Quantum sensing Metrology": 0.7331507802009583, "Quantum sensing navigation": 0.7185598015785217, "Quantum sensing Position": 0.7103009223937988, "Quantum sensing Timing": 0.6880653500556946, "Quantum sensing": 0.7551108598709106, "Quantum control": 0.7097634077072144 } }, { "id": 447, "title": "Gate tunable parallel double quantum dots in InAs double-nanowire devices", "abstract": "We report fabrication and characterization of InAs nanowire devices with two closely placed parallel nanowires. The fabrication process we develop includes selective deposition of the nanowires with m...", "citations": 11, "author_count": 11, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 447, "doi": "10.1063/1.4997646", "umap_coordinates": { "x": 393.2437438964844, "y": 133.9565887451172, "z": 208.3227081298828 }, "tsne_coordinates": { "x": 21.53835678100586, "y": -22.503158569335938, "z": -5.251638889312744 }, "pca_coordinates": { "x": 1.1634907722473145, "y": -5.367509841918945, "z": 2.8256592750549316 }, "axis_scores": { "Quantum imaging": 0.7420686483383179, "Quantum Life Science Sensing": 0.7365192770957947, "Quantum sensing Detection": 0.754613995552063, "Quantum sensing Metrology": 0.7443938255310059, "Quantum sensing navigation": 0.7379388809204102, "Quantum sensing Position": 0.7254055738449097, "Quantum sensing Timing": 0.7328922748565674, "Quantum sensing": 0.7698826193809509, "Quantum control": 0.7307040691375732 } }, { "id": 448, "title": "Experimental quantum-state tomography of a solid-state qubit", "abstract": "Quantum-state tomography is used to characterize the state of an ensemble based qubit implemented through two hyperfine levels in Pr3+ ions, doped into a Y2SiO5 crystal. We experimentally verify that ...", "citations": 75, "author_count": 6, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 448, "doi": "10.1103/PhysRevA.77.022307", "umap_coordinates": { "x": 395.5527038574219, "y": 136.20233154296875, "z": 207.95303344726562 }, "tsne_coordinates": { "x": -21.8128719329834, "y": -13.272069931030273, "z": -2.681499481201172 }, "pca_coordinates": { "x": 5.20917272567749, "y": 0.9203833341598511, "z": 2.1965250968933105 }, "axis_scores": { "Quantum imaging": 0.769411027431488, "Quantum Life Science Sensing": 0.7580816149711609, "Quantum sensing Detection": 0.7763002514839172, "Quantum sensing Metrology": 0.7667434811592102, "Quantum sensing navigation": 0.7680157423019409, "Quantum sensing Position": 0.7493990659713745, "Quantum sensing Timing": 0.7415302991867065, "Quantum sensing": 0.7851215600967407, "Quantum control": 0.73332279920578 } }, { "id": 449, "title": "Quantum dot based Kitaev chains: Majorana quality measures and scaling with increasing chain length", "abstract": "Realizing Majorana bound states (MBSs) in short, well-controllable chains of coupled quantum dots sidesteps the problem of disorder but requires finetuning and does not give the true topological prote...", "citations": 9, "author_count": 3, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 449, "doi": "10.1103/PhysRevB.110.155436", "umap_coordinates": { "x": 395.0078430175781, "y": 137.01760864257812, "z": 208.48602294921875 }, "tsne_coordinates": { "x": -30.804176330566406, "y": -24.023679733276367, "z": 6.7467122077941895 }, "pca_coordinates": { "x": 3.5551514625549316, "y": -0.5384604930877686, "z": 0.2655804753303528 }, "axis_scores": { "Quantum imaging": 0.7377880811691284, "Quantum Life Science Sensing": 0.7484857439994812, "Quantum sensing Detection": 0.735929548740387, "Quantum sensing Metrology": 0.7339281439781189, "Quantum sensing navigation": 0.7475494146347046, "Quantum sensing Position": 0.7261196970939636, "Quantum sensing Timing": 0.6917757391929626, "Quantum sensing": 0.7439426183700562, "Quantum control": 0.7289440631866455 } }, { "id": 450, "title": "Anomalous negative magnetoresistance in quantum dot Josephson junctions with Kondo correlations", "abstract": "The interplay between superconductivity and the Kondo effect has stimulated significant interest in condensed matter physics. They compete when their critical temperatures are close and can give rise ...", "citations": 1, "author_count": 9, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 450, "doi": "10.1007/s11433-024-2382-1", "umap_coordinates": { "x": 393.958984375, "y": 134.84927368164062, "z": 207.85650634765625 }, "tsne_coordinates": { "x": 1.460119366645813, "y": -15.194037437438965, "z": 13.273496627807617 }, "pca_coordinates": { "x": 2.246832847595215, "y": -0.905815601348877, "z": 1.6329069137573242 }, "axis_scores": { "Quantum imaging": 0.7211573719978333, "Quantum Life Science Sensing": 0.7183934450149536, "Quantum sensing Detection": 0.7275665998458862, "Quantum sensing Metrology": 0.7249916791915894, "Quantum sensing navigation": 0.7370249629020691, "Quantum sensing Position": 0.7100116014480591, "Quantum sensing Timing": 0.7140821814537048, "Quantum sensing": 0.7304083108901978, "Quantum control": 0.7080187797546387 } }, { "id": 451, "title": "Efficiently fueling a quantum engine with incompatible measurements", "abstract": "We propose a quantum harmonic oscillator measurement engine fueled by simultaneous quantum measure-ments of the noncommuting position and momentum quadratures of the quantum oscillator. The engine ext...", "citations": 32, "author_count": 6, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 451, "doi": "10.1103/PhysRevE.105.044137", "umap_coordinates": { "x": 396.0278625488281, "y": 136.43666076660156, "z": 207.2252655029297 }, "tsne_coordinates": { "x": -26.191484451293945, "y": -12.310798645019531, "z": 11.78724479675293 }, "pca_coordinates": { "x": 3.0718936920166016, "y": 2.391850471496582, "z": 2.9991564750671387 }, "axis_scores": { "Quantum imaging": 0.7612641453742981, "Quantum Life Science Sensing": 0.724234938621521, "Quantum sensing Detection": 0.7460577487945557, "Quantum sensing Metrology": 0.7335903644561768, "Quantum sensing navigation": 0.7365409731864929, "Quantum sensing Position": 0.7196257710456848, "Quantum sensing Timing": 0.7267443537712097, "Quantum sensing": 0.7461054921150208, "Quantum control": 0.7132091522216797 } }, { "id": 452, "title": "Microwave-activated quantum interferometer in an environment", "abstract": "Dephasing in a microwave-activated quantum interferometer introduced by bias voltage fluctuations and by flicker noise in the junction transparency is considered. It is shown that under realistic cond...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 452, "doi": "10.1023/A:1004631125916", "umap_coordinates": { "x": 394.26251220703125, "y": 135.47964477539062, "z": 206.81161499023438 }, "tsne_coordinates": { "x": -31.933208465576172, "y": -9.529378890991211, "z": -14.611215591430664 }, "pca_coordinates": { "x": 0.11555445194244385, "y": -0.007422447204589844, "z": 0.7740065455436707 }, "axis_scores": { "Quantum imaging": 0.7160190343856812, "Quantum Life Science Sensing": 0.7312740683555603, "Quantum sensing Detection": 0.7345905900001526, "Quantum sensing Metrology": 0.7220650911331177, "Quantum sensing navigation": 0.7204564213752747, "Quantum sensing Position": 0.6986221075057983, "Quantum sensing Timing": 0.6865831613540649, "Quantum sensing": 0.7368528246879578, "Quantum control": 0.6828728318214417 } }, { "id": 453, "title": "Discontinuity in the phase evolution of electron transport in a quantum channel with attached quantum dots", "abstract": "In a recent phase experiment by Schuster et al. [Nature 385, 417 (1997)], an abrupt phase drop of pi was observed when the electron transmission through a quantum dot embedded in a quantum channel van...", "citations": 70, "author_count": 3, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 453, "doi": "10.1103/PhysRevB.57.11903", "umap_coordinates": { "x": 393.9596252441406, "y": 135.52468872070312, "z": 209.17953491210938 }, "tsne_coordinates": { "x": 0.5282036662101746, "y": -28.705001831054688, "z": 5.7724504470825195 }, "pca_coordinates": { "x": 4.4265971183776855, "y": -1.426013469696045, "z": 0.06627470254898071 }, "axis_scores": { "Quantum imaging": 0.7158180475234985, "Quantum Life Science Sensing": 0.7092987895011902, "Quantum sensing Detection": 0.7199351191520691, "Quantum sensing Metrology": 0.6933462619781494, "Quantum sensing navigation": 0.7308260798454285, "Quantum sensing Position": 0.7223547101020813, "Quantum sensing Timing": 0.7014702558517456, "Quantum sensing": 0.7185447812080383, "Quantum control": 0.7047138214111328 } }, { "id": 454, "title": "Hybrid quantum photonic integrated circuits", "abstract": "Quantum photonic integrated circuits require a scalable approach to integrate bright on-demand sources of entangled photon-pairs in complex on-chip quantum photonic circuits. Currently, the most promi...", "citations": 3, "author_count": 9, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 454, "doi": null, "umap_coordinates": { "x": 391.9665832519531, "y": 139.4171142578125, "z": 209.4212188720703 }, "tsne_coordinates": { "x": -10.286195755004883, "y": 41.51564407348633, "z": -5.728109836578369 }, "pca_coordinates": { "x": 0.3465096950531006, "y": 1.3684276342391968, "z": -0.22082394361495972 }, "axis_scores": { "Quantum imaging": 0.8018764853477478, "Quantum Life Science Sensing": 0.7607407569885254, "Quantum sensing Detection": 0.7797259092330933, "Quantum sensing Metrology": 0.7534580826759338, "Quantum sensing navigation": 0.7749537229537964, "Quantum sensing Position": 0.726861834526062, "Quantum sensing Timing": 0.7206278443336487, "Quantum sensing": 0.794750452041626, "Quantum control": 0.7795602083206177 } }, { "id": 455, "title": "Improving the Photocurrent in Quantum-Dot-Sensitized Solar Cells by Employing Alloy PbxCd1-xS Quantum Dots as Photosensitizers", "abstract": "Ternary alloy PbxCd1-xS quantum dots (QDs) were explored as photosensitizers for quantum-dot-sensitized solar cells (QDSCs). Alloy PbxCd1-xS QDs (Pb0.54Cd0.46S, Pb0.31Cd0.69S, and Pb0.24Cd0.76S) were ...", "citations": 31, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 455, "doi": "10.3390/nano6060097", "umap_coordinates": { "x": 392.458251953125, "y": 133.70614624023438, "z": 205.58494567871094 }, "tsne_coordinates": { "x": 29.400493621826172, "y": -2.1045689582824707, "z": -15.868721961975098 }, "pca_coordinates": { "x": -2.366354465484619, "y": -4.120028972625732, "z": -0.02671736478805542 }, "axis_scores": { "Quantum imaging": 0.6732117533683777, "Quantum Life Science Sensing": 0.6836676001548767, "Quantum sensing Detection": 0.6672583818435669, "Quantum sensing Metrology": 0.6733796000480652, "Quantum sensing navigation": 0.6821353435516357, "Quantum sensing Position": 0.6735761165618896, "Quantum sensing Timing": 0.6562367677688599, "Quantum sensing": 0.6874291300773621, "Quantum control": 0.6801481246948242 } }, { "id": 456, "title": "Thermodynamics of quantum measurement and Maxwell's demon's arrow of time", "abstract": "We discuss the thermodynamic aspects of a single qubit based device, powered by weak quantum measure-ments, and feedback controlled by a quantum Maxwell's demon. We discuss both discrete and time-cont...", "citations": 11, "author_count": 5, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 456, "doi": "10.1103/PhysRevA.106.042221", "umap_coordinates": { "x": 395.3602600097656, "y": 136.9976043701172, "z": 206.7720489501953 }, "tsne_coordinates": { "x": -20.541847229003906, "y": -14.977831840515137, "z": 5.449313163757324 }, "pca_coordinates": { "x": 3.5494632720947266, "y": 2.315427541732788, "z": 0.8849100470542908 }, "axis_scores": { "Quantum imaging": 0.756463348865509, "Quantum Life Science Sensing": 0.7789452075958252, "Quantum sensing Detection": 0.7685350179672241, "Quantum sensing Metrology": 0.767094612121582, "Quantum sensing navigation": 0.7695538997650146, "Quantum sensing Position": 0.755484402179718, "Quantum sensing Timing": 0.7871116995811462, "Quantum sensing": 0.7805964350700378, "Quantum control": 0.7437313795089722 } }, { "id": 457, "title": "Exciton Polariton Contribution to the Stokes Shift in Colloidal Quantum Dots", "abstract": "We study the exciton polariton contribution to the Stokes shift in colloidal quantum dots (QDs). By detailed quantum mechanical description of light-matter interaction and temporal analysis of inciden...", "citations": 12, "author_count": 6, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 457, "doi": "10.1021/jp109608t", "umap_coordinates": { "x": 392.5885314941406, "y": 134.89068603515625, "z": 206.9215545654297 }, "tsne_coordinates": { "x": 17.968433380126953, "y": -10.663022994995117, "z": 5.542073726654053 }, "pca_coordinates": { "x": -0.45385634899139404, "y": -3.9284543991088867, "z": -1.0448017120361328 }, "axis_scores": { "Quantum imaging": 0.6612540483474731, "Quantum Life Science Sensing": 0.671553373336792, "Quantum sensing Detection": 0.6757495999336243, "Quantum sensing Metrology": 0.6539517045021057, "Quantum sensing navigation": 0.6740129590034485, "Quantum sensing Position": 0.6835963129997253, "Quantum sensing Timing": 0.6684691905975342, "Quantum sensing": 0.68039870262146, "Quantum control": 0.6567391157150269 } }, { "id": 458, "title": "Exciton-polariton ladder in a semiconductor microcavity", "abstract": "We investigated the;strongly coupled single cavity photon state and multiple discrete quantum-well exciton states in a semiconductor microcavity. The measured exciton-polariton dispersion curves featu...", "citations": 15, "author_count": 5, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 458, "doi": "10.1103/PhysRevB.54.8083", "umap_coordinates": { "x": 393.82415771484375, "y": 135.49642944335938, "z": 208.72604370117188 }, "tsne_coordinates": { "x": 7.723151683807373, "y": -27.825719833374023, "z": 2.476703405380249 }, "pca_coordinates": { "x": 3.9792823791503906, "y": -2.89009952545166, "z": -0.5156842470169067 }, "axis_scores": { "Quantum imaging": 0.7014168500900269, "Quantum Life Science Sensing": 0.7060478925704956, "Quantum sensing Detection": 0.7088162302970886, "Quantum sensing Metrology": 0.67476487159729, "Quantum sensing navigation": 0.72118079662323, "Quantum sensing Position": 0.6991924047470093, "Quantum sensing Timing": 0.6654065847396851, "Quantum sensing": 0.7105643153190613, "Quantum control": 0.6780803799629211 } }, { "id": 459, "title": "Josephson junction qubit network with current-controlled interaction - art. no. 140507", "abstract": "We design and evaluate a scalable charge qubit chain network with controllable current-current coupling of neighboring qubit loops via local dc-current gates. The network allows construction of genera...", "citations": 44, "author_count": 5, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 459, "doi": "10.1103/PhysRevB.70.140507", "umap_coordinates": { "x": 395.1332092285156, "y": 135.95631408691406, "z": 208.06739807128906 }, "tsne_coordinates": { "x": -31.531871795654297, "y": -24.91781997680664, "z": 18.159528732299805 }, "pca_coordinates": { "x": 4.581093788146973, "y": 0.7462259531021118, "z": 1.6602237224578857 }, "axis_scores": { "Quantum imaging": 0.722320020198822, "Quantum Life Science Sensing": 0.6970792412757874, "Quantum sensing Detection": 0.70782071352005, "Quantum sensing Metrology": 0.6930593252182007, "Quantum sensing navigation": 0.7303972840309143, "Quantum sensing Position": 0.6802724599838257, "Quantum sensing Timing": 0.6826538443565369, "Quantum sensing": 0.7173368334770203, "Quantum control": 0.7261713743209839 } }, { "id": 460, "title": "Bias mediated tuning of the detection wavelength in asymmetrical quantum dots-in-a-well infrared photodetectors", "abstract": "Bias-mediated tuning of the detection wavelength within the infrared wavelength region is demonstrated for quantum dots-in-a-well and dots-on-a-well infrared photodetectors. By positioning the InAs qu...", "citations": 6, "author_count": 10, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 460, "doi": "10.1063/1.3033169", "umap_coordinates": { "x": 393.0958557128906, "y": 133.74366760253906, "z": 208.11708068847656 }, "tsne_coordinates": { "x": 34.05805969238281, "y": -20.010408401489258, "z": -2.1853506565093994 }, "pca_coordinates": { "x": -0.18125975131988525, "y": -4.0009918212890625, "z": 2.637695789337158 }, "axis_scores": { "Quantum imaging": 0.7295075058937073, "Quantum Life Science Sensing": 0.7179245948791504, "Quantum sensing Detection": 0.7362885475158691, "Quantum sensing Metrology": 0.7190159559249878, "Quantum sensing navigation": 0.7176806330680847, "Quantum sensing Position": 0.7014447450637817, "Quantum sensing Timing": 0.680553674697876, "Quantum sensing": 0.740430474281311, "Quantum control": 0.6903331279754639 } }, { "id": 461, "title": "Nonclassical microwave radiation from the dynamical Casimir effect", "abstract": "We investigate quantum correlations in microwave radiation produced by the dynamical Casimir effect in a superconducting waveguide terminated and modulated by a superconducting quantum interference de...", "citations": 86, "author_count": 6, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 461, "doi": "10.1103/PhysRevA.87.043804", "umap_coordinates": { "x": 394.9698181152344, "y": 137.04319763183594, "z": 207.88189697265625 }, "tsne_coordinates": { "x": -14.108072280883789, "y": -25.241891860961914, "z": 11.274144172668457 }, "pca_coordinates": { "x": 3.9290246963500977, "y": 2.076308250427246, "z": -0.16908586025238037 }, "axis_scores": { "Quantum imaging": 0.6949237585067749, "Quantum Life Science Sensing": 0.7157996892929077, "Quantum sensing Detection": 0.703269362449646, "Quantum sensing Metrology": 0.6878283023834229, "Quantum sensing navigation": 0.6946902275085449, "Quantum sensing Position": 0.6492888927459717, "Quantum sensing Timing": 0.6544659733772278, "Quantum sensing": 0.7021237015724182, "Quantum control": 0.6786338686943054 } }, { "id": 462, "title": "On the Existence of Quantum Wave Function and Quantum Interference Effects in Mental States An Experimental Confirmation during Perception and Cognition in Humans", "abstract": "We introduce the quantum theoretical formulation to determine a posteriori, if existing, the quantum wave functions and to estimate the quantum interference effects of mental states. Such quantum feat...", "citations": 15, "author_count": 6, "categories": [ "Neurosciences & Neurology" ], "year": 2009, "topic": [ "all" ], "embedding_index": 462, "doi": null, "umap_coordinates": { "x": 392.0044860839844, "y": 139.2283172607422, "z": 209.23631286621094 }, "tsne_coordinates": { "x": -11.217626571655273, "y": 38.15491485595703, "z": 0.514329731464386 }, "pca_coordinates": { "x": 0.7990667819976807, "y": 5.113819122314453, "z": -0.49339115619659424 }, "axis_scores": { "Quantum imaging": 0.7787305116653442, "Quantum Life Science Sensing": 0.7697126865386963, "Quantum sensing Detection": 0.7650606036186218, "Quantum sensing Metrology": 0.75282883644104, "Quantum sensing navigation": 0.7731974720954895, "Quantum sensing Position": 0.7557585835456848, "Quantum sensing Timing": 0.7435789108276367, "Quantum sensing": 0.7710397839546204, "Quantum control": 0.7397319078445435 } }, { "id": 463, "title": "Nanoscale Optical Electrometer", "abstract": "We propose and demonstrate an all-optical approach to single-electron sensing using the optical transitions of a semiconductor quantum dot. The measured electric-field sensitivity of 5 (V/m)/root Hz c...", "citations": 55, "author_count": 7, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 463, "doi": "10.1103/PhysRevLett.107.166802", "umap_coordinates": { "x": 394.8773498535156, "y": 135.0967559814453, "z": 208.1396942138672 }, "tsne_coordinates": { "x": -13.711471557617188, "y": -18.876285552978516, "z": -0.7632403373718262 }, "pca_coordinates": { "x": 4.029404163360596, "y": -1.2477734088897705, "z": 1.7506003379821777 }, "axis_scores": { "Quantum imaging": 0.7541584968566895, "Quantum Life Science Sensing": 0.7906049489974976, "Quantum sensing Detection": 0.7732080221176147, "Quantum sensing Metrology": 0.7799578905105591, "Quantum sensing navigation": 0.7719416618347168, "Quantum sensing Position": 0.7572795152664185, "Quantum sensing Timing": 0.7399789690971375, "Quantum sensing": 0.7830960154533386, "Quantum control": 0.7228599786758423 } }, { "id": 464, "title": "Multi-channel electroluminescence of CdTe/CdS core-shell quantum dots implemented into a QLED device", "abstract": "CdTe/CdS core-shell quantum dots were synthesized and implemented into a light emitting device resulting in multi-channel electroluminescence with a light-green emission color. The main electrolumines...", "citations": 25, "author_count": 12, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 464, "doi": "10.1016/j.dyepig.2018.10.074", "umap_coordinates": { "x": 393.06341552734375, "y": 133.91680908203125, "z": 205.82650756835938 }, "tsne_coordinates": { "x": 25.996458053588867, "y": 4.316781044006348, "z": 5.9191813468933105 }, "pca_coordinates": { "x": -3.988678455352783, "y": -3.138561248779297, "z": 1.5689592361450195 }, "axis_scores": { "Quantum imaging": 0.7381619215011597, "Quantum Life Science Sensing": 0.7312968373298645, "Quantum sensing Detection": 0.726728081703186, "Quantum sensing Metrology": 0.7141848802566528, "Quantum sensing navigation": 0.6953569650650024, "Quantum sensing Position": 0.6925472617149353, "Quantum sensing Timing": 0.6682448387145996, "Quantum sensing": 0.7366718649864197, "Quantum control": 0.6981757879257202 } }, { "id": 465, "title": "Sensitive 1H-31P correlations with 5′ methylene protons of DNA via homonuclear double-quantum coherence", "abstract": "A novel pulse sequence is presented for the correlation of 5' and 5'' protons in DNA with phosphorus. Double-quantum coherence between the methylene protons is used to generate (1)H5'-P-31 and (1)H5''...", "citations": 2, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2001, "topic": [ "all" ], "embedding_index": 465, "doi": "10.1023/A:1011298401002", "umap_coordinates": { "x": 392.9764709472656, "y": 136.97216796875, "z": 205.68223571777344 }, "tsne_coordinates": { "x": 12.251945495605469, "y": 10.075319290161133, "z": 25.32145881652832 }, "pca_coordinates": { "x": -0.4756090044975281, "y": -0.12327289581298828, "z": 0.846822202205658 }, "axis_scores": { "Quantum imaging": 0.7029768824577332, "Quantum Life Science Sensing": 0.7240327000617981, "Quantum sensing Detection": 0.7083522081375122, "Quantum sensing Metrology": 0.6885621547698975, "Quantum sensing navigation": 0.7081741690635681, "Quantum sensing Position": 0.6934351325035095, "Quantum sensing Timing": 0.6682250499725342, "Quantum sensing": 0.7174136638641357, "Quantum control": 0.6655701398849487 } }, { "id": 466, "title": "Studies of self-assembled InP quantum dots in planar microcavities", "abstract": "Self-assembled InP quantum dots have been grown in planar microcavities. The dots were embedded in a Ga0.52In0.48P spacer grown on top of a high reflectance epitaxial Al0.29Ga0.71As/AlAs distributed B...", "citations": 4, "author_count": 11, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 466, "doi": "10.1016/S0921-5107(99)00295-0", "umap_coordinates": { "x": 392.1725769042969, "y": 134.40805053710938, "z": 207.85166931152344 }, "tsne_coordinates": { "x": 23.276981353759766, "y": -12.80595874786377, "z": 4.446401596069336 }, "pca_coordinates": { "x": -1.3828274011611938, "y": -2.870405673980713, "z": 0.04774653911590576 }, "axis_scores": { "Quantum imaging": 0.7105985879898071, "Quantum Life Science Sensing": 0.7247698903083801, "Quantum sensing Detection": 0.6879618763923645, "Quantum sensing Metrology": 0.7056150436401367, "Quantum sensing navigation": 0.7038425207138062, "Quantum sensing Position": 0.7052714824676514, "Quantum sensing Timing": 0.6495023965835571, "Quantum sensing": 0.7073186635971069, "Quantum control": 0.6806013584136963 } }, { "id": 467, "title": "InSb Nanowire Field-Effect Transistors and Quantum-Dot Devices", "abstract": "The authors present fabrication and electrical measurements of InSb nanowire field-effect transistors (FETs) and quantum dots. The devices are made on a SiO2-capped Si substrate from InSb segments of ...", "citations": 38, "author_count": 8, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 467, "doi": "10.1109/JSTQE.2010.2090135", "umap_coordinates": { "x": 394.15679931640625, "y": 133.75509643554688, "z": 206.95115661621094 }, "tsne_coordinates": { "x": -3.126924753189087, "y": 1.280606985092163, "z": -35.811485290527344 }, "pca_coordinates": { "x": 1.2092900276184082, "y": -3.9143552780151367, "z": 0.9507614970207214 }, "axis_scores": { "Quantum imaging": 0.7378905415534973, "Quantum Life Science Sensing": 0.7457243800163269, "Quantum sensing Detection": 0.7510565519332886, "Quantum sensing Metrology": 0.7359065413475037, "Quantum sensing navigation": 0.7425148487091064, "Quantum sensing Position": 0.7099528908729553, "Quantum sensing Timing": 0.7135599851608276, "Quantum sensing": 0.7587839961051941, "Quantum control": 0.7171961069107056 } }, { "id": 468, "title": "Theory of time-dependent transport in quantum dot systems", "abstract": "The formulation of the time-dependent tunnel current in quantum dot (QD) systems in the (generalized) transfer Hamiltonian formalism is reconsidered, taking into account the nonorthogonality between t...", "citations": 7, "author_count": 2, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 468, "doi": "10.1002/qua.10527", "umap_coordinates": { "x": 394.4136962890625, "y": 136.84414672851562, "z": 206.92384338378906 }, "tsne_coordinates": { "x": -11.295417785644531, "y": -35.05549621582031, "z": -0.3984118700027466 }, "pca_coordinates": { "x": 2.7103488445281982, "y": -0.20357012748718262, "z": -0.21046632528305054 }, "axis_scores": { "Quantum imaging": 0.7775445580482483, "Quantum Life Science Sensing": 0.7730401158332825, "Quantum sensing Detection": 0.777792751789093, "Quantum sensing Metrology": 0.760114312171936, "Quantum sensing navigation": 0.7807059288024902, "Quantum sensing Position": 0.7615661025047302, "Quantum sensing Timing": 0.7880678176879883, "Quantum sensing": 0.784417986869812, "Quantum control": 0.7832322716712952 } }, { "id": 469, "title": "Zero-phonon linewidth and phonon satellites in the optical absorption of nanowire-based quantum dots", "abstract": "The optical properties of quantum dots embedded in a catalytically grown semiconductor nanowire are studied theoretically. In comparison to dots in a bulk environment, the excitonic absorption is stro...", "citations": 32, "author_count": 5, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 469, "doi": "10.1103/PhysRevLett.99.087401", "umap_coordinates": { "x": 393.3527526855469, "y": 134.90457153320312, "z": 208.29115295410156 }, "tsne_coordinates": { "x": 15.795268058776855, "y": -18.054758071899414, "z": 6.287509441375732 }, "pca_coordinates": { "x": 2.9664359092712402, "y": -3.310265064239502, "z": 1.4252734184265137 }, "axis_scores": { "Quantum imaging": 0.6575692296028137, "Quantum Life Science Sensing": 0.6766979694366455, "Quantum sensing Detection": 0.6674749851226807, "Quantum sensing Metrology": 0.6609377861022949, "Quantum sensing navigation": 0.6815987825393677, "Quantum sensing Position": 0.6671285629272461, "Quantum sensing Timing": 0.6773704290390015, "Quantum sensing": 0.6683729290962219, "Quantum control": 0.6324971914291382 } }, { "id": 470, "title": "Quantum swapping of immiscible Bose-Einstein condensates as an alternative to the Rayleigh-Taylor instability", "abstract": "We consider a two-component Bose-Einstein condensate in a quasi-one-dimensional harmonic trap, where the immiscible components are pressed against each other by an external magnetic force. The zero-te...", "citations": 11, "author_count": 6, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 470, "doi": "10.1103/PhysRevA.85.013630", "umap_coordinates": { "x": 394.8295593261719, "y": 136.8706512451172, "z": 207.39984130859375 }, "tsne_coordinates": { "x": -37.08842468261719, "y": -19.63833999633789, "z": 9.024909973144531 }, "pca_coordinates": { "x": 2.4690897464752197, "y": 1.6771936416625977, "z": -0.8832193613052368 }, "axis_scores": { "Quantum imaging": 0.7198874354362488, "Quantum Life Science Sensing": 0.7080786824226379, "Quantum sensing Detection": 0.6963996887207031, "Quantum sensing Metrology": 0.6933622360229492, "Quantum sensing navigation": 0.7151334285736084, "Quantum sensing Position": 0.6947026252746582, "Quantum sensing Timing": 0.7061482667922974, "Quantum sensing": 0.7166441082954407, "Quantum control": 0.6936014890670776 } }, { "id": 471, "title": "Lineshape of the thermopower of quantum dots", "abstract": "Quantum dots are an important model system for thermoelectric phenomena, and may be used to enhance the thermal-to-electric energy conversion efficiency in functional materials, by tuning the Fermi en...", "citations": 74, "author_count": 9, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 471, "doi": "10.1088/1367-2630/14/3/033041", "umap_coordinates": { "x": 393.35675048828125, "y": 134.9970245361328, "z": 207.28611755371094 }, "tsne_coordinates": { "x": 22.621793746948242, "y": -26.02790641784668, "z": 10.045351028442383 }, "pca_coordinates": { "x": 0.689828634262085, "y": -0.655219554901123, "z": 0.08045899868011475 }, "axis_scores": { "Quantum imaging": 0.731381893157959, "Quantum Life Science Sensing": 0.7449631690979004, "Quantum sensing Detection": 0.7028306126594543, "Quantum sensing Metrology": 0.6999595761299133, "Quantum sensing navigation": 0.6991380453109741, "Quantum sensing Position": 0.7038944363594055, "Quantum sensing Timing": 0.7112479209899902, "Quantum sensing": 0.728202223777771, "Quantum control": 0.7135186791419983 } }, { "id": 472, "title": "Quantifying the impact of phonon scattering on electrical and thermal transport in quantum dots", "abstract": "We report the inclusion of phonon scattering to our recently established numerical package QmeQ for transport in quantum dot systems. This enables straightforward calculations for a large variety of d...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 472, "doi": "10.1140/epjst/e2018-800051-9", "umap_coordinates": { "x": 393.73968505859375, "y": 134.4828338623047, "z": 206.6765594482422 }, "tsne_coordinates": { "x": 17.313291549682617, "y": -19.46877670288086, "z": 12.232335090637207 }, "pca_coordinates": { "x": 0.25687193870544434, "y": -1.693293571472168, "z": 1.607898235321045 }, "axis_scores": { "Quantum imaging": 0.7283563613891602, "Quantum Life Science Sensing": 0.7268993258476257, "Quantum sensing Detection": 0.7239775061607361, "Quantum sensing Metrology": 0.7277407646179199, "Quantum sensing navigation": 0.7184267044067383, "Quantum sensing Position": 0.7217463850975037, "Quantum sensing Timing": 0.7427105903625488, "Quantum sensing": 0.7432995438575745, "Quantum control": 0.7094807624816895 } }, { "id": 473, "title": "In one harness: the interplay of cellular responses and subsequent cell fate after quantum dot uptake", "abstract": "Rapid growth and expansion of engineered nanomaterials will occur when the technology can be used safely. Quantum dots have excellent prospects in clinical applications, but the issue of toxicity has ...", "citations": 5, "author_count": 6, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 473, "doi": "10.2217/nnm-2016-0068", "umap_coordinates": { "x": 394.2795715332031, "y": 134.92306518554688, "z": 204.24183654785156 }, "tsne_coordinates": { "x": 12.643182754516602, "y": 32.45821762084961, "z": -2.567230463027954 }, "pca_coordinates": { "x": -1.794581651687622, "y": 0.36788439750671387, "z": -0.16182833909988403 }, "axis_scores": { "Quantum imaging": 0.711542546749115, "Quantum Life Science Sensing": 0.727369487285614, "Quantum sensing Detection": 0.7087083458900452, "Quantum sensing Metrology": 0.6908729076385498, "Quantum sensing navigation": 0.7033185958862305, "Quantum sensing Position": 0.6810522079467773, "Quantum sensing Timing": 0.690214991569519, "Quantum sensing": 0.7157133221626282, "Quantum control": 0.700339674949646 } }, { "id": 474, "title": "Colloidal carbon quantum dots as light absorber for efficient and stable ecofriendly photoelectrochemical hydrogen generation", "abstract": "Solar-driven hydrogen production is one of the most promising strategies for solar-to-hydrogen energy conversion. Compared to inorganic quantum dots (QDs), carbon quantum dots (C-dots) have attracted ...", "citations": 94, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 474, "doi": "10.1016/j.nanoen.2021.106122", "umap_coordinates": { "x": 392.6464538574219, "y": 133.80303955078125, "z": 205.0740203857422 }, "tsne_coordinates": { "x": 25.92556381225586, "y": 7.6748223304748535, "z": -8.63861083984375 }, "pca_coordinates": { "x": -3.4546568393707275, "y": -3.5752158164978027, "z": -1.8121538162231445 }, "axis_scores": { "Quantum imaging": 0.7041534781455994, "Quantum Life Science Sensing": 0.7646163702011108, "Quantum sensing Detection": 0.711423933506012, "Quantum sensing Metrology": 0.6911764740943909, "Quantum sensing navigation": 0.7100555896759033, "Quantum sensing Position": 0.6964937448501587, "Quantum sensing Timing": 0.6786423325538635, "Quantum sensing": 0.7275446057319641, "Quantum control": 0.7206437587738037 } }, { "id": 475, "title": "Measurements of the spin-orbit interaction and Lande g factor in a pure-phase InAs nanowire double quantum dot in the Pauli spin-blockade regime", "abstract": "We demonstrate direct measurements of the spin-orbit interaction and Lande g factors in a semiconductor nanowire double quantum dot. The device is made from a single-crystal pure-phase InAs nanowire o...", "citations": 20, "author_count": 7, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 475, "doi": "10.1063/1.4960464", "umap_coordinates": { "x": 393.2586669921875, "y": 134.54002380371094, "z": 208.61920166015625 }, "tsne_coordinates": { "x": 9.624375343322754, "y": -19.305234909057617, "z": -3.05245041847229 }, "pca_coordinates": { "x": 2.1691622734069824, "y": -2.9131526947021484, "z": 0.9561085104942322 }, "axis_scores": { "Quantum imaging": 0.7178460359573364, "Quantum Life Science Sensing": 0.7358501553535461, "Quantum sensing Detection": 0.7189968824386597, "Quantum sensing Metrology": 0.7266294360160828, "Quantum sensing navigation": 0.7264516353607178, "Quantum sensing Position": 0.7038829922676086, "Quantum sensing Timing": 0.6840773820877075, "Quantum sensing": 0.7396727800369263, "Quantum control": 0.6915757060050964 } }, { "id": 476, "title": "Model study of quantum dots", "abstract": "The ground-state electronic structure of unsupported three-dimensional cylindrical quantum dots is investigated using a simple free electron model with a step potential, Detailed analysis of the elect...", "citations": 5, "author_count": 3, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 476, "doi": "10.1016/S0039-6028(02)01426-7", "umap_coordinates": { "x": 393.7983093261719, "y": 135.80224609375, "z": 206.01695251464844 }, "tsne_coordinates": { "x": -6.342400550842285, "y": 12.579724311828613, "z": 14.024443626403809 }, "pca_coordinates": { "x": -0.7721848487854004, "y": -0.6621761322021484, "z": -0.8760432004928589 }, "axis_scores": { "Quantum imaging": 0.7498069405555725, "Quantum Life Science Sensing": 0.7840146422386169, "Quantum sensing Detection": 0.7530394792556763, "Quantum sensing Metrology": 0.751288890838623, "Quantum sensing navigation": 0.7382779121398926, "Quantum sensing Position": 0.7439566850662231, "Quantum sensing Timing": 0.7093542218208313, "Quantum sensing": 0.7633650898933411, "Quantum control": 0.7478830218315125 } }, { "id": 477, "title": "Binary metal and semiconductor quantum dot metamaterials with negative optical dielectric constant and compensated loss for small volume waveguides, modulators and switches", "abstract": "We study numerically and analytically a binary mixture of quantum dots exhibiting gain and loss. For a mixture of gain quantum dots and silver nanoparticles, we find conditions when the composite show...", "citations": 7, "author_count": 5, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 477, "doi": "10.1007/s00339-009-5145-y", "umap_coordinates": { "x": 393.4399719238281, "y": 134.15895080566406, "z": 206.6843719482422 }, "tsne_coordinates": { "x": 30.98662757873535, "y": 1.8826838731765747, "z": -19.61185646057129 }, "pca_coordinates": { "x": -1.3822706937789917, "y": -1.110107421875, "z": 0.7868008017539978 }, "axis_scores": { "Quantum imaging": 0.6998443603515625, "Quantum Life Science Sensing": 0.7162502408027649, "Quantum sensing Detection": 0.6984110474586487, "Quantum sensing Metrology": 0.7200995087623596, "Quantum sensing navigation": 0.7024067044258118, "Quantum sensing Position": 0.6812002658843994, "Quantum sensing Timing": 0.6654363870620728, "Quantum sensing": 0.7060942649841309, "Quantum control": 0.6831114292144775 } }, { "id": 478, "title": "Interferometry of direct photons in central 208Pb+208Pb collisions at 158A GeV - art. no. 022301", "abstract": "Two-particle correlations of direct photons were measured in central (208Pb+208Pb collisions at 158A GeV. The invariant interferometric radii were extracted for 100<300 MeV/c and compared to radii ext...", "citations": 58, "author_count": 129, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 478, "doi": "10.1103/PhysRevLett.93.022301", "umap_coordinates": { "x": 396.1679992675781, "y": 134.7786865234375, "z": 207.77186584472656 }, "tsne_coordinates": { "x": -29.91525650024414, "y": 0.5304402112960815, "z": -16.509536743164062 }, "pca_coordinates": { "x": 2.8217921257019043, "y": 0.9177316427230835, "z": 3.2590527534484863 }, "axis_scores": { "Quantum imaging": 0.722206175327301, "Quantum Life Science Sensing": 0.7227159142494202, "Quantum sensing Detection": 0.7400718927383423, "Quantum sensing Metrology": 0.7230151295661926, "Quantum sensing navigation": 0.729338526725769, "Quantum sensing Position": 0.7130254507064819, "Quantum sensing Timing": 0.7066848278045654, "Quantum sensing": 0.7284469604492188, "Quantum control": 0.6847839951515198 } }, { "id": 479, "title": "Effects of charged self-assembled quantum dots on two-dimensional quantum transport", "abstract": "The influence of a layer of InAs quantum dots on the transport properties of a nearby two-dimensional electron gas (2DEG) in an InGaAs/InP quantum well is investigated. The probability of the scatteri...", "citations": 23, "author_count": 7, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 479, "doi": "10.1063/1.126142", "umap_coordinates": { "x": 393.0371398925781, "y": 134.16586303710938, "z": 208.10589599609375 }, "tsne_coordinates": { "x": 25.476154327392578, "y": -25.012937545776367, "z": -3.031608819961548 }, "pca_coordinates": { "x": 1.8754100799560547, "y": -4.397914409637451, "z": 0.19112735986709595 }, "axis_scores": { "Quantum imaging": 0.7481271028518677, "Quantum Life Science Sensing": 0.7515067458152771, "Quantum sensing Detection": 0.7442061901092529, "Quantum sensing Metrology": 0.7250939607620239, "Quantum sensing navigation": 0.7393126487731934, "Quantum sensing Position": 0.7125107645988464, "Quantum sensing Timing": 0.6963725686073303, "Quantum sensing": 0.7571539878845215, "Quantum control": 0.7479520440101624 } }, { "id": 480, "title": "Electron correlation in metal clusters, quantum dots and quantum rings", "abstract": "This paper presents a few case studies of finite electron systems for which strong correlations play a dominant role. In simple metal clusters, the valence electrons determine the stability and shape ...", "citations": 7, "author_count": 3, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 480, "doi": "10.1088/1751-8113/42/21/214019", "umap_coordinates": { "x": 393.69305419921875, "y": 135.81866455078125, "z": 207.50315856933594 }, "tsne_coordinates": { "x": 19.969505310058594, "y": -19.10693359375, "z": 18.05196189880371 }, "pca_coordinates": { "x": 1.5345439910888672, "y": -0.8716282844543457, "z": -0.5076463222503662 }, "axis_scores": { "Quantum imaging": 0.7386796474456787, "Quantum Life Science Sensing": 0.7287068963050842, "Quantum sensing Detection": 0.732188880443573, "Quantum sensing Metrology": 0.7225464582443237, "Quantum sensing navigation": 0.7269232869148254, "Quantum sensing Position": 0.7307381629943848, "Quantum sensing Timing": 0.7183188199996948, "Quantum sensing": 0.7385281920433044, "Quantum control": 0.7150593400001526 } }, { "id": 481, "title": "Universal fine-structure eraser for quantum dots", "abstract": "We analyze the degree of entanglement measurable from a quantum dot via the biexciton-exciton cascade as a function of the exciton fine-structure splitting and the detection time resolution. We show t...", "citations": 10, "author_count": 6, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 481, "doi": "10.1364/OE.26.024487", "umap_coordinates": { "x": 393.42523193359375, "y": 134.4862823486328, "z": 206.57521057128906 }, "tsne_coordinates": { "x": 12.965286254882812, "y": -25.1904239654541, "z": 2.0690906047821045 }, "pca_coordinates": { "x": 0.28553128242492676, "y": -1.0989956855773926, "z": -0.08210945129394531 }, "axis_scores": { "Quantum imaging": 0.752554178237915, "Quantum Life Science Sensing": 0.7597893476486206, "Quantum sensing Detection": 0.7353090643882751, "Quantum sensing Metrology": 0.7398548722267151, "Quantum sensing navigation": 0.7414559721946716, "Quantum sensing Position": 0.7110233902931213, "Quantum sensing Timing": 0.7140523195266724, "Quantum sensing": 0.7523230314254761, "Quantum control": 0.7315015196800232 } }, { "id": 482, "title": "Nanophotonic-Enhanced Two-Photon-Excited Photoluminescence of Perovskite Quantum Dots", "abstract": "All-inorganic CsPbBr3 perovskite colloidal quantum dots have recently emerged as a promising material for a variety of optoelectronic applications, among others for multiphoton-pumped lasing. Neverthe...", "citations": 32, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 482, "doi": "10.1021/acsphotonics.8b01199", "umap_coordinates": { "x": 392.2120361328125, "y": 133.99478149414062, "z": 206.23248291015625 }, "tsne_coordinates": { "x": 18.2382869720459, "y": -9.750957489013672, "z": -16.869186401367188 }, "pca_coordinates": { "x": -2.558838367462158, "y": -5.466659069061279, "z": 1.5671939849853516 }, "axis_scores": { "Quantum imaging": 0.7557779550552368, "Quantum Life Science Sensing": 0.7231927514076233, "Quantum sensing Detection": 0.7341151237487793, "Quantum sensing Metrology": 0.7160239219665527, "Quantum sensing navigation": 0.6921454071998596, "Quantum sensing Position": 0.6838247776031494, "Quantum sensing Timing": 0.6760489344596863, "Quantum sensing": 0.740058183670044, "Quantum control": 0.6872414350509644 } }, { "id": 483, "title": "Optimizing the size and amount of CdS quantum dots for efficiency enhancement in CdS/N719 co-sensitized solar cells", "abstract": "Co-sensitization of TiO2 photoanodes in solar cells with Ruthenium dye and quantum dots offer better photovoltaic performance compared to the sensitization by the dye only. In the present study, TiO2 ...", "citations": 1, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 483, "doi": "10.1016/j.physe.2022.115469", "umap_coordinates": { "x": 392.700927734375, "y": 133.4801483154297, "z": 205.8391876220703 }, "tsne_coordinates": { "x": 27.517459869384766, "y": 5.468626499176025, "z": -7.652343273162842 }, "pca_coordinates": { "x": -3.187732219696045, "y": -2.413369655609131, "z": 0.2814493775367737 }, "axis_scores": { "Quantum imaging": 0.7079460620880127, "Quantum Life Science Sensing": 0.7241812944412231, "Quantum sensing Detection": 0.7007891535758972, "Quantum sensing Metrology": 0.7076570987701416, "Quantum sensing navigation": 0.6879421472549438, "Quantum sensing Position": 0.6955317854881287, "Quantum sensing Timing": 0.6912617683410645, "Quantum sensing": 0.7193983197212219, "Quantum control": 0.7091190218925476 } }, { "id": 484, "title": "Neutral and charged biexciton-exciton cascade in near-telecom-wavelength quantum dots", "abstract": "We investigate the cascaded emission of photons from low-density InGaAs/GaAs quantum dots grown by metal-organic vapor-phase epitaxy that are intentionally redshifted toward telecommunication waveleng...", "citations": 20, "author_count": 10, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 484, "doi": "10.1103/PhysRevB.94.045303", "umap_coordinates": { "x": 394.4815979003906, "y": 134.85450744628906, "z": 208.5703582763672 }, "tsne_coordinates": { "x": 8.28566837310791, "y": -22.453359603881836, "z": 1.2875930070877075 }, "pca_coordinates": { "x": 3.2124481201171875, "y": -3.1820197105407715, "z": 0.09946751594543457 }, "axis_scores": { "Quantum imaging": 0.7117579579353333, "Quantum Life Science Sensing": 0.7153850197792053, "Quantum sensing Detection": 0.7230108380317688, "Quantum sensing Metrology": 0.6924408674240112, "Quantum sensing navigation": 0.6952714920043945, "Quantum sensing Position": 0.69066321849823, "Quantum sensing Timing": 0.6871541738510132, "Quantum sensing": 0.7210404872894287, "Quantum control": 0.6873246431350708 } }, { "id": 485, "title": "Effect of metal oxide morphology on electron injection from CdSe quantum dots to ZnO", "abstract": "Performance of quantum dot sensitized solar cells relies on a rapid electron injection from quantum dot to metal oxide. We studied the injection process in CdSe-ZnO system by ultrafast time-resolved a...", "citations": 37, "author_count": 7, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 485, "doi": "10.1063/1.4803173", "umap_coordinates": { "x": 393.20892333984375, "y": 134.27076721191406, "z": 207.744384765625 }, "tsne_coordinates": { "x": 24.954273223876953, "y": -4.779120922088623, "z": 2.1129963397979736 }, "pca_coordinates": { "x": -0.39662039279937744, "y": -3.602144718170166, "z": -0.4738750159740448 }, "axis_scores": { "Quantum imaging": 0.7382453083992004, "Quantum Life Science Sensing": 0.7543625235557556, "Quantum sensing Detection": 0.7316631078720093, "Quantum sensing Metrology": 0.7213056087493896, "Quantum sensing navigation": 0.7188756465911865, "Quantum sensing Position": 0.6973279714584351, "Quantum sensing Timing": 0.6679385900497437, "Quantum sensing": 0.7423141002655029, "Quantum control": 0.7269538640975952 } }, { "id": 486, "title": "High-performance eight-channel system with fractal superconducting nanowire single-photon detectors", "abstract": "Superconducting nanowire single-photon detectors (SNSPDs) have become a mainstream photon-counting technology that has been widely applied in various scenarios. So far, most multi-channel SNSPD system...", "citations": 12, "author_count": 13, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 486, "doi": "10.1016/j.chip.2024.100087", "umap_coordinates": { "x": 394.5110778808594, "y": 133.15008544921875, "z": 207.17147827148438 }, "tsne_coordinates": { "x": -13.045234680175781, "y": 2.9036643505096436, "z": -30.15386390686035 }, "pca_coordinates": { "x": -1.2726012468338013, "y": -1.962975025177002, "z": 4.7581467628479 }, "axis_scores": { "Quantum imaging": 0.7419983148574829, "Quantum Life Science Sensing": 0.7278708815574646, "Quantum sensing Detection": 0.7490018010139465, "Quantum sensing Metrology": 0.7284313440322876, "Quantum sensing navigation": 0.7381477355957031, "Quantum sensing Position": 0.7113430500030518, "Quantum sensing Timing": 0.728913426399231, "Quantum sensing": 0.7474662661552429, "Quantum control": 0.6932627558708191 } }, { "id": 487, "title": "Superpositions of thermalisations in relativistic quantum field theory", "abstract": "Recent results in relativistic quantum information and quantum thermodynamics have independently shown that in the quantum regime, a system may fail to thermalise when subject to quantum-controlled ap...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 487, "doi": "10.22331/q-2025-02-11-1629", "umap_coordinates": { "x": 394.8320007324219, "y": 137.2322540283203, "z": 207.03150939941406 }, "tsne_coordinates": { "x": -11.510988235473633, "y": -10.41309642791748, "z": 14.331531524658203 }, "pca_coordinates": { "x": 1.820190668106079, "y": 2.408642530441284, "z": -0.5710378885269165 }, "axis_scores": { "Quantum imaging": 0.7345954775810242, "Quantum Life Science Sensing": 0.7118409872055054, "Quantum sensing Detection": 0.7252264022827148, "Quantum sensing Metrology": 0.7305221557617188, "Quantum sensing navigation": 0.7329186201095581, "Quantum sensing Position": 0.7098543643951416, "Quantum sensing Timing": 0.7339630126953125, "Quantum sensing": 0.7429965138435364, "Quantum control": 0.7172911167144775 } }, { "id": 488, "title": "Bell's inequality, Einstein, Podolsky, Rosen arguments and von Neumann's projection postulate", "abstract": "This paper is devoted to analysis of the role of projection postulate in Einstein, Podolsky, and Rosen-EPR [1] argument against completeness of QM. It will be shown that the EPR considerations do not ...", "citations": 8, "author_count": 2, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 488, "doi": "10.1134/S1054660X09020297", "umap_coordinates": { "x": 395.4676513671875, "y": 136.7638702392578, "z": 206.23489379882812 }, "tsne_coordinates": { "x": -29.556901931762695, "y": 4.791542053222656, "z": 6.5016984939575195 }, "pca_coordinates": { "x": 0.694477915763855, "y": 3.260226249694824, "z": 0.12114399671554565 }, "axis_scores": { "Quantum imaging": 0.71341872215271, "Quantum Life Science Sensing": 0.7118253707885742, "Quantum sensing Detection": 0.7161745429039001, "Quantum sensing Metrology": 0.717176079750061, "Quantum sensing navigation": 0.7278116345405579, "Quantum sensing Position": 0.7266793251037598, "Quantum sensing Timing": 0.6950346231460571, "Quantum sensing": 0.7283906936645508, "Quantum control": 0.6992740631103516 } }, { "id": 489, "title": "State-Independent Quantum Contextuality with Single Photons", "abstract": "We present an experimental state-independent violation of an inequality for noncontextual theories on single particles. We show that 20 different single-photon states violate an inequality which invol...", "citations": 200, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 489, "doi": "10.1103/PhysRevLett.103.160405", "umap_coordinates": { "x": 395.32806396484375, "y": 134.69125366210938, "z": 207.7375030517578 }, "tsne_coordinates": { "x": -17.82622528076172, "y": 1.6278457641601562, "z": 3.122107982635498 }, "pca_coordinates": { "x": 2.5443012714385986, "y": 0.27530646324157715, "z": 3.9681458473205566 }, "axis_scores": { "Quantum imaging": 0.767907977104187, "Quantum Life Science Sensing": 0.7479373812675476, "Quantum sensing Detection": 0.7656344175338745, "Quantum sensing Metrology": 0.7420452237129211, "Quantum sensing navigation": 0.7613139748573303, "Quantum sensing Position": 0.7137536406517029, "Quantum sensing Timing": 0.7292165160179138, "Quantum sensing": 0.7768089771270752, "Quantum control": 0.7318448424339294 } }, { "id": 490, "title": "Quantum polarization characterization and tomography", "abstract": "We present a complete polarization characterization of any quantum state of two orthogonal polarization modes and give a systematic measurement procedure to collect the necessary data. Full characteri...", "citations": 19, "author_count": 6, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 490, "doi": "10.1088/1367-2630/14/11/115014", "umap_coordinates": { "x": 395.13421630859375, "y": 135.46861267089844, "z": 206.2495574951172 }, "tsne_coordinates": { "x": -20.521011352539062, "y": -2.4767048358917236, "z": -10.307231903076172 }, "pca_coordinates": { "x": 0.4817652702331543, "y": 2.3882126808166504, "z": 2.528013229370117 }, "axis_scores": { "Quantum imaging": 0.8540481925010681, "Quantum Life Science Sensing": 0.8177993297576904, "Quantum sensing Detection": 0.826809823513031, "Quantum sensing Metrology": 0.812823474407196, "Quantum sensing navigation": 0.8119182586669922, "Quantum sensing Position": 0.7920410633087158, "Quantum sensing Timing": 0.7725757360458374, "Quantum sensing": 0.8401781916618347, "Quantum control": 0.7880043387413025 } }, { "id": 491, "title": "Superconducting quantum interference phenomenon in Bi2Sr2CaCu2O8+δ single crystals - art. no. 212501", "abstract": "The operational direct-current superconducting quantum interference device (dc-SQUID) based on intrinsic Josephson junctions in Bi2Sr2CaCu2O8+delta high-T-c superconductor is fabricated and studied. T...", "citations": 11, "author_count": 3, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 491, "doi": "10.1103/PhysRevB.72.212501", "umap_coordinates": { "x": 393.9154968261719, "y": 135.3582305908203, "z": 208.82958984375 }, "tsne_coordinates": { "x": -0.7870715856552124, "y": -26.081443786621094, "z": 14.323395729064941 }, "pca_coordinates": { "x": 4.181447505950928, "y": -1.6305041313171387, "z": -0.12532269954681396 }, "axis_scores": { "Quantum imaging": 0.7101501822471619, "Quantum Life Science Sensing": 0.7197978496551514, "Quantum sensing Detection": 0.7329060435295105, "Quantum sensing Metrology": 0.7184249758720398, "Quantum sensing navigation": 0.7306632399559021, "Quantum sensing Position": 0.7187279462814331, "Quantum sensing Timing": 0.717454731464386, "Quantum sensing": 0.7314519286155701, "Quantum control": 0.7058832049369812 } }, { "id": 492, "title": "Synthesis of luminescent semiconductor nanoparticles in ionic liquids -the importance of the ionic liquid in the formation of quantum dots", "abstract": "Zinc sulfide (ZnS) and cadmium sulfide (CdS) nanoparticles were synthesized in different ionic liquids (IL) with microwave irradiation. Particle characterization by means of powder X-ray diffraction (...", "citations": 15, "author_count": 4, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 492, "doi": "10.1080/17518253.2021.1875057", "umap_coordinates": { "x": 393.47235107421875, "y": 134.58599853515625, "z": 205.3251190185547 }, "tsne_coordinates": { "x": 27.9482364654541, "y": 13.761469841003418, "z": -14.48271656036377 }, "pca_coordinates": { "x": -2.0644145011901855, "y": -1.2689599990844727, "z": -0.24616751074790955 }, "axis_scores": { "Quantum imaging": 0.7042550444602966, "Quantum Life Science Sensing": 0.71015465259552, "Quantum sensing Detection": 0.6723998785018921, "Quantum sensing Metrology": 0.6656939387321472, "Quantum sensing navigation": 0.6900713443756104, "Quantum sensing Position": 0.6641817092895508, "Quantum sensing Timing": 0.6570090055465698, "Quantum sensing": 0.689206063747406, "Quantum control": 0.6774477362632751 } }, { "id": 493, "title": "Tailoring the Heterostructure of Colloidal Quantum Dots for Ratiometric Optical Nanothermometry", "abstract": "Colloidal quantum dots (QDs) are a fascinating class of semiconducting nanocrystals, thanks to their optical properties tunable through size and composition, and simple synthesis methods. Recently, co...", "citations": 49, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 493, "doi": "10.1002/smll.202000804", "umap_coordinates": { "x": 393.13238525390625, "y": 134.09396362304688, "z": 205.38018798828125 }, "tsne_coordinates": { "x": 17.305973052978516, "y": -2.8409149646759033, "z": -4.564936637878418 }, "pca_coordinates": { "x": -3.1263198852539062, "y": -2.258082866668701, "z": -0.5439205169677734 }, "axis_scores": { "Quantum imaging": 0.7107013463973999, "Quantum Life Science Sensing": 0.7629387378692627, "Quantum sensing Detection": 0.7061827778816223, "Quantum sensing Metrology": 0.742034912109375, "Quantum sensing navigation": 0.718438446521759, "Quantum sensing Position": 0.7196136713027954, "Quantum sensing Timing": 0.6853818893432617, "Quantum sensing": 0.7286801934242249, "Quantum control": 0.6827461123466492 } }, { "id": 494, "title": "Luminescent Solar Concentrators for Greenhouse Applications Based on Highly Luminescent Carbon Quantum Dots", "abstract": "Carbon quantum dots (CQDs) are promising luminophores for luminescent solar concentrators (LSCs) in transparent photovoltaic greenhouse covers due to their high ultraviolet (UV)-light absorption coeff...", "citations": 9, "author_count": 6, "categories": [ "Energy & Fuels" ], "year": 2024, "topic": [ "all" ], "embedding_index": 494, "doi": "10.1002/solr.202400442", "umap_coordinates": { "x": 392.6820068359375, "y": 133.42132568359375, "z": 205.42355346679688 }, "tsne_coordinates": { "x": 27.991689682006836, "y": 5.254397392272949, "z": -17.56698989868164 }, "pca_coordinates": { "x": -4.278257369995117, "y": -2.705857753753662, "z": -1.0172357559204102 }, "axis_scores": { "Quantum imaging": 0.678528904914856, "Quantum Life Science Sensing": 0.7368209958076477, "Quantum sensing Detection": 0.686470627784729, "Quantum sensing Metrology": 0.6932400465011597, "Quantum sensing navigation": 0.6610099077224731, "Quantum sensing Position": 0.6503879427909851, "Quantum sensing Timing": 0.6460779309272766, "Quantum sensing": 0.7055026292800903, "Quantum control": 0.6974833011627197 } }, { "id": 495, "title": "Measuring Temperature Gradients over Nanometer Length Scales", "abstract": "When a quantum dot is subjected to a thermal gradient, the temperature of electrons entering the dot can be determined from the dot's thermocurrent if the conductance spectrum and background temperatu...", "citations": 60, "author_count": 8, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 495, "doi": "10.1021/nl8034042", "umap_coordinates": { "x": 393.6086120605469, "y": 134.57504272460938, "z": 205.69834899902344 }, "tsne_coordinates": { "x": 14.273180961608887, "y": -20.707260131835938, "z": -11.044278144836426 }, "pca_coordinates": { "x": -1.2535810470581055, "y": -0.3332066535949707, "z": -0.09294366836547852 }, "axis_scores": { "Quantum imaging": 0.7288174629211426, "Quantum Life Science Sensing": 0.7647175192832947, "Quantum sensing Detection": 0.7349486947059631, "Quantum sensing Metrology": 0.7515217661857605, "Quantum sensing navigation": 0.7447653412818909, "Quantum sensing Position": 0.7509482502937317, "Quantum sensing Timing": 0.7377387285232544, "Quantum sensing": 0.7601064443588257, "Quantum control": 0.7114190459251404 } }, { "id": 496, "title": "Luminescence study of Si/Ge quantum dots", "abstract": "We present a photoluminescence (PL) study of Ge quantum dots embedded in Si. Two different types of recombination processes related to the Ge quantum dots are observed in temperature-dependent PL meas...", "citations": 8, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 496, "doi": "10.1016/S1386-9477(02)00652-5", "umap_coordinates": { "x": 393.1917724609375, "y": 134.04678344726562, "z": 206.88429260253906 }, "tsne_coordinates": { "x": 40.62718963623047, "y": -2.989973545074463, "z": 0.7030314207077026 }, "pca_coordinates": { "x": -2.5035061836242676, "y": -1.1476852893829346, "z": 0.9915031790733337 }, "axis_scores": { "Quantum imaging": 0.7195571064949036, "Quantum Life Science Sensing": 0.7317631244659424, "Quantum sensing Detection": 0.7112550735473633, "Quantum sensing Metrology": 0.6953260898590088, "Quantum sensing navigation": 0.6922525763511658, "Quantum sensing Position": 0.7048932313919067, "Quantum sensing Timing": 0.6681596040725708, "Quantum sensing": 0.7151896953582764, "Quantum control": 0.6642504930496216 } }, { "id": 497, "title": "Heisenberg-scaling measurement of the single-photon Kerr non-linearity using mixed states", "abstract": "Improving the precision of measurements is a significant scientific challenge. Previous works suggest that in a photon-coupling scenario the quantum fisher information shows a quantum-enhanced scaling...", "citations": 60, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 497, "doi": "10.1038/s41467-017-02487-z", "umap_coordinates": { "x": 394.95660400390625, "y": 134.16583251953125, "z": 207.30067443847656 }, "tsne_coordinates": { "x": -8.993925094604492, "y": -1.5752379894256592, "z": -23.245336532592773 }, "pca_coordinates": { "x": 0.25276362895965576, "y": 0.89347243309021, "z": 2.7311434745788574 }, "axis_scores": { "Quantum imaging": 0.7437281608581543, "Quantum Life Science Sensing": 0.7695050835609436, "Quantum sensing Detection": 0.7502081990242004, "Quantum sensing Metrology": 0.761745810508728, "Quantum sensing navigation": 0.7392646074295044, "Quantum sensing Position": 0.7351216077804565, "Quantum sensing Timing": 0.6991289854049683, "Quantum sensing": 0.7616608738899231, "Quantum control": 0.7064513564109802 } }, { "id": 498, "title": "Photoluminescence and photoresponse from InSb/InAs-based quantum dot structures", "abstract": "InSb-based quantum dots grown by metal-organic vapor-phase epitaxy (MOVPE) on InAs substrates are studied for use as the active material in interband photon detectors. Long-wavelength infrared (LWIR) ...", "citations": 17, "author_count": 17, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 498, "doi": "10.1364/OE.20.021264", "umap_coordinates": { "x": 392.6595153808594, "y": 134.17999267578125, "z": 207.33218383789062 }, "tsne_coordinates": { "x": 38.020118713378906, "y": 0.33471783995628357, "z": 9.618024826049805 }, "pca_coordinates": { "x": -0.022927045822143555, "y": -3.5449414253234863, "z": 1.189366102218628 }, "axis_scores": { "Quantum imaging": 0.729894757270813, "Quantum Life Science Sensing": 0.7266704440116882, "Quantum sensing Detection": 0.7100882530212402, "Quantum sensing Metrology": 0.695537805557251, "Quantum sensing navigation": 0.6965433359146118, "Quantum sensing Position": 0.6887863278388977, "Quantum sensing Timing": 0.6753745675086975, "Quantum sensing": 0.7187971472740173, "Quantum control": 0.6926262974739075 } }, { "id": 499, "title": "Feedback policies for measurement-based quantum state manipulation", "abstract": "In this paper, we propose feedback designs for manipulating a quantum state to a target state by performing sequential measurements. In light of Belavkin's quantum feedback control theory, for a given...", "citations": 10, "author_count": 5, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 499, "doi": "10.1103/PhysRevA.90.062328", "umap_coordinates": { "x": 395.4831237792969, "y": 137.0436248779297, "z": 207.28369140625 }, "tsne_coordinates": { "x": -20.244564056396484, "y": -21.894306182861328, "z": -3.4022977352142334 }, "pca_coordinates": { "x": 3.413801670074463, "y": 1.8266980648040771, "z": 0.5827911496162415 }, "axis_scores": { "Quantum imaging": 0.7249680757522583, "Quantum Life Science Sensing": 0.7374640703201294, "Quantum sensing Detection": 0.748950719833374, "Quantum sensing Metrology": 0.7556112408638, "Quantum sensing navigation": 0.7729666829109192, "Quantum sensing Position": 0.7599329948425293, "Quantum sensing Timing": 0.7300447225570679, "Quantum sensing": 0.758884608745575, "Quantum control": 0.7797136306762695 } }, { "id": 500, "title": "Electron-hole interactions in coupled InAs-GaSb quantum dots based on nanowire crystal phase templates", "abstract": "We report growth and characterization of a coupled quantum dot structure that utilizes nanowire templates for selective epitaxy of radial heterostructures. The starting point is a zinc blende InAs nan...", "citations": 18, "author_count": 7, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 500, "doi": "10.1103/PhysRevB.94.115313", "umap_coordinates": { "x": 393.6523742675781, "y": 134.97059631347656, "z": 209.07931518554688 }, "tsne_coordinates": { "x": 9.1410493850708, "y": -23.18439483642578, "z": -0.9848880767822266 }, "pca_coordinates": { "x": 4.176208972930908, "y": -4.277876377105713, "z": 0.8173776268959045 }, "axis_scores": { "Quantum imaging": 0.7117639183998108, "Quantum Life Science Sensing": 0.6937028765678406, "Quantum sensing Detection": 0.7171955108642578, "Quantum sensing Metrology": 0.6950471997261047, "Quantum sensing navigation": 0.7211787700653076, "Quantum sensing Position": 0.6894389390945435, "Quantum sensing Timing": 0.6900327801704407, "Quantum sensing": 0.7195831537246704, "Quantum control": 0.7001286149024963 } }, { "id": 501, "title": "Photoelectrical response of hybrid graphene-PbS quantum dot devices", "abstract": "Hybrid graphene-PbS quantum dot devices are fabricated on an n-type silicon substrate capped with a thin SiO2 layer and are characterized by photoelectrical measurements. It is shown that the resistan...", "citations": 55, "author_count": 6, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 501, "doi": "10.1063/1.4824113", "umap_coordinates": { "x": 393.2336730957031, "y": 133.8946533203125, "z": 207.9159393310547 }, "tsne_coordinates": { "x": 25.470657348632812, "y": -18.40692901611328, "z": -6.7924017906188965 }, "pca_coordinates": { "x": 0.47380316257476807, "y": -4.800715923309326, "z": 0.9943076968193054 }, "axis_scores": { "Quantum imaging": 0.7511780261993408, "Quantum Life Science Sensing": 0.7678554058074951, "Quantum sensing Detection": 0.757574737071991, "Quantum sensing Metrology": 0.7365488409996033, "Quantum sensing navigation": 0.7242685556411743, "Quantum sensing Position": 0.7281538844108582, "Quantum sensing Timing": 0.6958093643188477, "Quantum sensing": 0.7712299227714539, "Quantum control": 0.7224246263504028 } }, { "id": 502, "title": "Characterization of an entangled system of two superconducting qubits using a multiplexed capacitance measurement", "abstract": "We characterize a pair of Cooper-pair boxes coupled with a fixed capacitor using spectroscopy and measurements of the ground-state quantum capacitance. We use the extracted parameters to estimate the ...", "citations": 19, "author_count": 7, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 502, "doi": "10.1103/PhysRevB.79.014516", "umap_coordinates": { "x": 394.78277587890625, "y": 135.93458557128906, "z": 207.97085571289062 }, "tsne_coordinates": { "x": -6.196077823638916, "y": -21.399755477905273, "z": 2.414595365524292 }, "pca_coordinates": { "x": 2.8751115798950195, "y": -0.04404783248901367, "z": 1.5188522338867188 }, "axis_scores": { "Quantum imaging": 0.69181889295578, "Quantum Life Science Sensing": 0.7138411402702332, "Quantum sensing Detection": 0.7210911512374878, "Quantum sensing Metrology": 0.7041407227516174, "Quantum sensing navigation": 0.6953308582305908, "Quantum sensing Position": 0.6981522440910339, "Quantum sensing Timing": 0.6939877867698669, "Quantum sensing": 0.7181837558746338, "Quantum control": 0.6831536889076233 } }, { "id": 503, "title": "Comparison of Quantum Dynamics and Quantum Transition State Theory Estimates of the H + CH4 Reaction Rate", "abstract": "Thermal rate constants are calculated for the H + CH4 -> CH3 + H-2 reaction employing the potential energy surface of Espinosa-Garcia (Espinosa-Garcia, J. J. Chem. Phys. 2002, 116, 10664). Two theoret...", "citations": 153, "author_count": 6, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 503, "doi": "10.1021/jp811070w", "umap_coordinates": { "x": 393.484619140625, "y": 137.5547332763672, "z": 206.20803833007812 }, "tsne_coordinates": { "x": -9.012959480285645, "y": 4.996084690093994, "z": 29.002124786376953 }, "pca_coordinates": { "x": 1.7129478454589844, "y": 1.5281274318695068, "z": -1.200205683708191 }, "axis_scores": { "Quantum imaging": 0.7012085318565369, "Quantum Life Science Sensing": 0.7132115364074707, "Quantum sensing Detection": 0.7029069066047668, "Quantum sensing Metrology": 0.6854785680770874, "Quantum sensing navigation": 0.69554203748703, "Quantum sensing Position": 0.6926231980323792, "Quantum sensing Timing": 0.7125536799430847, "Quantum sensing": 0.7088782787322998, "Quantum control": 0.7029823660850525 } }, { "id": 504, "title": "Carrier dynamics in modulation-doped InAs/GaAs quantum dots - art. no. 085316", "abstract": "Photoexcited carrier dynamics was studied in n and p modulation-doped self-assembled InAs/GaAs quantum dots by means of time-resolved photoluminescence with excitation and detection energies varied th...", "citations": 92, "author_count": 4, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 504, "doi": "10.1103/PhysRevB.72.085316", "umap_coordinates": { "x": 393.3647766113281, "y": 135.2400665283203, "z": 208.75291442871094 }, "tsne_coordinates": { "x": 9.01270866394043, "y": -31.38119888305664, "z": 2.186321496963501 }, "pca_coordinates": { "x": 4.665798664093018, "y": -2.2341370582580566, "z": -0.5264039039611816 }, "axis_scores": { "Quantum imaging": 0.6954687833786011, "Quantum Life Science Sensing": 0.697966992855072, "Quantum sensing Detection": 0.6981537938117981, "Quantum sensing Metrology": 0.6831256747245789, "Quantum sensing navigation": 0.7252869606018066, "Quantum sensing Position": 0.691587507724762, "Quantum sensing Timing": 0.6697371006011963, "Quantum sensing": 0.7007231116294861, "Quantum control": 0.7025601267814636 } }, { "id": 505, "title": "The influence of anatomical noise on optimal beam quality in mammography", "abstract": "Purpose: Beam-quality optimization in digital mammography traditionally considers detection of a target obscured by quantum noise in a homogeneous background. This does not correspond well to the clin...", "citations": 10, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2014, "topic": [ "all" ], "embedding_index": 505, "doi": "10.1118/1.4900611", "umap_coordinates": { "x": 395.79986572265625, "y": 132.90097045898438, "z": 205.43446350097656 }, "tsne_coordinates": { "x": -8.520432472229004, "y": 25.911157608032227, "z": -26.2005615234375 }, "pca_coordinates": { "x": -1.4023290872573853, "y": 2.696441888809204, "z": 3.048455238342285 }, "axis_scores": { "Quantum imaging": 0.7248575687408447, "Quantum Life Science Sensing": 0.6996504664421082, "Quantum sensing Detection": 0.7183918952941895, "Quantum sensing Metrology": 0.7174307107925415, "Quantum sensing navigation": 0.7180991172790527, "Quantum sensing Position": 0.7094079256057739, "Quantum sensing Timing": 0.6789349317550659, "Quantum sensing": 0.7195771336555481, "Quantum control": 0.6733747720718384 } }, { "id": 506, "title": "Narrow luminescence linewidth of a silicon quantum dot", "abstract": "Single-dot luminescence spectroscopy was used to study the emission linewidth of individual silicon nanocrystals from low temperatures up to room temperature. The results show a continuous line narrow...", "citations": 174, "author_count": 5, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 506, "doi": "10.1103/PhysRevLett.94.087405", "umap_coordinates": { "x": 393.7240905761719, "y": 134.49374389648438, "z": 207.6464385986328 }, "tsne_coordinates": { "x": 16.512422561645508, "y": -20.041805267333984, "z": 6.545945644378662 }, "pca_coordinates": { "x": 2.047255039215088, "y": -2.180572986602783, "z": 2.1271934509277344 }, "axis_scores": { "Quantum imaging": 0.724960207939148, "Quantum Life Science Sensing": 0.7408835887908936, "Quantum sensing Detection": 0.732496976852417, "Quantum sensing Metrology": 0.7141222357749939, "Quantum sensing navigation": 0.7273569107055664, "Quantum sensing Position": 0.7149404287338257, "Quantum sensing Timing": 0.7155838012695312, "Quantum sensing": 0.7346242666244507, "Quantum control": 0.689793586730957 } }, { "id": 507, "title": "Recombination properties of si-doped InGaAs/GaAs quantum dots", "abstract": "The recombination properties of directly doped InGaAs/GaAs quantum dots (QDs) for application in quantum dot infrared photodetectors (QDIPs) have been investigated by time-resolved photoluminescence. ...", "citations": 7, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 507, "doi": "10.1088/0957-4484/17/21/015", "umap_coordinates": { "x": 393.09765625, "y": 134.22186279296875, "z": 207.59593200683594 }, "tsne_coordinates": { "x": 33.03522491455078, "y": -17.02983283996582, "z": 12.780799865722656 }, "pca_coordinates": { "x": 0.06313395500183105, "y": -1.8280959129333496, "z": 2.0039026737213135 }, "axis_scores": { "Quantum imaging": 0.7185653448104858, "Quantum Life Science Sensing": 0.7345610857009888, "Quantum sensing Detection": 0.7105663418769836, "Quantum sensing Metrology": 0.6913738250732422, "Quantum sensing navigation": 0.7060071229934692, "Quantum sensing Position": 0.6931028366088867, "Quantum sensing Timing": 0.6903544664382935, "Quantum sensing": 0.7196673154830933, "Quantum control": 0.6761639714241028 } }, { "id": 508, "title": "Entropies associated with electron emission from InAs/GaAS quantum dots", "abstract": "Entropies associated with the transition of electrons into and out of InAs/GaAs quantum dots (QDs) are calculated by considering the temperature dependence of energy eigenvalues due to strain and ener...", "citations": 6, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 508, "doi": "10.1016/j.physe.2005.01.001", "umap_coordinates": { "x": 393.2800598144531, "y": 134.38441467285156, "z": 207.4276885986328 }, "tsne_coordinates": { "x": 39.23683166503906, "y": -10.036759376525879, "z": 7.888331890106201 }, "pca_coordinates": { "x": 0.5954009294509888, "y": -1.8718485832214355, "z": -0.43521848320961 }, "axis_scores": { "Quantum imaging": 0.7427809834480286, "Quantum Life Science Sensing": 0.7291249632835388, "Quantum sensing Detection": 0.7361594438552856, "Quantum sensing Metrology": 0.7175800800323486, "Quantum sensing navigation": 0.7236058115959167, "Quantum sensing Position": 0.718148410320282, "Quantum sensing Timing": 0.7007793188095093, "Quantum sensing": 0.74838787317276, "Quantum control": 0.716523289680481 } }, { "id": 509, "title": "Counting statistics and decoherence in coupled quantum dots - art. no. 033312", "abstract": "We theoretically consider charge transport through two quantum dots coupled in series. The corresponding full counting statistics for noninteracting electrons is investigated in the limits of sequenti...", "citations": 77, "author_count": 5, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 509, "doi": "10.1103/PhysRevB.73.033312", "umap_coordinates": { "x": 394.182861328125, "y": 135.16714477539062, "z": 209.09600830078125 }, "tsne_coordinates": { "x": 6.300677299499512, "y": -31.47895050048828, "z": 2.9336414337158203 }, "pca_coordinates": { "x": 4.487484455108643, "y": -1.1407909393310547, "z": 0.7537278532981873 }, "axis_scores": { "Quantum imaging": 0.7211530804634094, "Quantum Life Science Sensing": 0.7285784482955933, "Quantum sensing Detection": 0.7424306869506836, "Quantum sensing Metrology": 0.7238892316818237, "Quantum sensing navigation": 0.7383584976196289, "Quantum sensing Position": 0.7061824798583984, "Quantum sensing Timing": 0.7002354860305786, "Quantum sensing": 0.7388863563537598, "Quantum control": 0.7248274087905884 } }, { "id": 510, "title": "Size reduction of self assembled quantum dots by annealing", "abstract": "Quantum dots in the materials systems InP/GaAs and InP/Ga0.5In0.5P were grown at 600 degrees C by low pressure MOVPE in the Stranski-Krastanow growth mode and annealed under PH3/H-2 at growth temperat...", "citations": 20, "author_count": 6, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 510, "doi": "10.1016/S0169-4332(98)00247-5", "umap_coordinates": { "x": 392.4132995605469, "y": 134.11611938476562, "z": 207.12405395507812 }, "tsne_coordinates": { "x": 31.64405632019043, "y": -6.992194175720215, "z": 1.1329846382141113 }, "pca_coordinates": { "x": -1.361364722251892, "y": -2.797349452972412, "z": 0.256134569644928 }, "axis_scores": { "Quantum imaging": 0.7172850370407104, "Quantum Life Science Sensing": 0.7435487508773804, "Quantum sensing Detection": 0.7169947624206543, "Quantum sensing Metrology": 0.7141729593276978, "Quantum sensing navigation": 0.7030333280563354, "Quantum sensing Position": 0.7022305727005005, "Quantum sensing Timing": 0.6731208562850952, "Quantum sensing": 0.7307779788970947, "Quantum control": 0.7012898325920105 } }, { "id": 511, "title": "Dynamic photon emission from multiphoton-excited semiconductor quantum dots", "abstract": "The dynamic process of multiphoton optical transitions in semiconductor quantum dots (QDs) has been studied by a Monte Carlo scheme. The scheme includes optical transitions of all electrons, initially...", "citations": 6, "author_count": 4, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 511, "doi": "10.1063/1.2908187", "umap_coordinates": { "x": 393.3582458496094, "y": 133.9541473388672, "z": 207.9761962890625 }, "tsne_coordinates": { "x": 24.986608505249023, "y": -25.887258529663086, "z": -9.039628982543945 }, "pca_coordinates": { "x": 0.3871723413467407, "y": -3.147782802581787, "z": 1.5569469928741455 }, "axis_scores": { "Quantum imaging": 0.7681896090507507, "Quantum Life Science Sensing": 0.7695231437683105, "Quantum sensing Detection": 0.7632938623428345, "Quantum sensing Metrology": 0.7421891689300537, "Quantum sensing navigation": 0.7291260361671448, "Quantum sensing Position": 0.703462541103363, "Quantum sensing Timing": 0.6952556371688843, "Quantum sensing": 0.7678020000457764, "Quantum control": 0.7258387804031372 } }, { "id": 512, "title": "Developing silicon carbide for quantum spintronics", "abstract": "In current long-distance communications, classical information carried by large numbers of particles is intrinsically robust to some transmission losses but can, therefore, be eavesdropped without not...", "citations": 156, "author_count": 14, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 512, "doi": "10.1063/5.0004454", "umap_coordinates": { "x": 393.83447265625, "y": 134.11647033691406, "z": 207.22918701171875 }, "tsne_coordinates": { "x": 18.257688522338867, "y": -33.563018798828125, "z": -13.44883918762207 }, "pca_coordinates": { "x": 0.5029761791229248, "y": -1.5371975898742676, "z": 0.5473541617393494 }, "axis_scores": { "Quantum imaging": 0.7495060563087463, "Quantum Life Science Sensing": 0.7525608539581299, "Quantum sensing Detection": 0.7299095392227173, "Quantum sensing Metrology": 0.7345279455184937, "Quantum sensing navigation": 0.7367614507675171, "Quantum sensing Position": 0.709172248840332, "Quantum sensing Timing": 0.6895185112953186, "Quantum sensing": 0.7518420815467834, "Quantum control": 0.7432570457458496 } }, { "id": 513, "title": "Geometric uncertainty relation for quantum ensembles", "abstract": "Geometrical structures of quantum mechanics provide us with new insightful results about the nature of quantum theory. In this work we consider mixed quantum states represented by finite rank density ...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 513, "doi": "10.1088/0031-8949/90/2/025102", "umap_coordinates": { "x": 395.2366943359375, "y": 137.2342071533203, "z": 207.2745361328125 }, "tsne_coordinates": { "x": -35.4403076171875, "y": -4.5701189041137695, "z": 6.150815486907959 }, "pca_coordinates": { "x": 2.4953598976135254, "y": 3.433065414428711, "z": 0.708421528339386 }, "axis_scores": { "Quantum imaging": 0.7337477207183838, "Quantum Life Science Sensing": 0.748144268989563, "Quantum sensing Detection": 0.7383533120155334, "Quantum sensing Metrology": 0.7702858448028564, "Quantum sensing navigation": 0.7648653388023376, "Quantum sensing Position": 0.769784688949585, "Quantum sensing Timing": 0.7364276647567749, "Quantum sensing": 0.7490859031677246, "Quantum control": 0.7249987721443176 } }, { "id": 514, "title": "Quantum-optical signatures of stimulated emission", "abstract": "Emission-line stars such as eta Car are promising locations in searching for quantum-optical phenomena in radiation. Light carries more information than is contained in the classical quantities of int...", "citations": 3, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 514, "doi": null, "umap_coordinates": { "x": 391.7423400878906, "y": 139.31019592285156, "z": 209.19937133789062 }, "tsne_coordinates": { "x": -7.576288223266602, "y": 41.613861083984375, "z": -9.203909873962402 }, "pca_coordinates": { "x": 0.13802361488342285, "y": 2.153581142425537, "z": 0.06110191345214844 }, "axis_scores": { "Quantum imaging": 0.7763082385063171, "Quantum Life Science Sensing": 0.7659955620765686, "Quantum sensing Detection": 0.7826063632965088, "Quantum sensing Metrology": 0.7646077871322632, "Quantum sensing navigation": 0.7540055513381958, "Quantum sensing Position": 0.7234212756156921, "Quantum sensing Timing": 0.7296274304389954, "Quantum sensing": 0.7815427780151367, "Quantum control": 0.7244107127189636 } }, { "id": 515, "title": "Non-Kolmogorovian Approach to the Context-Dependent Systems Breaking the Classical Probability Law", "abstract": "There exist several phenomena breaking the classical probability laws. The systems related to such phenomena are context-dependent, so that they are adaptive to other systems. In this paper, we presen...", "citations": 20, "author_count": 6, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 515, "doi": "10.1007/s10701-013-9725-5", "umap_coordinates": { "x": 395.44720458984375, "y": 137.5301513671875, "z": 206.44203186035156 }, "tsne_coordinates": { "x": -21.926898956298828, "y": 1.3464975357055664, "z": 11.314276695251465 }, "pca_coordinates": { "x": 0.7379941940307617, "y": 4.342343807220459, "z": -0.6168543100357056 }, "axis_scores": { "Quantum imaging": 0.6860507726669312, "Quantum Life Science Sensing": 0.7287368774414062, "Quantum sensing Detection": 0.7034006118774414, "Quantum sensing Metrology": 0.6830562949180603, "Quantum sensing navigation": 0.7193343639373779, "Quantum sensing Position": 0.6871628165245056, "Quantum sensing Timing": 0.691540002822876, "Quantum sensing": 0.7090888023376465, "Quantum control": 0.7039280533790588 } }, { "id": 516, "title": "Effect of source statistics on utilizing photon entanglement in quantum key distribution", "abstract": "A workflow for evaluation of entanglement source quality is proposed. Based on quantum state density matrices obtained from theoretical models and experimental data, we make an estimate of a potential...", "citations": 12, "author_count": 6, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 516, "doi": "10.1103/PhysRevA.103.042411", "umap_coordinates": { "x": 395.5149230957031, "y": 135.2166290283203, "z": 207.39134216308594 }, "tsne_coordinates": { "x": -7.797574520111084, "y": -21.230140686035156, "z": -11.112031936645508 }, "pca_coordinates": { "x": 2.668269634246826, "y": -0.25494933128356934, "z": 3.236886501312256 }, "axis_scores": { "Quantum imaging": 0.7395412921905518, "Quantum Life Science Sensing": 0.7220851182937622, "Quantum sensing Detection": 0.7426016330718994, "Quantum sensing Metrology": 0.719834566116333, "Quantum sensing navigation": 0.7374498248100281, "Quantum sensing Position": 0.7226642370223999, "Quantum sensing Timing": 0.7266753315925598, "Quantum sensing": 0.7488481998443604, "Quantum control": 0.7037770748138428 } }, { "id": 517, "title": "Dynamical topological quantum phase transitions at criticality", "abstract": "The nonequilibrium dynamics of two-dimensional Su-Schrieffer-Heeger model, in the presence of staggered chemical potential, is investigated using the notion of dynamical quantum phase transition. We c...", "citations": 49, "author_count": 4, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 517, "doi": "10.1103/PhysRevB.103.144305", "umap_coordinates": { "x": 394.8199157714844, "y": 136.82579040527344, "z": 208.955322265625 }, "tsne_coordinates": { "x": -18.60541343688965, "y": -20.940860748291016, "z": 13.746957778930664 }, "pca_coordinates": { "x": 6.755049228668213, "y": 0.4611399173736572, "z": -2.0635688304901123 }, "axis_scores": { "Quantum imaging": 0.7230578660964966, "Quantum Life Science Sensing": 0.7230636477470398, "Quantum sensing Detection": 0.723145604133606, "Quantum sensing Metrology": 0.7088196277618408, "Quantum sensing navigation": 0.7315569519996643, "Quantum sensing Position": 0.7023187875747681, "Quantum sensing Timing": 0.7116703987121582, "Quantum sensing": 0.7269020676612854, "Quantum control": 0.7343758344650269 } }, { "id": 518, "title": "Effects of screened Coulomb impurities on autoionizing two-electron resonances in spherical quantum dots", "abstract": "In a recent paper [Phys. Rev. B 78, 075316 (2008)], Sajeev and Moiseyev demonstrated that the bound-to-resonant transitions and lifetimes of autoionizing states in spherical quantum dots can be contro...", "citations": 30, "author_count": 3, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 518, "doi": "10.1103/PhysRevB.81.125315", "umap_coordinates": { "x": 394.6066589355469, "y": 135.1584930419922, "z": 208.80813598632812 }, "tsne_coordinates": { "x": -0.37223705649375916, "y": -31.255306243896484, "z": -4.9985432624816895 }, "pca_coordinates": { "x": 2.6603550910949707, "y": -3.6667332649230957, "z": 0.011772334575653076 }, "axis_scores": { "Quantum imaging": 0.7130414247512817, "Quantum Life Science Sensing": 0.7164980173110962, "Quantum sensing Detection": 0.7208580374717712, "Quantum sensing Metrology": 0.7060098052024841, "Quantum sensing navigation": 0.7007112503051758, "Quantum sensing Position": 0.6817890405654907, "Quantum sensing Timing": 0.6756553649902344, "Quantum sensing": 0.7304876446723938, "Quantum control": 0.6974366903305054 } }, { "id": 519, "title": "Destruction of the Kondo effect by a local measurement", "abstract": "We show that a local measurement which decoheres the Kondo center in a Kondo system, suppresses the Abrikosov-Suhl resonance and destroys the Kondo effect. This happens due to elimination of the entan...", "citations": 12, "author_count": 5, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 519, "doi": "10.1016/j.physleta.2003.08.046", "umap_coordinates": { "x": 395.8233947753906, "y": 136.84017944335938, "z": 207.02894592285156 }, "tsne_coordinates": { "x": -22.33700180053711, "y": -5.481375694274902, "z": 8.5881929397583 }, "pca_coordinates": { "x": 1.6161093711853027, "y": 2.048565149307251, "z": 0.5831404328346252 }, "axis_scores": { "Quantum imaging": 0.7396854162216187, "Quantum Life Science Sensing": 0.7482265830039978, "Quantum sensing Detection": 0.7545545101165771, "Quantum sensing Metrology": 0.7382330298423767, "Quantum sensing navigation": 0.7311612963676453, "Quantum sensing Position": 0.739698588848114, "Quantum sensing Timing": 0.6912227869033813, "Quantum sensing": 0.7623721361160278, "Quantum control": 0.7170308232307434 } }, { "id": 520, "title": "GaSb/GaAs quantum dot systems:: in situ synchrotron radiation x-ray photoelectron spectroscopy study", "abstract": "GaSb/GaAs quantum dot systems are fabricated using MBE under various growth modes. The as-grown samples are studied with in situ synchrotron radiation XPS covering the As 3d, Sb 4d and Ga 3d core leve...", "citations": 8, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 520, "doi": "10.1088/0957-4484/16/8/058", "umap_coordinates": { "x": 393.1202392578125, "y": 134.63694763183594, "z": 207.8607635498047 }, "tsne_coordinates": { "x": 37.15516662597656, "y": -8.61736011505127, "z": -0.3157474994659424 }, "pca_coordinates": { "x": 0.2514309883117676, "y": -0.616370677947998, "z": 0.6668269038200378 }, "axis_scores": { "Quantum imaging": 0.7148571014404297, "Quantum Life Science Sensing": 0.7266993522644043, "Quantum sensing Detection": 0.7174034714698792, "Quantum sensing Metrology": 0.6900044679641724, "Quantum sensing navigation": 0.7106128334999084, "Quantum sensing Position": 0.7189416885375977, "Quantum sensing Timing": 0.6937243342399597, "Quantum sensing": 0.724706768989563, "Quantum control": 0.6810539364814758 } }, { "id": 521, "title": "Carrier capture and emission in self-assembled InGaAs/GaAs quantum dots", "abstract": "We have investigated photoexcited carrier dynamics in as-grown and intermixed InGaAs/GaAs quantum dots and quantum wells by time-resolved photoluminescence with subpicosecond temporal resolution. Expe...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 521, "doi": "10.1238/Physica.Topical.079a00079", "umap_coordinates": { "x": 392.5958251953125, "y": 134.5413818359375, "z": 207.80120849609375 }, "tsne_coordinates": { "x": 21.812292098999023, "y": -11.049920082092285, "z": 14.183788299560547 }, "pca_coordinates": { "x": 0.9090352058410645, "y": -3.2976651191711426, "z": 0.7199155688285828 }, "axis_scores": { "Quantum imaging": 0.7263225317001343, "Quantum Life Science Sensing": 0.7208014130592346, "Quantum sensing Detection": 0.7202047109603882, "Quantum sensing Metrology": 0.7009940147399902, "Quantum sensing navigation": 0.713771641254425, "Quantum sensing Position": 0.6947130560874939, "Quantum sensing Timing": 0.6833383440971375, "Quantum sensing": 0.7227774858474731, "Quantum control": 0.7076371908187866 } }, { "id": 522, "title": "Photoemission study of quantum well states in thin ErAs films on GaAs(100)", "abstract": "Quantum well states in very thin epitaxial ErAs layers on GaAs(100) have been found in angle-resolved photoelectron spectra. From the dispersive properties of the quantum well states effective masses ...", "citations": 1, "author_count": 6, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 522, "doi": "10.1142/S0218625X98000554", "umap_coordinates": { "x": 392.81170654296875, "y": 134.60440063476562, "z": 207.25172424316406 }, "tsne_coordinates": { "x": 20.5415096282959, "y": 13.365374565124512, "z": 4.077703952789307 }, "pca_coordinates": { "x": -0.011583566665649414, "y": -1.2930469512939453, "z": 0.6078972220420837 }, "axis_scores": { "Quantum imaging": 0.6862791180610657, "Quantum Life Science Sensing": 0.6968467235565186, "Quantum sensing Detection": 0.672607958316803, "Quantum sensing Metrology": 0.6681876182556152, "Quantum sensing navigation": 0.6642080545425415, "Quantum sensing Position": 0.6817024946212769, "Quantum sensing Timing": 0.678394615650177, "Quantum sensing": 0.6877222061157227, "Quantum control": 0.6513197422027588 } }, { "id": 523, "title": "Electronic properties of quantum dots formed by magnetic double barriers in quantum wires", "abstract": "The transport through a quantum wire exposed to two magnetic spikes in series is modeled. We demonstrate that quantum dots can be formed this way which couple to the leads via magnetic barriers. Conce...", "citations": 7, "author_count": 4, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 523, "doi": "10.1103/PhysRevB.84.035319", "umap_coordinates": { "x": 393.4827880859375, "y": 135.43411254882812, "z": 208.9196014404297 }, "tsne_coordinates": { "x": 5.56557035446167, "y": -27.358055114746094, "z": 7.800354480743408 }, "pca_coordinates": { "x": 4.226288318634033, "y": -3.8416824340820312, "z": -1.6584224700927734 }, "axis_scores": { "Quantum imaging": 0.7368696928024292, "Quantum Life Science Sensing": 0.7470986843109131, "Quantum sensing Detection": 0.7323796153068542, "Quantum sensing Metrology": 0.72110915184021, "Quantum sensing navigation": 0.7227545380592346, "Quantum sensing Position": 0.7005866765975952, "Quantum sensing Timing": 0.6870396137237549, "Quantum sensing": 0.7442907094955444, "Quantum control": 0.7147715091705322 } }, { "id": 524, "title": "Quantum interference between multi photon absorption pathways in organic solid", "abstract": "We demonstrate spatial interference fringe pattern by simultaneous one- and three-photon absorption of UV and near-IR femitosecond pulses in thin film organic solid at room temperature. We use organic...", "citations": 2, "author_count": 6, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 524, "doi": "10.1016/j.jlumin.2007.02.045", "umap_coordinates": { "x": 393.66668701171875, "y": 135.3853302001953, "z": 206.54864501953125 }, "tsne_coordinates": { "x": -2.5155205726623535, "y": -11.272109985351562, "z": -20.088117599487305 }, "pca_coordinates": { "x": -0.1171269416809082, "y": -0.2861752510070801, "z": 1.6321849822998047 }, "axis_scores": { "Quantum imaging": 0.7824724912643433, "Quantum Life Science Sensing": 0.7558621764183044, "Quantum sensing Detection": 0.7596228122711182, "Quantum sensing Metrology": 0.7403284907341003, "Quantum sensing navigation": 0.7318160533905029, "Quantum sensing Position": 0.7151086330413818, "Quantum sensing Timing": 0.7115297913551331, "Quantum sensing": 0.7659168243408203, "Quantum control": 0.7111365795135498 } }, { "id": 525, "title": "Influence of initial GaAs and A1As cap layers on InAs quantum dots grown by molecular beam epitaxy", "abstract": "Capping of InAs quantum dots (QDs) with AlAs or GaAs causes a significant change in the structural properties of the QDs. However, there is a basic difference between these two capping materials. The ...", "citations": 35, "author_count": 7, "categories": [ "Crystallography" ], "year": 2003, "topic": [ "all" ], "embedding_index": 525, "doi": "10.1016/S0022-0248(02)02471-5", "umap_coordinates": { "x": 392.23345947265625, "y": 134.17091369628906, "z": 207.3490753173828 }, "tsne_coordinates": { "x": 30.903745651245117, "y": -8.979673385620117, "z": 7.343011856079102 }, "pca_coordinates": { "x": -2.0931074619293213, "y": -2.11867094039917, "z": -0.4535048305988312 }, "axis_scores": { "Quantum imaging": 0.670112133026123, "Quantum Life Science Sensing": 0.6752178072929382, "Quantum sensing Detection": 0.6704084873199463, "Quantum sensing Metrology": 0.6614894270896912, "Quantum sensing navigation": 0.6620342135429382, "Quantum sensing Position": 0.6801470518112183, "Quantum sensing Timing": 0.6560961604118347, "Quantum sensing": 0.6824644207954407, "Quantum control": 0.6826269030570984 } }, { "id": 526, "title": "Applications of entangled-state interference", "abstract": "Interference phenomena lead to a wealth of applications in many areas of physics. Entangled quantum states allow one to surpass the classical measurement sensitivity or resolution in polarimetry, inte...", "citations": 12, "author_count": 7, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 526, "doi": "10.1117/12.464458", "umap_coordinates": { "x": 395.1745910644531, "y": 134.0447998046875, "z": 206.25669860839844 }, "tsne_coordinates": { "x": -3.414273262023926, "y": 8.582155227661133, "z": -27.61030387878418 }, "pca_coordinates": { "x": 0.559720516204834, "y": 1.2629412412643433, "z": 2.1976358890533447 }, "axis_scores": { "Quantum imaging": 0.7655962109565735, "Quantum Life Science Sensing": 0.744992733001709, "Quantum sensing Detection": 0.7652614116668701, "Quantum sensing Metrology": 0.7447912096977234, "Quantum sensing navigation": 0.7543696761131287, "Quantum sensing Position": 0.7343143224716187, "Quantum sensing Timing": 0.733106255531311, "Quantum sensing": 0.7717671394348145, "Quantum control": 0.7431619167327881 } }, { "id": 527, "title": "Quantum Information Processes in Protein Microtubules of Brain Neurons", "abstract": "We study biologically 'orchestrated' coherent quantum processes in collections of protein microtubules of brain neurons, which correlate with, and regulate, neuronal synaptic and membrane activity. In...", "citations": 2, "author_count": 33, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 527, "doi": "10.1007/978-981-287-736-9_60", "umap_coordinates": { "x": 394.3852233886719, "y": 136.2255401611328, "z": 205.56350708007812 }, "tsne_coordinates": { "x": -15.34267520904541, "y": 18.223981857299805, "z": 9.173698425292969 }, "pca_coordinates": { "x": 0.4326058626174927, "y": 0.6923621892929077, "z": -0.33762508630752563 }, "axis_scores": { "Quantum imaging": 0.758549690246582, "Quantum Life Science Sensing": 0.7456541657447815, "Quantum sensing Detection": 0.7251790761947632, "Quantum sensing Metrology": 0.7376936078071594, "Quantum sensing navigation": 0.7599005699157715, "Quantum sensing Position": 0.7404420971870422, "Quantum sensing Timing": 0.7253113985061646, "Quantum sensing": 0.7437536716461182, "Quantum control": 0.71690434217453 } }, { "id": 528, "title": "Improvement of infrared detection using Ge quantum dots multilayer structure", "abstract": "Monocrystalline SiGe/Si multiquantum dot and well structures have been manufactured/compared as thermistor materials for infrared detection. The performance of the devices (both the thermal and electr...", "citations": 37, "author_count": 5, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 528, "doi": "10.1063/1.3441120", "umap_coordinates": { "x": 393.4651794433594, "y": 133.6371307373047, "z": 207.55467224121094 }, "tsne_coordinates": { "x": 33.201560974121094, "y": -19.239599227905273, "z": -7.494984149932861 }, "pca_coordinates": { "x": -0.8438781499862671, "y": -2.0677361488342285, "z": 2.298889636993408 }, "axis_scores": { "Quantum imaging": 0.7432155013084412, "Quantum Life Science Sensing": 0.7574402689933777, "Quantum sensing Detection": 0.7481059432029724, "Quantum sensing Metrology": 0.7258540391921997, "Quantum sensing navigation": 0.7161973118782043, "Quantum sensing Position": 0.706623911857605, "Quantum sensing Timing": 0.6727754473686218, "Quantum sensing": 0.7422121167182922, "Quantum control": 0.6894490122795105 } }, { "id": 529, "title": "Self-organized MnAs quantum dots formed during annealing of GaMnAs under arsenic capping - art. no. 263114", "abstract": "Formation of MnAs quantum dots in a regular ring-like distribution has been found on molecular beam epitaxy grown (GaMn)As(100) surfaces after low-temperature annealing under As capping. The appearanc...", "citations": 17, "author_count": 12, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 529, "doi": "10.1063/1.2158524", "umap_coordinates": { "x": 392.6839904785156, "y": 134.04931640625, "z": 208.09274291992188 }, "tsne_coordinates": { "x": 25.523624420166016, "y": -18.35592269897461, "z": -2.5996410846710205 }, "pca_coordinates": { "x": 1.0866899490356445, "y": -2.744493007659912, "z": 0.8410513997077942 }, "axis_scores": { "Quantum imaging": 0.7116137742996216, "Quantum Life Science Sensing": 0.7246097922325134, "Quantum sensing Detection": 0.7223480939865112, "Quantum sensing Metrology": 0.743402361869812, "Quantum sensing navigation": 0.734142005443573, "Quantum sensing Position": 0.6944602727890015, "Quantum sensing Timing": 0.6840836405754089, "Quantum sensing": 0.7352481484413147, "Quantum control": 0.6954875588417053 } }, { "id": 530, "title": "Simulating open quantum systems with giant atoms", "abstract": "Open quantum many-body systems are of both fundamental and applicational interest. However, it remains an open challenge to simulate and solve such systems, both with state-of-the-art classical method...", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 530, "doi": "10.1088/2058-9565/adb2bd", "umap_coordinates": { "x": 394.9480285644531, "y": 136.84266662597656, "z": 207.39984130859375 }, "tsne_coordinates": { "x": -35.79330825805664, "y": -10.151116371154785, "z": -3.6075022220611572 }, "pca_coordinates": { "x": 3.0483555793762207, "y": 0.9925801753997803, "z": -0.21067190170288086 }, "axis_scores": { "Quantum imaging": 0.7445523142814636, "Quantum Life Science Sensing": 0.7546495199203491, "Quantum sensing Detection": 0.7468386292457581, "Quantum sensing Metrology": 0.7348433136940002, "Quantum sensing navigation": 0.7563729882240295, "Quantum sensing Position": 0.6993495225906372, "Quantum sensing Timing": 0.7090329527854919, "Quantum sensing": 0.7611773610115051, "Quantum control": 0.7351301908493042 } }, { "id": 531, "title": "Interaction effects between impurities in low-dimensional spin-(1/2) antiferromagnets", "abstract": "We are considering the interplay between several non-magnetic impurities in the spin-(1/2) Heisenberg antiferromagnet in chains, ladders and planes by introducing static vacancies in numerical quantum...", "citations": 14, "author_count": 3, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 531, "doi": "10.1209/epl/i2005-10380-y", "umap_coordinates": { "x": 393.76678466796875, "y": 136.52420043945312, "z": 208.4367218017578 }, "tsne_coordinates": { "x": -14.30557632446289, "y": -25.729999542236328, "z": 24.381879806518555 }, "pca_coordinates": { "x": 2.245143175125122, "y": -0.4039151668548584, "z": -1.1073570251464844 }, "axis_scores": { "Quantum imaging": 0.7184624075889587, "Quantum Life Science Sensing": 0.6810014247894287, "Quantum sensing Detection": 0.678409993648529, "Quantum sensing Metrology": 0.6636941432952881, "Quantum sensing navigation": 0.6860306859016418, "Quantum sensing Position": 0.6750398278236389, "Quantum sensing Timing": 0.675811231136322, "Quantum sensing": 0.6906328797340393, "Quantum control": 0.6899166107177734 } }, { "id": 532, "title": "On-demand generation of background-free single photons from a solid-state source", "abstract": "True on-demand high-repetition-rate single-photon sources are highly sought after for quantum information processing applications. However, any coherently driven two-level quantum system suffers from ...", "citations": 246, "author_count": 12, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 532, "doi": "10.1063/1.5020038", "umap_coordinates": { "x": 394.28814697265625, "y": 133.52944946289062, "z": 207.82606506347656 }, "tsne_coordinates": { "x": 24.81324005126953, "y": -22.42506217956543, "z": -14.16283893585205 }, "pca_coordinates": { "x": -0.3815344572067261, "y": -1.606213092803955, "z": 3.5247397422790527 }, "axis_scores": { "Quantum imaging": 0.718199610710144, "Quantum Life Science Sensing": 0.7294395565986633, "Quantum sensing Detection": 0.7373934984207153, "Quantum sensing Metrology": 0.7140588164329529, "Quantum sensing navigation": 0.6960417628288269, "Quantum sensing Position": 0.6647653579711914, "Quantum sensing Timing": 0.686641275882721, "Quantum sensing": 0.7394841909408569, "Quantum control": 0.6914310455322266 } }, { "id": 533, "title": "Designed emitter states in resonant tunneling through quantum dots", "abstract": "Resonant tunneling through a single layer of self-assembled quantum dots (QDs) is compared to tunneling through two layers of vertically aligned (stacked) dots. The difference can be viewed as going f...", "citations": 27, "author_count": 9, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 533, "doi": "10.1063/1.1469686", "umap_coordinates": { "x": 393.4508056640625, "y": 134.2616729736328, "z": 208.21006774902344 }, "tsne_coordinates": { "x": 24.793794631958008, "y": -30.359432220458984, "z": -0.1889854371547699 }, "pca_coordinates": { "x": 1.9299540519714355, "y": -3.4839534759521484, "z": 1.6325726509094238 }, "axis_scores": { "Quantum imaging": 0.75617915391922, "Quantum Life Science Sensing": 0.7501623630523682, "Quantum sensing Detection": 0.7671678066253662, "Quantum sensing Metrology": 0.7519634366035461, "Quantum sensing navigation": 0.7575007677078247, "Quantum sensing Position": 0.7245731353759766, "Quantum sensing Timing": 0.742391049861908, "Quantum sensing": 0.7787461876869202, "Quantum control": 0.7379051446914673 } }, { "id": 534, "title": "Synthesis of arbitrary, two-mode, high-visibility N-photon interference patterns", "abstract": "Using coherent states, linear optics, and N-photon detection we demonstrate the synthesis of arbitrary interference patterns and establish that neither the shape nor the visibility of N-photon interfe...", "citations": 8, "author_count": 4, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 534, "doi": "10.1103/PhysRevA.87.053821", "umap_coordinates": { "x": 395.2834777832031, "y": 135.04359436035156, "z": 207.45046997070312 }, "tsne_coordinates": { "x": -6.077922821044922, "y": -15.780693054199219, "z": -7.798274993896484 }, "pca_coordinates": { "x": 1.3931653499603271, "y": -0.44833993911743164, "z": 2.7575364112854004 }, "axis_scores": { "Quantum imaging": 0.7541868090629578, "Quantum Life Science Sensing": 0.7155848741531372, "Quantum sensing Detection": 0.7390201091766357, "Quantum sensing Metrology": 0.7301613688468933, "Quantum sensing navigation": 0.7387990355491638, "Quantum sensing Position": 0.6841982007026672, "Quantum sensing Timing": 0.7038853168487549, "Quantum sensing": 0.7437328696250916, "Quantum control": 0.7121849656105042 } }, { "id": 535, "title": "Quantum acousto-optic transducer for superconducting qubits", "abstract": "We propose theory for a reversible quantum transducer connecting superconducting qubits and optical photons using acoustic waves in piezoelectrics. The proposed device consists of an integrated acoust...", "citations": 29, "author_count": 2, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 535, "doi": "10.1103/PhysRevA.93.023838", "umap_coordinates": { "x": 395.2577819824219, "y": 135.93931579589844, "z": 208.41331481933594 }, "tsne_coordinates": { "x": -20.96652603149414, "y": -15.63991641998291, "z": -2.5305774211883545 }, "pca_coordinates": { "x": 5.265929222106934, "y": -0.8314065933227539, "z": 1.6804745197296143 }, "axis_scores": { "Quantum imaging": 0.72645103931427, "Quantum Life Science Sensing": 0.7412958741188049, "Quantum sensing Detection": 0.7596889734268188, "Quantum sensing Metrology": 0.7393566370010376, "Quantum sensing navigation": 0.7502999901771545, "Quantum sensing Position": 0.7231250405311584, "Quantum sensing Timing": 0.7247951030731201, "Quantum sensing": 0.7610939741134644, "Quantum control": 0.7104758024215698 } }, { "id": 536, "title": "Photonic dispersions of semiconductor-quantum-dot-array-based photonic crystals in primitive and face-centered cubic lattices", "abstract": "We study the energy dispersions of photonic crystals based on the semiconductor-quantum-dot arrays. It has been shown that for the most commonly used semiconductor materials, and as compared with the ...", "citations": 26, "author_count": 4, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 536, "doi": "10.1006/spmi.2000.0846", "umap_coordinates": { "x": 393.4063720703125, "y": 133.95921325683594, "z": 207.0361785888672 }, "tsne_coordinates": { "x": 34.254268646240234, "y": -5.93034553527832, "z": 14.100893020629883 }, "pca_coordinates": { "x": -0.18340861797332764, "y": -2.9579453468322754, "z": 1.5517117977142334 }, "axis_scores": { "Quantum imaging": 0.7248079776763916, "Quantum Life Science Sensing": 0.7040753364562988, "Quantum sensing Detection": 0.690185546875, "Quantum sensing Metrology": 0.7088409662246704, "Quantum sensing navigation": 0.70078444480896, "Quantum sensing Position": 0.7088965773582458, "Quantum sensing Timing": 0.6710885167121887, "Quantum sensing": 0.7086619138717651, "Quantum control": 0.6747801303863525 } }, { "id": 537, "title": "Impurity-induced dephasing of Andreev states", "abstract": "A study is presented concerning the influence of flicker noise in the junction transparency on coherent transport in Andreev states. The amount of dephasing is estimated for a microwave-activated quan...", "citations": 3, "author_count": 3, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 537, "doi": "10.1103/PhysRevB.63.094505", "umap_coordinates": { "x": 394.36236572265625, "y": 135.84420776367188, "z": 208.5448760986328 }, "tsne_coordinates": { "x": -2.188154697418213, "y": -32.4517936706543, "z": -6.7235493659973145 }, "pca_coordinates": { "x": 5.030721187591553, "y": -1.3851289749145508, "z": -0.16313058137893677 }, "axis_scores": { "Quantum imaging": 0.7376584410667419, "Quantum Life Science Sensing": 0.7308905124664307, "Quantum sensing Detection": 0.7258467078208923, "Quantum sensing Metrology": 0.7052069902420044, "Quantum sensing navigation": 0.7167875170707703, "Quantum sensing Position": 0.6972780823707581, "Quantum sensing Timing": 0.6954487562179565, "Quantum sensing": 0.7288963794708252, "Quantum control": 0.6932781934738159 } }, { "id": 538, "title": "Optimization of mammography with respect to anatomical noise", "abstract": "Beam quality optimization in mammography traditionally considers detection of a target obscured by quantum noise on a homogenous background. It can be argued that this scheme does not correspond well ...", "citations": 7, "author_count": 6, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 538, "doi": "10.1117/12.877985", "umap_coordinates": { "x": 395.3758544921875, "y": 132.9512176513672, "z": 205.73329162597656 }, "tsne_coordinates": { "x": -7.860881328582764, "y": 25.41561508178711, "z": -26.752601623535156 }, "pca_coordinates": { "x": -2.3189711570739746, "y": 2.9958348274230957, "z": 2.951404571533203 }, "axis_scores": { "Quantum imaging": 0.7212083339691162, "Quantum Life Science Sensing": 0.6834108233451843, "Quantum sensing Detection": 0.7148182988166809, "Quantum sensing Metrology": 0.717487096786499, "Quantum sensing navigation": 0.715878963470459, "Quantum sensing Position": 0.7002130746841431, "Quantum sensing Timing": 0.6796307563781738, "Quantum sensing": 0.7141907811164856, "Quantum control": 0.6824831962585449 } }, { "id": 539, "title": "Complementarity and quantum erasure with entangled-photon states - art. no. 032106", "abstract": "A quantum-erasure experiment was performed on superposition states of two photons in either of two spatiotemporal modes. Symmetrical tapping of energy from the two-mode state creates a four-mode entan...", "citations": 25, "author_count": 7, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 539, "doi": "10.1103/PhysRevA.62.032106", "umap_coordinates": { "x": 395.89324951171875, "y": 135.9014892578125, "z": 207.8655242919922 }, "tsne_coordinates": { "x": -20.123645782470703, "y": -9.792062759399414, "z": 3.226421356201172 }, "pca_coordinates": { "x": 3.802089214324951, "y": 0.7325975894927979, "z": 2.731461524963379 }, "axis_scores": { "Quantum imaging": 0.743737518787384, "Quantum Life Science Sensing": 0.7361863255500793, "Quantum sensing Detection": 0.751873791217804, "Quantum sensing Metrology": 0.7396474480628967, "Quantum sensing navigation": 0.7476258873939514, "Quantum sensing Position": 0.7107683420181274, "Quantum sensing Timing": 0.7021805047988892, "Quantum sensing": 0.7511540055274963, "Quantum control": 0.7159528732299805 } }, { "id": 540, "title": "STUDY OF PROMPT PHOTON PRODUCTION IN HADRONIC Z(0) DECAYS", "abstract": "From a sample of 1.5 million Z(0) --> decays collected by the DELPHI detector during 1991, 1992 and 1993, the production cross section for isolated final state photons is measured and is compared with...", "citations": 17, "author_count": 542, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 540, "doi": "10.1007/s002880050001", "umap_coordinates": { "x": 396.8345031738281, "y": 134.63902282714844, "z": 207.0431365966797 }, "tsne_coordinates": { "x": -27.117963790893555, "y": 8.131962776184082, "z": -6.6753973960876465 }, "pca_coordinates": { "x": -1.351982593536377, "y": 1.615686058998108, "z": 1.62880277633667 }, "axis_scores": { "Quantum imaging": 0.6828277707099915, "Quantum Life Science Sensing": 0.690227210521698, "Quantum sensing Detection": 0.6889476776123047, "Quantum sensing Metrology": 0.6640685796737671, "Quantum sensing navigation": 0.6868610382080078, "Quantum sensing Position": 0.675585150718689, "Quantum sensing Timing": 0.684232771396637, "Quantum sensing": 0.6814274787902832, "Quantum control": 0.6568858623504639 } }, { "id": 541, "title": "Wave transport and statistical properties of an open non-Hermitian quantum dot with parity-time symmetry", "abstract": "A basic quantum-mechanical model for wave functions and current flow in open quantum dots or billiards is investigated. The model involves non-Hertmitian quantum mechanics, parity-time (PT) symmetry, ...", "citations": 17, "author_count": 4, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 541, "doi": "10.1103/PhysRevE.89.062910", "umap_coordinates": { "x": 394.35894775390625, "y": 135.59095764160156, "z": 208.48623657226562 }, "tsne_coordinates": { "x": -6.312639236450195, "y": -34.74158477783203, "z": -4.39249324798584 }, "pca_coordinates": { "x": 3.842590808868408, "y": -1.5102858543395996, "z": 1.3829762935638428 }, "axis_scores": { "Quantum imaging": 0.7440729141235352, "Quantum Life Science Sensing": 0.7511721849441528, "Quantum sensing Detection": 0.7470842599868774, "Quantum sensing Metrology": 0.7301256656646729, "Quantum sensing navigation": 0.7517111897468567, "Quantum sensing Position": 0.7170464992523193, "Quantum sensing Timing": 0.7079859972000122, "Quantum sensing": 0.7525053024291992, "Quantum control": 0.711757481098175 } }, { "id": 542, "title": "Superfluidity of indirect excitons in a quantum dot", "abstract": "The superfluidity and Bose-Einstein condensation of indirect excitons in coupled quantum dots or trapped atoms with induced dipole momenta (or dipole molecules) are studied by path-integral Monte Carl...", "citations": 9, "author_count": 4, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 542, "doi": "10.1016/S0375-9601(99)00543-5", "umap_coordinates": { "x": 392.78814697265625, "y": 135.46095275878906, "z": 207.40150451660156 }, "tsne_coordinates": { "x": 10.590743064880371, "y": -17.824689865112305, "z": 13.306717872619629 }, "pca_coordinates": { "x": 1.0747435092926025, "y": -2.031996726989746, "z": 0.393216073513031 }, "axis_scores": { "Quantum imaging": 0.7267045974731445, "Quantum Life Science Sensing": 0.7051119208335876, "Quantum sensing Detection": 0.7078350186347961, "Quantum sensing Metrology": 0.6860729455947876, "Quantum sensing navigation": 0.6962779760360718, "Quantum sensing Position": 0.6847987174987793, "Quantum sensing Timing": 0.6765698194503784, "Quantum sensing": 0.7132076025009155, "Quantum control": 0.6643162965774536 } }, { "id": 543, "title": "Quantum amplification and simulation of strong and ultrastrong coupling of light and matter", "abstract": "The interaction of light and matter at the single -photon level is of central importance in various fields of physics, including, e.g., condensed matter physics, astronomy, quantum optics, and quantum...", "citations": 80, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 543, "doi": "10.1016/j.physrep.2024.05.003", "umap_coordinates": { "x": 394.6858825683594, "y": 135.93234252929688, "z": 206.35110473632812 }, "tsne_coordinates": { "x": -9.332478523254395, "y": -10.367345809936523, "z": -12.3635835647583 }, "pca_coordinates": { "x": 1.2497475147247314, "y": 0.509583592414856, "z": 0.8049507737159729 }, "axis_scores": { "Quantum imaging": 0.7715467214584351, "Quantum Life Science Sensing": 0.7879392504692078, "Quantum sensing Detection": 0.7765998840332031, "Quantum sensing Metrology": 0.7584376931190491, "Quantum sensing navigation": 0.7531705498695374, "Quantum sensing Position": 0.7322748303413391, "Quantum sensing Timing": 0.7281690835952759, "Quantum sensing": 0.7832924127578735, "Quantum control": 0.7489870190620422 } }, { "id": 544, "title": "Optical and theoretical investigations of small InP quantum dots in GaxIn1-xP -: art. no. 035320", "abstract": "We have studied small InP quantum dots in a GaInP matrix theoretically and experimentally. Using low-temperature photoluminescence spectroscopy in conjunction with six band k.p calculations, including...", "citations": 34, "author_count": 8, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 544, "doi": "10.1103/PhysRevB.67.035320", "umap_coordinates": { "x": 393.3244934082031, "y": 134.75042724609375, "z": 208.81874084472656 }, "tsne_coordinates": { "x": 13.29098129272461, "y": -30.94347381591797, "z": -4.984774589538574 }, "pca_coordinates": { "x": 2.149914503097534, "y": -1.9109196662902832, "z": 0.855060875415802 }, "axis_scores": { "Quantum imaging": 0.7137274742126465, "Quantum Life Science Sensing": 0.7101092338562012, "Quantum sensing Detection": 0.7083430886268616, "Quantum sensing Metrology": 0.6891201734542847, "Quantum sensing navigation": 0.6958301663398743, "Quantum sensing Position": 0.6839851140975952, "Quantum sensing Timing": 0.6615025401115417, "Quantum sensing": 0.7182275056838989, "Quantum control": 0.682984471321106 } }, { "id": 545, "title": "InAs quantum dots capped by GaAs, In0.4Ga0.6As dots, and In0.2Ga0.8As well", "abstract": "We have fabricated and characterized three types of InAs quantum dots (QDs) with different InxGa1-xAs capping layers. Post-growth atomic force microscopy measurements show that the In0.2Ga0.8As/InAs s...", "citations": 5, "author_count": 6, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 545, "doi": "10.1166/jnn.2002.103", "umap_coordinates": { "x": 393.0290222167969, "y": 134.3037109375, "z": 207.25445556640625 }, "tsne_coordinates": { "x": 32.287479400634766, "y": 14.058722496032715, "z": -21.370092391967773 }, "pca_coordinates": { "x": -0.15539443492889404, "y": -0.7939319610595703, "z": 1.50114107131958 }, "axis_scores": { "Quantum imaging": 0.7338266372680664, "Quantum Life Science Sensing": 0.7217509746551514, "Quantum sensing Detection": 0.7322359681129456, "Quantum sensing Metrology": 0.7131870985031128, "Quantum sensing navigation": 0.7381194829940796, "Quantum sensing Position": 0.7120680809020996, "Quantum sensing Timing": 0.7258341312408447, "Quantum sensing": 0.7486661672592163, "Quantum control": 0.7214198708534241 } }, { "id": 546, "title": "Spin-controlled generation of indistinguishable and distinguishable photons from silicon vacancy centres in silicon carbide", "abstract": "Quantum systems combining indistinguishable photon generation and spin-based quantum information processing are essential for remote quantum applications and networking. However, identification of sui...", "citations": 83, "author_count": 21, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 546, "doi": "10.1038/s41467-020-16330-5", "umap_coordinates": { "x": 393.88946533203125, "y": 135.4705047607422, "z": 207.19688415527344 }, "tsne_coordinates": { "x": 8.768320083618164, "y": -14.379755020141602, "z": 2.623039484024048 }, "pca_coordinates": { "x": -0.24884384870529175, "y": -0.6319684982299805, "z": 1.0941510200500488 }, "axis_scores": { "Quantum imaging": 0.7219497561454773, "Quantum Life Science Sensing": 0.7263400554656982, "Quantum sensing Detection": 0.7175668478012085, "Quantum sensing Metrology": 0.6952982544898987, "Quantum sensing navigation": 0.7090988755226135, "Quantum sensing Position": 0.6776710748672485, "Quantum sensing Timing": 0.6702213287353516, "Quantum sensing": 0.7255141735076904, "Quantum control": 0.7031226754188538 } }, { "id": 547, "title": "Room temperature electroluminescence of nanofabricated Si-Si1-xGex quantum dot diodes", "abstract": "The fabrication and room temperature light emission of a series of 50 nm Si-SiGe quantum dot diodes emitting light at about 1.3 mu m are reported. These diodes are made from molecular beam epitaxially...", "citations": 19, "author_count": 5, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 547, "doi": "10.1006/spmi.1996.0108", "umap_coordinates": { "x": 393.2902526855469, "y": 133.5022735595703, "z": 207.09129333496094 }, "tsne_coordinates": { "x": 42.0766716003418, "y": -5.4985032081604, "z": -1.7075902223587036 }, "pca_coordinates": { "x": -1.3650686740875244, "y": -1.755223274230957, "z": 2.095122814178467 }, "axis_scores": { "Quantum imaging": 0.7112635374069214, "Quantum Life Science Sensing": 0.713712215423584, "Quantum sensing Detection": 0.6886120438575745, "Quantum sensing Metrology": 0.7183091640472412, "Quantum sensing navigation": 0.6929929256439209, "Quantum sensing Position": 0.6976182460784912, "Quantum sensing Timing": 0.6600149869918823, "Quantum sensing": 0.7075050473213196, "Quantum control": 0.6813039779663086 } }, { "id": 548, "title": "Formalization of Bohr's Contextuality Within the Theory of Open Quantum Systems", "abstract": "In quantum physics, the notion of contextuality has a variety of interpretations, which are typically associated with the names of their inventors, say, Bohr, Bell, Kochen, Specker, and recently Dzhaf...", "citations": 3, "author_count": 2, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 548, "doi": "10.1007/s10946-021-09972-3", "umap_coordinates": { "x": 395.2908020019531, "y": 137.61386108398438, "z": 206.28485107421875 }, "tsne_coordinates": { "x": -20.326059341430664, "y": 3.034291982650757, "z": 9.141295433044434 }, "pca_coordinates": { "x": 0.5777106285095215, "y": 4.621897220611572, "z": -1.5954151153564453 }, "axis_scores": { "Quantum imaging": 0.7323856353759766, "Quantum Life Science Sensing": 0.7410185933113098, "Quantum sensing Detection": 0.7255721688270569, "Quantum sensing Metrology": 0.7249170541763306, "Quantum sensing navigation": 0.7564105987548828, "Quantum sensing Position": 0.7359384298324585, "Quantum sensing Timing": 0.7360614538192749, "Quantum sensing": 0.7546435594558716, "Quantum control": 0.7446667551994324 } }, { "id": 549, "title": "Application of tungsten disulfide quantum dot-conjugated antimicrobial peptides in bio-imaging and antimicrobial therapy", "abstract": "Two-dimensional (2D) tungsten disulfide (WS2) quantum dots offer numerous promising applications in materials and optoelectronic sciences. Additionally, the catalytic and photoluminescence properties ...", "citations": 49, "author_count": 13, "categories": [ "Biophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 549, "doi": "10.1016/j.colsurfb.2019.01.020", "umap_coordinates": { "x": 393.8922119140625, "y": 133.97996520996094, "z": 204.4734649658203 }, "tsne_coordinates": { "x": 16.733951568603516, "y": 20.76389503479004, "z": -8.139936447143555 }, "pca_coordinates": { "x": -4.723089694976807, "y": -0.49616050720214844, "z": 0.17958378791809082 }, "axis_scores": { "Quantum imaging": 0.7280008792877197, "Quantum Life Science Sensing": 0.7651717066764832, "Quantum sensing Detection": 0.7198082804679871, "Quantum sensing Metrology": 0.7070533037185669, "Quantum sensing navigation": 0.701787531375885, "Quantum sensing Position": 0.6986609101295471, "Quantum sensing Timing": 0.7005935907363892, "Quantum sensing": 0.7252177000045776, "Quantum control": 0.6808672547340393 } }, { "id": 550, "title": "Two-Emitter Multimode Cavity Quantum Electrodynamics in Thin-Film Silicon Carbide Photonics", "abstract": "Color centers are point defects in crystals that can provide an optical interface to a long-lived spin state for distributed quantum information processing applications. An outstanding challenge for c...", "citations": 66, "author_count": 10, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 550, "doi": "10.1103/PhysRevX.13.011005", "umap_coordinates": { "x": 394.5847473144531, "y": 134.97828674316406, "z": 208.17652893066406 }, "tsne_coordinates": { "x": -5.3739776611328125, "y": -17.144975662231445, "z": -5.940954685211182 }, "pca_coordinates": { "x": 3.0209202766418457, "y": -2.4285311698913574, "z": 1.9003825187683105 }, "axis_scores": { "Quantum imaging": 0.717991828918457, "Quantum Life Science Sensing": 0.7272334098815918, "Quantum sensing Detection": 0.7277935147285461, "Quantum sensing Metrology": 0.7287245392799377, "Quantum sensing navigation": 0.7142413258552551, "Quantum sensing Position": 0.6978196501731873, "Quantum sensing Timing": 0.6862642168998718, "Quantum sensing": 0.7290561199188232, "Quantum control": 0.6873051524162292 } }, { "id": 551, "title": "Nonadiabatic electron pumping through interacting quantum dots", "abstract": "We study nonadiabatic charge pumping through single-level quantum dots taking into account Coulomb interactions. We show how a truncated set of equations of motion can be propagated in time by means o...", "citations": 27, "author_count": 5, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 551, "doi": "10.1103/PhysRevB.85.035309", "umap_coordinates": { "x": 394.4228515625, "y": 135.143798828125, "z": 208.58480834960938 }, "tsne_coordinates": { "x": -5.628792762756348, "y": -29.13393211364746, "z": -4.4563164710998535 }, "pca_coordinates": { "x": 4.243476867675781, "y": -2.985506057739258, "z": 1.792253017425537 }, "axis_scores": { "Quantum imaging": 0.7730005979537964, "Quantum Life Science Sensing": 0.7400739192962646, "Quantum sensing Detection": 0.7638331651687622, "Quantum sensing Metrology": 0.7380926012992859, "Quantum sensing navigation": 0.7507376670837402, "Quantum sensing Position": 0.7041876912117004, "Quantum sensing Timing": 0.702834963798523, "Quantum sensing": 0.7639475464820862, "Quantum control": 0.740045964717865 } }, { "id": 552, "title": "Variational approach to transport in quantum dots", "abstract": "We have derived a variational principle that defines the nonequilibrium steady-state transport across a correlated impurity (mimicking, e. g., a quantum dot) coupled to biased leads. This variational ...", "citations": 9, "author_count": 2, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 552, "doi": "10.1103/PhysRevB.82.195326", "umap_coordinates": { "x": 394.1229248046875, "y": 135.63287353515625, "z": 209.30239868164062 }, "tsne_coordinates": { "x": -1.399768590927124, "y": -30.557220458984375, "z": 4.56189489364624 }, "pca_coordinates": { "x": 3.719632625579834, "y": -2.0154194831848145, "z": -0.5164101123809814 }, "axis_scores": { "Quantum imaging": 0.7269984483718872, "Quantum Life Science Sensing": 0.7192885875701904, "Quantum sensing Detection": 0.7354257702827454, "Quantum sensing Metrology": 0.7179739475250244, "Quantum sensing navigation": 0.7472043633460999, "Quantum sensing Position": 0.7177048921585083, "Quantum sensing Timing": 0.6965000629425049, "Quantum sensing": 0.7427635788917542, "Quantum control": 0.7304950952529907 } }, { "id": 553, "title": "Fluorescence quenching of quantum dots by gold nanorods and its application to DNA detection", "abstract": "Gold nanorods (GNRs) with different localized surface plasmon resonance (LSPR) peaks and different thicknesses of polymer-coating were synthesized to validate that the distinct GNR-based quenching pro...", "citations": 109, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 553, "doi": "10.1063/1.3080662", "umap_coordinates": { "x": 392.9490966796875, "y": 136.11300659179688, "z": 205.17434692382812 }, "tsne_coordinates": { "x": 25.210430145263672, "y": -31.483896255493164, "z": 5.522618293762207 }, "pca_coordinates": { "x": 0.21933019161224365, "y": -2.3088221549987793, "z": 0.6923756003379822 }, "axis_scores": { "Quantum imaging": 0.7155969738960266, "Quantum Life Science Sensing": 0.760694146156311, "Quantum sensing Detection": 0.7531624436378479, "Quantum sensing Metrology": 0.732551097869873, "Quantum sensing navigation": 0.7279883623123169, "Quantum sensing Position": 0.712822437286377, "Quantum sensing Timing": 0.6718648672103882, "Quantum sensing": 0.7469834089279175, "Quantum control": 0.6944041848182678 } }, { "id": 554, "title": "Experimental filtering of two-, four-, and six-photon singlets from a single parametric down-conversion source", "abstract": "Invariant entangled states remain unchanged under simultaneous identical unitary transformations of all their subsystems. We experimentally generate and characterize such invariant two-, four-, and si...", "citations": 13, "author_count": 5, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 554, "doi": "10.1103/PhysRevA.80.040302", "umap_coordinates": { "x": 395.02728271484375, "y": 134.52078247070312, "z": 207.5338897705078 }, "tsne_coordinates": { "x": -4.470932483673096, "y": -17.968704223632812, "z": -11.202213287353516 }, "pca_coordinates": { "x": 1.9997410774230957, "y": -0.30806660652160645, "z": 2.2897720336914062 }, "axis_scores": { "Quantum imaging": 0.728909969329834, "Quantum Life Science Sensing": 0.7358455657958984, "Quantum sensing Detection": 0.7299317121505737, "Quantum sensing Metrology": 0.7063342332839966, "Quantum sensing navigation": 0.7081663608551025, "Quantum sensing Position": 0.6895938515663147, "Quantum sensing Timing": 0.7079578638076782, "Quantum sensing": 0.7317500114440918, "Quantum control": 0.6992610096931458 } }, { "id": 555, "title": "Entanglement-assisted quantum communication with simple measurements", "abstract": "Dense coding is the seminal example of how entanglement can boost qubit communication, from sending one bit to sending two bits. This is made possible by projecting separate particles onto a maximally...", "citations": 38, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 555, "doi": "10.1038/s41467-022-33922-5", "umap_coordinates": { "x": 395.8392639160156, "y": 136.2269287109375, "z": 206.94932556152344 }, "tsne_coordinates": { "x": -27.195091247558594, "y": -10.286951065063477, "z": -5.926794052124023 }, "pca_coordinates": { "x": 1.3180367946624756, "y": 1.4155669212341309, "z": 3.8290038108825684 }, "axis_scores": { "Quantum imaging": 0.725719153881073, "Quantum Life Science Sensing": 0.7176098823547363, "Quantum sensing Detection": 0.7358121871948242, "Quantum sensing Metrology": 0.721538245677948, "Quantum sensing navigation": 0.7331631183624268, "Quantum sensing Position": 0.7110099196434021, "Quantum sensing Timing": 0.6898831725120544, "Quantum sensing": 0.7480530738830566, "Quantum control": 0.7045962810516357 } }, { "id": 556, "title": "Disentangling collective coupling in vibrational polaritons with double quantum coherence spectroscopy", "abstract": "Vibrational polaritons are formed by strong coupling of molecular vibrations and photon modes in an optical cavity. Experiments have demonstrated that vibrational strong coupling can change molecular ...", "citations": 3, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 556, "doi": "10.1063/5.0239877", "umap_coordinates": { "x": 393.15362548828125, "y": 136.53709411621094, "z": 207.03929138183594 }, "tsne_coordinates": { "x": -8.46239185333252, "y": -7.402379989624023, "z": 12.638740539550781 }, "pca_coordinates": { "x": 2.319277286529541, "y": -0.94472336769104, "z": 0.900077760219574 }, "axis_scores": { "Quantum imaging": 0.715401828289032, "Quantum Life Science Sensing": 0.7207074165344238, "Quantum sensing Detection": 0.7206847071647644, "Quantum sensing Metrology": 0.6959108114242554, "Quantum sensing navigation": 0.7113831043243408, "Quantum sensing Position": 0.6919962167739868, "Quantum sensing Timing": 0.6885132789611816, "Quantum sensing": 0.724528431892395, "Quantum control": 0.6990369558334351 } }, { "id": 557, "title": "Optomechanical-like coupling between superconducting resonators", "abstract": "We propose and analyze a circuit that implements a nonlinear coupling between two superconducting microwave resonators. The resonators are coupled through a superconducting quantum interference device...", "citations": 76, "author_count": 4, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 557, "doi": "10.1103/PhysRevA.90.053833", "umap_coordinates": { "x": 394.8956604003906, "y": 135.4079132080078, "z": 208.2111358642578 }, "tsne_coordinates": { "x": -8.8377685546875, "y": -19.69709014892578, "z": 3.0736045837402344 }, "pca_coordinates": { "x": 4.9109907150268555, "y": -0.29696083068847656, "z": 1.1962096691131592 }, "axis_scores": { "Quantum imaging": 0.7260051965713501, "Quantum Life Science Sensing": 0.7648611068725586, "Quantum sensing Detection": 0.7455838918685913, "Quantum sensing Metrology": 0.7475508451461792, "Quantum sensing navigation": 0.7446335554122925, "Quantum sensing Position": 0.7292998433113098, "Quantum sensing Timing": 0.7228333950042725, "Quantum sensing": 0.7538180351257324, "Quantum control": 0.7042990922927856 } }, { "id": 558, "title": "Dissipative quantum dynamics with a Lindblad functional - Reply", "abstract": "", "citations": 12, "author_count": 2, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 558, "doi": "10.1103/PhysRevLett.82.3377", "umap_coordinates": { "x": 395.2505187988281, "y": 135.97836303710938, "z": 208.60557556152344 }, "tsne_coordinates": { "x": -26.806121826171875, "y": -21.295866012573242, "z": 10.087203979492188 }, "pca_coordinates": { "x": 4.583089828491211, "y": 1.0626821517944336, "z": -0.2295110821723938 }, "axis_scores": { "Quantum imaging": 0.6787891387939453, "Quantum Life Science Sensing": 0.6964592933654785, "Quantum sensing Detection": 0.6918147802352905, "Quantum sensing Metrology": 0.6782365441322327, "Quantum sensing navigation": 0.6999922394752502, "Quantum sensing Position": 0.6822380423545837, "Quantum sensing Timing": 0.6606125235557556, "Quantum sensing": 0.6935850977897644, "Quantum control": 0.6778340339660645 } }, { "id": 559, "title": "R2PI detection of the quantum yields of I(2P1/2) and I(2P3/2) in the photodissociation of C2F5I, n-C3F7I, i-C3F7I and CH3I", "abstract": "Resonant two-photon ionization R2PI has been applied to the measurements of the quantum yields phi of iodine atoms in the fine structure states (2)p(1/2) and P-2(3/2) arising in the UV-photodissociati...", "citations": 25, "author_count": 5, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 559, "doi": "10.1016/S0009-2614(00)00679-5", "umap_coordinates": { "x": 394.0492248535156, "y": 135.40013122558594, "z": 205.33901977539062 }, "tsne_coordinates": { "x": 2.551853895187378, "y": 8.134753227233887, "z": 11.68812370300293 }, "pca_coordinates": { "x": -3.1009573936462402, "y": 0.7497072219848633, "z": 0.039054691791534424 }, "axis_scores": { "Quantum imaging": 0.7439761757850647, "Quantum Life Science Sensing": 0.7616491317749023, "Quantum sensing Detection": 0.7406539916992188, "Quantum sensing Metrology": 0.7263121008872986, "Quantum sensing navigation": 0.6960547566413879, "Quantum sensing Position": 0.7105618119239807, "Quantum sensing Timing": 0.6962026357650757, "Quantum sensing": 0.7452981472015381, "Quantum control": 0.7150717973709106 } }, { "id": 560, "title": "Experimental simulation of decoherence in photonics qudits", "abstract": "We experimentally perform the simulation of open quantum dynamics in single-qudit systems. Using a spatial light modulator as a dissipative optical device, we implement dissipative-dynamical maps onto...", "citations": 37, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 560, "doi": "10.1038/srep16049", "umap_coordinates": { "x": 395.43115234375, "y": 135.9735870361328, "z": 207.1071319580078 }, "tsne_coordinates": { "x": -22.274133682250977, "y": -5.9442925453186035, "z": -5.180377960205078 }, "pca_coordinates": { "x": 2.0778141021728516, "y": 0.8498526811599731, "z": 0.7162883877754211 }, "axis_scores": { "Quantum imaging": 0.7949209809303284, "Quantum Life Science Sensing": 0.7847877144813538, "Quantum sensing Detection": 0.768161952495575, "Quantum sensing Metrology": 0.7575187683105469, "Quantum sensing navigation": 0.7729988098144531, "Quantum sensing Position": 0.7457367181777954, "Quantum sensing Timing": 0.7485299706459045, "Quantum sensing": 0.7769691348075867, "Quantum control": 0.7578069567680359 } }, { "id": 561, "title": "QmeQ 1.0: An open-source Python package for calculations of transport through quantum dot devices", "abstract": "QmeQ is an open-source Python package for numerical modeling of transport through quantum dot devices with strong electron electron interactions using various approximate master equation approaches. T...", "citations": 24, "author_count": 6, "categories": [ "Computer Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 561, "doi": "10.1016/j.cpc.2017.07.024", "umap_coordinates": { "x": 394.2693786621094, "y": 135.86041259765625, "z": 205.97711181640625 }, "tsne_coordinates": { "x": -11.205066680908203, "y": 9.73941707611084, "z": 16.091293334960938 }, "pca_coordinates": { "x": -0.7164533734321594, "y": -0.9451112747192383, "z": 1.1344020366668701 }, "axis_scores": { "Quantum imaging": 0.7771727442741394, "Quantum Life Science Sensing": 0.7553809881210327, "Quantum sensing Detection": 0.7628554105758667, "Quantum sensing Metrology": 0.7575075030326843, "Quantum sensing navigation": 0.7642331123352051, "Quantum sensing Position": 0.7178406715393066, "Quantum sensing Timing": 0.7202080488204956, "Quantum sensing": 0.7798888087272644, "Quantum control": 0.7538642883300781 } }, { "id": 562, "title": "Screening properties and phase transitions in unconventional plasmas for Ising-type quantum Hall states", "abstract": "Utilizing large-scale Monte Carlo simulations, we investigate an unconventional two-component classical plasma in two dimensions which controls the behavior of the norms and overlaps of the quantum-me...", "citations": 7, "author_count": 7, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 562, "doi": "10.1103/PhysRevB.85.024520", "umap_coordinates": { "x": 394.57037353515625, "y": 136.68206787109375, "z": 208.89027404785156 }, "tsne_coordinates": { "x": -16.723995208740234, "y": -32.06000900268555, "z": 12.770206451416016 }, "pca_coordinates": { "x": 3.716341495513916, "y": -1.156956434249878, "z": -0.9894287586212158 }, "axis_scores": { "Quantum imaging": 0.715445339679718, "Quantum Life Science Sensing": 0.7120352983474731, "Quantum sensing Detection": 0.7010982036590576, "Quantum sensing Metrology": 0.6767377853393555, "Quantum sensing navigation": 0.7114569544792175, "Quantum sensing Position": 0.6494686007499695, "Quantum sensing Timing": 0.666030764579773, "Quantum sensing": 0.7151871919631958, "Quantum control": 0.6838329434394836 } }, { "id": 563, "title": "Experimental determination of the degree of polarization of quantum states", "abstract": "We demonstrate experimental excitation-manifold-resolved polarization characterization of quantum states of light ranging from the few-photon to the many-photon level. In contrast to the traditional c...", "citations": 9, "author_count": 5, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 563, "doi": "10.1103/PhysRevA.87.043814", "umap_coordinates": { "x": 395.3861389160156, "y": 136.1923065185547, "z": 207.6673583984375 }, "tsne_coordinates": { "x": -18.546232223510742, "y": -9.333600997924805, "z": -4.85634183883667 }, "pca_coordinates": { "x": 3.396923542022705, "y": 1.0127838850021362, "z": 0.6093983054161072 }, "axis_scores": { "Quantum imaging": 0.7890214920043945, "Quantum Life Science Sensing": 0.8014511466026306, "Quantum sensing Detection": 0.7998631596565247, "Quantum sensing Metrology": 0.7833431959152222, "Quantum sensing navigation": 0.7765241265296936, "Quantum sensing Position": 0.7756592035293579, "Quantum sensing Timing": 0.7365272045135498, "Quantum sensing": 0.8082537651062012, "Quantum control": 0.7548853754997253 } }, { "id": 564, "title": "GaAs Quantum Dot in a Parabolic Microcavity Tuned to 87Rb D1", "abstract": "We develop a structure to efficiently extract photons emitted by a GaAs quantum dot tuned to rubidium. For this, we employ a broadband microcavity with a curved gold backside mirror that we fabricate ...", "citations": 7, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 564, "doi": "10.1021/acsphotonics.9b01243", "umap_coordinates": { "x": 393.01580810546875, "y": 133.97885131835938, "z": 206.91302490234375 }, "tsne_coordinates": { "x": 14.31312084197998, "y": -14.19081974029541, "z": -11.008727073669434 }, "pca_coordinates": { "x": -0.8324059844017029, "y": -4.189403057098389, "z": 1.3746116161346436 }, "axis_scores": { "Quantum imaging": 0.730656623840332, "Quantum Life Science Sensing": 0.7285065650939941, "Quantum sensing Detection": 0.7432155609130859, "Quantum sensing Metrology": 0.7280066013336182, "Quantum sensing navigation": 0.7271965146064758, "Quantum sensing Position": 0.7234510183334351, "Quantum sensing Timing": 0.6914171576499939, "Quantum sensing": 0.7449093461036682, "Quantum control": 0.7032148838043213 } }, { "id": 565, "title": "Unpolarized light in quantum optics", "abstract": "We present a new derivation of the unpolarized quantum states of light, whose general form was first derived by Prakash and Chandra [6]. Our derivation makes use of some basic group theory, is straigh...", "citations": 26, "author_count": 4, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 565, "doi": "10.1134/1.1412667", "umap_coordinates": { "x": 394.13250732421875, "y": 134.31422424316406, "z": 207.66073608398438 }, "tsne_coordinates": { "x": 16.349872589111328, "y": -26.175416946411133, "z": 0.056326236575841904 }, "pca_coordinates": { "x": 1.5572783946990967, "y": -0.13764452934265137, "z": 1.5823948383331299 }, "axis_scores": { "Quantum imaging": 0.812133252620697, "Quantum Life Science Sensing": 0.7801449298858643, "Quantum sensing Detection": 0.7959936261177063, "Quantum sensing Metrology": 0.7847355008125305, "Quantum sensing navigation": 0.7874187231063843, "Quantum sensing Position": 0.7560352087020874, "Quantum sensing Timing": 0.7293683290481567, "Quantum sensing": 0.811582088470459, "Quantum control": 0.7764001488685608 } }, { "id": 566, "title": "A silicon carbide room-temperature single-photon source", "abstract": "Over the past few years, single-photon generation has been realized in numerous systems: single molecules(1), quantum dots(2-4), diamond colour centres5 and others(6). The generation and detection of ...", "citations": 560, "author_count": 8, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 566, "doi": "10.1038/nmat3806", "umap_coordinates": { "x": 394.3721008300781, "y": 133.376220703125, "z": 207.70494079589844 }, "tsne_coordinates": { "x": 7.47232723236084, "y": -19.175029754638672, "z": -18.354570388793945 }, "pca_coordinates": { "x": -1.9775197505950928, "y": -2.1011929512023926, "z": 3.3564248085021973 }, "axis_scores": { "Quantum imaging": 0.7233836650848389, "Quantum Life Science Sensing": 0.7413778901100159, "Quantum sensing Detection": 0.7359469532966614, "Quantum sensing Metrology": 0.731533408164978, "Quantum sensing navigation": 0.7094767093658447, "Quantum sensing Position": 0.7029920816421509, "Quantum sensing Timing": 0.6931381821632385, "Quantum sensing": 0.7408990859985352, "Quantum control": 0.6839573383331299 } }, { "id": 567, "title": "Minimal quantum dot based Kitaev chain with only local superconducting proximity effect", "abstract": "The possibility to engineer a Kitaev chain in quantum dots coupled via superconductors has recently emerged as a promising path toward topological superconductivity and possibly non-Abelian physics. H...", "citations": 23, "author_count": 4, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 567, "doi": "10.1103/PhysRevB.109.035415", "umap_coordinates": { "x": 395.0185852050781, "y": 136.50592041015625, "z": 208.80230712890625 }, "tsne_coordinates": { "x": -33.09313201904297, "y": -23.86985969543457, "z": 7.590205669403076 }, "pca_coordinates": { "x": 3.933561325073242, "y": 1.1971466541290283, "z": 0.6049686074256897 }, "axis_scores": { "Quantum imaging": 0.6967632174491882, "Quantum Life Science Sensing": 0.7133481502532959, "Quantum sensing Detection": 0.7206060886383057, "Quantum sensing Metrology": 0.7156499624252319, "Quantum sensing navigation": 0.7208744883537292, "Quantum sensing Position": 0.7027172446250916, "Quantum sensing Timing": 0.6848931312561035, "Quantum sensing": 0.7222225666046143, "Quantum control": 0.6898598670959473 } }, { "id": 568, "title": "All-photonic quantum teleportation using on-demand solid-state quantum emitters", "abstract": "All-optical quantum teleportation lies at the heart of quantum communication science and technology. This quantum phenomenon is built up around the nonlocal properties of entangled states of light tha...", "citations": 63, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 568, "doi": "10.1126/sciadv.aau1255", "umap_coordinates": { "x": 394.9662170410156, "y": 134.56982421875, "z": 206.74574279785156 }, "tsne_coordinates": { "x": -12.6768159866333, "y": -1.003213882446289, "z": 4.066553115844727 }, "pca_coordinates": { "x": -0.1857750415802002, "y": -0.7419247627258301, "z": 3.536280632019043 }, "axis_scores": { "Quantum imaging": 0.7360826730728149, "Quantum Life Science Sensing": 0.7217538952827454, "Quantum sensing Detection": 0.7197327613830566, "Quantum sensing Metrology": 0.7255923748016357, "Quantum sensing navigation": 0.7281428575515747, "Quantum sensing Position": 0.6921970248222351, "Quantum sensing Timing": 0.7033456563949585, "Quantum sensing": 0.7416369915008545, "Quantum control": 0.7056943774223328 } }, { "id": 569, "title": "Quantum metasurfaces with atom arrays", "abstract": "A kind of quantum metasurface made of an atom array is proposed, providing the possibility to control both spatiotemporal and quantum properties of transmitted and reflected light. Metasurfaces mould ...", "citations": 148, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 569, "doi": "10.1038/s41567-020-0845-5", "umap_coordinates": { "x": 393.4895935058594, "y": 134.68572998046875, "z": 207.16957092285156 }, "tsne_coordinates": { "x": 26.845516204833984, "y": -14.147130966186523, "z": -24.272249221801758 }, "pca_coordinates": { "x": 0.28362107276916504, "y": -2.4403815269470215, "z": 1.4815750122070312 }, "axis_scores": { "Quantum imaging": 0.7859900593757629, "Quantum Life Science Sensing": 0.762663722038269, "Quantum sensing Detection": 0.7623267769813538, "Quantum sensing Metrology": 0.7698365449905396, "Quantum sensing navigation": 0.7616198062896729, "Quantum sensing Position": 0.7540521025657654, "Quantum sensing Timing": 0.7250353693962097, "Quantum sensing": 0.7783262729644775, "Quantum control": 0.7238384485244751 } }, { "id": 570, "title": "Excited states of individual quantum dots studied by photoluminescence spectroscopy", "abstract": "The photoluminescence from individual InP quantum dots embedded in a matrix of GaInP has been studied. In addition to the ground state emission that consists of several peaks, we observe excited state...", "citations": 122, "author_count": 6, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 570, "doi": "10.1063/1.117879", "umap_coordinates": { "x": 393.2085876464844, "y": 133.65701293945312, "z": 208.36895751953125 }, "tsne_coordinates": { "x": 25.954635620117188, "y": -20.11507797241211, "z": -9.318316459655762 }, "pca_coordinates": { "x": 1.0902154445648193, "y": -4.519723415374756, "z": 1.8871138095855713 }, "axis_scores": { "Quantum imaging": 0.753042995929718, "Quantum Life Science Sensing": 0.7561454176902771, "Quantum sensing Detection": 0.7621727585792542, "Quantum sensing Metrology": 0.7424973249435425, "Quantum sensing navigation": 0.7094500064849854, "Quantum sensing Position": 0.7078118324279785, "Quantum sensing Timing": 0.6957874894142151, "Quantum sensing": 0.7716630101203918, "Quantum control": 0.7156393527984619 } }, { "id": 571, "title": "NONLINEAR OPTICAL PROPERTIES OF QUANTUM DOTS: EXCITONS IN NANOSTRUCTURES", "abstract": "We review the concepts of excitons and excitonic polaritons, their nonlinear optical properties in nanostructures and their applications within integrated electronics and optoelectronics. Various theo...", "citations": 17, "author_count": 4, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 571, "doi": "10.1142/S0218863509004579", "umap_coordinates": { "x": 392.9913024902344, "y": 134.5938262939453, "z": 207.04722595214844 }, "tsne_coordinates": { "x": 29.183116912841797, "y": -2.0975730419158936, "z": 1.4550479650497437 }, "pca_coordinates": { "x": 0.09362423419952393, "y": -3.2795701026916504, "z": -0.4030340015888214 }, "axis_scores": { "Quantum imaging": 0.7515955567359924, "Quantum Life Science Sensing": 0.7663804292678833, "Quantum sensing Detection": 0.7439238429069519, "Quantum sensing Metrology": 0.7366902232170105, "Quantum sensing navigation": 0.7529469132423401, "Quantum sensing Position": 0.7198830246925354, "Quantum sensing Timing": 0.6946694254875183, "Quantum sensing": 0.7565412521362305, "Quantum control": 0.7216992378234863 } }, { "id": 572, "title": "Solar cells sensitized with type-II ZnSe-CdS core/shell colloidal quantum dots", "abstract": "Type-II quantum dots (QDs) were applied for QDs-sensitized solar cells for the first time and showed prominent absorbed photon to current conversion efficiency....", "citations": 175, "author_count": 8, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 572, "doi": "10.1039/c0cc03401k", "umap_coordinates": { "x": 391.9893798828125, "y": 134.17984008789062, "z": 206.0680389404297 }, "tsne_coordinates": { "x": 15.814697265625, "y": -0.01220635324716568, "z": -7.210442066192627 }, "pca_coordinates": { "x": -1.642580509185791, "y": -4.113498210906982, "z": -2.441802978515625 }, "axis_scores": { "Quantum imaging": 0.674109935760498, "Quantum Life Science Sensing": 0.7234717011451721, "Quantum sensing Detection": 0.6839340329170227, "Quantum sensing Metrology": 0.6565902829170227, "Quantum sensing navigation": 0.6790752410888672, "Quantum sensing Position": 0.6485593318939209, "Quantum sensing Timing": 0.63959139585495, "Quantum sensing": 0.6892139911651611, "Quantum control": 0.6693993806838989 } }, { "id": 573, "title": "Electrical control of spins and giant g-factors in ring-like coupled quantum dots", "abstract": "Emerging theoretical concepts for quantum technologies have driven a continuous search for structures where a quantum state, such as spin, can be manipulated efficiently. Central to many concepts is t...", "citations": 14, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 573, "doi": "10.1038/s41467-019-13583-7", "umap_coordinates": { "x": 392.8837890625, "y": 136.1659698486328, "z": 207.13595581054688 }, "tsne_coordinates": { "x": 12.31849479675293, "y": -11.417523384094238, "z": 22.77187156677246 }, "pca_coordinates": { "x": 0.7228251695632935, "y": -0.9790174961090088, "z": -0.9356060028076172 }, "axis_scores": { "Quantum imaging": 0.7316895723342896, "Quantum Life Science Sensing": 0.7612936496734619, "Quantum sensing Detection": 0.726202666759491, "Quantum sensing Metrology": 0.7293715476989746, "Quantum sensing navigation": 0.7394729852676392, "Quantum sensing Position": 0.7150672078132629, "Quantum sensing Timing": 0.7149912118911743, "Quantum sensing": 0.7518398761749268, "Quantum control": 0.7483689785003662 } }, { "id": 574, "title": "Aqueous Synthesis and Fluorescence-Imaging Application of CdTe/ZnSe Core/Shell Quantum Dots with High Stability and Low Cytotoxicity", "abstract": "CdTe/ZnSe core/shell quantum dots were directly synthesized in an aqueous condition by heating a mixed solution of ZnCl2, NaHSe and CdTe QDs in the presence of mercaptosuccinic acid as a stabilizer. B...", "citations": 31, "author_count": 6, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 574, "doi": "10.1166/jnn.2010.2049", "umap_coordinates": { "x": 393.4713439941406, "y": 133.8329620361328, "z": 205.0274658203125 }, "tsne_coordinates": { "x": 15.15188980102539, "y": 19.904376983642578, "z": -12.143434524536133 }, "pca_coordinates": { "x": -4.8970818519592285, "y": -1.2917988300323486, "z": 0.3216930031776428 }, "axis_scores": { "Quantum imaging": 0.7326645851135254, "Quantum Life Science Sensing": 0.7450777292251587, "Quantum sensing Detection": 0.7213881611824036, "Quantum sensing Metrology": 0.6887193322181702, "Quantum sensing navigation": 0.7133572101593018, "Quantum sensing Position": 0.6873871088027954, "Quantum sensing Timing": 0.6851500272750854, "Quantum sensing": 0.7164095640182495, "Quantum control": 0.7102532982826233 } }, { "id": 575, "title": "Triplex Glass Laminates with Silicon Quantum Dots for Luminescent Solar Concentrators", "abstract": "Luminescent solar concentrator (LSC) is a promising technology to integrate semitransparent photovoltaic (PV) systems into modern buildings and vehicles. Silicon quantum dots (QDs) are good candidates...", "citations": 44, "author_count": 9, "categories": [ "Energy & Fuels" ], "year": 2020, "topic": [ "all" ], "embedding_index": 575, "doi": "10.1002/solr.202000195", "umap_coordinates": { "x": 393.2681579589844, "y": 133.5144500732422, "z": 205.83457946777344 }, "tsne_coordinates": { "x": 28.596628189086914, "y": 5.286393642425537, "z": -18.735607147216797 }, "pca_coordinates": { "x": -2.1465914249420166, "y": -1.649329662322998, "z": 1.2115092277526855 }, "axis_scores": { "Quantum imaging": 0.6946284770965576, "Quantum Life Science Sensing": 0.7156826257705688, "Quantum sensing Detection": 0.6915363669395447, "Quantum sensing Metrology": 0.7180160880088806, "Quantum sensing navigation": 0.6847125291824341, "Quantum sensing Position": 0.6717846393585205, "Quantum sensing Timing": 0.6704061031341553, "Quantum sensing": 0.7056012153625488, "Quantum control": 0.6855010986328125 } }, { "id": 576, "title": "Oscillatory photoemission cross section for alkali monolayer quantum well states", "abstract": "A strong oscillatory photon energy dependence, observed in the photon energy range between 5 and 26 eV, for the intensity of photoemission peaks due to quantum well states in Na and Cs monolayers on C...", "citations": 16, "author_count": 6, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 576, "doi": "10.1016/0039-6028(95)01203-6", "umap_coordinates": { "x": 393.1322326660156, "y": 135.57054138183594, "z": 207.03329467773438 }, "tsne_coordinates": { "x": 19.12038230895996, "y": -6.207300186157227, "z": 36.83056640625 }, "pca_coordinates": { "x": 0.5602295398712158, "y": -1.1698472499847412, "z": -0.9995753765106201 }, "axis_scores": { "Quantum imaging": 0.6851655840873718, "Quantum Life Science Sensing": 0.7202163934707642, "Quantum sensing Detection": 0.670455813407898, "Quantum sensing Metrology": 0.6672415733337402, "Quantum sensing navigation": 0.6750566959381104, "Quantum sensing Position": 0.6759138703346252, "Quantum sensing Timing": 0.6517786383628845, "Quantum sensing": 0.6879255175590515, "Quantum control": 0.6634076833724976 } }, { "id": 577, "title": "Bell Inequalities Tailored to Maximally Entangled States", "abstract": "Bell inequalities have traditionally been used to demonstrate that quantum theory is nonlocal, in the sense that there exist correlations generated from composite quantum states that cannot be explain...", "citations": 71, "author_count": 7, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 577, "doi": "10.1103/PhysRevLett.119.040402", "umap_coordinates": { "x": 395.6861267089844, "y": 136.6244354248047, "z": 207.86328125 }, "tsne_coordinates": { "x": -21.267736434936523, "y": -9.812728881835938, "z": 9.111322402954102 }, "pca_coordinates": { "x": 4.104523181915283, "y": 1.06658935546875, "z": 0.2779545783996582 }, "axis_scores": { "Quantum imaging": 0.735645055770874, "Quantum Life Science Sensing": 0.7337557077407837, "Quantum sensing Detection": 0.7471346259117126, "Quantum sensing Metrology": 0.7312084436416626, "Quantum sensing navigation": 0.7376900911331177, "Quantum sensing Position": 0.720645546913147, "Quantum sensing Timing": 0.729725182056427, "Quantum sensing": 0.7577062249183655, "Quantum control": 0.730400800704956 } }, { "id": 578, "title": "Phonon-assisted tunneling through quantum dot stacks", "abstract": "The impact of electron-phonon interaction on the coherent transport through a quantum dot stack is investigated using the nonequilibrium Green's function technique. While the main resonance is due to ...", "citations": 9, "author_count": 5, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 578, "doi": "10.1103/PhysRevB.73.115338", "umap_coordinates": { "x": 394.2688903808594, "y": 135.071533203125, "z": 209.2240447998047 }, "tsne_coordinates": { "x": -3.7484018802642822, "y": -25.980112075805664, "z": 3.1545374393463135 }, "pca_coordinates": { "x": 4.600351810455322, "y": -3.1185412406921387, "z": 1.8911423683166504 }, "axis_scores": { "Quantum imaging": 0.725821852684021, "Quantum Life Science Sensing": 0.6984740495681763, "Quantum sensing Detection": 0.7178335189819336, "Quantum sensing Metrology": 0.7126123905181885, "Quantum sensing navigation": 0.7443714141845703, "Quantum sensing Position": 0.695063591003418, "Quantum sensing Timing": 0.690116286277771, "Quantum sensing": 0.7330200672149658, "Quantum control": 0.7052523493766785 } }, { "id": 579, "title": "Semiconductor nanostructures for infrared applications", "abstract": "The results of time-resolved photo luminescence (TRPL) and optically detected microwave resonance (ODMR) spectroscopy investigations of semiconductor quantum dots and quantum wells are presented. The ...", "citations": 6, "author_count": 11, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 579, "doi": null, "umap_coordinates": { "x": 391.85906982421875, "y": 139.53396606445312, "z": 209.63494873046875 }, "tsne_coordinates": { "x": -6.330273628234863, "y": 45.039432525634766, "z": -8.131813049316406 }, "pca_coordinates": { "x": -2.9390218257904053, "y": -0.32723045349121094, "z": -0.819348156452179 }, "axis_scores": { "Quantum imaging": 0.7086008191108704, "Quantum Life Science Sensing": 0.7415609359741211, "Quantum sensing Detection": 0.7072397470474243, "Quantum sensing Metrology": 0.6987114548683167, "Quantum sensing navigation": 0.692574679851532, "Quantum sensing Position": 0.6722762584686279, "Quantum sensing Timing": 0.6536444425582886, "Quantum sensing": 0.7094367742538452, "Quantum control": 0.6690679788589478 } }, { "id": 580, "title": "Twister dynamics of a massless spinning particle", "abstract": "The twister Hamiltonian dynamics of a massless particle with helicity moving under the action of an external central force is formulated. The nonholomorphic canonical twister quantization procedure tu...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 580, "doi": "10.1023/A:1003768318614", "umap_coordinates": { "x": 393.6598205566406, "y": 137.04872131347656, "z": 207.33685302734375 }, "tsne_coordinates": { "x": -22.1584529876709, "y": -1.755061388015747, "z": 22.170141220092773 }, "pca_coordinates": { "x": 1.3268585205078125, "y": 2.3231465816497803, "z": -1.8899390697479248 }, "axis_scores": { "Quantum imaging": 0.6699306964874268, "Quantum Life Science Sensing": 0.686047375202179, "Quantum sensing Detection": 0.6784087419509888, "Quantum sensing Metrology": 0.6763585209846497, "Quantum sensing navigation": 0.6879620552062988, "Quantum sensing Position": 0.7024054527282715, "Quantum sensing Timing": 0.683799147605896, "Quantum sensing": 0.6842705011367798, "Quantum control": 0.6874307990074158 } }, { "id": 581, "title": "Perfect Zeeman Anisotropy in Rotationally Symmetric Quantum Dots with Strong Spin-Orbit Interaction", "abstract": "In nanoscale structures with rotational symmetry, such as quantum rings, the orbital motion of electrons combined with a spin-orbit interaction can produce a very strong and anisotropic Zeeman effect....", "citations": 2, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 581, "doi": "10.1021/acs.nanolett.4c01247", "umap_coordinates": { "x": 392.63995361328125, "y": 135.51409912109375, "z": 207.91339111328125 }, "tsne_coordinates": { "x": 16.316726684570312, "y": -20.80886459350586, "z": 1.3248125314712524 }, "pca_coordinates": { "x": 1.007455825805664, "y": -3.651273727416992, "z": 0.1884554624557495 }, "axis_scores": { "Quantum imaging": 0.7460055947303772, "Quantum Life Science Sensing": 0.702302098274231, "Quantum sensing Detection": 0.7124608755111694, "Quantum sensing Metrology": 0.7107546329498291, "Quantum sensing navigation": 0.7213329076766968, "Quantum sensing Position": 0.7036076188087463, "Quantum sensing Timing": 0.7005435228347778, "Quantum sensing": 0.7348538041114807, "Quantum control": 0.6995033621788025 } }, { "id": 582, "title": "Defect states in red-emitting InxAl1-xAs quantum dots - art. no. 085331", "abstract": "Optical and transport measurements carried out in pn diodes and Schottky barriers containing multilayers of InAlAs quantum dots embedded in AlGaAs barriers show that while red emission from quantum do...", "citations": 1, "author_count": 11, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 582, "doi": "10.1103/PhysRevB.66.085331", "umap_coordinates": { "x": 393.27764892578125, "y": 134.7318115234375, "z": 208.8609619140625 }, "tsne_coordinates": { "x": 11.724895477294922, "y": -29.889785766601562, "z": -0.46079346537590027 }, "pca_coordinates": { "x": 3.7368826866149902, "y": -2.681546211242676, "z": 0.6994947791099548 }, "axis_scores": { "Quantum imaging": 0.695209264755249, "Quantum Life Science Sensing": 0.705659806728363, "Quantum sensing Detection": 0.7096477746963501, "Quantum sensing Metrology": 0.6925071477890015, "Quantum sensing navigation": 0.7036089897155762, "Quantum sensing Position": 0.700752317905426, "Quantum sensing Timing": 0.6729090809822083, "Quantum sensing": 0.7137736082077026, "Quantum control": 0.6714910268783569 } }, { "id": 583, "title": "Readout methods and devices for Josephson-junction-based solid-state qubits", "abstract": "We discuss the current situation concerning measurement and readout of Josephson-junction based qubits. In particular, we focus attention on dispersive low-dissipation techniques involving reflection ...", "citations": 37, "author_count": 5, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 583, "doi": "10.1088/0953-8984/18/21/S14", "umap_coordinates": { "x": 394.49090576171875, "y": 135.40536499023438, "z": 207.36033630371094 }, "tsne_coordinates": { "x": 21.552736282348633, "y": -13.77174186706543, "z": 22.3859920501709 }, "pca_coordinates": { "x": 1.4806208610534668, "y": 0.1506638526916504, "z": 2.056929111480713 }, "axis_scores": { "Quantum imaging": 0.7172577381134033, "Quantum Life Science Sensing": 0.7403907179832458, "Quantum sensing Detection": 0.7278661131858826, "Quantum sensing Metrology": 0.7240853309631348, "Quantum sensing navigation": 0.7348594665527344, "Quantum sensing Position": 0.7156567573547363, "Quantum sensing Timing": 0.7242445945739746, "Quantum sensing": 0.7366772294044495, "Quantum control": 0.6844525933265686 } }, { "id": 584, "title": "Quantum dot source-drain transport response at microwave frequencies", "abstract": "Quantum dots are frequently used as charge-sensitive devices in low-temperature experiments to probe electric charge in mesoscopic conductors where the current running through the quantum dot is modul...", "citations": 6, "author_count": 9, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 584, "doi": "10.1103/PhysRevB.108.205417", "umap_coordinates": { "x": 394.6495361328125, "y": 135.52105712890625, "z": 209.13949584960938 }, "tsne_coordinates": { "x": -6.531435012817383, "y": -26.604782104492188, "z": 7.596426963806152 }, "pca_coordinates": { "x": 4.878602027893066, "y": -2.2467355728149414, "z": 1.114722490310669 }, "axis_scores": { "Quantum imaging": 0.7005410194396973, "Quantum Life Science Sensing": 0.7322349548339844, "Quantum sensing Detection": 0.7143756151199341, "Quantum sensing Metrology": 0.701928973197937, "Quantum sensing navigation": 0.7101055979728699, "Quantum sensing Position": 0.6868596076965332, "Quantum sensing Timing": 0.6955564022064209, "Quantum sensing": 0.7168799042701721, "Quantum control": 0.6729872822761536 } }, { "id": 585, "title": "Characterization of Quantum Dot-like Emission from GaAs/GaNAs Core/Shell Nanowires", "abstract": "this work we investigate properties of ultra-narrow photoluminescence lines originating from recombination of excitons trapped by short-range potential fluctuations, caused by alloy disorder in GaAs/G...", "citations": 1, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 585, "doi": null, "umap_coordinates": { "x": 391.58843994140625, "y": 139.31381225585938, "z": 209.5483856201172 }, "tsne_coordinates": { "x": -8.424583435058594, "y": 46.60095977783203, "z": -7.961472988128662 }, "pca_coordinates": { "x": -1.743514060974121, "y": 0.15445423126220703, "z": -0.695990264415741 }, "axis_scores": { "Quantum imaging": 0.7223398089408875, "Quantum Life Science Sensing": 0.7403857707977295, "Quantum sensing Detection": 0.7293941974639893, "Quantum sensing Metrology": 0.7281261682510376, "Quantum sensing navigation": 0.7218112945556641, "Quantum sensing Position": 0.6954376101493835, "Quantum sensing Timing": 0.6797046065330505, "Quantum sensing": 0.7334444522857666, "Quantum control": 0.7166987061500549 } }, { "id": 586, "title": "Radiation-induced quantum interference in low-dimensional n-p junctions", "abstract": "We predict and analyze radiation-induced quantum interference effect in low-dimensional n-p junctions. This phenomenon manifests itself by large oscillations of the photocurrent as a function of the g...", "citations": 6, "author_count": 5, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 586, "doi": "10.1103/PhysRevB.82.121409", "umap_coordinates": { "x": 395.09283447265625, "y": 135.07022094726562, "z": 208.6853485107422 }, "tsne_coordinates": { "x": -1.9133177995681763, "y": -29.534435272216797, "z": -2.5611305236816406 }, "pca_coordinates": { "x": 3.933018207550049, "y": -1.1347301006317139, "z": 2.429393768310547 }, "axis_scores": { "Quantum imaging": 0.7417426109313965, "Quantum Life Science Sensing": 0.7327184677124023, "Quantum sensing Detection": 0.737472414970398, "Quantum sensing Metrology": 0.697834312915802, "Quantum sensing navigation": 0.738628089427948, "Quantum sensing Position": 0.7094773054122925, "Quantum sensing Timing": 0.6976575255393982, "Quantum sensing": 0.7346830368041992, "Quantum control": 0.6862973570823669 } }, { "id": 587, "title": "Optical properties and morphology of InAs/InP (113)B surface quantum dots", "abstract": "We report on long-wavelength photoluminescence (PL) emission at room temperature from self-organized InAs surface quantum dots grown by gas-source molecular beam epitaxy on a GaInAsP/InP (113)B substr...", "citations": 3, "author_count": 12, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 587, "doi": "10.1063/1.2943651", "umap_coordinates": { "x": 392.8028564453125, "y": 133.78639221191406, "z": 208.22235107421875 }, "tsne_coordinates": { "x": 27.118877410888672, "y": -17.38712501525879, "z": 2.7878503799438477 }, "pca_coordinates": { "x": 0.6085822582244873, "y": -4.721756458282471, "z": 0.8903099894523621 }, "axis_scores": { "Quantum imaging": 0.7527049779891968, "Quantum Life Science Sensing": 0.7595521807670593, "Quantum sensing Detection": 0.7513726353645325, "Quantum sensing Metrology": 0.7473833560943604, "Quantum sensing navigation": 0.7258777618408203, "Quantum sensing Position": 0.7217649221420288, "Quantum sensing Timing": 0.6825168132781982, "Quantum sensing": 0.7659450769424438, "Quantum control": 0.7106621265411377 } }, { "id": 588, "title": "Optically heralded microwave photon addition", "abstract": "Photons with optical frequencies of a few hundred terahertz are perhaps the only way to distribute quantum information over long distances. Superconducting qubits, which are one of the most promising ...", "citations": 45, "author_count": 9, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 588, "doi": "10.1038/s41567-023-02129-w", "umap_coordinates": { "x": 393.7466125488281, "y": 135.39353942871094, "z": 206.0875701904297 }, "tsne_coordinates": { "x": -14.08507251739502, "y": 0.1956397444009781, "z": -4.614080429077148 }, "pca_coordinates": { "x": -1.2883912324905396, "y": 0.47756993770599365, "z": 1.8633863925933838 }, "axis_scores": { "Quantum imaging": 0.7205301523208618, "Quantum Life Science Sensing": 0.6966917514801025, "Quantum sensing Detection": 0.7088466286659241, "Quantum sensing Metrology": 0.7021583318710327, "Quantum sensing navigation": 0.693802535533905, "Quantum sensing Position": 0.6723493933677673, "Quantum sensing Timing": 0.68085777759552, "Quantum sensing": 0.7130869626998901, "Quantum control": 0.6665351390838623 } }, { "id": 589, "title": "Coherent manipulation of an Andreev spin qubit", "abstract": "Two promising architectures for solid-state quantum information processing are based on electron spins electrostatically confined in semiconductor quantum dots and the collective electrodynamic modes ...", "citations": 166, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 589, "doi": "10.1126/science.abf0345", "umap_coordinates": { "x": 394.1001892089844, "y": 135.62576293945312, "z": 207.9470977783203 }, "tsne_coordinates": { "x": 0.15394097566604614, "y": -11.924161911010742, "z": 21.310678482055664 }, "pca_coordinates": { "x": 2.2319254875183105, "y": -1.2938342094421387, "z": 0.48580533266067505 }, "axis_scores": { "Quantum imaging": 0.7867167592048645, "Quantum Life Science Sensing": 0.7945491075515747, "Quantum sensing Detection": 0.7828931212425232, "Quantum sensing Metrology": 0.7706472873687744, "Quantum sensing navigation": 0.7931941747665405, "Quantum sensing Position": 0.746773898601532, "Quantum sensing Timing": 0.734788179397583, "Quantum sensing": 0.7915802001953125, "Quantum control": 0.7689613699913025 } }, { "id": 590, "title": "Superparamagnetic Maghemite-Based CdTe Quantum Dots as Efficient Hybrid Nanoprobes for Water-Bath Magnetic Particle Inspection", "abstract": "Fluorescent water-based cadmium telluride quantum dots (QDs) and citrate-functionalized maghemite nanoparticles (MghNPs) were synthesized and assembled together (MghNPs@QDs) through electrostatic inte...", "citations": 23, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 590, "doi": "10.1021/acsanm.8b00502", "umap_coordinates": { "x": 392.0928955078125, "y": 134.39080810546875, "z": 205.78848266601562 }, "tsne_coordinates": { "x": 16.535654067993164, "y": 6.784100532531738, "z": -13.427966117858887 }, "pca_coordinates": { "x": -3.0393552780151367, "y": -3.678061008453369, "z": -0.3314014673233032 }, "axis_scores": { "Quantum imaging": 0.7144960165023804, "Quantum Life Science Sensing": 0.7213631272315979, "Quantum sensing Detection": 0.7105666995048523, "Quantum sensing Metrology": 0.7051485180854797, "Quantum sensing navigation": 0.6889703869819641, "Quantum sensing Position": 0.6684499979019165, "Quantum sensing Timing": 0.6528622508049011, "Quantum sensing": 0.7131977081298828, "Quantum control": 0.6603937745094299 } }, { "id": 591, "title": "Three dimensional mapping of thermal and tunneling electron emission from InAs/GaAs quantum dots", "abstract": "Using a three dimensional representation of data from deep level transient spectroscopy (DLTS) in a parameter space given by temperature, applied sample voltage, and DLTS signal, a method is demonstra...", "citations": 15, "author_count": 5, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 591, "doi": "10.1063/1.2753543", "umap_coordinates": { "x": 393.03228759765625, "y": 133.77232360839844, "z": 208.38461303710938 }, "tsne_coordinates": { "x": 24.898120880126953, "y": -25.09010124206543, "z": 0.5950454473495483 }, "pca_coordinates": { "x": 1.6940712928771973, "y": -3.6954360008239746, "z": 2.0749144554138184 }, "axis_scores": { "Quantum imaging": 0.748527467250824, "Quantum Life Science Sensing": 0.7251880764961243, "Quantum sensing Detection": 0.7390870451927185, "Quantum sensing Metrology": 0.7425180673599243, "Quantum sensing navigation": 0.7412339448928833, "Quantum sensing Position": 0.7203342318534851, "Quantum sensing Timing": 0.7154449820518494, "Quantum sensing": 0.7550292611122131, "Quantum control": 0.7165518403053284 } }, { "id": 592, "title": "QUANTUM CORRELATIONS AND CYCLIC STRUCTURES", "abstract": "This article is a tribute to Professor Ruben Pauncz on his septuagenary. We discuss the close connection between the theory of quantum correlations and near cyclic structures in theoretical chemistry....", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 1991, "topic": [ "all" ], "embedding_index": 592, "doi": null, "umap_coordinates": { "x": 392.2653503417969, "y": 139.25357055664062, "z": 209.01055908203125 }, "tsne_coordinates": { "x": -14.364140510559082, "y": 39.661170959472656, "z": -4.589780330657959 }, "pca_coordinates": { "x": 2.7989673614501953, "y": 4.84741735458374, "z": -2.412262439727783 }, "axis_scores": { "Quantum imaging": 0.7768483757972717, "Quantum Life Science Sensing": 0.7643123269081116, "Quantum sensing Detection": 0.7593099474906921, "Quantum sensing Metrology": 0.7402088046073914, "Quantum sensing navigation": 0.7859094738960266, "Quantum sensing Position": 0.730991005897522, "Quantum sensing Timing": 0.7377728819847107, "Quantum sensing": 0.7699188590049744, "Quantum control": 0.7805488109588623 } }, { "id": 593, "title": "Modelling and design of quantum dot cellular automata", "abstract": "Research aimed at design of electronic computers that contain nano-size components has been developing very rapidly. In this work we study the quantum dot cellular automata (QCA) by the full Schroding...", "citations": 14, "author_count": 3, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 593, "doi": "10.1063/1.367086", "umap_coordinates": { "x": 393.76898193359375, "y": 134.7624969482422, "z": 207.67042541503906 }, "tsne_coordinates": { "x": 27.332050323486328, "y": -28.823728561401367, "z": 7.382892608642578 }, "pca_coordinates": { "x": 1.1721835136413574, "y": -1.6435437202453613, "z": -0.06028074026107788 }, "axis_scores": { "Quantum imaging": 0.7680944800376892, "Quantum Life Science Sensing": 0.7893565893173218, "Quantum sensing Detection": 0.7798866629600525, "Quantum sensing Metrology": 0.7778404355049133, "Quantum sensing navigation": 0.7833796739578247, "Quantum sensing Position": 0.7442538738250732, "Quantum sensing Timing": 0.7431119084358215, "Quantum sensing": 0.794183075428009, "Quantum control": 0.7779419422149658 } }, { "id": 594, "title": "Experimental high fidelity six-photon entangled state for telecloning protocols", "abstract": "We experimentally generate and characterize a six-photon polarization entangled state, which is usually called `Psi(+)(6)'. This is realized with a filtering procedure of triple emissions of entangled...", "citations": 19, "author_count": 4, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 594, "doi": "10.1088/1367-2630/11/10/103016", "umap_coordinates": { "x": 395.5897521972656, "y": 136.1343536376953, "z": 206.84030151367188 }, "tsne_coordinates": { "x": -26.57906723022461, "y": -4.675441741943359, "z": -4.862181663513184 }, "pca_coordinates": { "x": 0.5941638946533203, "y": 2.041658878326416, "z": 3.1719138622283936 }, "axis_scores": { "Quantum imaging": 0.7113057374954224, "Quantum Life Science Sensing": 0.6970060467720032, "Quantum sensing Detection": 0.6878494620323181, "Quantum sensing Metrology": 0.6884247660636902, "Quantum sensing navigation": 0.698097825050354, "Quantum sensing Position": 0.6760881543159485, "Quantum sensing Timing": 0.7073869705200195, "Quantum sensing": 0.7081616520881653, "Quantum control": 0.6864748001098633 } }, { "id": 595, "title": "Optical solitons in semiconductor quantum dot waveguides", "abstract": "A theory of self-induced transparency for a TM-mode propagating in a planar semiconductor waveguide sandwiched between two dielectric media is developed. A transition layer between the waveguide and o...", "citations": 10, "author_count": 4, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 595, "doi": "10.1140/epjd/e2008-00042-2", "umap_coordinates": { "x": 393.9720153808594, "y": 134.73838806152344, "z": 207.1944580078125 }, "tsne_coordinates": { "x": 15.136914253234863, "y": -20.606311798095703, "z": 12.02756404876709 }, "pca_coordinates": { "x": 1.703873634338379, "y": -2.4253435134887695, "z": 1.0681993961334229 }, "axis_scores": { "Quantum imaging": 0.712414562702179, "Quantum Life Science Sensing": 0.7050818204879761, "Quantum sensing Detection": 0.7173390984535217, "Quantum sensing Metrology": 0.7078483700752258, "Quantum sensing navigation": 0.7188498973846436, "Quantum sensing Position": 0.7132163047790527, "Quantum sensing Timing": 0.7052303552627563, "Quantum sensing": 0.7160090804100037, "Quantum control": 0.7098780870437622 } }, { "id": 596, "title": "Dose reduction in mammography with photon counting imaging", "abstract": "The purpose of this study was to investigate if the glandular dose to the breast in mammography can significantly be reduced without compromising image quality, when using photon counting technology, ...", "citations": 15, "author_count": 22, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2004, "topic": [ "all" ], "embedding_index": 596, "doi": "10.1117/12.530649", "umap_coordinates": { "x": 395.7032775878906, "y": 132.80914306640625, "z": 205.87339782714844 }, "tsne_coordinates": { "x": -7.664453506469727, "y": 21.666034698486328, "z": -24.237895965576172 }, "pca_coordinates": { "x": -2.108532428741455, "y": 1.2786102294921875, "z": 4.840789318084717 }, "axis_scores": { "Quantum imaging": 0.7452847361564636, "Quantum Life Science Sensing": 0.6950945854187012, "Quantum sensing Detection": 0.7326616048812866, "Quantum sensing Metrology": 0.7158525586128235, "Quantum sensing navigation": 0.7120660543441772, "Quantum sensing Position": 0.6960554122924805, "Quantum sensing Timing": 0.6902877688407898, "Quantum sensing": 0.7215902209281921, "Quantum control": 0.6713935732841492 } }, { "id": 597, "title": "Dicke Simulators with Emergent Collective Quantum Computational Abilities", "abstract": "Using an approach inspired from spin glasses, we show that the multimode disordered Dicke model is equivalent to a quantum Hopfield network. We propose variational ground states for the system at zero...", "citations": 41, "author_count": 4, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 597, "doi": "10.1103/PhysRevLett.114.143601", "umap_coordinates": { "x": 395.5741271972656, "y": 136.64361572265625, "z": 208.25653076171875 }, "tsne_coordinates": { "x": -25.854433059692383, "y": -23.69167709350586, "z": 7.2451581954956055 }, "pca_coordinates": { "x": 5.401196479797363, "y": 0.3747878074645996, "z": 0.4611474871635437 }, "axis_scores": { "Quantum imaging": 0.7405306100845337, "Quantum Life Science Sensing": 0.7447490692138672, "Quantum sensing Detection": 0.7441242337226868, "Quantum sensing Metrology": 0.7237254977226257, "Quantum sensing navigation": 0.7554621696472168, "Quantum sensing Position": 0.6859267950057983, "Quantum sensing Timing": 0.6906676888465881, "Quantum sensing": 0.7583260536193848, "Quantum control": 0.7295336723327637 } }, { "id": 598, "title": "Red-emissive carbon quantum dots enable high efficiency luminescent solar concentrators", "abstract": "Luminescent solar concentrators (LSCs) are large-area sunlight collectors for efficient solar-to-electricity conversion. The key point for highly efficient LSCs is the choice of fluorophores, which ne...", "citations": 44, "author_count": 6, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 598, "doi": "10.1039/d2ta09972a", "umap_coordinates": { "x": 391.9122619628906, "y": 134.3399658203125, "z": 205.21263122558594 }, "tsne_coordinates": { "x": 11.403789520263672, "y": 3.160753011703491, "z": -10.977418899536133 }, "pca_coordinates": { "x": -3.1308205127716064, "y": -2.981260299682617, "z": -0.8793635368347168 }, "axis_scores": { "Quantum imaging": 0.7011129856109619, "Quantum Life Science Sensing": 0.7142916321754456, "Quantum sensing Detection": 0.70919269323349, "Quantum sensing Metrology": 0.7000808715820312, "Quantum sensing navigation": 0.669581949710846, "Quantum sensing Position": 0.6647914052009583, "Quantum sensing Timing": 0.67274409532547, "Quantum sensing": 0.717253565788269, "Quantum control": 0.6908375024795532 } }, { "id": 599, "title": "Realizing multiband states with ultracold dipolar quantum simulators", "abstract": "The manipulation of dipolar interactions within ultracold molecular ensembles represents a pivotal advancement in experimental physics, aiming at the emulation of quantum phenomena unattainable throug...", "citations": 7, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 599, "doi": "10.1103/PhysRevResearch.6.L042024", "umap_coordinates": { "x": 395.43536376953125, "y": 136.3531036376953, "z": 208.372314453125 }, "tsne_coordinates": { "x": -24.27907371520996, "y": -18.769350051879883, "z": -11.000962257385254 }, "pca_coordinates": { "x": 4.0038886070251465, "y": -0.6327433586120605, "z": 1.5901424884796143 }, "axis_scores": { "Quantum imaging": 0.7475114464759827, "Quantum Life Science Sensing": 0.7594833374023438, "Quantum sensing Detection": 0.7370949983596802, "Quantum sensing Metrology": 0.7519840002059937, "Quantum sensing navigation": 0.7494091987609863, "Quantum sensing Position": 0.7056429982185364, "Quantum sensing Timing": 0.7072535157203674, "Quantum sensing": 0.7528595328330994, "Quantum control": 0.7013080716133118 } }, { "id": 600, "title": "A method for studying pico to microsecond time-resolved core-level spectroscopy used to investigate electron dynamics in quantum dots", "abstract": "Time-resolved photoelectron spectroscopy can give insights into carrier dynamics and offers the possibility of element and site-specific information through the measurements of core levels. In this pa...", "citations": 4, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 600, "doi": "10.1038/s41598-020-79792-z", "umap_coordinates": { "x": 392.7184143066406, "y": 135.47776794433594, "z": 206.17051696777344 }, "tsne_coordinates": { "x": 16.242525100708008, "y": 2.888969659805298, "z": 10.996835708618164 }, "pca_coordinates": { "x": -0.8889018297195435, "y": -1.597379207611084, "z": -0.24848788976669312 }, "axis_scores": { "Quantum imaging": 0.7205116152763367, "Quantum Life Science Sensing": 0.7545762658119202, "Quantum sensing Detection": 0.7209318280220032, "Quantum sensing Metrology": 0.7100443840026855, "Quantum sensing navigation": 0.6979788541793823, "Quantum sensing Position": 0.6945470571517944, "Quantum sensing Timing": 0.7308067679405212, "Quantum sensing": 0.7279109358787537, "Quantum control": 0.6914048790931702 } }, { "id": 601, "title": "Universal Characterization of Quantum Many-Body States through Local Information", "abstract": "We propose a universal framework for classifying quantum states based on their scale-resolved correlation structure. Using the recently introduced information lattice, which provides an operational de...", "citations": 3, "author_count": 6, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 601, "doi": "10.1103/PhysRevLett.134.190401", "umap_coordinates": { "x": 395.5318603515625, "y": 137.04754638671875, "z": 207.74517822265625 }, "tsne_coordinates": { "x": -28.7918701171875, "y": -13.477348327636719, "z": 6.902459621429443 }, "pca_coordinates": { "x": 4.24672269821167, "y": 1.6766302585601807, "z": 0.9473894238471985 }, "axis_scores": { "Quantum imaging": 0.7988355755805969, "Quantum Life Science Sensing": 0.8042843341827393, "Quantum sensing Detection": 0.8065075874328613, "Quantum sensing Metrology": 0.7885507345199585, "Quantum sensing navigation": 0.7980016469955444, "Quantum sensing Position": 0.7618857026100159, "Quantum sensing Timing": 0.7382407784461975, "Quantum sensing": 0.816485583782196, "Quantum control": 0.7654889225959778 } }, { "id": 602, "title": "Exciton lifetime measurements on single silicon quantum dots", "abstract": "We measured the exciton lifetime of single silicon quantum dots, fabricated by electron beam lithography, reactive ion etching and oxidation. The observed photoluminescence decays are of mono-exponent...", "citations": 41, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 602, "doi": "10.1088/0957-4484/24/22/225204", "umap_coordinates": { "x": 394.1604309082031, "y": 133.52139282226562, "z": 207.70748901367188 }, "tsne_coordinates": { "x": -11.402960777282715, "y": -12.514961242675781, "z": -26.102264404296875 }, "pca_coordinates": { "x": -0.2775629758834839, "y": -1.8408451080322266, "z": 2.9661483764648438 }, "axis_scores": { "Quantum imaging": 0.7211804389953613, "Quantum Life Science Sensing": 0.7638914585113525, "Quantum sensing Detection": 0.7233079671859741, "Quantum sensing Metrology": 0.7259080410003662, "Quantum sensing navigation": 0.7074244618415833, "Quantum sensing Position": 0.7100762128829956, "Quantum sensing Timing": 0.727686882019043, "Quantum sensing": 0.7374242544174194, "Quantum control": 0.6755583882331848 } }, { "id": 603, "title": "Strain-induced Stranski-Krastanov three-dimensional growth mode of GaSb quantum dot on GaAs substrate", "abstract": "The growth dynamics of self-assembled GaSb quantum dots (QDs) on GaAs substrate was investigated using kinetic Monte Carlo method. The strain induced by the lattice mismatch between the epitaxial mate...", "citations": 13, "author_count": 3, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 603, "doi": "10.1063/1.3132054", "umap_coordinates": { "x": 392.9479675292969, "y": 133.97412109375, "z": 208.39720153808594 }, "tsne_coordinates": { "x": 25.979991912841797, "y": -20.69316291809082, "z": 0.30424100160598755 }, "pca_coordinates": { "x": 2.862661361694336, "y": -2.97554349899292, "z": -0.2032761573791504 }, "axis_scores": { "Quantum imaging": 0.6973657608032227, "Quantum Life Science Sensing": 0.7123916149139404, "Quantum sensing Detection": 0.7113426923751831, "Quantum sensing Metrology": 0.7063969969749451, "Quantum sensing navigation": 0.7037051916122437, "Quantum sensing Position": 0.7015092372894287, "Quantum sensing Timing": 0.6719544529914856, "Quantum sensing": 0.719601571559906, "Quantum control": 0.6786873936653137 } }, { "id": 604, "title": "High-performance dynamic quantum clustering on graphics processors", "abstract": "Clustering methods in machine learning may benefit from borrowing metaphors from physics. Dynamic quantum clustering associates a Gaussian wave packet with the multidimensional data points and regards...", "citations": 14, "author_count": 2, "categories": [ "Computer Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 604, "doi": "10.1016/j.jcp.2012.08.048", "umap_coordinates": { "x": 393.58935546875, "y": 137.00408935546875, "z": 206.5643310546875 }, "tsne_coordinates": { "x": -3.7167794704437256, "y": 12.448944091796875, "z": 39.56510543823242 }, "pca_coordinates": { "x": 0.4574103355407715, "y": 0.8748233318328857, "z": -1.4260674715042114 }, "axis_scores": { "Quantum imaging": 0.7702471613883972, "Quantum Life Science Sensing": 0.7235497236251831, "Quantum sensing Detection": 0.7371646761894226, "Quantum sensing Metrology": 0.7014751434326172, "Quantum sensing navigation": 0.7371786832809448, "Quantum sensing Position": 0.7222797274589539, "Quantum sensing Timing": 0.7348546385765076, "Quantum sensing": 0.7473002076148987, "Quantum control": 0.7565516233444214 } }, { "id": 605, "title": "ALIASING IN PHOTON CORRELATION SPECTROSCOPY", "abstract": "", "citations": 1, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 1976, "topic": [ "all" ], "embedding_index": 605, "doi": "10.1088/0022-3735/9/4/016", "umap_coordinates": { "x": 395.55767822265625, "y": 133.98684692382812, "z": 206.0340118408203 }, "tsne_coordinates": { "x": -10.067550659179688, "y": 9.846455574035645, "z": -19.52802276611328 }, "pca_coordinates": { "x": -0.519146203994751, "y": 2.047945499420166, "z": 3.5376830101013184 }, "axis_scores": { "Quantum imaging": 0.73566073179245, "Quantum Life Science Sensing": 0.7169247269630432, "Quantum sensing Detection": 0.7167922854423523, "Quantum sensing Metrology": 0.6944165825843811, "Quantum sensing navigation": 0.7174485921859741, "Quantum sensing Position": 0.7091645002365112, "Quantum sensing Timing": 0.723932147026062, "Quantum sensing": 0.7207067012786865, "Quantum control": 0.6629316806793213 } }, { "id": 606, "title": "On the polarized emission from exciton complexes in GaN quantum dots", "abstract": "The optical linear polarization properties of exciton complexes in asymmetric Stranski-Krastanov grown GaN quantum dots have been investigated experimentally and theoretically. It is demonstrated that...", "citations": 18, "author_count": 5, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 606, "doi": "10.1063/1.3675572", "umap_coordinates": { "x": 393.3082275390625, "y": 134.87342834472656, "z": 207.98501586914062 }, "tsne_coordinates": { "x": 18.424118041992188, "y": -24.4279727935791, "z": -1.2200185060501099 }, "pca_coordinates": { "x": 0.5340677499771118, "y": -3.2555480003356934, "z": -1.254932165145874 }, "axis_scores": { "Quantum imaging": 0.7125264406204224, "Quantum Life Science Sensing": 0.704738974571228, "Quantum sensing Detection": 0.6982871890068054, "Quantum sensing Metrology": 0.6743931174278259, "Quantum sensing navigation": 0.696408212184906, "Quantum sensing Position": 0.6649949550628662, "Quantum sensing Timing": 0.6390997171401978, "Quantum sensing": 0.7074249386787415, "Quantum control": 0.6844928860664368 } }, { "id": 607, "title": "Few-Mode-Fiber Technology Fine-tunes Losses in Quantum Communication Systems", "abstract": "A natural choice for quantum communication is to use the relative phase between two paths of a single photon for information encoding. This method was nevertheless quickly identified as impractical ov...", "citations": 12, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 607, "doi": "10.1103/PhysRevApplied.16.034018", "umap_coordinates": { "x": 394.9565124511719, "y": 135.04103088378906, "z": 207.45587158203125 }, "tsne_coordinates": { "x": -12.88443374633789, "y": -16.647607803344727, "z": -11.262884140014648 }, "pca_coordinates": { "x": 2.8890252113342285, "y": -0.18898820877075195, "z": 1.4458417892456055 }, "axis_scores": { "Quantum imaging": 0.7576399445533752, "Quantum Life Science Sensing": 0.7813675999641418, "Quantum sensing Detection": 0.7731709480285645, "Quantum sensing Metrology": 0.7777785062789917, "Quantum sensing navigation": 0.7621479630470276, "Quantum sensing Position": 0.7411479949951172, "Quantum sensing Timing": 0.7190035581588745, "Quantum sensing": 0.7862993478775024, "Quantum control": 0.7476106286048889 } }, { "id": 608, "title": "Experimental Test of the State Estimation-Reversal Tradeoff Relation in General Quantum Measurements", "abstract": "When a measurement has limited strength, only partial information, regarding the initial state, is extracted, and, correspondingly, there is a probability to reverse its effect on the system and retri...", "citations": 15, "author_count": 16, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 608, "doi": "10.1103/PhysRevX.4.021043", "umap_coordinates": { "x": 396.00439453125, "y": 136.5317840576172, "z": 207.60337829589844 }, "tsne_coordinates": { "x": -24.315763473510742, "y": -13.608145713806152, "z": -1.5071011781692505 }, "pca_coordinates": { "x": 3.829723834991455, "y": 2.7379374504089355, "z": 1.3719468116760254 }, "axis_scores": { "Quantum imaging": 0.7069240212440491, "Quantum Life Science Sensing": 0.7130089998245239, "Quantum sensing Detection": 0.7095094919204712, "Quantum sensing Metrology": 0.7166368365287781, "Quantum sensing navigation": 0.7354773283004761, "Quantum sensing Position": 0.7325414419174194, "Quantum sensing Timing": 0.7026893496513367, "Quantum sensing": 0.7159425020217896, "Quantum control": 0.6800416111946106 } }, { "id": 609, "title": "Finite-frequency noise in a quantum dot with normal and superconducting leads", "abstract": "We consider a single-level quantum dot tunnel-coupled to one normal and one superconducting lead. We employ a diagrammatic real-time approach to calculate the finite-frequency current noise for subgap...", "citations": 21, "author_count": 4, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 609, "doi": "10.1103/PhysRevB.91.125401", "umap_coordinates": { "x": 394.40753173828125, "y": 135.2353515625, "z": 209.04385375976562 }, "tsne_coordinates": { "x": -4.275684833526611, "y": -31.41145896911621, "z": 1.788003921508789 }, "pca_coordinates": { "x": 5.081270694732666, "y": -1.5278089046478271, "z": 1.799098014831543 }, "axis_scores": { "Quantum imaging": 0.6930544376373291, "Quantum Life Science Sensing": 0.7177286744117737, "Quantum sensing Detection": 0.7251278758049011, "Quantum sensing Metrology": 0.7053607106208801, "Quantum sensing navigation": 0.7317866086959839, "Quantum sensing Position": 0.699478030204773, "Quantum sensing Timing": 0.6969594359397888, "Quantum sensing": 0.7254155874252319, "Quantum control": 0.7071766257286072 } }, { "id": 610, "title": "Quantum relative phase, m-tangle, and multi-local Lorentz-group invariant", "abstract": "In this paper we define a family of hermitian operators by which to extract what we call quantum-relative-phase properties of a pure or mixed multipartite quantum state, and we relate these properties...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 610, "doi": "10.1007/s11128-009-0150-9", "umap_coordinates": { "x": 394.7994689941406, "y": 137.72366333007812, "z": 206.9401397705078 }, "tsne_coordinates": { "x": -28.945337295532227, "y": -6.456795692443848, "z": 11.196819305419922 }, "pca_coordinates": { "x": 0.6735128164291382, "y": 2.820812225341797, "z": -1.5556390285491943 }, "axis_scores": { "Quantum imaging": 0.6985390186309814, "Quantum Life Science Sensing": 0.6868427991867065, "Quantum sensing Detection": 0.657490611076355, "Quantum sensing Metrology": 0.6890178918838501, "Quantum sensing navigation": 0.7102581262588501, "Quantum sensing Position": 0.7037623524665833, "Quantum sensing Timing": 0.6944370269775391, "Quantum sensing": 0.6790328025817871, "Quantum control": 0.6921723484992981 } }, { "id": 611, "title": "Maxwell's demon across the quantum-to-classical transition", "abstract": "In scenarios coined Maxwell's demon, information on microscopic degrees of freedom is used to seemingly violate the second law of thermodynamics. This has been studied in the classical as well as the ...", "citations": 6, "author_count": 9, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 611, "doi": "10.1103/PhysRevResearch.6.043216", "umap_coordinates": { "x": 395.3899841308594, "y": 137.0344696044922, "z": 207.2744903564453 }, "tsne_coordinates": { "x": -21.67464256286621, "y": -15.334792137145996, "z": 6.91061544418335 }, "pca_coordinates": { "x": 3.7489542961120605, "y": 1.9989187717437744, "z": -1.6756802797317505 }, "axis_scores": { "Quantum imaging": 0.7148213982582092, "Quantum Life Science Sensing": 0.7475559711456299, "Quantum sensing Detection": 0.7204310297966003, "Quantum sensing Metrology": 0.7279443144798279, "Quantum sensing navigation": 0.731511652469635, "Quantum sensing Position": 0.7077281475067139, "Quantum sensing Timing": 0.7117453217506409, "Quantum sensing": 0.7361689209938049, "Quantum control": 0.6996989250183105 } }, { "id": 612, "title": "Generation of multiple power-balanced laser beams for quantum-state manipulation experiments with phase-stable double optical lattices", "abstract": "We present a method to obtain power-balanced laser beams for quantum-state manipulation experiments with phase-stable double optical lattices. Double optical lattices are constructed using four pairs ...", "citations": 6, "author_count": 4, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 612, "doi": "10.1088/1464-4258/8/5/003", "umap_coordinates": { "x": 394.46368408203125, "y": 135.33779907226562, "z": 206.71914672851562 }, "tsne_coordinates": { "x": -19.886869430541992, "y": -1.004934310913086, "z": -14.135971069335938 }, "pca_coordinates": { "x": -0.04155087471008301, "y": 0.004131793975830078, "z": 2.0532302856445312 }, "axis_scores": { "Quantum imaging": 0.7249577045440674, "Quantum Life Science Sensing": 0.7051623463630676, "Quantum sensing Detection": 0.6954014301300049, "Quantum sensing Metrology": 0.7103215456008911, "Quantum sensing navigation": 0.7020521759986877, "Quantum sensing Position": 0.7041311860084534, "Quantum sensing Timing": 0.6912145018577576, "Quantum sensing": 0.7101858854293823, "Quantum control": 0.706005871295929 } }, { "id": 613, "title": "The impact of chemical composition of halide surface ligands on the electronic structure and stability of lead sulfide quantum dot materials", "abstract": "There is a high fundamental interest in the surface and bulk chemistry of quantum dot (QD) solids, as they have proven to be very promising materials in optoelectronic devices. The choice of surface l...", "citations": 10, "author_count": 8, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 613, "doi": "10.1039/d2cp01050j", "umap_coordinates": { "x": 391.7938537597656, "y": 135.03541564941406, "z": 205.97943115234375 }, "tsne_coordinates": { "x": 16.97150230407715, "y": -3.7919318675994873, "z": -13.523603439331055 }, "pca_coordinates": { "x": -0.9359225630760193, "y": -2.8616204261779785, "z": -3.9467835426330566 }, "axis_scores": { "Quantum imaging": 0.6916015148162842, "Quantum Life Science Sensing": 0.7132625579833984, "Quantum sensing Detection": 0.6820242404937744, "Quantum sensing Metrology": 0.6646226644515991, "Quantum sensing navigation": 0.6806208491325378, "Quantum sensing Position": 0.6927469372749329, "Quantum sensing Timing": 0.6427761316299438, "Quantum sensing": 0.6894893050193787, "Quantum control": 0.6989675164222717 } }, { "id": 614, "title": "In Situ Transformation of Electrum Nanoclusters Embedded in Polymer Matrices Exhibit Near-Infrared Emission With Quantum Yield Exceeding 70%", "abstract": "A nanocomposite of metal nanoclusters/OSTE is fabricated through off-stoichiometric thiol-ene polymerization, incorporating adamantanethiol-protected electrum nanoclusters Au23-xAgx(SAdm)15 (where x =...", "citations": 1, "author_count": 6, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 614, "doi": "10.1002/adom.202501158", "umap_coordinates": { "x": 393.07183837890625, "y": 134.42735290527344, "z": 205.20547485351562 }, "tsne_coordinates": { "x": 30.91950798034668, "y": 12.226207733154297, "z": 9.336433410644531 }, "pca_coordinates": { "x": -2.35825252532959, "y": -1.8067193031311035, "z": -0.6899211406707764 }, "axis_scores": { "Quantum imaging": 0.7168113589286804, "Quantum Life Science Sensing": 0.7313425540924072, "Quantum sensing Detection": 0.7008907794952393, "Quantum sensing Metrology": 0.6969817280769348, "Quantum sensing navigation": 0.670825183391571, "Quantum sensing Position": 0.667319118976593, "Quantum sensing Timing": 0.651544988155365, "Quantum sensing": 0.7112190127372742, "Quantum control": 0.6632274985313416 } }, { "id": 615, "title": "Superradiance, bosonic Peierls distortion, and lattice gauge theory in a generalized Rabi-Hubbard chain", "abstract": "We investigate a one-dimensional Rabi-Hubbard type of model, arranged such that a quantum dot is sandwiched between every cavity. The role of the quantum dot is twofold, to transmit photons between ne...", "citations": 1, "author_count": 3, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 615, "doi": "10.1103/PhysRevA.102.063711", "umap_coordinates": { "x": 393.62542724609375, "y": 136.97628784179688, "z": 208.0047149658203 }, "tsne_coordinates": { "x": -8.922079086303711, "y": -40.91218948364258, "z": 10.177229881286621 }, "pca_coordinates": { "x": 2.8733301162719727, "y": -0.5237550735473633, "z": -0.8626245260238647 }, "axis_scores": { "Quantum imaging": 0.7133845686912537, "Quantum Life Science Sensing": 0.7031924724578857, "Quantum sensing Detection": 0.687159538269043, "Quantum sensing Metrology": 0.6728379130363464, "Quantum sensing navigation": 0.6999191045761108, "Quantum sensing Position": 0.6853609085083008, "Quantum sensing Timing": 0.6816627979278564, "Quantum sensing": 0.705189049243927, "Quantum control": 0.6942445635795593 } }, { "id": 616, "title": "Carrier transport in self-organized InAs/GaAs quantum-dot structures studied by single-dot spectroscopy", "abstract": "A microphotoluminescence study of single InAs/GaAs quantum dots subjected to a lateral external electric field gives insight into carrier transport and capture processes into Stranski-Krastanov-grown ...", "citations": 31, "author_count": 6, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 616, "doi": "10.1103/PhysRevB.73.155336", "umap_coordinates": { "x": 393.7216491699219, "y": 134.427978515625, "z": 209.00994873046875 }, "tsne_coordinates": { "x": 8.332853317260742, "y": -27.021095275878906, "z": -6.301389694213867 }, "pca_coordinates": { "x": 4.329545021057129, "y": -4.602724552154541, "z": 1.4474072456359863 }, "axis_scores": { "Quantum imaging": 0.7080045342445374, "Quantum Life Science Sensing": 0.7266313433647156, "Quantum sensing Detection": 0.7210782766342163, "Quantum sensing Metrology": 0.7092564702033997, "Quantum sensing navigation": 0.7389519214630127, "Quantum sensing Position": 0.6973419189453125, "Quantum sensing Timing": 0.6761910915374756, "Quantum sensing": 0.7267582416534424, "Quantum control": 0.6842978000640869 } }, { "id": 617, "title": "Study of the Interfacial Oxidation of InP Quantum Dots Synthesized from Tris(dimethylamino)phosphine", "abstract": "InP quantum dots (QDs) are the most competitive in terms of environmentally friendly QDs. However, the synthesis of InP QDs requires breakthroughs in low-cost and safe phosphorus precursors such as tr...", "citations": 37, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 617, "doi": "10.1021/acsami.2c20138", "umap_coordinates": { "x": 392.0367736816406, "y": 134.1483612060547, "z": 207.25466918945312 }, "tsne_coordinates": { "x": 24.928796768188477, "y": -12.931614875793457, "z": 2.8605973720550537 }, "pca_coordinates": { "x": -2.4339914321899414, "y": -3.9497885704040527, "z": -2.1021666526794434 }, "axis_scores": { "Quantum imaging": 0.724501371383667, "Quantum Life Science Sensing": 0.734787106513977, "Quantum sensing Detection": 0.705812931060791, "Quantum sensing Metrology": 0.7048908472061157, "Quantum sensing navigation": 0.682124674320221, "Quantum sensing Position": 0.6908034086227417, "Quantum sensing Timing": 0.68559330701828, "Quantum sensing": 0.7160583734512329, "Quantum control": 0.6902249455451965 } }, { "id": 618, "title": "Inorganic Colloidal Perovskite Quantum Dots for Robust Solar CO2 Reduction", "abstract": "Inorganic perovskite quantum dots as optoelectronic materials have attracted enormous attention in light-harvesting and emitting devices. However, photocatalytic conversion based on inorganic perovski...", "citations": 273, "author_count": 9, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 618, "doi": "10.1002/chem.201702237", "umap_coordinates": { "x": 391.8751220703125, "y": 133.82644653320312, "z": 205.23484802246094 }, "tsne_coordinates": { "x": 20.074268341064453, "y": 1.4868828058242798, "z": -12.523452758789062 }, "pca_coordinates": { "x": -3.3709988594055176, "y": -4.266158580780029, "z": -2.5330240726470947 }, "axis_scores": { "Quantum imaging": 0.733028769493103, "Quantum Life Science Sensing": 0.7474421262741089, "Quantum sensing Detection": 0.7181441783905029, "Quantum sensing Metrology": 0.7150543928146362, "Quantum sensing navigation": 0.7169158458709717, "Quantum sensing Position": 0.6836365461349487, "Quantum sensing Timing": 0.6740103363990784, "Quantum sensing": 0.7391846179962158, "Quantum control": 0.7429519891738892 } }, { "id": 619, "title": "Molecular motors with high quantum efficiency and visible-light responsiveness: Meeting two challenges in one design", "abstract": "The development of light-driven rotary molecular motors is guided by a number of key goals regarding performance and applicability. While a variety of approaches to achieve high quantum yields for sma...", "citations": 11, "author_count": 3, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 619, "doi": "10.1016/j.comptc.2018.12.012", "umap_coordinates": { "x": 392.87677001953125, "y": 134.93618774414062, "z": 204.8483428955078 }, "tsne_coordinates": { "x": -7.155473232269287, "y": 10.158550262451172, "z": -8.409859657287598 }, "pca_coordinates": { "x": -3.3613572120666504, "y": 0.04789900779724121, "z": -0.09301739931106567 }, "axis_scores": { "Quantum imaging": 0.7330948710441589, "Quantum Life Science Sensing": 0.7484641671180725, "Quantum sensing Detection": 0.7380727529525757, "Quantum sensing Metrology": 0.7406450510025024, "Quantum sensing navigation": 0.7121263146400452, "Quantum sensing Position": 0.6856269240379333, "Quantum sensing Timing": 0.6964699029922485, "Quantum sensing": 0.7443027496337891, "Quantum control": 0.7346879243850708 } }, { "id": 620, "title": "Realization of Cold-Electron Bolometers with Ultimate Sensitivity due to Strong Electron Self-Cooling", "abstract": "We have realized an ultimate photon-noise-limited array of cold-electron bolometers (CEBs) for OLIMPO Balloon Telescope. The CEB array demonstrates very effective electron self-cooling of the absorber...", "citations": 2, "author_count": 16, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 620, "doi": null, "umap_coordinates": { "x": 391.6766052246094, "y": 139.3868408203125, "z": 209.44677734375 }, "tsne_coordinates": { "x": -3.688028573989868, "y": 47.061370849609375, "z": -8.372118949890137 }, "pca_coordinates": { "x": -0.547211766242981, "y": 2.5477449893951416, "z": 0.6568477749824524 }, "axis_scores": { "Quantum imaging": 0.7128129005432129, "Quantum Life Science Sensing": 0.732225775718689, "Quantum sensing Detection": 0.7310614585876465, "Quantum sensing Metrology": 0.7179197072982788, "Quantum sensing navigation": 0.7191804051399231, "Quantum sensing Position": 0.6904054880142212, "Quantum sensing Timing": 0.6815624237060547, "Quantum sensing": 0.7258079051971436, "Quantum control": 0.7095895409584045 } }, { "id": 621, "title": "Non-monotonic projection probabilities as a function of distinguishability", "abstract": "Typically, quantum superpositions, and thus measurement projections of quantum states involving interference, decrease (or increase) monotonically as a function of increased distinguishability. Distin...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 621, "doi": "10.1088/1367-2630/16/1/013006", "umap_coordinates": { "x": 395.1376953125, "y": 137.41600036621094, "z": 206.34243774414062 }, "tsne_coordinates": { "x": -20.770254135131836, "y": -1.8885992765426636, "z": 14.966513633728027 }, "pca_coordinates": { "x": 0.3014320135116577, "y": 3.267303466796875, "z": 1.7655110359191895 }, "axis_scores": { "Quantum imaging": 0.7045981884002686, "Quantum Life Science Sensing": 0.6898755431175232, "Quantum sensing Detection": 0.711022138595581, "Quantum sensing Metrology": 0.691244900226593, "Quantum sensing navigation": 0.7059762477874756, "Quantum sensing Position": 0.69825279712677, "Quantum sensing Timing": 0.6665680408477783, "Quantum sensing": 0.7112019062042236, "Quantum control": 0.6743932962417603 } }, { "id": 622, "title": "Kolmogorov probability models of quantum correlations", "abstract": "", "citations": 5, "author_count": 4, "categories": [ "Mathematics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 622, "doi": null, "umap_coordinates": { "x": 392.14678955078125, "y": 139.25914001464844, "z": 209.0139923095703 }, "tsne_coordinates": { "x": -13.36855697631836, "y": 40.671573638916016, "z": -1.633972406387329 }, "pca_coordinates": { "x": 3.0216755867004395, "y": 5.7066755294799805, "z": -0.6575700044631958 }, "axis_scores": { "Quantum imaging": 0.7670364379882812, "Quantum Life Science Sensing": 0.750935971736908, "Quantum sensing Detection": 0.7703555226325989, "Quantum sensing Metrology": 0.7497870326042175, "Quantum sensing navigation": 0.781725287437439, "Quantum sensing Position": 0.7407156825065613, "Quantum sensing Timing": 0.7434566020965576, "Quantum sensing": 0.7765907049179077, "Quantum control": 0.749286949634552 } }, { "id": 623, "title": "Single InP/GaInP quantum dots studied by scanning tunneling microscopy and scanning tunneling microscopy induced luminescence", "abstract": "We have studied the optical and structural properties of single, self-assembled InP quantum dots (QDs) overgrown with nominally 5 nm of GaInP, using an ultrahigh-vacuum scanning tunneling microscope (...", "citations": 23, "author_count": 8, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 623, "doi": null, "umap_coordinates": { "x": 391.69342041015625, "y": 139.27923583984375, "z": 209.42333984375 }, "tsne_coordinates": { "x": -10.15002727508545, "y": 49.31892776489258, "z": -5.452509880065918 }, "pca_coordinates": { "x": -0.7117080688476562, "y": -0.0913698673248291, "z": -0.23981016874313354 }, "axis_scores": { "Quantum imaging": 0.749407947063446, "Quantum Life Science Sensing": 0.7527711391448975, "Quantum sensing Detection": 0.7463451623916626, "Quantum sensing Metrology": 0.7341517806053162, "Quantum sensing navigation": 0.7332308292388916, "Quantum sensing Position": 0.7111743092536926, "Quantum sensing Timing": 0.6995207071304321, "Quantum sensing": 0.7532859444618225, "Quantum control": 0.7286549806594849 } }, { "id": 624, "title": "Controlling the strain and light emission from Si-Si1-xGex quantum dots", "abstract": "This paper reports our recent results on a new method for controlling the internal strain and Light emission in Si-Si1-xGex quantum dots (QD) by coating a special SiNx layer with controlled built-in s...", "citations": 3, "author_count": 7, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 624, "doi": "10.1016/S0040-6090(96)09262-0", "umap_coordinates": { "x": 392.8525390625, "y": 133.92367553710938, "z": 207.06211853027344 }, "tsne_coordinates": { "x": 42.731536865234375, "y": -8.125724792480469, "z": -4.01150369644165 }, "pca_coordinates": { "x": -2.1307384967803955, "y": -2.1325387954711914, "z": 0.33673566579818726 }, "axis_scores": { "Quantum imaging": 0.6923866271972656, "Quantum Life Science Sensing": 0.7058466076850891, "Quantum sensing Detection": 0.6754817962646484, "Quantum sensing Metrology": 0.6838515400886536, "Quantum sensing navigation": 0.6841110587120056, "Quantum sensing Position": 0.6986700892448425, "Quantum sensing Timing": 0.6752367615699768, "Quantum sensing": 0.7021220326423645, "Quantum control": 0.7115787267684937 } }, { "id": 625, "title": "Anisotropic Pauli Spin-Blockade Effect and SpinOrbit Interaction Field in an InAs Nanowire Double Quantum Dot", "abstract": "We report on experimental detection of the spin-orbit interaction field in an InAs nanowire double quantum dot device. In the spin blockade regime, leakage current through the double quantum dot is me...", "citations": 32, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 625, "doi": "10.1021/acs.nanolett.8b01153", "umap_coordinates": { "x": 392.7623596191406, "y": 134.55355834960938, "z": 208.0960235595703 }, "tsne_coordinates": { "x": 10.306439399719238, "y": -18.073177337646484, "z": -4.147332191467285 }, "pca_coordinates": { "x": 0.630833625793457, "y": -5.1523542404174805, "z": 0.4678012728691101 }, "axis_scores": { "Quantum imaging": 0.7282309532165527, "Quantum Life Science Sensing": 0.6917694807052612, "Quantum sensing Detection": 0.7012771964073181, "Quantum sensing Metrology": 0.6935561895370483, "Quantum sensing navigation": 0.7127002477645874, "Quantum sensing Position": 0.6880329847335815, "Quantum sensing Timing": 0.6737256050109863, "Quantum sensing": 0.7174046039581299, "Quantum control": 0.6895160675048828 } }, { "id": 626, "title": "Quantum information processing with space-division multiplexing optical fibres", "abstract": "The optical fibre is an essential tool for our communication infrastructure since it is the main transmission channel for optical communications. The latest major advance in optical fibre technology i...", "citations": 141, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 626, "doi": "10.1038/s42005-019-0269-7", "umap_coordinates": { "x": 394.62188720703125, "y": 135.53997802734375, "z": 206.2366485595703 }, "tsne_coordinates": { "x": -12.041531562805176, "y": 2.4649319648742676, "z": -5.329143524169922 }, "pca_coordinates": { "x": -0.7272707223892212, "y": 0.6060070991516113, "z": 3.0721263885498047 }, "axis_scores": { "Quantum imaging": 0.7454718351364136, "Quantum Life Science Sensing": 0.7227511405944824, "Quantum sensing Detection": 0.7363967299461365, "Quantum sensing Metrology": 0.7354985475540161, "Quantum sensing navigation": 0.7427982091903687, "Quantum sensing Position": 0.7195132374763489, "Quantum sensing Timing": 0.6987515091896057, "Quantum sensing": 0.7458229660987854, "Quantum control": 0.7159335613250732 } }, { "id": 627, "title": "Experimental four-qubit bound entanglement", "abstract": "Entanglement is one of the most puzzling features of quantum theory and of great importance for the new field of quantum information. Being a peculiar form of entanglement, bound entanglement emerges ...", "citations": 76, "author_count": 3, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 627, "doi": "10.1038/NPHYS1372", "umap_coordinates": { "x": 395.779541015625, "y": 136.24893188476562, "z": 207.4480743408203 }, "tsne_coordinates": { "x": -21.1591854095459, "y": -5.813386917114258, "z": -7.355978965759277 }, "pca_coordinates": { "x": 3.3140816688537598, "y": 1.4249966144561768, "z": 0.7075379490852356 }, "axis_scores": { "Quantum imaging": 0.7648012042045593, "Quantum Life Science Sensing": 0.7204552888870239, "Quantum sensing Detection": 0.7470817565917969, "Quantum sensing Metrology": 0.7131748199462891, "Quantum sensing navigation": 0.7496845126152039, "Quantum sensing Position": 0.7340335249900818, "Quantum sensing Timing": 0.7349620461463928, "Quantum sensing": 0.7555987238883972, "Quantum control": 0.739300549030304 } }, { "id": 628, "title": "Evaluation of mixed-signal noise effects in photon-counting X-ray image sensor readout circuits", "abstract": "In readout electronics for photon-counting pixel detectors, the tight integration between analog and digital blocks causes the readout electronics to be sensitive to on-chip noise coupling. This noise...", "citations": 4, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2006, "topic": [ "all" ], "embedding_index": 628, "doi": "10.1016/j.nima.2006.01.098", "umap_coordinates": { "x": 394.9019775390625, "y": 132.73800659179688, "z": 205.30996704101562 }, "tsne_coordinates": { "x": -11.726043701171875, "y": 16.057294845581055, "z": -12.39926815032959 }, "pca_coordinates": { "x": -3.549255132675171, "y": 1.3337428569793701, "z": 3.666609287261963 }, "axis_scores": { "Quantum imaging": 0.7397335171699524, "Quantum Life Science Sensing": 0.7260972857475281, "Quantum sensing Detection": 0.7287888526916504, "Quantum sensing Metrology": 0.7221811413764954, "Quantum sensing navigation": 0.7016615867614746, "Quantum sensing Position": 0.7020364999771118, "Quantum sensing Timing": 0.681667685508728, "Quantum sensing": 0.7231794595718384, "Quantum control": 0.6550616025924683 } }, { "id": 629, "title": "Spectrally reconfigurable quantum emitters enabled by optimized fast modulation", "abstract": "The ability to shape photon emission facilitates strong photon-mediated interactions between disparate physical systems, thereby enabling applications in quantum information processing, simulation and...", "citations": 64, "author_count": 20, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 629, "doi": "10.1038/s41534-020-00310-0", "umap_coordinates": { "x": 393.03668212890625, "y": 134.43104553222656, "z": 205.40625 }, "tsne_coordinates": { "x": 18.532733917236328, "y": 2.484647274017334, "z": -27.913970947265625 }, "pca_coordinates": { "x": -2.152712345123291, "y": -1.2925176620483398, "z": 0.9194599986076355 }, "axis_scores": { "Quantum imaging": 0.7388976216316223, "Quantum Life Science Sensing": 0.7374050617218018, "Quantum sensing Detection": 0.7238052487373352, "Quantum sensing Metrology": 0.7174727320671082, "Quantum sensing navigation": 0.7270751595497131, "Quantum sensing Position": 0.7032120227813721, "Quantum sensing Timing": 0.7157413363456726, "Quantum sensing": 0.7440699934959412, "Quantum control": 0.711197018623352 } }, { "id": 630, "title": "Squeezing at the Normal-Mode Splitting Frequency of a Nonlinear Coupled Cavity", "abstract": "Coupled optical cavities, which support normal modes, play a critical role in optical filtering, sensing, slow-light generation, and quantum state manipulation. Recent theoretical work has proposed in...", "citations": 1, "author_count": 9, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 630, "doi": "10.1103/PhysRevLett.134.243603", "umap_coordinates": { "x": 395.0614318847656, "y": 135.5525360107422, "z": 208.152099609375 }, "tsne_coordinates": { "x": -10.31325626373291, "y": -17.28447151184082, "z": 2.6213290691375732 }, "pca_coordinates": { "x": 4.797065734863281, "y": 0.33048439025878906, "z": 1.3697116374969482 }, "axis_scores": { "Quantum imaging": 0.7087817192077637, "Quantum Life Science Sensing": 0.7185799479484558, "Quantum sensing Detection": 0.7271485328674316, "Quantum sensing Metrology": 0.7179356813430786, "Quantum sensing navigation": 0.7296962738037109, "Quantum sensing Position": 0.7026946544647217, "Quantum sensing Timing": 0.6880788207054138, "Quantum sensing": 0.7371115684509277, "Quantum control": 0.7058666348457336 } }, { "id": 631, "title": "Theoretical study on passivation of small CdS clusters", "abstract": "We use density functional theory quantum chemical calculations to model optical properties of small cadmium sulphide clusters in order to explore the formation of trap states and the possibility to ac...", "citations": 5, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 631, "doi": "10.1080/00268976.2013.852699", "umap_coordinates": { "x": 393.31927490234375, "y": 134.8763885498047, "z": 205.56405639648438 }, "tsne_coordinates": { "x": 36.370792388916016, "y": 8.003619194030762, "z": 12.788780212402344 }, "pca_coordinates": { "x": -1.6328704357147217, "y": -0.3727436065673828, "z": -0.6646246314048767 }, "axis_scores": { "Quantum imaging": 0.6774219870567322, "Quantum Life Science Sensing": 0.7194058895111084, "Quantum sensing Detection": 0.6901075839996338, "Quantum sensing Metrology": 0.6553559899330139, "Quantum sensing navigation": 0.660961925983429, "Quantum sensing Position": 0.6661843657493591, "Quantum sensing Timing": 0.6662920713424683, "Quantum sensing": 0.6968995332717896, "Quantum control": 0.6751598715782166 } }, { "id": 632, "title": "The optimal pure Gaussian state canonically associated to a Gaussian quantum state", "abstract": "We show, using the symplectically invariant notion of 'quantum blob', that it is possible to attach a canonical optimal Gaussian pure state to an arbitrary quantum state. When at least one pair of con...", "citations": 8, "author_count": 2, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 632, "doi": "10.1016/j.physleta.2004.08.001", "umap_coordinates": { "x": 395.18695068359375, "y": 137.533935546875, "z": 206.72850036621094 }, "tsne_coordinates": { "x": -11.807775497436523, "y": 2.5952749252319336, "z": 20.09688949584961 }, "pca_coordinates": { "x": 1.8676931858062744, "y": 2.4875235557556152, "z": 0.21742063760757446 }, "axis_scores": { "Quantum imaging": 0.7625563144683838, "Quantum Life Science Sensing": 0.7312911748886108, "Quantum sensing Detection": 0.751745879650116, "Quantum sensing Metrology": 0.7331494092941284, "Quantum sensing navigation": 0.778976559638977, "Quantum sensing Position": 0.7571594715118408, "Quantum sensing Timing": 0.7089019417762756, "Quantum sensing": 0.7604658603668213, "Quantum control": 0.7574365139007568 } }, { "id": 633, "title": "INFLUENCE OF X-RAY-ENERGY SPECTRUM, CONTRASTING DETAIL AND DETECTOR ON THE SIGNAL-TO-NOISE RATIO (SNR) AND DETECTIVE QUANTUM EFFICIENCY (DQE) IN PROJECTION RADIOGRAPHY", "abstract": "A lower limit to patient irradiation in diagnostic radiology is set by the fundamental stochastics of the energy imparted to the image receptor (quantum noise). Image quality is investigated here and ...", "citations": 52, "author_count": 3, "categories": [ "Engineering" ], "year": 1992, "topic": [ "all" ], "embedding_index": 633, "doi": "10.1088/0031-9155/37/6/004", "umap_coordinates": { "x": 395.9682922363281, "y": 133.43345642089844, "z": 205.30763244628906 }, "tsne_coordinates": { "x": -11.089405059814453, "y": 33.27504348754883, "z": -15.34375 }, "pca_coordinates": { "x": -2.180863380432129, "y": 3.3642983436584473, "z": 3.043445110321045 }, "axis_scores": { "Quantum imaging": 0.721031904220581, "Quantum Life Science Sensing": 0.7045111656188965, "Quantum sensing Detection": 0.6982720494270325, "Quantum sensing Metrology": 0.6792525053024292, "Quantum sensing navigation": 0.6779266595840454, "Quantum sensing Position": 0.6861695051193237, "Quantum sensing Timing": 0.6575548052787781, "Quantum sensing": 0.7020938396453857, "Quantum control": 0.6449952125549316 } }, { "id": 634, "title": "Spectroscopic studies of random telegraph noise in self-assembled InP quantum dots in GaInP - art. no. 113306", "abstract": "We have spectrally resolved the photoluminescence of InP quantum dots exhibiting random telegraph noise. In particular, we have investigated dots switching among three different levels. We find no spe...", "citations": 14, "author_count": 2, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 634, "doi": "10.1103/PhysRevB.63.113306", "umap_coordinates": { "x": 393.6981201171875, "y": 134.8231964111328, "z": 209.11044311523438 }, "tsne_coordinates": { "x": 12.4111967086792, "y": -32.17963790893555, "z": -5.9730730056762695 }, "pca_coordinates": { "x": 3.610675811767578, "y": -1.5690593719482422, "z": 1.4909758567810059 }, "axis_scores": { "Quantum imaging": 0.716641366481781, "Quantum Life Science Sensing": 0.7238702178001404, "Quantum sensing Detection": 0.721470832824707, "Quantum sensing Metrology": 0.7143882513046265, "Quantum sensing navigation": 0.7275697588920593, "Quantum sensing Position": 0.7056723237037659, "Quantum sensing Timing": 0.6739996075630188, "Quantum sensing": 0.7295485734939575, "Quantum control": 0.6886643767356873 } }, { "id": 635, "title": "Highly Stable CsPbI3 Perovskite Quantum Dots Enabled by Single SiO2 Coating toward Down-Conversion Light-Emitting Diodes", "abstract": "All-inorganic CsPbI3 perovskite quantum dots (PeQDs) have sparked widespread research due to their excellent optoelectronic properties and facile synthesis. However, attaining highly stable CsPbI3 per...", "citations": 11, "author_count": 10, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 635, "doi": "10.3390/app13137529", "umap_coordinates": { "x": 392.1650085449219, "y": 133.4671173095703, "z": 205.32997131347656 }, "tsne_coordinates": { "x": 23.19033432006836, "y": 3.0063748359680176, "z": -17.40709114074707 }, "pca_coordinates": { "x": -3.390015125274658, "y": -3.3990893363952637, "z": 0.3306261897087097 }, "axis_scores": { "Quantum imaging": 0.7022013068199158, "Quantum Life Science Sensing": 0.7238903045654297, "Quantum sensing Detection": 0.7133796811103821, "Quantum sensing Metrology": 0.7048875093460083, "Quantum sensing navigation": 0.693080723285675, "Quantum sensing Position": 0.6827373504638672, "Quantum sensing Timing": 0.6769205927848816, "Quantum sensing": 0.726929783821106, "Quantum control": 0.7156826257705688 } }, { "id": 636, "title": "Metal Oxide Semiconductors for Dye- and Quantum-Dot-Sensitized Solar Cells", "abstract": "This Review provides a brief summary of the most recent research developments in the synthesis and application of nanostructured metal oxide semiconductors for dye sensitized and quantum dot sensitize...", "citations": 119, "author_count": 3, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 636, "doi": "10.1002/smll.201402334", "umap_coordinates": { "x": 392.6938781738281, "y": 133.64195251464844, "z": 205.69554138183594 }, "tsne_coordinates": { "x": 29.376590728759766, "y": 1.5933603048324585, "z": -19.282840728759766 }, "pca_coordinates": { "x": -3.2436556816101074, "y": -2.8879151344299316, "z": -1.3260691165924072 }, "axis_scores": { "Quantum imaging": 0.6964696645736694, "Quantum Life Science Sensing": 0.7480052709579468, "Quantum sensing Detection": 0.7100680470466614, "Quantum sensing Metrology": 0.7208318710327148, "Quantum sensing navigation": 0.6866757273674011, "Quantum sensing Position": 0.6758288741111755, "Quantum sensing Timing": 0.6564586162567139, "Quantum sensing": 0.7188979983329773, "Quantum control": 0.679720938205719 } }, { "id": 637, "title": "Kinetic samplers for neural quantum states", "abstract": "Neural quantum states are a recently introduced class of variational many-body wave functions that are very flexible in approximating diverse quantum states. Optimization of an NQS ansatz requires sam...", "citations": 3, "author_count": 4, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 637, "doi": "10.1103/PhysRevB.104.104407", "umap_coordinates": { "x": 394.9965515136719, "y": 137.45040893554688, "z": 208.22442626953125 }, "tsne_coordinates": { "x": -24.8110408782959, "y": -23.786157608032227, "z": -7.828508377075195 }, "pca_coordinates": { "x": 4.143972396850586, "y": 0.15540695190429688, "z": -1.2512521743774414 }, "axis_scores": { "Quantum imaging": 0.7030147314071655, "Quantum Life Science Sensing": 0.7044051885604858, "Quantum sensing Detection": 0.6982377767562866, "Quantum sensing Metrology": 0.6833979487419128, "Quantum sensing navigation": 0.7421399354934692, "Quantum sensing Position": 0.6977459788322449, "Quantum sensing Timing": 0.6952860355377197, "Quantum sensing": 0.7153112888336182, "Quantum control": 0.6978693604469299 } }, { "id": 638, "title": "A structure of CdS/CuxS quantum dots sensitized solar cells", "abstract": "This work introduces a type of CdS/CuxS quantum dots (QDs) as sensitizers in quantum dot sensitized solar cells by in-situ cationic exchange reaction method where CdS photoanode is directly immersed i...", "citations": 27, "author_count": 7, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 638, "doi": "10.1063/1.4952435", "umap_coordinates": { "x": 392.7074279785156, "y": 134.0254669189453, "z": 207.58180236816406 }, "tsne_coordinates": { "x": 21.96363067626953, "y": -3.0430164337158203, "z": -0.24589312076568604 }, "pca_coordinates": { "x": 0.6149647235870361, "y": -2.8280625343322754, "z": -0.4718465805053711 }, "axis_scores": { "Quantum imaging": 0.7135990858078003, "Quantum Life Science Sensing": 0.7580634951591492, "Quantum sensing Detection": 0.7293419241905212, "Quantum sensing Metrology": 0.7210901379585266, "Quantum sensing navigation": 0.7166042327880859, "Quantum sensing Position": 0.7130616903305054, "Quantum sensing Timing": 0.6878743171691895, "Quantum sensing": 0.740128219127655, "Quantum control": 0.7213066816329956 } }, { "id": 639, "title": "Size dependent biexciton binding energies in GaN quantum dots", "abstract": "Single GaN/Al(Ga)N quantum dots (QDs) have been investigated by means of microphotoluminescence. Emission spectra related to excitons and biexcitons have been identified by excitation power dependence...", "citations": 33, "author_count": 7, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 639, "doi": "10.1063/1.3670040", "umap_coordinates": { "x": 392.7058410644531, "y": 133.58389282226562, "z": 207.99488830566406 }, "tsne_coordinates": { "x": 31.0422420501709, "y": -11.303128242492676, "z": -3.8023171424865723 }, "pca_coordinates": { "x": 1.2659411430358887, "y": -5.272313117980957, "z": 0.37373918294906616 }, "axis_scores": { "Quantum imaging": 0.7303217649459839, "Quantum Life Science Sensing": 0.7269517183303833, "Quantum sensing Detection": 0.7315425276756287, "Quantum sensing Metrology": 0.7189105153083801, "Quantum sensing navigation": 0.715575635433197, "Quantum sensing Position": 0.7203319072723389, "Quantum sensing Timing": 0.695845365524292, "Quantum sensing": 0.7453270554542542, "Quantum control": 0.6956630349159241 } }, { "id": 640, "title": "Thermoelectric cooling of a finite reservoir coupled to a quantum dot", "abstract": "We investigate nonequilibrium transport of charge and heat through an interacting quantum dot coupled to a finite electron reservoir. Both the quantum dot and the finite reservoir are coupled to conve...", "citations": 1, "author_count": 5, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 640, "doi": "10.1103/PhysRevB.110.205423", "umap_coordinates": { "x": 394.6889953613281, "y": 135.5037841796875, "z": 208.99630737304688 }, "tsne_coordinates": { "x": -8.683937072753906, "y": -23.484134674072266, "z": 6.041967868804932 }, "pca_coordinates": { "x": 5.083037853240967, "y": -2.413149356842041, "z": 0.8295494914054871 }, "axis_scores": { "Quantum imaging": 0.7121419310569763, "Quantum Life Science Sensing": 0.7156009078025818, "Quantum sensing Detection": 0.7268862128257751, "Quantum sensing Metrology": 0.7157378792762756, "Quantum sensing navigation": 0.7164923548698425, "Quantum sensing Position": 0.7033238410949707, "Quantum sensing Timing": 0.7072133421897888, "Quantum sensing": 0.7360725402832031, "Quantum control": 0.7076964974403381 } }, { "id": 641, "title": "Quantum error correction may delay, but also cause, entanglement sudden death", "abstract": "Dissipation may cause two initially entangled qubits to evolve into a separable state in a finite time. This behavior is called entanglement sudden death (ESD). We study to what extent quantum error c...", "citations": 56, "author_count": 3, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 641, "doi": "10.1103/PhysRevA.77.052307", "umap_coordinates": { "x": 395.5054626464844, "y": 136.60064697265625, "z": 208.0897979736328 }, "tsne_coordinates": { "x": -31.482404708862305, "y": -29.205299377441406, "z": -0.6833901405334473 }, "pca_coordinates": { "x": 4.4501543045043945, "y": 1.8877949714660645, "z": 1.2186322212219238 }, "axis_scores": { "Quantum imaging": 0.7292197942733765, "Quantum Life Science Sensing": 0.7409383654594421, "Quantum sensing Detection": 0.7534091472625732, "Quantum sensing Metrology": 0.7138863205909729, "Quantum sensing navigation": 0.7322858572006226, "Quantum sensing Position": 0.7295137047767639, "Quantum sensing Timing": 0.7524752020835876, "Quantum sensing": 0.7506200075149536, "Quantum control": 0.7311930656433105 } }, { "id": 642, "title": "Reversing Quantum Trajectories with Analog Feedback", "abstract": "We demonstrate the active suppression of transmon qubit dephasing induced by dispersive measurement, using parametric amplification and analog feedback. By real-time processing of the homodyne record,...", "citations": 89, "author_count": 10, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 642, "doi": "10.1103/PhysRevLett.112.080501", "umap_coordinates": { "x": 395.4010009765625, "y": 136.90538024902344, "z": 207.96499633789062 }, "tsne_coordinates": { "x": -29.656614303588867, "y": -26.647939682006836, "z": -5.951441287994385 }, "pca_coordinates": { "x": 4.788187026977539, "y": 1.6302540302276611, "z": 0.835415780544281 }, "axis_scores": { "Quantum imaging": 0.7045206427574158, "Quantum Life Science Sensing": 0.6977016925811768, "Quantum sensing Detection": 0.699268102645874, "Quantum sensing Metrology": 0.6894013285636902, "Quantum sensing navigation": 0.7285805940628052, "Quantum sensing Position": 0.6828881502151489, "Quantum sensing Timing": 0.719002902507782, "Quantum sensing": 0.7101438641548157, "Quantum control": 0.7012683153152466 } }, { "id": 643, "title": "Interferometric quantum control (IQC) by fs/ns rotational coherent anti-Stokes Raman spectroscopy (RCARS)", "abstract": "A new rotational coherent anti-Stokes Raman spectroscopy (RCARS) concept based on interferometric quantum control (IQC) is demonstrated. Two wavepackets originating from pure rotational states are cre...", "citations": 2, "author_count": 6, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 643, "doi": "10.1364/OE.498169", "umap_coordinates": { "x": 394.46319580078125, "y": 134.9953155517578, "z": 206.7750701904297 }, "tsne_coordinates": { "x": -2.999091148376465, "y": -8.974559783935547, "z": -30.002864837646484 }, "pca_coordinates": { "x": 0.8578367233276367, "y": 0.7561873197555542, "z": 0.9798457026481628 }, "axis_scores": { "Quantum imaging": 0.7454833984375, "Quantum Life Science Sensing": 0.721653163433075, "Quantum sensing Detection": 0.7269455790519714, "Quantum sensing Metrology": 0.7239301800727844, "Quantum sensing navigation": 0.7452268600463867, "Quantum sensing Position": 0.693905770778656, "Quantum sensing Timing": 0.7073463797569275, "Quantum sensing": 0.7484314441680908, "Quantum control": 0.7838659286499023 } }, { "id": 644, "title": "Polarized Emission from Single GaN Quantum Dots Grown by Molecular Beam Epitaxy", "abstract": "Polarization resolved microphotoluminescence measurements of single MBE-grown GaN/Al(Ga)N quantum dots (QDs) have been performed. The exciton and biexciton peaks with full width at half maximum as nar...", "citations": 1, "author_count": 7, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 644, "doi": "10.1063/1.3666493", "umap_coordinates": { "x": 393.57391357421875, "y": 133.69464111328125, "z": 208.3032989501953 }, "tsne_coordinates": { "x": 20.303157806396484, "y": -25.17725372314453, "z": -1.0659936666488647 }, "pca_coordinates": { "x": 1.0637245178222656, "y": -4.518051624298096, "z": 1.4583110809326172 }, "axis_scores": { "Quantum imaging": 0.7232710123062134, "Quantum Life Science Sensing": 0.7261977195739746, "Quantum sensing Detection": 0.7201284766197205, "Quantum sensing Metrology": 0.7115311026573181, "Quantum sensing navigation": 0.7058782577514648, "Quantum sensing Position": 0.6736124157905579, "Quantum sensing Timing": 0.6450706720352173, "Quantum sensing": 0.7361314296722412, "Quantum control": 0.7006170749664307 } }, { "id": 645, "title": "On relations between probabilities under quantum and classical measurements", "abstract": "We show that the so-called quantum probabilistic rule, usually introduced in the physical literature as an argument of the essential distinction between the probability relations under quantum and cla...", "citations": 15, "author_count": 3, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 645, "doi": "10.1023/B:FOOP.0000019631.84010.a6", "umap_coordinates": { "x": 395.15606689453125, "y": 137.08660888671875, "z": 205.9686279296875 }, "tsne_coordinates": { "x": -29.592878341674805, "y": -5.879143714904785, "z": 20.23552703857422 }, "pca_coordinates": { "x": 2.126418352127075, "y": 2.4447991847991943, "z": 0.37646085023880005 }, "axis_scores": { "Quantum imaging": 0.74796462059021, "Quantum Life Science Sensing": 0.7582997679710388, "Quantum sensing Detection": 0.7684158682823181, "Quantum sensing Metrology": 0.7633491158485413, "Quantum sensing navigation": 0.7536028027534485, "Quantum sensing Position": 0.7569196820259094, "Quantum sensing Timing": 0.7298262119293213, "Quantum sensing": 0.7786597013473511, "Quantum control": 0.7325705885887146 } }, { "id": 646, "title": "Chaos in circuit QED: decoherence, localization and nonclassicality", "abstract": "We study the open system dynamics of a circuit quantum electrodynamics (QED) model operating in the ultrastrong coupling regime. If the resonator is pumped periodically in time the underlying classica...", "citations": 6, "author_count": 3, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 646, "doi": "10.1088/0953-4075/46/22/224015", "umap_coordinates": { "x": 394.96490478515625, "y": 136.81124877929688, "z": 207.1488494873047 }, "tsne_coordinates": { "x": -31.78752899169922, "y": 3.7749106884002686, "z": 23.128198623657227 }, "pca_coordinates": { "x": 2.3217530250549316, "y": 2.7330284118652344, "z": -0.5185568928718567 }, "axis_scores": { "Quantum imaging": 0.7448142766952515, "Quantum Life Science Sensing": 0.7475000023841858, "Quantum sensing Detection": 0.749625027179718, "Quantum sensing Metrology": 0.7181224822998047, "Quantum sensing navigation": 0.762610673904419, "Quantum sensing Position": 0.7253327965736389, "Quantum sensing Timing": 0.7199733257293701, "Quantum sensing": 0.7485993504524231, "Quantum control": 0.7436871528625488 } }, { "id": 647, "title": "In vitro sliding of actin filaments labelled with single quantum dots", "abstract": "We recently refined the in vitro motility assay for studies of actomyosin function to achieve rectified myosin induced sliding of actin filaments. This paves the way, both for detailed functional stud...", "citations": 129, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 647, "doi": "10.1016/j.bbrc.2003.12.133", "umap_coordinates": { "x": 393.8792724609375, "y": 134.4407196044922, "z": 206.1630401611328 }, "tsne_coordinates": { "x": 9.00213623046875, "y": 31.527379989624023, "z": -6.463204383850098 }, "pca_coordinates": { "x": -1.001818060874939, "y": -1.0987117290496826, "z": 0.8692006468772888 }, "axis_scores": { "Quantum imaging": 0.7563576698303223, "Quantum Life Science Sensing": 0.7678357362747192, "Quantum sensing Detection": 0.7598963379859924, "Quantum sensing Metrology": 0.739654541015625, "Quantum sensing navigation": 0.7505614161491394, "Quantum sensing Position": 0.729941725730896, "Quantum sensing Timing": 0.7230658531188965, "Quantum sensing": 0.7670489549636841, "Quantum control": 0.7261368036270142 } }, { "id": 648, "title": "Low-Jc rapid single flux quantum (RSFQ) qubit control circuit", "abstract": "We designed a 30 A /cm(2) RSFQ-qubit control circuit and tested operation at 4 K. The integration of RSFQ technology and qubits monolithically requires great attention to thermal budgeting and electro...", "citations": 8, "author_count": 4, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 648, "doi": "10.1109/TASC.2007.898701", "umap_coordinates": { "x": 394.7453308105469, "y": 134.2906036376953, "z": 207.7756805419922 }, "tsne_coordinates": { "x": 1.3863569498062134, "y": -27.53495979309082, "z": -18.011043548583984 }, "pca_coordinates": { "x": 1.134416103363037, "y": -0.4894731044769287, "z": 0.4455183148384094 }, "axis_scores": { "Quantum imaging": 0.7179920673370361, "Quantum Life Science Sensing": 0.7377572059631348, "Quantum sensing Detection": 0.7411683797836304, "Quantum sensing Metrology": 0.7261146306991577, "Quantum sensing navigation": 0.7372391223907471, "Quantum sensing Position": 0.703361988067627, "Quantum sensing Timing": 0.7476868629455566, "Quantum sensing": 0.7536302208900452, "Quantum control": 0.7722365856170654 } }, { "id": 649, "title": "Explanation of unusual photoluminescence behavior from InAs quantum dots with InAlAs capping", "abstract": "The effect of different kinds of cap layers on optical property of InAs quantum dots (QDs) on GaAs (100) substrate was studied. Temperature dependent photoluminescence (PL) indicates that the PL integ...", "citations": 3, "author_count": 3, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 649, "doi": null, "umap_coordinates": { "x": 391.74835205078125, "y": 139.49815368652344, "z": 209.5547332763672 }, "tsne_coordinates": { "x": -8.940398216247559, "y": 48.8494873046875, "z": -8.739572525024414 }, "pca_coordinates": { "x": -0.8951677680015564, "y": 1.2728962898254395, "z": -1.4055202007293701 }, "axis_scores": { "Quantum imaging": 0.7206268906593323, "Quantum Life Science Sensing": 0.7239090204238892, "Quantum sensing Detection": 0.714566171169281, "Quantum sensing Metrology": 0.6878052949905396, "Quantum sensing navigation": 0.7119280695915222, "Quantum sensing Position": 0.6701960563659668, "Quantum sensing Timing": 0.6879290342330933, "Quantum sensing": 0.7190163135528564, "Quantum control": 0.7280833721160889 } }, { "id": 650, "title": "Large-bias spectroscopy of Yu-Shiba-Rusinov states in a double quantum dot", "abstract": "We have performed tunnel transport spectroscopy on a quantum dot (QD) molecule proximitized by a superconducting contact. In such a system, the scattering between QD spins and Bogoliubov quasiparticle...", "citations": 2, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 650, "doi": "10.1088/1361-6528/aca90e", "umap_coordinates": { "x": 393.5279541015625, "y": 134.84506225585938, "z": 207.63462829589844 }, "tsne_coordinates": { "x": 0.9638452529907227, "y": -19.558834075927734, "z": -0.3066563904285431 }, "pca_coordinates": { "x": 1.158747911453247, "y": -2.382077693939209, "z": 0.6020907759666443 }, "axis_scores": { "Quantum imaging": 0.7104335427284241, "Quantum Life Science Sensing": 0.7401900291442871, "Quantum sensing Detection": 0.7172120213508606, "Quantum sensing Metrology": 0.7065247893333435, "Quantum sensing navigation": 0.7107301950454712, "Quantum sensing Position": 0.6938729286193848, "Quantum sensing Timing": 0.6793631911277771, "Quantum sensing": 0.73102205991745, "Quantum control": 0.6797299385070801 } }, { "id": 651, "title": "Quantum signatures of charge flipping vortices in the Bose-Hubbard trimer", "abstract": "In this work we study quantum signatures of charge flipping vortices, found in the classical discrete nonlinear Schrodinger trimer, by use of the Bose-Hubbard model. We are able to identify such signa...", "citations": 4, "author_count": 3, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 651, "doi": "10.1103/PhysRevE.94.052215", "umap_coordinates": { "x": 394.5389099121094, "y": 136.54808044433594, "z": 209.01177978515625 }, "tsne_coordinates": { "x": -10.266988754272461, "y": -21.91830825805664, "z": 19.869701385498047 }, "pca_coordinates": { "x": 5.03775691986084, "y": -0.6437540054321289, "z": -1.4001097679138184 }, "axis_scores": { "Quantum imaging": 0.7181179523468018, "Quantum Life Science Sensing": 0.7065015435218811, "Quantum sensing Detection": 0.7206079363822937, "Quantum sensing Metrology": 0.696415901184082, "Quantum sensing navigation": 0.7182453274726868, "Quantum sensing Position": 0.7167824506759644, "Quantum sensing Timing": 0.7227253913879395, "Quantum sensing": 0.720561683177948, "Quantum control": 0.7032247185707092 } }, { "id": 652, "title": "Resolving Quantum Interference Black Box through Attosecond Photoionization Spectroscopy", "abstract": "Multiphoton light-matter interactions invoke a so-called black box in which the experimental observations contain the quantum interference between multiple pathways. Here, we employ polarizationcontro...", "citations": 8, "author_count": 14, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 652, "doi": "10.1103/PhysRevLett.131.203201", "umap_coordinates": { "x": 395.7088928222656, "y": 135.31861877441406, "z": 207.5388946533203 }, "tsne_coordinates": { "x": -12.756512641906738, "y": -11.952496528625488, "z": -4.424079895019531 }, "pca_coordinates": { "x": 3.025968551635742, "y": -0.2822391986846924, "z": 2.576287269592285 }, "axis_scores": { "Quantum imaging": 0.7886940836906433, "Quantum Life Science Sensing": 0.7669771909713745, "Quantum sensing Detection": 0.783740758895874, "Quantum sensing Metrology": 0.7522323131561279, "Quantum sensing navigation": 0.7569429874420166, "Quantum sensing Position": 0.7238131761550903, "Quantum sensing Timing": 0.7574189901351929, "Quantum sensing": 0.7862277626991272, "Quantum control": 0.7364838719367981 } }, { "id": 653, "title": "Transient electromagnetically induced transparency in self-assembled quantum dots", "abstract": "A coherent absorption dip in pump-probe experiment performed on a ten layer optically thin InGaAs/GaAs quantum dot (QD) structure has been observed. Measurements performed for different wavelengths, p...", "citations": 103, "author_count": 4, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 653, "doi": "10.1063/1.2840160", "umap_coordinates": { "x": 393.1341857910156, "y": 134.7599334716797, "z": 208.43043518066406 }, "tsne_coordinates": { "x": 27.752708435058594, "y": -20.332931518554688, "z": -5.017703533172607 }, "pca_coordinates": { "x": 1.6594529151916504, "y": -4.198625564575195, "z": -0.5632200241088867 }, "axis_scores": { "Quantum imaging": 0.7304321527481079, "Quantum Life Science Sensing": 0.7431749105453491, "Quantum sensing Detection": 0.7277328968048096, "Quantum sensing Metrology": 0.7045515775680542, "Quantum sensing navigation": 0.6956812143325806, "Quantum sensing Position": 0.6741290092468262, "Quantum sensing Timing": 0.6964889764785767, "Quantum sensing": 0.7292988300323486, "Quantum control": 0.681613564491272 } }, { "id": 654, "title": "Hydrophilic AgInZnS quantum dots as a fluorescent turn-on probe for Cd2+ detection", "abstract": "Quantum dots (QDs) are intensively studied and developed for the detection of toxic heavy metal ions, notably Cd2+. However, a severe drawback is that the probing QDs themselves often are based on hig...", "citations": 35, "author_count": 7, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 654, "doi": "10.1016/j.jallcom.2020.158109", "umap_coordinates": { "x": 393.2760009765625, "y": 134.0309295654297, "z": 204.87820434570312 }, "tsne_coordinates": { "x": 20.60266876220703, "y": 14.89323616027832, "z": -11.287171363830566 }, "pca_coordinates": { "x": -4.029820442199707, "y": -1.8329029083251953, "z": -0.5864078402519226 }, "axis_scores": { "Quantum imaging": 0.7153197526931763, "Quantum Life Science Sensing": 0.7585802674293518, "Quantum sensing Detection": 0.7267814874649048, "Quantum sensing Metrology": 0.7052333354949951, "Quantum sensing navigation": 0.7142225503921509, "Quantum sensing Position": 0.6932923197746277, "Quantum sensing Timing": 0.6707532405853271, "Quantum sensing": 0.7308794260025024, "Quantum control": 0.6996781229972839 } }, { "id": 655, "title": "Beam Energy and Centrality Dependence of Direct-Photon Emission from Ultrarelativistic Heavy-Ion Collisions", "abstract": "The PHENIX collaboration presents first measurements of low-momentum (0.4 < p(T) < 3 GeV/c) direct-photon yields from Au + Au collisions at root s(NN) =39 and 62.4 GeV. For both beam energies the dire...", "citations": 42, "author_count": 673, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 655, "doi": "10.1103/PhysRevLett.123.022301", "umap_coordinates": { "x": 396.19561767578125, "y": 134.55470275878906, "z": 207.962158203125 }, "tsne_coordinates": { "x": -31.351961135864258, "y": 5.226039886474609, "z": -19.140850067138672 }, "pca_coordinates": { "x": 1.968393087387085, "y": -0.31196117401123047, "z": 1.5257883071899414 }, "axis_scores": { "Quantum imaging": 0.7169546484947205, "Quantum Life Science Sensing": 0.711614191532135, "Quantum sensing Detection": 0.7193465232849121, "Quantum sensing Metrology": 0.6737498044967651, "Quantum sensing navigation": 0.6948867440223694, "Quantum sensing Position": 0.6860302090644836, "Quantum sensing Timing": 0.6919168829917908, "Quantum sensing": 0.7097873687744141, "Quantum control": 0.6823905110359192 } }, { "id": 656, "title": "Tunable transient evolutional behaviours of a four-level atomic vapour and the application to photonic logic gates", "abstract": "The evolutional optical behaviours (turn-on dynamics) of a four-level N-configuration atomic system are considered based on the transient solution to the equations of motion of atomic probability ampl...", "citations": 14, "author_count": 4, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 656, "doi": "10.1088/0953-4075/42/5/055502", "umap_coordinates": { "x": 393.28277587890625, "y": 135.594482421875, "z": 206.86648559570312 }, "tsne_coordinates": { "x": 18.050106048583984, "y": -7.844152927398682, "z": 16.29214096069336 }, "pca_coordinates": { "x": 0.49944353103637695, "y": 0.571014404296875, "z": -0.6629777550697327 }, "axis_scores": { "Quantum imaging": 0.7094240784645081, "Quantum Life Science Sensing": 0.7138267159461975, "Quantum sensing Detection": 0.6953113079071045, "Quantum sensing Metrology": 0.6572772264480591, "Quantum sensing navigation": 0.697229266166687, "Quantum sensing Position": 0.673993706703186, "Quantum sensing Timing": 0.6997399926185608, "Quantum sensing": 0.7040808796882629, "Quantum control": 0.7044933438301086 } }, { "id": 657, "title": "Imaging via Correlation of X-Ray Fluorescence Photons", "abstract": "We demonstrate that x-ray fluorescence emission, which cannot maintain a stationary interference pattern, can be used to obtain images of structures by recording photon-photon correlations in the mann...", "citations": 18, "author_count": 35, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 657, "doi": "10.1103/PhysRevLett.130.173201", "umap_coordinates": { "x": 395.5594482421875, "y": 134.80523681640625, "z": 206.9633331298828 }, "tsne_coordinates": { "x": -12.75483226776123, "y": -12.790205955505371, "z": -2.095499277114868 }, "pca_coordinates": { "x": 2.2808194160461426, "y": 1.3567743301391602, "z": 3.9008231163024902 }, "axis_scores": { "Quantum imaging": 0.7944813370704651, "Quantum Life Science Sensing": 0.7509706616401672, "Quantum sensing Detection": 0.7681048512458801, "Quantum sensing Metrology": 0.7447508573532104, "Quantum sensing navigation": 0.7662935256958008, "Quantum sensing Position": 0.7332926392555237, "Quantum sensing Timing": 0.7434413433074951, "Quantum sensing": 0.7689242362976074, "Quantum control": 0.7069694399833679 } }, { "id": 658, "title": "Medium Modification of Jet Fragmentation in Au plus Au Collisions at √SNN=200 GeV Measured in Direct Photon-Hadron Correlations", "abstract": "The jet fragmentation function is measured with direct photon-hadron correlations in p + p and Au + Au collisions at root S-NN = 200 GeV. The P-T of the photon is an excellent approximation to the ini...", "citations": 45, "author_count": 562, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 658, "doi": "10.1103/PhysRevLett.111.032301", "umap_coordinates": { "x": 396.5638122558594, "y": 134.66722106933594, "z": 207.9057159423828 }, "tsne_coordinates": { "x": -34.83438491821289, "y": 2.3702633380889893, "z": -21.190486907958984 }, "pca_coordinates": { "x": 1.4485211372375488, "y": 0.6868407726287842, "z": 2.035299301147461 }, "axis_scores": { "Quantum imaging": 0.6881347298622131, "Quantum Life Science Sensing": 0.7002488374710083, "Quantum sensing Detection": 0.7108886241912842, "Quantum sensing Metrology": 0.6769267320632935, "Quantum sensing navigation": 0.6914275288581848, "Quantum sensing Position": 0.6767200231552124, "Quantum sensing Timing": 0.6679247617721558, "Quantum sensing": 0.7063732147216797, "Quantum control": 0.6748422384262085 } }, { "id": 659, "title": "Entanglement Swapping with Photons Generated on Demand by a Quantum Dot", "abstract": "Photonic entanglement swapping, the procedure of entangling photons without any direct interaction, is a fundamental test of quantum mechanics and an essential resource to the realization of quantum n...", "citations": 110, "author_count": 12, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 659, "doi": "10.1103/PhysRevLett.123.160501", "umap_coordinates": { "x": 395.15643310546875, "y": 135.5053253173828, "z": 207.85089111328125 }, "tsne_coordinates": { "x": -20.092069625854492, "y": -14.261736869812012, "z": -14.447237968444824 }, "pca_coordinates": { "x": 3.445709705352783, "y": -1.0179386138916016, "z": 3.2770683765411377 }, "axis_scores": { "Quantum imaging": 0.7371998429298401, "Quantum Life Science Sensing": 0.7203368544578552, "Quantum sensing Detection": 0.7437582015991211, "Quantum sensing Metrology": 0.7152391076087952, "Quantum sensing navigation": 0.7239711284637451, "Quantum sensing Position": 0.7002809047698975, "Quantum sensing Timing": 0.7248843312263489, "Quantum sensing": 0.747818648815155, "Quantum control": 0.7217441201210022 } }, { "id": 660, "title": "Precision is not limited by the second law of thermodynamics", "abstract": "Physical devices operating out of equilibrium are affected by thermal fluctuations, limiting their operational precision. This issue is particularly pronounced at microscopic and quantum scales, where...", "citations": 3, "author_count": 8, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 660, "doi": "10.1038/s41567-025-02929-2", "umap_coordinates": { "x": 393.73297119140625, "y": 135.7198486328125, "z": 206.4285888671875 }, "tsne_coordinates": { "x": -12.31105899810791, "y": 0.5268831849098206, "z": -0.05058426037430763 }, "pca_coordinates": { "x": -1.2336747646331787, "y": 0.7063968181610107, "z": -0.013083994388580322 }, "axis_scores": { "Quantum imaging": 0.6964598894119263, "Quantum Life Science Sensing": 0.7463443279266357, "Quantum sensing Detection": 0.7333083152770996, "Quantum sensing Metrology": 0.7368020415306091, "Quantum sensing navigation": 0.7348524332046509, "Quantum sensing Position": 0.7340172529220581, "Quantum sensing Timing": 0.7192752957344055, "Quantum sensing": 0.7458112835884094, "Quantum control": 0.709850549697876 } }, { "id": 661, "title": "Motion and gravity effects in the precision of quantum clocks", "abstract": "We show that motion and gravity affect the precision of quantum clocks. We consider a localised quantum field as a fundamental model of a quantum clock moving in spacetime and show that its state is m...", "citations": 10, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 661, "doi": "10.1038/srep10070", "umap_coordinates": { "x": 393.85797119140625, "y": 137.11460876464844, "z": 206.64024353027344 }, "tsne_coordinates": { "x": 15.860830307006836, "y": -12.059793472290039, "z": 31.693248748779297 }, "pca_coordinates": { "x": 1.0481364727020264, "y": 1.8839855194091797, "z": -1.7893683910369873 }, "axis_scores": { "Quantum imaging": 0.7519583702087402, "Quantum Life Science Sensing": 0.7708121538162231, "Quantum sensing Detection": 0.7484341263771057, "Quantum sensing Metrology": 0.7498613595962524, "Quantum sensing navigation": 0.7868282794952393, "Quantum sensing Position": 0.7700439691543579, "Quantum sensing Timing": 0.783191978931427, "Quantum sensing": 0.7661932706832886, "Quantum control": 0.7614631652832031 } }, { "id": 662, "title": "GENERATORS OF QUANTUM DYNAMICAL SEMIGROUPS", "abstract": "", "citations": 6297, "author_count": 2, "categories": [ "Physics" ], "year": 1976, "topic": [ "all" ], "embedding_index": 662, "doi": "10.1007/BF01608499", "umap_coordinates": { "x": 394.5534973144531, "y": 137.24989318847656, "z": 206.41111755371094 }, "tsne_coordinates": { "x": -27.961318969726562, "y": -4.049832820892334, "z": 16.318262100219727 }, "pca_coordinates": { "x": 2.7894721031188965, "y": 1.5026392936706543, "z": -1.5161030292510986 }, "axis_scores": { "Quantum imaging": 0.7331616878509521, "Quantum Life Science Sensing": 0.7248203754425049, "Quantum sensing Detection": 0.7339712381362915, "Quantum sensing Metrology": 0.7243208885192871, "Quantum sensing navigation": 0.7591276168823242, "Quantum sensing Position": 0.7176023125648499, "Quantum sensing Timing": 0.7200151085853577, "Quantum sensing": 0.7438122034072876, "Quantum control": 0.7604740858078003 } }, { "id": 663, "title": "Telecom-wavelength InAs QDs with low fine structure splitting grown by droplet epitaxy on GaAs(111)A vicinal substrates", "abstract": "We present self-assembly of InAs/InAlAs quantum dots by the droplet epitaxy technique on vicinal GaAs(111)A substrates. The small miscut angle, while maintaining the symmetries imposed on the quantum ...", "citations": 18, "author_count": 12, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 663, "doi": "10.1063/5.0045776", "umap_coordinates": { "x": 393.2564392089844, "y": 134.06956481933594, "z": 207.47178649902344 }, "tsne_coordinates": { "x": 40.04444122314453, "y": -16.0319766998291, "z": -1.0700583457946777 }, "pca_coordinates": { "x": 0.5538928508758545, "y": -3.4061121940612793, "z": 1.5624680519104004 }, "axis_scores": { "Quantum imaging": 0.7008679509162903, "Quantum Life Science Sensing": 0.7216165065765381, "Quantum sensing Detection": 0.7063426971435547, "Quantum sensing Metrology": 0.7146444916725159, "Quantum sensing navigation": 0.6855518817901611, "Quantum sensing Position": 0.674040675163269, "Quantum sensing Timing": 0.6636942625045776, "Quantum sensing": 0.7132196426391602, "Quantum control": 0.6765814423561096 } }, { "id": 664, "title": "Quantum wires formed from coupled InAs/GaAs strained quantum dots", "abstract": "The electronic structure of an infinite 1D array of vertically coupled InAs/GaAs strained quantum dots is calculated using an eight-band strain-dependent k . p Hamiltonian. The coupled dots form a uni...", "citations": 92, "author_count": 2, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 664, "doi": "10.1103/PhysRevLett.80.3579", "umap_coordinates": { "x": 393.5666809082031, "y": 134.59104919433594, "z": 208.84674072265625 }, "tsne_coordinates": { "x": 5.959342002868652, "y": -23.784948348999023, "z": -0.08646805584430695 }, "pca_coordinates": { "x": 4.326840400695801, "y": -3.7336840629577637, "z": 1.6459193229675293 }, "axis_scores": { "Quantum imaging": 0.7110943794250488, "Quantum Life Science Sensing": 0.7339206337928772, "Quantum sensing Detection": 0.7294171452522278, "Quantum sensing Metrology": 0.7098578810691833, "Quantum sensing navigation": 0.7217724919319153, "Quantum sensing Position": 0.7096185088157654, "Quantum sensing Timing": 0.7042635679244995, "Quantum sensing": 0.7397288084030151, "Quantum control": 0.699699342250824 } }, { "id": 665, "title": "STUDIES OF GAINAS INP QUANTUM DOTS PROCESSED FROM AEROSOL DEPOSITED PARTICLES", "abstract": "", "citations": 1, "author_count": 10, "categories": [ "Engineering" ], "year": 1994, "topic": [ "all" ], "embedding_index": 665, "doi": null, "umap_coordinates": { "x": 391.8562316894531, "y": 138.81370544433594, "z": 209.54840087890625 }, "tsne_coordinates": { "x": -11.121942520141602, "y": 49.69463348388672, "z": -5.395727634429932 }, "pca_coordinates": { "x": -1.4518380165100098, "y": 0.017290830612182617, "z": -0.9626337885856628 }, "axis_scores": { "Quantum imaging": 0.7096498608589172, "Quantum Life Science Sensing": 0.722949206829071, "Quantum sensing Detection": 0.7035548686981201, "Quantum sensing Metrology": 0.6999624371528625, "Quantum sensing navigation": 0.6918517351150513, "Quantum sensing Position": 0.6871992349624634, "Quantum sensing Timing": 0.6547983288764954, "Quantum sensing": 0.717402458190918, "Quantum control": 0.6926316618919373 } }, { "id": 666, "title": "STUDY OF PRESSURE-INDUCED DENATURATION OF BOVINE SERUM-ALBUMIN BY PHOTON-CORRELATION SPECTROSCOPY", "abstract": "", "citations": 6, "author_count": 3, "categories": [ "Chemistry" ], "year": 1982, "topic": [ "all" ], "embedding_index": 666, "doi": "10.1016/0009-2614(82)83648-8", "umap_coordinates": { "x": 394.2014465332031, "y": 135.2189178466797, "z": 205.13449096679688 }, "tsne_coordinates": { "x": 1.1923648118972778, "y": -1.1957464218139648, "z": 31.392501831054688 }, "pca_coordinates": { "x": -0.7615485787391663, "y": 0.5759080648422241, "z": 1.0488066673278809 }, "axis_scores": { "Quantum imaging": 0.6892179846763611, "Quantum Life Science Sensing": 0.7165391445159912, "Quantum sensing Detection": 0.7015693187713623, "Quantum sensing Metrology": 0.6838188767433167, "Quantum sensing navigation": 0.6795324683189392, "Quantum sensing Position": 0.6914464831352234, "Quantum sensing Timing": 0.6620577573776245, "Quantum sensing": 0.7004486918449402, "Quantum control": 0.6604145169258118 } }, { "id": 667, "title": "Giant-atom effects on population and entanglement dynamics of Rydberg atoms in the optical regime", "abstract": "Giant atoms are attracting interest as an emerging paradigm in the quantum optics of engineered waveguides. At variance with the well-known artificial giant atoms for microwave photonics, here we prop...", "citations": 18, "author_count": 8, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 667, "doi": "10.1103/PhysRevResearch.5.043135", "umap_coordinates": { "x": 394.7268981933594, "y": 135.80520629882812, "z": 208.36961364746094 }, "tsne_coordinates": { "x": -12.078818321228027, "y": -22.258974075317383, "z": -15.21277904510498 }, "pca_coordinates": { "x": 3.632467746734619, "y": -0.14114665985107422, "z": -0.7402045726776123 }, "axis_scores": { "Quantum imaging": 0.7396804690361023, "Quantum Life Science Sensing": 0.7447675466537476, "Quantum sensing Detection": 0.7279486060142517, "Quantum sensing Metrology": 0.6964520812034607, "Quantum sensing navigation": 0.7225895524024963, "Quantum sensing Position": 0.6968385577201843, "Quantum sensing Timing": 0.6906939148902893, "Quantum sensing": 0.7368429899215698, "Quantum control": 0.7182199954986572 } }, { "id": 668, "title": "Classical and quantum dynamics on p-adic trees of ideas", "abstract": "We propose mathematical models of information processes of unconscious and conscious thinking (based on p-adic number representation of mental spaces). Unconscious thinking is described by classical c...", "citations": 37, "author_count": 2, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 668, "doi": "10.1016/S0303-2647(00)00077-0", "umap_coordinates": { "x": 394.5577087402344, "y": 137.70681762695312, "z": 206.33624267578125 }, "tsne_coordinates": { "x": -24.124122619628906, "y": -2.3553223609924316, "z": 19.369487762451172 }, "pca_coordinates": { "x": 1.7325458526611328, "y": 2.24965500831604, "z": -1.067253589630127 }, "axis_scores": { "Quantum imaging": 0.7168223857879639, "Quantum Life Science Sensing": 0.7060065865516663, "Quantum sensing Detection": 0.6860840916633606, "Quantum sensing Metrology": 0.6716278791427612, "Quantum sensing navigation": 0.7092872858047485, "Quantum sensing Position": 0.6915379166603088, "Quantum sensing Timing": 0.685235857963562, "Quantum sensing": 0.701651394367218, "Quantum control": 0.7198122143745422 } }, { "id": 669, "title": "Relaxation of quantum dots in a magnetic field at finite bias -Charge, spin, and heat currents", "abstract": "We perform a detailed study of the effect of finite bias and magnetic field on the tunneling-induced decay of the state of a quantum dot by applying a recently discovered general duality [Phys. Rev. B...", "citations": 12, "author_count": 6, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 669, "doi": "10.1002/pssb.201600614", "umap_coordinates": { "x": 393.0372619628906, "y": 135.5685577392578, "z": 207.83546447753906 }, "tsne_coordinates": { "x": 21.593536376953125, "y": -25.959461212158203, "z": 20.30097007751465 }, "pca_coordinates": { "x": 1.345158576965332, "y": -1.4332351684570312, "z": -2.5780205726623535 }, "axis_scores": { "Quantum imaging": 0.7060860991477966, "Quantum Life Science Sensing": 0.7339290976524353, "Quantum sensing Detection": 0.6941272616386414, "Quantum sensing Metrology": 0.6942715644836426, "Quantum sensing navigation": 0.700238049030304, "Quantum sensing Position": 0.6977876424789429, "Quantum sensing Timing": 0.6886470913887024, "Quantum sensing": 0.7150242924690247, "Quantum control": 0.7033358216285706 } }, { "id": 670, "title": "Spherical quantum dot with added parabolic confinement as a nanoscale tunable radiation detector", "abstract": "We have calculated the optical absorption matrix elements for a spherical silicon quantum dot embedded in silicon dioxide with the addition of a parabolic potential which is used to tune the bound sta...", "citations": 8, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 670, "doi": "10.1016/S1386-9477(01)00493-3", "umap_coordinates": { "x": 393.41259765625, "y": 133.71368408203125, "z": 206.1409454345703 }, "tsne_coordinates": { "x": 41.76083755493164, "y": -2.3992679119110107, "z": -16.589813232421875 }, "pca_coordinates": { "x": -2.9950132369995117, "y": -1.2793147563934326, "z": 2.934243679046631 }, "axis_scores": { "Quantum imaging": 0.6958534121513367, "Quantum Life Science Sensing": 0.7093770503997803, "Quantum sensing Detection": 0.699868381023407, "Quantum sensing Metrology": 0.6923455595970154, "Quantum sensing navigation": 0.6983473896980286, "Quantum sensing Position": 0.7063397169113159, "Quantum sensing Timing": 0.6717625856399536, "Quantum sensing": 0.7036322355270386, "Quantum control": 0.6535107493400574 } }, { "id": 671, "title": "Nanowire-based multiple quantum dot memory", "abstract": "The authors propose and demonstrate an alternative memory concept in which a storage island is connected to a nanowire containing a stack of nine InAs quantum dots, each separated by thin InP tunnel b...", "citations": 49, "author_count": 6, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 671, "doi": "10.1063/1.2362594", "umap_coordinates": { "x": 393.5389404296875, "y": 133.87364196777344, "z": 208.331298828125 }, "tsne_coordinates": { "x": 19.48103904724121, "y": -21.564380645751953, "z": -6.11266565322876 }, "pca_coordinates": { "x": 1.4506616592407227, "y": -3.8451008796691895, "z": 1.9947454929351807 }, "axis_scores": { "Quantum imaging": 0.7363631725311279, "Quantum Life Science Sensing": 0.7331193685531616, "Quantum sensing Detection": 0.7487784624099731, "Quantum sensing Metrology": 0.7450343370437622, "Quantum sensing navigation": 0.7392010688781738, "Quantum sensing Position": 0.7202470898628235, "Quantum sensing Timing": 0.7121963500976562, "Quantum sensing": 0.7626106142997742, "Quantum control": 0.7076992392539978 } }, { "id": 672, "title": "Magnon-magnon entanglement and its quantification via a microwave cavity", "abstract": "Quantum magnonics is an emerging research field, with great potential for applications in magnon based hybrid systems and quantum information processing. Quantum correlation, such as entanglement, is ...", "citations": 41, "author_count": 9, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 672, "doi": "10.1103/PhysRevB.104.224302", "umap_coordinates": { "x": 395.58697509765625, "y": 136.62840270996094, "z": 207.30458068847656 }, "tsne_coordinates": { "x": -23.947553634643555, "y": -12.758100509643555, "z": 8.386780738830566 }, "pca_coordinates": { "x": 4.782449245452881, "y": 2.2241883277893066, "z": 1.8475089073181152 }, "axis_scores": { "Quantum imaging": 0.7599334716796875, "Quantum Life Science Sensing": 0.7354403734207153, "Quantum sensing Detection": 0.7626187801361084, "Quantum sensing Metrology": 0.7543056011199951, "Quantum sensing navigation": 0.750799834728241, "Quantum sensing Position": 0.7174881100654602, "Quantum sensing Timing": 0.6977810859680176, "Quantum sensing": 0.7691212892532349, "Quantum control": 0.7325047254562378 } }, { "id": 673, "title": "Increasing thermoelectric performance using coherent transport", "abstract": "We show that coherent electron transport through zero-dimensional systems can be used to tailor the shape of the system's transmission function. This quantum-engineering approach can be used to enhanc...", "citations": 193, "author_count": 5, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 673, "doi": "10.1103/PhysRevB.84.113415", "umap_coordinates": { "x": 394.3740234375, "y": 135.77267456054688, "z": 207.52708435058594 }, "tsne_coordinates": { "x": -14.245540618896484, "y": -29.230743408203125, "z": -5.451910972595215 }, "pca_coordinates": { "x": 1.4915647506713867, "y": -1.8878350257873535, "z": 2.179205894470215 }, "axis_scores": { "Quantum imaging": 0.697892963886261, "Quantum Life Science Sensing": 0.6763743162155151, "Quantum sensing Detection": 0.6806844472885132, "Quantum sensing Metrology": 0.6708147525787354, "Quantum sensing navigation": 0.679089367389679, "Quantum sensing Position": 0.6597574353218079, "Quantum sensing Timing": 0.6828445792198181, "Quantum sensing": 0.6904940605163574, "Quantum control": 0.663491427898407 } }, { "id": 674, "title": "Unraveling the quantum state mixing of excitonic and vibronic excitations in the dynamics of molecular aggregates", "abstract": "We report on dissipative exciton dynamics calculations performed with the hierarchy equations of motion method for a molecular heterodimer coupled to a multi-mode Brownian oscillator bath. Coherent os...", "citations": 19, "author_count": 4, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 674, "doi": "10.1002/andp.201500148", "umap_coordinates": { "x": 393.220703125, "y": 136.62876892089844, "z": 206.3145294189453 }, "tsne_coordinates": { "x": 11.114718437194824, "y": 0.5875584483146667, "z": 15.692377090454102 }, "pca_coordinates": { "x": 1.0511813163757324, "y": -0.7574090957641602, "z": -1.7654144763946533 }, "axis_scores": { "Quantum imaging": 0.7248655557632446, "Quantum Life Science Sensing": 0.7304424047470093, "Quantum sensing Detection": 0.7098360061645508, "Quantum sensing Metrology": 0.7003501653671265, "Quantum sensing navigation": 0.7123297452926636, "Quantum sensing Position": 0.6774075031280518, "Quantum sensing Timing": 0.6959466338157654, "Quantum sensing": 0.7249473333358765, "Quantum control": 0.7133859395980835 } }, { "id": 675, "title": "Acceptor-induced threshold energy for the optical charging of InAs single quantum dots - art. no. 195332", "abstract": "We study the photoluminescence of single InAs/GaAs self-assembled quantum dots for a range of excitation powers, excitation energies and sample temperatures 4 K<50 K. Our results demonstrate the exist...", "citations": 28, "author_count": 8, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 675, "doi": "10.1103/PhysRevB.66.195332", "umap_coordinates": { "x": 393.80810546875, "y": 134.41883850097656, "z": 209.03121948242188 }, "tsne_coordinates": { "x": 8.802786827087402, "y": -28.268993377685547, "z": -2.6242215633392334 }, "pca_coordinates": { "x": 2.784902572631836, "y": -3.9364466667175293, "z": 1.3593144416809082 }, "axis_scores": { "Quantum imaging": 0.68626469373703, "Quantum Life Science Sensing": 0.7227290272712708, "Quantum sensing Detection": 0.7066188454627991, "Quantum sensing Metrology": 0.6968642473220825, "Quantum sensing navigation": 0.6843469738960266, "Quantum sensing Position": 0.6682654023170471, "Quantum sensing Timing": 0.6741582751274109, "Quantum sensing": 0.709787905216217, "Quantum control": 0.6698750257492065 } }, { "id": 676, "title": "Pump-probe scheme for electron-photon dynamics in hybrid conductor-cavity systems", "abstract": "Recent experiments on nanoscale conductors coupled to microwave cavities showed the prospect of transport investigations of electron-photon interplay in the deep quantum regime. Here we propose a pump...", "citations": 7, "author_count": 4, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 676, "doi": "10.1103/PhysRevB.90.085416", "umap_coordinates": { "x": 394.55389404296875, "y": 136.24905395507812, "z": 208.2737274169922 }, "tsne_coordinates": { "x": -9.39937973022461, "y": -15.178086280822754, "z": 4.7821760177612305 }, "pca_coordinates": { "x": 4.818197727203369, "y": -1.6176071166992188, "z": -0.3863888680934906 }, "axis_scores": { "Quantum imaging": 0.7140315771102905, "Quantum Life Science Sensing": 0.7133500576019287, "Quantum sensing Detection": 0.712125301361084, "Quantum sensing Metrology": 0.6836336851119995, "Quantum sensing navigation": 0.7189131379127502, "Quantum sensing Position": 0.6805025339126587, "Quantum sensing Timing": 0.6739193201065063, "Quantum sensing": 0.7147059440612793, "Quantum control": 0.6962661743164062 } }, { "id": 677, "title": "Deep level transient spectroscopy in quantum dot characterization", "abstract": "Deep level transient spectroscopy (DLTS) for investigating electronic properties of self-assembled InAs/GaAs quantum dots (QDs) is described in an approach, where experimental and theoretical DLTS dat...", "citations": 14, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 677, "doi": "10.1007/s11671-008-9133-5", "umap_coordinates": { "x": 393.0497131347656, "y": 135.15286254882812, "z": 206.7392120361328 }, "tsne_coordinates": { "x": 18.134557723999023, "y": 3.0638668537139893, "z": 13.52558708190918 }, "pca_coordinates": { "x": -0.06876003742218018, "y": -1.5833911895751953, "z": 0.05457574129104614 }, "axis_scores": { "Quantum imaging": 0.7348670363426208, "Quantum Life Science Sensing": 0.7684549689292908, "Quantum sensing Detection": 0.7482038140296936, "Quantum sensing Metrology": 0.7342247366905212, "Quantum sensing navigation": 0.7308052778244019, "Quantum sensing Position": 0.7288886308670044, "Quantum sensing Timing": 0.7339588403701782, "Quantum sensing": 0.7517562508583069, "Quantum control": 0.6988664865493774 } }, { "id": 678, "title": "Symmetry and spin polarization in single and coupled quantum dots - art. no. 165309", "abstract": "We conducted theoretical investigation into the effect of spontaneous electron spin polarization in single and coupled quantum dots formed by lateral confinement of a high-mobility two-dimensional ele...", "citations": 19, "author_count": 4, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 678, "doi": "10.1103/PhysRevB.63.165309", "umap_coordinates": { "x": 394.12725830078125, "y": 134.71697998046875, "z": 209.16424560546875 }, "tsne_coordinates": { "x": 5.668018817901611, "y": -30.292877197265625, "z": -2.0371549129486084 }, "pca_coordinates": { "x": 4.228810787200928, "y": -2.7827954292297363, "z": 0.8128523230552673 }, "axis_scores": { "Quantum imaging": 0.714736819267273, "Quantum Life Science Sensing": 0.725213348865509, "Quantum sensing Detection": 0.7227849960327148, "Quantum sensing Metrology": 0.7280253767967224, "Quantum sensing navigation": 0.7314807176589966, "Quantum sensing Position": 0.6993473172187805, "Quantum sensing Timing": 0.6796355843544006, "Quantum sensing": 0.7308778166770935, "Quantum control": 0.7117183208465576 } }, { "id": 679, "title": "Simulation of photon and charge transport in X-ray imaging semiconductor sensors", "abstract": "A fully stochastic model for the imaging properties of X-ray silicon pixel detectors is presented. Both integrating and photon counting configurations have been considered, as well as scintillator-coa...", "citations": 31, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2002, "topic": [ "all" ], "embedding_index": 679, "doi": "10.1016/S0168-9002(02)00959-2", "umap_coordinates": { "x": 394.8194274902344, "y": 133.2700653076172, "z": 205.61309814453125 }, "tsne_coordinates": { "x": -9.540861129760742, "y": 17.758302688598633, "z": -11.040849685668945 }, "pca_coordinates": { "x": -1.5310041904449463, "y": -0.5539228916168213, "z": 2.3308334350585938 }, "axis_scores": { "Quantum imaging": 0.7461923956871033, "Quantum Life Science Sensing": 0.7443104386329651, "Quantum sensing Detection": 0.7276746034622192, "Quantum sensing Metrology": 0.7188405394554138, "Quantum sensing navigation": 0.7377763390541077, "Quantum sensing Position": 0.7255335450172424, "Quantum sensing Timing": 0.7064722180366516, "Quantum sensing": 0.7316896319389343, "Quantum control": 0.6767706274986267 } }, { "id": 680, "title": "Comparison of approximate quantum simulation methods applied to normal liquid helium at 4 K", "abstract": "The Feynman-Kleinert linearized path integral molecular dynamics (FK-LPI), ring polymer molecular dynamics (RPMD), and centroid molecular dynamics (CMD) methods are applied to the simulation of normal...", "citations": 28, "author_count": 5, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 680, "doi": "10.1021/jp075022n", "umap_coordinates": { "x": 393.6058349609375, "y": 137.65512084960938, "z": 206.72207641601562 }, "tsne_coordinates": { "x": -10.368377685546875, "y": 3.3482205867767334, "z": 29.999364852905273 }, "pca_coordinates": { "x": 2.012904644012451, "y": 1.2647191286087036, "z": -0.8634997010231018 }, "axis_scores": { "Quantum imaging": 0.6826507449150085, "Quantum Life Science Sensing": 0.6737789511680603, "Quantum sensing Detection": 0.6600595116615295, "Quantum sensing Metrology": 0.6527304649353027, "Quantum sensing navigation": 0.6764552593231201, "Quantum sensing Position": 0.6634867787361145, "Quantum sensing Timing": 0.6719391942024231, "Quantum sensing": 0.6718207597732544, "Quantum control": 0.6675722599029541 } }, { "id": 681, "title": "2022 Roadmap on integrated quantum photonics", "abstract": "Integrated photonics will play a key role in quantum systems as they grow from few-qubit prototypes to tens of thousands of qubits. The underlying optical quantum technologies can only be realized thr...", "citations": 353, "author_count": 56, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 681, "doi": "10.1088/2515-7647/ac1ef4", "umap_coordinates": { "x": 394.53277587890625, "y": 134.82589721679688, "z": 205.87454223632812 }, "tsne_coordinates": { "x": -13.521810531616211, "y": 3.3812856674194336, "z": -18.71256446838379 }, "pca_coordinates": { "x": -1.1777652502059937, "y": 0.6737462282180786, "z": 1.4185314178466797 }, "axis_scores": { "Quantum imaging": 0.7478669881820679, "Quantum Life Science Sensing": 0.7402920126914978, "Quantum sensing Detection": 0.7214171886444092, "Quantum sensing Metrology": 0.7369257807731628, "Quantum sensing navigation": 0.7378532290458679, "Quantum sensing Position": 0.7055932283401489, "Quantum sensing Timing": 0.698399543762207, "Quantum sensing": 0.7485916614532471, "Quantum control": 0.7366390228271484 } }, { "id": 682, "title": "Chiral Bell-State Transfer via Dissipative Liouvillian Dynamics", "abstract": "Chiral state transfer along closed loops in the vicinity of an exceptional point is one of the many counterintuitive observations in non-Hermitian physics. The application of this property beyond proo...", "citations": 16, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 682, "doi": "10.1103/PhysRevLett.133.070403", "umap_coordinates": { "x": 395.224365234375, "y": 136.59718322753906, "z": 208.2534942626953 }, "tsne_coordinates": { "x": -23.298198699951172, "y": -21.12073516845703, "z": 4.811281204223633 }, "pca_coordinates": { "x": 5.60107946395874, "y": 0.4849841594696045, "z": 0.33882731199264526 }, "axis_scores": { "Quantum imaging": 0.7353636622428894, "Quantum Life Science Sensing": 0.7140000462532043, "Quantum sensing Detection": 0.7331448793411255, "Quantum sensing Metrology": 0.6912765502929688, "Quantum sensing navigation": 0.7298877835273743, "Quantum sensing Position": 0.7000895142555237, "Quantum sensing Timing": 0.7016822099685669, "Quantum sensing": 0.7332246899604797, "Quantum control": 0.7279751300811768 } }, { "id": 683, "title": "Thermopower signatures and spectroscopy of the canyon of conductance suppression", "abstract": "Interference effects in quantum dots between different transport channels can lead to a strong suppression of conductance, which cuts like a canyon through the common conductance plot [Phys. Rev. Lett...", "citations": 1, "author_count": 5, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 683, "doi": "10.1103/PhysRevB.94.045427", "umap_coordinates": { "x": 394.27593994140625, "y": 135.97586059570312, "z": 208.31402587890625 }, "tsne_coordinates": { "x": -6.575001239776611, "y": -28.928258895874023, "z": -1.047484040260315 }, "pca_coordinates": { "x": 2.6467394828796387, "y": 0.6551206111907959, "z": 0.5039389729499817 }, "axis_scores": { "Quantum imaging": 0.6631981730461121, "Quantum Life Science Sensing": 0.6841560006141663, "Quantum sensing Detection": 0.6779167652130127, "Quantum sensing Metrology": 0.6592930555343628, "Quantum sensing navigation": 0.6622419953346252, "Quantum sensing Position": 0.6368626356124878, "Quantum sensing Timing": 0.6495259404182434, "Quantum sensing": 0.680709719657898, "Quantum control": 0.6713987588882446 } }, { "id": 684, "title": "Proposed experiments of qutrit state-independent contextuality and two-qutrit contextuality-based nonlocality", "abstract": "Recent experiments have demonstrated ququart state-independent quantum contextuality and qutrit state-dependent quantum contextuality. So far, the most basic form of quantum contextuality pointed out ...", "citations": 34, "author_count": 6, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 684, "doi": "10.1103/PhysRevA.85.032108", "umap_coordinates": { "x": 395.991943359375, "y": 136.72434997558594, "z": 206.93994140625 }, "tsne_coordinates": { "x": -18.258441925048828, "y": -0.5776900053024292, "z": 4.147413730621338 }, "pca_coordinates": { "x": 2.3870160579681396, "y": 2.9133646488189697, "z": 0.16637200117111206 }, "axis_scores": { "Quantum imaging": 0.7422278523445129, "Quantum Life Science Sensing": 0.7381108999252319, "Quantum sensing Detection": 0.7338551878929138, "Quantum sensing Metrology": 0.7141786813735962, "Quantum sensing navigation": 0.731817364692688, "Quantum sensing Position": 0.6983004808425903, "Quantum sensing Timing": 0.7285957336425781, "Quantum sensing": 0.7514423727989197, "Quantum control": 0.7337246537208557 } }, { "id": 685, "title": "Individually addressable double quantum dots formed with nanowire polytypes and identified by epitaxial markers", "abstract": "Double quantum dots (DQDs) hold great promise as building blocks for quantum technology as they allow for two electronic states to coherently couple. Defining QDs with materials rather than using elec...", "citations": 27, "author_count": 8, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 685, "doi": "10.1063/1.5089275", "umap_coordinates": { "x": 393.3113098144531, "y": 133.84707641601562, "z": 207.6717529296875 }, "tsne_coordinates": { "x": 22.08664894104004, "y": -21.44163703918457, "z": -6.398972034454346 }, "pca_coordinates": { "x": -0.26484572887420654, "y": -4.528457164764404, "z": 3.348606586456299 }, "axis_scores": { "Quantum imaging": 0.7069849371910095, "Quantum Life Science Sensing": 0.684959888458252, "Quantum sensing Detection": 0.7037665247917175, "Quantum sensing Metrology": 0.7054771780967712, "Quantum sensing navigation": 0.7060270309448242, "Quantum sensing Position": 0.7177159786224365, "Quantum sensing Timing": 0.6915175318717957, "Quantum sensing": 0.7125000357627869, "Quantum control": 0.6615037322044373 } }, { "id": 686, "title": "Optimal pumping of orbital entanglement with single-particle emitters", "abstract": "We propose a method for the optimal time-controlled generation of entangled itinerant particles, using on-demand sources in a conductor in the quantum Hall regime. This entanglement pump is realized b...", "citations": 28, "author_count": 5, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 686, "doi": "10.1103/PhysRevB.85.081108", "umap_coordinates": { "x": 394.90966796875, "y": 134.0049591064453, "z": 208.0634002685547 }, "tsne_coordinates": { "x": 3.347024917602539, "y": -22.058666229248047, "z": -11.847553253173828 }, "pca_coordinates": { "x": 2.969494342803955, "y": -1.7277731895446777, "z": 3.2412476539611816 }, "axis_scores": { "Quantum imaging": 0.7414132356643677, "Quantum Life Science Sensing": 0.7175448536872864, "Quantum sensing Detection": 0.7333287596702576, "Quantum sensing Metrology": 0.7172043323516846, "Quantum sensing navigation": 0.7409168481826782, "Quantum sensing Position": 0.7123293876647949, "Quantum sensing Timing": 0.6944127082824707, "Quantum sensing": 0.7372792959213257, "Quantum control": 0.7184677720069885 } }, { "id": 687, "title": "InP Quantum Dots with a Strain-Engineered Gradient Shell for Enhanced Optical Performance and Stability", "abstract": "InP quantum dots have emerged as a promising ecofriendly alternative to cadmium-based QDs for next-generation display applications. However, red-emitting InP QDs synthesized via aminophosphine precurs...", "citations": 1, "author_count": 9, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 687, "doi": "10.1021/acs.nanolett.5c03042", "umap_coordinates": { "x": 391.9101257324219, "y": 133.9864501953125, "z": 206.83328247070312 }, "tsne_coordinates": { "x": 20.677108764648438, "y": -9.603840827941895, "z": 0.5733583569526672 }, "pca_coordinates": { "x": -2.032508373260498, "y": -4.753222465515137, "z": -0.4100293815135956 }, "axis_scores": { "Quantum imaging": 0.7204346656799316, "Quantum Life Science Sensing": 0.707750678062439, "Quantum sensing Detection": 0.689021646976471, "Quantum sensing Metrology": 0.687598705291748, "Quantum sensing navigation": 0.6972469091415405, "Quantum sensing Position": 0.6938571333885193, "Quantum sensing Timing": 0.6620288491249084, "Quantum sensing": 0.7017946839332581, "Quantum control": 0.683552622795105 } }, { "id": 688, "title": "Visible-light-driven hydrogen evolution using nitrogen-doped carbon quantum dot-implanted polymer dots as metal-free photocatalysts", "abstract": "Given the photocatalytic properties of semiconducting polymers and carbon quantum dots (CQDs), we report a new structure for a metal-free photocatalytic system with a promising efficiency for hydrogen...", "citations": 122, "author_count": 14, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 688, "doi": "10.1016/j.apcatb.2020.119659", "umap_coordinates": { "x": 392.69317626953125, "y": 133.6307830810547, "z": 204.88046264648438 }, "tsne_coordinates": { "x": 19.586668014526367, "y": 10.73361873626709, "z": -7.784717082977295 }, "pca_coordinates": { "x": -3.412259340286255, "y": -2.1759285926818848, "z": 0.2091650366783142 }, "axis_scores": { "Quantum imaging": 0.7021253108978271, "Quantum Life Science Sensing": 0.7282494902610779, "Quantum sensing Detection": 0.709806501865387, "Quantum sensing Metrology": 0.6822993159294128, "Quantum sensing navigation": 0.7072845697402954, "Quantum sensing Position": 0.6818081736564636, "Quantum sensing Timing": 0.6863396167755127, "Quantum sensing": 0.7105225324630737, "Quantum control": 0.7015700936317444 } }, { "id": 689, "title": "X-Ray Photon Correlation Spectroscopy with Coherent Nanobeams: A Numerical Study", "abstract": "X-ray photon correlation spectroscopy accesses a wide variety of dynamic phenomena at the nanoscale by studying the temporal correlations among photons that are scattered by a material in dynamical eq...", "citations": 9, "author_count": 3, "categories": [ "Crystallography" ], "year": 2020, "topic": [ "all" ], "embedding_index": 689, "doi": "10.3390/cryst10090766", "umap_coordinates": { "x": 395.2650146484375, "y": 134.0652618408203, "z": 205.83294677734375 }, "tsne_coordinates": { "x": -26.892120361328125, "y": 8.830901145935059, "z": -25.58034324645996 }, "pca_coordinates": { "x": -0.378978431224823, "y": 1.0863499641418457, "z": 2.9456698894500732 }, "axis_scores": { "Quantum imaging": 0.7508318424224854, "Quantum Life Science Sensing": 0.7345713376998901, "Quantum sensing Detection": 0.7466158866882324, "Quantum sensing Metrology": 0.7361421585083008, "Quantum sensing navigation": 0.7468540668487549, "Quantum sensing Position": 0.7163467407226562, "Quantum sensing Timing": 0.7087906002998352, "Quantum sensing": 0.7512255907058716, "Quantum control": 0.7035860419273376 } }, { "id": 690, "title": "A quantum dot ratchet: Experiment and theory", "abstract": "Particles in a ratchet, that is, a potential without spatial inversion symmetry, can move in one direction even in the absence of macroscopic forces, provided that there is a source of energy. In this...", "citations": 127, "author_count": 7, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 690, "doi": "10.1209/epl/i1998-00562-1", "umap_coordinates": { "x": 394.8043212890625, "y": 135.593994140625, "z": 207.52171325683594 }, "tsne_coordinates": { "x": -29.379169464111328, "y": 11.940385818481445, "z": 6.972959041595459 }, "pca_coordinates": { "x": 1.3547039031982422, "y": 1.0713777542114258, "z": 0.228801429271698 }, "axis_scores": { "Quantum imaging": 0.755795419216156, "Quantum Life Science Sensing": 0.7663305401802063, "Quantum sensing Detection": 0.7658805847167969, "Quantum sensing Metrology": 0.7457550764083862, "Quantum sensing navigation": 0.7533752918243408, "Quantum sensing Position": 0.7521563768386841, "Quantum sensing Timing": 0.7488054633140564, "Quantum sensing": 0.7769165635108948, "Quantum control": 0.7743929624557495 } }, { "id": 691, "title": "LOW-NOISE OPTOELECTRONIC PHOTON NUMBER AMPLIFIER AND QUANTUM-OPTICAL TAP", "abstract": "The properties of a photon number amplifier and quantum-optical tap have been experimentally investigated. The device consists of a high-quantum-efficiency photodetector that drives eight series-coupl...", "citations": 8, "author_count": 5, "categories": [ "Optics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 691, "doi": "10.1364/OL.18.002138", "umap_coordinates": { "x": 394.6798400878906, "y": 134.23487854003906, "z": 206.75001525878906 }, "tsne_coordinates": { "x": -4.2054572105407715, "y": -4.0031232833862305, "z": -28.548479080200195 }, "pca_coordinates": { "x": 0.191145658493042, "y": -0.2944519519805908, "z": 4.018698215484619 }, "axis_scores": { "Quantum imaging": 0.7553417086601257, "Quantum Life Science Sensing": 0.7439665198326111, "Quantum sensing Detection": 0.7598155736923218, "Quantum sensing Metrology": 0.7451329231262207, "Quantum sensing navigation": 0.7527191638946533, "Quantum sensing Position": 0.7359298467636108, "Quantum sensing Timing": 0.7425223588943481, "Quantum sensing": 0.7610946297645569, "Quantum control": 0.7168703675270081 } }, { "id": 692, "title": "Time-resolved terahertz spectroscopy reveals the influence of charged sensitizing quantum dots on the electron dynamics in ZnO", "abstract": "Photoinitiated charge carrier dynamics in ZnO nanoparticles sensitized by CdSe quantum dots is studied using transient absorption spectroscopy and time-resolved terahertz spectroscopy. The evolution o...", "citations": 11, "author_count": 10, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 692, "doi": "10.1039/c6cp07509f", "umap_coordinates": { "x": 391.9602966308594, "y": 135.6807098388672, "z": 206.16807556152344 }, "tsne_coordinates": { "x": 15.157215118408203, "y": 1.6526278257369995, "z": 7.973050594329834 }, "pca_coordinates": { "x": -1.1185873746871948, "y": -2.4548306465148926, "z": -2.581470489501953 }, "axis_scores": { "Quantum imaging": 0.7057958245277405, "Quantum Life Science Sensing": 0.7567545175552368, "Quantum sensing Detection": 0.7070907950401306, "Quantum sensing Metrology": 0.6815797090530396, "Quantum sensing navigation": 0.69488525390625, "Quantum sensing Position": 0.6858699321746826, "Quantum sensing Timing": 0.7011444568634033, "Quantum sensing": 0.7171920537948608, "Quantum control": 0.6947556734085083 } }, { "id": 693, "title": "Three-terminal Ge dot/SiGe quantum-well photodetectors for near-infrared light detection", "abstract": "A three-terminal metal-oxide-semiconductor field-effect transistor type of photodetector has been fabricated with a multiple stack of Ge dot/SiGe quantum-well heterostructures as the active region for...", "citations": 9, "author_count": 5, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 693, "doi": "10.1063/1.2337867", "umap_coordinates": { "x": 393.5627136230469, "y": 133.66717529296875, "z": 207.7693634033203 }, "tsne_coordinates": { "x": 31.94799041748047, "y": -18.084001541137695, "z": -9.478266716003418 }, "pca_coordinates": { "x": 0.4404565095901489, "y": -3.2360072135925293, "z": 3.1484384536743164 }, "axis_scores": { "Quantum imaging": 0.7223342657089233, "Quantum Life Science Sensing": 0.7444708347320557, "Quantum sensing Detection": 0.7469968795776367, "Quantum sensing Metrology": 0.741629421710968, "Quantum sensing navigation": 0.7242426872253418, "Quantum sensing Position": 0.7007447481155396, "Quantum sensing Timing": 0.6759556531906128, "Quantum sensing": 0.7450925707817078, "Quantum control": 0.6698106527328491 } }, { "id": 694, "title": "Carrier dynamics in small InAs/GaAs quantum dots", "abstract": "Photo-excited carrier dynamics in small InAs/GaAs quantum dots was investigated in the temperature range from 80 up to 230 K by time-resolved photoluminescence. Very long lifetimes (up to 10 ns) are o...", "citations": 4, "author_count": 8, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 694, "doi": null, "umap_coordinates": { "x": 391.96478271484375, "y": 139.11109924316406, "z": 209.4003143310547 }, "tsne_coordinates": { "x": -11.625990867614746, "y": 46.88197708129883, "z": -5.735121250152588 }, "pca_coordinates": { "x": 1.2371582984924316, "y": -0.6375069618225098, "z": -2.2393131256103516 }, "axis_scores": { "Quantum imaging": 0.7180410027503967, "Quantum Life Science Sensing": 0.7287607789039612, "Quantum sensing Detection": 0.7244986891746521, "Quantum sensing Metrology": 0.6893951892852783, "Quantum sensing navigation": 0.7294238209724426, "Quantum sensing Position": 0.7103794813156128, "Quantum sensing Timing": 0.7045124173164368, "Quantum sensing": 0.7261927723884583, "Quantum control": 0.72331303358078 } }, { "id": 695, "title": "A miniaturized 4K platform for superconducting infrared photon counting detectors", "abstract": "We report on a miniaturized platform for superconducting infrared photon counting detectors. We have implemented a fibre-coupled superconducting nanowire single photon detector in a Stirling/Joule-Tho...", "citations": 44, "author_count": 13, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 695, "doi": "10.1088/1361-6668/aa8ac7", "umap_coordinates": { "x": 395.3922424316406, "y": 134.79617309570312, "z": 206.32479858398438 }, "tsne_coordinates": { "x": -18.921043395996094, "y": -0.5397289395332336, "z": -28.85530662536621 }, "pca_coordinates": { "x": -0.38062185049057007, "y": 1.250257968902588, "z": 2.7727293968200684 }, "axis_scores": { "Quantum imaging": 0.6800861954689026, "Quantum Life Science Sensing": 0.6741849780082703, "Quantum sensing Detection": 0.6736958622932434, "Quantum sensing Metrology": 0.6489282846450806, "Quantum sensing navigation": 0.6690536737442017, "Quantum sensing Position": 0.6488272547721863, "Quantum sensing Timing": 0.6618404984474182, "Quantum sensing": 0.679925262928009, "Quantum control": 0.6277909874916077 } }, { "id": 696, "title": "Design of semiconductor CdSe core ZnS/CdS multishell quantum dots for multiphoton applications", "abstract": "Optical properties of colloidal II-VI semiconductor CdSe cores with ZnS and CdS multishell quantum dots (QDs) have been studied by experimental characterization and theoretical analysis. Due to the la...", "citations": 17, "author_count": 11, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 696, "doi": "10.1063/1.2731525", "umap_coordinates": { "x": 393.2073059082031, "y": 133.4064483642578, "z": 207.2408447265625 }, "tsne_coordinates": { "x": 24.794918060302734, "y": -0.7209559082984924, "z": -2.279633045196533 }, "pca_coordinates": { "x": -1.6897027492523193, "y": -4.022036075592041, "z": 1.9612112045288086 }, "axis_scores": { "Quantum imaging": 0.7371327877044678, "Quantum Life Science Sensing": 0.7593866586685181, "Quantum sensing Detection": 0.7478312253952026, "Quantum sensing Metrology": 0.7452269792556763, "Quantum sensing navigation": 0.7216702103614807, "Quantum sensing Position": 0.6991651654243469, "Quantum sensing Timing": 0.6955544352531433, "Quantum sensing": 0.7520692348480225, "Quantum control": 0.7263100743293762 } }, { "id": 697, "title": "LIGHT-EMISSION FROM IMPACTS OF ENERGETIC PROTEINS ON SURFACES AND A LIGHT-EMISSION DETECTOR FOR MASS-SPECTROMETRY", "abstract": "Photon emission from impacts of electrosprayed protein ions onto Au, Ta, Si and CsI surfaces was studied. Mass spectra of insulin, lysozyme and apo-myoglobin were acquired by scanning the mass-to-char...", "citations": 9, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1995, "topic": [ "all" ], "embedding_index": 697, "doi": "10.1002/rcm.1290090504", "umap_coordinates": { "x": 393.8959655761719, "y": 135.55148315429688, "z": 205.20782470703125 }, "tsne_coordinates": { "x": 26.957656860351562, "y": 12.219189643859863, "z": 18.95876121520996 }, "pca_coordinates": { "x": -2.5522005558013916, "y": 0.6747691631317139, "z": -0.23898014426231384 }, "axis_scores": { "Quantum imaging": 0.6970033049583435, "Quantum Life Science Sensing": 0.7370447516441345, "Quantum sensing Detection": 0.7003951072692871, "Quantum sensing Metrology": 0.6918702721595764, "Quantum sensing navigation": 0.6635760068893433, "Quantum sensing Position": 0.6604595184326172, "Quantum sensing Timing": 0.6472312211990356, "Quantum sensing": 0.6976134777069092, "Quantum control": 0.6487985253334045 } }, { "id": 698, "title": "A quantum engineer's guide to superconducting qubits", "abstract": "The aim of this review is to provide quantum engineers with an introductory guide to the central concepts and challenges in the rapidly accelerating field of superconducting quantum circuits. Over the...", "citations": 1615, "author_count": 7, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 698, "doi": "10.1063/1.5089550", "umap_coordinates": { "x": 394.3938293457031, "y": 135.0452880859375, "z": 208.08937072753906 }, "tsne_coordinates": { "x": 20.953174591064453, "y": -30.15070343017578, "z": 7.169606685638428 }, "pca_coordinates": { "x": 3.60093355178833, "y": -0.41173529624938965, "z": 0.22058922052383423 }, "axis_scores": { "Quantum imaging": 0.7561798095703125, "Quantum Life Science Sensing": 0.783612847328186, "Quantum sensing Detection": 0.7808958292007446, "Quantum sensing Metrology": 0.774069607257843, "Quantum sensing navigation": 0.7874781489372253, "Quantum sensing Position": 0.7492660880088806, "Quantum sensing Timing": 0.7308658361434937, "Quantum sensing": 0.7997740507125854, "Quantum control": 0.7584495544433594 } }, { "id": 699, "title": "LAGRANGIAN FORMULATION OF CLASSICAL AND QUANTUM DYNAMICS OF SPINNING PARTICLES", "abstract": "", "citations": 454, "author_count": 4, "categories": [ "Physics" ], "year": 1977, "topic": [ "all" ], "embedding_index": 699, "doi": "10.1016/0550-3213(77)90364-9", "umap_coordinates": { "x": 393.98046875, "y": 137.25607299804688, "z": 206.7030792236328 }, "tsne_coordinates": { "x": -21.965675354003906, "y": -0.7574588060379028, "z": 22.032621383666992 }, "pca_coordinates": { "x": 1.3620100021362305, "y": 2.882955312728882, "z": -1.4882144927978516 }, "axis_scores": { "Quantum imaging": 0.7429941296577454, "Quantum Life Science Sensing": 0.7505855560302734, "Quantum sensing Detection": 0.7171337604522705, "Quantum sensing Metrology": 0.7215585708618164, "Quantum sensing navigation": 0.7421309947967529, "Quantum sensing Position": 0.7369977235794067, "Quantum sensing Timing": 0.71034836769104, "Quantum sensing": 0.7347356677055359, "Quantum control": 0.7405604720115662 } }, { "id": 700, "title": "Spectroscopy of the superconducting proximity effect in nanowires using integrated quantum dots", "abstract": "The superconducting proximity effect has recently attracted a renewed interest as the basis of topologically nontrivial states in materials with a large spin-orbit interaction, with protected boundary...", "citations": 37, "author_count": 10, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 700, "doi": "10.1038/s42005-019-0162-4", "umap_coordinates": { "x": 393.439208984375, "y": 134.67596435546875, "z": 207.5283660888672 }, "tsne_coordinates": { "x": 5.59246301651001, "y": -9.730327606201172, "z": 12.995798110961914 }, "pca_coordinates": { "x": 0.10732531547546387, "y": -2.3924684524536133, "z": 2.4969444274902344 }, "axis_scores": { "Quantum imaging": 0.7310750484466553, "Quantum Life Science Sensing": 0.7411003112792969, "Quantum sensing Detection": 0.746310293674469, "Quantum sensing Metrology": 0.7320719957351685, "Quantum sensing navigation": 0.7412734627723694, "Quantum sensing Position": 0.7444360256195068, "Quantum sensing Timing": 0.7267842292785645, "Quantum sensing": 0.7458117008209229, "Quantum control": 0.6927472352981567 } }, { "id": 701, "title": "Focus issue introduction: Nonlinear optics 2013", "abstract": "Nonlinear Optics has continued to develop over the last few years at an extremely fast pace, with significant advances being reported in nonlinear optical metamaterials, optical signal processing, qua...", "citations": 1, "author_count": 4, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 701, "doi": "10.1364/OE.21.031176", "umap_coordinates": { "x": 394.33587646484375, "y": 134.1294403076172, "z": 206.24058532714844 }, "tsne_coordinates": { "x": -0.39137277007102966, "y": -16.6223201751709, "z": -30.940582275390625 }, "pca_coordinates": { "x": -1.0129973888397217, "y": 1.8399145603179932, "z": 0.3105737566947937 }, "axis_scores": { "Quantum imaging": 0.7640390992164612, "Quantum Life Science Sensing": 0.7285626530647278, "Quantum sensing Detection": 0.726882815361023, "Quantum sensing Metrology": 0.714675784111023, "Quantum sensing navigation": 0.7345026731491089, "Quantum sensing Position": 0.7013925313949585, "Quantum sensing Timing": 0.6901472806930542, "Quantum sensing": 0.7388580441474915, "Quantum control": 0.748738706111908 } }, { "id": 702, "title": "Fano-Rashba effect in thermoelectricity of a double quantum dot molecular junction", "abstract": "We examine the relation between the phase-coherent processes and spin-dependent thermoelectric effects in an Aharonov-Bohm (AB) interferometer with a Rashba quantum dot (QD) in each of its arm by usin...", "citations": 27, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 702, "doi": "10.1186/1556-276X-6-618", "umap_coordinates": { "x": 393.29205322265625, "y": 135.24749755859375, "z": 207.56092834472656 }, "tsne_coordinates": { "x": 1.521945595741272, "y": -20.022918701171875, "z": 3.5515294075012207 }, "pca_coordinates": { "x": 0.1255587339401245, "y": -2.504807949066162, "z": -0.6539751291275024 }, "axis_scores": { "Quantum imaging": 0.7073667645454407, "Quantum Life Science Sensing": 0.7286772131919861, "Quantum sensing Detection": 0.6975195407867432, "Quantum sensing Metrology": 0.7046750783920288, "Quantum sensing navigation": 0.706381618976593, "Quantum sensing Position": 0.6836864948272705, "Quantum sensing Timing": 0.6933695077896118, "Quantum sensing": 0.7151899337768555, "Quantum control": 0.6976342797279358 } }, { "id": 703, "title": "Asymmetric nonlinear conductance of quantum dots with broken inversion symmetry", "abstract": "Coherent electron transport in open, asymmetric (triangular) quantum dots is studied experimentally and theoretically in the nonlinear response regime. The nonlinear dot conductance is found to be asy...", "citations": 56, "author_count": 9, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 703, "doi": "10.1103/PhysRevB.61.15914", "umap_coordinates": { "x": 393.5970764160156, "y": 135.2528839111328, "z": 208.7911376953125 }, "tsne_coordinates": { "x": 1.3458455801010132, "y": -27.356657028198242, "z": -0.8047191500663757 }, "pca_coordinates": { "x": 4.350129127502441, "y": -2.5400471687316895, "z": 0.9777089953422546 }, "axis_scores": { "Quantum imaging": 0.7406789064407349, "Quantum Life Science Sensing": 0.7321665287017822, "Quantum sensing Detection": 0.7359907627105713, "Quantum sensing Metrology": 0.7299964427947998, "Quantum sensing navigation": 0.7406665086746216, "Quantum sensing Position": 0.6912999153137207, "Quantum sensing Timing": 0.6712378859519958, "Quantum sensing": 0.7449569702148438, "Quantum control": 0.7087574005126953 } }, { "id": 704, "title": "Quantum formalism as an optimisation procedure of information flows for physical and biological systems", "abstract": "The similarities between biological and physical systems as respectively defined in quantum information biology (QIB) and in a Darwinian approach to quantum mechanics (DAQM) have been analysed. In bot...", "citations": 5, "author_count": 3, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 704, "doi": "10.1016/j.biosystems.2016.08.009", "umap_coordinates": { "x": 394.5236511230469, "y": 137.11874389648438, "z": 205.6203155517578 }, "tsne_coordinates": { "x": -16.58962059020996, "y": 10.87246036529541, "z": 18.5433292388916 }, "pca_coordinates": { "x": 0.14777958393096924, "y": 2.2516987323760986, "z": -1.060779333114624 }, "axis_scores": { "Quantum imaging": 0.7976182103157043, "Quantum Life Science Sensing": 0.7977917194366455, "Quantum sensing Detection": 0.7813602685928345, "Quantum sensing Metrology": 0.7668271064758301, "Quantum sensing navigation": 0.7972137928009033, "Quantum sensing Position": 0.7499911785125732, "Quantum sensing Timing": 0.7381560802459717, "Quantum sensing": 0.7975306510925293, "Quantum control": 0.787090539932251 } }, { "id": 705, "title": "Quantum dynamics of the CH3 fragment:: A curvilinear coordinate system and kinetic energy operators", "abstract": "A curvilinear coordinate system for AB(3) fragments is given. The corresponding exact kinetic energy operator is derived and a series of simpler, progressively more approximate kinetic energy operator...", "citations": 44, "author_count": 4, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 705, "doi": "10.1063/1.2779034", "umap_coordinates": { "x": 393.4895935058594, "y": 137.37730407714844, "z": 206.701171875 }, "tsne_coordinates": { "x": -11.435227394104004, "y": 8.797347068786621, "z": 32.58895492553711 }, "pca_coordinates": { "x": 2.169595956802368, "y": 2.320707321166992, "z": -2.7087044715881348 }, "axis_scores": { "Quantum imaging": 0.7504675388336182, "Quantum Life Science Sensing": 0.7285956740379333, "Quantum sensing Detection": 0.7430515289306641, "Quantum sensing Metrology": 0.7223536968231201, "Quantum sensing navigation": 0.750706136226654, "Quantum sensing Position": 0.7418650984764099, "Quantum sensing Timing": 0.7187365889549255, "Quantum sensing": 0.760239839553833, "Quantum control": 0.7609429359436035 } }, { "id": 706, "title": "Bright single photon sources in lateral silicon carbide light emitting diodes", "abstract": "Single-photon emitting devices have been identified as an important building block for applications in quantum information and quantum communication. They allow us to transduce and collect quantum inf...", "citations": 42, "author_count": 11, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 706, "doi": "10.1063/1.5032291", "umap_coordinates": { "x": 393.92022705078125, "y": 133.3238067626953, "z": 207.7350311279297 }, "tsne_coordinates": { "x": 25.714641571044922, "y": -20.859397888183594, "z": -12.661182403564453 }, "pca_coordinates": { "x": -0.8864445686340332, "y": -4.018574237823486, "z": 3.678724765777588 }, "axis_scores": { "Quantum imaging": 0.7187026143074036, "Quantum Life Science Sensing": 0.7029259204864502, "Quantum sensing Detection": 0.7202997207641602, "Quantum sensing Metrology": 0.698749840259552, "Quantum sensing navigation": 0.6900789737701416, "Quantum sensing Position": 0.6820213794708252, "Quantum sensing Timing": 0.6735163331031799, "Quantum sensing": 0.7223278284072876, "Quantum control": 0.6795838475227356 } }, { "id": 707, "title": "Role of a uniform magnetic field on the energy spectrum of a single donor in a core/shell spherical quantum dot", "abstract": "Using the variational approach within the framework of the effective-mass approximation (EMA), the binding energy of a centred hydrogenic donor impurity in a CdSe/ZnTe core/shell spherical quantum dot...", "citations": 9, "author_count": 6, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 707, "doi": "10.1016/j.cjph.2018.11.016", "umap_coordinates": { "x": 392.968017578125, "y": 134.6277313232422, "z": 206.83132934570312 }, "tsne_coordinates": { "x": 29.317773818969727, "y": 5.542162895202637, "z": 8.870909690856934 }, "pca_coordinates": { "x": -1.2085355520248413, "y": -1.950716495513916, "z": -1.7359085083007812 }, "axis_scores": { "Quantum imaging": 0.727052628993988, "Quantum Life Science Sensing": 0.7352026700973511, "Quantum sensing Detection": 0.7111800909042358, "Quantum sensing Metrology": 0.7042850852012634, "Quantum sensing navigation": 0.7010124921798706, "Quantum sensing Position": 0.7013325691223145, "Quantum sensing Timing": 0.6750702857971191, "Quantum sensing": 0.7264455556869507, "Quantum control": 0.6996627449989319 } }, { "id": 708, "title": "Heat Driven Transport in Serial Double Quantum Dot Devices", "abstract": "Studies of thermally induced transport in nanostructures provide access to an exciting regime where fluctuations are relevant, enabling the investigation of fundamental thermodynamic concepts and the ...", "citations": 30, "author_count": 9, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 708, "doi": "10.1021/acs.nanolett.0c04017", "umap_coordinates": { "x": 392.7447204589844, "y": 134.4052276611328, "z": 207.64817810058594 }, "tsne_coordinates": { "x": 14.455914497375488, "y": -15.751144409179688, "z": -1.8301403522491455 }, "pca_coordinates": { "x": 0.7306922674179077, "y": -3.8531594276428223, "z": 0.5560769438743591 }, "axis_scores": { "Quantum imaging": 0.7164358496665955, "Quantum Life Science Sensing": 0.7267873883247375, "Quantum sensing Detection": 0.7277783155441284, "Quantum sensing Metrology": 0.710310697555542, "Quantum sensing navigation": 0.7261120676994324, "Quantum sensing Position": 0.7220554947853088, "Quantum sensing Timing": 0.7284060716629028, "Quantum sensing": 0.7337885499000549, "Quantum control": 0.7248228192329407 } }, { "id": 709, "title": "Dual-Phase Thermally Activated Delayed Fluorescence Luminogens: A Material for Time-Resolved Imaging Independent of Probe Pretreatment and Probe Concentration", "abstract": "Developing luminescent probes with long lifetime and high emission efficiency is essential for time-resolved imaging. However, the practical applications usually suffer from emission quenching of trad...", "citations": 62, "author_count": 14, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 709, "doi": "10.1002/anie.202000185", "umap_coordinates": { "x": 394.3789978027344, "y": 133.89462280273438, "z": 205.2507781982422 }, "tsne_coordinates": { "x": 7.086794853210449, "y": 9.471111297607422, "z": -21.188602447509766 }, "pca_coordinates": { "x": -3.622627019882202, "y": 0.0853729248046875, "z": 1.1193196773529053 }, "axis_scores": { "Quantum imaging": 0.7340616583824158, "Quantum Life Science Sensing": 0.7213770747184753, "Quantum sensing Detection": 0.713803768157959, "Quantum sensing Metrology": 0.6924178600311279, "Quantum sensing navigation": 0.6923874020576477, "Quantum sensing Position": 0.683499813079834, "Quantum sensing Timing": 0.721948504447937, "Quantum sensing": 0.7205044627189636, "Quantum control": 0.6715183258056641 } }, { "id": 710, "title": "Superadditivity of two quantum information resources", "abstract": "Entanglement is one of the most puzzling features of quantum theory and a principal resource for quantum information processing. It is well known that in classical information theory, the addition of ...", "citations": 9, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 710, "doi": "10.1126/sciadv.1602485", "umap_coordinates": { "x": 395.3359375, "y": 136.2675018310547, "z": 206.47140502929688 }, "tsne_coordinates": { "x": -14.020487785339355, "y": -6.20316743850708, "z": 3.627081871032715 }, "pca_coordinates": { "x": 0.35398614406585693, "y": 1.22772216796875, "z": 2.202838897705078 }, "axis_scores": { "Quantum imaging": 0.7826179265975952, "Quantum Life Science Sensing": 0.7622585296630859, "Quantum sensing Detection": 0.776066243648529, "Quantum sensing Metrology": 0.7610663175582886, "Quantum sensing navigation": 0.7512569427490234, "Quantum sensing Position": 0.7446149587631226, "Quantum sensing Timing": 0.7324373722076416, "Quantum sensing": 0.7809503078460693, "Quantum control": 0.7340928912162781 } }, { "id": 711, "title": "Acoustomicrofluidic Synthesis of Pristine Ultrathin Ti3C2Tz MXene Nanosheets and Quantum Dots", "abstract": "The conversion of layered transition metal carbides and/or nitrides (MXenes) into zero-dimensional structures with thicknesses and lateral dimensions of a few nanometers allows these recently discover...", "citations": 73, "author_count": 11, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 711, "doi": "10.1021/acsnano.1c03428", "umap_coordinates": { "x": 392.50323486328125, "y": 134.41024780273438, "z": 205.83270263671875 }, "tsne_coordinates": { "x": 38.74032211303711, "y": 10.12900447845459, "z": -7.869778156280518 }, "pca_coordinates": { "x": -1.5954082012176514, "y": -2.5751900672912598, "z": 0.2878609895706177 }, "axis_scores": { "Quantum imaging": 0.729300856590271, "Quantum Life Science Sensing": 0.7357061505317688, "Quantum sensing Detection": 0.7174534797668457, "Quantum sensing Metrology": 0.7377123832702637, "Quantum sensing navigation": 0.693699300289154, "Quantum sensing Position": 0.6849074363708496, "Quantum sensing Timing": 0.6974043250083923, "Quantum sensing": 0.7378742098808289, "Quantum control": 0.7018033266067505 } }, { "id": 712, "title": "Energy weighting improves the image quality of spectral mammograms: Implementation on a photon-counting mammography system", "abstract": "In x-ray imaging, contrast information content varies with photon energy. It is therefore possible to improve image quality by weighting photons according to energy. We have implemented and evaluated ...", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 712, "doi": "10.1117/12.2042238", "umap_coordinates": { "x": 395.63885498046875, "y": 132.75083923339844, "z": 205.9395751953125 }, "tsne_coordinates": { "x": -9.351223945617676, "y": 22.660263061523438, "z": -25.30516242980957 }, "pca_coordinates": { "x": -2.250354528427124, "y": 0.22923803329467773, "z": 4.31461763381958 }, "axis_scores": { "Quantum imaging": 0.7031187415122986, "Quantum Life Science Sensing": 0.6672289371490479, "Quantum sensing Detection": 0.6830172538757324, "Quantum sensing Metrology": 0.6687516570091248, "Quantum sensing navigation": 0.6755785942077637, "Quantum sensing Position": 0.6655095815658569, "Quantum sensing Timing": 0.6625489592552185, "Quantum sensing": 0.6864575743675232, "Quantum control": 0.6331976056098938 } }, { "id": 713, "title": "Investigation of electron wave function hybridization in Ga0.25In0.75As/InP arrays", "abstract": "We present a measurement technique for quantifying coupling between semiconductor quantum dots in an array. This technique employs magnetoconductance fluctuations to probe the decrease in the average ...", "citations": 1, "author_count": 7, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 713, "doi": "10.1063/1.3258495", "umap_coordinates": { "x": 392.3834228515625, "y": 134.18017578125, "z": 208.3819122314453 }, "tsne_coordinates": { "x": 26.597686767578125, "y": -18.096805572509766, "z": 5.487145900726318 }, "pca_coordinates": { "x": 1.9592700004577637, "y": -3.772423267364502, "z": 1.0281813144683838 }, "axis_scores": { "Quantum imaging": 0.711037278175354, "Quantum Life Science Sensing": 0.6939219236373901, "Quantum sensing Detection": 0.6970624923706055, "Quantum sensing Metrology": 0.6983602046966553, "Quantum sensing navigation": 0.7079424858093262, "Quantum sensing Position": 0.6928004622459412, "Quantum sensing Timing": 0.6660623550415039, "Quantum sensing": 0.7109161615371704, "Quantum control": 0.6714762449264526 } }, { "id": 714, "title": "Green synthesis of near infrared core/shell quantum dots for photocatalytic hydrogen production", "abstract": "Quantum dots (QDs) are attractive systems for potential applications in future solar energy technologies, due to their optical properties which are tunable as a function of size and composition. In th...", "citations": 28, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 714, "doi": "10.1088/0957-4484/27/49/495405", "umap_coordinates": { "x": 393.5387878417969, "y": 133.59234619140625, "z": 205.61358642578125 }, "tsne_coordinates": { "x": 25.232269287109375, "y": 1.9800561666488647, "z": -7.995031833648682 }, "pca_coordinates": { "x": -1.820995569229126, "y": -0.8135485649108887, "z": 1.3638954162597656 }, "axis_scores": { "Quantum imaging": 0.7303175330162048, "Quantum Life Science Sensing": 0.7519535422325134, "Quantum sensing Detection": 0.724406898021698, "Quantum sensing Metrology": 0.708361804485321, "Quantum sensing navigation": 0.7070049047470093, "Quantum sensing Position": 0.6817720532417297, "Quantum sensing Timing": 0.6948204040527344, "Quantum sensing": 0.7390638589859009, "Quantum control": 0.7030048370361328 } }, { "id": 715, "title": "Parallel computing with graphics processing units for high-speed Monte Carlo simulation of photon migration", "abstract": "General-purpose computing on graphics processing units (GPGPU) is shown to dramatically increase the speed of Monte Carlo simulations of photon migration. In a standard simulation of time-resolved pho...", "citations": 348, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2008, "topic": [ "all" ], "embedding_index": 715, "doi": "10.1117/1.3041496", "umap_coordinates": { "x": 395.7298583984375, "y": 133.37265014648438, "z": 205.96360778808594 }, "tsne_coordinates": { "x": -14.660957336425781, "y": 17.546279907226562, "z": -33.076499938964844 }, "pca_coordinates": { "x": 0.4472951889038086, "y": 1.2854691743850708, "z": 3.957730770111084 }, "axis_scores": { "Quantum imaging": 0.7431119680404663, "Quantum Life Science Sensing": 0.7106103897094727, "Quantum sensing Detection": 0.7239736318588257, "Quantum sensing Metrology": 0.7175730466842651, "Quantum sensing navigation": 0.7305490970611572, "Quantum sensing Position": 0.6902272701263428, "Quantum sensing Timing": 0.7237974405288696, "Quantum sensing": 0.7280491590499878, "Quantum control": 0.6958701014518738 } }, { "id": 716, "title": "Experimental demonstration of efficient and selective population transfer and qubit distillation in a rare-earth-metal-ion-doped crystal - art. no. 062328", "abstract": "In optically controlled quantum computers it may be favorable to address different qubits using light with different frequencies, since the optical diffraction does not then limit the distance between...", "citations": 117, "author_count": 6, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 716, "doi": "10.1103/PhysRevA.71.062328", "umap_coordinates": { "x": 395.2088928222656, "y": 135.892822265625, "z": 207.85475158691406 }, "tsne_coordinates": { "x": -23.1402645111084, "y": -9.936813354492188, "z": -1.648506760597229 }, "pca_coordinates": { "x": 2.8490233421325684, "y": -1.0319390296936035, "z": 1.2081105709075928 }, "axis_scores": { "Quantum imaging": 0.7269612550735474, "Quantum Life Science Sensing": 0.7295578718185425, "Quantum sensing Detection": 0.7250181436538696, "Quantum sensing Metrology": 0.7163066267967224, "Quantum sensing navigation": 0.7186974883079529, "Quantum sensing Position": 0.6868001818656921, "Quantum sensing Timing": 0.6755818128585815, "Quantum sensing": 0.7328864336013794, "Quantum control": 0.6975425481796265 } }, { "id": 717, "title": "Formation of pure two-electron triplet states in weakly coupled quantum dots attached to ferromagnetic leads", "abstract": "Weakly coupled quantum dots in the Pauli spin blockade regime are considered with respect to spin-dependent transport. By attaching one half-metallic and one non-magnetic lead, the Pauli spin blockade...", "citations": 11, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 717, "doi": "10.1088/0957-4484/17/21/010", "umap_coordinates": { "x": 393.53125, "y": 135.59686279296875, "z": 207.5229034423828 }, "tsne_coordinates": { "x": 16.27712059020996, "y": -18.88541603088379, "z": 17.555572509765625 }, "pca_coordinates": { "x": 0.7866888046264648, "y": -2.0502891540527344, "z": 0.1604253649711609 }, "axis_scores": { "Quantum imaging": 0.7050267457962036, "Quantum Life Science Sensing": 0.7218053340911865, "Quantum sensing Detection": 0.7147295475006104, "Quantum sensing Metrology": 0.6933003664016724, "Quantum sensing navigation": 0.6897806525230408, "Quantum sensing Position": 0.6857647895812988, "Quantum sensing Timing": 0.6869195699691772, "Quantum sensing": 0.7169408798217773, "Quantum control": 0.6890934109687805 } }, { "id": 718, "title": "Influence of excitation energy on charged exciton formation in self-assembled InAs single quantum dots - art. no. 085302", "abstract": "We study the low-temperature photoluminescence (PL) from self-assembled InAs quantum dots as a function of a wide range of external parameters such as excitation power and pump-photon energy. By means...", "citations": 40, "author_count": 8, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 718, "doi": "10.1103/PhysRevB.64.085302", "umap_coordinates": { "x": 393.2182922363281, "y": 134.2799835205078, "z": 208.6896209716797 }, "tsne_coordinates": { "x": 9.515276908874512, "y": -28.228700637817383, "z": -2.042785167694092 }, "pca_coordinates": { "x": 2.576692581176758, "y": -4.386460781097412, "z": 0.14964967966079712 }, "axis_scores": { "Quantum imaging": 0.6992613077163696, "Quantum Life Science Sensing": 0.7295149564743042, "Quantum sensing Detection": 0.7101431488990784, "Quantum sensing Metrology": 0.684918224811554, "Quantum sensing navigation": 0.6950417160987854, "Quantum sensing Position": 0.6939132213592529, "Quantum sensing Timing": 0.6723718047142029, "Quantum sensing": 0.7091700434684753, "Quantum control": 0.6933159232139587 } }, { "id": 719, "title": "Analysis of the role of von Neumann's projection postulate in the canonical scheme of quantum teleportation", "abstract": "Modern development of quantum technologies based on quantum information theory (in particular, laser-based quantum-information technologies) stimulated the analysis of proposed computational, cryptogr...", "citations": 9, "author_count": 2, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 719, "doi": "10.1007/s10946-008-9019-0", "umap_coordinates": { "x": 395.06756591796875, "y": 137.78765869140625, "z": 206.30003356933594 }, "tsne_coordinates": { "x": -25.04697608947754, "y": 1.096311092376709, "z": 17.163204193115234 }, "pca_coordinates": { "x": 0.941511869430542, "y": 4.608351707458496, "z": 0.6043097376823425 }, "axis_scores": { "Quantum imaging": 0.7150052189826965, "Quantum Life Science Sensing": 0.7131089568138123, "Quantum sensing Detection": 0.7170940637588501, "Quantum sensing Metrology": 0.7123603820800781, "Quantum sensing navigation": 0.7359851598739624, "Quantum sensing Position": 0.7312860488891602, "Quantum sensing Timing": 0.7007024884223938, "Quantum sensing": 0.7264338731765747, "Quantum control": 0.7242817282676697 } }, { "id": 720, "title": "Polymer concentration dependence of the dynamics in gel electrolytes", "abstract": "A polymer gel electrolyte sample with a gradually varying concentration of polymer have been examined by Raman and photon correlation spectroscopy. The gel consisted of poly(methyl methacrylate) compl...", "citations": 27, "author_count": 7, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 720, "doi": "10.1016/S0167-2738(00)00610-X", "umap_coordinates": { "x": 393.33563232421875, "y": 136.01560974121094, "z": 205.94996643066406 }, "tsne_coordinates": { "x": 16.74854850769043, "y": 13.4108247756958, "z": 19.009553909301758 }, "pca_coordinates": { "x": -0.8531172275543213, "y": 0.8396005630493164, "z": -3.0607247352600098 }, "axis_scores": { "Quantum imaging": 0.6681160926818848, "Quantum Life Science Sensing": 0.697043776512146, "Quantum sensing Detection": 0.6472036838531494, "Quantum sensing Metrology": 0.6297295689582825, "Quantum sensing navigation": 0.6686147451400757, "Quantum sensing Position": 0.6661361455917358, "Quantum sensing Timing": 0.6403329372406006, "Quantum sensing": 0.6554071307182312, "Quantum control": 0.6511684656143188 } }, { "id": 721, "title": "Room-temperature electron spin polarization exceeding 90% in an opto-spintronic semiconductor nanostructure via remote spin filtering", "abstract": "An exclusive advantage of semiconductor spintronics is its potential for opto-spintronics, which will allow integration of spin-based information processing/storage with photon-based information trans...", "citations": 54, "author_count": 14, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 721, "doi": "10.1038/s41566-021-00786-y", "umap_coordinates": { "x": 392.89910888671875, "y": 134.75762939453125, "z": 206.15692138671875 }, "tsne_coordinates": { "x": 9.883139610290527, "y": -10.681902885437012, "z": 3.53480863571167 }, "pca_coordinates": { "x": -1.5860011577606201, "y": -2.639347553253174, "z": 1.4810032844543457 }, "axis_scores": { "Quantum imaging": 0.6897335648536682, "Quantum Life Science Sensing": 0.7063925862312317, "Quantum sensing Detection": 0.6853470206260681, "Quantum sensing Metrology": 0.6832583546638489, "Quantum sensing navigation": 0.6944224238395691, "Quantum sensing Position": 0.6735798120498657, "Quantum sensing Timing": 0.6504555344581604, "Quantum sensing": 0.7039465308189392, "Quantum control": 0.6466822624206543 } }, { "id": 722, "title": "Magnetic field effects on optical and transport properties in InAs/GaAs quantum dots", "abstract": "A photoluminescence study of self-assembled InAs/GaAs quantum dots under the influence of magnetic fields perpendicular and parallel to the dot layer is presented. At low temperatures, the magnetic fi...", "citations": 11, "author_count": 9, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 722, "doi": "10.1103/PhysRevB.74.245312", "umap_coordinates": { "x": 393.3873291015625, "y": 135.27357482910156, "z": 209.05380249023438 }, "tsne_coordinates": { "x": 9.122881889343262, "y": -29.65403938293457, "z": 7.602663516998291 }, "pca_coordinates": { "x": 3.918246269226074, "y": -2.0831780433654785, "z": -1.1147441864013672 }, "axis_scores": { "Quantum imaging": 0.7253059148788452, "Quantum Life Science Sensing": 0.713135838508606, "Quantum sensing Detection": 0.7079545259475708, "Quantum sensing Metrology": 0.708377480506897, "Quantum sensing navigation": 0.7125905752182007, "Quantum sensing Position": 0.6889218688011169, "Quantum sensing Timing": 0.6759821176528931, "Quantum sensing": 0.727385401725769, "Quantum control": 0.7252882719039917 } }, { "id": 723, "title": "Breakdown of the Cross-Kerr Scheme for Photon Counting", "abstract": "We show, in the context of single-photon detection, that an atomic three-level model for a transmon in a transmission line does not support the predictions of the nonlinear polarizability model known ...", "citations": 48, "author_count": 10, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 723, "doi": "10.1103/PhysRevLett.110.053601", "umap_coordinates": { "x": 395.1979064941406, "y": 136.30458068847656, "z": 208.0168914794922 }, "tsne_coordinates": { "x": -13.253511428833008, "y": -17.674217224121094, "z": -7.5260844230651855 }, "pca_coordinates": { "x": 3.5117135047912598, "y": 0.7957906723022461, "z": 0.8000152707099915 }, "axis_scores": { "Quantum imaging": 0.6837705969810486, "Quantum Life Science Sensing": 0.7213415503501892, "Quantum sensing Detection": 0.7110303044319153, "Quantum sensing Metrology": 0.6949211359024048, "Quantum sensing navigation": 0.6836023330688477, "Quantum sensing Position": 0.6632716059684753, "Quantum sensing Timing": 0.6763138175010681, "Quantum sensing": 0.7016786336898804, "Quantum control": 0.6668444871902466 } }, { "id": 724, "title": "Stability of nuclei in peripheral collisions in the JAERI quantum molecular dynamics model", "abstract": "The JAERI quantum molecular dynamics (JQMD) model has been successfully used for a long time now to describe many different aspects of nuclear reactions in a unified way. In some cases, however, the J...", "citations": 27, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 724, "doi": "10.1103/PhysRevC.79.014614", "umap_coordinates": { "x": 393.9817199707031, "y": 137.13851928710938, "z": 207.1717529296875 }, "tsne_coordinates": { "x": -12.561253547668457, "y": -2.0243332386016846, "z": 22.73470115661621 }, "pca_coordinates": { "x": 3.483977794647217, "y": 1.7404614686965942, "z": -1.790198564529419 }, "axis_scores": { "Quantum imaging": 0.7032595872879028, "Quantum Life Science Sensing": 0.7079803347587585, "Quantum sensing Detection": 0.7064259648323059, "Quantum sensing Metrology": 0.6737130284309387, "Quantum sensing navigation": 0.7090482711791992, "Quantum sensing Position": 0.693038821220398, "Quantum sensing Timing": 0.6925808191299438, "Quantum sensing": 0.7024457454681396, "Quantum control": 0.7123085260391235 } }, { "id": 725, "title": "Carrier emission from the electronic states of self-assembled indium arsenide quantum dots", "abstract": "We have used the new technique of high resolution (Laplace) transient spectroscopy to examine the electronic states of ensembles of self-assembled quantum dots of InAs in a GaAs matrix. These have bee...", "citations": 11, "author_count": 8, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 725, "doi": "10.1016/j.msec.2005.09.100", "umap_coordinates": { "x": 392.802978515625, "y": 133.89173889160156, "z": 207.65628051757812 }, "tsne_coordinates": { "x": 37.99818420410156, "y": -8.408431053161621, "z": 7.659408092498779 }, "pca_coordinates": { "x": -0.5163151025772095, "y": -3.18548583984375, "z": 0.7500912547111511 }, "axis_scores": { "Quantum imaging": 0.7452566027641296, "Quantum Life Science Sensing": 0.7380234003067017, "Quantum sensing Detection": 0.7361128926277161, "Quantum sensing Metrology": 0.7194872498512268, "Quantum sensing navigation": 0.7191469073295593, "Quantum sensing Position": 0.7083173990249634, "Quantum sensing Timing": 0.7003622055053711, "Quantum sensing": 0.7411104440689087, "Quantum control": 0.7084748148918152 } }, { "id": 726, "title": "Light-Emission Performance of Silicon Nanocrystals Deduced from Single Quantum Dot Spectroscopy", "abstract": "Spectra of individual silicon nanocrystals within porous Si grains are studied by the wide-field imaging microspectroscopy and their ON-OFF, blinking is detected by the confocal single-photon-counting...", "citations": 60, "author_count": 11, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 726, "doi": "10.1002/adfm.200800397", "umap_coordinates": { "x": 393.849609375, "y": 133.2627716064453, "z": 207.65054321289062 }, "tsne_coordinates": { "x": 36.10898208618164, "y": 1.9575676918029785, "z": -3.8571743965148926 }, "pca_coordinates": { "x": -2.32487154006958, "y": -3.8096847534179688, "z": 2.7114715576171875 }, "axis_scores": { "Quantum imaging": 0.7307455539703369, "Quantum Life Science Sensing": 0.7521684169769287, "Quantum sensing Detection": 0.7380383014678955, "Quantum sensing Metrology": 0.7446050047874451, "Quantum sensing navigation": 0.7038810849189758, "Quantum sensing Position": 0.6918742656707764, "Quantum sensing Timing": 0.658397912979126, "Quantum sensing": 0.743959367275238, "Quantum control": 0.6887818574905396 } }, { "id": 727, "title": "Certifying an Irreducible 1024-Dimensional Photonic State Using Refined Dimension Witnesses", "abstract": "We report on a new class of dimension witnesses, based on quantum random access codes, which are a function of the recorded statistics and that have different bounds for all possible decompositions of...", "citations": 36, "author_count": 11, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 727, "doi": "10.1103/PhysRevLett.120.230503", "umap_coordinates": { "x": 395.75726318359375, "y": 136.5858917236328, "z": 207.42149353027344 }, "tsne_coordinates": { "x": -33.4797248840332, "y": -15.493380546569824, "z": -4.6277947425842285 }, "pca_coordinates": { "x": 3.6403231620788574, "y": 1.5847480297088623, "z": 1.975327491760254 }, "axis_scores": { "Quantum imaging": 0.7032660245895386, "Quantum Life Science Sensing": 0.6915872693061829, "Quantum sensing Detection": 0.6911057829856873, "Quantum sensing Metrology": 0.6800750494003296, "Quantum sensing navigation": 0.7009598016738892, "Quantum sensing Position": 0.6798126697540283, "Quantum sensing Timing": 0.6805484890937805, "Quantum sensing": 0.7111502885818481, "Quantum control": 0.6653039455413818 } }, { "id": 728, "title": "Shell structure of a circular quantum dot in weak magnetic fields", "abstract": "The conductance of a circular quantum dot in a two-dimensional electron gas of a GaAlAs/GaAs heterostructure has been measured. Conductance oscillations as functions both of the magnetic field B and o...", "citations": 40, "author_count": 5, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 728, "doi": "10.1007/s002570050223", "umap_coordinates": { "x": 392.78125, "y": 135.5768585205078, "z": 207.61070251464844 }, "tsne_coordinates": { "x": 13.205729484558105, "y": -14.375018119812012, "z": 23.1510009765625 }, "pca_coordinates": { "x": -0.3601243495941162, "y": -0.8683614730834961, "z": -2.4585015773773193 }, "axis_scores": { "Quantum imaging": 0.7271891832351685, "Quantum Life Science Sensing": 0.7441715598106384, "Quantum sensing Detection": 0.7132719159126282, "Quantum sensing Metrology": 0.7012014985084534, "Quantum sensing navigation": 0.7189545035362244, "Quantum sensing Position": 0.7004057765007019, "Quantum sensing Timing": 0.6542496681213379, "Quantum sensing": 0.7201055288314819, "Quantum control": 0.7097017765045166 } }, { "id": 729, "title": "Large-Area Transparent Quantum Dot Glass for Building-Integrated Photovoltaics", "abstract": "A concept of transparent quantum dot glass (TQDG) is proposed for a combination of a quantum dot (QD)-based glass luminescent solar concentrator (LSC) and its edge-attached solar cells, as a type of t...", "citations": 40, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 729, "doi": "10.1021/acsphotonics.2c00633", "umap_coordinates": { "x": 392.2779846191406, "y": 133.80224609375, "z": 205.76858520507812 }, "tsne_coordinates": { "x": 21.918611526489258, "y": -8.533576011657715, "z": -21.124216079711914 }, "pca_coordinates": { "x": -3.133976459503174, "y": -4.255503177642822, "z": 1.5336449146270752 }, "axis_scores": { "Quantum imaging": 0.730832040309906, "Quantum Life Science Sensing": 0.751458466053009, "Quantum sensing Detection": 0.7345510721206665, "Quantum sensing Metrology": 0.7328444123268127, "Quantum sensing navigation": 0.6992649435997009, "Quantum sensing Position": 0.6836941242218018, "Quantum sensing Timing": 0.690041720867157, "Quantum sensing": 0.74747234582901, "Quantum control": 0.696940541267395 } }, { "id": 730, "title": "Atoms and wires:: Toward atom chips", "abstract": "Atoms can be trapped and guided using nanofabricated wires on surfaces, achieving the scales required by quantum information proposals. These atom chips form the basis for robust and widespread applic...", "citations": 5, "author_count": 16, "categories": [ "Engineering" ], "year": 2000, "topic": [ "all" ], "embedding_index": 730, "doi": "10.1109/3.892555", "umap_coordinates": { "x": 394.7706604003906, "y": 135.6161651611328, "z": 206.74288940429688 }, "tsne_coordinates": { "x": 8.436015129089355, "y": -21.86396026611328, "z": -33.79124450683594 }, "pca_coordinates": { "x": 1.8898003101348877, "y": -0.11637616157531738, "z": 0.3777065873146057 }, "axis_scores": { "Quantum imaging": 0.7426461577415466, "Quantum Life Science Sensing": 0.737179160118103, "Quantum sensing Detection": 0.7560089230537415, "Quantum sensing Metrology": 0.735960841178894, "Quantum sensing navigation": 0.7655303478240967, "Quantum sensing Position": 0.7264368534088135, "Quantum sensing Timing": 0.7162811160087585, "Quantum sensing": 0.7674165964126587, "Quantum control": 0.7359268069267273 } }, { "id": 731, "title": "Electron-hole bilayer quantum dots: phase diagram and exciton localization", "abstract": "We studied a vertical 'quantum dot molecule', where one of the dots is occupied by electrons and the other by holes. We find that different phases occur in the ground state, depending on the carrier d...", "citations": 8, "author_count": 5, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 731, "doi": "10.1016/j.ssc.2004.02.003", "umap_coordinates": { "x": 392.92559814453125, "y": 134.6761474609375, "z": 206.2938995361328 }, "tsne_coordinates": { "x": 24.514663696289062, "y": 0.0530318021774292, "z": 13.685064315795898 }, "pca_coordinates": { "x": -1.0315287113189697, "y": -2.4137167930603027, "z": -1.7600970268249512 }, "axis_scores": { "Quantum imaging": 0.7497590780258179, "Quantum Life Science Sensing": 0.7508730292320251, "Quantum sensing Detection": 0.73728346824646, "Quantum sensing Metrology": 0.7219306826591492, "Quantum sensing navigation": 0.739371120929718, "Quantum sensing Position": 0.7339608669281006, "Quantum sensing Timing": 0.7021240592002869, "Quantum sensing": 0.7457947134971619, "Quantum control": 0.7179539799690247 } }, { "id": 732, "title": "Electron energy-dependent product state distributions in the dissociative recombination of O2+ - art. no. 234311", "abstract": "We present product state distributions and quantum yields from the dissociative recombination reaction of O-2(+) in its electronic and vibrational ground states as a function of electron collision ene...", "citations": 25, "author_count": 7, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 732, "doi": "10.1063/1.1937388", "umap_coordinates": { "x": 393.9410400390625, "y": 135.51734924316406, "z": 207.22157287597656 }, "tsne_coordinates": { "x": -4.391693592071533, "y": -4.413224220275879, "z": 1.623058795928955 }, "pca_coordinates": { "x": 0.6437966823577881, "y": -0.722855806350708, "z": -1.650935173034668 }, "axis_scores": { "Quantum imaging": 0.7018479704856873, "Quantum Life Science Sensing": 0.7138240337371826, "Quantum sensing Detection": 0.7035244703292847, "Quantum sensing Metrology": 0.6745390295982361, "Quantum sensing navigation": 0.6760672926902771, "Quantum sensing Position": 0.66448974609375, "Quantum sensing Timing": 0.6432937979698181, "Quantum sensing": 0.70632004737854, "Quantum control": 0.6750355362892151 } }, { "id": 733, "title": "Preface to Special Issue: Quantum Information Revolution: Impact to Foundations", "abstract": "", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 733, "doi": "10.1007/s10701-020-00401-0", "umap_coordinates": { "x": 394.8824462890625, "y": 136.4939422607422, "z": 205.9047088623047 }, "tsne_coordinates": { "x": -29.205387115478516, "y": 4.355534076690674, "z": 10.888158798217773 }, "pca_coordinates": { "x": 0.20431578159332275, "y": 1.5938513278961182, "z": -0.3235415816307068 }, "axis_scores": { "Quantum imaging": 0.7398672103881836, "Quantum Life Science Sensing": 0.7748376131057739, "Quantum sensing Detection": 0.73599773645401, "Quantum sensing Metrology": 0.7314525246620178, "Quantum sensing navigation": 0.7351989150047302, "Quantum sensing Position": 0.7325451374053955, "Quantum sensing Timing": 0.704410970211029, "Quantum sensing": 0.7506434917449951, "Quantum control": 0.7264519333839417 } }, { "id": 734, "title": "QUANTUM YIELD AND ENERGY-DEPENDENCE FOR PHOTO-OXIDATION OF CHLOROPHYLLIDE IN GREENING WHEAT", "abstract": "Dark grown leaves of wheat were irradiated with red light of different intensities, at a temperature close to 0.degree. C. The rate of photoreduction of the protochlorophyllide 650-form into chlorophy...", "citations": 6, "author_count": 2, "categories": [ "Plant Sciences" ], "year": 1981, "topic": [ "all" ], "embedding_index": 734, "doi": "10.1111/j.1399-3054.1981.tb04121.x", "umap_coordinates": { "x": 394.5770568847656, "y": 136.05564880371094, "z": 203.60617065429688 }, "tsne_coordinates": { "x": 8.66228199005127, "y": 33.19484329223633, "z": 16.214553833007812 }, "pca_coordinates": { "x": -1.2942570447921753, "y": 0.08885574340820312, "z": -0.09890687465667725 }, "axis_scores": { "Quantum imaging": 0.6927359104156494, "Quantum Life Science Sensing": 0.7242127060890198, "Quantum sensing Detection": 0.6970230937004089, "Quantum sensing Metrology": 0.6913730502128601, "Quantum sensing navigation": 0.6549479961395264, "Quantum sensing Position": 0.6535611748695374, "Quantum sensing Timing": 0.699047863483429, "Quantum sensing": 0.7004086375236511, "Quantum control": 0.6763371229171753 } }, { "id": 735, "title": "Symmetry of magnetoconductance fluctuations of quantum dots in the nonlinear response regime", "abstract": "We investigate the symmetry of magnetoconductance fluctuations of phase-coherent, two-terminal quantum dots in the nonlinear regime of transport. Specifically, we consider open, ballistic quantum dots...", "citations": 9, "author_count": 10, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 735, "doi": "10.1103/PhysRevB.73.235321", "umap_coordinates": { "x": 393.8714904785156, "y": 135.86309814453125, "z": 209.13905334472656 }, "tsne_coordinates": { "x": -3.177245855331421, "y": -36.07594299316406, "z": 6.675042629241943 }, "pca_coordinates": { "x": 4.590970516204834, "y": -1.2965197563171387, "z": -1.3581812381744385 }, "axis_scores": { "Quantum imaging": 0.7224134802818298, "Quantum Life Science Sensing": 0.745644748210907, "Quantum sensing Detection": 0.7379366159439087, "Quantum sensing Metrology": 0.7453337907791138, "Quantum sensing navigation": 0.741069495677948, "Quantum sensing Position": 0.6967651844024658, "Quantum sensing Timing": 0.678174614906311, "Quantum sensing": 0.742581844329834, "Quantum control": 0.726057231426239 } }, { "id": 736, "title": "Giant vortices in rotating electron droplets", "abstract": "We predict the formation of giant vortices in quasi-two-dimensional quantum dots at high magnetic fields, i.e., in rapidly rotating electron droplets. Our numerical results for quantum dots confined b...", "citations": 7, "author_count": 7, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 736, "doi": "10.1103/PhysRevB.73.235324", "umap_coordinates": { "x": 394.5372314453125, "y": 136.26678466796875, "z": 209.3292236328125 }, "tsne_coordinates": { "x": -10.933833122253418, "y": -19.59929847717285, "z": 24.0394287109375 }, "pca_coordinates": { "x": 5.150104522705078, "y": -0.7308449745178223, "z": -2.446099042892456 }, "axis_scores": { "Quantum imaging": 0.6596964597702026, "Quantum Life Science Sensing": 0.6881026029586792, "Quantum sensing Detection": 0.6777851581573486, "Quantum sensing Metrology": 0.6580393314361572, "Quantum sensing navigation": 0.676519513130188, "Quantum sensing Position": 0.6566861867904663, "Quantum sensing Timing": 0.6462311744689941, "Quantum sensing": 0.6759721636772156, "Quantum control": 0.6775522828102112 } }, { "id": 737, "title": "Quantum-dot-induced ordering in GaxIn1-xP/InP islands - art. no. 235308", "abstract": "Thin layers of GaxIn1-xP grown on top of self-assembled InP quantum dots has been studied using transmission electron microscopy (TEM), scanning tunneling microscopy (STM), and low-temperature scannin...", "citations": 8, "author_count": 6, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 737, "doi": "10.1103/PhysRevB.66.235308", "umap_coordinates": { "x": 393.0992126464844, "y": 134.70811462402344, "z": 209.0410614013672 }, "tsne_coordinates": { "x": 8.86789608001709, "y": -32.77702713012695, "z": -2.675520896911621 }, "pca_coordinates": { "x": 4.425022602081299, "y": -2.2237610816955566, "z": 0.009533703327178955 }, "axis_scores": { "Quantum imaging": 0.6908348798751831, "Quantum Life Science Sensing": 0.673936128616333, "Quantum sensing Detection": 0.6864845752716064, "Quantum sensing Metrology": 0.6773979663848877, "Quantum sensing navigation": 0.6970126032829285, "Quantum sensing Position": 0.6765725016593933, "Quantum sensing Timing": 0.6571207046508789, "Quantum sensing": 0.6884093880653381, "Quantum control": 0.6666945815086365 } }, { "id": 738, "title": "Transient dynamics of linear quantum amplifiers", "abstract": "The transient dynamics of a quantum linear amplifier during the transition from damping to amplification regime is studied. The master equation for the quantized mode of the field is solved, and the s...", "citations": 3, "author_count": 5, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 738, "doi": "10.1140/epjd/e2005-00275-5", "umap_coordinates": { "x": 393.6244201660156, "y": 135.99913024902344, "z": 206.8297119140625 }, "tsne_coordinates": { "x": -7.725679874420166, "y": -9.504227638244629, "z": 8.87004566192627 }, "pca_coordinates": { "x": 2.5212292671203613, "y": 0.5577781200408936, "z": -0.9367830753326416 }, "axis_scores": { "Quantum imaging": 0.7496899366378784, "Quantum Life Science Sensing": 0.7457132339477539, "Quantum sensing Detection": 0.738225519657135, "Quantum sensing Metrology": 0.7127492427825928, "Quantum sensing navigation": 0.7219452261924744, "Quantum sensing Position": 0.7202245593070984, "Quantum sensing Timing": 0.7171313762664795, "Quantum sensing": 0.7409196496009827, "Quantum control": 0.7356005907058716 } }, { "id": 739, "title": "Hybrid Microwave-Cavity Heat Engine", "abstract": "We propose and analyze the use of hybrid microwave cavities as quantum heat engines. A possible realization consists of two macroscopically separated quantum-dot conductors coupled capacitively to the...", "citations": 120, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 739, "doi": "10.1103/PhysRevLett.112.076803", "umap_coordinates": { "x": 395.2762145996094, "y": 135.5244140625, "z": 208.06353759765625 }, "tsne_coordinates": { "x": -14.4573974609375, "y": -20.02439308166504, "z": -1.0467510223388672 }, "pca_coordinates": { "x": 3.924825668334961, "y": -0.1960887908935547, "z": 0.40695518255233765 }, "axis_scores": { "Quantum imaging": 0.701194167137146, "Quantum Life Science Sensing": 0.7090568542480469, "Quantum sensing Detection": 0.7047383785247803, "Quantum sensing Metrology": 0.694232702255249, "Quantum sensing navigation": 0.7089966535568237, "Quantum sensing Position": 0.6663767099380493, "Quantum sensing Timing": 0.6802722811698914, "Quantum sensing": 0.713931679725647, "Quantum control": 0.6986784934997559 } }, { "id": 740, "title": "Controlling cold atoms using nanofabricated surfaces: Atom chips", "abstract": "Atoms can be trapped and guided using nanofabricated wires on surfaces, achieving the scales required by quantum information proposals. These atom chips form the basis for robust and widespread applic...", "citations": 375, "author_count": 7, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 740, "doi": "10.1103/PhysRevLett.84.4749", "umap_coordinates": { "x": 394.7196960449219, "y": 135.2180633544922, "z": 207.2683868408203 }, "tsne_coordinates": { "x": 7.312826156616211, "y": -22.581966400146484, "z": -33.853546142578125 }, "pca_coordinates": { "x": 1.9935994148254395, "y": -0.46570920944213867, "z": 0.33818405866622925 }, "axis_scores": { "Quantum imaging": 0.7283938527107239, "Quantum Life Science Sensing": 0.739738941192627, "Quantum sensing Detection": 0.7247295379638672, "Quantum sensing Metrology": 0.7142159938812256, "Quantum sensing navigation": 0.7272796630859375, "Quantum sensing Position": 0.6935429573059082, "Quantum sensing Timing": 0.6875240206718445, "Quantum sensing": 0.7419694066047668, "Quantum control": 0.7532290816307068 } }, { "id": 741, "title": "Isomeric electronic states in concentric quantum rings", "abstract": "We show that polarized few-electron concentric double quantum rings display localized states that are the quantum analog of classical equilibrium ones. These states have very similar energies but fair...", "citations": 9, "author_count": 5, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 741, "doi": "10.1103/PhysRevB.79.245317", "umap_coordinates": { "x": 393.6519470214844, "y": 136.99993896484375, "z": 207.5257110595703 }, "tsne_coordinates": { "x": 1.313144564628601, "y": -15.196828842163086, "z": 3.4990947246551514 }, "pca_coordinates": { "x": 4.388857364654541, "y": -1.1195836067199707, "z": -2.1806418895721436 }, "axis_scores": { "Quantum imaging": 0.7350128889083862, "Quantum Life Science Sensing": 0.7334272265434265, "Quantum sensing Detection": 0.7321498394012451, "Quantum sensing Metrology": 0.716331422328949, "Quantum sensing navigation": 0.7242956757545471, "Quantum sensing Position": 0.7262928485870361, "Quantum sensing Timing": 0.700420618057251, "Quantum sensing": 0.7384985685348511, "Quantum control": 0.6929678916931152 } }, { "id": 742, "title": "Nonstationary Kolmogorov probability models describing quantum measurements", "abstract": "", "citations": 2, "author_count": 3, "categories": [ "Mathematics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 742, "doi": "10.1134/S1064562406020359", "umap_coordinates": { "x": 395.2881774902344, "y": 137.60128784179688, "z": 206.26300048828125 }, "tsne_coordinates": { "x": -24.533973693847656, "y": 5.940157413482666, "z": 15.02237606048584 }, "pca_coordinates": { "x": 1.8389739990234375, "y": 3.923680543899536, "z": 0.9355677962303162 }, "axis_scores": { "Quantum imaging": 0.7359888553619385, "Quantum Life Science Sensing": 0.7715193033218384, "Quantum sensing Detection": 0.7497765421867371, "Quantum sensing Metrology": 0.7429730892181396, "Quantum sensing navigation": 0.7521582841873169, "Quantum sensing Position": 0.7259499430656433, "Quantum sensing Timing": 0.7309657335281372, "Quantum sensing": 0.7680932283401489, "Quantum control": 0.720058262348175 } }, { "id": 743, "title": "Quantum sensing from gravity as a universal dephasing channel for qubits", "abstract": "We investigate the interaction of a transmon qubit with a classical gravitational field. Exploiting the generic phenomena of the gravitational redshift and Aharonov-Bohm phase, we show that entangled ...", "citations": 2, "author_count": 5, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 743, "doi": "10.1103/PhysRevA.111.012411", "umap_coordinates": { "x": 395.36773681640625, "y": 137.0073699951172, "z": 207.4912872314453 }, "tsne_coordinates": { "x": -21.3391056060791, "y": -25.138744354248047, "z": 1.9050482511520386 }, "pca_coordinates": { "x": 5.088571548461914, "y": 0.9084128141403198, "z": 1.6498017311096191 }, "axis_scores": { "Quantum imaging": 0.7540028095245361, "Quantum Life Science Sensing": 0.7811676859855652, "Quantum sensing Detection": 0.7998921275138855, "Quantum sensing Metrology": 0.7750648856163025, "Quantum sensing navigation": 0.7958765029907227, "Quantum sensing Position": 0.7403535842895508, "Quantum sensing Timing": 0.7482552528381348, "Quantum sensing": 0.8038500547409058, "Quantum control": 0.7460117340087891 } }, { "id": 744, "title": "Comment on Wave function scarring effects in open stadium shaped quantum dots", "abstract": "", "citations": 11, "author_count": 3, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 744, "doi": "10.1103/PhysRevLett.81.1744", "umap_coordinates": { "x": 394.3940734863281, "y": 135.5533447265625, "z": 207.87510681152344 }, "tsne_coordinates": { "x": -7.678708553314209, "y": -33.86430740356445, "z": -8.901168823242188 }, "pca_coordinates": { "x": 1.5701978206634521, "y": -1.147047758102417, "z": 0.012939512729644775 }, "axis_scores": { "Quantum imaging": 0.7020390629768372, "Quantum Life Science Sensing": 0.7339875102043152, "Quantum sensing Detection": 0.706741213798523, "Quantum sensing Metrology": 0.6829549074172974, "Quantum sensing navigation": 0.6944286227226257, "Quantum sensing Position": 0.6907791495323181, "Quantum sensing Timing": 0.6914410591125488, "Quantum sensing": 0.7117137908935547, "Quantum control": 0.6764810085296631 } }, { "id": 745, "title": "Maxwell's demon in a double quantum dot with continuous charge detection", "abstract": "Converting information into work has, during the past decade, gained renewed interest as it gives insight into the relation between information theory and thermodynamics. Here, we theoretically invest...", "citations": 24, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 745, "doi": "10.1103/PhysRevB.101.165404", "umap_coordinates": { "x": 393.89862060546875, "y": 135.58729553222656, "z": 208.26153564453125 }, "tsne_coordinates": { "x": -4.830451965332031, "y": -22.174049377441406, "z": 0.3494524657726288 }, "pca_coordinates": { "x": 3.020998477935791, "y": -1.5851287841796875, "z": 0.6885630488395691 }, "axis_scores": { "Quantum imaging": 0.7171459794044495, "Quantum Life Science Sensing": 0.7480783462524414, "Quantum sensing Detection": 0.743854284286499, "Quantum sensing Metrology": 0.7262283563613892, "Quantum sensing navigation": 0.7186235785484314, "Quantum sensing Position": 0.7061544060707092, "Quantum sensing Timing": 0.6962211728096008, "Quantum sensing": 0.7326276898384094, "Quantum control": 0.6902692914009094 } }, { "id": 746, "title": "Role of electron-electron interaction in the Mpemba effect in quantum dots", "abstract": "The Mpemba effect has initially been noticed in macroscopic systems-namely that hot water can freeze faster than cold water-but recently its extension to open quantum systems has attracted significant...", "citations": 6, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 746, "doi": "10.1088/1361-648X/adc3e3", "umap_coordinates": { "x": 393.1603698730469, "y": 135.07447814941406, "z": 207.72340393066406 }, "tsne_coordinates": { "x": 19.45972442626953, "y": -19.512907028198242, "z": 14.84973430633545 }, "pca_coordinates": { "x": 0.5682029724121094, "y": -1.0899755954742432, "z": -0.940993070602417 }, "axis_scores": { "Quantum imaging": 0.7127372026443481, "Quantum Life Science Sensing": 0.6962049007415771, "Quantum sensing Detection": 0.6887198686599731, "Quantum sensing Metrology": 0.6816828846931458, "Quantum sensing navigation": 0.6809958815574646, "Quantum sensing Position": 0.684964120388031, "Quantum sensing Timing": 0.6556124091148376, "Quantum sensing": 0.6993563175201416, "Quantum control": 0.6943146586418152 } }, { "id": 747, "title": "Thermal emission of electrons from selected s-shell configurations in InAs/GaAs quantum dots", "abstract": "The thermal emission of electrons from self-assembled InAs/GaAs quantum dots, prepared by molecular-beam epitaxy, with an average base/height size of 20 nm/11 nm in Schottky diodes has been investigat...", "citations": 46, "author_count": 6, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 747, "doi": "10.1063/1.1622437", "umap_coordinates": { "x": 392.9964599609375, "y": 133.60305786132812, "z": 208.14004516601562 }, "tsne_coordinates": { "x": 23.60834503173828, "y": -24.603553771972656, "z": 0.1391381174325943 }, "pca_coordinates": { "x": 0.6393868923187256, "y": -4.3741774559021, "z": 0.804050862789154 }, "axis_scores": { "Quantum imaging": 0.704469621181488, "Quantum Life Science Sensing": 0.7075681090354919, "Quantum sensing Detection": 0.7142230272293091, "Quantum sensing Metrology": 0.6991478204727173, "Quantum sensing navigation": 0.7054961323738098, "Quantum sensing Position": 0.6991997361183167, "Quantum sensing Timing": 0.6901928186416626, "Quantum sensing": 0.7239910364151001, "Quantum control": 0.6830196380615234 } }, { "id": 748, "title": "Quantum state engineering in hybrid open quantum systems", "abstract": "We investigate a possibility to generate nonclassical states in light-matter coupled noisy quantum systems, namely, the anisotropic Rabi and Dicke models. In these hybrid quantum systems, a competing ...", "citations": 21, "author_count": 4, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 748, "doi": "10.1103/PhysRevA.93.043818", "umap_coordinates": { "x": 394.91912841796875, "y": 136.61331176757812, "z": 208.4137420654297 }, "tsne_coordinates": { "x": -10.622297286987305, "y": -14.204401016235352, "z": 6.270394325256348 }, "pca_coordinates": { "x": 5.560898303985596, "y": -0.706944465637207, "z": -0.9444041848182678 }, "axis_scores": { "Quantum imaging": 0.7761111259460449, "Quantum Life Science Sensing": 0.7796517610549927, "Quantum sensing Detection": 0.7746686339378357, "Quantum sensing Metrology": 0.7501375079154968, "Quantum sensing navigation": 0.7773343324661255, "Quantum sensing Position": 0.7344585657119751, "Quantum sensing Timing": 0.7201751470565796, "Quantum sensing": 0.7898799180984497, "Quantum control": 0.7707020044326782 } }, { "id": 749, "title": "Photoexcited carrier dynamics in aligned InAs/GaAs quantum dots grown on strain-relaxed InGaAs layers", "abstract": "Carrier dynamics in aligned InAs/GaAs quantum dots (QDs) grown on cross-batched patterns induced by metastable InxGa1-xAs layers have been studied by time-resolved photoluminescence. The low-temperatu...", "citations": 9, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 749, "doi": "10.1016/S1386-9477(03)00232-7", "umap_coordinates": { "x": 392.4098815917969, "y": 134.5543975830078, "z": 207.91229248046875 }, "tsne_coordinates": { "x": 32.62967300415039, "y": -9.872513771057129, "z": 11.691433906555176 }, "pca_coordinates": { "x": -0.018938064575195312, "y": -3.034278392791748, "z": 0.4685351252555847 }, "axis_scores": { "Quantum imaging": 0.70660799741745, "Quantum Life Science Sensing": 0.6835839748382568, "Quantum sensing Detection": 0.6833148002624512, "Quantum sensing Metrology": 0.6732556223869324, "Quantum sensing navigation": 0.6938796639442444, "Quantum sensing Position": 0.71876460313797, "Quantum sensing Timing": 0.7054773569107056, "Quantum sensing": 0.6940594911575317, "Quantum control": 0.6761842370033264 } }, { "id": 750, "title": "Optimization schemes for efficient multiple exciton generation and extraction in colloidal quantum dots", "abstract": "Multiple exciton generation (MEG) is a process in which more than one electron hole pair is generated per absorbed photon. It allows us to increase the efficiency of solar energy harvesting. Experimen...", "citations": 11, "author_count": 5, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 750, "doi": "10.1063/1.4960507", "umap_coordinates": { "x": 393.3692932128906, "y": 133.6619873046875, "z": 207.53561401367188 }, "tsne_coordinates": { "x": 23.05727195739746, "y": -1.157250165939331, "z": -2.9709529876708984 }, "pca_coordinates": { "x": -0.2528523802757263, "y": -4.245528697967529, "z": 0.42091888189315796 }, "axis_scores": { "Quantum imaging": 0.735984742641449, "Quantum Life Science Sensing": 0.7152958512306213, "Quantum sensing Detection": 0.7191633582115173, "Quantum sensing Metrology": 0.7213628888130188, "Quantum sensing navigation": 0.7138413190841675, "Quantum sensing Position": 0.6904669404029846, "Quantum sensing Timing": 0.6928191781044006, "Quantum sensing": 0.7301315665245056, "Quantum control": 0.7155978679656982 } }, { "id": 751, "title": "Generalized measurements on atoms in microtraps - art. no. 032303", "abstract": "Neutral atoms can be trapped in microscopic potentials resulting from electric and magnetic fields. These microtraps might be used to build simple quantum devices, and ultimately be combined to networ...", "citations": 4, "author_count": 2, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 751, "doi": "10.1103/PhysRevA.64.032303", "umap_coordinates": { "x": 395.26544189453125, "y": 136.1114044189453, "z": 208.45323181152344 }, "tsne_coordinates": { "x": -25.91567611694336, "y": -14.042754173278809, "z": 1.2091938257217407 }, "pca_coordinates": { "x": 3.054532527923584, "y": 1.2056728601455688, "z": 0.0595284104347229 }, "axis_scores": { "Quantum imaging": 0.7130851745605469, "Quantum Life Science Sensing": 0.7312802672386169, "Quantum sensing Detection": 0.7245429158210754, "Quantum sensing Metrology": 0.7291240096092224, "Quantum sensing navigation": 0.7268664836883545, "Quantum sensing Position": 0.7179146409034729, "Quantum sensing Timing": 0.691281795501709, "Quantum sensing": 0.7395520210266113, "Quantum control": 0.6957513093948364 } }, { "id": 752, "title": "Maximal non-classicality in multi-setting Bell inequalities", "abstract": "The discrepancy between maximally entangled states and maximally non-classical quantum correlations is well-known but still not well understood. We aim to investigate the relation between quantum corr...", "citations": 6, "author_count": 4, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 752, "doi": "10.1088/1751-8113/49/14/145301", "umap_coordinates": { "x": 395.53924560546875, "y": 137.1176300048828, "z": 206.5474395751953 }, "tsne_coordinates": { "x": -30.222034454345703, "y": -6.238663673400879, "z": 1.7911150455474854 }, "pca_coordinates": { "x": 0.8442764282226562, "y": 4.2417097091674805, "z": 1.0293807983398438 }, "axis_scores": { "Quantum imaging": 0.7181280255317688, "Quantum Life Science Sensing": 0.6852874159812927, "Quantum sensing Detection": 0.7164339423179626, "Quantum sensing Metrology": 0.7141588926315308, "Quantum sensing navigation": 0.703023374080658, "Quantum sensing Position": 0.7069622278213501, "Quantum sensing Timing": 0.6916260719299316, "Quantum sensing": 0.7181205153465271, "Quantum control": 0.6955254673957825 } }, { "id": 753, "title": "Nonlinear thermovoltage and thermocurrent in quantum dots", "abstract": "Quantum dots are model systems for quantum thermoelectric behavior because of their ability to control and measure the effects of electron-energy filtering and quantum confinement on thermoelectric pr...", "citations": 119, "author_count": 10, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 753, "doi": "10.1088/1367-2630/15/10/105011", "umap_coordinates": { "x": 393.5205993652344, "y": 135.01344299316406, "z": 207.78054809570312 }, "tsne_coordinates": { "x": 21.996994018554688, "y": -25.657360076904297, "z": 10.76402473449707 }, "pca_coordinates": { "x": 1.1996080875396729, "y": -2.007162094116211, "z": 1.5812718868255615 }, "axis_scores": { "Quantum imaging": 0.7471834421157837, "Quantum Life Science Sensing": 0.7360327243804932, "Quantum sensing Detection": 0.7160905599594116, "Quantum sensing Metrology": 0.7084446549415588, "Quantum sensing navigation": 0.7075583934783936, "Quantum sensing Position": 0.6910357475280762, "Quantum sensing Timing": 0.7022233605384827, "Quantum sensing": 0.7303248643875122, "Quantum control": 0.700103759765625 } }, { "id": 754, "title": "Quantum transport in an ambipolar InSb nanowire quantum dot device", "abstract": "Semiconductor InSb nanowires present a highly intriguing platform with immense potential for applications in spintronics and topological quantum devices. The narrow band gap exhibited by InSb allows f...", "citations": 1, "author_count": 6, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 754, "doi": "10.1103/PhysRevB.111.115409", "umap_coordinates": { "x": 393.70550537109375, "y": 134.93869018554688, "z": 209.2357940673828 }, "tsne_coordinates": { "x": 1.4119086265563965, "y": -26.68737030029297, "z": 5.418248176574707 }, "pca_coordinates": { "x": 4.926826000213623, "y": -5.041366100311279, "z": 1.5462210178375244 }, "axis_scores": { "Quantum imaging": 0.7187658548355103, "Quantum Life Science Sensing": 0.7157882452011108, "Quantum sensing Detection": 0.7334259748458862, "Quantum sensing Metrology": 0.7110490798950195, "Quantum sensing navigation": 0.7391575574874878, "Quantum sensing Position": 0.7086210250854492, "Quantum sensing Timing": 0.689300000667572, "Quantum sensing": 0.741614818572998, "Quantum control": 0.7004435062408447 } }, { "id": 755, "title": "Computational Methods of Quantum Reaction Dynamics", "abstract": "In this article, I review some of the best available quantum dynamical approaches for studying bimolecular chemical reactions. Calculating the thermal rate constant is central in theoretical chemistry...", "citations": 28, "author_count": 2, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 755, "doi": "10.1002/qua.24661", "umap_coordinates": { "x": 393.79498291015625, "y": 137.49349975585938, "z": 206.0684814453125 }, "tsne_coordinates": { "x": -10.193607330322266, "y": 7.755216598510742, "z": 21.857742309570312 }, "pca_coordinates": { "x": 1.3387670516967773, "y": 1.5608234405517578, "z": -2.8622868061065674 }, "axis_scores": { "Quantum imaging": 0.7815086841583252, "Quantum Life Science Sensing": 0.7865687608718872, "Quantum sensing Detection": 0.779239296913147, "Quantum sensing Metrology": 0.7646850347518921, "Quantum sensing navigation": 0.782227635383606, "Quantum sensing Position": 0.7383503317832947, "Quantum sensing Timing": 0.7585093975067139, "Quantum sensing": 0.7971907258033752, "Quantum control": 0.8136550784111023 } }, { "id": 756, "title": "Photo-stability of CsPbBr3 perovskite quantum dots for optoelectronic application", "abstract": "Due to their superior photoluminescence (PL) quantum yield (QY) and tunable optical band gap, all-inorganic CsPbBr3 perovskite quantum dots (QDs) have attracted intensive attention for the application...", "citations": 245, "author_count": 7, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 756, "doi": "10.1007/s40843-016-5123-1", "umap_coordinates": { "x": 392.6251525878906, "y": 134.34413146972656, "z": 205.1990203857422 }, "tsne_coordinates": { "x": 22.09866714477539, "y": -0.5948463082313538, "z": -16.559967041015625 }, "pca_coordinates": { "x": -3.3978395462036133, "y": -2.734551429748535, "z": -0.9630101919174194 }, "axis_scores": { "Quantum imaging": 0.7000653743743896, "Quantum Life Science Sensing": 0.7452275156974792, "Quantum sensing Detection": 0.6999048590660095, "Quantum sensing Metrology": 0.6949395537376404, "Quantum sensing navigation": 0.6872243285179138, "Quantum sensing Position": 0.6933267116546631, "Quantum sensing Timing": 0.6775476336479187, "Quantum sensing": 0.7162588834762573, "Quantum control": 0.6900946497917175 } }, { "id": 757, "title": "Two-dimensional localization of fast electrons in p(2x2)-Cs/Cu(111)", "abstract": "The system p(2x2)-Cs/Cu(111) reveals a manifold of surface localized electronic states, such as image states, quantum well states, and surface resonances. We find an electronic state with a band energ...", "citations": 15, "author_count": 8, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 757, "doi": "10.1103/PhysRevB.76.153404", "umap_coordinates": { "x": 393.9952697753906, "y": 135.8050994873047, "z": 208.20498657226562 }, "tsne_coordinates": { "x": 6.080486297607422, "y": -43.56328582763672, "z": -3.572564125061035 }, "pca_coordinates": { "x": 2.498713493347168, "y": -1.4553744792938232, "z": 0.0808820128440857 }, "axis_scores": { "Quantum imaging": 0.7078282833099365, "Quantum Life Science Sensing": 0.6889418959617615, "Quantum sensing Detection": 0.7108771800994873, "Quantum sensing Metrology": 0.6709749102592468, "Quantum sensing navigation": 0.7127217650413513, "Quantum sensing Position": 0.7034251689910889, "Quantum sensing Timing": 0.7024303674697876, "Quantum sensing": 0.7133028507232666, "Quantum control": 0.6824937462806702 } }, { "id": 758, "title": "Ultralow-power spectroscopy of a rare-earth spin ensemble using a superconducting resonator", "abstract": "Interfacing superconducting quantum processors, working in the GHz frequency range, with optical quantum networks and atomic qubits is a challenging task for the implementation of distributed quantum ...", "citations": 98, "author_count": 10, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 758, "doi": "10.1103/PhysRevB.84.060501", "umap_coordinates": { "x": 394.3963623046875, "y": 135.42919921875, "z": 208.13670349121094 }, "tsne_coordinates": { "x": -17.166810989379883, "y": -35.13129806518555, "z": 22.90765380859375 }, "pca_coordinates": { "x": 3.9536147117614746, "y": -1.2365412712097168, "z": 0.5650798678398132 }, "axis_scores": { "Quantum imaging": 0.7035868763923645, "Quantum Life Science Sensing": 0.7620498538017273, "Quantum sensing Detection": 0.721720814704895, "Quantum sensing Metrology": 0.70395427942276, "Quantum sensing navigation": 0.7066670060157776, "Quantum sensing Position": 0.7047674059867859, "Quantum sensing Timing": 0.6679065823554993, "Quantum sensing": 0.7289859652519226, "Quantum control": 0.6684551239013672 } }, { "id": 759, "title": "Single-electron transistor backaction on the single-electron box", "abstract": "We report an experimental observation of the backaction of a single-electron transistor (SET) measuring the Coulomb staircase of a single-electron box. As current flows through the SET, the charge sta...", "citations": 24, "author_count": 8, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 759, "doi": "10.1103/PhysRevB.71.193304", "umap_coordinates": { "x": 394.41497802734375, "y": 133.98629760742188, "z": 208.58151245117188 }, "tsne_coordinates": { "x": 5.482478141784668, "y": -28.832914352416992, "z": -12.641709327697754 }, "pca_coordinates": { "x": 2.569753646850586, "y": -2.7582311630249023, "z": 1.2210180759429932 }, "axis_scores": { "Quantum imaging": 0.6647730469703674, "Quantum Life Science Sensing": 0.6870970129966736, "Quantum sensing Detection": 0.6928631663322449, "Quantum sensing Metrology": 0.6818876266479492, "Quantum sensing navigation": 0.6865425705909729, "Quantum sensing Position": 0.6771677732467651, "Quantum sensing Timing": 0.6527339816093445, "Quantum sensing": 0.6967139840126038, "Quantum control": 0.6763437390327454 } }, { "id": 760, "title": "Spatial versus sequential correlations for random access coding", "abstract": "Random access codes are important for a wide range of applications in quantum information. However, their implementation with quantum theory can be made in two very different ways: (i) by distributing...", "citations": 35, "author_count": 5, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 760, "doi": "10.1103/PhysRevA.93.032336", "umap_coordinates": { "x": 395.3804931640625, "y": 137.02589416503906, "z": 207.79771423339844 }, "tsne_coordinates": { "x": -25.382492065429688, "y": -23.027057647705078, "z": -5.205355167388916 }, "pca_coordinates": { "x": 3.6153969764709473, "y": 2.2847907543182373, "z": 0.4208078980445862 }, "axis_scores": { "Quantum imaging": 0.7039757370948792, "Quantum Life Science Sensing": 0.6921147108078003, "Quantum sensing Detection": 0.7119068503379822, "Quantum sensing Metrology": 0.6866774559020996, "Quantum sensing navigation": 0.7438424825668335, "Quantum sensing Position": 0.7037112712860107, "Quantum sensing Timing": 0.7082470655441284, "Quantum sensing": 0.721605122089386, "Quantum control": 0.7003579139709473 } }, { "id": 761, "title": "QUANTUM CORRELATION-EFFECTS IN THE SPIN DYNAMICS OF GD AT HIGH-TEMPERATURES IN THE LIGHT OF COMPLEX DILATION THEORY", "abstract": "", "citations": 15, "author_count": 4, "categories": [ "Materials Science" ], "year": 1990, "topic": [ "all" ], "embedding_index": 761, "doi": "10.1103/PhysRevB.42.2704", "umap_coordinates": { "x": 393.1922302246094, "y": 136.77072143554688, "z": 207.9776153564453 }, "tsne_coordinates": { "x": 18.498741149902344, "y": -32.41591262817383, "z": 19.803133010864258 }, "pca_coordinates": { "x": 3.8628382682800293, "y": 0.7051817178726196, "z": -2.0007164478302 }, "axis_scores": { "Quantum imaging": 0.732467770576477, "Quantum Life Science Sensing": 0.7139647006988525, "Quantum sensing Detection": 0.7110785245895386, "Quantum sensing Metrology": 0.6869575381278992, "Quantum sensing navigation": 0.7182073593139648, "Quantum sensing Position": 0.7024855613708496, "Quantum sensing Timing": 0.7316555380821228, "Quantum sensing": 0.7171658873558044, "Quantum control": 0.7215570211410522 } }, { "id": 762, "title": "Experimental verification of differences between classical and quantum polarization properties", "abstract": "We have carried out polarization measurements on a two-photon quantum state generated by spontaneous parametric down conversion. Our measurements show that the state is unpolarized in the classical th...", "citations": 47, "author_count": 5, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 762, "doi": "10.1016/S0030-4018(01)01252-4", "umap_coordinates": { "x": 394.9493103027344, "y": 136.17623901367188, "z": 206.1914825439453 }, "tsne_coordinates": { "x": -17.60619354248047, "y": -7.118694305419922, "z": -4.368248462677002 }, "pca_coordinates": { "x": -0.0536961555480957, "y": 0.6473139524459839, "z": 0.18756908178329468 }, "axis_scores": { "Quantum imaging": 0.7433375716209412, "Quantum Life Science Sensing": 0.7461807131767273, "Quantum sensing Detection": 0.7294789552688599, "Quantum sensing Metrology": 0.7272810935974121, "Quantum sensing navigation": 0.7295054793357849, "Quantum sensing Position": 0.7344340682029724, "Quantum sensing Timing": 0.6896824836730957, "Quantum sensing": 0.7463849186897278, "Quantum control": 0.7096147537231445 } }, { "id": 763, "title": "Development of a multimodality sensor for spectral photon counting CT, standard CT and PET", "abstract": "A prototype sensor module for multimodality medical imaging applications requiring a wide intensity range has been developed. It consists of a silicon photomultiplier (SiPM)-scintillator sensor connec...", "citations": 3, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 2011, "topic": [ "all" ], "embedding_index": 763, "doi": "10.1016/j.nima.2010.12.148", "umap_coordinates": { "x": 394.8175048828125, "y": 132.61074829101562, "z": 205.36190795898438 }, "tsne_coordinates": { "x": -15.548927307128906, "y": 20.190980911254883, "z": -13.915118217468262 }, "pca_coordinates": { "x": -5.1332550048828125, "y": 1.3906519412994385, "z": 4.522495269775391 }, "axis_scores": { "Quantum imaging": 0.7409080266952515, "Quantum Life Science Sensing": 0.7322424650192261, "Quantum sensing Detection": 0.7286736965179443, "Quantum sensing Metrology": 0.724156379699707, "Quantum sensing navigation": 0.7086754441261292, "Quantum sensing Position": 0.6762517690658569, "Quantum sensing Timing": 0.6894912123680115, "Quantum sensing": 0.7256359457969666, "Quantum control": 0.6506074666976929 } }, { "id": 764, "title": "Quantum Fokker-Planck Master Equation for Continuous Feedback Control", "abstract": "Measurement and feedback control are essential features of quantum science, with applications ranging from quantum technology protocols to information-to-work conversion in quantum thermodynamics. The...", "citations": 20, "author_count": 8, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 764, "doi": "10.1103/PhysRevLett.129.050401", "umap_coordinates": { "x": 395.17901611328125, "y": 136.68069458007812, "z": 207.95529174804688 }, "tsne_coordinates": { "x": -17.577539443969727, "y": -23.41332244873047, "z": -3.2266929149627686 }, "pca_coordinates": { "x": 4.664745807647705, "y": 0.8820316791534424, "z": -0.20698842406272888 }, "axis_scores": { "Quantum imaging": 0.7305524349212646, "Quantum Life Science Sensing": 0.7571994066238403, "Quantum sensing Detection": 0.745042085647583, "Quantum sensing Metrology": 0.7431216835975647, "Quantum sensing navigation": 0.733244776725769, "Quantum sensing Position": 0.7036467790603638, "Quantum sensing Timing": 0.7165662050247192, "Quantum sensing": 0.7514463067054749, "Quantum control": 0.7745347023010254 } }, { "id": 765, "title": "Controllable and large-scale synthesis of carbon quantum dots for efficient solid-state optical devices", "abstract": "Carbon quantum dots (C -dots) showed excellent structure -tunable optical properties, mainly composed of carbon, nitrogen and oxygen. They have been used for various types of solid-state optical devic...", "citations": 97, "author_count": 11, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 765, "doi": "10.1016/j.nanoen.2024.109289", "umap_coordinates": { "x": 392.82147216796875, "y": 133.65170288085938, "z": 205.25363159179688 }, "tsne_coordinates": { "x": 26.444377899169922, "y": 8.914448738098145, "z": -9.241701126098633 }, "pca_coordinates": { "x": -2.9452452659606934, "y": -2.7541069984436035, "z": 0.4181392788887024 }, "axis_scores": { "Quantum imaging": 0.7436603307723999, "Quantum Life Science Sensing": 0.7688941955566406, "Quantum sensing Detection": 0.7550413608551025, "Quantum sensing Metrology": 0.7481857538223267, "Quantum sensing navigation": 0.7350066900253296, "Quantum sensing Position": 0.7164506316184998, "Quantum sensing Timing": 0.7004198431968689, "Quantum sensing": 0.7711569666862488, "Quantum control": 0.7593421339988708 } }, { "id": 766, "title": "Dark current in quantum dot infrared photodetectors", "abstract": "We present the results of a new analytical model for the analysis of the dark current in realistic quantum dot infrared photodetectors (QDIPs), This model includes the effect of the space charge forme...", "citations": 57, "author_count": 6, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 766, "doi": "10.1143/JJAP.39.L1283", "umap_coordinates": { "x": 393.8840637207031, "y": 134.03475952148438, "z": 207.102294921875 }, "tsne_coordinates": { "x": 3.6292295455932617, "y": 3.1506166458129883, "z": -25.025432586669922 }, "pca_coordinates": { "x": 0.6704411506652832, "y": -1.867612361907959, "z": 1.7912425994873047 }, "axis_scores": { "Quantum imaging": 0.7539029717445374, "Quantum Life Science Sensing": 0.754119873046875, "Quantum sensing Detection": 0.7599376440048218, "Quantum sensing Metrology": 0.7270360589027405, "Quantum sensing navigation": 0.7229275107383728, "Quantum sensing Position": 0.7146896123886108, "Quantum sensing Timing": 0.7054497599601746, "Quantum sensing": 0.754203200340271, "Quantum control": 0.7255141139030457 } }, { "id": 767, "title": "Performance enhancement of a decoy-state quantum key distribution using a conditionally prepared down-conversion source in the Poisson distribution", "abstract": "We study the behavior of decoy-state quantum key distribution systems using a conditionally prepared down-conversion source, analyzing such a source running in a mode of operation with either a therma...", "citations": 33, "author_count": 3, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 767, "doi": "10.1103/PhysRevA.76.014309", "umap_coordinates": { "x": 395.60455322265625, "y": 135.5069122314453, "z": 207.02667236328125 }, "tsne_coordinates": { "x": -7.597897052764893, "y": -19.74040412902832, "z": -12.551409721374512 }, "pca_coordinates": { "x": 1.1429033279418945, "y": 1.0324592590332031, "z": 2.6666340827941895 }, "axis_scores": { "Quantum imaging": 0.7249122858047485, "Quantum Life Science Sensing": 0.6902417540550232, "Quantum sensing Detection": 0.7066562175750732, "Quantum sensing Metrology": 0.6886659264564514, "Quantum sensing navigation": 0.7029551267623901, "Quantum sensing Position": 0.6853569746017456, "Quantum sensing Timing": 0.6854878664016724, "Quantum sensing": 0.7143558859825134, "Quantum control": 0.7107802629470825 } }, { "id": 768, "title": "DYNAMICS OF SEMIDILUTE SOLUTIONS USING PHOTON-CORRELATION SPECTROSCOPY - THE INFLUENCE OF SOLVENT QUALITY", "abstract": "", "citations": 18, "author_count": 3, "categories": [ "Polymer Science" ], "year": 1986, "topic": [ "all" ], "embedding_index": 768, "doi": "10.1021/ma00161a037", "umap_coordinates": { "x": 393.4062194824219, "y": 135.9031219482422, "z": 205.613525390625 }, "tsne_coordinates": { "x": -1.2273309230804443, "y": -3.973184585571289, "z": 31.90287208557129 }, "pca_coordinates": { "x": -1.039445400238037, "y": 0.36702823638916016, "z": -1.2295491695404053 }, "axis_scores": { "Quantum imaging": 0.7035363912582397, "Quantum Life Science Sensing": 0.7316607236862183, "Quantum sensing Detection": 0.6911197304725647, "Quantum sensing Metrology": 0.6811255216598511, "Quantum sensing navigation": 0.6966149210929871, "Quantum sensing Position": 0.6660566926002502, "Quantum sensing Timing": 0.653854250907898, "Quantum sensing": 0.6998886466026306, "Quantum control": 0.6728172302246094 } }, { "id": 769, "title": "Shot noise of photon-excited electron-hole pairs in open quantum dots - art. no. 161302", "abstract": "We investigate shot noise of photon-excited electron-hole pairs in open multiterminal, multichannel chaotic dots. Coulomb interactions in the dot are treated self-consistently giving a gauge-invariant...", "citations": 20, "author_count": 4, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 769, "doi": "10.1103/PhysRevB.72.161302", "umap_coordinates": { "x": 394.7245788574219, "y": 134.77972412109375, "z": 209.01181030273438 }, "tsne_coordinates": { "x": 4.655272006988525, "y": -32.55412673950195, "z": -2.280590772628784 }, "pca_coordinates": { "x": 3.8861021995544434, "y": -2.2701544761657715, "z": 2.113067388534546 }, "axis_scores": { "Quantum imaging": 0.7061969041824341, "Quantum Life Science Sensing": 0.7271456122398376, "Quantum sensing Detection": 0.7322654724121094, "Quantum sensing Metrology": 0.720134437084198, "Quantum sensing navigation": 0.724583089351654, "Quantum sensing Position": 0.6965001821517944, "Quantum sensing Timing": 0.6903778314590454, "Quantum sensing": 0.7346087098121643, "Quantum control": 0.7018185257911682 } }, { "id": 770, "title": "The roles of leads and periodic orbits in the conductance fluctuations of high-mobility quantum dots", "abstract": "The fluctuations of a square quantum dot have been studied as a function of the dot width. Measurements were made at magnetic fields ranging from the zero-field to edge-state regimes. The experimental...", "citations": 5, "author_count": 7, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 770, "doi": "10.1088/0268-1242/13/8A/004", "umap_coordinates": { "x": 393.2375183105469, "y": 135.2036590576172, "z": 207.90634155273438 }, "tsne_coordinates": { "x": 25.176040649414062, "y": -17.2125301361084, "z": 14.185349464416504 }, "pca_coordinates": { "x": 1.6485235691070557, "y": -0.15032219886779785, "z": -0.583741307258606 }, "axis_scores": { "Quantum imaging": 0.6587196588516235, "Quantum Life Science Sensing": 0.662868320941925, "Quantum sensing Detection": 0.6503376960754395, "Quantum sensing Metrology": 0.6368129253387451, "Quantum sensing navigation": 0.6789067387580872, "Quantum sensing Position": 0.6775914430618286, "Quantum sensing Timing": 0.6733350157737732, "Quantum sensing": 0.6682718992233276, "Quantum control": 0.6821290254592896 } }, { "id": 771, "title": "Backaction effects of a SSET measuring a qubit spectroscopy and ground state measurement", "abstract": "We investigate the backaction of superconducting single-electron transistor (SSET) continuously measuring a Cooper-pair box. Due to the minimized backaction of the SSET, we observe a 2e periodic Coulo...", "citations": 2, "author_count": 11, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 771, "doi": "10.1109/TASC.2005.850096", "umap_coordinates": { "x": 394.8625793457031, "y": 134.7550048828125, "z": 206.97726440429688 }, "tsne_coordinates": { "x": -4.622401237487793, "y": -2.224867105484009, "z": -36.23625183105469 }, "pca_coordinates": { "x": 1.9349541664123535, "y": 1.0411796569824219, "z": 0.8976829648017883 }, "axis_scores": { "Quantum imaging": 0.7242103815078735, "Quantum Life Science Sensing": 0.7404236793518066, "Quantum sensing Detection": 0.7601417303085327, "Quantum sensing Metrology": 0.740115761756897, "Quantum sensing navigation": 0.7335860729217529, "Quantum sensing Position": 0.7389749884605408, "Quantum sensing Timing": 0.74751877784729, "Quantum sensing": 0.7605561017990112, "Quantum control": 0.7188047170639038 } }, { "id": 772, "title": "ELECTRON-TRANSPORT IN FINITE ONE-DIMENSIONAL QUANTUM-DOT ARRAYS", "abstract": "", "citations": 17, "author_count": 4, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 772, "doi": "10.1016/0749-6036(92)90344-5", "umap_coordinates": { "x": 393.2409973144531, "y": 134.8746795654297, "z": 207.92649841308594 }, "tsne_coordinates": { "x": 13.613126754760742, "y": -27.5703067779541, "z": -11.023760795593262 }, "pca_coordinates": { "x": 1.5217161178588867, "y": -2.8791799545288086, "z": 1.428816318511963 }, "axis_scores": { "Quantum imaging": 0.7168267369270325, "Quantum Life Science Sensing": 0.7199089527130127, "Quantum sensing Detection": 0.705120861530304, "Quantum sensing Metrology": 0.7061233520507812, "Quantum sensing navigation": 0.7172182202339172, "Quantum sensing Position": 0.7145069241523743, "Quantum sensing Timing": 0.6707251667976379, "Quantum sensing": 0.7191565632820129, "Quantum control": 0.6782743334770203 } }, { "id": 773, "title": "Overcoming the quantum limit of optical amplification in monolithic waveguides", "abstract": "Optical amplifiers are essential in numerous photonic applications. Parametric amplifiers, relying on a nonlinear material to demonstrate amplification based on the third-order nonlinearity in a singl...", "citations": 101, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 773, "doi": "10.1126/sciadv.abi8150", "umap_coordinates": { "x": 394.8219909667969, "y": 135.5724639892578, "z": 206.53941345214844 }, "tsne_coordinates": { "x": -13.067938804626465, "y": -4.12328577041626, "z": 5.341683387756348 }, "pca_coordinates": { "x": 0.7686673402786255, "y": -0.12893342971801758, "z": 2.293300151824951 }, "axis_scores": { "Quantum imaging": 0.7498156428337097, "Quantum Life Science Sensing": 0.7330796122550964, "Quantum sensing Detection": 0.7510522603988647, "Quantum sensing Metrology": 0.7612382769584656, "Quantum sensing navigation": 0.7565927505493164, "Quantum sensing Position": 0.7257522344589233, "Quantum sensing Timing": 0.695807933807373, "Quantum sensing": 0.7505892515182495, "Quantum control": 0.7239835858345032 } }, { "id": 774, "title": "Synthesis of graphene quantum dots and their applications in drug delivery", "abstract": "This review focuses on the recent advances in the synthesis of graphene quantum dots (GQDs) and their applications in drug delivery. To give a brief understanding about the preparation of GQDs, recent...", "citations": 264, "author_count": 13, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 774, "doi": "10.1186/s12951-020-00698-z", "umap_coordinates": { "x": 394.1016540527344, "y": 134.34886169433594, "z": 204.19625854492188 }, "tsne_coordinates": { "x": 14.173428535461426, "y": 27.084758758544922, "z": -8.010980606079102 }, "pca_coordinates": { "x": -3.000004291534424, "y": 0.04674267768859863, "z": -1.3802303075790405 }, "axis_scores": { "Quantum imaging": 0.7034519910812378, "Quantum Life Science Sensing": 0.7280935645103455, "Quantum sensing Detection": 0.6934788227081299, "Quantum sensing Metrology": 0.6877282857894897, "Quantum sensing navigation": 0.6989511251449585, "Quantum sensing Position": 0.683089554309845, "Quantum sensing Timing": 0.6804872751235962, "Quantum sensing": 0.7042274475097656, "Quantum control": 0.70549476146698 } }, { "id": 775, "title": "Case study of an InAs quantum dot memory: Optical storing and deletion of charge", "abstract": "We have studied self-assembled InAs quantum dots embedded in an InP matrix using photocapacitance and photocurrent spectroscopy. These dots are potentially promising for memories due to the large conf...", "citations": 78, "author_count": 6, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 775, "doi": "10.1063/1.1382628", "umap_coordinates": { "x": 393.48345947265625, "y": 134.30404663085938, "z": 207.66697692871094 }, "tsne_coordinates": { "x": 28.549619674682617, "y": -26.067724227905273, "z": 5.723632335662842 }, "pca_coordinates": { "x": 0.06592965126037598, "y": -2.270963191986084, "z": 0.3907391428947449 }, "axis_scores": { "Quantum imaging": 0.7253695726394653, "Quantum Life Science Sensing": 0.7397072315216064, "Quantum sensing Detection": 0.7335004210472107, "Quantum sensing Metrology": 0.7293208837509155, "Quantum sensing navigation": 0.7072288393974304, "Quantum sensing Position": 0.7091326713562012, "Quantum sensing Timing": 0.6988431811332703, "Quantum sensing": 0.7429190874099731, "Quantum control": 0.7009457945823669 } }, { "id": 776, "title": "Macroscopic approach to quantum optics", "abstract": "This paper investigates how an approach alternative to the canonical quantization schemes may be used to describe Quantum Optics phenomena. By utilizing the approach pioneered by Keldysh, we derive eq...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 776, "doi": "10.1002/1521-3978(200008)48:8<717::AID-PROP717>3.0.CO;2-4", "umap_coordinates": { "x": 394.9980163574219, "y": 137.352783203125, "z": 206.34727478027344 }, "tsne_coordinates": { "x": -25.500322341918945, "y": 1.922650694847107, "z": 12.538552284240723 }, "pca_coordinates": { "x": 0.642362117767334, "y": 1.4730584621429443, "z": -0.7202267646789551 }, "axis_scores": { "Quantum imaging": 0.7730250954627991, "Quantum Life Science Sensing": 0.7469863295555115, "Quantum sensing Detection": 0.7503466010093689, "Quantum sensing Metrology": 0.7502827048301697, "Quantum sensing navigation": 0.7656615972518921, "Quantum sensing Position": 0.7263691425323486, "Quantum sensing Timing": 0.707737386226654, "Quantum sensing": 0.7809042930603027, "Quantum control": 0.7592666149139404 } }, { "id": 777, "title": "The quantum measurement problem", "abstract": "The measurement problem in quantum mechanics still appears to be an unresolved issue. Here we present a new quantum theory of measurement that overcomes many of the difficulties previously found. It i...", "citations": 11, "author_count": 3, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 777, "doi": "10.1002/qua.10771", "umap_coordinates": { "x": 395.4512939453125, "y": 137.10877990722656, "z": 206.1918487548828 }, "tsne_coordinates": { "x": -32.615264892578125, "y": -1.1894339323043823, "z": 13.296025276184082 }, "pca_coordinates": { "x": 1.7801427841186523, "y": 3.7146072387695312, "z": 1.0420184135437012 }, "axis_scores": { "Quantum imaging": 0.7922051548957825, "Quantum Life Science Sensing": 0.781888484954834, "Quantum sensing Detection": 0.8089626431465149, "Quantum sensing Metrology": 0.8152647018432617, "Quantum sensing navigation": 0.8084744215011597, "Quantum sensing Position": 0.8029306530952454, "Quantum sensing Timing": 0.7714942097663879, "Quantum sensing": 0.8146476745605469, "Quantum control": 0.783897876739502 } }, { "id": 778, "title": "Ultraefficient Singlet Oxygen Generation from Manganese-Doped Cesium Lead Chloride Perovskite Quantum Dots", "abstract": "Lead halide perovskites hold promise for photo-voltaics, lasers, and light-emitting diode (LED) applications, being known as light-harvesting or -emitting materials. Here we show that colloidal lead h...", "citations": 38, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 778, "doi": "10.1021/acsnano.0c04181", "umap_coordinates": { "x": 392.0723571777344, "y": 133.85198974609375, "z": 205.4320831298828 }, "tsne_coordinates": { "x": 19.55386734008789, "y": -7.594854831695557, "z": -15.286593437194824 }, "pca_coordinates": { "x": -3.294142961502075, "y": -4.131165027618408, "z": 0.39376240968704224 }, "axis_scores": { "Quantum imaging": 0.7208605408668518, "Quantum Life Science Sensing": 0.7230079770088196, "Quantum sensing Detection": 0.7124183773994446, "Quantum sensing Metrology": 0.6982671618461609, "Quantum sensing navigation": 0.701714038848877, "Quantum sensing Position": 0.6746207475662231, "Quantum sensing Timing": 0.6729183197021484, "Quantum sensing": 0.7221859097480774, "Quantum control": 0.6845767498016357 } }, { "id": 779, "title": "Toward Practical Carrier Multiplication: Donor/Acceptor Codoped Si Nanocrystals in SiO2", "abstract": "Carrier multiplication (CM) is an interesting fundamental phenomenon with application potential in optoelectronics and photovoltaics, and it has been shown to be promoted by quantum confinement effect...", "citations": 11, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 779, "doi": "10.1021/acsphotonics.8b00144", "umap_coordinates": { "x": 392.56292724609375, "y": 133.70201110839844, "z": 206.40187072753906 }, "tsne_coordinates": { "x": 25.263181686401367, "y": -9.4297513961792, "z": -19.849746704101562 }, "pca_coordinates": { "x": -2.234996795654297, "y": -3.3420844078063965, "z": 1.8630094528198242 }, "axis_scores": { "Quantum imaging": 0.7145057320594788, "Quantum Life Science Sensing": 0.7107496857643127, "Quantum sensing Detection": 0.716800332069397, "Quantum sensing Metrology": 0.7075128555297852, "Quantum sensing navigation": 0.6965929865837097, "Quantum sensing Position": 0.7008257508277893, "Quantum sensing Timing": 0.6653226613998413, "Quantum sensing": 0.7216644883155823, "Quantum control": 0.6926836371421814 } }, { "id": 780, "title": "Approaching perfect microwave photodetection in circuit QED", "abstract": "In order to apply all ideas from quantum optics to the field of quantum circuits, one of the missing ingredients is a high-efficiency single-photon detector. In this work we propose a design for such ...", "citations": 101, "author_count": 7, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 780, "doi": "10.1103/PhysRevA.84.063834", "umap_coordinates": { "x": 394.92974853515625, "y": 135.62539672851562, "z": 208.2581024169922 }, "tsne_coordinates": { "x": -8.267447471618652, "y": -24.627904891967773, "z": -1.638405203819275 }, "pca_coordinates": { "x": 3.2677526473999023, "y": -0.4211862087249756, "z": 1.6277203559875488 }, "axis_scores": { "Quantum imaging": 0.721427321434021, "Quantum Life Science Sensing": 0.733925461769104, "Quantum sensing Detection": 0.732817530632019, "Quantum sensing Metrology": 0.7242841720581055, "Quantum sensing navigation": 0.7104328870773315, "Quantum sensing Position": 0.7005093693733215, "Quantum sensing Timing": 0.7020708322525024, "Quantum sensing": 0.7248883843421936, "Quantum control": 0.664046585559845 } }, { "id": 781, "title": "Fast optomechanical photon blockade", "abstract": "The photon blockade effect is commonly exploited in the development of single-photon sources. While the photon blockade effect could be used to prepare high-fidelity single-photon states in idealized ...", "citations": 6, "author_count": 4, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 781, "doi": "10.1103/PhysRevResearch.5.023148", "umap_coordinates": { "x": 395.20599365234375, "y": 135.31729125976562, "z": 207.4783477783203 }, "tsne_coordinates": { "x": -9.470196723937988, "y": -10.650086402893066, "z": -9.369833946228027 }, "pca_coordinates": { "x": 3.0269694328308105, "y": -0.06207609176635742, "z": 1.711130142211914 }, "axis_scores": { "Quantum imaging": 0.7406675815582275, "Quantum Life Science Sensing": 0.7470663189888, "Quantum sensing Detection": 0.7390906810760498, "Quantum sensing Metrology": 0.7262052297592163, "Quantum sensing navigation": 0.7324054837226868, "Quantum sensing Position": 0.7087951302528381, "Quantum sensing Timing": 0.7177439332008362, "Quantum sensing": 0.7464457750320435, "Quantum control": 0.696791410446167 } }, { "id": 782, "title": "Optical properties of strained InP quantum dots in Ga0.5In0.5P studied by space-charge techniques", "abstract": "In this paper, we report on the optical properties of coherently grown InP quantum dots embedded in Ga0.5In0.5P. Using photocurrent and photocapacitance techniques, we independently obtain an onset of...", "citations": 9, "author_count": 5, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 782, "doi": "10.1103/PhysRevB.53.R10497", "umap_coordinates": { "x": 392.8153381347656, "y": 134.6232147216797, "z": 208.7659149169922 }, "tsne_coordinates": { "x": 22.782228469848633, "y": -15.545703887939453, "z": 3.338012218475342 }, "pca_coordinates": { "x": 2.1321253776550293, "y": -2.8696141242980957, "z": 0.4513782858848572 }, "axis_scores": { "Quantum imaging": 0.7052295804023743, "Quantum Life Science Sensing": 0.7163500785827637, "Quantum sensing Detection": 0.6890589594841003, "Quantum sensing Metrology": 0.690155565738678, "Quantum sensing navigation": 0.7023202180862427, "Quantum sensing Position": 0.7109577059745789, "Quantum sensing Timing": 0.6755233407020569, "Quantum sensing": 0.7062815427780151, "Quantum control": 0.6773912906646729 } }, { "id": 783, "title": "Time-bin entangled photon pairs from quantum dots embedded in a self-aligned cavity", "abstract": "We introduce a scalable photonic platform that enables efficient generation of entangled photon pairs from a semiconductor quantum dot. Our system, which is based on a self-aligned quantum dot- micro-...", "citations": 18, "author_count": 8, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 783, "doi": "10.1364/OE.411021", "umap_coordinates": { "x": 394.61932373046875, "y": 134.1802978515625, "z": 207.2169952392578 }, "tsne_coordinates": { "x": -6.278306484222412, "y": -9.357219696044922, "z": -29.795122146606445 }, "pca_coordinates": { "x": 1.0686140060424805, "y": -1.940600872039795, "z": 3.2726006507873535 }, "axis_scores": { "Quantum imaging": 0.75709068775177, "Quantum Life Science Sensing": 0.7346526384353638, "Quantum sensing Detection": 0.7494028806686401, "Quantum sensing Metrology": 0.7389737963676453, "Quantum sensing navigation": 0.7532564997673035, "Quantum sensing Position": 0.7384966611862183, "Quantum sensing Timing": 0.7835782766342163, "Quantum sensing": 0.7560563087463379, "Quantum control": 0.7151684165000916 } }, { "id": 784, "title": "Hybrid integrated quantum photonic circuits", "abstract": "The Review summarizes the progress of hybrid quantum photonics integration in terms of its important design considerations and fabrication approaches, and highlights some successful realizations of ke...", "citations": 694, "author_count": 6, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 784, "doi": "10.1038/s41566-020-0609-x", "umap_coordinates": { "x": 393.7203063964844, "y": 134.3882598876953, "z": 206.57742309570312 }, "tsne_coordinates": { "x": -8.692882537841797, "y": 3.5291624069213867, "z": -6.5512189865112305 }, "pca_coordinates": { "x": -0.4379159212112427, "y": -2.0448355674743652, "z": 2.018890857696533 }, "axis_scores": { "Quantum imaging": 0.7979516983032227, "Quantum Life Science Sensing": 0.7717809081077576, "Quantum sensing Detection": 0.773719072341919, "Quantum sensing Metrology": 0.7540980577468872, "Quantum sensing navigation": 0.7644574642181396, "Quantum sensing Position": 0.751579761505127, "Quantum sensing Timing": 0.7325295805931091, "Quantum sensing": 0.7925633192062378, "Quantum control": 0.7436044216156006 } }, { "id": 785, "title": "Quantum Confinement Suppressing Electronic Heat Flow below the Wiedemann-Franz Law", "abstract": "The Wiedemann-Franz law states that the charge conductance and the electronic contribution to the heat conductance are proportional. This sets stringent constraints on efficiency bounds for thermoelec...", "citations": 11, "author_count": 9, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 785, "doi": "10.1021/acs.nanolett.1c03437", "umap_coordinates": { "x": 393.98846435546875, "y": 135.4198455810547, "z": 207.0737762451172 }, "tsne_coordinates": { "x": 0.23699699342250824, "y": -7.236824035644531, "z": 17.32959747314453 }, "pca_coordinates": { "x": 2.595938205718994, "y": -0.7412064075469971, "z": -1.0951149463653564 }, "axis_scores": { "Quantum imaging": 0.7401158809661865, "Quantum Life Science Sensing": 0.7360989451408386, "Quantum sensing Detection": 0.7408027648925781, "Quantum sensing Metrology": 0.7333987355232239, "Quantum sensing navigation": 0.7477086186408997, "Quantum sensing Position": 0.7181822657585144, "Quantum sensing Timing": 0.70951247215271, "Quantum sensing": 0.7491008639335632, "Quantum control": 0.7654101848602295 } }, { "id": 786, "title": "Few-electron quantum dots in nanowires", "abstract": "We demonstrate transport spectroscopy on bottom-up grown few-electron quantum dots in semiconductor nanowires. The dots are defined by InP double barrier heterostructures in InAs nanowires catalytical...", "citations": 293, "author_count": 8, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 786, "doi": "10.1021/nl049230s", "umap_coordinates": { "x": 392.78497314453125, "y": 134.31570434570312, "z": 207.6170196533203 }, "tsne_coordinates": { "x": 17.896177291870117, "y": -18.288253784179688, "z": -6.354935646057129 }, "pca_coordinates": { "x": 0.036089539527893066, "y": -4.543281078338623, "z": 0.056852519512176514 }, "axis_scores": { "Quantum imaging": 0.6895184516906738, "Quantum Life Science Sensing": 0.717087984085083, "Quantum sensing Detection": 0.7099853754043579, "Quantum sensing Metrology": 0.6950938105583191, "Quantum sensing navigation": 0.7060666680335999, "Quantum sensing Position": 0.6979323029518127, "Quantum sensing Timing": 0.678741455078125, "Quantum sensing": 0.7115230560302734, "Quantum control": 0.6764775514602661 } }, { "id": 787, "title": "Photophysics of thiophene based polymers in solution: The role of nonradiative decay processes", "abstract": "An investigation has been undertaken of the photophysics of six thiophene-based polymers. This includes the measurement of fluorescence quantum yields, quantum yields for triplet formation, and determ...", "citations": 98, "author_count": 6, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 787, "doi": "10.1063/1.1528604", "umap_coordinates": { "x": 392.4725341796875, "y": 135.91209411621094, "z": 205.67477416992188 }, "tsne_coordinates": { "x": -0.29645851254463196, "y": 1.8686485290527344, "z": -15.399340629577637 }, "pca_coordinates": { "x": -1.2230851650238037, "y": -0.9954824447631836, "z": -1.0552186965942383 }, "axis_scores": { "Quantum imaging": 0.7026360630989075, "Quantum Life Science Sensing": 0.7415634393692017, "Quantum sensing Detection": 0.7076520323753357, "Quantum sensing Metrology": 0.6743093729019165, "Quantum sensing navigation": 0.6883379220962524, "Quantum sensing Position": 0.684547483921051, "Quantum sensing Timing": 0.6979780197143555, "Quantum sensing": 0.7131439447402954, "Quantum control": 0.6841529011726379 } }, { "id": 788, "title": "Observation of Bunched Blinking from Individual CdSe/CdS and CdSe/ZnS Colloidal Quantum Dots", "abstract": "Blinking and time correlation between fluorescences of neighboring negatively charged CdSe/CdS and CdSe/ZnS colloidal quantum dots have been studied experimentally. A tendency of synchronous blinking,...", "citations": 9, "author_count": 9, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 788, "doi": "10.1021/jp208863e", "umap_coordinates": { "x": 392.1744689941406, "y": 134.62843322753906, "z": 206.71487426757812 }, "tsne_coordinates": { "x": 23.267663955688477, "y": 1.4712715148925781, "z": 4.9435296058654785 }, "pca_coordinates": { "x": -1.0702693462371826, "y": -4.677033424377441, "z": -0.04092741012573242 }, "axis_scores": { "Quantum imaging": 0.688993513584137, "Quantum Life Science Sensing": 0.7076186537742615, "Quantum sensing Detection": 0.6963084936141968, "Quantum sensing Metrology": 0.6755207777023315, "Quantum sensing navigation": 0.6720282435417175, "Quantum sensing Position": 0.6817377209663391, "Quantum sensing Timing": 0.6699033975601196, "Quantum sensing": 0.7021645903587341, "Quantum control": 0.6795722842216492 } }, { "id": 789, "title": "Electronic configurations in coupled many-electron quantum-dot systems", "abstract": "The equilibrium properties of coupled quantum-dot structures are studied in the semi-classical two-dimensional Thomas-Fermi approximation. We show that the simple analytical procedure for the solution...", "citations": 4, "author_count": 4, "categories": [ "Engineering" ], "year": 1999, "topic": [ "all" ], "embedding_index": 789, "doi": "10.1088/0268-1242/14/11/301", "umap_coordinates": { "x": 393.8561096191406, "y": 135.93038940429688, "z": 207.64862060546875 }, "tsne_coordinates": { "x": 19.13666343688965, "y": -18.058429718017578, "z": 17.686113357543945 }, "pca_coordinates": { "x": 2.4925341606140137, "y": -1.0596821308135986, "z": -0.5144783854484558 }, "axis_scores": { "Quantum imaging": 0.7250710129737854, "Quantum Life Science Sensing": 0.7054668068885803, "Quantum sensing Detection": 0.7067699432373047, "Quantum sensing Metrology": 0.6995189189910889, "Quantum sensing navigation": 0.7052732110023499, "Quantum sensing Position": 0.7084538340568542, "Quantum sensing Timing": 0.6957741379737854, "Quantum sensing": 0.7159011960029602, "Quantum control": 0.7024043798446655 } }, { "id": 790, "title": "Lower bound of energy dissipation in optical excitation transfer via optical near-field interactions", "abstract": "We theoretically analyzed the lower bound of energy dissipation required for optical excitation transfer from smaller quantum dots to larger ones via optical near-field interactions. The coherent inte...", "citations": 20, "author_count": 7, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 790, "doi": "10.1364/OE.18.00A544", "umap_coordinates": { "x": 394.2362365722656, "y": 135.3181915283203, "z": 206.9144287109375 }, "tsne_coordinates": { "x": -19.220012664794922, "y": -6.38860559463501, "z": 35.94785690307617 }, "pca_coordinates": { "x": 1.0207316875457764, "y": 0.7160656452178955, "z": 0.03162425756454468 }, "axis_scores": { "Quantum imaging": 0.7048192620277405, "Quantum Life Science Sensing": 0.6895179748535156, "Quantum sensing Detection": 0.6946520209312439, "Quantum sensing Metrology": 0.6771156787872314, "Quantum sensing navigation": 0.663748025894165, "Quantum sensing Position": 0.6670064926147461, "Quantum sensing Timing": 0.6795151829719543, "Quantum sensing": 0.6933863759040833, "Quantum control": 0.6730935573577881 } }, { "id": 791, "title": "Binarization of multioutcome measurements in high-dimensional quantum correlation experiments", "abstract": "High-dimensional systems are an important frontier for photonic quantum correlation experiments. These correlation tests commonly prescribe measurements with many possible outcomes but they are often ...", "citations": 1, "author_count": 4, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 791, "doi": "10.1103/PhysRevA.111.042433", "umap_coordinates": { "x": 395.62432861328125, "y": 135.91160583496094, "z": 207.67152404785156 }, "tsne_coordinates": { "x": -17.5064640045166, "y": -2.1357274055480957, "z": 6.692747592926025 }, "pca_coordinates": { "x": 3.36781644821167, "y": 1.5657294988632202, "z": 1.0810644626617432 }, "axis_scores": { "Quantum imaging": 0.7520286440849304, "Quantum Life Science Sensing": 0.7387215495109558, "Quantum sensing Detection": 0.7568631768226624, "Quantum sensing Metrology": 0.7466771602630615, "Quantum sensing navigation": 0.7571303844451904, "Quantum sensing Position": 0.7625330686569214, "Quantum sensing Timing": 0.7556447982788086, "Quantum sensing": 0.7639976739883423, "Quantum control": 0.7349668741226196 } }, { "id": 792, "title": "InN/InGaN quantum dot photoelectrode: Efficient hydrogen generation by water splitting at zero voltage", "abstract": "Light to hydrogen conversion via water splitting is of immense interest as a clean, storable, and InN; renewable energy source (Tachibana et al., 2012 [1]; Maeda and Domen, 2010 [2]; van de Krol et al...", "citations": 75, "author_count": 9, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 792, "doi": "10.1016/j.nanoen.2015.02.017", "umap_coordinates": { "x": 392.6912536621094, "y": 133.38864135742188, "z": 205.7343292236328 }, "tsne_coordinates": { "x": 23.527488708496094, "y": 4.8286967277526855, "z": -11.023595809936523 }, "pca_coordinates": { "x": -1.3660956621170044, "y": -3.300204277038574, "z": 0.3746177554130554 }, "axis_scores": { "Quantum imaging": 0.7258193492889404, "Quantum Life Science Sensing": 0.7309611439704895, "Quantum sensing Detection": 0.7160566449165344, "Quantum sensing Metrology": 0.689412534236908, "Quantum sensing navigation": 0.7074674367904663, "Quantum sensing Position": 0.6779465079307556, "Quantum sensing Timing": 0.6672487854957581, "Quantum sensing": 0.7205379009246826, "Quantum control": 0.688896894454956 } }, { "id": 793, "title": "Application of Non-Kolmogorovian Probability and Quantum Adaptive Dynamics to Unconscious Inference in Visual Perception Process", "abstract": "Recently a novel quantum information formalism - quantum adaptive dynamics - was developed and applied to modelling of information processing by bio-systems including cognitive phenomena: from molecul...", "citations": 5, "author_count": 6, "categories": [ "Mathematics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 793, "doi": "10.1142/S1230161216500116", "umap_coordinates": { "x": 395.34100341796875, "y": 137.33236694335938, "z": 205.99880981445312 }, "tsne_coordinates": { "x": -26.302085876464844, "y": 7.7548370361328125, "z": 15.682043075561523 }, "pca_coordinates": { "x": 1.4820752143859863, "y": 3.4057676792144775, "z": 0.7535597681999207 }, "axis_scores": { "Quantum imaging": 0.7470129728317261, "Quantum Life Science Sensing": 0.7430123686790466, "Quantum sensing Detection": 0.7398443222045898, "Quantum sensing Metrology": 0.7160770893096924, "Quantum sensing navigation": 0.75328528881073, "Quantum sensing Position": 0.7045841217041016, "Quantum sensing Timing": 0.6961642503738403, "Quantum sensing": 0.7445540428161621, "Quantum control": 0.7387690544128418 } }, { "id": 794, "title": "Out-of-time-ordered correlation functions in open systems: A Feynman-Vernon influence functional approach", "abstract": "Recent theoretical and experimental studies have shown the significance of quantum information scrambling (i.e., the spread of quantum information over a system's degrees of freedom) for problems enco...", "citations": 17, "author_count": 2, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 794, "doi": "10.1103/PhysRevA.100.062106", "umap_coordinates": { "x": 394.6040344238281, "y": 136.72689819335938, "z": 208.5201416015625 }, "tsne_coordinates": { "x": -19.39153480529785, "y": -17.51239776611328, "z": 13.076295852661133 }, "pca_coordinates": { "x": 2.85302734375, "y": 1.4817835092544556, "z": -1.2909266948699951 }, "axis_scores": { "Quantum imaging": 0.7174478769302368, "Quantum Life Science Sensing": 0.7397429943084717, "Quantum sensing Detection": 0.7013528347015381, "Quantum sensing Metrology": 0.6850310564041138, "Quantum sensing navigation": 0.7298110723495483, "Quantum sensing Position": 0.6883118152618408, "Quantum sensing Timing": 0.726104199886322, "Quantum sensing": 0.7204385995864868, "Quantum control": 0.7131823301315308 } }, { "id": 795, "title": "Quantum analog of the original Bell inequality for two-qudit states with perfect correlations/anticorrelations", "abstract": "For an even qudit dimension d >= 2, we introduce a class of two-qudit states exhibiting perfect correlations/anticorrelations and prove via the generalized Gell-Mann representation that, for each two-...", "citations": 8, "author_count": 3, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 795, "doi": "10.1088/1751-8121/ab45c3", "umap_coordinates": { "x": 395.5780029296875, "y": 136.60411071777344, "z": 206.61447143554688 }, "tsne_coordinates": { "x": -30.483675003051758, "y": -5.8824591636657715, "z": -0.9941391944885254 }, "pca_coordinates": { "x": 2.4878480434417725, "y": 2.4066715240478516, "z": 0.8541482090950012 }, "axis_scores": { "Quantum imaging": 0.7380077242851257, "Quantum Life Science Sensing": 0.7244410514831543, "Quantum sensing Detection": 0.7437223196029663, "Quantum sensing Metrology": 0.7354452013969421, "Quantum sensing navigation": 0.7339472770690918, "Quantum sensing Position": 0.7245874404907227, "Quantum sensing Timing": 0.732033371925354, "Quantum sensing": 0.7482244372367859, "Quantum control": 0.731203019618988 } }, { "id": 796, "title": "Influence of branch points in the complex plane on the transmission through double quantum dots - art. no. 066201", "abstract": "We consider single-channel transmission through a double quantum dot system consisting of two single dots that are connected by a wire and coupled each to one lead. The system is described in the fram...", "citations": 43, "author_count": 3, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 796, "doi": "10.1103/PhysRevE.69.066201", "umap_coordinates": { "x": 393.6874084472656, "y": 135.0913848876953, "z": 208.5923614501953 }, "tsne_coordinates": { "x": 2.944575786590576, "y": -34.70863342285156, "z": -5.316959857940674 }, "pca_coordinates": { "x": 2.4134368896484375, "y": -1.420959234237671, "z": 0.10704296827316284 }, "axis_scores": { "Quantum imaging": 0.7164452075958252, "Quantum Life Science Sensing": 0.7425225377082825, "Quantum sensing Detection": 0.7145614624023438, "Quantum sensing Metrology": 0.704326331615448, "Quantum sensing navigation": 0.7102826833724976, "Quantum sensing Position": 0.7163869738578796, "Quantum sensing Timing": 0.6896119117736816, "Quantum sensing": 0.718077540397644, "Quantum control": 0.7026156187057495 } }, { "id": 797, "title": "Semiconducting quantum dots: Modification and applications in biomedical science", "abstract": "Semiconductor quantum dots (SQDs) have received much attention due to their high quantum yield (QY), tunable emission spectrum, and excellent photostability. These unique optical properties endow SQDs...", "citations": 47, "author_count": 7, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 797, "doi": "10.1007/s40843-020-1330-7", "umap_coordinates": { "x": 394.1330871582031, "y": 134.31515502929688, "z": 204.55319213867188 }, "tsne_coordinates": { "x": 13.388278007507324, "y": 25.755111694335938, "z": -7.857160568237305 }, "pca_coordinates": { "x": -3.4952220916748047, "y": -0.5428578853607178, "z": -0.03264576196670532 }, "axis_scores": { "Quantum imaging": 0.7148147821426392, "Quantum Life Science Sensing": 0.760407567024231, "Quantum sensing Detection": 0.7190659046173096, "Quantum sensing Metrology": 0.7029358148574829, "Quantum sensing navigation": 0.7066124677658081, "Quantum sensing Position": 0.6996579766273499, "Quantum sensing Timing": 0.6972476243972778, "Quantum sensing": 0.7272939682006836, "Quantum control": 0.7011435031890869 } }, { "id": 798, "title": "QUANTUM CORRELATIONS FROM CLASSICAL GAUSSIAN RANDOM VARIABLES: FUNDAMENTAL ROLE OF VACUUM NOISE", "abstract": "We show that, in spite of rather common opinion, correlations of observables on subsystems of a composite quantum system can be represented as correlations of classical Gaussian variables. We restrict...", "citations": 4, "author_count": 2, "categories": [ "Mathematics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 798, "doi": "10.1142/S0219477510000265", "umap_coordinates": { "x": 395.39324951171875, "y": 137.16445922851562, "z": 206.68331909179688 }, "tsne_coordinates": { "x": -34.66755676269531, "y": 7.632208347320557, "z": 14.711285591125488 }, "pca_coordinates": { "x": 2.637303590774536, "y": 2.7880916595458984, "z": 0.5634648203849792 }, "axis_scores": { "Quantum imaging": 0.7336992621421814, "Quantum Life Science Sensing": 0.7436671853065491, "Quantum sensing Detection": 0.7548146843910217, "Quantum sensing Metrology": 0.7350301742553711, "Quantum sensing navigation": 0.7759830355644226, "Quantum sensing Position": 0.737291693687439, "Quantum sensing Timing": 0.7206056714057922, "Quantum sensing": 0.7645471692085266, "Quantum control": 0.7482384443283081 } }, { "id": 799, "title": "Bulk synthesis of transparent and homogeneous polymeric hybrid materials with ZnO quantum dots and PMMA", "abstract": "[GRAPHICS] In situ sol-gel polymerization is demonstrated for fabricating transparent poly(methyl methacrylate) (PMMA)-ZnO quantum dot (QD)-hybrid materials in bulk dimension. ne transparent PMMA-ZnO ...", "citations": 233, "author_count": 7, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 799, "doi": "10.1002/adma.200700736", "umap_coordinates": { "x": 392.8146667480469, "y": 134.40158081054688, "z": 204.98760986328125 }, "tsne_coordinates": { "x": 31.180095672607422, "y": 19.910823822021484, "z": -3.547044038772583 }, "pca_coordinates": { "x": -2.9022045135498047, "y": -2.3482613563537598, "z": 0.4079529643058777 }, "axis_scores": { "Quantum imaging": 0.7103908658027649, "Quantum Life Science Sensing": 0.7113156318664551, "Quantum sensing Detection": 0.6900159120559692, "Quantum sensing Metrology": 0.706922173500061, "Quantum sensing navigation": 0.6792836785316467, "Quantum sensing Position": 0.6735572218894958, "Quantum sensing Timing": 0.6431587338447571, "Quantum sensing": 0.7155424356460571, "Quantum control": 0.689469575881958 } }, { "id": 800, "title": "Investigation of the role of Mn dopant in CdS quantum dot sensitized solar cell", "abstract": "Mn-doping into CdS quantum dots (QDs) has been demonstrated a useful way to enhance the power conversion efficiency (PCE) of quantum dot sensitized solar cells (QDSCs), the detailed systematic study i...", "citations": 56, "author_count": 8, "categories": [ "Electrochemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 800, "doi": "10.1016/j.electacta.2016.01.056", "umap_coordinates": { "x": 393.0301208496094, "y": 134.1223907470703, "z": 206.0609893798828 }, "tsne_coordinates": { "x": 28.947912216186523, "y": 8.300381660461426, "z": 4.862955093383789 }, "pca_coordinates": { "x": -2.2001402378082275, "y": -2.107837200164795, "z": -1.7095284461975098 }, "axis_scores": { "Quantum imaging": 0.6793256998062134, "Quantum Life Science Sensing": 0.7197350263595581, "Quantum sensing Detection": 0.7005346417427063, "Quantum sensing Metrology": 0.6924718618392944, "Quantum sensing navigation": 0.6917277574539185, "Quantum sensing Position": 0.6968591809272766, "Quantum sensing Timing": 0.6566470265388489, "Quantum sensing": 0.7007696032524109, "Quantum control": 0.6796858906745911 } }, { "id": 801, "title": "Charge sharing suppression using pixel-to-pixel communication in photon counting X-ray imaging systems", "abstract": "In planar silicon detector structures, the charge sharing between pixels is one limiting factor for colour X-ray imaging using integrated photon counting pixel detectors. 3D detector structures have b...", "citations": 20, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2007, "topic": [ "all" ], "embedding_index": 801, "doi": "10.1016/j.nima.2007.01.160", "umap_coordinates": { "x": 394.9972229003906, "y": 132.70611572265625, "z": 205.32257080078125 }, "tsne_coordinates": { "x": -9.14509391784668, "y": 15.309610366821289, "z": -12.492703437805176 }, "pca_coordinates": { "x": -2.4131438732147217, "y": 0.4584094285964966, "z": 4.32869291305542 }, "axis_scores": { "Quantum imaging": 0.7482495307922363, "Quantum Life Science Sensing": 0.6942487955093384, "Quantum sensing Detection": 0.7149906754493713, "Quantum sensing Metrology": 0.7210718989372253, "Quantum sensing navigation": 0.7127156257629395, "Quantum sensing Position": 0.7057424783706665, "Quantum sensing Timing": 0.7081881165504456, "Quantum sensing": 0.7187213897705078, "Quantum control": 0.6925601363182068 } }, { "id": 802, "title": "Charge carrier traffic at self-assembled Ge quantum dots on Si", "abstract": "Germanium quantum dots (QDs) have been characterized by deep level transient spectroscopy (DLTS) and capacitance versus voltage (C-V) technique. Two types of dots, grown by molecular beam epitaxy (MBE...", "citations": 4, "author_count": 7, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 802, "doi": "10.1016/j.sse.2013.01.025", "umap_coordinates": { "x": 392.7489318847656, "y": 133.8599395751953, "z": 207.1807098388672 }, "tsne_coordinates": { "x": 37.74692916870117, "y": -7.552506923675537, "z": 6.241718292236328 }, "pca_coordinates": { "x": -0.49687910079956055, "y": -2.4023056030273438, "z": 0.1088443398475647 }, "axis_scores": { "Quantum imaging": 0.7316581606864929, "Quantum Life Science Sensing": 0.7233235836029053, "Quantum sensing Detection": 0.7138975858688354, "Quantum sensing Metrology": 0.6859757304191589, "Quantum sensing navigation": 0.7250665426254272, "Quantum sensing Position": 0.7010843753814697, "Quantum sensing Timing": 0.667363166809082, "Quantum sensing": 0.7190680503845215, "Quantum control": 0.7103465795516968 } }, { "id": 803, "title": "Three-photon cascade from single self-assembled InP quantum dots - art. no. 233314", "abstract": "We present photon correlation measurements performed on single self-assembled InP quantum dots in a GaInP barrier. Correlation measurements done under continuous excitation reveal a pronounced antibun...", "citations": 50, "author_count": 6, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 803, "doi": "10.1103/PhysRevB.69.233314", "umap_coordinates": { "x": 394.1374816894531, "y": 134.3726043701172, "z": 208.9462127685547 }, "tsne_coordinates": { "x": 6.549898147583008, "y": -31.051862716674805, "z": -4.5974040031433105 }, "pca_coordinates": { "x": 3.320603370666504, "y": -3.138148307800293, "z": 1.7198200225830078 }, "axis_scores": { "Quantum imaging": 0.721642017364502, "Quantum Life Science Sensing": 0.73792564868927, "Quantum sensing Detection": 0.739766001701355, "Quantum sensing Metrology": 0.721213161945343, "Quantum sensing navigation": 0.7061530351638794, "Quantum sensing Position": 0.6813271045684814, "Quantum sensing Timing": 0.663312554359436, "Quantum sensing": 0.7379875183105469, "Quantum control": 0.6957710981369019 } }, { "id": 804, "title": "Correspondence between entangled states and entangled bases under local transformations", "abstract": "We investigate whether pure entangled states can be associated to a measurement basis in which all vectors are local unitary transformations of the original state. We prove that for bipartite states w...", "citations": 5, "author_count": 4, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 804, "doi": "10.1103/PhysRevA.108.022220", "umap_coordinates": { "x": 395.6175537109375, "y": 137.0450439453125, "z": 207.9000244140625 }, "tsne_coordinates": { "x": -25.57908821105957, "y": -8.400093078613281, "z": 9.003849029541016 }, "pca_coordinates": { "x": 4.788029193878174, "y": 1.3794249296188354, "z": 0.14077246189117432 }, "axis_scores": { "Quantum imaging": 0.7240042090415955, "Quantum Life Science Sensing": 0.7227956056594849, "Quantum sensing Detection": 0.7302181720733643, "Quantum sensing Metrology": 0.7224674224853516, "Quantum sensing navigation": 0.7268661260604858, "Quantum sensing Position": 0.7288476228713989, "Quantum sensing Timing": 0.7075859904289246, "Quantum sensing": 0.7403268814086914, "Quantum control": 0.7218778729438782 } }, { "id": 805, "title": "QEPP: A Quantum Efficient Privacy Protection Protocol in 6G-Quantum Internet of Vehicles", "abstract": "The increasing popularity of 6G communication within the Internet of Vehicles (IoV) ecosystem is expected to induce a surge in both user numbers and data volumes. This expansion will cause substantial...", "citations": 12, "author_count": 5, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 805, "doi": "10.1109/TIV.2023.3304852", "umap_coordinates": { "x": 395.0530090332031, "y": 135.53793334960938, "z": 205.99484252929688 }, "tsne_coordinates": { "x": -0.5775022506713867, "y": 6.2343974113464355, "z": -37.48624801635742 }, "pca_coordinates": { "x": 0.2890528440475464, "y": 1.5062787532806396, "z": 1.4726829528808594 }, "axis_scores": { "Quantum imaging": 0.7675668001174927, "Quantum Life Science Sensing": 0.7564700841903687, "Quantum sensing Detection": 0.7484937310218811, "Quantum sensing Metrology": 0.7376120090484619, "Quantum sensing navigation": 0.7680906653404236, "Quantum sensing Position": 0.7172483205795288, "Quantum sensing Timing": 0.730192244052887, "Quantum sensing": 0.7615482807159424, "Quantum control": 0.7598602175712585 } }, { "id": 806, "title": "A blueprint for a simultaneous test of quantum mechanics and general relativity in a space-based quantum optics experiment", "abstract": "In this paper we propose an experiment designed to observe a general-relativistic effect on single photon interference. The experiment consists of a folded Mach-Zehnder interferometer, with the arms d...", "citations": 14, "author_count": 16, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 806, "doi": "10.1140/epjqt/s40507-017-0055-y", "umap_coordinates": { "x": 395.9557189941406, "y": 135.35379028320312, "z": 206.3829803466797 }, "tsne_coordinates": { "x": -28.280288696289062, "y": 13.07544994354248, "z": 1.8048357963562012 }, "pca_coordinates": { "x": 0.9912858009338379, "y": 3.6379499435424805, "z": 2.3611979484558105 }, "axis_scores": { "Quantum imaging": 0.7119007110595703, "Quantum Life Science Sensing": 0.7122563123703003, "Quantum sensing Detection": 0.7115084528923035, "Quantum sensing Metrology": 0.7083365321159363, "Quantum sensing navigation": 0.7328137755393982, "Quantum sensing Position": 0.7289525270462036, "Quantum sensing Timing": 0.7157564759254456, "Quantum sensing": 0.719146728515625, "Quantum control": 0.6951675415039062 } }, { "id": 807, "title": "Deterministic Loading of Microwaves onto an Artificial Atom Using a Time-Reversed Waveform", "abstract": "Loading quantum information deterministically onto a quantum node is an important step toward a quantum network. Here, we demonstrate that coherent-state microwave photons with an optimal temporal wav...", "citations": 12, "author_count": 20, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 807, "doi": "10.1021/acs.nanolett.2c02578", "umap_coordinates": { "x": 394.71234130859375, "y": 135.66090393066406, "z": 207.48446655273438 }, "tsne_coordinates": { "x": -5.609800815582275, "y": -24.48604393005371, "z": -15.548175811767578 }, "pca_coordinates": { "x": 1.000551700592041, "y": 0.5852092504501343, "z": 0.4503905177116394 }, "axis_scores": { "Quantum imaging": 0.6998683214187622, "Quantum Life Science Sensing": 0.7018829584121704, "Quantum sensing Detection": 0.6912554502487183, "Quantum sensing Metrology": 0.6796270608901978, "Quantum sensing navigation": 0.7110313773155212, "Quantum sensing Position": 0.6742331385612488, "Quantum sensing Timing": 0.7215785384178162, "Quantum sensing": 0.7045639753341675, "Quantum control": 0.6811907291412354 } }, { "id": 808, "title": "Abnormal temperature dependence of photoluminescence from self-assembled InAs quantum dots covered by an InAlAs/InGaAs combination layer", "abstract": "In this report we have investigated the temperature dependence of photoluminescence (PL) from self-assembled InAs quantum dots (QDs) covered by an InAlAs/InGaAs combination layer. The ground state exp...", "citations": 3, "author_count": 10, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 808, "doi": "10.1016/S0038-1098(03)00186-8", "umap_coordinates": { "x": 392.5757141113281, "y": 133.68597412109375, "z": 207.4943389892578 }, "tsne_coordinates": { "x": 30.94953727722168, "y": -13.570524215698242, "z": 9.672370910644531 }, "pca_coordinates": { "x": -1.0167551040649414, "y": -2.482184410095215, "z": 2.0299692153930664 }, "axis_scores": { "Quantum imaging": 0.6987650394439697, "Quantum Life Science Sensing": 0.7122299671173096, "Quantum sensing Detection": 0.6953073143959045, "Quantum sensing Metrology": 0.6760307550430298, "Quantum sensing navigation": 0.6673375368118286, "Quantum sensing Position": 0.687584400177002, "Quantum sensing Timing": 0.6746719479560852, "Quantum sensing": 0.6940528750419617, "Quantum control": 0.6410664319992065 } }, { "id": 809, "title": "Machine-learned correction to ensemble-averaged wave packet dynamics", "abstract": "For a detailed understanding of many processes in nature involving, for example, energy or electron transfer, the theory of open quantum systems is of key importance. For larger systems, an accurate d...", "citations": 6, "author_count": 5, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 809, "doi": "10.1063/5.0166694", "umap_coordinates": { "x": 394.4142761230469, "y": 136.4030303955078, "z": 207.6222381591797 }, "tsne_coordinates": { "x": 8.77006721496582, "y": -12.736666679382324, "z": -19.502716064453125 }, "pca_coordinates": { "x": 2.9345221519470215, "y": 0.3904144763946533, "z": 0.23787367343902588 }, "axis_scores": { "Quantum imaging": 0.7060288786888123, "Quantum Life Science Sensing": 0.7173115611076355, "Quantum sensing Detection": 0.7041575908660889, "Quantum sensing Metrology": 0.7095078229904175, "Quantum sensing navigation": 0.7218785285949707, "Quantum sensing Position": 0.6968857049942017, "Quantum sensing Timing": 0.6843835711479187, "Quantum sensing": 0.723186194896698, "Quantum control": 0.7108150720596313 } }, { "id": 810, "title": "Observation of multiple steady states with engineered dissipation", "abstract": "Simulating the dynamics of open quantum systems is essential in achieving practical quantum computation and understanding novel nonequilibrium behaviors. However, quantum simulation of a many-body sys...", "citations": 6, "author_count": 13, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 810, "doi": "10.1038/s41534-025-00958-6", "umap_coordinates": { "x": 394.2724304199219, "y": 135.9895477294922, "z": 206.8053436279297 }, "tsne_coordinates": { "x": -9.009974479675293, "y": -6.006214618682861, "z": 18.097084045410156 }, "pca_coordinates": { "x": 0.44386374950408936, "y": 0.6085178852081299, "z": -0.12332284450531006 }, "axis_scores": { "Quantum imaging": 0.7140192985534668, "Quantum Life Science Sensing": 0.735725998878479, "Quantum sensing Detection": 0.7176992893218994, "Quantum sensing Metrology": 0.7069565057754517, "Quantum sensing navigation": 0.7005078196525574, "Quantum sensing Position": 0.6875354647636414, "Quantum sensing Timing": 0.6886579394340515, "Quantum sensing": 0.7161268591880798, "Quantum control": 0.6801750659942627 } }, { "id": 811, "title": "Windows and photocathodes for a high resolution solid state bandpass ultraviolet photon detector for inverse photoemission", "abstract": "We have measured the absolute quantum yield for alkali halides and the spectral transmission for alkaline earth fluoride windows to find an optimized bandpass combination for a solid state ultraviolet...", "citations": 34, "author_count": 4, "categories": [ "Instruments & Instrumentation" ], "year": 1997, "topic": [ "all" ], "embedding_index": 811, "doi": "10.1063/1.1147844", "umap_coordinates": { "x": 394.6656494140625, "y": 134.00125122070312, "z": 206.38330078125 }, "tsne_coordinates": { "x": -14.476484298706055, "y": -3.308814764022827, "z": -23.67274284362793 }, "pca_coordinates": { "x": -0.4365135431289673, "y": -2.0480456352233887, "z": 3.6014819145202637 }, "axis_scores": { "Quantum imaging": 0.7011602520942688, "Quantum Life Science Sensing": 0.7145719528198242, "Quantum sensing Detection": 0.700581431388855, "Quantum sensing Metrology": 0.6881159543991089, "Quantum sensing navigation": 0.6767156720161438, "Quantum sensing Position": 0.6525018811225891, "Quantum sensing Timing": 0.6667121648788452, "Quantum sensing": 0.7069352865219116, "Quantum control": 0.6359801292419434 } }, { "id": 812, "title": "A Novel Graphene Quantum Dot-Based mRNA Delivery Platform", "abstract": ": During the last decades, there has been growing interest in using therapeutic messager RNA (mRNA) together with drug delivery systems. Naked, unformulated mRNA is, however, unable to cross the cell ...", "citations": 36, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 812, "doi": "10.1002/open.202000200", "umap_coordinates": { "x": 393.29583740234375, "y": 135.07655334472656, "z": 204.60528564453125 }, "tsne_coordinates": { "x": 11.103259086608887, "y": 14.447648048400879, "z": 2.1488780975341797 }, "pca_coordinates": { "x": -2.5690977573394775, "y": -0.514434814453125, "z": -0.3944956660270691 }, "axis_scores": { "Quantum imaging": 0.7285103797912598, "Quantum Life Science Sensing": 0.7562688589096069, "Quantum sensing Detection": 0.7393515706062317, "Quantum sensing Metrology": 0.7018685340881348, "Quantum sensing navigation": 0.7386699914932251, "Quantum sensing Position": 0.706726610660553, "Quantum sensing Timing": 0.6894309520721436, "Quantum sensing": 0.7446634769439697, "Quantum control": 0.7428345084190369 } }, { "id": 813, "title": "Influence of GaAsBi Matrix on Optical and Structural Properties of InAs Quantum Dots", "abstract": "InAs/GaAsBi dot-in-well structures were fabricated using gas-source molecular beam epitaxy and investigated for its optical and structural properties. GaAsBi-strained buffer layer and strain reduction...", "citations": 7, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 813, "doi": "10.1186/s11671-016-1470-1", "umap_coordinates": { "x": 392.6853942871094, "y": 134.13331604003906, "z": 207.35533142089844 }, "tsne_coordinates": { "x": 35.67514419555664, "y": -2.606778621673584, "z": 8.19059944152832 }, "pca_coordinates": { "x": -1.0049840211868286, "y": -2.50199556350708, "z": -0.024049580097198486 }, "axis_scores": { "Quantum imaging": 0.726637065410614, "Quantum Life Science Sensing": 0.7234357595443726, "Quantum sensing Detection": 0.7024869322776794, "Quantum sensing Metrology": 0.7072367668151855, "Quantum sensing navigation": 0.6954548358917236, "Quantum sensing Position": 0.6924281120300293, "Quantum sensing Timing": 0.6757436394691467, "Quantum sensing": 0.7209535241127014, "Quantum control": 0.6966557502746582 } }, { "id": 814, "title": "Log-normal distribution of single molecule fluorescence bursts in micro/nano-fluidic channels", "abstract": "The width and shape of photon burst histograms pose significant limitations to the identification of single molecules in micro/nano-fluidic channels, and the nature of these histograms is not fully un...", "citations": 12, "author_count": 5, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 814, "doi": "10.1063/1.3648118", "umap_coordinates": { "x": 394.3365173339844, "y": 134.8065185546875, "z": 207.43563842773438 }, "tsne_coordinates": { "x": -19.018260955810547, "y": -16.20891571044922, "z": -28.80565643310547 }, "pca_coordinates": { "x": 0.3836522102355957, "y": -0.14480352401733398, "z": -0.1369214653968811 }, "axis_scores": { "Quantum imaging": 0.7252914905548096, "Quantum Life Science Sensing": 0.7576516270637512, "Quantum sensing Detection": 0.7334365248680115, "Quantum sensing Metrology": 0.7193170785903931, "Quantum sensing navigation": 0.7277312874794006, "Quantum sensing Position": 0.7005715370178223, "Quantum sensing Timing": 0.7062897682189941, "Quantum sensing": 0.7411583662033081, "Quantum control": 0.7063632607460022 } }, { "id": 815, "title": "Partial-Measurement Backaction and Nonclassical Weak Values in a Superconducting Circuit", "abstract": "We realize indirect partial measurement of a transmon qubit in circuit quantum electrodynamics by interaction with an ancilla qubit and projective ancilla measurement with a dedicated readout resonato...", "citations": 167, "author_count": 9, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 815, "doi": "10.1103/PhysRevLett.111.090506", "umap_coordinates": { "x": 395.9497375488281, "y": 136.84661865234375, "z": 207.37625122070312 }, "tsne_coordinates": { "x": -25.279052734375, "y": -5.614861488342285, "z": 5.8415446281433105 }, "pca_coordinates": { "x": 4.1374359130859375, "y": 2.0042314529418945, "z": 1.5235140323638916 }, "axis_scores": { "Quantum imaging": 0.7020671963691711, "Quantum Life Science Sensing": 0.7183229327201843, "Quantum sensing Detection": 0.7312402725219727, "Quantum sensing Metrology": 0.7154721617698669, "Quantum sensing navigation": 0.723292350769043, "Quantum sensing Position": 0.731904149055481, "Quantum sensing Timing": 0.7006768584251404, "Quantum sensing": 0.7336448431015015, "Quantum control": 0.6819794774055481 } }, { "id": 816, "title": "Three-Dimensional Wiring for Extensible Quantum Computing: The Quantum Socket", "abstract": "Quantum computing architectures are on the verge of scalability, a key requirement for the implementation of a universal quantum computer. The next stage in this quest is the realization of quantum er...", "citations": 62, "author_count": 15, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 816, "doi": "10.1103/PhysRevApplied.6.044010", "umap_coordinates": { "x": 395.2720642089844, "y": 136.53738403320312, "z": 207.70574951171875 }, "tsne_coordinates": { "x": -17.866687774658203, "y": -20.123109817504883, "z": 1.0505808591842651 }, "pca_coordinates": { "x": 2.4348700046539307, "y": 0.14952301979064941, "z": 0.6696366667747498 }, "axis_scores": { "Quantum imaging": 0.7210445404052734, "Quantum Life Science Sensing": 0.737555980682373, "Quantum sensing Detection": 0.7322459816932678, "Quantum sensing Metrology": 0.7127341032028198, "Quantum sensing navigation": 0.7418006658554077, "Quantum sensing Position": 0.7101112604141235, "Quantum sensing Timing": 0.7157784700393677, "Quantum sensing": 0.7488925457000732, "Quantum control": 0.721177875995636 } }, { "id": 817, "title": "Phase space topology of a switching current detector", "abstract": "We examine in theory and by numerical simulation, the dynamic process of switching from a zero voltage to a finite voltage state in a Josephson junction circuit. The theoretical model describes small ...", "citations": 1, "author_count": 7, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 817, "doi": "10.1103/PhysRevB.73.132511", "umap_coordinates": { "x": 394.2397766113281, "y": 136.43605041503906, "z": 208.50733947753906 }, "tsne_coordinates": { "x": -21.524368286132812, "y": -20.4823055267334, "z": 16.460561752319336 }, "pca_coordinates": { "x": 3.6724066734313965, "y": 0.6507711410522461, "z": -0.5173077583312988 }, "axis_scores": { "Quantum imaging": 0.7270470261573792, "Quantum Life Science Sensing": 0.7382073998451233, "Quantum sensing Detection": 0.7260197401046753, "Quantum sensing Metrology": 0.7129673361778259, "Quantum sensing navigation": 0.7420137524604797, "Quantum sensing Position": 0.7249459028244019, "Quantum sensing Timing": 0.7109940052032471, "Quantum sensing": 0.7335425019264221, "Quantum control": 0.7244541645050049 } }, { "id": 818, "title": "Deterministic generation of shaped single microwave photons using a parametrically driven coupler", "abstract": "A distributed quantum computing system requires a quantum communication channel between spatially separated processing units. In superconducting circuits, such a channel can be realized by using propa...", "citations": 9, "author_count": 9, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 818, "doi": "10.1103/PhysRevApplied.20.054018", "umap_coordinates": { "x": 394.9977111816406, "y": 133.9697265625, "z": 208.0679473876953 }, "tsne_coordinates": { "x": -2.81591796875, "y": -23.806726455688477, "z": -14.758866310119629 }, "pca_coordinates": { "x": 2.957343578338623, "y": -1.060828685760498, "z": 2.9760591983795166 }, "axis_scores": { "Quantum imaging": 0.7248144745826721, "Quantum Life Science Sensing": 0.7505890130996704, "Quantum sensing Detection": 0.7496792674064636, "Quantum sensing Metrology": 0.7346733212471008, "Quantum sensing navigation": 0.7332866191864014, "Quantum sensing Position": 0.7021076679229736, "Quantum sensing Timing": 0.7147802114486694, "Quantum sensing": 0.7524778246879578, "Quantum control": 0.7132630348205566 } }, { "id": 819, "title": "Two-dimensional MAS NMR correlation protocols involving double-quantum filtering of quadrupolar spin-pairs", "abstract": "Three two-dimensional (2D) NMR homonuclear correlation techniques invoking double-quantum (2Q) filtration of the central transitions of half-integer spins are evaluated numerically and experimentally....", "citations": 22, "author_count": 2, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 819, "doi": "10.1016/j.jmr.2010.02.007", "umap_coordinates": { "x": 392.5996398925781, "y": 137.12767028808594, "z": 206.84274291992188 }, "tsne_coordinates": { "x": 14.91635799407959, "y": 1.2958457469940186, "z": 30.59364128112793 }, "pca_coordinates": { "x": -0.3040515184402466, "y": 3.0618598461151123, "z": -0.2891468405723572 }, "axis_scores": { "Quantum imaging": 0.7285277247428894, "Quantum Life Science Sensing": 0.7220926284790039, "Quantum sensing Detection": 0.7082476615905762, "Quantum sensing Metrology": 0.7253677248954773, "Quantum sensing navigation": 0.7238326668739319, "Quantum sensing Position": 0.7012405395507812, "Quantum sensing Timing": 0.711482048034668, "Quantum sensing": 0.7295735478401184, "Quantum control": 0.7146189212799072 } }, { "id": 820, "title": "Comprehensive study of InAs/GaAs quantum dots by means of complementary methods", "abstract": "Structural, optical, and electronic properties of self-organized InAs/GaAs quantum dots (QDs) were studied by means of atomic force microscopy (AFM), photoluminescence measurements (PL), and deep leve...", "citations": 3, "author_count": 8, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 820, "doi": "10.1016/j.mseb.2009.05.016", "umap_coordinates": { "x": 392.8942565917969, "y": 133.98324584960938, "z": 207.4156494140625 }, "tsne_coordinates": { "x": 39.01990509033203, "y": -6.804318428039551, "z": 10.131251335144043 }, "pca_coordinates": { "x": -1.7169382572174072, "y": -1.9497246742248535, "z": 2.148301124572754 }, "axis_scores": { "Quantum imaging": 0.732398271560669, "Quantum Life Science Sensing": 0.7401179075241089, "Quantum sensing Detection": 0.7474608421325684, "Quantum sensing Metrology": 0.7375231385231018, "Quantum sensing navigation": 0.7248280048370361, "Quantum sensing Position": 0.718147873878479, "Quantum sensing Timing": 0.7025847434997559, "Quantum sensing": 0.7499663233757019, "Quantum control": 0.6928740739822388 } }, { "id": 821, "title": "Transfer dynamics of spin-polarized excitons into semiconductor quantum dots", "abstract": "We study oil the transfer dynamics of spin-polarized excitons into self-assembled quantum dots (QDs) of CdSe coupled with a diluted magnetic semiconductor (DMS) layer of ZnMnSe through a ZnSe barrier ...", "citations": 1, "author_count": 10, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 821, "doi": "10.1016/j.jlumin.2009.03.036", "umap_coordinates": { "x": 392.8135070800781, "y": 135.13455200195312, "z": 206.8498992919922 }, "tsne_coordinates": { "x": 21.49567222595215, "y": 0.09334888309240341, "z": 16.285860061645508 }, "pca_coordinates": { "x": -0.5329538583755493, "y": -3.2601494789123535, "z": -2.0450632572174072 }, "axis_scores": { "Quantum imaging": 0.7348737120628357, "Quantum Life Science Sensing": 0.7277774810791016, "Quantum sensing Detection": 0.7137606143951416, "Quantum sensing Metrology": 0.6807399988174438, "Quantum sensing navigation": 0.7040247917175293, "Quantum sensing Position": 0.6963698267936707, "Quantum sensing Timing": 0.6748150587081909, "Quantum sensing": 0.7265940308570862, "Quantum control": 0.7103968262672424 } }, { "id": 822, "title": "Simulations of subatomic many-body physics on a quantum frequency processor", "abstract": "Simulating complex many-body quantum phenomena is a major scientific impetus behind the development of quantum computing, and a range of technologies are being explored to address such systems. We pre...", "citations": 117, "author_count": 12, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 822, "doi": "10.1103/PhysRevA.100.012320", "umap_coordinates": { "x": 394.73895263671875, "y": 136.7090606689453, "z": 207.5458526611328 }, "tsne_coordinates": { "x": -21.510196685791016, "y": -27.118820190429688, "z": -2.31522274017334 }, "pca_coordinates": { "x": 4.051199913024902, "y": 0.743135929107666, "z": 0.5236454606056213 }, "axis_scores": { "Quantum imaging": 0.7409824728965759, "Quantum Life Science Sensing": 0.7681960463523865, "Quantum sensing Detection": 0.7361963987350464, "Quantum sensing Metrology": 0.7340559363365173, "Quantum sensing navigation": 0.724499523639679, "Quantum sensing Position": 0.6902608871459961, "Quantum sensing Timing": 0.7098934650421143, "Quantum sensing": 0.7556394338607788, "Quantum control": 0.717296302318573 } }, { "id": 823, "title": "Single V2 defect in 4H silicon carbide Schottky diode at low temperature", "abstract": "Nanoelectrical and photonic integration of quantum optical components is crucial for scalable solid-state quantum technologies. Silicon carbide stands out as a material with mature quantum defects and...", "citations": 3, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 823, "doi": "10.1038/s41467-025-59647-9", "umap_coordinates": { "x": 394.0552673339844, "y": 134.10415649414062, "z": 207.43905639648438 }, "tsne_coordinates": { "x": 5.498194694519043, "y": -18.990156173706055, "z": -18.86219596862793 }, "pca_coordinates": { "x": -0.1464611291885376, "y": -2.3009471893310547, "z": 0.9212126135826111 }, "axis_scores": { "Quantum imaging": 0.688777506351471, "Quantum Life Science Sensing": 0.7246639728546143, "Quantum sensing Detection": 0.7044058442115784, "Quantum sensing Metrology": 0.694837212562561, "Quantum sensing navigation": 0.680988609790802, "Quantum sensing Position": 0.6897628307342529, "Quantum sensing Timing": 0.6900778412818909, "Quantum sensing": 0.7083601355552673, "Quantum control": 0.6819985508918762 } }, { "id": 824, "title": "Optimized Long-Range Corrected Density Functionals for Electronic and Optical Properties of Bare and Ligated CdSe Quantum Dots", "abstract": "The reliable prediction of optical and fundamental gaps of finite size systems using density functional theory requires to account for the potential self-interaction error, which is notorious for degr...", "citations": 10, "author_count": 6, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 824, "doi": "10.1021/acs.jctc.6b01039", "umap_coordinates": { "x": 391.95220947265625, "y": 134.73397827148438, "z": 204.9405517578125 }, "tsne_coordinates": { "x": 19.453344345092773, "y": 6.817568302154541, "z": -17.032838821411133 }, "pca_coordinates": { "x": -1.9790210723876953, "y": -3.4685144424438477, "z": -2.0565686225891113 }, "axis_scores": { "Quantum imaging": 0.6750932335853577, "Quantum Life Science Sensing": 0.7066997289657593, "Quantum sensing Detection": 0.654837965965271, "Quantum sensing Metrology": 0.6597379446029663, "Quantum sensing navigation": 0.661178708076477, "Quantum sensing Position": 0.6529375314712524, "Quantum sensing Timing": 0.6371994614601135, "Quantum sensing": 0.6759414076805115, "Quantum control": 0.6728265285491943 } }, { "id": 825, "title": "The interactions between the fluorescent dye thiazole orange and DNA", "abstract": "The interaction of the fluorescent dye thiazole orange (TO) with nucleic acids is characterized It is found that TO binds with highest affinity to double-stranded (ds) DNA [log(K) approximate to 5.5 a...", "citations": 479, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1998, "topic": [ "all" ], "embedding_index": 825, "doi": "10.1002/(SICI)1097-0282(199807)46:1<39::AID-BIP4>3.0.CO;2-Z", "umap_coordinates": { "x": 393.26519775390625, "y": 136.49456787109375, "z": 204.7688751220703 }, "tsne_coordinates": { "x": 5.456684589385986, "y": 15.811620712280273, "z": 3.276263475418091 }, "pca_coordinates": { "x": -1.128436803817749, "y": 1.1085875034332275, "z": -1.3573997020721436 }, "axis_scores": { "Quantum imaging": 0.7512602806091309, "Quantum Life Science Sensing": 0.7351014018058777, "Quantum sensing Detection": 0.736700177192688, "Quantum sensing Metrology": 0.7065947651863098, "Quantum sensing navigation": 0.7402424216270447, "Quantum sensing Position": 0.7137126922607422, "Quantum sensing Timing": 0.7095733284950256, "Quantum sensing": 0.7457184791564941, "Quantum control": 0.7332112193107605 } }, { "id": 826, "title": "Quantum Analog of Landau-Lifshitz-Gilbert Dynamics", "abstract": "The Landau-Lifshitz-Gilbert (LLG) and Landau-Lifshitz (LL) equations play an essential role for describing the dynamics of magnetization in solids. While a quantum analog of the LL dynamics has been p...", "citations": 2, "author_count": 11, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 826, "doi": "10.1103/PhysRevLett.133.266704", "umap_coordinates": { "x": 394.9485778808594, "y": 136.9944610595703, "z": 207.70831298828125 }, "tsne_coordinates": { "x": -21.954875946044922, "y": -20.77412986755371, "z": 4.511775493621826 }, "pca_coordinates": { "x": 6.210153102874756, "y": 0.8590859174728394, "z": -1.359398603439331 }, "axis_scores": { "Quantum imaging": 0.7723304033279419, "Quantum Life Science Sensing": 0.7966868281364441, "Quantum sensing Detection": 0.7781057357788086, "Quantum sensing Metrology": 0.763590395450592, "Quantum sensing navigation": 0.7788842916488647, "Quantum sensing Position": 0.7509615421295166, "Quantum sensing Timing": 0.7520368695259094, "Quantum sensing": 0.7909247875213623, "Quantum control": 0.7761284112930298 } }, { "id": 827, "title": "Can Bohmian Quantum Information Help us to Understand Consciousness?", "abstract": "", "citations": 5, "author_count": 2, "categories": [ "Computer Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 827, "doi": "10.1007/978-3-319-28675-4_6", "umap_coordinates": { "x": 395.0167236328125, "y": 136.79212951660156, "z": 205.58334350585938 }, "tsne_coordinates": { "x": -16.12436294555664, "y": 15.396180152893066, "z": 7.618781566619873 }, "pca_coordinates": { "x": 0.9812419414520264, "y": 2.9968395233154297, "z": -0.19330763816833496 }, "axis_scores": { "Quantum imaging": 0.7658377289772034, "Quantum Life Science Sensing": 0.7610925436019897, "Quantum sensing Detection": 0.7443146705627441, "Quantum sensing Metrology": 0.7509506940841675, "Quantum sensing navigation": 0.7688804268836975, "Quantum sensing Position": 0.7251261472702026, "Quantum sensing Timing": 0.6892232298851013, "Quantum sensing": 0.7725909948348999, "Quantum control": 0.7331311106681824 } }, { "id": 828, "title": "STM-based luminescence spectroscopy on single quantum dots", "abstract": "The ability to fabricate quantum dots using the Stranski-Krastanow growth technique has improved dramatically during the last number of years. Due to the large number of dots formed (typically 10(8)-1...", "citations": 8, "author_count": 6, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 828, "doi": "10.1016/S0921-5107(96)01687-X", "umap_coordinates": { "x": 394.083984375, "y": 133.54953002929688, "z": 207.5063018798828 }, "tsne_coordinates": { "x": 38.6668586730957, "y": 3.366034984588623, "z": -1.1077383756637573 }, "pca_coordinates": { "x": -1.5920895338058472, "y": -2.803508758544922, "z": 2.339111804962158 }, "axis_scores": { "Quantum imaging": 0.7090753316879272, "Quantum Life Science Sensing": 0.7473688721656799, "Quantum sensing Detection": 0.733344554901123, "Quantum sensing Metrology": 0.7357749342918396, "Quantum sensing navigation": 0.7004389762878418, "Quantum sensing Position": 0.7182252407073975, "Quantum sensing Timing": 0.6901607513427734, "Quantum sensing": 0.7405973672866821, "Quantum control": 0.6601094007492065 } }, { "id": 829, "title": "Observer model optimization of a spectral mammography system", "abstract": "Spectral imaging is a method in medical x-ray imaging to extract information about the object constituents by the material-specific energy dependence of x-ray attenuation. Contrast-enhanced spectral i...", "citations": 7, "author_count": 6, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 829, "doi": "10.1117/12.845480", "umap_coordinates": { "x": 395.61181640625, "y": 132.7362823486328, "z": 205.77894592285156 }, "tsne_coordinates": { "x": -7.591294765472412, "y": 23.766813278198242, "z": -27.197723388671875 }, "pca_coordinates": { "x": -1.3934156894683838, "y": 2.3935678005218506, "z": 2.6327834129333496 }, "axis_scores": { "Quantum imaging": 0.7268194556236267, "Quantum Life Science Sensing": 0.7125688195228577, "Quantum sensing Detection": 0.7264284491539001, "Quantum sensing Metrology": 0.7239663004875183, "Quantum sensing navigation": 0.7129117846488953, "Quantum sensing Position": 0.6970851421356201, "Quantum sensing Timing": 0.6833016872406006, "Quantum sensing": 0.7239379286766052, "Quantum control": 0.6853825449943542 } }, { "id": 830, "title": "Comment on dissipative quantum dynamics with a Lindblad functional - Gao replies", "abstract": "", "citations": 9, "author_count": 2, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 830, "doi": "10.1103/PhysRevLett.80.5703", "umap_coordinates": { "x": 395.0990295410156, "y": 136.2910614013672, "z": 208.52183532714844 }, "tsne_coordinates": { "x": -27.03459358215332, "y": -21.60625648498535, "z": 10.649663925170898 }, "pca_coordinates": { "x": 4.764163494110107, "y": 1.6437288522720337, "z": -0.7889081239700317 }, "axis_scores": { "Quantum imaging": 0.6796528697013855, "Quantum Life Science Sensing": 0.69610196352005, "Quantum sensing Detection": 0.6785053014755249, "Quantum sensing Metrology": 0.6614524126052856, "Quantum sensing navigation": 0.7088127136230469, "Quantum sensing Position": 0.6799209117889404, "Quantum sensing Timing": 0.6714444160461426, "Quantum sensing": 0.6870269179344177, "Quantum control": 0.6876087784767151 } }, { "id": 831, "title": "Quantum dynamics of a d-wave Josephson junction", "abstract": "Here we present the direct observation of macroscopic quantum properties in an all high-critical-temperature superconductor d-wave Josephson junction. Although dissipation caused by low-energy excitat...", "citations": 109, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 831, "doi": "10.1126/science.1120793", "umap_coordinates": { "x": 394.08563232421875, "y": 135.63052368164062, "z": 207.9457244873047 }, "tsne_coordinates": { "x": -0.005220696795731783, "y": -13.256194114685059, "z": 20.083419799804688 }, "pca_coordinates": { "x": 3.5759716033935547, "y": -0.7465226650238037, "z": -0.3694050908088684 }, "axis_scores": { "Quantum imaging": 0.7707783579826355, "Quantum Life Science Sensing": 0.7940165400505066, "Quantum sensing Detection": 0.7701698541641235, "Quantum sensing Metrology": 0.7522825598716736, "Quantum sensing navigation": 0.7825032472610474, "Quantum sensing Position": 0.740006685256958, "Quantum sensing Timing": 0.7415966987609863, "Quantum sensing": 0.7775798439979553, "Quantum control": 0.760560929775238 } }, { "id": 832, "title": "Accuracy of quantum simulators with ultracold dipolar molecules: A quantitative comparison between continuum and lattice descriptions", "abstract": "With rapid progress in control and manipulation of ultracold magnetic atoms and dipolar molecules, the quan-tum simulation of lattice models with strongly interacting dipole-dipole interactions (DDIs)...", "citations": 21, "author_count": 5, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 832, "doi": "10.1103/PhysRevA.107.033323", "umap_coordinates": { "x": 394.5436706542969, "y": 137.30471801757812, "z": 206.949951171875 }, "tsne_coordinates": { "x": -23.85592269897461, "y": -19.156118392944336, "z": -11.312387466430664 }, "pca_coordinates": { "x": 4.233975410461426, "y": 0.0934438705444336, "z": 0.3533920645713806 }, "axis_scores": { "Quantum imaging": 0.7513121366500854, "Quantum Life Science Sensing": 0.7492490410804749, "Quantum sensing Detection": 0.7365204095840454, "Quantum sensing Metrology": 0.7324519157409668, "Quantum sensing navigation": 0.7551172971725464, "Quantum sensing Position": 0.7120680212974548, "Quantum sensing Timing": 0.7048256397247314, "Quantum sensing": 0.7500778436660767, "Quantum control": 0.7217211723327637 } }, { "id": 833, "title": "Enhanced Faraday rotation in all-garnet magneto-optical photonic crystal", "abstract": "Research on magneto-optical photonic crystals has so far been focused on theoretical investigations, because suitable multilayers of iron garnet, the most promising material, have not been readily ava...", "citations": 164, "author_count": 3, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 833, "doi": "10.1063/1.1651324", "umap_coordinates": { "x": 393.3471984863281, "y": 134.56143188476562, "z": 207.46177673339844 }, "tsne_coordinates": { "x": 6.286694526672363, "y": -11.129802703857422, "z": -26.9766788482666 }, "pca_coordinates": { "x": 1.0184478759765625, "y": -1.3216612339019775, "z": 0.24155569076538086 }, "axis_scores": { "Quantum imaging": 0.7270698547363281, "Quantum Life Science Sensing": 0.6920272707939148, "Quantum sensing Detection": 0.6990072131156921, "Quantum sensing Metrology": 0.7274945378303528, "Quantum sensing navigation": 0.7137948274612427, "Quantum sensing Position": 0.6642454862594604, "Quantum sensing Timing": 0.6562661528587341, "Quantum sensing": 0.7202913165092468, "Quantum control": 0.6986506581306458 } }, { "id": 834, "title": "Formation of the charged exciton complexes in self-assembled InAs single quantum dots", "abstract": "We have studied the low-temperature photoluminescence (PL) of the self-assembled InAs single quantum dots (QDs) using conventional micro-PL setup to detect PL from an individual QD. It is demonstrated...", "citations": 17, "author_count": 8, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 834, "doi": "10.1063/1.1516871", "umap_coordinates": { "x": 392.9461669921875, "y": 134.08587646484375, "z": 208.31488037109375 }, "tsne_coordinates": { "x": 25.381690979003906, "y": -21.26927947998047, "z": -4.709704399108887 }, "pca_coordinates": { "x": 1.095398187637329, "y": -5.097865581512451, "z": -0.18146616220474243 }, "axis_scores": { "Quantum imaging": 0.7126897573471069, "Quantum Life Science Sensing": 0.7395727634429932, "Quantum sensing Detection": 0.7264512181282043, "Quantum sensing Metrology": 0.7053915858268738, "Quantum sensing navigation": 0.7088424563407898, "Quantum sensing Position": 0.6819661855697632, "Quantum sensing Timing": 0.6757059693336487, "Quantum sensing": 0.7228221893310547, "Quantum control": 0.6871843934059143 } }, { "id": 835, "title": "Mutual first-order coherence of phase-locked lasers", "abstract": "We argue that (first-order) coherence is a relative, and not an absolute, property. It is shown how feedforward or feedback can be employed to make two (or more) lasers relatively coherent. We also sh...", "citations": 1, "author_count": 3, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 835, "doi": "10.1088/1464-4266/6/1/008", "umap_coordinates": { "x": 394.7894592285156, "y": 135.70578002929688, "z": 206.40982055664062 }, "tsne_coordinates": { "x": -17.955108642578125, "y": -2.515068531036377, "z": -14.774613380432129 }, "pca_coordinates": { "x": 1.4913082122802734, "y": 2.401549816131592, "z": 1.2035667896270752 }, "axis_scores": { "Quantum imaging": 0.7260686755180359, "Quantum Life Science Sensing": 0.7127008438110352, "Quantum sensing Detection": 0.7070105075836182, "Quantum sensing Metrology": 0.7246702909469604, "Quantum sensing navigation": 0.7155348658561707, "Quantum sensing Position": 0.7051783204078674, "Quantum sensing Timing": 0.7124372720718384, "Quantum sensing": 0.7231578230857849, "Quantum control": 0.6984082460403442 } }, { "id": 836, "title": "Calculation of Landau levels in semiconductor quantum dots in a high magnetic field and at a high optical excitation", "abstract": "Landau-level formations are studied theoretically for highly optically populated InP strained self-organized quantum dots for magnetic fields below 45 T. A self-consistent Hartree calculation is perfo...", "citations": 6, "author_count": 10, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 836, "doi": "10.1103/PhysRevB.58.6744", "umap_coordinates": { "x": 393.4493408203125, "y": 135.61981201171875, "z": 208.8421173095703 }, "tsne_coordinates": { "x": 13.435925483703613, "y": -29.514467239379883, "z": 10.512273788452148 }, "pca_coordinates": { "x": 3.1428751945495605, "y": -2.469287395477295, "z": -0.9875255823135376 }, "axis_scores": { "Quantum imaging": 0.7083161473274231, "Quantum Life Science Sensing": 0.719796895980835, "Quantum sensing Detection": 0.7032399773597717, "Quantum sensing Metrology": 0.6999768018722534, "Quantum sensing navigation": 0.6967344284057617, "Quantum sensing Position": 0.6935502290725708, "Quantum sensing Timing": 0.6724887490272522, "Quantum sensing": 0.7106853723526001, "Quantum control": 0.6886729001998901 } }, { "id": 837, "title": "Emergent Sasaki-Einstein geometry and AdS/CFT", "abstract": "A central problem in any quantum theory of gravity is to explain the emergence of the classical spacetime geometry in some limit of a more fundamental, microscopic description of nature. The gauge/gra...", "citations": 4, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 837, "doi": "10.1038/s41467-021-27951-9", "umap_coordinates": { "x": 395.0885009765625, "y": 137.129150390625, "z": 206.28717041015625 }, "tsne_coordinates": { "x": -34.33830642700195, "y": -4.403151988983154, "z": 13.443045616149902 }, "pca_coordinates": { "x": 0.4706552028656006, "y": 1.9657219648361206, "z": -1.6643869876861572 }, "axis_scores": { "Quantum imaging": 0.7092406749725342, "Quantum Life Science Sensing": 0.7263041138648987, "Quantum sensing Detection": 0.6900244951248169, "Quantum sensing Metrology": 0.6777486205101013, "Quantum sensing navigation": 0.7064749002456665, "Quantum sensing Position": 0.673615574836731, "Quantum sensing Timing": 0.6826438307762146, "Quantum sensing": 0.7057074904441833, "Quantum control": 0.6871904730796814 } }, { "id": 838, "title": "Experimental test of maximal tripartite nonlocality using an entangled state and local measurements that are maximally incompatible", "abstract": "The only known qubit states that produce maximal quantum violation of a tight Bell inequality with maximally incompatible local measurements are Bell states, Greenberger-Horne-Zeilinger states, and a ...", "citations": 6, "author_count": 5, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 838, "doi": "10.1103/PhysRevA.100.022104", "umap_coordinates": { "x": 396.0368347167969, "y": 136.51254272460938, "z": 207.22344970703125 }, "tsne_coordinates": { "x": -19.708301544189453, "y": -5.251478672027588, "z": 1.7846405506134033 }, "pca_coordinates": { "x": 3.4733524322509766, "y": 3.4910168647766113, "z": 2.5602290630340576 }, "axis_scores": { "Quantum imaging": 0.7102225422859192, "Quantum Life Science Sensing": 0.7032951712608337, "Quantum sensing Detection": 0.716294527053833, "Quantum sensing Metrology": 0.7189417481422424, "Quantum sensing navigation": 0.697323203086853, "Quantum sensing Position": 0.7020852565765381, "Quantum sensing Timing": 0.6849265694618225, "Quantum sensing": 0.7196065187454224, "Quantum control": 0.6542932987213135 } }, { "id": 839, "title": "New Frontiers in Molecular Imprinting: From Micro- to Nanofabrication", "abstract": "", "citations": 5, "author_count": 2, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 839, "doi": null, "umap_coordinates": { "x": 391.71075439453125, "y": 139.5926513671875, "z": 209.172607421875 }, "tsne_coordinates": { "x": -6.274724960327148, "y": 49.20505905151367, "z": -2.631957769393921 }, "pca_coordinates": { "x": -2.2200584411621094, "y": 3.039259910583496, "z": -2.72857666015625 }, "axis_scores": { "Quantum imaging": 0.7072349786758423, "Quantum Life Science Sensing": 0.7120374441146851, "Quantum sensing Detection": 0.6892791390419006, "Quantum sensing Metrology": 0.6940605044364929, "Quantum sensing navigation": 0.7020484805107117, "Quantum sensing Position": 0.6804293394088745, "Quantum sensing Timing": 0.6577293276786804, "Quantum sensing": 0.703934371471405, "Quantum control": 0.7090362906455994 } }, { "id": 840, "title": "Photoluminescence polarization of single InP quantum dots", "abstract": "The linear polarization dependence of photoluminescence emission was measured on single self-assembled InP quantum dots. The dots were obtained by Stranski-Krastanow growth on Ga0.5In0.5P. The highest...", "citations": 19, "author_count": 8, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 840, "doi": "10.1103/PhysRevB.63.233301", "umap_coordinates": { "x": 393.6746520996094, "y": 134.71090698242188, "z": 208.9480743408203 }, "tsne_coordinates": { "x": 6.9818243980407715, "y": -30.786739349365234, "z": -3.3765926361083984 }, "pca_coordinates": { "x": 3.350485324859619, "y": -4.387750625610352, "z": 1.03067946434021 }, "axis_scores": { "Quantum imaging": 0.7246671319007874, "Quantum Life Science Sensing": 0.7363736629486084, "Quantum sensing Detection": 0.7287696003913879, "Quantum sensing Metrology": 0.711400032043457, "Quantum sensing navigation": 0.7133312225341797, "Quantum sensing Position": 0.695641815662384, "Quantum sensing Timing": 0.6604529023170471, "Quantum sensing": 0.7321410179138184, "Quantum control": 0.6980093121528625 } }, { "id": 841, "title": "Landau level formation in semiconductor quantum dots in a high magnetic field", "abstract": "Landau level formations have been observed in the photoluminescence spectra of highly optically populated InP strained self-organized quantum dots in between barriers of In0.5Ga0.5P at a high magnetic...", "citations": 14, "author_count": 8, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 841, "doi": "10.1063/1.120070", "umap_coordinates": { "x": 393.1562194824219, "y": 134.79306030273438, "z": 208.37879943847656 }, "tsne_coordinates": { "x": 14.33285140991211, "y": -29.907045364379883, "z": 11.311846733093262 }, "pca_coordinates": { "x": 2.905735969543457, "y": -3.2891173362731934, "z": -1.9252746105194092 }, "axis_scores": { "Quantum imaging": 0.7367163896560669, "Quantum Life Science Sensing": 0.7602070569992065, "Quantum sensing Detection": 0.7415763139724731, "Quantum sensing Metrology": 0.7378326654434204, "Quantum sensing navigation": 0.7259864211082458, "Quantum sensing Position": 0.712346076965332, "Quantum sensing Timing": 0.6832703351974487, "Quantum sensing": 0.7466800212860107, "Quantum control": 0.7221741676330566 } }, { "id": 842, "title": "Confinement sensitivity in quantum dot singlet-triplet relaxation", "abstract": "Spin-orbit mediated phonon relaxation in a two-dimensional quantum dot is investigated using different confining potentials. Elliptical harmonic oscillator and cylindrical well results are compared to...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 842, "doi": "10.1088/1361-648X/aa8b34", "umap_coordinates": { "x": 394.10723876953125, "y": 135.41990661621094, "z": 206.4920654296875 }, "tsne_coordinates": { "x": -21.233917236328125, "y": -9.98719310760498, "z": -20.001245498657227 }, "pca_coordinates": { "x": 0.7185300588607788, "y": -0.199324369430542, "z": 0.4547826647758484 }, "axis_scores": { "Quantum imaging": 0.7262141704559326, "Quantum Life Science Sensing": 0.7346603870391846, "Quantum sensing Detection": 0.7447723150253296, "Quantum sensing Metrology": 0.7100929021835327, "Quantum sensing navigation": 0.7245822548866272, "Quantum sensing Position": 0.708160400390625, "Quantum sensing Timing": 0.7258056402206421, "Quantum sensing": 0.7463432550430298, "Quantum control": 0.7139350175857544 } }, { "id": 843, "title": "Crystal Phase Quantum Well Emission with Digital Control", "abstract": "One of the major challenges in the growth of quantum well and quantum dot heterostructures is the realization of atomically sharp interfaces. Nanowires provide a new opportunity to engineer the band s...", "citations": 30, "author_count": 10, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 843, "doi": "10.1021/acs.nanolett.7b02489", "umap_coordinates": { "x": 393.1031494140625, "y": 134.6758270263672, "z": 206.8232421875 }, "tsne_coordinates": { "x": 18.441381454467773, "y": -16.14168357849121, "z": -11.249349594116211 }, "pca_coordinates": { "x": 0.3381614685058594, "y": -2.2483158111572266, "z": 0.8471924662590027 }, "axis_scores": { "Quantum imaging": 0.77033931016922, "Quantum Life Science Sensing": 0.75983065366745, "Quantum sensing Detection": 0.7584658265113831, "Quantum sensing Metrology": 0.7488439679145813, "Quantum sensing navigation": 0.763717770576477, "Quantum sensing Position": 0.7281449437141418, "Quantum sensing Timing": 0.7312027812004089, "Quantum sensing": 0.7656657099723816, "Quantum control": 0.7943918108940125 } }, { "id": 844, "title": "PHOTON-CORRELATION SPECTROSCOPY ON POLYSTYRENE SOLUTIONS UNDER HIGH-PRESSURE", "abstract": "", "citations": 23, "author_count": 3, "categories": [ "Polymer Science" ], "year": 1982, "topic": [ "all" ], "embedding_index": 844, "doi": "10.1021/ma00230a067", "umap_coordinates": { "x": 393.9369201660156, "y": 135.5409393310547, "z": 205.29510498046875 }, "tsne_coordinates": { "x": 0.07933545112609863, "y": -1.9673073291778564, "z": 31.974411010742188 }, "pca_coordinates": { "x": -1.4687498807907104, "y": -0.2539944648742676, "z": 1.3805947303771973 }, "axis_scores": { "Quantum imaging": 0.7068787217140198, "Quantum Life Science Sensing": 0.7336028814315796, "Quantum sensing Detection": 0.7102339863777161, "Quantum sensing Metrology": 0.698778510093689, "Quantum sensing navigation": 0.6937611103057861, "Quantum sensing Position": 0.7156517505645752, "Quantum sensing Timing": 0.685378909111023, "Quantum sensing": 0.7143126130104065, "Quantum control": 0.6604626178741455 } }, { "id": 845, "title": "Absorption and Quantum Yield of Single Conjugated Polymer Poly[2-methoxy-5-(2-ethylhexyloxy)-1,4-phenylenevinylene] (MEH-PPV) Molecules", "abstract": "We simultaneously measured the absorption and emission of single conjugated polymer poly[2-methoxy-S-(2-ethylhexyloxy)-1,4-phenylenevinylene] (MEH-PPV) molecules in a poly(methyl methacrylate) (PMMA) ...", "citations": 54, "author_count": 6, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 845, "doi": "10.1021/acs.nanolett.6b04726", "umap_coordinates": { "x": 393.4419250488281, "y": 133.78952026367188, "z": 207.06861877441406 }, "tsne_coordinates": { "x": -2.950756311416626, "y": -6.285724639892578, "z": -19.43052101135254 }, "pca_coordinates": { "x": -1.4303593635559082, "y": -4.090318202972412, "z": 1.9981689453125 }, "axis_scores": { "Quantum imaging": 0.7248920202255249, "Quantum Life Science Sensing": 0.7525593638420105, "Quantum sensing Detection": 0.729274332523346, "Quantum sensing Metrology": 0.7254297137260437, "Quantum sensing navigation": 0.6874164342880249, "Quantum sensing Position": 0.6975507736206055, "Quantum sensing Timing": 0.682027280330658, "Quantum sensing": 0.7339754700660706, "Quantum control": 0.6872425675392151 } }, { "id": 846, "title": "Kolmogorov probability spaces describing Accardi models of quantum correlations", "abstract": "In this paper we consider several Kolmogorov type models describing some quantum correlations. The main ideas beyond most of these models comes back to pioneering works of Accardi (see [1, 10, 15] and...", "citations": 9, "author_count": 4, "categories": [ "Mathematics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 846, "doi": "10.1007/s11080-005-4487-y", "umap_coordinates": { "x": 394.8064880371094, "y": 137.55023193359375, "z": 206.2552490234375 }, "tsne_coordinates": { "x": -26.310461044311523, "y": 4.205893039703369, "z": 17.307342529296875 }, "pca_coordinates": { "x": 2.1803667545318604, "y": 3.9986560344696045, "z": 0.07319802045822144 }, "axis_scores": { "Quantum imaging": 0.7240855693817139, "Quantum Life Science Sensing": 0.7226362824440002, "Quantum sensing Detection": 0.7195448279380798, "Quantum sensing Metrology": 0.715639591217041, "Quantum sensing navigation": 0.7402310967445374, "Quantum sensing Position": 0.6937853693962097, "Quantum sensing Timing": 0.7012995481491089, "Quantum sensing": 0.7363978624343872, "Quantum control": 0.725147008895874 } }, { "id": 847, "title": "Quantum Alchemy and Universal Orthogonality Catastrophe in One-Dimensional Anyons", "abstract": "Many-particle quantum systems with intermediate anyonic exchange statistics are supported in one spatial dimension. In this context, the anyon-anyon mapping is recast as a continuous transformation th...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 847, "doi": null, "umap_coordinates": { "x": 391.9728088378906, "y": 139.39447021484375, "z": 208.7696075439453 }, "tsne_coordinates": { "x": -13.853154182434082, "y": 41.37034606933594, "z": -5.033151149749756 }, "pca_coordinates": { "x": 2.4190711975097656, "y": 3.081758737564087, "z": -1.7472970485687256 }, "axis_scores": { "Quantum imaging": 0.7527438998222351, "Quantum Life Science Sensing": 0.7511440515518188, "Quantum sensing Detection": 0.7408552765846252, "Quantum sensing Metrology": 0.7115375399589539, "Quantum sensing navigation": 0.7455171346664429, "Quantum sensing Position": 0.6849468350410461, "Quantum sensing Timing": 0.6985107064247131, "Quantum sensing": 0.7481333613395691, "Quantum control": 0.7457079887390137 } }, { "id": 848, "title": "Polaronic effects in electron shuttling", "abstract": "A shuttle-like mechanism of electron transport through a single level vibrating quantum dot is considered in the regime of strong electromechanical coupling. It is shown that the increment of shuttle ...", "citations": 5, "author_count": 4, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 848, "doi": "10.1063/1.3276063", "umap_coordinates": { "x": 393.81500244140625, "y": 135.1464080810547, "z": 208.20140075683594 }, "tsne_coordinates": { "x": 16.78595542907715, "y": -32.79981994628906, "z": 3.960961103439331 }, "pca_coordinates": { "x": 1.624443531036377, "y": -0.6342110633850098, "z": -1.9293715953826904 }, "axis_scores": { "Quantum imaging": 0.7004391551017761, "Quantum Life Science Sensing": 0.7038617134094238, "Quantum sensing Detection": 0.6720901727676392, "Quantum sensing Metrology": 0.6686951518058777, "Quantum sensing navigation": 0.7001153230667114, "Quantum sensing Position": 0.6699402332305908, "Quantum sensing Timing": 0.6635634303092957, "Quantum sensing": 0.6981396079063416, "Quantum control": 0.7031011581420898 } }, { "id": 849, "title": "CONDUCTANCE OSCILLATIONS RELATED TO THE DENSITY-OF-STATES OF A CIRCULAR QUANTUM-DOT IN WEAK MAGNETIC-FIELDS", "abstract": "The conductance of a quantum dot has been measured as a function of the magnetic field and the size of the dot. The dot was formed by electrostatic depletion in a GaAs/GaAlAs heterostructure and conta...", "citations": 7, "author_count": 6, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 849, "doi": "10.1088/0953-8984/7/19/007", "umap_coordinates": { "x": 393.7712707519531, "y": 135.7723846435547, "z": 208.23043823242188 }, "tsne_coordinates": { "x": 6.634844779968262, "y": -21.239822387695312, "z": 12.69029426574707 }, "pca_coordinates": { "x": 2.8476881980895996, "y": 0.24599790573120117, "z": -0.7530970573425293 }, "axis_scores": { "Quantum imaging": 0.7219218611717224, "Quantum Life Science Sensing": 0.7511332631111145, "Quantum sensing Detection": 0.7273834943771362, "Quantum sensing Metrology": 0.7158378958702087, "Quantum sensing navigation": 0.7331492304801941, "Quantum sensing Position": 0.7127920389175415, "Quantum sensing Timing": 0.6890475153923035, "Quantum sensing": 0.7333040833473206, "Quantum control": 0.7049268484115601 } }, { "id": 850, "title": "Hole dynamics in a quantum-well state at Na/Cu(111) - art. no. 195422", "abstract": "Theoretical calculations and scanning-tunneling spectroscopy measurements of the hole lifetime broadening, tau(-1), in a quantum-well state for 0.95 and 1.0 monolayers of Na on Cu(111) are reported. A...", "citations": 78, "author_count": 8, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 850, "doi": "10.1103/PhysRevB.68.195422", "umap_coordinates": { "x": 394.27117919921875, "y": 135.5149688720703, "z": 209.08192443847656 }, "tsne_coordinates": { "x": 8.984737396240234, "y": -37.564815521240234, "z": -2.48512864112854 }, "pca_coordinates": { "x": 4.838984966278076, "y": -1.7361640930175781, "z": 0.03173363208770752 }, "axis_scores": { "Quantum imaging": 0.7052434682846069, "Quantum Life Science Sensing": 0.7106398344039917, "Quantum sensing Detection": 0.7174825668334961, "Quantum sensing Metrology": 0.6971520185470581, "Quantum sensing navigation": 0.7415393590927124, "Quantum sensing Position": 0.7074549794197083, "Quantum sensing Timing": 0.6910871863365173, "Quantum sensing": 0.7222092151641846, "Quantum control": 0.7142722010612488 } }, { "id": 851, "title": "Operational geometric phase for mixed quantum states", "abstract": "The geometric phase has found a broad spectrum of applications in both classical and quantum physics, such as condensed matter and quantum computation. In this paper, we introduce an operational geome...", "citations": 12, "author_count": 3, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 851, "doi": "10.1088/1367-2630/15/5/053006", "umap_coordinates": { "x": 395.141845703125, "y": 137.08811950683594, "z": 207.28390502929688 }, "tsne_coordinates": { "x": -34.026161193847656, "y": -6.121891975402832, "z": 8.30309009552002 }, "pca_coordinates": { "x": 3.370082378387451, "y": 4.514614105224609, "z": 0.007730722427368164 }, "axis_scores": { "Quantum imaging": 0.7463983297348022, "Quantum Life Science Sensing": 0.7301941514015198, "Quantum sensing Detection": 0.7235862612724304, "Quantum sensing Metrology": 0.7455577850341797, "Quantum sensing navigation": 0.7472253441810608, "Quantum sensing Position": 0.7286044359207153, "Quantum sensing Timing": 0.7283099889755249, "Quantum sensing": 0.7403630614280701, "Quantum control": 0.7171238660812378 } }, { "id": 852, "title": "Fully nonlocal quantum correlations", "abstract": "Quantum mechanics is a nonlocal theory, but not as nonlocal as the no-signalling principle allows. However, there exist quantum correlations that exhibit maximal nonlocality: they are as nonlocal as a...", "citations": 54, "author_count": 8, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 852, "doi": "10.1103/PhysRevA.85.032107", "umap_coordinates": { "x": 395.5084228515625, "y": 136.5680389404297, "z": 207.9561004638672 }, "tsne_coordinates": { "x": -22.384305953979492, "y": -2.2859647274017334, "z": 2.959059476852417 }, "pca_coordinates": { "x": 5.053536415100098, "y": 1.6256661415100098, "z": 1.0814218521118164 }, "axis_scores": { "Quantum imaging": 0.7870332598686218, "Quantum Life Science Sensing": 0.7841789126396179, "Quantum sensing Detection": 0.789257824420929, "Quantum sensing Metrology": 0.7834464311599731, "Quantum sensing navigation": 0.7920311093330383, "Quantum sensing Position": 0.7490302920341492, "Quantum sensing Timing": 0.7262107729911804, "Quantum sensing": 0.8090591430664062, "Quantum control": 0.7544974088668823 } }, { "id": 853, "title": "Sizes of self-assembled quantum dots - effects of deposition conditions and annealing", "abstract": "Quantum dots in the materials system InP/GaAs were grown by low pressure MOVPE in the Stranski-Krastanow growth mode. Two basically different approaches were used to control the dot sizes: (i) Variati...", "citations": 9, "author_count": 5, "categories": [ "Crystallography" ], "year": 1998, "topic": [ "all" ], "embedding_index": 853, "doi": "10.1016/S0022-0248(98)00662-9", "umap_coordinates": { "x": 392.3383483886719, "y": 134.14178466796875, "z": 207.1121826171875 }, "tsne_coordinates": { "x": 31.781620025634766, "y": -6.833686828613281, "z": 2.31229567527771 }, "pca_coordinates": { "x": -2.4718880653381348, "y": -2.8307347297668457, "z": -0.4210014343261719 }, "axis_scores": { "Quantum imaging": 0.6800669431686401, "Quantum Life Science Sensing": 0.711509108543396, "Quantum sensing Detection": 0.6778409481048584, "Quantum sensing Metrology": 0.6882084012031555, "Quantum sensing navigation": 0.6686897277832031, "Quantum sensing Position": 0.6921286582946777, "Quantum sensing Timing": 0.6584183573722839, "Quantum sensing": 0.6926218271255493, "Quantum control": 0.6685033440589905 } }, { "id": 854, "title": "Canonical mean-field molecular dynamics derived from quantum mechanics", "abstract": "Canonical quantum correlation observables can be approximated by classical molecular dynamics. In the case of low temperature the ab initio molecular dynamics potential energy is based on the ground s...", "citations": 2, "author_count": 5, "categories": [ "Mathematics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 854, "doi": "10.1051/m2an/2022079", "umap_coordinates": { "x": 394.3389587402344, "y": 137.693359375, "z": 206.6726531982422 }, "tsne_coordinates": { "x": -33.69150924682617, "y": 10.181567192077637, "z": 20.353639602661133 }, "pca_coordinates": { "x": 2.2202236652374268, "y": 1.1836687326431274, "z": -2.933234691619873 }, "axis_scores": { "Quantum imaging": 0.7102401852607727, "Quantum Life Science Sensing": 0.7456439733505249, "Quantum sensing Detection": 0.7246083617210388, "Quantum sensing Metrology": 0.7229894399642944, "Quantum sensing navigation": 0.7532796859741211, "Quantum sensing Position": 0.6927667260169983, "Quantum sensing Timing": 0.6749951839447021, "Quantum sensing": 0.7360971570014954, "Quantum control": 0.7400183081626892 } }, { "id": 855, "title": "Size-Dependent Multi-Electron Donation in Metal-Complex Quantum Dots Hybrid Catalyst for Photocatalytic Carbon Dioxide Reduction", "abstract": "The effective conversion of carbon dioxide (CO2) into valuable chemical fuels relies significantly on the donation of multiple electrons. Its efficiency is closely linked to both the density and lifet...", "citations": 8, "author_count": 18, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 855, "doi": "10.1002/adfm.202315734", "umap_coordinates": { "x": 392.44610595703125, "y": 134.1871795654297, "z": 205.86264038085938 }, "tsne_coordinates": { "x": 29.257394790649414, "y": 3.0743155479431152, "z": -6.782350540161133 }, "pca_coordinates": { "x": -2.7490556240081787, "y": -3.174905300140381, "z": -1.751727819442749 }, "axis_scores": { "Quantum imaging": 0.7383833527565002, "Quantum Life Science Sensing": 0.7522711753845215, "Quantum sensing Detection": 0.7331092357635498, "Quantum sensing Metrology": 0.72430020570755, "Quantum sensing navigation": 0.6972955465316772, "Quantum sensing Position": 0.6928033232688904, "Quantum sensing Timing": 0.673494279384613, "Quantum sensing": 0.7446990609169006, "Quantum control": 0.7306085228919983 } }, { "id": 856, "title": "Identifying a Generic and Detrimental Role of Fano Resonance in Spin Generation in Semiconductor Nanostructures", "abstract": "Fano resonance is a fundamental physical process that strongly affects the electronic transport, optical, and vibronic properties of matter. Here, we provide the first experimental demonstration of it...", "citations": 3, "author_count": 6, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 856, "doi": "10.1103/PhysRevLett.127.127401", "umap_coordinates": { "x": 393.8085632324219, "y": 135.1162109375, "z": 208.24697875976562 }, "tsne_coordinates": { "x": 2.819664239883423, "y": -27.621633529663086, "z": 2.8166913986206055 }, "pca_coordinates": { "x": 1.6450188159942627, "y": -1.6115331649780273, "z": 0.6558688282966614 }, "axis_scores": { "Quantum imaging": 0.7249656319618225, "Quantum Life Science Sensing": 0.7361947298049927, "Quantum sensing Detection": 0.7274322509765625, "Quantum sensing Metrology": 0.7126622796058655, "Quantum sensing navigation": 0.7258079648017883, "Quantum sensing Position": 0.69809889793396, "Quantum sensing Timing": 0.6952618956565857, "Quantum sensing": 0.7283788919448853, "Quantum control": 0.7067870497703552 } }, { "id": 857, "title": "A quantum dot ratchet:: Experiment and theory (vol 44, pg 341, 1998)", "abstract": "", "citations": 17, "author_count": 7, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 857, "doi": "10.1209/epl/i1999-00179-4", "umap_coordinates": { "x": 394.9788513183594, "y": 135.78030395507812, "z": 206.69839477539062 }, "tsne_coordinates": { "x": -29.404373168945312, "y": 11.924967765808105, "z": 6.939142227172852 }, "pca_coordinates": { "x": 0.9943618774414062, "y": 1.7549387216567993, "z": 0.08178144693374634 }, "axis_scores": { "Quantum imaging": 0.7456085681915283, "Quantum Life Science Sensing": 0.752400815486908, "Quantum sensing Detection": 0.7384114265441895, "Quantum sensing Metrology": 0.7171856164932251, "Quantum sensing navigation": 0.732541024684906, "Quantum sensing Position": 0.7375444769859314, "Quantum sensing Timing": 0.7302443981170654, "Quantum sensing": 0.7523854970932007, "Quantum control": 0.7619903683662415 } }, { "id": 858, "title": "Efficiency Enhanced Colloidal Mn-Doped Type II Core/Shell ZnSe/CdS Quantum Dot Sensitized Hybrid Solar Cells", "abstract": "Colloidal Mn-doped ZnSe/CdS core/shell quantum dots (QDs) are synthesized for the first time and employed as a strategy to boost the power conversion efficiency of quantum dot sensitized solar cells. ...", "citations": 8, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 858, "doi": "10.1155/2015/921903", "umap_coordinates": { "x": 392.43353271484375, "y": 133.96475219726562, "z": 206.3309783935547 }, "tsne_coordinates": { "x": 30.529560089111328, "y": -5.088328838348389, "z": -14.579930305480957 }, "pca_coordinates": { "x": -2.451084852218628, "y": -3.312272548675537, "z": -0.047315895557403564 }, "axis_scores": { "Quantum imaging": 0.6903377771377563, "Quantum Life Science Sensing": 0.6852329969406128, "Quantum sensing Detection": 0.6793563365936279, "Quantum sensing Metrology": 0.6730983853340149, "Quantum sensing navigation": 0.6772593259811401, "Quantum sensing Position": 0.6525908708572388, "Quantum sensing Timing": 0.6335436701774597, "Quantum sensing": 0.6862044930458069, "Quantum control": 0.6713618636131287 } }, { "id": 859, "title": "Quantum delocalization, structural order, and density response of the strongly coupled electron liquid", "abstract": "We investigate the impact of electronic correlations and quantum delocalization onto the static structure factor and static density response function of the strongly coupled electron liquid. In contra...", "citations": 7, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 859, "doi": "10.1209/0295-5075/ad5d88", "umap_coordinates": { "x": 393.4834899902344, "y": 136.3038330078125, "z": 207.83447265625 }, "tsne_coordinates": { "x": -6.400399684906006, "y": -35.36626434326172, "z": 9.059144973754883 }, "pca_coordinates": { "x": 1.9969768524169922, "y": -0.7438583374023438, "z": -2.217531442642212 }, "axis_scores": { "Quantum imaging": 0.7276709079742432, "Quantum Life Science Sensing": 0.7225092053413391, "Quantum sensing Detection": 0.7073373794555664, "Quantum sensing Metrology": 0.699708104133606, "Quantum sensing navigation": 0.7062366008758545, "Quantum sensing Position": 0.6889060735702515, "Quantum sensing Timing": 0.6478725671768188, "Quantum sensing": 0.724499523639679, "Quantum control": 0.7190569639205933 } }, { "id": 860, "title": "Intermediate states in Andreev bound state fusion", "abstract": "Hybridization is one of the most fundamental quantum mechanical phenomena, with the text book example of binding two hydrogen atoms in a hydrogen molecule. Here we report tunnel spectroscopy experimen...", "citations": 6, "author_count": 7, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 860, "doi": "10.1038/s42005-023-01273-2", "umap_coordinates": { "x": 393.8907470703125, "y": 136.07290649414062, "z": 207.0919952392578 }, "tsne_coordinates": { "x": -4.518171310424805, "y": -11.084305763244629, "z": 5.289844036102295 }, "pca_coordinates": { "x": 1.815657377243042, "y": -0.21175622940063477, "z": -0.7535067796707153 }, "axis_scores": { "Quantum imaging": 0.7163750529289246, "Quantum Life Science Sensing": 0.7114681005477905, "Quantum sensing Detection": 0.7113280892372131, "Quantum sensing Metrology": 0.6980655193328857, "Quantum sensing navigation": 0.708380401134491, "Quantum sensing Position": 0.7038701772689819, "Quantum sensing Timing": 0.68991619348526, "Quantum sensing": 0.718696653842926, "Quantum control": 0.6843255758285522 } }, { "id": 861, "title": "Extremely narrow photoluminescence from the ensemble of InAsP/InP quantum dots", "abstract": "We report a photoluminescence (PL) study of self-assembled InAsP quantum dots (QDs) formed on InP by As/P exchange reaction in the reactor of low-pressure metalorganic chemical vapor deposition. By va...", "citations": 9, "author_count": 2, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 861, "doi": "10.1016/S0921-5107(02)00267-2", "umap_coordinates": { "x": 392.6163330078125, "y": 133.99615478515625, "z": 207.43276977539062 }, "tsne_coordinates": { "x": 27.978551864624023, "y": -11.251795768737793, "z": 7.512300968170166 }, "pca_coordinates": { "x": -1.8624485731124878, "y": -3.6108241081237793, "z": 2.4266483783721924 }, "axis_scores": { "Quantum imaging": 0.7161675095558167, "Quantum Life Science Sensing": 0.7241731882095337, "Quantum sensing Detection": 0.704157292842865, "Quantum sensing Metrology": 0.6906496286392212, "Quantum sensing navigation": 0.6897354125976562, "Quantum sensing Position": 0.6980990171432495, "Quantum sensing Timing": 0.6672195792198181, "Quantum sensing": 0.719461977481842, "Quantum control": 0.6573046445846558 } }, { "id": 862, "title": "SCALAR RELAXATION OF HETERONUCLEAR MULTIPLE-QUANTUM COHERENCES AND RELATIVE SIGNS OF NUCLEAR-SPIN SPIN COUPLING-CONSTANTS", "abstract": "", "citations": 8, "author_count": 3, "categories": [ "Chemistry" ], "year": 1985, "topic": [ "all" ], "embedding_index": 862, "doi": "10.1016/0009-2614(85)80052-X", "umap_coordinates": { "x": 392.9206848144531, "y": 136.7726287841797, "z": 207.0262451171875 }, "tsne_coordinates": { "x": 19.996076583862305, "y": 1.2133681774139404, "z": 31.167186737060547 }, "pca_coordinates": { "x": 0.6683659553527832, "y": 1.5009404420852661, "z": -2.1292781829833984 }, "axis_scores": { "Quantum imaging": 0.6835293769836426, "Quantum Life Science Sensing": 0.7023552656173706, "Quantum sensing Detection": 0.6680237054824829, "Quantum sensing Metrology": 0.6722366213798523, "Quantum sensing navigation": 0.6838232278823853, "Quantum sensing Position": 0.6843101978302002, "Quantum sensing Timing": 0.6818631291389465, "Quantum sensing": 0.6835721731185913, "Quantum control": 0.6664389967918396 } }, { "id": 863, "title": "Bound-bound state quantum wave packet dynamics in the intermediate coupling range: The A 1Σu+ (0u+) and b 3Πu (0u+) system in Rb2 - art. no. 173006", "abstract": "The real-time quantum dynamics of a wave packet confined to two coupled bound states at intermediate interaction strength is probed by experiment and calculations on the A 1Sigma(u)(+) similar to b(3)...", "citations": 24, "author_count": 4, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 863, "doi": "10.1103/PhysRevLett.91.173006", "umap_coordinates": { "x": 394.28326416015625, "y": 136.26675415039062, "z": 207.62820434570312 }, "tsne_coordinates": { "x": -5.025855541229248, "y": -11.036645889282227, "z": 4.990090370178223 }, "pca_coordinates": { "x": 3.4071145057678223, "y": 0.09216475486755371, "z": -1.2687275409698486 }, "axis_scores": { "Quantum imaging": 0.6979758143424988, "Quantum Life Science Sensing": 0.715804934501648, "Quantum sensing Detection": 0.7085791826248169, "Quantum sensing Metrology": 0.6929231286048889, "Quantum sensing navigation": 0.7171061038970947, "Quantum sensing Position": 0.7053086161613464, "Quantum sensing Timing": 0.6952190399169922, "Quantum sensing": 0.7146669030189514, "Quantum control": 0.6955242156982422 } }, { "id": 864, "title": "Environmental coupling and phase breaking in open quantum dots", "abstract": "Studies of electron phase coherence in open quantum dots reveal a subtle interplay between geometry and materials-related considerations. Suppressing environmental coupling, by reducing the width of t...", "citations": 24, "author_count": 9, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 864, "doi": "10.1088/0953-8984/10/3/002", "umap_coordinates": { "x": 394.1783752441406, "y": 136.40318298339844, "z": 207.4615478515625 }, "tsne_coordinates": { "x": 14.591089248657227, "y": -19.655216217041016, "z": 15.13646411895752 }, "pca_coordinates": { "x": 1.7755458354949951, "y": 0.37197136878967285, "z": -0.8184247016906738 }, "axis_scores": { "Quantum imaging": 0.7565848231315613, "Quantum Life Science Sensing": 0.7845973968505859, "Quantum sensing Detection": 0.764164924621582, "Quantum sensing Metrology": 0.7498885989189148, "Quantum sensing navigation": 0.7599813342094421, "Quantum sensing Position": 0.7320468425750732, "Quantum sensing Timing": 0.7334381937980652, "Quantum sensing": 0.7702277302742004, "Quantum control": 0.7432577013969421 } }, { "id": 865, "title": "Band-filling in InP dots: Single dot spectroscopy and carrier dynamics", "abstract": "We have measured band-filling in InP dots inbetween GaInP barriers. We find that band-filling occurs at very low optical power densities. About 200 times less optical power density is required for the...", "citations": 4, "author_count": 8, "categories": [ "Engineering" ], "year": 1996, "topic": [ "all" ], "embedding_index": 865, "doi": "10.1016/0038-1101(95)00328-2", "umap_coordinates": { "x": 392.57989501953125, "y": 134.4805908203125, "z": 207.8343505859375 }, "tsne_coordinates": { "x": 27.73846435546875, "y": -13.946602821350098, "z": 3.7469325065612793 }, "pca_coordinates": { "x": 0.24149751663208008, "y": -4.146622657775879, "z": 1.1863043308258057 }, "axis_scores": { "Quantum imaging": 0.7299256920814514, "Quantum Life Science Sensing": 0.7328388094902039, "Quantum sensing Detection": 0.7275072336196899, "Quantum sensing Metrology": 0.7251062393188477, "Quantum sensing navigation": 0.7142084240913391, "Quantum sensing Position": 0.7143751978874207, "Quantum sensing Timing": 0.7069554328918457, "Quantum sensing": 0.729960024356842, "Quantum control": 0.6812627911567688 } }, { "id": 866, "title": "PAIRWISE CORRELATIONS IN A THREE-PARTITE QUANTUM SYSTEM FROM A PREQUANTUM RANDOM FIELD", "abstract": "Prequantum classical statistical field theory (PCSFT) is a model that provides the possibility to represent the averages of quantum observables (including correlations of observables on subsystems of ...", "citations": 24, "author_count": 2, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 866, "doi": "10.1007/s10946-010-9137-3", "umap_coordinates": { "x": 395.0228576660156, "y": 137.3009490966797, "z": 206.5835723876953 }, "tsne_coordinates": { "x": -30.834300994873047, "y": 3.505032539367676, "z": 18.330089569091797 }, "pca_coordinates": { "x": 1.8669841289520264, "y": 2.576613426208496, "z": -0.30702632665634155 }, "axis_scores": { "Quantum imaging": 0.726220428943634, "Quantum Life Science Sensing": 0.7235822677612305, "Quantum sensing Detection": 0.7291361093521118, "Quantum sensing Metrology": 0.7254185676574707, "Quantum sensing navigation": 0.7313393354415894, "Quantum sensing Position": 0.7259981036186218, "Quantum sensing Timing": 0.7136509418487549, "Quantum sensing": 0.7456691265106201, "Quantum control": 0.716576337814331 } }, { "id": 867, "title": "The PERCIVAL soft X-ray imager", "abstract": "With the increased brilliance of state-of-the-art Synchrotron radiation sources and the advent of Free Electron Lasers enabling revolutionary science on atomic length and time scales with EUV to X-ray...", "citations": 24, "author_count": 32, "categories": [ "Instruments & Instrumentation" ], "year": 2015, "topic": [ "all" ], "embedding_index": 867, "doi": "10.1088/1748-0221/10/02/C02008", "umap_coordinates": { "x": 395.9052429199219, "y": 134.1978302001953, "z": 205.91566467285156 }, "tsne_coordinates": { "x": -27.476181030273438, "y": 26.824249267578125, "z": -8.75424575805664 }, "pca_coordinates": { "x": -2.822371244430542, "y": 4.1763129234313965, "z": 1.6478135585784912 }, "axis_scores": { "Quantum imaging": 0.6742355823516846, "Quantum Life Science Sensing": 0.6644535064697266, "Quantum sensing Detection": 0.6464218497276306, "Quantum sensing Metrology": 0.6176453828811646, "Quantum sensing navigation": 0.6284525990486145, "Quantum sensing Position": 0.6473240256309509, "Quantum sensing Timing": 0.6304577589035034, "Quantum sensing": 0.6454163193702698, "Quantum control": 0.6202263832092285 } }, { "id": 868, "title": "New experimental tests of the photon's indivisibility", "abstract": "We consider the old foundational problem of quantum/classical optics - indivisibility of photon. Quantum theory predicts that in experiments on coincidence detection double clicks are impossible (up t...", "citations": 3, "author_count": 2, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 868, "doi": "10.1007/s10946-012-9279-6", "umap_coordinates": { "x": 395.49847412109375, "y": 134.98193359375, "z": 205.73475646972656 }, "tsne_coordinates": { "x": -16.941987991333008, "y": -5.849050521850586, "z": -4.144439697265625 }, "pca_coordinates": { "x": -1.5644984245300293, "y": 2.908329486846924, "z": 3.2827858924865723 }, "axis_scores": { "Quantum imaging": 0.7231602072715759, "Quantum Life Science Sensing": 0.7307159304618835, "Quantum sensing Detection": 0.7233133912086487, "Quantum sensing Metrology": 0.7070103883743286, "Quantum sensing navigation": 0.7111311554908752, "Quantum sensing Position": 0.7035656571388245, "Quantum sensing Timing": 0.6873328685760498, "Quantum sensing": 0.7231427431106567, "Quantum control": 0.6579807996749878 } }, { "id": 869, "title": "Polarized single photon emission and photon bunching from an InGaN quantum dot on a GaN micropyramid", "abstract": "We report on excitonic single photon emission and biexcitonic photon bunching from an InGaN quantum dot formed on the apex of a hexagonal GaN micropyramid. An approach to suppress uncorrelated emissio...", "citations": 28, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 869, "doi": "10.1088/0957-4484/26/6/065702", "umap_coordinates": { "x": 394.4146423339844, "y": 133.8913116455078, "z": 207.40475463867188 }, "tsne_coordinates": { "x": -9.959354400634766, "y": -8.312118530273438, "z": -23.536457061767578 }, "pca_coordinates": { "x": 0.07324004173278809, "y": -2.135347843170166, "z": 3.9426403045654297 }, "axis_scores": { "Quantum imaging": 0.7387548685073853, "Quantum Life Science Sensing": 0.7193800210952759, "Quantum sensing Detection": 0.7177257537841797, "Quantum sensing Metrology": 0.7130352854728699, "Quantum sensing navigation": 0.7177488803863525, "Quantum sensing Position": 0.7017674446105957, "Quantum sensing Timing": 0.6979516744613647, "Quantum sensing": 0.7275678515434265, "Quantum control": 0.695496141910553 } }, { "id": 870, "title": "Near-Coherent Quantum Emitters in Hexagonal Boron Nitride with Discrete Polarization Axes", "abstract": "Hexagonal boron nitride (hBN) has recently gained attention as a solid state host of quantum emitters. In particular, the recently discovered B centers show promise for integration in scalable quantum...", "citations": 5, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 870, "doi": "10.1021/acsphotonics.4c01297", "umap_coordinates": { "x": 393.7535095214844, "y": 134.3521270751953, "z": 206.9248809814453 }, "tsne_coordinates": { "x": 11.607211112976074, "y": -12.628985404968262, "z": -14.720531463623047 }, "pca_coordinates": { "x": 0.7507351636886597, "y": -2.8214921951293945, "z": 1.9128093719482422 }, "axis_scores": { "Quantum imaging": 0.7779334187507629, "Quantum Life Science Sensing": 0.7334388494491577, "Quantum sensing Detection": 0.757958710193634, "Quantum sensing Metrology": 0.7446478009223938, "Quantum sensing navigation": 0.7494273781776428, "Quantum sensing Position": 0.7372704744338989, "Quantum sensing Timing": 0.7233717441558838, "Quantum sensing": 0.7616509199142456, "Quantum control": 0.714961588382721 } }, { "id": 871, "title": "Enhancing optoelectronic properties of SiC-grown graphene by a surface layer of colloidal quantum dots", "abstract": "We report a simultaneous increase of carrier concentration, mobility and photoresponsivity when SiC-grown graphene is decorated with a surface layer of colloidal PbS quantum dots, which act as electro...", "citations": 8, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 871, "doi": "10.1088/2053-1583/aa76bb", "umap_coordinates": { "x": 393.52362060546875, "y": 134.16278076171875, "z": 206.24525451660156 }, "tsne_coordinates": { "x": -15.123770713806152, "y": -6.116330146789551, "z": -19.13142967224121 }, "pca_coordinates": { "x": -1.1519560813903809, "y": -2.1211624145507812, "z": 1.8021292686462402 }, "axis_scores": { "Quantum imaging": 0.7041230797767639, "Quantum Life Science Sensing": 0.7052631974220276, "Quantum sensing Detection": 0.6877713203430176, "Quantum sensing Metrology": 0.6942928433418274, "Quantum sensing navigation": 0.6890678405761719, "Quantum sensing Position": 0.6734143495559692, "Quantum sensing Timing": 0.6549599170684814, "Quantum sensing": 0.7022005915641785, "Quantum control": 0.6731697916984558 } }, { "id": 872, "title": "Genotoxic effects of CdS quantum dots and Ag2S nanoparticles in fish cell lines (RTG-2)", "abstract": "The increasing use of nanotechnologies will lead to significant releases of engineered nanoparticles into the aquatic environment, where their impact is still poorly characterized. In the present pape...", "citations": 40, "author_count": 9, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 872, "doi": "10.1016/j.mrgentox.2014.09.003", "umap_coordinates": { "x": 393.4422607421875, "y": 134.4524688720703, "z": 204.52015686035156 }, "tsne_coordinates": { "x": 15.648758888244629, "y": 24.30113410949707, "z": 3.583953619003296 }, "pca_coordinates": { "x": -4.670560836791992, "y": 0.22959470748901367, "z": -2.7073540687561035 }, "axis_scores": { "Quantum imaging": 0.6940867900848389, "Quantum Life Science Sensing": 0.746170699596405, "Quantum sensing Detection": 0.7054599523544312, "Quantum sensing Metrology": 0.682452380657196, "Quantum sensing navigation": 0.6795703768730164, "Quantum sensing Position": 0.6669735312461853, "Quantum sensing Timing": 0.6542235612869263, "Quantum sensing": 0.7071577906608582, "Quantum control": 0.682236909866333 } }, { "id": 873, "title": "Single Excitons in InGaN Quantum Dots on GaN Pyramid Arrays", "abstract": "Fabrication of single InGaN quantum dots (QDs) on top of GaN micropyramids is reported. The formation of single QDs is evidenced by showing single sub-millielectronvolt emission lines in microphotolum...", "citations": 54, "author_count": 7, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 873, "doi": "10.1021/nl200810v", "umap_coordinates": { "x": 392.90460205078125, "y": 133.7449188232422, "z": 207.76470947265625 }, "tsne_coordinates": { "x": 18.949748992919922, "y": -17.26193618774414, "z": -4.560145854949951 }, "pca_coordinates": { "x": -0.069693922996521, "y": -6.1411452293396, "z": 1.5401816368103027 }, "axis_scores": { "Quantum imaging": 0.7040526866912842, "Quantum Life Science Sensing": 0.6909568905830383, "Quantum sensing Detection": 0.6947754621505737, "Quantum sensing Metrology": 0.6857049465179443, "Quantum sensing navigation": 0.6895444989204407, "Quantum sensing Position": 0.6735103726387024, "Quantum sensing Timing": 0.6632430553436279, "Quantum sensing": 0.7040344476699829, "Quantum control": 0.6715075373649597 } }, { "id": 874, "title": "Time-resolved studies of single semiconductor quantum dots", "abstract": "We present time-resolved optical studies of single self-assembled quantum dots. The dots were obtained by Stranski-Krasranow growth of InP on Ga0.5In0.5P. A selective technique based on etching after ...", "citations": 59, "author_count": 7, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 874, "doi": "10.1103/PhysRevB.59.5021", "umap_coordinates": { "x": 394.13983154296875, "y": 134.00778198242188, "z": 208.37078857421875 }, "tsne_coordinates": { "x": 7.307803153991699, "y": -27.03902244567871, "z": -8.431767463684082 }, "pca_coordinates": { "x": 2.6415700912475586, "y": -3.6780638694763184, "z": 1.061629295349121 }, "axis_scores": { "Quantum imaging": 0.734771728515625, "Quantum Life Science Sensing": 0.7759896516799927, "Quantum sensing Detection": 0.7502404451370239, "Quantum sensing Metrology": 0.7318490147590637, "Quantum sensing navigation": 0.7261123061180115, "Quantum sensing Position": 0.7231460809707642, "Quantum sensing Timing": 0.7347136735916138, "Quantum sensing": 0.7609360218048096, "Quantum control": 0.7055691480636597 } }, { "id": 875, "title": "Information capacity of quantum communication under natural physical assumptions", "abstract": "The quantum prepare-and-measure scenario has been studied under various physical assumptions on the emitted states. Here, we first discuss how different assumptions are conceptually and formally relat...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 875, "doi": "10.22331/q-2025-02-18-1637", "umap_coordinates": { "x": 395.42413330078125, "y": 137.03250122070312, "z": 206.13168334960938 }, "tsne_coordinates": { "x": -23.937870025634766, "y": 3.6622533798217773, "z": 0.47304877638816833 }, "pca_coordinates": { "x": 1.9511799812316895, "y": 3.541166067123413, "z": 0.09562677145004272 }, "axis_scores": { "Quantum imaging": 0.7698001861572266, "Quantum Life Science Sensing": 0.784148097038269, "Quantum sensing Detection": 0.7663546800613403, "Quantum sensing Metrology": 0.7671464085578918, "Quantum sensing navigation": 0.7630562782287598, "Quantum sensing Position": 0.7443674802780151, "Quantum sensing Timing": 0.7201645970344543, "Quantum sensing": 0.7770144939422607, "Quantum control": 0.7461955547332764 } }, { "id": 876, "title": "Cold-electron bolometer as a photon-noise-limited detector with on-chip electron self-cooling", "abstract": "", "citations": 2, "author_count": 7, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 876, "doi": "10.1051/epjconf/201819505006", "umap_coordinates": { "x": 395.2194519042969, "y": 134.2920379638672, "z": 207.06698608398438 }, "tsne_coordinates": { "x": -12.380865097045898, "y": -8.348575592041016, "z": -36.538047790527344 }, "pca_coordinates": { "x": 0.21188831329345703, "y": -0.27313804626464844, "z": 4.5230913162231445 }, "axis_scores": { "Quantum imaging": 0.6998488306999207, "Quantum Life Science Sensing": 0.7005135416984558, "Quantum sensing Detection": 0.7207501530647278, "Quantum sensing Metrology": 0.6960113644599915, "Quantum sensing navigation": 0.7062369585037231, "Quantum sensing Position": 0.6738384366035461, "Quantum sensing Timing": 0.6841429471969604, "Quantum sensing": 0.7092403173446655, "Quantum control": 0.6859328746795654 } }, { "id": 877, "title": "DETERMINISM AND RANDOMNESS IN QUANTUM DYNAMICS", "abstract": "A class of models is considered where a finite or infinite quantum dynamical system in a stationary state is probed by sequences of observations acting on a specified finite subsystem. The whole set o...", "citations": 5, "author_count": 2, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 877, "doi": "10.1088/0305-4470/26/23/053", "umap_coordinates": { "x": 394.9134826660156, "y": 137.22329711914062, "z": 206.99317932128906 }, "tsne_coordinates": { "x": -29.042911529541016, "y": 7.621720790863037, "z": 22.409862518310547 }, "pca_coordinates": { "x": 3.7278265953063965, "y": 3.7511236667633057, "z": -1.2658774852752686 }, "axis_scores": { "Quantum imaging": 0.7470605373382568, "Quantum Life Science Sensing": 0.7645916938781738, "Quantum sensing Detection": 0.7549889087677002, "Quantum sensing Metrology": 0.7282934188842773, "Quantum sensing navigation": 0.7756820917129517, "Quantum sensing Position": 0.7277425527572632, "Quantum sensing Timing": 0.7364199161529541, "Quantum sensing": 0.7635389566421509, "Quantum control": 0.7734649181365967 } }, { "id": 878, "title": "Effects of Quantum Dot Labeling on Endothelial Progenitor Cell Function and Viability", "abstract": "Endothelial progenitor cells (EPC) play an important role in repairing damaged endothelium. An effective imaging method for in vivo tracking of EPCs is essential for understanding EPC-based cell thera...", "citations": 11, "author_count": 7, "categories": [ "Research & Experimental Medicine" ], "year": 2010, "topic": [ "all" ], "embedding_index": 878, "doi": "10.3727/215517910X451603", "umap_coordinates": { "x": 394.68511962890625, "y": 134.58448791503906, "z": 204.27130126953125 }, "tsne_coordinates": { "x": 14.666301727294922, "y": 29.73685073852539, "z": -2.9578042030334473 }, "pca_coordinates": { "x": -2.910825729370117, "y": 1.4281123876571655, "z": 0.3711935877799988 }, "axis_scores": { "Quantum imaging": 0.7053016424179077, "Quantum Life Science Sensing": 0.71126788854599, "Quantum sensing Detection": 0.6838074922561646, "Quantum sensing Metrology": 0.6642465591430664, "Quantum sensing navigation": 0.6902946829795837, "Quantum sensing Position": 0.6790523529052734, "Quantum sensing Timing": 0.6645519733428955, "Quantum sensing": 0.6838143467903137, "Quantum control": 0.6920772194862366 } }, { "id": 879, "title": "Simultaneous Creation and Recovery of Trap States on Quantum Dots in a Photoirradiated CdSe-ZnO System", "abstract": "We study changes in the steady-state absorption and ultrafast transient absorption kinetics of the photoirradiated CdSe quantum dotZnO system. The changes enable us to reconstruct kinetics of trap cre...", "citations": 10, "author_count": 7, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 879, "doi": "10.1021/jp509242r", "umap_coordinates": { "x": 392.0796813964844, "y": 135.58653259277344, "z": 205.9668426513672 }, "tsne_coordinates": { "x": 21.01534652709961, "y": 2.975710153579712, "z": 5.993559837341309 }, "pca_coordinates": { "x": -1.3192903995513916, "y": -3.61112117767334, "z": -0.043092966079711914 }, "axis_scores": { "Quantum imaging": 0.6942121982574463, "Quantum Life Science Sensing": 0.711068332195282, "Quantum sensing Detection": 0.7034032940864563, "Quantum sensing Metrology": 0.6850441694259644, "Quantum sensing navigation": 0.6727478504180908, "Quantum sensing Position": 0.6797164678573608, "Quantum sensing Timing": 0.6932418942451477, "Quantum sensing": 0.7069070339202881, "Quantum control": 0.6689308881759644 } }, { "id": 880, "title": "Consensus of Quantum Networks with Continuous-time Markovian Dynamics", "abstract": "In this paper, we investigate the convergence of the state of a quantum network to a consensus (symmetric) state. The state evolution of the quantum network with continuous-time swapping operators can...", "citations": 2, "author_count": 5, "categories": [ "Automation & Control Systems" ], "year": 2014, "topic": [ "all" ], "embedding_index": 880, "doi": null, "umap_coordinates": { "x": 392.0696716308594, "y": 139.25274658203125, "z": 208.97268676757812 }, "tsne_coordinates": { "x": -15.567553520202637, "y": 42.12497329711914, "z": -2.5723485946655273 }, "pca_coordinates": { "x": 2.7720069885253906, "y": 3.8659420013427734, "z": -1.4393908977508545 }, "axis_scores": { "Quantum imaging": 0.7624801993370056, "Quantum Life Science Sensing": 0.7487267255783081, "Quantum sensing Detection": 0.7630946636199951, "Quantum sensing Metrology": 0.7566120624542236, "Quantum sensing navigation": 0.7781327962875366, "Quantum sensing Position": 0.7252563834190369, "Quantum sensing Timing": 0.7338244318962097, "Quantum sensing": 0.770926296710968, "Quantum control": 0.7870914340019226 } }, { "id": 881, "title": "Born's rule from measurements of classical signals by threshold detectors which are properly calibrated", "abstract": "The very old problem of the statistical content of quantum mechanics (QM) is studied in a novel framework. The Born's rule (one of the basic postulates of QM) is derived from theory of classical rando...", "citations": 11, "author_count": 2, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 881, "doi": "10.1080/09500340.2012.656718", "umap_coordinates": { "x": 395.59051513671875, "y": 137.07846069335938, "z": 206.07095336914062 }, "tsne_coordinates": { "x": -34.70522689819336, "y": 4.905880928039551, "z": 16.868560791015625 }, "pca_coordinates": { "x": -0.01659846305847168, "y": 3.228663444519043, "z": 1.9955356121063232 }, "axis_scores": { "Quantum imaging": 0.7115802764892578, "Quantum Life Science Sensing": 0.7689001560211182, "Quantum sensing Detection": 0.7625889778137207, "Quantum sensing Metrology": 0.7477267384529114, "Quantum sensing navigation": 0.7292412519454956, "Quantum sensing Position": 0.7336946725845337, "Quantum sensing Timing": 0.7487356066703796, "Quantum sensing": 0.7634067535400391, "Quantum control": 0.7028061151504517 } }, { "id": 882, "title": "DETERMINATION OF THE CHEMI-LUMINESCENCE QUANTUM YIELD OF LUMINOL IN RAPID CHEMICAL-REACTIONS", "abstract": "", "citations": 19, "author_count": 3, "categories": [ "Chemistry" ], "year": 1981, "topic": [ "all" ], "embedding_index": 882, "doi": "10.1016/0009-2614(81)85167-6", "umap_coordinates": { "x": 393.9039611816406, "y": 136.08729553222656, "z": 205.40127563476562 }, "tsne_coordinates": { "x": -4.386203289031982, "y": 11.959465026855469, "z": 3.033456802368164 }, "pca_coordinates": { "x": -2.78948974609375, "y": 1.4031341075897217, "z": -0.5835089683532715 }, "axis_scores": { "Quantum imaging": 0.6963433027267456, "Quantum Life Science Sensing": 0.7368574738502502, "Quantum sensing Detection": 0.7038962841033936, "Quantum sensing Metrology": 0.6994236707687378, "Quantum sensing navigation": 0.6762936115264893, "Quantum sensing Position": 0.6770375967025757, "Quantum sensing Timing": 0.6766293048858643, "Quantum sensing": 0.7130041718482971, "Quantum control": 0.6814278364181519 } }, { "id": 883, "title": "Robust triplet-triplet annihilation photon upconversion by efficient oxygen scavenging", "abstract": "We hereby present a simple method for reducing the effect of oxygen quenching in Triplet-Triplet Annihilation Upconversion (TTA-UC) systems. A number of commercially available thioethers and one thiol...", "citations": 64, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 883, "doi": "10.1039/c7pp00201g", "umap_coordinates": { "x": 392.0039367675781, "y": 134.74314880371094, "z": 205.28402709960938 }, "tsne_coordinates": { "x": 8.892959594726562, "y": 0.5787608623504639, "z": -13.099364280700684 }, "pca_coordinates": { "x": -2.820128917694092, "y": -2.0612049102783203, "z": 0.33278244733810425 }, "axis_scores": { "Quantum imaging": 0.6812471747398376, "Quantum Life Science Sensing": 0.6917665004730225, "Quantum sensing Detection": 0.675801694393158, "Quantum sensing Metrology": 0.6376100778579712, "Quantum sensing navigation": 0.6489322781562805, "Quantum sensing Position": 0.611339807510376, "Quantum sensing Timing": 0.6428660154342651, "Quantum sensing": 0.6744316816329956, "Quantum control": 0.6754104495048523 } }, { "id": 884, "title": "Instability of plasma waves caused by incoherent photons in dense plasmas", "abstract": "We consider the nonlinear instability of modified Langmuir and ion-sound waves caused by partially coherent photons in dense quantum plasmas. In our model, the dynamics of the photons is governed by a...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 884, "doi": "10.1017/S0022377810000437", "umap_coordinates": { "x": 394.3063049316406, "y": 135.4650421142578, "z": 206.30714416503906 }, "tsne_coordinates": { "x": -6.501529216766357, "y": 4.837100505828857, "z": 1.472441554069519 }, "pca_coordinates": { "x": -0.48340392112731934, "y": -0.2588684558868408, "z": 0.6971922516822815 }, "axis_scores": { "Quantum imaging": 0.7243247628211975, "Quantum Life Science Sensing": 0.7263601422309875, "Quantum sensing Detection": 0.7142428755760193, "Quantum sensing Metrology": 0.6841182112693787, "Quantum sensing navigation": 0.6978555917739868, "Quantum sensing Position": 0.6660570502281189, "Quantum sensing Timing": 0.6495165824890137, "Quantum sensing": 0.7061751484870911, "Quantum control": 0.6727108359336853 } }, { "id": 885, "title": "Violation of Bell's inequality by correlations of classical random signals", "abstract": "We show that the usage of the threshold type and properly calibrated detectors provides a possibility to violate Bell's inequality by correlations of classical (Gaussian) signals. Consequences for qua...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 885, "doi": "10.1088/0031-8949/2012/T151/014003", "umap_coordinates": { "x": 395.3022766113281, "y": 136.95220947265625, "z": 206.70843505859375 }, "tsne_coordinates": { "x": -32.396827697753906, "y": 0.5860000848770142, "z": 4.329226970672607 }, "pca_coordinates": { "x": 2.2606916427612305, "y": 4.088506698608398, "z": 1.38594651222229 }, "axis_scores": { "Quantum imaging": 0.7456498146057129, "Quantum Life Science Sensing": 0.7481469511985779, "Quantum sensing Detection": 0.7629112601280212, "Quantum sensing Metrology": 0.7416738867759705, "Quantum sensing navigation": 0.75435870885849, "Quantum sensing Position": 0.7311125993728638, "Quantum sensing Timing": 0.7487887144088745, "Quantum sensing": 0.7659718990325928, "Quantum control": 0.7356532216072083 } }, { "id": 886, "title": "Phase breaking of nonequilibrium electrons in a ballistic quantum dot", "abstract": "A study of phase breaking of equilibrium and nonequilibrium electrons in a ballistic quantum dot is presented. Estimates for the phase breaking time are obtained from the magnitude of the weak-localiz...", "citations": 12, "author_count": 7, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 886, "doi": "10.1103/PhysRevB.56.14937", "umap_coordinates": { "x": 394.1817626953125, "y": 135.87741088867188, "z": 209.12094116210938 }, "tsne_coordinates": { "x": 0.506230354309082, "y": -31.905466079711914, "z": 7.869863986968994 }, "pca_coordinates": { "x": 6.187962055206299, "y": -1.725555419921875, "z": -1.7190616130828857 }, "axis_scores": { "Quantum imaging": 0.7123299241065979, "Quantum Life Science Sensing": 0.7265291213989258, "Quantum sensing Detection": 0.7353991270065308, "Quantum sensing Metrology": 0.7113693952560425, "Quantum sensing navigation": 0.7485697269439697, "Quantum sensing Position": 0.7117560505867004, "Quantum sensing Timing": 0.6913377046585083, "Quantum sensing": 0.7315744161605835, "Quantum control": 0.7075203657150269 } }, { "id": 887, "title": "Weak entanglement improves quantum communication using only product measurements", "abstract": "We show that weakly entangled states can improve communication over a qubit channel using only separate, interference -free, measurements of individual photons. We introduce a communication task corre...", "citations": 2, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 887, "doi": "10.1103/PhysRevApplied.21.034053", "umap_coordinates": { "x": 395.94732666015625, "y": 136.7320098876953, "z": 207.67141723632812 }, "tsne_coordinates": { "x": -26.148569107055664, "y": -4.021237850189209, "z": 3.7217609882354736 }, "pca_coordinates": { "x": 3.7011241912841797, "y": 1.635805606842041, "z": 3.0211710929870605 }, "axis_scores": { "Quantum imaging": 0.7403616905212402, "Quantum Life Science Sensing": 0.7055314183235168, "Quantum sensing Detection": 0.7469798922538757, "Quantum sensing Metrology": 0.7259075045585632, "Quantum sensing navigation": 0.7280596494674683, "Quantum sensing Position": 0.7170425057411194, "Quantum sensing Timing": 0.6723994016647339, "Quantum sensing": 0.7541671991348267, "Quantum control": 0.7159315347671509 } }, { "id": 888, "title": "Photoluminescence studies of Sn quantum dots in Si grown by MBE", "abstract": "A few nanometer thick SnxSi1-x layers with x <= 0.1 grown on silicon (100) surfaces can be used to form tin (alpha-Sn) quantum dots as a result of heat treatment of such structures up to 800 degrees C...", "citations": 17, "author_count": 7, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 888, "doi": "10.1016/j.optmat.2004.08.020", "umap_coordinates": { "x": 393.4608459472656, "y": 133.43370056152344, "z": 206.3055877685547 }, "tsne_coordinates": { "x": 38.26210403442383, "y": -2.3742048740386963, "z": 2.2852327823638916 }, "pca_coordinates": { "x": -2.392530918121338, "y": -2.7304062843322754, "z": 2.12764835357666 }, "axis_scores": { "Quantum imaging": 0.741317868232727, "Quantum Life Science Sensing": 0.7277052402496338, "Quantum sensing Detection": 0.7265594005584717, "Quantum sensing Metrology": 0.7285141348838806, "Quantum sensing navigation": 0.7162981629371643, "Quantum sensing Position": 0.7268596887588501, "Quantum sensing Timing": 0.6684648990631104, "Quantum sensing": 0.7308688163757324, "Quantum control": 0.6753886342048645 } }, { "id": 889, "title": "Low toxic Cu2GeS3/InP quantum dot sensitized infrared solar cells", "abstract": "Type-II Cu2GeS3/InP core/shell quantum dots (QDs) are designed using density functional theory and synthesized by a hot injection method in order to enhance the power conversion efficiency of quantum ...", "citations": 9, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 889, "doi": "10.1063/1.5044608", "umap_coordinates": { "x": 392.74267578125, "y": 133.71414184570312, "z": 207.892578125 }, "tsne_coordinates": { "x": 27.7686710357666, "y": -15.209104537963867, "z": 0.7928362488746643 }, "pca_coordinates": { "x": -0.2730480432510376, "y": -4.368764400482178, "z": 1.0279664993286133 }, "axis_scores": { "Quantum imaging": 0.7292473912239075, "Quantum Life Science Sensing": 0.7554704546928406, "Quantum sensing Detection": 0.7549386024475098, "Quantum sensing Metrology": 0.720924973487854, "Quantum sensing navigation": 0.7079406380653381, "Quantum sensing Position": 0.6950540542602539, "Quantum sensing Timing": 0.6833632588386536, "Quantum sensing": 0.7500529885292053, "Quantum control": 0.7036222219467163 } }, { "id": 890, "title": "Photoluminescence comparation of InAs quantum dots with different capping", "abstract": "We have studied the effect of different cap layers on optical property of InAs quantum dots (QDs) on GaAs (100) substrate. Temperature dependent photoluminescence (PL) indicates that the PL integrated...", "citations": 3, "author_count": 8, "categories": [ "Engineering" ], "year": 2003, "topic": [ "all" ], "embedding_index": 890, "doi": null, "umap_coordinates": { "x": 391.6903076171875, "y": 139.28079223632812, "z": 209.6171112060547 }, "tsne_coordinates": { "x": -9.035548210144043, "y": 48.06348419189453, "z": -8.452463150024414 }, "pca_coordinates": { "x": -2.7272140979766846, "y": 0.8240470886230469, "z": -0.6831626892089844 }, "axis_scores": { "Quantum imaging": 0.7291854619979858, "Quantum Life Science Sensing": 0.7325103878974915, "Quantum sensing Detection": 0.7251781225204468, "Quantum sensing Metrology": 0.7102239727973938, "Quantum sensing navigation": 0.7182814478874207, "Quantum sensing Position": 0.7078711986541748, "Quantum sensing Timing": 0.7034363150596619, "Quantum sensing": 0.7322878241539001, "Quantum control": 0.725682258605957 } }, { "id": 891, "title": "Colloidal thick-shell pyramidal quantum dots for efficient hydrogen production", "abstract": "Colloidal semiconductor quantum dots (QDs) have attracted a great attention for their potential applications in optoelectronic devices, such as water splitting, luminescent solar concentrators, and so...", "citations": 39, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 891, "doi": "10.1016/j.nanoen.2018.08.042", "umap_coordinates": { "x": 392.4251403808594, "y": 133.62307739257812, "z": 205.51522827148438 }, "tsne_coordinates": { "x": 23.779150009155273, "y": 4.447269916534424, "z": -8.655810356140137 }, "pca_coordinates": { "x": -3.089250326156616, "y": -3.1761746406555176, "z": -1.0934356451034546 }, "axis_scores": { "Quantum imaging": 0.7531108856201172, "Quantum Life Science Sensing": 0.7502126097679138, "Quantum sensing Detection": 0.723048985004425, "Quantum sensing Metrology": 0.7186287045478821, "Quantum sensing navigation": 0.7224525213241577, "Quantum sensing Position": 0.7085857391357422, "Quantum sensing Timing": 0.6868268847465515, "Quantum sensing": 0.74686598777771, "Quantum control": 0.7207131385803223 } }, { "id": 892, "title": "Recombination energy for negatively charged excitons inside type-II core/shell spherical quantum dots", "abstract": "The recombination energy of isolated neutral exciton and that of isolated negatively charged exciton inside a type-II core/shell spherical quantum dot are studied. Our investigation considers the char...", "citations": 6, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 892, "doi": "10.1016/j.physe.2018.03.024", "umap_coordinates": { "x": 392.81396484375, "y": 134.30807495117188, "z": 206.09091186523438 }, "tsne_coordinates": { "x": 28.932861328125, "y": 2.459559202194214, "z": 9.554704666137695 }, "pca_coordinates": { "x": -1.8999618291854858, "y": -2.4825949668884277, "z": -1.242464303970337 }, "axis_scores": { "Quantum imaging": 0.7248002290725708, "Quantum Life Science Sensing": 0.7371694445610046, "Quantum sensing Detection": 0.7108443975448608, "Quantum sensing Metrology": 0.6869494915008545, "Quantum sensing navigation": 0.7015573978424072, "Quantum sensing Position": 0.7031964063644409, "Quantum sensing Timing": 0.6885445713996887, "Quantum sensing": 0.7128980159759521, "Quantum control": 0.6690994501113892 } }, { "id": 893, "title": "Kondo resonance in a mesoscopic ring coupled to a quantum dot: Exact results for the Aharonov-Bohm-Casher effects", "abstract": "We study the persistent currents induced by both the Aharonov-Bohm and Aharonov-Casher effects in a one-dimensional mesoscopic ring coupled to a sidebranch quantum dot at Kondo resonance. For privileg...", "citations": 47, "author_count": 4, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 893, "doi": "10.1103/PhysRevLett.87.016602", "umap_coordinates": { "x": 394.6853942871094, "y": 135.8770294189453, "z": 208.73541259765625 }, "tsne_coordinates": { "x": -2.0089151859283447, "y": -19.805749893188477, "z": -4.136181354522705 }, "pca_coordinates": { "x": 4.118105888366699, "y": -0.9974367618560791, "z": -0.7794201374053955 }, "axis_scores": { "Quantum imaging": 0.7141653299331665, "Quantum Life Science Sensing": 0.7369667887687683, "Quantum sensing Detection": 0.7246028780937195, "Quantum sensing Metrology": 0.7251459360122681, "Quantum sensing navigation": 0.7114196419715881, "Quantum sensing Position": 0.7045182585716248, "Quantum sensing Timing": 0.7112020254135132, "Quantum sensing": 0.7406719326972961, "Quantum control": 0.7148960828781128 } }, { "id": 894, "title": "Kinetic effects on the size homogeneity of Stranski-Krastanow islands", "abstract": "In this study we present results concerning the size (height) homogeneity of self-assembled quantum dots grown in the Stranski-Krastanow growth mode for different deposition conditions. 3.5 ML InP was...", "citations": 12, "author_count": 3, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 894, "doi": "10.1016/S0169-4332(99)00127-0", "umap_coordinates": { "x": 392.53558349609375, "y": 134.7663116455078, "z": 206.61026000976562 }, "tsne_coordinates": { "x": 34.97361373901367, "y": -6.056151390075684, "z": 2.5839505195617676 }, "pca_coordinates": { "x": -1.3236901760101318, "y": 1.4246758222579956, "z": -3.001943588256836 }, "axis_scores": { "Quantum imaging": 0.6563510298728943, "Quantum Life Science Sensing": 0.6642947196960449, "Quantum sensing Detection": 0.6231699585914612, "Quantum sensing Metrology": 0.6308634877204895, "Quantum sensing navigation": 0.6494262218475342, "Quantum sensing Position": 0.6545348763465881, "Quantum sensing Timing": 0.6377131342887878, "Quantum sensing": 0.6526472568511963, "Quantum control": 0.6440258026123047 } }, { "id": 895, "title": "Determining the Photoisomerization Quantum Yield of Photoswitchable Molecules in Solution and in the Solid State", "abstract": "Photoswitchable molecules are able to isomerize between two metastable forms through light stimuli. Originally being studied by photochemists, this type of molecule has now found a wide range of appli...", "citations": 160, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 895, "doi": "10.1038/srep41145", "umap_coordinates": { "x": 392.9263610839844, "y": 135.61920166015625, "z": 205.1282958984375 }, "tsne_coordinates": { "x": -2.066798210144043, "y": 6.882218837738037, "z": -3.9206202030181885 }, "pca_coordinates": { "x": -2.312335252761841, "y": -1.1573047637939453, "z": -0.8074365854263306 }, "axis_scores": { "Quantum imaging": 0.7365040183067322, "Quantum Life Science Sensing": 0.7898387908935547, "Quantum sensing Detection": 0.7360356450080872, "Quantum sensing Metrology": 0.7291562557220459, "Quantum sensing navigation": 0.7035256624221802, "Quantum sensing Position": 0.7006654739379883, "Quantum sensing Timing": 0.6947900056838989, "Quantum sensing": 0.74949049949646, "Quantum control": 0.6888986825942993 } }, { "id": 896, "title": "Quantal phase for nonmaximally entangled photons - art. no. 062301", "abstract": "We calculate the Pancharatnam phase difference obtained when entangled two-photon states interfere. This phase depends nontrivially on the degree of entanglement between the photons forming the two-ph...", "citations": 32, "author_count": 3, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 896, "doi": "10.1103/PhysRevA.62.062301", "umap_coordinates": { "x": 395.6673889160156, "y": 136.4666290283203, "z": 207.6467742919922 }, "tsne_coordinates": { "x": -21.061548233032227, "y": -9.576925277709961, "z": 2.674938678741455 }, "pca_coordinates": { "x": 3.9219508171081543, "y": 1.278448462486267, "z": 1.6563942432403564 }, "axis_scores": { "Quantum imaging": 0.7277114987373352, "Quantum Life Science Sensing": 0.7386890053749084, "Quantum sensing Detection": 0.7323402762413025, "Quantum sensing Metrology": 0.7369502782821655, "Quantum sensing navigation": 0.7318247556686401, "Quantum sensing Position": 0.7138163447380066, "Quantum sensing Timing": 0.6940525770187378, "Quantum sensing": 0.7319304347038269, "Quantum control": 0.6897324323654175 } }, { "id": 897, "title": "Nanomechanical cat states generated by a dc voltage-driven Cooper pair box qubit", "abstract": "We study a nanoelectromechanical system consisting of a Cooper pair box qubit performing nanomechanical vibrations between two bulk superconductors. We demonstrate that a bias voltage applied to the s...", "citations": 8, "author_count": 7, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 897, "doi": "10.1038/s41534-022-00584-6", "umap_coordinates": { "x": 394.0625305175781, "y": 135.31024169921875, "z": 207.24594116210938 }, "tsne_coordinates": { "x": 0.4167965054512024, "y": -8.916752815246582, "z": 13.091519355773926 }, "pca_coordinates": { "x": 1.4836053848266602, "y": -0.6815993785858154, "z": 0.3636811375617981 }, "axis_scores": { "Quantum imaging": 0.7307246923446655, "Quantum Life Science Sensing": 0.7490885853767395, "Quantum sensing Detection": 0.7530176043510437, "Quantum sensing Metrology": 0.7440850138664246, "Quantum sensing navigation": 0.7509332895278931, "Quantum sensing Position": 0.7277311086654663, "Quantum sensing Timing": 0.7203382849693298, "Quantum sensing": 0.7621592879295349, "Quantum control": 0.7353837490081787 } }, { "id": 898, "title": "Direct photon production in high-energy heavy-ion collisions", "abstract": "Direct thermal photons in the p(t) range of 0 - 5 GeV/c are expected to provide a sensitive probe of the hot dense matter formed in the early stage of relativistic heavy ion collisions. The production...", "citations": 1, "author_count": 170, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 898, "doi": "10.1016/S0375-9474(00)88515-2", "umap_coordinates": { "x": 396.2789611816406, "y": 134.29830932617188, "z": 207.40420532226562 }, "tsne_coordinates": { "x": -30.784324645996094, "y": 3.014390230178833, "z": -12.71303939819336 }, "pca_coordinates": { "x": -0.9595159292221069, "y": 0.09488296508789062, "z": 2.8417165279388428 }, "axis_scores": { "Quantum imaging": 0.724966824054718, "Quantum Life Science Sensing": 0.7060067653656006, "Quantum sensing Detection": 0.7252391576766968, "Quantum sensing Metrology": 0.6804603338241577, "Quantum sensing navigation": 0.7008236646652222, "Quantum sensing Position": 0.6946604251861572, "Quantum sensing Timing": 0.679751455783844, "Quantum sensing": 0.7175523638725281, "Quantum control": 0.66709965467453 } }, { "id": 899, "title": "Improved practical decoy state method in quantum key distribution with parametric down-conversion source", "abstract": "In this paper, a new decoy state scheme for quantum key distribution with parametric down-conversion source is proposed. We use both three-intensity decoy states and their triggered and nontriggered c...", "citations": 21, "author_count": 5, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 899, "doi": "10.1209/0295-5075/79/40001", "umap_coordinates": { "x": 395.32891845703125, "y": 135.5906524658203, "z": 206.6345672607422 }, "tsne_coordinates": { "x": -7.770651817321777, "y": -19.876516342163086, "z": -13.326778411865234 }, "pca_coordinates": { "x": 0.025459766387939453, "y": 3.064511775970459, "z": 2.065171718597412 }, "axis_scores": { "Quantum imaging": 0.6908493638038635, "Quantum Life Science Sensing": 0.6634421944618225, "Quantum sensing Detection": 0.6724905967712402, "Quantum sensing Metrology": 0.6726512908935547, "Quantum sensing navigation": 0.6800755858421326, "Quantum sensing Position": 0.6840301156044006, "Quantum sensing Timing": 0.6727874279022217, "Quantum sensing": 0.6854735016822815, "Quantum control": 0.6865010261535645 } }, { "id": 900, "title": "Control of mixed-state quantum systems by a train of short pulses - art. no. 032704", "abstract": "A density matrix approach is developed for the control of a mixed-state quantum system using a time-dependent external field such as a train of pulses. This leads to the definition of a target density...", "citations": 47, "author_count": 8, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 900, "doi": "10.1103/PhysRevA.72.032704", "umap_coordinates": { "x": 395.0699157714844, "y": 135.6634521484375, "z": 207.61891174316406 }, "tsne_coordinates": { "x": -14.193697929382324, "y": -12.217443466186523, "z": -8.979043006896973 }, "pca_coordinates": { "x": 3.280721664428711, "y": 0.7174880504608154, "z": 0.8218953013420105 }, "axis_scores": { "Quantum imaging": 0.7026106715202332, "Quantum Life Science Sensing": 0.7219670414924622, "Quantum sensing Detection": 0.7034752368927002, "Quantum sensing Metrology": 0.6997218132019043, "Quantum sensing navigation": 0.7049483060836792, "Quantum sensing Position": 0.6832967400550842, "Quantum sensing Timing": 0.7002944350242615, "Quantum sensing": 0.7173764109611511, "Quantum control": 0.7136428952217102 } }, { "id": 901, "title": "A Symbolic Classical Computer Language for Simulation of Quantum Algorithms", "abstract": "Quantum computing is an extremely promising research combining theoretical and experimental quan tum physics, mathematics, quantum information theory and computer science. Classical simulation of quan...", "citations": 3, "author_count": 2, "categories": [ "Computer Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 901, "doi": null, "umap_coordinates": { "x": 392.0284118652344, "y": 139.3474578857422, "z": 209.2825469970703 }, "tsne_coordinates": { "x": -17.14449691772461, "y": 43.365150451660156, "z": 0.37976062297821045 }, "pca_coordinates": { "x": 1.914754867553711, "y": 4.849592208862305, "z": -0.7020344734191895 }, "axis_scores": { "Quantum imaging": 0.7280802726745605, "Quantum Life Science Sensing": 0.7109130024909973, "Quantum sensing Detection": 0.7327532768249512, "Quantum sensing Metrology": 0.7035869359970093, "Quantum sensing navigation": 0.7395215630531311, "Quantum sensing Position": 0.692107081413269, "Quantum sensing Timing": 0.7053787708282471, "Quantum sensing": 0.7415460348129272, "Quantum control": 0.738806962966919 } }, { "id": 902, "title": "Concurrence in arbitrary dimensions", "abstract": "We argue that a complete characterization of quantum correlations in bipartite systems of many dimensions may require a quantity which, even for pure states, does not reduce to a single number. Subseq...", "citations": 55, "author_count": 6, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 902, "doi": "10.1080/09500340210121589", "umap_coordinates": { "x": 395.3199768066406, "y": 136.56378173828125, "z": 206.79335021972656 }, "tsne_coordinates": { "x": -39.687049865722656, "y": 3.5881173610687256, "z": 11.79936695098877 }, "pca_coordinates": { "x": 2.0250556468963623, "y": 1.812620997428894, "z": 1.1515250205993652 }, "axis_scores": { "Quantum imaging": 0.7577788829803467, "Quantum Life Science Sensing": 0.7327220439910889, "Quantum sensing Detection": 0.7681887745857239, "Quantum sensing Metrology": 0.7498330473899841, "Quantum sensing navigation": 0.759951651096344, "Quantum sensing Position": 0.742997944355011, "Quantum sensing Timing": 0.7386276721954346, "Quantum sensing": 0.7647861242294312, "Quantum control": 0.7567362785339355 } }, { "id": 903, "title": "Photon counting statistics of a microwave cavity", "abstract": "The development of microwave photon detectors is paving the way for a wide range of quantum technologies and fundamental discoveries involving single photons. Here, we investigate the photon emission ...", "citations": 36, "author_count": 4, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 903, "doi": "10.1103/PhysRevB.99.085418", "umap_coordinates": { "x": 395.2665100097656, "y": 134.9351806640625, "z": 207.80581665039062 }, "tsne_coordinates": { "x": -10.437664985656738, "y": -23.74871063232422, "z": -8.111162185668945 }, "pca_coordinates": { "x": 3.6985459327697754, "y": 0.2821035385131836, "z": 3.2846016883850098 }, "axis_scores": { "Quantum imaging": 0.721051812171936, "Quantum Life Science Sensing": 0.7328343391418457, "Quantum sensing Detection": 0.7505225539207458, "Quantum sensing Metrology": 0.7300696969032288, "Quantum sensing navigation": 0.7374202609062195, "Quantum sensing Position": 0.698419988155365, "Quantum sensing Timing": 0.7063421010971069, "Quantum sensing": 0.7390225529670715, "Quantum control": 0.6858016848564148 } }, { "id": 904, "title": "InAs/GaAs p-i-p quantum dots-in-a-well infrared photodetectors operating beyond 200 K", "abstract": "High-temperature operating performance of p-i-p quantum dots-in-awell infrared photodetectors (QDIPs) is successfully demonstrated. The optically active region consists of 10 layers of p-doped selfass...", "citations": 23, "author_count": 9, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 904, "doi": "10.1049/el.2014.2437", "umap_coordinates": { "x": 393.2962646484375, "y": 133.79432678222656, "z": 206.99302673339844 }, "tsne_coordinates": { "x": 4.974348545074463, "y": 2.520627498626709, "z": -26.49905776977539 }, "pca_coordinates": { "x": -0.8186082243919373, "y": -3.0595927238464355, "z": 1.4723384380340576 }, "axis_scores": { "Quantum imaging": 0.7199815511703491, "Quantum Life Science Sensing": 0.7274454832077026, "Quantum sensing Detection": 0.7074407339096069, "Quantum sensing Metrology": 0.6776188611984253, "Quantum sensing navigation": 0.6842892169952393, "Quantum sensing Position": 0.6865733861923218, "Quantum sensing Timing": 0.6725059747695923, "Quantum sensing": 0.7142336368560791, "Quantum control": 0.6638879776000977 } }, { "id": 905, "title": "Quantum-dot-induced optical transition enhancement in InAs quantum-dot-embedded p-i-n GaAs solar cells", "abstract": "Photocurrents (PCs) of three p-i-n GaAs solar cells, sample A with InAs quantum dots (QDs) embedded in the depletion region, B with QDs in the n region, and C without QDs, were studied experimentally ...", "citations": 20, "author_count": 9, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 905, "doi": "10.1063/1.3638488", "umap_coordinates": { "x": 392.7580261230469, "y": 133.81671142578125, "z": 208.05308532714844 }, "tsne_coordinates": { "x": 29.843503952026367, "y": -20.85706901550293, "z": -3.182875394821167 }, "pca_coordinates": { "x": 0.5420476198196411, "y": -5.192215919494629, "z": 1.0895416736602783 }, "axis_scores": { "Quantum imaging": 0.7273584008216858, "Quantum Life Science Sensing": 0.7215776443481445, "Quantum sensing Detection": 0.7268233895301819, "Quantum sensing Metrology": 0.7126866579055786, "Quantum sensing navigation": 0.6954341530799866, "Quantum sensing Position": 0.6839587092399597, "Quantum sensing Timing": 0.6670233011245728, "Quantum sensing": 0.7328802347183228, "Quantum control": 0.6793391704559326 } }, { "id": 906, "title": "Transport through a quantum dot pillar", "abstract": "We have performed a calculation on the quantum transport through a quantum dot pillar with hard-wall confinement, taking into account the Coulomb interaction in the dot as well as the exact sample geo...", "citations": 5, "author_count": 4, "categories": [ "Engineering" ], "year": 1997, "topic": [ "all" ], "embedding_index": 906, "doi": "10.1088/0268-1242/12/7/012", "umap_coordinates": { "x": 394.2619934082031, "y": 135.21670532226562, "z": 207.12554931640625 }, "tsne_coordinates": { "x": 24.433427810668945, "y": -14.66217041015625, "z": 15.31422233581543 }, "pca_coordinates": { "x": 0.2905834913253784, "y": -0.5347726345062256, "z": 1.6352643966674805 }, "axis_scores": { "Quantum imaging": 0.7302517890930176, "Quantum Life Science Sensing": 0.7063711285591125, "Quantum sensing Detection": 0.7011235356330872, "Quantum sensing Metrology": 0.690300703048706, "Quantum sensing navigation": 0.7184082269668579, "Quantum sensing Position": 0.704293966293335, "Quantum sensing Timing": 0.6978408098220825, "Quantum sensing": 0.7161002159118652, "Quantum control": 0.7088688611984253 } }, { "id": 907, "title": "Strong-field quantum control in the extreme ultraviolet domain using pulse shaping", "abstract": "Tailored light-matter interactions in the strong coupling regime enable the manipulation and control of quantum systems with up to unit efficiency(1,2), with applications ranging from quantum informat...", "citations": 18, "author_count": 44, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 907, "doi": "10.1038/s41586-024-08209-y", "umap_coordinates": { "x": 394.5292053222656, "y": 135.43576049804688, "z": 206.40151977539062 }, "tsne_coordinates": { "x": -9.631702423095703, "y": -1.0634644031524658, "z": -3.4211525917053223 }, "pca_coordinates": { "x": -0.1784985065460205, "y": -0.25453948974609375, "z": 1.633317470550537 }, "axis_scores": { "Quantum imaging": 0.7087850570678711, "Quantum Life Science Sensing": 0.7147947549819946, "Quantum sensing Detection": 0.7018284797668457, "Quantum sensing Metrology": 0.6886098384857178, "Quantum sensing navigation": 0.6965904235839844, "Quantum sensing Position": 0.6861598491668701, "Quantum sensing Timing": 0.6969299912452698, "Quantum sensing": 0.7150160074234009, "Quantum control": 0.7123361825942993 } }, { "id": 908, "title": "High Quality InAs Quantum Dot Lasers on Germanium Substrates", "abstract": "InAs/ GaAs quantum dot (QD) laser structures were fabricated using gas source molecular beam epitaxy (GSMBE) on Ge (100) substrate. Low temperature grown GaAs buffer layer prevented formation of anti-...", "citations": 1, "author_count": 6, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 908, "doi": null, "umap_coordinates": { "x": 391.7154541015625, "y": 139.3118438720703, "z": 209.6918487548828 }, "tsne_coordinates": { "x": -7.333835601806641, "y": 47.37741470336914, "z": -6.135746002197266 }, "pca_coordinates": { "x": -1.284254789352417, "y": -0.13765883445739746, "z": -1.0217020511627197 }, "axis_scores": { "Quantum imaging": 0.7176710963249207, "Quantum Life Science Sensing": 0.7187123894691467, "Quantum sensing Detection": 0.7117599844932556, "Quantum sensing Metrology": 0.7061039209365845, "Quantum sensing navigation": 0.7066333889961243, "Quantum sensing Position": 0.6951976418495178, "Quantum sensing Timing": 0.6771438717842102, "Quantum sensing": 0.7247202396392822, "Quantum control": 0.7140576839447021 } }, { "id": 909, "title": "Semiconductor devices for entangled photon pair generation: a review", "abstract": "Entanglement is one of the most fascinating properties of quantum mechanical systems; when two particles are entangled the measurement of the properties of one of the two allows the properties of the ...", "citations": 151, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 909, "doi": "10.1088/1361-6633/aa6955", "umap_coordinates": { "x": 394.4084777832031, "y": 134.375732421875, "z": 206.46315002441406 }, "tsne_coordinates": { "x": -16.719911575317383, "y": -3.169034957885742, "z": -23.259021759033203 }, "pca_coordinates": { "x": -0.11734628677368164, "y": -1.8320555686950684, "z": 3.413832664489746 }, "axis_scores": { "Quantum imaging": 0.7327055931091309, "Quantum Life Science Sensing": 0.7409720420837402, "Quantum sensing Detection": 0.732589840888977, "Quantum sensing Metrology": 0.7303988337516785, "Quantum sensing navigation": 0.7256333827972412, "Quantum sensing Position": 0.6975417137145996, "Quantum sensing Timing": 0.7099921107292175, "Quantum sensing": 0.7456346750259399, "Quantum control": 0.688880443572998 } }, { "id": 910, "title": "Side-gated, enhancement mode, InAs nanowire double quantum dot devices-toward controlling transverse electric fields in spin-transport measurements", "abstract": "A double quantum dot system with a definitive transverse electric field in the plane of the sample is defined by combining a facile side-gating technique with enhancement mode InAs nanowires. Positive...", "citations": 6, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 910, "doi": "10.1088/1361-6528/aafe5a", "umap_coordinates": { "x": 393.43603515625, "y": 134.62973022460938, "z": 207.73965454101562 }, "tsne_coordinates": { "x": 23.640586853027344, "y": -36.503841400146484, "z": 10.40212631225586 }, "pca_coordinates": { "x": -0.8640744090080261, "y": -2.0172386169433594, "z": 1.2557010650634766 }, "axis_scores": { "Quantum imaging": 0.6870036721229553, "Quantum Life Science Sensing": 0.6686561107635498, "Quantum sensing Detection": 0.6677831411361694, "Quantum sensing Metrology": 0.670364260673523, "Quantum sensing navigation": 0.6847554445266724, "Quantum sensing Position": 0.6622182726860046, "Quantum sensing Timing": 0.6509795188903809, "Quantum sensing": 0.6855801343917847, "Quantum control": 0.6697161197662354 } }, { "id": 911, "title": "Improving Si solar cell performance using Mn:ZnSe quantum dot-doped PLMA thin film", "abstract": "Poly(lauryl methacrylate) (PLMA) thin film doped with Mn:ZnSe quantum dots (QDs) was spin-deposited on the front surface of Si solar cell for enhancing the solar cell efficiency via photoluminescence ...", "citations": 24, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 911, "doi": "10.1186/1556-276X-8-291", "umap_coordinates": { "x": 393.01690673828125, "y": 133.93650817871094, "z": 206.2527618408203 }, "tsne_coordinates": { "x": 30.842466354370117, "y": -3.1191210746765137, "z": -15.78161907196045 }, "pca_coordinates": { "x": -2.6874828338623047, "y": -1.33085036277771, "z": 1.6328623294830322 }, "axis_scores": { "Quantum imaging": 0.6845569014549255, "Quantum Life Science Sensing": 0.6906725764274597, "Quantum sensing Detection": 0.6602687835693359, "Quantum sensing Metrology": 0.6916497945785522, "Quantum sensing navigation": 0.6728931069374084, "Quantum sensing Position": 0.6697595119476318, "Quantum sensing Timing": 0.6490891575813293, "Quantum sensing": 0.6828895807266235, "Quantum control": 0.659989595413208 } }, { "id": 912, "title": "Heteroepitaxy and selective area heteroepitaxy for silicon photonics", "abstract": "This article reviews the major achievements in recent years on heteroepitaxy and selective area heteroepitaxy that are relevant to silicon photonics. Material aspects are given due importance without ...", "citations": 88, "author_count": 2, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 912, "doi": "10.1016/j.cossms.2012.01.003", "umap_coordinates": { "x": 393.5564270019531, "y": 133.25001525878906, "z": 205.8334503173828 }, "tsne_coordinates": { "x": 35.05436706542969, "y": 9.91913890838623, "z": -14.714999198913574 }, "pca_coordinates": { "x": -3.164360761642456, "y": -1.6924023628234863, "z": 1.7989780902862549 }, "axis_scores": { "Quantum imaging": 0.7142066359519958, "Quantum Life Science Sensing": 0.7099171876907349, "Quantum sensing Detection": 0.7082826495170593, "Quantum sensing Metrology": 0.7266851663589478, "Quantum sensing navigation": 0.6902228593826294, "Quantum sensing Position": 0.6828221082687378, "Quantum sensing Timing": 0.6768217086791992, "Quantum sensing": 0.7224725484848022, "Quantum control": 0.6941832304000854 } }, { "id": 913, "title": "Design of a release-free piezo-optomechanical quantum transducer", "abstract": "Quantum transduction between microwave and optical photons offers the potential to merge the long-range connectivity of optical photons with the deterministic quantum operations of superconducting mic...", "citations": 1, "author_count": 6, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 913, "doi": "10.1063/5.0246075", "umap_coordinates": { "x": 394.57232666015625, "y": 134.96304321289062, "z": 206.8397674560547 }, "tsne_coordinates": { "x": -8.339570045471191, "y": 0.28077059984207153, "z": -11.746633529663086 }, "pca_coordinates": { "x": 0.1915140151977539, "y": 0.40120577812194824, "z": 1.6041927337646484 }, "axis_scores": { "Quantum imaging": 0.7291598320007324, "Quantum Life Science Sensing": 0.757391095161438, "Quantum sensing Detection": 0.7522118091583252, "Quantum sensing Metrology": 0.7663113474845886, "Quantum sensing navigation": 0.7303842902183533, "Quantum sensing Position": 0.7392593026161194, "Quantum sensing Timing": 0.7400415539741516, "Quantum sensing": 0.769120454788208, "Quantum control": 0.7305203080177307 } }, { "id": 914, "title": "The effect of the external lateral electric field on the luminescence intensity of InAs/GaAs quantum dots", "abstract": "We report on low-temperature microphotoluminescence (mu-PL) measurements of InAs/GaAs quantum dots (QDs) exposed to a lateral external electric field. It is demonstrated that the QDs' PL signal could ...", "citations": 1, "author_count": 8, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 914, "doi": "10.1134/S1063783407100307", "umap_coordinates": { "x": 392.76824951171875, "y": 134.08924865722656, "z": 207.53515625 }, "tsne_coordinates": { "x": 33.924224853515625, "y": -6.849267482757568, "z": -17.5653018951416 }, "pca_coordinates": { "x": -1.2403881549835205, "y": -1.7538118362426758, "z": 0.7636110186576843 }, "axis_scores": { "Quantum imaging": 0.7122544050216675, "Quantum Life Science Sensing": 0.7029350399971008, "Quantum sensing Detection": 0.6922931671142578, "Quantum sensing Metrology": 0.6794959306716919, "Quantum sensing navigation": 0.6980403065681458, "Quantum sensing Position": 0.6901440024375916, "Quantum sensing Timing": 0.6668577790260315, "Quantum sensing": 0.7053722143173218, "Quantum control": 0.694282054901123 } }, { "id": 915, "title": "Influence of a thin GaAs cap layer on structural and optical properties of InAs quantum dots", "abstract": "In this letter we investigate the changes in the surface morphology and emission wavelength of InAs quantum dots (QDs) during initial GaAs encapsulation by atomic force microscopy and photoluminescenc...", "citations": 82, "author_count": 7, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 915, "doi": "10.1063/1.1500778", "umap_coordinates": { "x": 392.98016357421875, "y": 133.6344451904297, "z": 208.16844177246094 }, "tsne_coordinates": { "x": 29.381200790405273, "y": -24.208633422851562, "z": -0.18900194764137268 }, "pca_coordinates": { "x": 0.34879136085510254, "y": -3.5969672203063965, "z": 1.1720728874206543 }, "axis_scores": { "Quantum imaging": 0.728790283203125, "Quantum Life Science Sensing": 0.7367062568664551, "Quantum sensing Detection": 0.7308595180511475, "Quantum sensing Metrology": 0.7263266444206238, "Quantum sensing navigation": 0.7072521448135376, "Quantum sensing Position": 0.7097467184066772, "Quantum sensing Timing": 0.6923215389251709, "Quantum sensing": 0.7505598664283752, "Quantum control": 0.7214954495429993 } }, { "id": 916, "title": "Rabi type oscillations in damped two-dimensional single electron quantum dots", "abstract": "We present a quantized model of a harmonically confined dot atom with inherent damping in the presence of a transverse magnetic field. The model leads to a non-Hermitian Hamiltonian in coordinate spac...", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 916, "doi": "10.2478/s11534-012-0064-5", "umap_coordinates": { "x": 393.2650451660156, "y": 135.08004760742188, "z": 207.7755126953125 }, "tsne_coordinates": { "x": 9.278242111206055, "y": -16.14000129699707, "z": 10.454397201538086 }, "pca_coordinates": { "x": 1.5346720218658447, "y": -2.7220873832702637, "z": 0.45171934366226196 }, "axis_scores": { "Quantum imaging": 0.7138841152191162, "Quantum Life Science Sensing": 0.7203801274299622, "Quantum sensing Detection": 0.7188383340835571, "Quantum sensing Metrology": 0.7134677171707153, "Quantum sensing navigation": 0.715054988861084, "Quantum sensing Position": 0.7040973901748657, "Quantum sensing Timing": 0.7155481576919556, "Quantum sensing": 0.7254557609558105, "Quantum control": 0.7229547500610352 } }, { "id": 917, "title": "ABSORPTION AND FLUORESCENCE PROPERTIES OF FLUORESCEIN", "abstract": "We have characterized the protolytic equilibria of fluorescein and determined the spectroscopic properties of its protolytic forms. The protolytic constants relating the chemical activities (which at ...", "citations": 1047, "author_count": 4, "categories": [ "Spectroscopy" ], "year": 1995, "topic": [ "all" ], "embedding_index": 917, "doi": "10.1016/0584-8539(95)01421-P", "umap_coordinates": { "x": 393.4864196777344, "y": 135.20285034179688, "z": 205.08120727539062 }, "tsne_coordinates": { "x": -0.7243688702583313, "y": 14.16464614868164, "z": 0.1505231410264969 }, "pca_coordinates": { "x": -3.530082941055298, "y": -0.02132415771484375, "z": -0.13769090175628662 }, "axis_scores": { "Quantum imaging": 0.716410756111145, "Quantum Life Science Sensing": 0.7233509421348572, "Quantum sensing Detection": 0.6929023265838623, "Quantum sensing Metrology": 0.6942739486694336, "Quantum sensing navigation": 0.6868718862533569, "Quantum sensing Position": 0.6816419363021851, "Quantum sensing Timing": 0.6480429768562317, "Quantum sensing": 0.712191641330719, "Quantum control": 0.6713256239891052 } }, { "id": 918, "title": "Monte-Carlo simulations of optical efficiency in luminescent solar concentrators based on all-inorganic perovskite quantum dots", "abstract": "Luminescent solar concentrator (LSC) devices emerge as a promising technology to reduce the cost of electricity generated by photovoltaic solar cells. Here, we demonstrate the detailed fabrication pro...", "citations": 33, "author_count": 9, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 918, "doi": "10.1016/j.physb.2018.08.021", "umap_coordinates": { "x": 393.63690185546875, "y": 133.3417510986328, "z": 205.76284790039062 }, "tsne_coordinates": { "x": 29.925020217895508, "y": 9.266115188598633, "z": -14.493659019470215 }, "pca_coordinates": { "x": -1.8325223922729492, "y": -1.9312143325805664, "z": 0.7819251418113708 }, "axis_scores": { "Quantum imaging": 0.752875030040741, "Quantum Life Science Sensing": 0.7381759285926819, "Quantum sensing Detection": 0.7218164801597595, "Quantum sensing Metrology": 0.7288877367973328, "Quantum sensing navigation": 0.7178599834442139, "Quantum sensing Position": 0.6945860981941223, "Quantum sensing Timing": 0.68605637550354, "Quantum sensing": 0.7401854991912842, "Quantum control": 0.7073312997817993 } }, { "id": 919, "title": "Robust Preparation of Wigner-Negative States with Optimized SNAP-Displacement Sequences", "abstract": "Hosting nonclassical states of light in three-dimensional microwave cavities has emerged as a promising paradigm for continuous-variable quantum information processing. Here we experimentally demonstr...", "citations": 61, "author_count": 17, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 919, "doi": "10.1103/PRXQuantum.3.030301", "umap_coordinates": { "x": 395.6624755859375, "y": 137.02093505859375, "z": 207.4846954345703 }, "tsne_coordinates": { "x": -31.848834991455078, "y": -21.793663024902344, "z": 0.0758616030216217 }, "pca_coordinates": { "x": 1.3722081184387207, "y": 1.5829041004180908, "z": 1.1896812915802002 }, "axis_scores": { "Quantum imaging": 0.7098401784896851, "Quantum Life Science Sensing": 0.7004435062408447, "Quantum sensing Detection": 0.7063647508621216, "Quantum sensing Metrology": 0.7094151973724365, "Quantum sensing navigation": 0.727994441986084, "Quantum sensing Position": 0.6985596418380737, "Quantum sensing Timing": 0.6976611614227295, "Quantum sensing": 0.7202826738357544, "Quantum control": 0.7244382500648499 } }, { "id": 920, "title": "Origin of Antibunching in Resonance Fluorescence", "abstract": "Resonance fluorescence has played a major role in quantum optics with predictions and later experimental confirmation of nonclassical features of its emitted light such as antibunching or squeezing. I...", "citations": 49, "author_count": 18, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 920, "doi": "10.1103/PhysRevLett.125.170402", "umap_coordinates": { "x": 394.4461364746094, "y": 136.0574951171875, "z": 208.16558837890625 }, "tsne_coordinates": { "x": -6.21321439743042, "y": -14.10161018371582, "z": 2.520815849304199 }, "pca_coordinates": { "x": 3.398094654083252, "y": -0.7005083560943604, "z": -0.946571946144104 }, "axis_scores": { "Quantum imaging": 0.7049844861030579, "Quantum Life Science Sensing": 0.7185856699943542, "Quantum sensing Detection": 0.7131732702255249, "Quantum sensing Metrology": 0.6877313852310181, "Quantum sensing navigation": 0.713721513748169, "Quantum sensing Position": 0.6977187395095825, "Quantum sensing Timing": 0.704853355884552, "Quantum sensing": 0.7109726071357727, "Quantum control": 0.6824271082878113 } }, { "id": 921, "title": "A Quantum-Like Model of Information Processing in the Brain", "abstract": "We present the quantum-like model of information processing by the brain's neural networks. The model does not refer to genuine quantum processes in the brain. In this model, uncertainty generated by ...", "citations": 16, "author_count": 3, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 921, "doi": "10.3390/app10020707", "umap_coordinates": { "x": 394.8052978515625, "y": 137.28619384765625, "z": 206.07626342773438 }, "tsne_coordinates": { "x": -20.288511276245117, "y": 7.619050025939941, "z": 19.886085510253906 }, "pca_coordinates": { "x": 1.5684075355529785, "y": 2.789996385574341, "z": 0.41540688276290894 }, "axis_scores": { "Quantum imaging": 0.7561631202697754, "Quantum Life Science Sensing": 0.7605313658714294, "Quantum sensing Detection": 0.7570682168006897, "Quantum sensing Metrology": 0.7373097538948059, "Quantum sensing navigation": 0.7527391910552979, "Quantum sensing Position": 0.7176494002342224, "Quantum sensing Timing": 0.7247115969657898, "Quantum sensing": 0.7656497955322266, "Quantum control": 0.7258167862892151 } }, { "id": 922, "title": "FABRICATION OF QUANTUM-DOT STRUCTURES USING AEROSOL DEPOSITION AND PLASMA-ETCHING TECHNIQUES", "abstract": "We present a novel technology for the fabrication of quantum dot structures using the deposition of ultrafine aerosol Ag particles onto the surface of GaInAs/InP quantum well structures grown by metal...", "citations": 23, "author_count": 7, "categories": [ "Materials Science" ], "year": 1993, "topic": [ "all" ], "embedding_index": 922, "doi": "10.1116/1.578341", "umap_coordinates": { "x": 393.7452392578125, "y": 133.67059326171875, "z": 207.5789794921875 }, "tsne_coordinates": { "x": 31.89899444580078, "y": -29.261703491210938, "z": 2.073826789855957 }, "pca_coordinates": { "x": -0.5564299821853638, "y": -2.6572532653808594, "z": 3.153578758239746 }, "axis_scores": { "Quantum imaging": 0.7575615644454956, "Quantum Life Science Sensing": 0.7495557069778442, "Quantum sensing Detection": 0.7574697136878967, "Quantum sensing Metrology": 0.7628738880157471, "Quantum sensing navigation": 0.7459376454353333, "Quantum sensing Position": 0.7228477597236633, "Quantum sensing Timing": 0.6989198923110962, "Quantum sensing": 0.7662944793701172, "Quantum control": 0.7329539060592651 } }, { "id": 923, "title": "Dynamical Casimir Effect Entangles Artificial Atoms", "abstract": "We show that the physics underlying the dynamical Casimir effect may generate multipartite quantum correlations. To achieve it, we propose a circuit quantum electrodynamics scenario involving supercon...", "citations": 156, "author_count": 8, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 923, "doi": "10.1103/PhysRevLett.113.093602", "umap_coordinates": { "x": 395.1139221191406, "y": 136.6238555908203, "z": 208.28648376464844 }, "tsne_coordinates": { "x": -14.657535552978516, "y": -22.56601333618164, "z": 10.320241928100586 }, "pca_coordinates": { "x": 6.10814905166626, "y": 0.3817601203918457, "z": -0.09558767080307007 }, "axis_scores": { "Quantum imaging": 0.7644987106323242, "Quantum Life Science Sensing": 0.7578287124633789, "Quantum sensing Detection": 0.7742352485656738, "Quantum sensing Metrology": 0.7366721034049988, "Quantum sensing navigation": 0.7702105641365051, "Quantum sensing Position": 0.7418874502182007, "Quantum sensing Timing": 0.7427384853363037, "Quantum sensing": 0.779541015625, "Quantum control": 0.7652190923690796 } }, { "id": 924, "title": "Inorganic CsPbI3 Perovskite Coating on PbS Quantum Dot for Highly Efficient and Stable Infrared Light Converting Solar Cells", "abstract": "Solution-processed colloidal quantum dot (CQD) solar cells harvesting the infrared part of the solar spectrum are especially interesting for future use in semitransparent windows or multilayer solar c...", "citations": 189, "author_count": 14, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 924, "doi": "10.1002/aenm.201702049", "umap_coordinates": { "x": 392.2098083496094, "y": 133.611572265625, "z": 205.59259033203125 }, "tsne_coordinates": { "x": 24.193689346313477, "y": 0.9560866951942444, "z": -17.206796646118164 }, "pca_coordinates": { "x": -3.58066463470459, "y": -4.580622673034668, "z": -0.1485866904258728 }, "axis_scores": { "Quantum imaging": 0.7116605639457703, "Quantum Life Science Sensing": 0.7200518250465393, "Quantum sensing Detection": 0.6919015049934387, "Quantum sensing Metrology": 0.6921820640563965, "Quantum sensing navigation": 0.686585545539856, "Quantum sensing Position": 0.6805374026298523, "Quantum sensing Timing": 0.6623261570930481, "Quantum sensing": 0.7067593932151794, "Quantum control": 0.6889231204986572 } }, { "id": 925, "title": "Universal control of a bosonic mode via drive-activated native cubic interactions", "abstract": "Linear bosonic modes offer a hardware-efficient alternative for quantum information processing but require access to some nonlinearity for universal control. The lack of nonlinearity in photonics has ...", "citations": 25, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 925, "doi": "10.1038/s41467-024-46507-1", "umap_coordinates": { "x": 393.9505615234375, "y": 136.02439880371094, "z": 207.0690460205078 }, "tsne_coordinates": { "x": -2.4673879146575928, "y": -10.23643684387207, "z": 13.0291748046875 }, "pca_coordinates": { "x": 1.054492473602295, "y": -0.3710353374481201, "z": -0.44795817136764526 }, "axis_scores": { "Quantum imaging": 0.7158409357070923, "Quantum Life Science Sensing": 0.7111294269561768, "Quantum sensing Detection": 0.7173565626144409, "Quantum sensing Metrology": 0.7101330757141113, "Quantum sensing navigation": 0.7184629440307617, "Quantum sensing Position": 0.6714484095573425, "Quantum sensing Timing": 0.6763174533843994, "Quantum sensing": 0.7234074473381042, "Quantum control": 0.7442349791526794 } }, { "id": 926, "title": "High Efficiency Ultra-Narrow Emission Quantum Dot Light-Emitting Diodes Enabled by Microcavity", "abstract": "A wide-color-gamut display enableby a narrow emission linewidth facilitates a visually immersive experience akin to the real world. Quantum dot light-emitting diodes (QLEDs) with excellent color purit...", "citations": 5, "author_count": 11, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 926, "doi": "10.1002/smll.202405704", "umap_coordinates": { "x": 393.1563415527344, "y": 133.67076110839844, "z": 205.965576171875 }, "tsne_coordinates": { "x": 29.262779235839844, "y": 2.7977826595306396, "z": -16.175125122070312 }, "pca_coordinates": { "x": -2.3992230892181396, "y": -2.373633861541748, "z": 1.377326488494873 }, "axis_scores": { "Quantum imaging": 0.728008508682251, "Quantum Life Science Sensing": 0.7386639714241028, "Quantum sensing Detection": 0.7356735467910767, "Quantum sensing Metrology": 0.7341545820236206, "Quantum sensing navigation": 0.7222105860710144, "Quantum sensing Position": 0.6937828660011292, "Quantum sensing Timing": 0.6778998970985413, "Quantum sensing": 0.7430211305618286, "Quantum control": 0.7138393521308899 } }, { "id": 927, "title": "Electron interaction and spin effects in quantum wires, quantum dots and quantum point contacts: a first-principles mean-field approach", "abstract": "We have developed a mean-field first-principles approach for studying electronic and transport properties of low dimensional lateral structures in the integer quantum Hall regime. The electron interac...", "citations": 7, "author_count": 3, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 927, "doi": "10.1088/0953-8984/20/16/164217", "umap_coordinates": { "x": 393.5234680175781, "y": 135.09266662597656, "z": 208.4308624267578 }, "tsne_coordinates": { "x": 19.067415237426758, "y": -21.5457763671875, "z": 17.004674911499023 }, "pca_coordinates": { "x": 1.57672119140625, "y": -1.5749564170837402, "z": -0.5919918417930603 }, "axis_scores": { "Quantum imaging": 0.7150102257728577, "Quantum Life Science Sensing": 0.7199273705482483, "Quantum sensing Detection": 0.7015665173530579, "Quantum sensing Metrology": 0.7022942304611206, "Quantum sensing navigation": 0.7173827290534973, "Quantum sensing Position": 0.717307984828949, "Quantum sensing Timing": 0.6740845441818237, "Quantum sensing": 0.722805917263031, "Quantum control": 0.707301676273346 } }, { "id": 928, "title": "Quantum interference effects at room temperature in OPV-based single-molecule junctions", "abstract": "Interference effects on charge transport through an individual molecule can lead to a notable modulation and suppression on its conductance. In this letter, we report the observation of quantum interf...", "citations": 57, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 928, "doi": "10.1186/1556-276X-8-234", "umap_coordinates": { "x": 393.9405212402344, "y": 135.0240020751953, "z": 207.65817260742188 }, "tsne_coordinates": { "x": 3.127340316772461, "y": -18.813098907470703, "z": 4.59462833404541 }, "pca_coordinates": { "x": 1.5854487419128418, "y": -0.4831104278564453, "z": 2.389496326446533 }, "axis_scores": { "Quantum imaging": 0.7503790259361267, "Quantum Life Science Sensing": 0.7434929013252258, "Quantum sensing Detection": 0.7283245325088501, "Quantum sensing Metrology": 0.7277927398681641, "Quantum sensing navigation": 0.7306457757949829, "Quantum sensing Position": 0.7162440419197083, "Quantum sensing Timing": 0.7435067892074585, "Quantum sensing": 0.7449085712432861, "Quantum control": 0.7158527374267578 } }, { "id": 929, "title": "COHERENCE IN DISORDERED CONDENSED MATTER .5. THERMALLY ACTIVATED QUANTUM CORRELATIONS IN HIGH-TC SUPERCONDUCTIVITY", "abstract": "The fermionic second order reduced density matrix with complex dilation and thermalization describes generally quantum correlation effects in condensed matter. Connection with recent experiments on hi...", "citations": 4, "author_count": 3, "categories": [ "Chemistry" ], "year": 1991, "topic": [ "all" ], "embedding_index": 929, "doi": null, "umap_coordinates": { "x": 391.9408264160156, "y": 139.39437866210938, "z": 209.236083984375 }, "tsne_coordinates": { "x": -13.69617748260498, "y": 45.21821594238281, "z": -3.0990262031555176 }, "pca_coordinates": { "x": 2.259694814682007, "y": 2.814631938934326, "z": -2.824850559234619 }, "axis_scores": { "Quantum imaging": 0.7347289323806763, "Quantum Life Science Sensing": 0.7417303919792175, "Quantum sensing Detection": 0.7365974187850952, "Quantum sensing Metrology": 0.7103360891342163, "Quantum sensing navigation": 0.7428725957870483, "Quantum sensing Position": 0.6974371075630188, "Quantum sensing Timing": 0.7194233536720276, "Quantum sensing": 0.7444329857826233, "Quantum control": 0.752815842628479 } }, { "id": 930, "title": "Ultra-low noise single-photon detector based on Si avalanche photodiode", "abstract": "We report operation and characterization of a lab-assembled single-photon detector based on commercial silicon avalanche photodiodes (PerkinElmer C30902SH, C30921SH). Dark count rate as low as 5Hz was...", "citations": 34, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2011, "topic": [ "all" ], "embedding_index": 930, "doi": "10.1063/1.3641294", "umap_coordinates": { "x": 394.1992492675781, "y": 133.37100219726562, "z": 207.94851684570312 }, "tsne_coordinates": { "x": 28.450393676757812, "y": -20.064706802368164, "z": -11.567516326904297 }, "pca_coordinates": { "x": 0.13472938537597656, "y": -2.80588436126709, "z": 5.739563465118408 }, "axis_scores": { "Quantum imaging": 0.7462113499641418, "Quantum Life Science Sensing": 0.7655495405197144, "Quantum sensing Detection": 0.7807390689849854, "Quantum sensing Metrology": 0.7450350522994995, "Quantum sensing navigation": 0.7325227856636047, "Quantum sensing Position": 0.7157877683639526, "Quantum sensing Timing": 0.7041208744049072, "Quantum sensing": 0.7788197994232178, "Quantum control": 0.7018851637840271 } }, { "id": 931, "title": "Identifying key surface parameters for optical photon transport in GEANT4/GATE simulations", "abstract": "For a scintillator used for spectrometry, the generation, transport and detection of optical photons have a great impact on the energy spectrum resolution. A complete Monte Carlo model of a scintillat...", "citations": 31, "author_count": 4, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 931, "doi": "10.1016/j.apradiso.2015.04.017", "umap_coordinates": { "x": 394.2435302734375, "y": 133.73104858398438, "z": 205.77183532714844 }, "tsne_coordinates": { "x": -24.8967342376709, "y": 2.532986640930176, "z": -30.432275772094727 }, "pca_coordinates": { "x": -1.2616726160049438, "y": 0.48857879638671875, "z": 1.332064151763916 }, "axis_scores": { "Quantum imaging": 0.7269484996795654, "Quantum Life Science Sensing": 0.7223016619682312, "Quantum sensing Detection": 0.7140094041824341, "Quantum sensing Metrology": 0.7109656929969788, "Quantum sensing navigation": 0.7155548930168152, "Quantum sensing Position": 0.711085855960846, "Quantum sensing Timing": 0.7205382585525513, "Quantum sensing": 0.7244423031806946, "Quantum control": 0.6838026642799377 } }, { "id": 932, "title": "Capping Ligand Engineering of Cadmium-Free AIZS Quantum Dots Toward Bright Electroluminescent Light-Emitting Diodes by All-Solution Process", "abstract": "Cadmium-free AgInZnS (AIZS) quantum dots (QDs) have garnered significant research interest for applications in light-emitting diodes (LEDs); however, their performance remains limited by insulating lo...", "citations": 2, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 932, "doi": "10.1002/admi.202400385", "umap_coordinates": { "x": 391.92828369140625, "y": 133.8345489501953, "z": 205.00494384765625 }, "tsne_coordinates": { "x": 25.594728469848633, "y": 3.103480339050293, "z": -26.267621994018555 }, "pca_coordinates": { "x": -3.666067600250244, "y": -2.586029529571533, "z": -1.660927176475525 }, "axis_scores": { "Quantum imaging": 0.6933144330978394, "Quantum Life Science Sensing": 0.6906880736351013, "Quantum sensing Detection": 0.674482524394989, "Quantum sensing Metrology": 0.6747461557388306, "Quantum sensing navigation": 0.681635856628418, "Quantum sensing Position": 0.6751976013183594, "Quantum sensing Timing": 0.6716093420982361, "Quantum sensing": 0.6875673532485962, "Quantum control": 0.6853530406951904 } }, { "id": 933, "title": "Polarization-independent single-photon switch based on a fiber-optical Sagnac interferometer for quantum communication networks", "abstract": "An essential component of future quantum networks is an optical switch capable of dynamically routing single photons. Here we implement such a switch, based on a fiber-optical Sagnac interferometer de...", "citations": 10, "author_count": 6, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 933, "doi": "10.1364/OE.408637", "umap_coordinates": { "x": 394.8063659667969, "y": 133.6797637939453, "z": 207.2691650390625 }, "tsne_coordinates": { "x": -11.506092071533203, "y": -2.1571414470672607, "z": -32.1546630859375 }, "pca_coordinates": { "x": 0.3444101810455322, "y": -1.574355125427246, "z": 3.823080539703369 }, "axis_scores": { "Quantum imaging": 0.71872878074646, "Quantum Life Science Sensing": 0.7140594124794006, "Quantum sensing Detection": 0.7078667879104614, "Quantum sensing Metrology": 0.7044605016708374, "Quantum sensing navigation": 0.7160877585411072, "Quantum sensing Position": 0.664023220539093, "Quantum sensing Timing": 0.6621208190917969, "Quantum sensing": 0.7237293124198914, "Quantum control": 0.6859993934631348 } }, { "id": 934, "title": "Room-temperature emission from InAs1-xPx/InP self-assembled quantum dots at wavelengths between 1.2 and 1.35 μm", "abstract": "We report on photoluminescence (PL) from self-assembled InAs1-xPx quantum dots (QDs) grown on (100) InP substrate by the low pressure metalorganic vapour phase epitaxy with As/P exchange reaction. PL ...", "citations": 3, "author_count": 2, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 934, "doi": "10.1016/S0921-5107(02)00096-X", "umap_coordinates": { "x": 392.7508239746094, "y": 133.9551544189453, "z": 207.43128967285156 }, "tsne_coordinates": { "x": 29.103918075561523, "y": -11.22447681427002, "z": 7.39808988571167 }, "pca_coordinates": { "x": -1.7954181432724, "y": -3.3541455268859863, "z": 1.8031878471374512 }, "axis_scores": { "Quantum imaging": 0.6971953511238098, "Quantum Life Science Sensing": 0.710938572883606, "Quantum sensing Detection": 0.6988054513931274, "Quantum sensing Metrology": 0.6947555541992188, "Quantum sensing navigation": 0.6903274059295654, "Quantum sensing Position": 0.7130616903305054, "Quantum sensing Timing": 0.6775912046432495, "Quantum sensing": 0.713435173034668, "Quantum control": 0.6573806405067444 } }, { "id": 935, "title": "Programable two-qubit gates in capacitively coupled flopping-mode spin qubits", "abstract": "Recent achievements in the field of gate-defined semiconductor quantum dots reinforce the concept of a spin-based quantum computer consisting of nodes of locally connected qubits which communicate wit...", "citations": 16, "author_count": 4, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 935, "doi": "10.1103/PhysRevB.101.195438", "umap_coordinates": { "x": 394.5377197265625, "y": 135.8694305419922, "z": 208.3345489501953 }, "tsne_coordinates": { "x": -6.113507270812988, "y": -21.527782440185547, "z": 6.300014495849609 }, "pca_coordinates": { "x": 3.668801784515381, "y": -0.8990802764892578, "z": 0.17039376497268677 }, "axis_scores": { "Quantum imaging": 0.7216910719871521, "Quantum Life Science Sensing": 0.7222565412521362, "Quantum sensing Detection": 0.733847975730896, "Quantum sensing Metrology": 0.7044224739074707, "Quantum sensing navigation": 0.728489339351654, "Quantum sensing Position": 0.6917535662651062, "Quantum sensing Timing": 0.7083870768547058, "Quantum sensing": 0.7442901730537415, "Quantum control": 0.7270349264144897 } }, { "id": 936, "title": "Interplay between quantum interference and conformational fluctuations in single-molecule break junctions", "abstract": "We theoretically explored the combined role of conformational fluctuations and quantum interference in determining the electrical conductance of single-molecule break junctions. In particular we compu...", "citations": 19, "author_count": 4, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 936, "doi": "10.1039/c4nr05316h", "umap_coordinates": { "x": 393.85858154296875, "y": 135.64170837402344, "z": 208.16668701171875 }, "tsne_coordinates": { "x": 2.722365617752075, "y": -17.875438690185547, "z": 6.043572902679443 }, "pca_coordinates": { "x": 3.091296672821045, "y": -0.3335099220275879, "z": -1.7545630931854248 }, "axis_scores": { "Quantum imaging": 0.7347770929336548, "Quantum Life Science Sensing": 0.7406722903251648, "Quantum sensing Detection": 0.7255440354347229, "Quantum sensing Metrology": 0.7131481170654297, "Quantum sensing navigation": 0.7395270466804504, "Quantum sensing Position": 0.7217051386833191, "Quantum sensing Timing": 0.7153125405311584, "Quantum sensing": 0.7445976734161377, "Quantum control": 0.7349964380264282 } }, { "id": 937, "title": "COULOMB-BLOCKADE AND CONDUCTANCE OSCILLATIONS IN A QUANTUM-DOT", "abstract": "We have studied conductance oscillations of a quantum dot by varying the gate potential of one of the gate pairs, that forms the quantum dot, while the other pair was kept at a constant potential. The...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 937, "doi": "10.1016/0921-4526(94)90966-0", "umap_coordinates": { "x": 393.2322082519531, "y": 135.5457763671875, "z": 207.75039672851562 }, "tsne_coordinates": { "x": 6.558307647705078, "y": -17.82512664794922, "z": 12.089619636535645 }, "pca_coordinates": { "x": 2.535520553588867, "y": -1.8269810676574707, "z": -0.21103668212890625 }, "axis_scores": { "Quantum imaging": 0.7070642113685608, "Quantum Life Science Sensing": 0.7249358892440796, "Quantum sensing Detection": 0.7248565554618835, "Quantum sensing Metrology": 0.7079098224639893, "Quantum sensing navigation": 0.7265111207962036, "Quantum sensing Position": 0.6990889310836792, "Quantum sensing Timing": 0.7081204056739807, "Quantum sensing": 0.7218599915504456, "Quantum control": 0.7068977355957031 } }, { "id": 938, "title": "Edge Dynamics in a Quantum Spin Hall State: Effects from Rashba Spin-Orbit Interaction", "abstract": "We analyze the dynamics of the helical edge modes of a quantum spin Hall state in the presence of a spatially nonuniform Rashba spin-orbit (SO) interaction. A randomly fluctuating Rashba SO coupling i...", "citations": 141, "author_count": 4, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 938, "doi": "10.1103/PhysRevLett.104.256804", "umap_coordinates": { "x": 394.1042785644531, "y": 136.43109130859375, "z": 208.9064483642578 }, "tsne_coordinates": { "x": -13.20444107055664, "y": -31.921358108520508, "z": 13.082625389099121 }, "pca_coordinates": { "x": 4.919435024261475, "y": -0.7281002998352051, "z": -2.121816873550415 }, "axis_scores": { "Quantum imaging": 0.7178415656089783, "Quantum Life Science Sensing": 0.7141154408454895, "Quantum sensing Detection": 0.7102493047714233, "Quantum sensing Metrology": 0.6796311140060425, "Quantum sensing navigation": 0.7195433378219604, "Quantum sensing Position": 0.6999637484550476, "Quantum sensing Timing": 0.704147458076477, "Quantum sensing": 0.71890789270401, "Quantum control": 0.7117343544960022 } }, { "id": 939, "title": "Action spectroscopy of highly excited molecular ions in molecular beams", "abstract": "The use of action spectroscopy for quantitative comparisons of different parts of a recorded spectrum requires that the efficiency of the emission process after photon absorption is quantitatively kno...", "citations": 6, "author_count": 2, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 939, "doi": "10.1016/j.ijms.2018.03.010", "umap_coordinates": { "x": 393.7567443847656, "y": 136.04086303710938, "z": 206.06179809570312 }, "tsne_coordinates": { "x": -0.9539684653282166, "y": 10.535690307617188, "z": 4.7484517097473145 }, "pca_coordinates": { "x": -0.26238518953323364, "y": -0.6425905227661133, "z": -0.5389302968978882 }, "axis_scores": { "Quantum imaging": 0.7527129054069519, "Quantum Life Science Sensing": 0.7468103766441345, "Quantum sensing Detection": 0.7330055832862854, "Quantum sensing Metrology": 0.7132101655006409, "Quantum sensing navigation": 0.7040705680847168, "Quantum sensing Position": 0.7072876691818237, "Quantum sensing Timing": 0.6761806607246399, "Quantum sensing": 0.7425858974456787, "Quantum control": 0.6822012662887573 } }, { "id": 940, "title": "Beating Signals in 2D Spectroscopy: Electronic or Nuclear Coherences? Application to a Quantum Dot Model System", "abstract": "In 2D electronic spectroscopy, oscillatory signals have recently received increased attention. The key issue is the origin of such beating-whether it is vibrational or electronic. In analogy to the di...", "citations": 73, "author_count": 3, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 940, "doi": "10.1021/jp406103m", "umap_coordinates": { "x": 392.8390808105469, "y": 136.70155334472656, "z": 206.74325561523438 }, "tsne_coordinates": { "x": 8.728484153747559, "y": -3.3415024280548096, "z": 10.458948135375977 }, "pca_coordinates": { "x": 0.6644408702850342, "y": 0.330596923828125, "z": -2.475714921951294 }, "axis_scores": { "Quantum imaging": 0.7215766310691833, "Quantum Life Science Sensing": 0.7280375957489014, "Quantum sensing Detection": 0.7199760675430298, "Quantum sensing Metrology": 0.7009538412094116, "Quantum sensing navigation": 0.7022093534469604, "Quantum sensing Position": 0.7122514843940735, "Quantum sensing Timing": 0.7270742058753967, "Quantum sensing": 0.7180461883544922, "Quantum control": 0.7144732475280762 } }, { "id": 941, "title": "Spin-polaronic effects in electric shuttling in a single molecule transistor with magnetic leads", "abstract": "", "citations": 2, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 941, "doi": "10.1016/j.physe.2020.114151", "umap_coordinates": { "x": 393.47418212890625, "y": 134.9567108154297, "z": 208.1383819580078 }, "tsne_coordinates": { "x": 16.308134078979492, "y": -31.335020065307617, "z": 4.363032341003418 }, "pca_coordinates": { "x": 1.3100876808166504, "y": -2.6250391006469727, "z": -1.1378576755523682 }, "axis_scores": { "Quantum imaging": 0.692405104637146, "Quantum Life Science Sensing": 0.7031744718551636, "Quantum sensing Detection": 0.6805121898651123, "Quantum sensing Metrology": 0.673713743686676, "Quantum sensing navigation": 0.6948701739311218, "Quantum sensing Position": 0.676823079586029, "Quantum sensing Timing": 0.6712390780448914, "Quantum sensing": 0.6995787024497986, "Quantum control": 0.6877086162567139 } }, { "id": 942, "title": "MOLECULAR-DYNAMICS SIMULATION OF HYDROGEN DIFFUSION IN NIOBIUM", "abstract": "", "citations": 15, "author_count": 3, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 942, "doi": "10.1103/PhysRevB.51.12233", "umap_coordinates": { "x": 393.7560729980469, "y": 136.25534057617188, "z": 208.98318481445312 }, "tsne_coordinates": { "x": 0.2088591307401657, "y": -11.585832595825195, "z": 40.15323257446289 }, "pca_coordinates": { "x": 4.566230297088623, "y": -0.684473991394043, "z": -2.0174787044525146 }, "axis_scores": { "Quantum imaging": 0.7200562953948975, "Quantum Life Science Sensing": 0.7053700685501099, "Quantum sensing Detection": 0.6999508142471313, "Quantum sensing Metrology": 0.6776459217071533, "Quantum sensing navigation": 0.7356448173522949, "Quantum sensing Position": 0.6855076551437378, "Quantum sensing Timing": 0.693693220615387, "Quantum sensing": 0.7138465046882629, "Quantum control": 0.7057631611824036 } }, { "id": 943, "title": "Light scattering from self-assembled quantum disks", "abstract": "We present results of calculations and experiments probing the electronic structure of self-assembled Ga0.8In0.2As semiconductor quantum dots by inelastic light scattering. The inelastic light scatter...", "citations": 12, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 943, "doi": "10.1016/S1386-9477(98)00133-7", "umap_coordinates": { "x": 392.8409118652344, "y": 134.65267944335938, "z": 206.75894165039062 }, "tsne_coordinates": { "x": 31.131145477294922, "y": -4.940731525421143, "z": 1.0976171493530273 }, "pca_coordinates": { "x": -1.1755921840667725, "y": -1.449434757232666, "z": -0.1451212763786316 }, "axis_scores": { "Quantum imaging": 0.7291141748428345, "Quantum Life Science Sensing": 0.7679444551467896, "Quantum sensing Detection": 0.729126513004303, "Quantum sensing Metrology": 0.7255474328994751, "Quantum sensing navigation": 0.7224799394607544, "Quantum sensing Position": 0.7103315591812134, "Quantum sensing Timing": 0.661292552947998, "Quantum sensing": 0.7401386499404907, "Quantum control": 0.687475323677063 } }, { "id": 944, "title": "INCREASE IN HUMAN ANTITHROMBIN-III TRYPTOPHAN FLUORESCENCE PRODUCED BY HEPARIN", "abstract": "The increase in fluorescence of human antithrombin III was used to study the binding of a semi-synthetic heparin analogue. One molecule of heparin bound with an association constant of 8.9 .cntdot. 10...", "citations": 16, "author_count": 2, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1978, "topic": [ "all" ], "embedding_index": 944, "doi": "10.1016/0005-2795(78)90487-7", "umap_coordinates": { "x": 394.2146911621094, "y": 135.23155212402344, "z": 204.6538543701172 }, "tsne_coordinates": { "x": -1.3840973377227783, "y": 19.8477783203125, "z": -5.742011547088623 }, "pca_coordinates": { "x": -2.1655642986297607, "y": 1.6962231397628784, "z": -0.7089526653289795 }, "axis_scores": { "Quantum imaging": 0.6908220052719116, "Quantum Life Science Sensing": 0.6778627634048462, "Quantum sensing Detection": 0.6648166179656982, "Quantum sensing Metrology": 0.6508973836898804, "Quantum sensing navigation": 0.6525840759277344, "Quantum sensing Position": 0.6657748818397522, "Quantum sensing Timing": 0.6714912056922913, "Quantum sensing": 0.6710522770881653, "Quantum control": 0.6474491357803345 } }, { "id": 945, "title": "Josephson Junction π-0 Transition Induced by Orbital Hybridization in a Double Quantum Dot", "abstract": "In this Letter, we manipulate the phase shift of a Josephson junction using a parallel double quantum dot (QD). By employing a superconducting quantum interference device, we determine how orbital hyb...", "citations": 7, "author_count": 9, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 945, "doi": "10.1103/PhysRevLett.131.256001", "umap_coordinates": { "x": 394.24737548828125, "y": 135.69033813476562, "z": 208.8621368408203 }, "tsne_coordinates": { "x": -0.17292924225330353, "y": -24.87507438659668, "z": 10.892253875732422 }, "pca_coordinates": { "x": 4.230310440063477, "y": -2.530287742614746, "z": 0.7433006167411804 }, "axis_scores": { "Quantum imaging": 0.7062394618988037, "Quantum Life Science Sensing": 0.7042880654335022, "Quantum sensing Detection": 0.7088510990142822, "Quantum sensing Metrology": 0.6815577149391174, "Quantum sensing navigation": 0.7032009959220886, "Quantum sensing Position": 0.6835348606109619, "Quantum sensing Timing": 0.7032917737960815, "Quantum sensing": 0.7100531458854675, "Quantum control": 0.69273442029953 } }, { "id": 946, "title": "Absence of redshift in the direct bandgap of silicon nanocrystals with reduced size", "abstract": "", "citations": 31, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 946, "doi": "10.1038/nnano.2017.190", "umap_coordinates": { "x": 392.5201721191406, "y": 133.87258911132812, "z": 206.63807678222656 }, "tsne_coordinates": { "x": 37.1132698059082, "y": -13.194613456726074, "z": -4.66831636428833 }, "pca_coordinates": { "x": -1.3738434314727783, "y": -1.694817066192627, "z": 0.7913171648979187 }, "axis_scores": { "Quantum imaging": 0.7278637290000916, "Quantum Life Science Sensing": 0.7347899079322815, "Quantum sensing Detection": 0.721234917640686, "Quantum sensing Metrology": 0.7127806544303894, "Quantum sensing navigation": 0.7269327044487, "Quantum sensing Position": 0.7038869261741638, "Quantum sensing Timing": 0.6796128749847412, "Quantum sensing": 0.7320091128349304, "Quantum control": 0.7102683782577515 } }, { "id": 947, "title": "MUTANT HUNTINGTIN CAUSES LOSS OF MECHANISMS UNDERLYING LONG-TERM MEMORY STORAGE IN THE BRAIN REVEALED BY TWO-PHOTON IMAGING", "abstract": "", "citations": 1, "author_count": 4, "categories": [ "Neurosciences & Neurology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 947, "doi": "10.1136/jnnp-2014-309032.51", "umap_coordinates": { "x": 395.0613708496094, "y": 134.68357849121094, "z": 204.73023986816406 }, "tsne_coordinates": { "x": -3.4862730503082275, "y": 26.070335388183594, "z": 7.3468170166015625 }, "pca_coordinates": { "x": -1.3081462383270264, "y": 1.131015658378601, "z": 0.8757209181785583 }, "axis_scores": { "Quantum imaging": 0.7320641875267029, "Quantum Life Science Sensing": 0.7116565108299255, "Quantum sensing Detection": 0.7061192393302917, "Quantum sensing Metrology": 0.6765621304512024, "Quantum sensing navigation": 0.7135435342788696, "Quantum sensing Position": 0.6835829019546509, "Quantum sensing Timing": 0.6806787848472595, "Quantum sensing": 0.709876298904419, "Quantum control": 0.6712022423744202 } }, { "id": 948, "title": "Quantum coherence of protons in metal hydrides", "abstract": "Single protons can be found in tunneling states in certain metal hydrides. Similar situations can also be observed for implanted positive muons. The basic features of such states and conditions for th...", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 948, "doi": "10.1016/j.jallcom.2005.03.099", "umap_coordinates": { "x": 393.1640319824219, "y": 136.682861328125, "z": 206.62950134277344 }, "tsne_coordinates": { "x": 9.080641746520996, "y": 6.9497785568237305, "z": 22.999238967895508 }, "pca_coordinates": { "x": 1.2784719467163086, "y": 1.0458571910858154, "z": -2.6975998878479004 }, "axis_scores": { "Quantum imaging": 0.7879520654678345, "Quantum Life Science Sensing": 0.7885382771492004, "Quantum sensing Detection": 0.762435793876648, "Quantum sensing Metrology": 0.7558754682540894, "Quantum sensing navigation": 0.7658130526542664, "Quantum sensing Position": 0.7511840462684631, "Quantum sensing Timing": 0.7361043691635132, "Quantum sensing": 0.7799064517021179, "Quantum control": 0.7508828639984131 } }, { "id": 949, "title": "Growth mode of tensile-strained Ge quantum dots grown by molecular beam epitaxy", "abstract": "Growth mode of tensile-strained Ge quantum dots on different III-V buffers by molecular beam epitaxy is studied by a combination of reflection high-energy electron diffraction, atomic force microscopy...", "citations": 8, "author_count": 9, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 949, "doi": "10.1088/1361-6463/aa8bcf", "umap_coordinates": { "x": 394.00823974609375, "y": 134.8520050048828, "z": 207.0188751220703 }, "tsne_coordinates": { "x": -17.721906661987305, "y": -9.792093276977539, "z": -22.472667694091797 }, "pca_coordinates": { "x": 0.10791659355163574, "y": -0.530935525894165, "z": 0.5632476210594177 }, "axis_scores": { "Quantum imaging": 0.6813274025917053, "Quantum Life Science Sensing": 0.6728003621101379, "Quantum sensing Detection": 0.6738868951797485, "Quantum sensing Metrology": 0.6652688980102539, "Quantum sensing navigation": 0.6728647351264954, "Quantum sensing Position": 0.6723183393478394, "Quantum sensing Timing": 0.6651265025138855, "Quantum sensing": 0.6800454258918762, "Quantum control": 0.6605895757675171 } }, { "id": 950, "title": "Spatially resolved characterization of InGaAs/GaAs quantum dot structures by scanning spreading resistance microscopy", "abstract": "Cross-sectional scanning spreading resistance microscopy (SSRM) is used to investigate stacked InGaAs/GaAs quantum dot (QD) structures with different doping schemes. Spatially resolved imaging of the ...", "citations": 6, "author_count": 7, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 950, "doi": "10.1063/1.3467138", "umap_coordinates": { "x": 393.0276184082031, "y": 133.6429443359375, "z": 208.1187744140625 }, "tsne_coordinates": { "x": 27.089021682739258, "y": -21.598546981811523, "z": 2.862506866455078 }, "pca_coordinates": { "x": 0.9750847816467285, "y": -3.2960076332092285, "z": 1.7750613689422607 }, "axis_scores": { "Quantum imaging": 0.7381269931793213, "Quantum Life Science Sensing": 0.7410450577735901, "Quantum sensing Detection": 0.7370015382766724, "Quantum sensing Metrology": 0.7536668181419373, "Quantum sensing navigation": 0.7324706315994263, "Quantum sensing Position": 0.727582573890686, "Quantum sensing Timing": 0.6869019269943237, "Quantum sensing": 0.7554771304130554, "Quantum control": 0.6992833614349365 } }, { "id": 951, "title": "Electronic structure of self-assembled InAs quantum dots in InP: An anisotropic quantum-dot system", "abstract": "The electronic structure of self-assembled InAs quantum dots embedded in an InP matrix has been investigated using Fourier-transform infrared spectroscopy and capacitance spectroscopy. We observe a sp...", "citations": 27, "author_count": 8, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 951, "doi": "10.1103/PhysRevB.60.R11289", "umap_coordinates": { "x": 392.5359802246094, "y": 134.36769104003906, "z": 208.28118896484375 }, "tsne_coordinates": { "x": 20.605451583862305, "y": -14.509222030639648, "z": 3.238894462585449 }, "pca_coordinates": { "x": 3.009554862976074, "y": -4.3948893547058105, "z": -0.2629842460155487 }, "axis_scores": { "Quantum imaging": 0.7244890928268433, "Quantum Life Science Sensing": 0.7296817898750305, "Quantum sensing Detection": 0.7041254639625549, "Quantum sensing Metrology": 0.6968138217926025, "Quantum sensing navigation": 0.7291725873947144, "Quantum sensing Position": 0.7055908441543579, "Quantum sensing Timing": 0.6586249470710754, "Quantum sensing": 0.7211892604827881, "Quantum control": 0.6913121938705444 } }, { "id": 952, "title": "RELATIVE STATE MEASURES OF CORRELATIONS IN BIPARTITE QUANTUM SYSTEMS", "abstract": "Everett's concept of relative state can be viewed as a map that; contains information about correlations between measurement outcomes on two quantum systems. We demonstrate how geometric properties of...", "citations": 1, "author_count": 3, "categories": [ "Computer Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 952, "doi": null, "umap_coordinates": { "x": 392.0556640625, "y": 139.33474731445312, "z": 208.5875244140625 }, "tsne_coordinates": { "x": -15.397400856018066, "y": 36.985740661621094, "z": -2.212470531463623 }, "pca_coordinates": { "x": 3.153348445892334, "y": 3.350968599319458, "z": -0.9932678937911987 }, "axis_scores": { "Quantum imaging": 0.775050163269043, "Quantum Life Science Sensing": 0.7609033584594727, "Quantum sensing Detection": 0.7895331382751465, "Quantum sensing Metrology": 0.7829301953315735, "Quantum sensing navigation": 0.7876546382904053, "Quantum sensing Position": 0.7944566011428833, "Quantum sensing Timing": 0.7594000697135925, "Quantum sensing": 0.794989824295044, "Quantum control": 0.7658682465553284 } }, { "id": 953, "title": "Synthesis of Styrylbenzazole Photoswitches and Evaluation of their Photochemical Properties", "abstract": "Styrylbenzazoles form a promising yet under-represented class of photoswitches that can perform a light-driven E-Z isomerization of the central alkene double bond without undergoing irreversible photo...", "citations": 4, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 953, "doi": "10.1002/chem.202401409", "umap_coordinates": { "x": 392.6542663574219, "y": 135.705078125, "z": 204.72889709472656 }, "tsne_coordinates": { "x": 1.2302342653274536, "y": 9.019530296325684, "z": -6.486441135406494 }, "pca_coordinates": { "x": -3.1458611488342285, "y": -1.1780328750610352, "z": -2.40231990814209 }, "axis_scores": { "Quantum imaging": 0.7060943841934204, "Quantum Life Science Sensing": 0.7608683109283447, "Quantum sensing Detection": 0.7108675837516785, "Quantum sensing Metrology": 0.7142152786254883, "Quantum sensing navigation": 0.6996244192123413, "Quantum sensing Position": 0.6914331912994385, "Quantum sensing Timing": 0.6921860575675964, "Quantum sensing": 0.7249348759651184, "Quantum control": 0.7166194915771484 } }, { "id": 954, "title": "Hot-Injection Synthesized Ag2S Quantum Dots with Broad Light Absorption and High Stability for Solar Cell Applications", "abstract": "A hot-injection synthesis method was used to synthesize low-toxicity Ag2S colloidal quantum dots (CQDs) with strong and broad light absorption as an ultra-thin photo-absorber in CQD heterojunction sol...", "citations": 28, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 954, "doi": "10.1002/cnma.201800263", "umap_coordinates": { "x": 392.2371520996094, "y": 133.5831298828125, "z": 205.38619995117188 }, "tsne_coordinates": { "x": 23.994470596313477, "y": 4.806158065795898, "z": -15.117829322814941 }, "pca_coordinates": { "x": -2.8566339015960693, "y": -4.495946407318115, "z": -0.6225172281265259 }, "axis_scores": { "Quantum imaging": 0.6831786632537842, "Quantum Life Science Sensing": 0.7190990447998047, "Quantum sensing Detection": 0.691378116607666, "Quantum sensing Metrology": 0.6836718320846558, "Quantum sensing navigation": 0.6910130381584167, "Quantum sensing Position": 0.6512428522109985, "Quantum sensing Timing": 0.6665714979171753, "Quantum sensing": 0.7019439935684204, "Quantum control": 0.7001020908355713 } }, { "id": 955, "title": "Modeling of open quantum dots and wave billiards using imaginary potentials for the source and the sink", "abstract": "A heuristic model for particle states and current flow in open ballistic two-dimensional (2D) quantum dots/wave billiards is proposed. The model makes use of complex potentials first introduced in phe...", "citations": 17, "author_count": 4, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 955, "doi": "10.1088/1367-2630/12/7/073005", "umap_coordinates": { "x": 394.42999267578125, "y": 135.238037109375, "z": 207.05519104003906 }, "tsne_coordinates": { "x": -6.847996711730957, "y": 9.403646469116211, "z": 11.392462730407715 }, "pca_coordinates": { "x": 0.3093310594558716, "y": -0.023145198822021484, "z": 1.453484058380127 }, "axis_scores": { "Quantum imaging": 0.7514750361442566, "Quantum Life Science Sensing": 0.7532071471214294, "Quantum sensing Detection": 0.7280253171920776, "Quantum sensing Metrology": 0.7299021482467651, "Quantum sensing navigation": 0.7328799962997437, "Quantum sensing Position": 0.7011725306510925, "Quantum sensing Timing": 0.7114469408988953, "Quantum sensing": 0.7478046417236328, "Quantum control": 0.7150323390960693 } }, { "id": 956, "title": "Excitation of carbon-13 triple quantum coherence in magic-angle-spinning NMR", "abstract": "We excite triple quantum coherence between carbon-13 nuclei in magic-angle-spinning solid state NMR, using a C7 pulse sequence applied to transverse C-13-magnetization. Experimental results on a powde...", "citations": 37, "author_count": 3, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 956, "doi": "10.1016/S0009-2614(98)00761-1", "umap_coordinates": { "x": 393.05010986328125, "y": 136.44625854492188, "z": 206.75527954101562 }, "tsne_coordinates": { "x": 16.060272216796875, "y": -1.2807523012161255, "z": 29.613431930541992 }, "pca_coordinates": { "x": -0.6349543929100037, "y": 1.0678738355636597, "z": 0.047816693782806396 }, "axis_scores": { "Quantum imaging": 0.7389488220214844, "Quantum Life Science Sensing": 0.7510434985160828, "Quantum sensing Detection": 0.7280792593955994, "Quantum sensing Metrology": 0.726510226726532, "Quantum sensing navigation": 0.7238132953643799, "Quantum sensing Position": 0.7197630405426025, "Quantum sensing Timing": 0.7242458462715149, "Quantum sensing": 0.7421209812164307, "Quantum control": 0.7125148773193359 } }, { "id": 957, "title": "Dynamic optical response of an excitonic quantum dot studied by solving the self-consistent Maxwell-Schrodinger equations nonperturbatively", "abstract": "The optical excitation of a quantum dot in real-world working conditions is studied by self-consistent solution of the time-dependent Schrodinger equation coupled to the Maxwell equations by the finit...", "citations": 8, "author_count": 3, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 957, "doi": "10.1103/PhysRevB.82.245305", "umap_coordinates": { "x": 393.27557373046875, "y": 135.2642822265625, "z": 208.18893432617188 }, "tsne_coordinates": { "x": 10.377574920654297, "y": -24.588890075683594, "z": 10.0763578414917 }, "pca_coordinates": { "x": 2.2891054153442383, "y": -1.6774702072143555, "z": -0.4813849925994873 }, "axis_scores": { "Quantum imaging": 0.7058783173561096, "Quantum Life Science Sensing": 0.7268977761268616, "Quantum sensing Detection": 0.7117311358451843, "Quantum sensing Metrology": 0.7056089043617249, "Quantum sensing navigation": 0.7064640522003174, "Quantum sensing Position": 0.6840722560882568, "Quantum sensing Timing": 0.6773281693458557, "Quantum sensing": 0.7150360345840454, "Quantum control": 0.687138557434082 } }, { "id": 958, "title": "Trace preserving quantum dynamics using a novel reparametrization-neutral summation-by-parts difference operator", "abstract": "We develop a novel numerical scheme for the simulation of dissipative quantum dynamics, following from two-body Lindblad master equations. It exactly preserves the trace of the density matrix and show...", "citations": 12, "author_count": 7, "categories": [ "Computer Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 958, "doi": "10.1016/j.jcp.2020.109917", "umap_coordinates": { "x": 393.7557373046875, "y": 136.82217407226562, "z": 206.6512908935547 }, "tsne_coordinates": { "x": -12.853798866271973, "y": 0.38227173686027527, "z": 32.55115509033203 }, "pca_coordinates": { "x": 0.764824628829956, "y": 2.431502342224121, "z": -0.8969236612319946 }, "axis_scores": { "Quantum imaging": 0.7124758958816528, "Quantum Life Science Sensing": 0.7103652358055115, "Quantum sensing Detection": 0.6932695508003235, "Quantum sensing Metrology": 0.6688495874404907, "Quantum sensing navigation": 0.7160382270812988, "Quantum sensing Position": 0.6779302954673767, "Quantum sensing Timing": 0.6996747255325317, "Quantum sensing": 0.7006473541259766, "Quantum control": 0.709835410118103 } }, { "id": 959, "title": "Quantum-noise theory for terahertz hot electron bolometer mixers", "abstract": "In this paper, we first review general quantum mechanical limits on the sensitivity of heterodyne receivers. The main aim of the paper is to explore the quantum-noise (QN) properties of hot electron b...", "citations": 20, "author_count": 3, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 959, "doi": "10.1109/TMTT.2006.873628", "umap_coordinates": { "x": 394.7760009765625, "y": 134.99676513671875, "z": 207.8909454345703 }, "tsne_coordinates": { "x": -0.6450412273406982, "y": -1.4159725904464722, "z": -45.2227783203125 }, "pca_coordinates": { "x": 2.8457798957824707, "y": 0.30163121223449707, "z": 2.139586925506592 }, "axis_scores": { "Quantum imaging": 0.7064372301101685, "Quantum Life Science Sensing": 0.7113158106803894, "Quantum sensing Detection": 0.7269383072853088, "Quantum sensing Metrology": 0.73359215259552, "Quantum sensing navigation": 0.7202597856521606, "Quantum sensing Position": 0.6830081939697266, "Quantum sensing Timing": 0.7297796010971069, "Quantum sensing": 0.7285410165786743, "Quantum control": 0.6976897716522217 } }, { "id": 960, "title": "Relaxation pathways in InAs/GaAs quantum dots - art. no. 075309", "abstract": "We have investigated individual InAs quantum dots in GaAs using photoluminescence spectroscopy. The dots were grown by the Stranski-Krastanov technique. We find that holes in excited states sometimes ...", "citations": 5, "author_count": 6, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 960, "doi": "10.1103/PhysRevB.64.075309", "umap_coordinates": { "x": 393.49334716796875, "y": 135.2884063720703, "z": 208.83609008789062 }, "tsne_coordinates": { "x": 9.210103988647461, "y": -31.11872100830078, "z": 1.0633918046951294 }, "pca_coordinates": { "x": 4.369045734405518, "y": -1.4599997997283936, "z": 0.06748694181442261 }, "axis_scores": { "Quantum imaging": 0.7193983197212219, "Quantum Life Science Sensing": 0.7249069809913635, "Quantum sensing Detection": 0.7138776183128357, "Quantum sensing Metrology": 0.6875442266464233, "Quantum sensing navigation": 0.73465496301651, "Quantum sensing Position": 0.6879358887672424, "Quantum sensing Timing": 0.7015701532363892, "Quantum sensing": 0.7227475643157959, "Quantum control": 0.6934896111488342 } }, { "id": 961, "title": "ELECTROCONDUCTANCE OSCILLATIONS AND QUANTUM INTERFERENCE IN BALLISTIC NANOSTRUCTURES - COMMENT", "abstract": "We present quantum-mechanical calculations of conductance oscillations produced by modulating an applied-potential step V3 in one of the branches of a multiply connected system. We show that these osc...", "citations": 1, "author_count": 3, "categories": [ "Materials Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 961, "doi": "10.1103/PhysRevB.49.16801", "umap_coordinates": { "x": 394.3145446777344, "y": 135.51071166992188, "z": 208.45407104492188 }, "tsne_coordinates": { "x": -1.9992185831069946, "y": -36.75419616699219, "z": -2.0547547340393066 }, "pca_coordinates": { "x": 3.911067485809326, "y": -2.0306506156921387, "z": -0.8680509328842163 }, "axis_scores": { "Quantum imaging": 0.7039650678634644, "Quantum Life Science Sensing": 0.7249705195426941, "Quantum sensing Detection": 0.7073706984519958, "Quantum sensing Metrology": 0.7004767060279846, "Quantum sensing navigation": 0.7248742580413818, "Quantum sensing Position": 0.6867355108261108, "Quantum sensing Timing": 0.6741156578063965, "Quantum sensing": 0.7112732529640198, "Quantum control": 0.6966960430145264 } }, { "id": 962, "title": "Tunability of a 2e periodic single Cooper pair box -: art. no. 224523", "abstract": "We have measured the fully 2e periodic Coulomb staircase of a single Cooper pair box (SCB) in superconducting quantum interference design geometry, using a radio-frequency single-electron transistor. ...", "citations": 15, "author_count": 5, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 962, "doi": "10.1103/PhysRevB.70.224523", "umap_coordinates": { "x": 394.484130859375, "y": 135.0841522216797, "z": 208.4037628173828 }, "tsne_coordinates": { "x": -0.6580706238746643, "y": -34.15177536010742, "z": -17.077959060668945 }, "pca_coordinates": { "x": 2.523153066635132, "y": -1.57423734664917, "z": -0.39309877157211304 }, "axis_scores": { "Quantum imaging": 0.6910609602928162, "Quantum Life Science Sensing": 0.711277425289154, "Quantum sensing Detection": 0.7044955492019653, "Quantum sensing Metrology": 0.6973009705543518, "Quantum sensing navigation": 0.709286093711853, "Quantum sensing Position": 0.6903952360153198, "Quantum sensing Timing": 0.6958504915237427, "Quantum sensing": 0.7148197889328003, "Quantum control": 0.7106313705444336 } }, { "id": 963, "title": "Sample and hold strategy for quantum measurements of Josephson charge qubits - art. no. 020505", "abstract": "We present a design for a charge qubit, and an associated quantum sample and hold measurement scheme. Using arrays of superconducting. islands, connected by tunable tunnel junctions, we can sample the...", "citations": 3, "author_count": 6, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 963, "doi": "10.1103/PhysRevB.65.020505", "umap_coordinates": { "x": 395.2031555175781, "y": 136.6602325439453, "z": 208.1039581298828 }, "tsne_coordinates": { "x": -29.309219360351562, "y": -19.239564895629883, "z": 5.383642196655273 }, "pca_coordinates": { "x": 3.368196487426758, "y": 0.14086008071899414, "z": 0.10429316759109497 }, "axis_scores": { "Quantum imaging": 0.6840538382530212, "Quantum Life Science Sensing": 0.702583909034729, "Quantum sensing Detection": 0.6932476162910461, "Quantum sensing Metrology": 0.6980946063995361, "Quantum sensing navigation": 0.7091642618179321, "Quantum sensing Position": 0.7160816788673401, "Quantum sensing Timing": 0.6956244111061096, "Quantum sensing": 0.7045422792434692, "Quantum control": 0.7087703347206116 } }, { "id": 964, "title": "Absorption Enhancement in Giant Core/Alloyed-Shell Quantum Dots for Luminescent Solar Concentrator", "abstract": "Luminescent solar concentrators (LSCs) can potentially reduce the cost of solar cells by decreasing the photoactive area of the device and boosting the photoconversion efficiency (PCE). This study dem...", "citations": 132, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 964, "doi": "10.1002/smll.201600945", "umap_coordinates": { "x": 392.6103820800781, "y": 133.46340942382812, "z": 205.9559326171875 }, "tsne_coordinates": { "x": 27.604719161987305, "y": 5.705069065093994, "z": -16.338115692138672 }, "pca_coordinates": { "x": -3.658275842666626, "y": -3.5649399757385254, "z": 0.3361089825630188 }, "axis_scores": { "Quantum imaging": 0.6871675848960876, "Quantum Life Science Sensing": 0.7022053003311157, "Quantum sensing Detection": 0.6909594535827637, "Quantum sensing Metrology": 0.696709156036377, "Quantum sensing navigation": 0.6624239087104797, "Quantum sensing Position": 0.6581301689147949, "Quantum sensing Timing": 0.6363940238952637, "Quantum sensing": 0.6953078508377075, "Quantum control": 0.6659281849861145 } }, { "id": 965, "title": "Limits on the production of direct photons in 200A GeV S-32+Au collisions", "abstract": "A search for the production of direct photons in S + An collisions at 200A GeV has been carried out in the CERN-WA80 experiment. For central collisions the measured photon excess at each pr, averaged ...", "citations": 104, "author_count": 63, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 965, "doi": "10.1103/PhysRevLett.76.3506", "umap_coordinates": { "x": 396.3786926269531, "y": 134.63832092285156, "z": 208.0819854736328 }, "tsne_coordinates": { "x": -31.086509704589844, "y": 2.2543392181396484, "z": -18.441280364990234 }, "pca_coordinates": { "x": 2.428252696990967, "y": 0.03288626670837402, "z": 2.3413352966308594 }, "axis_scores": { "Quantum imaging": 0.6733669638633728, "Quantum Life Science Sensing": 0.7055106163024902, "Quantum sensing Detection": 0.7192756533622742, "Quantum sensing Metrology": 0.6891610622406006, "Quantum sensing navigation": 0.6918269395828247, "Quantum sensing Position": 0.6954851150512695, "Quantum sensing Timing": 0.6842705607414246, "Quantum sensing": 0.7082928419113159, "Quantum control": 0.6686575412750244 } }, { "id": 966, "title": "Effect of Submonolayer ZnS Shell on Biexciton Dynamics of Indium Phosphide Quantum Dots", "abstract": "Understanding high-order biexciton dynamics is important for the use of semiconductor quantum dots (QDs) in optoelectronic devices. The core-shell structure can be used to modulate biexciton dynamics ...", "citations": 16, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 966, "doi": "10.1002/aelm.202300439", "umap_coordinates": { "x": 392.2237243652344, "y": 134.5100860595703, "z": 207.2334442138672 }, "tsne_coordinates": { "x": 23.231813430786133, "y": -5.553888320922852, "z": 9.418487548828125 }, "pca_coordinates": { "x": -1.2949655055999756, "y": -3.4852237701416016, "z": -1.0137535333633423 }, "axis_scores": { "Quantum imaging": 0.7030084729194641, "Quantum Life Science Sensing": 0.6885164380073547, "Quantum sensing Detection": 0.6864521503448486, "Quantum sensing Metrology": 0.6809819936752319, "Quantum sensing navigation": 0.6711958646774292, "Quantum sensing Position": 0.6862677335739136, "Quantum sensing Timing": 0.6713060736656189, "Quantum sensing": 0.6887220144271851, "Quantum control": 0.6776352524757385 } }, { "id": 967, "title": "Composite metal/quantum-dot nanoparticle-array waveguides with compensated loss", "abstract": "We calculate the dispersion properties of waveguides composed of near-field-coupled arrays of metal-clad quantum dots (QDs). The high optical loss incurred by operating the metal shells close to reson...", "citations": 39, "author_count": 4, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 967, "doi": "10.1063/1.3467845", "umap_coordinates": { "x": 393.52215576171875, "y": 133.7586212158203, "z": 207.62075805664062 }, "tsne_coordinates": { "x": 27.267017364501953, "y": -18.73308753967285, "z": -22.909589767456055 }, "pca_coordinates": { "x": 0.03597569465637207, "y": -3.9000983238220215, "z": 3.077536106109619 }, "axis_scores": { "Quantum imaging": 0.7301120162010193, "Quantum Life Science Sensing": 0.7085161209106445, "Quantum sensing Detection": 0.7250515222549438, "Quantum sensing Metrology": 0.7308497428894043, "Quantum sensing navigation": 0.7040491104125977, "Quantum sensing Position": 0.6979900002479553, "Quantum sensing Timing": 0.6597648859024048, "Quantum sensing": 0.7315196394920349, "Quantum control": 0.6904632449150085 } }, { "id": 968, "title": "Photonic-crystal microcavity laser with site-controlled quantum-wire active medium", "abstract": "Site-controlled quantum-wire photonic-crystal microcavity laser is experimentally demonstrated using optical pumping. The single-mode lasing and threshold are established based on the transient laser ...", "citations": 40, "author_count": 8, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 968, "doi": "10.1364/OE.17.018178", "umap_coordinates": { "x": 394.09832763671875, "y": 134.11732482910156, "z": 207.03294372558594 }, "tsne_coordinates": { "x": -3.0950655937194824, "y": -11.352742195129395, "z": -33.494956970214844 }, "pca_coordinates": { "x": -0.2783008813858032, "y": -1.2017292976379395, "z": 2.9948318004608154 }, "axis_scores": { "Quantum imaging": 0.73930823802948, "Quantum Life Science Sensing": 0.6875964999198914, "Quantum sensing Detection": 0.7235513925552368, "Quantum sensing Metrology": 0.7172638177871704, "Quantum sensing navigation": 0.7246370911598206, "Quantum sensing Position": 0.7090849280357361, "Quantum sensing Timing": 0.7013640403747559, "Quantum sensing": 0.7352936863899231, "Quantum control": 0.7286784052848816 } }, { "id": 969, "title": "Deep-Blue and Narrowband-Emitting Carbon Dots from a Sustainable Precursor for Random Lasing", "abstract": "Deep-blue (DB) emitters that feature high photoluminescence quantum yield (PLQY) and narrow spectral bandwidth are desired for a variety of optoelectronic applications, particularly for lighting, illu...", "citations": 14, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 969, "doi": "10.1021/acsanm.4c06734", "umap_coordinates": { "x": 392.2799072265625, "y": 134.33705139160156, "z": 204.9832305908203 }, "tsne_coordinates": { "x": 18.575515747070312, "y": 9.290132522583008, "z": -11.361653327941895 }, "pca_coordinates": { "x": -2.4918806552886963, "y": -2.898876190185547, "z": -1.0488595962524414 }, "axis_scores": { "Quantum imaging": 0.6774283051490784, "Quantum Life Science Sensing": 0.7146764993667603, "Quantum sensing Detection": 0.6907221674919128, "Quantum sensing Metrology": 0.6706675291061401, "Quantum sensing navigation": 0.6889603137969971, "Quantum sensing Position": 0.6598434448242188, "Quantum sensing Timing": 0.6497618556022644, "Quantum sensing": 0.6989027261734009, "Quantum control": 0.6844035983085632 } }, { "id": 970, "title": "Coherent quantum dynamics of excitons in monolayer transition metal dichalcogenides", "abstract": "Transition metal dichalcogenides (TMDs) have garnered considerable interest in recent years owing to their layer thickness-dependent optoelectronic properties. In monolayer TMDs, the large carrier eff...", "citations": 3, "author_count": 16, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 970, "doi": "10.1117/12.2209203", "umap_coordinates": { "x": 393.0216064453125, "y": 135.64083862304688, "z": 207.75135803222656 }, "tsne_coordinates": { "x": 14.00208568572998, "y": -4.877077102661133, "z": 13.087196350097656 }, "pca_coordinates": { "x": 2.4610629081726074, "y": -2.699253559112549, "z": -0.8724648952484131 }, "axis_scores": { "Quantum imaging": 0.7502632141113281, "Quantum Life Science Sensing": 0.7318860292434692, "Quantum sensing Detection": 0.7436143755912781, "Quantum sensing Metrology": 0.7204127311706543, "Quantum sensing navigation": 0.7271945476531982, "Quantum sensing Position": 0.7052446603775024, "Quantum sensing Timing": 0.7228283882141113, "Quantum sensing": 0.737935483455658, "Quantum control": 0.7218570113182068 } }, { "id": 971, "title": "Dipolar coupling of nanoparticle-molecule assemblies: An efficient approach for studying strong coupling", "abstract": "Strong light-matter interactions facilitate not only emerging applications in quantum and non-linear optics but also modifications of properties of materials. In particular, the latter possibility has...", "citations": 13, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 971, "doi": "10.1063/5.0037853", "umap_coordinates": { "x": 392.92645263671875, "y": 135.2810516357422, "z": 206.31927490234375 }, "tsne_coordinates": { "x": 5.376779079437256, "y": -15.284878730773926, "z": -11.147054672241211 }, "pca_coordinates": { "x": -0.6810228824615479, "y": -2.749523639678955, "z": -0.46721628308296204 }, "axis_scores": { "Quantum imaging": 0.715851366519928, "Quantum Life Science Sensing": 0.7212725877761841, "Quantum sensing Detection": 0.7025610208511353, "Quantum sensing Metrology": 0.686516523361206, "Quantum sensing navigation": 0.6839694380760193, "Quantum sensing Position": 0.6707407832145691, "Quantum sensing Timing": 0.6511925458908081, "Quantum sensing": 0.7117860317230225, "Quantum control": 0.6752862930297852 } }, { "id": 972, "title": "Chiral quantum optics with giant atoms", "abstract": "In quantum optics, it is common to assume that atoms are pointlike objects compared to the wavelength of the electromagnetic field they interact with. However, this dipole approximation is not always ...", "citations": 95, "author_count": 3, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 972, "doi": "10.1103/PhysRevA.105.023712", "umap_coordinates": { "x": 395.40869140625, "y": 136.28140258789062, "z": 208.3731231689453 }, "tsne_coordinates": { "x": -19.44021224975586, "y": -21.128904342651367, "z": -12.114799499511719 }, "pca_coordinates": { "x": 5.011799335479736, "y": -0.8583927154541016, "z": 1.5022413730621338 }, "axis_scores": { "Quantum imaging": 0.7445096969604492, "Quantum Life Science Sensing": 0.7320965528488159, "Quantum sensing Detection": 0.7525179386138916, "Quantum sensing Metrology": 0.7392057180404663, "Quantum sensing navigation": 0.7543066143989563, "Quantum sensing Position": 0.7105555534362793, "Quantum sensing Timing": 0.7036862373352051, "Quantum sensing": 0.7609354257583618, "Quantum control": 0.7190636396408081 } }, { "id": 973, "title": "QUANTUM INTERFERENCE OF A SINGLE VORTEX IN A MESOSCOPIC SUPERCONDUCTOR", "abstract": "", "citations": 8, "author_count": 3, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 973, "doi": "10.1103/PhysRevLett.74.4718", "umap_coordinates": { "x": 394.67352294921875, "y": 134.97796630859375, "z": 208.75428771972656 }, "tsne_coordinates": { "x": -2.994206428527832, "y": -25.81513786315918, "z": -9.306290626525879 }, "pca_coordinates": { "x": 5.3524065017700195, "y": -1.1765835285186768, "z": 1.7778716087341309 }, "axis_scores": { "Quantum imaging": 0.7338706851005554, "Quantum Life Science Sensing": 0.7273709177970886, "Quantum sensing Detection": 0.7343239784240723, "Quantum sensing Metrology": 0.7185144424438477, "Quantum sensing navigation": 0.724391758441925, "Quantum sensing Position": 0.7123328447341919, "Quantum sensing Timing": 0.7211981415748596, "Quantum sensing": 0.7376495599746704, "Quantum control": 0.7115218639373779 } }, { "id": 974, "title": "Chaos in a quantum dot with spin-orbit coupling", "abstract": "Level statistics are nodal point distribution in a rectangular semiconductor quantum dot are studies for different degrees of spin-orbit coupling. The chaotic features occurring from the spin-orbit co...", "citations": 12, "author_count": 3, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 974, "doi": "10.1023/A:1017586402657", "umap_coordinates": { "x": 394.1496887207031, "y": 135.93630981445312, "z": 207.98553466796875 }, "tsne_coordinates": { "x": -4.709173679351807, "y": -17.439260482788086, "z": 1.1398510932922363 }, "pca_coordinates": { "x": 2.520601272583008, "y": -1.476898193359375, "z": -0.1234084963798523 }, "axis_scores": { "Quantum imaging": 0.7116715312004089, "Quantum Life Science Sensing": 0.7170862555503845, "Quantum sensing Detection": 0.731261134147644, "Quantum sensing Metrology": 0.7143206596374512, "Quantum sensing navigation": 0.7212608456611633, "Quantum sensing Position": 0.6989014744758606, "Quantum sensing Timing": 0.7099723219871521, "Quantum sensing": 0.7320719957351685, "Quantum control": 0.7367289066314697 } }, { "id": 975, "title": "Dissipative quantum dynamics with a Lindblad functional", "abstract": "A Lindblad operator is proposed to describe quantum dynamics of an open system with linear dissipation. Its functional form is determined based on the microscopic Caldeira-Leggett model. It yields a n...", "citations": 105, "author_count": 2, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 975, "doi": "10.1103/PhysRevLett.79.3101", "umap_coordinates": { "x": 395.0273742675781, "y": 136.2042694091797, "z": 208.5316925048828 }, "tsne_coordinates": { "x": -26.945213317871094, "y": -20.533672332763672, "z": 9.985221862792969 }, "pca_coordinates": { "x": 5.0511698722839355, "y": 0.021477222442626953, "z": -0.3155134916305542 }, "axis_scores": { "Quantum imaging": 0.7301110625267029, "Quantum Life Science Sensing": 0.7478511929512024, "Quantum sensing Detection": 0.7392878532409668, "Quantum sensing Metrology": 0.7158828377723694, "Quantum sensing navigation": 0.7377586960792542, "Quantum sensing Position": 0.7090932130813599, "Quantum sensing Timing": 0.6818257570266724, "Quantum sensing": 0.7442774176597595, "Quantum control": 0.7240127921104431 } }, { "id": 976, "title": "Numerical study of Wigner negativity in one-dimensional steady-state resonance fluorescence", "abstract": "In a numerical study, we investigate the steady-state generation of nonclassical states of light from a coherently driven two-level atom in a one-dimensional waveguide. Specifically, we look for state...", "citations": 18, "author_count": 5, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 976, "doi": "10.1103/PhysRevA.100.063808", "umap_coordinates": { "x": 394.51507568359375, "y": 135.4515380859375, "z": 208.28628540039062 }, "tsne_coordinates": { "x": -9.601249694824219, "y": -32.82223892211914, "z": -15.700472831726074 }, "pca_coordinates": { "x": 2.099618673324585, "y": -0.5988740921020508, "z": 0.745006263256073 }, "axis_scores": { "Quantum imaging": 0.7156375646591187, "Quantum Life Science Sensing": 0.7378553152084351, "Quantum sensing Detection": 0.71955806016922, "Quantum sensing Metrology": 0.7073160409927368, "Quantum sensing navigation": 0.7206985950469971, "Quantum sensing Position": 0.6948675513267517, "Quantum sensing Timing": 0.6680048108100891, "Quantum sensing": 0.719385027885437, "Quantum control": 0.6818784475326538 } }, { "id": 977, "title": "Advances in solution-processed near-infrared light-emitting diodes", "abstract": "A summary of recent advances in the near-infrared light-emitting diodes that are fabricated by solution-processed means, with coverage of devices based on organic semiconductors, halide perovskites an...", "citations": 290, "author_count": 11, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 977, "doi": "10.1038/s41566-021-00855-2", "umap_coordinates": { "x": 393.3309020996094, "y": 133.99441528320312, "z": 205.91387939453125 }, "tsne_coordinates": { "x": 10.587241172790527, "y": -5.573454856872559, "z": -17.09351348876953 }, "pca_coordinates": { "x": -3.610617160797119, "y": -2.8670406341552734, "z": 0.9278736710548401 }, "axis_scores": { "Quantum imaging": 0.6828776597976685, "Quantum Life Science Sensing": 0.7085868716239929, "Quantum sensing Detection": 0.6728931665420532, "Quantum sensing Metrology": 0.6793777346611023, "Quantum sensing navigation": 0.660133957862854, "Quantum sensing Position": 0.667788028717041, "Quantum sensing Timing": 0.6604224443435669, "Quantum sensing": 0.6886549592018127, "Quantum control": 0.6281364560127258 } }, { "id": 978, "title": "Random telegraph noise in the photoluminescence of individual GaxIn1-xAs quantum dots in GaAs -: art. no. 045317", "abstract": "We have investigated random telegraph noise in the photoluminescence from InGaAs quantum dots in GaAs. Dots switching among two and three levels have been measured. The experiments show that the switc...", "citations": 13, "author_count": 8, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 978, "doi": "10.1103/PhysRevB.64.045317", "umap_coordinates": { "x": 393.9563293457031, "y": 135.15060424804688, "z": 209.06568908691406 }, "tsne_coordinates": { "x": 11.90779972076416, "y": -33.86105728149414, "z": -4.3022308349609375 }, "pca_coordinates": { "x": 4.33799409866333, "y": -0.892775297164917, "z": 1.9552464485168457 }, "axis_scores": { "Quantum imaging": 0.7012160420417786, "Quantum Life Science Sensing": 0.6907874345779419, "Quantum sensing Detection": 0.7078579068183899, "Quantum sensing Metrology": 0.6839244961738586, "Quantum sensing navigation": 0.7223443984985352, "Quantum sensing Position": 0.6947008371353149, "Quantum sensing Timing": 0.6933907866477966, "Quantum sensing": 0.7132617235183716, "Quantum control": 0.7030596137046814 } }, { "id": 979, "title": "Low affinity binding of plasma proteins to lipid-coated quantum dots as observed by in situ fluorescence correlation spectroscopy", "abstract": "Protein binding to lipid-coated nanoparticles has been pursued quantitatively by using fluorescence correlation spectroscopy. The binding of three important plasma proteins to lipid-enwrapped quantum ...", "citations": 29, "author_count": 10, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 979, "doi": "10.1039/c5nr01694k", "umap_coordinates": { "x": 393.5104675292969, "y": 135.91989135742188, "z": 205.175537109375 }, "tsne_coordinates": { "x": 3.2268495559692383, "y": 18.58495330810547, "z": 7.893586158752441 }, "pca_coordinates": { "x": -0.6443281769752502, "y": -0.025440216064453125, "z": -1.4055711030960083 }, "axis_scores": { "Quantum imaging": 0.7086136937141418, "Quantum Life Science Sensing": 0.7343829870223999, "Quantum sensing Detection": 0.7162492275238037, "Quantum sensing Metrology": 0.689400315284729, "Quantum sensing navigation": 0.7047028541564941, "Quantum sensing Position": 0.6992232203483582, "Quantum sensing Timing": 0.6668182611465454, "Quantum sensing": 0.7137229442596436, "Quantum control": 0.678864598274231 } }, { "id": 980, "title": "A lossless negative dielectric constant from quantum dot exciton polaritons", "abstract": "Prospects for a lossless negative dielectric constant material for optical devices are studied. Simulations show that with sufficient gain, a mixture of two semiconductor quantum dots (QDs) can produc...", "citations": 41, "author_count": 4, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 980, "doi": "10.1021/nl080282h", "umap_coordinates": { "x": 393.4536437988281, "y": 134.8925323486328, "z": 206.97914123535156 }, "tsne_coordinates": { "x": 6.922415256500244, "y": -14.336054801940918, "z": -31.636157989501953 }, "pca_coordinates": { "x": -0.45007824897766113, "y": -1.8141508102416992, "z": -1.5066559314727783 }, "axis_scores": { "Quantum imaging": 0.6741395592689514, "Quantum Life Science Sensing": 0.7081342339515686, "Quantum sensing Detection": 0.6772333383560181, "Quantum sensing Metrology": 0.6519207954406738, "Quantum sensing navigation": 0.6684758067131042, "Quantum sensing Position": 0.6618219614028931, "Quantum sensing Timing": 0.6448532342910767, "Quantum sensing": 0.677504301071167, "Quantum control": 0.6485610008239746 } }, { "id": 981, "title": "Extensions of the Mandelstam-Tamm quantum speed limit to systems in mixed states", "abstract": "The Mandelstam-Tamm quantum speed limit (QSL) puts a bound on how fast a closed system in a pure state can evolve. In this paper, we derive several extensions of this QSL to closed systems in mixed st...", "citations": 29, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 981, "doi": "10.1088/1367-2630/ac688a", "umap_coordinates": { "x": 394.9157409667969, "y": 137.16946411132812, "z": 206.99313354492188 }, "tsne_coordinates": { "x": -30.927261352539062, "y": -2.8028483390808105, "z": 5.917004108428955 }, "pca_coordinates": { "x": 2.346264362335205, "y": 3.6685173511505127, "z": -0.458525687456131 }, "axis_scores": { "Quantum imaging": 0.6822766065597534, "Quantum Life Science Sensing": 0.6852129101753235, "Quantum sensing Detection": 0.6714584827423096, "Quantum sensing Metrology": 0.6869165897369385, "Quantum sensing navigation": 0.6900668740272522, "Quantum sensing Position": 0.6692188382148743, "Quantum sensing Timing": 0.6782278418540955, "Quantum sensing": 0.6860767602920532, "Quantum control": 0.681003749370575 } }, { "id": 982, "title": "Model microcavity laser with CdSe/CdS quantum dots as lasing media", "abstract": "A model is established for a microcavity laser with cadmium selenium/cadmium sulfide (CdSe/CdS) core/shell quantum dots (QDs) as a lasing medium, The research was organised to develop and solve the ra...", "citations": 1, "author_count": 4, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 982, "doi": "10.1088/1054-660X/26/2/025004", "umap_coordinates": { "x": 394.2228698730469, "y": 135.0896453857422, "z": 206.14540100097656 }, "tsne_coordinates": { "x": -6.624250888824463, "y": 11.35877799987793, "z": 12.873196601867676 }, "pca_coordinates": { "x": -0.5214259624481201, "y": 0.45575058460235596, "z": 1.0139458179473877 }, "axis_scores": { "Quantum imaging": 0.6998844146728516, "Quantum Life Science Sensing": 0.7120131850242615, "Quantum sensing Detection": 0.6925269365310669, "Quantum sensing Metrology": 0.6996694207191467, "Quantum sensing navigation": 0.6794674396514893, "Quantum sensing Position": 0.6917369961738586, "Quantum sensing Timing": 0.6723496913909912, "Quantum sensing": 0.7059906721115112, "Quantum control": 0.7008346319198608 } }, { "id": 983, "title": "Locating nanowire heterostructures by electron beam induced current", "abstract": "Electron beam induced current ( EBIC) in a scanning electron microscope ( SEM) was used to identify the positions of heterostructures in InAs/InP nanowires. Composite SEM and EBIC images were used to ...", "citations": 25, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 983, "doi": "10.1088/0957-4484/18/20/205306", "umap_coordinates": { "x": 392.8919372558594, "y": 134.34922790527344, "z": 207.44979858398438 }, "tsne_coordinates": { "x": 22.51409912109375, "y": -17.54498291015625, "z": 10.70506477355957 }, "pca_coordinates": { "x": -0.5876045227050781, "y": -0.9891948699951172, "z": 2.5319180488586426 }, "axis_scores": { "Quantum imaging": 0.6977052092552185, "Quantum Life Science Sensing": 0.6605945229530334, "Quantum sensing Detection": 0.6757429838180542, "Quantum sensing Metrology": 0.678516685962677, "Quantum sensing navigation": 0.7290961742401123, "Quantum sensing Position": 0.7409138083457947, "Quantum sensing Timing": 0.6966906785964966, "Quantum sensing": 0.6804118752479553, "Quantum control": 0.6411716938018799 } }, { "id": 984, "title": "Engineering the Impact of Phonon Dephasing on the Coherence of a WSe2 Single-Photon Source via Cavity Quantum Electrodynamics", "abstract": "Emitter dephasing is one of the key issues in the performance of solid-state single-photon sources. Among the various sources of dephasing, acoustic phonons play a central role in adding decoherence t...", "citations": 10, "author_count": 17, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 984, "doi": "10.1103/PhysRevLett.132.206903", "umap_coordinates": { "x": 394.1433410644531, "y": 134.02670288085938, "z": 207.61407470703125 }, "tsne_coordinates": { "x": 0.014202047139406204, "y": -19.353179931640625, "z": -19.803537368774414 }, "pca_coordinates": { "x": 1.1889314651489258, "y": -2.387932300567627, "z": 1.6084485054016113 }, "axis_scores": { "Quantum imaging": 0.7364493608474731, "Quantum Life Science Sensing": 0.7552351355552673, "Quantum sensing Detection": 0.7437082529067993, "Quantum sensing Metrology": 0.7309668064117432, "Quantum sensing navigation": 0.7330722212791443, "Quantum sensing Position": 0.707887589931488, "Quantum sensing Timing": 0.7231225371360779, "Quantum sensing": 0.7513424754142761, "Quantum control": 0.7257716059684753 } }, { "id": 985, "title": "Entanglement-induced geometric phase of quantum states", "abstract": "The concept of relative state is used to introduce geometric phases that originate from correlations in states of composite quantum systems. In particular, we identify an entanglement-induced geometri...", "citations": 5, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 985, "doi": "10.1016/j.physleta.2010.01.053", "umap_coordinates": { "x": 395.1582336425781, "y": 137.1939697265625, "z": 207.7656707763672 }, "tsne_coordinates": { "x": -31.136871337890625, "y": -6.838207721710205, "z": 10.520054817199707 }, "pca_coordinates": { "x": 4.385460376739502, "y": 2.7324538230895996, "z": -0.46582573652267456 }, "axis_scores": { "Quantum imaging": 0.7895892262458801, "Quantum Life Science Sensing": 0.7507663369178772, "Quantum sensing Detection": 0.7677773237228394, "Quantum sensing Metrology": 0.7536443471908569, "Quantum sensing navigation": 0.7796090245246887, "Quantum sensing Position": 0.7635055780410767, "Quantum sensing Timing": 0.745309054851532, "Quantum sensing": 0.7765994071960449, "Quantum control": 0.7576786875724792 } }, { "id": 986, "title": "Highly coherent spin states in carbon nanotubes coupled to cavity photons", "abstract": "Spins confined in quantum dots are considered as a promising platform for quantum information processing. While many advanced quantum operations have been demonstrated, experimental as well as theoret...", "citations": 46, "author_count": 12, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 986, "doi": "10.1038/s41534-019-0169-4", "umap_coordinates": { "x": 393.5235290527344, "y": 134.89718627929688, "z": 206.93336486816406 }, "tsne_coordinates": { "x": 8.486481666564941, "y": -10.207510948181152, "z": -0.5009422302246094 }, "pca_coordinates": { "x": 0.5108277797698975, "y": -2.231098175048828, "z": 2.2504990100860596 }, "axis_scores": { "Quantum imaging": 0.7534829378128052, "Quantum Life Science Sensing": 0.7456693649291992, "Quantum sensing Detection": 0.7525700926780701, "Quantum sensing Metrology": 0.7260206937789917, "Quantum sensing navigation": 0.7386370897293091, "Quantum sensing Position": 0.7165683507919312, "Quantum sensing Timing": 0.7075415253639221, "Quantum sensing": 0.7603527307510376, "Quantum control": 0.7118549942970276 } }, { "id": 987, "title": "Anisotropy and Suppression of Spin-Orbit Interaction in a GaAs Double Quantum Dot", "abstract": "The spin-flip tunneling rates are measured in GaAs-based double quantum dots by time-resolved charge detection. Such processes occur in the Pauli spin blockade regime with two electrons occupying the ...", "citations": 47, "author_count": 8, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 987, "doi": "10.1103/PhysRevLett.119.176807", "umap_coordinates": { "x": 393.35552978515625, "y": 135.41574096679688, "z": 208.46224975585938 }, "tsne_coordinates": { "x": 9.734947204589844, "y": -17.747100830078125, "z": -3.695707082748413 }, "pca_coordinates": { "x": 3.528806686401367, "y": -3.298410415649414, "z": 0.3795759081840515 }, "axis_scores": { "Quantum imaging": 0.7217178344726562, "Quantum Life Science Sensing": 0.6993813514709473, "Quantum sensing Detection": 0.7137519121170044, "Quantum sensing Metrology": 0.7049597501754761, "Quantum sensing navigation": 0.710643470287323, "Quantum sensing Position": 0.6962539553642273, "Quantum sensing Timing": 0.7084897756576538, "Quantum sensing": 0.7259111404418945, "Quantum control": 0.7205969095230103 } }, { "id": 988, "title": "Indium enrichment in Ga1-xInxP self-assembled quantum dots", "abstract": "Quantum dots of Ga1-xInxP on GaP (001) have been grown by low-pressure metalorganic vapor phase epitaxy at 650 degreesC with varying (Ga,In)P coverages. The quantum dots were extensively characterized...", "citations": 2, "author_count": 10, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 988, "doi": "10.1063/1.1325386", "umap_coordinates": { "x": 392.54742431640625, "y": 133.73109436035156, "z": 208.107177734375 }, "tsne_coordinates": { "x": 26.634916305541992, "y": -19.05907440185547, "z": -3.1799163818359375 }, "pca_coordinates": { "x": -0.32596713304519653, "y": -4.2830491065979, "z": 1.2982399463653564 }, "axis_scores": { "Quantum imaging": 0.7476739287376404, "Quantum Life Science Sensing": 0.7140287756919861, "Quantum sensing Detection": 0.7385966181755066, "Quantum sensing Metrology": 0.7258955240249634, "Quantum sensing navigation": 0.7300606966018677, "Quantum sensing Position": 0.7126133441925049, "Quantum sensing Timing": 0.6872987151145935, "Quantum sensing": 0.7407935857772827, "Quantum control": 0.7025137543678284 } }, { "id": 989, "title": "Elastic strain and enhanced light emission in dry etched Si/Si1-xGex quantum dots", "abstract": "Quantum dots of 50 similar to 60 nm diameter fabricated from both Si/Si1-xGex (x = 0.1 similar to 0.3) strained layer superlattices and a strain symmetried Si-9/Ge-6 superlattice were investigated by ...", "citations": 10, "author_count": 12, "categories": [ "Engineering" ], "year": 1996, "topic": [ "all" ], "embedding_index": 989, "doi": "10.1007/BF02666257", "umap_coordinates": { "x": 393.0718688964844, "y": 133.8602294921875, "z": 207.09986877441406 }, "tsne_coordinates": { "x": 42.37910842895508, "y": -7.928636074066162, "z": -3.9063661098480225 }, "pca_coordinates": { "x": -1.0498744249343872, "y": -2.9720449447631836, "z": 0.7809457182884216 }, "axis_scores": { "Quantum imaging": 0.6865277886390686, "Quantum Life Science Sensing": 0.6809348464012146, "Quantum sensing Detection": 0.6607304215431213, "Quantum sensing Metrology": 0.672447681427002, "Quantum sensing navigation": 0.6649127006530762, "Quantum sensing Position": 0.685724139213562, "Quantum sensing Timing": 0.6521231532096863, "Quantum sensing": 0.6834736466407776, "Quantum control": 0.663008451461792 } }, { "id": 990, "title": "QUANTUM INTERFERENCE EFFECTS IN INELASTIC ELECTRON-PHOTON SCATTERING IN A 2D BALLISTIC MICROSTRUCTURE", "abstract": "We demonstrate a new effect where the electron-photon interaction in a ballistic microconstriction plays the same role as impurity scattering does in a ''dirty'' system. In the presence of an external...", "citations": 30, "author_count": 6, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 990, "doi": "10.1103/PhysRevLett.73.2260", "umap_coordinates": { "x": 394.5627746582031, "y": 135.2857208251953, "z": 208.50961303710938 }, "tsne_coordinates": { "x": -1.5172967910766602, "y": -27.535160064697266, "z": -4.738110542297363 }, "pca_coordinates": { "x": 3.7236742973327637, "y": -1.5437450408935547, "z": 0.995150625705719 }, "axis_scores": { "Quantum imaging": 0.766373872756958, "Quantum Life Science Sensing": 0.7360299229621887, "Quantum sensing Detection": 0.7437686920166016, "Quantum sensing Metrology": 0.7215256690979004, "Quantum sensing navigation": 0.7468265295028687, "Quantum sensing Position": 0.710716724395752, "Quantum sensing Timing": 0.7089824676513672, "Quantum sensing": 0.7528934478759766, "Quantum control": 0.7137572169303894 } }, { "id": 991, "title": "Exciton-phonon coupling in single quantum dots with different barriers", "abstract": "The coupling between longitudinal-optical (LO) phonons and neutral excitons in two different kinds of InGaAs pyramidal quantum dots (QDs) embedded in either AlGaAs or GaAs barriers is experimentally e...", "citations": 8, "author_count": 8, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 991, "doi": "10.1063/1.3600781", "umap_coordinates": { "x": 393.60467529296875, "y": 134.0514373779297, "z": 208.49452209472656 }, "tsne_coordinates": { "x": 19.659387588500977, "y": -27.633243560791016, "z": -6.358497142791748 }, "pca_coordinates": { "x": 2.5486199855804443, "y": -4.271917819976807, "z": 1.6177966594696045 }, "axis_scores": { "Quantum imaging": 0.7159644365310669, "Quantum Life Science Sensing": 0.720146894454956, "Quantum sensing Detection": 0.7289233803749084, "Quantum sensing Metrology": 0.7212419509887695, "Quantum sensing navigation": 0.7145921587944031, "Quantum sensing Position": 0.6943317651748657, "Quantum sensing Timing": 0.7019765377044678, "Quantum sensing": 0.7384792566299438, "Quantum control": 0.6983271837234497 } }, { "id": 992, "title": "NANO-OPTICAL STUDIES OF INDIVIDUAL NANOSTRUCTURES", "abstract": "Optical techniques play a significant role in studies of nano-structures. The electronic structures of quantum dots, for example, vary with the geometric sizes in an ensemble, resulting in broadened s...", "citations": 26, "author_count": 11, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 992, "doi": "10.1143/JJAP.34.4392", "umap_coordinates": { "x": 393.3287048339844, "y": 133.99266052246094, "z": 206.7007293701172 }, "tsne_coordinates": { "x": 32.88665008544922, "y": -0.8197974562644958, "z": 2.2380197048187256 }, "pca_coordinates": { "x": -0.8197600841522217, "y": -2.719146251678467, "z": 1.0814306735992432 }, "axis_scores": { "Quantum imaging": 0.745433509349823, "Quantum Life Science Sensing": 0.7359010577201843, "Quantum sensing Detection": 0.7295593023300171, "Quantum sensing Metrology": 0.7304271459579468, "Quantum sensing navigation": 0.7196834683418274, "Quantum sensing Position": 0.7058534622192383, "Quantum sensing Timing": 0.6640706658363342, "Quantum sensing": 0.751049816608429, "Quantum control": 0.7107871174812317 } }, { "id": 993, "title": "Highly Efficient Oxindole-Based Molecular Photoswitches", "abstract": "3-Benzylidene-indoline-2-ones play a prominent role in the pharmaceutical industry due to the diverse biomedical applications of oxindole heterocycles. Despite the extensive reports on their biologica...", "citations": 11, "author_count": 6, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 993, "doi": "10.1002/chem.202301634", "umap_coordinates": { "x": 392.12744140625, "y": 134.9722137451172, "z": 204.87509155273438 }, "tsne_coordinates": { "x": -1.7782645225524902, "y": 9.412921905517578, "z": -9.185446739196777 }, "pca_coordinates": { "x": -1.8667610883712769, "y": -3.048332691192627, "z": -1.6067707538604736 }, "axis_scores": { "Quantum imaging": 0.7568382620811462, "Quantum Life Science Sensing": 0.7431548237800598, "Quantum sensing Detection": 0.7309865951538086, "Quantum sensing Metrology": 0.7077907919883728, "Quantum sensing navigation": 0.7218431830406189, "Quantum sensing Position": 0.6907865405082703, "Quantum sensing Timing": 0.6801577806472778, "Quantum sensing": 0.7508569955825806, "Quantum control": 0.7452524304389954 } }, { "id": 994, "title": "Non-geometric pumping effects on the performance of interacting quantum-dot heat engines", "abstract": "Periodically driven quantum dots can act as counterparts of cyclic thermal machines at the nanoscale. In the slow-driving regime of geometric pumping, such machines have been shown to operate in analo...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 994, "doi": "10.1140/epjs/s11734-023-00969-4", "umap_coordinates": { "x": 395.0868835449219, "y": 135.40577697753906, "z": 207.09906005859375 }, "tsne_coordinates": { "x": -14.282176971435547, "y": -9.404488563537598, "z": 17.296398162841797 }, "pca_coordinates": { "x": 1.5442531108856201, "y": 0.583003044128418, "z": 1.6029107570648193 }, "axis_scores": { "Quantum imaging": 0.7316023707389832, "Quantum Life Science Sensing": 0.6815786957740784, "Quantum sensing Detection": 0.6997180581092834, "Quantum sensing Metrology": 0.691742479801178, "Quantum sensing navigation": 0.702164888381958, "Quantum sensing Position": 0.6955317854881287, "Quantum sensing Timing": 0.7085767984390259, "Quantum sensing": 0.7052805423736572, "Quantum control": 0.7159404754638672 } }, { "id": 995, "title": "Microwave quantum optics with an artificial atom in one-dimensional open space", "abstract": "We address recent advances in microwave quantum optics with artificial atoms in one-dimensional (1D) open space. This field relies on the fact that the coupling between a superconducting artificial at...", "citations": 107, "author_count": 8, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 995, "doi": "10.1088/1367-2630/15/2/025011", "umap_coordinates": { "x": 394.7984924316406, "y": 135.213134765625, "z": 207.16249084472656 }, "tsne_coordinates": { "x": -31.663976669311523, "y": -8.951549530029297, "z": -14.489279747009277 }, "pca_coordinates": { "x": 2.6074299812316895, "y": 1.6793537139892578, "z": 3.241856098175049 }, "axis_scores": { "Quantum imaging": 0.7259383201599121, "Quantum Life Science Sensing": 0.7129266858100891, "Quantum sensing Detection": 0.7201622724533081, "Quantum sensing Metrology": 0.7104184031486511, "Quantum sensing navigation": 0.7194075584411621, "Quantum sensing Position": 0.6772398948669434, "Quantum sensing Timing": 0.6633510589599609, "Quantum sensing": 0.7307470440864563, "Quantum control": 0.6864445805549622 } }, { "id": 996, "title": "Automated matching of two-time X-ray photon correlation mans from phase-separating proteins with Cahn-Hilliard-type simulations using auto-encoder networks", "abstract": "Machine learning methods are used for an automated classification of experimental two-time X-ray photon correlation maps from an arrested liquid-liquid phase separation of a protein solution. The corr...", "citations": 9, "author_count": 14, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 996, "doi": "10.1107/S1600576722004435", "umap_coordinates": { "x": 395.8075866699219, "y": 134.81471252441406, "z": 206.3759307861328 }, "tsne_coordinates": { "x": -24.11681365966797, "y": 8.538572311401367, "z": -25.053747177124023 }, "pca_coordinates": { "x": 0.5685269832611084, "y": 2.0233476161956787, "z": 2.9251391887664795 }, "axis_scores": { "Quantum imaging": 0.7192375659942627, "Quantum Life Science Sensing": 0.6985384225845337, "Quantum sensing Detection": 0.6944775581359863, "Quantum sensing Metrology": 0.7001304030418396, "Quantum sensing navigation": 0.7258022427558899, "Quantum sensing Position": 0.6830106973648071, "Quantum sensing Timing": 0.7398375868797302, "Quantum sensing": 0.7028921842575073, "Quantum control": 0.6789038181304932 } }, { "id": 997, "title": "Electron beam pre-patterning for site-control of self-assembled InAs quantum dots on InP surfaces", "abstract": "A site control technique for individual InAs quantum dots (QDs) formed by self-assembling has been developed, using scanning electron microscope (SEM) assisted nano-deposition and metal organic vapor ...", "citations": 10, "author_count": 9, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 997, "doi": "10.1007/s11664-001-0087-y", "umap_coordinates": { "x": 392.2652587890625, "y": 133.83253479003906, "z": 207.38169860839844 }, "tsne_coordinates": { "x": 32.840797424316406, "y": -11.970391273498535, "z": 4.284943103790283 }, "pca_coordinates": { "x": -1.2702159881591797, "y": -2.932955265045166, "z": 2.578866481781006 }, "axis_scores": { "Quantum imaging": 0.6945779323577881, "Quantum Life Science Sensing": 0.672219455242157, "Quantum sensing Detection": 0.6846047639846802, "Quantum sensing Metrology": 0.6920312643051147, "Quantum sensing navigation": 0.6999185085296631, "Quantum sensing Position": 0.7117000818252563, "Quantum sensing Timing": 0.6869385838508606, "Quantum sensing": 0.6946777701377869, "Quantum control": 0.6741052865982056 } }, { "id": 998, "title": "Dynamics of isolated-photon plus jet production in pp collisions at √s=7 TeV with the ATLAS detector", "abstract": "The dynamics of isolated-photon plus jet production in pp collisions at a centre-of-mass energy of 7 TeV has been studied with the ATLAS detector at the LHC using an integrated luminosity of 37 pb(-1)...", "citations": 41, "author_count": 2651, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 998, "doi": "10.1016/j.nuclphysb.2013.07.025", "umap_coordinates": { "x": 396.8583984375, "y": 134.32139587402344, "z": 207.51309204101562 }, "tsne_coordinates": { "x": -33.431480407714844, "y": 8.09891128540039, "z": -10.833564758300781 }, "pca_coordinates": { "x": -0.6202726364135742, "y": 0.10602092742919922, "z": 2.031829595565796 }, "axis_scores": { "Quantum imaging": 0.7049996852874756, "Quantum Life Science Sensing": 0.6850038766860962, "Quantum sensing Detection": 0.6931569576263428, "Quantum sensing Metrology": 0.6412403583526611, "Quantum sensing navigation": 0.6678228378295898, "Quantum sensing Position": 0.6657056212425232, "Quantum sensing Timing": 0.6815789341926575, "Quantum sensing": 0.6837526559829712, "Quantum control": 0.6580946445465088 } }, { "id": 999, "title": "QUANTUM NOISE PROPERTIES OF AN INJECTION-LOCKED LASER-OSCILLATOR WITH PUMP-NOISE SUPPRESSION AND SQUEEZED INJECTION", "abstract": "", "citations": 35, "author_count": 4, "categories": [ "Optics" ], "year": 1990, "topic": [ "all" ], "embedding_index": 999, "doi": "10.1103/PhysRevA.41.5053", "umap_coordinates": { "x": 394.8730773925781, "y": 135.11085510253906, "z": 207.65264892578125 }, "tsne_coordinates": { "x": -15.67270565032959, "y": -28.691436767578125, "z": -17.979446411132812 }, "pca_coordinates": { "x": 3.7367053031921387, "y": -0.4362921714782715, "z": 1.9839847087860107 }, "axis_scores": { "Quantum imaging": 0.7280744314193726, "Quantum Life Science Sensing": 0.7174959778785706, "Quantum sensing Detection": 0.7328615784645081, "Quantum sensing Metrology": 0.7204939723014832, "Quantum sensing navigation": 0.7437039613723755, "Quantum sensing Position": 0.7128379344940186, "Quantum sensing Timing": 0.6895037293434143, "Quantum sensing": 0.7432010173797607, "Quantum control": 0.7204965353012085 } }, { "id": 1000, "title": "Halide Perovskite Artificial Solids as a New Platform to Simulate Collective Phenomena in Doped Mott Insulators", "abstract": "The development of quantum simulators, artificial platforms where the predictions of many-body theories of correlated quantum materials can be tested in a controllable and tunable way, is one of the m...", "citations": 6, "author_count": 13, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1000, "doi": "10.1021/acs.nanolett.3c03715", "umap_coordinates": { "x": 391.8802490234375, "y": 134.48532104492188, "z": 206.1938018798828 }, "tsne_coordinates": { "x": 18.25779151916504, "y": -7.7382121086120605, "z": -20.1065731048584 }, "pca_coordinates": { "x": 0.5812733173370361, "y": -3.355297088623047, "z": -1.126913070678711 }, "axis_scores": { "Quantum imaging": 0.7096104025840759, "Quantum Life Science Sensing": 0.719403088092804, "Quantum sensing Detection": 0.6945652365684509, "Quantum sensing Metrology": 0.6930840611457825, "Quantum sensing navigation": 0.6953455805778503, "Quantum sensing Position": 0.6855494379997253, "Quantum sensing Timing": 0.6706163883209229, "Quantum sensing": 0.7112878561019897, "Quantum control": 0.6839720606803894 } }, { "id": 1001, "title": "Cross-sectional scanning tunneling microscopy studies of novel III-V semiconductor structures", "abstract": "In recent years, nanostructure technology involving Ill-V semiconductors have made significant progress in areas such as optoelectronics and spintronics. A number of new materials and nanostructures h...", "citations": 23, "author_count": 3, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1001, "doi": "10.1016/j.progsurf.2005.10.001", "umap_coordinates": { "x": 393.646484375, "y": 134.21937561035156, "z": 206.23863220214844 }, "tsne_coordinates": { "x": 27.011577606201172, "y": -3.9550044536590576, "z": 24.912235260009766 }, "pca_coordinates": { "x": -0.8682337999343872, "y": -0.4221806526184082, "z": 0.5433052182197571 }, "axis_scores": { "Quantum imaging": 0.7186993956565857, "Quantum Life Science Sensing": 0.7458783388137817, "Quantum sensing Detection": 0.6993034482002258, "Quantum sensing Metrology": 0.7098470330238342, "Quantum sensing navigation": 0.7124436497688293, "Quantum sensing Position": 0.6880588531494141, "Quantum sensing Timing": 0.663669764995575, "Quantum sensing": 0.7209479212760925, "Quantum control": 0.6833566427230835 } }, { "id": 1002, "title": "Detecting Majorana modes by readout of poisoning-induced parity flips", "abstract": "Reading out the parity degree of freedom of Majorana bound states is key to demonstrating their non-Abelian exchange properties. Here, we present a low-energy model describing localized edge states in...", "citations": 7, "author_count": 6, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1002, "doi": "10.1103/PhysRevB.107.L121401", "umap_coordinates": { "x": 395.4291076660156, "y": 136.0374755859375, "z": 207.78846740722656 }, "tsne_coordinates": { "x": -29.531139373779297, "y": -26.58161163330078, "z": 3.408170223236084 }, "pca_coordinates": { "x": 2.1806416511535645, "y": 0.7870750427246094, "z": 1.0299983024597168 }, "axis_scores": { "Quantum imaging": 0.7197867035865784, "Quantum Life Science Sensing": 0.7388079762458801, "Quantum sensing Detection": 0.7432745099067688, "Quantum sensing Metrology": 0.6983094811439514, "Quantum sensing navigation": 0.707030713558197, "Quantum sensing Position": 0.6940335035324097, "Quantum sensing Timing": 0.6797943115234375, "Quantum sensing": 0.7247684597969055, "Quantum control": 0.6737327575683594 } }, { "id": 1003, "title": "Excited States and Their Dynamics in CdSe Quantum Dots Studied by Two-Color 2D Spectroscopy", "abstract": "Quantum dots (QDs) form a promising family of nanomaterials for various applications in optoelectronics. Understanding the details of the excited-state dynamics in QDs is vital for optimizing their fu...", "citations": 13, "author_count": 9, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1003, "doi": "10.1021/acs.jpclett.1c04110", "umap_coordinates": { "x": 392.26171875, "y": 135.87828063964844, "z": 206.4224853515625 }, "tsne_coordinates": { "x": 11.088638305664062, "y": -0.7335224747657776, "z": 8.153812408447266 }, "pca_coordinates": { "x": -0.8403014540672302, "y": -3.0720839500427246, "z": -2.6789095401763916 }, "axis_scores": { "Quantum imaging": 0.7194427847862244, "Quantum Life Science Sensing": 0.7339134216308594, "Quantum sensing Detection": 0.716218113899231, "Quantum sensing Metrology": 0.6695463061332703, "Quantum sensing navigation": 0.6854084730148315, "Quantum sensing Position": 0.6773971915245056, "Quantum sensing Timing": 0.6990242600440979, "Quantum sensing": 0.7155482172966003, "Quantum control": 0.7024208307266235 } }, { "id": 1004, "title": "High Extraction Efficiency Source of Photon Pairs Based on a Quantum Dot Embedded in a Broadband Micropillar Cavity", "abstract": "The generation of photon pairs in quantum dots is in its nature deterministic. However, efficient extraction of photon pairs from the high index semiconductor material requires engineering of the phot...", "citations": 28, "author_count": 14, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1004, "doi": "10.1103/PhysRevLett.129.033601", "umap_coordinates": { "x": 394.63873291015625, "y": 134.80792236328125, "z": 207.87545776367188 }, "tsne_coordinates": { "x": -0.5540118217468262, "y": -21.931055068969727, "z": -10.142767906188965 }, "pca_coordinates": { "x": 2.452516555786133, "y": -2.614616870880127, "z": 2.7208688259124756 }, "axis_scores": { "Quantum imaging": 0.7236378192901611, "Quantum Life Science Sensing": 0.7258126139640808, "Quantum sensing Detection": 0.7397282719612122, "Quantum sensing Metrology": 0.708858847618103, "Quantum sensing navigation": 0.7000281810760498, "Quantum sensing Position": 0.6970974206924438, "Quantum sensing Timing": 0.702292799949646, "Quantum sensing": 0.7355688810348511, "Quantum control": 0.6797652244567871 } }, { "id": 1005, "title": "Parity independence of the zero-bias conductance peak in a nanowire based topological superconductor-quantum dot hybrid device", "abstract": "We explore the signatures of Majorana fermions in a nanowire based topological superconductor-quantum dot-topological superconductor hybrid device by charge transport measurements. At zero magnetic fi...", "citations": 82, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1005, "doi": "10.1038/srep07261", "umap_coordinates": { "x": 393.0301208496094, "y": 135.5614471435547, "z": 207.86866760253906 }, "tsne_coordinates": { "x": 12.633193016052246, "y": -15.760443687438965, "z": 3.961625099182129 }, "pca_coordinates": { "x": 1.716343641281128, "y": -2.0035128593444824, "z": 0.26917505264282227 }, "axis_scores": { "Quantum imaging": 0.6883289217948914, "Quantum Life Science Sensing": 0.6851574778556824, "Quantum sensing Detection": 0.6826872825622559, "Quantum sensing Metrology": 0.6640520095825195, "Quantum sensing navigation": 0.7055402994155884, "Quantum sensing Position": 0.6964387893676758, "Quantum sensing Timing": 0.6851293444633484, "Quantum sensing": 0.682188093662262, "Quantum control": 0.6569353342056274 } }, { "id": 1006, "title": "Compton Coincidence in Silicon Photon-Counting CT Detectors", "abstract": "Compton interactions amount to a significant fraction of the registered counts in a silicon detector. In a Compton interaction, only a part of the photon energy is deposited and a single incident phot...", "citations": 10, "author_count": 4, "categories": [ "Nuclear Medicine & Medical Imaging", "Radiology", "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1006, "doi": "10.1117/12.2581031", "umap_coordinates": { "x": 395.4393615722656, "y": 132.7438507080078, "z": 205.8223419189453 }, "tsne_coordinates": { "x": -9.952661514282227, "y": 17.54878044128418, "z": -22.044557571411133 }, "pca_coordinates": { "x": -0.3276292085647583, "y": 1.7388776540756226, "z": 4.589382648468018 }, "axis_scores": { "Quantum imaging": 0.728472888469696, "Quantum Life Science Sensing": 0.7084988355636597, "Quantum sensing Detection": 0.7366703152656555, "Quantum sensing Metrology": 0.7143020629882812, "Quantum sensing navigation": 0.7078759670257568, "Quantum sensing Position": 0.7031893730163574, "Quantum sensing Timing": 0.741868793964386, "Quantum sensing": 0.7203395366668701, "Quantum control": 0.6759211421012878 } }, { "id": 1007, "title": "Spin relaxation in semiconductor quantum rings and dots-a comparative study", "abstract": "We calculate spin relaxation times due to spin-orbit-mediated electron-phonon interactions for experimentally accessible semiconductor quantum ring and dot architectures. We elucidate the differences ...", "citations": 27, "author_count": 5, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1007, "doi": "10.1088/0953-8984/23/11/115302", "umap_coordinates": { "x": 393.2288513183594, "y": 135.67552185058594, "z": 207.4513702392578 }, "tsne_coordinates": { "x": 20.77050018310547, "y": -14.358630180358887, "z": 20.860652923583984 }, "pca_coordinates": { "x": 1.4723544120788574, "y": 0.0610506534576416, "z": -0.5021308660507202 }, "axis_scores": { "Quantum imaging": 0.7281280159950256, "Quantum Life Science Sensing": 0.7372374534606934, "Quantum sensing Detection": 0.7239813804626465, "Quantum sensing Metrology": 0.7151952385902405, "Quantum sensing navigation": 0.7207093238830566, "Quantum sensing Position": 0.7073038220405579, "Quantum sensing Timing": 0.7139925956726074, "Quantum sensing": 0.7366755604743958, "Quantum control": 0.7058252096176147 } }, { "id": 1008, "title": "Fock-state-lattice approach to quantum optics", "abstract": "We analyze a set of models frequently appearing in quantum optical settings by expressing their Hamiltonians in terms of Fock-state lattices (FSLs). The few degrees-of-freedom of such models, together...", "citations": 17, "author_count": 3, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1008, "doi": "10.1103/PhysRevA.108.033721", "umap_coordinates": { "x": 395.1336669921875, "y": 136.876708984375, "z": 207.9398193359375 }, "tsne_coordinates": { "x": -25.68128776550293, "y": -16.556928634643555, "z": 7.399662971496582 }, "pca_coordinates": { "x": 5.048178672790527, "y": 0.5815892219543457, "z": 0.1071772575378418 }, "axis_scores": { "Quantum imaging": 0.7347719073295593, "Quantum Life Science Sensing": 0.7377656102180481, "Quantum sensing Detection": 0.7339078783988953, "Quantum sensing Metrology": 0.722244381904602, "Quantum sensing navigation": 0.7506141662597656, "Quantum sensing Position": 0.7188737392425537, "Quantum sensing Timing": 0.676676869392395, "Quantum sensing": 0.7482621669769287, "Quantum control": 0.7142325639724731 } }, { "id": 1009, "title": "Gaussian conversion protocol for heralded generation of generalized Gottesman-Kitaev-Preskill states", "abstract": "In the field of fault-tolerant quantum computing, continuous-variable systems can be utilized to protect quantum information from noise through the use of bosonic codes. These codes map qubit-type qua...", "citations": 9, "author_count": 5, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1009, "doi": "10.1103/PhysRevA.108.012603", "umap_coordinates": { "x": 395.63153076171875, "y": 136.37472534179688, "z": 207.6651611328125 }, "tsne_coordinates": { "x": -28.487268447875977, "y": -16.051912307739258, "z": -5.784483432769775 }, "pca_coordinates": { "x": 2.4714183807373047, "y": 1.3268755674362183, "z": 0.7014581561088562 }, "axis_scores": { "Quantum imaging": 0.6842653155326843, "Quantum Life Science Sensing": 0.6820880174636841, "Quantum sensing Detection": 0.6712676286697388, "Quantum sensing Metrology": 0.6755497455596924, "Quantum sensing navigation": 0.6903172135353088, "Quantum sensing Position": 0.646001935005188, "Quantum sensing Timing": 0.6576842069625854, "Quantum sensing": 0.6947119235992432, "Quantum control": 0.68849778175354 } }, { "id": 1010, "title": "Observation of structure changes for Li/Cu(111) by photoemission from Li core and quantum-well states", "abstract": "Via photoemission from discrete quantum-well valence states and the Li 1s core level, three different types of atom rearrangements are observed for Cu(111)/Li. In the monolayer coverage range gradual ...", "citations": 9, "author_count": 6, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1010, "doi": "10.1103/PhysRevB.57.13192", "umap_coordinates": { "x": 393.8063049316406, "y": 135.442138671875, "z": 208.78968811035156 }, "tsne_coordinates": { "x": 11.828141212463379, "y": -43.1443977355957, "z": -2.198352813720703 }, "pca_coordinates": { "x": 2.2852063179016113, "y": -1.8078160285949707, "z": 0.4188545346260071 }, "axis_scores": { "Quantum imaging": 0.7201815247535706, "Quantum Life Science Sensing": 0.7443126440048218, "Quantum sensing Detection": 0.7232922315597534, "Quantum sensing Metrology": 0.6991544961929321, "Quantum sensing navigation": 0.7021247744560242, "Quantum sensing Position": 0.6911694407463074, "Quantum sensing Timing": 0.6608837842941284, "Quantum sensing": 0.7235425114631653, "Quantum control": 0.6940072178840637 } }, { "id": 1011, "title": "Multiphoton excitation of quantum dots by ultrashort and ultraintense laser pulses", "abstract": "Multiphoton optical processes in semiconductor quantum dots (QDs) excited by ultrafast (femtosecond) and ultraintense (GW/cm(2)) lasers are considered as the ultimate tags for cellular bioimaging. By ...", "citations": 16, "author_count": 5, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1011, "doi": "10.1063/1.2209209", "umap_coordinates": { "x": 393.4974060058594, "y": 133.61074829101562, "z": 207.58900451660156 }, "tsne_coordinates": { "x": 25.235448837280273, "y": -23.42101287841797, "z": -9.087828636169434 }, "pca_coordinates": { "x": 0.31037235260009766, "y": -3.9550719261169434, "z": 2.625337600708008 }, "axis_scores": { "Quantum imaging": 0.7526158094406128, "Quantum Life Science Sensing": 0.7562695741653442, "Quantum sensing Detection": 0.748803973197937, "Quantum sensing Metrology": 0.7341592311859131, "Quantum sensing navigation": 0.6938096880912781, "Quantum sensing Position": 0.6964766979217529, "Quantum sensing Timing": 0.7017809748649597, "Quantum sensing": 0.7586541175842285, "Quantum control": 0.6910495758056641 } }, { "id": 1012, "title": "Noise suppression in photon-counting computed tomography using unsupervised Poisson flow generative models", "abstract": "Deep learning (DL) has proven to be important for computed tomography (CT) image denoising. However, such models are usually trained under supervision, requiring paired data that may be difficult to o...", "citations": 3, "author_count": 8, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1012, "doi": "10.1186/s42492-024-00175-6", "umap_coordinates": { "x": 395.3898010253906, "y": 133.46417236328125, "z": 205.16409301757812 }, "tsne_coordinates": { "x": -1.8475255966186523, "y": 20.978931427001953, "z": -14.6824951171875 }, "pca_coordinates": { "x": -1.9020494222640991, "y": 3.157224655151367, "z": 2.5975914001464844 }, "axis_scores": { "Quantum imaging": 0.7284523844718933, "Quantum Life Science Sensing": 0.6843693256378174, "Quantum sensing Detection": 0.6951498985290527, "Quantum sensing Metrology": 0.6829620003700256, "Quantum sensing navigation": 0.7114689946174622, "Quantum sensing Position": 0.650611400604248, "Quantum sensing Timing": 0.6944184303283691, "Quantum sensing": 0.6943299770355225, "Quantum control": 0.6996154189109802 } }, { "id": 1013, "title": "Photoluminescence study of Si/Ge quantum dots", "abstract": "Ge quantum dots embedded in Si are studied by means of photoluminescence (PL). The temperature dependent PL measurements show two different types of recombination processes related to the quantum dots...", "citations": 20, "author_count": 6, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1013, "doi": "10.1016/S0039-6028(03)00461-8", "umap_coordinates": { "x": 393.083740234375, "y": 133.72482299804688, "z": 207.11093139648438 }, "tsne_coordinates": { "x": 40.635520935058594, "y": -3.66628098487854, "z": 1.1143163442611694 }, "pca_coordinates": { "x": -2.405061721801758, "y": -1.9239325523376465, "z": 1.1004464626312256 }, "axis_scores": { "Quantum imaging": 0.7066914439201355, "Quantum Life Science Sensing": 0.7386043071746826, "Quantum sensing Detection": 0.6987655758857727, "Quantum sensing Metrology": 0.678566575050354, "Quantum sensing navigation": 0.6831501722335815, "Quantum sensing Position": 0.7054471373558044, "Quantum sensing Timing": 0.6380497217178345, "Quantum sensing": 0.7038904428482056, "Quantum control": 0.658702552318573 } }, { "id": 1014, "title": "Highly transparent nickel and iron sulfide on nitrogen-doped carbon films as counter electrodes for bifacial quantum dot sensitized solar cells", "abstract": "Semiconductors are widely used as counter electrodes in quantum dot-sensitized solar cells. However, many counter electrode materials have poor conductivity and require tedious post-treatment procedur...", "citations": 20, "author_count": 6, "categories": [ "Energy & Fuels" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1014, "doi": "10.1016/j.solener.2019.10.023", "umap_coordinates": { "x": 392.71282958984375, "y": 133.44613647460938, "z": 205.33506774902344 }, "tsne_coordinates": { "x": 30.099706649780273, "y": 8.210278511047363, "z": -6.818079471588135 }, "pca_coordinates": { "x": -3.85406494140625, "y": -3.4885592460632324, "z": -0.4476195275783539 }, "axis_scores": { "Quantum imaging": 0.7006768584251404, "Quantum Life Science Sensing": 0.7173160910606384, "Quantum sensing Detection": 0.6976258754730225, "Quantum sensing Metrology": 0.6964715123176575, "Quantum sensing navigation": 0.6842629909515381, "Quantum sensing Position": 0.6755984425544739, "Quantum sensing Timing": 0.6574714183807373, "Quantum sensing": 0.7156434655189514, "Quantum control": 0.6815977096557617 } }, { "id": 1015, "title": "A new and versatile fluorescence standard for quantum yield determination", "abstract": "It is demonstrated that a new bichromophoric compound, N-2,N-3-[bis(1-hexylheptyl)-benzo[ghi]perylene-2,3,8,9,11,12-hexacarboxylic-2,3:8,9:11,12-tris(dicarboximide)]-N-1,N-1'-(1,2-ethyl)-[N-2'-(1-octy...", "citations": 50, "author_count": 5, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1015, "doi": "10.1039/b007671f", "umap_coordinates": { "x": 392.7035217285156, "y": 135.07330322265625, "z": 204.74026489257812 }, "tsne_coordinates": { "x": -3.790436267852783, "y": 9.722075462341309, "z": -3.1983580589294434 }, "pca_coordinates": { "x": -3.8040482997894287, "y": -0.39272594451904297, "z": 0.14044106006622314 }, "axis_scores": { "Quantum imaging": 0.6942998766899109, "Quantum Life Science Sensing": 0.7490642070770264, "Quantum sensing Detection": 0.7069534659385681, "Quantum sensing Metrology": 0.7110402584075928, "Quantum sensing navigation": 0.6898267865180969, "Quantum sensing Position": 0.6670367121696472, "Quantum sensing Timing": 0.6563035249710083, "Quantum sensing": 0.7191535234451294, "Quantum control": 0.6810598969459534 } }, { "id": 1016, "title": "Turning a hot spot into a cold spot: polarization-controlled Fano-shaped local-field responses probed by a quantum dot", "abstract": "Optical nanoantennas can convert propagating light to local fields. The local-field responses can be engineered to exhibit nontrivial features in spatial, spectral and temporal domains, where local-fi...", "citations": 16, "author_count": 9, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1016, "doi": "10.1038/s41377-020-00398-1", "umap_coordinates": { "x": 393.72357177734375, "y": 135.2512664794922, "z": 205.8317413330078 }, "tsne_coordinates": { "x": 10.574542045593262, "y": -7.347466468811035, "z": 13.754645347595215 }, "pca_coordinates": { "x": -1.9989488124847412, "y": -0.7349662780761719, "z": -0.624510645866394 }, "axis_scores": { "Quantum imaging": 0.7408640384674072, "Quantum Life Science Sensing": 0.7279003262519836, "Quantum sensing Detection": 0.7342015504837036, "Quantum sensing Metrology": 0.7083433866500854, "Quantum sensing navigation": 0.7244523167610168, "Quantum sensing Position": 0.7237066030502319, "Quantum sensing Timing": 0.7015387415885925, "Quantum sensing": 0.747408390045166, "Quantum control": 0.736844003200531 } }, { "id": 1017, "title": "Mn2+ intra-shell recombination in bulk and quantum dots of II-VI compounds", "abstract": "Origin of a fast component of the photoluminescence (PL) decay of Mn2+ intra-shell T-4(1) --> (6)A(1) transition in bulk and quantum dot structures is discussed based on the results of PL, PL kinetics...", "citations": 24, "author_count": 7, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1017, "doi": "10.1016/S0925-8388(02)00088-9", "umap_coordinates": { "x": 392.419189453125, "y": 134.83753967285156, "z": 207.21372985839844 }, "tsne_coordinates": { "x": 27.806602478027344, "y": -3.021045446395874, "z": 8.928211212158203 }, "pca_coordinates": { "x": -2.0606656074523926, "y": -2.2245407104492188, "z": -1.9659337997436523 }, "axis_scores": { "Quantum imaging": 0.7049023509025574, "Quantum Life Science Sensing": 0.6980844736099243, "Quantum sensing Detection": 0.6758144497871399, "Quantum sensing Metrology": 0.6796777844429016, "Quantum sensing navigation": 0.6758232712745667, "Quantum sensing Position": 0.6664384603500366, "Quantum sensing Timing": 0.6523132920265198, "Quantum sensing": 0.6862815022468567, "Quantum control": 0.6482283473014832 } }, { "id": 1018, "title": "Quantum Nondemolition Detection of a Propagating Microwave Photon", "abstract": "The ability to nondestructively detect the presence of a single, traveling photon has been a long-standing goal in optics, with applications in quantum information and measurement. Realizing such a de...", "citations": 95, "author_count": 9, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1018, "doi": "10.1103/PhysRevLett.112.093601", "umap_coordinates": { "x": 395.4960021972656, "y": 135.5523223876953, "z": 207.84030151367188 }, "tsne_coordinates": { "x": -13.910858154296875, "y": -22.595474243164062, "z": -6.787298679351807 }, "pca_coordinates": { "x": 4.02672815322876, "y": 0.08700227737426758, "z": 2.50563907623291 }, "axis_scores": { "Quantum imaging": 0.7543900609016418, "Quantum Life Science Sensing": 0.7783006429672241, "Quantum sensing Detection": 0.8000525832176208, "Quantum sensing Metrology": 0.7602291703224182, "Quantum sensing navigation": 0.7738483548164368, "Quantum sensing Position": 0.7539912462234497, "Quantum sensing Timing": 0.7312198281288147, "Quantum sensing": 0.778449535369873, "Quantum control": 0.7106702923774719 } }, { "id": 1019, "title": "Experimental Fully Contextual Correlations", "abstract": "Quantum correlations are contextual yet, in general, nothing prevents the existence of even more contextual correlations. We identify and test a noncontextuality inequality in which the quantum violat...", "citations": 55, "author_count": 7, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1019, "doi": "10.1103/PhysRevLett.108.200405", "umap_coordinates": { "x": 395.7286682128906, "y": 136.69815063476562, "z": 207.57647705078125 }, "tsne_coordinates": { "x": -19.670520782470703, "y": 0.10804859548807144, "z": 5.62183952331543 }, "pca_coordinates": { "x": 3.828423023223877, "y": 3.4979372024536133, "z": 1.1050593852996826 }, "axis_scores": { "Quantum imaging": 0.7489371299743652, "Quantum Life Science Sensing": 0.7373887300491333, "Quantum sensing Detection": 0.7329543232917786, "Quantum sensing Metrology": 0.7202085256576538, "Quantum sensing navigation": 0.7479607462882996, "Quantum sensing Position": 0.7253926396369934, "Quantum sensing Timing": 0.7465212345123291, "Quantum sensing": 0.756505012512207, "Quantum control": 0.721138596534729 } }, { "id": 1020, "title": "Polaron effects in quantum dots", "abstract": "Based on the polaron effect, we have provided a theoretical explanation for the photoluminescence (PL) spectra of a single InP/GaInP quantum dot, the characteristic features of which are a set of equa...", "citations": 27, "author_count": 4, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1020, "doi": "10.1103/PhysRevLett.83.4884", "umap_coordinates": { "x": 393.8995056152344, "y": 135.11903381347656, "z": 208.5764923095703 }, "tsne_coordinates": { "x": 8.593439102172852, "y": -26.274173736572266, "z": 3.184391736984253 }, "pca_coordinates": { "x": 3.5725278854370117, "y": -3.087778091430664, "z": -0.1636149287223816 }, "axis_scores": { "Quantum imaging": 0.7546050548553467, "Quantum Life Science Sensing": 0.7407191395759583, "Quantum sensing Detection": 0.7426673173904419, "Quantum sensing Metrology": 0.7179725766181946, "Quantum sensing navigation": 0.7363014817237854, "Quantum sensing Position": 0.733879029750824, "Quantum sensing Timing": 0.7159429788589478, "Quantum sensing": 0.7560793161392212, "Quantum control": 0.7210237979888916 } }, { "id": 1021, "title": "From coupled-wire construction of quantum Hall states to wave functions and hydrodynamics", "abstract": "In this paper we use a close connection between the coupled-wire construction (CWC) of Abelian quantum Hall states and the theory of composite bosons to extract the Laughlin wave function and the hydr...", "citations": 16, "author_count": 4, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1021, "doi": "10.1103/PhysRevB.100.125148", "umap_coordinates": { "x": 394.47467041015625, "y": 137.36660766601562, "z": 208.2510528564453 }, "tsne_coordinates": { "x": -17.433366775512695, "y": -32.6646728515625, "z": 5.755299091339111 }, "pca_coordinates": { "x": 4.489835262298584, "y": 0.5797581672668457, "z": -0.8668904304504395 }, "axis_scores": { "Quantum imaging": 0.7163161039352417, "Quantum Life Science Sensing": 0.7126060724258423, "Quantum sensing Detection": 0.7110873460769653, "Quantum sensing Metrology": 0.6915571689605713, "Quantum sensing navigation": 0.7351431250572205, "Quantum sensing Position": 0.6810888648033142, "Quantum sensing Timing": 0.6813916563987732, "Quantum sensing": 0.7274760007858276, "Quantum control": 0.72771817445755 } }, { "id": 1022, "title": "High-Performance Inverted Perovskite Quantum Dot Light-Emitting Diodes Enabled by Dual Synergistic Interfacial Passivation", "abstract": "Inverted perovskite quantum dot light-emitting diodes (Pe-QLEDs) hold significant promise for next-generation displays due to their compatibility with n-type thin-film transistor-driven active-matrix ...", "citations": 1, "author_count": 10, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1022, "doi": "10.1002/anie.202506002", "umap_coordinates": { "x": 392.1830139160156, "y": 133.52056884765625, "z": 205.3806610107422 }, "tsne_coordinates": { "x": 24.908340454101562, "y": 4.862627029418945, "z": -21.666473388671875 }, "pca_coordinates": { "x": -2.842764139175415, "y": -4.146281719207764, "z": 1.6393976211547852 }, "axis_scores": { "Quantum imaging": 0.7278633713722229, "Quantum Life Science Sensing": 0.6830951571464539, "Quantum sensing Detection": 0.6922627091407776, "Quantum sensing Metrology": 0.6779817938804626, "Quantum sensing navigation": 0.6726588010787964, "Quantum sensing Position": 0.6423159837722778, "Quantum sensing Timing": 0.6612760424613953, "Quantum sensing": 0.707964301109314, "Quantum control": 0.6763430833816528 } }, { "id": 1023, "title": "Parametrizations of density matrices", "abstract": "This article gives a brief overview of some recent progress in the characterization and parametrization of density matrices of finite dimensional systems. We discuss in some detail the Bloch-vector an...", "citations": 44, "author_count": 5, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1023, "doi": "10.1080/09500340.2011.632097", "umap_coordinates": { "x": 394.5069580078125, "y": 137.46246337890625, "z": 206.61610412597656 }, "tsne_coordinates": { "x": -22.88238525390625, "y": -6.510406970977783, "z": 13.535778999328613 }, "pca_coordinates": { "x": 0.6421823501586914, "y": 3.5131020545959473, "z": -1.4898556470870972 }, "axis_scores": { "Quantum imaging": 0.724590539932251, "Quantum Life Science Sensing": 0.6939136981964111, "Quantum sensing Detection": 0.6865434646606445, "Quantum sensing Metrology": 0.683932900428772, "Quantum sensing navigation": 0.7087717056274414, "Quantum sensing Position": 0.6906977891921997, "Quantum sensing Timing": 0.6649644374847412, "Quantum sensing": 0.7011264562606812, "Quantum control": 0.7065436244010925 } }, { "id": 1024, "title": "Phase-sensitive two-dimensional heteronuclear zero- and double-quantum-coherence spectroscopy", "abstract": "New pulse sequences for two-dimensional phase-sensitive detection of heteronuclear zero- and double-quantum coherence are presented for use with and without pulsed field gradients. The magnetization i...", "citations": 13, "author_count": 3, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1024, "doi": "10.1006/jmrb.1996.0137", "umap_coordinates": { "x": 392.8870849609375, "y": 136.5469207763672, "z": 206.60186767578125 }, "tsne_coordinates": { "x": 17.215789794921875, "y": 5.759237289428711, "z": 32.78207015991211 }, "pca_coordinates": { "x": -0.15284883975982666, "y": 0.6742322444915771, "z": -0.2377089560031891 }, "axis_scores": { "Quantum imaging": 0.7846472859382629, "Quantum Life Science Sensing": 0.7922258377075195, "Quantum sensing Detection": 0.7670053243637085, "Quantum sensing Metrology": 0.7613980174064636, "Quantum sensing navigation": 0.7546010613441467, "Quantum sensing Position": 0.7329141497612, "Quantum sensing Timing": 0.7280753254890442, "Quantum sensing": 0.7817152142524719, "Quantum control": 0.7437743544578552 } }, { "id": 1025, "title": "ON THE RELATIONSHIP BETWEEN THE QUANTUM YIELD OF PHOTOSYSTEM-II ELECTRON-TRANSPORT, AS DETERMINED BY CHLOROPHYLL FLUORESCENCE AND THE QUANTUM YIELD OF CO2-DEPENDENT O-2 EVOLUTION", "abstract": "We tested the two empirical models of the relationship between chlorophyll fluorescence and photosynthesis, previously published by Weis E and Berry JA 1987 (Biochim Biophys Acta 894: 198-208) and Gen...", "citations": 96, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1992, "topic": [ "all" ], "embedding_index": 1025, "doi": "10.1007/BF00032982", "umap_coordinates": { "x": 394.1024169921875, "y": 136.65562438964844, "z": 204.14697265625 }, "tsne_coordinates": { "x": 5.219367504119873, "y": 28.8630428314209, "z": 8.682302474975586 }, "pca_coordinates": { "x": -1.417973279953003, "y": 1.224752426147461, "z": -2.32181453704834 }, "axis_scores": { "Quantum imaging": 0.6848052144050598, "Quantum Life Science Sensing": 0.7157617211341858, "Quantum sensing Detection": 0.6769683361053467, "Quantum sensing Metrology": 0.6683827638626099, "Quantum sensing navigation": 0.6779533624649048, "Quantum sensing Position": 0.664269745349884, "Quantum sensing Timing": 0.6366876363754272, "Quantum sensing": 0.6943296194076538, "Quantum control": 0.6965488791465759 } }, { "id": 1026, "title": "Quantum measurement in charge representation", "abstract": "Counting statistics of charge transfers in a point contact interacting with an arbitrary quantum system is studied. The theory for the charge specific density matrix is developed, allowing the evaluat...", "citations": 28, "author_count": 4, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1026, "doi": "10.1103/PhysRevB.70.115327", "umap_coordinates": { "x": 394.9257507324219, "y": 136.7025909423828, "z": 208.2880401611328 }, "tsne_coordinates": { "x": -25.39225196838379, "y": -18.131196975708008, "z": 0.9697811007499695 }, "pca_coordinates": { "x": 5.120213985443115, "y": 0.5445109605789185, "z": -0.6249811053276062 }, "axis_scores": { "Quantum imaging": 0.7533444762229919, "Quantum Life Science Sensing": 0.7709675431251526, "Quantum sensing Detection": 0.7795485854148865, "Quantum sensing Metrology": 0.7632363438606262, "Quantum sensing navigation": 0.7675592303276062, "Quantum sensing Position": 0.7672088742256165, "Quantum sensing Timing": 0.7347655296325684, "Quantum sensing": 0.7830630540847778, "Quantum control": 0.7510077357292175 } }, { "id": 1027, "title": "Technological implementation of a photonic Bier-Glas cavity", "abstract": "In this paper, we introduce a quantum photonic device, which we term the photonic Bier-Glas cavity. We discuss its fabrication and functionality, which is based on the coupling of integrated In(Ga)As ...", "citations": 2, "author_count": 9, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1027, "doi": "10.1103/PhysRevMaterials.5.064603", "umap_coordinates": { "x": 395.0245056152344, "y": 135.9093017578125, "z": 207.5623016357422 }, "tsne_coordinates": { "x": -19.532405853271484, "y": -31.877904891967773, "z": -10.476447105407715 }, "pca_coordinates": { "x": 0.9376592636108398, "y": -0.7033061981201172, "z": 1.6956188678741455 }, "axis_scores": { "Quantum imaging": 0.734713613986969, "Quantum Life Science Sensing": 0.7483444809913635, "Quantum sensing Detection": 0.7259321808815002, "Quantum sensing Metrology": 0.7318280935287476, "Quantum sensing navigation": 0.7215951085090637, "Quantum sensing Position": 0.7248023152351379, "Quantum sensing Timing": 0.7158535122871399, "Quantum sensing": 0.7405369281768799, "Quantum control": 0.6777635812759399 } }, { "id": 1028, "title": "Self-testing nonprojective quantum measurements in prepare-and-measure experiments", "abstract": "Self-testing represents the strongest form of certification of a quantum system. Here, we theoretically and experimentally investigate self-testing of nonprojective quantum measurements. That is, how ...", "citations": 76, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1028, "doi": "10.1126/sciadv.aaw6664", "umap_coordinates": { "x": 395.62469482421875, "y": 135.99197387695312, "z": 206.74110412597656 }, "tsne_coordinates": { "x": -13.192327499389648, "y": -1.777364730834961, "z": 3.770036220550537 }, "pca_coordinates": { "x": 0.7885596752166748, "y": 1.8881179094314575, "z": 2.917306423187256 }, "axis_scores": { "Quantum imaging": 0.736817479133606, "Quantum Life Science Sensing": 0.7515742182731628, "Quantum sensing Detection": 0.7391434907913208, "Quantum sensing Metrology": 0.7504810094833374, "Quantum sensing navigation": 0.7535143494606018, "Quantum sensing Position": 0.7306205034255981, "Quantum sensing Timing": 0.7045730948448181, "Quantum sensing": 0.7523846626281738, "Quantum control": 0.7202898859977722 } }, { "id": 1029, "title": "Classification of Energy Levels in Quantum Dot Structures by Depleted Layer Spectroscopy", "abstract": "The coexistence of quantum confined energy levels and defect energy levels in quantum dot (QD) structures may cause difficulties in distinguishing between their different origin when using deep-level ...", "citations": 9, "author_count": 4, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1029, "doi": "10.1007/s11664-010-1125-4", "umap_coordinates": { "x": 393.0734558105469, "y": 134.90736389160156, "z": 207.69325256347656 }, "tsne_coordinates": { "x": 18.865093231201172, "y": 2.9804904460906982, "z": 13.566258430480957 }, "pca_coordinates": { "x": 0.46796929836273193, "y": -2.1887850761413574, "z": 0.0767856240272522 }, "axis_scores": { "Quantum imaging": 0.6861024498939514, "Quantum Life Science Sensing": 0.7121434211730957, "Quantum sensing Detection": 0.6930544376373291, "Quantum sensing Metrology": 0.6911889910697937, "Quantum sensing navigation": 0.6915107369422913, "Quantum sensing Position": 0.688142716884613, "Quantum sensing Timing": 0.6555342674255371, "Quantum sensing": 0.6951444149017334, "Quantum control": 0.6575426459312439 } }, { "id": 1030, "title": "Post-Measurement Adjustment of the Coincidence Window in Quantum Optics Experiments", "abstract": "We report on an electronic coincidence detection circuit for quantum photonic applications implemented on a field-programmable gate array (FPGA), which records each the time separation between detecti...", "citations": 1, "author_count": 8, "categories": [ "Computer Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1030, "doi": "10.1109/ACCESS.2021.3093371", "umap_coordinates": { "x": 395.5806884765625, "y": 135.51551818847656, "z": 206.5269317626953 }, "tsne_coordinates": { "x": 3.3239519596099854, "y": 3.5673975944519043, "z": -41.02766418457031 }, "pca_coordinates": { "x": 0.7535655498504639, "y": 3.286121129989624, "z": 2.646550178527832 }, "axis_scores": { "Quantum imaging": 0.7414578795433044, "Quantum Life Science Sensing": 0.7471880316734314, "Quantum sensing Detection": 0.7661872506141663, "Quantum sensing Metrology": 0.756804347038269, "Quantum sensing navigation": 0.7520350217819214, "Quantum sensing Position": 0.7516660094261169, "Quantum sensing Timing": 0.7956181764602661, "Quantum sensing": 0.7615642547607422, "Quantum control": 0.729046642780304 } }, { "id": 1031, "title": "Tunneling spectroscopy of a quantum dot through a single impurity", "abstract": "A single impurity inside a resonant tunneling diode is used to perform tunneling spectroscopy on an adjacent electrostatically defined vertical quantum dot. This results in tunneling between two zero-...", "citations": 8, "author_count": 5, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1031, "doi": "10.1103/PhysRevB.68.033312", "umap_coordinates": { "x": 394.2579345703125, "y": 134.66212463378906, "z": 209.0099334716797 }, "tsne_coordinates": { "x": 3.3105883598327637, "y": -28.973236083984375, "z": -9.712556838989258 }, "pca_coordinates": { "x": 5.012401103973389, "y": -2.8318166732788086, "z": 1.8915624618530273 }, "axis_scores": { "Quantum imaging": 0.7331972718238831, "Quantum Life Science Sensing": 0.7394487261772156, "Quantum sensing Detection": 0.7441683411598206, "Quantum sensing Metrology": 0.7334670424461365, "Quantum sensing navigation": 0.7454938888549805, "Quantum sensing Position": 0.6994633674621582, "Quantum sensing Timing": 0.6847062706947327, "Quantum sensing": 0.747649610042572, "Quantum control": 0.6972901225090027 } }, { "id": 1032, "title": "The information of ambiguity", "abstract": "The phase space characteristics of a quantum state are best captured by the Wigner distribution. This displays transparently the diagonality information of the density matrix. The complementary functi...", "citations": 1, "author_count": 4, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1032, "doi": "10.1080/09500340903003321", "umap_coordinates": { "x": 395.5492858886719, "y": 136.14476013183594, "z": 205.65309143066406 }, "tsne_coordinates": { "x": -37.372657775878906, "y": 0.551210343837738, "z": 7.113485813140869 }, "pca_coordinates": { "x": -0.7305830121040344, "y": 4.555083274841309, "z": 0.049283623695373535 }, "axis_scores": { "Quantum imaging": 0.7344967126846313, "Quantum Life Science Sensing": 0.7382471561431885, "Quantum sensing Detection": 0.7307863235473633, "Quantum sensing Metrology": 0.7170364856719971, "Quantum sensing navigation": 0.7407395839691162, "Quantum sensing Position": 0.7258671522140503, "Quantum sensing Timing": 0.7081312537193298, "Quantum sensing": 0.7357735633850098, "Quantum control": 0.7121268510818481 } }, { "id": 1033, "title": "Advances in Symmetry-Based Pulse Sequences in Magic-Angle Spinning Solid-State NMR", "abstract": "We review the recent progress in symmetry-based pulse sequences suitable for recoupling and decoupling purposes under magic-angle spinning conditions. The basic average Hamiltonian theory of the pulse...", "citations": 24, "author_count": 2, "categories": [ "Spectroscopy" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1033, "doi": "10.1002/9780470034590.emrstm1326", "umap_coordinates": { "x": 392.75030517578125, "y": 137.15097045898438, "z": 206.99522399902344 }, "tsne_coordinates": { "x": 10.213981628417969, "y": 0.4312264919281006, "z": 31.058712005615234 }, "pca_coordinates": { "x": -0.9741328954696655, "y": 2.5310988426208496, "z": -0.6703137755393982 }, "axis_scores": { "Quantum imaging": 0.6635512113571167, "Quantum Life Science Sensing": 0.6449822783470154, "Quantum sensing Detection": 0.6134515404701233, "Quantum sensing Metrology": 0.6562252640724182, "Quantum sensing navigation": 0.6643728613853455, "Quantum sensing Position": 0.6656440496444702, "Quantum sensing Timing": 0.6798073053359985, "Quantum sensing": 0.637783408164978, "Quantum control": 0.6246135234832764 } }, { "id": 1034, "title": "Effects of separate carrier generation on the emission properties of InAs/GaAs quantum dots", "abstract": "Individual quantum dots have been studied by means of microphotoluminescence with dual-laser excitation. The additional infrared laser influences the dot charge configuration and increases the dot lum...", "citations": 24, "author_count": 8, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1034, "doi": "10.1021/nl050926a", "umap_coordinates": { "x": 392.61956787109375, "y": 133.7948760986328, "z": 207.52767944335938 }, "tsne_coordinates": { "x": 35.83799743652344, "y": 0.21993331611156464, "z": 4.3597517013549805 }, "pca_coordinates": { "x": -1.2752615213394165, "y": -4.429924488067627, "z": 0.11000686883926392 }, "axis_scores": { "Quantum imaging": 0.679419994354248, "Quantum Life Science Sensing": 0.6951632499694824, "Quantum sensing Detection": 0.6838552951812744, "Quantum sensing Metrology": 0.6535564064979553, "Quantum sensing navigation": 0.6679037809371948, "Quantum sensing Position": 0.6611049175262451, "Quantum sensing Timing": 0.6509016752243042, "Quantum sensing": 0.6921997666358948, "Quantum control": 0.6651620268821716 } }, { "id": 1035, "title": "Covalently linking CuInS2 quantum dots with a Re catalyst by click reaction for photocatalytic CO2 reduction", "abstract": "Covalently linking photosensitizers and catalysts in an inorganic-organic hybrid photocatalytic system is beneficial for efficient electron transfer between these components. However, general and stra...", "citations": 50, "author_count": 10, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1035, "doi": "10.1039/c8dt01631c", "umap_coordinates": { "x": 391.76214599609375, "y": 134.67120361328125, "z": 204.97103881835938 }, "tsne_coordinates": { "x": 15.369897842407227, "y": 3.5889647006988525, "z": -3.282947063446045 }, "pca_coordinates": { "x": -3.109320640563965, "y": -1.9723081588745117, "z": -0.4124397039413452 }, "axis_scores": { "Quantum imaging": 0.670822024345398, "Quantum Life Science Sensing": 0.6915379166603088, "Quantum sensing Detection": 0.6832755208015442, "Quantum sensing Metrology": 0.6671024560928345, "Quantum sensing navigation": 0.6741414070129395, "Quantum sensing Position": 0.654880940914154, "Quantum sensing Timing": 0.6828975677490234, "Quantum sensing": 0.6871813535690308, "Quantum control": 0.6856693029403687 } }, { "id": 1036, "title": "Experimental demonstration of three mutually orthogonal polarization states of entangled photons", "abstract": "Linearly polarized classical light can be expressed in a vertical and a horizontal component. Geometrically rotating vertically polarized light by 90 degrees will convert it to the orthogonal horizont...", "citations": 53, "author_count": 9, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1036, "doi": "10.1103/PhysRevLett.85.5013", "umap_coordinates": { "x": 395.7180480957031, "y": 135.9378662109375, "z": 207.85621643066406 }, "tsne_coordinates": { "x": -17.658466339111328, "y": -9.229702949523926, "z": -3.145554542541504 }, "pca_coordinates": { "x": 3.9202046394348145, "y": 0.3522813320159912, "z": 3.1317830085754395 }, "axis_scores": { "Quantum imaging": 0.7569867372512817, "Quantum Life Science Sensing": 0.7497113943099976, "Quantum sensing Detection": 0.7643553614616394, "Quantum sensing Metrology": 0.7417869567871094, "Quantum sensing navigation": 0.7439404129981995, "Quantum sensing Position": 0.7226388454437256, "Quantum sensing Timing": 0.7065039873123169, "Quantum sensing": 0.763185441493988, "Quantum control": 0.6966354846954346 } }, { "id": 1037, "title": "Highly luminescent garnets for magneto-optical photonic crystals", "abstract": "We compare luminescent properties of several Er-doped garnets as building blocks in all-garnet heteroepitaxial magneto-optical photonic crystals. Pulsed laser deposited La3Ga5O12, Gd3Ga5O12, Y3Fe5O12,...", "citations": 15, "author_count": 3, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1037, "doi": "10.1063/1.3224204", "umap_coordinates": { "x": 393.3525085449219, "y": 133.55039978027344, "z": 206.96865844726562 }, "tsne_coordinates": { "x": 15.959689140319824, "y": -24.935741424560547, "z": -16.87122917175293 }, "pca_coordinates": { "x": -0.7453969717025757, "y": -2.6042866706848145, "z": 0.784900963306427 }, "axis_scores": { "Quantum imaging": 0.7222627997398376, "Quantum Life Science Sensing": 0.7150396704673767, "Quantum sensing Detection": 0.7044769525527954, "Quantum sensing Metrology": 0.7282293438911438, "Quantum sensing navigation": 0.6942402720451355, "Quantum sensing Position": 0.6527439951896667, "Quantum sensing Timing": 0.6508324146270752, "Quantum sensing": 0.7229443788528442, "Quantum control": 0.685387909412384 } }, { "id": 1038, "title": "Highly Stabilized Quantum Dot Ink for Efficient Infrared Light Absorbing Solar Cells", "abstract": "Liquid-state ligand exchange provides an efficient approach to passivate a quantum dot (QD) surface with small binding species and achieve a QD ink toward scalable QD solar cell (QDSC) production. Her...", "citations": 75, "author_count": 12, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1038, "doi": "10.1002/aenm.201902809", "umap_coordinates": { "x": 392.2568664550781, "y": 133.46559143066406, "z": 205.38632202148438 }, "tsne_coordinates": { "x": 25.45853042602539, "y": 1.794618010520935, "z": -16.69186019897461 }, "pca_coordinates": { "x": -3.5784289836883545, "y": -4.708816051483154, "z": -0.23540550470352173 }, "axis_scores": { "Quantum imaging": 0.6935412883758545, "Quantum Life Science Sensing": 0.7083115577697754, "Quantum sensing Detection": 0.6808595657348633, "Quantum sensing Metrology": 0.6811425685882568, "Quantum sensing navigation": 0.6684073805809021, "Quantum sensing Position": 0.6649625897407532, "Quantum sensing Timing": 0.6489569544792175, "Quantum sensing": 0.6977436542510986, "Quantum control": 0.6841241717338562 } }, { "id": 1039, "title": "Comprehension of the Effect of a Hydroxyl Group in Ancillary Ligand on Phosphorescent Property for Heteroleptic Ir(III) Complexes: A Computational Study Using Quantitative Prediction", "abstract": "A new Ir(III) complex (dfpypya)(2)Ir(pic-OH) (2) is theoretically designed by introduction of a simple hydroxyl group into the ancillary ligand on the basis of (dfpypya)(2)Ir(pic) (1) with the aim to ...", "citations": 48, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1039, "doi": "10.1021/acs.inorgchem.7b00946", "umap_coordinates": { "x": 392.4093933105469, "y": 136.55142211914062, "z": 204.98196411132812 }, "tsne_coordinates": { "x": 10.501153945922852, "y": 9.841294288635254, "z": -3.962151527404785 }, "pca_coordinates": { "x": -3.2631945610046387, "y": 1.0884134769439697, "z": -2.039445400238037 }, "axis_scores": { "Quantum imaging": 0.7256392240524292, "Quantum Life Science Sensing": 0.7116299867630005, "Quantum sensing Detection": 0.6913852095603943, "Quantum sensing Metrology": 0.686992883682251, "Quantum sensing navigation": 0.6846286058425903, "Quantum sensing Position": 0.6634263396263123, "Quantum sensing Timing": 0.6739802956581116, "Quantum sensing": 0.714143693447113, "Quantum control": 0.6986764669418335 } }, { "id": 1040, "title": "Multi-electron donation promotes the photocatalytic conversion of carbon dioxide to methane in a covalent bonded metal-complex/quantum dots hybrid catalyst", "abstract": "Multi-electron donation remains a challenge for CO2 photocatalytic conversion to multi-electron products due to the efficient Auger recombination or annihilation at multiple excitation conditions for ...", "citations": 1, "author_count": 19, "categories": [ "Engineering" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1040, "doi": "10.1016/j.cej.2025.167651", "umap_coordinates": { "x": 392.4480285644531, "y": 134.72613525390625, "z": 205.36009216308594 }, "tsne_coordinates": { "x": 21.899641036987305, "y": 8.66474437713623, "z": -4.352104663848877 }, "pca_coordinates": { "x": -1.0911469459533691, "y": -1.6448945999145508, "z": -1.2637968063354492 }, "axis_scores": { "Quantum imaging": 0.72110915184021, "Quantum Life Science Sensing": 0.7131759524345398, "Quantum sensing Detection": 0.717860758304596, "Quantum sensing Metrology": 0.710456907749176, "Quantum sensing navigation": 0.7003024220466614, "Quantum sensing Position": 0.6878130435943604, "Quantum sensing Timing": 0.6647202372550964, "Quantum sensing": 0.7311603426933289, "Quantum control": 0.725044310092926 } }, { "id": 1041, "title": "Trapped Rydberg ions: A new platform for quantum information processing", "abstract": "In this chapter, we present an overview of experiments with trapped Rydberg ions and outline the advantages and challenges of developing applications of this new platform for quantum computing, sensin...", "citations": 19, "author_count": 4, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1041, "doi": "10.1016/bs.aamop.2020.04.004", "umap_coordinates": { "x": 394.61492919921875, "y": 135.31918334960938, "z": 205.642333984375 }, "tsne_coordinates": { "x": -11.184978485107422, "y": 13.278657913208008, "z": 10.36148738861084 }, "pca_coordinates": { "x": -1.5524417161941528, "y": 0.1749577522277832, "z": -0.6177144050598145 }, "axis_scores": { "Quantum imaging": 0.7523138523101807, "Quantum Life Science Sensing": 0.7646158337593079, "Quantum sensing Detection": 0.7540544867515564, "Quantum sensing Metrology": 0.7391515374183655, "Quantum sensing navigation": 0.7515267729759216, "Quantum sensing Position": 0.7506109476089478, "Quantum sensing Timing": 0.7335420846939087, "Quantum sensing": 0.7639992237091064, "Quantum control": 0.7247998118400574 } }, { "id": 1042, "title": "Highly directional bottom-up 3D nanoantenna for visible light", "abstract": "Controlling light at the nanoscale is of fundamental importance and is essential for applications ranging from optical sensing and metrology to information processing, communications, and quantum opti...", "citations": 21, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1042, "doi": "10.1038/srep02311", "umap_coordinates": { "x": 393.26641845703125, "y": 133.69412231445312, "z": 205.8462371826172 }, "tsne_coordinates": { "x": 11.883105278015137, "y": -20.24172019958496, "z": -21.22392463684082 }, "pca_coordinates": { "x": -3.337465763092041, "y": -2.6696057319641113, "z": 1.002835750579834 }, "axis_scores": { "Quantum imaging": 0.7239201068878174, "Quantum Life Science Sensing": 0.7242803573608398, "Quantum sensing Detection": 0.7063551545143127, "Quantum sensing Metrology": 0.7096439003944397, "Quantum sensing navigation": 0.7393035292625427, "Quantum sensing Position": 0.6920011043548584, "Quantum sensing Timing": 0.6492174863815308, "Quantum sensing": 0.7273714542388916, "Quantum control": 0.6924751400947571 } }, { "id": 1043, "title": "Quantum-like dynamics of decision-making", "abstract": "In cognitive psychology, some experiments for games were reported, and they demonstrated that real players did not use the rational strategy provided by classical game theory and based on the notion o...", "citations": 55, "author_count": 6, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1043, "doi": "10.1016/j.physa.2011.11.042", "umap_coordinates": { "x": 394.79315185546875, "y": 137.5010223388672, "z": 206.1721649169922 }, "tsne_coordinates": { "x": -23.39203643798828, "y": 10.055983543395996, "z": 19.840473175048828 }, "pca_coordinates": { "x": 2.533714532852173, "y": 3.2738213539123535, "z": -1.9757046699523926 }, "axis_scores": { "Quantum imaging": 0.7732272744178772, "Quantum Life Science Sensing": 0.7874724268913269, "Quantum sensing Detection": 0.7781321406364441, "Quantum sensing Metrology": 0.7526341676712036, "Quantum sensing navigation": 0.7908303141593933, "Quantum sensing Position": 0.7516977787017822, "Quantum sensing Timing": 0.7428538203239441, "Quantum sensing": 0.7926691770553589, "Quantum control": 0.7891391515731812 } }, { "id": 1044, "title": "Optimising uniformity of InAs/(InGaAs)/GaAs quantum dots grown by metal organic vapor phase epitaxy", "abstract": "A route towards optimisation of uniformity and density of InAs/(InGaAs)/GaAs quantum dots grown by metal organic vapor phase epitaxy (MOVPE) through successive variations of the growth parameters is r...", "citations": 27, "author_count": 7, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1044, "doi": "10.1016/j.apsusc.2005.12.128", "umap_coordinates": { "x": 392.9028625488281, "y": 133.65853881835938, "z": 206.9716796875 }, "tsne_coordinates": { "x": 34.07164764404297, "y": -8.376791000366211, "z": 11.039814949035645 }, "pca_coordinates": { "x": -1.5729446411132812, "y": -2.0541605949401855, "z": 2.036445140838623 }, "axis_scores": { "Quantum imaging": 0.7354699373245239, "Quantum Life Science Sensing": 0.7263121008872986, "Quantum sensing Detection": 0.7256085872650146, "Quantum sensing Metrology": 0.7416694164276123, "Quantum sensing navigation": 0.7298715114593506, "Quantum sensing Position": 0.736582338809967, "Quantum sensing Timing": 0.721648097038269, "Quantum sensing": 0.7439054846763611, "Quantum control": 0.7259011268615723 } }, { "id": 1045, "title": "Gigahertz repetition rate mode-locked Yb:KYW laser using self-assembled quantum dot saturable absorber", "abstract": "Fundamental mode-locking is achieved in a 1.036 GHz cavity using a semiconductor quantum dot saturable absorber mirror with a fast relaxation time component of down to 550 fs. The dispersive cavity de...", "citations": 5, "author_count": 7, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1045, "doi": "10.1007/s00340-013-5375-8", "umap_coordinates": { "x": 393.1478271484375, "y": 134.5507049560547, "z": 206.62091064453125 }, "tsne_coordinates": { "x": 16.71790313720703, "y": 2.9789371490478516, "z": 17.26157569885254 }, "pca_coordinates": { "x": -0.717972457408905, "y": -1.3267242908477783, "z": 0.8077580332756042 }, "axis_scores": { "Quantum imaging": 0.6939679980278015, "Quantum Life Science Sensing": 0.7167563438415527, "Quantum sensing Detection": 0.6890713572502136, "Quantum sensing Metrology": 0.6952822208404541, "Quantum sensing navigation": 0.7004446387290955, "Quantum sensing Position": 0.6652037501335144, "Quantum sensing Timing": 0.6513352990150452, "Quantum sensing": 0.6992059350013733, "Quantum control": 0.6833850145339966 } }, { "id": 1046, "title": "A highly tunable lateral quantum dot realized in InGaAs/InP by an etching technique", "abstract": "We report on the realization of a quantum dot in a modulation doped InGaAs/InP heterostructure by electron beam lithography and chemical wet etching. Using etched trench defined in-plane gates and a l...", "citations": 13, "author_count": 4, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1046, "doi": "10.1063/1.2905239", "umap_coordinates": { "x": 392.94696044921875, "y": 134.01693725585938, "z": 208.1642608642578 }, "tsne_coordinates": { "x": 30.422826766967773, "y": -20.859203338623047, "z": 5.846923828125 }, "pca_coordinates": { "x": 0.5543118715286255, "y": -4.119802951812744, "z": 2.587634325027466 }, "axis_scores": { "Quantum imaging": 0.7381393313407898, "Quantum Life Science Sensing": 0.708580493927002, "Quantum sensing Detection": 0.7288925647735596, "Quantum sensing Metrology": 0.726719081401825, "Quantum sensing navigation": 0.7286180257797241, "Quantum sensing Position": 0.7132235169410706, "Quantum sensing Timing": 0.6939070820808411, "Quantum sensing": 0.7419098019599915, "Quantum control": 0.7093160152435303 } }, { "id": 1047, "title": "Adiabatic transfer between cavity modes", "abstract": "The idea of counter-intuitive transfer is taken over from atomic systems to a two-mode Jaynes-Cummings model with degenerate mode frequencies. We show that an arbitrary photon state can be transferred...", "citations": 18, "author_count": 4, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1047, "doi": "10.1080/09500340010013743", "umap_coordinates": { "x": 394.732421875, "y": 136.4592742919922, "z": 206.3070831298828 }, "tsne_coordinates": { "x": -14.826644897460938, "y": 5.335230350494385, "z": 10.931719779968262 }, "pca_coordinates": { "x": 1.5952215194702148, "y": 2.7086129188537598, "z": 0.6119977831840515 }, "axis_scores": { "Quantum imaging": 0.6876351237297058, "Quantum Life Science Sensing": 0.678459882736206, "Quantum sensing Detection": 0.6748436093330383, "Quantum sensing Metrology": 0.6713500618934631, "Quantum sensing navigation": 0.6779552698135376, "Quantum sensing Position": 0.6498597860336304, "Quantum sensing Timing": 0.658798098564148, "Quantum sensing": 0.6895092725753784, "Quantum control": 0.6841522455215454 } }, { "id": 1048, "title": "Security of quantum key distribution using d-level systems -: art. no. 127902", "abstract": "We consider two quantum cryptographic schemes relying on encoding the key into qudits, i.e., quantum states in a d-dimensional Hilbert space. The first cryptosystem uses two mutually unbiased bases (t...", "citations": 1190, "author_count": 5, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1048, "doi": "10.1103/PhysRevLett.88.127902", "umap_coordinates": { "x": 395.7059020996094, "y": 135.9140167236328, "z": 207.86753845214844 }, "tsne_coordinates": { "x": -30.364606857299805, "y": -11.569541931152344, "z": 1.3035773038864136 }, "pca_coordinates": { "x": 4.489924430847168, "y": 0.974261999130249, "z": 1.0077714920043945 }, "axis_scores": { "Quantum imaging": 0.7440406084060669, "Quantum Life Science Sensing": 0.7495236396789551, "Quantum sensing Detection": 0.7479572296142578, "Quantum sensing Metrology": 0.7323728799819946, "Quantum sensing navigation": 0.7404552698135376, "Quantum sensing Position": 0.7216699123382568, "Quantum sensing Timing": 0.7208850979804993, "Quantum sensing": 0.7519280910491943, "Quantum control": 0.733731210231781 } }, { "id": 1049, "title": "On the interpretation of quantum mechanical weak values", "abstract": "After a brief review of how quantum mechanical weak measurements plus post-selection give rise to the weak value concept, I criticize an interpretation of a weak value as any sort of straightforward, ...", "citations": 9, "author_count": 2, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1049, "doi": "10.1088/0031-8949/2014/T163/014025", "umap_coordinates": { "x": 395.4755859375, "y": 137.05374145507812, "z": 206.66822814941406 }, "tsne_coordinates": { "x": -26.002887725830078, "y": -3.8327627182006836, "z": 7.1049885749816895 }, "pca_coordinates": { "x": 2.660874843597412, "y": 4.683700084686279, "z": -1.0829176902770996 }, "axis_scores": { "Quantum imaging": 0.7173835635185242, "Quantum Life Science Sensing": 0.7406586408615112, "Quantum sensing Detection": 0.7233060002326965, "Quantum sensing Metrology": 0.7100360989570618, "Quantum sensing navigation": 0.7240861654281616, "Quantum sensing Position": 0.7236603498458862, "Quantum sensing Timing": 0.701585590839386, "Quantum sensing": 0.735139787197113, "Quantum control": 0.7005890607833862 } }, { "id": 1050, "title": "Dry-Deposited Transparent Carbon Nanotube Film as Front Electrode in Colloidal Quantum Dot Solar Cells", "abstract": "Single-walled carbon nanotubes (SWCNTs) show great potential as an alternative material for front electrodes in photovoltaic applications, especially for flexible devices. In this work, a press-transf...", "citations": 21, "author_count": 9, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1050, "doi": "10.1002/cssc.201601254", "umap_coordinates": { "x": 392.5467834472656, "y": 133.54898071289062, "z": 205.62643432617188 }, "tsne_coordinates": { "x": 32.54866409301758, "y": 6.779658317565918, "z": -6.242640018463135 }, "pca_coordinates": { "x": -3.039584159851074, "y": -3.7419748306274414, "z": -0.9009546637535095 }, "axis_scores": { "Quantum imaging": 0.6711418628692627, "Quantum Life Science Sensing": 0.7294213175773621, "Quantum sensing Detection": 0.6929696798324585, "Quantum sensing Metrology": 0.6743993759155273, "Quantum sensing navigation": 0.6921048164367676, "Quantum sensing Position": 0.6859351992607117, "Quantum sensing Timing": 0.6699320077896118, "Quantum sensing": 0.7034083008766174, "Quantum control": 0.6945146918296814 } }, { "id": 1051, "title": "A heavy metal-free CuInS2 quantum dot sensitized NiO photocathode with a Re molecular catalyst for photoelectrochemical CO2 reduction", "abstract": "Heavy metal-free CuInS2 quantum dots (QDs) were employed as a photosensitizer on a NiO photocathode to drive an immobilized molecular Re catalyst for photoelectrochemical CO2 reduction for the first t...", "citations": 30, "author_count": 9, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1051, "doi": "10.1039/c9cc04222a", "umap_coordinates": { "x": 391.7243957519531, "y": 134.42381286621094, "z": 204.94398498535156 }, "tsne_coordinates": { "x": 15.760011672973633, "y": 3.8940231800079346, "z": -3.4802653789520264 }, "pca_coordinates": { "x": -2.2368476390838623, "y": -1.9892444610595703, "z": -1.6282684803009033 }, "axis_scores": { "Quantum imaging": 0.6754646897315979, "Quantum Life Science Sensing": 0.6916442513465881, "Quantum sensing Detection": 0.6684812307357788, "Quantum sensing Metrology": 0.6514113545417786, "Quantum sensing navigation": 0.6487563848495483, "Quantum sensing Position": 0.6179914474487305, "Quantum sensing Timing": 0.620700478553772, "Quantum sensing": 0.6804981231689453, "Quantum control": 0.6651679277420044 } }, { "id": 1052, "title": "Progress in self-assembled single-molecule electronic devices", "abstract": "Recent years have seen progress in several areas regarding single molecule electronic devices. A number of interesting structure-property relationships have been observed, including vibronic effects, ...", "citations": 44, "author_count": 4, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1052, "doi": "10.1039/c3tc31483a", "umap_coordinates": { "x": 393.7969055175781, "y": 134.12432861328125, "z": 207.4501495361328 }, "tsne_coordinates": { "x": 8.285930633544922, "y": -27.152189254760742, "z": -18.97694969177246 }, "pca_coordinates": { "x": -0.0006237030029296875, "y": -3.958024501800537, "z": -1.8200130462646484 }, "axis_scores": { "Quantum imaging": 0.6710145473480225, "Quantum Life Science Sensing": 0.7056683897972107, "Quantum sensing Detection": 0.6764412522315979, "Quantum sensing Metrology": 0.6797385215759277, "Quantum sensing navigation": 0.6773190498352051, "Quantum sensing Position": 0.6733976006507874, "Quantum sensing Timing": 0.6567511558532715, "Quantum sensing": 0.6917803883552551, "Quantum control": 0.6881510019302368 } }, { "id": 1053, "title": "Quantum dots-in-a-well infrared photodetectors for long wavelength infrared detection", "abstract": "We report on a quantum dots-in-a-well infrared photodetector (DWELL QDIP) grown by metal organic vapor phase epitaxy. The DWELL QDIP consisted of ten stacked InAs/In0.15Ga0.85As/GaAs QD layers embedde...", "citations": 5, "author_count": 15, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1053, "doi": "10.1117/12.690010", "umap_coordinates": { "x": 394.014404296875, "y": 133.3756561279297, "z": 206.3675079345703 }, "tsne_coordinates": { "x": 3.3903026580810547, "y": 5.841195106506348, "z": -26.31648063659668 }, "pca_coordinates": { "x": -1.6448134183883667, "y": -3.114838123321533, "z": 2.9804224967956543 }, "axis_scores": { "Quantum imaging": 0.7309471368789673, "Quantum Life Science Sensing": 0.7514004111289978, "Quantum sensing Detection": 0.748649537563324, "Quantum sensing Metrology": 0.725745677947998, "Quantum sensing navigation": 0.7176998853683472, "Quantum sensing Position": 0.7106801867485046, "Quantum sensing Timing": 0.7103899121284485, "Quantum sensing": 0.74886554479599, "Quantum control": 0.6750775575637817 } }, { "id": 1054, "title": "Kinetic Monte Carlo study of metal organic chemical vapor deposition growth mechanism of GaSb quantum dots", "abstract": "The growth dynamics of self-assembled GaSb quantum dots (QDs) on GaAs substrate in the strain-induced Stranski-Krastanov mode was investigated using kinetic Monte Carlo method. The strain induced by t...", "citations": 21, "author_count": 3, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1054, "doi": "10.1063/1.2981515", "umap_coordinates": { "x": 393.4900817871094, "y": 136.78334045410156, "z": 206.9263916015625 }, "tsne_coordinates": { "x": 23.850027084350586, "y": -21.448354721069336, "z": 1.7881314754486084 }, "pca_coordinates": { "x": 1.5271978378295898, "y": -1.6239376068115234, "z": -0.8843174576759338 }, "axis_scores": { "Quantum imaging": 0.7307684421539307, "Quantum Life Science Sensing": 0.7502131462097168, "Quantum sensing Detection": 0.7445284128189087, "Quantum sensing Metrology": 0.7331807613372803, "Quantum sensing navigation": 0.7328838109970093, "Quantum sensing Position": 0.7103959918022156, "Quantum sensing Timing": 0.7089020609855652, "Quantum sensing": 0.7481248378753662, "Quantum control": 0.7227609157562256 } }, { "id": 1055, "title": "Luminescent Magneto-Optical Photonic Crystals", "abstract": "We compare luminescent properties of several Er-doped garnet films as building blocks in all-garnet heteroepitaxial magneto-optical photonic crystals: La3Ga5O12, Gd3Ga5O12, Y3Fe5O12, Bi3Fe5O12, and Bi...", "citations": 7, "author_count": 3, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1055, "doi": "10.1088/1742-6596/352/1/012007", "umap_coordinates": { "x": 394.4232177734375, "y": 134.5262451171875, "z": 206.2989501953125 }, "tsne_coordinates": { "x": -12.435304641723633, "y": -4.666718006134033, "z": -19.325862884521484 }, "pca_coordinates": { "x": -0.5842997431755066, "y": 0.17092609405517578, "z": 1.0544235706329346 }, "axis_scores": { "Quantum imaging": 0.74465012550354, "Quantum Life Science Sensing": 0.7318522930145264, "Quantum sensing Detection": 0.7232776880264282, "Quantum sensing Metrology": 0.7343552112579346, "Quantum sensing navigation": 0.7211940884590149, "Quantum sensing Position": 0.6980336904525757, "Quantum sensing Timing": 0.6927593946456909, "Quantum sensing": 0.740195631980896, "Quantum control": 0.7125528454780579 } }, { "id": 1056, "title": "A Spectroelectrochemical Method for Locating Fluorescence Trap States in Nanoparticles and Quantum Dots", "abstract": "We here devise an electrochemical method for determining the absolute energetic position of trap levels involved in fluorescence. The method utilizes potentiostatic control of the Fermi level in the m...", "citations": 23, "author_count": 3, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1056, "doi": "10.1021/jp311905t", "umap_coordinates": { "x": 392.30340576171875, "y": 135.5658416748047, "z": 205.08119201660156 }, "tsne_coordinates": { "x": 5.988166332244873, "y": 4.273526191711426, "z": -17.410106658935547 }, "pca_coordinates": { "x": -2.3428845405578613, "y": -2.7206530570983887, "z": -1.254140019416809 }, "axis_scores": { "Quantum imaging": 0.7055867314338684, "Quantum Life Science Sensing": 0.7338757514953613, "Quantum sensing Detection": 0.7195467352867126, "Quantum sensing Metrology": 0.7102838158607483, "Quantum sensing navigation": 0.7170654535293579, "Quantum sensing Position": 0.7296282052993774, "Quantum sensing Timing": 0.7219327688217163, "Quantum sensing": 0.723222553730011, "Quantum control": 0.6760532259941101 } }, { "id": 1057, "title": "Size-Dependent Non-FRET Photoluminescence Quenching in Nanocomposites Based on Semiconductor Quantum Dots CdSe/ZnS and Functionalized Porphyrin Ligands", "abstract": "We review recent experimental work to utilize the size dependence of the luminescence quenching of colloidal semiconductor quantum dots induced by functionalized porphyrin molecules attached to the su...", "citations": 24, "author_count": 5, "categories": [ "Spectroscopy" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1057, "doi": "10.1155/2012/971791", "umap_coordinates": { "x": 392.9007873535156, "y": 134.1529998779297, "z": 206.02462768554688 }, "tsne_coordinates": { "x": 30.3426570892334, "y": -2.0386786460876465, "z": -5.29353141784668 }, "pca_coordinates": { "x": -2.8149867057800293, "y": -2.0022459030151367, "z": 0.8116551041603088 }, "axis_scores": { "Quantum imaging": 0.7224568128585815, "Quantum Life Science Sensing": 0.7363304495811462, "Quantum sensing Detection": 0.7117887735366821, "Quantum sensing Metrology": 0.69410640001297, "Quantum sensing navigation": 0.6813449263572693, "Quantum sensing Position": 0.6891992092132568, "Quantum sensing Timing": 0.6882321834564209, "Quantum sensing": 0.7215399742126465, "Quantum control": 0.6944979429244995 } }, { "id": 1058, "title": "Charge-photon transport statistics and short-time correlations in a single quantum dot-resonator system with an arbitrarily large coupling parameter", "abstract": "Electrical quantum conductors coupled to microwave resonators have in the last decade emerged as a versatile test bed for controllable light-matter interaction on the nanometer scale. Recent experimen...", "citations": 7, "author_count": 3, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1059, "doi": "10.1103/PhysRevB.100.035408", "umap_coordinates": { "x": 394.5752258300781, "y": 134.2847900390625, "z": 208.32139587402344 }, "tsne_coordinates": { "x": -0.9579737782478333, "y": -25.31196403503418, "z": -13.447324752807617 }, "pca_coordinates": { "x": 3.588958263397217, "y": -2.2074484825134277, "z": 2.313218832015991 }, "axis_scores": { "Quantum imaging": 0.7314596176147461, "Quantum Life Science Sensing": 0.7642053365707397, "Quantum sensing Detection": 0.7593756914138794, "Quantum sensing Metrology": 0.7344704270362854, "Quantum sensing navigation": 0.7483823299407959, "Quantum sensing Position": 0.7226271629333496, "Quantum sensing Timing": 0.7386988997459412, "Quantum sensing": 0.7627808451652527, "Quantum control": 0.7149840593338013 } }, { "id": 1059, "title": "Comment on Kondo resonance in a mesoscopic ring coupled to a quantum dot: Exact results for the Aharonov-Bohm-Casher effects - Reply", "abstract": "", "citations": 10, "author_count": 4, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1060, "doi": "10.1103/PhysRevLett.88.139702", "umap_coordinates": { "x": 394.8457336425781, "y": 135.9800262451172, "z": 208.63661193847656 }, "tsne_coordinates": { "x": -1.900633692741394, "y": -20.064085006713867, "z": -3.9656238555908203 }, "pca_coordinates": { "x": 4.097683429718018, "y": 0.46711277961730957, "z": -1.2967371940612793 }, "axis_scores": { "Quantum imaging": 0.6781350374221802, "Quantum Life Science Sensing": 0.716602087020874, "Quantum sensing Detection": 0.6973879933357239, "Quantum sensing Metrology": 0.6952975988388062, "Quantum sensing navigation": 0.6857178807258606, "Quantum sensing Position": 0.6870980262756348, "Quantum sensing Timing": 0.6915347576141357, "Quantum sensing": 0.7081515192985535, "Quantum control": 0.6899330615997314 } }, { "id": 1060, "title": "Majorana Qubits and Non-Abelian Physics in Quantum Dot-Based Minimal Kitaev Chains", "abstract": "The possibility of engineering artificial Kitaev chains in arrays of quantum dots coupled via narrow superconducting regions has emerged as an attractive way to overcome the disorder issues that compl...", "citations": 60, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1061, "doi": "10.1103/PRXQuantum.5.010323", "umap_coordinates": { "x": 395.4241027832031, "y": 137.32122802734375, "z": 208.10015869140625 }, "tsne_coordinates": { "x": -31.195838928222656, "y": -25.451210021972656, "z": 7.943594932556152 }, "pca_coordinates": { "x": 3.6855359077453613, "y": 0.9373700618743896, "z": -0.5380528569221497 }, "axis_scores": { "Quantum imaging": 0.7180198431015015, "Quantum Life Science Sensing": 0.7091339826583862, "Quantum sensing Detection": 0.7176939845085144, "Quantum sensing Metrology": 0.7204229831695557, "Quantum sensing navigation": 0.7219035625457764, "Quantum sensing Position": 0.6997852325439453, "Quantum sensing Timing": 0.6763325333595276, "Quantum sensing": 0.7240238785743713, "Quantum control": 0.7112392783164978 } }, { "id": 1061, "title": "Multiple electron capture and photon emission of slow highly charged Taq+ ions in collisions with He and Xe", "abstract": "Multiple electron capture and photon emission in slow (velocity v similar to 0.3 au) collisions by highly charged Taq+(q = 41-49) projectile ions and atomic targets of He and Xe were investigated. The...", "citations": 5, "author_count": 4, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1062, "doi": "10.1088/0953-4075/37/16/002", "umap_coordinates": { "x": 395.15521240234375, "y": 134.8591766357422, "z": 206.88397216796875 }, "tsne_coordinates": { "x": -1.9303542375564575, "y": -2.2380239963531494, "z": 18.255826950073242 }, "pca_coordinates": { "x": -0.6444015502929688, "y": 1.0074487924575806, "z": 1.6976604461669922 }, "axis_scores": { "Quantum imaging": 0.6835435032844543, "Quantum Life Science Sensing": 0.6827205419540405, "Quantum sensing Detection": 0.6708812713623047, "Quantum sensing Metrology": 0.6347474455833435, "Quantum sensing navigation": 0.6426914930343628, "Quantum sensing Position": 0.6405752897262573, "Quantum sensing Timing": 0.6569698452949524, "Quantum sensing": 0.6691252589225769, "Quantum control": 0.6371543407440186 } }, { "id": 1062, "title": "Visible-to-visible four-photon ultrahigh resolution microscopic imaging with 730-nm diode laser excited nanocrystals", "abstract": "Further development of multiphoton microscopic imaging is confronted with a number of limitations, including high-cost, high complexity and relatively low spatial resolution due to the long excitation...", "citations": 30, "author_count": 7, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1063, "doi": "10.1364/OE.24.00A302", "umap_coordinates": { "x": 394.188232421875, "y": 133.87646484375, "z": 206.0025177001953 }, "tsne_coordinates": { "x": 9.453695297241211, "y": 18.59912872314453, "z": -25.798553466796875 }, "pca_coordinates": { "x": -1.9848313331604004, "y": -1.2503488063812256, "z": 2.9042136669158936 }, "axis_scores": { "Quantum imaging": 0.7613693475723267, "Quantum Life Science Sensing": 0.7073186039924622, "Quantum sensing Detection": 0.7111388444900513, "Quantum sensing Metrology": 0.6923417448997498, "Quantum sensing navigation": 0.7015382051467896, "Quantum sensing Position": 0.6719047427177429, "Quantum sensing Timing": 0.6808359622955322, "Quantum sensing": 0.7246560454368591, "Quantum control": 0.6891684532165527 } }, { "id": 1063, "title": "Transport and interaction blockade of cold bosonic atoms in a triple-well potential", "abstract": "We theoretically investigate the transport properties of cold bosonic atoms in a quasi-one-dimensional (1D) triple-well potential that consists of two large outer wells, which act as microscopic sourc...", "citations": 25, "author_count": 5, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1064, "doi": "10.1088/1367-2630/12/6/065020", "umap_coordinates": { "x": 394.1241760253906, "y": 135.7885284423828, "z": 208.13966369628906 }, "tsne_coordinates": { "x": 15.252787590026855, "y": -20.658573150634766, "z": 18.81090545654297 }, "pca_coordinates": { "x": 3.2615694999694824, "y": -0.08274579048156738, "z": 0.9582584500312805 }, "axis_scores": { "Quantum imaging": 0.7325684428215027, "Quantum Life Science Sensing": 0.6936590075492859, "Quantum sensing Detection": 0.6996901035308838, "Quantum sensing Metrology": 0.6834737658500671, "Quantum sensing navigation": 0.7149053812026978, "Quantum sensing Position": 0.6892847418785095, "Quantum sensing Timing": 0.7171216011047363, "Quantum sensing": 0.7160584926605225, "Quantum control": 0.7103447914123535 } }, { "id": 1064, "title": "Optical modulation of photoluminescence in carbon quantum dots using diarylethene molecular photoswitches [Invited]", "abstract": "Modulating photoluminescent (PL) materials is crucial for applications such as super-resolution microscopy. The combination of PL materials and photoswitches can achieve this aim by utilizing isomeriz...", "citations": 3, "author_count": 7, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1065, "doi": "10.3788/COL202523.021601", "umap_coordinates": { "x": 392.3760070800781, "y": 135.35252380371094, "z": 205.4197998046875 }, "tsne_coordinates": { "x": 3.1975481510162354, "y": 2.4826290607452393, "z": -7.961575508117676 }, "pca_coordinates": { "x": -1.4848487377166748, "y": -1.0547423362731934, "z": -0.40382012724876404 }, "axis_scores": { "Quantum imaging": 0.6850559711456299, "Quantum Life Science Sensing": 0.7000385522842407, "Quantum sensing Detection": 0.6821785569190979, "Quantum sensing Metrology": 0.6575923562049866, "Quantum sensing navigation": 0.6705427765846252, "Quantum sensing Position": 0.6613127589225769, "Quantum sensing Timing": 0.6662124991416931, "Quantum sensing": 0.6892683506011963, "Quantum control": 0.7013269662857056 } }, { "id": 1065, "title": "Solution and solid-state fluorescence emission from cyanostyrene molecules with multiple nitrogen atoms", "abstract": "A design strategy has been proposed to utilize structure-driven solution and solid-state fluorescence emission of polynitrogen atoms. The strategy uses benzimidazole as the electron donor and pyridine...", "citations": 2, "author_count": 7, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1066, "doi": "10.1039/d4cp03297g", "umap_coordinates": { "x": 392.5631408691406, "y": 135.33067321777344, "z": 205.49322509765625 }, "tsne_coordinates": { "x": 10.360052108764648, "y": 8.239428520202637, "z": -8.411215782165527 }, "pca_coordinates": { "x": -1.9211697578430176, "y": -1.062939167022705, "z": -0.11885398626327515 }, "axis_scores": { "Quantum imaging": 0.7138233184814453, "Quantum Life Science Sensing": 0.7129756212234497, "Quantum sensing Detection": 0.7052313089370728, "Quantum sensing Metrology": 0.6772645711898804, "Quantum sensing navigation": 0.6937436461448669, "Quantum sensing Position": 0.6742393970489502, "Quantum sensing Timing": 0.6637913584709167, "Quantum sensing": 0.7067196369171143, "Quantum control": 0.6843571066856384 } }, { "id": 1066, "title": "Molecular Dynamics and Quantum Chemistry Study on Conformations and Optical Properties of Hydrogen Bonded Dipolar Merocyanine Dyes", "abstract": "An earlier proposed strategy to orient two merocyanine dyes in the desirable head-to-tail parallel fashion through multiple hydrogen bonds has been examined by molecular dynamics simulations and quant...", "citations": 12, "author_count": 4, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1067, "doi": "10.1021/jp900864b", "umap_coordinates": { "x": 392.740234375, "y": 136.7267303466797, "z": 205.85426330566406 }, "tsne_coordinates": { "x": -0.4645473062992096, "y": 3.7025644779205322, "z": -0.47630774974823 }, "pca_coordinates": { "x": 0.4371908903121948, "y": -0.3545074462890625, "z": -4.028953552246094 }, "axis_scores": { "Quantum imaging": 0.6939440965652466, "Quantum Life Science Sensing": 0.7145523428916931, "Quantum sensing Detection": 0.6720461249351501, "Quantum sensing Metrology": 0.6665288805961609, "Quantum sensing navigation": 0.6760432124137878, "Quantum sensing Position": 0.6691086888313293, "Quantum sensing Timing": 0.6504995226860046, "Quantum sensing": 0.6861801743507385, "Quantum control": 0.6794048547744751 } }, { "id": 1067, "title": "Interface effects in type-II CdSe/BeTe quantum dots", "abstract": "We report on optical and structural studies of the interface symmetry in CdSe/BeTe multiple-layer structures containing self-assembled quantum dots. Temperature and decay behavior of the broad photolu...", "citations": 7, "author_count": 14, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1068, "doi": "10.1002/1521-3951(200201)229:1<489::AID-PSSB489>3.0.CO;2-P", "umap_coordinates": { "x": 392.51873779296875, "y": 134.48431396484375, "z": 206.92312622070312 }, "tsne_coordinates": { "x": 30.275651931762695, "y": -0.7249487638473511, "z": 15.942329406738281 }, "pca_coordinates": { "x": -1.1061270236968994, "y": -1.7335357666015625, "z": -1.6559213399887085 }, "axis_scores": { "Quantum imaging": 0.7108721137046814, "Quantum Life Science Sensing": 0.7076968550682068, "Quantum sensing Detection": 0.6978325247764587, "Quantum sensing Metrology": 0.681128203868866, "Quantum sensing navigation": 0.6840083599090576, "Quantum sensing Position": 0.6826691627502441, "Quantum sensing Timing": 0.6892275214195251, "Quantum sensing": 0.7107622027397156, "Quantum control": 0.6999251842498779 } }, { "id": 1068, "title": "Transient transport spectroscopy of an interacting quantum dot proximized by a superconductor: Charge and heat currents after a switch", "abstract": "We analyze the time evolution of a quantum dot which is proximized by a large-gap superconductor and weakly probed using the charge and heat currents into a wide-band metal electrode. We map out the f...", "citations": 4, "author_count": 4, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1069, "doi": "10.1103/PhysRevB.108.085426", "umap_coordinates": { "x": 394.6325988769531, "y": 136.04071044921875, "z": 208.72389221191406 }, "tsne_coordinates": { "x": -8.318968772888184, "y": -11.906790733337402, "z": 35.07344436645508 }, "pca_coordinates": { "x": 3.4061455726623535, "y": -1.1571083068847656, "z": -0.15138202905654907 }, "axis_scores": { "Quantum imaging": 0.6889177560806274, "Quantum Life Science Sensing": 0.706288754940033, "Quantum sensing Detection": 0.6974159479141235, "Quantum sensing Metrology": 0.6653935313224792, "Quantum sensing navigation": 0.6752577424049377, "Quantum sensing Position": 0.67584228515625, "Quantum sensing Timing": 0.6893424987792969, "Quantum sensing": 0.7030530571937561, "Quantum control": 0.661102294921875 } }, { "id": 1069, "title": "Floquet dynamical quantum phase transitions under synchronized periodic driving", "abstract": "We study a generic class of fermionic two-band models under synchronized periodic driving, i.e., with the different terms in a Hamiltonian subject to periodic drives with the same frequency and phase....", "citations": 45, "author_count": 5, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1070, "doi": "10.1103/PhysRevB.105.094311", "umap_coordinates": { "x": 394.860107421875, "y": 136.58795166015625, "z": 208.56158447265625 }, "tsne_coordinates": { "x": -14.818960189819336, "y": -19.380693435668945, "z": 13.033016204833984 }, "pca_coordinates": { "x": 5.613576412200928, "y": -0.8389508724212646, "z": -0.6186283826828003 }, "axis_scores": { "Quantum imaging": 0.7352386116981506, "Quantum Life Science Sensing": 0.7471939325332642, "Quantum sensing Detection": 0.7451283931732178, "Quantum sensing Metrology": 0.7398988008499146, "Quantum sensing navigation": 0.7479084730148315, "Quantum sensing Position": 0.7130118012428284, "Quantum sensing Timing": 0.742385745048523, "Quantum sensing": 0.7504230737686157, "Quantum control": 0.7595101594924927 } }, { "id": 1070, "title": "Thiol-Anchored TIPS-Tetracene Ligands with Quantitative Triplet Energy Transfer to PbS Quantum Dots and Improved Thermal Stability", "abstract": "Triplet energy transfer between inorganic quantum dots (QDs) and organic materials plays a fundamental role in many optoelectronic applications based on these nanocomposites. Attaching organic molecul...", "citations": 21, "author_count": 10, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1071, "doi": "10.1021/acs.jpclett.0c02031", "umap_coordinates": { "x": 391.46142578125, "y": 134.56027221679688, "z": 205.0603790283203 }, "tsne_coordinates": { "x": 23.06308364868164, "y": -7.1081085205078125, "z": -29.609573364257812 }, "pca_coordinates": { "x": -3.600703477859497, "y": -3.4868698120117188, "z": -0.8889888525009155 }, "axis_scores": { "Quantum imaging": 0.6678555607795715, "Quantum Life Science Sensing": 0.6759310364723206, "Quantum sensing Detection": 0.6553851366043091, "Quantum sensing Metrology": 0.6441725492477417, "Quantum sensing navigation": 0.6545724272727966, "Quantum sensing Position": 0.6599976420402527, "Quantum sensing Timing": 0.6678074598312378, "Quantum sensing": 0.666049063205719, "Quantum control": 0.665886640548706 } }, { "id": 1071, "title": "Measurement of yCP in D0-(D)over-bar0 oscillation using quantum correlations in e+e- → D0(D)over-bar0 at √s=3.773 GeV", "abstract": "We report a measurement of the parameter y(CP) in D-0-(D) over bar (0) oscillations performed by taking advantage of quantum coherence between pairs of D-0(D) over bar (0) mesons produced in e(+)e(-) ...", "citations": 25, "author_count": 411, "categories": [ "Astronomy & Astrophysics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1072, "doi": "10.1016/j.physletb.2015.04.008", "umap_coordinates": { "x": 396.5051574707031, "y": 134.8903045654297, "z": 207.06396484375 }, "tsne_coordinates": { "x": -26.8094425201416, "y": 4.996119499206543, "z": -11.82390308380127 }, "pca_coordinates": { "x": 0.7118086814880371, "y": 1.0503146648406982, "z": -0.3405335247516632 }, "axis_scores": { "Quantum imaging": 0.7125225067138672, "Quantum Life Science Sensing": 0.7341982126235962, "Quantum sensing Detection": 0.7303464412689209, "Quantum sensing Metrology": 0.7195454835891724, "Quantum sensing navigation": 0.7333773374557495, "Quantum sensing Position": 0.7294688820838928, "Quantum sensing Timing": 0.7276718616485596, "Quantum sensing": 0.7269405126571655, "Quantum control": 0.7197147607803345 } }, { "id": 1072, "title": "Photochemical hydrogen production from water catalyzed by CdTe quantum dots/molecular cobalt catalyst hybrid systems", "abstract": "A hybrid system with a coordinative interaction between a cobalt complex of a N2S2-tetradentate ligand and CdTe quantum dots displayed a high activity (initial TOF 850 h(-1)) and improved stability (T...", "citations": 50, "author_count": 7, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1073, "doi": "10.1039/c5cc00536a", "umap_coordinates": { "x": 391.8980712890625, "y": 134.6992645263672, "z": 205.3867645263672 }, "tsne_coordinates": { "x": 16.889202117919922, "y": 5.4574875831604, "z": -5.376821041107178 }, "pca_coordinates": { "x": -1.1318597793579102, "y": -2.3162331581115723, "z": -2.504728317260742 }, "axis_scores": { "Quantum imaging": 0.7096145153045654, "Quantum Life Science Sensing": 0.7281376123428345, "Quantum sensing Detection": 0.7116315364837646, "Quantum sensing Metrology": 0.6756841540336609, "Quantum sensing navigation": 0.677541196346283, "Quantum sensing Position": 0.6427401900291443, "Quantum sensing Timing": 0.6485844850540161, "Quantum sensing": 0.717775821685791, "Quantum control": 0.714560866355896 } }, { "id": 1073, "title": "THE REACTIVITY OF SUPEROXIDE (O-2.(-)) AND ITS ABILITY TO INDUCED CHEMI-LUMINESCENCE WITH LUMINOL", "abstract": "The quantum yield and the kinetics of .**GRAPHIC**. liminol chemiluminescence was investigated in a broad pH interval at varying luminol and .**GRAPHIC**. concentrations. The weak chemiluminescence ob...", "citations": 53, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1985, "topic": [ "all" ], "embedding_index": 1074, "doi": "10.1111/j.1751-1097.1985.tb03472.x", "umap_coordinates": { "x": 394.298583984375, "y": 135.65518188476562, "z": 204.00216674804688 }, "tsne_coordinates": { "x": 5.20894718170166, "y": 31.622264862060547, "z": 17.89569091796875 }, "pca_coordinates": { "x": -1.8542914390563965, "y": 1.205841064453125, "z": -1.0005433559417725 }, "axis_scores": { "Quantum imaging": 0.7121443748474121, "Quantum Life Science Sensing": 0.7210696935653687, "Quantum sensing Detection": 0.7118669748306274, "Quantum sensing Metrology": 0.6852856874465942, "Quantum sensing navigation": 0.6938568353652954, "Quantum sensing Position": 0.6660562753677368, "Quantum sensing Timing": 0.6842635273933411, "Quantum sensing": 0.7124232649803162, "Quantum control": 0.7107569575309753 } }, { "id": 1074, "title": "Investigations of InAs surface dots on InP", "abstract": "We have fabricated InAs dots on the surface of InP, determined their structure, and measured the optical transition energy. This energy was found to be in excellent agreement with theoretical calculat...", "citations": 5, "author_count": 8, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1075, "doi": "10.1063/1.2226699", "umap_coordinates": { "x": 392.506591796875, "y": 134.0015869140625, "z": 208.12660217285156 }, "tsne_coordinates": { "x": 26.72905921936035, "y": -16.594497680664062, "z": 2.980046510696411 }, "pca_coordinates": { "x": 0.2890167236328125, "y": -4.9290385246276855, "z": 1.3315067291259766 }, "axis_scores": { "Quantum imaging": 0.7337021827697754, "Quantum Life Science Sensing": 0.7333962321281433, "Quantum sensing Detection": 0.7368662357330322, "Quantum sensing Metrology": 0.726328432559967, "Quantum sensing navigation": 0.7141577005386353, "Quantum sensing Position": 0.7221215963363647, "Quantum sensing Timing": 0.6900513172149658, "Quantum sensing": 0.7442965507507324, "Quantum control": 0.6918604969978333 } }, { "id": 1075, "title": "Microwave power harvesting using resonator-coupled double quantum dot photodiode", "abstract": "We demonstrate a microwave power -to -electrical energy conversion in a resonator -coupled double quantum dot. The system, operated as a photodiode, converts individual microwave photons to electrons ...", "citations": 13, "author_count": 9, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1076, "doi": "10.1103/PhysRevB.109.L081403", "umap_coordinates": { "x": 394.8434143066406, "y": 135.0530548095703, "z": 208.3366241455078 }, "tsne_coordinates": { "x": -8.638062477111816, "y": -25.846942901611328, "z": 1.2013264894485474 }, "pca_coordinates": { "x": 3.074953079223633, "y": -2.7715272903442383, "z": 1.5519812107086182 }, "axis_scores": { "Quantum imaging": 0.7114737629890442, "Quantum Life Science Sensing": 0.7630554437637329, "Quantum sensing Detection": 0.7495734095573425, "Quantum sensing Metrology": 0.7285431027412415, "Quantum sensing navigation": 0.7142817378044128, "Quantum sensing Position": 0.7019491791725159, "Quantum sensing Timing": 0.6759797930717468, "Quantum sensing": 0.747184157371521, "Quantum control": 0.6943930983543396 } }, { "id": 1076, "title": "Nonlocal transport properties of nanoscale conductor-microwave cavity systems", "abstract": "Recent experimental progress in coupling nanoscale conductors to superconducting microwave cavities has opened up for transport investigations of the deep quantum limit of light-matter interactions, w...", "citations": 41, "author_count": 3, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1077, "doi": "10.1103/PhysRevB.87.195427", "umap_coordinates": { "x": 394.47149658203125, "y": 135.6067352294922, "z": 208.5909881591797 }, "tsne_coordinates": { "x": -4.929934978485107, "y": -29.07110595703125, "z": 7.155810356140137 }, "pca_coordinates": { "x": 3.7448415756225586, "y": -0.954981803894043, "z": -0.2644033432006836 }, "axis_scores": { "Quantum imaging": 0.7341249585151672, "Quantum Life Science Sensing": 0.7520349621772766, "Quantum sensing Detection": 0.7384097576141357, "Quantum sensing Metrology": 0.7303425073623657, "Quantum sensing navigation": 0.7482336759567261, "Quantum sensing Position": 0.6988143920898438, "Quantum sensing Timing": 0.6810075044631958, "Quantum sensing": 0.753067135810852, "Quantum control": 0.7138134837150574 } }, { "id": 1077, "title": "Quantum inverse iteration algorithm for programmable quantum simulators", "abstract": "We propose a quantum inverse iteration algorithm, which can be used to estimate ground state properties of a programmable quantum device. The method relies on the inverse power iteration technique, wh...", "citations": 56, "author_count": 2, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1078, "doi": "10.1038/s41534-019-0239-7", "umap_coordinates": { "x": 394.835205078125, "y": 136.32664489746094, "z": 206.56033325195312 }, "tsne_coordinates": { "x": -16.61489486694336, "y": 5.211942195892334, "z": -3.850778579711914 }, "pca_coordinates": { "x": 0.5728883743286133, "y": 1.4185280799865723, "z": 2.0146374702453613 }, "axis_scores": { "Quantum imaging": 0.79271399974823, "Quantum Life Science Sensing": 0.7589644193649292, "Quantum sensing Detection": 0.7617693543434143, "Quantum sensing Metrology": 0.7672491073608398, "Quantum sensing navigation": 0.788152813911438, "Quantum sensing Position": 0.7378549575805664, "Quantum sensing Timing": 0.7536405920982361, "Quantum sensing": 0.7810541987419128, "Quantum control": 0.7526577711105347 } }, { "id": 1078, "title": "Emission rates for electron tunneling from InAs quantum dots to GaAs substrate (vol 96, pg 6477, 2004) -: art. no. 059901", "abstract": "", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1079, "doi": "10.1063/1.2008355", "umap_coordinates": { "x": 393.2975158691406, "y": 134.23179626464844, "z": 208.4192657470703 }, "tsne_coordinates": { "x": 28.651302337646484, "y": -28.348556518554688, "z": -4.564768314361572 }, "pca_coordinates": { "x": 1.2948825359344482, "y": -2.676342010498047, "z": 1.9819011688232422 }, "axis_scores": { "Quantum imaging": 0.7122649550437927, "Quantum Life Science Sensing": 0.7144259214401245, "Quantum sensing Detection": 0.7101627588272095, "Quantum sensing Metrology": 0.7075229287147522, "Quantum sensing navigation": 0.6974326968193054, "Quantum sensing Position": 0.6779804229736328, "Quantum sensing Timing": 0.6925389766693115, "Quantum sensing": 0.7151816487312317, "Quantum control": 0.6854103207588196 } }, { "id": 1079, "title": "Direct imaging of the atomic structure inside a nanowire by scanning tunnelling microscopy", "abstract": "", "citations": 89, "author_count": 9, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1080, "doi": "10.1038/nmat1164", "umap_coordinates": { "x": 393.10748291015625, "y": 134.38360595703125, "z": 206.911865234375 }, "tsne_coordinates": { "x": 15.251957893371582, "y": -20.72028923034668, "z": -9.567622184753418 }, "pca_coordinates": { "x": -0.1556769609451294, "y": -1.4157826900482178, "z": 1.6156272888183594 }, "axis_scores": { "Quantum imaging": 0.7439203858375549, "Quantum Life Science Sensing": 0.7414114475250244, "Quantum sensing Detection": 0.7401936054229736, "Quantum sensing Metrology": 0.744815468788147, "Quantum sensing navigation": 0.7599896192550659, "Quantum sensing Position": 0.7303472757339478, "Quantum sensing Timing": 0.6967085599899292, "Quantum sensing": 0.7541294097900391, "Quantum control": 0.6998108625411987 } }, { "id": 1080, "title": "Experiments with a 3D double optical lattice", "abstract": "We present a setup where we trap two different cesium hyperfine ground states in two different near-resonant optical lattices with identical topographies. We demonstrate that we can change the relativ...", "citations": 24, "author_count": 4, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1081, "doi": "10.1103/PhysRevLett.90.053001", "umap_coordinates": { "x": 395.4523620605469, "y": 135.62478637695312, "z": 207.73817443847656 }, "tsne_coordinates": { "x": -15.913580894470215, "y": -9.440407752990723, "z": -2.421696424484253 }, "pca_coordinates": { "x": 3.177712917327881, "y": -0.23433780670166016, "z": 1.2056734561920166 }, "axis_scores": { "Quantum imaging": 0.7384718656539917, "Quantum Life Science Sensing": 0.7413421273231506, "Quantum sensing Detection": 0.7313695549964905, "Quantum sensing Metrology": 0.7298908829689026, "Quantum sensing navigation": 0.7272091507911682, "Quantum sensing Position": 0.7136744260787964, "Quantum sensing Timing": 0.697553277015686, "Quantum sensing": 0.7416491508483887, "Quantum control": 0.7095295190811157 } }, { "id": 1081, "title": "Thermoelectrics of Interacting Nanosystems-Exploiting Superselection Instead of Time-Reversal Symmetry", "abstract": "Thermoelectric transport is traditionally analyzed using relations imposed by time-reversal symmetry, ranging from Onsager's results to fluctuation relations in counting statistics. In this paper, we ...", "citations": 15, "author_count": 6, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1082, "doi": "10.3390/e19120668", "umap_coordinates": { "x": 393.3309326171875, "y": 135.8123779296875, "z": 206.520263671875 }, "tsne_coordinates": { "x": 2.2082197666168213, "y": -7.9969635009765625, "z": 35.01810073852539 }, "pca_coordinates": { "x": 0.18632769584655762, "y": -0.8568322658538818, "z": -1.185250163078308 }, "axis_scores": { "Quantum imaging": 0.7124308943748474, "Quantum Life Science Sensing": 0.7288559675216675, "Quantum sensing Detection": 0.689742922782898, "Quantum sensing Metrology": 0.7052679657936096, "Quantum sensing navigation": 0.696693480014801, "Quantum sensing Position": 0.6794146299362183, "Quantum sensing Timing": 0.714209794998169, "Quantum sensing": 0.7126221656799316, "Quantum control": 0.6778131723403931 } }, { "id": 1082, "title": "Symmetry of two-terminal nonlinear electric conduction - art. no. 046803", "abstract": "The well-established symmetry relations for linear transport phenomena cannot, in general, be applied in the nonlinear regime. Here we propose a set of symmetry relations with respect to bias voltage ...", "citations": 47, "author_count": 8, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1083, "doi": "10.1103/PhysRevLett.92.046803", "umap_coordinates": { "x": 394.2501525878906, "y": 135.59378051757812, "z": 208.34127807617188 }, "tsne_coordinates": { "x": -2.1796610355377197, "y": -16.920978546142578, "z": -7.96039342880249 }, "pca_coordinates": { "x": 3.418534755706787, "y": -1.2191884517669678, "z": -0.3125949800014496 }, "axis_scores": { "Quantum imaging": 0.6930375695228577, "Quantum Life Science Sensing": 0.7005729675292969, "Quantum sensing Detection": 0.6871472597122192, "Quantum sensing Metrology": 0.6810392141342163, "Quantum sensing navigation": 0.7019978165626526, "Quantum sensing Position": 0.6741613745689392, "Quantum sensing Timing": 0.6808103322982788, "Quantum sensing": 0.6936284899711609, "Quantum control": 0.6738184690475464 } }, { "id": 1083, "title": "Recombination dynamics in heterostructures with two planar arrays of II-VI quantum dots", "abstract": "We present time-resolved photoluminescence studies of epitaxial heterostructures with two arrays of Cd(Zn)Se/ZnSe quantum dots (QDs), which are formed by the successive insertion of CdSe fractional mo...", "citations": 2, "author_count": 7, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1084, "doi": "10.1088/1742-6596/741/1/012153", "umap_coordinates": { "x": 393.0331115722656, "y": 135.11297607421875, "z": 207.8375701904297 }, "tsne_coordinates": { "x": 25.59602928161621, "y": -9.383143424987793, "z": 16.914369583129883 }, "pca_coordinates": { "x": 1.6303014755249023, "y": -1.6152715682983398, "z": -0.14343947172164917 }, "axis_scores": { "Quantum imaging": 0.7269499897956848, "Quantum Life Science Sensing": 0.7017822861671448, "Quantum sensing Detection": 0.6813206076622009, "Quantum sensing Metrology": 0.6673670411109924, "Quantum sensing navigation": 0.7041811943054199, "Quantum sensing Position": 0.6755164861679077, "Quantum sensing Timing": 0.6979074478149414, "Quantum sensing": 0.6940228939056396, "Quantum control": 0.6958515644073486 } }, { "id": 1084, "title": "Basic modelling of transport in 2D wave-mechanical nanodots and billiards with balanced gain and loss mediated by complex potentials", "abstract": "Non-Hermitian quantum mechanics with parity-time (PT) symmetry is presently gaining great interest, especially within the fields of photonics and optics. Here, we give a brief overview of low-dimensio...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1085, "doi": "10.1088/1361-648X/aabbfc", "umap_coordinates": { "x": 394.14764404296875, "y": 135.70323181152344, "z": 207.18247985839844 }, "tsne_coordinates": { "x": -6.815769195556641, "y": 8.97774887084961, "z": 11.12020492553711 }, "pca_coordinates": { "x": 1.0581986904144287, "y": 0.644028902053833, "z": -0.05620980262756348 }, "axis_scores": { "Quantum imaging": 0.7245783805847168, "Quantum Life Science Sensing": 0.7141632437705994, "Quantum sensing Detection": 0.7004826664924622, "Quantum sensing Metrology": 0.7143372893333435, "Quantum sensing navigation": 0.7206279039382935, "Quantum sensing Position": 0.6964263319969177, "Quantum sensing Timing": 0.6919401288032532, "Quantum sensing": 0.7211737632751465, "Quantum control": 0.7061750292778015 } }, { "id": 1085, "title": "Optical characterization of individual quantum dots", "abstract": "Optical characterization of single quantum dots (QDs) by means of micro-photoluminescence (mu PL) will be reviewed. Both QDs formed in the Stranski-Krastanov mode as well as dots in the apex of pyrami...", "citations": 5, "author_count": 13, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1086, "doi": "10.1016/j.physb.2011.09.064", "umap_coordinates": { "x": 393.3507080078125, "y": 133.82164001464844, "z": 206.87692260742188 }, "tsne_coordinates": { "x": 33.95709228515625, "y": 0.5974406599998474, "z": 2.2648890018463135 }, "pca_coordinates": { "x": -1.0521392822265625, "y": -3.3204355239868164, "z": 1.2119712829589844 }, "axis_scores": { "Quantum imaging": 0.8087679147720337, "Quantum Life Science Sensing": 0.8037837147712708, "Quantum sensing Detection": 0.8040018081665039, "Quantum sensing Metrology": 0.7927806377410889, "Quantum sensing navigation": 0.7592259645462036, "Quantum sensing Position": 0.7659419775009155, "Quantum sensing Timing": 0.7202567458152771, "Quantum sensing": 0.8144050240516663, "Quantum control": 0.7517194151878357 } }, { "id": 1086, "title": "Magnetic Manipulation of Spontaneous Emission from Inorganic CsPbBr3 Perovskites Nanocrystals", "abstract": "", "citations": 16, "author_count": 8, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1087, "doi": "10.1002/adom.201600611", "umap_coordinates": { "x": 391.84454345703125, "y": 134.14305114746094, "z": 205.65966796875 }, "tsne_coordinates": { "x": 27.8131046295166, "y": -5.347590446472168, "z": -23.77924156188965 }, "pca_coordinates": { "x": -2.170590877532959, "y": -2.4729480743408203, "z": -1.8934781551361084 }, "axis_scores": { "Quantum imaging": 0.7201813459396362, "Quantum Life Science Sensing": 0.7100415229797363, "Quantum sensing Detection": 0.7026522159576416, "Quantum sensing Metrology": 0.7095053195953369, "Quantum sensing navigation": 0.6982417702674866, "Quantum sensing Position": 0.6595127582550049, "Quantum sensing Timing": 0.650558590888977, "Quantum sensing": 0.7194079160690308, "Quantum control": 0.7286354899406433 } }, { "id": 1087, "title": "Room-Temperature Quantitative Quantum Sensing of Lithium Ions with a Radical-Embedded Metal-Organic Framework", "abstract": "Recent advancements in quantum sensing have sparked transformative detection technologies with high sensitivity, precision, and spatial resolution. Owing to their atomic-level tunabi l i t y , molecul...", "citations": 65, "author_count": 14, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1088, "doi": "10.1021/jacs.2c07692", "umap_coordinates": { "x": 392.4372863769531, "y": 135.24476623535156, "z": 205.40036010742188 }, "tsne_coordinates": { "x": 10.0396146774292, "y": 3.2266016006469727, "z": -22.405305862426758 }, "pca_coordinates": { "x": -0.7055919766426086, "y": -0.8583896160125732, "z": -1.2813879251480103 }, "axis_scores": { "Quantum imaging": 0.7312535047531128, "Quantum Life Science Sensing": 0.7469363808631897, "Quantum sensing Detection": 0.7397318482398987, "Quantum sensing Metrology": 0.7228893637657166, "Quantum sensing navigation": 0.7162989377975464, "Quantum sensing Position": 0.7172014713287354, "Quantum sensing Timing": 0.7021415829658508, "Quantum sensing": 0.7513517737388611, "Quantum control": 0.6936594843864441 } }, { "id": 1088, "title": "Time-dependent behavior in arrays of two coupled quantum-dot cells", "abstract": "Time-dependent behavior of two kinds of arrays of two coupled quantum-dot cells is examined. Each square cell composed of four quantum dots in the corners contains two electrons and couples with the n...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1089, "doi": "10.1088/0256-307X/16/6/019", "umap_coordinates": { "x": 392.85736083984375, "y": 135.15139770507812, "z": 207.41355895996094 }, "tsne_coordinates": { "x": 23.011194229125977, "y": -9.95980167388916, "z": 17.93692398071289 }, "pca_coordinates": { "x": 1.1478331089019775, "y": -0.3366279602050781, "z": 0.41596025228500366 }, "axis_scores": { "Quantum imaging": 0.7191278338432312, "Quantum Life Science Sensing": 0.7328499555587769, "Quantum sensing Detection": 0.7100711464881897, "Quantum sensing Metrology": 0.6896507143974304, "Quantum sensing navigation": 0.7058177590370178, "Quantum sensing Position": 0.7123948335647583, "Quantum sensing Timing": 0.734992504119873, "Quantum sensing": 0.7185893058776855, "Quantum control": 0.6980637907981873 } }, { "id": 1089, "title": "Tuning the composition of heavy metal-free quaternary quantum dots for improved photoelectrochemical performance", "abstract": "Colloidal quantum dots (QDs) are promising building blocks towards the development of cost-effective and high-efficiency photoelectrochemical (PEC) cells. Unfortunately, the frequent use of QDs posses...", "citations": 26, "author_count": 13, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1090, "doi": "10.1039/d0ta11481b", "umap_coordinates": { "x": 391.89013671875, "y": 134.51300048828125, "z": 205.14141845703125 }, "tsne_coordinates": { "x": 14.83376407623291, "y": 4.748836517333984, "z": -12.898763656616211 }, "pca_coordinates": { "x": -2.4312744140625, "y": -3.0913844108581543, "z": -2.227505922317505 }, "axis_scores": { "Quantum imaging": 0.7101213335990906, "Quantum Life Science Sensing": 0.7339441776275635, "Quantum sensing Detection": 0.7046238780021667, "Quantum sensing Metrology": 0.7022656202316284, "Quantum sensing navigation": 0.6990018486976624, "Quantum sensing Position": 0.6783534288406372, "Quantum sensing Timing": 0.6848576664924622, "Quantum sensing": 0.7207956910133362, "Quantum control": 0.7144662141799927 } }, { "id": 1090, "title": "Finite-frequency noise of interacting single-electron emitters: Spectroscopy with higher noise harmonics", "abstract": "We derive the symmetrized current-noise spectrum of a quantum dot, which is weakly tunnel-coupled to an electron reservoir and driven by a slow time-dependent gate voltage. This setup can be operated ...", "citations": 7, "author_count": 3, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1091, "doi": "10.1103/PhysRevB.98.115414", "umap_coordinates": { "x": 394.91094970703125, "y": 135.3032684326172, "z": 208.59010314941406 }, "tsne_coordinates": { "x": -4.866144180297852, "y": -26.227296829223633, "z": -6.290431022644043 }, "pca_coordinates": { "x": 3.038205146789551, "y": -0.9683551788330078, "z": 2.1694345474243164 }, "axis_scores": { "Quantum imaging": 0.7007681727409363, "Quantum Life Science Sensing": 0.7050103545188904, "Quantum sensing Detection": 0.70456463098526, "Quantum sensing Metrology": 0.6910951137542725, "Quantum sensing navigation": 0.6952016353607178, "Quantum sensing Position": 0.6715463399887085, "Quantum sensing Timing": 0.6706105470657349, "Quantum sensing": 0.7040569186210632, "Quantum control": 0.6630996465682983 } }, { "id": 1091, "title": "PROPAGATION PROPERTIES OF QUANTUM SCATTERING STATES", "abstract": "", "citations": 40, "author_count": 2, "categories": [ "Mathematics" ], "year": 1983, "topic": [ "all" ], "embedding_index": 1092, "doi": "10.1016/0022-1236(83)90083-6", "umap_coordinates": { "x": 394.2315368652344, "y": 136.27479553222656, "z": 206.3658905029297 }, "tsne_coordinates": { "x": -18.218889236450195, "y": -5.179320812225342, "z": 16.08075523376465 }, "pca_coordinates": { "x": 1.3040173053741455, "y": 0.9582500457763672, "z": 0.8668679594993591 }, "axis_scores": { "Quantum imaging": 0.758637547492981, "Quantum Life Science Sensing": 0.7583335041999817, "Quantum sensing Detection": 0.7539160251617432, "Quantum sensing Metrology": 0.7398110032081604, "Quantum sensing navigation": 0.7758095264434814, "Quantum sensing Position": 0.7556435465812683, "Quantum sensing Timing": 0.6990960836410522, "Quantum sensing": 0.7639335989952087, "Quantum control": 0.703446090221405 } }, { "id": 1092, "title": "Large Thermoelectric Power Factor Enhancement Observed in InAs Nanowires", "abstract": "We report the observation of a thermoelectric power factor in In As nanowires that exceeds that predicted by a single-band bulk model by up to an order of magnitude at temperatures below about 20 K. W...", "citations": 114, "author_count": 10, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1093, "doi": "10.1021/nl401501j", "umap_coordinates": { "x": 392.74951171875, "y": 133.8204345703125, "z": 207.38633728027344 }, "tsne_coordinates": { "x": 22.19698143005371, "y": -16.522327423095703, "z": -19.793127059936523 }, "pca_coordinates": { "x": -1.5634150505065918, "y": -4.379035472869873, "z": 0.3110514283180237 }, "axis_scores": { "Quantum imaging": 0.6596139669418335, "Quantum Life Science Sensing": 0.6848851442337036, "Quantum sensing Detection": 0.6506658792495728, "Quantum sensing Metrology": 0.6449176073074341, "Quantum sensing navigation": 0.6516461968421936, "Quantum sensing Position": 0.6354180574417114, "Quantum sensing Timing": 0.6364391446113586, "Quantum sensing": 0.6696146726608276, "Quantum control": 0.6367664337158203 } }, { "id": 1093, "title": "Quantum Stochastic Communication via High-Dimensional Entanglement", "abstract": "Entanglement has the ability to enhance the transmission of classical information over a quantum channel. However, fully harvesting this advantage typically requires complex entangling measurements, w...", "citations": 1, "author_count": 10, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1094, "doi": "10.1103/rq78-1qbh", "umap_coordinates": { "x": 395.7091064453125, "y": 136.64727783203125, "z": 207.13442993164062 }, "tsne_coordinates": { "x": -34.551876068115234, "y": -16.74271583557129, "z": -1.0688532590866089 }, "pca_coordinates": { "x": 4.56495475769043, "y": 1.3310281038284302, "z": 2.7130680084228516 }, "axis_scores": { "Quantum imaging": 0.796505331993103, "Quantum Life Science Sensing": 0.7556324601173401, "Quantum sensing Detection": 0.7934867143630981, "Quantum sensing Metrology": 0.7692580223083496, "Quantum sensing navigation": 0.800140380859375, "Quantum sensing Position": 0.7540732026100159, "Quantum sensing Timing": 0.740138053894043, "Quantum sensing": 0.8051447868347168, "Quantum control": 0.7751408219337463 } }, { "id": 1094, "title": "Suppression of low-frequency charge noise in superconducting resonators by surface spin desorption", "abstract": "Noise and decoherence due to spurious two-level systems located at material interfaces are long-standing issues for solid-state quantum devices. Efforts to mitigate the effects of two-level systems ha...", "citations": 86, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1095, "doi": "10.1038/s41467-018-03577-2", "umap_coordinates": { "x": 393.5862121582031, "y": 135.37571716308594, "z": 206.94947814941406 }, "tsne_coordinates": { "x": 5.024343013763428, "y": -10.016646385192871, "z": 15.923869132995605 }, "pca_coordinates": { "x": 0.5590771436691284, "y": -1.3901619911193848, "z": -1.0144215822219849 }, "axis_scores": { "Quantum imaging": 0.6755713224411011, "Quantum Life Science Sensing": 0.7252289056777954, "Quantum sensing Detection": 0.7017953991889954, "Quantum sensing Metrology": 0.6841405034065247, "Quantum sensing navigation": 0.7023639678955078, "Quantum sensing Position": 0.6962578296661377, "Quantum sensing Timing": 0.6658622622489929, "Quantum sensing": 0.7069395184516907, "Quantum control": 0.693897545337677 } }, { "id": 1095, "title": "Microwave-assisted low temperature synthesis of wurtzite ZnS quantum dots", "abstract": "In this work we report, for the first time, on microwave assisted synthesis of wurtzite ZnS quantum dots (QDs) in controlled reaction at temperature as low as 150 degrees C. The synthesis can be done ...", "citations": 19, "author_count": 4, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1096, "doi": "10.1016/j.jssc.2012.01.007", "umap_coordinates": { "x": 392.7433166503906, "y": 133.89141845703125, "z": 205.8516845703125 }, "tsne_coordinates": { "x": 30.34404182434082, "y": 5.310595989227295, "z": 0.5869377255439758 }, "pca_coordinates": { "x": -2.453386068344116, "y": -2.7986345291137695, "z": 0.14526253938674927 }, "axis_scores": { "Quantum imaging": 0.7002609968185425, "Quantum Life Science Sensing": 0.7149712443351746, "Quantum sensing Detection": 0.7002124190330505, "Quantum sensing Metrology": 0.6941468715667725, "Quantum sensing navigation": 0.68662428855896, "Quantum sensing Position": 0.6636306643486023, "Quantum sensing Timing": 0.6789801716804504, "Quantum sensing": 0.7102340459823608, "Quantum control": 0.6940649151802063 } }, { "id": 1096, "title": "Electric and magnetic dipole allowed transitions of atoms for three-dimensionally isotropic left handedness in a mixed atomic vapor", "abstract": "Since previous negative-index atomic media based on quantum optical approaches are highly lossy, a proposal for realizing a three-dimensionally isotropic left-handed atomic vapor medium is suggested b...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1097, "doi": "10.1093/ptep/ptu018", "umap_coordinates": { "x": 393.4658508300781, "y": 136.25767517089844, "z": 208.25340270996094 }, "tsne_coordinates": { "x": -3.707484006881714, "y": -33.31902313232422, "z": 18.09287452697754 }, "pca_coordinates": { "x": 0.8998050689697266, "y": -0.15563631057739258, "z": -2.097228765487671 }, "axis_scores": { "Quantum imaging": 0.6804343461990356, "Quantum Life Science Sensing": 0.673119843006134, "Quantum sensing Detection": 0.6570634841918945, "Quantum sensing Metrology": 0.6484993696212769, "Quantum sensing navigation": 0.6604236960411072, "Quantum sensing Position": 0.6387040019035339, "Quantum sensing Timing": 0.638360857963562, "Quantum sensing": 0.6725854873657227, "Quantum control": 0.6629039645195007 } }, { "id": 1097, "title": "Far Red-Shifted CdTe Quantum Dots for Multicolour Stimulated Emission Depletion Nanoscopy", "abstract": "Stimulated emission depletion (STED) nanoscopy is a widely used nanoscopy technique. Two-colour STED imaging in fixed and living cells is standardised today utilising both fluorescent dyes and fluores...", "citations": 2, "author_count": 4, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1098, "doi": "10.1002/cphc.202200698", "umap_coordinates": { "x": 392.5996398925781, "y": 133.7382354736328, "z": 205.80006408691406 }, "tsne_coordinates": { "x": 29.297317504882812, "y": 2.3597116470336914, "z": -8.067766189575195 }, "pca_coordinates": { "x": -3.1851940155029297, "y": -2.0034255981445312, "z": 0.40215998888015747 }, "axis_scores": { "Quantum imaging": 0.715146005153656, "Quantum Life Science Sensing": 0.7482348680496216, "Quantum sensing Detection": 0.7247592210769653, "Quantum sensing Metrology": 0.729188084602356, "Quantum sensing navigation": 0.6967723965644836, "Quantum sensing Position": 0.6871547698974609, "Quantum sensing Timing": 0.6847258806228638, "Quantum sensing": 0.7313616871833801, "Quantum control": 0.708008885383606 } }, { "id": 1098, "title": "QUANTUM-NOISE PROPERTIES OF A CONSTANT-VOLTAGE-OPERATED SEMICONDUCTOR-LASER", "abstract": "Quantum-noise properties of a semiconductor laser under constant-voltage operation, where the laser-field amplitude is regulated through nonlinear gain, have been studied using quantum-mechanical Lang...", "citations": 3, "author_count": 2, "categories": [ "Optics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 1099, "doi": "10.1103/PhysRevA.43.3741", "umap_coordinates": { "x": 394.6991271972656, "y": 134.9834747314453, "z": 208.04957580566406 }, "tsne_coordinates": { "x": -14.65737247467041, "y": -29.8415470123291, "z": -18.367136001586914 }, "pca_coordinates": { "x": 2.3932087421417236, "y": -0.9249498844146729, "z": 0.4275457262992859 }, "axis_scores": { "Quantum imaging": 0.7075468301773071, "Quantum Life Science Sensing": 0.7505736351013184, "Quantum sensing Detection": 0.7250080108642578, "Quantum sensing Metrology": 0.7069791555404663, "Quantum sensing navigation": 0.7365841865539551, "Quantum sensing Position": 0.7038863301277161, "Quantum sensing Timing": 0.677361249923706, "Quantum sensing": 0.7354215383529663, "Quantum control": 0.7155605554580688 } }, { "id": 1099, "title": "Transport and excitations in a negative-U quantum dot at the LaAlO3/SrTiO3 interface", "abstract": "In a solid-state host, attractive electron-electron interactions can lead to the formation of local electron pairs which play an important role in the understanding of prominent phenomena such as high...", "citations": 37, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1100, "doi": "10.1038/s41467-017-00495-7", "umap_coordinates": { "x": 393.0517272949219, "y": 135.05050659179688, "z": 207.0689239501953 }, "tsne_coordinates": { "x": 6.353003025054932, "y": -8.154258728027344, "z": 14.642308235168457 }, "pca_coordinates": { "x": 0.32340216636657715, "y": -2.3445749282836914, "z": 0.1418604850769043 }, "axis_scores": { "Quantum imaging": 0.7245006561279297, "Quantum Life Science Sensing": 0.7390072345733643, "Quantum sensing Detection": 0.7208859920501709, "Quantum sensing Metrology": 0.7144094109535217, "Quantum sensing navigation": 0.7251219153404236, "Quantum sensing Position": 0.7212744355201721, "Quantum sensing Timing": 0.69748854637146, "Quantum sensing": 0.7334127426147461, "Quantum control": 0.6913483142852783 } }, { "id": 1100, "title": "DEPOSITION OF ULTRAFINE PARTICLES ON SEMICONDUCTORS FOR USE AS DRY-ETCHING MASKS - NUMERICAL-CALCULATION AND EXPERIMENTAL-VERIFICATION", "abstract": "", "citations": 1, "author_count": 7, "categories": [ "Engineering" ], "year": 1993, "topic": [ "all" ], "embedding_index": 1101, "doi": "10.1016/0021-8502(93)90025-5", "umap_coordinates": { "x": 393.46246337890625, "y": 134.5546417236328, "z": 206.18829345703125 }, "tsne_coordinates": { "x": -8.289700508117676, "y": 20.806116104125977, "z": 19.749042510986328 }, "pca_coordinates": { "x": -1.377730131149292, "y": -0.8460547924041748, "z": 0.7121002078056335 }, "axis_scores": { "Quantum imaging": 0.6913673281669617, "Quantum Life Science Sensing": 0.7269793748855591, "Quantum sensing Detection": 0.6891491413116455, "Quantum sensing Metrology": 0.7154454588890076, "Quantum sensing navigation": 0.6958490610122681, "Quantum sensing Position": 0.6849148869514465, "Quantum sensing Timing": 0.6534069180488586, "Quantum sensing": 0.6997891068458557, "Quantum control": 0.6716334223747253 } }, { "id": 1101, "title": "Fractal Superconducting Nanowires Detect Infrared Single Photonswith 84% System Detection Efficiency, 1.02 Polarization Sensitivity,and 20.8 ps Timing Resolution", "abstract": "The near-unity system detection efficiency (SDE) and excellent timing resolution of superconducting nanowiresingle-photon detectors (SNSPDs), combined with their other merits, have enabled many classi...", "citations": 29, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1102, "doi": "10.1021/acsphotonics.1c00730", "umap_coordinates": { "x": 394.5523681640625, "y": 133.23501586914062, "z": 207.2602081298828 }, "tsne_coordinates": { "x": -11.901130676269531, "y": 3.710951089859009, "z": -31.091899871826172 }, "pca_coordinates": { "x": -0.4544956684112549, "y": -3.4212474822998047, "z": 3.5401391983032227 }, "axis_scores": { "Quantum imaging": 0.7545053958892822, "Quantum Life Science Sensing": 0.7644457221031189, "Quantum sensing Detection": 0.7664985656738281, "Quantum sensing Metrology": 0.7321222424507141, "Quantum sensing navigation": 0.7477868795394897, "Quantum sensing Position": 0.7206575274467468, "Quantum sensing Timing": 0.7577887773513794, "Quantum sensing": 0.7630387544631958, "Quantum control": 0.692996621131897 } }, { "id": 1102, "title": "Ensemble interactions in strained semiconductor quantum dots", "abstract": "Large variations in InxGa1-xAs quantum dot concentrations were obtained with simultaneous growths on vicinal GaAs [001] substrates with different surface step densities. It was found that decreasing d...", "citations": 49, "author_count": 7, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1103, "doi": "10.1103/PhysRevB.60.R8517", "umap_coordinates": { "x": 393.2133483886719, "y": 134.88731384277344, "z": 208.7510986328125 }, "tsne_coordinates": { "x": -0.6732572913169861, "y": -24.986156463623047, "z": -1.6843035221099854 }, "pca_coordinates": { "x": 3.5508337020874023, "y": -4.2635602951049805, "z": -0.3175365924835205 }, "axis_scores": { "Quantum imaging": 0.7248640060424805, "Quantum Life Science Sensing": 0.7273737192153931, "Quantum sensing Detection": 0.7148487567901611, "Quantum sensing Metrology": 0.714781641960144, "Quantum sensing navigation": 0.7211740016937256, "Quantum sensing Position": 0.7131319046020508, "Quantum sensing Timing": 0.7003957033157349, "Quantum sensing": 0.7348401546478271, "Quantum control": 0.7065273523330688 } }, { "id": 1103, "title": "InN quantum dots on GaN nanowires grown by MOVPE", "abstract": "In this work, growth of InN quantum dots (QDs) on GaN nanowires (NWs) by metal-organic vapour phase epitaxy is demonstrated, illustrating the feasibility to combine 0D and 1D structures for nitride se...", "citations": 5, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1104, "doi": "10.1002/pssc.201300551", "umap_coordinates": { "x": 392.5278625488281, "y": 134.00906372070312, "z": 207.23814392089844 }, "tsne_coordinates": { "x": 27.429466247558594, "y": -7.075311660766602, "z": 12.140786170959473 }, "pca_coordinates": { "x": -0.6199848651885986, "y": -3.269897937774658, "z": 1.5421099662780762 }, "axis_scores": { "Quantum imaging": 0.7277041673660278, "Quantum Life Science Sensing": 0.7150719165802002, "Quantum sensing Detection": 0.7145090699195862, "Quantum sensing Metrology": 0.7163794040679932, "Quantum sensing navigation": 0.7288031578063965, "Quantum sensing Position": 0.7111779451370239, "Quantum sensing Timing": 0.6906390190124512, "Quantum sensing": 0.7241286039352417, "Quantum control": 0.7064800262451172 } }, { "id": 1104, "title": "Harmonic analysis on the SU(2) dynamical quantum group", "abstract": "Dynamical quantum groups were recently introduced by Etingof and Varchenko as an algebraic framework for studying the dynamical Yang-Baxter equation, which is precisely the Yang-Baxter equation satisf...", "citations": 21, "author_count": 3, "categories": [ "Mathematics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1105, "doi": "10.1023/A:1013071729320", "umap_coordinates": { "x": 394.447509765625, "y": 137.43789672851562, "z": 207.4449462890625 }, "tsne_coordinates": { "x": -26.117176055908203, "y": 0.7487918734550476, "z": 20.143203735351562 }, "pca_coordinates": { "x": 2.851722240447998, "y": 1.8892712593078613, "z": -2.6716625690460205 }, "axis_scores": { "Quantum imaging": 0.6959562301635742, "Quantum Life Science Sensing": 0.7063625454902649, "Quantum sensing Detection": 0.6798046231269836, "Quantum sensing Metrology": 0.6835506558418274, "Quantum sensing navigation": 0.7110605239868164, "Quantum sensing Position": 0.6840893030166626, "Quantum sensing Timing": 0.673173725605011, "Quantum sensing": 0.6967495083808899, "Quantum control": 0.7269220948219299 } }, { "id": 1105, "title": "Memory cost of quantum contextuality", "abstract": "The simulation of quantum effects requires certain classical resources, and quantifying them is an important step to characterize the difference between quantum and classical physics. For a simulation...", "citations": 76, "author_count": 6, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1106, "doi": "10.1088/1367-2630/13/11/113011", "umap_coordinates": { "x": 395.64190673828125, "y": 137.53704833984375, "z": 206.81643676757812 }, "tsne_coordinates": { "x": -18.710956573486328, "y": 4.404527187347412, "z": 8.165261268615723 }, "pca_coordinates": { "x": 1.1655402183532715, "y": 5.102559566497803, "z": -0.578174889087677 }, "axis_scores": { "Quantum imaging": 0.7745395302772522, "Quantum Life Science Sensing": 0.7500082850456238, "Quantum sensing Detection": 0.7497507333755493, "Quantum sensing Metrology": 0.7343297004699707, "Quantum sensing navigation": 0.7685909271240234, "Quantum sensing Position": 0.7422851324081421, "Quantum sensing Timing": 0.7585314512252808, "Quantum sensing": 0.7756617665290833, "Quantum control": 0.7587956786155701 } }, { "id": 1106, "title": "Dynamical topological quantum phase transitions for mixed states", "abstract": "We introduce and study the dynamical probes of band-structure topology in the postquench time evolution of quantum many-body systems initialized in mixed states. Our construction generalizes the notio...", "citations": 103, "author_count": 3, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1107, "doi": "10.1103/PhysRevB.96.180304", "umap_coordinates": { "x": 394.6968688964844, "y": 136.8289337158203, "z": 208.77732849121094 }, "tsne_coordinates": { "x": -18.70635414123535, "y": -21.03084945678711, "z": 14.33512020111084 }, "pca_coordinates": { "x": 6.109896183013916, "y": 0.0008192062377929688, "z": -1.885277271270752 }, "axis_scores": { "Quantum imaging": 0.6938867568969727, "Quantum Life Science Sensing": 0.7017590403556824, "Quantum sensing Detection": 0.6938404440879822, "Quantum sensing Metrology": 0.6940575838088989, "Quantum sensing navigation": 0.7079566121101379, "Quantum sensing Position": 0.6730986833572388, "Quantum sensing Timing": 0.68017578125, "Quantum sensing": 0.6995479464530945, "Quantum control": 0.6854128241539001 } }, { "id": 1107, "title": "Density-functional theory of multicomponent quantum dots - art. no. 195310", "abstract": "Quantum dots with conduction electrons or holes originating from several bands are considered. We assume the particles are confined in a harmonic potential and assume the electrons (or holes) belongin...", "citations": 7, "author_count": 5, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1108, "doi": "10.1103/PhysRevB.70.195310", "umap_coordinates": { "x": 394.53076171875, "y": 135.3195343017578, "z": 208.8152618408203 }, "tsne_coordinates": { "x": 3.5413131713867188, "y": -33.14256286621094, "z": 1.5904426574707031 }, "pca_coordinates": { "x": 3.0175280570983887, "y": -1.3849778175354004, "z": -0.21415206789970398 }, "axis_scores": { "Quantum imaging": 0.7249496579170227, "Quantum Life Science Sensing": 0.7606882452964783, "Quantum sensing Detection": 0.744640588760376, "Quantum sensing Metrology": 0.737067699432373, "Quantum sensing navigation": 0.714386522769928, "Quantum sensing Position": 0.6954701542854309, "Quantum sensing Timing": 0.6794921159744263, "Quantum sensing": 0.7485642433166504, "Quantum control": 0.716397762298584 } }, { "id": 1108, "title": "tC -: The first example of a non perturbing DNA base analogue with high, stable fluorescence quantum yield in nucleic acid systems", "abstract": "", "citations": 2, "author_count": 6, "categories": [ "Biophysics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1109, "doi": null, "umap_coordinates": { "x": 391.5930480957031, "y": 139.40097045898438, "z": 208.75625610351562 }, "tsne_coordinates": { "x": -1.0269914865493774, "y": 46.120819091796875, "z": -4.3137030601501465 }, "pca_coordinates": { "x": -2.2812652587890625, "y": 2.6043479442596436, "z": -3.4272921085357666 }, "axis_scores": { "Quantum imaging": 0.6818943023681641, "Quantum Life Science Sensing": 0.7160302996635437, "Quantum sensing Detection": 0.6990271806716919, "Quantum sensing Metrology": 0.677545428276062, "Quantum sensing navigation": 0.6959136128425598, "Quantum sensing Position": 0.6792193055152893, "Quantum sensing Timing": 0.6973422169685364, "Quantum sensing": 0.700532078742981, "Quantum control": 0.7172325849533081 } }, { "id": 1109, "title": "Transitionless Quantum Driving in Spin Echo", "abstract": "Spin echo can be used to refocus random dynamical phases caused by inhomogeneities in control fields and thereby retain the purity of a spatial distribution of quantum spins. This technique for accura...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1110, "doi": "10.1103/PhysRevApplied.17.024012", "umap_coordinates": { "x": 394.80804443359375, "y": 136.66390991210938, "z": 208.20460510253906 }, "tsne_coordinates": { "x": -13.180329322814941, "y": -15.726984977722168, "z": 13.608172416687012 }, "pca_coordinates": { "x": 5.06083869934082, "y": 0.4222085475921631, "z": 0.14112752676010132 }, "axis_scores": { "Quantum imaging": 0.7342223525047302, "Quantum Life Science Sensing": 0.7271295189857483, "Quantum sensing Detection": 0.7360791563987732, "Quantum sensing Metrology": 0.7218675017356873, "Quantum sensing navigation": 0.7519426941871643, "Quantum sensing Position": 0.7065160274505615, "Quantum sensing Timing": 0.7360833287239075, "Quantum sensing": 0.7363174557685852, "Quantum control": 0.7244277000427246 } }, { "id": 1110, "title": "Plasmon-Enhanced Fluorescence of Single Quantum Dots Immobilized in Optically Coupled Aluminum Nanoholes", "abstract": "Fluorescence-based optical sensing techniques have continually been explored for single-molecule detection targeting myriad biomedical applications. Improving signal-to-noise ratio remains a prioritiz...", "citations": 16, "author_count": 6, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1111, "doi": "10.1021/acs.jpclett.3c00468", "umap_coordinates": { "x": 393.1514892578125, "y": 133.66867065429688, "z": 206.5664825439453 }, "tsne_coordinates": { "x": 15.795809745788574, "y": -12.637792587280273, "z": -18.058284759521484 }, "pca_coordinates": { "x": -2.144951581954956, "y": -4.461877822875977, "z": 0.5959857106208801 }, "axis_scores": { "Quantum imaging": 0.7398468255996704, "Quantum Life Science Sensing": 0.7357755899429321, "Quantum sensing Detection": 0.7342957258224487, "Quantum sensing Metrology": 0.7274085879325867, "Quantum sensing navigation": 0.7166000604629517, "Quantum sensing Position": 0.7167962193489075, "Quantum sensing Timing": 0.683108389377594, "Quantum sensing": 0.7456454634666443, "Quantum control": 0.7130710482597351 } }, { "id": 1111, "title": "Spectra, current flow, and wave-function morphology in a model PT-symmetric quantum dot with external interactions", "abstract": "In this paper we use numerical simulations to study a two-dimensional (2D) quantum dot (cavity) with two leads for passing currents (electrons, photons, etc.) through the system. By introducing an ima...", "citations": 8, "author_count": 3, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1112, "doi": "10.1103/PhysRevA.95.042115", "umap_coordinates": { "x": 392.7119140625, "y": 135.8643798828125, "z": 206.26979064941406 }, "tsne_coordinates": { "x": -7.131565093994141, "y": -36.15751266479492, "z": -4.795537948608398 }, "pca_coordinates": { "x": 1.7725400924682617, "y": -1.5617432594299316, "z": 0.4717865586280823 }, "axis_scores": { "Quantum imaging": 0.7309533357620239, "Quantum Life Science Sensing": 0.7017208337783813, "Quantum sensing Detection": 0.7008365988731384, "Quantum sensing Metrology": 0.695493221282959, "Quantum sensing navigation": 0.6896507143974304, "Quantum sensing Position": 0.6774439215660095, "Quantum sensing Timing": 0.6874679923057556, "Quantum sensing": 0.7071447968482971, "Quantum control": 0.6856513619422913 } }, { "id": 1112, "title": "Direct photon elliptic flow in Pb-Pb collisions at √SNN=2.76 TeV", "abstract": "The elliptic flow of inclusive and direct photons was measured by ALICE for central and semi-central Pb-Pb collisions at root S-NN = 2.76 TeV. The photons were reconstructed using the electromagnetic ...", "citations": 53, "author_count": 1020, "categories": [ "Astronomy & Astrophysics", "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1113, "doi": "10.1016/j.nuclphysa.2018.10.065", "umap_coordinates": { "x": 396.67138671875, "y": 134.3026885986328, "z": 207.80418395996094 }, "tsne_coordinates": { "x": -31.561767578125, "y": 3.0797555446624756, "z": -10.56330394744873 }, "pca_coordinates": { "x": -0.5061908960342407, "y": -0.2628755569458008, "z": 1.7652795314788818 }, "axis_scores": { "Quantum imaging": 0.7339446544647217, "Quantum Life Science Sensing": 0.7041126489639282, "Quantum sensing Detection": 0.7215976715087891, "Quantum sensing Metrology": 0.6825308203697205, "Quantum sensing navigation": 0.7278050184249878, "Quantum sensing Position": 0.7059521675109863, "Quantum sensing Timing": 0.6982256174087524, "Quantum sensing": 0.7143096923828125, "Quantum control": 0.6948291659355164 } }, { "id": 1113, "title": "Laser control for the optimal evolution of pure quantum states - art. no. 063402", "abstract": "Starting from an initial pure quantum state, we present a strategy for reaching a target state corresponding to the extremum (maximum or minimum) of a given observable. We show that a sequence of puls...", "citations": 39, "author_count": 8, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1114, "doi": "10.1103/PhysRevA.71.063402", "umap_coordinates": { "x": 395.3819580078125, "y": 136.5868682861328, "z": 207.58692932128906 }, "tsne_coordinates": { "x": -19.02785301208496, "y": -20.86758041381836, "z": -4.930055141448975 }, "pca_coordinates": { "x": 2.804539442062378, "y": 0.13780903816223145, "z": 0.07542681694030762 }, "axis_scores": { "Quantum imaging": 0.7128784656524658, "Quantum Life Science Sensing": 0.7194050550460815, "Quantum sensing Detection": 0.7068492770195007, "Quantum sensing Metrology": 0.7108681201934814, "Quantum sensing navigation": 0.7235637903213501, "Quantum sensing Position": 0.6949577927589417, "Quantum sensing Timing": 0.6788091063499451, "Quantum sensing": 0.7221779227256775, "Quantum control": 0.7489343881607056 } }, { "id": 1114, "title": "The silicon vacancy centers in SiC: determination of intrinsic spin dynamics for integrated quantum photonics", "abstract": "The negatively charged silicon vacancy center (VSi-\\documentclass[12pt]{minimal} \\usepackage{amsmath} \\usepackage{wasysym} \\usepackage{amsfonts} \\usepackage{amssymb} \\usepackage{amsbsy} \\usepackage{ma...", "citations": 17, "author_count": 11, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1115, "doi": "10.1038/s41534-024-00861-6", "umap_coordinates": { "x": 392.9020080566406, "y": 135.69374084472656, "z": 207.1479949951172 }, "tsne_coordinates": { "x": 6.626904010772705, "y": -14.057353019714355, "z": 3.917445421218872 }, "pca_coordinates": { "x": -0.26434946060180664, "y": -0.9558660984039307, "z": -0.5799591541290283 }, "axis_scores": { "Quantum imaging": 0.7459341287612915, "Quantum Life Science Sensing": 0.7487754225730896, "Quantum sensing Detection": 0.7296353578567505, "Quantum sensing Metrology": 0.7219383120536804, "Quantum sensing navigation": 0.7465842962265015, "Quantum sensing Position": 0.7161073088645935, "Quantum sensing Timing": 0.7138111591339111, "Quantum sensing": 0.7363507151603699, "Quantum control": 0.7216565608978271 } }, { "id": 1115, "title": "LOW-NOISE 4-PHOTON JOSEPHSON PARAMETRIC AMPLIFICATION", "abstract": "", "citations": 9, "author_count": 3, "categories": [ "Physics" ], "year": 1987, "topic": [ "all" ], "embedding_index": 1116, "doi": "10.7567/JJAPS.26S3.1547", "umap_coordinates": { "x": 394.7953796386719, "y": 134.3319549560547, "z": 206.82635498046875 }, "tsne_coordinates": { "x": -4.2617692947387695, "y": -3.6216769218444824, "z": -26.83479118347168 }, "pca_coordinates": { "x": 0.470034122467041, "y": 1.2334567308425903, "z": 3.2092323303222656 }, "axis_scores": { "Quantum imaging": 0.7234036922454834, "Quantum Life Science Sensing": 0.7010899782180786, "Quantum sensing Detection": 0.7182860374450684, "Quantum sensing Metrology": 0.6964731216430664, "Quantum sensing navigation": 0.7248131036758423, "Quantum sensing Position": 0.7011168599128723, "Quantum sensing Timing": 0.7123603224754333, "Quantum sensing": 0.7274916172027588, "Quantum control": 0.7091547846794128 } }, { "id": 1116, "title": "SCALAR RELAXATION OF HOMONUCLEAR MULTIPLE-QUANTUM COHERENCES AND RELATIVE SIGNS OF N-14-H-1 SPIN SPIN COUPLING-CONSTANTS IN E-N-PHENYLFORMAMIDE", "abstract": "", "citations": 3, "author_count": 3, "categories": [ "Spectroscopy" ], "year": 1987, "topic": [ "all" ], "embedding_index": 1117, "doi": "10.1016/0584-8539(87)80058-2", "umap_coordinates": { "x": 392.71185302734375, "y": 136.80343627929688, "z": 206.89283752441406 }, "tsne_coordinates": { "x": 19.993732452392578, "y": 1.4076755046844482, "z": 30.985780715942383 }, "pca_coordinates": { "x": -0.045939087867736816, "y": 1.3805046081542969, "z": -2.449131965637207 }, "axis_scores": { "Quantum imaging": 0.6846541166305542, "Quantum Life Science Sensing": 0.6830394864082336, "Quantum sensing Detection": 0.6569488048553467, "Quantum sensing Metrology": 0.6626381874084473, "Quantum sensing navigation": 0.6862181425094604, "Quantum sensing Position": 0.6850273609161377, "Quantum sensing Timing": 0.6728901267051697, "Quantum sensing": 0.6735336184501648, "Quantum control": 0.6688138246536255 } }, { "id": 1117, "title": "Integration of Colloidal PbS/CdS Quantum Dots with Plasmonic Antennas and Superconducting Detectors on a Silicon Nitride Photonic Platform", "abstract": "Single-photon sources and detectors are indispensable building blocks for integrated quantum photonics, a research field that is seeing ever increasing interest for numerous applications. In this work...", "citations": 31, "author_count": 12, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1118, "doi": "10.1021/acs.nanolett.9b01948", "umap_coordinates": { "x": 392.7089538574219, "y": 133.80369567871094, "z": 206.76348876953125 }, "tsne_coordinates": { "x": 15.924832344055176, "y": -10.907705307006836, "z": -8.453462600708008 }, "pca_coordinates": { "x": -1.3587567806243896, "y": -4.984179496765137, "z": 2.716663360595703 }, "axis_scores": { "Quantum imaging": 0.7166301012039185, "Quantum Life Science Sensing": 0.7116678953170776, "Quantum sensing Detection": 0.7210906147956848, "Quantum sensing Metrology": 0.7017259001731873, "Quantum sensing navigation": 0.7238505482673645, "Quantum sensing Position": 0.7126060724258423, "Quantum sensing Timing": 0.6876407861709595, "Quantum sensing": 0.7157878875732422, "Quantum control": 0.6780061721801758 } }, { "id": 1118, "title": "Modulating Charge-Carrier Dynamics in Mn-Doped All-Inorganic Halide Perovskite Quantum Dots through the Doping-Induced Deep Trap States", "abstract": "Transition-metal ion doping has been demonstrated to be effective for tuning the photoluminescence properties of perovskite quantum dots (QDs). However, it would inevitably introduce defects in the la...", "citations": 46, "author_count": 16, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1119, "doi": "10.1021/acs.jpclett.0c01050", "umap_coordinates": { "x": 391.98590087890625, "y": 135.4329833984375, "z": 206.2916259765625 }, "tsne_coordinates": { "x": 17.167253494262695, "y": -9.79533863067627, "z": -21.47345542907715 }, "pca_coordinates": { "x": -0.5163561105728149, "y": -2.3836655616760254, "z": -2.0336341857910156 }, "axis_scores": { "Quantum imaging": 0.7075576782226562, "Quantum Life Science Sensing": 0.6873574256896973, "Quantum sensing Detection": 0.6757827997207642, "Quantum sensing Metrology": 0.662973165512085, "Quantum sensing navigation": 0.6916051506996155, "Quantum sensing Position": 0.663135290145874, "Quantum sensing Timing": 0.6704509258270264, "Quantum sensing": 0.6882443428039551, "Quantum control": 0.6972578763961792 } }, { "id": 1119, "title": "Polarization-correlated photon pairs in the fluorescence from a bichromatically driven four-level atom", "abstract": "We examine the correlation between photons in the resonance fluorescence of a bichromatically driven four-level atom. The four-level atom consists of two twofold degenerate states and, as a consequenc...", "citations": 2, "author_count": 3, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1120, "doi": "10.1088/1464-4266/4/5/313", "umap_coordinates": { "x": 394.94354248046875, "y": 134.85848999023438, "z": 206.9378662109375 }, "tsne_coordinates": { "x": -7.932680606842041, "y": -7.945562839508057, "z": -23.767013549804688 }, "pca_coordinates": { "x": 1.2602248191833496, "y": 0.046942949295043945, "z": 1.451050043106079 }, "axis_scores": { "Quantum imaging": 0.7403627038002014, "Quantum Life Science Sensing": 0.709659218788147, "Quantum sensing Detection": 0.7239381670951843, "Quantum sensing Metrology": 0.7045300602912903, "Quantum sensing navigation": 0.7169415950775146, "Quantum sensing Position": 0.7029650807380676, "Quantum sensing Timing": 0.7110990285873413, "Quantum sensing": 0.7318637371063232, "Quantum control": 0.7001132369041443 } }, { "id": 1120, "title": "THE EFFECTS OF PHOTOINHIBITION ON THE PHOTOSYNTHETIC LIGHT-RESPONSE CURVE OF GREEN PLANT-CELLS (CHLAMYDOMONAS-REINHARDTII)", "abstract": "The photosynthetic response to light can be accurately defined in terms of (1) the initial slope (quantum yield); (2) the asympote (light-saturated rate); (3) the convexity (rate of bending); and (4) ...", "citations": 108, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 1990, "topic": [ "all" ], "embedding_index": 1121, "doi": null, "umap_coordinates": { "x": 391.8310241699219, "y": 139.346435546875, "z": 209.5871124267578 }, "tsne_coordinates": { "x": -2.9324049949645996, "y": 43.56072998046875, "z": -0.06348646432161331 }, "pca_coordinates": { "x": -2.3427531719207764, "y": 4.457385063171387, "z": -3.478876829147339 }, "axis_scores": { "Quantum imaging": 0.7645389437675476, "Quantum Life Science Sensing": 0.7815322279930115, "Quantum sensing Detection": 0.7587818503379822, "Quantum sensing Metrology": 0.7418218851089478, "Quantum sensing navigation": 0.7545510530471802, "Quantum sensing Position": 0.723747730255127, "Quantum sensing Timing": 0.7155592441558838, "Quantum sensing": 0.7761853337287903, "Quantum control": 0.7811254262924194 } }, { "id": 1121, "title": "A Universal Ternary-Solvent-Ink Strategy toward Efficient Inkjet-Printed Perovskite Quantum Dot Light-Emitting Diodes", "abstract": "Toward next-generation electroluminescent quantum dot (QD) displays, inkjet printing technique has been convinced as one of the most promising low-cost and large-scale manufacturing of patterned quant...", "citations": 257, "author_count": 12, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1122, "doi": "10.1002/adma.202107798", "umap_coordinates": { "x": 392.078857421875, "y": 133.9219207763672, "z": 205.02145385742188 }, "tsne_coordinates": { "x": 24.14110565185547, "y": 1.9555970430374146, "z": -24.750377655029297 }, "pca_coordinates": { "x": -3.097590923309326, "y": -2.4917378425598145, "z": -0.0934104323387146 }, "axis_scores": { "Quantum imaging": 0.6895180344581604, "Quantum Life Science Sensing": 0.6655558347702026, "Quantum sensing Detection": 0.673462450504303, "Quantum sensing Metrology": 0.674998939037323, "Quantum sensing navigation": 0.6863171458244324, "Quantum sensing Position": 0.6659116148948669, "Quantum sensing Timing": 0.6675880551338196, "Quantum sensing": 0.6877309083938599, "Quantum control": 0.6836854815483093 } }, { "id": 1122, "title": "Highly efficient, PbS:Hg quantum dot-sensitized, plasmonic solar cells with TiO2 triple-layer photoanode", "abstract": "Highly efficient, PbS:Hg quantum dot-sensitized, plasmonic solar cells with TiO2 triple-layer photoanode were fabricated by successive ionic layer adsorption and reaction (SILAR) method. These nanostr...", "citations": 10, "author_count": 9, "categories": [ "Electrochemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1123, "doi": "10.1007/s10008-019-04280-y", "umap_coordinates": { "x": 392.332763671875, "y": 133.58392333984375, "z": 205.48974609375 }, "tsne_coordinates": { "x": 26.40774917602539, "y": 2.205456256866455, "z": -10.635786056518555 }, "pca_coordinates": { "x": -3.193185806274414, "y": -3.8575406074523926, "z": 1.3314034938812256 }, "axis_scores": { "Quantum imaging": 0.7098941802978516, "Quantum Life Science Sensing": 0.7317249774932861, "Quantum sensing Detection": 0.7058162689208984, "Quantum sensing Metrology": 0.6963024735450745, "Quantum sensing navigation": 0.6974486112594604, "Quantum sensing Position": 0.6870929002761841, "Quantum sensing Timing": 0.6766862273216248, "Quantum sensing": 0.7207731604576111, "Quantum control": 0.6790692806243896 } }, { "id": 1123, "title": "Cavity QED nondemolition measurement scheme using quantized atomic motion", "abstract": "Considering ultracold atoms traversing a high-Q Fabry-Peacuterot cavity, we theoretically demonstrate a quantum nondemolition measurement of the photon number. This fully quantum mechanical approach m...", "citations": 16, "author_count": 3, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1124, "doi": "10.1103/PhysRevA.80.053609", "umap_coordinates": { "x": 395.43426513671875, "y": 136.5202178955078, "z": 207.57083129882812 }, "tsne_coordinates": { "x": -14.594366073608398, "y": -6.192014694213867, "z": 8.677923202514648 }, "pca_coordinates": { "x": 4.680550575256348, "y": 0.9591991901397705, "z": 0.34430140256881714 }, "axis_scores": { "Quantum imaging": 0.7546420097351074, "Quantum Life Science Sensing": 0.7679374814033508, "Quantum sensing Detection": 0.7736133933067322, "Quantum sensing Metrology": 0.7559199929237366, "Quantum sensing navigation": 0.7848531007766724, "Quantum sensing Position": 0.7546542286872864, "Quantum sensing Timing": 0.7291661500930786, "Quantum sensing": 0.7723226547241211, "Quantum control": 0.760418713092804 } }, { "id": 1124, "title": "Dissipative quantum dynamics in 2D:: Anisotropic dissipation and selective bond breaking in surface photochemistry", "abstract": "The dissipative quantum dynamics of a model system, Oz at a Pt(lll) surface, has been solved in two dimensions using a stochastic wave packet approach and parallel-computing techniques. it is found th...", "citations": 11, "author_count": 4, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1125, "doi": "10.1103/PhysRevLett.86.1805", "umap_coordinates": { "x": 393.2659606933594, "y": 136.16671752929688, "z": 206.9587860107422 }, "tsne_coordinates": { "x": 0.5173078179359436, "y": -6.513005256652832, "z": 9.548293113708496 }, "pca_coordinates": { "x": 2.0307369232177734, "y": -1.948408603668213, "z": -1.8398127555847168 }, "axis_scores": { "Quantum imaging": 0.7364900708198547, "Quantum Life Science Sensing": 0.7502358555793762, "Quantum sensing Detection": 0.7347411513328552, "Quantum sensing Metrology": 0.7044364809989929, "Quantum sensing navigation": 0.735519289970398, "Quantum sensing Position": 0.7025089859962463, "Quantum sensing Timing": 0.7039443850517273, "Quantum sensing": 0.7428380250930786, "Quantum control": 0.7236458659172058 } }, { "id": 1125, "title": "Metal Ti quantum chain-inlaid 2D NaSn2(PO4)3/H-doped hard carbon hybrid electrodes with ultrahigh energy storage density", "abstract": "We report the development of a new hybrid electrode that allows for a reinforcing combination of different energy storage mechanisms, providing enhanced energy and power densities. This hybrid electro...", "citations": 20, "author_count": 7, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1126, "doi": "10.1016/j.cej.2020.126311", "umap_coordinates": { "x": 392.7076416015625, "y": 133.7137451171875, "z": 205.0792236328125 }, "tsne_coordinates": { "x": 25.7405948638916, "y": 10.052882194519043, "z": -4.960461616516113 }, "pca_coordinates": { "x": -1.4021384716033936, "y": -1.9312806129455566, "z": -0.5156386494636536 }, "axis_scores": { "Quantum imaging": 0.7153440713882446, "Quantum Life Science Sensing": 0.7304520606994629, "Quantum sensing Detection": 0.7075641751289368, "Quantum sensing Metrology": 0.6924613118171692, "Quantum sensing navigation": 0.6939584016799927, "Quantum sensing Position": 0.6780559420585632, "Quantum sensing Timing": 0.6790257692337036, "Quantum sensing": 0.724108099937439, "Quantum control": 0.6987655758857727 } }, { "id": 1126, "title": "A new class of ensemble conserving algorithms for approximate quantum dynamics: Theoretical formulation and model problems", "abstract": "We develop two classes of quasi-classical dynamics that are shown to conserve the initial quantum ensemble when used in combination with the Feynman-Kleinert approximation of the density operator. The...", "citations": 38, "author_count": 5, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1127, "doi": "10.1063/1.4922887", "umap_coordinates": { "x": 394.0252380371094, "y": 137.3436279296875, "z": 207.12396240234375 }, "tsne_coordinates": { "x": -11.347328186035156, "y": 1.0874547958374023, "z": 32.38035583496094 }, "pca_coordinates": { "x": 2.307795524597168, "y": 1.6058380603790283, "z": -2.033691883087158 }, "axis_scores": { "Quantum imaging": 0.7168238162994385, "Quantum Life Science Sensing": 0.723661482334137, "Quantum sensing Detection": 0.7064406275749207, "Quantum sensing Metrology": 0.7070918083190918, "Quantum sensing navigation": 0.7278502583503723, "Quantum sensing Position": 0.6907256245613098, "Quantum sensing Timing": 0.7205110192298889, "Quantum sensing": 0.715028703212738, "Quantum control": 0.7203707695007324 } }, { "id": 1127, "title": "Bell-state analyzer with channeled atomic particles - art. no. 052311", "abstract": "Recent advances in cooling and trapping of atomic particles has opened up the possibility of building microscopic networks of tubelike traps. As possible applications, we describe how a quantum contro...", "citations": 10, "author_count": 3, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1128, "doi": "10.1103/PhysRevA.62.052311", "umap_coordinates": { "x": 395.8221130371094, "y": 136.24261474609375, "z": 208.10586547851562 }, "tsne_coordinates": { "x": -18.850948333740234, "y": -8.977725982666016, "z": 2.9887983798980713 }, "pca_coordinates": { "x": 4.152926445007324, "y": 0.5337023735046387, "z": 2.5383567810058594 }, "axis_scores": { "Quantum imaging": 0.7093229293823242, "Quantum Life Science Sensing": 0.6903172135353088, "Quantum sensing Detection": 0.7142637372016907, "Quantum sensing Metrology": 0.7018916606903076, "Quantum sensing navigation": 0.7263877391815186, "Quantum sensing Position": 0.6982399225234985, "Quantum sensing Timing": 0.6746023297309875, "Quantum sensing": 0.7215965390205383, "Quantum control": 0.7049741148948669 } }, { "id": 1128, "title": "Core/Shell NaGdF4:Nd3+/NaGdF4 Nanocrystals with Efficient Near-Infrared to Near-Infrared Downconversion Photoluminescence for Bioimaging Applications", "abstract": "We have synthesized core/shell NaGdF4:Nd3(+)/NaGdF4 nanocrystals with an average size of 15 nm and exceptionally high photoluminescence (PL) quantum yield. When excited at 740 nm, the nanocrystals man...", "citations": 447, "author_count": 9, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1129, "doi": "10.1021/nn2042362", "umap_coordinates": { "x": 393.25506591796875, "y": 133.66241455078125, "z": 205.14956665039062 }, "tsne_coordinates": { "x": 10.833752632141113, "y": 17.869081497192383, "z": -21.705942153930664 }, "pca_coordinates": { "x": -4.825148582458496, "y": -2.3307485580444336, "z": 0.6260382533073425 }, "axis_scores": { "Quantum imaging": 0.7110960483551025, "Quantum Life Science Sensing": 0.705111026763916, "Quantum sensing Detection": 0.6817691922187805, "Quantum sensing Metrology": 0.6669881343841553, "Quantum sensing navigation": 0.6747466325759888, "Quantum sensing Position": 0.6299058794975281, "Quantum sensing Timing": 0.6351056098937988, "Quantum sensing": 0.6913570165634155, "Quantum control": 0.6542136669158936 } }, { "id": 1129, "title": "Catalysis of a photochemical quantum chain process -: Optimal conditions for catalyzed quantum chain cis-trans photoisomerizations of a styrylpyrene", "abstract": "In an experimental study of catalyzed photosensitized cis-trans isomerization of 1-(3,5-di-tertbutylstyryl)pyrene, three different catalysts, anthracene, 9-methylanthracene and 9,10-di-chloroanthracen...", "citations": 9, "author_count": 3, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1130, "doi": "10.1016/S1010-6030(00)00419-6", "umap_coordinates": { "x": 392.5394592285156, "y": 135.81808471679688, "z": 204.5972442626953 }, "tsne_coordinates": { "x": 0.10851211845874786, "y": 8.238125801086426, "z": -5.710458755493164 }, "pca_coordinates": { "x": -2.7178289890289307, "y": 0.35115981101989746, "z": -0.06706058979034424 }, "axis_scores": { "Quantum imaging": 0.6791930794715881, "Quantum Life Science Sensing": 0.7254647612571716, "Quantum sensing Detection": 0.680976927280426, "Quantum sensing Metrology": 0.6722323298454285, "Quantum sensing navigation": 0.6630635261535645, "Quantum sensing Position": 0.6697755455970764, "Quantum sensing Timing": 0.6717613935470581, "Quantum sensing": 0.694692075252533, "Quantum control": 0.6718934774398804 } }, { "id": 1130, "title": "Using Some Nanoparticles as Contrast Agents for Optical Bioimaging", "abstract": "The introduction of nanometric contrast agents to optical imaging is helpful for the understanding of some biological processes at the molecular level, as well as the development of diagnostic tools a...", "citations": 19, "author_count": 5, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1131, "doi": "10.1109/JSTQE.2009.2030155", "umap_coordinates": { "x": 393.79205322265625, "y": 133.71981811523438, "z": 205.15794372558594 }, "tsne_coordinates": { "x": 13.330880165100098, "y": 24.053321838378906, "z": -17.279163360595703 }, "pca_coordinates": { "x": -4.02140998840332, "y": -1.2772326469421387, "z": 1.3263509273529053 }, "axis_scores": { "Quantum imaging": 0.6978902816772461, "Quantum Life Science Sensing": 0.6845501661300659, "Quantum sensing Detection": 0.670782208442688, "Quantum sensing Metrology": 0.6507643461227417, "Quantum sensing navigation": 0.6631056070327759, "Quantum sensing Position": 0.6368378400802612, "Quantum sensing Timing": 0.6405490636825562, "Quantum sensing": 0.6696054935455322, "Quantum control": 0.637474775314331 } }, { "id": 1131, "title": "Dynamical response in an array of quantum-dot cells", "abstract": "The time-dependent behavior of quantum cellular automata (QCA), chains of quantum-dot cells, is examined. Each cell consists of four quantum dots on the four corners of a square and contains two elect...", "citations": 16, "author_count": 5, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1132, "doi": "10.1063/1.368381", "umap_coordinates": { "x": 393.4808654785156, "y": 135.35960388183594, "z": 208.14244079589844 }, "tsne_coordinates": { "x": 27.748340606689453, "y": -28.232147216796875, "z": 8.725468635559082 }, "pca_coordinates": { "x": 3.2400288581848145, "y": -2.2335100173950195, "z": -0.8835394382476807 }, "axis_scores": { "Quantum imaging": 0.7468743324279785, "Quantum Life Science Sensing": 0.7522686719894409, "Quantum sensing Detection": 0.7538447380065918, "Quantum sensing Metrology": 0.7370482683181763, "Quantum sensing navigation": 0.7469174265861511, "Quantum sensing Position": 0.7349543571472168, "Quantum sensing Timing": 0.7108051776885986, "Quantum sensing": 0.7618183493614197, "Quantum control": 0.743789553642273 } }, { "id": 1132, "title": "DIPHENYLOCTATETRAENE S2 EMISSION", "abstract": "Diphenyloctatetraene (DPO) fluorescence spectra were investigated by a time-resolved single-photon counting technique. Spectra of an ultrafast emission originating from the DPO S2 state were recorded ...", "citations": 16, "author_count": 3, "categories": [ "Chemistry" ], "year": 1994, "topic": [ "all" ], "embedding_index": 1133, "doi": "10.1016/0009-2614(94)00013-1", "umap_coordinates": { "x": 393.7060241699219, "y": 135.7379913330078, "z": 205.79420471191406 }, "tsne_coordinates": { "x": -6.695920944213867, "y": -0.8440831303596497, "z": -17.25848388671875 }, "pca_coordinates": { "x": -1.7909090518951416, "y": -0.7219910621643066, "z": 0.13130462169647217 }, "axis_scores": { "Quantum imaging": 0.7294812202453613, "Quantum Life Science Sensing": 0.7497517466545105, "Quantum sensing Detection": 0.7340652346611023, "Quantum sensing Metrology": 0.710168719291687, "Quantum sensing navigation": 0.7087628841400146, "Quantum sensing Position": 0.7118833065032959, "Quantum sensing Timing": 0.6987966895103455, "Quantum sensing": 0.7443589568138123, "Quantum control": 0.7141422629356384 } }, { "id": 1133, "title": "Period multiplication in a parametrically driven superconducting resonator", "abstract": "We report on the experimental observation of period multiplication in parametrically driven tunable superconducting resonators. We modulate the magnetic flux through a superconducting quantum interfer...", "citations": 32, "author_count": 6, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1134, "doi": "10.1063/1.5026974", "umap_coordinates": { "x": 394.5239562988281, "y": 135.32333374023438, "z": 208.20338439941406 }, "tsne_coordinates": { "x": -5.710085391998291, "y": -18.459531784057617, "z": 13.30978012084961 }, "pca_coordinates": { "x": 1.9113306999206543, "y": -1.193528175354004, "z": 1.665118932723999 }, "axis_scores": { "Quantum imaging": 0.6969039440155029, "Quantum Life Science Sensing": 0.7259882688522339, "Quantum sensing Detection": 0.7216995358467102, "Quantum sensing Metrology": 0.7245052456855774, "Quantum sensing navigation": 0.6977978348731995, "Quantum sensing Position": 0.6987485885620117, "Quantum sensing Timing": 0.7236906886100769, "Quantum sensing": 0.7265928983688354, "Quantum control": 0.6839694380760193 } }, { "id": 1134, "title": "CLASSICAL SIGNAL MODEL FOR QUANTUM CHANNELS", "abstract": "Recently it was shown that the main distinguishing features of quantum mechanics (QM) can be reproduced by a model based on classical random fields, the so-called prequantum classical statistical fiel...", "citations": 23, "author_count": 4, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1135, "doi": "10.1007/s10946-010-9167-x", "umap_coordinates": { "x": 394.9472961425781, "y": 137.36578369140625, "z": 206.0816192626953 }, "tsne_coordinates": { "x": -23.401748657226562, "y": 4.317262649536133, "z": 17.216533660888672 }, "pca_coordinates": { "x": 1.4589643478393555, "y": 3.9178733825683594, "z": 0.8944389224052429 }, "axis_scores": { "Quantum imaging": 0.7466787695884705, "Quantum Life Science Sensing": 0.7433257699012756, "Quantum sensing Detection": 0.7594354152679443, "Quantum sensing Metrology": 0.7368387579917908, "Quantum sensing navigation": 0.7549058198928833, "Quantum sensing Position": 0.7318693995475769, "Quantum sensing Timing": 0.7254866361618042, "Quantum sensing": 0.7637377977371216, "Quantum control": 0.7394598126411438 } }, { "id": 1135, "title": "Ultra-High Quantum Dot Color Conversion in Graphene-Connected Nanorod Micro-LEDs via Non-Radiative Energy Transfer and Localized Surface Plasmon Resonance", "abstract": "In the field of quantum dot (QD)-based micro-light-emitting diode (mu LED) full-color display technology, achieving high color conversion efficiency (CCE) is one of the key performance indicators. In ...", "citations": 1, "author_count": 13, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1136, "doi": "10.1002/lpor.202500389", "umap_coordinates": { "x": 392.6947326660156, "y": 133.82200622558594, "z": 205.86224365234375 }, "tsne_coordinates": { "x": 31.962604522705078, "y": 4.537385940551758, "z": -15.675148963928223 }, "pca_coordinates": { "x": -2.2825706005096436, "y": -2.8605332374572754, "z": 0.45153433084487915 }, "axis_scores": { "Quantum imaging": 0.721543550491333, "Quantum Life Science Sensing": 0.7433310747146606, "Quantum sensing Detection": 0.7288199663162231, "Quantum sensing Metrology": 0.7089220285415649, "Quantum sensing navigation": 0.7028389573097229, "Quantum sensing Position": 0.7012562155723572, "Quantum sensing Timing": 0.6712661981582642, "Quantum sensing": 0.736184298992157, "Quantum control": 0.7035559415817261 } }, { "id": 1136, "title": "Mercaptosilane-Passivated CuInS2 Quantum Dots for Luminescence Thermometry and Luminescent Labels", "abstract": "Bright and nontoxic quantum dots (QDs) are highly desirable in a variety of applications, from solid-state devices to luminescent probes in assays. However, the processability of these species is ofte...", "citations": 43, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1137, "doi": "10.1021/acsanm.9b00317", "umap_coordinates": { "x": 392.2254943847656, "y": 134.4357452392578, "z": 204.88641357421875 }, "tsne_coordinates": { "x": 19.486722946166992, "y": 5.320858478546143, "z": -15.720876693725586 }, "pca_coordinates": { "x": -4.163225173950195, "y": -3.071491241455078, "z": -0.029205381870269775 }, "axis_scores": { "Quantum imaging": 0.6852765083312988, "Quantum Life Science Sensing": 0.7312096953392029, "Quantum sensing Detection": 0.7058972716331482, "Quantum sensing Metrology": 0.7321490049362183, "Quantum sensing navigation": 0.6939577460289001, "Quantum sensing Position": 0.6843681335449219, "Quantum sensing Timing": 0.6796169877052307, "Quantum sensing": 0.7223653793334961, "Quantum control": 0.6813065409660339 } }, { "id": 1137, "title": "Editorial: Applications of Quantum Mechanical Techniques to Areas Outside of Quantum Mechanics", "abstract": "", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1138, "doi": "10.3389/fphy.2017.00060", "umap_coordinates": { "x": 394.83026123046875, "y": 136.61073303222656, "z": 205.33290100097656 }, "tsne_coordinates": { "x": -18.785768508911133, "y": 21.39423370361328, "z": 18.452011108398438 }, "pca_coordinates": { "x": 0.12548828125, "y": 3.2158992290496826, "z": -1.2766600847244263 }, "axis_scores": { "Quantum imaging": 0.7781809568405151, "Quantum Life Science Sensing": 0.7808991074562073, "Quantum sensing Detection": 0.7608049511909485, "Quantum sensing Metrology": 0.7599026560783386, "Quantum sensing navigation": 0.756217360496521, "Quantum sensing Position": 0.7345824241638184, "Quantum sensing Timing": 0.7266226410865784, "Quantum sensing": 0.7781006693840027, "Quantum control": 0.7490753531455994 } }, { "id": 1138, "title": "Evidence of nonadiabatic exciton-phonon interaction probed by second-order LO-phonon replicas of single quantum dots", "abstract": "In this experimental study of single InGaAs/GaAs quantum dots (QDs) the photoluminescence intensity of the second order LO-phonon replica of the excitonic interband recombination was measured along wi...", "citations": 7, "author_count": 8, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1139, "doi": "10.1103/PhysRevB.87.085317", "umap_coordinates": { "x": 394.7152099609375, "y": 134.8894805908203, "z": 208.6258544921875 }, "tsne_coordinates": { "x": 4.105328559875488, "y": -27.675914764404297, "z": -6.014770030975342 }, "pca_coordinates": { "x": 3.6828484535217285, "y": -2.335383892059326, "z": 1.711972713470459 }, "axis_scores": { "Quantum imaging": 0.6954125165939331, "Quantum Life Science Sensing": 0.7120333313941956, "Quantum sensing Detection": 0.7200298309326172, "Quantum sensing Metrology": 0.6977058053016663, "Quantum sensing navigation": 0.7053734064102173, "Quantum sensing Position": 0.6851953864097595, "Quantum sensing Timing": 0.6854881048202515, "Quantum sensing": 0.7165231704711914, "Quantum control": 0.6622595191001892 } }, { "id": 1139, "title": "Quantum dot manipulation in a single-walled carbon nanotube using a carbon nanotube gate", "abstract": "Cross junctions of carbon nanotubes (CNTs) separated by thin oxide layers have been fabricated, in which the top CNT is used as a local gate to control the electron transport through the lower CNT. Co...", "citations": 10, "author_count": 10, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1140, "doi": "10.1063/1.2402119", "umap_coordinates": { "x": 393.76409912109375, "y": 133.8870849609375, "z": 208.4494171142578 }, "tsne_coordinates": { "x": 22.13602638244629, "y": -28.4111385345459, "z": 2.0967321395874023 }, "pca_coordinates": { "x": 1.8238530158996582, "y": -2.8691186904907227, "z": 2.5607259273529053 }, "axis_scores": { "Quantum imaging": 0.7222570776939392, "Quantum Life Science Sensing": 0.7421974539756775, "Quantum sensing Detection": 0.7522480487823486, "Quantum sensing Metrology": 0.7371439337730408, "Quantum sensing navigation": 0.7292333841323853, "Quantum sensing Position": 0.7053996920585632, "Quantum sensing Timing": 0.6939651966094971, "Quantum sensing": 0.7581579685211182, "Quantum control": 0.7480599880218506 } }, { "id": 1140, "title": "Magnetoluminescence of self-assembled InP dots of various sizes", "abstract": "We present photoluminescence measurements of self-assembled InP quantum dots on a GaAs surface (i.e., freestanding dots), under the influence of a high magnetic field. Reasonably sharp luminescence fe...", "citations": 6, "author_count": 10, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1141, "doi": "10.1103/PhysRevB.58.2026", "umap_coordinates": { "x": 392.6073303222656, "y": 134.713134765625, "z": 208.17596435546875 }, "tsne_coordinates": { "x": 21.838214874267578, "y": -13.670954704284668, "z": 5.03364372253418 }, "pca_coordinates": { "x": 2.0840110778808594, "y": -3.4877724647521973, "z": -0.6198139786720276 }, "axis_scores": { "Quantum imaging": 0.7275291085243225, "Quantum Life Science Sensing": 0.7467334270477295, "Quantum sensing Detection": 0.7217443585395813, "Quantum sensing Metrology": 0.7193116545677185, "Quantum sensing navigation": 0.709517240524292, "Quantum sensing Position": 0.7031606435775757, "Quantum sensing Timing": 0.6813480257987976, "Quantum sensing": 0.730129599571228, "Quantum control": 0.6896295547485352 } }, { "id": 1141, "title": "Magnetism in artificial lattices", "abstract": "We compare magnetism in two artificial lattice structures, a quantum dot array formed in a two-dimensional electron gas and an optical lattice loaded with repulsive, contact-interacting fermionic atom...", "citations": 2, "author_count": 5, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1142, "doi": "10.1140/epjd/e2007-00098-4", "umap_coordinates": { "x": 393.74285888671875, "y": 136.1444854736328, "z": 207.3631134033203 }, "tsne_coordinates": { "x": -4.551329135894775, "y": -18.951908111572266, "z": 32.504276275634766 }, "pca_coordinates": { "x": 2.3385181427001953, "y": 0.8185467720031738, "z": -2.191251754760742 }, "axis_scores": { "Quantum imaging": 0.7218849062919617, "Quantum Life Science Sensing": 0.7138486504554749, "Quantum sensing Detection": 0.6964352130889893, "Quantum sensing Metrology": 0.697172224521637, "Quantum sensing navigation": 0.7090390920639038, "Quantum sensing Position": 0.6960970163345337, "Quantum sensing Timing": 0.6862668991088867, "Quantum sensing": 0.7070649862289429, "Quantum control": 0.7027043700218201 } }, { "id": 1142, "title": "Evaluation of photon-counting spectral breast tomosynthesis", "abstract": "We have designed a mammography system that for the first time combines photon-counting spectral imaging with tomosynthesis. The present study is a comprehensive physical evaluation of the system; tomo...", "citations": 1, "author_count": 7, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1143, "doi": "10.1117/12.876874", "umap_coordinates": { "x": 395.5202331542969, "y": 132.81300354003906, "z": 205.80612182617188 }, "tsne_coordinates": { "x": -7.711058139801025, "y": 20.07376480102539, "z": -26.136005401611328 }, "pca_coordinates": { "x": -3.289468288421631, "y": 1.8996148109436035, "z": 4.043100357055664 }, "axis_scores": { "Quantum imaging": 0.7225325703620911, "Quantum Life Science Sensing": 0.7059268951416016, "Quantum sensing Detection": 0.7097728252410889, "Quantum sensing Metrology": 0.7064364552497864, "Quantum sensing navigation": 0.6898901462554932, "Quantum sensing Position": 0.6799445152282715, "Quantum sensing Timing": 0.689303994178772, "Quantum sensing": 0.707474946975708, "Quantum control": 0.6465690732002258 } }, { "id": 1143, "title": "Influence of Impurity Spin Dynamics on Quantum Transport in Epitaxial Graphene", "abstract": "Experimental evidence from both spin-valve and quantum transport measurements points towards unexpectedly fast spin relaxation in graphene. We report magnetotransport studies of epitaxial graphene on ...", "citations": 15, "author_count": 10, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1144, "doi": "10.1103/PhysRevLett.115.106602", "umap_coordinates": { "x": 393.9356689453125, "y": 135.61085510253906, "z": 209.1084747314453 }, "tsne_coordinates": { "x": 4.221547603607178, "y": -24.001548767089844, "z": 2.654663324356079 }, "pca_coordinates": { "x": 5.569626808166504, "y": -2.4076590538024902, "z": -0.4095398783683777 }, "axis_scores": { "Quantum imaging": 0.7249850034713745, "Quantum Life Science Sensing": 0.7245789170265198, "Quantum sensing Detection": 0.7240009307861328, "Quantum sensing Metrology": 0.6993744969367981, "Quantum sensing navigation": 0.742408812046051, "Quantum sensing Position": 0.714348554611206, "Quantum sensing Timing": 0.7049030661582947, "Quantum sensing": 0.7380882501602173, "Quantum control": 0.7343529462814331 } }, { "id": 1144, "title": "A symmetry approach to geometric phase for quantum ensembles", "abstract": "We use tools from the theory of dynamical systems with symmetries to stratify Uhlmann's standard purification bundle and derive a new connection for mixed quantum states. For unitarily evolving system...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1145, "doi": "10.1088/1751-8113/48/48/485302", "umap_coordinates": { "x": 394.993408203125, "y": 137.2783203125, "z": 207.33920288085938 }, "tsne_coordinates": { "x": -36.250980377197266, "y": -5.8005051612854, "z": 5.926950454711914 }, "pca_coordinates": { "x": 3.051485538482666, "y": 3.160062789916992, "z": -0.926760196685791 }, "axis_scores": { "Quantum imaging": 0.6963218450546265, "Quantum Life Science Sensing": 0.6779230833053589, "Quantum sensing Detection": 0.6584411859512329, "Quantum sensing Metrology": 0.6828420758247375, "Quantum sensing navigation": 0.7086531519889832, "Quantum sensing Position": 0.6865499019622803, "Quantum sensing Timing": 0.6751803159713745, "Quantum sensing": 0.6832682490348816, "Quantum control": 0.6899825930595398 } }, { "id": 1145, "title": "Quantum information erasure inside black holes", "abstract": "An effective field theory for infalling observers in the vicinity of a quasi-static black hole is given in terms of a freely falling lattice discretization. The lattice model successfully reproduces t...", "citations": 10, "author_count": 3, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1146, "doi": "10.1007/JHEP12(2015)096", "umap_coordinates": { "x": 395.736572265625, "y": 136.83518981933594, "z": 206.2018280029297 }, "tsne_coordinates": { "x": -42.89419937133789, "y": -0.8453530073165894, "z": 9.668787956237793 }, "pca_coordinates": { "x": 1.6640009880065918, "y": 2.810360908508301, "z": 0.3687674403190613 }, "axis_scores": { "Quantum imaging": 0.7841036915779114, "Quantum Life Science Sensing": 0.7478125095367432, "Quantum sensing Detection": 0.7646722793579102, "Quantum sensing Metrology": 0.7331860661506653, "Quantum sensing navigation": 0.7633939385414124, "Quantum sensing Position": 0.7657611966133118, "Quantum sensing Timing": 0.7490173578262329, "Quantum sensing": 0.7739103436470032, "Quantum control": 0.7401618361473083 } }, { "id": 1146, "title": "Addition spectra in disordered quantum dots with strongly interacting electrons", "abstract": "We report on numerical simulations of the electron addition spectra in quantum dots weakly coupled to one charge reservoir, and containing a small number (N less than or equal to 10) of particles. In ...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1147, "doi": "10.1002/(SICI)1521-3889(199911)8:7/9<759::AID-ANDP759>3.0.CO;2-#", "umap_coordinates": { "x": 392.930908203125, "y": 135.19337463378906, "z": 207.7836456298828 }, "tsne_coordinates": { "x": -1.9025763273239136, "y": -37.133750915527344, "z": -11.900531768798828 }, "pca_coordinates": { "x": 1.1773285865783691, "y": -1.602055549621582, "z": 1.2817258834838867 }, "axis_scores": { "Quantum imaging": 0.7362222671508789, "Quantum Life Science Sensing": 0.7046046853065491, "Quantum sensing Detection": 0.7364632487297058, "Quantum sensing Metrology": 0.7083852291107178, "Quantum sensing navigation": 0.7056732177734375, "Quantum sensing Position": 0.692172646522522, "Quantum sensing Timing": 0.6806957125663757, "Quantum sensing": 0.7325102686882019, "Quantum control": 0.6802395582199097 } }, { "id": 1147, "title": "Tetrahedral chalcopyrite quantum dots for solar-cell applications", "abstract": "Chalcopyrite structures are candidates for efficient intermediate-band solar cells in thin-film technology. Here, we examine a material combination of CuInSe(2) dots embedded in CuGaS(2) matrix and sh...", "citations": 12, "author_count": 7, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1148, "doi": "10.1063/1.3640225", "umap_coordinates": { "x": 392.39349365234375, "y": 133.69317626953125, "z": 206.05740356445312 }, "tsne_coordinates": { "x": 25.515148162841797, "y": -0.4825267195701599, "z": -3.6436305046081543 }, "pca_coordinates": { "x": -0.8366270065307617, "y": -4.517661094665527, "z": -0.7207076549530029 }, "axis_scores": { "Quantum imaging": 0.7288287878036499, "Quantum Life Science Sensing": 0.7582347393035889, "Quantum sensing Detection": 0.7248654961585999, "Quantum sensing Metrology": 0.7239218950271606, "Quantum sensing navigation": 0.7103875875473022, "Quantum sensing Position": 0.690792977809906, "Quantum sensing Timing": 0.6994112730026245, "Quantum sensing": 0.7453243732452393, "Quantum control": 0.7046653032302856 } }, { "id": 1148, "title": "Manipulating the spin polarization of excitons in a single quantum dot by optical means", "abstract": "Circular polarization studies of photoluminescence from the neutral (X(0)) and the positively charged (X(+)) excitons are reported for individual InAs/GaAs quantum dots (QDs). High polarization degree...", "citations": 4, "author_count": 4, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1149, "doi": "10.1063/1.3554422", "umap_coordinates": { "x": 393.6356506347656, "y": 133.93490600585938, "z": 208.1703338623047 }, "tsne_coordinates": { "x": 20.32404136657715, "y": -27.16178321838379, "z": -0.5224875807762146 }, "pca_coordinates": { "x": 1.5436882972717285, "y": -3.8425440788269043, "z": 1.6311235427856445 }, "axis_scores": { "Quantum imaging": 0.7608903646469116, "Quantum Life Science Sensing": 0.7447348833084106, "Quantum sensing Detection": 0.7581700086593628, "Quantum sensing Metrology": 0.7528109550476074, "Quantum sensing navigation": 0.7471546530723572, "Quantum sensing Position": 0.7172055244445801, "Quantum sensing Timing": 0.7008251547813416, "Quantum sensing": 0.7780125141143799, "Quantum control": 0.7562374472618103 } }, { "id": 1149, "title": "Ultrafast Dynamics of Multiple Exciton Harvesting in the CdSe-ZnO System: Electron Injection versus Auger Recombination", "abstract": "We study multiple electron transfer from a CdSe quantum dot (QD) to ZnO, which is a prerequisite for successful utilization of multiple exciton generation for photovoltaics. By using ultrafast time-re...", "citations": 84, "author_count": 7, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1150, "doi": "10.1021/nl303746d", "umap_coordinates": { "x": 392.291259765625, "y": 135.14244079589844, "z": 206.9059295654297 }, "tsne_coordinates": { "x": 16.537181854248047, "y": 1.9866762161254883, "z": 5.199368476867676 }, "pca_coordinates": { "x": -0.8420718312263489, "y": -3.8688440322875977, "z": -1.347723364830017 }, "axis_scores": { "Quantum imaging": 0.6855487823486328, "Quantum Life Science Sensing": 0.7035040855407715, "Quantum sensing Detection": 0.6817576289176941, "Quantum sensing Metrology": 0.6518843173980713, "Quantum sensing navigation": 0.6736953258514404, "Quantum sensing Position": 0.6440904140472412, "Quantum sensing Timing": 0.6562638878822327, "Quantum sensing": 0.6765586733818054, "Quantum control": 0.6546986103057861 } }, { "id": 1150, "title": "FLUORESCENCE, PHOTODESTRUCTION, PHOTOIONIZATION AND THERMAL-DEGRADATION OF O-PHTHALALDEHYDE /BETA-MERCAPTOETHANOL-LABELED ALIPHATIC ALPHA-OLIGOPEPTIDES", "abstract": "Photophysical and photochemical properties of o-phthalaldehyde/beta-mercaptoethanol-labelled aliphatic alpha-peptides were investigated. It is found that alpha-peptide derivatives have lower fluoresce...", "citations": 5, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1151, "doi": "10.1016/0021-9673(94)01200-X", "umap_coordinates": { "x": 393.4754333496094, "y": 135.4583282470703, "z": 204.70968627929688 }, "tsne_coordinates": { "x": 1.2664566040039062, "y": 16.71738624572754, "z": -13.413321495056152 }, "pca_coordinates": { "x": -3.8506219387054443, "y": 1.458808183670044, "z": -0.5040496587753296 }, "axis_scores": { "Quantum imaging": 0.6843606233596802, "Quantum Life Science Sensing": 0.6944693922996521, "Quantum sensing Detection": 0.6599964499473572, "Quantum sensing Metrology": 0.6425803899765015, "Quantum sensing navigation": 0.6565924286842346, "Quantum sensing Position": 0.6477851867675781, "Quantum sensing Timing": 0.6499663591384888, "Quantum sensing": 0.6718083024024963, "Quantum control": 0.6379274725914001 } }, { "id": 1151, "title": "Key issues review: useful autonomous quantum machines", "abstract": "Controlled quantum machines have matured significantly. A natural next step is to increasingly grant them autonomy, freeing them from time-dependent external control. For example, autonomy could pare ...", "citations": 9, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1152, "doi": "10.1088/1361-6633/ad8803", "umap_coordinates": { "x": 395.0896301269531, "y": 135.8871612548828, "z": 206.25477600097656 }, "tsne_coordinates": { "x": -37.19171905517578, "y": -6.875227928161621, "z": -5.230806827545166 }, "pca_coordinates": { "x": 0.6882615089416504, "y": 1.491229772567749, "z": -0.14015763998031616 }, "axis_scores": { "Quantum imaging": 0.7291284799575806, "Quantum Life Science Sensing": 0.7472643256187439, "Quantum sensing Detection": 0.7206809520721436, "Quantum sensing Metrology": 0.7098894119262695, "Quantum sensing navigation": 0.7239651679992676, "Quantum sensing Position": 0.6831230521202087, "Quantum sensing Timing": 0.679784893989563, "Quantum sensing": 0.7363396286964417, "Quantum control": 0.7245106101036072 } }, { "id": 1152, "title": "Single-electron transport in InAs nanowire quantum dots formed by crystal phase engineering", "abstract": "We report electrical characterization of quantum dots formed by introducing pairs of thin wurtzite (WZ) segments in zinc blende (ZB) InAs nanowires. Regular Coulomb oscillations are observed over a wi...", "citations": 54, "author_count": 7, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1153, "doi": "10.1103/PhysRevB.93.195422", "umap_coordinates": { "x": 393.8384704589844, "y": 134.33013916015625, "z": 208.88543701171875 }, "tsne_coordinates": { "x": 8.344340324401855, "y": -25.432300567626953, "z": -5.963995933532715 }, "pca_coordinates": { "x": 3.8951120376586914, "y": -5.349422931671143, "z": 0.6948681473731995 }, "axis_scores": { "Quantum imaging": 0.7072490453720093, "Quantum Life Science Sensing": 0.7260136604309082, "Quantum sensing Detection": 0.7219142317771912, "Quantum sensing Metrology": 0.7091326713562012, "Quantum sensing navigation": 0.7410940527915955, "Quantum sensing Position": 0.691628098487854, "Quantum sensing Timing": 0.678541898727417, "Quantum sensing": 0.727594792842865, "Quantum control": 0.7021035552024841 } }, { "id": 1153, "title": "Negative differential capacitance of quantum dots - art. no. 125307", "abstract": "The dependence of charges accumulated on a quantum dot under an external voltage bias is studied. The charge is sensitive to the changes of number of filled levels and the number of conducting levels ...", "citations": 40, "author_count": 6, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1154, "doi": "10.1103/PhysRevB.65.125307", "umap_coordinates": { "x": 394.7161865234375, "y": 135.1681365966797, "z": 208.93496704101562 }, "tsne_coordinates": { "x": 3.0110416412353516, "y": -33.214263916015625, "z": 0.9311233758926392 }, "pca_coordinates": { "x": 3.9747872352600098, "y": -1.261716365814209, "z": 0.5424872040748596 }, "axis_scores": { "Quantum imaging": 0.7165051698684692, "Quantum Life Science Sensing": 0.7419540882110596, "Quantum sensing Detection": 0.7437753677368164, "Quantum sensing Metrology": 0.7254967093467712, "Quantum sensing navigation": 0.7222822308540344, "Quantum sensing Position": 0.7013474702835083, "Quantum sensing Timing": 0.7001911401748657, "Quantum sensing": 0.7390488982200623, "Quantum control": 0.7281649112701416 } }, { "id": 1154, "title": "Autonomous quantum clocks using athermal resources", "abstract": "Here we explore the possibility of precise time keeping in quantum systems using athermal resources. We show that quantum measurement engineered reservoirs can be used as athermal resources to drive t...", "citations": 7, "author_count": 2, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1155, "doi": "10.1103/PhysRevResearch.5.043013", "umap_coordinates": { "x": 395.3419189453125, "y": 136.52783203125, "z": 207.73736572265625 }, "tsne_coordinates": { "x": -26.313573837280273, "y": -24.151884078979492, "z": -1.130814790725708 }, "pca_coordinates": { "x": 3.2522454261779785, "y": 1.2385860681533813, "z": 1.2003490924835205 }, "axis_scores": { "Quantum imaging": 0.7476620674133301, "Quantum Life Science Sensing": 0.756703794002533, "Quantum sensing Detection": 0.743558943271637, "Quantum sensing Metrology": 0.7485266923904419, "Quantum sensing navigation": 0.7657426595687866, "Quantum sensing Position": 0.728958010673523, "Quantum sensing Timing": 0.7494577169418335, "Quantum sensing": 0.7641181945800781, "Quantum control": 0.7440539598464966 } }, { "id": 1155, "title": "Ultrasmall Nanoplatelets: The Ultimate Tuning of Optoelectronic Properties", "abstract": "2D semiconducting nanoplatelets (NPLs) are an emerging class of photo-active materials. They can be used as building blocks in optoelectronic devices thanks to their large absorption coefficient, high...", "citations": 31, "author_count": 18, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1156, "doi": "10.1002/aenm.201602728", "umap_coordinates": { "x": 393.3117980957031, "y": 134.42625427246094, "z": 206.13124084472656 }, "tsne_coordinates": { "x": 15.096796035766602, "y": -20.05666160583496, "z": -26.344297409057617 }, "pca_coordinates": { "x": -1.5741974115371704, "y": -2.722768783569336, "z": 0.09044152498245239 }, "axis_scores": { "Quantum imaging": 0.7189438939094543, "Quantum Life Science Sensing": 0.7622684240341187, "Quantum sensing Detection": 0.7213180065155029, "Quantum sensing Metrology": 0.7262428402900696, "Quantum sensing navigation": 0.7147510647773743, "Quantum sensing Position": 0.7158041000366211, "Quantum sensing Timing": 0.6746177673339844, "Quantum sensing": 0.7389587759971619, "Quantum control": 0.6966609954833984 } }, { "id": 1156, "title": "Dynamics of Carrier Transfer into In(Ga)As Self-assembled Quantum Dots", "abstract": "The chapter reviews ultrafast dynamics of carrier transfer into InAs/GaAs and InGaAs/GaAs quantum dots of different doping, densities and interlevel energies. Results from theoretical modeling and tim...", "citations": 1, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1157, "doi": null, "umap_coordinates": { "x": 391.8608703613281, "y": 138.99832153320312, "z": 209.25160217285156 }, "tsne_coordinates": { "x": -11.771536827087402, "y": 47.820804595947266, "z": -5.7980756759643555 }, "pca_coordinates": { "x": 0.8955764770507812, "y": -0.19852590560913086, "z": -2.714445114135742 }, "axis_scores": { "Quantum imaging": 0.733649730682373, "Quantum Life Science Sensing": 0.7339509725570679, "Quantum sensing Detection": 0.7207542657852173, "Quantum sensing Metrology": 0.6962118148803711, "Quantum sensing navigation": 0.7394158840179443, "Quantum sensing Position": 0.7021149396896362, "Quantum sensing Timing": 0.6982908248901367, "Quantum sensing": 0.726732075214386, "Quantum control": 0.7372270226478577 } }, { "id": 1157, "title": "Few electron double quantum dots in InAs/InP nanowire heterostructures", "abstract": "We report on fabrication of double quantum dots in catalytically grown InAs/InP nanowire heterostructures. In the few-electron regime, starting with both dots empty, our low-temperature transport meas...", "citations": 108, "author_count": 8, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1158, "doi": "10.1021/nl061913f", "umap_coordinates": { "x": 392.5314025878906, "y": 134.0670166015625, "z": 207.81268310546875 }, "tsne_coordinates": { "x": 17.893619537353516, "y": -17.82320785522461, "z": -6.078460216522217 }, "pca_coordinates": { "x": 0.130914568901062, "y": -5.5058722496032715, "z": 1.0179402828216553 }, "axis_scores": { "Quantum imaging": 0.706885814666748, "Quantum Life Science Sensing": 0.7129714488983154, "Quantum sensing Detection": 0.7138955593109131, "Quantum sensing Metrology": 0.6969448328018188, "Quantum sensing navigation": 0.7034854888916016, "Quantum sensing Position": 0.6951867341995239, "Quantum sensing Timing": 0.6788722276687622, "Quantum sensing": 0.7163342237472534, "Quantum control": 0.6697246432304382 } }, { "id": 1158, "title": "Coherent Transport in a Linear Triple Quantum Dot Made from a Pure-Phase InAs Nanowire", "abstract": "A highly tunable linear triple quantum dot (TQD) device is realized in a single-crystalline pure-phase InAs nanowire using a local finger gate technique. The electrical measurements show that the char...", "citations": 21, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1159, "doi": "10.1021/acs.nanolett.7b00927", "umap_coordinates": { "x": 392.9637756347656, "y": 133.92745971679688, "z": 207.57240295410156 }, "tsne_coordinates": { "x": 17.166797637939453, "y": -14.322639465332031, "z": -6.789318084716797 }, "pca_coordinates": { "x": 1.2633025646209717, "y": -5.096643924713135, "z": 1.7408251762390137 }, "axis_scores": { "Quantum imaging": 0.7303211688995361, "Quantum Life Science Sensing": 0.7262853980064392, "Quantum sensing Detection": 0.7374045848846436, "Quantum sensing Metrology": 0.7133877277374268, "Quantum sensing navigation": 0.7455421686172485, "Quantum sensing Position": 0.7181251049041748, "Quantum sensing Timing": 0.7035101056098938, "Quantum sensing": 0.7403135299682617, "Quantum control": 0.6978070735931396 } }, { "id": 1159, "title": "A Facile Approach for Elemental-Doped Carbon Quantum Dots and Their Application for Efficient Photodetectors", "abstract": "The present work demonstrates a facile hydrothermal approach to synthesize lanthanide-doped carbon quantum dots (CQDs) with europium and/or gadolinium elements. Taking the advantage of broadband adsor...", "citations": 40, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1160, "doi": "10.1002/smll.202105683", "umap_coordinates": { "x": 392.4669494628906, "y": 133.5275421142578, "z": 205.23825073242188 }, "tsne_coordinates": { "x": 22.472896575927734, "y": 10.811427116394043, "z": -10.21037483215332 }, "pca_coordinates": { "x": -4.179801940917969, "y": -2.9419875144958496, "z": 0.8874301314353943 }, "axis_scores": { "Quantum imaging": 0.6890302300453186, "Quantum Life Science Sensing": 0.7093024849891663, "Quantum sensing Detection": 0.6938908696174622, "Quantum sensing Metrology": 0.6918472051620483, "Quantum sensing navigation": 0.6684021353721619, "Quantum sensing Position": 0.6758028864860535, "Quantum sensing Timing": 0.6583417057991028, "Quantum sensing": 0.7001225352287292, "Quantum control": 0.6530469655990601 } }, { "id": 1160, "title": "Entanglement between charge qubit states and coherent states of nanomechanical resonator generated by ac Josephson effect", "abstract": "We considered a nanoelectromechanical system consisting of a movable Cooper-pair box qubit, which is subject to an electrostatic field, and coupled to the two bulk superconductors via tunneling proces...", "citations": 4, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1161, "doi": "10.1063/10.0003739", "umap_coordinates": { "x": 394.8256530761719, "y": 136.4180145263672, "z": 207.53273010253906 }, "tsne_coordinates": { "x": -12.506004333496094, "y": -9.1693696975708, "z": 9.959284782409668 }, "pca_coordinates": { "x": 4.407293796539307, "y": 0.26117706298828125, "z": 0.4857129454612732 }, "axis_scores": { "Quantum imaging": 0.753491997718811, "Quantum Life Science Sensing": 0.7658196687698364, "Quantum sensing Detection": 0.7604899406433105, "Quantum sensing Metrology": 0.74797523021698, "Quantum sensing navigation": 0.7637930512428284, "Quantum sensing Position": 0.7484257221221924, "Quantum sensing Timing": 0.7208551168441772, "Quantum sensing": 0.7697617411613464, "Quantum control": 0.7459814548492432 } }, { "id": 1161, "title": "Improved noise performance of ultrathin YBCO Dayem bridge nanoSQUIDs", "abstract": "We have fabricated YBa2Cu3O7-delta (YBCO) nano superconducting quantum interference devices (nanoSQUIDs), realized in Dayem bridge configuration, on films with thickness down to 10 nm. The devices, wh...", "citations": 20, "author_count": 7, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1162, "doi": "10.1088/0953-2048/30/1/014008", "umap_coordinates": { "x": 394.6356506347656, "y": 134.85400390625, "z": 207.0900421142578 }, "tsne_coordinates": { "x": -0.24144510924816132, "y": -26.77303695678711, "z": -26.364356994628906 }, "pca_coordinates": { "x": 0.4410909414291382, "y": -0.4437732696533203, "z": 1.1705503463745117 }, "axis_scores": { "Quantum imaging": 0.6896864771842957, "Quantum Life Science Sensing": 0.7061829566955566, "Quantum sensing Detection": 0.6737292408943176, "Quantum sensing Metrology": 0.6819650530815125, "Quantum sensing navigation": 0.6911574006080627, "Quantum sensing Position": 0.6668816804885864, "Quantum sensing Timing": 0.6677975654602051, "Quantum sensing": 0.6903263330459595, "Quantum control": 0.6766515970230103 } }, { "id": 1162, "title": "EFFICIENT ADIABATIC AND DIABATIC SINGLET-STATE CIS-TRANS PHOTOISOMERIZATIONS OF A STYRYLSTILBENEDICARBALDEHYDE", "abstract": "The mechanism for cis-trans photoisomerization of the three isomers of 4'-styrylstilbene-4,4''-dicarbaldehyde has been investigated. Single and twofold isomerizations of the Z,Z-isomer have been obser...", "citations": 15, "author_count": 3, "categories": [ "Chemistry" ], "year": 1994, "topic": [ "all" ], "embedding_index": 1163, "doi": "10.1021/j100073a022", "umap_coordinates": { "x": 392.0854797363281, "y": 135.4320068359375, "z": 205.31500244140625 }, "tsne_coordinates": { "x": -4.065762519836426, "y": -2.9505534172058105, "z": -12.617807388305664 }, "pca_coordinates": { "x": -2.450770616531372, "y": -1.3151917457580566, "z": -1.3511192798614502 }, "axis_scores": { "Quantum imaging": 0.6577458381652832, "Quantum Life Science Sensing": 0.6481317281723022, "Quantum sensing Detection": 0.6341228485107422, "Quantum sensing Metrology": 0.6261053085327148, "Quantum sensing navigation": 0.6300654411315918, "Quantum sensing Position": 0.6102420091629028, "Quantum sensing Timing": 0.6511342525482178, "Quantum sensing": 0.651787281036377, "Quantum control": 0.6278814673423767 } }, { "id": 1163, "title": "Water-induced high-performance quantum-dot light-emitting diodes", "abstract": "Solution-processed light-emitting diodes (LEDs) are appealing for their potential in the low-cost fabrication of large-area devices. However, the limited performance of solution-processed blue LEDs, p...", "citations": 3, "author_count": 26, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1164, "doi": "10.1038/s41566-025-01757-3", "umap_coordinates": { "x": 392.52838134765625, "y": 134.373779296875, "z": 206.03073120117188 }, "tsne_coordinates": { "x": 8.301885604858398, "y": -7.236201286315918, "z": -1.3862448930740356 }, "pca_coordinates": { "x": -2.4207911491394043, "y": -3.5783562660217285, "z": 0.49709850549697876 }, "axis_scores": { "Quantum imaging": 0.75010085105896, "Quantum Life Science Sensing": 0.7527139186859131, "Quantum sensing Detection": 0.7343302965164185, "Quantum sensing Metrology": 0.7138710021972656, "Quantum sensing navigation": 0.7095201015472412, "Quantum sensing Position": 0.6819742321968079, "Quantum sensing Timing": 0.6784009337425232, "Quantum sensing": 0.7476078867912292, "Quantum control": 0.7060146331787109 } }, { "id": 1164, "title": "Bell's theorem and its tests: Proof that nature is superdeterministic-Not random", "abstract": "By analyzing the same Bell experiment in different reference frames, we show that nature at its fundamental level is superdeterministic, not random, in contrast to what is indicated by orthodox quantu...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1165, "doi": "10.4006/0836-1398-33.2.216", "umap_coordinates": { "x": 395.65875244140625, "y": 136.72061157226562, "z": 206.1744384765625 }, "tsne_coordinates": { "x": -33.57887649536133, "y": 3.387657403945923, "z": 8.053947448730469 }, "pca_coordinates": { "x": 0.4784872531890869, "y": 4.09634256362915, "z": 0.33519309759140015 }, "axis_scores": { "Quantum imaging": 0.7111415266990662, "Quantum Life Science Sensing": 0.7558690309524536, "Quantum sensing Detection": 0.73249751329422, "Quantum sensing Metrology": 0.7194790840148926, "Quantum sensing navigation": 0.7380875945091248, "Quantum sensing Position": 0.7053719162940979, "Quantum sensing Timing": 0.7091639041900635, "Quantum sensing": 0.7425366044044495, "Quantum control": 0.6955495476722717 } }, { "id": 1165, "title": "Concept of information laser: from quantum theory to behavioural dynamics", "abstract": "Recently, the methods of quantum theory, especially quantum information, started to be widely applied outside of physics: in cognitive, social sciences, economics, finance, decision making and biology...", "citations": 13, "author_count": 4, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1166, "doi": "10.1140/epjst/e2018-800027-6", "umap_coordinates": { "x": 395.0908203125, "y": 136.47280883789062, "z": 206.06813049316406 }, "tsne_coordinates": { "x": -25.751632690429688, "y": 11.404102325439453, "z": 9.544994354248047 }, "pca_coordinates": { "x": 1.1973598003387451, "y": 2.512258529663086, "z": -0.31279343366622925 }, "axis_scores": { "Quantum imaging": 0.7738122940063477, "Quantum Life Science Sensing": 0.7857338190078735, "Quantum sensing Detection": 0.7699458599090576, "Quantum sensing Metrology": 0.7510513663291931, "Quantum sensing navigation": 0.7787699699401855, "Quantum sensing Position": 0.7754175662994385, "Quantum sensing Timing": 0.7542280554771423, "Quantum sensing": 0.7841842174530029, "Quantum control": 0.7814095616340637 } }, { "id": 1166, "title": "Majorana bound state in a coupled quantum-dot hybrid-nanowire system", "abstract": "Hybrid nanowires combining semiconductor and superconductor materials appear well suited for the creation, detection, and control of Majorana bound states (MBSs). We demonstrate the emergence of MBSs ...", "citations": 985, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1167, "doi": "10.1126/science.aaf3961", "umap_coordinates": { "x": 393.859130859375, "y": 135.47999572753906, "z": 207.8667449951172 }, "tsne_coordinates": { "x": -1.5225374698638916, "y": -19.03508186340332, "z": 5.648216247558594 }, "pca_coordinates": { "x": 1.9892196655273438, "y": -2.2434659004211426, "z": -1.1579468250274658 }, "axis_scores": { "Quantum imaging": 0.7314291000366211, "Quantum Life Science Sensing": 0.7463252544403076, "Quantum sensing Detection": 0.7430639266967773, "Quantum sensing Metrology": 0.7295044660568237, "Quantum sensing navigation": 0.7472589015960693, "Quantum sensing Position": 0.7177026867866516, "Quantum sensing Timing": 0.6869844198226929, "Quantum sensing": 0.7507893443107605, "Quantum control": 0.7225746512413025 } }, { "id": 1167, "title": "Role of surface ligands in optical properties of colloidal CdSe/CdS quantum dots", "abstract": "In order to study the role of surface ligands in determining optical properties of colloidal quantum dots (QDs), we have selectively fabricated and studied CdSe/CdS core-shell QDs with strongly confin...", "citations": 74, "author_count": 8, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1168, "doi": "10.1039/c0cp02688c", "umap_coordinates": { "x": 392.14788818359375, "y": 134.72412109375, "z": 206.056884765625 }, "tsne_coordinates": { "x": 16.65336036682129, "y": -3.700446128845215, "z": -12.281452178955078 }, "pca_coordinates": { "x": -2.8973569869995117, "y": -3.755815029144287, "z": -3.0320467948913574 }, "axis_scores": { "Quantum imaging": 0.7024892568588257, "Quantum Life Science Sensing": 0.7157082557678223, "Quantum sensing Detection": 0.6927784085273743, "Quantum sensing Metrology": 0.668049156665802, "Quantum sensing navigation": 0.6782112717628479, "Quantum sensing Position": 0.6877546310424805, "Quantum sensing Timing": 0.6445948481559753, "Quantum sensing": 0.6971703767776489, "Quantum control": 0.688628613948822 } }, { "id": 1168, "title": "Enzyme catalysis: Transition structures and quantum dynamical aspects: Modeling rubisco's oxygenation and carboxylation mechanisms", "abstract": "Quantum dynamics is introduced with the help of molecular states (MS) for systems decomposable into n electrons and N nuclei. These states, when projected onto the electronic and nuclear configuration...", "citations": 10, "author_count": 6, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1169, "doi": "10.1002/qua.10116", "umap_coordinates": { "x": 393.7098388671875, "y": 137.05738830566406, "z": 205.60252380371094 }, "tsne_coordinates": { "x": -15.630146980285645, "y": 11.252214431762695, "z": 21.911434173583984 }, "pca_coordinates": { "x": -0.7377949953079224, "y": 1.134078860282898, "z": -4.228482723236084 }, "axis_scores": { "Quantum imaging": 0.7242954969406128, "Quantum Life Science Sensing": 0.74968022108078, "Quantum sensing Detection": 0.7107658386230469, "Quantum sensing Metrology": 0.7134267091751099, "Quantum sensing navigation": 0.7224811315536499, "Quantum sensing Position": 0.6943021416664124, "Quantum sensing Timing": 0.6956276297569275, "Quantum sensing": 0.7302900552749634, "Quantum control": 0.742039144039154 } }, { "id": 1169, "title": "Motional Sideband Asymmetry of a Solid-State Mechanical Resonator at Room Temperature", "abstract": "The motional sideband asymmetry of a mechanical oscillator interacting with a laser field can be observed when approaching the quantum ground state, where the zero-point energy of the mechanical oscil...", "citations": 2, "author_count": 8, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1170, "doi": "10.1103/PhysRevLett.134.073602", "umap_coordinates": { "x": 393.7676696777344, "y": 136.3415985107422, "z": 207.84396362304688 }, "tsne_coordinates": { "x": -7.79611349105835, "y": -21.738780975341797, "z": 10.345701217651367 }, "pca_coordinates": { "x": 4.337676525115967, "y": 0.01944446563720703, "z": -0.7031345367431641 }, "axis_scores": { "Quantum imaging": 0.7056507468223572, "Quantum Life Science Sensing": 0.7132089734077454, "Quantum sensing Detection": 0.6964558362960815, "Quantum sensing Metrology": 0.7008813619613647, "Quantum sensing navigation": 0.716381311416626, "Quantum sensing Position": 0.7175846695899963, "Quantum sensing Timing": 0.7086798548698425, "Quantum sensing": 0.7148940563201904, "Quantum control": 0.6857609152793884 } }, { "id": 1170, "title": "Free-probe fluorescence of light-up probes", "abstract": "The fluorescence enhancement of light-up probes (thiazole orange (TO) conjugated peptide nucleic acids (PNAs)) upon hybridization to target nucleic acid depends on the probe sequence, mainly due to la...", "citations": 116, "author_count": 5, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1171, "doi": "10.1021/ja002294u", "umap_coordinates": { "x": 393.05767822265625, "y": 135.3632049560547, "z": 204.96739196777344 }, "tsne_coordinates": { "x": 11.812496185302734, "y": 9.926403999328613, "z": 2.793473958969116 }, "pca_coordinates": { "x": -3.117366313934326, "y": -0.8372070789337158, "z": -1.1768770217895508 }, "axis_scores": { "Quantum imaging": 0.7158910036087036, "Quantum Life Science Sensing": 0.7569098472595215, "Quantum sensing Detection": 0.7260120511054993, "Quantum sensing Metrology": 0.701910138130188, "Quantum sensing navigation": 0.7143476605415344, "Quantum sensing Position": 0.6961805820465088, "Quantum sensing Timing": 0.6707158088684082, "Quantum sensing": 0.7383909225463867, "Quantum control": 0.702982485294342 } }, { "id": 1171, "title": "Electron beam prepatterning for site control of self-assembled quantum dots", "abstract": "A site-control technique for individual InAs quantum dots (QDs), formed by self-assembling has been developed, using scanning-electron-microscope assisted nanodeposition and metalorganic vapor phase e...", "citations": 22, "author_count": 5, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1172, "doi": "10.1063/1.1351528", "umap_coordinates": { "x": 392.931396484375, "y": 134.0917205810547, "z": 207.83905029296875 }, "tsne_coordinates": { "x": 33.39982604980469, "y": -12.21045970916748, "z": 3.741710901260376 }, "pca_coordinates": { "x": 0.11452436447143555, "y": -3.0078988075256348, "z": 1.9141757488250732 }, "axis_scores": { "Quantum imaging": 0.7268801927566528, "Quantum Life Science Sensing": 0.7194137573242188, "Quantum sensing Detection": 0.7254031896591187, "Quantum sensing Metrology": 0.7353639006614685, "Quantum sensing navigation": 0.7332563400268555, "Quantum sensing Position": 0.7393598556518555, "Quantum sensing Timing": 0.7102159261703491, "Quantum sensing": 0.734649658203125, "Quantum control": 0.7160451412200928 } }, { "id": 1172, "title": "Nonadiabatic Nuclear-Electron Dynamics: A Quantum Computing Approach", "abstract": "Coupled quantum electron-nuclear dynamics is oftenassociatedwith the Born-Huang expansion of the molecular wave functionand the appearance of nonadiabatic effects as a perturbation. On theother hand, ...", "citations": 8, "author_count": 10, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1173, "doi": "10.1021/acs.jpclett.3c01589", "umap_coordinates": { "x": 393.05181884765625, "y": 137.13320922851562, "z": 206.3054656982422 }, "tsne_coordinates": { "x": -11.39408016204834, "y": -0.7518671751022339, "z": 17.440397262573242 }, "pca_coordinates": { "x": 1.441236972808838, "y": 0.39348793029785156, "z": -2.210329055786133 }, "axis_scores": { "Quantum imaging": 0.7579850554466248, "Quantum Life Science Sensing": 0.7396877408027649, "Quantum sensing Detection": 0.7454094290733337, "Quantum sensing Metrology": 0.6951311230659485, "Quantum sensing navigation": 0.7449666261672974, "Quantum sensing Position": 0.6949777007102966, "Quantum sensing Timing": 0.7008198499679565, "Quantum sensing": 0.7476931810379028, "Quantum control": 0.7579562067985535 } }, { "id": 1173, "title": "Beats in internal vibrational energy redistribution in trans-stilbene - A study of the quantum and classical correspondence", "abstract": "Starting from recently observed beating patterns in trans-stilbene we consider the correspondence of classical molecular dynamics and quantum dynamics for the description of the internal vibrational e...", "citations": 3, "author_count": 3, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1174, "doi": "10.1016/0301-0104(96)00034-1", "umap_coordinates": { "x": 392.53155517578125, "y": 136.0943603515625, "z": 205.89645385742188 }, "tsne_coordinates": { "x": -6.644711971282959, "y": -3.2188916206359863, "z": -11.968802452087402 }, "pca_coordinates": { "x": 1.6294853687286377, "y": 1.166724443435669, "z": -0.6633625030517578 }, "axis_scores": { "Quantum imaging": 0.6653181314468384, "Quantum Life Science Sensing": 0.6557313203811646, "Quantum sensing Detection": 0.6559116840362549, "Quantum sensing Metrology": 0.6508480310440063, "Quantum sensing navigation": 0.6292944550514221, "Quantum sensing Position": 0.6634572148323059, "Quantum sensing Timing": 0.6974025964736938, "Quantum sensing": 0.662019670009613, "Quantum control": 0.6493517160415649 } }, { "id": 1174, "title": "Pulse-assisted homonuclear dipolar recoupling of half-integer quadrupolar spins in magic-angle spinning NMR", "abstract": "We demonstrate numerically and experimentally that zero-quantum homonuclear dipolar recoupling techniques employing rotor-synchronized 180 degrees pulses, previously introduced for spin-1/2 applicatio...", "citations": 42, "author_count": 4, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1175, "doi": "10.1016/j.cplett.2005.04.030", "umap_coordinates": { "x": 392.68511962890625, "y": 137.08592224121094, "z": 207.0072784423828 }, "tsne_coordinates": { "x": 13.94016170501709, "y": 0.9363370537757874, "z": 32.850154876708984 }, "pca_coordinates": { "x": 0.2998776435852051, "y": 1.2072951793670654, "z": -0.4750133752822876 }, "axis_scores": { "Quantum imaging": 0.6937465071678162, "Quantum Life Science Sensing": 0.6617444157600403, "Quantum sensing Detection": 0.6519202589988708, "Quantum sensing Metrology": 0.6505072116851807, "Quantum sensing navigation": 0.6557668447494507, "Quantum sensing Position": 0.6445387601852417, "Quantum sensing Timing": 0.6855456233024597, "Quantum sensing": 0.6720027327537537, "Quantum control": 0.6530327796936035 } }, { "id": 1175, "title": "Probing silicon quantum dots by single-dot techniques", "abstract": "Silicon nanocrystals represent an important class of non-toxic, heavy-metal free quantum dots, where the high natural abundance of silicon is an additional advantage. Successful development in mass-fa...", "citations": 42, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1176, "doi": "10.1088/1361-6528/aa542b", "umap_coordinates": { "x": 394.53765869140625, "y": 133.58995056152344, "z": 207.52952575683594 }, "tsne_coordinates": { "x": -12.808675765991211, "y": -11.364789962768555, "z": -24.329971313476562 }, "pca_coordinates": { "x": -0.19212675094604492, "y": -1.2732529640197754, "z": 3.3993515968322754 }, "axis_scores": { "Quantum imaging": 0.7368397116661072, "Quantum Life Science Sensing": 0.7597454786300659, "Quantum sensing Detection": 0.752787709236145, "Quantum sensing Metrology": 0.7491812705993652, "Quantum sensing navigation": 0.7454164624214172, "Quantum sensing Position": 0.7192466855049133, "Quantum sensing Timing": 0.7202329039573669, "Quantum sensing": 0.7669400572776794, "Quantum control": 0.7134898900985718 } }, { "id": 1176, "title": "Photodegradation of Stearic Acid Adsorbed on Copper Oxide Heterojunction Thin Films Prepared by Magnetron Sputtering", "abstract": "Nanocrystalline copper oxide thin films were fabricated by reactive DC magnetron sputtering. The structure and optical properties of the films were measured with X-ray diffraction, scanning electron m...", "citations": 7, "author_count": 3, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1177, "doi": "10.3390/chemengineering2030040", "umap_coordinates": { "x": 393.0931396484375, "y": 134.71714782714844, "z": 204.63230895996094 }, "tsne_coordinates": { "x": 25.887706756591797, "y": 14.183984756469727, "z": 2.266936779022217 }, "pca_coordinates": { "x": -2.6129913330078125, "y": -1.6327738761901855, "z": -2.8141884803771973 }, "axis_scores": { "Quantum imaging": 0.6849187612533569, "Quantum Life Science Sensing": 0.7450246810913086, "Quantum sensing Detection": 0.6968657970428467, "Quantum sensing Metrology": 0.6896558403968811, "Quantum sensing navigation": 0.6891506910324097, "Quantum sensing Position": 0.6738511323928833, "Quantum sensing Timing": 0.6549452543258667, "Quantum sensing": 0.7123021483421326, "Quantum control": 0.7069499492645264 } }, { "id": 1177, "title": "Finite-difference time-domain simulations of exciton-polariton resonances in quantum-dot arrays", "abstract": "The optical properties of nanosize quantum-dot (QD) arrays are found to vary significantly around the exciton resonance frequency of the QDs. In order to simulate the interactions between electromagne...", "citations": 20, "author_count": 7, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1178, "doi": "10.1364/OE.16.004507", "umap_coordinates": { "x": 393.74542236328125, "y": 134.9595489501953, "z": 207.13490295410156 }, "tsne_coordinates": { "x": -6.979517936706543, "y": -9.95999813079834, "z": -29.99531364440918 }, "pca_coordinates": { "x": 1.475719690322876, "y": -2.307534694671631, "z": 1.2759032249450684 }, "axis_scores": { "Quantum imaging": 0.7317790985107422, "Quantum Life Science Sensing": 0.7072583436965942, "Quantum sensing Detection": 0.7009152173995972, "Quantum sensing Metrology": 0.6979515552520752, "Quantum sensing navigation": 0.7070337533950806, "Quantum sensing Position": 0.7004126310348511, "Quantum sensing Timing": 0.736261248588562, "Quantum sensing": 0.7156333327293396, "Quantum control": 0.6852578520774841 } }, { "id": 1178, "title": "Near-Infrared Colloidal Quantum Dots for Efficient and Durable Photoelectrochemical Solar-Driven Hydrogen Production", "abstract": "", "citations": 98, "author_count": 9, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1179, "doi": "10.1002/advs.201500345", "umap_coordinates": { "x": 392.0955505371094, "y": 133.88307189941406, "z": 205.22528076171875 }, "tsne_coordinates": { "x": 23.73163604736328, "y": 2.516491651535034, "z": -9.835753440856934 }, "pca_coordinates": { "x": -2.783838987350464, "y": -4.564853668212891, "z": -0.7580661773681641 }, "axis_scores": { "Quantum imaging": 0.7073148488998413, "Quantum Life Science Sensing": 0.7476930618286133, "Quantum sensing Detection": 0.6986445784568787, "Quantum sensing Metrology": 0.6811538338661194, "Quantum sensing navigation": 0.6873350143432617, "Quantum sensing Position": 0.6569252014160156, "Quantum sensing Timing": 0.6616286039352417, "Quantum sensing": 0.7181237936019897, "Quantum control": 0.699883759021759 } }, { "id": 1179, "title": "Thermovoltage in quantum dots with attractive interaction", "abstract": "We study the linear and nonlinear thermovoltage of a quantum dot with effective attractive electron-electron interaction and weak, energy-dependent tunnel coupling to electronic contacts. Remarkably, ...", "citations": 6, "author_count": 4, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1180, "doi": "10.1063/5.0008866", "umap_coordinates": { "x": 393.8397521972656, "y": 135.31271362304688, "z": 208.4248809814453 }, "tsne_coordinates": { "x": 20.92981719970703, "y": -25.701780319213867, "z": 11.867321014404297 }, "pca_coordinates": { "x": 2.987532138824463, "y": -3.2432799339294434, "z": 1.3477115631103516 }, "axis_scores": { "Quantum imaging": 0.7261177897453308, "Quantum Life Science Sensing": 0.7115628123283386, "Quantum sensing Detection": 0.7185821533203125, "Quantum sensing Metrology": 0.7013639807701111, "Quantum sensing navigation": 0.6933489441871643, "Quantum sensing Position": 0.681666374206543, "Quantum sensing Timing": 0.7019942998886108, "Quantum sensing": 0.7229768633842468, "Quantum control": 0.6894997358322144 } }, { "id": 1180, "title": "Interaction and quantum decoherence", "abstract": "We discuss a fundamental effect of the interaction-induced decoherence of the electron wave function in disordered metals. In the first part of the paper we consider a simple model of a quantum partic...", "citations": 39, "author_count": 3, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1181, "doi": "10.1016/S0921-4526(98)00464-5", "umap_coordinates": { "x": 394.5276794433594, "y": 136.7457275390625, "z": 206.09500122070312 }, "tsne_coordinates": { "x": -10.14702320098877, "y": 13.97591781616211, "z": 21.4847469329834 }, "pca_coordinates": { "x": 2.010380744934082, "y": 2.2200794219970703, "z": -0.7462531924247742 }, "axis_scores": { "Quantum imaging": 0.7776641249656677, "Quantum Life Science Sensing": 0.7664793133735657, "Quantum sensing Detection": 0.7637344598770142, "Quantum sensing Metrology": 0.7393913269042969, "Quantum sensing navigation": 0.7570584416389465, "Quantum sensing Position": 0.7527982592582703, "Quantum sensing Timing": 0.7296106815338135, "Quantum sensing": 0.7768915295600891, "Quantum control": 0.7591159343719482 } }, { "id": 1181, "title": "Nonadiabatic Dynamics in Single-Electron Tunneling Devices with Time-Dependent Density-Functional Theory", "abstract": "We simulate the dynamics of a single-electron source, modeled as a quantum dot with on-site Coulomb interaction and tunnel coupling to an adjacent lead in time-dependent density-functional theory. Bas...", "citations": 25, "author_count": 4, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1182, "doi": "10.1103/PhysRevLett.120.157701", "umap_coordinates": { "x": 394.4610900878906, "y": 134.6155242919922, "z": 208.7645721435547 }, "tsne_coordinates": { "x": 5.712663650512695, "y": -29.594484329223633, "z": -9.924796104431152 }, "pca_coordinates": { "x": 4.5474467277526855, "y": -2.131596565246582, "z": 1.930518627166748 }, "axis_scores": { "Quantum imaging": 0.7052092552185059, "Quantum Life Science Sensing": 0.7062689065933228, "Quantum sensing Detection": 0.7059535384178162, "Quantum sensing Metrology": 0.6822968125343323, "Quantum sensing navigation": 0.714796781539917, "Quantum sensing Position": 0.6682263016700745, "Quantum sensing Timing": 0.7105977535247803, "Quantum sensing": 0.7066012024879456, "Quantum control": 0.7042147517204285 } }, { "id": 1182, "title": "On the role of electron exchange and correlation in semiconductor quantum dots", "abstract": "Spontaneous magnetization of single and coupled quantum dots formed by lateral confinement of a high-mobility two-dimensional electron gas is studied for a realistic GaAs/AlGaAs heterostructure. The m...", "citations": 6, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1183, "doi": "10.1088/0957-4484/12/4/331", "umap_coordinates": { "x": 393.2815856933594, "y": 135.0100860595703, "z": 207.6013946533203 }, "tsne_coordinates": { "x": 20.031078338623047, "y": -19.616029739379883, "z": 14.514446258544922 }, "pca_coordinates": { "x": 1.1974353790283203, "y": -1.2767786979675293, "z": 0.2561035752296448 }, "axis_scores": { "Quantum imaging": 0.734553337097168, "Quantum Life Science Sensing": 0.7251526117324829, "Quantum sensing Detection": 0.7228869199752808, "Quantum sensing Metrology": 0.7102574110031128, "Quantum sensing navigation": 0.7285874485969543, "Quantum sensing Position": 0.7281650304794312, "Quantum sensing Timing": 0.7135788202285767, "Quantum sensing": 0.7392376065254211, "Quantum control": 0.7163926362991333 } }, { "id": 1183, "title": "Advancements in Micro-LED Performance through Nanomaterials and Nanostructures: A Review", "abstract": "Micro-light-emitting diodes (mu LEDs), with their advantages of high response speed, long lifespan, high brightness, and reliability, are widely regarded as the core of next-generation display technol...", "citations": 6, "author_count": 8, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1184, "doi": "10.3390/nano14110940", "umap_coordinates": { "x": 393.3993835449219, "y": 133.88693237304688, "z": 205.46983337402344 }, "tsne_coordinates": { "x": 32.95516586303711, "y": 16.538965225219727, "z": -8.842225074768066 }, "pca_coordinates": { "x": -3.701821804046631, "y": -3.128716468811035, "z": 0.4629104733467102 }, "axis_scores": { "Quantum imaging": 0.7379124164581299, "Quantum Life Science Sensing": 0.7551153898239136, "Quantum sensing Detection": 0.7238442897796631, "Quantum sensing Metrology": 0.7230274081230164, "Quantum sensing navigation": 0.7228226661682129, "Quantum sensing Position": 0.6909487843513489, "Quantum sensing Timing": 0.6699915528297424, "Quantum sensing": 0.7422643899917603, "Quantum control": 0.7138525247573853 } }, { "id": 1184, "title": "Coherent electrical readout of defect spins in silicon carbide by photo-ionization at ambient conditions", "abstract": "Quantum technology relies on proper hardware, enabling coherent quantum state control as well as efficient quantum state readout. In this regard, wide-bandgap semiconductors are an emerging material p...", "citations": 72, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1185, "doi": "10.1038/s41467-019-13545-z", "umap_coordinates": { "x": 394.0160827636719, "y": 134.86349487304688, "z": 206.9073944091797 }, "tsne_coordinates": { "x": 7.416627407073975, "y": -13.147697448730469, "z": 2.3388593196868896 }, "pca_coordinates": { "x": 0.4670250415802002, "y": -1.0402934551239014, "z": 2.0666463375091553 }, "axis_scores": { "Quantum imaging": 0.7509244680404663, "Quantum Life Science Sensing": 0.7549441456794739, "Quantum sensing Detection": 0.7511593699455261, "Quantum sensing Metrology": 0.7396788001060486, "Quantum sensing navigation": 0.7356972098350525, "Quantum sensing Position": 0.7408179044723511, "Quantum sensing Timing": 0.7247564792633057, "Quantum sensing": 0.7548712491989136, "Quantum control": 0.7163638472557068 } }, { "id": 1185, "title": "Using quantum dynamics simulations to follow the competition between charge migration and charge transfer in polyatomic molecules", "abstract": "Recent work, particularly by Cederbaum and co-workers, has identified the phenomenon of charge migration, whereby charge flow occurs over a static molecular framework after the creation of an electron...", "citations": 18, "author_count": 6, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1186, "doi": "10.1016/j.chemphys.2016.10.007", "umap_coordinates": { "x": 393.39862060546875, "y": 136.91592407226562, "z": 206.02525329589844 }, "tsne_coordinates": { "x": -7.787352561950684, "y": 8.287162780761719, "z": 21.24506950378418 }, "pca_coordinates": { "x": 0.9777622222900391, "y": -0.5603182315826416, "z": -2.4201645851135254 }, "axis_scores": { "Quantum imaging": 0.7654959559440613, "Quantum Life Science Sensing": 0.7717035412788391, "Quantum sensing Detection": 0.7577712535858154, "Quantum sensing Metrology": 0.7300063371658325, "Quantum sensing navigation": 0.7564043998718262, "Quantum sensing Position": 0.7408987283706665, "Quantum sensing Timing": 0.7280779480934143, "Quantum sensing": 0.76539146900177, "Quantum control": 0.756844162940979 } }, { "id": 1186, "title": "Spin polarization of the neutral exciton in a single quantum dot", "abstract": "While efficient nuclear polarization has earlier been reported for the charged exciton in InAs/GaAs quantum dots at zero external magnetic field, we report here on a surprisingly high degree of circul...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1187, "doi": "10.1016/j.spmi.2010.06.012", "umap_coordinates": { "x": 393.3279724121094, "y": 134.0319061279297, "z": 207.4487762451172 }, "tsne_coordinates": { "x": 36.11237716674805, "y": -0.23686569929122925, "z": -2.1235480308532715 }, "pca_coordinates": { "x": -1.2449891567230225, "y": -3.100210666656494, "z": 0.4368576407432556 }, "axis_scores": { "Quantum imaging": 0.7263557314872742, "Quantum Life Science Sensing": 0.7121800780296326, "Quantum sensing Detection": 0.7104985117912292, "Quantum sensing Metrology": 0.7010033130645752, "Quantum sensing navigation": 0.7078168392181396, "Quantum sensing Position": 0.7107769846916199, "Quantum sensing Timing": 0.6671077609062195, "Quantum sensing": 0.7206245064735413, "Quantum control": 0.690491259098053 } }, { "id": 1187, "title": "Hole emission mechanism in Ge/Si quantum dots", "abstract": "The mechanisms determining emission of holes in self-assembled Ge quantum dots (QDs) embedded in the p-type Si matrix have been investigated. Specimens were prepared by molecular beam epitaxy (MBE). E...", "citations": 2, "author_count": 14, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1188, "doi": "10.1002/pssc.201000546", "umap_coordinates": { "x": 393.0439147949219, "y": 133.99359130859375, "z": 207.68524169921875 }, "tsne_coordinates": { "x": 30.119504928588867, "y": -7.813777446746826, "z": 15.861374855041504 }, "pca_coordinates": { "x": 0.20961809158325195, "y": -2.4784555435180664, "z": 0.27326029539108276 }, "axis_scores": { "Quantum imaging": 0.7140223383903503, "Quantum Life Science Sensing": 0.7240405678749084, "Quantum sensing Detection": 0.7238206267356873, "Quantum sensing Metrology": 0.6907367706298828, "Quantum sensing navigation": 0.7195793390274048, "Quantum sensing Position": 0.7070311903953552, "Quantum sensing Timing": 0.6903980374336243, "Quantum sensing": 0.7176859974861145, "Quantum control": 0.7026296257972717 } }, { "id": 1188, "title": "Effects of breaking current conservation on the phase properties of two-terminal quantum systems", "abstract": "We study the reflection and transmission phase properties of two-terminal quantum structures coupled to a third lead. The systems are effectively three-terminal and current conservation is broken with...", "citations": 1, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1189, "doi": "10.1016/S1386-9477(02)00875-5", "umap_coordinates": { "x": 393.73150634765625, "y": 136.28573608398438, "z": 207.65548706054688 }, "tsne_coordinates": { "x": -1.2189007997512817, "y": -12.272890090942383, "z": 9.452465057373047 }, "pca_coordinates": { "x": 1.9394254684448242, "y": 0.378598690032959, "z": -2.752159595489502 }, "axis_scores": { "Quantum imaging": 0.7091689705848694, "Quantum Life Science Sensing": 0.7196223735809326, "Quantum sensing Detection": 0.691326916217804, "Quantum sensing Metrology": 0.688077449798584, "Quantum sensing navigation": 0.704110324382782, "Quantum sensing Position": 0.6960668563842773, "Quantum sensing Timing": 0.6975740790367126, "Quantum sensing": 0.7033182382583618, "Quantum control": 0.7112284302711487 } }, { "id": 1189, "title": "Low digital interference counter for photon-counting pixel detectors", "abstract": "Single photon-counting pixel sensors are widely used in radiation imaging because of their energy resolving capability and high dynamic range. However, the close integration of the analog and digital ...", "citations": 4, "author_count": 4, "categories": [ "Instruments & Instrumentation" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1190, "doi": "10.1016/S0168-9002(01)02188-X", "umap_coordinates": { "x": 395.1874084472656, "y": 133.4016876220703, "z": 205.78662109375 }, "tsne_coordinates": { "x": -8.240449905395508, "y": 16.951887130737305, "z": -10.071037292480469 }, "pca_coordinates": { "x": -1.879995346069336, "y": 1.5464932918548584, "z": 3.3697075843811035 }, "axis_scores": { "Quantum imaging": 0.7061670422554016, "Quantum Life Science Sensing": 0.7071986198425293, "Quantum sensing Detection": 0.7074601054191589, "Quantum sensing Metrology": 0.695300817489624, "Quantum sensing navigation": 0.7005069255828857, "Quantum sensing Position": 0.6972982287406921, "Quantum sensing Timing": 0.6914210915565491, "Quantum sensing": 0.6992252469062805, "Quantum control": 0.6588959097862244 } }, { "id": 1190, "title": "Environmental effects on the charge transfer properties of Graphene quantum dot based interfaces", "abstract": "Graphene quantum dots (GQD) are interesting materials due to the confined sizes which allow to exploit their optoelectronic properties, especially when they interface with organic molecules through ph...", "citations": 10, "author_count": 3, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1191, "doi": "10.1002/qua.25882", "umap_coordinates": { "x": 392.6669616699219, "y": 134.76956176757812, "z": 205.6675567626953 }, "tsne_coordinates": { "x": 30.075834274291992, "y": 0.3673868775367737, "z": 14.881538391113281 }, "pca_coordinates": { "x": -0.7608757615089417, "y": -1.9022393226623535, "z": -2.658315658569336 }, "axis_scores": { "Quantum imaging": 0.7287094593048096, "Quantum Life Science Sensing": 0.7483949065208435, "Quantum sensing Detection": 0.7186388373374939, "Quantum sensing Metrology": 0.712523341178894, "Quantum sensing navigation": 0.7220858931541443, "Quantum sensing Position": 0.7158128619194031, "Quantum sensing Timing": 0.6914434432983398, "Quantum sensing": 0.7412547469139099, "Quantum control": 0.7473986148834229 } }, { "id": 1191, "title": "Nano-aperture fabrication for single quantum dot spectroscopy", "abstract": "We present a simple and controllable method for fabricating nano-apertures in a metal film using polystyrene nano-spheres as masks during the metal evaporation. We show how the processing conditions u...", "citations": 25, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1192, "doi": null, "umap_coordinates": { "x": 391.7470703125, "y": 139.2604217529297, "z": 209.2893829345703 }, "tsne_coordinates": { "x": -8.489604949951172, "y": 45.44745635986328, "z": -8.934513092041016 }, "pca_coordinates": { "x": -1.691702127456665, "y": 0.014079093933105469, "z": 1.3329637050628662 }, "axis_scores": { "Quantum imaging": 0.7591267228126526, "Quantum Life Science Sensing": 0.7785835862159729, "Quantum sensing Detection": 0.7669388055801392, "Quantum sensing Metrology": 0.7761654853820801, "Quantum sensing navigation": 0.7564318180084229, "Quantum sensing Position": 0.7292901873588562, "Quantum sensing Timing": 0.7159017324447632, "Quantum sensing": 0.7763049006462097, "Quantum control": 0.7373982071876526 } }, { "id": 1192, "title": "SHADOW LAGRANGIAN DYNAMICS FOR SUPERFLUIDITY", "abstract": "Motivated by a similar approach for Born-Oppenheimer molecular dynamics, this paper proposes an extended shadow Lagrangian density for quantum states of superfluids. The extended Lagrangian contains a...", "citations": 2, "author_count": 3, "categories": [ "Mathematics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1193, "doi": "10.3934/krm.2021006", "umap_coordinates": { "x": 394.6816711425781, "y": 137.7056427001953, "z": 206.74241638183594 }, "tsne_coordinates": { "x": -40.065895080566406, "y": 14.877791404724121, "z": 3.8632924556732178 }, "pca_coordinates": { "x": 0.5066554546356201, "y": 3.37503981590271, "z": -2.6410834789276123 }, "axis_scores": { "Quantum imaging": 0.6685494780540466, "Quantum Life Science Sensing": 0.6964800357818604, "Quantum sensing Detection": 0.6447277069091797, "Quantum sensing Metrology": 0.6477496027946472, "Quantum sensing navigation": 0.6715646982192993, "Quantum sensing Position": 0.642061173915863, "Quantum sensing Timing": 0.6495126485824585, "Quantum sensing": 0.6523115634918213, "Quantum control": 0.6504597663879395 } }, { "id": 1193, "title": "Realizing Strong Light-Matter Interactions between Single-Nanoparticle Plasmons and Molecular Excitons at Ambient Conditions", "abstract": "Realizing strong light-matter interactions between individual two-level systems and resonating cavities in atomic and solid state systems opens up possibilities to study optical nonlinearities on a si...", "citations": 527, "author_count": 7, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1194, "doi": "10.1103/PhysRevLett.114.157401", "umap_coordinates": { "x": 394.3524169921875, "y": 133.86764526367188, "z": 207.7879638671875 }, "tsne_coordinates": { "x": 5.87980842590332, "y": -16.550127029418945, "z": -13.076119422912598 }, "pca_coordinates": { "x": 1.0399343967437744, "y": -3.610337257385254, "z": 2.3360815048217773 }, "axis_scores": { "Quantum imaging": 0.7226678133010864, "Quantum Life Science Sensing": 0.7305672764778137, "Quantum sensing Detection": 0.725677490234375, "Quantum sensing Metrology": 0.7072216272354126, "Quantum sensing navigation": 0.7048729062080383, "Quantum sensing Position": 0.6808856725692749, "Quantum sensing Timing": 0.6845721006393433, "Quantum sensing": 0.7304610013961792, "Quantum control": 0.683973491191864 } }, { "id": 1194, "title": "Transport and noise properties of YBCO nanowire based nanoSQUIDs", "abstract": "The development of quantum limited magnetic flux sensors has recently gained a lot of attention for the possibility of detecting the magnetic moment of nanoscaled systems. Here, the ultimate goal is t...", "citations": 34, "author_count": 8, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1195, "doi": "10.1088/1361-6668/ab1814", "umap_coordinates": { "x": 394.03216552734375, "y": 134.47642517089844, "z": 207.45245361328125 }, "tsne_coordinates": { "x": 3.6721584796905518, "y": -25.28076171875, "z": -26.72882080078125 }, "pca_coordinates": { "x": 1.1806466579437256, "y": -1.3377680778503418, "z": 0.6642394661903381 }, "axis_scores": { "Quantum imaging": 0.7177621722221375, "Quantum Life Science Sensing": 0.7197594046592712, "Quantum sensing Detection": 0.7131694555282593, "Quantum sensing Metrology": 0.7029148936271667, "Quantum sensing navigation": 0.7467182874679565, "Quantum sensing Position": 0.6957546472549438, "Quantum sensing Timing": 0.697075605392456, "Quantum sensing": 0.729060173034668, "Quantum control": 0.7177445292472839 } }, { "id": 1195, "title": "Enhanced Schmidt-number criteria based on correlation trace norms", "abstract": "The Schmidt number represents the genuine entanglement dimension of a bipartite quantum state. We derive simple criteria for the Schmidt number of a density matrix in arbitrary local dimensions, given...", "citations": 7, "author_count": 3, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1196, "doi": "10.1103/PhysRevA.110.062417", "umap_coordinates": { "x": 395.80194091796875, "y": 135.8609619140625, "z": 207.6620330810547 }, "tsne_coordinates": { "x": -32.42992401123047, "y": -15.922165870666504, "z": -17.388174057006836 }, "pca_coordinates": { "x": 2.030116081237793, "y": 2.0574228763580322, "z": 1.9067583084106445 }, "axis_scores": { "Quantum imaging": 0.7105965614318848, "Quantum Life Science Sensing": 0.714042603969574, "Quantum sensing Detection": 0.7276145219802856, "Quantum sensing Metrology": 0.7377488017082214, "Quantum sensing navigation": 0.7272576689720154, "Quantum sensing Position": 0.7150997519493103, "Quantum sensing Timing": 0.7186483144760132, "Quantum sensing": 0.7348906397819519, "Quantum control": 0.7075135707855225 } }, { "id": 1196, "title": "Spin polarization of neutral excitons in quantum dots: the role of the carrier collection area", "abstract": "A high degree (approximate to 55%) of circular polarization has been observed for the neutral exciton in InAs/GaAs quantum dots (QDs). The possibility to record non- zero polarization of the neutral e...", "citations": 1, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1197, "doi": "10.1088/0957-4484/21/34/345401", "umap_coordinates": { "x": 392.97406005859375, "y": 134.8558349609375, "z": 207.44766235351562 }, "tsne_coordinates": { "x": 20.500932693481445, "y": -17.42445182800293, "z": 13.770100593566895 }, "pca_coordinates": { "x": -0.9853179454803467, "y": -1.473836898803711, "z": 0.1255740523338318 }, "axis_scores": { "Quantum imaging": 0.7149210572242737, "Quantum Life Science Sensing": 0.7117136120796204, "Quantum sensing Detection": 0.695189893245697, "Quantum sensing Metrology": 0.6791107654571533, "Quantum sensing navigation": 0.7109221816062927, "Quantum sensing Position": 0.7087294459342957, "Quantum sensing Timing": 0.6774880290031433, "Quantum sensing": 0.7101770043373108, "Quantum control": 0.702885627746582 } }, { "id": 1197, "title": "Current cross correlators in mesoscopic conductors", "abstract": "We present an investigation of current cross correlators in mesoscopic conductors. Making an analogy to the optical Hanbury Brown Twiss experiment we discuss how quantum statistical effects and two-pa...", "citations": 9, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1198, "doi": "10.1007/s10909-006-9266-9", "umap_coordinates": { "x": 393.4286804199219, "y": 135.26263427734375, "z": 207.41390991210938 }, "tsne_coordinates": { "x": 4.279783725738525, "y": -16.02930450439453, "z": 14.929952621459961 }, "pca_coordinates": { "x": 0.4848400354385376, "y": 0.0476377010345459, "z": 0.7359620928764343 }, "axis_scores": { "Quantum imaging": 0.7123406529426575, "Quantum Life Science Sensing": 0.7207164168357849, "Quantum sensing Detection": 0.7042123675346375, "Quantum sensing Metrology": 0.7107597589492798, "Quantum sensing navigation": 0.7208956480026245, "Quantum sensing Position": 0.7125266194343567, "Quantum sensing Timing": 0.6990119218826294, "Quantum sensing": 0.7176304459571838, "Quantum control": 0.6880366206169128 } }, { "id": 1198, "title": "Characterisation of a PERCIVAL monolithic active pixel prototype using synchrotron radiation", "abstract": "PERCIVAL (Pixelated Energy Resolving CMOS Imager, Versatile And Large) is a monolithic active pixel sensor (MAPS) based on CMOS technology. Is being developed by DESY, RAL/STFC, Elettra, DLS, and PAL ...", "citations": 7, "author_count": 38, "categories": [ "Instruments & Instrumentation" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1199, "doi": "10.1088/1748-0221/11/02/C02090", "umap_coordinates": { "x": 395.5083923339844, "y": 133.70321655273438, "z": 206.00074768066406 }, "tsne_coordinates": { "x": -25.723295211791992, "y": 24.330448150634766, "z": -9.12106704711914 }, "pca_coordinates": { "x": -3.282677173614502, "y": 2.129049301147461, "z": 2.714256763458252 }, "axis_scores": { "Quantum imaging": 0.6720536351203918, "Quantum Life Science Sensing": 0.6633899211883545, "Quantum sensing Detection": 0.639133870601654, "Quantum sensing Metrology": 0.6297516226768494, "Quantum sensing navigation": 0.6324713826179504, "Quantum sensing Position": 0.6452675461769104, "Quantum sensing Timing": 0.629520058631897, "Quantum sensing": 0.6429975032806396, "Quantum control": 0.6183383464813232 } }, { "id": 1199, "title": "Superconducting single-mode contact as a microwave-activated quantum interferometer", "abstract": "The dynamics of a superconducting quantum point contact biased at subgap voltages is shown to be strongly affected by a microwave electromagnetic field. Interference among a sequence of temporally loc...", "citations": 38, "author_count": 6, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1200, "doi": "10.1103/PhysRevLett.81.2538", "umap_coordinates": { "x": 394.59796142578125, "y": 134.25865173339844, "z": 208.47735595703125 }, "tsne_coordinates": { "x": -0.2263336032629013, "y": -27.253318786621094, "z": -14.767986297607422 }, "pca_coordinates": { "x": 3.9918107986450195, "y": -2.5131945610046387, "z": 2.737380027770996 }, "axis_scores": { "Quantum imaging": 0.6824911832809448, "Quantum Life Science Sensing": 0.7185337543487549, "Quantum sensing Detection": 0.7232825756072998, "Quantum sensing Metrology": 0.7067273855209351, "Quantum sensing navigation": 0.6978497505187988, "Quantum sensing Position": 0.6935766935348511, "Quantum sensing Timing": 0.6863293647766113, "Quantum sensing": 0.7258426547050476, "Quantum control": 0.6625917553901672 } }, { "id": 1200, "title": "NONEQUILIBRIUM MAGNETIZATION IN A BALLISTIC QUANTUM-DOT", "abstract": "We show that Aharonov-Bohm (AB) oscillations in the magnetic moment of an integrable ballistic quantum dot can be destroyed by a time dependent magnetic flux. The effect is due to a nonequilibrium pop...", "citations": 23, "author_count": 6, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 1201, "doi": "10.1103/PhysRevLett.73.162", "umap_coordinates": { "x": 394.2728271484375, "y": 136.0721435546875, "z": 209.10813903808594 }, "tsne_coordinates": { "x": 0.9364029169082642, "y": -32.06312942504883, "z": 8.334705352783203 }, "pca_coordinates": { "x": 5.831432819366455, "y": -1.6998162269592285, "z": -1.603663444519043 }, "axis_scores": { "Quantum imaging": 0.7303517460823059, "Quantum Life Science Sensing": 0.7365160584449768, "Quantum sensing Detection": 0.7388160824775696, "Quantum sensing Metrology": 0.7246721982955933, "Quantum sensing navigation": 0.7520291805267334, "Quantum sensing Position": 0.7263689041137695, "Quantum sensing Timing": 0.6944361329078674, "Quantum sensing": 0.7389488816261292, "Quantum control": 0.7172907590866089 } }, { "id": 1201, "title": "QUANTUM SOLUTION TO A THREE PLAYER KOLKATA RESTAURANT PROBLEM USING ENTANGLED QUTRITS", "abstract": "Three player quantum Kolkata restaurant problem is modelled using three entangled qutrits. This first use of three level quantum states in this context is a step towards a N-choice generalization of t...", "citations": 1, "author_count": 3, "categories": [ "Computer Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1202, "doi": null, "umap_coordinates": { "x": 391.9237976074219, "y": 139.56356811523438, "z": 208.94398498535156 }, "tsne_coordinates": { "x": -10.366803169250488, "y": 37.13522720336914, "z": -6.0281829833984375 }, "pca_coordinates": { "x": 1.0631213188171387, "y": 4.091458797454834, "z": -1.9080166816711426 }, "axis_scores": { "Quantum imaging": 0.7232699394226074, "Quantum Life Science Sensing": 0.715353786945343, "Quantum sensing Detection": 0.7325342893600464, "Quantum sensing Metrology": 0.7081230878829956, "Quantum sensing navigation": 0.7493969798088074, "Quantum sensing Position": 0.7184117436408997, "Quantum sensing Timing": 0.7081013321876526, "Quantum sensing": 0.7432616353034973, "Quantum control": 0.7258265614509583 } }, { "id": 1202, "title": "Coherent information losses between two-qubit pair interacting with an environment", "abstract": "We quantify the amount of information exchanged between a system of two qubit pair and the environment. We find that there is a good chance for an Eavesdropper to distill information from the entangle...", "citations": 6, "author_count": 4, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1203, "doi": "10.1016/j.optcom.2005.07.025", "umap_coordinates": { "x": 395.0874328613281, "y": 135.9229278564453, "z": 206.32615661621094 }, "tsne_coordinates": { "x": -14.625288009643555, "y": -2.9262568950653076, "z": -12.123980522155762 }, "pca_coordinates": { "x": 0.7675843238830566, "y": 1.602871298789978, "z": 2.20930814743042 }, "axis_scores": { "Quantum imaging": 0.7913675308227539, "Quantum Life Science Sensing": 0.7604928016662598, "Quantum sensing Detection": 0.7946308255195618, "Quantum sensing Metrology": 0.7721127867698669, "Quantum sensing navigation": 0.7649025917053223, "Quantum sensing Position": 0.7539787888526917, "Quantum sensing Timing": 0.7420554161071777, "Quantum sensing": 0.790367841720581, "Quantum control": 0.748671293258667 } }, { "id": 1203, "title": "Optical investigations of individual InAs quantum dots: Level splittings of exciton complexes", "abstract": "We have investigated individual InAs quantum dots embedded in GaAs using photoluminescence spectroscopy as a function of temperature and excitation power density. We also present k.p calculations incl...", "citations": 64, "author_count": 7, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1204, "doi": "10.1103/PhysRevB.60.16640", "umap_coordinates": { "x": 393.3856201171875, "y": 134.59742736816406, "z": 208.55767822265625 }, "tsne_coordinates": { "x": 9.669852256774902, "y": -27.568523406982422, "z": -6.613583087921143 }, "pca_coordinates": { "x": 2.811636447906494, "y": -4.0163984298706055, "z": -0.0689665675163269 }, "axis_scores": { "Quantum imaging": 0.7248557806015015, "Quantum Life Science Sensing": 0.734222412109375, "Quantum sensing Detection": 0.7236987352371216, "Quantum sensing Metrology": 0.7075236439704895, "Quantum sensing navigation": 0.7065298557281494, "Quantum sensing Position": 0.6868417859077454, "Quantum sensing Timing": 0.6683335900306702, "Quantum sensing": 0.7315331101417542, "Quantum control": 0.6799584627151489 } }, { "id": 1204, "title": "Radio frequency-single electron transistor: A fast and sensitive electrometer analogous to the radio frequency-superconducting quantum interference device", "abstract": "We describe a new mode of operation of the single electron transistor (SET). The so-called RF-SET (radio frequency-SET) is a dual of the RF-SQUID (radio frequency-superconducting quantum interference ...", "citations": 4, "author_count": 7, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1205, "doi": "10.1023/A:1007728908729", "umap_coordinates": { "x": 394.4874572753906, "y": 133.95828247070312, "z": 208.0856475830078 }, "tsne_coordinates": { "x": 4.42389440536499, "y": -29.776151657104492, "z": -16.687660217285156 }, "pca_coordinates": { "x": 0.111846923828125, "y": -1.05324125289917, "z": 1.2636990547180176 }, "axis_scores": { "Quantum imaging": 0.6960097551345825, "Quantum Life Science Sensing": 0.7519937753677368, "Quantum sensing Detection": 0.7312254905700684, "Quantum sensing Metrology": 0.7299255728721619, "Quantum sensing navigation": 0.7088744640350342, "Quantum sensing Position": 0.698949933052063, "Quantum sensing Timing": 0.7061143517494202, "Quantum sensing": 0.7422152757644653, "Quantum control": 0.6792107224464417 } }, { "id": 1205, "title": "Silent phase qubit based on d-wave Josephson junctions - art. no. 064516", "abstract": "A flux qubit is designed and fabricated that capitalizes on intrinsic properties of submicron YBCO (yttrium-barium-copper oxide high-T-c superconductor) grain boundary junctions. The operating point i...", "citations": 57, "author_count": 8, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1206, "doi": "10.1103/PhysRevB.71.064516", "umap_coordinates": { "x": 394.92572021484375, "y": 136.1996612548828, "z": 208.09747314453125 }, "tsne_coordinates": { "x": -22.3819522857666, "y": -9.969950675964355, "z": 0.3502311408519745 }, "pca_coordinates": { "x": 4.653845310211182, "y": -0.5787248611450195, "z": 0.8727626204490662 }, "axis_scores": { "Quantum imaging": 0.709975004196167, "Quantum Life Science Sensing": 0.7316428422927856, "Quantum sensing Detection": 0.7180209159851074, "Quantum sensing Metrology": 0.7046177387237549, "Quantum sensing navigation": 0.732265293598175, "Quantum sensing Position": 0.7124884724617004, "Quantum sensing Timing": 0.6965117454528809, "Quantum sensing": 0.729461669921875, "Quantum control": 0.6888707876205444 } }, { "id": 1206, "title": "Type-I optical emissions in Ge/Si quantum dots", "abstract": "The authors studied the optical emission of Ge/Si quantum dots under externally applied biaxial stress using samples grown with different temperatures varying from 430 to 700 degrees C. The optical em...", "citations": 7, "author_count": 9, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1207, "doi": "10.1063/1.2764113", "umap_coordinates": { "x": 393.2187805175781, "y": 133.68553161621094, "z": 208.0696563720703 }, "tsne_coordinates": { "x": 30.70952796936035, "y": -17.34771156311035, "z": -6.499060153961182 }, "pca_coordinates": { "x": 0.8867888450622559, "y": -3.6932215690612793, "z": 1.3978056907653809 }, "axis_scores": { "Quantum imaging": 0.762296199798584, "Quantum Life Science Sensing": 0.7617428302764893, "Quantum sensing Detection": 0.7580207586288452, "Quantum sensing Metrology": 0.7386371493339539, "Quantum sensing navigation": 0.7326899766921997, "Quantum sensing Position": 0.7194476127624512, "Quantum sensing Timing": 0.7123115062713623, "Quantum sensing": 0.7665796875953674, "Quantum control": 0.7095155119895935 } }, { "id": 1207, "title": "QUANTUM INTERFERENCE DEVICES AND FIELD-EFFECT TRANSISTORS - A SWITCH ENERGY COMPARISON", "abstract": "We compare quantum interference devices, exemplified by a resonant tunnel transistor, an Aharonov-Bohm interferometer, and a Y-branch switch, to field-effect transistors regarding their capability to ...", "citations": 31, "author_count": 5, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 1208, "doi": "10.1063/1.355231", "umap_coordinates": { "x": 394.01788330078125, "y": 134.57508850097656, "z": 208.469482421875 }, "tsne_coordinates": { "x": 11.102087020874023, "y": -37.06351089477539, "z": -14.571002960205078 }, "pca_coordinates": { "x": 2.1650495529174805, "y": -1.1701350212097168, "z": 1.4803261756896973 }, "axis_scores": { "Quantum imaging": 0.716960608959198, "Quantum Life Science Sensing": 0.7345893979072571, "Quantum sensing Detection": 0.7300382852554321, "Quantum sensing Metrology": 0.7332495450973511, "Quantum sensing navigation": 0.7055992484092712, "Quantum sensing Position": 0.6872545480728149, "Quantum sensing Timing": 0.6898366808891296, "Quantum sensing": 0.7433701753616333, "Quantum control": 0.7114519476890564 } }, { "id": 1208, "title": "On duality between quantum maps and quantum states", "abstract": "We investigate the space of quantum operations, as well as the larger space of maps which are positive, but not completely positive. A constructive criterion for decomposability is presented. A certai...", "citations": 136, "author_count": 3, "categories": [ "Mathematics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1209, "doi": "10.1023/B:OPSY.0000024753.05661.c2", "umap_coordinates": { "x": 395.0873107910156, "y": 137.01710510253906, "z": 206.5037078857422 }, "tsne_coordinates": { "x": -29.42338752746582, "y": -6.075342655181885, "z": 20.730331420898438 }, "pca_coordinates": { "x": 2.369504451751709, "y": 1.4397730827331543, "z": -0.34480637311935425 }, "axis_scores": { "Quantum imaging": 0.7687346935272217, "Quantum Life Science Sensing": 0.7402875423431396, "Quantum sensing Detection": 0.7543277740478516, "Quantum sensing Metrology": 0.745902419090271, "Quantum sensing navigation": 0.769595205783844, "Quantum sensing Position": 0.7490615844726562, "Quantum sensing Timing": 0.7213165163993835, "Quantum sensing": 0.7693747282028198, "Quantum control": 0.7510649561882019 } }, { "id": 1209, "title": "Spin-injection dynamics and effects of spin relaxation in self-assembled quantum dots of CdSe", "abstract": "We study the spin injection dynamics and the effects of spin relaxation in self-assembled quantum dots (QDs) of CdSe coupled with a diluted magnetic semiconductor (DMS) layer of ZnMnSe, where spin-pol...", "citations": 1, "author_count": 9, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1210, "doi": "10.3938/jkps.53.163", "umap_coordinates": { "x": 392.61993408203125, "y": 135.3107147216797, "z": 207.5113067626953 }, "tsne_coordinates": { "x": 19.266551971435547, "y": -9.569557189941406, "z": 14.24758243560791 }, "pca_coordinates": { "x": 0.8418304920196533, "y": -1.927652359008789, "z": -1.924997091293335 }, "axis_scores": { "Quantum imaging": 0.7149761915206909, "Quantum Life Science Sensing": 0.722551703453064, "Quantum sensing Detection": 0.6932551860809326, "Quantum sensing Metrology": 0.6639919281005859, "Quantum sensing navigation": 0.7066795825958252, "Quantum sensing Position": 0.6667987108230591, "Quantum sensing Timing": 0.6712401509284973, "Quantum sensing": 0.7029324173927307, "Quantum control": 0.701404333114624 } }, { "id": 1210, "title": "Quantitative measurement of fluorescence brightness of single molecules", "abstract": "Single-molecule fluorescence spectroscopy and imaging probe many characteristics of the fluorescence from individual molecules like relative intensity, polarization, lifetime and spectrum. However, su...", "citations": 24, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1211, "doi": "10.1088/2050-6120/2/3/035003", "umap_coordinates": { "x": 394.1086730957031, "y": 134.2575225830078, "z": 205.82424926757812 }, "tsne_coordinates": { "x": -5.022347927093506, "y": 14.264676094055176, "z": -1.9657566547393799 }, "pca_coordinates": { "x": -1.5935972929000854, "y": 0.14271879196166992, "z": 1.4330682754516602 }, "axis_scores": { "Quantum imaging": 0.7766789793968201, "Quantum Life Science Sensing": 0.7821723818778992, "Quantum sensing Detection": 0.7647990584373474, "Quantum sensing Metrology": 0.7664835453033447, "Quantum sensing navigation": 0.7511892318725586, "Quantum sensing Position": 0.7500669956207275, "Quantum sensing Timing": 0.7099944949150085, "Quantum sensing": 0.7763398289680481, "Quantum control": 0.717712938785553 } }, { "id": 1211, "title": "Quantum dot photodegradation due to CdSe-ZnO charge transfer: Transient absorption study", "abstract": "We study changes in ultrafast transient absorption due to photodegradation of quantum dots attached to ZnO nanowire. The time-resolved measurements reveal impact of photodegradation on three distinct ...", "citations": 35, "author_count": 6, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1212, "doi": "10.1063/1.4729382", "umap_coordinates": { "x": 392.820556640625, "y": 134.34634399414062, "z": 207.4520263671875 }, "tsne_coordinates": { "x": 23.586942672729492, "y": -5.997276306152344, "z": 1.012036681175232 }, "pca_coordinates": { "x": -0.8447861075401306, "y": -4.041141510009766, "z": -0.6904339790344238 }, "axis_scores": { "Quantum imaging": 0.7102464437484741, "Quantum Life Science Sensing": 0.7481042742729187, "Quantum sensing Detection": 0.7247706651687622, "Quantum sensing Metrology": 0.6959173083305359, "Quantum sensing navigation": 0.6868767142295837, "Quantum sensing Position": 0.6755436658859253, "Quantum sensing Timing": 0.6758084893226624, "Quantum sensing": 0.7278687953948975, "Quantum control": 0.694961428642273 } }, { "id": 1212, "title": "Surface plasmon inhibited photo-luminescence activation in CdSe/ZnS core-shell quantum dots", "abstract": "In a composite film of CdxSeyZn1-xS1-y gradient core-shell quantum dots (QDs) and gold nanorods (NRs), the optical properties of the QDs are drastically affected by the plasmonic nanoparticles. We pro...", "citations": 13, "author_count": 7, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1213, "doi": "10.1088/0953-8984/28/25/254001", "umap_coordinates": { "x": 393.34356689453125, "y": 134.47747802734375, "z": 206.2799072265625 }, "tsne_coordinates": { "x": 28.857805252075195, "y": -1.655077338218689, "z": -5.959677219390869 }, "pca_coordinates": { "x": -1.414815068244934, "y": -1.192995309829712, "z": 0.6220824122428894 }, "axis_scores": { "Quantum imaging": 0.7169768810272217, "Quantum Life Science Sensing": 0.7121699452400208, "Quantum sensing Detection": 0.7204775214195251, "Quantum sensing Metrology": 0.6763314008712769, "Quantum sensing navigation": 0.6881114840507507, "Quantum sensing Position": 0.676244854927063, "Quantum sensing Timing": 0.6843686103820801, "Quantum sensing": 0.7115061283111572, "Quantum control": 0.7028127908706665 } }, { "id": 1213, "title": "Magnetopolaronic effects in electron transport through a single-level vibrating quantum dot", "abstract": "Magnetopolaronic effects are considered in electron transport through a single-level vibrating quantum dot subjected to a transverse (to the current flow) magnetic field. It is shown that the effects ...", "citations": 10, "author_count": 6, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1214, "doi": "10.1063/1.3674185", "umap_coordinates": { "x": 393.870849609375, "y": 134.23789978027344, "z": 208.6477508544922 }, "tsne_coordinates": { "x": 20.537630081176758, "y": -28.93598175048828, "z": -2.12204909324646 }, "pca_coordinates": { "x": 3.096512794494629, "y": -3.5179567337036133, "z": 0.17278486490249634 }, "axis_scores": { "Quantum imaging": 0.7254589796066284, "Quantum Life Science Sensing": 0.7056548595428467, "Quantum sensing Detection": 0.7136956453323364, "Quantum sensing Metrology": 0.7201904654502869, "Quantum sensing navigation": 0.715580940246582, "Quantum sensing Position": 0.6830414533615112, "Quantum sensing Timing": 0.6848345398902893, "Quantum sensing": 0.7312299013137817, "Quantum control": 0.6966954469680786 } }, { "id": 1214, "title": "Forster Energy Transfer in Arrays of Epitaxial CdSe/ZnSe Quantum Dots Involving Bright and Dark Excitons", "abstract": "Using time-resolved photoluminescence (PL) spectroscopy, we establish the presence of the Forster energy transfer mechanism between two arrays of epitaxial CdSe/ZnSe quantum dots (QDs) of different si...", "citations": 3, "author_count": 10, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1215, "doi": "10.1134/S1063783418080176", "umap_coordinates": { "x": 392.6228942871094, "y": 135.06765747070312, "z": 207.02545166015625 }, "tsne_coordinates": { "x": 25.4447021484375, "y": -10.009758949279785, "z": 15.154152870178223 }, "pca_coordinates": { "x": -0.06843256950378418, "y": -2.4322943687438965, "z": 0.5133842825889587 }, "axis_scores": { "Quantum imaging": 0.7055879831314087, "Quantum Life Science Sensing": 0.7117948532104492, "Quantum sensing Detection": 0.6889665722846985, "Quantum sensing Metrology": 0.6849468946456909, "Quantum sensing navigation": 0.6882286071777344, "Quantum sensing Position": 0.6811410784721375, "Quantum sensing Timing": 0.6821005344390869, "Quantum sensing": 0.7015030980110168, "Quantum control": 0.6740337610244751 } }, { "id": 1215, "title": "QUANTUM-STATISTICAL CORRELATIONS FOR SLOWLY EXPANDING SYSTEMS", "abstract": "Quantum statistical correlations and momentum distributions are calculated for a spherically symmetric, three-dimensionally expanding finite fireballs, for non-relativistic expansions applying plane-w...", "citations": 52, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 1216, "doi": "10.1016/0370-2693(94)91356-0", "umap_coordinates": { "x": 394.70465087890625, "y": 136.9064483642578, "z": 207.06631469726562 }, "tsne_coordinates": { "x": -24.910371780395508, "y": -10.862170219421387, "z": 22.72392463684082 }, "pca_coordinates": { "x": 1.3897573947906494, "y": 3.5472774505615234, "z": -1.5145268440246582 }, "axis_scores": { "Quantum imaging": 0.7001339793205261, "Quantum Life Science Sensing": 0.7289714813232422, "Quantum sensing Detection": 0.6878318786621094, "Quantum sensing Metrology": 0.6778078079223633, "Quantum sensing navigation": 0.7090966701507568, "Quantum sensing Position": 0.6910297870635986, "Quantum sensing Timing": 0.6964898109436035, "Quantum sensing": 0.7046499252319336, "Quantum control": 0.6741257905960083 } }, { "id": 1216, "title": "On the Possibility to Combine the Order Effect with Sequential Reproducibility for Quantum Measurements", "abstract": "In this paper we study the problem of a possibility to use quantum observables to describe a possible combination of the order effect with sequential reproducibility for quantum measurements. By the o...", "citations": 13, "author_count": 3, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1217, "doi": "10.1007/s10701-015-9932-3", "umap_coordinates": { "x": 394.7451171875, "y": 136.735595703125, "z": 205.89317321777344 }, "tsne_coordinates": { "x": -22.615039825439453, "y": 7.7501220703125, "z": 4.727804183959961 }, "pca_coordinates": { "x": 0.11451423168182373, "y": 0.8867893218994141, "z": 3.179762363433838 }, "axis_scores": { "Quantum imaging": 0.7086201310157776, "Quantum Life Science Sensing": 0.7076288461685181, "Quantum sensing Detection": 0.7106969356536865, "Quantum sensing Metrology": 0.7188438177108765, "Quantum sensing navigation": 0.7047857046127319, "Quantum sensing Position": 0.7239581346511841, "Quantum sensing Timing": 0.7277188301086426, "Quantum sensing": 0.7214202880859375, "Quantum control": 0.6746742725372314 } }, { "id": 1217, "title": "Low-Cost Synthesis of Silicon Quantum Dots with Near-Unity Internal Quantum Efficiency", "abstract": "As a cost-effective batch synthesis method, Si quantum dots (QDs) with nearinfrared photoluminescence, high quantum yield (>50% in polymer nanocomposite), and nearunity internal quantum efficiency wer...", "citations": 45, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1218, "doi": "10.1021/acs.jpclett.1c02187", "umap_coordinates": { "x": 392.3095397949219, "y": 133.65081787109375, "z": 206.08181762695312 }, "tsne_coordinates": { "x": 21.090721130371094, "y": -9.97093677520752, "z": -25.933128356933594 }, "pca_coordinates": { "x": -2.080110549926758, "y": -2.8141303062438965, "z": 1.6468346118927002 }, "axis_scores": { "Quantum imaging": 0.750651478767395, "Quantum Life Science Sensing": 0.7645034193992615, "Quantum sensing Detection": 0.7414979934692383, "Quantum sensing Metrology": 0.7369654774665833, "Quantum sensing navigation": 0.718725860118866, "Quantum sensing Position": 0.6946840286254883, "Quantum sensing Timing": 0.7025970220565796, "Quantum sensing": 0.7565268278121948, "Quantum control": 0.7320932745933533 } }, { "id": 1218, "title": "INFORMATION EXTRACTION AND BACKACTION IN PHOTON NUMBER MEASUREMENTS", "abstract": "We analyse schemes for linear measurements of the photon number of a light beam and address how much information it is possible to extract from a quantum detector in single or repeated measurements, h...", "citations": 4, "author_count": 3, "categories": [ "Optics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1219, "doi": "10.1088/1355-5111/7/4/019", "umap_coordinates": { "x": 395.5241394042969, "y": 134.11680603027344, "z": 206.0589599609375 }, "tsne_coordinates": { "x": -9.784341812133789, "y": 9.541114807128906, "z": -20.897130966186523 }, "pca_coordinates": { "x": -0.387276828289032, "y": 2.025315284729004, "z": 3.238494396209717 }, "axis_scores": { "Quantum imaging": 0.7528414726257324, "Quantum Life Science Sensing": 0.7406401634216309, "Quantum sensing Detection": 0.7563571929931641, "Quantum sensing Metrology": 0.7363259196281433, "Quantum sensing navigation": 0.7385133504867554, "Quantum sensing Position": 0.73702472448349, "Quantum sensing Timing": 0.7087864875793457, "Quantum sensing": 0.7474203705787659, "Quantum control": 0.6905518174171448 } }, { "id": 1219, "title": "Transport and release of colloidal 3-mercaptopropionic acid-coated CdSe-CdS/ZnS core-multishell quantum dots in human umbilical vein endothelial cells", "abstract": "Colloidal semiconductor quantum dots (QDs) have been extensively researched and developed for biomedical applications, including drug delivery and biosensing assays. Hence, it is pivotal to understand...", "citations": 10, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1220, "doi": "10.2147/IJN.S145608", "umap_coordinates": { "x": 394.34002685546875, "y": 134.64430236816406, "z": 204.5701141357422 }, "tsne_coordinates": { "x": 13.943049430847168, "y": 28.967697143554688, "z": -1.886436104774475 }, "pca_coordinates": { "x": -3.009086847305298, "y": 0.06670498847961426, "z": -0.9215357303619385 }, "axis_scores": { "Quantum imaging": 0.7176319360733032, "Quantum Life Science Sensing": 0.714904248714447, "Quantum sensing Detection": 0.6934608221054077, "Quantum sensing Metrology": 0.6756978631019592, "Quantum sensing navigation": 0.7166625261306763, "Quantum sensing Position": 0.681948184967041, "Quantum sensing Timing": 0.6787564754486084, "Quantum sensing": 0.7069339156150818, "Quantum control": 0.7153339385986328 } }, { "id": 1220, "title": "Quantum discord in the dynamical Casimir effect", "abstract": "We analyze the generation of quantum discord by means of the dynamical Casimir effect in superconducting wave guides modulated by superconducting quantum interferometric devices. We show that for real...", "citations": 30, "author_count": 4, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1221, "doi": "10.1103/PhysRevA.92.012314", "umap_coordinates": { "x": 394.83148193359375, "y": 136.32557678222656, "z": 208.5709686279297 }, "tsne_coordinates": { "x": -13.557863235473633, "y": -23.010372161865234, "z": 11.813834190368652 }, "pca_coordinates": { "x": 5.367702484130859, "y": 0.6836919784545898, "z": -1.634204626083374 }, "axis_scores": { "Quantum imaging": 0.7387291193008423, "Quantum Life Science Sensing": 0.735611081123352, "Quantum sensing Detection": 0.7349905967712402, "Quantum sensing Metrology": 0.724067747592926, "Quantum sensing navigation": 0.7464694976806641, "Quantum sensing Position": 0.7162196636199951, "Quantum sensing Timing": 0.7017109394073486, "Quantum sensing": 0.7408366203308105, "Quantum control": 0.7521820664405823 } }, { "id": 1221, "title": "SINTERED AEROSOL MASKS FOR DRY-ETCHED QUANTUM DOTS", "abstract": "We report on a sintering step in producing ultra-fine silver aerosol particles to serve as etch masks for semiconductor quantum-dot structures. Our experiments found heating conditions that reshape th...", "citations": 27, "author_count": 6, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 1222, "doi": "10.1063/1.111314", "umap_coordinates": { "x": 393.5943298339844, "y": 133.5597686767578, "z": 207.8114013671875 }, "tsne_coordinates": { "x": 31.88771629333496, "y": -29.55997085571289, "z": 2.882197141647339 }, "pca_coordinates": { "x": -0.25517016649246216, "y": -3.338167667388916, "z": 2.324711322784424 }, "axis_scores": { "Quantum imaging": 0.7321475744247437, "Quantum Life Science Sensing": 0.7493754029273987, "Quantum sensing Detection": 0.7412557601928711, "Quantum sensing Metrology": 0.7659355998039246, "Quantum sensing navigation": 0.7142928242683411, "Quantum sensing Position": 0.6992501616477966, "Quantum sensing Timing": 0.6829888224601746, "Quantum sensing": 0.7569186687469482, "Quantum control": 0.7147313952445984 } }, { "id": 1222, "title": "Recombination dynamics in arrays of II-VI epitaxial quantum dots with Forster resonance energy transfer", "abstract": "We report on time-resolved photoluminescence (TR PL) studies of Forster resonance energy transfer (FRET) between epitaxial CdSe/ZnSe quantum dots (QDs). To prove the existence of FRET, we use two shee...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1223, "doi": "10.1002/pssb.201600414", "umap_coordinates": { "x": 392.49139404296875, "y": 134.76876831054688, "z": 207.552490234375 }, "tsne_coordinates": { "x": 25.828718185424805, "y": -9.33501148223877, "z": 16.255781173706055 }, "pca_coordinates": { "x": -0.06570839881896973, "y": -2.968249797821045, "z": -0.11231541633605957 }, "axis_scores": { "Quantum imaging": 0.7209527492523193, "Quantum Life Science Sensing": 0.7207676768302917, "Quantum sensing Detection": 0.6897627115249634, "Quantum sensing Metrology": 0.6834189891815186, "Quantum sensing navigation": 0.7000727653503418, "Quantum sensing Position": 0.6843641996383667, "Quantum sensing Timing": 0.696463406085968, "Quantum sensing": 0.6959429979324341, "Quantum control": 0.6804471611976624 } }, { "id": 1223, "title": "Quantum simulations of optical systems", "abstract": "Within the framework of a two-dimensional microscopic, purely quantum mechanical model, we analyse the dynamics of single-photon wave packets interacting with optical elements (beam splitters, mirrors...", "citations": 10, "author_count": 5, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1224, "doi": "10.1080/095003499149052", "umap_coordinates": { "x": 394.88995361328125, "y": 136.64601135253906, "z": 206.49606323242188 }, "tsne_coordinates": { "x": -27.404052734375, "y": 0.7234147787094116, "z": 4.743488311767578 }, "pca_coordinates": { "x": 2.528621196746826, "y": 1.8788366317749023, "z": 0.8260568976402283 }, "axis_scores": { "Quantum imaging": 0.8031303882598877, "Quantum Life Science Sensing": 0.7884329557418823, "Quantum sensing Detection": 0.7843250632286072, "Quantum sensing Metrology": 0.775449275970459, "Quantum sensing navigation": 0.7825729250907898, "Quantum sensing Position": 0.7386457324028015, "Quantum sensing Timing": 0.751270592212677, "Quantum sensing": 0.7965680360794067, "Quantum control": 0.7657540440559387 } }, { "id": 1224, "title": "Luminescent Color Conversion on Cyanostilbene-Functionalized Quantum Dots via In-situ Photo-Tuning", "abstract": "", "citations": 96, "author_count": 8, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1225, "doi": "10.1002/adma.201200709", "umap_coordinates": { "x": 392.3543395996094, "y": 135.0738525390625, "z": 205.0407257080078 }, "tsne_coordinates": { "x": 11.128931999206543, "y": 9.621387481689453, "z": -18.020000457763672 }, "pca_coordinates": { "x": -3.9672060012817383, "y": -2.805476665496826, "z": -0.3028843402862549 }, "axis_scores": { "Quantum imaging": 0.7323384881019592, "Quantum Life Science Sensing": 0.7181515693664551, "Quantum sensing Detection": 0.720113217830658, "Quantum sensing Metrology": 0.6953898668289185, "Quantum sensing navigation": 0.6973428726196289, "Quantum sensing Position": 0.6796915531158447, "Quantum sensing Timing": 0.6863364577293396, "Quantum sensing": 0.7318134307861328, "Quantum control": 0.7283794283866882 } }, { "id": 1225, "title": "Exploring nanofibrous networks with x-ray photon correlation spectroscopy through a digital twin", "abstract": "We demonstrate a framework of interpreting data from x-ray photon correlation spectroscopy experiments with the aid of numerical simulations to describe nanoscale dynamics in soft matter. This is exem...", "citations": 3, "author_count": 9, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1226, "doi": "10.1103/PhysRevE.108.014607", "umap_coordinates": { "x": 395.20086669921875, "y": 135.10574340820312, "z": 206.61444091796875 }, "tsne_coordinates": { "x": -25.787212371826172, "y": 8.715551376342773, "z": -25.3418025970459 }, "pca_coordinates": { "x": 0.9400997161865234, "y": 0.33867645263671875, "z": 3.5586061477661133 }, "axis_scores": { "Quantum imaging": 0.7418360710144043, "Quantum Life Science Sensing": 0.727955162525177, "Quantum sensing Detection": 0.7216559648513794, "Quantum sensing Metrology": 0.712691605091095, "Quantum sensing navigation": 0.7259286046028137, "Quantum sensing Position": 0.6885265707969666, "Quantum sensing Timing": 0.7056490778923035, "Quantum sensing": 0.7325105667114258, "Quantum control": 0.6940006613731384 } }, { "id": 1226, "title": "Unlocking the potential of green-engineered carbon quantum dots for sustainable packaging biomedical applications and water purification", "abstract": "Carbon quantum dots (CQDs) with well-defined architectures offer highly fascinating properties such as excellent water-solubility, exceptional luminescence, large specific surface area, non-toxicity, ...", "citations": 21, "author_count": 9, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1227, "doi": "10.1016/j.cis.2025.103414", "umap_coordinates": { "x": 393.1930236816406, "y": 133.73428344726562, "z": 204.6414337158203 }, "tsne_coordinates": { "x": 17.58902931213379, "y": 20.26535987854004, "z": -5.8769307136535645 }, "pca_coordinates": { "x": -4.627071857452393, "y": -0.6962766647338867, "z": -0.7106349468231201 }, "axis_scores": { "Quantum imaging": 0.7255226969718933, "Quantum Life Science Sensing": 0.7703968286514282, "Quantum sensing Detection": 0.7078579068183899, "Quantum sensing Metrology": 0.7021013498306274, "Quantum sensing navigation": 0.7027315497398376, "Quantum sensing Position": 0.6872943043708801, "Quantum sensing Timing": 0.67436683177948, "Quantum sensing": 0.722516655921936, "Quantum control": 0.6984531283378601 } }, { "id": 1227, "title": "Quantum logic gate with microtraps", "abstract": "Recent cooling and trapping techniques for atoms allows the fabrication of genuinely microscopic quantum wires and dots for individual particles. We discuss the physical features of a structure which ...", "citations": 6, "author_count": 3, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1228, "doi": "10.1016/S0030-4018(00)01161-5", "umap_coordinates": { "x": 394.6686706542969, "y": 136.10397338867188, "z": 206.22998046875 }, "tsne_coordinates": { "x": -11.182170867919922, "y": 9.325483322143555, "z": 12.766839027404785 }, "pca_coordinates": { "x": -0.5164884328842163, "y": 0.6322999000549316, "z": 2.5763561725616455 }, "axis_scores": { "Quantum imaging": 0.7439275979995728, "Quantum Life Science Sensing": 0.7436619997024536, "Quantum sensing Detection": 0.75398188829422, "Quantum sensing Metrology": 0.755055844783783, "Quantum sensing navigation": 0.743747889995575, "Quantum sensing Position": 0.7221662998199463, "Quantum sensing Timing": 0.7232625484466553, "Quantum sensing": 0.7617136836051941, "Quantum control": 0.7207027077674866 } }, { "id": 1228, "title": "Photostability and Photodegradation Processes in Colloidal CsPbI3 Perovskite Quantum Dots", "abstract": "All-inorganic CsPbI3 perovskite quantum dots (QDs) have attracted intense attention for their successful application in photovoltaics (PVs) and optoelectronics that are enabled by their superior absor...", "citations": 146, "author_count": 16, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1229, "doi": "10.1021/acsami.8b14480", "umap_coordinates": { "x": 391.8685607910156, "y": 135.04180908203125, "z": 206.0511474609375 }, "tsne_coordinates": { "x": 21.86908721923828, "y": -2.1617066860198975, "z": -16.376907348632812 }, "pca_coordinates": { "x": -2.386950969696045, "y": -4.019267559051514, "z": -3.0054619312286377 }, "axis_scores": { "Quantum imaging": 0.7195548415184021, "Quantum Life Science Sensing": 0.7306692600250244, "Quantum sensing Detection": 0.6998761892318726, "Quantum sensing Metrology": 0.6720448136329651, "Quantum sensing navigation": 0.6871697306632996, "Quantum sensing Position": 0.6749812960624695, "Quantum sensing Timing": 0.6731300354003906, "Quantum sensing": 0.7077419757843018, "Quantum control": 0.6939488649368286 } }, { "id": 1229, "title": "Infrared Absorption and Hot Electron Production in Low-Electron-Density Nanospheres: A Look at Real Systems", "abstract": "Doped semiconductor quantum dots are a new class of plasmonic systems exhibiting infrared resonances. At ultralow concentrations of charge carriers that can be achieved by controlled doping, only few ...", "citations": 4, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1230, "doi": "10.1021/acs.jpclett.6b02953", "umap_coordinates": { "x": 392.99200439453125, "y": 135.3353729248047, "z": 206.24427795410156 }, "tsne_coordinates": { "x": 6.338313102722168, "y": -9.998621940612793, "z": -8.93213176727295 }, "pca_coordinates": { "x": -1.180204153060913, "y": -1.2326717376708984, "z": -1.5330467224121094 }, "axis_scores": { "Quantum imaging": 0.7036074995994568, "Quantum Life Science Sensing": 0.7344274520874023, "Quantum sensing Detection": 0.6845705509185791, "Quantum sensing Metrology": 0.6610838174819946, "Quantum sensing navigation": 0.662763237953186, "Quantum sensing Position": 0.6575981974601746, "Quantum sensing Timing": 0.6405969262123108, "Quantum sensing": 0.6926796436309814, "Quantum control": 0.6730742454528809 } }, { "id": 1230, "title": "A combined molecular dynamics plus quantum mechanics method for investigation of dynamic effects on local surface structures", "abstract": "A combined molecular dynamics (MD)+quantum mechanics (QM) method for studying processes on ionic surfaces is presented. Through the combination of classical MD and ab initio embedded-cluster calculati...", "citations": 32, "author_count": 4, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1231, "doi": "10.1063/1.1635802", "umap_coordinates": { "x": 393.1040954589844, "y": 137.22097778320312, "z": 206.2411651611328 }, "tsne_coordinates": { "x": -1.491695761680603, "y": 7.876201629638672, "z": 31.7375545501709 }, "pca_coordinates": { "x": 0.5753589868545532, "y": -0.249298095703125, "z": -1.9123213291168213 }, "axis_scores": { "Quantum imaging": 0.716344952583313, "Quantum Life Science Sensing": 0.7335472106933594, "Quantum sensing Detection": 0.7077822089195251, "Quantum sensing Metrology": 0.7058713436126709, "Quantum sensing navigation": 0.6979759335517883, "Quantum sensing Position": 0.6772670149803162, "Quantum sensing Timing": 0.6519116759300232, "Quantum sensing": 0.7150973081588745, "Quantum control": 0.6976849436759949 } }, { "id": 1231, "title": "Kondo impurity in a mesoscopic ring: Charge persistent current", "abstract": "We study the influence of a magnetic impurity or ultrasmall quantum dot on the charge persistent current of a mesoscopic ring. The system consists of electrons in a one-dimensional ring threaded by sp...", "citations": 12, "author_count": 4, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1232, "doi": null, "umap_coordinates": { "x": 392.081298828125, "y": 139.46910095214844, "z": 209.2266387939453 }, "tsne_coordinates": { "x": -8.851181030273438, "y": 44.45266342163086, "z": -3.981259822845459 }, "pca_coordinates": { "x": 1.0883772373199463, "y": 1.7330230474472046, "z": -3.611947536468506 }, "axis_scores": { "Quantum imaging": 0.7284844517707825, "Quantum Life Science Sensing": 0.7301285266876221, "Quantum sensing Detection": 0.7149317860603333, "Quantum sensing Metrology": 0.6939043998718262, "Quantum sensing navigation": 0.7219204306602478, "Quantum sensing Position": 0.7096948623657227, "Quantum sensing Timing": 0.6757344007492065, "Quantum sensing": 0.7298606038093567, "Quantum control": 0.7347463965415955 } }, { "id": 1232, "title": "Centrality dependence of direct photon production in √SNN=200 GeVAu+Aucollisions - art. no. 232301", "abstract": "The first measurement of direct photons in Au+Au collisions at root s(NN)=200 GeV is presented. The direct photon signal is extracted as a function of the Au+Au collision centrality and compared to ne...", "citations": 11, "author_count": 330, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1233, "doi": "10.1103/PhysRevLett.94.232301", "umap_coordinates": { "x": 396.2759094238281, "y": 134.4558563232422, "z": 207.92796325683594 }, "tsne_coordinates": { "x": -32.504947662353516, "y": 4.442190170288086, "z": -20.346920013427734 }, "pca_coordinates": { "x": 1.093445062637329, "y": 0.0019409656524658203, "z": 1.7537741661071777 }, "axis_scores": { "Quantum imaging": 0.675687849521637, "Quantum Life Science Sensing": 0.6903085112571716, "Quantum sensing Detection": 0.7076497673988342, "Quantum sensing Metrology": 0.6759614944458008, "Quantum sensing navigation": 0.7023404240608215, "Quantum sensing Position": 0.6853742003440857, "Quantum sensing Timing": 0.6855247616767883, "Quantum sensing": 0.6933072805404663, "Quantum control": 0.6797537803649902 } }, { "id": 1233, "title": "Enhanced charge carrier extraction by a highly ordered wrinkled MgZnO thin film for colloidal quantum dot solar cells", "abstract": "Efficient charge carrier extraction from a colloidal quantum dot (CQD) solid is crucial for high performance of CQD solar cells (CQDSCs). Herein, highly ordered wrinkled MgZnO (MZO) thin films are dem...", "citations": 20, "author_count": 8, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1234, "doi": "10.1039/c7tc02740k", "umap_coordinates": { "x": 391.7735290527344, "y": 134.30870056152344, "z": 205.6927947998047 }, "tsne_coordinates": { "x": 15.198695182800293, "y": -3.0236692428588867, "z": -7.528048515319824 }, "pca_coordinates": { "x": -2.1762447357177734, "y": -4.444948196411133, "z": -2.1637778282165527 }, "axis_scores": { "Quantum imaging": 0.6493042707443237, "Quantum Life Science Sensing": 0.6717938780784607, "Quantum sensing Detection": 0.6264152526855469, "Quantum sensing Metrology": 0.6336739659309387, "Quantum sensing navigation": 0.6469777822494507, "Quantum sensing Position": 0.6338374614715576, "Quantum sensing Timing": 0.624632716178894, "Quantum sensing": 0.6455954909324646, "Quantum control": 0.6424451470375061 } }, { "id": 1234, "title": "Sustained Continuous-Wave Lasing in Quantum Dot Microfluids", "abstract": "Sustained amplified stimulated emission (ASE) under continuous-wave (cw) excitation is a prerequisite for any new gain material being developed for lasing applications. Despite the great success achie...", "citations": 4, "author_count": 11, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1235, "doi": "10.1002/adma.202509457", "umap_coordinates": { "x": 392.78533935546875, "y": 135.498046875, "z": 206.88279724121094 }, "tsne_coordinates": { "x": 16.112163543701172, "y": -3.5378522872924805, "z": 13.659260749816895 }, "pca_coordinates": { "x": -0.34255385398864746, "y": -2.3651113510131836, "z": -1.9438211917877197 }, "axis_scores": { "Quantum imaging": 0.7185906171798706, "Quantum Life Science Sensing": 0.7451853156089783, "Quantum sensing Detection": 0.7241265177726746, "Quantum sensing Metrology": 0.7223260998725891, "Quantum sensing navigation": 0.7077939510345459, "Quantum sensing Position": 0.6988811492919922, "Quantum sensing Timing": 0.6734988689422607, "Quantum sensing": 0.7275248169898987, "Quantum control": 0.723189115524292 } }, { "id": 1235, "title": "Chaos-driven dynamics in spin-orbit-coupled atomic gases", "abstract": "The dynamics, appearing after a quantum quench, of a trapped, spin-orbit coupled, dilute atomic gas is studied. The characteristics of the evolution is greatly influenced by the symmetries of the syst...", "citations": 47, "author_count": 4, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1236, "doi": "10.1103/PhysRevA.87.013624", "umap_coordinates": { "x": 394.45648193359375, "y": 136.28082275390625, "z": 208.82806396484375 }, "tsne_coordinates": { "x": -12.015193939208984, "y": -16.24972152709961, "z": 12.14334487915039 }, "pca_coordinates": { "x": 5.842535495758057, "y": -0.9489655494689941, "z": -1.0969209671020508 }, "axis_scores": { "Quantum imaging": 0.7168638110160828, "Quantum Life Science Sensing": 0.7409470081329346, "Quantum sensing Detection": 0.7313017845153809, "Quantum sensing Metrology": 0.707837700843811, "Quantum sensing navigation": 0.7368020415306091, "Quantum sensing Position": 0.6882213354110718, "Quantum sensing Timing": 0.704601526260376, "Quantum sensing": 0.7382190227508545, "Quantum control": 0.7439019083976746 } }, { "id": 1236, "title": "Coherence times of dressed states of a superconducting qubit under extreme driving", "abstract": "We measure longitudinal dressed states of a superconducting qubit, the single Cooper-pair box, and an intense microwave field. The dressed states represent the hybridization of the qubit and photon de...", "citations": 153, "author_count": 7, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1237, "doi": "10.1103/PhysRevLett.98.257003", "umap_coordinates": { "x": 394.52484130859375, "y": 136.6320343017578, "z": 208.09716796875 }, "tsne_coordinates": { "x": -12.938733100891113, "y": -13.770546913146973, "z": 14.601367950439453 }, "pca_coordinates": { "x": 3.9788784980773926, "y": 0.13495588302612305, "z": 0.0768384337425232 }, "axis_scores": { "Quantum imaging": 0.6924718618392944, "Quantum Life Science Sensing": 0.7077162265777588, "Quantum sensing Detection": 0.6892086267471313, "Quantum sensing Metrology": 0.6831490993499756, "Quantum sensing navigation": 0.6994706392288208, "Quantum sensing Position": 0.6768431663513184, "Quantum sensing Timing": 0.718363881111145, "Quantum sensing": 0.6922498345375061, "Quantum control": 0.6732087135314941 } }, { "id": 1237, "title": "ABSOLUTE MEASURES OF IMAGE QUALITY FOR THE SENS-A-RAY DIRECT DIGITAL INTRAORAL RADIOGRAPHY SYSTEM", "abstract": "To study the noise characteristics of the Sens-A-Ray (Regam Medical Systems AB, Sundsvall, Sweden) system, 20 radiographs were obtained at each of three different exposure levels at 70 and 90 kVp with...", "citations": 14, "author_count": 9, "categories": [ "Dentistry", "Oral Surgery & Medicine" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1238, "doi": "10.1016/S1079-2104(05)80393-2", "umap_coordinates": { "x": 395.2228088378906, "y": 133.47897338867188, "z": 204.87060546875 }, "tsne_coordinates": { "x": 0.5437780022621155, "y": 29.406164169311523, "z": -21.544538497924805 }, "pca_coordinates": { "x": -2.9361202716827393, "y": 2.3726727962493896, "z": 3.2359604835510254 }, "axis_scores": { "Quantum imaging": 0.7025637626647949, "Quantum Life Science Sensing": 0.7055484652519226, "Quantum sensing Detection": 0.6994633078575134, "Quantum sensing Metrology": 0.722337007522583, "Quantum sensing navigation": 0.6844725608825684, "Quantum sensing Position": 0.7166191935539246, "Quantum sensing Timing": 0.6969796419143677, "Quantum sensing": 0.714699923992157, "Quantum control": 0.6564587354660034 } }, { "id": 1238, "title": "The Impact of Donor-Orientation on the Emission Properties of Chlorinated Trityl Radicals", "abstract": "Chlorinated trityl radicals functionalized with electron-donating groups are promising red-emitting materials for optoelectronic and spintronic applications, overcoming the spin-statistical limit of c...", "citations": 4, "author_count": 11, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1239, "doi": "10.1002/adom.202500296", "umap_coordinates": { "x": 392.96710205078125, "y": 135.1332550048828, "z": 205.08367919921875 }, "tsne_coordinates": { "x": 7.90285062789917, "y": 14.478693962097168, "z": -6.529361248016357 }, "pca_coordinates": { "x": -3.256531238555908, "y": 0.026829242706298828, "z": -2.4616596698760986 }, "axis_scores": { "Quantum imaging": 0.7227622866630554, "Quantum Life Science Sensing": 0.7145494818687439, "Quantum sensing Detection": 0.6872742176055908, "Quantum sensing Metrology": 0.6705777049064636, "Quantum sensing navigation": 0.6850918531417847, "Quantum sensing Position": 0.6779561042785645, "Quantum sensing Timing": 0.6775665879249573, "Quantum sensing": 0.7026078701019287, "Quantum control": 0.702971875667572 } }, { "id": 1239, "title": "Fractional quantum Hall states with gapped boundaries in an extreme lattice limit", "abstract": "We present a detailed microscopic investigation of fractional quantum Hall states with gapped boundaries in a coupled bilayer lattice model featuring holes whose counterpropagating chiral edge states ...", "citations": 4, "author_count": 3, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1240, "doi": "10.1103/PhysRevB.99.195122", "umap_coordinates": { "x": 394.29632568359375, "y": 136.43777465820312, "z": 208.9854278564453 }, "tsne_coordinates": { "x": -14.712625503540039, "y": -29.63079833984375, "z": 13.929049491882324 }, "pca_coordinates": { "x": 5.185751438140869, "y": -0.49453067779541016, "z": -0.183335542678833 }, "axis_scores": { "Quantum imaging": 0.6879405379295349, "Quantum Life Science Sensing": 0.694666862487793, "Quantum sensing Detection": 0.6946098804473877, "Quantum sensing Metrology": 0.6883144378662109, "Quantum sensing navigation": 0.6963175535202026, "Quantum sensing Position": 0.6857874989509583, "Quantum sensing Timing": 0.6795203685760498, "Quantum sensing": 0.6995955109596252, "Quantum control": 0.6778109669685364 } }, { "id": 1240, "title": "Design and Construction of the Lawnmower, An Artificial Burnt-Bridges Motor", "abstract": "Molecular motors of the cell are protein-based, nanoscale machines, which use a variety of strategies to transduce chemical energy into mechanical work in the presence of a large thermal background. T...", "citations": 18, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1241, "doi": "10.1109/TNB.2015.2393872", "umap_coordinates": { "x": 394.7254943847656, "y": 134.32656860351562, "z": 206.73045349121094 }, "tsne_coordinates": { "x": -4.204892158508301, "y": -3.713320016860962, "z": -40.73127365112305 }, "pca_coordinates": { "x": 0.01892077922821045, "y": 1.2659294605255127, "z": 0.2272074818611145 }, "axis_scores": { "Quantum imaging": 0.6450987458229065, "Quantum Life Science Sensing": 0.686509370803833, "Quantum sensing Detection": 0.6731860637664795, "Quantum sensing Metrology": 0.6836286187171936, "Quantum sensing navigation": 0.6861116886138916, "Quantum sensing Position": 0.6457105278968811, "Quantum sensing Timing": 0.6547958254814148, "Quantum sensing": 0.6838445067405701, "Quantum control": 0.6819404363632202 } }, { "id": 1241, "title": "Coherent two-dimensional photocurrent spectroscopy in a PbS quantum dot photocell", "abstract": "Recently there has been growing interest in the role of coherence in electronic dynamics. Coherent multidimensional spectroscopy has been used to reveal coherent phenomena in numerous material systems...", "citations": 177, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1242, "doi": "10.1038/ncomms6869", "umap_coordinates": { "x": 392.65826416015625, "y": 135.30455017089844, "z": 207.0273895263672 }, "tsne_coordinates": { "x": 12.50390338897705, "y": -3.3988189697265625, "z": 11.715838432312012 }, "pca_coordinates": { "x": 0.02143263816833496, "y": -3.1459450721740723, "z": 1.8949165344238281 }, "axis_scores": { "Quantum imaging": 0.7444804906845093, "Quantum Life Science Sensing": 0.7464880347251892, "Quantum sensing Detection": 0.7453376650810242, "Quantum sensing Metrology": 0.7157137393951416, "Quantum sensing navigation": 0.740201473236084, "Quantum sensing Position": 0.7330850958824158, "Quantum sensing Timing": 0.7100962996482849, "Quantum sensing": 0.739008367061615, "Quantum control": 0.7001271843910217 } }, { "id": 1242, "title": "A quantum theory of chemical processes and reaction rates based on diabatic electronic functions coupled in an external field", "abstract": "The method discussed in this work provides a theoretical framework where simple chemical reactions resemble any other standard quantum process, i.e., a transition in quantum state mediated by the elec...", "citations": 8, "author_count": 3, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1243, "doi": "10.1007/s10910-004-1105-0", "umap_coordinates": { "x": 394.0672302246094, "y": 137.3661651611328, "z": 206.1607666015625 }, "tsne_coordinates": { "x": -14.734216690063477, "y": 18.408367156982422, "z": 26.494667053222656 }, "pca_coordinates": { "x": 0.9667155742645264, "y": 1.2009772062301636, "z": -0.6766066551208496 }, "axis_scores": { "Quantum imaging": 0.716860830783844, "Quantum Life Science Sensing": 0.7255825996398926, "Quantum sensing Detection": 0.713947594165802, "Quantum sensing Metrology": 0.6985670328140259, "Quantum sensing navigation": 0.7181243896484375, "Quantum sensing Position": 0.6748064756393433, "Quantum sensing Timing": 0.7019126415252686, "Quantum sensing": 0.7229651212692261, "Quantum control": 0.7167618274688721 } }, { "id": 1243, "title": "Inhibited thermal degradation of CsPbBr3 perovskite quantum dots by dual-Shell engineering towards stable LEDs", "abstract": "Halide perovskite quantum dots (PeQDs) have garnered significant attention for their exceptional optoelectronic properties, particularly in light-emitting diode (LED) applications. However, their susc...", "citations": 2, "author_count": 13, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1244, "doi": "10.1016/j.jcis.2025.138350", "umap_coordinates": { "x": 392.0199279785156, "y": 134.282958984375, "z": 205.18663024902344 }, "tsne_coordinates": { "x": 21.70411491394043, "y": 1.210583209991455, "z": -17.112607955932617 }, "pca_coordinates": { "x": -4.50388765335083, "y": -2.874760150909424, "z": -1.722823143005371 }, "axis_scores": { "Quantum imaging": 0.698523759841919, "Quantum Life Science Sensing": 0.715932309627533, "Quantum sensing Detection": 0.6889548897743225, "Quantum sensing Metrology": 0.6594578623771667, "Quantum sensing navigation": 0.6655415296554565, "Quantum sensing Position": 0.6504510045051575, "Quantum sensing Timing": 0.6606748104095459, "Quantum sensing": 0.6922825574874878, "Quantum control": 0.6973180174827576 } }, { "id": 1244, "title": "Capping Ligand Engineering Enables Stable CsPbBr3 Perovskite Quantum Dots toward White-Light-Emitting Diodes", "abstract": "All-inorganic perovskite quantum dots (PeQDs) have sparkedextensiveresearch focus on white-light-emitting diodes (WLEDs), but stabilityand photoluminescence efficiency issues are still remain obstacle...", "citations": 29, "author_count": 14, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1245, "doi": "10.1021/acs.inorgchem.3c01092", "umap_coordinates": { "x": 391.49560546875, "y": 134.03973388671875, "z": 205.306640625 }, "tsne_coordinates": { "x": 20.472434997558594, "y": 0.6298000812530518, "z": -18.775880813598633 }, "pca_coordinates": { "x": -3.8731188774108887, "y": -4.26453161239624, "z": -2.8893139362335205 }, "axis_scores": { "Quantum imaging": 0.7065362930297852, "Quantum Life Science Sensing": 0.7055914998054504, "Quantum sensing Detection": 0.699670135974884, "Quantum sensing Metrology": 0.6835323572158813, "Quantum sensing navigation": 0.7008638978004456, "Quantum sensing Position": 0.680875837802887, "Quantum sensing Timing": 0.6803656220436096, "Quantum sensing": 0.7153012752532959, "Quantum control": 0.7165777683258057 } }, { "id": 1245, "title": "Deep learning of quantum entanglement from incomplete measurements", "abstract": "The quantification of the entanglement present in a physical system is of paramount importance for fundamental research and many cutting-edge applications. Now, achieving this goal requires either a p...", "citations": 30, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1246, "doi": "10.1126/sciadv.add7131", "umap_coordinates": { "x": 395.6815185546875, "y": 136.67030334472656, "z": 206.5255126953125 }, "tsne_coordinates": { "x": -14.53279972076416, "y": -2.901982069015503, "z": 4.097084045410156 }, "pca_coordinates": { "x": 2.0324435234069824, "y": 2.5997085571289062, "z": 2.440633773803711 }, "axis_scores": { "Quantum imaging": 0.7827073931694031, "Quantum Life Science Sensing": 0.761553168296814, "Quantum sensing Detection": 0.7684661746025085, "Quantum sensing Metrology": 0.7662224769592285, "Quantum sensing navigation": 0.7768173217773438, "Quantum sensing Position": 0.7392093539237976, "Quantum sensing Timing": 0.7156190872192383, "Quantum sensing": 0.7830269932746887, "Quantum control": 0.7385814785957336 } }, { "id": 1246, "title": "InPBi Quantum Dots for Super-Luminescence Diodes", "abstract": "InPBi thin film has shown ultra-broad room temperature photoluminescence, which is promising for applications in super-luminescent diodes (SLDs) but met problems with low light emission efficiency. In...", "citations": 4, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1247, "doi": "10.3390/nano8090705", "umap_coordinates": { "x": 392.2406921386719, "y": 133.70327758789062, "z": 206.30592346191406 }, "tsne_coordinates": { "x": 31.075193405151367, "y": 14.772604942321777, "z": -12.818533897399902 }, "pca_coordinates": { "x": -2.4751527309417725, "y": -3.802865982055664, "z": -0.05669301748275757 }, "axis_scores": { "Quantum imaging": 0.7539465427398682, "Quantum Life Science Sensing": 0.764070987701416, "Quantum sensing Detection": 0.7361929416656494, "Quantum sensing Metrology": 0.7319168448448181, "Quantum sensing navigation": 0.7136364579200745, "Quantum sensing Position": 0.702851414680481, "Quantum sensing Timing": 0.6963971853256226, "Quantum sensing": 0.751051127910614, "Quantum control": 0.6939748525619507 } }, { "id": 1247, "title": "Effects of K+ and Na+ ions on the fluorescence of colloidal CdSe/CdS and CdSe/ZnS quantum dots", "abstract": "In this work we studied the effects of K+ and Na+ ions on fluorescence properties of the colloidal quantum dots (QDs). It was found that the fluorescence intensity was enhanced when low concentration ...", "citations": 19, "author_count": 7, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1248, "doi": "10.1016/j.snb.2011.01.055", "umap_coordinates": { "x": 393.00653076171875, "y": 134.28274536132812, "z": 205.64830017089844 }, "tsne_coordinates": { "x": 27.957944869995117, "y": 1.0542073249816895, "z": 6.369929313659668 }, "pca_coordinates": { "x": -3.14412784576416, "y": -1.9370455741882324, "z": -1.6361091136932373 }, "axis_scores": { "Quantum imaging": 0.7269037961959839, "Quantum Life Science Sensing": 0.7379934787750244, "Quantum sensing Detection": 0.7244291305541992, "Quantum sensing Metrology": 0.6976696848869324, "Quantum sensing navigation": 0.7299467325210571, "Quantum sensing Position": 0.717029869556427, "Quantum sensing Timing": 0.6771491169929504, "Quantum sensing": 0.7357388734817505, "Quantum control": 0.7008841037750244 } }, { "id": 1248, "title": "(Tetrafluorovinylphenyl)carbazole as a Multifunctional Material for OLED Applications", "abstract": "The multifunctional materials for application in organic light-emitting devices (OLEDs) based on a single structural motif are very desired but quite rare species. Such structures allow simplifying th...", "citations": 9, "author_count": 15, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1249, "doi": "10.1021/acsaelm.3c00047", "umap_coordinates": { "x": 392.0933837890625, "y": 134.8773193359375, "z": 204.5535125732422 }, "tsne_coordinates": { "x": 16.65045928955078, "y": 10.97818660736084, "z": -11.365365982055664 }, "pca_coordinates": { "x": -4.672996520996094, "y": -2.2872281074523926, "z": -2.439472198486328 }, "axis_scores": { "Quantum imaging": 0.6857460737228394, "Quantum Life Science Sensing": 0.6958458423614502, "Quantum sensing Detection": 0.6670398116111755, "Quantum sensing Metrology": 0.6687989830970764, "Quantum sensing navigation": 0.6628434658050537, "Quantum sensing Position": 0.6528237462043762, "Quantum sensing Timing": 0.6173034310340881, "Quantum sensing": 0.678983211517334, "Quantum control": 0.6866347789764404 } }, { "id": 1249, "title": "Facile synthesis of solid-state fluorescent organosilica nanoparticles with a photoluminescence quantum yield of 73.3% for fingerprint recognition and white-light-emitting diodes", "abstract": "Silicon-based fluorescent nanomaterials have attracted widespread attention in latent fingerprint detection and white light-emitting diodes (WLEDs) due to their high photoluminescence, low toxicity an...", "citations": 19, "author_count": 5, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1250, "doi": "10.1039/d0tc04800c", "umap_coordinates": { "x": 392.0434265136719, "y": 134.62767028808594, "z": 205.1544189453125 }, "tsne_coordinates": { "x": 9.619426727294922, "y": 3.386906147003174, "z": -11.590408325195312 }, "pca_coordinates": { "x": -3.697910785675049, "y": -2.6579079627990723, "z": -0.3313884735107422 }, "axis_scores": { "Quantum imaging": 0.6861832141876221, "Quantum Life Science Sensing": 0.7126049399375916, "Quantum sensing Detection": 0.6949557065963745, "Quantum sensing Metrology": 0.675630509853363, "Quantum sensing navigation": 0.6648274660110474, "Quantum sensing Position": 0.6565214395523071, "Quantum sensing Timing": 0.6749237179756165, "Quantum sensing": 0.6985470652580261, "Quantum control": 0.6639555096626282 } }, { "id": 1250, "title": "Spray Coated Colloidal Quantum Dot Films for Broadband Photodetectors", "abstract": "A technique for scalable spray coating of colloidal CdSeTe quantum dots (QDs) for photovoltaics and photodetector applications is presented. A mixture solvent with water and ethanol was introduced to ...", "citations": 14, "author_count": 8, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1251, "doi": "10.3390/nano9121738", "umap_coordinates": { "x": 392.8961486816406, "y": 133.85804748535156, "z": 205.55181884765625 }, "tsne_coordinates": { "x": 31.457914352416992, "y": 15.719660758972168, "z": -11.561463356018066 }, "pca_coordinates": { "x": -2.6554033756256104, "y": -3.3062291145324707, "z": 0.3403499722480774 }, "axis_scores": { "Quantum imaging": 0.7378392219543457, "Quantum Life Science Sensing": 0.7685360908508301, "Quantum sensing Detection": 0.7434074282646179, "Quantum sensing Metrology": 0.7325636148452759, "Quantum sensing navigation": 0.7417535781860352, "Quantum sensing Position": 0.7126905918121338, "Quantum sensing Timing": 0.68168044090271, "Quantum sensing": 0.7484816312789917, "Quantum control": 0.7075192332267761 } }, { "id": 1251, "title": "Selective far-field addressing of coupled quantum dots in a plasmonic nanocavity", "abstract": "Plasmon-emitter hybrid nanocavity systems exhibit strong plasmon-exciton interactions at the single-emitter level, showing great potential as testbeds and building blocks for quantum optics and inform...", "citations": 42, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1252, "doi": "10.1038/s41467-018-04077-z", "umap_coordinates": { "x": 393.38873291015625, "y": 134.17332458496094, "z": 206.2137908935547 }, "tsne_coordinates": { "x": 9.316784858703613, "y": -10.769940376281738, "z": -4.285414218902588 }, "pca_coordinates": { "x": -2.5440287590026855, "y": -3.0278735160827637, "z": 1.6981258392333984 }, "axis_scores": { "Quantum imaging": 0.7271418571472168, "Quantum Life Science Sensing": 0.7284691333770752, "Quantum sensing Detection": 0.7246344089508057, "Quantum sensing Metrology": 0.7149685025215149, "Quantum sensing navigation": 0.729962944984436, "Quantum sensing Position": 0.7095735669136047, "Quantum sensing Timing": 0.6753190159797668, "Quantum sensing": 0.7344955801963806, "Quantum control": 0.7030743360519409 } }, { "id": 1252, "title": "Photocurrent spectroscopy on self-assembled InAs quantum dots embedded in InP", "abstract": "In this work, we report on an overview of recent results from Fourier transform photocurrent (FTPC) measurements in the infrared spectral region on ensembles of self-assembled InAs quantum dots embedd...", "citations": 2, "author_count": 8, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1253, "doi": "10.1016/j.mejo.2005.02.011", "umap_coordinates": { "x": 392.3769836425781, "y": 134.1519012451172, "z": 207.4442138671875 }, "tsne_coordinates": { "x": 30.46488380432129, "y": -14.31530475616455, "z": 5.9775824546813965 }, "pca_coordinates": { "x": -1.1573189496994019, "y": -3.3230061531066895, "z": 0.9838210940361023 }, "axis_scores": { "Quantum imaging": 0.7475484609603882, "Quantum Life Science Sensing": 0.7566549777984619, "Quantum sensing Detection": 0.7412739992141724, "Quantum sensing Metrology": 0.7302843332290649, "Quantum sensing navigation": 0.7207446098327637, "Quantum sensing Position": 0.7205320000648499, "Quantum sensing Timing": 0.6774013638496399, "Quantum sensing": 0.7459900975227356, "Quantum control": 0.6813520193099976 } }, { "id": 1253, "title": "Fabrication of lead telluride quantum dots and their application in photoelectrochemical-type photodetectors", "abstract": "IV-VI semiconductors have been extensively applied in photo-electrochemical (PEC)-type photodetectors. However, electrolytes with relatively high concentrations have been addressed which could induce ...", "citations": 14, "author_count": 9, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1254, "doi": "10.1016/j.nantod.2023.101999", "umap_coordinates": { "x": 393.6287536621094, "y": 133.6052703857422, "z": 205.1778564453125 }, "tsne_coordinates": { "x": 22.065053939819336, "y": 12.95875358581543, "z": -2.585218667984009 }, "pca_coordinates": { "x": -4.061728477478027, "y": -2.502331256866455, "z": 0.5617340207099915 }, "axis_scores": { "Quantum imaging": 0.6859369277954102, "Quantum Life Science Sensing": 0.7219405174255371, "Quantum sensing Detection": 0.6920363306999207, "Quantum sensing Metrology": 0.678669810295105, "Quantum sensing navigation": 0.6884654760360718, "Quantum sensing Position": 0.7041262984275818, "Quantum sensing Timing": 0.704703688621521, "Quantum sensing": 0.6952893137931824, "Quantum control": 0.6616821885108948 } }, { "id": 1254, "title": "Ultrafast strain waves reconstruction from coherent acoustic phonons reflection", "abstract": "Picosecond ultrasonics, which studies laser-induced high-frequency strain waves, is a reliable and versatile method for nondestructive materials' characterization. Strain waves are generated through a...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1255, "doi": "10.1063/5.0062570", "umap_coordinates": { "x": 394.12115478515625, "y": 134.83729553222656, "z": 207.2357177734375 }, "tsne_coordinates": { "x": 10.832879066467285, "y": -14.253535270690918, "z": -18.375221252441406 }, "pca_coordinates": { "x": 1.5655491352081299, "y": -1.0156798362731934, "z": 1.981398344039917 }, "axis_scores": { "Quantum imaging": 0.7277891635894775, "Quantum Life Science Sensing": 0.7375245690345764, "Quantum sensing Detection": 0.7207939028739929, "Quantum sensing Metrology": 0.7158576846122742, "Quantum sensing navigation": 0.7167948484420776, "Quantum sensing Position": 0.6970773935317993, "Quantum sensing Timing": 0.6835635900497437, "Quantum sensing": 0.7303041219711304, "Quantum control": 0.6731765866279602 } }, { "id": 1255, "title": "Semiconductor-Oxide Heterostructured Nanowires Using Postgrowth Oxidation", "abstract": "Semiconductor-oxide heterointerfaces have several electron volts high-charge carrier potential barriers, which may enable devices utilizing quantum confinement at room temperature. While a single hete...", "citations": 8, "author_count": 9, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1256, "doi": "10.1021/nl4031192", "umap_coordinates": { "x": 392.56402587890625, "y": 133.7823944091797, "z": 207.03839111328125 }, "tsne_coordinates": { "x": 26.309720993041992, "y": -10.454916954040527, "z": -12.216133117675781 }, "pca_coordinates": { "x": -1.0598690509796143, "y": -3.931614875793457, "z": 1.6142959594726562 }, "axis_scores": { "Quantum imaging": 0.6862607002258301, "Quantum Life Science Sensing": 0.698552668094635, "Quantum sensing Detection": 0.6939154863357544, "Quantum sensing Metrology": 0.6854137182235718, "Quantum sensing navigation": 0.697920560836792, "Quantum sensing Position": 0.6719444990158081, "Quantum sensing Timing": 0.6593389511108398, "Quantum sensing": 0.6971282958984375, "Quantum control": 0.6682149767875671 } }, { "id": 1256, "title": "Accurate hyperfine tensors for solid state quantum applications: case of the NV center in diamond", "abstract": "The decoherence of point defect qubits is often governed by the electron spin-nuclear spin hyperfine interaction that can be parameterized by using ab inito calculations in principle. So far most of t...", "citations": 13, "author_count": 3, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1257, "doi": "10.1038/s42005-024-01668-9", "umap_coordinates": { "x": 392.9595947265625, "y": 136.65805053710938, "z": 206.1748504638672 }, "tsne_coordinates": { "x": -9.654325485229492, "y": 0.5474888682365417, "z": 0.16694074869155884 }, "pca_coordinates": { "x": -1.278597354888916, "y": -0.5826690196990967, "z": -1.3933825492858887 }, "axis_scores": { "Quantum imaging": 0.7172819972038269, "Quantum Life Science Sensing": 0.7060490250587463, "Quantum sensing Detection": 0.6927587389945984, "Quantum sensing Metrology": 0.6985810995101929, "Quantum sensing navigation": 0.6967544555664062, "Quantum sensing Position": 0.686298668384552, "Quantum sensing Timing": 0.683379054069519, "Quantum sensing": 0.7101760506629944, "Quantum control": 0.6900553107261658 } }, { "id": 1257, "title": "Multicolor filter all-garnet magneto-optical photonic crystals", "abstract": "We demonstrate a multicolor optical filter and isolator based on a double-cavity magneto-optical (MO) photonic crystal. Being grown as a heteroepitaxial all-garnet multilayer, it compromises a strong ...", "citations": 12, "author_count": 4, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1258, "doi": "10.1364/OL.37.003552", "umap_coordinates": { "x": 394.000244140625, "y": 133.9222869873047, "z": 206.64552307128906 }, "tsne_coordinates": { "x": 4.441039085388184, "y": -10.187331199645996, "z": -26.545263290405273 }, "pca_coordinates": { "x": -0.8406904339790344, "y": -0.11149096488952637, "z": 1.2390975952148438 }, "axis_scores": { "Quantum imaging": 0.7334802746772766, "Quantum Life Science Sensing": 0.707040011882782, "Quantum sensing Detection": 0.7142251133918762, "Quantum sensing Metrology": 0.7376354336738586, "Quantum sensing navigation": 0.7242433428764343, "Quantum sensing Position": 0.6780330538749695, "Quantum sensing Timing": 0.688661515712738, "Quantum sensing": 0.73420250415802, "Quantum control": 0.695785641670227 } }, { "id": 1258, "title": "Correlation and spin polarization in quantum dots: Local spin density functional theory revisited", "abstract": "Using quantum dot artificial atoms as a simple toy model, we reflect on the question of whether spin density functional theory (SDFT) can accurately describe correlation effects in low-dimensional fer...", "citations": 18, "author_count": 7, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1259, "doi": "10.1002/qua.20802", "umap_coordinates": { "x": 393.4925842285156, "y": 136.10537719726562, "z": 207.26864624023438 }, "tsne_coordinates": { "x": 23.014930725097656, "y": -3.3208210468292236, "z": 14.845931053161621 }, "pca_coordinates": { "x": 1.7761831283569336, "y": -1.0160439014434814, "z": -1.341571569442749 }, "axis_scores": { "Quantum imaging": 0.7699543237686157, "Quantum Life Science Sensing": 0.7558937668800354, "Quantum sensing Detection": 0.7638143301010132, "Quantum sensing Metrology": 0.7442631721496582, "Quantum sensing navigation": 0.77349853515625, "Quantum sensing Position": 0.7596874237060547, "Quantum sensing Timing": 0.7291349768638611, "Quantum sensing": 0.7750478386878967, "Quantum control": 0.7606407403945923 } }, { "id": 1259, "title": "Optical characterization of InAs quantum wells and dots grown radially on wurtzite InP nanowires", "abstract": "Correlated micro-photoluminescence (mu PL) and cathodoluminescence (CL) measurements are reported for single core-shell InP-InAs wurtzite nanowires grown using metal-organic vapor phase epitaxy. Sampl...", "citations": 12, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1260, "doi": "10.1088/0957-4484/24/22/225203", "umap_coordinates": { "x": 392.365234375, "y": 134.24557495117188, "z": 207.94155883789062 }, "tsne_coordinates": { "x": 23.195701599121094, "y": -14.972641944885254, "z": 8.715655326843262 }, "pca_coordinates": { "x": -0.3688145875930786, "y": -2.7519173622131348, "z": 2.081653356552124 }, "axis_scores": { "Quantum imaging": 0.7363925576210022, "Quantum Life Science Sensing": 0.7180124521255493, "Quantum sensing Detection": 0.7192409634590149, "Quantum sensing Metrology": 0.7252699732780457, "Quantum sensing navigation": 0.7434898018836975, "Quantum sensing Position": 0.7328420281410217, "Quantum sensing Timing": 0.7003724575042725, "Quantum sensing": 0.7364828586578369, "Quantum control": 0.7009952068328857 } }, { "id": 1260, "title": "How Nuclear Motion Affects Coherent Electron Dynamics in Molecules", "abstract": "", "citations": 6, "author_count": 4, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1261, "doi": null, "umap_coordinates": { "x": 391.8642883300781, "y": 139.2725830078125, "z": 208.97882080078125 }, "tsne_coordinates": { "x": -15.86873722076416, "y": 37.47515869140625, "z": 0.16190721094608307 }, "pca_coordinates": { "x": 1.709787368774414, "y": 3.105879545211792, "z": -4.355974197387695 }, "axis_scores": { "Quantum imaging": 0.756517231464386, "Quantum Life Science Sensing": 0.7304947376251221, "Quantum sensing Detection": 0.7099753618240356, "Quantum sensing Metrology": 0.6857767701148987, "Quantum sensing navigation": 0.7502648234367371, "Quantum sensing Position": 0.7017790079116821, "Quantum sensing Timing": 0.6931321620941162, "Quantum sensing": 0.7235996127128601, "Quantum control": 0.7489163875579834 } }, { "id": 1261, "title": "Properties of grooved Dayem bridge based YBa2Cu3O7-δ superconducting quantum interference devices and magnetometers", "abstract": "The transport properties of a YBa2Cu3-delta superconducting quantum interference device (SQUID) based on grooved Dayem bridge weak links are studied as a function of temperature: at high temperatures ...", "citations": 23, "author_count": 11, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1262, "doi": "10.1063/5.0001805", "umap_coordinates": { "x": 393.9962463378906, "y": 135.1382293701172, "z": 208.2104949951172 }, "tsne_coordinates": { "x": -1.2562735080718994, "y": -26.87409019470215, "z": -27.106964111328125 }, "pca_coordinates": { "x": 1.8429358005523682, "y": -0.4994196891784668, "z": 0.3687770962715149 }, "axis_scores": { "Quantum imaging": 0.71232008934021, "Quantum Life Science Sensing": 0.7500393390655518, "Quantum sensing Detection": 0.7027356624603271, "Quantum sensing Metrology": 0.7252632975578308, "Quantum sensing navigation": 0.732805073261261, "Quantum sensing Position": 0.7121097445487976, "Quantum sensing Timing": 0.6901938915252686, "Quantum sensing": 0.7211907505989075, "Quantum control": 0.6956284046173096 } }, { "id": 1262, "title": "Enhancement of the luminescence intensity of InAs/GaAs quantum dots induced by an external electric field", "abstract": "InAs/GaAs quantum dots have been subjected to a lateral external electric field in low-temperature microphotoluminescence measurements. It is demonstrated that the dot PL signal could be increased sev...", "citations": 16, "author_count": 8, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1263, "doi": "10.1021/nl062417u", "umap_coordinates": { "x": 392.6420593261719, "y": 133.63531494140625, "z": 207.01953125 }, "tsne_coordinates": { "x": 33.63230514526367, "y": -6.9831719398498535, "z": -17.095869064331055 }, "pca_coordinates": { "x": -2.0743513107299805, "y": -3.4977126121520996, "z": 0.5603272318840027 }, "axis_scores": { "Quantum imaging": 0.7231342792510986, "Quantum Life Science Sensing": 0.7278692722320557, "Quantum sensing Detection": 0.7192745804786682, "Quantum sensing Metrology": 0.701842725276947, "Quantum sensing navigation": 0.6988697052001953, "Quantum sensing Position": 0.6790018081665039, "Quantum sensing Timing": 0.660193681716919, "Quantum sensing": 0.7246456742286682, "Quantum control": 0.6993256211280823 } }, { "id": 1263, "title": "Intersubband photoconductivity of self-assembled InAs quantum dots embedded in InP", "abstract": "In this article, we present the results from photoconductivity measurements in the infrared spectral region (3-10 mum) on ensembles of self-assembled InAs quantum dots embedded in a matrix of InP. In ...", "citations": 7, "author_count": 8, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1264, "doi": "10.1063/1.1638892", "umap_coordinates": { "x": 392.5426330566406, "y": 133.95330810546875, "z": 208.22970581054688 }, "tsne_coordinates": { "x": 29.792346954345703, "y": -15.466692924499512, "z": 5.0694580078125 }, "pca_coordinates": { "x": 1.153275966644287, "y": -5.5126953125, "z": 2.1535980701446533 }, "axis_scores": { "Quantum imaging": 0.7298192977905273, "Quantum Life Science Sensing": 0.7225481271743774, "Quantum sensing Detection": 0.7151869535446167, "Quantum sensing Metrology": 0.7002015113830566, "Quantum sensing navigation": 0.6953699588775635, "Quantum sensing Position": 0.6794946193695068, "Quantum sensing Timing": 0.663320779800415, "Quantum sensing": 0.725372314453125, "Quantum control": 0.6579447984695435 } }, { "id": 1264, "title": "Avoiding decoherence with giant atoms in a two-dimensional structured environment", "abstract": "Giant atoms are quantum emitters that can couple to light at multiple discrete points. Such atoms have been shown to interact without decohering via a one-dimensional waveguide. Here, we study how gia...", "citations": 9, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1265, "doi": "10.1103/PhysRevResearch.6.043222", "umap_coordinates": { "x": 395.1575927734375, "y": 136.3408203125, "z": 208.42042541503906 }, "tsne_coordinates": { "x": -20.301982879638672, "y": -25.638851165771484, "z": -14.274195671081543 }, "pca_coordinates": { "x": 2.3390493392944336, "y": 0.9236700534820557, "z": -0.9758973121643066 }, "axis_scores": { "Quantum imaging": 0.7055808305740356, "Quantum Life Science Sensing": 0.7102031111717224, "Quantum sensing Detection": 0.6921678781509399, "Quantum sensing Metrology": 0.6885576844215393, "Quantum sensing navigation": 0.7367495894432068, "Quantum sensing Position": 0.6826090216636658, "Quantum sensing Timing": 0.6664990186691284, "Quantum sensing": 0.7052827477455139, "Quantum control": 0.6838254928588867 } }, { "id": 1265, "title": "Highly Soluble CsPbBr3 Perovskite Quantum Dots for Solution-Processed Light-Emission Devices", "abstract": "We report on the synthesis of CsPbBr3 perovskite quantum dots (PeQDs) with a high solubility of 75 g/L in toluene and a good film-forming property, as enabled by a dense layer of didodecyldimethylammo...", "citations": 38, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1266, "doi": "10.1021/acsanm.0c02797", "umap_coordinates": { "x": 391.65924072265625, "y": 133.9792022705078, "z": 205.25784301757812 }, "tsne_coordinates": { "x": 19.195575714111328, "y": 1.2172908782958984, "z": -19.900226593017578 }, "pca_coordinates": { "x": -3.497405767440796, "y": -4.277629375457764, "z": -1.296471118927002 }, "axis_scores": { "Quantum imaging": 0.6803098320960999, "Quantum Life Science Sensing": 0.7129838466644287, "Quantum sensing Detection": 0.678379237651825, "Quantum sensing Metrology": 0.6809040307998657, "Quantum sensing navigation": 0.6640171408653259, "Quantum sensing Position": 0.6588917374610901, "Quantum sensing Timing": 0.6485802531242371, "Quantum sensing": 0.6910259127616882, "Quantum control": 0.647975742816925 } }, { "id": 1266, "title": "Biocompatible liposome and chitosan-coated CdTe/CdSe/ZnSe multi-core-multi-shell fluorescent nanoprobe for biomedical applications", "abstract": "Cadmium telluride (CdTe) semiconductor quantum dots (QDs) are brightly luminescent nanocrystals that have emerged as a new class of fluorescent probes for in vivo bioimaging and theranostic applicatio...", "citations": 7, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1267, "doi": "10.1016/j.jphotochem.2024.115714", "umap_coordinates": { "x": 393.6416931152344, "y": 133.90245056152344, "z": 204.67306518554688 }, "tsne_coordinates": { "x": 13.88245964050293, "y": 20.146595001220703, "z": -12.325418472290039 }, "pca_coordinates": { "x": -6.069889545440674, "y": -0.7184882164001465, "z": 0.14890164136886597 }, "axis_scores": { "Quantum imaging": 0.7313127517700195, "Quantum Life Science Sensing": 0.737295925617218, "Quantum sensing Detection": 0.7092722654342651, "Quantum sensing Metrology": 0.6963207125663757, "Quantum sensing navigation": 0.6928430795669556, "Quantum sensing Position": 0.6858600974082947, "Quantum sensing Timing": 0.6684601306915283, "Quantum sensing": 0.7142382860183716, "Quantum control": 0.6776849627494812 } }, { "id": 1267, "title": "Polaritonic Chemistry from First Principles via Embedding Radiation Reaction", "abstract": "The coherent interaction of a large collection of molecules with a common photonic mode results in strong light-matter coupling, a feature that has proven highly beneficial for chemistry and has intro...", "citations": 34, "author_count": 2, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1268, "doi": "10.1021/acs.jpclett.2c01169", "umap_coordinates": { "x": 392.3055114746094, "y": 136.1180877685547, "z": 206.13043212890625 }, "tsne_coordinates": { "x": 5.555186748504639, "y": -6.495813846588135, "z": -4.744602680206299 }, "pca_coordinates": { "x": -0.5792959928512573, "y": -0.3988785743713379, "z": -0.6657450199127197 }, "axis_scores": { "Quantum imaging": 0.7039058804512024, "Quantum Life Science Sensing": 0.7158104181289673, "Quantum sensing Detection": 0.7078573703765869, "Quantum sensing Metrology": 0.6579228639602661, "Quantum sensing navigation": 0.7006617188453674, "Quantum sensing Position": 0.6736140251159668, "Quantum sensing Timing": 0.6799279451370239, "Quantum sensing": 0.7037818431854248, "Quantum control": 0.6811317205429077 } }, { "id": 1268, "title": "Multilevel effects in quantum dot based parity-to-charge conversion of Majorana box qubits", "abstract": "Quantum dot based parity-to-charge conversion is a promising method for reading out quantum information encoded nonlocally into pairs of Majorana zero modes. To obtain a sizable parity-to-charge visib...", "citations": 6, "author_count": 5, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1269, "doi": "10.1103/PhysRevB.103.245407", "umap_coordinates": { "x": 393.24871826171875, "y": 135.4111785888672, "z": 208.36412048339844 }, "tsne_coordinates": { "x": 6.4094038009643555, "y": -29.758663177490234, "z": 10.759037971496582 }, "pca_coordinates": { "x": 4.207901477813721, "y": -2.077946662902832, "z": -0.8661446571350098 }, "axis_scores": { "Quantum imaging": 0.711936354637146, "Quantum Life Science Sensing": 0.6901888847351074, "Quantum sensing Detection": 0.6990482211112976, "Quantum sensing Metrology": 0.6891762614250183, "Quantum sensing navigation": 0.7067180275917053, "Quantum sensing Position": 0.6925299167633057, "Quantum sensing Timing": 0.6766700148582458, "Quantum sensing": 0.707075834274292, "Quantum control": 0.7108671069145203 } }, { "id": 1269, "title": "Nature of photoexcited states in ZnO-embedded graphene quantum dots", "abstract": "The combination of wide-band gap semiconductors such as zinc oxide (ZnO) and graphene quantum dots (GQDs) is a promising strategy to tune the optoelectronic properties of GQDs and develop new function...", "citations": 7, "author_count": 3, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1270, "doi": "10.1039/d2cp04484f", "umap_coordinates": { "x": 392.2386474609375, "y": 135.46524047851562, "z": 206.58360290527344 }, "tsne_coordinates": { "x": 12.527026176452637, "y": -1.5718016624450684, "z": 6.947681903839111 }, "pca_coordinates": { "x": -0.18228018283843994, "y": -3.337083339691162, "z": -1.9159457683563232 }, "axis_scores": { "Quantum imaging": 0.7161121964454651, "Quantum Life Science Sensing": 0.7420904636383057, "Quantum sensing Detection": 0.7336128354072571, "Quantum sensing Metrology": 0.6948450803756714, "Quantum sensing navigation": 0.7106879353523254, "Quantum sensing Position": 0.7181473970413208, "Quantum sensing Timing": 0.6883310675621033, "Quantum sensing": 0.7324771881103516, "Quantum control": 0.7032445073127747 } }, { "id": 1270, "title": "Excitons and biexcitons in InGaN quantum dot like localization centers", "abstract": "Indium segregation in a narrow InGaN single quantum well creates quantum dot (QD) like exciton localization centers. Cross-section transmission electron microscopy reveals varying shapes and lateral s...", "citations": 7, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1271, "doi": "10.1088/0957-4484/25/49/495702", "umap_coordinates": { "x": 392.98516845703125, "y": 134.9071044921875, "z": 207.8783416748047 }, "tsne_coordinates": { "x": 21.40746307373047, "y": -13.041025161743164, "z": 15.373541831970215 }, "pca_coordinates": { "x": 0.9759087562561035, "y": -1.724977970123291, "z": 0.9229583144187927 }, "axis_scores": { "Quantum imaging": 0.7425651550292969, "Quantum Life Science Sensing": 0.7009115219116211, "Quantum sensing Detection": 0.7270506024360657, "Quantum sensing Metrology": 0.7031804323196411, "Quantum sensing navigation": 0.7263317108154297, "Quantum sensing Position": 0.722683310508728, "Quantum sensing Timing": 0.7167301177978516, "Quantum sensing": 0.7298343777656555, "Quantum control": 0.7076923251152039 } }, { "id": 1271, "title": "Outdoor single-photon counting panoramic 3D imaging", "abstract": "Single-photon counting lidar using Geiger-mode avalanche photodiode (GmAPD) arrays can provide high resolution 3D images at kilometer stand-off distances through coincidence processing. 3D data is use...", "citations": 4, "author_count": 7, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1272, "doi": "10.1117/12.2520696", "umap_coordinates": { "x": 395.0718688964844, "y": 133.06581115722656, "z": 206.41078186035156 }, "tsne_coordinates": { "x": -7.4621500968933105, "y": 11.612251281738281, "z": -29.135234832763672 }, "pca_coordinates": { "x": -2.945665121078491, "y": 0.5375242233276367, "z": 4.650803089141846 }, "axis_scores": { "Quantum imaging": 0.7568809986114502, "Quantum Life Science Sensing": 0.7514488697052002, "Quantum sensing Detection": 0.748497724533081, "Quantum sensing Metrology": 0.748603880405426, "Quantum sensing navigation": 0.757843554019928, "Quantum sensing Position": 0.718614399433136, "Quantum sensing Timing": 0.7213795781135559, "Quantum sensing": 0.7559034824371338, "Quantum control": 0.6958004236221313 } }, { "id": 1272, "title": "Regular and chaotic quantum dynamics in atom-diatom reactive collisions", "abstract": "A new microirreversible 3D theory of quantum multichannel scattering in the three-body system is developed. The quantum approach is constructed on the generating trajectory tubes which allow taking in...", "citations": 7, "author_count": 4, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1273, "doi": "10.1134/S1063778808050165", "umap_coordinates": { "x": 393.8172607421875, "y": 137.0357666015625, "z": 207.0107879638672 }, "tsne_coordinates": { "x": -13.070096969604492, "y": -2.5196444988250732, "z": 23.859575271606445 }, "pca_coordinates": { "x": 3.4638724327087402, "y": 1.1366686820983887, "z": -1.9253120422363281 }, "axis_scores": { "Quantum imaging": 0.7124916911125183, "Quantum Life Science Sensing": 0.714438259601593, "Quantum sensing Detection": 0.7085025310516357, "Quantum sensing Metrology": 0.6716898083686829, "Quantum sensing navigation": 0.713549792766571, "Quantum sensing Position": 0.6868889927864075, "Quantum sensing Timing": 0.7109975218772888, "Quantum sensing": 0.7143258452415466, "Quantum control": 0.7314934134483337 } }, { "id": 1273, "title": "Disorder and interaction-induced pairing in the addition spectra of quantum dots", "abstract": "We have numerically investigated the electron addition spectra in quantum dots containing a small number (N less than or equal to 10) of interacting electrons, in the presence of strong disorder. For ...", "citations": 14, "author_count": 2, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1274, "doi": "10.1103/PhysRevLett.84.3934", "umap_coordinates": { "x": 393.2966003417969, "y": 135.52406311035156, "z": 208.30650329589844 }, "tsne_coordinates": { "x": -2.9562244415283203, "y": -36.28310775756836, "z": -11.442610740661621 }, "pca_coordinates": { "x": 3.6746444702148438, "y": -1.7310004234313965, "z": 0.21977192163467407 }, "axis_scores": { "Quantum imaging": 0.7044075131416321, "Quantum Life Science Sensing": 0.7087026834487915, "Quantum sensing Detection": 0.720353364944458, "Quantum sensing Metrology": 0.6930360794067383, "Quantum sensing navigation": 0.6838867664337158, "Quantum sensing Position": 0.6852176189422607, "Quantum sensing Timing": 0.6944726705551147, "Quantum sensing": 0.7112668752670288, "Quantum control": 0.6678993701934814 } }, { "id": 1274, "title": "Beyond the particle in the box", "abstract": "", "citations": 1, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1275, "doi": "10.1126/science.1135737", "umap_coordinates": { "x": 395.09613037109375, "y": 136.25167846679688, "z": 205.74098205566406 }, "tsne_coordinates": { "x": -20.268009185791016, "y": 20.199527740478516, "z": 11.823993682861328 }, "pca_coordinates": { "x": 0.11870455741882324, "y": 1.9694489240646362, "z": -1.083336591720581 }, "axis_scores": { "Quantum imaging": 0.7349516153335571, "Quantum Life Science Sensing": 0.7670339345932007, "Quantum sensing Detection": 0.7310724854469299, "Quantum sensing Metrology": 0.7215486168861389, "Quantum sensing navigation": 0.7599645256996155, "Quantum sensing Position": 0.7260441780090332, "Quantum sensing Timing": 0.7136543393135071, "Quantum sensing": 0.7451753616333008, "Quantum control": 0.7359703779220581 } }, { "id": 1275, "title": "Quantum chemical simulations of the optical properties and diffusion of electron centres in MgO crystals", "abstract": "Semiempirical quantum chemical simulations have been undertaken to obtain the self-consistent atomic and electronic structure of the two basic electron defects is in MgO crystals: F+ and F centres (on...", "citations": 38, "author_count": 5, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1276, "doi": "10.1016/0921-5107(95)01490-X", "umap_coordinates": { "x": 393.75341796875, "y": 135.82688903808594, "z": 206.35836791992188 }, "tsne_coordinates": { "x": -6.31359338760376, "y": 16.97811508178711, "z": 19.60615348815918 }, "pca_coordinates": { "x": -0.08306682109832764, "y": 0.1725912094116211, "z": -0.6589083671569824 }, "axis_scores": { "Quantum imaging": 0.7534828186035156, "Quantum Life Science Sensing": 0.7487049698829651, "Quantum sensing Detection": 0.7277135848999023, "Quantum sensing Metrology": 0.728988766670227, "Quantum sensing navigation": 0.7440239191055298, "Quantum sensing Position": 0.7260913848876953, "Quantum sensing Timing": 0.6998563408851624, "Quantum sensing": 0.7469878196716309, "Quantum control": 0.7227217555046082 } }, { "id": 1276, "title": "Gram-scale synthesis of carbon quantum dots with a large Stokes shift for the fabrication of eco-friendly and high-efficiency luminescent solar concentrators", "abstract": "Luminescent solar concentrators (LSCs) are large-area sunlight collectors coupled to small area solar cells, for efficient solar-to-electricity conversion. The three key points for the successful mark...", "citations": 225, "author_count": 13, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1277, "doi": "10.1039/d0ee02235g", "umap_coordinates": { "x": 392.0793762207031, "y": 134.04183959960938, "z": 204.90696716308594 }, "tsne_coordinates": { "x": 24.254039764404297, "y": 9.900283813476562, "z": -15.055876731872559 }, "pca_coordinates": { "x": -3.793874740600586, "y": -2.879880428314209, "z": -0.613746702671051 }, "axis_scores": { "Quantum imaging": 0.6503987312316895, "Quantum Life Science Sensing": 0.7103998064994812, "Quantum sensing Detection": 0.6734102368354797, "Quantum sensing Metrology": 0.6626814603805542, "Quantum sensing navigation": 0.6503537893295288, "Quantum sensing Position": 0.6516029238700867, "Quantum sensing Timing": 0.6369860172271729, "Quantum sensing": 0.6831051111221313, "Quantum control": 0.6639716625213623 } }, { "id": 1277, "title": "Enhancing fluorescence of quantum dots by silica-coated gold nanorods under one- and two-photon excitation", "abstract": "Nano-composites of quantum dots (QDs) and gold nanorods (GNRs) or silica-coated GNRs (GNRs_SiO2) were synthesized. The attached GNRs modify the excitation intensity and spontaneous emission of QDs thr...", "citations": 81, "author_count": 5, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1278, "doi": "10.1364/OE.18.011335", "umap_coordinates": { "x": 393.4425354003906, "y": 133.37281799316406, "z": 206.46832275390625 }, "tsne_coordinates": { "x": 13.527660369873047, "y": 17.129547119140625, "z": -26.02010154724121 }, "pca_coordinates": { "x": -2.9167656898498535, "y": -2.884528636932373, "z": 2.8098464012145996 }, "axis_scores": { "Quantum imaging": 0.7517077326774597, "Quantum Life Science Sensing": 0.7269569039344788, "Quantum sensing Detection": 0.7379596829414368, "Quantum sensing Metrology": 0.7354066967964172, "Quantum sensing navigation": 0.7106243968009949, "Quantum sensing Position": 0.6822947859764099, "Quantum sensing Timing": 0.6843359470367432, "Quantum sensing": 0.7465552687644958, "Quantum control": 0.6974534392356873 } }, { "id": 1278, "title": "Multiplexed Near-IR Detection of Single-Molecule Fluorescence Fluctuations Using a Single Superconducting Nanowire Single-Photon Detector", "abstract": "Fluorescence-based single-molecule and fluctuation spectroscopy in the near-IR can open avenues for biomolecular dynamic studies in biological media with suppressed autofluorescence and scattering bac...", "citations": 1, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1279, "doi": "10.1021/acsphotonics.5c00224", "umap_coordinates": { "x": 394.25079345703125, "y": 133.22006225585938, "z": 207.23399353027344 }, "tsne_coordinates": { "x": -11.783015251159668, "y": 4.478579521179199, "z": -31.982255935668945 }, "pca_coordinates": { "x": -1.6366089582443237, "y": -4.193117618560791, "z": 3.718526840209961 }, "axis_scores": { "Quantum imaging": 0.7064470648765564, "Quantum Life Science Sensing": 0.727648913860321, "Quantum sensing Detection": 0.7405019998550415, "Quantum sensing Metrology": 0.725682258605957, "Quantum sensing navigation": 0.7109618186950684, "Quantum sensing Position": 0.6939753890037537, "Quantum sensing Timing": 0.6843529343605042, "Quantum sensing": 0.73835289478302, "Quantum control": 0.6794607639312744 } }, { "id": 1279, "title": "Resonant optical spectroscopy and coherent control of Cr4+ spin ensembles in SiC and GaN", "abstract": "Spins bound to point defects are increasingly viewed as an important resource for solid-state implementations of quantum information and spintronic technologies. In particular, there is a growing inte...", "citations": 87, "author_count": 8, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1280, "doi": "10.1103/PhysRevB.95.035207", "umap_coordinates": { "x": 394.14801025390625, "y": 135.91563415527344, "z": 208.66542053222656 }, "tsne_coordinates": { "x": 1.8420130014419556, "y": -23.42510223388672, "z": -2.148564577102661 }, "pca_coordinates": { "x": 3.499330997467041, "y": -1.435096263885498, "z": -0.09734231233596802 }, "axis_scores": { "Quantum imaging": 0.7302102446556091, "Quantum Life Science Sensing": 0.7377861142158508, "Quantum sensing Detection": 0.7378617525100708, "Quantum sensing Metrology": 0.7279743552207947, "Quantum sensing navigation": 0.7422123551368713, "Quantum sensing Position": 0.7060121297836304, "Quantum sensing Timing": 0.6970847845077515, "Quantum sensing": 0.7469750642776489, "Quantum control": 0.7374491095542908 } }, { "id": 1280, "title": "Full-colour luminescent compounds based on anthracene and 2,2′-dipyridylamine", "abstract": "Starting from two simple units of anthracene and 2,2'-dipyridylamine, a series of new luminescent compounds 1-8 were designed and synthesized by a combined strategy of changing the connection mode bet...", "citations": 26, "author_count": 8, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1281, "doi": "10.1039/c3tc31751j", "umap_coordinates": { "x": 391.8926086425781, "y": 135.4630126953125, "z": 204.99317932128906 }, "tsne_coordinates": { "x": 7.296689510345459, "y": 4.963091850280762, "z": -12.883928298950195 }, "pca_coordinates": { "x": -2.924771547317505, "y": -1.5131416320800781, "z": -1.5967766046524048 }, "axis_scores": { "Quantum imaging": 0.7108047008514404, "Quantum Life Science Sensing": 0.7195093631744385, "Quantum sensing Detection": 0.7012208700180054, "Quantum sensing Metrology": 0.6888572573661804, "Quantum sensing navigation": 0.6775447130203247, "Quantum sensing Position": 0.6673426032066345, "Quantum sensing Timing": 0.6748709678649902, "Quantum sensing": 0.717939019203186, "Quantum control": 0.6993976831436157 } }, { "id": 1281, "title": "Fano effect in a quantum-ring-quantum-dot system with tunable coupling", "abstract": "Transport measurements are presented on a quantum ring that is tunnel-coupled to a quantum dot. When the dot is in the Coulomb blockade regime, but strongly coupled to the open ring, Fano line shapes ...", "citations": 59, "author_count": 8, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1282, "doi": "10.1103/PhysRevB.73.205326", "umap_coordinates": { "x": 394.4710693359375, "y": 135.62451171875, "z": 208.49644470214844 }, "tsne_coordinates": { "x": -3.125300645828247, "y": -17.428726196289062, "z": 1.5120991468429565 }, "pca_coordinates": { "x": 3.7545065879821777, "y": -1.225639820098877, "z": -0.6396313309669495 }, "axis_scores": { "Quantum imaging": 0.73975670337677, "Quantum Life Science Sensing": 0.7398443818092346, "Quantum sensing Detection": 0.7456157207489014, "Quantum sensing Metrology": 0.7369327545166016, "Quantum sensing navigation": 0.7503691911697388, "Quantum sensing Position": 0.712980329990387, "Quantum sensing Timing": 0.7119690179824829, "Quantum sensing": 0.7588388323783875, "Quantum control": 0.7627750039100647 } }, { "id": 1282, "title": "Multilayer InAs/InGaAs quantum dot structure grown by MOVPE for optoelectronic device applications", "abstract": "We report on a quantum dot (QD) structure grown on a 4 GaAs substrate by metal organic vapor phase epitaxy (MOVPE), which consists of five stacked lnAs/lnGaAs/GaAs QD layers embedded in the center of ...", "citations": 1, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1283, "doi": "10.1117/12.681624", "umap_coordinates": { "x": 393.7388916015625, "y": 133.75379943847656, "z": 206.99024963378906 }, "tsne_coordinates": { "x": 1.5650721788406372, "y": 4.278563976287842, "z": -28.17460060119629 }, "pca_coordinates": { "x": -0.3464977741241455, "y": -3.0371670722961426, "z": 1.4348931312561035 }, "axis_scores": { "Quantum imaging": 0.7281549572944641, "Quantum Life Science Sensing": 0.7240495681762695, "Quantum sensing Detection": 0.7117552161216736, "Quantum sensing Metrology": 0.7287330627441406, "Quantum sensing navigation": 0.7167435884475708, "Quantum sensing Position": 0.7031115889549255, "Quantum sensing Timing": 0.6744009852409363, "Quantum sensing": 0.7260291576385498, "Quantum control": 0.678403913974762 } }, { "id": 1283, "title": "Fabry-Perot observations using a new GaAs photon-counting system", "abstract": "A third-generation image photon-counting system (IPCS) camera is presented, based on a GaAs photocathode that can achieve a quantum efficiency of up to 23%, which is comparable to a thick CCD but with...", "citations": 63, "author_count": 12, "categories": [ "Astronomy & Astrophysics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1284, "doi": "10.1086/342355", "umap_coordinates": { "x": 395.39093017578125, "y": 133.98793029785156, "z": 206.09153747558594 }, "tsne_coordinates": { "x": -11.613232612609863, "y": 10.879384994506836, "z": -24.255098342895508 }, "pca_coordinates": { "x": -1.3179298639297485, "y": 1.1226115226745605, "z": 4.335565567016602 }, "axis_scores": { "Quantum imaging": 0.7010195255279541, "Quantum Life Science Sensing": 0.7226995229721069, "Quantum sensing Detection": 0.7167518734931946, "Quantum sensing Metrology": 0.7097300291061401, "Quantum sensing navigation": 0.7098972201347351, "Quantum sensing Position": 0.6890762448310852, "Quantum sensing Timing": 0.6946423649787903, "Quantum sensing": 0.718121349811554, "Quantum control": 0.6547316908836365 } }, { "id": 1284, "title": "A turn-on ratiometric fluorescent nanoprobe based on AgInZnS and nitrogen-doped graphene quantum dots for Cd2+ detection in lake water", "abstract": "Excessive Cd2+ poses adverse influences on ecosystem and human beings, but its precise detection via a facile and environment-friendly method with resistance to interference is still a challenge. Here...", "citations": 5, "author_count": 11, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1285, "doi": "10.1007/s10853-022-07721-8", "umap_coordinates": { "x": 393.1152038574219, "y": 134.61358642578125, "z": 204.70474243164062 }, "tsne_coordinates": { "x": 20.326303482055664, "y": 14.193862915039062, "z": -11.142578125 }, "pca_coordinates": { "x": -3.778134346008301, "y": -1.8778185844421387, "z": 0.23306536674499512 }, "axis_scores": { "Quantum imaging": 0.6791925430297852, "Quantum Life Science Sensing": 0.7225480675697327, "Quantum sensing Detection": 0.7033114433288574, "Quantum sensing Metrology": 0.6825235486030579, "Quantum sensing navigation": 0.6945850849151611, "Quantum sensing Position": 0.6773200035095215, "Quantum sensing Timing": 0.6389917731285095, "Quantum sensing": 0.6995120048522949, "Quantum control": 0.6601194143295288 } }, { "id": 1285, "title": "Lesion characterization using spectral mammography", "abstract": "We present a novel method for characterizing mammographic findings using spectral imaging without the use of contrast agent. Within a statistical framework, suspicious findings are analyzed to determi...", "citations": 3, "author_count": 6, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1286, "doi": "10.1117/12.913032", "umap_coordinates": { "x": 395.4366760253906, "y": 132.8302459716797, "z": 205.86367797851562 }, "tsne_coordinates": { "x": -7.701070308685303, "y": 22.00444793701172, "z": -27.502824783325195 }, "pca_coordinates": { "x": -2.756540536880493, "y": 1.305066466331482, "z": 3.850283145904541 }, "axis_scores": { "Quantum imaging": 0.7108583450317383, "Quantum Life Science Sensing": 0.7041155099868774, "Quantum sensing Detection": 0.7196431159973145, "Quantum sensing Metrology": 0.7162487506866455, "Quantum sensing navigation": 0.6857526898384094, "Quantum sensing Position": 0.6817522048950195, "Quantum sensing Timing": 0.6562574505805969, "Quantum sensing": 0.7133278846740723, "Quantum control": 0.6346958875656128 } }, { "id": 1286, "title": "Ultrasensitive, Biocompatible, Self-Calibrating, Multiparametric Temperature Sensors", "abstract": "", "citations": 50, "author_count": 4, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1288, "doi": "10.1002/smll.201502249", "umap_coordinates": { "x": 393.8269958496094, "y": 134.21084594726562, "z": 204.88998413085938 }, "tsne_coordinates": { "x": 18.809555053710938, "y": 25.578845977783203, "z": -12.961326599121094 }, "pca_coordinates": { "x": -4.079439640045166, "y": -0.7247047424316406, "z": 0.7498036026954651 }, "axis_scores": { "Quantum imaging": 0.7076286673545837, "Quantum Life Science Sensing": 0.7842544317245483, "Quantum sensing Detection": 0.7371168732643127, "Quantum sensing Metrology": 0.7448899745941162, "Quantum sensing navigation": 0.6975292563438416, "Quantum sensing Position": 0.7159903049468994, "Quantum sensing Timing": 0.7155466675758362, "Quantum sensing": 0.749971330165863, "Quantum control": 0.6850817799568176 } }, { "id": 1287, "title": "A Player Often Neglected: Electrochemical Comprehensive Analysis of Counter Electrodes for Quantum Dot Solar Cells", "abstract": "The role played by the counter electrode (CE) in quantum dot sensitized solar cells (QDSSCs) is crucial: it is indeed responsible for catalyzing the regeneration of the redox electrolyte after its act...", "citations": 19, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1289, "doi": "10.1021/acsami.5b11508", "umap_coordinates": { "x": 392.2496032714844, "y": 134.3645477294922, "z": 205.1932830810547 }, "tsne_coordinates": { "x": 22.201932907104492, "y": 5.2719807624816895, "z": 3.0324578285217285 }, "pca_coordinates": { "x": -2.3280880451202393, "y": -0.8711237907409668, "z": -2.43392014503479 }, "axis_scores": { "Quantum imaging": 0.6779345273971558, "Quantum Life Science Sensing": 0.6938232183456421, "Quantum sensing Detection": 0.6825265884399414, "Quantum sensing Metrology": 0.6612364053726196, "Quantum sensing navigation": 0.670914888381958, "Quantum sensing Position": 0.6634308695793152, "Quantum sensing Timing": 0.6438634991645813, "Quantum sensing": 0.6865799427032471, "Quantum control": 0.6865345239639282 } }, { "id": 1288, "title": "Photostable Polymer/Si Nanocrystal Bulk Hybrids with Tunable Photoluminescence", "abstract": "Solid polymer/Si nanocrystal bulk nanocomposites were fabricated from solutions of alkene- and hydride-terminated silicon nanocrystals (NCs) in toluene. The photoluminescence peak position of hydride-...", "citations": 25, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1290, "doi": "10.1021/acsphotonics.6b00485", "umap_coordinates": { "x": 392.2148132324219, "y": 134.24130249023438, "z": 206.0963897705078 }, "tsne_coordinates": { "x": 24.2128849029541, "y": -7.894816875457764, "z": -17.9299259185791 }, "pca_coordinates": { "x": -3.2595248222351074, "y": -4.1585373878479, "z": 1.2314684391021729 }, "axis_scores": { "Quantum imaging": 0.7214669585227966, "Quantum Life Science Sensing": 0.7233176827430725, "Quantum sensing Detection": 0.6981558203697205, "Quantum sensing Metrology": 0.6837448477745056, "Quantum sensing navigation": 0.6823267936706543, "Quantum sensing Position": 0.6893924474716187, "Quantum sensing Timing": 0.6587247848510742, "Quantum sensing": 0.721442699432373, "Quantum control": 0.6802615523338318 } }, { "id": 1289, "title": "Resonance spectroscopy of gravitational states of antihydrogen", "abstract": "We study a method to induce resonant transitions between antihydrogen ((H) over bar) quantum states above a material surface in the gravitational field of the Earth. The method consists in applying a ...", "citations": 5, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1291, "doi": "10.1007/s10751-014-1023-x", "umap_coordinates": { "x": 394.31280517578125, "y": 135.79612731933594, "z": 207.22540283203125 }, "tsne_coordinates": { "x": -23.92320442199707, "y": -20.796403884887695, "z": -18.946075439453125 }, "pca_coordinates": { "x": 1.1705543994903564, "y": 0.998532772064209, "z": -0.4350880980491638 }, "axis_scores": { "Quantum imaging": 0.6988815069198608, "Quantum Life Science Sensing": 0.7185094356536865, "Quantum sensing Detection": 0.6909568905830383, "Quantum sensing Metrology": 0.6875700950622559, "Quantum sensing navigation": 0.705655038356781, "Quantum sensing Position": 0.708827555179596, "Quantum sensing Timing": 0.6887460350990295, "Quantum sensing": 0.7041856050491333, "Quantum control": 0.6629692316055298 } }, { "id": 1290, "title": "Long-wavelength infrared photoluminescence from InGaSb/InAs quantum dots", "abstract": "We study the growth of self-assembled InGaSb/InAs quantum dots (QDs) and investigate how gallium can be used to reduce the optical transition energy in the InSb QD system. InGaSb QDs were grown on InA...", "citations": 6, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1292, "doi": "10.1016/j.infrared.2012.12.020", "umap_coordinates": { "x": 392.96612548828125, "y": 133.45484924316406, "z": 206.55189514160156 }, "tsne_coordinates": { "x": 6.710322380065918, "y": 4.323797702789307, "z": -26.547714233398438 }, "pca_coordinates": { "x": -2.4155428409576416, "y": -3.4443764686584473, "z": 1.2854273319244385 }, "axis_scores": { "Quantum imaging": 0.7375481724739075, "Quantum Life Science Sensing": 0.747443437576294, "Quantum sensing Detection": 0.7323353290557861, "Quantum sensing Metrology": 0.6970649361610413, "Quantum sensing navigation": 0.6913987994194031, "Quantum sensing Position": 0.697187066078186, "Quantum sensing Timing": 0.6768428683280945, "Quantum sensing": 0.7422106266021729, "Quantum control": 0.6673835515975952 } }, { "id": 1291, "title": "Transition Layer Assisted Synthesis of Defect Free Amine-Phosphine Based InP QDs", "abstract": "Environmentally friendly InP-based quantum dots (QDs) are promising for light-emitting diodes (LEDs) and display applications. So far, the synthesis of highly emitting InP-based QDs via safe and econo...", "citations": 15, "author_count": 11, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1293, "doi": "10.1021/acs.nanolett.4c01648", "umap_coordinates": { "x": 392.10296630859375, "y": 134.0410919189453, "z": 206.76370239257812 }, "tsne_coordinates": { "x": 19.280017852783203, "y": -11.75924301147461, "z": -17.462690353393555 }, "pca_coordinates": { "x": -1.799285650253296, "y": -4.321897506713867, "z": 0.19582587480545044 }, "axis_scores": { "Quantum imaging": 0.7017537355422974, "Quantum Life Science Sensing": 0.6975690126419067, "Quantum sensing Detection": 0.6945009827613831, "Quantum sensing Metrology": 0.6917038559913635, "Quantum sensing navigation": 0.6833680868148804, "Quantum sensing Position": 0.6839064955711365, "Quantum sensing Timing": 0.6768658757209778, "Quantum sensing": 0.7011882662773132, "Quantum control": 0.6792713403701782 } }, { "id": 1292, "title": "Paper test strip for silver ions detection in drinking water samples based on combined fluorometric and colorimetric methods", "abstract": "In this study, a portable silver ion (Ag+) sensor was fabricated based on a dual signal output system using black phosphorus quantum dots (BPQDs) as probes. It is the first work for Ag+ detection usin...", "citations": 16, "author_count": 12, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1294, "doi": "10.1016/j.arabjc.2022.104492", "umap_coordinates": { "x": 393.4596252441406, "y": 134.06356811523438, "z": 204.40304565429688 }, "tsne_coordinates": { "x": 21.11578369140625, "y": 16.06766700744629, "z": -11.884289741516113 }, "pca_coordinates": { "x": -4.810567378997803, "y": 0.1181783676147461, "z": -0.24096190929412842 }, "axis_scores": { "Quantum imaging": 0.6500877737998962, "Quantum Life Science Sensing": 0.6794368624687195, "Quantum sensing Detection": 0.6581004858016968, "Quantum sensing Metrology": 0.6605967283248901, "Quantum sensing navigation": 0.6499592065811157, "Quantum sensing Position": 0.6396511197090149, "Quantum sensing Timing": 0.6123350858688354, "Quantum sensing": 0.6642389893531799, "Quantum control": 0.6249421834945679 } }, { "id": 1293, "title": "Microwave mediated synthesis of semiconductor quantum dots", "abstract": "Colloidal quantum dots (QD) have tuneable optoelectronic properties and can be easily handled by simple solution processing techniques, making them very attractive for a wide range of applications. Ov...", "citations": 2, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1295, "doi": "10.1002/pssc.201100545", "umap_coordinates": { "x": 392.9842834472656, "y": 134.638427734375, "z": 205.7814483642578 }, "tsne_coordinates": { "x": 30.908891677856445, "y": 4.660109519958496, "z": -0.8674777746200562 }, "pca_coordinates": { "x": -1.4708771705627441, "y": -2.4855475425720215, "z": 1.2038846015930176 }, "axis_scores": { "Quantum imaging": 0.7128888368606567, "Quantum Life Science Sensing": 0.722252607345581, "Quantum sensing Detection": 0.7208472490310669, "Quantum sensing Metrology": 0.7183034420013428, "Quantum sensing navigation": 0.706730306148529, "Quantum sensing Position": 0.6732386350631714, "Quantum sensing Timing": 0.6751591563224792, "Quantum sensing": 0.7244977951049805, "Quantum control": 0.7140400409698486 } }, { "id": 1294, "title": "First Principles DFT Study of Dye-sensitized CdS Quantum Dots", "abstract": "Dye-sensitized quantum dots (QDs) are considered promising candidates for dye-sensitized solar cells. In order to maximize their efficiency, detailed theoretical studies are important. Here, we report...", "citations": 2, "author_count": 7, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1296, "doi": "10.1063/1.4872682", "umap_coordinates": { "x": 392.8164978027344, "y": 134.85899353027344, "z": 207.31219482421875 }, "tsne_coordinates": { "x": 23.644775390625, "y": -3.9288182258605957, "z": -0.007323475554585457 }, "pca_coordinates": { "x": -0.15726912021636963, "y": -3.062631130218506, "z": -1.7253937721252441 }, "axis_scores": { "Quantum imaging": 0.6949129104614258, "Quantum Life Science Sensing": 0.7353979349136353, "Quantum sensing Detection": 0.7099287509918213, "Quantum sensing Metrology": 0.6829873919487, "Quantum sensing navigation": 0.6837586760520935, "Quantum sensing Position": 0.6741687059402466, "Quantum sensing Timing": 0.6608886122703552, "Quantum sensing": 0.7184203863143921, "Quantum control": 0.6848812103271484 } }, { "id": 1295, "title": "A Strategic Review on Carbon Quantum Dots for Cancer-Diagnostics and Treatment", "abstract": "The understanding of the genesis of life-threatening cancer and its invasion calls for urgent development of novel technologies for real-time observations, early diagnosis, and treatment. Quantum dots...", "citations": 71, "author_count": 5, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1297, "doi": "10.3389/fbioe.2022.882100", "umap_coordinates": { "x": 394.0502624511719, "y": 134.27694702148438, "z": 204.9059600830078 }, "tsne_coordinates": { "x": 21.118722915649414, "y": 18.622325897216797, "z": -5.737705230712891 }, "pca_coordinates": { "x": -3.8547613620758057, "y": 0.4922422170639038, "z": -0.5880600214004517 }, "axis_scores": { "Quantum imaging": 0.7358501553535461, "Quantum Life Science Sensing": 0.7504420280456543, "Quantum sensing Detection": 0.7256726622581482, "Quantum sensing Metrology": 0.7173669338226318, "Quantum sensing navigation": 0.7229399681091309, "Quantum sensing Position": 0.6952730417251587, "Quantum sensing Timing": 0.6830712556838989, "Quantum sensing": 0.7315808534622192, "Quantum control": 0.7112190127372742 } }, { "id": 1296, "title": "Unique and outstanding quantum dots (QD)/tunicate cellulose nanofibrils (TCNF) nanohybrid platform material for use as 1D ink and 2D film", "abstract": "Quantum dots (QD)/polymer materials have wide applications in biological imaging, clinical diagnostics, anti-counterfeiting materials, light-emitting devices and solar cells. The development of QD/cel...", "citations": 6, "author_count": 3, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1298, "doi": "10.1016/j.carbpol.2020.116396", "umap_coordinates": { "x": 392.9320983886719, "y": 133.72003173828125, "z": 204.5419158935547 }, "tsne_coordinates": { "x": 24.468130111694336, "y": 12.145726203918457, "z": -8.068522453308105 }, "pca_coordinates": { "x": -5.63478422164917, "y": -1.637481689453125, "z": -1.948368787765503 }, "axis_scores": { "Quantum imaging": 0.6922037601470947, "Quantum Life Science Sensing": 0.7162491083145142, "Quantum sensing Detection": 0.682402491569519, "Quantum sensing Metrology": 0.671119749546051, "Quantum sensing navigation": 0.6716064214706421, "Quantum sensing Position": 0.6527659296989441, "Quantum sensing Timing": 0.6395971775054932, "Quantum sensing": 0.6966381669044495, "Quantum control": 0.7100650072097778 } }, { "id": 1297, "title": "Implementation of the three-qubit phase-flip error correction code with superconducting qubits", "abstract": "We investigate the performance of a three-qubit error correcting code in the framework of superconducting qubit implementations. Such a code can recover a quantum state perfectly in the case of dephas...", "citations": 10, "author_count": 6, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1299, "doi": "10.1103/PhysRevB.77.214528", "umap_coordinates": { "x": 394.9942626953125, "y": 136.1969757080078, "z": 208.40150451660156 }, "tsne_coordinates": { "x": -19.715126037597656, "y": -11.169846534729004, "z": -0.6675893068313599 }, "pca_coordinates": { "x": 5.110742092132568, "y": 0.654116153717041, "z": 1.4038498401641846 }, "axis_scores": { "Quantum imaging": 0.7294785976409912, "Quantum Life Science Sensing": 0.7108081579208374, "Quantum sensing Detection": 0.7314906120300293, "Quantum sensing Metrology": 0.7193346619606018, "Quantum sensing navigation": 0.7597305774688721, "Quantum sensing Position": 0.7253902554512024, "Quantum sensing Timing": 0.7316949367523193, "Quantum sensing": 0.7366685271263123, "Quantum control": 0.726323127746582 } }, { "id": 1298, "title": "Magnetic quantum correlations in the one-dimensional transverse-field XXZ model", "abstract": "One-dimensional spin-1/2 systems are well-known candidates to study the quantum correlations between particles. In condensed matter physics, studies often are restricted to first-neighbor particles. I...", "citations": 28, "author_count": 4, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1300, "doi": "10.1103/PhysRevA.96.052303", "umap_coordinates": { "x": 393.96588134765625, "y": 137.00799560546875, "z": 208.3611602783203 }, "tsne_coordinates": { "x": -17.429027557373047, "y": -26.98419761657715, "z": 27.97940444946289 }, "pca_coordinates": { "x": 5.247749328613281, "y": 0.7542245388031006, "z": -1.006119966506958 }, "axis_scores": { "Quantum imaging": 0.7135286331176758, "Quantum Life Science Sensing": 0.6936330795288086, "Quantum sensing Detection": 0.6955428719520569, "Quantum sensing Metrology": 0.7046535015106201, "Quantum sensing navigation": 0.7137855887413025, "Quantum sensing Position": 0.6940666437149048, "Quantum sensing Timing": 0.713440477848053, "Quantum sensing": 0.7139735817909241, "Quantum control": 0.7153440117835999 } }, { "id": 1299, "title": "Photon upconversion promoted by defects in low-dimensional semiconductor nanostructures", "abstract": "", "citations": 2, "author_count": 3, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1301, "doi": "10.1016/B978-0-08-102053-1.00007-7", "umap_coordinates": { "x": 393.2414245605469, "y": 134.18211364746094, "z": 206.62660217285156 }, "tsne_coordinates": { "x": 12.175413131713867, "y": -10.946118354797363, "z": 3.4040935039520264 }, "pca_coordinates": { "x": -1.1126474142074585, "y": -3.4056320190429688, "z": 2.0721993446350098 }, "axis_scores": { "Quantum imaging": 0.7191346883773804, "Quantum Life Science Sensing": 0.719497799873352, "Quantum sensing Detection": 0.7222417593002319, "Quantum sensing Metrology": 0.7005491256713867, "Quantum sensing navigation": 0.7075056433677673, "Quantum sensing Position": 0.6985102891921997, "Quantum sensing Timing": 0.6838697195053101, "Quantum sensing": 0.7184240221977234, "Quantum control": 0.6749267578125 } }, { "id": 1300, "title": "Phonon spectral density in a GaAs/AlGaAs double quantum dot", "abstract": "We study phonon emission in a GaAs/AlGaAs double quantum dot by monitoring the tunneling of a single electron between the two dots. We prepare the system such that a known amount of energy is emitted ...", "citations": 10, "author_count": 10, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1302, "doi": "10.1103/PhysRevResearch.2.033230", "umap_coordinates": { "x": 394.2217712402344, "y": 134.94627380371094, "z": 208.79893493652344 }, "tsne_coordinates": { "x": -1.1051427125930786, "y": -21.41879653930664, "z": 2.5795984268188477 }, "pca_coordinates": { "x": 3.4824419021606445, "y": -3.0806102752685547, "z": 1.4017047882080078 }, "axis_scores": { "Quantum imaging": 0.7237788438796997, "Quantum Life Science Sensing": 0.7390592694282532, "Quantum sensing Detection": 0.73607337474823, "Quantum sensing Metrology": 0.729865550994873, "Quantum sensing navigation": 0.735551118850708, "Quantum sensing Position": 0.7253568172454834, "Quantum sensing Timing": 0.6901432275772095, "Quantum sensing": 0.7413163185119629, "Quantum control": 0.69255530834198 } }, { "id": 1301, "title": "Shot noise in tunneling through a single quantum dot - art. no. 033305", "abstract": "We investigate the noise properties of a zero-dimensional InAs quantum dot (QD) embedded in a GaAs-AlAs-GaAs tunneling structure. We observe an approximately linear dependence of the Fano factor and t...", "citations": 44, "author_count": 6, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1303, "doi": "10.1103/PhysRevB.70.033305", "umap_coordinates": { "x": 394.2942810058594, "y": 134.8114471435547, "z": 209.10963439941406 }, "tsne_coordinates": { "x": 3.778249979019165, "y": -29.394695281982422, "z": -10.05777359008789 }, "pca_coordinates": { "x": 5.252909183502197, "y": -1.8064079284667969, "z": 2.3619213104248047 }, "axis_scores": { "Quantum imaging": 0.7113462686538696, "Quantum Life Science Sensing": 0.7264554500579834, "Quantum sensing Detection": 0.7383872866630554, "Quantum sensing Metrology": 0.7284979224205017, "Quantum sensing navigation": 0.7439927458763123, "Quantum sensing Position": 0.701233983039856, "Quantum sensing Timing": 0.6984867453575134, "Quantum sensing": 0.7369123697280884, "Quantum control": 0.7050085663795471 } }, { "id": 1302, "title": "Thermal transistor and thermometer based on Coulomb-coupled conductors", "abstract": "We study a three-terminal setup consisting of a single-level quantum dot capacitively coupled to a quantum point contact. The point contact connects to a source and drain reservoir while the quantum d...", "citations": 45, "author_count": 7, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1304, "doi": "10.1103/PhysRevB.100.045418", "umap_coordinates": { "x": 394.76922607421875, "y": 135.14242553710938, "z": 208.30572509765625 }, "tsne_coordinates": { "x": -12.742253303527832, "y": -28.451229095458984, "z": -0.8457571268081665 }, "pca_coordinates": { "x": 4.0191521644592285, "y": -0.982957124710083, "z": 1.332730770111084 }, "axis_scores": { "Quantum imaging": 0.7058249115943909, "Quantum Life Science Sensing": 0.7403364181518555, "Quantum sensing Detection": 0.7325255274772644, "Quantum sensing Metrology": 0.7210597395896912, "Quantum sensing navigation": 0.7225948572158813, "Quantum sensing Position": 0.7022814154624939, "Quantum sensing Timing": 0.7162727117538452, "Quantum sensing": 0.7443697452545166, "Quantum control": 0.7104265093803406 } }, { "id": 1303, "title": "Quantum speed limits on operator flows and correlation functions", "abstract": "Quantum speed limits (QSLs) identify fundamental time scales of physical pro-cesses by providing lower bounds on the rate of change of a quantum state or the expectation value of an observable. We in-...", "citations": 31, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1305, "doi": "10.22331/q-2022-12-22-884", "umap_coordinates": { "x": 395.4151916503906, "y": 137.17051696777344, "z": 206.52609252929688 }, "tsne_coordinates": { "x": -25.55971908569336, "y": 3.640146493911743, "z": 0.1202838346362114 }, "pca_coordinates": { "x": 2.158942461013794, "y": 3.765918731689453, "z": -0.7861552238464355 }, "axis_scores": { "Quantum imaging": 0.7236016988754272, "Quantum Life Science Sensing": 0.7141875624656677, "Quantum sensing Detection": 0.7217262983322144, "Quantum sensing Metrology": 0.7120630741119385, "Quantum sensing navigation": 0.7473893165588379, "Quantum sensing Position": 0.7191981077194214, "Quantum sensing Timing": 0.7073765397071838, "Quantum sensing": 0.7234037518501282, "Quantum control": 0.7279842495918274 } }, { "id": 1304, "title": "PHOTOSYNTHESIS AND PHOTOINHIBITION IN LEAVES OF CHLOROPHYLL-B-LESS BARLEY IN RELATION TO ABSORBED LIGHT", "abstract": "The response of photosynthesis to absorbed light by intact leaves of wild-type (Hordeum vulgare L. cv. Gunilla) and chlorophyll b-less barley (H. vulgare L. cv. Dornaria, chlorina-f2(2800)) was measur...", "citations": 58, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1992, "topic": [ "all" ], "embedding_index": 1306, "doi": "10.1034/j.1399-3054.1992.850313.x", "umap_coordinates": { "x": 394.3404541015625, "y": 136.2993621826172, "z": 203.5908966064453 }, "tsne_coordinates": { "x": 9.118403434753418, "y": 35.13304901123047, "z": 16.160972595214844 }, "pca_coordinates": { "x": -1.3080012798309326, "y": 1.136483907699585, "z": -0.40375030040740967 }, "axis_scores": { "Quantum imaging": 0.6708242893218994, "Quantum Life Science Sensing": 0.6870911121368408, "Quantum sensing Detection": 0.6717246174812317, "Quantum sensing Metrology": 0.6559831500053406, "Quantum sensing navigation": 0.6446410417556763, "Quantum sensing Position": 0.6507501006126404, "Quantum sensing Timing": 0.6591283082962036, "Quantum sensing": 0.678250789642334, "Quantum control": 0.6431543827056885 } }, { "id": 1305, "title": "Tomography of an optomechanical oscillator via parametrically amplified position measurement", "abstract": "We propose a protocol for quantum state tomography of nonclassical states in optomechanical systems. Using a parametric drive, the procedure overcomes the challenges of weak optomechanical coupling, p...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1307, "doi": "10.1088/1367-2630/ab044c", "umap_coordinates": { "x": 395.0942687988281, "y": 135.1050567626953, "z": 206.50546264648438 }, "tsne_coordinates": { "x": -25.360469818115234, "y": -9.677300453186035, "z": -17.653900146484375 }, "pca_coordinates": { "x": 0.43616318702697754, "y": 2.8861498832702637, "z": 4.076794147491455 }, "axis_scores": { "Quantum imaging": 0.720893144607544, "Quantum Life Science Sensing": 0.6904498338699341, "Quantum sensing Detection": 0.7153535485267639, "Quantum sensing Metrology": 0.7238742113113403, "Quantum sensing navigation": 0.722863495349884, "Quantum sensing Position": 0.7555865049362183, "Quantum sensing Timing": 0.7157910466194153, "Quantum sensing": 0.7212702035903931, "Quantum control": 0.6717885732650757 } }, { "id": 1306, "title": "Spin polarization in quantum dots by radiation field with circular polarization", "abstract": "For circular quantum dot (QD), taking into account the Razhba spin-orbit interaction (SOI), an exact energy spectrum is obtained. For a small SOI constant, the eigenfunctions of the QD are found. It i...", "citations": 47, "author_count": 3, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1308, "doi": "10.1134/1.1387515", "umap_coordinates": { "x": 393.7109375, "y": 134.71009826660156, "z": 207.83607482910156 }, "tsne_coordinates": { "x": 17.620622634887695, "y": -26.552480697631836, "z": -0.11263299733400345 }, "pca_coordinates": { "x": 1.2065708637237549, "y": -0.784419059753418, "z": 0.6749553084373474 }, "axis_scores": { "Quantum imaging": 0.7651505470275879, "Quantum Life Science Sensing": 0.7585968971252441, "Quantum sensing Detection": 0.7647335529327393, "Quantum sensing Metrology": 0.7434945106506348, "Quantum sensing navigation": 0.7529962062835693, "Quantum sensing Position": 0.7102090716362, "Quantum sensing Timing": 0.6923477649688721, "Quantum sensing": 0.7703527212142944, "Quantum control": 0.7465654015541077 } }, { "id": 1307, "title": "NOISE MECHANISMS IN LASER-DIODES", "abstract": "Noise in diode laser applications. Basics of diode lasers. Differences and similarities between optical and electronic devices. Dynamics and fundamental noise mechanisms in laser diodes; special diffi...", "citations": 14, "author_count": 2, "categories": [ "Engineering" ], "year": 1994, "topic": [ "all" ], "embedding_index": 1309, "doi": "10.1109/16.333834", "umap_coordinates": { "x": 394.71258544921875, "y": 134.59042358398438, "z": 207.26995849609375 }, "tsne_coordinates": { "x": -7.812079906463623, "y": -18.37514305114746, "z": -29.06460189819336 }, "pca_coordinates": { "x": 1.606184959411621, "y": 0.1377551555633545, "z": 1.8977093696594238 }, "axis_scores": { "Quantum imaging": 0.7093938589096069, "Quantum Life Science Sensing": 0.7128474712371826, "Quantum sensing Detection": 0.7339071035385132, "Quantum sensing Metrology": 0.7034755349159241, "Quantum sensing navigation": 0.7294849157333374, "Quantum sensing Position": 0.6807754039764404, "Quantum sensing Timing": 0.6958844661712646, "Quantum sensing": 0.7312166094779968, "Quantum control": 0.7223399877548218 } }, { "id": 1308, "title": "A high-speed intersubband modulator based on quantum interference in double quantum wells", "abstract": "Calculations on a modulator based on quantum interference in AlGaAs/GaAs asymmetric double quantum wells (QWs) are performed. The modulation of the absorption is based on the anti-crossing behavior of...", "citations": 12, "author_count": 4, "categories": [ "Engineering" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1310, "doi": "10.1109/3.980270", "umap_coordinates": { "x": 394.0553894042969, "y": 134.66017150878906, "z": 208.0017547607422 }, "tsne_coordinates": { "x": -13.936800956726074, "y": -10.908235549926758, "z": 41.29069137573242 }, "pca_coordinates": { "x": 2.5383338928222656, "y": -1.4306490421295166, "z": 2.755350112915039 }, "axis_scores": { "Quantum imaging": 0.7502686977386475, "Quantum Life Science Sensing": 0.719693660736084, "Quantum sensing Detection": 0.7377482652664185, "Quantum sensing Metrology": 0.739191472530365, "Quantum sensing navigation": 0.7351011633872986, "Quantum sensing Position": 0.7027544975280762, "Quantum sensing Timing": 0.7280662059783936, "Quantum sensing": 0.7486721873283386, "Quantum control": 0.7101901173591614 } }, { "id": 1309, "title": "Nonequilibrium theory for a quantum dot with arbitrary on-site correlation strength coupled to leads - art. no. 075314", "abstract": "An analytical expression for the current through a single level quantum dot for arbitrary strength of the on-site electron-electron interaction is derived beyond mean-field theory. By describing the l...", "citations": 38, "author_count": 2, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1311, "doi": "10.1103/PhysRevB.72.075314", "umap_coordinates": { "x": 394.71807861328125, "y": 135.77301025390625, "z": 208.95547485351562 }, "tsne_coordinates": { "x": 4.853525161743164, "y": -29.88467788696289, "z": 2.1159987449645996 }, "pca_coordinates": { "x": 4.39484977722168, "y": -1.0215072631835938, "z": 0.8621601462364197 }, "axis_scores": { "Quantum imaging": 0.7020248174667358, "Quantum Life Science Sensing": 0.7027390599250793, "Quantum sensing Detection": 0.7259723544120789, "Quantum sensing Metrology": 0.6992601156234741, "Quantum sensing navigation": 0.7225760817527771, "Quantum sensing Position": 0.7173092365264893, "Quantum sensing Timing": 0.6997120380401611, "Quantum sensing": 0.7271583676338196, "Quantum control": 0.7044893503189087 } }, { "id": 1310, "title": "Enhanced luminescence from InAs/GaAs quantum dots", "abstract": "Single quantum dots (QDs), based on the InAs/GaAs material system have been characterized by micro-photoluminescence (mu PL). The self-organized quantum dots studied are fabricated by the Stransky-Kra...", "citations": 1, "author_count": 7, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1312, "doi": "10.1117/12.689820", "umap_coordinates": { "x": 393.484619140625, "y": 133.4228515625, "z": 207.1566162109375 }, "tsne_coordinates": { "x": 32.27949142456055, "y": -7.00728178024292, "z": -15.492812156677246 }, "pca_coordinates": { "x": -1.6622768640518188, "y": -3.7640933990478516, "z": 1.958808183670044 }, "axis_scores": { "Quantum imaging": 0.7258705496788025, "Quantum Life Science Sensing": 0.7159237861633301, "Quantum sensing Detection": 0.7297409772872925, "Quantum sensing Metrology": 0.7130032777786255, "Quantum sensing navigation": 0.7023478150367737, "Quantum sensing Position": 0.691228985786438, "Quantum sensing Timing": 0.6825788021087646, "Quantum sensing": 0.7337205410003662, "Quantum control": 0.687349796295166 } }, { "id": 1311, "title": "The influence of the capping ligands on the optoelectronic performance, morphology, and ion liberation of CsPbBr3 perovskite quantum dots", "abstract": "Perovskite quantum dots (PeQDs) endowed with capping ligands exhibit impressive optoelectronic properties and enable for cost-efficient solution processing and exciting application opportunities. We s...", "citations": 8, "author_count": 10, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1313, "doi": "10.1007/s12274-023-5589-y", "umap_coordinates": { "x": 391.8265380859375, "y": 134.39727783203125, "z": 205.51097106933594 }, "tsne_coordinates": { "x": 19.88652229309082, "y": -0.5081436634063721, "z": -16.19526481628418 }, "pca_coordinates": { "x": -4.949406623840332, "y": -2.776139736175537, "z": -1.6627143621444702 }, "axis_scores": { "Quantum imaging": 0.7034593224525452, "Quantum Life Science Sensing": 0.69002366065979, "Quantum sensing Detection": 0.6827004551887512, "Quantum sensing Metrology": 0.6719276309013367, "Quantum sensing navigation": 0.6687729954719543, "Quantum sensing Position": 0.678975522518158, "Quantum sensing Timing": 0.6571366786956787, "Quantum sensing": 0.6994460225105286, "Quantum control": 0.6930736899375916 } }, { "id": 1312, "title": "Generation of Maximally Entangled Long-Lived States with Giant Atoms in a Waveguide", "abstract": "In this Letter, we show how to efficiently generate entanglement between two artificial giant atoms with photon-mediated interactions in a waveguide. Taking advantage of the adjustable decay processes...", "citations": 61, "author_count": 3, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1314, "doi": "10.1103/PhysRevLett.130.053601", "umap_coordinates": { "x": 395.5015563964844, "y": 135.97247314453125, "z": 208.32711791992188 }, "tsne_coordinates": { "x": -16.25849723815918, "y": -20.665714263916016, "z": -12.429237365722656 }, "pca_coordinates": { "x": 4.596606254577637, "y": 0.35779547691345215, "z": 2.7087044715881348 }, "axis_scores": { "Quantum imaging": 0.7143462896347046, "Quantum Life Science Sensing": 0.7133409976959229, "Quantum sensing Detection": 0.7195882797241211, "Quantum sensing Metrology": 0.7108354568481445, "Quantum sensing navigation": 0.721819281578064, "Quantum sensing Position": 0.6842690110206604, "Quantum sensing Timing": 0.6901233792304993, "Quantum sensing": 0.7253902554512024, "Quantum control": 0.6796522736549377 } }, { "id": 1313, "title": "DISCRETE ELECTRONIC TRANSPORT THROUGH A MICROWIRE IN A LONGITUDINAL MAGNETIC-FIELD", "abstract": "", "citations": 17, "author_count": 5, "categories": [ "Materials Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 1315, "doi": "10.1103/PhysRevB.50.18341", "umap_coordinates": { "x": 393.871337890625, "y": 135.88198852539062, "z": 209.2766876220703 }, "tsne_coordinates": { "x": 1.8567873239517212, "y": -29.612028121948242, "z": 9.821395874023438 }, "pca_coordinates": { "x": 4.724546909332275, "y": -1.2732090950012207, "z": -0.6789603233337402 }, "axis_scores": { "Quantum imaging": 0.7161984443664551, "Quantum Life Science Sensing": 0.7184849977493286, "Quantum sensing Detection": 0.7074118852615356, "Quantum sensing Metrology": 0.6971074342727661, "Quantum sensing navigation": 0.7329725027084351, "Quantum sensing Position": 0.7137925624847412, "Quantum sensing Timing": 0.6855922341346741, "Quantum sensing": 0.718557596206665, "Quantum control": 0.700648844242096 } }, { "id": 1314, "title": "Quantum path-integral simulation of poly(propylene oxide)", "abstract": "Quantum path-integral molecular-dynamics simulations of poly(propylene oxide) (PPO) have been performed at 300 K. We find excellent agreement for the short and intermediate range structural order as d...", "citations": 3, "author_count": 3, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1316, "doi": "10.1016/S0009-2614(01)00651-0", "umap_coordinates": { "x": 394.2712097167969, "y": 136.7985382080078, "z": 205.97116088867188 }, "tsne_coordinates": { "x": -7.976149082183838, "y": 11.93712329864502, "z": 22.032407760620117 }, "pca_coordinates": { "x": 0.7376177310943604, "y": 1.525761365890503, "z": 1.9351849555969238 }, "axis_scores": { "Quantum imaging": 0.7715470790863037, "Quantum Life Science Sensing": 0.7790266871452332, "Quantum sensing Detection": 0.7598201632499695, "Quantum sensing Metrology": 0.7478176355361938, "Quantum sensing navigation": 0.7627238035202026, "Quantum sensing Position": 0.7524776458740234, "Quantum sensing Timing": 0.7269411087036133, "Quantum sensing": 0.7745068669319153, "Quantum control": 0.7414320111274719 } }, { "id": 1315, "title": "Order-selective multiple-quantum excitation in magic-angle spinning NMR:: creating triple-quantum coherences with a trilinear Hamiltonian", "abstract": "Order-selective multiple-quantum excitation in magic-angle spinning nuclear magnetic resonance is explored using a class of symmetry-based pulse sequences, denoted SMx. Simple rules are presented that...", "citations": 28, "author_count": 2, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1317, "doi": "10.1016/S0009-2614(02)01557-9", "umap_coordinates": { "x": 392.92071533203125, "y": 136.6873016357422, "z": 207.1544647216797 }, "tsne_coordinates": { "x": 15.969901084899902, "y": -2.3402254581451416, "z": 30.484132766723633 }, "pca_coordinates": { "x": -0.5138450860977173, "y": 0.6828844547271729, "z": 0.08475673198699951 }, "axis_scores": { "Quantum imaging": 0.7243152260780334, "Quantum Life Science Sensing": 0.7124791741371155, "Quantum sensing Detection": 0.695160984992981, "Quantum sensing Metrology": 0.6947945356369019, "Quantum sensing navigation": 0.6962532997131348, "Quantum sensing Position": 0.6718517541885376, "Quantum sensing Timing": 0.6873806118965149, "Quantum sensing": 0.7090157270431519, "Quantum control": 0.6829980611801147 } }, { "id": 1316, "title": "Solid-state solar cells co-sensitized with PbS/CdS quantum dots and N719 dye and based on solid polymer electrolyte with binary cations and nanofillers", "abstract": "Co-sensitized solar cells have gained more attention due to the ability of energy conversion process by absorbing photons from wide range of the solar spectrum including visible and near-infrared regi...", "citations": 18, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1318, "doi": "10.1016/j.jphotochem.2020.112915", "umap_coordinates": { "x": 392.97760009765625, "y": 134.05813598632812, "z": 204.75584411621094 }, "tsne_coordinates": { "x": 17.039569854736328, "y": 13.809850692749023, "z": -8.516813278198242 }, "pca_coordinates": { "x": -2.80147647857666, "y": -1.651914119720459, "z": 0.3890506625175476 }, "axis_scores": { "Quantum imaging": 0.705333948135376, "Quantum Life Science Sensing": 0.7347261905670166, "Quantum sensing Detection": 0.7094763517379761, "Quantum sensing Metrology": 0.7043704986572266, "Quantum sensing navigation": 0.7088094353675842, "Quantum sensing Position": 0.6923449039459229, "Quantum sensing Timing": 0.6710939407348633, "Quantum sensing": 0.7185633778572083, "Quantum control": 0.6696456074714661 } }, { "id": 1317, "title": "Anomalous Josephson current through a driven double quantum dot", "abstract": "Josephson junctions based on quantum dots offer a convenient tunability by means of local gates. Here we analyze a Josephson junction based on a serial double quantum dot in which the two dots are ind...", "citations": 18, "author_count": 4, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1319, "doi": "10.1103/PhysRevB.107.115165", "umap_coordinates": { "x": 394.3126220703125, "y": 135.00306701660156, "z": 208.8430633544922 }, "tsne_coordinates": { "x": -4.157814979553223, "y": -24.86297607421875, "z": 1.00094473361969 }, "pca_coordinates": { "x": 4.746321678161621, "y": -2.9544119834899902, "z": 1.950788974761963 }, "axis_scores": { "Quantum imaging": 0.7298656105995178, "Quantum Life Science Sensing": 0.7293714284896851, "Quantum sensing Detection": 0.7359477877616882, "Quantum sensing Metrology": 0.7168954014778137, "Quantum sensing navigation": 0.737947940826416, "Quantum sensing Position": 0.6853002309799194, "Quantum sensing Timing": 0.691756010055542, "Quantum sensing": 0.7388675808906555, "Quantum control": 0.7238022685050964 } }, { "id": 1318, "title": "Fine structure of exciton complexes in high-symmetry quantum dots: Effects of symmetry breaking and symmetry elevation", "abstract": "Quantum dots (QDs) of high symmetry (e.g., C(3 nu)) have degenerate bright exciton states, unlike QDs of C(2 nu) symmetry, making them intrinsically suitable for the generation of entangled photon pai...", "citations": 97, "author_count": 8, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1320, "doi": "10.1103/PhysRevB.81.161307", "umap_coordinates": { "x": 392.79693603515625, "y": 135.1919708251953, "z": 208.13949584960938 }, "tsne_coordinates": { "x": 10.301478385925293, "y": -24.302139282226562, "z": 4.382923126220703 }, "pca_coordinates": { "x": 2.349182367324829, "y": -2.8980865478515625, "z": -1.4018077850341797 }, "axis_scores": { "Quantum imaging": 0.7232955098152161, "Quantum Life Science Sensing": 0.7239486575126648, "Quantum sensing Detection": 0.7059530019760132, "Quantum sensing Metrology": 0.7053743004798889, "Quantum sensing navigation": 0.6989879608154297, "Quantum sensing Position": 0.691277265548706, "Quantum sensing Timing": 0.6843973398208618, "Quantum sensing": 0.7167391777038574, "Quantum control": 0.6917279362678528 } }, { "id": 1319, "title": "Effective tuning of the charge state of a single InAs/GaAs quantum dot by an external magnetic field", "abstract": "A microphotoluminescence study of single InAs/GaAs quantum dots (QDs) in the presence of an applied external magnetic field is presented. Attention is focused on the redistribution between the: spectr...", "citations": 10, "author_count": 7, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1321, "doi": "10.1103/PhysRevB.78.075306", "umap_coordinates": { "x": 393.4622802734375, "y": 135.03697204589844, "z": 208.56698608398438 }, "tsne_coordinates": { "x": 10.039176940917969, "y": -29.80218505859375, "z": 7.2942728996276855 }, "pca_coordinates": { "x": 2.534806251525879, "y": -2.5939807891845703, "z": -0.010209739208221436 }, "axis_scores": { "Quantum imaging": 0.7472217679023743, "Quantum Life Science Sensing": 0.7477977871894836, "Quantum sensing Detection": 0.7402463555335999, "Quantum sensing Metrology": 0.7429502010345459, "Quantum sensing navigation": 0.7345001101493835, "Quantum sensing Position": 0.7201671004295349, "Quantum sensing Timing": 0.6987005472183228, "Quantum sensing": 0.7573968172073364, "Quantum control": 0.7437753677368164 } }, { "id": 1320, "title": "Optically induced charge storage and current generation in InAs quantum dots - art. no. 073304", "abstract": "We report on optically induced charge storage effects and cur-rent generation in self-assembled InAs quantum dots embedded in an InP matrix. Illumination with photons of energy higher than about 0.86 ...", "citations": 7, "author_count": 6, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1322, "doi": "10.1103/PhysRevB.65.073304", "umap_coordinates": { "x": 393.3121337890625, "y": 134.83132934570312, "z": 208.75970458984375 }, "tsne_coordinates": { "x": 9.290520668029785, "y": -29.146074295043945, "z": -0.8348028063774109 }, "pca_coordinates": { "x": 3.4365763664245605, "y": -3.008791446685791, "z": 0.625022828578949 }, "axis_scores": { "Quantum imaging": 0.7213963866233826, "Quantum Life Science Sensing": 0.7321641445159912, "Quantum sensing Detection": 0.7145941853523254, "Quantum sensing Metrology": 0.6982442140579224, "Quantum sensing navigation": 0.7106655240058899, "Quantum sensing Position": 0.69058758020401, "Quantum sensing Timing": 0.6726091504096985, "Quantum sensing": 0.7192372679710388, "Quantum control": 0.6969680190086365 } }, { "id": 1321, "title": "Strong plasmon-molecule coupling at the nanoscale revealed by first-principles modeling", "abstract": "Strong light-matter interactions in both the single-emitter and collective strong coupling regimes attract significant attention due to emerging applications in quantum and nonlinear optics as well as...", "citations": 95, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1323, "doi": "10.1038/s41467-019-11315-5", "umap_coordinates": { "x": 393.3739318847656, "y": 134.9259490966797, "z": 206.19537353515625 }, "tsne_coordinates": { "x": 6.524572849273682, "y": -16.241708755493164, "z": -11.891875267028809 }, "pca_coordinates": { "x": -0.2855536937713623, "y": -2.3068060874938965, "z": -0.001977980136871338 }, "axis_scores": { "Quantum imaging": 0.7188982367515564, "Quantum Life Science Sensing": 0.7306328415870667, "Quantum sensing Detection": 0.725951611995697, "Quantum sensing Metrology": 0.7135893702507019, "Quantum sensing navigation": 0.7137877941131592, "Quantum sensing Position": 0.7020077109336853, "Quantum sensing Timing": 0.6878925561904907, "Quantum sensing": 0.7348361611366272, "Quantum control": 0.6835078001022339 } }, { "id": 1322, "title": "Nanomaterials as Antimicrobial Agents", "abstract": "", "citations": 10, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1324, "doi": "10.1007/978-3-642-31107-9_25", "umap_coordinates": { "x": 393.8172912597656, "y": 134.43502807617188, "z": 204.6996612548828 }, "tsne_coordinates": { "x": -13.221029281616211, "y": 18.991628646850586, "z": 5.245177745819092 }, "pca_coordinates": { "x": -3.4097867012023926, "y": -0.9409775733947754, "z": -0.7906981110572815 }, "axis_scores": { "Quantum imaging": 0.6871849894523621, "Quantum Life Science Sensing": 0.7227257490158081, "Quantum sensing Detection": 0.6787216663360596, "Quantum sensing Metrology": 0.6890129446983337, "Quantum sensing navigation": 0.6871263980865479, "Quantum sensing Position": 0.6697943806648254, "Quantum sensing Timing": 0.6375949382781982, "Quantum sensing": 0.702784538269043, "Quantum control": 0.6727004647254944 } }, { "id": 1323, "title": "Strong Coupling between a Single Quantum Emitter and a Plasmonic Nanoantenna on a Metallic Film", "abstract": "The strong coupling between single quantum emitters and resonant optical micro/nanocavities is beneficial for understanding light and matter interactions. Here, we propose a plasmonic nanoantenna plac...", "citations": 6, "author_count": 6, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1325, "doi": "10.3390/nano12091440", "umap_coordinates": { "x": 394.054443359375, "y": 133.91725158691406, "z": 207.67630004882812 }, "tsne_coordinates": { "x": 6.311234951019287, "y": -17.965810775756836, "z": -12.51545524597168 }, "pca_coordinates": { "x": -0.6525234580039978, "y": -3.61509370803833, "z": 1.0266239643096924 }, "axis_scores": { "Quantum imaging": 0.7112076878547668, "Quantum Life Science Sensing": 0.7384311556816101, "Quantum sensing Detection": 0.7342852354049683, "Quantum sensing Metrology": 0.7222000360488892, "Quantum sensing navigation": 0.7064018845558167, "Quantum sensing Position": 0.6882361769676208, "Quantum sensing Timing": 0.6599578857421875, "Quantum sensing": 0.7415673136711121, "Quantum control": 0.6884435415267944 } }, { "id": 1324, "title": "TWO-PARTICLE WAVE FUNCTION AS AN INTEGRAL OPERATOR AND THE RANDOM FIELD APPROACH TO QUANTUM CORRELATIONS", "abstract": "We propose a new interpretation of the wave function I (x, y) of a two-particle quantum system, interpreting it not as an element of the functional space L (2) of square-integrable functions, i.e., as...", "citations": 4, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1326, "doi": "10.1007/s11232-010-0094-3", "umap_coordinates": { "x": 394.6562805175781, "y": 136.8699493408203, "z": 206.16403198242188 }, "tsne_coordinates": { "x": -27.944095611572266, "y": 2.1530051231384277, "z": 15.198433876037598 }, "pca_coordinates": { "x": 0.643478512763977, "y": 1.088478922843933, "z": -0.4531589150428772 }, "axis_scores": { "Quantum imaging": 0.704914391040802, "Quantum Life Science Sensing": 0.7114177942276001, "Quantum sensing Detection": 0.7016141414642334, "Quantum sensing Metrology": 0.6886067390441895, "Quantum sensing navigation": 0.7112303972244263, "Quantum sensing Position": 0.6785299777984619, "Quantum sensing Timing": 0.6740526556968689, "Quantum sensing": 0.7184016704559326, "Quantum control": 0.6949347853660583 } }, { "id": 1325, "title": "Optical properties of multicoated CdSe/CdS/ZnS quantum dots for multiphoton applications", "abstract": "CdSe-core CdS/Cd0.5Zn0.5S/ZnS multishell quantum dots (QDs) were synthesized by using the successive ion layer adsorption and reaction method, and their optical properties were characterized experimen...", "citations": 6, "author_count": 6, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1327, "doi": "10.1088/0022-3727/41/11/115104", "umap_coordinates": { "x": 393.3622131347656, "y": 133.53640747070312, "z": 206.7007598876953 }, "tsne_coordinates": { "x": 24.98143768310547, "y": -0.6144363284111023, "z": -1.6647000312805176 }, "pca_coordinates": { "x": -2.7348129749298096, "y": -2.4063057899475098, "z": 2.7661025524139404 }, "axis_scores": { "Quantum imaging": 0.7208134531974792, "Quantum Life Science Sensing": 0.7250949144363403, "Quantum sensing Detection": 0.7120633125305176, "Quantum sensing Metrology": 0.7108919620513916, "Quantum sensing navigation": 0.6865524053573608, "Quantum sensing Position": 0.6813479065895081, "Quantum sensing Timing": 0.6835255026817322, "Quantum sensing": 0.7217249274253845, "Quantum control": 0.6767650842666626 } }, { "id": 1326, "title": "Spin polarization in open quantum dots - art. no. 035319", "abstract": "We investigate coherent transport through open lateral quantum dots using recursive Green's function technique, incorporating exchange-correlation effects within the density functional theory (DFT) in...", "citations": 10, "author_count": 3, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1328, "doi": "10.1103/PhysRevB.73.035319", "umap_coordinates": { "x": 393.7322998046875, "y": 135.3626708984375, "z": 209.1553497314453 }, "tsne_coordinates": { "x": 6.489492416381836, "y": -29.71883773803711, "z": 1.7628037929534912 }, "pca_coordinates": { "x": 3.7017011642456055, "y": -2.3516106605529785, "z": -0.4583629369735718 }, "axis_scores": { "Quantum imaging": 0.7456179857254028, "Quantum Life Science Sensing": 0.7597313523292542, "Quantum sensing Detection": 0.7523982524871826, "Quantum sensing Metrology": 0.7306475639343262, "Quantum sensing navigation": 0.7518610954284668, "Quantum sensing Position": 0.7231382727622986, "Quantum sensing Timing": 0.6848819851875305, "Quantum sensing": 0.7610747814178467, "Quantum control": 0.7379622459411621 } }, { "id": 1327, "title": "Conformal quantum dot-SnO2 layers as electron transporters for efficient perovskite solar cells", "abstract": "Improvements to perovskite solar cells (PSCs) have focused on increasing their power conversion efficiency (PCE) and operational stability and maintaining high performance upon scale-up to module size...", "citations": 1245, "author_count": 22, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1329, "doi": "10.1126/science.abh1885", "umap_coordinates": { "x": 392.34381103515625, "y": 133.95225524902344, "z": 205.743408203125 }, "tsne_coordinates": { "x": 23.511247634887695, "y": -2.067842960357666, "z": -8.841230392456055 }, "pca_coordinates": { "x": -0.7350411415100098, "y": -3.539534091949463, "z": -0.8635985851287842 }, "axis_scores": { "Quantum imaging": 0.7121910452842712, "Quantum Life Science Sensing": 0.7520760893821716, "Quantum sensing Detection": 0.6999155282974243, "Quantum sensing Metrology": 0.7145705819129944, "Quantum sensing navigation": 0.7389509677886963, "Quantum sensing Position": 0.6883896589279175, "Quantum sensing Timing": 0.6900662183761597, "Quantum sensing": 0.7270735502243042, "Quantum control": 0.7125836610794067 } }, { "id": 1328, "title": "On the non-orthogonality problem in the description of quantum devices", "abstract": "An approach which allows to include the corrections from non-orthogonality of electron states in contacts and quantum dots is developed. Comparison of the energy levels and charge distributions of ele...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1330, "doi": "10.1016/S0921-4526(99)00343-9", "umap_coordinates": { "x": 395.34716796875, "y": 136.670166015625, "z": 206.2496337890625 }, "tsne_coordinates": { "x": -18.016929626464844, "y": 5.4161810874938965, "z": 1.885284185409546 }, "pca_coordinates": { "x": 1.342759132385254, "y": 0.7524728775024414, "z": 1.5477795600891113 }, "axis_scores": { "Quantum imaging": 0.7396548986434937, "Quantum Life Science Sensing": 0.7586368918418884, "Quantum sensing Detection": 0.7600047588348389, "Quantum sensing Metrology": 0.7551349997520447, "Quantum sensing navigation": 0.7431478500366211, "Quantum sensing Position": 0.7310420274734497, "Quantum sensing Timing": 0.7071720361709595, "Quantum sensing": 0.7591131925582886, "Quantum control": 0.7286386489868164 } }, { "id": 1329, "title": "Random telegraph noise in photoluminescence from individual self-assembled quantum dots", "abstract": "We have performed photoluminescence microscopy studies of spatially resolved quantum dots grown by the Stranski-Krastanow technique. A small fraction of the dots (one in about a thousand) has been fou...", "citations": 83, "author_count": 6, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1331, "doi": "10.1103/PhysRevB.59.10725", "umap_coordinates": { "x": 394.06878662109375, "y": 134.91207885742188, "z": 209.0869598388672 }, "tsne_coordinates": { "x": 11.953620910644531, "y": -33.91012954711914, "z": -4.8022050857543945 }, "pca_coordinates": { "x": 3.935835838317871, "y": -2.094266891479492, "z": 1.866150140762329 }, "axis_scores": { "Quantum imaging": 0.7391291856765747, "Quantum Life Science Sensing": 0.7460975646972656, "Quantum sensing Detection": 0.7445452213287354, "Quantum sensing Metrology": 0.715779185295105, "Quantum sensing navigation": 0.7408482432365417, "Quantum sensing Position": 0.7129868865013123, "Quantum sensing Timing": 0.7042139768600464, "Quantum sensing": 0.7498781681060791, "Quantum control": 0.7228492498397827 } }, { "id": 1330, "title": "Photoneutron yields from tungsten in the energy range of the giant dipole resonance", "abstract": "Photoneutron production on the nuclei of high-Z components of medical accelerator heads can lead to a significant secondary dose during a course of bremsstrahlung radiotherapy, However, a quantitative...", "citations": 26, "author_count": 17, "categories": [ "Engineering" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1332, "doi": "10.1088/0031-9155/48/20/006", "umap_coordinates": { "x": 395.621337890625, "y": 134.6356964111328, "z": 205.8656463623047 }, "tsne_coordinates": { "x": -19.409988403320312, "y": 29.178258895874023, "z": -14.072444915771484 }, "pca_coordinates": { "x": -1.1947733163833618, "y": 0.7788141965866089, "z": 1.9825782775878906 }, "axis_scores": { "Quantum imaging": 0.6845768094062805, "Quantum Life Science Sensing": 0.709751546382904, "Quantum sensing Detection": 0.6792322993278503, "Quantum sensing Metrology": 0.6618161797523499, "Quantum sensing navigation": 0.6646614670753479, "Quantum sensing Position": 0.6544144153594971, "Quantum sensing Timing": 0.6643308401107788, "Quantum sensing": 0.6856001019477844, "Quantum control": 0.6312557458877563 } }, { "id": 1331, "title": "Coulomb blockade and resonant tunnelling in etched and regrown Ga0.25In0.75As/InP quantum dots", "abstract": "We report on fabrication and electron transport properties of etched and epitaxially regrown, heterostructurally defined, Ga0.25In0.75As/InP quantum dots (QDs) connected to a two-dimensional electron ...", "citations": 5, "author_count": 8, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1333, "doi": "10.1088/0268-1242/16/9/301", "umap_coordinates": { "x": 392.5014343261719, "y": 134.68714904785156, "z": 207.99559020996094 }, "tsne_coordinates": { "x": 26.1518497467041, "y": -15.693229675292969, "z": 11.610729217529297 }, "pca_coordinates": { "x": 1.203263759613037, "y": -1.4584660530090332, "z": 0.9339601397514343 }, "axis_scores": { "Quantum imaging": 0.7017569541931152, "Quantum Life Science Sensing": 0.6886138916015625, "Quantum sensing Detection": 0.6864060163497925, "Quantum sensing Metrology": 0.6864086985588074, "Quantum sensing navigation": 0.7035337686538696, "Quantum sensing Position": 0.6687818765640259, "Quantum sensing Timing": 0.6867127418518066, "Quantum sensing": 0.698172390460968, "Quantum control": 0.6754108667373657 } }, { "id": 1332, "title": "Evaluating the Maximal Violation of the Original Bell Inequality by Two-Qudit States Exhibiting Perfect Correlations/Anticorrelations", "abstract": "We introduce the general class of symmetric two-qubit states guaranteeing the perfect correlation or anticorrelation of Alice and Bob outcomes whenever some spin observable is measured at both sites. ...", "citations": 9, "author_count": 3, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1334, "doi": "10.3390/e20110829", "umap_coordinates": { "x": 395.6802978515625, "y": 136.41954040527344, "z": 206.63026428222656 }, "tsne_coordinates": { "x": -30.364601135253906, "y": -5.664865493774414, "z": -0.45235028862953186 }, "pca_coordinates": { "x": 0.22364544868469238, "y": 2.777247190475464, "z": 0.20611292123794556 }, "axis_scores": { "Quantum imaging": 0.7689135074615479, "Quantum Life Science Sensing": 0.7588450908660889, "Quantum sensing Detection": 0.7810481786727905, "Quantum sensing Metrology": 0.7821387052536011, "Quantum sensing navigation": 0.748450517654419, "Quantum sensing Position": 0.7597048282623291, "Quantum sensing Timing": 0.766161322593689, "Quantum sensing": 0.7811759114265442, "Quantum control": 0.7355791330337524 } }, { "id": 1333, "title": "Cooper pair transport and macroscopic quantum dynamics in Josephson junctions through ferromagnetic insulators", "abstract": "We theoretically investigate the cooper pair transport and the macroscopic quantum dynamics of a Josephson junction with a superconductor (S) and a ferromagnetic insulator (FI). By use of the recursiv...", "citations": 11, "author_count": 6, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1335, "doi": "10.1016/j.physc.2007.11.069", "umap_coordinates": { "x": 393.46875, "y": 135.9631805419922, "z": 207.839599609375 }, "tsne_coordinates": { "x": 3.9926068782806396, "y": -16.939685821533203, "z": 16.76516342163086 }, "pca_coordinates": { "x": 3.8190503120422363, "y": -1.4759774208068848, "z": -0.3578553795814514 }, "axis_scores": { "Quantum imaging": 0.7504136562347412, "Quantum Life Science Sensing": 0.724707305431366, "Quantum sensing Detection": 0.7291398644447327, "Quantum sensing Metrology": 0.7153593897819519, "Quantum sensing navigation": 0.7484845519065857, "Quantum sensing Position": 0.7208352088928223, "Quantum sensing Timing": 0.7198114991188049, "Quantum sensing": 0.7421678900718689, "Quantum control": 0.7215321063995361 } }, { "id": 1334, "title": "Influence of typical environments on quantum processes", "abstract": "We present the results of studying the influence of different environmental states on the coherence of quantum processes. We choose to discuss a simple model that describes two electronic reservoirs c...", "citations": 3, "author_count": 4, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1336, "doi": "10.1103/PhysRevB.53.10042", "umap_coordinates": { "x": 395.1091613769531, "y": 137.4632568359375, "z": 206.5644073486328 }, "tsne_coordinates": { "x": -31.254066467285156, "y": -1.5482113361358643, "z": 24.916820526123047 }, "pca_coordinates": { "x": 2.440770149230957, "y": 1.102185606956482, "z": -1.533225178718567 }, "axis_scores": { "Quantum imaging": 0.7689333558082581, "Quantum Life Science Sensing": 0.779435396194458, "Quantum sensing Detection": 0.7713185548782349, "Quantum sensing Metrology": 0.745075523853302, "Quantum sensing navigation": 0.7671237587928772, "Quantum sensing Position": 0.730323076248169, "Quantum sensing Timing": 0.7407485842704773, "Quantum sensing": 0.7871227860450745, "Quantum control": 0.770805835723877 } }, { "id": 1335, "title": "Direct Visualization of Confinement and Many-Body Correlation Effects in 2D Spectroscopy of Quantum Dots", "abstract": "The size tunable color of colloidal semiconductor quantum dots (QDs) is probably the most elegant illustration of the quantum confinement effect. As explained by the simple particle-in-a-box model, th...", "citations": 2, "author_count": 9, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1337, "doi": "10.1002/adom.202302968", "umap_coordinates": { "x": 393.04510498046875, "y": 135.68182373046875, "z": 206.5362091064453 }, "tsne_coordinates": { "x": 6.720941066741943, "y": -5.617675304412842, "z": 8.70108413696289 }, "pca_coordinates": { "x": 0.025028228759765625, "y": -1.1193797588348389, "z": 0.5580112338066101 }, "axis_scores": { "Quantum imaging": 0.783996045589447, "Quantum Life Science Sensing": 0.7813313007354736, "Quantum sensing Detection": 0.785956859588623, "Quantum sensing Metrology": 0.7738803029060364, "Quantum sensing navigation": 0.7672414779663086, "Quantum sensing Position": 0.7492179274559021, "Quantum sensing Timing": 0.7238852381706238, "Quantum sensing": 0.7841867208480835, "Quantum control": 0.7401325702667236 } }, { "id": 1336, "title": "Decoding the Self-Assembly Plasmonic Interface Structure in a PbS Colloidal Quantum Dot Solid for a Photodetector", "abstract": "Hybrid plasmonic nanostructures have gained enormous attention in a variety of optoelectronic devices due to their surface plasmon resonance properties. Self-assembled hybrid metal/quantum dot (QD) ar...", "citations": 13, "author_count": 15, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1338, "doi": "10.1021/acsnano.3c08526", "umap_coordinates": { "x": 392.2445373535156, "y": 134.00830078125, "z": 206.64735412597656 }, "tsne_coordinates": { "x": 16.51931381225586, "y": -10.491018295288086, "z": -6.58581018447876 }, "pca_coordinates": { "x": -1.5365372896194458, "y": -3.929684638977051, "z": 1.1974270343780518 }, "axis_scores": { "Quantum imaging": 0.7300819158554077, "Quantum Life Science Sensing": 0.7309572100639343, "Quantum sensing Detection": 0.7240540385246277, "Quantum sensing Metrology": 0.7108187079429626, "Quantum sensing navigation": 0.7402256727218628, "Quantum sensing Position": 0.7280514240264893, "Quantum sensing Timing": 0.6810940504074097, "Quantum sensing": 0.7183976173400879, "Quantum control": 0.6796562671661377 } }, { "id": 1337, "title": "Ultra low noise YBa2Cu3O7-δ nano superconducting quantum interference devices implementing nanowires", "abstract": "We present results on ultra low noise YBa2Cu3O7-delta (YBCO) nano Superconducting QUantum Interference Devices (nanoSQUIDs). To realize such devices, we implemented high quality YBCO nanowires, workin...", "citations": 66, "author_count": 7, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1339, "doi": "10.1063/1.4866277", "umap_coordinates": { "x": 393.8338623046875, "y": 133.9664764404297, "z": 208.2010498046875 }, "tsne_coordinates": { "x": 20.06903839111328, "y": -35.93364334106445, "z": 7.2558274269104 }, "pca_coordinates": { "x": 2.1166930198669434, "y": -2.6883950233459473, "z": 2.7816455364227295 }, "axis_scores": { "Quantum imaging": 0.7680838704109192, "Quantum Life Science Sensing": 0.7560290098190308, "Quantum sensing Detection": 0.7790103554725647, "Quantum sensing Metrology": 0.7684207558631897, "Quantum sensing navigation": 0.7842806577682495, "Quantum sensing Position": 0.7461845874786377, "Quantum sensing Timing": 0.735592782497406, "Quantum sensing": 0.7892943620681763, "Quantum control": 0.757194995880127 } }, { "id": 1338, "title": "Electron-hole duality and vortex rings in quantum dots", "abstract": "In a quantum-mechanical system, particle-hole duality implies that instead of studying particles, we can get equivalent information by studying the missing particles, the so-called holes. Using this d...", "citations": 30, "author_count": 6, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1340, "doi": "10.1103/PhysRevLett.94.106405", "umap_coordinates": { "x": 393.9533996582031, "y": 135.64390563964844, "z": 208.81666564941406 }, "tsne_coordinates": { "x": 8.070043563842773, "y": -24.057828903198242, "z": 2.832517623901367 }, "pca_coordinates": { "x": 4.9202070236206055, "y": -2.964831829071045, "z": 0.6480094790458679 }, "axis_scores": { "Quantum imaging": 0.7356907725334167, "Quantum Life Science Sensing": 0.7385401725769043, "Quantum sensing Detection": 0.744216799736023, "Quantum sensing Metrology": 0.7142859697341919, "Quantum sensing navigation": 0.7311608791351318, "Quantum sensing Position": 0.720831573009491, "Quantum sensing Timing": 0.7230321168899536, "Quantum sensing": 0.7415798306465149, "Quantum control": 0.7137155532836914 } }, { "id": 1339, "title": "Precision tests of quantum mechanics and CPT symmetry with entangled neutral kaons at KLOE", "abstract": "The quantum interference between the decays of entangled neutral kaons is studied in the process phi -> KSKL -> pi(+)pi(-)pi(+)pi(-), which exhibits the characteristic Einstein-Podolsky-Rosen correlat...", "citations": 12, "author_count": 59, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1341, "doi": "10.1007/JHEP04(2022)059", "umap_coordinates": { "x": 396.56500244140625, "y": 135.13404846191406, "z": 206.90003967285156 }, "tsne_coordinates": { "x": -38.7005615234375, "y": 10.353340148925781, "z": -2.1220457553863525 }, "pca_coordinates": { "x": 1.4934978485107422, "y": 3.083024263381958, "z": 1.432781457901001 }, "axis_scores": { "Quantum imaging": 0.7172490358352661, "Quantum Life Science Sensing": 0.7269843220710754, "Quantum sensing Detection": 0.7107750177383423, "Quantum sensing Metrology": 0.708528459072113, "Quantum sensing navigation": 0.7384747266769409, "Quantum sensing Position": 0.7156113386154175, "Quantum sensing Timing": 0.7059762477874756, "Quantum sensing": 0.7219557166099548, "Quantum control": 0.699224054813385 } }, { "id": 1340, "title": "Developmental Toxicity of Engineered Nanomaterials", "abstract": "", "citations": 3, "author_count": 9, "categories": [ "Reproductive Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1342, "doi": "10.1016/B978-0-12-804239-7.00019-6", "umap_coordinates": { "x": 393.6745910644531, "y": 134.15933227539062, "z": 204.7540740966797 }, "tsne_coordinates": { "x": 18.280887603759766, "y": 23.647733688354492, "z": 0.7744088172912598 }, "pca_coordinates": { "x": -3.8897881507873535, "y": -0.6582145690917969, "z": -0.8998990058898926 }, "axis_scores": { "Quantum imaging": 0.7070260643959045, "Quantum Life Science Sensing": 0.7463358044624329, "Quantum sensing Detection": 0.693881630897522, "Quantum sensing Metrology": 0.6866875886917114, "Quantum sensing navigation": 0.6950135231018066, "Quantum sensing Position": 0.6844857335090637, "Quantum sensing Timing": 0.6561755537986755, "Quantum sensing": 0.7057207822799683, "Quantum control": 0.6691356897354126 } }, { "id": 1341, "title": "Quantum-chemical simulations of point defects in alpha-Al2O3", "abstract": "", "citations": 2, "author_count": 4, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1343, "doi": null, "umap_coordinates": { "x": 392.0264892578125, "y": 139.37423706054688, "z": 209.48997497558594 }, "tsne_coordinates": { "x": -9.290303230285645, "y": 41.87300491333008, "z": -3.0146539211273193 }, "pca_coordinates": { "x": 0.15135836601257324, "y": 2.2998547554016113, "z": -1.9807097911834717 }, "axis_scores": { "Quantum imaging": 0.7582644820213318, "Quantum Life Science Sensing": 0.7619643211364746, "Quantum sensing Detection": 0.7467905282974243, "Quantum sensing Metrology": 0.7287178039550781, "Quantum sensing navigation": 0.7554004192352295, "Quantum sensing Position": 0.7207034230232239, "Quantum sensing Timing": 0.7230713367462158, "Quantum sensing": 0.7627728581428528, "Quantum control": 0.7590394616127014 } }, { "id": 1342, "title": "Quantum-classical modeling of nonlinear pulse propagation in a dissolved two-photon active chromophore", "abstract": "In the present work we outline the implications of a quantum-classical approach for modeling two-photon absorption of organic chromophores in solution. The approach joins many-photon absorption dynami...", "citations": 16, "author_count": 5, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1344, "doi": "10.1021/jp0566663", "umap_coordinates": { "x": 393.6786193847656, "y": 136.135498046875, "z": 206.20936584472656 }, "tsne_coordinates": { "x": -5.287445068359375, "y": -2.2077882289886475, "z": 7.349933624267578 }, "pca_coordinates": { "x": 0.2508680820465088, "y": 0.34193897247314453, "z": 0.14371258020401 }, "axis_scores": { "Quantum imaging": 0.7473244667053223, "Quantum Life Science Sensing": 0.7228473424911499, "Quantum sensing Detection": 0.7161443829536438, "Quantum sensing Metrology": 0.6915629506111145, "Quantum sensing navigation": 0.7160477042198181, "Quantum sensing Position": 0.6951467394828796, "Quantum sensing Timing": 0.6908119916915894, "Quantum sensing": 0.7253179550170898, "Quantum control": 0.677152693271637 } }, { "id": 1343, "title": "Iodine K-edge imaging in photon counting CT through multiple two-basis decompositions and deep learning", "abstract": "One advantage of photon-counting CT compared to dual-energy CT is the possibility to perform K-edge imaging, where contrast agents such as iodine can be distinguished from other substances based on sp...", "citations": 1, "author_count": 7, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1345, "doi": "10.1117/12.3006727", "umap_coordinates": { "x": 395.35052490234375, "y": 133.0363311767578, "z": 205.49501037597656 }, "tsne_coordinates": { "x": -4.829679489135742, "y": 15.733067512512207, "z": -20.94674301147461 }, "pca_coordinates": { "x": -1.634947419166565, "y": 1.3264601230621338, "z": 2.4346673488616943 }, "axis_scores": { "Quantum imaging": 0.75780189037323, "Quantum Life Science Sensing": 0.6839697360992432, "Quantum sensing Detection": 0.7088223099708557, "Quantum sensing Metrology": 0.6791976690292358, "Quantum sensing navigation": 0.6968487501144409, "Quantum sensing Position": 0.6528547406196594, "Quantum sensing Timing": 0.681226909160614, "Quantum sensing": 0.7085604071617126, "Quantum control": 0.6631912589073181 } }, { "id": 1344, "title": "Decreasing Photoreactivity and Concurrent Change in Dissolved Organic Matter Composition With Increasing Inland Water Residence Time", "abstract": "Photochemical degradation of dissolved organic matter (DOM) has been the subject of numerous studies; however, its regulation along the inland water continuum is still unclear. We aimed to unravel the...", "citations": 6, "author_count": 8, "categories": [ "Environmental Sciences & Ecology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1346, "doi": "10.1029/2023GB007989", "umap_coordinates": { "x": 393.4871520996094, "y": 135.83331298828125, "z": 203.60702514648438 }, "tsne_coordinates": { "x": 15.273709297180176, "y": 22.587650299072266, "z": 20.800207138061523 }, "pca_coordinates": { "x": -3.447490930557251, "y": 1.408908486366272, "z": -3.5507941246032715 }, "axis_scores": { "Quantum imaging": 0.6277129054069519, "Quantum Life Science Sensing": 0.688400149345398, "Quantum sensing Detection": 0.6303455829620361, "Quantum sensing Metrology": 0.6207432150840759, "Quantum sensing navigation": 0.6472148895263672, "Quantum sensing Position": 0.6198466420173645, "Quantum sensing Timing": 0.6134951114654541, "Quantum sensing": 0.6355098485946655, "Quantum control": 0.6052426099777222 } }, { "id": 1345, "title": "Connecting Fisher information to bulk entanglement in holography", "abstract": "In the context of relating AdS/CFT to quantum information theory, we propose a holographic dual of Fisher information metric for mixed states in the boundary field theory. This amounts to a holographi...", "citations": 46, "author_count": 4, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1347, "doi": "10.1007/JHEP08(2018)001", "umap_coordinates": { "x": 395.486328125, "y": 137.46612548828125, "z": 206.98231506347656 }, "tsne_coordinates": { "x": -44.2129020690918, "y": -1.7616297006607056, "z": 10.53239917755127 }, "pca_coordinates": { "x": 2.749135971069336, "y": 3.2511467933654785, "z": 0.16769027709960938 }, "axis_scores": { "Quantum imaging": 0.7460120916366577, "Quantum Life Science Sensing": 0.6966955065727234, "Quantum sensing Detection": 0.6926634311676025, "Quantum sensing Metrology": 0.6998618841171265, "Quantum sensing navigation": 0.7351686358451843, "Quantum sensing Position": 0.7141444683074951, "Quantum sensing Timing": 0.6800376176834106, "Quantum sensing": 0.720465898513794, "Quantum control": 0.6952468156814575 } }, { "id": 1346, "title": "Field enhancement and molecular response in surface-enhanced Raman scattering and fluorescence spectroscopy", "abstract": "We present a theoretical analysis of surface-enhanced Raman scattering and fluorescence emission from chromophoric molecules located at electromagnetic 'hot spots' in nanoparticle aggregates. The mode...", "citations": 90, "author_count": 4, "categories": [ "Spectroscopy" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1348, "doi": "10.1002/jrs.1357", "umap_coordinates": { "x": 393.3973083496094, "y": 134.9701690673828, "z": 205.99034118652344 }, "tsne_coordinates": { "x": 36.39345169067383, "y": -3.7508463859558105, "z": -18.997642517089844 }, "pca_coordinates": { "x": -2.002516508102417, "y": -1.1785449981689453, "z": -1.5893771648406982 }, "axis_scores": { "Quantum imaging": 0.7452881336212158, "Quantum Life Science Sensing": 0.7400348782539368, "Quantum sensing Detection": 0.7304295301437378, "Quantum sensing Metrology": 0.7269749641418457, "Quantum sensing navigation": 0.7072670459747314, "Quantum sensing Position": 0.6840625405311584, "Quantum sensing Timing": 0.6653566956520081, "Quantum sensing": 0.7464162111282349, "Quantum control": 0.7204017043113708 } }, { "id": 1347, "title": "Geometric uncertainty relation for mixed quantum states", "abstract": "In this paper we use symplectic reduction in an Uhlmann bundle to construct a principal fiber bundle over a general space of unitarily equivalent mixed quantum states. The bundle, which generalizes th...", "citations": 12, "author_count": 3, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1349, "doi": "10.1063/1.4871548", "umap_coordinates": { "x": 395.4040222167969, "y": 137.20263671875, "z": 207.3726043701172 }, "tsne_coordinates": { "x": -34.919761657714844, "y": -4.710228443145752, "z": 6.656574726104736 }, "pca_coordinates": { "x": 3.4630985260009766, "y": 2.935154676437378, "z": 1.1492276191711426 }, "axis_scores": { "Quantum imaging": 0.7775285243988037, "Quantum Life Science Sensing": 0.772318422794342, "Quantum sensing Detection": 0.7799584269523621, "Quantum sensing Metrology": 0.8183092474937439, "Quantum sensing navigation": 0.7922237515449524, "Quantum sensing Position": 0.786147952079773, "Quantum sensing Timing": 0.7510138750076294, "Quantum sensing": 0.7952637076377869, "Quantum control": 0.7507080435752869 } }, { "id": 1348, "title": "Narrow (≈4 meV) inhomogeneous broadening and its correlation with confinement potential of pyramidal quantum dot arrays", "abstract": "The inhomogeneous broadening in the luminescence spectra of ordered arrays of pyramidal GaAs/AlGaAs semiconductor quantum dots (QDs) was studied as a function of the dot size. Dot arrays with inhomoge...", "citations": 29, "author_count": 7, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1350, "doi": "10.1063/1.2772178", "umap_coordinates": { "x": 392.949951171875, "y": 134.62997436523438, "z": 207.5652313232422 }, "tsne_coordinates": { "x": 17.747575759887695, "y": -20.593740463256836, "z": 6.52082633972168 }, "pca_coordinates": { "x": 0.22504949569702148, "y": -1.866553783416748, "z": 0.0777769684791565 }, "axis_scores": { "Quantum imaging": 0.7529610395431519, "Quantum Life Science Sensing": 0.7413340210914612, "Quantum sensing Detection": 0.7269771695137024, "Quantum sensing Metrology": 0.7359883785247803, "Quantum sensing navigation": 0.7342591285705566, "Quantum sensing Position": 0.7272539734840393, "Quantum sensing Timing": 0.7077158689498901, "Quantum sensing": 0.7504398226737976, "Quantum control": 0.7233046293258667 } }, { "id": 1349, "title": "Tunable effective g factor in InAs nanowire quantum dots - art. no. 201307", "abstract": "We report tunneling spectroscopy measurements of the Zeeman spin splitting in InAs few-electron quantum dots. The dots are formed between two InP barriers in InAs nanowires with a wurtzite crystal str...", "citations": 153, "author_count": 7, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1351, "doi": "10.1103/PhysRevB.72.201307", "umap_coordinates": { "x": 393.1899108886719, "y": 134.88917541503906, "z": 208.56748962402344 }, "tsne_coordinates": { "x": 14.538342475891113, "y": -20.572162628173828, "z": -3.7189409732818604 }, "pca_coordinates": { "x": 2.239504098892212, "y": -3.140076160430908, "z": 0.30272144079208374 }, "axis_scores": { "Quantum imaging": 0.7326792478561401, "Quantum Life Science Sensing": 0.7382274866104126, "Quantum sensing Detection": 0.7234615087509155, "Quantum sensing Metrology": 0.7173508405685425, "Quantum sensing navigation": 0.7503663897514343, "Quantum sensing Position": 0.7085303664207458, "Quantum sensing Timing": 0.6973247528076172, "Quantum sensing": 0.7466909885406494, "Quantum control": 0.727381706237793 } }, { "id": 1350, "title": "Dislocation-induced spatial ordering of InAs quantum dots: Effects on optical properties", "abstract": "Misfit dislocations were used to modify the surface morphology and to attain spatial ordering of quantum dots (QDs) by molecular beam epitaxy. Effects of anneal time and temperature on strain-relaxed ...", "citations": 37, "author_count": 11, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1352, "doi": "10.1063/1.1467963", "umap_coordinates": { "x": 392.7459716796875, "y": 133.7559814453125, "z": 208.24832153320312 }, "tsne_coordinates": { "x": 27.424089431762695, "y": -21.233722686767578, "z": -0.9830551743507385 }, "pca_coordinates": { "x": 1.7533669471740723, "y": -4.06119966506958, "z": 0.24961507320404053 }, "axis_scores": { "Quantum imaging": 0.7442317008972168, "Quantum Life Science Sensing": 0.71791672706604, "Quantum sensing Detection": 0.7327719926834106, "Quantum sensing Metrology": 0.7100860476493835, "Quantum sensing navigation": 0.7307428121566772, "Quantum sensing Position": 0.7242677807807922, "Quantum sensing Timing": 0.7084611058235168, "Quantum sensing": 0.7410162687301636, "Quantum control": 0.7036319375038147 } }, { "id": 1351, "title": "Coherent control of collective spontaneous emission in an extended atomic ensemble and quantum storage", "abstract": "Coherent control of collective spontaneous emission in an extended atomic ensemble resonantly interacting with single-photon wave packets is analyzed. A scheme for coherent manipulation of collective ...", "citations": 48, "author_count": 3, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1353, "doi": "10.1103/PhysRevA.74.023814", "umap_coordinates": { "x": 393.8595886230469, "y": 135.95428466796875, "z": 207.78402709960938 }, "tsne_coordinates": { "x": -16.055984497070312, "y": -26.590410232543945, "z": 4.5032958984375 }, "pca_coordinates": { "x": 3.6865296363830566, "y": -2.031466007232666, "z": -0.14459234476089478 }, "axis_scores": { "Quantum imaging": 0.7270120978355408, "Quantum Life Science Sensing": 0.7277230620384216, "Quantum sensing Detection": 0.7391995191574097, "Quantum sensing Metrology": 0.7114807367324829, "Quantum sensing navigation": 0.7310697436332703, "Quantum sensing Position": 0.6976689696311951, "Quantum sensing Timing": 0.6873262524604797, "Quantum sensing": 0.7487256526947021, "Quantum control": 0.7556782960891724 } }, { "id": 1352, "title": "Non-equilibrium electrons in a ballistic quantum dot", "abstract": "An experimental study of a ballistic quantum dot that is not in thermal equilibrium is presented. The resistance of the dot is found to strongly decrease as a function of the bias voltage that is used...", "citations": 10, "author_count": 7, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1354, "doi": "10.1002/1521-3951(199711)204:1<318::AID-PSSB318>3.0.CO;2-V", "umap_coordinates": { "x": 393.0780944824219, "y": 135.5460662841797, "z": 207.95108032226562 }, "tsne_coordinates": { "x": 30.00688362121582, "y": -0.9626607894897461, "z": 18.417287826538086 }, "pca_coordinates": { "x": 1.7998616695404053, "y": -0.41133761405944824, "z": -0.7333492636680603 }, "axis_scores": { "Quantum imaging": 0.7048074007034302, "Quantum Life Science Sensing": 0.700896143913269, "Quantum sensing Detection": 0.7149173617362976, "Quantum sensing Metrology": 0.7001092433929443, "Quantum sensing navigation": 0.7267546653747559, "Quantum sensing Position": 0.7001293301582336, "Quantum sensing Timing": 0.680246114730835, "Quantum sensing": 0.7117912769317627, "Quantum control": 0.6975560188293457 } }, { "id": 1353, "title": "Violating the thermodynamic uncertainty relation in the three-level maser", "abstract": "Nanoscale heat engines are subject to large fluctuations which affect their precision. The thermodynamic uncertainty relation (TUR) provides a trade-off between output power, fluctuations, and entropi...", "citations": 70, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1355, "doi": "10.1103/PhysRevE.104.L012103", "umap_coordinates": { "x": 395.2489929199219, "y": 137.13844299316406, "z": 208.05258178710938 }, "tsne_coordinates": { "x": -17.82402801513672, "y": -7.380077362060547, "z": 11.55278205871582 }, "pca_coordinates": { "x": 4.533633232116699, "y": 1.8786770105361938, "z": -1.5637362003326416 }, "axis_scores": { "Quantum imaging": 0.6881224513053894, "Quantum Life Science Sensing": 0.7279084920883179, "Quantum sensing Detection": 0.7134162187576294, "Quantum sensing Metrology": 0.7161998152732849, "Quantum sensing navigation": 0.7200246453285217, "Quantum sensing Position": 0.7073095440864563, "Quantum sensing Timing": 0.6929938197135925, "Quantum sensing": 0.7181137800216675, "Quantum control": 0.6988555788993835 } }, { "id": 1354, "title": "Quantum chaos among nodal points and streamlines at ballistic electron transport through open quantum dots", "abstract": "We trace signatures of quantum chaos in the distribution of nodal point,,, and streamlines for coherent electron transport through different types of quantum dots (chaotic and regular). We have calcul...", "citations": 8, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1356, "doi": "10.1088/0957-4484/12/4/338", "umap_coordinates": { "x": 393.8385925292969, "y": 135.41502380371094, "z": 208.08438110351562 }, "tsne_coordinates": { "x": 20.537071228027344, "y": -14.95036506652832, "z": 16.239805221557617 }, "pca_coordinates": { "x": 2.6102280616760254, "y": 0.11421847343444824, "z": 0.7238993048667908 }, "axis_scores": { "Quantum imaging": 0.7264122366905212, "Quantum Life Science Sensing": 0.6948273181915283, "Quantum sensing Detection": 0.6991267800331116, "Quantum sensing Metrology": 0.6868308782577515, "Quantum sensing navigation": 0.7390761375427246, "Quantum sensing Position": 0.7312626242637634, "Quantum sensing Timing": 0.7061859369277954, "Quantum sensing": 0.7104651927947998, "Quantum control": 0.7100028395652771 } }, { "id": 1355, "title": "Effect of an additional infrared excitation on the luminescence efficiency of a single InAs/GaAs quantum dot - art. no. 155317", "abstract": "Microphotoluminescence (PL) spectra of a single InAs/GaAs self-assembled quantum dot (QD) are studied under the main excitation of electron-hole pairs in the wetting layer (WL) and an additional infra...", "citations": 35, "author_count": 9, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1357, "doi": "10.1103/PhysRevB.68.155317", "umap_coordinates": { "x": 393.9757995605469, "y": 134.17080688476562, "z": 208.7205047607422 }, "tsne_coordinates": { "x": 34.73948669433594, "y": -27.361371994018555, "z": -9.279247283935547 }, "pca_coordinates": { "x": 1.11555814743042, "y": -1.7608036994934082, "z": 3.260094404220581 }, "axis_scores": { "Quantum imaging": 0.6846884489059448, "Quantum Life Science Sensing": 0.6837084293365479, "Quantum sensing Detection": 0.6851596832275391, "Quantum sensing Metrology": 0.6778028011322021, "Quantum sensing navigation": 0.6550572514533997, "Quantum sensing Position": 0.6526160836219788, "Quantum sensing Timing": 0.6585801839828491, "Quantum sensing": 0.6846936345100403, "Quantum control": 0.6400341987609863 } }, { "id": 1356, "title": "Theoretical study of para-nitro-aniline adsorption on the Au(111) surface", "abstract": "The electronic structure, bonding properties and dynamics of para-nitro-aniline (PNA) adsorbed on the Au(111) surface for a sub-monolayer coverge have been investigated by density-functional theory (D...", "citations": 5, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1358, "doi": "10.1016/j.susc.2016.01.008", "umap_coordinates": { "x": 393.46270751953125, "y": 134.4237823486328, "z": 205.6190185546875 }, "tsne_coordinates": { "x": 32.62895965576172, "y": 6.663727283477783, "z": 8.120530128479004 }, "pca_coordinates": { "x": -1.25156569480896, "y": -0.6279618740081787, "z": -0.1416073441505432 }, "axis_scores": { "Quantum imaging": 0.7342173457145691, "Quantum Life Science Sensing": 0.7383424639701843, "Quantum sensing Detection": 0.753368616104126, "Quantum sensing Metrology": 0.7319589257240295, "Quantum sensing navigation": 0.7366670966148376, "Quantum sensing Position": 0.7391505241394043, "Quantum sensing Timing": 0.712806761264801, "Quantum sensing": 0.7581580877304077, "Quantum control": 0.7215028405189514 } }, { "id": 1357, "title": "Local field contribution to the optical properties of multilevel coherent atomic media", "abstract": "The local field contribution to some three- and four-level coherent atomic vapors is considered, and a significant modification to optical properties due to dipole-dipole interaction between neighbori...", "citations": 4, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1359, "doi": "10.1002/andp.200510242", "umap_coordinates": { "x": 394.0410461425781, "y": 135.98243713378906, "z": 206.4091339111328 }, "tsne_coordinates": { "x": -27.187000274658203, "y": -7.828596591949463, "z": 32.90358352661133 }, "pca_coordinates": { "x": 0.42658090591430664, "y": -0.36443448066711426, "z": -0.780617356300354 }, "axis_scores": { "Quantum imaging": 0.7434371709823608, "Quantum Life Science Sensing": 0.7161539196968079, "Quantum sensing Detection": 0.7133481502532959, "Quantum sensing Metrology": 0.7178360819816589, "Quantum sensing navigation": 0.7003621459007263, "Quantum sensing Position": 0.6994524002075195, "Quantum sensing Timing": 0.6616568565368652, "Quantum sensing": 0.7368668913841248, "Quantum control": 0.7209343910217285 } }, { "id": 1358, "title": "Entangled photons from single atoms and molecules", "abstract": "The first two-photon entanglement experiment performed 50 years ago by Kocher and Commins (KC) provided isolated pairs of entangled photons from an atomic three-state fluorescence cascade. In view of ...", "citations": 7, "author_count": 2, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1360, "doi": "10.1016/j.chemphys.2018.04.001", "umap_coordinates": { "x": 394.41278076171875, "y": 134.0211944580078, "z": 207.44517517089844 }, "tsne_coordinates": { "x": -2.9015069007873535, "y": -11.244141578674316, "z": -19.067846298217773 }, "pca_coordinates": { "x": 0.7045775651931763, "y": -1.3084511756896973, "z": 1.3345017433166504 }, "axis_scores": { "Quantum imaging": 0.7953505516052246, "Quantum Life Science Sensing": 0.7970679402351379, "Quantum sensing Detection": 0.8014063835144043, "Quantum sensing Metrology": 0.7687884569168091, "Quantum sensing navigation": 0.7681697607040405, "Quantum sensing Position": 0.745650053024292, "Quantum sensing Timing": 0.7300143241882324, "Quantum sensing": 0.8102164268493652, "Quantum control": 0.7472772598266602 } }, { "id": 1359, "title": "Electronic spin working mechanically", "abstract": "A single-electron tunneling (SET) device with a nanoscale central island that can move with respect to the bulk source-and drain electrodes allows for a nanoelectromechanical (NEM) coupling between th...", "citations": 6, "author_count": 9, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1361, "doi": "10.1063/1.4887060", "umap_coordinates": { "x": 393.1980895996094, "y": 135.9535675048828, "z": 208.04364013671875 }, "tsne_coordinates": { "x": 10.643009185791016, "y": -35.858421325683594, "z": 6.1711955070495605 }, "pca_coordinates": { "x": 2.564570188522339, "y": 0.32741594314575195, "z": -0.9393761157989502 }, "axis_scores": { "Quantum imaging": 0.7570183873176575, "Quantum Life Science Sensing": 0.7623717188835144, "Quantum sensing Detection": 0.7446194291114807, "Quantum sensing Metrology": 0.7573570013046265, "Quantum sensing navigation": 0.751878023147583, "Quantum sensing Position": 0.7471247911453247, "Quantum sensing Timing": 0.7056807279586792, "Quantum sensing": 0.7774522304534912, "Quantum control": 0.7541660666465759 } }, { "id": 1360, "title": "Prepare-and-Measure Scenarios with Photon-Number Constraints", "abstract": "We study correlations in the prepare-and-measure scenario when quantum communication is constrained by photon-number statistics. Such constraints are natural and practical control parameters for semi-...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1362, "doi": "10.1103/glty-kkbp", "umap_coordinates": { "x": 395.9996643066406, "y": 136.16302490234375, "z": 207.28126525878906 }, "tsne_coordinates": { "x": -23.019454956054688, "y": -9.922089576721191, "z": 11.397926330566406 }, "pca_coordinates": { "x": 0.839970588684082, "y": 3.4833931922912598, "z": 2.966503620147705 }, "axis_scores": { "Quantum imaging": 0.7081950902938843, "Quantum Life Science Sensing": 0.6995646953582764, "Quantum sensing Detection": 0.7049998641014099, "Quantum sensing Metrology": 0.7006372213363647, "Quantum sensing navigation": 0.7022372484207153, "Quantum sensing Position": 0.6871213912963867, "Quantum sensing Timing": 0.7131710648536682, "Quantum sensing": 0.7102493643760681, "Quantum control": 0.6693475842475891 } }, { "id": 1361, "title": "Energetics of Microwaves Probed by Double Quantum Dot Absorption", "abstract": "We explore the energetics of microwaves interacting with a double quantum dot photodiode and show wave-particle aspects in photon-assisted tunneling. The experiments show that the single-photon energy...", "citations": 15, "author_count": 8, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1363, "doi": "10.1103/PhysRevLett.130.087003", "umap_coordinates": { "x": 393.6649475097656, "y": 135.44723510742188, "z": 207.81463623046875 }, "tsne_coordinates": { "x": -1.7804635763168335, "y": -21.16975212097168, "z": 0.5299237370491028 }, "pca_coordinates": { "x": 2.7312817573547363, "y": -2.3141016960144043, "z": -0.06951075792312622 }, "axis_scores": { "Quantum imaging": 0.7247886061668396, "Quantum Life Science Sensing": 0.7510419487953186, "Quantum sensing Detection": 0.7237514853477478, "Quantum sensing Metrology": 0.7183546423912048, "Quantum sensing navigation": 0.7104716300964355, "Quantum sensing Position": 0.6876447200775146, "Quantum sensing Timing": 0.6883518099784851, "Quantum sensing": 0.7294162511825562, "Quantum control": 0.6753047704696655 } }, { "id": 1362, "title": "Silicon nanostructures", "abstract": "", "citations": 10, "author_count": 2, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1364, "doi": null, "umap_coordinates": { "x": 391.6734313964844, "y": 139.35325622558594, "z": 209.77740478515625 }, "tsne_coordinates": { "x": -6.475451946258545, "y": 44.73403549194336, "z": -6.796442031860352 }, "pca_coordinates": { "x": -2.114994764328003, "y": 1.5428805351257324, "z": -1.4874658584594727 }, "axis_scores": { "Quantum imaging": 0.7374206185340881, "Quantum Life Science Sensing": 0.7590970993041992, "Quantum sensing Detection": 0.7355436682701111, "Quantum sensing Metrology": 0.7314526438713074, "Quantum sensing navigation": 0.7349926829338074, "Quantum sensing Position": 0.7058656215667725, "Quantum sensing Timing": 0.6799060702323914, "Quantum sensing": 0.7472600936889648, "Quantum control": 0.7257018685340881 } }, { "id": 1363, "title": "Simple and general bounds on quantum random access codes", "abstract": "Random access codes are a type of communication task that is widely used in quantum information science. The optimal average success probability that can be achieved through classical strategies is kn...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1365, "doi": "10.22331/q-2025-02-25-1643", "umap_coordinates": { "x": 395.5626525878906, "y": 136.90789794921875, "z": 206.50506591796875 }, "tsne_coordinates": { "x": -23.635522842407227, "y": 3.6069648265838623, "z": 1.1294384002685547 }, "pca_coordinates": { "x": 1.3819451332092285, "y": 2.168691873550415, "z": 0.1806240677833557 }, "axis_scores": { "Quantum imaging": 0.7179438471794128, "Quantum Life Science Sensing": 0.7339527606964111, "Quantum sensing Detection": 0.7430090308189392, "Quantum sensing Metrology": 0.7184928059577942, "Quantum sensing navigation": 0.7462601065635681, "Quantum sensing Position": 0.7041327357292175, "Quantum sensing Timing": 0.7043907046318054, "Quantum sensing": 0.7509093880653381, "Quantum control": 0.744505763053894 } }, { "id": 1364, "title": "Giant shot noise due to mechanical transportation of spin-polarized electrons", "abstract": "We show that single-electron shuttling of electrons in a magnetic nanoelectromechanical single-electron transistor device can be an efficient tool for studying electron spin-flip relaxation on quantum...", "citations": 2, "author_count": 6, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1366, "doi": "10.1103/PhysRevB.77.174304", "umap_coordinates": { "x": 394.3241271972656, "y": 135.55738830566406, "z": 208.85052490234375 }, "tsne_coordinates": { "x": 7.494597434997559, "y": -37.11642837524414, "z": 5.262895107269287 }, "pca_coordinates": { "x": 4.246397495269775, "y": -0.619957447052002, "z": 0.3181406855583191 }, "axis_scores": { "Quantum imaging": 0.7028065919876099, "Quantum Life Science Sensing": 0.7040624022483826, "Quantum sensing Detection": 0.7144352793693542, "Quantum sensing Metrology": 0.6881117224693298, "Quantum sensing navigation": 0.7315446138381958, "Quantum sensing Position": 0.6845226883888245, "Quantum sensing Timing": 0.6761720776557922, "Quantum sensing": 0.7196893692016602, "Quantum control": 0.6980695128440857 } }, { "id": 1365, "title": "Subdecoherence Time Generation and Detection of Orbital Entanglement in Quantum Dots", "abstract": "Recent experiments have demonstrated subdecoherence time control of individual single-electron orbital qubits. Here we propose a quantum-dot-based scheme for generation and detection of pairs of orbit...", "citations": 9, "author_count": 4, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1367, "doi": "10.1103/PhysRevLett.114.176803", "umap_coordinates": { "x": 394.04473876953125, "y": 135.6152801513672, "z": 207.7801513671875 }, "tsne_coordinates": { "x": -9.318075180053711, "y": -32.86629867553711, "z": -6.52347469329834 }, "pca_coordinates": { "x": 3.488071918487549, "y": -0.7110214233398438, "z": 1.078258752822876 }, "axis_scores": { "Quantum imaging": 0.7458837628364563, "Quantum Life Science Sensing": 0.7512272596359253, "Quantum sensing Detection": 0.7544330954551697, "Quantum sensing Metrology": 0.7258391976356506, "Quantum sensing navigation": 0.730811595916748, "Quantum sensing Position": 0.7310100793838501, "Quantum sensing Timing": 0.7743268013000488, "Quantum sensing": 0.748258113861084, "Quantum control": 0.7156747579574585 } }, { "id": 1366, "title": "Spatially direct and indirect transitions of self-assembled GeSi/Si quantum dots studied by photoluminescence excitation spectroscopy", "abstract": "Well-resolved photoluminescence excitation (PLE) spectra are reported for self-assembled GeSi dots grown on Si(001) by molecular beam epitaxy. The observation of two excitation resonance peaks is attr...", "citations": 16, "author_count": 6, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1368, "doi": "10.1063/1.3424789", "umap_coordinates": { "x": 392.8447570800781, "y": 133.80166625976562, "z": 208.28857421875 }, "tsne_coordinates": { "x": 29.380634307861328, "y": -16.56424903869629, "z": -7.777919292449951 }, "pca_coordinates": { "x": 0.7788904905319214, "y": -3.206296920776367, "z": 1.6451802253723145 }, "axis_scores": { "Quantum imaging": 0.7640213370323181, "Quantum Life Science Sensing": 0.7522204518318176, "Quantum sensing Detection": 0.7408722639083862, "Quantum sensing Metrology": 0.7245281934738159, "Quantum sensing navigation": 0.7311269044876099, "Quantum sensing Position": 0.7277976274490356, "Quantum sensing Timing": 0.688701331615448, "Quantum sensing": 0.7532585263252258, "Quantum control": 0.6971237659454346 } }, { "id": 1367, "title": "Solid-state single photon sources:: light collection strategies", "abstract": "We examine the problem of efficiently collecting the photons produced by solid-state single photon sources. The extent of the problem is first established with the aid of simple physical concepts. Sev...", "citations": 226, "author_count": 8, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1369, "doi": "10.1140/epjd/e20020024", "umap_coordinates": { "x": 394.94390869140625, "y": 133.36843872070312, "z": 207.21234130859375 }, "tsne_coordinates": { "x": -10.475326538085938, "y": 5.6845479011535645, "z": -25.3397159576416 }, "pca_coordinates": { "x": -1.697663426399231, "y": -1.190791130065918, "z": 2.8247218132019043 }, "axis_scores": { "Quantum imaging": 0.7155999541282654, "Quantum Life Science Sensing": 0.7203302383422852, "Quantum sensing Detection": 0.7168874144554138, "Quantum sensing Metrology": 0.7028595209121704, "Quantum sensing navigation": 0.7081204652786255, "Quantum sensing Position": 0.6877716779708862, "Quantum sensing Timing": 0.6954333782196045, "Quantum sensing": 0.7164891958236694, "Quantum control": 0.6996966600418091 } }, { "id": 1368, "title": "QUANTUM COMPUTING Coherent manipulation of a spin qubit", "abstract": "", "citations": 4, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1370, "doi": "10.1126/science.abk0929", "umap_coordinates": { "x": 394.33642578125, "y": 135.8024444580078, "z": 208.00108337402344 }, "tsne_coordinates": { "x": 0.1852782815694809, "y": -11.530879974365234, "z": 21.249082565307617 }, "pca_coordinates": { "x": 2.515083074569702, "y": -0.41579461097717285, "z": -0.6452812552452087 }, "axis_scores": { "Quantum imaging": 0.775318443775177, "Quantum Life Science Sensing": 0.7960289716720581, "Quantum sensing Detection": 0.7862947583198547, "Quantum sensing Metrology": 0.7665445804595947, "Quantum sensing navigation": 0.7875039577484131, "Quantum sensing Position": 0.7432944774627686, "Quantum sensing Timing": 0.7257320284843445, "Quantum sensing": 0.7966321110725403, "Quantum control": 0.7704232335090637 } }, { "id": 1369, "title": "Surface-plasmon-assisted electromagnetic field enhancement in semiconductor quantum dots", "abstract": "The temporal development of incident electromagnetic plane waves across semiconductor quantum dots (QDs) is analyzed by the finite-difference time-domain method. By coating the QDs using thin metal fi...", "citations": 3, "author_count": 4, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1371, "doi": "10.1007/s00339-006-3838-z", "umap_coordinates": { "x": 393.1037292480469, "y": 134.22459411621094, "z": 206.6608123779297 }, "tsne_coordinates": { "x": 35.41740417480469, "y": -4.605474472045898, "z": -18.741252899169922 }, "pca_coordinates": { "x": -1.7400544881820679, "y": -3.043532371520996, "z": 0.900176465511322 }, "axis_scores": { "Quantum imaging": 0.7123292684555054, "Quantum Life Science Sensing": 0.7135463356971741, "Quantum sensing Detection": 0.7090504765510559, "Quantum sensing Metrology": 0.7063896656036377, "Quantum sensing navigation": 0.7017213106155396, "Quantum sensing Position": 0.688778817653656, "Quantum sensing Timing": 0.6508808135986328, "Quantum sensing": 0.7160658836364746, "Quantum control": 0.6859386563301086 } }, { "id": 1370, "title": "Forest Variable Estimation Using a High Altitude Single Photon Lidar System", "abstract": "As part of the digitalization of the forest planning process, 3D remote sensing data is an important data source. However, the demand for more detailed information with high temporal resolution and ye...", "citations": 24, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1372, "doi": "10.3390/rs10091422", "umap_coordinates": { "x": 394.903076171875, "y": 133.4737548828125, "z": 206.47779846191406 }, "tsne_coordinates": { "x": -6.212358474731445, "y": 10.714249610900879, "z": -34.530364990234375 }, "pca_coordinates": { "x": -2.0108208656311035, "y": 0.5844998359680176, "z": 2.036330223083496 }, "axis_scores": { "Quantum imaging": 0.6971004605293274, "Quantum Life Science Sensing": 0.7468171715736389, "Quantum sensing Detection": 0.7159305214881897, "Quantum sensing Metrology": 0.7203333973884583, "Quantum sensing navigation": 0.7134454846382141, "Quantum sensing Position": 0.7039373517036438, "Quantum sensing Timing": 0.6892490983009338, "Quantum sensing": 0.7270666360855103, "Quantum control": 0.6726359724998474 } }, { "id": 1371, "title": "Thermoelectric graphene photodetectors with sub-nanosecond response times at terahertz frequencies", "abstract": "Ultrafast and sensitive (noise equivalent power <1 nW Hz(-1/2)) light-detection in the terahertz (THz) frequency range (0.1-10 THz) and at room-temperature is key for applications such as time-resolve...", "citations": 67, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1373, "doi": "10.1515/nanoph-2020-0255", "umap_coordinates": { "x": 394.2262878417969, "y": 134.40325927734375, "z": 205.99742126464844 }, "tsne_coordinates": { "x": 7.108327388763428, "y": -2.145124912261963, "z": -29.208688735961914 }, "pca_coordinates": { "x": -0.9830929040908813, "y": -1.1491944789886475, "z": 1.200291633605957 }, "axis_scores": { "Quantum imaging": 0.6973655819892883, "Quantum Life Science Sensing": 0.7411632537841797, "Quantum sensing Detection": 0.6993935108184814, "Quantum sensing Metrology": 0.7116215825080872, "Quantum sensing navigation": 0.6963497996330261, "Quantum sensing Position": 0.6839385628700256, "Quantum sensing Timing": 0.7354800701141357, "Quantum sensing": 0.7187476754188538, "Quantum control": 0.6703580617904663 } }, { "id": 1372, "title": "Quantum theory of bimolecular chemical reactions", "abstract": "In this review we discuss quantum dynamically based theoretical methods for studying bimolecular gas phase chemical reactions. The scope is largely limited to reactions occurring on a single Born-Oppe...", "citations": 149, "author_count": 3, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1374, "doi": "10.1088/0034-4885/63/7/201", "umap_coordinates": { "x": 394.43304443359375, "y": 137.41749572753906, "z": 206.5926055908203 }, "tsne_coordinates": { "x": -9.80714225769043, "y": 10.432642936706543, "z": 25.332727432250977 }, "pca_coordinates": { "x": 1.7121024131774902, "y": 2.293684959411621, "z": -0.8887457251548767 }, "axis_scores": { "Quantum imaging": 0.7653855085372925, "Quantum Life Science Sensing": 0.7730961441993713, "Quantum sensing Detection": 0.7634071707725525, "Quantum sensing Metrology": 0.7522627711296082, "Quantum sensing navigation": 0.7437587976455688, "Quantum sensing Position": 0.7181668281555176, "Quantum sensing Timing": 0.7340407371520996, "Quantum sensing": 0.7729418873786926, "Quantum control": 0.7457548379898071 } }, { "id": 1373, "title": "Optical properties of thin films of zinc oxide quantum dots and polydimethylsiloxane: UV-blocking and the effect of cross-linking", "abstract": "Thin films of polydimethylsiloxane (PDMS) and ZnO quantum dots (QDs) were built up as multilayers by spin-coating. The films are characterized by a UV-blocking ability that increases with increasing n...", "citations": 11, "author_count": 4, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1375, "doi": "10.1016/j.jcis.2012.07.065", "umap_coordinates": { "x": 393.16619873046875, "y": 133.77589416503906, "z": 205.72726440429688 }, "tsne_coordinates": { "x": 26.899106979370117, "y": 2.4885857105255127, "z": 3.530951738357544 }, "pca_coordinates": { "x": -2.8641562461853027, "y": -1.3987574577331543, "z": -0.17648154497146606 }, "axis_scores": { "Quantum imaging": 0.7445583939552307, "Quantum Life Science Sensing": 0.7604791522026062, "Quantum sensing Detection": 0.7318848371505737, "Quantum sensing Metrology": 0.717208743095398, "Quantum sensing navigation": 0.7069652080535889, "Quantum sensing Position": 0.7085070610046387, "Quantum sensing Timing": 0.6893171668052673, "Quantum sensing": 0.7433434128761292, "Quantum control": 0.7334585189819336 } }, { "id": 1374, "title": "Full frequency back-action spectrum of a single-electron transistor during qubit readout - art. no. 046802", "abstract": "We calculate the spectral density of voltage fluctuations in a single-electron transistor (SET), biased to operate in a transport mode where tunneling events are correlated due to Coulomb interaction....", "citations": 54, "author_count": 4, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1376, "doi": "10.1103/PhysRevLett.88.046802", "umap_coordinates": { "x": 394.5269470214844, "y": 134.3115234375, "z": 208.56175231933594 }, "tsne_coordinates": { "x": 2.4948792457580566, "y": -29.027830123901367, "z": -13.954174995422363 }, "pca_coordinates": { "x": 3.402456283569336, "y": -1.18613600730896, "z": 1.482393503189087 }, "axis_scores": { "Quantum imaging": 0.7034017443656921, "Quantum Life Science Sensing": 0.7349621653556824, "Quantum sensing Detection": 0.7180879712104797, "Quantum sensing Metrology": 0.7164825201034546, "Quantum sensing navigation": 0.6964364051818848, "Quantum sensing Position": 0.6910712718963623, "Quantum sensing Timing": 0.7126896977424622, "Quantum sensing": 0.7248122096061707, "Quantum control": 0.6765614151954651 } }, { "id": 1375, "title": "Generalized measurements of atomic qubits - art. no. 052301", "abstract": "We discuss how generalized measurements may be performed on various atomic systems including cold ions and Rydberg atoms. The suggested methods rely on the fact that any generalized measurement can be...", "citations": 29, "author_count": 5, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1377, "doi": "10.1103/PhysRevA.63.052301", "umap_coordinates": { "x": 395.69036865234375, "y": 136.3614044189453, "z": 208.2391815185547 }, "tsne_coordinates": { "x": -26.289703369140625, "y": -14.168656349182129, "z": 1.3118025064468384 }, "pca_coordinates": { "x": 5.1065993309021, "y": 0.8825480937957764, "z": 1.152346134185791 }, "axis_scores": { "Quantum imaging": 0.7431769371032715, "Quantum Life Science Sensing": 0.7604662775993347, "Quantum sensing Detection": 0.7652488946914673, "Quantum sensing Metrology": 0.7738921046257019, "Quantum sensing navigation": 0.7696030139923096, "Quantum sensing Position": 0.7429457902908325, "Quantum sensing Timing": 0.7080734372138977, "Quantum sensing": 0.7804900407791138, "Quantum control": 0.7427188754081726 } }, { "id": 1376, "title": "Multimode-fiber-coupled superconducting nanowire single-photon detectors with high detection efficiency and time resolution", "abstract": "In the past decade, superconducting nanowire single-photon detectors (SNSPDs) have gradually become an indispensable part of any demanding quantum optics experiment. Until now, most SNSPDs have been c...", "citations": 26, "author_count": 11, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1378, "doi": "10.1364/AO.58.009803", "umap_coordinates": { "x": 394.74560546875, "y": 133.2747802734375, "z": 207.43299865722656 }, "tsne_coordinates": { "x": -12.963521957397461, "y": 1.3084248304367065, "z": -33.01750564575195 }, "pca_coordinates": { "x": -0.4932125210762024, "y": -2.3541111946105957, "z": 5.516887664794922 }, "axis_scores": { "Quantum imaging": 0.7163291573524475, "Quantum Life Science Sensing": 0.7163726687431335, "Quantum sensing Detection": 0.7365252375602722, "Quantum sensing Metrology": 0.7295963764190674, "Quantum sensing navigation": 0.7190960645675659, "Quantum sensing Position": 0.6927470564842224, "Quantum sensing Timing": 0.7250227928161621, "Quantum sensing": 0.7339404821395874, "Quantum control": 0.6689916253089905 } }, { "id": 1377, "title": "Micromotion minimization using Ramsey interferometry", "abstract": "We minimize the stray electric field in a linear Paul trap quickly and accurately, by applying interferometry pulse sequences to a trapped ion optical qubit. The interferometry sequences are sensitive...", "citations": 8, "author_count": 7, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1379, "doi": "10.1088/1367-2630/ac3db6", "umap_coordinates": { "x": 395.2342834472656, "y": 134.95333862304688, "z": 205.3350067138672 }, "tsne_coordinates": { "x": -29.443016052246094, "y": -6.617568016052246, "z": -15.894685745239258 }, "pca_coordinates": { "x": -0.14467895030975342, "y": 4.175909042358398, "z": 1.1703786849975586 }, "axis_scores": { "Quantum imaging": 0.7294702529907227, "Quantum Life Science Sensing": 0.7080283164978027, "Quantum sensing Detection": 0.6998333930969238, "Quantum sensing Metrology": 0.7464661598205566, "Quantum sensing navigation": 0.7456825375556946, "Quantum sensing Position": 0.7065938711166382, "Quantum sensing Timing": 0.6922746300697327, "Quantum sensing": 0.7210364937782288, "Quantum control": 0.7098604440689087 } }, { "id": 1378, "title": "Coupling Nanowire Quantum Dots to Optical Waveguides by Microsphere-Induced Photonic Nanojet", "abstract": "Silica-on-silicon is a major optical integration platform, while the emergent class of the integrated laser-written circuits' platform offers additionally high customizability and flexibility for rapi...", "citations": 4, "author_count": 8, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1380, "doi": "10.3390/photonics11040343", "umap_coordinates": { "x": 393.7435607910156, "y": 134.05023193359375, "z": 206.27955627441406 }, "tsne_coordinates": { "x": 33.40739059448242, "y": 14.30434513092041, "z": -10.283672332763672 }, "pca_coordinates": { "x": -0.7193083763122559, "y": -3.0606250762939453, "z": 1.5097689628601074 }, "axis_scores": { "Quantum imaging": 0.7351120114326477, "Quantum Life Science Sensing": 0.7226303219795227, "Quantum sensing Detection": 0.7293881177902222, "Quantum sensing Metrology": 0.7283922433853149, "Quantum sensing navigation": 0.7353085875511169, "Quantum sensing Position": 0.699631929397583, "Quantum sensing Timing": 0.690876841545105, "Quantum sensing": 0.7435706853866577, "Quantum control": 0.7163383960723877 } }, { "id": 1379, "title": "Highly Tensile-Strained Self-Assembled Ge Quantum Dots on InP Substrates for Integrated Light Sources", "abstract": "Highly tensile-strained Ge quantum dots (TS-Ge-QDs) emitting structures with different size were successfully grown on InP substrates by molecular beam epitaxy. Dislocation-free TSGe-QDs were observed...", "citations": 22, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1381, "doi": "10.1021/acsanm.0c03373", "umap_coordinates": { "x": 392.1119689941406, "y": 133.88983154296875, "z": 207.37982177734375 }, "tsne_coordinates": { "x": 20.91189193725586, "y": -10.392719268798828, "z": -0.6216412782669067 }, "pca_coordinates": { "x": -2.5584630966186523, "y": -5.608694553375244, "z": 1.304591178894043 }, "axis_scores": { "Quantum imaging": 0.685462236404419, "Quantum Life Science Sensing": 0.6814786791801453, "Quantum sensing Detection": 0.6608882546424866, "Quantum sensing Metrology": 0.6683091521263123, "Quantum sensing navigation": 0.6533750295639038, "Quantum sensing Position": 0.6659741997718811, "Quantum sensing Timing": 0.6443911790847778, "Quantum sensing": 0.6741234660148621, "Quantum control": 0.6384518146514893 } }, { "id": 1380, "title": "Towards efficient quantum computing for quantum chemistry: reducing circuit complexity with transcorrelated and adaptive ansatz techniques", "abstract": "The near-term utility of quantum computers is hindered by hardware constraints in the form of noise. One path to achieving noise resilience in hybrid quantum algorithms is to decrease the required cir...", "citations": 7, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1382, "doi": "10.1039/d4fd00039k", "umap_coordinates": { "x": 393.76080322265625, "y": 137.55198669433594, "z": 206.27557373046875 }, "tsne_coordinates": { "x": -13.854985237121582, "y": 1.5613389015197754, "z": 14.66919231414795 }, "pca_coordinates": { "x": 0.39443445205688477, "y": 1.2229313850402832, "z": -1.3859851360321045 }, "axis_scores": { "Quantum imaging": 0.6866152286529541, "Quantum Life Science Sensing": 0.6973657011985779, "Quantum sensing Detection": 0.6870139241218567, "Quantum sensing Metrology": 0.6730273365974426, "Quantum sensing navigation": 0.6888397932052612, "Quantum sensing Position": 0.6505109071731567, "Quantum sensing Timing": 0.6475029587745667, "Quantum sensing": 0.6998757123947144, "Quantum control": 0.6877269148826599 } }, { "id": 1381, "title": "PROTONIC DELOCALIZATION AND QUANTUM CORRELATIONS IN THE H-BOND DYNAMICS OF G-C AND KAPPA-PI DNA-BASE PAIRS", "abstract": "A new base pair (called kappa-pi) of Watson-Crick type, with a H-bond pattern different from that in A-T and G-C base pairs, has been recently synthesized and shown to be stable and incorporable into ...", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 1383, "doi": "10.1002/qua.560460313", "umap_coordinates": { "x": 393.64111328125, "y": 137.0181121826172, "z": 206.24713134765625 }, "tsne_coordinates": { "x": 10.249825477600098, "y": 11.649662017822266, "z": 22.929765701293945 }, "pca_coordinates": { "x": 1.7955586910247803, "y": 2.0990500450134277, "z": -3.307382106781006 }, "axis_scores": { "Quantum imaging": 0.7446776628494263, "Quantum Life Science Sensing": 0.7507034540176392, "Quantum sensing Detection": 0.7232552766799927, "Quantum sensing Metrology": 0.7106849551200867, "Quantum sensing navigation": 0.7544004321098328, "Quantum sensing Position": 0.7264885902404785, "Quantum sensing Timing": 0.7110515236854553, "Quantum sensing": 0.7429652810096741, "Quantum control": 0.7478337287902832 } }, { "id": 1382, "title": "Defect Passivating Hole Transporting Material for Large-Area and Stable Perovskite Quantum-Dot Light-Emitting Diodes", "abstract": "Organic hole-transporting materials (HTMs) with high hole mobility and a defect passivating ability are critical for improving the performance and stability of perovskite optoelectronics, including pe...", "citations": 12, "author_count": 13, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1384, "doi": "10.1021/acsnano.4c11367", "umap_coordinates": { "x": 391.63848876953125, "y": 133.77267456054688, "z": 205.24049377441406 }, "tsne_coordinates": { "x": 21.42975425720215, "y": -7.482473850250244, "z": -21.321537017822266 }, "pca_coordinates": { "x": -2.2581589221954346, "y": -4.188459873199463, "z": 0.43869727849960327 }, "axis_scores": { "Quantum imaging": 0.6872312426567078, "Quantum Life Science Sensing": 0.695698082447052, "Quantum sensing Detection": 0.6936653852462769, "Quantum sensing Metrology": 0.6855233907699585, "Quantum sensing navigation": 0.6924974322319031, "Quantum sensing Position": 0.6755144596099854, "Quantum sensing Timing": 0.6727016568183899, "Quantum sensing": 0.7059938311576843, "Quantum control": 0.683038055896759 } }, { "id": 1383, "title": "Randomness: Quantum versus classical", "abstract": "Recent tremendous development of quantum information theory has led to a number of quantum technological projects, e.g. quantum random generators. This development had stimulated a new wave of interes...", "citations": 16, "author_count": 2, "categories": [ "Computer Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1385, "doi": "10.1142/S0219749916400098", "umap_coordinates": { "x": 395.1542663574219, "y": 137.4597625732422, "z": 206.48709106445312 }, "tsne_coordinates": { "x": -34.91658020019531, "y": 8.529119491577148, "z": 12.947809219360352 }, "pca_coordinates": { "x": 1.9242534637451172, "y": 3.845150947570801, "z": -1.600860357284546 }, "axis_scores": { "Quantum imaging": 0.7461801171302795, "Quantum Life Science Sensing": 0.7618132829666138, "Quantum sensing Detection": 0.7568196654319763, "Quantum sensing Metrology": 0.7388116121292114, "Quantum sensing navigation": 0.7781757116317749, "Quantum sensing Position": 0.7488828301429749, "Quantum sensing Timing": 0.7464184165000916, "Quantum sensing": 0.7791252732276917, "Quantum control": 0.7788649797439575 } }, { "id": 1384, "title": "Introduction of selectivity and specificity to graphene using an inimitable combination of molecular imprinting and nanotechnology", "abstract": "Recently, the nanostructured modified molecularly imprinting polymer has created a great attention in research field due to its excellent properties such as high surface to volume ratio, low cost, and...", "citations": 41, "author_count": 6, "categories": [ "Biophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1386, "doi": "10.1016/j.bios.2016.02.056", "umap_coordinates": { "x": 393.4109802246094, "y": 134.13418579101562, "z": 204.10885620117188 }, "tsne_coordinates": { "x": 23.21645164489746, "y": 24.967838287353516, "z": -9.362678527832031 }, "pca_coordinates": { "x": -3.4635157585144043, "y": -0.37816810607910156, "z": -0.1128426194190979 }, "axis_scores": { "Quantum imaging": 0.710448145866394, "Quantum Life Science Sensing": 0.7216625213623047, "Quantum sensing Detection": 0.7150318622589111, "Quantum sensing Metrology": 0.6984928846359253, "Quantum sensing navigation": 0.6994572281837463, "Quantum sensing Position": 0.6816531419754028, "Quantum sensing Timing": 0.6537730097770691, "Quantum sensing": 0.7226458787918091, "Quantum control": 0.6893056035041809 } }, { "id": 1385, "title": "Deep traps at GaAs/GaAs interface grown by MBE-interruption growth technique", "abstract": "Electron trapping centers at the GaAs/GaAs interface grown by molecular beam epitaxy (MBE)-interruption growth technique have been studied by capacitance versus voltage (C-V) measurements and deep lev...", "citations": 20, "author_count": 3, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1387, "doi": "10.1016/j.msec.2006.09.012", "umap_coordinates": { "x": 393.2696533203125, "y": 133.9605712890625, "z": 206.57044982910156 }, "tsne_coordinates": { "x": 37.7648811340332, "y": -8.85265064239502, "z": 12.74323558807373 }, "pca_coordinates": { "x": -1.3733172416687012, "y": -0.0725548267364502, "z": 0.5695311427116394 }, "axis_scores": { "Quantum imaging": 0.6895350217819214, "Quantum Life Science Sensing": 0.6921744346618652, "Quantum sensing Detection": 0.6735513210296631, "Quantum sensing Metrology": 0.6769691705703735, "Quantum sensing navigation": 0.675926685333252, "Quantum sensing Position": 0.6863643527030945, "Quantum sensing Timing": 0.7047370672225952, "Quantum sensing": 0.6842108368873596, "Quantum control": 0.659362256526947 } }, { "id": 1386, "title": "Emission rates for electron tunneling from InAs quantum dots to GaAs substrate", "abstract": "Tunneling emission rates of electrons from InAs quantum dots (QD) in a GaAs matrix depletion region have been calculated for application in the analysis of experimental data from deep-level transient ...", "citations": 17, "author_count": 4, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1388, "doi": "10.1063/1.1813620", "umap_coordinates": { "x": 393.1689147949219, "y": 133.86280822753906, "z": 208.4736328125 }, "tsne_coordinates": { "x": 28.467708587646484, "y": -28.05674934387207, "z": -4.40001916885376 }, "pca_coordinates": { "x": 1.3389396667480469, "y": -4.313047885894775, "z": 1.3717153072357178 }, "axis_scores": { "Quantum imaging": 0.701490044593811, "Quantum Life Science Sensing": 0.7129666805267334, "Quantum sensing Detection": 0.7065503001213074, "Quantum sensing Metrology": 0.7062018513679504, "Quantum sensing navigation": 0.6920967102050781, "Quantum sensing Position": 0.667259931564331, "Quantum sensing Timing": 0.6803895235061646, "Quantum sensing": 0.7141425609588623, "Quantum control": 0.6714604496955872 } }, { "id": 1387, "title": "Time-resolved photoluminescence and Raman scattering of InAsSb/InP quantum dots - art. no. 181110", "abstract": "InAsSb quantum dots (QDs) grown by metalorganic vapor phase epitaxy on In0.53Ga0.47As/InP under different TMSb/AsH3 flow ratios have been characterized by means of continuous wave and time-resolved ph...", "citations": 6, "author_count": 7, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1389, "doi": "10.1063/1.1900308", "umap_coordinates": { "x": 392.9114990234375, "y": 134.07305908203125, "z": 208.20236206054688 }, "tsne_coordinates": { "x": 28.370624542236328, "y": -17.60519027709961, "z": 1.6533262729644775 }, "pca_coordinates": { "x": 1.0190351009368896, "y": -4.722631931304932, "z": 2.1485915184020996 }, "axis_scores": { "Quantum imaging": 0.7358001470565796, "Quantum Life Science Sensing": 0.7473386526107788, "Quantum sensing Detection": 0.738361120223999, "Quantum sensing Metrology": 0.7312768697738647, "Quantum sensing navigation": 0.7258066534996033, "Quantum sensing Position": 0.7151527404785156, "Quantum sensing Timing": 0.7110617756843567, "Quantum sensing": 0.7502576112747192, "Quantum control": 0.6913377046585083 } }, { "id": 1388, "title": "Comment on Symmetry-breaking instabilities in symmetric coupled-quantum-dot structures", "abstract": "In a recent paper [Phys. Rev. B 52, R17 005 (1995)] Tsukada, Gotoda, Nunoshita, and Nishino have investigated the effect of the Coulomb charging energy on the time evolution of the electron occupation...", "citations": 5, "author_count": 5, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1390, "doi": "10.1103/PhysRevB.57.2632", "umap_coordinates": { "x": 394.3415222167969, "y": 135.50413513183594, "z": 209.0263671875 }, "tsne_coordinates": { "x": 5.588184833526611, "y": -28.98174285888672, "z": -0.7391272783279419 }, "pca_coordinates": { "x": 5.240882873535156, "y": -1.852635383605957, "z": -1.0404565334320068 }, "axis_scores": { "Quantum imaging": 0.6686811447143555, "Quantum Life Science Sensing": 0.6750324368476868, "Quantum sensing Detection": 0.6825597882270813, "Quantum sensing Metrology": 0.6738795042037964, "Quantum sensing navigation": 0.6960137486457825, "Quantum sensing Position": 0.6713979244232178, "Quantum sensing Timing": 0.6506845355033875, "Quantum sensing": 0.6836279034614563, "Quantum control": 0.6887634992599487 } }, { "id": 1389, "title": "Performance study of UV micro-LEDs with AlGaN quantum dots and transparent tunnel junction", "abstract": "It is well known that the size of deep ultraviolet (DUV) micro LED (mu LEDs) decreases, although bandwidth improves, the optical power drops sharply, severely limiting the application of DUV mu LEDs i...", "citations": 1, "author_count": 12, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1391, "doi": "10.1016/j.nxnano.2025.100179", "umap_coordinates": { "x": 393.6919860839844, "y": 133.35289001464844, "z": 205.7948760986328 }, "tsne_coordinates": { "x": 33.03959274291992, "y": 4.211346626281738, "z": 5.909665107727051 }, "pca_coordinates": { "x": -3.4356184005737305, "y": -1.5872797966003418, "z": 2.200228214263916 }, "axis_scores": { "Quantum imaging": 0.7410030364990234, "Quantum Life Science Sensing": 0.7499873638153076, "Quantum sensing Detection": 0.7382230758666992, "Quantum sensing Metrology": 0.7420641183853149, "Quantum sensing navigation": 0.7353047132492065, "Quantum sensing Position": 0.7152093648910522, "Quantum sensing Timing": 0.6926709413528442, "Quantum sensing": 0.7474851608276367, "Quantum control": 0.714553952217102 } }, { "id": 1390, "title": "A Neo-Copenhagen Quantum Mechanics", "abstract": "An analysis of the quantum measurement problem is presented which is a modest modification of the standard one often called the Copenhagen interpretation.The starting assumption is that QM is universa...", "citations": 1, "author_count": 2, "categories": [ "Mathematics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1392, "doi": "10.1142/S1230161223500063", "umap_coordinates": { "x": 394.86248779296875, "y": 137.2531280517578, "z": 206.2832794189453 }, "tsne_coordinates": { "x": -24.039047241210938, "y": 7.610535621643066, "z": 13.068829536437988 }, "pca_coordinates": { "x": 2.11561918258667, "y": 3.3528220653533936, "z": -0.022517085075378418 }, "axis_scores": { "Quantum imaging": 0.7771263718605042, "Quantum Life Science Sensing": 0.7731465697288513, "Quantum sensing Detection": 0.7714101076126099, "Quantum sensing Metrology": 0.7660660147666931, "Quantum sensing navigation": 0.7963557243347168, "Quantum sensing Position": 0.7488107681274414, "Quantum sensing Timing": 0.7233319282531738, "Quantum sensing": 0.7893804311752319, "Quantum control": 0.7801337838172913 } }, { "id": 1391, "title": "Removal of zero-quantum coherence in protein NMR spectra using SESAM decoupling and suppression of decoupling sidebands", "abstract": "", "citations": 24, "author_count": 5, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1393, "doi": "10.1006/jmrb.1996.0036", "umap_coordinates": { "x": 392.6241760253906, "y": 137.11932373046875, "z": 206.57594299316406 }, "tsne_coordinates": { "x": 16.628787994384766, "y": 6.233464241027832, "z": 33.02537536621094 }, "pca_coordinates": { "x": -1.0661050081253052, "y": 1.4480863809585571, "z": -2.0764098167419434 }, "axis_scores": { "Quantum imaging": 0.6982160806655884, "Quantum Life Science Sensing": 0.7101752161979675, "Quantum sensing Detection": 0.6684488654136658, "Quantum sensing Metrology": 0.6800339221954346, "Quantum sensing navigation": 0.6752654910087585, "Quantum sensing Position": 0.6506603956222534, "Quantum sensing Timing": 0.6473965048789978, "Quantum sensing": 0.6821471452713013, "Quantum control": 0.670099675655365 } }, { "id": 1392, "title": "Quantum semantics of text perception", "abstract": "The paper presents quantum model of subjective text perception based on binary cognitive distinctions corresponding to words of natural language. The result of perception is quantum cognitive state re...", "citations": 18, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1394, "doi": "10.1038/s41598-021-83490-9", "umap_coordinates": { "x": 395.34539794921875, "y": 137.37876892089844, "z": 205.9796600341797 }, "tsne_coordinates": { "x": -25.99496841430664, "y": 3.844458818435669, "z": 9.057562828063965 }, "pca_coordinates": { "x": 0.519218921661377, "y": 2.6822590827941895, "z": -0.7037832736968994 }, "axis_scores": { "Quantum imaging": 0.8010508418083191, "Quantum Life Science Sensing": 0.8034869432449341, "Quantum sensing Detection": 0.8008472919464111, "Quantum sensing Metrology": 0.7831072807312012, "Quantum sensing navigation": 0.7958918809890747, "Quantum sensing Position": 0.7673335075378418, "Quantum sensing Timing": 0.7697475552558899, "Quantum sensing": 0.8160812854766846, "Quantum control": 0.7686789631843567 } }, { "id": 1393, "title": "Exciton Fine Structure and Lattice Dynamics in InP/ZnSe Core/Shell Quantum Dots", "abstract": "Nanocrystalline InP quantum dots (QDs) hold promise for heavy-metal-free optoelectronic applications due to their bright and size tunable emission in the visible range. Photochemical stability and hig...", "citations": 56, "author_count": 17, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1395, "doi": "10.1021/acsphotonics.8b00615", "umap_coordinates": { "x": 392.18035888671875, "y": 134.5953826904297, "z": 207.64186096191406 }, "tsne_coordinates": { "x": 21.702842712402344, "y": -5.572190284729004, "z": 8.165223121643066 }, "pca_coordinates": { "x": 0.08041083812713623, "y": -4.86523962020874, "z": -0.9423773288726807 }, "axis_scores": { "Quantum imaging": 0.7437017560005188, "Quantum Life Science Sensing": 0.730340838432312, "Quantum sensing Detection": 0.7201105356216431, "Quantum sensing Metrology": 0.7058620452880859, "Quantum sensing navigation": 0.7202702760696411, "Quantum sensing Position": 0.7131056785583496, "Quantum sensing Timing": 0.6957205533981323, "Quantum sensing": 0.7303248643875122, "Quantum control": 0.7056940197944641 } }, { "id": 1394, "title": "Experimental Evaluation of a Micron-Resolution CT Detector", "abstract": "Purpose: Current photon-counting detectors are limited to a pixel size of 0.3 mm-1mm, as decreasing the pixel size further generally introduces degraded dose efficiency and energy resolution from exce...", "citations": 1, "author_count": 5, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1396, "doi": "10.1117/12.2692858", "umap_coordinates": { "x": 395.59674072265625, "y": 132.89500427246094, "z": 205.5125732421875 }, "tsne_coordinates": { "x": -2.4375107288360596, "y": 21.58203887939453, "z": -24.081512451171875 }, "pca_coordinates": { "x": -1.8668060302734375, "y": 4.1229071617126465, "z": 3.289912700653076 }, "axis_scores": { "Quantum imaging": 0.7551760077476501, "Quantum Life Science Sensing": 0.7307681441307068, "Quantum sensing Detection": 0.7494621276855469, "Quantum sensing Metrology": 0.7440391182899475, "Quantum sensing navigation": 0.7296284437179565, "Quantum sensing Position": 0.7271835803985596, "Quantum sensing Timing": 0.7304025888442993, "Quantum sensing": 0.7514023184776306, "Quantum control": 0.7120547890663147 } }, { "id": 1395, "title": "Two-particle azimuthal correlations in photonuclear ultraperipheral Pb plus Pb collisions at 5.02 TeV with ATLAS", "abstract": "Two-particle long-range azimuthal correlations are measured in photonuclear collisions using 1.7 nb(-1) of 5.02 TeV Pb+Pb collision data collected by the ATLAS experiment at the CERN Large Hadron Coll...", "citations": 44, "author_count": 2697, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1397, "doi": "10.1103/PhysRevC.104.014903", "umap_coordinates": { "x": 396.78515625, "y": 134.56423950195312, "z": 207.83506774902344 }, "tsne_coordinates": { "x": -35.0472526550293, "y": 3.661203384399414, "z": -12.456188201904297 }, "pca_coordinates": { "x": 2.3669865131378174, "y": -0.23105883598327637, "z": 2.661376476287842 }, "axis_scores": { "Quantum imaging": 0.6991584300994873, "Quantum Life Science Sensing": 0.6753546595573425, "Quantum sensing Detection": 0.6919111609458923, "Quantum sensing Metrology": 0.6822237372398376, "Quantum sensing navigation": 0.703485369682312, "Quantum sensing Position": 0.6964787840843201, "Quantum sensing Timing": 0.7164357304573059, "Quantum sensing": 0.6962060928344727, "Quantum control": 0.6576054096221924 } }, { "id": 1396, "title": "Quantum-like model for unconscious-conscious interaction and emotional coloring of perceptions and other conscious experiences", "abstract": "Quantum measurement theory is applied to quantum-like modeling of coherent generation of perceptions and emotions and generally for emotional coloring of conscious experiences. In quantum theory, a sy...", "citations": 18, "author_count": 2, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1398, "doi": "10.1016/j.biosystems.2021.104471", "umap_coordinates": { "x": 394.901611328125, "y": 137.1803436279297, "z": 205.8116455078125 }, "tsne_coordinates": { "x": -19.266315460205078, "y": 9.646560668945312, "z": 19.30275535583496 }, "pca_coordinates": { "x": 0.9286558628082275, "y": 3.2471582889556885, "z": -1.5613369941711426 }, "axis_scores": { "Quantum imaging": 0.7641338109970093, "Quantum Life Science Sensing": 0.7911059856414795, "Quantum sensing Detection": 0.7596282362937927, "Quantum sensing Metrology": 0.7424492835998535, "Quantum sensing navigation": 0.741123616695404, "Quantum sensing Position": 0.7205003499984741, "Quantum sensing Timing": 0.7310985326766968, "Quantum sensing": 0.7755984663963318, "Quantum control": 0.7499828338623047 } }, { "id": 1397, "title": "Quantization of propagating modes in optical fibres", "abstract": "The electromagnetic fields of a single optic fibre mode are quantized based on the observation that these fields can be derived from a scalar harmonic oscillator function depending on only time and th...", "citations": 9, "author_count": 5, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1399, "doi": "10.1088/0031-8949/85/06/065404", "umap_coordinates": { "x": 395.169189453125, "y": 136.40835571289062, "z": 206.56581115722656 }, "tsne_coordinates": { "x": -34.81262969970703, "y": -0.8822349905967712, "z": 3.7247092723846436 }, "pca_coordinates": { "x": 2.5114030838012695, "y": 2.552982807159424, "z": 1.029834508895874 }, "axis_scores": { "Quantum imaging": 0.749074399471283, "Quantum Life Science Sensing": 0.7355152368545532, "Quantum sensing Detection": 0.7350906729698181, "Quantum sensing Metrology": 0.7354212999343872, "Quantum sensing navigation": 0.7565118670463562, "Quantum sensing Position": 0.7363818883895874, "Quantum sensing Timing": 0.6952834129333496, "Quantum sensing": 0.7436438202857971, "Quantum control": 0.7148889899253845 } }, { "id": 1398, "title": "Resonance Fluorescence from Waveguide-Coupled, Strain-Localized, Two-Dimensional Quantum Emitters", "abstract": "Efficient on-chip integration of single-photon emitters imposes a major bottleneck for applications of photonic integrated circuits in quantum technologies. Resonantly excited solid-state emitters are...", "citations": 53, "author_count": 17, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1400, "doi": "10.1021/acsphotonics.0c01653", "umap_coordinates": { "x": 393.38897705078125, "y": 134.0725555419922, "z": 206.79930114746094 }, "tsne_coordinates": { "x": 12.628695487976074, "y": -14.428176879882812, "z": -15.536462783813477 }, "pca_coordinates": { "x": -1.096850872039795, "y": -3.27311372756958, "z": 2.0265538692474365 }, "axis_scores": { "Quantum imaging": 0.746553361415863, "Quantum Life Science Sensing": 0.7269617915153503, "Quantum sensing Detection": 0.7360787987709045, "Quantum sensing Metrology": 0.7250984311103821, "Quantum sensing navigation": 0.7177982330322266, "Quantum sensing Position": 0.7142029404640198, "Quantum sensing Timing": 0.6918982267379761, "Quantum sensing": 0.7461015582084656, "Quantum control": 0.7020618915557861 } }, { "id": 1399, "title": "Experimental realization of deterministic and selective photon addition in a bosonic mode assisted by an ancillary qubit", "abstract": "Bosonic quantum error correcting codes are primarily designed to protect against single-photon loss. To correct for this type of error, one can encode the logical qubit in code spaces with a definite ...", "citations": 1, "author_count": 9, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1401, "doi": "10.1088/2058-9565/ae0519", "umap_coordinates": { "x": 395.30560302734375, "y": 135.6068115234375, "z": 206.77638244628906 }, "tsne_coordinates": { "x": -30.480674743652344, "y": -9.322407722473145, "z": -8.271195411682129 }, "pca_coordinates": { "x": 1.8089866638183594, "y": 0.8686215877532959, "z": 4.061046600341797 }, "axis_scores": { "Quantum imaging": 0.7044601440429688, "Quantum Life Science Sensing": 0.6672996878623962, "Quantum sensing Detection": 0.7109057903289795, "Quantum sensing Metrology": 0.7037094235420227, "Quantum sensing navigation": 0.7150865793228149, "Quantum sensing Position": 0.6839393973350525, "Quantum sensing Timing": 0.6962816119194031, "Quantum sensing": 0.7140801548957825, "Quantum control": 0.6876764297485352 } }, { "id": 1400, "title": "Quantum ground state of self-organized atomic crystals in optical resonators", "abstract": "Cold atoms, driven by a laser and simultaneously coupled to the quantum field of an optical resonator, may self-organize in periodic structures. These structures are supported by the optical lattice, ...", "citations": 71, "author_count": 5, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1402, "doi": "10.1103/PhysRevA.81.043407", "umap_coordinates": { "x": 394.2926330566406, "y": 135.8167266845703, "z": 208.56585693359375 }, "tsne_coordinates": { "x": -7.129265308380127, "y": -17.047645568847656, "z": 9.957911491394043 }, "pca_coordinates": { "x": 5.018304347991943, "y": -2.275773048400879, "z": -1.399622917175293 }, "axis_scores": { "Quantum imaging": 0.7499646544456482, "Quantum Life Science Sensing": 0.7800832986831665, "Quantum sensing Detection": 0.756878674030304, "Quantum sensing Metrology": 0.7458153963088989, "Quantum sensing navigation": 0.7609342336654663, "Quantum sensing Position": 0.7425897121429443, "Quantum sensing Timing": 0.7134755849838257, "Quantum sensing": 0.7676385045051575, "Quantum control": 0.7282620668411255 } }, { "id": 1401, "title": "Developmental toxicity of engineered nanoparticles", "abstract": "", "citations": 25, "author_count": 6, "categories": [ "Reproductive Biology" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1403, "doi": "10.1016/B978-0-12-382032-7.10021-9", "umap_coordinates": { "x": 393.63555908203125, "y": 134.14816284179688, "z": 204.6663360595703 }, "tsne_coordinates": { "x": 18.45073890686035, "y": 23.50243377685547, "z": 0.8417195081710815 }, "pca_coordinates": { "x": -4.253058433532715, "y": -0.8423871994018555, "z": -1.140310525894165 }, "axis_scores": { "Quantum imaging": 0.7062280774116516, "Quantum Life Science Sensing": 0.7309223413467407, "Quantum sensing Detection": 0.6903268098831177, "Quantum sensing Metrology": 0.6731356978416443, "Quantum sensing navigation": 0.6924774646759033, "Quantum sensing Position": 0.6826169490814209, "Quantum sensing Timing": 0.6671836376190186, "Quantum sensing": 0.6974072456359863, "Quantum control": 0.6761513352394104 } }, { "id": 1402, "title": "Observation of Genuine High-dimensional Multi-partite Non-locality in Entangled Photon States", "abstract": "Quantum information science has leaped forward with the exploration of high-dimensional quantum systems, offering greater potential than traditional qubits in quantum communication and quantum computi...", "citations": 4, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1404, "doi": "10.1038/s41467-025-59717-y", "umap_coordinates": { "x": 395.8703308105469, "y": 135.57235717773438, "z": 206.94471740722656 }, "tsne_coordinates": { "x": -17.661128997802734, "y": -2.760313034057617, "z": -0.1994909793138504 }, "pca_coordinates": { "x": 0.7857959270477295, "y": 0.8445338010787964, "z": 2.7349305152893066 }, "axis_scores": { "Quantum imaging": 0.7461623549461365, "Quantum Life Science Sensing": 0.7332297563552856, "Quantum sensing Detection": 0.744627833366394, "Quantum sensing Metrology": 0.719009280204773, "Quantum sensing navigation": 0.7229658365249634, "Quantum sensing Position": 0.7293318510055542, "Quantum sensing Timing": 0.7017666697502136, "Quantum sensing": 0.7417129278182983, "Quantum control": 0.6833850741386414 } }, { "id": 1403, "title": "Generalized electronic diabatic approach to structural similarity and the Hammond postulate", "abstract": "We revisit the notion of structural similarity along a reaction path within the context of a generalized electronic diabatic (GED) molecular model. In this approach, a reaction involving two closed-sh...", "citations": 20, "author_count": 3, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1405, "doi": "10.1002/qua.21157", "umap_coordinates": { "x": 394.1356201171875, "y": 137.3996124267578, "z": 206.44346618652344 }, "tsne_coordinates": { "x": -16.03185272216797, "y": 15.188392639160156, "z": 29.625490188598633 }, "pca_coordinates": { "x": 1.3951141834259033, "y": 1.6223989725112915, "z": -3.588545322418213 }, "axis_scores": { "Quantum imaging": 0.6958417296409607, "Quantum Life Science Sensing": 0.7072340250015259, "Quantum sensing Detection": 0.6819651126861572, "Quantum sensing Metrology": 0.6896451115608215, "Quantum sensing navigation": 0.7075328230857849, "Quantum sensing Position": 0.6669114828109741, "Quantum sensing Timing": 0.6521481275558472, "Quantum sensing": 0.6977277398109436, "Quantum control": 0.7046384811401367 } }, { "id": 1404, "title": "Probing Cage Relaxation in Concentrated Protein Solutions by X-Ray Photon Correlation Spectroscopy", "abstract": "Diffusion of proteins on length scales of their size is crucial for understanding the machinery of living cells. X-ray photon correlation spectroscopy (XPCS) is currently the only way to access long-t...", "citations": 20, "author_count": 7, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1406, "doi": "10.1103/PhysRevLett.129.238001", "umap_coordinates": { "x": 393.843994140625, "y": 136.1049041748047, "z": 206.70217895507812 }, "tsne_coordinates": { "x": -12.55044174194336, "y": -13.191926956176758, "z": -1.5162917375564575 }, "pca_coordinates": { "x": 2.5757970809936523, "y": 0.8644530773162842, "z": -0.29920291900634766 }, "axis_scores": { "Quantum imaging": 0.7285582423210144, "Quantum Life Science Sensing": 0.7599952220916748, "Quantum sensing Detection": 0.7213557362556458, "Quantum sensing Metrology": 0.7046207189559937, "Quantum sensing navigation": 0.7272273898124695, "Quantum sensing Position": 0.7050578594207764, "Quantum sensing Timing": 0.7020359635353088, "Quantum sensing": 0.7335164546966553, "Quantum control": 0.6955342292785645 } }, { "id": 1405, "title": "The pumpistor: A linearized model of a flux-pumped superconducting quantum interference device for use as a negative-resistance parametric amplifier", "abstract": "We describe a circuit model for a flux-driven Superconducting QUantum Interference Device (SQUID). This is useful for developing insight into how these devices perform as active elements in parametric...", "citations": 29, "author_count": 8, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1407, "doi": "10.1063/1.4819881", "umap_coordinates": { "x": 394.2219543457031, "y": 135.03724670410156, "z": 207.90834045410156 }, "tsne_coordinates": { "x": -17.674745559692383, "y": -19.41629981994629, "z": 35.3659553527832 }, "pca_coordinates": { "x": 0.9917302131652832, "y": 0.27556514739990234, "z": 0.40245193243026733 }, "axis_scores": { "Quantum imaging": 0.705478310585022, "Quantum Life Science Sensing": 0.7230867147445679, "Quantum sensing Detection": 0.7051374912261963, "Quantum sensing Metrology": 0.7018177509307861, "Quantum sensing navigation": 0.704828679561615, "Quantum sensing Position": 0.6997652649879456, "Quantum sensing Timing": 0.6518976092338562, "Quantum sensing": 0.7173932790756226, "Quantum control": 0.684127688407898 } }, { "id": 1406, "title": "Energy spectra of few-electron quantum dots", "abstract": "We present the renormalized perturbation series for the energy spectra of parabolic quantum dots with two to five electrons, taking into consideration the ground and the lowest excited states. A compl...", "citations": 34, "author_count": 3, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1408, "doi": "10.1088/0953-8984/10/3/013", "umap_coordinates": { "x": 394.0682678222656, "y": 134.93814086914062, "z": 206.98504638671875 }, "tsne_coordinates": { "x": 0.9672878384590149, "y": -3.4733774662017822, "z": 21.373647689819336 }, "pca_coordinates": { "x": 0.5217057466506958, "y": -1.178861141204834, "z": 1.063723087310791 }, "axis_scores": { "Quantum imaging": 0.7204676866531372, "Quantum Life Science Sensing": 0.7564776539802551, "Quantum sensing Detection": 0.7344727516174316, "Quantum sensing Metrology": 0.7227680683135986, "Quantum sensing navigation": 0.7045584321022034, "Quantum sensing Position": 0.7107029557228088, "Quantum sensing Timing": 0.6959394216537476, "Quantum sensing": 0.7337076663970947, "Quantum control": 0.6642513275146484 } }, { "id": 1407, "title": "On the detectivity of quantum-dot infrared photodetectors", "abstract": "We report on the analysis of thermally-limited operation of quantum-dot infrared photodetectors (QDIPs). A device model is developed and used to calculate the QDIP detectivity as a function of the str...", "citations": 69, "author_count": 6, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1409, "doi": "10.1063/1.1376435", "umap_coordinates": { "x": 393.74798583984375, "y": 133.59397888183594, "z": 207.69749450683594 }, "tsne_coordinates": { "x": 32.48129653930664, "y": -21.99847412109375, "z": -10.991907119750977 }, "pca_coordinates": { "x": 0.11079633235931396, "y": -1.8628392219543457, "z": 4.17353630065918 }, "axis_scores": { "Quantum imaging": 0.7464596033096313, "Quantum Life Science Sensing": 0.7447665929794312, "Quantum sensing Detection": 0.7860262989997864, "Quantum sensing Metrology": 0.7420647144317627, "Quantum sensing navigation": 0.7248613834381104, "Quantum sensing Position": 0.7083113789558411, "Quantum sensing Timing": 0.7075358629226685, "Quantum sensing": 0.766224205493927, "Quantum control": 0.6928106546401978 } }, { "id": 1408, "title": "Stark effect in individual luminescent centers observed by tunneling luminescence", "abstract": "We have measured photon emission from individual luminescent states in GaInP/InP heterostructures, containing InP dots, using local injection from a scanning tunneling microscope tip. By changing the ...", "citations": 33, "author_count": 5, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1410, "doi": "10.1063/1.116757", "umap_coordinates": { "x": 393.614990234375, "y": 134.43045043945312, "z": 208.27542114257812 }, "tsne_coordinates": { "x": 23.23082160949707, "y": -30.558815002441406, "z": -0.6484234929084778 }, "pca_coordinates": { "x": 1.647512435913086, "y": -1.24220871925354, "z": 0.21665352582931519 }, "axis_scores": { "Quantum imaging": 0.748207688331604, "Quantum Life Science Sensing": 0.7258780002593994, "Quantum sensing Detection": 0.7473263144493103, "Quantum sensing Metrology": 0.7351858615875244, "Quantum sensing navigation": 0.7217831611633301, "Quantum sensing Position": 0.7022193074226379, "Quantum sensing Timing": 0.7216135859489441, "Quantum sensing": 0.7543542981147766, "Quantum control": 0.7134029269218445 } }, { "id": 1409, "title": "Mercaptoalkanoic Acid-Induced Band Gap Attenuation of Copper Selenide Quantum Dot", "abstract": "Copper selenide quantum dot (CuSeQD) materials functionalised with mercaptoalkanoic acids {3-mercaptopropionic acid (3-MPA), 6-mercaptohexanoic acid (6-MHA) and mercaptosuccinic acid (MSA)} were synth...", "citations": 14, "author_count": 5, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1411, "doi": "10.1002/slct.201903668", "umap_coordinates": { "x": 393.4671325683594, "y": 134.12242126464844, "z": 205.41432189941406 }, "tsne_coordinates": { "x": 36.305381774902344, "y": 0.32000094652175903, "z": -14.541098594665527 }, "pca_coordinates": { "x": -2.1301798820495605, "y": -2.175363063812256, "z": -0.47111302614212036 }, "axis_scores": { "Quantum imaging": 0.6946150064468384, "Quantum Life Science Sensing": 0.7101858854293823, "Quantum sensing Detection": 0.6999026536941528, "Quantum sensing Metrology": 0.6928175687789917, "Quantum sensing navigation": 0.6842842698097229, "Quantum sensing Position": 0.6717329025268555, "Quantum sensing Timing": 0.6663491725921631, "Quantum sensing": 0.7015721797943115, "Quantum control": 0.6902848482131958 } }, { "id": 1410, "title": "Understanding and optimizing spin injection in self-assembled InAs/GaAs quantum-dot molecular structures", "abstract": "Semiconductor quantum-dot (QD) structures are promising for spintronic applications owing to their strong quenching of spin relaxation processes that are promoted by carrier and exciton motions. Unfor...", "citations": 8, "author_count": 5, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1412, "doi": "10.1007/s12274-015-0940-6", "umap_coordinates": { "x": 392.28912353515625, "y": 134.08460998535156, "z": 207.44639587402344 }, "tsne_coordinates": { "x": 22.366626739501953, "y": -10.693999290466309, "z": 11.19473648071289 }, "pca_coordinates": { "x": 0.08124089241027832, "y": -2.3106837272644043, "z": 0.6672990918159485 }, "axis_scores": { "Quantum imaging": 0.7336727976799011, "Quantum Life Science Sensing": 0.7176190614700317, "Quantum sensing Detection": 0.7022311091423035, "Quantum sensing Metrology": 0.7101371884346008, "Quantum sensing navigation": 0.7413528561592102, "Quantum sensing Position": 0.7060425281524658, "Quantum sensing Timing": 0.682249903678894, "Quantum sensing": 0.7205816507339478, "Quantum control": 0.7095007300376892 } }, { "id": 1411, "title": "InGaN quantum dot formation mechanism on hexagonal GaN/InGaN/GaN pyramids", "abstract": "Growing InGaN quantum dots (QDs) at the apex of hexagonal GaN pyramids is an elegant approach to achieve a deterministic positioning of QDs. Despite similar synthesis procedures by metal organic chemi...", "citations": 26, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1413, "doi": "10.1088/0957-4484/23/30/305708", "umap_coordinates": { "x": 392.8701171875, "y": 134.4186553955078, "z": 208.1963348388672 }, "tsne_coordinates": { "x": 29.93045997619629, "y": -4.640985488891602, "z": 12.37086009979248 }, "pca_coordinates": { "x": 1.3208165168762207, "y": -1.4636340141296387, "z": 1.7315363883972168 }, "axis_scores": { "Quantum imaging": 0.7271245718002319, "Quantum Life Science Sensing": 0.7119840383529663, "Quantum sensing Detection": 0.7156017422676086, "Quantum sensing Metrology": 0.7006284594535828, "Quantum sensing navigation": 0.7233312129974365, "Quantum sensing Position": 0.6893335580825806, "Quantum sensing Timing": 0.6904479265213013, "Quantum sensing": 0.7220095992088318, "Quantum control": 0.7107098698616028 } }, { "id": 1412, "title": "Phonon replicas of charged and neutral exciton complexes in single quantum dots", "abstract": "The longitudinal-optical (LO)-phonon coupling is experimentally examined by the optical decay of various charged and neutral exciton species in single quantum dots, and the related Huang-Rhys paramete...", "citations": 10, "author_count": 8, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1414, "doi": "10.1103/PhysRevB.82.205421", "umap_coordinates": { "x": 394.12017822265625, "y": 134.5076446533203, "z": 208.98904418945312 }, "tsne_coordinates": { "x": 5.18316125869751, "y": -27.354393005371094, "z": -5.912586688995361 }, "pca_coordinates": { "x": 3.944732189178467, "y": -4.050480365753174, "z": 0.7481549382209778 }, "axis_scores": { "Quantum imaging": 0.6901665925979614, "Quantum Life Science Sensing": 0.715680718421936, "Quantum sensing Detection": 0.7071413397789001, "Quantum sensing Metrology": 0.6932474374771118, "Quantum sensing navigation": 0.7075145244598389, "Quantum sensing Position": 0.6991397738456726, "Quantum sensing Timing": 0.6907011866569519, "Quantum sensing": 0.708756148815155, "Quantum control": 0.6714563369750977 } }, { "id": 1413, "title": "Mesoscopic superconductors under irradiation: microwave spectroscopy of Andreev states", "abstract": "We show that irradiation of a voltage-biased superconducting quantum point contact at frequencies of the order of the gap energy can remove the suppression of subgap de transport through Andreev level...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1415, "doi": "10.1006/spmi.1999.0753", "umap_coordinates": { "x": 393.74285888671875, "y": 134.83291625976562, "z": 206.62615966796875 }, "tsne_coordinates": { "x": 26.863018035888672, "y": -1.9023277759552002, "z": 21.47886085510254 }, "pca_coordinates": { "x": -0.036682963371276855, "y": -0.8020446300506592, "z": 0.9650117754936218 }, "axis_scores": { "Quantum imaging": 0.7202738523483276, "Quantum Life Science Sensing": 0.7355111241340637, "Quantum sensing Detection": 0.6905926465988159, "Quantum sensing Metrology": 0.7060179710388184, "Quantum sensing navigation": 0.6800731420516968, "Quantum sensing Position": 0.6893135905265808, "Quantum sensing Timing": 0.6706196665763855, "Quantum sensing": 0.7090817093849182, "Quantum control": 0.6449429392814636 } }, { "id": 1414, "title": "Efficiency of optical spin injection and spin loss from a diluted magnetic semiconductor ZnMnSe to CdSe nonmagnetic quantum dots", "abstract": "Magneto-optical spectroscopy in combination with tunable laser spectroscopy is employed to study optical spin injection from a diluted magnetic semiconductor (DMS) ZnMnSe into nonmagnetic CdSe quantum...", "citations": 15, "author_count": 9, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1416, "doi": "10.1103/PhysRevB.77.035437", "umap_coordinates": { "x": 393.5978088378906, "y": 135.2535858154297, "z": 208.9695281982422 }, "tsne_coordinates": { "x": 9.104986190795898, "y": -26.544322967529297, "z": 9.966378211975098 }, "pca_coordinates": { "x": 2.7489185333251953, "y": -2.120126724243164, "z": 0.4370865225791931 }, "axis_scores": { "Quantum imaging": 0.7280310988426208, "Quantum Life Science Sensing": 0.7219048738479614, "Quantum sensing Detection": 0.7178841829299927, "Quantum sensing Metrology": 0.7202203273773193, "Quantum sensing navigation": 0.7299111485481262, "Quantum sensing Position": 0.6922190189361572, "Quantum sensing Timing": 0.6597956418991089, "Quantum sensing": 0.7251521944999695, "Quantum control": 0.7128965854644775 } }, { "id": 1415, "title": "Dynamics and effective actions of BCS superconductors", "abstract": "We derive the effective dynamical theory for BCS superconductors, based on the effective action formalism. Both the metallic regime T similar to T-C and the superconducting regime T << T-C are studied...", "citations": 41, "author_count": 5, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1417, "doi": "10.1007/s100510050836", "umap_coordinates": { "x": 393.45245361328125, "y": 137.1349334716797, "z": 207.36911010742188 }, "tsne_coordinates": { "x": 10.23716926574707, "y": -8.428284645080566, "z": 30.365800857543945 }, "pca_coordinates": { "x": 1.9380040168762207, "y": 0.3155825138092041, "z": -2.5238118171691895 }, "axis_scores": { "Quantum imaging": 0.7075081467628479, "Quantum Life Science Sensing": 0.6961097717285156, "Quantum sensing Detection": 0.6784638166427612, "Quantum sensing Metrology": 0.6749022006988525, "Quantum sensing navigation": 0.7109439969062805, "Quantum sensing Position": 0.6727344393730164, "Quantum sensing Timing": 0.6754593253135681, "Quantum sensing": 0.6983943581581116, "Quantum control": 0.7173823714256287 } }, { "id": 1416, "title": "Stable and efficient PbS colloidal quantum dot solar cells incorporating low-temperature processed carbon paste counter electrodes", "abstract": "Colloidal quantum dot (CQD) solar cells with a ZnO/PbS-TBAI/PbS-EDT/carbon structure were prepared using a solution processing technique. A commercially available carbon paste that was processed at lo...", "citations": 16, "author_count": 10, "categories": [ "Energy & Fuels" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1418, "doi": "10.1016/j.solener.2017.07.074", "umap_coordinates": { "x": 392.4979553222656, "y": 133.45021057128906, "z": 205.41989135742188 }, "tsne_coordinates": { "x": 29.15091896057129, "y": 8.158063888549805, "z": -8.244560241699219 }, "pca_coordinates": { "x": -3.7611167430877686, "y": -3.0453991889953613, "z": -0.06314438581466675 }, "axis_scores": { "Quantum imaging": 0.672888994216919, "Quantum Life Science Sensing": 0.72018963098526, "Quantum sensing Detection": 0.6871552467346191, "Quantum sensing Metrology": 0.675044059753418, "Quantum sensing navigation": 0.679785966873169, "Quantum sensing Position": 0.6959288716316223, "Quantum sensing Timing": 0.6754074692726135, "Quantum sensing": 0.6963036060333252, "Quantum control": 0.684240460395813 } }, { "id": 1417, "title": "SQUID Magnetometer Based on Grooved Dayem Nanobridges and a Flux Transformer", "abstract": "We report noise measurements performed on a superconducting quantum interference devices (SQUID) magnetometer implementing YBa2Cu3O7-delta grooved Dayem nanobridges as weak links. The magnetometer is ...", "citations": 19, "author_count": 11, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1419, "doi": "10.1109/TASC.2020.3004896", "umap_coordinates": { "x": 394.609130859375, "y": 134.53932189941406, "z": 207.1416015625 }, "tsne_coordinates": { "x": -4.815817356109619, "y": -2.704982042312622, "z": -40.584190368652344 }, "pca_coordinates": { "x": 0.06448042392730713, "y": -0.4470553398132324, "z": -0.19798433780670166 }, "axis_scores": { "Quantum imaging": 0.6714716553688049, "Quantum Life Science Sensing": 0.7307222485542297, "Quantum sensing Detection": 0.6779365539550781, "Quantum sensing Metrology": 0.7045251727104187, "Quantum sensing navigation": 0.7114387154579163, "Quantum sensing Position": 0.6719679832458496, "Quantum sensing Timing": 0.666540265083313, "Quantum sensing": 0.6982407569885254, "Quantum control": 0.6857959628105164 } }, { "id": 1418, "title": "Rashba proximity states in superconducting tunnel junctions", "abstract": "We consider a new kind of superconducting proximity effect created by the tunneling of spin split Cooper pairs between two conventional superconductors connected by a normal conductor containing a qua...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1420, "doi": "10.1063/1.5037557", "umap_coordinates": { "x": 393.95343017578125, "y": 135.03379821777344, "z": 208.6569366455078 }, "tsne_coordinates": { "x": 16.510643005371094, "y": -34.233001708984375, "z": 10.952224731445312 }, "pca_coordinates": { "x": 4.316980361938477, "y": -2.2687530517578125, "z": 0.6903095841407776 }, "axis_scores": { "Quantum imaging": 0.7152570486068726, "Quantum Life Science Sensing": 0.7368437647819519, "Quantum sensing Detection": 0.7488106489181519, "Quantum sensing Metrology": 0.742525577545166, "Quantum sensing navigation": 0.741698145866394, "Quantum sensing Position": 0.7431647181510925, "Quantum sensing Timing": 0.7284001111984253, "Quantum sensing": 0.7550086975097656, "Quantum control": 0.6970164775848389 } }, { "id": 1419, "title": "Photoluminescence of a single InAs/AlAs quantum dot", "abstract": "Micro-photoluminescence (mu-PL) of a simple InAs/AlAs quantum dot (QD) has been studied. It has been found that the mu-PL emission related to the recombination in a single QD is strongly broadened pro...", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1421, "doi": "10.1002/pssc.200777647", "umap_coordinates": { "x": 393.4610290527344, "y": 133.3632354736328, "z": 207.53689575195312 }, "tsne_coordinates": { "x": 37.65595245361328, "y": 0.01926281861960888, "z": -3.6929750442504883 }, "pca_coordinates": { "x": -1.6538044214248657, "y": -3.963954448699951, "z": 2.1765615940093994 }, "axis_scores": { "Quantum imaging": 0.7366461753845215, "Quantum Life Science Sensing": 0.7529436349868774, "Quantum sensing Detection": 0.7416414022445679, "Quantum sensing Metrology": 0.7274115085601807, "Quantum sensing navigation": 0.7188311219215393, "Quantum sensing Position": 0.7295300960540771, "Quantum sensing Timing": 0.6994613409042358, "Quantum sensing": 0.7514531016349792, "Quantum control": 0.7141897082328796 } }, { "id": 1420, "title": "Transition from weak to strong electronic localization in icosahedral AlPdRe", "abstract": "In this paper we investigate when the transition from weak to strong localization takes place in icosahedral AlPdRe. This was made by determining an upper limit of the residual resistance ratio, RRR =...", "citations": 17, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1422, "doi": "10.1016/S0921-5093(96)10831-5", "umap_coordinates": { "x": 393.18328857421875, "y": 136.5732879638672, "z": 207.9124298095703 }, "tsne_coordinates": { "x": 1.464646816253662, "y": -44.50354766845703, "z": 14.62017822265625 }, "pca_coordinates": { "x": -0.06092119216918945, "y": -0.036157846450805664, "z": -2.167815685272217 }, "axis_scores": { "Quantum imaging": 0.6784042119979858, "Quantum Life Science Sensing": 0.6706699132919312, "Quantum sensing Detection": 0.6534169912338257, "Quantum sensing Metrology": 0.6283695697784424, "Quantum sensing navigation": 0.6584324836730957, "Quantum sensing Position": 0.6627276539802551, "Quantum sensing Timing": 0.630717396736145, "Quantum sensing": 0.6680808067321777, "Quantum control": 0.6364229917526245 } }, { "id": 1421, "title": "Correlation-Induced Conductance Suppression at Level Degeneracy in a Quantum Dot", "abstract": "The large, level-dependent g factors in an InSb nanowire quantum dot allow for the occurrence of a variety of level crossings in the dot. While we observe the standard conductance enhancement in the C...", "citations": 60, "author_count": 10, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1423, "doi": "10.1103/PhysRevLett.104.186804", "umap_coordinates": { "x": 394.0478515625, "y": 135.67056274414062, "z": 208.63951110839844 }, "tsne_coordinates": { "x": -3.8908884525299072, "y": -35.55757141113281, "z": -11.002691268920898 }, "pca_coordinates": { "x": 5.031457901000977, "y": -1.9828710556030273, "z": 1.1335783004760742 }, "axis_scores": { "Quantum imaging": 0.695956289768219, "Quantum Life Science Sensing": 0.6904274821281433, "Quantum sensing Detection": 0.7169838547706604, "Quantum sensing Metrology": 0.6828837990760803, "Quantum sensing navigation": 0.6939730048179626, "Quantum sensing Position": 0.6840536594390869, "Quantum sensing Timing": 0.690963625907898, "Quantum sensing": 0.7065274715423584, "Quantum control": 0.6850528717041016 } }, { "id": 1422, "title": "Giant mesoscopic fluctuations of quantum dot conductance caused by strong electromagnetic irradiation", "abstract": "Resonant backscattering of electrons from a quantum dot adiabatically connected to reservoirs is shown to be possible under certain conditions in the presence of an electromagnetic field. This novel e...", "citations": 14, "author_count": 5, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1424, "doi": "10.1103/PhysRevLett.78.3169", "umap_coordinates": { "x": 394.4707336425781, "y": 135.29507446289062, "z": 208.3437042236328 }, "tsne_coordinates": { "x": 7.957369804382324, "y": -21.65564727783203, "z": 10.917280197143555 }, "pca_coordinates": { "x": 2.3415722846984863, "y": -1.871438980102539, "z": 0.4990319609642029 }, "axis_scores": { "Quantum imaging": 0.7362848520278931, "Quantum Life Science Sensing": 0.7741349935531616, "Quantum sensing Detection": 0.7525190711021423, "Quantum sensing Metrology": 0.7351514101028442, "Quantum sensing navigation": 0.7268868684768677, "Quantum sensing Position": 0.7080799341201782, "Quantum sensing Timing": 0.7127442955970764, "Quantum sensing": 0.758416473865509, "Quantum control": 0.7051790952682495 } }, { "id": 1423, "title": "DEEP-LEVEL TRANSIENT SPECTROSCOPY OF INP QUANTUM DOTS", "abstract": "We report on the application of deep level transient spectroscopy to the study of electron emission from quantum dots. The results are presented for coherently grown InP dots embedded in Ga0.5In0.5P. ...", "citations": 103, "author_count": 6, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1425, "doi": "10.1063/1.114937", "umap_coordinates": { "x": 392.6799011230469, "y": 134.2638397216797, "z": 208.12359619140625 }, "tsne_coordinates": { "x": 28.33839225769043, "y": -15.948953628540039, "z": 2.1089320182800293 }, "pca_coordinates": { "x": 1.9354219436645508, "y": -3.808088779449463, "z": 0.5718623995780945 }, "axis_scores": { "Quantum imaging": 0.7699762582778931, "Quantum Life Science Sensing": 0.7689270973205566, "Quantum sensing Detection": 0.769985556602478, "Quantum sensing Metrology": 0.7393627762794495, "Quantum sensing navigation": 0.7331158518791199, "Quantum sensing Position": 0.7269896864891052, "Quantum sensing Timing": 0.7283448576927185, "Quantum sensing": 0.7744418978691101, "Quantum control": 0.7139952182769775 } }, { "id": 1424, "title": "Optimal Quantum Interference Thermoelectric Heat Engine with Edge States", "abstract": "We show theoretically that a thermoelectric heat engine, operating exclusively due to quantum-mechanical interference, can reach optimal linear-response performance. A chiral edge state implementation...", "citations": 44, "author_count": 4, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1426, "doi": "10.1103/PhysRevLett.118.256801", "umap_coordinates": { "x": 395.518798828125, "y": 135.94659423828125, "z": 207.70004272460938 }, "tsne_coordinates": { "x": -25.96750831604004, "y": -13.412485122680664, "z": 11.951994895935059 }, "pca_coordinates": { "x": 3.9254517555236816, "y": 0.8246958255767822, "z": 1.8395402431488037 }, "axis_scores": { "Quantum imaging": 0.7404060959815979, "Quantum Life Science Sensing": 0.691098153591156, "Quantum sensing Detection": 0.7196811437606812, "Quantum sensing Metrology": 0.7006973624229431, "Quantum sensing navigation": 0.7162678241729736, "Quantum sensing Position": 0.6907326579093933, "Quantum sensing Timing": 0.7137923240661621, "Quantum sensing": 0.7240208983421326, "Quantum control": 0.7235900163650513 } }, { "id": 1425, "title": "Nonprompt direct-photon production in Au plus Au collisions at √sNN=200 GeV", "abstract": "The measurement of the direct-photon spectrum from Au+Au collisions at root s(NN) = 200 GeV is presented by the PHENIX Collaboration using the external-photon-conversion technique for 0%-93% central c...", "citations": 11, "author_count": 347, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1427, "doi": "10.1103/PhysRevC.109.044912", "umap_coordinates": { "x": 396.3702392578125, "y": 134.52865600585938, "z": 208.1385955810547 }, "tsne_coordinates": { "x": -33.034568786621094, "y": 3.0068516731262207, "z": -18.26924705505371 }, "pca_coordinates": { "x": 2.355525255203247, "y": -1.4238505363464355, "z": 3.755687713623047 }, "axis_scores": { "Quantum imaging": 0.6783460378646851, "Quantum Life Science Sensing": 0.696130633354187, "Quantum sensing Detection": 0.7245232462882996, "Quantum sensing Metrology": 0.6896932721138, "Quantum sensing navigation": 0.6913567185401917, "Quantum sensing Position": 0.6788849234580994, "Quantum sensing Timing": 0.6756799221038818, "Quantum sensing": 0.7087118029594421, "Quantum control": 0.6655297875404358 } }, { "id": 1426, "title": "Coupling Quantum States through a Continuum: A Mesoscopic Multistate Fano Resonance", "abstract": "We demonstrate a fully tunable realization of a multistate Fano resonance, in which a pair of remote quantum states experience an effective coupling due to their mutual overlap with a continuum. Our m...", "citations": 37, "author_count": 11, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1428, "doi": "10.1103/PhysRevX.2.021003", "umap_coordinates": { "x": 394.3748779296875, "y": 135.35299682617188, "z": 208.22743225097656 }, "tsne_coordinates": { "x": -3.041316270828247, "y": -17.555696487426758, "z": 3.697695732116699 }, "pca_coordinates": { "x": 3.488145351409912, "y": -0.7898046970367432, "z": -0.5588058233261108 }, "axis_scores": { "Quantum imaging": 0.7409654259681702, "Quantum Life Science Sensing": 0.7486042976379395, "Quantum sensing Detection": 0.7454977035522461, "Quantum sensing Metrology": 0.7342183589935303, "Quantum sensing navigation": 0.7356598377227783, "Quantum sensing Position": 0.7098411321640015, "Quantum sensing Timing": 0.6973116397857666, "Quantum sensing": 0.7592400312423706, "Quantum control": 0.7404417395591736 } }, { "id": 1427, "title": "Brownian motion of aggregating nanoparticles studied by photon correlation spectroscopy and measurements of dynamic magnetic properties", "abstract": "We have investigated colloidal stability of magnetic nanoparticle suspensions in different buffer systems and NaCl concentrations commonly used for biological applications. We have also investigated h...", "citations": 20, "author_count": 5, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1429, "doi": "10.1016/j.aca.2006.03.055", "umap_coordinates": { "x": 393.2445983886719, "y": 135.3270263671875, "z": 205.56080627441406 }, "tsne_coordinates": { "x": 0.502326250076294, "y": 8.443676948547363, "z": 39.55008316040039 }, "pca_coordinates": { "x": -1.15993332862854, "y": -0.13669633865356445, "z": -1.197833776473999 }, "axis_scores": { "Quantum imaging": 0.7230556011199951, "Quantum Life Science Sensing": 0.7239696979522705, "Quantum sensing Detection": 0.7029348611831665, "Quantum sensing Metrology": 0.6918082237243652, "Quantum sensing navigation": 0.7251684069633484, "Quantum sensing Position": 0.6983921527862549, "Quantum sensing Timing": 0.6776841282844543, "Quantum sensing": 0.7125170230865479, "Quantum control": 0.6940560936927795 } }, { "id": 1428, "title": "First experimental evaluation of a high-resolution deep silicon photon-counting sensor", "abstract": "Purpose: Current photon-counting computed tomography detectors are limited to a pixel size of around 0.3 to 0.5 mm due to excessive charge sharing degrading the dose efficiency and energy resolution a...", "citations": 1, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1430, "doi": "10.1117/1.JMI.11.1.013503", "umap_coordinates": { "x": 395.2984619140625, "y": 133.11892700195312, "z": 206.2818145751953 }, "tsne_coordinates": { "x": -8.901658058166504, "y": 13.876596450805664, "z": -22.461170196533203 }, "pca_coordinates": { "x": -1.4952595233917236, "y": 0.08535385131835938, "z": 4.421630859375 }, "axis_scores": { "Quantum imaging": 0.7226676344871521, "Quantum Life Science Sensing": 0.7388588190078735, "Quantum sensing Detection": 0.7370963096618652, "Quantum sensing Metrology": 0.7432174682617188, "Quantum sensing navigation": 0.7085267901420593, "Quantum sensing Position": 0.7042313814163208, "Quantum sensing Timing": 0.6940568685531616, "Quantum sensing": 0.7357549667358398, "Quantum control": 0.6521800756454468 } }, { "id": 1429, "title": "No-Broadcasting Characterizes Operational Contextuality", "abstract": "Operational contextuality forms a rapidly developing subfield of quantum information theory. However, the characterization of the quantum mechanical entities that fuel the phenomenon has remained unkn...", "citations": 1, "author_count": 7, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1431, "doi": "10.1103/PhysRevLett.133.240201", "umap_coordinates": { "x": 395.6575927734375, "y": 137.6455841064453, "z": 206.82965087890625 }, "tsne_coordinates": { "x": -20.67148208618164, "y": 1.482100486755371, "z": 8.440380096435547 }, "pca_coordinates": { "x": 1.859940767288208, "y": 5.308069705963135, "z": -0.7556250691413879 }, "axis_scores": { "Quantum imaging": 0.743195652961731, "Quantum Life Science Sensing": 0.7417545318603516, "Quantum sensing Detection": 0.7357068061828613, "Quantum sensing Metrology": 0.7228476405143738, "Quantum sensing navigation": 0.7505882978439331, "Quantum sensing Position": 0.72444087266922, "Quantum sensing Timing": 0.7350893020629883, "Quantum sensing": 0.7555267810821533, "Quantum control": 0.7381774187088013 } }, { "id": 1430, "title": "InAs quantum dots grown on InAlGaAs lattice matched to InP", "abstract": "In this paper, we present InAs quantum dots prepared on an InxAlyGa1-x-yAs surface by metal organic vapor phase epitaxy. Atomic force microscopy measurements indicate that dots grown on material with ...", "citations": 20, "author_count": 7, "categories": [ "Crystallography" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1432, "doi": "10.1016/S0022-0248(03)00969-2", "umap_coordinates": { "x": 392.27862548828125, "y": 134.1922607421875, "z": 207.7593536376953 }, "tsne_coordinates": { "x": 29.119609832763672, "y": -9.14465618133545, "z": 6.778536319732666 }, "pca_coordinates": { "x": -1.3470438718795776, "y": -3.305716037750244, "z": 0.6644538044929504 }, "axis_scores": { "Quantum imaging": 0.6855130791664124, "Quantum Life Science Sensing": 0.6912620067596436, "Quantum sensing Detection": 0.6844099760055542, "Quantum sensing Metrology": 0.6874070167541504, "Quantum sensing navigation": 0.6871585249900818, "Quantum sensing Position": 0.6973876953125, "Quantum sensing Timing": 0.6661179065704346, "Quantum sensing": 0.6944006681442261, "Quantum control": 0.6591927409172058 } }, { "id": 1431, "title": "Many-body approach to spin-dependent transport in quantum dot systems", "abstract": "By means of a diagram technique for Hubbard operators, we show the existence of a spin-dependent renormalization of the localized levels in an interacting region, e.g., quantum dot, modeled by the And...", "citations": 46, "author_count": 4, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1433, "doi": "10.1103/PhysRevLett.88.226601", "umap_coordinates": { "x": 394.1767578125, "y": 135.82745361328125, "z": 208.95960998535156 }, "tsne_coordinates": { "x": -1.332181692123413, "y": -31.561899185180664, "z": 4.970577716827393 }, "pca_coordinates": { "x": 4.031864166259766, "y": -1.7657313346862793, "z": 0.10686701536178589 }, "axis_scores": { "Quantum imaging": 0.7228659987449646, "Quantum Life Science Sensing": 0.7321307063102722, "Quantum sensing Detection": 0.7208421230316162, "Quantum sensing Metrology": 0.7079148292541504, "Quantum sensing navigation": 0.7247804999351501, "Quantum sensing Position": 0.7028791308403015, "Quantum sensing Timing": 0.6887727975845337, "Quantum sensing": 0.7318044900894165, "Quantum control": 0.7005258798599243 } }, { "id": 1432, "title": "Exciton polaritons in periodic nanostructures", "abstract": "A unified picture is presented to describe exciton-photon hybrid modes, or exciton polaritons, propagating in bulk crystals, regular multiple-quantum-well structures and periodic three-dimensional arr...", "citations": 23, "author_count": 3, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1434, "doi": "10.1002/(SICI)1521-3951(199909)215:1<199::AID-PSSB199>3.0.CO;2-T", "umap_coordinates": { "x": 393.1738586425781, "y": 134.75411987304688, "z": 206.9394989013672 }, "tsne_coordinates": { "x": 29.283443450927734, "y": -1.8264425992965698, "z": 16.785297393798828 }, "pca_coordinates": { "x": -0.3456534147262573, "y": -2.427201747894287, "z": -0.4346890151500702 }, "axis_scores": { "Quantum imaging": 0.6966776251792908, "Quantum Life Science Sensing": 0.6959642171859741, "Quantum sensing Detection": 0.6893494129180908, "Quantum sensing Metrology": 0.6897200345993042, "Quantum sensing navigation": 0.7080821394920349, "Quantum sensing Position": 0.6860412955284119, "Quantum sensing Timing": 0.6807437539100647, "Quantum sensing": 0.7046063542366028, "Quantum control": 0.6924644708633423 } }, { "id": 1433, "title": "The charged exciton in an InGaN quantum dot on a GaN pyramid", "abstract": "The emission of a charged exciton in an InGaN quantum dot (QD) on top of a GaN pyramid is identified experimentally. The intensity of the charged exciton exhibits the expected competition with that of...", "citations": 6, "author_count": 9, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1435, "doi": "10.1063/1.4812984", "umap_coordinates": { "x": 392.82598876953125, "y": 134.1370086669922, "z": 208.26300048828125 }, "tsne_coordinates": { "x": 19.607267379760742, "y": -17.477535247802734, "z": -3.2232840061187744 }, "pca_coordinates": { "x": 1.3431386947631836, "y": -3.8389229774475098, "z": 0.4595922827720642 }, "axis_scores": { "Quantum imaging": 0.7361611723899841, "Quantum Life Science Sensing": 0.7079305648803711, "Quantum sensing Detection": 0.7173668146133423, "Quantum sensing Metrology": 0.7068679332733154, "Quantum sensing navigation": 0.7142483592033386, "Quantum sensing Position": 0.700600266456604, "Quantum sensing Timing": 0.6830090880393982, "Quantum sensing": 0.7303804755210876, "Quantum control": 0.7084388732910156 } }, { "id": 1434, "title": "Quantum coherence in neutron scattering on protons", "abstract": "Several recent observations of closely spaced hydrogen nuclei in condensed matter systems - water, polymers and metal hydrides - indicate that they cannot be considered as independent quantum objects ...", "citations": 5, "author_count": 2, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1436, "doi": "10.1142/S021798490400686X", "umap_coordinates": { "x": 395.1068420410156, "y": 136.56829833984375, "z": 206.46116638183594 }, "tsne_coordinates": { "x": -36.77200698852539, "y": 8.562774658203125, "z": 7.7154436111450195 }, "pca_coordinates": { "x": 2.3685479164123535, "y": 1.7384730577468872, "z": 0.15140306949615479 }, "axis_scores": { "Quantum imaging": 0.7253939509391785, "Quantum Life Science Sensing": 0.7409489154815674, "Quantum sensing Detection": 0.7222340106964111, "Quantum sensing Metrology": 0.7120234966278076, "Quantum sensing navigation": 0.742749810218811, "Quantum sensing Position": 0.722217857837677, "Quantum sensing Timing": 0.7132975459098816, "Quantum sensing": 0.7386490702629089, "Quantum control": 0.7191475629806519 } }, { "id": 1435, "title": "Scattering-matrix formalism of electron transport through three-terminal quantum structures: formulation and application to Y-junction devices", "abstract": "In this paper we present a formalism for the calculation of electron transport through three-terminal junction devices, which have received attention due to their recently demonstrated non-linear elec...", "citations": 16, "author_count": 3, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1437, "doi": "10.1088/0953-8984/14/47/324", "umap_coordinates": { "x": 394.0370788574219, "y": 134.7925567626953, "z": 207.83595275878906 }, "tsne_coordinates": { "x": 6.277275562286377, "y": -4.761653900146484, "z": 28.590957641601562 }, "pca_coordinates": { "x": 0.9648184776306152, "y": 0.28892087936401367, "z": 1.4273262023925781 }, "axis_scores": { "Quantum imaging": 0.7389305233955383, "Quantum Life Science Sensing": 0.7407942414283752, "Quantum sensing Detection": 0.7213565111160278, "Quantum sensing Metrology": 0.7165636420249939, "Quantum sensing navigation": 0.7491422295570374, "Quantum sensing Position": 0.7087366580963135, "Quantum sensing Timing": 0.6910074949264526, "Quantum sensing": 0.7328068017959595, "Quantum control": 0.6968314051628113 } }, { "id": 1436, "title": "Anomalously strong two-electron one-photon X-ray decay transitions in CO caused by avoided crossing", "abstract": "The unique opportunity to study and control electron-nuclear quantum dynamics in coupled potentials offered by the resonant inelastic X-ray scattering (RIXS) technique is utilized to unravel an anomal...", "citations": 12, "author_count": 17, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1438, "doi": "10.1038/srep20947", "umap_coordinates": { "x": 393.387451171875, "y": 135.53515625, "z": 206.56495666503906 }, "tsne_coordinates": { "x": 4.1272501945495605, "y": -13.606654167175293, "z": -22.45887565612793 }, "pca_coordinates": { "x": -0.07165169715881348, "y": -0.47049736976623535, "z": 0.6168751120567322 }, "axis_scores": { "Quantum imaging": 0.6797278523445129, "Quantum Life Science Sensing": 0.6803005933761597, "Quantum sensing Detection": 0.6827861070632935, "Quantum sensing Metrology": 0.643780529499054, "Quantum sensing navigation": 0.6488245129585266, "Quantum sensing Position": 0.6276273131370544, "Quantum sensing Timing": 0.6669864654541016, "Quantum sensing": 0.6714301109313965, "Quantum control": 0.6387305855751038 } }, { "id": 1437, "title": "Heterostructures incorporated in one-dimensional semiconductor materials and devices", "abstract": "As an alternative to traditional top-down techniques for fabrication of one-dimensional devices we here report an approach wherein a bottom-up technique is used to create one-dimensional device struct...", "citations": 1, "author_count": 8, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1439, "doi": null, "umap_coordinates": { "x": 391.4856262207031, "y": 139.33151245117188, "z": 209.07418823242188 }, "tsne_coordinates": { "x": -9.7817964553833, "y": 44.06867599487305, "z": -7.05767297744751 }, "pca_coordinates": { "x": -0.31610649824142456, "y": -1.662496566772461, "z": -0.19116103649139404 }, "axis_scores": { "Quantum imaging": 0.705768883228302, "Quantum Life Science Sensing": 0.6850746870040894, "Quantum sensing Detection": 0.6684074401855469, "Quantum sensing Metrology": 0.6743031740188599, "Quantum sensing navigation": 0.6802310943603516, "Quantum sensing Position": 0.6553927063941956, "Quantum sensing Timing": 0.6442655324935913, "Quantum sensing": 0.6848860383033752, "Quantum control": 0.6661698222160339 } }, { "id": 1438, "title": "Detection of Single Charge Trapping Defects in Semiconductor Particles by Evaluating Photon Antibunching in Delayed Photoluminescence", "abstract": "Time-resolved analysis of photon cross-correlation function g(2)(tau) is applied to photoluminescence (PL) of individual submicrometer size MAPbI3 perovskite crystals. Surprisingly, an antibunching ef...", "citations": 16, "author_count": 7, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1440, "doi": "10.1021/acs.nanolett.2c04004", "umap_coordinates": { "x": 393.2412109375, "y": 133.63983154296875, "z": 206.857421875 }, "tsne_coordinates": { "x": 24.28014373779297, "y": -16.069250106811523, "z": -13.734284400939941 }, "pca_coordinates": { "x": -1.2694597244262695, "y": -3.491394519805908, "z": 1.8617210388183594 }, "axis_scores": { "Quantum imaging": 0.6840911507606506, "Quantum Life Science Sensing": 0.6967299580574036, "Quantum sensing Detection": 0.6971384882926941, "Quantum sensing Metrology": 0.66270911693573, "Quantum sensing navigation": 0.6806153655052185, "Quantum sensing Position": 0.7008925080299377, "Quantum sensing Timing": 0.6858847141265869, "Quantum sensing": 0.6831211447715759, "Quantum control": 0.64021235704422 } }, { "id": 1439, "title": "Excited states and two-photon absorption of some novel thiophenyl Pt(II)-ethynyl derivatives", "abstract": "The photophysical characterization of two new compounds related to bis((4-(phenylethynyl)phenyl)ethynyl)bis(tributylphosphine)platinum(II), here abbreviated Pt1, is reported. For the first new compoun...", "citations": 78, "author_count": 6, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1441, "doi": "10.1021/jp063557v", "umap_coordinates": { "x": 392.1187744140625, "y": 135.58677673339844, "z": 205.33346557617188 }, "tsne_coordinates": { "x": -0.8473019003868103, "y": 4.139129161834717, "z": -14.862717628479004 }, "pca_coordinates": { "x": -2.771481513977051, "y": -1.7382946014404297, "z": -0.6447657942771912 }, "axis_scores": { "Quantum imaging": 0.6758481860160828, "Quantum Life Science Sensing": 0.6790808439254761, "Quantum sensing Detection": 0.656806230545044, "Quantum sensing Metrology": 0.6310969591140747, "Quantum sensing navigation": 0.6327446103096008, "Quantum sensing Position": 0.6344563364982605, "Quantum sensing Timing": 0.6626174449920654, "Quantum sensing": 0.6634286046028137, "Quantum control": 0.6337766647338867 } }, { "id": 1440, "title": "Reversed quantum-confined Stark effect and an asymmetric band alignment observed for type-II Si/Ge quantum dots", "abstract": "We report on the quantum-confined Stark effect for spatially indirect transitions in Stranski-Krastanov grown type-II Si/Ge quantum dots. A linear blueshift of the spatially indirect transition is obs...", "citations": 8, "author_count": 6, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1442, "doi": "10.1103/PhysRevB.71.113301", "umap_coordinates": { "x": 393.7403869628906, "y": 134.94578552246094, "z": 208.61007690429688 }, "tsne_coordinates": { "x": 2.7975516319274902, "y": -26.31100082397461, "z": -0.186640202999115 }, "pca_coordinates": { "x": 3.6753454208374023, "y": -1.8999948501586914, "z": 0.25678688287734985 }, "axis_scores": { "Quantum imaging": 0.7242354154586792, "Quantum Life Science Sensing": 0.7162391543388367, "Quantum sensing Detection": 0.7105015516281128, "Quantum sensing Metrology": 0.6928878426551819, "Quantum sensing navigation": 0.7235991358757019, "Quantum sensing Position": 0.7146551012992859, "Quantum sensing Timing": 0.692330002784729, "Quantum sensing": 0.7167866230010986, "Quantum control": 0.678826093673706 } }, { "id": 1441, "title": "Photonic sensors reflect variation in insect abundance and diversity across habitats", "abstract": "To mitigate ongoing insect biodiversity declines, there is a need for efficient yet accurate monitoring methods. The use of traditional catch-based survey methods is constrained both by costs and need...", "citations": 10, "author_count": 15, "categories": [ "Biodiversity & Conservation" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1443, "doi": "10.1016/j.ecolind.2023.111483", "umap_coordinates": { "x": 394.0549011230469, "y": 133.987548828125, "z": 205.09356689453125 }, "tsne_coordinates": { "x": -6.000429153442383, "y": 28.471923828125, "z": 18.77252960205078 }, "pca_coordinates": { "x": -2.894698143005371, "y": -0.21539926528930664, "z": 0.9961704611778259 }, "axis_scores": { "Quantum imaging": 0.7287821173667908, "Quantum Life Science Sensing": 0.7444501519203186, "Quantum sensing Detection": 0.7291197776794434, "Quantum sensing Metrology": 0.7277238368988037, "Quantum sensing navigation": 0.7328178286552429, "Quantum sensing Position": 0.718135416507721, "Quantum sensing Timing": 0.6716175079345703, "Quantum sensing": 0.7404778003692627, "Quantum control": 0.7059686183929443 } }, { "id": 1442, "title": "Optimizing Energy Levels and Improving Film Compactness in PbS Quantum Dot Solar Cells by Silver Doping", "abstract": "PbS quantum dot (QD) solar cells harvest near-infrared solar radiation. Their conventional hole transport layer has limited hole collection efficiency due to energy level mismatch and poor film qualit...", "citations": 13, "author_count": 14, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1444, "doi": "10.1002/smll.202311461", "umap_coordinates": { "x": 392.6158142089844, "y": 133.2655487060547, "z": 205.88699340820312 }, "tsne_coordinates": { "x": 28.43524742126465, "y": 0.27872321009635925, "z": -18.61985969543457 }, "pca_coordinates": { "x": -2.5546557903289795, "y": -3.270354747772217, "z": -0.3368698060512543 }, "axis_scores": { "Quantum imaging": 0.6617046594619751, "Quantum Life Science Sensing": 0.6775003671646118, "Quantum sensing Detection": 0.6601725220680237, "Quantum sensing Metrology": 0.6768991351127625, "Quantum sensing navigation": 0.6668738722801208, "Quantum sensing Position": 0.6747703552246094, "Quantum sensing Timing": 0.6432623863220215, "Quantum sensing": 0.6692971587181091, "Quantum control": 0.6602616906166077 } }, { "id": 1443, "title": "Theory of a room-temperature silicon quantum dot device as a sensitive electrometer", "abstract": "We consider theoretically the use of a room-temperature silicon quantum dot based device for electrometer applications. The low power device includes two split gates that quantize the electronic energ...", "citations": 7, "author_count": 7, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1445, "doi": "10.1063/1.1625095", "umap_coordinates": { "x": 394.1190490722656, "y": 134.48387145996094, "z": 208.27609252929688 }, "tsne_coordinates": { "x": 23.138961791992188, "y": -29.728879928588867, "z": 6.384944915771484 }, "pca_coordinates": { "x": 2.025405168533325, "y": -2.2227039337158203, "z": 1.7292394638061523 }, "axis_scores": { "Quantum imaging": 0.7423542141914368, "Quantum Life Science Sensing": 0.7753419876098633, "Quantum sensing Detection": 0.7770282626152039, "Quantum sensing Metrology": 0.7877975106239319, "Quantum sensing navigation": 0.750707745552063, "Quantum sensing Position": 0.7550630569458008, "Quantum sensing Timing": 0.7454087734222412, "Quantum sensing": 0.7814152240753174, "Quantum control": 0.7234346270561218 } }, { "id": 1444, "title": "Resolution of fluorescence correlation measurements", "abstract": "The resolution limit of fluorescence correlation spectroscopy for two-component solutions is investigated theoretically and experimentally. The autocorrelation function for two different particles in ...", "citations": 352, "author_count": 5, "categories": [ "Biophysics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1446, "doi": "10.1016/S0006-3495(99)77321-2", "umap_coordinates": { "x": 394.1852722167969, "y": 135.05006408691406, "z": 205.38746643066406 }, "tsne_coordinates": { "x": -3.9619975090026855, "y": 15.67077922821045, "z": 1.4251465797424316 }, "pca_coordinates": { "x": -2.3934078216552734, "y": 0.9875040054321289, "z": 1.036738395690918 }, "axis_scores": { "Quantum imaging": 0.7425426244735718, "Quantum Life Science Sensing": 0.7567422986030579, "Quantum sensing Detection": 0.7455392479896545, "Quantum sensing Metrology": 0.7540602684020996, "Quantum sensing navigation": 0.7461607456207275, "Quantum sensing Position": 0.7574952244758606, "Quantum sensing Timing": 0.7353641986846924, "Quantum sensing": 0.7548710703849792, "Quantum control": 0.7051928639411926 } }, { "id": 1445, "title": "Entanglement and thermokinetic uncertainty relations in coherent mesoscopic transport", "abstract": "A deeper understanding of the differences between quantum and classical dynamics promises great potential for emerging technologies. Nevertheless, some aspects remain poorly understood, particularly c...", "citations": 35, "author_count": 8, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1447, "doi": "10.1103/PhysRevResearch.5.023155", "umap_coordinates": { "x": 394.98919677734375, "y": 137.02099609375, "z": 207.56671142578125 }, "tsne_coordinates": { "x": -15.226414680480957, "y": -10.348316192626953, "z": 12.700593948364258 }, "pca_coordinates": { "x": 4.4623541831970215, "y": 1.1379692554473877, "z": 0.06498688459396362 }, "axis_scores": { "Quantum imaging": 0.7623746395111084, "Quantum Life Science Sensing": 0.7499722242355347, "Quantum sensing Detection": 0.7494562268257141, "Quantum sensing Metrology": 0.7527441382408142, "Quantum sensing navigation": 0.7759076356887817, "Quantum sensing Position": 0.7392008304595947, "Quantum sensing Timing": 0.7441946268081665, "Quantum sensing": 0.7666800618171692, "Quantum control": 0.7525491118431091 } }, { "id": 1446, "title": "Dynamics of radiation due to vacuum nonlinearities", "abstract": "In quantum electrodynamics, photon-photon scattering can be the result of the exchange of virtual electron-positron pairs. This gives rise to a non-trivial dispersion relation for a single photon movi...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1448, "doi": "10.1238/Physica.Topical.107a00239", "umap_coordinates": { "x": 393.96112060546875, "y": 136.3912811279297, "z": 207.12576293945312 }, "tsne_coordinates": { "x": 4.532551288604736, "y": -3.511204481124878, "z": 27.279159545898438 }, "pca_coordinates": { "x": 1.9440898895263672, "y": 1.2869789600372314, "z": -0.6129298806190491 }, "axis_scores": { "Quantum imaging": 0.7198559045791626, "Quantum Life Science Sensing": 0.7297416925430298, "Quantum sensing Detection": 0.6960676908493042, "Quantum sensing Metrology": 0.6665331721305847, "Quantum sensing navigation": 0.717868983745575, "Quantum sensing Position": 0.6704859733581543, "Quantum sensing Timing": 0.6566361784934998, "Quantum sensing": 0.6917070746421814, "Quantum control": 0.6872358918190002 } }, { "id": 1447, "title": "QUANTUM BEATS MEASUREMENTS OF THE HYPERFINE-STRUCTURE OF 4F 1F STATE IN LI-7(II)", "abstract": "", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 1981, "topic": [ "all" ], "embedding_index": 1449, "doi": "10.1088/0022-3700/14/17/002", "umap_coordinates": { "x": 393.5615234375, "y": 136.66055297851562, "z": 207.05368041992188 }, "tsne_coordinates": { "x": 12.512918472290039, "y": -43.89916229248047, "z": 17.63393211364746 }, "pca_coordinates": { "x": 1.1429035663604736, "y": 2.945197105407715, "z": -0.6656027436256409 }, "axis_scores": { "Quantum imaging": 0.7039936184883118, "Quantum Life Science Sensing": 0.7086861729621887, "Quantum sensing Detection": 0.665554940700531, "Quantum sensing Metrology": 0.6668184995651245, "Quantum sensing navigation": 0.6738258004188538, "Quantum sensing Position": 0.6804620623588562, "Quantum sensing Timing": 0.6841176152229309, "Quantum sensing": 0.6859959363937378, "Quantum control": 0.6622414588928223 } }, { "id": 1448, "title": "CuInSe2 Quantum Dots Hybrid Hole Transfer Layer for Halide Perovskite Photodetectors", "abstract": "A novel hybrid hole transport layer (HTL) of CuInSe2 quantum dots (QDs)/poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS) was developed to enhance the performance of halide metal per...", "citations": 38, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1450, "doi": "10.1021/acsami.8b13777", "umap_coordinates": { "x": 391.5900573730469, "y": 133.9091339111328, "z": 205.52101135253906 }, "tsne_coordinates": { "x": 20.11682891845703, "y": -6.882761001586914, "z": -19.243013381958008 }, "pca_coordinates": { "x": -2.4898602962493896, "y": -5.085633754730225, "z": -1.060231328010559 }, "axis_scores": { "Quantum imaging": 0.7189559936523438, "Quantum Life Science Sensing": 0.720332682132721, "Quantum sensing Detection": 0.7053474187850952, "Quantum sensing Metrology": 0.6961235404014587, "Quantum sensing navigation": 0.6831973195075989, "Quantum sensing Position": 0.6711779236793518, "Quantum sensing Timing": 0.670298159122467, "Quantum sensing": 0.7190480828285217, "Quantum control": 0.7040373682975769 } }, { "id": 1449, "title": "Optimal quantum tomography of permutationally invariant qubits", "abstract": "Mutually unbiased bases determine an optimal set of measurements to extract complete information about the quantum state of a system. However, quite often a priori information about the state exists, ...", "citations": 24, "author_count": 4, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1451, "doi": "10.1103/PhysRevA.87.012109", "umap_coordinates": { "x": 395.6203308105469, "y": 137.00259399414062, "z": 207.71603393554688 }, "tsne_coordinates": { "x": -19.410215377807617, "y": -17.31424903869629, "z": -1.2269233465194702 }, "pca_coordinates": { "x": 4.3170552253723145, "y": 1.363438367843628, "z": 2.044264793395996 }, "axis_scores": { "Quantum imaging": 0.7838690280914307, "Quantum Life Science Sensing": 0.7334849834442139, "Quantum sensing Detection": 0.7614493370056152, "Quantum sensing Metrology": 0.7561598420143127, "Quantum sensing navigation": 0.7827006578445435, "Quantum sensing Position": 0.7489570379257202, "Quantum sensing Timing": 0.7507001161575317, "Quantum sensing": 0.7780510187149048, "Quantum control": 0.7461684942245483 } }, { "id": 1450, "title": "Algorithm 950: Ncpol2sdpa-Sparse Semidefinite Programming Relaxations for Polynomial Optimization Problems of Noncommuting Variables", "abstract": "A hierarchy of semidefinite programming (SDP) relaxations approximates the global optimum of polynomial optimization problems of noncommuting variables. Generating the relaxation, however, is a comput...", "citations": 57, "author_count": 2, "categories": [ "Computer Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1452, "doi": "10.1145/2699464", "umap_coordinates": { "x": 394.97772216796875, "y": 136.73794555664062, "z": 206.24514770507812 }, "tsne_coordinates": { "x": -20.845020294189453, "y": 8.750548362731934, "z": 0.9758766293525696 }, "pca_coordinates": { "x": -0.2728736996650696, "y": 2.4404070377349854, "z": 0.5161294341087341 }, "axis_scores": { "Quantum imaging": 0.7087065577507019, "Quantum Life Science Sensing": 0.6863812208175659, "Quantum sensing Detection": 0.7115581631660461, "Quantum sensing Metrology": 0.7072744965553284, "Quantum sensing navigation": 0.7271313071250916, "Quantum sensing Position": 0.7004565000534058, "Quantum sensing Timing": 0.7193495631217957, "Quantum sensing": 0.7185579538345337, "Quantum control": 0.729088306427002 } }, { "id": 1451, "title": "Strong Coupling of Colloidal Quantum Dots via Self-Assemble Passivation for Efficient Infrared Solar Cells", "abstract": "The surface passivation of colloidal quantum dots (CQD) is critical for the electronic coupling of CQDs, which significantly affects the photovoltaic performance of CQD solar cells (CQDSCs). Herein, a...", "citations": 14, "author_count": 9, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1453, "doi": "10.1002/admi.202100489", "umap_coordinates": { "x": 392.3307189941406, "y": 133.4915771484375, "z": 206.0429229736328 }, "tsne_coordinates": { "x": 25.77092170715332, "y": 1.1474955081939697, "z": -15.36813735961914 }, "pca_coordinates": { "x": -2.190720319747925, "y": -4.71178674697876, "z": 0.99495929479599 }, "axis_scores": { "Quantum imaging": 0.6992470026016235, "Quantum Life Science Sensing": 0.7133994698524475, "Quantum sensing Detection": 0.6910937428474426, "Quantum sensing Metrology": 0.6863280534744263, "Quantum sensing navigation": 0.6678066253662109, "Quantum sensing Position": 0.6599470973014832, "Quantum sensing Timing": 0.6439592838287354, "Quantum sensing": 0.6992977261543274, "Quantum control": 0.6693227291107178 } }, { "id": 1452, "title": "Atomic Layered Titanium Sulfide Quantum Dots as Electrocatalysts for Enhanced Hydrogen Evolution Reaction", "abstract": "The overall electrocatalytic activity toward hydrogen evolution reaction for layered transition metal dichalcogenides is governed by their intrinsic activity, the corresponding density of active sites...", "citations": 37, "author_count": 15, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1454, "doi": "10.1002/admi.201700895", "umap_coordinates": { "x": 392.0740051269531, "y": 133.6957550048828, "z": 205.83590698242188 }, "tsne_coordinates": { "x": 24.96013832092285, "y": -1.694901943206787, "z": -9.007137298583984 }, "pca_coordinates": { "x": -2.1194310188293457, "y": -5.0148606300354, "z": -0.7810858488082886 }, "axis_scores": { "Quantum imaging": 0.7216086983680725, "Quantum Life Science Sensing": 0.7060585021972656, "Quantum sensing Detection": 0.6935572028160095, "Quantum sensing Metrology": 0.6906938552856445, "Quantum sensing navigation": 0.6856817007064819, "Quantum sensing Position": 0.6672324538230896, "Quantum sensing Timing": 0.6814411878585815, "Quantum sensing": 0.7103891372680664, "Quantum control": 0.6871587038040161 } }, { "id": 1453, "title": "PROTONIC QUANTUM CORRELATIONS IN THE H-BOND DYNAMICS OF NUCLEIC-ACIDS .1. CONFORMATIONAL COMPARISON OF G-C WITH BENNER KAPPA-PI", "abstract": "A new base pair (called kappa-pi) of Watson-Crick type, with an H-bond pattern different from that in A-T and G-C base pairs, has been recently synthesized by Benner and coworkers and shown to be stab...", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 1455, "doi": "10.1002/hlca.19920750711", "umap_coordinates": { "x": 393.6269226074219, "y": 137.20346069335938, "z": 206.18080139160156 }, "tsne_coordinates": { "x": 10.226203918457031, "y": 11.39411449432373, "z": 23.297889709472656 }, "pca_coordinates": { "x": 1.6898236274719238, "y": 3.3129687309265137, "z": -2.7102415561676025 }, "axis_scores": { "Quantum imaging": 0.7094720005989075, "Quantum Life Science Sensing": 0.7067873477935791, "Quantum sensing Detection": 0.681110143661499, "Quantum sensing Metrology": 0.6683814525604248, "Quantum sensing navigation": 0.7122079730033875, "Quantum sensing Position": 0.6940285563468933, "Quantum sensing Timing": 0.6927065253257751, "Quantum sensing": 0.6966501474380493, "Quantum control": 0.7002445459365845 } }, { "id": 1454, "title": "Optimal Inequalities for State-Independent Contextuality", "abstract": "Contextuality is a natural generalization of nonlocality which does not need composite systems or spacelike separation and offers a wider spectrum of interesting phenomena. Most notably, in quantum me...", "citations": 68, "author_count": 6, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1456, "doi": "10.1103/PhysRevLett.109.250402", "umap_coordinates": { "x": 396.00604248046875, "y": 137.04287719726562, "z": 206.8974609375 }, "tsne_coordinates": { "x": -18.44906234741211, "y": 1.4464176893234253, "z": 4.252256870269775 }, "pca_coordinates": { "x": 2.1971821784973145, "y": 2.738961696624756, "z": 0.29626673460006714 }, "axis_scores": { "Quantum imaging": 0.7069026231765747, "Quantum Life Science Sensing": 0.6911348104476929, "Quantum sensing Detection": 0.6920164823532104, "Quantum sensing Metrology": 0.6730657815933228, "Quantum sensing navigation": 0.7073348164558411, "Quantum sensing Position": 0.6741246581077576, "Quantum sensing Timing": 0.6924950480461121, "Quantum sensing": 0.7116661667823792, "Quantum control": 0.710856020450592 } }, { "id": 1455, "title": "BONE-MINERAL CONTENT MEASURED WITH PHOTON-ABSORPTIOMETRY - A METHODOLOGICAL STUDY CARRIED OUT ON NORMAL INDIVIDUALS", "abstract": "", "citations": 13, "author_count": 2, "categories": [ "Urology & Nephrology" ], "year": 1981, "topic": [ "all" ], "embedding_index": 1457, "doi": null, "umap_coordinates": { "x": 391.51727294921875, "y": 139.4232177734375, "z": 209.67185974121094 }, "tsne_coordinates": { "x": 2.9086177349090576, "y": 38.5548095703125, "z": -2.036724328994751 }, "pca_coordinates": { "x": -2.5840749740600586, "y": 4.259631156921387, "z": 0.27497369050979614 }, "axis_scores": { "Quantum imaging": 0.7089875936508179, "Quantum Life Science Sensing": 0.7286882400512695, "Quantum sensing Detection": 0.7083222270011902, "Quantum sensing Metrology": 0.7156851291656494, "Quantum sensing navigation": 0.7182316780090332, "Quantum sensing Position": 0.7030035257339478, "Quantum sensing Timing": 0.6695584654808044, "Quantum sensing": 0.7169374823570251, "Quantum control": 0.6770927906036377 } }, { "id": 1456, "title": "Boosting the performance of eco-friendly quantum dots-based photoelectrochemical cells via effective surface passivation", "abstract": "Photoelectrochemical (PEC) cells fabricated using environment-friendly colloidal quantum dots (QDs) are promising optoelectronic devices for future practical solar-to-hydrogen conversion. However, the...", "citations": 62, "author_count": 10, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1458, "doi": "10.1016/j.nanoen.2020.105062", "umap_coordinates": { "x": 392.49176025390625, "y": 133.62379455566406, "z": 205.07366943359375 }, "tsne_coordinates": { "x": 24.824140548706055, "y": 7.751324653625488, "z": -9.564690589904785 }, "pca_coordinates": { "x": -4.460989475250244, "y": -4.108750820159912, "z": -0.06830346584320068 }, "axis_scores": { "Quantum imaging": 0.7059771418571472, "Quantum Life Science Sensing": 0.7437033653259277, "Quantum sensing Detection": 0.7076202630996704, "Quantum sensing Metrology": 0.693142831325531, "Quantum sensing navigation": 0.7022448182106018, "Quantum sensing Position": 0.683387279510498, "Quantum sensing Timing": 0.65708988904953, "Quantum sensing": 0.7187482118606567, "Quantum control": 0.7059086561203003 } }, { "id": 1457, "title": "Photoluminescence Intensity Enhancement of Single Silicon Quantum Dots on a Metal Membrane with a Spacer", "abstract": "Silicon quantum dots (Si QDs) featuring high photoluminescence (PL) intensity are necessary for the realization of different photonic and photovoltaic devices, such as light-emitting diodes (LEDs) and...", "citations": 2, "author_count": 6, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1459, "doi": "10.1002/pssa.201900575", "umap_coordinates": { "x": 393.3382263183594, "y": 133.3246612548828, "z": 207.12258911132812 }, "tsne_coordinates": { "x": 37.96257781982422, "y": -0.604499876499176, "z": -4.3730010986328125 }, "pca_coordinates": { "x": -2.637144088745117, "y": -3.3288607597351074, "z": 2.858030319213867 }, "axis_scores": { "Quantum imaging": 0.717176616191864, "Quantum Life Science Sensing": 0.7012804746627808, "Quantum sensing Detection": 0.695783257484436, "Quantum sensing Metrology": 0.6992334127426147, "Quantum sensing navigation": 0.6579089164733887, "Quantum sensing Position": 0.6738585829734802, "Quantum sensing Timing": 0.6592665910720825, "Quantum sensing": 0.7010840773582458, "Quantum control": 0.6633787155151367 } }, { "id": 1458, "title": "Creating and detecting poor man's Majorana bound states in interacting quantum dots", "abstract": "We propose and theoretically investigate an alternative way to create the poor man's Majorana bound states (MBSs) introduced in Phys. Rev. B 86, 134528 (2012). Our proposal is based on two quantum dot...", "citations": 60, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1460, "doi": "10.1103/PhysRevB.106.L201404", "umap_coordinates": { "x": 395.2445373535156, "y": 136.28274536132812, "z": 208.27438354492188 }, "tsne_coordinates": { "x": -8.573322296142578, "y": -27.412094116210938, "z": -5.745610237121582 }, "pca_coordinates": { "x": 2.599154233932495, "y": -0.10062360763549805, "z": 0.8825520873069763 }, "axis_scores": { "Quantum imaging": 0.7477566003799438, "Quantum Life Science Sensing": 0.7438524961471558, "Quantum sensing Detection": 0.7572168111801147, "Quantum sensing Metrology": 0.7319322228431702, "Quantum sensing navigation": 0.7367055416107178, "Quantum sensing Position": 0.7155500054359436, "Quantum sensing Timing": 0.6876554489135742, "Quantum sensing": 0.7541704773902893, "Quantum control": 0.6982702016830444 } }, { "id": 1459, "title": "Photon and η production in p plus Pb and p plus C collisions at √SNN=17.4 GeV", "abstract": "Measurements of direct photon production in p + Pb and p + C collisions at root(NN)-N-s = 17.4 GeV are presented. Upper limits on the direct photon yield as a function of p(T) are derived and compared...", "citations": 1, "author_count": 133, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1461, "doi": "10.1016/j.nuclphysa.2012.11.010", "umap_coordinates": { "x": 396.6204833984375, "y": 134.14962768554688, "z": 207.5264434814453 }, "tsne_coordinates": { "x": -30.534626007080078, "y": 4.1903862953186035, "z": -9.585882186889648 }, "pca_coordinates": { "x": -1.8909720182418823, "y": 0.20725536346435547, "z": 2.4117531776428223 }, "axis_scores": { "Quantum imaging": 0.7273222208023071, "Quantum Life Science Sensing": 0.7038106322288513, "Quantum sensing Detection": 0.7345022559165955, "Quantum sensing Metrology": 0.6930004358291626, "Quantum sensing navigation": 0.7193260192871094, "Quantum sensing Position": 0.7175815105438232, "Quantum sensing Timing": 0.715301513671875, "Quantum sensing": 0.7286747694015503, "Quantum control": 0.6835435032844543 } }, { "id": 1460, "title": "Transmission and I-V characteristics of laterally-confined resonant tunneling structures", "abstract": "Several experiments on electron transport through quantum dots of various geometries have shown the existence of fine structure superposed on the conventional resonant tunneling current peaks. These f...", "citations": 2, "author_count": 3, "categories": [ "Engineering" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1462, "doi": "10.1016/S0167-9317(99)00477-3", "umap_coordinates": { "x": 393.331298828125, "y": 134.95240783691406, "z": 207.10890197753906 }, "tsne_coordinates": { "x": 24.15870475769043, "y": -5.488654613494873, "z": 24.472339630126953 }, "pca_coordinates": { "x": 0.19753491878509521, "y": -1.2048306465148926, "z": 1.2917568683624268 }, "axis_scores": { "Quantum imaging": 0.6977288722991943, "Quantum Life Science Sensing": 0.6857160329818726, "Quantum sensing Detection": 0.6661874055862427, "Quantum sensing Metrology": 0.6632208228111267, "Quantum sensing navigation": 0.6831300854682922, "Quantum sensing Position": 0.6546555757522583, "Quantum sensing Timing": 0.6305392384529114, "Quantum sensing": 0.6794756054878235, "Quantum control": 0.6408451199531555 } }, { "id": 1461, "title": "Quantum Properties of Dichroic Silicon Vacancies in Silicon Carbide", "abstract": "Although various defect centers have displayed promise as either quantum sensors, single photon emitters, or light-matter interfaces, the search for an ideal defect with multifunctional ability remain...", "citations": 140, "author_count": 16, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1463, "doi": "10.1103/PhysRevApplied.9.034022", "umap_coordinates": { "x": 394.80780029296875, "y": 135.0988006591797, "z": 208.17396545410156 }, "tsne_coordinates": { "x": 2.5664474964141846, "y": -15.281747817993164, "z": 2.5309102535247803 }, "pca_coordinates": { "x": 3.298351287841797, "y": -1.8706674575805664, "z": -0.23531383275985718 }, "axis_scores": { "Quantum imaging": 0.7568238973617554, "Quantum Life Science Sensing": 0.7776506543159485, "Quantum sensing Detection": 0.7550660371780396, "Quantum sensing Metrology": 0.7576876282691956, "Quantum sensing navigation": 0.7461427450180054, "Quantum sensing Position": 0.7160378098487854, "Quantum sensing Timing": 0.7031101584434509, "Quantum sensing": 0.7641626596450806, "Quantum control": 0.7190924286842346 } }, { "id": 1462, "title": "Coherence revivals in two-photon frequency combs", "abstract": "We describe and theoretically analyze the self-imaging Talbot effect of entangled photon pairs in the time domain. Rich phenomena are observed in coherence propagation along dispersive media of mode-l...", "citations": 8, "author_count": 5, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1464, "doi": "10.1103/PhysRevA.84.033830", "umap_coordinates": { "x": 394.26861572265625, "y": 136.23458862304688, "z": 207.71864318847656 }, "tsne_coordinates": { "x": -15.754079818725586, "y": -10.655447006225586, "z": 21.20639419555664 }, "pca_coordinates": { "x": 4.280932903289795, "y": -0.39653968811035156, "z": -0.6349483132362366 }, "axis_scores": { "Quantum imaging": 0.7132031321525574, "Quantum Life Science Sensing": 0.7378445863723755, "Quantum sensing Detection": 0.7196323871612549, "Quantum sensing Metrology": 0.6999909281730652, "Quantum sensing navigation": 0.7029569745063782, "Quantum sensing Position": 0.6708181500434875, "Quantum sensing Timing": 0.6834050416946411, "Quantum sensing": 0.7127959132194519, "Quantum control": 0.6982054710388184 } }, { "id": 1463, "title": "Transport through an isolated artificial molecule formed from stacked self-assembled quantum dots", "abstract": "We investigate resonant tunneling through two coupled self-assembled quantum dots. The strong confinement and the high crystalline quality provided by the self-assembled dots, in combination with the ...", "citations": 24, "author_count": 6, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1465, "doi": "10.1063/1.1569423", "umap_coordinates": { "x": 393.384765625, "y": 133.85897827148438, "z": 208.63980102539062 }, "tsne_coordinates": { "x": 23.842958450317383, "y": -25.51209259033203, "z": -4.1314616203308105 }, "pca_coordinates": { "x": 1.792503833770752, "y": -3.524254322052002, "z": 1.1135056018829346 }, "axis_scores": { "Quantum imaging": 0.7212768793106079, "Quantum Life Science Sensing": 0.7312319874763489, "Quantum sensing Detection": 0.7167744040489197, "Quantum sensing Metrology": 0.6971228122711182, "Quantum sensing navigation": 0.7222439050674438, "Quantum sensing Position": 0.6723153591156006, "Quantum sensing Timing": 0.6613214015960693, "Quantum sensing": 0.7357281446456909, "Quantum control": 0.6976063251495361 } }, { "id": 1464, "title": "Investigation on the Photoinduced Interaction Between Water Soluble CdTe Quantum Dots and Certain Antioxidants", "abstract": "Photoinduced interaction of thioglycolic acid (TGA) capped CdTe quantum dots (QDs) with certain antioxidants such as estrogens and flavonoids has been investigated by using steady state and time resol...", "citations": 8, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1466, "doi": "10.1166/asl.2011.1895", "umap_coordinates": { "x": 393.2276611328125, "y": 134.58348083496094, "z": 205.00448608398438 }, "tsne_coordinates": { "x": 36.76192855834961, "y": 1.2329670190811157, "z": -13.876151084899902 }, "pca_coordinates": { "x": -2.3985867500305176, "y": -1.6162610054016113, "z": -1.3757407665252686 }, "axis_scores": { "Quantum imaging": 0.6987806558609009, "Quantum Life Science Sensing": 0.7401332855224609, "Quantum sensing Detection": 0.7009001970291138, "Quantum sensing Metrology": 0.6690559387207031, "Quantum sensing navigation": 0.6729863882064819, "Quantum sensing Position": 0.6681912541389465, "Quantum sensing Timing": 0.6611782908439636, "Quantum sensing": 0.704945981502533, "Quantum control": 0.6876082420349121 } }, { "id": 1465, "title": "Calculations of the electronic structure of strained InAs quantum dots in InP", "abstract": "We have calculated the electronic structure of InAs quantum dots embedded in InP as a function of size, using strain dependent eight-band k.p theory in the envelope function approximation. A realistic...", "citations": 72, "author_count": 4, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1467, "doi": "10.1063/1.1486021", "umap_coordinates": { "x": 392.5168151855469, "y": 134.04600524902344, "z": 208.4812774658203 }, "tsne_coordinates": { "x": 24.4031925201416, "y": -17.083539962768555, "z": 3.064304828643799 }, "pca_coordinates": { "x": 1.8209443092346191, "y": -4.135330677032471, "z": 0.21887415647506714 }, "axis_scores": { "Quantum imaging": 0.7332650423049927, "Quantum Life Science Sensing": 0.7281439900398254, "Quantum sensing Detection": 0.7084940075874329, "Quantum sensing Metrology": 0.7176283597946167, "Quantum sensing navigation": 0.7117465734481812, "Quantum sensing Position": 0.7159208655357361, "Quantum sensing Timing": 0.689848780632019, "Quantum sensing": 0.7275817394256592, "Quantum control": 0.6941046714782715 } }, { "id": 1466, "title": "Eight-band calculations of strained InAs/GaAs quantum dots compared with one-, four-, and six-band approximations", "abstract": "The electronic structure of pyramidal shaped InAs/GaAs quantum dots is calculated using an eight-band strain-dependent k.p Hamiltonian. The influence of strain on band energies and the conduction-band...", "citations": 483, "author_count": 2, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1468, "doi": "10.1103/PhysRevB.57.7190", "umap_coordinates": { "x": 393.2252197265625, "y": 134.98533630371094, "z": 208.91241455078125 }, "tsne_coordinates": { "x": 6.406436920166016, "y": -25.469295501708984, "z": -1.6919561624526978 }, "pca_coordinates": { "x": 2.389643430709839, "y": -2.5706310272216797, "z": 0.6496625542640686 }, "axis_scores": { "Quantum imaging": 0.6634155511856079, "Quantum Life Science Sensing": 0.663718581199646, "Quantum sensing Detection": 0.6572575569152832, "Quantum sensing Metrology": 0.6542751789093018, "Quantum sensing navigation": 0.6549541354179382, "Quantum sensing Position": 0.6675406098365784, "Quantum sensing Timing": 0.6713625192642212, "Quantum sensing": 0.6756027340888977, "Quantum control": 0.632176399230957 } }, { "id": 1467, "title": "A variable temperature scanning SQUID microscope", "abstract": "We present a design of a scanning SQUID microscope (SSM) operating in a temperature range between about 5 K (2 K with pumping) and 100 K....", "citations": 8, "author_count": 6, "categories": [ "Engineering" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1469, "doi": "10.1109/77.783931", "umap_coordinates": { "x": 394.7056579589844, "y": 134.72096252441406, "z": 206.7383270263672 }, "tsne_coordinates": { "x": -23.092546463012695, "y": -1.1762406826019287, "z": -21.87911605834961 }, "pca_coordinates": { "x": 0.9424300193786621, "y": 1.5074310302734375, "z": 0.6689099669456482 }, "axis_scores": { "Quantum imaging": 0.7185396552085876, "Quantum Life Science Sensing": 0.7390899062156677, "Quantum sensing Detection": 0.7310588359832764, "Quantum sensing Metrology": 0.7367614507675171, "Quantum sensing navigation": 0.7291705012321472, "Quantum sensing Position": 0.7198283672332764, "Quantum sensing Timing": 0.7138665318489075, "Quantum sensing": 0.7503042221069336, "Quantum control": 0.7086374163627625 } }, { "id": 1468, "title": "Randomized Benchmarking and Process Tomography for Gate Errors in a Solid-State Qubit", "abstract": "We present measurements of single-qubit gate errors for a superconducting qubit. Results from quantum process tomography and randomized benchmarking are compared with gate errors obtained from a doubl...", "citations": 235, "author_count": 11, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1470, "doi": "10.1103/PhysRevLett.102.090502", "umap_coordinates": { "x": 395.8528747558594, "y": 136.69827270507812, "z": 207.889892578125 }, "tsne_coordinates": { "x": -27.069976806640625, "y": -19.27092933654785, "z": -2.8827273845672607 }, "pca_coordinates": { "x": 3.909940242767334, "y": 0.24764800071716309, "z": 1.9172306060791016 }, "axis_scores": { "Quantum imaging": 0.7317813634872437, "Quantum Life Science Sensing": 0.7064753770828247, "Quantum sensing Detection": 0.7407110929489136, "Quantum sensing Metrology": 0.7339364886283875, "Quantum sensing navigation": 0.7535017132759094, "Quantum sensing Position": 0.7344575524330139, "Quantum sensing Timing": 0.7600777745246887, "Quantum sensing": 0.7473960518836975, "Quantum control": 0.7265636324882507 } }, { "id": 1469, "title": "Quasi-classical fluctuation-dissipation description of dielectric loss in oxides with implications for quantum information processing", "abstract": "One of the most important problems in developing devices for quantum computation is the coupling and dissipation of states by thermal noise. We present a study of a two-state electric dipole in a crys...", "citations": 4, "author_count": 7, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1471, "doi": "10.1002/qua.20789", "umap_coordinates": { "x": 394.6645812988281, "y": 136.84043884277344, "z": 207.04026794433594 }, "tsne_coordinates": { "x": -27.20513153076172, "y": -11.81734561920166, "z": -11.07645320892334 }, "pca_coordinates": { "x": 2.040677547454834, "y": 0.6540520191192627, "z": -0.5083816051483154 }, "axis_scores": { "Quantum imaging": 0.7519932985305786, "Quantum Life Science Sensing": 0.7743897438049316, "Quantum sensing Detection": 0.7636430263519287, "Quantum sensing Metrology": 0.7478783130645752, "Quantum sensing navigation": 0.7586871385574341, "Quantum sensing Position": 0.7158464789390564, "Quantum sensing Timing": 0.7134205102920532, "Quantum sensing": 0.7705065011978149, "Quantum control": 0.7404685020446777 } }, { "id": 1470, "title": "Imaging chemiluminescence technique applied to thermooxidation of polymers - possibilities and limitations", "abstract": "The imaging photon counting technique was introduced to study polymer oxidation at the beginning of the 90s. The technique, referred to as imaging chemiluminescence (ICL), enables the measurement of b...", "citations": 17, "author_count": 5, "categories": [ "Polymer Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1472, "doi": null, "umap_coordinates": { "x": 391.4711608886719, "y": 139.4949188232422, "z": 209.7852783203125 }, "tsne_coordinates": { "x": 2.6036736965179443, "y": 43.808284759521484, "z": -9.462133407592773 }, "pca_coordinates": { "x": -5.615261554718018, "y": 5.003414154052734, "z": -0.07473552227020264 }, "axis_scores": { "Quantum imaging": 0.6957881450653076, "Quantum Life Science Sensing": 0.6885659098625183, "Quantum sensing Detection": 0.65697181224823, "Quantum sensing Metrology": 0.6413708329200745, "Quantum sensing navigation": 0.6497909426689148, "Quantum sensing Position": 0.6517924070358276, "Quantum sensing Timing": 0.6481158137321472, "Quantum sensing": 0.6535018086433411, "Quantum control": 0.6401422023773193 } }, { "id": 1471, "title": "Real-time dynamics in diluted quantum networks", "abstract": "We introduce an approach to characterize the dynamics of disordered quantum networks. Each quantum element (i.e., each node) of the network experiences the other nodes as an effective environment that...", "citations": 1, "author_count": 4, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1473, "doi": null, "umap_coordinates": { "x": 391.86541748046875, "y": 139.1965789794922, "z": 208.83865356445312 }, "tsne_coordinates": { "x": -16.471960067749023, "y": 44.58070373535156, "z": -3.1611328125 }, "pca_coordinates": { "x": 1.8945872783660889, "y": 3.1505682468414307, "z": -3.444223642349243 }, "axis_scores": { "Quantum imaging": 0.7384611368179321, "Quantum Life Science Sensing": 0.7461884617805481, "Quantum sensing Detection": 0.717425525188446, "Quantum sensing Metrology": 0.6939208507537842, "Quantum sensing navigation": 0.7428498864173889, "Quantum sensing Position": 0.7010147571563721, "Quantum sensing Timing": 0.7108138203620911, "Quantum sensing": 0.7274774312973022, "Quantum control": 0.7311018109321594 } }, { "id": 1472, "title": "STM-induced fluorescence from Na monolayers on Cu(111)", "abstract": "In the scanning tunneling microscope (STM) light is emitted from Na overlayers on Cu(111). This emission is due to (a) inelastic tunneling into.. quantum well states of the Na layer and (b) transition...", "citations": 5, "author_count": 4, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1474, "doi": null, "umap_coordinates": { "x": 391.74224853515625, "y": 139.49264526367188, "z": 209.66490173339844 }, "tsne_coordinates": { "x": -6.367980480194092, "y": 47.12268829345703, "z": -12.726853370666504 }, "pca_coordinates": { "x": -1.6925373077392578, "y": 1.6825957298278809, "z": -1.6292533874511719 }, "axis_scores": { "Quantum imaging": 0.7048898339271545, "Quantum Life Science Sensing": 0.7106857299804688, "Quantum sensing Detection": 0.7043052315711975, "Quantum sensing Metrology": 0.6846207976341248, "Quantum sensing navigation": 0.7024171352386475, "Quantum sensing Position": 0.6696297526359558, "Quantum sensing Timing": 0.6448489427566528, "Quantum sensing": 0.7016366124153137, "Quantum control": 0.6858299374580383 } }, { "id": 1473, "title": "Paramagnetic effect in YBa2Cu3O7-x grain-boundary junctions - art. no. 014510", "abstract": "A detailed investigation of the magnetic response of YBa2Cu3Ox grain-boundary Josephson junctions has been carried out using both radio-frequency measurements and scanning superconducting quantum inte...", "citations": 11, "author_count": 8, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1475, "doi": "10.1103/PhysRevB.68.014510", "umap_coordinates": { "x": 393.5243835449219, "y": 135.58120727539062, "z": 208.8756103515625 }, "tsne_coordinates": { "x": 7.830437183380127, "y": -39.35333251953125, "z": 10.243242263793945 }, "pca_coordinates": { "x": 4.113570213317871, "y": -0.5888688564300537, "z": -1.3435215950012207 }, "axis_scores": { "Quantum imaging": 0.7010633945465088, "Quantum Life Science Sensing": 0.6920907497406006, "Quantum sensing Detection": 0.6875636577606201, "Quantum sensing Metrology": 0.6905966997146606, "Quantum sensing navigation": 0.6998701691627502, "Quantum sensing Position": 0.6912725567817688, "Quantum sensing Timing": 0.6891181468963623, "Quantum sensing": 0.6985154151916504, "Quantum control": 0.69910728931427 } }, { "id": 1474, "title": "Spontaneous magnetism of quantum dot lattices - art. no. 066802", "abstract": "The magnetism of square lattices of quantum dots with up to 12 electrons per dot is studied using the spin-density functional formalism. At small values of the lattice constant, all lattices are nonma...", "citations": 18, "author_count": 4, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1476, "doi": "10.1103/PhysRevLett.90.066802", "umap_coordinates": { "x": 393.7183837890625, "y": 135.88917541503906, "z": 208.6981658935547 }, "tsne_coordinates": { "x": 2.6672284603118896, "y": -33.29108810424805, "z": 8.273900985717773 }, "pca_coordinates": { "x": 4.095809459686279, "y": -2.043086528778076, "z": -0.6407527327537537 }, "axis_scores": { "Quantum imaging": 0.7133139371871948, "Quantum Life Science Sensing": 0.7494380474090576, "Quantum sensing Detection": 0.7293025851249695, "Quantum sensing Metrology": 0.7434568405151367, "Quantum sensing navigation": 0.7200430035591125, "Quantum sensing Position": 0.7057412266731262, "Quantum sensing Timing": 0.6937787532806396, "Quantum sensing": 0.7333709001541138, "Quantum control": 0.6968390941619873 } }, { "id": 1475, "title": "Observation of a linked-loop quantum state in a topological magnet", "abstract": "Quantum phases can be classified by topological invariants, which take on discrete values capturing global information about the quantum state(1-13). Over the past decades, these invariants have come ...", "citations": 31, "author_count": 26, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1477, "doi": "10.1038/s41586-022-04512-8", "umap_coordinates": { "x": 393.7497863769531, "y": 136.08599853515625, "z": 207.4604949951172 }, "tsne_coordinates": { "x": -2.2069954872131348, "y": -8.54675579071045, "z": 10.577370643615723 }, "pca_coordinates": { "x": 2.3945729732513428, "y": 0.48507189750671387, "z": -0.5788187980651855 }, "axis_scores": { "Quantum imaging": 0.6971803307533264, "Quantum Life Science Sensing": 0.7155580520629883, "Quantum sensing Detection": 0.7110351920127869, "Quantum sensing Metrology": 0.6913371682167053, "Quantum sensing navigation": 0.705901563167572, "Quantum sensing Position": 0.7144535779953003, "Quantum sensing Timing": 0.6875367164611816, "Quantum sensing": 0.7091122269630432, "Quantum control": 0.6696459054946899 } }, { "id": 1476, "title": "QUANTUM PHYSICS Correlations without parts", "abstract": "", "citations": 15, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1478, "doi": "10.1038/474456a", "umap_coordinates": { "x": 395.71539306640625, "y": 136.6806640625, "z": 207.1163330078125 }, "tsne_coordinates": { "x": -22.585195541381836, "y": -1.4965945482254028, "z": 4.116481304168701 }, "pca_coordinates": { "x": 3.150388717651367, "y": 3.00372576713562, "z": 0.9067080616950989 }, "axis_scores": { "Quantum imaging": 0.7634731531143188, "Quantum Life Science Sensing": 0.7519091367721558, "Quantum sensing Detection": 0.7599512338638306, "Quantum sensing Metrology": 0.7522569894790649, "Quantum sensing navigation": 0.7668037414550781, "Quantum sensing Position": 0.7367216348648071, "Quantum sensing Timing": 0.7383819818496704, "Quantum sensing": 0.775677502155304, "Quantum control": 0.7430182695388794 } }, { "id": 1477, "title": "MEASUREMENT OF PHOTONEUTRON ENERGY-SPECTRA FROM TIN, LEAD AND URANIUM USING AN NE-213 NEUTRON SPECTROMETER", "abstract": "", "citations": 1, "author_count": 2, "categories": [ "Instruments & Instrumentation" ], "year": 1984, "topic": [ "all" ], "embedding_index": 1479, "doi": "10.1016/0167-5087(84)90045-0", "umap_coordinates": { "x": 395.4658508300781, "y": 133.54689025878906, "z": 205.6817169189453 }, "tsne_coordinates": { "x": -17.18376922607422, "y": 15.308180809020996, "z": -1.9237037897109985 }, "pca_coordinates": { "x": -2.337813377380371, "y": 0.2481236457824707, "z": 3.5256710052490234 }, "axis_scores": { "Quantum imaging": 0.6860156655311584, "Quantum Life Science Sensing": 0.715349018573761, "Quantum sensing Detection": 0.6994256377220154, "Quantum sensing Metrology": 0.6871328353881836, "Quantum sensing navigation": 0.6879590153694153, "Quantum sensing Position": 0.6874582767486572, "Quantum sensing Timing": 0.6685267090797424, "Quantum sensing": 0.6911731958389282, "Quantum control": 0.6160549521446228 } }, { "id": 1478, "title": "Multi-particle entanglement of charge qubits coupled to a nanoresonator", "abstract": "The dynamics of charge qubits coupled to a nanomechanical resonator under the influence of both a phonon bath in contact with the resonator and irreversible decay of the qubits is considered. The focu...", "citations": 10, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1480, "doi": "10.1016/j.physe.2011.05.010", "umap_coordinates": { "x": 394.0611267089844, "y": 136.51605224609375, "z": 206.75502014160156 }, "tsne_coordinates": { "x": -12.61557388305664, "y": 6.034088611602783, "z": 13.845447540283203 }, "pca_coordinates": { "x": 1.7818856239318848, "y": -0.8223185539245605, "z": 0.8576347231864929 }, "axis_scores": { "Quantum imaging": 0.7663198113441467, "Quantum Life Science Sensing": 0.7594877481460571, "Quantum sensing Detection": 0.7641769647598267, "Quantum sensing Metrology": 0.7499876618385315, "Quantum sensing navigation": 0.7613977193832397, "Quantum sensing Position": 0.7485783696174622, "Quantum sensing Timing": 0.7124431133270264, "Quantum sensing": 0.7764948010444641, "Quantum control": 0.7417653799057007 } }, { "id": 1479, "title": "Bounding the quantum dimension with contextuality", "abstract": "We show that the phenomenon of quantum contextuality can be used to certify lower bounds on the dimension accessed by the measurement devices. To prove this, we derive bounds for different dimensions ...", "citations": 51, "author_count": 6, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1481, "doi": "10.1103/PhysRevA.89.062107", "umap_coordinates": { "x": 395.7566833496094, "y": 137.33555603027344, "z": 207.00485229492188 }, "tsne_coordinates": { "x": -17.66168975830078, "y": 1.1294994354248047, "z": 6.606551647186279 }, "pca_coordinates": { "x": 3.564819812774658, "y": 3.066422700881958, "z": 0.028999507427215576 }, "axis_scores": { "Quantum imaging": 0.7527299523353577, "Quantum Life Science Sensing": 0.7320048213005066, "Quantum sensing Detection": 0.7465106844902039, "Quantum sensing Metrology": 0.7353456616401672, "Quantum sensing navigation": 0.7683511972427368, "Quantum sensing Position": 0.7386198043823242, "Quantum sensing Timing": 0.7314441204071045, "Quantum sensing": 0.7610857486724854, "Quantum control": 0.7511248588562012 } }, { "id": 1480, "title": "Short-chain ligand achieves ultra-stable CsPbX3 perovskite quantum dots for white light-emitting diodes", "abstract": "All-inorganic perovskite quantum dots (PeQDs) have aroused great research interest in white light-emitting diodes (WLED) due to their excellent optoelectronic properties, but the poor stability, cause...", "citations": 28, "author_count": 13, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1482, "doi": "10.1063/5.0176754", "umap_coordinates": { "x": 391.5698547363281, "y": 134.02027893066406, "z": 205.07583618164062 }, "tsne_coordinates": { "x": 20.811603546142578, "y": 1.8752617835998535, "z": -19.859663009643555 }, "pca_coordinates": { "x": -1.268214464187622, "y": -3.3753318786621094, "z": -0.5566732883453369 }, "axis_scores": { "Quantum imaging": 0.7031935453414917, "Quantum Life Science Sensing": 0.7201797962188721, "Quantum sensing Detection": 0.6969878077507019, "Quantum sensing Metrology": 0.6798861622810364, "Quantum sensing navigation": 0.6919131875038147, "Quantum sensing Position": 0.6779769659042358, "Quantum sensing Timing": 0.679142951965332, "Quantum sensing": 0.7162688970565796, "Quantum control": 0.6928935050964355 } }, { "id": 1481, "title": "Highly Efficient Flexible Quantum Dot Solar Cells with Improved Electron Extraction Using MgZnO Nanocrystals", "abstract": "Colloidal quantum dot (CQD) solar cells have high potential for realizing an efficient and lightweight energy supply for flexible or wearable electronic devices. To achieve highly efficient and flexib...", "citations": 134, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1483, "doi": "10.1021/acsnano.7b04332", "umap_coordinates": { "x": 392.2626037597656, "y": 133.80714416503906, "z": 205.556640625 }, "tsne_coordinates": { "x": 20.249160766601562, "y": -2.9279611110687256, "z": -6.456947326660156 }, "pca_coordinates": { "x": -3.0699009895324707, "y": -5.459737300872803, "z": 0.4392208456993103 }, "axis_scores": { "Quantum imaging": 0.6921414136886597, "Quantum Life Science Sensing": 0.6930649280548096, "Quantum sensing Detection": 0.686847984790802, "Quantum sensing Metrology": 0.6804569959640503, "Quantum sensing navigation": 0.6841042041778564, "Quantum sensing Position": 0.6568236351013184, "Quantum sensing Timing": 0.6357658505439758, "Quantum sensing": 0.7005919814109802, "Quantum control": 0.6884233951568604 } }, { "id": 1482, "title": "Quantum corrections to the conductance of a square quantum dot with soft confinement", "abstract": "We study the conductance of a square quantum dot, modeling the potential with a self-consistent Thomas-Fermi approximation. The resulting potential is characterized by level statistics indicative of m...", "citations": 11, "author_count": 7, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1484, "doi": "10.1007/s100510050865", "umap_coordinates": { "x": 394.139404296875, "y": 134.9542999267578, "z": 207.4986572265625 }, "tsne_coordinates": { "x": 3.1577672958374023, "y": -14.315403938293457, "z": 6.981147766113281 }, "pca_coordinates": { "x": 0.9790024757385254, "y": -2.070615291595459, "z": 1.6159029006958008 }, "axis_scores": { "Quantum imaging": 0.7024716138839722, "Quantum Life Science Sensing": 0.7355239987373352, "Quantum sensing Detection": 0.746301531791687, "Quantum sensing Metrology": 0.7438871264457703, "Quantum sensing navigation": 0.7392070889472961, "Quantum sensing Position": 0.7091870307922363, "Quantum sensing Timing": 0.6914665699005127, "Quantum sensing": 0.7534913420677185, "Quantum control": 0.7011023163795471 } }, { "id": 1483, "title": "Modeling of cotunneling in quantum dot systems", "abstract": "Transport through nanosystems is treated within the second-order von Neumann approach. This approach bridges the gap between rate equations which neglect level broadening and cotunneling, and the tran...", "citations": 24, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1485, "doi": "10.1016/j.physe.2009.06.069", "umap_coordinates": { "x": 394.2479248046875, "y": 137.1172637939453, "z": 206.6062774658203 }, "tsne_coordinates": { "x": -12.78855037689209, "y": 24.796560287475586, "z": 25.00327491760254 }, "pca_coordinates": { "x": 1.735644817352295, "y": -0.2981534004211426, "z": -0.8387851715087891 }, "axis_scores": { "Quantum imaging": 0.7695902585983276, "Quantum Life Science Sensing": 0.7623501420021057, "Quantum sensing Detection": 0.7665191888809204, "Quantum sensing Metrology": 0.7671074867248535, "Quantum sensing navigation": 0.7685080766677856, "Quantum sensing Position": 0.7510340809822083, "Quantum sensing Timing": 0.7668002247810364, "Quantum sensing": 0.7726889252662659, "Quantum control": 0.7659489512443542 } }, { "id": 1484, "title": "Waveguiding in All-Garnet Heteroepitaxial Magneto-Optical Photonic Crystals", "abstract": "We report the properties of 1D all-garnet heteroepitaxial 21 layered magneto-optical photonic crystal designed and fabricated for the resonance wavelength 750 +/- 3 nm. It is composed of alternating m...", "citations": 7, "author_count": 3, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1486, "doi": "10.1134/S0021364019020012", "umap_coordinates": { "x": 393.3952941894531, "y": 134.7281951904297, "z": 207.3024139404297 }, "tsne_coordinates": { "x": 4.931483268737793, "y": -10.300362586975098, "z": -26.167680740356445 }, "pca_coordinates": { "x": -0.07383465766906738, "y": -1.9618611335754395, "z": -0.10495823621749878 }, "axis_scores": { "Quantum imaging": 0.6838885545730591, "Quantum Life Science Sensing": 0.6733406782150269, "Quantum sensing Detection": 0.6608994603157043, "Quantum sensing Metrology": 0.6942740082740784, "Quantum sensing navigation": 0.6809924840927124, "Quantum sensing Position": 0.6428118348121643, "Quantum sensing Timing": 0.6467294096946716, "Quantum sensing": 0.6832465529441833, "Quantum control": 0.6519503593444824 } }, { "id": 1485, "title": "First Principles Investigation of Divacancy in SiC Polytypes for Solid State Qubit Application", "abstract": "We calculated the hyperfine structure and the zero-field splitting parameters of divacancies in 3C, 4H and 6H SiC in the ground state and in the excited state for 4H SiC within the framework of densit...", "citations": 6, "author_count": 5, "categories": [ "Crystallography" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1487, "doi": "10.4028/www.scientific.net/MSF.778-780.499", "umap_coordinates": { "x": 394.9172058105469, "y": 135.2239990234375, "z": 206.47984313964844 }, "tsne_coordinates": { "x": 18.340316772460938, "y": 3.5691077709198, "z": -37.59261703491211 }, "pca_coordinates": { "x": 0.19713187217712402, "y": 0.8342798948287964, "z": 0.4524998068809509 }, "axis_scores": { "Quantum imaging": 0.6957569122314453, "Quantum Life Science Sensing": 0.7403481006622314, "Quantum sensing Detection": 0.7053955793380737, "Quantum sensing Metrology": 0.7202579975128174, "Quantum sensing navigation": 0.7067083716392517, "Quantum sensing Position": 0.6955321431159973, "Quantum sensing Timing": 0.67915940284729, "Quantum sensing": 0.7127451300621033, "Quantum control": 0.6792094707489014 } }, { "id": 1486, "title": "Increased photocurrent in quantum dot infrared photodetector by subwavelength hole array in metal thin film", "abstract": "Photocurrent enhancement in quantum dot (QD) infrared photodetector (QDIP) with an optical grating of subwavelength hole array in a thin metal film has been studied by calculating the transmission and...", "citations": 27, "author_count": 8, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1488, "doi": "10.1063/1.3449117", "umap_coordinates": { "x": 392.9209899902344, "y": 133.48532104492188, "z": 207.86585998535156 }, "tsne_coordinates": { "x": 31.807659149169922, "y": -20.2981014251709, "z": -4.936458587646484 }, "pca_coordinates": { "x": -0.5498584508895874, "y": -4.950014591217041, "z": 1.9005491733551025 }, "axis_scores": { "Quantum imaging": 0.6861270070075989, "Quantum Life Science Sensing": 0.6770275831222534, "Quantum sensing Detection": 0.6819635033607483, "Quantum sensing Metrology": 0.6716821193695068, "Quantum sensing navigation": 0.6391538977622986, "Quantum sensing Position": 0.6582851409912109, "Quantum sensing Timing": 0.6342408061027527, "Quantum sensing": 0.6830073595046997, "Quantum control": 0.6312661170959473 } }, { "id": 1487, "title": "PPFM: Image Denoising in Photon-Counting CT Using Single-Step Posterior Sampling Poisson Flow Generative Models", "abstract": "Diffusion and Poisson flow models have shown impressive performance in a wide range of generative tasks, including low-dose CT (LDCT) image denoising. However, one limitation in general, and for clini...", "citations": 4, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1489, "doi": "10.1109/TRPMS.2024.3410092", "umap_coordinates": { "x": 395.2693176269531, "y": 133.02609252929688, "z": 205.98370361328125 }, "tsne_coordinates": { "x": -0.9665097594261169, "y": 20.430191040039062, "z": -15.86645221710205 }, "pca_coordinates": { "x": -1.9145958423614502, "y": 1.9910666942596436, "z": 3.818516254425049 }, "axis_scores": { "Quantum imaging": 0.7326937317848206, "Quantum Life Science Sensing": 0.7166999578475952, "Quantum sensing Detection": 0.716912567615509, "Quantum sensing Metrology": 0.7174155712127686, "Quantum sensing navigation": 0.7095317840576172, "Quantum sensing Position": 0.6789441108703613, "Quantum sensing Timing": 0.7250940799713135, "Quantum sensing": 0.720664918422699, "Quantum control": 0.6833115816116333 } }, { "id": 1488, "title": "Bias and temperature dependence of the escape processes in quantum dots-in-a-well infrared photodetectors", "abstract": "The performance of quantum dots-in-a-well infrared photodetectors (DWELL IPs) has been studied by means of interband and intersubband photocurrent measurements as well as dark current measurements. Us...", "citations": 12, "author_count": 10, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1490, "doi": "10.1063/1.2977757", "umap_coordinates": { "x": 393.003662109375, "y": 133.9600372314453, "z": 208.2473602294922 }, "tsne_coordinates": { "x": 33.03850555419922, "y": -18.584081649780273, "z": -1.475818395614624 }, "pca_coordinates": { "x": 0.8604691028594971, "y": -3.307770252227783, "z": 0.9349361062049866 }, "axis_scores": { "Quantum imaging": 0.7046051025390625, "Quantum Life Science Sensing": 0.7121148109436035, "Quantum sensing Detection": 0.7015966176986694, "Quantum sensing Metrology": 0.6786189079284668, "Quantum sensing navigation": 0.6890487670898438, "Quantum sensing Position": 0.668589174747467, "Quantum sensing Timing": 0.689254879951477, "Quantum sensing": 0.7034438848495483, "Quantum control": 0.6699494123458862 } }, { "id": 1489, "title": "Excitons in self-assembled quantum ring-like structures", "abstract": "A remarkable morphological change of self-assembled InAs quantum dots takes place during growth if a pause is introduced after overgrowing the dots with a few nm of GaAs. Atomic force microscopy indic...", "citations": 89, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1491, "doi": "10.1016/S1386-9477(99)00096-X", "umap_coordinates": { "x": 392.4132995605469, "y": 135.08053588867188, "z": 207.16183471679688 }, "tsne_coordinates": { "x": 31.234498977661133, "y": -7.786703586578369, "z": 20.787418365478516 }, "pca_coordinates": { "x": 0.24037480354309082, "y": -1.8411226272583008, "z": -1.1719739437103271 }, "axis_scores": { "Quantum imaging": 0.7035892605781555, "Quantum Life Science Sensing": 0.7190219163894653, "Quantum sensing Detection": 0.6913645267486572, "Quantum sensing Metrology": 0.6874655485153198, "Quantum sensing navigation": 0.6966338753700256, "Quantum sensing Position": 0.7000154852867126, "Quantum sensing Timing": 0.6750220060348511, "Quantum sensing": 0.7035687565803528, "Quantum control": 0.6677476763725281 } }, { "id": 1490, "title": "Temperature insensitive 1.3 μm InGaAs/GaAs quantum dot distributed feedback lasers for 10 Gbit/s transmission over 21 km", "abstract": "Long wavelength monomode InGaAs/GaAs quantum dot (QD) distributed feedback (DFB) lasers with emission wavelength around 1325 ran are presented. Threshold currents below 19 mA for operating temperature...", "citations": 32, "author_count": 10, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1492, "doi": "10.1049/el:20063401", "umap_coordinates": { "x": 393.88446044921875, "y": 133.63755798339844, "z": 206.70370483398438 }, "tsne_coordinates": { "x": 2.7552785873413086, "y": 0.7832992076873779, "z": -29.658002853393555 }, "pca_coordinates": { "x": -0.47354042530059814, "y": -1.5020666122436523, "z": 1.4316740036010742 }, "axis_scores": { "Quantum imaging": 0.7154967784881592, "Quantum Life Science Sensing": 0.7218896150588989, "Quantum sensing Detection": 0.7186267375946045, "Quantum sensing Metrology": 0.7015973925590515, "Quantum sensing navigation": 0.7087374329566956, "Quantum sensing Position": 0.6985197067260742, "Quantum sensing Timing": 0.6890270709991455, "Quantum sensing": 0.7198817729949951, "Quantum control": 0.6985213160514832 } }, { "id": 1491, "title": "3D wavepacket calculations of ozone photodissociation in the Hartley band: convergence of the autocorrelation function", "abstract": "3D wavepacket calculations on the O-3 molecule have been performed for a total angular momentum equal to zero. The split operator propagator and the fast Fourier transform method in hyperspherical coo...", "citations": 25, "author_count": 4, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1493, "doi": "10.1016/S0009-2614(99)01234-8", "umap_coordinates": { "x": 394.441162109375, "y": 135.4993133544922, "z": 205.62252807617188 }, "tsne_coordinates": { "x": -4.477397441864014, "y": 14.711456298828125, "z": 1.5134073495864868 }, "pca_coordinates": { "x": -0.416415810585022, "y": 0.4646289348602295, "z": 0.1508985161781311 }, "axis_scores": { "Quantum imaging": 0.7182440757751465, "Quantum Life Science Sensing": 0.7412136793136597, "Quantum sensing Detection": 0.7157334685325623, "Quantum sensing Metrology": 0.7060449123382568, "Quantum sensing navigation": 0.7294019460678101, "Quantum sensing Position": 0.7080989480018616, "Quantum sensing Timing": 0.7028859853744507, "Quantum sensing": 0.724217414855957, "Quantum control": 0.7034101486206055 } }, { "id": 1492, "title": "Thermoelectric Characterization of the Kondo Resonance in Nanowire Quantum Dots", "abstract": "We experimentally verify hitherto untested theoretical predictions about the thermoelectric properties of Kondo correlated quantum dots (QDs). The specific conditions required for this study are obtai...", "citations": 55, "author_count": 8, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1494, "doi": "10.1103/PhysRevLett.121.206801", "umap_coordinates": { "x": 393.82537841796875, "y": 134.4961700439453, "z": 208.44139099121094 }, "tsne_coordinates": { "x": 4.660774230957031, "y": -22.177364349365234, "z": 5.174604415893555 }, "pca_coordinates": { "x": 3.027132034301758, "y": -3.936601161956787, "z": 1.1494972705841064 }, "axis_scores": { "Quantum imaging": 0.7193044424057007, "Quantum Life Science Sensing": 0.7595283389091492, "Quantum sensing Detection": 0.7440993189811707, "Quantum sensing Metrology": 0.7310160398483276, "Quantum sensing navigation": 0.7311500906944275, "Quantum sensing Position": 0.7233846783638, "Quantum sensing Timing": 0.7381880283355713, "Quantum sensing": 0.7530356049537659, "Quantum control": 0.6952289342880249 } }, { "id": 1493, "title": "Classical quantum states", "abstract": "We show that several classes of mixed quantum states in finite-dimensional Hilbert spaces which can be characterized as being, in some respect, most classical can be described and analyzed in a unifie...", "citations": 18, "author_count": 3, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1495, "doi": "10.1103/PhysRevA.80.022319", "umap_coordinates": { "x": 395.2445373535156, "y": 136.88075256347656, "z": 207.5959930419922 }, "tsne_coordinates": { "x": -21.824357986450195, "y": -17.24842643737793, "z": 5.343236446380615 }, "pca_coordinates": { "x": 5.451983451843262, "y": 0.7506036758422852, "z": -0.9857560396194458 }, "axis_scores": { "Quantum imaging": 0.8094627261161804, "Quantum Life Science Sensing": 0.8167256116867065, "Quantum sensing Detection": 0.825690746307373, "Quantum sensing Metrology": 0.7954440116882324, "Quantum sensing navigation": 0.8151020407676697, "Quantum sensing Position": 0.7824302911758423, "Quantum sensing Timing": 0.7574992179870605, "Quantum sensing": 0.8389217853546143, "Quantum control": 0.8183000087738037 } }, { "id": 1494, "title": "Generalized transfer matrix states from artificial neural networks", "abstract": "Identifying variational wave functions that efficiently parametrize the physically relevant states in the exponentially large Hilbert space is one of the key tasks towards solving the quantum many-bod...", "citations": 33, "author_count": 4, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1496, "doi": "10.1103/PhysRevB.99.165123", "umap_coordinates": { "x": 395.0919189453125, "y": 137.09092712402344, "z": 208.18626403808594 }, "tsne_coordinates": { "x": -25.037612915039062, "y": -30.555192947387695, "z": 1.4524072408676147 }, "pca_coordinates": { "x": 4.643069267272949, "y": -0.056580543518066406, "z": 0.0337904691696167 }, "axis_scores": { "Quantum imaging": 0.7035220265388489, "Quantum Life Science Sensing": 0.7101631760597229, "Quantum sensing Detection": 0.7070565223693848, "Quantum sensing Metrology": 0.7076139450073242, "Quantum sensing navigation": 0.7144150733947754, "Quantum sensing Position": 0.6784257292747498, "Quantum sensing Timing": 0.6605942249298096, "Quantum sensing": 0.7208821177482605, "Quantum control": 0.7034035325050354 } }, { "id": 1495, "title": "Self-excited oscillations of charge-spin accumulation due to single-electron tunneling", "abstract": "We theoretically study electronic transport through a layer of quantum dots connecting two metallic leads. By the inclusion of an inductor in series with the junction, we show that steady electronic t...", "citations": 4, "author_count": 6, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1497, "doi": "10.1103/PhysRevB.82.125311", "umap_coordinates": { "x": 393.9715576171875, "y": 134.52688598632812, "z": 209.0128173828125 }, "tsne_coordinates": { "x": 8.124761581420898, "y": -27.838075637817383, "z": -4.417126655578613 }, "pca_coordinates": { "x": 3.8366589546203613, "y": -3.4481029510498047, "z": -0.16730624437332153 }, "axis_scores": { "Quantum imaging": 0.6764033436775208, "Quantum Life Science Sensing": 0.704210638999939, "Quantum sensing Detection": 0.6989315748214722, "Quantum sensing Metrology": 0.6841424107551575, "Quantum sensing navigation": 0.6879544258117676, "Quantum sensing Position": 0.6544399857521057, "Quantum sensing Timing": 0.6573585867881775, "Quantum sensing": 0.6944845914840698, "Quantum control": 0.6720219850540161 } }, { "id": 1496, "title": "Photoluminescence and electroluminescence study of Si-Si0.7Ge0.3 quantum dots", "abstract": "50 nm quantum dots have been fabricated from MBE grown structures with 15 periods of 3 nm-Si-3 nm-Si0.7Ge0.3 superlattices sandwiched between a Si substrate with a 70 nm undoped buffer layer and a 42 ...", "citations": 2, "author_count": 5, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1498, "doi": "10.1016/0169-4332(96)00080-3", "umap_coordinates": { "x": 393.34490966796875, "y": 133.44265747070312, "z": 206.64984130859375 }, "tsne_coordinates": { "x": 40.5596923828125, "y": -4.510593414306641, "z": 0.744317352771759 }, "pca_coordinates": { "x": -2.1477389335632324, "y": -2.116504192352295, "z": 1.5506641864776611 }, "axis_scores": { "Quantum imaging": 0.7246093153953552, "Quantum Life Science Sensing": 0.7499463558197021, "Quantum sensing Detection": 0.7160017490386963, "Quantum sensing Metrology": 0.7118172645568848, "Quantum sensing navigation": 0.7032791972160339, "Quantum sensing Position": 0.7085716128349304, "Quantum sensing Timing": 0.6609886884689331, "Quantum sensing": 0.7260432243347168, "Quantum control": 0.6798188090324402 } }, { "id": 1497, "title": "Size dependence of electron spin dephasing in InGaAs quantum dots", "abstract": "We investigate ensemble electron spin dephasing in self-assembled InGaAs/GaAs quantum dots (QDs) of different lateral sizes by employing optical Hanle measurements. Using low excitation power, we are ...", "citations": 7, "author_count": 9, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1499, "doi": "10.1063/1.4914084", "umap_coordinates": { "x": 392.4745788574219, "y": 133.7445831298828, "z": 207.77980041503906 }, "tsne_coordinates": { "x": 31.44341468811035, "y": -11.219585418701172, "z": -3.228487253189087 }, "pca_coordinates": { "x": 1.4245047569274902, "y": -3.6233596801757812, "z": -0.004118144512176514 }, "axis_scores": { "Quantum imaging": 0.7735596895217896, "Quantum Life Science Sensing": 0.7682523727416992, "Quantum sensing Detection": 0.761895477771759, "Quantum sensing Metrology": 0.7436757683753967, "Quantum sensing navigation": 0.7316406965255737, "Quantum sensing Position": 0.7432152628898621, "Quantum sensing Timing": 0.7153314352035522, "Quantum sensing": 0.7738764882087708, "Quantum control": 0.73199063539505 } }, { "id": 1498, "title": "Effective detection of spatio-temporal carrier dynamics by carrier capture", "abstract": "The spatio-temporal dynamics of electrons moving in a 2D plane is challenging to detect when the required resolution shrinks simultaneously to nanometer length and subpicosecond time scale. We propose...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1500, "doi": "10.1088/1361-648X/ab17a8", "umap_coordinates": { "x": 394.3834228515625, "y": 135.4317169189453, "z": 206.04159545898438 }, "tsne_coordinates": { "x": -22.23206901550293, "y": -9.560758590698242, "z": -21.821043014526367 }, "pca_coordinates": { "x": 0.22819077968597412, "y": 1.7461940050125122, "z": 1.2086181640625 }, "axis_scores": { "Quantum imaging": 0.7240957617759705, "Quantum Life Science Sensing": 0.6925342082977295, "Quantum sensing Detection": 0.7194485068321228, "Quantum sensing Metrology": 0.6880781054496765, "Quantum sensing navigation": 0.7008276581764221, "Quantum sensing Position": 0.6839544177055359, "Quantum sensing Timing": 0.7155648469924927, "Quantum sensing": 0.7200210094451904, "Quantum control": 0.7199492454528809 } }, { "id": 1499, "title": "Photothermal-responsive [2]rotaxanes", "abstract": "Three photothermal-responsive alpha-cyclodextrin-based [2]rotaxanes were prepared via the copper(I)-catalyzed azide-alkyne cycloaddition, in which the alpha-cyclodextrin ring was threaded onto the azo...", "citations": 12, "author_count": 8, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1501, "doi": "10.1039/c2ra22171c", "umap_coordinates": { "x": 391.9576110839844, "y": 135.74124145507812, "z": 205.2961883544922 }, "tsne_coordinates": { "x": 10.682613372802734, "y": 2.501622438430786, "z": -7.507920742034912 }, "pca_coordinates": { "x": -2.372441053390503, "y": -0.1295490264892578, "z": -2.830451011657715 }, "axis_scores": { "Quantum imaging": 0.7014647722244263, "Quantum Life Science Sensing": 0.723469078540802, "Quantum sensing Detection": 0.7098272442817688, "Quantum sensing Metrology": 0.7022206783294678, "Quantum sensing navigation": 0.6750267148017883, "Quantum sensing Position": 0.6606220602989197, "Quantum sensing Timing": 0.6887927055358887, "Quantum sensing": 0.7250257134437561, "Quantum control": 0.712417483329773 } }, { "id": 1500, "title": "Prequantum classical statistical field theory: Complex representation, Hamilton-Schrodinger equation, and interpretation of stationary states", "abstract": "We develop a prequantum classical statistical model in that the role of hidden variables is played by classical (vector) fields. We call this model Prequantum Classical Statistical Field Theory (PCSFT...", "citations": 37, "author_count": 2, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1502, "doi": "10.1007/s10702-006-0796-9", "umap_coordinates": { "x": 395.2137451171875, "y": 137.2906494140625, "z": 206.8438262939453 }, "tsne_coordinates": { "x": -30.370420455932617, "y": 1.0945806503295898, "z": 18.017045974731445 }, "pca_coordinates": { "x": 1.4678614139556885, "y": 3.936415910720825, "z": -1.8187086582183838 }, "axis_scores": { "Quantum imaging": 0.7327368855476379, "Quantum Life Science Sensing": 0.7680085301399231, "Quantum sensing Detection": 0.7405270934104919, "Quantum sensing Metrology": 0.7166451215744019, "Quantum sensing navigation": 0.743259608745575, "Quantum sensing Position": 0.7248207330703735, "Quantum sensing Timing": 0.7166320085525513, "Quantum sensing": 0.742904543876648, "Quantum control": 0.7270328402519226 } }, { "id": 1501, "title": "Shot noise spectroscopy of electronic spin flips in quantum dots", "abstract": "Spin decoherence and spin flips crucially affect the tunneling transport of spin-polarized electrons through a quantum dot connected to magnetic leads. Here, the authors show that the low-frequency sh...", "citations": 6, "author_count": 6, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1503, "doi": "10.1063/1.2737421", "umap_coordinates": { "x": 393.4736633300781, "y": 134.3865203857422, "z": 208.60763549804688 }, "tsne_coordinates": { "x": 19.736400604248047, "y": -25.84955596923828, "z": 4.320157051086426 }, "pca_coordinates": { "x": 3.078868865966797, "y": -2.495126724243164, "z": 0.4467960000038147 }, "axis_scores": { "Quantum imaging": 0.7800771594047546, "Quantum Life Science Sensing": 0.7904727458953857, "Quantum sensing Detection": 0.7967373132705688, "Quantum sensing Metrology": 0.776706337928772, "Quantum sensing navigation": 0.7831567525863647, "Quantum sensing Position": 0.7496573328971863, "Quantum sensing Timing": 0.7412925958633423, "Quantum sensing": 0.8072042465209961, "Quantum control": 0.7707383036613464 } }, { "id": 1502, "title": "Observation of excitation-energy-dependent Xe 4d5/2,3/2-1 lifetime widths", "abstract": "The creation and decay of photon-excited Xe 4d(5/2,3/2)(-1) core-hole states has been studied in the photon energy region 70-110 eV, where photon absorption is dominated by the strong shape resonance....", "citations": 8, "author_count": 8, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1504, "doi": "10.1088/0953-4075/32/9/102", "umap_coordinates": { "x": 394.3540954589844, "y": 135.55569458007812, "z": 206.3826446533203 }, "tsne_coordinates": { "x": 0.8622826933860779, "y": 0.42748385667800903, "z": 14.353131294250488 }, "pca_coordinates": { "x": -0.7233906984329224, "y": -0.015726089477539062, "z": 1.0095856189727783 }, "axis_scores": { "Quantum imaging": 0.6881406903266907, "Quantum Life Science Sensing": 0.6980003714561462, "Quantum sensing Detection": 0.6776858568191528, "Quantum sensing Metrology": 0.6518180966377258, "Quantum sensing navigation": 0.6462107300758362, "Quantum sensing Position": 0.6566376090049744, "Quantum sensing Timing": 0.6847831010818481, "Quantum sensing": 0.6789720058441162, "Quantum control": 0.6291672587394714 } }, { "id": 1503, "title": "BIOLUMINESCENCE IMAGING Photonic amyloids", "abstract": "Emerging data reveal that amyloid fibrils possess intrinsic photonic activity, showing luminescence over a wide range of the electromagnetic spectrum from the ultraviolet to the near-infrared....", "citations": 8, "author_count": 2, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1505, "doi": "10.1038/s41566-019-0471-x", "umap_coordinates": { "x": 394.08209228515625, "y": 134.37423706054688, "z": 205.33050537109375 }, "tsne_coordinates": { "x": 4.6687703132629395, "y": 22.197025299072266, "z": -6.5577168464660645 }, "pca_coordinates": { "x": -3.178901195526123, "y": -1.0079495906829834, "z": 1.4559099674224854 }, "axis_scores": { "Quantum imaging": 0.7670011520385742, "Quantum Life Science Sensing": 0.7646007537841797, "Quantum sensing Detection": 0.7385038137435913, "Quantum sensing Metrology": 0.7123311758041382, "Quantum sensing navigation": 0.7384673953056335, "Quantum sensing Position": 0.7140682339668274, "Quantum sensing Timing": 0.6957154870033264, "Quantum sensing": 0.743430495262146, "Quantum control": 0.6896684169769287 } }, { "id": 1504, "title": "Finite-temperature dynamical quantum phase transition in a non-Hermitian system", "abstract": "We investigate the interplay between non-Hermiticity and finite temperature in the context of a mixed-state dynamical quantum phase transition (MSDQPT). We consider a p-wave superconductor model, enco...", "citations": 25, "author_count": 3, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1506, "doi": "10.1103/PhysRevB.107.184311", "umap_coordinates": { "x": 395.0931091308594, "y": 136.629638671875, "z": 208.77346801757812 }, "tsne_coordinates": { "x": -17.429399490356445, "y": -24.09130859375, "z": 12.236963272094727 }, "pca_coordinates": { "x": 6.763319969177246, "y": 0.7013705968856812, "z": -0.9821844100952148 }, "axis_scores": { "Quantum imaging": 0.7286128997802734, "Quantum Life Science Sensing": 0.7438311576843262, "Quantum sensing Detection": 0.7431581020355225, "Quantum sensing Metrology": 0.7178764343261719, "Quantum sensing navigation": 0.7452386021614075, "Quantum sensing Position": 0.7118268609046936, "Quantum sensing Timing": 0.7112523317337036, "Quantum sensing": 0.7442638278007507, "Quantum control": 0.7253736257553101 } }, { "id": 1505, "title": "Crystal Phase Engineering in Single InAs Nanowires", "abstract": "Achieving phase purity and control in III-V nanowires is a necessity for future nanowire-based device applications. Many works have focused on cleaning specific crystal phases of defects such as twin ...", "citations": 248, "author_count": 5, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1507, "doi": "10.1021/nl101632a", "umap_coordinates": { "x": 392.804443359375, "y": 133.52471923828125, "z": 207.70484924316406 }, "tsne_coordinates": { "x": 19.558700561523438, "y": -14.944500923156738, "z": -6.124858379364014 }, "pca_coordinates": { "x": 0.09971916675567627, "y": -5.487475872039795, "z": -0.17348909378051758 }, "axis_scores": { "Quantum imaging": 0.7104415893554688, "Quantum Life Science Sensing": 0.7196924686431885, "Quantum sensing Detection": 0.7037312984466553, "Quantum sensing Metrology": 0.7039448022842407, "Quantum sensing navigation": 0.7277621626853943, "Quantum sensing Position": 0.6889987587928772, "Quantum sensing Timing": 0.6716408729553223, "Quantum sensing": 0.7155445218086243, "Quantum control": 0.6919944286346436 } }, { "id": 1506, "title": "Semiconductor nanowires for novel one-dimensional devices", "abstract": "Low-dimensional semiconductors offer interesting physical phenomena but also the possibility to realize novel types of devices based on, for instance, ID structures. By using traditional top-down fabr...", "citations": 115, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1508, "doi": "10.1016/j.physe.2003.11.072", "umap_coordinates": { "x": 393.30450439453125, "y": 133.53598022460938, "z": 207.3262176513672 }, "tsne_coordinates": { "x": 23.40476417541504, "y": 8.533456802368164, "z": 12.646449089050293 }, "pca_coordinates": { "x": -0.031357765197753906, "y": -3.6822075843811035, "z": 1.7390327453613281 }, "axis_scores": { "Quantum imaging": 0.7146952152252197, "Quantum Life Science Sensing": 0.7233297824859619, "Quantum sensing Detection": 0.7116603255271912, "Quantum sensing Metrology": 0.704206109046936, "Quantum sensing navigation": 0.7130575776100159, "Quantum sensing Position": 0.6850980520248413, "Quantum sensing Timing": 0.6597205996513367, "Quantum sensing": 0.7177426218986511, "Quantum control": 0.6764109134674072 } }, { "id": 1507, "title": "Calculation of the quantum entanglement measure of bipartite states, based on relative entropy, using genetic algorithms", "abstract": "Quantum entanglement is an enigmatic and powerful property that has attracted much attention, since it provides new means of communication, such as quantum cryptography, quantum teleportation and supe...", "citations": 13, "author_count": 3, "categories": [ "Computer Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1509, "doi": "10.1006/jcph.2001.6957", "umap_coordinates": { "x": 394.30096435546875, "y": 137.08216857910156, "z": 206.14918518066406 }, "tsne_coordinates": { "x": -25.224884033203125, "y": -2.317272424697876, "z": 14.146562576293945 }, "pca_coordinates": { "x": 1.4215714931488037, "y": 2.6160268783569336, "z": 0.5988537669181824 }, "axis_scores": { "Quantum imaging": 0.7607071399688721, "Quantum Life Science Sensing": 0.7565573453903198, "Quantum sensing Detection": 0.7592732310295105, "Quantum sensing Metrology": 0.7387992143630981, "Quantum sensing navigation": 0.761320948600769, "Quantum sensing Position": 0.747437596321106, "Quantum sensing Timing": 0.7250863313674927, "Quantum sensing": 0.768042802810669, "Quantum control": 0.7383226156234741 } }, { "id": 1508, "title": "OPERATION OF RICH SINGLE-PHOTON DETECTORS WITH OPTICALLY SHIELDED WIRES IN TRANSVERSE MAGNETIC-FIELDS", "abstract": "", "citations": 9, "author_count": 12, "categories": [ "Instruments & Instrumentation" ], "year": 1986, "topic": [ "all" ], "embedding_index": 1510, "doi": "10.1016/0168-9002(86)91216-7", "umap_coordinates": { "x": 394.4618835449219, "y": 133.8280029296875, "z": 207.2193603515625 }, "tsne_coordinates": { "x": -15.845060348510742, "y": 0.1084747388958931, "z": -33.92108917236328 }, "pca_coordinates": { "x": -0.5276280641555786, "y": -0.8261795043945312, "z": 2.744560718536377 }, "axis_scores": { "Quantum imaging": 0.7074484825134277, "Quantum Life Science Sensing": 0.7082638740539551, "Quantum sensing Detection": 0.6964594721794128, "Quantum sensing Metrology": 0.6961148381233215, "Quantum sensing navigation": 0.7057275176048279, "Quantum sensing Position": 0.6717550754547119, "Quantum sensing Timing": 0.6877430081367493, "Quantum sensing": 0.7063873410224915, "Quantum control": 0.659062922000885 } }, { "id": 1509, "title": "Radio-frequency single-electron transistor as readout device for qubits: Charge sensitivity and backaction", "abstract": "We study the radio-frequency single-electron transistor (rf-SET) as a readout device for charge qubits. We measure the charge sensitivity of an rf-SET to be 6.3 mue/root Hz and evaluate the backaction...", "citations": 208, "author_count": 6, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1511, "doi": "10.1103/PhysRevLett.86.3376", "umap_coordinates": { "x": 394.5213317871094, "y": 134.27464294433594, "z": 208.35958862304688 }, "tsne_coordinates": { "x": 2.167499542236328, "y": -28.657390594482422, "z": -14.90475845336914 }, "pca_coordinates": { "x": 2.753906726837158, "y": -1.9009337425231934, "z": 1.3160638809204102 }, "axis_scores": { "Quantum imaging": 0.7257723808288574, "Quantum Life Science Sensing": 0.7802868485450745, "Quantum sensing Detection": 0.7589407563209534, "Quantum sensing Metrology": 0.7492020726203918, "Quantum sensing navigation": 0.7377947568893433, "Quantum sensing Position": 0.725916862487793, "Quantum sensing Timing": 0.7256585359573364, "Quantum sensing": 0.7655012607574463, "Quantum control": 0.7150743007659912 } }, { "id": 1510, "title": "Wurtzite GaAs Quantum Wires: One-Dimensional Subband Formation", "abstract": "It is of contemporary interest to fabricate nanowires having quantum confinement and one-dimensional subband formation. This is due to a host of applications, for example, in optical devices, and in q...", "citations": 27, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1512, "doi": "10.1021/acs.nanolett.6b00482", "umap_coordinates": { "x": 392.2671813964844, "y": 134.3216552734375, "z": 207.23878479003906 }, "tsne_coordinates": { "x": 19.128450393676758, "y": -12.828780174255371, "z": -8.510276794433594 }, "pca_coordinates": { "x": 0.34121644496917725, "y": -4.9230546951293945, "z": -0.8094731569290161 }, "axis_scores": { "Quantum imaging": 0.7028277516365051, "Quantum Life Science Sensing": 0.7176744937896729, "Quantum sensing Detection": 0.6992123126983643, "Quantum sensing Metrology": 0.6946984529495239, "Quantum sensing navigation": 0.7113421559333801, "Quantum sensing Position": 0.686212420463562, "Quantum sensing Timing": 0.6853861808776855, "Quantum sensing": 0.7104184031486511, "Quantum control": 0.6896564364433289 } }, { "id": 1511, "title": "DYNAMICAL ENTROPY FOR QUANTUM-SYSTEMS", "abstract": "", "citations": 10, "author_count": 2, "categories": [ "Mathematics" ], "year": 1988, "topic": [ "all" ], "embedding_index": 1513, "doi": null, "umap_coordinates": { "x": 392.0133361816406, "y": 139.30438232421875, "z": 208.77207946777344 }, "tsne_coordinates": { "x": -16.829164505004883, "y": 39.85869598388672, "z": -0.16528311371803284 }, "pca_coordinates": { "x": 3.621077060699463, "y": 4.016265392303467, "z": -3.4859683513641357 }, "axis_scores": { "Quantum imaging": 0.7242790460586548, "Quantum Life Science Sensing": 0.7370323538780212, "Quantum sensing Detection": 0.7255676984786987, "Quantum sensing Metrology": 0.7126909494400024, "Quantum sensing navigation": 0.7351018190383911, "Quantum sensing Position": 0.6960896849632263, "Quantum sensing Timing": 0.7001287341117859, "Quantum sensing": 0.7291716933250427, "Quantum control": 0.7341765761375427 } }, { "id": 1512, "title": "Stochastic Thermodynamics of a Quantum Dot Coupled to a Finite-Size Reservoir", "abstract": "In nanoscale systems coupled to finite-size reservoirs, the reservoir temperature may fluctuate due to heat exchange between the system and the reservoirs. To date, a stochastic thermodynamic analysis...", "citations": 15, "author_count": 4, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1514, "doi": "10.1103/PhysRevLett.131.220405", "umap_coordinates": { "x": 394.75897216796875, "y": 135.3609161376953, "z": 208.77833557128906 }, "tsne_coordinates": { "x": -8.766364097595215, "y": -23.32177734375, "z": 6.022973537445068 }, "pca_coordinates": { "x": 4.928070068359375, "y": -1.6496930122375488, "z": 1.38580322265625 }, "axis_scores": { "Quantum imaging": 0.7370914220809937, "Quantum Life Science Sensing": 0.7608123421669006, "Quantum sensing Detection": 0.7661809921264648, "Quantum sensing Metrology": 0.7485700845718384, "Quantum sensing navigation": 0.7532467842102051, "Quantum sensing Position": 0.7345696687698364, "Quantum sensing Timing": 0.7453498244285583, "Quantum sensing": 0.7756108045578003, "Quantum control": 0.7269910573959351 } }, { "id": 1513, "title": "Communication-Efficient Algorithms for Numerical Quantum Dynamics", "abstract": "The time-dependent Schrodinger equation (TDSE) describes the quantum dynamical nature of molecular processes. However, numerical simulations of this linear, high-dimensional partial differential equat...", "citations": 2, "author_count": 4, "categories": [ "Computer Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1515, "doi": null, "umap_coordinates": { "x": 392.0526123046875, "y": 139.34779357910156, "z": 208.83160400390625 }, "tsne_coordinates": { "x": -17.31958770751953, "y": 42.090457916259766, "z": -1.1734086275100708 }, "pca_coordinates": { "x": 1.770956039428711, "y": 4.278494834899902, "z": -0.8317158222198486 }, "axis_scores": { "Quantum imaging": 0.7691947817802429, "Quantum Life Science Sensing": 0.7395107746124268, "Quantum sensing Detection": 0.7495653629302979, "Quantum sensing Metrology": 0.7345083951950073, "Quantum sensing navigation": 0.7662357091903687, "Quantum sensing Position": 0.7158598303794861, "Quantum sensing Timing": 0.7291209101676941, "Quantum sensing": 0.7580320835113525, "Quantum control": 0.7494702339172363 } }, { "id": 1514, "title": "GENERALIZED RECOIL THEOREM FOR SOFT QUANTUM EMISSION INCLUDING PHOTON-PAIR CORRELATIONS TO INFINITE-ORDER IN COUPLING-CONSTANT", "abstract": "", "citations": 8, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 1974, "topic": [ "all" ], "embedding_index": 1516, "doi": "10.1103/PhysRevD.9.2894", "umap_coordinates": { "x": 395.4792785644531, "y": 135.6965789794922, "z": 207.80349731445312 }, "tsne_coordinates": { "x": -12.333847045898438, "y": -14.894371032714844, "z": -15.327374458312988 }, "pca_coordinates": { "x": 3.0444116592407227, "y": 0.09383320808410645, "z": 0.9500004649162292 }, "axis_scores": { "Quantum imaging": 0.6871473789215088, "Quantum Life Science Sensing": 0.7199212312698364, "Quantum sensing Detection": 0.7038516998291016, "Quantum sensing Metrology": 0.6923847794532776, "Quantum sensing navigation": 0.686379075050354, "Quantum sensing Position": 0.6605767011642456, "Quantum sensing Timing": 0.6674054861068726, "Quantum sensing": 0.7037442326545715, "Quantum control": 0.6375346779823303 } }, { "id": 1515, "title": "Thermoelectricity without absorbing energy from the heat sources", "abstract": "We analyze the power output of a quantum dot machine coupled to two electronic reservoirs via thermoelectric contacts, and to two thermal reservoirs - one hot and one cold. This machine is a nanoscale...", "citations": 40, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1517, "doi": "10.1016/j.physe.2015.09.025", "umap_coordinates": { "x": 393.39373779296875, "y": 134.3224639892578, "z": 205.75128173828125 }, "tsne_coordinates": { "x": 29.55333709716797, "y": 8.644872665405273, "z": 13.311711311340332 }, "pca_coordinates": { "x": -1.077613115310669, "y": -0.020449161529541016, "z": -0.46967294812202454 }, "axis_scores": { "Quantum imaging": 0.7201279401779175, "Quantum Life Science Sensing": 0.7397416234016418, "Quantum sensing Detection": 0.7205561399459839, "Quantum sensing Metrology": 0.7101613283157349, "Quantum sensing navigation": 0.7036358714103699, "Quantum sensing Position": 0.7062201499938965, "Quantum sensing Timing": 0.6974523067474365, "Quantum sensing": 0.7374411821365356, "Quantum control": 0.704389214515686 } }, { "id": 1516, "title": "Genotoxicity Evaluation of Nanomaterials: DNA Damage, Micronuclei, and 8-Hydroxy-2-deoxyguanosine Induced by Magnetic Doped CdSe Quantum Dots in Male Mice", "abstract": "Quantum dots (QDs) are a novel class of inorganic fluorophores which are gaining widespread recognition as a result of their exceptional photophysical properties and their applications as a biomarker ...", "citations": 57, "author_count": 6, "categories": [ "Pharmacology & Pharmacy" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1518, "doi": "10.1021/tx2000015", "umap_coordinates": { "x": 393.24847412109375, "y": 134.6978302001953, "z": 204.4278564453125 }, "tsne_coordinates": { "x": 15.49496841430664, "y": 23.07122802734375, "z": 2.5479841232299805 }, "pca_coordinates": { "x": -4.017730712890625, "y": -0.9759035110473633, "z": -2.2523581981658936 }, "axis_scores": { "Quantum imaging": 0.6971457004547119, "Quantum Life Science Sensing": 0.7360989451408386, "Quantum sensing Detection": 0.689434289932251, "Quantum sensing Metrology": 0.6896162629127502, "Quantum sensing navigation": 0.6749281287193298, "Quantum sensing Position": 0.6771059632301331, "Quantum sensing Timing": 0.666907548904419, "Quantum sensing": 0.6952437162399292, "Quantum control": 0.6798631548881531 } }, { "id": 1517, "title": "Monte Carlo simulation of charge sharing effects in silicon and GaAs photon-counting X-ray imaging detectors", "abstract": "In this paper, we present a numerical study of charge sharing in photon-counting X-ray imaging detectors. The study is based on charge transport simulations combined with a system level Monte Carlo si...", "citations": 21, "author_count": 4, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1519, "doi": "10.1109/TNS.2004.832577", "umap_coordinates": { "x": 394.96527099609375, "y": 132.66839599609375, "z": 205.79962158203125 }, "tsne_coordinates": { "x": -16.922744750976562, "y": 16.264034271240234, "z": -18.641206741333008 }, "pca_coordinates": { "x": -0.9416401386260986, "y": 0.30663514137268066, "z": 4.36086893081665 }, "axis_scores": { "Quantum imaging": 0.7578539848327637, "Quantum Life Science Sensing": 0.7114516496658325, "Quantum sensing Detection": 0.7376990914344788, "Quantum sensing Metrology": 0.7294618487358093, "Quantum sensing navigation": 0.7293733358383179, "Quantum sensing Position": 0.7128795981407166, "Quantum sensing Timing": 0.7683340311050415, "Quantum sensing": 0.740882933139801, "Quantum control": 0.6952837705612183 } }, { "id": 1518, "title": "Optimal quantum parametric feedback cooling br", "abstract": "We propose an optimal protocol using phase-preserving quantum measurements and phase-dependent modu-lations of the trapping potential at parametric resonance to cool a quantum oscillator to an occupat...", "citations": 9, "author_count": 3, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1520, "doi": "10.1103/PhysRevA.107.023516", "umap_coordinates": { "x": 395.4310607910156, "y": 136.09083557128906, "z": 208.12411499023438 }, "tsne_coordinates": { "x": -18.16228485107422, "y": -21.203109741210938, "z": -2.4744861125946045 }, "pca_coordinates": { "x": 4.245497703552246, "y": 0.46482980251312256, "z": -0.015940964221954346 }, "axis_scores": { "Quantum imaging": 0.7615182399749756, "Quantum Life Science Sensing": 0.7483932375907898, "Quantum sensing Detection": 0.7623759508132935, "Quantum sensing Metrology": 0.7477211952209473, "Quantum sensing navigation": 0.7619273662567139, "Quantum sensing Position": 0.7328077554702759, "Quantum sensing Timing": 0.7372593879699707, "Quantum sensing": 0.7707298398017883, "Quantum control": 0.7794864177703857 } }, { "id": 1519, "title": "Measurement-Induced Symmetry Restoration and Quantum Mpemba Effect", "abstract": "Monitoring a quantum system can profoundly alter its dynamical properties, leading to non-trivial emergent phenomena. In this work, we demonstrate that dynamical measurements strongly influence the ev...", "citations": 8, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1521, "doi": "10.3390/e27040407", "umap_coordinates": { "x": 395.6279296875, "y": 136.79978942871094, "z": 206.2785186767578 }, "tsne_coordinates": { "x": -25.4254150390625, "y": 4.660406112670898, "z": 4.750997066497803 }, "pca_coordinates": { "x": 0.8667178153991699, "y": 2.667726993560791, "z": -0.0015015006065368652 }, "axis_scores": { "Quantum imaging": 0.7773565053939819, "Quantum Life Science Sensing": 0.764082133769989, "Quantum sensing Detection": 0.7608759999275208, "Quantum sensing Metrology": 0.7801791429519653, "Quantum sensing navigation": 0.7565266489982605, "Quantum sensing Position": 0.7525081634521484, "Quantum sensing Timing": 0.724032461643219, "Quantum sensing": 0.7699556350708008, "Quantum control": 0.7362791299819946 } }, { "id": 1520, "title": "Sulfur quantum dot as a fluorescent nanoprobe for Fe3+ ions: Uncovering of detection mechanism, high sensitivity, and large detection range", "abstract": "Sulfur quantum dots (SQDs), as a novel metal-free fluorescent material, are getting increasingly tremendous attention in metal ion detection, especially for Fe3+, due to the merits of antimicrobial po...", "citations": 18, "author_count": 10, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1522, "doi": "10.1016/j.jlumin.2023.119693", "umap_coordinates": { "x": 393.1666564941406, "y": 133.7135009765625, "z": 205.1425323486328 }, "tsne_coordinates": { "x": 17.03006362915039, "y": 16.510784149169922, "z": -12.3701810836792 }, "pca_coordinates": { "x": -3.710911989212036, "y": -2.4242234230041504, "z": -0.48084527254104614 }, "axis_scores": { "Quantum imaging": 0.7277759313583374, "Quantum Life Science Sensing": 0.7763742208480835, "Quantum sensing Detection": 0.7607202529907227, "Quantum sensing Metrology": 0.734298825263977, "Quantum sensing navigation": 0.734767735004425, "Quantum sensing Position": 0.720533013343811, "Quantum sensing Timing": 0.6969220638275146, "Quantum sensing": 0.7555733919143677, "Quantum control": 0.6930564045906067 } }, { "id": 1521, "title": "Triplet transfer from PbS quantum dots to tetracene ligands: is faster always better?", "abstract": "Quantum dot-organic semiconductor hybrid materials are gaining increasing attention as spin mixers for applications ranging from solar harvesting to spin memories. Triplet energy transfer between the ...", "citations": 7, "author_count": 14, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1523, "doi": "10.1039/d2tc03470k", "umap_coordinates": { "x": 391.514404296875, "y": 135.24249267578125, "z": 205.24742126464844 }, "tsne_coordinates": { "x": 23.255863189697266, "y": -7.148147106170654, "z": -30.445999145507812 }, "pca_coordinates": { "x": -1.8793591260910034, "y": -2.041962146759033, "z": -2.061269521713257 }, "axis_scores": { "Quantum imaging": 0.6921859979629517, "Quantum Life Science Sensing": 0.701645016670227, "Quantum sensing Detection": 0.6829192042350769, "Quantum sensing Metrology": 0.6649503707885742, "Quantum sensing navigation": 0.6762018203735352, "Quantum sensing Position": 0.6731714010238647, "Quantum sensing Timing": 0.6948937177658081, "Quantum sensing": 0.6940065026283264, "Quantum control": 0.6842600107192993 } }, { "id": 1522, "title": "Classical and quantum dynamics of the O+CN reaction", "abstract": "Electronic structure (CASPT2) calculations have been performed for the (2)Pi and (4)Sigma(-) states of the NCO system. To create the potential energy surfaces, the generalized discrete variable repres...", "citations": 13, "author_count": 5, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1524, "doi": "10.1016/j.chemphys.2005.11.012", "umap_coordinates": { "x": 393.7853088378906, "y": 137.3644561767578, "z": 206.08370971679688 }, "tsne_coordinates": { "x": -8.69975757598877, "y": 7.112451553344727, "z": 22.493833541870117 }, "pca_coordinates": { "x": 0.8956236839294434, "y": 2.228706121444702, "z": -2.5305440425872803 }, "axis_scores": { "Quantum imaging": 0.7735456824302673, "Quantum Life Science Sensing": 0.7708162069320679, "Quantum sensing Detection": 0.7734775543212891, "Quantum sensing Metrology": 0.7369509935379028, "Quantum sensing navigation": 0.7685591578483582, "Quantum sensing Position": 0.7272591590881348, "Quantum sensing Timing": 0.7414815425872803, "Quantum sensing": 0.7816683053970337, "Quantum control": 0.7876154780387878 } }, { "id": 1523, "title": "Electromagnetically induced transparency in inhomogeneously broadened divacancy defect ensembles in SiC", "abstract": "Electromagnetically induced transparency (EIT) is a phenomenon that can provide strong and robust interfacing between optical signals and quantum coherence of electronic spins. In its archetypical for...", "citations": 1, "author_count": 9, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1525, "doi": "10.1063/5.0077112", "umap_coordinates": { "x": 393.6966857910156, "y": 134.88966369628906, "z": 207.46932983398438 }, "tsne_coordinates": { "x": 20.721721649169922, "y": -21.87726402282715, "z": 8.931473731994629 }, "pca_coordinates": { "x": 1.1581809520721436, "y": -1.624133586883545, "z": 0.2140026092529297 }, "axis_scores": { "Quantum imaging": 0.7059316635131836, "Quantum Life Science Sensing": 0.7029948234558105, "Quantum sensing Detection": 0.6912738084793091, "Quantum sensing Metrology": 0.6930419206619263, "Quantum sensing navigation": 0.686988115310669, "Quantum sensing Position": 0.6594073176383972, "Quantum sensing Timing": 0.6458779573440552, "Quantum sensing": 0.6984584927558899, "Quantum control": 0.6687189340591431 } }, { "id": 1524, "title": "Monte Carlo simulation of charge sharing effects in silicon and GaAs photon counting X-ray imaging detectors", "abstract": "In this work we present a numerical study of charge sharing in photon counting X-ray imaging detectors. The study is based on charge transport simulations combined with a system level Monte Carlo simu...", "citations": 1, "author_count": 4, "categories": [ "Nuclear Science & Technology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1526, "doi": null, "umap_coordinates": { "x": 391.50360107421875, "y": 139.1315460205078, "z": 209.42733764648438 }, "tsne_coordinates": { "x": 1.0838919878005981, "y": 40.12615203857422, "z": -10.681259155273438 }, "pca_coordinates": { "x": -1.8233697414398193, "y": 3.175835132598877, "z": 2.4127509593963623 }, "axis_scores": { "Quantum imaging": 0.751315176486969, "Quantum Life Science Sensing": 0.7121477127075195, "Quantum sensing Detection": 0.7225275635719299, "Quantum sensing Metrology": 0.7170892357826233, "Quantum sensing navigation": 0.7189156413078308, "Quantum sensing Position": 0.6996963024139404, "Quantum sensing Timing": 0.7191783785820007, "Quantum sensing": 0.7244277596473694, "Quantum control": 0.6987561583518982 } }, { "id": 1525, "title": "Global Estimates of Errors in Quantum Computation by the Feynman-Vernon Formalism", "abstract": "The operation of a quantum computer is considered as a general quantum operation on a mixed state on many qubits followed by a measurement. The general quantum operation is further represented as a Fe...", "citations": 4, "author_count": 2, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1527, "doi": "10.1007/s10955-018-2037-6", "umap_coordinates": { "x": 394.32452392578125, "y": 136.31333923339844, "z": 206.3710479736328 }, "tsne_coordinates": { "x": -19.859561920166016, "y": 18.1514892578125, "z": 6.015356540679932 }, "pca_coordinates": { "x": 0.5047420263290405, "y": 1.689683437347412, "z": 0.599672257900238 }, "axis_scores": { "Quantum imaging": 0.7297471761703491, "Quantum Life Science Sensing": 0.736242949962616, "Quantum sensing Detection": 0.7440921068191528, "Quantum sensing Metrology": 0.7565287351608276, "Quantum sensing navigation": 0.7610624432563782, "Quantum sensing Position": 0.7425541877746582, "Quantum sensing Timing": 0.7314613461494446, "Quantum sensing": 0.7558413147926331, "Quantum control": 0.7208647727966309 } }, { "id": 1526, "title": "From local to nonlocal: higher fidelity simulations of photon emission in intense laser pulses", "abstract": "State-of-the-art numerical simulations of quantum electrodynamical (QED) processes in strong laser fields rely on a semiclassical combination of classical equations of motion and QED rates, which are ...", "citations": 34, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1528, "doi": "10.1088/1367-2630/ac1bf6", "umap_coordinates": { "x": 394.77801513671875, "y": 136.7206268310547, "z": 206.7921600341797 }, "tsne_coordinates": { "x": -24.834346771240234, "y": -6.068378925323486, "z": -19.290407180786133 }, "pca_coordinates": { "x": 0.8193409442901611, "y": 1.9647457599639893, "z": 0.5665499567985535 }, "axis_scores": { "Quantum imaging": 0.7205926775932312, "Quantum Life Science Sensing": 0.6921953558921814, "Quantum sensing Detection": 0.6815888285636902, "Quantum sensing Metrology": 0.6717690825462341, "Quantum sensing navigation": 0.6771584153175354, "Quantum sensing Position": 0.6583190560340881, "Quantum sensing Timing": 0.6632699966430664, "Quantum sensing": 0.7038406729698181, "Quantum control": 0.6851361989974976 } }, { "id": 1527, "title": "A three-state model for electronic transitions represented in a generalized diabatic approach", "abstract": "We describe the chemical change between two diabatic closed-shell states as an electronic transition mediated by two factors: a bound diabatic transition state and the electromagnetic field. Using a t...", "citations": 8, "author_count": 2, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1529, "doi": "10.1023/B:JOMC.0000033253.41017.0c", "umap_coordinates": { "x": 394.032470703125, "y": 137.6284942626953, "z": 206.46421813964844 }, "tsne_coordinates": { "x": -14.799968719482422, "y": 16.348773956298828, "z": 30.718219757080078 }, "pca_coordinates": { "x": 1.0890684127807617, "y": 1.0953375101089478, "z": -3.272731304168701 }, "axis_scores": { "Quantum imaging": 0.654698371887207, "Quantum Life Science Sensing": 0.6735851764678955, "Quantum sensing Detection": 0.6488973498344421, "Quantum sensing Metrology": 0.6451717615127563, "Quantum sensing navigation": 0.6678072214126587, "Quantum sensing Position": 0.6299238204956055, "Quantum sensing Timing": 0.6315103769302368, "Quantum sensing": 0.6595382690429688, "Quantum control": 0.6595648527145386 } }, { "id": 1528, "title": "Quantum No-signalling Correlations and Non-local Games", "abstract": "We introduce and examine three subclasses of the family of quantum no-signalling (QNS) correlations introduced by Duan and Winter: quantum commuting, quantum and local. We formalise the notion of a un...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1530, "doi": "10.1007/s00220-024-05001-x", "umap_coordinates": { "x": 395.1532897949219, "y": 137.52374267578125, "z": 206.57571411132812 }, "tsne_coordinates": { "x": -27.395017623901367, "y": -1.7932034730911255, "z": 10.355947494506836 }, "pca_coordinates": { "x": 1.4464845657348633, "y": 3.7187533378601074, "z": 0.5398954749107361 }, "axis_scores": { "Quantum imaging": 0.725102424621582, "Quantum Life Science Sensing": 0.7065417766571045, "Quantum sensing Detection": 0.7300657629966736, "Quantum sensing Metrology": 0.7128785252571106, "Quantum sensing navigation": 0.7510788440704346, "Quantum sensing Position": 0.7187033891677856, "Quantum sensing Timing": 0.7085984945297241, "Quantum sensing": 0.7362622022628784, "Quantum control": 0.7255684733390808 } }, { "id": 1529, "title": "Study of Indigo carmine as radical probe in photocatalysis", "abstract": "The feasibility of using Indigo carmine (IC) as a probe of free radical production in photocatalysis was elucidated by comparative studies of its bleaching by gamma radiolysis and TiO(2) photocatalysi...", "citations": 19, "author_count": 4, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1531, "doi": "10.1016/j.jphotochem.2008.11.008", "umap_coordinates": { "x": 393.3827209472656, "y": 134.8553009033203, "z": 205.12881469726562 }, "tsne_coordinates": { "x": 2.560331344604492, "y": 9.336505889892578, "z": 7.892446994781494 }, "pca_coordinates": { "x": -3.5327401161193848, "y": 0.4577982425689697, "z": -0.9441136121749878 }, "axis_scores": { "Quantum imaging": 0.744084894657135, "Quantum Life Science Sensing": 0.7513672113418579, "Quantum sensing Detection": 0.7281990647315979, "Quantum sensing Metrology": 0.6985443830490112, "Quantum sensing navigation": 0.7067365646362305, "Quantum sensing Position": 0.6883814334869385, "Quantum sensing Timing": 0.6613537073135376, "Quantum sensing": 0.732218325138092, "Quantum control": 0.6974471807479858 } }, { "id": 1530, "title": "Revealing higher-order light and matter energy exchanges using quantum trajectories in ultrastrong coupling", "abstract": "The dynamics of open quantum systems is often modeled using master equations, which describe the expected outcome of an experiment (i.e., the average over many realizations of the same dynamics). Quan...", "citations": 11, "author_count": 7, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1532, "doi": "10.1103/PhysRevA.105.023720", "umap_coordinates": { "x": 395.05474853515625, "y": 136.61830139160156, "z": 207.3922576904297 }, "tsne_coordinates": { "x": -5.049431324005127, "y": -14.025002479553223, "z": -14.78494930267334 }, "pca_coordinates": { "x": 3.6344199180603027, "y": 0.16703510284423828, "z": 0.24162501096725464 }, "axis_scores": { "Quantum imaging": 0.7073742747306824, "Quantum Life Science Sensing": 0.7012795805931091, "Quantum sensing Detection": 0.6973936557769775, "Quantum sensing Metrology": 0.6792925596237183, "Quantum sensing navigation": 0.712896466255188, "Quantum sensing Position": 0.699236273765564, "Quantum sensing Timing": 0.7245200872421265, "Quantum sensing": 0.7013970613479614, "Quantum control": 0.6665524840354919 } }, { "id": 1531, "title": "Decoherence-Free Interaction between Giant Atoms in Waveguide Quantum Electrodynamics", "abstract": "In quantum-optics experiments with both natural and artificial atoms, the atoms are usually small enough that they can be approximated as pointlike compared to the wavelength of the electromagnetic ra...", "citations": 294, "author_count": 4, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1533, "doi": "10.1103/PhysRevLett.120.140404", "umap_coordinates": { "x": 395.10980224609375, "y": 135.95022583007812, "z": 208.25880432128906 }, "tsne_coordinates": { "x": -15.711376190185547, "y": -20.915504455566406, "z": -12.448044776916504 }, "pca_coordinates": { "x": 5.626715183258057, "y": 0.06221151351928711, "z": 1.3117270469665527 }, "axis_scores": { "Quantum imaging": 0.7221389412879944, "Quantum Life Science Sensing": 0.7121671438217163, "Quantum sensing Detection": 0.7215582132339478, "Quantum sensing Metrology": 0.6987935900688171, "Quantum sensing navigation": 0.7375999093055725, "Quantum sensing Position": 0.6911181211471558, "Quantum sensing Timing": 0.6967653036117554, "Quantum sensing": 0.7244859337806702, "Quantum control": 0.6962465643882751 } }, { "id": 1532, "title": "Competing excited-state deactivation processes in bacteriophytochromes", "abstract": "Bacteriophytochromes are photoreceptor proteins of widespread use as templates for the engineering of fluorescent proteins with emission maxima in the near-infrared regime beyond 650 nm ideally suited...", "citations": 1, "author_count": 2, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1534, "doi": "10.1016/bs.aiq.2020.05.003", "umap_coordinates": { "x": 393.03009033203125, "y": 136.41162109375, "z": 205.0319061279297 }, "tsne_coordinates": { "x": -0.5375306010246277, "y": 10.562586784362793, "z": 14.110944747924805 }, "pca_coordinates": { "x": -2.0842344760894775, "y": -0.8739705085754395, "z": -2.2702462673187256 }, "axis_scores": { "Quantum imaging": 0.6802607774734497, "Quantum Life Science Sensing": 0.7019945383071899, "Quantum sensing Detection": 0.6843050718307495, "Quantum sensing Metrology": 0.6707217693328857, "Quantum sensing navigation": 0.6577389240264893, "Quantum sensing Position": 0.6546332836151123, "Quantum sensing Timing": 0.6587584614753723, "Quantum sensing": 0.6875999569892883, "Quantum control": 0.6491940021514893 } }, { "id": 1533, "title": "Upconverting nanoparticles for pre-clinical diffuse optical imaging, microscopy and sensing: Current trends and future challenges", "abstract": "Upconverting nanoparticles (UCNPs) are a class of recently developed luminescent biomarkers that - in several aspects - are superior to organic dyes and quantum dots. UCNPs can emit spectrally narrow ...", "citations": 155, "author_count": 8, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1535, "doi": "10.1002/lpor.201200052", "umap_coordinates": { "x": 393.8467102050781, "y": 133.54254150390625, "z": 204.95367431640625 }, "tsne_coordinates": { "x": 13.079963684082031, "y": 21.547231674194336, "z": -21.617551803588867 }, "pca_coordinates": { "x": -5.382892608642578, "y": 0.7655160427093506, "z": 0.6962663531303406 }, "axis_scores": { "Quantum imaging": 0.7287830114364624, "Quantum Life Science Sensing": 0.7363086342811584, "Quantum sensing Detection": 0.7066159248352051, "Quantum sensing Metrology": 0.6958444118499756, "Quantum sensing navigation": 0.6821988224983215, "Quantum sensing Position": 0.6822926998138428, "Quantum sensing Timing": 0.6622898578643799, "Quantum sensing": 0.7124401330947876, "Quantum control": 0.6635259985923767 } }, { "id": 1534, "title": "High efficiency, Pt-free photoelectrochemical cells for solar hydrogen generation based on giant quantum dots", "abstract": "Quantum dot (QD) sensitized TiO2 is considered as a highly promising photoanode material for photo electrochemical (PEC) solar hydrogen production. However, due to its limited stability, the photoanod...", "citations": 112, "author_count": 11, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1536, "doi": "10.1016/j.nanoen.2016.07.010", "umap_coordinates": { "x": 392.4843444824219, "y": 133.48403930664062, "z": 205.2313995361328 }, "tsne_coordinates": { "x": 24.57142448425293, "y": 4.514329433441162, "z": -9.968422889709473 }, "pca_coordinates": { "x": -2.901008129119873, "y": -3.400298595428467, "z": -0.11944591999053955 }, "axis_scores": { "Quantum imaging": 0.708877682685852, "Quantum Life Science Sensing": 0.7513797879219055, "Quantum sensing Detection": 0.7168935537338257, "Quantum sensing Metrology": 0.7017006874084473, "Quantum sensing navigation": 0.6947852373123169, "Quantum sensing Position": 0.6793511509895325, "Quantum sensing Timing": 0.6869456171989441, "Quantum sensing": 0.7312837839126587, "Quantum control": 0.6915732026100159 } }, { "id": 1535, "title": "Spontaneous InAs quantum dot nucleation at strained InP/GaInAs interfaces", "abstract": "We present a cross-sectional scanning-tunneling microscopy investigation of twofold stacked InAs quantum dots in InP, between layers of GaInAs. The dots are vertically aligned, and images with atomic ...", "citations": 8, "author_count": 7, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1537, "doi": "10.1063/1.1632542", "umap_coordinates": { "x": 392.591552734375, "y": 133.80203247070312, "z": 208.45639038085938 }, "tsne_coordinates": { "x": 25.874170303344727, "y": -17.534889221191406, "z": 1.251907467842102 }, "pca_coordinates": { "x": 1.8538479804992676, "y": -4.630213260650635, "z": 0.7857715487480164 }, "axis_scores": { "Quantum imaging": 0.7175924181938171, "Quantum Life Science Sensing": 0.7154938578605652, "Quantum sensing Detection": 0.727868914604187, "Quantum sensing Metrology": 0.7177603244781494, "Quantum sensing navigation": 0.7074098587036133, "Quantum sensing Position": 0.7029891610145569, "Quantum sensing Timing": 0.6768113970756531, "Quantum sensing": 0.7351921200752258, "Quantum control": 0.7075601816177368 } }, { "id": 1536, "title": "Utilizing light trapping interference effects in microcavity structured colloidal quantum dot solar cells: A combined theoretical and experimental approach", "abstract": "Colloidal quantum dot (CQD) solar cells are promising devices for solar energy conversion. However, usually the CQD layer in the devices needs to be thin to avoid recombination of the photogenerated c...", "citations": 25, "author_count": 3, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1538, "doi": "10.1016/j.nanoen.2016.08.034", "umap_coordinates": { "x": 393.0860900878906, "y": 133.54649353027344, "z": 206.02442932128906 }, "tsne_coordinates": { "x": 29.336307525634766, "y": 6.755375385284424, "z": -13.1217679977417 }, "pca_coordinates": { "x": -1.9236860275268555, "y": -2.3248887062072754, "z": 0.7336838841438293 }, "axis_scores": { "Quantum imaging": 0.7572017908096313, "Quantum Life Science Sensing": 0.7427166700363159, "Quantum sensing Detection": 0.7393407821655273, "Quantum sensing Metrology": 0.7366667985916138, "Quantum sensing navigation": 0.741060197353363, "Quantum sensing Position": 0.7262825965881348, "Quantum sensing Timing": 0.6872174739837646, "Quantum sensing": 0.7507005929946899, "Quantum control": 0.7210864424705505 } }, { "id": 1537, "title": "Quantum sensing with driven-dissipative Su-Schrieffer-Heeger lattices", "abstract": "The remarkable sensitivity of non-Hermitian systems has been extensively studied and stimulated ideas about developing new types of sensors. In this paper, we examine a chain of parametrically driven ...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1539, "doi": "10.1103/PhysRevResearch.7.013309", "umap_coordinates": { "x": 395.7167053222656, "y": 136.34979248046875, "z": 208.0150909423828 }, "tsne_coordinates": { "x": -23.672527313232422, "y": -17.511432647705078, "z": -7.857551097869873 }, "pca_coordinates": { "x": 3.907386302947998, "y": -0.1567401885986328, "z": 2.2134246826171875 }, "axis_scores": { "Quantum imaging": 0.7638007402420044, "Quantum Life Science Sensing": 0.7926687002182007, "Quantum sensing Detection": 0.7893149256706238, "Quantum sensing Metrology": 0.7853949666023254, "Quantum sensing navigation": 0.7774065732955933, "Quantum sensing Position": 0.7428779006004333, "Quantum sensing Timing": 0.7204967141151428, "Quantum sensing": 0.7966121435165405, "Quantum control": 0.7246434688568115 } }, { "id": 1538, "title": "Two-colour photoswitching in photoresponsive inorganic thin films", "abstract": "Herein we report the first example of an inorganic photochromic material that allows for spatial addressability. We designed a photoresponsive thin film based on a ruthenium sulfoxide complex, [Ru(dee...", "citations": 3, "author_count": 8, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1540, "doi": "10.1039/d1ma00013f", "umap_coordinates": { "x": 392.29443359375, "y": 135.70809936523438, "z": 205.87106323242188 }, "tsne_coordinates": { "x": 9.606085777282715, "y": 2.8497474193573, "z": -3.822219133377075 }, "pca_coordinates": { "x": -1.6274588108062744, "y": -2.7720112800598145, "z": -0.8473554253578186 }, "axis_scores": { "Quantum imaging": 0.7103592157363892, "Quantum Life Science Sensing": 0.7308347225189209, "Quantum sensing Detection": 0.7084317207336426, "Quantum sensing Metrology": 0.7001619935035706, "Quantum sensing navigation": 0.6852227449417114, "Quantum sensing Position": 0.6752609014511108, "Quantum sensing Timing": 0.665264904499054, "Quantum sensing": 0.7191495895385742, "Quantum control": 0.677207350730896 } }, { "id": 1539, "title": "Multi-core fiber integrated multi-port beam splitters for quantum information processing", "abstract": "Multi-port beam splitters are cornerstone devices for high-dimensional quantum information tasks, which can outperform the two-dimensional ones. Nonetheless, the fabrication of such devices has proven...", "citations": 61, "author_count": 14, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1541, "doi": "10.1364/OPTICA.388912", "umap_coordinates": { "x": 394.6065673828125, "y": 134.19371032714844, "z": 206.75584411621094 }, "tsne_coordinates": { "x": -0.48576873540878296, "y": -8.26426887512207, "z": -30.338472366333008 }, "pca_coordinates": { "x": 0.16582894325256348, "y": 0.481170654296875, "z": 4.109176158905029 }, "axis_scores": { "Quantum imaging": 0.7739061713218689, "Quantum Life Science Sensing": 0.7178244590759277, "Quantum sensing Detection": 0.752922534942627, "Quantum sensing Metrology": 0.766447901725769, "Quantum sensing navigation": 0.7471820712089539, "Quantum sensing Position": 0.7170160412788391, "Quantum sensing Timing": 0.7204928398132324, "Quantum sensing": 0.7673291563987732, "Quantum control": 0.7285714745521545 } }, { "id": 1540, "title": "Signal yields of keV electronic recoils and their discrimination from nuclear recoils in liquid xenon", "abstract": "We report on the response of liquid xenon to low energy electronic recoils below 15 keV from beta decays of tritium at drift fields of 92 V/cm, 154 V/cm and 366 V/cm using the XENON100 detector. A dat...", "citations": 45, "author_count": 124, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1542, "doi": "10.1103/PhysRevD.97.092007", "umap_coordinates": { "x": 395.7034912109375, "y": 135.02174377441406, "z": 207.9126434326172 }, "tsne_coordinates": { "x": -5.054338455200195, "y": -9.071860313415527, "z": -4.8189377784729 }, "pca_coordinates": { "x": 2.4069435596466064, "y": 0.5265114307403564, "z": -0.14834553003311157 }, "axis_scores": { "Quantum imaging": 0.6776411533355713, "Quantum Life Science Sensing": 0.7048462629318237, "Quantum sensing Detection": 0.6916165351867676, "Quantum sensing Metrology": 0.6463040113449097, "Quantum sensing navigation": 0.6712119579315186, "Quantum sensing Position": 0.6580631732940674, "Quantum sensing Timing": 0.6711723804473877, "Quantum sensing": 0.6809676885604858, "Quantum control": 0.6312157511711121 } }, { "id": 1541, "title": "1H detection in MAS solid-state NMR Spectroscopy of biomacromolecules employing pulsed field gradients for residual solvent suppression", "abstract": "", "citations": 130, "author_count": 11, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1543, "doi": "10.1021/ja029354b", "umap_coordinates": { "x": 392.6173400878906, "y": 136.73130798339844, "z": 206.25843811035156 }, "tsne_coordinates": { "x": 16.406147003173828, "y": 7.908458232879639, "z": 29.997783660888672 }, "pca_coordinates": { "x": -0.8345703482627869, "y": 0.5960075855255127, "z": -3.2127127647399902 }, "axis_scores": { "Quantum imaging": 0.6410775184631348, "Quantum Life Science Sensing": 0.6808659434318542, "Quantum sensing Detection": 0.6335003972053528, "Quantum sensing Metrology": 0.6429402232170105, "Quantum sensing navigation": 0.6366645097732544, "Quantum sensing Position": 0.6292754411697388, "Quantum sensing Timing": 0.6084462404251099, "Quantum sensing": 0.6470099687576294, "Quantum control": 0.6262439489364624 } }, { "id": 1542, "title": "Influence of the signal light on the transient optical properties of a four-level EIT medium", "abstract": "General formulae for the transient evolution of the susceptibility (absorption) induced by the quantum interference effect in a four-level N-type EIT medium is presented. The influence of the signal l...", "citations": 36, "author_count": 4, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1544, "doi": "10.1016/j.physleta.2004.07.074", "umap_coordinates": { "x": 393.9601745605469, "y": 135.13706970214844, "z": 205.27000427246094 }, "tsne_coordinates": { "x": -16.447471618652344, "y": 1.2298791408538818, "z": -10.835203170776367 }, "pca_coordinates": { "x": -0.8977817893028259, "y": 0.8738377094268799, "z": -0.3885091543197632 }, "axis_scores": { "Quantum imaging": 0.7382330298423767, "Quantum Life Science Sensing": 0.7320482134819031, "Quantum sensing Detection": 0.716300904750824, "Quantum sensing Metrology": 0.6809459328651428, "Quantum sensing navigation": 0.6665791273117065, "Quantum sensing Position": 0.6828729510307312, "Quantum sensing Timing": 0.6986755728721619, "Quantum sensing": 0.7219092845916748, "Quantum control": 0.67632657289505 } }, { "id": 1543, "title": "Influence of spin waves on transport through a quantum-dot spin valve", "abstract": "We study the influence of spin waves on transport through a single-level quantum dot weakly coupled to ferromagnetic electrodes with noncollinear magnetizations. Side peaks appear in the differential ...", "citations": 17, "author_count": 4, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1545, "doi": "10.1103/PhysRevB.82.205314", "umap_coordinates": { "x": 394.11981201171875, "y": 135.39804077148438, "z": 209.01551818847656 }, "tsne_coordinates": { "x": 6.76579475402832, "y": -30.376184463500977, "z": 7.566160678863525 }, "pca_coordinates": { "x": 3.64693021774292, "y": -2.3093409538269043, "z": -0.2551136910915375 }, "axis_scores": { "Quantum imaging": 0.7220594882965088, "Quantum Life Science Sensing": 0.7209094166755676, "Quantum sensing Detection": 0.719426155090332, "Quantum sensing Metrology": 0.7060878276824951, "Quantum sensing navigation": 0.729023814201355, "Quantum sensing Position": 0.7006133198738098, "Quantum sensing Timing": 0.6909258961677551, "Quantum sensing": 0.7306913137435913, "Quantum control": 0.7236562371253967 } }, { "id": 1544, "title": "Bright Nanocomposites based on Quantum Dot-Initiated Photocatalysis", "abstract": "Integrating quantum dots (QDs) into polymer matrix to form nanocomposites without compromising the QD photoluminescence (PL) is crucial to emerging QD light-emitting and solar energy conversion fields...", "citations": 9, "author_count": 10, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1546, "doi": "10.1002/anie.202415645", "umap_coordinates": { "x": 392.1788024902344, "y": 134.06541442871094, "z": 205.26724243164062 }, "tsne_coordinates": { "x": 16.337677001953125, "y": 10.403214454650879, "z": -8.71506404876709 }, "pca_coordinates": { "x": -2.994126558303833, "y": -4.447587013244629, "z": 0.09180229902267456 }, "axis_scores": { "Quantum imaging": 0.6937204003334045, "Quantum Life Science Sensing": 0.6914403438568115, "Quantum sensing Detection": 0.6922340393066406, "Quantum sensing Metrology": 0.6578561067581177, "Quantum sensing navigation": 0.6584928631782532, "Quantum sensing Position": 0.6455520987510681, "Quantum sensing Timing": 0.6542072892189026, "Quantum sensing": 0.696274995803833, "Quantum control": 0.673873245716095 } }, { "id": 1545, "title": "Polyacrylonitrile/N,P co-doped graphene quantum dots-layered double hydroxide nanocomposite: Flame retardant property, thermal stability and fire hazard", "abstract": "ZnAl layered double hydroxide (ZnAl LDH) was synthesized via a facile hydrothermal method and then hybridized with the nitrogen and phosphorous co-doped graphene quantum dots at mild conditions. The s...", "citations": 30, "author_count": 5, "categories": [ "Polymer Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1547, "doi": "10.1016/j.eurpolymj.2019.109256", "umap_coordinates": { "x": 393.1287536621094, "y": 133.880615234375, "z": 204.67530822753906 }, "tsne_coordinates": { "x": 24.80725860595703, "y": 14.849618911743164, "z": -3.949456214904785 }, "pca_coordinates": { "x": -3.6733222007751465, "y": -0.7070856094360352, "z": -0.24124109745025635 }, "axis_scores": { "Quantum imaging": 0.712632954120636, "Quantum Life Science Sensing": 0.7423230409622192, "Quantum sensing Detection": 0.7240939140319824, "Quantum sensing Metrology": 0.6963801980018616, "Quantum sensing navigation": 0.7029820680618286, "Quantum sensing Position": 0.7065811157226562, "Quantum sensing Timing": 0.680847704410553, "Quantum sensing": 0.7334173917770386, "Quantum control": 0.7158772349357605 } }, { "id": 1546, "title": "Blinking Statistics and Excitation-Dependent Luminescence Yield in Si and CdSe Nanocrystals", "abstract": "ON-OFF intermittency or blinking is a phenomenon observed in single quantum emitters, which reduces their overall light emission. Even though it seems to be a fundamental property of quantum dots (QDs...", "citations": 17, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1548, "doi": "10.1021/jp4100685", "umap_coordinates": { "x": 392.3688049316406, "y": 133.77659606933594, "z": 206.92343139648438 }, "tsne_coordinates": { "x": 23.291276931762695, "y": 0.47413742542266846, "z": 8.553020477294922 }, "pca_coordinates": { "x": -2.2901315689086914, "y": -4.403964519500732, "z": 0.9036676287651062 }, "axis_scores": { "Quantum imaging": 0.6859340667724609, "Quantum Life Science Sensing": 0.7091653943061829, "Quantum sensing Detection": 0.6879653334617615, "Quantum sensing Metrology": 0.667119026184082, "Quantum sensing navigation": 0.6587986946105957, "Quantum sensing Position": 0.6637240052223206, "Quantum sensing Timing": 0.6580072641372681, "Quantum sensing": 0.689174234867096, "Quantum control": 0.6598699688911438 } }, { "id": 1547, "title": "Modulated Fluorescence of Colloidal Quantum Dots Embedded in a Porous Alumina Membrane", "abstract": "The fluorescence spectrum of CdSe core-CdS/ZnS shell colloidal quantum dots (QDs) embedded in porous alumina membrane was studied. Small peaks, superimposed on the principal QD fluorescence spectrum, ...", "citations": 7, "author_count": 8, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1549, "doi": "10.1021/jp409132e", "umap_coordinates": { "x": 393.0170593261719, "y": 135.25518798828125, "z": 205.42373657226562 }, "tsne_coordinates": { "x": 20.085948944091797, "y": 7.697821140289307, "z": 6.108933448791504 }, "pca_coordinates": { "x": -1.70399808883667, "y": -2.8740577697753906, "z": -1.1981847286224365 }, "axis_scores": { "Quantum imaging": 0.7430652976036072, "Quantum Life Science Sensing": 0.7448897957801819, "Quantum sensing Detection": 0.7159851789474487, "Quantum sensing Metrology": 0.7039961814880371, "Quantum sensing navigation": 0.7103303670883179, "Quantum sensing Position": 0.6843286752700806, "Quantum sensing Timing": 0.655914306640625, "Quantum sensing": 0.7341382503509521, "Quantum control": 0.7150376439094543 } }, { "id": 1548, "title": "Spin injection in lateral InAs quantum dot structures by optical orientation spectroscopy", "abstract": "Optical spin injection is studied in novel laterally-arranged self-assembled InAs/GaAs quantum dot structures, by using optical orientation measurements in combination with tunable laser spectroscopy....", "citations": 12, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1550, "doi": "10.1088/0957-4484/20/37/375401", "umap_coordinates": { "x": 392.7622985839844, "y": 134.7669219970703, "z": 207.98724365234375 }, "tsne_coordinates": { "x": 20.829565048217773, "y": -14.670331001281738, "z": 11.761974334716797 }, "pca_coordinates": { "x": 1.0007247924804688, "y": -0.8389925956726074, "z": 1.689481258392334 }, "axis_scores": { "Quantum imaging": 0.7348105311393738, "Quantum Life Science Sensing": 0.697368860244751, "Quantum sensing Detection": 0.699179470539093, "Quantum sensing Metrology": 0.6854040622711182, "Quantum sensing navigation": 0.7492202520370483, "Quantum sensing Position": 0.7229553461074829, "Quantum sensing Timing": 0.6862517595291138, "Quantum sensing": 0.7120697498321533, "Quantum control": 0.6858546733856201 } }, { "id": 1549, "title": "Experimental decoy-state quantum key distribution with a sub-poissionian heralded single-photon source", "abstract": "We have experimentally demonstrated a decoy-state quantum key distribution scheme (QKD) with a heralded single-photon source based on parametric down-conversion. We used a one-way Bennett-Brassard 198...", "citations": 155, "author_count": 11, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1551, "doi": "10.1103/PhysRevLett.100.090501", "umap_coordinates": { "x": 395.4192199707031, "y": 134.53976440429688, "z": 207.75498962402344 }, "tsne_coordinates": { "x": -5.62920618057251, "y": -19.202129364013672, "z": -11.874512672424316 }, "pca_coordinates": { "x": 3.338888645172119, "y": 0.6815681457519531, "z": 3.8835763931274414 }, "axis_scores": { "Quantum imaging": 0.7159627676010132, "Quantum Life Science Sensing": 0.7219152450561523, "Quantum sensing Detection": 0.7193282246589661, "Quantum sensing Metrology": 0.7114752531051636, "Quantum sensing navigation": 0.707793116569519, "Quantum sensing Position": 0.7017277479171753, "Quantum sensing Timing": 0.7033155560493469, "Quantum sensing": 0.7235100865364075, "Quantum control": 0.676175057888031 } }, { "id": 1550, "title": "Thermoelectricity without absorbing energy from the heat sources (Reprinted)", "abstract": "We analyze the power output of a quantum dot machine coupled to two electronic reservoirs via thermoelectric contacts, and to two thermal reservoirs-one hot and one cold. This machine is a nanoscale a...", "citations": 6, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1552, "doi": "10.1016/j.physe.2016.02.028", "umap_coordinates": { "x": 393.45489501953125, "y": 134.6295623779297, "z": 206.24169921875 }, "tsne_coordinates": { "x": 29.64310073852539, "y": 8.71387004852295, "z": 13.386163711547852 }, "pca_coordinates": { "x": -0.6519591808319092, "y": 0.09828639030456543, "z": -0.5400292873382568 }, "axis_scores": { "Quantum imaging": 0.7059577703475952, "Quantum Life Science Sensing": 0.7211874127388, "Quantum sensing Detection": 0.6996679306030273, "Quantum sensing Metrology": 0.6912841796875, "Quantum sensing navigation": 0.6882948279380798, "Quantum sensing Position": 0.6951583623886108, "Quantum sensing Timing": 0.6821745038032532, "Quantum sensing": 0.716012716293335, "Quantum control": 0.6901018619537354 } }, { "id": 1551, "title": "LONG-TERM EXPOSURE OF NORWAY SPRUCE, PICEA-ABIES (L) KARST, TO OZONE IN OPEN-TOP CHAMBERS .3. EFFECTS ON THE LIGHT RESPONSE OF NET PHOTOSYNTHESIS IN SHOOTS OF DIFFERENT AGES", "abstract": "Rates of photosynthesis at different photosynthetic photon flux densities (PPFD; 0-1 530-mu-mol m-2 s-1)were measured on three shoot age classes of one clone of Norway spruce, Picea abies (L.) Karst. ...", "citations": 29, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1992, "topic": [ "all" ], "embedding_index": 1553, "doi": "10.1111/j.1469-8137.1992.tb02938.x", "umap_coordinates": { "x": 394.42486572265625, "y": 135.87522888183594, "z": 203.69851684570312 }, "tsne_coordinates": { "x": 11.51153564453125, "y": 32.8702392578125, "z": 13.27122688293457 }, "pca_coordinates": { "x": -2.9347984790802, "y": 0.8308441638946533, "z": -0.30547812581062317 }, "axis_scores": { "Quantum imaging": 0.6705085635185242, "Quantum Life Science Sensing": 0.7219205498695374, "Quantum sensing Detection": 0.6859750151634216, "Quantum sensing Metrology": 0.676711916923523, "Quantum sensing navigation": 0.6895312666893005, "Quantum sensing Position": 0.6852160096168518, "Quantum sensing Timing": 0.7030350565910339, "Quantum sensing": 0.6968703269958496, "Quantum control": 0.6722368001937866 } }, { "id": 1552, "title": "Antiferromagnetic interaction in coupled CdSe/ZnMnSe quantum dot structures", "abstract": "Spin polarization of nonmagnetic CdSe quantum dots (QDs) coupled to adjacent ZnMnSe diluted magnetic semiconductor (DMS) is investigated by CW and time-resolved magneto-optical spectroscopy under tuna...", "citations": 6, "author_count": 6, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1554, "doi": "10.1063/1.4739852", "umap_coordinates": { "x": 392.9847106933594, "y": 135.2498016357422, "z": 208.37014770507812 }, "tsne_coordinates": { "x": 12.670656204223633, "y": -29.030488967895508, "z": 15.685895919799805 }, "pca_coordinates": { "x": 2.5179266929626465, "y": -3.4641575813293457, "z": -0.7066766023635864 }, "axis_scores": { "Quantum imaging": 0.7325795888900757, "Quantum Life Science Sensing": 0.7286438345909119, "Quantum sensing Detection": 0.7225043773651123, "Quantum sensing Metrology": 0.7269679307937622, "Quantum sensing navigation": 0.7312982082366943, "Quantum sensing Position": 0.7122973203659058, "Quantum sensing Timing": 0.6953182220458984, "Quantum sensing": 0.7301544547080994, "Quantum control": 0.7084110379219055 } }, { "id": 1553, "title": "Light emission from silicon nanocrystals: Probing a single quantum dot", "abstract": "Analysis of low-temperature photoluminescence measurements performed on single silicon nanocrystals is presented. The luminescence emission linewidth of Si nanocrystals is found to be less than therma...", "citations": 17, "author_count": 7, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1555, "doi": "10.1016/j.apsusc.2005.12.030", "umap_coordinates": { "x": 393.8334045410156, "y": 133.2628936767578, "z": 207.5581512451172 }, "tsne_coordinates": { "x": 36.44028854370117, "y": 1.343334436416626, "z": -2.5153114795684814 }, "pca_coordinates": { "x": -2.5486347675323486, "y": -3.394143581390381, "z": 2.733182907104492 }, "axis_scores": { "Quantum imaging": 0.7551555037498474, "Quantum Life Science Sensing": 0.7702916860580444, "Quantum sensing Detection": 0.7683773040771484, "Quantum sensing Metrology": 0.7539690732955933, "Quantum sensing navigation": 0.737558126449585, "Quantum sensing Position": 0.7326884269714355, "Quantum sensing Timing": 0.6989397406578064, "Quantum sensing": 0.7745413780212402, "Quantum control": 0.7218719720840454 } }, { "id": 1554, "title": "Photochemical formation of the elusive Dewar isomers of aromatic systems: why are substituted azaborines different?", "abstract": "Photochemical reactions enabling efficient transformation of aromatic systems into energetic but stable non-aromatic isomers have a long history in organic chemistry. One recently discovered reaction ...", "citations": 12, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1556, "doi": "10.1039/d4cp00777h", "umap_coordinates": { "x": 392.4886169433594, "y": 136.6210174560547, "z": 205.2572021484375 }, "tsne_coordinates": { "x": 0.6501529812812805, "y": 4.8586907386779785, "z": -8.45952033996582 }, "pca_coordinates": { "x": -0.08790111541748047, "y": 1.0736899375915527, "z": -3.2729275226593018 }, "axis_scores": { "Quantum imaging": 0.6910378932952881, "Quantum Life Science Sensing": 0.7034406065940857, "Quantum sensing Detection": 0.6741344332695007, "Quantum sensing Metrology": 0.6511080265045166, "Quantum sensing navigation": 0.67337566614151, "Quantum sensing Position": 0.6614799499511719, "Quantum sensing Timing": 0.6616197824478149, "Quantum sensing": 0.6812006831169128, "Quantum control": 0.6729910373687744 } }, { "id": 1555, "title": "Constructing type-II CuInSe2/CuInS2 core/shell quantum dots for high-performance photoelectrochemical cells", "abstract": "CuInSe2 (CISe) quantum dots (QDs) have shown promising applications in photoelectrochemical (PEC) cells due to their nontoxicity, high extinction coefficient, and wide optical absorption range; howeve...", "citations": 10, "author_count": 10, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1557, "doi": "10.1007/s40843-023-2690-3", "umap_coordinates": { "x": 392.11309814453125, "y": 133.60719299316406, "z": 205.4923858642578 }, "tsne_coordinates": { "x": 26.52527618408203, "y": 4.3052592277526855, "z": -4.1070990562438965 }, "pca_coordinates": { "x": -3.4829936027526855, "y": -3.648599624633789, "z": -1.394633412361145 }, "axis_scores": { "Quantum imaging": 0.695326566696167, "Quantum Life Science Sensing": 0.7287684679031372, "Quantum sensing Detection": 0.6925536394119263, "Quantum sensing Metrology": 0.6698743104934692, "Quantum sensing navigation": 0.6830188035964966, "Quantum sensing Position": 0.6571346521377563, "Quantum sensing Timing": 0.6746551990509033, "Quantum sensing": 0.7081742882728577, "Quantum control": 0.7018462419509888 } }, { "id": 1556, "title": "Enhanced normal-direction excitation and emission of dual-emitting quantum dots on a cascaded photonic crystal surface", "abstract": "Large normal-direction excitation and emission of dual-emitting quantum dots (QDs) are essential for practical application of QD sensors based on the ratiometric fluorescence response. We have numeric...", "citations": 38, "author_count": 7, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1558, "doi": "10.1039/c4nr03851g", "umap_coordinates": { "x": 392.2264404296875, "y": 134.2979736328125, "z": 206.4236297607422 }, "tsne_coordinates": { "x": 15.825990676879883, "y": -8.624102592468262, "z": -2.81387996673584 }, "pca_coordinates": { "x": -1.907151222229004, "y": -3.9243035316467285, "z": 1.5477559566497803 }, "axis_scores": { "Quantum imaging": 0.7240802645683289, "Quantum Life Science Sensing": 0.6909911632537842, "Quantum sensing Detection": 0.7086806893348694, "Quantum sensing Metrology": 0.682936429977417, "Quantum sensing navigation": 0.6878459453582764, "Quantum sensing Position": 0.6588716506958008, "Quantum sensing Timing": 0.6389833688735962, "Quantum sensing": 0.7093052268028259, "Quantum control": 0.6802580952644348 } }, { "id": 1557, "title": "Classical nuclear motion in quantum transport", "abstract": "An ab initio quantum-classical mixed scheme for the time evolution of electrode-device-electrode systems is introduced to study nuclear dynamics in quantum transport. Two model systems are discussed t...", "citations": 65, "author_count": 4, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1559, "doi": "10.1103/PhysRevLett.97.046603", "umap_coordinates": { "x": 394.4408264160156, "y": 136.58807373046875, "z": 207.96031188964844 }, "tsne_coordinates": { "x": -21.415815353393555, "y": -13.366673469543457, "z": 14.41125774383545 }, "pca_coordinates": { "x": 5.751580238342285, "y": 0.9788844585418701, "z": -0.20351645350456238 }, "axis_scores": { "Quantum imaging": 0.74935382604599, "Quantum Life Science Sensing": 0.7296593189239502, "Quantum sensing Detection": 0.7373784780502319, "Quantum sensing Metrology": 0.7022340297698975, "Quantum sensing navigation": 0.7763099074363708, "Quantum sensing Position": 0.7360833287239075, "Quantum sensing Timing": 0.7425206899642944, "Quantum sensing": 0.7456729412078857, "Quantum control": 0.7399443984031677 } }, { "id": 1558, "title": "Energy Alignment of Quantum-Confined ZnO Particles with Copper Oxides for Heterojunctions with Improved Photocatalytic Performance", "abstract": "The ability to controlelectronic states by utilizing quantum confinementof one of the material components in heterojunctions is a promisingapproach to perform energy-level matching. In this work, we r...", "citations": 5, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1560, "doi": "10.1021/acsnanoscienceau.1c00040", "umap_coordinates": { "x": 391.997314453125, "y": 133.80819702148438, "z": 205.96380615234375 }, "tsne_coordinates": { "x": 21.706499099731445, "y": -3.842866897583008, "z": -5.660420894622803 }, "pca_coordinates": { "x": -1.2124006748199463, "y": -4.867678165435791, "z": 1.0184903144836426 }, "axis_scores": { "Quantum imaging": 0.696343183517456, "Quantum Life Science Sensing": 0.687750518321991, "Quantum sensing Detection": 0.6800984740257263, "Quantum sensing Metrology": 0.681202232837677, "Quantum sensing navigation": 0.7006738185882568, "Quantum sensing Position": 0.6863663196563721, "Quantum sensing Timing": 0.662287712097168, "Quantum sensing": 0.6904743909835815, "Quantum control": 0.6860817670822144 } }, { "id": 1559, "title": "Quantum interference structures in trapped-ion dynamics beyond the Lamb-Dicke and rotating wave approximations", "abstract": "We apply wave-packet methods to study an ion-trap system imposing neither the rotating wave nor the Lamb-Dicke approximations. By this approach we show the existence of states with restricted phase-sp...", "citations": 17, "author_count": 6, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1561, "doi": "10.1103/PhysRevA.77.053808", "umap_coordinates": { "x": 394.50360107421875, "y": 136.72071838378906, "z": 208.2636260986328 }, "tsne_coordinates": { "x": -17.094511032104492, "y": -14.048123359680176, "z": 17.465932846069336 }, "pca_coordinates": { "x": 5.3868818283081055, "y": 1.612790584564209, "z": -0.7782319784164429 }, "axis_scores": { "Quantum imaging": 0.7529045343399048, "Quantum Life Science Sensing": 0.7277539968490601, "Quantum sensing Detection": 0.7170184254646301, "Quantum sensing Metrology": 0.7000246047973633, "Quantum sensing navigation": 0.7535898685455322, "Quantum sensing Position": 0.7090436220169067, "Quantum sensing Timing": 0.7177500128746033, "Quantum sensing": 0.7277394533157349, "Quantum control": 0.7148510813713074 } }, { "id": 1560, "title": "In situ scanning gate imaging of individual quantum two-level system defects in live superconducting circuits", "abstract": "The low-temperature physics of structurally amorphous materials is governed by low-energy two-level system (TLS) defects. Being impervious to most traditional condensed matter probes, the exact origin...", "citations": 3, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1562, "doi": "10.1126/sciadv.adt8586", "umap_coordinates": { "x": 394.00799560546875, "y": 135.59555053710938, "z": 206.4007110595703 }, "tsne_coordinates": { "x": -1.4996416568756104, "y": -9.1331787109375, "z": 26.81424331665039 }, "pca_coordinates": { "x": 0.2384026050567627, "y": -0.5495154857635498, "z": 1.0074236392974854 }, "axis_scores": { "Quantum imaging": 0.7531546354293823, "Quantum Life Science Sensing": 0.7523372173309326, "Quantum sensing Detection": 0.7261111736297607, "Quantum sensing Metrology": 0.7194960117340088, "Quantum sensing navigation": 0.7300978899002075, "Quantum sensing Position": 0.7126386761665344, "Quantum sensing Timing": 0.7234371304512024, "Quantum sensing": 0.7405651211738586, "Quantum control": 0.6998511552810669 } }, { "id": 1561, "title": "VON NEUMANN AND LUDERS POSTULATES AND QUANTUM INFORMATION THEORY", "abstract": "This note is devoted to some foundational aspects of quantum mechanics (QM) related to quantum information (QI), especially quantum teleportation and one way quantum computing. We emphasize the role o...", "citations": 10, "author_count": 2, "categories": [ "Computer Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1563, "doi": "10.1142/S0219749909005845", "umap_coordinates": { "x": 395.4271240234375, "y": 137.41302490234375, "z": 206.07040405273438 }, "tsne_coordinates": { "x": -27.498815536499023, "y": 3.6263821125030518, "z": 6.195028305053711 }, "pca_coordinates": { "x": 1.741285800933838, "y": 3.991514205932617, "z": -0.32534414529800415 }, "axis_scores": { "Quantum imaging": 0.7414083480834961, "Quantum Life Science Sensing": 0.7541888356208801, "Quantum sensing Detection": 0.7513716220855713, "Quantum sensing Metrology": 0.7527363300323486, "Quantum sensing navigation": 0.7561004161834717, "Quantum sensing Position": 0.7297425270080566, "Quantum sensing Timing": 0.7146044969558716, "Quantum sensing": 0.7685151696205139, "Quantum control": 0.749995231628418 } }, { "id": 1562, "title": "Measurement of identified π0 and inclusive photon second-harmonic parameter v2 and implications for direct photon production in √sNN=200 GeVAu+Au - art. no. 032302", "abstract": "The azimuthal distribution of identified pi(0) and inclusive photons has been measured in root s(NN)=200 GeV Au+Au collisions with the PHENIX experiment at the Relativistic Heavy-Ion Collider (RHIC). ...", "citations": 54, "author_count": 331, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1564, "doi": "10.1103/PhysRevLett.96.032302", "umap_coordinates": { "x": 396.4743347167969, "y": 134.3069305419922, "z": 207.94236755371094 }, "tsne_coordinates": { "x": -32.585601806640625, "y": 0.8813020586967468, "z": -19.3018856048584 }, "pca_coordinates": { "x": 1.138566255569458, "y": -0.8635258674621582, "z": 3.106015205383301 }, "axis_scores": { "Quantum imaging": 0.6819131970405579, "Quantum Life Science Sensing": 0.7076659202575684, "Quantum sensing Detection": 0.710357129573822, "Quantum sensing Metrology": 0.6987433433532715, "Quantum sensing navigation": 0.7038446068763733, "Quantum sensing Position": 0.694879412651062, "Quantum sensing Timing": 0.6820353269577026, "Quantum sensing": 0.7042524814605713, "Quantum control": 0.6608837246894836 } }, { "id": 1563, "title": "MEASUREMENT OF THE PHOTOEMISSION OF 2 ELECTRONS FROM A MULTIALKALI PHOTOCATHODE", "abstract": "Two-electron emission per incident photon, measured for a multialkali photocathode, shows a steep onset at 2700 angstrom and increases to 14% of the total quantum efficiency at 2000 angstrom....", "citations": 2, "author_count": 3, "categories": [ "Optics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 1565, "doi": "10.1364/AO.30.000367", "umap_coordinates": { "x": 395.60284423828125, "y": 134.72976684570312, "z": 206.5106201171875 }, "tsne_coordinates": { "x": -23.67159080505371, "y": 12.603829383850098, "z": 1.0462685823440552 }, "pca_coordinates": { "x": -1.0925413370132446, "y": -0.15366363525390625, "z": 1.9643278121948242 }, "axis_scores": { "Quantum imaging": 0.6847476959228516, "Quantum Life Science Sensing": 0.6841731071472168, "Quantum sensing Detection": 0.6804497838020325, "Quantum sensing Metrology": 0.671589195728302, "Quantum sensing navigation": 0.6599629521369934, "Quantum sensing Position": 0.6572339534759521, "Quantum sensing Timing": 0.6558655500411987, "Quantum sensing": 0.68355393409729, "Quantum control": 0.6354561448097229 } }, { "id": 1564, "title": "Toward ultra high magnetic field sensitivity YBa2Cu3O7-δ nanowire based superconducting quantum interference devices", "abstract": "We report on measurements of YBa2Cu3O7-delta nanowire based Superconducting QUantum Interference Devices (nanoSQUIDs) directly coupled to an in-plane pick-up loop. The pick-up loop, which is coupled p...", "citations": 20, "author_count": 6, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1566, "doi": "10.1063/1.4948477", "umap_coordinates": { "x": 393.8021240234375, "y": 134.47193908691406, "z": 208.32943725585938 }, "tsne_coordinates": { "x": 20.19489097595215, "y": -35.26777648925781, "z": 7.577244281768799 }, "pca_coordinates": { "x": 1.0695362091064453, "y": -2.483842372894287, "z": 1.5537705421447754 }, "axis_scores": { "Quantum imaging": 0.7302066683769226, "Quantum Life Science Sensing": 0.7262762784957886, "Quantum sensing Detection": 0.7405484318733215, "Quantum sensing Metrology": 0.7371854186058044, "Quantum sensing navigation": 0.748472273349762, "Quantum sensing Position": 0.7293614149093628, "Quantum sensing Timing": 0.7041224837303162, "Quantum sensing": 0.7497552037239075, "Quantum control": 0.7163023352622986 } }, { "id": 1565, "title": "Efficiency of spin injection in novel InAs quantum dot structures: exciton vs. free carrier injection", "abstract": "Unambiguous experimental evidence for a significant difference in efficiency of excitonic vs. free carrier spin injection is provided in novel laterally arranged self-assembled InAs/GaAs quantum dot s...", "citations": 5, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1567, "doi": "10.1088/1742-6596/245/1/012044", "umap_coordinates": { "x": 393.1190185546875, "y": 134.4976043701172, "z": 207.54542541503906 }, "tsne_coordinates": { "x": 22.68946075439453, "y": -12.685879707336426, "z": 12.055407524108887 }, "pca_coordinates": { "x": 0.24509763717651367, "y": -2.354796886444092, "z": 1.7834713459014893 }, "axis_scores": { "Quantum imaging": 0.7366033792495728, "Quantum Life Science Sensing": 0.7114607095718384, "Quantum sensing Detection": 0.703570544719696, "Quantum sensing Metrology": 0.6938955187797546, "Quantum sensing navigation": 0.7154736518859863, "Quantum sensing Position": 0.6852084994316101, "Quantum sensing Timing": 0.6876053810119629, "Quantum sensing": 0.7177894115447998, "Quantum control": 0.7032672762870789 } }, { "id": 1566, "title": "Submicrosecond entangling gate between trapped ions via Rydberg interaction", "abstract": "Generating quantum entanglement in large systems on timescales much shorter than the coherence time is key to powerful quantum simulation and computation. Trapped ions are among the most accurately co...", "citations": 74, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1568, "doi": "10.1038/s41586-020-2152-9", "umap_coordinates": { "x": 393.9512023925781, "y": 135.8541259765625, "z": 206.976318359375 }, "tsne_coordinates": { "x": -0.07606027275323868, "y": -6.006330966949463, "z": 13.886554718017578 }, "pca_coordinates": { "x": 0.98012375831604, "y": 0.1917409896850586, "z": 0.2722427248954773 }, "axis_scores": { "Quantum imaging": 0.6834713816642761, "Quantum Life Science Sensing": 0.6955912709236145, "Quantum sensing Detection": 0.6857280135154724, "Quantum sensing Metrology": 0.67606520652771, "Quantum sensing navigation": 0.6917380690574646, "Quantum sensing Position": 0.682352602481842, "Quantum sensing Timing": 0.7272605895996094, "Quantum sensing": 0.6925483345985413, "Quantum control": 0.635656476020813 } }, { "id": 1567, "title": "A New Cost-Efficient Design of a Reversible Gate Based on a Nano-Scale Quantum-Dot Cellular Automata Technology", "abstract": "Quantum-dot cellular automata (QCA) nanotechnology is a practical suggestion for replacing present silicon-based technologies. It provides many benefits, such as low power usage, high velocity, and an...", "citations": 27, "author_count": 4, "categories": [ "Computer Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1569, "doi": "10.3390/electronics10151806", "umap_coordinates": { "x": 393.2543640136719, "y": 134.6819305419922, "z": 205.77056884765625 }, "tsne_coordinates": { "x": -11.45425033569336, "y": 8.771775245666504, "z": -0.444236695766449 }, "pca_coordinates": { "x": -1.2302985191345215, "y": -0.5256855487823486, "z": -0.28009486198425293 }, "axis_scores": { "Quantum imaging": 0.7010670900344849, "Quantum Life Science Sensing": 0.7459431886672974, "Quantum sensing Detection": 0.7284783720970154, "Quantum sensing Metrology": 0.7079400420188904, "Quantum sensing navigation": 0.6993237137794495, "Quantum sensing Position": 0.6734679341316223, "Quantum sensing Timing": 0.6968882083892822, "Quantum sensing": 0.738287091255188, "Quantum control": 0.7093062400817871 } }, { "id": 1568, "title": "Soft X-ray induced oxidation on acrylic acid grafted luminescent silicon quantum dots in ultrahigh vacuum", "abstract": "Water soluble acrylic acid grafted luminescent silicon quantum dots (Si-QDs) were prepared by a simplified method. The resulting Si-QDs dissolved in water and showed stable strong luminescence with pe...", "citations": 14, "author_count": 6, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1570, "doi": "10.1002/pssa.201127212", "umap_coordinates": { "x": 393.68426513671875, "y": 133.6916961669922, "z": 206.1365966796875 }, "tsne_coordinates": { "x": 38.61009979248047, "y": -1.4356365203857422, "z": -9.8516206741333 }, "pca_coordinates": { "x": -1.9248504638671875, "y": -2.133368492126465, "z": 0.9681463837623596 }, "axis_scores": { "Quantum imaging": 0.7110123038291931, "Quantum Life Science Sensing": 0.7398868203163147, "Quantum sensing Detection": 0.7169125080108643, "Quantum sensing Metrology": 0.6928654313087463, "Quantum sensing navigation": 0.6867716908454895, "Quantum sensing Position": 0.6906952857971191, "Quantum sensing Timing": 0.6783288717269897, "Quantum sensing": 0.724372386932373, "Quantum control": 0.688347339630127 } }, { "id": 1569, "title": "Coherent transport through an interacting double quantum dot: Beyond sequential tunneling", "abstract": "Various causes for negative differential conductance in transport through an interacting double quantum dot are investigated. Particular focus is given to the interplay between the renormalization of ...", "citations": 62, "author_count": 5, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1571, "doi": "10.1103/PhysRevB.75.235314", "umap_coordinates": { "x": 394.164306640625, "y": 135.30088806152344, "z": 209.37020874023438 }, "tsne_coordinates": { "x": -5.05574369430542, "y": -28.1809024810791, "z": -3.3823604583740234 }, "pca_coordinates": { "x": 4.655026435852051, "y": -0.9908063411712646, "z": 1.772312879562378 }, "axis_scores": { "Quantum imaging": 0.7476012706756592, "Quantum Life Science Sensing": 0.7164262533187866, "Quantum sensing Detection": 0.7411737442016602, "Quantum sensing Metrology": 0.7138924598693848, "Quantum sensing navigation": 0.7484298944473267, "Quantum sensing Position": 0.6870111227035522, "Quantum sensing Timing": 0.7063121795654297, "Quantum sensing": 0.7427208423614502, "Quantum control": 0.7194390296936035 } }, { "id": 1570, "title": "Oblique Nuclear Quadrupole Interaction in Self-Assembled Structures Based on Semiconductor Quantum Dots", "abstract": "Dynamic nuclear polarization (DNP) is well recognized as being important in spintronics and quantum-information processing. DNP gives rise to high nuclear spin polarization that not only can prolong e...", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1572, "doi": "10.1103/PhysRevApplied.14.044019", "umap_coordinates": { "x": 393.2548522949219, "y": 135.1759796142578, "z": 208.81057739257812 }, "tsne_coordinates": { "x": 11.616713523864746, "y": -20.405927658081055, "z": 2.6422786712646484 }, "pca_coordinates": { "x": 3.737924575805664, "y": -2.9596939086914062, "z": 0.1997525691986084 }, "axis_scores": { "Quantum imaging": 0.7508788704872131, "Quantum Life Science Sensing": 0.7463245391845703, "Quantum sensing Detection": 0.7288196086883545, "Quantum sensing Metrology": 0.7040912508964539, "Quantum sensing navigation": 0.7369052171707153, "Quantum sensing Position": 0.7019941210746765, "Quantum sensing Timing": 0.6788179278373718, "Quantum sensing": 0.7320771217346191, "Quantum control": 0.7064684629440308 } }, { "id": 1571, "title": "VARIANCE COVARIANCE MEASUREMENTS IN PHOTON BEAMS FOR SIMULATED NANOMETER OBJECTS", "abstract": "The dose mean lineal energy, <(gamma)over bar>(D), has been measured with the variance and the variance-covariance method for simulated object diameters down to 6 nm in photon beams. The measurements ...", "citations": 16, "author_count": 4, "categories": [ "Environmental Sciences & Ecology" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1573, "doi": null, "umap_coordinates": { "x": 391.52301025390625, "y": 139.2037353515625, "z": 209.29820251464844 }, "tsne_coordinates": { "x": -6.298243522644043, "y": 38.85489273071289, "z": -7.2883830070495605 }, "pca_coordinates": { "x": -1.0885857343673706, "y": 3.2697272300720215, "z": 2.1666147708892822 }, "axis_scores": { "Quantum imaging": 0.7602121233940125, "Quantum Life Science Sensing": 0.7416220903396606, "Quantum sensing Detection": 0.7416000962257385, "Quantum sensing Metrology": 0.7565182447433472, "Quantum sensing navigation": 0.7680488228797913, "Quantum sensing Position": 0.7439955472946167, "Quantum sensing Timing": 0.7050649523735046, "Quantum sensing": 0.7440136671066284, "Quantum control": 0.7054630517959595 } }, { "id": 1572, "title": "Optimization of Optical Excitation of Upconversion Nanoparticles for Rapid Microscopy and Deeper Tissue Imaging with Higher Quantum Yield", "abstract": "Relatively low quantum yield (QY), time-consuming scanning and strong absorption of light in tissue are some of the issues present in the development of upconversion nanoparticles (UCNPs) for biomedic...", "citations": 66, "author_count": 6, "categories": [ "Research & Experimental Medicine" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1574, "doi": "10.7150/thno.6007", "umap_coordinates": { "x": 393.72064208984375, "y": 133.58175659179688, "z": 205.2513885498047 }, "tsne_coordinates": { "x": 10.135237693786621, "y": 20.44706153869629, "z": -21.078685760498047 }, "pca_coordinates": { "x": -4.263136386871338, "y": 0.1603226661682129, "z": 1.1649518013000488 }, "axis_scores": { "Quantum imaging": 0.7184497714042664, "Quantum Life Science Sensing": 0.7110542058944702, "Quantum sensing Detection": 0.6872629523277283, "Quantum sensing Metrology": 0.6890420317649841, "Quantum sensing navigation": 0.6766338348388672, "Quantum sensing Position": 0.6635029315948486, "Quantum sensing Timing": 0.6858714818954468, "Quantum sensing": 0.7013876438140869, "Quantum control": 0.665240466594696 } }, { "id": 1573, "title": "Anomalous decoherence and absence of thermalization in a photonic many-body system", "abstract": "The intention of this work is twofold: first, to present a most simple system capable of simulating the intrinsic bosonic Josephson effect with photons and, second, to study various outcomes deriving ...", "citations": 9, "author_count": 2, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1575, "doi": "10.1103/PhysRevA.83.052103", "umap_coordinates": { "x": 395.5362854003906, "y": 136.0655517578125, "z": 208.23388671875 }, "tsne_coordinates": { "x": -8.088014602661133, "y": -18.387861251831055, "z": -6.582134246826172 }, "pca_coordinates": { "x": 4.299112796783447, "y": 0.3136568069458008, "z": 1.1246354579925537 }, "axis_scores": { "Quantum imaging": 0.7407354712486267, "Quantum Life Science Sensing": 0.729364812374115, "Quantum sensing Detection": 0.7320010662078857, "Quantum sensing Metrology": 0.71590256690979, "Quantum sensing navigation": 0.725617527961731, "Quantum sensing Position": 0.698059618473053, "Quantum sensing Timing": 0.7001102566719055, "Quantum sensing": 0.7351860404014587, "Quantum control": 0.7079599499702454 } }, { "id": 1574, "title": "The effect of an additional infrared laser on the carrier collection efficiency of InAs quantum dots", "abstract": "We report a micro-photoluminescence study on the influence of single and multi-quantum dots (QDs) on the exposure by a low-energy laser, in addition to the principal exciting laser. At low temperature...", "citations": 6, "author_count": 7, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1576, "doi": "10.1063/1.1763231", "umap_coordinates": { "x": 392.9075927734375, "y": 133.3520965576172, "z": 207.8431396484375 }, "tsne_coordinates": { "x": 34.68095016479492, "y": -27.249696731567383, "z": -9.1886568069458 }, "pca_coordinates": { "x": -1.3382169008255005, "y": -2.7306108474731445, "z": 2.3929014205932617 }, "axis_scores": { "Quantum imaging": 0.692984402179718, "Quantum Life Science Sensing": 0.6885061264038086, "Quantum sensing Detection": 0.6870181560516357, "Quantum sensing Metrology": 0.6760882139205933, "Quantum sensing navigation": 0.6493051052093506, "Quantum sensing Position": 0.6572363376617432, "Quantum sensing Timing": 0.6553589105606079, "Quantum sensing": 0.6966769099235535, "Quantum control": 0.6544383764266968 } }, { "id": 1575, "title": "Strong enhancement of the photoluminescence-efficiency from InAs quantum dots", "abstract": "InAs quantum dots (QDs) have been investigated using optical spectroscopy, in order to understand the experimental observation of strong enhancement of their photoluminescence efficiency. When a tunne...", "citations": 2, "author_count": 7, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1577, "doi": "10.1063/1.1527706", "umap_coordinates": { "x": 393.0131530761719, "y": 133.35179138183594, "z": 207.87985229492188 }, "tsne_coordinates": { "x": 30.3256778717041, "y": -22.685508728027344, "z": -4.740006446838379 }, "pca_coordinates": { "x": -1.031162142753601, "y": -4.859776496887207, "z": 2.633749008178711 }, "axis_scores": { "Quantum imaging": 0.7258164286613464, "Quantum Life Science Sensing": 0.7097445130348206, "Quantum sensing Detection": 0.7243451476097107, "Quantum sensing Metrology": 0.7009128332138062, "Quantum sensing navigation": 0.6786515116691589, "Quantum sensing Position": 0.6707984805107117, "Quantum sensing Timing": 0.6515052914619446, "Quantum sensing": 0.7305383086204529, "Quantum control": 0.6754941940307617 } }, { "id": 1576, "title": "Ultrafast UV-mid-IR investigation of the ring opening reaction of a photochromic spiropyran", "abstract": "We present a femtosecond UV-mid-IR pump-probe study of the photochemical ring-opening reaction of the spiropyran 1',3',3',-trimethylspiro-[-2H-1-benzopyran-2,2'-indoline] (also known as BIPS) in tetra...", "citations": 102, "author_count": 5, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1578, "doi": "10.1021/ja028262j", "umap_coordinates": { "x": 392.67498779296875, "y": 136.2967529296875, "z": 205.44937133789062 }, "tsne_coordinates": { "x": -0.01734771579504013, "y": 6.889395713806152, "z": 7.475868225097656 }, "pca_coordinates": { "x": -2.4209656715393066, "y": -0.4380507469177246, "z": -0.9187983870506287 }, "axis_scores": { "Quantum imaging": 0.6933369636535645, "Quantum Life Science Sensing": 0.7286992073059082, "Quantum sensing Detection": 0.6968362927436829, "Quantum sensing Metrology": 0.6822925806045532, "Quantum sensing navigation": 0.6619230508804321, "Quantum sensing Position": 0.6481848955154419, "Quantum sensing Timing": 0.6374388933181763, "Quantum sensing": 0.7013759613037109, "Quantum control": 0.6524468064308167 } }, { "id": 1577, "title": "A general no-cloning theorem", "abstract": "A simple theorem is proved which has most of the known no-cloning and no-broadcasting results as corollaries. It also implies the standard restrictions on measuring noncommuting observables....", "citations": 94, "author_count": 2, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1579, "doi": "10.1023/A:1007581027660", "umap_coordinates": { "x": 392.5419921875, "y": 138.92747497558594, "z": 208.3370819091797 }, "tsne_coordinates": { "x": -22.15005111694336, "y": 3.3035759925842285, "z": 2.9024579524993896 }, "pca_coordinates": { "x": -0.21718156337738037, "y": 3.051772117614746, "z": -1.2898001670837402 }, "axis_scores": { "Quantum imaging": 0.6741297245025635, "Quantum Life Science Sensing": 0.6925913095474243, "Quantum sensing Detection": 0.6980604529380798, "Quantum sensing Metrology": 0.6814240217208862, "Quantum sensing navigation": 0.7090244293212891, "Quantum sensing Position": 0.6818069219589233, "Quantum sensing Timing": 0.6663528084754944, "Quantum sensing": 0.6966608762741089, "Quantum control": 0.7048473954200745 } }, { "id": 1578, "title": "HAS NUCLEAR CHIRALITY BEEN A PREBIOTIC SOURCE OF OPTICAL PURITY OF LIVING SYSTEMS - THE QUANTUM YIELDS OF GAMMA-DECARBOXYLATION AND BETA-DECARBOXYLATION OF 1-C-14 LABELED D-LEUCINE AND L-LEUCINE IN THE SOLID-STATE CAN INDICATE CONSIDERABLE SELECTIVITY", "abstract": "", "citations": 2, "author_count": 4, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 1986, "topic": [ "all" ], "embedding_index": 1580, "doi": "10.1007/BF02422109", "umap_coordinates": { "x": 393.5819396972656, "y": 136.4788818359375, "z": 204.84092712402344 }, "tsne_coordinates": { "x": 9.234253883361816, "y": 20.524066925048828, "z": 32.416934967041016 }, "pca_coordinates": { "x": -1.5397950410842896, "y": 2.1394190788269043, "z": -1.8476343154907227 }, "axis_scores": { "Quantum imaging": 0.722582995891571, "Quantum Life Science Sensing": 0.7505226731300354, "Quantum sensing Detection": 0.7084959149360657, "Quantum sensing Metrology": 0.6983540654182434, "Quantum sensing navigation": 0.7271466851234436, "Quantum sensing Position": 0.7060723900794983, "Quantum sensing Timing": 0.68290114402771, "Quantum sensing": 0.726935625076294, "Quantum control": 0.7106502056121826 } }, { "id": 1579, "title": "BOGOLIUBOV BOUNDARY-CONDITION AND THEORY OF SHADOW STATES IN QUANTUM FIELD-THEORY", "abstract": "", "citations": 3, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 1974, "topic": [ "all" ], "embedding_index": 1581, "doi": null, "umap_coordinates": { "x": 392.2149353027344, "y": 139.46653747558594, "z": 209.4066925048828 }, "tsne_coordinates": { "x": -7.071535110473633, "y": 40.77484130859375, "z": 1.4286102056503296 }, "pca_coordinates": { "x": 1.5945231914520264, "y": 4.180009365081787, "z": -2.99530291557312 }, "axis_scores": { "Quantum imaging": 0.7341031432151794, "Quantum Life Science Sensing": 0.7413504719734192, "Quantum sensing Detection": 0.7301182746887207, "Quantum sensing Metrology": 0.7289662957191467, "Quantum sensing navigation": 0.7444285154342651, "Quantum sensing Position": 0.7192345857620239, "Quantum sensing Timing": 0.7072301506996155, "Quantum sensing": 0.7429179549217224, "Quantum control": 0.7421727180480957 } }, { "id": 1580, "title": "In-situ growth of quantum dot structures by the Stranski-Krastanow growth mode", "abstract": "", "citations": 223, "author_count": 7, "categories": [ "Crystallography" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1582, "doi": "10.1016/S0960-8974(96)00090-3", "umap_coordinates": { "x": 392.5125732421875, "y": 134.6616668701172, "z": 207.3616943359375 }, "tsne_coordinates": { "x": 28.91779327392578, "y": -6.2370195388793945, "z": 5.698332786560059 }, "pca_coordinates": { "x": -0.31390511989593506, "y": -1.0709412097930908, "z": 0.5088176131248474 }, "axis_scores": { "Quantum imaging": 0.7141402363777161, "Quantum Life Science Sensing": 0.7416480183601379, "Quantum sensing Detection": 0.7246454358100891, "Quantum sensing Metrology": 0.7282669544219971, "Quantum sensing navigation": 0.7220183610916138, "Quantum sensing Position": 0.7246878147125244, "Quantum sensing Timing": 0.6815042495727539, "Quantum sensing": 0.7300460934638977, "Quantum control": 0.6723694205284119 } }, { "id": 1581, "title": "Near Infrared, Highly Efficient Luminescent Solar Concentrators", "abstract": "The fabrication of a low reabsorption emission loss, high efficient luminescent solar concentrator (LSC) is demonstrated by embedding near infrared (NIR) core/shell quantum dots (QDs) in a polymer mat...", "citations": 212, "author_count": 9, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1583, "doi": "10.1002/aenm.201501913", "umap_coordinates": { "x": 392.97314453125, "y": 133.3288116455078, "z": 205.5343780517578 }, "tsne_coordinates": { "x": 27.059720993041992, "y": 8.09046745300293, "z": -17.058759689331055 }, "pca_coordinates": { "x": -3.3793396949768066, "y": -2.2130303382873535, "z": 1.437695026397705 }, "axis_scores": { "Quantum imaging": 0.7144725322723389, "Quantum Life Science Sensing": 0.7209489941596985, "Quantum sensing Detection": 0.7098199725151062, "Quantum sensing Metrology": 0.715916633605957, "Quantum sensing navigation": 0.6908382177352905, "Quantum sensing Position": 0.6748965382575989, "Quantum sensing Timing": 0.6509427428245544, "Quantum sensing": 0.7233279943466187, "Quantum control": 0.6850615739822388 } }, { "id": 1582, "title": "Breast-density measurement using photon-counting spectral mammography", "abstract": "PurposeTo evaluate a method for measuring breast density using photon-counting spectral mammography. Breast density is an indicator of breast cancer risk and diagnostic accuracy in mammography, and ca...", "citations": 16, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1584, "doi": "10.1002/mp.12279", "umap_coordinates": { "x": 395.6011657714844, "y": 132.9195098876953, "z": 205.7701416015625 }, "tsne_coordinates": { "x": -8.425252914428711, "y": 19.983726501464844, "z": -28.869537353515625 }, "pca_coordinates": { "x": -2.609480142593384, "y": 0.8351285457611084, "z": 3.8969383239746094 }, "axis_scores": { "Quantum imaging": 0.7115943431854248, "Quantum Life Science Sensing": 0.7078501582145691, "Quantum sensing Detection": 0.7165839672088623, "Quantum sensing Metrology": 0.7123939990997314, "Quantum sensing navigation": 0.6798361539840698, "Quantum sensing Position": 0.6874411702156067, "Quantum sensing Timing": 0.6558342576026917, "Quantum sensing": 0.7076566219329834, "Quantum control": 0.6354616284370422 } }, { "id": 1583, "title": "The dominant one- and two-photon excited states in the nonlinear optical response of octatetraene: ab initio versus semiempirical theoretical descriptions", "abstract": "The one-and two-photon singlet excited states, relevant for the description of the nonlinear optical response of the octatetraene molecule, have been characterized by the ab initio complete active spa...", "citations": 15, "author_count": 5, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1585, "doi": "10.1016/S0009-2614(97)00958-5", "umap_coordinates": { "x": 393.18695068359375, "y": 135.7986297607422, "z": 206.1176300048828 }, "tsne_coordinates": { "x": -3.5949296951293945, "y": 0.5321612358093262, "z": 3.5728912353515625 }, "pca_coordinates": { "x": -1.1776267290115356, "y": -1.3277912139892578, "z": -0.4687584936618805 }, "axis_scores": { "Quantum imaging": 0.7238571047782898, "Quantum Life Science Sensing": 0.7284315228462219, "Quantum sensing Detection": 0.7126551866531372, "Quantum sensing Metrology": 0.700202465057373, "Quantum sensing navigation": 0.685498058795929, "Quantum sensing Position": 0.6710295081138611, "Quantum sensing Timing": 0.6881612539291382, "Quantum sensing": 0.7218660712242126, "Quantum control": 0.6754018068313599 } }, { "id": 1584, "title": "Water Adsorption on Na/Cu(111): State-Specific Coupling with Quantum Well States", "abstract": "The adsorption of water molecules on sodium-covered Cu(111) surfaces have been studied using first-principles calculations, Water molecules interact predominantly with the quantum well states of the N...", "citations": 7, "author_count": 3, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1586, "doi": "10.1021/jp304196r", "umap_coordinates": { "x": 393.1305236816406, "y": 137.13792419433594, "z": 205.52682495117188 }, "tsne_coordinates": { "x": 10.521915435791016, "y": -39.2767448425293, "z": -4.36738395690918 }, "pca_coordinates": { "x": 0.37249886989593506, "y": -1.534761667251587, "z": -0.4303756356239319 }, "axis_scores": { "Quantum imaging": 0.7217881083488464, "Quantum Life Science Sensing": 0.7368251085281372, "Quantum sensing Detection": 0.7407699823379517, "Quantum sensing Metrology": 0.7123187184333801, "Quantum sensing navigation": 0.7441203594207764, "Quantum sensing Position": 0.7085396647453308, "Quantum sensing Timing": 0.6849232912063599, "Quantum sensing": 0.750270664691925, "Quantum control": 0.7191007733345032 } }, { "id": 1585, "title": "Nonadiabatic rectification and current reversal in electron pumps", "abstract": "Pumping of electrons through nanoscale devices is one of the fascinating achievements in the field of nanoscience with a wide range of applications. To optimize the performance of pumps, operating the...", "citations": 13, "author_count": 3, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1587, "doi": "10.1103/PhysRevB.86.035330", "umap_coordinates": { "x": 393.7559509277344, "y": 135.5102996826172, "z": 208.1368408203125 }, "tsne_coordinates": { "x": -6.495267391204834, "y": -29.696489334106445, "z": -4.471289157867432 }, "pca_coordinates": { "x": 3.484191417694092, "y": -1.5617456436157227, "z": -0.7448686957359314 }, "axis_scores": { "Quantum imaging": 0.6951044201850891, "Quantum Life Science Sensing": 0.6962388753890991, "Quantum sensing Detection": 0.6907593011856079, "Quantum sensing Metrology": 0.6806032061576843, "Quantum sensing navigation": 0.7019273042678833, "Quantum sensing Position": 0.6643340587615967, "Quantum sensing Timing": 0.64990234375, "Quantum sensing": 0.695668637752533, "Quantum control": 0.6857699155807495 } }, { "id": 1586, "title": "Ultrafast control and opto-optical modulation of extreme ultraviolet light", "abstract": "Ultrashort, coherent light pulses in the extreme ultraviolet (XUV) wavelength region are excellent tools for a wide range of experiments. These XUV pulses are in particular used to characterize electr...", "citations": 13, "author_count": 3, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1588, "doi": "10.1088/1361-6455/ab01c2", "umap_coordinates": { "x": 394.6873779296875, "y": 135.17959594726562, "z": 206.26095581054688 }, "tsne_coordinates": { "x": -21.96933937072754, "y": -6.312122344970703, "z": -22.060108184814453 }, "pca_coordinates": { "x": 0.208717942237854, "y": 1.065242886543274, "z": 0.40036922693252563 }, "axis_scores": { "Quantum imaging": 0.7099956274032593, "Quantum Life Science Sensing": 0.718853235244751, "Quantum sensing Detection": 0.7018520832061768, "Quantum sensing Metrology": 0.6917793154716492, "Quantum sensing navigation": 0.6946678161621094, "Quantum sensing Position": 0.6609961986541748, "Quantum sensing Timing": 0.6819449067115784, "Quantum sensing": 0.7122161388397217, "Quantum control": 0.7486087679862976 } }, { "id": 1587, "title": "Carrier wave-packet transport under the influence of charged quantum dot in small-area resonant tunneling diode", "abstract": "It was shown experimentally that charging InAs quantum dots (QDs) embedded in a small-area GaAs/AlAs double-barrier resonant tunneling diode (RTD) effectively modified the carrier transport properties...", "citations": 8, "author_count": 7, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1589, "doi": "10.1063/1.2993339", "umap_coordinates": { "x": 393.6449890136719, "y": 134.36610412597656, "z": 208.30809020996094 }, "tsne_coordinates": { "x": 26.734466552734375, "y": -28.27328872680664, "z": -1.1732776165008545 }, "pca_coordinates": { "x": 1.9370031356811523, "y": -2.8327279090881348, "z": 1.0787572860717773 }, "axis_scores": { "Quantum imaging": 0.7416878938674927, "Quantum Life Science Sensing": 0.7548279166221619, "Quantum sensing Detection": 0.7486998438835144, "Quantum sensing Metrology": 0.7324451804161072, "Quantum sensing navigation": 0.7375532984733582, "Quantum sensing Position": 0.7153835892677307, "Quantum sensing Timing": 0.7044657468795776, "Quantum sensing": 0.762016773223877, "Quantum control": 0.7245329022407532 } }, { "id": 1588, "title": "980 nm Bi3Fe5O12/Sm3Ga5O12 magneto-optical photonic crystal", "abstract": "Heteroepitaxial all-garnet magneto-optical photonic crystal (MOPC) was fabricated to enhance Faraday rotation at 980 nm. MOPC was composed of alternating MO-active Bi3Fe5O12 and transparent Sm3Ga5O12 ...", "citations": 34, "author_count": 4, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1590, "doi": "10.1063/1.2737933", "umap_coordinates": { "x": 393.81256103515625, "y": 134.07054138183594, "z": 207.6873016357422 }, "tsne_coordinates": { "x": 17.348087310791016, "y": -26.427635192871094, "z": -18.49985694885254 }, "pca_coordinates": { "x": 0.21354293823242188, "y": -2.2027316093444824, "z": 0.5728337168693542 }, "axis_scores": { "Quantum imaging": 0.7558633685112, "Quantum Life Science Sensing": 0.7491433024406433, "Quantum sensing Detection": 0.7502731680870056, "Quantum sensing Metrology": 0.7697126269340515, "Quantum sensing navigation": 0.7305554747581482, "Quantum sensing Position": 0.7183908820152283, "Quantum sensing Timing": 0.6946637630462646, "Quantum sensing": 0.7616428732872009, "Quantum control": 0.7215798497200012 } }, { "id": 1589, "title": "Conformal Field Theory Approach to Abelian and Non-Abelian Quantum Hall Quasielectrons", "abstract": "The quasiparticles in quantum Hall liquids carry fractional charge and obey fractional quantum statistics. Of particular recent interest are those with non-Abelian statistics, since their braiding pro...", "citations": 35, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1591, "doi": "10.1103/PhysRevLett.102.166805", "umap_coordinates": { "x": 394.5224304199219, "y": 137.24847412109375, "z": 208.60887145996094 }, "tsne_coordinates": { "x": -18.36532211303711, "y": -30.661640167236328, "z": 9.203953742980957 }, "pca_coordinates": { "x": 4.184089660644531, "y": -0.05649518966674805, "z": -0.878959059715271 }, "axis_scores": { "Quantum imaging": 0.6958358287811279, "Quantum Life Science Sensing": 0.7187769412994385, "Quantum sensing Detection": 0.6966986656188965, "Quantum sensing Metrology": 0.6912444829940796, "Quantum sensing navigation": 0.7090640664100647, "Quantum sensing Position": 0.6723839044570923, "Quantum sensing Timing": 0.6789350509643555, "Quantum sensing": 0.7109811902046204, "Quantum control": 0.6957938075065613 } }, { "id": 1590, "title": "Delayed single-photon self-interference", "abstract": "It has been suggested that a single photon can interfere with itself even if the difference between the two paths in the interferometer is larger than the length'' of the photon [Kessel' and Moiseev, ...", "citations": 7, "author_count": 5, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1592, "doi": "10.1103/PhysRevA.58.4348", "umap_coordinates": { "x": 395.19329833984375, "y": 134.6234893798828, "z": 208.35333251953125 }, "tsne_coordinates": { "x": -3.960716962814331, "y": -18.6594181060791, "z": -13.944647789001465 }, "pca_coordinates": { "x": 3.3187179565429688, "y": -0.7901313304901123, "z": 2.434796094894409 }, "axis_scores": { "Quantum imaging": 0.7513012886047363, "Quantum Life Science Sensing": 0.7534448504447937, "Quantum sensing Detection": 0.7575865983963013, "Quantum sensing Metrology": 0.7256211638450623, "Quantum sensing navigation": 0.7474422454833984, "Quantum sensing Position": 0.7260093688964844, "Quantum sensing Timing": 0.7475115656852722, "Quantum sensing": 0.7586658000946045, "Quantum control": 0.7163347601890564 } }, { "id": 1591, "title": "SINGLE PHOTON TOMOGRAPHIC IMAGING OF A STANDARD HEART PHANTOM WITH TL-201 - A GAMMA-CAMERA BASED SYSTEM", "abstract": "", "citations": 12, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1982, "topic": [ "all" ], "embedding_index": 1593, "doi": null, "umap_coordinates": { "x": 391.4732971191406, "y": 139.32460021972656, "z": 209.68222045898438 }, "tsne_coordinates": { "x": -2.159555673599243, "y": 40.36013412475586, "z": -9.414843559265137 }, "pca_coordinates": { "x": -3.3851869106292725, "y": 3.422687530517578, "z": 1.7068932056427002 }, "axis_scores": { "Quantum imaging": 0.7352567911148071, "Quantum Life Science Sensing": 0.7349923253059387, "Quantum sensing Detection": 0.7127698063850403, "Quantum sensing Metrology": 0.6941336989402771, "Quantum sensing navigation": 0.7074400782585144, "Quantum sensing Position": 0.6808793544769287, "Quantum sensing Timing": 0.6948962807655334, "Quantum sensing": 0.7163758277893066, "Quantum control": 0.6794203519821167 } }, { "id": 1592, "title": "Quantum information perspective on meson melting", "abstract": "We propose to use quantum information notions to characterize thermally induced melting of nonperturbative bound states at high temperatures. We apply tensor networks to investigate this idea in stati...", "citations": 5, "author_count": 6, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1594, "doi": "10.1103/PhysRevD.108.076016", "umap_coordinates": { "x": 395.1424865722656, "y": 136.89532470703125, "z": 207.4996337890625 }, "tsne_coordinates": { "x": -18.689517974853516, "y": -36.20846939086914, "z": 3.860039234161377 }, "pca_coordinates": { "x": 3.523560047149658, "y": 1.472472906112671, "z": -0.028959810733795166 }, "axis_scores": { "Quantum imaging": 0.7365323305130005, "Quantum Life Science Sensing": 0.7463350892066956, "Quantum sensing Detection": 0.7242928147315979, "Quantum sensing Metrology": 0.7184304594993591, "Quantum sensing navigation": 0.7165637612342834, "Quantum sensing Position": 0.7174885272979736, "Quantum sensing Timing": 0.7142188549041748, "Quantum sensing": 0.7335434556007385, "Quantum control": 0.7008339762687683 } }, { "id": 1593, "title": "The PERCIVAL detector: first user experiments", "abstract": "The PERCIVAL detector is a CMOS imager designed for the soft X-ray regime at photon sources. Although still in its final development phase, it has recently seen its first user experiments: ptychograph...", "citations": 4, "author_count": 44, "categories": [ "Instruments & Instrumentation" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1595, "doi": "10.1107/S1600577522010347", "umap_coordinates": { "x": 395.6884765625, "y": 134.6499786376953, "z": 206.4613494873047 }, "tsne_coordinates": { "x": -26.44572639465332, "y": 28.881322860717773, "z": -8.911344528198242 }, "pca_coordinates": { "x": -1.1896599531173706, "y": 2.9127941131591797, "z": 0.7461836934089661 }, "axis_scores": { "Quantum imaging": 0.689677894115448, "Quantum Life Science Sensing": 0.7162668704986572, "Quantum sensing Detection": 0.722020149230957, "Quantum sensing Metrology": 0.6795464158058167, "Quantum sensing navigation": 0.6999039649963379, "Quantum sensing Position": 0.6887193918228149, "Quantum sensing Timing": 0.6759024858474731, "Quantum sensing": 0.7092329263687134, "Quantum control": 0.6871644258499146 } }, { "id": 1594, "title": "Quantum mechanics as the quadratic Taylor approximation of classical mechanics: The finite-dimensional case", "abstract": "We show that in contrast to a rather common opinion, quantum mechanics can be represented as an approximation of classical statistical mechanics. We consider an approximation based on the ordinary Tay...", "citations": 8, "author_count": 2, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1596, "doi": "10.1007/s11232-007-0095-z", "umap_coordinates": { "x": 394.6712646484375, "y": 137.6132354736328, "z": 206.38546752929688 }, "tsne_coordinates": { "x": -26.318809509277344, "y": 3.3156495094299316, "z": 21.5655517578125 }, "pca_coordinates": { "x": 1.6052649021148682, "y": 1.8673986196517944, "z": -0.7302817702293396 }, "axis_scores": { "Quantum imaging": 0.7352001070976257, "Quantum Life Science Sensing": 0.7478532791137695, "Quantum sensing Detection": 0.7403093576431274, "Quantum sensing Metrology": 0.7327068448066711, "Quantum sensing navigation": 0.7499139904975891, "Quantum sensing Position": 0.7449674010276794, "Quantum sensing Timing": 0.703510046005249, "Quantum sensing": 0.7501590847969055, "Quantum control": 0.7283049821853638 } }, { "id": 1595, "title": "Inkjet Printed Disposable High-Rate On-Paper Microsupercapacitors", "abstract": "On-paper microsupercapacitors (MSCs) are a key energy storage component for disposable electronics that are anticipated to essentially address the increasing global concern of electronic waste. Howeve...", "citations": 74, "author_count": 14, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1597, "doi": "10.1002/adfm.202108773", "umap_coordinates": { "x": 393.0521240234375, "y": 133.76193237304688, "z": 204.94332885742188 }, "tsne_coordinates": { "x": 33.66582107543945, "y": 16.283090591430664, "z": -1.1801543235778809 }, "pca_coordinates": { "x": -3.417842149734497, "y": -1.0391428470611572, "z": -0.7278088331222534 }, "axis_scores": { "Quantum imaging": 0.6431823968887329, "Quantum Life Science Sensing": 0.6573956608772278, "Quantum sensing Detection": 0.6398090720176697, "Quantum sensing Metrology": 0.6462596654891968, "Quantum sensing navigation": 0.6240776181221008, "Quantum sensing Position": 0.638757586479187, "Quantum sensing Timing": 0.6351122856140137, "Quantum sensing": 0.6612920165061951, "Quantum control": 0.6629547476768494 } }, { "id": 1596, "title": "Analog Information Decoding of Bosonic Quantum Low-Density Parity-Check Codes", "abstract": "Quantum error correction is crucial for scalable quantum information-processing applications. Traditional discrete -variable quantum codes that use multiple two -level systems to encode logical inform...", "citations": 6, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1598, "doi": "10.1103/PRXQuantum.5.020349", "umap_coordinates": { "x": 395.4922790527344, "y": 136.7497100830078, "z": 207.3571014404297 }, "tsne_coordinates": { "x": -30.467451095581055, "y": -19.806961059570312, "z": -1.7218066453933716 }, "pca_coordinates": { "x": 4.352371692657471, "y": 1.3408372402191162, "z": 1.8846979141235352 }, "axis_scores": { "Quantum imaging": 0.7523236870765686, "Quantum Life Science Sensing": 0.7364799976348877, "Quantum sensing Detection": 0.7632119655609131, "Quantum sensing Metrology": 0.7451326847076416, "Quantum sensing navigation": 0.7629835605621338, "Quantum sensing Position": 0.758678674697876, "Quantum sensing Timing": 0.7436143755912781, "Quantum sensing": 0.7655439972877502, "Quantum control": 0.7401037216186523 } }, { "id": 1597, "title": "Quantum states for quantum processes: A toy model for ammonia inversion spectra", "abstract": "Chemical transformations are viewed here as quantum processes modulated by external fields, that is, as shifts in reactant to product amplitudes within a quantum state represented by a linear (coheren...", "citations": 4, "author_count": 3, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1599, "doi": "10.1103/PhysRevA.84.012115", "umap_coordinates": { "x": 394.34039306640625, "y": 137.25189208984375, "z": 206.4558563232422 }, "tsne_coordinates": { "x": -11.54688835144043, "y": 1.7420804500579834, "z": 8.496811866760254 }, "pca_coordinates": { "x": 2.9214887619018555, "y": 0.04098844528198242, "z": -0.25697994232177734 }, "axis_scores": { "Quantum imaging": 0.7374060750007629, "Quantum Life Science Sensing": 0.7283334136009216, "Quantum sensing Detection": 0.7262042164802551, "Quantum sensing Metrology": 0.7178977727890015, "Quantum sensing navigation": 0.7360594272613525, "Quantum sensing Position": 0.6813520193099976, "Quantum sensing Timing": 0.6844365000724792, "Quantum sensing": 0.7373242974281311, "Quantum control": 0.7090343236923218 } }, { "id": 1598, "title": "Autonomous demon exploiting heat and information at the trajectory level", "abstract": "We propose an electronic bipartite system consisting of a working substance, in which a refrigeration process is implemented, and of a nonthermal resource region, containing a combination of different...", "citations": 9, "author_count": 5, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1600, "doi": "10.1103/PhysRevB.111.045419", "umap_coordinates": { "x": 395.19805908203125, "y": 137.16488647460938, "z": 207.53842163085938 }, "tsne_coordinates": { "x": -25.201276779174805, "y": -24.95442008972168, "z": 0.6652857065200806 }, "pca_coordinates": { "x": 3.5129990577697754, "y": 1.97288978099823, "z": 0.9252299666404724 }, "axis_scores": { "Quantum imaging": 0.7314156889915466, "Quantum Life Science Sensing": 0.7133253216743469, "Quantum sensing Detection": 0.7232621908187866, "Quantum sensing Metrology": 0.7084221243858337, "Quantum sensing navigation": 0.7413132786750793, "Quantum sensing Position": 0.7205879092216492, "Quantum sensing Timing": 0.7214961051940918, "Quantum sensing": 0.7369731664657593, "Quantum control": 0.7306300401687622 } }, { "id": 1599, "title": "Violation of Bell Inequalities as a Violation of Fair Sampling in Threshold Detectors", "abstract": "Photomultiplier tubes and avalanche photodiodes, which are commonly used in quantum optic experiments, are sometimes referred to as threshold detectors because, in photon counting mode, they cannot di...", "citations": 15, "author_count": 2, "categories": [ "Computer Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1601, "doi": null, "umap_coordinates": { "x": 391.9335632324219, "y": 139.3557586669922, "z": 209.1381072998047 }, "tsne_coordinates": { "x": -11.534296035766602, "y": 35.601280212402344, "z": -2.4528276920318604 }, "pca_coordinates": { "x": 0.6219806671142578, "y": 3.14422607421875, "z": 0.07020187377929688 }, "axis_scores": { "Quantum imaging": 0.7259134650230408, "Quantum Life Science Sensing": 0.728515625, "Quantum sensing Detection": 0.7658798694610596, "Quantum sensing Metrology": 0.7368310689926147, "Quantum sensing navigation": 0.7483823299407959, "Quantum sensing Position": 0.7360941767692566, "Quantum sensing Timing": 0.7562532424926758, "Quantum sensing": 0.7514960765838623, "Quantum control": 0.7300623059272766 } }, { "id": 1600, "title": "Allowable Forward Model Misspecification for Accurate Basis Decomposition in a Silicon Detector Based Spectral CT", "abstract": "Material basis decomposition in the sinogram domain requires accurate knowledge of the forward model in spectral computed tomography (CT). Misspecifications over a certain limit will result in biased ...", "citations": 12, "author_count": 4, "categories": [ "Computer Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1602, "doi": "10.1109/TMI.2014.2361680", "umap_coordinates": { "x": 395.0932312011719, "y": 132.74407958984375, "z": 205.81817626953125 }, "tsne_coordinates": { "x": -19.699054718017578, "y": 25.959009170532227, "z": -24.535541534423828 }, "pca_coordinates": { "x": -1.164967656135559, "y": 2.6191461086273193, "z": 2.3875739574432373 }, "axis_scores": { "Quantum imaging": 0.6829961538314819, "Quantum Life Science Sensing": 0.6659761071205139, "Quantum sensing Detection": 0.6783506274223328, "Quantum sensing Metrology": 0.684583306312561, "Quantum sensing navigation": 0.6482976675033569, "Quantum sensing Position": 0.6542380452156067, "Quantum sensing Timing": 0.6842603087425232, "Quantum sensing": 0.6768024563789368, "Quantum control": 0.6377689838409424 } }, { "id": 1601, "title": "Spin resonance without spin splitting", "abstract": "We predict that a single-level quantum dot without discernible splitting of its spin states develops a spin-precession resonance in charge transport when embedded into a spin valve. The resonance occu...", "citations": 22, "author_count": 6, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1603, "doi": "10.1103/PhysRevB.91.195404", "umap_coordinates": { "x": 394.1694030761719, "y": 136.17294311523438, "z": 209.25881958007812 }, "tsne_coordinates": { "x": -1.9463635683059692, "y": -40.421138763427734, "z": 9.016971588134766 }, "pca_coordinates": { "x": 4.320359230041504, "y": 0.22513771057128906, "z": -0.7324737310409546 }, "axis_scores": { "Quantum imaging": 0.693282961845398, "Quantum Life Science Sensing": 0.7099854350090027, "Quantum sensing Detection": 0.6929303407669067, "Quantum sensing Metrology": 0.683394193649292, "Quantum sensing navigation": 0.6966749429702759, "Quantum sensing Position": 0.6669414639472961, "Quantum sensing Timing": 0.6566921472549438, "Quantum sensing": 0.7052683234214783, "Quantum control": 0.677904486656189 } }, { "id": 1602, "title": "Layer-by-layer control of Ag film growth on Sn/Si(111)-(√3 x √3)-R30°", "abstract": "Silver thin films have been formed on the Sn/Si(111)-(root 3 x root 3)-R30 degrees surface at room temperature. The film morphologies, growth and electronic structures have been studied by scanning tu...", "citations": 2, "author_count": 5, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1604, "doi": "10.1016/j.susc.2020.121697", "umap_coordinates": { "x": 392.71893310546875, "y": 133.2461395263672, "z": 206.23362731933594 }, "tsne_coordinates": { "x": 42.409603118896484, "y": 7.440997123718262, "z": 3.055128574371338 }, "pca_coordinates": { "x": -1.7399636507034302, "y": -1.2296814918518066, "z": 0.5034844279289246 }, "axis_scores": { "Quantum imaging": 0.6603605151176453, "Quantum Life Science Sensing": 0.6807759404182434, "Quantum sensing Detection": 0.6752028465270996, "Quantum sensing Metrology": 0.6772376298904419, "Quantum sensing navigation": 0.7050777673721313, "Quantum sensing Position": 0.6870333552360535, "Quantum sensing Timing": 0.6557897925376892, "Quantum sensing": 0.6879897117614746, "Quantum control": 0.7143837213516235 } }, { "id": 1603, "title": "INHIBITION OF PHOTOSYNTHESIS BY FREEZING TEMPERATURES AND HIGH LIGHT LEVELS IN COLD-ACCLIMATED SEEDLINGS OF SCOTS PINE (PINUS-SYLVESTRIS) .1. EFFECTS ON THE LIGHT-LIMITED AND LIGHT-SATURATED RATES OF CO2 ASSIMILATION", "abstract": "Shoots of cold-acclimated seedling of Pinus sylvestris L. were subjected to low temperatures either in darkness or at a photon flux density of 1300 .mu.mol M-2 s-1. CO2 and water vapour exchange of th...", "citations": 102, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1985, "topic": [ "all" ], "embedding_index": 1605, "doi": "10.1111/j.1399-3054.1985.tb08517.x", "umap_coordinates": { "x": 394.52545166015625, "y": 136.1360626220703, "z": 203.68251037597656 }, "tsne_coordinates": { "x": 8.585762977600098, "y": 35.0494499206543, "z": 13.605247497558594 }, "pca_coordinates": { "x": -1.6445906162261963, "y": 2.7906899452209473, "z": -0.3109104037284851 }, "axis_scores": { "Quantum imaging": 0.6975533366203308, "Quantum Life Science Sensing": 0.711165189743042, "Quantum sensing Detection": 0.6983181238174438, "Quantum sensing Metrology": 0.6937331557273865, "Quantum sensing navigation": 0.6756207346916199, "Quantum sensing Position": 0.6650099754333496, "Quantum sensing Timing": 0.7054840922355652, "Quantum sensing": 0.7080968618392944, "Quantum control": 0.7100887894630432 } }, { "id": 1604, "title": "Enhanced tunneling in the GaAs p+-n+ junction by embedding InAs quantum dots", "abstract": "GaAs p(+)-n(+) junctions with and without a layer of InAs quantum dots (QDs) embedded at the interface are discussed in this article. The current density versus voltage (I-V) characteristics show that...", "citations": 7, "author_count": 9, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1606, "doi": "10.1088/0268-1242/27/11/115010", "umap_coordinates": { "x": 392.9924621582031, "y": 134.43875122070312, "z": 207.6833038330078 }, "tsne_coordinates": { "x": 25.089920043945312, "y": -14.07036018371582, "z": 13.650496482849121 }, "pca_coordinates": { "x": -0.16476619243621826, "y": -2.036942481994629, "z": 2.6860766410827637 }, "axis_scores": { "Quantum imaging": 0.691914975643158, "Quantum Life Science Sensing": 0.6469807028770447, "Quantum sensing Detection": 0.6691649556159973, "Quantum sensing Metrology": 0.6595368385314941, "Quantum sensing navigation": 0.6916800737380981, "Quantum sensing Position": 0.6730945110321045, "Quantum sensing Timing": 0.6772124171257019, "Quantum sensing": 0.6778168082237244, "Quantum control": 0.6639326810836792 } }, { "id": 1605, "title": "Proposal for generating and detecting multi-qubit GHZ states in circuit QED", "abstract": "We propose methods for the preparation and entanglement detection of multi-qubit Greenberger-Horne-Zeilinger (GHZ) states in circuit quantum electrodynamics. Using quantum trajectory simulations appro...", "citations": 65, "author_count": 12, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1607, "doi": "10.1088/1367-2630/11/7/073040", "umap_coordinates": { "x": 395.0580139160156, "y": 136.36102294921875, "z": 207.12210083007812 }, "tsne_coordinates": { "x": -29.989011764526367, "y": -2.321749210357666, "z": -5.608928203582764 }, "pca_coordinates": { "x": 2.590439796447754, "y": 1.987009882926941, "z": 2.3810830116271973 }, "axis_scores": { "Quantum imaging": 0.7431455254554749, "Quantum Life Science Sensing": 0.7343776822090149, "Quantum sensing Detection": 0.7511337399482727, "Quantum sensing Metrology": 0.7439674139022827, "Quantum sensing navigation": 0.7440690994262695, "Quantum sensing Position": 0.7190459966659546, "Quantum sensing Timing": 0.7402750253677368, "Quantum sensing": 0.7479850053787231, "Quantum control": 0.7005080580711365 } }, { "id": 1606, "title": "Transmission Systems With Low Noise Phase-Sensitive Parametric Amplifiers", "abstract": "This tutorial reviews the recent research on fiber-based phase-sensitive amplifiers (PSAs), and describes how they can be used in transmission systems. We describe the fundamentals of parametric ampli...", "citations": 30, "author_count": 2, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1608, "doi": "10.1109/JLT.2015.2507866", "umap_coordinates": { "x": 394.8616638183594, "y": 134.0388946533203, "z": 207.01438903808594 }, "tsne_coordinates": { "x": 2.1110010147094727, "y": -2.3698227405548096, "z": -34.250885009765625 }, "pca_coordinates": { "x": 0.7471518516540527, "y": 0.572550892829895, "z": 3.8744401931762695 }, "axis_scores": { "Quantum imaging": 0.7302555441856384, "Quantum Life Science Sensing": 0.71485435962677, "Quantum sensing Detection": 0.7348548769950867, "Quantum sensing Metrology": 0.7268075346946716, "Quantum sensing navigation": 0.7188705801963806, "Quantum sensing Position": 0.7031877636909485, "Quantum sensing Timing": 0.7154159545898438, "Quantum sensing": 0.7370450496673584, "Quantum control": 0.7067802548408508 } }, { "id": 1607, "title": "Stability of vortex structures in quantum dots - art. no. 035421", "abstract": "We study the stability and structure of vortices emerging in two-dimensional quantum dots in high magnetic fields. Our results obtained with exact diagonalization and density-functional calculations s...", "citations": 23, "author_count": 6, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1609, "doi": "10.1103/PhysRevB.71.035421", "umap_coordinates": { "x": 393.9095458984375, "y": 135.9872589111328, "z": 209.1065216064453 }, "tsne_coordinates": { "x": 7.204512119293213, "y": -29.163272857666016, "z": 1.982442021369934 }, "pca_coordinates": { "x": 4.603129863739014, "y": -2.1217122077941895, "z": -1.6869821548461914 }, "axis_scores": { "Quantum imaging": 0.7012643218040466, "Quantum Life Science Sensing": 0.7348089218139648, "Quantum sensing Detection": 0.7160650491714478, "Quantum sensing Metrology": 0.6948333978652954, "Quantum sensing navigation": 0.7270405292510986, "Quantum sensing Position": 0.7084136605262756, "Quantum sensing Timing": 0.6783161163330078, "Quantum sensing": 0.713618278503418, "Quantum control": 0.7191289663314819 } }, { "id": 1608, "title": "Large ground-to-first-excited-state transition energy separation for InAs quantum dots emitting at 1.3 μm", "abstract": "By capping InAs quantum dots (QDs) with a thin intermediate layer of InAlAs instead of GaAs, the radiative transition wavelengths are redshifted. Surface morphology studies confirm that the redshift i...", "citations": 55, "author_count": 8, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1610, "doi": "10.1063/1.1503156", "umap_coordinates": { "x": 393.0058288574219, "y": 133.57810974121094, "z": 208.14869689941406 }, "tsne_coordinates": { "x": 29.064311981201172, "y": -25.39473533630371, "z": -5.635281562805176 }, "pca_coordinates": { "x": 1.265068769454956, "y": -4.765721321105957, "z": 1.3002560138702393 }, "axis_scores": { "Quantum imaging": 0.6959772109985352, "Quantum Life Science Sensing": 0.7039916515350342, "Quantum sensing Detection": 0.7111681699752808, "Quantum sensing Metrology": 0.6977997422218323, "Quantum sensing navigation": 0.6760991215705872, "Quantum sensing Position": 0.6645731329917908, "Quantum sensing Timing": 0.6609001159667969, "Quantum sensing": 0.7187594175338745, "Quantum control": 0.6427962779998779 } }, { "id": 1609, "title": "TUNNELING THROUGH RECTANGULAR QUANTUM DOTS AT HIGH MAGNETIC-FIELDS", "abstract": "Transport in a quasi-one-dimensional wire containing a rectangular quantum dot in a strong magnetic field is studied numerically. As the width of the wire is varied, a rectangular dot on the wire intr...", "citations": 19, "author_count": 2, "categories": [ "Materials Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 1611, "doi": "10.1103/PhysRevB.50.4658", "umap_coordinates": { "x": 393.7672424316406, "y": 135.6011505126953, "z": 209.23663330078125 }, "tsne_coordinates": { "x": 12.282750129699707, "y": -30.331647872924805, "z": 10.181726455688477 }, "pca_coordinates": { "x": 3.9568657875061035, "y": -2.183379650115967, "z": -0.29551661014556885 }, "axis_scores": { "Quantum imaging": 0.720974326133728, "Quantum Life Science Sensing": 0.713633120059967, "Quantum sensing Detection": 0.7003198862075806, "Quantum sensing Metrology": 0.7036970853805542, "Quantum sensing navigation": 0.7111175060272217, "Quantum sensing Position": 0.6753737926483154, "Quantum sensing Timing": 0.6838946342468262, "Quantum sensing": 0.7259048223495483, "Quantum control": 0.6925725936889648 } }, { "id": 1610, "title": "PHENIX measurements of low momentum direct photon radiation", "abstract": "The versatility of RHIC allowed the PHENIX collaboration to measure low momentum direct photons from small systems, such as p+p, p+A, d+Au at root s(NN) = 200 GeV as well as from large A+A systems, su...", "citations": 9, "author_count": 719, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1612, "doi": "10.1016/j.nuclphysa.2018.09.069", "umap_coordinates": { "x": 396.3953552246094, "y": 133.9488983154297, "z": 207.2603759765625 }, "tsne_coordinates": { "x": -27.502553939819336, "y": 5.0013203620910645, "z": -8.677802085876465 }, "pca_coordinates": { "x": -0.9990839958190918, "y": 1.851656198501587, "z": 2.2846035957336426 }, "axis_scores": { "Quantum imaging": 0.7310267090797424, "Quantum Life Science Sensing": 0.7537699937820435, "Quantum sensing Detection": 0.7498106360435486, "Quantum sensing Metrology": 0.728507936000824, "Quantum sensing navigation": 0.723520815372467, "Quantum sensing Position": 0.7476061582565308, "Quantum sensing Timing": 0.7118695974349976, "Quantum sensing": 0.7447651028633118, "Quantum control": 0.6795127391815186 } }, { "id": 1611, "title": "Efficient Production of Solar Hydrogen Peroxide Using Piezoelectric Polarization and Photoinduced Charge Transfer of Nanopiezoelectrics Sensitized by Carbon Quantum Dots", "abstract": "Piezoelectric semiconductors have emerged as redox catalysts, and challenges include effective conversion of mechanical energy to piezoelectric polarization and achieving high catalytic activity. The ...", "citations": 77, "author_count": 8, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1613, "doi": "10.1002/advs.202105792", "umap_coordinates": { "x": 392.44677734375, "y": 134.00563049316406, "z": 205.23390197753906 }, "tsne_coordinates": { "x": 24.115503311157227, "y": 1.5814255475997925, "z": -11.890157699584961 }, "pca_coordinates": { "x": -2.5642154216766357, "y": -3.167907238006592, "z": -0.09392732381820679 }, "axis_scores": { "Quantum imaging": 0.7394439578056335, "Quantum Life Science Sensing": 0.7485489845275879, "Quantum sensing Detection": 0.7237648963928223, "Quantum sensing Metrology": 0.7130663990974426, "Quantum sensing navigation": 0.7003368139266968, "Quantum sensing Position": 0.681894838809967, "Quantum sensing Timing": 0.6886926293373108, "Quantum sensing": 0.7420377731323242, "Quantum control": 0.7229568958282471 } }, { "id": 1612, "title": "Carbon Quantum Dots Conjugated Rhodium Nanoparticles as Hybrid Multimodal Contrast Agents", "abstract": "Nanoparticle (NP)-based contrast agents enabling different imaging modalities are sought for non-invasive bio-diagnostics. A hybrid material, combining optical and X-ray fluorescence is presented as a...", "citations": 19, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1614, "doi": "10.3390/nano11092165", "umap_coordinates": { "x": 393.08685302734375, "y": 133.8859405517578, "z": 204.68641662597656 }, "tsne_coordinates": { "x": 30.046255111694336, "y": 18.662744522094727, "z": -10.045196533203125 }, "pca_coordinates": { "x": -2.201767921447754, "y": -1.4959614276885986, "z": -0.18781620264053345 }, "axis_scores": { "Quantum imaging": 0.7519303560256958, "Quantum Life Science Sensing": 0.7603414058685303, "Quantum sensing Detection": 0.7483980059623718, "Quantum sensing Metrology": 0.726698100566864, "Quantum sensing navigation": 0.7373047471046448, "Quantum sensing Position": 0.7002584338188171, "Quantum sensing Timing": 0.6876237392425537, "Quantum sensing": 0.7580025792121887, "Quantum control": 0.7171579599380493 } }, { "id": 1613, "title": "Photochemical transformations of tetrabromobisphenol A and related phenols in water", "abstract": "A method was developed for studies of the phototransformation at UV irradiation of aqueous solutions of tetrabromobisphenol A (TBBPA), tribromobisphenol A (TriBBPA), tetrachlorobisphenol A (TCBPA), 2,...", "citations": 194, "author_count": 6, "categories": [ "Environmental Sciences & Ecology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1615, "doi": "10.1016/S0045-6535(03)00704-5", "umap_coordinates": { "x": 393.4399719238281, "y": 135.77468872070312, "z": 204.3203582763672 }, "tsne_coordinates": { "x": 14.542731285095215, "y": 22.059892654418945, "z": 11.584322929382324 }, "pca_coordinates": { "x": -2.498795747756958, "y": -0.2641332149505615, "z": -1.6748802661895752 }, "axis_scores": { "Quantum imaging": 0.6873748302459717, "Quantum Life Science Sensing": 0.7355428338050842, "Quantum sensing Detection": 0.6876292824745178, "Quantum sensing Metrology": 0.6798421144485474, "Quantum sensing navigation": 0.6929891705513, "Quantum sensing Position": 0.6737093925476074, "Quantum sensing Timing": 0.665040135383606, "Quantum sensing": 0.6999538540840149, "Quantum control": 0.6632688045501709 } }, { "id": 1614, "title": "Imaging Stray Magnetic Field of Individual Ferromagnetic Nanotubes", "abstract": "We use a scanning nanometer-scale superconducting quantum interference device to map the stray magnetic field produced by individual ferromagnetic nanotubes (FNTs) as a function of applied magnetic fi...", "citations": 34, "author_count": 15, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1616, "doi": "10.1021/acs.nanolett.7b04386", "umap_coordinates": { "x": 392.84747314453125, "y": 134.7528839111328, "z": 207.03245544433594 }, "tsne_coordinates": { "x": 9.864521026611328, "y": -18.428434371948242, "z": -9.4464111328125 }, "pca_coordinates": { "x": -1.2525665760040283, "y": -2.011547088623047, "z": 0.10927152633666992 }, "axis_scores": { "Quantum imaging": 0.7433087229728699, "Quantum Life Science Sensing": 0.7247343063354492, "Quantum sensing Detection": 0.7106166481971741, "Quantum sensing Metrology": 0.719447672367096, "Quantum sensing navigation": 0.7203850746154785, "Quantum sensing Position": 0.7163956165313721, "Quantum sensing Timing": 0.6922529935836792, "Quantum sensing": 0.7195359468460083, "Quantum control": 0.6589586734771729 } }, { "id": 1615, "title": "Temperature dependence of dynamic nuclear polarization and its effect on electron spin relaxation and dephasing in InAs/GaAs quantum dots", "abstract": "Electron spin dephasing and relaxation due to hyperfine interaction with nuclear spins is studied in an InAs/GaAs quantum dot ensemble as a function of temperature up to 85 K, in an applied longitudin...", "citations": 4, "author_count": 7, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1617, "doi": "10.1063/1.3701273", "umap_coordinates": { "x": 392.7890930175781, "y": 134.96482849121094, "z": 207.98654174804688 }, "tsne_coordinates": { "x": 20.071603775024414, "y": -24.036710739135742, "z": 2.5891783237457275 }, "pca_coordinates": { "x": 1.1324336528778076, "y": -1.9618701934814453, "z": -1.5308313369750977 }, "axis_scores": { "Quantum imaging": 0.7419612407684326, "Quantum Life Science Sensing": 0.7461018562316895, "Quantum sensing Detection": 0.7197338938713074, "Quantum sensing Metrology": 0.6922897696495056, "Quantum sensing navigation": 0.7156937122344971, "Quantum sensing Position": 0.7034692168235779, "Quantum sensing Timing": 0.7029260993003845, "Quantum sensing": 0.7351037263870239, "Quantum control": 0.7195072770118713 } }, { "id": 1616, "title": "Cross-Hyperconjugation: An Unexplored Orbital Interaction between π-Conjugated and Saturated Molecular Segments", "abstract": "", "citations": 34, "author_count": 8, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1618, "doi": "10.1002/anie.201206030", "umap_coordinates": { "x": 392.13433837890625, "y": 136.33282470703125, "z": 205.35562133789062 }, "tsne_coordinates": { "x": 36.02014923095703, "y": 6.878366947174072, "z": 22.235315322875977 }, "pca_coordinates": { "x": -0.8371784090995789, "y": 0.9970788955688477, "z": -1.406996488571167 }, "axis_scores": { "Quantum imaging": 0.689685046672821, "Quantum Life Science Sensing": 0.6877456903457642, "Quantum sensing Detection": 0.6640389561653137, "Quantum sensing Metrology": 0.653267502784729, "Quantum sensing navigation": 0.6741164922714233, "Quantum sensing Position": 0.650412917137146, "Quantum sensing Timing": 0.6295055747032166, "Quantum sensing": 0.6794610619544983, "Quantum control": 0.6593151688575745 } }, { "id": 1617, "title": "Interaction between giant atoms in a one-dimensional structured environment", "abstract": "Giant atoms, quantum emitters that couple to light at multiple discrete points, are emerging as a new paradigm in quantum optics due to their many promising properties, such as decoherence-free intera...", "citations": 39, "author_count": 4, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1619, "doi": "10.1103/PhysRevA.107.013710", "umap_coordinates": { "x": 394.8880920410156, "y": 136.26153564453125, "z": 209.02561950683594 }, "tsne_coordinates": { "x": -20.258424758911133, "y": -26.291095733642578, "z": -14.431439399719238 }, "pca_coordinates": { "x": 3.7380590438842773, "y": -0.25581979751586914, "z": -1.0305359363555908 }, "axis_scores": { "Quantum imaging": 0.7176704406738281, "Quantum Life Science Sensing": 0.7267870306968689, "Quantum sensing Detection": 0.699941098690033, "Quantum sensing Metrology": 0.6936245560646057, "Quantum sensing navigation": 0.7231529951095581, "Quantum sensing Position": 0.6795244216918945, "Quantum sensing Timing": 0.66144859790802, "Quantum sensing": 0.7194459438323975, "Quantum control": 0.6836093664169312 } }, { "id": 1618, "title": "Quantum predictions for an unmeasured system cannot be simulated with a finite-memory classical system", "abstract": "We consider an ideal experiment in which unlimited nonprojective quantum measurements are sequentially performed on a system that is initially entangled with a distant one. At each step of the sequenc...", "citations": 18, "author_count": 3, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1620, "doi": "10.1103/PhysRevA.97.032131", "umap_coordinates": { "x": 395.8148193359375, "y": 136.84317016601562, "z": 207.7838134765625 }, "tsne_coordinates": { "x": -30.401208877563477, "y": -12.998017311096191, "z": -3.746082067489624 }, "pca_coordinates": { "x": 5.125404357910156, "y": 2.666415214538574, "z": 1.642430305480957 }, "axis_scores": { "Quantum imaging": 0.749372124671936, "Quantum Life Science Sensing": 0.7606667280197144, "Quantum sensing Detection": 0.7625850439071655, "Quantum sensing Metrology": 0.751975953578949, "Quantum sensing navigation": 0.7602211833000183, "Quantum sensing Position": 0.7319744825363159, "Quantum sensing Timing": 0.730543315410614, "Quantum sensing": 0.7784504294395447, "Quantum control": 0.7333731055259705 } }, { "id": 1619, "title": "Highly Efficient CdS Quantum Dot-Sensitized Solar Cells Based on a Modified Polysulfide Electrolyte", "abstract": "A modified polysulfide redox couple, [(CH(3))(4)N](2)S/[(CH(3))(4)N](2)S(n), in an organic solvent (3-methoxypropionitrile) was employed in CdS quantum dot (QD)-sensitized solar cells (QDSSCs), and an...", "citations": 257, "author_count": 8, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1621, "doi": "10.1021/ja201841p", "umap_coordinates": { "x": 392.252197265625, "y": 134.05184936523438, "z": 205.23086547851562 }, "tsne_coordinates": { "x": 29.048288345336914, "y": -1.3429861068725586, "z": -12.260428428649902 }, "pca_coordinates": { "x": -2.761754035949707, "y": -3.7809858322143555, "z": -0.18572258949279785 }, "axis_scores": { "Quantum imaging": 0.6768029928207397, "Quantum Life Science Sensing": 0.7173692584037781, "Quantum sensing Detection": 0.685516893863678, "Quantum sensing Metrology": 0.6712200045585632, "Quantum sensing navigation": 0.6628396511077881, "Quantum sensing Position": 0.6686992645263672, "Quantum sensing Timing": 0.6442661881446838, "Quantum sensing": 0.7040467262268066, "Quantum control": 0.6633833050727844 } }, { "id": 1620, "title": "A highly stable optical humidity sensor", "abstract": "We report a highly stable humidity sensor based on nanocomposite film obtained by depositing Au nanoparticles on the surface of 3-mercaptopropionic acid (MPA) capped CdTe quantum dots (QDs) and then m...", "citations": 44, "author_count": 14, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1622, "doi": "10.1016/j.snb.2019.02.051", "umap_coordinates": { "x": 393.56201171875, "y": 133.63729858398438, "z": 205.07020568847656 }, "tsne_coordinates": { "x": 14.336173057556152, "y": 14.754003524780273, "z": -9.67985725402832 }, "pca_coordinates": { "x": -3.0270018577575684, "y": -1.145596981048584, "z": 0.5841783881187439 }, "axis_scores": { "Quantum imaging": 0.6918204426765442, "Quantum Life Science Sensing": 0.758021354675293, "Quantum sensing Detection": 0.7236237525939941, "Quantum sensing Metrology": 0.7146296501159668, "Quantum sensing navigation": 0.7208960652351379, "Quantum sensing Position": 0.7140522003173828, "Quantum sensing Timing": 0.6798110604286194, "Quantum sensing": 0.7363206148147583, "Quantum control": 0.6871656179428101 } }, { "id": 1621, "title": "Demonstration of Density Matrix Exponentiation Using a Superconducting Quantum Processor", "abstract": "Density matrix exponentiation (DME) is a general technique for using a quantum state rho to enact the quantum operation e-(i rho theta) on a target system. It was first proposed in the context of quan...", "citations": 22, "author_count": 24, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1623, "doi": "10.1103/PhysRevX.12.011005", "umap_coordinates": { "x": 395.7158203125, "y": 136.1820068359375, "z": 207.46905517578125 }, "tsne_coordinates": { "x": -22.664091110229492, "y": -14.209809303283691, "z": -4.618593692779541 }, "pca_coordinates": { "x": 3.997973918914795, "y": 0.3272881507873535, "z": 1.884084939956665 }, "axis_scores": { "Quantum imaging": 0.7277222871780396, "Quantum Life Science Sensing": 0.7129294872283936, "Quantum sensing Detection": 0.7224068641662598, "Quantum sensing Metrology": 0.7169774770736694, "Quantum sensing navigation": 0.7217735648155212, "Quantum sensing Position": 0.7127665877342224, "Quantum sensing Timing": 0.6918054223060608, "Quantum sensing": 0.7237329483032227, "Quantum control": 0.6836435794830322 } }, { "id": 1622, "title": "Impact Ionization and Auger Recombination Rates in Semiconductor Quantum Dots", "abstract": "Impact ionization and Auger recombination in nanoscale spherical quantum dots (QDs) have been Studied theoretically. It is shown that due to the strong quantum confinement of both electrons in the con...", "citations": 28, "author_count": 6, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1624, "doi": "10.1021/jp9082486", "umap_coordinates": { "x": 392.25201416015625, "y": 134.99111938476562, "z": 207.0602569580078 }, "tsne_coordinates": { "x": 17.021745681762695, "y": -4.675233364105225, "z": 6.320590972900391 }, "pca_coordinates": { "x": 0.1304260492324829, "y": -3.8285093307495117, "z": -0.15207630395889282 }, "axis_scores": { "Quantum imaging": 0.7249935865402222, "Quantum Life Science Sensing": 0.7363406419754028, "Quantum sensing Detection": 0.7237396240234375, "Quantum sensing Metrology": 0.6980209946632385, "Quantum sensing navigation": 0.6848787069320679, "Quantum sensing Position": 0.6834993362426758, "Quantum sensing Timing": 0.6913638710975647, "Quantum sensing": 0.7255832552909851, "Quantum control": 0.6770049333572388 } }, { "id": 1623, "title": "A new route toward light emission from Ge: tensile-strained quantum dots", "abstract": "The tensile-strained Ge quantum dot (QD) is proposed as a new route for the realization of direct band gap conversion in Ge. Ge QDs were successfully grown on an InP substrate by molecular beam epitax...", "citations": 19, "author_count": 9, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1625, "doi": "10.1039/c4nr06821a", "umap_coordinates": { "x": 392.2436218261719, "y": 134.82469177246094, "z": 205.93821716308594 }, "tsne_coordinates": { "x": 19.701892852783203, "y": -8.526891708374023, "z": -2.1244523525238037 }, "pca_coordinates": { "x": -1.9535765647888184, "y": -2.663395404815674, "z": -0.43857330083847046 }, "axis_scores": { "Quantum imaging": 0.690251350402832, "Quantum Life Science Sensing": 0.6954079866409302, "Quantum sensing Detection": 0.6831435561180115, "Quantum sensing Metrology": 0.663210928440094, "Quantum sensing navigation": 0.6842756271362305, "Quantum sensing Position": 0.6764199137687683, "Quantum sensing Timing": 0.654863178730011, "Quantum sensing": 0.6920537948608398, "Quantum control": 0.6595425605773926 } }, { "id": 1624, "title": "Electronic transport properties of quasicrystals:: the unique case of the magnetoresistance", "abstract": "The magnetoresistance (MR) is but one of several anomalies in electronic transport properties of quasicrystals. However, it is an exceptional one since only in this case a large part of the results ca...", "citations": 11, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1626, "doi": "10.1016/S0921-5093(00)01314-9", "umap_coordinates": { "x": 392.9859313964844, "y": 135.64678955078125, "z": 207.46829223632812 }, "tsne_coordinates": { "x": 12.08191967010498, "y": -13.00175952911377, "z": 25.344005584716797 }, "pca_coordinates": { "x": 0.046483397483825684, "y": -1.0651826858520508, "z": -2.3074193000793457 }, "axis_scores": { "Quantum imaging": 0.6713505387306213, "Quantum Life Science Sensing": 0.7162495851516724, "Quantum sensing Detection": 0.6802976727485657, "Quantum sensing Metrology": 0.6893605589866638, "Quantum sensing navigation": 0.6734781861305237, "Quantum sensing Position": 0.6570053696632385, "Quantum sensing Timing": 0.6306539177894592, "Quantum sensing": 0.6943725943565369, "Quantum control": 0.6469053030014038 } }, { "id": 1625, "title": "A Straightforward Route to Aromatic Excited States in Molecular Motors that Improves Photochemical Efficiency", "abstract": "The many successful efforts to optimize the thermal steps that are part of the reaction cycles of most light-driven rotary molecular motors have not been followed by studies providing a similarly deta...", "citations": 20, "author_count": 4, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1627, "doi": "10.1002/cptc.201800268", "umap_coordinates": { "x": 392.3382873535156, "y": 135.45449829101562, "z": 204.609619140625 }, "tsne_coordinates": { "x": -4.144250869750977, "y": 8.917156219482422, "z": -9.071038246154785 }, "pca_coordinates": { "x": -1.5324702262878418, "y": -0.9959502220153809, "z": -1.0769798755645752 }, "axis_scores": { "Quantum imaging": 0.6983692646026611, "Quantum Life Science Sensing": 0.6965705752372742, "Quantum sensing Detection": 0.6981476545333862, "Quantum sensing Metrology": 0.6790249943733215, "Quantum sensing navigation": 0.7048488855361938, "Quantum sensing Position": 0.6650170087814331, "Quantum sensing Timing": 0.6793540120124817, "Quantum sensing": 0.7066967487335205, "Quantum control": 0.7043470144271851 } }, { "id": 1626, "title": "OSCILLATORY PHOTOEMISSION CROSS-SECTION FOR SIMPLE-METAL QUANTUM-WELLS", "abstract": "A strong, oscillatory photon energy dependence is observed for the intensity of photoemission peaks due to quantum-well states in Na overlayers on Cu(111). The measurements are made at low photon ener...", "citations": 17, "author_count": 5, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1628, "doi": "10.1103/PhysRevB.52.11144", "umap_coordinates": { "x": 394.3111877441406, "y": 136.0368194580078, "z": 208.72605895996094 }, "tsne_coordinates": { "x": 19.250173568725586, "y": -6.363491535186768, "z": 36.83303451538086 }, "pca_coordinates": { "x": 2.7330660820007324, "y": -2.3081727027893066, "z": -0.14399635791778564 }, "axis_scores": { "Quantum imaging": 0.7008647322654724, "Quantum Life Science Sensing": 0.7298619151115417, "Quantum sensing Detection": 0.7102503776550293, "Quantum sensing Metrology": 0.6881439089775085, "Quantum sensing navigation": 0.7098367810249329, "Quantum sensing Position": 0.6736621856689453, "Quantum sensing Timing": 0.662910521030426, "Quantum sensing": 0.7188841700553894, "Quantum control": 0.6903744339942932 } }, { "id": 1627, "title": "STATIC AND DYNAMIC BEHAVIOR OF SEMIDILUTE POLYMER-SOLUTIONS", "abstract": "", "citations": 147, "author_count": 3, "categories": [ "Chemistry" ], "year": 1990, "topic": [ "all" ], "embedding_index": 1629, "doi": "10.1007/BF01410586", "umap_coordinates": { "x": 393.3686828613281, "y": 136.05569458007812, "z": 205.58447265625 }, "tsne_coordinates": { "x": -1.9591796398162842, "y": -3.9127492904663086, "z": 32.66667938232422 }, "pca_coordinates": { "x": -0.8523261547088623, "y": 1.6273330450057983, "z": -3.162060260772705 }, "axis_scores": { "Quantum imaging": 0.6494467258453369, "Quantum Life Science Sensing": 0.6935639381408691, "Quantum sensing Detection": 0.6277137994766235, "Quantum sensing Metrology": 0.6312009692192078, "Quantum sensing navigation": 0.6560676097869873, "Quantum sensing Position": 0.6592621207237244, "Quantum sensing Timing": 0.6170448064804077, "Quantum sensing": 0.6440570950508118, "Quantum control": 0.6219184398651123 } }, { "id": 1628, "title": "Theory of spin filtering through quantum dots -: art. no. 205310", "abstract": "Using a nonequilibrium diagram technique for Hubbard operator Green functions combined with a generalization of the transfer Hamiltonian formalism, we calculate the transport through a magnetic quantu...", "citations": 22, "author_count": 5, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1630, "doi": "10.1103/PhysRevB.67.205310", "umap_coordinates": { "x": 394.5302429199219, "y": 135.34483337402344, "z": 209.22024536132812 }, "tsne_coordinates": { "x": 5.320010185241699, "y": -30.18059730529785, "z": 6.075450420379639 }, "pca_coordinates": { "x": 3.6842427253723145, "y": -0.8664474487304688, "z": 0.9561405777931213 }, "axis_scores": { "Quantum imaging": 0.730657160282135, "Quantum Life Science Sensing": 0.7390772700309753, "Quantum sensing Detection": 0.7341691255569458, "Quantum sensing Metrology": 0.7324592471122742, "Quantum sensing navigation": 0.7455495595932007, "Quantum sensing Position": 0.7019535303115845, "Quantum sensing Timing": 0.7065441608428955, "Quantum sensing": 0.7414122819900513, "Quantum control": 0.7179384827613831 } }, { "id": 1629, "title": "Luminescent Lanthanide Complexes with Fluorinated Heterocycles as Light-Harvesting Antennae", "abstract": "Luminescent lanthanide complexes with two types of macrocyclic metal binding sites (tetraazacyclododecane-1,4,7-triacetic acid (do3a) and 1,4,7-triazacyclononane (tacn)) were synthesized. The complexe...", "citations": 1, "author_count": 4, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1631, "doi": "10.1002/ejic.202500033", "umap_coordinates": { "x": 392.2485656738281, "y": 135.04226684570312, "z": 204.4420623779297 }, "tsne_coordinates": { "x": 15.574943542480469, "y": 13.347647666931152, "z": -20.352128982543945 }, "pca_coordinates": { "x": -3.395153522491455, "y": -1.1002702713012695, "z": -2.6495249271392822 }, "axis_scores": { "Quantum imaging": 0.6997509002685547, "Quantum Life Science Sensing": 0.7090268731117249, "Quantum sensing Detection": 0.6728068590164185, "Quantum sensing Metrology": 0.6563476920127869, "Quantum sensing navigation": 0.6775738000869751, "Quantum sensing Position": 0.6390109062194824, "Quantum sensing Timing": 0.6440638303756714, "Quantum sensing": 0.6854387521743774, "Quantum control": 0.6876676678657532 } }, { "id": 1630, "title": "Duplex-Specific Nuclease-Amplified Detection of MicroRNA Using Compact Quantum Dot-DNA Conjugates", "abstract": "Advances in nanotechnology have provided new opportunities for the design of next-generation nucleic acid biosensors and diagnostics. Indeed, combining advances in functional nanoparticles, DNA nanote...", "citations": 68, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1632, "doi": "10.1021/acsami.8b07250", "umap_coordinates": { "x": 393.050537109375, "y": 134.98020935058594, "z": 204.95571899414062 }, "tsne_coordinates": { "x": 13.151493072509766, "y": 14.095673561096191, "z": 3.5945541858673096 }, "pca_coordinates": { "x": -2.20930814743042, "y": -2.098565101623535, "z": 1.1250765323638916 }, "axis_scores": { "Quantum imaging": 0.704871416091919, "Quantum Life Science Sensing": 0.7422357201576233, "Quantum sensing Detection": 0.7414354085922241, "Quantum sensing Metrology": 0.7065763473510742, "Quantum sensing navigation": 0.7207993268966675, "Quantum sensing Position": 0.6877294778823853, "Quantum sensing Timing": 0.667802631855011, "Quantum sensing": 0.7336335182189941, "Quantum control": 0.6818932890892029 } }, { "id": 1631, "title": "Solution-Processed Environmentally Friendly Ag2S Colloidal Quantum Dot Solar Cells with Broad Spectral Absorption", "abstract": "A facile heat-up synthesis route is used to synthesize environmentally friendly Ag2S colloidal quantum dots (CQDs) that are applied as light absorbing material in solid state p-i-n junction solar cell...", "citations": 12, "author_count": 5, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1633, "doi": "10.3390/app7101020", "umap_coordinates": { "x": 392.579833984375, "y": 133.62962341308594, "z": 205.00877380371094 }, "tsne_coordinates": { "x": 23.369108200073242, "y": 3.897864818572998, "z": -16.795690536499023 }, "pca_coordinates": { "x": -4.507424831390381, "y": -3.717561721801758, "z": -0.6613596677780151 }, "axis_scores": { "Quantum imaging": 0.6721007823944092, "Quantum Life Science Sensing": 0.723708987236023, "Quantum sensing Detection": 0.6847854256629944, "Quantum sensing Metrology": 0.6849123239517212, "Quantum sensing navigation": 0.6817511320114136, "Quantum sensing Position": 0.647773802280426, "Quantum sensing Timing": 0.640441358089447, "Quantum sensing": 0.6956784129142761, "Quantum control": 0.6575251817703247 } }, { "id": 1632, "title": "Direct determination of a peptide torsional angle psi by double-quantum solid-state NMR", "abstract": "", "citations": 122, "author_count": 9, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1634, "doi": "10.1021/ja972252e", "umap_coordinates": { "x": 393.04931640625, "y": 136.72833251953125, "z": 206.3728485107422 }, "tsne_coordinates": { "x": 15.817310333251953, "y": 3.365518569946289, "z": 25.285667419433594 }, "pca_coordinates": { "x": -0.9365342855453491, "y": 1.2501094341278076, "z": -0.021021783351898193 }, "axis_scores": { "Quantum imaging": 0.7037080526351929, "Quantum Life Science Sensing": 0.7285274267196655, "Quantum sensing Detection": 0.6932393908500671, "Quantum sensing Metrology": 0.6847602128982544, "Quantum sensing navigation": 0.7055373191833496, "Quantum sensing Position": 0.7052085995674133, "Quantum sensing Timing": 0.6954367756843567, "Quantum sensing": 0.7073519229888916, "Quantum control": 0.6809130907058716 } }, { "id": 1633, "title": "Liquid light condensates - art. no. 066604", "abstract": "We show that a laser beam which propagates through a cubic-quintic nonlinear optical material may reach, for a given power, a condensed state with a collisional dynamics resembling a liquid drop. We q...", "citations": 71, "author_count": 6, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1635, "doi": "10.1103/PhysRevE.65.066604", "umap_coordinates": { "x": 395.3629150390625, "y": 136.2425079345703, "z": 208.47280883789062 }, "tsne_coordinates": { "x": -14.883515357971191, "y": -16.323528289794922, "z": -2.700723886489868 }, "pca_coordinates": { "x": 3.8032960891723633, "y": 0.1202383041381836, "z": -0.21494030952453613 }, "axis_scores": { "Quantum imaging": 0.7021055817604065, "Quantum Life Science Sensing": 0.7389183044433594, "Quantum sensing Detection": 0.7055020928382874, "Quantum sensing Metrology": 0.6932273507118225, "Quantum sensing navigation": 0.7056222558021545, "Quantum sensing Position": 0.692258894443512, "Quantum sensing Timing": 0.672987163066864, "Quantum sensing": 0.7128196954727173, "Quantum control": 0.6974232196807861 } }, { "id": 1634, "title": "Effect of electron interaction on statistics of conductance oscillations in open quantum dots: Does the dephasing time saturate?", "abstract": "We perform self-consistent quantum transport calculations in open quantum dots taking into account the effect of electron interaction. We demonstrate that, in the regime of the ultralow temperatures 2...", "citations": 11, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1636, "doi": "10.1103/PhysRevLett.99.166801", "umap_coordinates": { "x": 394.2479248046875, "y": 135.46324157714844, "z": 208.59950256347656 }, "tsne_coordinates": { "x": -7.934457302093506, "y": -33.19044876098633, "z": -7.6700520515441895 }, "pca_coordinates": { "x": 3.6969313621520996, "y": -1.3779535293579102, "z": 0.5366718173027039 }, "axis_scores": { "Quantum imaging": 0.7271469235420227, "Quantum Life Science Sensing": 0.7574986219406128, "Quantum sensing Detection": 0.7496637105941772, "Quantum sensing Metrology": 0.7227009534835815, "Quantum sensing navigation": 0.7359822988510132, "Quantum sensing Position": 0.722967267036438, "Quantum sensing Timing": 0.749025285243988, "Quantum sensing": 0.7435883283615112, "Quantum control": 0.7160664200782776 } }, { "id": 1635, "title": "Metal Clusters, Quantum Dots, and Trapped Atoms: From Single-Particle Models to Correlation", "abstract": "", "citations": 1, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1637, "doi": "10.1016/S1875-4023(10)01012-0", "umap_coordinates": { "x": 393.8209228515625, "y": 135.13194274902344, "z": 206.60678100585938 }, "tsne_coordinates": { "x": 21.274803161621094, "y": -19.186445236206055, "z": 18.45634651184082 }, "pca_coordinates": { "x": -0.22122728824615479, "y": -1.301821231842041, "z": -1.0431632995605469 }, "axis_scores": { "Quantum imaging": 0.7091469168663025, "Quantum Life Science Sensing": 0.7305954694747925, "Quantum sensing Detection": 0.7185208797454834, "Quantum sensing Metrology": 0.7085671424865723, "Quantum sensing navigation": 0.7131734490394592, "Quantum sensing Position": 0.7102481722831726, "Quantum sensing Timing": 0.6967969536781311, "Quantum sensing": 0.7282059192657471, "Quantum control": 0.6989806294441223 } }, { "id": 1636, "title": "A comparison between quantum and classical noise radar sources", "abstract": "We compare the performance of a quantum radar based on two-mode squeezed states with a classical radar system based on correlated thermal noise. With a constraint of equal number of photons N-S transm...", "citations": 13, "author_count": 6, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1638, "doi": "10.1109/radarconf2043947.2020.9266597", "umap_coordinates": { "x": 395.5101318359375, "y": 135.908203125, "z": 206.2603759765625 }, "tsne_coordinates": { "x": -46.36747741699219, "y": -7.578772068023682, "z": 7.129164695739746 }, "pca_coordinates": { "x": 0.18016302585601807, "y": 3.2693822383880615, "z": 1.8508996963500977 }, "axis_scores": { "Quantum imaging": 0.7392861247062683, "Quantum Life Science Sensing": 0.7495239973068237, "Quantum sensing Detection": 0.7476941347122192, "Quantum sensing Metrology": 0.7344747185707092, "Quantum sensing navigation": 0.7453209161758423, "Quantum sensing Position": 0.7169526815414429, "Quantum sensing Timing": 0.7407844066619873, "Quantum sensing": 0.7479382753372192, "Quantum control": 0.7282081842422485 } }, { "id": 1637, "title": "Evaluation of Energy Loss and Charge Sharing in Cadmium Telluride Detectors for Photon-Counting Computed Tomography", "abstract": "We present estimates of energy loss and charge sharing for a pixelated cadmium telluride (CdTe) detector used for photon-counting spectral computed tomography (CT). In a photon-counting pixelated CdTe...", "citations": 97, "author_count": 4, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1639, "doi": "10.1109/TNS.2011.2122267", "umap_coordinates": { "x": 394.8633117675781, "y": 132.806884765625, "z": 205.77940368652344 }, "tsne_coordinates": { "x": -16.567516326904297, "y": 16.15325927734375, "z": -19.011838912963867 }, "pca_coordinates": { "x": -1.7307013273239136, "y": -0.20735669136047363, "z": 2.9787206649780273 }, "axis_scores": { "Quantum imaging": 0.7119729518890381, "Quantum Life Science Sensing": 0.7098292708396912, "Quantum sensing Detection": 0.7130053639411926, "Quantum sensing Metrology": 0.7035999894142151, "Quantum sensing navigation": 0.6854673624038696, "Quantum sensing Position": 0.691618800163269, "Quantum sensing Timing": 0.7222864627838135, "Quantum sensing": 0.7064080238342285, "Quantum control": 0.6578625440597534 } }, { "id": 1638, "title": "Ultrastrong coupling between light and matter", "abstract": "Light-matter coupling with strength comparable to the bare transition frequencies of the system is called ultrastrong. This Review surveys how experiments have realized ultrastrong coupling in the pas...", "citations": 932, "author_count": 6, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1640, "doi": "10.1038/s42254-018-0006-2", "umap_coordinates": { "x": 394.6134033203125, "y": 135.66969299316406, "z": 206.2176055908203 }, "tsne_coordinates": { "x": -11.58247184753418, "y": 0.28206244111061096, "z": -3.5111939907073975 }, "pca_coordinates": { "x": 0.09413933753967285, "y": 0.26305198669433594, "z": -0.14221519231796265 }, "axis_scores": { "Quantum imaging": 0.7299938797950745, "Quantum Life Science Sensing": 0.7642093300819397, "Quantum sensing Detection": 0.7367310523986816, "Quantum sensing Metrology": 0.7257919907569885, "Quantum sensing navigation": 0.7353020906448364, "Quantum sensing Position": 0.7149827480316162, "Quantum sensing Timing": 0.6939161419868469, "Quantum sensing": 0.7491241097450256, "Quantum control": 0.7199122905731201 } }, { "id": 1639, "title": "Molecular recognition of the environment and mechanisms of the origin of species in quantum-like modeling of evolution", "abstract": "A review of the mechanisms of speciation is performed. The mechanisms of the evolution of species, taking into account the feedback of the state of the environment and mechanisms of the emergence of c...", "citations": 8, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1641, "doi": "10.1016/j.pbiomolbio.2017.04.008", "umap_coordinates": { "x": 394.2861633300781, "y": 137.3889617919922, "z": 205.70750427246094 }, "tsne_coordinates": { "x": -18.57671356201172, "y": 12.289938926696777, "z": 20.483234405517578 }, "pca_coordinates": { "x": 0.34165334701538086, "y": 1.760789155960083, "z": -3.1625008583068848 }, "axis_scores": { "Quantum imaging": 0.7925798892974854, "Quantum Life Science Sensing": 0.8035048246383667, "Quantum sensing Detection": 0.7749130725860596, "Quantum sensing Metrology": 0.7579405903816223, "Quantum sensing navigation": 0.7827048301696777, "Quantum sensing Position": 0.7616840600967407, "Quantum sensing Timing": 0.7399425506591797, "Quantum sensing": 0.7852798104286194, "Quantum control": 0.7734361886978149 } }, { "id": 1640, "title": "Stabilization of point-defect spin qubits by quantum wells", "abstract": "Defect-based quantum systems in wide bandgap semiconductors are strong candidates for scalable quantum-information technologies. However, these systems are often complicated by charge-state instabilit...", "citations": 61, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1642, "doi": "10.1038/s41467-019-13495-6", "umap_coordinates": { "x": 393.47857666015625, "y": 135.72171020507812, "z": 207.21664428710938 }, "tsne_coordinates": { "x": 6.337257385253906, "y": -12.878317832946777, "z": 9.05472183227539 }, "pca_coordinates": { "x": 0.6874134540557861, "y": -1.0182709693908691, "z": -0.18614858388900757 }, "axis_scores": { "Quantum imaging": 0.7184461951255798, "Quantum Life Science Sensing": 0.7333478927612305, "Quantum sensing Detection": 0.7226492762565613, "Quantum sensing Metrology": 0.723121702671051, "Quantum sensing navigation": 0.7352039217948914, "Quantum sensing Position": 0.7444733381271362, "Quantum sensing Timing": 0.7103809714317322, "Quantum sensing": 0.73948073387146, "Quantum control": 0.7361531853675842 } }, { "id": 1641, "title": "Discovery of atomic clock-like spin defects in simple oxides from first principles", "abstract": "Virtually noiseless due to the scarcity of spinful nuclei in the lattice, simple oxides hold promise as hosts of solid-state spin qubits. However, no suitable spin defect has yet been found in these s...", "citations": 13, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1643, "doi": "10.1038/s41467-024-49057-8", "umap_coordinates": { "x": 393.11590576171875, "y": 135.87435913085938, "z": 207.1134033203125 }, "tsne_coordinates": { "x": 8.293375015258789, "y": -14.26966667175293, "z": 8.017205238342285 }, "pca_coordinates": { "x": 0.29146409034729004, "y": -0.08923482894897461, "z": -1.080887794494629 }, "axis_scores": { "Quantum imaging": 0.7006215453147888, "Quantum Life Science Sensing": 0.7344446778297424, "Quantum sensing Detection": 0.7133878469467163, "Quantum sensing Metrology": 0.6966201663017273, "Quantum sensing navigation": 0.7297989130020142, "Quantum sensing Position": 0.7015280723571777, "Quantum sensing Timing": 0.7354482412338257, "Quantum sensing": 0.7210033535957336, "Quantum control": 0.7012421488761902 } }, { "id": 1642, "title": "The Renaissance of Luminescent Solar Concentrators: The Role of Inorganic Nanomaterials", "abstract": "While luminescent solar concentrators (LSCs) have a simple architecture-a transparent matrix embedding a luminescent fluorophore coupled with solar cells at the lateral side of the LSC slab-multiple p...", "citations": 139, "author_count": 3, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1644, "doi": "10.1002/aenm.201801903", "umap_coordinates": { "x": 393.3238525390625, "y": 134.13743591308594, "z": 205.2706298828125 }, "tsne_coordinates": { "x": 28.03231430053711, "y": 9.03543758392334, "z": -16.543155670166016 }, "pca_coordinates": { "x": -3.7061564922332764, "y": -1.2718706130981445, "z": -1.6806060075759888 }, "axis_scores": { "Quantum imaging": 0.7067423462867737, "Quantum Life Science Sensing": 0.7404946684837341, "Quantum sensing Detection": 0.70365971326828, "Quantum sensing Metrology": 0.7100057601928711, "Quantum sensing navigation": 0.7078883647918701, "Quantum sensing Position": 0.6984572410583496, "Quantum sensing Timing": 0.6532161235809326, "Quantum sensing": 0.7153816819190979, "Quantum control": 0.696589469909668 } }, { "id": 1643, "title": "Microwave assisted synthesis of ZnS quantum dots using ionic liquids", "abstract": "In this work we report results from microwave (MW) assisted synthesis of highly crystalline ZnS quantum dots (QDs) using ionic liquid (ILs) as MW absorbing medium. Two types of ionic liquids, imidazol...", "citations": 30, "author_count": 8, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1645, "doi": "10.1016/j.matlet.2012.08.143", "umap_coordinates": { "x": 393.0892333984375, "y": 134.02572631835938, "z": 205.6141815185547 }, "tsne_coordinates": { "x": 30.71832275390625, "y": 5.891808032989502, "z": 0.3202904462814331 }, "pca_coordinates": { "x": -3.0727245807647705, "y": -1.7599101066589355, "z": 0.3296501040458679 }, "axis_scores": { "Quantum imaging": 0.719615638256073, "Quantum Life Science Sensing": 0.7205862402915955, "Quantum sensing Detection": 0.7054271697998047, "Quantum sensing Metrology": 0.7032148838043213, "Quantum sensing navigation": 0.6959208250045776, "Quantum sensing Position": 0.6685303449630737, "Quantum sensing Timing": 0.6664179563522339, "Quantum sensing": 0.718377411365509, "Quantum control": 0.6859987378120422 } }, { "id": 1644, "title": "Arrays of Ge islands on Si(001) grown by means of electron-beam pre-patterning", "abstract": "We show that well-defined arrays of self-assembled Ge dots on Si(001) can be grown after pre-patterning the Si surface by means of an electron beam. The electron beam produces C-containing growth mask...", "citations": 55, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1646, "doi": "10.1088/0957-4484/14/2/331", "umap_coordinates": { "x": 393.71209716796875, "y": 134.1553497314453, "z": 206.9539794921875 }, "tsne_coordinates": { "x": 42.16659927368164, "y": -8.095174789428711, "z": 1.3516314029693604 }, "pca_coordinates": { "x": -0.11616253852844238, "y": 0.4430199861526489, "z": 2.5537915229797363 }, "axis_scores": { "Quantum imaging": 0.7057458162307739, "Quantum Life Science Sensing": 0.6937965154647827, "Quantum sensing Detection": 0.6841073036193848, "Quantum sensing Metrology": 0.6935954093933105, "Quantum sensing navigation": 0.6981613039970398, "Quantum sensing Position": 0.6967011094093323, "Quantum sensing Timing": 0.6683640480041504, "Quantum sensing": 0.6980357766151428, "Quantum control": 0.661180853843689 } }, { "id": 1645, "title": "Experimental demonstration of exposure-free imaging and contrast amplification", "abstract": "Interference between waves can yield quite counterintuitive results. Some time ago, Elizur and Vaidman (1993 Found. Phys. 23 987) proposed a way to detect the presence or absence of a perfectly absorb...", "citations": 9, "author_count": 3, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1647, "doi": "10.1088/1464-4266/2/3/318", "umap_coordinates": { "x": 395.4380187988281, "y": 134.66534423828125, "z": 206.0907745361328 }, "tsne_coordinates": { "x": -21.30792808532715, "y": 1.0536024570465088, "z": -12.513054847717285 }, "pca_coordinates": { "x": -2.3345086574554443, "y": 2.7781379222869873, "z": 2.9526100158691406 }, "axis_scores": { "Quantum imaging": 0.7308803796768188, "Quantum Life Science Sensing": 0.6850306987762451, "Quantum sensing Detection": 0.681857168674469, "Quantum sensing Metrology": 0.6713616251945496, "Quantum sensing navigation": 0.6719347834587097, "Quantum sensing Position": 0.6422169208526611, "Quantum sensing Timing": 0.6508579254150391, "Quantum sensing": 0.682792067527771, "Quantum control": 0.6590608954429626 } }, { "id": 1646, "title": "Prompt photons in photoproduction at HERA", "abstract": "The production of prompt photons is measured in the photoproduction regime of electron-proton scattering at HERA. The analysis is based on a data sample corresponding to a total integrated luminosity ...", "citations": 28, "author_count": 243, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1648, "doi": "10.1140/epjc/s10052-010-1240-7", "umap_coordinates": { "x": 396.4839172363281, "y": 134.39273071289062, "z": 207.2387237548828 }, "tsne_coordinates": { "x": -28.4624080657959, "y": 9.55329704284668, "z": -6.915318965911865 }, "pca_coordinates": { "x": -0.4635060429573059, "y": 0.9628921747207642, "z": 2.079263210296631 }, "axis_scores": { "Quantum imaging": 0.6856301426887512, "Quantum Life Science Sensing": 0.6852092742919922, "Quantum sensing Detection": 0.6901301741600037, "Quantum sensing Metrology": 0.6559165716171265, "Quantum sensing navigation": 0.6665468811988831, "Quantum sensing Position": 0.6768068671226501, "Quantum sensing Timing": 0.7149282693862915, "Quantum sensing": 0.6888793706893921, "Quantum control": 0.6592541933059692 } }, { "id": 1647, "title": "Determination of Internal Structures of Heterogeneous Nanocrystals Using Variable-Energy Photoemission Spectroscopy", "abstract": "This article describes the determination of the internal structure of heterogeneous nanoparticle systems including inverted core-shell (CdS core and CdSe shell) and alloyed (CdSeS) quantum dots using ...", "citations": 22, "author_count": 10, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1649, "doi": "10.1021/jp504283m", "umap_coordinates": { "x": 392.75439453125, "y": 134.67315673828125, "z": 205.93365478515625 }, "tsne_coordinates": { "x": 20.248340606689453, "y": -5.229238986968994, "z": 4.226245880126953 }, "pca_coordinates": { "x": -2.672358512878418, "y": -1.7958321571350098, "z": -0.16387945413589478 }, "axis_scores": { "Quantum imaging": 0.7268846035003662, "Quantum Life Science Sensing": 0.7375693917274475, "Quantum sensing Detection": 0.6994559168815613, "Quantum sensing Metrology": 0.6951318979263306, "Quantum sensing navigation": 0.6837894916534424, "Quantum sensing Position": 0.668801486492157, "Quantum sensing Timing": 0.6416088938713074, "Quantum sensing": 0.7158992886543274, "Quantum control": 0.6686957478523254 } }, { "id": 1648, "title": "Josephson transport in complex mesoscopic structures", "abstract": "A universal spectral equation is derived for Andreev bound states in superconducting quantum junctions, relating bound state energies with the normal electron scattering amplitudes. The equation is ap...", "citations": 40, "author_count": 3, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1650, "doi": "10.1006/spmi.1996.0116", "umap_coordinates": { "x": 393.8934326171875, "y": 134.98281860351562, "z": 207.05596923828125 }, "tsne_coordinates": { "x": 4.973346710205078, "y": -17.400362014770508, "z": 17.377105712890625 }, "pca_coordinates": { "x": 1.1216888427734375, "y": 0.33500075340270996, "z": -0.15237736701965332 }, "axis_scores": { "Quantum imaging": 0.7337686419487, "Quantum Life Science Sensing": 0.7130043506622314, "Quantum sensing Detection": 0.6822677850723267, "Quantum sensing Metrology": 0.7021161317825317, "Quantum sensing navigation": 0.7225587964057922, "Quantum sensing Position": 0.6981437802314758, "Quantum sensing Timing": 0.672785222530365, "Quantum sensing": 0.7100387215614319, "Quantum control": 0.6985918879508972 } }, { "id": 1649, "title": "Spatial and temporal distribution of phase slips in Josephson junction chains", "abstract": "The Josephson effect, tunnelling of a supercurrent through a thin insulator layer between two superconducting islands, is a phenomena characterized by a spatially distributed phase of the superconduct...", "citations": 6, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1651, "doi": "10.1038/s41598-017-11670-7", "umap_coordinates": { "x": 393.5151062011719, "y": 135.71771240234375, "z": 207.0948028564453 }, "tsne_coordinates": { "x": 3.0230298042297363, "y": -17.09831428527832, "z": 18.972715377807617 }, "pca_coordinates": { "x": 0.5913987159729004, "y": 0.4010915756225586, "z": -0.028008759021759033 }, "axis_scores": { "Quantum imaging": 0.7226996421813965, "Quantum Life Science Sensing": 0.7098419666290283, "Quantum sensing Detection": 0.6843920946121216, "Quantum sensing Metrology": 0.6706401109695435, "Quantum sensing navigation": 0.719820499420166, "Quantum sensing Position": 0.7059236168861389, "Quantum sensing Timing": 0.7520123720169067, "Quantum sensing": 0.700463593006134, "Quantum control": 0.6845566034317017 } }, { "id": 1650, "title": "Imaging high energy photons with PILATUS II at the tagged photon beam at MAX-lab", "abstract": "In photonuclear experiments precise location of the photon beam relative to the experimental sample is critical. Previously used techniques such as using photographic film to identify the position, in...", "citations": 1, "author_count": 13, "categories": [ "Instruments & Instrumentation" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1652, "doi": "10.1016/j.nima.2009.02.024", "umap_coordinates": { "x": 395.5060119628906, "y": 133.16680908203125, "z": 206.13723754882812 }, "tsne_coordinates": { "x": -19.874948501586914, "y": 15.250275611877441, "z": -13.050537109375 }, "pca_coordinates": { "x": -1.970416784286499, "y": 0.9665632247924805, "z": 4.444582462310791 }, "axis_scores": { "Quantum imaging": 0.7413538694381714, "Quantum Life Science Sensing": 0.691041111946106, "Quantum sensing Detection": 0.7051462531089783, "Quantum sensing Metrology": 0.6944774389266968, "Quantum sensing navigation": 0.6985759735107422, "Quantum sensing Position": 0.702535092830658, "Quantum sensing Timing": 0.7046767473220825, "Quantum sensing": 0.7054004073143005, "Quantum control": 0.6257694363594055 } }, { "id": 1651, "title": "Fluorescence Quantum Yields of Natural Organic Matter and Organic Compounds: Implications for the Fluorescence-based Interpretation of Organic Matter Composition (vol 2, 98, 2015)", "abstract": "", "citations": 10, "author_count": 4, "categories": [ "Environmental Sciences & Ecology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1653, "doi": "10.3389/fmars.2016.00009", "umap_coordinates": { "x": 393.5989685058594, "y": 135.47769165039062, "z": 204.445068359375 }, "tsne_coordinates": { "x": 23.38709259033203, "y": 28.255935668945312, "z": 13.583988189697266 }, "pca_coordinates": { "x": -3.9286751747131348, "y": 1.4772218465805054, "z": -2.524745464324951 }, "axis_scores": { "Quantum imaging": 0.7158260345458984, "Quantum Life Science Sensing": 0.7656276822090149, "Quantum sensing Detection": 0.712611973285675, "Quantum sensing Metrology": 0.7081218957901001, "Quantum sensing navigation": 0.6932858824729919, "Quantum sensing Position": 0.662394642829895, "Quantum sensing Timing": 0.6464636325836182, "Quantum sensing": 0.7242488861083984, "Quantum control": 0.6860471367835999 } }, { "id": 1652, "title": "Reconstruction of attosecond electron wave packets using quantum state holography", "abstract": "We present a method for performing quantum state holography, with which we completely characterize the amplitude and phase of an attosecond electron wave packet. Our approach is an extension of a rece...", "citations": 26, "author_count": 10, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1654, "doi": "10.1103/PhysRevA.88.033404", "umap_coordinates": { "x": 395.75048828125, "y": 136.0565643310547, "z": 207.59629821777344 }, "tsne_coordinates": { "x": -14.223468780517578, "y": -8.630575180053711, "z": -7.182019233703613 }, "pca_coordinates": { "x": 4.497391223907471, "y": 0.20135879516601562, "z": 2.0570735931396484 }, "axis_scores": { "Quantum imaging": 0.7412116527557373, "Quantum Life Science Sensing": 0.7228448390960693, "Quantum sensing Detection": 0.7156555652618408, "Quantum sensing Metrology": 0.7080681324005127, "Quantum sensing navigation": 0.7262000441551208, "Quantum sensing Position": 0.6936942338943481, "Quantum sensing Timing": 0.6869708299636841, "Quantum sensing": 0.7269781827926636, "Quantum control": 0.6863905191421509 } }, { "id": 1653, "title": "Operator ordering and causality beyond the rotating wave approximation", "abstract": "Conventional definition of the time-normal operator ordering (KELLEY P. L. and KLEINER W. H., Phys. Rev., 136 (1964) A316) is prone to causality violations (de HAAN M., Physica A, 132 (1985) 375; 397)...", "citations": 7, "author_count": 3, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1655, "doi": "10.1209/0295-5075/96/34002", "umap_coordinates": { "x": 394.9710388183594, "y": 137.25047302246094, "z": 206.67857360839844 }, "tsne_coordinates": { "x": -27.025615692138672, "y": 4.355110168457031, "z": 0.37265822291374207 }, "pca_coordinates": { "x": 1.55143404006958, "y": 4.805772304534912, "z": -2.366394281387329 }, "axis_scores": { "Quantum imaging": 0.6951528191566467, "Quantum Life Science Sensing": 0.6777977347373962, "Quantum sensing Detection": 0.6840422749519348, "Quantum sensing Metrology": 0.660324215888977, "Quantum sensing navigation": 0.7030295133590698, "Quantum sensing Position": 0.6883453726768494, "Quantum sensing Timing": 0.7163214683532715, "Quantum sensing": 0.6922175884246826, "Quantum control": 0.6866415739059448 } }, { "id": 1654, "title": "Two-Dimensional Electronic Spectroscopy with Intense Entangled-Photon Beams", "abstract": "Entangled photons carry nontrivial quantum correlations that defy classical physics and provide new tools for monitoring quantum dynamics in molecules. The use of low-flux entangled photons in molecul...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1656, "doi": "10.1103/bscm-ndnk", "umap_coordinates": { "x": 395.02886962890625, "y": 135.7517852783203, "z": 207.4495849609375 }, "tsne_coordinates": { "x": 5.185103416442871, "y": -5.146315097808838, "z": 5.589176177978516 }, "pca_coordinates": { "x": 2.694584369659424, "y": -1.2080721855163574, "z": 2.492006301879883 }, "axis_scores": { "Quantum imaging": 0.7302533388137817, "Quantum Life Science Sensing": 0.7149279713630676, "Quantum sensing Detection": 0.743107795715332, "Quantum sensing Metrology": 0.7152892351150513, "Quantum sensing navigation": 0.7209639549255371, "Quantum sensing Position": 0.7049109935760498, "Quantum sensing Timing": 0.6770286560058594, "Quantum sensing": 0.7390870451927185, "Quantum control": 0.6780446767807007 } }, { "id": 1655, "title": "Out-of-time-order correlations and Floquet dynamical quantum phase transition", "abstract": "Out-of-time-order correlators (OTOCs) progressively play an important role in different fields of physics, particularly in the nonequilibrium quantum many-body systems. In this paper, we show that OTO...", "citations": 37, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1657, "doi": "10.1103/PhysRevB.105.094304", "umap_coordinates": { "x": 395.0432434082031, "y": 136.98184204101562, "z": 208.39051818847656 }, "tsne_coordinates": { "x": -18.53508758544922, "y": -18.433691024780273, "z": 12.676559448242188 }, "pca_coordinates": { "x": 5.799879550933838, "y": 1.4166600704193115, "z": -1.6874170303344727 }, "axis_scores": { "Quantum imaging": 0.7536797523498535, "Quantum Life Science Sensing": 0.763950765132904, "Quantum sensing Detection": 0.7577382326126099, "Quantum sensing Metrology": 0.7325131893157959, "Quantum sensing navigation": 0.7632501125335693, "Quantum sensing Position": 0.7345219850540161, "Quantum sensing Timing": 0.7706252932548523, "Quantum sensing": 0.7653919458389282, "Quantum control": 0.7573903799057007 } }, { "id": 1656, "title": "Dissipative quantum dynamics at surfaces: A nonlinear-coupling model", "abstract": "The recently developed Lindblad approach for quantum dynamics of an open system with linear dissipation has been extended to a model of nonlinear coupling. The coupling term H-i=Sigma(k)C(k)f(x)q(k), ...", "citations": 10, "author_count": 2, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1658, "doi": "10.1103/PhysRevB.60.15609", "umap_coordinates": { "x": 394.55682373046875, "y": 136.19039916992188, "z": 208.18138122558594 }, "tsne_coordinates": { "x": -25.469606399536133, "y": -19.148292541503906, "z": 11.184066772460938 }, "pca_coordinates": { "x": 4.623288631439209, "y": 0.15828847885131836, "z": -0.46683692932128906 }, "axis_scores": { "Quantum imaging": 0.7391692399978638, "Quantum Life Science Sensing": 0.7524639368057251, "Quantum sensing Detection": 0.7511959671974182, "Quantum sensing Metrology": 0.7199355959892273, "Quantum sensing navigation": 0.7482202649116516, "Quantum sensing Position": 0.7111520171165466, "Quantum sensing Timing": 0.7062722444534302, "Quantum sensing": 0.7517311573028564, "Quantum control": 0.7345024943351746 } }, { "id": 1657, "title": "Influence of substrate dynamics on CO-MgO(001) bonding-using molecular dynamics snapshots in quantum-chemical calculations", "abstract": "Combined molecular dynamics (MD) and quantum mechanics QM) calculations have been performed for CO adsorbed on MgO(001) at 50 K. The changes in the adsorption energy caused by the surface dynamics hav...", "citations": 2, "author_count": 4, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1659, "doi": "10.1021/jp0538262", "umap_coordinates": { "x": 393.13958740234375, "y": 137.3038787841797, "z": 205.9837646484375 }, "tsne_coordinates": { "x": -2.744095802307129, "y": 14.102151870727539, "z": 25.17803192138672 }, "pca_coordinates": { "x": 0.3253978490829468, "y": 0.766783595085144, "z": -2.9744720458984375 }, "axis_scores": { "Quantum imaging": 0.6902180910110474, "Quantum Life Science Sensing": 0.6962055563926697, "Quantum sensing Detection": 0.6652904152870178, "Quantum sensing Metrology": 0.655734658241272, "Quantum sensing navigation": 0.685685396194458, "Quantum sensing Position": 0.6801063418388367, "Quantum sensing Timing": 0.6913584470748901, "Quantum sensing": 0.6793068051338196, "Quantum control": 0.7002165913581848 } }, { "id": 1658, "title": "Quantum-like environment adaptive model for creation of phenotype", "abstract": "The textbook conceptualization of phenotype creation, genotype (G) + environment (E) + genotype & environment interactions (GE) phenotype (Ph), is modeled with open quantum systems theory (OQST) or mo...", "citations": 6, "author_count": 5, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1660, "doi": "10.1016/j.biosystems.2024.105261", "umap_coordinates": { "x": 394.6268310546875, "y": 137.43946838378906, "z": 205.76731872558594 }, "tsne_coordinates": { "x": -19.276002883911133, "y": 11.150678634643555, "z": 19.439334869384766 }, "pca_coordinates": { "x": 0.2737877368927002, "y": 1.851495623588562, "z": -1.9677283763885498 }, "axis_scores": { "Quantum imaging": 0.7615430951118469, "Quantum Life Science Sensing": 0.7974331378936768, "Quantum sensing Detection": 0.7613078951835632, "Quantum sensing Metrology": 0.75238436460495, "Quantum sensing navigation": 0.7699729204177856, "Quantum sensing Position": 0.7448278069496155, "Quantum sensing Timing": 0.7280967235565186, "Quantum sensing": 0.7745509147644043, "Quantum control": 0.7613009810447693 } }, { "id": 1659, "title": "On using non-Kekule triangular graphene quantum dots for scavenging hazardous sulfur hexafluoride components", "abstract": "The goal of present study is to explore how the size and functionalization of graphene quantum dots (GQDs) affect their sensing capabilities. Specifically, we investigated the adsorption of SO2, SOF2,...", "citations": 8, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1661, "doi": "10.1016/j.heliyon.2023.e15388", "umap_coordinates": { "x": 392.9057922363281, "y": 133.53622436523438, "z": 205.21005249023438 }, "tsne_coordinates": { "x": 31.776941299438477, "y": 9.327324867248535, "z": -10.237035751342773 }, "pca_coordinates": { "x": -2.3223042488098145, "y": -0.5434885025024414, "z": -2.0802929401397705 }, "axis_scores": { "Quantum imaging": 0.6621227264404297, "Quantum Life Science Sensing": 0.713364839553833, "Quantum sensing Detection": 0.660193145275116, "Quantum sensing Metrology": 0.6566160321235657, "Quantum sensing navigation": 0.6513627767562866, "Quantum sensing Position": 0.6279280781745911, "Quantum sensing Timing": 0.6376129984855652, "Quantum sensing": 0.6749940514564514, "Quantum control": 0.6522853970527649 } }, { "id": 1660, "title": "Charge-carrier statistics at InAs/GaAs quantum dots - art. no. 075360", "abstract": "The statistics of thermal electron emission from InAs/GaAs quantum dots with base/height dimensions of 20/10 (nm) are developed. The quantum dots considered are assumed to have two electron energy lev...", "citations": 23, "author_count": 3, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1662, "doi": "10.1103/PhysRevB.72.075360", "umap_coordinates": { "x": 394.0155944824219, "y": 134.94053649902344, "z": 209.04415893554688 }, "tsne_coordinates": { "x": 7.650197505950928, "y": -32.3098030090332, "z": 2.9754414558410645 }, "pca_coordinates": { "x": 4.278456211090088, "y": -2.4389901161193848, "z": 0.695577085018158 }, "axis_scores": { "Quantum imaging": 0.6755602955818176, "Quantum Life Science Sensing": 0.6961542367935181, "Quantum sensing Detection": 0.6926194429397583, "Quantum sensing Metrology": 0.682630717754364, "Quantum sensing navigation": 0.7131059765815735, "Quantum sensing Position": 0.6949271559715271, "Quantum sensing Timing": 0.6789538860321045, "Quantum sensing": 0.7013520002365112, "Quantum control": 0.6776465773582458 } }, { "id": 1661, "title": "Maximal steady-state entanglement in autonomous quantum thermal machines", "abstract": "We devise an autonomous quantum thermal machine consisting of three pairwise-interacting qubits, two of which are locally coupled to thermal reservoirs. The machine operates autonomously, as it requir...", "citations": 3, "author_count": 6, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1663, "doi": "10.1038/s41534-025-00981-7", "umap_coordinates": { "x": 395.5526428222656, "y": 136.76307678222656, "z": 206.9207000732422 }, "tsne_coordinates": { "x": -25.879451751708984, "y": -13.811995506286621, "z": -18.20870590209961 }, "pca_coordinates": { "x": 1.9630041122436523, "y": 1.0344513654708862, "z": 0.9662932753562927 }, "axis_scores": { "Quantum imaging": 0.7215932607650757, "Quantum Life Science Sensing": 0.7108911871910095, "Quantum sensing Detection": 0.7224204540252686, "Quantum sensing Metrology": 0.7333818078041077, "Quantum sensing navigation": 0.7231720685958862, "Quantum sensing Position": 0.713693380355835, "Quantum sensing Timing": 0.7030348777770996, "Quantum sensing": 0.7329846024513245, "Quantum control": 0.6921373605728149 } }, { "id": 1662, "title": "Low temperature synthesis of cubic phase zinc sulfide quantum dots", "abstract": "In this study, we report on a new method for the synthesis of ZnS quantum dots (QDs). The synthesis was carried out at low temperature by a chemical reaction between zinc ions and freshly reduced sulf...", "citations": 20, "author_count": 5, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1664, "doi": "10.2478/s11532-011-0108-5", "umap_coordinates": { "x": 393.6767578125, "y": 134.73782348632812, "z": 206.33924865722656 }, "tsne_coordinates": { "x": 7.210229396820068, "y": -14.294018745422363, "z": 9.793723106384277 }, "pca_coordinates": { "x": -0.6473718881607056, "y": -0.8599987030029297, "z": 0.2988749146461487 }, "axis_scores": { "Quantum imaging": 0.6880671381950378, "Quantum Life Science Sensing": 0.7072335481643677, "Quantum sensing Detection": 0.6946727633476257, "Quantum sensing Metrology": 0.7049441337585449, "Quantum sensing navigation": 0.7003607153892517, "Quantum sensing Position": 0.6922295093536377, "Quantum sensing Timing": 0.7134233713150024, "Quantum sensing": 0.7048740983009338, "Quantum control": 0.7142421007156372 } }, { "id": 1663, "title": "Symmetry-controlled singlet-triplet transition in a double-barrier quantum ring", "abstract": "We engineer a system of two strongly confined quantum dots to gain reproducible electrostatic control of the even-electron spin at zero magnetic field. Coupling the dots in a tight ring-shaped potenti...", "citations": 7, "author_count": 10, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1665, "doi": "10.1103/PhysRevB.104.L081409", "umap_coordinates": { "x": 393.79168701171875, "y": 136.116943359375, "z": 207.96543884277344 }, "tsne_coordinates": { "x": -6.575271129608154, "y": -21.28207015991211, "z": 9.586119651794434 }, "pca_coordinates": { "x": 3.713322639465332, "y": -1.5070500373840332, "z": -1.6593135595321655 }, "axis_scores": { "Quantum imaging": 0.717329204082489, "Quantum Life Science Sensing": 0.7335725426673889, "Quantum sensing Detection": 0.7245699167251587, "Quantum sensing Metrology": 0.7135383486747742, "Quantum sensing navigation": 0.7186520099639893, "Quantum sensing Position": 0.6923888325691223, "Quantum sensing Timing": 0.7087939381599426, "Quantum sensing": 0.7366823554039001, "Quantum control": 0.7396682500839233 } }, { "id": 1664, "title": "Magnetic interlayer coupling and interaction between interface states in a quantum-well system", "abstract": "A first-principles Green's function technique has been used to investigate the magnetic interlayer coupling and the electronic structure responsible for the magnetic interaction in a bcc Fe/Cu-N/Fe sy...", "citations": 6, "author_count": 6, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1666, "doi": "10.1088/0953-8984/11/4/005", "umap_coordinates": { "x": 393.3627624511719, "y": 135.68228149414062, "z": 208.2967529296875 }, "tsne_coordinates": { "x": 10.855392456054688, "y": -35.379024505615234, "z": 14.818324089050293 }, "pca_coordinates": { "x": 2.794679641723633, "y": -0.23000812530517578, "z": -1.1516892910003662 }, "axis_scores": { "Quantum imaging": 0.7422676086425781, "Quantum Life Science Sensing": 0.7110396027565002, "Quantum sensing Detection": 0.6965771913528442, "Quantum sensing Metrology": 0.7008114457130432, "Quantum sensing navigation": 0.70317542552948, "Quantum sensing Position": 0.6889127492904663, "Quantum sensing Timing": 0.6812557578086853, "Quantum sensing": 0.717139720916748, "Quantum control": 0.6756953001022339 } }, { "id": 1665, "title": "Energy weighting improves dose efficiency in clinical practice: implementation on a spectral photon-counting mammography system", "abstract": "In x-ray imaging, contrast information content varies with photon energy. It is, therefore, possible to improve image quality by weighting photons according to energy. We have implemented and evaluate...", "citations": 14, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1667, "doi": "10.1117/1.JMI.1.3.031003", "umap_coordinates": { "x": 395.6461486816406, "y": 132.65478515625, "z": 205.50152587890625 }, "tsne_coordinates": { "x": -9.765420913696289, "y": 23.179744720458984, "z": -24.940032958984375 }, "pca_coordinates": { "x": -2.522463321685791, "y": 0.6605809926986694, "z": 4.188207149505615 }, "axis_scores": { "Quantum imaging": 0.7054842114448547, "Quantum Life Science Sensing": 0.6653928756713867, "Quantum sensing Detection": 0.6731676459312439, "Quantum sensing Metrology": 0.6730995178222656, "Quantum sensing navigation": 0.6626691818237305, "Quantum sensing Position": 0.6577528119087219, "Quantum sensing Timing": 0.641851544380188, "Quantum sensing": 0.6787834167480469, "Quantum control": 0.6257960200309753 } }, { "id": 1666, "title": "Graphene nanogap for gate-tunable quantum-coherent single-molecule electronics", "abstract": "We present atomistic calculations of quantum coherent electron transport through fulleropyrrolidine terminated molecules bridging a graphene nanogap. We predict that three difficult problems in molecu...", "citations": 36, "author_count": 6, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1668, "doi": "10.1103/PhysRevB.84.155451", "umap_coordinates": { "x": 394.5553283691406, "y": 134.71066284179688, "z": 209.0074920654297 }, "tsne_coordinates": { "x": 1.5515486001968384, "y": -24.857479095458984, "z": -7.785338878631592 }, "pca_coordinates": { "x": 4.402266502380371, "y": -3.421262264251709, "z": 1.5351645946502686 }, "axis_scores": { "Quantum imaging": 0.7159450054168701, "Quantum Life Science Sensing": 0.7467690706253052, "Quantum sensing Detection": 0.7425394058227539, "Quantum sensing Metrology": 0.7352677583694458, "Quantum sensing navigation": 0.7402924299240112, "Quantum sensing Position": 0.6982183456420898, "Quantum sensing Timing": 0.6971215605735779, "Quantum sensing": 0.7503653764724731, "Quantum control": 0.726011335849762 } }, { "id": 1667, "title": "Luminescence polarization of ordered GaInP/InP islands", "abstract": "The luminescence polarization properties of GaInP islands have been investigated. The islands, which form during overgrowth of InP quantum dots, were studied using scanning tunneling luminescence (STL...", "citations": 10, "author_count": 6, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1669, "doi": "10.1063/1.1539544", "umap_coordinates": { "x": 392.8758850097656, "y": 134.00250244140625, "z": 208.5911407470703 }, "tsne_coordinates": { "x": 30.817468643188477, "y": -17.296829223632812, "z": 2.2999181747436523 }, "pca_coordinates": { "x": 1.337590217590332, "y": -3.903873920440674, "z": 0.36237233877182007 }, "axis_scores": { "Quantum imaging": 0.7588424682617188, "Quantum Life Science Sensing": 0.7318978905677795, "Quantum sensing Detection": 0.7393953204154968, "Quantum sensing Metrology": 0.7233772873878479, "Quantum sensing navigation": 0.7337054014205933, "Quantum sensing Position": 0.711445152759552, "Quantum sensing Timing": 0.6713550090789795, "Quantum sensing": 0.7510935664176941, "Quantum control": 0.7056825757026672 } }, { "id": 1668, "title": "Green and blue magneto-optical photonic crystals", "abstract": "A series of one-dimensional heteroepitaxial all-garnet magneto-optical photonic crystals (MOPCs) were pulsed laser deposited to operate at 550 and 470 nm wavelength. We explored the concept of blue sh...", "citations": 7, "author_count": 3, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1670, "doi": "10.1016/j.tsf.2011.12.062", "umap_coordinates": { "x": 393.4982604980469, "y": 134.68287658691406, "z": 205.36642456054688 }, "tsne_coordinates": { "x": 12.514915466308594, "y": 16.383729934692383, "z": -7.840152740478516 }, "pca_coordinates": { "x": -2.3303370475769043, "y": -1.437455654144287, "z": -0.9393449425697327 }, "axis_scores": { "Quantum imaging": 0.7742774486541748, "Quantum Life Science Sensing": 0.771419107913971, "Quantum sensing Detection": 0.7546617388725281, "Quantum sensing Metrology": 0.7650629878044128, "Quantum sensing navigation": 0.7436312437057495, "Quantum sensing Position": 0.7264424562454224, "Quantum sensing Timing": 0.7347866892814636, "Quantum sensing": 0.7770495414733887, "Quantum control": 0.7340657711029053 } }, { "id": 1669, "title": "Laboratory x-ray fluorescence tomography for high-resolution nanoparticle bio-imaging", "abstract": "We demonstrate that nanoparticle x-ray fluorescence computed tomography in mouse-sized objects can be performed with very high spatial resolution at acceptable dose and exposure times with a compact l...", "citations": 45, "author_count": 6, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1671, "doi": "10.1364/OL.39.002790", "umap_coordinates": { "x": 394.44281005859375, "y": 133.64730834960938, "z": 205.32420349121094 }, "tsne_coordinates": { "x": 3.8625574111938477, "y": 20.653667449951172, "z": -25.788257598876953 }, "pca_coordinates": { "x": -3.703650951385498, "y": 1.440429925918579, "z": 1.867950439453125 }, "axis_scores": { "Quantum imaging": 0.7552982568740845, "Quantum Life Science Sensing": 0.7346962690353394, "Quantum sensing Detection": 0.7066875696182251, "Quantum sensing Metrology": 0.7066390514373779, "Quantum sensing navigation": 0.7086049914360046, "Quantum sensing Position": 0.6896016001701355, "Quantum sensing Timing": 0.6805673837661743, "Quantum sensing": 0.7255262732505798, "Quantum control": 0.6893903017044067 } }, { "id": 1670, "title": "Direct Detection of Down-Converted Photons Spontaneously Produced at a Single Josephson Junction", "abstract": "We study spontaneous photon decay into multiple photons triggered by strong nonlinearities in an experimental simulator of a bosonic quantum impurity model. Previously, spectroscopic signatures of pho...", "citations": 10, "author_count": 12, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1672, "doi": "10.1103/PhysRevLett.134.013804", "umap_coordinates": { "x": 395.2630310058594, "y": 134.2124481201172, "z": 207.94126892089844 }, "tsne_coordinates": { "x": -4.546458721160889, "y": -20.84528160095215, "z": -17.816932678222656 }, "pca_coordinates": { "x": 2.644524574279785, "y": -0.9887599945068359, "z": 3.481628894805908 }, "axis_scores": { "Quantum imaging": 0.7381856441497803, "Quantum Life Science Sensing": 0.7565698027610779, "Quantum sensing Detection": 0.7720862627029419, "Quantum sensing Metrology": 0.726676344871521, "Quantum sensing navigation": 0.7296215891838074, "Quantum sensing Position": 0.6955969333648682, "Quantum sensing Timing": 0.7128697037696838, "Quantum sensing": 0.7572615742683411, "Quantum control": 0.7121728658676147 } }, { "id": 1671, "title": "Anomalous spectral dependence of optical polarization and its impact on spin detection in InGaAs/GaAs quantum dots", "abstract": "We show that circularly polarized emission light from InGaAs/GaAs quantum dot (QD) ensembles under optical spin injection from an adjacent GaAs layer can switch its helicity depending on emission wave...", "citations": 11, "author_count": 9, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1673, "doi": "10.1063/1.4897306", "umap_coordinates": { "x": 393.2745056152344, "y": 133.9254150390625, "z": 208.05715942382812 }, "tsne_coordinates": { "x": 19.598649978637695, "y": -23.584564208984375, "z": 1.0545846223831177 }, "pca_coordinates": { "x": 1.0474367141723633, "y": -2.9386701583862305, "z": 2.0201902389526367 }, "axis_scores": { "Quantum imaging": 0.7550390958786011, "Quantum Life Science Sensing": 0.7445436716079712, "Quantum sensing Detection": 0.7617576718330383, "Quantum sensing Metrology": 0.7293346524238586, "Quantum sensing navigation": 0.7268451452255249, "Quantum sensing Position": 0.7250096797943115, "Quantum sensing Timing": 0.6968116164207458, "Quantum sensing": 0.762130618095398, "Quantum control": 0.7044689655303955 } }, { "id": 1672, "title": "Proposal for a coherent quantum memory for propagating microwave photons", "abstract": "We describe a multi-mode quantum memory for propagating microwave photons that combines a solid-state spin ensemble resonantly coupled to a frequency tunable single-mode microwave cavity. We first sho...", "citations": 51, "author_count": 6, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1674, "doi": "10.1088/1367-2630/15/6/065008", "umap_coordinates": { "x": 395.2523193359375, "y": 136.0165557861328, "z": 206.90721130371094 }, "tsne_coordinates": { "x": -30.091299057006836, "y": -2.193243980407715, "z": -6.6215105056762695 }, "pca_coordinates": { "x": 1.710993766784668, "y": 2.910989284515381, "z": 2.145549774169922 }, "axis_scores": { "Quantum imaging": 0.6995604038238525, "Quantum Life Science Sensing": 0.689254105091095, "Quantum sensing Detection": 0.6801745891571045, "Quantum sensing Metrology": 0.6758657693862915, "Quantum sensing navigation": 0.696664571762085, "Quantum sensing Position": 0.6651206612586975, "Quantum sensing Timing": 0.6765450239181519, "Quantum sensing": 0.690320611000061, "Quantum control": 0.6588631868362427 } }, { "id": 1673, "title": "Spin splitting in open quantum dots", "abstract": "We demonstrate that the magnetoconductance of small lateral quantum dots in the strongly coupled regime (i.e. when the leads can support one or more propagating modes) shows a pronounced splitting of ...", "citations": 7, "author_count": 7, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1675, "doi": "10.1209/epl/i2004-10189-2", "umap_coordinates": { "x": 393.0137939453125, "y": 135.4499969482422, "z": 208.07400512695312 }, "tsne_coordinates": { "x": 14.454215049743652, "y": -20.13444709777832, "z": 14.000134468078613 }, "pca_coordinates": { "x": 1.8171916007995605, "y": -1.975390911102295, "z": -0.9916966557502747 }, "axis_scores": { "Quantum imaging": 0.7617735266685486, "Quantum Life Science Sensing": 0.7626665234565735, "Quantum sensing Detection": 0.7524288892745972, "Quantum sensing Metrology": 0.7345966100692749, "Quantum sensing navigation": 0.7301334142684937, "Quantum sensing Position": 0.718709409236908, "Quantum sensing Timing": 0.7124848365783691, "Quantum sensing": 0.7630404829978943, "Quantum control": 0.7438308596611023 } }, { "id": 1674, "title": "Progress in the development of a single Cooper-pair box qubit", "abstract": "We describe in this review progress in techniques for measuring the quantum states of the single Cooper-pair box (SCB) at the Jet Propulsion Laboratory, and the use of these techniques to characterize...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1676, "doi": "10.1007/s11128-009-0097-x", "umap_coordinates": { "x": 394.7724609375, "y": 134.15126037597656, "z": 207.8853302001953 }, "tsne_coordinates": { "x": -0.09862319380044937, "y": -32.305908203125, "z": -19.79572105407715 }, "pca_coordinates": { "x": 0.5763518810272217, "y": 0.2601346969604492, "z": 2.201730251312256 }, "axis_scores": { "Quantum imaging": 0.6812898516654968, "Quantum Life Science Sensing": 0.6765602231025696, "Quantum sensing Detection": 0.6896171569824219, "Quantum sensing Metrology": 0.6884618997573853, "Quantum sensing navigation": 0.6937527656555176, "Quantum sensing Position": 0.7012037634849548, "Quantum sensing Timing": 0.6857820153236389, "Quantum sensing": 0.6989949941635132, "Quantum control": 0.686742901802063 } }, { "id": 1675, "title": "Noncollinear magnetoconductance of a quantum dot", "abstract": "We study theoretically the linear conductance of a quantum dot connected to ferromagnetic leads. The dot level is split due to a noncollinear magnetic field or intrinsic magnetization. The system is s...", "citations": 35, "author_count": 4, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1677, "doi": "10.1103/PhysRevB.72.045341", "umap_coordinates": { "x": 394.0950012207031, "y": 136.14788818359375, "z": 209.03213500976562 }, "tsne_coordinates": { "x": -3.9983861446380615, "y": -34.0067138671875, "z": 12.327287673950195 }, "pca_coordinates": { "x": 4.381458759307861, "y": -1.1140947341918945, "z": -0.32991597056388855 }, "axis_scores": { "Quantum imaging": 0.7328794002532959, "Quantum Life Science Sensing": 0.7450889348983765, "Quantum sensing Detection": 0.7517160177230835, "Quantum sensing Metrology": 0.7465294003486633, "Quantum sensing navigation": 0.7439804673194885, "Quantum sensing Position": 0.7225525975227356, "Quantum sensing Timing": 0.6973071098327637, "Quantum sensing": 0.7511757612228394, "Quantum control": 0.7202341556549072 } }, { "id": 1676, "title": "PHOTOINHIBITION OF PHOTOSYNTHESIS INSITU IN 6 SPECIES OF EUCALYPTUS", "abstract": "Photoinhibition of photosynthesis was investigated in horizontally and vertically restrained leaves of Eucalyptus plants growing outdoors. This was done by measuring the quantum yield of PSII photoche...", "citations": 62, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1992, "topic": [ "all" ], "embedding_index": 1678, "doi": "10.1071/PP9920223", "umap_coordinates": { "x": 394.4449768066406, "y": 136.33197021484375, "z": 203.65313720703125 }, "tsne_coordinates": { "x": 10.151674270629883, "y": 34.63428497314453, "z": 8.960545539855957 }, "pca_coordinates": { "x": -2.0107812881469727, "y": 0.2828221321105957, "z": -0.6223137378692627 }, "axis_scores": { "Quantum imaging": 0.6664554476737976, "Quantum Life Science Sensing": 0.6951766014099121, "Quantum sensing Detection": 0.6619715094566345, "Quantum sensing Metrology": 0.6553148627281189, "Quantum sensing navigation": 0.6317872405052185, "Quantum sensing Position": 0.646835207939148, "Quantum sensing Timing": 0.6559696793556213, "Quantum sensing": 0.6718566417694092, "Quantum control": 0.6330800652503967 } }, { "id": 1677, "title": "Optical transmission and waveguiding by excitonic quantum dot lattices", "abstract": "Metal-dielectric-metal configurations of optical waveguides have a very high laterally packaging density at the cost of high optical loss. Photonic crystals based on refractive-index-modulation materi...", "citations": 9, "author_count": 5, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1679, "doi": "10.1364/JOSAB.23.002441", "umap_coordinates": { "x": 393.93634033203125, "y": 134.46176147460938, "z": 206.91766357421875 }, "tsne_coordinates": { "x": -0.6803649663925171, "y": -13.455923080444336, "z": -27.179962158203125 }, "pca_coordinates": { "x": 1.0277762413024902, "y": -2.4855642318725586, "z": 0.9410229325294495 }, "axis_scores": { "Quantum imaging": 0.7577195167541504, "Quantum Life Science Sensing": 0.7055066823959351, "Quantum sensing Detection": 0.7242236137390137, "Quantum sensing Metrology": 0.7276330590248108, "Quantum sensing navigation": 0.7192507386207581, "Quantum sensing Position": 0.690183162689209, "Quantum sensing Timing": 0.7168172597885132, "Quantum sensing": 0.7398221492767334, "Quantum control": 0.7272864580154419 } }, { "id": 1678, "title": "State selective photon induced formation of triply charged fragments from the core excited OCS molecule", "abstract": "", "citations": 23, "author_count": 6, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1680, "doi": "10.1063/1.474224", "umap_coordinates": { "x": 393.3694763183594, "y": 135.71995544433594, "z": 206.38412475585938 }, "tsne_coordinates": { "x": -2.129485607147217, "y": -2.919360399246216, "z": -0.0232260599732399 }, "pca_coordinates": { "x": -0.9753975868225098, "y": -0.7234342098236084, "z": -0.4159203767776489 }, "axis_scores": { "Quantum imaging": 0.7014994025230408, "Quantum Life Science Sensing": 0.7189943194389343, "Quantum sensing Detection": 0.712199866771698, "Quantum sensing Metrology": 0.6805281639099121, "Quantum sensing navigation": 0.6682616472244263, "Quantum sensing Position": 0.6468755006790161, "Quantum sensing Timing": 0.6575698852539062, "Quantum sensing": 0.7119284868240356, "Quantum control": 0.6743184924125671 } }, { "id": 1679, "title": "Dynamic electron-phonon and spin-phonon interactions due to inertia", "abstract": "THz radiation allows for the controlled excitation of vibrational modes in molecules and crystals. We show that the circular motion of ions introduces inertial effects on electrons. In analogy to the ...", "citations": 25, "author_count": 2, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1681, "doi": "10.1103/PhysRevResearch.4.L012004", "umap_coordinates": { "x": 393.4534606933594, "y": 136.6749267578125, "z": 207.711181640625 }, "tsne_coordinates": { "x": -6.914306640625, "y": -30.790924072265625, "z": 25.823827743530273 }, "pca_coordinates": { "x": 2.390995502471924, "y": 0.6894984245300293, "z": -1.7864387035369873 }, "axis_scores": { "Quantum imaging": 0.7069476246833801, "Quantum Life Science Sensing": 0.7004530429840088, "Quantum sensing Detection": 0.6756923198699951, "Quantum sensing Metrology": 0.6493399143218994, "Quantum sensing navigation": 0.7045654654502869, "Quantum sensing Position": 0.6647776365280151, "Quantum sensing Timing": 0.6526018977165222, "Quantum sensing": 0.6932756304740906, "Quantum control": 0.6908334493637085 } }, { "id": 1680, "title": "Classical simulation of Gaussian quantum circuits with non-Gaussian input states", "abstract": "We consider Gaussian quantum circuits supplemented with non-Gaussian input states and derive sufficient conditions for efficient classical strong simulation of these circuits. In particular, we genera...", "citations": 24, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1682, "doi": "10.1103/PhysRevResearch.3.033018", "umap_coordinates": { "x": 395.81207275390625, "y": 136.3815460205078, "z": 207.8792266845703 }, "tsne_coordinates": { "x": -25.90127182006836, "y": -15.917436599731445, "z": -8.286660194396973 }, "pca_coordinates": { "x": 4.855438709259033, "y": 1.5986968278884888, "z": 1.8030028343200684 }, "axis_scores": { "Quantum imaging": 0.779342532157898, "Quantum Life Science Sensing": 0.7712482213973999, "Quantum sensing Detection": 0.7884361743927002, "Quantum sensing Metrology": 0.7693077921867371, "Quantum sensing navigation": 0.7982293963432312, "Quantum sensing Position": 0.7415590286254883, "Quantum sensing Timing": 0.7179659605026245, "Quantum sensing": 0.7915177941322327, "Quantum control": 0.7624225616455078 } }, { "id": 1681, "title": "Tunnelling transmission resonances through a zero-dimensional structure", "abstract": "We have performed low-temperature conductance measurements on a quantum dot. For zero magnetic field we find transmission resonances in the regions between successive ballistic quantized conductance p...", "citations": 15, "author_count": 9, "categories": [ "Engineering" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1683, "doi": "10.1088/0268-1242/12/7/018", "umap_coordinates": { "x": 394.18365478515625, "y": 135.8213653564453, "z": 207.28390502929688 }, "tsne_coordinates": { "x": 23.43094825744629, "y": -7.752901554107666, "z": 23.36357307434082 }, "pca_coordinates": { "x": 1.8894224166870117, "y": 1.4340875148773193, "z": 0.3643020987510681 }, "axis_scores": { "Quantum imaging": 0.6818994283676147, "Quantum Life Science Sensing": 0.6684398055076599, "Quantum sensing Detection": 0.6502546668052673, "Quantum sensing Metrology": 0.6501041054725647, "Quantum sensing navigation": 0.6826869249343872, "Quantum sensing Position": 0.6530771255493164, "Quantum sensing Timing": 0.6461947560310364, "Quantum sensing": 0.6587674021720886, "Quantum control": 0.6592015624046326 } }, { "id": 1682, "title": "Thermal instability of electron traps in InAs/GaAs quantum dot structures", "abstract": "Deep level transient spectroscopy (DLTS) in temperature and frequency scanned modes has been used to characterize deep-level defects present in samples with InAs/GaAs quantum dots (QDs). Two deep ener...", "citations": 2, "author_count": 5, "categories": [ "Engineering" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1684, "doi": "10.1007/s10854-008-9703-4", "umap_coordinates": { "x": 392.71014404296875, "y": 134.5259246826172, "z": 207.59173583984375 }, "tsne_coordinates": { "x": 30.052692413330078, "y": -12.441181182861328, "z": 11.88694953918457 }, "pca_coordinates": { "x": 0.6507084369659424, "y": -2.952526569366455, "z": 0.16508036851882935 }, "axis_scores": { "Quantum imaging": 0.687991738319397, "Quantum Life Science Sensing": 0.6954631209373474, "Quantum sensing Detection": 0.692601203918457, "Quantum sensing Metrology": 0.6717990636825562, "Quantum sensing navigation": 0.695310652256012, "Quantum sensing Position": 0.7048895359039307, "Quantum sensing Timing": 0.6929708123207092, "Quantum sensing": 0.6926800012588501, "Quantum control": 0.6809620261192322 } }, { "id": 1683, "title": "Coexistence of type-I and type-II band lineups in Cd(Te,Se)/ZnSe quantum-dot structures", "abstract": "The authors report on transmission electron microscopy, cathodoluminescence, and time resolved photoluminescence studies of thin Cd(Te,Se) layers in a ZnSe matrix, grown by molecular beam epitaxy. All...", "citations": 8, "author_count": 11, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1685, "doi": "10.1063/1.2355439", "umap_coordinates": { "x": 392.8084411621094, "y": 134.54331970214844, "z": 207.91552734375 }, "tsne_coordinates": { "x": 30.44983673095703, "y": -16.509613037109375, "z": -5.402403831481934 }, "pca_coordinates": { "x": 1.0368735790252686, "y": -2.938687801361084, "z": -0.357478529214859 }, "axis_scores": { "Quantum imaging": 0.716135561466217, "Quantum Life Science Sensing": 0.7249031662940979, "Quantum sensing Detection": 0.7080932855606079, "Quantum sensing Metrology": 0.701167106628418, "Quantum sensing navigation": 0.704204261302948, "Quantum sensing Position": 0.6948477029800415, "Quantum sensing Timing": 0.69037926197052, "Quantum sensing": 0.7081922292709351, "Quantum control": 0.6827017068862915 } }, { "id": 1684, "title": "Thermal double donors and quantum dots - art. no. 235501", "abstract": "Combined local mode spectroscopy and ab initio modeling are used to demonstrate for the first time that oxygen atoms in thermal double donors (TDD) in Si are in close proximity. The observed vibration...", "citations": 28, "author_count": 8, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1686, "doi": "10.1103/PhysRevLett.87.235501", "umap_coordinates": { "x": 394.8941345214844, "y": 134.97918701171875, "z": 208.9680938720703 }, "tsne_coordinates": { "x": 4.584916591644287, "y": -35.52854919433594, "z": 0.8400363922119141 }, "pca_coordinates": { "x": 3.6907105445861816, "y": -1.680816650390625, "z": 1.0767557621002197 }, "axis_scores": { "Quantum imaging": 0.723355770111084, "Quantum Life Science Sensing": 0.7357770204544067, "Quantum sensing Detection": 0.7387207746505737, "Quantum sensing Metrology": 0.7315272092819214, "Quantum sensing navigation": 0.7166150808334351, "Quantum sensing Position": 0.7043455243110657, "Quantum sensing Timing": 0.7263257503509521, "Quantum sensing": 0.746857225894928, "Quantum control": 0.7183904051780701 } }, { "id": 1685, "title": "Gravitational quantum states of Antihydrogen", "abstract": "We present a theoretical study of the motion of the antihydrogen atom ((H) over bar) in the gravitational field of Earth above a material surface. We predict that the (H) over bar atom, falling in the...", "citations": 39, "author_count": 4, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1687, "doi": "10.1103/PhysRevA.83.032903", "umap_coordinates": { "x": 395.264404296875, "y": 136.50390625, "z": 208.5841827392578 }, "tsne_coordinates": { "x": -23.48511505126953, "y": -21.02395248413086, "z": -17.32597541809082 }, "pca_coordinates": { "x": 5.6436262130737305, "y": 1.0256500244140625, "z": -1.1600818634033203 }, "axis_scores": { "Quantum imaging": 0.7454391717910767, "Quantum Life Science Sensing": 0.753500759601593, "Quantum sensing Detection": 0.7391705513000488, "Quantum sensing Metrology": 0.7262946367263794, "Quantum sensing navigation": 0.7640222311019897, "Quantum sensing Position": 0.7419519424438477, "Quantum sensing Timing": 0.7139617800712585, "Quantum sensing": 0.7508633136749268, "Quantum control": 0.7185930013656616 } }, { "id": 1686, "title": "Vortices in rotating two-component boson and fermion traps", "abstract": "Quantum liquids may carry angular momentum by the formation of vortex states. This is well known for Bose-Einstein condensates in rotating traps, and was even found to occur in quantum dots at strong ...", "citations": 1, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1688, "doi": "10.1016/j.physe.2009.06.022", "umap_coordinates": { "x": 393.9190673828125, "y": 136.55029296875, "z": 208.67881774902344 }, "tsne_coordinates": { "x": -13.60554027557373, "y": -19.938430786132812, "z": 22.024471282958984 }, "pca_coordinates": { "x": 2.128112316131592, "y": -0.5852580070495605, "z": -2.225123882293701 }, "axis_scores": { "Quantum imaging": 0.6867001056671143, "Quantum Life Science Sensing": 0.66806560754776, "Quantum sensing Detection": 0.6785483956336975, "Quantum sensing Metrology": 0.6538192629814148, "Quantum sensing navigation": 0.6906413435935974, "Quantum sensing Position": 0.6849379539489746, "Quantum sensing Timing": 0.682310938835144, "Quantum sensing": 0.6792724132537842, "Quantum control": 0.683978796005249 } }, { "id": 1687, "title": "A quantum computing implementation of nuclearelectronic orbital (NEO) theory: Toward an exact pre-Born-Oppenheimer formulation of molecular quantum systems", "abstract": "Nuclear quantum phenomena beyond the Born-Oppenheimer approximation are known to play an important role in a growing number of chemical and biological processes. While there exists no unique consensus...", "citations": 9, "author_count": 8, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1689, "doi": "10.1063/5.0150291", "umap_coordinates": { "x": 393.7663879394531, "y": 137.5615234375, "z": 206.23703002929688 }, "tsne_coordinates": { "x": -13.902079582214355, "y": 2.061206817626953, "z": 16.545373916625977 }, "pca_coordinates": { "x": 2.1873555183410645, "y": 1.4980120658874512, "z": -0.32290130853652954 }, "axis_scores": { "Quantum imaging": 0.7516404390335083, "Quantum Life Science Sensing": 0.7489648461341858, "Quantum sensing Detection": 0.7320680022239685, "Quantum sensing Metrology": 0.7218592166900635, "Quantum sensing navigation": 0.7439066767692566, "Quantum sensing Position": 0.7222719192504883, "Quantum sensing Timing": 0.7119626998901367, "Quantum sensing": 0.7447043657302856, "Quantum control": 0.714560329914093 } }, { "id": 1688, "title": "Nonlinear microwave photon occupancy of a driven resonator strongly coupled to a transmon qubit", "abstract": "We measure photon occupancy in a thin-film superconducting lumped element resonator coupled to a transmon qubit at 20mK and find a nonlinear dependence on the applied microwave power. The transmon-res...", "citations": 16, "author_count": 7, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1690, "doi": "10.1103/PhysRevA.92.063801", "umap_coordinates": { "x": 394.805419921875, "y": 135.45272827148438, "z": 208.13258361816406 }, "tsne_coordinates": { "x": -9.429308891296387, "y": -24.052900314331055, "z": 3.3957278728485107 }, "pca_coordinates": { "x": 3.8809285163879395, "y": -0.8648297786712646, "z": 1.5770606994628906 }, "axis_scores": { "Quantum imaging": 0.7332556843757629, "Quantum Life Science Sensing": 0.7349528670310974, "Quantum sensing Detection": 0.7579525113105774, "Quantum sensing Metrology": 0.7443592548370361, "Quantum sensing navigation": 0.7396987676620483, "Quantum sensing Position": 0.7242458462715149, "Quantum sensing Timing": 0.7096841931343079, "Quantum sensing": 0.7515826225280762, "Quantum control": 0.6889306306838989 } }, { "id": 1689, "title": "Microheater Controlled Crystal Phase Engineering of Nanowires Using In Situ Transmission Electron Microscopy", "abstract": "Crystal Phase Quantum Dots (CPQDs) offer promising properties for quantum communication. How CPQDs can be formed in Au-catalyzed GaAs nanowires using different precursor flows and temperatures by in s...", "citations": 4, "author_count": 7, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1691, "doi": "10.1002/smtd.202400728", "umap_coordinates": { "x": 392.58660888671875, "y": 134.15956115722656, "z": 206.74261474609375 }, "tsne_coordinates": { "x": 17.599702835083008, "y": -21.641727447509766, "z": -10.372855186462402 }, "pca_coordinates": { "x": -1.2431426048278809, "y": -1.7932987213134766, "z": -0.2967374622821808 }, "axis_scores": { "Quantum imaging": 0.7062132954597473, "Quantum Life Science Sensing": 0.7222205400466919, "Quantum sensing Detection": 0.6970154643058777, "Quantum sensing Metrology": 0.7169177532196045, "Quantum sensing navigation": 0.6998987793922424, "Quantum sensing Position": 0.6726271510124207, "Quantum sensing Timing": 0.6863062977790833, "Quantum sensing": 0.7096290588378906, "Quantum control": 0.7097817659378052 } }, { "id": 1690, "title": "Visual stimulation with blue wavelength light drives V1 effectively eliminating stray light contamination during two-photon calcium imaging", "abstract": "Background: Brain visual circuits are often studied in vivo by imaging Ca2+ indicators with green-shifted emission spectra. Polychromatic white visual stimuli have a spectrum that partially overlaps i...", "citations": 5, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1692, "doi": "10.1016/j.jneumeth.2021.109287", "umap_coordinates": { "x": 394.9708251953125, "y": 133.83494567871094, "z": 205.15257263183594 }, "tsne_coordinates": { "x": -3.1529314517974854, "y": 21.21931266784668, "z": -2.9491941928863525 }, "pca_coordinates": { "x": -3.3791604042053223, "y": 1.4612033367156982, "z": 2.6527347564697266 }, "axis_scores": { "Quantum imaging": 0.7419071197509766, "Quantum Life Science Sensing": 0.7164463996887207, "Quantum sensing Detection": 0.7210158705711365, "Quantum sensing Metrology": 0.7154805660247803, "Quantum sensing navigation": 0.7183411121368408, "Quantum sensing Position": 0.6803402900695801, "Quantum sensing Timing": 0.7080899477005005, "Quantum sensing": 0.7277622222900391, "Quantum control": 0.7091692090034485 } }, { "id": 1691, "title": "Reduction of charge recombination in PbS colloidal quantum dot solar cells at the quantum dot/ZnO interface by inserting a MgZnO buffer layer", "abstract": "Interfacial charge recombination occurring at the interface between a colloidal quantum dot (CQD) solid and the electron collecting layer (ECL) in CQD solar cells significantly affects the charge carr...", "citations": 71, "author_count": 3, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1693, "doi": "10.1039/c6ta07775g", "umap_coordinates": { "x": 391.7580871582031, "y": 134.87872314453125, "z": 205.97357177734375 }, "tsne_coordinates": { "x": 12.96794319152832, "y": -0.8473730683326721, "z": -8.068375587463379 }, "pca_coordinates": { "x": -0.8950200080871582, "y": -2.9815049171447754, "z": -1.5584120750427246 }, "axis_scores": { "Quantum imaging": 0.6686577796936035, "Quantum Life Science Sensing": 0.7057515382766724, "Quantum sensing Detection": 0.6759808659553528, "Quantum sensing Metrology": 0.6724807024002075, "Quantum sensing navigation": 0.6866018176078796, "Quantum sensing Position": 0.6911396384239197, "Quantum sensing Timing": 0.6643258929252625, "Quantum sensing": 0.681674063205719, "Quantum control": 0.6812837719917297 } }, { "id": 1692, "title": "Interference of independently emitted electrons in quantum shot noise", "abstract": "Theory predicts that electrons emitted from independent electron sources (metallic contacts) can nevertheless interfere. This interference is manifest in an exchange contribution to the shot noise cor...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1694, "doi": "10.1002/andp.200710255", "umap_coordinates": { "x": 394.851806640625, "y": 136.10520935058594, "z": 206.6513671875 }, "tsne_coordinates": { "x": -29.004413604736328, "y": 2.3162734508514404, "z": 31.783802032470703 }, "pca_coordinates": { "x": 1.5203273296356201, "y": -0.0327761173248291, "z": 3.582671642303467 }, "axis_scores": { "Quantum imaging": 0.7545353174209595, "Quantum Life Science Sensing": 0.6994195580482483, "Quantum sensing Detection": 0.7442120909690857, "Quantum sensing Metrology": 0.7126153111457825, "Quantum sensing navigation": 0.7375547885894775, "Quantum sensing Position": 0.6900928616523743, "Quantum sensing Timing": 0.7054130434989929, "Quantum sensing": 0.745389997959137, "Quantum control": 0.7141839861869812 } }, { "id": 1693, "title": "Sensitivity limitation of a superconducting quantum interferometer sensor-based gravity gradiometer", "abstract": "Differential displacement due to a gravitational force gradient, acting on two superconducting test masses which are elastically suspended from the instrument frame, is sensed by a superconducting qua...", "citations": 7, "author_count": 2, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1695, "doi": "10.1109/77.947382", "umap_coordinates": { "x": 395.0002746582031, "y": 135.32716369628906, "z": 207.35366821289062 }, "tsne_coordinates": { "x": -25.5009765625, "y": -11.477962493896484, "z": -28.002056121826172 }, "pca_coordinates": { "x": 1.5855529308319092, "y": 1.9520626068115234, "z": 2.011880874633789 }, "axis_scores": { "Quantum imaging": 0.7065810561180115, "Quantum Life Science Sensing": 0.7352779507637024, "Quantum sensing Detection": 0.7567073702812195, "Quantum sensing Metrology": 0.7390233278274536, "Quantum sensing navigation": 0.7599923610687256, "Quantum sensing Position": 0.7576618194580078, "Quantum sensing Timing": 0.7297602295875549, "Quantum sensing": 0.7533084154129028, "Quantum control": 0.7034401297569275 } }, { "id": 1694, "title": "Highly photostable and efficient semitransparent quantum dot solar cells by using solution-phase ligand exchange", "abstract": "For semitransparent solar cells (SSCs) the photovoltaic efficiency and the transparency are the two primary objectives for utilization in for example building integrated photovoltaics. Solution-proces...", "citations": 32, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1696, "doi": "10.1016/j.nanoen.2018.08.068", "umap_coordinates": { "x": 392.1336364746094, "y": 133.37701416015625, "z": 205.1602325439453 }, "tsne_coordinates": { "x": 30.179031372070312, "y": 4.891232013702393, "z": -10.859687805175781 }, "pca_coordinates": { "x": -3.635605812072754, "y": -4.732029438018799, "z": -0.42210015654563904 }, "axis_scores": { "Quantum imaging": 0.7219282388687134, "Quantum Life Science Sensing": 0.7403737306594849, "Quantum sensing Detection": 0.7079116702079773, "Quantum sensing Metrology": 0.710277795791626, "Quantum sensing navigation": 0.7062243819236755, "Quantum sensing Position": 0.6756883263587952, "Quantum sensing Timing": 0.6649801731109619, "Quantum sensing": 0.7279959917068481, "Quantum control": 0.6791893839836121 } }, { "id": 1695, "title": "MEASUREMENT OF d(γ,p) REACTION CROSS SECTIONS AND ASYMMETRY WITH LINEARLY POLARIZED COHERENT BREMSSTRAHLUNG BEAM", "abstract": "On the base of reaction of deuteron photo-disintegration it was studied possibility of the simultaneous measuring of cross sections and asymmetry of the (gamma,p) reactions at the using of the coheren...", "citations": 2, "author_count": 11, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1697, "doi": null, "umap_coordinates": { "x": 391.8044128417969, "y": 139.3505859375, "z": 209.35447692871094 }, "tsne_coordinates": { "x": -6.224648475646973, "y": 39.46870040893555, "z": -4.162456035614014 }, "pca_coordinates": { "x": -1.9459096193313599, "y": 4.21945858001709, "z": -0.803459882736206 }, "axis_scores": { "Quantum imaging": 0.7632255554199219, "Quantum Life Science Sensing": 0.7631493806838989, "Quantum sensing Detection": 0.7712815999984741, "Quantum sensing Metrology": 0.7439318895339966, "Quantum sensing navigation": 0.7561613321304321, "Quantum sensing Position": 0.7344484329223633, "Quantum sensing Timing": 0.7104884386062622, "Quantum sensing": 0.772139310836792, "Quantum control": 0.7613947987556458 } }, { "id": 1696, "title": "Formation, electronic structure, and optical properties of self-assembled quantum-dot single-photon emitters in Ga(N,As,P) nanowires", "abstract": "Quantum dots (QDs) formed in semiconductor nanowires (NWs) form a basis for studying interesting quantum phenomena and provide an exciting platform for various device applications, where in-depth unde...", "citations": 12, "author_count": 7, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1698, "doi": "10.1103/PhysRevMaterials.4.056005", "umap_coordinates": { "x": 393.0518493652344, "y": 134.17343139648438, "z": 208.75416564941406 }, "tsne_coordinates": { "x": 19.744848251342773, "y": -16.45256233215332, "z": 1.9428426027297974 }, "pca_coordinates": { "x": 1.4737472534179688, "y": -5.369700908660889, "z": 1.6235482692718506 }, "axis_scores": { "Quantum imaging": 0.7003345489501953, "Quantum Life Science Sensing": 0.7363170981407166, "Quantum sensing Detection": 0.7076002359390259, "Quantum sensing Metrology": 0.7072073221206665, "Quantum sensing navigation": 0.7238109707832336, "Quantum sensing Position": 0.6943228840827942, "Quantum sensing Timing": 0.6543059349060059, "Quantum sensing": 0.719288170337677, "Quantum control": 0.6666450500488281 } }, { "id": 1697, "title": "Carbon Quantum Dots Interactions with Pyrogallol, Benzoic Acid, and Gallic Acid: A Study on Their Non-Covalent Nature", "abstract": "Understanding the interactions between carbon quantum dots (CDs) and promising food preservatives (FPs), like pyrogallol (PG), benzoic acid (BA), and gallic acid (GA), is highly relevant. This knowled...", "citations": 1, "author_count": 8, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1699, "doi": "10.3390/nano15181457", "umap_coordinates": { "x": 393.33111572265625, "y": 134.8556671142578, "z": 205.01361083984375 }, "tsne_coordinates": { "x": 32.99184036254883, "y": 18.14788818359375, "z": -12.465906143188477 }, "pca_coordinates": { "x": -1.901534080505371, "y": -0.7866997718811035, "z": -1.5196669101715088 }, "axis_scores": { "Quantum imaging": 0.7411788105964661, "Quantum Life Science Sensing": 0.7805877327919006, "Quantum sensing Detection": 0.7523379325866699, "Quantum sensing Metrology": 0.7205153703689575, "Quantum sensing navigation": 0.7412624359130859, "Quantum sensing Position": 0.7213025093078613, "Quantum sensing Timing": 0.7116664052009583, "Quantum sensing": 0.7627332806587219, "Quantum control": 0.7487885355949402 } }, { "id": 1698, "title": "Evaluating the influence of carbon quantum dots on starch-based bioplastics: Toward potential food packaging applications", "abstract": "Developing biodegradable food packaging films is crucial for reducing dependence on petroleum-based plastics. In this study, nitrogen-doped carbon quantum dots (CDs) were synthesized from citric acid ...", "citations": 1, "author_count": 10, "categories": [ "Food Science & Technology" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1700, "doi": "10.1016/j.fpsl.2025.101555", "umap_coordinates": { "x": 393.2713928222656, "y": 134.1685791015625, "z": 204.1856231689453 }, "tsne_coordinates": { "x": 20.178510665893555, "y": 18.80756950378418, "z": -2.651853561401367 }, "pca_coordinates": { "x": -5.45236349105835, "y": 0.46953415870666504, "z": -1.4747214317321777 }, "axis_scores": { "Quantum imaging": 0.6631283760070801, "Quantum Life Science Sensing": 0.7063223123550415, "Quantum sensing Detection": 0.6603783369064331, "Quantum sensing Metrology": 0.643889844417572, "Quantum sensing navigation": 0.6556367874145508, "Quantum sensing Position": 0.6739177703857422, "Quantum sensing Timing": 0.6354917287826538, "Quantum sensing": 0.6708376407623291, "Quantum control": 0.658428966999054 } }, { "id": 1699, "title": "Manipulating the Optoelectronic Properties of Quasi-type II CuInS2/CdS Core/Shell Quantum Dots for Photoelectrochemical Cell Applications", "abstract": "Colloidal core/shell heterostructured quantum dots (QDs) possessing quasi-type II band structure have demonstrated effective surface passivation and prolonged exciton lifetime, leading to enhanced cha...", "citations": 37, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1701, "doi": "10.1021/acsami.0c11651", "umap_coordinates": { "x": 392.05487060546875, "y": 134.0433349609375, "z": 205.84503173828125 }, "tsne_coordinates": { "x": 26.885276794433594, "y": 3.9976646900177, "z": -3.6080942153930664 }, "pca_coordinates": { "x": -3.2319726943969727, "y": -4.357206344604492, "z": -1.6836345195770264 }, "axis_scores": { "Quantum imaging": 0.7214401364326477, "Quantum Life Science Sensing": 0.7418842315673828, "Quantum sensing Detection": 0.7097538113594055, "Quantum sensing Metrology": 0.6850267052650452, "Quantum sensing navigation": 0.7057186961174011, "Quantum sensing Position": 0.6719914674758911, "Quantum sensing Timing": 0.6810586452484131, "Quantum sensing": 0.7271020412445068, "Quantum control": 0.7247361540794373 } }, { "id": 1700, "title": "Semitransparent quantum dot solar cell", "abstract": "Semitransparent solar cells can open new applications in many areas, such as integration into buildings, and may also be important for construction of efficient multi-junction solar cells. Herein, we ...", "citations": 45, "author_count": 5, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1702, "doi": "10.1016/j.nanoen.2016.01.006", "umap_coordinates": { "x": 393.0848388671875, "y": 133.39059448242188, "z": 205.7850341796875 }, "tsne_coordinates": { "x": 30.074190139770508, "y": 5.1921281814575195, "z": -10.524234771728516 }, "pca_coordinates": { "x": -2.2681362628936768, "y": -4.013312339782715, "z": -0.08249145746231079 }, "axis_scores": { "Quantum imaging": 0.7514270544052124, "Quantum Life Science Sensing": 0.7972320914268494, "Quantum sensing Detection": 0.7688921689987183, "Quantum sensing Metrology": 0.7605263590812683, "Quantum sensing navigation": 0.745063841342926, "Quantum sensing Position": 0.7306621670722961, "Quantum sensing Timing": 0.6976147890090942, "Quantum sensing": 0.7837969064712524, "Quantum control": 0.7273277044296265 } }, { "id": 1701, "title": "Steady-State Generation of Wigner-Negative States in One-Dimensional Resonance Fluorescence", "abstract": "In this work we demonstrate numerically that the nonlinearity provided by a continuously driven two-level system allows for the generation of Wigner-negative states of the electromagnetic field confin...", "citations": 16, "author_count": 4, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1703, "doi": "10.1103/PhysRevLett.121.263603", "umap_coordinates": { "x": 394.74969482421875, "y": 135.45838928222656, "z": 208.6360626220703 }, "tsne_coordinates": { "x": -9.603935241699219, "y": -32.80942916870117, "z": -15.702092170715332 }, "pca_coordinates": { "x": 2.846945285797119, "y": -1.5711092948913574, "z": -0.1458234190940857 }, "axis_scores": { "Quantum imaging": 0.7137815356254578, "Quantum Life Science Sensing": 0.734318196773529, "Quantum sensing Detection": 0.7228556275367737, "Quantum sensing Metrology": 0.6919951438903809, "Quantum sensing navigation": 0.7170379161834717, "Quantum sensing Position": 0.6801115870475769, "Quantum sensing Timing": 0.6768785119056702, "Quantum sensing": 0.7203967571258545, "Quantum control": 0.7014594078063965 } }, { "id": 1702, "title": "Photon-echo quantum memory in solid state systems", "abstract": "Many applications of quantum communication crucially depend oil reversible transfer of quantum states between light and matter Motivated by rapid recent developments in theory and experiment, we revie...", "citations": 404, "author_count": 8, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1704, "doi": "10.1002/lpor.200810056", "umap_coordinates": { "x": 393.8593444824219, "y": 135.39230346679688, "z": 206.67938232421875 }, "tsne_coordinates": { "x": -10.205743789672852, "y": -7.640878677368164, "z": 6.963815212249756 }, "pca_coordinates": { "x": 1.5922536849975586, "y": -0.40067243576049805, "z": 1.1083729267120361 }, "axis_scores": { "Quantum imaging": 0.7730584740638733, "Quantum Life Science Sensing": 0.76473069190979, "Quantum sensing Detection": 0.763729453086853, "Quantum sensing Metrology": 0.7420499920845032, "Quantum sensing navigation": 0.7530779242515564, "Quantum sensing Position": 0.7442602515220642, "Quantum sensing Timing": 0.7404640316963196, "Quantum sensing": 0.7729530334472656, "Quantum control": 0.7210110425949097 } }, { "id": 1703, "title": "Scaling and universality at ramped quench dynamical quantum phase transitions", "abstract": "The nonequilibrium dynamics of a periodically driven extended XY model, in the presence of linear time dependent magnetic field, is investigated using the notion of dynamical quantum phase transitions...", "citations": 7, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1705, "doi": "10.1088/1361-648X/ad4df9", "umap_coordinates": { "x": 394.7204284667969, "y": 137.16891479492188, "z": 207.28077697753906 }, "tsne_coordinates": { "x": -22.67151641845703, "y": -12.196860313415527, "z": -19.363916397094727 }, "pca_coordinates": { "x": 2.4900622367858887, "y": 2.481998920440674, "z": -1.1856606006622314 }, "axis_scores": { "Quantum imaging": 0.6901336312294006, "Quantum Life Science Sensing": 0.7070930600166321, "Quantum sensing Detection": 0.6803798675537109, "Quantum sensing Metrology": 0.6677536964416504, "Quantum sensing navigation": 0.6872429847717285, "Quantum sensing Position": 0.6607471704483032, "Quantum sensing Timing": 0.680583655834198, "Quantum sensing": 0.6963367462158203, "Quantum control": 0.7172625660896301 } }, { "id": 1704, "title": "Dual Passivation of CsPbI3 Perovskite Nanocrystals with Amino Acid Ligands for Efficient Quantum Dot Solar Cells", "abstract": "Inorganic CsPbI3 perovskite quantum dot (PQD) receives increasing attention for the application in the new generation solar cells, but the defects on the surface of PQDs significantly affect the photo...", "citations": 186, "author_count": 8, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1706, "doi": "10.1002/smll.202001772", "umap_coordinates": { "x": 391.8737487792969, "y": 133.59307861328125, "z": 205.19088745117188 }, "tsne_coordinates": { "x": 26.36725616455078, "y": 1.2712355852127075, "z": -20.695709228515625 }, "pca_coordinates": { "x": -4.487858772277832, "y": -3.2242188453674316, "z": -0.365232914686203 }, "axis_scores": { "Quantum imaging": 0.6880704164505005, "Quantum Life Science Sensing": 0.7055542469024658, "Quantum sensing Detection": 0.6749792098999023, "Quantum sensing Metrology": 0.677987813949585, "Quantum sensing navigation": 0.6683592796325684, "Quantum sensing Position": 0.6584292054176331, "Quantum sensing Timing": 0.6501943469047546, "Quantum sensing": 0.6914936900138855, "Quantum control": 0.6718447208404541 } }, { "id": 1705, "title": "Lifetime of holes and electrons at metal surfaces;: electron-phonon coupling", "abstract": "Surface chemical reactions are influenced by inherent dissipative processes which involve energy transfer between the conduction electrons and the ionic motion. We will discuss how it is possible to m...", "citations": 10, "author_count": 9, "categories": [ "Spectroscopy" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1707, "doi": "10.1016/S0368-2048(03)00056-2", "umap_coordinates": { "x": 393.2396240234375, "y": 135.0346221923828, "z": 206.58192443847656 }, "tsne_coordinates": { "x": 7.923428535461426, "y": 3.3311855792999268, "z": 18.523353576660156 }, "pca_coordinates": { "x": -0.5092446804046631, "y": -1.5598392486572266, "z": -0.7914323806762695 }, "axis_scores": { "Quantum imaging": 0.6981877684593201, "Quantum Life Science Sensing": 0.7308185696601868, "Quantum sensing Detection": 0.6943053603172302, "Quantum sensing Metrology": 0.6918970346450806, "Quantum sensing navigation": 0.6967772841453552, "Quantum sensing Position": 0.7016710042953491, "Quantum sensing Timing": 0.6981496810913086, "Quantum sensing": 0.7027658820152283, "Quantum control": 0.655219316482544 } }, { "id": 1706, "title": "Some emerging photonic technologies and their device impact:: Photonic crystals, plasmonics and electromagnetically induced transparency", "abstract": "Photonics is far behind electronics in maturity. The devices are orders of magnitude larger than their electronics counterparts and the functionality is low. But it appears that these issues are not f...", "citations": 1, "author_count": 3, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1708, "doi": "10.1117/12.611344", "umap_coordinates": { "x": 394.3677062988281, "y": 133.46298217773438, "z": 206.39715576171875 }, "tsne_coordinates": { "x": -0.8844864368438721, "y": 7.670699119567871, "z": -30.009315490722656 }, "pca_coordinates": { "x": -1.8649705648422241, "y": -1.7204060554504395, "z": 1.873922348022461 }, "axis_scores": { "Quantum imaging": 0.7483150959014893, "Quantum Life Science Sensing": 0.7322901487350464, "Quantum sensing Detection": 0.7371460199356079, "Quantum sensing Metrology": 0.7274307012557983, "Quantum sensing navigation": 0.7147443890571594, "Quantum sensing Position": 0.7031196355819702, "Quantum sensing Timing": 0.6958239674568176, "Quantum sensing": 0.7432425022125244, "Quantum control": 0.6998506188392639 } }, { "id": 1707, "title": "Device model for quantum dot infrared photodetectors and their dark-current characteristics", "abstract": "We propose a device model for quantum dot infrared photodetectors (QDIPs) with relatively large lateral spacing between QDs as occurs in QDIPs fabricated and experimentally investigated recently. The ...", "citations": 88, "author_count": 6, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1709, "doi": "10.1088/0268-1242/16/5/309", "umap_coordinates": { "x": 394.3417053222656, "y": 134.74630737304688, "z": 206.8094482421875 }, "tsne_coordinates": { "x": 3.138737440109253, "y": 3.197909355163574, "z": -23.917194366455078 }, "pca_coordinates": { "x": -0.31746309995651245, "y": -0.3910641670227051, "z": 1.356055736541748 }, "axis_scores": { "Quantum imaging": 0.7022173404693604, "Quantum Life Science Sensing": 0.7176685333251953, "Quantum sensing Detection": 0.6955997943878174, "Quantum sensing Metrology": 0.6814965009689331, "Quantum sensing navigation": 0.669048011302948, "Quantum sensing Position": 0.6690003275871277, "Quantum sensing Timing": 0.6718854904174805, "Quantum sensing": 0.692133903503418, "Quantum control": 0.6612030863761902 } }, { "id": 1708, "title": "Insights into the Structure and Self-Assembly of Organic-Semiconductor/Quantum-Dot Blends", "abstract": "Controlling the dispersibility of crystalline inorganic quantum dots (QD) within organic-QD nanocomposite films is critical for a wide range of optoelectronic devices. A promising way to control nanos...", "citations": 7, "author_count": 18, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1710, "doi": "10.1002/adfm.202109252", "umap_coordinates": { "x": 392.2991943359375, "y": 134.41302490234375, "z": 206.70188903808594 }, "tsne_coordinates": { "x": 22.192703247070312, "y": -10.005274772644043, "z": 10.858894348144531 }, "pca_coordinates": { "x": -0.3089495301246643, "y": -2.9697484970092773, "z": -1.7181904315948486 }, "axis_scores": { "Quantum imaging": 0.7247940301895142, "Quantum Life Science Sensing": 0.7493283748626709, "Quantum sensing Detection": 0.7117199301719666, "Quantum sensing Metrology": 0.7179023623466492, "Quantum sensing navigation": 0.710358738899231, "Quantum sensing Position": 0.6884875893592834, "Quantum sensing Timing": 0.6592462062835693, "Quantum sensing": 0.7256578803062439, "Quantum control": 0.7004865407943726 } }, { "id": 1709, "title": "Roadmap on all-optical processing", "abstract": "The ability to process optical signals without passing into the electrical domain has always attracted the attention of the research community. Processing photons by photons unfolds new scenarios, in ...", "citations": 181, "author_count": 33, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1711, "doi": "10.1088/2040-8986/ab0e66", "umap_coordinates": { "x": 394.65496826171875, "y": 134.62811279296875, "z": 205.97903442382812 }, "tsne_coordinates": { "x": -12.789775848388672, "y": 1.1136455535888672, "z": -17.289350509643555 }, "pca_coordinates": { "x": -2.200690269470215, "y": 2.6148829460144043, "z": 1.1405348777770996 }, "axis_scores": { "Quantum imaging": 0.7154815196990967, "Quantum Life Science Sensing": 0.6963176727294922, "Quantum sensing Detection": 0.6841352581977844, "Quantum sensing Metrology": 0.6971629858016968, "Quantum sensing navigation": 0.6925838589668274, "Quantum sensing Position": 0.6749243140220642, "Quantum sensing Timing": 0.6705702543258667, "Quantum sensing": 0.6973738670349121, "Quantum control": 0.6697368025779724 } }, { "id": 1710, "title": "Fabrication and nanophotonic waveguide integration of silicon carbide colour centres with preserved spin-optical coherence", "abstract": "Colour centres are a promising quantum information platform, but coherence degradation after integration in nanostructures has hindered scalability. Here, the authors show that waveguide-integrated V-...", "citations": 160, "author_count": 23, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1712, "doi": "10.1038/s41563-021-01148-3", "umap_coordinates": { "x": 394.0782775878906, "y": 134.28890991210938, "z": 206.81814575195312 }, "tsne_coordinates": { "x": 8.953167915344238, "y": -12.822342872619629, "z": 0.9704041481018066 }, "pca_coordinates": { "x": -1.8593814373016357, "y": -1.5131340026855469, "z": 2.6040453910827637 }, "axis_scores": { "Quantum imaging": 0.720158040523529, "Quantum Life Science Sensing": 0.6977640390396118, "Quantum sensing Detection": 0.6966950297355652, "Quantum sensing Metrology": 0.7067099809646606, "Quantum sensing navigation": 0.7128477692604065, "Quantum sensing Position": 0.6954518556594849, "Quantum sensing Timing": 0.6759148836135864, "Quantum sensing": 0.7097007036209106, "Quantum control": 0.6924442052841187 } }, { "id": 1711, "title": "Gradient-descent methods for fast quantum state tomography", "abstract": "Quantum state tomography (QST) is a widely employed technique for characterizing the state of a quantum system. However, it is plagued by two fundamental challenges: computational and experimental com...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1713, "doi": "10.1088/2058-9565/ae0baa", "umap_coordinates": { "x": 395.1180419921875, "y": 136.3343963623047, "z": 206.41270446777344 }, "tsne_coordinates": { "x": -34.3683967590332, "y": -9.704034805297852, "z": -4.616372108459473 }, "pca_coordinates": { "x": 1.583674430847168, "y": 1.9988024234771729, "z": 0.6659166216850281 }, "axis_scores": { "Quantum imaging": 0.7001986503601074, "Quantum Life Science Sensing": 0.6743413209915161, "Quantum sensing Detection": 0.68422532081604, "Quantum sensing Metrology": 0.6834307909011841, "Quantum sensing navigation": 0.7161519527435303, "Quantum sensing Position": 0.6696298122406006, "Quantum sensing Timing": 0.6827936768531799, "Quantum sensing": 0.6959370970726013, "Quantum control": 0.6769111156463623 } }, { "id": 1712, "title": "Loss-resistant verification of quantum non-Gaussian photon statistics", "abstract": "Quantum non-Gaussian states of light have fundamental properties that are essential for a multitude of applications in quantum technology. However, many of these features are difficult to detect using...", "citations": 2, "author_count": 9, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1714, "doi": "10.1103/nbkg-8jz9", "umap_coordinates": { "x": 395.5871276855469, "y": 136.34361267089844, "z": 207.40481567382812 }, "tsne_coordinates": { "x": -24.937347412109375, "y": -6.960848808288574, "z": 3.0824708938598633 }, "pca_coordinates": { "x": 2.7479801177978516, "y": 1.489095687866211, "z": 2.1305620670318604 }, "axis_scores": { "Quantum imaging": 0.7211242318153381, "Quantum Life Science Sensing": 0.7250551581382751, "Quantum sensing Detection": 0.7417529225349426, "Quantum sensing Metrology": 0.7297199964523315, "Quantum sensing navigation": 0.7514129281044006, "Quantum sensing Position": 0.7055063843727112, "Quantum sensing Timing": 0.6806523203849792, "Quantum sensing": 0.739947497844696, "Quantum control": 0.6879897117614746 } }, { "id": 1713, "title": "Three-Dimensional Tracking of Small Aquatic Organisms Using Fluorescent Nanoparticles", "abstract": "Tracking techniques are vital for the understanding of the biology and ecology of organisms. While such techniques have provided important information on the movement and migration of large animals, s...", "citations": 43, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1715, "doi": "10.1371/journal.pone.0078498", "umap_coordinates": { "x": 394.0162048339844, "y": 134.81640625, "z": 204.96188354492188 }, "tsne_coordinates": { "x": -0.9452006816864014, "y": 29.435144424438477, "z": 20.092918395996094 }, "pca_coordinates": { "x": -3.069702625274658, "y": 1.0035285949707031, "z": -0.47282716631889343 }, "axis_scores": { "Quantum imaging": 0.7514209151268005, "Quantum Life Science Sensing": 0.7571534514427185, "Quantum sensing Detection": 0.7323553562164307, "Quantum sensing Metrology": 0.7157095670700073, "Quantum sensing navigation": 0.7569104433059692, "Quantum sensing Position": 0.7160539031028748, "Quantum sensing Timing": 0.7073599696159363, "Quantum sensing": 0.741661012172699, "Quantum control": 0.7254827618598938 } }, { "id": 1714, "title": "An InN/InGaN Quantum Dot Electrochemical Biosensor for Clinical Diagnosis", "abstract": "Low-dimensional InN/InGaN quantum dots (QDs) are demonstrated for realizing highly sensitive and efficient potentiometric biosensors owing to their unique electronic properties. The InN QDs are bioche...", "citations": 29, "author_count": 8, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1716, "doi": "10.3390/s131013917", "umap_coordinates": { "x": 393.858154296875, "y": 134.02285766601562, "z": 204.93218994140625 }, "tsne_coordinates": { "x": 28.536773681640625, "y": 17.73874855041504, "z": -16.657434463500977 }, "pca_coordinates": { "x": -2.945282220840454, "y": -1.2251105308532715, "z": 1.5611724853515625 }, "axis_scores": { "Quantum imaging": 0.7005436420440674, "Quantum Life Science Sensing": 0.7259587049484253, "Quantum sensing Detection": 0.7262052893638611, "Quantum sensing Metrology": 0.7088257074356079, "Quantum sensing navigation": 0.7097300887107849, "Quantum sensing Position": 0.6836715936660767, "Quantum sensing Timing": 0.6703925132751465, "Quantum sensing": 0.7218477725982666, "Quantum control": 0.6492618322372437 } }, { "id": 1715, "title": "Collective dynamics of liquid deuterium: Neutron scattering and approximate quantum simulation methods", "abstract": "We present an experimental and simulation study of the collective dynamics of liquid D-2 in the range of exchanged wave vectors 3 <= Q <= 14 nm(-1). Neutron Brillouin scattering results for the center...", "citations": 12, "author_count": 12, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1717, "doi": "10.1103/PhysRevB.104.174204", "umap_coordinates": { "x": 393.52783203125, "y": 137.20848083496094, "z": 207.5015411376953 }, "tsne_coordinates": { "x": -6.525074481964111, "y": -30.37507438659668, "z": 31.181190490722656 }, "pca_coordinates": { "x": 4.004819393157959, "y": -0.6372637748718262, "z": -2.0697531700134277 }, "axis_scores": { "Quantum imaging": 0.7154166102409363, "Quantum Life Science Sensing": 0.734713077545166, "Quantum sensing Detection": 0.7140829563140869, "Quantum sensing Metrology": 0.6889750957489014, "Quantum sensing navigation": 0.7267380356788635, "Quantum sensing Position": 0.7013339400291443, "Quantum sensing Timing": 0.6981638669967651, "Quantum sensing": 0.7256307005882263, "Quantum control": 0.7175487875938416 } }, { "id": 1716, "title": "Quantum Dot-Based Local Field Imaging Reveals Plasmon-Based Interferometric Logic in Silver Nanowire Networks", "abstract": "We show that the local electric field distribution of propagating plasmons along silver nanowires can be imaged by coating the nanowires with a layer of quantum dots, held off the surface of the nanow...", "citations": 292, "author_count": 11, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1718, "doi": "10.1021/nl103228b", "umap_coordinates": { "x": 392.3507385253906, "y": 133.99806213378906, "z": 207.10275268554688 }, "tsne_coordinates": { "x": 14.332731246948242, "y": -19.19870376586914, "z": -7.482027530670166 }, "pca_coordinates": { "x": -0.49666136503219604, "y": -3.3530144691467285, "z": 1.4401531219482422 }, "axis_scores": { "Quantum imaging": 0.7352203130722046, "Quantum Life Science Sensing": 0.71014404296875, "Quantum sensing Detection": 0.7317094802856445, "Quantum sensing Metrology": 0.7136983871459961, "Quantum sensing navigation": 0.7408615946769714, "Quantum sensing Position": 0.7078569531440735, "Quantum sensing Timing": 0.6587175726890564, "Quantum sensing": 0.7335577011108398, "Quantum control": 0.6696745753288269 } }, { "id": 1717, "title": "Proteomic Analysis Identifies Markers of Exposure to Cadmium Sulphide Quantum Dots (CdS QDs)", "abstract": "The use of cadmium sulphide quantum dot (CdS QD)-enabled products has become increasingly widespread. The prospect of their release in the environment is raising concerns. Here we have used the yeast ...", "citations": 9, "author_count": 8, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1719, "doi": "10.3390/nano10061214", "umap_coordinates": { "x": 393.7579650878906, "y": 134.1105194091797, "z": 204.59214782714844 }, "tsne_coordinates": { "x": 17.886259078979492, "y": 27.969558715820312, "z": 2.2269716262817383 }, "pca_coordinates": { "x": -3.7756900787353516, "y": -1.0629236698150635, "z": -0.9682788848876953 }, "axis_scores": { "Quantum imaging": 0.7258362770080566, "Quantum Life Science Sensing": 0.7717322707176208, "Quantum sensing Detection": 0.7445759177207947, "Quantum sensing Metrology": 0.7288020253181458, "Quantum sensing navigation": 0.7271046042442322, "Quantum sensing Position": 0.7264377474784851, "Quantum sensing Timing": 0.7096041440963745, "Quantum sensing": 0.7456009984016418, "Quantum control": 0.6992902755737305 } }, { "id": 1718, "title": "Interband Absorption in Few-Layer Graphene Quantum Dots: Effect of Heavy Metals", "abstract": "Monolayer, bilayer, and trilayer graphene quantum dots (GQDs) with different binding abilities to elemental heavy metals (HMs: Cd, Hg, and Pb) were designed, and their electronic and optical propertie...", "citations": 17, "author_count": 3, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1720, "doi": "10.3390/ma11071217", "umap_coordinates": { "x": 392.932373046875, "y": 134.7841339111328, "z": 206.2452850341797 }, "tsne_coordinates": { "x": 11.988459587097168, "y": -6.716814041137695, "z": -1.0767216682434082 }, "pca_coordinates": { "x": -0.34384220838546753, "y": -1.8917155265808105, "z": -0.8064730167388916 }, "axis_scores": { "Quantum imaging": 0.7089617848396301, "Quantum Life Science Sensing": 0.7369076609611511, "Quantum sensing Detection": 0.7181670665740967, "Quantum sensing Metrology": 0.7085084915161133, "Quantum sensing navigation": 0.6900619268417358, "Quantum sensing Position": 0.6729995012283325, "Quantum sensing Timing": 0.6754981875419617, "Quantum sensing": 0.7281783819198608, "Quantum control": 0.6714696288108826 } }, { "id": 1719, "title": "Probing the Pomeron structure using dijets and γ plus jet events at the LHC", "abstract": "We consider hard diffractive events in proton-proton collisions at the LHC, in which both protons escape the collision intact. In such double Pomeron exchange processes, we propose to measure dijets a...", "citations": 22, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1721, "doi": "10.1103/PhysRevD.88.074029", "umap_coordinates": { "x": 396.76934814453125, "y": 134.60096740722656, "z": 207.53836059570312 }, "tsne_coordinates": { "x": -40.169795989990234, "y": 7.5734453201293945, "z": -12.373367309570312 }, "pca_coordinates": { "x": 2.1927647590637207, "y": 1.6533470153808594, "z": 1.5607647895812988 }, "axis_scores": { "Quantum imaging": 0.7024226188659668, "Quantum Life Science Sensing": 0.71947181224823, "Quantum sensing Detection": 0.6974873542785645, "Quantum sensing Metrology": 0.6777265071868896, "Quantum sensing navigation": 0.7140679359436035, "Quantum sensing Position": 0.6869686245918274, "Quantum sensing Timing": 0.6952773928642273, "Quantum sensing": 0.6993849277496338, "Quantum control": 0.6820077300071716 } }, { "id": 1720, "title": "Controlled fabrication of individual silicon quantum rods yielding high intensity, polarized light emission", "abstract": "Elongated silicon quantum dots (also referred to as rods) were fabricated using a lithographic process which reliably yields sufficient numbers of emitters. These quantum rods are perfectly aligned an...", "citations": 38, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1722, "doi": "10.1088/0957-4484/20/50/505301", "umap_coordinates": { "x": 393.6780090332031, "y": 133.89695739746094, "z": 206.73849487304688 }, "tsne_coordinates": { "x": -11.243142127990723, "y": -9.251449584960938, "z": -23.469728469848633 }, "pca_coordinates": { "x": -1.3509653806686401, "y": -1.3640313148498535, "z": 2.1657145023345947 }, "axis_scores": { "Quantum imaging": 0.7369480729103088, "Quantum Life Science Sensing": 0.7359102964401245, "Quantum sensing Detection": 0.7160462737083435, "Quantum sensing Metrology": 0.7106555104255676, "Quantum sensing navigation": 0.7140162587165833, "Quantum sensing Position": 0.7032855749130249, "Quantum sensing Timing": 0.6937621831893921, "Quantum sensing": 0.746965765953064, "Quantum control": 0.7384741306304932 } }, { "id": 1721, "title": "Analysis of optical near-field energy transfer by stochastic model unifying architectural dependencies", "abstract": "We theoretically and experimentally demonstrate energy transfer mediated by optical near-field interactions in a multi-layer InAs quantum dot (QD) structure composed of a single layer of larger dots a...", "citations": 4, "author_count": 8, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1723, "doi": "10.1063/1.4871668", "umap_coordinates": { "x": 394.5162353515625, "y": 135.05593872070312, "z": 206.7513885498047 }, "tsne_coordinates": { "x": -19.62917137145996, "y": -6.882621765136719, "z": 34.15583038330078 }, "pca_coordinates": { "x": 1.2340960502624512, "y": 0.4231843948364258, "z": 1.110774040222168 }, "axis_scores": { "Quantum imaging": 0.7479822635650635, "Quantum Life Science Sensing": 0.7464248538017273, "Quantum sensing Detection": 0.7351990938186646, "Quantum sensing Metrology": 0.7495471835136414, "Quantum sensing navigation": 0.737316370010376, "Quantum sensing Position": 0.7029107809066772, "Quantum sensing Timing": 0.7082074880599976, "Quantum sensing": 0.7530955672264099, "Quantum control": 0.7169048190116882 } }, { "id": 1722, "title": "Finite boson and fermion systems under extreme rotation: edge reconstruction and vortex formation", "abstract": "Vortices can form when finite quantal systems are set rotating. In the limit of small particle numbers, the vortex formation in a harmonically trapped fermion system, with repulsively interacting part...", "citations": 8, "author_count": 6, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1724, "doi": "10.1088/0953-4075/39/12/008", "umap_coordinates": { "x": 394.36279296875, "y": 137.15296936035156, "z": 208.42657470703125 }, "tsne_coordinates": { "x": -14.843725204467773, "y": -17.065961837768555, "z": 21.903656005859375 }, "pca_coordinates": { "x": 2.584923267364502, "y": 3.232412099838257, "z": -0.7140152454376221 }, "axis_scores": { "Quantum imaging": 0.6965112686157227, "Quantum Life Science Sensing": 0.6862775087356567, "Quantum sensing Detection": 0.6700583100318909, "Quantum sensing Metrology": 0.656021237373352, "Quantum sensing navigation": 0.678654670715332, "Quantum sensing Position": 0.6701892614364624, "Quantum sensing Timing": 0.6616725921630859, "Quantum sensing": 0.6726364493370056, "Quantum control": 0.6678570508956909 } }, { "id": 1723, "title": "Many-body spectrum and particle localization in quantum dots and finite rotating Bose condensates", "abstract": "The yrast spectra (i.e., the lowest states for a given total angular momentum) of quantum dots in strong magnetic fields, are studied in terms of exact numerical diagonalization and analytic trial wav...", "citations": 51, "author_count": 5, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1725, "doi": "10.1103/PhysRevB.64.245322", "umap_coordinates": { "x": 394.16839599609375, "y": 135.71234130859375, "z": 209.30154418945312 }, "tsne_coordinates": { "x": 2.161266565322876, "y": -32.625675201416016, "z": 4.774315357208252 }, "pca_coordinates": { "x": 4.8904643058776855, "y": -1.130167007446289, "z": -0.12092715501785278 }, "axis_scores": { "Quantum imaging": 0.7256758213043213, "Quantum Life Science Sensing": 0.7209309339523315, "Quantum sensing Detection": 0.7219638824462891, "Quantum sensing Metrology": 0.7149062156677246, "Quantum sensing navigation": 0.7329667806625366, "Quantum sensing Position": 0.7263289093971252, "Quantum sensing Timing": 0.7079134583473206, "Quantum sensing": 0.7312286496162415, "Quantum control": 0.7100545763969421 } }, { "id": 1724, "title": "Electrical and optical properties of self-assembled InAs quantum dots in InP studied by space-charge spectroscopy and photoluminescence", "abstract": "In this paper, we report on a detailed investigation using junction space-charge techniques and photoluminescence of InAs quantum dots embedded in an InP matrix. From measurements of thermal emission ...", "citations": 52, "author_count": 8, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1726, "doi": "10.1103/PhysRevB.61.4795", "umap_coordinates": { "x": 392.5808410644531, "y": 134.33340454101562, "z": 208.6444549560547 }, "tsne_coordinates": { "x": 21.73554801940918, "y": -14.703071594238281, "z": 3.5435445308685303 }, "pca_coordinates": { "x": 2.293447256088257, "y": -4.029139995574951, "z": 0.7573544383049011 }, "axis_scores": { "Quantum imaging": 0.7064489722251892, "Quantum Life Science Sensing": 0.7420799732208252, "Quantum sensing Detection": 0.7006794214248657, "Quantum sensing Metrology": 0.6957241296768188, "Quantum sensing navigation": 0.7084850072860718, "Quantum sensing Position": 0.6981703042984009, "Quantum sensing Timing": 0.6573336720466614, "Quantum sensing": 0.7171550393104553, "Quantum control": 0.678570032119751 } }, { "id": 1725, "title": "TWO-DIMENSIONAL MACROSCOPIC QUANTUM DYNAMICS IN YBCO JOSEPHSON JUNCTIONS", "abstract": "We theoretically study classical thermal activation (TA) and macroscopic quantum tunneling (MQT) for a YBa2Cu3O7-delta(YBCO) Josephson junction coupled with an LC circuit. The TA and MQT escape rate a...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1727, "doi": "10.1142/S0217979209063481", "umap_coordinates": { "x": 393.6765441894531, "y": 136.11041259765625, "z": 207.8881072998047 }, "tsne_coordinates": { "x": 1.683778166770935, "y": -17.029964447021484, "z": 15.847577095031738 }, "pca_coordinates": { "x": 3.6546149253845215, "y": -1.0377862453460693, "z": -1.7073566913604736 }, "axis_scores": { "Quantum imaging": 0.7532064318656921, "Quantum Life Science Sensing": 0.7377743124961853, "Quantum sensing Detection": 0.7349423766136169, "Quantum sensing Metrology": 0.7182236313819885, "Quantum sensing navigation": 0.7568671703338623, "Quantum sensing Position": 0.7228245139122009, "Quantum sensing Timing": 0.7415919303894043, "Quantum sensing": 0.7471784353256226, "Quantum control": 0.7539694905281067 } }, { "id": 1726, "title": "Collective excitations of quantum Hall states under tilted magnetic field", "abstract": "We study the neutral excitations of fractional quantum Hall states in electronic systems of finite width where an external anisotropy is introduced by tilting the magnetic field. As in the isotropic c...", "citations": 4, "author_count": 4, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1728, "doi": "10.1103/PhysRevB.102.045145", "umap_coordinates": { "x": 393.77874755859375, "y": 136.6236114501953, "z": 209.0069580078125 }, "tsne_coordinates": { "x": -7.602008819580078, "y": -33.951663970947266, "z": 16.189897537231445 }, "pca_coordinates": { "x": 4.8391900062561035, "y": -1.0563850402832031, "z": -2.19638729095459 }, "axis_scores": { "Quantum imaging": 0.7285606265068054, "Quantum Life Science Sensing": 0.721550464630127, "Quantum sensing Detection": 0.7177163362503052, "Quantum sensing Metrology": 0.7196518182754517, "Quantum sensing navigation": 0.733623743057251, "Quantum sensing Position": 0.7132274508476257, "Quantum sensing Timing": 0.6923057436943054, "Quantum sensing": 0.7402317523956299, "Quantum control": 0.729489803314209 } }, { "id": 1727, "title": "Full-frequency voltage noise spectral density of a single-electron transistor -: art. no. 035301", "abstract": "We calculate the full-frequency spectral density of voltage fluctuations in a single-electron transistor (SET), used as an electrometer biased above the Coulomb threshold so that the current through t...", "citations": 22, "author_count": 4, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1729, "doi": "10.1103/PhysRevB.67.035301", "umap_coordinates": { "x": 394.3935852050781, "y": 134.14373779296875, "z": 208.7591552734375 }, "tsne_coordinates": { "x": 3.343163013458252, "y": -29.911787033081055, "z": -12.832764625549316 }, "pca_coordinates": { "x": 3.355966091156006, "y": -1.681922435760498, "z": 1.885890007019043 }, "axis_scores": { "Quantum imaging": 0.6981233358383179, "Quantum Life Science Sensing": 0.7310495972633362, "Quantum sensing Detection": 0.7143102884292603, "Quantum sensing Metrology": 0.714972734451294, "Quantum sensing navigation": 0.7125702500343323, "Quantum sensing Position": 0.6800003051757812, "Quantum sensing Timing": 0.6626021265983582, "Quantum sensing": 0.7205172181129456, "Quantum control": 0.6809103488922119 } }, { "id": 1728, "title": "Structure changes for Cu(111)/Li observed via discrete quantum well states", "abstract": "Via photoemission in the near UV from discrete quantum well states, four different types of atom rearrangements are observed for Cu(111)/Li. In the monolayer range a gradual energy shift reflects a gr...", "citations": 1, "author_count": 6, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1730, "doi": "10.1142/S0218625X97001590", "umap_coordinates": { "x": 393.5917053222656, "y": 135.97567749023438, "z": 207.90972900390625 }, "tsne_coordinates": { "x": 12.202205657958984, "y": -43.40766906738281, "z": -2.841905117034912 }, "pca_coordinates": { "x": 1.4743609428405762, "y": -0.5433588027954102, "z": -0.8218492269515991 }, "axis_scores": { "Quantum imaging": 0.7127189636230469, "Quantum Life Science Sensing": 0.721839427947998, "Quantum sensing Detection": 0.6975989937782288, "Quantum sensing Metrology": 0.6845352053642273, "Quantum sensing navigation": 0.7005965709686279, "Quantum sensing Position": 0.6931563019752502, "Quantum sensing Timing": 0.676091194152832, "Quantum sensing": 0.7060461640357971, "Quantum control": 0.6895595192909241 } }, { "id": 1729, "title": "Model study of adsorbed metallic quantum dots: Na on Cu(111) - art. no. 235420", "abstract": "We model electronic properties of the second-monolayer Na adatom islands (quantum dots) on the Cu(111) surface covered homogeneously by the first Na monolayer. An axially symmetric three-dimensional j...", "citations": 12, "author_count": 5, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1731, "doi": "10.1103/PhysRevB.66.235420", "umap_coordinates": { "x": 393.9961242675781, "y": 135.5558319091797, "z": 209.38487243652344 }, "tsne_coordinates": { "x": 8.07977294921875, "y": -38.5985107421875, "z": -3.0842366218566895 }, "pca_coordinates": { "x": 3.10366153717041, "y": -1.315354824066162, "z": -0.30924639105796814 }, "axis_scores": { "Quantum imaging": 0.6840417385101318, "Quantum Life Science Sensing": 0.7133417725563049, "Quantum sensing Detection": 0.7112554311752319, "Quantum sensing Metrology": 0.6916442513465881, "Quantum sensing navigation": 0.7110996842384338, "Quantum sensing Position": 0.6886606216430664, "Quantum sensing Timing": 0.6680395007133484, "Quantum sensing": 0.7126517295837402, "Quantum control": 0.6942854523658752 } }, { "id": 1730, "title": "Magnetoluminescence of highly excited InAs/GaAs self-assembled quantum dots", "abstract": "Wr present magnetoluminescence measurements of InAs/GaAs self-assembled quantum dots (QD's) at different excitation intensities. By applying high excitation intensities, the magnetic field evolution o...", "citations": 32, "author_count": 7, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1732, "doi": "10.1103/PhysRevB.62.7344", "umap_coordinates": { "x": 393.31573486328125, "y": 134.8494415283203, "z": 208.74888610839844 }, "tsne_coordinates": { "x": 11.248518943786621, "y": -27.89851951599121, "z": 6.6686692237854 }, "pca_coordinates": { "x": 3.134702205657959, "y": -4.481991291046143, "z": -0.35443001985549927 }, "axis_scores": { "Quantum imaging": 0.7239470481872559, "Quantum Life Science Sensing": 0.745419442653656, "Quantum sensing Detection": 0.7341683506965637, "Quantum sensing Metrology": 0.7236186265945435, "Quantum sensing navigation": 0.7214213013648987, "Quantum sensing Position": 0.695115327835083, "Quantum sensing Timing": 0.6712508797645569, "Quantum sensing": 0.7412513494491577, "Quantum control": 0.6973918676376343 } }, { "id": 1731, "title": "Optical studies of individual InAs quantum dots in GaAs: Few-particle effects", "abstract": "Optical emission from individual strained indium arsenide (InAs) islands buried in gallium arsenide (GaAs) was studied. At low excitation power density, the spectra from these quantum dots consist of ...", "citations": 308, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1733, "doi": "10.1126/science.280.5361.262", "umap_coordinates": { "x": 393.2920227050781, "y": 133.7257537841797, "z": 207.51486206054688 }, "tsne_coordinates": { "x": 34.151763916015625, "y": -1.4652076959609985, "z": 1.9500185251235962 }, "pca_coordinates": { "x": -0.6472913026809692, "y": -3.167219638824463, "z": 1.3003056049346924 }, "axis_scores": { "Quantum imaging": 0.743726909160614, "Quantum Life Science Sensing": 0.7613109350204468, "Quantum sensing Detection": 0.7415889501571655, "Quantum sensing Metrology": 0.737341582775116, "Quantum sensing navigation": 0.7278839349746704, "Quantum sensing Position": 0.7186227440834045, "Quantum sensing Timing": 0.7039998769760132, "Quantum sensing": 0.7572333812713623, "Quantum control": 0.7172850966453552 } }, { "id": 1732, "title": "INTRAMOLECULAR DEACTIVATION OF PHOTOEXCITED ANTHRACENES BY AROMATIC KETONES", "abstract": "The excited state properties of anthracenes non-conjugatively linked to various types of aromatic ketone were investigated in non-polar solution by determination of the quantum yields of fluorescence ...", "citations": 11, "author_count": 4, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1734, "doi": "10.1016/1010-6030(94)03927-M", "umap_coordinates": { "x": 392.7593078613281, "y": 135.73085021972656, "z": 205.76560974121094 }, "tsne_coordinates": { "x": -0.029119381681084633, "y": -3.2804837226867676, "z": -12.983902931213379 }, "pca_coordinates": { "x": -1.6279689073562622, "y": -0.36409616470336914, "z": -1.9406609535217285 }, "axis_scores": { "Quantum imaging": 0.6633208990097046, "Quantum Life Science Sensing": 0.6726494431495667, "Quantum sensing Detection": 0.6441177725791931, "Quantum sensing Metrology": 0.617387056350708, "Quantum sensing navigation": 0.6199224591255188, "Quantum sensing Position": 0.6169316172599792, "Quantum sensing Timing": 0.6146661639213562, "Quantum sensing": 0.6552697420120239, "Quantum control": 0.6371093988418579 } }, { "id": 1733, "title": "PHOTON-CORRELATION STUDY OF STRUCTURAL RELAXATIONS IN NACF3SO3 CONTAINING POLYMER ELECTROLYTES", "abstract": "The structural relaxation characteristics of NaCF3SO3 complexed poly (propylene-glycol) (PPG) have been investigated using photon correlation spectroscopy. Addition of NaCF3SO3 to PPG results in a con...", "citations": 26, "author_count": 5, "categories": [ "Materials Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 1735, "doi": "10.1016/0022-3093(94)90585-1", "umap_coordinates": { "x": 393.2914733886719, "y": 135.9238739013672, "z": 205.80885314941406 }, "tsne_coordinates": { "x": 15.598538398742676, "y": 11.96337890625, "z": 16.980819702148438 }, "pca_coordinates": { "x": -0.7449201941490173, "y": 0.45223188400268555, "z": -0.5391302704811096 }, "axis_scores": { "Quantum imaging": 0.6964457035064697, "Quantum Life Science Sensing": 0.7358038425445557, "Quantum sensing Detection": 0.6790080070495605, "Quantum sensing Metrology": 0.681425929069519, "Quantum sensing navigation": 0.6995315551757812, "Quantum sensing Position": 0.6852620244026184, "Quantum sensing Timing": 0.673432469367981, "Quantum sensing": 0.691074013710022, "Quantum control": 0.6394176483154297 } }, { "id": 1734, "title": "Static and dynamic quantum effects in molecular liquids: A linearized path integral description of water", "abstract": "Structure, transport properties, and IR spectra including quantum effects are calculated for a flexible simple point charge model of liquid water. A recently introduced combination of a variational lo...", "citations": 104, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1736, "doi": "10.1073/pnas.0408647102", "umap_coordinates": { "x": 393.5242004394531, "y": 137.43826293945312, "z": 206.1707305908203 }, "tsne_coordinates": { "x": -15.290923118591309, "y": 5.08382511138916, "z": 26.138050079345703 }, "pca_coordinates": { "x": 1.0904769897460938, "y": 1.9609068632125854, "z": -2.2723982334136963 }, "axis_scores": { "Quantum imaging": 0.7233327031135559, "Quantum Life Science Sensing": 0.7279880046844482, "Quantum sensing Detection": 0.6808471083641052, "Quantum sensing Metrology": 0.6610540747642517, "Quantum sensing navigation": 0.7279864549636841, "Quantum sensing Position": 0.6855652928352356, "Quantum sensing Timing": 0.6716673374176025, "Quantum sensing": 0.70699542760849, "Quantum control": 0.6884673237800598 } }, { "id": 1735, "title": "High-Resolution Fluorescence Diffuse Optical Tomography Developed with Nonlinear Upconverting Nanoparticles", "abstract": "Fluorescence diffuse optical tomography (FDOT) is an emerging biomedical imaging technique that can be used to localize and quantify deeply situated fluorescent molecules within tissues. However, the ...", "citations": 132, "author_count": 8, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1737, "doi": "10.1021/nn3015807", "umap_coordinates": { "x": 393.5954895019531, "y": 133.76148986816406, "z": 205.82020568847656 }, "tsne_coordinates": { "x": 11.936829566955566, "y": 20.999649047851562, "z": -23.788776397705078 }, "pca_coordinates": { "x": -3.4725587368011475, "y": -2.092698574066162, "z": 2.5107874870300293 }, "axis_scores": { "Quantum imaging": 0.7502005100250244, "Quantum Life Science Sensing": 0.7277300953865051, "Quantum sensing Detection": 0.7166576385498047, "Quantum sensing Metrology": 0.6977030038833618, "Quantum sensing navigation": 0.7094701528549194, "Quantum sensing Position": 0.6686323881149292, "Quantum sensing Timing": 0.6594008207321167, "Quantum sensing": 0.7257975339889526, "Quantum control": 0.672753095626831 } }, { "id": 1736, "title": "Spectroscopic studies of random telegraph noise in small InP quantum dots in GaxIn1-xP -: art. no. 073309", "abstract": "We have observed and investigated random telegraph noise in the photoluminescence (PL) from small InP quantum dots (QDs) in GaInP. Very few of the QDs exhibit switching between two states, which have ...", "citations": 6, "author_count": 6, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1738, "doi": "10.1103/PhysRevB.70.073309", "umap_coordinates": { "x": 393.546142578125, "y": 134.92311096191406, "z": 208.7095947265625 }, "tsne_coordinates": { "x": 13.005512237548828, "y": -31.433900833129883, "z": -5.337717056274414 }, "pca_coordinates": { "x": 2.6593716144561768, "y": -0.4965198040008545, "z": 2.0213122367858887 }, "axis_scores": { "Quantum imaging": 0.7254149913787842, "Quantum Life Science Sensing": 0.7246003746986389, "Quantum sensing Detection": 0.7230748534202576, "Quantum sensing Metrology": 0.7108963131904602, "Quantum sensing navigation": 0.7293055057525635, "Quantum sensing Position": 0.7162204384803772, "Quantum sensing Timing": 0.7014502882957458, "Quantum sensing": 0.7293741703033447, "Quantum control": 0.6872969269752502 } }, { "id": 1737, "title": "Atomic and energy structure of InAs/AlAs quantum dots", "abstract": "The atomic structure and energy spectrum of InAs quantum dots (QDs) in an AlAs matrix have been experimentally studied by transmission electron microscopy (TEM) and steady-state photoluminescence (PL)...", "citations": 61, "author_count": 8, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1739, "doi": "10.1103/PhysRevB.78.085323", "umap_coordinates": { "x": 393.0259094238281, "y": 134.71682739257812, "z": 208.5167999267578 }, "tsne_coordinates": { "x": 11.923737525939941, "y": -27.53363609313965, "z": 0.8972193002700806 }, "pca_coordinates": { "x": 3.385529041290283, "y": -3.2893567085266113, "z": -0.3640245199203491 }, "axis_scores": { "Quantum imaging": 0.731113851070404, "Quantum Life Science Sensing": 0.7628775238990784, "Quantum sensing Detection": 0.7310169339179993, "Quantum sensing Metrology": 0.7267317175865173, "Quantum sensing navigation": 0.7340748906135559, "Quantum sensing Position": 0.7264152765274048, "Quantum sensing Timing": 0.695946991443634, "Quantum sensing": 0.7456303834915161, "Quantum control": 0.6988942623138428 } }, { "id": 1738, "title": "Deep levels induced by InAs/GaAs quantum dots", "abstract": "Self-organised InAs/GaAs quantum dots (QDs) were formed by molecular beam epitaxy using the Stranski-Krastanov growth mode. Deep-level transient spectroscopy as well as secondary ion mass spectrometry...", "citations": 32, "author_count": 5, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1740, "doi": "10.1016/j.msec.2005.09.030", "umap_coordinates": { "x": 392.83233642578125, "y": 134.30081176757812, "z": 207.68548583984375 }, "tsne_coordinates": { "x": 38.239749908447266, "y": -9.860971450805664, "z": 10.818792343139648 }, "pca_coordinates": { "x": -0.014716267585754395, "y": -1.7267484664916992, "z": 0.001939237117767334 }, "axis_scores": { "Quantum imaging": 0.7232391834259033, "Quantum Life Science Sensing": 0.7270132303237915, "Quantum sensing Detection": 0.7319927215576172, "Quantum sensing Metrology": 0.7053053379058838, "Quantum sensing navigation": 0.7039117217063904, "Quantum sensing Position": 0.7070267200469971, "Quantum sensing Timing": 0.7226234674453735, "Quantum sensing": 0.7356557250022888, "Quantum control": 0.6926580667495728 } }, { "id": 1739, "title": "PbS Colloidal Quantum Dot Inks for Infrared Solar Cells", "abstract": "Infrared PbS colloidal quantum dot (CQD)-based materials receive significant attention because of its unique properties. The PbS CQD ink that originates from ligand exchange of CQDs is highly potentia...", "citations": 79, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1741, "doi": "10.1016/j.isci.2020.101753", "umap_coordinates": { "x": 392.98095703125, "y": 133.61509704589844, "z": 205.15354919433594 }, "tsne_coordinates": { "x": 28.085739135742188, "y": 10.530963897705078, "z": -7.650256633758545 }, "pca_coordinates": { "x": -4.806396007537842, "y": -3.1548852920532227, "z": -0.24100276827812195 }, "axis_scores": { "Quantum imaging": 0.7131986618041992, "Quantum Life Science Sensing": 0.7315471768379211, "Quantum sensing Detection": 0.6973341107368469, "Quantum sensing Metrology": 0.6889522075653076, "Quantum sensing navigation": 0.6972598433494568, "Quantum sensing Position": 0.7023154497146606, "Quantum sensing Timing": 0.6742900609970093, "Quantum sensing": 0.7071014046669006, "Quantum control": 0.6882030963897705 } }, { "id": 1740, "title": "Droplets and supersolids in ultra-cold atomic quantum gases", "abstract": "In this mini-review, we briefly summarize some of the main concepts and ideas behind highly dilute self-bound quantum droplets of both binary and dipolar character. The latter type of systems has more...", "citations": 5, "author_count": 6, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1742, "doi": "10.1140/epjs/s11734-023-00991-6", "umap_coordinates": { "x": 394.4822692871094, "y": 136.2220001220703, "z": 207.0596160888672 }, "tsne_coordinates": { "x": -8.812189102172852, "y": -13.441593170166016, "z": 26.129467010498047 }, "pca_coordinates": { "x": 1.917837142944336, "y": -0.02901601791381836, "z": -2.210765838623047 }, "axis_scores": { "Quantum imaging": 0.7181330919265747, "Quantum Life Science Sensing": 0.7444087266921997, "Quantum sensing Detection": 0.7025978565216064, "Quantum sensing Metrology": 0.6942426562309265, "Quantum sensing navigation": 0.696606457233429, "Quantum sensing Position": 0.6917210817337036, "Quantum sensing Timing": 0.6927981972694397, "Quantum sensing": 0.7185995578765869, "Quantum control": 0.7078563570976257 } }, { "id": 1741, "title": "Optimizing energy conversion with nonthermal resources in steady-state quantum devices", "abstract": "We provide a framework for optimizing energy conversion processes in coherent quantum conductors fed by nonthermal resources. Such nonthermal resources, which cannot be characterized by temperatures o...", "citations": 2, "author_count": 4, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1743, "doi": "10.1103/dtvp-pwxk", "umap_coordinates": { "x": 394.97265625, "y": 135.8678741455078, "z": 207.1808319091797 }, "tsne_coordinates": { "x": -30.98855209350586, "y": -18.540983200073242, "z": -8.156792640686035 }, "pca_coordinates": { "x": 1.0928020477294922, "y": -0.5796499252319336, "z": 1.457097053527832 }, "axis_scores": { "Quantum imaging": 0.7067096829414368, "Quantum Life Science Sensing": 0.6999430060386658, "Quantum sensing Detection": 0.6958372592926025, "Quantum sensing Metrology": 0.7039126753807068, "Quantum sensing navigation": 0.7093541622161865, "Quantum sensing Position": 0.6908627152442932, "Quantum sensing Timing": 0.6968427896499634, "Quantum sensing": 0.7160287499427795, "Quantum control": 0.7084855437278748 } }, { "id": 1742, "title": "Nanofocused x-ray photon correlation spectroscopy", "abstract": "Here, we demonstrate an experimental proof of concept for nanofocused x-ray photon correlation spectroscopy, a technique sensitive to nanoscale fluctuations present in a broad range of systems. The ex...", "citations": 7, "author_count": 12, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1744, "doi": "10.1103/PhysRevResearch.4.L032012", "umap_coordinates": { "x": 395.3504943847656, "y": 135.06637573242188, "z": 207.23085021972656 }, "tsne_coordinates": { "x": -14.107176780700684, "y": -13.181703567504883, "z": -1.4749267101287842 }, "pca_coordinates": { "x": 2.032006025314331, "y": 0.6410031318664551, "z": 1.824124813079834 }, "axis_scores": { "Quantum imaging": 0.7580869793891907, "Quantum Life Science Sensing": 0.7695232629776001, "Quantum sensing Detection": 0.7493809461593628, "Quantum sensing Metrology": 0.74639892578125, "Quantum sensing navigation": 0.7607383131980896, "Quantum sensing Position": 0.7414591312408447, "Quantum sensing Timing": 0.7057479619979858, "Quantum sensing": 0.7615603804588318, "Quantum control": 0.7130250334739685 } }, { "id": 1743, "title": "Electrically driven optical interferometry with spins in silicon carbide", "abstract": "Interfacing solid-state defect electron spins to other quantum systems is an ongoing challenge. The ground-state spin's weak coupling to its environment not only bestows excellent coherence properties...", "citations": 81, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1745, "doi": "10.1126/sciadv.aay0527", "umap_coordinates": { "x": 394.4053649902344, "y": 135.31748962402344, "z": 207.30677795410156 }, "tsne_coordinates": { "x": 2.700505018234253, "y": -8.079092979431152, "z": 26.308481216430664 }, "pca_coordinates": { "x": 0.9574446678161621, "y": -1.05403733253479, "z": 1.8477344512939453 }, "axis_scores": { "Quantum imaging": 0.7284024953842163, "Quantum Life Science Sensing": 0.7197458744049072, "Quantum sensing Detection": 0.7074693441390991, "Quantum sensing Metrology": 0.722986102104187, "Quantum sensing navigation": 0.7319802641868591, "Quantum sensing Position": 0.6915748715400696, "Quantum sensing Timing": 0.6775433421134949, "Quantum sensing": 0.7213104963302612, "Quantum control": 0.7127058506011963 } }, { "id": 1744, "title": "Wavelength tuning of InAs quantum dot laser by micromirror device", "abstract": "We report on the InAs quantum dot (QD) external cavity laser (ECL) using a digital mirror device (DMD) as the key component for wavelength tuning. The InAs QD laser diode was grown by gas source molec...", "citations": 3, "author_count": 9, "categories": [ "Crystallography" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1746, "doi": "10.1016/j.jcrysgro.2015.03.011", "umap_coordinates": { "x": 393.1429138183594, "y": 133.7389678955078, "z": 206.34080505371094 }, "tsne_coordinates": { "x": 29.800540924072266, "y": 3.2480099201202393, "z": 5.880890846252441 }, "pca_coordinates": { "x": -2.520347833633423, "y": -2.631216049194336, "z": 0.8979091048240662 }, "axis_scores": { "Quantum imaging": 0.7668348550796509, "Quantum Life Science Sensing": 0.7737494707107544, "Quantum sensing Detection": 0.774848461151123, "Quantum sensing Metrology": 0.7915581464767456, "Quantum sensing navigation": 0.7557680606842041, "Quantum sensing Position": 0.7567889094352722, "Quantum sensing Timing": 0.726241946220398, "Quantum sensing": 0.7869076728820801, "Quantum control": 0.7477715611457825 } }, { "id": 1745, "title": "Towards Modeling of Epigenetic Evolution with the Aid of Theory of Open Quantum Systems", "abstract": "We apply theory of open quantum systems to modeling of epigenetic evolution. This is an attempt to unify Darwinian and Lamarckian viewpoints on evolution on the basis of a quantum-like model. The stat...", "citations": 8, "author_count": 7, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1747, "doi": "10.1063/1.4773118", "umap_coordinates": { "x": 394.4508056640625, "y": 137.32904052734375, "z": 206.40943908691406 }, "tsne_coordinates": { "x": -20.931385040283203, "y": 6.349287986755371, "z": 12.1596040725708 }, "pca_coordinates": { "x": 2.120540142059326, "y": 1.3297033309936523, "z": -0.39145952463150024 }, "axis_scores": { "Quantum imaging": 0.7598565816879272, "Quantum Life Science Sensing": 0.7616778612136841, "Quantum sensing Detection": 0.7425304651260376, "Quantum sensing Metrology": 0.7435004711151123, "Quantum sensing navigation": 0.7663882970809937, "Quantum sensing Position": 0.726962685585022, "Quantum sensing Timing": 0.733873724937439, "Quantum sensing": 0.7613286375999451, "Quantum control": 0.7638954520225525 } }, { "id": 1746, "title": "Realistic finite temperature simulations of magnetic systems using quantum statistics", "abstract": "We have performed realistic atomistic simulations at finite temperatures using Monte Carlo and atomistic spin dynamics simulations incorporating quantum (Bose-Einstein) statistics. The description is ...", "citations": 39, "author_count": 3, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1748, "doi": "10.1103/PhysRevMaterials.2.013802", "umap_coordinates": { "x": 393.7839660644531, "y": 136.54061889648438, "z": 208.69662475585938 }, "tsne_coordinates": { "x": 5.543495178222656, "y": -31.988800048828125, "z": 15.544289588928223 }, "pca_coordinates": { "x": 3.4725747108459473, "y": -0.6517629623413086, "z": -0.5425227880477905 }, "axis_scores": { "Quantum imaging": 0.7419943809509277, "Quantum Life Science Sensing": 0.7576777935028076, "Quantum sensing Detection": 0.7272175550460815, "Quantum sensing Metrology": 0.7382696270942688, "Quantum sensing navigation": 0.7333134412765503, "Quantum sensing Position": 0.7005125284194946, "Quantum sensing Timing": 0.7213706970214844, "Quantum sensing": 0.7495937943458557, "Quantum control": 0.6997645497322083 } }, { "id": 1747, "title": "Interaction quench of dipolar bosons in a one-dimensional optical lattice", "abstract": "A Tonks-Girardeau (TG) gas is a highly correlated quantum state of strongly interacting bosons confined to one dimension, where repulsive interactions make the particles behave like impenetrable fermi...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1749, "doi": "10.1103/PhysRevResearch.7.013257", "umap_coordinates": { "x": 394.7809753417969, "y": 136.10610961914062, "z": 208.71815490722656 }, "tsne_coordinates": { "x": -12.964006423950195, "y": -26.465192794799805, "z": 22.65346336364746 }, "pca_coordinates": { "x": 5.041991233825684, "y": -0.6330709457397461, "z": 0.3361634612083435 }, "axis_scores": { "Quantum imaging": 0.7448645830154419, "Quantum Life Science Sensing": 0.7165401577949524, "Quantum sensing Detection": 0.7242687344551086, "Quantum sensing Metrology": 0.7167284488677979, "Quantum sensing navigation": 0.7352118492126465, "Quantum sensing Position": 0.7135482430458069, "Quantum sensing Timing": 0.7079041004180908, "Quantum sensing": 0.7298946380615234, "Quantum control": 0.7136150002479553 } }, { "id": 1748, "title": "Strong coupling between a microwave photon and a singlet-triplet qubit", "abstract": "Combining superconducting resonators and quantum dots has triggered tremendous progress in quantum information, however, attempts at coupling a resonator to even charge parity spin qubits have resulte...", "citations": 22, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1750, "doi": "10.1038/s41467-024-45235-w", "umap_coordinates": { "x": 394.10400390625, "y": 135.19772338867188, "z": 206.6153106689453 }, "tsne_coordinates": { "x": -11.749069213867188, "y": -1.1605768203735352, "z": -5.308970928192139 }, "pca_coordinates": { "x": -0.20691043138504028, "y": -0.5846304893493652, "z": 2.1456050872802734 }, "axis_scores": { "Quantum imaging": 0.7125692963600159, "Quantum Life Science Sensing": 0.7219337821006775, "Quantum sensing Detection": 0.7269473075866699, "Quantum sensing Metrology": 0.7050036191940308, "Quantum sensing navigation": 0.6972246170043945, "Quantum sensing Position": 0.6907966136932373, "Quantum sensing Timing": 0.7023058533668518, "Quantum sensing": 0.7337847948074341, "Quantum control": 0.6749564409255981 } }, { "id": 1749, "title": "Heavy metal-free, near-infrared colloidal quantum dots for efficient photoelectrochemical hydrogen generation", "abstract": "Photoelectrochemical (PEC) hydrogen generation based on colloidal quantum dots (QDs) is very promising because of its high solar energy to fuel conversion efficiency and low fabrication costs. However...", "citations": 127, "author_count": 13, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1751, "doi": "10.1016/j.nanoen.2016.11.053", "umap_coordinates": { "x": 392.48211669921875, "y": 133.72390747070312, "z": 205.28897094726562 }, "tsne_coordinates": { "x": 23.583698272705078, "y": 3.826647996902466, "z": -9.57304859161377 }, "pca_coordinates": { "x": -2.7824606895446777, "y": -3.7263827323913574, "z": -0.7644901871681213 }, "axis_scores": { "Quantum imaging": 0.74403977394104, "Quantum Life Science Sensing": 0.76642906665802, "Quantum sensing Detection": 0.7308904528617859, "Quantum sensing Metrology": 0.7144841551780701, "Quantum sensing navigation": 0.709741473197937, "Quantum sensing Position": 0.6918272972106934, "Quantum sensing Timing": 0.6890474557876587, "Quantum sensing": 0.7481078505516052, "Quantum control": 0.7102263569831848 } }, { "id": 1750, "title": "COMBINATORIAL AND GEOMETRICAL STRUCTURES OF MULTIPARTITE QUANTUM SYSTEMS", "abstract": "In recent years we have witnessed an increase of interests in geometrical and topological structures of bipartite and multipartite states based on Hopf fibration, Segre variety, hyperdeterminant, etc....", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1752, "doi": null, "umap_coordinates": { "x": 392.3735046386719, "y": 139.03289794921875, "z": 208.954345703125 }, "tsne_coordinates": { "x": -14.713178634643555, "y": 39.129547119140625, "z": -4.648628234863281 }, "pca_coordinates": { "x": 1.7614541053771973, "y": 2.6797213554382324, "z": -1.6386051177978516 }, "axis_scores": { "Quantum imaging": 0.775998055934906, "Quantum Life Science Sensing": 0.7482736706733704, "Quantum sensing Detection": 0.7493765354156494, "Quantum sensing Metrology": 0.7516373991966248, "Quantum sensing navigation": 0.7564520835876465, "Quantum sensing Position": 0.7359726428985596, "Quantum sensing Timing": 0.7157624959945679, "Quantum sensing": 0.7618380784988403, "Quantum control": 0.7512344717979431 } }, { "id": 1751, "title": "Colloidal quantum dot for infrared-absorbing solar cells: State-of-the-art and prospects", "abstract": "Colloidal quantum dot (CQD) shows great potential for application in infrared solar cells due to the simple synthesis techniques, tunable infrared absorption spectrum, and high stability and solution-...", "citations": 15, "author_count": 6, "categories": [ "Energy & Fuels" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1753, "doi": "10.26599/NRE.2023.9120095", "umap_coordinates": { "x": 392.9615173339844, "y": 133.88278198242188, "z": 205.19259643554688 }, "tsne_coordinates": { "x": 28.57713508605957, "y": 12.282135963439941, "z": -9.98634147644043 }, "pca_coordinates": { "x": -2.956737995147705, "y": -1.7479872703552246, "z": -0.2522108852863312 }, "axis_scores": { "Quantum imaging": 0.6881812810897827, "Quantum Life Science Sensing": 0.7307206988334656, "Quantum sensing Detection": 0.6897625923156738, "Quantum sensing Metrology": 0.6957550048828125, "Quantum sensing navigation": 0.6981650590896606, "Quantum sensing Position": 0.6854226589202881, "Quantum sensing Timing": 0.6616319417953491, "Quantum sensing": 0.6976568698883057, "Quantum control": 0.6711400747299194 } }, { "id": 1752, "title": "In situ Grazing-Incidence Small-Angle X-ray Scattering Observation of Gold Sputter Deposition on a PbS Quantum Dot Solid", "abstract": "For PbS quantum dot (QD)-based optoelectronic devices, gold is the most frequently used electrode material. In most device architectures, gold is in direct contact with the QD solid. To better underst...", "citations": 12, "author_count": 16, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1754, "doi": "10.1021/acsami.0c12732", "umap_coordinates": { "x": 392.7645263671875, "y": 134.93072509765625, "z": 206.562744140625 }, "tsne_coordinates": { "x": 39.10783767700195, "y": -0.2513793706893921, "z": -10.257650375366211 }, "pca_coordinates": { "x": -1.1667312383651733, "y": -2.6976265907287598, "z": 1.277378797531128 }, "axis_scores": { "Quantum imaging": 0.7115799188613892, "Quantum Life Science Sensing": 0.7323567271232605, "Quantum sensing Detection": 0.726175844669342, "Quantum sensing Metrology": 0.7068691253662109, "Quantum sensing navigation": 0.7146751284599304, "Quantum sensing Position": 0.7300856709480286, "Quantum sensing Timing": 0.6838539838790894, "Quantum sensing": 0.7286272644996643, "Quantum control": 0.6786132454872131 } }, { "id": 1753, "title": "Anticarcinogenic activity of blue fluorescent hexagonal boron nitride quantum dots: as an effective enhancer for DNA cleavage activity of anticancer drug doxorubicin", "abstract": "Blue fluorescent hexagonal boron nitride quantum dots (h-BNQDs) of similar to 10 nm size as an effective enhancer for DNA cleavage activity of anticancer drug doxorubicin (DOX) were synthesized using ...", "citations": 27, "author_count": 11, "categories": [ "Engineering" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1755, "doi": "10.1016/j.mtbio.2019.01.001", "umap_coordinates": { "x": 393.2669372558594, "y": 135.00379943847656, "z": 204.2849884033203 }, "tsne_coordinates": { "x": 9.416954040527344, "y": 17.945899963378906, "z": 5.1656494140625 }, "pca_coordinates": { "x": -3.8658344745635986, "y": -0.2342362403869629, "z": -1.4666881561279297 }, "axis_scores": { "Quantum imaging": 0.7430509924888611, "Quantum Life Science Sensing": 0.7344531416893005, "Quantum sensing Detection": 0.7272323966026306, "Quantum sensing Metrology": 0.6877561807632446, "Quantum sensing navigation": 0.706383228302002, "Quantum sensing Position": 0.6892439126968384, "Quantum sensing Timing": 0.6888638138771057, "Quantum sensing": 0.7251645922660828, "Quantum control": 0.7104710936546326 } }, { "id": 1754, "title": "In(Ga)Sb/InAs quantum dot based IR photodetectors with thermally activated photoresponse", "abstract": "We report on the device characterization of In(Ga) Sb/InAs quantum dots (QDs) based photodetectors for long wave IR detectors. The detection principle of these quantum-dot infrared photodetectors (QDI...", "citations": 1, "author_count": 9, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1756, "doi": "10.1117/12.2015820", "umap_coordinates": { "x": 393.3089599609375, "y": 133.59085083007812, "z": 206.92633056640625 }, "tsne_coordinates": { "x": 4.0958099365234375, "y": 5.495751857757568, "z": -26.925111770629883 }, "pca_coordinates": { "x": -0.9404928684234619, "y": -3.093122959136963, "z": 2.584545373916626 }, "axis_scores": { "Quantum imaging": 0.7114651203155518, "Quantum Life Science Sensing": 0.7154700756072998, "Quantum sensing Detection": 0.7291676998138428, "Quantum sensing Metrology": 0.706507682800293, "Quantum sensing navigation": 0.7068580389022827, "Quantum sensing Position": 0.6892163753509521, "Quantum sensing Timing": 0.6976842880249023, "Quantum sensing": 0.7270365953445435, "Quantum control": 0.6729260683059692 } }, { "id": 1755, "title": "Quantum computer scales up by mitigating errors", "abstract": "A post-processing technique for handling errors has enabled a quantum computer comprising 127 quantum bits to calculate the physical properties of a complex model system - a task that cannot be perfor...", "citations": 5, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1757, "doi": "10.1038/d41586-023-01884-3", "umap_coordinates": { "x": 394.49652099609375, "y": 136.56414794921875, "z": 206.53793334960938 }, "tsne_coordinates": { "x": -30.907987594604492, "y": -18.066064834594727, "z": -16.239788055419922 }, "pca_coordinates": { "x": 1.0253095626831055, "y": 0.015732765197753906, "z": 0.5457338690757751 }, "axis_scores": { "Quantum imaging": 0.7918780446052551, "Quantum Life Science Sensing": 0.7749655246734619, "Quantum sensing Detection": 0.7864421010017395, "Quantum sensing Metrology": 0.7771236300468445, "Quantum sensing navigation": 0.7802589535713196, "Quantum sensing Position": 0.758576512336731, "Quantum sensing Timing": 0.7677134275436401, "Quantum sensing": 0.8055539727210999, "Quantum control": 0.7816397547721863 } }, { "id": 1756, "title": "EFFECTS OF FROST HARDENING ON PHOTOSYNTHETIC QUANTUM YIELD, CHLOROPHYLL ORGANIZATION, AND ENERGY-DISTRIBUTION BETWEEN THE 2 PHOTOSYSTEMS IN SCOTS PINE", "abstract": "Seedlings of Scots pine (Pinus sylvestris L.), with only primary needles, were frost hardened under a photoperiod of 8 h and a temperature of 4.degree. C for 6-9 weeks. The effects of frost hardening ...", "citations": 22, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1986, "topic": [ "all" ], "embedding_index": 1758, "doi": "10.1139/b86-096", "umap_coordinates": { "x": 394.1363525390625, "y": 136.3842010498047, "z": 203.83999633789062 }, "tsne_coordinates": { "x": 10.642050743103027, "y": 39.829288482666016, "z": 12.930931091308594 }, "pca_coordinates": { "x": -0.6975001096725464, "y": 2.0288567543029785, "z": -2.1302785873413086 }, "axis_scores": { "Quantum imaging": 0.7007337212562561, "Quantum Life Science Sensing": 0.725989818572998, "Quantum sensing Detection": 0.6843097805976868, "Quantum sensing Metrology": 0.6874566078186035, "Quantum sensing navigation": 0.6768028140068054, "Quantum sensing Position": 0.6749914884567261, "Quantum sensing Timing": 0.6765699982643127, "Quantum sensing": 0.7023786306381226, "Quantum control": 0.6875236630439758 } }, { "id": 1757, "title": "Full counting statistics of generic spin entangler with quantum dot-ferromagnet detectors", "abstract": "Entanglement between spatially separated electrons in nanoscale transport is a fundamental property, yet to be demonstrated experimentally. Here we propose and analyse theoretically the transport stat...", "citations": 8, "author_count": 4, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1759, "doi": "10.1209/0295-5075/105/47013", "umap_coordinates": { "x": 395.6673889160156, "y": 136.08770751953125, "z": 206.86505126953125 }, "tsne_coordinates": { "x": -32.74590301513672, "y": -2.3300273418426514, "z": -0.4157121479511261 }, "pca_coordinates": { "x": 1.0912439823150635, "y": 1.578611969947815, "z": 2.4957728385925293 }, "axis_scores": { "Quantum imaging": 0.7026591300964355, "Quantum Life Science Sensing": 0.7041417360305786, "Quantum sensing Detection": 0.7078280448913574, "Quantum sensing Metrology": 0.7098930478096008, "Quantum sensing navigation": 0.7000085115432739, "Quantum sensing Position": 0.6773739457130432, "Quantum sensing Timing": 0.7129828929901123, "Quantum sensing": 0.7033321857452393, "Quantum control": 0.6650881171226501 } }, { "id": 1758, "title": "Zero-phonon line broadening and satellite peaks in nanowire quantum dots: The role of piezoelectric coupling", "abstract": "We investigate the influence of the one-dimensional character of the phonon modes in a catalytically grown GaAs nanowire on the absorption spectrum of an embedded quantum dot, focusing on the on the c...", "citations": 7, "author_count": 4, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1760, "doi": "10.1002/pssb.200880324", "umap_coordinates": { "x": 392.825927734375, "y": 134.64263916015625, "z": 207.51934814453125 }, "tsne_coordinates": { "x": 15.689288139343262, "y": -17.613019943237305, "z": 6.283301830291748 }, "pca_coordinates": { "x": -0.6371113657951355, "y": -3.0363593101501465, "z": -0.316765695810318 }, "axis_scores": { "Quantum imaging": 0.6787501573562622, "Quantum Life Science Sensing": 0.6939109563827515, "Quantum sensing Detection": 0.681076169013977, "Quantum sensing Metrology": 0.6802085041999817, "Quantum sensing navigation": 0.6863758563995361, "Quantum sensing Position": 0.690515398979187, "Quantum sensing Timing": 0.6816511154174805, "Quantum sensing": 0.6897009015083313, "Quantum control": 0.6745242476463318 } }, { "id": 1759, "title": "Characterization of the Percival detector with soft X-rays", "abstract": "In this paper the back-side-illuminated Percival 2-Megapixel (P2M) detector is presented, along with its characterization by means of optical and X-ray photons. For the first time, the response of the...", "citations": 16, "author_count": 43, "categories": [ "Instruments & Instrumentation" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1761, "doi": "10.1107/S1600577520013958", "umap_coordinates": { "x": 395.6824035644531, "y": 133.8778839111328, "z": 206.0379180908203 }, "tsne_coordinates": { "x": -26.94087028503418, "y": 27.9854793548584, "z": -8.778768539428711 }, "pca_coordinates": { "x": -2.2200469970703125, "y": 2.8312783241271973, "z": 3.627627372741699 }, "axis_scores": { "Quantum imaging": 0.6974314451217651, "Quantum Life Science Sensing": 0.7150883078575134, "Quantum sensing Detection": 0.7090854644775391, "Quantum sensing Metrology": 0.6803735494613647, "Quantum sensing navigation": 0.6737545132637024, "Quantum sensing Position": 0.6766963005065918, "Quantum sensing Timing": 0.6693711876869202, "Quantum sensing": 0.6970436573028564, "Quantum control": 0.6387896537780762 } }, { "id": 1760, "title": "Imaging chemiluminescence instrument for the study of heterogeneous oxidation effects in polymers", "abstract": "AII imaging chemilumiescence equipment used for studies of diffusion controlled oxidation effects in polymers is presented. The design involves an imaging photon counting system mounted on a cylindric...", "citations": 15, "author_count": 5, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1762, "doi": "10.1016/S0142-9418(96)00027-X", "umap_coordinates": { "x": 393.8559875488281, "y": 134.39703369140625, "z": 204.77784729003906 }, "tsne_coordinates": { "x": 3.15712571144104, "y": 19.56884002685547, "z": -10.54501724243164 }, "pca_coordinates": { "x": -5.264388561248779, "y": 1.5442798137664795, "z": 0.21585291624069214 }, "axis_scores": { "Quantum imaging": 0.7210303544998169, "Quantum Life Science Sensing": 0.705933690071106, "Quantum sensing Detection": 0.6690633296966553, "Quantum sensing Metrology": 0.6469550728797913, "Quantum sensing navigation": 0.6465079188346863, "Quantum sensing Position": 0.6460537314414978, "Quantum sensing Timing": 0.627755343914032, "Quantum sensing": 0.675350546836853, "Quantum control": 0.6500109434127808 } }, { "id": 1761, "title": "Single Strontium Rydberg Ion Confined in a Paul Trap", "abstract": "Trapped Rydberg ions are a promising new system for quantum information processing. They have the potential to join the precise quantum operations of trapped ions and the strong, long-range interactio...", "citations": 39, "author_count": 11, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1763, "doi": "10.1103/PhysRevX.7.021038", "umap_coordinates": { "x": 394.7309265136719, "y": 135.01388549804688, "z": 208.60580444335938 }, "tsne_coordinates": { "x": -5.3273420333862305, "y": -27.354711532592773, "z": -11.57092571258545 }, "pca_coordinates": { "x": 4.531707763671875, "y": -0.9816648960113525, "z": 1.3240597248077393 }, "axis_scores": { "Quantum imaging": 0.7036653161048889, "Quantum Life Science Sensing": 0.7395076155662537, "Quantum sensing Detection": 0.7211459875106812, "Quantum sensing Metrology": 0.7116658091545105, "Quantum sensing navigation": 0.7327380180358887, "Quantum sensing Position": 0.7254139184951782, "Quantum sensing Timing": 0.7220110893249512, "Quantum sensing": 0.730951726436615, "Quantum control": 0.6890232563018799 } }, { "id": 1762, "title": "Hydrothermal Approach for the Preparation of Blue-Emitting Carbon Quantum Dots: An Insight into the Influence of the Reaction Parameters", "abstract": "The surface of carbon quantum dots (CDs) is rich in functionalities, which could be selectively post-derivatized to obtain smart materials for various advanced applications. In this context, the devel...", "citations": 6, "author_count": 14, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1764, "doi": "10.1002/sstr.202400481", "umap_coordinates": { "x": 392.83355712890625, "y": 134.32623291015625, "z": 204.76605224609375 }, "tsne_coordinates": { "x": 18.794879913330078, "y": 14.106128692626953, "z": -3.8090686798095703 }, "pca_coordinates": { "x": -4.01417350769043, "y": -1.4524493217468262, "z": -1.7925896644592285 }, "axis_scores": { "Quantum imaging": 0.6944473385810852, "Quantum Life Science Sensing": 0.7309096455574036, "Quantum sensing Detection": 0.6943746209144592, "Quantum sensing Metrology": 0.6918846964836121, "Quantum sensing navigation": 0.6927091479301453, "Quantum sensing Position": 0.6737558245658875, "Quantum sensing Timing": 0.7060433626174927, "Quantum sensing": 0.715566098690033, "Quantum control": 0.7076327204704285 } }, { "id": 1763, "title": "Shelf-Stable Quantum-Dot Light-Emitting Diodes with High Operational Performance", "abstract": "Quantum-dot light-emitting diodes (QLEDs) promise a new generation of high-performance, large-area, and cost-effective electroluminescent devices for both display and solid-state lighting technologies...", "citations": 140, "author_count": 12, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1765, "doi": "10.1002/adma.202006178", "umap_coordinates": { "x": 392.2076110839844, "y": 133.69898986816406, "z": 204.95664978027344 }, "tsne_coordinates": { "x": 23.237369537353516, "y": 6.4075727462768555, "z": -15.81383228302002 }, "pca_coordinates": { "x": -1.979720950126648, "y": -2.744622230529785, "z": 0.8061400055885315 }, "axis_scores": { "Quantum imaging": 0.6599524617195129, "Quantum Life Science Sensing": 0.7137110233306885, "Quantum sensing Detection": 0.6623597741127014, "Quantum sensing Metrology": 0.6706179976463318, "Quantum sensing navigation": 0.6731916666030884, "Quantum sensing Position": 0.6472886800765991, "Quantum sensing Timing": 0.6341477632522583, "Quantum sensing": 0.6740148067474365, "Quantum control": 0.6515038013458252 } }, { "id": 1764, "title": "Light, the universe and everything-12 Herculean tasks for quantum cowboys and black diamond skiers", "abstract": "The Winter Colloquium on the Physics of Quantum Electronics (PQE) has been a seminal force in quantum optics and related areas since 1971. It is rather mind-boggling to recognize how the concepts pres...", "citations": 6, "author_count": 33, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1766, "doi": "10.1080/09500340.2018.1454525", "umap_coordinates": { "x": 395.4272766113281, "y": 136.48719787597656, "z": 205.86795043945312 }, "tsne_coordinates": { "x": -24.962961196899414, "y": 10.901464462280273, "z": 7.379973411560059 }, "pca_coordinates": { "x": -1.115007758140564, "y": 2.9210362434387207, "z": -0.2422194480895996 }, "axis_scores": { "Quantum imaging": 0.7324094176292419, "Quantum Life Science Sensing": 0.7459471821784973, "Quantum sensing Detection": 0.7258224487304688, "Quantum sensing Metrology": 0.7225872278213501, "Quantum sensing navigation": 0.7444335222244263, "Quantum sensing Position": 0.7101758122444153, "Quantum sensing Timing": 0.7138707637786865, "Quantum sensing": 0.741285502910614, "Quantum control": 0.7162479162216187 } }, { "id": 1765, "title": "Linear transformations of quantum states", "abstract": "This paper considers the most general linear transformation of a quantum state. We enumerate the conditions necessary to retain a physical interpretation of the transformed state: hermiticity, normali...", "citations": 5, "author_count": 4, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1767, "doi": "10.1016/j.aop.2007.06.001", "umap_coordinates": { "x": 394.7041931152344, "y": 137.22120666503906, "z": 206.21707153320312 }, "tsne_coordinates": { "x": -25.815637588500977, "y": -7.751613140106201, "z": 11.313254356384277 }, "pca_coordinates": { "x": 1.6195135116577148, "y": 2.316387414932251, "z": -0.8304039239883423 }, "axis_scores": { "Quantum imaging": 0.7971756458282471, "Quantum Life Science Sensing": 0.7725419402122498, "Quantum sensing Detection": 0.7850915789604187, "Quantum sensing Metrology": 0.7757755517959595, "Quantum sensing navigation": 0.7828168869018555, "Quantum sensing Position": 0.7600780725479126, "Quantum sensing Timing": 0.735001266002655, "Quantum sensing": 0.8045578598976135, "Quantum control": 0.7949439287185669 } }, { "id": 1766, "title": "State Entropy and Differentiation Phenomenon", "abstract": "In the formalism of quantum theory, a state of a system is represented by a density operator. Mathematically, a density operator can be decomposed into a weighted sum of (projection) operators represe...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1768, "doi": "10.3390/e20060394", "umap_coordinates": { "x": 395.0218811035156, "y": 137.29270935058594, "z": 205.6732635498047 }, "tsne_coordinates": { "x": -29.929487228393555, "y": 9.013503074645996, "z": 26.748931884765625 }, "pca_coordinates": { "x": 0.7421882152557373, "y": 2.0052754878997803, "z": -3.814295768737793 }, "axis_scores": { "Quantum imaging": 0.7070677876472473, "Quantum Life Science Sensing": 0.7543352842330933, "Quantum sensing Detection": 0.7233107686042786, "Quantum sensing Metrology": 0.7046624422073364, "Quantum sensing navigation": 0.7115530967712402, "Quantum sensing Position": 0.6970513463020325, "Quantum sensing Timing": 0.6786045432090759, "Quantum sensing": 0.7287547588348389, "Quantum control": 0.7223175168037415 } }, { "id": 1767, "title": "Constructing a bridge between functioning of oscillatory neuronal networks and quantum-like cognition along with quantum-inspired computation and AI", "abstract": "Quantum-like (QL) modeling, one of the outcomes of the quantum information revolution, extends quantum theory methods beyond physics to decision theory and cognitive psychology. While effective in exp...", "citations": 1, "author_count": 4, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1769, "doi": "10.1016/j.biosystems.2025.105573", "umap_coordinates": { "x": 394.6101989746094, "y": 137.0887908935547, "z": 205.83099365234375 }, "tsne_coordinates": { "x": -18.30079460144043, "y": 10.442765235900879, "z": 17.077800750732422 }, "pca_coordinates": { "x": 1.293386697769165, "y": 1.152780294418335, "z": -0.4998602271080017 }, "axis_scores": { "Quantum imaging": 0.7518730163574219, "Quantum Life Science Sensing": 0.7698275446891785, "Quantum sensing Detection": 0.747061014175415, "Quantum sensing Metrology": 0.7386502623558044, "Quantum sensing navigation": 0.7738035917282104, "Quantum sensing Position": 0.7184177041053772, "Quantum sensing Timing": 0.7366605997085571, "Quantum sensing": 0.7642207145690918, "Quantum control": 0.7524927854537964 } }, { "id": 1768, "title": "Conformal field theory construction for non-Abelian hierarchy wave functions", "abstract": "The fractional quantum Hall effect is the paradigmatic example of topologically ordered phases. One of its most fascinating aspects is the large variety of different topological orders that may be rea...", "citations": 2, "author_count": 3, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1770, "doi": "10.1103/PhysRevB.96.245107", "umap_coordinates": { "x": 394.56103515625, "y": 137.11651611328125, "z": 208.24176025390625 }, "tsne_coordinates": { "x": -18.90284538269043, "y": -30.440929412841797, "z": 8.618067741394043 }, "pca_coordinates": { "x": 3.7037224769592285, "y": 0.3189961910247803, "z": -0.23005595803260803 }, "axis_scores": { "Quantum imaging": 0.684931755065918, "Quantum Life Science Sensing": 0.6994202136993408, "Quantum sensing Detection": 0.6717027425765991, "Quantum sensing Metrology": 0.6717541217803955, "Quantum sensing navigation": 0.6931838989257812, "Quantum sensing Position": 0.6392815113067627, "Quantum sensing Timing": 0.6512468457221985, "Quantum sensing": 0.6790637969970703, "Quantum control": 0.6700082421302795 } }, { "id": 1769, "title": "Double Active Layers Constructed with Halide Perovskite and Quantum Dots for Broadband Photodetection", "abstract": "Herein, solution-processed, high-performance broadband (300-1100 nm) photodetectors based on double active layers incorporating narrow-bandgap CuInSe2 (CISe) quantum dots (QDs) and halide perovskite a...", "citations": 26, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1771, "doi": "10.1002/adom.202000557", "umap_coordinates": { "x": 392.4918518066406, "y": 133.6251678466797, "z": 205.45103454589844 }, "tsne_coordinates": { "x": 24.917049407958984, "y": 3.3446030616760254, "z": -21.24605941772461 }, "pca_coordinates": { "x": -2.8034088611602783, "y": -3.442857265472412, "z": 0.4761785864830017 }, "axis_scores": { "Quantum imaging": 0.7341463565826416, "Quantum Life Science Sensing": 0.7339076995849609, "Quantum sensing Detection": 0.7188543081283569, "Quantum sensing Metrology": 0.7123043537139893, "Quantum sensing navigation": 0.6900737285614014, "Quantum sensing Position": 0.6734627485275269, "Quantum sensing Timing": 0.6627371907234192, "Quantum sensing": 0.7282150387763977, "Quantum control": 0.6931787133216858 } }, { "id": 1770, "title": "Quantum dots as an electron or hole acceptor: on some factors affecting charge transfer in dye-quantum dot composites", "abstract": "We report a density functional theory (DFT)/time dependent DFT (TDDFT) computational investigation on some factors affecting the nature of charge transfer in CdS quantum dots (QDs) of two different si...", "citations": 10, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1772, "doi": "10.1039/c8cp04577a", "umap_coordinates": { "x": 392.302978515625, "y": 135.02740478515625, "z": 205.49993896484375 }, "tsne_coordinates": { "x": 11.278534889221191, "y": 3.4420154094696045, "z": 0.7436742186546326 }, "pca_coordinates": { "x": -2.020616054534912, "y": -3.2750401496887207, "z": -2.118489980697632 }, "axis_scores": { "Quantum imaging": 0.6974554061889648, "Quantum Life Science Sensing": 0.7139437794685364, "Quantum sensing Detection": 0.695909857749939, "Quantum sensing Metrology": 0.6614426970481873, "Quantum sensing navigation": 0.6788475513458252, "Quantum sensing Position": 0.6854099631309509, "Quantum sensing Timing": 0.6492374539375305, "Quantum sensing": 0.7082394361495972, "Quantum control": 0.6979870796203613 } }, { "id": 1771, "title": "Direct Measurement of Electronic Band Structure in Single Quantum Dots of Metal Chalcogenide Composites", "abstract": "Metal chalcogenide quantum dots (QDs) are among the most promising materials as light harvesters in all-inorganic systems for applications in solar cells and production of solar fuels. The electronic ...", "citations": 24, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1773, "doi": "10.1002/smll.201801668", "umap_coordinates": { "x": 393.8459167480469, "y": 133.55728149414062, "z": 207.69039916992188 }, "tsne_coordinates": { "x": 12.312849998474121, "y": -22.888835906982422, "z": -9.593157768249512 }, "pca_coordinates": { "x": -0.5403806567192078, "y": -3.6672987937927246, "z": 0.7184242606163025 }, "axis_scores": { "Quantum imaging": 0.735922634601593, "Quantum Life Science Sensing": 0.7935099005699158, "Quantum sensing Detection": 0.7549705505371094, "Quantum sensing Metrology": 0.7562307119369507, "Quantum sensing navigation": 0.723800778388977, "Quantum sensing Position": 0.7254797220230103, "Quantum sensing Timing": 0.6982043981552124, "Quantum sensing": 0.7610680460929871, "Quantum control": 0.7016245722770691 } }, { "id": 1772, "title": "Nondegenerate internal squeezing: An all-optical, loss-resistant quantum technique for gravitational-wave detection", "abstract": "The detection of kilohertz-band gravitational waves promises discoveries in astrophysics, exotic matter, and cosmology. To improve the kilohertz quantum noise-limited sensitivity of interferometric gr...", "citations": 9, "author_count": 7, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1774, "doi": "10.1103/PhysRevD.106.L041101", "umap_coordinates": { "x": 395.90692138671875, "y": 136.12464904785156, "z": 207.7657470703125 }, "tsne_coordinates": { "x": -16.701475143432617, "y": -18.20903778076172, "z": -7.997332572937012 }, "pca_coordinates": { "x": 2.659149169921875, "y": 1.2059502601623535, "z": 2.4224257469177246 }, "axis_scores": { "Quantum imaging": 0.7234438061714172, "Quantum Life Science Sensing": 0.7290107011795044, "Quantum sensing Detection": 0.7290025949478149, "Quantum sensing Metrology": 0.7040445804595947, "Quantum sensing navigation": 0.716132640838623, "Quantum sensing Position": 0.6832838654518127, "Quantum sensing Timing": 0.6806249022483826, "Quantum sensing": 0.7329037189483643, "Quantum control": 0.684972882270813 } }, { "id": 1773, "title": "Electrical Charge State Manipulation of Single Silicon Vacancies in a Silicon Carbide Quantum Optoelectronic Device", "abstract": "Color centers with long-lived spins are established platforms for quantum sensing and quantum information applications. Color centers exist in different charge states, each of them with distinct optic...", "citations": 87, "author_count": 18, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1775, "doi": "10.1021/acs.nanolett.9b02774", "umap_coordinates": { "x": 393.8916320800781, "y": 133.7463836669922, "z": 207.78323364257812 }, "tsne_coordinates": { "x": 10.808592796325684, "y": -24.257829666137695, "z": -16.7155704498291 }, "pca_coordinates": { "x": 0.4325631856918335, "y": -4.385201454162598, "z": 0.916719377040863 }, "axis_scores": { "Quantum imaging": 0.7400147914886475, "Quantum Life Science Sensing": 0.7604485154151917, "Quantum sensing Detection": 0.756066620349884, "Quantum sensing Metrology": 0.7464634776115417, "Quantum sensing navigation": 0.7460037469863892, "Quantum sensing Position": 0.7364081144332886, "Quantum sensing Timing": 0.7038720846176147, "Quantum sensing": 0.7627512812614441, "Quantum control": 0.746649444103241 } }, { "id": 1774, "title": "From linear to non-linear transport in asymmetric mesoscopic devices", "abstract": "Rocking ratchets are asymmetric potentials operated in the non-linear response regime where rectifying behaviour can be observed. Mesoscopic electronic devices based on semiconductors with low carrier...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1776, "doi": null, "umap_coordinates": { "x": 391.6014099121094, "y": 139.17286682128906, "z": 208.99391174316406 }, "tsne_coordinates": { "x": -11.981951713562012, "y": 42.15089797973633, "z": -9.738381385803223 }, "pca_coordinates": { "x": 1.1124067306518555, "y": 0.760248064994812, "z": -1.8945116996765137 }, "axis_scores": { "Quantum imaging": 0.7056424021720886, "Quantum Life Science Sensing": 0.6945531368255615, "Quantum sensing Detection": 0.6811754703521729, "Quantum sensing Metrology": 0.6735230088233948, "Quantum sensing navigation": 0.7143198251724243, "Quantum sensing Position": 0.674422562122345, "Quantum sensing Timing": 0.6458530426025391, "Quantum sensing": 0.7008352875709534, "Quantum control": 0.6971772313117981 } }, { "id": 1775, "title": "Floquet dynamical quantum phase transition in the extended XY model: Nonadiabatic to adiabatic topological transition", "abstract": "We investigate both pure and mixed states Floquet dynamical quantum phase transition (DQPT) in the periodically time-dependent extended XY model. We exactly show that the proposed Floquet Hamiltonian ...", "citations": 65, "author_count": 4, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1777, "doi": "10.1103/PhysRevB.102.144306", "umap_coordinates": { "x": 394.2242736816406, "y": 137.10845947265625, "z": 207.99485778808594 }, "tsne_coordinates": { "x": -16.898208618164062, "y": -22.764358520507812, "z": 14.320480346679688 }, "pca_coordinates": { "x": 4.822096347808838, "y": 1.180065393447876, "z": -2.6014347076416016 }, "axis_scores": { "Quantum imaging": 0.7200601100921631, "Quantum Life Science Sensing": 0.7110406756401062, "Quantum sensing Detection": 0.7095465064048767, "Quantum sensing Metrology": 0.7002696394920349, "Quantum sensing navigation": 0.7313138246536255, "Quantum sensing Position": 0.6940995454788208, "Quantum sensing Timing": 0.7035333514213562, "Quantum sensing": 0.7192137241363525, "Quantum control": 0.7354040145874023 } }, { "id": 1776, "title": "Quantum Computing by Coherent Cooling", "abstract": "Interesting problems in quantum computation take the form of finding low-energy states of (pseudo)spin systems with engineered Hamiltonians that encode the problem data. Motivated by the practical pos...", "citations": 10, "author_count": 4, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1778, "doi": "10.1103/PhysRevA.105.052601", "umap_coordinates": { "x": 395.2749938964844, "y": 136.1931610107422, "z": 208.2809600830078 }, "tsne_coordinates": { "x": -16.356666564941406, "y": -23.76436996459961, "z": -0.3702767789363861 }, "pca_coordinates": { "x": 5.187166213989258, "y": -0.5697042942047119, "z": 0.8876850008964539 }, "axis_scores": { "Quantum imaging": 0.7683966159820557, "Quantum Life Science Sensing": 0.7643309831619263, "Quantum sensing Detection": 0.782112181186676, "Quantum sensing Metrology": 0.7519862651824951, "Quantum sensing navigation": 0.7564411163330078, "Quantum sensing Position": 0.7176036834716797, "Quantum sensing Timing": 0.7335841655731201, "Quantum sensing": 0.7809000611305237, "Quantum control": 0.7729640603065491 } }, { "id": 1777, "title": "Role of detectors and their proper calibration in inter-relation between classical and quantum optics", "abstract": "We describe quantum theory by using a complex valued random signal, which is (coherently) averaged over a time window, and a photon click is defined as the energy of this averaged signal surpassing a ...", "citations": 3, "author_count": 2, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1779, "doi": "10.1117/1.OE.51.6.069001", "umap_coordinates": { "x": 394.6953430175781, "y": 133.6347198486328, "z": 206.03468322753906 }, "tsne_coordinates": { "x": 1.5232070684432983, "y": 8.8065185546875, "z": -24.608360290527344 }, "pca_coordinates": { "x": -0.14938831329345703, "y": 1.0477608442306519, "z": 2.9551174640655518 }, "axis_scores": { "Quantum imaging": 0.7709854245185852, "Quantum Life Science Sensing": 0.7864270210266113, "Quantum sensing Detection": 0.789281964302063, "Quantum sensing Metrology": 0.7816334366798401, "Quantum sensing navigation": 0.768104612827301, "Quantum sensing Position": 0.7632535099983215, "Quantum sensing Timing": 0.7595062255859375, "Quantum sensing": 0.7889189124107361, "Quantum control": 0.7268827557563782 } }, { "id": 1778, "title": "INTERPRETATION OF NEUTRON-SCATTERING AND MU-SR DATA ON PARAMAGNETIC GD IN TERMS OF MAGNETIC CLUSTERS AND COHERENT DISSIPATIVE STRUCTURES", "abstract": "Some qualitative considerations of spin correlation effects in rare earth systems above the Curie temperature T(c) are given. In particular we refer to recent measurements of the magnetic excitation s...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 1990, "topic": [ "all" ], "embedding_index": 1780, "doi": null, "umap_coordinates": { "x": 391.9341125488281, "y": 139.457275390625, "z": 209.5285186767578 }, "tsne_coordinates": { "x": -6.181105136871338, "y": 44.01362991333008, "z": 0.6394201517105103 }, "pca_coordinates": { "x": -0.3388479948043823, "y": 4.337878227233887, "z": -3.827627182006836 }, "axis_scores": { "Quantum imaging": 0.7262437343597412, "Quantum Life Science Sensing": 0.7307813167572021, "Quantum sensing Detection": 0.725100040435791, "Quantum sensing Metrology": 0.7053132653236389, "Quantum sensing navigation": 0.7278451919555664, "Quantum sensing Position": 0.6896817684173584, "Quantum sensing Timing": 0.6842954158782959, "Quantum sensing": 0.7339328527450562, "Quantum control": 0.7320713400840759 } }, { "id": 1779, "title": "QUANTUM PROBABILITY FROM CLASSICAL SIGNAL THEORY", "abstract": "We present quantum mechanics (QM) as theory of special classical random signals. On one hand, this approach provides a possibility to go beyond conventional QM: to create a finer description of micro ...", "citations": 12, "author_count": 4, "categories": [ "Computer Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1781, "doi": "10.1142/S0219749911007289", "umap_coordinates": { "x": 395.3727722167969, "y": 137.28184509277344, "z": 206.59144592285156 }, "tsne_coordinates": { "x": -34.3768424987793, "y": 6.82149076461792, "z": 14.967997550964355 }, "pca_coordinates": { "x": 2.280001640319824, "y": 3.2608742713928223, "z": 0.46792787313461304 }, "axis_scores": { "Quantum imaging": 0.727709174156189, "Quantum Life Science Sensing": 0.7438225150108337, "Quantum sensing Detection": 0.7597658038139343, "Quantum sensing Metrology": 0.7287750244140625, "Quantum sensing navigation": 0.7452409863471985, "Quantum sensing Position": 0.7332893013954163, "Quantum sensing Timing": 0.7233578562736511, "Quantum sensing": 0.7609164714813232, "Quantum control": 0.735461413860321 } }, { "id": 1780, "title": "Optical emission from confined poly(thiophene) chains", "abstract": "We discuss the stages of the luminescence processes in substituted and soluble poly(thiophenes), using results from determinations of absolute quantum yields of photoluminescence, fast pump-probe expe...", "citations": 34, "author_count": 8, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1782, "doi": "10.1016/S0925-3467(97)00062-1", "umap_coordinates": { "x": 392.9851379394531, "y": 135.2269744873047, "z": 205.84974670410156 }, "tsne_coordinates": { "x": -1.8578518629074097, "y": 0.8170233964920044, "z": -18.401416778564453 }, "pca_coordinates": { "x": -1.85518479347229, "y": -1.4994935989379883, "z": 0.39122384786605835 }, "axis_scores": { "Quantum imaging": 0.716195285320282, "Quantum Life Science Sensing": 0.7399076223373413, "Quantum sensing Detection": 0.7248571515083313, "Quantum sensing Metrology": 0.7031885981559753, "Quantum sensing navigation": 0.7169227600097656, "Quantum sensing Position": 0.7035112977027893, "Quantum sensing Timing": 0.6922498941421509, "Quantum sensing": 0.738836407661438, "Quantum control": 0.7148939371109009 } }, { "id": 1781, "title": "Hybrid halide perovskite quantum dots for optoelectronics applications: recent progress and perspective", "abstract": "Nanotechnology has transformed optoelectronics through quantum dots (QDs), particularly metal halide perovskite QDs (PQDs). PQDs boast high photoluminescent quantum yield, tunable emission, and excell...", "citations": 3, "author_count": 6, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1783, "doi": "10.1088/1361-648X/adbb47", "umap_coordinates": { "x": 394.0866394042969, "y": 134.3643035888672, "z": 205.8804931640625 }, "tsne_coordinates": { "x": -16.60393524169922, "y": -3.248347282409668, "z": -22.04681968688965 }, "pca_coordinates": { "x": -1.6892095804214478, "y": -2.3746113777160645, "z": 0.3517792820930481 }, "axis_scores": { "Quantum imaging": 0.7015314102172852, "Quantum Life Science Sensing": 0.6952552795410156, "Quantum sensing Detection": 0.6727283000946045, "Quantum sensing Metrology": 0.6661561727523804, "Quantum sensing navigation": 0.6680901646614075, "Quantum sensing Position": 0.6606823205947876, "Quantum sensing Timing": 0.6466202735900879, "Quantum sensing": 0.694343626499176, "Quantum control": 0.6730926632881165 } }, { "id": 1782, "title": "Scintillation index measurement using time-correlated single-photon counting laser radar", "abstract": "The scintillation index is a common measure of the effects of atmospheric turbulence. Using a photon-counting sensor, the integration time for each sample needs to be short enough to ensure that the i...", "citations": 10, "author_count": 3, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1784, "doi": "10.1117/1.OE.53.8.081902", "umap_coordinates": { "x": 395.05352783203125, "y": 133.21031188964844, "z": 206.70436096191406 }, "tsne_coordinates": { "x": -6.5632853507995605, "y": 8.72905445098877, "z": -31.51891326904297 }, "pca_coordinates": { "x": -1.5868432521820068, "y": 0.20590972900390625, "z": 5.4310455322265625 }, "axis_scores": { "Quantum imaging": 0.7424784898757935, "Quantum Life Science Sensing": 0.759169340133667, "Quantum sensing Detection": 0.7488019466400146, "Quantum sensing Metrology": 0.7400745153427124, "Quantum sensing navigation": 0.7333706617355347, "Quantum sensing Position": 0.7203624844551086, "Quantum sensing Timing": 0.7445419430732727, "Quantum sensing": 0.7426902651786804, "Quantum control": 0.6820678114891052 } }, { "id": 1783, "title": "Quantum ground state control in superconductor-silicene structures: 0-π transitions, φ0-junctions, and Majorana bound states", "abstract": "We demonstrate theoretically that proximity-induced superconductivity in silicene offers the possibility to exert strong quantum ground state control. We show that electrically controlled 0-pi transit...", "citations": 37, "author_count": 4, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1785, "doi": "10.1103/PhysRevB.94.180505", "umap_coordinates": { "x": 393.3926086425781, "y": 135.4821319580078, "z": 208.56675720214844 }, "tsne_coordinates": { "x": -2.12786602973938, "y": -24.524030685424805, "z": 10.71990966796875 }, "pca_coordinates": { "x": 4.058549404144287, "y": -1.956204891204834, "z": -1.4431531429290771 }, "axis_scores": { "Quantum imaging": 0.706072986125946, "Quantum Life Science Sensing": 0.7244139313697815, "Quantum sensing Detection": 0.7083441019058228, "Quantum sensing Metrology": 0.6940706372261047, "Quantum sensing navigation": 0.7289527654647827, "Quantum sensing Position": 0.7086926102638245, "Quantum sensing Timing": 0.6932653784751892, "Quantum sensing": 0.7154508233070374, "Quantum control": 0.7315055727958679 } }, { "id": 1784, "title": "Design of Cost-Efficient SRAM Cell in Quantum Dot Cellular Automata Technology", "abstract": "SRAM or Static Random-Access Memory is the most vital memory technology. SRAM is fast and robust but faces design challenges in nanoscale CMOS such as high leakage, power consumption, and reliability....", "citations": 9, "author_count": 7, "categories": [ "Computer Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1786, "doi": "10.3390/electronics12020367", "umap_coordinates": { "x": 392.9990539550781, "y": 134.2578125, "z": 205.64578247070312 }, "tsne_coordinates": { "x": -11.649420738220215, "y": 8.743831634521484, "z": 1.4211243391036987 }, "pca_coordinates": { "x": -0.5367119312286377, "y": -2.1802573204040527, "z": -0.9909617900848389 }, "axis_scores": { "Quantum imaging": 0.726689875125885, "Quantum Life Science Sensing": 0.7758644819259644, "Quantum sensing Detection": 0.7467541694641113, "Quantum sensing Metrology": 0.7317386269569397, "Quantum sensing navigation": 0.7379630208015442, "Quantum sensing Position": 0.7136977314949036, "Quantum sensing Timing": 0.715766191482544, "Quantum sensing": 0.7533429861068726, "Quantum control": 0.7240282893180847 } }, { "id": 1785, "title": "Orbital and electronic entanglement in quantum teleportation schemes", "abstract": "With progress toward more compact quantum computing architectures, fundamental questions regarding the entanglement of indistinguishable particles need to be addressed. In a solid state device, this q...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1787, "doi": "10.1103/PhysRevResearch.3.033120", "umap_coordinates": { "x": 395.09130859375, "y": 136.69032287597656, "z": 207.79052734375 }, "tsne_coordinates": { "x": -15.227628707885742, "y": -11.137670516967773, "z": 4.7729811668396 }, "pca_coordinates": { "x": 5.002018451690674, "y": 0.6047966480255127, "z": -0.03657931089401245 }, "axis_scores": { "Quantum imaging": 0.771428108215332, "Quantum Life Science Sensing": 0.7329585552215576, "Quantum sensing Detection": 0.7426385283470154, "Quantum sensing Metrology": 0.7251724600791931, "Quantum sensing navigation": 0.7653250694274902, "Quantum sensing Position": 0.7364276051521301, "Quantum sensing Timing": 0.7340400218963623, "Quantum sensing": 0.7574063539505005, "Quantum control": 0.7505096197128296 } }, { "id": 1786, "title": "Synthesis of tetrahedral quasi-type-II CdSe-CdS core-shell quantum dots", "abstract": "Synthesis of colloidal nanocrystals of II-VI semiconductor materials has been refined in recent decades and their size dependent optoelectronic properties have been well established. Here we report a ...", "citations": 21, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1788, "doi": "10.1088/0957-4484/22/42/425202", "umap_coordinates": { "x": 392.3537902832031, "y": 134.44154357910156, "z": 206.3826904296875 }, "tsne_coordinates": { "x": 37.325401306152344, "y": 1.5991443395614624, "z": 11.309627532958984 }, "pca_coordinates": { "x": -1.8256757259368896, "y": -2.0319480895996094, "z": -1.1706626415252686 }, "axis_scores": { "Quantum imaging": 0.72232985496521, "Quantum Life Science Sensing": 0.7300047874450684, "Quantum sensing Detection": 0.7005321383476257, "Quantum sensing Metrology": 0.6927382349967957, "Quantum sensing navigation": 0.6991158723831177, "Quantum sensing Position": 0.6710101366043091, "Quantum sensing Timing": 0.7017644643783569, "Quantum sensing": 0.7195243835449219, "Quantum control": 0.7024515867233276 } }, { "id": 1787, "title": "Many-body effects and excitonic features in 2D biphenylene carbon", "abstract": "The remarkable excitonic effects in low dimensional materials in connection to large binding energies of excitons are of great importance for research and technological applications such as in solar e...", "citations": 16, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1789, "doi": "10.1063/1.4939273", "umap_coordinates": { "x": 392.58685302734375, "y": 135.82984924316406, "z": 206.92857360839844 }, "tsne_coordinates": { "x": 3.8228116035461426, "y": -8.532804489135742, "z": 3.0462560653686523 }, "pca_coordinates": { "x": 1.2191805839538574, "y": -2.5491738319396973, "z": -1.7959225177764893 }, "axis_scores": { "Quantum imaging": 0.7236807942390442, "Quantum Life Science Sensing": 0.7090976238250732, "Quantum sensing Detection": 0.7091219425201416, "Quantum sensing Metrology": 0.6811731457710266, "Quantum sensing navigation": 0.6728939414024353, "Quantum sensing Position": 0.6799291968345642, "Quantum sensing Timing": 0.6820396780967712, "Quantum sensing": 0.7153066992759705, "Quantum control": 0.6886769533157349 } }, { "id": 1788, "title": "Inhibited carrier transfer in ensembles of isolated quantum dots", "abstract": "We report significant differences in the temperature-dependent and time-resolved photoluminescence (PL) from low and high surface density InxGa1-xAs/GaAs quantum dots (QDs). QD's in high densities are...", "citations": 130, "author_count": 9, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1790, "doi": "10.1103/PhysRevB.60.16647", "umap_coordinates": { "x": 394.036376953125, "y": 134.71640014648438, "z": 208.7243194580078 }, "tsne_coordinates": { "x": -0.9177510142326355, "y": -26.505840301513672, "z": -1.6003925800323486 }, "pca_coordinates": { "x": 3.927155017852783, "y": -3.0878891944885254, "z": 1.036893367767334 }, "axis_scores": { "Quantum imaging": 0.7306379079818726, "Quantum Life Science Sensing": 0.7258778810501099, "Quantum sensing Detection": 0.737091600894928, "Quantum sensing Metrology": 0.7013279795646667, "Quantum sensing navigation": 0.710809588432312, "Quantum sensing Position": 0.6814246773719788, "Quantum sensing Timing": 0.6817463040351868, "Quantum sensing": 0.7354596853256226, "Quantum control": 0.7183012962341309 } }, { "id": 1789, "title": "Reexamination of the decoherence of spin registers", "abstract": "We revisit the decoherence process of a multiqubit register interacting with a thermal bosonic bath. We generalize the previous studies by considering not only the register's behavior but also a part ...", "citations": 16, "author_count": 5, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1791, "doi": "10.1103/PhysRevA.99.022122", "umap_coordinates": { "x": 395.25640869140625, "y": 136.39068603515625, "z": 208.0140838623047 }, "tsne_coordinates": { "x": -22.048110961914062, "y": -24.84601593017578, "z": 9.644928932189941 }, "pca_coordinates": { "x": 3.719454288482666, "y": 1.633023738861084, "z": -1.3261616230010986 }, "axis_scores": { "Quantum imaging": 0.7068601846694946, "Quantum Life Science Sensing": 0.7211904525756836, "Quantum sensing Detection": 0.7165884971618652, "Quantum sensing Metrology": 0.6958678364753723, "Quantum sensing navigation": 0.7196378707885742, "Quantum sensing Position": 0.7204837203025818, "Quantum sensing Timing": 0.7168484926223755, "Quantum sensing": 0.7203713655471802, "Quantum control": 0.7064720988273621 } }, { "id": 1790, "title": "Using Polymer Electrolyte Gates to Set-and-Freeze Threshold Voltage and Local Potential in Nanowire-based Devices and Thermoelectrics", "abstract": "The strongly temperature-dependent ionic mobility in polymer electrolytes is used to freeze in specific ionic charge environments around a nanowire using a local wrap-gate geometry. This makes it poss...", "citations": 14, "author_count": 7, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1792, "doi": "10.1002/adfm.201402921", "umap_coordinates": { "x": 393.1147766113281, "y": 134.41763305664062, "z": 206.07594299316406 }, "tsne_coordinates": { "x": 30.26931381225586, "y": 11.427886009216309, "z": 10.70522689819336 }, "pca_coordinates": { "x": -0.9896798133850098, "y": -2.126850128173828, "z": 1.081256628036499 }, "axis_scores": { "Quantum imaging": 0.6863150596618652, "Quantum Life Science Sensing": 0.7080246210098267, "Quantum sensing Detection": 0.7001803517341614, "Quantum sensing Metrology": 0.6901826858520508, "Quantum sensing navigation": 0.6937567591667175, "Quantum sensing Position": 0.6927807331085205, "Quantum sensing Timing": 0.6942917704582214, "Quantum sensing": 0.7053151726722717, "Quantum control": 0.674076497554779 } }, { "id": 1791, "title": "Novel Switch Architectures", "abstract": "In this paper we discussed different switch architectures. We focus mainly on optical buffering. We investigate an all-optical buffer architecture comprising of cascaded stages of quantum-dot semicond...", "citations": 3, "author_count": 12, "categories": [ "Computer Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1793, "doi": null, "umap_coordinates": { "x": 391.5259094238281, "y": 139.7496795654297, "z": 209.04507446289062 }, "tsne_coordinates": { "x": -7.559908390045166, "y": 49.991065979003906, "z": -1.2561370134353638 }, "pca_coordinates": { "x": -1.4347786903381348, "y": 2.336237668991089, "z": -1.774667501449585 }, "axis_scores": { "Quantum imaging": 0.6878851652145386, "Quantum Life Science Sensing": 0.6905199885368347, "Quantum sensing Detection": 0.6872183680534363, "Quantum sensing Metrology": 0.6692954897880554, "Quantum sensing navigation": 0.6898079514503479, "Quantum sensing Position": 0.6499900221824646, "Quantum sensing Timing": 0.6597118377685547, "Quantum sensing": 0.6947833299636841, "Quantum control": 0.7085831761360168 } }, { "id": 1792, "title": "[Bi3Fe5O12/Gd3Ga5O12]m magneto-optical photonic crystals -: art. no. 122504", "abstract": "A series of one-dimensional heteroepitaxial all-garnet magneto-optical photonic crystals has been synthesized and optically characterized. They are composed of alternating magneto-optically active Bi3...", "citations": 45, "author_count": 3, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1794, "doi": "10.1063/1.2053359", "umap_coordinates": { "x": 393.72027587890625, "y": 134.5648956298828, "z": 208.07273864746094 }, "tsne_coordinates": { "x": 16.786945343017578, "y": -26.9797420501709, "z": -17.56253433227539 }, "pca_coordinates": { "x": 1.0462896823883057, "y": -1.5093932151794434, "z": -0.1783645749092102 }, "axis_scores": { "Quantum imaging": 0.7501150369644165, "Quantum Life Science Sensing": 0.7256155014038086, "Quantum sensing Detection": 0.7398644089698792, "Quantum sensing Metrology": 0.7596644163131714, "Quantum sensing navigation": 0.7332479953765869, "Quantum sensing Position": 0.6990339756011963, "Quantum sensing Timing": 0.6862958073616028, "Quantum sensing": 0.7515038251876831, "Quantum control": 0.727387547492981 } }, { "id": 1793, "title": "Experiments on long wavelength (1550nm) plug and play quantum cryptography systems", "abstract": "An interferometric quantum cryptographic system at 1550nm wavelength using gated InGaAs Avalanche Photo Diodes as single-photon receivers is demonstrated for a transmission distance up to 40 km. (C) 1...", "citations": 104, "author_count": 9, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1795, "doi": "10.1364/OE.4.000383", "umap_coordinates": { "x": 395.12066650390625, "y": 134.97186279296875, "z": 206.60415649414062 }, "tsne_coordinates": { "x": -4.118871688842773, "y": -3.875399589538574, "z": -30.383901596069336 }, "pca_coordinates": { "x": 0.9219801425933838, "y": 1.270613670349121, "z": 2.224944591522217 }, "axis_scores": { "Quantum imaging": 0.7300549149513245, "Quantum Life Science Sensing": 0.7212722301483154, "Quantum sensing Detection": 0.7266187071800232, "Quantum sensing Metrology": 0.705653965473175, "Quantum sensing navigation": 0.7281562089920044, "Quantum sensing Position": 0.7145243883132935, "Quantum sensing Timing": 0.716555655002594, "Quantum sensing": 0.7317330837249756, "Quantum control": 0.7098447680473328 } }, { "id": 1794, "title": "CdSe quantum dots/molecular cobalt catalyst co-grafted open porous NiO film as a photocathode for visible light driven H2 evolution from neutral water", "abstract": "An active noble-metal-free photocathode was fabricated by co-grafting water-soluble thioglycolic acid-stabilized CdSe quantum dots and a molecular cobaloxime catalyst (CoP) through chemical linkage on...", "citations": 73, "author_count": 6, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1796, "doi": "10.1039/c5ta06255a", "umap_coordinates": { "x": 391.9125671386719, "y": 134.35418701171875, "z": 205.3660888671875 }, "tsne_coordinates": { "x": 16.339351654052734, "y": 5.148677349090576, "z": -5.2583723068237305 }, "pca_coordinates": { "x": -1.5729236602783203, "y": -2.0901131629943848, "z": -0.8579630851745605 }, "axis_scores": { "Quantum imaging": 0.7180312871932983, "Quantum Life Science Sensing": 0.7411255836486816, "Quantum sensing Detection": 0.7126880288124084, "Quantum sensing Metrology": 0.6829966902732849, "Quantum sensing navigation": 0.6948494911193848, "Quantum sensing Position": 0.6570984125137329, "Quantum sensing Timing": 0.6565182209014893, "Quantum sensing": 0.7252936363220215, "Quantum control": 0.7043444514274597 } }, { "id": 1795, "title": "Representation of a quantum field Hamiltonian in p-adic Hilbert space", "abstract": "Gaussian measures on infinite-dimensional p-adic spaces are defined and the corresponding L-2-spaces of p-adic-valued square integrable functions are constructed. Representations of the infinite-dimen...", "citations": 22, "author_count": 4, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1797, "doi": "10.1007/BF02583040", "umap_coordinates": { "x": 394.43017578125, "y": 137.03775024414062, "z": 206.8849639892578 }, "tsne_coordinates": { "x": -26.59451675415039, "y": -5.375175476074219, "z": 16.165002822875977 }, "pca_coordinates": { "x": 2.168396234512329, "y": 1.3497250080108643, "z": -2.0393152236938477 }, "axis_scores": { "Quantum imaging": 0.7341706156730652, "Quantum Life Science Sensing": 0.7238916754722595, "Quantum sensing Detection": 0.7132753729820251, "Quantum sensing Metrology": 0.699306070804596, "Quantum sensing navigation": 0.7273715138435364, "Quantum sensing Position": 0.716498076915741, "Quantum sensing Timing": 0.6863508820533752, "Quantum sensing": 0.7280973792076111, "Quantum control": 0.7325414419174194 } }, { "id": 1796, "title": "Chiral phase modulation and a tunable broadband perfect absorber using a coherent cold atomic ensemble", "abstract": "We investigate the two-channel nonreciprocal scattering of a coherent atomic ensemble under the linear spatial Kramers-Kronig modulation, which has potential applications in chiral phase modulation an...", "citations": 2, "author_count": 5, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1798, "doi": "10.1103/PhysRevA.108.053716", "umap_coordinates": { "x": 395.0340576171875, "y": 136.0271453857422, "z": 208.4877166748047 }, "tsne_coordinates": { "x": -15.473525047302246, "y": -25.194978713989258, "z": -1.106770634651184 }, "pca_coordinates": { "x": 3.52103853225708, "y": -0.8542671203613281, "z": 1.46901535987854 }, "axis_scores": { "Quantum imaging": 0.7070034742355347, "Quantum Life Science Sensing": 0.6994333267211914, "Quantum sensing Detection": 0.6985183954238892, "Quantum sensing Metrology": 0.6837698221206665, "Quantum sensing navigation": 0.7049177885055542, "Quantum sensing Position": 0.6771042346954346, "Quantum sensing Timing": 0.6960841417312622, "Quantum sensing": 0.7073862552642822, "Quantum control": 0.6920638084411621 } }, { "id": 1797, "title": "Light-Converting Polymer/Si Nanocrystal Composites with Stable 60-70% Quantum Efficiency and Their Glass Laminates", "abstract": "Thiol-ene polymer/Si nanocrystal bulk hybrid's were synthesized from alkyl-passivated Si nanocrystal (Si NC) toluene solutions. Radicals in the polymer provided a copassivation of dark Si NCs, making ...", "citations": 71, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1799, "doi": "10.1021/acsami.7b09265", "umap_coordinates": { "x": 392.2127380371094, "y": 134.05836486816406, "z": 205.3457794189453 }, "tsne_coordinates": { "x": 24.55988883972168, "y": -6.829830646514893, "z": -17.833602905273438 }, "pca_coordinates": { "x": -2.9556994438171387, "y": -2.5206871032714844, "z": 0.7687558531761169 }, "axis_scores": { "Quantum imaging": 0.6838870048522949, "Quantum Life Science Sensing": 0.717467725276947, "Quantum sensing Detection": 0.6667920351028442, "Quantum sensing Metrology": 0.6560342907905579, "Quantum sensing navigation": 0.6638829112052917, "Quantum sensing Position": 0.6370007395744324, "Quantum sensing Timing": 0.617546558380127, "Quantum sensing": 0.6860841512680054, "Quantum control": 0.6513741612434387 } }, { "id": 1798, "title": "Gain, noise and intermodulation in a nonlinear superconducting resonator", "abstract": "A superconducting microwave resonator is modified with several weak links to make it nonlinear and operated as a phase-insensitive microwave amplifier. Signal gain is demonstrated by intermodulation w...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1800, "doi": "10.1140/epjqt5", "umap_coordinates": { "x": 394.218017578125, "y": 135.00901794433594, "z": 207.4753875732422 }, "tsne_coordinates": { "x": -7.196061134338379, "y": -18.164579391479492, "z": 4.774927616119385 }, "pca_coordinates": { "x": 2.788407802581787, "y": 0.4954298734664917, "z": 1.336618423461914 }, "axis_scores": { "Quantum imaging": 0.716618001461029, "Quantum Life Science Sensing": 0.7067431807518005, "Quantum sensing Detection": 0.7155254483222961, "Quantum sensing Metrology": 0.707526683807373, "Quantum sensing navigation": 0.7196289300918579, "Quantum sensing Position": 0.6999512910842896, "Quantum sensing Timing": 0.7038050889968872, "Quantum sensing": 0.7210357785224915, "Quantum control": 0.7047796845436096 } }, { "id": 1799, "title": "Measurement of isolated photon-hadron correlations in √SNN=5.02 TeV pp and p-Pb collisions", "abstract": "This paper presents isolated photon-hadron correlations using pp and p-Pb data collected by the ALICE detector at the LHC. For photons with vertical bar eta vertical bar < 0.67 and 12 < p(T) < 40 GeV/...", "citations": 11, "author_count": 1023, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1801, "doi": "10.1103/PhysRevC.102.044908", "umap_coordinates": { "x": 396.7440185546875, "y": 134.39508056640625, "z": 207.84732055664062 }, "tsne_coordinates": { "x": -33.30641555786133, "y": 8.152700424194336, "z": -14.31959342956543 }, "pca_coordinates": { "x": 1.8417673110961914, "y": -0.8568282127380371, "z": 4.009548187255859 }, "axis_scores": { "Quantum imaging": 0.6774856448173523, "Quantum Life Science Sensing": 0.6896965503692627, "Quantum sensing Detection": 0.7058141827583313, "Quantum sensing Metrology": 0.6668820381164551, "Quantum sensing navigation": 0.6784186959266663, "Quantum sensing Position": 0.6741657257080078, "Quantum sensing Timing": 0.6769685745239258, "Quantum sensing": 0.6953431367874146, "Quantum control": 0.6297752261161804 } }, { "id": 1800, "title": "Nonclassical dynamics induced by a quantum meter - art. no. 062104", "abstract": "Conventionally, the effect of measurements on a quantum system is assumed to introduce decoherence, which renders the system classical- like. We consider here a microscopic meter, that is, an auxiliar...", "citations": 3, "author_count": 5, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1802, "doi": "10.1103/PhysRevA.72.062104", "umap_coordinates": { "x": 395.0789794921875, "y": 137.36305236816406, "z": 207.86993408203125 }, "tsne_coordinates": { "x": -17.319299697875977, "y": -7.36510705947876, "z": 7.125556468963623 }, "pca_coordinates": { "x": 4.639991760253906, "y": 2.527522087097168, "z": -1.1324326992034912 }, "axis_scores": { "Quantum imaging": 0.7162740230560303, "Quantum Life Science Sensing": 0.7408906817436218, "Quantum sensing Detection": 0.7281666994094849, "Quantum sensing Metrology": 0.7292530536651611, "Quantum sensing navigation": 0.7343833446502686, "Quantum sensing Position": 0.7074683904647827, "Quantum sensing Timing": 0.6938030123710632, "Quantum sensing": 0.7345278859138489, "Quantum control": 0.7193421721458435 } }, { "id": 1801, "title": "Electric field effects in single semiconductor quantum dots observed by scanning tunneling luminescence", "abstract": "Scanning tunneling microscopy (STM) and scanning tunneling luminescence were used to correlate the topography with the emission spectra from individual self-assembled, InP quantum dots (QDs). We have ...", "citations": 6, "author_count": 6, "categories": [ "Engineering" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1803, "doi": "10.1116/1.1620511", "umap_coordinates": { "x": 393.7146911621094, "y": 133.92234802246094, "z": 208.3358612060547 }, "tsne_coordinates": { "x": 20.730600357055664, "y": -29.52267837524414, "z": -1.1201475858688354 }, "pca_coordinates": { "x": 0.6539404392242432, "y": -3.8485169410705566, "z": 1.0312767028808594 }, "axis_scores": { "Quantum imaging": 0.73713618516922, "Quantum Life Science Sensing": 0.7436970472335815, "Quantum sensing Detection": 0.737727701663971, "Quantum sensing Metrology": 0.741290807723999, "Quantum sensing navigation": 0.7258208394050598, "Quantum sensing Position": 0.7021859884262085, "Quantum sensing Timing": 0.7088890075683594, "Quantum sensing": 0.7489088773727417, "Quantum control": 0.7042068839073181 } }, { "id": 1802, "title": "Free evolution of superposition states in a single Cooper pair box - art. no. 132504", "abstract": "We have fabricated a single Cooper-pair box (SCB) in close proximity to a single electron transistor (SET) operated in the radio-frequency mode (RF-SET) with an inductor and capacitor lithographed dir...", "citations": 34, "author_count": 6, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1804, "doi": "10.1103/PhysRevB.69.132504", "umap_coordinates": { "x": 394.7326965332031, "y": 134.56610107421875, "z": 208.462158203125 }, "tsne_coordinates": { "x": -0.5907594561576843, "y": -33.8035888671875, "z": -16.532573699951172 }, "pca_coordinates": { "x": 4.6928534507751465, "y": -0.9094862937927246, "z": 1.4731335639953613 }, "axis_scores": { "Quantum imaging": 0.6867218017578125, "Quantum Life Science Sensing": 0.6962483525276184, "Quantum sensing Detection": 0.7199668288230896, "Quantum sensing Metrology": 0.7085403203964233, "Quantum sensing navigation": 0.7176790833473206, "Quantum sensing Position": 0.6960539221763611, "Quantum sensing Timing": 0.6949911117553711, "Quantum sensing": 0.722500741481781, "Quantum control": 0.6921807527542114 } }, { "id": 1803, "title": "Reconfigurable frequency coding of triggered single photons in the telecom C-band", "abstract": "In this work, we demonstrate reconfigurable frequency manipulation of quantum states of light in the telecom C-band. Triggered single photons are encoded in a superposition state of three channels usi...", "citations": 2, "author_count": 11, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1805, "doi": "10.1364/OE.27.014400", "umap_coordinates": { "x": 394.93310546875, "y": 133.82571411132812, "z": 207.14764404296875 }, "tsne_coordinates": { "x": -8.25938606262207, "y": 5.968249320983887, "z": -35.80961227416992 }, "pca_coordinates": { "x": -0.13156485557556152, "y": 0.5658801794052124, "z": 2.053779363632202 }, "axis_scores": { "Quantum imaging": 0.7172523140907288, "Quantum Life Science Sensing": 0.735321581363678, "Quantum sensing Detection": 0.7344231605529785, "Quantum sensing Metrology": 0.7172070741653442, "Quantum sensing navigation": 0.7058020234107971, "Quantum sensing Position": 0.6879031658172607, "Quantum sensing Timing": 0.751298725605011, "Quantum sensing": 0.7353919744491577, "Quantum control": 0.7044458389282227 } }, { "id": 1804, "title": "ENERGY-BAND DIAGRAM OF A SI METAL-OXIDE-SEMICONDUCTOR FIELD-EFFECT TRANSISTOR", "abstract": "We have calculated the energy band diagram of a Si metal-oxide-semiconductor field-effect transistor (FET) with two-storied gates most recently experimentally investigated by Matsuoka et at [1]. From ...", "citations": 3, "author_count": 3, "categories": [ "Engineering" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1806, "doi": "10.1109/16.398668", "umap_coordinates": { "x": 394.2427062988281, "y": 134.26351928710938, "z": 208.1455535888672 }, "tsne_coordinates": { "x": 11.592623710632324, "y": -35.2943000793457, "z": -13.013163566589355 }, "pca_coordinates": { "x": 1.8056292533874512, "y": -1.1176860332489014, "z": 0.8634375929832458 }, "axis_scores": { "Quantum imaging": 0.7040693163871765, "Quantum Life Science Sensing": 0.7328046560287476, "Quantum sensing Detection": 0.714563250541687, "Quantum sensing Metrology": 0.7144847512245178, "Quantum sensing navigation": 0.7048623561859131, "Quantum sensing Position": 0.6872100830078125, "Quantum sensing Timing": 0.6776120066642761, "Quantum sensing": 0.7217880487442017, "Quantum control": 0.6712088584899902 } }, { "id": 1805, "title": "Photon-hadron jet correlations in p plus p and Au plus Au collisions at sNN=200 GeV", "abstract": "We report the observation at the Relativistic Heavy Ion Collider of suppression of back-to-back correlations in the direct photon+jet channel in Au+Au relative to p+p collisions. Two-particle correlat...", "citations": 79, "author_count": 481, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1807, "doi": "10.1103/PhysRevC.80.024908", "umap_coordinates": { "x": 396.60906982421875, "y": 134.56524658203125, "z": 207.7347412109375 }, "tsne_coordinates": { "x": -34.730690002441406, "y": 2.735182046890259, "z": -16.055070877075195 }, "pca_coordinates": { "x": 2.5502305030822754, "y": -0.6966581344604492, "z": 2.381662368774414 }, "axis_scores": { "Quantum imaging": 0.6991558074951172, "Quantum Life Science Sensing": 0.6985515356063843, "Quantum sensing Detection": 0.714991569519043, "Quantum sensing Metrology": 0.6872891783714294, "Quantum sensing navigation": 0.7186236381530762, "Quantum sensing Position": 0.7060564756393433, "Quantum sensing Timing": 0.7038952112197876, "Quantum sensing": 0.7093846201896667, "Quantum control": 0.6836762428283691 } }, { "id": 1806, "title": "QUANTUM BOUND-STATES IN A DOUBLE-BEND QUANTUM CHANNEL", "abstract": "", "citations": 25, "author_count": 4, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1808, "doi": "10.1063/1.358718", "umap_coordinates": { "x": 394.2325744628906, "y": 135.44540405273438, "z": 208.2685546875 }, "tsne_coordinates": { "x": -7.8086838722229, "y": -39.66683578491211, "z": -14.451255798339844 }, "pca_coordinates": { "x": 3.9033384323120117, "y": -0.8200125694274902, "z": 0.7718932032585144 }, "axis_scores": { "Quantum imaging": 0.7606940269470215, "Quantum Life Science Sensing": 0.7361443638801575, "Quantum sensing Detection": 0.7774932384490967, "Quantum sensing Metrology": 0.7583555579185486, "Quantum sensing navigation": 0.7676947116851807, "Quantum sensing Position": 0.746955156326294, "Quantum sensing Timing": 0.7275067567825317, "Quantum sensing": 0.7860615253448486, "Quantum control": 0.7362124919891357 } }, { "id": 1807, "title": "Yu-Shiba-Rusinov states in phase-biased superconductor-quantum dot-superconductor junctions", "abstract": "We study the effects of a phase difference on Yu-Shiba-Rusinov (YSR) states in a spinful Coulomb-blockaded quantum dot contacted by a superconducting loop. In the limit where charging energy is larger...", "citations": 63, "author_count": 6, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1809, "doi": "10.1103/PhysRevB.92.235422", "umap_coordinates": { "x": 394.00543212890625, "y": 135.49562072753906, "z": 209.19778442382812 }, "tsne_coordinates": { "x": -2.161986827850342, "y": -26.160411834716797, "z": 12.332662582397461 }, "pca_coordinates": { "x": 5.8104681968688965, "y": -2.8009376525878906, "z": -0.62674480676651 }, "axis_scores": { "Quantum imaging": 0.6717396974563599, "Quantum Life Science Sensing": 0.6924138069152832, "Quantum sensing Detection": 0.6878340840339661, "Quantum sensing Metrology": 0.6755462884902954, "Quantum sensing navigation": 0.7200680375099182, "Quantum sensing Position": 0.6849091053009033, "Quantum sensing Timing": 0.6745696663856506, "Quantum sensing": 0.6963027715682983, "Quantum control": 0.6799222826957703 } }, { "id": 1808, "title": "Quantum rule for detection probability from Brownian motion in the space of classical fields", "abstract": "We obtain Born's rule from the classical theory of random waves in combination with the use of thresholdtype detectors. We consider a model of classical random waves interacting with classical detecto...", "citations": 5, "author_count": 4, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1810, "doi": "10.1007/s11232-013-0027-z", "umap_coordinates": { "x": 395.33892822265625, "y": 137.12924194335938, "z": 206.1063232421875 }, "tsne_coordinates": { "x": -30.341890335083008, "y": 4.7540106773376465, "z": 15.721014022827148 }, "pca_coordinates": { "x": 1.0003376007080078, "y": 2.181257724761963, "z": 1.194777488708496 }, "axis_scores": { "Quantum imaging": 0.7112706899642944, "Quantum Life Science Sensing": 0.7440011501312256, "Quantum sensing Detection": 0.7596327662467957, "Quantum sensing Metrology": 0.7448804378509521, "Quantum sensing navigation": 0.7589251399040222, "Quantum sensing Position": 0.7327755093574524, "Quantum sensing Timing": 0.7124531269073486, "Quantum sensing": 0.7498875856399536, "Quantum control": 0.7309520244598389 } }, { "id": 1809, "title": "Quadrupolar excitons in MoSe2 bilayers", "abstract": "The quest for platforms to generate and control exotic excitonic states has greatly benefited from the advent of transition metal dichalcogenide (TMD) monolayers and their heterostructures. Among the ...", "citations": 6, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1811, "doi": "10.1038/s41467-025-56586-3", "umap_coordinates": { "x": 392.6878967285156, "y": 135.58782958984375, "z": 206.97006225585938 }, "tsne_coordinates": { "x": 12.079102516174316, "y": -10.121485710144043, "z": 12.552387237548828 }, "pca_coordinates": { "x": -0.4533695578575134, "y": -2.7967028617858887, "z": -2.6687655448913574 }, "axis_scores": { "Quantum imaging": 0.7133475542068481, "Quantum Life Science Sensing": 0.744837760925293, "Quantum sensing Detection": 0.7029485702514648, "Quantum sensing Metrology": 0.7041534185409546, "Quantum sensing navigation": 0.7035595178604126, "Quantum sensing Position": 0.6880902051925659, "Quantum sensing Timing": 0.6863806247711182, "Quantum sensing": 0.7222636938095093, "Quantum control": 0.6911543011665344 } }, { "id": 1810, "title": "Dynamical quantum phase transitions following a noisy quench", "abstract": "We study how time -dependent energy fluctuations impact the dynamical quantum phase transitions (DQPTs) following a noisy ramped quench of the transverse magnetic field in a quantum Ising chain. By nu...", "citations": 12, "author_count": 5, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1812, "doi": "10.1103/PhysRevB.109.L180303", "umap_coordinates": { "x": 394.86328125, "y": 136.29579162597656, "z": 208.8302764892578 }, "tsne_coordinates": { "x": -17.800636291503906, "y": -22.139423370361328, "z": 11.341913223266602 }, "pca_coordinates": { "x": 6.280025959014893, "y": 1.2584563493728638, "z": -0.26822859048843384 }, "axis_scores": { "Quantum imaging": 0.728745698928833, "Quantum Life Science Sensing": 0.7379695177078247, "Quantum sensing Detection": 0.7399150729179382, "Quantum sensing Metrology": 0.709236741065979, "Quantum sensing navigation": 0.7507988214492798, "Quantum sensing Position": 0.7146506309509277, "Quantum sensing Timing": 0.7093307971954346, "Quantum sensing": 0.7457638382911682, "Quantum control": 0.734035849571228 } }, { "id": 1811, "title": "Arbitrary accuracy iterative quantum phase estimation algorithm using a single ancillary qubit:: A two-qubit benchmark", "abstract": "We discuss the implementation of an iterative quantum phase estimation algorithm with a single ancillary qubit. We suggest using this algorithm as a benchmark for multiqubit implementations. Furthermo...", "citations": 162, "author_count": 5, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1813, "doi": "10.1103/PhysRevA.76.030306", "umap_coordinates": { "x": 394.8442687988281, "y": 135.89495849609375, "z": 207.68014526367188 }, "tsne_coordinates": { "x": -4.821338653564453, "y": -27.907949447631836, "z": -18.76331329345703 }, "pca_coordinates": { "x": 2.3374321460723877, "y": -0.06951045989990234, "z": 1.792445182800293 }, "axis_scores": { "Quantum imaging": 0.7500674724578857, "Quantum Life Science Sensing": 0.7253861427307129, "Quantum sensing Detection": 0.7472409009933472, "Quantum sensing Metrology": 0.7463064193725586, "Quantum sensing navigation": 0.7602456212043762, "Quantum sensing Position": 0.7357929944992065, "Quantum sensing Timing": 0.7457036375999451, "Quantum sensing": 0.7571847438812256, "Quantum control": 0.7435785531997681 } }, { "id": 1812, "title": "X-Ray Induced Secondary Particle Counting With Thin NbTiN Nanowire Superconducting Detector", "abstract": "We characterized the performance of abiased superconducting nanowire to detect X-ray photons. The device, made of a 10 nm thin NbTiN film and fabricated on a dielectric substrate (SiO2, Nb3O5) detecte...", "citations": 4, "author_count": 8, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1814, "doi": "10.1109/TASC.2021.3066578", "umap_coordinates": { "x": 394.7213439941406, "y": 133.1778106689453, "z": 206.29495239257812 }, "tsne_coordinates": { "x": -15.59093189239502, "y": 8.61979866027832, "z": -25.150056838989258 }, "pca_coordinates": { "x": 0.05218815803527832, "y": -0.9142682552337646, "z": 2.88639235496521 }, "axis_scores": { "Quantum imaging": 0.7053617835044861, "Quantum Life Science Sensing": 0.7118530869483948, "Quantum sensing Detection": 0.7253392338752747, "Quantum sensing Metrology": 0.6960108280181885, "Quantum sensing navigation": 0.7203398942947388, "Quantum sensing Position": 0.6927012205123901, "Quantum sensing Timing": 0.7193553447723389, "Quantum sensing": 0.7191243171691895, "Quantum control": 0.6864629983901978 } }, { "id": 1813, "title": "Relaxation dynamics of PPG-based salt-polymer complexes studied by photon correlation spectroscopy", "abstract": "Photon correlation spectroscopy (PCS) has been used to study some poly(propylene glycol) (PPG4000)-based salt-polymer complexes which represent opposite extremes, namely essentially non-conducting Mg(...", "citations": 5, "author_count": 3, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1815, "doi": "10.1016/0167-2738(96)00047-1", "umap_coordinates": { "x": 393.21636962890625, "y": 136.1621551513672, "z": 205.59030151367188 }, "tsne_coordinates": { "x": 16.161571502685547, "y": 12.283699989318848, "z": 17.52567481994629 }, "pca_coordinates": { "x": -0.8811777234077454, "y": 0.7014524936676025, "z": -0.9459108114242554 }, "axis_scores": { "Quantum imaging": 0.6832523345947266, "Quantum Life Science Sensing": 0.7119422554969788, "Quantum sensing Detection": 0.6696304678916931, "Quantum sensing Metrology": 0.6487183570861816, "Quantum sensing navigation": 0.683243453502655, "Quantum sensing Position": 0.6798003315925598, "Quantum sensing Timing": 0.6740331649780273, "Quantum sensing": 0.6781728863716125, "Quantum control": 0.6545529961585999 } }, { "id": 1814, "title": "Very fast photon counting photometers for astronomical applications: from QuantEYE to AquEYE", "abstract": "In the great majority of the cases, present astronomical observations are realized analyzing only first order spatial or temporal coherence properties of the collected photon stream. However, a lot of...", "citations": 4, "author_count": 8, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1816, "doi": "10.1117/12.723842", "umap_coordinates": { "x": 395.08807373046875, "y": 133.82846069335938, "z": 206.17800903320312 }, "tsne_coordinates": { "x": -3.0368905067443848, "y": 12.600053787231445, "z": -24.679027557373047 }, "pca_coordinates": { "x": -2.097776174545288, "y": 1.1612863540649414, "z": 2.2604148387908936 }, "axis_scores": { "Quantum imaging": 0.7337893843650818, "Quantum Life Science Sensing": 0.7524998188018799, "Quantum sensing Detection": 0.7340664267539978, "Quantum sensing Metrology": 0.7283672094345093, "Quantum sensing navigation": 0.7391666173934937, "Quantum sensing Position": 0.7042880654335022, "Quantum sensing Timing": 0.7208950519561768, "Quantum sensing": 0.74696946144104, "Quantum control": 0.6887975931167603 } }, { "id": 1815, "title": "Analysis of photon emission induced by light and heavy ions in time-of-flight medium energy ion scattering", "abstract": "We present a systematic analysis of the photon emission observed due to impact of pulsed keV ion beams in time-of-flight medium energy ion scattering (ToF-MEIS) experiments. Hereby, hydrogen, helium a...", "citations": 14, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1817, "doi": "10.1016/j.nimb.2017.08.005", "umap_coordinates": { "x": 394.4923400878906, "y": 133.14291381835938, "z": 205.51943969726562 }, "tsne_coordinates": { "x": -18.619739532470703, "y": 10.489391326904297, "z": -10.815839767456055 }, "pca_coordinates": { "x": -2.6004886627197266, "y": 0.6684894561767578, "z": 1.3882246017456055 }, "axis_scores": { "Quantum imaging": 0.7510188221931458, "Quantum Life Science Sensing": 0.7440969347953796, "Quantum sensing Detection": 0.7346203327178955, "Quantum sensing Metrology": 0.7097671627998352, "Quantum sensing navigation": 0.700085461139679, "Quantum sensing Position": 0.6754066944122314, "Quantum sensing Timing": 0.6896333694458008, "Quantum sensing": 0.7327236533164978, "Quantum control": 0.6608522534370422 } }, { "id": 1816, "title": "Tuning the Emission Energy of Chemically Doped Graphene Quantum Dots", "abstract": "Tuning the emission energy of graphene quantum dots (GQDs) and understanding the reason of tunability is essential for the GOD function in optoelectronic devices. Besides material-based challenges, th...", "citations": 41, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1818, "doi": "10.3390/nano6110198", "umap_coordinates": { "x": 393.0245666503906, "y": 134.33116149902344, "z": 205.50791931152344 }, "tsne_coordinates": { "x": 32.31416320800781, "y": 17.289085388183594, "z": -11.638172149658203 }, "pca_coordinates": { "x": -1.8631489276885986, "y": -2.65140962600708, "z": -1.0140645503997803 }, "axis_scores": { "Quantum imaging": 0.7230982184410095, "Quantum Life Science Sensing": 0.7718837857246399, "Quantum sensing Detection": 0.7449086308479309, "Quantum sensing Metrology": 0.7304858565330505, "Quantum sensing navigation": 0.7386223673820496, "Quantum sensing Position": 0.7082123160362244, "Quantum sensing Timing": 0.6967312693595886, "Quantum sensing": 0.7588457465171814, "Quantum control": 0.7296844720840454 } }, { "id": 1817, "title": "Characterization of Entanglement via Non-Existence of a Subquantum Random Field", "abstract": "Any pure state |Psi >$|\\Psi \\rangle$ of a compound system S=(S1,S2)$S=(S_1,S_2)$ with the state space H=H1 circle times H2${\\cal H}= {\\cal H}_1\\otimes {\\cal H}_2$ determines a kind of covariance opera...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1819, "doi": "10.1002/andp.202400035", "umap_coordinates": { "x": 395.75732421875, "y": 137.05462646484375, "z": 206.5291290283203 }, "tsne_coordinates": { "x": -23.86608123779297, "y": -1.900933027267456, "z": 11.206275939941406 }, "pca_coordinates": { "x": 1.918637752532959, "y": 3.1400187015533447, "z": 0.34838956594467163 }, "axis_scores": { "Quantum imaging": 0.7528011798858643, "Quantum Life Science Sensing": 0.7396822571754456, "Quantum sensing Detection": 0.7662782669067383, "Quantum sensing Metrology": 0.7451897859573364, "Quantum sensing navigation": 0.7432360649108887, "Quantum sensing Position": 0.731142520904541, "Quantum sensing Timing": 0.7100301384925842, "Quantum sensing": 0.7626410722732544, "Quantum control": 0.7373761534690857 } }, { "id": 1818, "title": "Landauer's Principle in a Quantum Szilard Engine without Maxwell's Demon", "abstract": "Quantum Szilard engine constitutes an adequate interplay of thermodynamics, information theory and quantum mechanics. Szilard engines are in general operated by a Maxwell's Demon where Landauer's prin...", "citations": 22, "author_count": 4, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1820, "doi": "10.3390/e22030294", "umap_coordinates": { "x": 394.9178771972656, "y": 137.85073852539062, "z": 205.83642578125 }, "tsne_coordinates": { "x": -21.982685089111328, "y": 11.446331977844238, "z": 14.07802677154541 }, "pca_coordinates": { "x": 1.709193229675293, "y": 2.521409511566162, "z": -1.5566928386688232 }, "axis_scores": { "Quantum imaging": 0.682351291179657, "Quantum Life Science Sensing": 0.7048072218894958, "Quantum sensing Detection": 0.6881832480430603, "Quantum sensing Metrology": 0.6881448030471802, "Quantum sensing navigation": 0.7159161567687988, "Quantum sensing Position": 0.667799711227417, "Quantum sensing Timing": 0.6612699627876282, "Quantum sensing": 0.6987213492393494, "Quantum control": 0.6716769337654114 } }, { "id": 1819, "title": "Superconducting Microsphere Magnetically Levitated in an Anharmonic Potential with Integrated Magnetic Readout", "abstract": "Magnetically levitated superconducting microparticles offer a promising path to quantum experiments with picogram to microgram objects. In this work, we levitate a 700 ng & SIM; 1017 amu superconducti...", "citations": 26, "author_count": 6, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1821, "doi": "10.1103/PhysRevApplied.19.054047", "umap_coordinates": { "x": 394.5444641113281, "y": 135.6322021484375, "z": 208.07557678222656 }, "tsne_coordinates": { "x": -14.840391159057617, "y": -36.97817611694336, "z": 21.55194854736328 }, "pca_coordinates": { "x": 3.493302822113037, "y": -0.9358820915222168, "z": 0.6001843810081482 }, "axis_scores": { "Quantum imaging": 0.7157524824142456, "Quantum Life Science Sensing": 0.7145857214927673, "Quantum sensing Detection": 0.6993541717529297, "Quantum sensing Metrology": 0.7081390619277954, "Quantum sensing navigation": 0.7088652849197388, "Quantum sensing Position": 0.6981183886528015, "Quantum sensing Timing": 0.669654905796051, "Quantum sensing": 0.7079168558120728, "Quantum control": 0.6721924543380737 } }, { "id": 1820, "title": "Magnetization generated by microwave-induced Rashba interaction", "abstract": "We show that a controllable dc magnetization is accumulated in a junction comprising a quantum dot coupled to nonmagnetic reservoirs if the junction is subjected to a time-dependent spin-orbit interac...", "citations": 6, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1822, "doi": "10.1103/PhysRevB.102.075419", "umap_coordinates": { "x": 393.39007568359375, "y": 135.93820190429688, "z": 208.83111572265625 }, "tsne_coordinates": { "x": 7.519627094268799, "y": -28.484071731567383, "z": 20.7775821685791 }, "pca_coordinates": { "x": 3.7412047386169434, "y": -1.4040296077728271, "z": -0.9495573043823242 }, "axis_scores": { "Quantum imaging": 0.7053592205047607, "Quantum Life Science Sensing": 0.7075023651123047, "Quantum sensing Detection": 0.6938501000404358, "Quantum sensing Metrology": 0.6913421750068665, "Quantum sensing navigation": 0.6818574070930481, "Quantum sensing Position": 0.6521063446998596, "Quantum sensing Timing": 0.6389528512954712, "Quantum sensing": 0.6988955736160278, "Quantum control": 0.6704865097999573 } }, { "id": 1821, "title": "Topological quantum similarity measures: applications in QSAR", "abstract": "A novel method for computing new descriptors to construct Quantitative Structure-Toxicity Relationships is presented. First, a brief review on the classical graph theory is presented and, then, the li...", "citations": 12, "author_count": 3, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1823, "doi": "10.1016/j.theochem.2004.11.062", "umap_coordinates": { "x": 394.1141052246094, "y": 136.6736297607422, "z": 205.4984588623047 }, "tsne_coordinates": { "x": -13.955312728881836, "y": 16.240610122680664, "z": 21.05795669555664 }, "pca_coordinates": { "x": -0.48429054021835327, "y": 1.8641517162322998, "z": -2.0399956703186035 }, "axis_scores": { "Quantum imaging": 0.777332603931427, "Quantum Life Science Sensing": 0.7934188842773438, "Quantum sensing Detection": 0.7659347057342529, "Quantum sensing Metrology": 0.7683083415031433, "Quantum sensing navigation": 0.7673966884613037, "Quantum sensing Position": 0.756746768951416, "Quantum sensing Timing": 0.7487370371818542, "Quantum sensing": 0.7814875841140747, "Quantum control": 0.7473271489143372 } }, { "id": 1822, "title": "The noise of gravitons", "abstract": "We show that when the gravitational field is treated quantum-mechanically, it induces fluctuations - noise - in the lengths of the arms of gravitational wave detectors. The characteristics of the nois...", "citations": 69, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1824, "doi": "10.1142/S0218271820420018", "umap_coordinates": { "x": 395.2034606933594, "y": 136.5394287109375, "z": 206.18450927734375 }, "tsne_coordinates": { "x": -37.026004791259766, "y": 7.420520305633545, "z": 11.71861457824707 }, "pca_coordinates": { "x": 0.6402566432952881, "y": 3.6824254989624023, "z": -1.202568769454956 }, "axis_scores": { "Quantum imaging": 0.6890794038772583, "Quantum Life Science Sensing": 0.7284055352210999, "Quantum sensing Detection": 0.7034505009651184, "Quantum sensing Metrology": 0.6896985769271851, "Quantum sensing navigation": 0.7528398036956787, "Quantum sensing Position": 0.7122421860694885, "Quantum sensing Timing": 0.6895874738693237, "Quantum sensing": 0.7104939222335815, "Quantum control": 0.7083284258842468 } }, { "id": 1823, "title": "Potential for lower absorbed dose in digital mammography: A JAFROC experiment using clinical hybrid images with simulated dose reduction", "abstract": "Purpose: To determine how image quality linked to tumor detection is affected by reducing the absorbed dose to 50% and 30% of the clinical levels represented by an average glandular dose (AGD) level o...", "citations": 3, "author_count": 11, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1825, "doi": "10.1117/12.653419", "umap_coordinates": { "x": 395.87432861328125, "y": 132.97683715820312, "z": 205.37557983398438 }, "tsne_coordinates": { "x": -6.599035739898682, "y": 26.384170532226562, "z": -24.25254249572754 }, "pca_coordinates": { "x": -1.6766608953475952, "y": 3.2710790634155273, "z": 2.263753890991211 }, "axis_scores": { "Quantum imaging": 0.7108045816421509, "Quantum Life Science Sensing": 0.6899895071983337, "Quantum sensing Detection": 0.6793925762176514, "Quantum sensing Metrology": 0.6586873531341553, "Quantum sensing navigation": 0.6620436906814575, "Quantum sensing Position": 0.6615422368049622, "Quantum sensing Timing": 0.651602566242218, "Quantum sensing": 0.6781378984451294, "Quantum control": 0.6515942215919495 } }, { "id": 1824, "title": "Passively stable distribution of polarisation entanglement over 192 km of deployed optical fibre", "abstract": "Quantum key distribution (QKD) based on entangled photon pairs holds the potential for repeater-based quantum networks connecting clients over long distance. We demonstrate long-distance entanglement ...", "citations": 63, "author_count": 18, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1826, "doi": "10.1038/s41534-019-0238-8", "umap_coordinates": { "x": 394.45806884765625, "y": 136.00729370117188, "z": 206.2428436279297 }, "tsne_coordinates": { "x": -11.8275146484375, "y": 1.275665521621704, "z": -8.958168983459473 }, "pca_coordinates": { "x": -0.6547287106513977, "y": 0.6325724124908447, "z": 0.34132760763168335 }, "axis_scores": { "Quantum imaging": 0.6766601800918579, "Quantum Life Science Sensing": 0.6906693577766418, "Quantum sensing Detection": 0.666592001914978, "Quantum sensing Metrology": 0.6494365930557251, "Quantum sensing navigation": 0.6883193254470825, "Quantum sensing Position": 0.696763813495636, "Quantum sensing Timing": 0.6535446643829346, "Quantum sensing": 0.6766423583030701, "Quantum control": 0.6608049273490906 } }, { "id": 1825, "title": "Quantum backaction of optical observations on Bose-Einstein condensates", "abstract": "", "citations": 17, "author_count": 4, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1827, "doi": "10.1007/s100530070048", "umap_coordinates": { "x": 395.19342041015625, "y": 136.69989013671875, "z": 205.87318420410156 }, "tsne_coordinates": { "x": -27.752058029174805, "y": 1.1552883386611938, "z": 6.988746166229248 }, "pca_coordinates": { "x": 0.7958612442016602, "y": 1.6532707214355469, "z": 0.560752809047699 }, "axis_scores": { "Quantum imaging": 0.7570988535881042, "Quantum Life Science Sensing": 0.7610288858413696, "Quantum sensing Detection": 0.7677241563796997, "Quantum sensing Metrology": 0.7531428933143616, "Quantum sensing navigation": 0.7611192464828491, "Quantum sensing Position": 0.7455018758773804, "Quantum sensing Timing": 0.7211724519729614, "Quantum sensing": 0.7716459631919861, "Quantum control": 0.743022620677948 } }, { "id": 1826, "title": "Persistent current noise in narrow Josephson junctions", "abstract": "Josephson junctions have broad applications in metrology, quantum information processing, and remote sensing. For these applications, the electronic noise is a limiting factor. In this work we study t...", "citations": 1, "author_count": 4, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1828, "doi": "10.1103/PhysRevB.104.L100505", "umap_coordinates": { "x": 394.178955078125, "y": 135.45350646972656, "z": 208.78785705566406 }, "tsne_coordinates": { "x": -1.5084583759307861, "y": -19.459054946899414, "z": 11.305241584777832 }, "pca_coordinates": { "x": 4.528542995452881, "y": -1.6659984588623047, "z": 0.7471020817756653 }, "axis_scores": { "Quantum imaging": 0.6891422867774963, "Quantum Life Science Sensing": 0.7051015496253967, "Quantum sensing Detection": 0.6978957653045654, "Quantum sensing Metrology": 0.6603010892868042, "Quantum sensing navigation": 0.7192938327789307, "Quantum sensing Position": 0.6912450194358826, "Quantum sensing Timing": 0.6812765002250671, "Quantum sensing": 0.7053958177566528, "Quantum control": 0.6848269104957581 } }, { "id": 1827, "title": "Band-Edge Diagrams of Core-Shell Semiconductor Dots", "abstract": "We have calculated band-edge diagrams for spherical core shell nanocrystal quantum dots for all combinations of AlN, GaN, and InN, as well as all combinations of AlP, GaP, AlAs, GaAs, InP, In As, AlSb...", "citations": 3, "author_count": 3, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1829, "doi": "10.1021/jp1094195", "umap_coordinates": { "x": 392.1610412597656, "y": 134.68141174316406, "z": 206.5166473388672 }, "tsne_coordinates": { "x": 18.760513305664062, "y": -9.128621101379395, "z": 5.484628677368164 }, "pca_coordinates": { "x": -0.5058717131614685, "y": -4.144331455230713, "z": -0.6623120307922363 }, "axis_scores": { "Quantum imaging": 0.7208229899406433, "Quantum Life Science Sensing": 0.7317296266555786, "Quantum sensing Detection": 0.7205924987792969, "Quantum sensing Metrology": 0.7007219195365906, "Quantum sensing navigation": 0.7066474556922913, "Quantum sensing Position": 0.6963794231414795, "Quantum sensing Timing": 0.6940363645553589, "Quantum sensing": 0.7241109013557434, "Quantum control": 0.6843544244766235 } }, { "id": 1828, "title": "Monte Carlo simulation of photon transport in a randomly oriented sphere-cylinder scattering medium", "abstract": "A Monte Carlo simulation tool for simulating photon transport in a randomly oriented sphere-cylinder medium has been developed. The simulated medium represents a paper pulp suspension where the consti...", "citations": 7, "author_count": 3, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1830, "doi": "10.1007/s00340-011-4684-z", "umap_coordinates": { "x": 394.86199951171875, "y": 134.86669921875, "z": 205.2481231689453 }, "tsne_coordinates": { "x": -7.346436023712158, "y": 13.33467960357666, "z": 19.854148864746094 }, "pca_coordinates": { "x": -1.421717882156372, "y": 1.0811259746551514, "z": 1.2603590488433838 }, "axis_scores": { "Quantum imaging": 0.7034046053886414, "Quantum Life Science Sensing": 0.7032990455627441, "Quantum sensing Detection": 0.6802175641059875, "Quantum sensing Metrology": 0.6784722208976746, "Quantum sensing navigation": 0.7173112630844116, "Quantum sensing Position": 0.6806567907333374, "Quantum sensing Timing": 0.6526883840560913, "Quantum sensing": 0.6967424154281616, "Quantum control": 0.6774293780326843 } }, { "id": 1829, "title": "Electrogenerated chemiluminescence, of benzo 15-crown-5 derivatives", "abstract": "Novel electrogenerated chemiluminescence (ECL) reagents C1, C2, and C3 with high fluorescence quantum yields bearing 15-crown-5 moiety have been synthesized and characterized. The photophysical, elect...", "citations": 6, "author_count": 5, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1831, "doi": "10.1002/poc.1414", "umap_coordinates": { "x": 393.3507385253906, "y": 135.13430786132812, "z": 204.50352478027344 }, "tsne_coordinates": { "x": 2.960003614425659, "y": 15.045363426208496, "z": -6.390616416931152 }, "pca_coordinates": { "x": -2.5558602809906006, "y": -0.04205155372619629, "z": -0.49050968885421753 }, "axis_scores": { "Quantum imaging": 0.7453968524932861, "Quantum Life Science Sensing": 0.7491940259933472, "Quantum sensing Detection": 0.750044047832489, "Quantum sensing Metrology": 0.7339509129524231, "Quantum sensing navigation": 0.7300485372543335, "Quantum sensing Position": 0.713478147983551, "Quantum sensing Timing": 0.696692705154419, "Quantum sensing": 0.7511106729507446, "Quantum control": 0.7340805530548096 } }, { "id": 1830, "title": "Global asymmetry of many-qubit correlations: A lattice-gauge-theory approach", "abstract": "We introduce a bridge between the familiar gauge field theory approaches used in many areas of modern physics such as quantum field theory and the stochastic local operations and classical communicati...", "citations": 3, "author_count": 7, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1832, "doi": "10.1103/PhysRevA.84.032302", "umap_coordinates": { "x": 394.6626892089844, "y": 136.8264617919922, "z": 207.8012237548828 }, "tsne_coordinates": { "x": -16.757898330688477, "y": -27.299407958984375, "z": 8.74951457977295 }, "pca_coordinates": { "x": 4.408611297607422, "y": 0.6302822828292847, "z": -0.2987253963947296 }, "axis_scores": { "Quantum imaging": 0.7605512738227844, "Quantum Life Science Sensing": 0.7389958500862122, "Quantum sensing Detection": 0.7437670230865479, "Quantum sensing Metrology": 0.7400362491607666, "Quantum sensing navigation": 0.7727754712104797, "Quantum sensing Position": 0.7308472990989685, "Quantum sensing Timing": 0.7246093153953552, "Quantum sensing": 0.7622548341751099, "Quantum control": 0.7505558133125305 } }, { "id": 1831, "title": "Pauli spin blockade in weakly coupled double quantum dots", "abstract": "In a two-level system, constituted by two serially coupled single level quantum dots, coupled to external leads we find that the current is suppressed in one direction of biasing caused by a fully occ...", "citations": 73, "author_count": 3, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1833, "doi": "10.1103/PhysRevB.73.205333", "umap_coordinates": { "x": 393.9082946777344, "y": 135.4220733642578, "z": 209.23704528808594 }, "tsne_coordinates": { "x": -0.5094441175460815, "y": -26.710412979125977, "z": 2.1782705783843994 }, "pca_coordinates": { "x": 4.726691246032715, "y": -3.2922816276550293, "z": 0.027359187602996826 }, "axis_scores": { "Quantum imaging": 0.7282454967498779, "Quantum Life Science Sensing": 0.7284582257270813, "Quantum sensing Detection": 0.7309797406196594, "Quantum sensing Metrology": 0.709411084651947, "Quantum sensing navigation": 0.7289756536483765, "Quantum sensing Position": 0.7071999311447144, "Quantum sensing Timing": 0.6822502613067627, "Quantum sensing": 0.7378592491149902, "Quantum control": 0.705374002456665 } }, { "id": 1832, "title": "Constraining modified gravity with quantum optomechanics", "abstract": "We derive the best possible bounds that can be placed on Yukawa- and chameleon-like modifications to the Newtonian gravitational potential with a cavity optomechanical quantum sensor. By modelling the...", "citations": 12, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1834, "doi": "10.1088/1367-2630/ac3e1b", "umap_coordinates": { "x": 395.6828918457031, "y": 135.89329528808594, "z": 206.51040649414062 }, "tsne_coordinates": { "x": -30.630599975585938, "y": -6.73050594329834, "z": -14.232809066772461 }, "pca_coordinates": { "x": 0.5931830406188965, "y": 4.201596260070801, "z": 1.1537365913391113 }, "axis_scores": { "Quantum imaging": 0.7373765110969543, "Quantum Life Science Sensing": 0.7336053252220154, "Quantum sensing Detection": 0.7329532504081726, "Quantum sensing Metrology": 0.743874192237854, "Quantum sensing navigation": 0.7702640295028687, "Quantum sensing Position": 0.7206511497497559, "Quantum sensing Timing": 0.7145163416862488, "Quantum sensing": 0.7491536140441895, "Quantum control": 0.7457041144371033 } }, { "id": 1833, "title": "Effect of a Phonon Bottleneck on Exciton and Spin Generation in Self-Assembled In1-xGaxAs Quantum Dots", "abstract": "We provide direct experimental evidence for the effect of a phonon bottleneck on exciton and spin generation in self-assembled In0.5Ga0.5As quantum dots (QDs). With the aid of tunable laser spectrosco...", "citations": 5, "author_count": 6, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1835, "doi": "10.1103/PhysRevApplied.9.044037", "umap_coordinates": { "x": 392.8670349121094, "y": 134.76812744140625, "z": 208.6747283935547 }, "tsne_coordinates": { "x": 12.377135276794434, "y": -29.94411277770996, "z": -1.9376115798950195 }, "pca_coordinates": { "x": 3.0214877128601074, "y": -2.8319497108459473, "z": 0.42496877908706665 }, "axis_scores": { "Quantum imaging": 0.7092469930648804, "Quantum Life Science Sensing": 0.7012466788291931, "Quantum sensing Detection": 0.7058521509170532, "Quantum sensing Metrology": 0.7014527320861816, "Quantum sensing navigation": 0.7132331728935242, "Quantum sensing Position": 0.7026883959770203, "Quantum sensing Timing": 0.6911892890930176, "Quantum sensing": 0.7178683280944824, "Quantum control": 0.7082485556602478 } }, { "id": 1834, "title": "QCA-Based PIPO and SIPO Shift Registers Using Cost-Optimized and Energy-Efficient D Flip Flop", "abstract": "With the growing use of quantum-dot cellular automata (QCA) nanotechnology, digital circuits designed at the Nanoscale have a number of advantages over CMOS devices, including the lower utilization of...", "citations": 7, "author_count": 7, "categories": [ "Computer Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1836, "doi": "10.3390/electronics11193237", "umap_coordinates": { "x": 393.1130676269531, "y": 134.54371643066406, "z": 205.41883850097656 }, "tsne_coordinates": { "x": -10.216299057006836, "y": 10.105270385742188, "z": 0.4922386705875397 }, "pca_coordinates": { "x": -2.088677406311035, "y": -0.4783456325531006, "z": 0.5347763895988464 }, "axis_scores": { "Quantum imaging": 0.7188993096351624, "Quantum Life Science Sensing": 0.7225610017776489, "Quantum sensing Detection": 0.7151371836662292, "Quantum sensing Metrology": 0.7166550159454346, "Quantum sensing navigation": 0.6976423263549805, "Quantum sensing Position": 0.6893836259841919, "Quantum sensing Timing": 0.7209071516990662, "Quantum sensing": 0.7393136620521545, "Quantum control": 0.7242009043693542 } }, { "id": 1835, "title": "Cubic AgBiS2 Colloidal Nanocrystals for Solar Cells", "abstract": "Recent progress in colloidal quantum dot (CQD)-based solar cells indicates that low-toxicity materials such as AgBiS2 nanocrystals (NCs) show potential in replacing toxic PbS and CdS CQDs in solar cel...", "citations": 55, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1837, "doi": "10.1021/acsanm.9b02443", "umap_coordinates": { "x": 391.8367614746094, "y": 133.81207275390625, "z": 205.65574645996094 }, "tsne_coordinates": { "x": 18.93288230895996, "y": 0.2979307770729065, "z": -12.531720161437988 }, "pca_coordinates": { "x": -3.1432318687438965, "y": -4.985640525817871, "z": -2.5965378284454346 }, "axis_scores": { "Quantum imaging": 0.6670464873313904, "Quantum Life Science Sensing": 0.7037659883499146, "Quantum sensing Detection": 0.6775041818618774, "Quantum sensing Metrology": 0.6930403709411621, "Quantum sensing navigation": 0.6758940815925598, "Quantum sensing Position": 0.6588435173034668, "Quantum sensing Timing": 0.6428037881851196, "Quantum sensing": 0.6840084791183472, "Quantum control": 0.6692469120025635 } }, { "id": 1836, "title": "QUANTUM STATE CONTROL IN SEMICONDUCTOR-PN-JUNCTIONS .2. CONTROLLED SPONTANEOUS EMISSION IN QUANTUM-WELL MICROCAVITY LASERS", "abstract": "The principles and applications of controlled spontaneous emission in semiconductor microcavities are reviewed. The coupling efficiency of spontaneous emission into a lasing mode and the spontaneous e...", "citations": 9, "author_count": 6, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 1838, "doi": "10.1142/S0217979293002511", "umap_coordinates": { "x": 392.9234313964844, "y": 134.6155548095703, "z": 207.0517578125 }, "tsne_coordinates": { "x": 29.02740478515625, "y": -2.7131404876708984, "z": 3.44789457321167 }, "pca_coordinates": { "x": 0.3252995014190674, "y": -2.0827484130859375, "z": 1.0599005222320557 }, "axis_scores": { "Quantum imaging": 0.716795802116394, "Quantum Life Science Sensing": 0.7365055084228516, "Quantum sensing Detection": 0.7316404581069946, "Quantum sensing Metrology": 0.7246152758598328, "Quantum sensing navigation": 0.748934805393219, "Quantum sensing Position": 0.7093259692192078, "Quantum sensing Timing": 0.7028869390487671, "Quantum sensing": 0.743186354637146, "Quantum control": 0.7613072395324707 } }, { "id": 1837, "title": "Electro-mechanical Casimir effect", "abstract": "The dynamical Casimir effect is an intriguing phenomenon in which photons are generated from vacuum due to a non-adiabatic change in some boundary conditions. In particular, it connects the motion of ...", "citations": 21, "author_count": 5, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1839, "doi": "10.22331/q-2018-09-03-91", "umap_coordinates": { "x": 394.82623291015625, "y": 136.97181701660156, "z": 206.5099639892578 }, "tsne_coordinates": { "x": -18.264097213745117, "y": 9.002599716186523, "z": 24.786746978759766 }, "pca_coordinates": { "x": 0.5264849662780762, "y": 3.3823604583740234, "z": -2.5854227542877197 }, "axis_scores": { "Quantum imaging": 0.7498946785926819, "Quantum Life Science Sensing": 0.7532874345779419, "Quantum sensing Detection": 0.7389373183250427, "Quantum sensing Metrology": 0.7437974214553833, "Quantum sensing navigation": 0.7388592958450317, "Quantum sensing Position": 0.71934574842453, "Quantum sensing Timing": 0.6962794661521912, "Quantum sensing": 0.7551039457321167, "Quantum control": 0.7652015089988708 } }, { "id": 1838, "title": "Quantum control of energy flow in light harvesting", "abstract": "Coherent light sources have been widely used in control schemes that exploit quantum interference effects to direct the outcome of photochemical processes. The adaptive shaping of laser pulses is a pa...", "citations": 673, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1840, "doi": "10.1038/417533a", "umap_coordinates": { "x": 393.8704528808594, "y": 136.0244903564453, "z": 205.65174865722656 }, "tsne_coordinates": { "x": 11.240728378295898, "y": -6.682286262512207, "z": 21.508644104003906 }, "pca_coordinates": { "x": 0.8248035907745361, "y": -0.288785457611084, "z": -1.0893664360046387 }, "axis_scores": { "Quantum imaging": 0.7496694326400757, "Quantum Life Science Sensing": 0.7522724270820618, "Quantum sensing Detection": 0.744518518447876, "Quantum sensing Metrology": 0.7170223593711853, "Quantum sensing navigation": 0.7380639314651489, "Quantum sensing Position": 0.7106918692588806, "Quantum sensing Timing": 0.7006217241287231, "Quantum sensing": 0.7613547444343567, "Quantum control": 0.7690272331237793 } }, { "id": 1839, "title": "Photocatalytic waste-to-renewable energy nexus using solar light induced quantum dots", "abstract": "Modern green transition obligations support a circular economy to maximize the use of existing resources, where climate-neutral net-zero energy goals argue for a hydrogen economy to minimize the energ...", "citations": 9, "author_count": 10, "categories": [ "Thermodynamics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1841, "doi": "10.1016/j.enconman.2023.116917", "umap_coordinates": { "x": 393.030517578125, "y": 133.88247680664062, "z": 205.00987243652344 }, "tsne_coordinates": { "x": 25.416919708251953, "y": 10.345952987670898, "z": -10.903103828430176 }, "pca_coordinates": { "x": -3.55570912361145, "y": -1.2311062812805176, "z": 0.4210965037345886 }, "axis_scores": { "Quantum imaging": 0.7088029384613037, "Quantum Life Science Sensing": 0.7386023998260498, "Quantum sensing Detection": 0.71383136510849, "Quantum sensing Metrology": 0.6992123126983643, "Quantum sensing navigation": 0.6976490020751953, "Quantum sensing Position": 0.6789084672927856, "Quantum sensing Timing": 0.6773441433906555, "Quantum sensing": 0.722197949886322, "Quantum control": 0.6925825476646423 } }, { "id": 1840, "title": "Controlled operations in a strongly correlated two-electron quantum ring", "abstract": "We have analyzed the electronic spectrum and wave-function characteristics of a strongly correlated two-electron quantum ring with model parameters close to those observed in experiments. The analysis...", "citations": 9, "author_count": 5, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1842, "doi": "10.1103/PhysRevB.79.115318", "umap_coordinates": { "x": 394.6595153808594, "y": 136.06964111328125, "z": 208.39273071289062 }, "tsne_coordinates": { "x": -25.45677947998047, "y": -29.7603816986084, "z": -6.744019508361816 }, "pca_coordinates": { "x": 4.0551958084106445, "y": -0.259779691696167, "z": 0.33784061670303345 }, "axis_scores": { "Quantum imaging": 0.7259910702705383, "Quantum Life Science Sensing": 0.7086806297302246, "Quantum sensing Detection": 0.7453786134719849, "Quantum sensing Metrology": 0.7137545347213745, "Quantum sensing navigation": 0.7222979068756104, "Quantum sensing Position": 0.6934181451797485, "Quantum sensing Timing": 0.710206151008606, "Quantum sensing": 0.7528390884399414, "Quantum control": 0.7703053951263428 } }, { "id": 1841, "title": "Topology optimization of optical nanoantennas with desired multipoles", "abstract": "Engineering the field scattered by an object is an important problem across the entire electromagnetic spectrum. For example, directional scattering achieved by means of nanoantennas is sought for app...", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1843, "doi": "10.1364/OE.559578", "umap_coordinates": { "x": 393.7364807128906, "y": 134.1237030029297, "z": 206.55914306640625 }, "tsne_coordinates": { "x": 1.051587462425232, "y": -15.423288345336914, "z": -37.825477600097656 }, "pca_coordinates": { "x": -0.8898991942405701, "y": -0.17304706573486328, "z": 0.8367387652397156 }, "axis_scores": { "Quantum imaging": 0.7181601524353027, "Quantum Life Science Sensing": 0.7039333581924438, "Quantum sensing Detection": 0.6845251321792603, "Quantum sensing Metrology": 0.7215294241905212, "Quantum sensing navigation": 0.7130216360092163, "Quantum sensing Position": 0.6944169402122498, "Quantum sensing Timing": 0.6686791181564331, "Quantum sensing": 0.7048718333244324, "Quantum control": 0.7050896883010864 } }, { "id": 1842, "title": "Exploring the Intrinsic Point Defects in Cesium Copper Halides", "abstract": "Cesium copper halides Cs3Cu2X5 (X = CI, Br, and I) have attracted much attention for optoelectronic applications because of their self-trap excitons and high photoluminescence quantum yield. Intrinsic...", "citations": 28, "author_count": 5, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1844, "doi": "10.1021/acs.jpcc.0c11216", "umap_coordinates": { "x": 392.4826965332031, "y": 135.30958557128906, "z": 206.0077362060547 }, "tsne_coordinates": { "x": 23.50655174255371, "y": 2.6114554405212402, "z": 0.4289903938770294 }, "pca_coordinates": { "x": -1.047574758529663, "y": -0.9437479972839355, "z": -1.7167840003967285 }, "axis_scores": { "Quantum imaging": 0.7117231488227844, "Quantum Life Science Sensing": 0.7150614857673645, "Quantum sensing Detection": 0.7054774761199951, "Quantum sensing Metrology": 0.6812725067138672, "Quantum sensing navigation": 0.6956385374069214, "Quantum sensing Position": 0.6857360005378723, "Quantum sensing Timing": 0.676680326461792, "Quantum sensing": 0.7139992117881775, "Quantum control": 0.7041560411453247 } }, { "id": 1843, "title": "A photon-counting silicon-strip detector for digital mammography with an ultrafast 0.18-μm CMOS ASIC", "abstract": "We have evaluated a silicon-strip detector with a 0.18-mu m CMOS application specific integrated circuits (ASIC) containing 160 channels for use in photon-counting digital mammography. Measurements we...", "citations": 5, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1845, "doi": "10.1016/j.nima.2014.02.033", "umap_coordinates": { "x": 394.9331359863281, "y": 132.6898193359375, "z": 205.58424377441406 }, "tsne_coordinates": { "x": -16.40907859802246, "y": 17.06490135192871, "z": -14.413063049316406 }, "pca_coordinates": { "x": -2.5002012252807617, "y": -0.6744136810302734, "z": 5.204343795776367 }, "axis_scores": { "Quantum imaging": 0.7238271832466125, "Quantum Life Science Sensing": 0.7236289978027344, "Quantum sensing Detection": 0.7357516884803772, "Quantum sensing Metrology": 0.7244106531143188, "Quantum sensing navigation": 0.704532265663147, "Quantum sensing Position": 0.6886974573135376, "Quantum sensing Timing": 0.6950686573982239, "Quantum sensing": 0.725708544254303, "Quantum control": 0.6357349753379822 } }, { "id": 1844, "title": "Driven Bose-Hubbard dimer under nonlocal dissipation: A bistable time crystal", "abstract": "We investigate the critical behavior of the open coherently-driven Bose-Hubbard dimer under nonlocal dissipation. A conserved quantity arises from the nonlocal nature of the dissipation, rendering the...", "citations": 54, "author_count": 4, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1846, "doi": "10.1103/PhysRevB.100.054303", "umap_coordinates": { "x": 394.326904296875, "y": 136.70314025878906, "z": 208.13804626464844 }, "tsne_coordinates": { "x": -13.589608192443848, "y": -18.32539176940918, "z": 15.076422691345215 }, "pca_coordinates": { "x": 3.409088611602783, "y": -1.0270986557006836, "z": -1.4531958103179932 }, "axis_scores": { "Quantum imaging": 0.7172514200210571, "Quantum Life Science Sensing": 0.7261466979980469, "Quantum sensing Detection": 0.7194777131080627, "Quantum sensing Metrology": 0.6890071630477905, "Quantum sensing navigation": 0.7058997750282288, "Quantum sensing Position": 0.6597570776939392, "Quantum sensing Timing": 0.7086089849472046, "Quantum sensing": 0.719171404838562, "Quantum control": 0.7142918705940247 } }, { "id": 1845, "title": "Identification of metabolites from 2D 1H-13C HSQC NMR using peak correlation plots", "abstract": "Background: Identification of individual components in complex mixtures is an important and sometimes daunting task in several research areas like metabolomics and natural product studies. NMR spectro...", "citations": 30, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1847, "doi": "10.1186/s12859-014-0413-z", "umap_coordinates": { "x": 392.6242370605469, "y": 137.11798095703125, "z": 206.26287841796875 }, "tsne_coordinates": { "x": 12.950010299682617, "y": 8.20412540435791, "z": 30.436389923095703 }, "pca_coordinates": { "x": -3.0905470848083496, "y": 4.027321815490723, "z": -1.3793139457702637 }, "axis_scores": { "Quantum imaging": 0.6884478330612183, "Quantum Life Science Sensing": 0.6886494755744934, "Quantum sensing Detection": 0.6688642501831055, "Quantum sensing Metrology": 0.6650702953338623, "Quantum sensing navigation": 0.6786558628082275, "Quantum sensing Position": 0.6645799875259399, "Quantum sensing Timing": 0.6668521165847778, "Quantum sensing": 0.6700991988182068, "Quantum control": 0.659342348575592 } }, { "id": 1846, "title": "Direct vs Delayed Triplet Energy Transfer from Organic Semiconductors to Quantum Dots and Implications for Luminescent Harvesting of Triplet Excitons", "abstract": "Hybrid inorganic-organic materials such as quantum dots (QDs) coupled with organic semiconductors have a wide range of optoelectronic applications, taking advantage of the respective materials' streng...", "citations": 49, "author_count": 10, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1848, "doi": "10.1021/acsnano.9b09339", "umap_coordinates": { "x": 391.7966613769531, "y": 135.371337890625, "z": 206.15480041503906 }, "tsne_coordinates": { "x": 18.381868362426758, "y": 1.7900644540786743, "z": 8.68624496459961 }, "pca_coordinates": { "x": -2.218512535095215, "y": -3.5114035606384277, "z": -1.252209186553955 }, "axis_scores": { "Quantum imaging": 0.6743360757827759, "Quantum Life Science Sensing": 0.7029391527175903, "Quantum sensing Detection": 0.6894441843032837, "Quantum sensing Metrology": 0.6508796215057373, "Quantum sensing navigation": 0.6585771441459656, "Quantum sensing Position": 0.6497810482978821, "Quantum sensing Timing": 0.6778730154037476, "Quantum sensing": 0.6866549849510193, "Quantum control": 0.6517207622528076 } }, { "id": 1847, "title": "Lattice Engineering via Transition Metal Ions for Boosting Photoluminescence Quantum Yields of Lead-Free Layered Double Perovskite Nanocrystals", "abstract": "Lead-free layered double perovskite nanocrystals (NCs), i.e., Cs4M(II)M(III)(2)Cl-12, have recently attracted increasing attention for potential optoelectronic applications due to their low toxicity, ...", "citations": 5, "author_count": 11, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1849, "doi": "10.1002/smll.202401051", "umap_coordinates": { "x": 391.88128662109375, "y": 133.71495056152344, "z": 205.69126892089844 }, "tsne_coordinates": { "x": 27.210519790649414, "y": -0.03432406485080719, "z": -21.35963249206543 }, "pca_coordinates": { "x": -3.6513781547546387, "y": -3.983553409576416, "z": -0.5981411933898926 }, "axis_scores": { "Quantum imaging": 0.7123205065727234, "Quantum Life Science Sensing": 0.7081076502799988, "Quantum sensing Detection": 0.690190851688385, "Quantum sensing Metrology": 0.6994567513465881, "Quantum sensing navigation": 0.6839280128479004, "Quantum sensing Position": 0.6679309010505676, "Quantum sensing Timing": 0.6665924191474915, "Quantum sensing": 0.7019283175468445, "Quantum control": 0.6878141164779663 } }, { "id": 1848, "title": "Quantum dots in aperiodic order", "abstract": "We study numerically with a Green-function technique one-dimensional arrays of quantum dots with two different models. The arrays are ordered according to the Fibonacci, the Thue-Morse, and the Rudin-...", "citations": 5, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1850, "doi": "10.1016/S1386-9477(98)00208-2", "umap_coordinates": { "x": 392.5727233886719, "y": 135.12794494628906, "z": 207.5875244140625 }, "tsne_coordinates": { "x": 10.764017105102539, "y": -16.42686653137207, "z": 11.464399337768555 }, "pca_coordinates": { "x": 0.8565685749053955, "y": -2.7932486534118652, "z": -0.5898706912994385 }, "axis_scores": { "Quantum imaging": 0.7342939972877502, "Quantum Life Science Sensing": 0.7324071526527405, "Quantum sensing Detection": 0.7284330725669861, "Quantum sensing Metrology": 0.7310951948165894, "Quantum sensing navigation": 0.7196815013885498, "Quantum sensing Position": 0.7267663478851318, "Quantum sensing Timing": 0.7443820834159851, "Quantum sensing": 0.7386048436164856, "Quantum control": 0.7111126184463501 } }, { "id": 1849, "title": "Transient behaviour of quantum-dot saturable absorber mirrors at varying excitation fluence", "abstract": "We present results from studying the carrier dynamics in self-assembled InAs/GaAs quantum-dot saturable absorbers intended for mode-locking of solid-state lasers. Four samples are examined, featuring ...", "citations": 2, "author_count": 4, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1851, "doi": "10.1007/s00340-014-5778-1", "umap_coordinates": { "x": 393.6336975097656, "y": 135.55255126953125, "z": 205.58734130859375 }, "tsne_coordinates": { "x": 15.452116012573242, "y": 4.092750072479248, "z": 15.920966148376465 }, "pca_coordinates": { "x": -2.0973262786865234, "y": -1.0329093933105469, "z": -0.011568963527679443 }, "axis_scores": { "Quantum imaging": 0.673641562461853, "Quantum Life Science Sensing": 0.6992637515068054, "Quantum sensing Detection": 0.6649643182754517, "Quantum sensing Metrology": 0.6559207439422607, "Quantum sensing navigation": 0.6503274440765381, "Quantum sensing Position": 0.6513701677322388, "Quantum sensing Timing": 0.6497852206230164, "Quantum sensing": 0.6727472543716431, "Quantum control": 0.6451111435890198 } }, { "id": 1850, "title": "Quantum dynamics using a discretized coherent state representation: An adaptive phase space method", "abstract": "We introduce a discretized coherent state representation (DCSR) for quantum dynamics. Expansion of a wave function in the nonorthogonal slightly overcomplete set is made with an identity operator comp...", "citations": 32, "author_count": 2, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1852, "doi": null, "umap_coordinates": { "x": 392.3101806640625, "y": 139.02854919433594, "z": 208.85450744628906 }, "tsne_coordinates": { "x": -14.709715843200684, "y": 45.56321334838867, "z": -1.155405044555664 }, "pca_coordinates": { "x": 2.6738739013671875, "y": 3.903353452682495, "z": -1.886768102645874 }, "axis_scores": { "Quantum imaging": 0.7641066908836365, "Quantum Life Science Sensing": 0.7455339431762695, "Quantum sensing Detection": 0.7467078566551208, "Quantum sensing Metrology": 0.720242440700531, "Quantum sensing navigation": 0.7825835943222046, "Quantum sensing Position": 0.7391065359115601, "Quantum sensing Timing": 0.7273514270782471, "Quantum sensing": 0.7569290399551392, "Quantum control": 0.777908980846405 } }, { "id": 1851, "title": "Time-Resolved Photoluminescence Spectroscopy of Exciton-Plasmon Coupling Dynamics", "abstract": "In this review, we provide a brief overview of the recent progress achieved on the plasmon-enhanced fluorescence technique for the study of exciton-plasmon interactions using time-resolved photolumine...", "citations": 11, "author_count": 7, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1853, "doi": "10.1007/s11468-014-9805-1", "umap_coordinates": { "x": 393.3545227050781, "y": 135.28306579589844, "z": 206.04226684570312 }, "tsne_coordinates": { "x": 15.335030555725098, "y": 4.785235404968262, "z": 12.979198455810547 }, "pca_coordinates": { "x": -1.2759515047073364, "y": -1.177119493484497, "z": 0.038538992404937744 }, "axis_scores": { "Quantum imaging": 0.7093914747238159, "Quantum Life Science Sensing": 0.7257312536239624, "Quantum sensing Detection": 0.7056025862693787, "Quantum sensing Metrology": 0.6886125802993774, "Quantum sensing navigation": 0.6914826035499573, "Quantum sensing Position": 0.693539559841156, "Quantum sensing Timing": 0.7058993577957153, "Quantum sensing": 0.7102233171463013, "Quantum control": 0.6789098381996155 } }, { "id": 1852, "title": "The optimized quantum dot mediated thermometry reveals isoform specific differences in efficiency of myosin extracted from muscle mini bundles", "abstract": "The biophysical function of myosin in vitro has been extensively investigated in different motility assays, but the study of myosin ATPase properties at the fiber level is insufficiently investigated....", "citations": 2, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1854, "doi": "10.1016/j.abb.2022.109212", "umap_coordinates": { "x": 394.0538330078125, "y": 135.32534790039062, "z": 205.29519653320312 }, "tsne_coordinates": { "x": 1.4008640050888062, "y": 29.32367706298828, "z": 28.089574813842773 }, "pca_coordinates": { "x": -1.653329610824585, "y": 0.5423918962478638, "z": 0.46701687574386597 }, "axis_scores": { "Quantum imaging": 0.7215282320976257, "Quantum Life Science Sensing": 0.7177704572677612, "Quantum sensing Detection": 0.7138764262199402, "Quantum sensing Metrology": 0.7151457071304321, "Quantum sensing navigation": 0.6973985433578491, "Quantum sensing Position": 0.7058782577514648, "Quantum sensing Timing": 0.6824700832366943, "Quantum sensing": 0.7233961820602417, "Quantum control": 0.6957410573959351 } }, { "id": 1853, "title": "A low field superconducting quantum interference device magnetometer for dynamic measurements", "abstract": "A superconducting quantum interference device magnetometer system designed for low field static and dynamic susceptibility measurements is described. Magnetic shields reduce the residual field in the ...", "citations": 57, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1855, "doi": "10.1063/1.1148023", "umap_coordinates": { "x": 394.1164855957031, "y": 135.0602569580078, "z": 207.85939025878906 }, "tsne_coordinates": { "x": -16.263235092163086, "y": -36.38060760498047, "z": 26.043840408325195 }, "pca_coordinates": { "x": 2.9756336212158203, "y": 0.8886150121688843, "z": -0.18817463517189026 }, "axis_scores": { "Quantum imaging": 0.7161442041397095, "Quantum Life Science Sensing": 0.7375531196594238, "Quantum sensing Detection": 0.7254304885864258, "Quantum sensing Metrology": 0.7242450714111328, "Quantum sensing navigation": 0.728288471698761, "Quantum sensing Position": 0.7041350603103638, "Quantum sensing Timing": 0.6927937865257263, "Quantum sensing": 0.7362910509109497, "Quantum control": 0.7160292863845825 } }, { "id": 1854, "title": "Dynamics of four-wave mixing on excitons in a quantum optical microcavity", "abstract": "A theory of degenerate four-wave mixing in a semiconductor optical cavity with quantum wells is constructed. The nonlinear response of a microcavity can be four to five orders of magnitude stronger th...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1856, "doi": "10.1134/1.567250", "umap_coordinates": { "x": 393.43060302734375, "y": 135.67347717285156, "z": 207.5614776611328 }, "tsne_coordinates": { "x": -2.1091058254241943, "y": -4.204893112182617, "z": 8.312707901000977 }, "pca_coordinates": { "x": 3.033316135406494, "y": -0.7600765228271484, "z": -0.425286203622818 }, "axis_scores": { "Quantum imaging": 0.7364203333854675, "Quantum Life Science Sensing": 0.7037087678909302, "Quantum sensing Detection": 0.7260894775390625, "Quantum sensing Metrology": 0.7037280797958374, "Quantum sensing navigation": 0.7152588963508606, "Quantum sensing Position": 0.6910089254379272, "Quantum sensing Timing": 0.6990147829055786, "Quantum sensing": 0.7347109317779541, "Quantum control": 0.7328757643699646 } }, { "id": 1855, "title": "Theoretical Evaluation on Potential Cytotoxicity of Graphene Quantum Dots", "abstract": "Owing to unique morphology, ultrasmall lateral sizes, and exceptional properties, graphene quantum dots (GQDs) hold great potential in many applications, especially in the field of electrochemical bio...", "citations": 81, "author_count": 7, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1857, "doi": "10.1021/acsbiomaterials.6b00390", "umap_coordinates": { "x": 393.2250061035156, "y": 134.43077087402344, "z": 204.4190216064453 }, "tsne_coordinates": { "x": 18.02519989013672, "y": 22.212610244750977, "z": -1.770559310913086 }, "pca_coordinates": { "x": -3.0526533126831055, "y": -1.4568405151367188, "z": -1.9728119373321533 }, "axis_scores": { "Quantum imaging": 0.701036810874939, "Quantum Life Science Sensing": 0.7506630420684814, "Quantum sensing Detection": 0.7008509635925293, "Quantum sensing Metrology": 0.671271800994873, "Quantum sensing navigation": 0.6769407987594604, "Quantum sensing Position": 0.6814520955085754, "Quantum sensing Timing": 0.6569249629974365, "Quantum sensing": 0.7026315927505493, "Quantum control": 0.6783819198608398 } }, { "id": 1856, "title": "Growth of metamorphic InGaP layers on GaAs substrates", "abstract": "We report on the growth of InGaP metamorphic layer by gas source molecular-beam epitaxy. After optimization of the growth temperatures of the compositionally graded InGaP layer and the indium content ...", "citations": 2, "author_count": 9, "categories": [ "Crystallography" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1858, "doi": "10.1016/j.jcrysgro.2012.12.138", "umap_coordinates": { "x": 393.2604064941406, "y": 133.6873016357422, "z": 206.39694213867188 }, "tsne_coordinates": { "x": 43.66224670410156, "y": 3.7540740966796875, "z": -4.242493629455566 }, "pca_coordinates": { "x": -1.2658679485321045, "y": -0.9016745090484619, "z": 0.7307819724082947 }, "axis_scores": { "Quantum imaging": 0.7248083353042603, "Quantum Life Science Sensing": 0.7109485268592834, "Quantum sensing Detection": 0.7087230086326599, "Quantum sensing Metrology": 0.7074266672134399, "Quantum sensing navigation": 0.68580162525177, "Quantum sensing Position": 0.6834192872047424, "Quantum sensing Timing": 0.6919873952865601, "Quantum sensing": 0.7200655937194824, "Quantum control": 0.6789577007293701 } }, { "id": 1857, "title": "Ballistic electrons in an open square geometry: Selective probing of resonant-energy states", "abstract": "We report on the interplay between classical trajectories and quantum-mechanical effects in a square geometry. At low magnetic fields the four-terminal resistance is dominated by phenomena that depend...", "citations": 71, "author_count": 5, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1859, "doi": "10.1103/PhysRevB.55.R10209", "umap_coordinates": { "x": 394.0771179199219, "y": 135.85067749023438, "z": 208.3384552001953 }, "tsne_coordinates": { "x": -4.467352390289307, "y": -32.91860580444336, "z": -1.386250615119934 }, "pca_coordinates": { "x": 2.6656227111816406, "y": -2.1640849113464355, "z": -0.27732372283935547 }, "axis_scores": { "Quantum imaging": 0.7269536256790161, "Quantum Life Science Sensing": 0.7441514134407043, "Quantum sensing Detection": 0.7612069249153137, "Quantum sensing Metrology": 0.7368384003639221, "Quantum sensing navigation": 0.7557181119918823, "Quantum sensing Position": 0.7242804169654846, "Quantum sensing Timing": 0.6811342835426331, "Quantum sensing": 0.7657158374786377, "Quantum control": 0.7125799655914307 } }, { "id": 1858, "title": "Electrical control of quantum acoustics", "abstract": "The phase, frequency and amplitude of gigahertz acoustic waves can be electrically controlled in a lithium niobate waveguide at millikelvin temperatures....", "citations": 2, "author_count": 2, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1860, "doi": "10.1038/s41928-022-00786-y", "umap_coordinates": { "x": 394.0486755371094, "y": 136.0443572998047, "z": 206.30467224121094 }, "tsne_coordinates": { "x": 10.80134105682373, "y": -8.376348495483398, "z": 21.210960388183594 }, "pca_coordinates": { "x": 0.5658800601959229, "y": 0.41019463539123535, "z": -0.6604647636413574 }, "axis_scores": { "Quantum imaging": 0.7391528487205505, "Quantum Life Science Sensing": 0.7475453019142151, "Quantum sensing Detection": 0.7359293699264526, "Quantum sensing Metrology": 0.7284945845603943, "Quantum sensing navigation": 0.7445103526115417, "Quantum sensing Position": 0.7234724164009094, "Quantum sensing Timing": 0.7164925932884216, "Quantum sensing": 0.7579916715621948, "Quantum control": 0.7761471271514893 } }, { "id": 1859, "title": "Estimating terrestrial gross primary productivity in water limited ecosystems across Africa using the Southampton Carbon Flux (SCARF) model", "abstract": "The amount of carbon uptake by vegetation is an important component to understand the functioning of ecosystem processes and their response /feedback to climate. Recently, a new diagnostic model calle...", "citations": 9, "author_count": 8, "categories": [ "Environmental Sciences & Ecology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1861, "doi": "10.1016/j.scitotenv.2018.02.314", "umap_coordinates": { "x": 393.7728271484375, "y": 135.61126708984375, "z": 203.66513061523438 }, "tsne_coordinates": { "x": 18.75620460510254, "y": 36.57378005981445, "z": 5.141825199127197 }, "pca_coordinates": { "x": -4.000558376312256, "y": 2.4209165573120117, "z": -0.2774543762207031 }, "axis_scores": { "Quantum imaging": 0.6676152944564819, "Quantum Life Science Sensing": 0.7199287414550781, "Quantum sensing Detection": 0.6661517024040222, "Quantum sensing Metrology": 0.6889889240264893, "Quantum sensing navigation": 0.6719370484352112, "Quantum sensing Position": 0.63353031873703, "Quantum sensing Timing": 0.6438260078430176, "Quantum sensing": 0.6872735619544983, "Quantum control": 0.6602339148521423 } }, { "id": 1860, "title": "Valence-electron dispersion of close-packed Li determined by photoemission from thin films on Cu(111)", "abstract": "The dispersion of valence electrons in the perpendicular direction of (111)-oriented Li films formed by evaporation of the alkali metal onto Cull (111) is studied by photoemission (hv = 4.5 - 26 eV). ...", "citations": 10, "author_count": 4, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 1862, "doi": "10.1103/PhysRevB.60.5217", "umap_coordinates": { "x": 393.7296142578125, "y": 135.6429443359375, "z": 209.34323120117188 }, "tsne_coordinates": { "x": 11.503302574157715, "y": -42.94020462036133, "z": -1.221976637840271 }, "pca_coordinates": { "x": 2.6215527057647705, "y": -2.843726634979248, "z": -0.21209749579429626 }, "axis_scores": { "Quantum imaging": 0.6768180727958679, "Quantum Life Science Sensing": 0.716620922088623, "Quantum sensing Detection": 0.6831544041633606, "Quantum sensing Metrology": 0.6682969331741333, "Quantum sensing navigation": 0.6854854822158813, "Quantum sensing Position": 0.686911940574646, "Quantum sensing Timing": 0.627928614616394, "Quantum sensing": 0.6932976245880127, "Quantum control": 0.6512240171432495 } }, { "id": 1861, "title": "Quantum Integers", "abstract": "In number theory, a partition of a positive integer n is a way of writing n as a sum of positive integers. The number of partitions of n is given by the partition function p(n). Inspired by quantum in...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1863, "doi": "10.1063/1.3431505", "umap_coordinates": { "x": 394.1012878417969, "y": 136.90122985839844, "z": 207.330810546875 }, "tsne_coordinates": { "x": -14.146161079406738, "y": -10.102741241455078, "z": 30.2757568359375 }, "pca_coordinates": { "x": 3.6432552337646484, "y": 0.1393446922302246, "z": -0.584385871887207 }, "axis_scores": { "Quantum imaging": 0.809772253036499, "Quantum Life Science Sensing": 0.806536078453064, "Quantum sensing Detection": 0.8057556748390198, "Quantum sensing Metrology": 0.8057563304901123, "Quantum sensing navigation": 0.8023946285247803, "Quantum sensing Position": 0.7856299877166748, "Quantum sensing Timing": 0.7875416874885559, "Quantum sensing": 0.8307172656059265, "Quantum control": 0.7920318245887756 } }, { "id": 1862, "title": "Balancing Electron Transfer and Surface Passivation in Gradient CdSe/ZnS Core-Shell Quantum Dots Attached to ZnO", "abstract": "Core-shell (CS) quantum dots (QDs) are promising light absorbers for solar cell applications mainly because of their enhanced photostability compared with bare QDs. Moreover, the superb photostability...", "citations": 65, "author_count": 7, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1864, "doi": "10.1021/jz4006459", "umap_coordinates": { "x": 391.9382019042969, "y": 134.38265991210938, "z": 206.21554565429688 }, "tsne_coordinates": { "x": 19.32501220703125, "y": -7.6527791023254395, "z": 1.4283528327941895 }, "pca_coordinates": { "x": -1.7345279455184937, "y": -3.2199807167053223, "z": -2.506387948989868 }, "axis_scores": { "Quantum imaging": 0.6859976649284363, "Quantum Life Science Sensing": 0.7114901542663574, "Quantum sensing Detection": 0.6853667497634888, "Quantum sensing Metrology": 0.6879349946975708, "Quantum sensing navigation": 0.7177229523658752, "Quantum sensing Position": 0.7024950981140137, "Quantum sensing Timing": 0.6623771786689758, "Quantum sensing": 0.6996378302574158, "Quantum control": 0.7130693197250366 } }, { "id": 1863, "title": "Longitudinal spin relaxation model applied to point-defect qubit systems", "abstract": "Controllable, partially isolated few-level systems in semiconductors have recently gained multidisciplinary attention due to their widespread nanoscale sensing and quantum technology applications. Qua...", "citations": 23, "author_count": 2, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1865, "doi": "10.1103/PhysRevB.101.155203", "umap_coordinates": { "x": 394.03466796875, "y": 136.7572784423828, "z": 208.1033172607422 }, "tsne_coordinates": { "x": -9.899054527282715, "y": -29.30733299255371, "z": 26.443561553955078 }, "pca_coordinates": { "x": 3.838334083557129, "y": 0.2165088653564453, "z": -0.5912865996360779 }, "axis_scores": { "Quantum imaging": 0.7222424149513245, "Quantum Life Science Sensing": 0.7346182465553284, "Quantum sensing Detection": 0.7208889722824097, "Quantum sensing Metrology": 0.7062456607818604, "Quantum sensing navigation": 0.7324810028076172, "Quantum sensing Position": 0.7293104529380798, "Quantum sensing Timing": 0.7114159464836121, "Quantum sensing": 0.7299768924713135, "Quantum control": 0.7208769917488098 } }, { "id": 1864, "title": "Do Two-Dimensional Noble Gas Atoms Produce Molecular Honeycombs at a Metal Surface?", "abstract": "Anthraquinone self-assembles on Cu(111) into a giant honeycomb network with exactly three molecules on each side. Here we propose that the exceptional degree of order achieved in this system can be ex...", "citations": 39, "author_count": 14, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1866, "doi": "10.1021/nl201441b", "umap_coordinates": { "x": 392.8516845703125, "y": 135.66632080078125, "z": 206.69345092773438 }, "tsne_coordinates": { "x": 7.727791786193848, "y": -6.7291131019592285, "z": 6.029909610748291 }, "pca_coordinates": { "x": -0.09860503673553467, "y": -1.5287530422210693, "z": -2.5374441146850586 }, "axis_scores": { "Quantum imaging": 0.7087565660476685, "Quantum Life Science Sensing": 0.7118349671363831, "Quantum sensing Detection": 0.7099056839942932, "Quantum sensing Metrology": 0.6808852553367615, "Quantum sensing navigation": 0.7083419561386108, "Quantum sensing Position": 0.6864545345306396, "Quantum sensing Timing": 0.6576887369155884, "Quantum sensing": 0.7186635732650757, "Quantum control": 0.6898771524429321 } }, { "id": 1865, "title": "Experimental device-independent tests of classical and quantum dimensions", "abstract": "A fundamental resource in any communication and computation task is the amount of information that can be transmitted and processed. The classical information encoded in a set of states is limited by ...", "citations": 106, "author_count": 5, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1867, "doi": "10.1038/NPHYS2333", "umap_coordinates": { "x": 395.68353271484375, "y": 135.92835998535156, "z": 207.27015686035156 }, "tsne_coordinates": { "x": -23.916770935058594, "y": -7.200747966766357, "z": -8.578330039978027 }, "pca_coordinates": { "x": 1.0103545188903809, "y": 1.0390383005142212, "z": 2.406266689300537 }, "axis_scores": { "Quantum imaging": 0.7428458333015442, "Quantum Life Science Sensing": 0.7485896944999695, "Quantum sensing Detection": 0.7342930436134338, "Quantum sensing Metrology": 0.7268694043159485, "Quantum sensing navigation": 0.7391437888145447, "Quantum sensing Position": 0.7261581420898438, "Quantum sensing Timing": 0.6909461617469788, "Quantum sensing": 0.7521668672561646, "Quantum control": 0.7114461660385132 } }, { "id": 1866, "title": "Simultaneous copper incorporation in core/shell-structured eco-friendly quantum dots for high-efficiency photoelectrochemical hydrogen evolution", "abstract": "The rational design of elemental incorporation in colloidal eco-friendly core/shell quantum dots (QDs) holds the potential to synergistically tailor their electronic band structure and carrier kinetic...", "citations": 22, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1868, "doi": "10.1016/j.nanoen.2024.109302", "umap_coordinates": { "x": 392.629638671875, "y": 133.56703186035156, "z": 205.1939697265625 }, "tsne_coordinates": { "x": 25.529754638671875, "y": 6.314261436462402, "z": -7.744197845458984 }, "pca_coordinates": { "x": -3.5807809829711914, "y": -3.4671945571899414, "z": -0.059304654598236084 }, "axis_scores": { "Quantum imaging": 0.7208636999130249, "Quantum Life Science Sensing": 0.7391390204429626, "Quantum sensing Detection": 0.7193343639373779, "Quantum sensing Metrology": 0.7003523111343384, "Quantum sensing navigation": 0.7055684924125671, "Quantum sensing Position": 0.6896792650222778, "Quantum sensing Timing": 0.6797082424163818, "Quantum sensing": 0.7261844873428345, "Quantum control": 0.7032536864280701 } }, { "id": 1867, "title": "Probing quantum structure in gravitational radiation", "abstract": "Gravitational radiation from known astrophysical sources is conventionally treated classically. This treatment corresponds, implicitly, to the hypothesis that a particular class of quantum-mechanical ...", "citations": 2, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1869, "doi": "10.1142/S0218271825430011", "umap_coordinates": { "x": 395.44708251953125, "y": 136.2147979736328, "z": 206.28109741210938 }, "tsne_coordinates": { "x": -38.128910064697266, "y": 8.089866638183594, "z": 10.751974105834961 }, "pca_coordinates": { "x": 1.843214511871338, "y": 2.5226171016693115, "z": 0.2908594608306885 }, "axis_scores": { "Quantum imaging": 0.7574437856674194, "Quantum Life Science Sensing": 0.7838213443756104, "Quantum sensing Detection": 0.7507556676864624, "Quantum sensing Metrology": 0.7456293106079102, "Quantum sensing navigation": 0.7878250479698181, "Quantum sensing Position": 0.7507947683334351, "Quantum sensing Timing": 0.7157104015350342, "Quantum sensing": 0.7637340426445007, "Quantum control": 0.729647159576416 } }, { "id": 1868, "title": "Conformation of the glycosidic linkage in a disaccharide investigated by double-quantum solid-state NMR", "abstract": "Double-quantum heteronuclear local field NMR is performed on a sample of a C-13(2)-labeled disaccharide, in which the two C-13 spins are located on opposite sides of the glycosidic linkage. The evolut...", "citations": 5, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1870, "doi": "10.1006/jmre.2001.2357", "umap_coordinates": { "x": 392.7640686035156, "y": 136.90048217773438, "z": 206.31277465820312 }, "tsne_coordinates": { "x": 16.730361938476562, "y": 4.3363871574401855, "z": 29.28425407409668 }, "pca_coordinates": { "x": -0.6925721168518066, "y": 2.6617913246154785, "z": -2.315650463104248 }, "axis_scores": { "Quantum imaging": 0.715294599533081, "Quantum Life Science Sensing": 0.748155415058136, "Quantum sensing Detection": 0.6994101405143738, "Quantum sensing Metrology": 0.705072820186615, "Quantum sensing navigation": 0.7242165803909302, "Quantum sensing Position": 0.7180978059768677, "Quantum sensing Timing": 0.6871923804283142, "Quantum sensing": 0.7140815258026123, "Quantum control": 0.6927047371864319 } }, { "id": 1869, "title": "Engineering high-emissive silicon-doped carbon nanodots towards efficient large-area luminescent solar concentrators", "abstract": "Luminescent solar concentrators (LSCs) are devices that can collect sunlight from a large area, concentrating it at the borders of the slab, to achieve efficient photovoltaic conversion when small are...", "citations": 101, "author_count": 5, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1871, "doi": "10.1016/j.nanoen.2022.107617", "umap_coordinates": { "x": 393.0561218261719, "y": 133.48089599609375, "z": 205.50904846191406 }, "tsne_coordinates": { "x": 26.639808654785156, "y": 8.482060432434082, "z": -13.401243209838867 }, "pca_coordinates": { "x": -3.7776732444763184, "y": -2.933945655822754, "z": 1.061429500579834 }, "axis_scores": { "Quantum imaging": 0.7136856317520142, "Quantum Life Science Sensing": 0.7220541834831238, "Quantum sensing Detection": 0.7116317749023438, "Quantum sensing Metrology": 0.7166498899459839, "Quantum sensing navigation": 0.7098441123962402, "Quantum sensing Position": 0.7029997706413269, "Quantum sensing Timing": 0.6654179096221924, "Quantum sensing": 0.7224000692367554, "Quantum control": 0.7019060254096985 } }, { "id": 1870, "title": "Autonomous conversion of information to work in quantum dots", "abstract": "We consider an autonomous implementation of Maxwell's demon in a quantum dot architecture acting on a system without changing its number of particles or its energy. As in the original thought experime...", "citations": 45, "author_count": 4, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1872, "doi": "10.1103/PhysRevResearch.1.033066", "umap_coordinates": { "x": 394.3697814941406, "y": 135.0949249267578, "z": 208.53610229492188 }, "tsne_coordinates": { "x": -25.349599838256836, "y": -23.837177276611328, "z": -0.06085997819900513 }, "pca_coordinates": { "x": 3.7257819175720215, "y": -2.277719497680664, "z": 1.134423017501831 }, "axis_scores": { "Quantum imaging": 0.7762537002563477, "Quantum Life Science Sensing": 0.7994773983955383, "Quantum sensing Detection": 0.7900441288948059, "Quantum sensing Metrology": 0.7723669409751892, "Quantum sensing navigation": 0.7689018845558167, "Quantum sensing Position": 0.7454644441604614, "Quantum sensing Timing": 0.7220383286476135, "Quantum sensing": 0.7993102669715881, "Quantum control": 0.7612635493278503 } }, { "id": 1871, "title": "Shell effects in nonlinear magnetotransport through small quantum dots", "abstract": "Nonlinear transport through a quantum dot attached to two metallic contacts is studied in the limit of a weak and a strong intradot Coulomb interaction. The nonequilibrium self-consistent mean-field e...", "citations": 13, "author_count": 3, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1873, "doi": "10.1103/PhysRevB.75.075315", "umap_coordinates": { "x": 393.3267822265625, "y": 135.36314392089844, "z": 208.8948211669922 }, "tsne_coordinates": { "x": 5.787985324859619, "y": -28.975082397460938, "z": 9.260910987854004 }, "pca_coordinates": { "x": 2.9279932975769043, "y": -2.2306556701660156, "z": -0.08250612020492554 }, "axis_scores": { "Quantum imaging": 0.7593385577201843, "Quantum Life Science Sensing": 0.7418834567070007, "Quantum sensing Detection": 0.7416594624519348, "Quantum sensing Metrology": 0.7355121374130249, "Quantum sensing navigation": 0.7350161075592041, "Quantum sensing Position": 0.6953783631324768, "Quantum sensing Timing": 0.6795828938484192, "Quantum sensing": 0.7557262778282166, "Quantum control": 0.7031619548797607 } }, { "id": 1872, "title": "On Application of Gorini-Kossakowski-Sudarshan-Lindblad Equation in Cognitive Psychology", "abstract": "We proceed towards an application of the mathematical formalism of quantum mechanics to cognitive psychology - the problem of decision-making in games of the Prisoners Dilemma type. These games were u...", "citations": 51, "author_count": 6, "categories": [ "Mathematics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1874, "doi": "10.1142/S1230161211000042", "umap_coordinates": { "x": 394.87286376953125, "y": 137.1436004638672, "z": 205.88153076171875 }, "tsne_coordinates": { "x": -26.87567901611328, "y": 7.699697017669678, "z": 15.417634010314941 }, "pca_coordinates": { "x": 0.24852514266967773, "y": 2.9540858268737793, "z": -1.57292640209198 }, "axis_scores": { "Quantum imaging": 0.713371217250824, "Quantum Life Science Sensing": 0.7428710460662842, "Quantum sensing Detection": 0.6975770592689514, "Quantum sensing Metrology": 0.7026804685592651, "Quantum sensing navigation": 0.7294430732727051, "Quantum sensing Position": 0.6882055997848511, "Quantum sensing Timing": 0.6824843883514404, "Quantum sensing": 0.7192879319190979, "Quantum control": 0.7040188908576965 } }, { "id": 1873, "title": "Superconducting qubit network with controllable nearest-neighbour coupling - art. no. 178", "abstract": "We investigate the design and functionality of a network of loop-shaped charge qubits with switchable nearest-neighbour coupling. The qubit coupling is achieved by placing large Josephson junctions (J...", "citations": 38, "author_count": 5, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1875, "doi": "10.1088/1367-2630/7/1/178", "umap_coordinates": { "x": 395.1005859375, "y": 136.22483825683594, "z": 207.41783142089844 }, "tsne_coordinates": { "x": -32.30963897705078, "y": -24.691938400268555, "z": 18.384197235107422 }, "pca_coordinates": { "x": 2.369309663772583, "y": 2.3537542819976807, "z": 1.7186241149902344 }, "axis_scores": { "Quantum imaging": 0.6923199892044067, "Quantum Life Science Sensing": 0.6951155066490173, "Quantum sensing Detection": 0.6955466270446777, "Quantum sensing Metrology": 0.6941424012184143, "Quantum sensing navigation": 0.7225695848464966, "Quantum sensing Position": 0.6827630400657654, "Quantum sensing Timing": 0.6947756409645081, "Quantum sensing": 0.715030312538147, "Quantum control": 0.7249518036842346 } }, { "id": 1874, "title": "Fluorescence Quantum Yields of Natural Organic Matter and Organic Compounds: Implications for the Fluorescence-based Interpretation of Organic Matter Composition", "abstract": "Absorbance and fluorescence spectroscopy are economical tools for tracing the supply, turnover and fate of dissolved organic matter (DOM). The colored and fluorescent fractions of DOM (CDOM and FDOM, ...", "citations": 151, "author_count": 4, "categories": [ "Environmental Sciences & Ecology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1876, "doi": "10.3389/fmars.2015.00098", "umap_coordinates": { "x": 393.5792236328125, "y": 135.35025024414062, "z": 204.4758758544922 }, "tsne_coordinates": { "x": 23.361949920654297, "y": 28.236783981323242, "z": 13.611124992370605 }, "pca_coordinates": { "x": -3.908916711807251, "y": 1.554513692855835, "z": -2.5241048336029053 }, "axis_scores": { "Quantum imaging": 0.7271603345870972, "Quantum Life Science Sensing": 0.7686014175415039, "Quantum sensing Detection": 0.7185052633285522, "Quantum sensing Metrology": 0.7131897211074829, "Quantum sensing navigation": 0.7048520445823669, "Quantum sensing Position": 0.6641812324523926, "Quantum sensing Timing": 0.6452409029006958, "Quantum sensing": 0.7334006428718567, "Quantum control": 0.6911754608154297 } }, { "id": 1875, "title": "Chromatic interferometry with small frequency differences", "abstract": "By developing a 'two-crystal' method for color erasure, we can broaden the scope of chromatic interferometry to include optical photons whose frequency difference falls outside of the 400 nm to 4500 n...", "citations": 4, "author_count": 13, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1877, "doi": "10.1364/OE.402560", "umap_coordinates": { "x": 394.7708435058594, "y": 134.77525329589844, "z": 206.13949584960938 }, "tsne_coordinates": { "x": -0.6851345896720886, "y": -5.675328254699707, "z": -27.86041259765625 }, "pca_coordinates": { "x": 0.42900586128234863, "y": 1.7460920810699463, "z": 1.2348017692565918 }, "axis_scores": { "Quantum imaging": 0.7183759212493896, "Quantum Life Science Sensing": 0.7165626287460327, "Quantum sensing Detection": 0.702417254447937, "Quantum sensing Metrology": 0.7014798521995544, "Quantum sensing navigation": 0.6989686489105225, "Quantum sensing Position": 0.690906286239624, "Quantum sensing Timing": 0.7061828374862671, "Quantum sensing": 0.7184928059577942, "Quantum control": 0.6920484900474548 } }, { "id": 1876, "title": "Formation Principles and Ligand Dynamics of Nanoassemblies of CdSe Quantum Dots and Functionalised Dye Molecules", "abstract": "Functional dye molecules, such as porphyrins, attached to CdSe quantum dots (QDs) through anchoring meso-pyridyl substituents, form quasi-stable nanoassemblies. This fact results in photoluminescence ...", "citations": 53, "author_count": 8, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1878, "doi": "10.1002/cphc.201100711", "umap_coordinates": { "x": 393.13836669921875, "y": 136.3934783935547, "z": 205.89378356933594 }, "tsne_coordinates": { "x": 16.75762176513672, "y": -1.1671547889709473, "z": 12.87813949584961 }, "pca_coordinates": { "x": -0.8846943378448486, "y": -0.8162150382995605, "z": -3.9356634616851807 }, "axis_scores": { "Quantum imaging": 0.7300869226455688, "Quantum Life Science Sensing": 0.762967050075531, "Quantum sensing Detection": 0.7137027978897095, "Quantum sensing Metrology": 0.7030626535415649, "Quantum sensing navigation": 0.7172454595565796, "Quantum sensing Position": 0.7003248929977417, "Quantum sensing Timing": 0.6857589483261108, "Quantum sensing": 0.7275014519691467, "Quantum control": 0.7426474094390869 } }, { "id": 1877, "title": "DISCRETE COHERENT STATES FOR n QUBITS", "abstract": "Discrete coherent states for a system of n qubits are introduced in terms of eigenstates of the finite Fourier transform. The properties of these states are pictured in phase space by resorting to the...", "citations": 7, "author_count": 5, "categories": [ "Computer Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1879, "doi": "10.1142/S021974990900489X", "umap_coordinates": { "x": 394.9944152832031, "y": 137.22938537597656, "z": 206.8097381591797 }, "tsne_coordinates": { "x": -34.923255920410156, "y": 9.06354808807373, "z": 6.838955402374268 }, "pca_coordinates": { "x": 3.19889497756958, "y": 1.8265866041183472, "z": 0.14364701509475708 }, "axis_scores": { "Quantum imaging": 0.7283737063407898, "Quantum Life Science Sensing": 0.7137802243232727, "Quantum sensing Detection": 0.7324241995811462, "Quantum sensing Metrology": 0.7189474105834961, "Quantum sensing navigation": 0.7444780468940735, "Quantum sensing Position": 0.7235701084136963, "Quantum sensing Timing": 0.7202922105789185, "Quantum sensing": 0.740294337272644, "Quantum control": 0.7230625152587891 } }, { "id": 1878, "title": "Very sensitive probes for quantitative and organoleptic detection of oxygen based on conformer-induced room-temperature phosphorescence enhancement of the derivative of triazatruxene and phenothiazine", "abstract": "Organic materials which show room-temperature phosphorescence (RTP) are of interest for many applications including chemical qubits which are the core units of a quantum information systems, organic l...", "citations": 23, "author_count": 9, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1880, "doi": "10.1016/j.snb.2022.132727", "umap_coordinates": { "x": 393.1119689941406, "y": 134.83456420898438, "z": 204.74903869628906 }, "tsne_coordinates": { "x": 11.882387161254883, "y": 12.580155372619629, "z": -9.251526832580566 }, "pca_coordinates": { "x": -3.301654815673828, "y": -0.3018181324005127, "z": 0.3350725769996643 }, "axis_scores": { "Quantum imaging": 0.6792601943016052, "Quantum Life Science Sensing": 0.7126117944717407, "Quantum sensing Detection": 0.689052164554596, "Quantum sensing Metrology": 0.6814122796058655, "Quantum sensing navigation": 0.676413893699646, "Quantum sensing Position": 0.6743875741958618, "Quantum sensing Timing": 0.685504138469696, "Quantum sensing": 0.6949268579483032, "Quantum control": 0.6458868980407715 } }, { "id": 1879, "title": "The impact of ligands on the synthesis and application of metal halide perovskite nanocrystals", "abstract": "Metal halide perovskites have emerged as attractive materials for use in solar cells, light emitting diodes and other optoelectronic devices, mainly due to their impressive charge transport properties...", "citations": 121, "author_count": 4, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1881, "doi": "10.1039/d1ta05242j", "umap_coordinates": { "x": 391.7031555175781, "y": 134.5819091796875, "z": 205.63177490234375 }, "tsne_coordinates": { "x": 15.989806175231934, "y": -3.882187604904175, "z": -14.841119766235352 }, "pca_coordinates": { "x": -3.4227137565612793, "y": -2.588468551635742, "z": -3.1482858657836914 }, "axis_scores": { "Quantum imaging": 0.7005326747894287, "Quantum Life Science Sensing": 0.6945590972900391, "Quantum sensing Detection": 0.6775021553039551, "Quantum sensing Metrology": 0.6727972030639648, "Quantum sensing navigation": 0.664044201374054, "Quantum sensing Position": 0.6623967289924622, "Quantum sensing Timing": 0.6553489565849304, "Quantum sensing": 0.6932542324066162, "Quantum control": 0.7024513483047485 } }, { "id": 1880, "title": "Photophysical and photochemical parameters of octakis (benzylthio) phthalocyaninato zinc, aluminium and tin: Red shift index concept in solvent effect on the ground state absorption of zinc phthalocyanine derivatives", "abstract": "This paper addresses the synthesis of octa-substituted benzylthio metallophthalocyanines (OBTMPcs) that contain the central metal ions of Zn2+, Al3+ and Sn4+. The ground state absorption of ZnPc(SR)(8...", "citations": 9, "author_count": 5, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1882, "doi": "10.1016/j.molstruc.2010.08.033", "umap_coordinates": { "x": 393.2768249511719, "y": 135.21511840820312, "z": 204.7405242919922 }, "tsne_coordinates": { "x": 6.691141128540039, "y": 12.325549125671387, "z": -2.707568645477295 }, "pca_coordinates": { "x": -3.377153158187866, "y": -1.2868609428405762, "z": -2.2909111976623535 }, "axis_scores": { "Quantum imaging": 0.7142800092697144, "Quantum Life Science Sensing": 0.7418763041496277, "Quantum sensing Detection": 0.7042490839958191, "Quantum sensing Metrology": 0.6950657367706299, "Quantum sensing navigation": 0.6975449919700623, "Quantum sensing Position": 0.7118175625801086, "Quantum sensing Timing": 0.696284294128418, "Quantum sensing": 0.7147564888000488, "Quantum control": 0.6897122859954834 } }, { "id": 1881, "title": "Statistics of charge transfer in a tunnel junction coupled to an oscillator - art. no. 165347", "abstract": "The charge transfer statistics of a tunnel junction coupled to a quantum object is studied using the charge projection technique. The joint dynamics of the quantum object and the number of charges tra...", "citations": 32, "author_count": 5, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1883, "doi": "10.1103/PhysRevB.72.165347", "umap_coordinates": { "x": 394.62762451171875, "y": 135.53829956054688, "z": 208.8631134033203 }, "tsne_coordinates": { "x": 7.246028900146484, "y": -33.10783386230469, "z": 3.4188714027404785 }, "pca_coordinates": { "x": 5.023489475250244, "y": -0.9488697052001953, "z": 0.3101906180381775 }, "axis_scores": { "Quantum imaging": 0.6931809782981873, "Quantum Life Science Sensing": 0.712836503982544, "Quantum sensing Detection": 0.714939534664154, "Quantum sensing Metrology": 0.7121948003768921, "Quantum sensing navigation": 0.7300717234611511, "Quantum sensing Position": 0.7021359205245972, "Quantum sensing Timing": 0.7141676545143127, "Quantum sensing": 0.7244023084640503, "Quantum control": 0.7115339040756226 } }, { "id": 1882, "title": "Towards molecular movies with X-ray photon correlation spectroscopy", "abstract": "In this perspective article we highlight research opportunities and challenges in probing structural dynamics of molecular systems using X-ray Photon Correlation Spectroscopy (XPCS). The development o...", "citations": 38, "author_count": 3, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1884, "doi": "10.1039/d0cp03551c", "umap_coordinates": { "x": 394.62860107421875, "y": 135.29591369628906, "z": 206.0010528564453 }, "tsne_coordinates": { "x": -27.736125946044922, "y": 8.897993087768555, "z": -25.78622817993164 }, "pca_coordinates": { "x": -1.0123357772827148, "y": 2.0620956420898438, "z": 1.3417868614196777 }, "axis_scores": { "Quantum imaging": 0.7043520212173462, "Quantum Life Science Sensing": 0.6821814179420471, "Quantum sensing Detection": 0.6815618872642517, "Quantum sensing Metrology": 0.6514941453933716, "Quantum sensing navigation": 0.6909164190292358, "Quantum sensing Position": 0.683103084564209, "Quantum sensing Timing": 0.6637247800827026, "Quantum sensing": 0.6804795265197754, "Quantum control": 0.6629311442375183 } }, { "id": 1883, "title": "Trapping of an electron in the transmission through two quantum dots coupled by a wire", "abstract": "We consider single-channel transmission through a double quantum dot that consists of two identical single dots coupled by a wire. The numerical solution for the scattering wave function shows that th...", "citations": 21, "author_count": 4, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1885, "doi": "10.1134/1.2150869", "umap_coordinates": { "x": 393.9068298339844, "y": 135.05496215820312, "z": 208.4674072265625 }, "tsne_coordinates": { "x": 24.83572769165039, "y": -31.831417083740234, "z": -6.863421440124512 }, "pca_coordinates": { "x": 2.8632259368896484, "y": -1.7078194618225098, "z": 1.679736614227295 }, "axis_scores": { "Quantum imaging": 0.7374213933944702, "Quantum Life Science Sensing": 0.7146852016448975, "Quantum sensing Detection": 0.7505294680595398, "Quantum sensing Metrology": 0.7244764566421509, "Quantum sensing navigation": 0.7312105298042297, "Quantum sensing Position": 0.7125253677368164, "Quantum sensing Timing": 0.7162855863571167, "Quantum sensing": 0.7445299625396729, "Quantum control": 0.7377046942710876 } }, { "id": 1884, "title": "Highly Monodisperse, Size Tunable Glucosamine Conjugated CdSe Quantum Dots for Enhanced Cellular Uptake and Bioimaging", "abstract": "Semiconductor quantum dots (QDs) have been used in a variety of applications ranging from optoelectronics to biodiagnostic fields, primarily due to their size dependent fluorescent nature. CdSe nanocr...", "citations": 5, "author_count": 12, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1886, "doi": "10.1021/acsomega.3c04962", "umap_coordinates": { "x": 392.7403869628906, "y": 133.80775451660156, "z": 204.80532836914062 }, "tsne_coordinates": { "x": 11.895524978637695, "y": 19.2174015045166, "z": -16.07373046875 }, "pca_coordinates": { "x": -5.158270359039307, "y": -3.08937406539917, "z": -0.32019978761672974 }, "axis_scores": { "Quantum imaging": 0.7093839645385742, "Quantum Life Science Sensing": 0.7158032059669495, "Quantum sensing Detection": 0.680412769317627, "Quantum sensing Metrology": 0.6697379350662231, "Quantum sensing navigation": 0.6898764371871948, "Quantum sensing Position": 0.6513749361038208, "Quantum sensing Timing": 0.651617705821991, "Quantum sensing": 0.695997416973114, "Quantum control": 0.6788606643676758 } }, { "id": 1885, "title": "Investigation of counter electrode materials for gel polymer electrolyte based quantum dot sensitized solar cells", "abstract": "In this article, we report CdS based quantum dot sensitized solar cells (QDSSCs) with methylcellulose-polysulfide gel polymer electrolytes (GPEs) and platinum (Pt), gold (Au) or lead sulphide (PbS) co...", "citations": 22, "author_count": 7, "categories": [ "Electrochemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1887, "doi": "10.1016/j.electacta.2017.04.151", "umap_coordinates": { "x": 393.0445556640625, "y": 134.14956665039062, "z": 205.2180633544922 }, "tsne_coordinates": { "x": 28.56139373779297, "y": 9.328584671020508, "z": 5.262805461883545 }, "pca_coordinates": { "x": -2.4558897018432617, "y": -1.2586960792541504, "z": -1.6582696437835693 }, "axis_scores": { "Quantum imaging": 0.6774999499320984, "Quantum Life Science Sensing": 0.7281781435012817, "Quantum sensing Detection": 0.6804956197738647, "Quantum sensing Metrology": 0.6723045706748962, "Quantum sensing navigation": 0.6664740443229675, "Quantum sensing Position": 0.6769707202911377, "Quantum sensing Timing": 0.6398732662200928, "Quantum sensing": 0.6889345645904541, "Quantum control": 0.6678770184516907 } }, { "id": 1886, "title": "Novel single photon detectors for UV imaging", "abstract": "In this study we present an UV single-photon imaging detector based on a thin-gap Resistive Plate Chamber, featuring a very good position resolution of 30 mu m in a digital readout mode and a reasonab...", "citations": 12, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1888, "doi": "10.1016/j.nima.2005.08.002", "umap_coordinates": { "x": 394.4177551269531, "y": 132.9171142578125, "z": 206.1236572265625 }, "tsne_coordinates": { "x": -13.315103530883789, "y": 9.967637062072754, "z": -7.7112345695495605 }, "pca_coordinates": { "x": -3.813511371612549, "y": -1.3455867767333984, "z": 4.426144599914551 }, "axis_scores": { "Quantum imaging": 0.7498070001602173, "Quantum Life Science Sensing": 0.7516379356384277, "Quantum sensing Detection": 0.7458682656288147, "Quantum sensing Metrology": 0.7262997031211853, "Quantum sensing navigation": 0.7158238887786865, "Quantum sensing Position": 0.6840859651565552, "Quantum sensing Timing": 0.6752594113349915, "Quantum sensing": 0.7383264899253845, "Quantum control": 0.6624611616134644 } }, { "id": 1887, "title": "High performance latching-type luminescent magneto-optical photonic crystals", "abstract": "We report the properties of one-dimensional heteroepitaxial all-garnet magneto-optical photonic crystals (MOPCs) composed of alternating quarter-wavelength layers of diamagnetic Sm(3)Ga(5)O(12) and MO...", "citations": 14, "author_count": 3, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1889, "doi": "10.1364/OL.36.002806", "umap_coordinates": { "x": 393.9035949707031, "y": 134.0078887939453, "z": 206.42608642578125 }, "tsne_coordinates": { "x": 2.6432268619537354, "y": -10.873150825500488, "z": -27.44148063659668 }, "pca_coordinates": { "x": -1.2753582000732422, "y": -0.8016698360443115, "z": 1.5168461799621582 }, "axis_scores": { "Quantum imaging": 0.7143808007240295, "Quantum Life Science Sensing": 0.7112075686454773, "Quantum sensing Detection": 0.6995834708213806, "Quantum sensing Metrology": 0.7138741612434387, "Quantum sensing navigation": 0.6959419250488281, "Quantum sensing Position": 0.6876758337020874, "Quantum sensing Timing": 0.7105132937431335, "Quantum sensing": 0.7182572484016418, "Quantum control": 0.6875873804092407 } }, { "id": 1888, "title": "Quantum dot-based thermometry uncovers decreased myosin efficiency in an experimental intensive care unit model", "abstract": "Critical illness myopathy (CIM) detrimentally affects muscle function in ICU patients, with a dramatic loss of muscle mass and function where the loss in specific force exceeds the loss in muscle mass...", "citations": 1, "author_count": 7, "categories": [ "Physiology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1890, "doi": "10.3389/fphys.2024.1485249", "umap_coordinates": { "x": 394.4370422363281, "y": 135.4475555419922, "z": 205.31918334960938 }, "tsne_coordinates": { "x": 1.519191026687622, "y": 29.388174057006836, "z": 27.87397575378418 }, "pca_coordinates": { "x": -1.5728895664215088, "y": 3.1260063648223877, "z": -0.10509228706359863 }, "axis_scores": { "Quantum imaging": 0.7322386503219604, "Quantum Life Science Sensing": 0.7360360622406006, "Quantum sensing Detection": 0.7155483961105347, "Quantum sensing Metrology": 0.7049345374107361, "Quantum sensing navigation": 0.6915086507797241, "Quantum sensing Position": 0.7080932259559631, "Quantum sensing Timing": 0.7046411037445068, "Quantum sensing": 0.7248571515083313, "Quantum control": 0.7130845189094543 } }, { "id": 1889, "title": "Performance Enhancement of PbS-TBAI Quantum Dot Solar Cell with MoTe2$M o T e_{2}$ as Hole Transport Layer", "abstract": "Novel solar power technologies are constantly evolving and improving, and this is seen as a potential way to meet the increasing demand for electricity and energy on a global scale. Quantum dot solar ...", "citations": 28, "author_count": 7, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1891, "doi": "10.1002/pssa.202300275", "umap_coordinates": { "x": 392.3616943359375, "y": 133.76841735839844, "z": 205.73521423339844 }, "tsne_coordinates": { "x": 27.087331771850586, "y": -1.8693832159042358, "z": -11.38118839263916 }, "pca_coordinates": { "x": -2.6098268032073975, "y": -3.6031875610351562, "z": -0.16278737783432007 }, "axis_scores": { "Quantum imaging": 0.7063503861427307, "Quantum Life Science Sensing": 0.6988462209701538, "Quantum sensing Detection": 0.6887573599815369, "Quantum sensing Metrology": 0.7000792026519775, "Quantum sensing navigation": 0.6823111176490784, "Quantum sensing Position": 0.697099506855011, "Quantum sensing Timing": 0.6805797815322876, "Quantum sensing": 0.7027251720428467, "Quantum control": 0.6974965333938599 } }, { "id": 1890, "title": "DOM Molecular Weight Fractionation and Fluorescence Quantum Yield Assessment Using a Coupled In-Line SEC Optical Property System", "abstract": "Size exclusion chromatography (SEC) in combination with optical measurements has become a popular form of analysis to characterize dissolved organic matter (DOM) as a function of molecular size. Here,...", "citations": 10, "author_count": 9, "categories": [ "Environmental Sciences & Ecology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1892, "doi": "10.1021/acsestwater.2c00318", "umap_coordinates": { "x": 393.36041259765625, "y": 135.73731994628906, "z": 204.6313018798828 }, "tsne_coordinates": { "x": 14.425670623779297, "y": 19.32716178894043, "z": 7.377185344696045 }, "pca_coordinates": { "x": -3.9076178073883057, "y": 0.048854827880859375, "z": -1.3002328872680664 }, "axis_scores": { "Quantum imaging": 0.6730405688285828, "Quantum Life Science Sensing": 0.7338113784790039, "Quantum sensing Detection": 0.6802417039871216, "Quantum sensing Metrology": 0.6803078651428223, "Quantum sensing navigation": 0.6718696355819702, "Quantum sensing Position": 0.6573020219802856, "Quantum sensing Timing": 0.618786096572876, "Quantum sensing": 0.6877415180206299, "Quantum control": 0.6422826647758484 } }, { "id": 1891, "title": "Spin-polarized self-trapped excitons in low-dimensional cesium copper halide", "abstract": "Spin polarized excitons induced by spin injection from magnetic ion to a single quantum dot, has been considered as a basic unit of quantum information transfer between spin and photon for spin-photon...", "citations": 1, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1893, "doi": "10.1038/s41467-025-62704-y", "umap_coordinates": { "x": 392.6064758300781, "y": 135.67080688476562, "z": 207.26966857910156 }, "tsne_coordinates": { "x": 9.59542179107666, "y": -9.509928703308105, "z": 11.927425384521484 }, "pca_coordinates": { "x": -0.1307903528213501, "y": -2.8652329444885254, "z": -1.336867332458496 }, "axis_scores": { "Quantum imaging": 0.6922317147254944, "Quantum Life Science Sensing": 0.6858276128768921, "Quantum sensing Detection": 0.6849667429924011, "Quantum sensing Metrology": 0.6522654294967651, "Quantum sensing navigation": 0.6946552991867065, "Quantum sensing Position": 0.6844342350959778, "Quantum sensing Timing": 0.6547452211380005, "Quantum sensing": 0.6888307332992554, "Quantum control": 0.6968899369239807 } }, { "id": 1892, "title": "Fabricating single silicon quantum rods for repeatable single dot photoluminescence measurements", "abstract": "A fabrication method for a matrix pattern of laterally separated silicon quantum rods was developed, consisting of a three-step recipe utilizing electron beam lithography (EBL), reactive ion etching (...", "citations": 19, "author_count": 4, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1894, "doi": "10.1002/pssa.201000556", "umap_coordinates": { "x": 394.1164855957031, "y": 133.26280212402344, "z": 207.55311584472656 }, "tsne_coordinates": { "x": 38.44449234008789, "y": 1.5933583974838257, "z": -3.5329678058624268 }, "pca_coordinates": { "x": -2.450894355773926, "y": -3.113591194152832, "z": 2.8681252002716064 }, "axis_scores": { "Quantum imaging": 0.6923903822898865, "Quantum Life Science Sensing": 0.7518874406814575, "Quantum sensing Detection": 0.708694338798523, "Quantum sensing Metrology": 0.7224708795547485, "Quantum sensing navigation": 0.7003318071365356, "Quantum sensing Position": 0.7093490362167358, "Quantum sensing Timing": 0.6994919776916504, "Quantum sensing": 0.7265400886535645, "Quantum control": 0.6741755604743958 } }, { "id": 1893, "title": "Carbon quantum dots with tracer-like breakthrough ability for reservoir characterization", "abstract": "Predictions have shown that our demand for oil and gas will continue to grow in the next decade, and future supply will become more reliant on tertiary recovery and from nonconventional resources. How...", "citations": 40, "author_count": 8, "categories": [ "Environmental Sciences & Ecology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1895, "doi": "10.1016/j.scitotenv.2019.03.007", "umap_coordinates": { "x": 393.42626953125, "y": 134.29010009765625, "z": 204.9700927734375 }, "tsne_coordinates": { "x": 23.032352447509766, "y": 13.97559642791748, "z": -7.950272560119629 }, "pca_coordinates": { "x": -3.510026693344116, "y": 0.5861310958862305, "z": 0.15575629472732544 }, "axis_scores": { "Quantum imaging": 0.7173382639884949, "Quantum Life Science Sensing": 0.7440826892852783, "Quantum sensing Detection": 0.7098202705383301, "Quantum sensing Metrology": 0.7126647233963013, "Quantum sensing navigation": 0.7234677672386169, "Quantum sensing Position": 0.7086230516433716, "Quantum sensing Timing": 0.7043566703796387, "Quantum sensing": 0.7236826419830322, "Quantum control": 0.6912557482719421 } }, { "id": 1894, "title": "Suppression of slow decaying emission in II-VI quantum dots with Forster resonance energy transfer", "abstract": "We report on time-resolved photoluminescence studies of Forster resonance energy transfer (FRET) in structures with two arrays of epitaxial Cd(Zn)Se quantum dots (QDs) of different sizes separated by ...", "citations": 1, "author_count": 10, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1896, "doi": "10.1088/1742-6596/917/6/062048", "umap_coordinates": { "x": 392.8828125, "y": 135.18765258789062, "z": 207.06983947753906 }, "tsne_coordinates": { "x": 26.23610496520996, "y": -9.574660301208496, "z": 18.774423599243164 }, "pca_coordinates": { "x": -0.8351022601127625, "y": 0.05209755897521973, "z": -0.22504878044128418 }, "axis_scores": { "Quantum imaging": 0.6729888916015625, "Quantum Life Science Sensing": 0.6731829643249512, "Quantum sensing Detection": 0.635247528553009, "Quantum sensing Metrology": 0.6169317364692688, "Quantum sensing navigation": 0.6287950277328491, "Quantum sensing Position": 0.5884037017822266, "Quantum sensing Timing": 0.6225897669792175, "Quantum sensing": 0.6377790570259094, "Quantum control": 0.6375629305839539 } }, { "id": 1895, "title": "Fluorescent carbon dots from birch leaves for sustainable electroluminescent devices", "abstract": "The shift from depleting petroleum compounds to regenerating biomass as the raw material for organic semiconductors is a prerequisite if organic electronics is to become truly sustainable. Here, we re...", "citations": 25, "author_count": 12, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1897, "doi": "10.1039/d3gc03827k", "umap_coordinates": { "x": 392.0376281738281, "y": 134.76788330078125, "z": 204.7643585205078 }, "tsne_coordinates": { "x": 11.483492851257324, "y": 1.5591012239456177, "z": -11.936059951782227 }, "pca_coordinates": { "x": -3.2803144454956055, "y": -2.4825549125671387, "z": -3.707829713821411 }, "axis_scores": { "Quantum imaging": 0.6577523946762085, "Quantum Life Science Sensing": 0.7178234457969666, "Quantum sensing Detection": 0.6604381799697876, "Quantum sensing Metrology": 0.6459269523620605, "Quantum sensing navigation": 0.6549627780914307, "Quantum sensing Position": 0.6389634609222412, "Quantum sensing Timing": 0.6022577881813049, "Quantum sensing": 0.6711728572845459, "Quantum control": 0.6553304195404053 } }, { "id": 1896, "title": "Detecting itinerant single microwave photons", "abstract": "Single-photon detectors are fundamental tools of investigation in quantum optics and play a central role in measurement theory and quantum informatics. Photodetectors based on different technologies e...", "citations": 28, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1898, "doi": "10.1016/j.crhy.2016.07.010", "umap_coordinates": { "x": 394.53167724609375, "y": 133.19406127929688, "z": 206.89996337890625 }, "tsne_coordinates": { "x": -14.238327026367188, "y": 8.717286109924316, "z": -8.072060585021973 }, "pca_coordinates": { "x": -0.5213592052459717, "y": 0.6158347129821777, "z": 2.941234588623047 }, "axis_scores": { "Quantum imaging": 0.7611933946609497, "Quantum Life Science Sensing": 0.7595958113670349, "Quantum sensing Detection": 0.784691572189331, "Quantum sensing Metrology": 0.7480252385139465, "Quantum sensing navigation": 0.7349375486373901, "Quantum sensing Position": 0.7179401516914368, "Quantum sensing Timing": 0.765843391418457, "Quantum sensing": 0.7760754823684692, "Quantum control": 0.6875564455986023 } }, { "id": 1897, "title": "OPTICAL QUANTUM-NOISE TREATED WITH CLASSICAL ELECTRICAL NETWORK THEORY", "abstract": "A field noise spectral density matrix for the noise from a linear optical device, modeled as an optical multiport, is derived semi-classically. The noise is formulated in the scattering parameters, po...", "citations": 28, "author_count": 3, "categories": [ "Engineering" ], "year": 1994, "topic": [ "all" ], "embedding_index": 1899, "doi": "10.1109/3.286178", "umap_coordinates": { "x": 394.9140319824219, "y": 135.85939025878906, "z": 206.83860778808594 }, "tsne_coordinates": { "x": -26.89838218688965, "y": -12.737671852111816, "z": -10.520491600036621 }, "pca_coordinates": { "x": 2.8382649421691895, "y": 1.1692676544189453, "z": 2.467651844024658 }, "axis_scores": { "Quantum imaging": 0.7890949249267578, "Quantum Life Science Sensing": 0.7746264338493347, "Quantum sensing Detection": 0.7917923927307129, "Quantum sensing Metrology": 0.795633852481842, "Quantum sensing navigation": 0.8037866950035095, "Quantum sensing Position": 0.7560219168663025, "Quantum sensing Timing": 0.7428920269012451, "Quantum sensing": 0.8014950156211853, "Quantum control": 0.7749609351158142 } }, { "id": 1898, "title": "QUANTUM BOUND-STATES IN NARROW BALLISTIC CHANNELS WITH INTERSECTIONS", "abstract": "A quantum-mechanical calculation is made of ballistic transport in intersecting narrow channels of finite length. The two-dimensional (2D) semiconductor structure we study consists of perpendicular ch...", "citations": 57, "author_count": 3, "categories": [ "Materials Science" ], "year": 1992, "topic": [ "all" ], "embedding_index": 1900, "doi": "10.1103/PhysRevB.45.6652", "umap_coordinates": { "x": 394.52532958984375, "y": 135.9314422607422, "z": 208.21852111816406 }, "tsne_coordinates": { "x": -8.13705062866211, "y": -38.961490631103516, "z": -11.46480655670166 }, "pca_coordinates": { "x": 5.3171563148498535, "y": 0.11436104774475098, "z": 1.3442161083221436 }, "axis_scores": { "Quantum imaging": 0.7438546419143677, "Quantum Life Science Sensing": 0.7040859460830688, "Quantum sensing Detection": 0.7435340285301208, "Quantum sensing Metrology": 0.7227573394775391, "Quantum sensing navigation": 0.747830867767334, "Quantum sensing Position": 0.714449405670166, "Quantum sensing Timing": 0.7085343599319458, "Quantum sensing": 0.7444380521774292, "Quantum control": 0.7216366529464722 } }, { "id": 1899, "title": "Condensing Non-Abelian Quasiparticles", "abstract": "A most interesting feature of certain fractional quantum Hall states is that their quasiparticles obey non-Abelian fractional statistics. So far, candidate non-Abelian wave functions have been constru...", "citations": 28, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1901, "doi": "10.1103/PhysRevLett.104.056803", "umap_coordinates": { "x": 394.9755859375, "y": 137.0441436767578, "z": 208.6446075439453 }, "tsne_coordinates": { "x": -18.807470321655273, "y": -26.964216232299805, "z": 14.528634071350098 }, "pca_coordinates": { "x": 5.214931964874268, "y": -0.2637052536010742, "z": -1.0945773124694824 }, "axis_scores": { "Quantum imaging": 0.6871704459190369, "Quantum Life Science Sensing": 0.6917545795440674, "Quantum sensing Detection": 0.6866694092750549, "Quantum sensing Metrology": 0.665253221988678, "Quantum sensing navigation": 0.7050626873970032, "Quantum sensing Position": 0.6686909794807434, "Quantum sensing Timing": 0.6622147560119629, "Quantum sensing": 0.6895751357078552, "Quantum control": 0.6893932223320007 } }, { "id": 1900, "title": "Mechanism of intra-shell recombination of transition metal and rare earth ions in nanostructures of II-VI compounds", "abstract": "Based on the results of optically detected magnetic resonance (ODMR) and time-resolved investigations we relate the observed lifetime shortening of intra-shell Mn2+ emission to spin dependent magnetic...", "citations": 27, "author_count": 11, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1902, "doi": "10.1016/j.jallcom.2004.03.020", "umap_coordinates": { "x": 392.9198913574219, "y": 134.8533172607422, "z": 206.43162536621094 }, "tsne_coordinates": { "x": 27.767127990722656, "y": -2.6718008518218994, "z": 9.047764778137207 }, "pca_coordinates": { "x": -1.564713716506958, "y": -1.1106715202331543, "z": -2.301546096801758 }, "axis_scores": { "Quantum imaging": 0.6968713402748108, "Quantum Life Science Sensing": 0.7110646367073059, "Quantum sensing Detection": 0.6721325516700745, "Quantum sensing Metrology": 0.6609865427017212, "Quantum sensing navigation": 0.667992115020752, "Quantum sensing Position": 0.6354856491088867, "Quantum sensing Timing": 0.651542067527771, "Quantum sensing": 0.680316686630249, "Quantum control": 0.6500151753425598 } }, { "id": 1901, "title": "Quantum Simulation Logic, Oracles, and the Quantum Advantage", "abstract": "Query complexity is a common tool for comparing quantum and classical computation, and it has produced many examples of how quantum algorithms differ from classical ones. Here we investigate in detail...", "citations": 15, "author_count": 3, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1903, "doi": "10.3390/e21080800", "umap_coordinates": { "x": 395.23065185546875, "y": 137.5918426513672, "z": 205.9033203125 }, "tsne_coordinates": { "x": -21.2177734375, "y": 13.633523941040039, "z": 14.769970893859863 }, "pca_coordinates": { "x": 1.8034265041351318, "y": 3.0106704235076904, "z": -1.1954593658447266 }, "axis_scores": { "Quantum imaging": 0.7506237030029297, "Quantum Life Science Sensing": 0.7608679533004761, "Quantum sensing Detection": 0.7499619722366333, "Quantum sensing Metrology": 0.7358508110046387, "Quantum sensing navigation": 0.7657289505004883, "Quantum sensing Position": 0.7241060733795166, "Quantum sensing Timing": 0.7160465121269226, "Quantum sensing": 0.7663767337799072, "Quantum control": 0.7260920405387878 } }, { "id": 1902, "title": "Quantum Radiation Reaction: From Interference to Incoherence", "abstract": "We investigate quantum radiation reaction in laser-electron interactions across different energy and intensity regimes. Using a fully quantum approach which also accounts exactly for the effect of the...", "citations": 87, "author_count": 6, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1904, "doi": "10.1103/PhysRevLett.116.044801", "umap_coordinates": { "x": 394.9762878417969, "y": 136.71348571777344, "z": 207.37660217285156 }, "tsne_coordinates": { "x": -21.38494300842285, "y": -24.788103103637695, "z": 5.344709396362305 }, "pca_coordinates": { "x": 4.095291614532471, "y": 1.1821259260177612, "z": 0.4850131869316101 }, "axis_scores": { "Quantum imaging": 0.7723308801651001, "Quantum Life Science Sensing": 0.7637544870376587, "Quantum sensing Detection": 0.7671221494674683, "Quantum sensing Metrology": 0.7263780832290649, "Quantum sensing navigation": 0.7664462924003601, "Quantum sensing Position": 0.7287041544914246, "Quantum sensing Timing": 0.7436750531196594, "Quantum sensing": 0.7732892036437988, "Quantum control": 0.7529786229133606 } }, { "id": 1903, "title": "Quantum communication complexity using the quantum Zeno effect", "abstract": "The quantum Zeno effect (QZE) is the phenomenon in which the unitary evolution of a quantum state is suppressed, e.g., due to frequent measurements. Here, we investigate the use of the QZE in a class ...", "citations": 6, "author_count": 5, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1905, "doi": "10.1103/PhysRevA.92.012303", "umap_coordinates": { "x": 395.3257141113281, "y": 136.98614501953125, "z": 206.83596801757812 }, "tsne_coordinates": { "x": -28.516983032226562, "y": -10.975258827209473, "z": -1.6519899368286133 }, "pca_coordinates": { "x": 3.7141528129577637, "y": 1.4872013330459595, "z": 1.5006723403930664 }, "axis_scores": { "Quantum imaging": 0.7750243544578552, "Quantum Life Science Sensing": 0.7774296998977661, "Quantum sensing Detection": 0.7819033265113831, "Quantum sensing Metrology": 0.7667388319969177, "Quantum sensing navigation": 0.7917125225067139, "Quantum sensing Position": 0.7398850917816162, "Quantum sensing Timing": 0.7375737428665161, "Quantum sensing": 0.7934949994087219, "Quantum control": 0.7561038732528687 } }, { "id": 1904, "title": "Dynamic characteristics of the exciton and the biexciton in a single InGaN quantum dot", "abstract": "The dynamics of the exciton and the biexciton related emission from a single InGaN quantum dot (QD) have been measured by time-resolved microphotoluminescence spectroscopy. An exciton-biexciton pair o...", "citations": 18, "author_count": 11, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1906, "doi": "10.1063/1.4742343", "umap_coordinates": { "x": 393.15338134765625, "y": 134.38800048828125, "z": 207.99026489257812 }, "tsne_coordinates": { "x": 22.977388381958008, "y": -25.84838104248047, "z": -9.508845329284668 }, "pca_coordinates": { "x": 0.6140434741973877, "y": -3.7195229530334473, "z": 0.47141212224960327 }, "axis_scores": { "Quantum imaging": 0.7182519435882568, "Quantum Life Science Sensing": 0.7007004022598267, "Quantum sensing Detection": 0.712165355682373, "Quantum sensing Metrology": 0.6923641562461853, "Quantum sensing navigation": 0.6878098249435425, "Quantum sensing Position": 0.6811791658401489, "Quantum sensing Timing": 0.6884409785270691, "Quantum sensing": 0.715173065662384, "Quantum control": 0.6891312599182129 } }, { "id": 1905, "title": "Proposal of an optical modulator based on resonant tunneling and intersubband transitions", "abstract": "We propose and analyze an optical modulator based on intersubband transitions. The absorption is modulated by modulating the carrier density in the ground state of a quantum well (QW). Electrons are i...", "citations": 7, "author_count": 4, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1907, "doi": "10.1109/3.903072", "umap_coordinates": { "x": 394.5421447753906, "y": 134.69302368164062, "z": 207.81298828125 }, "tsne_coordinates": { "x": -13.936728477478027, "y": -10.908784866333008, "z": 41.289798736572266 }, "pca_coordinates": { "x": 2.4069347381591797, "y": 0.056078433990478516, "z": 2.175537109375 }, "axis_scores": { "Quantum imaging": 0.7190368175506592, "Quantum Life Science Sensing": 0.7057594060897827, "Quantum sensing Detection": 0.7231948971748352, "Quantum sensing Metrology": 0.7414220571517944, "Quantum sensing navigation": 0.7175008654594421, "Quantum sensing Position": 0.671798050403595, "Quantum sensing Timing": 0.6894201040267944, "Quantum sensing": 0.7303602695465088, "Quantum control": 0.6884027123451233 } }, { "id": 1906, "title": "High-Tc superconducting quantum interference device recordings of spontaneous brain activity: Towards high-Tc magnetoencephalography", "abstract": "We have performed single-and two-channel high transition temperature (high-T-c) superconducting quantum interference device (SQUID) magnetoencephalography (MEG) recordings of spontaneous brain activit...", "citations": 59, "author_count": 9, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1908, "doi": "10.1063/1.3698152", "umap_coordinates": { "x": 394.14007568359375, "y": 134.6337890625, "z": 206.9439697265625 }, "tsne_coordinates": { "x": 19.573022842407227, "y": -33.93008041381836, "z": 8.538167953491211 }, "pca_coordinates": { "x": 0.7903811931610107, "y": -0.26486730575561523, "z": -0.06495720148086548 }, "axis_scores": { "Quantum imaging": 0.7251204252243042, "Quantum Life Science Sensing": 0.7304893136024475, "Quantum sensing Detection": 0.7174802422523499, "Quantum sensing Metrology": 0.7192485928535461, "Quantum sensing navigation": 0.7252470850944519, "Quantum sensing Position": 0.7071250081062317, "Quantum sensing Timing": 0.7219060659408569, "Quantum sensing": 0.7348450422286987, "Quantum control": 0.7108061909675598 } }, { "id": 1907, "title": "Volumetric Breast-Density Measurement Using Spectral Photon-Counting Tomosynthesis: First Clinical Results", "abstract": "Measurements of breast density have the potential to improve the efficiency and reduce the cost of screening mammography through personalized screening. Breast density has traditionally been evaluated...", "citations": 2, "author_count": 5, "categories": [ "Computer Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1909, "doi": "10.1007/978-3-319-41546-8_72", "umap_coordinates": { "x": 395.4062805175781, "y": 133.47048950195312, "z": 205.3031768798828 }, "tsne_coordinates": { "x": -8.317111015319824, "y": 19.833829879760742, "z": -29.97345733642578 }, "pca_coordinates": { "x": -2.9435877799987793, "y": 1.909909963607788, "z": 3.2660698890686035 }, "axis_scores": { "Quantum imaging": 0.6796700358390808, "Quantum Life Science Sensing": 0.6708393692970276, "Quantum sensing Detection": 0.6569628715515137, "Quantum sensing Metrology": 0.6735738515853882, "Quantum sensing navigation": 0.6551464796066284, "Quantum sensing Position": 0.6535055041313171, "Quantum sensing Timing": 0.6338226795196533, "Quantum sensing": 0.6660197973251343, "Quantum control": 0.6011191010475159 } }, { "id": 1908, "title": "2023 roadmap for materials for quantum technologies", "abstract": "Quantum technologies are poised to move the foundational principles of quantum physics to the forefront of applications. This roadmap identifies some of the key challenges and provides insights on mat...", "citations": 47, "author_count": 21, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1910, "doi": "10.1088/2633-4356/aca3f2", "umap_coordinates": { "x": 394.5688781738281, "y": 134.85726928710938, "z": 205.63555908203125 }, "tsne_coordinates": { "x": -13.452491760253906, "y": 3.0790820121765137, "z": -20.111892700195312 }, "pca_coordinates": { "x": -0.8928371071815491, "y": -0.3138852119445801, "z": -1.061538815498352 }, "axis_scores": { "Quantum imaging": 0.7093636989593506, "Quantum Life Science Sensing": 0.7280464768409729, "Quantum sensing Detection": 0.6763805747032166, "Quantum sensing Metrology": 0.7129683494567871, "Quantum sensing navigation": 0.7031381130218506, "Quantum sensing Position": 0.6638503074645996, "Quantum sensing Timing": 0.648062527179718, "Quantum sensing": 0.7042794823646545, "Quantum control": 0.6959002614021301 } }, { "id": 1909, "title": "InAs/GaAs quantum dot laser epitaxially grown on on-axis (001) GaAsOI substrate", "abstract": "Quantum dot (QD) laser as a light source for silicon optical integration has attracted great research attention because of the strategic vision of optical interconnection. In this paper, the communica...", "citations": 6, "author_count": 10, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1911, "doi": "10.1364/OE.438678", "umap_coordinates": { "x": 393.12823486328125, "y": 134.07415771484375, "z": 207.25161743164062 }, "tsne_coordinates": { "x": -4.990410327911377, "y": -13.598589897155762, "z": -29.075645446777344 }, "pca_coordinates": { "x": 0.37863993644714355, "y": -2.442017078399658, "z": 1.744518756866455 }, "axis_scores": { "Quantum imaging": 0.7283115386962891, "Quantum Life Science Sensing": 0.6964626312255859, "Quantum sensing Detection": 0.7089146375656128, "Quantum sensing Metrology": 0.7137991786003113, "Quantum sensing navigation": 0.7157820463180542, "Quantum sensing Position": 0.7151656150817871, "Quantum sensing Timing": 0.7058076858520508, "Quantum sensing": 0.7250200510025024, "Quantum control": 0.7076079845428467 } }, { "id": 1910, "title": "Complexity of quantum states in the two-dimensional pairing model", "abstract": "It is known that many-fermion systems, such as complex atoms and nuclei, reveal (at some level of excitation energy) local signatures of quantum chaos similar to the predictions of random matrix theor...", "citations": 12, "author_count": 5, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1912, "doi": "10.1103/PhysRevE.86.066204", "umap_coordinates": { "x": 394.40667724609375, "y": 137.05735778808594, "z": 208.1736297607422 }, "tsne_coordinates": { "x": -17.78461265563965, "y": -21.616540908813477, "z": 22.306346893310547 }, "pca_coordinates": { "x": 4.9619927406311035, "y": 0.9939000606536865, "z": -0.9944499731063843 }, "axis_scores": { "Quantum imaging": 0.7407881021499634, "Quantum Life Science Sensing": 0.7361768484115601, "Quantum sensing Detection": 0.746284008026123, "Quantum sensing Metrology": 0.7291473150253296, "Quantum sensing navigation": 0.7341493964195251, "Quantum sensing Position": 0.720598578453064, "Quantum sensing Timing": 0.7267231941223145, "Quantum sensing": 0.7517133355140686, "Quantum control": 0.7266944050788879 } }, { "id": 1911, "title": "Transport properties of a triangular electron billiard", "abstract": "The transport properties of triangular electron billiards are investigated. By comparison of experimental data with simulations, maxims of the magnetoresistance are related to classical electron orbit...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 1913, "doi": "10.1143/JJAP.36.3996", "umap_coordinates": { "x": 393.7820129394531, "y": 135.0595703125, "z": 207.4826202392578 }, "tsne_coordinates": { "x": 28.175071716308594, "y": -25.207504272460938, "z": 17.883237838745117 }, "pca_coordinates": { "x": 1.335240364074707, "y": -0.8984618186950684, "z": -0.8642352819442749 }, "axis_scores": { "Quantum imaging": 0.7318803071975708, "Quantum Life Science Sensing": 0.7315216064453125, "Quantum sensing Detection": 0.7166800498962402, "Quantum sensing Metrology": 0.7168962955474854, "Quantum sensing navigation": 0.7297855019569397, "Quantum sensing Position": 0.712714672088623, "Quantum sensing Timing": 0.7150440216064453, "Quantum sensing": 0.7420453429222107, "Quantum control": 0.7253738641738892 } }, { "id": 1912, "title": "Measuring signatures in photon angular spectra to distinguish nonlinear Compton scattering models", "abstract": "The collision of a high-energy electron beam with a laser pulse may be used to study radiation reaction and nonlinear Compton scattering among many other processes in strong-field quantum electrodynam...", "citations": 3, "author_count": 12, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1914, "doi": "10.1103/PhysRevA.110.062822", "umap_coordinates": { "x": 395.60687255859375, "y": 135.20101928710938, "z": 207.58863830566406 }, "tsne_coordinates": { "x": -23.52410888671875, "y": 2.6534125804901123, "z": -32.474937438964844 }, "pca_coordinates": { "x": 0.7752408981323242, "y": 0.8306968212127686, "z": 3.139902114868164 }, "axis_scores": { "Quantum imaging": 0.7197320461273193, "Quantum Life Science Sensing": 0.7277163863182068, "Quantum sensing Detection": 0.7308114767074585, "Quantum sensing Metrology": 0.7140383720397949, "Quantum sensing navigation": 0.7263420820236206, "Quantum sensing Position": 0.7006403207778931, "Quantum sensing Timing": 0.7086838483810425, "Quantum sensing": 0.7310059666633606, "Quantum control": 0.655208170413971 } }, { "id": 1913, "title": "Effects of Parity and Symmetry on the Aharonov-Bohm Phase of a Quantum Ring", "abstract": "We experimentally investigate the properties of one-dimensional quantum rings that form near the surface of nanowire quantum dots. In agreement with theoretical predictions, we observe the appearance ...", "citations": 7, "author_count": 9, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1915, "doi": "10.1021/acs.nanolett.1c03882", "umap_coordinates": { "x": 394.0064392089844, "y": 136.42967224121094, "z": 207.38174438476562 }, "tsne_coordinates": { "x": -4.549285888671875, "y": -19.46731185913086, "z": -2.4583773612976074 }, "pca_coordinates": { "x": 2.133394241333008, "y": -0.6853229999542236, "z": -2.0087742805480957 }, "axis_scores": { "Quantum imaging": 0.7449346780776978, "Quantum Life Science Sensing": 0.7479841709136963, "Quantum sensing Detection": 0.7367193102836609, "Quantum sensing Metrology": 0.7320078015327454, "Quantum sensing navigation": 0.7490947246551514, "Quantum sensing Position": 0.7297101020812988, "Quantum sensing Timing": 0.7254366278648376, "Quantum sensing": 0.7542569637298584, "Quantum control": 0.7427186369895935 } }, { "id": 1914, "title": "Tuning the binding energy of on-center donor in CdSe/ZnTe core/shell quantum dot by spatial parameters and magnetic field strength", "abstract": "The behavior of the electron ground state and of the ground state binding energy of an on-center donor confined in a CdSe/ZnTe core/shell spherical nanodot was examined theoretically within the framew...", "citations": 14, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1916, "doi": "10.1016/j.physe.2017.07.016", "umap_coordinates": { "x": 392.7972717285156, "y": 134.10711669921875, "z": 206.29397583007812 }, "tsne_coordinates": { "x": 28.64548683166504, "y": 5.416133880615234, "z": 7.734319686889648 }, "pca_coordinates": { "x": -1.412022352218628, "y": -2.2338767051696777, "z": -1.6096203327178955 }, "axis_scores": { "Quantum imaging": 0.7472675442695618, "Quantum Life Science Sensing": 0.7306471467018127, "Quantum sensing Detection": 0.7282004356384277, "Quantum sensing Metrology": 0.7205484509468079, "Quantum sensing navigation": 0.728062629699707, "Quantum sensing Position": 0.7295621633529663, "Quantum sensing Timing": 0.71180260181427, "Quantum sensing": 0.7459613084793091, "Quantum control": 0.738910436630249 } }, { "id": 1915, "title": "Nonequilibrium and quantum coherent phenomena in the electromechanics of suspended nanowires", "abstract": "Strong coupling between electronic and mechanical degrees of freedom is a basic requirement for the operation of any nanoelectromechanical device. In this review we consider such devices and in partic...", "citations": 11, "author_count": 6, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1917, "doi": "10.1063/1.3224725", "umap_coordinates": { "x": 393.2832946777344, "y": 134.80064392089844, "z": 208.31314086914062 }, "tsne_coordinates": { "x": -5.148456573486328, "y": -12.842843055725098, "z": 15.505861282348633 }, "pca_coordinates": { "x": 3.308258533477783, "y": -2.6254587173461914, "z": -0.49197477102279663 }, "axis_scores": { "Quantum imaging": 0.7281121015548706, "Quantum Life Science Sensing": 0.7402620911598206, "Quantum sensing Detection": 0.7294493913650513, "Quantum sensing Metrology": 0.720542848110199, "Quantum sensing navigation": 0.7368794083595276, "Quantum sensing Position": 0.7037634253501892, "Quantum sensing Timing": 0.691372275352478, "Quantum sensing": 0.7318183183670044, "Quantum control": 0.7180712223052979 } }, { "id": 1916, "title": "Exciton fine structure splitting in InP quantum dots in GaInP", "abstract": "We have investigated the electronic structure of excitons in InP quantum dots in GaInP. The exciton is theoretically expected to have four states. Two of the states are allowed to optically decay to t...", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1918, "doi": "10.1088/0953-8984/19/29/295211", "umap_coordinates": { "x": 392.6622314453125, "y": 134.65707397460938, "z": 208.3022003173828 }, "tsne_coordinates": { "x": 26.875411987304688, "y": -15.389267921447754, "z": 8.223493576049805 }, "pca_coordinates": { "x": 1.28102707862854, "y": -2.097571849822998, "z": -0.29313719272613525 }, "axis_scores": { "Quantum imaging": 0.7133470177650452, "Quantum Life Science Sensing": 0.7100867033004761, "Quantum sensing Detection": 0.6899341940879822, "Quantum sensing Metrology": 0.6950017809867859, "Quantum sensing navigation": 0.6865866184234619, "Quantum sensing Position": 0.676056981086731, "Quantum sensing Timing": 0.6548328995704651, "Quantum sensing": 0.7068103551864624, "Quantum control": 0.6670280694961548 } }, { "id": 1917, "title": "THE UNTRUNCATED MARINARI-PARISI SUPERSTRING", "abstract": "It is shown that the bosonic angular degrees of freedom in the one dimensional Marinari-Parisi superstring can be integrated out exactly in the Hamiltonian formulation. The resulting quantum mechanica...", "citations": 4, "author_count": 2, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 1919, "doi": "10.1063/1.530866", "umap_coordinates": { "x": 394.4031982421875, "y": 136.7796630859375, "z": 207.2816162109375 }, "tsne_coordinates": { "x": -11.605697631835938, "y": -30.978553771972656, "z": -24.729461669921875 }, "pca_coordinates": { "x": 1.179283857345581, "y": 1.5795388221740723, "z": -1.0222145318984985 }, "axis_scores": { "Quantum imaging": 0.7044815421104431, "Quantum Life Science Sensing": 0.7081387042999268, "Quantum sensing Detection": 0.699750542640686, "Quantum sensing Metrology": 0.6939305663108826, "Quantum sensing navigation": 0.7132687568664551, "Quantum sensing Position": 0.6984044313430786, "Quantum sensing Timing": 0.6706246733665466, "Quantum sensing": 0.7155256271362305, "Quantum control": 0.7117074131965637 } }, { "id": 1918, "title": "Quantum-well states at the surface of a heavy-fermion superconductor", "abstract": "Two-dimensional electronic states at surfaces are often observed in simple wide-band metals such as Cu or Ag (refs. (1-4)). Confinement by closed geometries at the nanometre scale, such as surface ter...", "citations": 19, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1920, "doi": "10.1038/s41586-023-05830-1", "umap_coordinates": { "x": 393.5589599609375, "y": 135.59239196777344, "z": 207.00961303710938 }, "tsne_coordinates": { "x": 6.010497570037842, "y": -10.083100318908691, "z": 11.06633472442627 }, "pca_coordinates": { "x": 1.1807172298431396, "y": -2.736527919769287, "z": -0.2332659363746643 }, "axis_scores": { "Quantum imaging": 0.7331349849700928, "Quantum Life Science Sensing": 0.7403032779693604, "Quantum sensing Detection": 0.7265214920043945, "Quantum sensing Metrology": 0.7217848300933838, "Quantum sensing navigation": 0.7198564410209656, "Quantum sensing Position": 0.7258859276771545, "Quantum sensing Timing": 0.7116305828094482, "Quantum sensing": 0.7443420886993408, "Quantum control": 0.690811276435852 } }, { "id": 1919, "title": "Competition of long-range interactions and noise at a ramped quench dynamical quantum phase transition: The case of the long-range pairing Kitaev chain", "abstract": "The nonequilibrium dynamics of long-range pairing Kitaev model with noiseless/noisy linear time dependent chemical potential, is investigated in the framework of dynamical quantum phase transitions (D...", "citations": 9, "author_count": 4, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1921, "doi": "10.1103/PhysRevB.110.064302", "umap_coordinates": { "x": 395.02008056640625, "y": 136.73602294921875, "z": 208.67372131347656 }, "tsne_coordinates": { "x": -19.431751251220703, "y": -12.685640335083008, "z": 21.210575103759766 }, "pca_coordinates": { "x": 3.653080463409424, "y": 1.8020992279052734, "z": -0.2155103087425232 }, "axis_scores": { "Quantum imaging": 0.6885653138160706, "Quantum Life Science Sensing": 0.6969215273857117, "Quantum sensing Detection": 0.7001965045928955, "Quantum sensing Metrology": 0.6735020279884338, "Quantum sensing navigation": 0.7031243443489075, "Quantum sensing Position": 0.6847134828567505, "Quantum sensing Timing": 0.6949574947357178, "Quantum sensing": 0.700599730014801, "Quantum control": 0.7008440494537354 } }, { "id": 1920, "title": "Resource-Efficient High-Dimensional Entanglement Detection via Symmetric Projections", "abstract": "We introduce two families of criteria for detecting and quantifying the entanglement of a bipartite quantum state of arbitrary local dimension. The first is based on measurements in mutually unbiased ...", "citations": 24, "author_count": 4, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1922, "doi": "10.1103/PhysRevLett.131.170201", "umap_coordinates": { "x": 395.93536376953125, "y": 136.59654235839844, "z": 207.39450073242188 }, "tsne_coordinates": { "x": -34.07160568237305, "y": -16.52198600769043, "z": -1.4304651021957397 }, "pca_coordinates": { "x": 3.5948486328125, "y": 0.15115761756896973, "z": 4.501258373260498 }, "axis_scores": { "Quantum imaging": 0.7694922685623169, "Quantum Life Science Sensing": 0.7161182165145874, "Quantum sensing Detection": 0.7648600339889526, "Quantum sensing Metrology": 0.7323209643363953, "Quantum sensing navigation": 0.750618577003479, "Quantum sensing Position": 0.7231557965278625, "Quantum sensing Timing": 0.721801221370697, "Quantum sensing": 0.7677919268608093, "Quantum control": 0.7105880975723267 } }, { "id": 1921, "title": "Understanding the superconductivity and charge density wave interaction through quasi-static lattice fluctuations", "abstract": "In unconventional superconductors, coupled charge and lattice degrees of freedom can manifest in ordered phases of matter that are intertwined. In the cuprate family, fluctuating short-range charge co...", "citations": 1, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1923, "doi": "10.1073/pnas.2412182121", "umap_coordinates": { "x": 393.734375, "y": 136.3317108154297, "z": 207.9075164794922 }, "tsne_coordinates": { "x": -0.3577205538749695, "y": -17.644742965698242, "z": 21.010826110839844 }, "pca_coordinates": { "x": 2.356722831726074, "y": -0.27081823348999023, "z": -1.298574447631836 }, "axis_scores": { "Quantum imaging": 0.7031184434890747, "Quantum Life Science Sensing": 0.7098217606544495, "Quantum sensing Detection": 0.6925298571586609, "Quantum sensing Metrology": 0.6870405673980713, "Quantum sensing navigation": 0.7310659289360046, "Quantum sensing Position": 0.6934083700180054, "Quantum sensing Timing": 0.6894448399543762, "Quantum sensing": 0.712580680847168, "Quantum control": 0.706122875213623 } }, { "id": 1922, "title": "Einstein's Dream-Quantum Mechanics as Theory of Classical Random Fields", "abstract": "The first part of this paper is about a series of recent debates on quantum foundations and incompleteness of quantum mechanics. The second part is about a new classical model which reproduces the bas...", "citations": 195, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1924, "doi": "10.1166/rits.2013.1003", "umap_coordinates": { "x": 395.173583984375, "y": 137.54226684570312, "z": 206.33790588378906 }, "tsne_coordinates": { "x": -28.928058624267578, "y": 6.081170558929443, "z": 17.614078521728516 }, "pca_coordinates": { "x": 2.090548038482666, "y": 4.099637031555176, "z": -0.9045703411102295 }, "axis_scores": { "Quantum imaging": 0.7717196941375732, "Quantum Life Science Sensing": 0.7743673920631409, "Quantum sensing Detection": 0.74532550573349, "Quantum sensing Metrology": 0.7383082509040833, "Quantum sensing navigation": 0.7708786725997925, "Quantum sensing Position": 0.7262051105499268, "Quantum sensing Timing": 0.7384529709815979, "Quantum sensing": 0.7702627778053284, "Quantum control": 0.7515036463737488 } }, { "id": 1923, "title": "Phase Measurement of Resonant Two-Photon Ionization in Helium", "abstract": "We study resonant two-color two-photon ionization of helium via the 1s3p (1)P(1) state. The first color is the 15th harmonic of a tunable Ti:sapphire laser, while the second color is the fundamental l...", "citations": 140, "author_count": 11, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1925, "doi": "10.1103/PhysRevLett.104.103003", "umap_coordinates": { "x": 395.50018310546875, "y": 135.3719940185547, "z": 207.98550415039062 }, "tsne_coordinates": { "x": -7.7359938621521, "y": -12.735276222229004, "z": -5.122973918914795 }, "pca_coordinates": { "x": 4.274040699005127, "y": -0.38512706756591797, "z": 0.8905928730964661 }, "axis_scores": { "Quantum imaging": 0.7566662430763245, "Quantum Life Science Sensing": 0.7585219740867615, "Quantum sensing Detection": 0.7637961506843567, "Quantum sensing Metrology": 0.7408247590065002, "Quantum sensing navigation": 0.7491970658302307, "Quantum sensing Position": 0.7561191320419312, "Quantum sensing Timing": 0.7408038377761841, "Quantum sensing": 0.7590743899345398, "Quantum control": 0.7091629505157471 } }, { "id": 1924, "title": "Structural investigations into colour-tuneable fluorescent InZnP-based quantum dots from zinc carboxylate and aminophosphine precursors", "abstract": "Fluorescent InP-based quantum dots have emerged as valuable nanomaterials for display technologies, biological imaging, and optoelectronic applications. The inclusion of zinc can enhance both their em...", "citations": 5, "author_count": 16, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1926, "doi": "10.1039/d2nr02803d", "umap_coordinates": { "x": 391.92230224609375, "y": 135.20631408691406, "z": 205.66555786132812 }, "tsne_coordinates": { "x": 22.855363845825195, "y": -8.238465309143066, "z": 4.303080081939697 }, "pca_coordinates": { "x": -3.24261736869812, "y": -2.1269302368164062, "z": -2.140228748321533 }, "axis_scores": { "Quantum imaging": 0.7079222798347473, "Quantum Life Science Sensing": 0.7051483392715454, "Quantum sensing Detection": 0.677614688873291, "Quantum sensing Metrology": 0.670911431312561, "Quantum sensing navigation": 0.6941275596618652, "Quantum sensing Position": 0.6812697052955627, "Quantum sensing Timing": 0.6662188172340393, "Quantum sensing": 0.69632488489151, "Quantum control": 0.6717812418937683 } }, { "id": 1925, "title": "Dynamical Quantum Phase Transitions: Role of Topological Nodes in Wave Function Overlaps", "abstract": "A sudden quantum quench of a Bloch band from one topological phase toward another has been shown to exhibit an intimate connection with the notion of a dynamical quantum phase transition (DQPT), where...", "citations": 95, "author_count": 3, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1927, "doi": "10.1103/PhysRevLett.117.086802", "umap_coordinates": { "x": 394.86419677734375, "y": 136.78822326660156, "z": 208.47389221191406 }, "tsne_coordinates": { "x": -17.553312301635742, "y": -19.941953659057617, "z": 15.557473182678223 }, "pca_coordinates": { "x": 5.277520656585693, "y": 0.6722625494003296, "z": -0.44487422704696655 }, "axis_scores": { "Quantum imaging": 0.7253746390342712, "Quantum Life Science Sensing": 0.699303388595581, "Quantum sensing Detection": 0.7154790163040161, "Quantum sensing Metrology": 0.7040054798126221, "Quantum sensing navigation": 0.7360561490058899, "Quantum sensing Position": 0.7256101369857788, "Quantum sensing Timing": 0.740727961063385, "Quantum sensing": 0.7180833220481873, "Quantum control": 0.7032632827758789 } }, { "id": 1926, "title": "Modulating Exciton Dynamics in Composite Nanocrystals for Excitonic Solar Cells", "abstract": "Quantum dots (QDs) represent one of the most promising materials for third-generation solar cells due to their potential to boost the photoconversion efficiency beyond the Shockley-Queisser limit. Com...", "citations": 16, "author_count": 10, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1928, "doi": "10.1021/acs.jpclett.5b00765", "umap_coordinates": { "x": 392.12054443359375, "y": 135.2882843017578, "z": 206.34222412109375 }, "tsne_coordinates": { "x": 13.114062309265137, "y": -1.0356935262680054, "z": 12.585164070129395 }, "pca_coordinates": { "x": -1.9970297813415527, "y": -3.8799896240234375, "z": -2.0800838470458984 }, "axis_scores": { "Quantum imaging": 0.7140719890594482, "Quantum Life Science Sensing": 0.7118991613388062, "Quantum sensing Detection": 0.6826249361038208, "Quantum sensing Metrology": 0.6665582060813904, "Quantum sensing navigation": 0.6934139728546143, "Quantum sensing Position": 0.6550807952880859, "Quantum sensing Timing": 0.6855703592300415, "Quantum sensing": 0.6983277797698975, "Quantum control": 0.7209063172340393 } }, { "id": 1927, "title": "Single dot optical spectroscopy of silicon nanocrystals: low temperature measurements", "abstract": "Single dot spectroscopy allows studying properties of a single nanocrystal avoiding inhomogeneous broadening of the emission band. Here, data obtained by this technique for Si nanocrystals fabricated ...", "citations": 20, "author_count": 6, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1929, "doi": "10.1016/j.optmat.2004.08.046", "umap_coordinates": { "x": 393.9332275390625, "y": 133.20797729492188, "z": 206.97972106933594 }, "tsne_coordinates": { "x": 36.817291259765625, "y": 2.415783405303955, "z": -1.2699089050292969 }, "pca_coordinates": { "x": -1.8094593286514282, "y": -2.650754451751709, "z": 2.6307058334350586 }, "axis_scores": { "Quantum imaging": 0.7400060296058655, "Quantum Life Science Sensing": 0.7691463232040405, "Quantum sensing Detection": 0.7616692781448364, "Quantum sensing Metrology": 0.7644829750061035, "Quantum sensing navigation": 0.7203625440597534, "Quantum sensing Position": 0.7368720769882202, "Quantum sensing Timing": 0.7280102968215942, "Quantum sensing": 0.762181282043457, "Quantum control": 0.6958490014076233 } }, { "id": 1928, "title": "Aluminium incorporation for growth optimization of 1.3 μm emission InAs/GaAs quantum dots by molecular beam epitaxy", "abstract": "We have systematically studied the effects of incorporation of Al in the embedding layers of self-organized InAs quantum dots (QDs) grown on GaAs(0 0 1) by molecular-beam epitaxy on their density and ...", "citations": 7, "author_count": 8, "categories": [ "Crystallography" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1930, "doi": "10.1016/S0022-0248(02)02408-9", "umap_coordinates": { "x": 392.7045593261719, "y": 133.74497985839844, "z": 206.79307556152344 }, "tsne_coordinates": { "x": 45.085384368896484, "y": 1.327991008758545, "z": -0.809489905834198 }, "pca_coordinates": { "x": -3.0078508853912354, "y": -2.604930877685547, "z": 0.5355225205421448 }, "axis_scores": { "Quantum imaging": 0.6753833889961243, "Quantum Life Science Sensing": 0.6835634112358093, "Quantum sensing Detection": 0.6581602692604065, "Quantum sensing Metrology": 0.6751333475112915, "Quantum sensing navigation": 0.6759107708930969, "Quantum sensing Position": 0.6809282302856445, "Quantum sensing Timing": 0.6353864073753357, "Quantum sensing": 0.6685627102851868, "Quantum control": 0.6518094539642334 } }, { "id": 1929, "title": "Optimisation of MBE growth conditions for InAs quantum dots on (001) GaAs for 1.3 μm luminescence", "abstract": "We present a study of the optimised growth conditions for InAs quantum dots (QDs) grown on GaAs substrates by solid source molecular beam epitaxy (SSMBE). Growth conditions for best luminescence inten...", "citations": 34, "author_count": 6, "categories": [ "Crystallography" ], "year": 2001, "topic": [ "all" ], "embedding_index": 1931, "doi": "10.1016/S0022-0248(01)01003-X", "umap_coordinates": { "x": 392.9729919433594, "y": 133.71749877929688, "z": 206.62350463867188 }, "tsne_coordinates": { "x": 45.16642379760742, "y": 1.1650938987731934, "z": -0.5273298621177673 }, "pca_coordinates": { "x": -3.4436228275299072, "y": -1.9420113563537598, "z": 0.6194594502449036 }, "axis_scores": { "Quantum imaging": 0.6798131465911865, "Quantum Life Science Sensing": 0.6852037310600281, "Quantum sensing Detection": 0.6657331585884094, "Quantum sensing Metrology": 0.6897017359733582, "Quantum sensing navigation": 0.6764786243438721, "Quantum sensing Position": 0.6796245574951172, "Quantum sensing Timing": 0.6428432464599609, "Quantum sensing": 0.6771032810211182, "Quantum control": 0.6646990180015564 } }, { "id": 1930, "title": "The shell matters: one step synthesis of core-shell silicon nanoparticles with room temperature ultranarrow emission linewidth", "abstract": "Here we present a one-step synthesis that provides silicon nanocrystals with a thin shell composed of a ceramic-like carbonyl based compound, embedded in a porous organosilicon film. The silicon nanoc...", "citations": 2, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1932, "doi": "10.1039/c9fd00093c", "umap_coordinates": { "x": 392.31927490234375, "y": 133.96322631835938, "z": 206.5134735107422 }, "tsne_coordinates": { "x": 36.321624755859375, "y": -8.279338836669922, "z": -10.781610488891602 }, "pca_coordinates": { "x": -3.060424327850342, "y": -1.9356942176818848, "z": 0.6022061705589294 }, "axis_scores": { "Quantum imaging": 0.6926177740097046, "Quantum Life Science Sensing": 0.725640058517456, "Quantum sensing Detection": 0.6877454519271851, "Quantum sensing Metrology": 0.6996079087257385, "Quantum sensing navigation": 0.6812761425971985, "Quantum sensing Position": 0.6593695878982544, "Quantum sensing Timing": 0.660029411315918, "Quantum sensing": 0.700350821018219, "Quantum control": 0.6578139662742615 } }, { "id": 1931, "title": "Photophysical characterization of fluorescent DNA base analogue, tC", "abstract": "The novel fluorescent DNA cytosine base analogue 1,3-diaza-2-oxophenothiazine, tC, has previously been shown to have a remarkably preserved high quantum yield upon incorporation into a single strand o...", "citations": 84, "author_count": 7, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 1933, "doi": "10.1021/jp034930r", "umap_coordinates": { "x": 392.29254150390625, "y": 135.94186401367188, "z": 204.93275451660156 }, "tsne_coordinates": { "x": 5.404307842254639, "y": 9.69411563873291, "z": 4.235799789428711 }, "pca_coordinates": { "x": -3.1858434677124023, "y": -0.7743053436279297, "z": -2.916775941848755 }, "axis_scores": { "Quantum imaging": 0.7055420279502869, "Quantum Life Science Sensing": 0.7453078627586365, "Quantum sensing Detection": 0.7070268392562866, "Quantum sensing Metrology": 0.6823375821113586, "Quantum sensing navigation": 0.6841279864311218, "Quantum sensing Position": 0.6974905729293823, "Quantum sensing Timing": 0.679389476776123, "Quantum sensing": 0.7136197090148926, "Quantum control": 0.700678825378418 } }, { "id": 1932, "title": "Recent advances in carbon-based materials for high-performance perovskite solar cells: gaps, challenges and fulfillment", "abstract": "Presently, carbon-based nanomaterials have shown tremendous potential for energy conversion applications. Especially, carbon-based materials have emerged as excellent candidates for the fabrication of...", "citations": 38, "author_count": 9, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1934, "doi": "10.1039/d3na00005b", "umap_coordinates": { "x": 391.87353515625, "y": 134.45606994628906, "z": 205.43905639648438 }, "tsne_coordinates": { "x": 11.934625625610352, "y": -2.4239377975463867, "z": -18.154394149780273 }, "pca_coordinates": { "x": -2.7572994232177734, "y": -1.9383559226989746, "z": -1.9047870635986328 }, "axis_scores": { "Quantum imaging": 0.676097571849823, "Quantum Life Science Sensing": 0.7136832475662231, "Quantum sensing Detection": 0.673725426197052, "Quantum sensing Metrology": 0.6847408413887024, "Quantum sensing navigation": 0.6762979626655579, "Quantum sensing Position": 0.684954822063446, "Quantum sensing Timing": 0.6540644764900208, "Quantum sensing": 0.687869668006897, "Quantum control": 0.6707230806350708 } }, { "id": 1933, "title": "Engineering Floquet dynamical quantum phase transitions", "abstract": "Floquet dynamical quantum phase transitions (FDQPTs) are signified by recurrent nonanalytic behaviors of observables in time. In this work, we introduce a quench-free and generic approach to engineer ...", "citations": 21, "author_count": 5, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1935, "doi": "10.1103/PhysRevB.106.094314", "umap_coordinates": { "x": 394.6365051269531, "y": 136.4801788330078, "z": 208.31533813476562 }, "tsne_coordinates": { "x": -16.653400421142578, "y": -19.86540412902832, "z": 12.04037857055664 }, "pca_coordinates": { "x": 4.97634744644165, "y": -0.11348700523376465, "z": -2.7268543243408203 }, "axis_scores": { "Quantum imaging": 0.790526807308197, "Quantum Life Science Sensing": 0.8136239647865295, "Quantum sensing Detection": 0.7908338904380798, "Quantum sensing Metrology": 0.7816278338432312, "Quantum sensing navigation": 0.7995489835739136, "Quantum sensing Position": 0.757076621055603, "Quantum sensing Timing": 0.7488768100738525, "Quantum sensing": 0.8024097084999084, "Quantum control": 0.8085163831710815 } }, { "id": 1934, "title": "Electrical study of InAs/GaAs quantum dots with two different environments", "abstract": "Unusually complex spctra have been obtained for InAs/GaAs quantum dot (QD) structures when studied as a function of applied bias by deep level transient spectroscopy (DLTS). In spite of their complexi...", "citations": 1, "author_count": 7, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 1936, "doi": "10.1002/pssc.200779269", "umap_coordinates": { "x": 392.4636535644531, "y": 134.09071350097656, "z": 207.44140625 }, "tsne_coordinates": { "x": 39.50497055053711, "y": -5.804403305053711, "z": 10.441865921020508 }, "pca_coordinates": { "x": -0.7707635164260864, "y": -2.2777299880981445, "z": 0.5306560397148132 }, "axis_scores": { "Quantum imaging": 0.698576033115387, "Quantum Life Science Sensing": 0.725651204586029, "Quantum sensing Detection": 0.7041798830032349, "Quantum sensing Metrology": 0.688590943813324, "Quantum sensing navigation": 0.698659360408783, "Quantum sensing Position": 0.7036704421043396, "Quantum sensing Timing": 0.6893468499183655, "Quantum sensing": 0.7101749181747437, "Quantum control": 0.6714507341384888 } }, { "id": 1935, "title": "EPID dosimetry: Effect of different layers of materials on absorbed dose response", "abstract": "Purpose: Commercial EPIDs are normally used in indirect detection mode (iEPID) where incident x-ray photons are converted to optical photons in a phosphor scintillator, which are then detected by a ph...", "citations": 28, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1937, "doi": "10.1118/1.3245886", "umap_coordinates": { "x": 395.75909423828125, "y": 133.07456970214844, "z": 205.4049835205078 }, "tsne_coordinates": { "x": -10.463212013244629, "y": 26.731069564819336, "z": -24.122339248657227 }, "pca_coordinates": { "x": -1.5945219993591309, "y": 1.1990725994110107, "z": 2.1704702377319336 }, "axis_scores": { "Quantum imaging": 0.7233112454414368, "Quantum Life Science Sensing": 0.7253438830375671, "Quantum sensing Detection": 0.7083113193511963, "Quantum sensing Metrology": 0.7153843641281128, "Quantum sensing navigation": 0.6943506002426147, "Quantum sensing Position": 0.697221040725708, "Quantum sensing Timing": 0.6849045753479004, "Quantum sensing": 0.7159654498100281, "Quantum control": 0.6679401397705078 } }, { "id": 1936, "title": "Highly Sensitive and Fast Anion-Selective InN Quantum Dot Electrochemical Sensors", "abstract": "Epitaxial InN quantum dots (QDs) are demonstrated as ion-selective electrode for potentiometric anion concentration measurements. The sensor reveals high sensitivity above 90 mV/decade for the detecti...", "citations": 18, "author_count": 7, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1938, "doi": "10.7567/APEX.6.115201", "umap_coordinates": { "x": 393.2255554199219, "y": 133.50857543945312, "z": 205.53636169433594 }, "tsne_coordinates": { "x": 28.829105377197266, "y": 12.575145721435547, "z": -19.12921905517578 }, "pca_coordinates": { "x": -2.646754026412964, "y": -3.0415210723876953, "z": 1.2866899967193604 }, "axis_scores": { "Quantum imaging": 0.711135745048523, "Quantum Life Science Sensing": 0.7215237617492676, "Quantum sensing Detection": 0.7291069626808167, "Quantum sensing Metrology": 0.7061636447906494, "Quantum sensing navigation": 0.7052967548370361, "Quantum sensing Position": 0.6925565004348755, "Quantum sensing Timing": 0.6940246820449829, "Quantum sensing": 0.7325427532196045, "Quantum control": 0.6837913990020752 } }, { "id": 1937, "title": "Deep tissue optical imaging of upconverting nanoparticles enabled by exploiting higher intrinsic quantum yield through use of millisecond single pulse excitation with high peak power", "abstract": "We have accomplished deep tissue optical imaging of upconverting nanoparticles at 800 nm, using millisecond single pulse excitation with high peak power. This is achieved by carefully choosing the pul...", "citations": 68, "author_count": 7, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1939, "doi": "10.1039/c3nr01917a", "umap_coordinates": { "x": 393.6409912109375, "y": 133.53724670410156, "z": 205.72349548339844 }, "tsne_coordinates": { "x": 9.969608306884766, "y": 21.580778121948242, "z": -22.574201583862305 }, "pca_coordinates": { "x": -3.7909445762634277, "y": -2.5851097106933594, "z": 2.642674446105957 }, "axis_scores": { "Quantum imaging": 0.7092128992080688, "Quantum Life Science Sensing": 0.7020898461341858, "Quantum sensing Detection": 0.6784940361976624, "Quantum sensing Metrology": 0.6729882955551147, "Quantum sensing navigation": 0.6465125679969788, "Quantum sensing Position": 0.6494361758232117, "Quantum sensing Timing": 0.6645696759223938, "Quantum sensing": 0.6867426633834839, "Quantum control": 0.6263140439987183 } }, { "id": 1938, "title": "Highly efficient potentiometric glucose biosensor based on functionalized InN quantum dots", "abstract": "We present a fast, highly sensitive, and efficient potentiometric glucose biosensor based on functionalized InN quantum-dots (QDs). The InN QDs are grown by molecular beam epitaxy. The InN QDs are bio...", "citations": 35, "author_count": 9, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1940, "doi": "10.1063/1.4758701", "umap_coordinates": { "x": 393.37335205078125, "y": 133.82211303710938, "z": 205.7360076904297 }, "tsne_coordinates": { "x": 29.82955551147461, "y": 13.657936096191406, "z": -19.73213768005371 }, "pca_coordinates": { "x": -1.6702793836593628, "y": -2.964448928833008, "z": 2.870023012161255 }, "axis_scores": { "Quantum imaging": 0.716092050075531, "Quantum Life Science Sensing": 0.7223791480064392, "Quantum sensing Detection": 0.7195397615432739, "Quantum sensing Metrology": 0.7110411524772644, "Quantum sensing navigation": 0.72463059425354, "Quantum sensing Position": 0.6957876682281494, "Quantum sensing Timing": 0.6681902408599854, "Quantum sensing": 0.7362850308418274, "Quantum control": 0.6888056397438049 } }, { "id": 1939, "title": "DETERMINATION OF PHOTODESTRUCTION QUANTUM YIELDS USING CAPILLARY ELECTROPHORESIS - APPLICATION TO O-PHTHALALDEHYDE-LABELED BETA-MERCAPTOETHANOL-LABELED AMINO-ACIDS", "abstract": "Photodestruction quantum yields, Phi(D), were determined for o-phthalaldehyde/beta- mercaptoethanol-labeled protein amino acids in aqueous alkaline solution using trans-azobenzene actinometry. The Phi...", "citations": 1, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1941, "doi": "10.1080/10826079508014628", "umap_coordinates": { "x": 394.4899597167969, "y": 134.81863403320312, "z": 204.96792602539062 }, "tsne_coordinates": { "x": 1.870471715927124, "y": 15.776494979858398, "z": -12.507820129394531 }, "pca_coordinates": { "x": -3.1844959259033203, "y": 1.6923067569732666, "z": 1.2883892059326172 }, "axis_scores": { "Quantum imaging": 0.684077262878418, "Quantum Life Science Sensing": 0.7030240297317505, "Quantum sensing Detection": 0.6798804998397827, "Quantum sensing Metrology": 0.6636002659797668, "Quantum sensing navigation": 0.6872237920761108, "Quantum sensing Position": 0.6857694387435913, "Quantum sensing Timing": 0.6750434041023254, "Quantum sensing": 0.6790900230407715, "Quantum control": 0.6490125060081482 } }, { "id": 1940, "title": "Finite-Time Dynamics of an Entanglement Engine: Current, Fluctuations and Kinetic Uncertainty Relations", "abstract": "Entanglement engines are autonomous quantum thermal machines designed to generate entanglement from the presence of a particle current flowing through the device. In this work, we investigate the func...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1942, "doi": "10.3390/e26060497", "umap_coordinates": { "x": 394.7726745605469, "y": 137.207763671875, "z": 206.5404510498047 }, "tsne_coordinates": { "x": -14.157442092895508, "y": -9.315469741821289, "z": 12.62060832977295 }, "pca_coordinates": { "x": 2.4096741676330566, "y": 2.911020517349243, "z": -1.1739760637283325 }, "axis_scores": { "Quantum imaging": 0.733989953994751, "Quantum Life Science Sensing": 0.747196614742279, "Quantum sensing Detection": 0.7357606887817383, "Quantum sensing Metrology": 0.7160046100616455, "Quantum sensing navigation": 0.7580192685127258, "Quantum sensing Position": 0.7276856899261475, "Quantum sensing Timing": 0.741783857345581, "Quantum sensing": 0.7448601126670837, "Quantum control": 0.7522547841072083 } }, { "id": 1941, "title": "The Role of Quantum Interference Effects in Normal-State Transport Properties of Electron-Doped Cuprates", "abstract": "The normal-state resistivity of thin films of the infinite-layer electron-doped cuprate Sr (1-x) La (x) CuO (2 +/-delta) has been investigated. Under-doped samples, which clearly show a metal-to-insul...", "citations": 7, "author_count": 11, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 1943, "doi": "10.1007/s10948-015-3209-0", "umap_coordinates": { "x": 393.4798889160156, "y": 135.2454376220703, "z": 207.3907928466797 }, "tsne_coordinates": { "x": 20.512556076049805, "y": -20.04555320739746, "z": 13.189324378967285 }, "pca_coordinates": { "x": 0.6783311367034912, "y": -0.7461404800415039, "z": 0.495850145816803 }, "axis_scores": { "Quantum imaging": 0.7157042622566223, "Quantum Life Science Sensing": 0.6911903619766235, "Quantum sensing Detection": 0.6935808062553406, "Quantum sensing Metrology": 0.6814708113670349, "Quantum sensing navigation": 0.7125056982040405, "Quantum sensing Position": 0.68418949842453, "Quantum sensing Timing": 0.6812523007392883, "Quantum sensing": 0.7010528445243835, "Quantum control": 0.7113549709320068 } }, { "id": 1942, "title": "Color modeling of protein optical probes", "abstract": "We present a strategy for modeling optical probes within heterogeneous environments of restricted dimension. The method is based on a multiphysics approach comprising sequential structure modeling by ...", "citations": 39, "author_count": 5, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1944, "doi": "10.1039/c1cp23060c", "umap_coordinates": { "x": 393.143798828125, "y": 136.14927673339844, "z": 204.9708251953125 }, "tsne_coordinates": { "x": 1.6372272968292236, "y": 17.394519805908203, "z": 10.661789894104004 }, "pca_coordinates": { "x": -2.5453414916992188, "y": 0.3040013313293457, "z": -2.0574734210968018 }, "axis_scores": { "Quantum imaging": 0.7368687391281128, "Quantum Life Science Sensing": 0.7522826790809631, "Quantum sensing Detection": 0.7271474599838257, "Quantum sensing Metrology": 0.7197813391685486, "Quantum sensing navigation": 0.7234143018722534, "Quantum sensing Position": 0.7189815640449524, "Quantum sensing Timing": 0.698740541934967, "Quantum sensing": 0.7363794445991516, "Quantum control": 0.7223960757255554 } }, { "id": 1943, "title": "Determination of the triplet state energies of a series of conjugated porphyrin oligomers", "abstract": "We report a systematic study of the photophysical parameters relevant to photodynamic therapy (PDT) by a new type of sensitizers, conjugated porphyrin oligomers. Due to the strong nonlinear properties...", "citations": 50, "author_count": 14, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1945, "doi": "10.1039/b700557a", "umap_coordinates": { "x": 392.2807922363281, "y": 135.7860107421875, "z": 205.22511291503906 }, "tsne_coordinates": { "x": 6.057603359222412, "y": 5.578757286071777, "z": -7.979447841644287 }, "pca_coordinates": { "x": -0.6410051584243774, "y": -2.17673921585083, "z": -1.1345601081848145 }, "axis_scores": { "Quantum imaging": 0.6863236427307129, "Quantum Life Science Sensing": 0.7339649200439453, "Quantum sensing Detection": 0.7112246751785278, "Quantum sensing Metrology": 0.6991369128227234, "Quantum sensing navigation": 0.6804202198982239, "Quantum sensing Position": 0.6896405220031738, "Quantum sensing Timing": 0.6694533824920654, "Quantum sensing": 0.7133086919784546, "Quantum control": 0.6578625440597534 } }, { "id": 1944, "title": "TWO-IMPURITY KONDO MODEL: SPIN-ORBIT INTERACTIONS AND ENTANGLEMENT", "abstract": "Motivated proposals to employ RKKY-coupled spins as building blocks in a lid-state quantum computer, we analyze how the RKKY interaction in a 2D electron gas is influenced by spin-orbit interactions. ...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 1946, "doi": "10.1142/S0217984911026796", "umap_coordinates": { "x": 394.3548278808594, "y": 136.6654815673828, "z": 207.84149169921875 }, "tsne_coordinates": { "x": -17.541698455810547, "y": -23.951797485351562, "z": 23.99770736694336 }, "pca_coordinates": { "x": 2.971475601196289, "y": 1.1076332330703735, "z": -1.2368874549865723 }, "axis_scores": { "Quantum imaging": 0.7213747501373291, "Quantum Life Science Sensing": 0.6882457137107849, "Quantum sensing Detection": 0.7006272077560425, "Quantum sensing Metrology": 0.6862959861755371, "Quantum sensing navigation": 0.7097409963607788, "Quantum sensing Position": 0.6778322458267212, "Quantum sensing Timing": 0.6922540664672852, "Quantum sensing": 0.7157144546508789, "Quantum control": 0.7174622416496277 } }, { "id": 1945, "title": "Loschmidt Echo Revivals: Critical and Noncritical", "abstract": "A quantum phase transition is generally thought to imprint distinctive characteristics on the non-equilibrium dynamics of a closed quantum system. Specifically, the Loschmidt echo after a sudden quenc...", "citations": 101, "author_count": 3, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1947, "doi": "10.1103/PhysRevLett.118.015701", "umap_coordinates": { "x": 395.1061096191406, "y": 136.4324951171875, "z": 207.99749755859375 }, "tsne_coordinates": { "x": -17.094261169433594, "y": -11.590298652648926, "z": 21.075761795043945 }, "pca_coordinates": { "x": 3.0681772232055664, "y": 1.8947311639785767, "z": -0.2987055778503418 }, "axis_scores": { "Quantum imaging": 0.6694889068603516, "Quantum Life Science Sensing": 0.6978235244750977, "Quantum sensing Detection": 0.6703913807868958, "Quantum sensing Metrology": 0.6527203917503357, "Quantum sensing navigation": 0.6668093204498291, "Quantum sensing Position": 0.6441544890403748, "Quantum sensing Timing": 0.6740574836730957, "Quantum sensing": 0.6687941551208496, "Quantum control": 0.6514984369277954 } }, { "id": 1946, "title": "QEYSSAT: a mission proposal for a quantum receiver in space", "abstract": "Satellites offer the means to extend quantum communication and quantum key distribution towards global distances. We will outline the proposed QEYSSat mission proposal, which involves a quantum receiv...", "citations": 27, "author_count": 15, "categories": [ "Computer Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1948, "doi": "10.1117/12.2041693", "umap_coordinates": { "x": 395.3023681640625, "y": 134.9843292236328, "z": 206.4585418701172 }, "tsne_coordinates": { "x": -2.593900203704834, "y": 10.686785697937012, "z": -24.11182975769043 }, "pca_coordinates": { "x": 1.4761438369750977, "y": 2.4031553268432617, "z": 2.0490283966064453 }, "axis_scores": { "Quantum imaging": 0.738980770111084, "Quantum Life Science Sensing": 0.7557189464569092, "Quantum sensing Detection": 0.7599797248840332, "Quantum sensing Metrology": 0.7601577639579773, "Quantum sensing navigation": 0.7787187099456787, "Quantum sensing Position": 0.7656316757202148, "Quantum sensing Timing": 0.745478630065918, "Quantum sensing": 0.7610181570053101, "Quantum control": 0.7248927354812622 } }, { "id": 1947, "title": "Topological field theory for p-wave superconductors", "abstract": "We propose a topological field theory for a spinless two-dimensional (2D) chiral superconductor (SC) that contains fundamental Majorana fields. Due to a fermionic gauge symmetry, the Majorana modes su...", "citations": 11, "author_count": 4, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1949, "doi": "10.1088/1367-2630/14/6/063017", "umap_coordinates": { "x": 394.670166015625, "y": 136.6212921142578, "z": 207.3258819580078 }, "tsne_coordinates": { "x": -14.83769416809082, "y": -40.324928283691406, "z": 6.064417839050293 }, "pca_coordinates": { "x": 2.159921646118164, "y": 2.168365240097046, "z": -0.03680044412612915 }, "axis_scores": { "Quantum imaging": 0.6992952823638916, "Quantum Life Science Sensing": 0.6950292587280273, "Quantum sensing Detection": 0.6714965105056763, "Quantum sensing Metrology": 0.6754899024963379, "Quantum sensing navigation": 0.6961930394172668, "Quantum sensing Position": 0.6843771934509277, "Quantum sensing Timing": 0.6908610463142395, "Quantum sensing": 0.688531219959259, "Quantum control": 0.6772879362106323 } }, { "id": 1948, "title": "Open Systems, Quantum Probability, and Logic for Quantum-like Modeling in Biology, Cognition, and Decision-Making", "abstract": "The aim of this review is to highlight the possibility of applying the mathematical formalism and methodology of quantum theory to model behavior of complex biosystems, from genomes and proteins to an...", "citations": 16, "author_count": 2, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1950, "doi": "10.3390/e25060886", "umap_coordinates": { "x": 395.0211486816406, "y": 137.53216552734375, "z": 205.7385711669922 }, "tsne_coordinates": { "x": -22.47072982788086, "y": 12.294500350952148, "z": 15.968276023864746 }, "pca_coordinates": { "x": 0.9470024108886719, "y": 3.253378391265869, "z": -1.6682652235031128 }, "axis_scores": { "Quantum imaging": 0.7545825242996216, "Quantum Life Science Sensing": 0.7899848222732544, "Quantum sensing Detection": 0.7539392113685608, "Quantum sensing Metrology": 0.747195303440094, "Quantum sensing navigation": 0.7671449184417725, "Quantum sensing Position": 0.7147195339202881, "Quantum sensing Timing": 0.7196257710456848, "Quantum sensing": 0.7714744210243225, "Quantum control": 0.7493104338645935 } }, { "id": 1949, "title": "Tunable microwave photonic filter for noise and interference suppression in UMTS base stations", "abstract": "A design of a tunable microwave photonic filter for noise suppression and channel interference mitigation in the front-end stage after the receiving antenna of an UMTS base station is presented. The f...", "citations": 35, "author_count": 6, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 1951, "doi": "10.1049/el:20045500", "umap_coordinates": { "x": 394.4367370605469, "y": 133.94554138183594, "z": 206.77444458007812 }, "tsne_coordinates": { "x": 3.936002016067505, "y": -5.939523220062256, "z": -33.79991912841797 }, "pca_coordinates": { "x": -1.4664733409881592, "y": 0.026816129684448242, "z": 1.508993148803711 }, "axis_scores": { "Quantum imaging": 0.6836187243461609, "Quantum Life Science Sensing": 0.6767858862876892, "Quantum sensing Detection": 0.684822142124176, "Quantum sensing Metrology": 0.6837037205696106, "Quantum sensing navigation": 0.6879943013191223, "Quantum sensing Position": 0.6774682402610779, "Quantum sensing Timing": 0.6785298585891724, "Quantum sensing": 0.6888891458511353, "Quantum control": 0.6822952628135681 } }, { "id": 1950, "title": "Oscillating bound states for a giant atom", "abstract": "We investigate the relaxation dynamics of a single artificial atom interacting, via multiple coupling points, with a continuum of bosonic modes (photons or phonons) in a one-dimensional waveguide. In ...", "citations": 148, "author_count": 5, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1952, "doi": "10.1103/PhysRevResearch.2.043014", "umap_coordinates": { "x": 394.79608154296875, "y": 136.50250244140625, "z": 208.21054077148438 }, "tsne_coordinates": { "x": -17.936351776123047, "y": -23.268747329711914, "z": -10.8091459274292 }, "pca_coordinates": { "x": 4.703575611114502, "y": 0.4415462017059326, "z": -1.7403302192687988 }, "axis_scores": { "Quantum imaging": 0.6914135813713074, "Quantum Life Science Sensing": 0.7213995456695557, "Quantum sensing Detection": 0.7109239101409912, "Quantum sensing Metrology": 0.6915133595466614, "Quantum sensing navigation": 0.7176427841186523, "Quantum sensing Position": 0.6977523565292358, "Quantum sensing Timing": 0.6945132613182068, "Quantum sensing": 0.7131322622299194, "Quantum control": 0.6874583959579468 } }, { "id": 1951, "title": "InAs quantum dots in GaAs holes: island number dependence on hole diameter and conduction-band coupling estimates", "abstract": "We studied the formation of InAs islands in holes defined by electron-beam lithography on GaAs substrates. The islands grew selectively in the holes, with one to nine islands per hole. The number of i...", "citations": 12, "author_count": 6, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1953, "doi": "10.1006/spmi.1996.0428", "umap_coordinates": { "x": 392.3502197265625, "y": 133.96092224121094, "z": 207.46182250976562 }, "tsne_coordinates": { "x": 33.66754150390625, "y": -6.724276542663574, "z": 11.947509765625 }, "pca_coordinates": { "x": -1.1612303256988525, "y": -1.9460196495056152, "z": 2.327544927597046 }, "axis_scores": { "Quantum imaging": 0.7071905732154846, "Quantum Life Science Sensing": 0.6988043785095215, "Quantum sensing Detection": 0.7078893780708313, "Quantum sensing Metrology": 0.7118872404098511, "Quantum sensing navigation": 0.6975165605545044, "Quantum sensing Position": 0.7261752486228943, "Quantum sensing Timing": 0.6849287748336792, "Quantum sensing": 0.7129065990447998, "Quantum control": 0.6717537045478821 } }, { "id": 1952, "title": "M(T) DEPENDENCE OF BOSON INTERFEROMETRY IN HEAVY-ION COLLISIONS AT THE CERN SPS", "abstract": "", "citations": 90, "author_count": 46, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 1954, "doi": "10.1103/PhysRevLett.74.3340", "umap_coordinates": { "x": 395.6560974121094, "y": 135.35801696777344, "z": 208.218994140625 }, "tsne_coordinates": { "x": -11.339529991149902, "y": -29.28391456604004, "z": -13.047566413879395 }, "pca_coordinates": { "x": 3.1119861602783203, "y": 1.2420499324798584, "z": 1.441272497177124 }, "axis_scores": { "Quantum imaging": 0.7109342217445374, "Quantum Life Science Sensing": 0.7109293937683105, "Quantum sensing Detection": 0.7041851282119751, "Quantum sensing Metrology": 0.7126085162162781, "Quantum sensing navigation": 0.7011722326278687, "Quantum sensing Position": 0.7079334259033203, "Quantum sensing Timing": 0.7120644450187683, "Quantum sensing": 0.7093128561973572, "Quantum control": 0.6822636723518372 } }, { "id": 1953, "title": "Theoretical investigation of the signal-to-noise ratio for different fluorescence lifetime imaging techniques", "abstract": "Using Monte-Carlo methods, we have investigated the signal-to-noise ratio obtainable for different fluorescence lifetime imaging methods. Quantum noise limited performance and mono-exponential decays ...", "citations": 22, "author_count": 3, "categories": [ "Cell Biology" ], "year": 2002, "topic": [ "all" ], "embedding_index": 1955, "doi": "10.1117/12.468362", "umap_coordinates": { "x": 394.8542175292969, "y": 133.4927978515625, "z": 205.84524536132812 }, "tsne_coordinates": { "x": 3.8947465419769287, "y": 25.414461135864258, "z": -30.387975692749023 }, "pca_coordinates": { "x": -2.395153522491455, "y": 1.8794095516204834, "z": 1.126802682876587 }, "axis_scores": { "Quantum imaging": 0.7329264879226685, "Quantum Life Science Sensing": 0.7414536476135254, "Quantum sensing Detection": 0.7155869007110596, "Quantum sensing Metrology": 0.7117956280708313, "Quantum sensing navigation": 0.7050844430923462, "Quantum sensing Position": 0.6850065588951111, "Quantum sensing Timing": 0.6908863186836243, "Quantum sensing": 0.7219695448875427, "Quantum control": 0.6631401777267456 } }, { "id": 1954, "title": "Adsorption and Photoinduced Decomposition of Acetone and Acetic Acid on Anatase, Brookite, and Rutile TiO2 Nanoparticles", "abstract": "A comparative study of the adsorption and photoinduced degradation (PID) of acetone and acetic acid on thin films of anatase, brookite, and rutile TiO2 nanoparticles is presented. The materials were t...", "citations": 199, "author_count": 3, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1956, "doi": "10.1021/jp103263n", "umap_coordinates": { "x": 392.31280517578125, "y": 134.86268615722656, "z": 205.50498962402344 }, "tsne_coordinates": { "x": 16.691497802734375, "y": 5.913480281829834, "z": 0.9574761390686035 }, "pca_coordinates": { "x": -2.754673480987549, "y": -2.8064112663269043, "z": -2.679438829421997 }, "axis_scores": { "Quantum imaging": 0.6633842587471008, "Quantum Life Science Sensing": 0.6750909090042114, "Quantum sensing Detection": 0.6633166074752808, "Quantum sensing Metrology": 0.6292514801025391, "Quantum sensing navigation": 0.6310110092163086, "Quantum sensing Position": 0.6205456852912903, "Quantum sensing Timing": 0.6211408972740173, "Quantum sensing": 0.676129162311554, "Quantum control": 0.6594161987304688 } }, { "id": 1955, "title": "Spatiotemporal heterogeneity of entanglement in many-body localized systems", "abstract": "We propose a spatiotemporal characterization of the entanglement dynamics in many-body localized (MBL) systems, which exhibits a striking resemblance to dynamical heterogeneity in classical glasses. S...", "citations": 10, "author_count": 6, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1957, "doi": "10.1103/PhysRevB.105.184202", "umap_coordinates": { "x": 395.0425109863281, "y": 136.48355102539062, "z": 208.15737915039062 }, "tsne_coordinates": { "x": -13.79403018951416, "y": -16.576398849487305, "z": 8.272651672363281 }, "pca_coordinates": { "x": 4.867665767669678, "y": 0.36676454544067383, "z": -0.9301067590713501 }, "axis_scores": { "Quantum imaging": 0.7504481077194214, "Quantum Life Science Sensing": 0.730754554271698, "Quantum sensing Detection": 0.7294817566871643, "Quantum sensing Metrology": 0.7033418416976929, "Quantum sensing navigation": 0.7277238965034485, "Quantum sensing Position": 0.7115026116371155, "Quantum sensing Timing": 0.7159281373023987, "Quantum sensing": 0.7439689040184021, "Quantum control": 0.7199476957321167 } }, { "id": 1956, "title": "Wafer-scale fabrication of isolated luminescent silicon quantum dots using standard CMOS technology", "abstract": "A wafer-scale fabrication method for isolated silicon quantum dots (Si QDs) using standard CMOS technology is presented. Reactive ion etching was performed on the device layer of a silicon-on-insulato...", "citations": 6, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 1958, "doi": "10.1088/1361-6528/abb556", "umap_coordinates": { "x": 394.0337829589844, "y": 133.7919158935547, "z": 207.16091918945312 }, "tsne_coordinates": { "x": -12.146860122680664, "y": -10.454520225524902, "z": -24.081274032592773 }, "pca_coordinates": { "x": -1.6011040210723877, "y": -1.033215045928955, "z": 3.7001423835754395 }, "axis_scores": { "Quantum imaging": 0.7348960638046265, "Quantum Life Science Sensing": 0.7403307557106018, "Quantum sensing Detection": 0.7232255339622498, "Quantum sensing Metrology": 0.7233794927597046, "Quantum sensing navigation": 0.7036818265914917, "Quantum sensing Position": 0.6841405630111694, "Quantum sensing Timing": 0.681447446346283, "Quantum sensing": 0.7394241094589233, "Quantum control": 0.6914330124855042 } }, { "id": 1957, "title": "Ligand Exchange Dynamics and Temperature Effects upon Formation of Nanocomposites Based on Semiconductor CdSe/ZnS Quantum Dots and Porphyrins: Ensemble and Single Object Measurements", "abstract": "Dye molecules with pyridyl side substituents (porphyrins and heterocyclic perylene diimides) coordinatively attached to semiconductor CdSe/ZnS quantum dots (QDs) surface form quasi-stable QD-Dye nanoc...", "citations": 13, "author_count": 7, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1959, "doi": "10.6060/mhc2012.120571z", "umap_coordinates": { "x": 392.9654846191406, "y": 135.46994018554688, "z": 206.08966064453125 }, "tsne_coordinates": { "x": 18.401498794555664, "y": -0.692307710647583, "z": 13.230204582214355 }, "pca_coordinates": { "x": -1.209263801574707, "y": -1.5838561058044434, "z": -1.7300961017608643 }, "axis_scores": { "Quantum imaging": 0.7206270694732666, "Quantum Life Science Sensing": 0.7481801509857178, "Quantum sensing Detection": 0.7125388383865356, "Quantum sensing Metrology": 0.7136770486831665, "Quantum sensing navigation": 0.6971526145935059, "Quantum sensing Position": 0.6930442452430725, "Quantum sensing Timing": 0.7011705636978149, "Quantum sensing": 0.7284214496612549, "Quantum control": 0.7236979007720947 } }, { "id": 1958, "title": "Image quality of photon-counting detector CT for visualization of maxillofacial anatomy in comparison with energy-integrating detector CT and intraoperative C-arm CBCT", "abstract": "Background: Accurate diagnostic imaging is crucial for managing facial fractures, which are a common global occurrence. This study aimed to compare the image quality of Photon Counting Detector CT (PC...", "citations": 6, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1960, "doi": "10.1016/j.ejrad.2024.111785", "umap_coordinates": { "x": 395.2975158691406, "y": 132.74977111816406, "z": 205.03082275390625 }, "tsne_coordinates": { "x": -3.192141056060791, "y": 25.59121322631836, "z": -17.47552490234375 }, "pca_coordinates": { "x": -4.863381862640381, "y": 3.914827346801758, "z": 3.0302317142486572 }, "axis_scores": { "Quantum imaging": 0.702576756477356, "Quantum Life Science Sensing": 0.6674399971961975, "Quantum sensing Detection": 0.670505940914154, "Quantum sensing Metrology": 0.6655874848365784, "Quantum sensing navigation": 0.673782229423523, "Quantum sensing Position": 0.6635880470275879, "Quantum sensing Timing": 0.6638981103897095, "Quantum sensing": 0.669098973274231, "Quantum control": 0.6294114589691162 } }, { "id": 1959, "title": "Efficient classical simulation of the Deutsch-Jozsa and Simon's algorithms", "abstract": "Along-standing aim of quantum information research is to understand what gives quantum computers their advantage. This requires separating problems that need genuinely quantum resources from those for...", "citations": 20, "author_count": 3, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1961, "doi": "10.1007/s11128-017-1679-7", "umap_coordinates": { "x": 394.9768981933594, "y": 137.6715087890625, "z": 206.50088500976562 }, "tsne_coordinates": { "x": -32.5329704284668, "y": -3.0983972549438477, "z": 16.53826904296875 }, "pca_coordinates": { "x": 1.4976327419281006, "y": 3.524989604949951, "z": 1.5690672397613525 }, "axis_scores": { "Quantum imaging": 0.7141225337982178, "Quantum Life Science Sensing": 0.6961509585380554, "Quantum sensing Detection": 0.7023673057556152, "Quantum sensing Metrology": 0.6993482112884521, "Quantum sensing navigation": 0.7247196435928345, "Quantum sensing Position": 0.6783807277679443, "Quantum sensing Timing": 0.7204688191413879, "Quantum sensing": 0.7182289361953735, "Quantum control": 0.7050590515136719 } }, { "id": 1960, "title": "Detection of single-mode thermal microwave photons using an underdamped Josephson junction", "abstract": "When measuring electromagnetic radiation of frequency f, the most sensitive detector counts single quanta of energy hf. Single photon detectors have been demonstrated from gamma-rays to infrared wavel...", "citations": 5, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1962, "doi": "10.1038/s41467-025-56040-4", "umap_coordinates": { "x": 394.8190002441406, "y": 133.7850799560547, "z": 207.4171142578125 }, "tsne_coordinates": { "x": -10.055933952331543, "y": -2.070528745651245, "z": -24.512697219848633 }, "pca_coordinates": { "x": -0.5323415994644165, "y": -1.1772708892822266, "z": 4.464967250823975 }, "axis_scores": { "Quantum imaging": 0.7186638116836548, "Quantum Life Science Sensing": 0.7290410399436951, "Quantum sensing Detection": 0.7335405945777893, "Quantum sensing Metrology": 0.7165060639381409, "Quantum sensing navigation": 0.6985987424850464, "Quantum sensing Position": 0.6803898811340332, "Quantum sensing Timing": 0.6955671906471252, "Quantum sensing": 0.7278862595558167, "Quantum control": 0.653346061706543 } }, { "id": 1961, "title": "Quantum polarization properties of two-mode energy eigenstates - art. no. 033818", "abstract": "We show that any pure, two-mode, N-photon state with N odd or equal to two can be transformed into an orthogonal state using only linear optics. According to a recently suggested definition of polariz...", "citations": 40, "author_count": 7, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1963, "doi": "10.1103/PhysRevA.71.033818", "umap_coordinates": { "x": 393.99395751953125, "y": 135.91189575195312, "z": 207.53411865234375 }, "tsne_coordinates": { "x": -17.145584106445312, "y": -10.852387428283691, "z": -4.731816291809082 }, "pca_coordinates": { "x": 2.5669384002685547, "y": -1.0365233421325684, "z": -0.7325555086135864 }, "axis_scores": { "Quantum imaging": 0.730750322341919, "Quantum Life Science Sensing": 0.7432698011398315, "Quantum sensing Detection": 0.7349116802215576, "Quantum sensing Metrology": 0.7219297885894775, "Quantum sensing navigation": 0.7222157120704651, "Quantum sensing Position": 0.7108332514762878, "Quantum sensing Timing": 0.6772212386131287, "Quantum sensing": 0.7409501671791077, "Quantum control": 0.6929306983947754 } }, { "id": 1962, "title": "Edge theories for polarized quantum Hall states", "abstract": "Starting from recently proposed bosonic mean-field theories for fully and partially polarized quantum Hall states, we construct corresponding effective low-energy theories for the edge modes. The requ...", "citations": 3, "author_count": 3, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 1964, "doi": "10.1103/PhysRevB.61.7553", "umap_coordinates": { "x": 394.5640869140625, "y": 136.38626098632812, "z": 209.05035400390625 }, "tsne_coordinates": { "x": -17.182453155517578, "y": -33.236114501953125, "z": 13.946627616882324 }, "pca_coordinates": { "x": 4.8765764236450195, "y": -0.49211692810058594, "z": -1.1647565364837646 }, "axis_scores": { "Quantum imaging": 0.7226690649986267, "Quantum Life Science Sensing": 0.7224060893058777, "Quantum sensing Detection": 0.7154414057731628, "Quantum sensing Metrology": 0.7034715414047241, "Quantum sensing navigation": 0.7375953197479248, "Quantum sensing Position": 0.6931362152099609, "Quantum sensing Timing": 0.6830565929412842, "Quantum sensing": 0.7284194231033325, "Quantum control": 0.6974332332611084 } }, { "id": 1963, "title": "Time-resolved photocurrents in quantum well/dot infrared photodetectors with different optical coupling structures", "abstract": "Temporal developments of photocurrents excited by an infrared radiation pulse in quantum well/dot infrared photodetectors with different optical coupling structures have been theoretically studied. It...", "citations": 12, "author_count": 6, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1965, "doi": "10.1063/1.3678637", "umap_coordinates": { "x": 393.1993408203125, "y": 134.28750610351562, "z": 207.94064331054688 }, "tsne_coordinates": { "x": 35.479286193847656, "y": -21.990428924560547, "z": -4.958033561706543 }, "pca_coordinates": { "x": 0.5705161094665527, "y": -2.676414966583252, "z": 1.8350608348846436 }, "axis_scores": { "Quantum imaging": 0.7324076890945435, "Quantum Life Science Sensing": 0.7384805679321289, "Quantum sensing Detection": 0.716799259185791, "Quantum sensing Metrology": 0.7015948295593262, "Quantum sensing navigation": 0.7010902166366577, "Quantum sensing Position": 0.6901260614395142, "Quantum sensing Timing": 0.7230082750320435, "Quantum sensing": 0.7265863418579102, "Quantum control": 0.6833153963088989 } }, { "id": 1964, "title": "Internal Conversion versus Intersystem Crossing: What Drives the Gas Phase Dynamics of Cyclic α,β-Enones?", "abstract": "We investigate the competition between intersystem crossing (ISC) and internal conversion (IC) as nonradiative relaxation pathways in cyclic alpha,beta-unsaturated enones following excitation to their...", "citations": 48, "author_count": 8, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1966, "doi": "10.1021/jp4124937", "umap_coordinates": { "x": 392.602294921875, "y": 137.0036163330078, "z": 205.7541961669922 }, "tsne_coordinates": { "x": -7.151419639587402, "y": 2.875150203704834, "z": 12.808757781982422 }, "pca_coordinates": { "x": -0.06512093544006348, "y": 1.8291786909103394, "z": -3.156122922897339 }, "axis_scores": { "Quantum imaging": 0.6791923642158508, "Quantum Life Science Sensing": 0.6975858211517334, "Quantum sensing Detection": 0.6593984961509705, "Quantum sensing Metrology": 0.6291284561157227, "Quantum sensing navigation": 0.6830882430076599, "Quantum sensing Position": 0.6341409087181091, "Quantum sensing Timing": 0.6440467834472656, "Quantum sensing": 0.6716348528862, "Quantum control": 0.6908994913101196 } }, { "id": 1965, "title": "Magnetic and transport properties of single grain AlPdMn quasicrystals", "abstract": "The transport properties and magnetic susceptibilty in single grain AlPdMn have been studied. An anisotropy in the magnetoresistance was observed. The magnetic susceptibilty indicates a low concentrat...", "citations": 3, "author_count": 9, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1967, "doi": "10.1007/BF02570338", "umap_coordinates": { "x": 392.137451171875, "y": 135.9017333984375, "z": 207.2449951171875 }, "tsne_coordinates": { "x": 13.611830711364746, "y": -22.208389282226562, "z": 24.80582046508789 }, "pca_coordinates": { "x": 0.23923349380493164, "y": -2.038468837738037, "z": -2.0141563415527344 }, "axis_scores": { "Quantum imaging": 0.68693608045578, "Quantum Life Science Sensing": 0.6972355842590332, "Quantum sensing Detection": 0.6551840305328369, "Quantum sensing Metrology": 0.6834447979927063, "Quantum sensing navigation": 0.6978102922439575, "Quantum sensing Position": 0.6685112714767456, "Quantum sensing Timing": 0.6429514288902283, "Quantum sensing": 0.6830541491508484, "Quantum control": 0.6780681014060974 } }, { "id": 1966, "title": "Multilevel spectroscopy of two-level systems coupled to a dc SQUID phase qubit", "abstract": "We report spectroscopic measurements of discrete two-level systems (TLSs) coupled to a dc superconducting quantum interference device phase qubit with a 16 mu m(2) area Al/AlO(x)/Al junction. Applying...", "citations": 36, "author_count": 12, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1968, "doi": "10.1103/PhysRevB.81.144503", "umap_coordinates": { "x": 394.0939025878906, "y": 135.80384826660156, "z": 208.3704376220703 }, "tsne_coordinates": { "x": -6.0609259605407715, "y": -20.725526809692383, "z": 4.373334884643555 }, "pca_coordinates": { "x": 4.579349517822266, "y": -1.6894173622131348, "z": -0.8620251417160034 }, "axis_scores": { "Quantum imaging": 0.7434425950050354, "Quantum Life Science Sensing": 0.762784481048584, "Quantum sensing Detection": 0.7519040703773499, "Quantum sensing Metrology": 0.7365939021110535, "Quantum sensing navigation": 0.7461119890213013, "Quantum sensing Position": 0.727226197719574, "Quantum sensing Timing": 0.7001802325248718, "Quantum sensing": 0.7629107236862183, "Quantum control": 0.7322300672531128 } }, { "id": 1967, "title": "Semi-empirical simulations of the electron centers in MgO crystal", "abstract": "Semi-empirical quantum chemical simulations of 125-atom clusters have been undertaken to obtain the self-consistent atomic and electronic structure of the two basic electron defects in MgO crystals - ...", "citations": 46, "author_count": 6, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 1969, "doi": "10.1016/0927-0256(95)00046-1", "umap_coordinates": { "x": 393.93902587890625, "y": 136.6739044189453, "z": 206.25596618652344 }, "tsne_coordinates": { "x": -5.910060405731201, "y": 17.27865982055664, "z": 19.495983123779297 }, "pca_coordinates": { "x": 0.571060299873352, "y": 0.9453425407409668, "z": -1.9848549365997314 }, "axis_scores": { "Quantum imaging": 0.7370399236679077, "Quantum Life Science Sensing": 0.743076503276825, "Quantum sensing Detection": 0.7147724032402039, "Quantum sensing Metrology": 0.7352789044380188, "Quantum sensing navigation": 0.7208796143531799, "Quantum sensing Position": 0.705430269241333, "Quantum sensing Timing": 0.6953542232513428, "Quantum sensing": 0.731922447681427, "Quantum control": 0.7130717635154724 } }, { "id": 1968, "title": "Implantation induced interdiffusion of InGaAs quantum dots-effect of ion species, dose and substrate temperature", "abstract": "The quantum dot (QD) composition, growth methods, and implant conditions are expected to play a major role in the interdiffusion of the QDs. In this work, interdiffusion process in, In0.5Ga0.5As QDs c...", "citations": 4, "author_count": 8, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 1970, "doi": "10.1016/j.vacuum.2005.01.016", "umap_coordinates": { "x": 392.661376953125, "y": 133.73802185058594, "z": 206.98428344726562 }, "tsne_coordinates": { "x": 33.198394775390625, "y": -14.312164306640625, "z": 7.401508331298828 }, "pca_coordinates": { "x": -1.407127022743225, "y": -2.6826510429382324, "z": 1.6568388938903809 }, "axis_scores": { "Quantum imaging": 0.7114611864089966, "Quantum Life Science Sensing": 0.7081171870231628, "Quantum sensing Detection": 0.7000262141227722, "Quantum sensing Metrology": 0.686242401599884, "Quantum sensing navigation": 0.6763535737991333, "Quantum sensing Position": 0.6965186595916748, "Quantum sensing Timing": 0.6807860136032104, "Quantum sensing": 0.6995307207107544, "Quantum control": 0.6576017141342163 } }, { "id": 1969, "title": "ON THE REASON FOR THE DIFFERENT PHOTOSYNTHETIC RATES OF SEEDLINGS OF PINUS-SILVESTRIS AND BETULA-VERRUCOSA", "abstract": "The growth and net photosynthetic properties of seedlings of P. silvestris L. and B. verrucosa Ehrh., grown under identical conditions in a controlled environment chamber, were compared. The relative ...", "citations": 13, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1980, "topic": [ "all" ], "embedding_index": 1971, "doi": "10.1104/pp.66.5.940", "umap_coordinates": { "x": 394.4319763183594, "y": 136.2526092529297, "z": 203.6522979736328 }, "tsne_coordinates": { "x": 11.44674015045166, "y": 33.32610321044922, "z": 10.456771850585938 }, "pca_coordinates": { "x": -0.43176573514938354, "y": 1.4487628936767578, "z": -0.2804366648197174 }, "axis_scores": { "Quantum imaging": 0.6436183452606201, "Quantum Life Science Sensing": 0.6914755702018738, "Quantum sensing Detection": 0.6500839591026306, "Quantum sensing Metrology": 0.6514174342155457, "Quantum sensing navigation": 0.6555476784706116, "Quantum sensing Position": 0.6479215621948242, "Quantum sensing Timing": 0.6679130792617798, "Quantum sensing": 0.6690521240234375, "Quantum control": 0.6651730537414551 } }, { "id": 1970, "title": "Integration of microfluidics with grating coupled silicon photonic sensors by one-step combined photopatterning and molding of OSTE", "abstract": "We present a novel integration method for packaging silicon photonic sensors with polymer microfluidics, designed to be suitable for wafer-level production methods. The method addresses the previously...", "citations": 15, "author_count": 9, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1972, "doi": "10.1364/OE.21.021293", "umap_coordinates": { "x": 394.3946533203125, "y": 133.864013671875, "z": 206.55078125 }, "tsne_coordinates": { "x": -3.855381965637207, "y": -9.374628067016602, "z": -37.00792694091797 }, "pca_coordinates": { "x": -1.8263354301452637, "y": -0.37593841552734375, "z": 4.1948652267456055 }, "axis_scores": { "Quantum imaging": 0.7111292481422424, "Quantum Life Science Sensing": 0.6894879937171936, "Quantum sensing Detection": 0.6993056535720825, "Quantum sensing Metrology": 0.7183141112327576, "Quantum sensing navigation": 0.692902684211731, "Quantum sensing Position": 0.6815445423126221, "Quantum sensing Timing": 0.6918995976448059, "Quantum sensing": 0.7097337245941162, "Quantum control": 0.6723173260688782 } }, { "id": 1971, "title": "RETRACTED: Graphene quantum dots decorated CdS doped graphene oxide sheets in dual action mode: As initiator and platform for designing of nimesulide imprinted polymer (Retracted article. See vol.114, pg.89, 2018)", "abstract": "The present work describes the preparation of a nanohybrid by a combination of the 2D graphene sheet and OD graphene quantum dots (GQDs). The GQDs were prepared from natural green precursors i.e. carr...", "citations": 14, "author_count": 7, "categories": [ "Biophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1973, "doi": "10.1016/j.bios.2015.12.053", "umap_coordinates": { "x": 393.3762512207031, "y": 134.1447296142578, "z": 204.20526123046875 }, "tsne_coordinates": { "x": 23.646339416503906, "y": 25.915363311767578, "z": -8.793486595153809 }, "pca_coordinates": { "x": -3.646361827850342, "y": 0.708605170249939, "z": -0.3015434443950653 }, "axis_scores": { "Quantum imaging": 0.6827938556671143, "Quantum Life Science Sensing": 0.7155574560165405, "Quantum sensing Detection": 0.700225830078125, "Quantum sensing Metrology": 0.674992561340332, "Quantum sensing navigation": 0.6757104396820068, "Quantum sensing Position": 0.6927185654640198, "Quantum sensing Timing": 0.6668168306350708, "Quantum sensing": 0.6952208876609802, "Quantum control": 0.6768320798873901 } }, { "id": 1972, "title": "A size dependent discontinuous decay rate for the exciton emission in ZnO quantum dots", "abstract": "The time resolved UV-fluorescence in ZnO quantum dots has been investigated using femtosecond laser spectroscopy. The measurements were performed as a function of particle size for particles between 3...", "citations": 41, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1974, "doi": "10.1039/c4cp00254g", "umap_coordinates": { "x": 392.15130615234375, "y": 135.0797119140625, "z": 206.2996368408203 }, "tsne_coordinates": { "x": 14.351276397705078, "y": -1.231116771697998, "z": 6.625523090362549 }, "pca_coordinates": { "x": -0.6703886985778809, "y": -1.9401512145996094, "z": -1.591667890548706 }, "axis_scores": { "Quantum imaging": 0.6902980208396912, "Quantum Life Science Sensing": 0.7155000567436218, "Quantum sensing Detection": 0.6921927332878113, "Quantum sensing Metrology": 0.6539182066917419, "Quantum sensing navigation": 0.6685583591461182, "Quantum sensing Position": 0.6668844223022461, "Quantum sensing Timing": 0.6677498817443848, "Quantum sensing": 0.6891825795173645, "Quantum control": 0.6780329346656799 } }, { "id": 1973, "title": "Optimal randomness certification from one entangled bit", "abstract": "By performing local projective measurements on a two-qubit entangled state one can certify in a device-independent way up to one bit of randomness. We show here that general measurements, defined by p...", "citations": 92, "author_count": 5, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1975, "doi": "10.1103/PhysRevA.93.040102", "umap_coordinates": { "x": 395.7060852050781, "y": 136.85977172851562, "z": 207.3063507080078 }, "tsne_coordinates": { "x": -28.263973236083984, "y": -2.4929590225219727, "z": 0.5496404767036438 }, "pca_coordinates": { "x": 4.391238689422607, "y": 2.181030750274658, "z": 1.0600330829620361 }, "axis_scores": { "Quantum imaging": 0.7589292526245117, "Quantum Life Science Sensing": 0.7586663365364075, "Quantum sensing Detection": 0.7735917568206787, "Quantum sensing Metrology": 0.7481666207313538, "Quantum sensing navigation": 0.7683377861976624, "Quantum sensing Position": 0.734839916229248, "Quantum sensing Timing": 0.7402885556221008, "Quantum sensing": 0.7814111113548279, "Quantum control": 0.7561331987380981 } }, { "id": 1974, "title": "Initial Clinical Images From a Second-Generation Prototype Silicon-Based Photon-Counting Computed Tomography System", "abstract": "Rationale and Objectives: To demonstrate the feasibility and potential of using a second -generation prototype photon -counting computed tomography (CT) system to provide simultaneous high spatial res...", "citations": 30, "author_count": 16, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 1976, "doi": "10.1016/j.acra.2023.06.031", "umap_coordinates": { "x": 395.044189453125, "y": 132.98947143554688, "z": 205.1578826904297 }, "tsne_coordinates": { "x": -10.592164993286133, "y": 18.378515243530273, "z": -17.004667282104492 }, "pca_coordinates": { "x": -3.9279472827911377, "y": 2.44099760055542, "z": 2.6125054359436035 }, "axis_scores": { "Quantum imaging": 0.6992701292037964, "Quantum Life Science Sensing": 0.684959888458252, "Quantum sensing Detection": 0.6754635572433472, "Quantum sensing Metrology": 0.6699640154838562, "Quantum sensing navigation": 0.6559237241744995, "Quantum sensing Position": 0.6639354228973389, "Quantum sensing Timing": 0.6604230403900146, "Quantum sensing": 0.6802835464477539, "Quantum control": 0.6277406811714172 } }, { "id": 1975, "title": "Approaching the Spin-Statistical Limit in Visible-to-Ultraviolet Photon Upconversion", "abstract": "Triplet - triplet annihilation photon upconversion (TTA-UC) is a process in which triplet excitons combine to form emissive singlets and holds great promise in biological applications and for improvin...", "citations": 88, "author_count": 7, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1977, "doi": "10.1021/jacs.1c13222", "umap_coordinates": { "x": 393.38720703125, "y": 135.4959716796875, "z": 206.40350341796875 }, "tsne_coordinates": { "x": -2.334071397781372, "y": -10.896124839782715, "z": -13.561528205871582 }, "pca_coordinates": { "x": 0.20209693908691406, "y": -0.8403925895690918, "z": -0.012696444988250732 }, "axis_scores": { "Quantum imaging": 0.6905631422996521, "Quantum Life Science Sensing": 0.7227020263671875, "Quantum sensing Detection": 0.7013272047042847, "Quantum sensing Metrology": 0.6903901100158691, "Quantum sensing navigation": 0.6792200207710266, "Quantum sensing Position": 0.6810962557792664, "Quantum sensing Timing": 0.6645907759666443, "Quantum sensing": 0.7043660283088684, "Quantum control": 0.6640856266021729 } }, { "id": 1976, "title": "Assessment of image quality in photon-counting detector computed tomography of the wrist-An ex vivo study", "abstract": "Purpose: The aim of this study was to evaluate the effect of reconstruction parameters on image quality in wrist imaging using photon-counting detector CT (PCD-CT) and to compare the results with imag...", "citations": 32, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1978, "doi": "10.1016/j.ejrad.2022.110442", "umap_coordinates": { "x": 395.1976013183594, "y": 133.0015411376953, "z": 205.03494262695312 }, "tsne_coordinates": { "x": -3.8762099742889404, "y": 27.692771911621094, "z": -18.0222225189209 }, "pca_coordinates": { "x": -3.5321342945098877, "y": 2.7567851543426514, "z": 2.302487850189209 }, "axis_scores": { "Quantum imaging": 0.7093926668167114, "Quantum Life Science Sensing": 0.6956163644790649, "Quantum sensing Detection": 0.6878036260604858, "Quantum sensing Metrology": 0.6770641803741455, "Quantum sensing navigation": 0.6793376207351685, "Quantum sensing Position": 0.6939599514007568, "Quantum sensing Timing": 0.6758448481559753, "Quantum sensing": 0.692101240158081, "Quantum control": 0.6541131734848022 } }, { "id": 1977, "title": "Two-photon resonance fluorescence of a ladder-type atomic system", "abstract": "Multiphoton emitters are a sought-after resource in quantum photonics. Nonlinear interactions between a multilevel atomic system and a coherent drive can lead to resonant two-photon emission, but harv...", "citations": 11, "author_count": 8, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 1979, "doi": "10.1103/PhysRevA.100.033802", "umap_coordinates": { "x": 394.06768798828125, "y": 135.95570373535156, "z": 207.39328002929688 }, "tsne_coordinates": { "x": -2.6332685947418213, "y": -14.296618461608887, "z": -9.215664863586426 }, "pca_coordinates": { "x": 2.9163146018981934, "y": -1.7164263725280762, "z": -0.8733349442481995 }, "axis_scores": { "Quantum imaging": 0.7259342670440674, "Quantum Life Science Sensing": 0.7549311518669128, "Quantum sensing Detection": 0.7382863759994507, "Quantum sensing Metrology": 0.699864387512207, "Quantum sensing navigation": 0.7258771657943726, "Quantum sensing Position": 0.6966028213500977, "Quantum sensing Timing": 0.6917425990104675, "Quantum sensing": 0.7387505173683167, "Quantum control": 0.6871235370635986 } }, { "id": 1978, "title": "Potential of multi-photon upconversion emissions for fluorescence diffuse optical imaging", "abstract": "The spatial resolution of fluorescence molecular imaging is a critical issue for the success of the technique in biomedical applications. One important method for increasing the imaging resolution is ...", "citations": 11, "author_count": 4, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1980, "doi": "10.1364/OE.22.017782", "umap_coordinates": { "x": 394.0628967285156, "y": 133.7802734375, "z": 205.38014221191406 }, "tsne_coordinates": { "x": 10.077800750732422, "y": 19.664531707763672, "z": -26.454896926879883 }, "pca_coordinates": { "x": -3.828148365020752, "y": -0.5942418575286865, "z": 1.5460200309753418 }, "axis_scores": { "Quantum imaging": 0.75224769115448, "Quantum Life Science Sensing": 0.7193698287010193, "Quantum sensing Detection": 0.7017632722854614, "Quantum sensing Metrology": 0.6883537173271179, "Quantum sensing navigation": 0.6896650195121765, "Quantum sensing Position": 0.6609057784080505, "Quantum sensing Timing": 0.6617739796638489, "Quantum sensing": 0.7120206952095032, "Quantum control": 0.6713975071907043 } }, { "id": 1979, "title": "Spin filtering through magnetic-field-modulated double quantum dot structures - art. no. 045313", "abstract": "We report on a theoretical study of spin-dependent electron transport in double quantum dot structures, made from a two-dimensional electron gas, with a local magnetic field modulation. Spin-dependent...", "citations": 11, "author_count": 3, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1981, "doi": "10.1103/PhysRevB.73.045313", "umap_coordinates": { "x": 393.5289001464844, "y": 135.44613647460938, "z": 208.5684356689453 }, "tsne_coordinates": { "x": 6.240769863128662, "y": -29.696935653686523, "z": 5.754734516143799 }, "pca_coordinates": { "x": 3.285365581512451, "y": -1.2953083515167236, "z": -0.10258948802947998 }, "axis_scores": { "Quantum imaging": 0.7575008869171143, "Quantum Life Science Sensing": 0.7431122660636902, "Quantum sensing Detection": 0.7360022068023682, "Quantum sensing Metrology": 0.7390213012695312, "Quantum sensing navigation": 0.7552255988121033, "Quantum sensing Position": 0.7014092803001404, "Quantum sensing Timing": 0.6819115281105042, "Quantum sensing": 0.7500371336936951, "Quantum control": 0.7457743883132935 } }, { "id": 1980, "title": "'Green'-synthesized near-infrared PbS quantum dots with silica-PEG dual-layer coating: ultrastable and biocompatible optical probes for in vivo animal imaging", "abstract": "In this paper, PbS semiconductor quantum dots (QDs) with near-infrared (NIR) photoluminescence were synthesized in oleic acid and paraffin liquid mixture by using an easily handled and 'green' approac...", "citations": 62, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1982, "doi": "10.1088/0957-4484/23/24/245701", "umap_coordinates": { "x": 393.91326904296875, "y": 133.60166931152344, "z": 205.0457763671875 }, "tsne_coordinates": { "x": 11.946564674377441, "y": 23.92987060546875, "z": -13.663649559020996 }, "pca_coordinates": { "x": -3.201904773712158, "y": -0.33433103561401367, "z": 2.649127960205078 }, "axis_scores": { "Quantum imaging": 0.749335527420044, "Quantum Life Science Sensing": 0.7607972621917725, "Quantum sensing Detection": 0.7230197787284851, "Quantum sensing Metrology": 0.7108898162841797, "Quantum sensing navigation": 0.7285179495811462, "Quantum sensing Position": 0.6969047784805298, "Quantum sensing Timing": 0.6809842586517334, "Quantum sensing": 0.7365767955780029, "Quantum control": 0.6856414675712585 } }, { "id": 1981, "title": "Nanoscale excitonic-plasmonic optical waveguiding by metal-coated quantum dots", "abstract": "A three-dimensional metal-coated semiconductor-quantum-dot (QD) nanoscale lattice structure is designed for optical waveguiding. It is based on three notions: i) Excitons are first photogenerated in t...", "citations": 2, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 1983, "doi": null, "umap_coordinates": { "x": 391.90411376953125, "y": 139.3231964111328, "z": 209.4113006591797 }, "tsne_coordinates": { "x": -7.470765113830566, "y": 44.20033645629883, "z": -5.447145462036133 }, "pca_coordinates": { "x": -1.543226957321167, "y": 1.4937269687652588, "z": -2.3911430835723877 }, "axis_scores": { "Quantum imaging": 0.733464777469635, "Quantum Life Science Sensing": 0.71856290102005, "Quantum sensing Detection": 0.7300825715065002, "Quantum sensing Metrology": 0.7245942950248718, "Quantum sensing navigation": 0.7266650199890137, "Quantum sensing Position": 0.7006389498710632, "Quantum sensing Timing": 0.6841155290603638, "Quantum sensing": 0.7371779680252075, "Quantum control": 0.7321993708610535 } }, { "id": 1982, "title": "Photonic energy band structure of excitonic quantum dot dimer system", "abstract": "We study the energy dispersion of a photonic crystal composed of two types of excitonic quantum dots (QD dimer system), type-I QDs at their ground states while type-II QDs are already excited. The exc...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 1984, "doi": "10.1063/1.3211322", "umap_coordinates": { "x": 393.3026428222656, "y": 134.37583923339844, "z": 207.9227752685547 }, "tsne_coordinates": { "x": 26.918115615844727, "y": -22.521282196044922, "z": -5.967194080352783 }, "pca_coordinates": { "x": 2.02740740776062, "y": -4.4541497230529785, "z": 0.29146522283554077 }, "axis_scores": { "Quantum imaging": 0.753311038017273, "Quantum Life Science Sensing": 0.7454743981361389, "Quantum sensing Detection": 0.7391146421432495, "Quantum sensing Metrology": 0.7332988381385803, "Quantum sensing navigation": 0.7245233654975891, "Quantum sensing Position": 0.7099652290344238, "Quantum sensing Timing": 0.6994677782058716, "Quantum sensing": 0.7478999495506287, "Quantum control": 0.7155674695968628 } }, { "id": 1983, "title": "Cavity enhancement of V2 centers in 4H-SiC with a fiber-based Fabry-Perot microcavity", "abstract": "Silicon vacancy centers in 4H-silicon carbide (SiC) host a long-lived electronic spin with spin-resolved optical transitions. This makes them a great candidate for implementing a spin-photon interface...", "citations": 3, "author_count": 9, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 1985, "doi": "10.1364/OPTICAQ.557206", "umap_coordinates": { "x": 394.1085510253906, "y": 134.28343200683594, "z": 206.73748779296875 }, "tsne_coordinates": { "x": 4.824104309082031, "y": -18.576873779296875, "z": -21.096572875976562 }, "pca_coordinates": { "x": -0.4296567440032959, "y": 0.14078569412231445, "z": 2.230893850326538 }, "axis_scores": { "Quantum imaging": 0.7145529985427856, "Quantum Life Science Sensing": 0.6686709523200989, "Quantum sensing Detection": 0.6911187171936035, "Quantum sensing Metrology": 0.7055899500846863, "Quantum sensing navigation": 0.6935360431671143, "Quantum sensing Position": 0.6610080599784851, "Quantum sensing Timing": 0.6496620178222656, "Quantum sensing": 0.6992666125297546, "Quantum control": 0.7086681127548218 } }, { "id": 1984, "title": "Efficient Visible-to-UV Photon Upconversion Systems Based on CdS Nanocrystals Modified with Triplet Energy Mediators", "abstract": "Developing high-performance visible-to-UV photon upconversion systems based on triplet-triplet annihilation photon upconversion (TTA-UC) is highly desired, as it provides a potential approach for UV l...", "citations": 67, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 1987, "doi": "10.1002/adfm.202106198", "umap_coordinates": { "x": 392.538330078125, "y": 134.17990112304688, "z": 205.29690551757812 }, "tsne_coordinates": { "x": 14.131414413452148, "y": 8.564033508300781, "z": -2.083568572998047 }, "pca_coordinates": { "x": -2.8262574672698975, "y": -2.241568088531494, "z": 0.4143955111503601 }, "axis_scores": { "Quantum imaging": 0.7108122110366821, "Quantum Life Science Sensing": 0.7227175831794739, "Quantum sensing Detection": 0.7026553153991699, "Quantum sensing Metrology": 0.7080886960029602, "Quantum sensing navigation": 0.6750668287277222, "Quantum sensing Position": 0.6536321043968201, "Quantum sensing Timing": 0.6723328828811646, "Quantum sensing": 0.7161598205566406, "Quantum control": 0.6921678185462952 } }, { "id": 1985, "title": "Heat-Resistant and Microwaveable Poly(Iactic acid) by Quantum-Dot Promoted Stereocomplexation", "abstract": "Nanofiller-tailored stereocomplexation signifies a promising and feasible pathway to develop heat-resistant poly (lactic acid) (PLA) materials. However, this pathway is thwarted by the potential adver...", "citations": 29, "author_count": 6, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1988, "doi": "10.1021/acssuschemeng.7b02963", "umap_coordinates": { "x": 392.0979919433594, "y": 134.66395568847656, "z": 204.9431610107422 }, "tsne_coordinates": { "x": 21.130149841308594, "y": 2.150578022003174, "z": -15.853578567504883 }, "pca_coordinates": { "x": -3.2963404655456543, "y": -1.6189732551574707, "z": -1.5860357284545898 }, "axis_scores": { "Quantum imaging": 0.678601861000061, "Quantum Life Science Sensing": 0.682690441608429, "Quantum sensing Detection": 0.6656238436698914, "Quantum sensing Metrology": 0.638289749622345, "Quantum sensing navigation": 0.6444048881530762, "Quantum sensing Position": 0.6353824138641357, "Quantum sensing Timing": 0.6619481444358826, "Quantum sensing": 0.6803677082061768, "Quantum control": 0.6903060078620911 } }, { "id": 1986, "title": "Transport mirages in single-molecule devices", "abstract": "Molecular systems can exhibit a complex, chemically tailorable inner structure which allows for targeting of specific mechanical, electronic, and optical properties. At the single-molecule level, two ...", "citations": 33, "author_count": 6, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 1989, "doi": "10.1063/1.4975767", "umap_coordinates": { "x": 393.9980163574219, "y": 134.071044921875, "z": 208.47142028808594 }, "tsne_coordinates": { "x": 23.377443313598633, "y": -26.56066131591797, "z": -4.4417572021484375 }, "pca_coordinates": { "x": 1.9496159553527832, "y": -2.8690614700317383, "z": 1.473292350769043 }, "axis_scores": { "Quantum imaging": 0.7405422329902649, "Quantum Life Science Sensing": 0.751570463180542, "Quantum sensing Detection": 0.7412619590759277, "Quantum sensing Metrology": 0.7460526823997498, "Quantum sensing navigation": 0.7490791082382202, "Quantum sensing Position": 0.7273411154747009, "Quantum sensing Timing": 0.7126360535621643, "Quantum sensing": 0.7578676342964172, "Quantum control": 0.711590051651001 } }, { "id": 1987, "title": "A curious geometrical fact about entanglement", "abstract": "I sketch how the set of pure quantum states forms a phase space, and then point out a curiousity concerning maximally entangled pure states: they form a minimal Lagrangian submanifold of the set of al...", "citations": 5, "author_count": 2, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 1990, "doi": null, "umap_coordinates": { "x": 391.91741943359375, "y": 139.5121612548828, "z": 208.60031127929688 }, "tsne_coordinates": { "x": -17.657075881958008, "y": 36.343048095703125, "z": -0.8344693183898926 }, "pca_coordinates": { "x": 2.6276745796203613, "y": 5.2965240478515625, "z": -0.641765832901001 }, "axis_scores": { "Quantum imaging": 0.7329086661338806, "Quantum Life Science Sensing": 0.7096614241600037, "Quantum sensing Detection": 0.7171890139579773, "Quantum sensing Metrology": 0.7039408087730408, "Quantum sensing navigation": 0.7446302771568298, "Quantum sensing Position": 0.7201895117759705, "Quantum sensing Timing": 0.6874233484268188, "Quantum sensing": 0.7313104271888733, "Quantum control": 0.716248095035553 } }, { "id": 1988, "title": "Synergistic inhibition of carbon steel corrosion in 0.5 M HCl solution by indigo carmine and some cationic organic compounds: experimental and theoretical studies", "abstract": "The synergistic corrosion inhibition effect of indigo carmine and three kinds of cationic organic compounds on 1045 carbon steel (CS) in 0.5 M HCl solution is reported. Electrochemical measurements sh...", "citations": 99, "author_count": 6, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 1991, "doi": "10.1039/c5ra25359d", "umap_coordinates": { "x": 393.15533447265625, "y": 136.52371215820312, "z": 204.93080139160156 }, "tsne_coordinates": { "x": 2.9423739910125732, "y": 9.772406578063965, "z": 30.614002227783203 }, "pca_coordinates": { "x": -1.8232877254486084, "y": 2.110208511352539, "z": -1.727407693862915 }, "axis_scores": { "Quantum imaging": 0.6829805374145508, "Quantum Life Science Sensing": 0.6762033104896545, "Quantum sensing Detection": 0.6686656475067139, "Quantum sensing Metrology": 0.6534547805786133, "Quantum sensing navigation": 0.6597467660903931, "Quantum sensing Position": 0.6395577788352966, "Quantum sensing Timing": 0.6332920789718628, "Quantum sensing": 0.6761192679405212, "Quantum control": 0.6625398993492126 } }, { "id": 1989, "title": "A quantum mechanics/molecular dynamics study of electric field gradient fluctuations in the liquid phase. The case of Na+ in aqueous solution", "abstract": "The Na-23 quadrupolar coupling constant of the Na+ ion in aqueous solution has been predicted using molecular dynamics simulations and hybrid quantum mechanics/molecular mechanics methods for the calc...", "citations": 22, "author_count": 6, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 1992, "doi": "10.1039/c2cp41993a", "umap_coordinates": { "x": 392.9775390625, "y": 136.95057678222656, "z": 205.74876403808594 }, "tsne_coordinates": { "x": 0.9771981239318848, "y": 10.56860065460205, "z": 25.438175201416016 }, "pca_coordinates": { "x": 0.44971776008605957, "y": 0.15998101234436035, "z": -3.8128769397735596 }, "axis_scores": { "Quantum imaging": 0.6920556426048279, "Quantum Life Science Sensing": 0.7260510325431824, "Quantum sensing Detection": 0.695749819278717, "Quantum sensing Metrology": 0.6792139410972595, "Quantum sensing navigation": 0.7135576009750366, "Quantum sensing Position": 0.6820946335792542, "Quantum sensing Timing": 0.6453331708908081, "Quantum sensing": 0.7051422595977783, "Quantum control": 0.7055381536483765 } }, { "id": 1990, "title": "Adaptive Dynamics Simulation of Interference Phenomenon for Physical and Biological Systems", "abstract": "Biological systems have been shown to have quantum-like behaviors by applying the adaptive dynamics view on their interaction networks. In particular, in the process of lactose-glucose metabolism, cel...", "citations": 5, "author_count": 6, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 1993, "doi": "10.3390/e25111487", "umap_coordinates": { "x": 394.5710754394531, "y": 136.73355102539062, "z": 205.64089965820312 }, "tsne_coordinates": { "x": -17.64324378967285, "y": 10.122900009155273, "z": 22.65574073791504 }, "pca_coordinates": { "x": 1.1790058612823486, "y": 3.228097438812256, "z": -2.203427314758301 }, "axis_scores": { "Quantum imaging": 0.7539126873016357, "Quantum Life Science Sensing": 0.7689911127090454, "Quantum sensing Detection": 0.727523684501648, "Quantum sensing Metrology": 0.7128871083259583, "Quantum sensing navigation": 0.7455832958221436, "Quantum sensing Position": 0.7002477049827576, "Quantum sensing Timing": 0.7094289064407349, "Quantum sensing": 0.7395327091217041, "Quantum control": 0.7614290118217468 } }, { "id": 1991, "title": "FUNDAMENTAL OPTICAL PHYSICS Probing the quantum vacuum", "abstract": "", "citations": 23, "author_count": 2, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 1994, "doi": "10.1038/nphoton.2009.277", "umap_coordinates": { "x": 395.1549987792969, "y": 136.01577758789062, "z": 206.7521514892578 }, "tsne_coordinates": { "x": -19.074687957763672, "y": -7.206559658050537, "z": -11.611709594726562 }, "pca_coordinates": { "x": 1.2605061531066895, "y": 0.2818112373352051, "z": 1.2211976051330566 }, "axis_scores": { "Quantum imaging": 0.8087047338485718, "Quantum Life Science Sensing": 0.8192483186721802, "Quantum sensing Detection": 0.8134173154830933, "Quantum sensing Metrology": 0.7919018268585205, "Quantum sensing navigation": 0.8085787296295166, "Quantum sensing Position": 0.7679914832115173, "Quantum sensing Timing": 0.7291887998580933, "Quantum sensing": 0.819522500038147, "Quantum control": 0.7583507299423218 } }, { "id": 1992, "title": "Quantum Critical Dynamics Simulation of Dirty Boson Systems", "abstract": "Recently, the scaling result z = d for the dynamic critical exponent at the Bose glass to superfluid quantum phase transition has been questioned both on theoretical and numerical grounds. This motiva...", "citations": 28, "author_count": 3, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 1995, "doi": "10.1103/PhysRevLett.108.055701", "umap_coordinates": { "x": 394.71234130859375, "y": 136.56631469726562, "z": 207.98171997070312 }, "tsne_coordinates": { "x": -15.326857566833496, "y": -21.994047164916992, "z": 6.111880779266357 }, "pca_coordinates": { "x": 5.215292930603027, "y": 1.3111279010772705, "z": -1.0911375284194946 }, "axis_scores": { "Quantum imaging": 0.758944571018219, "Quantum Life Science Sensing": 0.7639753222465515, "Quantum sensing Detection": 0.7446405291557312, "Quantum sensing Metrology": 0.7013540863990784, "Quantum sensing navigation": 0.7447283267974854, "Quantum sensing Position": 0.7104347944259644, "Quantum sensing Timing": 0.7327988147735596, "Quantum sensing": 0.7504538893699646, "Quantum control": 0.7612977027893066 } }, { "id": 1993, "title": "Longitudinal rotational resonance echoes in solid state nuclear magnetic resonance: Investigation of zero quantum spin dynamics", "abstract": "In the magic angle spinning NMR of rotating solids, it is possible to drive nuclear spin transitions by the macroscopic sample rotation. This rotational resonance phenomenon arises when the chemical s...", "citations": 27, "author_count": 3, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 1996, "doi": "10.1063/1.477168", "umap_coordinates": { "x": 393.02044677734375, "y": 136.9664306640625, "z": 207.6309356689453 }, "tsne_coordinates": { "x": 8.751420021057129, "y": -0.8556334376335144, "z": 36.94161605834961 }, "pca_coordinates": { "x": 3.364809036254883, "y": 1.4422147274017334, "z": -2.334845542907715 }, "axis_scores": { "Quantum imaging": 0.7350583076477051, "Quantum Life Science Sensing": 0.7395005822181702, "Quantum sensing Detection": 0.7096824645996094, "Quantum sensing Metrology": 0.6985073685646057, "Quantum sensing navigation": 0.7289155721664429, "Quantum sensing Position": 0.7044804692268372, "Quantum sensing Timing": 0.6894261837005615, "Quantum sensing": 0.7155181169509888, "Quantum control": 0.7065513730049133 } }, { "id": 1994, "title": "Two- and three-pion quantum statistics correlations in Pb-Pb collisions at √SNN=2.76 TeV at the CERN Large Hadron Collider", "abstract": "Correlations induced by quantum statistics are sensitive to the spatiotemporal extent as well as dynamics of particle-emitting sources in heavy-ion collisions. In addition, such correlations can be us...", "citations": 65, "author_count": 948, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 1997, "doi": "10.1103/PhysRevC.89.024911", "umap_coordinates": { "x": 396.5737609863281, "y": 134.55628967285156, "z": 208.03973388671875 }, "tsne_coordinates": { "x": -36.20806884765625, "y": 3.6761791706085205, "z": -14.998287200927734 }, "pca_coordinates": { "x": 3.65653133392334, "y": -0.22200679779052734, "z": 1.2512810230255127 }, "axis_scores": { "Quantum imaging": 0.697457492351532, "Quantum Life Science Sensing": 0.705173134803772, "Quantum sensing Detection": 0.7188090682029724, "Quantum sensing Metrology": 0.6996284127235413, "Quantum sensing navigation": 0.7300978302955627, "Quantum sensing Position": 0.7102164030075073, "Quantum sensing Timing": 0.7208389043807983, "Quantum sensing": 0.7213916182518005, "Quantum control": 0.6962155103683472 } }, { "id": 1995, "title": "High-spatial-resolution x-ray fluorescence tomography with spectrally matched nanoparticles", "abstract": "Present macroscopic biomedical imaging methods provide either morphology with high spatial resolution (e.g. CT) or functional/molecular information with lower resolution (e.g. PET). X-ray fluorescence...", "citations": 46, "author_count": 8, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 1998, "doi": "10.1088/1361-6560/aad51e", "umap_coordinates": { "x": 394.701904296875, "y": 133.45639038085938, "z": 205.76654052734375 }, "tsne_coordinates": { "x": 4.706898212432861, "y": 19.147823333740234, "z": -28.748680114746094 }, "pca_coordinates": { "x": -2.2924280166625977, "y": 0.27806973457336426, "z": 4.504715442657471 }, "axis_scores": { "Quantum imaging": 0.7378004193305969, "Quantum Life Science Sensing": 0.7050997614860535, "Quantum sensing Detection": 0.7027359008789062, "Quantum sensing Metrology": 0.7180154919624329, "Quantum sensing navigation": 0.7061387896537781, "Quantum sensing Position": 0.691420316696167, "Quantum sensing Timing": 0.6935029625892639, "Quantum sensing": 0.7187083959579468, "Quantum control": 0.6614860892295837 } }, { "id": 1996, "title": "Photon-Counting CT Reconstruction With a Learned Forward Operator", "abstract": "Photon-Counting CT is an emerging imaging technology that promises higher spatial resolution and the possibility for material decomposition in the reconstruction. A major difficulty in Photon-Counting...", "citations": 2, "author_count": 5, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 1999, "doi": "10.1109/TCI.2022.3183405", "umap_coordinates": { "x": 395.1249084472656, "y": 132.7483673095703, "z": 205.74000549316406 }, "tsne_coordinates": { "x": -0.6498413681983948, "y": 19.674583435058594, "z": -17.72269058227539 }, "pca_coordinates": { "x": -0.2741260528564453, "y": 3.429360866546631, "z": 3.3778162002563477 }, "axis_scores": { "Quantum imaging": 0.7430275678634644, "Quantum Life Science Sensing": 0.7064923644065857, "Quantum sensing Detection": 0.7309731245040894, "Quantum sensing Metrology": 0.7023541927337646, "Quantum sensing navigation": 0.7224703431129456, "Quantum sensing Position": 0.680396318435669, "Quantum sensing Timing": 0.7066209316253662, "Quantum sensing": 0.7284538745880127, "Quantum control": 0.6999346017837524 } }, { "id": 1997, "title": "Ultrafast Electron Transfer from CuInS2 Quantum Dots to a Molecular Catalyst for Hydrogen Production: Challenging Diffusion Limitations", "abstract": "Systems integrating quantum dots with molecular catalysts are attracting ever more attention, primarily owing to their tunability and notable photocatalytic activity in the context of the hydrogen evo...", "citations": 22, "author_count": 8, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2000, "doi": "10.1021/acscatal.3c06216", "umap_coordinates": { "x": 391.89874267578125, "y": 134.7189178466797, "z": 205.9605255126953 }, "tsne_coordinates": { "x": 18.58350372314453, "y": 0.12600934505462646, "z": -1.7449404001235962 }, "pca_coordinates": { "x": -1.652217984199524, "y": -3.2293519973754883, "z": -1.9505112171173096 }, "axis_scores": { "Quantum imaging": 0.7211853265762329, "Quantum Life Science Sensing": 0.7370182871818542, "Quantum sensing Detection": 0.7291707396507263, "Quantum sensing Metrology": 0.6929185390472412, "Quantum sensing navigation": 0.7066655158996582, "Quantum sensing Position": 0.673468828201294, "Quantum sensing Timing": 0.6728891730308533, "Quantum sensing": 0.7360484004020691, "Quantum control": 0.7259253263473511 } }, { "id": 1998, "title": "Photoinactivation of Photosystem II in leaves", "abstract": "Photoinactivation of Photosystem II (PS II), the light-induced loss of ability to evolve oxygen, inevitably occurs under any light environment in nature, counteracted by repair. Under certain conditio...", "citations": 51, "author_count": 7, "categories": [ "Plant Sciences" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2001, "doi": "10.1007/s11120-005-0410-1", "umap_coordinates": { "x": 394.3161926269531, "y": 136.3274383544922, "z": 203.9016876220703 }, "tsne_coordinates": { "x": 10.16995620727539, "y": 30.967844009399414, "z": 8.14977741241455 }, "pca_coordinates": { "x": -2.505429267883301, "y": -0.5384173393249512, "z": -0.7995526790618896 }, "axis_scores": { "Quantum imaging": 0.6925451755523682, "Quantum Life Science Sensing": 0.7385298013687134, "Quantum sensing Detection": 0.694619357585907, "Quantum sensing Metrology": 0.677550733089447, "Quantum sensing navigation": 0.662256121635437, "Quantum sensing Position": 0.6667599678039551, "Quantum sensing Timing": 0.655875563621521, "Quantum sensing": 0.6990329027175903, "Quantum control": 0.6806662082672119 } }, { "id": 1999, "title": "Excited state absorption at 1.06 μm as the origin of non-unity quantum yield in neodymium doped glasses", "abstract": "The presence of excited state absorption at the 1.06 mu m lasing wavelength of Nd doped glasses is demonstrated. The excited state absorption cross-section for silicate (LG680) and phosphate (LG760) g...", "citations": 6, "author_count": 5, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2002, "doi": "10.1016/S0030-4018(99)00330-2", "umap_coordinates": { "x": 393.16448974609375, "y": 134.0351104736328, "z": 206.5933837890625 }, "tsne_coordinates": { "x": 46.392059326171875, "y": 0.5666561126708984, "z": 1.8546620607376099 }, "pca_coordinates": { "x": -2.0083556175231934, "y": -0.8800759315490723, "z": 1.155623435974121 }, "axis_scores": { "Quantum imaging": 0.6676122546195984, "Quantum Life Science Sensing": 0.7060648798942566, "Quantum sensing Detection": 0.685451865196228, "Quantum sensing Metrology": 0.6832697987556458, "Quantum sensing navigation": 0.659747838973999, "Quantum sensing Position": 0.6584011912345886, "Quantum sensing Timing": 0.6426234841346741, "Quantum sensing": 0.6784847378730774, "Quantum control": 0.6310536861419678 } }, { "id": 2000, "title": "GAS-EXCHANGE IN YOUNG SCOTS PINE FOLLOWING PRUNING OF CURRENT SHOOTS", "abstract": "A pine shoot beetle attack was simulated by cutting all current shoots in the upper crown of 2 20-yr-old Scots pines (Pinus sylvestris L) while gas exchange was followed continuously before and after ...", "citations": 10, "author_count": 3, "categories": [ "Forestry" ], "year": 1991, "topic": [ "all" ], "embedding_index": 2003, "doi": "10.1051/forest:19910401", "umap_coordinates": { "x": 394.3061218261719, "y": 136.15707397460938, "z": 204.1993408203125 }, "tsne_coordinates": { "x": 8.973538398742676, "y": 36.54887771606445, "z": 11.33722972869873 }, "pca_coordinates": { "x": -0.43423688411712646, "y": 1.804109811782837, "z": -1.140981912612915 }, "axis_scores": { "Quantum imaging": 0.6087167859077454, "Quantum Life Science Sensing": 0.6465350389480591, "Quantum sensing Detection": 0.6043338775634766, "Quantum sensing Metrology": 0.5944396257400513, "Quantum sensing navigation": 0.6345308423042297, "Quantum sensing Position": 0.6282171010971069, "Quantum sensing Timing": 0.615958571434021, "Quantum sensing": 0.6160670518875122, "Quantum control": 0.59914231300354 } }, { "id": 2001, "title": "Universal Fidelity Reduction of Quantum Operations from Weak Dissipation", "abstract": "Quantum information processing is in real systems often limited by dissipation, stemming from remaining uncontrolled interaction with microscopic degrees of freedom. Given recent experimental progress...", "citations": 38, "author_count": 5, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2004, "doi": "10.1103/PhysRevLett.129.150504", "umap_coordinates": { "x": 395.54351806640625, "y": 136.88108825683594, "z": 207.47869873046875 }, "tsne_coordinates": { "x": -21.15167808532715, "y": -24.365074157714844, "z": 3.891817808151245 }, "pca_coordinates": { "x": 5.487566947937012, "y": 1.7133204936981201, "z": 0.66056889295578 }, "axis_scores": { "Quantum imaging": 0.768940806388855, "Quantum Life Science Sensing": 0.7759062647819519, "Quantum sensing Detection": 0.7943609356880188, "Quantum sensing Metrology": 0.7588688731193542, "Quantum sensing navigation": 0.7658321261405945, "Quantum sensing Position": 0.7228689193725586, "Quantum sensing Timing": 0.7296632528305054, "Quantum sensing": 0.7980107069015503, "Quantum control": 0.7784014940261841 } }, { "id": 2002, "title": "Binding energy of an exciton in a GaN/AlN nanodot: Role of size and external electric field", "abstract": "We report the impact of an external electric field on the energy spectrum of an exciton inside a spherical shaped GaN/AlN core/shell nanodot. The modulation of the confined exciton lowest state energy...", "citations": 9, "author_count": 6, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2005, "doi": "10.1016/j.physb.2019.01.047", "umap_coordinates": { "x": 393.0625, "y": 134.15147399902344, "z": 206.5808868408203 }, "tsne_coordinates": { "x": 27.294879913330078, "y": 4.749107360839844, "z": 9.645869255065918 }, "pca_coordinates": { "x": -0.31224745512008667, "y": -2.8520612716674805, "z": -0.3559761941432953 }, "axis_scores": { "Quantum imaging": 0.728874921798706, "Quantum Life Science Sensing": 0.7347813248634338, "Quantum sensing Detection": 0.7269676923751831, "Quantum sensing Metrology": 0.7096455693244934, "Quantum sensing navigation": 0.72527015209198, "Quantum sensing Position": 0.7392778992652893, "Quantum sensing Timing": 0.7016545534133911, "Quantum sensing": 0.7385242581367493, "Quantum control": 0.696574330329895 } }, { "id": 2003, "title": "Structure of lateral two-electron quantum dot molecules in electromagnetic fields", "abstract": "The energy levels of laterally coupled parabolic double quantum dots are calculated for varying interdot distances. Electron-electron interaction is shown to dominate the spectra: In the diatomic mole...", "citations": 24, "author_count": 8, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2006, "doi": "10.1103/PhysRevB.76.035303", "umap_coordinates": { "x": 393.3470458984375, "y": 135.55982971191406, "z": 208.17202758789062 }, "tsne_coordinates": { "x": 6.752939701080322, "y": -26.49125099182129, "z": 7.57289981842041 }, "pca_coordinates": { "x": 2.854304790496826, "y": -3.036914825439453, "z": -2.0243258476257324 }, "axis_scores": { "Quantum imaging": 0.7482286691665649, "Quantum Life Science Sensing": 0.7311382293701172, "Quantum sensing Detection": 0.7203971743583679, "Quantum sensing Metrology": 0.7075585126876831, "Quantum sensing navigation": 0.7394663095474243, "Quantum sensing Position": 0.709492564201355, "Quantum sensing Timing": 0.6808648705482483, "Quantum sensing": 0.7276538014411926, "Quantum control": 0.7086122035980225 } }, { "id": 2004, "title": "Lindblad approach to quantum dynamics of open systems", "abstract": "A Lindblad approach is presented to describe quantum dynamics of open systems. It is based on a construction of a Lindblad functional from the microscopic Caldeira-Leggett model for linear dissipation...", "citations": 38, "author_count": 2, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2007, "doi": "10.1103/PhysRevB.57.4509", "umap_coordinates": { "x": 394.4434509277344, "y": 137.61058044433594, "z": 207.34115600585938 }, "tsne_coordinates": { "x": -22.649791717529297, "y": -16.18921661376953, "z": 11.095441818237305 }, "pca_coordinates": { "x": 4.834877014160156, "y": 0.5147510766983032, "z": -2.1335926055908203 }, "axis_scores": { "Quantum imaging": 0.740057110786438, "Quantum Life Science Sensing": 0.7676955461502075, "Quantum sensing Detection": 0.7464855909347534, "Quantum sensing Metrology": 0.7233480215072632, "Quantum sensing navigation": 0.7667328715324402, "Quantum sensing Position": 0.7187961935997009, "Quantum sensing Timing": 0.6833014488220215, "Quantum sensing": 0.7569510340690613, "Quantum control": 0.7569881081581116 } }, { "id": 2005, "title": "Spectral Photon Counting CT: Imaging Algorithms and Performance Assessment", "abstract": "Photon counting X-ray detectors (PCDs) with spectral capabilities have the potential to revolutionize computed tomography (CT) for medical imaging. The ideal PCD provides accurate energy information f...", "citations": 37, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2008, "doi": "10.1109/TRPMS.2020.3007380", "umap_coordinates": { "x": 395.1014404296875, "y": 133.02496337890625, "z": 205.5033416748047 }, "tsne_coordinates": { "x": -0.2036675065755844, "y": 20.88187026977539, "z": -16.517587661743164 }, "pca_coordinates": { "x": -3.0965523719787598, "y": 2.78200626373291, "z": 3.0767104625701904 }, "axis_scores": { "Quantum imaging": 0.7447640895843506, "Quantum Life Science Sensing": 0.7388054728507996, "Quantum sensing Detection": 0.726137638092041, "Quantum sensing Metrology": 0.7282993793487549, "Quantum sensing navigation": 0.7126677632331848, "Quantum sensing Position": 0.7017558217048645, "Quantum sensing Timing": 0.7343422174453735, "Quantum sensing": 0.7312229871749878, "Quantum control": 0.6751730442047119 } }, { "id": 2006, "title": "MEASUREMENTS IN-SITU OF CONCENTRATION AND SIZE DISTRIBUTION OF COLLOIDAL MATTER IN DEEP GROUNDWATERS BY PHOTON-CORRELATION SPECTROSCOPY", "abstract": "Photon correlation spectroscopy (PCS) was applied for the characterization (concentration and size distribution) of colloidal matter in a deep groundwater. The measurements were performed on-line and ...", "citations": 38, "author_count": 5, "categories": [ "Engineering" ], "year": 1994, "topic": [ "all" ], "embedding_index": 2009, "doi": "10.1016/0043-1354(94)90220-8", "umap_coordinates": { "x": 393.71405029296875, "y": 135.064453125, "z": 205.74359130859375 }, "tsne_coordinates": { "x": 7.087691783905029, "y": 19.809246063232422, "z": 11.399433135986328 }, "pca_coordinates": { "x": -1.1212252378463745, "y": 0.45210957527160645, "z": 0.6663654446601868 }, "axis_scores": { "Quantum imaging": 0.7311745882034302, "Quantum Life Science Sensing": 0.7485050559043884, "Quantum sensing Detection": 0.7349466681480408, "Quantum sensing Metrology": 0.7279878854751587, "Quantum sensing navigation": 0.7313212156295776, "Quantum sensing Position": 0.7255256175994873, "Quantum sensing Timing": 0.6958677768707275, "Quantum sensing": 0.7417160868644714, "Quantum control": 0.6769978404045105 } }, { "id": 2007, "title": "Defect-Engineered CoFe Layered Double Hydroxide Quantum Dots: Oxygen Vacancy-Driven Boost in Peroxidase-Mimic Catalysis for Multiplex Biomarker Sensing", "abstract": "Defects in nanomaterials are crucial for modifying the catalytic microenvironment, thus enhancing nanozyme catalytic efficiency. Combining defect engineering with layered double hydroxides (LDHs) nano...", "citations": 2, "author_count": 12, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2010, "doi": "10.1021/acsmaterialslett.4c02651", "umap_coordinates": { "x": 391.7545166015625, "y": 134.15594482421875, "z": 205.48524475097656 }, "tsne_coordinates": { "x": 19.782215118408203, "y": 3.802485227584839, "z": -4.076939105987549 }, "pca_coordinates": { "x": -2.984053134918213, "y": -3.3872456550598145, "z": -0.2848847806453705 }, "axis_scores": { "Quantum imaging": 0.7165791988372803, "Quantum Life Science Sensing": 0.7357313632965088, "Quantum sensing Detection": 0.7314905524253845, "Quantum sensing Metrology": 0.7119057178497314, "Quantum sensing navigation": 0.698137640953064, "Quantum sensing Position": 0.6877065300941467, "Quantum sensing Timing": 0.6805728077888489, "Quantum sensing": 0.7253683805465698, "Quantum control": 0.6881786584854126 } }, { "id": 2008, "title": "Selective tuning of spin-orbital Kondo contributions in parallel-coupled quantum dots", "abstract": "We use cotunneling spectroscopy to investigate spin, orbital, and spin-orbital Kondo transport in a strongly confined system of InAs double quantum dots that are parallel coupled to source and drain. ...", "citations": 3, "author_count": 8, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2011, "doi": "10.1103/PhysRevB.101.115429", "umap_coordinates": { "x": 393.6849060058594, "y": 135.09197998046875, "z": 209.1502227783203 }, "tsne_coordinates": { "x": 5.836271286010742, "y": -20.595327377319336, "z": -3.1859707832336426 }, "pca_coordinates": { "x": 2.619487762451172, "y": -4.181458473205566, "z": 0.6212326884269714 }, "axis_scores": { "Quantum imaging": 0.7256137132644653, "Quantum Life Science Sensing": 0.7127213478088379, "Quantum sensing Detection": 0.7365036606788635, "Quantum sensing Metrology": 0.7150617241859436, "Quantum sensing navigation": 0.7235599756240845, "Quantum sensing Position": 0.7023022174835205, "Quantum sensing Timing": 0.6917990446090698, "Quantum sensing": 0.7473394274711609, "Quantum control": 0.7263884544372559 } }, { "id": 2009, "title": "Hybrid Silicon Nanocrystals for Color-Neutral and Transparent Luminescent Solar Concentrators", "abstract": "One of the most detrimental loss mechanisms in Luminescent Solar Concentrators (LSCs) is reabsorption of emitted light from the luminophore. Silicon Nanocrystals (SiNCs) offer a solution due to the hi...", "citations": 80, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2012, "doi": "10.1021/acsphotonics.9b00802", "umap_coordinates": { "x": 392.365234375, "y": 133.86595153808594, "z": 206.06309509277344 }, "tsne_coordinates": { "x": 23.820161819458008, "y": -8.7928466796875, "z": -18.249116897583008 }, "pca_coordinates": { "x": -3.49957275390625, "y": -4.395151138305664, "z": 0.9781503081321716 }, "axis_scores": { "Quantum imaging": 0.7168963551521301, "Quantum Life Science Sensing": 0.7169886231422424, "Quantum sensing Detection": 0.7077053189277649, "Quantum sensing Metrology": 0.698913037776947, "Quantum sensing navigation": 0.6904078125953674, "Quantum sensing Position": 0.6650910377502441, "Quantum sensing Timing": 0.6532184481620789, "Quantum sensing": 0.715965211391449, "Quantum control": 0.6811440587043762 } }, { "id": 2010, "title": "Multi-phonon relaxation and generation of quantum states in a nonlinear mechanical oscillator", "abstract": "The dissipative quantum dynamics of an anharmonic oscillator is investigated theoretically in the context of carbon-based nano-mechanical systems. In the short-time limit, it is known that macroscopic...", "citations": 13, "author_count": 4, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2013, "doi": "10.1088/1367-2630/15/5/053041", "umap_coordinates": { "x": 393.66326904296875, "y": 136.43719482421875, "z": 207.18133544921875 }, "tsne_coordinates": { "x": -7.617434024810791, "y": -9.777095794677734, "z": 18.4881591796875 }, "pca_coordinates": { "x": 3.141772747039795, "y": 1.0095233917236328, "z": -0.2588696777820587 }, "axis_scores": { "Quantum imaging": 0.7226836681365967, "Quantum Life Science Sensing": 0.7300621271133423, "Quantum sensing Detection": 0.7168822884559631, "Quantum sensing Metrology": 0.7161834239959717, "Quantum sensing navigation": 0.7168688774108887, "Quantum sensing Position": 0.6887539029121399, "Quantum sensing Timing": 0.7032678723335266, "Quantum sensing": 0.733561635017395, "Quantum control": 0.7022073268890381 } }, { "id": 2011, "title": "g-factor and exchange energy in a few-electron lateral InGaAs quantum dot", "abstract": "We report on the measurements of the g-factor and the exchange Interaction of electrons in a few-electron lateral quantum dot formed in an InGaAs/InP semiconductor heterostructure. The spin filling se...", "citations": 9, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2014, "doi": "10.1063/1.3264053", "umap_coordinates": { "x": 393.3540954589844, "y": 134.4763641357422, "z": 208.245849609375 }, "tsne_coordinates": { "x": 15.384772300720215, "y": -25.12711524963379, "z": -6.313179969787598 }, "pca_coordinates": { "x": 2.1035029888153076, "y": -3.0444302558898926, "z": 0.5012760758399963 }, "axis_scores": { "Quantum imaging": 0.7022923231124878, "Quantum Life Science Sensing": 0.6949694156646729, "Quantum sensing Detection": 0.6835299730300903, "Quantum sensing Metrology": 0.6998185515403748, "Quantum sensing navigation": 0.7007390260696411, "Quantum sensing Position": 0.6766029596328735, "Quantum sensing Timing": 0.6694150567054749, "Quantum sensing": 0.7071555852890015, "Quantum control": 0.6839292645454407 } }, { "id": 2012, "title": "High peak-to-valley ratios observed in InAs/InP resonant tunneling quantum dot stacks", "abstract": "Resonant tunneling was observed through single InAs quantum dot (QD) stacks embedded in InP barriers with peak-to-valley ratios as high as 85 at 7 K. Negative differential resistance in the current-vo...", "citations": 45, "author_count": 8, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2015, "doi": "10.1063/1.1374235", "umap_coordinates": { "x": 392.7174987792969, "y": 134.09619140625, "z": 208.5458526611328 }, "tsne_coordinates": { "x": 30.219867706298828, "y": -18.719154357910156, "z": 3.903472661972046 }, "pca_coordinates": { "x": 0.5290709733963013, "y": -4.013896465301514, "z": 2.392810821533203 }, "axis_scores": { "Quantum imaging": 0.7079240083694458, "Quantum Life Science Sensing": 0.6742647886276245, "Quantum sensing Detection": 0.6935914158821106, "Quantum sensing Metrology": 0.6987693905830383, "Quantum sensing navigation": 0.6815780401229858, "Quantum sensing Position": 0.664497971534729, "Quantum sensing Timing": 0.6847262382507324, "Quantum sensing": 0.6997923254966736, "Quantum control": 0.6470067501068115 } }, { "id": 2013, "title": "Experimental demonstration of the equivalence of entropic uncertainty with wave-particle duality", "abstract": "Wave-particle duality is one of the most notable and counterintuitive features of quantum mechanics, illustrating that two incompatible observables cannot be measured simultaneously with arbitrary pre...", "citations": 8, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2016, "doi": "10.1126/sciadv.adr2007", "umap_coordinates": { "x": 395.36865234375, "y": 136.3063507080078, "z": 206.2350616455078 }, "tsne_coordinates": { "x": -13.070570945739746, "y": -4.439158916473389, "z": 2.7867591381073 }, "pca_coordinates": { "x": 1.6761527061462402, "y": 2.0195870399475098, "z": 1.6731677055358887 }, "axis_scores": { "Quantum imaging": 0.7389817833900452, "Quantum Life Science Sensing": 0.7473256587982178, "Quantum sensing Detection": 0.7272111773490906, "Quantum sensing Metrology": 0.7316921949386597, "Quantum sensing navigation": 0.7442944049835205, "Quantum sensing Position": 0.7179899215698242, "Quantum sensing Timing": 0.698265552520752, "Quantum sensing": 0.7341364026069641, "Quantum control": 0.707893431186676 } }, { "id": 2014, "title": "Detecting single gravitons with quantum sensing", "abstract": "The quantization of gravity is widely believed to result in gravitons - particles of discrete energy that form gravitational waves. But their detection has so far been considered impossible. Here we s...", "citations": 38, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2017, "doi": "10.1038/s41467-024-51420-8", "umap_coordinates": { "x": 394.9504089355469, "y": 133.81338500976562, "z": 207.18972778320312 }, "tsne_coordinates": { "x": -7.90466833114624, "y": -0.14137157797813416, "z": -23.526514053344727 }, "pca_coordinates": { "x": -0.20612818002700806, "y": 0.27875399589538574, "z": 3.6306495666503906 }, "axis_scores": { "Quantum imaging": 0.7565726041793823, "Quantum Life Science Sensing": 0.7861264944076538, "Quantum sensing Detection": 0.7990675568580627, "Quantum sensing Metrology": 0.7926537394523621, "Quantum sensing navigation": 0.787481427192688, "Quantum sensing Position": 0.7734971046447754, "Quantum sensing Timing": 0.7462281584739685, "Quantum sensing": 0.7958317399024963, "Quantum control": 0.7081701755523682 } }, { "id": 2015, "title": "Theory of two-dimensional macroscopic quantum tunneling in YBa2Cu3O7-δ Josephson junctions coupled to an LC circuit", "abstract": "We investigate classical thermal activation (TA) and macroscopic quantum tunneling (MQT) for a YBa2Cu3O7-delta (YBCO) Josephson junction coupled to an LC circuit theoretically. Due to the coupling bet...", "citations": 10, "author_count": 4, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2018, "doi": "10.1103/PhysRevB.80.174513", "umap_coordinates": { "x": 394.28570556640625, "y": 135.58819580078125, "z": 208.87957763671875 }, "tsne_coordinates": { "x": 1.5757657289505005, "y": -19.46314811706543, "z": 14.509260177612305 }, "pca_coordinates": { "x": 3.765510082244873, "y": -0.9462864398956299, "z": -0.19421476125717163 }, "axis_scores": { "Quantum imaging": 0.7150514721870422, "Quantum Life Science Sensing": 0.716805100440979, "Quantum sensing Detection": 0.7143927216529846, "Quantum sensing Metrology": 0.6978572607040405, "Quantum sensing navigation": 0.7274481058120728, "Quantum sensing Position": 0.6904978156089783, "Quantum sensing Timing": 0.7050127387046814, "Quantum sensing": 0.7264312505722046, "Quantum control": 0.7241380214691162 } }, { "id": 2016, "title": "Nondegenerate Parametric Resonance in a Tunable Superconducting Cavity", "abstract": "We develop a theory for nondegenerate parametric resonance in a tunable superconducting cavity. We focus on nonlinear effects that are caused by nonlinear Josephson elements connected to the cavity. W...", "citations": 27, "author_count": 3, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2019, "doi": "10.1103/PhysRevApplied.8.024018", "umap_coordinates": { "x": 394.59283447265625, "y": 135.78038024902344, "z": 208.21388244628906 }, "tsne_coordinates": { "x": -6.588569164276123, "y": -21.02496337890625, "z": 12.540263175964355 }, "pca_coordinates": { "x": 3.417492389678955, "y": -1.217616319656372, "z": -0.37520185112953186 }, "axis_scores": { "Quantum imaging": 0.696213960647583, "Quantum Life Science Sensing": 0.7252808809280396, "Quantum sensing Detection": 0.7098838686943054, "Quantum sensing Metrology": 0.6899451017379761, "Quantum sensing navigation": 0.7114272117614746, "Quantum sensing Position": 0.6911368370056152, "Quantum sensing Timing": 0.6990277171134949, "Quantum sensing": 0.7161124348640442, "Quantum control": 0.6962521076202393 } }, { "id": 2017, "title": "New Understanding on Photocatalytic Mechanism of Nitrogen-Doped Graphene Quantum Dots-Decorated BiVO4 Nanojunction Photocatalysts", "abstract": "Bismuth vanadate (BiVO4) is a promising candidate as a visible-light-driven photocatalyst in the aspect of practical applications. To investigate the origin of active species from BiVO4 and understand...", "citations": 46, "author_count": 9, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2020, "doi": "10.1021/acsomega.7b00603", "umap_coordinates": { "x": 392.28631591796875, "y": 134.2477569580078, "z": 204.91848754882812 }, "tsne_coordinates": { "x": 21.540555953979492, "y": 2.5421016216278076, "z": -3.084998369216919 }, "pca_coordinates": { "x": -1.691725254058838, "y": -3.1717910766601562, "z": -1.4647096395492554 }, "axis_scores": { "Quantum imaging": 0.6905489563941956, "Quantum Life Science Sensing": 0.72572261095047, "Quantum sensing Detection": 0.6950316429138184, "Quantum sensing Metrology": 0.6676309704780579, "Quantum sensing navigation": 0.6996162533760071, "Quantum sensing Position": 0.6493040919303894, "Quantum sensing Timing": 0.6398158073425293, "Quantum sensing": 0.6965892314910889, "Quantum control": 0.6860001087188721 } }, { "id": 2018, "title": "Discrimination of Diverse Coherences Allows Identification of Electronic Transitions of a Molecular Nanoring", "abstract": "The role of quantum coherence in photochemical functions of molecular systems such as photosynthetic complexes is a broadly debated topic. Coexistence and intermixing of electronic and vibrational coh...", "citations": 55, "author_count": 10, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2021, "doi": "10.1021/acs.jpclett.7b00612", "umap_coordinates": { "x": 392.68646240234375, "y": 136.4859161376953, "z": 206.35031127929688 }, "tsne_coordinates": { "x": 6.376834869384766, "y": -2.372509241104126, "z": 13.584508895874023 }, "pca_coordinates": { "x": -0.0604250431060791, "y": -0.7320406436920166, "z": -2.2795844078063965 }, "axis_scores": { "Quantum imaging": 0.7416110038757324, "Quantum Life Science Sensing": 0.7773181796073914, "Quantum sensing Detection": 0.7440875172615051, "Quantum sensing Metrology": 0.7174246311187744, "Quantum sensing navigation": 0.7391549944877625, "Quantum sensing Position": 0.703920841217041, "Quantum sensing Timing": 0.6942183375358582, "Quantum sensing": 0.7539194226264954, "Quantum control": 0.7095746397972107 } }, { "id": 2019, "title": "Quantum approaches to polyatomic reaction dynamics", "abstract": "In this review we discuss some quantum dynamical approaches to studying chemical reactions. We begin with a brief introductory section on how thermal rate constants can be calculated. This is followed...", "citations": 49, "author_count": 3, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2022, "doi": "10.1080/0144235X.2012.735863", "umap_coordinates": { "x": 394.43963623046875, "y": 137.49644470214844, "z": 206.58555603027344 }, "tsne_coordinates": { "x": -9.887297630310059, "y": 9.017786026000977, "z": 24.72853660583496 }, "pca_coordinates": { "x": 3.4260501861572266, "y": 2.010599136352539, "z": -0.9842982888221741 }, "axis_scores": { "Quantum imaging": 0.741085946559906, "Quantum Life Science Sensing": 0.7349062561988831, "Quantum sensing Detection": 0.7324126958847046, "Quantum sensing Metrology": 0.7102267742156982, "Quantum sensing navigation": 0.7390393614768982, "Quantum sensing Position": 0.7151815891265869, "Quantum sensing Timing": 0.7267172932624817, "Quantum sensing": 0.7489572763442993, "Quantum control": 0.7550784945487976 } }, { "id": 2020, "title": "Two Versions of the Projection Postulate: From EPR Argument to One-Way Quantum Computing and Teleportation", "abstract": "Nowadays it is practically forgotten that for observables with degenerate spectra the original von Neumann projection postulate differs crucially from the version of the projection postulate which was...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2023, "doi": "10.1155/2010/945460", "umap_coordinates": { "x": 395.6509094238281, "y": 137.2906951904297, "z": 206.6475067138672 }, "tsne_coordinates": { "x": -26.826278686523438, "y": -1.6315494775772095, "z": -0.8236511945724487 }, "pca_coordinates": { "x": 1.9256701469421387, "y": 3.8977668285369873, "z": 1.5267603397369385 }, "axis_scores": { "Quantum imaging": 0.7193776369094849, "Quantum Life Science Sensing": 0.690230131149292, "Quantum sensing Detection": 0.7166409492492676, "Quantum sensing Metrology": 0.6974270343780518, "Quantum sensing navigation": 0.7099177837371826, "Quantum sensing Position": 0.6963335275650024, "Quantum sensing Timing": 0.6950586438179016, "Quantum sensing": 0.7228165864944458, "Quantum control": 0.6998170614242554 } }, { "id": 2021, "title": "Inhomogeneous charging and screening effects in semiconductor quantum dot arrays - art. no. 81", "abstract": "The electronic properties of quantum dot (QD) arrays are strongly influenced by the Coulomb interaction of electrons within the dot as well as with those in neighbouring dots. In this paper, we invest...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2024, "doi": "10.1088/1367-2630/6/1/081", "umap_coordinates": { "x": 393.2212829589844, "y": 134.63250732421875, "z": 207.2507781982422 }, "tsne_coordinates": { "x": 18.946685791015625, "y": -21.06105613708496, "z": 7.730241298675537 }, "pca_coordinates": { "x": -0.4249403476715088, "y": -1.451282024383545, "z": 0.6794554591178894 }, "axis_scores": { "Quantum imaging": 0.7360732555389404, "Quantum Life Science Sensing": 0.7241952419281006, "Quantum sensing Detection": 0.7085228562355042, "Quantum sensing Metrology": 0.7091609835624695, "Quantum sensing navigation": 0.7088202834129333, "Quantum sensing Position": 0.6957355737686157, "Quantum sensing Timing": 0.688177227973938, "Quantum sensing": 0.7276350855827332, "Quantum control": 0.7004068493843079 } }, { "id": 2022, "title": "Photoluminescence", "abstract": "Quantum mechanics theory about photoluminescence is first introduced then applied to various case studies to understand themicroscopic processes, namely photon excitation, energy relaxation and radiat...", "citations": 1, "author_count": 3, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2025, "doi": "10.1007/978-3-319-94953-6_4", "umap_coordinates": { "x": 393.96942138671875, "y": 134.84437561035156, "z": 205.61138916015625 }, "tsne_coordinates": { "x": -14.92099380493164, "y": 17.259410858154297, "z": 4.9868998527526855 }, "pca_coordinates": { "x": -2.4092235565185547, "y": 0.811748743057251, "z": 0.25459104776382446 }, "axis_scores": { "Quantum imaging": 0.7343407869338989, "Quantum Life Science Sensing": 0.7297531366348267, "Quantum sensing Detection": 0.7124554514884949, "Quantum sensing Metrology": 0.7157894372940063, "Quantum sensing navigation": 0.6993281841278076, "Quantum sensing Position": 0.7075762748718262, "Quantum sensing Timing": 0.6781051158905029, "Quantum sensing": 0.7302523851394653, "Quantum control": 0.7077032923698425 } }, { "id": 2023, "title": "Aharon-Vaidman quantum game with a Young-type photonic qutrit", "abstract": "The Aharon-Vaidman (AV) game exemplifies the advantage of using simple quantum systems to outperform classical strategies. We present an experimental test of this advantage by using a three-state quan...", "citations": 25, "author_count": 9, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2026, "doi": "10.1103/PhysRevA.86.012321", "umap_coordinates": { "x": 395.4390869140625, "y": 135.86424255371094, "z": 208.32241821289062 }, "tsne_coordinates": { "x": -11.504412651062012, "y": -23.327627182006836, "z": -0.2648239731788635 }, "pca_coordinates": { "x": 3.2626142501831055, "y": 0.12550115585327148, "z": 2.062869071960449 }, "axis_scores": { "Quantum imaging": 0.6941589117050171, "Quantum Life Science Sensing": 0.7090639472007751, "Quantum sensing Detection": 0.7088041305541992, "Quantum sensing Metrology": 0.6941897869110107, "Quantum sensing navigation": 0.7216231226921082, "Quantum sensing Position": 0.6763902306556702, "Quantum sensing Timing": 0.6997113823890686, "Quantum sensing": 0.7120674848556519, "Quantum control": 0.6767612099647522 } }, { "id": 2024, "title": "Synergistic tailoring of band structure and charge carrier extraction in green core/shell quantum dots for highly efficient solar energy conversion", "abstract": "Environment-friendly colloidal core/shell quantum dots (QDs) with controllable optoelectronic characteristics are promising building blocks for future commercial solar technologies. Herein, we synergi...", "citations": 22, "author_count": 9, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2027, "doi": "10.1016/j.cej.2022.136214", "umap_coordinates": { "x": 392.4621887207031, "y": 133.70033264160156, "z": 205.3949432373047 }, "tsne_coordinates": { "x": 24.495973587036133, "y": 6.168824195861816, "z": -6.465885162353516 }, "pca_coordinates": { "x": -3.5682506561279297, "y": -3.703526020050049, "z": -0.6695888638496399 }, "axis_scores": { "Quantum imaging": 0.6994887590408325, "Quantum Life Science Sensing": 0.7151831388473511, "Quantum sensing Detection": 0.6873534917831421, "Quantum sensing Metrology": 0.6773106455802917, "Quantum sensing navigation": 0.6722054481506348, "Quantum sensing Position": 0.6428219079971313, "Quantum sensing Timing": 0.640801191329956, "Quantum sensing": 0.7003242373466492, "Quantum control": 0.6920047402381897 } }, { "id": 2025, "title": "Signatures of Wigner localization in epitaxially grown nanowires", "abstract": "It was predicted by Wigner in 1934 that an electron gas will undergo a transition to a crystallized state when its density is very low. Whereas significant progress has been made toward the detection ...", "citations": 32, "author_count": 9, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2028, "doi": "10.1103/PhysRevB.83.041101", "umap_coordinates": { "x": 394.2786865234375, "y": 135.82742309570312, "z": 209.04592895507812 }, "tsne_coordinates": { "x": 4.02619743347168, "y": -26.016786575317383, "z": 5.765677452087402 }, "pca_coordinates": { "x": 3.3586859703063965, "y": -2.490448474884033, "z": 1.1058189868927002 }, "axis_scores": { "Quantum imaging": 0.7163776159286499, "Quantum Life Science Sensing": 0.697493851184845, "Quantum sensing Detection": 0.7158000469207764, "Quantum sensing Metrology": 0.6943666934967041, "Quantum sensing navigation": 0.7302250266075134, "Quantum sensing Position": 0.7094759345054626, "Quantum sensing Timing": 0.6975297927856445, "Quantum sensing": 0.7126723527908325, "Quantum control": 0.6627795100212097 } }, { "id": 2026, "title": "Molecular quantum wavepacket revivals in coupled electronic states", "abstract": "Large-amplitude revivals of molecular wavepackets in two coupled electronic states were obtained in quantum dynamical calculations. The revivals occurred in both bound and predissociative systems with...", "citations": 6, "author_count": 5, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2029, "doi": "10.1016/j.cplett.2007.10.068", "umap_coordinates": { "x": 394.1475830078125, "y": 136.30665588378906, "z": 207.44561767578125 }, "tsne_coordinates": { "x": -15.386055946350098, "y": -10.223017692565918, "z": 21.430089950561523 }, "pca_coordinates": { "x": 3.425590991973877, "y": -0.18602871894836426, "z": -1.5875887870788574 }, "axis_scores": { "Quantum imaging": 0.7160475254058838, "Quantum Life Science Sensing": 0.715566098690033, "Quantum sensing Detection": 0.7133617997169495, "Quantum sensing Metrology": 0.6862047910690308, "Quantum sensing navigation": 0.6896986365318298, "Quantum sensing Position": 0.6873576045036316, "Quantum sensing Timing": 0.6838624477386475, "Quantum sensing": 0.7095885276794434, "Quantum control": 0.6886342167854309 } }, { "id": 2027, "title": "CATHODOLUMINESCENCE IMAGING OF QUANTUM-WELLS - THE INFLUENCE OF EXCITON TRANSFER ON THE APPARENT ISLAND SIZE", "abstract": "", "citations": 10, "author_count": 3, "categories": [ "Materials Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 2030, "doi": "10.1103/PhysRevB.50.11827", "umap_coordinates": { "x": 392.50067138671875, "y": 134.62193298339844, "z": 206.89288330078125 }, "tsne_coordinates": { "x": 34.91388702392578, "y": -4.819718360900879, "z": -1.634886384010315 }, "pca_coordinates": { "x": 1.7177753448486328, "y": -1.196589708328247, "z": 0.5460280776023865 }, "axis_scores": { "Quantum imaging": 0.7601039409637451, "Quantum Life Science Sensing": 0.7472243309020996, "Quantum sensing Detection": 0.7417168617248535, "Quantum sensing Metrology": 0.7206970453262329, "Quantum sensing navigation": 0.7265100479125977, "Quantum sensing Position": 0.7200733423233032, "Quantum sensing Timing": 0.6923292875289917, "Quantum sensing": 0.7460721135139465, "Quantum control": 0.7054355144500732 } }, { "id": 2028, "title": "Contextual measurement model and quantum theory", "abstract": "We develop a contextual measurement model (CMM) that is used for the clarification of the quantum foundations. This model matches Bohr's views on the role of experimental contexts. CMM is based on a c...", "citations": 5, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2031, "doi": "10.1098/rsos.231953", "umap_coordinates": { "x": 395.3606872558594, "y": 137.2843780517578, "z": 206.07960510253906 }, "tsne_coordinates": { "x": -19.897703170776367, "y": 3.5740714073181152, "z": 10.43342399597168 }, "pca_coordinates": { "x": 1.6167385578155518, "y": 4.953888893127441, "z": 0.09880942106246948 }, "axis_scores": { "Quantum imaging": 0.7848119139671326, "Quantum Life Science Sensing": 0.7957534193992615, "Quantum sensing Detection": 0.8003753423690796, "Quantum sensing Metrology": 0.7978306412696838, "Quantum sensing navigation": 0.8094050884246826, "Quantum sensing Position": 0.7804991602897644, "Quantum sensing Timing": 0.7712331414222717, "Quantum sensing": 0.8196566104888916, "Quantum control": 0.7839566469192505 } }, { "id": 2029, "title": "Probing the Self-Assembly dynamics of cellulose nanocrystals by X-ray photon correlation spectroscopy", "abstract": "Hypothesis: Charge-stabilized colloidal cellulose nanocrystals (CNCs) can self-assemble into higher-ordered chiral nematic structures by varying the volume fraction. The assembly process exhibits dist...", "citations": 1, "author_count": 9, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2032, "doi": "10.1016/j.jcis.2024.12.234", "umap_coordinates": { "x": 393.3226013183594, "y": 134.80111694335938, "z": 205.5532684326172 }, "tsne_coordinates": { "x": 1.2936056852340698, "y": 9.173032760620117, "z": 38.828575134277344 }, "pca_coordinates": { "x": -2.9212636947631836, "y": -0.5715312957763672, "z": -0.3536887764930725 }, "axis_scores": { "Quantum imaging": 0.7183751463890076, "Quantum Life Science Sensing": 0.7526957392692566, "Quantum sensing Detection": 0.7189446687698364, "Quantum sensing Metrology": 0.6932855844497681, "Quantum sensing navigation": 0.7211151719093323, "Quantum sensing Position": 0.6990717649459839, "Quantum sensing Timing": 0.6857994794845581, "Quantum sensing": 0.7207266092300415, "Quantum control": 0.7001845240592957 } }, { "id": 2030, "title": "AN INTRODUCTION TO THE SEMICLASSICAL LIMIT OF EUCLIDEAN QUANTUM-MECHANICS", "abstract": "A new class of Gaussian (Bernstein) diffusion processes associated with semiclassical quantum dynamics is introduced and studied according to a new Euclidean strategy for the quantization of systems o...", "citations": 11, "author_count": 3, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 2033, "doi": "10.1063/1.529707", "umap_coordinates": { "x": 394.5456237792969, "y": 137.61671447753906, "z": 207.17202758789062 }, "tsne_coordinates": { "x": -25.790294647216797, "y": 3.4712157249450684, "z": 26.54690170288086 }, "pca_coordinates": { "x": 3.3144545555114746, "y": 1.8336718082427979, "z": -1.0165754556655884 }, "axis_scores": { "Quantum imaging": 0.7133193016052246, "Quantum Life Science Sensing": 0.7324437499046326, "Quantum sensing Detection": 0.7209885716438293, "Quantum sensing Metrology": 0.721932053565979, "Quantum sensing navigation": 0.7441264986991882, "Quantum sensing Position": 0.7281277179718018, "Quantum sensing Timing": 0.6959050297737122, "Quantum sensing": 0.7325166463851929, "Quantum control": 0.7031521797180176 } }, { "id": 2031, "title": "Vibrationally resolved rate coefficients and branching fractions in the dissociative recombination of O2+ -: art. no. 014302", "abstract": "We have studied the dissociative recombination of the first three vibrational levels of O-2(+) in its electronic ground X (2)Pi(g) state. Absolute rate coefficients, cross sections, quantum yields and...", "citations": 56, "author_count": 7, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2034, "doi": "10.1063/1.1825991", "umap_coordinates": { "x": 393.5104064941406, "y": 136.18174743652344, "z": 206.83016967773438 }, "tsne_coordinates": { "x": -5.395906448364258, "y": -4.580873012542725, "z": 2.330157518386841 }, "pca_coordinates": { "x": 0.20442414283752441, "y": 0.2187821865081787, "z": -1.369750738143921 }, "axis_scores": { "Quantum imaging": 0.6715819835662842, "Quantum Life Science Sensing": 0.6899763345718384, "Quantum sensing Detection": 0.6664795875549316, "Quantum sensing Metrology": 0.6456432342529297, "Quantum sensing navigation": 0.6514909863471985, "Quantum sensing Position": 0.6321873664855957, "Quantum sensing Timing": 0.6421445608139038, "Quantum sensing": 0.6719076037406921, "Quantum control": 0.638187050819397 } }, { "id": 2032, "title": "Spectroscopy and level detuning of few-electron spin states in parallel InAs quantum dots", "abstract": "We use tunneling spectroscopy to study the evolution of few-electron spin states in parallel InAs nanowire double quantum dots (QDs) as a function of level detuning and applied magnetic field. Compare...", "citations": 6, "author_count": 8, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2035, "doi": "10.1103/PhysRevB.98.245305", "umap_coordinates": { "x": 393.3109130859375, "y": 134.7019805908203, "z": 208.7049102783203 }, "tsne_coordinates": { "x": 5.333178520202637, "y": -22.40476417541504, "z": -4.172370910644531 }, "pca_coordinates": { "x": 4.252064228057861, "y": -3.5171985626220703, "z": 1.8806896209716797 }, "axis_scores": { "Quantum imaging": 0.7160462737083435, "Quantum Life Science Sensing": 0.7260587215423584, "Quantum sensing Detection": 0.7383462190628052, "Quantum sensing Metrology": 0.7364541888237, "Quantum sensing navigation": 0.7185921669006348, "Quantum sensing Position": 0.7225386500358582, "Quantum sensing Timing": 0.7176052927970886, "Quantum sensing": 0.7382704019546509, "Quantum control": 0.6834836602210999 } }, { "id": 2033, "title": "A power-line noise coupling estimation methodology for architectural exploration of mixed-signal systems", "abstract": "This paper presents methods for early estimation of digital to analog noise coupling over the power distribution network in mixed-signal systems. The methods allow both behavioral verification of mixe...", "citations": 4, "author_count": 7, "categories": [ "Computer Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2036, "doi": null, "umap_coordinates": { "x": 391.4268493652344, "y": 139.49459838867188, "z": 209.1446990966797 }, "tsne_coordinates": { "x": -0.9842374324798584, "y": 36.798973083496094, "z": -3.488227605819702 }, "pca_coordinates": { "x": -1.4523754119873047, "y": 3.7126455307006836, "z": 0.550987184047699 }, "axis_scores": { "Quantum imaging": 0.6823618412017822, "Quantum Life Science Sensing": 0.6781785488128662, "Quantum sensing Detection": 0.6837455034255981, "Quantum sensing Metrology": 0.6751213669776917, "Quantum sensing navigation": 0.6981711983680725, "Quantum sensing Position": 0.6784688830375671, "Quantum sensing Timing": 0.6720981597900391, "Quantum sensing": 0.684088408946991, "Quantum control": 0.6791603565216064 } }, { "id": 2034, "title": "A comprehensive review on planar boron nitride nanomaterials: From 2D nanosheets towards 0D quantum dots", "abstract": "Moving from two-dimensional hexagonal boron nitride (2D h-BN) flatlands towards their quantum sized zero-dimensional (0D) islands, as the newest member of the h-BN family, has recently opened up novel...", "citations": 102, "author_count": 9, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2037, "doi": "10.1016/j.pmatsci.2021.100884", "umap_coordinates": { "x": 393.38970947265625, "y": 133.81796264648438, "z": 205.2840576171875 }, "tsne_coordinates": { "x": 21.389394760131836, "y": 18.28858184814453, "z": -7.687401294708252 }, "pca_coordinates": { "x": -3.3685827255249023, "y": -2.3302254676818848, "z": -0.8798744082450867 }, "axis_scores": { "Quantum imaging": 0.7372830510139465, "Quantum Life Science Sensing": 0.7464482188224792, "Quantum sensing Detection": 0.7307354807853699, "Quantum sensing Metrology": 0.7453667521476746, "Quantum sensing navigation": 0.7254199981689453, "Quantum sensing Position": 0.7241315245628357, "Quantum sensing Timing": 0.7029993534088135, "Quantum sensing": 0.745877206325531, "Quantum control": 0.7207633852958679 } }, { "id": 2035, "title": "Prospective environmental risk screening of seven advanced materials based on production volumes and aquatic ecotoxicity", "abstract": "The number and volume of advanced materials being manufactured is increasing. In order to mitigate future impacts from such materials, assessment methods that can provide early indications of potentia...", "citations": 16, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2038, "doi": "10.1016/j.impact.2022.100393", "umap_coordinates": { "x": 393.4017028808594, "y": 134.2758331298828, "z": 203.97157287597656 }, "tsne_coordinates": { "x": 22.55389976501465, "y": 17.117387771606445, "z": -1.4647923707962036 }, "pca_coordinates": { "x": -4.788256645202637, "y": 1.5685731172561646, "z": -0.6071543097496033 }, "axis_scores": { "Quantum imaging": 0.6780034303665161, "Quantum Life Science Sensing": 0.7074596285820007, "Quantum sensing Detection": 0.6573257446289062, "Quantum sensing Metrology": 0.6540135741233826, "Quantum sensing navigation": 0.6474966406822205, "Quantum sensing Position": 0.6493971347808838, "Quantum sensing Timing": 0.6243160367012024, "Quantum sensing": 0.6708622574806213, "Quantum control": 0.6611436009407043 } }, { "id": 2036, "title": "Vapor Pressures and Heats of Sublimation of Crystalline β-Cellobiose from Classical Molecular Dynamics Simulations with Quantum Mechanical Corrections", "abstract": "In this paper, we report the calculation of the enthalpy of sublimation, Delta H-sub, as a function of temperature of crystalline beta-cellobiose from molecular dynamics (MD) simulations, using two po...", "citations": 13, "author_count": 2, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2039, "doi": "10.1021/jp501839k", "umap_coordinates": { "x": 393.47723388671875, "y": 137.4268341064453, "z": 205.73794555664062 }, "tsne_coordinates": { "x": -9.829533576965332, "y": 4.562265396118164, "z": 25.483543395996094 }, "pca_coordinates": { "x": 0.3034546375274658, "y": 1.849158763885498, "z": -1.895122766494751 }, "axis_scores": { "Quantum imaging": 0.690071165561676, "Quantum Life Science Sensing": 0.7338687181472778, "Quantum sensing Detection": 0.6722085475921631, "Quantum sensing Metrology": 0.6722468733787537, "Quantum sensing navigation": 0.6772328019142151, "Quantum sensing Position": 0.6556980013847351, "Quantum sensing Timing": 0.6637538075447083, "Quantum sensing": 0.6911704540252686, "Quantum control": 0.6787141561508179 } }, { "id": 2037, "title": "Supersymmetric gauge potentials in multiphoton transition of atoms and squeezed-vacuum-state driven supersymmetric isospin evolution", "abstract": "Energy spectrum of a multiphoton-transition Jaynes-Cummings model with supersymmetry breaking and some relevant topics such as multiphoton dark state (photon-atom dark-state polariton) and multiphoton...", "citations": 2, "author_count": 3, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2040, "doi": "10.1140/epjd/e2020-100429-1", "umap_coordinates": { "x": 395.9661560058594, "y": 135.3159942626953, "z": 207.07699584960938 }, "tsne_coordinates": { "x": -9.263834953308105, "y": -13.63749885559082, "z": 26.894197463989258 }, "pca_coordinates": { "x": 2.470581293106079, "y": 0.043221473693847656, "z": 0.06947511434555054 }, "axis_scores": { "Quantum imaging": 0.7204775214195251, "Quantum Life Science Sensing": 0.6991862654685974, "Quantum sensing Detection": 0.696386992931366, "Quantum sensing Metrology": 0.6958799958229065, "Quantum sensing navigation": 0.7156811356544495, "Quantum sensing Position": 0.6840021014213562, "Quantum sensing Timing": 0.6860970258712769, "Quantum sensing": 0.7088223695755005, "Quantum control": 0.7048285007476807 } }, { "id": 2038, "title": "Qubit- Compatible Substrates With Superconducting Through-Silicon Vias", "abstract": "We fabricate and characterize superconducting through-silicon vias and electrodes suitable for superconducting quantum processors. We measure internal quality factors of a million for test resonators ...", "citations": 19, "author_count": 25, "categories": [ "Computer Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2041, "doi": "10.1109/TQE.2022.3209881", "umap_coordinates": { "x": 394.89166259765625, "y": 134.5286102294922, "z": 206.5509033203125 }, "tsne_coordinates": { "x": -1.1559432744979858, "y": 3.1051619052886963, "z": -36.34297561645508 }, "pca_coordinates": { "x": -0.1340193748474121, "y": -0.4031186103820801, "z": 2.4690651893615723 }, "axis_scores": { "Quantum imaging": 0.7085853219032288, "Quantum Life Science Sensing": 0.6991913318634033, "Quantum sensing Detection": 0.7031542062759399, "Quantum sensing Metrology": 0.719580352306366, "Quantum sensing navigation": 0.7092100381851196, "Quantum sensing Position": 0.6884163022041321, "Quantum sensing Timing": 0.719872772693634, "Quantum sensing": 0.7157135009765625, "Quantum control": 0.700435996055603 } }, { "id": 2039, "title": "Ultrafast Relaxation Dynamics in Zinc Tetraphenylporphyrin Surface-Mounted Metal Organic Framework", "abstract": "Ordered porphyrin-based metal organic frameworks (MOFs) may serve as a model for mimicking the natural photosynthesis with highly ordered chlorophylls, i.e., porphyrin-like chromophores. Study of ligh...", "citations": 52, "author_count": 7, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2042, "doi": "10.1021/acs.jpcc.7b08696", "umap_coordinates": { "x": 392.4053039550781, "y": 136.18930053710938, "z": 206.5308380126953 }, "tsne_coordinates": { "x": 13.24341869354248, "y": 2.104600191116333, "z": 7.520581245422363 }, "pca_coordinates": { "x": 0.3362020254135132, "y": -1.7350573539733887, "z": -3.8889498710632324 }, "axis_scores": { "Quantum imaging": 0.7471282482147217, "Quantum Life Science Sensing": 0.7396940588951111, "Quantum sensing Detection": 0.7165241241455078, "Quantum sensing Metrology": 0.692477822303772, "Quantum sensing navigation": 0.7220668792724609, "Quantum sensing Position": 0.7073891758918762, "Quantum sensing Timing": 0.7170997262001038, "Quantum sensing": 0.7247596979141235, "Quantum control": 0.7208337783813477 } }, { "id": 2040, "title": "BAND EDGE OFFSET IN STRAINED INXGA1-XAS/GAAS QUANTUM-WELLS MEASURED BY HIGH-EXCITATION PHOTOLUMINESCENCE", "abstract": "A new method is presented for direct and reliable determination of the band edge offset in quantum well (QW) semiconductor heterostructures. It is based on luminescence measurements at various filling...", "citations": 7, "author_count": 4, "categories": [ "Engineering" ], "year": 1993, "topic": [ "all" ], "embedding_index": 2043, "doi": "10.1088/0268-1242/8/3/030", "umap_coordinates": { "x": 392.6799621582031, "y": 134.48614501953125, "z": 207.8975067138672 }, "tsne_coordinates": { "x": 28.538732528686523, "y": -16.072574615478516, "z": 14.452011108398438 }, "pca_coordinates": { "x": 0.09002280235290527, "y": -1.4358248710632324, "z": 1.7175798416137695 }, "axis_scores": { "Quantum imaging": 0.691376268863678, "Quantum Life Science Sensing": 0.6548502445220947, "Quantum sensing Detection": 0.665130615234375, "Quantum sensing Metrology": 0.670591413974762, "Quantum sensing navigation": 0.6740987300872803, "Quantum sensing Position": 0.719612717628479, "Quantum sensing Timing": 0.7032448649406433, "Quantum sensing": 0.6754913330078125, "Quantum control": 0.6433715224266052 } }, { "id": 2041, "title": "Electronic confinement of surface states in a topological insulator nanowire", "abstract": "We analyze the confinement of electronic surface states in a model of a topological insulator nanowire. Spin-momentum locking in the surface states reduces unwanted backscattering in the presence of n...", "citations": 6, "author_count": 8, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2044, "doi": "10.1103/PhysRevB.106.035407", "umap_coordinates": { "x": 394.1328125, "y": 135.5868377685547, "z": 209.24253845214844 }, "tsne_coordinates": { "x": 2.0870132446289062, "y": -25.6016845703125, "z": 6.123950958251953 }, "pca_coordinates": { "x": 5.871079921722412, "y": -3.342367649078369, "z": 0.2534630298614502 }, "axis_scores": { "Quantum imaging": 0.7222427725791931, "Quantum Life Science Sensing": 0.7233729958534241, "Quantum sensing Detection": 0.7348824143409729, "Quantum sensing Metrology": 0.7105610370635986, "Quantum sensing navigation": 0.7534035444259644, "Quantum sensing Position": 0.719203770160675, "Quantum sensing Timing": 0.691442608833313, "Quantum sensing": 0.7365128397941589, "Quantum control": 0.7071467638015747 } }, { "id": 2042, "title": "A general characterization method for nonlinearities in superconducting circuits", "abstract": "Detailed knowledge of nonlinearity in superconducting microwave circuits is required for the optimal control of their quantum state. We present a general method to precisely characterize this nonlinea...", "citations": 2, "author_count": 6, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2045, "doi": "10.1088/1367-2630/ab175a", "umap_coordinates": { "x": 394.609130859375, "y": 136.56234741210938, "z": 207.17730712890625 }, "tsne_coordinates": { "x": -5.505989074707031, "y": -10.264839172363281, "z": 21.109371185302734 }, "pca_coordinates": { "x": 1.4072837829589844, "y": 1.9195555448532104, "z": -0.18259984254837036 }, "axis_scores": { "Quantum imaging": 0.6950299143791199, "Quantum Life Science Sensing": 0.7125523686408997, "Quantum sensing Detection": 0.6973927617073059, "Quantum sensing Metrology": 0.6861165165901184, "Quantum sensing navigation": 0.7112107276916504, "Quantum sensing Position": 0.6783050298690796, "Quantum sensing Timing": 0.6748223900794983, "Quantum sensing": 0.702161967754364, "Quantum control": 0.6901440620422363 } }, { "id": 2043, "title": "ON THE SHARPNESS OF SPECTRAL ESTIMATES FOR GRAPH LAPLACIANS", "abstract": "We prove that the upper spectral estimate for quantum graphs due to Berkolaiko-Kennedy-Kurasov-Mugnolo [5] is sharp....", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2046, "doi": "10.1016/S0034-4877(18)30071-5", "umap_coordinates": { "x": 393.59375, "y": 135.8909912109375, "z": 206.32313537597656 }, "tsne_coordinates": { "x": 16.77359390258789, "y": -3.591855049133301, "z": 37.11051940917969 }, "pca_coordinates": { "x": -1.4089263677597046, "y": 0.3455383777618408, "z": -1.059272289276123 }, "axis_scores": { "Quantum imaging": 0.6668139696121216, "Quantum Life Science Sensing": 0.6774380207061768, "Quantum sensing Detection": 0.6616101861000061, "Quantum sensing Metrology": 0.6643215417861938, "Quantum sensing navigation": 0.6556618809700012, "Quantum sensing Position": 0.6719669103622437, "Quantum sensing Timing": 0.628433108329773, "Quantum sensing": 0.673026442527771, "Quantum control": 0.6380573511123657 } }, { "id": 2044, "title": "Constructing InP/ZnSe Quantum Dots with Shell Gradient In3+ Doping for Photoelectrochemical Cells", "abstract": "Environmentally friendly InP/ZnSe core/shell quantum dots (QDs) with high absorption coefficients and tunable band gaps have demonstrated great potential for photoelectrochemical (PEC) water splitting...", "citations": 34, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2047, "doi": "10.1021/acsenergylett.4c00508", "umap_coordinates": { "x": 391.8536376953125, "y": 133.99124145507812, "z": 206.35340881347656 }, "tsne_coordinates": { "x": 20.418087005615234, "y": -9.093257904052734, "z": 0.989403486251831 }, "pca_coordinates": { "x": -1.8514817953109741, "y": -4.8308424949646, "z": -1.2127928733825684 }, "axis_scores": { "Quantum imaging": 0.7089486718177795, "Quantum Life Science Sensing": 0.7236756682395935, "Quantum sensing Detection": 0.6923543214797974, "Quantum sensing Metrology": 0.6878397464752197, "Quantum sensing navigation": 0.7087409496307373, "Quantum sensing Position": 0.6915019154548645, "Quantum sensing Timing": 0.663644015789032, "Quantum sensing": 0.7034143805503845, "Quantum control": 0.6819695830345154 } }, { "id": 2045, "title": "Intrinsic Dynamics of Amorphous Ice Revealed by a Heterodyne Signal in X-ray Photon Correlation Spectroscopy Experiments", "abstract": "Unraveling the mechanism of water's glass transition and the interconnection between amorphous ices and liquid water plays an important role in our overall understanding of water. X-ray photon correla...", "citations": 6, "author_count": 14, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2048, "doi": "10.1021/acs.jpclett.3c02470", "umap_coordinates": { "x": 392.7207336425781, "y": 136.1392364501953, "z": 206.4611358642578 }, "tsne_coordinates": { "x": 1.1917413473129272, "y": -0.4029504656791687, "z": 26.366262435913086 }, "pca_coordinates": { "x": 0.5893146991729736, "y": 0.4473375082015991, "z": -0.7736321091651917 }, "axis_scores": { "Quantum imaging": 0.7222084999084473, "Quantum Life Science Sensing": 0.7207539677619934, "Quantum sensing Detection": 0.702298104763031, "Quantum sensing Metrology": 0.6511589884757996, "Quantum sensing navigation": 0.6856046915054321, "Quantum sensing Position": 0.6672972440719604, "Quantum sensing Timing": 0.6914971470832825, "Quantum sensing": 0.7003126740455627, "Quantum control": 0.6861204504966736 } }, { "id": 2046, "title": "Coffee-Ground-Derived Quantum Dots for Aqueous Processable Nanoporous Graphene Membranes", "abstract": "Carbon-based quantum dots (QDs) with ultralow dimensions and controllable surface chemistry have unique properties appealing to diverse applications. Here, we disclose a high-throughput transformation...", "citations": 74, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2049, "doi": "10.1021/acssuschemeng.7b00663", "umap_coordinates": { "x": 392.6204528808594, "y": 134.87648010253906, "z": 204.2001190185547 }, "tsne_coordinates": { "x": 19.631820678710938, "y": 10.918346405029297, "z": -15.8652982711792 }, "pca_coordinates": { "x": -2.5928449630737305, "y": -1.3755207061767578, "z": -2.6946609020233154 }, "axis_scores": { "Quantum imaging": 0.6845393180847168, "Quantum Life Science Sensing": 0.7295385599136353, "Quantum sensing Detection": 0.7005473971366882, "Quantum sensing Metrology": 0.6813533306121826, "Quantum sensing navigation": 0.6921032667160034, "Quantum sensing Position": 0.6619571447372437, "Quantum sensing Timing": 0.6637285351753235, "Quantum sensing": 0.7131626605987549, "Quantum control": 0.7070528268814087 } }, { "id": 2047, "title": "Multiexciton Absorption Cross Sections of CdSe Quantum Dots Determined by Ultrafast Spectroscopy", "abstract": "Multiexciton absorption cross sections are important for analysis of a number of experiments, including multiple exciton generation and stimulated emisson. We present a rigorous method to determine th...", "citations": 20, "author_count": 10, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2050, "doi": "10.1021/jz401522h", "umap_coordinates": { "x": 392.71453857421875, "y": 134.93687438964844, "z": 206.40521240234375 }, "tsne_coordinates": { "x": 5.103717803955078, "y": -0.8162657022476196, "z": 8.350001335144043 }, "pca_coordinates": { "x": -1.3570976257324219, "y": -3.5016274452209473, "z": 0.3473326563835144 }, "axis_scores": { "Quantum imaging": 0.7136762738227844, "Quantum Life Science Sensing": 0.7459286451339722, "Quantum sensing Detection": 0.7272274494171143, "Quantum sensing Metrology": 0.7156103849411011, "Quantum sensing navigation": 0.6935272216796875, "Quantum sensing Position": 0.690409243106842, "Quantum sensing Timing": 0.6736243963241577, "Quantum sensing": 0.7315592765808105, "Quantum control": 0.6773580312728882 } }, { "id": 2048, "title": "Fitting transmission and Faraday rotation spectra of [Bi3Fe5O12/Sm3Ga5O12]m magneto-optical photonic crystals", "abstract": "A consistent microscopic approach is developed to simulate the transmittance and Faraday rotation in all-garnet heteroepitaxial magneto-optical photonic crystals (MOPCs). To compare the experimental a...", "citations": 22, "author_count": 3, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2051, "doi": "10.1063/1.3195067", "umap_coordinates": { "x": 393.96173095703125, "y": 134.40335083007812, "z": 207.7867431640625 }, "tsne_coordinates": { "x": 18.287086486816406, "y": -26.75368309020996, "z": -17.159408569335938 }, "pca_coordinates": { "x": 0.6755431890487671, "y": -0.5177221298217773, "z": 0.47198182344436646 }, "axis_scores": { "Quantum imaging": 0.7632577419281006, "Quantum Life Science Sensing": 0.7653725147247314, "Quantum sensing Detection": 0.754569411277771, "Quantum sensing Metrology": 0.7933362126350403, "Quantum sensing navigation": 0.7489601969718933, "Quantum sensing Position": 0.7221052646636963, "Quantum sensing Timing": 0.7095544338226318, "Quantum sensing": 0.7690051794052124, "Quantum control": 0.7223176956176758 } }, { "id": 2049, "title": "Operation of a high-TC SQUID gradiometer with a two-stage MEMS-based Joule-Thomson micro-cooler", "abstract": "Practical applications of high-T-C superconducting quantum interference devices (SQUIDs) require cheap, simple in operation, and cryogen-free cooling. Mechanical cryo-coolers are generally not suitabl...", "citations": 12, "author_count": 11, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2052, "doi": "10.1088/0953-2048/29/9/095014", "umap_coordinates": { "x": 394.62554931640625, "y": 135.01710510253906, "z": 207.32704162597656 }, "tsne_coordinates": { "x": -23.294857025146484, "y": 0.9495126008987427, "z": -24.905424118041992 }, "pca_coordinates": { "x": -0.1350395679473877, "y": 0.6009438037872314, "z": 0.6624824404716492 }, "axis_scores": { "Quantum imaging": 0.6665083765983582, "Quantum Life Science Sensing": 0.7058412432670593, "Quantum sensing Detection": 0.6786248683929443, "Quantum sensing Metrology": 0.69771409034729, "Quantum sensing navigation": 0.6891131401062012, "Quantum sensing Position": 0.681195080280304, "Quantum sensing Timing": 0.6976268887519836, "Quantum sensing": 0.6926552057266235, "Quantum control": 0.6611759662628174 } }, { "id": 2050, "title": "Non-Markovian decay and decoherence in open quantum systems", "abstract": "Interaction between a quantum system and its surroundings - be it another similar quantum system, a thermal reservoir, or a measurement device - breaks down the standard unitary evolution of the syste...", "citations": 1, "author_count": 4, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2053, "doi": null, "umap_coordinates": { "x": 392.0953063964844, "y": 139.23654174804688, "z": 208.95599365234375 }, "tsne_coordinates": { "x": -14.949445724487305, "y": 41.591453552246094, "z": -3.229541063308716 }, "pca_coordinates": { "x": 2.4214253425598145, "y": 3.9842488765716553, "z": -2.4213037490844727 }, "axis_scores": { "Quantum imaging": 0.7605480551719666, "Quantum Life Science Sensing": 0.7649773359298706, "Quantum sensing Detection": 0.7520361542701721, "Quantum sensing Metrology": 0.7157778143882751, "Quantum sensing navigation": 0.7533594369888306, "Quantum sensing Position": 0.6893641352653503, "Quantum sensing Timing": 0.6932619214057922, "Quantum sensing": 0.7564679384231567, "Quantum control": 0.7566676735877991 } }, { "id": 2051, "title": "Electronic structure of quantum dots", "abstract": "The properties of quasi-two-dimensional semiconductor quantum dots are reviewed. Experimental techniques for measuring the electronic shell structure and the effect of magnetic fields are briefly desc...", "citations": 1311, "author_count": 3, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2054, "doi": "10.1103/RevModPhys.74.1283", "umap_coordinates": { "x": 393.5994567871094, "y": 135.45516967773438, "z": 207.5874786376953 }, "tsne_coordinates": { "x": 12.418895721435547, "y": -26.539400100708008, "z": 2.494764566421509 }, "pca_coordinates": { "x": 2.9048304557800293, "y": -1.854928970336914, "z": -0.7391512393951416 }, "axis_scores": { "Quantum imaging": 0.778445303440094, "Quantum Life Science Sensing": 0.8099712133407593, "Quantum sensing Detection": 0.7824205756187439, "Quantum sensing Metrology": 0.7740461230278015, "Quantum sensing navigation": 0.7675431370735168, "Quantum sensing Position": 0.7539525628089905, "Quantum sensing Timing": 0.7400305271148682, "Quantum sensing": 0.7896043658256531, "Quantum control": 0.7636750936508179 } }, { "id": 2052, "title": "Unimodal dome-shaped island population of Ge/Si (001) by step-wise growth in UHV-CVD", "abstract": "This work introduces a new approach to achieve a unimodal dome-shaped island population for the self-assembled Ge/Si (0 0 1) dots grown by ultra-high vacuum chemical vapour deposition at T = 620 degre...", "citations": 18, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2055, "doi": "10.1016/S1386-9477(02)00291-6", "umap_coordinates": { "x": 392.39996337890625, "y": 134.0758819580078, "z": 206.8505401611328 }, "tsne_coordinates": { "x": 41.95449447631836, "y": -4.4359354972839355, "z": 3.7062277793884277 }, "pca_coordinates": { "x": -1.0305899381637573, "y": -0.38315677642822266, "z": 0.024987459182739258 }, "axis_scores": { "Quantum imaging": 0.6776074171066284, "Quantum Life Science Sensing": 0.6979330778121948, "Quantum sensing Detection": 0.6708183288574219, "Quantum sensing Metrology": 0.6739952564239502, "Quantum sensing navigation": 0.6780520677566528, "Quantum sensing Position": 0.6598324179649353, "Quantum sensing Timing": 0.611929714679718, "Quantum sensing": 0.6734769940376282, "Quantum control": 0.6407002806663513 } }, { "id": 2053, "title": "A MICHELSON INTERFEROMETER WITH BALANCED DETECTION FOR THE CHARACTERIZATION OF MODULATION AND NOISE PROPERTIES OF SEMICONDUCTOR-LASERS", "abstract": "A Michelson interferometer with balanced detection for the studies of modulation and noise properties of semiconductor lasers is built and analyzed. The quantum noise due to vacuum fluctuations, coupl...", "citations": 13, "author_count": 2, "categories": [ "Engineering" ], "year": 1993, "topic": [ "all" ], "embedding_index": 2056, "doi": "10.1109/3.214498", "umap_coordinates": { "x": 394.53363037109375, "y": 134.44740295410156, "z": 207.6113739013672 }, "tsne_coordinates": { "x": -7.809157848358154, "y": -19.108598709106445, "z": -29.510072708129883 }, "pca_coordinates": { "x": 0.5732090473175049, "y": -0.21409916877746582, "z": 2.67984938621521 }, "axis_scores": { "Quantum imaging": 0.7174696326255798, "Quantum Life Science Sensing": 0.7374570965766907, "Quantum sensing Detection": 0.7446064949035645, "Quantum sensing Metrology": 0.7591134309768677, "Quantum sensing navigation": 0.7394460439682007, "Quantum sensing Position": 0.7031049728393555, "Quantum sensing Timing": 0.6842096447944641, "Quantum sensing": 0.7411351203918457, "Quantum control": 0.7050044536590576 } }, { "id": 2054, "title": "Increased count-rate performance and dose efficiency for silicon photon-counting detectors for full-field CT using an ASIC with adjustable shaping time", "abstract": "Photon-counting silicon strip detectors are attracting interest for use in next generation CT scanners. For silicon detectors, a low noise floor is necessary to obtain a good dose efficiency. A low no...", "citations": 3, "author_count": 7, "categories": [ "Engineering" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2057, "doi": "10.1117/12.2512826", "umap_coordinates": { "x": 395.2698669433594, "y": 132.90618896484375, "z": 205.85960388183594 }, "tsne_coordinates": { "x": -15.175165176391602, "y": 22.91701316833496, "z": -22.442739486694336 }, "pca_coordinates": { "x": -2.7264976501464844, "y": 0.758733868598938, "z": 5.03977632522583 }, "axis_scores": { "Quantum imaging": 0.6552437543869019, "Quantum Life Science Sensing": 0.6365140676498413, "Quantum sensing Detection": 0.6408496499061584, "Quantum sensing Metrology": 0.6452392935752869, "Quantum sensing navigation": 0.6365816593170166, "Quantum sensing Position": 0.6277241110801697, "Quantum sensing Timing": 0.6821531057357788, "Quantum sensing": 0.6524904370307922, "Quantum control": 0.6383958458900452 } }, { "id": 2055, "title": "High-Q Magnetic Levitation and Control of Superconducting Microspheres at Millikelvin Temperatures", "abstract": "We report the levitation of a superconducting lead-tin sphere with 100 mu m diameter (corresponding to a mass of 5.6 mu g) in a static magnetic trap formed by two coils in an anti-Helmholtz configurat...", "citations": 39, "author_count": 15, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2058, "doi": "10.1103/PhysRevLett.131.043603", "umap_coordinates": { "x": 394.0892028808594, "y": 136.33023071289062, "z": 208.3957977294922 }, "tsne_coordinates": { "x": -8.778495788574219, "y": -21.811485290527344, "z": 24.90278434753418 }, "pca_coordinates": { "x": 3.213339328765869, "y": -0.8673374652862549, "z": -1.5905544757843018 }, "axis_scores": { "Quantum imaging": 0.6985450983047485, "Quantum Life Science Sensing": 0.7129035592079163, "Quantum sensing Detection": 0.688987135887146, "Quantum sensing Metrology": 0.70540452003479, "Quantum sensing navigation": 0.6857412457466125, "Quantum sensing Position": 0.683851957321167, "Quantum sensing Timing": 0.6779181361198425, "Quantum sensing": 0.7031257152557373, "Quantum control": 0.7038449645042419 } }, { "id": 2056, "title": "Fluorescence properties of 6-aryl-2′-deoxy-furanouridine and pyrrolocytidine and their derivatives", "abstract": "2'-deoxyfuranouridine derivatives presenting various aryl groups have been synthesized through Cu(I)-catalyzed intramolecular cyclizations. Moreover, corresponding pyrrolo-dC derivatives have been syn...", "citations": 3, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2059, "doi": "10.1088/2050-6120/aa8e19", "umap_coordinates": { "x": 393.1988220214844, "y": 135.6147918701172, "z": 204.6052703857422 }, "tsne_coordinates": { "x": -0.4752390682697296, "y": 12.580236434936523, "z": -1.3224793672561646 }, "pca_coordinates": { "x": -3.1639585494995117, "y": 0.5428178310394287, "z": -0.6377122402191162 }, "axis_scores": { "Quantum imaging": 0.7086513042449951, "Quantum Life Science Sensing": 0.7398309707641602, "Quantum sensing Detection": 0.6900821924209595, "Quantum sensing Metrology": 0.6897361278533936, "Quantum sensing navigation": 0.700369119644165, "Quantum sensing Position": 0.6856378316879272, "Quantum sensing Timing": 0.6768416166305542, "Quantum sensing": 0.7117159366607666, "Quantum control": 0.6825786828994751 } }, { "id": 2057, "title": "Centrality dependence of low-momentum direct-photon production in Au plus Au collisions at √sNN=200 GeV", "abstract": "The PHENIX experiment at RHIC has measured the centrality dependence of the direct photon yield from Au + Au collisions at root s(NN) = 200 GeV down to pT = 0.4 GeV/c. Photons are detected via photon ...", "citations": 154, "author_count": 481, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2060, "doi": "10.1103/PhysRevC.91.064904", "umap_coordinates": { "x": 396.31671142578125, "y": 134.38368225097656, "z": 208.0350341796875 }, "tsne_coordinates": { "x": -32.92427062988281, "y": 4.095993995666504, "z": -19.529544830322266 }, "pca_coordinates": { "x": 1.8127179145812988, "y": -0.8841619491577148, "z": 1.967118740081787 }, "axis_scores": { "Quantum imaging": 0.6808043122291565, "Quantum Life Science Sensing": 0.7065649628639221, "Quantum sensing Detection": 0.7193132638931274, "Quantum sensing Metrology": 0.6767037510871887, "Quantum sensing navigation": 0.7063232660293579, "Quantum sensing Position": 0.7110650539398193, "Quantum sensing Timing": 0.6943506598472595, "Quantum sensing": 0.7053022384643555, "Quantum control": 0.6831653118133545 } }, { "id": 2058, "title": "1 μm Spatial Resolution in Silicon Photon-Counting CT Detectors by Measuring Charge Diffusion", "abstract": "One of the existing prototype detector systems for full-field photon-counting CT is a silicon detector developed by our group. Spatial resolution is clinically important to resolve small details and c...", "citations": 3, "author_count": 5, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2061, "doi": "10.1117/12.2549480", "umap_coordinates": { "x": 395.3007507324219, "y": 133.03099060058594, "z": 205.57228088378906 }, "tsne_coordinates": { "x": -8.282042503356934, "y": 16.43703842163086, "z": -21.746557235717773 }, "pca_coordinates": { "x": -1.7095155715942383, "y": 1.3022695779800415, "z": 4.3065714836120605 }, "axis_scores": { "Quantum imaging": 0.7668403387069702, "Quantum Life Science Sensing": 0.7371509075164795, "Quantum sensing Detection": 0.7546166181564331, "Quantum sensing Metrology": 0.7380901575088501, "Quantum sensing navigation": 0.7504239082336426, "Quantum sensing Position": 0.7477227449417114, "Quantum sensing Timing": 0.739169716835022, "Quantum sensing": 0.7537240386009216, "Quantum control": 0.6942151784896851 } }, { "id": 2059, "title": "Metropolitan single-photon distribution at 1550 nm for random number generation", "abstract": "Quantum communication networks will connect future generations of quantum processors, enable metrological applications, and provide security through quantum key distribution. We present a testbed that...", "citations": 16, "author_count": 15, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2062, "doi": "10.1063/5.0112939", "umap_coordinates": { "x": 394.7958679199219, "y": 134.18038940429688, "z": 207.5457763671875 }, "tsne_coordinates": { "x": -18.271305084228516, "y": 4.656012535095215, "z": -28.9909610748291 }, "pca_coordinates": { "x": -0.16250348091125488, "y": 0.19880437850952148, "z": 3.099661350250244 }, "axis_scores": { "Quantum imaging": 0.6864874362945557, "Quantum Life Science Sensing": 0.6958594918251038, "Quantum sensing Detection": 0.698991060256958, "Quantum sensing Metrology": 0.7141332030296326, "Quantum sensing navigation": 0.7148140072822571, "Quantum sensing Position": 0.6833572387695312, "Quantum sensing Timing": 0.6742640137672424, "Quantum sensing": 0.6994664669036865, "Quantum control": 0.6739245653152466 } }, { "id": 2060, "title": "N-induced Quantum Dots in GaAs/Ga(N, As) Core/Shell Nanowires: Symmetry, Strain, and Electronic Structure", "abstract": "Nanowires (NWs) with embedded zero-dimensional (0D) quantum dots (QDs) have interesting fundamental properties attractive for a variety of applications. The properties of such embedded QDs can be cont...", "citations": 9, "author_count": 5, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2063, "doi": "10.1103/PhysRevApplied.10.044040", "umap_coordinates": { "x": 392.5315856933594, "y": 134.2801055908203, "z": 208.36573791503906 }, "tsne_coordinates": { "x": 20.889453887939453, "y": -16.970491409301758, "z": 1.972429633140564 }, "pca_coordinates": { "x": 2.369328498840332, "y": -3.632814884185791, "z": 0.3279070258140564 }, "axis_scores": { "Quantum imaging": 0.7107076644897461, "Quantum Life Science Sensing": 0.7124249339103699, "Quantum sensing Detection": 0.7047625184059143, "Quantum sensing Metrology": 0.6869922280311584, "Quantum sensing navigation": 0.7310728430747986, "Quantum sensing Position": 0.701785683631897, "Quantum sensing Timing": 0.6879190802574158, "Quantum sensing": 0.7137449979782104, "Quantum control": 0.691240131855011 } }, { "id": 2061, "title": "Many-body Liouvillian dynamics with a non-Hermitian tensor-network kernel polynomial algorithm", "abstract": "Understanding the dynamics of open quantum many-body systems is a major problem in quantum matter. Specifically, efficiently solving the spectrum of the Liouvillian superoperator governing such dynami...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2064, "doi": "10.1103/PhysRevResearch.6.043182", "umap_coordinates": { "x": 395.47662353515625, "y": 136.858154296875, "z": 207.94326782226562 }, "tsne_coordinates": { "x": -28.265575408935547, "y": -19.47792625427246, "z": 9.251684188842773 }, "pca_coordinates": { "x": 3.3546175956726074, "y": 1.8647150993347168, "z": 0.24613428115844727 }, "axis_scores": { "Quantum imaging": 0.7387332320213318, "Quantum Life Science Sensing": 0.7198770046234131, "Quantum sensing Detection": 0.7145538330078125, "Quantum sensing Metrology": 0.6887654066085815, "Quantum sensing navigation": 0.7326654195785522, "Quantum sensing Position": 0.7030866742134094, "Quantum sensing Timing": 0.6867766380310059, "Quantum sensing": 0.7181819677352905, "Quantum control": 0.6994940042495728 } }, { "id": 2062, "title": "Tracking the Small with the Smallest - Using Nanotechnology in Tracking Zooplankton", "abstract": "A major problem when studying behavior and migration of small organisms is that many of the questions addressed for larger animals are not possible to formulate due to constraints on tracking smaller ...", "citations": 29, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2065, "doi": "10.1371/journal.pone.0013516", "umap_coordinates": { "x": 393.8138732910156, "y": 134.29393005371094, "z": 205.39537048339844 }, "tsne_coordinates": { "x": -0.21827036142349243, "y": 29.560260772705078, "z": 19.67570686340332 }, "pca_coordinates": { "x": -2.1426663398742676, "y": 2.139833450317383, "z": 1.1212282180786133 }, "axis_scores": { "Quantum imaging": 0.7142291069030762, "Quantum Life Science Sensing": 0.7435505986213684, "Quantum sensing Detection": 0.7362191677093506, "Quantum sensing Metrology": 0.7332537770271301, "Quantum sensing navigation": 0.7474349141120911, "Quantum sensing Position": 0.7349153757095337, "Quantum sensing Timing": 0.7297347784042358, "Quantum sensing": 0.7399002909660339, "Quantum control": 0.7051190137863159 } }, { "id": 2063, "title": "Crossed-beam and quantum dynamics studies of the reaction Cl+CHD3", "abstract": "The ground-state reaction of Cl + CHD3 was studied with joint experimental and theoretical efforts. Experiments were performed under crossed-beam conditions using a time-sliced velocity imaging detect...", "citations": 24, "author_count": 5, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2066, "doi": "10.1560/IJC.47.1.1", "umap_coordinates": { "x": 393.46783447265625, "y": 137.5334930419922, "z": 206.19412231445312 }, "tsne_coordinates": { "x": -14.20799446105957, "y": 5.500637054443359, "z": 35.62904357910156 }, "pca_coordinates": { "x": 1.2870397567749023, "y": 2.2662901878356934, "z": -1.2695720195770264 }, "axis_scores": { "Quantum imaging": 0.7062327861785889, "Quantum Life Science Sensing": 0.6912163496017456, "Quantum sensing Detection": 0.6854842901229858, "Quantum sensing Metrology": 0.6538740396499634, "Quantum sensing navigation": 0.6788541078567505, "Quantum sensing Position": 0.6554902195930481, "Quantum sensing Timing": 0.6791819334030151, "Quantum sensing": 0.6914100050926208, "Quantum control": 0.7223833799362183 } }, { "id": 2064, "title": "Photodissociation of CH2ICH2I, CF2ICF2I, and CF2BrCF2I in solution", "abstract": "The photodissociation dynamics of CH2ICH2I, CF2ICF2I, and CF2BrCF2I have been studied in solution after excitation at 266 nm. Formation of I-2 is apparent within tens of picoseconds in solutions of CH...", "citations": 26, "author_count": 6, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2067, "doi": "10.1021/jp020720n", "umap_coordinates": { "x": 392.35546875, "y": 135.89097595214844, "z": 205.63888549804688 }, "tsne_coordinates": { "x": 2.5150015354156494, "y": 7.2096381187438965, "z": 11.080564498901367 }, "pca_coordinates": { "x": -1.6789746284484863, "y": -0.5833256244659424, "z": -2.7702324390411377 }, "axis_scores": { "Quantum imaging": 0.6920222043991089, "Quantum Life Science Sensing": 0.710723340511322, "Quantum sensing Detection": 0.6888635158538818, "Quantum sensing Metrology": 0.659550130367279, "Quantum sensing navigation": 0.6602634787559509, "Quantum sensing Position": 0.6623178124427795, "Quantum sensing Timing": 0.6560207009315491, "Quantum sensing": 0.6873983144760132, "Quantum control": 0.6689918637275696 } }, { "id": 2065, "title": "Thermal conductance and noise of Majorana modes along interfaced ν=52 fractional quantum Hall states", "abstract": "Identifying the topological order of the fractional quantum Hall state at filling v = 5/2 is an important step towards realizing non-Abelian Majorana modes in condensed matter physics. However, to una...", "citations": 16, "author_count": 3, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2068, "doi": "10.1103/PhysRevB.107.245301", "umap_coordinates": { "x": 393.94110107421875, "y": 136.25711059570312, "z": 208.60903930664062 }, "tsne_coordinates": { "x": -11.421567916870117, "y": -34.919151306152344, "z": 8.626547813415527 }, "pca_coordinates": { "x": 4.670679092407227, "y": -0.6332550048828125, "z": -0.8332695960998535 }, "axis_scores": { "Quantum imaging": 0.7073634266853333, "Quantum Life Science Sensing": 0.7041552662849426, "Quantum sensing Detection": 0.6997432112693787, "Quantum sensing Metrology": 0.7038161754608154, "Quantum sensing navigation": 0.7252074480056763, "Quantum sensing Position": 0.6902897357940674, "Quantum sensing Timing": 0.6752307415008545, "Quantum sensing": 0.7164056897163391, "Quantum control": 0.691713273525238 } }, { "id": 2066, "title": "Bipartite fluctuations and topology of Dirac and Weyl systems", "abstract": "Bipartite fluctuations can provide interesting information about entanglement properties and correlations in many-body quantum systems. We address such fluctuations in relation with the topology of Di...", "citations": 11, "author_count": 4, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2069, "doi": "10.1103/PhysRevB.99.075133", "umap_coordinates": { "x": 394.4903259277344, "y": 136.7692413330078, "z": 208.59080505371094 }, "tsne_coordinates": { "x": -19.970256805419922, "y": -16.8394832611084, "z": 16.846553802490234 }, "pca_coordinates": { "x": 3.5737252235412598, "y": 0.37305307388305664, "z": -1.659006953239441 }, "axis_scores": { "Quantum imaging": 0.7247440814971924, "Quantum Life Science Sensing": 0.7291643619537354, "Quantum sensing Detection": 0.7245599031448364, "Quantum sensing Metrology": 0.720698356628418, "Quantum sensing navigation": 0.7446847558021545, "Quantum sensing Position": 0.7116917371749878, "Quantum sensing Timing": 0.7007871270179749, "Quantum sensing": 0.7380273342132568, "Quantum control": 0.7317983508110046 } }, { "id": 2067, "title": "Influence of Bi on morphology and optical properties of InAs QDs", "abstract": "We study the tsurface morphology and photoluminescence (PL) property of InAs quantum dots (QDs) on GaAs using bismuth (Bi) in the layer prior to or after the growth of QDs. Incorporating Bi in the lay...", "citations": 12, "author_count": 7, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2070, "doi": "10.1364/OME.7.004249", "umap_coordinates": { "x": 392.4219055175781, "y": 133.90599060058594, "z": 206.74671936035156 }, "tsne_coordinates": { "x": 36.55812072753906, "y": -1.5882463455200195, "z": 8.343321800231934 }, "pca_coordinates": { "x": -1.8886570930480957, "y": -2.7101778984069824, "z": -0.9610886573791504 }, "axis_scores": { "Quantum imaging": 0.7583134174346924, "Quantum Life Science Sensing": 0.7408265471458435, "Quantum sensing Detection": 0.7307634949684143, "Quantum sensing Metrology": 0.723773717880249, "Quantum sensing navigation": 0.7129480838775635, "Quantum sensing Position": 0.7113125324249268, "Quantum sensing Timing": 0.6883118748664856, "Quantum sensing": 0.7475621700286865, "Quantum control": 0.725606381893158 } }, { "id": 2068, "title": "Time-dependent and steady-state Gutzwiller approach for nonequilibrium transport in nanostructures", "abstract": "We extend the time-dependent Gutzwiller variational approach, recently introduced by Schiro and Fabrizio [Phys. Rev. Lett. 105, 076401 (2010)], to impurity problems. Furthermore, we derive a consisten...", "citations": 18, "author_count": 3, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2071, "doi": "10.1103/PhysRevB.86.115310", "umap_coordinates": { "x": 393.6587829589844, "y": 135.85704040527344, "z": 208.55517578125 }, "tsne_coordinates": { "x": -2.0250396728515625, "y": -32.96043395996094, "z": 5.049912452697754 }, "pca_coordinates": { "x": 2.6933608055114746, "y": -1.3829329013824463, "z": -1.333233118057251 }, "axis_scores": { "Quantum imaging": 0.6648403406143188, "Quantum Life Science Sensing": 0.7135798931121826, "Quantum sensing Detection": 0.6758257746696472, "Quantum sensing Metrology": 0.6742643117904663, "Quantum sensing navigation": 0.7124274969100952, "Quantum sensing Position": 0.676051914691925, "Quantum sensing Timing": 0.6732969880104065, "Quantum sensing": 0.6808273196220398, "Quantum control": 0.6653812527656555 } }, { "id": 2069, "title": "Photoluminescence from single silicon quantum dots at room temperature", "abstract": "Photoluminescence (PL) from single silicon quantum dots-nanocrystals (NCs) has been detected and spectrally resolved at room temperature. The Si-NCs. fabricated using electron-beam lithography. reacti...", "citations": 34, "author_count": 4, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2072, "doi": "10.1016/S0022-2313(02)00246-6", "umap_coordinates": { "x": 393.7432861328125, "y": 133.3409881591797, "z": 207.22122192382812 }, "tsne_coordinates": { "x": 38.02463150024414, "y": 2.8286917209625244, "z": -1.4615408182144165 }, "pca_coordinates": { "x": -2.464489221572876, "y": -3.639486789703369, "z": 2.1648638248443604 }, "axis_scores": { "Quantum imaging": 0.6999861598014832, "Quantum Life Science Sensing": 0.7412879467010498, "Quantum sensing Detection": 0.7098805904388428, "Quantum sensing Metrology": 0.7185060977935791, "Quantum sensing navigation": 0.6743673086166382, "Quantum sensing Position": 0.6995928287506104, "Quantum sensing Timing": 0.6794710159301758, "Quantum sensing": 0.7223873734474182, "Quantum control": 0.6762199997901917 } }, { "id": 2070, "title": "DESIGN OF MULTILOOP INPUT CIRCUITS FOR HIGH-TC SUPERCONDUCTING QUANTUM INTERFERENCE MAGNETOMETERS", "abstract": "A technique is developed for the design of input circuits of superconducting quantum interference devices (SQUIDs) including those based on high transition temperature (T(c)) superconductors. A multit...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 2073, "doi": "10.1063/1.351667", "umap_coordinates": { "x": 394.4282531738281, "y": 134.7292022705078, "z": 207.60400390625 }, "tsne_coordinates": { "x": 18.309490203857422, "y": -33.24845886230469, "z": 9.505678176879883 }, "pca_coordinates": { "x": 1.949228048324585, "y": -0.5493125915527344, "z": 1.1143126487731934 }, "axis_scores": { "Quantum imaging": 0.7385500073432922, "Quantum Life Science Sensing": 0.7469972968101501, "Quantum sensing Detection": 0.7389519214630127, "Quantum sensing Metrology": 0.7681171894073486, "Quantum sensing navigation": 0.7479186058044434, "Quantum sensing Position": 0.7031618356704712, "Quantum sensing Timing": 0.7216795682907104, "Quantum sensing": 0.758423388004303, "Quantum control": 0.7295295000076294 } }, { "id": 2071, "title": "Count statistics of nonparalyzable photon-counting detectors with nonzero pulse length", "abstract": "PurposePhoton-counting detectors are expected to be the next big step in the development of medical computed tomography (CT). Accurate modeling of the behavior of photon-counting detectors in both low...", "citations": 17, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2074, "doi": "10.1002/mp.13063", "umap_coordinates": { "x": 396.0022888183594, "y": 135.44886779785156, "z": 207.39144897460938 }, "tsne_coordinates": { "x": -20.544084548950195, "y": 22.548974990844727, "z": -31.44296646118164 }, "pca_coordinates": { "x": 0.23451590538024902, "y": 2.628601312637329, "z": 3.6741976737976074 }, "axis_scores": { "Quantum imaging": 0.6890025734901428, "Quantum Life Science Sensing": 0.6848361492156982, "Quantum sensing Detection": 0.7109009027481079, "Quantum sensing Metrology": 0.6911336183547974, "Quantum sensing navigation": 0.6779261231422424, "Quantum sensing Position": 0.6906096935272217, "Quantum sensing Timing": 0.7070094347000122, "Quantum sensing": 0.6941541433334351, "Quantum control": 0.6538926362991333 } }, { "id": 2072, "title": "Grain-boundary topological superconductor", "abstract": "Majorana zero modes (MZMs) are of central importance for modern condensed matter physics and quantum information due to their non-Abelian nature, which thereby offers the possibility of realizing topo...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2075, "doi": "10.1038/s42005-023-01351-5", "umap_coordinates": { "x": 393.1425476074219, "y": 135.7825469970703, "z": 207.22207641601562 }, "tsne_coordinates": { "x": 8.198315620422363, "y": -11.952596664428711, "z": 13.735113143920898 }, "pca_coordinates": { "x": 0.8293867111206055, "y": -0.4982643127441406, "z": -1.8408045768737793 }, "axis_scores": { "Quantum imaging": 0.6952536106109619, "Quantum Life Science Sensing": 0.6947987079620361, "Quantum sensing Detection": 0.6886330842971802, "Quantum sensing Metrology": 0.688302218914032, "Quantum sensing navigation": 0.7040990591049194, "Quantum sensing Position": 0.6964502334594727, "Quantum sensing Timing": 0.6981257200241089, "Quantum sensing": 0.7016706466674805, "Quantum control": 0.6952511072158813 } }, { "id": 2073, "title": "Quantum computing architectures with signaling and control mimicking biological processes", "abstract": "Earlier reports have described a quantum computing architecture, in which key elements are derived from control functions in biology. In this further continuing research, focus is on the signaling and...", "citations": 5, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2076, "doi": "10.1016/j.heliyon.2023.e18593", "umap_coordinates": { "x": 394.7737121582031, "y": 136.3954620361328, "z": 205.9198455810547 }, "tsne_coordinates": { "x": -17.821088790893555, "y": 12.426260948181152, "z": 16.632543563842773 }, "pca_coordinates": { "x": 0.5079236030578613, "y": 1.4325792789459229, "z": -0.012284278869628906 }, "axis_scores": { "Quantum imaging": 0.8074741959571838, "Quantum Life Science Sensing": 0.8135735988616943, "Quantum sensing Detection": 0.7940375208854675, "Quantum sensing Metrology": 0.7806089520454407, "Quantum sensing navigation": 0.7927489876747131, "Quantum sensing Position": 0.744745135307312, "Quantum sensing Timing": 0.7484281659126282, "Quantum sensing": 0.8070856928825378, "Quantum control": 0.8025683760643005 } }, { "id": 2074, "title": "Effect of energy bandgap and sacrificial agents of cyclopentadithiophene-based polymers for enhanced photocatalytic hydrogen evolution", "abstract": "A library of donor-acceptor system consisting of cyclopentadithiophene-based polymer photocatalysts have been designed and synthesized. Among all photocatalysts, the active PCPDTBSO achieved hydrogen ...", "citations": 74, "author_count": 14, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2077, "doi": "10.1016/j.apcatb.2021.120577", "umap_coordinates": { "x": 392.708984375, "y": 134.3766632080078, "z": 204.82125854492188 }, "tsne_coordinates": { "x": 19.1389217376709, "y": 11.049040794372559, "z": -6.860885143280029 }, "pca_coordinates": { "x": -3.8626608848571777, "y": -1.513993740081787, "z": -1.239877700805664 }, "axis_scores": { "Quantum imaging": 0.6895449161529541, "Quantum Life Science Sensing": 0.7075234651565552, "Quantum sensing Detection": 0.6730677485466003, "Quantum sensing Metrology": 0.6572173833847046, "Quantum sensing navigation": 0.6599857807159424, "Quantum sensing Position": 0.663805365562439, "Quantum sensing Timing": 0.6677153706550598, "Quantum sensing": 0.6876616477966309, "Quantum control": 0.6869468688964844 } }, { "id": 2075, "title": "Milestones Toward Majorana-Based Quantum Computing", "abstract": "We introduce a scheme for preparation, manipulation, and read out of Majorana zero modes in semiconducting wires with mesoscopic superconducting islands. Our approach synthesizes recent advances in ma...", "citations": 651, "author_count": 12, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2078, "doi": "10.1103/PhysRevX.6.031016", "umap_coordinates": { "x": 395.0692138671875, "y": 137.3789520263672, "z": 207.94839477539062 }, "tsne_coordinates": { "x": -30.4904727935791, "y": -26.071462631225586, "z": 9.075960159301758 }, "pca_coordinates": { "x": 3.2647290229797363, "y": 0.793370246887207, "z": -0.9434582591056824 }, "axis_scores": { "Quantum imaging": 0.7281785607337952, "Quantum Life Science Sensing": 0.7316035628318787, "Quantum sensing Detection": 0.7249287962913513, "Quantum sensing Metrology": 0.7232393622398376, "Quantum sensing navigation": 0.7344193458557129, "Quantum sensing Position": 0.7294374704360962, "Quantum sensing Timing": 0.6984006762504578, "Quantum sensing": 0.7372367978096008, "Quantum control": 0.7180261611938477 } }, { "id": 2076, "title": "Topological study of reactive potential-energy surfaces from model diabatic states coupled to surrounding media", "abstract": "Reaction paths are studied with the help of diabatic potential-energy surfaces coupled in a generic external field. We show that all putative geometrical and topological features of two-dimensional (2...", "citations": 6, "author_count": 4, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2079, "doi": "10.1142/S0219633607003350", "umap_coordinates": { "x": 393.80267333984375, "y": 137.47027587890625, "z": 206.67796325683594 }, "tsne_coordinates": { "x": -16.615495681762695, "y": 16.80673599243164, "z": 26.63467025756836 }, "pca_coordinates": { "x": 0.8927614688873291, "y": 1.684002161026001, "z": -2.816190719604492 }, "axis_scores": { "Quantum imaging": 0.6677557826042175, "Quantum Life Science Sensing": 0.672745943069458, "Quantum sensing Detection": 0.6469122767448425, "Quantum sensing Metrology": 0.6482400298118591, "Quantum sensing navigation": 0.6728883385658264, "Quantum sensing Position": 0.6606807708740234, "Quantum sensing Timing": 0.6403524875640869, "Quantum sensing": 0.6580222845077515, "Quantum control": 0.6515918970108032 } }, { "id": 2077, "title": "A procedure to deposit fiducial markers on vitreous cryo-sections for cellular tomography", "abstract": "We describe a novel approach for the accurate alignment of images in electron tomography of vitreous cryo-sections. Quantum dots, suspended in organic solvents at cryo- temperatures, are applied direc...", "citations": 42, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2080, "doi": "10.1016/j.jsb.2006.05.010", "umap_coordinates": { "x": 394.0310974121094, "y": 134.67465209960938, "z": 204.34835815429688 }, "tsne_coordinates": { "x": 13.52657413482666, "y": 18.495647430419922, "z": -10.202756881713867 }, "pca_coordinates": { "x": -4.228409767150879, "y": 2.4429678916931152, "z": 0.015971064567565918 }, "axis_scores": { "Quantum imaging": 0.6863008141517639, "Quantum Life Science Sensing": 0.6942888498306274, "Quantum sensing Detection": 0.672241747379303, "Quantum sensing Metrology": 0.6758959889411926, "Quantum sensing navigation": 0.6811923980712891, "Quantum sensing Position": 0.6921694278717041, "Quantum sensing Timing": 0.6718916296958923, "Quantum sensing": 0.6773476004600525, "Quantum control": 0.6527056694030762 } }, { "id": 2078, "title": "Mechanically assisted spin-dependent transport of electrons", "abstract": "Spin-dependent tunneling of electrons through magnetic nanostructures containing a mechanically movable quantum dot is considered. It is shown that the mechanically assisted current can be made strong...", "citations": 10, "author_count": 6, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2081, "doi": "10.1103/PhysRevB.71.035327", "umap_coordinates": { "x": 393.8541564941406, "y": 136.00729370117188, "z": 209.01051330566406 }, "tsne_coordinates": { "x": 8.942354202270508, "y": -35.45358657836914, "z": 6.795568466186523 }, "pca_coordinates": { "x": 3.8715529441833496, "y": -1.261641502380371, "z": -0.2792695164680481 }, "axis_scores": { "Quantum imaging": 0.717930257320404, "Quantum Life Science Sensing": 0.70521080493927, "Quantum sensing Detection": 0.7083104848861694, "Quantum sensing Metrology": 0.704656720161438, "Quantum sensing navigation": 0.7399468421936035, "Quantum sensing Position": 0.7036318778991699, "Quantum sensing Timing": 0.6561638712882996, "Quantum sensing": 0.7300522923469543, "Quantum control": 0.7121343016624451 } }, { "id": 2079, "title": "QUANTUM BOUND-STATES IN A BALLISTIC QUANTUM CHANNEL WITH A MULTIPLE DOUBLE-BEND DISCONTINUITY", "abstract": "We have investigated in detail the quasibound states of a quantum channel with a multiple double-bend discontinuity, We assume that our quantum system is of finite length and connected to two 2DEG res...", "citations": 7, "author_count": 2, "categories": [ "Engineering" ], "year": 1995, "topic": [ "all" ], "embedding_index": 2082, "doi": "10.1088/0268-1242/10/8/014", "umap_coordinates": { "x": 394.52130126953125, "y": 135.52894592285156, "z": 207.80276489257812 }, "tsne_coordinates": { "x": -7.706449031829834, "y": -39.665870666503906, "z": -14.893884658813477 }, "pca_coordinates": { "x": 2.5914463996887207, "y": 1.3274290561676025, "z": 1.5985651016235352 }, "axis_scores": { "Quantum imaging": 0.7156290411949158, "Quantum Life Science Sensing": 0.6759730577468872, "Quantum sensing Detection": 0.7134258151054382, "Quantum sensing Metrology": 0.6969380974769592, "Quantum sensing navigation": 0.7122185826301575, "Quantum sensing Position": 0.6997861266136169, "Quantum sensing Timing": 0.7030242085456848, "Quantum sensing": 0.7155213952064514, "Quantum control": 0.679833710193634 } }, { "id": 2080, "title": "QuTiP 5: The Quantum Toolbox in Python", "abstract": "QuTiP, the Quantum Toolbox in Python (Johansson et al., 2012, Johansson et al., 2013), has been at the forefront of open-source quantum software for the past 13 years. It is used as a research, teachi...", "citations": 8, "author_count": 19, "categories": [ "Physics" ], "year": 2026, "topic": [ "all" ], "embedding_index": 2083, "doi": "10.1016/j.physrep.2025.10.001", "umap_coordinates": { "x": 394.8329772949219, "y": 136.46018981933594, "z": 206.07119750976562 }, "tsne_coordinates": { "x": -12.42279052734375, "y": 9.916037559509277, "z": 15.950052261352539 }, "pca_coordinates": { "x": 0.5867986679077148, "y": 1.9102041721343994, "z": 0.24308240413665771 }, "axis_scores": { "Quantum imaging": 0.7750502228736877, "Quantum Life Science Sensing": 0.7580626606941223, "Quantum sensing Detection": 0.7630683183670044, "Quantum sensing Metrology": 0.7580727338790894, "Quantum sensing navigation": 0.7635827660560608, "Quantum sensing Position": 0.7502048015594482, "Quantum sensing Timing": 0.7547569870948792, "Quantum sensing": 0.7777686715126038, "Quantum control": 0.7448791265487671 } }, { "id": 2081, "title": "Quantum information processing and communication - Strategic report on current status, visions and goals for research in Europe", "abstract": "We present an excerpt of the document Quantum Information Processing and Communication: Strategic report on current status, visions and goals for research in Europe, which has been recently published ...", "citations": 338, "author_count": 40, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2084, "doi": "10.1140/epjd/e2005-00251-1", "umap_coordinates": { "x": 395.6006164550781, "y": 135.55288696289062, "z": 206.36985778808594 }, "tsne_coordinates": { "x": -28.953596115112305, "y": 10.100505828857422, "z": 2.840590476989746 }, "pca_coordinates": { "x": 0.8765439987182617, "y": 1.6722253561019897, "z": 1.097731590270996 }, "axis_scores": { "Quantum imaging": 0.7529162168502808, "Quantum Life Science Sensing": 0.7507861852645874, "Quantum sensing Detection": 0.7419936656951904, "Quantum sensing Metrology": 0.7347326278686523, "Quantum sensing navigation": 0.7571457624435425, "Quantum sensing Position": 0.7501646280288696, "Quantum sensing Timing": 0.7238509654998779, "Quantum sensing": 0.7448509335517883, "Quantum control": 0.7464210987091064 } }, { "id": 2082, "title": "Diffusive dynamics during the high-to-low density transition in amorphous ice", "abstract": "Water exists in high- and low-density amorphous ice forms (HDA and LDA), which could correspond to the glassy states of high(HDL) and low-density liquid (LDL) in the metastable part of the phase diagr...", "citations": 173, "author_count": 20, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2085, "doi": "10.1073/pnas.1705303114", "umap_coordinates": { "x": 392.8702697753906, "y": 136.88833618164062, "z": 207.10450744628906 }, "tsne_coordinates": { "x": -24.55323028564453, "y": 36.925811767578125, "z": 2.1410133838653564 }, "pca_coordinates": { "x": 2.3761301040649414, "y": 1.0894243717193604, "z": -3.4565672874450684 }, "axis_scores": { "Quantum imaging": 0.6603891253471375, "Quantum Life Science Sensing": 0.6766963005065918, "Quantum sensing Detection": 0.637198269367218, "Quantum sensing Metrology": 0.6095905303955078, "Quantum sensing navigation": 0.6518221497535706, "Quantum sensing Position": 0.6204072833061218, "Quantum sensing Timing": 0.6311572790145874, "Quantum sensing": 0.6450201869010925, "Quantum control": 0.637809693813324 } }, { "id": 2083, "title": "Ultrastrong Coupling of a Single Molecule to a Plasmonic Nanocavity: A First-Principles Study", "abstract": "Ultrastrong coupling (USC) is a distinct regime of light-matter interaction in which the coupling strength is comparable to the resonance energy of the cavity or emitter. In the USC regime, common app...", "citations": 41, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2086, "doi": "10.1021/acsphotonics.2c00066", "umap_coordinates": { "x": 393.64923095703125, "y": 133.78163146972656, "z": 207.00025939941406 }, "tsne_coordinates": { "x": 7.361514091491699, "y": -16.555397033691406, "z": -11.496063232421875 }, "pca_coordinates": { "x": -0.28190433979034424, "y": -3.8849024772644043, "z": 0.4215180277824402 }, "axis_scores": { "Quantum imaging": 0.7144075036048889, "Quantum Life Science Sensing": 0.7340420484542847, "Quantum sensing Detection": 0.7370116710662842, "Quantum sensing Metrology": 0.7076866626739502, "Quantum sensing navigation": 0.7038706541061401, "Quantum sensing Position": 0.6855989098548889, "Quantum sensing Timing": 0.6660835146903992, "Quantum sensing": 0.7397698163986206, "Quantum control": 0.6861823201179504 } }, { "id": 2084, "title": "Mapping and spectroscopy of telecom quantum emitters with confocal laser scanning microscopy", "abstract": "Efficiently coupling single-photon emitters in the telecommunication C-band that are not deterministically positioned to photonic structures requires both spatial and spectral mapping. This study intr...", "citations": 2, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2087, "doi": "10.1088/1361-6528/ad5dbd", "umap_coordinates": { "x": 394.54632568359375, "y": 134.4977264404297, "z": 206.09881591796875 }, "tsne_coordinates": { "x": -21.64146614074707, "y": -3.3158481121063232, "z": -11.422350883483887 }, "pca_coordinates": { "x": -1.0907059907913208, "y": 0.5400104522705078, "z": 2.790524482727051 }, "axis_scores": { "Quantum imaging": 0.7493054866790771, "Quantum Life Science Sensing": 0.7299935817718506, "Quantum sensing Detection": 0.7361265420913696, "Quantum sensing Metrology": 0.7500109672546387, "Quantum sensing navigation": 0.7309193015098572, "Quantum sensing Position": 0.7092575430870056, "Quantum sensing Timing": 0.6959142088890076, "Quantum sensing": 0.7459449172019958, "Quantum control": 0.7007402181625366 } }, { "id": 2085, "title": "Josephson current via spin and orbital states of a tunable double quantum dot", "abstract": "Supercurrent transport is experimentally studied in a Josephson junction hosting a double quantum dot (DQD) with tunable symmetries. The QDs are parallel coupled to two superconducting contacts and ca...", "citations": 9, "author_count": 7, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2088, "doi": "10.1103/PhysRevB.106.L180507", "umap_coordinates": { "x": 393.5279846191406, "y": 135.28892517089844, "z": 208.21620178222656 }, "tsne_coordinates": { "x": -3.446228265762329, "y": -24.48445701599121, "z": 0.8160121440887451 }, "pca_coordinates": { "x": 2.8785057067871094, "y": -3.273953914642334, "z": 0.19684642553329468 }, "axis_scores": { "Quantum imaging": 0.7384802103042603, "Quantum Life Science Sensing": 0.7381889820098877, "Quantum sensing Detection": 0.7245774865150452, "Quantum sensing Metrology": 0.7225090265274048, "Quantum sensing navigation": 0.7413145303726196, "Quantum sensing Position": 0.7024345397949219, "Quantum sensing Timing": 0.700650155544281, "Quantum sensing": 0.744691014289856, "Quantum control": 0.7327253222465515 } }, { "id": 2086, "title": "Photocatalytic reduction of CO2 with H2O over modified TiO2 nanofibers: Understanding the reduction pathway", "abstract": "Nanosized metal (Pt or Pd)-decorated TiO2 nanofibers (NFs) were synthesized by a wet impregnation method. CdSe quantum dots (QDs) were then anchored onto the metal-decorated TiO2 NFs. The photocatalyt...", "citations": 67, "author_count": 11, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2089, "doi": "10.1007/s12274-016-1087-9", "umap_coordinates": { "x": 392.6487121582031, "y": 134.365478515625, "z": 204.39341735839844 }, "tsne_coordinates": { "x": 22.640005111694336, "y": 10.256729125976562, "z": -0.920741617679596 }, "pca_coordinates": { "x": -3.4737181663513184, "y": 0.6091146469116211, "z": -1.6758992671966553 }, "axis_scores": { "Quantum imaging": 0.6850576996803284, "Quantum Life Science Sensing": 0.7170657515525818, "Quantum sensing Detection": 0.6793818473815918, "Quantum sensing Metrology": 0.6681607365608215, "Quantum sensing navigation": 0.6819168329238892, "Quantum sensing Position": 0.6324939131736755, "Quantum sensing Timing": 0.6376879811286926, "Quantum sensing": 0.694786787033081, "Quantum control": 0.6993064880371094 } }, { "id": 2087, "title": "Two-mode laser with excess noise - art. no. 023814", "abstract": "In this paper we investigate how excess noise behaves in a two-mode laser below and above threshold. In both cases the mode correlations of the stationary state modify the noise essentially. Our two-m...", "citations": 4, "author_count": 3, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2090, "doi": "10.1103/PhysRevA.62.023814", "umap_coordinates": { "x": 394.9221496582031, "y": 135.5579376220703, "z": 208.0312042236328 }, "tsne_coordinates": { "x": -15.46810531616211, "y": -37.49422836303711, "z": 2.560324192047119 }, "pca_coordinates": { "x": 2.2013063430786133, "y": 0.01927781105041504, "z": 1.9746692180633545 }, "axis_scores": { "Quantum imaging": 0.67049640417099, "Quantum Life Science Sensing": 0.6677345633506775, "Quantum sensing Detection": 0.6928592920303345, "Quantum sensing Metrology": 0.6824339032173157, "Quantum sensing navigation": 0.6742870211601257, "Quantum sensing Position": 0.6627334356307983, "Quantum sensing Timing": 0.6617503762245178, "Quantum sensing": 0.6824860572814941, "Quantum control": 0.6536462903022766 } }, { "id": 2088, "title": "Temperature measurements in deployed optical fiber networks using single photon optical time domain reflectometry", "abstract": "We demonstrate an approach to measure average temperature changes in deployed optical fiber networks using Optical Time Domain Reflectometry, OTDR, at the single photon level. In this article we deriv...", "citations": 3, "author_count": 4, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2091, "doi": "10.1364/OE.483404", "umap_coordinates": { "x": 394.8646240234375, "y": 133.17369079589844, "z": 207.1431427001953 }, "tsne_coordinates": { "x": -9.112646102905273, "y": -0.8466680645942688, "z": -32.57768630981445 }, "pca_coordinates": { "x": -0.9418947100639343, "y": -0.7000269889831543, "z": 3.8499274253845215 }, "axis_scores": { "Quantum imaging": 0.7155840992927551, "Quantum Life Science Sensing": 0.7373928427696228, "Quantum sensing Detection": 0.7219442129135132, "Quantum sensing Metrology": 0.7310168147087097, "Quantum sensing navigation": 0.7093520164489746, "Quantum sensing Position": 0.7132917046546936, "Quantum sensing Timing": 0.7365459203720093, "Quantum sensing": 0.7334954738616943, "Quantum control": 0.6656613349914551 } }, { "id": 2089, "title": "Comparison of MR perfusion imaging with single photon emission computed tomography: a multicenter multivendor dose finding study", "abstract": "", "citations": 4, "author_count": 9, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2092, "doi": null, "umap_coordinates": { "x": 391.3007507324219, "y": 139.19886779785156, "z": 209.29544067382812 }, "tsne_coordinates": { "x": -0.8373978137969971, "y": 41.233394622802734, "z": -7.181033134460449 }, "pca_coordinates": { "x": -3.40006947517395, "y": 5.160312175750732, "z": 0.6947945952415466 }, "axis_scores": { "Quantum imaging": 0.734247088432312, "Quantum Life Science Sensing": 0.7008861303329468, "Quantum sensing Detection": 0.6882803440093994, "Quantum sensing Metrology": 0.6928151845932007, "Quantum sensing navigation": 0.6965146660804749, "Quantum sensing Position": 0.6844362020492554, "Quantum sensing Timing": 0.6794505715370178, "Quantum sensing": 0.6911129951477051, "Quantum control": 0.6820334196090698 } }, { "id": 2090, "title": "Role of refractive index in highly efficient laminated luminescent solar concentrators", "abstract": "As a large-area solar radiation collector, luminescent solar concentrators (LSCs) can be used as power generation units in semitransparent solar windows, modernized agricultural greenhouses and buildi...", "citations": 39, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2093, "doi": "10.1016/j.nanoen.2020.104470", "umap_coordinates": { "x": 393.2167663574219, "y": 133.3134765625, "z": 205.43576049804688 }, "tsne_coordinates": { "x": 27.933202743530273, "y": 8.495326042175293, "z": -14.561454772949219 }, "pca_coordinates": { "x": -4.288015365600586, "y": -2.3449478149414062, "z": 0.20018643140792847 }, "axis_scores": { "Quantum imaging": 0.7080599665641785, "Quantum Life Science Sensing": 0.7111450433731079, "Quantum sensing Detection": 0.6853675246238708, "Quantum sensing Metrology": 0.6903287768363953, "Quantum sensing navigation": 0.6866300106048584, "Quantum sensing Position": 0.6930124759674072, "Quantum sensing Timing": 0.6416006088256836, "Quantum sensing": 0.6992738842964172, "Quantum control": 0.6660879850387573 } }, { "id": 2091, "title": "Chlorophyll limitation in plants remodels and balances the photosynthetic apparatus by changing the accumulation of photosystems I and II through two different approaches", "abstract": "Arabidopsis plants with a reduced expression of CHL27 (chl27), an enzyme (EC 1.14.13.81) required for the synthesis of Pchlide, are chlorotic and have a Chl a/b ratio two times higher than wild-type (...", "citations": 16, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2094, "doi": "10.1111/j.1399-3054.2008.01181.x", "umap_coordinates": { "x": 394.1770324707031, "y": 136.22882080078125, "z": 203.6916046142578 }, "tsne_coordinates": { "x": 17.171710968017578, "y": 35.76652908325195, "z": 15.075886726379395 }, "pca_coordinates": { "x": -2.0875651836395264, "y": 1.7986268997192383, "z": -1.6028852462768555 }, "axis_scores": { "Quantum imaging": 0.6866599917411804, "Quantum Life Science Sensing": 0.6989583373069763, "Quantum sensing Detection": 0.6744486689567566, "Quantum sensing Metrology": 0.6742595434188843, "Quantum sensing navigation": 0.6715351939201355, "Quantum sensing Position": 0.6596940159797668, "Quantum sensing Timing": 0.6703855991363525, "Quantum sensing": 0.6901187300682068, "Quantum control": 0.6873826384544373 } }, { "id": 2092, "title": "Minimal excitation single-particle emitters: Comparison of charge-transport and energy-transport properties", "abstract": "We investigate different types of time-dependently driven single-particle sources whose common feature is that they produce pulses of integer charge and minimally excite the Fermi sea. These sources a...", "citations": 19, "author_count": 6, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2095, "doi": "10.1103/PhysRevB.100.035405", "umap_coordinates": { "x": 394.6485900878906, "y": 133.7359619140625, "z": 207.81378173828125 }, "tsne_coordinates": { "x": 5.900223731994629, "y": -22.384824752807617, "z": -12.912307739257812 }, "pca_coordinates": { "x": 0.5033448934555054, "y": -1.1822502613067627, "z": 0.9422723650932312 }, "axis_scores": { "Quantum imaging": 0.7001684904098511, "Quantum Life Science Sensing": 0.7093387842178345, "Quantum sensing Detection": 0.7028984427452087, "Quantum sensing Metrology": 0.7034642696380615, "Quantum sensing navigation": 0.692594587802887, "Quantum sensing Position": 0.681157112121582, "Quantum sensing Timing": 0.6605799198150635, "Quantum sensing": 0.7050362229347229, "Quantum control": 0.6636388897895813 } }, { "id": 2093, "title": "MEASUREMENTS OF HIGH-ENERGY PHOTON SPECTRA OF SYNCHROTRON RADIATION FROM A STORAGE RING", "abstract": "A new method for measuring the photon fluences and polarization degree, in different points, from high energy synchrotron radiation has been developed. Radiation from a beam of photons was scattered u...", "citations": 2, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 1992, "topic": [ "all" ], "embedding_index": 2096, "doi": "10.1016/0168-9002(92)90256-4", "umap_coordinates": { "x": 395.4036560058594, "y": 134.2367706298828, "z": 206.23123168945312 }, "tsne_coordinates": { "x": -14.766766548156738, "y": 13.68172550201416, "z": -2.1183319091796875 }, "pca_coordinates": { "x": -0.6028000116348267, "y": 0.3480548858642578, "z": 2.2116739749908447 }, "axis_scores": { "Quantum imaging": 0.7199942469596863, "Quantum Life Science Sensing": 0.7389088869094849, "Quantum sensing Detection": 0.7173627018928528, "Quantum sensing Metrology": 0.7114298343658447, "Quantum sensing navigation": 0.6979109644889832, "Quantum sensing Position": 0.7089126110076904, "Quantum sensing Timing": 0.6898003816604614, "Quantum sensing": 0.726685643196106, "Quantum control": 0.648332417011261 } }, { "id": 2094, "title": "Nuclear Forces for Precision Nuclear Physics: A Collection of Perspectives", "abstract": "This is a collection of perspective pieces contributed by the participants of the Institute for Nuclear Theory's Program on Nuclear Physics for Precision Nuclear Physics which was held virtually from ...", "citations": 30, "author_count": 46, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2097, "doi": "10.1007/s00601-022-01749-x", "umap_coordinates": { "x": 394.3719482421875, "y": 135.8561248779297, "z": 205.5369873046875 }, "tsne_coordinates": { "x": -30.59868621826172, "y": 5.332846164703369, "z": 10.737116813659668 }, "pca_coordinates": { "x": -1.4438543319702148, "y": 1.9064685106277466, "z": -0.6396231651306152 }, "axis_scores": { "Quantum imaging": 0.6690305471420288, "Quantum Life Science Sensing": 0.6855802536010742, "Quantum sensing Detection": 0.6533702611923218, "Quantum sensing Metrology": 0.6540452241897583, "Quantum sensing navigation": 0.6874333620071411, "Quantum sensing Position": 0.6725245118141174, "Quantum sensing Timing": 0.6705638766288757, "Quantum sensing": 0.6679922342300415, "Quantum control": 0.6856886148452759 } }, { "id": 2095, "title": "Spin relaxation dynamics of quasiclassical electrons in ballistic quantum dots with strong spin-orbit coupling - art. no. 245309", "abstract": "We performed path integral simulations of spin evolution controlled by the Rashba spin-orbit interaction in the semiclassical regime for chaotic and regular quantum dots. The spin polarization dynamic...", "citations": 30, "author_count": 4, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2098, "doi": "10.1103/PhysRevB.70.245309", "umap_coordinates": { "x": 393.9609069824219, "y": 135.2871856689453, "z": 209.45591735839844 }, "tsne_coordinates": { "x": 5.364714622497559, "y": -35.86511993408203, "z": 1.2896097898483276 }, "pca_coordinates": { "x": 4.620974063873291, "y": -2.5799455642700195, "z": -0.773737907409668 }, "axis_scores": { "Quantum imaging": 0.7088640928268433, "Quantum Life Science Sensing": 0.7114425897598267, "Quantum sensing Detection": 0.713089108467102, "Quantum sensing Metrology": 0.6969782114028931, "Quantum sensing navigation": 0.7110459804534912, "Quantum sensing Position": 0.6779765486717224, "Quantum sensing Timing": 0.6773951053619385, "Quantum sensing": 0.7218446731567383, "Quantum control": 0.7027460932731628 } }, { "id": 2096, "title": "SIMULTANEOUS SPATIALLY RESOLVED NO AND NO2 MEASUREMENTS USING ONE-PHOTON AND 2-PHOTON LASER-INDUCED FLUORESCENCE", "abstract": "", "citations": 22, "author_count": 4, "categories": [ "Optics" ], "year": 1985, "topic": [ "all" ], "embedding_index": 2099, "doi": "10.1364/OL.10.000529", "umap_coordinates": { "x": 394.4435119628906, "y": 134.0646209716797, "z": 205.959716796875 }, "tsne_coordinates": { "x": 8.012543678283691, "y": 14.270407676696777, "z": -32.41317367553711 }, "pca_coordinates": { "x": -2.631617546081543, "y": 0.41400790214538574, "z": 2.4822821617126465 }, "axis_scores": { "Quantum imaging": 0.7349423766136169, "Quantum Life Science Sensing": 0.7293410897254944, "Quantum sensing Detection": 0.7303147315979004, "Quantum sensing Metrology": 0.7266592383384705, "Quantum sensing navigation": 0.7221721410751343, "Quantum sensing Position": 0.7017381191253662, "Quantum sensing Timing": 0.7033548951148987, "Quantum sensing": 0.7425571084022522, "Quantum control": 0.682247519493103 } }, { "id": 2097, "title": "Energy transfer cassettes based on BODIPY® dyes", "abstract": "The donor-acceptor dye cassettes 1-4 were designed to capture energy at a single wavelength and to convert it to well-resolved, intense fluorescence emissions; in practice, Stokes' shifts of 40-148 nm...", "citations": 147, "author_count": 7, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2100, "doi": "10.1039/b006769p", "umap_coordinates": { "x": 392.57952880859375, "y": 135.49526977539062, "z": 204.9549102783203 }, "tsne_coordinates": { "x": 4.991378307342529, "y": 8.713357925415039, "z": -8.854934692382812 }, "pca_coordinates": { "x": -2.4906857013702393, "y": -0.7274537086486816, "z": -1.6689075231552124 }, "axis_scores": { "Quantum imaging": 0.7007231712341309, "Quantum Life Science Sensing": 0.7290918827056885, "Quantum sensing Detection": 0.687587320804596, "Quantum sensing Metrology": 0.6765963435173035, "Quantum sensing navigation": 0.6660668849945068, "Quantum sensing Position": 0.6805386543273926, "Quantum sensing Timing": 0.6536930203437805, "Quantum sensing": 0.7071799039840698, "Quantum control": 0.6887352466583252 } }, { "id": 2098, "title": "Attractive and driven interactions in quantum dots: Mechanisms for geometric pumping", "abstract": "We analyze time-dependent transport through a quantum dot with electron-electron interaction that is statically tunable to both repulsive and attractive regimes, or even dynamically driven. Motivated ...", "citations": 15, "author_count": 5, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2101, "doi": "10.1103/PhysRevB.98.085307", "umap_coordinates": { "x": 394.6571350097656, "y": 136.3206024169922, "z": 208.1597442626953 }, "tsne_coordinates": { "x": -9.013405799865723, "y": -30.076051712036133, "z": 1.6544575691223145 }, "pca_coordinates": { "x": 3.7864832878112793, "y": -2.1312289237976074, "z": 0.6520100235939026 }, "axis_scores": { "Quantum imaging": 0.7361853718757629, "Quantum Life Science Sensing": 0.6977906227111816, "Quantum sensing Detection": 0.726565957069397, "Quantum sensing Metrology": 0.7110134363174438, "Quantum sensing navigation": 0.722722053527832, "Quantum sensing Position": 0.6907873153686523, "Quantum sensing Timing": 0.703629732131958, "Quantum sensing": 0.7266688942909241, "Quantum control": 0.7185060977935791 } }, { "id": 2099, "title": "Kochen-Specker contextuality", "abstract": "A central result in the foundations of quantum mechanics is the Kochen-Specker theorem. In short, it states that quantum mechanics is in conflict with classical models in which the result of a measure...", "citations": 136, "author_count": 6, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2102, "doi": "10.1103/RevModPhys.94.045007", "umap_coordinates": { "x": 395.5003662109375, "y": 137.24557495117188, "z": 206.87673950195312 }, "tsne_coordinates": { "x": -19.065383911132812, "y": 2.032362937927246, "z": 8.319063186645508 }, "pca_coordinates": { "x": 1.069223165512085, "y": 4.827187538146973, "z": -1.4339792728424072 }, "axis_scores": { "Quantum imaging": 0.711877703666687, "Quantum Life Science Sensing": 0.7313809394836426, "Quantum sensing Detection": 0.706579327583313, "Quantum sensing Metrology": 0.7046348452568054, "Quantum sensing navigation": 0.7143696546554565, "Quantum sensing Position": 0.6961315274238586, "Quantum sensing Timing": 0.7257325649261475, "Quantum sensing": 0.7339261174201965, "Quantum control": 0.7269353866577148 } }, { "id": 2100, "title": "A nonadiabatic semi-classical method for dynamics of atoms in optical lattices", "abstract": "We develop a semi-classical method to simulate the motion of atoms in a dissipative optical lattice. Our method treats the internal states of the atom quantum mechanically, including all nonadiabatic ...", "citations": 9, "author_count": 7, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2103, "doi": "10.1140/epjd/e2006-00082-6", "umap_coordinates": { "x": 393.9818420410156, "y": 136.8743133544922, "z": 207.10873413085938 }, "tsne_coordinates": { "x": -10.865318298339844, "y": -1.6910167932510376, "z": 16.82567596435547 }, "pca_coordinates": { "x": 2.4030721187591553, "y": 0.6721148490905762, "z": -0.4769549071788788 }, "axis_scores": { "Quantum imaging": 0.7498601078987122, "Quantum Life Science Sensing": 0.7319718599319458, "Quantum sensing Detection": 0.7299498319625854, "Quantum sensing Metrology": 0.7120407819747925, "Quantum sensing navigation": 0.7375981211662292, "Quantum sensing Position": 0.7076140642166138, "Quantum sensing Timing": 0.7177367210388184, "Quantum sensing": 0.7341852784156799, "Quantum control": 0.7398252487182617 } }, { "id": 2101, "title": "Long coherence lifetime and electromagnetically induced transparency in a highly-spin-concentrated solid", "abstract": "We have studied a rare-earth-doped crystal, Pr3+:La-2(WO4)(3), which exhibits a high magnetic-moment density. Although the latter favors rare-earth dephasing, a nuclear-spin coherence lifetime of 250 ...", "citations": 25, "author_count": 12, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2104, "doi": "10.1103/PhysRevA.79.033809", "umap_coordinates": { "x": 393.6940612792969, "y": 135.76809692382812, "z": 207.61427307128906 }, "tsne_coordinates": { "x": 1.0872176885604858, "y": -47.95988845825195, "z": 9.645952224731445 }, "pca_coordinates": { "x": 1.4656362533569336, "y": -0.9166197776794434, "z": -0.6435489058494568 }, "axis_scores": { "Quantum imaging": 0.7182627320289612, "Quantum Life Science Sensing": 0.7374457716941833, "Quantum sensing Detection": 0.6993402242660522, "Quantum sensing Metrology": 0.684883713722229, "Quantum sensing navigation": 0.6739675402641296, "Quantum sensing Position": 0.6642643809318542, "Quantum sensing Timing": 0.6624054312705994, "Quantum sensing": 0.7082909941673279, "Quantum control": 0.6684634685516357 } }, { "id": 2102, "title": "Superlattice deformation in quantum dot films on flexible substrates via uniaxial strain", "abstract": "The superlattice in a quantum dot (QD) film on a flexible substrate deformed by uniaxial strain shows a phase transition in unit cell symmetry. With increasing uniaxial strain, the QD superlattice uni...", "citations": 4, "author_count": 16, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2105, "doi": "10.1039/d2nh00548d", "umap_coordinates": { "x": 392.08026123046875, "y": 134.3496856689453, "z": 207.25631713867188 }, "tsne_coordinates": { "x": 19.587329864501953, "y": -13.135738372802734, "z": -2.606597423553467 }, "pca_coordinates": { "x": 0.13047003746032715, "y": -4.103765964508057, "z": -0.6598911881446838 }, "axis_scores": { "Quantum imaging": 0.7002172470092773, "Quantum Life Science Sensing": 0.7062681913375854, "Quantum sensing Detection": 0.6984543800354004, "Quantum sensing Metrology": 0.6965932846069336, "Quantum sensing navigation": 0.6760208606719971, "Quantum sensing Position": 0.6932002902030945, "Quantum sensing Timing": 0.6644970774650574, "Quantum sensing": 0.7143374681472778, "Quantum control": 0.6745219230651855 } }, { "id": 2103, "title": "Photoluminescence spectroscopy of single silicon quantum dots", "abstract": "Photoluminescence (PL) from single silicon quantum dots have been recorded and spectrally resolved at room temperature. The Si nanocrystals (NCs) were fabricated using electron-beam lithography and re...", "citations": 180, "author_count": 4, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2106, "doi": "10.1063/1.1448400", "umap_coordinates": { "x": 393.68524169921875, "y": 133.50054931640625, "z": 208.0566864013672 }, "tsne_coordinates": { "x": 26.523799896240234, "y": -20.34790802001953, "z": -10.642457008361816 }, "pca_coordinates": { "x": 0.3699676990509033, "y": -4.336788177490234, "z": 3.1561789512634277 }, "axis_scores": { "Quantum imaging": 0.7632309794425964, "Quantum Life Science Sensing": 0.7897154688835144, "Quantum sensing Detection": 0.7794091105461121, "Quantum sensing Metrology": 0.7735217809677124, "Quantum sensing navigation": 0.7330346703529358, "Quantum sensing Position": 0.7367461919784546, "Quantum sensing Timing": 0.7076029181480408, "Quantum sensing": 0.7868305444717407, "Quantum control": 0.7192487120628357 } }, { "id": 2104, "title": "Electronic structure of (In, Mn) As quantum dots buried in GaAs investigated by soft-x-ray ARPES", "abstract": "Electronic structure of a molecular beam epitaxy-grown system of (In, Mn) As quantum dots (QDs) buried in GaAs is explored with soft-x-ray angle-resolved photoelectron spectroscopy (ARPES) using photo...", "citations": 6, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2107, "doi": "10.1088/0957-4484/27/42/425706", "umap_coordinates": { "x": 392.6576843261719, "y": 134.54087829589844, "z": 208.3437957763672 }, "tsne_coordinates": { "x": 20.13820457458496, "y": -16.92963409423828, "z": 7.464512825012207 }, "pca_coordinates": { "x": 0.862037181854248, "y": -1.6619653701782227, "z": 0.5213131308555603 }, "axis_scores": { "Quantum imaging": 0.7088910937309265, "Quantum Life Science Sensing": 0.7246283292770386, "Quantum sensing Detection": 0.6954213976860046, "Quantum sensing Metrology": 0.6984622478485107, "Quantum sensing navigation": 0.7188920378684998, "Quantum sensing Position": 0.7080376744270325, "Quantum sensing Timing": 0.6644583940505981, "Quantum sensing": 0.7141201496124268, "Quantum control": 0.6509172320365906 } }, { "id": 2105, "title": "Tuning the Two-Electron Hybridization and Spin States in Parallel-Coupled InAs Quantum Dots", "abstract": "We study spin transport in the one- and two-electron regimes of parallel-coupled double quantum dots (DQDs). The DQDs are formed in InAs nanowires by a combination of crystal-phase engineering and ele...", "citations": 17, "author_count": 7, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2108, "doi": "10.1103/PhysRevLett.121.156802", "umap_coordinates": { "x": 393.1539001464844, "y": 135.0030975341797, "z": 208.4069366455078 }, "tsne_coordinates": { "x": 5.59588098526001, "y": -20.821409225463867, "z": -3.4765546321868896 }, "pca_coordinates": { "x": 3.160795211791992, "y": -3.7218728065490723, "z": 1.387526035308838 }, "axis_scores": { "Quantum imaging": 0.7403981685638428, "Quantum Life Science Sensing": 0.7270207405090332, "Quantum sensing Detection": 0.7476551532745361, "Quantum sensing Metrology": 0.7244182229042053, "Quantum sensing navigation": 0.7452160120010376, "Quantum sensing Position": 0.7250481843948364, "Quantum sensing Timing": 0.7293387055397034, "Quantum sensing": 0.7606402039527893, "Quantum control": 0.7378266453742981 } }, { "id": 2106, "title": "Photoluminescence from quasi-type-II spherical CdSe-CdS core-shell quantum dots", "abstract": "Spherical CdSe-CdS core-shell quantum dots (QDs) are found to be flexible in the transition between the type-I regime and the type-II regime with different core/shell dimensions. The quasi-type-II fea...", "citations": 9, "author_count": 10, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2109, "doi": "10.1364/AO.52.000105", "umap_coordinates": { "x": 392.741943359375, "y": 134.0476837158203, "z": 206.39552307128906 }, "tsne_coordinates": { "x": 37.65761947631836, "y": 1.0280462503433228, "z": 10.504403114318848 }, "pca_coordinates": { "x": -1.5643305778503418, "y": -2.0542707443237305, "z": -0.4704902172088623 }, "axis_scores": { "Quantum imaging": 0.7295048236846924, "Quantum Life Science Sensing": 0.7417880296707153, "Quantum sensing Detection": 0.7144613862037659, "Quantum sensing Metrology": 0.6933952569961548, "Quantum sensing navigation": 0.6959340572357178, "Quantum sensing Position": 0.6805159449577332, "Quantum sensing Timing": 0.679988443851471, "Quantum sensing": 0.7306433320045471, "Quantum control": 0.7029361724853516 } }, { "id": 2107, "title": "Degree of entanglement in a quantum-measurement process - art. no. 022113", "abstract": "We suggest a quantum-measurement model in an ion trap that specifies the probability distribution of two distinct internal ground states of a trapped four-level ion. The external degrees of motion of ...", "citations": 10, "author_count": 4, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2110, "doi": "10.1103/PhysRevA.66.022113", "umap_coordinates": { "x": 395.4427490234375, "y": 136.44683837890625, "z": 207.72586059570312 }, "tsne_coordinates": { "x": -23.381141662597656, "y": -12.479350090026855, "z": 3.520982265472412 }, "pca_coordinates": { "x": 4.437471866607666, "y": 2.042616605758667, "z": 1.5537903308868408 }, "axis_scores": { "Quantum imaging": 0.7473005652427673, "Quantum Life Science Sensing": 0.7421547770500183, "Quantum sensing Detection": 0.7622997760772705, "Quantum sensing Metrology": 0.7580642700195312, "Quantum sensing navigation": 0.7480983734130859, "Quantum sensing Position": 0.7520850896835327, "Quantum sensing Timing": 0.7342888712882996, "Quantum sensing": 0.7694510221481323, "Quantum control": 0.7355002760887146 } }, { "id": 2108, "title": "Ultrahighly-efficient and stable luminescent solar concentrators enabled by FRET-based carbon nanodots", "abstract": "Luminescent solar concentrators (LSCs) as an optical device to concentrate light from large areas illuminated by sunlight into small-area photovoltaic cells, can greatly reduce the cost of solar energ...", "citations": 11, "author_count": 6, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2111, "doi": "10.1016/j.nanoen.2024.110514", "umap_coordinates": { "x": 392.8251953125, "y": 133.42184448242188, "z": 205.29002380371094 }, "tsne_coordinates": { "x": 26.74791717529297, "y": 8.208507537841797, "z": -12.552552223205566 }, "pca_coordinates": { "x": -3.5508546829223633, "y": -3.4075512886047363, "z": 1.0718474388122559 }, "axis_scores": { "Quantum imaging": 0.704741895198822, "Quantum Life Science Sensing": 0.7290000915527344, "Quantum sensing Detection": 0.7123634815216064, "Quantum sensing Metrology": 0.7002455592155457, "Quantum sensing navigation": 0.6967384815216064, "Quantum sensing Position": 0.6877716779708862, "Quantum sensing Timing": 0.6757016777992249, "Quantum sensing": 0.721065104007721, "Quantum control": 0.6849842667579651 } }, { "id": 2109, "title": "Nonabsorbing high-efficiency counter for itinerant microwave photons", "abstract": "Detecting an itinerant microwave photon with high efficiency is an outstanding problem in microwave photonics and its applications. We present a scheme to detect an itinerant microwave photon in a tra...", "citations": 40, "author_count": 6, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2112, "doi": "10.1103/PhysRevB.90.035132", "umap_coordinates": { "x": 395.6863708496094, "y": 135.66781616210938, "z": 207.5722198486328 }, "tsne_coordinates": { "x": -14.731074333190918, "y": -25.254657745361328, "z": -7.521518707275391 }, "pca_coordinates": { "x": 2.1800942420959473, "y": 0.1869521141052246, "z": 1.1590301990509033 }, "axis_scores": { "Quantum imaging": 0.6818838715553284, "Quantum Life Science Sensing": 0.6819688081741333, "Quantum sensing Detection": 0.692326545715332, "Quantum sensing Metrology": 0.6699684858322144, "Quantum sensing navigation": 0.6724987626075745, "Quantum sensing Position": 0.6345816254615784, "Quantum sensing Timing": 0.6745662093162537, "Quantum sensing": 0.6875054836273193, "Quantum control": 0.642937421798706 } }, { "id": 2110, "title": "Recyclable optical bioplastics platform for solid state red light harvesting via triplet-triplet annihilation photon upconversion", "abstract": "Sustainable photonics applications of solid-state triplet-triplet annihilation photon upconversion (TTA-UC) are limited by a small UC spectral window, low UC efficiency in air, and non-recyclability o...", "citations": 14, "author_count": 12, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2113, "doi": "10.1039/d2ta04810h", "umap_coordinates": { "x": 392.3774719238281, "y": 134.94712829589844, "z": 204.89183044433594 }, "tsne_coordinates": { "x": 8.512211799621582, "y": 1.5989117622375488, "z": -12.50201416015625 }, "pca_coordinates": { "x": -3.5001862049102783, "y": -1.4793288707733154, "z": -0.9653831124305725 }, "axis_scores": { "Quantum imaging": 0.6783897876739502, "Quantum Life Science Sensing": 0.7252081632614136, "Quantum sensing Detection": 0.6773923635482788, "Quantum sensing Metrology": 0.6591877341270447, "Quantum sensing navigation": 0.6466414928436279, "Quantum sensing Position": 0.6353856325149536, "Quantum sensing Timing": 0.6522642374038696, "Quantum sensing": 0.6861326098442078, "Quantum control": 0.653896689414978 } }, { "id": 2111, "title": "Optical Quantum Confinement in Ultrasmall ZnO and the Effect of Size on Their Photocatalytic Activity", "abstract": "Zinc oxide is a well-known metal oxide semiconductor with a wide direct band gap that offers a promising alternative to titanium oxide in photocatalytic applications. ZnO is studied here as quantum do...", "citations": 58, "author_count": 3, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2114, "doi": "10.1021/acs.jpcc.9b11229", "umap_coordinates": { "x": 392.0753479003906, "y": 133.99850463867188, "z": 206.5785675048828 }, "tsne_coordinates": { "x": 28.645694732666016, "y": -5.413100242614746, "z": -2.914673089981079 }, "pca_coordinates": { "x": -1.5300443172454834, "y": -3.171633243560791, "z": -1.3645646572113037 }, "axis_scores": { "Quantum imaging": 0.7195066809654236, "Quantum Life Science Sensing": 0.762356698513031, "Quantum sensing Detection": 0.7249287366867065, "Quantum sensing Metrology": 0.7126502394676208, "Quantum sensing navigation": 0.7170767784118652, "Quantum sensing Position": 0.6996354460716248, "Quantum sensing Timing": 0.6750530004501343, "Quantum sensing": 0.7441486120223999, "Quantum control": 0.7145938873291016 } }, { "id": 2112, "title": "Coffee Grounds to Multifunctional Quantum Dots: Extreme Nanoenhancers of Polymer Biocomposites", "abstract": "Central to the design and execution of nanocomposite strategies is the invention of polymer-affinitive and multifunctional nanoreinforcements amenable to economically viable processing. Here, a microw...", "citations": 56, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2115, "doi": "10.1021/acsami.7b09401", "umap_coordinates": { "x": 392.44354248046875, "y": 134.7434844970703, "z": 204.25949096679688 }, "tsne_coordinates": { "x": 19.514904022216797, "y": 11.775869369506836, "z": -16.36872100830078 }, "pca_coordinates": { "x": -3.0243167877197266, "y": -0.5419857501983643, "z": -2.379444122314453 }, "axis_scores": { "Quantum imaging": 0.7114039063453674, "Quantum Life Science Sensing": 0.7225834727287292, "Quantum sensing Detection": 0.7081159353256226, "Quantum sensing Metrology": 0.6835680603981018, "Quantum sensing navigation": 0.6762171983718872, "Quantum sensing Position": 0.6783370971679688, "Quantum sensing Timing": 0.6755651235580444, "Quantum sensing": 0.7157433032989502, "Quantum control": 0.6922046542167664 } }, { "id": 2113, "title": "Characterization of molecularly imprinted polymer nanoparticles by photon correlation spectroscopy", "abstract": "We follow template-binding induced aggregation of nanoparticles enantioselectively imprinted against (S)-propranolol, and the non-imprinted ones, using photon correlation spectroscopy (dynamic light s...", "citations": 2, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2116, "doi": "10.1002/jmr.2397", "umap_coordinates": { "x": 393.72882080078125, "y": 134.5277099609375, "z": 205.07119750976562 }, "tsne_coordinates": { "x": 19.084047317504883, "y": 19.46321678161621, "z": -26.10389518737793 }, "pca_coordinates": { "x": -3.0946764945983887, "y": 0.4041633605957031, "z": 2.4482336044311523 }, "axis_scores": { "Quantum imaging": 0.7478445172309875, "Quantum Life Science Sensing": 0.7454668283462524, "Quantum sensing Detection": 0.7512120604515076, "Quantum sensing Metrology": 0.7408718466758728, "Quantum sensing navigation": 0.7148187160491943, "Quantum sensing Position": 0.7111611366271973, "Quantum sensing Timing": 0.6904379725456238, "Quantum sensing": 0.7467199563980103, "Quantum control": 0.6933107972145081 } }, { "id": 2114, "title": "Thermally driven quantum refrigerator autonomously resets a superconducting qubit", "abstract": "Although classical thermal machines power industries and modern living, quantum thermal engines have yet to prove their utility. Here, we demonstrate a useful quantum absorption refrigerator formed fr...", "citations": 31, "author_count": 8, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2117, "doi": "10.1038/s41567-024-02708-5", "umap_coordinates": { "x": 393.984130859375, "y": 135.6410675048828, "z": 207.03709411621094 }, "tsne_coordinates": { "x": 1.1135759353637695, "y": -9.14344310760498, "z": 12.118162155151367 }, "pca_coordinates": { "x": 0.8108124732971191, "y": -0.4216463565826416, "z": -0.6701571941375732 }, "axis_scores": { "Quantum imaging": 0.7178402543067932, "Quantum Life Science Sensing": 0.7470913529396057, "Quantum sensing Detection": 0.7391716837882996, "Quantum sensing Metrology": 0.7183059453964233, "Quantum sensing navigation": 0.7282283902168274, "Quantum sensing Position": 0.7063772678375244, "Quantum sensing Timing": 0.7237043380737305, "Quantum sensing": 0.7556432485580444, "Quantum control": 0.7378846406936646 } }, { "id": 2115, "title": "Graphene oxide sheets and quantum dots inhibit α-synuclein amyloid formation by different mechanisms", "abstract": "Aggregation and amyloid formation of the 140-residue presynaptic and intrinsically disordered protein alpha-synuclein (alpha-syn) is a pathological hallmark of Parkinson's disease (PD). Understanding ...", "citations": 45, "author_count": 6, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2118, "doi": "10.1039/d0nr05003b", "umap_coordinates": { "x": 392.3426818847656, "y": 134.96263122558594, "z": 205.74429321289062 }, "tsne_coordinates": { "x": 18.755245208740234, "y": -6.350360870361328, "z": -3.601353406906128 }, "pca_coordinates": { "x": -0.9689931869506836, "y": -2.4020190238952637, "z": -0.868878185749054 }, "axis_scores": { "Quantum imaging": 0.7108249664306641, "Quantum Life Science Sensing": 0.7396117448806763, "Quantum sensing Detection": 0.7210706472396851, "Quantum sensing Metrology": 0.6813684701919556, "Quantum sensing navigation": 0.7124056220054626, "Quantum sensing Position": 0.6760927438735962, "Quantum sensing Timing": 0.6579726338386536, "Quantum sensing": 0.7188241481781006, "Quantum control": 0.7113701105117798 } }, { "id": 2116, "title": "FAST AND SLOW RELAXATION PROCESSES POLYMER ELECTROLYTES", "abstract": "We report a light scattering study of the complex dynamics of two salt-in-polymer electrolyte systems. One of these, NaCF3SO3 + PPG 4004 has been the subject of considerable previous study, while the ...", "citations": 36, "author_count": 7, "categories": [ "Electrochemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 2119, "doi": "10.1016/0013-4686(95)00140-A", "umap_coordinates": { "x": 393.2106628417969, "y": 136.21282958984375, "z": 205.82098388671875 }, "tsne_coordinates": { "x": 17.84304428100586, "y": 11.726458549499512, "z": 20.186120986938477 }, "pca_coordinates": { "x": -1.5735771656036377, "y": 1.7333452701568604, "z": -2.5409433841705322 }, "axis_scores": { "Quantum imaging": 0.6633490920066833, "Quantum Life Science Sensing": 0.6929998397827148, "Quantum sensing Detection": 0.646645188331604, "Quantum sensing Metrology": 0.6256605386734009, "Quantum sensing navigation": 0.6534496545791626, "Quantum sensing Position": 0.6402922868728638, "Quantum sensing Timing": 0.6487778425216675, "Quantum sensing": 0.6673548817634583, "Quantum control": 0.6395766139030457 } }, { "id": 2117, "title": "Nonclassicality of axionlike dark matter through gravitational self-interactions", "abstract": "Axionlike particles (ALPs) are promising dark matter candidates. They are typically described by a classical field, motivated by large phase space occupation numbers. Here we show that such a descript...", "citations": 6, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2120, "doi": "10.1103/PhysRevD.106.043517", "umap_coordinates": { "x": 395.9245910644531, "y": 136.384765625, "z": 207.35618591308594 }, "tsne_coordinates": { "x": -32.514888763427734, "y": -6.838164806365967, "z": -20.511966705322266 }, "pca_coordinates": { "x": 3.8950743675231934, "y": 1.829232931137085, "z": 0.3556482195854187 }, "axis_scores": { "Quantum imaging": 0.7329773902893066, "Quantum Life Science Sensing": 0.7119256258010864, "Quantum sensing Detection": 0.717728316783905, "Quantum sensing Metrology": 0.6850118637084961, "Quantum sensing navigation": 0.7366895079612732, "Quantum sensing Position": 0.678783655166626, "Quantum sensing Timing": 0.674683153629303, "Quantum sensing": 0.7199979424476624, "Quantum control": 0.7137299180030823 } }, { "id": 2118, "title": "Outline of a unified Darwinian evolutionary theory for physical and biological systems", "abstract": "The scheme of a unified Darwinian evolutionary theory for physical and biological systems is described. Every physical system is methodologically endowed with a classical information processor, which ...", "citations": 3, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2121, "doi": "10.1016/j.pbiomolbio.2017.05.006", "umap_coordinates": { "x": 394.45880126953125, "y": 137.00192260742188, "z": 205.5515594482422 }, "tsne_coordinates": { "x": -18.521854400634766, "y": 13.044198036193848, "z": 21.796377182006836 }, "pca_coordinates": { "x": -0.6347518563270569, "y": 2.0516843795776367, "z": -1.8786392211914062 }, "axis_scores": { "Quantum imaging": 0.7593914866447449, "Quantum Life Science Sensing": 0.7730010151863098, "Quantum sensing Detection": 0.7352166175842285, "Quantum sensing Metrology": 0.7340487241744995, "Quantum sensing navigation": 0.7385729551315308, "Quantum sensing Position": 0.7180807590484619, "Quantum sensing Timing": 0.7181409001350403, "Quantum sensing": 0.7495748996734619, "Quantum control": 0.7470157742500305 } }, { "id": 2119, "title": "Large-scale photonic network with squeezed vacuum states for molecular vibronic spectroscopy", "abstract": "Although molecular vibronic spectra generation is pivotal for chemical analysis, tackling such exponentially complex tasks on classical computers remains inefficient. Quantum simulation, though theore...", "citations": 11, "author_count": 16, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2122, "doi": "10.1038/s41467-024-50060-2", "umap_coordinates": { "x": 393.922607421875, "y": 134.86070251464844, "z": 206.3261260986328 }, "tsne_coordinates": { "x": -12.240318298339844, "y": 2.958195447921753, "z": -5.963638782501221 }, "pca_coordinates": { "x": 0.014902591705322266, "y": -0.5421547889709473, "z": 1.9839701652526855 }, "axis_scores": { "Quantum imaging": 0.7374997138977051, "Quantum Life Science Sensing": 0.7204554080963135, "Quantum sensing Detection": 0.7285030484199524, "Quantum sensing Metrology": 0.7191107869148254, "Quantum sensing navigation": 0.7416524291038513, "Quantum sensing Position": 0.7177742719650269, "Quantum sensing Timing": 0.6850833892822266, "Quantum sensing": 0.7492009997367859, "Quantum control": 0.7142612934112549 } }, { "id": 2120, "title": "Deep learning estimation of proton stopping power with photon-counting computed tomography: a virtual study", "abstract": "Purpose Proton radiation therapy may achieve precise dose delivery to the tumor while sparing non-cancerous surrounding tissue, owing to the distinct Bragg peaks of protons. Aligning the high-dose reg...", "citations": 1, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2123, "doi": "10.1117/1.JMI.11.S1.S12809", "umap_coordinates": { "x": 395.4151611328125, "y": 132.8730010986328, "z": 205.547119140625 }, "tsne_coordinates": { "x": -8.493884086608887, "y": 18.973230361938477, "z": -21.59004783630371 }, "pca_coordinates": { "x": -1.6634016036987305, "y": 3.0773143768310547, "z": 4.622833251953125 }, "axis_scores": { "Quantum imaging": 0.7474551200866699, "Quantum Life Science Sensing": 0.7271034121513367, "Quantum sensing Detection": 0.7363189458847046, "Quantum sensing Metrology": 0.7190943956375122, "Quantum sensing navigation": 0.734115719795227, "Quantum sensing Position": 0.7051304578781128, "Quantum sensing Timing": 0.7038369178771973, "Quantum sensing": 0.725913941860199, "Quantum control": 0.6723852157592773 } }, { "id": 2121, "title": "Parity Detection of Propagating Microwave Fields", "abstract": "The parity of the number of elementary excitations present in a quantum system provides important insights into its physical properties. Parity measurements are used, for example, to tomographically r...", "citations": 32, "author_count": 9, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2124, "doi": "10.1103/PhysRevX.10.011046", "umap_coordinates": { "x": 395.147705078125, "y": 136.12200927734375, "z": 207.83055114746094 }, "tsne_coordinates": { "x": -14.97628116607666, "y": -21.84922218322754, "z": -7.057344913482666 }, "pca_coordinates": { "x": 4.216910362243652, "y": 1.2215847969055176, "z": 1.5744948387145996 }, "axis_scores": { "Quantum imaging": 0.7330642938613892, "Quantum Life Science Sensing": 0.7391179800033569, "Quantum sensing Detection": 0.7557054758071899, "Quantum sensing Metrology": 0.7191949486732483, "Quantum sensing navigation": 0.7560579776763916, "Quantum sensing Position": 0.7377145290374756, "Quantum sensing Timing": 0.727853536605835, "Quantum sensing": 0.7443943023681641, "Quantum control": 0.6970111727714539 } }, { "id": 2122, "title": "Adsorbate-Induced Modification of the Confining Barriers in a Quantum Box Array", "abstract": "Quantum devices depend on addressable elements, which can be modified separately and in their mutual interaction. Self-assembly at surfaces, for example, formation of a porous (metal-) organic network...", "citations": 11, "author_count": 30, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2125, "doi": "10.1021/acsnano.7b07989", "umap_coordinates": { "x": 392.4247741699219, "y": 134.82354736328125, "z": 207.067626953125 }, "tsne_coordinates": { "x": 19.633743286132812, "y": -16.434856414794922, "z": -14.472354888916016 }, "pca_coordinates": { "x": -0.08340299129486084, "y": -2.14382266998291, "z": -1.3137948513031006 }, "axis_scores": { "Quantum imaging": 0.7201070189476013, "Quantum Life Science Sensing": 0.7079682946205139, "Quantum sensing Detection": 0.7080273032188416, "Quantum sensing Metrology": 0.7014079689979553, "Quantum sensing navigation": 0.7190920114517212, "Quantum sensing Position": 0.7132231593132019, "Quantum sensing Timing": 0.6886403560638428, "Quantum sensing": 0.717308759689331, "Quantum control": 0.6986732482910156 } }, { "id": 2123, "title": "Using electric fields for pulse compression and group-velocity control", "abstract": "In this article, we experimentally demonstrate a way of controlling the group velocity of an optical pulse by using a combination of spectral hole burning, the slow-light effect, and the linear Stark ...", "citations": 1, "author_count": 6, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2126, "doi": "10.1103/PhysRevA.95.032104", "umap_coordinates": { "x": 395.4600830078125, "y": 136.35794067382812, "z": 208.05043029785156 }, "tsne_coordinates": { "x": -16.920339584350586, "y": -28.094144821166992, "z": -2.9395875930786133 }, "pca_coordinates": { "x": 2.223827362060547, "y": 1.6840028762817383, "z": 0.979119598865509 }, "axis_scores": { "Quantum imaging": 0.673313558101654, "Quantum Life Science Sensing": 0.661702036857605, "Quantum sensing Detection": 0.6487985253334045, "Quantum sensing Metrology": 0.6442680358886719, "Quantum sensing navigation": 0.6673314571380615, "Quantum sensing Position": 0.6439820528030396, "Quantum sensing Timing": 0.6638530492782593, "Quantum sensing": 0.6597166061401367, "Quantum control": 0.6849445104598999 } }, { "id": 2124, "title": "Conductance of a ballistic electron billiard in a magnetic field: does the semiclassical approach apply?", "abstract": "We utilize a semi-classical approach to calculate conductance and weak localization corrections in a triangular billiard in non-zero magnetic field. Results of the calculations and comparison to numer...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2127, "doi": "10.1238/Physica.Topical.090a00037", "umap_coordinates": { "x": 394.2242126464844, "y": 136.57794189453125, "z": 207.9429168701172 }, "tsne_coordinates": { "x": 6.2356157302856445, "y": -21.55258560180664, "z": 16.169525146484375 }, "pca_coordinates": { "x": 2.8866405487060547, "y": 0.5235449075698853, "z": -2.151242971420288 }, "axis_scores": { "Quantum imaging": 0.7008017897605896, "Quantum Life Science Sensing": 0.7286048531532288, "Quantum sensing Detection": 0.7045015096664429, "Quantum sensing Metrology": 0.6960602402687073, "Quantum sensing navigation": 0.7228381633758545, "Quantum sensing Position": 0.6937770247459412, "Quantum sensing Timing": 0.6676420569419861, "Quantum sensing": 0.712835967540741, "Quantum control": 0.6969913244247437 } }, { "id": 2125, "title": "RESONANT TUNNELING VIA QUANTUM BOUND-STATES IN A CLASSICALLY UNBOUND SYSTEM OF CROSSED, NARROW CHANNELS", "abstract": "We consider the ballistic transport of noninteracting electrons in intersecting narrow channels of finite length. The structure we study consists of two perpendicular channels, one of which connects t...", "citations": 88, "author_count": 3, "categories": [ "Materials Science" ], "year": 1991, "topic": [ "all" ], "embedding_index": 2128, "doi": "10.1103/PhysRevB.43.4760", "umap_coordinates": { "x": 394.53863525390625, "y": 135.3964080810547, "z": 208.14895629882812 }, "tsne_coordinates": { "x": -8.088647842407227, "y": -38.815433502197266, "z": -11.076876640319824 }, "pca_coordinates": { "x": 4.870620250701904, "y": 0.05572628974914551, "z": 0.19346588850021362 }, "axis_scores": { "Quantum imaging": 0.719010591506958, "Quantum Life Science Sensing": 0.713362991809845, "Quantum sensing Detection": 0.7256181240081787, "Quantum sensing Metrology": 0.7037183046340942, "Quantum sensing navigation": 0.7327931523323059, "Quantum sensing Position": 0.6877884864807129, "Quantum sensing Timing": 0.6900904774665833, "Quantum sensing": 0.7355796694755554, "Quantum control": 0.7062703967094421 } }, { "id": 2126, "title": "Low Dose X-Ray Speckle Visibility Spectroscopy Reveals Nanoscale Dynamics in Radiation Sensitive Ionic Liquids", "abstract": "X-ray radiation damage provides a serious bottleneck for investigating microsecond to second dynamics on nanometer length scales employing x-ray photon correlation spectroscopy. This limitation hinder...", "citations": 27, "author_count": 10, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2129, "doi": "10.1103/PhysRevLett.120.168001", "umap_coordinates": { "x": 394.6399230957031, "y": 134.97787475585938, "z": 207.66673278808594 }, "tsne_coordinates": { "x": -11.72128963470459, "y": -14.223838806152344, "z": -1.052692174911499 }, "pca_coordinates": { "x": 2.3730711936950684, "y": -0.29311370849609375, "z": 1.0260071754455566 }, "axis_scores": { "Quantum imaging": 0.7160524725914001, "Quantum Life Science Sensing": 0.7141688466072083, "Quantum sensing Detection": 0.6870003938674927, "Quantum sensing Metrology": 0.6536388397216797, "Quantum sensing navigation": 0.7149383425712585, "Quantum sensing Position": 0.6796683073043823, "Quantum sensing Timing": 0.6809409856796265, "Quantum sensing": 0.6929997205734253, "Quantum control": 0.6624890565872192 } }, { "id": 2127, "title": "A dephasing sweet spot with enhanced dipolar coupling", "abstract": "Two-level systems (TLSs) are the basic units of quantum computers but face a trade-off between operation speed and coherence due to shared coupling paths. Here, we investigate a TLS given by a singlet...", "citations": 1, "author_count": 13, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2130, "doi": "10.1038/s42005-025-02216-9", "umap_coordinates": { "x": 393.51141357421875, "y": 135.67257690429688, "z": 206.13021850585938 }, "tsne_coordinates": { "x": 11.143272399902344, "y": -2.063793897628784, "z": 25.287090301513672 }, "pca_coordinates": { "x": -1.5225496292114258, "y": 0.9267574548721313, "z": 0.057708680629730225 }, "axis_scores": { "Quantum imaging": 0.659529447555542, "Quantum Life Science Sensing": 0.6430225372314453, "Quantum sensing Detection": 0.6548060774803162, "Quantum sensing Metrology": 0.646603524684906, "Quantum sensing navigation": 0.6476716995239258, "Quantum sensing Position": 0.6583487391471863, "Quantum sensing Timing": 0.682158887386322, "Quantum sensing": 0.6602709293365479, "Quantum control": 0.6416024565696716 } }, { "id": 2128, "title": "Nanocrystal Assemblies: Current Advances and Open Problems", "abstract": "We explore the potential of nanocrystals (a term used equivalently to nanoparticles) as building blocks for nanomaterials, and the current advances and open challenges for fundamental science developm...", "citations": 77, "author_count": 43, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2131, "doi": "10.1021/acsnano.3c10201", "umap_coordinates": { "x": 392.659423828125, "y": 134.11087036132812, "z": 205.1990966796875 }, "tsne_coordinates": { "x": 10.727261543273926, "y": -2.8516836166381836, "z": -21.295522689819336 }, "pca_coordinates": { "x": -2.7790958881378174, "y": -2.9595375061035156, "z": -1.9526739120483398 }, "axis_scores": { "Quantum imaging": 0.690287709236145, "Quantum Life Science Sensing": 0.7037488222122192, "Quantum sensing Detection": 0.6796240210533142, "Quantum sensing Metrology": 0.6743553280830383, "Quantum sensing navigation": 0.693820595741272, "Quantum sensing Position": 0.6711158752441406, "Quantum sensing Timing": 0.6355772018432617, "Quantum sensing": 0.6879218816757202, "Quantum control": 0.6878438591957092 } }, { "id": 2129, "title": "Designing Kerr Interactions for Quantum Information Processing via Counterrotating Terms of Asymmetric Josephson-Junction Loops", "abstract": "Continuous-variable systems realized in high-coherence microwave cavities are a promising platform for quantum information processing. While strong dynamic nonlinear interactions are desired to implem...", "citations": 16, "author_count": 3, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2132, "doi": "10.1103/PhysRevApplied.17.064018", "umap_coordinates": { "x": 394.76434326171875, "y": 136.2225341796875, "z": 207.7078857421875 }, "tsne_coordinates": { "x": -3.3780128955841064, "y": -15.994039535522461, "z": 10.969745635986328 }, "pca_coordinates": { "x": 2.8669400215148926, "y": 1.5135314464569092, "z": 0.5812084078788757 }, "axis_scores": { "Quantum imaging": 0.7359906435012817, "Quantum Life Science Sensing": 0.7259239554405212, "Quantum sensing Detection": 0.7178055047988892, "Quantum sensing Metrology": 0.7181544899940491, "Quantum sensing navigation": 0.739800214767456, "Quantum sensing Position": 0.6983984112739563, "Quantum sensing Timing": 0.7175189256668091, "Quantum sensing": 0.7329546213150024, "Quantum control": 0.7202690839767456 } }, { "id": 2130, "title": "Quantum coherence as a witness of vibronically hot energy transfer in bacterial reaction center", "abstract": "Photosynthetic proteins have evolved over billions of years so as to undergo optimal energy transfer to the sites of charge separation. On the basis of spectroscopically detected quantum coherences, i...", "citations": 63, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2133, "doi": "10.1126/sciadv.1603141", "umap_coordinates": { "x": 393.2129211425781, "y": 136.74420166015625, "z": 206.40663146972656 }, "tsne_coordinates": { "x": 9.919661521911621, "y": -2.215505361557007, "z": 18.82410430908203 }, "pca_coordinates": { "x": 1.0250663757324219, "y": 0.5746451616287231, "z": -0.37287309765815735 }, "axis_scores": { "Quantum imaging": 0.7417175769805908, "Quantum Life Science Sensing": 0.7734494805335999, "Quantum sensing Detection": 0.7466496825218201, "Quantum sensing Metrology": 0.7295340895652771, "Quantum sensing navigation": 0.7328312397003174, "Quantum sensing Position": 0.7288073301315308, "Quantum sensing Timing": 0.7450253963470459, "Quantum sensing": 0.7534561157226562, "Quantum control": 0.7265236973762512 } }, { "id": 2131, "title": "Stars of the quantum Universe: extremal constellations on the Poincare sphere", "abstract": "The characterization of the polarization properties of a quantum state requires the knowledge of the joint probability distribution of the Stokes variables. This amounts to assessing all the moments o...", "citations": 33, "author_count": 6, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2134, "doi": "10.1088/0031-8949/90/10/108008", "umap_coordinates": { "x": 395.05224609375, "y": 137.2705535888672, "z": 207.1083221435547 }, "tsne_coordinates": { "x": -37.461265563964844, "y": -9.731422424316406, "z": 10.502633094787598 }, "pca_coordinates": { "x": 1.070981740951538, "y": 2.7350287437438965, "z": -0.9538224935531616 }, "axis_scores": { "Quantum imaging": 0.7167704701423645, "Quantum Life Science Sensing": 0.7467035055160522, "Quantum sensing Detection": 0.7092427015304565, "Quantum sensing Metrology": 0.7158980369567871, "Quantum sensing navigation": 0.7289048433303833, "Quantum sensing Position": 0.7370607852935791, "Quantum sensing Timing": 0.7040048837661743, "Quantum sensing": 0.7144255638122559, "Quantum control": 0.686556339263916 } }, { "id": 2132, "title": "TRIPLET-STATE CIS-TRANS ISOMERIZATIONS OF A BISSTYRYLCYCLOOCTATETRAENE - INEFFICIENT PROCESSES FACILITATING OBSERVATION OF THE INTRINSIC T-1-T-N ABSORPTION-SPECTRA OF THE Z,Z,E,Z, AND E,E ISOMERS", "abstract": "The mechanism for triplet-sensitized Z-E isomerizations of Z,Z-, E,Z-, and E,E-1,5-bisstyryl-3,7-dimethyl-cyclooctatetraene (ZZ, EZ, and EE) has been studied by quantum yield measurements and laser fl...", "citations": 6, "author_count": 6, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 2135, "doi": "10.1021/j100002a032", "umap_coordinates": { "x": 392.4281005859375, "y": 135.8026123046875, "z": 205.80194091796875 }, "tsne_coordinates": { "x": -5.108801364898682, "y": -4.438323020935059, "z": -13.684850692749023 }, "pca_coordinates": { "x": -2.013935089111328, "y": 0.4109973907470703, "z": -1.7725152969360352 }, "axis_scores": { "Quantum imaging": 0.6768407821655273, "Quantum Life Science Sensing": 0.6793943047523499, "Quantum sensing Detection": 0.6586217880249023, "Quantum sensing Metrology": 0.653106153011322, "Quantum sensing navigation": 0.6496923565864563, "Quantum sensing Position": 0.635989785194397, "Quantum sensing Timing": 0.6827754974365234, "Quantum sensing": 0.6688797473907471, "Quantum control": 0.6328074932098389 } }, { "id": 2133, "title": "Experimental multipartner quantum communication complexity employing just one qubit", "abstract": "Most proposals for quantum solutions of information-theoretic problems rely on the usage of multi-partite entangled states which are still difficult to produce experimentally with current state-of-the...", "citations": 2, "author_count": 7, "categories": [ "Computer Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2136, "doi": "10.1007/s11047-012-9352-7", "umap_coordinates": { "x": 395.76678466796875, "y": 136.40354919433594, "z": 206.96759033203125 }, "tsne_coordinates": { "x": -27.199684143066406, "y": -8.961132049560547, "z": -2.418070077896118 }, "pca_coordinates": { "x": 1.721409797668457, "y": 2.2376577854156494, "z": 3.0303938388824463 }, "axis_scores": { "Quantum imaging": 0.7531288266181946, "Quantum Life Science Sensing": 0.7452024221420288, "Quantum sensing Detection": 0.7523255944252014, "Quantum sensing Metrology": 0.7633041143417358, "Quantum sensing navigation": 0.7537195086479187, "Quantum sensing Position": 0.7355000972747803, "Quantum sensing Timing": 0.7399856448173523, "Quantum sensing": 0.7690834999084473, "Quantum control": 0.7211479544639587 } }, { "id": 2134, "title": "Enhancing Circularly Polarized Emission by a Planar Chiral Dielectric Metasurface", "abstract": "Circularly polarized emission (CPE) has attracted great interest in optoelectronics, biosensing, etc. Here, a resonant planar chiral dielectric metasurface that can be constructed to provide a prefera...", "citations": 30, "author_count": 8, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2137, "doi": "10.1002/adom.202300197", "umap_coordinates": { "x": 392.78857421875, "y": 133.88003540039062, "z": 205.63726806640625 }, "tsne_coordinates": { "x": 30.764806747436523, "y": -10.246356010437012, "z": -21.52760887145996 }, "pca_coordinates": { "x": -2.943645477294922, "y": -1.3646788597106934, "z": 0.11514467000961304 }, "axis_scores": { "Quantum imaging": 0.7118100523948669, "Quantum Life Science Sensing": 0.6731861233711243, "Quantum sensing Detection": 0.6856468319892883, "Quantum sensing Metrology": 0.6895592212677002, "Quantum sensing navigation": 0.6744489073753357, "Quantum sensing Position": 0.6515284180641174, "Quantum sensing Timing": 0.6307448148727417, "Quantum sensing": 0.695497453212738, "Quantum control": 0.6867347955703735 } }, { "id": 2135, "title": "Nonclassical total probability formula and quantum interference of probabilities", "abstract": "Interpretation of the nonclassical total probability formula arising in some quantum experiments is provided based on stochastic models described by means of a sequence of random vectors changing in t...", "citations": 7, "author_count": 3, "categories": [ "Mathematics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2138, "doi": "10.1016/j.spl.2004.08.003", "umap_coordinates": { "x": 395.2129821777344, "y": 136.85089111328125, "z": 205.87852478027344 }, "tsne_coordinates": { "x": -21.83526611328125, "y": 1.017417550086975, "z": 14.963871002197266 }, "pca_coordinates": { "x": 0.8702404499053955, "y": 2.716602325439453, "z": 1.0804650783538818 }, "axis_scores": { "Quantum imaging": 0.777266263961792, "Quantum Life Science Sensing": 0.7610723376274109, "Quantum sensing Detection": 0.7787511944770813, "Quantum sensing Metrology": 0.7683162093162537, "Quantum sensing navigation": 0.7607681751251221, "Quantum sensing Position": 0.7453633546829224, "Quantum sensing Timing": 0.7414281964302063, "Quantum sensing": 0.7876539826393127, "Quantum control": 0.7568103075027466 } }, { "id": 2136, "title": "Semiconductor-based electron flying qubits: review on recent progress accelerated by numerical modelling", "abstract": "The progress of charge manipulation in semiconductor-based nanoscale devices opened up a novel route to realise a flying qubit with a single electron. In the present review, we introduce the concept o...", "citations": 44, "author_count": 24, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2139, "doi": "10.1140/epjqt/s40507-022-00139-w", "umap_coordinates": { "x": 394.675048828125, "y": 136.209716796875, "z": 206.35537719726562 }, "tsne_coordinates": { "x": -31.10908317565918, "y": 10.307421684265137, "z": 3.371880531311035 }, "pca_coordinates": { "x": 1.7163312435150146, "y": -0.05710625648498535, "z": -0.49802666902542114 }, "axis_scores": { "Quantum imaging": 0.7147707939147949, "Quantum Life Science Sensing": 0.7039413452148438, "Quantum sensing Detection": 0.6834911108016968, "Quantum sensing Metrology": 0.6886664032936096, "Quantum sensing navigation": 0.7232289910316467, "Quantum sensing Position": 0.7077838778495789, "Quantum sensing Timing": 0.6977670192718506, "Quantum sensing": 0.6994118094444275, "Quantum control": 0.7064134478569031 } }, { "id": 2137, "title": "FeS2-Quantum-Dot Sensitized Metal Oxide Photoelectrodes: Photoelectrochemistry and Photoinduced Absorption Spectroscopy", "abstract": "TiO2, ZnO nanoparticulate(-np), and ZnO-nanorod(-nr) electrodes have been modified with FeS2 (pyrite) nanoparticles. Quantum size effect is manifested by a blue shift in both absorption and photocurre...", "citations": 1, "author_count": 3, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2140, "doi": "10.1155/2011/824927", "umap_coordinates": { "x": 392.5259704589844, "y": 134.6317901611328, "z": 205.24961853027344 }, "tsne_coordinates": { "x": 22.83727264404297, "y": 11.95699405670166, "z": 1.5879780054092407 }, "pca_coordinates": { "x": -2.0354859828948975, "y": -2.4968934059143066, "z": -1.1910319328308105 }, "axis_scores": { "Quantum imaging": 0.7194642424583435, "Quantum Life Science Sensing": 0.747094988822937, "Quantum sensing Detection": 0.7267981767654419, "Quantum sensing Metrology": 0.7197183966636658, "Quantum sensing navigation": 0.699116051197052, "Quantum sensing Position": 0.6843516826629639, "Quantum sensing Timing": 0.6721737384796143, "Quantum sensing": 0.7348445653915405, "Quantum control": 0.6897234320640564 } }, { "id": 2138, "title": "Combining Quantum Dot and Perovskite Photovoltaic Cells for Efficient Photon to Electricity Conversion in Energy Storage Devices", "abstract": "Renewable energy sources, such as wind and solar power, are increasingly important today to reduce emissions from fossil-based energy sources. However, the electricity from wind and solar power varies...", "citations": 4, "author_count": 3, "categories": [ "Energy & Fuels" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2141, "doi": "10.1002/ente.202200598", "umap_coordinates": { "x": 391.9599609375, "y": 133.61566162109375, "z": 205.4657440185547 }, "tsne_coordinates": { "x": 24.119873046875, "y": 0.4350526034832001, "z": -12.339933395385742 }, "pca_coordinates": { "x": -2.229616641998291, "y": -4.139343738555908, "z": 0.13545584678649902 }, "axis_scores": { "Quantum imaging": 0.6927930116653442, "Quantum Life Science Sensing": 0.6964095234870911, "Quantum sensing Detection": 0.6818338632583618, "Quantum sensing Metrology": 0.6772041320800781, "Quantum sensing navigation": 0.6639652252197266, "Quantum sensing Position": 0.6459349989891052, "Quantum sensing Timing": 0.6504969596862793, "Quantum sensing": 0.6931411623954773, "Quantum control": 0.6644721627235413 } }, { "id": 2139, "title": "Defect State Assisted Z-scheme Charge Recombination in Bi2O2CO3/Graphene Quantum Dot Composites For Photocatalytic Oxidation of NO", "abstract": "In this work, we explored the photoinduced charge carriers dynamics rationalizing the photocatalytic oxidation of NO over N-doped Bi2O2CO3/graphene quantum dots composites(N-BOC/GQDs) via timeresolved...", "citations": 46, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2142, "doi": "10.1021/acsanm.9b02276", "umap_coordinates": { "x": 391.8702392578125, "y": 134.29864501953125, "z": 205.85183715820312 }, "tsne_coordinates": { "x": 21.013614654541016, "y": 3.119107246398926, "z": -3.97961688041687 }, "pca_coordinates": { "x": -0.6278022527694702, "y": -3.498621940612793, "z": -1.8049941062927246 }, "axis_scores": { "Quantum imaging": 0.7012696862220764, "Quantum Life Science Sensing": 0.71686190366745, "Quantum sensing Detection": 0.7151685357093811, "Quantum sensing Metrology": 0.6939149498939514, "Quantum sensing navigation": 0.7120538353919983, "Quantum sensing Position": 0.6854657530784607, "Quantum sensing Timing": 0.6709733009338379, "Quantum sensing": 0.7192612290382385, "Quantum control": 0.7159745097160339 } }, { "id": 2140, "title": "Grooved Dayem Nanobridges as Building Blocks of High-Performance YBa2Cu3O7-δ SQUID Magnetometers", "abstract": "We present noise measurements performed on a YBa2Cu3O7-delta nanoscale weak-link-based magnetometer consisting of a superconducting quantum interference device (SQUID) galvanically coupled to a 3.5 x ...", "citations": 28, "author_count": 9, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2143, "doi": "10.1021/acs.nanolett.8b04991", "umap_coordinates": { "x": 393.2694091796875, "y": 134.77894592285156, "z": 207.23403930664062 }, "tsne_coordinates": { "x": -1.3955714702606201, "y": -27.058359146118164, "z": -27.434974670410156 }, "pca_coordinates": { "x": -0.06482815742492676, "y": -1.9444160461425781, "z": -0.8765574097633362 }, "axis_scores": { "Quantum imaging": 0.6977579593658447, "Quantum Life Science Sensing": 0.7258690595626831, "Quantum sensing Detection": 0.6852412819862366, "Quantum sensing Metrology": 0.7043145895004272, "Quantum sensing navigation": 0.7214005589485168, "Quantum sensing Position": 0.6939970254898071, "Quantum sensing Timing": 0.6666442155838013, "Quantum sensing": 0.7033159136772156, "Quantum control": 0.6783564686775208 } }, { "id": 2141, "title": "Performance of the coupled-cluster singles and doubles method applied to two-dimensional quantum dots", "abstract": "An implementation of the coupled-cluster single and double excitations (CCSD) method on two-dimensional quantum dots is presented. Advantages and limitations are studied through comparison with other ...", "citations": 10, "author_count": 4, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2144, "doi": "10.1103/PhysRevB.87.035112", "umap_coordinates": { "x": 394.09423828125, "y": 134.8788604736328, "z": 208.0341339111328 }, "tsne_coordinates": { "x": 1.2303471565246582, "y": -21.948217391967773, "z": -6.033539772033691 }, "pca_coordinates": { "x": 0.9244680404663086, "y": -2.832253932952881, "z": 0.8603190779685974 }, "axis_scores": { "Quantum imaging": 0.7220175862312317, "Quantum Life Science Sensing": 0.7347496747970581, "Quantum sensing Detection": 0.7385106086730957, "Quantum sensing Metrology": 0.7148496508598328, "Quantum sensing navigation": 0.7004328370094299, "Quantum sensing Position": 0.7030823826789856, "Quantum sensing Timing": 0.6946058869361877, "Quantum sensing": 0.7428770661354065, "Quantum control": 0.7148418426513672 } }, { "id": 2142, "title": "Deterministic Gaussian conversion protocols for non-Gaussian single-mode resources", "abstract": "In the context of quantum technologies over continuous variables, Gaussian states and operations are typically regarded as freely available, as they are relatively easily accessible experimentally. In...", "citations": 4, "author_count": 6, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2145, "doi": "10.1103/PhysRevA.105.062446", "umap_coordinates": { "x": 395.55645751953125, "y": 135.9894561767578, "z": 207.35658264160156 }, "tsne_coordinates": { "x": -29.097370147705078, "y": -17.377098083496094, "z": -7.334395408630371 }, "pca_coordinates": { "x": 2.319298505783081, "y": 0.624834418296814, "z": 2.187925338745117 }, "axis_scores": { "Quantum imaging": 0.7383845448493958, "Quantum Life Science Sensing": 0.7232745885848999, "Quantum sensing Detection": 0.7307108044624329, "Quantum sensing Metrology": 0.7346699833869934, "Quantum sensing navigation": 0.7488270998001099, "Quantum sensing Position": 0.7045450210571289, "Quantum sensing Timing": 0.7026057243347168, "Quantum sensing": 0.7473200559616089, "Quantum control": 0.7308803796768188 } }, { "id": 2143, "title": "Loss and decoherence in superconducting circuits on silicon: Insights from electron spin resonance", "abstract": "Solid-state devices used for quantum computation and quantum sensing applications are adversely affected by loss and noise caused by spurious, charged two-level systems (TLS) and stray paramagnetic sp...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2146, "doi": "10.1103/PhysRevApplied.22.014030", "umap_coordinates": { "x": 394.2355651855469, "y": 135.3119354248047, "z": 208.3763427734375 }, "tsne_coordinates": { "x": 1.3161574602127075, "y": -20.867145538330078, "z": 8.850096702575684 }, "pca_coordinates": { "x": 4.37387752532959, "y": -1.2866482734680176, "z": 0.18778687715530396 }, "axis_scores": { "Quantum imaging": 0.7334066033363342, "Quantum Life Science Sensing": 0.7621107697486877, "Quantum sensing Detection": 0.7399249076843262, "Quantum sensing Metrology": 0.7246918082237244, "Quantum sensing navigation": 0.7375501990318298, "Quantum sensing Position": 0.7150284051895142, "Quantum sensing Timing": 0.6968863606452942, "Quantum sensing": 0.7493530511856079, "Quantum control": 0.7185565829277039 } }, { "id": 2144, "title": "Nondegenerate parametric oscillations in a tunable superconducting resonator", "abstract": "We investigate nondegenerate parametric oscillations in a superconducting microwave multimode resonator that is terminated by a superconducting quantum interference device (SQUID). The parametric effe...", "citations": 14, "author_count": 9, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2147, "doi": "10.1103/PhysRevB.97.144502", "umap_coordinates": { "x": 394.50286865234375, "y": 135.86648559570312, "z": 208.56106567382812 }, "tsne_coordinates": { "x": -6.992717742919922, "y": -21.00994300842285, "z": 12.20326042175293 }, "pca_coordinates": { "x": 4.419881820678711, "y": -1.3026037216186523, "z": -0.35279208421707153 }, "axis_scores": { "Quantum imaging": 0.6843402981758118, "Quantum Life Science Sensing": 0.7096068859100342, "Quantum sensing Detection": 0.7060362696647644, "Quantum sensing Metrology": 0.6853762269020081, "Quantum sensing navigation": 0.7093214988708496, "Quantum sensing Position": 0.6903568506240845, "Quantum sensing Timing": 0.703715980052948, "Quantum sensing": 0.710265576839447, "Quantum control": 0.6995714902877808 } }, { "id": 2145, "title": "Quantum-like model of unconscious-conscious dynamics", "abstract": "We present a quantum-like model of sensation perception dynamics (originated in Helmholtz theory of unconscious inference) based on the theory of quantum apparatuses and instruments. We illustrate our...", "citations": 29, "author_count": 2, "categories": [ "Psychology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2148, "doi": "10.3389/fpsyg.2015.00997", "umap_coordinates": { "x": 394.87567138671875, "y": 137.66786193847656, "z": 205.9359893798828 }, "tsne_coordinates": { "x": -21.078031539916992, "y": 9.457880020141602, "z": 20.788673400878906 }, "pca_coordinates": { "x": 2.916382312774658, "y": 4.753700256347656, "z": -2.473867177963257 }, "axis_scores": { "Quantum imaging": 0.7683969736099243, "Quantum Life Science Sensing": 0.766485333442688, "Quantum sensing Detection": 0.7550171613693237, "Quantum sensing Metrology": 0.7318660020828247, "Quantum sensing navigation": 0.7662421464920044, "Quantum sensing Position": 0.732150673866272, "Quantum sensing Timing": 0.7273605465888977, "Quantum sensing": 0.767941415309906, "Quantum control": 0.7714033126831055 } }, { "id": 2146, "title": "Geometric energy transport and refrigeration with driven quantum dots", "abstract": "We study geometric energy transport in a slowly driven single-level quantum dot weakly coupled to electronic contacts and with strong on-site interaction, which can be either repulsive or attractive. ...", "citations": 12, "author_count": 5, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2149, "doi": "10.1103/PhysRevB.106.035405", "umap_coordinates": { "x": 395.28570556640625, "y": 136.54061889648438, "z": 208.55491638183594 }, "tsne_coordinates": { "x": -8.971393585205078, "y": -30.699474334716797, "z": 1.2005934715270996 }, "pca_coordinates": { "x": 4.178410053253174, "y": -1.4638419151306152, "z": 0.434573233127594 }, "axis_scores": { "Quantum imaging": 0.7357121706008911, "Quantum Life Science Sensing": 0.7459238171577454, "Quantum sensing Detection": 0.7407524585723877, "Quantum sensing Metrology": 0.7391947507858276, "Quantum sensing navigation": 0.749760091304779, "Quantum sensing Position": 0.7108868360519409, "Quantum sensing Timing": 0.7068793177604675, "Quantum sensing": 0.7486807107925415, "Quantum control": 0.7443121075630188 } }, { "id": 2147, "title": "Quantum interference of K capture in energetic Ge31+(1s)-Kr collisions", "abstract": "We have measured characteristic K x rays in coincidence with the scattered particles from collisions of hydrogenlike Ge ions with Kr atoms. The ions were first accelerated to 8.6 MeV/amu, post-strippe...", "citations": 3, "author_count": 9, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2150, "doi": "10.1103/PhysRevA.101.042701", "umap_coordinates": { "x": 395.62237548828125, "y": 135.52197265625, "z": 208.40699768066406 }, "tsne_coordinates": { "x": -7.474211692810059, "y": -10.414892196655273, "z": -2.4169716835021973 }, "pca_coordinates": { "x": 4.501201152801514, "y": 0.45518314838409424, "z": 1.0809001922607422 }, "axis_scores": { "Quantum imaging": 0.7151775360107422, "Quantum Life Science Sensing": 0.7015199661254883, "Quantum sensing Detection": 0.7143140435218811, "Quantum sensing Metrology": 0.6896119713783264, "Quantum sensing navigation": 0.7034953236579895, "Quantum sensing Position": 0.6864079833030701, "Quantum sensing Timing": 0.6943175196647644, "Quantum sensing": 0.7144501209259033, "Quantum control": 0.6720709800720215 } }, { "id": 2148, "title": "Competitive Hole Transfer from CdSe Quantum Dots to Thiol Ligands in CdSe-Cobaloxime Sensitized NiO Films Used as Photocathodes for H2 Evolution", "abstract": "Quantum dot (QD) sensitized NiO photocathodes rely on efficient photoinduced hole injection into the NiO valence band. A system of a mesoporous NiO film co-sensitized with CdSe QDs and a molecular pro...", "citations": 38, "author_count": 5, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2151, "doi": "10.1021/acsenergylett.7b00730", "umap_coordinates": { "x": 391.55767822265625, "y": 134.19003295898438, "z": 205.29812622070312 }, "tsne_coordinates": { "x": 18.230764389038086, "y": 1.5316276550292969, "z": -2.483203172683716 }, "pca_coordinates": { "x": -1.9811880588531494, "y": -4.03797721862793, "z": -2.198246479034424 }, "axis_scores": { "Quantum imaging": 0.683008074760437, "Quantum Life Science Sensing": 0.7026118636131287, "Quantum sensing Detection": 0.6747201085090637, "Quantum sensing Metrology": 0.653944194316864, "Quantum sensing navigation": 0.6727844476699829, "Quantum sensing Position": 0.6622657179832458, "Quantum sensing Timing": 0.6569730639457703, "Quantum sensing": 0.6811534762382507, "Quantum control": 0.6587156057357788 } }, { "id": 2149, "title": "Modifying magnetic dipole spontaneous emission with nanophotonic structures", "abstract": "Tailoring of electromagnetic spontaneous emission predicted by E. M. Purcell more than 50 years ago has undoubtedly proven to be one of the most important effects in the rich areas of quantum optics a...", "citations": 148, "author_count": 6, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2152, "doi": "10.1002/lpor.201600268", "umap_coordinates": { "x": 393.0425720214844, "y": 134.19253540039062, "z": 206.09393310546875 }, "tsne_coordinates": { "x": 28.16802215576172, "y": -6.187510967254639, "z": -24.17902183532715 }, "pca_coordinates": { "x": -1.6107213497161865, "y": -0.6823196411132812, "z": -0.3810136914253235 }, "axis_scores": { "Quantum imaging": 0.7172790169715881, "Quantum Life Science Sensing": 0.7112559080123901, "Quantum sensing Detection": 0.6896628737449646, "Quantum sensing Metrology": 0.6982864141464233, "Quantum sensing navigation": 0.7057891488075256, "Quantum sensing Position": 0.661115288734436, "Quantum sensing Timing": 0.6538848280906677, "Quantum sensing": 0.7090426683425903, "Quantum control": 0.7091901302337646 } }, { "id": 2150, "title": "Supercycled symmetry-based double-quantum dipolar recoupling of quadrupolar spins in MAS NMR: I. Theory", "abstract": "Using average Hamiltonian (AH) theory, we analyze recently introduced homonuclear dipolar recoupling pulse sequences for exciting central-transition double-quantum coherences (2QC) between half-intege...", "citations": 19, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2153, "doi": "10.1016/j.jmr.2009.07.007", "umap_coordinates": { "x": 392.5695495605469, "y": 137.15057373046875, "z": 206.96585083007812 }, "tsne_coordinates": { "x": 12.197349548339844, "y": -1.1675158739089966, "z": 32.51824188232422 }, "pca_coordinates": { "x": 1.1450591087341309, "y": 1.4751873016357422, "z": -3.4346656799316406 }, "axis_scores": { "Quantum imaging": 0.7118250727653503, "Quantum Life Science Sensing": 0.7226427793502808, "Quantum sensing Detection": 0.6917307376861572, "Quantum sensing Metrology": 0.6990283131599426, "Quantum sensing navigation": 0.7102538347244263, "Quantum sensing Position": 0.676043689250946, "Quantum sensing Timing": 0.6872509121894836, "Quantum sensing": 0.7039774656295776, "Quantum control": 0.6998684406280518 } }, { "id": 2151, "title": "Electrical activity of deep levels in the presence of InAs/GaAs quantum dots", "abstract": "Deep level transient spectroscopy (DLTS) was used to measure the electrical activity of deep-level defects present in samples with InAs/GaAs quantum dots (QDs). Two of three electron traps revealed in...", "citations": 10, "author_count": 5, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2154, "doi": "10.1016/j.mssp.2006.01.004", "umap_coordinates": { "x": 392.8631286621094, "y": 134.2695770263672, "z": 207.6484832763672 }, "tsne_coordinates": { "x": 38.05769729614258, "y": -9.703043937683105, "z": 10.366875648498535 }, "pca_coordinates": { "x": -0.4883761405944824, "y": -1.9401345252990723, "z": 0.7177583575248718 }, "axis_scores": { "Quantum imaging": 0.7236058712005615, "Quantum Life Science Sensing": 0.7406831979751587, "Quantum sensing Detection": 0.7284865379333496, "Quantum sensing Metrology": 0.7084605097770691, "Quantum sensing navigation": 0.7043659090995789, "Quantum sensing Position": 0.717475950717926, "Quantum sensing Timing": 0.6962076425552368, "Quantum sensing": 0.7327629327774048, "Quantum control": 0.6719319224357605 } }, { "id": 2152, "title": "Quantum ratchets and quantum heat pumps", "abstract": "Quantum ratchets are Brownian motors in which the quantum dynamics of particles induces qualitatively new behavior. We review a series of experiments in which asymmetric semiconductor devices of sub-m...", "citations": 70, "author_count": 10, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2155, "doi": "10.1007/s003390201335", "umap_coordinates": { "x": 394.8558349609375, "y": 136.37229919433594, "z": 206.10980224609375 }, "tsne_coordinates": { "x": -28.818979263305664, "y": 9.459068298339844, "z": 7.723348140716553 }, "pca_coordinates": { "x": 0.8331515789031982, "y": 0.9271738529205322, "z": -1.7345678806304932 }, "axis_scores": { "Quantum imaging": 0.7291447520256042, "Quantum Life Science Sensing": 0.7480497360229492, "Quantum sensing Detection": 0.7347841262817383, "Quantum sensing Metrology": 0.7328785061836243, "Quantum sensing navigation": 0.7637664675712585, "Quantum sensing Position": 0.7313175201416016, "Quantum sensing Timing": 0.714560329914093, "Quantum sensing": 0.7587562203407288, "Quantum control": 0.7697528600692749 } }, { "id": 2153, "title": "Tunneling in hydrogen and deuterium atom addition to CO at low temperatures", "abstract": "The hydrogen and deuterium atom addition reactions of CO to form HCO and DCO are addressed by Harmonic Quantum Transition State Theory calculations. Special attention is paid to the reactions at very ...", "citations": 58, "author_count": 4, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2156, "doi": "10.1016/j.cplett.2011.07.073", "umap_coordinates": { "x": 393.78851318359375, "y": 136.48748779296875, "z": 206.78480529785156 }, "tsne_coordinates": { "x": -11.903304100036621, "y": 5.101384162902832, "z": 36.928165435791016 }, "pca_coordinates": { "x": 1.9067103862762451, "y": 1.323584794998169, "z": -0.8624776005744934 }, "axis_scores": { "Quantum imaging": 0.6885970830917358, "Quantum Life Science Sensing": 0.6910099387168884, "Quantum sensing Detection": 0.6921605467796326, "Quantum sensing Metrology": 0.663144588470459, "Quantum sensing navigation": 0.6788062453269958, "Quantum sensing Position": 0.6751945614814758, "Quantum sensing Timing": 0.7030029892921448, "Quantum sensing": 0.6915178894996643, "Quantum control": 0.679361879825592 } }, { "id": 2154, "title": "Photoluminescence line shapes for color centers in silicon carbide from density functional theory calculations", "abstract": "Silicon carbide with optically and magnetically active point defects offers unique opportunities for quantum technology applications. Since interaction with these defects commonly happens through opti...", "citations": 23, "author_count": 7, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2157, "doi": "10.1103/PhysRevB.103.125203", "umap_coordinates": { "x": 394.61767578125, "y": 136.55322265625, "z": 208.1485595703125 }, "tsne_coordinates": { "x": -16.553829193115234, "y": -37.29584884643555, "z": -8.242816925048828 }, "pca_coordinates": { "x": 2.2027859687805176, "y": -1.724782943725586, "z": -0.0392986536026001 }, "axis_scores": { "Quantum imaging": 0.6760643720626831, "Quantum Life Science Sensing": 0.6902040243148804, "Quantum sensing Detection": 0.6762964725494385, "Quantum sensing Metrology": 0.6608104705810547, "Quantum sensing navigation": 0.6718989610671997, "Quantum sensing Position": 0.662104070186615, "Quantum sensing Timing": 0.6454970836639404, "Quantum sensing": 0.6758823394775391, "Quantum control": 0.6548884510993958 } }, { "id": 2155, "title": "Effect of substrate proximity on luminescence yield from Si nanocrystals", "abstract": "The influence of the proximity of a high refractive index substrate on the luminescence of Si nanocrystals was investigated by time-integrated and time-resolved photoluminescence. The luminescence yie...", "citations": 10, "author_count": 7, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2158, "doi": "10.1063/1.2226976", "umap_coordinates": { "x": 393.1675109863281, "y": 133.4114227294922, "z": 207.6703643798828 }, "tsne_coordinates": { "x": 33.92275619506836, "y": -13.92343807220459, "z": -7.611623764038086 }, "pca_coordinates": { "x": -1.403425931930542, "y": -2.888611316680908, "z": 2.4225053787231445 }, "axis_scores": { "Quantum imaging": 0.7335373759269714, "Quantum Life Science Sensing": 0.7409876585006714, "Quantum sensing Detection": 0.7436428070068359, "Quantum sensing Metrology": 0.7349296808242798, "Quantum sensing navigation": 0.6998488903045654, "Quantum sensing Position": 0.7280950546264648, "Quantum sensing Timing": 0.6974585056304932, "Quantum sensing": 0.7496238946914673, "Quantum control": 0.6927725672721863 } }, { "id": 2156, "title": "Nitrogen and phosphorous doped graphene quantum dots: Excellent flame retardants and smoke suppressants for polyacrylonitrile nanocomposites", "abstract": "Nitrogen (N-GQD) as well as nitrogen and phosphorous co-doped (NP-GQD) graphene quantum dots were demonstrated as novel, low cost, green and highly effective flame retardants and smoke suppressants fo...", "citations": 106, "author_count": 5, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2159, "doi": "10.1016/j.jhazmat.2019.121013", "umap_coordinates": { "x": 392.966552734375, "y": 133.60122680664062, "z": 205.02630615234375 }, "tsne_coordinates": { "x": 24.721996307373047, "y": 14.394499778747559, "z": -4.317923069000244 }, "pca_coordinates": { "x": -3.851264238357544, "y": -1.2405869960784912, "z": 0.5143162608146667 }, "axis_scores": { "Quantum imaging": 0.7165172100067139, "Quantum Life Science Sensing": 0.720817506313324, "Quantum sensing Detection": 0.7119051218032837, "Quantum sensing Metrology": 0.685705840587616, "Quantum sensing navigation": 0.6999940872192383, "Quantum sensing Position": 0.6815987229347229, "Quantum sensing Timing": 0.6765639185905457, "Quantum sensing": 0.7265443801879883, "Quantum control": 0.7153655290603638 } }, { "id": 2157, "title": "Influence of the surface termination to the point imaging by a photonic crystal slab with negative refraction", "abstract": "Point imaging by a photonic crystal slab due to the negative refraction is studied theoretically. By investigating the transfer function of the imaging system, the influence of the surface termination...", "citations": 123, "author_count": 5, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2160, "doi": "10.1063/1.1814430", "umap_coordinates": { "x": 393.3563232421875, "y": 134.17686462402344, "z": 207.46803283691406 }, "tsne_coordinates": { "x": 11.100008010864258, "y": -14.609871864318848, "z": -33.278968811035156 }, "pca_coordinates": { "x": -1.3011142015457153, "y": -0.4112825393676758, "z": 2.802234172821045 }, "axis_scores": { "Quantum imaging": 0.7320022583007812, "Quantum Life Science Sensing": 0.6972811222076416, "Quantum sensing Detection": 0.7137157917022705, "Quantum sensing Metrology": 0.7006794214248657, "Quantum sensing navigation": 0.706093430519104, "Quantum sensing Position": 0.7179727554321289, "Quantum sensing Timing": 0.6731699705123901, "Quantum sensing": 0.7108532190322876, "Quantum control": 0.6922767758369446 } }, { "id": 2158, "title": "SHIFTS AND WIDTHS OF METAL-OVERLAYER QUANTUM-WELL STATES NEAR E(F) OBSERVED BY PHOTOEMISSION", "abstract": "Photoelectron energy spectra reveal discrete valence-electron states in the range 0-220 meV above E(F) for 1-3 atomic layers of Na on Cu(111). Apart from a stepwise dependence on the number of atomic ...", "citations": 28, "author_count": 5, "categories": [ "Materials Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 2161, "doi": "10.1103/PhysRevB.50.8926", "umap_coordinates": { "x": 393.8348388671875, "y": 135.5009765625, "z": 207.80726623535156 }, "tsne_coordinates": { "x": 2.4068846702575684, "y": -41.85746765136719, "z": -6.3714752197265625 }, "pca_coordinates": { "x": 2.2616569995880127, "y": -1.9774327278137207, "z": 0.13261955976486206 }, "axis_scores": { "Quantum imaging": 0.7014536261558533, "Quantum Life Science Sensing": 0.7116706967353821, "Quantum sensing Detection": 0.7047948837280273, "Quantum sensing Metrology": 0.7165202498435974, "Quantum sensing navigation": 0.688554048538208, "Quantum sensing Position": 0.7095022797584534, "Quantum sensing Timing": 0.6909311413764954, "Quantum sensing": 0.7114696502685547, "Quantum control": 0.6482880115509033 } }, { "id": 2159, "title": "Optimization of a dual-energy contrast-enhanced technique for a photon counting digital breast tomosynthesis system", "abstract": "We have developed a dual-energy technique for contrast-enhanced digital breast tomosynthesis using a photon-counting imaging system whereby low- and high-energy images are acquired in a single scan. A...", "citations": 7, "author_count": 6, "categories": [ "Computer Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2162, "doi": null, "umap_coordinates": { "x": 391.4737243652344, "y": 139.26405334472656, "z": 209.5489959716797 }, "tsne_coordinates": { "x": -0.01569179631769657, "y": 36.9399299621582, "z": -5.666641712188721 }, "pca_coordinates": { "x": -3.3891239166259766, "y": 4.042201995849609, "z": 1.065016269683838 }, "axis_scores": { "Quantum imaging": 0.7325130701065063, "Quantum Life Science Sensing": 0.6980523467063904, "Quantum sensing Detection": 0.7064230442047119, "Quantum sensing Metrology": 0.6872281432151794, "Quantum sensing navigation": 0.7062532901763916, "Quantum sensing Position": 0.6761597990989685, "Quantum sensing Timing": 0.6859300136566162, "Quantum sensing": 0.7036758661270142, "Quantum control": 0.697860062122345 } }, { "id": 2160, "title": "Nonclassical Hydrophobic Effect in Micellization: Molecular Arrangement of Non-Amphiphilic Structures", "abstract": "Micellization brought about by nonclassical hydrophobic effect invokes enthalpy as the driving force. Thus, the underlying molecular phenomena differ from the entropically dominated hydrophobic effect...", "citations": 23, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2163, "doi": "10.1002/adts.201700002", "umap_coordinates": { "x": 393.2844543457031, "y": 135.99661254882812, "z": 204.92623901367188 }, "tsne_coordinates": { "x": 27.082529067993164, "y": 21.14518165588379, "z": 10.922903060913086 }, "pca_coordinates": { "x": -1.038870930671692, "y": 1.3866705894470215, "z": -4.089358806610107 }, "axis_scores": { "Quantum imaging": 0.6919127702713013, "Quantum Life Science Sensing": 0.716745138168335, "Quantum sensing Detection": 0.6649881601333618, "Quantum sensing Metrology": 0.6696179509162903, "Quantum sensing navigation": 0.6649226546287537, "Quantum sensing Position": 0.653200089931488, "Quantum sensing Timing": 0.645928680896759, "Quantum sensing": 0.686223030090332, "Quantum control": 0.6848759651184082 } }, { "id": 2161, "title": "Compositional analysis of Si/SiGe quantum dots using STEM and EDX", "abstract": "Ge islands fabricated on Si(100) by molecular beam epitaxy at different growth temperatures, were studied using cross-sectional scanning transmission electron microscopy and energy-dispersive X-ray sp...", "citations": 2, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2164, "doi": "10.1117/12.647318", "umap_coordinates": { "x": 393.6260681152344, "y": 133.3506622314453, "z": 206.9894561767578 }, "tsne_coordinates": { "x": 40.027618408203125, "y": -6.320032596588135, "z": -2.9102792739868164 }, "pca_coordinates": { "x": -1.1519532203674316, "y": -1.7852773666381836, "z": 1.535735845565796 }, "axis_scores": { "Quantum imaging": 0.7332371473312378, "Quantum Life Science Sensing": 0.7553496956825256, "Quantum sensing Detection": 0.7340914011001587, "Quantum sensing Metrology": 0.740865170955658, "Quantum sensing navigation": 0.7300311326980591, "Quantum sensing Position": 0.7231062054634094, "Quantum sensing Timing": 0.6954672336578369, "Quantum sensing": 0.7446681261062622, "Quantum control": 0.7022911310195923 } }, { "id": 2162, "title": "Canyon of current suppression in an interacting two-level quantum dot", "abstract": "Motivated by the recent discovery of a canyon of conductance suppression in a two-level equal-spin quantum dot system [Phys. Rev. Lett. 104, 186804 (2010)], the transport through this system is studie...", "citations": 18, "author_count": 5, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2165, "doi": "10.1103/PhysRevB.83.205412", "umap_coordinates": { "x": 394.2157287597656, "y": 135.49285888671875, "z": 208.71725463867188 }, "tsne_coordinates": { "x": -5.285051345825195, "y": -28.341068267822266, "z": -1.910976767539978 }, "pca_coordinates": { "x": 3.8580613136291504, "y": -1.7288451194763184, "z": 0.6896988749504089 }, "axis_scores": { "Quantum imaging": 0.7334824800491333, "Quantum Life Science Sensing": 0.7020690441131592, "Quantum sensing Detection": 0.7232771515846252, "Quantum sensing Metrology": 0.7082828283309937, "Quantum sensing navigation": 0.7154175639152527, "Quantum sensing Position": 0.6836872100830078, "Quantum sensing Timing": 0.681147575378418, "Quantum sensing": 0.7220691442489624, "Quantum control": 0.7278488278388977 } }, { "id": 2163, "title": "A Gaussian reflective metasurface for advanced wavefront manipulation", "abstract": "Metasurfaces enable us to control the fundamental properties of light with unprecedented flexibility. However, most metasurfaces realized to date aim at modifying plane waves. While the manipulation o...", "citations": 13, "author_count": 7, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2166, "doi": "10.1364/OE.27.021069", "umap_coordinates": { "x": 394.2562255859375, "y": 134.20664978027344, "z": 206.16326904296875 }, "tsne_coordinates": { "x": -0.46379777789115906, "y": -16.795063018798828, "z": -32.83757400512695 }, "pca_coordinates": { "x": -1.4606809616088867, "y": 0.637535572052002, "z": 2.15907621383667 }, "axis_scores": { "Quantum imaging": 0.7041968107223511, "Quantum Life Science Sensing": 0.6789162158966064, "Quantum sensing Detection": 0.6834787130355835, "Quantum sensing Metrology": 0.6879400610923767, "Quantum sensing navigation": 0.7051502466201782, "Quantum sensing Position": 0.6833792924880981, "Quantum sensing Timing": 0.6527484059333801, "Quantum sensing": 0.6948459148406982, "Quantum control": 0.6756057143211365 } }, { "id": 2164, "title": "3D Spectroscopy of Vibrational Coherences in Quantum Dots: Theory", "abstract": "In semiconductor nanocrystals, called quantum dots (QD), electronic transition energies, phonon frequencies, and electron-phonon coupling strengths are all reported to depend on the size of the crysta...", "citations": 38, "author_count": 4, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2167, "doi": "10.1021/jp4011444", "umap_coordinates": { "x": 392.6818542480469, "y": 136.23233032226562, "z": 206.76625061035156 }, "tsne_coordinates": { "x": 8.295310974121094, "y": -1.818312406539917, "z": 11.298929214477539 }, "pca_coordinates": { "x": 1.931206464767456, "y": -1.672722339630127, "z": -1.8407702445983887 }, "axis_scores": { "Quantum imaging": 0.782927393913269, "Quantum Life Science Sensing": 0.8044562935829163, "Quantum sensing Detection": 0.7841716408729553, "Quantum sensing Metrology": 0.7608253955841064, "Quantum sensing navigation": 0.765902578830719, "Quantum sensing Position": 0.7451138496398926, "Quantum sensing Timing": 0.7266554832458496, "Quantum sensing": 0.7916586399078369, "Quantum control": 0.7646461725234985 } }, { "id": 2165, "title": "Nitrogen and iron co-doped carbon quantum dots/MnO2 nanowire composites for flexible solid-state supercapacitors with high areal capacitance", "abstract": "Herein, the synthesis of MnO2 nanowires decorated with transition metal-doped carbon quantum dots (MCQDs) is described for use as binder-free flexible solid-state supercapacitors. In particular, the w...", "citations": 6, "author_count": 3, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2168, "doi": "10.1016/j.jallcom.2023.171021", "umap_coordinates": { "x": 392.8133544921875, "y": 133.46322631835938, "z": 205.00701904296875 }, "tsne_coordinates": { "x": 24.836305618286133, "y": 10.714271545410156, "z": -5.984043121337891 }, "pca_coordinates": { "x": -3.059760808944702, "y": -3.0843377113342285, "z": 0.6417906880378723 }, "axis_scores": { "Quantum imaging": 0.6677812337875366, "Quantum Life Science Sensing": 0.7035475373268127, "Quantum sensing Detection": 0.679817795753479, "Quantum sensing Metrology": 0.6754564642906189, "Quantum sensing navigation": 0.6754478812217712, "Quantum sensing Position": 0.654152512550354, "Quantum sensing Timing": 0.6367264986038208, "Quantum sensing": 0.6929800510406494, "Quantum control": 0.6689094305038452 } }, { "id": 2166, "title": "Energy level quantization in a YBa2Cu3O7-δ Josephson junction", "abstract": "We have observed energy level quantization in an all high critical temperature superconductor d-wave Josephson junction. From the measurements we have also extracted the quality factor Q of the juncti...", "citations": 2, "author_count": 10, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2169, "doi": "10.1016/j.physc.2007.03.339", "umap_coordinates": { "x": 393.9529113769531, "y": 134.99380493164062, "z": 208.02407836914062 }, "tsne_coordinates": { "x": 0.07295184582471848, "y": -20.345855712890625, "z": 15.187134742736816 }, "pca_coordinates": { "x": 2.0843522548675537, "y": -1.5179939270019531, "z": -0.6644822359085083 }, "axis_scores": { "Quantum imaging": 0.7313245534896851, "Quantum Life Science Sensing": 0.7189324498176575, "Quantum sensing Detection": 0.7258045673370361, "Quantum sensing Metrology": 0.7107914090156555, "Quantum sensing navigation": 0.7456815838813782, "Quantum sensing Position": 0.7326762676239014, "Quantum sensing Timing": 0.7105088829994202, "Quantum sensing": 0.7311868071556091, "Quantum control": 0.7194994688034058 } }, { "id": 2167, "title": "The passivating effect of cadmium in PbS/CdS colloidal quantum dots probed by nm-scale depth profiling", "abstract": "Achieving control of the surface chemistry of colloidal quantum dots (CQDs) is essential to fully exploit their properties in solar cells, but direct measurement of the chemistry and electronic struct...", "citations": 36, "author_count": 20, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2170, "doi": "10.1039/c7nr00672a", "umap_coordinates": { "x": 392.193603515625, "y": 134.4591064453125, "z": 206.423095703125 }, "tsne_coordinates": { "x": 15.544841766357422, "y": -3.5037436485290527, "z": 0.9457395672798157 }, "pca_coordinates": { "x": -1.956939458847046, "y": -2.3087778091430664, "z": 0.5245081782341003 }, "axis_scores": { "Quantum imaging": 0.7299180626869202, "Quantum Life Science Sensing": 0.7505701780319214, "Quantum sensing Detection": 0.741664469242096, "Quantum sensing Metrology": 0.7268439531326294, "Quantum sensing navigation": 0.7445756196975708, "Quantum sensing Position": 0.7468034625053406, "Quantum sensing Timing": 0.6954658627510071, "Quantum sensing": 0.7421436309814453, "Quantum control": 0.6948918104171753 } }, { "id": 2168, "title": "Cyclodextrin Insulation Prevents Static Quenching of Conjugated Polymer Fluorescence at the Single Molecule Level", "abstract": "Conjugated polymers (CPs) are promising materials for fluorescence imaging application. However, a significant problem in this field is the unexplained abnormally low fluorescence brightness (or numbe...", "citations": 37, "author_count": 8, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2171, "doi": "10.1002/smll.201203272", "umap_coordinates": { "x": 392.9226379394531, "y": 135.5136260986328, "z": 205.297119140625 }, "tsne_coordinates": { "x": 0.8624924421310425, "y": -4.791834831237793, "z": -17.98764419555664 }, "pca_coordinates": { "x": -1.7025818824768066, "y": -0.6532614231109619, "z": -1.2539575099945068 }, "axis_scores": { "Quantum imaging": 0.6837245225906372, "Quantum Life Science Sensing": 0.7242922186851501, "Quantum sensing Detection": 0.6910502314567566, "Quantum sensing Metrology": 0.6643380522727966, "Quantum sensing navigation": 0.6787754893302917, "Quantum sensing Position": 0.6622249484062195, "Quantum sensing Timing": 0.657540500164032, "Quantum sensing": 0.697338879108429, "Quantum control": 0.6795700788497925 } }, { "id": 2169, "title": "Analysis of ischemic stroke-mediated effects on blood-brain barrier properties along the arteriovenous axis assessed by intravital two-photon imaging", "abstract": "Early breach of the blood-brain barrier (BBB) and consequently extravasation of blood-borne substances into the brain parenchyma is a common hallmark of ischemic stroke. Although BBB breakdown is asso...", "citations": 7, "author_count": 5, "categories": [ "Neurosciences & Neurology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2172, "doi": "10.1186/s12987-024-00537-5", "umap_coordinates": { "x": 394.97235107421875, "y": 134.54171752929688, "z": 204.60267639160156 }, "tsne_coordinates": { "x": 0.17449255287647247, "y": 27.006175994873047, "z": 0.09487977623939514 }, "pca_coordinates": { "x": -2.016481399536133, "y": 2.652067184448242, "z": 0.5211507678031921 }, "axis_scores": { "Quantum imaging": 0.7349965572357178, "Quantum Life Science Sensing": 0.6758145689964294, "Quantum sensing Detection": 0.6701921820640564, "Quantum sensing Metrology": 0.654517650604248, "Quantum sensing navigation": 0.7022011280059814, "Quantum sensing Position": 0.6629482507705688, "Quantum sensing Timing": 0.6634962558746338, "Quantum sensing": 0.6796837449073792, "Quantum control": 0.6611207127571106 } }, { "id": 2170, "title": "Ultra-Low-Cost Design of Ripple Carry Adder to Design Nanoelectronics in QCA Nanotechnology", "abstract": "Due to the development of integrated circuits and the lack of responsiveness to existing technology, researchers are looking for an alternative technology. Quantum-dot cellular automata (QCA) technolo...", "citations": 13, "author_count": 5, "categories": [ "Computer Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2173, "doi": "10.3390/electronics11152320", "umap_coordinates": { "x": 393.1566467285156, "y": 133.9873046875, "z": 205.70626831054688 }, "tsne_coordinates": { "x": -11.09712028503418, "y": 9.492789268493652, "z": 1.6378352642059326 }, "pca_coordinates": { "x": -1.407558798789978, "y": -1.5022575855255127, "z": -0.6501051783561707 }, "axis_scores": { "Quantum imaging": 0.711633026599884, "Quantum Life Science Sensing": 0.7477365136146545, "Quantum sensing Detection": 0.734748125076294, "Quantum sensing Metrology": 0.7257359623908997, "Quantum sensing navigation": 0.7246948480606079, "Quantum sensing Position": 0.69376540184021, "Quantum sensing Timing": 0.705537736415863, "Quantum sensing": 0.7499275207519531, "Quantum control": 0.7405992150306702 } }, { "id": 2171, "title": "Large, Tunable, and Reversible pH Changes by Merocyanine Photoacids", "abstract": "Molecular photoswitches capable of generating precise pH changes will allow pH-dependent processes to be controlled remotely and noninvasively with light. We introduce a series of new merocyanine phot...", "citations": 101, "author_count": 7, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2174, "doi": "10.1021/jacs.1c08810", "umap_coordinates": { "x": 392.0299987792969, "y": 136.17425537109375, "z": 204.86424255371094 }, "tsne_coordinates": { "x": -2.8789851665496826, "y": 4.0135626792907715, "z": -5.886439800262451 }, "pca_coordinates": { "x": -3.3817734718322754, "y": -1.080639123916626, "z": -2.78171706199646 }, "axis_scores": { "Quantum imaging": 0.7002125978469849, "Quantum Life Science Sensing": 0.7449257969856262, "Quantum sensing Detection": 0.7008737921714783, "Quantum sensing Metrology": 0.7020984292030334, "Quantum sensing navigation": 0.6797260642051697, "Quantum sensing Position": 0.6711855530738831, "Quantum sensing Timing": 0.6767622828483582, "Quantum sensing": 0.7260519862174988, "Quantum control": 0.7060109376907349 } }, { "id": 2172, "title": "Intrinsic blinking characteristics of single colloidal CdSe-CdS/ZnS core-multishell quantum dots", "abstract": "Fluorescence blinking of single colloidal semiconductor quantum dots (QDs) has been extensively studied, and several sophisticated models have been proposed. In this work, we derive Heisenberg equatio...", "citations": 5, "author_count": 7, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2175, "doi": "10.1103/PhysRevB.99.035404", "umap_coordinates": { "x": 393.6167907714844, "y": 134.00131225585938, "z": 208.28350830078125 }, "tsne_coordinates": { "x": 25.19326400756836, "y": 0.8245446085929871, "z": 5.068707466125488 }, "pca_coordinates": { "x": 1.3484132289886475, "y": -4.374828338623047, "z": -0.035626888275146484 }, "axis_scores": { "Quantum imaging": 0.7267025709152222, "Quantum Life Science Sensing": 0.7570778131484985, "Quantum sensing Detection": 0.7328593134880066, "Quantum sensing Metrology": 0.7124249935150146, "Quantum sensing navigation": 0.7141256928443909, "Quantum sensing Position": 0.7007696032524109, "Quantum sensing Timing": 0.6906444430351257, "Quantum sensing": 0.737110435962677, "Quantum control": 0.7039879560470581 } }, { "id": 2173, "title": "Stresses and strains in epilayers, stripes and quantum structures of III-V compound semiconductors", "abstract": "Stresses and strains in heterostructures have dominated semiconductor research during the last ten years. We review the theory and experimental work on stresses in III-V semiconductor heterostructures...", "citations": 202, "author_count": 4, "categories": [ "Engineering" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2176, "doi": "10.1088/0268-1242/11/5/004", "umap_coordinates": { "x": 393.1690673828125, "y": 134.52322387695312, "z": 207.24130249023438 }, "tsne_coordinates": { "x": 28.401824951171875, "y": -17.84760856628418, "z": 15.012269020080566 }, "pca_coordinates": { "x": 0.7383447885513306, "y": -0.7425966262817383, "z": 0.3773598074913025 }, "axis_scores": { "Quantum imaging": 0.7214389443397522, "Quantum Life Science Sensing": 0.7030304074287415, "Quantum sensing Detection": 0.6775566339492798, "Quantum sensing Metrology": 0.6931998133659363, "Quantum sensing navigation": 0.6948879361152649, "Quantum sensing Position": 0.6986619830131531, "Quantum sensing Timing": 0.7017210125923157, "Quantum sensing": 0.7019790410995483, "Quantum control": 0.6873968839645386 } }, { "id": 2174, "title": "Endocytic pathway of vascular cell adhesion molecule 1 in human umbilical vein endothelial cell identified in vitro by using functionalized nontoxic fluorescent quantum dots", "abstract": "Studies about vascular cell adhesion molecule 1 (VCAM1) in tumor growth, metastasis, and angiogenesis suggest that targeting VCAM1 expression is an attractive strategy for diagnosis and anti-tumor the...", "citations": 3, "author_count": 8, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2177, "doi": "10.1016/j.snb.2019.126702", "umap_coordinates": { "x": 394.1525573730469, "y": 134.54067993164062, "z": 204.53379821777344 }, "tsne_coordinates": { "x": 7.744391918182373, "y": 28.813541412353516, "z": -8.335824966430664 }, "pca_coordinates": { "x": -3.2894630432128906, "y": -0.08850288391113281, "z": 0.4029608368873596 }, "axis_scores": { "Quantum imaging": 0.7291346788406372, "Quantum Life Science Sensing": 0.7337576150894165, "Quantum sensing Detection": 0.7313292622566223, "Quantum sensing Metrology": 0.6969800591468811, "Quantum sensing navigation": 0.7396925091743469, "Quantum sensing Position": 0.6896008849143982, "Quantum sensing Timing": 0.6743014454841614, "Quantum sensing": 0.7257615923881531, "Quantum control": 0.701624870300293 } }, { "id": 2175, "title": "Dissociative recombination and excitation of O2+: Cross sections, product yields and implications for studies of ionospheric airglows", "abstract": "We present experimental data on the dissociative recombination (DR) and the dissociative excitation (DE) of O-2(+) in its electronic and vibrational ground state using a heavy ion storage ring. The ab...", "citations": 130, "author_count": 12, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2178, "doi": "10.1063/1.1349079", "umap_coordinates": { "x": 393.7433776855469, "y": 135.87876892089844, "z": 206.71163940429688 }, "tsne_coordinates": { "x": -4.291257858276367, "y": -4.587180137634277, "z": 2.0560545921325684 }, "pca_coordinates": { "x": -0.8597695827484131, "y": 0.2754790782928467, "z": -2.1959526538848877 }, "axis_scores": { "Quantum imaging": 0.6860658526420593, "Quantum Life Science Sensing": 0.703244686126709, "Quantum sensing Detection": 0.6693663001060486, "Quantum sensing Metrology": 0.6553531885147095, "Quantum sensing navigation": 0.6501036882400513, "Quantum sensing Position": 0.6236078143119812, "Quantum sensing Timing": 0.6172305941581726, "Quantum sensing": 0.6834315061569214, "Quantum control": 0.6476407647132874 } }, { "id": 2176, "title": "Quantum mechanics and the theory of hydrogen bond and proton transfer. Beyond a Born-Oppenheimer description of chemical interconversions", "abstract": "A recent quantum-mechanical theory of elementary chemical interconversion steps is extended and applied to discuss the fundamentals of hydrogen bonding and proton transfer. A chemical reaction, being ...", "citations": 6, "author_count": 2, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2179, "doi": "10.1016/S0166-1280(98)00015-3", "umap_coordinates": { "x": 394.2522277832031, "y": 137.1181182861328, "z": 205.79183959960938 }, "tsne_coordinates": { "x": -9.690970420837402, "y": 12.687477111816406, "z": 25.108474731445312 }, "pca_coordinates": { "x": 0.6705307960510254, "y": 2.45047926902771, "z": -1.3759039640426636 }, "axis_scores": { "Quantum imaging": 0.7382395267486572, "Quantum Life Science Sensing": 0.7648321986198425, "Quantum sensing Detection": 0.7192578911781311, "Quantum sensing Metrology": 0.7343933582305908, "Quantum sensing navigation": 0.7244370579719543, "Quantum sensing Position": 0.6946513056755066, "Quantum sensing Timing": 0.7006728649139404, "Quantum sensing": 0.7436384558677673, "Quantum control": 0.7080336213111877 } }, { "id": 2177, "title": "Feasibility of unconstrained three-material decomposition: imaging an excised human heart using a prototype silicon photon-counting CT detector", "abstract": "Rationale and objectives The purpose of this study was to evaluate the feasibility of unconstrained three-material decomposition in a human tissue specimen containing iodinated contrast agent, using a...", "citations": 29, "author_count": 10, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2180, "doi": "10.1007/s00330-020-07017-y", "umap_coordinates": { "x": 395.02996826171875, "y": 133.0452423095703, "z": 205.2071075439453 }, "tsne_coordinates": { "x": -4.333667278289795, "y": 16.948904037475586, "z": -16.256845474243164 }, "pca_coordinates": { "x": -3.3790717124938965, "y": 3.132601737976074, "z": 2.2125954627990723 }, "axis_scores": { "Quantum imaging": 0.6886758208274841, "Quantum Life Science Sensing": 0.6785025596618652, "Quantum sensing Detection": 0.6645990610122681, "Quantum sensing Metrology": 0.6342858076095581, "Quantum sensing navigation": 0.6368839144706726, "Quantum sensing Position": 0.6372114419937134, "Quantum sensing Timing": 0.6335746645927429, "Quantum sensing": 0.6633744835853577, "Quantum control": 0.6118162870407104 } }, { "id": 2178, "title": "Autonomous self-healing hybrid energy harvester based on the combination of triboelectric nanogenerator and quantum dot solar cell", "abstract": "Realization of multi-source energy harvesting with one single device would maximize power output. Thus, it is emerging as a promising strategy towards renewable energy generation and has attracted wor...", "citations": 20, "author_count": 17, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2181, "doi": "10.1016/j.nanoen.2024.109555", "umap_coordinates": { "x": 392.8380432128906, "y": 133.5652618408203, "z": 205.316162109375 }, "tsne_coordinates": { "x": 26.325204849243164, "y": 5.577206611633301, "z": -10.407382011413574 }, "pca_coordinates": { "x": -1.061610221862793, "y": -3.2115774154663086, "z": 0.15069472789764404 }, "axis_scores": { "Quantum imaging": 0.7018821239471436, "Quantum Life Science Sensing": 0.7530519962310791, "Quantum sensing Detection": 0.7197283506393433, "Quantum sensing Metrology": 0.7041906118392944, "Quantum sensing navigation": 0.6918385028839111, "Quantum sensing Position": 0.6775423288345337, "Quantum sensing Timing": 0.6746220588684082, "Quantum sensing": 0.7280641794204712, "Quantum control": 0.6982403993606567 } }, { "id": 2179, "title": "Manganese doped eco-friendly CuInSe2 colloidal quantum dots for boosting near-infrared photodetection performance", "abstract": "CuInSe2 (CISe) colloidal quantum dots (QDs) display promising applications in photodetection especially within near-infrared (NIR) regions due to their high extinction coefficient and environmental-fr...", "citations": 59, "author_count": 8, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2182, "doi": "10.1016/j.cej.2020.126452", "umap_coordinates": { "x": 392.572998046875, "y": 133.5376739501953, "z": 205.03338623046875 }, "tsne_coordinates": { "x": 24.250810623168945, "y": 8.345437049865723, "z": -8.027512550354004 }, "pca_coordinates": { "x": -5.337804794311523, "y": -3.131382942199707, "z": -0.8443000316619873 }, "axis_scores": { "Quantum imaging": 0.7051115036010742, "Quantum Life Science Sensing": 0.722607433795929, "Quantum sensing Detection": 0.6997947692871094, "Quantum sensing Metrology": 0.6927346587181091, "Quantum sensing navigation": 0.7046447992324829, "Quantum sensing Position": 0.6718491911888123, "Quantum sensing Timing": 0.6535636186599731, "Quantum sensing": 0.7059447765350342, "Quantum control": 0.7006570100784302 } }, { "id": 2180, "title": "Transportation of Nanoscale Cargoes by Myosin Propelled Actin Filaments", "abstract": "Myosin II propelled actin filaments move ten times faster than kinesin driven microtubules and are thus attractive candidates as cargo-transporting shuttles in motor driven lab-on-a-chip devices. In a...", "citations": 32, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2183, "doi": "10.1371/journal.pone.0055931", "umap_coordinates": { "x": 394.3081359863281, "y": 135.32766723632812, "z": 205.80613708496094 }, "tsne_coordinates": { "x": -1.758547306060791, "y": 29.30023956298828, "z": 20.539752960205078 }, "pca_coordinates": { "x": -0.0554499626159668, "y": 1.0931947231292725, "z": -0.4787932336330414 }, "axis_scores": { "Quantum imaging": 0.7464227676391602, "Quantum Life Science Sensing": 0.700862467288971, "Quantum sensing Detection": 0.7172287106513977, "Quantum sensing Metrology": 0.7139430642127991, "Quantum sensing navigation": 0.75258469581604, "Quantum sensing Position": 0.6998099088668823, "Quantum sensing Timing": 0.7222758531570435, "Quantum sensing": 0.7363736629486084, "Quantum control": 0.7444874048233032 } }, { "id": 2181, "title": "Observer-model optimization of X-ray system in photon-counting breast imaging", "abstract": "An ideal-observer model is applied to optimize the design of an X-ray tube intended for use in a multi-slit scanning photon-counting mammography system. The design is such that the anode and the heel ...", "citations": 1, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2184, "doi": "10.1016/j.nima.2010.12.195", "umap_coordinates": { "x": 395.1608581542969, "y": 132.72508239746094, "z": 205.4658203125 }, "tsne_coordinates": { "x": -8.109094619750977, "y": 15.289448738098145, "z": -15.9642333984375 }, "pca_coordinates": { "x": -2.6810789108276367, "y": 2.5833935737609863, "z": 2.7598042488098145 }, "axis_scores": { "Quantum imaging": 0.7596917152404785, "Quantum Life Science Sensing": 0.7253121137619019, "Quantum sensing Detection": 0.7283498644828796, "Quantum sensing Metrology": 0.7220024466514587, "Quantum sensing navigation": 0.7346806526184082, "Quantum sensing Position": 0.7231341004371643, "Quantum sensing Timing": 0.7061877846717834, "Quantum sensing": 0.7282435297966003, "Quantum control": 0.6918967962265015 } }, { "id": 2182, "title": "Exclusion statistics for quantum Hall states in the Tao-Thouless limit", "abstract": "We consider spin-polarized Abelian quantum Hall states in the Tao-Thouless limit, i.e. on a thin torus. For any filling factor nu = p/q a well-defined sector of low energy states is identified and the...", "citations": 4, "author_count": 3, "categories": [ "Mechanics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2185, "doi": "10.1088/1742-5468/2011/02/P02037", "umap_coordinates": { "x": 394.4692687988281, "y": 136.80250549316406, "z": 207.81573486328125 }, "tsne_coordinates": { "x": -20.61801528930664, "y": -32.9927864074707, "z": 7.156680583953857 }, "pca_coordinates": { "x": 2.4138054847717285, "y": 2.9831929206848145, "z": -1.073110580444336 }, "axis_scores": { "Quantum imaging": 0.6642942428588867, "Quantum Life Science Sensing": 0.6632256507873535, "Quantum sensing Detection": 0.6624944806098938, "Quantum sensing Metrology": 0.6431931853294373, "Quantum sensing navigation": 0.6748639345169067, "Quantum sensing Position": 0.6448059678077698, "Quantum sensing Timing": 0.6785956025123596, "Quantum sensing": 0.6636597514152527, "Quantum control": 0.6623414158821106 } }, { "id": 2183, "title": "Detector developments at DESY", "abstract": "With the increased brilliance of state-of-the-art synchrotron radiation sources and the advent of free-electron lasers (FELs) enabling revolutionary science with EUV to X-ray photons comes an urgent n...", "citations": 2, "author_count": 54, "categories": [ "Instruments & Instrumentation" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2186, "doi": "10.1107/S1600577515022237", "umap_coordinates": { "x": 395.6985168457031, "y": 134.5132293701172, "z": 206.0173797607422 }, "tsne_coordinates": { "x": -22.03023338317871, "y": 7.81100606918335, "z": -19.36370277404785 }, "pca_coordinates": { "x": -1.5226110219955444, "y": 1.7501232624053955, "z": 1.0322191715240479 }, "axis_scores": { "Quantum imaging": 0.6940051913261414, "Quantum Life Science Sensing": 0.7245580554008484, "Quantum sensing Detection": 0.7064830660820007, "Quantum sensing Metrology": 0.6960443258285522, "Quantum sensing navigation": 0.6940687894821167, "Quantum sensing Position": 0.7038284540176392, "Quantum sensing Timing": 0.6922227144241333, "Quantum sensing": 0.7055254578590393, "Quantum control": 0.6822180151939392 } }, { "id": 2184, "title": "Single-photon detection with near unity efficiency, ultrahigh detection-rates, and ultra-high time resolution", "abstract": "Single-photon detectors with high efficiency, high time resolution, low dark counts and high photon detection-rates are vital for most demanding quantum optics experiments. Combining all performances ...", "citations": 4, "author_count": 8, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2187, "doi": null, "umap_coordinates": { "x": 391.45556640625, "y": 139.499755859375, "z": 209.73887634277344 }, "tsne_coordinates": { "x": -3.3386857509613037, "y": 42.70722579956055, "z": -10.425121307373047 }, "pca_coordinates": { "x": -2.1534314155578613, "y": 1.390340805053711, "z": 2.5033950805664062 }, "axis_scores": { "Quantum imaging": 0.7703997492790222, "Quantum Life Science Sensing": 0.773540735244751, "Quantum sensing Detection": 0.7886925935745239, "Quantum sensing Metrology": 0.7499027848243713, "Quantum sensing navigation": 0.7494790554046631, "Quantum sensing Position": 0.7078394889831543, "Quantum sensing Timing": 0.7330207824707031, "Quantum sensing": 0.7772578001022339, "Quantum control": 0.7270631790161133 } }, { "id": 2185, "title": "Improved double-quantum NMR correlation spectroscopy of dipolar-coupled quadrupolar spins", "abstract": "We show that symmetry-based zero-quantum dipolar recoupling sequences sandwiched between central transition selective pi/2-pulses may be used to excite double-quantum coherences (2QC) between the cent...", "citations": 84, "author_count": 4, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2188, "doi": "10.1016/j.cplett.2006.09.081", "umap_coordinates": { "x": 392.49261474609375, "y": 136.97174072265625, "z": 207.08560180664062 }, "tsne_coordinates": { "x": 13.322783470153809, "y": 0.2023146152496338, "z": 29.61384391784668 }, "pca_coordinates": { "x": -0.22884976863861084, "y": 0.6339492797851562, "z": -0.1581605076789856 }, "axis_scores": { "Quantum imaging": 0.7388415336608887, "Quantum Life Science Sensing": 0.7227842807769775, "Quantum sensing Detection": 0.7174245119094849, "Quantum sensing Metrology": 0.7121375203132629, "Quantum sensing navigation": 0.7119780778884888, "Quantum sensing Position": 0.7062894105911255, "Quantum sensing Timing": 0.7059749364852905, "Quantum sensing": 0.7371533513069153, "Quantum control": 0.7126015424728394 } }, { "id": 2186, "title": "Airborne Gold Nanoparticle Detection Using Photoluminescence Excited with a Continuous Wave Laser", "abstract": "We report the observation of photoluminescence emission from airborne gold, silver, and copper nanoparticles. A continuous wave 532 nm laser was employed for excitation. Photoluminescence from gold na...", "citations": 4, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2189, "doi": "10.1177/00037028211042021", "umap_coordinates": { "x": 393.8097839355469, "y": 134.30577087402344, "z": 205.15618896484375 }, "tsne_coordinates": { "x": 4.613492012023926, "y": 14.559976577758789, "z": -22.850664138793945 }, "pca_coordinates": { "x": -2.9468679428100586, "y": -0.7361049652099609, "z": 2.657580852508545 }, "axis_scores": { "Quantum imaging": 0.66825932264328, "Quantum Life Science Sensing": 0.6993809938430786, "Quantum sensing Detection": 0.6878315210342407, "Quantum sensing Metrology": 0.6723282933235168, "Quantum sensing navigation": 0.672411322593689, "Quantum sensing Position": 0.6793304085731506, "Quantum sensing Timing": 0.6320456862449646, "Quantum sensing": 0.6855939626693726, "Quantum control": 0.6431237459182739 } }, { "id": 2187, "title": "Geometric Induction in Chiral Superfluids", "abstract": "We explore the properties of chiral superfluid thin films coating a curved surface. Because of the vector nature of the order parameter, a geometric gauge field emerges and leads to a number of observ...", "citations": 9, "author_count": 3, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2190, "doi": "10.1103/PhysRevLett.129.016801", "umap_coordinates": { "x": 394.46502685546875, "y": 137.21002197265625, "z": 208.15284729003906 }, "tsne_coordinates": { "x": -24.606151580810547, "y": -27.39427375793457, "z": 18.818260192871094 }, "pca_coordinates": { "x": 3.810288429260254, "y": 0.6495082378387451, "z": -0.513574481010437 }, "axis_scores": { "Quantum imaging": 0.7137510180473328, "Quantum Life Science Sensing": 0.6909871697425842, "Quantum sensing Detection": 0.6970029473304749, "Quantum sensing Metrology": 0.6944491267204285, "Quantum sensing navigation": 0.7125933766365051, "Quantum sensing Position": 0.6828451156616211, "Quantum sensing Timing": 0.6938256025314331, "Quantum sensing": 0.7025606632232666, "Quantum control": 0.6882348656654358 } }, { "id": 2188, "title": "Speckle contrast of interfering fluorescence X-rays", "abstract": "With the development of X-ray free-electron lasers (XFELs), producing pulses of femtosecond durations comparable with the coherence times of X-ray fluorescence, it has become possible to observe inten...", "citations": 1, "author_count": 16, "categories": [ "Instruments & Instrumentation" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2191, "doi": "10.1107/S1600577522009997", "umap_coordinates": { "x": 395.2937316894531, "y": 134.34893798828125, "z": 205.51930236816406 }, "tsne_coordinates": { "x": -6.531427383422852, "y": 15.416402816772461, "z": -9.72774887084961 }, "pca_coordinates": { "x": -1.2817813158035278, "y": 1.2984908819198608, "z": 1.8103654384613037 }, "axis_scores": { "Quantum imaging": 0.7293027639389038, "Quantum Life Science Sensing": 0.6972337961196899, "Quantum sensing Detection": 0.697490394115448, "Quantum sensing Metrology": 0.6748479604721069, "Quantum sensing navigation": 0.6994265913963318, "Quantum sensing Position": 0.6923555135726929, "Quantum sensing Timing": 0.6805886626243591, "Quantum sensing": 0.700771152973175, "Quantum control": 0.670300304889679 } }, { "id": 2189, "title": "Hyperfine characterization and spin coherence lifetime extension in Pr3+:La2(WO4)3", "abstract": "Rare-earth ions in dielectric crystals are interesting candidates for storing quantum states of photons. A limiting factor on the optical density and thus the conversion efficiency is the distortion i...", "citations": 48, "author_count": 10, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2192, "doi": "10.1103/PhysRevB.84.104417", "umap_coordinates": { "x": 393.30316162109375, "y": 136.306396484375, "z": 207.1298065185547 }, "tsne_coordinates": { "x": 1.0611010789871216, "y": -46.90607452392578, "z": 7.612951278686523 }, "pca_coordinates": { "x": 1.9565024375915527, "y": -0.3001670837402344, "z": -1.9264562129974365 }, "axis_scores": { "Quantum imaging": 0.7251436114311218, "Quantum Life Science Sensing": 0.7505330443382263, "Quantum sensing Detection": 0.70316082239151, "Quantum sensing Metrology": 0.6950238943099976, "Quantum sensing navigation": 0.70414137840271, "Quantum sensing Position": 0.6876741647720337, "Quantum sensing Timing": 0.6930965185165405, "Quantum sensing": 0.7194654941558838, "Quantum control": 0.6935857534408569 } }, { "id": 2190, "title": "Proximity control of interlayer exciton-phonon hybridization in van der Waals heterostructures", "abstract": "Van der Waals stacking has provided unprecedented flexibility in shaping many-body interactions by controlling electronic quantum confinement and orbital overlap. Theory has predicted that also electr...", "citations": 9, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2193, "doi": "10.1038/s41467-021-21780-6", "umap_coordinates": { "x": 393.12188720703125, "y": 134.78411865234375, "z": 206.82937622070312 }, "tsne_coordinates": { "x": 12.86715316772461, "y": -8.122539520263672, "z": 17.94829750061035 }, "pca_coordinates": { "x": -0.32438546419143677, "y": -2.6990137100219727, "z": 0.9882017970085144 }, "axis_scores": { "Quantum imaging": 0.696115255355835, "Quantum Life Science Sensing": 0.6950135827064514, "Quantum sensing Detection": 0.6883842349052429, "Quantum sensing Metrology": 0.6850283145904541, "Quantum sensing navigation": 0.7019276022911072, "Quantum sensing Position": 0.7096753120422363, "Quantum sensing Timing": 0.6981756091117859, "Quantum sensing": 0.7049574255943298, "Quantum control": 0.6856270432472229 } }, { "id": 2191, "title": "Quantum bath suppression in a superconducting circuit by immersion cooling", "abstract": "Quantum circuits interact with the environment via several temperature-dependent degrees of freedom. Multiple experiments to-date have shown that most properties of superconducting devices appear to p...", "citations": 21, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2194, "doi": "10.1038/s41467-023-39249-z", "umap_coordinates": { "x": 394.1483459472656, "y": 135.85984802246094, "z": 207.26849365234375 }, "tsne_coordinates": { "x": 5.000860214233398, "y": -9.97458553314209, "z": 16.924482345581055 }, "pca_coordinates": { "x": 1.3381831645965576, "y": 0.20437383651733398, "z": -0.4115928113460541 }, "axis_scores": { "Quantum imaging": 0.6996076107025146, "Quantum Life Science Sensing": 0.6948208808898926, "Quantum sensing Detection": 0.699804425239563, "Quantum sensing Metrology": 0.6802903413772583, "Quantum sensing navigation": 0.7088133692741394, "Quantum sensing Position": 0.6797446012496948, "Quantum sensing Timing": 0.6736405491828918, "Quantum sensing": 0.7019401788711548, "Quantum control": 0.7024938464164734 } }, { "id": 2192, "title": "PT-symmetric circuit QED", "abstract": "A parity-time (PT)-symmetric system emerging from a quantum dynamics is highly desirable in order to understand the possible implications of PT symmetry in the next generation of quantum technologies....", "citations": 105, "author_count": 6, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2195, "doi": "10.1103/PhysRevA.97.053846", "umap_coordinates": { "x": 395.5912170410156, "y": 135.9259033203125, "z": 207.99822998046875 }, "tsne_coordinates": { "x": -7.763443946838379, "y": -37.027225494384766, "z": -5.124294757843018 }, "pca_coordinates": { "x": 3.7051844596862793, "y": -0.21057510375976562, "z": 1.1143248081207275 }, "axis_scores": { "Quantum imaging": 0.7478577494621277, "Quantum Life Science Sensing": 0.7445814609527588, "Quantum sensing Detection": 0.7597380876541138, "Quantum sensing Metrology": 0.7428417801856995, "Quantum sensing navigation": 0.7499301433563232, "Quantum sensing Position": 0.7335227727890015, "Quantum sensing Timing": 0.752188503742218, "Quantum sensing": 0.7637560367584229, "Quantum control": 0.7285940647125244 } }, { "id": 2193, "title": "Supramolecular Assembly of Biobased Graphene Oxide Quantum Dots Controls the Morphology of and Induces Mineralization on Poly(ε-caprolactone) Films", "abstract": "Biobased 2D graphene oxide quantum dots (GOQDs) were synthesized from waste paper via carbon nanosphere intermediates and evaluated as property-enhancing additives for poly(epsilon-caprolactone) (PCL)...", "citations": 31, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2196, "doi": "10.1021/acs.biomac.5b01339", "umap_coordinates": { "x": 392.74346923828125, "y": 134.54461669921875, "z": 204.2515869140625 }, "tsne_coordinates": { "x": 26.672237396240234, "y": 24.941566467285156, "z": 0.007618421223014593 }, "pca_coordinates": { "x": -3.394021987915039, "y": -2.643256664276123, "z": -2.577237367630005 }, "axis_scores": { "Quantum imaging": 0.7209089398384094, "Quantum Life Science Sensing": 0.7500495314598083, "Quantum sensing Detection": 0.7208625078201294, "Quantum sensing Metrology": 0.7035656571388245, "Quantum sensing navigation": 0.6987477540969849, "Quantum sensing Position": 0.695015013217926, "Quantum sensing Timing": 0.664354681968689, "Quantum sensing": 0.7339060306549072, "Quantum control": 0.7332046031951904 } }, { "id": 2194, "title": "Mechanisms of fluorescence decays of colloidal CdSe-CdS/ZnS quantum dots unraveled by time-resolved fluorescence measurement", "abstract": "By narrowing the detection bandpass and increasing the signal-to-noise ratio in measuring the time-resolved fluorescence decay spectrum of colloidal CdSe-CdS/ZnS quantum dots (QDs), we show that direc...", "citations": 25, "author_count": 6, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2197, "doi": "10.1039/c5cp03109e", "umap_coordinates": { "x": 392.38873291015625, "y": 135.59388732910156, "z": 206.01959228515625 }, "tsne_coordinates": { "x": 15.545801162719727, "y": -0.18086281418800354, "z": 7.490362167358398 }, "pca_coordinates": { "x": -1.5123686790466309, "y": -1.2431621551513672, "z": -2.1120753288269043 }, "axis_scores": { "Quantum imaging": 0.7108460664749146, "Quantum Life Science Sensing": 0.7534554600715637, "Quantum sensing Detection": 0.7172601222991943, "Quantum sensing Metrology": 0.68826824426651, "Quantum sensing navigation": 0.7053517699241638, "Quantum sensing Position": 0.6764808297157288, "Quantum sensing Timing": 0.6915290355682373, "Quantum sensing": 0.7153793573379517, "Quantum control": 0.6977165341377258 } }, { "id": 2195, "title": "Golden Ratio Gain Enhancement in Coherently Coupled Parametric Processes", "abstract": "Nonlinear optical processes are an essential tool in modern optics, with a broad spectrum of applications, including signal processing, frequency conversion, spectroscopy and quantum optics. Ordinary ...", "citations": 8, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2198, "doi": "10.1038/s41598-018-30014-7", "umap_coordinates": { "x": 393.430908203125, "y": 135.0062713623047, "z": 206.47471618652344 }, "tsne_coordinates": { "x": -0.5703696012496948, "y": -15.31171703338623, "z": 7.948707103729248 }, "pca_coordinates": { "x": -0.6649138927459717, "y": 0.4312312602996826, "z": 2.6582207679748535 }, "axis_scores": { "Quantum imaging": 0.7274165749549866, "Quantum Life Science Sensing": 0.7038424611091614, "Quantum sensing Detection": 0.7218989133834839, "Quantum sensing Metrology": 0.7107105851173401, "Quantum sensing navigation": 0.7008665800094604, "Quantum sensing Position": 0.6868003010749817, "Quantum sensing Timing": 0.707480251789093, "Quantum sensing": 0.7204698324203491, "Quantum control": 0.6861022710800171 } }, { "id": 2196, "title": "Double quantum-dot engine fueled by entanglement between electron spins", "abstract": "The laws of thermodynamics allow work extraction from a single heat bath provided that the entropy decrease of the bath is compensated for by another part of the system. We propose a thermodynamic qua...", "citations": 18, "author_count": 3, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2199, "doi": "10.1103/PhysRevB.101.081408", "umap_coordinates": { "x": 394.21710205078125, "y": 135.6117401123047, "z": 208.55641174316406 }, "tsne_coordinates": { "x": -0.3240809440612793, "y": -23.18897819519043, "z": 1.041878342628479 }, "pca_coordinates": { "x": 3.6874213218688965, "y": -2.2259135246276855, "z": 0.9029495120048523 }, "axis_scores": { "Quantum imaging": 0.7528135180473328, "Quantum Life Science Sensing": 0.7355744242668152, "Quantum sensing Detection": 0.7412797212600708, "Quantum sensing Metrology": 0.7191876173019409, "Quantum sensing navigation": 0.737302303314209, "Quantum sensing Position": 0.7006177306175232, "Quantum sensing Timing": 0.7047637701034546, "Quantum sensing": 0.7451342940330505, "Quantum control": 0.7234527468681335 } }, { "id": 2197, "title": "Role of Polymer in Hybrid Polymer/PbS Quantum Dot Solar Cells", "abstract": "Hybrid nanocomposites (HCs) obtained by blend solutions of conjugated polymers and colloidal semiconductor nanocrystals are among the most promising materials to be exploited in solution-processed pho...", "citations": 41, "author_count": 8, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2200, "doi": "10.1021/acs.jpcc.5b03761", "umap_coordinates": { "x": 392.3121643066406, "y": 134.9299774169922, "z": 205.71328735351562 }, "tsne_coordinates": { "x": 12.34045124053955, "y": 2.9917585849761963, "z": 0.8836814761161804 }, "pca_coordinates": { "x": -2.6983728408813477, "y": -4.228177547454834, "z": -1.481771469116211 }, "axis_scores": { "Quantum imaging": 0.6979320049285889, "Quantum Life Science Sensing": 0.7251386642456055, "Quantum sensing Detection": 0.6944491863250732, "Quantum sensing Metrology": 0.6604087948799133, "Quantum sensing navigation": 0.6839938759803772, "Quantum sensing Position": 0.7018780708312988, "Quantum sensing Timing": 0.661902666091919, "Quantum sensing": 0.7049275636672974, "Quantum control": 0.6837648153305054 } }, { "id": 2198, "title": "Electron relaxation in the CdSe quantum dot - ZnO composite: prospects for photovoltaic applications", "abstract": "Quantum dot (QD)-metal oxide composite forms a heart of the QD-sensitized solar cells. It maintains light absorption and electron-hole separation in the system and has been therefore extensively studi...", "citations": 29, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2201, "doi": "10.1038/srep07244", "umap_coordinates": { "x": 392.05462646484375, "y": 135.23123168945312, "z": 206.1931915283203 }, "tsne_coordinates": { "x": 14.468331336975098, "y": 1.3610162734985352, "z": 5.920280933380127 }, "pca_coordinates": { "x": -2.1721854209899902, "y": -3.1530208587646484, "z": -2.5803380012512207 }, "axis_scores": { "Quantum imaging": 0.7045450210571289, "Quantum Life Science Sensing": 0.7457854151725769, "Quantum sensing Detection": 0.6806150078773499, "Quantum sensing Metrology": 0.6625077724456787, "Quantum sensing navigation": 0.6897532939910889, "Quantum sensing Position": 0.6651322245597839, "Quantum sensing Timing": 0.6659156084060669, "Quantum sensing": 0.6916192173957825, "Quantum control": 0.6673698425292969 } }, { "id": 2199, "title": "OPTICAL SPECTROSCOPY OF LOCALIZED STATES IN METALLIC OXIDES", "abstract": "We investigate the possibility of direct observation of double electron local sites (LS) with strong correlation via single photon optical injection into LS states from band electron states (BE). Hybr...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 2202, "doi": "10.1088/0031-8949/1992/T42/015", "umap_coordinates": { "x": 393.6531982421875, "y": 135.52133178710938, "z": 207.30795288085938 }, "tsne_coordinates": { "x": 22.359560012817383, "y": -31.1852970123291, "z": 14.108928680419922 }, "pca_coordinates": { "x": 1.2886316776275635, "y": -0.3991203308105469, "z": -0.2743837237358093 }, "axis_scores": { "Quantum imaging": 0.7348917722702026, "Quantum Life Science Sensing": 0.7468739748001099, "Quantum sensing Detection": 0.7359828948974609, "Quantum sensing Metrology": 0.7273431420326233, "Quantum sensing navigation": 0.7230008244514465, "Quantum sensing Position": 0.7089150547981262, "Quantum sensing Timing": 0.6838550567626953, "Quantum sensing": 0.7433496713638306, "Quantum control": 0.6783156991004944 } }, { "id": 2200, "title": "Energy-resolved CT imaging with a photon-counting silicon-strip detector", "abstract": "Photon-counting detectors are promising candidates for use in the next generation of x-ray CT scanners. Among the foreseen benefits are higher spatial resolution, better trade-off between noise and do...", "citations": 115, "author_count": 10, "categories": [ "Optics", "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2203, "doi": "10.1117/12.2043519", "umap_coordinates": { "x": 395.682373046875, "y": 133.0003662109375, "z": 205.7203369140625 }, "tsne_coordinates": { "x": -13.368206024169922, "y": 20.40166473388672, "z": -18.715118408203125 }, "pca_coordinates": { "x": -2.1905789375305176, "y": 1.5765979290008545, "z": 5.741668224334717 }, "axis_scores": { "Quantum imaging": 0.7295876741409302, "Quantum Life Science Sensing": 0.6991173028945923, "Quantum sensing Detection": 0.7111412882804871, "Quantum sensing Metrology": 0.6860681772232056, "Quantum sensing navigation": 0.6952334046363831, "Quantum sensing Position": 0.6811110377311707, "Quantum sensing Timing": 0.7083548903465271, "Quantum sensing": 0.7077005505561829, "Quantum control": 0.6402251720428467 } }, { "id": 2201, "title": "Isotope-Purification-Induced Reduction of Spin-Relaxation and Spin-Coherence Times in Semiconductors", "abstract": "Paramagnetic defects and nuclear spins are often the major sources of decoherence and spin relaxation in solid-state qubits realized by optically addressable point defect spins in semiconductors. It i...", "citations": 5, "author_count": 6, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2204, "doi": "10.1103/PhysRevApplied.19.064046", "umap_coordinates": { "x": 393.3125, "y": 135.9197540283203, "z": 207.57359313964844 }, "tsne_coordinates": { "x": 3.9844255447387695, "y": -20.905370712280273, "z": 10.149162292480469 }, "pca_coordinates": { "x": 2.2089905738830566, "y": -0.8927254676818848, "z": -0.5596824884414673 }, "axis_scores": { "Quantum imaging": 0.7144290208816528, "Quantum Life Science Sensing": 0.7227193117141724, "Quantum sensing Detection": 0.6888684630393982, "Quantum sensing Metrology": 0.6826025247573853, "Quantum sensing navigation": 0.7088896632194519, "Quantum sensing Position": 0.6714463233947754, "Quantum sensing Timing": 0.7201293110847473, "Quantum sensing": 0.7076058387756348, "Quantum control": 0.6766632795333862 } }, { "id": 2202, "title": "Evaluation of a photon-counting X-ray imaging system", "abstract": "A digital imaging system has been developed for mammography using silicon strip detectors operated in a pulse-counting mode and configured in a scanned slit geometry. More than 90% of the photons are ...", "citations": 65, "author_count": 6, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2205, "doi": "10.1109/23.958392", "umap_coordinates": { "x": 395.5217590332031, "y": 133.140869140625, "z": 205.7484130859375 }, "tsne_coordinates": { "x": -5.295624732971191, "y": 21.469064712524414, "z": -24.930673599243164 }, "pca_coordinates": { "x": -2.067873954772949, "y": 2.6291682720184326, "z": 3.6935582160949707 }, "axis_scores": { "Quantum imaging": 0.7529379725456238, "Quantum Life Science Sensing": 0.7268860340118408, "Quantum sensing Detection": 0.7347838282585144, "Quantum sensing Metrology": 0.7073608040809631, "Quantum sensing navigation": 0.7183607816696167, "Quantum sensing Position": 0.7107763290405273, "Quantum sensing Timing": 0.6975385546684265, "Quantum sensing": 0.7296607494354248, "Quantum control": 0.6903752088546753 } }, { "id": 2203, "title": "Phase correlation function of complex random Gaussian fields", "abstract": "The phase correlation function for the complex random Gaussian field psi(x) = vertical bar psi(x)vertical bar exp[i theta(x)] is derived. It is compared to the numerical scattering wave function in th...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2206, "doi": "10.1209/0295-5075/80/50003", "umap_coordinates": { "x": 395.31402587890625, "y": 137.4175262451172, "z": 206.8502197265625 }, "tsne_coordinates": { "x": -34.746944427490234, "y": -0.5850912928581238, "z": 20.79905128479004 }, "pca_coordinates": { "x": 1.3085098266601562, "y": 3.5358047485351562, "z": -0.42727047204971313 }, "axis_scores": { "Quantum imaging": 0.7313694357872009, "Quantum Life Science Sensing": 0.7251299619674683, "Quantum sensing Detection": 0.7070066332817078, "Quantum sensing Metrology": 0.699995756149292, "Quantum sensing navigation": 0.7343773245811462, "Quantum sensing Position": 0.7163742780685425, "Quantum sensing Timing": 0.7144515514373779, "Quantum sensing": 0.7175522446632385, "Quantum control": 0.7222572565078735 } }, { "id": 2204, "title": "Quantum-assisted rendezvous on graphs: explicit algorithms and quantum computer simulations", "abstract": "We study quantum advantage in one-step rendezvous games on simple graphs analytically, numerically, and using noisy intermediate-scale quantum (NISQ) processors. Our protocols realise the recently dis...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2207, "doi": "10.1088/1367-2630/ad78f8", "umap_coordinates": { "x": 394.76373291015625, "y": 137.44900512695312, "z": 206.95863342285156 }, "tsne_coordinates": { "x": -36.272193908691406, "y": -10.256208419799805, "z": 1.31598699092865 }, "pca_coordinates": { "x": 1.891477108001709, "y": 2.2840819358825684, "z": 0.1723768711090088 }, "axis_scores": { "Quantum imaging": 0.7300378084182739, "Quantum Life Science Sensing": 0.7015075087547302, "Quantum sensing Detection": 0.705155611038208, "Quantum sensing Metrology": 0.7037724852561951, "Quantum sensing navigation": 0.7282149195671082, "Quantum sensing Position": 0.6784732341766357, "Quantum sensing Timing": 0.6842324137687683, "Quantum sensing": 0.7245349287986755, "Quantum control": 0.7287092804908752 } }, { "id": 2205, "title": "Single-spin measurements for quantum computation using magnetic resonance force microscopy", "abstract": "The quantum theory of a single-spin measurement using magnetic resonance force microscopy is presented. We use an oscillating cantilever-driven adiabatic reversal technique. The frequency shift of the...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2208, "doi": "10.1016/j.spmi.2004.03.050", "umap_coordinates": { "x": 394.08453369140625, "y": 134.1047821044922, "z": 207.65931701660156 }, "tsne_coordinates": { "x": -20.106948852539062, "y": 4.706407070159912, "z": -15.819483757019043 }, "pca_coordinates": { "x": -0.3708389401435852, "y": -0.17100119590759277, "z": 1.3988230228424072 }, "axis_scores": { "Quantum imaging": 0.7494461536407471, "Quantum Life Science Sensing": 0.7552117109298706, "Quantum sensing Detection": 0.736433207988739, "Quantum sensing Metrology": 0.7639912366867065, "Quantum sensing navigation": 0.7289571762084961, "Quantum sensing Position": 0.7303130626678467, "Quantum sensing Timing": 0.7006176710128784, "Quantum sensing": 0.7595704793930054, "Quantum control": 0.6979097127914429 } }, { "id": 2206, "title": "Heteronuclear multidimensional NMR experiments for the structure determination of proteins in solution employing pulsed field gradients", "abstract": "", "citations": 1635, "author_count": 4, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2209, "doi": "10.1016/S0079-6565(98)00025-9", "umap_coordinates": { "x": 393.0069885253906, "y": 136.7211456298828, "z": 205.87521362304688 }, "tsne_coordinates": { "x": 15.99466323852539, "y": 8.619083404541016, "z": 29.72699546813965 }, "pca_coordinates": { "x": -1.4005080461502075, "y": 1.3484046459197998, "z": -1.4031076431274414 }, "axis_scores": { "Quantum imaging": 0.6942723989486694, "Quantum Life Science Sensing": 0.714744508266449, "Quantum sensing Detection": 0.6558029651641846, "Quantum sensing Metrology": 0.6816956996917725, "Quantum sensing navigation": 0.6840369701385498, "Quantum sensing Position": 0.6669555306434631, "Quantum sensing Timing": 0.6502336263656616, "Quantum sensing": 0.6833748817443848, "Quantum control": 0.6506115198135376 } }, { "id": 2207, "title": "Single-molecule detection and identification of multiple species by multiparameter fluorescence detection", "abstract": "Two general strategies are introduced to identify and quantify single molecules in dilute solutions by employing a spectroscopic method for data registration and specific burst analysis, denoted multi...", "citations": 213, "author_count": 7, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2210, "doi": "10.1021/ac0522759", "umap_coordinates": { "x": 393.67449951171875, "y": 134.19424438476562, "z": 206.31314086914062 }, "tsne_coordinates": { "x": -6.377246379852295, "y": 14.89046859741211, "z": -5.291901588439941 }, "pca_coordinates": { "x": -3.4510602951049805, "y": -1.8287196159362793, "z": -0.6917828917503357 }, "axis_scores": { "Quantum imaging": 0.6908595561981201, "Quantum Life Science Sensing": 0.7340460419654846, "Quantum sensing Detection": 0.7120587825775146, "Quantum sensing Metrology": 0.7072421312332153, "Quantum sensing navigation": 0.6683782935142517, "Quantum sensing Position": 0.6664869785308838, "Quantum sensing Timing": 0.6487308740615845, "Quantum sensing": 0.7168374061584473, "Quantum control": 0.6692623496055603 } }, { "id": 2208, "title": "Supersymmetric Hamiltonian and Vortex Formation Model in a Quantum Nonlinear System in an Inhomogeneous Electromagnetic Field", "abstract": "Vortices and quasiparticles in 2D systems are studied for the last decades in relation to the development of technologies in quantum electromagnetics, optics, and quantum computation. Hamiltonians are...", "citations": 4, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2211, "doi": "10.1002/adts.201900011", "umap_coordinates": { "x": 394.1114501953125, "y": 136.64002990722656, "z": 208.2230682373047 }, "tsne_coordinates": { "x": -22.21228790283203, "y": -15.906808853149414, "z": 26.031692504882812 }, "pca_coordinates": { "x": 2.801481246948242, "y": 0.11844992637634277, "z": -2.134398937225342 }, "axis_scores": { "Quantum imaging": 0.7289249300956726, "Quantum Life Science Sensing": 0.7207320332527161, "Quantum sensing Detection": 0.7039598822593689, "Quantum sensing Metrology": 0.696668803691864, "Quantum sensing navigation": 0.7215446829795837, "Quantum sensing Position": 0.6759870052337646, "Quantum sensing Timing": 0.6792711615562439, "Quantum sensing": 0.711674690246582, "Quantum control": 0.7052533030509949 } }, { "id": 2209, "title": "Applying quantum principles to psychology", "abstract": "This article starts out with a detailed example illustrating the utility of applying quantum probability to psychology. Then it describes several alternative mathematical methods for mapping fundament...", "citations": 26, "author_count": 5, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2212, "doi": "10.1088/0031-8949/2014/T163/014007", "umap_coordinates": { "x": 395.4301452636719, "y": 137.2948455810547, "z": 206.24118041992188 }, "tsne_coordinates": { "x": -27.23227882385254, "y": 4.043576717376709, "z": 12.018136024475098 }, "pca_coordinates": { "x": 2.3629355430603027, "y": 3.4023842811584473, "z": 0.3311581015586853 }, "axis_scores": { "Quantum imaging": 0.7586996555328369, "Quantum Life Science Sensing": 0.7698968648910522, "Quantum sensing Detection": 0.7586797475814819, "Quantum sensing Metrology": 0.7411857843399048, "Quantum sensing navigation": 0.7576048970222473, "Quantum sensing Position": 0.7172818183898926, "Quantum sensing Timing": 0.7289410829544067, "Quantum sensing": 0.7730592489242554, "Quantum control": 0.7377314567565918 } }, { "id": 2210, "title": "Effect of Conjugated Backbone Protection on Intrinsic and Light-Induced Fluorescence Quenching in Polythiophenes", "abstract": "Polythiophenes (PTs), particularly regioregular poly(3-hexylthiophene-2,5-diyl) (rr-P3HT), are important materials in photo-voltaics. The photophysical properties of PTs are still poorly understood, b...", "citations": 42, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2213, "doi": "10.1021/cm5021959", "umap_coordinates": { "x": 392.22174072265625, "y": 135.97970581054688, "z": 205.00442504882812 }, "tsne_coordinates": { "x": 1.9150636196136475, "y": -3.1433427333831787, "z": -17.115673065185547 }, "pca_coordinates": { "x": -3.1119184494018555, "y": -1.1239686012268066, "z": -1.4782326221466064 }, "axis_scores": { "Quantum imaging": 0.6966837644577026, "Quantum Life Science Sensing": 0.6961256265640259, "Quantum sensing Detection": 0.6722749471664429, "Quantum sensing Metrology": 0.6517232656478882, "Quantum sensing navigation": 0.6506307125091553, "Quantum sensing Position": 0.6589061617851257, "Quantum sensing Timing": 0.6672520637512207, "Quantum sensing": 0.6846351027488708, "Quantum control": 0.6788902282714844 } }, { "id": 2211, "title": "Ultrafast Jahn-Teller Photoswitching in Cobalt Single-Ion Magnets", "abstract": "Single-ion magnets (SIMs) constitute the ultimate size limit in the quest for miniaturizing magnetic materials. Several bottlenecks currently hindering breakthroughs in quantum information and communi...", "citations": 20, "author_count": 19, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2214, "doi": "10.1002/advs.202206880", "umap_coordinates": { "x": 392.7746887207031, "y": 136.27552795410156, "z": 207.70204162597656 }, "tsne_coordinates": { "x": 7.57499885559082, "y": -22.854061126708984, "z": 24.633708953857422 }, "pca_coordinates": { "x": 0.5804885625839233, "y": -2.056614875793457, "z": -1.3297033309936523 }, "axis_scores": { "Quantum imaging": 0.747138500213623, "Quantum Life Science Sensing": 0.7518590092658997, "Quantum sensing Detection": 0.7388367056846619, "Quantum sensing Metrology": 0.7387288212776184, "Quantum sensing navigation": 0.7218088507652283, "Quantum sensing Position": 0.6988953948020935, "Quantum sensing Timing": 0.7234086990356445, "Quantum sensing": 0.7532238960266113, "Quantum control": 0.7124430537223816 } }, { "id": 2212, "title": "Steering an eigenstate to a destination", "abstract": "The control of time evolution of a quantum state under Various physical constraints is investigated and solved in the context of a two-level system. We have discovered a general scheme of steering, an...", "citations": 60, "author_count": 5, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2215, "doi": "10.1103/PhysRevLett.85.1626", "umap_coordinates": { "x": 395.1583251953125, "y": 135.97512817382812, "z": 208.48873901367188 }, "tsne_coordinates": { "x": -25.882261276245117, "y": -20.874475479125977, "z": 14.707919120788574 }, "pca_coordinates": { "x": 3.959041118621826, "y": -0.21312546730041504, "z": 0.4450393319129944 }, "axis_scores": { "Quantum imaging": 0.7116325497627258, "Quantum Life Science Sensing": 0.7146372199058533, "Quantum sensing Detection": 0.7381427884101868, "Quantum sensing Metrology": 0.7191245555877686, "Quantum sensing navigation": 0.7610490918159485, "Quantum sensing Position": 0.726251482963562, "Quantum sensing Timing": 0.7092402577400208, "Quantum sensing": 0.739328145980835, "Quantum control": 0.7331936955451965 } }, { "id": 2213, "title": "On the Charge Collection Efficiency of the PERCIVAL Detector", "abstract": "The PERCIVAL soft X-ray imager is being developed by DESY, RAL, Elettra, DLS, and PAL to address the challenges at high brilliance Light Sources such as new-generation Synchrotrons and Free Electron L...", "citations": 6, "author_count": 45, "categories": [ "Instruments & Instrumentation" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2216, "doi": "10.1088/1748-0221/11/12/C12032", "umap_coordinates": { "x": 395.64141845703125, "y": 134.30101013183594, "z": 205.96414184570312 }, "tsne_coordinates": { "x": -27.4531192779541, "y": 25.47738265991211, "z": -9.721667289733887 }, "pca_coordinates": { "x": -1.8814809322357178, "y": 2.242361307144165, "z": 1.362776756286621 }, "axis_scores": { "Quantum imaging": 0.6681845188140869, "Quantum Life Science Sensing": 0.6723436117172241, "Quantum sensing Detection": 0.6616846323013306, "Quantum sensing Metrology": 0.6235414743423462, "Quantum sensing navigation": 0.6398891806602478, "Quantum sensing Position": 0.6518753170967102, "Quantum sensing Timing": 0.6376969218254089, "Quantum sensing": 0.6552062630653381, "Quantum control": 0.6496649980545044 } }, { "id": 2214, "title": "Measurement of direct photon pair production cross sections in p(p)over-bar collisions at √s=1.96 TeV", "abstract": "We present a measurement of direct photon pair production cross sections using 4.2 fb(-1) of data collected with the DO detector at the Fermilab Tevatron p (p) over bar Collider. We measure single dif...", "citations": 33, "author_count": 449, "categories": [ "Astronomy & Astrophysics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2217, "doi": "10.1016/j.physletb.2010.05.017", "umap_coordinates": { "x": 396.6600036621094, "y": 134.18038940429688, "z": 207.59494018554688 }, "tsne_coordinates": { "x": -29.60276222229004, "y": 5.64054012298584, "z": -12.170333862304688 }, "pca_coordinates": { "x": -0.45242011547088623, "y": 0.4376797676086426, "z": 3.323646068572998 }, "axis_scores": { "Quantum imaging": 0.708986759185791, "Quantum Life Science Sensing": 0.7083582878112793, "Quantum sensing Detection": 0.7330514788627625, "Quantum sensing Metrology": 0.7061532139778137, "Quantum sensing navigation": 0.701131284236908, "Quantum sensing Position": 0.7250384092330933, "Quantum sensing Timing": 0.71657794713974, "Quantum sensing": 0.7280502915382385, "Quantum control": 0.6743993163108826 } }, { "id": 2215, "title": "Visualization of nitric oxide formation in cell cultures and living tissue", "abstract": "We have visualized nitric oxide (NO) released from cell cultures and living tissue. NO was visualized by a reaction with luminol and hydrogen peroxide to yield photons which were counted using a micro...", "citations": 16, "author_count": 8, "categories": [ "Physiology" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2218, "doi": null, "umap_coordinates": { "x": 391.4131774902344, "y": 139.65232849121094, "z": 209.69728088378906 }, "tsne_coordinates": { "x": 0.4767493009567261, "y": 44.17569351196289, "z": -6.8018083572387695 }, "pca_coordinates": { "x": -2.553967237472534, "y": 4.189353942871094, "z": -1.932579517364502 }, "axis_scores": { "Quantum imaging": 0.7241265773773193, "Quantum Life Science Sensing": 0.7272318005561829, "Quantum sensing Detection": 0.7041064500808716, "Quantum sensing Metrology": 0.6786737442016602, "Quantum sensing navigation": 0.7057569622993469, "Quantum sensing Position": 0.6766734719276428, "Quantum sensing Timing": 0.6648869514465332, "Quantum sensing": 0.7037348747253418, "Quantum control": 0.697752833366394 } }, { "id": 2216, "title": "Massive quantum systems as interfaces of quantum mechanics and gravity", "abstract": "The traditional view from particle physics is that quantum-gravity effects should become detectable only at extremely high energies and small length scales. Owing to the significant technological chal...", "citations": 30, "author_count": 11, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2219, "doi": "10.1103/RevModPhys.97.015003", "umap_coordinates": { "x": 394.9365234375, "y": 137.24404907226562, "z": 207.1826629638672 }, "tsne_coordinates": { "x": -18.858943939208984, "y": -17.898839950561523, "z": 5.009416103363037 }, "pca_coordinates": { "x": 4.466224670410156, "y": 2.1909477710723877, "z": -0.6510970592498779 }, "axis_scores": { "Quantum imaging": 0.7768734693527222, "Quantum Life Science Sensing": 0.7871174812316895, "Quantum sensing Detection": 0.7745342254638672, "Quantum sensing Metrology": 0.7788320183753967, "Quantum sensing navigation": 0.7639694809913635, "Quantum sensing Position": 0.7417254447937012, "Quantum sensing Timing": 0.7409663796424866, "Quantum sensing": 0.7858034372329712, "Quantum control": 0.7502391934394836 } }, { "id": 2217, "title": "Physical characterization of photon-counting tomosynthesis", "abstract": "Tomosynthesis is emerging as a next generation technology in mammography. Combined with photon-counting detectors with the ability for energy discrimination, a novel modality is enabled - spectral tom...", "citations": 1, "author_count": 6, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2220, "doi": "10.1117/12.2075192", "umap_coordinates": { "x": 395.3255920410156, "y": 132.92312622070312, "z": 206.02340698242188 }, "tsne_coordinates": { "x": -9.010955810546875, "y": 18.152385711669922, "z": -25.99884033203125 }, "pca_coordinates": { "x": -0.6493832468986511, "y": 2.7777576446533203, "z": 3.030771493911743 }, "axis_scores": { "Quantum imaging": 0.7520242929458618, "Quantum Life Science Sensing": 0.7577884793281555, "Quantum sensing Detection": 0.7549514174461365, "Quantum sensing Metrology": 0.7496755719184875, "Quantum sensing navigation": 0.7312725782394409, "Quantum sensing Position": 0.7194350957870483, "Quantum sensing Timing": 0.7525094747543335, "Quantum sensing": 0.7536223530769348, "Quantum control": 0.6965177655220032 } }, { "id": 2218, "title": "Dual fluorescence from N-6,N-6-dimethyladenosine", "abstract": "The adenosine derivative N-6,N-6-dimethyladenosine (DMA) shows dual fluorescence in solvents of different polarity. In addition to the ''normal'' fluorescence at 330 nm, another band is observed at 50...", "citations": 58, "author_count": 2, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 2221, "doi": "10.1021/ja9705203", "umap_coordinates": { "x": 392.7316589355469, "y": 135.59962463378906, "z": 204.7414093017578 }, "tsne_coordinates": { "x": -3.5544939041137695, "y": -10.461326599121094, "z": -17.3332462310791 }, "pca_coordinates": { "x": -2.718350887298584, "y": -0.9724886417388916, "z": -0.3298959732055664 }, "axis_scores": { "Quantum imaging": 0.7214502096176147, "Quantum Life Science Sensing": 0.7433844208717346, "Quantum sensing Detection": 0.712658166885376, "Quantum sensing Metrology": 0.6950897574424744, "Quantum sensing navigation": 0.6960796117782593, "Quantum sensing Position": 0.6762811541557312, "Quantum sensing Timing": 0.6786239147186279, "Quantum sensing": 0.7228232622146606, "Quantum control": 0.6870105266571045 } }, { "id": 2219, "title": "A Single-Electron Transistor Made of a 3D Topological Insulator Nanoplate", "abstract": "Quantum confined devices of 3D topological insulators are proposed to be promising and of great importance for studies of confined topological states and for applications in low-energy-dissipative spi...", "citations": 14, "author_count": 9, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2222, "doi": "10.1002/adma.201903686", "umap_coordinates": { "x": 394.25616455078125, "y": 134.16575622558594, "z": 208.45436096191406 }, "tsne_coordinates": { "x": 8.36790657043457, "y": -28.9566707611084, "z": -14.421234130859375 }, "pca_coordinates": { "x": 0.37871289253234863, "y": -2.3434762954711914, "z": 1.1222989559173584 }, "axis_scores": { "Quantum imaging": 0.6913813352584839, "Quantum Life Science Sensing": 0.6973254680633545, "Quantum sensing Detection": 0.6823495626449585, "Quantum sensing Metrology": 0.6970664262771606, "Quantum sensing navigation": 0.6861584186553955, "Quantum sensing Position": 0.6749292016029358, "Quantum sensing Timing": 0.6564752459526062, "Quantum sensing": 0.7016264200210571, "Quantum control": 0.6663833856582642 } }, { "id": 2220, "title": "Rapid Trapping as the Origin of Nonradiative Recombination in Semiconductor Nanocrystals", "abstract": "We demonstrate that nonradiative recombination in semiconductor nanocrystals can be described by a rapid luminescence intermittency, based on carrier tunneling to resonant traps. Such process, we call...", "citations": 27, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2223, "doi": "10.1021/acsphotonics.8b00581", "umap_coordinates": { "x": 391.9969177246094, "y": 134.63046264648438, "z": 206.45114135742188 }, "tsne_coordinates": { "x": 15.17154598236084, "y": -4.216867446899414, "z": 7.777404308319092 }, "pca_coordinates": { "x": -1.6353611946105957, "y": -3.228874683380127, "z": 0.16233187913894653 }, "axis_scores": { "Quantum imaging": 0.7009586095809937, "Quantum Life Science Sensing": 0.7038151025772095, "Quantum sensing Detection": 0.7140330672264099, "Quantum sensing Metrology": 0.6724587678909302, "Quantum sensing navigation": 0.6898006200790405, "Quantum sensing Position": 0.6807396411895752, "Quantum sensing Timing": 0.6996301412582397, "Quantum sensing": 0.7031778693199158, "Quantum control": 0.6548198461532593 } }, { "id": 2221, "title": "AT-dependent luminescence of DNA-threading ruthenium complexes", "abstract": "Whereas the emission from the ruthenium complex Delta Delta-[mu-bidppz(phen)(4)RU2](4+) (P) is five times larger when intercalated into poly(dAdT)(2) than when intercalated into ct-DNA, the homologue ...", "citations": 10, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2224, "doi": "10.1016/j.bpc.2007.04.011", "umap_coordinates": { "x": 392.8258361816406, "y": 135.64720153808594, "z": 204.87261962890625 }, "tsne_coordinates": { "x": 10.215810775756836, "y": 15.772945404052734, "z": 8.968072891235352 }, "pca_coordinates": { "x": -2.317946434020996, "y": -0.44260358810424805, "z": -0.743461549282074 }, "axis_scores": { "Quantum imaging": 0.7058161497116089, "Quantum Life Science Sensing": 0.7027690410614014, "Quantum sensing Detection": 0.6959357857704163, "Quantum sensing Metrology": 0.6676990389823914, "Quantum sensing navigation": 0.6993227601051331, "Quantum sensing Position": 0.6893826723098755, "Quantum sensing Timing": 0.7138053178787231, "Quantum sensing": 0.6994995474815369, "Quantum control": 0.6920189261436462 } }, { "id": 2222, "title": "Engineering interfacial structure in Giant PbS/CdS quantum dots for photoelectrochemical solar energy conversion", "abstract": "The interfacial structure in giant PbS/CdS quantum dots (QDs) was engineered by modulating the Cd:S molar ratio during in situ growth. The control of the gradient interfacial layer could facilitate ho...", "citations": 96, "author_count": 14, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2225, "doi": "10.1016/j.nanoen.2016.10.029", "umap_coordinates": { "x": 392.3758239746094, "y": 133.64816284179688, "z": 205.88172912597656 }, "tsne_coordinates": { "x": 25.709651947021484, "y": 4.7303924560546875, "z": -7.110232353210449 }, "pca_coordinates": { "x": -2.3791098594665527, "y": -4.904165744781494, "z": -1.6470868587493896 }, "axis_scores": { "Quantum imaging": 0.7270110249519348, "Quantum Life Science Sensing": 0.7724360227584839, "Quantum sensing Detection": 0.7184231281280518, "Quantum sensing Metrology": 0.7070192098617554, "Quantum sensing navigation": 0.716173529624939, "Quantum sensing Position": 0.6934528946876526, "Quantum sensing Timing": 0.6612202525138855, "Quantum sensing": 0.7358443140983582, "Quantum control": 0.7156509757041931 } }, { "id": 2223, "title": "Constraining 3-PG with a new δ13C submodel: a test using the δ13C of tree rings", "abstract": "A semi-mechanistic forest growth model, 3-PG (Physiological Principles Predicting Growth), was extended to calculate C-13 in tree rings. The C-13 estimates were based on the model's existing descripti...", "citations": 27, "author_count": 9, "categories": [ "Plant Sciences" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2226, "doi": "10.1111/pce.12133", "umap_coordinates": { "x": 394.1948547363281, "y": 136.8170928955078, "z": 204.02574157714844 }, "tsne_coordinates": { "x": 13.98681926727295, "y": 41.1880989074707, "z": 9.768388748168945 }, "pca_coordinates": { "x": -2.013514995574951, "y": 4.2642107009887695, "z": -0.012315690517425537 }, "axis_scores": { "Quantum imaging": 0.6452590227127075, "Quantum Life Science Sensing": 0.6672216653823853, "Quantum sensing Detection": 0.6406971216201782, "Quantum sensing Metrology": 0.6473706364631653, "Quantum sensing navigation": 0.669252872467041, "Quantum sensing Position": 0.6474228501319885, "Quantum sensing Timing": 0.6388144493103027, "Quantum sensing": 0.6529607176780701, "Quantum control": 0.654541552066803 } }, { "id": 2224, "title": "Experiments on the thermoelectric properties of quantum dots", "abstract": "Quantum dots (QDs) are good model systems for fundamental studies of mesoscopic transport phenomena using thermoelectric effects because of their small size, electrostatically tunable properties and t...", "citations": 35, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2227, "doi": "10.1016/j.crhy.2016.08.002", "umap_coordinates": { "x": 393.019287109375, "y": 134.4123992919922, "z": 205.86106872558594 }, "tsne_coordinates": { "x": 28.432228088378906, "y": 7.211035251617432, "z": 11.815839767456055 }, "pca_coordinates": { "x": -1.328769564628601, "y": -2.1607441902160645, "z": -0.4779583215713501 }, "axis_scores": { "Quantum imaging": 0.7548011541366577, "Quantum Life Science Sensing": 0.7830030918121338, "Quantum sensing Detection": 0.7571821808815002, "Quantum sensing Metrology": 0.738206684589386, "Quantum sensing navigation": 0.7131174206733704, "Quantum sensing Position": 0.7291752099990845, "Quantum sensing Timing": 0.7392627000808716, "Quantum sensing": 0.775573194026947, "Quantum control": 0.7284262776374817 } }, { "id": 2225, "title": "Hole Trapping: The Critical Factor for Quantum Dot Sensitized Solar Cell Performance", "abstract": "The performance of the current quantum dot (QD) solar cells is limited by several deficiencies. One of them is the existence of surface traps, especially hole traps, which are blocking the hole inject...", "citations": 46, "author_count": 9, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2228, "doi": "10.1021/jp5086284", "umap_coordinates": { "x": 391.68646240234375, "y": 134.4536590576172, "z": 205.63478088378906 }, "tsne_coordinates": { "x": 20.261707305908203, "y": 3.3164279460906982, "z": 1.7002997398376465 }, "pca_coordinates": { "x": -1.0540144443511963, "y": -2.89149808883667, "z": -1.7603988647460938 }, "axis_scores": { "Quantum imaging": 0.709668755531311, "Quantum Life Science Sensing": 0.742543637752533, "Quantum sensing Detection": 0.7233014702796936, "Quantum sensing Metrology": 0.7184768319129944, "Quantum sensing navigation": 0.7125774025917053, "Quantum sensing Position": 0.7171188592910767, "Quantum sensing Timing": 0.6885834336280823, "Quantum sensing": 0.7383596897125244, "Quantum control": 0.7195340991020203 } }, { "id": 2226, "title": "Type-II colloidal quantum dot sensitized solar cells with a thiourea based organic redox couple", "abstract": "In this paper, one kind of organic electrolyte based on tetramethylthiourea is employed for quantum dot sensitized solar cells (QDSCs). By reducing the impedance between the electrolyte and the counte...", "citations": 49, "author_count": 8, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2229, "doi": "10.1039/c2jm15857d", "umap_coordinates": { "x": 392.0482482910156, "y": 135.2417449951172, "z": 205.7768096923828 }, "tsne_coordinates": { "x": 15.228117942810059, "y": 0.15214204788208008, "z": -6.103029251098633 }, "pca_coordinates": { "x": -1.3637471199035645, "y": -2.525656223297119, "z": -1.9735002517700195 }, "axis_scores": { "Quantum imaging": 0.6870596408843994, "Quantum Life Science Sensing": 0.7168153524398804, "Quantum sensing Detection": 0.6881338357925415, "Quantum sensing Metrology": 0.6879317760467529, "Quantum sensing navigation": 0.6881477236747742, "Quantum sensing Position": 0.6701229810714722, "Quantum sensing Timing": 0.6726624965667725, "Quantum sensing": 0.6979237198829651, "Quantum control": 0.7054784297943115 } }, { "id": 2227, "title": "Intense Visible and Near-Infrared Upconversion Photoluminescence in Colloidal LiYF4:Er3+ Nanocrystals under Excitation at 1490 nm", "abstract": "We report intense upconversion photoluminescence (PL) In colloidal LiYF4:Er(3+)nanocrystals under excitation with telecom-wavelength at 1490 nm. The intensities of two- and three-photon anti-Stokes up...", "citations": 360, "author_count": 6, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2230, "doi": "10.1021/nn201083j", "umap_coordinates": { "x": 392.9926452636719, "y": 133.61280822753906, "z": 205.89273071289062 }, "tsne_coordinates": { "x": 21.318561553955078, "y": -16.24002456665039, "z": -22.30525016784668 }, "pca_coordinates": { "x": -3.461113214492798, "y": -3.7464756965637207, "z": -1.074144721031189 }, "axis_scores": { "Quantum imaging": 0.694160521030426, "Quantum Life Science Sensing": 0.6997507214546204, "Quantum sensing Detection": 0.6638565063476562, "Quantum sensing Metrology": 0.6526926755905151, "Quantum sensing navigation": 0.6535326242446899, "Quantum sensing Position": 0.6411899924278259, "Quantum sensing Timing": 0.6318951845169067, "Quantum sensing": 0.6770297884941101, "Quantum control": 0.6349452137947083 } }, { "id": 2228, "title": "Measurements on a novel 4-side buttable photon counting ASIC with integrating charge sharing correction", "abstract": "Photon counting detectors offer some unique features for x-ray imaging. If designed correctly, photon counting detectors have no readout noise and no dark counts. This is an important feature in for e...", "citations": 3, "author_count": 5, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2231, "doi": "10.1117/12.2611482", "umap_coordinates": { "x": 395.11602783203125, "y": 133.40557861328125, "z": 206.34735107421875 }, "tsne_coordinates": { "x": -15.944899559020996, "y": 21.206430435180664, "z": -26.3110408782959 }, "pca_coordinates": { "x": -1.5819175243377686, "y": -0.2652435302734375, "z": 5.661442279815674 }, "axis_scores": { "Quantum imaging": 0.7121632099151611, "Quantum Life Science Sensing": 0.6801968812942505, "Quantum sensing Detection": 0.7020659446716309, "Quantum sensing Metrology": 0.7046605348587036, "Quantum sensing navigation": 0.6897014379501343, "Quantum sensing Position": 0.6958327293395996, "Quantum sensing Timing": 0.7160167098045349, "Quantum sensing": 0.7129676342010498, "Quantum control": 0.6641923189163208 } }, { "id": 2229, "title": "Family of Graphene-Based Superconducting Devices", "abstract": "A family of highly sensitive devices based on a graphene nanobridge and superconducting electrodes has been developed, manufactured, and examined. These devices can be used to create a graphene-based ...", "citations": 7, "author_count": 5, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2232, "doi": "10.1134/S0021364011160193", "umap_coordinates": { "x": 393.3447570800781, "y": 135.34913635253906, "z": 206.77691650390625 }, "tsne_coordinates": { "x": -7.957885265350342, "y": 7.725844860076904, "z": 7.400619983673096 }, "pca_coordinates": { "x": 0.16339635848999023, "y": -0.9822463989257812, "z": -0.8302770256996155 }, "axis_scores": { "Quantum imaging": 0.6477869749069214, "Quantum Life Science Sensing": 0.7094503045082092, "Quantum sensing Detection": 0.6686434745788574, "Quantum sensing Metrology": 0.6536617875099182, "Quantum sensing navigation": 0.6724699139595032, "Quantum sensing Position": 0.6484558582305908, "Quantum sensing Timing": 0.6453392505645752, "Quantum sensing": 0.6826896667480469, "Quantum control": 0.665878415107727 } }, { "id": 2230, "title": "Field moment expansion method for interacting bosonic systems", "abstract": "We introduce a numerical method and PYTHON package, CHiMES, that simulates quantum systems initially well approximated by mean field theory using a second order extension of the classical field approa...", "citations": 6, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2233, "doi": "10.1103/PhysRevD.104.083007", "umap_coordinates": { "x": 394.1908874511719, "y": 137.3950958251953, "z": 208.5497589111328 }, "tsne_coordinates": { "x": -19.814815521240234, "y": -40.009159088134766, "z": 3.544619560241699 }, "pca_coordinates": { "x": 3.7877159118652344, "y": 0.9978243112564087, "z": -0.7990179061889648 }, "axis_scores": { "Quantum imaging": 0.7019318342208862, "Quantum Life Science Sensing": 0.6816607713699341, "Quantum sensing Detection": 0.6790633201599121, "Quantum sensing Metrology": 0.6759113669395447, "Quantum sensing navigation": 0.6791496276855469, "Quantum sensing Position": 0.6539921164512634, "Quantum sensing Timing": 0.6585901379585266, "Quantum sensing": 0.6833584308624268, "Quantum control": 0.6750775575637817 } }, { "id": 2231, "title": "Simulation of the response of the Solid State Neutron Detector for the European Spallation Source", "abstract": "The characteristics of the Solid-state Neutron Detector, under development for neutron-scattering measurements at the European Spallation Source, have been simulated with a Geant4-based computer code....", "citations": 2, "author_count": 14, "categories": [ "Instruments & Instrumentation" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2234, "doi": "10.1016/j.nima.2021.165174", "umap_coordinates": { "x": 394.5802917480469, "y": 133.12388610839844, "z": 205.46621704101562 }, "tsne_coordinates": { "x": -20.12141227722168, "y": 17.144290924072266, "z": -8.756143569946289 }, "pca_coordinates": { "x": -1.449248194694519, "y": 1.3797324895858765, "z": 1.2567682266235352 }, "axis_scores": { "Quantum imaging": 0.6939957141876221, "Quantum Life Science Sensing": 0.7242785096168518, "Quantum sensing Detection": 0.7097843885421753, "Quantum sensing Metrology": 0.7027668952941895, "Quantum sensing navigation": 0.7216436266899109, "Quantum sensing Position": 0.7049182653427124, "Quantum sensing Timing": 0.7040231823921204, "Quantum sensing": 0.7057377099990845, "Quantum control": 0.6678564548492432 } }, { "id": 2232, "title": "Frequency modulations due to domain dynamics in terahertz quantum cascade lasers", "abstract": "The light output of quantum cascade lasers is strongly affected by electric field-domain oscillations if the laser shows electrical instabilities. This can result in a substantial broadening of the em...", "citations": 2, "author_count": 8, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2235, "doi": "10.1063/5.0137716", "umap_coordinates": { "x": 393.5534362792969, "y": 136.71163940429688, "z": 207.58689880371094 }, "tsne_coordinates": { "x": -9.724283218383789, "y": -19.486984252929688, "z": 33.28254699707031 }, "pca_coordinates": { "x": 2.8034024238586426, "y": 0.028669357299804688, "z": -2.2311782836914062 }, "axis_scores": { "Quantum imaging": 0.7219759821891785, "Quantum Life Science Sensing": 0.7269243001937866, "Quantum sensing Detection": 0.6965104341506958, "Quantum sensing Metrology": 0.6998759508132935, "Quantum sensing navigation": 0.6894252300262451, "Quantum sensing Position": 0.6621791124343872, "Quantum sensing Timing": 0.6987852454185486, "Quantum sensing": 0.7094720602035522, "Quantum control": 0.7219575047492981 } }, { "id": 2233, "title": "Ambiguity, invisibility, and negativity", "abstract": "Many widely different problems have a common mathematical structure wherein limited knowledge leads to ambiguity that can be captured conveniently using a concept of invisibility that requires the int...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2236, "doi": "10.1088/1751-8121/ad30cf", "umap_coordinates": { "x": 395.2559509277344, "y": 136.36029052734375, "z": 205.82191467285156 }, "tsne_coordinates": { "x": -38.060752868652344, "y": 0.5077894926071167, "z": 6.695640563964844 }, "pca_coordinates": { "x": -0.8843284845352173, "y": 3.3541338443756104, "z": -0.3731178343296051 }, "axis_scores": { "Quantum imaging": 0.703680157661438, "Quantum Life Science Sensing": 0.6979665160179138, "Quantum sensing Detection": 0.700606644153595, "Quantum sensing Metrology": 0.6843043565750122, "Quantum sensing navigation": 0.6941173672676086, "Quantum sensing Position": 0.6665621995925903, "Quantum sensing Timing": 0.6521180272102356, "Quantum sensing": 0.7072939276695251, "Quantum control": 0.6991183161735535 } }, { "id": 2234, "title": "Instantaneous formation of interstellar minerals and mineral quantum dots", "abstract": "Our understanding of the formation pathways of interstellar mineral dust is still evolving. This study investigated the formation of astrophysical mineral dust, such as olivine, by shock processing. L...", "citations": 2, "author_count": 15, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2237, "doi": "10.1039/d5ra01088h", "umap_coordinates": { "x": 392.8937683105469, "y": 137.0147247314453, "z": 206.8455352783203 }, "tsne_coordinates": { "x": -6.2429375648498535, "y": -2.8062071800231934, "z": 22.377798080444336 }, "pca_coordinates": { "x": 0.3196347951889038, "y": -0.6706390380859375, "z": -1.6860034465789795 }, "axis_scores": { "Quantum imaging": 0.7401679754257202, "Quantum Life Science Sensing": 0.7550709843635559, "Quantum sensing Detection": 0.7208203077316284, "Quantum sensing Metrology": 0.730767548084259, "Quantum sensing navigation": 0.7021046876907349, "Quantum sensing Position": 0.6813992857933044, "Quantum sensing Timing": 0.7054604887962341, "Quantum sensing": 0.7331864237785339, "Quantum control": 0.6744470596313477 } }, { "id": 2235, "title": "Enhancing Emission and Stability in Na-Doped Cs3Cu2I5 Nanocrystals", "abstract": "Lead-free Cs3Cu2I5 metal halides have garnered significant attention recently due to their non-toxic properties and deep-blue emission. However, their relatively low photoluminescence quantum efficien...", "citations": 5, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2238, "doi": "10.3390/nano14131118", "umap_coordinates": { "x": 392.1228942871094, "y": 133.825439453125, "z": 206.03587341308594 }, "tsne_coordinates": { "x": 26.342809677124023, "y": -2.865182399749756, "z": -18.777822494506836 }, "pca_coordinates": { "x": -2.4779069423675537, "y": -2.874138832092285, "z": -1.4773375988006592 }, "axis_scores": { "Quantum imaging": 0.7175650596618652, "Quantum Life Science Sensing": 0.7208121418952942, "Quantum sensing Detection": 0.7077493667602539, "Quantum sensing Metrology": 0.6975312232971191, "Quantum sensing navigation": 0.7092224359512329, "Quantum sensing Position": 0.6668954491615295, "Quantum sensing Timing": 0.668593168258667, "Quantum sensing": 0.71720290184021, "Quantum control": 0.7117251753807068 } }, { "id": 2236, "title": "Direct measurement of the spin-orbit interaction in a two-electron InAs nanowire quantum dot", "abstract": "We demonstrate control of the electron number down to the last electron in tunable few-electron quantum dots defined in catalytically grown InAs nanowires. Using low temperature transport spectroscopy...", "citations": 267, "author_count": 6, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2239, "doi": "10.1103/PhysRevLett.98.266801", "umap_coordinates": { "x": 394.2118225097656, "y": 134.726318359375, "z": 208.31112670898438 }, "tsne_coordinates": { "x": 8.395101547241211, "y": -17.858671188354492, "z": -2.880458116531372 }, "pca_coordinates": { "x": 3.326326370239258, "y": -3.143878936767578, "z": 2.5592329502105713 }, "axis_scores": { "Quantum imaging": 0.7276517152786255, "Quantum Life Science Sensing": 0.7334703207015991, "Quantum sensing Detection": 0.7563846111297607, "Quantum sensing Metrology": 0.738602340221405, "Quantum sensing navigation": 0.7397472262382507, "Quantum sensing Position": 0.7383301854133606, "Quantum sensing Timing": 0.7216095328330994, "Quantum sensing": 0.7578755021095276, "Quantum control": 0.6969351172447205 } }, { "id": 2237, "title": "Enhanced stability and complex phase behaviour of organic-inorganic green-emitting ionic manganese halides", "abstract": "Light-emitting materials based on earth-abundant metals, such as manganese hold great promise as emitters for organic lighting devices. In order to apply such emitter materials and, in particular, to ...", "citations": 8, "author_count": 7, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2240, "doi": "10.1039/d2dt03817j", "umap_coordinates": { "x": 391.8125915527344, "y": 134.8848114013672, "z": 205.3301544189453 }, "tsne_coordinates": { "x": 14.174056053161621, "y": -5.516929626464844, "z": -26.33719825744629 }, "pca_coordinates": { "x": -1.984925627708435, "y": -2.542929172515869, "z": -3.6374993324279785 }, "axis_scores": { "Quantum imaging": 0.69160395860672, "Quantum Life Science Sensing": 0.6941887140274048, "Quantum sensing Detection": 0.663291335105896, "Quantum sensing Metrology": 0.6503308415412903, "Quantum sensing navigation": 0.6693962812423706, "Quantum sensing Position": 0.6358098983764648, "Quantum sensing Timing": 0.6208530068397522, "Quantum sensing": 0.6727813482284546, "Quantum control": 0.6615099310874939 } }, { "id": 2238, "title": "Discrete time dynamical models and their quantum-like context-dependent properties", "abstract": "", "citations": 16, "author_count": 3, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2241, "doi": "10.1080/09500340410001664133", "umap_coordinates": { "x": 394.8511047363281, "y": 137.78823852539062, "z": 206.25344848632812 }, "tsne_coordinates": { "x": -24.375404357910156, "y": 7.816822052001953, "z": 19.03374671936035 }, "pca_coordinates": { "x": 2.447749614715576, "y": 3.642678737640381, "z": -2.659571886062622 }, "axis_scores": { "Quantum imaging": 0.7215501070022583, "Quantum Life Science Sensing": 0.7426537275314331, "Quantum sensing Detection": 0.7102399468421936, "Quantum sensing Metrology": 0.6911141872406006, "Quantum sensing navigation": 0.7214547991752625, "Quantum sensing Position": 0.6973661184310913, "Quantum sensing Timing": 0.7479779124259949, "Quantum sensing": 0.7260974049568176, "Quantum control": 0.7334928512573242 } }, { "id": 2239, "title": "How substituents tune quantum interference in meta-OPE3 molecular junctions to control thermoelectric transport", "abstract": "Quantum interference (QI) can strongly affect electric and thermoelectric properties of molecular junctions (MJs). So far, however, a limited number of experimental studies have explored the influence...", "citations": 4, "author_count": 12, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2242, "doi": "10.1039/d4nr02188f", "umap_coordinates": { "x": 392.3279113769531, "y": 134.94256591796875, "z": 206.56906127929688 }, "tsne_coordinates": { "x": 5.385060787200928, "y": -17.571001052856445, "z": 5.901123523712158 }, "pca_coordinates": { "x": 0.24636435508728027, "y": -2.045689582824707, "z": -1.1889002323150635 }, "axis_scores": { "Quantum imaging": 0.7374022006988525, "Quantum Life Science Sensing": 0.7222323417663574, "Quantum sensing Detection": 0.704220712184906, "Quantum sensing Metrology": 0.6987170577049255, "Quantum sensing navigation": 0.7317260503768921, "Quantum sensing Position": 0.7159440517425537, "Quantum sensing Timing": 0.7133050560951233, "Quantum sensing": 0.7270997166633606, "Quantum control": 0.7078955173492432 } }, { "id": 2240, "title": "Experimental investigation of delayed self-interference for single photons - art. no. 063812", "abstract": "A photon echo experiment has been performed using accumulated highly attenuated laser pulses. We show experimentally that the photon echo process can be performed with, on the average, less than one p...", "citations": 21, "author_count": 4, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2243, "doi": "10.1103/PhysRevA.68.063812", "umap_coordinates": { "x": 395.2113037109375, "y": 134.610107421875, "z": 208.0814208984375 }, "tsne_coordinates": { "x": -4.150298118591309, "y": -18.29713249206543, "z": -13.801774978637695 }, "pca_coordinates": { "x": 2.914546489715576, "y": 0.2506418228149414, "z": 3.055215358734131 }, "axis_scores": { "Quantum imaging": 0.7213885188102722, "Quantum Life Science Sensing": 0.7360515594482422, "Quantum sensing Detection": 0.72441166639328, "Quantum sensing Metrology": 0.7058217525482178, "Quantum sensing navigation": 0.7071822881698608, "Quantum sensing Position": 0.690678596496582, "Quantum sensing Timing": 0.7144322991371155, "Quantum sensing": 0.7212322354316711, "Quantum control": 0.6724088191986084 } }, { "id": 2241, "title": "A review of recent work on stresses and strains in semiconductor heterostructures", "abstract": "We first discuss the work on strain and critical thickness of large area lattice mismatched epilayers of GeSi, InGaAs and II-VI semiconductors. A summary of Finite Element (FE) calculations of stresse...", "citations": 16, "author_count": 5, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 2244, "doi": "10.1088/0031-8949/1997/T69/009", "umap_coordinates": { "x": 393.5945129394531, "y": 134.7052459716797, "z": 207.35572814941406 }, "tsne_coordinates": { "x": 28.491666793823242, "y": -18.635284423828125, "z": 14.78809928894043 }, "pca_coordinates": { "x": 0.20348107814788818, "y": 0.3434314727783203, "z": 0.2892230153083801 }, "axis_scores": { "Quantum imaging": 0.6643691062927246, "Quantum Life Science Sensing": 0.6874798536300659, "Quantum sensing Detection": 0.6484429240226746, "Quantum sensing Metrology": 0.6630600094795227, "Quantum sensing navigation": 0.6640074253082275, "Quantum sensing Position": 0.6768827438354492, "Quantum sensing Timing": 0.6707614660263062, "Quantum sensing": 0.6689918637275696, "Quantum control": 0.6468216776847839 } }, { "id": 2242, "title": "Strongly polarized quantum-dot-like light emitters embedded in GaAs/GaNAs core/shell nanowires", "abstract": "Recent developments in fabrication techniques and extensive investigations of the physical properties of III-V semiconductor nanowires (NWs), such as GaAs NWs, have demonstrated their potential for a ...", "citations": 28, "author_count": 9, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2245, "doi": "10.1039/c6nr05168e", "umap_coordinates": { "x": 392.4329528808594, "y": 134.094482421875, "z": 206.95352172851562 }, "tsne_coordinates": { "x": 16.14630126953125, "y": -9.917152404785156, "z": -2.989299774169922 }, "pca_coordinates": { "x": -0.40507030487060547, "y": -4.746287822723389, "z": 0.737156331539154 }, "axis_scores": { "Quantum imaging": 0.7150399684906006, "Quantum Life Science Sensing": 0.721306562423706, "Quantum sensing Detection": 0.7108242511749268, "Quantum sensing Metrology": 0.688042402267456, "Quantum sensing navigation": 0.7129038572311401, "Quantum sensing Position": 0.6923987865447998, "Quantum sensing Timing": 0.6581524610519409, "Quantum sensing": 0.717130720615387, "Quantum control": 0.6691563129425049 } }, { "id": 2243, "title": "Non-linear optical polymers (NLOPs) for photonic devices", "abstract": "", "citations": 2, "author_count": 6, "categories": [ "Engineering" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2246, "doi": null, "umap_coordinates": { "x": 391.7994689941406, "y": 139.56552124023438, "z": 209.6439666748047 }, "tsne_coordinates": { "x": -10.802867889404297, "y": 40.7138786315918, "z": -8.585805892944336 }, "pca_coordinates": { "x": -2.856067180633545, "y": 1.9278762340545654, "z": -0.6362839341163635 }, "axis_scores": { "Quantum imaging": 0.7286481857299805, "Quantum Life Science Sensing": 0.740643322467804, "Quantum sensing Detection": 0.7139158248901367, "Quantum sensing Metrology": 0.7009856104850769, "Quantum sensing navigation": 0.708424985408783, "Quantum sensing Position": 0.6853771209716797, "Quantum sensing Timing": 0.6600732803344727, "Quantum sensing": 0.724064290523529, "Quantum control": 0.7054370641708374 } }, { "id": 2244, "title": "Photonic-wireless Communication and Sensing in the Terahertz Band", "abstract": "This paper reviews the potential of THz photonics in communication and sensing by presenting our experimental results in the 300-500 GHz. Benefiting from the large available bandwidth in both THz and ...", "citations": 1, "author_count": 13, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2247, "doi": "10.1364/OFC.2023.W4J.1", "umap_coordinates": { "x": 394.6971130371094, "y": 134.05104064941406, "z": 206.6488037109375 }, "tsne_coordinates": { "x": 0.3268870711326599, "y": -4.874545574188232, "z": -36.57012176513672 }, "pca_coordinates": { "x": -0.4904581308364868, "y": 0.1106419563293457, "z": 1.256441354751587 }, "axis_scores": { "Quantum imaging": 0.7550145983695984, "Quantum Life Science Sensing": 0.7567650079727173, "Quantum sensing Detection": 0.7479543089866638, "Quantum sensing Metrology": 0.7534377574920654, "Quantum sensing navigation": 0.7464538812637329, "Quantum sensing Position": 0.7192617654800415, "Quantum sensing Timing": 0.7425764799118042, "Quantum sensing": 0.7669330835342407, "Quantum control": 0.7358261346817017 } }, { "id": 2245, "title": "Characterization of single shallow silicon-vacancy centers in 4H-SiC", "abstract": "Shallow negatively charged silicon-vacancy centers have applications in magnetic quantum sensing and other quantum applications. Vacancy centers near the surface (within 100 nm) have different spin re...", "citations": 9, "author_count": 7, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2248, "doi": "10.1103/PhysRevB.107.134117", "umap_coordinates": { "x": 394.65081787109375, "y": 134.74978637695312, "z": 208.6181182861328 }, "tsne_coordinates": { "x": 2.8754770755767822, "y": -15.849047660827637, "z": -1.602701187133789 }, "pca_coordinates": { "x": 4.255788326263428, "y": -1.2395830154418945, "z": 1.8638968467712402 }, "axis_scores": { "Quantum imaging": 0.6997406482696533, "Quantum Life Science Sensing": 0.727461576461792, "Quantum sensing Detection": 0.7194279432296753, "Quantum sensing Metrology": 0.7005549669265747, "Quantum sensing navigation": 0.7064423561096191, "Quantum sensing Position": 0.6870912313461304, "Quantum sensing Timing": 0.6824544072151184, "Quantum sensing": 0.7208607792854309, "Quantum control": 0.6677009463310242 } }, { "id": 2246, "title": "Multiplying and detecting propagating microwave photons using inelastic Cooper-pair tunneling", "abstract": "The interaction between propagating microwave fields and Cooper-pair tunneling across a DC-voltage-biased Josephson junction can be highly nonlinear. We show theoretically that this nonlinearity can b...", "citations": 22, "author_count": 9, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2249, "doi": "10.1103/PhysRevA.97.013855", "umap_coordinates": { "x": 395.5137023925781, "y": 135.28628540039062, "z": 207.82931518554688 }, "tsne_coordinates": { "x": -13.213476181030273, "y": -26.157747268676758, "z": -5.056553840637207 }, "pca_coordinates": { "x": 2.716785430908203, "y": 0.17001771926879883, "z": 4.894703388214111 }, "axis_scores": { "Quantum imaging": 0.7180580496788025, "Quantum Life Science Sensing": 0.6976297497749329, "Quantum sensing Detection": 0.7292039394378662, "Quantum sensing Metrology": 0.7114658355712891, "Quantum sensing navigation": 0.713809609413147, "Quantum sensing Position": 0.6775992512702942, "Quantum sensing Timing": 0.7170828580856323, "Quantum sensing": 0.7247591614723206, "Quantum control": 0.6487637758255005 } }, { "id": 2247, "title": "Quantum mechanical wavepacket transport in quantum cascade laser structures", "abstract": "We present a viewpoint of the transport process in quantum cascade laser structures in which spatial transport of charge through the structure is a property of coherent quantum mechanical wave functio...", "citations": 88, "author_count": 5, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2250, "doi": "10.1103/PhysRevB.73.245320", "umap_coordinates": { "x": 394.501220703125, "y": 135.5848846435547, "z": 209.0970916748047 }, "tsne_coordinates": { "x": -8.290380477905273, "y": -17.898008346557617, "z": -0.46159395575523376 }, "pca_coordinates": { "x": 5.818030834197998, "y": -1.6523633003234863, "z": 0.288677453994751 }, "axis_scores": { "Quantum imaging": 0.7288562059402466, "Quantum Life Science Sensing": 0.7176111936569214, "Quantum sensing Detection": 0.7172493934631348, "Quantum sensing Metrology": 0.7127881050109863, "Quantum sensing navigation": 0.731689989566803, "Quantum sensing Position": 0.7100511789321899, "Quantum sensing Timing": 0.6890578866004944, "Quantum sensing": 0.7292601466178894, "Quantum control": 0.7225213050842285 } }, { "id": 2248, "title": "Unconventional double-bended saturation of carrier occupation in optically excited graphene due to many-particle interactions", "abstract": "Saturation of carrier occupation in optically excited materials is a well-established phenomenon. However, so far, the observed saturation effects have always occurred in the strong-excitation regime ...", "citations": 4, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2251, "doi": "10.1038/ncomms15042", "umap_coordinates": { "x": 393.8079833984375, "y": 135.5537872314453, "z": 206.35523986816406 }, "tsne_coordinates": { "x": 6.391322612762451, "y": -7.031774520874023, "z": 1.6312090158462524 }, "pca_coordinates": { "x": 0.49032628536224365, "y": -0.7651379108428955, "z": 0.7324880957603455 }, "axis_scores": { "Quantum imaging": 0.7011289000511169, "Quantum Life Science Sensing": 0.6746898889541626, "Quantum sensing Detection": 0.6973839998245239, "Quantum sensing Metrology": 0.6802915334701538, "Quantum sensing navigation": 0.6923779249191284, "Quantum sensing Position": 0.68023282289505, "Quantum sensing Timing": 0.6624253988265991, "Quantum sensing": 0.6958514451980591, "Quantum control": 0.6667625308036804 } }, { "id": 2249, "title": "Quantum printing and induced vorticity in superconductors II: Laguerre-Gaussian beam", "abstract": "The challenge of controlling the quantum states of matter via light has been at the forefront of modern research on driven quantum matter. We explore the imprinting effects of structured light on supe...", "citations": 3, "author_count": 6, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2252, "doi": "10.1103/dqv7-w2w4", "umap_coordinates": { "x": 393.4356384277344, "y": 136.10597229003906, "z": 208.14117431640625 }, "tsne_coordinates": { "x": 11.486742973327637, "y": -19.242576599121094, "z": 7.793614864349365 }, "pca_coordinates": { "x": 2.1741414070129395, "y": -1.0002923011779785, "z": 0.14888864755630493 }, "axis_scores": { "Quantum imaging": 0.7200831174850464, "Quantum Life Science Sensing": 0.6856411695480347, "Quantum sensing Detection": 0.6873822808265686, "Quantum sensing Metrology": 0.6821860671043396, "Quantum sensing navigation": 0.7196639180183411, "Quantum sensing Position": 0.7103718519210815, "Quantum sensing Timing": 0.6844443082809448, "Quantum sensing": 0.6982898712158203, "Quantum control": 0.7127634286880493 } }, { "id": 2250, "title": "Quantum Hall Circle", "abstract": "We consider spin-polarized electrons in a single Landau level on a cylinder as the circumference of the cylinder goes to infinity. This gives a model of interacting electrons on a circle where the mom...", "citations": 9, "author_count": 3, "categories": [ "Mechanics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2253, "doi": "10.1088/1742-5468/2009/04/P04015", "umap_coordinates": { "x": 395.2877502441406, "y": 136.80955505371094, "z": 206.83871459960938 }, "tsne_coordinates": { "x": -40.35359573364258, "y": -2.624779462814331, "z": 1.943410873413086 }, "pca_coordinates": { "x": 2.3342669010162354, "y": 3.6930744647979736, "z": -0.8541234135627747 }, "axis_scores": { "Quantum imaging": 0.7586736679077148, "Quantum Life Science Sensing": 0.7603532671928406, "Quantum sensing Detection": 0.7578102350234985, "Quantum sensing Metrology": 0.7344832420349121, "Quantum sensing navigation": 0.7654874324798584, "Quantum sensing Position": 0.7526103854179382, "Quantum sensing Timing": 0.7527846097946167, "Quantum sensing": 0.7705022692680359, "Quantum control": 0.7763213515281677 } }, { "id": 2251, "title": "Characterization of photon-counting multislit breast tomosynthesis", "abstract": "Purpose: It has been shown that breast tomosynthesis may improve sensitivity and specificity compared to two-dimensional mammography, resulting in increased detection-rate of cancers or lowered call-b...", "citations": 9, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2254, "doi": "10.1002/mp.12684", "umap_coordinates": { "x": 395.52130126953125, "y": 132.8093719482422, "z": 205.68466186523438 }, "tsne_coordinates": { "x": -9.355888366699219, "y": 18.451940536499023, "z": -27.75652503967285 }, "pca_coordinates": { "x": -3.6446728706359863, "y": 2.14850115776062, "z": 3.1406495571136475 }, "axis_scores": { "Quantum imaging": 0.7127602696418762, "Quantum Life Science Sensing": 0.7096310257911682, "Quantum sensing Detection": 0.7027566432952881, "Quantum sensing Metrology": 0.7121323943138123, "Quantum sensing navigation": 0.6634989380836487, "Quantum sensing Position": 0.6723624467849731, "Quantum sensing Timing": 0.6852388381958008, "Quantum sensing": 0.7022826075553894, "Quantum control": 0.6467775106430054 } }, { "id": 2252, "title": "Sandwiched confinement of quantum dots in graphene matrix for efficient electron transfer and photocurrent production", "abstract": "Quantum dots (QDs) and graphene are both promising materials for the development of new-generation optoelectronic devices. Towards this end, synergic assembly of these two building blocks is a key ste...", "citations": 26, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2255, "doi": "10.1038/srep09860", "umap_coordinates": { "x": 391.8326721191406, "y": 134.04638671875, "z": 205.7789764404297 }, "tsne_coordinates": { "x": 19.421932220458984, "y": 8.493780136108398, "z": -14.806445121765137 }, "pca_coordinates": { "x": -2.206787586212158, "y": -4.5855393409729, "z": -0.5827566385269165 }, "axis_scores": { "Quantum imaging": 0.6953862309455872, "Quantum Life Science Sensing": 0.7110783457756042, "Quantum sensing Detection": 0.6862049102783203, "Quantum sensing Metrology": 0.6815519332885742, "Quantum sensing navigation": 0.6759902238845825, "Quantum sensing Position": 0.6606743335723877, "Quantum sensing Timing": 0.6262878775596619, "Quantum sensing": 0.6987020969390869, "Quantum control": 0.6554996371269226 } }, { "id": 2253, "title": "Size-selected compound semiconductor quantum dots by nanoparticle conversion", "abstract": "We have developed a novel technology, called nanoparticle conversion, for producing compound semiconductor quantum dots (QDs) in which the dot size, surface density, position, and the materials system...", "citations": 3, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2256, "doi": "10.1088/0957-4484/18/10/105306", "umap_coordinates": { "x": 392.6338806152344, "y": 133.69244384765625, "z": 206.45635986328125 }, "tsne_coordinates": { "x": 31.75108528137207, "y": -2.042999029159546, "z": -6.009822368621826 }, "pca_coordinates": { "x": -3.1310505867004395, "y": -2.2316832542419434, "z": 0.9169549345970154 }, "axis_scores": { "Quantum imaging": 0.6982630491256714, "Quantum Life Science Sensing": 0.7162364721298218, "Quantum sensing Detection": 0.6951944828033447, "Quantum sensing Metrology": 0.6782193183898926, "Quantum sensing navigation": 0.6735941171646118, "Quantum sensing Position": 0.6818097829818726, "Quantum sensing Timing": 0.6601210832595825, "Quantum sensing": 0.7077330350875854, "Quantum control": 0.6854863166809082 } }, { "id": 2254, "title": "Multicomponent dynamics in amorphous ice studied using X-ray photon correlation spectroscopy at elevated pressure and cryogenic temperatures", "abstract": "Knowing the pressure dependence of glass forming liquids is important in various contexts. Here, we study the case of supercooled water, which has at least two different amorphous states with differen...", "citations": 5, "author_count": 20, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2257, "doi": "10.1038/s42004-025-01480-8", "umap_coordinates": { "x": 393.0841369628906, "y": 136.087158203125, "z": 206.61065673828125 }, "tsne_coordinates": { "x": 0.9048912525177002, "y": 0.13647282123565674, "z": 26.711580276489258 }, "pca_coordinates": { "x": 0.4075620174407959, "y": 0.21389055252075195, "z": -0.8719711899757385 }, "axis_scores": { "Quantum imaging": 0.6998826861381531, "Quantum Life Science Sensing": 0.699794352054596, "Quantum sensing Detection": 0.6689977049827576, "Quantum sensing Metrology": 0.6394277811050415, "Quantum sensing navigation": 0.6572656631469727, "Quantum sensing Position": 0.6526759266853333, "Quantum sensing Timing": 0.6670904159545898, "Quantum sensing": 0.6700035929679871, "Quantum control": 0.6570338010787964 } }, { "id": 2255, "title": "Three-body system metaphor for the two-slit experiment and Escherichia coli lactose-glucose metabolism", "abstract": "We compare the contextual probabilistic structures of the seminal two-slit experiment (quantum interference experiment), the system of three interacting bodies and Escherichia coli lactose-glucose met...", "citations": 7, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2258, "doi": "10.1098/rsta.2015.0243", "umap_coordinates": { "x": 394.5491638183594, "y": 137.23976135253906, "z": 205.22732543945312 }, "tsne_coordinates": { "x": -24.512060165405273, "y": 14.511792182922363, "z": 21.005029678344727 }, "pca_coordinates": { "x": -1.2617428302764893, "y": 3.615839958190918, "z": -0.8221124410629272 }, "axis_scores": { "Quantum imaging": 0.7005429267883301, "Quantum Life Science Sensing": 0.7128361463546753, "Quantum sensing Detection": 0.6929235458374023, "Quantum sensing Metrology": 0.6829994916915894, "Quantum sensing navigation": 0.7081053853034973, "Quantum sensing Position": 0.6844413876533508, "Quantum sensing Timing": 0.7049647569656372, "Quantum sensing": 0.7031254172325134, "Quantum control": 0.6913607120513916 } }, { "id": 2256, "title": "Free Space Interference Experiments with Single Photons and Single Ions", "abstract": "Trapped ion crystals have proved to be one of the most viable physical implementations of quantum registers and a promising candidate for a scalable realization of quantum networks. The latter will re...", "citations": 4, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2259, "doi": "10.1007/978-3-319-19231-4_4", "umap_coordinates": { "x": 394.9014892578125, "y": 135.40525817871094, "z": 205.50631713867188 }, "tsne_coordinates": { "x": -15.990793228149414, "y": 16.438568115234375, "z": 4.090226650238037 }, "pca_coordinates": { "x": -0.4678992033004761, "y": 1.997879981994629, "z": 2.792025566101074 }, "axis_scores": { "Quantum imaging": 0.767328143119812, "Quantum Life Science Sensing": 0.7522698640823364, "Quantum sensing Detection": 0.7432328462600708, "Quantum sensing Metrology": 0.7533625960350037, "Quantum sensing navigation": 0.7441864013671875, "Quantum sensing Position": 0.7256425619125366, "Quantum sensing Timing": 0.7226744890213013, "Quantum sensing": 0.7598803043365479, "Quantum control": 0.7184410691261292 } }, { "id": 2257, "title": "High Color Conversion Efficiency Realized in Graphene-Connected Nanorod Micro-LEDs Using Hybrid Ag Nanoparticles and Quantum Dots", "abstract": "In this paper, a uniform nanorod (NR) array is etched onto the surface of Micro-Light-Emitting-Diodes (mu LEDs) and mix Ag nanoparticles (NPs) with QDs to fill the gaps between the nanorods. Simultane...", "citations": 5, "author_count": 9, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2260, "doi": "10.1002/adom.202400230", "umap_coordinates": { "x": 392.5820007324219, "y": 133.44790649414062, "z": 205.1400146484375 }, "tsne_coordinates": { "x": 32.076637268066406, "y": 4.71954870223999, "z": -15.593597412109375 }, "pca_coordinates": { "x": -3.030033588409424, "y": -3.1843276023864746, "z": 0.7956146597862244 }, "axis_scores": { "Quantum imaging": 0.6873347759246826, "Quantum Life Science Sensing": 0.7086778879165649, "Quantum sensing Detection": 0.6878783106803894, "Quantum sensing Metrology": 0.6859312057495117, "Quantum sensing navigation": 0.6772860884666443, "Quantum sensing Position": 0.6558575630187988, "Quantum sensing Timing": 0.624676525592804, "Quantum sensing": 0.696265697479248, "Quantum control": 0.6758000254631042 } }, { "id": 2258, "title": "Panoramic single-photon counting 3D lidar", "abstract": "In defense and security applications it is often of interest to find out if something is hidden inside the forest edge on the other side of an open field. High resolution 3D data has a possibility to ...", "citations": 7, "author_count": 4, "categories": [ "Remote Sensing" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2261, "doi": "10.1117/12.2325691", "umap_coordinates": { "x": 395.07513427734375, "y": 133.08767700195312, "z": 206.669189453125 }, "tsne_coordinates": { "x": -7.47614860534668, "y": 10.941402435302734, "z": -29.126541137695312 }, "pca_coordinates": { "x": -1.9821916818618774, "y": 0.1873021125793457, "z": 4.44508171081543 }, "axis_scores": { "Quantum imaging": 0.7445591688156128, "Quantum Life Science Sensing": 0.7534099817276001, "Quantum sensing Detection": 0.7565873265266418, "Quantum sensing Metrology": 0.7702224254608154, "Quantum sensing navigation": 0.7516317963600159, "Quantum sensing Position": 0.7218870520591736, "Quantum sensing Timing": 0.7138147950172424, "Quantum sensing": 0.7632032632827759, "Quantum control": 0.703045129776001 } }, { "id": 2259, "title": "Measurements of a Dual-Energy Fast Photon Counting CdTe Detector with Integrated Charge Sharing Correction", "abstract": "Photon counting detectors offer some unique features for x-ray imaging. If designed correctly, photon counting detectors have no readout noise and no dark counts. This is an important feature in for e...", "citations": 38, "author_count": 7, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2262, "doi": "10.1117/12.2007892", "umap_coordinates": { "x": 395.5145568847656, "y": 133.04713439941406, "z": 206.32998657226562 }, "tsne_coordinates": { "x": -15.102177619934082, "y": 21.544315338134766, "z": -27.08268165588379 }, "pca_coordinates": { "x": -1.5667314529418945, "y": -0.0016148090362548828, "z": 4.480355739593506 }, "axis_scores": { "Quantum imaging": 0.7343563437461853, "Quantum Life Science Sensing": 0.7274628281593323, "Quantum sensing Detection": 0.7404429912567139, "Quantum sensing Metrology": 0.7296159863471985, "Quantum sensing navigation": 0.712082028388977, "Quantum sensing Position": 0.6987871527671814, "Quantum sensing Timing": 0.7207459211349487, "Quantum sensing": 0.7366620898246765, "Quantum control": 0.6811243295669556 } }, { "id": 2260, "title": "Attosecond spectroscopy of molecular charge transfer uncovers a 1.5-fs delay in population transfer", "abstract": "The transfer of population between two intersecting quantum states is the most fundamental event in many dynamical processes in physics, chemistry, biology, and material science. Any two-state descrip...", "citations": 3, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2263, "doi": "10.1038/s41467-025-62162-6", "umap_coordinates": { "x": 392.8177490234375, "y": 135.89430236816406, "z": 206.1117401123047 }, "tsne_coordinates": { "x": 1.1669543981552124, "y": 1.3735477924346924, "z": 10.25363540649414 }, "pca_coordinates": { "x": -0.323742151260376, "y": -1.5209174156188965, "z": -1.580169916152954 }, "axis_scores": { "Quantum imaging": 0.7011585235595703, "Quantum Life Science Sensing": 0.7373256683349609, "Quantum sensing Detection": 0.7059023976325989, "Quantum sensing Metrology": 0.6811990141868591, "Quantum sensing navigation": 0.6829569935798645, "Quantum sensing Position": 0.6880136132240295, "Quantum sensing Timing": 0.7106427550315857, "Quantum sensing": 0.7156211137771606, "Quantum control": 0.7021744847297668 } }, { "id": 2261, "title": "FUNDAMENTAL NOISE MECHANISMS", "abstract": "", "citations": 5, "author_count": 3, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2264, "doi": null, "umap_coordinates": { "x": 392.0467529296875, "y": 139.61500549316406, "z": 209.43785095214844 }, "tsne_coordinates": { "x": -7.954901695251465, "y": 44.82942199707031, "z": -1.3034838438034058 }, "pca_coordinates": { "x": 0.4069547653198242, "y": 4.449712753295898, "z": -1.9181606769561768 }, "axis_scores": { "Quantum imaging": 0.7259709239006042, "Quantum Life Science Sensing": 0.731492817401886, "Quantum sensing Detection": 0.7362910509109497, "Quantum sensing Metrology": 0.7120997905731201, "Quantum sensing navigation": 0.7492828965187073, "Quantum sensing Position": 0.6943719983100891, "Quantum sensing Timing": 0.7014397978782654, "Quantum sensing": 0.7421526312828064, "Quantum control": 0.7543970346450806 } }, { "id": 2262, "title": "Electrical characterization of InP/GaInP quantum dots by space charge spectroscopy", "abstract": "An investigation of coherently grown InP quantum dots embedded in Ga0.5In0.5P by conventional space charge spectroscopy methods is reported. Deep level transient spectroscopy (DLTS) is used to obtain ...", "citations": 67, "author_count": 6, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2265, "doi": "10.1063/1.368553", "umap_coordinates": { "x": 392.86224365234375, "y": 134.0959014892578, "z": 208.5581512451172 }, "tsne_coordinates": { "x": 27.1934871673584, "y": -19.749797821044922, "z": 3.8021862506866455 }, "pca_coordinates": { "x": 1.0503578186035156, "y": -3.649890422821045, "z": 1.1999595165252686 }, "axis_scores": { "Quantum imaging": 0.7373847365379333, "Quantum Life Science Sensing": 0.7730662822723389, "Quantum sensing Detection": 0.7481339573860168, "Quantum sensing Metrology": 0.7485742568969727, "Quantum sensing navigation": 0.7328579425811768, "Quantum sensing Position": 0.7346817255020142, "Quantum sensing Timing": 0.6868628859519958, "Quantum sensing": 0.764232873916626, "Quantum control": 0.7062255144119263 } }, { "id": 2263, "title": "Equivalence between face nonsignaling correlations, full nonlocality, all-versus-nothing proofs, and pseudotelepathy", "abstract": "We show that a quantum correlation p is in a face of the nonsignaling polytope with no local points if and only if p has nonlocal content 1, if and only if p allows for a Greenberger-Horne-Zeilinger-l...", "citations": 9, "author_count": 7, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2266, "doi": "10.1103/PhysRevResearch.6.L042035", "umap_coordinates": { "x": 395.80841064453125, "y": 137.0998992919922, "z": 207.59242248535156 }, "tsne_coordinates": { "x": -21.404991149902344, "y": -0.8507589101791382, "z": 1.70598304271698 }, "pca_coordinates": { "x": 1.83534574508667, "y": 3.110233783721924, "z": -0.5410904884338379 }, "axis_scores": { "Quantum imaging": 0.7067028880119324, "Quantum Life Science Sensing": 0.7094323635101318, "Quantum sensing Detection": 0.6739583015441895, "Quantum sensing Metrology": 0.6872087717056274, "Quantum sensing navigation": 0.6927511692047119, "Quantum sensing Position": 0.6688492298126221, "Quantum sensing Timing": 0.6816173195838928, "Quantum sensing": 0.6955225467681885, "Quantum control": 0.6651807427406311 } }, { "id": 2264, "title": "Synthesis, optical properties and applications of red/near-infrared carbon dots", "abstract": "Compared to inorganic quantum dots, fluorescent carbon nanomaterials (C-dots) have gained significant attention because of their unique optoelectrical properties and low toxicity. Although many review...", "citations": 52, "author_count": 6, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2267, "doi": "10.1039/d2tc02044k", "umap_coordinates": { "x": 392.1379089355469, "y": 135.0296173095703, "z": 205.43617248535156 }, "tsne_coordinates": { "x": 11.448225975036621, "y": 2.1932485103607178, "z": -9.67403793334961 }, "pca_coordinates": { "x": -2.787407875061035, "y": -2.697813034057617, "z": -1.6433689594268799 }, "axis_scores": { "Quantum imaging": 0.719545304775238, "Quantum Life Science Sensing": 0.7513675093650818, "Quantum sensing Detection": 0.7216497659683228, "Quantum sensing Metrology": 0.704267144203186, "Quantum sensing navigation": 0.688950777053833, "Quantum sensing Position": 0.6941377520561218, "Quantum sensing Timing": 0.6982333660125732, "Quantum sensing": 0.7315546870231628, "Quantum control": 0.7068490386009216 } }, { "id": 2265, "title": "SINGLET-STATE DIABATIC AND ADIABATIC CIS-TRANS PHOTOISOMERIZATIONS OF 4,4'-BIS(3,5-DI-TERT-BUTYLSTYRYL)STILBENES", "abstract": "The mechanism for photoisomerization of the six isomers, 1-6, of 4,4'-bis(3,5-di-tert-butylstyryl)stilbene has been investigated. The isomerizations always proceed from cis to trans configurations, an...", "citations": 24, "author_count": 4, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 2268, "doi": "10.1021/j100122a019", "umap_coordinates": { "x": 392.33782958984375, "y": 135.76731872558594, "z": 205.62144470214844 }, "tsne_coordinates": { "x": -4.576318264007568, "y": -2.686314105987549, "z": -12.892322540283203 }, "pca_coordinates": { "x": -0.9858121871948242, "y": -1.3940842151641846, "z": -1.7605774402618408 }, "axis_scores": { "Quantum imaging": 0.6597729921340942, "Quantum Life Science Sensing": 0.6585467457771301, "Quantum sensing Detection": 0.6371786594390869, "Quantum sensing Metrology": 0.631419837474823, "Quantum sensing navigation": 0.6336182355880737, "Quantum sensing Position": 0.6174636483192444, "Quantum sensing Timing": 0.6592628359794617, "Quantum sensing": 0.654292106628418, "Quantum control": 0.632619321346283 } }, { "id": 2266, "title": "Aerosol fabrication of nanocrystals of InP", "abstract": "Nanocrystals of indium phosphide, with diameters of around 10 nm, have been produced via an aerosol route. The method is based on the formation of monodisperse indium droplets and the subsequent react...", "citations": 7, "author_count": 7, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2269, "doi": "10.1143/JJAP.38.1056", "umap_coordinates": { "x": 392.3821105957031, "y": 134.12742614746094, "z": 206.9095916748047 }, "tsne_coordinates": { "x": 38.862274169921875, "y": -14.22221851348877, "z": -1.8602633476257324 }, "pca_coordinates": { "x": -1.8669188022613525, "y": -1.9576416015625, "z": 0.7660176157951355 }, "axis_scores": { "Quantum imaging": 0.7266253232955933, "Quantum Life Science Sensing": 0.7174403071403503, "Quantum sensing Detection": 0.7098554372787476, "Quantum sensing Metrology": 0.7049511671066284, "Quantum sensing navigation": 0.6925185918807983, "Quantum sensing Position": 0.6892229318618774, "Quantum sensing Timing": 0.6754124164581299, "Quantum sensing": 0.7239707708358765, "Quantum control": 0.7133365869522095 } }, { "id": 2267, "title": "Efficient perovskite LEDs with tailored atomic layer number emission at fixed wavelengths", "abstract": "Colloidal quantum dots (QDs) have illuminated computer monitors and television screens due to their fascinating color-tunable properties depending on the size. Here, the electroluminescence (EL) wavel...", "citations": 4, "author_count": 30, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2270, "doi": "10.1126/sciadv.adp9595", "umap_coordinates": { "x": 392.8850402832031, "y": 133.68373107910156, "z": 205.61135864257812 }, "tsne_coordinates": { "x": -10.10466480255127, "y": -2.8059544563293457, "z": 6.730052471160889 }, "pca_coordinates": { "x": -2.8469085693359375, "y": -2.275831699371338, "z": 1.8880164623260498 }, "axis_scores": { "Quantum imaging": 0.7010819315910339, "Quantum Life Science Sensing": 0.6952971816062927, "Quantum sensing Detection": 0.6731889843940735, "Quantum sensing Metrology": 0.6852474808692932, "Quantum sensing navigation": 0.69890296459198, "Quantum sensing Position": 0.6843084692955017, "Quantum sensing Timing": 0.6754370927810669, "Quantum sensing": 0.6948372721672058, "Quantum control": 0.6910658478736877 } }, { "id": 2268, "title": "Perovskite and quantum dot tandem solar cells with interlayer modification for improved optical semitransparency and stability", "abstract": "In this work, four-terminal (4T) tandem solar cells were fabricated by using a methylammonium lead iodide (MAPbI(3)) perovskite solar cell (PSC) as the front-cell and a lead sulfide (PbS) colloidal qu...", "citations": 28, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2271, "doi": "10.1039/d0nr08375e", "umap_coordinates": { "x": 391.74835205078125, "y": 134.2232666015625, "z": 205.4331817626953 }, "tsne_coordinates": { "x": 23.88787269592285, "y": -1.019967794418335, "z": -12.58927059173584 }, "pca_coordinates": { "x": -2.0623726844787598, "y": -4.200908184051514, "z": -0.42769116163253784 }, "axis_scores": { "Quantum imaging": 0.6798081398010254, "Quantum Life Science Sensing": 0.7067726254463196, "Quantum sensing Detection": 0.6680559515953064, "Quantum sensing Metrology": 0.6823121309280396, "Quantum sensing navigation": 0.6494763493537903, "Quantum sensing Position": 0.6503548622131348, "Quantum sensing Timing": 0.652336597442627, "Quantum sensing": 0.6806591749191284, "Quantum control": 0.6440179347991943 } }, { "id": 2269, "title": "Substitution effect on the photochromic properties of benzo[b]thiophene-1,1-dioxide based diarylethenes", "abstract": "Benzo[b]thiophene-1,1-dioxide based diarylethenes (DAEs), BTT-1 to BTT-4, containing methyl, phenyl, formyl and triphenylamine groups at the 5,5'-position of the thiophene rings have been developed fo...", "citations": 9, "author_count": 5, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2272, "doi": "10.1039/c5ra18116j", "umap_coordinates": { "x": 392.3643493652344, "y": 135.74009704589844, "z": 204.8666229248047 }, "tsne_coordinates": { "x": 0.4520743191242218, "y": 3.359102725982666, "z": -12.725934028625488 }, "pca_coordinates": { "x": -1.4174271821975708, "y": -1.2731108665466309, "z": -1.5446810722351074 }, "axis_scores": { "Quantum imaging": 0.6877966523170471, "Quantum Life Science Sensing": 0.7094097137451172, "Quantum sensing Detection": 0.6883399486541748, "Quantum sensing Metrology": 0.6733278036117554, "Quantum sensing navigation": 0.6807088255882263, "Quantum sensing Position": 0.6845619082450867, "Quantum sensing Timing": 0.6962283849716187, "Quantum sensing": 0.7017755508422852, "Quantum control": 0.6846377849578857 } }, { "id": 2270, "title": "Comparative Magneto-Photoluminescence Study of Ensembles and of Individual InAs Quantum Dots", "abstract": "We report on magneto-photoluminescence studies of InAs/GaAs quantum dots (QDs) of considerably different densities, from dense ensembles down to individual dots. It is found that a magnetic field appl...", "citations": 9, "author_count": 7, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2273, "doi": "10.1021/nl803148q", "umap_coordinates": { "x": 392.68157958984375, "y": 133.75450134277344, "z": 207.59552001953125 }, "tsne_coordinates": { "x": 34.871707916259766, "y": 0.15713734924793243, "z": 3.2363734245300293 }, "pca_coordinates": { "x": -0.8738183379173279, "y": -4.035438537597656, "z": 0.1263757348060608 }, "axis_scores": { "Quantum imaging": 0.7117931246757507, "Quantum Life Science Sensing": 0.7231380939483643, "Quantum sensing Detection": 0.699839174747467, "Quantum sensing Metrology": 0.7053146958351135, "Quantum sensing navigation": 0.6863903999328613, "Quantum sensing Position": 0.687131941318512, "Quantum sensing Timing": 0.6474276185035706, "Quantum sensing": 0.7186921834945679, "Quantum control": 0.6653908491134644 } }, { "id": 2271, "title": "First Principle Simulator of a Stochastically Varying Image Plane for Photon-counting High Contrast Applications", "abstract": "Optical and near-infrared Microwave Kinetic Inductance Detectors, or MKIDs are low-temperature detectors with inherent spectral resolution that are able to instantly register individual photons with p...", "citations": 6, "author_count": 10, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2274, "doi": "10.1088/1538-3873/aba9e4", "umap_coordinates": { "x": 395.3956298828125, "y": 133.51864624023438, "z": 205.5377197265625 }, "tsne_coordinates": { "x": -7.411588668823242, "y": 12.525677680969238, "z": -18.02065658569336 }, "pca_coordinates": { "x": -1.2472573518753052, "y": 3.182957410812378, "z": 2.320377826690674 }, "axis_scores": { "Quantum imaging": 0.7395358085632324, "Quantum Life Science Sensing": 0.7035454511642456, "Quantum sensing Detection": 0.695354700088501, "Quantum sensing Metrology": 0.6815848350524902, "Quantum sensing navigation": 0.7187373042106628, "Quantum sensing Position": 0.6936555504798889, "Quantum sensing Timing": 0.6996465921401978, "Quantum sensing": 0.7012290954589844, "Quantum control": 0.6717640161514282 } }, { "id": 2272, "title": "Entangled-state lithography:: Tailoring any pattern with a single state", "abstract": "We demonstrate a systematic approach to Heisenberg-Limited lithographic image formation using four-mode reciprocal binomial states. By controlling the exposure pattern with a simple bank of birefringe...", "citations": 102, "author_count": 4, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2275, "doi": "10.1103/PhysRevLett.86.4516", "umap_coordinates": { "x": 395.11846923828125, "y": 134.706298828125, "z": 208.13925170898438 }, "tsne_coordinates": { "x": 0.8930410146713257, "y": -20.573030471801758, "z": -13.88264274597168 }, "pca_coordinates": { "x": 2.748217821121216, "y": -0.8506078720092773, "z": 3.2197933197021484 }, "axis_scores": { "Quantum imaging": 0.7411296963691711, "Quantum Life Science Sensing": 0.7308290004730225, "Quantum sensing Detection": 0.7484955787658691, "Quantum sensing Metrology": 0.7437084317207336, "Quantum sensing navigation": 0.7537747025489807, "Quantum sensing Position": 0.7375546097755432, "Quantum sensing Timing": 0.7140759229660034, "Quantum sensing": 0.7592830657958984, "Quantum control": 0.7322126030921936 } }, { "id": 2273, "title": "Magnetic-Field-Independent Subgap States in Hybrid Rashba Nanowires", "abstract": "Subgap states in semiconducting-superconducting nanowire hybrid devices are controversially discussed as potential topologically nontrivial quantum states. One source of ambiguity is the lack of an en...", "citations": 49, "author_count": 11, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2276, "doi": "10.1103/PhysRevLett.125.017701", "umap_coordinates": { "x": 393.38140869140625, "y": 135.72096252441406, "z": 209.0063018798828 }, "tsne_coordinates": { "x": 3.6370904445648193, "y": -25.01583480834961, "z": 9.283888816833496 }, "pca_coordinates": { "x": 4.233640193939209, "y": -3.379909038543701, "z": 0.2897558808326721 }, "axis_scores": { "Quantum imaging": 0.7020331025123596, "Quantum Life Science Sensing": 0.6887363195419312, "Quantum sensing Detection": 0.6817948222160339, "Quantum sensing Metrology": 0.686336100101471, "Quantum sensing navigation": 0.6963863968849182, "Quantum sensing Position": 0.6473933458328247, "Quantum sensing Timing": 0.6455404162406921, "Quantum sensing": 0.7015398740768433, "Quantum control": 0.6685476303100586 } }, { "id": 2274, "title": "Dye-sensitization of CdS Nano-cage - A Density Functional Theory Approach", "abstract": "Quantum dots a few nanometer in size exhibit unique properties in comparison to bulk due to quantum confinement. Their properties can be tuned according to their sizes. Dye sensitized quantum dot (DSQ...", "citations": 1, "author_count": 7, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2277, "doi": "10.1063/1.4947704", "umap_coordinates": { "x": 392.84747314453125, "y": 134.9540557861328, "z": 206.95416259765625 }, "tsne_coordinates": { "x": 23.654836654663086, "y": -4.46605110168457, "z": -0.888530433177948 }, "pca_coordinates": { "x": -0.24201780557632446, "y": -1.9371819496154785, "z": -0.7476505041122437 }, "axis_scores": { "Quantum imaging": 0.7423205971717834, "Quantum Life Science Sensing": 0.7785223722457886, "Quantum sensing Detection": 0.7535301446914673, "Quantum sensing Metrology": 0.7256639003753662, "Quantum sensing navigation": 0.7277475595474243, "Quantum sensing Position": 0.7070383429527283, "Quantum sensing Timing": 0.6853204965591431, "Quantum sensing": 0.760634183883667, "Quantum control": 0.7335832715034485 } }, { "id": 2275, "title": "Manifestation of polaronic effects in Josephson currents", "abstract": "Polaronic effects on the Josephson current through a vibrating quantum dot are considered. In the regime of strong electron-vibron interactions they lead to a power-law suppression of the critical cur...", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2278, "doi": "10.1063/1.4818791", "umap_coordinates": { "x": 394.10260009765625, "y": 134.87939453125, "z": 208.5943145751953 }, "tsne_coordinates": { "x": 16.738666534423828, "y": -33.42129135131836, "z": 4.091252326965332 }, "pca_coordinates": { "x": 2.1732747554779053, "y": -1.0663886070251465, "z": -0.6713684797286987 }, "axis_scores": { "Quantum imaging": 0.721528947353363, "Quantum Life Science Sensing": 0.6959057450294495, "Quantum sensing Detection": 0.6835468411445618, "Quantum sensing Metrology": 0.6690174341201782, "Quantum sensing navigation": 0.7026673555374146, "Quantum sensing Position": 0.6811742186546326, "Quantum sensing Timing": 0.682697057723999, "Quantum sensing": 0.6992534399032593, "Quantum control": 0.6823193430900574 } }, { "id": 2276, "title": "Operation of graphene quantum Hall resistance standard in a cryogen-free table-top system", "abstract": "We demonstrate quantum Hall resistance measurements with metrological accuracy in a small cryogen-free system operating at a temperature of around 3.8 K and magnetic fields below 5 T. Operating this s...", "citations": 83, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2279, "doi": "10.1088/2053-1583/2/3/035015", "umap_coordinates": { "x": 394.5671081542969, "y": 135.8107147216797, "z": 207.73916625976562 }, "tsne_coordinates": { "x": -9.602678298950195, "y": 48.9287223815918, "z": 4.591730117797852 }, "pca_coordinates": { "x": 2.787900686264038, "y": 1.7304130792617798, "z": 0.36013907194137573 }, "axis_scores": { "Quantum imaging": 0.6848103404045105, "Quantum Life Science Sensing": 0.7294842600822449, "Quantum sensing Detection": 0.6953210234642029, "Quantum sensing Metrology": 0.7109965085983276, "Quantum sensing navigation": 0.724196195602417, "Quantum sensing Position": 0.7081151008605957, "Quantum sensing Timing": 0.705435574054718, "Quantum sensing": 0.7106348276138306, "Quantum control": 0.689872145652771 } }, { "id": 2277, "title": "Imprints of screened dark energy on nonlocal quantum correlations", "abstract": "We investigate how screening mechanisms, reconciling light scalar fields driving cosmic acceleration with local fifth force constraints, can be probed via their impact on nonlocal quantum correlations...", "citations": 1, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2280, "doi": "10.1103/y314-4x4s", "umap_coordinates": { "x": 395.5185241699219, "y": 137.19859313964844, "z": 207.6644744873047 }, "tsne_coordinates": { "x": -24.37126922607422, "y": -1.064334511756897, "z": 2.3428232669830322 }, "pca_coordinates": { "x": 1.4716777801513672, "y": 1.178001880645752, "z": 0.1470799446105957 }, "axis_scores": { "Quantum imaging": 0.7162467241287231, "Quantum Life Science Sensing": 0.6980759501457214, "Quantum sensing Detection": 0.7110061049461365, "Quantum sensing Metrology": 0.6823381781578064, "Quantum sensing navigation": 0.7077435255050659, "Quantum sensing Position": 0.6889682412147522, "Quantum sensing Timing": 0.6776648759841919, "Quantum sensing": 0.7257142663002014, "Quantum control": 0.7043516039848328 } }, { "id": 2278, "title": "Refinement of the experimental dynamic structure factor for liquid para-hydrogen and ortho-deuterium using semi-classical quantum simulation", "abstract": "The dynamic structure factor of liquid para-hydrogen and ortho-deuterium in corresponding thermodynamic states (T = 20.0 K, n = 21.24 nm(-3)) and (T = 23.0 K, n = 24.61 nm(-3)), respectively, has been...", "citations": 10, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2281, "doi": "10.1063/1.4851997", "umap_coordinates": { "x": 393.5120849609375, "y": 137.44117736816406, "z": 206.74684143066406 }, "tsne_coordinates": { "x": -9.351054191589355, "y": 0.9457047581672668, "z": 32.426170349121094 }, "pca_coordinates": { "x": 2.1590986251831055, "y": 1.9404747486114502, "z": -2.0010390281677246 }, "axis_scores": { "Quantum imaging": 0.7403070330619812, "Quantum Life Science Sensing": 0.7514411211013794, "Quantum sensing Detection": 0.7039381861686707, "Quantum sensing Metrology": 0.7146336436271667, "Quantum sensing navigation": 0.7314469218254089, "Quantum sensing Position": 0.6992834210395813, "Quantum sensing Timing": 0.6957952976226807, "Quantum sensing": 0.7324026823043823, "Quantum control": 0.7256812453269958 } }, { "id": 2279, "title": "Controlling the cooperative self-assembly of graphene oxide quantum dots in aqueous solutions", "abstract": "Fascinating 3D cooperative self-assembly behavior was observed for 2D graphene oxide quantum dots (GOQDs) in dilute and semi dilute aqueous solutions. In addition the optical properties could be tuned...", "citations": 38, "author_count": 4, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2282, "doi": "10.1039/c5ra09704e", "umap_coordinates": { "x": 392.01776123046875, "y": 135.02777099609375, "z": 205.62017822265625 }, "tsne_coordinates": { "x": 17.39436149597168, "y": -6.267828941345215, "z": -5.0068769454956055 }, "pca_coordinates": { "x": -1.0823560953140259, "y": -2.3722472190856934, "z": -2.3164610862731934 }, "axis_scores": { "Quantum imaging": 0.712519645690918, "Quantum Life Science Sensing": 0.7549569606781006, "Quantum sensing Detection": 0.7270788550376892, "Quantum sensing Metrology": 0.7106753587722778, "Quantum sensing navigation": 0.7288979887962341, "Quantum sensing Position": 0.6994633078575134, "Quantum sensing Timing": 0.6781872510910034, "Quantum sensing": 0.7358438372612, "Quantum control": 0.7469260692596436 } }, { "id": 2280, "title": "Spin-Assisted Multilayers of Poly(methyl methacrylate) and Zinc Oxide Quantum Dots for Ultraviolet-Blocking Applications", "abstract": "Thin UV-blocking films of poly(methyl methacrylate) (PMMA) and ZnO quantum dots (QDs) were built-up by spin-coating. Ellipsometry reveals average thicknesses of 9.5 and 8.6 nm per bilayer before and a...", "citations": 47, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2283, "doi": "10.1021/am300243u", "umap_coordinates": { "x": 392.5740051269531, "y": 134.07110595703125, "z": 205.42054748535156 }, "tsne_coordinates": { "x": 30.688087463378906, "y": 20.78023910522461, "z": -3.043034553527832 }, "pca_coordinates": { "x": -1.6571253538131714, "y": -3.1023688316345215, "z": 0.5957655310630798 }, "axis_scores": { "Quantum imaging": 0.7078121304512024, "Quantum Life Science Sensing": 0.7112579345703125, "Quantum sensing Detection": 0.6978508830070496, "Quantum sensing Metrology": 0.7115196585655212, "Quantum sensing navigation": 0.6925770044326782, "Quantum sensing Position": 0.6762591600418091, "Quantum sensing Timing": 0.6513425707817078, "Quantum sensing": 0.7178736925125122, "Quantum control": 0.6855565309524536 } }, { "id": 2281, "title": "Quantum-like model for classical random electromagnetic field", "abstract": "Semiclassical models can be used, see e.g. Scully and Zubairy [Quantum Optics; Cambridge University Press: Cambridge, 1997], to simulate some distinguishing features of quantum optics. In this paper w...", "citations": 5, "author_count": 2, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2284, "doi": "10.1080/09500340802082418", "umap_coordinates": { "x": 394.9594421386719, "y": 137.58279418945312, "z": 206.345703125 }, "tsne_coordinates": { "x": -21.910585403442383, "y": 6.395984172821045, "z": 18.14851188659668 }, "pca_coordinates": { "x": 2.4300031661987305, "y": 3.348224639892578, "z": -1.1941137313842773 }, "axis_scores": { "Quantum imaging": 0.7537678480148315, "Quantum Life Science Sensing": 0.7654464840888977, "Quantum sensing Detection": 0.73801589012146, "Quantum sensing Metrology": 0.7267730236053467, "Quantum sensing navigation": 0.7555304765701294, "Quantum sensing Position": 0.7135689854621887, "Quantum sensing Timing": 0.7090445756912231, "Quantum sensing": 0.7530484199523926, "Quantum control": 0.7346999645233154 } }, { "id": 2282, "title": "Photodissociation of bromobenzene, dibromobenzene, and 1,3,5-tribromobenzene", "abstract": "Quantum chemical calculations have been performed on the ground state and several low-lying excited states of bromobenzene, ortho-, meta-, and para-dibromobenzene, and 1,3,5-tribromobenzene using high...", "citations": 53, "author_count": 8, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2285, "doi": "10.1063/1.1667460", "umap_coordinates": { "x": 393.68109130859375, "y": 134.7093963623047, "z": 207.61903381347656 }, "tsne_coordinates": { "x": 21.11513900756836, "y": -28.15736961364746, "z": -14.165909767150879 }, "pca_coordinates": { "x": 0.8718328475952148, "y": -1.1290645599365234, "z": 0.3699020743370056 }, "axis_scores": { "Quantum imaging": 0.7401946783065796, "Quantum Life Science Sensing": 0.7549188137054443, "Quantum sensing Detection": 0.7580645084381104, "Quantum sensing Metrology": 0.7375730276107788, "Quantum sensing navigation": 0.7144054174423218, "Quantum sensing Position": 0.7062441110610962, "Quantum sensing Timing": 0.7102370858192444, "Quantum sensing": 0.7551695108413696, "Quantum control": 0.7042465209960938 } }, { "id": 2283, "title": "From Quantum Dots to Micro Crystals: Organolead Triiodide Perovskite Crystal Growth from Isopropanol Solution", "abstract": "The growth mechanism and dependence on precursor conditions are vital for creation of high quality crystalline materials in many fields. Here the growth from nano sized quantum dots to micro crystalli...", "citations": 7, "author_count": 8, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2286, "doi": "10.1149/2.0241610jss", "umap_coordinates": { "x": 393.4634704589844, "y": 134.09707641601562, "z": 206.34140014648438 }, "tsne_coordinates": { "x": 34.42759704589844, "y": 5.30115270614624, "z": -4.304333209991455 }, "pca_coordinates": { "x": -0.9861137866973877, "y": -2.0392885208129883, "z": -1.0942356586456299 }, "axis_scores": { "Quantum imaging": 0.7446735501289368, "Quantum Life Science Sensing": 0.7490166425704956, "Quantum sensing Detection": 0.7125553488731384, "Quantum sensing Metrology": 0.7209720611572266, "Quantum sensing navigation": 0.7023175954818726, "Quantum sensing Position": 0.6858382821083069, "Quantum sensing Timing": 0.6864901781082153, "Quantum sensing": 0.7340818643569946, "Quantum control": 0.7250521183013916 } }, { "id": 2284, "title": "Plug and Play Brain: Understanding Integration of Transplanted Neurons for Brain Repair", "abstract": "In a recent issue of Nature, Falkner et al. (2016) use chronic two-photon imaging, virus-based transsynaptic tracing, and dynamic calcium indicators to elegantly demonstrate extensive in vivo function...", "citations": 1, "author_count": 3, "categories": [ "Cell Biology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2287, "doi": "10.1016/j.stem.2016.11.008", "umap_coordinates": { "x": 394.88287353515625, "y": 134.54222106933594, "z": 204.57188415527344 }, "tsne_coordinates": { "x": -4.311044216156006, "y": 26.44972038269043, "z": -1.3552517890930176 }, "pca_coordinates": { "x": -1.6614586114883423, "y": 2.6735355854034424, "z": 0.7589213252067566 }, "axis_scores": { "Quantum imaging": 0.6989955306053162, "Quantum Life Science Sensing": 0.6797707080841064, "Quantum sensing Detection": 0.6646938323974609, "Quantum sensing Metrology": 0.6576414108276367, "Quantum sensing navigation": 0.7050189971923828, "Quantum sensing Position": 0.6574212908744812, "Quantum sensing Timing": 0.6637328267097473, "Quantum sensing": 0.6812413930892944, "Quantum control": 0.6615728735923767 } }, { "id": 2285, "title": "A CONVENIENT TEST METHOD FOR PHOTOCHEMICAL TRANSFORMATION OF POLLUTANTS IN THE AQUATIC ENVIRONMENT", "abstract": "A test method, based on a modified Xenotest 1200, is described, and has been to be convenient for determination of the rate of photolytical degradation and that it can make a valuable contribution to ...", "citations": 3, "author_count": 3, "categories": [ "Environmental Sciences & Ecology" ], "year": 1988, "topic": [ "all" ], "embedding_index": 2288, "doi": "10.1016/0045-6535(88)90150-6", "umap_coordinates": { "x": 393.4002990722656, "y": 135.5082244873047, "z": 204.3124237060547 }, "tsne_coordinates": { "x": 13.84953498840332, "y": 21.483177185058594, "z": 11.681645393371582 }, "pca_coordinates": { "x": -3.5656328201293945, "y": 1.5921136140823364, "z": -1.1264681816101074 }, "axis_scores": { "Quantum imaging": 0.6754641532897949, "Quantum Life Science Sensing": 0.7341575622558594, "Quantum sensing Detection": 0.6861037015914917, "Quantum sensing Metrology": 0.680622398853302, "Quantum sensing navigation": 0.6704959869384766, "Quantum sensing Position": 0.6493369936943054, "Quantum sensing Timing": 0.647562563419342, "Quantum sensing": 0.6925969123840332, "Quantum control": 0.6506580710411072 } }, { "id": 2286, "title": "Mn2O3 hollow spheres synthesized based on an ion-exchange strategy from amorphous calcium carbonate for highly efficient trace-level uranyl extraction", "abstract": "Well-defined hierarchical hollow spheres constructed from Mn2O3 quantum dots were prepared via an ion-exchange strategy starting from small-sized amorphous calcium carbonate. They show outstanding cap...", "citations": 35, "author_count": 5, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2289, "doi": "10.1039/c6en00411c", "umap_coordinates": { "x": 391.9916687011719, "y": 134.77793884277344, "z": 204.95516967773438 }, "tsne_coordinates": { "x": 14.901963233947754, "y": 6.1985931396484375, "z": -14.736272811889648 }, "pca_coordinates": { "x": -2.8225302696228027, "y": -0.6842505931854248, "z": -1.9811086654663086 }, "axis_scores": { "Quantum imaging": 0.6836593747138977, "Quantum Life Science Sensing": 0.7073965072631836, "Quantum sensing Detection": 0.6858572959899902, "Quantum sensing Metrology": 0.6791962385177612, "Quantum sensing navigation": 0.694057047367096, "Quantum sensing Position": 0.6490347385406494, "Quantum sensing Timing": 0.6390823125839233, "Quantum sensing": 0.6977007389068604, "Quantum control": 0.676853358745575 } }, { "id": 2287, "title": "Bosenovae with quadratically-coupled scalars in quantum sensing experiments", "abstract": "Ultralight dark matter (ULDM) particles of mass m phi less than or similar to 1 eV can form boson stars in DM halos. Collapse of boson stars leads to explosive bosenova emission of copious relativisti...", "citations": 4, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2290, "doi": "10.1007/JHEP08(2024)222", "umap_coordinates": { "x": 395.769287109375, "y": 136.24172973632812, "z": 206.73057556152344 }, "tsne_coordinates": { "x": -23.079910278320312, "y": 0.044090334326028824, "z": -2.1029343605041504 }, "pca_coordinates": { "x": 2.1459407806396484, "y": 0.8144505023956299, "z": 2.0464954376220703 }, "axis_scores": { "Quantum imaging": 0.7727504372596741, "Quantum Life Science Sensing": 0.7645493745803833, "Quantum sensing Detection": 0.7819287180900574, "Quantum sensing Metrology": 0.7736413478851318, "Quantum sensing navigation": 0.7773638367652893, "Quantum sensing Position": 0.7679588794708252, "Quantum sensing Timing": 0.7335464954376221, "Quantum sensing": 0.7904578447341919, "Quantum control": 0.7405343651771545 } }, { "id": 2288, "title": "Luminescence properties of mechanochemically synthesized lanthanide containing MIL-78 MOFs", "abstract": "Three metal-organic framework (MOF) compounds, Ln(0.6) Gd-0.(6) {C6H (COO)(3)); Ln = Eu, Tb, and Dy with a MIL-78 structure, have been synthesized by a solvent-free mechanochemical method from stoichi...", "citations": 77, "author_count": 7, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2291, "doi": "10.1039/c7dt04771a", "umap_coordinates": { "x": 392.2145080566406, "y": 135.02957153320312, "z": 205.069580078125 }, "tsne_coordinates": { "x": 8.739855766296387, "y": -8.173074722290039, "z": -22.847782135009766 }, "pca_coordinates": { "x": -2.436431407928467, "y": -0.2693634033203125, "z": -1.6505941152572632 }, "axis_scores": { "Quantum imaging": 0.6983873844146729, "Quantum Life Science Sensing": 0.7174903154373169, "Quantum sensing Detection": 0.6767129898071289, "Quantum sensing Metrology": 0.6972452402114868, "Quantum sensing navigation": 0.6673052906990051, "Quantum sensing Position": 0.6525396108627319, "Quantum sensing Timing": 0.6550330519676208, "Quantum sensing": 0.6931891441345215, "Quantum control": 0.647646427154541 } }, { "id": 2289, "title": "QUANTUM CORRELATIONS FROM CLASSICAL GAUSSIAN CORRELATIONS", "abstract": "Already Schrodinger tried to proceed towards a purely wave theory of quantum phenomena. However, he should give up and accept Born's probabilistic interpretation of the wave function. A simple mathema...", "citations": 15, "author_count": 2, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2292, "doi": "10.1007/s10946-009-9095-9", "umap_coordinates": { "x": 395.1136169433594, "y": 137.6399383544922, "z": 206.49806213378906 }, "tsne_coordinates": { "x": -34.283050537109375, "y": 7.483504295349121, "z": 16.05348014831543 }, "pca_coordinates": { "x": 1.9278755187988281, "y": 3.074449300765991, "z": 0.3172575831413269 }, "axis_scores": { "Quantum imaging": 0.7402157783508301, "Quantum Life Science Sensing": 0.7529551386833191, "Quantum sensing Detection": 0.7508077025413513, "Quantum sensing Metrology": 0.7426755428314209, "Quantum sensing navigation": 0.769170343875885, "Quantum sensing Position": 0.7350777387619019, "Quantum sensing Timing": 0.7202920913696289, "Quantum sensing": 0.7671096920967102, "Quantum control": 0.7329329252243042 } }, { "id": 2290, "title": "Quantum Steering with Imprecise Measurements", "abstract": "We study quantum steering experiments without assuming that the trusted party can perfectly control their measurement device. Instead, we introduce a scenario in which these measurements are subject t...", "citations": 18, "author_count": 2, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2293, "doi": "10.1103/PhysRevLett.132.070204", "umap_coordinates": { "x": 395.96063232421875, "y": 136.43528747558594, "z": 207.4302215576172 }, "tsne_coordinates": { "x": -19.84050178527832, "y": -2.9907283782958984, "z": -2.91935396194458 }, "pca_coordinates": { "x": 3.2317967414855957, "y": 1.6573858261108398, "z": 3.1434731483459473 }, "axis_scores": { "Quantum imaging": 0.7501618266105652, "Quantum Life Science Sensing": 0.7183268070220947, "Quantum sensing Detection": 0.7527602910995483, "Quantum sensing Metrology": 0.7490197420120239, "Quantum sensing navigation": 0.7725222706794739, "Quantum sensing Position": 0.7503024339675903, "Quantum sensing Timing": 0.7304366230964661, "Quantum sensing": 0.7600501179695129, "Quantum control": 0.7268375158309937 } }, { "id": 2291, "title": "Strategies and payoffs in quantum minority games", "abstract": "Game theory is the mathematical framework for analyzing strategic interactions in conflict and competition situations. In recent years quantum game theory has earned the attention of physicists. and h...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2294, "doi": "10.1063/1.3567477", "umap_coordinates": { "x": 394.79205322265625, "y": 137.62466430664062, "z": 207.29547119140625 }, "tsne_coordinates": { "x": -24.572168350219727, "y": 9.589146614074707, "z": 22.807355880737305 }, "pca_coordinates": { "x": 3.923194408416748, "y": 0.08902215957641602, "z": -0.6313998699188232 }, "axis_scores": { "Quantum imaging": 0.7433581352233887, "Quantum Life Science Sensing": 0.7309097051620483, "Quantum sensing Detection": 0.738373339176178, "Quantum sensing Metrology": 0.7420997023582458, "Quantum sensing navigation": 0.7728233337402344, "Quantum sensing Position": 0.7324904203414917, "Quantum sensing Timing": 0.6976017355918884, "Quantum sensing": 0.752364456653595, "Quantum control": 0.7416975498199463 } }, { "id": 2292, "title": "Insights into the Mechanism of Chiral-Induced Spin Selectivity: The Effect of Magnetic Field Direction and Temperature", "abstract": "Chiral oligopeptide monolayers are adsorbed on a ferromagnetic surface and their magnetoresistance is measured as a function of the angle between the magnetization of the ferromagnet and the surface n...", "citations": 17, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2295, "doi": "10.1002/adma.202313708", "umap_coordinates": { "x": 392.9212646484375, "y": 136.15835571289062, "z": 206.55038452148438 }, "tsne_coordinates": { "x": -0.83180171251297, "y": -23.241741180419922, "z": 34.12700271606445 }, "pca_coordinates": { "x": -0.8657971620559692, "y": -0.07858657836914062, "z": -2.9199249744415283 }, "axis_scores": { "Quantum imaging": 0.6808715462684631, "Quantum Life Science Sensing": 0.6720894575119019, "Quantum sensing Detection": 0.6585882306098938, "Quantum sensing Metrology": 0.6671217083930969, "Quantum sensing navigation": 0.6772136688232422, "Quantum sensing Position": 0.6570575833320618, "Quantum sensing Timing": 0.656396746635437, "Quantum sensing": 0.6782154440879822, "Quantum control": 0.678299069404602 } }, { "id": 2293, "title": "Aggregation-Induced Emission in a Polymeric Photovoltaic Donor Material", "abstract": "In this work, we report the aggregation-induced emission in a polymeric donor material poly(bis(2-butyloctyl)[ 2,2':5',2.-terthiophene]-4,4.-dicarboxylate-5,5'-diyl-vinylene) (PTVT-T), which exhibits ...", "citations": 5, "author_count": 10, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2296, "doi": "10.1021/acs.jpcc.2c06848", "umap_coordinates": { "x": 392.104736328125, "y": 135.622802734375, "z": 205.72853088378906 }, "tsne_coordinates": { "x": 1.526212453842163, "y": -6.043306350708008, "z": -14.683125495910645 }, "pca_coordinates": { "x": -1.7672984600067139, "y": -4.057837963104248, "z": -1.2176562547683716 }, "axis_scores": { "Quantum imaging": 0.6832126379013062, "Quantum Life Science Sensing": 0.6902958750724792, "Quantum sensing Detection": 0.6799964904785156, "Quantum sensing Metrology": 0.6372010111808777, "Quantum sensing navigation": 0.6406246423721313, "Quantum sensing Position": 0.6475189924240112, "Quantum sensing Timing": 0.6295951008796692, "Quantum sensing": 0.6751585006713867, "Quantum control": 0.6521708369255066 } }, { "id": 2294, "title": "Radiative emission from multiphoton-excited semiconductor quantum dots", "abstract": "Optical transitions in CdS semiconductor quantum dots (QDs) have been studied by the Monte Carlo method based on probability calculations of the time-dependent Schrodinger equation. It has been demons...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2297, "doi": "10.1063/1.2715811", "umap_coordinates": { "x": 393.48828125, "y": 133.62486267089844, "z": 208.1671142578125 }, "tsne_coordinates": { "x": 25.79688835144043, "y": -25.158985137939453, "z": -9.364944458007812 }, "pca_coordinates": { "x": 0.35436034202575684, "y": -4.581112384796143, "z": 2.6349782943725586 }, "axis_scores": { "Quantum imaging": 0.7490931749343872, "Quantum Life Science Sensing": 0.7560226917266846, "Quantum sensing Detection": 0.7595851421356201, "Quantum sensing Metrology": 0.7536819577217102, "Quantum sensing navigation": 0.7116900086402893, "Quantum sensing Position": 0.6919541358947754, "Quantum sensing Timing": 0.6753538250923157, "Quantum sensing": 0.768255889415741, "Quantum control": 0.7072947025299072 } }, { "id": 2295, "title": "Heteroepitaxial Bi3Fe5O12/La3Ga5O12 films for magneto-optical photonic crystals - art. no. 141108", "abstract": "Epitaxial La3Ga5O12 (LGG) garnet films and Bi3Fe5O12/La3Ga5O12 (BIG/LGG) heteroepitaxial film structures have been synthesized on the Gd3Ga5O12(GGG,111) single crystal. LGG films were grown by pulsed ...", "citations": 13, "author_count": 3, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2298, "doi": "10.1063/1.1897077", "umap_coordinates": { "x": 393.77642822265625, "y": 133.7612762451172, "z": 207.78944396972656 }, "tsne_coordinates": { "x": 16.52571678161621, "y": -26.398895263671875, "z": -16.608291625976562 }, "pca_coordinates": { "x": 0.5087443590164185, "y": -2.7676563262939453, "z": 0.7418624758720398 }, "axis_scores": { "Quantum imaging": 0.7342413663864136, "Quantum Life Science Sensing": 0.7263216376304626, "Quantum sensing Detection": 0.7193461656570435, "Quantum sensing Metrology": 0.7487847208976746, "Quantum sensing navigation": 0.7053331136703491, "Quantum sensing Position": 0.6823807954788208, "Quantum sensing Timing": 0.6681444644927979, "Quantum sensing": 0.7398722767829895, "Quantum control": 0.7021224498748779 } }, { "id": 2296, "title": "Effects of substrate doping and surface roughness on self-assembling InAs/InP quantum dots", "abstract": "The effect of substrate doping (InP:Sn and InP:Fe) and surface morphology of InP (001), misoriented 0.2 degrees off towards [110], on densities and sizes of self-assembled InAs quantum dots was invest...", "citations": 14, "author_count": 5, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2299, "doi": "10.1016/S0169-4332(00)00517-1", "umap_coordinates": { "x": 392.21087646484375, "y": 133.9197235107422, "z": 207.74404907226562 }, "tsne_coordinates": { "x": 31.271846771240234, "y": -11.630444526672363, "z": 5.534472942352295 }, "pca_coordinates": { "x": -1.5157732963562012, "y": -4.764162540435791, "z": 1.3512356281280518 }, "axis_scores": { "Quantum imaging": 0.6972464323043823, "Quantum Life Science Sensing": 0.7082868814468384, "Quantum sensing Detection": 0.7002824544906616, "Quantum sensing Metrology": 0.7118263244628906, "Quantum sensing navigation": 0.7062203288078308, "Quantum sensing Position": 0.7106208205223083, "Quantum sensing Timing": 0.6647789478302002, "Quantum sensing": 0.7196279168128967, "Quantum control": 0.6715711951255798 } }, { "id": 2297, "title": "Molecular rotation-vibration coupling by quantum wavepacket interference at potential energy curve crossings", "abstract": "Quantum wavepacket interference is shown to result in modulation of the ultrafast transient anisotropy of a diatomic molecule. The molecule is in a state comprising two bound electronic states at inte...", "citations": 4, "author_count": 4, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2300, "doi": "10.1016/j.cplett.2005.07.019", "umap_coordinates": { "x": 393.6375732421875, "y": 136.73777770996094, "z": 206.7421417236328 }, "tsne_coordinates": { "x": -14.255419731140137, "y": -8.515237808227539, "z": 22.507062911987305 }, "pca_coordinates": { "x": 1.525099277496338, "y": 2.472412347793579, "z": 0.08595055341720581 }, "axis_scores": { "Quantum imaging": 0.7423214912414551, "Quantum Life Science Sensing": 0.7208706736564636, "Quantum sensing Detection": 0.7393838763237, "Quantum sensing Metrology": 0.7195824980735779, "Quantum sensing navigation": 0.7257767915725708, "Quantum sensing Position": 0.7355864644050598, "Quantum sensing Timing": 0.7408890724182129, "Quantum sensing": 0.7361065149307251, "Quantum control": 0.7348478436470032 } }, { "id": 2298, "title": "Quantum nondemolition measurement of mechanical motion quanta", "abstract": "The fields of optomechanics and electromechanics have facilitated numerous advances in the areas of precision measurement and sensing, ultimately driving the studies of mechanical systems into the qua...", "citations": 26, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2301, "doi": "10.1038/s41467-018-06070-y", "umap_coordinates": { "x": 394.5087585449219, "y": 136.52401733398438, "z": 206.61935424804688 }, "tsne_coordinates": { "x": -14.841395378112793, "y": -5.701076507568359, "z": 8.628328323364258 }, "pca_coordinates": { "x": 1.0666933059692383, "y": 2.476346254348755, "z": 0.6736683249473572 }, "axis_scores": { "Quantum imaging": 0.7614707946777344, "Quantum Life Science Sensing": 0.7924230098724365, "Quantum sensing Detection": 0.7725825905799866, "Quantum sensing Metrology": 0.7716766595840454, "Quantum sensing navigation": 0.7779603004455566, "Quantum sensing Position": 0.7826298475265503, "Quantum sensing Timing": 0.7375490665435791, "Quantum sensing": 0.7798261642456055, "Quantum control": 0.7384482026100159 } }, { "id": 2299, "title": "Simultaneous readout of two charge qubits", "abstract": "We consider a system of two solid state charge qubits, coupled to a single readout device, consisting of a single-electron transistor (SET). The conductance of each tunnel junction is influenced by it...", "citations": 5, "author_count": 3, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2302, "doi": "10.1103/PhysRevB.75.085312", "umap_coordinates": { "x": 395.44146728515625, "y": 135.91339111328125, "z": 207.61270141601562 }, "tsne_coordinates": { "x": -15.448115348815918, "y": -7.356815814971924, "z": 0.8284937143325806 }, "pca_coordinates": { "x": 3.0575618743896484, "y": -0.5526895523071289, "z": 2.217406749725342 }, "axis_scores": { "Quantum imaging": 0.7586426734924316, "Quantum Life Science Sensing": 0.754557192325592, "Quantum sensing Detection": 0.7912808060646057, "Quantum sensing Metrology": 0.7689003944396973, "Quantum sensing navigation": 0.7590200304985046, "Quantum sensing Position": 0.7576959729194641, "Quantum sensing Timing": 0.7530293464660645, "Quantum sensing": 0.7897953987121582, "Quantum control": 0.7467461824417114 } }, { "id": 2300, "title": "Spectral photon-counting CT: Image quality evaluation using a metal-containing bovine bone specimen", "abstract": "Purpose: To find the optimal imaging parameters for a photon-counting detector CT (PCD-CT) and to compare it to an energy-integrating detector CT (EID-CT) in terms of image quality and metal artefact ...", "citations": 4, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2303, "doi": "10.1016/j.ejrad.2023.111110", "umap_coordinates": { "x": 395.4217834472656, "y": 132.86123657226562, "z": 205.04373168945312 }, "tsne_coordinates": { "x": -2.405989170074463, "y": 26.799449920654297, "z": -19.216407775878906 }, "pca_coordinates": { "x": -4.399737358093262, "y": 3.0906238555908203, "z": 2.4925317764282227 }, "axis_scores": { "Quantum imaging": 0.722915768623352, "Quantum Life Science Sensing": 0.7099857330322266, "Quantum sensing Detection": 0.7003604173660278, "Quantum sensing Metrology": 0.6999549865722656, "Quantum sensing navigation": 0.6833192110061646, "Quantum sensing Position": 0.6873146891593933, "Quantum sensing Timing": 0.6722086071968079, "Quantum sensing": 0.699084460735321, "Quantum control": 0.6372394561767578 } }, { "id": 2301, "title": "Fe―S Bond-Mediated Efficient Electron Transfer in Quantum Dots/Metal-Organic Frameworks for Boosting Photoelectrocatalytic Nitrogen Fixation", "abstract": "Effective electron supply to produce ammonia in photoelectrochemical nitrogen reduction reaction (PEC NRR) remains challenging due to the sluggish multiple proton-coupled electron transfer and unfavor...", "citations": 2, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2304, "doi": "10.1002/smll.202405512", "umap_coordinates": { "x": 392.2410888671875, "y": 133.84310913085938, "z": 204.92991638183594 }, "tsne_coordinates": { "x": 21.104400634765625, "y": 6.553089618682861, "z": -4.42301082611084 }, "pca_coordinates": { "x": -3.576198101043701, "y": -3.277461051940918, "z": -0.9445770382881165 }, "axis_scores": { "Quantum imaging": 0.7057239413261414, "Quantum Life Science Sensing": 0.7104294300079346, "Quantum sensing Detection": 0.6940232515335083, "Quantum sensing Metrology": 0.6824285984039307, "Quantum sensing navigation": 0.6985533237457275, "Quantum sensing Position": 0.6728304624557495, "Quantum sensing Timing": 0.6631895303726196, "Quantum sensing": 0.7085477113723755, "Quantum control": 0.6953119039535522 } }, { "id": 2302, "title": "QUANTUM SIZE EFFECTS ON OPTICAL-PROPERTIES OF THIN-FILMS", "abstract": "", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 1980, "topic": [ "all" ], "embedding_index": 2305, "doi": "10.1088/0031-8949/22/6/020", "umap_coordinates": { "x": 392.590576171875, "y": 134.04660034179688, "z": 206.75440979003906 }, "tsne_coordinates": { "x": 33.5753059387207, "y": -5.928023815155029, "z": -4.868351459503174 }, "pca_coordinates": { "x": -0.48386478424072266, "y": -0.3922901153564453, "z": -0.18093496561050415 }, "axis_scores": { "Quantum imaging": 0.7574338912963867, "Quantum Life Science Sensing": 0.7646932005882263, "Quantum sensing Detection": 0.7297983169555664, "Quantum sensing Metrology": 0.7245791554450989, "Quantum sensing navigation": 0.7009569406509399, "Quantum sensing Position": 0.724456787109375, "Quantum sensing Timing": 0.6914893984794617, "Quantum sensing": 0.7555362582206726, "Quantum control": 0.7094686031341553 } }, { "id": 2303, "title": "Simple scheme for state measurement", "abstract": "We present a simple and fast scheme to measure the state of a trapped atom. Our method directly yields the characteristic function of the Wigner function avoiding a demanding data analysis. We show th...", "citations": 36, "author_count": 4, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2306, "doi": "10.1103/PhysRevA.59.R950", "umap_coordinates": { "x": 395.6296691894531, "y": 136.8173828125, "z": 208.0410614013672 }, "tsne_coordinates": { "x": -26.784236907958984, "y": -13.702199935913086, "z": -4.942134380340576 }, "pca_coordinates": { "x": 3.5431599617004395, "y": 1.8773009777069092, "z": 0.4272894263267517 }, "axis_scores": { "Quantum imaging": 0.7152656316757202, "Quantum Life Science Sensing": 0.7589552402496338, "Quantum sensing Detection": 0.7487953305244446, "Quantum sensing Metrology": 0.7362320423126221, "Quantum sensing navigation": 0.7403723001480103, "Quantum sensing Position": 0.7220249772071838, "Quantum sensing Timing": 0.7044307589530945, "Quantum sensing": 0.7578768134117126, "Quantum control": 0.7255895137786865 } }, { "id": 2304, "title": "Quantum-electrodynamical photon splitting in magnetized nonlinear pair plasmas", "abstract": "We present for the first time the nonlinear dynamics of quantum electrodynamic (QED) photon splitting in a strongly magnetized electron-positron (pair) plasma. By using a QED corrected Maxwell equatio...", "citations": 60, "author_count": 5, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2307, "doi": "10.1103/PhysRevLett.98.125001", "umap_coordinates": { "x": 394.63250732421875, "y": 135.69454956054688, "z": 208.56185913085938 }, "tsne_coordinates": { "x": -9.265583992004395, "y": -15.637823104858398, "z": 2.3955459594726562 }, "pca_coordinates": { "x": 5.266027450561523, "y": -1.9546666145324707, "z": 0.6565138697624207 }, "axis_scores": { "Quantum imaging": 0.7252711057662964, "Quantum Life Science Sensing": 0.7195884585380554, "Quantum sensing Detection": 0.7235623598098755, "Quantum sensing Metrology": 0.7181383371353149, "Quantum sensing navigation": 0.7231191992759705, "Quantum sensing Position": 0.6939967274665833, "Quantum sensing Timing": 0.6956522464752197, "Quantum sensing": 0.7257112860679626, "Quantum control": 0.6818214654922485 } }, { "id": 2305, "title": "USE OF QUANTUM-NOISE CORRELATION FOR NOISE-REDUCTION IN SEMICONDUCTOR-LASERS", "abstract": "Both the junction voltage fluctuations and the frequency fluctuations of a semiconductor laser are highly correlated with its intensity noise. We analyze three schemes where the correlation informatio...", "citations": 19, "author_count": 3, "categories": [ "Optics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 2308, "doi": "10.1103/PhysRevA.44.7669", "umap_coordinates": { "x": 394.83807373046875, "y": 135.07540893554688, "z": 208.11720275878906 }, "tsne_coordinates": { "x": -14.250693321228027, "y": -30.30242919921875, "z": -18.510629653930664 }, "pca_coordinates": { "x": 2.3995063304901123, "y": -0.24852824211120605, "z": 2.5730092525482178 }, "axis_scores": { "Quantum imaging": 0.7247174978256226, "Quantum Life Science Sensing": 0.7418960332870483, "Quantum sensing Detection": 0.7526130676269531, "Quantum sensing Metrology": 0.7278469204902649, "Quantum sensing navigation": 0.7513889670372009, "Quantum sensing Position": 0.7228293418884277, "Quantum sensing Timing": 0.7253595590591431, "Quantum sensing": 0.7537160515785217, "Quantum control": 0.7228912711143494 } }, { "id": 2306, "title": "3-DIMENSIONAL IMAGING OF NEURONS BY CONFOCAL FLUORESCENCE MICROSCOPY", "abstract": "The study of neuronal architecture by means of confocal laser microscopy is described. Optical serial sectioning has been performed on whole-mount specimens, and the resulting stacks of digitally reco...", "citations": 50, "author_count": 4, "categories": [ "Microscopy" ], "year": 1989, "topic": [ "all" ], "embedding_index": 2309, "doi": "10.1111/j.1365-2818.1989.tb04296.x", "umap_coordinates": { "x": 394.8816833496094, "y": 135.27066040039062, "z": 204.3970184326172 }, "tsne_coordinates": { "x": -8.613983154296875, "y": 22.956247329711914, "z": 8.891396522521973 }, "pca_coordinates": { "x": -2.3231160640716553, "y": 1.8166627883911133, "z": 1.4878685474395752 }, "axis_scores": { "Quantum imaging": 0.7659498453140259, "Quantum Life Science Sensing": 0.7298776507377625, "Quantum sensing Detection": 0.7322931885719299, "Quantum sensing Metrology": 0.7311757802963257, "Quantum sensing navigation": 0.745642900466919, "Quantum sensing Position": 0.706290066242218, "Quantum sensing Timing": 0.6982711553573608, "Quantum sensing": 0.7483294606208801, "Quantum control": 0.7272751927375793 } }, { "id": 2307, "title": "Electric Field Controlled Single-Molecule Optical Switch by Through-Space Charge Transfer State", "abstract": "Controlling the photon emission property of a single molecule is an important goal for nano-optics. We propose here a new mechanism for a single-molecule optical switch that utilizes the in situ elect...", "citations": 5, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2310, "doi": "10.1021/acs.jpclett.1c02578", "umap_coordinates": { "x": 394.2058410644531, "y": 133.94210815429688, "z": 207.84014892578125 }, "tsne_coordinates": { "x": 9.613439559936523, "y": -25.94491195678711, "z": -17.066879272460938 }, "pca_coordinates": { "x": -0.7512613534927368, "y": -3.112610340118408, "z": -0.6947553157806396 }, "axis_scores": { "Quantum imaging": 0.7039633989334106, "Quantum Life Science Sensing": 0.7275975942611694, "Quantum sensing Detection": 0.7070600986480713, "Quantum sensing Metrology": 0.6914217472076416, "Quantum sensing navigation": 0.6968861818313599, "Quantum sensing Position": 0.6707525849342346, "Quantum sensing Timing": 0.6723241209983826, "Quantum sensing": 0.7256636023521423, "Quantum control": 0.7274336218833923 } }, { "id": 2308, "title": "Photons go one way or another", "abstract": "The emission of light from qubits in a superconducting circuit can be controlled in order to choose the direction of the photons' propagation, which could be used to route information in quantum netwo...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2312, "doi": "10.1038/s41567-022-01896-2", "umap_coordinates": { "x": 393.9349060058594, "y": 135.54443359375, "z": 206.05250549316406 }, "tsne_coordinates": { "x": -13.196206092834473, "y": 0.07780972123146057, "z": -3.1896002292633057 }, "pca_coordinates": { "x": -1.1020265817642212, "y": 0.14462780952453613, "z": 1.3307838439941406 }, "axis_scores": { "Quantum imaging": 0.7599078416824341, "Quantum Life Science Sensing": 0.759056806564331, "Quantum sensing Detection": 0.7589611411094666, "Quantum sensing Metrology": 0.7388169765472412, "Quantum sensing navigation": 0.7584878206253052, "Quantum sensing Position": 0.727981686592102, "Quantum sensing Timing": 0.7223715782165527, "Quantum sensing": 0.7679683566093445, "Quantum control": 0.7173405885696411 } }, { "id": 2309, "title": "Exploring circuit quantum electrodynamics using a widely tunable superconducting resonator", "abstract": "We have fabricated and characterized systems consisting of superconducting quantum bits (qubits) of the transmon type, coupled to a tunable transmission line resonator. The resonator consists of a sup...", "citations": 23, "author_count": 6, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2313, "doi": "10.1088/0031-8949/2009/T137/014018", "umap_coordinates": { "x": 394.6144104003906, "y": 135.37596130371094, "z": 207.34078979492188 }, "tsne_coordinates": { "x": 1.5617951154708862, "y": -12.577922821044922, "z": 15.892848014831543 }, "pca_coordinates": { "x": 1.086665153503418, "y": 1.141071081161499, "z": 1.2496495246887207 }, "axis_scores": { "Quantum imaging": 0.667650043964386, "Quantum Life Science Sensing": 0.6928693652153015, "Quantum sensing Detection": 0.6761817336082458, "Quantum sensing Metrology": 0.6667271256446838, "Quantum sensing navigation": 0.6867778301239014, "Quantum sensing Position": 0.6575457453727722, "Quantum sensing Timing": 0.6734418869018555, "Quantum sensing": 0.6918004751205444, "Quantum control": 0.656189501285553 } }, { "id": 2310, "title": "Single-shot read-out of a superconducting qubit using a Josephson parametric oscillator", "abstract": "We propose and demonstrate a read-out technique for a superconducting qubit by dispersively coupling it with a Josephson parametric oscillator. We employ a tunable quarter wavelength superconducting r...", "citations": 100, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2314, "doi": "10.1038/ncomms11417", "umap_coordinates": { "x": 394.70843505859375, "y": 134.27703857421875, "z": 207.90093994140625 }, "tsne_coordinates": { "x": -3.5806164741516113, "y": -22.204641342163086, "z": -19.33379554748535 }, "pca_coordinates": { "x": 1.7266058921813965, "y": -1.1196479797363281, "z": 2.429584503173828 }, "axis_scores": { "Quantum imaging": 0.7192248702049255, "Quantum Life Science Sensing": 0.7284640073776245, "Quantum sensing Detection": 0.7399186491966248, "Quantum sensing Metrology": 0.7248740792274475, "Quantum sensing navigation": 0.7380127906799316, "Quantum sensing Position": 0.7067741751670837, "Quantum sensing Timing": 0.7262465953826904, "Quantum sensing": 0.7489113807678223, "Quantum control": 0.69762122631073 } }, { "id": 2311, "title": "Refined theoretical study of radiative association: Cross sections and rate constants for the formation of SiN", "abstract": "Radiative association of silicon mononitride (SiN) in its two lowest molecular electronic states is studied through quantum and classical dynamics. Special attention is paid to the behavior of the cro...", "citations": 30, "author_count": 5, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2315, "doi": "10.1063/1.4750029", "umap_coordinates": { "x": 393.9705810546875, "y": 136.60220336914062, "z": 206.8372344970703 }, "tsne_coordinates": { "x": -6.801938056945801, "y": 2.053178310394287, "z": 21.931276321411133 }, "pca_coordinates": { "x": -0.025444746017456055, "y": 1.2098464965820312, "z": 0.42202824354171753 }, "axis_scores": { "Quantum imaging": 0.6821622848510742, "Quantum Life Science Sensing": 0.700914740562439, "Quantum sensing Detection": 0.6793828010559082, "Quantum sensing Metrology": 0.6804903149604797, "Quantum sensing navigation": 0.6583595275878906, "Quantum sensing Position": 0.6514562368392944, "Quantum sensing Timing": 0.6741597056388855, "Quantum sensing": 0.6936160326004028, "Quantum control": 0.6675455570220947 } }, { "id": 2312, "title": "On the nature of decoherence in quantum circuits: Revealing the structural motif of the surface radicals in α-Al2O3", "abstract": "Quantum information technology puts stringent demands on the quality of materials and interfaces in the pursuit of increased device coherence. Yet, little is known about the chemical structure and ori...", "citations": 10, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2316, "doi": "10.1126/sciadv.abm6169", "umap_coordinates": { "x": 393.9522705078125, "y": 136.10528564453125, "z": 206.585693359375 }, "tsne_coordinates": { "x": -2.7262938022613525, "y": -9.544694900512695, "z": 26.34227180480957 }, "pca_coordinates": { "x": 1.259995937347412, "y": 0.42109107971191406, "z": -2.018720865249634 }, "axis_scores": { "Quantum imaging": 0.7062338590621948, "Quantum Life Science Sensing": 0.7386615872383118, "Quantum sensing Detection": 0.7044154405593872, "Quantum sensing Metrology": 0.6959600448608398, "Quantum sensing navigation": 0.7299472689628601, "Quantum sensing Position": 0.7020977735519409, "Quantum sensing Timing": 0.6878998279571533, "Quantum sensing": 0.716229259967804, "Quantum control": 0.7006153464317322 } }, { "id": 2313, "title": "Anomalous Dynamics of Magnetic Anisotropic Colloids Studied by XPCS", "abstract": "The influence of an applied magnetic field on the collective dynamics of novel anisotropic colloidal particles whose shape resembles peanuts is reported. Being made up of hematite cores and silica she...", "citations": 34, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2317, "doi": "10.1002/smll.201802233", "umap_coordinates": { "x": 392.7406921386719, "y": 136.09825134277344, "z": 206.80198669433594 }, "tsne_coordinates": { "x": 0.17190127074718475, "y": 5.89292573928833, "z": 40.70402145385742 }, "pca_coordinates": { "x": -0.6571788191795349, "y": 0.007633209228515625, "z": -3.447345733642578 }, "axis_scores": { "Quantum imaging": 0.6864131689071655, "Quantum Life Science Sensing": 0.6989384889602661, "Quantum sensing Detection": 0.6553215980529785, "Quantum sensing Metrology": 0.6489445567131042, "Quantum sensing navigation": 0.685080349445343, "Quantum sensing Position": 0.6672919988632202, "Quantum sensing Timing": 0.6379011869430542, "Quantum sensing": 0.6713486909866333, "Quantum control": 0.6814484596252441 } }, { "id": 2314, "title": "Imaging of Hepatitis B Virus Nucleic Acids: Current Advances and Challenges", "abstract": "Hepatitis B virus infections are the main reason for hepatocellular carcinoma development. Current treatment reduces the viral load but rarely leads to virus elimination. Despite its medical importanc...", "citations": 7, "author_count": 6, "categories": [ "Virology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2318, "doi": "10.3390/v14030557", "umap_coordinates": { "x": 393.82830810546875, "y": 133.8585968017578, "z": 204.26333618164062 }, "tsne_coordinates": { "x": 23.240867614746094, "y": 22.064794540405273, "z": -8.004409790039062 }, "pca_coordinates": { "x": -3.6433322429656982, "y": 1.4804553985595703, "z": -0.9000071883201599 }, "axis_scores": { "Quantum imaging": 0.7673102021217346, "Quantum Life Science Sensing": 0.7445359826087952, "Quantum sensing Detection": 0.7176671028137207, "Quantum sensing Metrology": 0.715195894241333, "Quantum sensing navigation": 0.7217816710472107, "Quantum sensing Position": 0.6946382522583008, "Quantum sensing Timing": 0.6737799048423767, "Quantum sensing": 0.7241835594177246, "Quantum control": 0.7045906782150269 } }, { "id": 2315, "title": "Deterministic teleportation using single-photon entanglement as a resource", "abstract": "We outline a proof that teleportation with a single particle is, in principle, just as reliable as with two particles. We thereby hope to dispel the skepticism surrounding single-photon entanglement a...", "citations": 18, "author_count": 4, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2319, "doi": "10.1103/PhysRevA.85.022316", "umap_coordinates": { "x": 395.01629638671875, "y": 133.98080444335938, "z": 207.9265594482422 }, "tsne_coordinates": { "x": 0.12399443984031677, "y": -23.100374221801758, "z": -14.4280366897583 }, "pca_coordinates": { "x": 3.330444812774658, "y": -1.0485844612121582, "z": 4.209143161773682 }, "axis_scores": { "Quantum imaging": 0.753993034362793, "Quantum Life Science Sensing": 0.747558057308197, "Quantum sensing Detection": 0.7701674103736877, "Quantum sensing Metrology": 0.7540613412857056, "Quantum sensing navigation": 0.7563642859458923, "Quantum sensing Position": 0.7271393537521362, "Quantum sensing Timing": 0.7258813977241516, "Quantum sensing": 0.7805168628692627, "Quantum control": 0.719852089881897 } }, { "id": 2316, "title": "Assembling strained InAs islands by chemical beam epitaxy", "abstract": "We report on coherently strained InAs quantum-dots grown by chemical beam epitaxy on GaAs. The morphological phase transition of the InAs layer from two-dimensional to three-dimensional was characteri...", "citations": 14, "author_count": 8, "categories": [ "Engineering" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2320, "doi": "10.1016/0038-1101(95)00373-8", "umap_coordinates": { "x": 392.5023498535156, "y": 134.0934295654297, "z": 207.5780029296875 }, "tsne_coordinates": { "x": 35.12032699584961, "y": -24.060123443603516, "z": 7.505576133728027 }, "pca_coordinates": { "x": -0.9851312041282654, "y": -2.804354667663574, "z": 0.7041931748390198 }, "axis_scores": { "Quantum imaging": 0.6686409711837769, "Quantum Life Science Sensing": 0.6640260815620422, "Quantum sensing Detection": 0.6534877419471741, "Quantum sensing Metrology": 0.6641299724578857, "Quantum sensing navigation": 0.676990807056427, "Quantum sensing Position": 0.6715565323829651, "Quantum sensing Timing": 0.6470149159431458, "Quantum sensing": 0.6747332215309143, "Quantum control": 0.6498027443885803 } }, { "id": 2317, "title": "Size confinement effect in graphene grown on 6H-SiC (0001) substrate", "abstract": "We have observed the energy structure in the density of occupied states of graphene grown on n-type 6H-SiC (0001). The structure revealed with photoelectron spectroscopy is described by creation of th...", "citations": 14, "author_count": 9, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2321, "doi": "10.1016/j.carbon.2015.01.015", "umap_coordinates": { "x": 392.2626037597656, "y": 133.88487243652344, "z": 206.5430450439453 }, "tsne_coordinates": { "x": 30.050729751586914, "y": -7.694755554199219, "z": -3.5095155239105225 }, "pca_coordinates": { "x": -0.5985190868377686, "y": -0.3392677307128906, "z": -1.1000099182128906 }, "axis_scores": { "Quantum imaging": 0.6939974427223206, "Quantum Life Science Sensing": 0.7195155620574951, "Quantum sensing Detection": 0.6908982992172241, "Quantum sensing Metrology": 0.6811206340789795, "Quantum sensing navigation": 0.6882928013801575, "Quantum sensing Position": 0.6891469359397888, "Quantum sensing Timing": 0.6464583277702332, "Quantum sensing": 0.7133716344833374, "Quantum control": 0.7097585201263428 } }, { "id": 2318, "title": "Hot electron and hole dynamics in thiol-capped CdSe quantum dots revealed by 2D electronic spectroscopy", "abstract": "Colloidal quantum dots (QDs) have attracted interest as materials for opto-electronic applications, wherein their efficient energy use requires the understanding of carrier relaxation. In QDs capped b...", "citations": 47, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2322, "doi": "10.1039/c6cp04190f", "umap_coordinates": { "x": 392.18853759765625, "y": 135.87413024902344, "z": 206.51370239257812 }, "tsne_coordinates": { "x": 12.145212173461914, "y": -0.9284672737121582, "z": 4.614106178283691 }, "pca_coordinates": { "x": -0.08887124061584473, "y": -3.672832489013672, "z": -2.5918471813201904 }, "axis_scores": { "Quantum imaging": 0.6946774125099182, "Quantum Life Science Sensing": 0.7212274670600891, "Quantum sensing Detection": 0.697252094745636, "Quantum sensing Metrology": 0.6634446382522583, "Quantum sensing navigation": 0.6834766268730164, "Quantum sensing Position": 0.6812739372253418, "Quantum sensing Timing": 0.684491753578186, "Quantum sensing": 0.6975282430648804, "Quantum control": 0.6813211441040039 } }, { "id": 2319, "title": "Subpixel position measurement using 1D, 2D and 3D centroid algorithms with emphasis on applications in confocal microscopy", "abstract": "The accuracy with which centroid algorithms in 1D, 2D and 3D can estimate an object's position has been investigated. Three factors that can influence the method's accuracy have been investigated: sys...", "citations": 36, "author_count": 2, "categories": [ "Microscopy" ], "year": 1997, "topic": [ "all" ], "embedding_index": 2323, "doi": "10.1046/j.1365-2818.1997.1970761.x", "umap_coordinates": { "x": 395.0753479003906, "y": 133.93548583984375, "z": 204.98455810546875 }, "tsne_coordinates": { "x": -10.207296371459961, "y": 18.307512283325195, "z": -3.401010036468506 }, "pca_coordinates": { "x": -3.2517435550689697, "y": 3.2149195671081543, "z": 1.2449510097503662 }, "axis_scores": { "Quantum imaging": 0.7396962642669678, "Quantum Life Science Sensing": 0.7113075852394104, "Quantum sensing Detection": 0.7168176770210266, "Quantum sensing Metrology": 0.7367148399353027, "Quantum sensing navigation": 0.7339223027229309, "Quantum sensing Position": 0.7898487448692322, "Quantum sensing Timing": 0.7406713366508484, "Quantum sensing": 0.7305382490158081, "Quantum control": 0.6941766738891602 } }, { "id": 2320, "title": "Cold-Electron Bolometer as a 1-cm-Wavelength Photon Counter", "abstract": "We investigate theoretically the possibility of using the cold-electron bolometer (CEB) as a counter for 1-cm-wavelength (30-GHz) photons. To reduce the flux of photons from the environment that inter...", "citations": 8, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2324, "doi": "10.1103/PhysRevApplied.13.024028", "umap_coordinates": { "x": 395.11541748046875, "y": 134.61865234375, "z": 207.4553680419922 }, "tsne_coordinates": { "x": -15.669746398925781, "y": -7.909765720367432, "z": -37.262577056884766 }, "pca_coordinates": { "x": 2.386590003967285, "y": -0.6496753692626953, "z": 1.966087818145752 }, "axis_scores": { "Quantum imaging": 0.6799049973487854, "Quantum Life Science Sensing": 0.7122126817703247, "Quantum sensing Detection": 0.7034993767738342, "Quantum sensing Metrology": 0.682917058467865, "Quantum sensing navigation": 0.6947811841964722, "Quantum sensing Position": 0.6800207495689392, "Quantum sensing Timing": 0.6787163615226746, "Quantum sensing": 0.7004756331443787, "Quantum control": 0.6591365933418274 } }, { "id": 2321, "title": "Direct Identification of Dilute Surface Spins on Al2O3: Origin of Flux Noise in Quantum Circuits", "abstract": "An on-chip electron spin resonance technique is applied to reveal the nature and origin of surface spins on Al2O3. We measure a spin density of 2.2 x 10(17) spins/m(2), attributed to physisorbed atomi...", "citations": 80, "author_count": 8, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2325, "doi": "10.1103/PhysRevLett.118.057703", "umap_coordinates": { "x": 394.14666748046875, "y": 135.3505859375, "z": 208.3349609375 }, "tsne_coordinates": { "x": 19.095016479492188, "y": -25.782562255859375, "z": 5.912097930908203 }, "pca_coordinates": { "x": 2.8997349739074707, "y": -1.288745403289795, "z": 0.15783566236495972 }, "axis_scores": { "Quantum imaging": 0.7409261465072632, "Quantum Life Science Sensing": 0.7548207640647888, "Quantum sensing Detection": 0.7609095573425293, "Quantum sensing Metrology": 0.7406176328659058, "Quantum sensing navigation": 0.7671674489974976, "Quantum sensing Position": 0.7437657713890076, "Quantum sensing Timing": 0.715736448764801, "Quantum sensing": 0.7623001337051392, "Quantum control": 0.7351710200309753 } }, { "id": 2322, "title": "Release of Terminal Alkynes via Tandem Photodeprotection and Decarboxylation of o-Nitrobenzyl Arylpropiolates in a Flow Microchannel Reactor", "abstract": "Photocleavable protecting groups (PPGs) offer a complementary protection paradigm compared to traditional protection groups. Herein, an o-nitrobenzyl (NB) PPG was employed to protect a variety of aryl...", "citations": 6, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2326, "doi": "10.1021/acs.bioconjchem.7b00812", "umap_coordinates": { "x": 392.5921630859375, "y": 135.1277618408203, "z": 204.54498291015625 }, "tsne_coordinates": { "x": 10.703615188598633, "y": 7.762089729309082, "z": -22.293636322021484 }, "pca_coordinates": { "x": -3.204451084136963, "y": 0.051769256591796875, "z": -0.3132944405078888 }, "axis_scores": { "Quantum imaging": 0.7053663730621338, "Quantum Life Science Sensing": 0.6829630732536316, "Quantum sensing Detection": 0.6892321705818176, "Quantum sensing Metrology": 0.6701244115829468, "Quantum sensing navigation": 0.6869072914123535, "Quantum sensing Position": 0.6655203700065613, "Quantum sensing Timing": 0.6783761382102966, "Quantum sensing": 0.6932440400123596, "Quantum control": 0.6994197368621826 } }, { "id": 2323, "title": "Interband transitions in InAs quantum dots in InP studied by photoconductivity and photoluminescence techniques", "abstract": "We report on a detailed investigation of the interband optics of self-assembled InAs dots embedded in a matrix of InP. In photoconductivity (PC) measurements, we observe optical processes related to t...", "citations": 10, "author_count": 8, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2327, "doi": "10.1063/1.1627947", "umap_coordinates": { "x": 392.5345458984375, "y": 134.14349365234375, "z": 208.37660217285156 }, "tsne_coordinates": { "x": 29.435293197631836, "y": -15.80368423461914, "z": 4.7381591796875 }, "pca_coordinates": { "x": 0.7154428958892822, "y": -4.284270763397217, "z": 2.053098201751709 }, "axis_scores": { "Quantum imaging": 0.718459963798523, "Quantum Life Science Sensing": 0.7051316499710083, "Quantum sensing Detection": 0.7046988010406494, "Quantum sensing Metrology": 0.6961641311645508, "Quantum sensing navigation": 0.6823487877845764, "Quantum sensing Position": 0.6691598892211914, "Quantum sensing Timing": 0.6688989400863647, "Quantum sensing": 0.7120001912117004, "Quantum control": 0.654797375202179 } }, { "id": 2324, "title": "The Hanle effect and electron spin polarization in InAs/GaAs quantum dots up to room temperature", "abstract": "The Hanle effect in InAs/GaAs quantum dots (QDs) is studied under optical orientation as a function of temperature over the range of 150-300 K, with the aim of understanding the physical mechanism res...", "citations": 5, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2328, "doi": "10.1088/0957-4484/23/13/135705", "umap_coordinates": { "x": 392.9777526855469, "y": 134.73355102539062, "z": 207.9091339111328 }, "tsne_coordinates": { "x": 18.59174919128418, "y": -12.604775428771973, "z": 14.92169189453125 }, "pca_coordinates": { "x": 0.7239034175872803, "y": -1.4213175773620605, "z": 0.1519516110420227 }, "axis_scores": { "Quantum imaging": 0.7247985005378723, "Quantum Life Science Sensing": 0.7356327772140503, "Quantum sensing Detection": 0.7080510854721069, "Quantum sensing Metrology": 0.701819658279419, "Quantum sensing navigation": 0.7217488288879395, "Quantum sensing Position": 0.7056246399879456, "Quantum sensing Timing": 0.6925962567329407, "Quantum sensing": 0.7328659892082214, "Quantum control": 0.7035515308380127 } }, { "id": 2325, "title": "Tuning the room temperature nonlinear I-V characteristics of a single-electron silicon quantum dot transistor by split gates: A simple model - art. no. 125309", "abstract": "We propose an experiment that potentially allows a single-electron silicon quantum dot transistor to operate at room temperature. The emitter and collector of the device consist of silicon quantum wir...", "citations": 2, "author_count": 4, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2329, "doi": "10.1103/PhysRevB.65.125309", "umap_coordinates": { "x": 394.3481140136719, "y": 134.29608154296875, "z": 208.92005920410156 }, "tsne_coordinates": { "x": 3.9743528366088867, "y": -30.489479064941406, "z": -7.613312244415283 }, "pca_coordinates": { "x": 3.5698580741882324, "y": -1.7851061820983887, "z": 1.8438386917114258 }, "axis_scores": { "Quantum imaging": 0.7026686668395996, "Quantum Life Science Sensing": 0.7120294570922852, "Quantum sensing Detection": 0.7060477137565613, "Quantum sensing Metrology": 0.7087821364402771, "Quantum sensing navigation": 0.7039241790771484, "Quantum sensing Position": 0.6613180637359619, "Quantum sensing Timing": 0.6619201302528381, "Quantum sensing": 0.7197576761245728, "Quantum control": 0.6964900493621826 } }, { "id": 2326, "title": "Remarks on identical particles in de Broglie-Bohm theory", "abstract": "It is argued that the topological approach to the (anti-) symmetrisation condition for the quantum state of a collection of identical particles, defined in the reduced configuration space, is particul...", "citations": 20, "author_count": 4, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2330, "doi": "10.1016/S0375-9601(98)00907-4", "umap_coordinates": { "x": 394.5459899902344, "y": 137.59735107421875, "z": 206.52345275878906 }, "tsne_coordinates": { "x": -18.74837875366211, "y": -2.401780128479004, "z": 23.439170837402344 }, "pca_coordinates": { "x": 1.4599828720092773, "y": 2.5720155239105225, "z": -1.0706371068954468 }, "axis_scores": { "Quantum imaging": 0.6610201597213745, "Quantum Life Science Sensing": 0.6773860454559326, "Quantum sensing Detection": 0.6542576551437378, "Quantum sensing Metrology": 0.6667575836181641, "Quantum sensing navigation": 0.6661810874938965, "Quantum sensing Position": 0.680748462677002, "Quantum sensing Timing": 0.6512266397476196, "Quantum sensing": 0.6635611057281494, "Quantum control": 0.6573947072029114 } }, { "id": 2327, "title": "Perovskite/Colloidal Quantum Dot Tandem Solar Cells: Theoretical Modeling and Monolithic Structure", "abstract": "Metal-halide perovskite-based tandem solar cells show great promise for overcoming the Shockley-Queisser single-junction efficiency limit via low-cost tandem structures, but so far, they employ conven...", "citations": 101, "author_count": 9, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2331, "doi": "10.1021/acsenergylett.8b00207", "umap_coordinates": { "x": 391.5438232421875, "y": 134.23944091796875, "z": 205.65731811523438 }, "tsne_coordinates": { "x": 23.8393497467041, "y": -4.172579288482666, "z": -12.58360767364502 }, "pca_coordinates": { "x": -1.2012732028961182, "y": -4.019095420837402, "z": -1.5223910808563232 }, "axis_scores": { "Quantum imaging": 0.688730001449585, "Quantum Life Science Sensing": 0.7103943228721619, "Quantum sensing Detection": 0.6752241253852844, "Quantum sensing Metrology": 0.6801735758781433, "Quantum sensing navigation": 0.6730526089668274, "Quantum sensing Position": 0.6754465103149414, "Quantum sensing Timing": 0.6627565622329712, "Quantum sensing": 0.6833100318908691, "Quantum control": 0.6594849824905396 } }, { "id": 2328, "title": "Size- and Wavelength-Dependent Two-Photon Absorption Cross-Section of CsPbBr3 Perovskite Quantum Dots", "abstract": "All-inorganic colloidal perovskite quantum dots (QDs) based on cesium, lead, and halide have recently emerged as promising light emitting materials. CsPbBr3 QDs have also been demonstrated as stable t...", "citations": 191, "author_count": 13, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2332, "doi": "10.1021/acs.jpclett.7b00613", "umap_coordinates": { "x": 391.85467529296875, "y": 134.02178955078125, "z": 206.40374755859375 }, "tsne_coordinates": { "x": 29.397817611694336, "y": -6.919602870941162, "z": -8.804482460021973 }, "pca_coordinates": { "x": -3.617760181427002, "y": -3.8250575065612793, "z": 0.043058693408966064 }, "axis_scores": { "Quantum imaging": 0.7134708762168884, "Quantum Life Science Sensing": 0.728066086769104, "Quantum sensing Detection": 0.6989454030990601, "Quantum sensing Metrology": 0.6903098225593567, "Quantum sensing navigation": 0.6693308353424072, "Quantum sensing Position": 0.6867296099662781, "Quantum sensing Timing": 0.6669276356697083, "Quantum sensing": 0.71993488073349, "Quantum control": 0.6761108636856079 } }, { "id": 2329, "title": "Direct Probing of the Phosphate-Ion Distribution in Bioactive Silicate Glasses by Solid-State NMR: Evidence for Transitions between Random/Clustered Scenarios", "abstract": "By employing P-31 multiple-quantum coherence-based solid-state nuclear magnetic resonance spectroscopy, we present the first comprehensive experimental assessment of the nature of the orthophosphate i...", "citations": 63, "author_count": 9, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2333, "doi": "10.1021/cm400487a", "umap_coordinates": { "x": 393.18878173828125, "y": 136.07533264160156, "z": 205.35484313964844 }, "tsne_coordinates": { "x": 9.422938346862793, "y": 11.658982276916504, "z": 34.5342903137207 }, "pca_coordinates": { "x": -2.087158679962158, "y": 2.4869496822357178, "z": -2.612940549850464 }, "axis_scores": { "Quantum imaging": 0.6757684350013733, "Quantum Life Science Sensing": 0.7079432010650635, "Quantum sensing Detection": 0.6630347967147827, "Quantum sensing Metrology": 0.6594864130020142, "Quantum sensing navigation": 0.6828557848930359, "Quantum sensing Position": 0.6554558277130127, "Quantum sensing Timing": 0.6315722465515137, "Quantum sensing": 0.6804558038711548, "Quantum control": 0.6492152214050293 } }, { "id": 2330, "title": "Strain effect in determining the geometric shape of self-assembled quantum dot", "abstract": "The geometric shape of a self-assembled quantum dot (QD) formed by the strain-induced Stranski-Krastanov mode has been studied as a function of strain energy by the short-range valence-force-field app...", "citations": 20, "author_count": 6, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2334, "doi": "10.1088/0022-3727/42/12/125414", "umap_coordinates": { "x": 392.8416442871094, "y": 134.48782348632812, "z": 207.1238555908203 }, "tsne_coordinates": { "x": 33.0986213684082, "y": -0.8897681832313538, "z": 9.523543357849121 }, "pca_coordinates": { "x": -1.1594033241271973, "y": -1.1959373950958252, "z": 0.13865846395492554 }, "axis_scores": { "Quantum imaging": 0.7235102653503418, "Quantum Life Science Sensing": 0.7305287718772888, "Quantum sensing Detection": 0.7023257613182068, "Quantum sensing Metrology": 0.7115684747695923, "Quantum sensing navigation": 0.7160351276397705, "Quantum sensing Position": 0.7438390851020813, "Quantum sensing Timing": 0.7065752744674683, "Quantum sensing": 0.7212597727775574, "Quantum control": 0.7097739577293396 } }, { "id": 2331, "title": "Quantum computer hardware based on rare-earth-ion-doped inorganic crystals", "abstract": "We present a scheme for generating multiple, strongly interacting qubits in rare-earth-ion-doped inorganic crystals at cryogenic temperatures. Two ground state hyperfine levels, with hour long lifetim...", "citations": 174, "author_count": 4, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2335, "doi": "10.1016/S0030-4018(01)01666-2", "umap_coordinates": { "x": 394.05621337890625, "y": 136.02178955078125, "z": 206.07626342773438 }, "tsne_coordinates": { "x": -16.328554153442383, "y": 6.140351295471191, "z": -2.7399702072143555 }, "pca_coordinates": { "x": -0.5961076617240906, "y": -0.6974551677703857, "z": 0.4570844769477844 }, "axis_scores": { "Quantum imaging": 0.7457259893417358, "Quantum Life Science Sensing": 0.7543337345123291, "Quantum sensing Detection": 0.7448722124099731, "Quantum sensing Metrology": 0.7342768311500549, "Quantum sensing navigation": 0.7325984239578247, "Quantum sensing Position": 0.7213917970657349, "Quantum sensing Timing": 0.7096052169799805, "Quantum sensing": 0.7627787590026855, "Quantum control": 0.7221132516860962 } }, { "id": 2332, "title": "Sensitivity limitation of a SQUID gravity gradiometer due to elastic interaction between sensing currents and test masses", "abstract": "Differential displacement due to a gravitational force gradient, acting on two superconducting test masses which are elastically suspended from the instrument frame, is sensed by a superconducting qua...", "citations": 1, "author_count": 2, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2336, "doi": "10.1109/77.947381", "umap_coordinates": { "x": 394.377197265625, "y": 135.43751525878906, "z": 207.46383666992188 }, "tsne_coordinates": { "x": -25.527603149414062, "y": -11.491724014282227, "z": -28.00243377685547 }, "pca_coordinates": { "x": 1.2571163177490234, "y": 2.371084213256836, "z": 1.0636889934539795 }, "axis_scores": { "Quantum imaging": 0.6631790399551392, "Quantum Life Science Sensing": 0.6839969158172607, "Quantum sensing Detection": 0.6892299056053162, "Quantum sensing Metrology": 0.6813291907310486, "Quantum sensing navigation": 0.6968274712562561, "Quantum sensing Position": 0.6998827457427979, "Quantum sensing Timing": 0.6623136401176453, "Quantum sensing": 0.6898123025894165, "Quantum control": 0.6483835577964783 } }, { "id": 2333, "title": "Quantum-well states and induced magnetism in Fe/Cu-N/Fe bcc (001) trilayers", "abstract": "We have used a first-principles Green's function technique to investigate the formation of magnetic moments in Fe/Cu-N/Fe bcc (001) trilayers. We show that the magnetic moment in the paramagnetic spac...", "citations": 17, "author_count": 5, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2337, "doi": "10.1103/PhysRevB.53.8509", "umap_coordinates": { "x": 393.0499572753906, "y": 135.90170288085938, "z": 208.96414184570312 }, "tsne_coordinates": { "x": 5.178936004638672, "y": -35.830509185791016, "z": 16.326818466186523 }, "pca_coordinates": { "x": 3.332580089569092, "y": -3.1875252723693848, "z": -2.137120246887207 }, "axis_scores": { "Quantum imaging": 0.7227559089660645, "Quantum Life Science Sensing": 0.7270599007606506, "Quantum sensing Detection": 0.7278228998184204, "Quantum sensing Metrology": 0.713025689125061, "Quantum sensing navigation": 0.714287519454956, "Quantum sensing Position": 0.6718238592147827, "Quantum sensing Timing": 0.6694356203079224, "Quantum sensing": 0.7330062985420227, "Quantum control": 0.7026541233062744 } }, { "id": 2334, "title": "Linear and nonlinear optical properties of donors inside a CdSe/ZnTe core/shell nanodot: Role of size modulation", "abstract": "The optical absorption coefficient (OAC) and the refractive index (RI), related to a confined donor, were theoretically investigated by the mean of the density matrix formalism. In order to obtain the...", "citations": 28, "author_count": 5, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2338, "doi": "10.1016/j.rinp.2019.102414", "umap_coordinates": { "x": 392.7237854003906, "y": 134.00567626953125, "z": 206.30738830566406 }, "tsne_coordinates": { "x": 28.521270751953125, "y": 3.0636138916015625, "z": 6.862940788269043 }, "pca_coordinates": { "x": -2.4677462577819824, "y": -2.3466763496398926, "z": 0.5497719645500183 }, "axis_scores": { "Quantum imaging": 0.7615868449211121, "Quantum Life Science Sensing": 0.7462785243988037, "Quantum sensing Detection": 0.7455651164054871, "Quantum sensing Metrology": 0.7256182432174683, "Quantum sensing navigation": 0.7295926809310913, "Quantum sensing Position": 0.7387371063232422, "Quantum sensing Timing": 0.717441976070404, "Quantum sensing": 0.7568657398223877, "Quantum control": 0.7344857454299927 } }, { "id": 2335, "title": "The Power of Heterogeneity: Parameter Relationships from Distributions", "abstract": "Complex scientific data is becoming the norm, many disciplines are growing immensely data-rich, and higher-dimensional measurements are performed to resolve complex relationships between parameters. I...", "citations": 6, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2339, "doi": "10.1371/journal.pone.0155718", "umap_coordinates": { "x": 394.87860107421875, "y": 136.62088012695312, "z": 205.43016052246094 }, "tsne_coordinates": { "x": -3.102759599685669, "y": 28.77747917175293, "z": 20.403766632080078 }, "pca_coordinates": { "x": -0.6631902456283569, "y": 3.1354994773864746, "z": -1.854198932647705 }, "axis_scores": { "Quantum imaging": 0.7116086483001709, "Quantum Life Science Sensing": 0.7062845230102539, "Quantum sensing Detection": 0.6897702813148499, "Quantum sensing Metrology": 0.6916370987892151, "Quantum sensing navigation": 0.6928310394287109, "Quantum sensing Position": 0.6730166673660278, "Quantum sensing Timing": 0.6781906485557556, "Quantum sensing": 0.7131564021110535, "Quantum control": 0.7135663628578186 } }, { "id": 2336, "title": "Elastic and Piezoelectric Properties of Zincblende and Wurtzite Crystalline Nanowire Heterostructures", "abstract": "The elastic and piezoelectric properties of zincblende and wurtzite crystalline InAs/InP nanowire heterostructures have been studied using electro-elastically coupled continuum elasticity theory. A co...", "citations": 50, "author_count": 4, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2340, "doi": "10.1002/adma.201200370", "umap_coordinates": { "x": 392.27398681640625, "y": 134.7150421142578, "z": 207.15432739257812 }, "tsne_coordinates": { "x": 16.238811492919922, "y": -14.028316497802734, "z": 6.70145845413208 }, "pca_coordinates": { "x": -0.9217357635498047, "y": -4.262070655822754, "z": -0.8842723369598389 }, "axis_scores": { "Quantum imaging": 0.6683143377304077, "Quantum Life Science Sensing": 0.6712361574172974, "Quantum sensing Detection": 0.6371466517448425, "Quantum sensing Metrology": 0.6619411706924438, "Quantum sensing navigation": 0.6574645042419434, "Quantum sensing Position": 0.6489397883415222, "Quantum sensing Timing": 0.6343061923980713, "Quantum sensing": 0.6680808663368225, "Quantum control": 0.64617520570755 } }, { "id": 2337, "title": "Quantized embedding approaches for collective strong coupling-Connecting ab initio and macroscopic QED to simple models in polaritonics", "abstract": "Collective light-matter interactions have been used to control chemistry and energy transfer, yet accessible approaches that combine ab initio methodology with large many-body quantum optical systems ...", "citations": 2, "author_count": 5, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2341, "doi": "10.1063/5.0234989", "umap_coordinates": { "x": 393.9554748535156, "y": 136.86268615722656, "z": 207.41465759277344 }, "tsne_coordinates": { "x": -8.748042106628418, "y": -8.133176803588867, "z": 13.003376007080078 }, "pca_coordinates": { "x": 3.6504979133605957, "y": -0.42053985595703125, "z": -0.6360135674476624 }, "axis_scores": { "Quantum imaging": 0.7140307426452637, "Quantum Life Science Sensing": 0.7106416821479797, "Quantum sensing Detection": 0.704319179058075, "Quantum sensing Metrology": 0.6892682909965515, "Quantum sensing navigation": 0.711756706237793, "Quantum sensing Position": 0.6937568187713623, "Quantum sensing Timing": 0.6818811893463135, "Quantum sensing": 0.7203290462493896, "Quantum control": 0.7031004428863525 } }, { "id": 2338, "title": "Quantum complexity in gravity, quantum field theory, and quantum information science", "abstract": "Quantum complexity quantifies the difficulty of preparing a state or implementing a unitary transformation with limited resources. Applications range from quantum computation to condensed matter physi...", "citations": 3, "author_count": 8, "categories": [ "Physics" ], "year": 2026, "topic": [ "all" ], "embedding_index": 2342, "doi": "10.1016/j.physrep.2025.11.001", "umap_coordinates": { "x": 394.6154479980469, "y": 137.04220581054688, "z": 206.05108642578125 }, "tsne_coordinates": { "x": -13.619633674621582, "y": 10.625089645385742, "z": 16.133148193359375 }, "pca_coordinates": { "x": 2.0723893642425537, "y": 2.39717435836792, "z": -1.330725908279419 }, "axis_scores": { "Quantum imaging": 0.8066668510437012, "Quantum Life Science Sensing": 0.8151233792304993, "Quantum sensing Detection": 0.7996885776519775, "Quantum sensing Metrology": 0.7886645197868347, "Quantum sensing navigation": 0.8088008761405945, "Quantum sensing Position": 0.7691812515258789, "Quantum sensing Timing": 0.7501294016838074, "Quantum sensing": 0.8118239045143127, "Quantum control": 0.786786675453186 } }, { "id": 2339, "title": "Nanoassembled Peptide Biosensors for Rapid Detection of Matrilysin Cancer Biomarker", "abstract": "Early detection of cancer is likely to be one of the most effective means of reducing the cancer mortality rate. Hence, simple and ultra-quick methods for noninvasive detection of early-stage tumors a...", "citations": 23, "author_count": 5, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2343, "doi": "10.1002/smll.201905994", "umap_coordinates": { "x": 393.75396728515625, "y": 134.2882537841797, "z": 204.36073303222656 }, "tsne_coordinates": { "x": 18.831256866455078, "y": 25.34499740600586, "z": -12.068618774414062 }, "pca_coordinates": { "x": -3.8757686614990234, "y": -0.27564001083374023, "z": 0.5112132430076599 }, "axis_scores": { "Quantum imaging": 0.6901343464851379, "Quantum Life Science Sensing": 0.7544448375701904, "Quantum sensing Detection": 0.7189716100692749, "Quantum sensing Metrology": 0.7312057614326477, "Quantum sensing navigation": 0.7035213708877563, "Quantum sensing Position": 0.7062659859657288, "Quantum sensing Timing": 0.6817667484283447, "Quantum sensing": 0.7200419902801514, "Quantum control": 0.6503561735153198 } }, { "id": 2340, "title": "Nucleophilic Substitution Dynamics: Comparing Wave Packet Calculations with Experiment", "abstract": "The reactive collision of chloride anions and methyl iodide molecules forming iodide anions and methyl chloride is a typical example of a concerted bimolecular nucleophilic substitution (S(N)2) reacti...", "citations": 29, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2344, "doi": "10.1021/jp503974u", "umap_coordinates": { "x": 393.38458251953125, "y": 137.3293914794922, "z": 206.1006317138672 }, "tsne_coordinates": { "x": -8.71798324584961, "y": 4.144685745239258, "z": 28.996036529541016 }, "pca_coordinates": { "x": 0.41264617443084717, "y": 1.4754186868667603, "z": -1.576531171798706 }, "axis_scores": { "Quantum imaging": 0.695587158203125, "Quantum Life Science Sensing": 0.6954137086868286, "Quantum sensing Detection": 0.6827700138092041, "Quantum sensing Metrology": 0.6653619408607483, "Quantum sensing navigation": 0.7158643007278442, "Quantum sensing Position": 0.6995838284492493, "Quantum sensing Timing": 0.695076048374176, "Quantum sensing": 0.6925888061523438, "Quantum control": 0.6903113126754761 } }, { "id": 2341, "title": "Photoluminescence of an assembly of size-distributed self-assembled InAs quantum dots", "abstract": "We have performed experimental and theoretical studies of the effects of inhomogeneous broadening on the luminescence properties of a self-assembled InAs quantum dot (QD) assembly. From atomic force m...", "citations": 24, "author_count": 6, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2345, "doi": "10.1063/1.1499528", "umap_coordinates": { "x": 392.4096984863281, "y": 133.7100372314453, "z": 207.81277465820312 }, "tsne_coordinates": { "x": 31.04546546936035, "y": -11.576824188232422, "z": -1.0129282474517822 }, "pca_coordinates": { "x": 0.1884751319885254, "y": -4.3969244956970215, "z": 1.7163677215576172 }, "axis_scores": { "Quantum imaging": 0.741346001625061, "Quantum Life Science Sensing": 0.7452630400657654, "Quantum sensing Detection": 0.7418467998504639, "Quantum sensing Metrology": 0.7387746572494507, "Quantum sensing navigation": 0.7116754055023193, "Quantum sensing Position": 0.7225652933120728, "Quantum sensing Timing": 0.6774934530258179, "Quantum sensing": 0.7588144540786743, "Quantum control": 0.7072707414627075 } }, { "id": 2342, "title": "Ultra-broadband optical amplification using nonlinear integrated waveguides", "abstract": "Four-wave mixing is a nonlinear optical phenomenon that can be used for wideband low-noise optical amplification and wavelength conversion. It has been extensively investigated for applications in com...", "citations": 14, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2346, "doi": "10.1038/s41586-025-08824-3", "umap_coordinates": { "x": 393.870849609375, "y": 134.14125061035156, "z": 206.6563720703125 }, "tsne_coordinates": { "x": -8.64110279083252, "y": 2.3411622047424316, "z": -6.757015228271484 }, "pca_coordinates": { "x": -1.440727710723877, "y": -2.125462055206299, "z": 3.4115662574768066 }, "axis_scores": { "Quantum imaging": 0.7531558871269226, "Quantum Life Science Sensing": 0.7280467748641968, "Quantum sensing Detection": 0.7340976595878601, "Quantum sensing Metrology": 0.7205159068107605, "Quantum sensing navigation": 0.7271340489387512, "Quantum sensing Position": 0.6957619190216064, "Quantum sensing Timing": 0.6770563721656799, "Quantum sensing": 0.7441455125808716, "Quantum control": 0.6742293834686279 } }, { "id": 2343, "title": "Entanglement signature in quantum work statistics in the slow-driving regime", "abstract": "In slowly driven classical systems, work is a stochastic quantity and its probability distribution is known to satisfy the work fluctuation-dissipation relation, which states that the mean and varianc...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2347, "doi": "10.1103/PhysRevResearch.6.033297", "umap_coordinates": { "x": 395.3305358886719, "y": 136.30276489257812, "z": 207.90139770507812 }, "tsne_coordinates": { "x": -26.891996383666992, "y": -21.125593185424805, "z": 1.8537750244140625 }, "pca_coordinates": { "x": 4.028257846832275, "y": 1.060626745223999, "z": 0.7438561320304871 }, "axis_scores": { "Quantum imaging": 0.7344722747802734, "Quantum Life Science Sensing": 0.7396166324615479, "Quantum sensing Detection": 0.742533266544342, "Quantum sensing Metrology": 0.7172844409942627, "Quantum sensing navigation": 0.746957004070282, "Quantum sensing Position": 0.7313085794448853, "Quantum sensing Timing": 0.7102072834968567, "Quantum sensing": 0.7468997240066528, "Quantum control": 0.716410219669342 } }, { "id": 2344, "title": "Detailed Study of the Influence of InGaAs Matrix on the Strain Reduction in the InAs Dot-In-Well Structure", "abstract": "InAs/InGaAs dot-in-well (DWELL) structures have been investigated with the systematically varied InGaAs thickness. Both the strained buffer layer (SBL) below the dot layer and the strain-reducing laye...", "citations": 17, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2348, "doi": "10.1186/s11671-016-1339-3", "umap_coordinates": { "x": 392.4088134765625, "y": 134.07077026367188, "z": 207.6796875 }, "tsne_coordinates": { "x": 35.36100769042969, "y": -3.0944149494171143, "z": 8.166723251342773 }, "pca_coordinates": { "x": -0.7960264682769775, "y": -1.6463794708251953, "z": 0.49651116132736206 }, "axis_scores": { "Quantum imaging": 0.6978437304496765, "Quantum Life Science Sensing": 0.6788873672485352, "Quantum sensing Detection": 0.6656455397605896, "Quantum sensing Metrology": 0.6817898154258728, "Quantum sensing navigation": 0.678959846496582, "Quantum sensing Position": 0.6733394861221313, "Quantum sensing Timing": 0.6489537954330444, "Quantum sensing": 0.6819963455200195, "Quantum control": 0.6620889902114868 } }, { "id": 2345, "title": "Bell scenarios in which nonlocality and entanglement are inversely related", "abstract": "We show that for two-qubit chained Bell inequalities with an arbitrary number of measurement settings, nonlocality and entanglement are not only different properties but are inversely related. Specifi...", "citations": 14, "author_count": 8, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2349, "doi": "10.1103/PhysRevA.89.012102", "umap_coordinates": { "x": 395.76385498046875, "y": 136.72406005859375, "z": 207.50344848632812 }, "tsne_coordinates": { "x": -23.742080688476562, "y": -7.821462154388428, "z": 5.289001941680908 }, "pca_coordinates": { "x": 4.9689202308654785, "y": 2.2675092220306396, "z": 0.8947059512138367 }, "axis_scores": { "Quantum imaging": 0.7374292612075806, "Quantum Life Science Sensing": 0.7422964572906494, "Quantum sensing Detection": 0.7466294765472412, "Quantum sensing Metrology": 0.7310992479324341, "Quantum sensing navigation": 0.7395945191383362, "Quantum sensing Position": 0.719142496585846, "Quantum sensing Timing": 0.7087671160697937, "Quantum sensing": 0.7500428557395935, "Quantum control": 0.7072902917861938 } }, { "id": 2346, "title": "Coupling of concentration fluctuations to viscoelasticity in highly concentrated polymer solutions", "abstract": "Photon correlation spectroscopy in the polarized geometry has been used to systematically investigate the complex dynamics of a highly concentrated entangled polymer solution in a nominally good solve...", "citations": 34, "author_count": 6, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2350, "doi": "10.1007/BF00658368", "umap_coordinates": { "x": 393.60931396484375, "y": 135.94874572753906, "z": 205.73504638671875 }, "tsne_coordinates": { "x": -3.455007553100586, "y": -5.2974419593811035, "z": 34.71432113647461 }, "pca_coordinates": { "x": -0.17883920669555664, "y": 1.7016979455947876, "z": -2.4005231857299805 }, "axis_scores": { "Quantum imaging": 0.6728665232658386, "Quantum Life Science Sensing": 0.7108216285705566, "Quantum sensing Detection": 0.6738942861557007, "Quantum sensing Metrology": 0.6665453314781189, "Quantum sensing navigation": 0.6865299940109253, "Quantum sensing Position": 0.686669647693634, "Quantum sensing Timing": 0.6451584100723267, "Quantum sensing": 0.6853941679000854, "Quantum control": 0.6889438033103943 } }, { "id": 2347, "title": "Investigation of image components affecting the detection of lung nodules in digital chest radiography", "abstract": "The aim of this work was to investigate and quantify the effects of system noise, nodule location, anatomical noise and anatomical background on the detection of lung nodules in different regions of t...", "citations": 5, "author_count": 12, "categories": [ "Imaging Science & Photographic Technology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2351, "doi": "10.1117/12.595506", "umap_coordinates": { "x": 395.7790222167969, "y": 132.80572509765625, "z": 205.4534149169922 }, "tsne_coordinates": { "x": -3.7678143978118896, "y": 24.25987434387207, "z": -24.704172134399414 }, "pca_coordinates": { "x": -2.7094202041625977, "y": 2.66195011138916, "z": 1.6900243759155273 }, "axis_scores": { "Quantum imaging": 0.7163214087486267, "Quantum Life Science Sensing": 0.691507875919342, "Quantum sensing Detection": 0.70699542760849, "Quantum sensing Metrology": 0.6813316941261292, "Quantum sensing navigation": 0.6682751178741455, "Quantum sensing Position": 0.6714023947715759, "Quantum sensing Timing": 0.6495581865310669, "Quantum sensing": 0.7009265422821045, "Quantum control": 0.6693916320800781 } }, { "id": 2348, "title": "Room-temperature defect-engineered spin filter based on a non-magnetic semiconductor", "abstract": "Generating, manipulating and detecting electron spin polarization and coherence at room temperature is at the heart of future spintronics and spin-based quantum information technology(1-4). Spin filte...", "citations": 106, "author_count": 10, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2352, "doi": "10.1038/NMAT2385", "umap_coordinates": { "x": 393.2577819824219, "y": 135.23472595214844, "z": 206.77528381347656 }, "tsne_coordinates": { "x": 10.7400484085083, "y": -9.985635757446289, "z": 5.0164031982421875 }, "pca_coordinates": { "x": -0.14492368698120117, "y": -0.9494729042053223, "z": 0.1198304295539856 }, "axis_scores": { "Quantum imaging": 0.6957206130027771, "Quantum Life Science Sensing": 0.7171695232391357, "Quantum sensing Detection": 0.6986644268035889, "Quantum sensing Metrology": 0.7028616666793823, "Quantum sensing navigation": 0.7066760659217834, "Quantum sensing Position": 0.6732522249221802, "Quantum sensing Timing": 0.6517507433891296, "Quantum sensing": 0.7111632227897644, "Quantum control": 0.6704303622245789 } }, { "id": 2349, "title": "Mesoscopic Thermovoltage Measurement Design", "abstract": "Quantitative thermoelectric measurements in the mesoscopic regime require accurate knowledge of temperature, thermovoltage, and device energy scales. We consider the effect of a finite load resistance...", "citations": 2, "author_count": 5, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2353, "doi": "10.1063/1.3666421", "umap_coordinates": { "x": 394.0412292480469, "y": 134.1256561279297, "z": 207.38336181640625 }, "tsne_coordinates": { "x": 24.51168441772461, "y": -30.641334533691406, "z": 7.985985279083252 }, "pca_coordinates": { "x": -0.7530393600463867, "y": 0.6031908988952637, "z": 0.5418005585670471 }, "axis_scores": { "Quantum imaging": 0.7263020277023315, "Quantum Life Science Sensing": 0.7731790542602539, "Quantum sensing Detection": 0.7286401987075806, "Quantum sensing Metrology": 0.749973714351654, "Quantum sensing navigation": 0.7177064418792725, "Quantum sensing Position": 0.7156065106391907, "Quantum sensing Timing": 0.72495037317276, "Quantum sensing": 0.751644492149353, "Quantum control": 0.7337523102760315 } }, { "id": 2350, "title": "Two-Photon Active Organotin(IV) Carboxylate Complexes for Visualization of Anticancer Action", "abstract": "It is still a challenge that organotin(IV) carboxylate complexes with high-performance two-photon activity for cancer therapy. At present work, two novel organotin carboxylate complexes LSn1 and LSn2,...", "citations": 65, "author_count": 11, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2354, "doi": "10.1021/acsbiomaterials.6b00786", "umap_coordinates": { "x": 393.7771911621094, "y": 133.73919677734375, "z": 204.74205017089844 }, "tsne_coordinates": { "x": 7.008580207824707, "y": 22.51645851135254, "z": -11.13755989074707 }, "pca_coordinates": { "x": -4.580206394195557, "y": -1.584886074066162, "z": 0.9084236025810242 }, "axis_scores": { "Quantum imaging": 0.7367737293243408, "Quantum Life Science Sensing": 0.7251750826835632, "Quantum sensing Detection": 0.7061871290206909, "Quantum sensing Metrology": 0.6804500222206116, "Quantum sensing navigation": 0.6875097751617432, "Quantum sensing Position": 0.6672847270965576, "Quantum sensing Timing": 0.6788366436958313, "Quantum sensing": 0.7062748670578003, "Quantum control": 0.6603946089744568 } }, { "id": 2351, "title": "Self-consistent drift-diffusion model of nanoscale impurity profiles in semiconductor layers, quantum wires, and quantum dots - art. no. 165330", "abstract": "We propose and model an experiment where impurity profiles in low dimensional structures can be controlled (during heat treatment) by an external parabolic potential defined by a variety of gate arran...", "citations": 36, "author_count": 5, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2355, "doi": "10.1103/PhysRevB.67.165330", "umap_coordinates": { "x": 393.9986267089844, "y": 135.20872497558594, "z": 209.4011688232422 }, "tsne_coordinates": { "x": 1.9273344278335571, "y": -30.71294593811035, "z": 0.6632259488105774 }, "pca_coordinates": { "x": 4.145458698272705, "y": -2.4763617515563965, "z": 0.6899589896202087 }, "axis_scores": { "Quantum imaging": 0.6930009722709656, "Quantum Life Science Sensing": 0.7110644578933716, "Quantum sensing Detection": 0.6974449157714844, "Quantum sensing Metrology": 0.7071868181228638, "Quantum sensing navigation": 0.7414657473564148, "Quantum sensing Position": 0.7039556503295898, "Quantum sensing Timing": 0.6832485198974609, "Quantum sensing": 0.7065078020095825, "Quantum control": 0.6860558986663818 } }, { "id": 2352, "title": "Coherent Control of a Single Trapped Rydberg Ion", "abstract": "Trapped Rydberg ions are a promising novel approach to quantum computing and simulations. They are envisaged to combine the exquisite control of trapped ion qubits with the fast two-qubit Rydberg gate...", "citations": 58, "author_count": 6, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2356, "doi": "10.1103/PhysRevLett.119.220501", "umap_coordinates": { "x": 395.01507568359375, "y": 134.8545379638672, "z": 208.48471069335938 }, "tsne_coordinates": { "x": -4.918440341949463, "y": -26.939334869384766, "z": -11.241682052612305 }, "pca_coordinates": { "x": 4.151163101196289, "y": -1.015681266784668, "z": 0.8424180150032043 }, "axis_scores": { "Quantum imaging": 0.743606448173523, "Quantum Life Science Sensing": 0.7438525557518005, "Quantum sensing Detection": 0.7545286417007446, "Quantum sensing Metrology": 0.7210896611213684, "Quantum sensing navigation": 0.7377839088439941, "Quantum sensing Position": 0.713917076587677, "Quantum sensing Timing": 0.725844144821167, "Quantum sensing": 0.7550123929977417, "Quantum control": 0.7562655806541443 } }, { "id": 2353, "title": "Ab Initio Vibro-Polaritonic Spectra in Strongly Coupled Cavity-Molecule Systems", "abstract": "Recent experiments have revealed the profound effect of strong light-matter interactions in optical cavities on the electronic ground state of molecular systems. This phenomenon, known as vibrational ...", "citations": 23, "author_count": 3, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2357, "doi": "10.1021/acs.jctc.3c01135", "umap_coordinates": { "x": 392.3927001953125, "y": 135.63404846191406, "z": 206.57217407226562 }, "tsne_coordinates": { "x": 5.466326713562012, "y": -9.925887107849121, "z": -2.162388563156128 }, "pca_coordinates": { "x": 0.9673757553100586, "y": -3.276116371154785, "z": -1.1624677181243896 }, "axis_scores": { "Quantum imaging": 0.7008599042892456, "Quantum Life Science Sensing": 0.6984833478927612, "Quantum sensing Detection": 0.7064706683158875, "Quantum sensing Metrology": 0.670600175857544, "Quantum sensing navigation": 0.6757714748382568, "Quantum sensing Position": 0.6542932987213135, "Quantum sensing Timing": 0.6642863154411316, "Quantum sensing": 0.7073266506195068, "Quantum control": 0.673687756061554 } }, { "id": 2354, "title": "Evolution from Tunneling to Hopping Mediated Triplet Energy Transfer from Quantum Dots to Molecules", "abstract": "Efficient energy transfer is particularly important for multiexcitonic processes like singlet fission and photon upconversion. Observation of the transition from short-range tunneling to long-range ho...", "citations": 59, "author_count": 8, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2358, "doi": "10.1021/jacs.0c07727", "umap_coordinates": { "x": 392.4205017089844, "y": 136.15353393554688, "z": 206.17913818359375 }, "tsne_coordinates": { "x": -11.921937942504883, "y": 7.492437362670898, "z": 10.43209457397461 }, "pca_coordinates": { "x": 0.6887829303741455, "y": -2.1421942710876465, "z": -2.9806227684020996 }, "axis_scores": { "Quantum imaging": 0.6917405724525452, "Quantum Life Science Sensing": 0.7145087122917175, "Quantum sensing Detection": 0.6913383603096008, "Quantum sensing Metrology": 0.6757282018661499, "Quantum sensing navigation": 0.6973021626472473, "Quantum sensing Position": 0.6667765378952026, "Quantum sensing Timing": 0.6886109113693237, "Quantum sensing": 0.7119470834732056, "Quantum control": 0.715859591960907 } }, { "id": 2355, "title": "Tightly-Confined and Long Z-Cut Lithium Niobate Waveguide with Ultralow-Loss", "abstract": "Lithium niobate (LN) is a promising material for complex photonic-electronic circuits with wide applications in fields like data communications, sensing, optical computation, and quantum optics. There...", "citations": 3, "author_count": 7, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2359, "doi": "10.1002/lpor.202500042", "umap_coordinates": { "x": 393.8462219238281, "y": 133.68106079101562, "z": 206.33853149414062 }, "tsne_coordinates": { "x": 8.266138076782227, "y": -7.586532115936279, "z": -34.46758270263672 }, "pca_coordinates": { "x": -0.6031421422958374, "y": 0.09297060966491699, "z": 1.7543463706970215 }, "axis_scores": { "Quantum imaging": 0.6851010322570801, "Quantum Life Science Sensing": 0.6803545951843262, "Quantum sensing Detection": 0.6743089556694031, "Quantum sensing Metrology": 0.6742814779281616, "Quantum sensing navigation": 0.687238872051239, "Quantum sensing Position": 0.6671227812767029, "Quantum sensing Timing": 0.6484744548797607, "Quantum sensing": 0.6881943345069885, "Quantum control": 0.6716181039810181 } }, { "id": 2356, "title": "Sustainable coconut shell charcoal counter electrodes for efficiency enhancement in CdS quantum dot solar cells", "abstract": "The use of activated coconut shell charcoal (ACSC) was explored as a cost-effective and viable alternative to platinum (Pt) counter electrodes (CE) in CdS quantum dot-sensitized solar cells (QDSSCs). ...", "citations": 3, "author_count": 13, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2360, "doi": "10.1007/s11581-025-06118-2", "umap_coordinates": { "x": 392.5368957519531, "y": 133.28741455078125, "z": 205.27088928222656 }, "tsne_coordinates": { "x": 27.37395477294922, "y": 7.194095134735107, "z": -6.204781532287598 }, "pca_coordinates": { "x": -3.974085807800293, "y": -3.173149585723877, "z": -0.7129680514335632 }, "axis_scores": { "Quantum imaging": 0.6404600739479065, "Quantum Life Science Sensing": 0.681916356086731, "Quantum sensing Detection": 0.6544865369796753, "Quantum sensing Metrology": 0.6431810259819031, "Quantum sensing navigation": 0.6385104060173035, "Quantum sensing Position": 0.6386632919311523, "Quantum sensing Timing": 0.6373894214630127, "Quantum sensing": 0.6585476398468018, "Quantum control": 0.6697659492492676 } }, { "id": 2357, "title": "1.3 μm VCSELs:: InGaAs/GaAs, GaInNAs/GaAs multiple quantum wells and InAs/GaAs quantum dots-three candidates as active material", "abstract": "In this article, we report our results on 1.3 mu m VCSELs for optical interconnection applications. Room temperature continuous-wave lasing operation is demonstrated for top emitting oxide-confined de...", "citations": 1, "author_count": 14, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2361, "doi": "10.1117/12.700403", "umap_coordinates": { "x": 393.85845947265625, "y": 133.41221618652344, "z": 207.10801696777344 }, "tsne_coordinates": { "x": 45.435611724853516, "y": 0.7893121838569641, "z": -5.164851188659668 }, "pca_coordinates": { "x": -1.018012285232544, "y": -2.1416640281677246, "z": 2.065147876739502 }, "axis_scores": { "Quantum imaging": 0.7069763541221619, "Quantum Life Science Sensing": 0.7053377628326416, "Quantum sensing Detection": 0.7175785899162292, "Quantum sensing Metrology": 0.7177208662033081, "Quantum sensing navigation": 0.715224027633667, "Quantum sensing Position": 0.6979250907897949, "Quantum sensing Timing": 0.6827113628387451, "Quantum sensing": 0.719326376914978, "Quantum control": 0.6844887137413025 } }, { "id": 2358, "title": "Efficient and Tunable Electroluminescence from In Situ Synthesized Perovskite Quantum Dots", "abstract": "Semiconductor quantum dots (QDs) are among the most promising next-generation optoelectronic materials. QDs are generally obtained through either epitaxial or colloidal growth and carry the promise fo...", "citations": 36, "author_count": 13, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2362, "doi": "10.1002/smll.201804947", "umap_coordinates": { "x": 392.0421142578125, "y": 133.5853271484375, "z": 205.70225524902344 }, "tsne_coordinates": { "x": 26.352645874023438, "y": -0.5123701691627502, "z": -22.566577911376953 }, "pca_coordinates": { "x": -3.574984312057495, "y": -3.8947768211364746, "z": -0.1624433994293213 }, "axis_scores": { "Quantum imaging": 0.7176090478897095, "Quantum Life Science Sensing": 0.7185149788856506, "Quantum sensing Detection": 0.6972736120223999, "Quantum sensing Metrology": 0.6969645619392395, "Quantum sensing navigation": 0.6759288311004639, "Quantum sensing Position": 0.669135332107544, "Quantum sensing Timing": 0.6585157513618469, "Quantum sensing": 0.7142103314399719, "Quantum control": 0.6927235126495361 } }, { "id": 2359, "title": "Ultrafast Charge Transfer from CdSe Quantum Dots to p-Type NiO: Hole Injection vs Hole Trapping", "abstract": "Semiconductor quantum dot (QD) to metal oxide electron injection dynamics is well documented in the scientific literature. In contrast to that, not much is known so far about hole injection time scale...", "citations": 90, "author_count": 9, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2363, "doi": "10.1021/jp506963q", "umap_coordinates": { "x": 391.63787841796875, "y": 134.99232482910156, "z": 205.93238830566406 }, "tsne_coordinates": { "x": 17.947032928466797, "y": 2.182919979095459, "z": 0.12584447860717773 }, "pca_coordinates": { "x": -0.8632258772850037, "y": -3.7135977745056152, "z": -0.8006429672241211 }, "axis_scores": { "Quantum imaging": 0.730971097946167, "Quantum Life Science Sensing": 0.7270320653915405, "Quantum sensing Detection": 0.720686137676239, "Quantum sensing Metrology": 0.6804417371749878, "Quantum sensing navigation": 0.704361617565155, "Quantum sensing Position": 0.6962157487869263, "Quantum sensing Timing": 0.6847240924835205, "Quantum sensing": 0.7295584082603455, "Quantum control": 0.7019666433334351 } }, { "id": 2360, "title": "Transparently Wrap-Gated Semiconductor Nanowire Arrays For Studies Of Gate-Controlled Photoluminescence", "abstract": "We present a technique to measure gate-controlled photoluminescence (PL) on arrays of semiconductor nanowire (NW) capacitors using a transparent film of Indium-Tin-Oxide (ITO) wrapping around the nano...", "citations": 1, "author_count": 8, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2364, "doi": "10.1063/1.4848468", "umap_coordinates": { "x": 392.8861083984375, "y": 133.95709228515625, "z": 207.94337463378906 }, "tsne_coordinates": { "x": 21.24895668029785, "y": -23.664833068847656, "z": -6.3284711837768555 }, "pca_coordinates": { "x": -1.326150894165039, "y": -3.9548044204711914, "z": 1.7995262145996094 }, "axis_scores": { "Quantum imaging": 0.6761977672576904, "Quantum Life Science Sensing": 0.6977913975715637, "Quantum sensing Detection": 0.6692749857902527, "Quantum sensing Metrology": 0.660274863243103, "Quantum sensing navigation": 0.6682271361351013, "Quantum sensing Position": 0.6409751772880554, "Quantum sensing Timing": 0.642925500869751, "Quantum sensing": 0.6908026337623596, "Quantum control": 0.6586171388626099 } }, { "id": 2361, "title": "Electrical Conductance and Thermopower of β-Substituted Porphyrin Molecular Junctions-Synthesis and Transport", "abstract": "Molecular junctions offer significant potential for enhancing thermoelectric power generation. Quantum interference effects and associated sharp features in electron transmission are expected to enabl...", "citations": 14, "author_count": 12, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2365, "doi": "10.1021/jacs.3c07258", "umap_coordinates": { "x": 392.7828674316406, "y": 135.18588256835938, "z": 206.43246459960938 }, "tsne_coordinates": { "x": 6.578913688659668, "y": -18.64042091369629, "z": 7.4314141273498535 }, "pca_coordinates": { "x": -0.5815746188163757, "y": -2.649209499359131, "z": -0.319929838180542 }, "axis_scores": { "Quantum imaging": 0.7036226987838745, "Quantum Life Science Sensing": 0.7306435108184814, "Quantum sensing Detection": 0.6992715001106262, "Quantum sensing Metrology": 0.694104790687561, "Quantum sensing navigation": 0.702996551990509, "Quantum sensing Position": 0.6881504058837891, "Quantum sensing Timing": 0.699171245098114, "Quantum sensing": 0.71541428565979, "Quantum control": 0.683040201663971 } }, { "id": 2362, "title": "TRANSITION-PROBABILITIES IN SM-II VIA OPTICAL NUTATION", "abstract": "We have measured the transition probabilities for three lines in Sm II. The measurements are made by studying optical nutation with a fast Doppler switching technique in collinear laser spectroscopy o...", "citations": 5, "author_count": 8, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 2366, "doi": "10.1007/BF01437262", "umap_coordinates": { "x": 394.0899658203125, "y": 136.90992736816406, "z": 207.4065704345703 }, "tsne_coordinates": { "x": 7.112644672393799, "y": -12.259516716003418, "z": 40.00777816772461 }, "pca_coordinates": { "x": 2.1966753005981445, "y": 2.2817177772521973, "z": 0.2933775782585144 }, "axis_scores": { "Quantum imaging": 0.701828122138977, "Quantum Life Science Sensing": 0.6930583715438843, "Quantum sensing Detection": 0.7135929465293884, "Quantum sensing Metrology": 0.7127871513366699, "Quantum sensing navigation": 0.737925112247467, "Quantum sensing Position": 0.697516918182373, "Quantum sensing Timing": 0.6970478296279907, "Quantum sensing": 0.70703125, "Quantum control": 0.6887568235397339 } }, { "id": 2363, "title": "Magnetophysiology of Brain Slices Using an HTS SQUID Magnetometer System", "abstract": "A high-transition-temperature superconducting quantum interference device (HTS SQUID) system has been developed and employed in neuromagnetic measurements of evoked fields from in vitro brain slices. ...", "citations": 1, "author_count": 5, "categories": [ "Computer Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2367, "doi": "10.1007/978-3-540-85632-0_26", "umap_coordinates": { "x": 394.6334533691406, "y": 134.75469970703125, "z": 206.05130004882812 }, "tsne_coordinates": { "x": -24.910112380981445, "y": 1.7992439270019531, "z": -21.974590301513672 }, "pca_coordinates": { "x": -0.2806800603866577, "y": 2.27405047416687, "z": -0.816896378993988 }, "axis_scores": { "Quantum imaging": 0.6900752186775208, "Quantum Life Science Sensing": 0.694696307182312, "Quantum sensing Detection": 0.6621629595756531, "Quantum sensing Metrology": 0.6901213526725769, "Quantum sensing navigation": 0.6921839714050293, "Quantum sensing Position": 0.6615683436393738, "Quantum sensing Timing": 0.6722204685211182, "Quantum sensing": 0.6896727085113525, "Quantum control": 0.647070050239563 } }, { "id": 2364, "title": "Synthesis and photophysical characterization of 1-and 4-(purinyl) triazoles", "abstract": "Fluorescent adenine mimetics are useful tools for studying DNA, RNA and enzyme functions. Herein we describe the synthesis of eight 1-(purinyl)triazoles and two 4-(purinyl)triazoles utilizing the 1,4-...", "citations": 11, "author_count": 6, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2368, "doi": "10.1016/j.tet.2013.08.023", "umap_coordinates": { "x": 392.7270202636719, "y": 135.7097625732422, "z": 204.57749938964844 }, "tsne_coordinates": { "x": 2.6808793544769287, "y": 10.583040237426758, "z": 1.6409337520599365 }, "pca_coordinates": { "x": -3.2581193447113037, "y": -0.9249684810638428, "z": -1.3131647109985352 }, "axis_scores": { "Quantum imaging": 0.7289926409721375, "Quantum Life Science Sensing": 0.7630919814109802, "Quantum sensing Detection": 0.7268921136856079, "Quantum sensing Metrology": 0.7259686589241028, "Quantum sensing navigation": 0.6996721625328064, "Quantum sensing Position": 0.6927659511566162, "Quantum sensing Timing": 0.6881575584411621, "Quantum sensing": 0.7425894141197205, "Quantum control": 0.7217037081718445 } }, { "id": 2365, "title": "Ultrahigh Thermal Rectification at Small Temperature Difference Achieved by Near-Field Thermal Photon Manipulation", "abstract": "Thermal diodes, which allow heat to flow in a preferential direction, are an essential component of thermal circuitry and will find applications in many fields ranging from thermal photon controls to ...", "citations": 8, "author_count": 7, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2369, "doi": "10.1002/adom.202401633", "umap_coordinates": { "x": 393.6973876953125, "y": 134.6165771484375, "z": 206.24961853027344 }, "tsne_coordinates": { "x": -5.452045917510986, "y": -0.2632301449775696, "z": -8.721866607666016 }, "pca_coordinates": { "x": -0.8283153772354126, "y": -1.5679864883422852, "z": 2.33302903175354 }, "axis_scores": { "Quantum imaging": 0.7225947380065918, "Quantum Life Science Sensing": 0.7145776748657227, "Quantum sensing Detection": 0.7140932083129883, "Quantum sensing Metrology": 0.7322273254394531, "Quantum sensing navigation": 0.6912978291511536, "Quantum sensing Position": 0.6857689023017883, "Quantum sensing Timing": 0.6965407133102417, "Quantum sensing": 0.7299906611442566, "Quantum control": 0.6897234916687012 } }, { "id": 2366, "title": "Differential response of a sensitive and tolerant sugarbeet line to Cercospora beticola infection and UV-B radiation", "abstract": "Increased ultraviolet-B (UV-B, 280-320 nm) radiation, due to depletion of stratospheric ozone, is an increasing threat to living organisms. Furthermore, increased ground level temperatures as a conseq...", "citations": 9, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2370, "doi": "10.1034/j.1399-3054.2000.100104.x", "umap_coordinates": { "x": 394.46685791015625, "y": 136.2044677734375, "z": 203.64215087890625 }, "tsne_coordinates": { "x": 9.41342544555664, "y": 36.45884704589844, "z": 17.09244728088379 }, "pca_coordinates": { "x": -1.771684169769287, "y": 1.5548635721206665, "z": -0.26381009817123413 }, "axis_scores": { "Quantum imaging": 0.6773369908332825, "Quantum Life Science Sensing": 0.7047496438026428, "Quantum sensing Detection": 0.6870281100273132, "Quantum sensing Metrology": 0.6615402698516846, "Quantum sensing navigation": 0.6735897064208984, "Quantum sensing Position": 0.6593398451805115, "Quantum sensing Timing": 0.668184757232666, "Quantum sensing": 0.6907968521118164, "Quantum control": 0.6808848977088928 } }, { "id": 2367, "title": "Landau damping and lifetime oscillation of surface plasmons in metallic thin films studied in a jellium slab model", "abstract": "The lifetime of surface plasmons in metallic thin films has been calculated using linear response theory and time-dependent local density approximation. The linewidth due to Landau damping is found to...", "citations": 58, "author_count": 3, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2371, "doi": "10.1016/j.susc.2007.10.040", "umap_coordinates": { "x": 392.7759704589844, "y": 135.6861114501953, "z": 207.256591796875 }, "tsne_coordinates": { "x": 8.686423301696777, "y": 3.4609997272491455, "z": 19.34066390991211 }, "pca_coordinates": { "x": -0.024205923080444336, "y": -1.2894225120544434, "z": -2.702197790145874 }, "axis_scores": { "Quantum imaging": 0.6738111972808838, "Quantum Life Science Sensing": 0.7288112044334412, "Quantum sensing Detection": 0.6766270399093628, "Quantum sensing Metrology": 0.6748934388160706, "Quantum sensing navigation": 0.6820729970932007, "Quantum sensing Position": 0.6759746670722961, "Quantum sensing Timing": 0.6695188879966736, "Quantum sensing": 0.69239741563797, "Quantum control": 0.661009669303894 } }, { "id": 2368, "title": "Inverse design of high-dimensional quantum optical circuits in a complex medium", "abstract": "Programmable optical circuits are an important tool in developing quantum technologies such as transceivers for quantum communication and integrated photonic chips for quantum information processing. ...", "citations": 41, "author_count": 9, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2372, "doi": "10.1038/s41567-023-02319-6", "umap_coordinates": { "x": 394.3493957519531, "y": 135.68722534179688, "z": 206.60675048828125 }, "tsne_coordinates": { "x": -16.95166015625, "y": 3.8479998111724854, "z": -5.604428291320801 }, "pca_coordinates": { "x": -0.04021143913269043, "y": 1.1062288284301758, "z": 0.9724480509757996 }, "axis_scores": { "Quantum imaging": 0.7991488575935364, "Quantum Life Science Sensing": 0.7707639932632446, "Quantum sensing Detection": 0.759650468826294, "Quantum sensing Metrology": 0.7562658190727234, "Quantum sensing navigation": 0.762052059173584, "Quantum sensing Position": 0.7349746227264404, "Quantum sensing Timing": 0.694013774394989, "Quantum sensing": 0.7752792835235596, "Quantum control": 0.7427896857261658 } }, { "id": 2369, "title": "Impact of irrelevant deformations on thermodynamics and transport in holographic quantum critical states", "abstract": "We study thermodynamic and transport observables of quantum critical states that arise in the infrared limit of holographic renormalization group flows. Although these observables are expected to exhi...", "citations": 21, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2373, "doi": "10.1103/PhysRevD.100.086020", "umap_coordinates": { "x": 394.9866638183594, "y": 137.4658660888672, "z": 208.06597900390625 }, "tsne_coordinates": { "x": -20.639854431152344, "y": -37.33951187133789, "z": 7.347649574279785 }, "pca_coordinates": { "x": 4.428450107574463, "y": 1.9478964805603027, "z": -2.37076735496521 }, "axis_scores": { "Quantum imaging": 0.7338643074035645, "Quantum Life Science Sensing": 0.7193062901496887, "Quantum sensing Detection": 0.6948627829551697, "Quantum sensing Metrology": 0.6839375495910645, "Quantum sensing navigation": 0.7142919898033142, "Quantum sensing Position": 0.6780031323432922, "Quantum sensing Timing": 0.6920735836029053, "Quantum sensing": 0.7168923616409302, "Quantum control": 0.7229956388473511 } }, { "id": 2370, "title": "Braiding properties of paired spin-singlet and non-Abelian hierarchy states", "abstract": "We study explicit model wave functions describing the fundamental quasiholes in a class of non-Abelian fractional quantum Hall states. This class is a family of paired spin-singlet states with interna...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2374, "doi": "10.1088/1751-8121/ab6010", "umap_coordinates": { "x": 393.5429382324219, "y": 137.03587341308594, "z": 208.1531524658203 }, "tsne_coordinates": { "x": -5.439806938171387, "y": -17.455078125, "z": 20.737184524536133 }, "pca_coordinates": { "x": 1.3330326080322266, "y": 0.1939537525177002, "z": -0.3975469768047333 }, "axis_scores": { "Quantum imaging": 0.6786854863166809, "Quantum Life Science Sensing": 0.660950243473053, "Quantum sensing Detection": 0.6492743492126465, "Quantum sensing Metrology": 0.6680322885513306, "Quantum sensing navigation": 0.6714548468589783, "Quantum sensing Position": 0.6681981682777405, "Quantum sensing Timing": 0.6518105268478394, "Quantum sensing": 0.6651756763458252, "Quantum control": 0.6455177068710327 } }, { "id": 2371, "title": "Quantum-like model of processing of information in the brain based on classical electromagnetic field", "abstract": "We propose a model of quantum-like (QL) processing of mental information. This model is based on quantum information theory. However, in contrast to models of quantum physical brain reducing mental ac...", "citations": 32, "author_count": 2, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2375, "doi": "10.1016/j.biosystems.2011.05.014", "umap_coordinates": { "x": 394.9273376464844, "y": 137.33868408203125, "z": 205.66549682617188 }, "tsne_coordinates": { "x": -20.192323684692383, "y": 8.700075149536133, "z": 18.77081298828125 }, "pca_coordinates": { "x": 1.2111575603485107, "y": 2.967146635055542, "z": -0.717657208442688 }, "axis_scores": { "Quantum imaging": 0.7906568050384521, "Quantum Life Science Sensing": 0.7944269180297852, "Quantum sensing Detection": 0.7873390316963196, "Quantum sensing Metrology": 0.7638260126113892, "Quantum sensing navigation": 0.7746696472167969, "Quantum sensing Position": 0.7442163228988647, "Quantum sensing Timing": 0.7442193627357483, "Quantum sensing": 0.7928475141525269, "Quantum control": 0.7623732686042786 } }, { "id": 2372, "title": "Quantum Monte Carlo simulation of atomic motion", "abstract": "The path-integral formulation of quantum mechanics is a suitable starting point for quantum simulation studies. We have considered H diffusion on the Ni (100)-surface at room temperature and below usi...", "citations": 1, "author_count": 3, "categories": [ "Computer Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2376, "doi": "10.1016/S0010-4655(99)00385-9", "umap_coordinates": { "x": 394.12493896484375, "y": 136.82080078125, "z": 206.30955505371094 }, "tsne_coordinates": { "x": -8.129249572753906, "y": 13.411540985107422, "z": 21.83734130859375 }, "pca_coordinates": { "x": 1.825942039489746, "y": 1.2757201194763184, "z": -0.6617273092269897 }, "axis_scores": { "Quantum imaging": 0.7556199431419373, "Quantum Life Science Sensing": 0.7606599926948547, "Quantum sensing Detection": 0.7484981417655945, "Quantum sensing Metrology": 0.7542023062705994, "Quantum sensing navigation": 0.7771492004394531, "Quantum sensing Position": 0.7576912045478821, "Quantum sensing Timing": 0.7422609329223633, "Quantum sensing": 0.7696202397346497, "Quantum control": 0.7463715076446533 } }, { "id": 2373, "title": "DIFFERENT CLASSES OF QUANTUM GATES ENTANGLERS FOR MULTIPARTITE STATES", "abstract": "We construct quantum gates entanglers for different classes of multipartite states. In particular, we construct entangler operators for W and GHZ classes of multipartite states based on the constructi...", "citations": 1, "author_count": 2, "categories": [ "Computer Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2377, "doi": "10.1142/S0219749909004657", "umap_coordinates": { "x": 395.2472229003906, "y": 137.54412841796875, "z": 206.86923217773438 }, "tsne_coordinates": { "x": -27.18423843383789, "y": -2.66322660446167, "z": -3.6468892097473145 }, "pca_coordinates": { "x": 1.8352305889129639, "y": 1.9034487009048462, "z": 0.4724215865135193 }, "axis_scores": { "Quantum imaging": 0.7202905416488647, "Quantum Life Science Sensing": 0.7230544090270996, "Quantum sensing Detection": 0.7312424182891846, "Quantum sensing Metrology": 0.7201551795005798, "Quantum sensing navigation": 0.7243823409080505, "Quantum sensing Position": 0.695640504360199, "Quantum sensing Timing": 0.7014533877372742, "Quantum sensing": 0.7428820133209229, "Quantum control": 0.7202325463294983 } }, { "id": 2374, "title": "Quantum Confined Stark Effects in ZnO Quantum Dots Investigated with Photoelectrochemical Methods", "abstract": "The optical absorption behavior of ZnO quantum dots has been investigated as a function of particle size in the quantum confined regime, between 4 and 9 nm in diameter, by using photoelectrochemical m...", "citations": 23, "author_count": 3, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2378, "doi": "10.1021/jp503098q", "umap_coordinates": { "x": 392.0098571777344, "y": 135.0491943359375, "z": 206.56874084472656 }, "tsne_coordinates": { "x": 18.422101974487305, "y": -8.04258918762207, "z": 8.307366371154785 }, "pca_coordinates": { "x": -0.4052479863166809, "y": -2.9931864738464355, "z": -0.44180968403816223 }, "axis_scores": { "Quantum imaging": 0.7290166020393372, "Quantum Life Science Sensing": 0.7414387464523315, "Quantum sensing Detection": 0.7328497171401978, "Quantum sensing Metrology": 0.7149664759635925, "Quantum sensing navigation": 0.734998881816864, "Quantum sensing Position": 0.717614471912384, "Quantum sensing Timing": 0.6897609829902649, "Quantum sensing": 0.7418860197067261, "Quantum control": 0.7050666213035583 } }, { "id": 2375, "title": "Two Faced Janus of Quantum Nonlocality", "abstract": "This paper is a new step towards understanding why quantum nonlocality is a misleading concept. Metaphorically speaking, quantum nonlocality is Janus faced. One face is an apparent nonlocality of the ...", "citations": 24, "author_count": 2, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2379, "doi": "10.3390/e22030303", "umap_coordinates": { "x": 395.3905029296875, "y": 137.48475646972656, "z": 206.00735473632812 }, "tsne_coordinates": { "x": -17.709413528442383, "y": -2.610846757888794, "z": 11.302206993103027 }, "pca_coordinates": { "x": 1.1739716529846191, "y": 2.037925958633423, "z": -1.560006856918335 }, "axis_scores": { "Quantum imaging": 0.7410972714424133, "Quantum Life Science Sensing": 0.7503527998924255, "Quantum sensing Detection": 0.7332708835601807, "Quantum sensing Metrology": 0.7393080592155457, "Quantum sensing navigation": 0.7425901293754578, "Quantum sensing Position": 0.7147867679595947, "Quantum sensing Timing": 0.7088334560394287, "Quantum sensing": 0.7440532445907593, "Quantum control": 0.7263843417167664 } }, { "id": 2376, "title": "Symmetric carbon tetramers forming spin qubits in hexagonal boron nitride", "abstract": "Point defect quantum bits in semiconductors have the potential to revolutionize sensing at atomic scales. Currently, vacancy-related defects are at the forefront of high spatial resolution and low-dim...", "citations": 26, "author_count": 8, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2380, "doi": "10.1038/s41524-023-01135-z", "umap_coordinates": { "x": 392.8981018066406, "y": 136.31016540527344, "z": 207.2163848876953 }, "tsne_coordinates": { "x": 10.326133728027344, "y": -13.566450119018555, "z": 6.8144025802612305 }, "pca_coordinates": { "x": 1.4422006607055664, "y": -1.9382128715515137, "z": -0.5352768898010254 }, "axis_scores": { "Quantum imaging": 0.7433289289474487, "Quantum Life Science Sensing": 0.7262021899223328, "Quantum sensing Detection": 0.7401301264762878, "Quantum sensing Metrology": 0.7389451265335083, "Quantum sensing navigation": 0.7471479177474976, "Quantum sensing Position": 0.7316445708274841, "Quantum sensing Timing": 0.7207605838775635, "Quantum sensing": 0.7521378397941589, "Quantum control": 0.7095298767089844 } }, { "id": 2377, "title": "Measurement problem: from De Broglie to theory of classical random fields interacting with threshold detectors", "abstract": "The quantum measurement problem as was formulated by von Neumann in 1933 can be solved by going beyond the operational quantum formalism. In our prequantum model quantum systems are symbolic represent...", "citations": 1, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2381, "doi": "10.1088/1742-6596/442/1/012011", "umap_coordinates": { "x": 395.5692138671875, "y": 136.9520263671875, "z": 206.53204345703125 }, "tsne_coordinates": { "x": -33.579742431640625, "y": 1.4271647930145264, "z": 16.51824378967285 }, "pca_coordinates": { "x": 2.4445931911468506, "y": 4.249385833740234, "z": 1.8543548583984375 }, "axis_scores": { "Quantum imaging": 0.7610623240470886, "Quantum Life Science Sensing": 0.7660760283470154, "Quantum sensing Detection": 0.7847492694854736, "Quantum sensing Metrology": 0.7798393964767456, "Quantum sensing navigation": 0.7556115388870239, "Quantum sensing Position": 0.7555930614471436, "Quantum sensing Timing": 0.7603683471679688, "Quantum sensing": 0.7812986373901367, "Quantum control": 0.746290922164917 } }, { "id": 2378, "title": "Vacuum compression of trapped electromagnetic waves", "abstract": "In quantum electrodynamics, photon-photon scattering gives rise to self-interaction terms in Maxwell's equations. The effect will be non-zero for electromagnetic waves trapped between regions of condu...", "citations": 6, "author_count": 4, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2382, "doi": "10.1016/j.optcom.2004.02.085", "umap_coordinates": { "x": 394.6350402832031, "y": 135.52178955078125, "z": 206.68551635742188 }, "tsne_coordinates": { "x": -14.787111282348633, "y": -4.444646835327148, "z": -11.474627494812012 }, "pca_coordinates": { "x": 0.7267215251922607, "y": 1.9056936502456665, "z": 0.8025066256523132 }, "axis_scores": { "Quantum imaging": 0.7511704564094543, "Quantum Life Science Sensing": 0.7345903515815735, "Quantum sensing Detection": 0.7392300367355347, "Quantum sensing Metrology": 0.7236218452453613, "Quantum sensing navigation": 0.7396527528762817, "Quantum sensing Position": 0.7275449633598328, "Quantum sensing Timing": 0.7012750506401062, "Quantum sensing": 0.7373890280723572, "Quantum control": 0.7010674476623535 } }, { "id": 2379, "title": "LANGEVIN MOLECULAR DYNAMICS DERIVED FROM EHRENFEST DYNAMICS", "abstract": "Stochastic Langevin molecular dynamics for nuclei is derived from the Ehrenfest Hamiltonian system (also called quantum classical molecular dynamics) in a Kac-Zwanzig setting, with the initial data fo...", "citations": 5, "author_count": 2, "categories": [ "Mathematics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2383, "doi": "10.1142/S0218202511005751", "umap_coordinates": { "x": 394.1072998046875, "y": 137.46759033203125, "z": 206.53961181640625 }, "tsne_coordinates": { "x": -32.84016799926758, "y": 9.586270332336426, "z": 20.094097137451172 }, "pca_coordinates": { "x": 1.5595526695251465, "y": 1.5244163274765015, "z": -2.7352912425994873 }, "axis_scores": { "Quantum imaging": 0.7064903974533081, "Quantum Life Science Sensing": 0.7477916479110718, "Quantum sensing Detection": 0.7000749111175537, "Quantum sensing Metrology": 0.68761146068573, "Quantum sensing navigation": 0.7214856147766113, "Quantum sensing Position": 0.6894078850746155, "Quantum sensing Timing": 0.6894388794898987, "Quantum sensing": 0.717685341835022, "Quantum control": 0.7317591905593872 } }, { "id": 2380, "title": "Stark control of solid-state quantum memory with spin-wave storage", "abstract": "Quantum memories for quantum communication need to be able to store photons for an extended time and then to release them on demand. This can be achieved in atomic frequency comb ensemble-based quantu...", "citations": 4, "author_count": 7, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2384, "doi": "10.1103/PhysRevA.109.012607", "umap_coordinates": { "x": 394.9836120605469, "y": 135.95664978027344, "z": 208.262939453125 }, "tsne_coordinates": { "x": -20.323911666870117, "y": -16.374866485595703, "z": -8.73846435546875 }, "pca_coordinates": { "x": 4.028331279754639, "y": -1.1437559127807617, "z": 0.5294346213340759 }, "axis_scores": { "Quantum imaging": 0.7306386828422546, "Quantum Life Science Sensing": 0.7312133312225342, "Quantum sensing Detection": 0.735226035118103, "Quantum sensing Metrology": 0.7302522659301758, "Quantum sensing navigation": 0.7406201958656311, "Quantum sensing Position": 0.7145870327949524, "Quantum sensing Timing": 0.7062579393386841, "Quantum sensing": 0.7538247108459473, "Quantum control": 0.7449548840522766 } }, { "id": 2381, "title": "Double-quantum two-dimensional electronic spectroscopy of a three-level system: Experiments and simulations", "abstract": "Double-quantum coherence two-dimensional (2Q2D) electronic spectroscopy is utilized to probe the dynamic fluctuations of electronic states in a solvated molecule at approximately twice the energy of t...", "citations": 69, "author_count": 9, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2385, "doi": "10.1063/1.3474995", "umap_coordinates": { "x": 393.2074279785156, "y": 136.1791229248047, "z": 207.09837341308594 }, "tsne_coordinates": { "x": 4.112292766571045, "y": -5.293192386627197, "z": 7.073971748352051 }, "pca_coordinates": { "x": 2.912264347076416, "y": -1.501215934753418, "z": -0.7237398028373718 }, "axis_scores": { "Quantum imaging": 0.7680261731147766, "Quantum Life Science Sensing": 0.7748691439628601, "Quantum sensing Detection": 0.7616223692893982, "Quantum sensing Metrology": 0.7393970489501953, "Quantum sensing navigation": 0.733785092830658, "Quantum sensing Position": 0.7088469862937927, "Quantum sensing Timing": 0.7038110494613647, "Quantum sensing": 0.7732495665550232, "Quantum control": 0.7323215007781982 } }, { "id": 2382, "title": "Systematic study of real photon and Drell-Yan pair production in p plus A (d plus A) interactions", "abstract": "We study nuclear effects in production of Drell-Yan pairs and direct photons in proton-nucleus collisions. For the first time, these effects are studied within the color dipole approach using the Gree...", "citations": 2, "author_count": 6, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2386, "doi": "10.1051/epjconf/201612003006", "umap_coordinates": { "x": 396.62005615234375, "y": 134.2887725830078, "z": 207.33531188964844 }, "tsne_coordinates": { "x": -29.329383850097656, "y": 5.980011463165283, "z": -6.30355167388916 }, "pca_coordinates": { "x": -0.3791460394859314, "y": 1.0513765811920166, "z": 2.0801827907562256 }, "axis_scores": { "Quantum imaging": 0.7231905460357666, "Quantum Life Science Sensing": 0.7251969575881958, "Quantum sensing Detection": 0.7208731770515442, "Quantum sensing Metrology": 0.69930100440979, "Quantum sensing navigation": 0.7098751068115234, "Quantum sensing Position": 0.7061142325401306, "Quantum sensing Timing": 0.7173104286193848, "Quantum sensing": 0.7210263013839722, "Quantum control": 0.6979631185531616 } }, { "id": 2383, "title": "The Rotating Bond Umbrella model applied to atom-methane reactions", "abstract": "To accurately treat chemical reactions, methods based on quantum dynamics may be required. For most reactions involving several atoms, applying full quantum dynamics is presently prohibitive in terms ...", "citations": 3, "author_count": 2, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2387, "doi": null, "umap_coordinates": { "x": 392.02386474609375, "y": 139.5012969970703, "z": 208.96995544433594 }, "tsne_coordinates": { "x": -14.973160743713379, "y": 39.0098876953125, "z": 4.848993301391602 }, "pca_coordinates": { "x": 0.13209235668182373, "y": 5.8403825759887695, "z": -4.959951877593994 }, "axis_scores": { "Quantum imaging": 0.6902637481689453, "Quantum Life Science Sensing": 0.7061686515808105, "Quantum sensing Detection": 0.6900389194488525, "Quantum sensing Metrology": 0.6924299001693726, "Quantum sensing navigation": 0.7027150988578796, "Quantum sensing Position": 0.6815968155860901, "Quantum sensing Timing": 0.6738345623016357, "Quantum sensing": 0.7012970447540283, "Quantum control": 0.7211000323295593 } }, { "id": 2384, "title": "Determination of the size, shape, and composition of indium-flushed self-assembled quantum dots by transmission electron microscopy", "abstract": "Single and multiple layers of self-assembled InAs quantum dots (QDs) produced by the indium-flush technique have been studied by transmission electron microscopy (TEM) in an effort to develop techniqu...", "citations": 49, "author_count": 7, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2388, "doi": "10.1063/1.1287226", "umap_coordinates": { "x": 392.44268798828125, "y": 133.74684143066406, "z": 207.51202392578125 }, "tsne_coordinates": { "x": 31.649879455566406, "y": -11.87981128692627, "z": -0.2629826068878174 }, "pca_coordinates": { "x": -1.0881860256195068, "y": -3.2954373359680176, "z": 0.8332160115242004 }, "axis_scores": { "Quantum imaging": 0.7533996105194092, "Quantum Life Science Sensing": 0.7619577050209045, "Quantum sensing Detection": 0.742785632610321, "Quantum sensing Metrology": 0.7550364136695862, "Quantum sensing navigation": 0.7150393724441528, "Quantum sensing Position": 0.7115554809570312, "Quantum sensing Timing": 0.6721484661102295, "Quantum sensing": 0.7596768140792847, "Quantum control": 0.7123140692710876 } }, { "id": 2385, "title": "Surface photoelectric effect induced by small clusters impinging on solid surfaces", "abstract": "The contribution of the surface photoelectric effect to the emission of light is calculated within a free electron model assuming that small ionized Ag-n(+) clusters (n = 1, ..., 5) bombard a silver s...", "citations": 1, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2389, "doi": "10.1016/S0168-583X(99)01185-4", "umap_coordinates": { "x": 393.2911071777344, "y": 134.64944458007812, "z": 206.34234619140625 }, "tsne_coordinates": { "x": 36.90989685058594, "y": 7.841216564178467, "z": 14.45560073852539 }, "pca_coordinates": { "x": -1.8761072158813477, "y": -1.4281294345855713, "z": -0.38663849234580994 }, "axis_scores": { "Quantum imaging": 0.6620664596557617, "Quantum Life Science Sensing": 0.6814014911651611, "Quantum sensing Detection": 0.6630901098251343, "Quantum sensing Metrology": 0.6389216184616089, "Quantum sensing navigation": 0.6228539943695068, "Quantum sensing Position": 0.6662609577178955, "Quantum sensing Timing": 0.6337807178497314, "Quantum sensing": 0.6702408790588379, "Quantum control": 0.6351959109306335 } }, { "id": 2386, "title": "Photon-noise-limited cold-electron bolometer based on strong electron self-cooling for high-performance cosmology missions", "abstract": "Bolometers for balloon and space missions have seen extensive development because of their capacity to test primordial conditions of the Universe. The major improvements consist in lowering the operat...", "citations": 42, "author_count": 10, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2390, "doi": "10.1038/s42005-019-0206-9", "umap_coordinates": { "x": 394.4183349609375, "y": 134.49658203125, "z": 206.55337524414062 }, "tsne_coordinates": { "x": -12.546860694885254, "y": -8.917891502380371, "z": -37.447479248046875 }, "pca_coordinates": { "x": -1.3497111797332764, "y": -0.46083831787109375, "z": 3.0100691318511963 }, "axis_scores": { "Quantum imaging": 0.6824716925621033, "Quantum Life Science Sensing": 0.7042956352233887, "Quantum sensing Detection": 0.694702684879303, "Quantum sensing Metrology": 0.6789858341217041, "Quantum sensing navigation": 0.6972140669822693, "Quantum sensing Position": 0.6725285053253174, "Quantum sensing Timing": 0.6587496995925903, "Quantum sensing": 0.6870205998420715, "Quantum control": 0.6549544930458069 } }, { "id": 2387, "title": "Synthesis of water-dispersible photoluminescent silicon nanoparticles and their use in biological fluorescent imaging", "abstract": "Water-dispersible silicon nanoparticles (Si-NPs) are desirable for applications in biological techniques. A simplified method to synthesize such particles is reported here. The resulting Si-NPs are wa...", "citations": 44, "author_count": 7, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2391, "doi": "10.1007/s11051-010-0047-7", "umap_coordinates": { "x": 393.9635314941406, "y": 134.2462615966797, "z": 204.51502990722656 }, "tsne_coordinates": { "x": 11.75989818572998, "y": 25.752355575561523, "z": -9.474808692932129 }, "pca_coordinates": { "x": -4.502386569976807, "y": -0.5196685791015625, "z": 1.7475030422210693 }, "axis_scores": { "Quantum imaging": 0.7140111327171326, "Quantum Life Science Sensing": 0.7398620247840881, "Quantum sensing Detection": 0.69026118516922, "Quantum sensing Metrology": 0.6863808035850525, "Quantum sensing navigation": 0.693440854549408, "Quantum sensing Position": 0.673096239566803, "Quantum sensing Timing": 0.6540243029594421, "Quantum sensing": 0.7016871571540833, "Quantum control": 0.6567481160163879 } }, { "id": 2388, "title": "THE IMPORTANCE OF ION POLYMER CROSS-LINKS IN POLYMER ELECTROLYTES", "abstract": "Raman-, Brillouin- and photon correlation spectroscopy have been used to study LiCF3SO3 and NaCF3SO3 containing polyethers (PEO and PPO). At focus are factors controlling the ion-polymer interactions,...", "citations": 37, "author_count": 5, "categories": [ "Chemistry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 2392, "doi": "10.1016/0167-2738(92)90287-Y", "umap_coordinates": { "x": 393.57171630859375, "y": 135.86605834960938, "z": 205.32373046875 }, "tsne_coordinates": { "x": 17.881685256958008, "y": 14.258172035217285, "z": 18.719406127929688 }, "pca_coordinates": { "x": -3.063171148300171, "y": 0.30689573287963867, "z": -2.1582207679748535 }, "axis_scores": { "Quantum imaging": 0.6294838190078735, "Quantum Life Science Sensing": 0.6606855392456055, "Quantum sensing Detection": 0.6022890210151672, "Quantum sensing Metrology": 0.6055415868759155, "Quantum sensing navigation": 0.6282639503479004, "Quantum sensing Position": 0.6468582153320312, "Quantum sensing Timing": 0.5979296565055847, "Quantum sensing": 0.626381516456604, "Quantum control": 0.6069714426994324 } }, { "id": 2389, "title": "Structure of spinful quantum Hall states: A squeezing perspective", "abstract": "We provide a set of rules to define several spinful quantum Hall model states. The method extends the one that is known for spin-polarized states. It is achieved by specifying an undressed root partit...", "citations": 31, "author_count": 3, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2393, "doi": "10.1103/PhysRevB.84.205134", "umap_coordinates": { "x": 394.78240966796875, "y": 137.1187286376953, "z": 208.5177001953125 }, "tsne_coordinates": { "x": -16.34724998474121, "y": -36.5601806640625, "z": 10.270044326782227 }, "pca_coordinates": { "x": 5.102344512939453, "y": 1.57575261592865, "z": -1.7740728855133057 }, "axis_scores": { "Quantum imaging": 0.7424157857894897, "Quantum Life Science Sensing": 0.7307702898979187, "Quantum sensing Detection": 0.7236111164093018, "Quantum sensing Metrology": 0.73084557056427, "Quantum sensing navigation": 0.7671777009963989, "Quantum sensing Position": 0.7384074926376343, "Quantum sensing Timing": 0.7039685249328613, "Quantum sensing": 0.7549822330474854, "Quantum control": 0.7370567321777344 } }, { "id": 2390, "title": "Pulse overlap artifacts and double quantum coherence spectroscopy", "abstract": "The double quantum coherence (DQC) signal in nonlinear spectroscopy gives information about the many-body correlation effects not easily available by other methods. The signal is short-lived, conseque...", "citations": 4, "author_count": 5, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2394, "doi": "10.1063/5.0146148", "umap_coordinates": { "x": 393.4480895996094, "y": 136.37403869628906, "z": 206.9263916015625 }, "tsne_coordinates": { "x": -8.697149276733398, "y": -5.522766590118408, "z": 11.175175666809082 }, "pca_coordinates": { "x": 0.8850090503692627, "y": 0.6825428009033203, "z": 1.7820625305175781 }, "axis_scores": { "Quantum imaging": 0.7526593804359436, "Quantum Life Science Sensing": 0.732376754283905, "Quantum sensing Detection": 0.7241019010543823, "Quantum sensing Metrology": 0.7295311093330383, "Quantum sensing navigation": 0.6979654431343079, "Quantum sensing Position": 0.6998916268348694, "Quantum sensing Timing": 0.7405890822410583, "Quantum sensing": 0.7332368493080139, "Quantum control": 0.7092136740684509 } }, { "id": 2391, "title": "Dissipative solitons in photonic molecules", "abstract": "Many physical systems display quantized energy states. In optics, interacting resonant cavities show a transmission spectrum with split eigenfrequencies, similar to the split energy levels that result...", "citations": 155, "author_count": 9, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2395, "doi": "10.1038/s41566-020-00757-9", "umap_coordinates": { "x": 393.4385986328125, "y": 135.58856201171875, "z": 206.73098754882812 }, "tsne_coordinates": { "x": -5.759243488311768, "y": 3.3161392211914062, "z": -0.339248389005661 }, "pca_coordinates": { "x": 0.6525249481201172, "y": -1.8897318840026855, "z": -0.9282158613204956 }, "axis_scores": { "Quantum imaging": 0.7367855310440063, "Quantum Life Science Sensing": 0.7375397682189941, "Quantum sensing Detection": 0.7306636571884155, "Quantum sensing Metrology": 0.6966493725776672, "Quantum sensing navigation": 0.7249608039855957, "Quantum sensing Position": 0.7110657095909119, "Quantum sensing Timing": 0.7021738290786743, "Quantum sensing": 0.7383360862731934, "Quantum control": 0.7043267488479614 } }, { "id": 2392, "title": "Ultranarrow Luminescence Linewidth of Silicon Nanocrystals and Influence of Matrix", "abstract": "The luminescence linewidth of individual silicon nanocrystals was characterized by single-dot spectroscopy, and an ultranarrow linewidth of similar to 200 mu eV at 10 K was found. This value is, in fa...", "citations": 71, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2396, "doi": "10.1021/ph500221z", "umap_coordinates": { "x": 392.3629455566406, "y": 133.951171875, "z": 206.79689025878906 }, "tsne_coordinates": { "x": 36.23005676269531, "y": -8.5208740234375, "z": -10.329073905944824 }, "pca_coordinates": { "x": -3.026393175125122, "y": -1.9283299446105957, "z": 0.020602166652679443 }, "axis_scores": { "Quantum imaging": 0.7185572981834412, "Quantum Life Science Sensing": 0.7302526235580444, "Quantum sensing Detection": 0.6909559369087219, "Quantum sensing Metrology": 0.7100839614868164, "Quantum sensing navigation": 0.6857208013534546, "Quantum sensing Position": 0.6913697719573975, "Quantum sensing Timing": 0.6679407358169556, "Quantum sensing": 0.7125139832496643, "Quantum control": 0.6695126295089722 } }, { "id": 2393, "title": "Mesonic Low-Energy Constants", "abstract": "We review the status of the coupling constants of chiral Lagrangians in the meson sector, the so-called low-energy constants (LECs). We emphasize the chiral SU(2) and SU(3) Lagrangians for the strong ...", "citations": 161, "author_count": 3, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2397, "doi": "10.1146/annurev-nucl-102313-025528", "umap_coordinates": { "x": 394.2796325683594, "y": 137.45355224609375, "z": 207.45938110351562 }, "tsne_coordinates": { "x": -33.604244232177734, "y": -23.4028263092041, "z": -11.741393089294434 }, "pca_coordinates": { "x": 1.5730066299438477, "y": 2.11946439743042, "z": -1.4225237369537354 }, "axis_scores": { "Quantum imaging": 0.6699658036231995, "Quantum Life Science Sensing": 0.6936545968055725, "Quantum sensing Detection": 0.659906804561615, "Quantum sensing Metrology": 0.6554683446884155, "Quantum sensing navigation": 0.6764537692070007, "Quantum sensing Position": 0.6649497747421265, "Quantum sensing Timing": 0.6770964860916138, "Quantum sensing": 0.6734594106674194, "Quantum control": 0.6726005673408508 } }, { "id": 2394, "title": "Tunnel spectroscopy of Majorana bound states in topological superconductor/quantum dot Josephson junctions", "abstract": "We theoretically investigate electronic transport through a junction where a quantum dot (QD) is tunnel coupled on both sides to semiconductor nanowires with strong spin-orbit interaction and proximit...", "citations": 11, "author_count": 5, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2398, "doi": "10.1103/PhysRevB.90.214507", "umap_coordinates": { "x": 394.24176025390625, "y": 135.45980834960938, "z": 208.94097900390625 }, "tsne_coordinates": { "x": -3.3382952213287354, "y": -21.479841232299805, "z": 8.969864845275879 }, "pca_coordinates": { "x": 5.719766139984131, "y": -1.7707037925720215, "z": 0.16134947538375854 }, "axis_scores": { "Quantum imaging": 0.7137371897697449, "Quantum Life Science Sensing": 0.7198721170425415, "Quantum sensing Detection": 0.7336255311965942, "Quantum sensing Metrology": 0.7148117423057556, "Quantum sensing navigation": 0.7401490211486816, "Quantum sensing Position": 0.7160347700119019, "Quantum sensing Timing": 0.706668496131897, "Quantum sensing": 0.7300775647163391, "Quantum control": 0.6854586005210876 } }, { "id": 2395, "title": "Eliminated risk of iodine contrast cancellation with multibin spectral CT", "abstract": "This note compares the extent of contrast cancellation induced by iodinated contrast agents in energy integrating and photon counting multibin CT images. The contrast between a hypodense target and so...", "citations": 2, "author_count": 6, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2399, "doi": "10.1088/0031-9155/58/14/N201", "umap_coordinates": { "x": 395.8179931640625, "y": 132.90736389160156, "z": 205.25448608398438 }, "tsne_coordinates": { "x": -10.305397033691406, "y": 23.895795822143555, "z": -17.473041534423828 }, "pca_coordinates": { "x": -2.626500129699707, "y": 3.900628089904785, "z": 3.548079490661621 }, "axis_scores": { "Quantum imaging": 0.7357567548751831, "Quantum Life Science Sensing": 0.6861365437507629, "Quantum sensing Detection": 0.6976792812347412, "Quantum sensing Metrology": 0.6887805461883545, "Quantum sensing navigation": 0.6860103011131287, "Quantum sensing Position": 0.6458612084388733, "Quantum sensing Timing": 0.6737290620803833, "Quantum sensing": 0.6930205225944519, "Quantum control": 0.668674886226654 } }, { "id": 2396, "title": "Causal signal transmission by quantum fields. I: Response of the harmonic oscillator", "abstract": "It is shown that response properties of a quantum harmonic oscillator are in essence those of a classical oscillator, and that, paradoxical as it may be, these classical properties underlie all quantu...", "citations": 11, "author_count": 3, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2400, "doi": "10.1016/j.aop.2007.11.013", "umap_coordinates": { "x": 394.76025390625, "y": 136.816650390625, "z": 206.42037963867188 }, "tsne_coordinates": { "x": -18.9962158203125, "y": 9.873005867004395, "z": 8.434063911437988 }, "pca_coordinates": { "x": 1.55938720703125, "y": 2.6117255687713623, "z": -0.5131041407585144 }, "axis_scores": { "Quantum imaging": 0.7913337349891663, "Quantum Life Science Sensing": 0.7743141055107117, "Quantum sensing Detection": 0.7848262786865234, "Quantum sensing Metrology": 0.7548045516014099, "Quantum sensing navigation": 0.7697763442993164, "Quantum sensing Position": 0.7464161515235901, "Quantum sensing Timing": 0.7645247578620911, "Quantum sensing": 0.7977480888366699, "Quantum control": 0.7906334400177002 } }, { "id": 2397, "title": "CALCULATIONS OF THE GEOMETRY AND OPTICAL-PROPERTIES OF F-MG CENTERS AND DIMER (F-2-TYPE) CENTERS IN CORUNDUM CRYSTALS", "abstract": "", "citations": 79, "author_count": 8, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 2401, "doi": "10.1103/PhysRevB.51.8770", "umap_coordinates": { "x": 393.78973388671875, "y": 136.65599060058594, "z": 206.78408813476562 }, "tsne_coordinates": { "x": -15.678461074829102, "y": -33.61931610107422, "z": -6.0305280685424805 }, "pca_coordinates": { "x": 1.7024731636047363, "y": 0.6434025764465332, "z": -1.6238070726394653 }, "axis_scores": { "Quantum imaging": 0.725519061088562, "Quantum Life Science Sensing": 0.7531217932701111, "Quantum sensing Detection": 0.7272710800170898, "Quantum sensing Metrology": 0.7529391050338745, "Quantum sensing navigation": 0.7202894687652588, "Quantum sensing Position": 0.7078032493591309, "Quantum sensing Timing": 0.69968581199646, "Quantum sensing": 0.7402464151382446, "Quantum control": 0.7074460983276367 } }, { "id": 2398, "title": "Sodium and potassium monolayers on Be(0001) investigated by photoemission and electronic structure calculations", "abstract": "Photoemission spectra show that Be(0001) surface states shift to lower energy with increasing Na or K coverage in the monolayer range. At an intermediate monolayer coverage a quantum well state appear...", "citations": 12, "author_count": 8, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2402, "doi": "10.1103/PhysRevB.78.085102", "umap_coordinates": { "x": 393.50885009765625, "y": 135.23680114746094, "z": 209.15155029296875 }, "tsne_coordinates": { "x": 11.83116626739502, "y": -44.70035171508789, "z": 1.9888862371444702 }, "pca_coordinates": { "x": 1.5390310287475586, "y": -3.0163440704345703, "z": -0.7055454254150391 }, "axis_scores": { "Quantum imaging": 0.6720765829086304, "Quantum Life Science Sensing": 0.6954506039619446, "Quantum sensing Detection": 0.6576812863349915, "Quantum sensing Metrology": 0.6557878255844116, "Quantum sensing navigation": 0.6688692569732666, "Quantum sensing Position": 0.6629683375358582, "Quantum sensing Timing": 0.6191148161888123, "Quantum sensing": 0.6702980995178223, "Quantum control": 0.6391680240631104 } }, { "id": 2399, "title": "Sterically hindered diarylethenes with a benzobis(thiadiazole) bridge: photochemical and kinetic studies", "abstract": "Four rationally designed diarylethenes (DAEs) 1-4 with a benzobis(thiadiazole) bridge are specifically designed for gaining insights into steric effects on photochromic performances. It is shown that,...", "citations": 16, "author_count": 7, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2403, "doi": "10.1039/c5tc01796c", "umap_coordinates": { "x": 392.06854248046875, "y": 135.86709594726562, "z": 204.73666381835938 }, "tsne_coordinates": { "x": 1.8110259771347046, "y": 7.423583030700684, "z": -7.720739364624023 }, "pca_coordinates": { "x": -2.003667116165161, "y": 0.32023048400878906, "z": -1.5570054054260254 }, "axis_scores": { "Quantum imaging": 0.6619207262992859, "Quantum Life Science Sensing": 0.658331036567688, "Quantum sensing Detection": 0.6476075053215027, "Quantum sensing Metrology": 0.6278238892555237, "Quantum sensing navigation": 0.6501948237419128, "Quantum sensing Position": 0.6349498629570007, "Quantum sensing Timing": 0.6654862761497498, "Quantum sensing": 0.6542007923126221, "Quantum control": 0.6677389740943909 } }, { "id": 2400, "title": "Direct Determination of Spatial Localization of Carriers in CdSe-CdS Quantum Dots", "abstract": "Colloidal quantum dots (QDs) have gained significant attention due to their tunable band gap, simple solution processability, ease of scale-up, and low cost. By carefully choosing the materials, core-...", "citations": 1, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2404, "doi": "10.1155/2015/321354", "umap_coordinates": { "x": 394.7312316894531, "y": 134.8619384765625, "z": 206.27659606933594 }, "tsne_coordinates": { "x": -12.352387428283691, "y": -36.469642639160156, "z": -3.7609171867370605 }, "pca_coordinates": { "x": -1.1042592525482178, "y": 0.23619723320007324, "z": 1.6391167640686035 }, "axis_scores": { "Quantum imaging": 0.7586482763290405, "Quantum Life Science Sensing": 0.7555014491081238, "Quantum sensing Detection": 0.7692864537239075, "Quantum sensing Metrology": 0.7549471855163574, "Quantum sensing navigation": 0.772371232509613, "Quantum sensing Position": 0.7820841073989868, "Quantum sensing Timing": 0.740585446357727, "Quantum sensing": 0.7688517570495605, "Quantum control": 0.7335104942321777 } }, { "id": 2401, "title": "Classical probability model for Bell inequality", "abstract": "We show that by taking into account randomness of realization of experimental contexts it is possible to construct common Kolmogorov space for data collected for these contexts, although they can be i...", "citations": 9, "author_count": 2, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2405, "doi": "10.1088/1742-6596/504/1/012019", "umap_coordinates": { "x": 395.2955017089844, "y": 137.3397216796875, "z": 206.47894287109375 }, "tsne_coordinates": { "x": -21.907625198364258, "y": 4.287161350250244, "z": 16.269807815551758 }, "pca_coordinates": { "x": 2.671964645385742, "y": 4.50762939453125, "z": 0.33513838052749634 }, "axis_scores": { "Quantum imaging": 0.7460961937904358, "Quantum Life Science Sensing": 0.7414619326591492, "Quantum sensing Detection": 0.7480820417404175, "Quantum sensing Metrology": 0.730669379234314, "Quantum sensing navigation": 0.7439879775047302, "Quantum sensing Position": 0.7315602898597717, "Quantum sensing Timing": 0.7237756848335266, "Quantum sensing": 0.7586215138435364, "Quantum control": 0.7487995624542236 } }, { "id": 2402, "title": "Role of Atomic Structure on Exciton Dynamics and Photoluminescence in NIR Emissive InAs/InP/ZnSe Quantum Dots", "abstract": "The development of bright, near-infrared-emissive quantum dots (QDs) is a necessary requirement for the realization of important new classes of technology. Specifically, there exist significant needs ...", "citations": 22, "author_count": 17, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2406, "doi": "10.1021/acs.jpcc.2c01499", "umap_coordinates": { "x": 392.0872802734375, "y": 134.6182098388672, "z": 207.44085693359375 }, "tsne_coordinates": { "x": 22.02787208557129, "y": -5.572768211364746, "z": 8.482263565063477 }, "pca_coordinates": { "x": -0.2198428511619568, "y": -4.08948278427124, "z": -1.856752634048462 }, "axis_scores": { "Quantum imaging": 0.7337073683738708, "Quantum Life Science Sensing": 0.7222322225570679, "Quantum sensing Detection": 0.7063591480255127, "Quantum sensing Metrology": 0.681915819644928, "Quantum sensing navigation": 0.7096056938171387, "Quantum sensing Position": 0.7001724243164062, "Quantum sensing Timing": 0.6896355748176575, "Quantum sensing": 0.7106777429580688, "Quantum control": 0.7043851613998413 } }, { "id": 2403, "title": "Optically functional Di-urethanesil nanohybrids containing Eu3+ ions", "abstract": "Sol-gel derived poly(oxyethylene)/siloxane hybrids (di-urethanesils) doped with europium triflate, Eu(CF3SO3)(3), were examined by XRD, C-13 and Si-29 MAS NMR and FT-IR, FT-Raman, and photoluminescenc...", "citations": 141, "author_count": 7, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2407, "doi": "10.1021/cm0348848", "umap_coordinates": { "x": 392.6170959472656, "y": 135.11109924316406, "z": 204.5121307373047 }, "tsne_coordinates": { "x": 14.184808731079102, "y": 10.881550788879395, "z": -21.649396896362305 }, "pca_coordinates": { "x": -3.5565834045410156, "y": -1.6994876861572266, "z": -0.9627700448036194 }, "axis_scores": { "Quantum imaging": 0.7400462627410889, "Quantum Life Science Sensing": 0.7523036003112793, "Quantum sensing Detection": 0.7172503471374512, "Quantum sensing Metrology": 0.7116187214851379, "Quantum sensing navigation": 0.6972140073776245, "Quantum sensing Position": 0.6807228326797485, "Quantum sensing Timing": 0.659866452217102, "Quantum sensing": 0.7382751703262329, "Quantum control": 0.69536292552948 } }, { "id": 2404, "title": "Observation of Three-Photon Spontaneous Parametric Down-Conversion in a Superconducting Parametric Cavity", "abstract": "Spontaneous parametric down-conversion (SPDC) has been a key enabling technology in exploring quantum phenomena and their applications for decades. For instance, traditional SPDC, which splits a high-...", "citations": 135, "author_count": 9, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2408, "doi": "10.1103/PhysRevX.10.011011", "umap_coordinates": { "x": 395.15814208984375, "y": 135.41815185546875, "z": 208.1260986328125 }, "tsne_coordinates": { "x": -5.5764312744140625, "y": -21.223054885864258, "z": -17.309701919555664 }, "pca_coordinates": { "x": 4.350369453430176, "y": -0.8237714767456055, "z": 2.0795412063598633 }, "axis_scores": { "Quantum imaging": 0.681876003742218, "Quantum Life Science Sensing": 0.7124771475791931, "Quantum sensing Detection": 0.7166688442230225, "Quantum sensing Metrology": 0.685228168964386, "Quantum sensing navigation": 0.6982854008674622, "Quantum sensing Position": 0.6746308207511902, "Quantum sensing Timing": 0.6781859993934631, "Quantum sensing": 0.7110171914100647, "Quantum control": 0.6744843125343323 } }, { "id": 2405, "title": "Position sensitive gaseous photomultipliers", "abstract": "In this paper a simple design of a gaseous photomultiplier, sensitive up to visible light, is described. It consists of a parallel plate chamber combined with a solid photocathode through a capillary ...", "citations": 15, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2409, "doi": "10.1016/S0168-9002(01)00967-6", "umap_coordinates": { "x": 394.47119140625, "y": 134.12591552734375, "z": 205.2584686279297 }, "tsne_coordinates": { "x": -13.824784278869629, "y": 14.410682678222656, "z": -5.158949375152588 }, "pca_coordinates": { "x": -2.620265483856201, "y": 0.7527643442153931, "z": 0.9277068972587585 }, "axis_scores": { "Quantum imaging": 0.6786044239997864, "Quantum Life Science Sensing": 0.7159924507141113, "Quantum sensing Detection": 0.6914519667625427, "Quantum sensing Metrology": 0.6905596852302551, "Quantum sensing navigation": 0.701650083065033, "Quantum sensing Position": 0.7497639656066895, "Quantum sensing Timing": 0.688241720199585, "Quantum sensing": 0.6994059681892395, "Quantum control": 0.6447897553443909 } }, { "id": 2406, "title": "Quantization of skyrmions using instantons", "abstract": "We provide a step-by-step method to construct skyrmions from instanton ADHM data, including when the exact ADHM data is unknown. The configurations look like clusters of smaller skyrmions, and can be ...", "citations": 1, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2410, "doi": "10.1103/PhysRevD.110.016027", "umap_coordinates": { "x": 394.93658447265625, "y": 137.12489318847656, "z": 207.78176879882812 }, "tsne_coordinates": { "x": -27.37384033203125, "y": -25.069490432739258, "z": -1.633949875831604 }, "pca_coordinates": { "x": 3.9825830459594727, "y": 0.23641514778137207, "z": 0.041839778423309326 }, "axis_scores": { "Quantum imaging": 0.7387908697128296, "Quantum Life Science Sensing": 0.7377650737762451, "Quantum sensing Detection": 0.7192934155464172, "Quantum sensing Metrology": 0.7209623456001282, "Quantum sensing navigation": 0.7553246021270752, "Quantum sensing Position": 0.7071194052696228, "Quantum sensing Timing": 0.7263719439506531, "Quantum sensing": 0.7444116473197937, "Quantum control": 0.7199702858924866 } }, { "id": 2407, "title": "Minimizing Spontaneous Raman Scattering Noise for Quantum Key Distribution in WDM Networks", "abstract": "We model the SRS impact on QKD when sharing C-band for quantum and classical communications in WDM networks and find the optimal wavelength allocation leading to >26% increase of achievable transmissi...", "citations": 7, "author_count": 3, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2411, "doi": null, "umap_coordinates": { "x": 391.4122619628906, "y": 139.6073760986328, "z": 208.99652099609375 }, "tsne_coordinates": { "x": -10.907700538635254, "y": 48.380348205566406, "z": -0.3960675299167633 }, "pca_coordinates": { "x": 0.45226073265075684, "y": 2.043865919113159, "z": 0.14865463972091675 }, "axis_scores": { "Quantum imaging": 0.6914166212081909, "Quantum Life Science Sensing": 0.670039176940918, "Quantum sensing Detection": 0.6970428824424744, "Quantum sensing Metrology": 0.7158575654029846, "Quantum sensing navigation": 0.724113404750824, "Quantum sensing Position": 0.6813246607780457, "Quantum sensing Timing": 0.6724437475204468, "Quantum sensing": 0.7049490809440613, "Quantum control": 0.7170379757881165 } }, { "id": 2408, "title": "Quantum-like model of brain's functioning: Decision making from decoherence", "abstract": "We present a quantum-like model of decision making in games of the Prisoner's Dilemma type. By this model the brain processes information by using representation of mental states in a complex Hilbert ...", "citations": 85, "author_count": 6, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2412, "doi": "10.1016/j.jtbi.2011.04.022", "umap_coordinates": { "x": 395.06622314453125, "y": 137.50814819335938, "z": 205.8604278564453 }, "tsne_coordinates": { "x": -21.831119537353516, "y": 8.984764099121094, "z": 19.041370391845703 }, "pca_coordinates": { "x": 0.9147872924804688, "y": 3.7843284606933594, "z": -1.0373811721801758 }, "axis_scores": { "Quantum imaging": 0.7632306218147278, "Quantum Life Science Sensing": 0.7690757513046265, "Quantum sensing Detection": 0.7597227096557617, "Quantum sensing Metrology": 0.7339626550674438, "Quantum sensing navigation": 0.762787938117981, "Quantum sensing Position": 0.7381739616394043, "Quantum sensing Timing": 0.7373067140579224, "Quantum sensing": 0.7713870406150818, "Quantum control": 0.7638165950775146 } }, { "id": 2409, "title": "Engineering MoOx/MXene Hole Transfer Layers for Unexpected Boosting Photoelectrochemical Water Oxidation", "abstract": "The development of semiconductor photoanodes is of great practical interest for the realization of photoelectrochemical (PEC) water splitting. Herein, MXene quantum dots (MQD) were grafted on a BiVO4 ...", "citations": 178, "author_count": 13, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2413, "doi": "10.1002/anie.202200946", "umap_coordinates": { "x": 392.1658935546875, "y": 133.96888732910156, "z": 205.2870635986328 }, "tsne_coordinates": { "x": 22.660823822021484, "y": 6.4864349365234375, "z": -2.5415847301483154 }, "pca_coordinates": { "x": -2.0192010402679443, "y": -1.4639687538146973, "z": -1.0357325077056885 }, "axis_scores": { "Quantum imaging": 0.70082688331604, "Quantum Life Science Sensing": 0.7093744874000549, "Quantum sensing Detection": 0.6900150179862976, "Quantum sensing Metrology": 0.6872275471687317, "Quantum sensing navigation": 0.6835559606552124, "Quantum sensing Position": 0.6564711928367615, "Quantum sensing Timing": 0.6410487294197083, "Quantum sensing": 0.6974554657936096, "Quantum control": 0.6892521381378174 } }, { "id": 2410, "title": "Charge Carrier Diffusion Dynamics in Multisized Quaternary Alkylammonium-Capped CsPbBr3 Perovskite Nanocrystal Solids", "abstract": "CsPbBr3 quantum dots (QDs) are promising candidates for optoelectronic devices. The substitution of oleic acid ( OA) and oleylamine ( OLA) capping agents with a quaternary alkylammonium such as di-dod...", "citations": 19, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2414, "doi": "10.1021/acsami.1c11676", "umap_coordinates": { "x": 391.7684326171875, "y": 134.6070556640625, "z": 206.3863983154297 }, "tsne_coordinates": { "x": 21.646697998046875, "y": -4.239636421203613, "z": -16.45943832397461 }, "pca_coordinates": { "x": -0.7240374088287354, "y": -4.452760219573975, "z": -2.4570934772491455 }, "axis_scores": { "Quantum imaging": 0.7073923945426941, "Quantum Life Science Sensing": 0.7092043161392212, "Quantum sensing Detection": 0.6857733726501465, "Quantum sensing Metrology": 0.6670152544975281, "Quantum sensing navigation": 0.7075527310371399, "Quantum sensing Position": 0.6818337440490723, "Quantum sensing Timing": 0.6834923028945923, "Quantum sensing": 0.7003020644187927, "Quantum control": 0.6883906126022339 } }, { "id": 2411, "title": "Synchrotron X-ray scattering and photon correlation spectroscopy studies on thin film morphology details and structural changes of an amorphous-crystalline brush diblock copolymer", "abstract": "We investigated structural details and temperature-induced structural changes of an amorphous-crystalline brush diblock copolymer, poly(3-((6-((7-(9H-carbazol-9-yl)heptanoyl)oxy)hexyl)thio)propylglyci...", "citations": 7, "author_count": 10, "categories": [ "Polymer Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2415, "doi": "10.1016/j.polymer.2016.08.004", "umap_coordinates": { "x": 392.9728698730469, "y": 135.41590881347656, "z": 205.56893920898438 }, "tsne_coordinates": { "x": 37.15679168701172, "y": 12.590387344360352, "z": 8.637959480285645 }, "pca_coordinates": { "x": -2.313093423843384, "y": -1.048485517501831, "z": -0.6859015226364136 }, "axis_scores": { "Quantum imaging": 0.7050175666809082, "Quantum Life Science Sensing": 0.7295621037483215, "Quantum sensing Detection": 0.6871386766433716, "Quantum sensing Metrology": 0.6703368425369263, "Quantum sensing navigation": 0.6695791482925415, "Quantum sensing Position": 0.6773181557655334, "Quantum sensing Timing": 0.644737720489502, "Quantum sensing": 0.705920934677124, "Quantum control": 0.6673381924629211 } }, { "id": 2412, "title": "The importance of non-photon noise in stellar spectropolarimetry The spurious detection of a non-existing magnetic field in the AO supergiant HD 92207", "abstract": "Context. The low-resolution, Cassegrain mounted, FORS spectropolarimeter of the ESO Very Large Telescope is being extensively used for magnetic field surveys. Some of the new discoveries suggest that ...", "citations": 35, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2416, "doi": "10.1051/0004-6361/201322319", "umap_coordinates": { "x": 395.8996887207031, "y": 135.34754943847656, "z": 206.1706085205078 }, "tsne_coordinates": { "x": -23.37629508972168, "y": 22.992414474487305, "z": 5.379472255706787 }, "pca_coordinates": { "x": -0.6577681303024292, "y": 1.011816382408142, "z": 0.7586374878883362 }, "axis_scores": { "Quantum imaging": 0.6874946355819702, "Quantum Life Science Sensing": 0.7211921215057373, "Quantum sensing Detection": 0.698177695274353, "Quantum sensing Metrology": 0.6921641230583191, "Quantum sensing navigation": 0.6991868615150452, "Quantum sensing Position": 0.6801586151123047, "Quantum sensing Timing": 0.670900285243988, "Quantum sensing": 0.697258710861206, "Quantum control": 0.6711987853050232 } }, { "id": 2413, "title": "Complementarity and quantum erasure in welcher Weg experiments", "abstract": "We extend the concept of distinguishability and likelihood introduced by Englert in Phys. Rev. Lett. 77, 2154 (1996) to encompass quantum erasure. We delineate the necessary and sufficient condition f...", "citations": 47, "author_count": 3, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2417, "doi": "10.1103/PhysRevA.58.3477", "umap_coordinates": { "x": 395.6016540527344, "y": 136.52203369140625, "z": 207.65235900878906 }, "tsne_coordinates": { "x": -19.694128036499023, "y": -10.47657585144043, "z": 4.244752883911133 }, "pca_coordinates": { "x": 3.4696145057678223, "y": 2.158626079559326, "z": 0.7650317549705505 }, "axis_scores": { "Quantum imaging": 0.7392292022705078, "Quantum Life Science Sensing": 0.7333380579948425, "Quantum sensing Detection": 0.7262175679206848, "Quantum sensing Metrology": 0.7151756286621094, "Quantum sensing navigation": 0.7361358404159546, "Quantum sensing Position": 0.7047659158706665, "Quantum sensing Timing": 0.7273154258728027, "Quantum sensing": 0.7404574155807495, "Quantum control": 0.7339383959770203 } }, { "id": 2414, "title": "RECENT RESULTS ON THE PROPERTIES OF CSI PHOTOCATHODES", "abstract": "We report here on the results obtained by the CERN RD26 collaboration on the production and characterization of large area photocathodes, susceptible to equip fast UV-photon imaging devices. Such dete...", "citations": 15, "author_count": 47, "categories": [ "Instruments & Instrumentation" ], "year": 1995, "topic": [ "all" ], "embedding_index": 2418, "doi": "10.1016/0168-9002(94)01623-2", "umap_coordinates": { "x": 394.2050476074219, "y": 134.5949249267578, "z": 205.46884155273438 }, "tsne_coordinates": { "x": 17.457670211791992, "y": 12.691330909729004, "z": 2.6144609451293945 }, "pca_coordinates": { "x": -2.9014718532562256, "y": -0.3294363021850586, "z": 0.5669628977775574 }, "axis_scores": { "Quantum imaging": 0.6611586213111877, "Quantum Life Science Sensing": 0.6832919716835022, "Quantum sensing Detection": 0.6478292346000671, "Quantum sensing Metrology": 0.6556608080863953, "Quantum sensing navigation": 0.6481332182884216, "Quantum sensing Position": 0.6591276526451111, "Quantum sensing Timing": 0.6438589692115784, "Quantum sensing": 0.6655789613723755, "Quantum control": 0.6110711693763733 } }, { "id": 2415, "title": "Wigner-function formalism for the detection of single microwave pulses in a resonator-coupled double quantum dot", "abstract": "Semiconductor double quantum dots (DQD) coupled to superconducting microwave resonators offer a promising platform for the detection of single microwave photons. In previous works, the photodetection ...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2419, "doi": "10.1103/PhysRevResearch.7.013305", "umap_coordinates": { "x": 394.8083190917969, "y": 134.01585388183594, "z": 208.04933166503906 }, "tsne_coordinates": { "x": -2.9309816360473633, "y": -23.95988655090332, "z": -13.25133991241455 }, "pca_coordinates": { "x": 2.2486023902893066, "y": -1.4558091163635254, "z": 2.78933048248291 }, "axis_scores": { "Quantum imaging": 0.7122635245323181, "Quantum Life Science Sensing": 0.7539512515068054, "Quantum sensing Detection": 0.7411553859710693, "Quantum sensing Metrology": 0.7385767102241516, "Quantum sensing navigation": 0.721217155456543, "Quantum sensing Position": 0.7021715044975281, "Quantum sensing Timing": 0.7080751657485962, "Quantum sensing": 0.7385905981063843, "Quantum control": 0.6783857941627502 } }, { "id": 2416, "title": "On-chip single photon filtering and multiplexing in hybrid quantum photonic circuits", "abstract": "Quantum light plays a pivotal role in modern science and future photonic applications. Since the advent of integrated quantum nanophotonics different material platforms based on III-V nanostructures-,...", "citations": 173, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2420, "doi": "10.1038/s41467-017-00486-8", "umap_coordinates": { "x": 394.3198547363281, "y": 133.56178283691406, "z": 207.13973999023438 }, "tsne_coordinates": { "x": -7.456122875213623, "y": 0.752269446849823, "z": -25.801347732543945 }, "pca_coordinates": { "x": -0.6627278327941895, "y": -2.2735447883605957, "z": 4.289841175079346 }, "axis_scores": { "Quantum imaging": 0.74854975938797, "Quantum Life Science Sensing": 0.7248567342758179, "Quantum sensing Detection": 0.7451885938644409, "Quantum sensing Metrology": 0.7341559529304504, "Quantum sensing navigation": 0.7197228670120239, "Quantum sensing Position": 0.6937090158462524, "Quantum sensing Timing": 0.7116944789886475, "Quantum sensing": 0.75687175989151, "Quantum control": 0.7065207958221436 } }, { "id": 2417, "title": "Formation of the SiP Radical through Radiative Association", "abstract": "Formation of the SiP radical through radiative association of Si(P-3) and P(S-4) atoms is studied using classical and quantum dynamics. Rate coefficients for formation in the two lowest doublet states...", "citations": 11, "author_count": 6, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2421, "doi": "10.1021/jp403174u", "umap_coordinates": { "x": 393.1072692871094, "y": 136.6493377685547, "z": 205.70545959472656 }, "tsne_coordinates": { "x": 0.17545731365680695, "y": -5.664531230926514, "z": -6.644391059875488 }, "pca_coordinates": { "x": -1.1792100667953491, "y": 0.4912874698638916, "z": -0.8767974376678467 }, "axis_scores": { "Quantum imaging": 0.6944717168807983, "Quantum Life Science Sensing": 0.7195812463760376, "Quantum sensing Detection": 0.6912883520126343, "Quantum sensing Metrology": 0.6625533699989319, "Quantum sensing navigation": 0.6614062786102295, "Quantum sensing Position": 0.656920850276947, "Quantum sensing Timing": 0.6675273180007935, "Quantum sensing": 0.698262631893158, "Quantum control": 0.6797573566436768 } }, { "id": 2418, "title": "Inorganic ligands-mediated hole attraction and surface structural reorganization in InP/ZnS QD photocatalysts studied via ultrafast visible and midinfrared spectroscopies", "abstract": "Photoinduced carrier dynamical processes dominate the optical excitation properties of photocatalysts and further determine the photocatalytic performance. In addition, as the electrons generally poss...", "citations": 15, "author_count": 13, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2422, "doi": "10.1007/s40843-021-1992-3", "umap_coordinates": { "x": 392.13287353515625, "y": 134.59872436523438, "z": 207.1260528564453 }, "tsne_coordinates": { "x": 25.447465896606445, "y": -9.21757984161377, "z": 6.536398887634277 }, "pca_coordinates": { "x": -2.1103224754333496, "y": -3.3094749450683594, "z": -1.6033375263214111 }, "axis_scores": { "Quantum imaging": 0.7214170098304749, "Quantum Life Science Sensing": 0.7178396582603455, "Quantum sensing Detection": 0.6978070735931396, "Quantum sensing Metrology": 0.6909823417663574, "Quantum sensing navigation": 0.7001839280128479, "Quantum sensing Position": 0.6786495447158813, "Quantum sensing Timing": 0.6542383432388306, "Quantum sensing": 0.7133757472038269, "Quantum control": 0.682986855506897 } }, { "id": 2419, "title": "Influence of surface states on blinking characteristics of single colloidal CdSe-CdS/ZnS core-multishell quantum dot", "abstract": "We carefully characterized the fluorescence blinking of single colloidal CdSe-CdS/ZnS core-multishell quantum dots (QDs) with different surface modifications, including octadecylamine (ODA) coated QDs...", "citations": 6, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2423, "doi": "10.1016/j.jcis.2017.06.046", "umap_coordinates": { "x": 392.64959716796875, "y": 133.78466796875, "z": 206.47203063964844 }, "tsne_coordinates": { "x": 25.6509952545166, "y": 1.2867324352264404, "z": 5.329722881317139 }, "pca_coordinates": { "x": -2.8958358764648438, "y": -4.2273430824279785, "z": -1.3484394550323486 }, "axis_scores": { "Quantum imaging": 0.7226694822311401, "Quantum Life Science Sensing": 0.7554770708084106, "Quantum sensing Detection": 0.731954038143158, "Quantum sensing Metrology": 0.7061750292778015, "Quantum sensing navigation": 0.6966627836227417, "Quantum sensing Position": 0.7029185891151428, "Quantum sensing Timing": 0.6860345005989075, "Quantum sensing": 0.734298825263977, "Quantum control": 0.7237775921821594 } }, { "id": 2420, "title": "Quantum dots modulate intracellular Ca2+ level in lung epithelial cells", "abstract": "While adverse effects of nanoparticles on lung health have previously been proposed, few studies have addressed the direct effects of nanoparticle exposure on the airway epithelium. In this work, we e...", "citations": 4, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2424, "doi": "10.2147/IJN.S130136", "umap_coordinates": { "x": 394.43212890625, "y": 135.01657104492188, "z": 204.37408447265625 }, "tsne_coordinates": { "x": 13.61221981048584, "y": 28.614307403564453, "z": -1.3383475542068481 }, "pca_coordinates": { "x": -2.6171493530273438, "y": -0.013077259063720703, "z": -1.2776544094085693 }, "axis_scores": { "Quantum imaging": 0.7786004543304443, "Quantum Life Science Sensing": 0.7948641180992126, "Quantum sensing Detection": 0.768439769744873, "Quantum sensing Metrology": 0.7360823154449463, "Quantum sensing navigation": 0.7443026304244995, "Quantum sensing Position": 0.730937659740448, "Quantum sensing Timing": 0.7244232892990112, "Quantum sensing": 0.7789562940597534, "Quantum control": 0.7668300271034241 } }, { "id": 2421, "title": "Measurement of the cross section for isolated-photon plus jet production in pp collisions at √s=13 TeV using the ATLAS detector", "abstract": "The dynamics of isolated-photon production in association with a jet in proton-proton collisions at a centre-of-mass energy of 13 TeV are studied with the ATLAS detector at the LHC using a dataset wit...", "citations": 33, "author_count": 2667, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2425, "doi": "10.1016/j.physletb.2018.03.035", "umap_coordinates": { "x": 396.8744201660156, "y": 134.24989318847656, "z": 207.65000915527344 }, "tsne_coordinates": { "x": -32.14068603515625, "y": 8.176515579223633, "z": -11.4183931350708 }, "pca_coordinates": { "x": -1.384063720703125, "y": 0.24582910537719727, "z": 3.691532611846924 }, "axis_scores": { "Quantum imaging": 0.7046357989311218, "Quantum Life Science Sensing": 0.6964520812034607, "Quantum sensing Detection": 0.7056322693824768, "Quantum sensing Metrology": 0.6699862480163574, "Quantum sensing navigation": 0.6693089604377747, "Quantum sensing Position": 0.6775892376899719, "Quantum sensing Timing": 0.6759102940559387, "Quantum sensing": 0.7000512480735779, "Quantum control": 0.641442596912384 } }, { "id": 2422, "title": "Optimal work extraction from quantum states by photo-assisted Cooper pair tunneling", "abstract": "The theory of quantum thermodynamics predicts fundamental bounds on work extraction from quantum states. As these bounds are derived in a very general and abstract setting, it is unclear how relevant ...", "citations": 40, "author_count": 5, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2426, "doi": "10.1088/2058-9565/aacbf3", "umap_coordinates": { "x": 394.9559631347656, "y": 136.552001953125, "z": 207.18637084960938 }, "tsne_coordinates": { "x": -33.38798141479492, "y": -9.292556762695312, "z": -6.133790493011475 }, "pca_coordinates": { "x": 1.513702630996704, "y": 0.36656856536865234, "z": 2.0646615028381348 }, "axis_scores": { "Quantum imaging": 0.6955488920211792, "Quantum Life Science Sensing": 0.6737055778503418, "Quantum sensing Detection": 0.6883853077888489, "Quantum sensing Metrology": 0.6827749609947205, "Quantum sensing navigation": 0.6788457632064819, "Quantum sensing Position": 0.6796411871910095, "Quantum sensing Timing": 0.6728079915046692, "Quantum sensing": 0.7042807936668396, "Quantum control": 0.6877070069313049 } }, { "id": 2423, "title": "Drastic difference between hole and electron injection through the gradient shell of CdxSeyZn1-xS1-y quantum dots", "abstract": "Ultrafast fluorescence spectroscopy was used to investigate the hole injection in CdxSeyZn1-xS1-y gradient core-shell quantum dot (CSQD) sensitized p-type NiO photocathodes. A series of CSQDs with a w...", "citations": 6, "author_count": 13, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2427, "doi": "10.1039/c7nr04495j", "umap_coordinates": { "x": 391.8338623046875, "y": 134.67965698242188, "z": 206.49732971191406 }, "tsne_coordinates": { "x": 17.28301429748535, "y": -4.601105690002441, "z": 0.42178454995155334 }, "pca_coordinates": { "x": -0.41726863384246826, "y": -2.5275368690490723, "z": -0.9030805230140686 }, "axis_scores": { "Quantum imaging": 0.717989981174469, "Quantum Life Science Sensing": 0.7041987180709839, "Quantum sensing Detection": 0.7055804133415222, "Quantum sensing Metrology": 0.6891986727714539, "Quantum sensing navigation": 0.723803699016571, "Quantum sensing Position": 0.6889336705207825, "Quantum sensing Timing": 0.6702405214309692, "Quantum sensing": 0.7121691107749939, "Quantum control": 0.6896060109138489 } }, { "id": 2424, "title": "Fluorescence Spectroscopic Properties Analysed within the Extended Forster Theory with Application to Biomacromolecular Systems", "abstract": "The extended Forster theory (EFT) of electronic energy transport accounts for translational and rotational dynamics, which are neglected by the classical Forster theory (FT). EFT has been developed fo...", "citations": 3, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2428, "doi": "10.1007/s10895-009-0481-z", "umap_coordinates": { "x": 393.1969909667969, "y": 135.88429260253906, "z": 204.95016479492188 }, "tsne_coordinates": { "x": 25.028993606567383, "y": 13.752317428588867, "z": 24.6863956451416 }, "pca_coordinates": { "x": -2.4386579990386963, "y": 1.6074734926223755, "z": -1.8108117580413818 }, "axis_scores": { "Quantum imaging": 0.6783165335655212, "Quantum Life Science Sensing": 0.7109260559082031, "Quantum sensing Detection": 0.6493518352508545, "Quantum sensing Metrology": 0.6674006581306458, "Quantum sensing navigation": 0.657171905040741, "Quantum sensing Position": 0.6471723914146423, "Quantum sensing Timing": 0.6248260736465454, "Quantum sensing": 0.6682354807853699, "Quantum control": 0.636364221572876 } }, { "id": 2425, "title": "CONDUCTANCE OSCILLATIONS RELATED TO THE EIGENENERGY SPECTRUM OF A QUANTUM-DOT IN WEAK MAGNETIC-FIELDS", "abstract": "The electron transport through a quantum dot, defined by the electrostatic potential of four Schottky gates on top of a GaAs-GaxAl1-xAs heterostructure, was studied experimentally. The dot was connect...", "citations": 67, "author_count": 7, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 2429, "doi": "10.1103/PhysRevB.52.8921", "umap_coordinates": { "x": 393.9494323730469, "y": 135.85183715820312, "z": 209.24266052246094 }, "tsne_coordinates": { "x": 6.80021333694458, "y": -21.37265968322754, "z": 12.38744068145752 }, "pca_coordinates": { "x": 4.319849967956543, "y": -1.792414665222168, "z": -1.5503244400024414 }, "axis_scores": { "Quantum imaging": 0.6910330057144165, "Quantum Life Science Sensing": 0.7325794100761414, "Quantum sensing Detection": 0.713032603263855, "Quantum sensing Metrology": 0.7069953680038452, "Quantum sensing navigation": 0.7118521928787231, "Quantum sensing Position": 0.6882069110870361, "Quantum sensing Timing": 0.6722836494445801, "Quantum sensing": 0.7185578346252441, "Quantum control": 0.6777127385139465 } }, { "id": 2426, "title": "Overcoming the Quantum Noise Limit with Continuous-wave Phase-Sensitive Parametric Amplification Based on a Single Integrated Silicon-Nitride Waveguide", "abstract": "We demonstrate continuous-wave phase-sensitive optical parametric amplification with 9.5 dB gain and a 1.2 dB noise figure, well below the conventional 3 dB quantum limit, using a single compact and d...", "citations": 1, "author_count": 6, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2430, "doi": null, "umap_coordinates": { "x": 391.80303955078125, "y": 139.71688842773438, "z": 209.43577575683594 }, "tsne_coordinates": { "x": -9.6007080078125, "y": 46.136863708496094, "z": 0.5612925887107849 }, "pca_coordinates": { "x": -0.7117108702659607, "y": 2.947852373123169, "z": 1.2306737899780273 }, "axis_scores": { "Quantum imaging": 0.774622917175293, "Quantum Life Science Sensing": 0.7533906102180481, "Quantum sensing Detection": 0.7759895920753479, "Quantum sensing Metrology": 0.7740371227264404, "Quantum sensing navigation": 0.7787048816680908, "Quantum sensing Position": 0.7301290035247803, "Quantum sensing Timing": 0.7186768651008606, "Quantum sensing": 0.7808318138122559, "Quantum control": 0.772392749786377 } }, { "id": 2427, "title": "Properties of the particulate phase in deep saline groundwater in Laxemar, Sweden", "abstract": "Composition, concentration and size distribution of the particulate phase in saline groundwater from the Laxemar borehole, Sweden, were measured at three different sampling sections sealed off by rubb...", "citations": 7, "author_count": 3, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2431, "doi": "10.1016/S0043-1354(97)00189-9", "umap_coordinates": { "x": 393.6131896972656, "y": 135.58795166015625, "z": 204.73243713378906 }, "tsne_coordinates": { "x": 9.255110740661621, "y": 20.508045196533203, "z": 10.618790626525879 }, "pca_coordinates": { "x": -0.917283296585083, "y": 1.3815722465515137, "z": -2.2231507301330566 }, "axis_scores": { "Quantum imaging": 0.665459394454956, "Quantum Life Science Sensing": 0.7060123682022095, "Quantum sensing Detection": 0.660624623298645, "Quantum sensing Metrology": 0.670695424079895, "Quantum sensing navigation": 0.6793924570083618, "Quantum sensing Position": 0.6737388372421265, "Quantum sensing Timing": 0.6434692144393921, "Quantum sensing": 0.6793686747550964, "Quantum control": 0.635179877281189 } }, { "id": 2428, "title": "Integrated free-space optomechanics with AlGaAs heterostructures", "abstract": "We fabricated and characterized suspended bi-layered photonic crystal slabs in AlGaAs heterostructures. Our approach allows to create integrated, closely spaced membranes, which can exhibit photonic b...", "citations": 1, "author_count": 7, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2432, "doi": "10.1109/CLEO/Europe-EQEC52157.2021.9542149", "umap_coordinates": { "x": 395.1585388183594, "y": 134.57945251464844, "z": 206.20794677734375 }, "tsne_coordinates": { "x": 3.807408332824707, "y": 6.787820339202881, "z": -38.327369689941406 }, "pca_coordinates": { "x": -0.44094276428222656, "y": -0.19651508331298828, "z": 1.6525721549987793 }, "axis_scores": { "Quantum imaging": 0.7201762795448303, "Quantum Life Science Sensing": 0.7421637773513794, "Quantum sensing Detection": 0.712552547454834, "Quantum sensing Metrology": 0.7363772392272949, "Quantum sensing navigation": 0.7410340309143066, "Quantum sensing Position": 0.6993655562400818, "Quantum sensing Timing": 0.6935811042785645, "Quantum sensing": 0.7270454168319702, "Quantum control": 0.7086281180381775 } }, { "id": 2429, "title": "Experimental bound entanglement through a Pauli channel", "abstract": "Understanding the characteristics of a quantum systems when affected by noise is one of the biggest challenges for quantum technologies. The general Pauli error channel is an important lossless channe...", "citations": 11, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2433, "doi": "10.1038/srep01966", "umap_coordinates": { "x": 395.7181091308594, "y": 136.0256805419922, "z": 207.31246948242188 }, "tsne_coordinates": { "x": -20.360353469848633, "y": -5.23765230178833, "z": -7.344604015350342 }, "pca_coordinates": { "x": 2.209927558898926, "y": 1.3313050270080566, "z": 2.093179941177368 }, "axis_scores": { "Quantum imaging": 0.7724477648735046, "Quantum Life Science Sensing": 0.720659613609314, "Quantum sensing Detection": 0.7502560615539551, "Quantum sensing Metrology": 0.7250734567642212, "Quantum sensing navigation": 0.7556656002998352, "Quantum sensing Position": 0.7348732948303223, "Quantum sensing Timing": 0.7188279628753662, "Quantum sensing": 0.7584927678108215, "Quantum control": 0.7217962145805359 } }, { "id": 2430, "title": "Quantum probability in decision making from quantum information representation of neuronal states", "abstract": "The recent wave of interest to modeling the process of decision making with the aid of the quantum formalism gives rise to the following question: 'How can neurons generate quantum-like statistical da...", "citations": 52, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2434, "doi": "10.1038/s41598-018-34531-3", "umap_coordinates": { "x": 395.20611572265625, "y": 137.600341796875, "z": 205.97264099121094 }, "tsne_coordinates": { "x": -26.648880004882812, "y": 10.490181922912598, "z": 17.870195388793945 }, "pca_coordinates": { "x": 1.3784749507904053, "y": 2.0587522983551025, "z": 0.5707806944847107 }, "axis_scores": { "Quantum imaging": 0.7651928663253784, "Quantum Life Science Sensing": 0.7571406960487366, "Quantum sensing Detection": 0.7742729187011719, "Quantum sensing Metrology": 0.7477421760559082, "Quantum sensing navigation": 0.7857856750488281, "Quantum sensing Position": 0.7623063325881958, "Quantum sensing Timing": 0.7295799255371094, "Quantum sensing": 0.7827619314193726, "Quantum control": 0.735872745513916 } }, { "id": 2431, "title": "Mechanism for excitation-dependent photoluminescence from graphene quantum dots and other graphene oxide derivates: consensus, debates and challenges", "abstract": "Luminescent nanomaterials, with wide applications in biosensing, bioimaging, illumination and display techniques, have been consistently garnering enormous research attention. In particular, those wit...", "citations": 478, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2435, "doi": "10.1039/c6nr00605a", "umap_coordinates": { "x": 392.2904357910156, "y": 135.37339782714844, "z": 205.64598083496094 }, "tsne_coordinates": { "x": 19.19562339782715, "y": -6.730762481689453, "z": -3.0437912940979004 }, "pca_coordinates": { "x": -1.7694274187088013, "y": -1.6668915748596191, "z": -1.2003114223480225 }, "axis_scores": { "Quantum imaging": 0.6885668635368347, "Quantum Life Science Sensing": 0.7300460934638977, "Quantum sensing Detection": 0.7010709643363953, "Quantum sensing Metrology": 0.680141031742096, "Quantum sensing navigation": 0.686225175857544, "Quantum sensing Position": 0.6817843914031982, "Quantum sensing Timing": 0.6526402235031128, "Quantum sensing": 0.7021618485450745, "Quantum control": 0.6788771748542786 } }, { "id": 2432, "title": "EFFECT OF CONCENTRATION AND IONIC-STRENGTH ON THE TRANSLATIONAL DIFFUSION-COEFFICIENT OF LYSOZYME", "abstract": "Photon correlation spectroscopy was used to measure the translational diffusion coefficient (D) of lysozyme at pH 4.0 as a function of concentration and ionic strength. The lysozyme concentrations ran...", "citations": 8, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1983, "topic": [ "all" ], "embedding_index": 2436, "doi": null, "umap_coordinates": { "x": 391.3661804199219, "y": 139.84600830078125, "z": 209.29261779785156 }, "tsne_coordinates": { "x": -1.013719081878662, "y": 42.37630081176758, "z": 3.7035646438598633 }, "pca_coordinates": { "x": -2.306551933288574, "y": 3.5705227851867676, "z": -3.1492536067962646 }, "axis_scores": { "Quantum imaging": 0.677325963973999, "Quantum Life Science Sensing": 0.7051163911819458, "Quantum sensing Detection": 0.6775504946708679, "Quantum sensing Metrology": 0.6643479466438293, "Quantum sensing navigation": 0.6860994696617126, "Quantum sensing Position": 0.6896005272865295, "Quantum sensing Timing": 0.6511657238006592, "Quantum sensing": 0.6924402713775635, "Quantum control": 0.6842536926269531 } }, { "id": 2433, "title": "Spin and photophysics of carbon-antisite vacancy defect in 4H silicon carbide: A potential quantum bit", "abstract": "Silicon carbide with engineered point defects is considered as very promising material for the next generation devices, with applications ranging from electronics and photonics to quantum computing. I...", "citations": 65, "author_count": 7, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2437, "doi": "10.1103/PhysRevB.91.121201", "umap_coordinates": { "x": 394.2900390625, "y": 135.22183227539062, "z": 208.70285034179688 }, "tsne_coordinates": { "x": 3.3393778800964355, "y": -14.899237632751465, "z": 0.5777086019515991 }, "pca_coordinates": { "x": 3.2782444953918457, "y": -1.720132827758789, "z": 0.08830404281616211 }, "axis_scores": { "Quantum imaging": 0.7203910946846008, "Quantum Life Science Sensing": 0.7308686375617981, "Quantum sensing Detection": 0.7226943373680115, "Quantum sensing Metrology": 0.6950879693031311, "Quantum sensing navigation": 0.7176544666290283, "Quantum sensing Position": 0.7029941082000732, "Quantum sensing Timing": 0.6902893781661987, "Quantum sensing": 0.7320544719696045, "Quantum control": 0.7051882743835449 } }, { "id": 2434, "title": "Virtual non-contrast images in photon-counting computed tomography: impact of different contrast phases", "abstract": "Background Photon-counting computed tomography (PCCT) enables new ways of image reconstruction, e.g. material decomposition and creation of virtual non-contrast (VNC) series with higher resolution and...", "citations": 4, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2438, "doi": "10.1177/02841851241271202", "umap_coordinates": { "x": 395.4986572265625, "y": 133.1099853515625, "z": 205.1380615234375 }, "tsne_coordinates": { "x": -2.7368218898773193, "y": 21.877819061279297, "z": -13.360097885131836 }, "pca_coordinates": { "x": -1.8952281475067139, "y": 4.874677658081055, "z": 2.4184422492980957 }, "axis_scores": { "Quantum imaging": 0.7413769960403442, "Quantum Life Science Sensing": 0.6818612217903137, "Quantum sensing Detection": 0.688959002494812, "Quantum sensing Metrology": 0.6702080965042114, "Quantum sensing navigation": 0.6944617629051208, "Quantum sensing Position": 0.6700003147125244, "Quantum sensing Timing": 0.7000328302383423, "Quantum sensing": 0.6862673759460449, "Quantum control": 0.6837714910507202 } }, { "id": 2435, "title": "Bacteria-targeted delivery of black phosphorus quantum dots facilitates photothermal therapy against hypoxic tumors and complementary low-dose radiotherapy", "abstract": "Many approaches have been employed to relieve hypoxia in solid tumors to enhance sensitivity to radiotherapy (RT), including O-2 delivery or hydrogen peroxide (H2O2) decomposition strategies. To date,...", "citations": 14, "author_count": 7, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2439, "doi": "10.1039/d3bm00206c", "umap_coordinates": { "x": 392.83123779296875, "y": 134.72174072265625, "z": 204.64193725585938 }, "tsne_coordinates": { "x": 11.069162368774414, "y": 14.007756233215332, "z": -14.678552627563477 }, "pca_coordinates": { "x": -3.464550495147705, "y": -1.2780730724334717, "z": 0.2271597981452942 }, "axis_scores": { "Quantum imaging": 0.7451817989349365, "Quantum Life Science Sensing": 0.7424849271774292, "Quantum sensing Detection": 0.7277953624725342, "Quantum sensing Metrology": 0.7107442617416382, "Quantum sensing navigation": 0.7108734846115112, "Quantum sensing Position": 0.7065213322639465, "Quantum sensing Timing": 0.6915776133537292, "Quantum sensing": 0.7336936593055725, "Quantum control": 0.7071239948272705 } }, { "id": 2436, "title": "The influence of edge structure on the optoelectronic properties of Si2BN quantum dot", "abstract": "In recent work, we have investigated the electronic and optical properties of pristine and functionalized Si2BN quantum dots (QDs) using first-principles calculations. Due to the edge functionalizatio...", "citations": 24, "author_count": 7, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2440, "doi": "10.1063/1.5131149", "umap_coordinates": { "x": 392.9988708496094, "y": 133.50802612304688, "z": 207.60836791992188 }, "tsne_coordinates": { "x": 32.039031982421875, "y": -13.675092697143555, "z": -7.6379008293151855 }, "pca_coordinates": { "x": 0.04690432548522949, "y": -4.148895740509033, "z": 0.9105995297431946 }, "axis_scores": { "Quantum imaging": 0.7624199390411377, "Quantum Life Science Sensing": 0.778445839881897, "Quantum sensing Detection": 0.7661774158477783, "Quantum sensing Metrology": 0.763308048248291, "Quantum sensing navigation": 0.7416671514511108, "Quantum sensing Position": 0.7390440106391907, "Quantum sensing Timing": 0.7004691958427429, "Quantum sensing": 0.7769308090209961, "Quantum control": 0.7326030731201172 } }, { "id": 2437, "title": "Proposed Implementation of Non-Physical Four-Dimensional Polarization Rotations", "abstract": "Recently one of us proposed a new formalism for modeling electromagnetic wave transformations for coherent communication using a real, four-vector description instead of the conventionally used Jones ...", "citations": 1, "author_count": 4, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2441, "doi": "10.1109/JLT.2016.2574912", "umap_coordinates": { "x": 394.3721618652344, "y": 136.20726013183594, "z": 206.4213409423828 }, "tsne_coordinates": { "x": -19.049171447753906, "y": -2.0821027755737305, "z": -10.441174507141113 }, "pca_coordinates": { "x": 0.7381017208099365, "y": 2.607693910598755, "z": 1.2444045543670654 }, "axis_scores": { "Quantum imaging": 0.763220489025116, "Quantum Life Science Sensing": 0.7362930774688721, "Quantum sensing Detection": 0.7444747686386108, "Quantum sensing Metrology": 0.7335889339447021, "Quantum sensing navigation": 0.7557147145271301, "Quantum sensing Position": 0.7308673858642578, "Quantum sensing Timing": 0.7366490364074707, "Quantum sensing": 0.7544492483139038, "Quantum control": 0.7496691346168518 } }, { "id": 2438, "title": "An automated photo-isomerisation and kinetics characterisation system for molecular photoswitches", "abstract": "Physical chemistry parameters such as absorbance, photoconversion quantum yield, and thermal half-lives are crucial for the characterisation of new molecular photoswitch systems. In a traditional work...", "citations": 5, "author_count": 7, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2442, "doi": "10.1039/d5dd00031a", "umap_coordinates": { "x": 392.4552307128906, "y": 136.0069580078125, "z": 205.59654235839844 }, "tsne_coordinates": { "x": 4.690017223358154, "y": 5.5487518310546875, "z": -6.324669361114502 }, "pca_coordinates": { "x": -1.2203032970428467, "y": 0.25029635429382324, "z": -1.3831455707550049 }, "axis_scores": { "Quantum imaging": 0.6951898336410522, "Quantum Life Science Sensing": 0.7255995273590088, "Quantum sensing Detection": 0.7040297985076904, "Quantum sensing Metrology": 0.6874948740005493, "Quantum sensing navigation": 0.6740618348121643, "Quantum sensing Position": 0.6663157939910889, "Quantum sensing Timing": 0.6957482695579529, "Quantum sensing": 0.7104030847549438, "Quantum control": 0.6814859509468079 } }, { "id": 2439, "title": "Decoherence of VB- spin defects in monoisotopic hexagonal boron nitride", "abstract": "Spin defects in hexagonal boron nitride (hBN) are promising quantum systems for the design of flexible two-dimensional quantum sensing platforms. Here we rely on hBN crystals isotopically enriched wit...", "citations": 85, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2443, "doi": "10.1038/s41467-022-31743-0", "umap_coordinates": { "x": 392.9562683105469, "y": 135.44647216796875, "z": 207.41424560546875 }, "tsne_coordinates": { "x": 10.670289039611816, "y": -11.788090705871582, "z": 8.368704795837402 }, "pca_coordinates": { "x": 0.07829904556274414, "y": -0.8195972442626953, "z": -0.628987193107605 }, "axis_scores": { "Quantum imaging": 0.7206746339797974, "Quantum Life Science Sensing": 0.7048969864845276, "Quantum sensing Detection": 0.6978988647460938, "Quantum sensing Metrology": 0.695987343788147, "Quantum sensing navigation": 0.712189793586731, "Quantum sensing Position": 0.7087724208831787, "Quantum sensing Timing": 0.6855934858322144, "Quantum sensing": 0.7068050503730774, "Quantum control": 0.6898907423019409 } }, { "id": 2440, "title": "Multi-variable compensated quantum yield measurements of upconverting nanoparticles with high dynamic range: a systematic approach", "abstract": "Non-linear materials such as upconverting nanoparticles (UCNPs) are emerging technology with fast-growing applications in various fields. The power density dependence of the emission quantum yield (QY...", "citations": 3, "author_count": 8, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2444, "doi": "10.1364/OE.452874", "umap_coordinates": { "x": 393.4959716796875, "y": 133.5855712890625, "z": 205.96890258789062 }, "tsne_coordinates": { "x": 13.893783569335938, "y": 20.64316177368164, "z": -25.783811569213867 }, "pca_coordinates": { "x": -2.874927043914795, "y": -1.3709769248962402, "z": 2.569673538208008 }, "axis_scores": { "Quantum imaging": 0.7561075091362, "Quantum Life Science Sensing": 0.7630981206893921, "Quantum sensing Detection": 0.7492774724960327, "Quantum sensing Metrology": 0.75747150182724, "Quantum sensing navigation": 0.7329292297363281, "Quantum sensing Position": 0.7235547304153442, "Quantum sensing Timing": 0.7157365679740906, "Quantum sensing": 0.760578453540802, "Quantum control": 0.7280192375183105 } }, { "id": 2441, "title": "Environmentally friendly Mn-alloyed core/shell quantum dots for high-efficiency photoelectrochemical cells", "abstract": "Colloidal quantum dot (QD)-based photoelectrochemical (PEC) cells are cost-effective devices showing remarkable solar-to-fuel conversion efficiency. However, the extensive use of highly toxic elements...", "citations": 51, "author_count": 18, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2445, "doi": "10.1039/d0ta00953a", "umap_coordinates": { "x": 391.9584045410156, "y": 133.94747924804688, "z": 205.20790100097656 }, "tsne_coordinates": { "x": 15.349722862243652, "y": 5.682581424713135, "z": -13.475971221923828 }, "pca_coordinates": { "x": -4.121946811676025, "y": -4.335488796234131, "z": -1.2620594501495361 }, "axis_scores": { "Quantum imaging": 0.675814151763916, "Quantum Life Science Sensing": 0.7022753953933716, "Quantum sensing Detection": 0.6799589395523071, "Quantum sensing Metrology": 0.6698545813560486, "Quantum sensing navigation": 0.6770448684692383, "Quantum sensing Position": 0.6554357409477234, "Quantum sensing Timing": 0.6301653385162354, "Quantum sensing": 0.6879904270172119, "Quantum control": 0.649983286857605 } }, { "id": 2442, "title": "Size-tuneable synthesis of photoconducting poly-(3-hexylthiophene) nanofibres and nanocomposites", "abstract": "Poly-(3-hexylthiophene) (P3HT) has been applied in many fields such as organic solar cells, printed electronic circuits, due to superior semiconducting properties compared to other semiconducting poly...", "citations": 14, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2446, "doi": "10.1002/pssc.201100540", "umap_coordinates": { "x": 392.33355712890625, "y": 133.66859436035156, "z": 206.39759826660156 }, "tsne_coordinates": { "x": 31.6761417388916, "y": -1.6497719287872314, "z": -3.6366915702819824 }, "pca_coordinates": { "x": -3.971546173095703, "y": -3.0622520446777344, "z": -0.22319957613945007 }, "axis_scores": { "Quantum imaging": 0.6909339427947998, "Quantum Life Science Sensing": 0.7209497690200806, "Quantum sensing Detection": 0.6876010894775391, "Quantum sensing Metrology": 0.6833407878875732, "Quantum sensing navigation": 0.670078694820404, "Quantum sensing Position": 0.6699520349502563, "Quantum sensing Timing": 0.6631333827972412, "Quantum sensing": 0.7133455276489258, "Quantum control": 0.7088213562965393 } }, { "id": 2443, "title": "Entangling Schrödinger's cat states by bridging discrete- and continuous-variable encoding", "abstract": "In quantum information processing, two primary research directions have emerged: one based on discrete variables (DV) and the other on the structure of quantum states in a continuous-variable (CV) spa...", "citations": 7, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2447, "doi": "10.1038/s41467-025-56503-8", "umap_coordinates": { "x": 394.4675598144531, "y": 136.43576049804688, "z": 206.80630493164062 }, "tsne_coordinates": { "x": -0.10278905183076859, "y": -7.63967227935791, "z": 14.370054244995117 }, "pca_coordinates": { "x": 1.4009690284729004, "y": 2.1892781257629395, "z": -0.021329522132873535 }, "axis_scores": { "Quantum imaging": 0.711060106754303, "Quantum Life Science Sensing": 0.7034594416618347, "Quantum sensing Detection": 0.7045858502388, "Quantum sensing Metrology": 0.6937344670295715, "Quantum sensing navigation": 0.7294728755950928, "Quantum sensing Position": 0.693918764591217, "Quantum sensing Timing": 0.7245383858680725, "Quantum sensing": 0.7239359617233276, "Quantum control": 0.7019890546798706 } }, { "id": 2444, "title": "Lack of Photon Antibunching Supports Supertrap Model of Photoluminescence Blinking in Perovskite Sub-Micrometer Crystals", "abstract": "Antibunching effect is typically observed in individual systems possessing photoluminescence (PL) blinking and vice versa. Contrary to this common perception, absence of antibunching in strongly blink...", "citations": 26, "author_count": 6, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2448, "doi": "10.1002/adom.202001596", "umap_coordinates": { "x": 392.8187255859375, "y": 134.94161987304688, "z": 205.58384704589844 }, "tsne_coordinates": { "x": 29.332199096679688, "y": 3.2987122535705566, "z": 27.461091995239258 }, "pca_coordinates": { "x": -1.56679368019104, "y": -0.8851282596588135, "z": 0.38895171880722046 }, "axis_scores": { "Quantum imaging": 0.6864265203475952, "Quantum Life Science Sensing": 0.6858959794044495, "Quantum sensing Detection": 0.6690578460693359, "Quantum sensing Metrology": 0.6766537427902222, "Quantum sensing navigation": 0.6521189212799072, "Quantum sensing Position": 0.6547113060951233, "Quantum sensing Timing": 0.6555998921394348, "Quantum sensing": 0.6702159643173218, "Quantum control": 0.636405348777771 } }, { "id": 2445, "title": "Observation of Mode Splitting in Photoluminescence of Individual Plasmonic Nanoparticles Strongly Coupled to Molecular Excitons", "abstract": "Plasmon-exciton interactions are important for many prominent spectroscopic applications' such as surface enhanced Raman scattering, plasmon-mediated fluorescence, nanoscale lasing, and strong couplin...", "citations": 195, "author_count": 6, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2449, "doi": "10.1021/acs.nanolett.6b04659", "umap_coordinates": { "x": 392.73016357421875, "y": 134.33660888671875, "z": 206.8046875 }, "tsne_coordinates": { "x": 9.655699729919434, "y": -16.981571197509766, "z": -10.825414657592773 }, "pca_coordinates": { "x": -0.4326859712600708, "y": -4.902663230895996, "z": 0.7645627856254578 }, "axis_scores": { "Quantum imaging": 0.7069154977798462, "Quantum Life Science Sensing": 0.7104721665382385, "Quantum sensing Detection": 0.7119348049163818, "Quantum sensing Metrology": 0.6878464221954346, "Quantum sensing navigation": 0.6703649759292603, "Quantum sensing Position": 0.6649911999702454, "Quantum sensing Timing": 0.633533775806427, "Quantum sensing": 0.7099936008453369, "Quantum control": 0.6505565047264099 } }, { "id": 2446, "title": "Facile Synthesis of 4-Oxo-4H-quinolizine-2-carboxamide Derivatives", "abstract": "A facile synthetic method for the construction of 2-substituted-4-oxo-4H-quinolizine-based core structure has been successfully developed. The synthesis made use of a one-pot Stobbe condensation follo...", "citations": 2, "author_count": 7, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2450, "doi": "10.1080/00397911.2015.1112918", "umap_coordinates": { "x": 394.4855651855469, "y": 135.46047973632812, "z": 205.23854064941406 }, "tsne_coordinates": { "x": 0.28799453377723694, "y": 10.758798599243164, "z": -11.955551147460938 }, "pca_coordinates": { "x": -1.719987392425537, "y": 1.7415642738342285, "z": -0.8673710823059082 }, "axis_scores": { "Quantum imaging": 0.7472131252288818, "Quantum Life Science Sensing": 0.7244210243225098, "Quantum sensing Detection": 0.7197328209877014, "Quantum sensing Metrology": 0.7038232088088989, "Quantum sensing navigation": 0.7278632521629333, "Quantum sensing Position": 0.6872698068618774, "Quantum sensing Timing": 0.702555775642395, "Quantum sensing": 0.7369346022605896, "Quantum control": 0.7392235994338989 } }, { "id": 2447, "title": "Storage and Recall of Weak Coherent Optical Pulses with an Efficiency of 25%", "abstract": "We demonstrate experimentally an efficient coherent rephasing scheme for the storage and recall of weak coherent light pulses in an inhomogeneously broadened optical transition in a Pr3+: YSO crystal ...", "citations": 48, "author_count": 8, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2451, "doi": "10.1103/PhysRevLett.105.060501", "umap_coordinates": { "x": 395.6357116699219, "y": 136.02886962890625, "z": 207.9439697265625 }, "tsne_coordinates": { "x": -15.010650634765625, "y": -14.78632640838623, "z": -8.181458473205566 }, "pca_coordinates": { "x": 3.4544596672058105, "y": 0.05686664581298828, "z": 1.9773030281066895 }, "axis_scores": { "Quantum imaging": 0.704448938369751, "Quantum Life Science Sensing": 0.7268773913383484, "Quantum sensing Detection": 0.7125273942947388, "Quantum sensing Metrology": 0.682422935962677, "Quantum sensing navigation": 0.6908299922943115, "Quantum sensing Position": 0.6778817772865295, "Quantum sensing Timing": 0.686312198638916, "Quantum sensing": 0.7134364247322083, "Quantum control": 0.6744811534881592 } }, { "id": 2448, "title": "Few-body Krein's formula", "abstract": "Selfadjoint extensions of symmetric operators with infinite deficiency indices are discussed. In particular the operators describing the system of several quantum particles with generalized point inte...", "citations": 5, "author_count": 3, "categories": [ "Engineering" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2452, "doi": null, "umap_coordinates": { "x": 391.71484375, "y": 139.68035888671875, "z": 209.19105529785156 }, "tsne_coordinates": { "x": -7.119815826416016, "y": 43.28993225097656, "z": 3.820384979248047 }, "pca_coordinates": { "x": -0.015832066535949707, "y": 4.504782676696777, "z": -3.122549057006836 }, "axis_scores": { "Quantum imaging": 0.6782858967781067, "Quantum Life Science Sensing": 0.7081127166748047, "Quantum sensing Detection": 0.6718416213989258, "Quantum sensing Metrology": 0.667285680770874, "Quantum sensing navigation": 0.6772105693817139, "Quantum sensing Position": 0.6645494699478149, "Quantum sensing Timing": 0.6520218849182129, "Quantum sensing": 0.6893633008003235, "Quantum control": 0.6702189445495605 } }, { "id": 2449, "title": "Superconducting quantum interference at the atomic scale", "abstract": "A single spin in a Josephson junction can reverse the flow of the supercurrent by changing the sign of the superconducting phase difference across it. At mesoscopic length scales, these pi-junctions a...", "citations": 30, "author_count": 13, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2453, "doi": "10.1038/s41567-022-01644-6", "umap_coordinates": { "x": 393.5438232421875, "y": 135.389892578125, "z": 207.3158721923828 }, "tsne_coordinates": { "x": 5.347663879394531, "y": -10.350610733032227, "z": 11.925007820129395 }, "pca_coordinates": { "x": 2.0822594165802, "y": -1.2706074714660645, "z": 0.48748642206192017 }, "axis_scores": { "Quantum imaging": 0.758594810962677, "Quantum Life Science Sensing": 0.7543414235115051, "Quantum sensing Detection": 0.7554364204406738, "Quantum sensing Metrology": 0.7428461909294128, "Quantum sensing navigation": 0.7535550594329834, "Quantum sensing Position": 0.754224419593811, "Quantum sensing Timing": 0.7487216591835022, "Quantum sensing": 0.7712111473083496, "Quantum control": 0.7297378182411194 } }, { "id": 2450, "title": "Hot-Carrier Generation in Plasmonic Nanoparticles: The Importance of Atomic Structure", "abstract": "Metal nanoparticles are attractive for plasmon-enhanced generation of hot carriers, which may be harnessed in photochemical reactions. In this work, we analyze the coherent femtosecond dynamics of pho...", "citations": 153, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2454, "doi": "10.1021/acsnano.0c03004", "umap_coordinates": { "x": 392.4729309082031, "y": 134.0994873046875, "z": 206.04441833496094 }, "tsne_coordinates": { "x": 10.101603507995605, "y": -11.37777328491211, "z": -9.940900802612305 }, "pca_coordinates": { "x": -1.089603304862976, "y": -3.7625484466552734, "z": -1.4745337963104248 }, "axis_scores": { "Quantum imaging": 0.6968135237693787, "Quantum Life Science Sensing": 0.7033937573432922, "Quantum sensing Detection": 0.687445342540741, "Quantum sensing Metrology": 0.6760715246200562, "Quantum sensing navigation": 0.6894571781158447, "Quantum sensing Position": 0.6852946877479553, "Quantum sensing Timing": 0.6747403144836426, "Quantum sensing": 0.6978139877319336, "Quantum control": 0.6735847592353821 } }, { "id": 2451, "title": "Unassisted Switchable Dual-Photoelectrode Devices Utilizing p-n Carbon Quantum Dots as Semiconductor Electrolytes: Optimization Between H2O2 and Solar Electricity Production", "abstract": "Switchable self-driven photoelectrochemical (PEC) devices are developed to boost H2O2 or electricity generation under visible-light illumination, in which p-n type carbon quantum dots (N-CQDs) is appl...", "citations": 1, "author_count": 10, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2455, "doi": "10.1002/advs.202417204", "umap_coordinates": { "x": 392.53424072265625, "y": 134.13055419921875, "z": 204.68942260742188 }, "tsne_coordinates": { "x": 29.72852325439453, "y": 11.221277236938477, "z": -0.43685176968574524 }, "pca_coordinates": { "x": -3.154520034790039, "y": -2.128390312194824, "z": -1.4494154453277588 }, "axis_scores": { "Quantum imaging": 0.6695075035095215, "Quantum Life Science Sensing": 0.7024945616722107, "Quantum sensing Detection": 0.6796846985816956, "Quantum sensing Metrology": 0.6588106155395508, "Quantum sensing navigation": 0.67755526304245, "Quantum sensing Position": 0.6572088599205017, "Quantum sensing Timing": 0.6367031931877136, "Quantum sensing": 0.6931902766227722, "Quantum control": 0.681403398513794 } }, { "id": 2452, "title": "Highly efficient, transparent and stable semitransparent colloidal quantum dot solar cells: a combined numerical modeling and experimental approach", "abstract": "Semitransparent solar cells (SSCs) can open new photovoltaic applications in many areas. However, because of the fundamental trade-off between optical transparency and photovoltaic efficiency, it is o...", "citations": 47, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2456, "doi": "10.1039/c6ee02824a", "umap_coordinates": { "x": 391.861572265625, "y": 134.8445281982422, "z": 205.19729614257812 }, "tsne_coordinates": { "x": 23.025917053222656, "y": -4.038962364196777, "z": -11.908440589904785 }, "pca_coordinates": { "x": -2.3745219707489014, "y": -3.231790065765381, "z": -1.5585705041885376 }, "axis_scores": { "Quantum imaging": 0.6824721097946167, "Quantum Life Science Sensing": 0.7205671668052673, "Quantum sensing Detection": 0.6774610280990601, "Quantum sensing Metrology": 0.6797911524772644, "Quantum sensing navigation": 0.6672853231430054, "Quantum sensing Position": 0.6538969874382019, "Quantum sensing Timing": 0.643345057964325, "Quantum sensing": 0.6935330629348755, "Quantum control": 0.6593263149261475 } }, { "id": 2453, "title": "Blinking, Flickering, and Correlation in Fluorescence of Single Colloidal CdSe Quantum Dots with Different Shells under Different Excitations", "abstract": "We studied the fluorescence spectra from single CdSe core-CdS/ZnS and CdS/CdZnS/ZnS shell colloidal quantum dots (QDs) (different shell thicknesses and different surface ligands) under different optic...", "citations": 30, "author_count": 6, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2457, "doi": "10.1021/jp311975h", "umap_coordinates": { "x": 392.2081298828125, "y": 134.65185546875, "z": 206.93331909179688 }, "tsne_coordinates": { "x": 23.356361389160156, "y": 0.4171973466873169, "z": 4.744946002960205 }, "pca_coordinates": { "x": -0.5329050421714783, "y": -2.918358325958252, "z": -0.8788663148880005 }, "axis_scores": { "Quantum imaging": 0.7045436501502991, "Quantum Life Science Sensing": 0.726307213306427, "Quantum sensing Detection": 0.7091946601867676, "Quantum sensing Metrology": 0.695153534412384, "Quantum sensing navigation": 0.6907120943069458, "Quantum sensing Position": 0.6927984952926636, "Quantum sensing Timing": 0.684186577796936, "Quantum sensing": 0.7151229381561279, "Quantum control": 0.6739324927330017 } }, { "id": 2454, "title": "Characterization of deep levels at GaAs/GaAs and GaAs/InAs interfaces grown by MBE-interrupted growth technique", "abstract": "In order to find the origin of crystalline defects occurring in the preparation of InAs/GaAs quantum dots (QDs), their appearance was tracked through three different sample types designed as Schottky ...", "citations": 9, "author_count": 5, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2458, "doi": "10.1002/pssa.200674158", "umap_coordinates": { "x": 392.5030517578125, "y": 134.3456268310547, "z": 207.7047882080078 }, "tsne_coordinates": { "x": 37.42702102661133, "y": -8.728493690490723, "z": 13.227766036987305 }, "pca_coordinates": { "x": -0.39805519580841064, "y": -0.6848015785217285, "z": 0.9723343253135681 }, "axis_scores": { "Quantum imaging": 0.6813585758209229, "Quantum Life Science Sensing": 0.6988261342048645, "Quantum sensing Detection": 0.6648641228675842, "Quantum sensing Metrology": 0.6692892909049988, "Quantum sensing navigation": 0.6739698648452759, "Quantum sensing Position": 0.6834713220596313, "Quantum sensing Timing": 0.6795567274093628, "Quantum sensing": 0.6791452765464783, "Quantum control": 0.6568847298622131 } }, { "id": 2455, "title": "A VERSION OF QUANTUM MEASURE IN REGGE CALCULUS IN 3 DIMENSIONS", "abstract": "We propose a version of quantum measure in 3D Regge calculus based on principles of analyticity, canonical quantization and equivalence of different coordinates. This measure is specified by the follo...", "citations": 10, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 2459, "doi": "10.1088/0264-9381/11/10/006", "umap_coordinates": { "x": 395.36749267578125, "y": 136.63978576660156, "z": 206.99713134765625 }, "tsne_coordinates": { "x": -33.42264938354492, "y": -2.983635902404785, "z": 2.3598568439483643 }, "pca_coordinates": { "x": 2.697645425796509, "y": 3.7341959476470947, "z": 0.5604299902915955 }, "axis_scores": { "Quantum imaging": 0.7404957413673401, "Quantum Life Science Sensing": 0.7400320768356323, "Quantum sensing Detection": 0.7386597394943237, "Quantum sensing Metrology": 0.7410353422164917, "Quantum sensing navigation": 0.7583121061325073, "Quantum sensing Position": 0.7405228614807129, "Quantum sensing Timing": 0.7105173468589783, "Quantum sensing": 0.7540240287780762, "Quantum control": 0.7372090220451355 } }, { "id": 2456, "title": "Controlling surface plasmon interference in branched silver nanowire structures", "abstract": "Using quantum dot fluorescence imaging, we investigated the interference of surface plasmon beams in branched silver nanowire structures. Depending on the phases and polarizations of the incident ligh...", "citations": 27, "author_count": 3, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2460, "doi": "10.1039/c2nr31551c", "umap_coordinates": { "x": 392.19146728515625, "y": 134.27264404296875, "z": 206.4774932861328 }, "tsne_coordinates": { "x": 12.657208442687988, "y": -13.63513469696045, "z": -5.292042255401611 }, "pca_coordinates": { "x": -1.2129337787628174, "y": -3.1036248207092285, "z": -0.6147571802139282 }, "axis_scores": { "Quantum imaging": 0.6837272644042969, "Quantum Life Science Sensing": 0.6922057867050171, "Quantum sensing Detection": 0.6961897015571594, "Quantum sensing Metrology": 0.6869553923606873, "Quantum sensing navigation": 0.7137042880058289, "Quantum sensing Position": 0.672267496585846, "Quantum sensing Timing": 0.6436541080474854, "Quantum sensing": 0.7019060850143433, "Quantum control": 0.7161206603050232 } }, { "id": 2457, "title": "1-μm spatial resolution in silicon photon-counting CT detectors", "abstract": "Purpose: Spatial resolution for current scintillator-based computed tomography (CT) detectors is limited by the pixel size of about 1 mm. Direct conversion photon-counting detector prototypes with sil...", "citations": 20, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2461, "doi": "10.1117/1.JMI.8.6.063501", "umap_coordinates": { "x": 395.34893798828125, "y": 132.58401489257812, "z": 205.68898010253906 }, "tsne_coordinates": { "x": -9.001181602478027, "y": 16.353532791137695, "z": -21.311840057373047 }, "pca_coordinates": { "x": -1.7508809566497803, "y": 1.000566005706787, "z": 4.692441463470459 }, "axis_scores": { "Quantum imaging": 0.7496082186698914, "Quantum Life Science Sensing": 0.7216112017631531, "Quantum sensing Detection": 0.7314809560775757, "Quantum sensing Metrology": 0.7362077236175537, "Quantum sensing navigation": 0.7104414701461792, "Quantum sensing Position": 0.7134252786636353, "Quantum sensing Timing": 0.7138746380805969, "Quantum sensing": 0.7288352251052856, "Quantum control": 0.6597719788551331 } }, { "id": 2458, "title": "The symmetry of two-photon excited states as determined by time-resolved fluorescence depolarization experiments", "abstract": "A new experimental and theoretical approach is presented for the quantitative determination and assignment of the two-photon absorption tensor of fluorophores dissolved in liquid solutions. Two linear...", "citations": 9, "author_count": 4, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2462, "doi": "10.1021/jp074506g", "umap_coordinates": { "x": 392.6429748535156, "y": 136.08892822265625, "z": 206.03109741210938 }, "tsne_coordinates": { "x": 3.5878260135650635, "y": -0.11475668102502823, "z": 4.303772926330566 }, "pca_coordinates": { "x": -0.87888503074646, "y": -0.44625234603881836, "z": -1.566888451576233 }, "axis_scores": { "Quantum imaging": 0.724927544593811, "Quantum Life Science Sensing": 0.7447916865348816, "Quantum sensing Detection": 0.7131343483924866, "Quantum sensing Metrology": 0.7057697772979736, "Quantum sensing navigation": 0.709882915019989, "Quantum sensing Position": 0.7005190849304199, "Quantum sensing Timing": 0.7007704973220825, "Quantum sensing": 0.7230885028839111, "Quantum control": 0.6860548853874207 } }, { "id": 2459, "title": "Superfluid flow above the critical velocity", "abstract": "Superfluidity and superconductivity have been widely studied since the last century in many different contexts ranging from nuclear matter to atomic quantum gases. The rigidity of these systems with r...", "citations": 12, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2463, "doi": "10.1038/s41598-017-08941-8", "umap_coordinates": { "x": 393.8747863769531, "y": 136.51162719726562, "z": 207.08840942382812 }, "tsne_coordinates": { "x": 0.23457010090351105, "y": -18.217565536499023, "z": 27.65785026550293 }, "pca_coordinates": { "x": 0.26892876625061035, "y": 1.5287988185882568, "z": -0.9993363618850708 }, "axis_scores": { "Quantum imaging": 0.686608612537384, "Quantum Life Science Sensing": 0.6885840892791748, "Quantum sensing Detection": 0.6709482073783875, "Quantum sensing Metrology": 0.6631118655204773, "Quantum sensing navigation": 0.6863711476325989, "Quantum sensing Position": 0.684106707572937, "Quantum sensing Timing": 0.6744844913482666, "Quantum sensing": 0.6778087615966797, "Quantum control": 0.6599813103675842 } }, { "id": 2460, "title": "Thermoelectric efficiency at maximum power in low-dimensional systems", "abstract": "Low-dimensional electronic systems in thermoelectrics have the potential to achieve high thermal-to-electric energy conversion efficiency. A key measure of performance is the efficiency when the devic...", "citations": 196, "author_count": 4, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2464, "doi": "10.1103/PhysRevB.82.235428", "umap_coordinates": { "x": 395.17926025390625, "y": 135.04833984375, "z": 208.46864318847656 }, "tsne_coordinates": { "x": 3.9694440364837646, "y": -20.424409866333008, "z": -8.922643661499023 }, "pca_coordinates": { "x": 2.8302016258239746, "y": -2.2652344703674316, "z": 0.3057857155799866 }, "axis_scores": { "Quantum imaging": 0.6952657699584961, "Quantum Life Science Sensing": 0.7131999731063843, "Quantum sensing Detection": 0.6859883666038513, "Quantum sensing Metrology": 0.6761951446533203, "Quantum sensing navigation": 0.6744362711906433, "Quantum sensing Position": 0.68104088306427, "Quantum sensing Timing": 0.6605416536331177, "Quantum sensing": 0.6927745342254639, "Quantum control": 0.6695960760116577 } }, { "id": 2461, "title": "A high-resolution HCANH experiment with enhanced sensitivity via multiple quantum line narrowing", "abstract": "We report a 3D constant-time HCANH experiment (CTSL-HCANH) that uses the slower relaxation of multiple-quantum coherence to increase sensitivity and provides high C-alpha resolution. In this experimen...", "citations": 8, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2465, "doi": "10.1023/A:1008308307363", "umap_coordinates": { "x": 393.4757995605469, "y": 134.61175537109375, "z": 205.91464233398438 }, "tsne_coordinates": { "x": 13.78149700164795, "y": -7.273621082305908, "z": -6.135128498077393 }, "pca_coordinates": { "x": -0.8701457977294922, "y": -0.18245744705200195, "z": 2.03837251663208 }, "axis_scores": { "Quantum imaging": 0.6935341954231262, "Quantum Life Science Sensing": 0.674701452255249, "Quantum sensing Detection": 0.6843921542167664, "Quantum sensing Metrology": 0.6882642507553101, "Quantum sensing navigation": 0.6762877106666565, "Quantum sensing Position": 0.6555601954460144, "Quantum sensing Timing": 0.6630192995071411, "Quantum sensing": 0.6978793144226074, "Quantum control": 0.661681592464447 } }, { "id": 2462, "title": "Reduction of the Wave-packet Can Be Understood Within Quantum Mechanics", "abstract": "A quantum-mechanical model is constructed for a microscopic quantum system in interaction with a macroscopic measurement apparatus (described by a large number of stochastic variables). The theoretica...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2466, "doi": "10.1063/1.3688954", "umap_coordinates": { "x": 395.16168212890625, "y": 137.16310119628906, "z": 207.3481903076172 }, "tsne_coordinates": { "x": -20.113399505615234, "y": -22.008724212646484, "z": 2.578831672668457 }, "pca_coordinates": { "x": 3.654303550720215, "y": 1.6676400899887085, "z": 0.2623598575592041 }, "axis_scores": { "Quantum imaging": 0.7520150542259216, "Quantum Life Science Sensing": 0.749744176864624, "Quantum sensing Detection": 0.7463772892951965, "Quantum sensing Metrology": 0.731878936290741, "Quantum sensing navigation": 0.7475138902664185, "Quantum sensing Position": 0.7146251201629639, "Quantum sensing Timing": 0.7030027508735657, "Quantum sensing": 0.7593784332275391, "Quantum control": 0.7284110188484192 } }, { "id": 2463, "title": "Solvophobic-controlled synthesis of smart magneto-fluorescent nanostructures for real-time inspection of metallic fractures", "abstract": "The production of materials that contain more than one functional constituent, the so-called multifunctional materials, is quite relevant in advanced technology. By acting as building blocks, nanopart...", "citations": 10, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2467, "doi": "10.1039/d1na00149c", "umap_coordinates": { "x": 392.3551940917969, "y": 134.69874572753906, "z": 205.2606658935547 }, "tsne_coordinates": { "x": 13.380502700805664, "y": 8.831430435180664, "z": -13.634716987609863 }, "pca_coordinates": { "x": -3.095407009124756, "y": -0.5774424076080322, "z": -0.9161902070045471 }, "axis_scores": { "Quantum imaging": 0.6942282915115356, "Quantum Life Science Sensing": 0.7287318706512451, "Quantum sensing Detection": 0.698206901550293, "Quantum sensing Metrology": 0.7110594511032104, "Quantum sensing navigation": 0.7083595991134644, "Quantum sensing Position": 0.6621456146240234, "Quantum sensing Timing": 0.6421138644218445, "Quantum sensing": 0.7092896103858948, "Quantum control": 0.6640818119049072 } }, { "id": 2464, "title": "Two-state model for vortex nucleation in a rotating Bose-Einstein condensate", "abstract": "It is well known that a rotating Bose-Einstein condensate forms vortices to carry the angular momentum. For a first vortex to nucleate at the trap center, the rotational frequency must become larger t...", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2468, "doi": "10.1103/PhysRevA.100.063638", "umap_coordinates": { "x": 394.1433410644531, "y": 136.8323516845703, "z": 208.38815307617188 }, "tsne_coordinates": { "x": -15.881006240844727, "y": -21.719406127929688, "z": 20.653675079345703 }, "pca_coordinates": { "x": 3.790846347808838, "y": 1.0398147106170654, "z": -2.439054489135742 }, "axis_scores": { "Quantum imaging": 0.6749340295791626, "Quantum Life Science Sensing": 0.7051751613616943, "Quantum sensing Detection": 0.6918523907661438, "Quantum sensing Metrology": 0.6691993474960327, "Quantum sensing navigation": 0.6873880624771118, "Quantum sensing Position": 0.6678410768508911, "Quantum sensing Timing": 0.6926847100257874, "Quantum sensing": 0.6888254284858704, "Quantum control": 0.7002344727516174 } }, { "id": 2465, "title": "Quantum epistemology from subquantum ontology: Quantum mechanics from theory of classical random fields", "abstract": "The scientific methodology based on two descriptive levels, ontic (reality as it is) and epistemic (observational), is briefly presented. Following Schrodinger, we point to the possible gap between th...", "citations": 19, "author_count": 2, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2469, "doi": "10.1016/j.aop.2016.12.005", "umap_coordinates": { "x": 395.243896484375, "y": 137.38905334472656, "z": 205.84170532226562 }, "tsne_coordinates": { "x": -29.894811630249023, "y": 11.745203971862793, "z": 15.829400062561035 }, "pca_coordinates": { "x": 1.3813698291778564, "y": 3.13179874420166, "z": -2.00437068939209 }, "axis_scores": { "Quantum imaging": 0.7675901651382446, "Quantum Life Science Sensing": 0.792399525642395, "Quantum sensing Detection": 0.7782337665557861, "Quantum sensing Metrology": 0.7703663110733032, "Quantum sensing navigation": 0.7740176320075989, "Quantum sensing Position": 0.7371604442596436, "Quantum sensing Timing": 0.7139293551445007, "Quantum sensing": 0.7933716773986816, "Quantum control": 0.756928563117981 } }, { "id": 2466, "title": "Boundary conditions for electron tunneling in complex two- and three-dimensional structures - art. no. 165103", "abstract": "We present boundary conditions given in integro-differential form for the single-particle two-dimensional (2D) or 3D Schrodinger equation, which allows for a treatment of nontrivial geometries, and an...", "citations": 1, "author_count": 4, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2470, "doi": "10.1103/PhysRevB.72.165103", "umap_coordinates": { "x": 394.40655517578125, "y": 135.6951904296875, "z": 208.9859619140625 }, "tsne_coordinates": { "x": 1.140876293182373, "y": -32.740936279296875, "z": -1.902953028678894 }, "pca_coordinates": { "x": 3.949589729309082, "y": -0.20543575286865234, "z": -1.5946357250213623 }, "axis_scores": { "Quantum imaging": 0.6931335926055908, "Quantum Life Science Sensing": 0.7122235894203186, "Quantum sensing Detection": 0.6843763589859009, "Quantum sensing Metrology": 0.7000665664672852, "Quantum sensing navigation": 0.708071231842041, "Quantum sensing Position": 0.6792212724685669, "Quantum sensing Timing": 0.6704412698745728, "Quantum sensing": 0.6976545453071594, "Quantum control": 0.698278546333313 } }, { "id": 2467, "title": "Electron transport through nanosystems driven by Coulomb scattering", "abstract": "Electron transmission through nanosystems is blocked if there are no states connecting the left and the right reservoir. Electron-electron scattering can lift this blockade, and we show that this feat...", "citations": 3, "author_count": 3, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2471, "doi": "10.1103/PhysRevB.76.075316", "umap_coordinates": { "x": 394.2765197753906, "y": 134.86326599121094, "z": 208.9893798828125 }, "tsne_coordinates": { "x": 8.648494720458984, "y": -35.260498046875, "z": 7.936445713043213 }, "pca_coordinates": { "x": 3.4312052726745605, "y": -2.8549890518188477, "z": 0.7521747946739197 }, "axis_scores": { "Quantum imaging": 0.7458817958831787, "Quantum Life Science Sensing": 0.7661712169647217, "Quantum sensing Detection": 0.7537877559661865, "Quantum sensing Metrology": 0.7392390966415405, "Quantum sensing navigation": 0.7655171155929565, "Quantum sensing Position": 0.702933669090271, "Quantum sensing Timing": 0.6918959021568298, "Quantum sensing": 0.7679036259651184, "Quantum control": 0.7386746406555176 } }, { "id": 2468, "title": "Experimental realization of a differential charge qubit", "abstract": "We demonstrate the operation of a differential single Cooper-pair box, a charge qubit consisting of two aluminum islands, isolated from ground, coupled by a pair of small-area Josephson junctions. We ...", "citations": 8, "author_count": 6, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2472, "doi": "10.1109/TASC.2007.898653", "umap_coordinates": { "x": 395.0254211425781, "y": 135.47824096679688, "z": 207.3423309326172 }, "tsne_coordinates": { "x": -21.074954986572266, "y": -11.847490310668945, "z": -3.228541612625122 }, "pca_coordinates": { "x": 2.926608085632324, "y": 0.3306255340576172, "z": 1.7139060497283936 }, "axis_scores": { "Quantum imaging": 0.7576953172683716, "Quantum Life Science Sensing": 0.7557644844055176, "Quantum sensing Detection": 0.7787670493125916, "Quantum sensing Metrology": 0.7609446048736572, "Quantum sensing navigation": 0.7561414837837219, "Quantum sensing Position": 0.7506943345069885, "Quantum sensing Timing": 0.762393593788147, "Quantum sensing": 0.7874643206596375, "Quantum control": 0.7600376605987549 } }, { "id": 2469, "title": "Detective quantum efficiency of photon-counting CdTe and Si detectors for computed tomography: a simulation study", "abstract": "Purpose: Developing photon-counting CT detectors requires understanding the impact of parameters, such as converter material, thickness, and pixel size. We apply a linear-systems framework, incorporat...", "citations": 45, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2473, "doi": "10.1117/1.JMI.7.4.043501", "umap_coordinates": { "x": 395.3382873535156, "y": 132.5332794189453, "z": 205.50372314453125 }, "tsne_coordinates": { "x": -8.893821716308594, "y": 18.35409164428711, "z": -20.371780395507812 }, "pca_coordinates": { "x": -1.7558528184890747, "y": 0.9131326675415039, "z": 4.690025806427002 }, "axis_scores": { "Quantum imaging": 0.7659286856651306, "Quantum Life Science Sensing": 0.7492706775665283, "Quantum sensing Detection": 0.7604143619537354, "Quantum sensing Metrology": 0.7346528768539429, "Quantum sensing navigation": 0.71267169713974, "Quantum sensing Position": 0.6975041627883911, "Quantum sensing Timing": 0.7130439877510071, "Quantum sensing": 0.7434778809547424, "Quantum control": 0.6830146908760071 } }, { "id": 2470, "title": "Characterization of fluorescein-oligonucleotide conjugates and measurement of local electrostatic potential", "abstract": "The properties of fluorescein are substantially altered upon conjugation to nucleic acids, affecting not only the molar absorptivities and fluorescence quantum yields but also the protolytic equilibri...", "citations": 122, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2474, "doi": null, "umap_coordinates": { "x": 391.5051574707031, "y": 139.5328826904297, "z": 209.8678741455078 }, "tsne_coordinates": { "x": -3.8356099128723145, "y": 44.25733184814453, "z": -7.274365425109863 }, "pca_coordinates": { "x": -2.839905023574829, "y": 2.9756288528442383, "z": -2.186744213104248 }, "axis_scores": { "Quantum imaging": 0.7124313712120056, "Quantum Life Science Sensing": 0.7442262768745422, "Quantum sensing Detection": 0.7213000059127808, "Quantum sensing Metrology": 0.7189956903457642, "Quantum sensing navigation": 0.7411931157112122, "Quantum sensing Position": 0.7258011102676392, "Quantum sensing Timing": 0.6773667931556702, "Quantum sensing": 0.7266600131988525, "Quantum control": 0.7061268091201782 } }, { "id": 2471, "title": "Five-second coherence of a single spin with single-shot readout in silicon carbide", "abstract": "An outstanding hurdle for defect spin qubits in silicon carbide (SiC) is single-shot readout, a deterministic measurement of the quantum state. Here, we demonstrate single-shot readout of single defec...", "citations": 136, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2475, "doi": "10.1126/sciadv.abm5912", "umap_coordinates": { "x": 394.6618347167969, "y": 134.26779174804688, "z": 207.6372833251953 }, "tsne_coordinates": { "x": 3.6934149265289307, "y": -8.418054580688477, "z": 28.754974365234375 }, "pca_coordinates": { "x": 1.364382028579712, "y": -0.46323156356811523, "z": 2.873351573944092 }, "axis_scores": { "Quantum imaging": 0.7068970799446106, "Quantum Life Science Sensing": 0.7115212678909302, "Quantum sensing Detection": 0.7000589966773987, "Quantum sensing Metrology": 0.7097132205963135, "Quantum sensing navigation": 0.7018371820449829, "Quantum sensing Position": 0.6701720952987671, "Quantum sensing Timing": 0.6967161297798157, "Quantum sensing": 0.7068814039230347, "Quantum control": 0.6877213716506958 } }, { "id": 2472, "title": "Model for measuring light stability of photolabile substances in powder beds using spray dried bixin microcapsules", "abstract": "Light stability of different spray dried microencapsulated powders containing the natural colorant bixin was evaluated for 30 days. The encapsulating materials evaluated were sucrose, maltodextrin, an...", "citations": 3, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2476, "doi": "10.1016/j.colsurfa.2021.127131", "umap_coordinates": { "x": 394.0367736816406, "y": 135.15420532226562, "z": 204.4214630126953 }, "tsne_coordinates": { "x": 8.352804183959961, "y": 16.68533706665039, "z": -4.496386528015137 }, "pca_coordinates": { "x": -3.080500841140747, "y": 1.5250957012176514, "z": -0.19028550386428833 }, "axis_scores": { "Quantum imaging": 0.7100479602813721, "Quantum Life Science Sensing": 0.7721284627914429, "Quantum sensing Detection": 0.7075574398040771, "Quantum sensing Metrology": 0.7283036708831787, "Quantum sensing navigation": 0.7002683281898499, "Quantum sensing Position": 0.7114971280097961, "Quantum sensing Timing": 0.680581271648407, "Quantum sensing": 0.7252651453018188, "Quantum control": 0.7060725688934326 } }, { "id": 2473, "title": "Dual emission in asymmetric giant PbS/CdS/CdS core/shell/shell quantum dots", "abstract": "Semiconducting nanocrystals optically active in the infrared region of the electromagnetic spectrum enable exciting avenues in fundamental research and novel applications compatible with the infrared ...", "citations": 57, "author_count": 10, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2477, "doi": "10.1039/c5nr08881j", "umap_coordinates": { "x": 392.0221862792969, "y": 134.16639709472656, "z": 206.80377197265625 }, "tsne_coordinates": { "x": 16.097532272338867, "y": -9.010491371154785, "z": -1.6351677179336548 }, "pca_coordinates": { "x": -1.1957707405090332, "y": -4.303807258605957, "z": 0.0280609130859375 }, "axis_scores": { "Quantum imaging": 0.7164245247840881, "Quantum Life Science Sensing": 0.7188856601715088, "Quantum sensing Detection": 0.709686815738678, "Quantum sensing Metrology": 0.6853736639022827, "Quantum sensing navigation": 0.6954941153526306, "Quantum sensing Position": 0.6651070713996887, "Quantum sensing Timing": 0.6521807909011841, "Quantum sensing": 0.7111881971359253, "Quantum control": 0.6764578819274902 } }, { "id": 2474, "title": "Antireflective coatings of ZnO quantum dots and their photocatalytic activity", "abstract": "Thin films of ZnO quantum dots of different sizes have been deposited on conducting glass substrates. The films are transparent and work as antireflective coatings in the visible region. The negative ...", "citations": 33, "author_count": 3, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2478, "doi": "10.1039/c2ra21566g", "umap_coordinates": { "x": 391.91778564453125, "y": 134.31581115722656, "z": 205.54039001464844 }, "tsne_coordinates": { "x": 12.64336109161377, "y": 1.1540619134902954, "z": -8.689876556396484 }, "pca_coordinates": { "x": -3.1340839862823486, "y": -3.769988536834717, "z": -1.9872922897338867 }, "axis_scores": { "Quantum imaging": 0.6943233013153076, "Quantum Life Science Sensing": 0.7480523586273193, "Quantum sensing Detection": 0.7091159224510193, "Quantum sensing Metrology": 0.700607419013977, "Quantum sensing navigation": 0.6987335681915283, "Quantum sensing Position": 0.6880685091018677, "Quantum sensing Timing": 0.6641401052474976, "Quantum sensing": 0.7188323140144348, "Quantum control": 0.7041089534759521 } }, { "id": 2475, "title": "Formation of Nanofoam carbon and re-emergence of Superconductivity in compressed CaC6", "abstract": "Pressure can tune material's electronic properties and control its quantum state, making some systems present disconnected superconducting region as observed in iron chalcogenides and heavy fermion Ce...", "citations": 29, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2479, "doi": "10.1038/srep03331", "umap_coordinates": { "x": 392.8522644042969, "y": 136.39222717285156, "z": 205.86953735351562 }, "tsne_coordinates": { "x": 11.409517288208008, "y": -6.379766941070557, "z": 3.1199638843536377 }, "pca_coordinates": { "x": -0.5446658730506897, "y": 0.027663469314575195, "z": -2.861477851867676 }, "axis_scores": { "Quantum imaging": 0.6658364534378052, "Quantum Life Science Sensing": 0.7190911173820496, "Quantum sensing Detection": 0.6549315452575684, "Quantum sensing Metrology": 0.6616895198822021, "Quantum sensing navigation": 0.6584060192108154, "Quantum sensing Position": 0.6436675190925598, "Quantum sensing Timing": 0.6358952522277832, "Quantum sensing": 0.6711745262145996, "Quantum control": 0.6552121639251709 } }, { "id": 2476, "title": "Phase transitions of a few-electron system in a spherical quantum dot - art. no. 075335", "abstract": "The spin configurations of a spherical quantum dot, defined by a three-dimensional (3D) harmonic confinement potential, containing a few Coulomb Fermi particles (electrons or holes) are studied. Quant...", "citations": 18, "author_count": 5, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2480, "doi": "10.1103/PhysRevB.66.075335", "umap_coordinates": { "x": 394.6130065917969, "y": 135.58578491210938, "z": 208.9976348876953 }, "tsne_coordinates": { "x": 4.7102460861206055, "y": -33.50172805786133, "z": 5.787271499633789 }, "pca_coordinates": { "x": 3.9711012840270996, "y": -1.5686874389648438, "z": -0.7190039157867432 }, "axis_scores": { "Quantum imaging": 0.7048247456550598, "Quantum Life Science Sensing": 0.7436601519584656, "Quantum sensing Detection": 0.7182572484016418, "Quantum sensing Metrology": 0.7205830812454224, "Quantum sensing navigation": 0.725644588470459, "Quantum sensing Position": 0.7025125026702881, "Quantum sensing Timing": 0.6838933825492859, "Quantum sensing": 0.7210860848426819, "Quantum control": 0.6844788789749146 } }, { "id": 2477, "title": "Modelling toxicity using molecular quantum similarity measures", "abstract": "In this work, a general procedure for the application of Molecular Quantum Similarity Measures (MQSM) into the Quantitative Structure-Toxicity Relationships (QSTR) field is presented. The methodology ...", "citations": 27, "author_count": 3, "categories": [ "Pharmacology & Pharmacy" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2481, "doi": "10.1002/qsar.200530128", "umap_coordinates": { "x": 394.09869384765625, "y": 136.912353515625, "z": 205.44435119628906 }, "tsne_coordinates": { "x": -14.255029678344727, "y": 16.124542236328125, "z": 21.930925369262695 }, "pca_coordinates": { "x": -0.6806384325027466, "y": 2.4996016025543213, "z": -0.6219724416732788 }, "axis_scores": { "Quantum imaging": 0.737385094165802, "Quantum Life Science Sensing": 0.7601152658462524, "Quantum sensing Detection": 0.7224453091621399, "Quantum sensing Metrology": 0.7287095189094543, "Quantum sensing navigation": 0.7260650992393494, "Quantum sensing Position": 0.6990667581558228, "Quantum sensing Timing": 0.6941328048706055, "Quantum sensing": 0.738418459892273, "Quantum control": 0.718687891960144 } }, { "id": 2478, "title": "Dynamics of a Raman coupled model: entanglement and quantum computation", "abstract": "The evolution of a Raman coupled three-level Lambda atom with two quantized cavity modes is studied in the large detuning case; i.e. when the upper atomic level can be adiabatically eliminated. Partic...", "citations": 13, "author_count": 3, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2482, "doi": "10.1080/0950034042000200498", "umap_coordinates": { "x": 394.6728515625, "y": 137.06614685058594, "z": 207.2152862548828 }, "tsne_coordinates": { "x": -27.377241134643555, "y": 0.2854457199573517, "z": 4.158360481262207 }, "pca_coordinates": { "x": 3.5632247924804688, "y": 2.9192099571228027, "z": -0.5867893695831299 }, "axis_scores": { "Quantum imaging": 0.7408339977264404, "Quantum Life Science Sensing": 0.7166914939880371, "Quantum sensing Detection": 0.7315545082092285, "Quantum sensing Metrology": 0.7023332118988037, "Quantum sensing navigation": 0.7311418056488037, "Quantum sensing Position": 0.7006317377090454, "Quantum sensing Timing": 0.7021631002426147, "Quantum sensing": 0.7378513216972351, "Quantum control": 0.7434479594230652 } }, { "id": 2479, "title": "Confinement effect on scattering states in a thin lead film: Field-induced resonance states in the high-bias regime of scanning tunneling microscopy", "abstract": "Field-induced resonance states in the high-bias regime of scanning tunneling microscopy are used to couple and probe the scattering states above the vacuum level in a thin lead film. The resonance ene...", "citations": 6, "author_count": 6, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2483, "doi": "10.1103/PhysRevB.76.113403", "umap_coordinates": { "x": 393.8444519042969, "y": 135.97109985351562, "z": 209.2373504638672 }, "tsne_coordinates": { "x": 1.8905575275421143, "y": -32.73552322387695, "z": 13.15103816986084 }, "pca_coordinates": { "x": 2.6912598609924316, "y": -1.5214810371398926, "z": -1.233415126800537 }, "axis_scores": { "Quantum imaging": 0.7123166918754578, "Quantum Life Science Sensing": 0.7282974123954773, "Quantum sensing Detection": 0.7186275720596313, "Quantum sensing Metrology": 0.6968662738800049, "Quantum sensing navigation": 0.708170473575592, "Quantum sensing Position": 0.6962219476699829, "Quantum sensing Timing": 0.6703413128852844, "Quantum sensing": 0.7284857034683228, "Quantum control": 0.7064544558525085 } }, { "id": 2480, "title": "Random Lasers as Social Processes Simulators", "abstract": "In this work, we suggest a quantum-like simulator concept to study social processes related to the solution of NP-hard problems. The simulator is based on the solaser model recently proposed by us in ...", "citations": 4, "author_count": 8, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2484, "doi": "10.3390/e25121601", "umap_coordinates": { "x": 394.97802734375, "y": 137.46717834472656, "z": 205.78768920898438 }, "tsne_coordinates": { "x": -25.627180099487305, "y": 12.490236282348633, "z": 11.508532524108887 }, "pca_coordinates": { "x": 0.14850306510925293, "y": 2.033984661102295, "z": -1.3985328674316406 }, "axis_scores": { "Quantum imaging": 0.7258236408233643, "Quantum Life Science Sensing": 0.7655926942825317, "Quantum sensing Detection": 0.7189672589302063, "Quantum sensing Metrology": 0.7128018140792847, "Quantum sensing navigation": 0.7423620223999023, "Quantum sensing Position": 0.6943238377571106, "Quantum sensing Timing": 0.6961314678192139, "Quantum sensing": 0.7412840127944946, "Quantum control": 0.7515755891799927 } }, { "id": 2481, "title": "PHOTOSYNTHETIC EFFICIENCY OF BETULA-PENDULA ACCLIMATED TO DIFFERENT QUANTUM FLUX DENSITIES", "abstract": "Seedlings of B. pendula were grown in a controlled environment chamber at quantum flux densities of 50, 250 and 600 .mu.mol m-2 s-1. The relationship between the flux densities of absorbed CO2 and qua...", "citations": 43, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1982, "topic": [ "all" ], "embedding_index": 2485, "doi": null, "umap_coordinates": { "x": 392.0599060058594, "y": 139.65338134765625, "z": 209.39883422851562 }, "tsne_coordinates": { "x": -1.496803879737854, "y": 46.33106231689453, "z": 4.658224582672119 }, "pca_coordinates": { "x": -2.14986515045166, "y": 1.9771710634231567, "z": -2.42573881149292 }, "axis_scores": { "Quantum imaging": 0.6918578147888184, "Quantum Life Science Sensing": 0.7345878481864929, "Quantum sensing Detection": 0.6981333494186401, "Quantum sensing Metrology": 0.7003042697906494, "Quantum sensing navigation": 0.6985801458358765, "Quantum sensing Position": 0.6847675442695618, "Quantum sensing Timing": 0.659975528717041, "Quantum sensing": 0.7086517810821533, "Quantum control": 0.7028494477272034 } }, { "id": 2482, "title": "Resolving Fock states near the Kerr-free point of a superconducting resonator", "abstract": "We have designed a tunable nonlinear resonator terminated by a SNAIL (Superconducting Nonlinear Asymmetric Inductive eLement). Such a device possesses a Kerr-free point in which the external magnetic ...", "citations": 6, "author_count": 8, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2486, "doi": "10.1038/s41534-023-00782-w", "umap_coordinates": { "x": 393.86456298828125, "y": 135.72085571289062, "z": 206.83351135253906 }, "tsne_coordinates": { "x": 2.6625959873199463, "y": -10.050110816955566, "z": 13.650145530700684 }, "pca_coordinates": { "x": 0.9965248107910156, "y": 0.6667404174804688, "z": -0.234843909740448 }, "axis_scores": { "Quantum imaging": 0.6955382227897644, "Quantum Life Science Sensing": 0.7227621078491211, "Quantum sensing Detection": 0.7091159224510193, "Quantum sensing Metrology": 0.720839262008667, "Quantum sensing navigation": 0.7159231901168823, "Quantum sensing Position": 0.733323335647583, "Quantum sensing Timing": 0.6989795565605164, "Quantum sensing": 0.7235790491104126, "Quantum control": 0.6584504842758179 } }, { "id": 2483, "title": "Feature issue introduction: shaping and patterning crystals for optics", "abstract": "Shaping and patterning of bulk or thin layer crystals and ceramics are one of the new frontiers in the field of laser and nonlinear optics. These technical aspects are rarely published, but they are c...", "citations": 1, "author_count": 5, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2487, "doi": "10.1364/OME.7.003466", "umap_coordinates": { "x": 394.2767333984375, "y": 134.19674682617188, "z": 206.1988525390625 }, "tsne_coordinates": { "x": 0.16122210025787354, "y": -16.420251846313477, "z": -31.100587844848633 }, "pca_coordinates": { "x": -1.7244209051132202, "y": 1.4730793237686157, "z": 0.23046183586120605 }, "axis_scores": { "Quantum imaging": 0.730745792388916, "Quantum Life Science Sensing": 0.7107909917831421, "Quantum sensing Detection": 0.6969397068023682, "Quantum sensing Metrology": 0.7180500030517578, "Quantum sensing navigation": 0.7064512968063354, "Quantum sensing Position": 0.6946733593940735, "Quantum sensing Timing": 0.7057868242263794, "Quantum sensing": 0.7178401947021484, "Quantum control": 0.7292892336845398 } }, { "id": 2484, "title": "An expectation value expansion of Hermitian operators in a discrete Hilbert space", "abstract": "We discuss a real-valued expansion of any Hermitian operator defined in a Hilbert space of finite dimension N, where N is a prime number, or an integer power of a prime. The expansion has a direct int...", "citations": 12, "author_count": 4, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2488, "doi": "10.1088/1464-4266/3/3/314", "umap_coordinates": { "x": 394.52532958984375, "y": 136.72874450683594, "z": 206.7573699951172 }, "tsne_coordinates": { "x": -40.31129455566406, "y": 3.9351327419281006, "z": 5.831993103027344 }, "pca_coordinates": { "x": 2.3908042907714844, "y": 2.719456434249878, "z": 0.2592063546180725 }, "axis_scores": { "Quantum imaging": 0.7209587693214417, "Quantum Life Science Sensing": 0.7077537178993225, "Quantum sensing Detection": 0.7154116630554199, "Quantum sensing Metrology": 0.6995678544044495, "Quantum sensing navigation": 0.7168846726417542, "Quantum sensing Position": 0.7005441784858704, "Quantum sensing Timing": 0.6831647753715515, "Quantum sensing": 0.7270933389663696, "Quantum control": 0.6828356385231018 } }, { "id": 2485, "title": "Rate coefficient of CN formation through radiative association: A theoretical study of quantum effects", "abstract": "Radiative association of CN is simulated using a quantum dynamical as well as a semiclassical approach. A comparison of the resulting energy-resolved cross sections reveals striking quantum effects th...", "citations": 35, "author_count": 5, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2489, "doi": "10.1063/1.3196179", "umap_coordinates": { "x": 393.81048583984375, "y": 136.95413208007812, "z": 206.82395935058594 }, "tsne_coordinates": { "x": -6.3295392990112305, "y": 1.7942287921905518, "z": 21.583072662353516 }, "pca_coordinates": { "x": 0.8870944976806641, "y": 0.9229335784912109, "z": 0.09297853708267212 }, "axis_scores": { "Quantum imaging": 0.7235804796218872, "Quantum Life Science Sensing": 0.7330293655395508, "Quantum sensing Detection": 0.7382490634918213, "Quantum sensing Metrology": 0.7177928686141968, "Quantum sensing navigation": 0.7131842970848083, "Quantum sensing Position": 0.6977388262748718, "Quantum sensing Timing": 0.7067217826843262, "Quantum sensing": 0.7377682328224182, "Quantum control": 0.7199108600616455 } }, { "id": 2486, "title": "Single-shot charge qubit read-out using a single electron transistor:: back-action and fidelity", "abstract": "We analyze the fidelity of single shot read-out of a superconducting charge qubit (Cooper pair box) using a capacitively coupled radio-frequency single electron transistor (RF-SET). By comparing the t...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2490, "doi": "10.1016/S0921-4534(01)01183-2", "umap_coordinates": { "x": 394.4285583496094, "y": 133.95411682128906, "z": 208.46754455566406 }, "tsne_coordinates": { "x": 3.237215757369995, "y": -28.449125289916992, "z": -15.695369720458984 }, "pca_coordinates": { "x": 0.456720232963562, "y": -1.6167559623718262, "z": 2.3274078369140625 }, "axis_scores": { "Quantum imaging": 0.7109426856040955, "Quantum Life Science Sensing": 0.7306126356124878, "Quantum sensing Detection": 0.729857325553894, "Quantum sensing Metrology": 0.7264057993888855, "Quantum sensing navigation": 0.710863471031189, "Quantum sensing Position": 0.7035911083221436, "Quantum sensing Timing": 0.6969192028045654, "Quantum sensing": 0.7437021136283875, "Quantum control": 0.70485520362854 } }, { "id": 2487, "title": "Deuteration as a General Strategy to Enhance Azobenzene-Based Photopharmacology", "abstract": "Chemical photoswitches have become a widely used approach for the remote control of biological functions with spatiotemporal precision. Several molecular scaffolds have been implemented to improve pho...", "citations": 5, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2491, "doi": "10.1002/anie.202408300", "umap_coordinates": { "x": 392.57525634765625, "y": 134.4896697998047, "z": 204.51683044433594 }, "tsne_coordinates": { "x": 17.706613540649414, "y": 11.772552490234375, "z": -6.07005500793457 }, "pca_coordinates": { "x": -4.012659549713135, "y": 0.5905182361602783, "z": -0.5002063512802124 }, "axis_scores": { "Quantum imaging": 0.7208881378173828, "Quantum Life Science Sensing": 0.6939027309417725, "Quantum sensing Detection": 0.6730751991271973, "Quantum sensing Metrology": 0.6607030034065247, "Quantum sensing navigation": 0.674121618270874, "Quantum sensing Position": 0.66221684217453, "Quantum sensing Timing": 0.6654288172721863, "Quantum sensing": 0.6912686824798584, "Quantum control": 0.6902285814285278 } }, { "id": 2488, "title": "Spin injection loss in self-assembled InAs/GaAs quantum dot structures from disordered barrier layers", "abstract": "Semiconductor quantum dot (QD) structures are considered as promising building block for spintronic applications with the advantage of prolonged spin relaxation time owing to 0D character of confined ...", "citations": 1, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2492, "doi": null, "umap_coordinates": { "x": 391.890625, "y": 139.161865234375, "z": 209.3545684814453 }, "tsne_coordinates": { "x": -8.730010032653809, "y": 46.02863311767578, "z": -4.368707656860352 }, "pca_coordinates": { "x": 0.22676348686218262, "y": 0.8850576877593994, "z": -2.0420844554901123 }, "axis_scores": { "Quantum imaging": 0.7376012802124023, "Quantum Life Science Sensing": 0.7350440621376038, "Quantum sensing Detection": 0.7279620170593262, "Quantum sensing Metrology": 0.7132813930511475, "Quantum sensing navigation": 0.7345908880233765, "Quantum sensing Position": 0.7007696032524109, "Quantum sensing Timing": 0.6758722066879272, "Quantum sensing": 0.7368004322052002, "Quantum control": 0.7420182228088379 } }, { "id": 2489, "title": "Improved light extraction from emitters in high refractive index materials using solid immersion lenses", "abstract": "Solid immersion lenses (SILs) are optically transparent, truncated spheres, brought in contact with a sample to be imaged. The combination of a conventional optical microscope and a SIL results in a h...", "citations": 69, "author_count": 3, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2493, "doi": "10.1063/1.1487913", "umap_coordinates": { "x": 393.4443054199219, "y": 133.37643432617188, "z": 207.35806274414062 }, "tsne_coordinates": { "x": 31.971328735351562, "y": -8.579230308532715, "z": -14.944157600402832 }, "pca_coordinates": { "x": -1.8223518133163452, "y": -2.66916561126709, "z": 2.555891990661621 }, "axis_scores": { "Quantum imaging": 0.7171340584754944, "Quantum Life Science Sensing": 0.6961649656295776, "Quantum sensing Detection": 0.6912418603897095, "Quantum sensing Metrology": 0.6969737410545349, "Quantum sensing navigation": 0.6778261065483093, "Quantum sensing Position": 0.6687886714935303, "Quantum sensing Timing": 0.6329070925712585, "Quantum sensing": 0.7070508599281311, "Quantum control": 0.6561583280563354 } }, { "id": 2490, "title": "Excited-state intramolecular proton transfer (ESIPT) in 2-(2′-hydroxyphenyl)pyridine and some carbon-bridged derivatives", "abstract": "The absorption and emission properties of 2-(2'-hydroxyphenyl)pyridine (HPP), 10-hydroxy-5,6-dihydrobenzo[h]quinoline (HdihBQ) and 10-hydroxybenzo[h]quinoline (HBQ), are reported in non-polar, alcohol...", "citations": 44, "author_count": 5, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2494, "doi": "10.1016/S1010-6030(98)00328-1", "umap_coordinates": { "x": 392.4998474121094, "y": 136.07492065429688, "z": 205.39752197265625 }, "tsne_coordinates": { "x": -0.7208834886550903, "y": -1.8252983093261719, "z": -14.602877616882324 }, "pca_coordinates": { "x": -2.288632869720459, "y": 0.6488028764724731, "z": -1.705895185470581 }, "axis_scores": { "Quantum imaging": 0.6744161248207092, "Quantum Life Science Sensing": 0.6740748882293701, "Quantum sensing Detection": 0.6414642930030823, "Quantum sensing Metrology": 0.6262193918228149, "Quantum sensing navigation": 0.6392338275909424, "Quantum sensing Position": 0.6589011549949646, "Quantum sensing Timing": 0.6469398736953735, "Quantum sensing": 0.6577717661857605, "Quantum control": 0.6426026225090027 } }, { "id": 2491, "title": "Resonant microwave properties of a voltage-biased single-Cooper-pair transistor", "abstract": "We consider the microwave dynamics and transport properties of a voltage-biased single-Cooper-pair transistor. The dynamics is shown to be strongly affected by interference between multiple microwave-...", "citations": 4, "author_count": 5, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2495, "doi": "10.1103/PhysRevB.69.094516", "umap_coordinates": { "x": 394.64154052734375, "y": 133.94979858398438, "z": 208.44874572753906 }, "tsne_coordinates": { "x": -0.07506479322910309, "y": -25.300506591796875, "z": -11.285584449768066 }, "pca_coordinates": { "x": 3.544969081878662, "y": -2.172394275665283, "z": 1.1361758708953857 }, "axis_scores": { "Quantum imaging": 0.6681579351425171, "Quantum Life Science Sensing": 0.7095001935958862, "Quantum sensing Detection": 0.6940907835960388, "Quantum sensing Metrology": 0.6835118532180786, "Quantum sensing navigation": 0.6749510765075684, "Quantum sensing Position": 0.6639870405197144, "Quantum sensing Timing": 0.6604520678520203, "Quantum sensing": 0.7019189596176147, "Quantum control": 0.6476227641105652 } }, { "id": 2492, "title": "Protein-bound chromophores astaxanthin and phytochromobilin: excited state quantum chemical studies", "abstract": "We present an overview of excited state quantum chemical calculations aimed at elucidating controversial issues regarding the photochemistry of the protein-bound chromophores astaxanthin and phytochro...", "citations": 34, "author_count": 3, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2496, "doi": "10.1039/b605682b", "umap_coordinates": { "x": 392.4891662597656, "y": 136.09201049804688, "z": 205.2718505859375 }, "tsne_coordinates": { "x": -4.409896373748779, "y": 4.046693325042725, "z": -10.185789108276367 }, "pca_coordinates": { "x": -1.3025635480880737, "y": -0.897291898727417, "z": -2.6798017024993896 }, "axis_scores": { "Quantum imaging": 0.6973263621330261, "Quantum Life Science Sensing": 0.7279527187347412, "Quantum sensing Detection": 0.7015870809555054, "Quantum sensing Metrology": 0.6846547722816467, "Quantum sensing navigation": 0.6745386719703674, "Quantum sensing Position": 0.6874798536300659, "Quantum sensing Timing": 0.6661024689674377, "Quantum sensing": 0.7159197330474854, "Quantum control": 0.6716928482055664 } }, { "id": 2493, "title": "Extended quantum process tomography of logical operations on an encoded bosonic qubit", "abstract": "We demonstrate the use of coherent-state quantum process tomography (csQPT) for a bosonic-mode superconducting circuit. We have enhanced our methodology over previous implementations of csQPT by lever...", "citations": 3, "author_count": 9, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2497, "doi": "10.1103/PhysRevA.110.L020401", "umap_coordinates": { "x": 395.5799560546875, "y": 136.8040771484375, "z": 207.7099151611328 }, "tsne_coordinates": { "x": -28.381275177001953, "y": -18.829872131347656, "z": -2.6602728366851807 }, "pca_coordinates": { "x": 4.484055995941162, "y": 0.9703812599182129, "z": 1.8468081951141357 }, "axis_scores": { "Quantum imaging": 0.7396836280822754, "Quantum Life Science Sensing": 0.7031190991401672, "Quantum sensing Detection": 0.7299567461013794, "Quantum sensing Metrology": 0.7074753642082214, "Quantum sensing navigation": 0.7315998077392578, "Quantum sensing Position": 0.6976839303970337, "Quantum sensing Timing": 0.6989454030990601, "Quantum sensing": 0.7419825792312622, "Quantum control": 0.7102603912353516 } }, { "id": 2494, "title": "An efficient all-visible light-activated photoswitch based on diarylethenes and CdS quantum dots", "abstract": "All-visible light-activated diarylethene (DAE) photoswitches are highly attractive for applications in smart photoresponsive materials. The photocyclization of DAE via the low-lying excited triplet st...", "citations": 11, "author_count": 7, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2498, "doi": "10.1039/d4sc06110a", "umap_coordinates": { "x": 391.7637939453125, "y": 135.0635986328125, "z": 205.0142822265625 }, "tsne_coordinates": { "x": 4.5066304206848145, "y": 2.5222599506378174, "z": -10.33205509185791 }, "pca_coordinates": { "x": -1.7377811670303345, "y": -3.0375723838806152, "z": 0.4533589482307434 }, "axis_scores": { "Quantum imaging": 0.6771895289421082, "Quantum Life Science Sensing": 0.7149370908737183, "Quantum sensing Detection": 0.6929743885993958, "Quantum sensing Metrology": 0.6495611667633057, "Quantum sensing navigation": 0.6445985436439514, "Quantum sensing Position": 0.6353647112846375, "Quantum sensing Timing": 0.6625323295593262, "Quantum sensing": 0.698418140411377, "Quantum control": 0.6734113097190857 } }, { "id": 2495, "title": "Exciton Binding Energy and the Nature of Emissive States in Organometal Halide Perovskites", "abstract": "Characteristics of nanoscale materials are often different from the corresponding bulk properties providing new, sometimes unexpected, opportunities for applications. Here we investigate the propertie...", "citations": 264, "author_count": 11, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2499, "doi": "10.1021/acs.jpclett.5b01252", "umap_coordinates": { "x": 391.53497314453125, "y": 134.90696716308594, "z": 205.86920166015625 }, "tsne_coordinates": { "x": 15.071809768676758, "y": -8.058587074279785, "z": -19.712596893310547 }, "pca_coordinates": { "x": -1.8659292459487915, "y": -2.4013829231262207, "z": -3.1102662086486816 }, "axis_scores": { "Quantum imaging": 0.6781574487686157, "Quantum Life Science Sensing": 0.6759076118469238, "Quantum sensing Detection": 0.6563628315925598, "Quantum sensing Metrology": 0.6537362337112427, "Quantum sensing navigation": 0.6447939872741699, "Quantum sensing Position": 0.6497167348861694, "Quantum sensing Timing": 0.6285884380340576, "Quantum sensing": 0.6659823656082153, "Quantum control": 0.6386953592300415 } }, { "id": 2496, "title": "Energy dependence of coherent photonuclear production of J/ψ mesons in ultra-peripheral Pb-Pb collisions at √sNN=5.02 TeV", "abstract": "The cross section for coherent photonuclear production of J/psi is presented as a function of the electromagnetic dissociation (EMD) of Pb. The measurement is performed with the ALICE detector in ultr...", "citations": 31, "author_count": 1048, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2500, "doi": "10.1007/JHEP10(2023)119", "umap_coordinates": { "x": 396.6012878417969, "y": 134.45404052734375, "z": 207.60911560058594 }, "tsne_coordinates": { "x": -32.67619323730469, "y": 7.290813446044922, "z": -5.025320053100586 }, "pca_coordinates": { "x": -0.28317612409591675, "y": 0.20426368713378906, "z": 2.205716848373413 }, "axis_scores": { "Quantum imaging": 0.7276971936225891, "Quantum Life Science Sensing": 0.718366265296936, "Quantum sensing Detection": 0.7284967303276062, "Quantum sensing Metrology": 0.6904955506324768, "Quantum sensing navigation": 0.7036941051483154, "Quantum sensing Position": 0.7133437991142273, "Quantum sensing Timing": 0.7212978601455688, "Quantum sensing": 0.7204003930091858, "Quantum control": 0.6824845671653748 } }, { "id": 2497, "title": "Emerging perovskite quantum dot solar cells: feasible approaches to boost performance", "abstract": "Lead halide perovskite quantum dots (PQDs), also called perovskite nanocrystals, are considered as one of the most promising classes of photovoltaic materials for solar cells due to their prominent op...", "citations": 151, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2501, "doi": "10.1039/d0ee02900a", "umap_coordinates": { "x": 391.63006591796875, "y": 134.23812866210938, "z": 205.17166137695312 }, "tsne_coordinates": { "x": 10.445757865905762, "y": -1.241944432258606, "z": -17.422321319580078 }, "pca_coordinates": { "x": -3.4525675773620605, "y": -2.912898540496826, "z": -2.5879921913146973 }, "axis_scores": { "Quantum imaging": 0.669344425201416, "Quantum Life Science Sensing": 0.7019205689430237, "Quantum sensing Detection": 0.6553354263305664, "Quantum sensing Metrology": 0.6450427770614624, "Quantum sensing navigation": 0.6425822377204895, "Quantum sensing Position": 0.6421201229095459, "Quantum sensing Timing": 0.6231537461280823, "Quantum sensing": 0.6629817485809326, "Quantum control": 0.6447834968566895 } }, { "id": 2498, "title": "Influence of Alkoxy Groups on the Photoinduced Dynamics of Organic Molecules Exemplified on Alkyl Vinyl Ethers", "abstract": "A series of different alkyl vinyl ethers is investigated to decipher the possible reaction channels upon photoexcitation to the pi 3s-Rydberg and the pi pi*-valence state at 200 nm using time-resolved...", "citations": 8, "author_count": 8, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2502, "doi": "10.1021/acs.jpca.5b06592", "umap_coordinates": { "x": 392.6271667480469, "y": 136.41380310058594, "z": 206.08831787109375 }, "tsne_coordinates": { "x": 2.3325607776641846, "y": 0.9565452337265015, "z": 0.7774823307991028 }, "pca_coordinates": { "x": -0.7513057589530945, "y": -0.2992541790008545, "z": -3.4321186542510986 }, "axis_scores": { "Quantum imaging": 0.7146493196487427, "Quantum Life Science Sensing": 0.7052769660949707, "Quantum sensing Detection": 0.6738684177398682, "Quantum sensing Metrology": 0.6304314136505127, "Quantum sensing navigation": 0.6630508899688721, "Quantum sensing Position": 0.6496787071228027, "Quantum sensing Timing": 0.6621430516242981, "Quantum sensing": 0.6881755590438843, "Quantum control": 0.7130025625228882 } }, { "id": 2499, "title": "Designing frequency-dependent relaxation rates and Lamb shifts for a giant artificial atom", "abstract": "In traditional quantum optics, where the interaction between atoms and light at optical frequencies is studied, the atoms can be approximated as pointlike when compared to the wavelength of light. So ...", "citations": 219, "author_count": 4, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2503, "doi": "10.1103/PhysRevA.90.013837", "umap_coordinates": { "x": 394.29388427734375, "y": 136.37875366210938, "z": 207.13307189941406 }, "tsne_coordinates": { "x": -6.117860317230225, "y": -19.103452682495117, "z": 16.608583450317383 }, "pca_coordinates": { "x": 1.768676519393921, "y": 0.667919397354126, "z": -1.4780628681182861 }, "axis_scores": { "Quantum imaging": 0.6825851202011108, "Quantum Life Science Sensing": 0.7249900698661804, "Quantum sensing Detection": 0.6815348863601685, "Quantum sensing Metrology": 0.6818186044692993, "Quantum sensing navigation": 0.6934609413146973, "Quantum sensing Position": 0.6627581715583801, "Quantum sensing Timing": 0.6844481229782104, "Quantum sensing": 0.7030702233314514, "Quantum control": 0.6811243295669556 } }, { "id": 2500, "title": "Non-fullerene acceptors with high crystallinity and photoluminescence quantum yield enable >20% efficiency organic solar cells", "abstract": "The rational design of non-fullerene acceptors (NFAs) with both high crystallinity and photoluminescence quantum yield (PLQY) is of crucial importance for achieving high-efficiency and low-energy-loss...", "citations": 221, "author_count": 23, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2504, "doi": "10.1038/s41563-024-02087-5", "umap_coordinates": { "x": 391.9970397949219, "y": 134.01637268066406, "z": 205.11529541015625 }, "tsne_coordinates": { "x": 21.52555274963379, "y": -2.1978063583374023, "z": -27.688161849975586 }, "pca_coordinates": { "x": -3.7175164222717285, "y": -3.298989772796631, "z": 0.3416866660118103 }, "axis_scores": { "Quantum imaging": 0.7001491785049438, "Quantum Life Science Sensing": 0.7263998985290527, "Quantum sensing Detection": 0.6842319965362549, "Quantum sensing Metrology": 0.6722646951675415, "Quantum sensing navigation": 0.6595373749732971, "Quantum sensing Position": 0.6452444791793823, "Quantum sensing Timing": 0.6387230157852173, "Quantum sensing": 0.7002691626548767, "Quantum control": 0.6733917593955994 } }, { "id": 2501, "title": "Acid-assisted hydrothermal synthesis of red fluorescent carbon dots for sensitive detection of Fe(III)", "abstract": "Red-emitting carbon dots (C-dots) were synthesized from p-phenylenediamine (p-PD) aqueous solution with nitric acid (HNO3) assistance by hydrothermal reaction at 200 degrees C for 2 h. p-PD aqueous so...", "citations": 51, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2505, "doi": "10.1039/c7ra06223k", "umap_coordinates": { "x": 392.015869140625, "y": 134.9376983642578, "z": 204.80703735351562 }, "tsne_coordinates": { "x": 12.659137725830078, "y": 8.739729881286621, "z": -12.033806800842285 }, "pca_coordinates": { "x": -3.778381109237671, "y": -2.085611343383789, "z": -2.0866456031799316 }, "axis_scores": { "Quantum imaging": 0.6779546737670898, "Quantum Life Science Sensing": 0.7228081226348877, "Quantum sensing Detection": 0.6902065277099609, "Quantum sensing Metrology": 0.6711593270301819, "Quantum sensing navigation": 0.6703577041625977, "Quantum sensing Position": 0.6460188627243042, "Quantum sensing Timing": 0.6379057765007019, "Quantum sensing": 0.7032207250595093, "Quantum control": 0.6701469421386719 } }, { "id": 2502, "title": "Subquantum nonlocal correlations induced by the background random field", "abstract": "We developed a purely field model of microphenomena-prequantum classical statistical field theory (PCSFT). This model not only reproduces important probabilistic predictions of quantum mechanics (QM) ...", "citations": 7, "author_count": 2, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2506, "doi": "10.1088/0031-8949/84/04/045014", "umap_coordinates": { "x": 395.40655517578125, "y": 137.32994079589844, "z": 207.1940460205078 }, "tsne_coordinates": { "x": -32.34602355957031, "y": 2.1365158557891846, "z": 21.843914031982422 }, "pca_coordinates": { "x": 1.941573143005371, "y": 3.705549478530884, "z": -1.5066866874694824 }, "axis_scores": { "Quantum imaging": 0.738040566444397, "Quantum Life Science Sensing": 0.7212564945220947, "Quantum sensing Detection": 0.723240315914154, "Quantum sensing Metrology": 0.7071110010147095, "Quantum sensing navigation": 0.7248923778533936, "Quantum sensing Position": 0.7028581500053406, "Quantum sensing Timing": 0.6996146440505981, "Quantum sensing": 0.7337740659713745, "Quantum control": 0.7290599346160889 } }, { "id": 2503, "title": "Formation of carbon monoxide by radiative association: a quantum dynamical study", "abstract": "Rate coefficients for the formation of carbon monoxide (CO) by radiative association of carbon and oxygen atoms are computed using quantum dynamical simulations. At temperatures above 10 K CO radiativ...", "citations": 21, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2507, "doi": "10.1111/j.1365-2966.2011.18654.x", "umap_coordinates": { "x": 394.0291442871094, "y": 136.9525146484375, "z": 206.04974365234375 }, "tsne_coordinates": { "x": -4.716799259185791, "y": 1.2121256589889526, "z": 21.941486358642578 }, "pca_coordinates": { "x": 0.2901875972747803, "y": 1.2831677198410034, "z": -1.03304123878479 }, "axis_scores": { "Quantum imaging": 0.7363877296447754, "Quantum Life Science Sensing": 0.7453368902206421, "Quantum sensing Detection": 0.7360990047454834, "Quantum sensing Metrology": 0.7217409610748291, "Quantum sensing navigation": 0.6982871890068054, "Quantum sensing Position": 0.6976039409637451, "Quantum sensing Timing": 0.6948197484016418, "Quantum sensing": 0.7440951466560364, "Quantum control": 0.7353012561798096 } }, { "id": 2504, "title": "Unusual Light Spectroscopic Properties of a 2-Pyridone-Based Multi-Ring-Fused Fluorescent Scaffold", "abstract": "UV-VIS absorption and fluorescence spectroscopic properties of six related polyaromatic 2-pyridones have been studied. Excitation of the lowest and rather weak and structure-less transition [epsilon (...", "citations": 3, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2508, "doi": "10.1007/s10895-010-0676-3", "umap_coordinates": { "x": 392.8597106933594, "y": 135.36312866210938, "z": 204.758056640625 }, "tsne_coordinates": { "x": -1.9172136783599854, "y": 14.254880905151367, "z": -5.067291259765625 }, "pca_coordinates": { "x": -4.364938735961914, "y": -0.08525347709655762, "z": 0.31911712884902954 }, "axis_scores": { "Quantum imaging": 0.7002046704292297, "Quantum Life Science Sensing": 0.7264899015426636, "Quantum sensing Detection": 0.6880066990852356, "Quantum sensing Metrology": 0.6881202459335327, "Quantum sensing navigation": 0.6712803244590759, "Quantum sensing Position": 0.6702779531478882, "Quantum sensing Timing": 0.6390754580497742, "Quantum sensing": 0.7007076740264893, "Quantum control": 0.6485212445259094 } }, { "id": 2505, "title": "FRACTIONATION OF TRACE-METALS IN SURFACE-WATER WITH SCREEN FILTERS", "abstract": "Size fractionation of solid particulate phases serving as carriers of trace elements (e.g. Al, Cd, Cu, Fe, Mn and Zn) in surface waters was conducted by pressure filtration using screen filters with d...", "citations": 26, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 1994, "topic": [ "all" ], "embedding_index": 2509, "doi": "10.1016/0048-9697(94)90180-5", "umap_coordinates": { "x": 393.7530517578125, "y": 134.96800231933594, "z": 204.38534545898438 }, "tsne_coordinates": { "x": 8.721970558166504, "y": 19.244731903076172, "z": 13.101954460144043 }, "pca_coordinates": { "x": -2.743990659713745, "y": 0.6168742179870605, "z": -1.0695706605911255 }, "axis_scores": { "Quantum imaging": 0.668896496295929, "Quantum Life Science Sensing": 0.6927291750907898, "Quantum sensing Detection": 0.6671108603477478, "Quantum sensing Metrology": 0.6564967036247253, "Quantum sensing navigation": 0.6793809533119202, "Quantum sensing Position": 0.6617258191108704, "Quantum sensing Timing": 0.6413983702659607, "Quantum sensing": 0.6791267991065979, "Quantum control": 0.6489420533180237 } }, { "id": 2506, "title": "Efficient charge-carrier extraction from Ag2S quantum dots prepared by the SILAR method for utilization of multiple exciton generation", "abstract": "The utilization of electron-hole pairs (EHPs) generated from multiple excitons in quantum dots (QDs) is of great interest toward efficient photovoltaic devices and other optoelectronic devices; howeve...", "citations": 45, "author_count": 4, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2510, "doi": "10.1039/c4nr04463k", "umap_coordinates": { "x": 391.6890563964844, "y": 134.0023651123047, "z": 205.6005859375 }, "tsne_coordinates": { "x": 18.915346145629883, "y": -2.7313907146453857, "z": -8.515390396118164 }, "pca_coordinates": { "x": -2.249490976333618, "y": -4.561118125915527, "z": -0.3891051113605499 }, "axis_scores": { "Quantum imaging": 0.6827197074890137, "Quantum Life Science Sensing": 0.7115449905395508, "Quantum sensing Detection": 0.6790475845336914, "Quantum sensing Metrology": 0.6734714508056641, "Quantum sensing navigation": 0.6636695265769958, "Quantum sensing Position": 0.6402279138565063, "Quantum sensing Timing": 0.6381838321685791, "Quantum sensing": 0.690167248249054, "Quantum control": 0.663914144039154 } }, { "id": 2507, "title": "Analytic structure and power series expansion of the Jost function for the two-dimensional problem", "abstract": "For a two-dimensional quantum-mechanical problem, we obtain a generalized power series expansion of the S-matrix that can be done near an arbitrary point on the Riemann surface of the energy, similar ...", "citations": 11, "author_count": 3, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2511, "doi": "10.1088/1751-8113/45/13/135209", "umap_coordinates": { "x": 394.1700439453125, "y": 136.86146545410156, "z": 207.45333862304688 }, "tsne_coordinates": { "x": -39.965904235839844, "y": -9.860684394836426, "z": 5.56937313079834 }, "pca_coordinates": { "x": 0.6292774677276611, "y": 0.725806474685669, "z": -1.238935947418213 }, "axis_scores": { "Quantum imaging": 0.6772235035896301, "Quantum Life Science Sensing": 0.693665623664856, "Quantum sensing Detection": 0.6483794450759888, "Quantum sensing Metrology": 0.6728754043579102, "Quantum sensing navigation": 0.6677010655403137, "Quantum sensing Position": 0.6637174487113953, "Quantum sensing Timing": 0.671847403049469, "Quantum sensing": 0.6653255224227905, "Quantum control": 0.6596876382827759 } }, { "id": 2508, "title": "Coexistence of 1D and Quasi-0D Photoluminescence from Single Silicon Nanowires", "abstract": "Single silicon nanowires (Si-NWs) prepared by electron-beam lithography and reactive-ion etching are investigated by imaging optical spectroscopy under variable temperatures and laser pumping intensit...", "citations": 36, "author_count": 4, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2512, "doi": "10.1021/nl2016109", "umap_coordinates": { "x": 393.1462097167969, "y": 133.4932403564453, "z": 207.70291137695312 }, "tsne_coordinates": { "x": 19.52939224243164, "y": -17.340469360351562, "z": -7.388392925262451 }, "pca_coordinates": { "x": -0.08090198040008545, "y": -3.936793327331543, "z": 1.287294626235962 }, "axis_scores": { "Quantum imaging": 0.6918693780899048, "Quantum Life Science Sensing": 0.707252025604248, "Quantum sensing Detection": 0.691178023815155, "Quantum sensing Metrology": 0.6818735003471375, "Quantum sensing navigation": 0.676977813243866, "Quantum sensing Position": 0.6751103401184082, "Quantum sensing Timing": 0.6557614207267761, "Quantum sensing": 0.6898245811462402, "Quantum control": 0.6474403142929077 } }, { "id": 2509, "title": "Universal vortex formation in rotating traps with bosons and fermions - art. no. 090407", "abstract": "We show that the rotation of trapped quantum mechanical particles with a repulsive interaction can lead to vortex formation, irrespective of whether the particles are bosons or (unpaired) fermions. Th...", "citations": 41, "author_count": 6, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2513, "doi": "10.1103/PhysRevLett.93.090407", "umap_coordinates": { "x": 394.7821044921875, "y": 136.49908447265625, "z": 209.06431579589844 }, "tsne_coordinates": { "x": -13.760805130004883, "y": -18.174091339111328, "z": 22.44997215270996 }, "pca_coordinates": { "x": 4.6767258644104, "y": 0.9371572732925415, "z": 0.14901775121688843 }, "axis_scores": { "Quantum imaging": 0.7025632858276367, "Quantum Life Science Sensing": 0.7105533480644226, "Quantum sensing Detection": 0.7159532904624939, "Quantum sensing Metrology": 0.6969676613807678, "Quantum sensing navigation": 0.7258923053741455, "Quantum sensing Position": 0.6932600736618042, "Quantum sensing Timing": 0.714373767375946, "Quantum sensing": 0.7088867425918579, "Quantum control": 0.7016141414642334 } }, { "id": 2510, "title": "Quantum Black Holes as Solvents", "abstract": "Almost all of the entropy in the universe is in the form of Bekenstein-Hawking (BH) entropy of super-massive black holes. This entropy, if it satisfies Boltzmann's equation S=log N, hence represents a...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2514, "doi": "10.1007/s10701-021-00456-7", "umap_coordinates": { "x": 394.09893798828125, "y": 136.28184509277344, "z": 205.58944702148438 }, "tsne_coordinates": { "x": -8.218613624572754, "y": 19.834461212158203, "z": 14.766499519348145 }, "pca_coordinates": { "x": -0.7976670861244202, "y": -0.1221461296081543, "z": -1.639844298362732 }, "axis_scores": { "Quantum imaging": 0.7270278930664062, "Quantum Life Science Sensing": 0.7271023392677307, "Quantum sensing Detection": 0.710237979888916, "Quantum sensing Metrology": 0.6924915909767151, "Quantum sensing navigation": 0.7246697545051575, "Quantum sensing Position": 0.7128483057022095, "Quantum sensing Timing": 0.7032395005226135, "Quantum sensing": 0.7263810038566589, "Quantum control": 0.7129542827606201 } }, { "id": 2511, "title": "Hyperfine structure and homogeneous broadening in Pr3+:KY(WO4)2 -: art. no. 214115", "abstract": "As part of a search for suitable materials for coherent quantum operations, relaxation times and hyperfine structure of the D-1(2)(1)-H-3(4)(1) transition in Pr3+:KY(WO4)(2) (0.29 at. %) at 4 K have b...", "citations": 7, "author_count": 8, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2515, "doi": "10.1103/PhysRevB.70.214115", "umap_coordinates": { "x": 393.79046630859375, "y": 136.1587371826172, "z": 208.82666015625 }, "tsne_coordinates": { "x": 0.21235895156860352, "y": -46.89399719238281, "z": 6.846468448638916 }, "pca_coordinates": { "x": 2.4117746353149414, "y": 0.21620392799377441, "z": -2.3152661323547363 }, "axis_scores": { "Quantum imaging": 0.6910475492477417, "Quantum Life Science Sensing": 0.7037845253944397, "Quantum sensing Detection": 0.6738094687461853, "Quantum sensing Metrology": 0.6670762896537781, "Quantum sensing navigation": 0.6820878386497498, "Quantum sensing Position": 0.6603752374649048, "Quantum sensing Timing": 0.6680665016174316, "Quantum sensing": 0.6922601461410522, "Quantum control": 0.6903867721557617 } }, { "id": 2512, "title": "Light scattering and dielectric manifestations of secondary relaxations in molecular glassformers", "abstract": "Photon correlation data of the molecular glass-forming materials 2-picoline, dimethylphthalate (DMP) and salol are compared with their dielectric loss spectra in the time-frequency range where the die...", "citations": 56, "author_count": 5, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2516, "doi": "10.1140/epjb/e2003-00353-6", "umap_coordinates": { "x": 393.3635559082031, "y": 135.97364807128906, "z": 205.67227172851562 }, "tsne_coordinates": { "x": 8.299641609191895, "y": 2.0390031337738037, "z": 24.581619262695312 }, "pca_coordinates": { "x": -0.4454016089439392, "y": 0.9699721336364746, "z": -3.2091615200042725 }, "axis_scores": { "Quantum imaging": 0.6693294644355774, "Quantum Life Science Sensing": 0.6986790895462036, "Quantum sensing Detection": 0.6550527811050415, "Quantum sensing Metrology": 0.6279892921447754, "Quantum sensing navigation": 0.6504939198493958, "Quantum sensing Position": 0.6310344934463501, "Quantum sensing Timing": 0.6319818496704102, "Quantum sensing": 0.669889509677887, "Quantum control": 0.6401374340057373 } }, { "id": 2513, "title": "Manipulations of densities and sizes during self-assembling quantum dots in metal-organic vapour phase epitaxy", "abstract": "Densities and sizes of self-assembled S-dimensional islands were studied in dependence of their deposition conditions. The materials system for more detailed studies was InP/GaAs, deposited by low-pre...", "citations": 5, "author_count": 4, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2517, "doi": "10.1143/JJAP.38.7264", "umap_coordinates": { "x": 392.3712463378906, "y": 134.2229461669922, "z": 207.40786743164062 }, "tsne_coordinates": { "x": 30.445741653442383, "y": -8.988264083862305, "z": 1.2865623235702515 }, "pca_coordinates": { "x": 0.14666926860809326, "y": -1.0804417133331299, "z": 0.3181750178337097 }, "axis_scores": { "Quantum imaging": 0.7271609306335449, "Quantum Life Science Sensing": 0.7070555090904236, "Quantum sensing Detection": 0.7048014402389526, "Quantum sensing Metrology": 0.7081283926963806, "Quantum sensing navigation": 0.7011853456497192, "Quantum sensing Position": 0.7051464915275574, "Quantum sensing Timing": 0.7012014985084534, "Quantum sensing": 0.7217387557029724, "Quantum control": 0.7143975496292114 } }, { "id": 2514, "title": "Symmetry-protected Bose-Einstein condensation of interacting hardcore bosons", "abstract": "The large practical potential of exotic quantum states is often precluded by their notorious fragility against external perturbations or temperature. Here, we introduce a mechanism stabilizing a one-d...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2518, "doi": "10.1038/s42005-023-01303-z", "umap_coordinates": { "x": 395.2458801269531, "y": 135.71286010742188, "z": 207.44003295898438 }, "tsne_coordinates": { "x": -10.08320140838623, "y": -13.986166000366211, "z": 28.477468490600586 }, "pca_coordinates": { "x": 1.1158666610717773, "y": 0.46148645877838135, "z": -0.6342002153396606 }, "axis_scores": { "Quantum imaging": 0.6794074773788452, "Quantum Life Science Sensing": 0.6646214127540588, "Quantum sensing Detection": 0.6582101583480835, "Quantum sensing Metrology": 0.6552612781524658, "Quantum sensing navigation": 0.6783121824264526, "Quantum sensing Position": 0.6518808603286743, "Quantum sensing Timing": 0.651267409324646, "Quantum sensing": 0.6701636910438538, "Quantum control": 0.6795443296432495 } }, { "id": 2515, "title": "Signatures of rotating black holes in quantum superposition", "abstract": "A new approach for operationally studying the effects of spacetime in quantum superpositions of semiclassical states has recently been proposed by some of the authors. This approach was applied to the...", "citations": 5, "author_count": 7, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2519, "doi": "10.1103/PhysRevD.110.066018", "umap_coordinates": { "x": 394.8470153808594, "y": 136.96018981933594, "z": 208.6297607421875 }, "tsne_coordinates": { "x": -24.43743324279785, "y": -29.113975524902344, "z": 9.360654830932617 }, "pca_coordinates": { "x": 4.7670674324035645, "y": 1.1509044170379639, "z": -0.4843204617500305 }, "axis_scores": { "Quantum imaging": 0.7296547889709473, "Quantum Life Science Sensing": 0.7259796857833862, "Quantum sensing Detection": 0.7422887086868286, "Quantum sensing Metrology": 0.7130488753318787, "Quantum sensing navigation": 0.7329575419425964, "Quantum sensing Position": 0.7250075340270996, "Quantum sensing Timing": 0.7397406101226807, "Quantum sensing": 0.7414239048957825, "Quantum control": 0.6876736879348755 } }, { "id": 2516, "title": "Depth Profiling and Internal Structure Determination of Low Dimensional Materials Using X-ray Photoelectron Spectroscopy", "abstract": "Properties of any heterostructured material depend critically on the specific composition profile of the constituent elements in the sample. X-ray photoelectron spectroscopy (XPS) is particularly well...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2520, "doi": "10.1007/978-3-319-24043-5_13", "umap_coordinates": { "x": 394.2272033691406, "y": 134.28782653808594, "z": 205.71322631835938 }, "tsne_coordinates": { "x": -15.903491973876953, "y": 17.508262634277344, "z": 1.8739923238754272 }, "pca_coordinates": { "x": -1.772564172744751, "y": 0.8807357549667358, "z": 1.2081944942474365 }, "axis_scores": { "Quantum imaging": 0.721045970916748, "Quantum Life Science Sensing": 0.7337392568588257, "Quantum sensing Detection": 0.6953302025794983, "Quantum sensing Metrology": 0.7130364179611206, "Quantum sensing navigation": 0.706409752368927, "Quantum sensing Position": 0.7126955389976501, "Quantum sensing Timing": 0.6551123857498169, "Quantum sensing": 0.710700511932373, "Quantum control": 0.6561049818992615 } }, { "id": 2517, "title": "Superconducting quantum interference filters as RF amplifiers", "abstract": "The superconducting Quantum Interference Filter (SQIF) is a new type of superconducting device which has been recently proposed for highly sensitive magnetometers for absolute magnetic field measureme...", "citations": 23, "author_count": 8, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2521, "doi": "10.1109/TASC.2007.898032", "umap_coordinates": { "x": 394.4812927246094, "y": 134.29434204101562, "z": 207.04428100585938 }, "tsne_coordinates": { "x": -2.815523386001587, "y": -2.174107789993286, "z": -35.414459228515625 }, "pca_coordinates": { "x": 2.1523804664611816, "y": -0.12965822219848633, "z": 1.5119976997375488 }, "axis_scores": { "Quantum imaging": 0.7424126267433167, "Quantum Life Science Sensing": 0.7367147207260132, "Quantum sensing Detection": 0.7463111281394958, "Quantum sensing Metrology": 0.7258424758911133, "Quantum sensing navigation": 0.743577778339386, "Quantum sensing Position": 0.7143878936767578, "Quantum sensing Timing": 0.7309971451759338, "Quantum sensing": 0.7580252885818481, "Quantum control": 0.7248179316520691 } }, { "id": 2518, "title": "Photocurrent Spectroscopy", "abstract": "Applying an external electric bias on a semiconductor can produce an electric current. Impinging a light on a semiconductor already having an external electric bias can generate an extra electric curr...", "citations": 1, "author_count": 3, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2522, "doi": "10.1007/978-3-319-94953-6_6", "umap_coordinates": { "x": 393.888671875, "y": 134.9033203125, "z": 205.6256103515625 }, "tsne_coordinates": { "x": -14.286428451538086, "y": 17.059040069580078, "z": 4.453516960144043 }, "pca_coordinates": { "x": -2.0014774799346924, "y": -0.5466489791870117, "z": 0.6038288474082947 }, "axis_scores": { "Quantum imaging": 0.7346938848495483, "Quantum Life Science Sensing": 0.7694242000579834, "Quantum sensing Detection": 0.7307112216949463, "Quantum sensing Metrology": 0.7378782629966736, "Quantum sensing navigation": 0.7183502912521362, "Quantum sensing Position": 0.7150681018829346, "Quantum sensing Timing": 0.6887551546096802, "Quantum sensing": 0.7463940382003784, "Quantum control": 0.6917718648910522 } }, { "id": 2519, "title": "Dissecting the qutrit", "abstract": "To visualize a higher dimensional object it is convenient to consider its two-dimensional cross-sections. The set of quantum states for a three level system has eight dimensions. We supplement a recen...", "citations": 10, "author_count": 3, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2523, "doi": "10.1088/1751-8113/46/3/035306", "umap_coordinates": { "x": 395.4736328125, "y": 136.78268432617188, "z": 205.60206604003906 }, "tsne_coordinates": { "x": -36.94733810424805, "y": 1.663309097290039, "z": 4.059587478637695 }, "pca_coordinates": { "x": -0.24168145656585693, "y": 5.697099685668945, "z": -1.6015923023223877 }, "axis_scores": { "Quantum imaging": 0.6846910715103149, "Quantum Life Science Sensing": 0.6859387755393982, "Quantum sensing Detection": 0.6617088913917542, "Quantum sensing Metrology": 0.6720360517501831, "Quantum sensing navigation": 0.6896147727966309, "Quantum sensing Position": 0.678902268409729, "Quantum sensing Timing": 0.6727920770645142, "Quantum sensing": 0.6878570914268494, "Quantum control": 0.6849274635314941 } }, { "id": 2520, "title": "Steady-State Heat Transport and Work With a Single Artificial Atom Coupled to a Waveguide: Emission Without External Driving", "abstract": "We observe the continuous emission of photons into a waveguide from a superconducting qubit without the application of an external drive. To explain this counterintuitive observation, we build a two-b...", "citations": 17, "author_count": 9, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2525, "doi": "10.1103/PRXQuanttun.3.020305", "umap_coordinates": { "x": 394.8697814941406, "y": 134.17579650878906, "z": 207.7949676513672 }, "tsne_coordinates": { "x": -1.873061180114746, "y": -24.346532821655273, "z": -16.47844696044922 }, "pca_coordinates": { "x": 1.3357353210449219, "y": -0.5025408267974854, "z": 2.3499886989593506 }, "axis_scores": { "Quantum imaging": 0.7191892266273499, "Quantum Life Science Sensing": 0.7044594883918762, "Quantum sensing Detection": 0.7273364663124084, "Quantum sensing Metrology": 0.726466178894043, "Quantum sensing navigation": 0.7214102745056152, "Quantum sensing Position": 0.709389328956604, "Quantum sensing Timing": 0.6910375952720642, "Quantum sensing": 0.7358734011650085, "Quantum control": 0.7367403507232666 } }, { "id": 2521, "title": "Long-Range Multibody Interactions and Three-Body Antiblockade in a Trapped Rydberg Ion Chain", "abstract": "Trapped Rydberg ions represent a flexible platform for quantum simulation and information processing that combines a high degree of control over electronic and vibrational degrees of freedom. The poss...", "citations": 40, "author_count": 6, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2526, "doi": "10.1103/PhysRevLett.125.133602", "umap_coordinates": { "x": 394.4716491699219, "y": 136.24559020996094, "z": 208.25042724609375 }, "tsne_coordinates": { "x": -7.14101505279541, "y": -28.03186798095703, "z": -10.367401123046875 }, "pca_coordinates": { "x": 4.084103584289551, "y": -0.37633275985717773, "z": -0.6030250191688538 }, "axis_scores": { "Quantum imaging": 0.6896041631698608, "Quantum Life Science Sensing": 0.6980968117713928, "Quantum sensing Detection": 0.6816903948783875, "Quantum sensing Metrology": 0.6549119353294373, "Quantum sensing navigation": 0.6889421939849854, "Quantum sensing Position": 0.6603811979293823, "Quantum sensing Timing": 0.6800612211227417, "Quantum sensing": 0.6912413835525513, "Quantum control": 0.6673108339309692 } }, { "id": 2522, "title": "Density functional theory study of electronic structure and spectra of tetraoxa[8]circulenes", "abstract": "The electronic structure and spectra of a series of tetraoxa[8]circulene derivatives are studied by the density functional theory (DFT) calculations. The vertical transitions to the 30 lowest electron...", "citations": 43, "author_count": 4, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2527, "doi": "10.1016/j.comptc.2011.06.020", "umap_coordinates": { "x": 392.6943664550781, "y": 136.09364318847656, "z": 205.43515014648438 }, "tsne_coordinates": { "x": -1.2864984273910522, "y": 7.601263523101807, "z": 1.691821813583374 }, "pca_coordinates": { "x": -0.2943107485771179, "y": 0.038107872009277344, "z": -2.552922248840332 }, "axis_scores": { "Quantum imaging": 0.7296855449676514, "Quantum Life Science Sensing": 0.762036144733429, "Quantum sensing Detection": 0.7178698778152466, "Quantum sensing Metrology": 0.7063567638397217, "Quantum sensing navigation": 0.7065563797950745, "Quantum sensing Position": 0.6899107098579407, "Quantum sensing Timing": 0.6913634538650513, "Quantum sensing": 0.7280330657958984, "Quantum control": 0.7160592079162598 } }, { "id": 2523, "title": "CALCULATION OF DOSE AND CONTRAST FOR 2 MAMMOGRAPHIC GRIDS", "abstract": "To aid in selecting optimal conditions for screening mammography practice in Sweden, the performance of two mammographic grids (one moving and one stationary) has been investigated. Monte Carlo techni...", "citations": 81, "author_count": 4, "categories": [ "Engineering" ], "year": 1992, "topic": [ "all" ], "embedding_index": 2528, "doi": "10.1088/0031-9155/37/1/017", "umap_coordinates": { "x": 396.0840759277344, "y": 133.4432830810547, "z": 205.4093780517578 }, "tsne_coordinates": { "x": -12.631324768066406, "y": 30.05998420715332, "z": -18.19951820373535 }, "pca_coordinates": { "x": -2.143183708190918, "y": 3.873821258544922, "z": 2.1947813034057617 }, "axis_scores": { "Quantum imaging": 0.6901559829711914, "Quantum Life Science Sensing": 0.6680353879928589, "Quantum sensing Detection": 0.6580373644828796, "Quantum sensing Metrology": 0.6657625436782837, "Quantum sensing navigation": 0.6637848019599915, "Quantum sensing Position": 0.6603118777275085, "Quantum sensing Timing": 0.6625950932502747, "Quantum sensing": 0.6573734879493713, "Quantum control": 0.6372647285461426 } }, { "id": 2524, "title": "QD-LEDs: High efficiency and long-term stability toward practical applications", "abstract": "Quantum dot LEDs (QD-LEDs) are promising for display and lighting applications. However, fabricating stable, efficient green and blue QD-LEDs remains a big challenge. In a recent study in Nature Photo...", "citations": 2, "author_count": 3, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2529, "doi": "10.1016/j.matt.2022.06.017", "umap_coordinates": { "x": 392.9244079589844, "y": 133.7713165283203, "z": 204.77700805664062 }, "tsne_coordinates": { "x": 17.332948684692383, "y": 17.900930404663086, "z": -6.291267395019531 }, "pca_coordinates": { "x": -4.828632354736328, "y": -1.8912110328674316, "z": -1.4864780902862549 }, "axis_scores": { "Quantum imaging": 0.6912898421287537, "Quantum Life Science Sensing": 0.7401633262634277, "Quantum sensing Detection": 0.6872226595878601, "Quantum sensing Metrology": 0.6956837773323059, "Quantum sensing navigation": 0.6805324554443359, "Quantum sensing Position": 0.6801952123641968, "Quantum sensing Timing": 0.6654573678970337, "Quantum sensing": 0.6986036896705627, "Quantum control": 0.6942251920700073 } }, { "id": 2525, "title": "Fluorescence of a chiral pentaphene derivative derived from the hexabenzocoronene Motif", "abstract": "A new fluorescent pentaphene derivative is presented that differs from hexabenzocoronene (HBC) by one carbon atom in the basal plane skeleton. A 500% increased fluorescence quantum yield is measured c...", "citations": 17, "author_count": 10, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2530, "doi": "10.1039/c9cc05451k", "umap_coordinates": { "x": 392.02044677734375, "y": 136.10647583007812, "z": 204.90960693359375 }, "tsne_coordinates": { "x": 6.827449321746826, "y": 5.430215358734131, "z": -10.546420097351074 }, "pca_coordinates": { "x": -1.0353543758392334, "y": -0.5619287490844727, "z": -3.0891287326812744 }, "axis_scores": { "Quantum imaging": 0.6759006381034851, "Quantum Life Science Sensing": 0.6869434118270874, "Quantum sensing Detection": 0.6766436696052551, "Quantum sensing Metrology": 0.6496346592903137, "Quantum sensing navigation": 0.662133514881134, "Quantum sensing Position": 0.6420541405677795, "Quantum sensing Timing": 0.6316481828689575, "Quantum sensing": 0.6808513402938843, "Quantum control": 0.6560922861099243 } }, { "id": 2526, "title": "Enhanced Production of Direct Photons in Au plus Au Collisions at √sNN=200 GeV and Implications for the Initial Temperature", "abstract": "The production of e(+)e(-) pairs for m(e+e-) < 0.3 GeV/c(2) and 1< p(T) < 5 GeV/c is measured in p + p and Au + Au collisions at root s(NN) = 200 GeV. An enhanced yield above hadronic sources is obser...", "citations": 349, "author_count": 422, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2531, "doi": "10.1103/PhysRevLett.104.132301", "umap_coordinates": { "x": 396.12762451171875, "y": 134.47483825683594, "z": 208.08673095703125 }, "tsne_coordinates": { "x": -34.575836181640625, "y": -0.0622732937335968, "z": -18.53628158569336 }, "pca_coordinates": { "x": 1.0959968566894531, "y": -1.932206630706787, "z": 2.703014373779297 }, "axis_scores": { "Quantum imaging": 0.6742669343948364, "Quantum Life Science Sensing": 0.687724769115448, "Quantum sensing Detection": 0.6985636949539185, "Quantum sensing Metrology": 0.6796574592590332, "Quantum sensing navigation": 0.6797817349433899, "Quantum sensing Position": 0.6828774213790894, "Quantum sensing Timing": 0.6922130584716797, "Quantum sensing": 0.6939355731010437, "Quantum control": 0.6481521129608154 } }, { "id": 2527, "title": "Scalable Entanglement Certification via Quantum Communication", "abstract": "Harnessing the advantages of shared entanglement for sending quantum messages often requires the implementation of complex two-particle entangled measurements. We investigate entanglement advantages i...", "citations": 8, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2532, "doi": "10.1103/PRXQuantum.5.020319", "umap_coordinates": { "x": 395.8288269042969, "y": 136.86416625976562, "z": 206.9713897705078 }, "tsne_coordinates": { "x": -32.49105453491211, "y": -19.3008975982666, "z": -0.07581666111946106 }, "pca_coordinates": { "x": 2.2212164402008057, "y": 1.5413248538970947, "z": 2.1313021183013916 }, "axis_scores": { "Quantum imaging": 0.7969380617141724, "Quantum Life Science Sensing": 0.7652522325515747, "Quantum sensing Detection": 0.799091637134552, "Quantum sensing Metrology": 0.7936627864837646, "Quantum sensing navigation": 0.7881153225898743, "Quantum sensing Position": 0.7772888541221619, "Quantum sensing Timing": 0.7562904953956604, "Quantum sensing": 0.8122458457946777, "Quantum control": 0.7992820739746094 } }, { "id": 2528, "title": "Extending Bell inequalities to more parties", "abstract": "We describe a method of extending Bell inequalities from n to n+ 1 parties and formulate sufficient conditions for our method to produce tight inequalities from tight inequalities. The method is nontr...", "citations": 10, "author_count": 5, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2533, "doi": "10.1103/PhysRevA.77.032105", "umap_coordinates": { "x": 395.9811096191406, "y": 136.92645263671875, "z": 207.27906799316406 }, "tsne_coordinates": { "x": -20.230104446411133, "y": -8.612521171569824, "z": 9.229825019836426 }, "pca_coordinates": { "x": 2.1921041011810303, "y": 2.466064214706421, "z": 0.5466234087944031 }, "axis_scores": { "Quantum imaging": 0.6725813150405884, "Quantum Life Science Sensing": 0.6775348782539368, "Quantum sensing Detection": 0.6698288917541504, "Quantum sensing Metrology": 0.6609928607940674, "Quantum sensing navigation": 0.6685110926628113, "Quantum sensing Position": 0.6552109718322754, "Quantum sensing Timing": 0.6522154211997986, "Quantum sensing": 0.6866812705993652, "Quantum control": 0.6585066914558411 } }, { "id": 2529, "title": "Structural and optical properties of size controlled Si nanocrystals in Si3N4 matrix: The nature of photoluminescence peak shift", "abstract": "Superlattices of Si3N4 and Si-rich silicon nitride thin layers with varying thickness were prepared by plasma enhanced chemical vapor deposition. After high temperature annealing, Si nanocrystals were...", "citations": 36, "author_count": 18, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2534, "doi": "10.1063/1.4830026", "umap_coordinates": { "x": 392.6667175292969, "y": 133.4319305419922, "z": 206.87582397460938 }, "tsne_coordinates": { "x": 34.990386962890625, "y": -10.605439186096191, "z": -6.329079627990723 }, "pca_coordinates": { "x": -1.696568250656128, "y": -2.784273624420166, "z": 0.16623181104660034 }, "axis_scores": { "Quantum imaging": 0.7319989204406738, "Quantum Life Science Sensing": 0.7507476210594177, "Quantum sensing Detection": 0.7210880517959595, "Quantum sensing Metrology": 0.7220829129219055, "Quantum sensing navigation": 0.693259060382843, "Quantum sensing Position": 0.7043125629425049, "Quantum sensing Timing": 0.6719069480895996, "Quantum sensing": 0.7431687116622925, "Quantum control": 0.7133737206459045 } }, { "id": 2530, "title": "Stochastic final-state dynamics of widening entanglement-a possible description of quantum measurement", "abstract": "The measurement process of quantum mechanics is analysed in the scattering theory of quantum field theory. A matrix of bilinear forms of the scattering amplitudes (the R-matrix) is used as the basic d...", "citations": 2, "author_count": 2, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2535, "doi": "10.1088/0953-4075/42/8/085001", "umap_coordinates": { "x": 395.1773681640625, "y": 136.8169403076172, "z": 207.07667541503906 }, "tsne_coordinates": { "x": -32.28199005126953, "y": -0.6284171938896179, "z": 1.8945913314819336 }, "pca_coordinates": { "x": 2.442976474761963, "y": 3.9029555320739746, "z": 1.430699348449707 }, "axis_scores": { "Quantum imaging": 0.7121054530143738, "Quantum Life Science Sensing": 0.7058830261230469, "Quantum sensing Detection": 0.715196967124939, "Quantum sensing Metrology": 0.711158275604248, "Quantum sensing navigation": 0.7428659796714783, "Quantum sensing Position": 0.7042725086212158, "Quantum sensing Timing": 0.7107531428337097, "Quantum sensing": 0.7235392332077026, "Quantum control": 0.7121050357818604 } }, { "id": 2531, "title": "DETERMINATION OF ALPHA-S FROM A MEASUREMENT OF THE DIRECT PHOTON SPECTRUM IN UPSILON(1S) DECAYS", "abstract": "", "citations": 33, "author_count": 78, "categories": [ "Astronomy & Astrophysics" ], "year": 1987, "topic": [ "all" ], "embedding_index": 2536, "doi": "10.1016/0370-2693(87)91377-3", "umap_coordinates": { "x": 395.9906311035156, "y": 134.4444122314453, "z": 207.029541015625 }, "tsne_coordinates": { "x": -23.82335662841797, "y": 6.680119514465332, "z": -12.916664123535156 }, "pca_coordinates": { "x": -1.600501537322998, "y": 0.7970513105392456, "z": 2.833986282348633 }, "axis_scores": { "Quantum imaging": 0.6884944438934326, "Quantum Life Science Sensing": 0.7344866991043091, "Quantum sensing Detection": 0.7068174481391907, "Quantum sensing Metrology": 0.6868250966072083, "Quantum sensing navigation": 0.6807816028594971, "Quantum sensing Position": 0.6808053255081177, "Quantum sensing Timing": 0.6601037383079529, "Quantum sensing": 0.7099831700325012, "Quantum control": 0.6427146196365356 } }, { "id": 2532, "title": "Quantum statistical correlations and single-particle distributions for slowly expanding systems with temperature profile", "abstract": "Competition among particle evaporation, temperature gradient, and flow is investigated in a phenomenological manner, based on a simultaneous analysis of quantum statistical correlations and momentum d...", "citations": 26, "author_count": 5, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 2537, "doi": "10.1103/PhysRevC.56.2626", "umap_coordinates": { "x": 394.7750549316406, "y": 136.4591064453125, "z": 207.75389099121094 }, "tsne_coordinates": { "x": -24.9201602935791, "y": -11.156009674072266, "z": 22.63043212890625 }, "pca_coordinates": { "x": 2.9774370193481445, "y": 0.7864458560943604, "z": -0.3041103184223175 }, "axis_scores": { "Quantum imaging": 0.7090105414390564, "Quantum Life Science Sensing": 0.7376251220703125, "Quantum sensing Detection": 0.6999037265777588, "Quantum sensing Metrology": 0.6944605112075806, "Quantum sensing navigation": 0.7169580459594727, "Quantum sensing Position": 0.6962100267410278, "Quantum sensing Timing": 0.6981031894683838, "Quantum sensing": 0.7169203758239746, "Quantum control": 0.6937967538833618 } }, { "id": 2533, "title": "ID15A at the ESRF - a beamline for high speed operando X-ray diffraction, diffraction tomography and total scattering", "abstract": "ID15A is a newly refurbished beamline at the ESRF devoted to operando and time-resolved diffraction and imaging, total scattering and diffraction computed tomography. The beamline is optimized for rap...", "citations": 125, "author_count": 20, "categories": [ "Instruments & Instrumentation" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2538, "doi": "10.1107/S1600577519016813", "umap_coordinates": { "x": 395.73779296875, "y": 134.5561981201172, "z": 205.9236297607422 }, "tsne_coordinates": { "x": -18.466142654418945, "y": 18.649066925048828, "z": 1.7599910497665405 }, "pca_coordinates": { "x": 0.9170329570770264, "y": 1.4028611183166504, "z": 1.8400821685791016 }, "axis_scores": { "Quantum imaging": 0.7075701355934143, "Quantum Life Science Sensing": 0.7062187790870667, "Quantum sensing Detection": 0.6857541799545288, "Quantum sensing Metrology": 0.6964536905288696, "Quantum sensing navigation": 0.7038409113883972, "Quantum sensing Position": 0.6756641268730164, "Quantum sensing Timing": 0.7032341957092285, "Quantum sensing": 0.7090836763381958, "Quantum control": 0.6796426773071289 } }, { "id": 2534, "title": "Degrees of polarization for a quantum field", "abstract": "Unpolarized light is invariant with respect to any SU(2) polarization transformation. Since this fully characterizes the set of density matrices representing unpolarized states, we introduce the degre...", "citations": 15, "author_count": 6, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2539, "doi": "10.1088/1742-6596/36/1/026", "umap_coordinates": { "x": 395.1232604980469, "y": 135.97772216796875, "z": 206.77012634277344 }, "tsne_coordinates": { "x": -18.865026473999023, "y": -11.620121002197266, "z": -8.567138671875 }, "pca_coordinates": { "x": 1.0896315574645996, "y": 2.5000946521759033, "z": 0.1855979561805725 }, "axis_scores": { "Quantum imaging": 0.7203179001808167, "Quantum Life Science Sensing": 0.719341516494751, "Quantum sensing Detection": 0.7026838064193726, "Quantum sensing Metrology": 0.7075496315956116, "Quantum sensing navigation": 0.7130086421966553, "Quantum sensing Position": 0.7047072649002075, "Quantum sensing Timing": 0.6897679567337036, "Quantum sensing": 0.7234236001968384, "Quantum control": 0.7052303552627563 } }, { "id": 2535, "title": "STRANGE DIBARYONS IN THE SIMPLIFIED SKYRME MODEL", "abstract": "We show that the bound-state approach to the strange dibaryons in the Skyrme model can be considerably simplified by omitting the Skyrme stabilizing term proportional to e-2 and using the regularized ...", "citations": 14, "author_count": 2, "categories": [ "Physics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 2540, "doi": "10.1016/0375-9474(91)90606-7", "umap_coordinates": { "x": 393.9617614746094, "y": 137.26023864746094, "z": 207.23934936523438 }, "tsne_coordinates": { "x": -6.2263288497924805, "y": 25.28228187561035, "z": 27.43948745727539 }, "pca_coordinates": { "x": 0.7689592838287354, "y": 2.3789072036743164, "z": -2.1058952808380127 }, "axis_scores": { "Quantum imaging": 0.6451119184494019, "Quantum Life Science Sensing": 0.6582769155502319, "Quantum sensing Detection": 0.628763735294342, "Quantum sensing Metrology": 0.6271329522132874, "Quantum sensing navigation": 0.6645830869674683, "Quantum sensing Position": 0.6288199424743652, "Quantum sensing Timing": 0.6158866286277771, "Quantum sensing": 0.6449487209320068, "Quantum control": 0.6375548839569092 } }, { "id": 2536, "title": "Ab initio description of highly correlated states in defects for realizing quantum bits", "abstract": "Coupled localized electron spins hosted by defects in semiconductors implement quantum bits with the potential to revolutionize nanoscale sensors and quantum information processing. The present unders...", "citations": 104, "author_count": 6, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2541, "doi": "10.1038/s41535-018-0103-6", "umap_coordinates": { "x": 393.9476318359375, "y": 135.7428436279297, "z": 207.0111541748047 }, "tsne_coordinates": { "x": 7.253390789031982, "y": -11.209466934204102, "z": 5.808281898498535 }, "pca_coordinates": { "x": 2.2965087890625, "y": -1.5097403526306152, "z": 1.6017239093780518 }, "axis_scores": { "Quantum imaging": 0.7561017870903015, "Quantum Life Science Sensing": 0.736613929271698, "Quantum sensing Detection": 0.7504717111587524, "Quantum sensing Metrology": 0.7492179870605469, "Quantum sensing navigation": 0.7449674606323242, "Quantum sensing Position": 0.7272543907165527, "Quantum sensing Timing": 0.7320123910903931, "Quantum sensing": 0.7643990516662598, "Quantum control": 0.7116231918334961 } }, { "id": 2537, "title": "Ambiguity in quantum optics: the pure state", "abstract": "We discuss the mathematical and physical properties of the Shirley function, which is the totally off-diagonal complement to the Wigner function. It is identified with the moment generating function o...", "citations": 7, "author_count": 3, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2542, "doi": "10.1080/095003499149908", "umap_coordinates": { "x": 395.61297607421875, "y": 137.1614990234375, "z": 206.56192016601562 }, "tsne_coordinates": { "x": -36.6224365234375, "y": 0.49068522453308105, "z": 7.920019149780273 }, "pca_coordinates": { "x": 1.27140212059021, "y": 2.7893176078796387, "z": 0.4346608519554138 }, "axis_scores": { "Quantum imaging": 0.7844657897949219, "Quantum Life Science Sensing": 0.7613325119018555, "Quantum sensing Detection": 0.780671238899231, "Quantum sensing Metrology": 0.7654846906661987, "Quantum sensing navigation": 0.7920571565628052, "Quantum sensing Position": 0.7877076864242554, "Quantum sensing Timing": 0.7494955658912659, "Quantum sensing": 0.7859031558036804, "Quantum control": 0.7548123002052307 } }, { "id": 2538, "title": "Experimental post-selection loophole-free time-bin and energy-time nonlocality with integrated photonics", "abstract": "Time-bin (TB) and energy-time (ET) entanglements are crucial resources for long-distance quantum information processing. However, their standard implementations suffer from the so-called post-selectio...", "citations": 12, "author_count": 8, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2543, "doi": "10.1364/OPTICA.499247", "umap_coordinates": { "x": 395.3797302246094, "y": 134.8766632080078, "z": 206.8141326904297 }, "tsne_coordinates": { "x": -23.06503677368164, "y": -3.7842960357666016, "z": -1.8424025774002075 }, "pca_coordinates": { "x": -0.07533609867095947, "y": 2.5647408962249756, "z": 2.9046857357025146 }, "axis_scores": { "Quantum imaging": 0.7450509667396545, "Quantum Life Science Sensing": 0.7104966044425964, "Quantum sensing Detection": 0.7208390235900879, "Quantum sensing Metrology": 0.7051673531532288, "Quantum sensing navigation": 0.729820191860199, "Quantum sensing Position": 0.7014713883399963, "Quantum sensing Timing": 0.7575994729995728, "Quantum sensing": 0.7255714535713196, "Quantum control": 0.7064530849456787 } }, { "id": 2539, "title": "Solution of master equations by fermionic-duality: Time-dependent charge and heat currents through an interacting quantum dot proximized by a superconductor", "abstract": "We analyze the time-dependent solution of master equations by exploiting fermionic duality, a dissipative symmetry applicable to a large class of open systems describing quantum transport. Whereas pre...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2544, "doi": "10.21468/SciPostPhys.14.5.095", "umap_coordinates": { "x": 394.7415771484375, "y": 135.97769165039062, "z": 207.41233825683594 }, "tsne_coordinates": { "x": -8.39685344696045, "y": -11.805912017822266, "z": 34.4291877746582 }, "pca_coordinates": { "x": 1.9844233989715576, "y": 0.7548582553863525, "z": 0.771884024143219 }, "axis_scores": { "Quantum imaging": 0.7344425916671753, "Quantum Life Science Sensing": 0.7365391850471497, "Quantum sensing Detection": 0.717918872833252, "Quantum sensing Metrology": 0.7110165953636169, "Quantum sensing navigation": 0.7232886552810669, "Quantum sensing Position": 0.702237069606781, "Quantum sensing Timing": 0.7304690480232239, "Quantum sensing": 0.7242758274078369, "Quantum control": 0.7108527421951294 } }, { "id": 2540, "title": "Computational Identification of Pyrrole Ring C as the Preferred Donor for Excited-State Proton Transfer in Bacteriophytochromes", "abstract": "The engineering of bacteriophytochrome photoreceptors into near-infrared fluorescent proteins is a promising route toward deep-tissue imaging of living cells with many challenges ahead. One key object...", "citations": 12, "author_count": 3, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2545, "doi": "10.1002/cptc.201800014", "umap_coordinates": { "x": 393.1419982910156, "y": 136.40382385253906, "z": 204.67630004882812 }, "tsne_coordinates": { "x": -0.8790428042411804, "y": 11.185891151428223, "z": 14.476775169372559 }, "pca_coordinates": { "x": -3.1588873863220215, "y": 1.0877127647399902, "z": -1.5440362691879272 }, "axis_scores": { "Quantum imaging": 0.7221347689628601, "Quantum Life Science Sensing": 0.7419198155403137, "Quantum sensing Detection": 0.7316623330116272, "Quantum sensing Metrology": 0.7202112674713135, "Quantum sensing navigation": 0.7154795527458191, "Quantum sensing Position": 0.7218644022941589, "Quantum sensing Timing": 0.710957407951355, "Quantum sensing": 0.7393019199371338, "Quantum control": 0.7035237550735474 } }, { "id": 2541, "title": "Parallel aspects of quantum molecular dynamics simulations of liquids", "abstract": "A very straightforward parallel scheme to perform Born-Oppenheimer quantum molecular dynamics simulations of liquids is presented. It is analogous to Linear Scaling methods, used in electronic structu...", "citations": 1, "author_count": 3, "categories": [ "Computer Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2546, "doi": "10.1016/S0010-4655(00)00082-5", "umap_coordinates": { "x": 393.94561767578125, "y": 137.1884002685547, "z": 206.35684204101562 }, "tsne_coordinates": { "x": -6.410444736480713, "y": 9.344125747680664, "z": 27.63701820373535 }, "pca_coordinates": { "x": 1.0927882194519043, "y": 1.0008060932159424, "z": -0.677464485168457 }, "axis_scores": { "Quantum imaging": 0.7349072694778442, "Quantum Life Science Sensing": 0.7176418304443359, "Quantum sensing Detection": 0.690198540687561, "Quantum sensing Metrology": 0.688271701335907, "Quantum sensing navigation": 0.7134747505187988, "Quantum sensing Position": 0.6972898840904236, "Quantum sensing Timing": 0.7018990516662598, "Quantum sensing": 0.7180787920951843, "Quantum control": 0.7160573601722717 } }, { "id": 2542, "title": "On Interpretational Questions for Quantum-Like Modeling of Social Lasing", "abstract": "The recent years were characterized by increasing interest to applications of the quantum formalism outside physics, e.g., in psychology, decision-making, socio-political studies. To distinguish such ...", "citations": 10, "author_count": 5, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2547, "doi": "10.3390/e20120921", "umap_coordinates": { "x": 395.1658935546875, "y": 137.72219848632812, "z": 205.75709533691406 }, "tsne_coordinates": { "x": -24.32569694519043, "y": 12.389896392822266, "z": 15.235493659973145 }, "pca_coordinates": { "x": 1.4643275737762451, "y": 3.4041996002197266, "z": -2.0012786388397217 }, "axis_scores": { "Quantum imaging": 0.7156519293785095, "Quantum Life Science Sensing": 0.7524588108062744, "Quantum sensing Detection": 0.7145434021949768, "Quantum sensing Metrology": 0.7101855278015137, "Quantum sensing navigation": 0.7212343215942383, "Quantum sensing Position": 0.6904897093772888, "Quantum sensing Timing": 0.676188588142395, "Quantum sensing": 0.7280083894729614, "Quantum control": 0.7030861973762512 } }, { "id": 2543, "title": "Directed transport and Floquet analysis for a periodically kicked wave packet at a quantum resonance", "abstract": "The dynamics of a kicked quantum mechanical wave packet at a quantum resonance is studied in the framework of Floquet analysis. It is seen how a directed current can be created out of a homogeneous in...", "citations": 7, "author_count": 2, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2548, "doi": "10.1103/PhysRevE.74.016212", "umap_coordinates": { "x": 394.8000183105469, "y": 136.61175537109375, "z": 208.7528533935547 }, "tsne_coordinates": { "x": -16.54623794555664, "y": -17.47437286376953, "z": 14.572558403015137 }, "pca_coordinates": { "x": 3.5663037300109863, "y": -0.8848190307617188, "z": -0.1611378788948059 }, "axis_scores": { "Quantum imaging": 0.7001228332519531, "Quantum Life Science Sensing": 0.694279134273529, "Quantum sensing Detection": 0.6903435587882996, "Quantum sensing Metrology": 0.6713641285896301, "Quantum sensing navigation": 0.7176738381385803, "Quantum sensing Position": 0.683134913444519, "Quantum sensing Timing": 0.6637742519378662, "Quantum sensing": 0.699391782283783, "Quantum control": 0.6937816143035889 } }, { "id": 2544, "title": "Light-field amplitude control for multi-photon fluorescence imaging", "abstract": "Laser-induced fluorescence has been a staple technique for in-situ probing of radicals and atomic species for decades. The multi-photon equivalent is prevalent in a large variety of applications, wher...", "citations": 1, "author_count": 6, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2549, "doi": "10.1364/OE.543983", "umap_coordinates": { "x": 394.68865966796875, "y": 134.2399444580078, "z": 205.77066040039062 }, "tsne_coordinates": { "x": 9.167556762695312, "y": 20.734060287475586, "z": -28.668807983398438 }, "pca_coordinates": { "x": -2.609206199645996, "y": 0.6330561637878418, "z": 2.0237159729003906 }, "axis_scores": { "Quantum imaging": 0.7471720576286316, "Quantum Life Science Sensing": 0.7190005779266357, "Quantum sensing Detection": 0.713062047958374, "Quantum sensing Metrology": 0.7196768522262573, "Quantum sensing navigation": 0.7042348384857178, "Quantum sensing Position": 0.6912834644317627, "Quantum sensing Timing": 0.6895367503166199, "Quantum sensing": 0.7285544872283936, "Quantum control": 0.7420134544372559 } }, { "id": 2545, "title": "Sulfuric Acid Assisted Preparation of Red-Emitting Carbonized Polymer Dots and the Application of Bio-lmaging", "abstract": "Red-emitting carbonized polymer dots (CPDs) was prepared from p-phenylenediamine (p-PD) aqueous solution with the assistance of sulfuric acid (H2SO4), and the optical properties and bio-imaging applic...", "citations": 40, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2550, "doi": "10.1186/s11671-018-2657-4", "umap_coordinates": { "x": 393.6507568359375, "y": 134.51560974121094, "z": 204.5537109375 }, "tsne_coordinates": { "x": 15.128402709960938, "y": 24.067087173461914, "z": -8.551658630371094 }, "pca_coordinates": { "x": -4.7422027587890625, "y": 0.21496272087097168, "z": 0.5573678612709045 }, "axis_scores": { "Quantum imaging": 0.6686715483665466, "Quantum Life Science Sensing": 0.7113234996795654, "Quantum sensing Detection": 0.6637860536575317, "Quantum sensing Metrology": 0.6652165651321411, "Quantum sensing navigation": 0.6493433117866516, "Quantum sensing Position": 0.6676524877548218, "Quantum sensing Timing": 0.6540411710739136, "Quantum sensing": 0.6817374229431152, "Quantum control": 0.6548490524291992 } }, { "id": 2546, "title": "Balancing power density based quantum yield characterization of upconverting nanoparticles for arbitrary excitation intensities", "abstract": "Upconverting nanoparticles (UCNPs) have recently shown great potential as contrast agents in biological applications. In developing different UCNPs, the characterization of their quantum yield (QY) is...", "citations": 96, "author_count": 8, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2551, "doi": "10.1039/c3nr00469d", "umap_coordinates": { "x": 393.3295593261719, "y": 133.44334411621094, "z": 205.90113830566406 }, "tsne_coordinates": { "x": 14.267621040344238, "y": 21.80358123779297, "z": -27.19745445251465 }, "pca_coordinates": { "x": -1.9617693424224854, "y": -1.6494488716125488, "z": 0.16234749555587769 }, "axis_scores": { "Quantum imaging": 0.7190858721733093, "Quantum Life Science Sensing": 0.7160223722457886, "Quantum sensing Detection": 0.6948511600494385, "Quantum sensing Metrology": 0.6945536136627197, "Quantum sensing navigation": 0.6847596168518066, "Quantum sensing Position": 0.6825301051139832, "Quantum sensing Timing": 0.6483770608901978, "Quantum sensing": 0.7033492922782898, "Quantum control": 0.7078999876976013 } }, { "id": 2547, "title": "Manipulations of size and density of self-assembled quantum dots grown by MOVPE", "abstract": "Experiments have been done in order to understand the nucleation and growth of three-dimensional (3D) islands in the Stranski-Krastanow growth mode. 3.5 ML InP was deposited on a GaP-stabilized GaAs s...", "citations": 25, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2552, "doi": "10.1016/S1386-9477(98)00136-2", "umap_coordinates": { "x": 392.2832946777344, "y": 133.94117736816406, "z": 207.10250854492188 }, "tsne_coordinates": { "x": 31.112539291381836, "y": -8.274353981018066, "z": 1.3255243301391602 }, "pca_coordinates": { "x": -1.1931474208831787, "y": -1.2836987972259521, "z": 0.5992938876152039 }, "axis_scores": { "Quantum imaging": 0.749229907989502, "Quantum Life Science Sensing": 0.742124617099762, "Quantum sensing Detection": 0.7237847447395325, "Quantum sensing Metrology": 0.7417489886283875, "Quantum sensing navigation": 0.7100425958633423, "Quantum sensing Position": 0.7258950471878052, "Quantum sensing Timing": 0.6800865530967712, "Quantum sensing": 0.744836688041687, "Quantum control": 0.7195340394973755 } }, { "id": 2548, "title": "Dual-energy imaging using a photon counting detector with electronic spectrum-splitting - art. no. 61421H", "abstract": "This paper presents a dual-energy imaging technique optimized for contrast-enhanced mammography using a photon counting detector. Each photon pulse is processed separately in the detector and the addi...", "citations": 3, "author_count": 3, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2553, "doi": "10.1117/12.649799", "umap_coordinates": { "x": 395.6423034667969, "y": 133.23992919921875, "z": 206.29251098632812 }, "tsne_coordinates": { "x": -14.653626441955566, "y": 21.95331382751465, "z": -27.89598274230957 }, "pca_coordinates": { "x": -1.4315601587295532, "y": 0.03511667251586914, "z": 4.313908576965332 }, "axis_scores": { "Quantum imaging": 0.7369768619537354, "Quantum Life Science Sensing": 0.7117767930030823, "Quantum sensing Detection": 0.7258936166763306, "Quantum sensing Metrology": 0.7020899057388306, "Quantum sensing navigation": 0.7035259008407593, "Quantum sensing Position": 0.6773906350135803, "Quantum sensing Timing": 0.6766934394836426, "Quantum sensing": 0.7176608443260193, "Quantum control": 0.6579172015190125 } }, { "id": 2549, "title": "Regulating Thiol Ligands of p-Type Colloidal Quantum Dots for Efficient Infrared Solar Cells", "abstract": "The p-type semiconducting colloidal quantum dot (CQD), working as a hole conductor in CQD solar cells (CQDSCs), is critical for charge carrier extraction and therefore, to large extent, determines the...", "citations": 54, "author_count": 11, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2554, "doi": "10.1021/acsenergylett.1c00475", "umap_coordinates": { "x": 391.91070556640625, "y": 133.9817657470703, "z": 205.3543701171875 }, "tsne_coordinates": { "x": 20.546018600463867, "y": -2.152696132659912, "z": -12.793858528137207 }, "pca_coordinates": { "x": -3.263744592666626, "y": -3.9703636169433594, "z": -1.7368457317352295 }, "axis_scores": { "Quantum imaging": 0.6799068450927734, "Quantum Life Science Sensing": 0.7143770456314087, "Quantum sensing Detection": 0.6721095442771912, "Quantum sensing Metrology": 0.6691211462020874, "Quantum sensing navigation": 0.6831656694412231, "Quantum sensing Position": 0.689355194568634, "Quantum sensing Timing": 0.6872391104698181, "Quantum sensing": 0.6899471879005432, "Quantum control": 0.6791942119598389 } }, { "id": 2550, "title": "In vivo degeneration and the fate of inorganic nanoparticles", "abstract": "What happens to inorganic nanoparticles (NPs), such as plasmonic gold or silver, superparamagnetic iron oxide, or fluorescent quantum dot NPs after they have been administrated to a living being? This...", "citations": 392, "author_count": 13, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2555, "doi": "10.1039/c5cs00699f", "umap_coordinates": { "x": 393.3614196777344, "y": 134.78604125976562, "z": 204.78314208984375 }, "tsne_coordinates": { "x": 20.187824249267578, "y": 23.822261810302734, "z": 0.5204249024391174 }, "pca_coordinates": { "x": -3.612457275390625, "y": -1.0717504024505615, "z": -2.6178038120269775 }, "axis_scores": { "Quantum imaging": 0.7054152488708496, "Quantum Life Science Sensing": 0.7380301356315613, "Quantum sensing Detection": 0.6819202899932861, "Quantum sensing Metrology": 0.6661940813064575, "Quantum sensing navigation": 0.6905356645584106, "Quantum sensing Position": 0.6714312434196472, "Quantum sensing Timing": 0.6281439661979675, "Quantum sensing": 0.6850094795227051, "Quantum control": 0.6658259630203247 } }, { "id": 2551, "title": "Reconstruction of diffuse photon-density wave interference in turbid media from time-resolved transmittance measurements", "abstract": "We demonstrate an improved technique to precisely localize inhomogeneities in turbid media by means of reconstructing diffuse photon-density wave interference from time-resolved transmittance measurem...", "citations": 11, "author_count": 6, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2556, "doi": "10.1063/1.117024", "umap_coordinates": { "x": 394.2619934082031, "y": 133.88742065429688, "z": 207.22213745117188 }, "tsne_coordinates": { "x": 28.630521774291992, "y": -25.347810745239258, "z": -9.408947944641113 }, "pca_coordinates": { "x": 0.19514250755310059, "y": -0.03842520713806152, "z": 2.738405704498291 }, "axis_scores": { "Quantum imaging": 0.7487435936927795, "Quantum Life Science Sensing": 0.7310823798179626, "Quantum sensing Detection": 0.7196363806724548, "Quantum sensing Metrology": 0.7175648212432861, "Quantum sensing navigation": 0.7058569192886353, "Quantum sensing Position": 0.6778325438499451, "Quantum sensing Timing": 0.6730829477310181, "Quantum sensing": 0.7323264479637146, "Quantum control": 0.6758280396461487 } }, { "id": 2552, "title": "Low-power broadband solid-state MAS NMR of 14N", "abstract": "We propose two broadband pulse schemes for N-14 solid-state magic-angle-spinning (MAS) nuclear magnetic resonance (NMR) that achieves (i) complete population inversion and (ii) efficient excitation of...", "citations": 30, "author_count": 6, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2557, "doi": "10.1063/1.4983220", "umap_coordinates": { "x": 393.73052978515625, "y": 135.5304412841797, "z": 207.73468017578125 }, "tsne_coordinates": { "x": 14.553200721740723, "y": -2.0269107818603516, "z": 36.64347839355469 }, "pca_coordinates": { "x": 1.089143991470337, "y": 0.8297214508056641, "z": 0.25605422258377075 }, "axis_scores": { "Quantum imaging": 0.7311130166053772, "Quantum Life Science Sensing": 0.7466022968292236, "Quantum sensing Detection": 0.7305395603179932, "Quantum sensing Metrology": 0.7080517411231995, "Quantum sensing navigation": 0.7293635606765747, "Quantum sensing Position": 0.7062028646469116, "Quantum sensing Timing": 0.6772746443748474, "Quantum sensing": 0.7441091537475586, "Quantum control": 0.7038043737411499 } }, { "id": 2553, "title": "Quantum coherence in an exactly solvable one-dimensional model with defects - Comments", "abstract": "In a recent paper by Schmitteckert et al., an exactly solvable XXZ chain with defects was studied. We here point out that, for this type of model, the critical exponents for the asymptotic correlation...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2558, "doi": "10.1209/epl/i1996-00534-y", "umap_coordinates": { "x": 394.3298645019531, "y": 137.18630981445312, "z": 207.80694580078125 }, "tsne_coordinates": { "x": -18.547893524169922, "y": -27.005130767822266, "z": 26.473220825195312 }, "pca_coordinates": { "x": 3.0382466316223145, "y": 2.128781318664551, "z": 0.18466150760650635 }, "axis_scores": { "Quantum imaging": 0.7007991075515747, "Quantum Life Science Sensing": 0.6736699938774109, "Quantum sensing Detection": 0.6757287383079529, "Quantum sensing Metrology": 0.6690402626991272, "Quantum sensing navigation": 0.6831732392311096, "Quantum sensing Position": 0.6641756892204285, "Quantum sensing Timing": 0.679439902305603, "Quantum sensing": 0.6819133758544922, "Quantum control": 0.6915307641029358 } }, { "id": 2554, "title": "Timing resolution in double-sided silicon photon-counting computed tomography detectors", "abstract": "Purpose: Our purpose is to investigate the timing resolution in edge-on silicon strip detectors for photon-counting spectral computed tomography. Today, the timing for detection of individual x-rays i...", "citations": 2, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2559, "doi": "10.1117/1.JMI.10.2.023502", "umap_coordinates": { "x": 395.2673645019531, "y": 132.6397705078125, "z": 206.18519592285156 }, "tsne_coordinates": { "x": -9.769105911254883, "y": 16.341381072998047, "z": -22.602285385131836 }, "pca_coordinates": { "x": -1.293967843055725, "y": 0.5523507595062256, "z": 4.56439208984375 }, "axis_scores": { "Quantum imaging": 0.7555772066116333, "Quantum Life Science Sensing": 0.7174255847930908, "Quantum sensing Detection": 0.7388623356819153, "Quantum sensing Metrology": 0.7383001446723938, "Quantum sensing navigation": 0.7251649498939514, "Quantum sensing Position": 0.7235352993011475, "Quantum sensing Timing": 0.8033429980278015, "Quantum sensing": 0.7337100505828857, "Quantum control": 0.6822770237922668 } }, { "id": 2555, "title": "Quantum Sensing of Free Radicals in Primary Human Granulosa Cells with Nanoscale Resolution", "abstract": "Cumulus granulosa cells (cGCs) and mural granulosa cells (mGCs), although derived from the same precursors, are anatomically and functionally heterogeneous. They are critical for female fertility by s...", "citations": 12, "author_count": 12, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2560, "doi": "10.1021/acscentsci.3c00747", "umap_coordinates": { "x": 394.07794189453125, "y": 134.86314392089844, "z": 204.70654296875 }, "tsne_coordinates": { "x": 9.742257118225098, "y": 27.449344635009766, "z": 26.701797485351562 }, "pca_coordinates": { "x": -1.8686082363128662, "y": -0.12774324417114258, "z": 0.011549174785614014 }, "axis_scores": { "Quantum imaging": 0.784257173538208, "Quantum Life Science Sensing": 0.8194280862808228, "Quantum sensing Detection": 0.7954282760620117, "Quantum sensing Metrology": 0.7819265723228455, "Quantum sensing navigation": 0.7738423347473145, "Quantum sensing Position": 0.7459070086479187, "Quantum sensing Timing": 0.7345788478851318, "Quantum sensing": 0.8065182566642761, "Quantum control": 0.7523194551467896 } }, { "id": 2556, "title": "Quantum description and emergence of nonlinearities in strongly coupled single-emitter nanoantenna systems", "abstract": "Realizing strong coupling between a single quantum emitter (QE) and an optical cavity is of crucial importance in the context of various quantum optical applications. Although Rabi splitting of single...", "citations": 37, "author_count": 6, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2561, "doi": "10.1103/PhysRevB.98.045435", "umap_coordinates": { "x": 394.1789245605469, "y": 134.01016235351562, "z": 208.2916259765625 }, "tsne_coordinates": { "x": 6.348160743713379, "y": -20.225797653198242, "z": -10.893355369567871 }, "pca_coordinates": { "x": 3.3494696617126465, "y": -3.549137592315674, "z": 1.8795506954193115 }, "axis_scores": { "Quantum imaging": 0.7423322796821594, "Quantum Life Science Sensing": 0.7524943351745605, "Quantum sensing Detection": 0.7560450434684753, "Quantum sensing Metrology": 0.7306001782417297, "Quantum sensing navigation": 0.7388758659362793, "Quantum sensing Position": 0.706373393535614, "Quantum sensing Timing": 0.6911402344703674, "Quantum sensing": 0.7582603693008423, "Quantum control": 0.7098753452301025 } }, { "id": 2557, "title": "Summary of advances in high frequency transistors, optoelectronic devices and CMOS circuits fabricated using GeSi strained layers", "abstract": "Extensive work has been done on the mechanical and electronic properties of GeSi strained layers during the last few years. This work has led to the fabrication of GeSi/Si heterostructures with improv...", "citations": 1, "author_count": 4, "categories": [ "Engineering" ], "year": 1997, "topic": [ "all" ], "embedding_index": 2562, "doi": "10.1080/02564602.1997.11416711", "umap_coordinates": { "x": 393.4356384277344, "y": 134.10084533691406, "z": 206.64601135253906 }, "tsne_coordinates": { "x": 34.42201614379883, "y": -18.52718734741211, "z": -7.794867515563965 }, "pca_coordinates": { "x": -1.346742033958435, "y": -1.6651177406311035, "z": 1.2659549713134766 }, "axis_scores": { "Quantum imaging": 0.6968309879302979, "Quantum Life Science Sensing": 0.7009837627410889, "Quantum sensing Detection": 0.6704431176185608, "Quantum sensing Metrology": 0.6739817261695862, "Quantum sensing navigation": 0.6741013526916504, "Quantum sensing Position": 0.687705397605896, "Quantum sensing Timing": 0.6974082589149475, "Quantum sensing": 0.6916207671165466, "Quantum control": 0.662379801273346 } }, { "id": 2558, "title": "STATIC SCALING IN A SHORT-RANGE ISING SPIN-GLASS", "abstract": "The nonlinear ac susceptibility chi'-nl of the short-range Ising spin glass Fe0.5Mn0.5TiO3 has been measured using a superconducting-quantum-interference-device magnetometer. The spin-glass temperatur...", "citations": 98, "author_count": 7, "categories": [ "Materials Science" ], "year": 1991, "topic": [ "all" ], "embedding_index": 2563, "doi": "10.1103/PhysRevB.43.8199", "umap_coordinates": { "x": 393.9454345703125, "y": 136.5728759765625, "z": 208.43748474121094 }, "tsne_coordinates": { "x": -1.784947395324707, "y": -34.13791275024414, "z": 23.030370712280273 }, "pca_coordinates": { "x": 3.3581156730651855, "y": -0.26087284088134766, "z": -1.353351354598999 }, "axis_scores": { "Quantum imaging": 0.6809121370315552, "Quantum Life Science Sensing": 0.7175583839416504, "Quantum sensing Detection": 0.683141827583313, "Quantum sensing Metrology": 0.6685320138931274, "Quantum sensing navigation": 0.7310777306556702, "Quantum sensing Position": 0.7005441784858704, "Quantum sensing Timing": 0.6804440021514893, "Quantum sensing": 0.7020998001098633, "Quantum control": 0.6692270040512085 } }, { "id": 2559, "title": "Critical Value of the Quantum Ising Model on Star-Like Graphs", "abstract": "We present a rigorous determination of the critical value of the ground-state quantum Ising model in a transverse field, on a class of planar graphs which we call star-like. These include the junction...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2564, "doi": "10.1007/s10955-009-9749-6", "umap_coordinates": { "x": 394.25982666015625, "y": 137.42002868652344, "z": 207.21414184570312 }, "tsne_coordinates": { "x": -38.9941291809082, "y": -2.2773802280426025, "z": 16.553457260131836 }, "pca_coordinates": { "x": 1.286607265472412, "y": 2.1498677730560303, "z": -0.628314733505249 }, "axis_scores": { "Quantum imaging": 0.6968708038330078, "Quantum Life Science Sensing": 0.7409451603889465, "Quantum sensing Detection": 0.6995409727096558, "Quantum sensing Metrology": 0.7017678022384644, "Quantum sensing navigation": 0.7051162719726562, "Quantum sensing Position": 0.6952733993530273, "Quantum sensing Timing": 0.6937724351882935, "Quantum sensing": 0.7106878757476807, "Quantum control": 0.68868488073349 } }, { "id": 2560, "title": "Squeezed states of a particle in magnetic field", "abstract": "For a charged particle in a homogeneous magnetic field, we construct stationary squeezed states which are eigenfunctions of the Hamiltonian and the non-Hermitian operator (X) over cap(Phi) = (X) over ...", "citations": 8, "author_count": 3, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2565, "doi": "10.1134/1.1130543", "umap_coordinates": { "x": 394.0547790527344, "y": 136.14260864257812, "z": 207.93775939941406 }, "tsne_coordinates": { "x": -16.00284767150879, "y": -38.12139129638672, "z": 10.979691505432129 }, "pca_coordinates": { "x": 3.869206428527832, "y": 0.8966739177703857, "z": -1.0735371112823486 }, "axis_scores": { "Quantum imaging": 0.7458247542381287, "Quantum Life Science Sensing": 0.7217684984207153, "Quantum sensing Detection": 0.7437582612037659, "Quantum sensing Metrology": 0.7398525476455688, "Quantum sensing navigation": 0.7636594176292419, "Quantum sensing Position": 0.7489557266235352, "Quantum sensing Timing": 0.691444993019104, "Quantum sensing": 0.758868932723999, "Quantum control": 0.744434118270874 } }, { "id": 2561, "title": "Time delay anisotropy in photoelectron emission from isotropic helium", "abstract": "In contrast to expectations, we observe that the photoionization time delay from the 1s(2) spherically symmetric ground state of He depend on the electron emission direction with respect to an externa...", "citations": 2, "author_count": 15, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2566, "doi": "10.1088/1742-6596/635/9/092089", "umap_coordinates": { "x": 394.60272216796875, "y": 135.36546325683594, "z": 207.316162109375 }, "tsne_coordinates": { "x": -10.177007675170898, "y": -20.074506759643555, "z": -21.624553680419922 }, "pca_coordinates": { "x": 1.4206433296203613, "y": 0.7187470197677612, "z": 0.9594728350639343 }, "axis_scores": { "Quantum imaging": 0.7226778268814087, "Quantum Life Science Sensing": 0.6791395545005798, "Quantum sensing Detection": 0.6731668710708618, "Quantum sensing Metrology": 0.6548877954483032, "Quantum sensing navigation": 0.6931864023208618, "Quantum sensing Position": 0.7069131135940552, "Quantum sensing Timing": 0.7340428233146667, "Quantum sensing": 0.6863057017326355, "Quantum control": 0.6647329330444336 } }, { "id": 2562, "title": "Two-photon autofluorescence spectral imaging applied to probe process-effects in thermomechanical pulp refining", "abstract": "Norway spruce wood pulps were produced in full industrial scale trials at different thermomechanical pulp refining conditions, such as plate gap, housing pressures and energy consumption levels. To in...", "citations": 1, "author_count": 5, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2567, "doi": "10.3183/npprj-2011-26-04-p372-379", "umap_coordinates": { "x": 394.6171875, "y": 134.6888427734375, "z": 205.22866821289062 }, "tsne_coordinates": { "x": 11.173286437988281, "y": 11.332707405090332, "z": -34.27959060668945 }, "pca_coordinates": { "x": -3.8334219455718994, "y": 2.142043113708496, "z": 1.5169029235839844 }, "axis_scores": { "Quantum imaging": 0.7200623750686646, "Quantum Life Science Sensing": 0.6941585540771484, "Quantum sensing Detection": 0.6786651611328125, "Quantum sensing Metrology": 0.6818327903747559, "Quantum sensing navigation": 0.6729100942611694, "Quantum sensing Position": 0.6604102849960327, "Quantum sensing Timing": 0.6691029071807861, "Quantum sensing": 0.6950610876083374, "Quantum control": 0.6768522262573242 } }, { "id": 2563, "title": "Modeling Amine Methylation in Methyl Ester Cavitand", "abstract": "Methylation of amines inside an introverted resorcinarene-based deep methyl ester cavitand is investigated by means of molecular dynamics simulations and quantum chemical calculations. Experimentally,...", "citations": 6, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2568, "doi": "10.1002/chem.202303911", "umap_coordinates": { "x": 393.30096435546875, "y": 136.87782287597656, "z": 205.06585693359375 }, "tsne_coordinates": { "x": 0.7984075546264648, "y": 15.451498031616211, "z": 13.91196060180664 }, "pca_coordinates": { "x": -2.0427656173706055, "y": 1.6606723070144653, "z": -3.1974189281463623 }, "axis_scores": { "Quantum imaging": 0.6938868761062622, "Quantum Life Science Sensing": 0.6751037836074829, "Quantum sensing Detection": 0.6660229563713074, "Quantum sensing Metrology": 0.6790577173233032, "Quantum sensing navigation": 0.7022027969360352, "Quantum sensing Position": 0.6740522384643555, "Quantum sensing Timing": 0.6581368446350098, "Quantum sensing": 0.6772623658180237, "Quantum control": 0.7025614380836487 } }, { "id": 2564, "title": "A combined molecular dynamics simulation and quantum chemical study on the mechanism for activation of the OxyR transcription factor by hydrogen peroxide", "abstract": "Molecular dynamics (MD) simulations have been performed on the regulatory domain of the Escherichia coli OxyR transcription factor for the different chemical states along the mechanistic cycle for its...", "citations": 18, "author_count": 3, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2569, "doi": "10.1039/b604602a", "umap_coordinates": { "x": 393.3441467285156, "y": 137.2838134765625, "z": 205.68804931640625 }, "tsne_coordinates": { "x": -1.1748683452606201, "y": 9.899497985839844, "z": 29.125913619995117 }, "pca_coordinates": { "x": 1.064415693283081, "y": 1.369078516960144, "z": -2.6511127948760986 }, "axis_scores": { "Quantum imaging": 0.712531566619873, "Quantum Life Science Sensing": 0.7433659434318542, "Quantum sensing Detection": 0.7089905142784119, "Quantum sensing Metrology": 0.6814190149307251, "Quantum sensing navigation": 0.6909607648849487, "Quantum sensing Position": 0.6579102277755737, "Quantum sensing Timing": 0.6797009706497192, "Quantum sensing": 0.7200945615768433, "Quantum control": 0.7132760882377625 } }, { "id": 2565, "title": "Single-photon manipulations based on optically controlled chiral couplings in waveguide structures of Rydberg giant atoms", "abstract": "Two interacting Rydberg atoms coupled to a waveguide may realize a giant-atom platform that exhibits controllable (phase-dependent) chirality through which the direction of nonreciprocally scattered p...", "citations": 12, "author_count": 7, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2570, "doi": "10.1103/PhysRevA.109.063710", "umap_coordinates": { "x": 394.9627380371094, "y": 135.3032989501953, "z": 208.32838439941406 }, "tsne_coordinates": { "x": -13.078997611999512, "y": -23.02686882019043, "z": -13.531346321105957 }, "pca_coordinates": { "x": 3.326648235321045, "y": -1.3565170764923096, "z": 2.7151565551757812 }, "axis_scores": { "Quantum imaging": 0.7270601987838745, "Quantum Life Science Sensing": 0.7232342958450317, "Quantum sensing Detection": 0.725363552570343, "Quantum sensing Metrology": 0.7152751684188843, "Quantum sensing navigation": 0.7303662896156311, "Quantum sensing Position": 0.6883656978607178, "Quantum sensing Timing": 0.6928611993789673, "Quantum sensing": 0.7368529438972473, "Quantum control": 0.7147983908653259 } }, { "id": 2566, "title": "Influence of channel mixing in fermionic Hong-Ou-Mandel experiments", "abstract": "We consider an electronic Hong-Ou-Mandel interferometer in the integer quantum Hall regime, where the colliding electronic states are generated by applying voltage pulses (creating for instance levito...", "citations": 11, "author_count": 6, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2571, "doi": "10.1103/PhysRevB.105.125415", "umap_coordinates": { "x": 394.9758605957031, "y": 136.01260375976562, "z": 208.35459899902344 }, "tsne_coordinates": { "x": 2.965693235397339, "y": -23.12083625793457, "z": 2.6148409843444824 }, "pca_coordinates": { "x": 3.946017265319824, "y": 0.6332839727401733, "z": 1.1221909523010254 }, "axis_scores": { "Quantum imaging": 0.7146201133728027, "Quantum Life Science Sensing": 0.6775675415992737, "Quantum sensing Detection": 0.6909418106079102, "Quantum sensing Metrology": 0.6916638612747192, "Quantum sensing navigation": 0.7059577107429504, "Quantum sensing Position": 0.6764565110206604, "Quantum sensing Timing": 0.6940770149230957, "Quantum sensing": 0.7123231887817383, "Quantum control": 0.7143842577934265 } }, { "id": 2567, "title": "Dynamical Quantum Phase Transition and Quasi Particle Excitation", "abstract": "Dynamical phase transitions (DPTs) are signaled by the non-analytical time evolution of the dynamical free energy after quenching some global parameters in quantum systems. The dynamical free energy i...", "citations": 70, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2572, "doi": "10.1038/s41598-019-39595-3", "umap_coordinates": { "x": 394.18902587890625, "y": 136.8084259033203, "z": 207.69378662109375 }, "tsne_coordinates": { "x": -16.955163955688477, "y": -16.605369567871094, "z": 12.39262866973877 }, "pca_coordinates": { "x": 2.503901720046997, "y": 0.0747685432434082, "z": -2.464956760406494 }, "axis_scores": { "Quantum imaging": 0.7573446035385132, "Quantum Life Science Sensing": 0.7632667422294617, "Quantum sensing Detection": 0.7532266974449158, "Quantum sensing Metrology": 0.7302691340446472, "Quantum sensing navigation": 0.751232385635376, "Quantum sensing Position": 0.7370356321334839, "Quantum sensing Timing": 0.728381872177124, "Quantum sensing": 0.7580768465995789, "Quantum control": 0.7382021546363831 } }, { "id": 2568, "title": "Influence of final state interactions in attosecond photoelectron interferometry", "abstract": "Fano resonances are ubiquitous phenomena appearing in many fields of physics, e.g., atomic or molecular photoionization, or electron transport in quantum dots. Recently, attosecond interferometric tec...", "citations": 8, "author_count": 16, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2573, "doi": "10.1103/PhysRevResearch.6.043271", "umap_coordinates": { "x": 395.697998046875, "y": 135.4044952392578, "z": 207.83837890625 }, "tsne_coordinates": { "x": -8.245987892150879, "y": -9.850164413452148, "z": -7.312060356140137 }, "pca_coordinates": { "x": 2.4879345893859863, "y": 0.07678079605102539, "z": 0.5773312449455261 }, "axis_scores": { "Quantum imaging": 0.7197815179824829, "Quantum Life Science Sensing": 0.7211671471595764, "Quantum sensing Detection": 0.7161388397216797, "Quantum sensing Metrology": 0.7012768387794495, "Quantum sensing navigation": 0.689299464225769, "Quantum sensing Position": 0.6901291012763977, "Quantum sensing Timing": 0.6792674660682678, "Quantum sensing": 0.7199116945266724, "Quantum control": 0.691185712814331 } }, { "id": 2569, "title": "High-gain weakly nonlinear flux-modulated Josephson parametric amplifier using a SQUID array", "abstract": "We have developed and measured a high-gain quantum-limited microwave parametric amplifier based on a superconducting lumped LC resonator with the inductor L including an array of eight superconducting...", "citations": 93, "author_count": 8, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2574, "doi": "10.1103/PhysRevB.89.214517", "umap_coordinates": { "x": 394.11773681640625, "y": 135.5592803955078, "z": 208.26400756835938 }, "tsne_coordinates": { "x": -16.295610427856445, "y": -35.39162826538086, "z": 20.630752563476562 }, "pca_coordinates": { "x": 3.4445419311523438, "y": -1.7296414375305176, "z": 2.0271835327148438 }, "axis_scores": { "Quantum imaging": 0.6882206797599792, "Quantum Life Science Sensing": 0.6987476944923401, "Quantum sensing Detection": 0.6842508316040039, "Quantum sensing Metrology": 0.674540102481842, "Quantum sensing navigation": 0.6911022663116455, "Quantum sensing Position": 0.6632171869277954, "Quantum sensing Timing": 0.6245111227035522, "Quantum sensing": 0.6909624934196472, "Quantum control": 0.6521111726760864 } }, { "id": 2570, "title": "Superconducting nanowire single photon detectors operating at temperature from 4 to 7 K", "abstract": "We experimentally investigate the performance of NbTiN superconducting nanowire single photon detectors above the base temperature of a conventional Gifford-McMahon cryocooler (2.5 K). By tailoring de...", "citations": 34, "author_count": 10, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2575, "doi": "10.1364/OE.27.024601", "umap_coordinates": { "x": 394.57769775390625, "y": 133.34857177734375, "z": 207.3715362548828 }, "tsne_coordinates": { "x": -10.279860496520996, "y": 0.41468656063079834, "z": -32.544654846191406 }, "pca_coordinates": { "x": 0.41364824771881104, "y": -2.3557920455932617, "z": 3.713156223297119 }, "axis_scores": { "Quantum imaging": 0.7295910120010376, "Quantum Life Science Sensing": 0.7228991389274597, "Quantum sensing Detection": 0.7286205291748047, "Quantum sensing Metrology": 0.7091848254203796, "Quantum sensing navigation": 0.7267333269119263, "Quantum sensing Position": 0.719107985496521, "Quantum sensing Timing": 0.7428273558616638, "Quantum sensing": 0.7363201975822449, "Quantum control": 0.6879172325134277 } }, { "id": 2571, "title": "Technical Note: Comparison of first- and second-generation photon-counting slit-scanning tomosynthesis systems", "abstract": "Purpose: Digital breast tomosynthesis (DBT) is an emerging tool for breast-cancer screening and diagnostics. The purpose of this study is to present a second-generation photon-counting slitscanning DB...", "citations": 2, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2576, "doi": "10.1002/mp.12735", "umap_coordinates": { "x": 395.4886169433594, "y": 132.9699249267578, "z": 205.80999755859375 }, "tsne_coordinates": { "x": -10.529488563537598, "y": 16.507455825805664, "z": -26.172212600708008 }, "pca_coordinates": { "x": -2.5692505836486816, "y": 2.4214649200439453, "z": 2.4350204467773438 }, "axis_scores": { "Quantum imaging": 0.6988659501075745, "Quantum Life Science Sensing": 0.6905220746994019, "Quantum sensing Detection": 0.6874033212661743, "Quantum sensing Metrology": 0.7028259634971619, "Quantum sensing navigation": 0.6883271932601929, "Quantum sensing Position": 0.6788639426231384, "Quantum sensing Timing": 0.7124564051628113, "Quantum sensing": 0.6917727589607239, "Quantum control": 0.6581569314002991 } }, { "id": 2572, "title": "Photocatalytic H2 production using a hybrid assembly of an [FeFe]-hydrogenase model and CdSe quantum dot linked through a thiolato-functionalized cyclodextrin", "abstract": "It is a great challenge to develop iron-based highly-efficient and durable catalytic systems for the hydrogen evolution reaction (HER) by understanding and learning from [FeFe]-hydrogenases. Here we r...", "citations": 33, "author_count": 8, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2577, "doi": "10.1039/c6fd00207b", "umap_coordinates": { "x": 392.0846862792969, "y": 135.3991241455078, "z": 205.32786560058594 }, "tsne_coordinates": { "x": 18.15486717224121, "y": 5.941405773162842, "z": -6.762795925140381 }, "pca_coordinates": { "x": -2.213057279586792, "y": -1.4766509532928467, "z": -2.848884344100952 }, "axis_scores": { "Quantum imaging": 0.6634294390678406, "Quantum Life Science Sensing": 0.7061924934387207, "Quantum sensing Detection": 0.6641679406166077, "Quantum sensing Metrology": 0.6443922519683838, "Quantum sensing navigation": 0.6511565446853638, "Quantum sensing Position": 0.6362834572792053, "Quantum sensing Timing": 0.6259127855300903, "Quantum sensing": 0.675552248954773, "Quantum control": 0.6677390336990356 } }, { "id": 2573, "title": "Universality class of a spinor Bose-Einstein condensate far from equilibrium", "abstract": "Scale invariance and self-similarity in physics provide a unified framework for classifying phases of matter and dynamical properties near equilibrium in both classical and quantum systems. This parad...", "citations": 21, "author_count": 9, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2578, "doi": "10.1038/s41567-023-02339-2", "umap_coordinates": { "x": 394.166015625, "y": 137.40740966796875, "z": 206.96377563476562 }, "tsne_coordinates": { "x": -17.496601104736328, "y": -16.17825698852539, "z": 24.823637008666992 }, "pca_coordinates": { "x": 0.5880342721939087, "y": 1.171111822128296, "z": -2.799044609069824 }, "axis_scores": { "Quantum imaging": 0.7163991928100586, "Quantum Life Science Sensing": 0.756557285785675, "Quantum sensing Detection": 0.7200123071670532, "Quantum sensing Metrology": 0.713204562664032, "Quantum sensing navigation": 0.7277687788009644, "Quantum sensing Position": 0.7036431431770325, "Quantum sensing Timing": 0.6823797821998596, "Quantum sensing": 0.7361343502998352, "Quantum control": 0.7038277387619019 } }, { "id": 2574, "title": "Nonlinear plasmon-exciton coupling enhances sum-frequency generation from a hybrid metal/semiconductor nanostructure", "abstract": "The integration of metallic plasmonic nanoantennas with quantum emitters can dramatically enhance coherent harmonic generation, often resulting from the coupling of fundamental plasmonic fields to hig...", "citations": 60, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2579, "doi": "10.1038/s41467-020-15232-w", "umap_coordinates": { "x": 392.86712646484375, "y": 133.8351287841797, "z": 206.61947631835938 }, "tsne_coordinates": { "x": 11.089442253112793, "y": -9.60045051574707, "z": -7.733104705810547 }, "pca_coordinates": { "x": -1.8839097023010254, "y": -4.088748931884766, "z": 0.7858631014823914 }, "axis_scores": { "Quantum imaging": 0.688217043876648, "Quantum Life Science Sensing": 0.6808662414550781, "Quantum sensing Detection": 0.6770263314247131, "Quantum sensing Metrology": 0.6755133271217346, "Quantum sensing navigation": 0.664547860622406, "Quantum sensing Position": 0.6511998176574707, "Quantum sensing Timing": 0.6282142400741577, "Quantum sensing": 0.6900830864906311, "Quantum control": 0.6438313126564026 } }, { "id": 2575, "title": "Deterministic one-way logic gates on a cloud quantum computer", "abstract": "One-way quantum computing is a promising candidate for fault-tolerant quantum computing. Here, we propose protocols to realize a deterministic one-way controlled-NOT (CNOT) gate and one-way X rotation...", "citations": 13, "author_count": 10, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2580, "doi": "10.1103/PhysRevA.105.042610", "umap_coordinates": { "x": 394.9656982421875, "y": 136.35110473632812, "z": 208.14002990722656 }, "tsne_coordinates": { "x": -20.415922164916992, "y": -25.57695770263672, "z": -0.4275273382663727 }, "pca_coordinates": { "x": 4.885673522949219, "y": -0.22699403762817383, "z": 0.5679344534873962 }, "axis_scores": { "Quantum imaging": 0.7608035802841187, "Quantum Life Science Sensing": 0.773780882358551, "Quantum sensing Detection": 0.7841607928276062, "Quantum sensing Metrology": 0.7491016387939453, "Quantum sensing navigation": 0.766877293586731, "Quantum sensing Position": 0.7269610166549683, "Quantum sensing Timing": 0.7508434653282166, "Quantum sensing": 0.7930697202682495, "Quantum control": 0.7670987844467163 } }, { "id": 2576, "title": "Controlled integration of selected detectors and emitters in photonic integrated circuits", "abstract": "Integration of superconducting nanowire single-photon detectors and quantum sources with photonic waveguides is crucial for realizing advanced quantum integrated circuits. However, scalability is hind...", "citations": 30, "author_count": 11, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2581, "doi": "10.1364/OE.27.003710", "umap_coordinates": { "x": 394.1159973144531, "y": 133.91590881347656, "z": 206.379638671875 }, "tsne_coordinates": { "x": -5.278774738311768, "y": -13.00051212310791, "z": -34.73057174682617 }, "pca_coordinates": { "x": -2.099992275238037, "y": -0.48035526275634766, "z": 3.319356918334961 }, "axis_scores": { "Quantum imaging": 0.7522821426391602, "Quantum Life Science Sensing": 0.7151646614074707, "Quantum sensing Detection": 0.7425131797790527, "Quantum sensing Metrology": 0.7222200632095337, "Quantum sensing navigation": 0.7382960319519043, "Quantum sensing Position": 0.7139168381690979, "Quantum sensing Timing": 0.7287256717681885, "Quantum sensing": 0.7425958514213562, "Quantum control": 0.7516300082206726 } }, { "id": 2577, "title": "Coherent dynamics of multi-spin VB- center in hexagonal boron nitride", "abstract": "Hexagonal boron nitride (hBN) has recently been demonstrated to contain optically polarized and detected electron spins that can be utilized for implementing qubits and quantum sensors in nanolayered-...", "citations": 56, "author_count": 23, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2582, "doi": "10.1038/s41467-022-33399-2", "umap_coordinates": { "x": 392.57696533203125, "y": 135.9169921875, "z": 207.58897399902344 }, "tsne_coordinates": { "x": 10.535611152648926, "y": -11.49242115020752, "z": 8.532105445861816 }, "pca_coordinates": { "x": 0.9563636779785156, "y": -1.7853307723999023, "z": -1.5925500392913818 }, "axis_scores": { "Quantum imaging": 0.7308417558670044, "Quantum Life Science Sensing": 0.7110363841056824, "Quantum sensing Detection": 0.7135564088821411, "Quantum sensing Metrology": 0.6984629034996033, "Quantum sensing navigation": 0.724531352519989, "Quantum sensing Position": 0.7060151696205139, "Quantum sensing Timing": 0.7032102346420288, "Quantum sensing": 0.7123180031776428, "Quantum control": 0.7170886397361755 } }, { "id": 2578, "title": "Automated Research Platform for Development of Triplet-Triplet Annihilation Photon Upconversion Systems", "abstract": "Triplet-triplet annihilation photon upconversion (TTA-UC) systems hold great promise for applications in energy, 3D printing, and photopharmacology. However, their optimization remains challenging due...", "citations": 7, "author_count": 8, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2583, "doi": "10.1021/acscentsci.4c02059", "umap_coordinates": { "x": 394.20977783203125, "y": 134.58526611328125, "z": 205.78466796875 }, "tsne_coordinates": { "x": 6.015457630157471, "y": 1.156632661819458, "z": -13.45784854888916 }, "pca_coordinates": { "x": -3.0606307983398438, "y": -0.02884650230407715, "z": 1.5378532409667969 }, "axis_scores": { "Quantum imaging": 0.7351335287094116, "Quantum Life Science Sensing": 0.726738691329956, "Quantum sensing Detection": 0.7226327061653137, "Quantum sensing Metrology": 0.720237135887146, "Quantum sensing navigation": 0.6921395659446716, "Quantum sensing Position": 0.6757923364639282, "Quantum sensing Timing": 0.7283048629760742, "Quantum sensing": 0.7223791480064392, "Quantum control": 0.7029939889907837 } }, { "id": 2579, "title": "Density functional investigation and some optical experiments on dye-sensitized quantum dots", "abstract": "Dye-sensitized quantum dots (QDs) are promising candidates for dye-sensitized solar cells (DSSCs). Here, we report steady state (absorption and photoluminescence) optical measurements on several sizes...", "citations": 20, "author_count": 10, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2584, "doi": "10.1039/c5cp03816b", "umap_coordinates": { "x": 392.1291198730469, "y": 135.6631622314453, "z": 205.37966918945312 }, "tsne_coordinates": { "x": 9.810296058654785, "y": 3.8005177974700928, "z": 0.6591808199882507 }, "pca_coordinates": { "x": -0.3992401957511902, "y": -1.342644214630127, "z": -1.4555644989013672 }, "axis_scores": { "Quantum imaging": 0.7176745533943176, "Quantum Life Science Sensing": 0.7211287021636963, "Quantum sensing Detection": 0.7026099562644958, "Quantum sensing Metrology": 0.6840725541114807, "Quantum sensing navigation": 0.6844202876091003, "Quantum sensing Position": 0.6807212233543396, "Quantum sensing Timing": 0.6360479593276978, "Quantum sensing": 0.7126345634460449, "Quantum control": 0.6903358697891235 } }, { "id": 2580, "title": "Photon counting-energy integrating hybrid flat panel detector systems for image-guided interventions: an experimental proof-of-concept", "abstract": "Objective. Current C-arm x-ray systems equipped with scintillator-based flat panel detectors (FPDs) lack sufficient low-contrast detectability and spectral, high-resolution capabilities much desired f...", "citations": 9, "author_count": 6, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2585, "doi": "10.1088/1361-6560/acddc7", "umap_coordinates": { "x": 395.70751953125, "y": 133.0781707763672, "z": 205.3628387451172 }, "tsne_coordinates": { "x": -8.848453521728516, "y": 26.860252380371094, "z": -19.65113639831543 }, "pca_coordinates": { "x": -2.46165132522583, "y": 2.225580930709839, "z": 3.7942466735839844 }, "axis_scores": { "Quantum imaging": 0.7418429255485535, "Quantum Life Science Sensing": 0.7102024555206299, "Quantum sensing Detection": 0.7042388319969177, "Quantum sensing Metrology": 0.6892373561859131, "Quantum sensing navigation": 0.6970789432525635, "Quantum sensing Position": 0.6564410328865051, "Quantum sensing Timing": 0.6683483123779297, "Quantum sensing": 0.7102419137954712, "Quantum control": 0.6847555637359619 } }, { "id": 2581, "title": "Fundamental gates for a strongly correlated two-electron quantum ring", "abstract": "We demonstrate that conditional as well as unconditional basic operations which are necessary for universal quantum gates can be performed with almost 100% fidelity within a strongly interacting two-e...", "citations": 4, "author_count": 5, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2586, "doi": "10.1103/PhysRevB.81.033303", "umap_coordinates": { "x": 395.313232421875, "y": 136.10568237304688, "z": 208.39781188964844 }, "tsne_coordinates": { "x": -25.428054809570312, "y": -29.680015563964844, "z": -6.71140193939209 }, "pca_coordinates": { "x": 4.209885120391846, "y": -0.07503771781921387, "z": 0.1224554181098938 }, "axis_scores": { "Quantum imaging": 0.7394669055938721, "Quantum Life Science Sensing": 0.7492159008979797, "Quantum sensing Detection": 0.7604832053184509, "Quantum sensing Metrology": 0.7460120916366577, "Quantum sensing navigation": 0.7403782606124878, "Quantum sensing Position": 0.7118746638298035, "Quantum sensing Timing": 0.7207074761390686, "Quantum sensing": 0.7683181166648865, "Quantum control": 0.7385389804840088 } }, { "id": 2582, "title": "SUPERCONDUCTING DEVICES AND QUANTUM WELL DIODES USED IN LOW-NOISE HETERODYNE RECEIVERS .2. QUANTUM WELL DIODES", "abstract": "", "citations": 1, "author_count": 2, "categories": [ "Telecommunications" ], "year": 1989, "topic": [ "all" ], "embedding_index": 2587, "doi": null, "umap_coordinates": { "x": 391.80340576171875, "y": 139.7007293701172, "z": 209.5254669189453 }, "tsne_coordinates": { "x": -6.551102638244629, "y": 43.217037200927734, "z": -2.8683059215545654 }, "pca_coordinates": { "x": -0.8348291516304016, "y": 2.2605111598968506, "z": -1.4214556217193604 }, "axis_scores": { "Quantum imaging": 0.7493706941604614, "Quantum Life Science Sensing": 0.7781081795692444, "Quantum sensing Detection": 0.7756881713867188, "Quantum sensing Metrology": 0.7429205179214478, "Quantum sensing navigation": 0.7613633871078491, "Quantum sensing Position": 0.731235682964325, "Quantum sensing Timing": 0.7287399768829346, "Quantum sensing": 0.780789852142334, "Quantum control": 0.7748230695724487 } }, { "id": 2583, "title": "Polarization-resolved fine-structure splitting of zero-dimensional InxGa1-xN excitons", "abstract": "The fine-structure splitting of quantum confined InxGa1-x Nexcitons is investigated using polarization-sensitive photoluminescence spectroscopy. The majority of the studied emission lines exhibits mut...", "citations": 24, "author_count": 9, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2588, "doi": "10.1103/PhysRevB.83.201307", "umap_coordinates": { "x": 392.6651611328125, "y": 135.04989624023438, "z": 208.56048583984375 }, "tsne_coordinates": { "x": 14.482478141784668, "y": -28.662080764770508, "z": -2.8628458976745605 }, "pca_coordinates": { "x": 2.692641496658325, "y": -3.2866997718811035, "z": -0.7989597916603088 }, "axis_scores": { "Quantum imaging": 0.7158986926078796, "Quantum Life Science Sensing": 0.6979305148124695, "Quantum sensing Detection": 0.6839346289634705, "Quantum sensing Metrology": 0.6767646670341492, "Quantum sensing navigation": 0.6987398862838745, "Quantum sensing Position": 0.6699314713478088, "Quantum sensing Timing": 0.64756178855896, "Quantum sensing": 0.698539674282074, "Quantum control": 0.6667307615280151 } }, { "id": 2584, "title": "Mouse Fetal Whole Intestine Culture System for Ex Vivo Manipulation of Signaling Pathways and Three-dimensional Live Imaging of Villus Development", "abstract": "Most morphogenetic processes in the fetal intestine have been inferred from thin sections of fixed tissues, providing snapshots of changes over developmental stages. Three-dimensional information from...", "citations": 9, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2589, "doi": "10.3791/51817", "umap_coordinates": { "x": 394.6251525878906, "y": 134.5262908935547, "z": 204.24562072753906 }, "tsne_coordinates": { "x": 2.7830116748809814, "y": 24.84844970703125, "z": 4.373202800750732 }, "pca_coordinates": { "x": -4.2693328857421875, "y": 2.7194058895111084, "z": 0.025142133235931396 }, "axis_scores": { "Quantum imaging": 0.7036728858947754, "Quantum Life Science Sensing": 0.7163699865341187, "Quantum sensing Detection": 0.6552358269691467, "Quantum sensing Metrology": 0.6658620834350586, "Quantum sensing navigation": 0.6654560565948486, "Quantum sensing Position": 0.6509208083152771, "Quantum sensing Timing": 0.6466768980026245, "Quantum sensing": 0.6746736764907837, "Quantum control": 0.6719710826873779 } }, { "id": 2585, "title": "Quantum Dot-Based FRET Immunoassay for HER2 Using Ultrasmall Affinity Proteins", "abstract": "Engineered scaffold affinity proteins are used in many biological applications with the aim of replacing natural antibodies. Although their very small sizes are beneficial for multivalent nanoparticle...", "citations": 39, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2590, "doi": "10.1002/smll.201802266", "umap_coordinates": { "x": 393.9327697753906, "y": 134.3074493408203, "z": 204.8708953857422 }, "tsne_coordinates": { "x": 17.459014892578125, "y": 25.777875900268555, "z": -12.611672401428223 }, "pca_coordinates": { "x": -2.7452425956726074, "y": -1.8224940299987793, "z": 0.3063274025917053 }, "axis_scores": { "Quantum imaging": 0.7300168871879578, "Quantum Life Science Sensing": 0.7759324312210083, "Quantum sensing Detection": 0.7501064538955688, "Quantum sensing Metrology": 0.7414816617965698, "Quantum sensing navigation": 0.717979907989502, "Quantum sensing Position": 0.7176737189292908, "Quantum sensing Timing": 0.7011196613311768, "Quantum sensing": 0.753510594367981, "Quantum control": 0.6875730156898499 } }, { "id": 2586, "title": "Real time optical immunosensing with flow-through porous alumina membranes", "abstract": "Through the presentation of analytical data from bioassay experiments, measured by polarimetry, we demonstrate for the first time a real time immunoassay within a free standing macroporous alumina mem...", "citations": 17, "author_count": 9, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2591, "doi": "10.1016/j.snb.2014.06.027", "umap_coordinates": { "x": 394.1236267089844, "y": 134.01919555664062, "z": 204.97561645507812 }, "tsne_coordinates": { "x": 14.912918090820312, "y": 16.34337615966797, "z": -8.527149200439453 }, "pca_coordinates": { "x": -3.460306406021118, "y": 0.3969600200653076, "z": 2.0616869926452637 }, "axis_scores": { "Quantum imaging": 0.7404713034629822, "Quantum Life Science Sensing": 0.7637220025062561, "Quantum sensing Detection": 0.7488036751747131, "Quantum sensing Metrology": 0.7433623671531677, "Quantum sensing navigation": 0.7521583437919617, "Quantum sensing Position": 0.7103465795516968, "Quantum sensing Timing": 0.7062973380088806, "Quantum sensing": 0.7557119727134705, "Quantum control": 0.7070500254631042 } }, { "id": 2587, "title": "Pair-potential model for simulation of collisional energy transfer: quantum effects and hardness dependence", "abstract": "A study of the sensitivity of energy transfer efficiency in molecular collisions is reported with special focus on the hardness of repulsion in atom-atom contact. An improved pair potential is propose...", "citations": 7, "author_count": 5, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2592, "doi": "10.1039/b008551k", "umap_coordinates": { "x": 393.867919921875, "y": 137.12185668945312, "z": 205.95770263671875 }, "tsne_coordinates": { "x": -3.5871002674102783, "y": 0.32571303844451904, "z": 26.998138427734375 }, "pca_coordinates": { "x": 1.9317092895507812, "y": 1.9640430212020874, "z": -1.5895614624023438 }, "axis_scores": { "Quantum imaging": 0.7039431929588318, "Quantum Life Science Sensing": 0.7165651321411133, "Quantum sensing Detection": 0.7052090764045715, "Quantum sensing Metrology": 0.6855677366256714, "Quantum sensing navigation": 0.6916998624801636, "Quantum sensing Position": 0.6850720643997192, "Quantum sensing Timing": 0.691950261592865, "Quantum sensing": 0.70822674036026, "Quantum control": 0.6848891973495483 } }, { "id": 2588, "title": "Upconversion Luminescence of Graphene Oxide through Hybrid Waveguide", "abstract": "Phonon-assisted upconversion is a promising way to generate short-wavelength emissions under excitation of long wavelength based on unique anti-Stokes luminescence properties. Graphene oxide nanosheet...", "citations": 6, "author_count": 10, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2593, "doi": "10.1021/acs.jpcc.8b00962", "umap_coordinates": { "x": 393.6424865722656, "y": 133.81463623046875, "z": 206.33148193359375 }, "tsne_coordinates": { "x": 6.440481185913086, "y": -8.032563209533691, "z": -30.17042350769043 }, "pca_coordinates": { "x": -1.4662266969680786, "y": -2.9431028366088867, "z": 1.4220309257507324 }, "axis_scores": { "Quantum imaging": 0.7591893076896667, "Quantum Life Science Sensing": 0.7373998761177063, "Quantum sensing Detection": 0.7367462515830994, "Quantum sensing Metrology": 0.7175670266151428, "Quantum sensing navigation": 0.7321935296058655, "Quantum sensing Position": 0.682914674282074, "Quantum sensing Timing": 0.6742038726806641, "Quantum sensing": 0.7471598386764526, "Quantum control": 0.7195466756820679 } }, { "id": 2589, "title": "Soliton scattering as a measurement tool for weak signals", "abstract": "We have considered relativistic soliton dynamics governed by the sine-Gordon equation and affected by short spatial inhomogeneities of the driving force and thermal noise. Developed analytical and num...", "citations": 37, "author_count": 7, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2594, "doi": "10.1103/PhysRevB.92.014516", "umap_coordinates": { "x": 394.6161804199219, "y": 135.728515625, "z": 207.8436737060547 }, "tsne_coordinates": { "x": -16.8839054107666, "y": -29.76833724975586, "z": -10.835015296936035 }, "pca_coordinates": { "x": 2.810004711151123, "y": -0.07718515396118164, "z": 2.017470598220825 }, "axis_scores": { "Quantum imaging": 0.6872232556343079, "Quantum Life Science Sensing": 0.7234165072441101, "Quantum sensing Detection": 0.7268101572990417, "Quantum sensing Metrology": 0.6963791251182556, "Quantum sensing navigation": 0.7022784352302551, "Quantum sensing Position": 0.693240225315094, "Quantum sensing Timing": 0.6745548248291016, "Quantum sensing": 0.7197918891906738, "Quantum control": 0.6679906249046326 } }, { "id": 2590, "title": "A Korteweg-DeVries type model for helical soliton solutions for quantum and continuum phenomena", "abstract": "Quantum mechanical states are normally described by the Schrodinger equation, which generates real eigenvalues and quantizable solutions which form a basis for the estimation of quantum mechanical obs...", "citations": 1, "author_count": 3, "categories": [ "Computer Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2595, "doi": "10.1142/S0129183121500315", "umap_coordinates": { "x": 394.14764404296875, "y": 137.48077392578125, "z": 207.51632690429688 }, "tsne_coordinates": { "x": -22.468523025512695, "y": -18.358722686767578, "z": 25.88239860534668 }, "pca_coordinates": { "x": 1.9533038139343262, "y": 1.527936339378357, "z": -1.3518414497375488 }, "axis_scores": { "Quantum imaging": 0.636089563369751, "Quantum Life Science Sensing": 0.6573377251625061, "Quantum sensing Detection": 0.6298980712890625, "Quantum sensing Metrology": 0.6332828402519226, "Quantum sensing navigation": 0.6417442560195923, "Quantum sensing Position": 0.6106293201446533, "Quantum sensing Timing": 0.6377647519111633, "Quantum sensing": 0.6421812176704407, "Quantum control": 0.6501157879829407 } }, { "id": 2591, "title": "Red and green-emitting biocompatible carbon quantum dots for efficient tandem luminescent solar concentrators", "abstract": "Luminescent solar concentrators (LSCs) are large-scale sunlight collectors, consisting of fluorophores embedded in waveguides, which can concentrate part of the absorbed sunlight at the borders of the...", "citations": 37, "author_count": 6, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2596, "doi": "10.1039/d1tc03095g", "umap_coordinates": { "x": 391.763671875, "y": 134.37315368652344, "z": 205.0345916748047 }, "tsne_coordinates": { "x": 11.344388008117676, "y": 3.4743382930755615, "z": -11.735342979431152 }, "pca_coordinates": { "x": -3.5861399173736572, "y": -3.1020565032958984, "z": -0.4350784420967102 }, "axis_scores": { "Quantum imaging": 0.6863921880722046, "Quantum Life Science Sensing": 0.715862512588501, "Quantum sensing Detection": 0.6928068399429321, "Quantum sensing Metrology": 0.6809330582618713, "Quantum sensing navigation": 0.6583335995674133, "Quantum sensing Position": 0.6573329567909241, "Quantum sensing Timing": 0.6698289513587952, "Quantum sensing": 0.693422794342041, "Quantum control": 0.6743297576904297 } }, { "id": 2592, "title": "Synthesis and Characterization of a Multi Ring-Fused 2-Pyridone-Based Fluorescent Scaffold", "abstract": "A series of compounds based on a novel fluorescent scaffold have been synthesized. Most of the compounds displayed high quantum yields of fluorescence and unusually long fluorescence lifetimes. HeLa c...", "citations": 22, "author_count": 10, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2597, "doi": "10.1002/ejoc.201000796", "umap_coordinates": { "x": 392.685546875, "y": 135.10963439941406, "z": 204.57089233398438 }, "tsne_coordinates": { "x": -1.8879600763320923, "y": 14.280534744262695, "z": -5.1429290771484375 }, "pca_coordinates": { "x": -4.792318344116211, "y": 1.342288613319397, "z": -1.1740590333938599 }, "axis_scores": { "Quantum imaging": 0.7088750600814819, "Quantum Life Science Sensing": 0.7108850479125977, "Quantum sensing Detection": 0.6853435039520264, "Quantum sensing Metrology": 0.689603865146637, "Quantum sensing navigation": 0.6912492513656616, "Quantum sensing Position": 0.6778740286827087, "Quantum sensing Timing": 0.6572009325027466, "Quantum sensing": 0.6995835304260254, "Quantum control": 0.6955138444900513 } }, { "id": 2593, "title": "Teleportation of N-dimensional states", "abstract": "We present a general solution to the construction of such an entanglement in an N-dimensional Hilbert space that effects state teleportation. For N>2 the construction is nonunique and can be chosen to...", "citations": 100, "author_count": 3, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2598, "doi": "10.1103/PhysRevA.58.4373", "umap_coordinates": { "x": 395.7522277832031, "y": 136.49522399902344, "z": 208.04266357421875 }, "tsne_coordinates": { "x": -15.830562591552734, "y": -10.3270902633667, "z": 2.678434133529663 }, "pca_coordinates": { "x": 4.496265411376953, "y": 1.5618791580200195, "z": 1.6078128814697266 }, "axis_scores": { "Quantum imaging": 0.7841771841049194, "Quantum Life Science Sensing": 0.7491878867149353, "Quantum sensing Detection": 0.7740283012390137, "Quantum sensing Metrology": 0.7549647092819214, "Quantum sensing navigation": 0.7945165634155273, "Quantum sensing Position": 0.7565810084342957, "Quantum sensing Timing": 0.7381518483161926, "Quantum sensing": 0.7862652540206909, "Quantum control": 0.7592639923095703 } }, { "id": 2594, "title": "Experimental observation of longer trajectories than previously observed in high-order harmonic generation", "abstract": "We experimentally observe longer than long trajectory influence in high-order harmonic generation (HHG) by varying the peak intensity of the driving laser field either through direct attenuation or by...", "citations": 3, "author_count": 8, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2599, "doi": "10.1103/PhysRevA.108.013505", "umap_coordinates": { "x": 395.2793273925781, "y": 136.2506561279297, "z": 207.6171112060547 }, "tsne_coordinates": { "x": -5.747018337249756, "y": -15.70178508758545, "z": -14.846811294555664 }, "pca_coordinates": { "x": 3.942032814025879, "y": 1.745455026626587, "z": 0.25294893980026245 }, "axis_scores": { "Quantum imaging": 0.6899250745773315, "Quantum Life Science Sensing": 0.7128730416297913, "Quantum sensing Detection": 0.6815138459205627, "Quantum sensing Metrology": 0.6643820405006409, "Quantum sensing navigation": 0.6989415884017944, "Quantum sensing Position": 0.6900137066841125, "Quantum sensing Timing": 0.698475182056427, "Quantum sensing": 0.6907042860984802, "Quantum control": 0.6692794561386108 } }, { "id": 2595, "title": "Off-diagonal geometric phase for mixed states - art. no. 050403", "abstract": "We extend the off-diagonal geometric phase [Phys. Rev. Lett. 85, 3067 (2000)] to mixed quantal states. The nodal structure of this phase in the qubit (two-level) case is compared with that of the diag...", "citations": 49, "author_count": 3, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2600, "doi": "10.1103/PhysRevLett.90.050403", "umap_coordinates": { "x": 395.33306884765625, "y": 136.60244750976562, "z": 208.38638305664062 }, "tsne_coordinates": { "x": -22.391515731811523, "y": -23.745223999023438, "z": 15.500348091125488 }, "pca_coordinates": { "x": 4.702327728271484, "y": 1.2549991607666016, "z": -0.0637022852897644 }, "axis_scores": { "Quantum imaging": 0.7138640880584717, "Quantum Life Science Sensing": 0.7025460004806519, "Quantum sensing Detection": 0.6956407427787781, "Quantum sensing Metrology": 0.7143896818161011, "Quantum sensing navigation": 0.7154738306999207, "Quantum sensing Position": 0.6879172325134277, "Quantum sensing Timing": 0.6793661117553711, "Quantum sensing": 0.7017384767532349, "Quantum control": 0.6864781975746155 } }, { "id": 2596, "title": "Nonlinear sigma model for partially polarized quantum Hall states", "abstract": "We consider a two-component quantum Hall system within a Landau-Ginzburg theory with two Chern-Simons gauge fields. From this theory we derive a sigma model covariantly coupled to one Chern-Simons fie...", "citations": 8, "author_count": 4, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2601, "doi": "10.1103/PhysRevB.54.R11110", "umap_coordinates": { "x": 394.50946044921875, "y": 136.78204345703125, "z": 208.9688720703125 }, "tsne_coordinates": { "x": -17.986507415771484, "y": -34.827476501464844, "z": 13.72573184967041 }, "pca_coordinates": { "x": 4.646421432495117, "y": 0.46443867683410645, "z": -0.19168245792388916 }, "axis_scores": { "Quantum imaging": 0.7168835997581482, "Quantum Life Science Sensing": 0.717079222202301, "Quantum sensing Detection": 0.7066172361373901, "Quantum sensing Metrology": 0.7044290900230408, "Quantum sensing navigation": 0.7454973459243774, "Quantum sensing Position": 0.6928478479385376, "Quantum sensing Timing": 0.6815869808197021, "Quantum sensing": 0.7224000692367554, "Quantum control": 0.6936131119728088 } }, { "id": 2597, "title": "Time-of-flight range profiling using time-correlated single-photon counting", "abstract": "Optical range profiling with high resolution can be accomplished using single-photon counting time-of-flight techniques. Detection of optical surfaces with high resolution is of importance for several...", "citations": 18, "author_count": 5, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2602, "doi": "10.1117/12.737938", "umap_coordinates": { "x": 395.09906005859375, "y": 133.0784912109375, "z": 206.75286865234375 }, "tsne_coordinates": { "x": -7.094292640686035, "y": 10.600634574890137, "z": -32.470123291015625 }, "pca_coordinates": { "x": -2.177858829498291, "y": 1.096036434173584, "z": 5.0777974128723145 }, "axis_scores": { "Quantum imaging": 0.7402332425117493, "Quantum Life Science Sensing": 0.7468864917755127, "Quantum sensing Detection": 0.7513852119445801, "Quantum sensing Metrology": 0.7502797842025757, "Quantum sensing navigation": 0.7515042424201965, "Quantum sensing Position": 0.745002031326294, "Quantum sensing Timing": 0.7743039727210999, "Quantum sensing": 0.7554957270622253, "Quantum control": 0.687479555606842 } }, { "id": 2598, "title": "Roadmap on atomically-engineered quantum platforms", "abstract": "Matter at the atomic-scale is inherently governed by the laws of quantum mechanics. This makes charges and spins confined to individual atoms-and interactions among them-an invaluable resource for fun...", "citations": 1, "author_count": 62, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2603, "doi": "10.1088/2399-1984/ade6b7", "umap_coordinates": { "x": 394.883056640625, "y": 135.12025451660156, "z": 205.7622528076172 }, "tsne_coordinates": { "x": -15.33761978149414, "y": 2.7772133350372314, "z": -19.88298988342285 }, "pca_coordinates": { "x": 0.8949651718139648, "y": 1.1044411659240723, "z": 0.4159995913505554 }, "axis_scores": { "Quantum imaging": 0.7321321368217468, "Quantum Life Science Sensing": 0.7324864864349365, "Quantum sensing Detection": 0.7239173650741577, "Quantum sensing Metrology": 0.7275739312171936, "Quantum sensing navigation": 0.7306473255157471, "Quantum sensing Position": 0.7185543775558472, "Quantum sensing Timing": 0.6918931007385254, "Quantum sensing": 0.7311887741088867, "Quantum control": 0.7039756774902344 } }, { "id": 2599, "title": "Magnetic phases of orbital bipartite optical lattices", "abstract": "In the Hamburg cold atom experiment with orbital states in an optical lattice, s- and p-orbital atomic states hybridize between neighboring sites. In this work we show how this alternation of sites ho...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2604, "doi": "10.1088/1367-2630/ab6cdf", "umap_coordinates": { "x": 394.10479736328125, "y": 136.61253356933594, "z": 207.3818359375 }, "tsne_coordinates": { "x": -4.614704132080078, "y": -18.110260009765625, "z": 35.14902877807617 }, "pca_coordinates": { "x": 1.9795536994934082, "y": 0.875478982925415, "z": -1.9292423725128174 }, "axis_scores": { "Quantum imaging": 0.7390839457511902, "Quantum Life Science Sensing": 0.7149268388748169, "Quantum sensing Detection": 0.7019325494766235, "Quantum sensing Metrology": 0.7181587815284729, "Quantum sensing navigation": 0.7261108756065369, "Quantum sensing Position": 0.6844873428344727, "Quantum sensing Timing": 0.6855812668800354, "Quantum sensing": 0.7203326225280762, "Quantum control": 0.714724063873291 } }, { "id": 2600, "title": "Photostability of the Oleic Acid-Encapsulated Water-Soluble CdxSeyZn1-xS1-y Gradient Core-Shell Quantum Dots", "abstract": "Composite systems where quantum dots (QDs) are combined with other nanomaterials (e.g., gold nanorods) in aqueous solutions have attracted broad attention. both for their potential in applications and...", "citations": 10, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2605, "doi": "10.1021/acsomega.7b00316", "umap_coordinates": { "x": 392.1534423828125, "y": 134.6341094970703, "z": 205.62374877929688 }, "tsne_coordinates": { "x": 18.871353149414062, "y": -3.304034471511841, "z": 0.7545276880264282 }, "pca_coordinates": { "x": -3.6149542331695557, "y": -3.5165295600891113, "z": -3.266223669052124 }, "axis_scores": { "Quantum imaging": 0.6680428385734558, "Quantum Life Science Sensing": 0.7045421600341797, "Quantum sensing Detection": 0.654305636882782, "Quantum sensing Metrology": 0.6480346322059631, "Quantum sensing navigation": 0.6773852109909058, "Quantum sensing Position": 0.6488577127456665, "Quantum sensing Timing": 0.6282059550285339, "Quantum sensing": 0.6726037263870239, "Quantum control": 0.6652485132217407 } }, { "id": 2601, "title": "Effects of a longitudinal magnetic field on spin injection and detection in InAs/GaAs quantum dot structures", "abstract": "Effects of a longitudinal magnetic field on optical spin injection and detection in InAs/GaAs quantum dot (QD) structures are investigated by optical orientation spectroscopy. An increase in the optic...", "citations": 6, "author_count": 7, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2606, "doi": "10.1088/0953-8984/24/14/145304", "umap_coordinates": { "x": 393.08740234375, "y": 135.25888061523438, "z": 207.98570251464844 }, "tsne_coordinates": { "x": 19.92085075378418, "y": -14.704185485839844, "z": 12.518087387084961 }, "pca_coordinates": { "x": 1.2309558391571045, "y": -0.07125997543334961, "z": 1.0050523281097412 }, "axis_scores": { "Quantum imaging": 0.7327935695648193, "Quantum Life Science Sensing": 0.7183476686477661, "Quantum sensing Detection": 0.7162609696388245, "Quantum sensing Metrology": 0.7060657739639282, "Quantum sensing navigation": 0.7258012890815735, "Quantum sensing Position": 0.7140847444534302, "Quantum sensing Timing": 0.6802818775177002, "Quantum sensing": 0.7176331281661987, "Quantum control": 0.6967085599899292 } }, { "id": 2602, "title": "Low capacitance HTS junctions for single electron transistors", "abstract": "We have fabricated and characterized YBa2Cu3O7-delta grain boundary junctions to determine their feasibility as tunnel barriers in single electron transistors. Superconducting quantum interference dev...", "citations": 4, "author_count": 7, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2607, "doi": "10.1016/j.physc.2009.11.040", "umap_coordinates": { "x": 394.2420349121094, "y": 134.25790405273438, "z": 207.46240234375 }, "tsne_coordinates": { "x": 23.369855880737305, "y": 8.064509391784668, "z": 14.548087120056152 }, "pca_coordinates": { "x": 1.0374491214752197, "y": -1.9913148880004883, "z": 0.5452353358268738 }, "axis_scores": { "Quantum imaging": 0.6912932991981506, "Quantum Life Science Sensing": 0.719695508480072, "Quantum sensing Detection": 0.7035278081893921, "Quantum sensing Metrology": 0.6909608244895935, "Quantum sensing navigation": 0.6841762661933899, "Quantum sensing Position": 0.6914328336715698, "Quantum sensing Timing": 0.7017910480499268, "Quantum sensing": 0.7117818593978882, "Quantum control": 0.6752418279647827 } }, { "id": 2603, "title": "Generalized few-state models for two-photon absorption of conjugated molecules (vol 352, pg 262, 2002)", "abstract": "", "citations": 4, "author_count": 4, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2608, "doi": "10.1016/S0009-2614(02)01111-9", "umap_coordinates": { "x": 393.94085693359375, "y": 135.950439453125, "z": 206.0794219970703 }, "tsne_coordinates": { "x": -6.084330081939697, "y": 1.0034323930740356, "z": 5.251563549041748 }, "pca_coordinates": { "x": -1.0092799663543701, "y": 0.9197195768356323, "z": 0.3621421456336975 }, "axis_scores": { "Quantum imaging": 0.694155216217041, "Quantum Life Science Sensing": 0.7237202525138855, "Quantum sensing Detection": 0.6924659013748169, "Quantum sensing Metrology": 0.6986756324768066, "Quantum sensing navigation": 0.685542106628418, "Quantum sensing Position": 0.6782034039497375, "Quantum sensing Timing": 0.6677741408348083, "Quantum sensing": 0.7085156440734863, "Quantum control": 0.6812616586685181 } }, { "id": 2604, "title": "Measurement of the photon identification efficiencies with the ATLAS detector using LHC Run-1 data", "abstract": "The algorithms used by the ATLAS Collaboration to reconstruct and identify prompt photons are described. Measurements of the photon identification efficiencies are reported, using 4.9 fb(-1) of pp col...", "citations": 88, "author_count": 2661, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2609, "doi": "10.1140/epjc/s10052-016-4507-9", "umap_coordinates": { "x": 396.6491394042969, "y": 134.21734619140625, "z": 207.0070037841797 }, "tsne_coordinates": { "x": -30.983413696289062, "y": 15.955609321594238, "z": -9.392290115356445 }, "pca_coordinates": { "x": -0.6008697748184204, "y": 1.812587022781372, "z": 4.0010666847229 }, "axis_scores": { "Quantum imaging": 0.6882747411727905, "Quantum Life Science Sensing": 0.6812403798103333, "Quantum sensing Detection": 0.6813815236091614, "Quantum sensing Metrology": 0.6716528534889221, "Quantum sensing navigation": 0.6780716776847839, "Quantum sensing Position": 0.6645821928977966, "Quantum sensing Timing": 0.6943790912628174, "Quantum sensing": 0.6791378259658813, "Quantum control": 0.6501288414001465 } }, { "id": 2605, "title": "A Fourier-Coefficient Based Solution of an Optimal Control Problem in Quantum Chemistry", "abstract": "We consider an optimal control problem for the time-dependent Schrodinger equation modeling molecular dynamics. The dynamics can be steered by interactions with a tuned laser field. The problem of des...", "citations": 8, "author_count": 4, "categories": [ "Operations Research & Management Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2610, "doi": "10.1007/s10957-010-9735-9", "umap_coordinates": { "x": 393.9313659667969, "y": 137.2013397216797, "z": 205.7876739501953 }, "tsne_coordinates": { "x": -14.693520545959473, "y": 20.156742095947266, "z": 26.346792221069336 }, "pca_coordinates": { "x": -0.7421547174453735, "y": 2.1072120666503906, "z": 0.03791290521621704 }, "axis_scores": { "Quantum imaging": 0.6837603449821472, "Quantum Life Science Sensing": 0.6892403364181519, "Quantum sensing Detection": 0.6734499931335449, "Quantum sensing Metrology": 0.6701891422271729, "Quantum sensing navigation": 0.6796923875808716, "Quantum sensing Position": 0.6748268008232117, "Quantum sensing Timing": 0.681476891040802, "Quantum sensing": 0.6823598742485046, "Quantum control": 0.7016208171844482 } }, { "id": 2606, "title": "Conformation- and phosphorylation-dependent electron tunnelling across self-assembled monolayers of tau peptides", "abstract": "We report on charge transport across self-assembled monolayers (SAMs) of short tau peptides by probing the electron tunneling rates and quantum mechanical simulation. We measured the electron tunnelin...", "citations": 2, "author_count": 9, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2611, "doi": "10.1016/j.jcis.2021.09.185", "umap_coordinates": { "x": 393.7414245605469, "y": 135.02255249023438, "z": 204.98695373535156 }, "tsne_coordinates": { "x": 26.999650955200195, "y": 25.469343185424805, "z": 5.601942539215088 }, "pca_coordinates": { "x": -1.5583276748657227, "y": -1.5072689056396484, "z": -1.2478457689285278 }, "axis_scores": { "Quantum imaging": 0.6993443965911865, "Quantum Life Science Sensing": 0.7127826809883118, "Quantum sensing Detection": 0.6716790795326233, "Quantum sensing Metrology": 0.6718248128890991, "Quantum sensing navigation": 0.6861395239830017, "Quantum sensing Position": 0.6828511953353882, "Quantum sensing Timing": 0.6864772439002991, "Quantum sensing": 0.6842952370643616, "Quantum control": 0.6678827404975891 } }, { "id": 2607, "title": "Discrete phase-space structures and mutually unbiased bases", "abstract": "We propose a unifying phase-space approach to the construction of mutually unbiased bases for an n-qubit system. It is based on an explicit classification of the geometrical structures compatible with...", "citations": 1, "author_count": 5, "categories": [ "Computer Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2612, "doi": null, "umap_coordinates": { "x": 392.16363525390625, "y": 139.35528564453125, "z": 209.1990203857422 }, "tsne_coordinates": { "x": -17.59022331237793, "y": 37.44953536987305, "z": -7.699441909790039 }, "pca_coordinates": { "x": 1.4108936786651611, "y": 3.178889751434326, "z": -1.070410966873169 }, "axis_scores": { "Quantum imaging": 0.764570415019989, "Quantum Life Science Sensing": 0.7516151666641235, "Quantum sensing Detection": 0.7453323602676392, "Quantum sensing Metrology": 0.7443251013755798, "Quantum sensing navigation": 0.7766183614730835, "Quantum sensing Position": 0.7444086074829102, "Quantum sensing Timing": 0.7255748510360718, "Quantum sensing": 0.7560998201370239, "Quantum control": 0.752781867980957 } }, { "id": 2608, "title": "Deuterium-carbon multiple-quantum NMR in liquid crystals:: polarization transfer and off-magic-angle spinning", "abstract": "The polarization transfer dynamics in a recently introduced deuterium-carbon NMR correlation method is studied, both theoretically and experimentally. The technique, which exploits heteronuclear multi...", "citations": 11, "author_count": 3, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2613, "doi": "10.1080/00268970110099567", "umap_coordinates": { "x": 392.5562744140625, "y": 136.80714416503906, "z": 206.77023315429688 }, "tsne_coordinates": { "x": 17.885746002197266, "y": -2.0497360229492188, "z": 29.636497497558594 }, "pca_coordinates": { "x": -0.6273634433746338, "y": 1.1222271919250488, "z": -1.3868261575698853 }, "axis_scores": { "Quantum imaging": 0.7197803854942322, "Quantum Life Science Sensing": 0.7029320001602173, "Quantum sensing Detection": 0.6816607117652893, "Quantum sensing Metrology": 0.6712207794189453, "Quantum sensing navigation": 0.6847069263458252, "Quantum sensing Position": 0.6630492806434631, "Quantum sensing Timing": 0.6737210154533386, "Quantum sensing": 0.6977808475494385, "Quantum control": 0.6923846006393433 } }, { "id": 2609, "title": "Generalized few-state models for two-photon absorption of conjugated molecules", "abstract": "We present three- and four-state models for two-photon absorption (TPA) cross-sections generalized to include dipolar direction information and polarization effects of the laser beam. By introducing a...", "citations": 137, "author_count": 4, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2614, "doi": "10.1016/S0009-2614(01)01454-3", "umap_coordinates": { "x": 393.9990234375, "y": 135.91477966308594, "z": 206.40895080566406 }, "tsne_coordinates": { "x": -6.04984188079834, "y": 0.6375324130058289, "z": 5.2916388511657715 }, "pca_coordinates": { "x": -0.4910627603530884, "y": 0.46640968322753906, "z": 0.316478431224823 }, "axis_scores": { "Quantum imaging": 0.7035335302352905, "Quantum Life Science Sensing": 0.7272694706916809, "Quantum sensing Detection": 0.7079699039459229, "Quantum sensing Metrology": 0.7099847793579102, "Quantum sensing navigation": 0.6950764060020447, "Quantum sensing Position": 0.6817464828491211, "Quantum sensing Timing": 0.6761512756347656, "Quantum sensing": 0.7199733853340149, "Quantum control": 0.682574987411499 } }, { "id": 2610, "title": "Mononuclear copper(i) complexes bearing a 3-phenyl-5-(pyridin-4-yl)-1,2,4-triazole ligand: synthesis, crystal structure, TADF-luminescence, and mechanochromic effects", "abstract": "Three new mononuclear heteroleptic copper(i) halide complexes, [CuL(PPh3)(2)X] (X = Cl, Br, I), based on 3-phenyl-5-(pyridin-4-yl)-1,2,4-triazole (L) and triphenylphosphine (PPh3) ligands, have been p...", "citations": 18, "author_count": 8, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2615, "doi": "10.1039/d3dt02633g", "umap_coordinates": { "x": 391.9690246582031, "y": 135.51528930664062, "z": 205.0042724609375 }, "tsne_coordinates": { "x": 6.384382724761963, "y": -7.396561145782471, "z": -20.331932067871094 }, "pca_coordinates": { "x": -1.519781231880188, "y": -0.36764955520629883, "z": -3.078782796859741 }, "axis_scores": { "Quantum imaging": 0.7104263305664062, "Quantum Life Science Sensing": 0.6963659524917603, "Quantum sensing Detection": 0.6933828592300415, "Quantum sensing Metrology": 0.689533531665802, "Quantum sensing navigation": 0.6863775849342346, "Quantum sensing Position": 0.6703159213066101, "Quantum sensing Timing": 0.6720019578933716, "Quantum sensing": 0.7033107280731201, "Quantum control": 0.6973035931587219 } }, { "id": 2611, "title": "Performance of Teleportation-Based Error-Correction Circuits for Bosonic Codes with Noisy Measurements", "abstract": "Bosonic quantum error-correcting codes offer a viable direction towards reducing the hardware over-head required for fault-tolerant quantum information processing. A broad class of bosonic codes, name...", "citations": 15, "author_count": 5, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2616, "doi": "10.1103/PRXQuantum.3.020334", "umap_coordinates": { "x": 395.92523193359375, "y": 136.5224151611328, "z": 207.3509063720703 }, "tsne_coordinates": { "x": -30.689668655395508, "y": -20.391069412231445, "z": -1.3845343589782715 }, "pca_coordinates": { "x": 3.177938461303711, "y": 1.3873555660247803, "z": 3.6919798851013184 }, "axis_scores": { "Quantum imaging": 0.7497026324272156, "Quantum Life Science Sensing": 0.7149885892868042, "Quantum sensing Detection": 0.7574890851974487, "Quantum sensing Metrology": 0.7486686706542969, "Quantum sensing navigation": 0.7532658576965332, "Quantum sensing Position": 0.7601825594902039, "Quantum sensing Timing": 0.749151349067688, "Quantum sensing": 0.7609816193580627, "Quantum control": 0.7391570806503296 } }, { "id": 2612, "title": "Genotoxic effects of Ag2S and CdS nanoparticles in blue mussel (Mytilus edulis) haemocytes", "abstract": "The use of functionalised metal sulphide nanoparticles (NPs) for nanoremediation and biomedical application is rapidly increasing, which could lead to significant inputs into the marine environment. T...", "citations": 19, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2617, "doi": "10.1080/02757540.2014.894989", "umap_coordinates": { "x": 393.566162109375, "y": 134.42189025878906, "z": 204.63978576660156 }, "tsne_coordinates": { "x": 15.641571998596191, "y": 24.635316848754883, "z": 3.7385239601135254 }, "pca_coordinates": { "x": -2.737595319747925, "y": 0.2829868793487549, "z": -1.5814977884292603 }, "axis_scores": { "Quantum imaging": 0.700930655002594, "Quantum Life Science Sensing": 0.7415505647659302, "Quantum sensing Detection": 0.7012860774993896, "Quantum sensing Metrology": 0.684923529624939, "Quantum sensing navigation": 0.6829620003700256, "Quantum sensing Position": 0.67411208152771, "Quantum sensing Timing": 0.6724538803100586, "Quantum sensing": 0.7060793042182922, "Quantum control": 0.6856606006622314 } }, { "id": 2613, "title": "Lattice distortion in dry-etched Si/SiGe quantum dot array studied by 2D reciprocal space mapping using synchrotron X-ray diffraction", "abstract": "Using synchrotron X-ray two-dimensional reciprocal space mapping around the (004) and (224) reciprocal lattice points, we have studied the changes of the lattice strain in a 30-period 3 nm Si/3 nm Si0...", "citations": 1, "author_count": 8, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 2618, "doi": "10.1016/S0040-6090(96)09232-2", "umap_coordinates": { "x": 392.74462890625, "y": 133.69189453125, "z": 207.15611267089844 }, "tsne_coordinates": { "x": 39.83442306518555, "y": -7.433516025543213, "z": -4.098509788513184 }, "pca_coordinates": { "x": -0.7189425826072693, "y": -1.324638843536377, "z": 0.7446123957633972 }, "axis_scores": { "Quantum imaging": 0.7005783319473267, "Quantum Life Science Sensing": 0.7250792384147644, "Quantum sensing Detection": 0.6875152587890625, "Quantum sensing Metrology": 0.7148597836494446, "Quantum sensing navigation": 0.7120575904846191, "Quantum sensing Position": 0.7368721961975098, "Quantum sensing Timing": 0.6803012490272522, "Quantum sensing": 0.7081443071365356, "Quantum control": 0.6729714870452881 } }, { "id": 2614, "title": "Silicon photon-counting detector for full-field CT using an ASIC with adjustable shaping time", "abstract": "Purpose: Photon-counting silicon strip detectors are attracting interest for use in next-generation CT scanners. For CT detectors in a clinical environment, it is desirable to have a low power consump...", "citations": 10, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2619, "doi": "10.1117/1.JMI.7.5.053503", "umap_coordinates": { "x": 395.2897033691406, "y": 132.55287170410156, "z": 205.50827026367188 }, "tsne_coordinates": { "x": -15.495766639709473, "y": 22.748727798461914, "z": -22.039100646972656 }, "pca_coordinates": { "x": -2.5779166221618652, "y": 1.4616272449493408, "z": 4.664260387420654 }, "axis_scores": { "Quantum imaging": 0.7016515135765076, "Quantum Life Science Sensing": 0.6909869909286499, "Quantum sensing Detection": 0.6819180846214294, "Quantum sensing Metrology": 0.6899036765098572, "Quantum sensing navigation": 0.6781235933303833, "Quantum sensing Position": 0.6611936092376709, "Quantum sensing Timing": 0.7152085304260254, "Quantum sensing": 0.6937170624732971, "Quantum control": 0.6680687665939331 } }, { "id": 2615, "title": "Enhanced optical properties of luminescent solar concentrators via metal ion doping in carbon dots", "abstract": "Luminescent solar concentrators (LSCs) utilizing carbon dots (CDs) have emerged as promising solutions for transparent photovoltaic applications due to their high transparency and efficient light-to-e...", "citations": 3, "author_count": 7, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2620, "doi": "10.1039/d5ta00473j", "umap_coordinates": { "x": 392.0483703613281, "y": 134.40072631835938, "z": 205.4443359375 }, "tsne_coordinates": { "x": 13.087604522705078, "y": 3.6971805095672607, "z": -11.552794456481934 }, "pca_coordinates": { "x": -3.197957754135132, "y": -3.74973726272583, "z": -0.34729447960853577 }, "axis_scores": { "Quantum imaging": 0.7091193795204163, "Quantum Life Science Sensing": 0.6957862377166748, "Quantum sensing Detection": 0.6946945786476135, "Quantum sensing Metrology": 0.6857742667198181, "Quantum sensing navigation": 0.6660598516464233, "Quantum sensing Position": 0.669822633266449, "Quantum sensing Timing": 0.6487862467765808, "Quantum sensing": 0.7016589045524597, "Quantum control": 0.6902034282684326 } }, { "id": 2616, "title": "Operando structure degradation study of PbS quantum dot solar cells", "abstract": "PbS quantum dot (QD) solar cells demonstrate great potential in solar energy conversion with a broad and flexible spectral response. Even though long-term storage stabilities of QD solar cells were re...", "citations": 39, "author_count": 17, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2621, "doi": "10.1039/d1ee00832c", "umap_coordinates": { "x": 392.0264587402344, "y": 134.95657348632812, "z": 206.774658203125 }, "tsne_coordinates": { "x": 16.026288986206055, "y": -0.6015942096710205, "z": 1.8768984079360962 }, "pca_coordinates": { "x": -1.184234619140625, "y": -2.805924892425537, "z": -1.5561156272888184 }, "axis_scores": { "Quantum imaging": 0.6780624389648438, "Quantum Life Science Sensing": 0.7343917489051819, "Quantum sensing Detection": 0.6803083419799805, "Quantum sensing Metrology": 0.6671425104141235, "Quantum sensing navigation": 0.6849367022514343, "Quantum sensing Position": 0.6748481392860413, "Quantum sensing Timing": 0.6256943941116333, "Quantum sensing": 0.6883668303489685, "Quantum control": 0.6769388914108276 } }, { "id": 2617, "title": "NMR spectroscopic investigation of benzothiazolylacetonitrile azo dyes: CR7 substitution effect and semiempirical study", "abstract": "Ebead et al. had reported in the synthesis and the UV-Visible solvatochromism combined with semiempirical calculations to study the tautomerism of 1,3-benzothiazol-2-ylacetonitrile azo dyes [1]. In th...", "citations": 5, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2622, "doi": "10.1016/j.rechem.2020.100088", "umap_coordinates": { "x": 393.0931091308594, "y": 135.86851501464844, "z": 204.67269897460938 }, "tsne_coordinates": { "x": 10.026650428771973, "y": 13.718339920043945, "z": -4.784976482391357 }, "pca_coordinates": { "x": -3.3088717460632324, "y": 2.1886587142944336, "z": -2.043740749359131 }, "axis_scores": { "Quantum imaging": 0.7103592157363892, "Quantum Life Science Sensing": 0.7312827706336975, "Quantum sensing Detection": 0.695331335067749, "Quantum sensing Metrology": 0.7006350159645081, "Quantum sensing navigation": 0.7000104784965515, "Quantum sensing Position": 0.6912039518356323, "Quantum sensing Timing": 0.6768977642059326, "Quantum sensing": 0.7103480696678162, "Quantum control": 0.693301796913147 } }, { "id": 2618, "title": "Ultrafast Electron Dynamics in Solar Energy Conversion", "abstract": "Electrons are the workhorses of solar energy conversion. conversion of the energy of light to electricity in photovoltaics, or to energy-rich molecules (solar fuel) through photocatalytic processes, i...", "citations": 334, "author_count": 6, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2623, "doi": "10.1021/acs.chemrev.6b00807", "umap_coordinates": { "x": 392.2979736328125, "y": 135.94033813476562, "z": 206.6805419921875 }, "tsne_coordinates": { "x": 11.288471221923828, "y": 1.856078863143921, "z": 6.187111854553223 }, "pca_coordinates": { "x": 0.8667657375335693, "y": -3.4719862937927246, "z": -3.7513926029205322 }, "axis_scores": { "Quantum imaging": 0.6910697817802429, "Quantum Life Science Sensing": 0.7373813390731812, "Quantum sensing Detection": 0.6924901604652405, "Quantum sensing Metrology": 0.6672644019126892, "Quantum sensing navigation": 0.6961026191711426, "Quantum sensing Position": 0.6570882797241211, "Quantum sensing Timing": 0.6464654207229614, "Quantum sensing": 0.6964972615242004, "Quantum control": 0.6797311305999756 } }, { "id": 2619, "title": "Iodinated SnO2 Quantum Dots: A Facile and Efficient Approach To Increase Solar Absorption for Visible-Light Photocatalysis", "abstract": "Efficient visible-light-driven photocatalysis can be achieved over conventional wide band gap semiconductor, in which iodinated SnO2 quantum dots (QDs) are synthesized via hydrolysis of crystalline Sn...", "citations": 59, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2624, "doi": "10.1021/acs.jpcc.6b01530", "umap_coordinates": { "x": 391.9601745605469, "y": 133.9051971435547, "z": 205.16854858398438 }, "tsne_coordinates": { "x": 20.921337127685547, "y": 0.19680704176425934, "z": -6.22778844833374 }, "pca_coordinates": { "x": -4.568150520324707, "y": -4.957382678985596, "z": -0.228581964969635 }, "axis_scores": { "Quantum imaging": 0.7046242356300354, "Quantum Life Science Sensing": 0.6990451812744141, "Quantum sensing Detection": 0.6904094815254211, "Quantum sensing Metrology": 0.6713189482688904, "Quantum sensing navigation": 0.6833621263504028, "Quantum sensing Position": 0.6438299417495728, "Quantum sensing Timing": 0.6498309969902039, "Quantum sensing": 0.7013848423957825, "Quantum control": 0.6809296607971191 } }, { "id": 2620, "title": "Radiative and nonradiative recombination of photoexcited excitons in multi-shell-coated CdSe/CdS/ZnS quantum dots", "abstract": "Colloidal quantum dots (QDs) have been widely studied for nanophotonics and bioimaging applications for which the lifetime of their fluorescence is of critical importance. We report experimental and t...", "citations": 18, "author_count": 9, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2625, "doi": "10.1209/0295-5075/86/37003", "umap_coordinates": { "x": 392.8117980957031, "y": 135.05130004882812, "z": 206.88101196289062 }, "tsne_coordinates": { "x": 33.04964065551758, "y": -1.0527849197387695, "z": 19.462841033935547 }, "pca_coordinates": { "x": -1.8115652799606323, "y": -1.456881046295166, "z": 0.08490961790084839 }, "axis_scores": { "Quantum imaging": 0.6860818266868591, "Quantum Life Science Sensing": 0.6941423416137695, "Quantum sensing Detection": 0.6860353946685791, "Quantum sensing Metrology": 0.6603969931602478, "Quantum sensing navigation": 0.6579833626747131, "Quantum sensing Position": 0.6406396627426147, "Quantum sensing Timing": 0.6669366955757141, "Quantum sensing": 0.6849480867385864, "Quantum control": 0.6597900390625 } }, { "id": 2621, "title": "Use of Depth Information from In-depth Photon Counting Detectors for X-ray Spectral Imaging: A Preliminary Simulation Study", "abstract": "Purpose: Photon counting x-ray detectors (PCXD) may improve dose-efficiency but are hampered by limited count rate. They generally have imperfect energy response. Multi-layer (in-depth) detectors have...", "citations": 2, "author_count": 6, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2626, "doi": "10.1117/12.2042839", "umap_coordinates": { "x": 395.744140625, "y": 133.0597686767578, "z": 205.82772827148438 }, "tsne_coordinates": { "x": -7.3165283203125, "y": 22.076976776123047, "z": -21.684486389160156 }, "pca_coordinates": { "x": -2.4093379974365234, "y": 2.1312355995178223, "z": 4.0164713859558105 }, "axis_scores": { "Quantum imaging": 0.7387415766716003, "Quantum Life Science Sensing": 0.7215776443481445, "Quantum sensing Detection": 0.7206346392631531, "Quantum sensing Metrology": 0.692424476146698, "Quantum sensing navigation": 0.714496374130249, "Quantum sensing Position": 0.7060956954956055, "Quantum sensing Timing": 0.7010726928710938, "Quantum sensing": 0.7186064124107361, "Quantum control": 0.6403781175613403 } }, { "id": 2622, "title": "Two-electron photon emission from metallic quantum wells - art. no. 046803", "abstract": "Unusual emission of visible light is observed in scanning tunneling microscopy of the quantum well system Na on Cu(111). Photons are emitted at energies exceeding the energy of the tunneling electrons...", "citations": 53, "author_count": 4, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2627, "doi": "10.1103/PhysRevLett.90.046803", "umap_coordinates": { "x": 394.822998046875, "y": 135.0974884033203, "z": 208.2681884765625 }, "tsne_coordinates": { "x": -2.743809461593628, "y": -17.17137336730957, "z": -8.679950714111328 }, "pca_coordinates": { "x": 3.1680374145507812, "y": -2.8421812057495117, "z": 0.7785086035728455 }, "axis_scores": { "Quantum imaging": 0.7095044255256653, "Quantum Life Science Sensing": 0.7257236838340759, "Quantum sensing Detection": 0.722178041934967, "Quantum sensing Metrology": 0.7033904194831848, "Quantum sensing navigation": 0.7028571367263794, "Quantum sensing Position": 0.6836296319961548, "Quantum sensing Timing": 0.6852456331253052, "Quantum sensing": 0.720764696598053, "Quantum control": 0.6781166195869446 } }, { "id": 2623, "title": "Inner workings of fractional quantum Hall parent Hamiltonians: A matrix product state point of view", "abstract": "We study frustration-free Hamiltonians of fractional quantum Hall (FQH) states from the point of view of the matrix product state (MPS) representation of their ground and excited states. There is a we...", "citations": 4, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2628, "doi": "10.1103/PhysRevB.105.155124", "umap_coordinates": { "x": 394.6182861328125, "y": 137.6297607421875, "z": 207.52374267578125 }, "tsne_coordinates": { "x": -25.25408935546875, "y": -8.236276626586914, "z": 16.008543014526367 }, "pca_coordinates": { "x": 3.387223243713379, "y": 1.9734184741973877, "z": -1.396571159362793 }, "axis_scores": { "Quantum imaging": 0.7337443828582764, "Quantum Life Science Sensing": 0.724063515663147, "Quantum sensing Detection": 0.7174404859542847, "Quantum sensing Metrology": 0.7240231037139893, "Quantum sensing navigation": 0.7206336855888367, "Quantum sensing Position": 0.7194990515708923, "Quantum sensing Timing": 0.6928048729896545, "Quantum sensing": 0.7384658455848694, "Quantum control": 0.7155801057815552 } }, { "id": 2624, "title": "Quantum Wheatstone Bridge", "abstract": "We propose a quantum Wheatstone bridge as a fully quantum analog to the classical version. The bridge is a few-body boundary-driven spin chain exploiting quantum effects to gain an enhanced sensitivit...", "citations": 13, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2629, "doi": "10.1103/PhysRevLett.128.240401", "umap_coordinates": { "x": 395.3689270019531, "y": 135.99449157714844, "z": 208.12734985351562 }, "tsne_coordinates": { "x": -17.94791030883789, "y": -19.333112716674805, "z": 2.531294345855713 }, "pca_coordinates": { "x": 5.4710869789123535, "y": 0.14791417121887207, "z": 0.40879756212234497 }, "axis_scores": { "Quantum imaging": 0.7558594346046448, "Quantum Life Science Sensing": 0.7799752950668335, "Quantum sensing Detection": 0.767326831817627, "Quantum sensing Metrology": 0.7556172609329224, "Quantum sensing navigation": 0.765638530254364, "Quantum sensing Position": 0.7414805889129639, "Quantum sensing Timing": 0.7522107362747192, "Quantum sensing": 0.7823774814605713, "Quantum control": 0.7610799670219421 } }, { "id": 2625, "title": "Reflections on Zeilinger-Brukner Information Interpretation of Quantum Mechanics", "abstract": "In this short review I present my personal reflections on Zeilinger-Brukner information interpretation of quantum mechanics (QM).In general, this interpretation is very attractive for me. However, its...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2630, "doi": "10.1007/s10701-016-0005-z", "umap_coordinates": { "x": 395.1511535644531, "y": 137.26687622070312, "z": 205.8816375732422 }, "tsne_coordinates": { "x": -29.399044036865234, "y": 2.5196692943573, "z": 11.820600509643555 }, "pca_coordinates": { "x": 1.6635112762451172, "y": 3.254638671875, "z": 1.7312135696411133 }, "axis_scores": { "Quantum imaging": 0.7238367795944214, "Quantum Life Science Sensing": 0.7274470329284668, "Quantum sensing Detection": 0.7221757173538208, "Quantum sensing Metrology": 0.7287647724151611, "Quantum sensing navigation": 0.733013927936554, "Quantum sensing Position": 0.7146626114845276, "Quantum sensing Timing": 0.6935614347457886, "Quantum sensing": 0.7342913746833801, "Quantum control": 0.6881492137908936 } }, { "id": 2626, "title": "A quantum-dot heat engine operating close to the thermodynamic efficiency limits", "abstract": "Cyclical heat engines are a paradigm of classical thermodynamics, but are impractical for miniaturization because they rely on moving parts. A more recent concept is particle-exchange (PE) heat engine...", "citations": 270, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2631, "doi": "10.1038/s41565-018-0200-5", "umap_coordinates": { "x": 393.77850341796875, "y": 135.1523895263672, "z": 206.34066772460938 }, "tsne_coordinates": { "x": -13.16136646270752, "y": 3.785036087036133, "z": 0.4041973054409027 }, "pca_coordinates": { "x": -0.8120081424713135, "y": -1.283036470413208, "z": 0.3923395276069641 }, "axis_scores": { "Quantum imaging": 0.6977052688598633, "Quantum Life Science Sensing": 0.7121677994728088, "Quantum sensing Detection": 0.7065654397010803, "Quantum sensing Metrology": 0.6987178921699524, "Quantum sensing navigation": 0.6893276572227478, "Quantum sensing Position": 0.6916289329528809, "Quantum sensing Timing": 0.6928524374961853, "Quantum sensing": 0.7095638513565063, "Quantum control": 0.6962729096412659 } }, { "id": 2627, "title": "Achieving ultralow friction under high pressure through operando formation of PbS QDs/graphene heterojunction with 0D/1D nanostructure", "abstract": "It is a great challenge to utilize graphene for practical applications in moving parts, which meet high contact pressure and atmosphere environments. In this work, ultralow friction (0.054) of graphen...", "citations": 6, "author_count": 8, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2632, "doi": "10.1016/j.carbon.2023.118748", "umap_coordinates": { "x": 392.3880615234375, "y": 133.84310913085938, "z": 205.18251037597656 }, "tsne_coordinates": { "x": 28.170440673828125, "y": 9.620851516723633, "z": -4.0899224281311035 }, "pca_coordinates": { "x": -0.11569559574127197, "y": -1.9585695266723633, "z": 0.22102075815200806 }, "axis_scores": { "Quantum imaging": 0.7251592874526978, "Quantum Life Science Sensing": 0.7376405596733093, "Quantum sensing Detection": 0.7229350209236145, "Quantum sensing Metrology": 0.7102407217025757, "Quantum sensing navigation": 0.7347955703735352, "Quantum sensing Position": 0.7169062495231628, "Quantum sensing Timing": 0.6898473501205444, "Quantum sensing": 0.7358755469322205, "Quantum control": 0.7329822778701782 } }, { "id": 2628, "title": "Photon Reabsorption and Nonradiative Energy-Transfer-Induced Quenching of Blue Photoluminescence from Aggregated Graphene Quantum Dots", "abstract": "A deep understanding of the photoluminescence (PL) from aggregated graphene quantum dots (GQDs) is very important for their practical applications. Here the PL spectra from GQDs solutions at different...", "citations": 56, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2633, "doi": "10.1021/acs.jpcc.6b10704", "umap_coordinates": { "x": 391.963134765625, "y": 135.1560821533203, "z": 206.06410217285156 }, "tsne_coordinates": { "x": 2.6706416606903076, "y": -7.15386438369751, "z": -14.92093563079834 }, "pca_coordinates": { "x": -1.3842542171478271, "y": -3.3421378135681152, "z": -0.7718291282653809 }, "axis_scores": { "Quantum imaging": 0.6926125288009644, "Quantum Life Science Sensing": 0.7138416171073914, "Quantum sensing Detection": 0.6914215087890625, "Quantum sensing Metrology": 0.6520028114318848, "Quantum sensing navigation": 0.6581616401672363, "Quantum sensing Position": 0.6442002058029175, "Quantum sensing Timing": 0.6386868357658386, "Quantum sensing": 0.6919759511947632, "Quantum control": 0.6652799844741821 } }, { "id": 2629, "title": "QUANTUM-STATE DYNAMICS AS LINEAR REPRESENTATION OF CLASSICAL (NONLINEAR) STOCHASTIC DYNAMICS", "abstract": "We show that the basic equation of the theory of open systems, the Gorini-Kossakowski-Sudarshan-Lindblad equation, as well as its linear and nonlinear generalizations have a natural classical probabil...", "citations": 1, "author_count": 3, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2634, "doi": "10.1007/s10946-014-9402-y", "umap_coordinates": { "x": 394.6370544433594, "y": 137.5347442626953, "z": 206.45579528808594 }, "tsne_coordinates": { "x": -25.326339721679688, "y": 3.323882579803467, "z": 20.50758934020996 }, "pca_coordinates": { "x": 2.7276320457458496, "y": 2.1076786518096924, "z": -1.053818941116333 }, "axis_scores": { "Quantum imaging": 0.7459309101104736, "Quantum Life Science Sensing": 0.7576506733894348, "Quantum sensing Detection": 0.7399008870124817, "Quantum sensing Metrology": 0.7136577367782593, "Quantum sensing navigation": 0.7694864273071289, "Quantum sensing Position": 0.7354981899261475, "Quantum sensing Timing": 0.715984582901001, "Quantum sensing": 0.7498635053634644, "Quantum control": 0.7559170722961426 } }, { "id": 2630, "title": "Study of double core hole excitations in molecules by X-ray double-quantum-coherence signals: a multi-configuration simulation", "abstract": "The multi-configurational self-consistent field method is employed to simulate the two-dimensional all-X-ray double-quantum-coherence (XDQC) spectroscopy, a four-wave mixing signal that provides direc...", "citations": 20, "author_count": 6, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2635, "doi": "10.1039/c6sc01571a", "umap_coordinates": { "x": 392.68402099609375, "y": 136.66123962402344, "z": 206.4819793701172 }, "tsne_coordinates": { "x": 3.5077879428863525, "y": -4.264582633972168, "z": 8.502232551574707 }, "pca_coordinates": { "x": 0.535942554473877, "y": -0.06726765632629395, "z": -1.1413918733596802 }, "axis_scores": { "Quantum imaging": 0.7030438184738159, "Quantum Life Science Sensing": 0.7186564207077026, "Quantum sensing Detection": 0.7020804286003113, "Quantum sensing Metrology": 0.6836937069892883, "Quantum sensing navigation": 0.6883450746536255, "Quantum sensing Position": 0.6713172197341919, "Quantum sensing Timing": 0.657259464263916, "Quantum sensing": 0.7061549425125122, "Quantum control": 0.6724562048912048 } }, { "id": 2631, "title": "STM/STS and photoemission study of Ag thin films on Ga/Si(111) (√3 x √3)R30°", "abstract": "Silver thin films have been formed by room temperature deposition of Ag on a Ga/Si(111) (root 3 x root 3)R30 degrees surface. Scanning tunneling microscopy and spectroscopy (STM/STS) have been used to...", "citations": 7, "author_count": 4, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2636, "doi": "10.1016/j.susc.2018.12.009", "umap_coordinates": { "x": 392.9916687011719, "y": 133.46885681152344, "z": 206.3822784423828 }, "tsne_coordinates": { "x": 40.8871955871582, "y": 7.88897705078125, "z": 2.531623601913452 }, "pca_coordinates": { "x": -1.1656728982925415, "y": -1.2185249328613281, "z": 0.5658740401268005 }, "axis_scores": { "Quantum imaging": 0.6949042081832886, "Quantum Life Science Sensing": 0.7157704830169678, "Quantum sensing Detection": 0.6996899843215942, "Quantum sensing Metrology": 0.6941291093826294, "Quantum sensing navigation": 0.7039098739624023, "Quantum sensing Position": 0.70009845495224, "Quantum sensing Timing": 0.6784800291061401, "Quantum sensing": 0.7094191312789917, "Quantum control": 0.6765187382698059 } }, { "id": 2632, "title": "Tracking single lipase molecules on a trimyristin substrate surface using quantum dots", "abstract": "The mobility of single lipase molecules has been analyzed using single molecule tracking on a trimyristin substrate surface. This was achieved by conjugating lipases to quantum dots and imaging on spi...", "citations": 23, "author_count": 5, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2637, "doi": "10.1021/la700918r", "umap_coordinates": { "x": 393.73272705078125, "y": 134.3999481201172, "z": 205.81690979003906 }, "tsne_coordinates": { "x": 10.502877235412598, "y": 33.17813491821289, "z": -8.250753402709961 }, "pca_coordinates": { "x": -2.956073045730591, "y": -3.2012925148010254, "z": -0.5749058127403259 }, "axis_scores": { "Quantum imaging": 0.7025573253631592, "Quantum Life Science Sensing": 0.732316792011261, "Quantum sensing Detection": 0.7101055383682251, "Quantum sensing Metrology": 0.6984671950340271, "Quantum sensing navigation": 0.6858588457107544, "Quantum sensing Position": 0.6927768588066101, "Quantum sensing Timing": 0.6658624410629272, "Quantum sensing": 0.714992105960846, "Quantum control": 0.6695546507835388 } }, { "id": 2633, "title": "Wavefunction localization and its semiclassical description in a 3-dimensional system with mixed classical dynamics", "abstract": "We discuss the localization of wavefunctions along planes containing the shortest periodic orbits in a three-dimensional billiard system with axial symmetry. This model mimics the self-consistent mean...", "citations": 7, "author_count": 4, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2638, "doi": "10.1238/Physica.Topical.090a00146", "umap_coordinates": { "x": 394.61212158203125, "y": 137.18597412109375, "z": 207.3110809326172 }, "tsne_coordinates": { "x": -18.9976806640625, "y": -6.454502105712891, "z": 19.17218589782715 }, "pca_coordinates": { "x": 2.489180564880371, "y": 1.3468917608261108, "z": -1.4895834922790527 }, "axis_scores": { "Quantum imaging": 0.7154393792152405, "Quantum Life Science Sensing": 0.7181803584098816, "Quantum sensing Detection": 0.7024828791618347, "Quantum sensing Metrology": 0.6935229301452637, "Quantum sensing navigation": 0.7289354801177979, "Quantum sensing Position": 0.7096516489982605, "Quantum sensing Timing": 0.6717714667320251, "Quantum sensing": 0.7086489796638489, "Quantum control": 0.6872637867927551 } }, { "id": 2634, "title": "Tests of Bell inequality with arbitrarily low photodetection efficiency and homodyne measurements", "abstract": "We show that hybrid local measurements combining homodyne measurements and photodetection provide violations of a Bell inequality with arbitrarily low photodetection efficiency. This is shown in two d...", "citations": 12, "author_count": 7, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2639, "doi": "10.1103/PhysRevA.86.030101", "umap_coordinates": { "x": 396.048828125, "y": 136.304443359375, "z": 207.42747497558594 }, "tsne_coordinates": { "x": -22.521059036254883, "y": -10.023292541503906, "z": 6.923471927642822 }, "pca_coordinates": { "x": 2.8565754890441895, "y": 1.589180588722229, "z": 2.1048829555511475 }, "axis_scores": { "Quantum imaging": 0.7285451292991638, "Quantum Life Science Sensing": 0.7416681051254272, "Quantum sensing Detection": 0.7470159530639648, "Quantum sensing Metrology": 0.7204577922821045, "Quantum sensing navigation": 0.7224023938179016, "Quantum sensing Position": 0.70863938331604, "Quantum sensing Timing": 0.6881103515625, "Quantum sensing": 0.7388169169425964, "Quantum control": 0.6880025267601013 } }, { "id": 2635, "title": "Mechanochemical synthesis of stable, quantum-confined CsPbBr3 perovskite nanocrystals with blue-green emission and high PLQY", "abstract": "Cesium lead halides are a family of bright, visible-light emitting materials with near-unity photoluminescence quantum yield (PLQY) in nanocrystals (NCs). The usual way to achieve visible light-emissi...", "citations": 11, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2640, "doi": "10.1088/2515-7639/ac618f", "umap_coordinates": { "x": 391.83905029296875, "y": 134.13143920898438, "z": 205.0022430419922 }, "tsne_coordinates": { "x": 20.099950790405273, "y": 1.7505910396575928, "z": -22.218475341796875 }, "pca_coordinates": { "x": -1.7059417963027954, "y": -0.8163230419158936, "z": -0.584951639175415 }, "axis_scores": { "Quantum imaging": 0.688164472579956, "Quantum Life Science Sensing": 0.7234113216400146, "Quantum sensing Detection": 0.6880576610565186, "Quantum sensing Metrology": 0.6960700750350952, "Quantum sensing navigation": 0.7013418078422546, "Quantum sensing Position": 0.6682476997375488, "Quantum sensing Timing": 0.6596778631210327, "Quantum sensing": 0.7155468463897705, "Quantum control": 0.6961798071861267 } }, { "id": 2636, "title": "100-Gbps per-channel all-optical wavelength conversion without pre-amplifiers based on an integrated nanophotonic platform", "abstract": "All-optical wavelength conversion based on four-wave mixing attracts intense interest in many areas, especially in optical fiber communications, due to the advantages of femtosecond response, modulati...", "citations": 20, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2641, "doi": "10.1515/nanoph-2023-0264", "umap_coordinates": { "x": 394.4569396972656, "y": 134.15878295898438, "z": 206.2657470703125 }, "tsne_coordinates": { "x": 5.075441837310791, "y": -3.431504726409912, "z": -28.726961135864258 }, "pca_coordinates": { "x": -1.6614549160003662, "y": 0.06408905982971191, "z": 4.21608304977417 }, "axis_scores": { "Quantum imaging": 0.7072594165802002, "Quantum Life Science Sensing": 0.6820405721664429, "Quantum sensing Detection": 0.6959841251373291, "Quantum sensing Metrology": 0.7135013937950134, "Quantum sensing navigation": 0.6943176984786987, "Quantum sensing Position": 0.6642619967460632, "Quantum sensing Timing": 0.6737226843833923, "Quantum sensing": 0.711825966835022, "Quantum control": 0.6644774675369263 } }, { "id": 2637, "title": "Transparent Programmable Luminescent Tags Enabled by Spiro[fluorene-9,9′-xanthene]-Based Hole-Transporting Molecules", "abstract": "Pure organic ultralong room temperature phosphorescent (URTP) materials have garnered significant attention for applications in luminescent materials, biosensing, and information encryption. These mat...", "citations": 1, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2642, "doi": "10.1021/acs.jpcc.4c05882", "umap_coordinates": { "x": 392.10125732421875, "y": 135.22647094726562, "z": 204.64820861816406 }, "tsne_coordinates": { "x": 13.646531105041504, "y": 2.0106875896453857, "z": -23.769054412841797 }, "pca_coordinates": { "x": -2.779487133026123, "y": -1.646881103515625, "z": -0.4670644998550415 }, "axis_scores": { "Quantum imaging": 0.7378159165382385, "Quantum Life Science Sensing": 0.7229395508766174, "Quantum sensing Detection": 0.7249037623405457, "Quantum sensing Metrology": 0.6985266804695129, "Quantum sensing navigation": 0.7186218500137329, "Quantum sensing Position": 0.6947680115699768, "Quantum sensing Timing": 0.708065927028656, "Quantum sensing": 0.7417165637016296, "Quantum control": 0.7205680012702942 } }, { "id": 2638, "title": "Optical quantum confinement and photocatalytic properties in two-, one- and zero-dimensional nanostructures", "abstract": "Low-dimensional nanomaterials have been explored extensively in the last decades, partly fuelled by the new possibilities for tuning and controlling their electronic properties. In a broader perspecti...", "citations": 195, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2643, "doi": "10.1098/rsos.180387", "umap_coordinates": { "x": 392.5833435058594, "y": 134.85203552246094, "z": 206.84217834472656 }, "tsne_coordinates": { "x": 28.338977813720703, "y": -4.818729400634766, "z": -1.5702320337295532 }, "pca_coordinates": { "x": 0.05422103404998779, "y": -2.225891590118408, "z": -0.6307171583175659 }, "axis_scores": { "Quantum imaging": 0.757530689239502, "Quantum Life Science Sensing": 0.7838800549507141, "Quantum sensing Detection": 0.7582708597183228, "Quantum sensing Metrology": 0.7451737523078918, "Quantum sensing navigation": 0.7700347900390625, "Quantum sensing Position": 0.7149225473403931, "Quantum sensing Timing": 0.6861482858657837, "Quantum sensing": 0.7681279182434082, "Quantum control": 0.7401197552680969 } }, { "id": 2639, "title": "Nanowire single-electron memory", "abstract": "We demonstrate storage of electrons in semiconductor nanowires epitaxially grown from Au nanoparticles. The nanowires contain multiple tunnel junctions (MTJs) of InP barriers and InAs quantum dots des...", "citations": 132, "author_count": 5, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2644, "doi": "10.1021/nl050006s", "umap_coordinates": { "x": 393.76385498046875, "y": 133.40252685546875, "z": 208.0316925048828 }, "tsne_coordinates": { "x": 18.487056732177734, "y": -19.841978073120117, "z": -6.617082595825195 }, "pca_coordinates": { "x": -0.6274337768554688, "y": -4.880687236785889, "z": 0.9102478623390198 }, "axis_scores": { "Quantum imaging": 0.6808080077171326, "Quantum Life Science Sensing": 0.7132841348648071, "Quantum sensing Detection": 0.6937930583953857, "Quantum sensing Metrology": 0.6835194826126099, "Quantum sensing navigation": 0.7079232931137085, "Quantum sensing Position": 0.685478687286377, "Quantum sensing Timing": 0.661678671836853, "Quantum sensing": 0.7063836455345154, "Quantum control": 0.6628722548484802 } }, { "id": 2640, "title": "Tuning carrier density across Dirac point in epitaxial graphene on SiC by corona discharge", "abstract": "We demonstrate reversible carrier density control across the Dirac point (Delta n similar to 10(13) cm(-2)) in epitaxial graphene on SiC (SiC/G) via high electrostatic potential gating with ions produ...", "citations": 46, "author_count": 9, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2645, "doi": "10.1063/1.4892922", "umap_coordinates": { "x": 393.41595458984375, "y": 134.1674346923828, "z": 208.39614868164062 }, "tsne_coordinates": { "x": 29.385238647460938, "y": -33.46030044555664, "z": -3.144235372543335 }, "pca_coordinates": { "x": 1.118837833404541, "y": -2.51033353805542, "z": 0.8847233653068542 }, "axis_scores": { "Quantum imaging": 0.6871271133422852, "Quantum Life Science Sensing": 0.7049680352210999, "Quantum sensing Detection": 0.6892433166503906, "Quantum sensing Metrology": 0.6899003982543945, "Quantum sensing navigation": 0.6976191401481628, "Quantum sensing Position": 0.6799435615539551, "Quantum sensing Timing": 0.652005672454834, "Quantum sensing": 0.7034792900085449, "Quantum control": 0.7093855738639832 } }, { "id": 2641, "title": "An open-systems approach to calculating time-dependent spectra", "abstract": "A new method to calculate the spectrum using cascaded open systems and a master equation is presented. The method uses two-state analyser atoms which are coupled to the system of interest, whose spect...", "citations": 4, "author_count": 3, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2646, "doi": null, "umap_coordinates": { "x": 392.04278564453125, "y": 139.3204345703125, "z": 209.17161560058594 }, "tsne_coordinates": { "x": -2.3476576805114746, "y": 49.49268341064453, "z": -5.484353542327881 }, "pca_coordinates": { "x": -1.1775975227355957, "y": 3.304736375808716, "z": -2.018096685409546 }, "axis_scores": { "Quantum imaging": 0.7348041534423828, "Quantum Life Science Sensing": 0.771554708480835, "Quantum sensing Detection": 0.7266528606414795, "Quantum sensing Metrology": 0.7060490846633911, "Quantum sensing navigation": 0.7206000685691833, "Quantum sensing Position": 0.6866807341575623, "Quantum sensing Timing": 0.7170781493186951, "Quantum sensing": 0.7371770739555359, "Quantum control": 0.7206014394760132 } }, { "id": 2642, "title": "Unconventional saturation effects at intermediate drive in a lossy cavity coupled to few emitters", "abstract": "Recent technological advancements have enabled strong light-matter interaction in highly dissipative cavity-emitter systems. However, in these systems, which are well described by the Tavis-Cummings m...", "citations": 1, "author_count": 6, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2647, "doi": "10.1103/PhysRevA.108.053706", "umap_coordinates": { "x": 394.8630065917969, "y": 135.92430114746094, "z": 207.87521362304688 }, "tsne_coordinates": { "x": -11.649629592895508, "y": -15.380324363708496, "z": -10.09714412689209 }, "pca_coordinates": { "x": 3.434298038482666, "y": -0.4772768020629883, "z": 1.6199896335601807 }, "axis_scores": { "Quantum imaging": 0.7209100127220154, "Quantum Life Science Sensing": 0.7166464924812317, "Quantum sensing Detection": 0.7171075940132141, "Quantum sensing Metrology": 0.6991294622421265, "Quantum sensing navigation": 0.698166012763977, "Quantum sensing Position": 0.6713791489601135, "Quantum sensing Timing": 0.6632295846939087, "Quantum sensing": 0.7211461663246155, "Quantum control": 0.7036768794059753 } }, { "id": 2643, "title": "Nambu-Goldstone effective theory of information at quantum criticality", "abstract": "We establish a fundamental connection between quantum criticality of a many-body system, such as Bose-Einstein condensates, and its capacity of information-storage and processing. For deriving the eff...", "citations": 28, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2648, "doi": "10.1103/PhysRevD.92.125002", "umap_coordinates": { "x": 394.9876708984375, "y": 136.6230926513672, "z": 208.8084259033203 }, "tsne_coordinates": { "x": -17.224206924438477, "y": -37.99633026123047, "z": 4.887951374053955 }, "pca_coordinates": { "x": 4.763989448547363, "y": 0.49689149856567383, "z": 0.4683224558830261 }, "axis_scores": { "Quantum imaging": 0.7559276819229126, "Quantum Life Science Sensing": 0.7562294006347656, "Quantum sensing Detection": 0.7580382823944092, "Quantum sensing Metrology": 0.7457478046417236, "Quantum sensing navigation": 0.7581045031547546, "Quantum sensing Position": 0.7277641892433167, "Quantum sensing Timing": 0.7247576117515564, "Quantum sensing": 0.7672778367996216, "Quantum control": 0.7537908554077148 } }, { "id": 2644, "title": "Low-momentum direct-photon measurement in Cu plus Cu collisions at √SNN=200 GeV", "abstract": "We measured direct photons for p(T) < 5 GeV/c in minimum bias and 0%-40% most-central events at midrapidity for Cu+Cu collisions at root S-NN = 200 GeV. The e(+)e(-) contribution from quasireal direct...", "citations": 21, "author_count": 453, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2649, "doi": "10.1103/PhysRevC.98.054902", "umap_coordinates": { "x": 396.2552490234375, "y": 134.71139526367188, "z": 208.1307373046875 }, "tsne_coordinates": { "x": -35.01488494873047, "y": 3.802887201309204, "z": -19.036775588989258 }, "pca_coordinates": { "x": 2.701763868331909, "y": -0.6763248443603516, "z": 3.6165895462036133 }, "axis_scores": { "Quantum imaging": 0.6934477090835571, "Quantum Life Science Sensing": 0.6945499181747437, "Quantum sensing Detection": 0.7299178838729858, "Quantum sensing Metrology": 0.6968064308166504, "Quantum sensing navigation": 0.7140794992446899, "Quantum sensing Position": 0.7113549113273621, "Quantum sensing Timing": 0.7021877765655518, "Quantum sensing": 0.7139320373535156, "Quantum control": 0.6824789643287659 } }, { "id": 2645, "title": "Cavity optomechanics with photonic bound states in the continuum", "abstract": "We propose a versatile, free-space cavity optomechanics platform built from two photonic crystal membranes, one of which is freely suspended, and designed to form a microcavity less than one wavelengt...", "citations": 32, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2650, "doi": "10.1103/PhysRevResearch.3.013131", "umap_coordinates": { "x": 395.16619873046875, "y": 135.57716369628906, "z": 207.82907104492188 }, "tsne_coordinates": { "x": -8.959115982055664, "y": -20.472522735595703, "z": -3.8756306171417236 }, "pca_coordinates": { "x": 3.5005669593811035, "y": -0.4298396110534668, "z": 1.5092291831970215 }, "axis_scores": { "Quantum imaging": 0.749035120010376, "Quantum Life Science Sensing": 0.7404116988182068, "Quantum sensing Detection": 0.7585746645927429, "Quantum sensing Metrology": 0.7521954774856567, "Quantum sensing navigation": 0.74514240026474, "Quantum sensing Position": 0.7285540699958801, "Quantum sensing Timing": 0.703439474105835, "Quantum sensing": 0.7553781270980835, "Quantum control": 0.7197950482368469 } }, { "id": 2646, "title": "APPLICABILITY OF PHOTON-CORRELATION SPECTROSCOPY FOR MEASUREMENT OF CONCENTRATION AND SIZE DISTRIBUTION OF COLLOIDS IN NATURAL-WATERS", "abstract": "The suitability of photon correlation spectroscopy (PCS) for the determination of concentration and size distribution of colloidal matter was tested in a surface water and in a deep groundwater. Well-...", "citations": 36, "author_count": 5, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 2651, "doi": "10.1016/0003-2670(93)85201-T", "umap_coordinates": { "x": 394.0997009277344, "y": 134.9265899658203, "z": 205.05368041992188 }, "tsne_coordinates": { "x": 6.724916458129883, "y": 19.90177345275879, "z": 11.43227481842041 }, "pca_coordinates": { "x": -2.6751580238342285, "y": 0.7580118179321289, "z": 1.1582469940185547 }, "axis_scores": { "Quantum imaging": 0.7064443230628967, "Quantum Life Science Sensing": 0.7547094821929932, "Quantum sensing Detection": 0.7157731056213379, "Quantum sensing Metrology": 0.7234377264976501, "Quantum sensing navigation": 0.708165168762207, "Quantum sensing Position": 0.6964799761772156, "Quantum sensing Timing": 0.6632711887359619, "Quantum sensing": 0.7261655926704407, "Quantum control": 0.6635130643844604 } }, { "id": 2647, "title": "Shedding new light on quadrupolar 1,4-dihydropyrrolo[3,2-b]pyrroles: impact of electron-deficient scaffolds over emission", "abstract": "In this work, we disclose a series of seven quadrupolar centrosymmetric 1,4-dihydropyrrolo[3,2-b]pyrroles (DHPPs) linked to the two peripheral, strongly electron-accepting heterocycles such as benzoxa...", "citations": 6, "author_count": 12, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2652, "doi": "10.1039/d4sc07275h", "umap_coordinates": { "x": 392.010986328125, "y": 135.76258850097656, "z": 205.08067321777344 }, "tsne_coordinates": { "x": -0.12156356871128082, "y": 0.9889014363288879, "z": -6.631556034088135 }, "pca_coordinates": { "x": -2.044055461883545, "y": -0.9812257289886475, "z": -2.329493284225464 }, "axis_scores": { "Quantum imaging": 0.7183840274810791, "Quantum Life Science Sensing": 0.7567325830459595, "Quantum sensing Detection": 0.7110761404037476, "Quantum sensing Metrology": 0.6968289017677307, "Quantum sensing navigation": 0.7000661492347717, "Quantum sensing Position": 0.6785995960235596, "Quantum sensing Timing": 0.6615548729896545, "Quantum sensing": 0.7225066423416138, "Quantum control": 0.7080447673797607 } }, { "id": 2648, "title": "Selective Photocatalytic Reduction of CO2-to-CO in Water using a Polymeric Carbon Nitride Quantum Dot/Fe-Porphyrin Hybrid Assembly", "abstract": "Visible light-driven conversion of CO2 into more value-added products is a promising technology not only for diminution of CO2 emission but also for solar energy storage in the form of chemical energy...", "citations": 5, "author_count": 7, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2653, "doi": "10.1002/cctc.202200897", "umap_coordinates": { "x": 392.8075256347656, "y": 133.93519592285156, "z": 204.894775390625 }, "tsne_coordinates": { "x": 23.20747184753418, "y": 11.140063285827637, "z": -5.839519023895264 }, "pca_coordinates": { "x": -3.945347785949707, "y": -1.7029776573181152, "z": -0.676455557346344 }, "axis_scores": { "Quantum imaging": 0.6993362903594971, "Quantum Life Science Sensing": 0.7125717401504517, "Quantum sensing Detection": 0.7040382027626038, "Quantum sensing Metrology": 0.6849544048309326, "Quantum sensing navigation": 0.6855796575546265, "Quantum sensing Position": 0.6583386063575745, "Quantum sensing Timing": 0.6513635516166687, "Quantum sensing": 0.7099603414535522, "Quantum control": 0.705896258354187 } }, { "id": 2649, "title": "Design and Analysis of Fault-Tolerant 1:2 Demultiplexer Using Quantum-Dot Cellular Automata Nano-Technology", "abstract": "Quantum-dot Cellular Automata (QCA) is an innovative paradigm bringing hopeful applications in the perceptually novel computing layout in quantum electronics. The circuits manufactured by QCA technolo...", "citations": 17, "author_count": 4, "categories": [ "Computer Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2654, "doi": "10.3390/electronics10212565", "umap_coordinates": { "x": 393.1745910644531, "y": 134.47781372070312, "z": 205.7519073486328 }, "tsne_coordinates": { "x": -11.008952140808105, "y": 7.698011875152588, "z": 1.5458287000656128 }, "pca_coordinates": { "x": -0.6325429081916809, "y": -1.6908478736877441, "z": -0.3034413754940033 }, "axis_scores": { "Quantum imaging": 0.7142959833145142, "Quantum Life Science Sensing": 0.7619738578796387, "Quantum sensing Detection": 0.7528787851333618, "Quantum sensing Metrology": 0.7438217401504517, "Quantum sensing navigation": 0.7149021029472351, "Quantum sensing Position": 0.690485954284668, "Quantum sensing Timing": 0.703086793422699, "Quantum sensing": 0.7477951049804688, "Quantum control": 0.7180134057998657 } }, { "id": 2650, "title": "Impacts of extreme winter warming events on plant physiology in a sub-Arctic heath community", "abstract": "Insulation provided by snow cover and tolerance of freezing by physiological acclimation allows Arctic plants to survive cold winter temperatures. However, both the protection mechanisms may be lost w...", "citations": 105, "author_count": 9, "categories": [ "Plant Sciences" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2655, "doi": "10.1111/j.1399-3054.2010.01386.x", "umap_coordinates": { "x": 394.56707763671875, "y": 136.05636596679688, "z": 203.5216064453125 }, "tsne_coordinates": { "x": 11.744607925415039, "y": 34.43861770629883, "z": 16.64917755126953 }, "pca_coordinates": { "x": -1.3646230697631836, "y": 2.1607260704040527, "z": -1.9784491062164307 }, "axis_scores": { "Quantum imaging": 0.6458566188812256, "Quantum Life Science Sensing": 0.7038666009902954, "Quantum sensing Detection": 0.6547292470932007, "Quantum sensing Metrology": 0.6479061841964722, "Quantum sensing navigation": 0.6471087336540222, "Quantum sensing Position": 0.6268203854560852, "Quantum sensing Timing": 0.6643780469894409, "Quantum sensing": 0.6688564419746399, "Quantum control": 0.657907247543335 } }, { "id": 2651, "title": "Time-evolution of local information: Thermalization dynamics of local observables", "abstract": "Quantum many-body dynamics generically result in increasing entanglement that eventually leads to thermalization of local observables. This makes the exact description of the dynamics complex despite ...", "citations": 24, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2656, "doi": "10.21468/SciPostPhys.13.4.080", "umap_coordinates": { "x": 395.4246520996094, "y": 137.02212524414062, "z": 206.24464416503906 }, "tsne_coordinates": { "x": -29.75235939025879, "y": -13.505142211914062, "z": 8.267075538635254 }, "pca_coordinates": { "x": 1.1531403064727783, "y": 4.024812698364258, "z": -0.37144362926483154 }, "axis_scores": { "Quantum imaging": 0.7636139392852783, "Quantum Life Science Sensing": 0.7647130489349365, "Quantum sensing Detection": 0.7574330568313599, "Quantum sensing Metrology": 0.7399722933769226, "Quantum sensing navigation": 0.7579348087310791, "Quantum sensing Position": 0.7571062445640564, "Quantum sensing Timing": 0.7656463980674744, "Quantum sensing": 0.7680729627609253, "Quantum control": 0.7514630556106567 } }, { "id": 2652, "title": "Initial quantum well states in Ag thin films on the In/Si(111)-√3 x √3 surface", "abstract": "Silver thin films have been formed by room temperature deposition of Ag on In/Si(111)-root 3 x root 3. The Ag films have been investigated using both angle-resolved photoelectron spectroscopy (ARPES) ...", "citations": 4, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2657, "doi": "10.1016/j.susc.2019.121531", "umap_coordinates": { "x": 392.69122314453125, "y": 133.48439025878906, "z": 206.97747802734375 }, "tsne_coordinates": { "x": 41.69872283935547, "y": 7.0985493659973145, "z": 2.891404628753662 }, "pca_coordinates": { "x": 0.7457046508789062, "y": -2.0940284729003906, "z": -0.13758736848831177 }, "axis_scores": { "Quantum imaging": 0.6967781186103821, "Quantum Life Science Sensing": 0.6976342797279358, "Quantum sensing Detection": 0.7027932405471802, "Quantum sensing Metrology": 0.6871904134750366, "Quantum sensing navigation": 0.7076361775398254, "Quantum sensing Position": 0.7064961194992065, "Quantum sensing Timing": 0.6718639731407166, "Quantum sensing": 0.7078996300697327, "Quantum control": 0.6833283305168152 } }, { "id": 2653, "title": "Entanglement dynamics of quantum oscillators nonlinearly coupled to thermal environments", "abstract": "We study the asymptotic entanglement of two quantum harmonic oscillators nonlinearly coupled to an environment. Coupling to independent baths and a common bath are investigated. Numerical results obta...", "citations": 2, "author_count": 4, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2658, "doi": "10.1103/PhysRevA.92.012313", "umap_coordinates": { "x": 394.7871398925781, "y": 136.76300048828125, "z": 207.75341796875 }, "tsne_coordinates": { "x": -14.469758987426758, "y": -12.091975212097168, "z": 11.681988716125488 }, "pca_coordinates": { "x": 5.605291366577148, "y": 0.824946403503418, "z": -0.07945370674133301 }, "axis_scores": { "Quantum imaging": 0.7754051089286804, "Quantum Life Science Sensing": 0.7622893452644348, "Quantum sensing Detection": 0.7755774259567261, "Quantum sensing Metrology": 0.749799907207489, "Quantum sensing navigation": 0.7918761968612671, "Quantum sensing Position": 0.7454249858856201, "Quantum sensing Timing": 0.7473219037055969, "Quantum sensing": 0.7853431105613708, "Quantum control": 0.7656306624412537 } }, { "id": 2654, "title": "Phosphorus-fertilisation has differential effects on leaf growth and photosynthetic capacity of Arachis hypogaea L.", "abstract": "Aims The objectives of this study were to assess how Arachis hypogaea L. (peanut or groundnut) responds to different P supplies in terms of growth and photosynthesis, and to determine the optimum P su...", "citations": 75, "author_count": 14, "categories": [ "Agriculture" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2659, "doi": "10.1007/s11104-019-04041-w", "umap_coordinates": { "x": 394.3495178222656, "y": 136.085693359375, "z": 203.701171875 }, "tsne_coordinates": { "x": 11.855042457580566, "y": 32.05432891845703, "z": 10.22265911102295 }, "pca_coordinates": { "x": -2.357069253921509, "y": 0.4709591865539551, "z": -0.174854576587677 }, "axis_scores": { "Quantum imaging": 0.6698555946350098, "Quantum Life Science Sensing": 0.6749621629714966, "Quantum sensing Detection": 0.6506915092468262, "Quantum sensing Metrology": 0.6362677812576294, "Quantum sensing navigation": 0.6628522872924805, "Quantum sensing Position": 0.6637780070304871, "Quantum sensing Timing": 0.6644032001495361, "Quantum sensing": 0.668254554271698, "Quantum control": 0.6709668040275574 } }, { "id": 2655, "title": "Understanding Anomalous Cage-Escape Dynamics in Photoredox Processes Driven by a Fe(III) N-Heterocyclic Carbene Complex", "abstract": "Solvent cage-escape dynamics of bimolecular photoredox products in solution has been investigated computationally through a combination of molecular dynamics simulations and quantum chemical calculati...", "citations": 3, "author_count": 4, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2660, "doi": "10.1021/jacs.5c04296", "umap_coordinates": { "x": 392.5494079589844, "y": 136.4282989501953, "z": 206.0195770263672 }, "tsne_coordinates": { "x": 4.870905876159668, "y": -2.710742473602295, "z": -2.1773061752319336 }, "pca_coordinates": { "x": -0.322878897190094, "y": -0.06707239151000977, "z": -3.2862486839294434 }, "axis_scores": { "Quantum imaging": 0.7233603596687317, "Quantum Life Science Sensing": 0.7371393442153931, "Quantum sensing Detection": 0.7089915871620178, "Quantum sensing Metrology": 0.6702793836593628, "Quantum sensing navigation": 0.7176182270050049, "Quantum sensing Position": 0.6671072244644165, "Quantum sensing Timing": 0.6756167411804199, "Quantum sensing": 0.7147954702377319, "Quantum control": 0.7310309410095215 } }, { "id": 2656, "title": "Cathodoluminescence studies of nanostructured semiconductors", "abstract": "Spatially and spectrally resolved cathodoluminescence in the scanning electron microscope is a very powerful technique for studying the optical properties of semiconductor structures, especially low-d...", "citations": 15, "author_count": 2, "categories": [ "Microscopy" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2661, "doi": "10.1111/j.1365-2818.2006.01668.x", "umap_coordinates": { "x": 393.5610656738281, "y": 133.71810913085938, "z": 205.68795776367188 }, "tsne_coordinates": { "x": 32.79379653930664, "y": 5.091372966766357, "z": 4.809904098510742 }, "pca_coordinates": { "x": -2.2191944122314453, "y": -1.6183905601501465, "z": 0.847912609577179 }, "axis_scores": { "Quantum imaging": 0.7400336265563965, "Quantum Life Science Sensing": 0.7668529748916626, "Quantum sensing Detection": 0.7405778765678406, "Quantum sensing Metrology": 0.7420607805252075, "Quantum sensing navigation": 0.7149444222450256, "Quantum sensing Position": 0.6803336143493652, "Quantum sensing Timing": 0.6805636882781982, "Quantum sensing": 0.7525925040245056, "Quantum control": 0.7151592373847961 } }, { "id": 2657, "title": "Systematics of inclusive photon production in 158 • A GeVPb induced reactions on Ni, Nb, and Pb targets", "abstract": "The multiplicity of inclusive photons has been measured on an event-by-event basis for 158.A GeV Pb induced reactions on Ni, Nb, and Pb targets. The systematics of the pseudorapidity densities at midr...", "citations": 31, "author_count": 169, "categories": [ "Astronomy & Astrophysics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2662, "doi": "10.1016/S0370-2693(99)00560-2", "umap_coordinates": { "x": 396.8304443359375, "y": 134.14553833007812, "z": 207.34893798828125 }, "tsne_coordinates": { "x": -32.846473693847656, "y": 2.646202325820923, "z": -6.988727569580078 }, "pca_coordinates": { "x": -1.5252383947372437, "y": 0.5328373908996582, "z": 2.812081813812256 }, "axis_scores": { "Quantum imaging": 0.7200795412063599, "Quantum Life Science Sensing": 0.6787199974060059, "Quantum sensing Detection": 0.6980299353599548, "Quantum sensing Metrology": 0.6870360970497131, "Quantum sensing navigation": 0.706551194190979, "Quantum sensing Position": 0.6744730472564697, "Quantum sensing Timing": 0.7001935839653015, "Quantum sensing": 0.6997061371803284, "Quantum control": 0.6615197658538818 } }, { "id": 2658, "title": "Observation of quantum entanglement with top quarks at the ATLAS detector", "abstract": "Entanglement is a key feature of quantum mechanics(1-3), with applications in fields such as metrology, cryptography, quantum information and quantum computation(4-8). It has been observed in a wide v...", "citations": 72, "author_count": 2684, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2663, "doi": "10.1038/s41586-024-07824-z", "umap_coordinates": { "x": 397.0031433105469, "y": 134.3794403076172, "z": 207.1435089111328 }, "tsne_coordinates": { "x": -36.879913330078125, "y": 4.793512344360352, "z": -7.244342803955078 }, "pca_coordinates": { "x": 1.4959886074066162, "y": 1.1307998895645142, "z": 3.3663415908813477 }, "axis_scores": { "Quantum imaging": 0.7445622086524963, "Quantum Life Science Sensing": 0.7126464247703552, "Quantum sensing Detection": 0.7449147701263428, "Quantum sensing Metrology": 0.7168914079666138, "Quantum sensing navigation": 0.7341691255569458, "Quantum sensing Position": 0.737313449382782, "Quantum sensing Timing": 0.7523784637451172, "Quantum sensing": 0.740814745426178, "Quantum control": 0.7019420862197876 } }, { "id": 2659, "title": "Entanglement invariant for the double Jaynes-Cummings model", "abstract": "We study entanglement dynamics between four qubits interacting through two isolated Jaynes-Cummings Hamiltonians, via an entanglement measure based on the wedge product. We compare the results with si...", "citations": 116, "author_count": 3, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2664, "doi": "10.1103/PhysRevA.76.042313", "umap_coordinates": { "x": 395.1307373046875, "y": 137.30276489257812, "z": 208.06033325195312 }, "tsne_coordinates": { "x": -19.073699951171875, "y": -22.609384536743164, "z": 24.79127311706543 }, "pca_coordinates": { "x": 4.9205403327941895, "y": 2.604041337966919, "z": -0.25242260098457336 }, "axis_scores": { "Quantum imaging": 0.712138831615448, "Quantum Life Science Sensing": 0.7048007249832153, "Quantum sensing Detection": 0.6937283277511597, "Quantum sensing Metrology": 0.6879268884658813, "Quantum sensing navigation": 0.6987254023551941, "Quantum sensing Position": 0.6638380289077759, "Quantum sensing Timing": 0.6856693625450134, "Quantum sensing": 0.7134321928024292, "Quantum control": 0.7182608842849731 } }, { "id": 2660, "title": "Nanothermometry Reveals Calcium-Induced Remodeling of Myosin", "abstract": "Ions greatly influence protein structure-function and are critical to health and disease. A 10, 000-fold higher calcium in the sarcoplasmic reticulum (SR) of muscle suggests elevated calcium levels ne...", "citations": 14, "author_count": 9, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2665, "doi": "10.1021/acs.nanolett.8b02989", "umap_coordinates": { "x": 394.3145751953125, "y": 135.04525756835938, "z": 205.18572998046875 }, "tsne_coordinates": { "x": 16.820215225219727, "y": -5.919791221618652, "z": 22.647207260131836 }, "pca_coordinates": { "x": -1.4932163953781128, "y": -0.31305646896362305, "z": -0.6446216702461243 }, "axis_scores": { "Quantum imaging": 0.7061629295349121, "Quantum Life Science Sensing": 0.7230691909790039, "Quantum sensing Detection": 0.7015485763549805, "Quantum sensing Metrology": 0.7093344926834106, "Quantum sensing navigation": 0.6961750388145447, "Quantum sensing Position": 0.6975423693656921, "Quantum sensing Timing": 0.7052897214889526, "Quantum sensing": 0.7107968330383301, "Quantum control": 0.6675088405609131 } }, { "id": 2661, "title": "Measurement of the Correlation between Electron Spin and Photon Linear Polarization in Atomic-Field Bremsstrahlung", "abstract": "Atomic-field bremsstrahlung has been studied with a longitudinally polarized electron beam. The correlation between the initial orientation of the electron spin and the angle of photon polarization ha...", "citations": 55, "author_count": 10, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2666, "doi": "10.1103/PhysRevLett.107.173201", "umap_coordinates": { "x": 395.5547790527344, "y": 135.11175537109375, "z": 208.11663818359375 }, "tsne_coordinates": { "x": -9.729921340942383, "y": -13.519838333129883, "z": -5.59792423248291 }, "pca_coordinates": { "x": 3.7185068130493164, "y": -1.0186314582824707, "z": 1.787088394165039 }, "axis_scores": { "Quantum imaging": 0.7403439879417419, "Quantum Life Science Sensing": 0.7518040537834167, "Quantum sensing Detection": 0.7446281909942627, "Quantum sensing Metrology": 0.7297386527061462, "Quantum sensing navigation": 0.7474153637886047, "Quantum sensing Position": 0.740935206413269, "Quantum sensing Timing": 0.7009340524673462, "Quantum sensing": 0.7485864162445068, "Quantum control": 0.6912359595298767 } }, { "id": 2662, "title": "Golden ratio entanglement in hexagonally poled nonlinear crystals", "abstract": "This work analyzes the quantum state of twin photons and twin beams generated by parametric down-conversion in a hexagonally poled photonic crystal, characterized by the simultaneous presence of two n...", "citations": 10, "author_count": 5, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2667, "doi": "10.1103/PhysRevA.98.053827", "umap_coordinates": { "x": 394.7687683105469, "y": 136.4949188232422, "z": 208.40403747558594 }, "tsne_coordinates": { "x": -0.3057605028152466, "y": -15.917633056640625, "z": 8.565327644348145 }, "pca_coordinates": { "x": 4.02255392074585, "y": -0.8168787956237793, "z": 1.2948050498962402 }, "axis_scores": { "Quantum imaging": 0.7489233613014221, "Quantum Life Science Sensing": 0.7420207262039185, "Quantum sensing Detection": 0.7403424978256226, "Quantum sensing Metrology": 0.7407700419425964, "Quantum sensing navigation": 0.741625964641571, "Quantum sensing Position": 0.7210050821304321, "Quantum sensing Timing": 0.7201419472694397, "Quantum sensing": 0.7482911348342896, "Quantum control": 0.7120635509490967 } }, { "id": 2663, "title": "High-resolution photoemission from a tunable quantum well: Cu(111)/Na", "abstract": "High-resolution photoemission (Delta E=5 meV) at a low photon energy (3.82 eV) is used to probe discrete quantum-well-type subband states near, below, and above E-F for Cu(111) covered with 2 ML or le...", "citations": 60, "author_count": 5, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 2668, "doi": "10.1103/PhysRevB.56.1593", "umap_coordinates": { "x": 393.98583984375, "y": 134.79026794433594, "z": 209.103759765625 }, "tsne_coordinates": { "x": 9.895620346069336, "y": -39.91162109375, "z": -2.7628173828125 }, "pca_coordinates": { "x": 2.5507454872131348, "y": -2.911773204803467, "z": 1.5124843120574951 }, "axis_scores": { "Quantum imaging": 0.7257707118988037, "Quantum Life Science Sensing": 0.734865128993988, "Quantum sensing Detection": 0.7452208399772644, "Quantum sensing Metrology": 0.7161312699317932, "Quantum sensing navigation": 0.734502375125885, "Quantum sensing Position": 0.7078153491020203, "Quantum sensing Timing": 0.6997302770614624, "Quantum sensing": 0.7527110576629639, "Quantum control": 0.721641480922699 } }, { "id": 2664, "title": "RF-amplifier-free superconducting nanowire single-photon detector system", "abstract": "We used a superconducting nanowire single photon detector integrated with a current reservoir in a closed-cycle cryocooler to demonstrate RF-amplifier-free photon counting. By removing the RF amplifie...", "citations": 1, "author_count": 7, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2669, "doi": null, "umap_coordinates": { "x": 391.4700622558594, "y": 139.36488342285156, "z": 209.43067932128906 }, "tsne_coordinates": { "x": -4.242703914642334, "y": 43.21711349487305, "z": -11.297182083129883 }, "pca_coordinates": { "x": -1.3298918008804321, "y": 1.3210054636001587, "z": 1.6195008754730225 }, "axis_scores": { "Quantum imaging": 0.7140236496925354, "Quantum Life Science Sensing": 0.7432456016540527, "Quantum sensing Detection": 0.7386344075202942, "Quantum sensing Metrology": 0.7171483039855957, "Quantum sensing navigation": 0.7313322424888611, "Quantum sensing Position": 0.6978837847709656, "Quantum sensing Timing": 0.6834585666656494, "Quantum sensing": 0.7366377115249634, "Quantum control": 0.6829771995544434 } }, { "id": 2665, "title": "Two-photon absorption of metal-organic DNA-probes", "abstract": "We report remarkable multiphoton absorption properties of DNA intercalating ruthenium complexes: (1) [Ru(phen) 2 dppz](2+); (2) [(11,11'-bidppz)(phen)(4)Ru-2](4+); (3) [11,11'-bipb (phen)(4)Ru-2](4+)....", "citations": 31, "author_count": 4, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2670, "doi": "10.1039/c2dt12264b", "umap_coordinates": { "x": 392.3486328125, "y": 135.84315490722656, "z": 205.35940551757812 }, "tsne_coordinates": { "x": 8.348807334899902, "y": 4.884537696838379, "z": -3.2413787841796875 }, "pca_coordinates": { "x": -1.4062368869781494, "y": -2.576474666595459, "z": -1.3271712064743042 }, "axis_scores": { "Quantum imaging": 0.7108936309814453, "Quantum Life Science Sensing": 0.7249944806098938, "Quantum sensing Detection": 0.7298579812049866, "Quantum sensing Metrology": 0.6899523138999939, "Quantum sensing navigation": 0.7005525827407837, "Quantum sensing Position": 0.6823357343673706, "Quantum sensing Timing": 0.6834339499473572, "Quantum sensing": 0.7195515036582947, "Quantum control": 0.6834924817085266 } }, { "id": 2666, "title": "Steady-state entanglement of two superconducting qubits engineered by dissipation", "abstract": "We present a scheme for the dissipative preparation of an entangled steady state of two superconducting qubits in a circuit quantum electrodynamics (QED) setup. Combining resonator photon loss-a dissi...", "citations": 68, "author_count": 5, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2671, "doi": "10.1103/PhysRevA.88.032317", "umap_coordinates": { "x": 394.84527587890625, "y": 135.94122314453125, "z": 208.56124877929688 }, "tsne_coordinates": { "x": -14.573613166809082, "y": -13.739387512207031, "z": 10.463885307312012 }, "pca_coordinates": { "x": 5.606031894683838, "y": -0.26866888999938965, "z": -0.27666643261909485 }, "axis_scores": { "Quantum imaging": 0.7391965389251709, "Quantum Life Science Sensing": 0.744365930557251, "Quantum sensing Detection": 0.7580493688583374, "Quantum sensing Metrology": 0.7248342633247375, "Quantum sensing navigation": 0.7569645047187805, "Quantum sensing Position": 0.7160533666610718, "Quantum sensing Timing": 0.7096689343452454, "Quantum sensing": 0.7562581896781921, "Quantum control": 0.7402620315551758 } }, { "id": 2667, "title": "High-accuracy positioning: astrometry", "abstract": "The limiting accuracy for measuring the location of an optical image is set by diffraction and photon noise, i.e., by the dual wave-particle nature of light. A theoretical expression for the limiting ...", "citations": 12, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2672, "doi": "10.1007/978-1-4614-7804-1_16", "umap_coordinates": { "x": 394.7862854003906, "y": 134.36776733398438, "z": 205.6794891357422 }, "tsne_coordinates": { "x": -11.160683631896973, "y": 19.562400817871094, "z": 0.8009399175643921 }, "pca_coordinates": { "x": -1.566126823425293, "y": 1.7397874593734741, "z": 1.972353458404541 }, "axis_scores": { "Quantum imaging": 0.7020782232284546, "Quantum Life Science Sensing": 0.7156580090522766, "Quantum sensing Detection": 0.708657443523407, "Quantum sensing Metrology": 0.7418522834777832, "Quantum sensing navigation": 0.7486527562141418, "Quantum sensing Position": 0.7656986117362976, "Quantum sensing Timing": 0.7409563064575195, "Quantum sensing": 0.7248480319976807, "Quantum control": 0.6861793398857117 } }, { "id": 2668, "title": "Prospective Life-Cycle Modeling of Quantum Dot Nanoparticles for Use in Photon Upconversion Devices", "abstract": "Quantum dot nanoparticles (NPs) can be used in several applications, for example, photon upconversion devices that increase the electricity output of solar modules. In order to facilitate life cycle a...", "citations": 7, "author_count": 7, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2673, "doi": "10.1021/acssuschemeng.1c00376", "umap_coordinates": { "x": 392.41766357421875, "y": 134.48081970214844, "z": 205.2390899658203 }, "tsne_coordinates": { "x": 20.942333221435547, "y": 5.199296474456787, "z": 10.355132102966309 }, "pca_coordinates": { "x": -3.7846152782440186, "y": -2.1031689643859863, "z": -0.31155046820640564 }, "axis_scores": { "Quantum imaging": 0.6948071122169495, "Quantum Life Science Sensing": 0.7663605213165283, "Quantum sensing Detection": 0.6838110089302063, "Quantum sensing Metrology": 0.6770208477973938, "Quantum sensing navigation": 0.6844496130943298, "Quantum sensing Position": 0.668574869632721, "Quantum sensing Timing": 0.6644253730773926, "Quantum sensing": 0.6886443495750427, "Quantum control": 0.672309160232544 } }, { "id": 2669, "title": "Balancing Charge Injection via a Tailor-Made Electron-Transporting Material for High Performance Blue Perovskite QLEDs", "abstract": "One of the great challenges in perovskite quantum dot light-emitting diodes (Pe-QLEDs) is the unbalanced charge injection that significantly hinders the device performance and stability. Herein, we ta...", "citations": 66, "author_count": 15, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2674, "doi": "10.1021/acsenergylett.2c02596", "umap_coordinates": { "x": 391.7318115234375, "y": 133.8435516357422, "z": 205.69068908691406 }, "tsne_coordinates": { "x": 12.863495826721191, "y": -0.24851684272289276, "z": -25.621591567993164 }, "pca_coordinates": { "x": -2.2365942001342773, "y": -3.654318332672119, "z": -0.693554162979126 }, "axis_scores": { "Quantum imaging": 0.6666073799133301, "Quantum Life Science Sensing": 0.6784616112709045, "Quantum sensing Detection": 0.6432647705078125, "Quantum sensing Metrology": 0.6531928181648254, "Quantum sensing navigation": 0.6554120182991028, "Quantum sensing Position": 0.6333140134811401, "Quantum sensing Timing": 0.6329134106636047, "Quantum sensing": 0.6650280356407166, "Quantum control": 0.6544861197471619 } }, { "id": 2670, "title": "Colloidal PbS quantum dot stacking kinetics during deposition via printing", "abstract": "Colloidal PbS quantum dots (QDs) are attractive for solution-processed thin-film optoelectronic applications. In particular, directly achieving QD thin-films by printing is a very promising method for...", "citations": 28, "author_count": 13, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2675, "doi": "10.1039/d0nh00008f", "umap_coordinates": { "x": 391.80987548828125, "y": 135.01565551757812, "z": 206.37481689453125 }, "tsne_coordinates": { "x": 13.939202308654785, "y": -0.2675560414791107, "z": -0.21565231680870056 }, "pca_coordinates": { "x": -1.9385900497436523, "y": -3.2554287910461426, "z": -0.6474201679229736 }, "axis_scores": { "Quantum imaging": 0.6785792708396912, "Quantum Life Science Sensing": 0.6868366599082947, "Quantum sensing Detection": 0.6664295792579651, "Quantum sensing Metrology": 0.6510301828384399, "Quantum sensing navigation": 0.6784870028495789, "Quantum sensing Position": 0.6968121528625488, "Quantum sensing Timing": 0.6817241907119751, "Quantum sensing": 0.6669372916221619, "Quantum control": 0.6578527688980103 } }, { "id": 2671, "title": "RETRACTED: Influence of photo-luminescent CdSe/CdS core shell quantum dots in solar cell efficiency (Retracted Article)", "abstract": "We report the synthesis and characterization of CdSe/CdS core-shell quantum dots (CdSe/CdS-QDs) that exhibit absorption in the UV range of the solar spectrum and emit photons with wavelengths centered...", "citations": 1, "author_count": 10, "categories": [ "Energy & Fuels" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2676, "doi": "10.1088/1742-6596/773/1/012088", "umap_coordinates": { "x": 393.3155212402344, "y": 134.2266082763672, "z": 205.66786193847656 }, "tsne_coordinates": { "x": 32.677978515625, "y": -4.3857526779174805, "z": -13.187112808227539 }, "pca_coordinates": { "x": -2.5032033920288086, "y": 0.05673027038574219, "z": -0.4774676561355591 }, "axis_scores": { "Quantum imaging": 0.6265307068824768, "Quantum Life Science Sensing": 0.6599756479263306, "Quantum sensing Detection": 0.6334535479545593, "Quantum sensing Metrology": 0.6174375414848328, "Quantum sensing navigation": 0.6195077300071716, "Quantum sensing Position": 0.6347377300262451, "Quantum sensing Timing": 0.6208229660987854, "Quantum sensing": 0.6366068124771118, "Quantum control": 0.6359869241714478 } }, { "id": 2672, "title": "Progress in opto-electronic devices", "abstract": "We discuss the status of photonics technology and review its possible evolution by way of several representative examples of emerging research areas, which could have a significant impact over a long-...", "citations": 1, "author_count": 8, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2677, "doi": "10.1117/12.525436", "umap_coordinates": { "x": 394.821533203125, "y": 133.5724639892578, "z": 206.2029266357422 }, "tsne_coordinates": { "x": 0.42090919613838196, "y": 7.48643684387207, "z": -31.15644645690918 }, "pca_coordinates": { "x": -0.7636147141456604, "y": -1.1702547073364258, "z": 1.1578729152679443 }, "axis_scores": { "Quantum imaging": 0.7415869235992432, "Quantum Life Science Sensing": 0.7236067056655884, "Quantum sensing Detection": 0.7288409471511841, "Quantum sensing Metrology": 0.7338607311248779, "Quantum sensing navigation": 0.7356159687042236, "Quantum sensing Position": 0.732659101486206, "Quantum sensing Timing": 0.7029891014099121, "Quantum sensing": 0.746250331401825, "Quantum control": 0.7221739292144775 } }, { "id": 2673, "title": "Simulating the Energy Capture Process in Push-Pull Norbornadiene-Quadricyclane Photoswitches", "abstract": "Molecular switches based on the norbornadiene-quadricyclane (NBD-QC) isomer pair are among the most promising candidates for applications in molecular solar thermal energy storage (MOST). In these com...", "citations": 1, "author_count": 3, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2678, "doi": "10.1021/acs.jpclett.5c00634", "umap_coordinates": { "x": 392.4640197753906, "y": 136.27003479003906, "z": 205.9156036376953 }, "tsne_coordinates": { "x": 4.559782028198242, "y": -1.8842835426330566, "z": -3.558978319168091 }, "pca_coordinates": { "x": -0.22666287422180176, "y": -0.7786040306091309, "z": -1.085479736328125 }, "axis_scores": { "Quantum imaging": 0.7396626472473145, "Quantum Life Science Sensing": 0.7444957494735718, "Quantum sensing Detection": 0.73039311170578, "Quantum sensing Metrology": 0.7062193155288696, "Quantum sensing navigation": 0.7115004658699036, "Quantum sensing Position": 0.7028536796569824, "Quantum sensing Timing": 0.7196590900421143, "Quantum sensing": 0.7431837916374207, "Quantum control": 0.7418372631072998 } }, { "id": 2674, "title": "CdS/ZnS core-shell nanocrystal photosensitizers for visible to UV upconversion", "abstract": "Herein we report the first example of nanocrystal (NC) sensitized triplet-triplet annihilation based photon upconversion from the visible to ultraviolet (vis-to-UV). Many photocatalyzed reactions, suc...", "citations": 136, "author_count": 11, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2679, "doi": "10.1039/c7sc01610g", "umap_coordinates": { "x": 391.9659423828125, "y": 134.48277282714844, "z": 205.84593200683594 }, "tsne_coordinates": { "x": 16.00627899169922, "y": -0.23504334688186646, "z": -8.886526107788086 }, "pca_coordinates": { "x": -3.0121870040893555, "y": -3.1431660652160645, "z": -0.8167865872383118 }, "axis_scores": { "Quantum imaging": 0.6804394721984863, "Quantum Life Science Sensing": 0.7335950136184692, "Quantum sensing Detection": 0.6945925951004028, "Quantum sensing Metrology": 0.67667156457901, "Quantum sensing navigation": 0.6876441836357117, "Quantum sensing Position": 0.654703676700592, "Quantum sensing Timing": 0.6553705930709839, "Quantum sensing": 0.6992676258087158, "Quantum control": 0.6788575053215027 } }, { "id": 2675, "title": "YBCOSQUIDs with unconventional current phase relation", "abstract": "We have studied the dynamics of YBa2Cu3O7-delta,5 (YBCO) dc sperconducting quantum interference devices (SQUIDs) characterized by an unconventional Josephson current phase relation (CPR). We have focu...", "citations": 4, "author_count": 6, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2680, "doi": "10.1016/j.physc.2007.03.475", "umap_coordinates": { "x": 393.6394348144531, "y": 136.11167907714844, "z": 208.07237243652344 }, "tsne_coordinates": { "x": -1.7380348443984985, "y": -20.666244506835938, "z": 18.14438819885254 }, "pca_coordinates": { "x": 2.2377517223358154, "y": 0.44357597827911377, "z": -1.113008737564087 }, "axis_scores": { "Quantum imaging": 0.7426992058753967, "Quantum Life Science Sensing": 0.7406643629074097, "Quantum sensing Detection": 0.7302684187889099, "Quantum sensing Metrology": 0.7228361964225769, "Quantum sensing navigation": 0.7564830780029297, "Quantum sensing Position": 0.7210468649864197, "Quantum sensing Timing": 0.7022125720977783, "Quantum sensing": 0.7391521334648132, "Quantum control": 0.7434360980987549 } }, { "id": 2676, "title": "Development of smart food packaging from bread waste-derived starch and carbon quantum dots", "abstract": "This study explores an innovative approach to transforming leftover bread, a major source of food waste, into eco-friendly packaging materials. Using the ultrasound-assisted hydrothermal method and a ...", "citations": 4, "author_count": 5, "categories": [ "Agriculture" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2681, "doi": "10.1016/j.indcrop.2025.121426", "umap_coordinates": { "x": 393.0836181640625, "y": 133.87661743164062, "z": 204.29833984375 }, "tsne_coordinates": { "x": 19.988319396972656, "y": 18.617788314819336, "z": -2.102973222732544 }, "pca_coordinates": { "x": -4.048118591308594, "y": -0.37385988235473633, "z": -0.2729818820953369 }, "axis_scores": { "Quantum imaging": 0.7093591690063477, "Quantum Life Science Sensing": 0.7353602647781372, "Quantum sensing Detection": 0.702156126499176, "Quantum sensing Metrology": 0.6900187134742737, "Quantum sensing navigation": 0.6955631375312805, "Quantum sensing Position": 0.6808769106864929, "Quantum sensing Timing": 0.659413754940033, "Quantum sensing": 0.7175977230072021, "Quantum control": 0.7040292620658875 } }, { "id": 2677, "title": "Challenges of pixelated scintillators in medical X-ray imaging", "abstract": "In current X-ray detectors, spatial resolution is limited by optical photon diffusion in the scintillator layer. A method to prevent photons from reaching neighboring pixels is the embedding of opaque...", "citations": 15, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2682, "doi": "10.1016/j.nima.2008.03.077", "umap_coordinates": { "x": 394.9005126953125, "y": 132.72879028320312, "z": 205.1483612060547 }, "tsne_coordinates": { "x": -11.938154220581055, "y": 13.292176246643066, "z": -11.817192077636719 }, "pca_coordinates": { "x": -4.507894992828369, "y": 1.7553048133850098, "z": 2.102917432785034 }, "axis_scores": { "Quantum imaging": 0.7704643607139587, "Quantum Life Science Sensing": 0.7295145392417908, "Quantum sensing Detection": 0.7212139964103699, "Quantum sensing Metrology": 0.7256893515586853, "Quantum sensing navigation": 0.7177284955978394, "Quantum sensing Position": 0.7263315320014954, "Quantum sensing Timing": 0.7033755779266357, "Quantum sensing": 0.7275430560112, "Quantum control": 0.6612817049026489 } }, { "id": 2678, "title": "TL-201 IMAGING - COMPARISON OF SINGLE PHOTON-EMISSION COMPUTED-TOMOGRAPHY AND PLANAR IMAGING EMPLOYING A STANDARD HEART PHANTOM", "abstract": "", "citations": 4, "author_count": 5, "categories": [ "Cardiovascular System & Cardiology" ], "year": 1980, "topic": [ "all" ], "embedding_index": 2683, "doi": "10.1016/0002-9149(80)90963-7", "umap_coordinates": { "x": 395.2184753417969, "y": 133.1503143310547, "z": 205.31874084472656 }, "tsne_coordinates": { "x": -8.995957374572754, "y": 23.052066802978516, "z": -9.286312103271484 }, "pca_coordinates": { "x": -3.169649600982666, "y": 1.7728474140167236, "z": 3.4962377548217773 }, "axis_scores": { "Quantum imaging": 0.6969900131225586, "Quantum Life Science Sensing": 0.6965954899787903, "Quantum sensing Detection": 0.6625136137008667, "Quantum sensing Metrology": 0.6659834980964661, "Quantum sensing navigation": 0.6582300066947937, "Quantum sensing Position": 0.6622138619422913, "Quantum sensing Timing": 0.6740909814834595, "Quantum sensing": 0.675747275352478, "Quantum control": 0.6187481880187988 } }, { "id": 2679, "title": "Hydrogenic donor in a CdSe/CdS quantum dot: Effect of electric field strength, nanodot shape and dielectric environment on the energy spectrum", "abstract": "The impact of an external electric field on the binding energy of a single donor impurity was examined within the effective-mass approach by deploying a variational calculation. The discontinuity of t...", "citations": 12, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2684, "doi": "10.1016/j.physe.2018.07.010", "umap_coordinates": { "x": 392.8045959472656, "y": 133.90919494628906, "z": 205.90884399414062 }, "tsne_coordinates": { "x": 28.52435302734375, "y": 4.6222920417785645, "z": 8.852690696716309 }, "pca_coordinates": { "x": -0.9238343238830566, "y": -2.3295235633850098, "z": -1.6417236328125 }, "axis_scores": { "Quantum imaging": 0.7359934449195862, "Quantum Life Science Sensing": 0.7610145807266235, "Quantum sensing Detection": 0.7272172570228577, "Quantum sensing Metrology": 0.693276047706604, "Quantum sensing navigation": 0.7060920000076294, "Quantum sensing Position": 0.7157340049743652, "Quantum sensing Timing": 0.6922728419303894, "Quantum sensing": 0.7374997735023499, "Quantum control": 0.7029061913490295 } }, { "id": 2680, "title": "One-step solvothermal synthesis of high-emissive amphiphilic carbon dots via rigidity derivation", "abstract": "In nanoscience, amphiphilic carbon dots (ACDs) are of great importance due to their excellent transferability for application in biological sensing, imaging and labelling. However, facile synthetic st...", "citations": 90, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2685, "doi": "10.1039/c7sc04607c", "umap_coordinates": { "x": 391.8303527832031, "y": 135.33163452148438, "z": 204.83782958984375 }, "tsne_coordinates": { "x": 1.411407709121704, "y": 8.4763822555542, "z": -11.272767066955566 }, "pca_coordinates": { "x": -2.937135696411133, "y": -0.8940951824188232, "z": -2.01507306098938 }, "axis_scores": { "Quantum imaging": 0.6560806632041931, "Quantum Life Science Sensing": 0.685499906539917, "Quantum sensing Detection": 0.6455953121185303, "Quantum sensing Metrology": 0.6518163681030273, "Quantum sensing navigation": 0.6307021975517273, "Quantum sensing Position": 0.6363669633865356, "Quantum sensing Timing": 0.625464677810669, "Quantum sensing": 0.6570813655853271, "Quantum control": 0.616478443145752 } }, { "id": 2681, "title": "Stable and tunable charge carrier control of graphene for quantum resistance metrology", "abstract": "Here we demonstrate a stable and tunable method to alter the carrier concentration of epitaxial graphene grown on silicon carbide. This technique relies on chemical doping by an acceptor molecule. Thr...", "citations": 4, "author_count": 9, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2686, "doi": null, "umap_coordinates": { "x": 392.0509948730469, "y": 139.5463104248047, "z": 209.40325927734375 }, "tsne_coordinates": { "x": -4.548483371734619, "y": 46.62361145019531, "z": -4.705780982971191 }, "pca_coordinates": { "x": -1.0577865839004517, "y": 1.7940597534179688, "z": -2.6636195182800293 }, "axis_scores": { "Quantum imaging": 0.6941555142402649, "Quantum Life Science Sensing": 0.744542121887207, "Quantum sensing Detection": 0.7214156985282898, "Quantum sensing Metrology": 0.7268615365028381, "Quantum sensing navigation": 0.7281214594841003, "Quantum sensing Position": 0.7098208069801331, "Quantum sensing Timing": 0.6863539218902588, "Quantum sensing": 0.7315571308135986, "Quantum control": 0.7584525942802429 } }, { "id": 2682, "title": "Tuning tool for image quality optimization of a hybrid semiconductor pixel detector", "abstract": "Linear systems theory is used for the numerical assessment of the detective quantum efficiency (DQE) of the hybrid semiconductor pixel detector DIXI. The Monte Carlo based code GEANT is used to simula...", "citations": 2, "author_count": 8, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2687, "doi": "10.1109/TNS.2004.824822", "umap_coordinates": { "x": 394.78533935546875, "y": 132.70750427246094, "z": 205.9469757080078 }, "tsne_coordinates": { "x": -18.191396713256836, "y": 19.13235855102539, "z": -18.731184005737305 }, "pca_coordinates": { "x": -2.8968441486358643, "y": -0.8008191585540771, "z": 3.5890655517578125 }, "axis_scores": { "Quantum imaging": 0.7584317922592163, "Quantum Life Science Sensing": 0.7362629175186157, "Quantum sensing Detection": 0.7527808547019958, "Quantum sensing Metrology": 0.7544729709625244, "Quantum sensing navigation": 0.7394654154777527, "Quantum sensing Position": 0.7211241722106934, "Quantum sensing Timing": 0.744315505027771, "Quantum sensing": 0.7623506188392639, "Quantum control": 0.7092573046684265 } }, { "id": 2683, "title": "Stable CsPb1-xZnxI3 Colloidal Quantum Dots with Ultralow Density of Trap States for High-Performance Solar Cells", "abstract": "All inorganic halide perovskites in the form of colloidal quantum dots (QDs) have come into people's view as one of the potential materials for the high-efficiency solar cells; nevertheless, the high ...", "citations": 123, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2688, "doi": "10.1021/acs.chemmater.0c01750", "umap_coordinates": { "x": 391.63946533203125, "y": 133.74472045898438, "z": 205.2279052734375 }, "tsne_coordinates": { "x": 19.396617889404297, "y": 2.8225882053375244, "z": -19.057289123535156 }, "pca_coordinates": { "x": -1.2319873571395874, "y": -4.1375651359558105, "z": -1.7176053524017334 }, "axis_scores": { "Quantum imaging": 0.6862642765045166, "Quantum Life Science Sensing": 0.7061269283294678, "Quantum sensing Detection": 0.6900352239608765, "Quantum sensing Metrology": 0.6770777106285095, "Quantum sensing navigation": 0.6858809590339661, "Quantum sensing Position": 0.6796849370002747, "Quantum sensing Timing": 0.6712177395820618, "Quantum sensing": 0.701156735420227, "Quantum control": 0.6897814869880676 } }, { "id": 2684, "title": "Acridine-Substituted-Centronucleus Nonfullerene Acceptors Enables Organic Solar Cells with Over 20% Efficiency with Low Nonradiative Recombination Loss", "abstract": "In this work, we propose a novel strategy of introducing luminescent acridine units for central nuclear substitution in quinoxaline-based acceptor molecules (named AQx-o-Ac and AQx-m-Ac) to enhance th...", "citations": 9, "author_count": 19, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2689, "doi": "10.1002/anie.202500129", "umap_coordinates": { "x": 392.1298522949219, "y": 133.7918701171875, "z": 205.11119079589844 }, "tsne_coordinates": { "x": 27.058738708496094, "y": 8.224288940429688, "z": -21.69583511352539 }, "pca_coordinates": { "x": -2.5238990783691406, "y": -1.2902846336364746, "z": -0.7548421621322632 }, "axis_scores": { "Quantum imaging": 0.7044739723205566, "Quantum Life Science Sensing": 0.705296516418457, "Quantum sensing Detection": 0.6901013255119324, "Quantum sensing Metrology": 0.6832253932952881, "Quantum sensing navigation": 0.6872449517250061, "Quantum sensing Position": 0.6605329513549805, "Quantum sensing Timing": 0.6675576567649841, "Quantum sensing": 0.7057114839553833, "Quantum control": 0.6961930990219116 } }, { "id": 2685, "title": "Quantum limits on phase-shift detection using multimode interferometers -: art. no. 053803", "abstract": "Fundamental phase-shift detection properties of optical multimode interferometers are analyzed. Limits on perfectly distinguishable phase shifts are derived for general quantum states of a given avera...", "citations": 15, "author_count": 5, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2690, "doi": "10.1103/PhysRevA.67.053803", "umap_coordinates": { "x": 395.6350402832031, "y": 136.300537109375, "z": 207.2201690673828 }, "tsne_coordinates": { "x": -15.234621047973633, "y": -12.749916076660156, "z": -12.841057777404785 }, "pca_coordinates": { "x": 3.8188557624816895, "y": 1.7140073776245117, "z": 2.5348846912384033 }, "axis_scores": { "Quantum imaging": 0.7432705163955688, "Quantum Life Science Sensing": 0.7549937963485718, "Quantum sensing Detection": 0.7634336352348328, "Quantum sensing Metrology": 0.7716564536094666, "Quantum sensing navigation": 0.7517645955085754, "Quantum sensing Position": 0.7502630949020386, "Quantum sensing Timing": 0.7268825769424438, "Quantum sensing": 0.756462574005127, "Quantum control": 0.714760422706604 } }, { "id": 2686, "title": "Travelling to exotic places with cavity QED systems", "abstract": "Recent theoretical schemes for utilizing cavity QED models as quantum simulators are reviewed. By considering a quadrature representation for the fields, it is shown how Jahn-Teller models, effective ...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2691, "doi": "10.1088/0031-8949/2010/T140/014025", "umap_coordinates": { "x": 395.4671630859375, "y": 136.44102478027344, "z": 206.90809631347656 }, "tsne_coordinates": { "x": -34.479591369628906, "y": 3.54761004447937, "z": 2.768667459487915 }, "pca_coordinates": { "x": 1.1734755039215088, "y": 4.035583972930908, "z": 0.655500590801239 }, "axis_scores": { "Quantum imaging": 0.7194160223007202, "Quantum Life Science Sensing": 0.7019690871238708, "Quantum sensing Detection": 0.708324134349823, "Quantum sensing Metrology": 0.7004772424697876, "Quantum sensing navigation": 0.7385801076889038, "Quantum sensing Position": 0.6963084936141968, "Quantum sensing Timing": 0.6954972743988037, "Quantum sensing": 0.7155699729919434, "Quantum control": 0.697359561920166 } }, { "id": 2687, "title": "Dynamics of two-photon absorption by molecules and solutions", "abstract": "A dynamic density-matrix based theory of two-photon absorption (TPA) of molecules and solutions is presented. The theory highlights the influence of pulse duration, dephasing, and resonant conditions ...", "citations": 84, "author_count": 6, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2692, "doi": "10.1364/JOSAB.19.000937", "umap_coordinates": { "x": 393.2221984863281, "y": 135.82977294921875, "z": 206.353759765625 }, "tsne_coordinates": { "x": -2.0423450469970703, "y": -2.436143159866333, "z": 9.453124046325684 }, "pca_coordinates": { "x": 0.6295534372329712, "y": -0.257659912109375, "z": -1.7698254585266113 }, "axis_scores": { "Quantum imaging": 0.7488006949424744, "Quantum Life Science Sensing": 0.7523962259292603, "Quantum sensing Detection": 0.7313878536224365, "Quantum sensing Metrology": 0.7084674835205078, "Quantum sensing navigation": 0.7250567078590393, "Quantum sensing Position": 0.6931865811347961, "Quantum sensing Timing": 0.7116602659225464, "Quantum sensing": 0.7393481135368347, "Quantum control": 0.7193799018859863 } }, { "id": 2688, "title": "Four remarks on spin coherent states", "abstract": "We discuss how to recognize the constellations seen in the Majorana representation of quantum states. Then we give explicit formulae for the metric and symplectic form on SU (2) orbits containing gene...", "citations": 7, "author_count": 3, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2693, "doi": null, "umap_coordinates": { "x": 391.9058837890625, "y": 139.42974853515625, "z": 208.86447143554688 }, "tsne_coordinates": { "x": -13.875154495239258, "y": 37.46554183959961, "z": 1.334255576133728 }, "pca_coordinates": { "x": 2.079397678375244, "y": 3.3549959659576416, "z": -2.7218680381774902 }, "axis_scores": { "Quantum imaging": 0.6972477436065674, "Quantum Life Science Sensing": 0.6823442578315735, "Quantum sensing Detection": 0.679874837398529, "Quantum sensing Metrology": 0.6597821712493896, "Quantum sensing navigation": 0.7002358436584473, "Quantum sensing Position": 0.6852439045906067, "Quantum sensing Timing": 0.6781335473060608, "Quantum sensing": 0.6893941760063171, "Quantum control": 0.7079325318336487 } }, { "id": 2689, "title": "Dislocation-induced composition profile in alloy semiconductors", "abstract": "We present a novel computational method by combining the finite element method and the method of moving asymptotes to study the dislocation-induced composition profile in alloy semiconductors. Segrega...", "citations": 5, "author_count": 8, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2694, "doi": "10.1016/j.ssc.2010.05.023", "umap_coordinates": { "x": 392.2865905761719, "y": 133.9978790283203, "z": 206.86477661132812 }, "tsne_coordinates": { "x": 34.31223678588867, "y": -14.410924911499023, "z": 7.910017490386963 }, "pca_coordinates": { "x": -1.4022032022476196, "y": -3.0368762016296387, "z": -0.8379072546958923 }, "axis_scores": { "Quantum imaging": 0.6519346237182617, "Quantum Life Science Sensing": 0.6503053903579712, "Quantum sensing Detection": 0.6382594108581543, "Quantum sensing Metrology": 0.6269063949584961, "Quantum sensing navigation": 0.6674181818962097, "Quantum sensing Position": 0.6601372957229614, "Quantum sensing Timing": 0.6384835243225098, "Quantum sensing": 0.6404880881309509, "Quantum control": 0.6237975358963013 } }, { "id": 2690, "title": "Electromagnetic corrections in partially quenched chiral perturbation theory", "abstract": "We introduce photons in partially quenched chiral perturbation theory and calculate the resulting electromagnetic loop-corrections at next-to-leading-order (NLO) for the charged meson masses and decay...", "citations": 21, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2695, "doi": "10.1103/PhysRevD.75.014505", "umap_coordinates": { "x": 393.85888671875, "y": 135.99436950683594, "z": 209.06280517578125 }, "tsne_coordinates": { "x": 7.269670486450195, "y": -25.464982986450195, "z": 12.316399574279785 }, "pca_coordinates": { "x": 4.430296421051025, "y": 0.7484719753265381, "z": -0.4769079387187958 }, "axis_scores": { "Quantum imaging": 0.6767394542694092, "Quantum Life Science Sensing": 0.6542562246322632, "Quantum sensing Detection": 0.6621484160423279, "Quantum sensing Metrology": 0.6760244369506836, "Quantum sensing navigation": 0.6894044876098633, "Quantum sensing Position": 0.6610382795333862, "Quantum sensing Timing": 0.6686820983886719, "Quantum sensing": 0.6803086996078491, "Quantum control": 0.6614348888397217 } }, { "id": 2691, "title": "Experimental implementation of the Deutsch-Jozsa algorithm for three-qubit functions using pure coherent molecular superpositions - art. no. 062316", "abstract": "The Deutsch-Jozsa algorithm is experimentally demonstrated for three-qubit functions using pure coherent superpositions of Li-2 rovibrational eigenstates. The function's character, either constant or ...", "citations": 91, "author_count": 6, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2696, "doi": "10.1103/PhysRevA.66.062316", "umap_coordinates": { "x": 395.6472473144531, "y": 136.63815307617188, "z": 207.77908325195312 }, "tsne_coordinates": { "x": -22.728878021240234, "y": -11.069652557373047, "z": -0.8910757303237915 }, "pca_coordinates": { "x": 3.9006266593933105, "y": 0.9858229160308838, "z": 1.5849683284759521 }, "axis_scores": { "Quantum imaging": 0.7304776906967163, "Quantum Life Science Sensing": 0.7364727854728699, "Quantum sensing Detection": 0.7290228605270386, "Quantum sensing Metrology": 0.7309206128120422, "Quantum sensing navigation": 0.7416733503341675, "Quantum sensing Position": 0.7174786329269409, "Quantum sensing Timing": 0.7110093832015991, "Quantum sensing": 0.7395133376121521, "Quantum control": 0.7070272564888 } }, { "id": 2692, "title": "Investigation of InGaN/GaN quantum well structures by photoluminescence and photoluminescence excitation spectroscopy", "abstract": "In this work we have performed photoluminescence and photoluminescence excitation spectroscopy to characterize some different In0.15Ga0.85N/GaN quantum well, structures. Parameters such as doping conc...", "citations": 1, "author_count": 7, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2697, "doi": "10.1238/Physica.Topical.079a00060", "umap_coordinates": { "x": 393.24029541015625, "y": 134.40797424316406, "z": 207.23780822753906 }, "tsne_coordinates": { "x": 6.345332145690918, "y": -3.159879684448242, "z": 26.777856826782227 }, "pca_coordinates": { "x": -0.1626574993133545, "y": -2.0233664512634277, "z": 1.5734617710113525 }, "axis_scores": { "Quantum imaging": 0.7185416221618652, "Quantum Life Science Sensing": 0.7253541946411133, "Quantum sensing Detection": 0.6915119290351868, "Quantum sensing Metrology": 0.6894246339797974, "Quantum sensing navigation": 0.6984319686889648, "Quantum sensing Position": 0.6751312613487244, "Quantum sensing Timing": 0.6457163691520691, "Quantum sensing": 0.702357828617096, "Quantum control": 0.6712055206298828 } }, { "id": 2693, "title": "Non-Markovian Steady States of a Driven Two-Level System", "abstract": "We show that an open quantum system in a non-Markovian environment can reach steady states that it cannot reach in a Markovian environment. As these steady states are unique for the non-Markovian regi...", "citations": 26, "author_count": 3, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2698, "doi": "10.1103/PhysRevLett.128.083603", "umap_coordinates": { "x": 394.7484436035156, "y": 136.55401611328125, "z": 207.6848602294922 }, "tsne_coordinates": { "x": -13.530710220336914, "y": -16.423404693603516, "z": 15.87065315246582 }, "pca_coordinates": { "x": 4.062515735626221, "y": 1.0426523685455322, "z": -1.348585605621338 }, "axis_scores": { "Quantum imaging": 0.7159633636474609, "Quantum Life Science Sensing": 0.728987991809845, "Quantum sensing Detection": 0.7265322208404541, "Quantum sensing Metrology": 0.7019748687744141, "Quantum sensing navigation": 0.7128859758377075, "Quantum sensing Position": 0.6705816388130188, "Quantum sensing Timing": 0.6972090005874634, "Quantum sensing": 0.7265070080757141, "Quantum control": 0.7318574786186218 } }, { "id": 2694, "title": "MULTIPLE QUANTUM NMR-SPECTROSCOPY ON I GREATER-THAN 1 NUCLEI IN ANISOTROPIC SYSTEMS", "abstract": "The response of half-integral spin I > 1 nuclei in anisotropic systems to pulse sequences exciting multiple quantum (MQ) coherences is investigated theoretically. Using the state multipole formalism, ...", "citations": 17, "author_count": 3, "categories": [ "Chemistry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 2699, "doi": "10.1080/00268979200101961", "umap_coordinates": { "x": 392.6131286621094, "y": 136.94473266601562, "z": 207.04559326171875 }, "tsne_coordinates": { "x": 18.857254028320312, "y": -1.4147145748138428, "z": 29.843900680541992 }, "pca_coordinates": { "x": 0.42857158184051514, "y": 1.785430669784546, "z": -0.4372113347053528 }, "axis_scores": { "Quantum imaging": 0.7340571880340576, "Quantum Life Science Sensing": 0.69464111328125, "Quantum sensing Detection": 0.6773357391357422, "Quantum sensing Metrology": 0.6867830157279968, "Quantum sensing navigation": 0.6952417492866516, "Quantum sensing Position": 0.6773610711097717, "Quantum sensing Timing": 0.674022912979126, "Quantum sensing": 0.7040603756904602, "Quantum control": 0.6721001863479614 } }, { "id": 2695, "title": "Atom Assisted Photochemistry in Optical Cavities", "abstract": "Strong light-matter coupling can modify the photochemistry of molecular systems. The collective dynamics of an ensemble of molecules coupled to the light field plays a crucial role in experimental obs...", "citations": 30, "author_count": 3, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2700, "doi": "10.1021/acs.jpca.0c03867", "umap_coordinates": { "x": 392.521728515625, "y": 135.75259399414062, "z": 206.10137939453125 }, "tsne_coordinates": { "x": 2.517200231552124, "y": 4.782770156860352, "z": 4.340462684631348 }, "pca_coordinates": { "x": -0.6065916419029236, "y": -1.858872413635254, "z": -0.8925867080688477 }, "axis_scores": { "Quantum imaging": 0.7520487308502197, "Quantum Life Science Sensing": 0.7396439909934998, "Quantum sensing Detection": 0.7387426495552063, "Quantum sensing Metrology": 0.711179792881012, "Quantum sensing navigation": 0.7195962071418762, "Quantum sensing Position": 0.684863805770874, "Quantum sensing Timing": 0.6921960711479187, "Quantum sensing": 0.7471698522567749, "Quantum control": 0.7359625697135925 } }, { "id": 2696, "title": "Vortices in small Bose or Fermi systems with repulsive interactions", "abstract": "For rotating Bose-Einstein condensates, the occurrence of vortices has been much discussed in the Gross-Pitaevskii approach. Here, we study vortex formation in finite systems with few particles for we...", "citations": 1, "author_count": 7, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2701, "doi": "10.1007/s00601-008-0226-6", "umap_coordinates": { "x": 393.9539794921875, "y": 136.79660034179688, "z": 208.4050750732422 }, "tsne_coordinates": { "x": -13.431714057922363, "y": -21.135887145996094, "z": 23.63311195373535 }, "pca_coordinates": { "x": 1.343418836593628, "y": 0.21932005882263184, "z": -0.9345716238021851 }, "axis_scores": { "Quantum imaging": 0.6422356963157654, "Quantum Life Science Sensing": 0.6396080255508423, "Quantum sensing Detection": 0.6362518668174744, "Quantum sensing Metrology": 0.6198188066482544, "Quantum sensing navigation": 0.6558049917221069, "Quantum sensing Position": 0.640423595905304, "Quantum sensing Timing": 0.629610538482666, "Quantum sensing": 0.6361503601074219, "Quantum control": 0.6394015550613403 } }, { "id": 2697, "title": "Before Forster. Initial excitation in photosynthetic light harvesting", "abstract": "Electronic 2D spectroscopy allows nontrivial quantum effects to be explored in unprecedented detail. Here, we apply recently developed fluorescence detected coherent 2D spectroscopy to study the light...", "citations": 54, "author_count": 9, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2702, "doi": "10.1039/c9sc01888c", "umap_coordinates": { "x": 393.0957336425781, "y": 136.73934936523438, "z": 204.27749633789062 }, "tsne_coordinates": { "x": 14.4660005569458, "y": 38.30891036987305, "z": -10.049788475036621 }, "pca_coordinates": { "x": -2.1281051635742188, "y": 0.6407566070556641, "z": -2.348165512084961 }, "axis_scores": { "Quantum imaging": 0.5742763876914978, "Quantum Life Science Sensing": 0.6262544989585876, "Quantum sensing Detection": 0.5801112651824951, "Quantum sensing Metrology": 0.5690485239028931, "Quantum sensing navigation": 0.5598865747451782, "Quantum sensing Position": 0.5720790028572083, "Quantum sensing Timing": 0.5859450101852417, "Quantum sensing": 0.5869578719139099, "Quantum control": 0.5612695813179016 } }, { "id": 2698, "title": "Room-temperature polarized spin-photon interface based on a semiconductor nanodisk-in-nanopillar structure driven by few defects", "abstract": "Owing to their superior optical properties, semiconductor nanopillars/nanowires in one-dimensional (1D) geometry are building blocks for nano-photonics. They also hold potential for efficient polarize...", "citations": 21, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2703, "doi": "10.1038/s41467-018-06035-1", "umap_coordinates": { "x": 393.2438049316406, "y": 134.6945343017578, "z": 206.95448303222656 }, "tsne_coordinates": { "x": 11.201321601867676, "y": -10.728751182556152, "z": 3.9943630695343018 }, "pca_coordinates": { "x": -0.037146925926208496, "y": -3.5756897926330566, "z": 1.5877413749694824 }, "axis_scores": { "Quantum imaging": 0.7118180394172668, "Quantum Life Science Sensing": 0.7308215498924255, "Quantum sensing Detection": 0.7194576263427734, "Quantum sensing Metrology": 0.7066879868507385, "Quantum sensing navigation": 0.7146320343017578, "Quantum sensing Position": 0.7022539973258972, "Quantum sensing Timing": 0.6826661229133606, "Quantum sensing": 0.7281047105789185, "Quantum control": 0.6766953468322754 } }, { "id": 2699, "title": "Temporal array with superconducting nanowire single-photon detectors for photon-number resolution", "abstract": "We present an experimental realization of a 16 element, temporal-array, photon-number-resolving (PNR) detector, which is a multiplexed single-photon detector that splits an input signal over multiple ...", "citations": 8, "author_count": 6, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2704, "doi": "10.1103/PhysRevA.102.052616", "umap_coordinates": { "x": 395.05889892578125, "y": 133.28363037109375, "z": 207.25363159179688 }, "tsne_coordinates": { "x": -16.349590301513672, "y": 3.570352077484131, "z": -30.105466842651367 }, "pca_coordinates": { "x": 1.4480688571929932, "y": -3.5813851356506348, "z": 5.606706142425537 }, "axis_scores": { "Quantum imaging": 0.7063530087471008, "Quantum Life Science Sensing": 0.7125858068466187, "Quantum sensing Detection": 0.7344669699668884, "Quantum sensing Metrology": 0.7217142581939697, "Quantum sensing navigation": 0.7291848063468933, "Quantum sensing Position": 0.7162715196609497, "Quantum sensing Timing": 0.7499057054519653, "Quantum sensing": 0.7295700311660767, "Quantum control": 0.6641616821289062 } }, { "id": 2700, "title": "Composition of quantum ratchets with chaotic dots", "abstract": "We present a proposal for a new type of quantum ratchets in application of weak-localization (WL) effect in mesoscopic chaotic dots. Coherent electrons transport through the dots under an applied ac v...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2705, "doi": "10.1143/JJAP.40.4269", "umap_coordinates": { "x": 393.86248779296875, "y": 135.32994079589844, "z": 207.09117126464844 }, "tsne_coordinates": { "x": -29.7763729095459, "y": 13.613636016845703, "z": 6.982866287231445 }, "pca_coordinates": { "x": 1.2276458740234375, "y": -0.4467008113861084, "z": -0.6034197807312012 }, "axis_scores": { "Quantum imaging": 0.7368807792663574, "Quantum Life Science Sensing": 0.732628345489502, "Quantum sensing Detection": 0.7286301851272583, "Quantum sensing Metrology": 0.7322448492050171, "Quantum sensing navigation": 0.7369996905326843, "Quantum sensing Position": 0.7208914160728455, "Quantum sensing Timing": 0.7380385398864746, "Quantum sensing": 0.7490170001983643, "Quantum control": 0.7627580165863037 } }, { "id": 2701, "title": "Nonsymmetric conduction induced by the shape of electron billiards", "abstract": "We find that the longitudinal resistance of triangular electron billiards, which have no symmetry axis perpendicular to the direction of the current, is in the nonlinear regime not symmetric on curren...", "citations": 2, "author_count": 6, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2706, "doi": "10.1088/0268-1242/13/8A/010", "umap_coordinates": { "x": 393.66339111328125, "y": 135.32997131347656, "z": 207.05752563476562 }, "tsne_coordinates": { "x": 29.469688415527344, "y": -24.20616912841797, "z": 17.57193374633789 }, "pca_coordinates": { "x": 0.07328295707702637, "y": -0.03823971748352051, "z": -0.385973185300827 }, "axis_scores": { "Quantum imaging": 0.6784653067588806, "Quantum Life Science Sensing": 0.6732500791549683, "Quantum sensing Detection": 0.6554903388023376, "Quantum sensing Metrology": 0.6517171263694763, "Quantum sensing navigation": 0.6730071306228638, "Quantum sensing Position": 0.6525708436965942, "Quantum sensing Timing": 0.6547107100486755, "Quantum sensing": 0.6751842498779297, "Quantum control": 0.6667321920394897 } }, { "id": 2702, "title": "Partons as unique ground states of quantum Hall parent Hamiltonians: The case of Fibonacci anyons", "abstract": "We present microscopic, multiple Landau level, (frustration-free and positive semi definite) parent Hamiltonians whose ground states, realizing different quantum Hall fluids, are parton-like and whose...", "citations": 4, "author_count": 6, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2707, "doi": "10.21468/SciPostPhys.15.2.043", "umap_coordinates": { "x": 394.54852294921875, "y": 137.32806396484375, "z": 206.43661499023438 }, "tsne_coordinates": { "x": -27.867454528808594, "y": -15.930469512939453, "z": 15.778209686279297 }, "pca_coordinates": { "x": 1.8590617179870605, "y": 2.260610342025757, "z": -2.0939724445343018 }, "axis_scores": { "Quantum imaging": 0.7176150679588318, "Quantum Life Science Sensing": 0.7404711842536926, "Quantum sensing Detection": 0.717073917388916, "Quantum sensing Metrology": 0.7052221298217773, "Quantum sensing navigation": 0.7274670004844666, "Quantum sensing Position": 0.7057390213012695, "Quantum sensing Timing": 0.7054612040519714, "Quantum sensing": 0.7307798862457275, "Quantum control": 0.7255295515060425 } }, { "id": 2703, "title": "Quantum-fluctuation asymmetry in multiphoton Jaynes-Cummings resonances", "abstract": "We explore the statistical behavior of the light emanating from a coherently driven Jaynes-Cummings (JC) oscillator operating in the regime of multiphoton blockade with two monitored output channels c...", "citations": 2, "author_count": 2, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2708, "doi": "10.1364/JOSAB.523720", "umap_coordinates": { "x": 393.8111267089844, "y": 135.3351593017578, "z": 207.67361450195312 }, "tsne_coordinates": { "x": -9.987846374511719, "y": -25.462753295898438, "z": -18.249650955200195 }, "pca_coordinates": { "x": 2.115321397781372, "y": -0.1236720085144043, "z": 0.10585695505142212 }, "axis_scores": { "Quantum imaging": 0.7286601662635803, "Quantum Life Science Sensing": 0.7074710130691528, "Quantum sensing Detection": 0.7205195426940918, "Quantum sensing Metrology": 0.7240010499954224, "Quantum sensing navigation": 0.7229540348052979, "Quantum sensing Position": 0.6973498463630676, "Quantum sensing Timing": 0.7172814607620239, "Quantum sensing": 0.7385727167129517, "Quantum control": 0.7154488563537598 } }, { "id": 2704, "title": "Two-photon absorption in halide perovskites and their applications", "abstract": "Active research on halide perovskites has given us a deep understanding of this family of materials and their potential for applications in advanced optoelectronic devices. One of the prominent outcom...", "citations": 70, "author_count": 4, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2709, "doi": "10.1039/d1mh02074a", "umap_coordinates": { "x": 392.3002014160156, "y": 134.95884704589844, "z": 205.93218994140625 }, "tsne_coordinates": { "x": 15.262653350830078, "y": -6.537445068359375, "z": -17.023765563964844 }, "pca_coordinates": { "x": -1.7867379188537598, "y": -2.600905418395996, "z": -0.6385740637779236 }, "axis_scores": { "Quantum imaging": 0.7136418223381042, "Quantum Life Science Sensing": 0.7145420908927917, "Quantum sensing Detection": 0.6975775957107544, "Quantum sensing Metrology": 0.694424033164978, "Quantum sensing navigation": 0.6674675941467285, "Quantum sensing Position": 0.6699464917182922, "Quantum sensing Timing": 0.6588329672813416, "Quantum sensing": 0.7034945487976074, "Quantum control": 0.6581612229347229 } }, { "id": 2705, "title": "Low-Temperature Characteristics of Nanowire Network Demultiplexer for Qubit Biasing", "abstract": "In current quantum computers, most qubit control electronics are connected to the qubit chip inside the cryostat by cables at room temperature. This poses a challenge when scaling the quantum chip to ...", "citations": 8, "author_count": 4, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2710, "doi": "10.1021/acs.nanolett.1c04971", "umap_coordinates": { "x": 393.5726318359375, "y": 134.59437561035156, "z": 206.76370239257812 }, "tsne_coordinates": { "x": 12.131734848022461, "y": -20.118793487548828, "z": -14.354269981384277 }, "pca_coordinates": { "x": 0.700391411781311, "y": -2.4243783950805664, "z": -0.17607718706130981 }, "axis_scores": { "Quantum imaging": 0.674826979637146, "Quantum Life Science Sensing": 0.7080073952674866, "Quantum sensing Detection": 0.6938580274581909, "Quantum sensing Metrology": 0.6863391399383545, "Quantum sensing navigation": 0.6973091959953308, "Quantum sensing Position": 0.688547670841217, "Quantum sensing Timing": 0.6862950325012207, "Quantum sensing": 0.6951096653938293, "Quantum control": 0.6778466701507568 } }, { "id": 2706, "title": "Inelastic scattering and heating in a molecular spin pump", "abstract": "We consider a model for a spin field-effect molecular transistor, where a directed pure spin current is controlled by an external electric field. Inelastic scattering effects of such molecular device ...", "citations": 35, "author_count": 3, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2712, "doi": "10.1103/PhysRevB.81.075311", "umap_coordinates": { "x": 394.1341857910156, "y": 135.49273681640625, "z": 208.6407928466797 }, "tsne_coordinates": { "x": 1.8824502229690552, "y": -25.222488403320312, "z": -3.953932046890259 }, "pca_coordinates": { "x": 3.577913284301758, "y": -1.285886287689209, "z": 1.0822620391845703 }, "axis_scores": { "Quantum imaging": 0.701432466506958, "Quantum Life Science Sensing": 0.6873817443847656, "Quantum sensing Detection": 0.6880312561988831, "Quantum sensing Metrology": 0.6681890487670898, "Quantum sensing navigation": 0.6885378360748291, "Quantum sensing Position": 0.657478928565979, "Quantum sensing Timing": 0.6761271953582764, "Quantum sensing": 0.7035123109817505, "Quantum control": 0.6628032922744751 } }, { "id": 2707, "title": "A field induced ferromagnetic-like transition below 2.8 K in Li2CuO2:: An experimental and theoretical study", "abstract": "The low temperature magnetic properties of the Li2CuO2 compound have been investigated by means of superconducting quantum interference device magnetometry, We find in addition to an antiferromagnetic...", "citations": 10, "author_count": 9, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2713, "doi": "10.1063/1.367670", "umap_coordinates": { "x": 392.7690124511719, "y": 135.87448120117188, "z": 208.14865112304688 }, "tsne_coordinates": { "x": 15.459805488586426, "y": -30.096797943115234, "z": 12.192898750305176 }, "pca_coordinates": { "x": 1.4196674823760986, "y": -0.7689957618713379, "z": -3.7840867042541504 }, "axis_scores": { "Quantum imaging": 0.6765258312225342, "Quantum Life Science Sensing": 0.6880730986595154, "Quantum sensing Detection": 0.6585431098937988, "Quantum sensing Metrology": 0.6622334122657776, "Quantum sensing navigation": 0.6559414267539978, "Quantum sensing Position": 0.6356773376464844, "Quantum sensing Timing": 0.6321474313735962, "Quantum sensing": 0.6727023124694824, "Quantum control": 0.6547690033912659 } }, { "id": 2708, "title": "Entanglement of photonic modes from a continuously driven two-level system", "abstract": "The ability to generate entangled states of light is a key primitive for quantum communication and distributed quantum computation. Continuously driven sources, including those based on spontaneous pa...", "citations": 2, "author_count": 11, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2714, "doi": "10.1038/s41534-025-00995-1", "umap_coordinates": { "x": 394.4585266113281, "y": 135.9308624267578, "z": 207.15713500976562 }, "tsne_coordinates": { "x": -3.1366233825683594, "y": -9.275376319885254, "z": 11.377229690551758 }, "pca_coordinates": { "x": 1.2073864936828613, "y": 0.3838188648223877, "z": 1.1611971855163574 }, "axis_scores": { "Quantum imaging": 0.7482665777206421, "Quantum Life Science Sensing": 0.7355035543441772, "Quantum sensing Detection": 0.7447271347045898, "Quantum sensing Metrology": 0.720562756061554, "Quantum sensing navigation": 0.7274657487869263, "Quantum sensing Position": 0.6988663673400879, "Quantum sensing Timing": 0.7053112983703613, "Quantum sensing": 0.7462280988693237, "Quantum control": 0.7268631458282471 } }, { "id": 2709, "title": "Quantum computing with an inhomogeneously broadened ensemble of ions: Suppression of errors from detuning variations by specially adapted pulses and coherent population trapping - art. no. 022321", "abstract": "The proposal for quantum computing with rare-earth-metal-ion qubits in inorganic crystals makes use of the inhomogeneous broadening of optical transitions in the ions to associate individual qubits wi...", "citations": 102, "author_count": 3, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2715, "doi": "10.1103/PhysRevA.69.022321", "umap_coordinates": { "x": 394.94183349609375, "y": 136.0193328857422, "z": 207.49461364746094 }, "tsne_coordinates": { "x": -9.617618560791016, "y": -18.448205947875977, "z": -12.434684753417969 }, "pca_coordinates": { "x": 1.8578925132751465, "y": -0.16466116905212402, "z": 0.4560679793357849 }, "axis_scores": { "Quantum imaging": 0.696465790271759, "Quantum Life Science Sensing": 0.6977874636650085, "Quantum sensing Detection": 0.6956013441085815, "Quantum sensing Metrology": 0.6916763782501221, "Quantum sensing navigation": 0.6918567419052124, "Quantum sensing Position": 0.6761407852172852, "Quantum sensing Timing": 0.6810953617095947, "Quantum sensing": 0.7098309993743896, "Quantum control": 0.6929187774658203 } }, { "id": 2710, "title": "Extraction-controlled quantum cascade lasers", "abstract": "A simple two-well design for terahertz quantum cascade lasers is proposed which is based on scattering injection and the efficient extraction of electrons from the lower laser level by resonant tunnel...", "citations": 40, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2716, "doi": "10.1063/1.3483764", "umap_coordinates": { "x": 394.1351318359375, "y": 134.64793395996094, "z": 207.742431640625 }, "tsne_coordinates": { "x": 32.2164192199707, "y": -30.987552642822266, "z": 5.548844814300537 }, "pca_coordinates": { "x": 1.290088176727295, "y": -0.7163515090942383, "z": 0.26683956384658813 }, "axis_scores": { "Quantum imaging": 0.7587268948554993, "Quantum Life Science Sensing": 0.7623506188392639, "Quantum sensing Detection": 0.7798507809638977, "Quantum sensing Metrology": 0.7552344799041748, "Quantum sensing navigation": 0.7463271021842957, "Quantum sensing Position": 0.7141780257225037, "Quantum sensing Timing": 0.7164111733436584, "Quantum sensing": 0.7900421023368835, "Quantum control": 0.810664713382721 } }, { "id": 2711, "title": "Quantum-inspired semantic matching based on neural networks with the duality of density matrices", "abstract": "Social media text can be semantically matched in different ways, viz paraphrase identification, answer selection, community question answering, and soon. The performance of the above semantic matching...", "citations": 2, "author_count": 5, "categories": [ "Automation & Control Systems" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2717, "doi": "10.1016/j.engappai.2024.109667", "umap_coordinates": { "x": 394.7049560546875, "y": 136.83383178710938, "z": 205.8113250732422 }, "tsne_coordinates": { "x": -16.901506423950195, "y": 9.266731262207031, "z": 15.181227684020996 }, "pca_coordinates": { "x": 1.3228886127471924, "y": 1.9315307140350342, "z": 2.1391425132751465 }, "axis_scores": { "Quantum imaging": 0.761833667755127, "Quantum Life Science Sensing": 0.7303727269172668, "Quantum sensing Detection": 0.7474767565727234, "Quantum sensing Metrology": 0.7507509589195251, "Quantum sensing navigation": 0.7650319337844849, "Quantum sensing Position": 0.714969277381897, "Quantum sensing Timing": 0.716169536113739, "Quantum sensing": 0.7594599723815918, "Quantum control": 0.7116448283195496 } }, { "id": 2712, "title": "Planar photonic crystals infiltrated with liquid crystals:: optical characterization of molecule orientation", "abstract": "Nematic liquid crystals are infiltrated into InP-based planar photonic crystals. Optical measurements as a function of temperature and polarization are used to study the average director field configu...", "citations": 41, "author_count": 10, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2718, "doi": "10.1364/OL.31.001238", "umap_coordinates": { "x": 393.776611328125, "y": 134.18862915039062, "z": 206.4458770751953 }, "tsne_coordinates": { "x": 1.0266157388687134, "y": -14.532918930053711, "z": -28.369277954101562 }, "pca_coordinates": { "x": -1.5366824865341187, "y": 0.3490886688232422, "z": 0.10876315832138062 }, "axis_scores": { "Quantum imaging": 0.7463023066520691, "Quantum Life Science Sensing": 0.7070306539535522, "Quantum sensing Detection": 0.6917527318000793, "Quantum sensing Metrology": 0.6966679692268372, "Quantum sensing navigation": 0.7206739187240601, "Quantum sensing Position": 0.6908546090126038, "Quantum sensing Timing": 0.6678657531738281, "Quantum sensing": 0.7126569747924805, "Quantum control": 0.6989979147911072 } }, { "id": 2713, "title": "NIR-region two-photon fluorescent probes for Fe3+/Cu2+ ions based on pyrimidine derivatives with different flexible chain", "abstract": "Two novel NIR-region two-photon fluorescent probes CCP and COP, show strong fluorescence quenching and good ratiometric responses toward Fe3+ and Cu2+, respectively; and their two-photon fluorescence ...", "citations": 19, "author_count": 12, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2719, "doi": "10.1016/j.snb.2015.08.079", "umap_coordinates": { "x": 392.67108154296875, "y": 135.5696563720703, "z": 204.53353881835938 }, "tsne_coordinates": { "x": 9.813404083251953, "y": 9.404333114624023, "z": -7.795596599578857 }, "pca_coordinates": { "x": -3.5375614166259766, "y": -0.34621381759643555, "z": -0.7642072439193726 }, "axis_scores": { "Quantum imaging": 0.7229775190353394, "Quantum Life Science Sensing": 0.7376759052276611, "Quantum sensing Detection": 0.7297297716140747, "Quantum sensing Metrology": 0.6903338432312012, "Quantum sensing navigation": 0.7177106142044067, "Quantum sensing Position": 0.6913341283798218, "Quantum sensing Timing": 0.6812516450881958, "Quantum sensing": 0.7312948703765869, "Quantum control": 0.702811062335968 } }, { "id": 2714, "title": "Rectification of current for tunneling through metallic nano-particles", "abstract": "Double tunnel barrier structures were obtained by using a scanning tunneling microscope and samples composed of metallic nanoparticles deposited onto an oxidized bottom electrode. The nanoparticles we...", "citations": 5, "author_count": 4, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2720, "doi": "10.1063/1.2150799", "umap_coordinates": { "x": 393.6564025878906, "y": 134.3983917236328, "z": 208.5181884765625 }, "tsne_coordinates": { "x": 26.5998592376709, "y": -31.41482925415039, "z": -2.3212997913360596 }, "pca_coordinates": { "x": 1.5157513618469238, "y": -1.9306859970092773, "z": 0.6575871109962463 }, "axis_scores": { "Quantum imaging": 0.7032735347747803, "Quantum Life Science Sensing": 0.7216147780418396, "Quantum sensing Detection": 0.7006734609603882, "Quantum sensing Metrology": 0.714034914970398, "Quantum sensing navigation": 0.7113710045814514, "Quantum sensing Position": 0.6789815425872803, "Quantum sensing Timing": 0.6544362902641296, "Quantum sensing": 0.713001012802124, "Quantum control": 0.684529185295105 } }, { "id": 2715, "title": "Local uncertainty relations serving as measures of entanglement in a bipartite two-level system - art. no. 012319", "abstract": "We comment on the recent suggestion to use a family of local uncertainty relations as a standard way of quantifying entanglement in two-qubit systems. Some statements made on the applicability of the ...", "citations": 9, "author_count": 3, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2721, "doi": "10.1103/PhysRevA.73.012319", "umap_coordinates": { "x": 395.7752380371094, "y": 137.22604370117188, "z": 207.50238037109375 }, "tsne_coordinates": { "x": -25.572975158691406, "y": -10.02608871459961, "z": 5.285223960876465 }, "pca_coordinates": { "x": 3.983394145965576, "y": 1.4356884956359863, "z": 0.4584793448448181 }, "axis_scores": { "Quantum imaging": 0.7380580902099609, "Quantum Life Science Sensing": 0.7389531135559082, "Quantum sensing Detection": 0.7549652457237244, "Quantum sensing Metrology": 0.7568478584289551, "Quantum sensing navigation": 0.752164900302887, "Quantum sensing Position": 0.7446317672729492, "Quantum sensing Timing": 0.7114937901496887, "Quantum sensing": 0.7677420377731323, "Quantum control": 0.7373731136322021 } }, { "id": 2716, "title": "Analytical Solutions for a Supersymmetric Wave-Equation for Quasiparticles in a Quantum System", "abstract": "Vortices and quasiparticles have been studied for 2D systems over the past decades in relation to the development of technologies in quantum electromagnetics, optics, and quantum computation. Deriving...", "citations": 3, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2722, "doi": "10.1002/adts.201900173", "umap_coordinates": { "x": 394.230224609375, "y": 136.40911865234375, "z": 207.8516387939453 }, "tsne_coordinates": { "x": -22.126970291137695, "y": -16.17780303955078, "z": 25.976985931396484 }, "pca_coordinates": { "x": 1.4958381652832031, "y": -0.9336249828338623, "z": -1.1767829656600952 }, "axis_scores": { "Quantum imaging": 0.6803430914878845, "Quantum Life Science Sensing": 0.6954598426818848, "Quantum sensing Detection": 0.6740286350250244, "Quantum sensing Metrology": 0.6822879314422607, "Quantum sensing navigation": 0.6946556568145752, "Quantum sensing Position": 0.6708583831787109, "Quantum sensing Timing": 0.6654583215713501, "Quantum sensing": 0.6836794018745422, "Quantum control": 0.6437473893165588 } }, { "id": 2717, "title": "Generating macroscopic superposition states in nanomechanical graphene resonators", "abstract": "A theoretical study of the quantum dynamics of a symmetric nanomechanical graphene resonator with degenerate flexural modes is presented. Applying voltage pulses to two back gates, flexural vibrations...", "citations": 24, "author_count": 4, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2723, "doi": "10.1103/PhysRevB.85.205415", "umap_coordinates": { "x": 394.9989013671875, "y": 136.36744689941406, "z": 208.6371307373047 }, "tsne_coordinates": { "x": -7.869722366333008, "y": -16.381393432617188, "z": 11.41503620147705 }, "pca_coordinates": { "x": 4.8618364334106445, "y": -1.5692477226257324, "z": 0.7761432528495789 }, "axis_scores": { "Quantum imaging": 0.7169768810272217, "Quantum Life Science Sensing": 0.7324903011322021, "Quantum sensing Detection": 0.740398645401001, "Quantum sensing Metrology": 0.7473043203353882, "Quantum sensing navigation": 0.7370551228523254, "Quantum sensing Position": 0.7223538756370544, "Quantum sensing Timing": 0.7100027203559875, "Quantum sensing": 0.7577179074287415, "Quantum control": 0.6923332810401917 } }, { "id": 2718, "title": "Assessing the Polarization of a Quantum Field from Stokes Fluctuations", "abstract": "We propose an operational degree of polarization in terms of the variance of the Stokes vector minimized over all the directions of the Poincare sphere. We examine the properties of this second-order ...", "citations": 30, "author_count": 12, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2724, "doi": "10.1103/PhysRevLett.105.153602", "umap_coordinates": { "x": 395.3024597167969, "y": 136.60595703125, "z": 206.74581909179688 }, "tsne_coordinates": { "x": -19.74416732788086, "y": -9.49709415435791, "z": -5.759976387023926 }, "pca_coordinates": { "x": 2.416259288787842, "y": 0.4056987762451172, "z": 0.9376192688941956 }, "axis_scores": { "Quantum imaging": 0.735528826713562, "Quantum Life Science Sensing": 0.7648523449897766, "Quantum sensing Detection": 0.7545640468597412, "Quantum sensing Metrology": 0.7433853149414062, "Quantum sensing navigation": 0.7602464556694031, "Quantum sensing Position": 0.7332462072372437, "Quantum sensing Timing": 0.7056753039360046, "Quantum sensing": 0.7666536569595337, "Quantum control": 0.7181172370910645 } }, { "id": 2719, "title": "Mean-field theory of quantum dot formation", "abstract": "The formation of undislocated three-dimensional (3D) islands during semiconductor heteroepitaxy is studied using self-consistent rate equations. Lattice misfit strain is presumed to influence the rate...", "citations": 140, "author_count": 7, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 2725, "doi": "10.1103/PhysRevLett.79.897", "umap_coordinates": { "x": 394.5533142089844, "y": 136.10472106933594, "z": 208.41954040527344 }, "tsne_coordinates": { "x": -11.319915771484375, "y": -35.235286712646484, "z": 1.1703945398330688 }, "pca_coordinates": { "x": 4.151490211486816, "y": -0.6240983009338379, "z": -0.29237890243530273 }, "axis_scores": { "Quantum imaging": 0.7601361274719238, "Quantum Life Science Sensing": 0.7881969213485718, "Quantum sensing Detection": 0.7865666151046753, "Quantum sensing Metrology": 0.7801775336265564, "Quantum sensing navigation": 0.7645829916000366, "Quantum sensing Position": 0.7428780198097229, "Quantum sensing Timing": 0.7343600392341614, "Quantum sensing": 0.7859432101249695, "Quantum control": 0.759994387626648 } }, { "id": 2720, "title": "Excited state non-adiabatic dynamics of N-methylpyrrole: A time-resolved photoelectron spectroscopy and quantum dynamics study", "abstract": "The dynamics of N-methylpyrrole following excitation at wavelengths in the range 241.5-217.0 nm were studied using a combination of time-resolved photoelectron spectroscopy (TRPES), ab initio quantum ...", "citations": 24, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2726, "doi": "10.1063/1.4938423", "umap_coordinates": { "x": 392.9544372558594, "y": 136.06646728515625, "z": 206.8097381591797 }, "tsne_coordinates": { "x": -2.531325578689575, "y": 3.765838146209717, "z": 10.887877464294434 }, "pca_coordinates": { "x": 1.212397813796997, "y": -0.8421916961669922, "z": -0.9565147161483765 }, "axis_scores": { "Quantum imaging": 0.7186477780342102, "Quantum Life Science Sensing": 0.7302225232124329, "Quantum sensing Detection": 0.7215498685836792, "Quantum sensing Metrology": 0.6996711492538452, "Quantum sensing navigation": 0.6934173703193665, "Quantum sensing Position": 0.6795231699943542, "Quantum sensing Timing": 0.6762883067131042, "Quantum sensing": 0.7268908023834229, "Quantum control": 0.6956552863121033 } }, { "id": 2721, "title": "A biofunctionalized quantum dot-nickel oxide nanorod based smart platform for lipid detection", "abstract": "A reagent-free, low-cost and sensitive immunosensor has been fabricated using anti-apolipoprotein B (AAB) conjugated L-cysteine in situ capped cadmium sulfide quantum dots (CysCdS QDs) bound to nickel...", "citations": 23, "author_count": 7, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2727, "doi": "10.1039/c5tb02578h", "umap_coordinates": { "x": 392.34722900390625, "y": 134.7933807373047, "z": 205.023681640625 }, "tsne_coordinates": { "x": 13.002832412719727, "y": 5.586906909942627, "z": -6.036183834075928 }, "pca_coordinates": { "x": -3.3300914764404297, "y": -2.1437082290649414, "z": -1.9379444122314453 }, "axis_scores": { "Quantum imaging": 0.7120439410209656, "Quantum Life Science Sensing": 0.740593433380127, "Quantum sensing Detection": 0.7125762104988098, "Quantum sensing Metrology": 0.6948991417884827, "Quantum sensing navigation": 0.7013238668441772, "Quantum sensing Position": 0.6774709224700928, "Quantum sensing Timing": 0.6551163792610168, "Quantum sensing": 0.7209091186523438, "Quantum control": 0.6948055028915405 } }, { "id": 2722, "title": "Zeros in single-channel transmission through double quantum dots - art. no. 046204", "abstract": "By using a simple model we consider single-channel transmission through a double quantum dot that consists of two single dots coupled by a wire of finite length L. Each of the two single dots is chara...", "citations": 74, "author_count": 3, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2728, "doi": "10.1103/PhysRevE.71.046204", "umap_coordinates": { "x": 394.0387268066406, "y": 134.7152862548828, "z": 208.79930114746094 }, "tsne_coordinates": { "x": 4.087653160095215, "y": -33.39552688598633, "z": -5.5029377937316895 }, "pca_coordinates": { "x": 3.7039928436279297, "y": -2.416027545928955, "z": 1.6210942268371582 }, "axis_scores": { "Quantum imaging": 0.7177191376686096, "Quantum Life Science Sensing": 0.713273286819458, "Quantum sensing Detection": 0.7203441858291626, "Quantum sensing Metrology": 0.709100604057312, "Quantum sensing navigation": 0.7172458171844482, "Quantum sensing Position": 0.6897833943367004, "Quantum sensing Timing": 0.7059722542762756, "Quantum sensing": 0.7200424075126648, "Quantum control": 0.7016664743423462 } }, { "id": 2723, "title": "A versatile standard for bathochromic fluorescence based on intramolecular FRET", "abstract": "A perylene and a terrylene tetracarboxylic bisimide dyad was prepared in which an efficient energy transfer from the former to the latter is observed. The absorption spectrum of this compound covers a...", "citations": 17, "author_count": 5, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2729, "doi": "10.1039/c1cp20467j", "umap_coordinates": { "x": 392.6350402832031, "y": 135.89537048339844, "z": 205.02224731445312 }, "tsne_coordinates": { "x": -4.372552871704102, "y": 9.241214752197266, "z": -4.583755970001221 }, "pca_coordinates": { "x": -1.9641673564910889, "y": -0.1411600112915039, "z": -0.9482859373092651 }, "axis_scores": { "Quantum imaging": 0.7064685821533203, "Quantum Life Science Sensing": 0.7128065228462219, "Quantum sensing Detection": 0.6883500218391418, "Quantum sensing Metrology": 0.6846962571144104, "Quantum sensing navigation": 0.6805630326271057, "Quantum sensing Position": 0.6683841943740845, "Quantum sensing Timing": 0.6740036010742188, "Quantum sensing": 0.7081664800643921, "Quantum control": 0.6943709254264832 } }, { "id": 2724, "title": "Capacitive readout and gating of superconducting single photon detectors", "abstract": "We propose and develop a readout scheme for superconducting single-photon detectors based on an integrated circuit, relaxing the need for large bandwidth amplification and resulting in voltage steps p...", "citations": 2, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2730, "doi": "10.1063/1.4805055", "umap_coordinates": { "x": 394.53131103515625, "y": 133.43215942382812, "z": 207.89089965820312 }, "tsne_coordinates": { "x": -9.741037368774414, "y": 2.034877300262451, "z": -34.74136734008789 }, "pca_coordinates": { "x": 0.9929430484771729, "y": -1.175706386566162, "z": 3.1626341342926025 }, "axis_scores": { "Quantum imaging": 0.7442342042922974, "Quantum Life Science Sensing": 0.7731481790542603, "Quantum sensing Detection": 0.7696235179901123, "Quantum sensing Metrology": 0.7516287565231323, "Quantum sensing navigation": 0.7359828352928162, "Quantum sensing Position": 0.7143146991729736, "Quantum sensing Timing": 0.7486761212348938, "Quantum sensing": 0.7752281427383423, "Quantum control": 0.7273557782173157 } }, { "id": 2725, "title": "The Jaynes-Cummings model: 60 years and still counting", "abstract": "2023 marked the 60th anniversary of the Jaynes-Cummings model, a foundational model in quantum optics. Over the years, its importance has expanded beyond traditional light-matter interaction systems, ...", "citations": 9, "author_count": 5, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2731, "doi": "10.1364/JOSAB.536847", "umap_coordinates": { "x": 395.08294677734375, "y": 137.60838317871094, "z": 205.62786865234375 }, "tsne_coordinates": { "x": -21.458498001098633, "y": 16.433408737182617, "z": 11.435370445251465 }, "pca_coordinates": { "x": 0.11288714408874512, "y": 4.616046905517578, "z": -1.2657573223114014 }, "axis_scores": { "Quantum imaging": 0.6661293506622314, "Quantum Life Science Sensing": 0.6860847473144531, "Quantum sensing Detection": 0.6465780735015869, "Quantum sensing Metrology": 0.6468291878700256, "Quantum sensing navigation": 0.6784860491752625, "Quantum sensing Position": 0.6497131586074829, "Quantum sensing Timing": 0.6902844905853271, "Quantum sensing": 0.6694475412368774, "Quantum control": 0.6862220168113708 } }, { "id": 2726, "title": "Comparison of cryogenic filters for use in single electronics experiments", "abstract": "We have analyzed six different cryogenic filters for applications in single electronics. Each filter is evaluated with respect to its construction, cryogenic compatibility, principle of operation, and...", "citations": 89, "author_count": 11, "categories": [ "Instruments & Instrumentation" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2732, "doi": "10.1063/1.1540721", "umap_coordinates": { "x": 394.6454162597656, "y": 133.96783447265625, "z": 207.95748901367188 }, "tsne_coordinates": { "x": 3.28938889503479, "y": -32.412925720214844, "z": -14.470026016235352 }, "pca_coordinates": { "x": 0.6918857097625732, "y": 0.21151065826416016, "z": 1.5227079391479492 }, "axis_scores": { "Quantum imaging": 0.7099483609199524, "Quantum Life Science Sensing": 0.7334386706352234, "Quantum sensing Detection": 0.7071458697319031, "Quantum sensing Metrology": 0.7077394127845764, "Quantum sensing navigation": 0.6912000775337219, "Quantum sensing Position": 0.683661699295044, "Quantum sensing Timing": 0.701949417591095, "Quantum sensing": 0.7103474140167236, "Quantum control": 0.6898322701454163 } }, { "id": 2727, "title": "EFFICIENT DIPOLAR RECOUPLING IN THE NMR OF ROTATING SOLIDS - A SEVENFOLD SYMMETRICAL RADIOFREQUENCY PULSE SEQUENCE", "abstract": "A new radiofrequency pulse sequence is introduced for the efficient reintroduction of magnetic dipolar couplings in the magic-angle-spinning NMR of solids. The sequence involves seven phase-shifted ra...", "citations": 423, "author_count": 7, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 2733, "doi": "10.1016/0009-2614(95)00741-L", "umap_coordinates": { "x": 392.7942810058594, "y": 136.89198303222656, "z": 207.0068359375 }, "tsne_coordinates": { "x": 11.926844596862793, "y": 1.7310268878936768, "z": 31.92837142944336 }, "pca_coordinates": { "x": -0.44243115186691284, "y": 2.490586519241333, "z": -0.8975697755813599 }, "axis_scores": { "Quantum imaging": 0.6761493682861328, "Quantum Life Science Sensing": 0.6650370359420776, "Quantum sensing Detection": 0.626590371131897, "Quantum sensing Metrology": 0.6484107375144958, "Quantum sensing navigation": 0.663840651512146, "Quantum sensing Position": 0.6399363279342651, "Quantum sensing Timing": 0.6641229391098022, "Quantum sensing": 0.6535252332687378, "Quantum control": 0.6392375826835632 } }, { "id": 2728, "title": "Floquet dynamical phase transition and entanglement spectrum", "abstract": "We explore both pure and mixed state Floquet dynamical quantum phase transitions (FDQFTs) in the one-dimensional p-wave superconductor with a time-driven pairing phase. In the Fourier space the model ...", "citations": 69, "author_count": 3, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2734, "doi": "10.1103/PhysRevA.103.012204", "umap_coordinates": { "x": 394.8600769042969, "y": 136.72119140625, "z": 208.45333862304688 }, "tsne_coordinates": { "x": -16.937427520751953, "y": -18.144664764404297, "z": 12.495735168457031 }, "pca_coordinates": { "x": 5.405446529388428, "y": 0.48795342445373535, "z": -0.9642914533615112 }, "axis_scores": { "Quantum imaging": 0.7426188588142395, "Quantum Life Science Sensing": 0.7527278661727905, "Quantum sensing Detection": 0.7480748891830444, "Quantum sensing Metrology": 0.7274883389472961, "Quantum sensing navigation": 0.7469110488891602, "Quantum sensing Position": 0.71169114112854, "Quantum sensing Timing": 0.7127528190612793, "Quantum sensing": 0.7520983219146729, "Quantum control": 0.7477191686630249 } }, { "id": 2729, "title": "New dynamic silicon photonic components enabled by MEMS technology", "abstract": "Silicon photonics is the study and application of integrated optical systems which use silicon as an optical medium, usually by confining light in optical waveguides etched into the surface of silicon...", "citations": 1, "author_count": 9, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2735, "doi": "10.1117/12.2297588", "umap_coordinates": { "x": 394.5115966796875, "y": 133.81593322753906, "z": 206.2314453125 }, "tsne_coordinates": { "x": 3.062486171722412, "y": 5.496054172515869, "z": -33.01007843017578 }, "pca_coordinates": { "x": -1.9473345279693604, "y": -0.07431459426879883, "z": 2.4831724166870117 }, "axis_scores": { "Quantum imaging": 0.6970210671424866, "Quantum Life Science Sensing": 0.7108675837516785, "Quantum sensing Detection": 0.6992473602294922, "Quantum sensing Metrology": 0.7136013507843018, "Quantum sensing navigation": 0.705328643321991, "Quantum sensing Position": 0.6843464970588684, "Quantum sensing Timing": 0.6716639995574951, "Quantum sensing": 0.7051352858543396, "Quantum control": 0.6770929098129272 } }, { "id": 2730, "title": "Real-time observation of nucleation and growth of Au on CdSe quantum dot templates", "abstract": "Semiconductor quantum dot (QD) arrays can be useful for optical devices such as lasers, solar cells and light-emitting diodes. As the size distribution influences the band-gap, it is worthwhile to inv...", "citations": 2, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2736, "doi": "10.1038/s41598-021-97485-z", "umap_coordinates": { "x": 392.42034912109375, "y": 134.77330017089844, "z": 206.28097534179688 }, "tsne_coordinates": { "x": 29.468994140625, "y": 0.3506235182285309, "z": -2.2050061225891113 }, "pca_coordinates": { "x": -2.719561815261841, "y": -2.1878910064697266, "z": 1.6593139171600342 }, "axis_scores": { "Quantum imaging": 0.7110468745231628, "Quantum Life Science Sensing": 0.7355635762214661, "Quantum sensing Detection": 0.733684778213501, "Quantum sensing Metrology": 0.7077873945236206, "Quantum sensing navigation": 0.6988396644592285, "Quantum sensing Position": 0.7111080884933472, "Quantum sensing Timing": 0.7403320074081421, "Quantum sensing": 0.7288137674331665, "Quantum control": 0.6964787244796753 } }, { "id": 2731, "title": "Absorption and Fluorescence Spectroscopy of Growing ZnO Quantum Dots: Size and Band Gap Correlation and Evidence of Mobile Trap States", "abstract": "ZnO nanoparticles constitute a convenient model system for fundamental studies with many possible technical applications in, for example, sensors and the field of catalysis and optoelectronics. A larg...", "citations": 68, "author_count": 3, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2737, "doi": "10.1021/ic201327n", "umap_coordinates": { "x": 392.3085021972656, "y": 134.66741943359375, "z": 205.8952178955078 }, "tsne_coordinates": { "x": 28.124582290649414, "y": -4.942761421203613, "z": -4.902006149291992 }, "pca_coordinates": { "x": -2.4630303382873535, "y": -2.429706573486328, "z": -1.075516700744629 }, "axis_scores": { "Quantum imaging": 0.7272493243217468, "Quantum Life Science Sensing": 0.7616618275642395, "Quantum sensing Detection": 0.7286803722381592, "Quantum sensing Metrology": 0.7273605465888977, "Quantum sensing navigation": 0.7154182195663452, "Quantum sensing Position": 0.7138460278511047, "Quantum sensing Timing": 0.6917003989219666, "Quantum sensing": 0.7385298013687134, "Quantum control": 0.688880443572998 } }, { "id": 2732, "title": "The Rise and Current Status of Polaritonic Photochemistry and Photophysics", "abstract": "The interaction between molecular electronic transitions and electromagnetic fields can be enlarged to the point where distinct hybrid light-matter states, polaritons, emerge. The photonic contributio...", "citations": 101, "author_count": 8, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2738, "doi": "10.1021/acs.chemrev.2c00895", "umap_coordinates": { "x": 392.0958557128906, "y": 135.4302520751953, "z": 205.8529815673828 }, "tsne_coordinates": { "x": 3.752995252609253, "y": -7.7334418296813965, "z": -6.995382308959961 }, "pca_coordinates": { "x": -1.432525634765625, "y": -2.20109224319458, "z": -2.642756938934326 }, "axis_scores": { "Quantum imaging": 0.6757386326789856, "Quantum Life Science Sensing": 0.7166776061058044, "Quantum sensing Detection": 0.6862425804138184, "Quantum sensing Metrology": 0.6632400155067444, "Quantum sensing navigation": 0.6721993684768677, "Quantum sensing Position": 0.6723864674568176, "Quantum sensing Timing": 0.6634610891342163, "Quantum sensing": 0.6860722899436951, "Quantum control": 0.6694729328155518 } }, { "id": 2733, "title": "Polymer synergy for efficient hole transport in solar cells and photodetectors", "abstract": "Hole transport materials (HTMs) have greatly advanced the progress of solution-based electronic devices in the past few years. Nevertheless, most devices employing dopant-free organic HTMs can only de...", "citations": 18, "author_count": 18, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2739, "doi": "10.1039/d3ee02033a", "umap_coordinates": { "x": 391.80908203125, "y": 134.1012420654297, "z": 205.16256713867188 }, "tsne_coordinates": { "x": 11.343250274658203, "y": 5.979061126708984, "z": -14.611928939819336 }, "pca_coordinates": { "x": -2.101135492324829, "y": -3.4227194786071777, "z": 0.8163129687309265 }, "axis_scores": { "Quantum imaging": 0.6778355836868286, "Quantum Life Science Sensing": 0.6797041296958923, "Quantum sensing Detection": 0.6685988903045654, "Quantum sensing Metrology": 0.6546116471290588, "Quantum sensing navigation": 0.6504395604133606, "Quantum sensing Position": 0.6465182900428772, "Quantum sensing Timing": 0.6275570392608643, "Quantum sensing": 0.6737824082374573, "Quantum control": 0.6220731139183044 } }, { "id": 2734, "title": "Tungsten oxide quantum dots deposited onto ultrathin CdIn2S4 nanosheets for efficient S-scheme photocatalytic CO2 reduction via cascade charge transfer", "abstract": "A novel S-scheme photocatalytic heterojunction composite nanomaterial is developed by integrating zero dimensional WO3 quantum dots (WQDs) on two-dimensional ultrathin CdIn2S4 (CIS) nanosheets with th...", "citations": 71, "author_count": 9, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2740, "doi": "10.1016/j.cej.2021.131218", "umap_coordinates": { "x": 392.558349609375, "y": 133.68675231933594, "z": 205.47470092773438 }, "tsne_coordinates": { "x": 26.88731575012207, "y": 8.139983177185059, "z": -4.397590160369873 }, "pca_coordinates": { "x": -2.658060073852539, "y": -3.564931869506836, "z": -0.10975885391235352 }, "axis_scores": { "Quantum imaging": 0.7208924293518066, "Quantum Life Science Sensing": 0.7342429161071777, "Quantum sensing Detection": 0.7195453643798828, "Quantum sensing Metrology": 0.6971796751022339, "Quantum sensing navigation": 0.6904436349868774, "Quantum sensing Position": 0.6668791770935059, "Quantum sensing Timing": 0.6827443838119507, "Quantum sensing": 0.7296414971351624, "Quantum control": 0.7069544196128845 } }, { "id": 2735, "title": "Enhanced conversion efficiency in Si solar cells employing photoluminescent down-shifting CdSe/CdS core/shell quantum dots", "abstract": "Silicon solar cells have captured a large portion of the total market of photovoltaic devices mostly due to their relatively high efficiency. However, Silicon exhibits limitations in ultraviolet absor...", "citations": 47, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2741, "doi": "10.1038/s41598-017-14269-0", "umap_coordinates": { "x": 392.7518005371094, "y": 133.5613250732422, "z": 206.4679718017578 }, "tsne_coordinates": { "x": 31.56461524963379, "y": -4.869933605194092, "z": -14.615625381469727 }, "pca_coordinates": { "x": -3.455824851989746, "y": -3.699483871459961, "z": 1.515392541885376 }, "axis_scores": { "Quantum imaging": 0.6928962469100952, "Quantum Life Science Sensing": 0.691569447517395, "Quantum sensing Detection": 0.6763788461685181, "Quantum sensing Metrology": 0.6697889566421509, "Quantum sensing navigation": 0.660627007484436, "Quantum sensing Position": 0.6669715046882629, "Quantum sensing Timing": 0.6484235525131226, "Quantum sensing": 0.6833730936050415, "Quantum control": 0.6527113318443298 } }, { "id": 2736, "title": "Near-Unity Internal Quantum Efficiency of Luminescent Silicon Nanocrystals with Ligand Passivation", "abstract": "Spectrally resolved photoluminescence (PL) decays were measured for samples of colloidal, ligand-passivated silicon nanocrystals. These samples have PL emission energies with peak positions in the ran...", "citations": 122, "author_count": 6, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2742, "doi": "10.1021/acsnano.5b01717", "umap_coordinates": { "x": 392.0657043457031, "y": 133.6976318359375, "z": 205.92979431152344 }, "tsne_coordinates": { "x": 20.886690139770508, "y": -9.600664138793945, "z": -26.439247131347656 }, "pca_coordinates": { "x": -3.027040481567383, "y": -3.5797057151794434, "z": 2.205247640609741 }, "axis_scores": { "Quantum imaging": 0.7219285368919373, "Quantum Life Science Sensing": 0.7065930366516113, "Quantum sensing Detection": 0.7007824778556824, "Quantum sensing Metrology": 0.7083512544631958, "Quantum sensing navigation": 0.693832516670227, "Quantum sensing Position": 0.6461002826690674, "Quantum sensing Timing": 0.6419535875320435, "Quantum sensing": 0.7106711268424988, "Quantum control": 0.677197277545929 } }, { "id": 2737, "title": "Nonlinear-dissipation-induced entanglement of coupled nonlinear oscillators", "abstract": "The quantum dynamics of two weakly coupled nonlinear oscillators is analytically and numerically investigated in the context of nonlinear dissipation. The latter facilitates the creation and preservat...", "citations": 7, "author_count": 4, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2743, "doi": "10.1103/PhysRevA.88.022309", "umap_coordinates": { "x": 395.03515625, "y": 136.23960876464844, "z": 208.2872772216797 }, "tsne_coordinates": { "x": -14.427714347839355, "y": -12.51931381225586, "z": 11.366166114807129 }, "pca_coordinates": { "x": 5.298717975616455, "y": 0.2961282730102539, "z": 0.2780839204788208 }, "axis_scores": { "Quantum imaging": 0.728711724281311, "Quantum Life Science Sensing": 0.7168766260147095, "Quantum sensing Detection": 0.737614631652832, "Quantum sensing Metrology": 0.6919255256652832, "Quantum sensing navigation": 0.7234824895858765, "Quantum sensing Position": 0.6829408407211304, "Quantum sensing Timing": 0.6774641871452332, "Quantum sensing": 0.7318506836891174, "Quantum control": 0.7042547464370728 } }, { "id": 2738, "title": "Vortex localization in rotating clouds of bosons and fermions", "abstract": "Finite quantal systems at high angular momenta may exhibit vortex formation and localization. These phenomena occur independent of the statistics of the repulsively interacting particles, which may be...", "citations": 18, "author_count": 5, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2744, "doi": "10.1103/PhysRevA.74.043603", "umap_coordinates": { "x": 394.65545654296875, "y": 136.60818481445312, "z": 208.80844116210938 }, "tsne_coordinates": { "x": -13.298120498657227, "y": -18.619176864624023, "z": 22.430734634399414 }, "pca_coordinates": { "x": 4.835034370422363, "y": 0.7091844081878662, "z": -1.472422480583191 }, "axis_scores": { "Quantum imaging": 0.7077263593673706, "Quantum Life Science Sensing": 0.6917004585266113, "Quantum sensing Detection": 0.6934943199157715, "Quantum sensing Metrology": 0.6657093167304993, "Quantum sensing navigation": 0.7203688025474548, "Quantum sensing Position": 0.7030407786369324, "Quantum sensing Timing": 0.704649031162262, "Quantum sensing": 0.6976747512817383, "Quantum control": 0.7010348439216614 } }, { "id": 2739, "title": "Ligand-Directed Self-Assembly of Organic-Semiconductor/Quantum-Dot Blend Films Enables Efficient Triplet Exciton-Photon Conversion", "abstract": "Blends comprising organic semiconductors and inorganic quantum dots (QDs) are relevant for many optoelectronic applications and devices. However, the individual components in organic-QD blends have a ...", "citations": 16, "author_count": 19, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2745, "doi": "10.1021/jacs.4c00125", "umap_coordinates": { "x": 391.835693359375, "y": 134.43421936035156, "z": 205.5295867919922 }, "tsne_coordinates": { "x": 14.67651081085205, "y": -5.027547359466553, "z": -9.705463409423828 }, "pca_coordinates": { "x": -2.082401990890503, "y": -5.778507709503174, "z": -0.8109261393547058 }, "axis_scores": { "Quantum imaging": 0.7350392937660217, "Quantum Life Science Sensing": 0.719608724117279, "Quantum sensing Detection": 0.7200722694396973, "Quantum sensing Metrology": 0.6908314228057861, "Quantum sensing navigation": 0.702896237373352, "Quantum sensing Position": 0.6720669269561768, "Quantum sensing Timing": 0.6635422706604004, "Quantum sensing": 0.7263360023498535, "Quantum control": 0.7108745574951172 } }, { "id": 2740, "title": "Anomalous Effect of Quantum Interference in Organic Spin Filters", "abstract": "The molecular topology in the single-molecule nanojunctions through which the de Broglie wave propagates plays a crucial role in controlling the molecular conductance. The enhancement and reduction of...", "citations": 32, "author_count": 6, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2746, "doi": "10.1021/acs.jpcc.0c08199", "umap_coordinates": { "x": 392.97003173828125, "y": 135.58238220214844, "z": 206.0777130126953 }, "tsne_coordinates": { "x": -0.9064117074012756, "y": -12.47717571258545, "z": -21.919620513916016 }, "pca_coordinates": { "x": 0.49333858489990234, "y": -1.1280927658081055, "z": -0.347431480884552 }, "axis_scores": { "Quantum imaging": 0.7657197117805481, "Quantum Life Science Sensing": 0.7399663329124451, "Quantum sensing Detection": 0.7485215663909912, "Quantum sensing Metrology": 0.7147361636161804, "Quantum sensing navigation": 0.7414901256561279, "Quantum sensing Position": 0.7218562960624695, "Quantum sensing Timing": 0.7085046172142029, "Quantum sensing": 0.754786491394043, "Quantum control": 0.7395516037940979 } }, { "id": 2741, "title": "A class of fluorescent heterocyclic dyes revisited: Photophysics, structure, and solvent effects", "abstract": "The photophysical behavior of a series of 2-methylthio-5-(Z-carbonyl)thieno-[3,4-e]-3,4-dihydro-1,2,3-triazine-4-ones was investigated by absorption and emission spectroscopy in a range of solvents re...", "citations": 4, "author_count": 5, "categories": [ "Spectroscopy" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2747, "doi": "10.1016/j.saa.2009.03.026", "umap_coordinates": { "x": 393.0473937988281, "y": 135.76414489746094, "z": 204.76585388183594 }, "tsne_coordinates": { "x": 4.554747581481934, "y": 12.485869407653809, "z": -1.7528342008590698 }, "pca_coordinates": { "x": -3.572683572769165, "y": -0.1211545467376709, "z": -3.5353050231933594 }, "axis_scores": { "Quantum imaging": 0.7325305342674255, "Quantum Life Science Sensing": 0.7554450035095215, "Quantum sensing Detection": 0.710182785987854, "Quantum sensing Metrology": 0.6934324502944946, "Quantum sensing navigation": 0.7044252753257751, "Quantum sensing Position": 0.6862996816635132, "Quantum sensing Timing": 0.6668915748596191, "Quantum sensing": 0.7303614616394043, "Quantum control": 0.7165205478668213 } }, { "id": 2742, "title": "Photosynthetic functions of leaves affected by the bibenzyl batatasin-III", "abstract": "In northern Sweden, Empetrum hermaphroditum Hagerup dominates the ground layer vegetation in post fire successions by suppressing other plant species. Previous studies suggest that this negative effec...", "citations": 1, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2748, "doi": null, "umap_coordinates": { "x": 391.95989990234375, "y": 139.48081970214844, "z": 209.15704345703125 }, "tsne_coordinates": { "x": -0.08122148364782333, "y": 46.241310119628906, "z": 3.997431516647339 }, "pca_coordinates": { "x": -2.2850542068481445, "y": 1.9867222309112549, "z": -3.32381534576416 }, "axis_scores": { "Quantum imaging": 0.6956088542938232, "Quantum Life Science Sensing": 0.7238668203353882, "Quantum sensing Detection": 0.6875976920127869, "Quantum sensing Metrology": 0.6841538548469543, "Quantum sensing navigation": 0.6760797500610352, "Quantum sensing Position": 0.6686464548110962, "Quantum sensing Timing": 0.650509238243103, "Quantum sensing": 0.6981132626533508, "Quantum control": 0.7039695978164673 } }, { "id": 2743, "title": "Geometric and holonomic quantum computation", "abstract": "Geometric and holonomic quantum computation utilizes intrinsic geometric properties of quantum-mechanical state spaces to realize quantum logic gates. Since both geometric phases and quantum holonomie...", "citations": 62, "author_count": 7, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2749, "doi": "10.1016/j.physrep.2023.07.004", "umap_coordinates": { "x": 394.61737060546875, "y": 137.15126037597656, "z": 206.5049285888672 }, "tsne_coordinates": { "x": -30.79320526123047, "y": -7.933884620666504, "z": 12.589699745178223 }, "pca_coordinates": { "x": 2.3526337146759033, "y": 3.1950523853302, "z": -1.2049610614776611 }, "axis_scores": { "Quantum imaging": 0.8036041259765625, "Quantum Life Science Sensing": 0.781356930732727, "Quantum sensing Detection": 0.7867389917373657, "Quantum sensing Metrology": 0.7845951318740845, "Quantum sensing navigation": 0.8074045777320862, "Quantum sensing Position": 0.795540452003479, "Quantum sensing Timing": 0.7772130370140076, "Quantum sensing": 0.8036037087440491, "Quantum control": 0.7888869047164917 } }, { "id": 2744, "title": "Evaluation of an ultra-fast photon-counting energy-resolved ASIC for spectral CT", "abstract": "We have developed an ultra-fast photon-counting energy-resolved application specific integrated circuit (ASIC) for spectral computed tomography (CT). A comprehensive characterization has been carried ...", "citations": 1, "author_count": 8, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2750, "doi": "10.1117/12.911111", "umap_coordinates": { "x": 395.3715515136719, "y": 132.88075256347656, "z": 205.8600311279297 }, "tsne_coordinates": { "x": -18.27964973449707, "y": 21.05026626586914, "z": -23.012130737304688 }, "pca_coordinates": { "x": -2.5946946144104004, "y": 0.8225246667861938, "z": 4.003460884094238 }, "axis_scores": { "Quantum imaging": 0.7157941460609436, "Quantum Life Science Sensing": 0.7116419076919556, "Quantum sensing Detection": 0.7023537755012512, "Quantum sensing Metrology": 0.6815486550331116, "Quantum sensing navigation": 0.6712986826896667, "Quantum sensing Position": 0.6708831191062927, "Quantum sensing Timing": 0.7041577100753784, "Quantum sensing": 0.7061499357223511, "Quantum control": 0.6290364265441895 } }, { "id": 2745, "title": "View of bunching and antibunching from the standpoint of classical signals", "abstract": "The similarity between classical wave mechanics and quantum mechanics was noted in the works of De Broglie, Schrodinger, late Einstein, Lamb, Lande, Mandel, Marshall, Santos, Boyer, and many others. W...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2751, "doi": "10.1007/s11232-012-0092-8", "umap_coordinates": { "x": 395.30499267578125, "y": 137.16494750976562, "z": 206.6050567626953 }, "tsne_coordinates": { "x": -34.09834289550781, "y": 5.145124435424805, "z": 13.131571769714355 }, "pca_coordinates": { "x": 1.0370159149169922, "y": 2.5069968700408936, "z": 0.13723212480545044 }, "axis_scores": { "Quantum imaging": 0.7168887853622437, "Quantum Life Science Sensing": 0.7050051689147949, "Quantum sensing Detection": 0.7199233770370483, "Quantum sensing Metrology": 0.7081546783447266, "Quantum sensing navigation": 0.7265443801879883, "Quantum sensing Position": 0.7160926461219788, "Quantum sensing Timing": 0.7122620344161987, "Quantum sensing": 0.7257154583930969, "Quantum control": 0.7241314649581909 } }, { "id": 2746, "title": "Proposed experiments to grow nanoscale p-n junctions and modulation-doped quantum wires and dots - art. no. 125330", "abstract": "We propose and model several experiments where the field effect defined by split gates is used to restrict acceptors and donors to regions of a semiconductor layer. The nonlinear potential defined by ...", "citations": 15, "author_count": 3, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2752, "doi": "10.1103/PhysRevB.65.125330", "umap_coordinates": { "x": 394.59637451171875, "y": 135.0664520263672, "z": 208.57470703125 }, "tsne_coordinates": { "x": 0.8642336130142212, "y": -32.15119934082031, "z": 1.1814959049224854 }, "pca_coordinates": { "x": 3.3745484352111816, "y": -0.8704428672790527, "z": 2.018728017807007 }, "axis_scores": { "Quantum imaging": 0.7020540833473206, "Quantum Life Science Sensing": 0.7056631445884705, "Quantum sensing Detection": 0.7066910266876221, "Quantum sensing Metrology": 0.7122289538383484, "Quantum sensing navigation": 0.7276750206947327, "Quantum sensing Position": 0.6993038654327393, "Quantum sensing Timing": 0.6784886717796326, "Quantum sensing": 0.7133296132087708, "Quantum control": 0.6985654830932617 } }, { "id": 2747, "title": "Spectral X-ray imaging with single photon processing detectors", "abstract": "Spectral X-ray imaging with single photon processing detectors gains substantial interest for many applications. In this paper we discuss fundamental parameters as contrast to noise ratio (CNR) and sp...", "citations": 8, "author_count": 4, "categories": [ "Instruments & Instrumentation" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2753, "doi": "10.1088/1748-0221/8/02/C02010", "umap_coordinates": { "x": 395.3824462890625, "y": 133.2802276611328, "z": 206.53074645996094 }, "tsne_coordinates": { "x": -12.744514465332031, "y": 12.514983177185059, "z": -29.395553588867188 }, "pca_coordinates": { "x": -2.128899574279785, "y": 0.6670279502868652, "z": 5.848268985748291 }, "axis_scores": { "Quantum imaging": 0.7441096901893616, "Quantum Life Science Sensing": 0.7197345495223999, "Quantum sensing Detection": 0.7252551317214966, "Quantum sensing Metrology": 0.7083077430725098, "Quantum sensing navigation": 0.6977041959762573, "Quantum sensing Position": 0.6906187534332275, "Quantum sensing Timing": 0.7035714387893677, "Quantum sensing": 0.7222377061843872, "Quantum control": 0.6621639132499695 } }, { "id": 2748, "title": "Measurement of breast-tissue x-ray attenuation by spectral mammography: first results on cyst fluid", "abstract": "Knowledge of x-ray attenuation is essential for developing and evaluating x-ray imaging technologies. For instance, techniques to better characterize cysts at mammography screening would be highly des...", "citations": 32, "author_count": 8, "categories": [ "Optics", "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2754, "doi": "10.1088/0031-9155/58/24/8609", "umap_coordinates": { "x": 395.5776062011719, "y": 133.16224670410156, "z": 205.59951782226562 }, "tsne_coordinates": { "x": -7.6514668464660645, "y": 22.048091888427734, "z": -31.13571548461914 }, "pca_coordinates": { "x": -1.4280989170074463, "y": 2.722895622253418, "z": 2.744119882583618 }, "axis_scores": { "Quantum imaging": 0.7000362277030945, "Quantum Life Science Sensing": 0.6982235312461853, "Quantum sensing Detection": 0.698432981967926, "Quantum sensing Metrology": 0.690617561340332, "Quantum sensing navigation": 0.675137996673584, "Quantum sensing Position": 0.6740142703056335, "Quantum sensing Timing": 0.6537855863571167, "Quantum sensing": 0.6906864047050476, "Quantum control": 0.6255536079406738 } }, { "id": 2749, "title": "Characterization of N-acylphosphatidylethanolamine and acylphosphatidylglycerol in oats", "abstract": "Two polar lipid classes, both with three acyl groups, were isolated from an extract of oats and characterized by nuclear magnetic resonance spectroscopy, electrospray mass spectrometry (MS), and elect...", "citations": 35, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2755, "doi": "10.1007/s11745-001-0702-z", "umap_coordinates": { "x": 393.5559997558594, "y": 135.27191162109375, "z": 204.14024353027344 }, "tsne_coordinates": { "x": 19.564847946166992, "y": 23.12074089050293, "z": 12.018778800964355 }, "pca_coordinates": { "x": -3.43147349357605, "y": 1.0881834030151367, "z": -1.376523733139038 }, "axis_scores": { "Quantum imaging": 0.6528820395469666, "Quantum Life Science Sensing": 0.6639545559883118, "Quantum sensing Detection": 0.6215755939483643, "Quantum sensing Metrology": 0.626808226108551, "Quantum sensing navigation": 0.6527259349822998, "Quantum sensing Position": 0.6317722201347351, "Quantum sensing Timing": 0.6417443156242371, "Quantum sensing": 0.6427332758903503, "Quantum control": 0.6547262668609619 } }, { "id": 2750, "title": "A prospective study comparing the quality of coronary computed tomography angiography images from photon counting and energy integrating detector systems", "abstract": "Background: As guidelines endorse the use of computed tomography (CT) for examining coronary artery disease (CAD), it is important to compare the advantages and disadvantages of the novel photon count...", "citations": 4, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2756, "doi": "10.1177/02841851231199384", "umap_coordinates": { "x": 395.7449645996094, "y": 133.177490234375, "z": 205.05203247070312 }, "tsne_coordinates": { "x": -5.7928571701049805, "y": 24.413217544555664, "z": -18.142494201660156 }, "pca_coordinates": { "x": -2.4874541759490967, "y": 4.187486171722412, "z": 3.949052333831787 }, "axis_scores": { "Quantum imaging": 0.707801878452301, "Quantum Life Science Sensing": 0.6529866456985474, "Quantum sensing Detection": 0.6655392646789551, "Quantum sensing Metrology": 0.6344472765922546, "Quantum sensing navigation": 0.6570314764976501, "Quantum sensing Position": 0.6478368043899536, "Quantum sensing Timing": 0.6740525960922241, "Quantum sensing": 0.6635627746582031, "Quantum control": 0.6409461498260498 } }, { "id": 2751, "title": "Measurement of the two-time intensity-correlation function of arbitrary states", "abstract": "For light-intensity-correlation measurements, different methods are used in the high-photon-number or high-intensity regime and in the single- and two-photon regime. Hence, there is an unfortunate mea...", "citations": 3, "author_count": 3, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2757, "doi": "10.1103/PhysRevA.98.033812", "umap_coordinates": { "x": 395.66754150390625, "y": 136.20388793945312, "z": 207.2773895263672 }, "tsne_coordinates": { "x": -21.273351669311523, "y": -13.450152397155762, "z": 4.335320472717285 }, "pca_coordinates": { "x": 2.753113269805908, "y": 2.2108616828918457, "z": 1.7170848846435547 }, "axis_scores": { "Quantum imaging": 0.7814245820045471, "Quantum Life Science Sensing": 0.7557121515274048, "Quantum sensing Detection": 0.773659884929657, "Quantum sensing Metrology": 0.7430647611618042, "Quantum sensing navigation": 0.7402456998825073, "Quantum sensing Position": 0.7322543859481812, "Quantum sensing Timing": 0.7741851806640625, "Quantum sensing": 0.7727491855621338, "Quantum control": 0.7370807528495789 } }, { "id": 2752, "title": "Primary Thermometry of Propagating Microwaves in the Quantum Regime", "abstract": "The ability to control and measure the temperature of propagating microwave modes down to very low temperatures is indispensable for quantum information processing and may open opportunities for studi...", "citations": 36, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2758, "doi": "10.1103/PhysRevX.10.041054", "umap_coordinates": { "x": 395.0267639160156, "y": 135.84075927734375, "z": 208.36712646484375 }, "tsne_coordinates": { "x": -15.568339347839355, "y": -21.338102340698242, "z": -7.172836780548096 }, "pca_coordinates": { "x": 3.646605968475342, "y": 1.117729663848877, "z": 1.131138563156128 }, "axis_scores": { "Quantum imaging": 0.7136164903640747, "Quantum Life Science Sensing": 0.7573307156562805, "Quantum sensing Detection": 0.7452502846717834, "Quantum sensing Metrology": 0.7381818294525146, "Quantum sensing navigation": 0.7379155158996582, "Quantum sensing Position": 0.738818347454071, "Quantum sensing Timing": 0.7158180475234985, "Quantum sensing": 0.7510387301445007, "Quantum control": 0.6880093216896057 } }, { "id": 2753, "title": "Giant quantum Hall plateaus generated by charge transfer in epitaxial graphene", "abstract": "Epitaxial graphene has proven itself to be the best candidate for quantum electrical resistance standards due to its wide quantum Hall plateaus with exceptionally high breakdown currents. However one ...", "citations": 37, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2759, "doi": "10.1038/srep30296", "umap_coordinates": { "x": 393.1973876953125, "y": 136.314453125, "z": 207.52061462402344 }, "tsne_coordinates": { "x": 7.883875846862793, "y": -7.267666339874268, "z": 24.134235382080078 }, "pca_coordinates": { "x": 1.4094281196594238, "y": -1.6041951179504395, "z": -1.4104788303375244 }, "axis_scores": { "Quantum imaging": 0.7227501273155212, "Quantum Life Science Sensing": 0.7472281455993652, "Quantum sensing Detection": 0.7201957106590271, "Quantum sensing Metrology": 0.7141666412353516, "Quantum sensing navigation": 0.7154576182365417, "Quantum sensing Position": 0.6937150955200195, "Quantum sensing Timing": 0.6790003776550293, "Quantum sensing": 0.7333944439888, "Quantum control": 0.6967558860778809 } }, { "id": 2754, "title": "Sharp entanglement thresholds in the logarithmic negativity of disjoint blocks in the transverse-field Ising chain", "abstract": "Entanglement has developed into an essential concept for the characterization of phases and phase transitions in ground states of quantum many-body systems. In this work we use the logarithmic negativ...", "citations": 23, "author_count": 6, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2760, "doi": "10.1088/1367-2630/aad9ba", "umap_coordinates": { "x": 394.2294921875, "y": 136.99075317382812, "z": 207.7223358154297 }, "tsne_coordinates": { "x": 14.264788627624512, "y": -18.558765411376953, "z": 18.1820125579834 }, "pca_coordinates": { "x": 1.2404506206512451, "y": 1.7721498012542725, "z": 0.6996437907218933 }, "axis_scores": { "Quantum imaging": 0.6888734698295593, "Quantum Life Science Sensing": 0.674590528011322, "Quantum sensing Detection": 0.6954210996627808, "Quantum sensing Metrology": 0.6661413908004761, "Quantum sensing navigation": 0.6853225231170654, "Quantum sensing Position": 0.6746262907981873, "Quantum sensing Timing": 0.6939043402671814, "Quantum sensing": 0.6925706267356873, "Quantum control": 0.6484122276306152 } }, { "id": 2755, "title": "Carrier transfer between V-grooved quantum wire and vertical quantum well", "abstract": "We report the temperature dependence of the photoluminescence from our V-grooved GaAs/AlGaAs quantum wires. Based on the specially resolved luminescence results, our results show that in the processes...", "citations": 3, "author_count": 12, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2761, "doi": "10.1016/S0375-9601(01)00022-6", "umap_coordinates": { "x": 393.1333312988281, "y": 135.2605438232422, "z": 207.26705932617188 }, "tsne_coordinates": { "x": 21.750185012817383, "y": -4.96507453918457, "z": 22.57234764099121 }, "pca_coordinates": { "x": 0.7197887897491455, "y": -1.5343308448791504, "z": 0.6747124791145325 }, "axis_scores": { "Quantum imaging": 0.7093083262443542, "Quantum Life Science Sensing": 0.7173945307731628, "Quantum sensing Detection": 0.7032358646392822, "Quantum sensing Metrology": 0.7000287175178528, "Quantum sensing navigation": 0.730068027973175, "Quantum sensing Position": 0.7211125493049622, "Quantum sensing Timing": 0.6901239156723022, "Quantum sensing": 0.7198899388313293, "Quantum control": 0.7007898092269897 } }, { "id": 2756, "title": "Symplectic Cuts and Open/Closed Strings I", "abstract": "This paper introduces a concrete relation between genus zero closed Gromov-Witten invariants of Calabi-Yau threefolds and genus zero open Gromov-Witten invariants of a Lagrangian A-brane in the same t...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2762, "doi": "10.1007/s00220-024-05190-5", "umap_coordinates": { "x": 394.1251220703125, "y": 136.77545166015625, "z": 206.80914306640625 }, "tsne_coordinates": { "x": -6.562787055969238, "y": -10.451927185058594, "z": 29.18121910095215 }, "pca_coordinates": { "x": 0.6490250825881958, "y": 2.50022554397583, "z": -0.8636230826377869 }, "axis_scores": { "Quantum imaging": 0.7216383814811707, "Quantum Life Science Sensing": 0.7286758422851562, "Quantum sensing Detection": 0.7089714407920837, "Quantum sensing Metrology": 0.6891809701919556, "Quantum sensing navigation": 0.7052801251411438, "Quantum sensing Position": 0.689044177532196, "Quantum sensing Timing": 0.6959255337715149, "Quantum sensing": 0.7167792916297913, "Quantum control": 0.7222928404808044 } }, { "id": 2757, "title": "Measurement of the isolated photon cross section in p(p)over-bar collisions at √s=1.96 TeV", "abstract": "The cross section for the inclusive production of isolated photons has been measured in p (p) over bar collisions at root s = 1.96 TeV with the DO detector at the Fermilab Tevatron Collider. The photo...", "citations": 77, "author_count": 569, "categories": [ "Astronomy & Astrophysics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2763, "doi": "10.1016/j.physletb.2006.04.048", "umap_coordinates": { "x": 396.6305236816406, "y": 134.28826904296875, "z": 207.54144287109375 }, "tsne_coordinates": { "x": -29.23223304748535, "y": 7.374578475952148, "z": -11.840045928955078 }, "pca_coordinates": { "x": -0.10426044464111328, "y": 0.10880446434020996, "z": 3.3031692504882812 }, "axis_scores": { "Quantum imaging": 0.6976786851882935, "Quantum Life Science Sensing": 0.6893472671508789, "Quantum sensing Detection": 0.7049121856689453, "Quantum sensing Metrology": 0.6719086170196533, "Quantum sensing navigation": 0.6686946153640747, "Quantum sensing Position": 0.6864163875579834, "Quantum sensing Timing": 0.6769987344741821, "Quantum sensing": 0.7014492154121399, "Quantum control": 0.6411471366882324 } }, { "id": 2758, "title": "Measurement of isolated-photon plus two-jet production in pp collisions at √s=13 TeV with the ATLAS detector", "abstract": "The dynamics of isolated-photon plus two-jet production in pp collisions at a centre-of-mass energy of 13 TeV are studied with the ATLAS detector at the LHC using a dataset corresponding to an integra...", "citations": 8, "author_count": 2679, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2764, "doi": "10.1007/JHEP03(2020)179", "umap_coordinates": { "x": 396.873779296875, "y": 134.397705078125, "z": 207.27713012695312 }, "tsne_coordinates": { "x": -33.159461975097656, "y": 10.877593040466309, "z": -9.859682083129883 }, "pca_coordinates": { "x": -1.4019882678985596, "y": 1.396136999130249, "z": 3.741029739379883 }, "axis_scores": { "Quantum imaging": 0.707594633102417, "Quantum Life Science Sensing": 0.7093443274497986, "Quantum sensing Detection": 0.7149026393890381, "Quantum sensing Metrology": 0.6847571134567261, "Quantum sensing navigation": 0.6705008745193481, "Quantum sensing Position": 0.6870768070220947, "Quantum sensing Timing": 0.6931192874908447, "Quantum sensing": 0.7076675891876221, "Quantum control": 0.6578711271286011 } }, { "id": 2759, "title": "Magnetic field measurements and their uncertainties: the FORS1 legacy", "abstract": "Context. During the last decade, the FORS1 instrument of the ESO Very Large Telescope has been extensively used to study stellar magnetism. A number of interesting discoveries of magnetic fields in se...", "citations": 125, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2765, "doi": "10.1051/0004-6361/201118098", "umap_coordinates": { "x": 395.20361328125, "y": 135.5209197998047, "z": 205.813720703125 }, "tsne_coordinates": { "x": -24.69768714904785, "y": 20.947654724121094, "z": 8.992691993713379 }, "pca_coordinates": { "x": -0.3008251190185547, "y": 2.7705836296081543, "z": -0.8643336296081543 }, "axis_scores": { "Quantum imaging": 0.6732549071311951, "Quantum Life Science Sensing": 0.7205542325973511, "Quantum sensing Detection": 0.6612150073051453, "Quantum sensing Metrology": 0.7063130140304565, "Quantum sensing navigation": 0.7034233212471008, "Quantum sensing Position": 0.6847805380821228, "Quantum sensing Timing": 0.6798620820045471, "Quantum sensing": 0.6891935467720032, "Quantum control": 0.6760865449905396 } }, { "id": 2760, "title": "An Atomically Dispersed Mn-Photocatalyst for Generating Hydrogen Peroxide from Seawater via the Water Oxidation Reaction (WOR)", "abstract": "In this work, we have fabricatedan aryl amino-substitutedgraphiticcarbon nitride (g-C3N4) catalyst with atomicallydispersed Mn capable of generating hydrogen peroxide (H2O2) directly from seawater. Th...", "citations": 172, "author_count": 18, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2766, "doi": "10.1021/jacs.3c03785", "umap_coordinates": { "x": 392.1762390136719, "y": 135.11288452148438, "z": 204.67994689941406 }, "tsne_coordinates": { "x": 10.486494064331055, "y": -7.830127239227295, "z": -13.700389862060547 }, "pca_coordinates": { "x": -1.8966295719146729, "y": -0.7050538063049316, "z": -1.7738463878631592 }, "axis_scores": { "Quantum imaging": 0.6911346316337585, "Quantum Life Science Sensing": 0.7238644361495972, "Quantum sensing Detection": 0.6806788444519043, "Quantum sensing Metrology": 0.6969230771064758, "Quantum sensing navigation": 0.6996821165084839, "Quantum sensing Position": 0.6557890772819519, "Quantum sensing Timing": 0.6205321550369263, "Quantum sensing": 0.7048780918121338, "Quantum control": 0.663605809211731 } }, { "id": 2761, "title": "Spin-Optical Dynamics and Quantum Efficiency of a Single V1 Center in Silicon Carbide", "abstract": "Color centers in silicon carbide are emerging candidates for distributed spin-based quantum applications due to the scalability of host materials and the demonstration of integration into nanophotonic...", "citations": 14, "author_count": 12, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2767, "doi": "10.1103/PhysRevApplied.17.054005", "umap_coordinates": { "x": 394.25213623046875, "y": 134.06224060058594, "z": 208.30421447753906 }, "tsne_coordinates": { "x": 4.7479658126831055, "y": -24.151107788085938, "z": -9.68768310546875 }, "pca_coordinates": { "x": 2.928040027618408, "y": -2.405634880065918, "z": 0.6007866263389587 }, "axis_scores": { "Quantum imaging": 0.7386040091514587, "Quantum Life Science Sensing": 0.7404802441596985, "Quantum sensing Detection": 0.7269043326377869, "Quantum sensing Metrology": 0.7229743003845215, "Quantum sensing navigation": 0.7246532440185547, "Quantum sensing Position": 0.7011080980300903, "Quantum sensing Timing": 0.6980215311050415, "Quantum sensing": 0.7331770062446594, "Quantum control": 0.7308098673820496 } }, { "id": 2762, "title": "Efficient symmetry-based homonuclear dipolar recoupling of quadrupolar spins: double-quantum NMR correlations in amorphous solids", "abstract": "We report novel symmetry-based pulse sequences for exciting double-quantum (2Q) coherences between the central transitions of half-integer spin quadrupolar nuclei in the NMR of rotating solids. Compar...", "citations": 54, "author_count": 3, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2768, "doi": "10.1039/b808295b", "umap_coordinates": { "x": 392.6466369628906, "y": 136.93797302246094, "z": 206.89479064941406 }, "tsne_coordinates": { "x": 11.68453311920166, "y": 1.426131248474121, "z": 34.14558410644531 }, "pca_coordinates": { "x": 1.0785636901855469, "y": -1.6545686721801758, "z": -1.6594949960708618 }, "axis_scores": { "Quantum imaging": 0.7226142883300781, "Quantum Life Science Sensing": 0.7222966551780701, "Quantum sensing Detection": 0.6947261095046997, "Quantum sensing Metrology": 0.7025734186172485, "Quantum sensing navigation": 0.7011162042617798, "Quantum sensing Position": 0.6729729175567627, "Quantum sensing Timing": 0.6843178272247314, "Quantum sensing": 0.7197083234786987, "Quantum control": 0.6855490803718567 } }, { "id": 2763, "title": "Demagnetization field effects in two-dimensional solution NMR", "abstract": "Anomolous cross-peaks in two-dimensional spectra are sometimes observed for samples that have a high density of magnetic nuclear spins. Two interpretations of these effects have been given in the lite...", "citations": 149, "author_count": 2, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2769, "doi": "10.1002/(SICI)1099-0534(1996)8:2<77::AID-CMR1>3.0.CO;2-L", "umap_coordinates": { "x": 392.5221862792969, "y": 137.0640411376953, "z": 206.79576110839844 }, "tsne_coordinates": { "x": 12.956282615661621, "y": 5.366868495941162, "z": 28.823942184448242 }, "pca_coordinates": { "x": -0.24146616458892822, "y": 2.993720054626465, "z": -3.024155378341675 }, "axis_scores": { "Quantum imaging": 0.7122132778167725, "Quantum Life Science Sensing": 0.6972336173057556, "Quantum sensing Detection": 0.6722778677940369, "Quantum sensing Metrology": 0.6726171970367432, "Quantum sensing navigation": 0.6651140451431274, "Quantum sensing Position": 0.6538874506950378, "Quantum sensing Timing": 0.6537324786186218, "Quantum sensing": 0.683861255645752, "Quantum control": 0.6820715069770813 } }, { "id": 2764, "title": "Photosynthetic rates of Ulva (Chlorophyta) measured by pulse amplitude modulated (PAM) fluorometry", "abstract": "In this work, we attempt to quantify pulse amplitude modulated (PAM) chlorophyll fluorescence measurements in marine macroalgae in terms of photosynthetic rates. For this, the effective electron trans...", "citations": 119, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2770, "doi": "10.1080/09670260010001735641", "umap_coordinates": { "x": 394.07904052734375, "y": 135.938232421875, "z": 204.37167358398438 }, "tsne_coordinates": { "x": 21.764549255371094, "y": 31.047208786010742, "z": 9.316329002380371 }, "pca_coordinates": { "x": -2.1804544925689697, "y": 1.476172685623169, "z": 1.1996252536773682 }, "axis_scores": { "Quantum imaging": 0.6876174211502075, "Quantum Life Science Sensing": 0.73264479637146, "Quantum sensing Detection": 0.6834757924079895, "Quantum sensing Metrology": 0.7042867541313171, "Quantum sensing navigation": 0.6839884519577026, "Quantum sensing Position": 0.6730443835258484, "Quantum sensing Timing": 0.6601831316947937, "Quantum sensing": 0.6987642645835876, "Quantum control": 0.6689497232437134 } }, { "id": 2765, "title": "Transition dynamics in two-photon ionisation", "abstract": "We review various aspects of photoemission dynamics in the case of two-photon ionisation. We first recall the definition of a transition phase specific to two-photon transitions. Numerical experiments...", "citations": 11, "author_count": 6, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2771, "doi": "10.1088/2040-8986/aa8f56", "umap_coordinates": { "x": 393.26776123046875, "y": 136.03416442871094, "z": 206.55441284179688 }, "tsne_coordinates": { "x": -2.446167469024658, "y": -2.5750529766082764, "z": 10.090075492858887 }, "pca_coordinates": { "x": 1.0285439491271973, "y": 0.6423566341400146, "z": -0.9167722463607788 }, "axis_scores": { "Quantum imaging": 0.7094689607620239, "Quantum Life Science Sensing": 0.7043353915214539, "Quantum sensing Detection": 0.697357714176178, "Quantum sensing Metrology": 0.663115382194519, "Quantum sensing navigation": 0.6884930729866028, "Quantum sensing Position": 0.661779522895813, "Quantum sensing Timing": 0.6916592121124268, "Quantum sensing": 0.6931145787239075, "Quantum control": 0.6658023595809937 } }, { "id": 2766, "title": "Avalanche diodes as photon-counting detectors in astronomical photometry", "abstract": "Photon-counting silicon avalanche photo-diodes (APDs) offer very high quantum efficiency, and might eventually replace photocathode detectors in high-speed photometry of astronomical objects. Laborato...", "citations": 16, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2772, "doi": "10.1117/12.395485", "umap_coordinates": { "x": 395.42181396484375, "y": 133.42652893066406, "z": 206.4899444580078 }, "tsne_coordinates": { "x": -4.544674396514893, "y": 12.928505897521973, "z": -24.749025344848633 }, "pca_coordinates": { "x": -0.738674521446228, "y": -0.7460684776306152, "z": 3.7956366539001465 }, "axis_scores": { "Quantum imaging": 0.7166841626167297, "Quantum Life Science Sensing": 0.7386162281036377, "Quantum sensing Detection": 0.7414543032646179, "Quantum sensing Metrology": 0.7176868915557861, "Quantum sensing navigation": 0.7365791201591492, "Quantum sensing Position": 0.7182121872901917, "Quantum sensing Timing": 0.7314105033874512, "Quantum sensing": 0.7350040078163147, "Quantum control": 0.6750346422195435 } }, { "id": 2767, "title": "Exploration of ultrafast dynamic processes in photocatalysis: Advances and challenges", "abstract": "Photocatalysis plays a crucial role in harnessing renewable energy by efficiently converting solar energy into chemical energy. Adequate cognition of photogenerated charge carrier dynamics in photocat...", "citations": 5, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2773, "doi": "10.1016/j.fmre.2024.04.003", "umap_coordinates": { "x": 393.0398864746094, "y": 135.6324462890625, "z": 205.56985473632812 }, "tsne_coordinates": { "x": 11.70819091796875, "y": 3.2947585582733154, "z": 5.490015506744385 }, "pca_coordinates": { "x": -2.9410293102264404, "y": -0.18881654739379883, "z": -3.271697998046875 }, "axis_scores": { "Quantum imaging": 0.7246185541152954, "Quantum Life Science Sensing": 0.7527153491973877, "Quantum sensing Detection": 0.6969375610351562, "Quantum sensing Metrology": 0.6896846890449524, "Quantum sensing navigation": 0.6990393400192261, "Quantum sensing Position": 0.6681076884269714, "Quantum sensing Timing": 0.6598371863365173, "Quantum sensing": 0.7107951641082764, "Quantum control": 0.6931709051132202 } }, { "id": 2768, "title": "Using coherent X-rays to follow dynamics in amorphous ices", "abstract": "Amorphous solid water plays an important role in our overall understanding of water's phase diagram. X-ray scattering is an important tool for characterising the different states of water, and modern ...", "citations": 5, "author_count": 15, "categories": [ "Environmental Sciences & Ecology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2774, "doi": "10.1039/d2ea00052k", "umap_coordinates": { "x": 392.97271728515625, "y": 136.0554962158203, "z": 206.83189392089844 }, "tsne_coordinates": { "x": 0.3079841136932373, "y": 0.7553935050964355, "z": 26.823484420776367 }, "pca_coordinates": { "x": 0.2512955665588379, "y": 0.022038698196411133, "z": -1.4471044540405273 }, "axis_scores": { "Quantum imaging": 0.70494544506073, "Quantum Life Science Sensing": 0.7289193272590637, "Quantum sensing Detection": 0.6900709867477417, "Quantum sensing Metrology": 0.6588543653488159, "Quantum sensing navigation": 0.6919317245483398, "Quantum sensing Position": 0.6650250554084778, "Quantum sensing Timing": 0.6716864109039307, "Quantum sensing": 0.6913876533508301, "Quantum control": 0.6810216903686523 } }, { "id": 2769, "title": "High-Efficiency Formamidinium Lead Bromide Perovskite Nanocrystal-Based Light-Emitting Diodes Fabricated via a Surface Defect Self-Passivation Strategy", "abstract": "Formamidinium lead bromide (FAPbBr(3)) nanocrystals (NCs) demonstrate great potential in light-emitting diode (LED) applications due to their pure green emission and excellent stability. However, the ...", "citations": 67, "author_count": 12, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2775, "doi": "10.1002/adom.201901390", "umap_coordinates": { "x": 392.2508239746094, "y": 133.72573852539062, "z": 205.2336883544922 }, "tsne_coordinates": { "x": 23.313396453857422, "y": 1.27854585647583, "z": -24.170190811157227 }, "pca_coordinates": { "x": -3.427624464035034, "y": -2.0948081016540527, "z": 0.37306851148605347 }, "axis_scores": { "Quantum imaging": 0.6982531547546387, "Quantum Life Science Sensing": 0.6943615674972534, "Quantum sensing Detection": 0.6933889985084534, "Quantum sensing Metrology": 0.6944534778594971, "Quantum sensing navigation": 0.6914323568344116, "Quantum sensing Position": 0.6764757037162781, "Quantum sensing Timing": 0.6408202052116394, "Quantum sensing": 0.6969841122627258, "Quantum control": 0.6955657005310059 } }, { "id": 2770, "title": "INVESTIGATION OF THE PARTICLE-SIZE DISTRIBUTION OF A MODEL INTRAVENOUS EMULSION", "abstract": "The size distribution of a model intravenous (iv) emulsion was investigated with special regard to the lower size classes. The special interest in the lower size classes is related to their possible r...", "citations": 21, "author_count": 3, "categories": [ "Pharmacology & Pharmacy" ], "year": 1993, "topic": [ "all" ], "embedding_index": 2776, "doi": "10.1002/jps.2600821211", "umap_coordinates": { "x": 393.875, "y": 134.82809448242188, "z": 204.9429931640625 }, "tsne_coordinates": { "x": 10.843475341796875, "y": 23.75364112854004, "z": 5.185918807983398 }, "pca_coordinates": { "x": -2.0335330963134766, "y": 2.804981231689453, "z": -0.9290415048599243 }, "axis_scores": { "Quantum imaging": 0.664509117603302, "Quantum Life Science Sensing": 0.6674339771270752, "Quantum sensing Detection": 0.6339369416236877, "Quantum sensing Metrology": 0.6276548504829407, "Quantum sensing navigation": 0.6388493180274963, "Quantum sensing Position": 0.6489877700805664, "Quantum sensing Timing": 0.627488911151886, "Quantum sensing": 0.6486032605171204, "Quantum control": 0.648579478263855 } }, { "id": 2771, "title": "Epitaxial growth of indium arsenide nanowires on silicon using nucleation templates formed by self-assembled organic coatings", "abstract": "Indium arsenide nanowires are grown directly on silicon substrates (see figure and cover) using a method employing self-assembled organic coatings to create oxide-based growth templates. High-performa...", "citations": 93, "author_count": 12, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2777, "doi": "10.1002/adma.200700285", "umap_coordinates": { "x": 392.40289306640625, "y": 133.51527404785156, "z": 207.24041748046875 }, "tsne_coordinates": { "x": 22.93691635131836, "y": -16.435644149780273, "z": -4.287495136260986 }, "pca_coordinates": { "x": -2.1147055625915527, "y": -3.840944290161133, "z": 2.499828338623047 }, "axis_scores": { "Quantum imaging": 0.6831353306770325, "Quantum Life Science Sensing": 0.6722075939178467, "Quantum sensing Detection": 0.6780998706817627, "Quantum sensing Metrology": 0.6799035668373108, "Quantum sensing navigation": 0.6747761368751526, "Quantum sensing Position": 0.6454756855964661, "Quantum sensing Timing": 0.6378515362739563, "Quantum sensing": 0.6795169711112976, "Quantum control": 0.66618812084198 } }, { "id": 2772, "title": "Search for Production of Resonant States in the Photon-Jet Mass Distribution Using pp Collisions at √s=7 TeV Collected by the ATLAS Detector", "abstract": "This Letter describes a model-independent search for the production of new resonant states in photon + jet events in 2.11 fb(-1) of proton-proton collisions at root s = 7 TeV. We compare the photon + ...", "citations": 12, "author_count": 2671, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2778, "doi": "10.1103/PhysRevLett.108.211802", "umap_coordinates": { "x": 396.629638671875, "y": 134.5938720703125, "z": 207.6766357421875 }, "tsne_coordinates": { "x": -38.43700408935547, "y": 5.930846214294434, "z": -12.499869346618652 }, "pca_coordinates": { "x": 2.2091403007507324, "y": -0.08792519569396973, "z": 3.4981908798217773 }, "axis_scores": { "Quantum imaging": 0.6640970706939697, "Quantum Life Science Sensing": 0.6771105527877808, "Quantum sensing Detection": 0.6828047037124634, "Quantum sensing Metrology": 0.6557007431983948, "Quantum sensing navigation": 0.6713533401489258, "Quantum sensing Position": 0.6770731806755066, "Quantum sensing Timing": 0.6887308359146118, "Quantum sensing": 0.6749955415725708, "Quantum control": 0.622120201587677 } }, { "id": 2773, "title": "Assembling strained InAs islands on patterned GaAs substrates with chemical beam epitaxy", "abstract": "The assembly of strained InAs islands was manipulated through growth on patterned GaAs substrates with chemical beam epitaxy. Conditions were found to selectively place the islands in patterns feature...", "citations": 99, "author_count": 7, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2779, "doi": "10.1063/1.115867", "umap_coordinates": { "x": 392.94366455078125, "y": 133.82064819335938, "z": 208.17359924316406 }, "tsne_coordinates": { "x": 34.817771911621094, "y": -24.160425186157227, "z": 7.157268524169922 }, "pca_coordinates": { "x": 0.870305061340332, "y": -3.2364654541015625, "z": 2.351198673248291 }, "axis_scores": { "Quantum imaging": 0.6944767832756042, "Quantum Life Science Sensing": 0.6728376150131226, "Quantum sensing Detection": 0.6932502388954163, "Quantum sensing Metrology": 0.7106937766075134, "Quantum sensing navigation": 0.6963262557983398, "Quantum sensing Position": 0.6893398761749268, "Quantum sensing Timing": 0.6714763045310974, "Quantum sensing": 0.7131113409996033, "Quantum control": 0.6847203373908997 } }, { "id": 2774, "title": "PHENIX results on jet modification with π0- and photon-triggered two particle correlations in p plus p, p(d) plus Au, and Au plus Au collisions", "abstract": "As a colorless probe, direct photons balance the p(T) of the away-side jet at leading order. Direct photon-hadron correlations are thus an excellent probe for nuclear structure and QCD effects, includ...", "citations": 3, "author_count": 718, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2780, "doi": "10.1016/j.nuclphysa.2018.08.037", "umap_coordinates": { "x": 396.8179016113281, "y": 134.33645629882812, "z": 207.55166625976562 }, "tsne_coordinates": { "x": -29.69998550415039, "y": 4.725027084350586, "z": -7.014313697814941 }, "pca_coordinates": { "x": -0.9013814926147461, "y": 1.235382318496704, "z": 1.7954144477844238 }, "axis_scores": { "Quantum imaging": 0.711609423160553, "Quantum Life Science Sensing": 0.6965936422348022, "Quantum sensing Detection": 0.7293289303779602, "Quantum sensing Metrology": 0.6919785737991333, "Quantum sensing navigation": 0.7023279070854187, "Quantum sensing Position": 0.7123633623123169, "Quantum sensing Timing": 0.7336246967315674, "Quantum sensing": 0.7183718681335449, "Quantum control": 0.7078731656074524 } }, { "id": 2775, "title": "Coherent interaction with two-level fluctuators using near field scanning microwave microscopy", "abstract": "Near field Scanning Microwave Microscopy (NSMM) is a scanning probe technique that non-invasively can obtain material properties on the nano-scale at microwave frequencies. While focus has been on dev...", "citations": 10, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2781, "doi": "10.1038/srep17176", "umap_coordinates": { "x": 394.2088317871094, "y": 135.36532592773438, "z": 206.73985290527344 }, "tsne_coordinates": { "x": -7.645077705383301, "y": -5.8489298820495605, "z": 16.937156677246094 }, "pca_coordinates": { "x": 0.2897026538848877, "y": 0.783954381942749, "z": 0.6444246172904968 }, "axis_scores": { "Quantum imaging": 0.7362940311431885, "Quantum Life Science Sensing": 0.7418085336685181, "Quantum sensing Detection": 0.7231243848800659, "Quantum sensing Metrology": 0.7282531261444092, "Quantum sensing navigation": 0.7287536859512329, "Quantum sensing Position": 0.6954999566078186, "Quantum sensing Timing": 0.7082756161689758, "Quantum sensing": 0.7312697768211365, "Quantum control": 0.6929325461387634 } }, { "id": 2776, "title": "Integration of Sensory Quanta in Cuneate Nucleus Neurons In Vivo", "abstract": "Discriminative touch relies on afferent information carried to the central nervous system by action potentials (spikes) in ensembles of primary afferents bundled in peripheral nerves. These sensory qu...", "citations": 59, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2782, "doi": "10.1371/journal.pone.0056630", "umap_coordinates": { "x": 394.89495849609375, "y": 135.8753204345703, "z": 204.85873413085938 }, "tsne_coordinates": { "x": -9.4071626663208, "y": 23.82721710205078, "z": 11.247727394104004 }, "pca_coordinates": { "x": 0.5071923732757568, "y": 2.0203630924224854, "z": 1.704899787902832 }, "axis_scores": { "Quantum imaging": 0.7481871247291565, "Quantum Life Science Sensing": 0.7290250658988953, "Quantum sensing Detection": 0.7460325956344604, "Quantum sensing Metrology": 0.738386332988739, "Quantum sensing navigation": 0.7566211223602295, "Quantum sensing Position": 0.7101385593414307, "Quantum sensing Timing": 0.7443726658821106, "Quantum sensing": 0.758163571357727, "Quantum control": 0.7281340956687927 } }, { "id": 2777, "title": "Narrow inhomogeneous distribution of spin-active emitters in silicon carbide", "abstract": "Optically active solid-state spin registers have demonstrated their unique potential in quantum computing, communication, and sensing. Realizing scalability and increasing application complexity requi...", "citations": 17, "author_count": 18, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2783, "doi": "10.1063/5.0046563", "umap_coordinates": { "x": 393.2495422363281, "y": 134.3851776123047, "z": 207.06578063964844 }, "tsne_coordinates": { "x": 19.70658302307129, "y": -21.37713050842285, "z": 8.4425687789917 }, "pca_coordinates": { "x": -0.7383596897125244, "y": -1.9367718696594238, "z": 0.6178151965141296 }, "axis_scores": { "Quantum imaging": 0.7327528595924377, "Quantum Life Science Sensing": 0.7122872471809387, "Quantum sensing Detection": 0.7055963277816772, "Quantum sensing Metrology": 0.695813775062561, "Quantum sensing navigation": 0.7108996510505676, "Quantum sensing Position": 0.6947190165519714, "Quantum sensing Timing": 0.6661514639854431, "Quantum sensing": 0.7244821190834045, "Quantum control": 0.6995999813079834 } }, { "id": 2778, "title": "Transport fluctuation relations in interacting quantum pumps", "abstract": "The understanding of out-of-equilibrium fluctuation relations in small open quantum systems has been a focal point of research in recent years. In particular, for systems with adiabatic time-dependent...", "citations": 4, "author_count": 3, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2784, "doi": "10.1088/1367-2630/abd3c5", "umap_coordinates": { "x": 394.5411071777344, "y": 136.37132263183594, "z": 207.62619018554688 }, "tsne_coordinates": { "x": -15.494222640991211, "y": -9.764331817626953, "z": 14.887520790100098 }, "pca_coordinates": { "x": 3.497885227203369, "y": 1.3630266189575195, "z": -0.1279652714729309 }, "axis_scores": { "Quantum imaging": 0.7283032536506653, "Quantum Life Science Sensing": 0.7062780261039734, "Quantum sensing Detection": 0.7202557921409607, "Quantum sensing Metrology": 0.7179858684539795, "Quantum sensing navigation": 0.7496351003646851, "Quantum sensing Position": 0.7119777202606201, "Quantum sensing Timing": 0.7112351059913635, "Quantum sensing": 0.7329482436180115, "Quantum control": 0.7316047549247742 } }, { "id": 2779, "title": "Chronology of particle emission from the E/A=61 MeV 36Ar+27Al reaction - art. no. 092701", "abstract": "The emission time chronology of neutrons, protons, and deuterons from the E/A=61 MeV Ar-36+Al-27 reaction is deduced from two-particle correlation functions....", "citations": 30, "author_count": 17, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2785, "doi": "10.1103/PhysRevLett.91.092701", "umap_coordinates": { "x": 396.260986328125, "y": 134.82131958007812, "z": 207.11871337890625 }, "tsne_coordinates": { "x": -32.21662902832031, "y": -0.6547747850418091, "z": -13.422394752502441 }, "pca_coordinates": { "x": 1.837860107421875, "y": 1.7934041023254395, "z": 0.6828970313072205 }, "axis_scores": { "Quantum imaging": 0.6825039386749268, "Quantum Life Science Sensing": 0.7222239971160889, "Quantum sensing Detection": 0.6912587285041809, "Quantum sensing Metrology": 0.6786453127861023, "Quantum sensing navigation": 0.7045764327049255, "Quantum sensing Position": 0.7037419676780701, "Quantum sensing Timing": 0.7205823063850403, "Quantum sensing": 0.6967273354530334, "Quantum control": 0.6723257899284363 } }, { "id": 2780, "title": "Quantum random number generation based on a perovskite light emitting diode", "abstract": "True random number generation is not thought to be possible using a classical approach but by instead exploiting quantum mechanics genuine randomness can be achieved. Here, the authors demonstrate a c...", "citations": 15, "author_count": 8, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2786, "doi": "10.1038/s42005-023-01280-3", "umap_coordinates": { "x": 393.0372619628906, "y": 134.65435791015625, "z": 206.17355346679688 }, "tsne_coordinates": { "x": -5.9084882736206055, "y": 1.7789241075515747, "z": -3.975679397583008 }, "pca_coordinates": { "x": -1.4191488027572632, "y": -1.8697161674499512, "z": -0.2624939978122711 }, "axis_scores": { "Quantum imaging": 0.7217445969581604, "Quantum Life Science Sensing": 0.7252958416938782, "Quantum sensing Detection": 0.7149145007133484, "Quantum sensing Metrology": 0.7101069688796997, "Quantum sensing navigation": 0.7174807786941528, "Quantum sensing Position": 0.6989365816116333, "Quantum sensing Timing": 0.6856821179389954, "Quantum sensing": 0.732875406742096, "Quantum control": 0.7305283546447754 } }, { "id": 2781, "title": "Photoisomerization Efficiency of a Solar Thermal Fuel in the Strong Coupling Regime", "abstract": "Strong exciton-photon coupling is achieved when the interaction between molecules and an electromagnetic field is increased to a level where they cannot be treated as separate systems. This leads to t...", "citations": 57, "author_count": 7, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2787, "doi": "10.1002/adfm.202010737", "umap_coordinates": { "x": 392.9067077636719, "y": 134.9830780029297, "z": 205.65576171875 }, "tsne_coordinates": { "x": -7.740814208984375, "y": -12.777613639831543, "z": -12.373801231384277 }, "pca_coordinates": { "x": -2.4522271156311035, "y": -0.6140918731689453, "z": -0.2678294777870178 }, "axis_scores": { "Quantum imaging": 0.6956515908241272, "Quantum Life Science Sensing": 0.7168066501617432, "Quantum sensing Detection": 0.6913847327232361, "Quantum sensing Metrology": 0.6893617510795593, "Quantum sensing navigation": 0.6593454480171204, "Quantum sensing Position": 0.6625166535377502, "Quantum sensing Timing": 0.6563531160354614, "Quantum sensing": 0.7001345157623291, "Quantum control": 0.6633462905883789 } }, { "id": 2782, "title": "Near-Field Scanning Microwave Microscopy in the Single Photon Regime", "abstract": "The microwave properties of nano-scale structures are important in a wide variety of applications in quantum technology. Here we describe a low-power cryogenic near-field scanning microwave microscope...", "citations": 31, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2788, "doi": "10.1038/s41598-019-48780-3", "umap_coordinates": { "x": 394.46661376953125, "y": 133.52157592773438, "z": 207.07029724121094 }, "tsne_coordinates": { "x": -10.828155517578125, "y": -2.0220882892608643, "z": -25.099285125732422 }, "pca_coordinates": { "x": -1.9953577518463135, "y": -1.5707478523254395, "z": 2.754817247390747 }, "axis_scores": { "Quantum imaging": 0.7137476801872253, "Quantum Life Science Sensing": 0.7347801923751831, "Quantum sensing Detection": 0.7095000147819519, "Quantum sensing Metrology": 0.7199751734733582, "Quantum sensing navigation": 0.6851181983947754, "Quantum sensing Position": 0.6687607169151306, "Quantum sensing Timing": 0.6545822024345398, "Quantum sensing": 0.7227243185043335, "Quantum control": 0.6283679008483887 } }, { "id": 2783, "title": "Excited-State Aromaticity Improves Molecular Motors: A Computational Analysis", "abstract": "A new approach to the design of more efficient light-driven rotary molecular motors is presented and evaluated computationally based on molecular dynamics simulations. The approach involves enabling p...", "citations": 39, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2789, "doi": "10.1021/acs.orglett.7b02257", "umap_coordinates": { "x": 392.0807189941406, "y": 135.65773010253906, "z": 204.64761352539062 }, "tsne_coordinates": { "x": -4.39458703994751, "y": 8.576369285583496, "z": -9.900961875915527 }, "pca_coordinates": { "x": -0.3534908890724182, "y": -1.1315689086914062, "z": -2.8109543323516846 }, "axis_scores": { "Quantum imaging": 0.6919629573822021, "Quantum Life Science Sensing": 0.6600295305252075, "Quantum sensing Detection": 0.6757797598838806, "Quantum sensing Metrology": 0.662376880645752, "Quantum sensing navigation": 0.6905990839004517, "Quantum sensing Position": 0.6730573773384094, "Quantum sensing Timing": 0.6656184792518616, "Quantum sensing": 0.6945756673812866, "Quantum control": 0.7074887752532959 } }, { "id": 2784, "title": "Information and two-level systems", "abstract": "I consider the general functions depending on the quantum state represented by a two-level density matrix. Quantities of relevance are state distance and informations measures, i.e. entropies. I intro...", "citations": 1, "author_count": 2, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2790, "doi": "10.1016/j.optcom.2005.12.081", "umap_coordinates": { "x": 394.7904968261719, "y": 136.3763427734375, "z": 205.84927368164062 }, "tsne_coordinates": { "x": -14.361420631408691, "y": -2.414813756942749, "z": -12.354454040527344 }, "pca_coordinates": { "x": -0.41696739196777344, "y": 1.5198121070861816, "z": 0.3311217427253723 }, "axis_scores": { "Quantum imaging": 0.8010094165802002, "Quantum Life Science Sensing": 0.7824874520301819, "Quantum sensing Detection": 0.7930383086204529, "Quantum sensing Metrology": 0.7724936008453369, "Quantum sensing navigation": 0.7661623358726501, "Quantum sensing Position": 0.753964900970459, "Quantum sensing Timing": 0.7456510663032532, "Quantum sensing": 0.7990432977676392, "Quantum control": 0.7754630446434021 } }, { "id": 2785, "title": "Ligand-Induced Cation-π Interactions Enable High-Efficiency, Bright, and Spectrally Stable Rec. 2020 Pure-Red Perovskite Light-Emitting Diodes", "abstract": "Achieving high-performance perovskite light-emitting diodes (PeLEDs) with pure-red electroluminescence for practical applications remains a critical challenge because of the problematic luminescence p...", "citations": 56, "author_count": 20, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2791, "doi": "10.1002/adma.202303938", "umap_coordinates": { "x": 391.6937561035156, "y": 133.85394287109375, "z": 205.11154174804688 }, "tsne_coordinates": { "x": 19.90208625793457, "y": -0.5778118371963501, "z": -23.782114028930664 }, "pca_coordinates": { "x": -3.4276418685913086, "y": -3.070711135864258, "z": -2.721414566040039 }, "axis_scores": { "Quantum imaging": 0.6795276403427124, "Quantum Life Science Sensing": 0.6815098524093628, "Quantum sensing Detection": 0.644816517829895, "Quantum sensing Metrology": 0.6369996070861816, "Quantum sensing navigation": 0.6406683325767517, "Quantum sensing Position": 0.6180823445320129, "Quantum sensing Timing": 0.613336980342865, "Quantum sensing": 0.6646897196769714, "Quantum control": 0.6431761980056763 } }, { "id": 2786, "title": "Efficient and High-Luminance Perovskite Light-Emitting Diodes Based on CsPbBr3 Nanocrystals Synthesized from a Dual-Purpose Organic Lead Source", "abstract": "Rational engineering of the surface properties of perovskite nanocrystals (PeNCs) is critical to obtain light emitters with simultaneous high photoluminescence efficiency and excellent charge transpor...", "citations": 24, "author_count": 10, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2792, "doi": "10.1002/smll.202003939", "umap_coordinates": { "x": 391.7402038574219, "y": 133.51980590820312, "z": 205.4048614501953 }, "tsne_coordinates": { "x": 25.82614517211914, "y": 0.2970103621482849, "z": -21.704524993896484 }, "pca_coordinates": { "x": -4.265087127685547, "y": -3.2500739097595215, "z": -0.6095669269561768 }, "axis_scores": { "Quantum imaging": 0.6670510768890381, "Quantum Life Science Sensing": 0.6736696362495422, "Quantum sensing Detection": 0.6585726141929626, "Quantum sensing Metrology": 0.6418883800506592, "Quantum sensing navigation": 0.6426284313201904, "Quantum sensing Position": 0.6301898956298828, "Quantum sensing Timing": 0.6265461444854736, "Quantum sensing": 0.6716752648353577, "Quantum control": 0.6504403352737427 } }, { "id": 2787, "title": "Polymeric/inorganic multifunctional nanoparticles for simultaneous drug delivery and visualization", "abstract": "Nanoparticles consisting of different biocompatible materials are attracting a lot of interest in the biomedical area as useful tools for drug delivery, photo-therapy and contrast enhancement agents i...", "citations": 4, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2793, "doi": "10.1557/PROC-1257-O04-03", "umap_coordinates": { "x": 393.6679992675781, "y": 134.00650024414062, "z": 204.68072509765625 }, "tsne_coordinates": { "x": 14.192471504211426, "y": 22.96851921081543, "z": -13.8663330078125 }, "pca_coordinates": { "x": -3.687584400177002, "y": 0.8216596841812134, "z": 1.9226136207580566 }, "axis_scores": { "Quantum imaging": 0.7241097688674927, "Quantum Life Science Sensing": 0.6892197132110596, "Quantum sensing Detection": 0.6843499541282654, "Quantum sensing Metrology": 0.6807653903961182, "Quantum sensing navigation": 0.6824119091033936, "Quantum sensing Position": 0.6737090349197388, "Quantum sensing Timing": 0.6675383448600769, "Quantum sensing": 0.687679648399353, "Quantum control": 0.6832441687583923 } }, { "id": 2788, "title": "Growth-temperature-dependent band alignment in Si/Ge quantum dots from photoluminescence spectroscopy", "abstract": "The present work is a photoluminescence study of Si-embedded Stranski-Krastanov Ge quantum dots. The value of the conduction band offset is a result of the magnitude of the tensile strain in the Si su...", "citations": 36, "author_count": 6, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2794, "doi": "10.1103/PhysRevB.73.195319", "umap_coordinates": { "x": 393.5928955078125, "y": 134.4751739501953, "z": 208.8334197998047 }, "tsne_coordinates": { "x": 3.9357070922851562, "y": -25.373083114624023, "z": 0.47129684686660767 }, "pca_coordinates": { "x": 3.036994457244873, "y": -2.998192310333252, "z": 1.1519923210144043 }, "axis_scores": { "Quantum imaging": 0.7019384503364563, "Quantum Life Science Sensing": 0.7210918664932251, "Quantum sensing Detection": 0.706091046333313, "Quantum sensing Metrology": 0.7045509219169617, "Quantum sensing navigation": 0.706007719039917, "Quantum sensing Position": 0.7228410243988037, "Quantum sensing Timing": 0.6910684704780579, "Quantum sensing": 0.7131189107894897, "Quantum control": 0.6753690242767334 } }, { "id": 2789, "title": "A Bacterial Photosynthetic Enzymatic Unit Modulating Organic Transistors with Light", "abstract": "The photochemical core of every photosynthetic apparatus is the reaction center, a transmembrane enzyme that converts photons into charge-separated states across the biological membrane with an almost...", "citations": 18, "author_count": 16, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2795, "doi": "10.1002/aelm.201900888", "umap_coordinates": { "x": 393.70562744140625, "y": 136.55101013183594, "z": 204.8926239013672 }, "tsne_coordinates": { "x": -18.193193435668945, "y": 14.106133460998535, "z": 16.65108299255371 }, "pca_coordinates": { "x": -1.9034528732299805, "y": -0.8199987411499023, "z": 0.3736489415168762 }, "axis_scores": { "Quantum imaging": 0.7219865918159485, "Quantum Life Science Sensing": 0.73627769947052, "Quantum sensing Detection": 0.7212123870849609, "Quantum sensing Metrology": 0.7234445810317993, "Quantum sensing navigation": 0.7117384076118469, "Quantum sensing Position": 0.6928264498710632, "Quantum sensing Timing": 0.6822500228881836, "Quantum sensing": 0.737269401550293, "Quantum control": 0.7162176370620728 } }, { "id": 2790, "title": "Measurement of Direct Photons in Au plus Au Collisions at √sNN=200 GeV", "abstract": "We report the measurement of direct photons at midrapidity in Au + Au collisions at root s(NN) = 200 GeV. The direct photon signal was extracted for the transverse momentum range of 4 GeV/c < pT < 22 ...", "citations": 95, "author_count": 348, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2796, "doi": "10.1103/PhysRevLett.109.152302", "umap_coordinates": { "x": 396.2771301269531, "y": 134.60903930664062, "z": 207.90574645996094 }, "tsne_coordinates": { "x": -33.94926452636719, "y": 1.7508997917175293, "z": -18.811542510986328 }, "pca_coordinates": { "x": 2.9998250007629395, "y": -0.8702716827392578, "z": 4.526087284088135 }, "axis_scores": { "Quantum imaging": 0.7129820585250854, "Quantum Life Science Sensing": 0.7429265379905701, "Quantum sensing Detection": 0.7673319578170776, "Quantum sensing Metrology": 0.7420194149017334, "Quantum sensing navigation": 0.7489890456199646, "Quantum sensing Position": 0.7369580864906311, "Quantum sensing Timing": 0.7251625061035156, "Quantum sensing": 0.755005955696106, "Quantum control": 0.687574028968811 } }, { "id": 2791, "title": "Evidence of wave-particle duality for single fast hydrogen atoms", "abstract": "We report the direct observation of interference effects in a Young's double-slit experiment where the interfering waves are two spatially separated components of the de Broglie wave of single 1.3 MeV...", "citations": 44, "author_count": 16, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2797, "doi": "10.1103/PhysRevLett.101.083201", "umap_coordinates": { "x": 395.3052978515625, "y": 135.12814331054688, "z": 207.9601287841797 }, "tsne_coordinates": { "x": 0.5935943126678467, "y": -18.067462921142578, "z": -10.913610458374023 }, "pca_coordinates": { "x": 3.8916192054748535, "y": -0.17806434631347656, "z": 1.7619857788085938 }, "axis_scores": { "Quantum imaging": 0.7046415209770203, "Quantum Life Science Sensing": 0.7200707793235779, "Quantum sensing Detection": 0.7068934440612793, "Quantum sensing Metrology": 0.6789756417274475, "Quantum sensing navigation": 0.6893962621688843, "Quantum sensing Position": 0.6761565208435059, "Quantum sensing Timing": 0.6872818470001221, "Quantum sensing": 0.7059853076934814, "Quantum control": 0.6378197073936462 } }, { "id": 2792, "title": "Magnetic phases of one-dimensional lattices with 2-4 fermions per site", "abstract": "We study the spectral and magnetic properties of one-dimensional lattices filled with 2-4 fermions (with spin-1/2) per lattice site. We use a generalized Hubbard model that takes into account all the ...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2798, "doi": "10.1088/1367-2630/10/6/063013", "umap_coordinates": { "x": 394.17889404296875, "y": 136.91067504882812, "z": 207.58509826660156 }, "tsne_coordinates": { "x": -3.892305850982666, "y": -18.09676742553711, "z": 35.45161819458008 }, "pca_coordinates": { "x": 2.2095987796783447, "y": 0.7908680438995361, "z": -0.148434579372406 }, "axis_scores": { "Quantum imaging": 0.6989163756370544, "Quantum Life Science Sensing": 0.6723253726959229, "Quantum sensing Detection": 0.6528478860855103, "Quantum sensing Metrology": 0.6721254587173462, "Quantum sensing navigation": 0.6767938733100891, "Quantum sensing Position": 0.6469359397888184, "Quantum sensing Timing": 0.6544544696807861, "Quantum sensing": 0.6759046912193298, "Quantum control": 0.6622875332832336 } }, { "id": 2793, "title": "Effects of geometric phases in Josephson junction arrays", "abstract": "We show that the sn route vortex velocity dependent part of the Magnus force in a Josephson junction array is effectively zero, and predict zero Hall effect ill the classical limit. However, geometric...", "citations": 12, "author_count": 4, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2799, "doi": "10.1103/PhysRevLett.77.562", "umap_coordinates": { "x": 394.7157897949219, "y": 136.84588623046875, "z": 208.2159423828125 }, "tsne_coordinates": { "x": 1.3446623086929321, "y": -17.559825897216797, "z": 9.872879981994629 }, "pca_coordinates": { "x": 4.0709147453308105, "y": -0.8055405616760254, "z": 0.5415297150611877 }, "axis_scores": { "Quantum imaging": 0.731281042098999, "Quantum Life Science Sensing": 0.7112794518470764, "Quantum sensing Detection": 0.7034983038902283, "Quantum sensing Metrology": 0.7083135843276978, "Quantum sensing navigation": 0.7340317964553833, "Quantum sensing Position": 0.73362797498703, "Quantum sensing Timing": 0.7463451623916626, "Quantum sensing": 0.721112847328186, "Quantum control": 0.7081836462020874 } }, { "id": 2794, "title": "Two-field high-scale inflation in a sub-Planckian region of field space", "abstract": "We present a simple two-field model of inflation and show how to embed it in string theory as a straightforward generalization of axion monodromy models. Phenomenologically, the predictions are equiva...", "citations": 121, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2800, "doi": "10.1103/PhysRevD.81.103535", "umap_coordinates": { "x": 395.1955261230469, "y": 136.40467834472656, "z": 207.2986297607422 }, "tsne_coordinates": { "x": -13.852622985839844, "y": -30.487211227416992, "z": 5.079619884490967 }, "pca_coordinates": { "x": 2.2743473052978516, "y": 0.9194813966751099, "z": -0.9364886283874512 }, "axis_scores": { "Quantum imaging": 0.711117148399353, "Quantum Life Science Sensing": 0.7233934998512268, "Quantum sensing Detection": 0.6951091289520264, "Quantum sensing Metrology": 0.6893566250801086, "Quantum sensing navigation": 0.685320258140564, "Quantum sensing Position": 0.6774967312812805, "Quantum sensing Timing": 0.6725543737411499, "Quantum sensing": 0.711574137210846, "Quantum control": 0.6839132308959961 } }, { "id": 2795, "title": "Integrated silicon photonic MEMS", "abstract": "Silicon photonics has emerged as a mature technology that is expected to play a key role in critical emerging applications, including very high data rate optical communications, distance sensing for a...", "citations": 105, "author_count": 19, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2801, "doi": "10.1038/s41378-023-00498-z", "umap_coordinates": { "x": 393.9189147949219, "y": 134.45855712890625, "z": 206.36436462402344 }, "tsne_coordinates": { "x": -9.207515716552734, "y": 4.958317279815674, "z": -4.291811943054199 }, "pca_coordinates": { "x": -2.085700750350952, "y": -1.4716086387634277, "z": 1.4848709106445312 }, "axis_scores": { "Quantum imaging": 0.722424328327179, "Quantum Life Science Sensing": 0.728963315486908, "Quantum sensing Detection": 0.716688334941864, "Quantum sensing Metrology": 0.7241415977478027, "Quantum sensing navigation": 0.7213002443313599, "Quantum sensing Position": 0.7245302796363831, "Quantum sensing Timing": 0.6897568702697754, "Quantum sensing": 0.7298043966293335, "Quantum control": 0.7045140266418457 } }, { "id": 2796, "title": "Landauer Versus Nernst: What is the True Cost of Cooling a Quantum System?", "abstract": "Thermodynamics connects our knowledge of the world to our capability to manipulate and thus to control it. This crucial role of control is exemplified by the third law of thermodynamics, Nernst's unat...", "citations": 53, "author_count": 13, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2802, "doi": "10.1103/PRXQuantum.4.010332", "umap_coordinates": { "x": 395.4166259765625, "y": 137.24021911621094, "z": 207.17430114746094 }, "tsne_coordinates": { "x": -31.693355560302734, "y": -19.729970932006836, "z": 2.1076228618621826 }, "pca_coordinates": { "x": 1.2872297763824463, "y": 2.4690942764282227, "z": -1.3527545928955078 }, "axis_scores": { "Quantum imaging": 0.7450840473175049, "Quantum Life Science Sensing": 0.7577012777328491, "Quantum sensing Detection": 0.7502248287200928, "Quantum sensing Metrology": 0.740390419960022, "Quantum sensing navigation": 0.7331331968307495, "Quantum sensing Position": 0.7495304942131042, "Quantum sensing Timing": 0.73043292760849, "Quantum sensing": 0.7618665099143982, "Quantum control": 0.7460629940032959 } }, { "id": 2797, "title": "Ab initio quantum mechanical calculation of the reaction probability for the Cl- + PH2Cl → ClPH2 + Cl- reaction", "abstract": "The S(N)2 substitution reactions at phosphorus play a key role in organic and biological processes. Quantum molecular dynamics simulations have been performed to study the prototype reaction Cl- | PH2...", "citations": 2, "author_count": 4, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2803, "doi": "10.1016/j.chemphys.2013.08.011", "umap_coordinates": { "x": 393.3384094238281, "y": 137.2254638671875, "z": 205.64453125 }, "tsne_coordinates": { "x": -5.160757541656494, "y": 7.9307637214660645, "z": 21.421022415161133 }, "pca_coordinates": { "x": -0.4609915614128113, "y": 0.6090116500854492, "z": -2.377117872238159 }, "axis_scores": { "Quantum imaging": 0.704457700252533, "Quantum Life Science Sensing": 0.7319858074188232, "Quantum sensing Detection": 0.7273856401443481, "Quantum sensing Metrology": 0.7139496207237244, "Quantum sensing navigation": 0.7039484977722168, "Quantum sensing Position": 0.7052145600318909, "Quantum sensing Timing": 0.683102011680603, "Quantum sensing": 0.7301506400108337, "Quantum control": 0.7234306931495667 } }, { "id": 2798, "title": "Determination of absolute quadrupolar tensor orientations by double-quantum NMR on powders", "abstract": "We introduce a new nuclear magnetic resonance (NMR) approach for determining electric field gradient ('quadrupolar') tensor orientations directly from polycrystalline powders. It involves a homonuclea...", "citations": 15, "author_count": 2, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2804, "doi": "10.1016/j.cplett.2009.01.061", "umap_coordinates": { "x": 392.6305236816406, "y": 136.91641235351562, "z": 206.67787170410156 }, "tsne_coordinates": { "x": 14.415458679199219, "y": 1.905205249786377, "z": 26.75593376159668 }, "pca_coordinates": { "x": -1.3212898969650269, "y": 0.5067727565765381, "z": -1.6336684226989746 }, "axis_scores": { "Quantum imaging": 0.7349885702133179, "Quantum Life Science Sensing": 0.7506018877029419, "Quantum sensing Detection": 0.71387779712677, "Quantum sensing Metrology": 0.7262391448020935, "Quantum sensing navigation": 0.7215669751167297, "Quantum sensing Position": 0.7397518157958984, "Quantum sensing Timing": 0.7092225551605225, "Quantum sensing": 0.7369657754898071, "Quantum control": 0.6988585591316223 } }, { "id": 2799, "title": "Utilization of waste tea leaves as bio-surfactant in CdS quantum dots synthesis and their cytotoxicity effect in breast cancer cells", "abstract": "Green technology for nanoparticles synthesis is considered to be of great significance in biomedical applications. Recently, low dimensional semiconductor cadmium sulfide (CdS) quantum dots (QDs) have...", "citations": 31, "author_count": 9, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2805, "doi": "10.1016/j.apsusc.2019.05.050", "umap_coordinates": { "x": 393.11767578125, "y": 134.23281860351562, "z": 204.4658966064453 }, "tsne_coordinates": { "x": 12.915990829467773, "y": 21.062414169311523, "z": -3.5113346576690674 }, "pca_coordinates": { "x": -5.3393378257751465, "y": -2.140223503112793, "z": -1.4418072700500488 }, "axis_scores": { "Quantum imaging": 0.6581084132194519, "Quantum Life Science Sensing": 0.6983667016029358, "Quantum sensing Detection": 0.6547727584838867, "Quantum sensing Metrology": 0.6280477046966553, "Quantum sensing navigation": 0.6286940574645996, "Quantum sensing Position": 0.64765465259552, "Quantum sensing Timing": 0.6544559001922607, "Quantum sensing": 0.661348283290863, "Quantum control": 0.6445313692092896 } }, { "id": 2800, "title": "Double layer photonic crystal membranes in AlGaAs heterostructures for integrated cavity optomechanics", "abstract": "We characterize the opto-mechanical properties of double-layer mechanical devices. These closely spaced photonic crystal membranes can exhibit photonic bound states in the continuum, which could enabl...", "citations": 1, "author_count": 7, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2806, "doi": null, "umap_coordinates": { "x": 391.8187561035156, "y": 139.27047729492188, "z": 209.47476196289062 }, "tsne_coordinates": { "x": -8.611523628234863, "y": 43.662864685058594, "z": -6.0498433113098145 }, "pca_coordinates": { "x": -1.4574410915374756, "y": 1.2895214557647705, "z": -1.9200775623321533 }, "axis_scores": { "Quantum imaging": 0.7321169376373291, "Quantum Life Science Sensing": 0.7337709665298462, "Quantum sensing Detection": 0.7175319194793701, "Quantum sensing Metrology": 0.7164609432220459, "Quantum sensing navigation": 0.7144804000854492, "Quantum sensing Position": 0.6757932901382446, "Quantum sensing Timing": 0.6710422039031982, "Quantum sensing": 0.7274681329727173, "Quantum control": 0.7277011275291443 } }, { "id": 2801, "title": "Sensibilization of p-NiO with ZnSe/CdS and CdS/ZnSe quantum dots for photoelectrochemical water reduction", "abstract": "Core/shell quantum dots (QDs) paired with semiconductor photocathodes for water reduction have rarely been implemented so far. We demonstrate the integration of ZnSe/CdS and CdS/ZnSe QDs with porous p...", "citations": 12, "author_count": 10, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2807, "doi": "10.1039/d0nr06993k", "umap_coordinates": { "x": 391.9507751464844, "y": 134.1029815673828, "z": 205.74365234375 }, "tsne_coordinates": { "x": 15.703453063964844, "y": 3.3644206523895264, "z": -7.000181198120117 }, "pca_coordinates": { "x": -3.2525854110717773, "y": -2.8202390670776367, "z": 0.24389183521270752 }, "axis_scores": { "Quantum imaging": 0.7227481603622437, "Quantum Life Science Sensing": 0.7540203332901001, "Quantum sensing Detection": 0.7273780703544617, "Quantum sensing Metrology": 0.7024711966514587, "Quantum sensing navigation": 0.7128651142120361, "Quantum sensing Position": 0.696768581867218, "Quantum sensing Timing": 0.6713912487030029, "Quantum sensing": 0.7299959063529968, "Quantum control": 0.6794995665550232 } }, { "id": 2802, "title": "Getting DNA and RNA out of the dark with 2CNqA: a bright adenine analogue and interbase FRET donor", "abstract": "With the central role of nucleic acids there is a need for development of fluorophores that facilitate the visualization of processes involving nucleic acids without perturbing their natural propertie...", "citations": 28, "author_count": 14, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2808, "doi": "10.1093/nar/gkaa525", "umap_coordinates": { "x": 392.674072265625, "y": 136.29190063476562, "z": 204.69764709472656 }, "tsne_coordinates": { "x": 8.368261337280273, "y": 13.748520851135254, "z": 3.6732120513916016 }, "pca_coordinates": { "x": -0.5345342755317688, "y": 0.43421506881713867, "z": 0.7239847779273987 }, "axis_scores": { "Quantum imaging": 0.6987450122833252, "Quantum Life Science Sensing": 0.7019375562667847, "Quantum sensing Detection": 0.7017427682876587, "Quantum sensing Metrology": 0.6853778958320618, "Quantum sensing navigation": 0.7180808782577515, "Quantum sensing Position": 0.6770139932632446, "Quantum sensing Timing": 0.684736430644989, "Quantum sensing": 0.7151777744293213, "Quantum control": 0.678892970085144 } }, { "id": 2803, "title": "Acid Dissociation of 3-Mercaptopropionic Acid Coated CdSe-CdS/Cd0.5Zn0.5S/ZnS Core-Multishell Quantum Dot and Strong Ionic Interaction with Ca2+ Ion", "abstract": "By devising careful electrophoresis, it was shown that at pH below 7.0, the electrophoretic mobility of 3-mercaptopropionic acid (3MPA) coated CdSe-ZnS core-shell quantum dots (denoted as QD-3MPA) was...", "citations": 20, "author_count": 11, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2809, "doi": "10.1021/acs.jpcc.5b11023", "umap_coordinates": { "x": 392.6134338378906, "y": 134.830322265625, "z": 205.02015686035156 }, "tsne_coordinates": { "x": 17.032529830932617, "y": 1.9958807229995728, "z": -16.093303680419922 }, "pca_coordinates": { "x": -3.8454484939575195, "y": -2.241298198699951, "z": -2.0542685985565186 }, "axis_scores": { "Quantum imaging": 0.6878035664558411, "Quantum Life Science Sensing": 0.7092425227165222, "Quantum sensing Detection": 0.6859414577484131, "Quantum sensing Metrology": 0.6614115238189697, "Quantum sensing navigation": 0.67423415184021, "Quantum sensing Position": 0.663019061088562, "Quantum sensing Timing": 0.6449552178382874, "Quantum sensing": 0.6964762806892395, "Quantum control": 0.6759389042854309 } }, { "id": 2804, "title": "Vortex trapping and expulsion in thin-film YBa2Cu3O7-δ strips", "abstract": "A scanning superconducting quantum interference device microscope was used to image vortex trapping as a function of the magnetic induction during cooling in thin-film YBa2Cu3O7-delta (YBCO) strips fo...", "citations": 73, "author_count": 11, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2810, "doi": "10.1103/PhysRevB.77.134504", "umap_coordinates": { "x": 394.126220703125, "y": 136.14231872558594, "z": 208.99993896484375 }, "tsne_coordinates": { "x": 0.8217222690582275, "y": -22.043466567993164, "z": 16.79886245727539 }, "pca_coordinates": { "x": 3.6693944931030273, "y": -1.0289156436920166, "z": -0.9654619097709656 }, "axis_scores": { "Quantum imaging": 0.6773486137390137, "Quantum Life Science Sensing": 0.668239176273346, "Quantum sensing Detection": 0.676319420337677, "Quantum sensing Metrology": 0.655756413936615, "Quantum sensing navigation": 0.6844510436058044, "Quantum sensing Position": 0.6713812947273254, "Quantum sensing Timing": 0.6713505387306213, "Quantum sensing": 0.6735343933105469, "Quantum control": 0.6740737557411194 } }, { "id": 2805, "title": "Deposition of platinum nanoparticles, synthesized in water-in-oil microemulsions, on alumina supports", "abstract": "Platinum nanoparticles were prepared in water-in-oil microemulsions and deposited on gamma-alumina using two different methods. In the first method, the alumina support was added to the particle suspe...", "citations": 66, "author_count": 9, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2811, "doi": "10.1021/la0110949", "umap_coordinates": { "x": 392.7248840332031, "y": 134.57806396484375, "z": 205.06175231933594 }, "tsne_coordinates": { "x": 28.142959594726562, "y": 19.943986892700195, "z": 1.0896347761154175 }, "pca_coordinates": { "x": -2.4785070419311523, "y": -3.0530519485473633, "z": -1.0830655097961426 }, "axis_scores": { "Quantum imaging": 0.677406370639801, "Quantum Life Science Sensing": 0.6999083161354065, "Quantum sensing Detection": 0.6687657237052917, "Quantum sensing Metrology": 0.6654354333877563, "Quantum sensing navigation": 0.6518828272819519, "Quantum sensing Position": 0.6495042443275452, "Quantum sensing Timing": 0.63949054479599, "Quantum sensing": 0.6792259216308594, "Quantum control": 0.6546366810798645 } }, { "id": 2806, "title": "Gravitational states of antihydrogen near material surface", "abstract": "We present a theoretical study of the motion of antihydrogen atoms in the Earth's gravitational field near a material surface. We predict the existence of long-living quasistationary states of antihyd...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2812, "doi": "10.1007/s10751-011-0391-8", "umap_coordinates": { "x": 394.97528076171875, "y": 136.09127807617188, "z": 207.37181091308594 }, "tsne_coordinates": { "x": -23.675092697143555, "y": -20.835430145263672, "z": -18.37659454345703 }, "pca_coordinates": { "x": 1.4296002388000488, "y": 1.6075801849365234, "z": -0.7742460370063782 }, "axis_scores": { "Quantum imaging": 0.7168689370155334, "Quantum Life Science Sensing": 0.7368949055671692, "Quantum sensing Detection": 0.7022919654846191, "Quantum sensing Metrology": 0.7113144397735596, "Quantum sensing navigation": 0.7263516187667847, "Quantum sensing Position": 0.7438336610794067, "Quantum sensing Timing": 0.6981180906295776, "Quantum sensing": 0.7172524929046631, "Quantum control": 0.6809483170509338 } }, { "id": 2807, "title": "Coupling to Vibrational Mode", "abstract": "A higher degree of complexity is added by including coupling between electrons and local vibrational modes. Here, we begin by considering the theory for electronic transport through molecular quantum ...", "citations": 2, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2813, "doi": "10.1007/978-90-481-9210-6_7", "umap_coordinates": { "x": 394.16522216796875, "y": 135.96755981445312, "z": 205.56072998046875 }, "tsne_coordinates": { "x": -13.194732666015625, "y": 15.918410301208496, "z": 5.7160115242004395 }, "pca_coordinates": { "x": -0.3808223605155945, "y": 2.6811134815216064, "z": -1.3763805627822876 }, "axis_scores": { "Quantum imaging": 0.6846712827682495, "Quantum Life Science Sensing": 0.7036104798316956, "Quantum sensing Detection": 0.6884170174598694, "Quantum sensing Metrology": 0.6973710656166077, "Quantum sensing navigation": 0.690761148929596, "Quantum sensing Position": 0.6916278004646301, "Quantum sensing Timing": 0.6738631129264832, "Quantum sensing": 0.7046086192131042, "Quantum control": 0.6980135440826416 } }, { "id": 2808, "title": "Near-infrared, eco-friendly ZnAgInSe quantum dots-sensitized graphene oxide-TiO2 hybrid photoanode for high performance photoelectrochemical hydrogen generation", "abstract": "Colloidal semiconductor quantum dots (QDs) are promising building-blocks for the manufacture of cost-effective photoelectrochemical (PEC) cells towards efficient solar-to-hydrogen conversion. Neverthe...", "citations": 27, "author_count": 10, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2814, "doi": "10.1016/j.cej.2021.131298", "umap_coordinates": { "x": 392.5589294433594, "y": 133.81044006347656, "z": 205.16250610351562 }, "tsne_coordinates": { "x": 24.299978256225586, "y": 8.182273864746094, "z": -7.000150680541992 }, "pca_coordinates": { "x": -4.209697723388672, "y": -2.8240694999694824, "z": -1.3966463804244995 }, "axis_scores": { "Quantum imaging": 0.7306383848190308, "Quantum Life Science Sensing": 0.7670791149139404, "Quantum sensing Detection": 0.7221841812133789, "Quantum sensing Metrology": 0.7096369862556458, "Quantum sensing navigation": 0.7127983570098877, "Quantum sensing Position": 0.6920625567436218, "Quantum sensing Timing": 0.6811208724975586, "Quantum sensing": 0.7400139570236206, "Quantum control": 0.723759651184082 } }, { "id": 2809, "title": "Spontaneous Self-Assembly of Cesium Lead Halide Perovskite Nanoplatelets into Cuboid Crystals with High Intensity Blue Emission", "abstract": "Colloidal all-inorganic perovskite nanocrystals have gained significant attention as a promising material for both fundamental and applied research due to their excellent emission properties. However,...", "citations": 95, "author_count": 9, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2815, "doi": "10.1002/advs.201900462", "umap_coordinates": { "x": 391.6109313964844, "y": 133.73663330078125, "z": 205.4781951904297 }, "tsne_coordinates": { "x": 24.530517578125, "y": -2.9729044437408447, "z": -20.895761489868164 }, "pca_coordinates": { "x": -2.5365450382232666, "y": -4.211248874664307, "z": -0.5228964686393738 }, "axis_scores": { "Quantum imaging": 0.7000188827514648, "Quantum Life Science Sensing": 0.708711564540863, "Quantum sensing Detection": 0.6801255941390991, "Quantum sensing Metrology": 0.6668051481246948, "Quantum sensing navigation": 0.6728249788284302, "Quantum sensing Position": 0.643002450466156, "Quantum sensing Timing": 0.6368399858474731, "Quantum sensing": 0.6905750632286072, "Quantum control": 0.6891041398048401 } }, { "id": 2810, "title": "Short-Term Responses in Maximum Quantum Yield of PSII (Fv/Fm) to ex situ Temperature Treatment of Populations of Bryophytes Originating from Different Sites in Hokkaido, Northern Japan", "abstract": "There is limited knowledge available on the thermal acclimation processes for bryophytes, especially when considering variation between populations or sites. This study investigated whether short-term...", "citations": 49, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2816, "doi": "10.3390/plants5020022", "umap_coordinates": { "x": 394.11932373046875, "y": 136.0074005126953, "z": 203.63597106933594 }, "tsne_coordinates": { "x": 13.038104057312012, "y": 37.369178771972656, "z": 13.990663528442383 }, "pca_coordinates": { "x": -2.3325557708740234, "y": 0.7782223224639893, "z": -2.9412031173706055 }, "axis_scores": { "Quantum imaging": 0.655926525592804, "Quantum Life Science Sensing": 0.7245945930480957, "Quantum sensing Detection": 0.6547520756721497, "Quantum sensing Metrology": 0.6538355350494385, "Quantum sensing navigation": 0.6569901704788208, "Quantum sensing Position": 0.649405300617218, "Quantum sensing Timing": 0.6738784313201904, "Quantum sensing": 0.6754955649375916, "Quantum control": 0.6572640538215637 } }, { "id": 2811, "title": "Slow recombination in quantum dot solid solar cell using p-i-n architecture with organic p-type hole transport material", "abstract": "The interfaces between different materials in the heterojunction colloidal quantum dot (QD) solar cell play an important role for charge carrier separation, recombination and collection. Here, an orga...", "citations": 53, "author_count": 9, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2817, "doi": "10.1039/c5ta07111a", "umap_coordinates": { "x": 392.0316467285156, "y": 134.6258544921875, "z": 206.3704071044922 }, "tsne_coordinates": { "x": 19.925235748291016, "y": -13.303346633911133, "z": -18.173442840576172 }, "pca_coordinates": { "x": -0.46752554178237915, "y": -3.2037205696105957, "z": 0.7636956572532654 }, "axis_scores": { "Quantum imaging": 0.6854361295700073, "Quantum Life Science Sensing": 0.6984904408454895, "Quantum sensing Detection": 0.6807044744491577, "Quantum sensing Metrology": 0.6591628193855286, "Quantum sensing navigation": 0.6808250546455383, "Quantum sensing Position": 0.6510745882987976, "Quantum sensing Timing": 0.6630908846855164, "Quantum sensing": 0.687654972076416, "Quantum control": 0.6639744639396667 } }, { "id": 2812, "title": "The effects of pendant vs. fused thiophene attachment upon the luminescence lifetimes and electrochemistry of tris(2,2′-bipyridine)ruthenium(II) complexes", "abstract": "The electrochemical and photophysical properties for a range of tris(2,2'-bipyridine)ruthenium(II) complexes in which a thiophene substituent is attached to one of the bipyridine ligands by either a p...", "citations": 16, "author_count": 8, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2818, "doi": "10.1002/ejic.200800456", "umap_coordinates": { "x": 392.220458984375, "y": 135.5048370361328, "z": 204.83981323242188 }, "tsne_coordinates": { "x": 3.343196153640747, "y": 6.592630863189697, "z": -12.74937629699707 }, "pca_coordinates": { "x": -3.596848964691162, "y": -1.031144142150879, "z": -2.75825572013855 }, "axis_scores": { "Quantum imaging": 0.686069667339325, "Quantum Life Science Sensing": 0.7134154438972473, "Quantum sensing Detection": 0.6733573079109192, "Quantum sensing Metrology": 0.6510975956916809, "Quantum sensing navigation": 0.6592956781387329, "Quantum sensing Position": 0.6701452732086182, "Quantum sensing Timing": 0.7109186053276062, "Quantum sensing": 0.6878929734230042, "Quantum control": 0.6690947413444519 } }, { "id": 2813, "title": "Nonlinear gauge interactions: A possible solution to the measurement problem in quantum mechanics", "abstract": "Two fundamental and unsolved problems in physics are as follows: (i) the resolution of the measurement problem in quantum mechanics and (ii) the quantization of strongly nonlinear (non-Abelian) gauge ...", "citations": 5, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2819, "doi": "10.4006/1.3354830", "umap_coordinates": { "x": 395.0416259765625, "y": 136.65478515625, "z": 206.92269897460938 }, "tsne_coordinates": { "x": -34.74407196044922, "y": 0.9423209428787231, "z": 16.186843872070312 }, "pca_coordinates": { "x": 2.6387147903442383, "y": 3.128607749938965, "z": 0.9976817965507507 }, "axis_scores": { "Quantum imaging": 0.7176440358161926, "Quantum Life Science Sensing": 0.6999037861824036, "Quantum sensing Detection": 0.7067017555236816, "Quantum sensing Metrology": 0.719218373298645, "Quantum sensing navigation": 0.7369593977928162, "Quantum sensing Position": 0.7076325416564941, "Quantum sensing Timing": 0.6821520924568176, "Quantum sensing": 0.7130085229873657, "Quantum control": 0.6955448389053345 } }, { "id": 2814, "title": "Recent progress on the use of graphene-based nanomaterials in perovskite solar cells", "abstract": "Perovskite solar cells (PSCs) are one of the most environmentally renewable technologies for next-generation energy-harvesting devices. The motivation for PSCs as next-generation solar cells stems fro...", "citations": 35, "author_count": 4, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2820, "doi": "10.1039/d2ta09985c", "umap_coordinates": { "x": 392.1411437988281, "y": 134.40711975097656, "z": 205.36026000976562 }, "tsne_coordinates": { "x": 11.762187957763672, "y": -2.9607040882110596, "z": -16.985198974609375 }, "pca_coordinates": { "x": -3.1747748851776123, "y": -3.24898099899292, "z": -1.965928077697754 }, "axis_scores": { "Quantum imaging": 0.6605257987976074, "Quantum Life Science Sensing": 0.6932789087295532, "Quantum sensing Detection": 0.6532957553863525, "Quantum sensing Metrology": 0.6513881683349609, "Quantum sensing navigation": 0.6494467258453369, "Quantum sensing Position": 0.6519516706466675, "Quantum sensing Timing": 0.6391992568969727, "Quantum sensing": 0.6720364093780518, "Quantum control": 0.6610073447227478 } }, { "id": 2815, "title": "Code deformation and lattice surgery are gauge fixing", "abstract": "The large-scale execution of quantum algorithms requires basic quantum operations to be implemented fault-tolerantly. The most popular technique for accomplishing this, using the devices that can be r...", "citations": 65, "author_count": 7, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2821, "doi": "10.1088/1367-2630/ab0199", "umap_coordinates": { "x": 394.6977233886719, "y": 137.10316467285156, "z": 206.69802856445312 }, "tsne_coordinates": { "x": -30.357240676879883, "y": -7.264379024505615, "z": 14.585200309753418 }, "pca_coordinates": { "x": 0.7296102046966553, "y": 3.8496437072753906, "z": 0.04926729202270508 }, "axis_scores": { "Quantum imaging": 0.6965075135231018, "Quantum Life Science Sensing": 0.6736431121826172, "Quantum sensing Detection": 0.673671543598175, "Quantum sensing Metrology": 0.6746554374694824, "Quantum sensing navigation": 0.7115660309791565, "Quantum sensing Position": 0.6986418962478638, "Quantum sensing Timing": 0.7030502557754517, "Quantum sensing": 0.6930761337280273, "Quantum control": 0.7207129597663879 } }, { "id": 2816, "title": "A deep learning one-step solution to material image reconstruction in photon counting spectral CT", "abstract": "Photon counting detectors in x-ray computed tomography (CT) are a major technological advancement that provides additional energy information and improves the decomposition of the CT image into materi...", "citations": 3, "author_count": 4, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2822, "doi": "10.1117/12.2612426", "umap_coordinates": { "x": 395.3944396972656, "y": 132.84429931640625, "z": 205.95726013183594 }, "tsne_coordinates": { "x": -3.8036980628967285, "y": 16.903087615966797, "z": -18.793439865112305 }, "pca_coordinates": { "x": -2.5129969120025635, "y": 1.7989846467971802, "z": 3.685645580291748 }, "axis_scores": { "Quantum imaging": 0.7337232828140259, "Quantum Life Science Sensing": 0.7016096711158752, "Quantum sensing Detection": 0.7137671113014221, "Quantum sensing Metrology": 0.7130169868469238, "Quantum sensing navigation": 0.6988966464996338, "Quantum sensing Position": 0.6911637187004089, "Quantum sensing Timing": 0.6899024248123169, "Quantum sensing": 0.7175845503807068, "Quantum control": 0.6530696749687195 } }, { "id": 2817, "title": "Causality in quantum field theory with classical sources", "abstract": "In an exact quantum-mechanical framework we show that space-time expectation values of the second-quantized electromagnetic fields in the Coulomb gauge in the presence of a classical conserved source ...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2823, "doi": "10.1088/2399-6528/ab3c1c", "umap_coordinates": { "x": 395.40570068359375, "y": 136.98092651367188, "z": 206.46041870117188 }, "tsne_coordinates": { "x": -41.47848129272461, "y": -3.817067861557007, "z": -4.554501533508301 }, "pca_coordinates": { "x": 2.8605151176452637, "y": 3.6839561462402344, "z": 1.0099503993988037 }, "axis_scores": { "Quantum imaging": 0.7335646748542786, "Quantum Life Science Sensing": 0.7193408608436584, "Quantum sensing Detection": 0.7284404635429382, "Quantum sensing Metrology": 0.7119690775871277, "Quantum sensing navigation": 0.7457963824272156, "Quantum sensing Position": 0.7094870805740356, "Quantum sensing Timing": 0.7275677919387817, "Quantum sensing": 0.7342315316200256, "Quantum control": 0.7345360517501831 } }, { "id": 2818, "title": "Photoexcitation Dynamics in Electrochemically Charged CdSe Quantum Dots: From Hot Carrier Cooling to Auger Recombination of Negative Trions", "abstract": "Fulfilling the potential of colloidal semiconductor quantum dots (QDs) in electrically driven applications remains a challenge largely since operation of such devices involves charged QDs with drastic...", "citations": 16, "author_count": 12, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2824, "doi": "10.1021/acsaem.0c02478", "umap_coordinates": { "x": 392.052734375, "y": 135.6149444580078, "z": 206.26780700683594 }, "tsne_coordinates": { "x": 13.77628231048584, "y": -0.3011776804924011, "z": 9.672264099121094 }, "pca_coordinates": { "x": -1.2481069564819336, "y": -2.6027450561523438, "z": -2.576399326324463 }, "axis_scores": { "Quantum imaging": 0.6864230036735535, "Quantum Life Science Sensing": 0.7050208449363708, "Quantum sensing Detection": 0.6781244277954102, "Quantum sensing Metrology": 0.6442872285842896, "Quantum sensing navigation": 0.6477026343345642, "Quantum sensing Position": 0.6424510478973389, "Quantum sensing Timing": 0.6793094873428345, "Quantum sensing": 0.6725141406059265, "Quantum control": 0.6702336072921753 } }, { "id": 2819, "title": "Quantitative Analysis of Singlet Oxygen (1O2) Generation via Energy Transfer in Nanocomposites Based on Semiconductor Quantum Dots and Porphyrin Ligands", "abstract": "We report on the results of a detailed quantitative experimental exciton relaxation pathways as well as direct measurement of singlet oxygen (O-1(2)) generation efficiencies for CdSe/ZnS quantum dot (...", "citations": 77, "author_count": 9, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2825, "doi": "10.1021/jp203987r", "umap_coordinates": { "x": 392.723876953125, "y": 135.3408966064453, "z": 205.4934844970703 }, "tsne_coordinates": { "x": 17.09296417236328, "y": 7.164328575134277, "z": 4.6955389976501465 }, "pca_coordinates": { "x": -2.2589662075042725, "y": -3.2072806358337402, "z": -1.0686275959014893 }, "axis_scores": { "Quantum imaging": 0.72008216381073, "Quantum Life Science Sensing": 0.742715060710907, "Quantum sensing Detection": 0.7174422740936279, "Quantum sensing Metrology": 0.7031747102737427, "Quantum sensing navigation": 0.680246889591217, "Quantum sensing Position": 0.6796329021453857, "Quantum sensing Timing": 0.672938346862793, "Quantum sensing": 0.7275429964065552, "Quantum control": 0.6829392313957214 } }, { "id": 2820, "title": "Luminescent dipyridophenazine-ruthenium probes for liposome membranes", "abstract": "Ruthenium complexes with dipyridophenazine (dppz) type ligands have several characteristics that make them good candidates for use as luminescence probes for hydrophobic environments. Most studies hav...", "citations": 29, "author_count": 5, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2826, "doi": "10.1021/jp803964x", "umap_coordinates": { "x": 392.7857971191406, "y": 135.551513671875, "z": 204.58934020996094 }, "tsne_coordinates": { "x": 8.429631233215332, "y": 15.320246696472168, "z": -17.178058624267578 }, "pca_coordinates": { "x": -2.887155771255493, "y": -0.722358226776123, "z": -1.6854417324066162 }, "axis_scores": { "Quantum imaging": 0.6941636800765991, "Quantum Life Science Sensing": 0.714668869972229, "Quantum sensing Detection": 0.6848064064979553, "Quantum sensing Metrology": 0.6724424958229065, "Quantum sensing navigation": 0.6621618866920471, "Quantum sensing Position": 0.6643019914627075, "Quantum sensing Timing": 0.6356450319290161, "Quantum sensing": 0.6964960098266602, "Quantum control": 0.6645790934562683 } }, { "id": 2821, "title": "Color center in β-Ga2O3 emitting at the telecom range", "abstract": "Transition metal (TM) ions incorporated into a host from a wide bandgap semiconductor are recognized as a promising system for quantum technologies with enormous potential. In this work, we report on ...", "citations": 3, "author_count": 10, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2827, "doi": "10.1063/5.0179921", "umap_coordinates": { "x": 393.86328125, "y": 135.1465301513672, "z": 205.49078369140625 }, "tsne_coordinates": { "x": -6.184288501739502, "y": -24.978586196899414, "z": -23.298147201538086 }, "pca_coordinates": { "x": -1.2261306047439575, "y": -0.6903491020202637, "z": 0.1740512251853943 }, "axis_scores": { "Quantum imaging": 0.695737361907959, "Quantum Life Science Sensing": 0.7201011776924133, "Quantum sensing Detection": 0.6966292858123779, "Quantum sensing Metrology": 0.6881992220878601, "Quantum sensing navigation": 0.6989149451255798, "Quantum sensing Position": 0.6974111199378967, "Quantum sensing Timing": 0.693566620349884, "Quantum sensing": 0.7022278308868408, "Quantum control": 0.6616297364234924 } }, { "id": 2822, "title": "Nanowire integration in silica based integrated optical circuits: Limitations and challenges towards quantum computing", "abstract": "Optical integrated circuits suggest a very promising platform for the development of robust and efficient quantum computers. A critical issue to their development and scalability is the integration of...", "citations": 6, "author_count": 8, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2828, "doi": "10.1016/j.optlastec.2023.110276", "umap_coordinates": { "x": 393.6889343261719, "y": 133.56954956054688, "z": 206.24082946777344 }, "tsne_coordinates": { "x": 4.43816614151001, "y": -1.3258525133132935, "z": -31.080026626586914 }, "pca_coordinates": { "x": -1.6721522808074951, "y": -2.0549960136413574, "z": 2.204089879989624 }, "axis_scores": { "Quantum imaging": 0.7532241344451904, "Quantum Life Science Sensing": 0.7579004168510437, "Quantum sensing Detection": 0.7554499506950378, "Quantum sensing Metrology": 0.7522655725479126, "Quantum sensing navigation": 0.761580765247345, "Quantum sensing Position": 0.7374292612075806, "Quantum sensing Timing": 0.7101960182189941, "Quantum sensing": 0.7592496275901794, "Quantum control": 0.7175101637840271 } }, { "id": 2823, "title": "Near-infrared heavy-metal-free SnSe/ZnSe quantum dots for efficient photoelectrochemical hydrogen generation", "abstract": "Solar-driven photoelectrochemical (PEC) hydrogen production is one of the most effective strategies for solar-to-hydrogen energy conversion. Among various types of semiconductors used for PEC anodes, ...", "citations": 23, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2829, "doi": "10.1039/d0nr09154e", "umap_coordinates": { "x": 392.1721496582031, "y": 133.7313690185547, "z": 205.68185424804688 }, "tsne_coordinates": { "x": 22.224098205566406, "y": 3.2376763820648193, "z": -9.088119506835938 }, "pca_coordinates": { "x": -1.3533709049224854, "y": -3.645658016204834, "z": -0.06183832883834839 }, "axis_scores": { "Quantum imaging": 0.7051680088043213, "Quantum Life Science Sensing": 0.7338295578956604, "Quantum sensing Detection": 0.7056477069854736, "Quantum sensing Metrology": 0.6872219443321228, "Quantum sensing navigation": 0.7050467133522034, "Quantum sensing Position": 0.675495982170105, "Quantum sensing Timing": 0.6842795610427856, "Quantum sensing": 0.7171452045440674, "Quantum control": 0.675500750541687 } }, { "id": 2824, "title": "Evolution of the Ultrafast Photoluminescence of Colloidal Silicon Nanocrystals with Changing Surface Chemistry", "abstract": "The role of surface species in the optical properties of silicon nanocrystals (SiNCs) is the subject of intense debate. Changes in photoluminescence (PL) energy following hydrosilylation of SiNCs with...", "citations": 71, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2830, "doi": "10.1021/acsphotonics.5b00143", "umap_coordinates": { "x": 392.3211364746094, "y": 134.33380126953125, "z": 206.49545288085938 }, "tsne_coordinates": { "x": 26.04039764404297, "y": -8.740803718566895, "z": -16.419652938842773 }, "pca_coordinates": { "x": -2.5279314517974854, "y": -3.6976571083068848, "z": -0.6104729175567627 }, "axis_scores": { "Quantum imaging": 0.7261053919792175, "Quantum Life Science Sensing": 0.7593302726745605, "Quantum sensing Detection": 0.7227864265441895, "Quantum sensing Metrology": 0.7056604623794556, "Quantum sensing navigation": 0.7110982537269592, "Quantum sensing Position": 0.6946224570274353, "Quantum sensing Timing": 0.667675256729126, "Quantum sensing": 0.728078305721283, "Quantum control": 0.6951595544815063 } }, { "id": 2825, "title": "Characterization and use of an unprecedentedly bright and structurally non-perturbing fluorescent DNA base analogue", "abstract": "This article presents the first evidence that the DNA base analogue 1,3-diaza-2-oxophenoxazine, tC(O), is highly fluorescent, both as free nucleoside and incorporated in an arbitrary DNA structure. tC...", "citations": 152, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2831, "doi": "10.1093/nar/gkm1006", "umap_coordinates": { "x": 392.7520751953125, "y": 136.15589904785156, "z": 204.65533447265625 }, "tsne_coordinates": { "x": 7.797493934631348, "y": 11.654614448547363, "z": 3.9851696491241455 }, "pca_coordinates": { "x": -2.104971408843994, "y": 2.070094108581543, "z": -0.9475897550582886 }, "axis_scores": { "Quantum imaging": 0.6742848753929138, "Quantum Life Science Sensing": 0.7136879563331604, "Quantum sensing Detection": 0.6817670464515686, "Quantum sensing Metrology": 0.6573189496994019, "Quantum sensing navigation": 0.6812717914581299, "Quantum sensing Position": 0.6561915278434753, "Quantum sensing Timing": 0.6444962024688721, "Quantum sensing": 0.6879565715789795, "Quantum control": 0.6492516994476318 } }, { "id": 2826, "title": "Scattering by entangled spatial and spin degrees of freedom", "abstract": "Several recent experiments on liquid and solid samples containing protons or deuterons show an interesting anomaly, which is a shortfall in the intensity of energetic neutrons scattered by the samples...", "citations": 60, "author_count": 3, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2832, "doi": "10.1238/Physica.Regular.065a00112", "umap_coordinates": { "x": 394.9888000488281, "y": 136.61288452148438, "z": 207.0565185546875 }, "tsne_coordinates": { "x": -18.333749771118164, "y": -4.417209625244141, "z": 17.848840713500977 }, "pca_coordinates": { "x": 2.8499207496643066, "y": 1.5740947723388672, "z": 1.1786525249481201 }, "axis_scores": { "Quantum imaging": 0.7537044286727905, "Quantum Life Science Sensing": 0.7384995818138123, "Quantum sensing Detection": 0.7461093068122864, "Quantum sensing Metrology": 0.7328519821166992, "Quantum sensing navigation": 0.7647925615310669, "Quantum sensing Position": 0.7300041317939758, "Quantum sensing Timing": 0.7097809314727783, "Quantum sensing": 0.7608687281608582, "Quantum control": 0.7336301207542419 } }, { "id": 2827, "title": "On the randomness of time ordered quantum measurements", "abstract": "A new method for efficient, high-quality randomness extraction is presented. The method relies on quantum processes such as the emission of single photons and their subsequent detection, where each de...", "citations": 1, "author_count": 7, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2833, "doi": "10.1140/epjqt/s40507-024-00288-0", "umap_coordinates": { "x": 395.4254455566406, "y": 136.85353088378906, "z": 206.49810791015625 }, "tsne_coordinates": { "x": -34.07378387451172, "y": 8.680131912231445, "z": 10.877169609069824 }, "pca_coordinates": { "x": 2.7205638885498047, "y": 3.189836263656616, "z": 0.4353359341621399 }, "axis_scores": { "Quantum imaging": 0.7273286581039429, "Quantum Life Science Sensing": 0.7333978414535522, "Quantum sensing Detection": 0.7294735312461853, "Quantum sensing Metrology": 0.7219343781471252, "Quantum sensing navigation": 0.74861079454422, "Quantum sensing Position": 0.7563241720199585, "Quantum sensing Timing": 0.7750767469406128, "Quantum sensing": 0.7458623051643372, "Quantum control": 0.7267888188362122 } }, { "id": 2828, "title": "Undoing measurement-induced dephasing in circuit QED", "abstract": "We analyze the backaction of homodyne detection and photodetection on superconducting qubits in circuit quantum electrodynamics. Although both measurement schemes give rise to backaction in the form o...", "citations": 29, "author_count": 4, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2834, "doi": "10.1103/PhysRevA.85.052318", "umap_coordinates": { "x": 395.6297607421875, "y": 136.65994262695312, "z": 207.51914978027344 }, "tsne_coordinates": { "x": -3.0819947719573975, "y": -32.10381317138672, "z": -8.098549842834473 }, "pca_coordinates": { "x": 3.3165626525878906, "y": 1.8755271434783936, "z": 1.5740742683410645 }, "axis_scores": { "Quantum imaging": 0.7470853328704834, "Quantum Life Science Sensing": 0.7298189401626587, "Quantum sensing Detection": 0.7509137392044067, "Quantum sensing Metrology": 0.7374563217163086, "Quantum sensing navigation": 0.7326173186302185, "Quantum sensing Position": 0.7250180840492249, "Quantum sensing Timing": 0.7420293092727661, "Quantum sensing": 0.7501610517501831, "Quantum control": 0.7143532037734985 } }, { "id": 2829, "title": "Observation of direct photons in central 158A GeV 208Pb+208Pb collisions", "abstract": "A measurement of direct photon production in Pb-208 + Pb-208 collisions at 158A GeV has been carried out in the CERN WA98 experiment. The invariant yield of direct photons in central collisions is ext...", "citations": 193, "author_count": 169, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2835, "doi": "10.1103/PhysRevLett.85.3595", "umap_coordinates": { "x": 396.1861572265625, "y": 134.69839477539062, "z": 207.9492950439453 }, "tsne_coordinates": { "x": -30.072124481201172, "y": 0.4160540997982025, "z": -16.696229934692383 }, "pca_coordinates": { "x": 3.0472888946533203, "y": 0.6253087520599365, "z": 3.437331199645996 }, "axis_scores": { "Quantum imaging": 0.7033244371414185, "Quantum Life Science Sensing": 0.7102717161178589, "Quantum sensing Detection": 0.7295148968696594, "Quantum sensing Metrology": 0.6987926363945007, "Quantum sensing navigation": 0.7089298963546753, "Quantum sensing Position": 0.6953632831573486, "Quantum sensing Timing": 0.7024170756340027, "Quantum sensing": 0.7136818170547485, "Quantum control": 0.6588157415390015 } }, { "id": 2830, "title": "Triplet-triplet Annihilation Dynamics of Naphthalene", "abstract": "Triplet-triplet annihilation (TTA) is a spin-allowed conversion of two triplet states into one singlet excited state, which provides an efficient route to generate a photon of higher frequency than th...", "citations": 15, "author_count": 3, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2836, "doi": "10.1002/chem.202200781", "umap_coordinates": { "x": 392.5288391113281, "y": 135.98280334472656, "z": 206.15513610839844 }, "tsne_coordinates": { "x": 3.1556930541992188, "y": -1.1037898063659668, "z": -12.967391014099121 }, "pca_coordinates": { "x": 0.053466081619262695, "y": -0.6724953651428223, "z": -1.6615294218063354 }, "axis_scores": { "Quantum imaging": 0.7331319451332092, "Quantum Life Science Sensing": 0.7411039471626282, "Quantum sensing Detection": 0.7403519153594971, "Quantum sensing Metrology": 0.7035702466964722, "Quantum sensing navigation": 0.7206119298934937, "Quantum sensing Position": 0.6889190673828125, "Quantum sensing Timing": 0.7099412679672241, "Quantum sensing": 0.7358682751655579, "Quantum control": 0.7244554162025452 } }, { "id": 2831, "title": "Perovskite QLED with an external quantum efficiency of over 21% by modulating electronic transport", "abstract": "Perovskite quantum-dot-based light-emitting diodes (QLEDs) are highly promising for future solid-state lightings and high-definition displays due to their excellent color purity. However, their device...", "citations": 256, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2837, "doi": "10.1016/j.scib.2020.08.025", "umap_coordinates": { "x": 392.5179748535156, "y": 133.91712951660156, "z": 205.79490661621094 }, "tsne_coordinates": { "x": 15.723876953125, "y": 0.07103198766708374, "z": -25.601835250854492 }, "pca_coordinates": { "x": -2.8711657524108887, "y": -1.97407865524292, "z": -0.32310256361961365 }, "axis_scores": { "Quantum imaging": 0.7402746081352234, "Quantum Life Science Sensing": 0.7524141669273376, "Quantum sensing Detection": 0.7145946025848389, "Quantum sensing Metrology": 0.7210938930511475, "Quantum sensing navigation": 0.7216971516609192, "Quantum sensing Position": 0.6981050968170166, "Quantum sensing Timing": 0.6806142330169678, "Quantum sensing": 0.7349694967269897, "Quantum control": 0.7381765246391296 } }, { "id": 2832, "title": "Eu(III) and Tb(III) Complexes of Octa- and Nonadentate Macrocyclic Ligands Carrying Azide, Alkyne, and Ester Reactive Groups", "abstract": "Azide- and allcyne-functionalized bioconjugable luminescent lanthanide complexes are reported. Reactive handles were introduced into the complexes by the late-stage modification of a methylenecarboxyl...", "citations": 20, "author_count": 6, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2838, "doi": "10.1021/acs.inorgchem.9b01576", "umap_coordinates": { "x": 391.939208984375, "y": 135.6400604248047, "z": 204.84202575683594 }, "tsne_coordinates": { "x": 6.333308219909668, "y": -2.9649698734283447, "z": -21.75715446472168 }, "pca_coordinates": { "x": -2.7812857627868652, "y": -2.3269577026367188, "z": -2.6912407875061035 }, "axis_scores": { "Quantum imaging": 0.722490131855011, "Quantum Life Science Sensing": 0.7178949117660522, "Quantum sensing Detection": 0.7122325301170349, "Quantum sensing Metrology": 0.6957651972770691, "Quantum sensing navigation": 0.6972203254699707, "Quantum sensing Position": 0.6782689690589905, "Quantum sensing Timing": 0.6940765380859375, "Quantum sensing": 0.7258852124214172, "Quantum control": 0.7050223350524902 } }, { "id": 2833, "title": "Probing and Controlling Surface Passivation of PbS Quantum Dot Solid for Improved Performance of Infrared Absorbing Solar Cells", "abstract": "Surface properties of colloidal quantum dots (CQDs) are critical for the transportation and recombination of the photoinduced charge carrier in CQD solar cells, therefore dominating the photovoltaic p...", "citations": 54, "author_count": 16, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2839, "doi": "10.1021/acs.chemmater.9b00742", "umap_coordinates": { "x": 392.1679382324219, "y": 134.1653594970703, "z": 205.48365783691406 }, "tsne_coordinates": { "x": 24.356889724731445, "y": -0.13048216700553894, "z": -16.261362075805664 }, "pca_coordinates": { "x": -3.215669870376587, "y": -4.076685428619385, "z": 0.23562288284301758 }, "axis_scores": { "Quantum imaging": 0.7164587378501892, "Quantum Life Science Sensing": 0.7460899949073792, "Quantum sensing Detection": 0.7206850647926331, "Quantum sensing Metrology": 0.7198905944824219, "Quantum sensing navigation": 0.7038675546646118, "Quantum sensing Position": 0.7040545344352722, "Quantum sensing Timing": 0.6763240694999695, "Quantum sensing": 0.7298796772956848, "Quantum control": 0.6933434009552002 } }, { "id": 2834, "title": "Excitons and magnetoexcitons in coupled quantum nanostructures: the role of a dirty environment", "abstract": "The effect of a random field caused by impurities, interface roughness and so on, on the optical properties and superfluidity of a quasi-two-dimensional system of excitons is studied. The influence of...", "citations": 14, "author_count": 3, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2840, "doi": "10.1007/s003390000551", "umap_coordinates": { "x": 392.7630920410156, "y": 135.33236694335938, "z": 206.4248046875 }, "tsne_coordinates": { "x": 24.695863723754883, "y": 6.397674560546875, "z": 8.222402572631836 }, "pca_coordinates": { "x": -1.2421129941940308, "y": -1.5020346641540527, "z": -1.6923651695251465 }, "axis_scores": { "Quantum imaging": 0.7463937997817993, "Quantum Life Science Sensing": 0.7578063011169434, "Quantum sensing Detection": 0.7396414279937744, "Quantum sensing Metrology": 0.7172507643699646, "Quantum sensing navigation": 0.7362895011901855, "Quantum sensing Position": 0.718625009059906, "Quantum sensing Timing": 0.6939562559127808, "Quantum sensing": 0.7495919466018677, "Quantum control": 0.7214195728302002 } }, { "id": 2835, "title": "UTILIZATION OF IN-DEPTH PHOTON COUNTING DETECTORS TOWARDS X-RAY SPECTRAL IMAGING: THE BENEFITS FROM THE DEPTH INFORMATION", "abstract": "The in-depth photon counting x-ray detector (PCXD) is a multi-layer detector arrangement which has been introduced to tackle photon count rate limitations of current systems. The capability of resolvi...", "citations": 2, "author_count": 6, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2841, "doi": null, "umap_coordinates": { "x": 391.5820007324219, "y": 139.2423858642578, "z": 209.36204528808594 }, "tsne_coordinates": { "x": 1.2994674444198608, "y": 41.45946502685547, "z": -10.821776390075684 }, "pca_coordinates": { "x": -4.0425262451171875, "y": 3.0181472301483154, "z": 0.7896501421928406 }, "axis_scores": { "Quantum imaging": 0.7633504271507263, "Quantum Life Science Sensing": 0.7451362609863281, "Quantum sensing Detection": 0.7407925724983215, "Quantum sensing Metrology": 0.7183253169059753, "Quantum sensing navigation": 0.7339898943901062, "Quantum sensing Position": 0.7203753590583801, "Quantum sensing Timing": 0.7091771364212036, "Quantum sensing": 0.7445178031921387, "Quantum control": 0.6953933835029602 } }, { "id": 2836, "title": "Quantum molecular dynamics study of water on TiO2(110) surface", "abstract": "The adsorption of water on perfect TiO2(110) surface is studied by quantum molecular dynamics simulation adopting a periodic model formed by five water molecules on a (5 x 1) surface unit cell of a fi...", "citations": 43, "author_count": 6, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2842, "doi": "10.1063/1.2955452", "umap_coordinates": { "x": 393.2026672363281, "y": 136.88156127929688, "z": 206.2863311767578 }, "tsne_coordinates": { "x": -1.2337170839309692, "y": 6.149803638458252, "z": 30.99581527709961 }, "pca_coordinates": { "x": 1.6844139099121094, "y": -1.5764288902282715, "z": -2.1055026054382324 }, "axis_scores": { "Quantum imaging": 0.7566472291946411, "Quantum Life Science Sensing": 0.785467267036438, "Quantum sensing Detection": 0.7509686946868896, "Quantum sensing Metrology": 0.7310260534286499, "Quantum sensing navigation": 0.7359265685081482, "Quantum sensing Position": 0.6967896819114685, "Quantum sensing Timing": 0.7056717872619629, "Quantum sensing": 0.7691034078598022, "Quantum control": 0.7561883926391602 } }, { "id": 2837, "title": "Electrophosphorescence from polythiophene blends light-emitting diodes", "abstract": "Electrophosphorescence has been observed in phosphorescent blend polythiophene LEDs with poly(3-methyl-4-octyl-thiophene) (PMOT) as host, bis (2-phenylbenzothiazole) iridium acetylacetonate (BTIr) as ...", "citations": 13, "author_count": 5, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2843, "doi": "10.1016/S0379-6779(02)00874-3", "umap_coordinates": { "x": 392.54541015625, "y": 135.34490966796875, "z": 205.3712158203125 }, "tsne_coordinates": { "x": -2.2905666828155518, "y": -0.10897769778966904, "z": -18.680112838745117 }, "pca_coordinates": { "x": -2.8489394187927246, "y": -2.4640889167785645, "z": 0.5510615706443787 }, "axis_scores": { "Quantum imaging": 0.6882689595222473, "Quantum Life Science Sensing": 0.6940826773643494, "Quantum sensing Detection": 0.6774133443832397, "Quantum sensing Metrology": 0.659492015838623, "Quantum sensing navigation": 0.6549839377403259, "Quantum sensing Position": 0.6739691495895386, "Quantum sensing Timing": 0.6620100736618042, "Quantum sensing": 0.6915084719657898, "Quantum control": 0.650486409664154 } }, { "id": 2838, "title": "All-in-Fiber Dynamically Reconfigurable Orbital Angular Momentum Mode Sorting", "abstract": "The orbital angular momentum (OAM) spatial degree of freedom of light has been widely explored in many applications, including telecommunications, quantum information, and light-based micromanipulatio...", "citations": 10, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2844, "doi": "10.1021/acsphotonics.3c00825", "umap_coordinates": { "x": 394.0575866699219, "y": 134.68099975585938, "z": 206.19920349121094 }, "tsne_coordinates": { "x": 3.886500120162964, "y": -6.920556545257568, "z": -26.283531188964844 }, "pca_coordinates": { "x": -0.9374033212661743, "y": -0.24136781692504883, "z": -0.19456318020820618 }, "axis_scores": { "Quantum imaging": 0.7236316204071045, "Quantum Life Science Sensing": 0.705321729183197, "Quantum sensing Detection": 0.7083660960197449, "Quantum sensing Metrology": 0.7005726099014282, "Quantum sensing navigation": 0.7342438697814941, "Quantum sensing Position": 0.7090165019035339, "Quantum sensing Timing": 0.6830411553382874, "Quantum sensing": 0.7205421924591064, "Quantum control": 0.694557249546051 } }, { "id": 2839, "title": "Metal-passivated PbS nanoparticles: fabrication and characterization", "abstract": "Organic-shell-free PbS nanoparticles have been produced in the size range relevant for quantum-dot solar cells (QDSCs) by a vapor aggregation method involving magnetron reactive sputtering. This metho...", "citations": 7, "author_count": 11, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2845, "doi": "10.1039/c6cp06870g", "umap_coordinates": { "x": 391.87542724609375, "y": 134.70362854003906, "z": 205.15374755859375 }, "tsne_coordinates": { "x": 14.822117805480957, "y": -1.8928942680358887, "z": -14.868721961975098 }, "pca_coordinates": { "x": -3.3019063472747803, "y": -2.5205650329589844, "z": -0.5474652647972107 }, "axis_scores": { "Quantum imaging": 0.6845980286598206, "Quantum Life Science Sensing": 0.723865270614624, "Quantum sensing Detection": 0.6976565718650818, "Quantum sensing Metrology": 0.6926786303520203, "Quantum sensing navigation": 0.6815845966339111, "Quantum sensing Position": 0.6858873963356018, "Quantum sensing Timing": 0.6340391635894775, "Quantum sensing": 0.7007402181625366, "Quantum control": 0.6790737509727478 } }, { "id": 2840, "title": "Reversible Energy-Transfer Switching on a DNA Scaffold", "abstract": "We show that FRET between Pacific Blue (PB) and Alexa488 (A488) covalently attached to a DNA scaffold can be reversibly controlled by photochromic switching of a spiropyran derivative. With the spirop...", "citations": 24, "author_count": 8, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2846, "doi": "10.1021/ja512416n", "umap_coordinates": { "x": 392.7643737792969, "y": 136.37857055664062, "z": 205.54429626464844 }, "tsne_coordinates": { "x": 11.033307075500488, "y": 11.046627044677734, "z": 7.094672203063965 }, "pca_coordinates": { "x": -0.004114985466003418, "y": -1.640230655670166, "z": -2.337249994277954 }, "axis_scores": { "Quantum imaging": 0.6651228070259094, "Quantum Life Science Sensing": 0.7105722427368164, "Quantum sensing Detection": 0.6777027249336243, "Quantum sensing Metrology": 0.6443548798561096, "Quantum sensing navigation": 0.6743060946464539, "Quantum sensing Position": 0.6517425775527954, "Quantum sensing Timing": 0.6480603814125061, "Quantum sensing": 0.6934852004051208, "Quantum control": 0.6749160885810852 } }, { "id": 2841, "title": "Binding of Biotin to Streptavidin: A combined fluorescence correlation spectroscopy and time-resolved fluorescence study", "abstract": "The Biotin-Streptavidin complex is a widely studied system in biology and biophysics, because of its extremely strong non-covalent binding affinity. The latter is often exploited to link molecules to ...", "citations": 16, "author_count": 12, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2847, "doi": "10.1140/epjst/e2011-01513-1", "umap_coordinates": { "x": 395.4813232421875, "y": 134.35394287109375, "z": 206.6186065673828 }, "tsne_coordinates": { "x": -20.48634147644043, "y": 12.054718017578125, "z": -1.1453016996383667 }, "pca_coordinates": { "x": -1.0609344244003296, "y": -0.15398454666137695, "z": 1.637725830078125 }, "axis_scores": { "Quantum imaging": 0.7197198271751404, "Quantum Life Science Sensing": 0.7214922308921814, "Quantum sensing Detection": 0.7282695770263672, "Quantum sensing Metrology": 0.7184374928474426, "Quantum sensing navigation": 0.7161533236503601, "Quantum sensing Position": 0.7185564041137695, "Quantum sensing Timing": 0.7286630868911743, "Quantum sensing": 0.7328054308891296, "Quantum control": 0.6906448602676392 } }, { "id": 2842, "title": "Anomaly in the dynamical quantum phase transition in a non-Hermitian system with extended gapless phases", "abstract": "The dynamical quantum phase transitions (DQPTs) and the associated winding numbers have been extensively studied in the context Hermitian system. We consider the non-Hermitian analog of p-wave superco...", "citations": 30, "author_count": 3, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2848, "doi": "10.1103/PhysRevB.106.054308", "umap_coordinates": { "x": 394.9285888671875, "y": 136.5893096923828, "z": 208.79383850097656 }, "tsne_coordinates": { "x": -17.141448974609375, "y": -24.177692413330078, "z": 12.558843612670898 }, "pca_coordinates": { "x": 6.071105480194092, "y": 1.0300583839416504, "z": -0.4682371914386749 }, "axis_scores": { "Quantum imaging": 0.6886184215545654, "Quantum Life Science Sensing": 0.7022161483764648, "Quantum sensing Detection": 0.6944832801818848, "Quantum sensing Metrology": 0.6898994445800781, "Quantum sensing navigation": 0.7191601991653442, "Quantum sensing Position": 0.6832547187805176, "Quantum sensing Timing": 0.6857099533081055, "Quantum sensing": 0.6908044815063477, "Quantum control": 0.6714967489242554 } }, { "id": 2843, "title": "Solvent Effects on the Absorption Profile, Kinetic Stability, and Photoisomerization Process of the Norbornadiene-Quadricyclanes System", "abstract": "Molecular photoswitches based on the norbornadiene-quadricyclane (NBD-QC) couple can be used to store solar energy and to release the stored energy as heat on demand. In this context, the energy stora...", "citations": 41, "author_count": 6, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2849, "doi": "10.1021/acs.jpcc.9b02111", "umap_coordinates": { "x": 392.3874816894531, "y": 135.8430938720703, "z": 205.4175262451172 }, "tsne_coordinates": { "x": 3.960677146911621, "y": 0.8254817128181458, "z": -2.2028751373291016 }, "pca_coordinates": { "x": -2.820155143737793, "y": -0.5161621570587158, "z": -3.4389841556549072 }, "axis_scores": { "Quantum imaging": 0.7075425982475281, "Quantum Life Science Sensing": 0.7038156986236572, "Quantum sensing Detection": 0.6688801646232605, "Quantum sensing Metrology": 0.64908367395401, "Quantum sensing navigation": 0.6718316078186035, "Quantum sensing Position": 0.6545253992080688, "Quantum sensing Timing": 0.6544342041015625, "Quantum sensing": 0.6810118556022644, "Quantum control": 0.6956008076667786 } }, { "id": 2844, "title": "Protein Detection and Localization in Plant Cells Using Spot-Tagging", "abstract": "Fluorescent labelling of proteins enables the determination of their spatiotemporal localization but, sometimes, it can perturb their activity, native localization, and functionality. Spot-tag is a12-...", "citations": 1, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2850, "doi": "10.1111/ppl.14351", "umap_coordinates": { "x": 394.34686279296875, "y": 136.1142578125, "z": 203.79119873046875 }, "tsne_coordinates": { "x": 9.11848258972168, "y": 33.872100830078125, "z": 4.368694305419922 }, "pca_coordinates": { "x": -2.691545248031616, "y": 0.5102455615997314, "z": 0.8764089941978455 }, "axis_scores": { "Quantum imaging": 0.6994120478630066, "Quantum Life Science Sensing": 0.7140198349952698, "Quantum sensing Detection": 0.7209942936897278, "Quantum sensing Metrology": 0.704634428024292, "Quantum sensing navigation": 0.7002881169319153, "Quantum sensing Position": 0.7027057409286499, "Quantum sensing Timing": 0.7001923322677612, "Quantum sensing": 0.7251038551330566, "Quantum control": 0.6806812882423401 } }, { "id": 2845, "title": "High quality InP nanopyramidal frusta on Si", "abstract": "Nanosized octagonal pyramidal frusta of indium phosphide were selectively grown at circular hole openings on a silicon dioxide mask deposited on indium phosphide and indium phosphide pre-coated silico...", "citations": 4, "author_count": 13, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2851, "doi": "10.1039/c3ce42231c", "umap_coordinates": { "x": 392.4452819824219, "y": 133.7080841064453, "z": 206.31007385253906 }, "tsne_coordinates": { "x": 21.30204200744629, "y": -12.053662300109863, "z": -26.027463912963867 }, "pca_coordinates": { "x": -2.364915132522583, "y": -2.866800308227539, "z": -0.7646942138671875 }, "axis_scores": { "Quantum imaging": 0.726466178894043, "Quantum Life Science Sensing": 0.7213095426559448, "Quantum sensing Detection": 0.6941523551940918, "Quantum sensing Metrology": 0.7105163335800171, "Quantum sensing navigation": 0.6936344504356384, "Quantum sensing Position": 0.673957884311676, "Quantum sensing Timing": 0.6511825323104858, "Quantum sensing": 0.720302164554596, "Quantum control": 0.6969711780548096 } }, { "id": 2846, "title": "ZnO Based Potentiometric and Amperometric Nanosensors", "abstract": "The existence of nanomaterials provides the solid platform for sensing applications due to owing of high sensitivity and a low concentration limit of detection. More likely used nanomaterials for sens...", "citations": 22, "author_count": 4, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2852, "doi": "10.1166/jnn.2014.9349", "umap_coordinates": { "x": 393.6810607910156, "y": 133.90711975097656, "z": 205.1904754638672 }, "tsne_coordinates": { "x": 31.295883178710938, "y": 14.81515121459961, "z": -20.67487335205078 }, "pca_coordinates": { "x": -2.6832985877990723, "y": -0.2965829372406006, "z": 1.0474183559417725 }, "axis_scores": { "Quantum imaging": 0.7030873894691467, "Quantum Life Science Sensing": 0.7578988075256348, "Quantum sensing Detection": 0.7311080694198608, "Quantum sensing Metrology": 0.7308089137077332, "Quantum sensing navigation": 0.749664306640625, "Quantum sensing Position": 0.7245571613311768, "Quantum sensing Timing": 0.6990789175033569, "Quantum sensing": 0.7488840818405151, "Quantum control": 0.6958086490631104 } }, { "id": 2847, "title": "Cell-type-specific inhibition of the dendritic plateau potential in striatal spiny projection neurons", "abstract": "Striatal spiny projection neurons (SPNs) receive convergent excitatory synaptic inputs from the cortex and thalamus. Activation of spatially clustered and temporally synchronized excitatory inputs at ...", "citations": 47, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2853, "doi": "10.1073/pnas.1704893114", "umap_coordinates": { "x": 394.8526611328125, "y": 135.4962158203125, "z": 204.56224060058594 }, "tsne_coordinates": { "x": -4.878157615661621, "y": 22.88182830810547, "z": 9.166226387023926 }, "pca_coordinates": { "x": -0.2573663592338562, "y": 1.3444842100143433, "z": -0.05691397190093994 }, "axis_scores": { "Quantum imaging": 0.6665318012237549, "Quantum Life Science Sensing": 0.6569324135780334, "Quantum sensing Detection": 0.6458069086074829, "Quantum sensing Metrology": 0.6431164741516113, "Quantum sensing navigation": 0.680899441242218, "Quantum sensing Position": 0.6671026349067688, "Quantum sensing Timing": 0.6559684872627258, "Quantum sensing": 0.6573261022567749, "Quantum control": 0.6560423374176025 } }, { "id": 2848, "title": "An NV- center in magnesium oxide as a spin qubit for hybrid quantum technologies", "abstract": "Recent predictions suggest that oxides, such as MgO and CaO, could serve as hosts of spin defects with long coherence times and thus be promising materials for quantum applications. However, in most c...", "citations": 3, "author_count": 5, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2854, "doi": "10.1038/s41524-025-01558-w", "umap_coordinates": { "x": 392.8551330566406, "y": 135.47451782226562, "z": 206.7516326904297 }, "tsne_coordinates": { "x": 9.06036376953125, "y": -9.75500202178955, "z": 7.60516357421875 }, "pca_coordinates": { "x": 0.23179912567138672, "y": -0.8549394607543945, "z": -0.4064858555793762 }, "axis_scores": { "Quantum imaging": 0.7306132316589355, "Quantum Life Science Sensing": 0.724969744682312, "Quantum sensing Detection": 0.7172152996063232, "Quantum sensing Metrology": 0.7121016979217529, "Quantum sensing navigation": 0.7252445220947266, "Quantum sensing Position": 0.6990234851837158, "Quantum sensing Timing": 0.6923116445541382, "Quantum sensing": 0.7272814512252808, "Quantum control": 0.7110335826873779 } }, { "id": 2849, "title": "Imaging the photons during transmission of ions through glass capillaries", "abstract": "Charged particles, in particular slow highly charged ions, can be guided through nanocapillaries in various insulating materials by self-organized charge patches. We present a technique for observing ...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2855, "doi": "10.1088/1742-6596/583/1/012032", "umap_coordinates": { "x": 395.47564697265625, "y": 134.26527404785156, "z": 205.57582092285156 }, "tsne_coordinates": { "x": -10.945751190185547, "y": 10.028363227844238, "z": -19.16796875 }, "pca_coordinates": { "x": -1.6202588081359863, "y": 2.538203239440918, "z": 2.636138439178467 }, "axis_scores": { "Quantum imaging": 0.7468863129615784, "Quantum Life Science Sensing": 0.7206506133079529, "Quantum sensing Detection": 0.7075752019882202, "Quantum sensing Metrology": 0.6913820505142212, "Quantum sensing navigation": 0.7114706039428711, "Quantum sensing Position": 0.6855774521827698, "Quantum sensing Timing": 0.7096641659736633, "Quantum sensing": 0.7148668169975281, "Quantum control": 0.6748192310333252 } }, { "id": 2850, "title": "Probing Majorana edge states with a flux qubit", "abstract": "A pair of counterpropagating Majorana edge modes appears in chiral p-wave superconductors and in other superconducting systems belonging to the same universality class. These modes can be described by...", "citations": 11, "author_count": 5, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2856, "doi": "10.1103/PhysRevB.84.054538", "umap_coordinates": { "x": 394.8426818847656, "y": 135.8734893798828, "z": 207.91854858398438 }, "tsne_coordinates": { "x": -15.248701095581055, "y": -36.383296966552734, "z": 18.666767120361328 }, "pca_coordinates": { "x": 3.3615193367004395, "y": 0.14998817443847656, "z": 1.3805115222930908 }, "axis_scores": { "Quantum imaging": 0.7401993274688721, "Quantum Life Science Sensing": 0.7352495789527893, "Quantum sensing Detection": 0.7415273785591125, "Quantum sensing Metrology": 0.7324926853179932, "Quantum sensing navigation": 0.7434681057929993, "Quantum sensing Position": 0.7088888883590698, "Quantum sensing Timing": 0.6709443926811218, "Quantum sensing": 0.7427338361740112, "Quantum control": 0.6944753527641296 } }, { "id": 2851, "title": "Volumetric CT with sparse detector arrays (and application to Si-strip photon counters)", "abstract": "Novel x-ray medical imaging sensors, such as photon counting detectors (PCDs) and large area CCD and CMOS cameras can involve irregular and/or sparse sampling of the detector plane. Application of suc...", "citations": 6, "author_count": 9, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2857, "doi": "10.1088/0031-9155/61/1/90", "umap_coordinates": { "x": 395.5469970703125, "y": 132.98158264160156, "z": 205.67564392089844 }, "tsne_coordinates": { "x": -12.94871997833252, "y": 21.630029678344727, "z": -18.02203941345215 }, "pca_coordinates": { "x": -1.9724617004394531, "y": 2.229924201965332, "z": 5.196574687957764 }, "axis_scores": { "Quantum imaging": 0.6887108087539673, "Quantum Life Science Sensing": 0.6744018793106079, "Quantum sensing Detection": 0.6730848550796509, "Quantum sensing Metrology": 0.6683433651924133, "Quantum sensing navigation": 0.6640974283218384, "Quantum sensing Position": 0.650891125202179, "Quantum sensing Timing": 0.6741880178451538, "Quantum sensing": 0.6758599877357483, "Quantum control": 0.6307590007781982 } }, { "id": 2852, "title": "A FAIR SAMPLING TEST FOR EPR-BELL EXPERIMENTS", "abstract": "The low efficiency of detectors in all EPR experiments with optical photons makes the use of the fair sampling assumption unavoidable. This assumption is reputed to be both reasonable and impossible t...", "citations": 16, "author_count": 2, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2858, "doi": "10.1007/s10946-008-9031-4", "umap_coordinates": { "x": 395.4483947753906, "y": 136.30230712890625, "z": 206.23977661132812 }, "tsne_coordinates": { "x": -30.764209747314453, "y": 5.2680277824401855, "z": 4.3298115730285645 }, "pca_coordinates": { "x": 0.4248383045196533, "y": 3.8167834281921387, "z": 0.4006674885749817 }, "axis_scores": { "Quantum imaging": 0.6876180768013, "Quantum Life Science Sensing": 0.7155814170837402, "Quantum sensing Detection": 0.6960974335670471, "Quantum sensing Metrology": 0.6915467381477356, "Quantum sensing navigation": 0.7110777497291565, "Quantum sensing Position": 0.6943303346633911, "Quantum sensing Timing": 0.7012295126914978, "Quantum sensing": 0.7071337103843689, "Quantum control": 0.6832353472709656 } }, { "id": 2853, "title": "Quantum concepts in optical polarization", "abstract": "We comprehensively review the quantum theory of the polarization properties of light. In classical optics, these traits are characterized by the Stokes parameters, which can be geometrically interpret...", "citations": 78, "author_count": 8, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2859, "doi": "10.1364/AOP.404175", "umap_coordinates": { "x": 394.5904541015625, "y": 135.3477783203125, "z": 206.28924560546875 }, "tsne_coordinates": { "x": -1.1282999515533447, "y": -9.871903419494629, "z": -23.204397201538086 }, "pca_coordinates": { "x": 1.6689367294311523, "y": 1.1171762943267822, "z": 0.22300094366073608 }, "axis_scores": { "Quantum imaging": 0.7768576145172119, "Quantum Life Science Sensing": 0.756363034248352, "Quantum sensing Detection": 0.7599337697029114, "Quantum sensing Metrology": 0.740531325340271, "Quantum sensing navigation": 0.7672576904296875, "Quantum sensing Position": 0.7346678972244263, "Quantum sensing Timing": 0.7312096357345581, "Quantum sensing": 0.7761214971542358, "Quantum control": 0.7598357796669006 } }, { "id": 2854, "title": "Influence of Substituent and Benzoannulation on Photophysical Properties of 1-Benzoylmethyleneisoquinoline Difluoroborates", "abstract": "A series of 1-benzoylmethyleneisoquinoline difluoroborates were synthesized, and their photophysical properties were determined. The effect of the substituent and benzoannulation on their properties w...", "citations": 49, "author_count": 8, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2860, "doi": "10.1021/jo502244j", "umap_coordinates": { "x": 392.58135986328125, "y": 135.61178588867188, "z": 204.88449096679688 }, "tsne_coordinates": { "x": 2.4887070655822754, "y": 12.744590759277344, "z": -4.270624160766602 }, "pca_coordinates": { "x": -2.057445764541626, "y": -1.0464849472045898, "z": -3.2162961959838867 }, "axis_scores": { "Quantum imaging": 0.7265499234199524, "Quantum Life Science Sensing": 0.7400898933410645, "Quantum sensing Detection": 0.6927025318145752, "Quantum sensing Metrology": 0.693775475025177, "Quantum sensing navigation": 0.6942294836044312, "Quantum sensing Position": 0.6771954298019409, "Quantum sensing Timing": 0.6513543128967285, "Quantum sensing": 0.7185378074645996, "Quantum control": 0.720059871673584 } }, { "id": 2855, "title": "Electroluminescence of single silicon nanocrystals", "abstract": "We report on measurements of room-temperature electroluminescence from single silicon nanocrystals. The electrically driven emission reveals typical characteristics of single-nanocrystal luminescence:...", "citations": 64, "author_count": 4, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2861, "doi": "10.1063/1.1655705", "umap_coordinates": { "x": 393.63916015625, "y": 133.48956298828125, "z": 208.1714324951172 }, "tsne_coordinates": { "x": 26.81003189086914, "y": -20.757638931274414, "z": -10.793180465698242 }, "pca_coordinates": { "x": -0.0850985050201416, "y": -4.764885425567627, "z": 2.1850786209106445 }, "axis_scores": { "Quantum imaging": 0.729748547077179, "Quantum Life Science Sensing": 0.7532810568809509, "Quantum sensing Detection": 0.7446925044059753, "Quantum sensing Metrology": 0.7438315749168396, "Quantum sensing navigation": 0.709008514881134, "Quantum sensing Position": 0.6939197778701782, "Quantum sensing Timing": 0.6657354235649109, "Quantum sensing": 0.7529146671295166, "Quantum control": 0.7024184465408325 } }, { "id": 2856, "title": "Moving mirror model for quasithermal radiation fields", "abstract": "We analyze the flow of energy and entropy emitted by a class of moving mirror trajectories which provide models for important aspects of the radiation fields produced by black hole evaporation. The mi...", "citations": 58, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2862, "doi": "10.1103/PhysRevD.101.025012", "umap_coordinates": { "x": 394.2670593261719, "y": 136.86756896972656, "z": 208.0388641357422 }, "tsne_coordinates": { "x": -12.205607414245605, "y": -25.800275802612305, "z": 13.410717010498047 }, "pca_coordinates": { "x": 2.069331645965576, "y": 1.2069759368896484, "z": -0.5702689290046692 }, "axis_scores": { "Quantum imaging": 0.7115943431854248, "Quantum Life Science Sensing": 0.7157779932022095, "Quantum sensing Detection": 0.6972501873970032, "Quantum sensing Metrology": 0.7132576107978821, "Quantum sensing navigation": 0.7085526585578918, "Quantum sensing Position": 0.6944159269332886, "Quantum sensing Timing": 0.6835230588912964, "Quantum sensing": 0.7066885828971863, "Quantum control": 0.6919057369232178 } }, { "id": 2857, "title": "Enhancement of spontaneous emission in Tamm plasmon structures", "abstract": "It was theoretically and experimentally demonstrated that in metal/semiconductor Tamm plasmon structures the probability of spontaneous emission can be increased despite losses in metal, and theoretic...", "citations": 59, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2863, "doi": "10.1038/s41598-017-09245-7", "umap_coordinates": { "x": 392.82867431640625, "y": 134.33145141601562, "z": 206.46994018554688 }, "tsne_coordinates": { "x": 28.393278121948242, "y": -10.071038246154785, "z": -25.917133331298828 }, "pca_coordinates": { "x": -1.7360615730285645, "y": -2.084766387939453, "z": 0.08887708187103271 }, "axis_scores": { "Quantum imaging": 0.6816129684448242, "Quantum Life Science Sensing": 0.6856434345245361, "Quantum sensing Detection": 0.6723014116287231, "Quantum sensing Metrology": 0.6908861994743347, "Quantum sensing navigation": 0.6560028791427612, "Quantum sensing Position": 0.6432264447212219, "Quantum sensing Timing": 0.6445115804672241, "Quantum sensing": 0.6762752532958984, "Quantum control": 0.6468784213066101 } }, { "id": 2858, "title": "Electronic Aharonov-Bohm effect induced by quantum vibrations", "abstract": "Mechanical displacements of a nanoelectromechanical system shift the electron trajectories and hence perturb phase coherent charge transport through the device. We show theoretically that in the prese...", "citations": 27, "author_count": 5, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2864, "doi": "10.1103/PhysRevLett.97.156801", "umap_coordinates": { "x": 394.86126708984375, "y": 135.87045288085938, "z": 208.92764282226562 }, "tsne_coordinates": { "x": -13.312206268310547, "y": -18.76519012451172, "z": -2.545571804046631 }, "pca_coordinates": { "x": 4.994593143463135, "y": -0.7164280414581299, "z": -0.49304619431495667 }, "axis_scores": { "Quantum imaging": 0.7086820602416992, "Quantum Life Science Sensing": 0.7307103872299194, "Quantum sensing Detection": 0.7249147891998291, "Quantum sensing Metrology": 0.7087247371673584, "Quantum sensing navigation": 0.710584282875061, "Quantum sensing Position": 0.6894503235816956, "Quantum sensing Timing": 0.7035340070724487, "Quantum sensing": 0.7349412441253662, "Quantum control": 0.7080441117286682 } }, { "id": 2859, "title": "Inertial and gravitational mass in quantum mechanics", "abstract": "We show that in complete agreement with classical mechanics, the dynamics of any quantum mechanical wave packet in a linear gravitational potential involves the gravitational and the inertial mass onl...", "citations": 44, "author_count": 7, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2865, "doi": "10.1007/s00340-010-4085-8", "umap_coordinates": { "x": 394.6968078613281, "y": 137.1796417236328, "z": 206.0214385986328 }, "tsne_coordinates": { "x": -20.165163040161133, "y": -0.022136498242616653, "z": 23.136281967163086 }, "pca_coordinates": { "x": 2.0336880683898926, "y": 3.04692006111145, "z": -1.146824598312378 }, "axis_scores": { "Quantum imaging": 0.7219417095184326, "Quantum Life Science Sensing": 0.7443934679031372, "Quantum sensing Detection": 0.7166712284088135, "Quantum sensing Metrology": 0.7177959084510803, "Quantum sensing navigation": 0.7409214377403259, "Quantum sensing Position": 0.7293083667755127, "Quantum sensing Timing": 0.6867697238922119, "Quantum sensing": 0.7276228666305542, "Quantum control": 0.7202340364456177 } }, { "id": 2860, "title": "A Single-Photon Avalanche Camera for Fluorescence Lifetime Imaging Microscopy and Correlation Spectroscopy", "abstract": "Confocal laser scanning microscopy (CLSM) is commonly used to observe molecules of biological relevance in their native environment, the live cell, and study their spatial distribution and interaction...", "citations": 50, "author_count": 13, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2866, "doi": "10.1109/JSTQE.2014.2333238", "umap_coordinates": { "x": 394.83099365234375, "y": 133.25357055664062, "z": 207.09982299804688 }, "tsne_coordinates": { "x": -10.31551742553711, "y": 10.671051979064941, "z": -34.174537658691406 }, "pca_coordinates": { "x": -1.6343276500701904, "y": -1.5515780448913574, "z": 4.011714935302734 }, "axis_scores": { "Quantum imaging": 0.732119619846344, "Quantum Life Science Sensing": 0.7457435131072998, "Quantum sensing Detection": 0.7309538125991821, "Quantum sensing Metrology": 0.7249700427055359, "Quantum sensing navigation": 0.70313560962677, "Quantum sensing Position": 0.6692706346511841, "Quantum sensing Timing": 0.7043610215187073, "Quantum sensing": 0.736690104007721, "Quantum control": 0.6762688755989075 } }, { "id": 2861, "title": "Classical and quantum dynamics of electrons in open equilateral triangular billiards", "abstract": "Experimental and theoretical studies of the electron dynamics in open equilateral triangular billiards are presented. We focus on the question to what extent classical mechanics can be used to model e...", "citations": 44, "author_count": 7, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2867, "doi": "10.1103/PhysRevB.57.12306", "umap_coordinates": { "x": 393.73504638671875, "y": 136.12734985351562, "z": 208.30760192871094 }, "tsne_coordinates": { "x": -4.786953926086426, "y": -34.716373443603516, "z": -2.9364848136901855 }, "pca_coordinates": { "x": 4.788314342498779, "y": -1.8610453605651855, "z": -1.824918270111084 }, "axis_scores": { "Quantum imaging": 0.7531774044036865, "Quantum Life Science Sensing": 0.7459925413131714, "Quantum sensing Detection": 0.738402783870697, "Quantum sensing Metrology": 0.7155367732048035, "Quantum sensing navigation": 0.758969247341156, "Quantum sensing Position": 0.7089570164680481, "Quantum sensing Timing": 0.7144923806190491, "Quantum sensing": 0.7513308525085449, "Quantum control": 0.7482287883758545 } }, { "id": 2862, "title": "Direct observation of above-quantum-step quasibound states in GaAs/AlxGa1-x/vacuum heterostructures", "abstract": "In this paper we demonstrate the existence of above-quantum-step quasibound states in GaAs/Al0.24Ga0.76As/vacuum double heterostructures using a modulated photoreflection spectroscopy technique at roo...", "citations": 29, "author_count": 11, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2868, "doi": "10.1103/PhysRevB.57.9787", "umap_coordinates": { "x": 393.5238037109375, "y": 135.031494140625, "z": 208.86070251464844 }, "tsne_coordinates": { "x": 13.457494735717773, "y": -30.468297958374023, "z": 1.2401524782180786 }, "pca_coordinates": { "x": 3.797523021697998, "y": -2.4589991569519043, "z": 0.7901584506034851 }, "axis_scores": { "Quantum imaging": 0.7002438902854919, "Quantum Life Science Sensing": 0.7154438495635986, "Quantum sensing Detection": 0.716842770576477, "Quantum sensing Metrology": 0.7074960470199585, "Quantum sensing navigation": 0.7169144749641418, "Quantum sensing Position": 0.7229640483856201, "Quantum sensing Timing": 0.6827889084815979, "Quantum sensing": 0.7275012135505676, "Quantum control": 0.6727975010871887 } }, { "id": 2863, "title": "Nanosecond gating of superconducting nanowire single-photon detectors using cryogenic bias circuitry", "abstract": "Superconducting nanowire single-photon detectors (SNSPDs) show near unity efficiency, low dark count rate, and short recovery time. Combining these characteristics with temporal control of SNSPDs broa...", "citations": 12, "author_count": 11, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2869, "doi": "10.1364/OE.472058", "umap_coordinates": { "x": 394.7457580566406, "y": 133.37718200683594, "z": 207.4576873779297 }, "tsne_coordinates": { "x": -10.320575714111328, "y": 1.105593204498291, "z": -32.96108627319336 }, "pca_coordinates": { "x": 1.5296707153320312, "y": -2.227248191833496, "z": 3.737833023071289 }, "axis_scores": { "Quantum imaging": 0.716110348701477, "Quantum Life Science Sensing": 0.7320609092712402, "Quantum sensing Detection": 0.7272753715515137, "Quantum sensing Metrology": 0.7173389792442322, "Quantum sensing navigation": 0.7508049011230469, "Quantum sensing Position": 0.7091383934020996, "Quantum sensing Timing": 0.7539680600166321, "Quantum sensing": 0.7345715761184692, "Quantum control": 0.7071429491043091 } }, { "id": 2864, "title": "What Is Life?: Open Quantum Systems Approach", "abstract": "Recently, the quantum formalism and methodology have been used in application to the modelling of information processing in biosystems, mainly to the process of decision making and psychological behav...", "citations": 6, "author_count": 3, "categories": [ "Mathematics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2870, "doi": "10.1142/S1230161222500160", "umap_coordinates": { "x": 394.9571228027344, "y": 137.29266357421875, "z": 205.9462432861328 }, "tsne_coordinates": { "x": -24.144216537475586, "y": 6.874213695526123, "z": 11.79988956451416 }, "pca_coordinates": { "x": 0.8844764232635498, "y": 2.484527826309204, "z": -2.1001272201538086 }, "axis_scores": { "Quantum imaging": 0.7778971195220947, "Quantum Life Science Sensing": 0.8427188396453857, "Quantum sensing Detection": 0.7740371227264404, "Quantum sensing Metrology": 0.7527098655700684, "Quantum sensing navigation": 0.788245439529419, "Quantum sensing Position": 0.7324715256690979, "Quantum sensing Timing": 0.7194455862045288, "Quantum sensing": 0.7937684655189514, "Quantum control": 0.7959617376327515 } }, { "id": 2865, "title": "Band-edge diagrams for strained III-V semiconductor quantum wells, wires, and dots", "abstract": "We have calculated band-edge energies for most combinations of zinc blende AlN, GaN, InN, GaP, GaAs, InP, InAs, GaSb, and InSb in which one material is strained to the other. Calculations were done fo...", "citations": 127, "author_count": 3, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2871, "doi": "10.1103/PhysRevB.72.205311", "umap_coordinates": { "x": 393.4439392089844, "y": 135.16502380371094, "z": 209.0865936279297 }, "tsne_coordinates": { "x": 6.8092169761657715, "y": -24.5994815826416, "z": -0.12697844207286835 }, "pca_coordinates": { "x": 3.263512134552002, "y": -3.739797592163086, "z": -0.13506650924682617 }, "axis_scores": { "Quantum imaging": 0.6980118155479431, "Quantum Life Science Sensing": 0.7049453854560852, "Quantum sensing Detection": 0.6848555207252502, "Quantum sensing Metrology": 0.6889755725860596, "Quantum sensing navigation": 0.7060146331787109, "Quantum sensing Position": 0.6948263645172119, "Quantum sensing Timing": 0.6902099251747131, "Quantum sensing": 0.6991606950759888, "Quantum control": 0.673075258731842 } }, { "id": 2866, "title": "Evaluation of laser-irradiated Ar clusters as a source for time-resolved x-ray studies", "abstract": "We have measured the absolute average photon flux, the spectral characteristics, and the time structure of x rays emitted from Ar clusters which were irradiated by a 100 fs laser with an intensity of ...", "citations": 25, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2872, "doi": "10.1063/1.1149748", "umap_coordinates": { "x": 394.4452209472656, "y": 135.16897583007812, "z": 206.9041290283203 }, "tsne_coordinates": { "x": -22.595640182495117, "y": 17.576839447021484, "z": -26.694812774658203 }, "pca_coordinates": { "x": -1.8361939191818237, "y": 1.4251232147216797, "z": 0.21636444330215454 }, "axis_scores": { "Quantum imaging": 0.6619867086410522, "Quantum Life Science Sensing": 0.6757916212081909, "Quantum sensing Detection": 0.6457944512367249, "Quantum sensing Metrology": 0.6257954239845276, "Quantum sensing navigation": 0.6191540360450745, "Quantum sensing Position": 0.647458553314209, "Quantum sensing Timing": 0.6625216007232666, "Quantum sensing": 0.6555668711662292, "Quantum control": 0.6347010731697083 } }, { "id": 2867, "title": "Anisotropic dynamics of magnetic colloidal cubes studied by x-ray photon correlation spectroscopy", "abstract": "Herein we present our results on the investigation of the influence of external magnetic fields on the anisotropic collective dynamics of core/shell colloidal cubes having a hematite core and silica s...", "citations": 10, "author_count": 6, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2873, "doi": "10.1103/PhysRevMaterials.5.035603", "umap_coordinates": { "x": 393.3625183105469, "y": 136.02345275878906, "z": 207.231689453125 }, "tsne_coordinates": { "x": 0.2637917995452881, "y": 7.626914024353027, "z": 40.03953552246094 }, "pca_coordinates": { "x": 2.136483669281006, "y": -0.5761933326721191, "z": -1.6148711442947388 }, "axis_scores": { "Quantum imaging": 0.7417397499084473, "Quantum Life Science Sensing": 0.7428969144821167, "Quantum sensing Detection": 0.7081671953201294, "Quantum sensing Metrology": 0.7057761549949646, "Quantum sensing navigation": 0.7409541606903076, "Quantum sensing Position": 0.7043270468711853, "Quantum sensing Timing": 0.6664603352546692, "Quantum sensing": 0.726757287979126, "Quantum control": 0.7068060636520386 } }, { "id": 2868, "title": "2D MoS2-Based Nanomaterials for Therapeutic, Bioimaging, and Biosensing Applications", "abstract": "Molybdenum disulfide (MoS2), a typical layered 2D transition metal dichalcogenide, has received colossal interest in the past few years due to its unique structural, physicochemical, optical, and biol...", "citations": 342, "author_count": 6, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2874, "doi": "10.1002/smll.201803706", "umap_coordinates": { "x": 393.7474670410156, "y": 133.7687530517578, "z": 204.39566040039062 }, "tsne_coordinates": { "x": 16.45302963256836, "y": 26.62541961669922, "z": -12.548248291015625 }, "pca_coordinates": { "x": -5.4909987449646, "y": -1.3720767498016357, "z": -0.4091579020023346 }, "axis_scores": { "Quantum imaging": 0.7342114448547363, "Quantum Life Science Sensing": 0.7587295174598694, "Quantum sensing Detection": 0.7061014175415039, "Quantum sensing Metrology": 0.7181961536407471, "Quantum sensing navigation": 0.6902478933334351, "Quantum sensing Position": 0.6740571856498718, "Quantum sensing Timing": 0.6584117412567139, "Quantum sensing": 0.7207071185112, "Quantum control": 0.6715463399887085 } }, { "id": 2869, "title": "Benchmarking for On-Scalp MEG Sensors", "abstract": "Objective: We present a benchmarking protocol for quantitatively comparing emerging on-scalp magnetoencephalography (MEG) sensor technologies to their counterparts in state-of-the-art MEG systems. Met...", "citations": 10, "author_count": 12, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2875, "doi": "10.1109/TBME.2016.2599177", "umap_coordinates": { "x": 394.4764404296875, "y": 134.15560913085938, "z": 206.14059448242188 }, "tsne_coordinates": { "x": -22.53499412536621, "y": 2.7373905181884766, "z": -22.08452606201172 }, "pca_coordinates": { "x": -0.9850631952285767, "y": 1.319726586341858, "z": 1.1894805431365967 }, "axis_scores": { "Quantum imaging": 0.6929208040237427, "Quantum Life Science Sensing": 0.706741213798523, "Quantum sensing Detection": 0.7010871171951294, "Quantum sensing Metrology": 0.7221589684486389, "Quantum sensing navigation": 0.6968787312507629, "Quantum sensing Position": 0.6912105679512024, "Quantum sensing Timing": 0.7374668121337891, "Quantum sensing": 0.716681957244873, "Quantum control": 0.67529296875 } }, { "id": 2870, "title": "0-π phase transition in hybrid superconductor-InSb nanowire quantum dot devices", "abstract": "Hybrid superconductor-semiconducting nanowire devices provide an ideal platform to investigating interesting intragap bound states, such as the Andreev bound states (ABSs), Yu-Shiba-Rusinov (YSR) stat...", "citations": 43, "author_count": 5, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2876, "doi": "10.1103/PhysRevB.95.014515", "umap_coordinates": { "x": 393.6716003417969, "y": 135.6475067138672, "z": 209.13746643066406 }, "tsne_coordinates": { "x": -1.6151182651519775, "y": -25.06867790222168, "z": 11.200961112976074 }, "pca_coordinates": { "x": 5.1566033363342285, "y": -2.9721503257751465, "z": -0.5354050993919373 }, "axis_scores": { "Quantum imaging": 0.6916748881340027, "Quantum Life Science Sensing": 0.7045238018035889, "Quantum sensing Detection": 0.706789493560791, "Quantum sensing Metrology": 0.6883320808410645, "Quantum sensing navigation": 0.7149143815040588, "Quantum sensing Position": 0.6908835768699646, "Quantum sensing Timing": 0.6901776194572449, "Quantum sensing": 0.7075338959693909, "Quantum control": 0.6857794523239136 } }, { "id": 2871, "title": "Encapsulation of Dual Emitting Giant Quantum Dots in Silica Nanoparticles for Optical Ratiometric Temperature Nanosensors", "abstract": "Accurate temperature measurements with a high spatial resolution for application in the biomedical fields demand novel nanosized thermometers with new advanced properties. Here, a water dispersible ra...", "citations": 10, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2877, "doi": "10.3390/app10082767", "umap_coordinates": { "x": 393.4415283203125, "y": 133.8841552734375, "z": 205.29315185546875 }, "tsne_coordinates": { "x": 29.3332576751709, "y": 17.70113182067871, "z": -12.604354858398438 }, "pca_coordinates": { "x": -3.2584972381591797, "y": -2.2176260948181152, "z": 0.638699471950531 }, "axis_scores": { "Quantum imaging": 0.7123744487762451, "Quantum Life Science Sensing": 0.7696690559387207, "Quantum sensing Detection": 0.7380110025405884, "Quantum sensing Metrology": 0.7369142174720764, "Quantum sensing navigation": 0.7102097272872925, "Quantum sensing Position": 0.6977088451385498, "Quantum sensing Timing": 0.7078255414962769, "Quantum sensing": 0.7463294863700867, "Quantum control": 0.684637188911438 } }, { "id": 2872, "title": "BICRYSTAL JUNCTIONS AND SUPERCONDUCTING QUANTUM INTERFERENCE DEVICES IN YBA2CU3O7-THIN FILMS", "abstract": "Josephson junctions and superconducting quantum interference devices (SQUIDS) were made by depositing thin films of YBa2Cu3O7 on bicrystal substrates of Y-ZrO2 and SrTiO3. The critical current density...", "citations": 15, "author_count": 8, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 2878, "doi": "10.1063/1.356559", "umap_coordinates": { "x": 393.6901550292969, "y": 134.5885467529297, "z": 208.65635681152344 }, "tsne_coordinates": { "x": 19.512184143066406, "y": -36.924224853515625, "z": 7.205649375915527 }, "pca_coordinates": { "x": 3.1412363052368164, "y": -2.965590476989746, "z": 0.6831162571907043 }, "axis_scores": { "Quantum imaging": 0.7281584739685059, "Quantum Life Science Sensing": 0.7131670117378235, "Quantum sensing Detection": 0.7280858755111694, "Quantum sensing Metrology": 0.71961510181427, "Quantum sensing navigation": 0.7243058681488037, "Quantum sensing Position": 0.6896569728851318, "Quantum sensing Timing": 0.6928755640983582, "Quantum sensing": 0.7388977408409119, "Quantum control": 0.7276731133460999 } }, { "id": 2873, "title": "PHOTOCHROMIC PIGMENTS FROM BLUE-GREEN-ALGAE - PHYCOCHROME-A, PHYCOCHROME-B, AND PHYCOCHROME-C", "abstract": "Aqueous extracts of blue-green algae were fractionated by electrofocusing. In all algae investigated, fractions with isoelectric points at or near 4.6 showed photochromic behavior analogous to that of...", "citations": 50, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1976, "topic": [ "all" ], "embedding_index": 2879, "doi": "10.1111/j.1399-3054.1976.tb02246.x", "umap_coordinates": { "x": 394.3518981933594, "y": 135.8944854736328, "z": 203.70199584960938 }, "tsne_coordinates": { "x": 8.074790000915527, "y": 32.217201232910156, "z": 15.47108268737793 }, "pca_coordinates": { "x": -1.9631116390228271, "y": 1.4553992748260498, "z": -0.4473307132720947 }, "axis_scores": { "Quantum imaging": 0.7104625701904297, "Quantum Life Science Sensing": 0.7277100086212158, "Quantum sensing Detection": 0.714686930179596, "Quantum sensing Metrology": 0.710645318031311, "Quantum sensing navigation": 0.685356855392456, "Quantum sensing Position": 0.675849199295044, "Quantum sensing Timing": 0.6855566501617432, "Quantum sensing": 0.7289644479751587, "Quantum control": 0.7006471753120422 } }, { "id": 2874, "title": "HIGH-MAGNETIC-FIELD STUDIES OF HOLE ENERGY DISPERSION, CUBIC ANISOTROPY AND SPACE-CHARGE BUILDUP IN THE QUANTUM-WELL OF P-TYPE RESONANT TUNNELING DEVICES", "abstract": "Magnetic fields up to 41 T (B perpendicular-to J) are used to investigate hole tunnelling in p-type double-barrier AlAs/GaAs structures and to probe the dispersion curves of the hole states of the qua...", "citations": 12, "author_count": 12, "categories": [ "Engineering" ], "year": 1992, "topic": [ "all" ], "embedding_index": 2880, "doi": "10.1088/0268-1242/7/3B/106", "umap_coordinates": { "x": 394.019287109375, "y": 134.91696166992188, "z": 207.4302520751953 }, "tsne_coordinates": { "x": 26.83675765991211, "y": -17.6098690032959, "z": 17.828105926513672 }, "pca_coordinates": { "x": 0.7237119674682617, "y": -0.988490104675293, "z": -0.5269114971160889 }, "axis_scores": { "Quantum imaging": 0.7003347277641296, "Quantum Life Science Sensing": 0.6834512948989868, "Quantum sensing Detection": 0.6528616547584534, "Quantum sensing Metrology": 0.6619952321052551, "Quantum sensing navigation": 0.6786824464797974, "Quantum sensing Position": 0.67943274974823, "Quantum sensing Timing": 0.6658409237861633, "Quantum sensing": 0.6796313524246216, "Quantum control": 0.6701956987380981 } }, { "id": 2875, "title": "Data-driven decoding of quantum error correcting codes using graph neural networks", "abstract": "To leverage the full potential of quantum error-correcting stabilizer codes it is crucial to have an efficient and accurate decoder. Accurate, maximum likelihood, decoders are computationally very exp...", "citations": 3, "author_count": 10, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2881, "doi": "10.1103/PhysRevResearch.7.023181", "umap_coordinates": { "x": 395.3990783691406, "y": 136.55368041992188, "z": 207.88137817382812 }, "tsne_coordinates": { "x": -25.231555938720703, "y": -18.871553421020508, "z": -6.958347320556641 }, "pca_coordinates": { "x": 3.4861268997192383, "y": 0.12397050857543945, "z": 1.5317997932434082 }, "axis_scores": { "Quantum imaging": 0.7534029483795166, "Quantum Life Science Sensing": 0.7644830942153931, "Quantum sensing Detection": 0.7606935501098633, "Quantum sensing Metrology": 0.7448645830154419, "Quantum sensing navigation": 0.7826470732688904, "Quantum sensing Position": 0.721463143825531, "Quantum sensing Timing": 0.7168935537338257, "Quantum sensing": 0.7658162117004395, "Quantum control": 0.7427620887756348 } }, { "id": 2876, "title": "Reaching the ultimate energy resolution of a quantum detector", "abstract": "Quantum calorimetry, the thermal measurement of quanta, is a method of choice for ultrasensitive radiation detection ranging from microwaves to gamma rays. The fundamental temperature fluctuations of ...", "citations": 67, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2882, "doi": "10.1038/s41467-019-14247-2", "umap_coordinates": { "x": 394.825927734375, "y": 135.4684600830078, "z": 206.0147247314453 }, "tsne_coordinates": { "x": -13.923959732055664, "y": 2.710082530975342, "z": -0.9841173887252808 }, "pca_coordinates": { "x": -0.6758977770805359, "y": 0.506730318069458, "z": 1.9743618965148926 }, "axis_scores": { "Quantum imaging": 0.741700291633606, "Quantum Life Science Sensing": 0.7620216608047485, "Quantum sensing Detection": 0.7654602527618408, "Quantum sensing Metrology": 0.7593082785606384, "Quantum sensing navigation": 0.738600492477417, "Quantum sensing Position": 0.7418859004974365, "Quantum sensing Timing": 0.7220119833946228, "Quantum sensing": 0.7662661671638489, "Quantum control": 0.6988798379898071 } }, { "id": 2877, "title": "Compact lithium niobate microring resonators in the ultrahigh Q/V regime", "abstract": "Lithium niobate (LN) is a promising material for future complex photonic-electronic circuits, with wide applications in such fields as communications, sensing, quantum optics, and computation. LN took...", "citations": 28, "author_count": 8, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2883, "doi": "10.1364/OL.496336", "umap_coordinates": { "x": 394.045166015625, "y": 134.24981689453125, "z": 206.65821838378906 }, "tsne_coordinates": { "x": 5.328067302703857, "y": 7.0159010887146, "z": -30.825525283813477 }, "pca_coordinates": { "x": 0.4150698184967041, "y": -0.9322433471679688, "z": 0.30460554361343384 }, "axis_scores": { "Quantum imaging": 0.7222936153411865, "Quantum Life Science Sensing": 0.7329893708229065, "Quantum sensing Detection": 0.7182083129882812, "Quantum sensing Metrology": 0.7242392301559448, "Quantum sensing navigation": 0.7322003245353699, "Quantum sensing Position": 0.7217174172401428, "Quantum sensing Timing": 0.6807276606559753, "Quantum sensing": 0.735511839389801, "Quantum control": 0.7000553011894226 } }, { "id": 2878, "title": "Backaction-evading receivers with magnetomechanical and electromechanical sensors", "abstract": "Today's mechanical sensors are capable of detecting extremely weak perturbations while operating near the standard quantum limit. However, further improvements can be made in both sensitivity and band...", "citations": 4, "author_count": 8, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2884, "doi": "10.1103/PhysRevResearch.6.023141", "umap_coordinates": { "x": 395.4075927734375, "y": 135.46029663085938, "z": 207.51708984375 }, "tsne_coordinates": { "x": -12.503418922424316, "y": -35.73342514038086, "z": 21.126426696777344 }, "pca_coordinates": { "x": 1.8472561836242676, "y": 1.2129472494125366, "z": 1.8104426860809326 }, "axis_scores": { "Quantum imaging": 0.6943695545196533, "Quantum Life Science Sensing": 0.7089297771453857, "Quantum sensing Detection": 0.7111077904701233, "Quantum sensing Metrology": 0.7190141081809998, "Quantum sensing navigation": 0.7057830691337585, "Quantum sensing Position": 0.7011948823928833, "Quantum sensing Timing": 0.6796248555183411, "Quantum sensing": 0.7078647613525391, "Quantum control": 0.6519527435302734 } }, { "id": 2879, "title": "Purcell Effect in Tamm Plasmon Structures with QD Emitter", "abstract": "We study Tamm plasmon structure based on GaAs/Al0.95GaAs distributed Bragg reflector covered by thin silver layer, with active area formed by InAs quantum dots. We have measured the spectral and angul...", "citations": 2, "author_count": 9, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2885, "doi": "10.1134/S1063782618040164", "umap_coordinates": { "x": 393.97076416015625, "y": 135.39828491210938, "z": 206.17279052734375 }, "tsne_coordinates": { "x": 28.275915145874023, "y": -10.467597961425781, "z": -25.86160659790039 }, "pca_coordinates": { "x": -0.6446264982223511, "y": -0.5747108459472656, "z": -0.01308751106262207 }, "axis_scores": { "Quantum imaging": 0.7166570425033569, "Quantum Life Science Sensing": 0.7428870797157288, "Quantum sensing Detection": 0.7139208912849426, "Quantum sensing Metrology": 0.7318077683448792, "Quantum sensing navigation": 0.7057557106018066, "Quantum sensing Position": 0.701590359210968, "Quantum sensing Timing": 0.6831080317497253, "Quantum sensing": 0.7267215251922607, "Quantum control": 0.718438446521759 } }, { "id": 2880, "title": "Measurements of decoherence times in a Josephson charge qubit using fast pulses", "abstract": "We study decoherence of a Josephson charge qubit using fast pulses to perform qubit rotations. The gate charge dependence of the decoherence rate indicates that the low frequency fluctuations affectin...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 2886, "doi": "10.1023/B:JOLT.0000041277.03323.1d", "umap_coordinates": { "x": 395.1402893066406, "y": 135.89315795898438, "z": 207.05413818359375 }, "tsne_coordinates": { "x": -12.235358238220215, "y": -11.188129425048828, "z": -9.015961647033691 }, "pca_coordinates": { "x": 1.9119343757629395, "y": 1.004455804824829, "z": 0.9005107283592224 }, "axis_scores": { "Quantum imaging": 0.7224805355072021, "Quantum Life Science Sensing": 0.723101794719696, "Quantum sensing Detection": 0.7115373015403748, "Quantum sensing Metrology": 0.6987910270690918, "Quantum sensing navigation": 0.7081342935562134, "Quantum sensing Position": 0.703275203704834, "Quantum sensing Timing": 0.7415551543235779, "Quantum sensing": 0.7256715297698975, "Quantum control": 0.6976250410079956 } }, { "id": 2881, "title": "Kinetics of self-assembled island formation: Part I - Island density", "abstract": "We present a rate equation model for self-assembled quantum dot formation, or Stranski-Krastanow growth. The model includes a kinetically defined critical wetting layer thickness and a subsequent wett...", "citations": 24, "author_count": 3, "categories": [ "Crystallography" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2887, "doi": "10.1016/S0022-0248(01)01674-8", "umap_coordinates": { "x": 392.34600830078125, "y": 134.7105255126953, "z": 207.06825256347656 }, "tsne_coordinates": { "x": 34.391143798828125, "y": -7.360368728637695, "z": 3.9199748039245605 }, "pca_coordinates": { "x": -1.4811558723449707, "y": -1.2163050174713135, "z": -1.9907028675079346 }, "axis_scores": { "Quantum imaging": 0.6657785177230835, "Quantum Life Science Sensing": 0.6869193315505981, "Quantum sensing Detection": 0.6508892774581909, "Quantum sensing Metrology": 0.6457580327987671, "Quantum sensing navigation": 0.6586037874221802, "Quantum sensing Position": 0.6435390114784241, "Quantum sensing Timing": 0.6029728651046753, "Quantum sensing": 0.6528174877166748, "Quantum control": 0.6461451053619385 } }, { "id": 2882, "title": "Multi-Variable Multi-Metric Optimization of Self-Assembled Photocatalytic CO2 Reduction Performance Using Machine Learning Algorithms", "abstract": "The sunlight-driven reduction of CO2 into fuels and platform chemicals is a promising approach to enable a circular economy. However, established optimization approaches are poorly suited to multivari...", "citations": 18, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2888, "doi": "10.1021/jacs.4c01305", "umap_coordinates": { "x": 392.5803527832031, "y": 134.104248046875, "z": 206.09103393554688 }, "tsne_coordinates": { "x": 30.03632354736328, "y": 2.7753844261169434, "z": -5.01399040222168 }, "pca_coordinates": { "x": -3.0178918838500977, "y": -1.3431642055511475, "z": -0.6437251567840576 }, "axis_scores": { "Quantum imaging": 0.7091265916824341, "Quantum Life Science Sensing": 0.735463559627533, "Quantum sensing Detection": 0.708746612071991, "Quantum sensing Metrology": 0.7272019982337952, "Quantum sensing navigation": 0.7166916728019714, "Quantum sensing Position": 0.686439037322998, "Quantum sensing Timing": 0.6623119115829468, "Quantum sensing": 0.7211729288101196, "Quantum control": 0.7087254524230957 } }, { "id": 2883, "title": "Steering Magnetic Skyrmions with Currents: A Nonequilibrium Green's Functions Approach", "abstract": "Magnetic skyrmions, topologically protected vortex-like configurations in spin textures, are of wide conceptual and practical appeal, notably in relation to the making of so-called race-track memory d...", "citations": 18, "author_count": 3, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2889, "doi": "10.1002/pssb.201800590", "umap_coordinates": { "x": 393.5904235839844, "y": 136.60787963867188, "z": 207.14573669433594 }, "tsne_coordinates": { "x": -8.98452091217041, "y": -2.735698699951172, "z": 41.467918395996094 }, "pca_coordinates": { "x": 0.07225179672241211, "y": 0.015093326568603516, "z": -1.7685332298278809 }, "axis_scores": { "Quantum imaging": 0.6990166902542114, "Quantum Life Science Sensing": 0.6776040196418762, "Quantum sensing Detection": 0.6670790314674377, "Quantum sensing Metrology": 0.6782040596008301, "Quantum sensing navigation": 0.743206799030304, "Quantum sensing Position": 0.6852529644966125, "Quantum sensing Timing": 0.6522729992866516, "Quantum sensing": 0.6807349324226379, "Quantum control": 0.7009094953536987 } }, { "id": 2884, "title": "Interband transitions in closed-shell vacancy containing graphene quantum dots complexed with heavy metals", "abstract": "High-performance optical detection of toxic heavy metals by using graphene quantum dots (GQDs) requires a strong interaction between the metals and GQDs, which can be reached through a functionalizati...", "citations": 29, "author_count": 3, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2890, "doi": "10.1039/c8cp03306d", "umap_coordinates": { "x": 392.50732421875, "y": 135.57485961914062, "z": 206.95486450195312 }, "tsne_coordinates": { "x": 12.307459831237793, "y": -5.751758575439453, "z": -0.4501970410346985 }, "pca_coordinates": { "x": 1.1545350551605225, "y": -2.5304465293884277, "z": -2.2634518146514893 }, "axis_scores": { "Quantum imaging": 0.7021076083183289, "Quantum Life Science Sensing": 0.7268398404121399, "Quantum sensing Detection": 0.7116988301277161, "Quantum sensing Metrology": 0.6852177381515503, "Quantum sensing navigation": 0.694058358669281, "Quantum sensing Position": 0.6713598966598511, "Quantum sensing Timing": 0.6614062786102295, "Quantum sensing": 0.7096772789955139, "Quantum control": 0.6685611605644226 } }, { "id": 2885, "title": "A test for the number of coupled spins I = 1/2 in magic-angle-spinning solids:: Zero-quantum recoupling of multiple-quantum coherences", "abstract": "Current methodologies for estimating the number of coupled spins I = (1)/(2) in solids are based upon the maximum multiple-quantum order that can be observed. This strategy establishes a clear lower b...", "citations": 12, "author_count": 4, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2891, "doi": "10.1002/cphc.200200470", "umap_coordinates": { "x": 392.7190246582031, "y": 137.0455780029297, "z": 206.78805541992188 }, "tsne_coordinates": { "x": 17.040483474731445, "y": -1.9719728231430054, "z": 32.75001907348633 }, "pca_coordinates": { "x": 0.5709538459777832, "y": 2.6752521991729736, "z": -1.2662785053253174 }, "axis_scores": { "Quantum imaging": 0.7134047150611877, "Quantum Life Science Sensing": 0.7189591526985168, "Quantum sensing Detection": 0.7067320346832275, "Quantum sensing Metrology": 0.6980552077293396, "Quantum sensing navigation": 0.6913912892341614, "Quantum sensing Position": 0.684533417224884, "Quantum sensing Timing": 0.704108476638794, "Quantum sensing": 0.7112404704093933, "Quantum control": 0.7001672983169556 } }, { "id": 2886, "title": "Determination of molecular geometry by high-order multiple-quantum evolution in solid-state NMR", "abstract": "The principles of molecular geometry determination by high-quantum heteronuclear local field spectroscopy in solid-state NMR are discussed. The extreme multiple-quantum coherences in a cluster of nucl...", "citations": 24, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2892, "doi": "10.1006/jmre.2000.2042", "umap_coordinates": { "x": 392.6900329589844, "y": 137.07968139648438, "z": 206.6861114501953 }, "tsne_coordinates": { "x": 16.389892578125, "y": 3.475896120071411, "z": 31.209041595458984 }, "pca_coordinates": { "x": 0.6644136905670166, "y": 2.3263039588928223, "z": -1.644843339920044 }, "axis_scores": { "Quantum imaging": 0.7541800141334534, "Quantum Life Science Sensing": 0.7603920698165894, "Quantum sensing Detection": 0.728446364402771, "Quantum sensing Metrology": 0.7369054555892944, "Quantum sensing navigation": 0.7422952651977539, "Quantum sensing Position": 0.741514265537262, "Quantum sensing Timing": 0.7184059619903564, "Quantum sensing": 0.7384284734725952, "Quantum control": 0.7103320956230164 } }, { "id": 2887, "title": "Regaining a Spatial Dimension: Mechanically Transferrable Two-Dimensional InAs Nanofins Grown by Selective Area Epitaxy", "abstract": "We report a method for growing rectangular InAs nanofins with deterministic length, width, and height by dielectric-templated selective-area epitaxy. These freestanding nanofins can be transferred to ...", "citations": 28, "author_count": 10, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2893, "doi": "10.1021/acs.nanolett.9b01703", "umap_coordinates": { "x": 392.5015563964844, "y": 134.47817993164062, "z": 206.8485565185547 }, "tsne_coordinates": { "x": 23.321043014526367, "y": -10.477447509765625, "z": -10.139653205871582 }, "pca_coordinates": { "x": -0.14372217655181885, "y": -1.938093662261963, "z": -0.18047451972961426 }, "axis_scores": { "Quantum imaging": 0.6946907043457031, "Quantum Life Science Sensing": 0.6896390914916992, "Quantum sensing Detection": 0.6812272071838379, "Quantum sensing Metrology": 0.7009775042533875, "Quantum sensing navigation": 0.7075272798538208, "Quantum sensing Position": 0.6952168941497803, "Quantum sensing Timing": 0.6456157565116882, "Quantum sensing": 0.7051870226860046, "Quantum control": 0.6877874135971069 } }, { "id": 2888, "title": "Nanoassisted Functional Modulation of Enzymes: Concept and Applications", "abstract": "The use of nanoparticles has emerged as a versatile tool for generating excellent supports for enzyme stabilization due to their small size and large surface area. Interaction of nanoparticles (NPs) w...", "citations": 2, "author_count": 3, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2894, "doi": null, "umap_coordinates": { "x": 391.5069580078125, "y": 139.4964141845703, "z": 209.13156127929688 }, "tsne_coordinates": { "x": -3.1474244594573975, "y": 49.44580078125, "z": -2.847080945968628 }, "pca_coordinates": { "x": -2.8286571502685547, "y": 1.7009419202804565, "z": -2.920876979827881 }, "axis_scores": { "Quantum imaging": 0.7143198251724243, "Quantum Life Science Sensing": 0.7425491809844971, "Quantum sensing Detection": 0.7046753764152527, "Quantum sensing Metrology": 0.704294741153717, "Quantum sensing navigation": 0.7193377614021301, "Quantum sensing Position": 0.6862066388130188, "Quantum sensing Timing": 0.6642559766769409, "Quantum sensing": 0.7223142385482788, "Quantum control": 0.7389814853668213 } }, { "id": 2889, "title": "Geometric local invariants and pure three-qubit states", "abstract": "We explore a geometric approach to generating local SU(2) and SL(2, C) invariants for a collection of qubits inspired by lattice gauge theory. Each local invariant or gauge invariant is associated wit...", "citations": 16, "author_count": 8, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2895, "doi": "10.1103/PhysRevA.83.062308", "umap_coordinates": { "x": 395.382568359375, "y": 137.3771209716797, "z": 207.84954833984375 }, "tsne_coordinates": { "x": -29.78533172607422, "y": -8.268975257873535, "z": 9.0840425491333 }, "pca_coordinates": { "x": 4.706533908843994, "y": 1.7414090633392334, "z": -0.42640283703804016 }, "axis_scores": { "Quantum imaging": 0.765849769115448, "Quantum Life Science Sensing": 0.7432773113250732, "Quantum sensing Detection": 0.7496852874755859, "Quantum sensing Metrology": 0.7481252551078796, "Quantum sensing navigation": 0.7640271186828613, "Quantum sensing Position": 0.7384194731712341, "Quantum sensing Timing": 0.7027770280838013, "Quantum sensing": 0.7669214010238647, "Quantum control": 0.7461661100387573 } }, { "id": 2890, "title": "Direct and indirect methods for studying the energetics and dynamics of the Auger Doppler effect in femtosecond ultra-fast dissociation", "abstract": "Molecules may fragment within a few femtoseconds after core-excitation, a phenomenon known as ultra-fast dissociation. With the aim of providing an understanding of the fundamental phenomenology of th...", "citations": 22, "author_count": 2, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2896, "doi": null, "umap_coordinates": { "x": 391.725341796875, "y": 139.72987365722656, "z": 209.4158477783203 }, "tsne_coordinates": { "x": -5.323787689208984, "y": 41.76642990112305, "z": -4.282762050628662 }, "pca_coordinates": { "x": -0.894966721534729, "y": 3.711975574493408, "z": -1.7477405071258545 }, "axis_scores": { "Quantum imaging": 0.7244857549667358, "Quantum Life Science Sensing": 0.7309103012084961, "Quantum sensing Detection": 0.7194280028343201, "Quantum sensing Metrology": 0.6946033239364624, "Quantum sensing navigation": 0.7075762152671814, "Quantum sensing Position": 0.6710945963859558, "Quantum sensing Timing": 0.6865766644477844, "Quantum sensing": 0.7298727631568909, "Quantum control": 0.7190398573875427 } }, { "id": 2891, "title": "Fingerprints of Anti-Pfaffian Topological Order in Quantum Point Contact Transport", "abstract": "Despite recent experimental developments, the topological order of the fractional quantum Hall state at filling v = 5 / 2 remains an outstanding question. We study conductance and shot noise in a quan...", "citations": 8, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2897, "doi": "10.1103/PhysRevLett.132.256601", "umap_coordinates": { "x": 394.44134521484375, "y": 136.16835021972656, "z": 208.33151245117188 }, "tsne_coordinates": { "x": -2.135348081588745, "y": -40.974403381347656, "z": -2.1995503902435303 }, "pca_coordinates": { "x": 4.237532138824463, "y": 0.3087806701660156, "z": 0.5259963870048523 }, "axis_scores": { "Quantum imaging": 0.7226452231407166, "Quantum Life Science Sensing": 0.7146728038787842, "Quantum sensing Detection": 0.7126742601394653, "Quantum sensing Metrology": 0.7159022092819214, "Quantum sensing navigation": 0.733784019947052, "Quantum sensing Position": 0.7421992421150208, "Quantum sensing Timing": 0.7386387586593628, "Quantum sensing": 0.7305599451065063, "Quantum control": 0.7059760689735413 } }, { "id": 2892, "title": "Multipartite Entanglement in a Microwave Frequency Comb", "abstract": "Significant progress has been made with multipartite entanglement of discrete qubits, but continuous variable systems may provide a more scalable path toward entanglement of large ensembles. We demons...", "citations": 13, "author_count": 10, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2898, "doi": "10.1103/PhysRevLett.130.120601", "umap_coordinates": { "x": 394.878173828125, "y": 135.71568298339844, "z": 208.1180877685547 }, "tsne_coordinates": { "x": -13.22609806060791, "y": -18.71595001220703, "z": 5.349624156951904 }, "pca_coordinates": { "x": 5.360249042510986, "y": -0.5657773017883301, "z": 0.9470813870429993 }, "axis_scores": { "Quantum imaging": 0.7109234929084778, "Quantum Life Science Sensing": 0.7314908504486084, "Quantum sensing Detection": 0.722558856010437, "Quantum sensing Metrology": 0.7095963954925537, "Quantum sensing navigation": 0.7079155445098877, "Quantum sensing Position": 0.6834525465965271, "Quantum sensing Timing": 0.6831740736961365, "Quantum sensing": 0.727523922920227, "Quantum control": 0.7015383243560791 } }, { "id": 2893, "title": "Vortices in fermion droplets with repulsive dipole-dipole interactions", "abstract": "Vortices are found in a fermion system with repulsive dipole-dipole interactions, trapped by a rotating quasi-two-dimensional harmonic oscillator potential. Such systems have much in common with elect...", "citations": 3, "author_count": 5, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2899, "doi": "10.1103/PhysRevA.86.043607", "umap_coordinates": { "x": 394.27032470703125, "y": 136.73587036132812, "z": 209.07595825195312 }, "tsne_coordinates": { "x": -12.633037567138672, "y": -20.207502365112305, "z": 23.9995174407959 }, "pca_coordinates": { "x": 3.871598720550537, "y": -1.4769072532653809, "z": -1.39410400390625 }, "axis_scores": { "Quantum imaging": 0.6554204225540161, "Quantum Life Science Sensing": 0.6568199396133423, "Quantum sensing Detection": 0.6588304042816162, "Quantum sensing Metrology": 0.6282786726951599, "Quantum sensing navigation": 0.651821494102478, "Quantum sensing Position": 0.62893146276474, "Quantum sensing Timing": 0.6315188407897949, "Quantum sensing": 0.6519320011138916, "Quantum control": 0.6572122573852539 } }, { "id": 2894, "title": "Experimental quantum multiparty communication protocols", "abstract": "Quantum information science breaks limitations of conventional information transfer, cryptography and computation by using quantum superpositions or entanglement as resources for information processin...", "citations": 50, "author_count": 5, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2900, "doi": "10.1038/npjqi.2016.10", "umap_coordinates": { "x": 395.5601806640625, "y": 136.2409210205078, "z": 206.99395751953125 }, "tsne_coordinates": { "x": -21.647663116455078, "y": -6.087351322174072, "z": -7.088202953338623 }, "pca_coordinates": { "x": 1.7775835990905762, "y": 0.933241605758667, "z": 1.069451093673706 }, "axis_scores": { "Quantum imaging": 0.7994970083236694, "Quantum Life Science Sensing": 0.7696824073791504, "Quantum sensing Detection": 0.7776783108711243, "Quantum sensing Metrology": 0.7568656206130981, "Quantum sensing navigation": 0.7747321128845215, "Quantum sensing Position": 0.7468913793563843, "Quantum sensing Timing": 0.7396941781044006, "Quantum sensing": 0.7928299307823181, "Quantum control": 0.7703900933265686 } }, { "id": 2895, "title": "Layer-by-Layer Assembled Heteroatom-Doped Graphene Films with Ultrahigh Volumetric Capacitance and Rate Capability for Micro-Supercapacitors", "abstract": "Highly uniform, ultrathin, layer-by-layer heteroatom (N, B) co-doped graphene films are fabricated for high-performance on-chip planar micro-supercapacitors with an ultrahigh volumetric capacitance of...", "citations": 312, "author_count": 10, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2901, "doi": "10.1002/adma.201401228", "umap_coordinates": { "x": 392.3677673339844, "y": 133.64566040039062, "z": 204.79922485351562 }, "tsne_coordinates": { "x": 26.691068649291992, "y": 11.721670150756836, "z": -5.051995277404785 }, "pca_coordinates": { "x": -1.9724539518356323, "y": -3.4020094871520996, "z": 0.1874411702156067 }, "axis_scores": { "Quantum imaging": 0.6607978940010071, "Quantum Life Science Sensing": 0.6786350011825562, "Quantum sensing Detection": 0.6454792022705078, "Quantum sensing Metrology": 0.6519355177879333, "Quantum sensing navigation": 0.6224351525306702, "Quantum sensing Position": 0.6180957555770874, "Quantum sensing Timing": 0.6049954295158386, "Quantum sensing": 0.6703490018844604, "Quantum control": 0.6460683345794678 } }, { "id": 2896, "title": "Potential distributions around a moving test charge in quantum plasmas", "abstract": "By using the dielectric response function of quantum electron plasmas, potential distributions around a moving test charge are calculated. The near-field potential follows the modified Debye-Huckel po...", "citations": 77, "author_count": 3, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2902, "doi": "10.1063/1.2352974", "umap_coordinates": { "x": 394.5478515625, "y": 137.1223602294922, "z": 208.211669921875 }, "tsne_coordinates": { "x": -11.772534370422363, "y": -23.64786720275879, "z": 14.075701713562012 }, "pca_coordinates": { "x": 3.430347442626953, "y": 1.4652032852172852, "z": -1.842890739440918 }, "axis_scores": { "Quantum imaging": 0.715832531452179, "Quantum Life Science Sensing": 0.7184645533561707, "Quantum sensing Detection": 0.7065754532814026, "Quantum sensing Metrology": 0.7143942713737488, "Quantum sensing navigation": 0.737683117389679, "Quantum sensing Position": 0.7357622385025024, "Quantum sensing Timing": 0.7019352912902832, "Quantum sensing": 0.7223861813545227, "Quantum control": 0.7128152847290039 } }, { "id": 2897, "title": "Vanishing coulomb interaction parameter F-sigma with increasing temperature in AlCuFe-quasicrystals", "abstract": "The magnetoresistance of two icosahedral AlCuFe samples has been measured between 4.2 and 40 K in magnetic fields up to 12 T. From these data we determined the temperature dependence of the Coulomb in...", "citations": 3, "author_count": 5, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2903, "doi": "10.1016/S0022-3093(96)00209-8", "umap_coordinates": { "x": 393.76544189453125, "y": 137.2122802734375, "z": 207.6444854736328 }, "tsne_coordinates": { "x": -8.64938735961914, "y": -43.36784744262695, "z": -4.997341632843018 }, "pca_coordinates": { "x": 0.8781793117523193, "y": 1.219043493270874, "z": -2.620425224304199 }, "axis_scores": { "Quantum imaging": 0.6586169004440308, "Quantum Life Science Sensing": 0.676465630531311, "Quantum sensing Detection": 0.6367522478103638, "Quantum sensing Metrology": 0.6387783885002136, "Quantum sensing navigation": 0.6552589535713196, "Quantum sensing Position": 0.645010232925415, "Quantum sensing Timing": 0.6539788842201233, "Quantum sensing": 0.6461449861526489, "Quantum control": 0.6314469575881958 } }, { "id": 2898, "title": "Demonstration of a Single-Photon Router in the Microwave Regime", "abstract": "We have embedded an artificial atom, a superconducting transmon qubit, in an open transmission line and investigated the strong scattering of incident microwave photons (similar to 6 GHz). When an inp...", "citations": 455, "author_count": 7, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2904, "doi": "10.1103/PhysRevLett.107.073601", "umap_coordinates": { "x": 394.8492736816406, "y": 133.87806701660156, "z": 207.98741149902344 }, "tsne_coordinates": { "x": -2.4832563400268555, "y": -22.575061798095703, "z": -11.736730575561523 }, "pca_coordinates": { "x": 3.0603089332580566, "y": -0.8731427192687988, "z": 4.097805023193359 }, "axis_scores": { "Quantum imaging": 0.7123069763183594, "Quantum Life Science Sensing": 0.7290447950363159, "Quantum sensing Detection": 0.726560652256012, "Quantum sensing Metrology": 0.7110552787780762, "Quantum sensing navigation": 0.7090083956718445, "Quantum sensing Position": 0.6867783069610596, "Quantum sensing Timing": 0.6922908425331116, "Quantum sensing": 0.7200835347175598, "Quantum control": 0.6552817821502686 } }, { "id": 2899, "title": "Resource analysis of quantum algorithms for coarse-grained protein folding models", "abstract": "Protein folding processes are a vital aspect of molecular biology that is hard to simulate with conventional computers. Quantum algorithms have been proven superior for certain problems and may help t...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2905, "doi": "10.1103/PhysRevResearch.6.033112", "umap_coordinates": { "x": 394.12799072265625, "y": 137.37548828125, "z": 206.62461853027344 }, "tsne_coordinates": { "x": -28.015533447265625, "y": -21.29816436767578, "z": -9.052002906799316 }, "pca_coordinates": { "x": 2.709902286529541, "y": 2.231534481048584, "z": -1.2781198024749756 }, "axis_scores": { "Quantum imaging": 0.770533561706543, "Quantum Life Science Sensing": 0.7734727263450623, "Quantum sensing Detection": 0.753459632396698, "Quantum sensing Metrology": 0.7587836980819702, "Quantum sensing navigation": 0.7534122467041016, "Quantum sensing Position": 0.7279984951019287, "Quantum sensing Timing": 0.7151511311531067, "Quantum sensing": 0.7790966629981995, "Quantum control": 0.7508132457733154 } }, { "id": 2900, "title": "Fine Tuned Nanolayered Metal/Metal Oxide Electrode for Semitransparent Colloidal Quantum Dot Solar Cells", "abstract": "Semitransparent photovoltaics have great potential, for example, in building-integration or in portable electronics. However, the front and back contact electrodes significantly affect the light trans...", "citations": 41, "author_count": 6, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2906, "doi": "10.1002/adfm.201504038", "umap_coordinates": { "x": 392.5921325683594, "y": 133.52931213378906, "z": 205.6622314453125 }, "tsne_coordinates": { "x": 32.4229621887207, "y": 4.391082763671875, "z": -8.387022972106934 }, "pca_coordinates": { "x": -2.8656680583953857, "y": -4.417764186859131, "z": -1.4675794839859009 }, "axis_scores": { "Quantum imaging": 0.7042393684387207, "Quantum Life Science Sensing": 0.7453892827033997, "Quantum sensing Detection": 0.7114147543907166, "Quantum sensing Metrology": 0.7326794266700745, "Quantum sensing navigation": 0.7020338773727417, "Quantum sensing Position": 0.6924161911010742, "Quantum sensing Timing": 0.6536428332328796, "Quantum sensing": 0.7289144992828369, "Quantum control": 0.6982986927032471 } }, { "id": 2901, "title": "Valorization of cellulose and waste paper to graphene oxide quantum dots", "abstract": "Biobased graphene oxide quantum dots (GOQD) were derived from cellulose via carbon nanospheres (CN) as intermediate products. Solid CN were synthesized from cellulose through microwave-assisted hydrot...", "citations": 74, "author_count": 4, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2907, "doi": "10.1039/c5ra01805f", "umap_coordinates": { "x": 392.33984375, "y": 134.73541259765625, "z": 204.81649780273438 }, "tsne_coordinates": { "x": 23.917882919311523, "y": 13.869218826293945, "z": -15.128437042236328 }, "pca_coordinates": { "x": -2.8295741081237793, "y": -1.687748908996582, "z": -1.9016788005828857 }, "axis_scores": { "Quantum imaging": 0.6843284368515015, "Quantum Life Science Sensing": 0.7230698466300964, "Quantum sensing Detection": 0.6977646350860596, "Quantum sensing Metrology": 0.6813275814056396, "Quantum sensing navigation": 0.665377676486969, "Quantum sensing Position": 0.662445604801178, "Quantum sensing Timing": 0.6495359539985657, "Quantum sensing": 0.7018639445304871, "Quantum control": 0.6793264746665955 } }, { "id": 2902, "title": "Elucidating substrate binding in the light-dependent protochlorophyllide oxidoreductase", "abstract": "The Light-Dependent Protochlorophyllide Oxidoreductase (LPOR) catalyzes a crucial step in chlorophyll biosynthesis: the rare biological photocatalytic reduction of the double C 00000000 00000000 00000...", "citations": 3, "author_count": 7, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2908, "doi": "10.1039/d4sc00923a", "umap_coordinates": { "x": 392.692626953125, "y": 136.3660125732422, "z": 204.7047576904297 }, "tsne_coordinates": { "x": 0.37483352422714233, "y": 16.300968170166016, "z": 6.344439506530762 }, "pca_coordinates": { "x": -2.720327377319336, "y": 0.25312256813049316, "z": -1.7629637718200684 }, "axis_scores": { "Quantum imaging": 0.6898900866508484, "Quantum Life Science Sensing": 0.7089310884475708, "Quantum sensing Detection": 0.6910292506217957, "Quantum sensing Metrology": 0.6637533903121948, "Quantum sensing navigation": 0.6902498006820679, "Quantum sensing Position": 0.6879831552505493, "Quantum sensing Timing": 0.659802258014679, "Quantum sensing": 0.6910692453384399, "Quantum control": 0.6610801219940186 } }, { "id": 2903, "title": "Generation of counterpropagating photon pairs in periodically poled Rb-KTiOPO4", "abstract": "We demonstrate the generation of counterpropagating, twin-photon pairs in the optical communication band, utilizing periodically poled Rb-doped KTiOPO4. The spectral and polarization indistinguishabil...", "citations": 1, "author_count": 7, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2909, "doi": "10.1103/5b5f-x6nc", "umap_coordinates": { "x": 394.78326416015625, "y": 135.95423889160156, "z": 207.5390625 }, "tsne_coordinates": { "x": -34.92953872680664, "y": -22.135175704956055, "z": -3.8881301879882812 }, "pca_coordinates": { "x": 1.4929299354553223, "y": -0.3677706718444824, "z": 1.0193819999694824 }, "axis_scores": { "Quantum imaging": 0.6940339803695679, "Quantum Life Science Sensing": 0.6887904405593872, "Quantum sensing Detection": 0.6929652094841003, "Quantum sensing Metrology": 0.6918675899505615, "Quantum sensing navigation": 0.7073082327842712, "Quantum sensing Position": 0.6971845626831055, "Quantum sensing Timing": 0.7097575664520264, "Quantum sensing": 0.6976454257965088, "Quantum control": 0.6860917806625366 } }, { "id": 2904, "title": "Entanglement-assisted local transformations between inequivalent classes of three-particle entangled states", "abstract": "We show that bipartite and tripartite entangled states cannot be used as catalysis states to enable local transformations inbetween inequivalent classes of three-particle entangled states which are no...", "citations": 17, "author_count": 4, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2910, "doi": "10.1016/S0375-9601(01)00446-7", "umap_coordinates": { "x": 395.41705322265625, "y": 137.56285095214844, "z": 207.33474731445312 }, "tsne_coordinates": { "x": -26.57290267944336, "y": -7.739869117736816, "z": 9.65520191192627 }, "pca_coordinates": { "x": 1.9695889949798584, "y": 1.2237073183059692, "z": 0.4304763674736023 }, "axis_scores": { "Quantum imaging": 0.7055842876434326, "Quantum Life Science Sensing": 0.6743740439414978, "Quantum sensing Detection": 0.677308976650238, "Quantum sensing Metrology": 0.6744673848152161, "Quantum sensing navigation": 0.700715959072113, "Quantum sensing Position": 0.6881914138793945, "Quantum sensing Timing": 0.6533008813858032, "Quantum sensing": 0.6959198713302612, "Quantum control": 0.6766802668571472 } }, { "id": 2905, "title": "MAGNETIC-MOMENTS OF HYPERONS IN THE SIMPLIFIED SKYRME MODEL", "abstract": "We calculate the electromagnetic current in the simplified Skyrme model with the stabilizing term proportional to e-2 omitted, using the bound-state approach developed by Callan and Klebanov. The resu...", "citations": 14, "author_count": 2, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 2911, "doi": "10.1016/0375-9474(92)90113-X", "umap_coordinates": { "x": 393.36651611328125, "y": 136.92263793945312, "z": 207.76007080078125 }, "tsne_coordinates": { "x": -6.223089218139648, "y": 25.27621078491211, "z": 27.435861587524414 }, "pca_coordinates": { "x": 1.0578513145446777, "y": 2.4867970943450928, "z": -2.7391443252563477 }, "axis_scores": { "Quantum imaging": 0.6646391153335571, "Quantum Life Science Sensing": 0.6462110280990601, "Quantum sensing Detection": 0.6354391574859619, "Quantum sensing Metrology": 0.6403623223304749, "Quantum sensing navigation": 0.6630074977874756, "Quantum sensing Position": 0.6402677893638611, "Quantum sensing Timing": 0.6231295466423035, "Quantum sensing": 0.6546188592910767, "Quantum control": 0.6486371159553528 } }, { "id": 2906, "title": "Study of dimuon production in photon-photon collisions and measurement of QED photon structure functions at LEP", "abstract": "Muon pair production in the process e(+)e(-) --> e(+)e(-)mu (+)mu (-) is studied using the data taken at LEP1 (roots similar or equal to m(Z)) with the DELPHI detector during the years 1992-1995. The ...", "citations": 4, "author_count": 522, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2912, "doi": "10.1007/s100520100592", "umap_coordinates": { "x": 396.3559265136719, "y": 134.45419311523438, "z": 207.17300415039062 }, "tsne_coordinates": { "x": -26.055217742919922, "y": 7.597423553466797, "z": -7.323212146759033 }, "pca_coordinates": { "x": -1.001442313194275, "y": 0.33536767959594727, "z": 2.1519548892974854 }, "axis_scores": { "Quantum imaging": 0.7101806998252869, "Quantum Life Science Sensing": 0.729544997215271, "Quantum sensing Detection": 0.7224633097648621, "Quantum sensing Metrology": 0.710777223110199, "Quantum sensing navigation": 0.7081731557846069, "Quantum sensing Position": 0.6973699927330017, "Quantum sensing Timing": 0.6758183836936951, "Quantum sensing": 0.7141724824905396, "Quantum control": 0.6754788756370544 } }, { "id": 2907, "title": "Post-quantum nonlocality in the minimal triangle scenario", "abstract": "We investigate network nonlocality in the triangle scenario when all three parties have no input and binary outputs. Through an explicit example, we prove that this minimal scenario supports nonlocal ...", "citations": 6, "author_count": 6, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2913, "doi": "10.1088/1367-2630/ad0a16", "umap_coordinates": { "x": 395.1560363769531, "y": 137.44119262695312, "z": 206.52212524414062 }, "tsne_coordinates": { "x": -18.78145408630371, "y": -3.324540138244629, "z": 11.040096282958984 }, "pca_coordinates": { "x": 1.3628747463226318, "y": 4.4716973304748535, "z": -1.1178247928619385 }, "axis_scores": { "Quantum imaging": 0.7192767262458801, "Quantum Life Science Sensing": 0.7079764604568481, "Quantum sensing Detection": 0.7080628275871277, "Quantum sensing Metrology": 0.715155839920044, "Quantum sensing navigation": 0.7084683775901794, "Quantum sensing Position": 0.6994640231132507, "Quantum sensing Timing": 0.70648193359375, "Quantum sensing": 0.712317943572998, "Quantum control": 0.6880658864974976 } }, { "id": 2908, "title": "Noise and loss of superconducting aluminium resonators at single photon energies", "abstract": "The loss and noise mechanisms of superconducting resonators are useful tools for understanding decoherence in superconducting circuits. While the loss mechanisms have been heavily studied, noise in su...", "citations": 42, "author_count": 5, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2914, "doi": "10.1088/1742-6596/969/1/012131", "umap_coordinates": { "x": 394.6785888671875, "y": 133.7613067626953, "z": 207.6630859375 }, "tsne_coordinates": { "x": -14.922823905944824, "y": -3.627589464187622, "z": -36.897010803222656 }, "pca_coordinates": { "x": 1.0788145065307617, "y": -0.8636221885681152, "z": 3.359619617462158 }, "axis_scores": { "Quantum imaging": 0.6863626837730408, "Quantum Life Science Sensing": 0.7234320044517517, "Quantum sensing Detection": 0.7059411406517029, "Quantum sensing Metrology": 0.7032639980316162, "Quantum sensing navigation": 0.6978734135627747, "Quantum sensing Position": 0.7017039060592651, "Quantum sensing Timing": 0.6905498504638672, "Quantum sensing": 0.7116156816482544, "Quantum control": 0.6654864549636841 } }, { "id": 2909, "title": "Measurable entanglement criterion for two qubits - art. no. 062314", "abstract": "We propose a directly measurable criterion for the entanglement of two qubits. We compare the criterion with other criteria, and we find that for pure states, and some mixed states, it coincides with ...", "citations": 7, "author_count": 4, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 2915, "doi": "10.1103/PhysRevA.68.062314", "umap_coordinates": { "x": 395.9248352050781, "y": 136.67831420898438, "z": 207.41766357421875 }, "tsne_coordinates": { "x": -24.925451278686523, "y": -11.015223503112793, "z": 3.8298380374908447 }, "pca_coordinates": { "x": 3.9370102882385254, "y": 2.0544395446777344, "z": 1.4829561710357666 }, "axis_scores": { "Quantum imaging": 0.7358123064041138, "Quantum Life Science Sensing": 0.7626897096633911, "Quantum sensing Detection": 0.7707474231719971, "Quantum sensing Metrology": 0.7675880789756775, "Quantum sensing navigation": 0.7485941648483276, "Quantum sensing Position": 0.7404040098190308, "Quantum sensing Timing": 0.723009467124939, "Quantum sensing": 0.7668817043304443, "Quantum control": 0.7350741624832153 } }, { "id": 2910, "title": "How to see a ghost", "abstract": "This paper discusses various aspects of a solvable quantum model introduced by Friedrichs and Lee in field theory. Its mathematical properties are presented, and its role in the early discussion of re...", "citations": 5, "author_count": 2, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 2916, "doi": "10.1016/S0030-4018(99)00543-X", "umap_coordinates": { "x": 395.221435546875, "y": 135.51942443847656, "z": 205.64273071289062 }, "tsne_coordinates": { "x": -15.292062759399414, "y": 7.937723159790039, "z": 10.761707305908203 }, "pca_coordinates": { "x": -1.0264768600463867, "y": 2.4918053150177, "z": 0.3415915369987488 }, "axis_scores": { "Quantum imaging": 0.7207887768745422, "Quantum Life Science Sensing": 0.7160955667495728, "Quantum sensing Detection": 0.704730212688446, "Quantum sensing Metrology": 0.6940711736679077, "Quantum sensing navigation": 0.7226061224937439, "Quantum sensing Position": 0.7346117496490479, "Quantum sensing Timing": 0.7038218379020691, "Quantum sensing": 0.722691535949707, "Quantum control": 0.6933515071868896 } }, { "id": 2911, "title": "Coherence properties of the stochastic oscillator", "abstract": "An oscillator with stochastic frequency is discussed as a model for evaluating the quantum coherence properties of a physical system. It is found that the choice of jump statistics has to be considere...", "citations": 6, "author_count": 3, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2917, "doi": "10.1103/PhysRevA.60.621", "umap_coordinates": { "x": 394.3213806152344, "y": 136.42300415039062, "z": 207.62754821777344 }, "tsne_coordinates": { "x": -12.531776428222656, "y": -18.9267578125, "z": 10.034615516662598 }, "pca_coordinates": { "x": 3.625023365020752, "y": 0.6202960014343262, "z": -1.49392831325531 }, "axis_scores": { "Quantum imaging": 0.7458707690238953, "Quantum Life Science Sensing": 0.7920022010803223, "Quantum sensing Detection": 0.7600522637367249, "Quantum sensing Metrology": 0.7439941167831421, "Quantum sensing navigation": 0.7708426117897034, "Quantum sensing Position": 0.7238781452178955, "Quantum sensing Timing": 0.7304651737213135, "Quantum sensing": 0.7720759510993958, "Quantum control": 0.7590450644493103 } }, { "id": 2912, "title": "Electrocatalytic Reduction of Aldonic Acids to Aldoses on Gold Electrodes", "abstract": "Spent sulfite liquor, a side-stream from the pulp and paper industry, is an abundantly available carbon source for bio-based platform chemicals. The biotechnological valorization of side streams in bi...", "citations": 5, "author_count": 11, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2918, "doi": "10.1021/acssuschemeng.2c05576", "umap_coordinates": { "x": 392.54766845703125, "y": 134.61053466796875, "z": 204.5931854248047 }, "tsne_coordinates": { "x": 26.141353607177734, "y": 17.60240364074707, "z": -6.9322829246521 }, "pca_coordinates": { "x": -2.504037380218506, "y": -2.1135168075561523, "z": -2.9522502422332764 }, "axis_scores": { "Quantum imaging": 0.6662631034851074, "Quantum Life Science Sensing": 0.7208727598190308, "Quantum sensing Detection": 0.6673979759216309, "Quantum sensing Metrology": 0.6608651876449585, "Quantum sensing navigation": 0.6722221970558167, "Quantum sensing Position": 0.6472513675689697, "Quantum sensing Timing": 0.6444472670555115, "Quantum sensing": 0.6878942251205444, "Quantum control": 0.680172324180603 } }, { "id": 2913, "title": "The probabilistic Feynman-Kac formula for an infinite-dimensional Schrodinger equation with exponential and singular potentials", "abstract": "Using the probabilistic Feynman-Kac formula, the existence of solutions of the Schrodinger equation on an infinite dimensional space E is proven. This theorem is valid for a large class of potentials ...", "citations": 15, "author_count": 4, "categories": [ "Mathematics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2919, "doi": "10.1023/A:1008601707361", "umap_coordinates": { "x": 394.29302978515625, "y": 137.30897521972656, "z": 207.20848083496094 }, "tsne_coordinates": { "x": -26.78465461730957, "y": -1.3095462322235107, "z": 22.45468521118164 }, "pca_coordinates": { "x": 1.0685091018676758, "y": 1.2158994674682617, "z": -0.15873098373413086 }, "axis_scores": { "Quantum imaging": 0.7014341950416565, "Quantum Life Science Sensing": 0.7255731821060181, "Quantum sensing Detection": 0.6991778612136841, "Quantum sensing Metrology": 0.6873494982719421, "Quantum sensing navigation": 0.7081171274185181, "Quantum sensing Position": 0.6629700660705566, "Quantum sensing Timing": 0.6560099124908447, "Quantum sensing": 0.7066172361373901, "Quantum control": 0.667377769947052 } }, { "id": 2914, "title": "Triboluminescent Electrospun Mats with Blue-Green Emission under Mechanical Force", "abstract": "Fibrous mechanosensing elements can provide information about the direction of crack propagation and the mechanism of material failure when they are homogeneously dispersed into the bulk volume of mat...", "citations": 19, "author_count": 5, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2920, "doi": "10.1021/acs.jpcc.7b02875", "umap_coordinates": { "x": 391.8843994140625, "y": 134.71884155273438, "z": 204.93313598632812 }, "tsne_coordinates": { "x": 14.720083236694336, "y": 3.317831516265869, "z": -21.807392120361328 }, "pca_coordinates": { "x": -2.136270046234131, "y": -2.5743613243103027, "z": -1.7167773246765137 }, "axis_scores": { "Quantum imaging": 0.6710740923881531, "Quantum Life Science Sensing": 0.6962137222290039, "Quantum sensing Detection": 0.6735321283340454, "Quantum sensing Metrology": 0.6711173057556152, "Quantum sensing navigation": 0.6517780423164368, "Quantum sensing Position": 0.6636911630630493, "Quantum sensing Timing": 0.6408504247665405, "Quantum sensing": 0.682989239692688, "Quantum control": 0.6749542951583862 } }, { "id": 2915, "title": "JETS IN QCD MEDIA: ONSET OF COLOR DECOHERENCE", "abstract": "We report on recent studies of the phenomenon of color decoherence of jets in QCD media. The effect is most clearly observed in the radiation pattern of a quark-antiquark antenna, created in the same ...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2921, "doi": "10.5506/APhysPolBSupp.4.623", "umap_coordinates": { "x": 395.7367858886719, "y": 135.6676483154297, "z": 206.15159606933594 }, "tsne_coordinates": { "x": -42.988826751708984, "y": -8.704819679260254, "z": -10.226536750793457 }, "pca_coordinates": { "x": -0.6656959056854248, "y": 1.588733196258545, "z": -0.7052643895149231 }, "axis_scores": { "Quantum imaging": 0.6939732432365417, "Quantum Life Science Sensing": 0.6693069338798523, "Quantum sensing Detection": 0.6800997853279114, "Quantum sensing Metrology": 0.6382460594177246, "Quantum sensing navigation": 0.6762217879295349, "Quantum sensing Position": 0.6893722414970398, "Quantum sensing Timing": 0.6843538284301758, "Quantum sensing": 0.6807760000228882, "Quantum control": 0.6711925864219666 } }, { "id": 2916, "title": "Ptychographic characterization of a coherent nanofocused X-ray beam", "abstract": "The NanoMAX hard X-ray nanoprobe is the first beamline to take full advantage of the diffraction-limited storage ring at the MAX IV synchrotron and delivers a high coherent photon flux for application...", "citations": 58, "author_count": 9, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2922, "doi": "10.1364/OE.386068", "umap_coordinates": { "x": 395.0338439941406, "y": 133.9267578125, "z": 206.02476501464844 }, "tsne_coordinates": { "x": 2.0513644218444824, "y": 18.924928665161133, "z": -29.49043846130371 }, "pca_coordinates": { "x": -0.8423680663108826, "y": 1.0159432888031006, "z": 2.6306943893432617 }, "axis_scores": { "Quantum imaging": 0.759005069732666, "Quantum Life Science Sensing": 0.7158030867576599, "Quantum sensing Detection": 0.718930184841156, "Quantum sensing Metrology": 0.7263961434364319, "Quantum sensing navigation": 0.7168867588043213, "Quantum sensing Position": 0.7282667756080627, "Quantum sensing Timing": 0.7179197072982788, "Quantum sensing": 0.7315784096717834, "Quantum control": 0.6983471512794495 } }, { "id": 2917, "title": "Simulating moving cavities in superconducting circuits", "abstract": "We theoretically investigate the simulation of moving cavities in a superconducting circuit setup. In particular, we consider a recently proposed experimental scenario where the phase of the cavity fi...", "citations": 6, "author_count": 4, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2923, "doi": "10.1103/PhysRevA.100.023817", "umap_coordinates": { "x": 394.6495056152344, "y": 136.7721710205078, "z": 208.20401000976562 }, "tsne_coordinates": { "x": -11.774599075317383, "y": -24.423803329467773, "z": 12.838241577148438 }, "pca_coordinates": { "x": 4.28202486038208, "y": 1.138284683227539, "z": -0.705367386341095 }, "axis_scores": { "Quantum imaging": 0.7216031551361084, "Quantum Life Science Sensing": 0.7293678522109985, "Quantum sensing Detection": 0.7208250761032104, "Quantum sensing Metrology": 0.7190394401550293, "Quantum sensing navigation": 0.7612020969390869, "Quantum sensing Position": 0.727462887763977, "Quantum sensing Timing": 0.7397864460945129, "Quantum sensing": 0.7352237105369568, "Quantum control": 0.7320863008499146 } }, { "id": 2918, "title": "Polaronic effects and thermally enhanced weak superconductivity", "abstract": "We theoretically analyze the d. c. Josephson current between two superconductors connected by a vibrating weak link. Assuming the weak link to be a quantum dot, we predict that the critical current is...", "citations": 3, "author_count": 6, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2924, "doi": "10.1103/PhysRevB.89.115138", "umap_coordinates": { "x": 393.7916259765625, "y": 135.95297241210938, "z": 208.40594482421875 }, "tsne_coordinates": { "x": -6.58357048034668, "y": -42.149105072021484, "z": 6.0803141593933105 }, "pca_coordinates": { "x": 2.8602776527404785, "y": -0.8173234462738037, "z": -1.4521914720535278 }, "axis_scores": { "Quantum imaging": 0.7088222503662109, "Quantum Life Science Sensing": 0.6926724910736084, "Quantum sensing Detection": 0.6853827834129333, "Quantum sensing Metrology": 0.6647041440010071, "Quantum sensing navigation": 0.6845107078552246, "Quantum sensing Position": 0.6659064888954163, "Quantum sensing Timing": 0.6669785976409912, "Quantum sensing": 0.7017866373062134, "Quantum control": 0.691947877407074 } }, { "id": 2919, "title": "Strength distributions and symmetry breaking in coupled microwave billiards", "abstract": "Flat microwave cavities can be used to experimentally simulate quantum mechanical systems. By coupling two such cavities, we study the equivalent to symmetry breaking in quantum mechanics. As the coup...", "citations": 23, "author_count": 5, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2925, "doi": "10.1103/PhysRevLett.96.254101", "umap_coordinates": { "x": 394.6685485839844, "y": 136.26116943359375, "z": 208.52464294433594 }, "tsne_coordinates": { "x": -13.141088485717773, "y": -28.20334815979004, "z": 2.9042716026306152 }, "pca_coordinates": { "x": 4.302765369415283, "y": 0.3053627014160156, "z": -0.37520453333854675 }, "axis_scores": { "Quantum imaging": 0.6765406131744385, "Quantum Life Science Sensing": 0.6820181012153625, "Quantum sensing Detection": 0.6883944272994995, "Quantum sensing Metrology": 0.6732578873634338, "Quantum sensing navigation": 0.6797705292701721, "Quantum sensing Position": 0.6649652123451233, "Quantum sensing Timing": 0.66214919090271, "Quantum sensing": 0.694048285484314, "Quantum control": 0.6652006506919861 } }, { "id": 2920, "title": "Time-Resolved Photoelectron Spectroscopy Studies of Isoxazole and Oxazole", "abstract": "The excited state relaxation pathways of isoxazole and oxazole upon excitation with UV-light were investigated by nonadiabatic ab initio dynamics simulations and time-resolved photoelectron spectrosco...", "citations": 15, "author_count": 8, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2926, "doi": "10.1021/acs.jpca.9b11788", "umap_coordinates": { "x": 392.3933410644531, "y": 135.86268615722656, "z": 205.46978759765625 }, "tsne_coordinates": { "x": 0.9605082273483276, "y": 10.304105758666992, "z": 3.2723159790039062 }, "pca_coordinates": { "x": -2.321714162826538, "y": -1.5142035484313965, "z": -1.8146271705627441 }, "axis_scores": { "Quantum imaging": 0.7235892415046692, "Quantum Life Science Sensing": 0.7289376258850098, "Quantum sensing Detection": 0.6922407150268555, "Quantum sensing Metrology": 0.6766253709793091, "Quantum sensing navigation": 0.6683629751205444, "Quantum sensing Position": 0.6691296100616455, "Quantum sensing Timing": 0.6675388216972351, "Quantum sensing": 0.7069389820098877, "Quantum control": 0.6784494519233704 } }, { "id": 2921, "title": "Production and characterisation of Met80X mutants of yeast iso-1-cytochrome c:: spectral, photochemical and binding studies on the ferrous derivatives", "abstract": "The iron ligand, Met80, of yeast iso-1-cytochrome c has been mutated to residues that are unable to bind to the iron. The resultant proteins, Met80Ala, Ser, Asp, Glu, have been expressed and purified....", "citations": 37, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2927, "doi": "10.1016/S0301-4622(02)00085-6", "umap_coordinates": { "x": 393.6708068847656, "y": 135.8324432373047, "z": 204.89344787597656 }, "tsne_coordinates": { "x": -1.0064107179641724, "y": 17.21696662902832, "z": -0.22660619020462036 }, "pca_coordinates": { "x": -3.448737382888794, "y": 0.7123314142227173, "z": -2.2865750789642334 }, "axis_scores": { "Quantum imaging": 0.6831408143043518, "Quantum Life Science Sensing": 0.7175712585449219, "Quantum sensing Detection": 0.6690343618392944, "Quantum sensing Metrology": 0.6978633999824524, "Quantum sensing navigation": 0.6613014936447144, "Quantum sensing Position": 0.6744351983070374, "Quantum sensing Timing": 0.6448215842247009, "Quantum sensing": 0.6822710037231445, "Quantum control": 0.6459031105041504 } }, { "id": 2922, "title": "Theory of scanning tunneling microscopy measurement of single spin decoherence in a superconductor", "abstract": "Localized spin states in conventional superconductors at low temperatures are expected to have a long decoherence time due to the strong suppression of spin relaxation channels. We propose a scanning ...", "citations": 8, "author_count": 4, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 2928, "doi": "10.1103/PhysRevLett.88.037003", "umap_coordinates": { "x": 394.6343994140625, "y": 134.73973083496094, "z": 208.71556091308594 }, "tsne_coordinates": { "x": 1.7611303329467773, "y": -28.250459671020508, "z": -9.685062408447266 }, "pca_coordinates": { "x": 4.296847343444824, "y": -0.11167216300964355, "z": 1.795048713684082 }, "axis_scores": { "Quantum imaging": 0.7308788299560547, "Quantum Life Science Sensing": 0.752099335193634, "Quantum sensing Detection": 0.73689866065979, "Quantum sensing Metrology": 0.7439340353012085, "Quantum sensing navigation": 0.7308623194694519, "Quantum sensing Position": 0.7160542607307434, "Quantum sensing Timing": 0.7202330231666565, "Quantum sensing": 0.7460286021232605, "Quantum control": 0.6954692006111145 } }, { "id": 2923, "title": "Quantum density fluctuations in liquid neon from linearized path-integral calculations", "abstract": "The Feynman-Kleinert linearized path-integral [J. A. Poulsen , J. Chem. Phys. 119, 12179 (2003)] representation of quantum correlation functions is applied to compute the spectrum of density fluctuati...", "citations": 32, "author_count": 5, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2929, "doi": "10.1103/PhysRevB.75.224505", "umap_coordinates": { "x": 394.86700439453125, "y": 137.4464111328125, "z": 208.2225799560547 }, "tsne_coordinates": { "x": -14.439472198486328, "y": -37.69176483154297, "z": -9.415221214294434 }, "pca_coordinates": { "x": 4.32644510269165, "y": 0.08823871612548828, "z": -0.20893049240112305 }, "axis_scores": { "Quantum imaging": 0.6810781955718994, "Quantum Life Science Sensing": 0.702506422996521, "Quantum sensing Detection": 0.6824870109558105, "Quantum sensing Metrology": 0.6686676740646362, "Quantum sensing navigation": 0.7079402208328247, "Quantum sensing Position": 0.6791274547576904, "Quantum sensing Timing": 0.6397039294242859, "Quantum sensing": 0.6934661865234375, "Quantum control": 0.6601205468177795 } }, { "id": 2924, "title": "Proton-proton bremsstrahlung at 310 MeV", "abstract": "Proton-proton bremsstrahlung measurements have been made at 310 MeV by the WASA-PROMICE collaboration [1] at the CELSIUS storage ring. Detailed measurements of proton-proton coincidences in the forwar...", "citations": 10, "author_count": 3, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2930, "doi": null, "umap_coordinates": { "x": 391.66973876953125, "y": 139.3804931640625, "z": 209.70460510253906 }, "tsne_coordinates": { "x": -4.716257572174072, "y": 37.50360107421875, "z": -2.5273330211639404 }, "pca_coordinates": { "x": -0.4721999168395996, "y": 4.604021072387695, "z": -2.246258497238159 }, "axis_scores": { "Quantum imaging": 0.7021646499633789, "Quantum Life Science Sensing": 0.7331142425537109, "Quantum sensing Detection": 0.7036125659942627, "Quantum sensing Metrology": 0.6913831233978271, "Quantum sensing navigation": 0.7097498178482056, "Quantum sensing Position": 0.6939777731895447, "Quantum sensing Timing": 0.6656219363212585, "Quantum sensing": 0.7060588002204895, "Quantum control": 0.6817513704299927 } }, { "id": 2925, "title": "Bound Entangled States Are Useful in Prepare-and-Measure Scenarios", "abstract": "We show that bipartite bound entangled states make possible violations of correlation inequalities in the prepare-and-measure scenario. These inequalities are satisfied by all classical models as well...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 2931, "doi": "10.1103/PhysRevLett.134.120203", "umap_coordinates": { "x": 395.8656921386719, "y": 136.705322265625, "z": 207.84100341796875 }, "tsne_coordinates": { "x": -22.791872024536133, "y": -10.176513671875, "z": 9.619364738464355 }, "pca_coordinates": { "x": 4.136587142944336, "y": 1.5796889066696167, "z": 0.4790024161338806 }, "axis_scores": { "Quantum imaging": 0.697252631187439, "Quantum Life Science Sensing": 0.7103122472763062, "Quantum sensing Detection": 0.7073960304260254, "Quantum sensing Metrology": 0.6913419961929321, "Quantum sensing navigation": 0.6978328824043274, "Quantum sensing Position": 0.6998935341835022, "Quantum sensing Timing": 0.6924050450325012, "Quantum sensing": 0.7139508128166199, "Quantum control": 0.6865024566650391 } }, { "id": 2926, "title": "Photoexcited carrier dynamics in InAlGaAs/InP quantum well laser structures", "abstract": "Experimental investigations of carrier transport and capture into quantum wells are performed for InAlGaAs/InP laser structures. Time-resolved photoluminescence measurements are made by upconversion t...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2932, "doi": "10.1063/1.117071", "umap_coordinates": { "x": 392.7392578125, "y": 134.23046875, "z": 208.33358764648438 }, "tsne_coordinates": { "x": 29.56180191040039, "y": -18.522701263427734, "z": 1.1292405128479004 }, "pca_coordinates": { "x": 2.4871826171875, "y": -4.391680717468262, "z": 0.8145989775657654 }, "axis_scores": { "Quantum imaging": 0.7355058789253235, "Quantum Life Science Sensing": 0.7150697112083435, "Quantum sensing Detection": 0.7178184986114502, "Quantum sensing Metrology": 0.6966186761856079, "Quantum sensing navigation": 0.7141323685646057, "Quantum sensing Position": 0.7021815776824951, "Quantum sensing Timing": 0.6933555006980896, "Quantum sensing": 0.7222098112106323, "Quantum control": 0.7040361166000366 } }, { "id": 2927, "title": "Structure and emission properties of dinuclear copper(i) complexes with pyridyltriazole", "abstract": "A new series of five highly emissive binuclear heteroleptic pyridyltriazole-Cu(i)-phosphine complexes 1-5 was synthesized and examined by different experimental (IR, elemental and thermogravimetric an...", "citations": 20, "author_count": 10, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2933, "doi": "10.1039/d2ra06986e", "umap_coordinates": { "x": 391.9032897949219, "y": 135.71749877929688, "z": 205.40943908691406 }, "tsne_coordinates": { "x": 5.969174861907959, "y": -6.963593006134033, "z": -20.2047176361084 }, "pca_coordinates": { "x": -1.756552815437317, "y": -2.0091652870178223, "z": -2.4299569129943848 }, "axis_scores": { "Quantum imaging": 0.7325202226638794, "Quantum Life Science Sensing": 0.7307437062263489, "Quantum sensing Detection": 0.71501624584198, "Quantum sensing Metrology": 0.7041410207748413, "Quantum sensing navigation": 0.6967628002166748, "Quantum sensing Position": 0.6812552809715271, "Quantum sensing Timing": 0.6655450463294983, "Quantum sensing": 0.7202439308166504, "Quantum control": 0.7097520232200623 } }, { "id": 2928, "title": "B-ASTERISK PRODUCTION IN Z-DECAYS", "abstract": "The decay B* --> B gamma has been observed with the DELPHI detector at LEP, where the B* meson is produced in Z boson decays, The combination of inclusively reconstructed B mesons with well-measured c...", "citations": 43, "author_count": 544, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 2934, "doi": null, "umap_coordinates": { "x": 391.5888977050781, "y": 139.61557006835938, "z": 209.12680053710938 }, "tsne_coordinates": { "x": -6.351305961608887, "y": 37.00780487060547, "z": 1.1651828289031982 }, "pca_coordinates": { "x": -0.16198217868804932, "y": 2.8484578132629395, "z": -2.625675678253174 }, "axis_scores": { "Quantum imaging": 0.6587243676185608, "Quantum Life Science Sensing": 0.6436625719070435, "Quantum sensing Detection": 0.6530250310897827, "Quantum sensing Metrology": 0.6334606409072876, "Quantum sensing navigation": 0.6632146239280701, "Quantum sensing Position": 0.645483136177063, "Quantum sensing Timing": 0.6441577672958374, "Quantum sensing": 0.6447376012802124, "Quantum control": 0.653749942779541 } }, { "id": 2929, "title": "Quantum bits with Josephson junctions", "abstract": "Recent demonstrations of macroscopic quantum coherence in Josephson junction based electronic circuits have opened an entirely new dimension for research and applications in the established field of J...", "citations": 188, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2935, "doi": "10.1063/1.2780165", "umap_coordinates": { "x": 393.94970703125, "y": 134.62081909179688, "z": 208.4100799560547 }, "tsne_coordinates": { "x": -0.7805875539779663, "y": -15.446511268615723, "z": 13.335919380187988 }, "pca_coordinates": { "x": 4.297896862030029, "y": -1.5101184844970703, "z": 3.3432888984680176 }, "axis_scores": { "Quantum imaging": 0.7673503160476685, "Quantum Life Science Sensing": 0.7453135848045349, "Quantum sensing Detection": 0.7685030698776245, "Quantum sensing Metrology": 0.7596204876899719, "Quantum sensing navigation": 0.7720105648040771, "Quantum sensing Position": 0.7301595211029053, "Quantum sensing Timing": 0.7427954077720642, "Quantum sensing": 0.7811069488525391, "Quantum control": 0.7392736673355103 } }, { "id": 2930, "title": "Few-electron open dots: Single level transport", "abstract": "We confirm the existence of anew regime for small few-electron open dots, in which the transport occurs through individual eigenstates of the corresponding closed dot. In particular, at low magnetic f...", "citations": 41, "author_count": 8, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2936, "doi": "10.1103/PhysRevLett.83.1838", "umap_coordinates": { "x": 394.29827880859375, "y": 134.05441284179688, "z": 208.30052185058594 }, "tsne_coordinates": { "x": 5.79296350479126, "y": -27.76690101623535, "z": -11.103424072265625 }, "pca_coordinates": { "x": 3.2347774505615234, "y": -3.524580478668213, "z": 1.4157524108886719 }, "axis_scores": { "Quantum imaging": 0.7417617440223694, "Quantum Life Science Sensing": 0.7663401365280151, "Quantum sensing Detection": 0.7645361423492432, "Quantum sensing Metrology": 0.7441010475158691, "Quantum sensing navigation": 0.7523635029792786, "Quantum sensing Position": 0.7286287546157837, "Quantum sensing Timing": 0.717422366142273, "Quantum sensing": 0.7662529945373535, "Quantum control": 0.7270383834838867 } }, { "id": 2931, "title": "Non-Abelian quantum holonomy of hydrogenlike atoms", "abstract": "We study the Uhlmann holonomy [Rep. Math. Phys. 24, 229 (1986)] of quantum states for hydrogenlike atoms where the intrinsic spin and orbital angular momentum are coupled by the spin-orbit interaction...", "citations": 2, "author_count": 4, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2937, "doi": "10.1103/PhysRevA.84.032111", "umap_coordinates": { "x": 394.9703063964844, "y": 136.9428253173828, "z": 208.6256103515625 }, "tsne_coordinates": { "x": -20.85151481628418, "y": -29.00274085998535, "z": 12.527022361755371 }, "pca_coordinates": { "x": 5.362318515777588, "y": 1.0007323026657104, "z": -1.4845287799835205 }, "axis_scores": { "Quantum imaging": 0.7253702282905579, "Quantum Life Science Sensing": 0.7314516305923462, "Quantum sensing Detection": 0.7097989916801453, "Quantum sensing Metrology": 0.6986514329910278, "Quantum sensing navigation": 0.7286319732666016, "Quantum sensing Position": 0.6912090182304382, "Quantum sensing Timing": 0.6645452380180359, "Quantum sensing": 0.7250995635986328, "Quantum control": 0.7060464024543762 } }, { "id": 2932, "title": "Facile Synthesis of 3,8-Dibromo-Substituted Phenanthridine Derivatives and Their Conjugated Polymers", "abstract": "We present an efficient and convenient synthesis of 3,8-dibromophenanthridine derivatives and their conjugated polymers and demonstrate that phenanthridine-containing conjugated polymers can be used a...", "citations": 26, "author_count": 4, "categories": [ "Polymer Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 2938, "doi": "10.1021/ma902375a", "umap_coordinates": { "x": 392.478515625, "y": 135.5500946044922, "z": 204.84893798828125 }, "tsne_coordinates": { "x": 0.6466048955917358, "y": 10.779573440551758, "z": -12.59524154663086 }, "pca_coordinates": { "x": -2.5785417556762695, "y": -1.139937400817871, "z": -1.520202398300171 }, "axis_scores": { "Quantum imaging": 0.6940540671348572, "Quantum Life Science Sensing": 0.703515887260437, "Quantum sensing Detection": 0.6916135549545288, "Quantum sensing Metrology": 0.6809883117675781, "Quantum sensing navigation": 0.6805359125137329, "Quantum sensing Position": 0.6755126118659973, "Quantum sensing Timing": 0.6517459750175476, "Quantum sensing": 0.7029266357421875, "Quantum control": 0.6719285249710083 } }, { "id": 2933, "title": "Shaping the Ultrafast Temporal Correlations of Thermal-Like Photons", "abstract": "We show that the temporal correlations between two light beams arising from a broadband thermal-like source can be controlled in the femtosecond regime. Specifically, by introducing spectral phase-onl...", "citations": 11, "author_count": 4, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2939, "doi": "10.1103/PhysRevLett.109.243905", "umap_coordinates": { "x": 395.30743408203125, "y": 136.89935302734375, "z": 207.41241455078125 }, "tsne_coordinates": { "x": -17.1129093170166, "y": -16.47368049621582, "z": 0.8126147985458374 }, "pca_coordinates": { "x": 3.1248364448547363, "y": 1.3037374019622803, "z": 1.4731650352478027 }, "axis_scores": { "Quantum imaging": 0.7490407824516296, "Quantum Life Science Sensing": 0.7463764548301697, "Quantum sensing Detection": 0.7472273111343384, "Quantum sensing Metrology": 0.7334815859794617, "Quantum sensing navigation": 0.7489306926727295, "Quantum sensing Position": 0.7072502374649048, "Quantum sensing Timing": 0.7734590172767639, "Quantum sensing": 0.7620151042938232, "Quantum control": 0.7303746342658997 } }, { "id": 2934, "title": "ULTRAFAST PHOTONICS Complete polarization control", "abstract": "The polarization state of isolated attosecond pulses generated by high-order harmonic generation can now be manipulated at will. The development opens the door for a multitude of ultrafast experiments...", "citations": 3, "author_count": 3, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2940, "doi": "10.1038/s41566-018-0166-8", "umap_coordinates": { "x": 394.52081298828125, "y": 134.96278381347656, "z": 206.0654296875 }, "tsne_coordinates": { "x": -10.654134750366211, "y": 3.144292116165161, "z": -9.739925384521484 }, "pca_coordinates": { "x": -1.148823618888855, "y": -0.42321228981018066, "z": 1.043846607208252 }, "axis_scores": { "Quantum imaging": 0.7472309470176697, "Quantum Life Science Sensing": 0.7394686341285706, "Quantum sensing Detection": 0.7282290458679199, "Quantum sensing Metrology": 0.7298583984375, "Quantum sensing navigation": 0.722825825214386, "Quantum sensing Position": 0.7031906843185425, "Quantum sensing Timing": 0.7055798768997192, "Quantum sensing": 0.7456167340278625, "Quantum control": 0.7425257563591003 } }, { "id": 2935, "title": "Feasibility of Insect Identification Based on Spectral Fringes Produced by Clear Wings", "abstract": "Due to the growing awareness that insects' diversity and populations are in decline, there is an increased need for monitoring insects. Entomological lidars and photonic sensors can monitor and remote...", "citations": 4, "author_count": 7, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2941, "doi": "10.1109/JSTQE.2022.3218218", "umap_coordinates": { "x": 394.46124267578125, "y": 133.90261840820312, "z": 206.29421997070312 }, "tsne_coordinates": { "x": -0.8537235260009766, "y": 0.03266443684697151, "z": -37.76785659790039 }, "pca_coordinates": { "x": -2.8161630630493164, "y": 0.2582986354827881, "z": 0.1629328727722168 }, "axis_scores": { "Quantum imaging": 0.6614863872528076, "Quantum Life Science Sensing": 0.7058571577072144, "Quantum sensing Detection": 0.6579962968826294, "Quantum sensing Metrology": 0.6544979810714722, "Quantum sensing navigation": 0.6580302715301514, "Quantum sensing Position": 0.6427579522132874, "Quantum sensing Timing": 0.6369092464447021, "Quantum sensing": 0.6706565618515015, "Quantum control": 0.6470937132835388 } }, { "id": 2936, "title": "NV microscopy of thermally controlled stresses caused by thin Cr2O3 films", "abstract": "Many modern applications, including quantum computing and quantum sensing, use substrate-film interfaces. Particularly, thin films of chromium or titanium and their oxides are commonly used to bind va...", "citations": 3, "author_count": 8, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2942, "doi": "10.1364/OE.489901", "umap_coordinates": { "x": 394.1634216308594, "y": 134.53494262695312, "z": 206.29312133789062 }, "tsne_coordinates": { "x": 12.084457397460938, "y": 17.05312156677246, "z": -29.789339065551758 }, "pca_coordinates": { "x": -0.5753995180130005, "y": 1.1224522590637207, "z": -0.6570932865142822 }, "axis_scores": { "Quantum imaging": 0.7338728308677673, "Quantum Life Science Sensing": 0.7330329418182373, "Quantum sensing Detection": 0.7144522666931152, "Quantum sensing Metrology": 0.7107727527618408, "Quantum sensing navigation": 0.7093897461891174, "Quantum sensing Position": 0.6804035902023315, "Quantum sensing Timing": 0.6987835764884949, "Quantum sensing": 0.7290998697280884, "Quantum control": 0.7224274277687073 } }, { "id": 2937, "title": "Effects of temperature and ionic strength on the microscopic structure and dynamics of egg white gels", "abstract": "We investigate the thermal gelation of egg white proteins at different temperatures with varying salt concentrations using x-ray photon correlation spectroscopy in the geometry of ultra-small angle x-...", "citations": 3, "author_count": 16, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2943, "doi": "10.1063/5.0130758", "umap_coordinates": { "x": 393.42974853515625, "y": 136.1519317626953, "z": 206.0748748779297 }, "tsne_coordinates": { "x": 0.8374916315078735, "y": 3.083052396774292, "z": 35.894161224365234 }, "pca_coordinates": { "x": 0.5587531328201294, "y": -0.1114053726196289, "z": -3.3758134841918945 }, "axis_scores": { "Quantum imaging": 0.7062296867370605, "Quantum Life Science Sensing": 0.7246741056442261, "Quantum sensing Detection": 0.6663605570793152, "Quantum sensing Metrology": 0.672798216342926, "Quantum sensing navigation": 0.6777146458625793, "Quantum sensing Position": 0.6731398105621338, "Quantum sensing Timing": 0.6667972207069397, "Quantum sensing": 0.6950463652610779, "Quantum control": 0.6949412822723389 } }, { "id": 2938, "title": "Formation of long single quantum dots in high quality InSb nanowires grown by molecular beam epitaxy", "abstract": "We report on realization and transport spectroscopy study of single quantum dots (QDs) made from InSb nanowires grown by molecular beam epitaxy (MBE). The nanowires employed are 50-80 nm in diameter a...", "citations": 27, "author_count": 10, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2944, "doi": "10.1039/c5nr04273a", "umap_coordinates": { "x": 392.55474853515625, "y": 133.76394653320312, "z": 207.4341278076172 }, "tsne_coordinates": { "x": 17.605836868286133, "y": -11.918156623840332, "z": -3.8747262954711914 }, "pca_coordinates": { "x": 0.42087018489837646, "y": -5.224035263061523, "z": 0.29820239543914795 }, "axis_scores": { "Quantum imaging": 0.7150087356567383, "Quantum Life Science Sensing": 0.7426202297210693, "Quantum sensing Detection": 0.720022976398468, "Quantum sensing Metrology": 0.7101388573646545, "Quantum sensing navigation": 0.7207950353622437, "Quantum sensing Position": 0.6955899000167847, "Quantum sensing Timing": 0.6745461821556091, "Quantum sensing": 0.7262914180755615, "Quantum control": 0.6910390257835388 } }, { "id": 2939, "title": "Geometric phase, quantum measurements, and the de Broglie-Bohm model", "abstract": "An approach to the measurement induced geometric phase based on the de Broglie-Bohm hidden-variable model is developed. The analysis involves an evolving geometric phase connecting the initial and fin...", "citations": 5, "author_count": 3, "categories": [ "Optics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 2945, "doi": "10.1103/PhysRevA.56.1638", "umap_coordinates": { "x": 395.2959289550781, "y": 137.1803741455078, "z": 207.53343200683594 }, "tsne_coordinates": { "x": -31.957500457763672, "y": -8.532465934753418, "z": 9.211647033691406 }, "pca_coordinates": { "x": 4.53463888168335, "y": 2.7791991233825684, "z": -0.04892033338546753 }, "axis_scores": { "Quantum imaging": 0.7644462585449219, "Quantum Life Science Sensing": 0.7758343815803528, "Quantum sensing Detection": 0.7624210715293884, "Quantum sensing Metrology": 0.7884645462036133, "Quantum sensing navigation": 0.7856990694999695, "Quantum sensing Position": 0.7715387344360352, "Quantum sensing Timing": 0.7410027384757996, "Quantum sensing": 0.782519519329071, "Quantum control": 0.7594044208526611 } }, { "id": 2940, "title": "EXPERIMENTAL REALIZATION OF A SEMICONDUCTOR PHOTON NUMBER AMPLIFIER AND A QUANTUM OPTICAL TAP", "abstract": "Two configurations involving high quantum efficiency photodetectors and light emitting diodes have been investigated. A light beam was detected with a photodetector and its photocurrent was used to me...", "citations": 41, "author_count": 4, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 2946, "doi": "10.1103/PhysRevLett.71.2002", "umap_coordinates": { "x": 395.6175842285156, "y": 135.43719482421875, "z": 207.63674926757812 }, "tsne_coordinates": { "x": -22.090961456298828, "y": -12.989989280700684, "z": -3.9840149879455566 }, "pca_coordinates": { "x": 3.7363390922546387, "y": -0.640761137008667, "z": 4.193958282470703 }, "axis_scores": { "Quantum imaging": 0.737703263759613, "Quantum Life Science Sensing": 0.7351012229919434, "Quantum sensing Detection": 0.7508800625801086, "Quantum sensing Metrology": 0.7482836246490479, "Quantum sensing navigation": 0.7425582408905029, "Quantum sensing Position": 0.7432914972305298, "Quantum sensing Timing": 0.744085967540741, "Quantum sensing": 0.7591537833213806, "Quantum control": 0.6960042119026184 } }, { "id": 2941, "title": "Optimization of soft X-ray phase-contrast tomography using a laser wakefield accelerator", "abstract": "X-ray phase-contrast imaging allows for non-invasive analysis in low-absorbing materials, such as soft tissue. Its application in medical or materials science has yet to be realized on a wider scale d...", "citations": 12, "author_count": 8, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2947, "doi": "10.1364/OE.26.033930", "umap_coordinates": { "x": 394.9565124511719, "y": 133.70806884765625, "z": 206.0238800048828 }, "tsne_coordinates": { "x": 3.440316677093506, "y": 17.327003479003906, "z": -29.252222061157227 }, "pca_coordinates": { "x": -0.8988995552062988, "y": 3.081270217895508, "z": 2.6295976638793945 }, "axis_scores": { "Quantum imaging": 0.729343593120575, "Quantum Life Science Sensing": 0.6934168338775635, "Quantum sensing Detection": 0.6840804219245911, "Quantum sensing Metrology": 0.6851885318756104, "Quantum sensing navigation": 0.7087447047233582, "Quantum sensing Position": 0.683626651763916, "Quantum sensing Timing": 0.6838880777359009, "Quantum sensing": 0.7021241784095764, "Quantum control": 0.6935509443283081 } }, { "id": 2942, "title": "Torsion and electron motion in quantum dots with crystal lattice dislocations", "abstract": "The motion of a conducting electron in a quantum dot with one or several dislocations in the underlying crystal lattice, is considered in the continuum picture, where dislocations are represented by t...", "citations": 40, "author_count": 2, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 2948, "doi": "10.1088/0305-4470/32/4/004", "umap_coordinates": { "x": 393.4921875, "y": 135.72340393066406, "z": 207.78167724609375 }, "tsne_coordinates": { "x": 22.872032165527344, "y": -14.720096588134766, "z": 17.572860717773438 }, "pca_coordinates": { "x": 2.6038479804992676, "y": -0.0888981819152832, "z": 0.716541588306427 }, "axis_scores": { "Quantum imaging": 0.7279531359672546, "Quantum Life Science Sensing": 0.6870954632759094, "Quantum sensing Detection": 0.6982622146606445, "Quantum sensing Metrology": 0.6743916869163513, "Quantum sensing navigation": 0.729202151298523, "Quantum sensing Position": 0.7064146995544434, "Quantum sensing Timing": 0.7148026823997498, "Quantum sensing": 0.6963531970977783, "Quantum control": 0.7145228385925293 } }, { "id": 2943, "title": "Resolving molecular diffusion and aggregation of antibody proteins with megahertz X-ray free-electron laser pulses", "abstract": "X-ray free-electron lasers (XFELs) with megahertz repetition rate can provide novel insights into structural dynamics of biological macromolecule solutions. However, very high dose rates can lead to b...", "citations": 29, "author_count": 30, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2949, "doi": "10.1038/s41467-022-33154-7", "umap_coordinates": { "x": 393.7981872558594, "y": 135.49417114257812, "z": 205.75820922851562 }, "tsne_coordinates": { "x": 4.663909912109375, "y": 20.35427474975586, "z": -31.008529663085938 }, "pca_coordinates": { "x": -1.1437879800796509, "y": -0.06897449493408203, "z": 0.2139456868171692 }, "axis_scores": { "Quantum imaging": 0.703538179397583, "Quantum Life Science Sensing": 0.7111534476280212, "Quantum sensing Detection": 0.678108811378479, "Quantum sensing Metrology": 0.6858788132667542, "Quantum sensing navigation": 0.6879671216011047, "Quantum sensing Position": 0.674694299697876, "Quantum sensing Timing": 0.6740574836730957, "Quantum sensing": 0.6917757987976074, "Quantum control": 0.6605508923530579 } }, { "id": 2944, "title": "Eu-doped ZnO quantum dots with solid-state fluorescence and dual emission for high-performance luminescent solar concentrators", "abstract": "Heavy-metal-free quantum dots (QDs) are promising luminophores for luminescent solar concentrators (LSCs) because of environmental friendliness, which is essential for industrial applications. In orde...", "citations": 33, "author_count": 7, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2950, "doi": "10.1039/d1qm00178g", "umap_coordinates": { "x": 392.23095703125, "y": 134.05360412597656, "z": 205.61331176757812 }, "tsne_coordinates": { "x": 11.354288101196289, "y": 5.0712080001831055, "z": -11.362939834594727 }, "pca_coordinates": { "x": -1.8901057243347168, "y": -3.7239956855773926, "z": 0.7505436539649963 }, "axis_scores": { "Quantum imaging": 0.7066894173622131, "Quantum Life Science Sensing": 0.7367063760757446, "Quantum sensing Detection": 0.7237396836280823, "Quantum sensing Metrology": 0.7288780212402344, "Quantum sensing navigation": 0.6970418691635132, "Quantum sensing Position": 0.6858170032501221, "Quantum sensing Timing": 0.6621092557907104, "Quantum sensing": 0.7228572368621826, "Quantum control": 0.6817969083786011 } }, { "id": 2945, "title": "Photophysical characterization of the 9,10-disubstituted anthracene chromophore and its applications in triplet-triplet annihilation photon upconversion", "abstract": "Molecules based on anthracene are commonly used in applications such as OLEDs and triplet-triplet annihilation upconversion. In future design of blue emitting materials it is useful to know which part...", "citations": 172, "author_count": 8, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2951, "doi": "10.1039/c5tc02626a", "umap_coordinates": { "x": 392.0967102050781, "y": 135.71705627441406, "z": 205.36903381347656 }, "tsne_coordinates": { "x": 6.623481750488281, "y": 4.05235481262207, "z": -13.117836952209473 }, "pca_coordinates": { "x": -3.449774742126465, "y": -1.9531598091125488, "z": -0.35383668541908264 }, "axis_scores": { "Quantum imaging": 0.6659157276153564, "Quantum Life Science Sensing": 0.7034140825271606, "Quantum sensing Detection": 0.6780259013175964, "Quantum sensing Metrology": 0.6603007912635803, "Quantum sensing navigation": 0.6433627605438232, "Quantum sensing Position": 0.6552823781967163, "Quantum sensing Timing": 0.668965220451355, "Quantum sensing": 0.6765739917755127, "Quantum control": 0.6365678310394287 } }, { "id": 2946, "title": "Complementary chromatic adaptation alters photosynthetic strategies in the cyanobacterium Calothrix", "abstract": "The cyanobacterium Calothrix sp. strain PCC 7601 drastically changes phycobiliprotein composition and colour in response to light quality, through complementary chromatic adaptation (CCA), Red light p...", "citations": 78, "author_count": 2, "categories": [ "Microbiology" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2952, "doi": "10.1099/13500872-142-5-1255", "umap_coordinates": { "x": 394.05609130859375, "y": 136.38015747070312, "z": 203.6560821533203 }, "tsne_coordinates": { "x": 16.14821434020996, "y": 35.8278694152832, "z": 15.486371994018555 }, "pca_coordinates": { "x": -2.1421799659729004, "y": 2.174971342086792, "z": -0.5444484949111938 }, "axis_scores": { "Quantum imaging": 0.7027392983436584, "Quantum Life Science Sensing": 0.6928718090057373, "Quantum sensing Detection": 0.6896130442619324, "Quantum sensing Metrology": 0.6840658783912659, "Quantum sensing navigation": 0.7012885212898254, "Quantum sensing Position": 0.679138720035553, "Quantum sensing Timing": 0.6947063207626343, "Quantum sensing": 0.6997815370559692, "Quantum control": 0.7087640166282654 } }, { "id": 2947, "title": "Dynamics and correlations at a quantum phase transition beyond Kibble-Zurek", "abstract": "Kibble-Zurek theory (KZ) stands out as the most robust theory of defect generation in the dynamics of phase transitions. KZ utilizes the structure of equilibrium states away from the transition point ...", "citations": 23, "author_count": 4, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 2953, "doi": "10.1103/PhysRevB.104.014406", "umap_coordinates": { "x": 394.7719421386719, "y": 137.1614227294922, "z": 208.2236785888672 }, "tsne_coordinates": { "x": -20.341716766357422, "y": -19.635738372802734, "z": 12.450362205505371 }, "pca_coordinates": { "x": 5.62986421585083, "y": 1.369668960571289, "z": -2.464113473892212 }, "axis_scores": { "Quantum imaging": 0.719978928565979, "Quantum Life Science Sensing": 0.7311130166053772, "Quantum sensing Detection": 0.709557056427002, "Quantum sensing Metrology": 0.6929418444633484, "Quantum sensing navigation": 0.7258464097976685, "Quantum sensing Position": 0.6997487545013428, "Quantum sensing Timing": 0.6987201571464539, "Quantum sensing": 0.7225991487503052, "Quantum control": 0.7131013870239258 } }, { "id": 2948, "title": "Extended object wavefront sensing based on the correlation spectrum phase", "abstract": "In this paper we investigate the performance of a Fourier based algorithm for fast subpixel shift determination of two mutually shifted images subjected to noise. The algorithm will be used for Shack-...", "citations": 27, "author_count": 4, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 2954, "doi": "10.1364/OPEX.13.009527", "umap_coordinates": { "x": 394.966552734375, "y": 134.43626403808594, "z": 206.12843322753906 }, "tsne_coordinates": { "x": 5.8808369636535645, "y": 16.210330963134766, "z": -27.320768356323242 }, "pca_coordinates": { "x": -1.0452977418899536, "y": 3.3287510871887207, "z": 2.6521878242492676 }, "axis_scores": { "Quantum imaging": 0.7510871291160583, "Quantum Life Science Sensing": 0.7325789928436279, "Quantum sensing Detection": 0.7503330707550049, "Quantum sensing Metrology": 0.7464406490325928, "Quantum sensing navigation": 0.7482863068580627, "Quantum sensing Position": 0.7493482828140259, "Quantum sensing Timing": 0.7331863641738892, "Quantum sensing": 0.7580124735832214, "Quantum control": 0.7047550678253174 } }, { "id": 2949, "title": "Toward silicon-based lasers for terahertz sources", "abstract": "Producing an electrically pumped silicon-based laser at terahertz frequencies is gaining increased attention these days. This paper reviews the recent advances in the search for a silicon-based terahe...", "citations": 32, "author_count": 19, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 2955, "doi": "10.1109/JSTQE.2006.884069", "umap_coordinates": { "x": 393.9486083984375, "y": 133.7495574951172, "z": 206.62295532226562 }, "tsne_coordinates": { "x": -1.0860118865966797, "y": 0.5158134698867798, "z": -34.12901306152344 }, "pca_coordinates": { "x": -1.1489242315292358, "y": -2.2778639793395996, "z": 1.0853667259216309 }, "axis_scores": { "Quantum imaging": 0.6816354393959045, "Quantum Life Science Sensing": 0.6962177157402039, "Quantum sensing Detection": 0.6729283332824707, "Quantum sensing Metrology": 0.6842076182365417, "Quantum sensing navigation": 0.6817014217376709, "Quantum sensing Position": 0.6714159250259399, "Quantum sensing Timing": 0.671035885810852, "Quantum sensing": 0.6869960427284241, "Quantum control": 0.6677453517913818 } }, { "id": 2950, "title": "Quantum-enhanced Doppler lidar", "abstract": "We propose a quantum-enhanced lidar system to estimate a target's radial velocity, which employs squeezed and frequency-entangled signal and idler beams. We compare its performance against a classical...", "citations": 31, "author_count": 5, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2956, "doi": "10.1038/s41534-022-00662-9", "umap_coordinates": { "x": 393.9758605957031, "y": 135.0980682373047, "z": 206.34786987304688 }, "tsne_coordinates": { "x": -10.927605628967285, "y": 3.260082244873047, "z": -2.1984097957611084 }, "pca_coordinates": { "x": -0.9184954762458801, "y": -0.9014260768890381, "z": 1.3054742813110352 }, "axis_scores": { "Quantum imaging": 0.7815645933151245, "Quantum Life Science Sensing": 0.773909866809845, "Quantum sensing Detection": 0.7824885249137878, "Quantum sensing Metrology": 0.7679967880249023, "Quantum sensing navigation": 0.7693217396736145, "Quantum sensing Position": 0.7525784373283386, "Quantum sensing Timing": 0.73273766040802, "Quantum sensing": 0.7903838157653809, "Quantum control": 0.7487651109695435 } }, { "id": 2951, "title": "Two-Photon Fluorescence Imaging and Bimodal Phototherapy of Epidermal Cancer Cells with Biocompatible Self-Assembled Polymer Nanoparticles", "abstract": "We have developed herein an engineered polymer-based nanoplatform showing the convergence of two-photon fluorescence imaging and bimodal phototherapeutic activity in a single nanostructure. It was ach...", "citations": 61, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 2957, "doi": "10.1021/bm500156z", "umap_coordinates": { "x": 393.7820739746094, "y": 133.8110809326172, "z": 204.64059448242188 }, "tsne_coordinates": { "x": 7.940287113189697, "y": 22.042789459228516, "z": -12.304167747497559 }, "pca_coordinates": { "x": -4.8630194664001465, "y": -3.008500576019287, "z": 1.4262351989746094 }, "axis_scores": { "Quantum imaging": 0.7124151587486267, "Quantum Life Science Sensing": 0.7038395404815674, "Quantum sensing Detection": 0.6927317976951599, "Quantum sensing Metrology": 0.6745545268058777, "Quantum sensing navigation": 0.6655550003051758, "Quantum sensing Position": 0.6461352705955505, "Quantum sensing Timing": 0.6309466361999512, "Quantum sensing": 0.6948740482330322, "Quantum control": 0.6434052586555481 } }, { "id": 2952, "title": "Direct Experimental Evidence for Abundant BO4-BO4 Motifs in Borosilicate Glasses From Double-Quantum 11B NMR Spectroscopy", "abstract": "By using double-quantum-single-quantum correlation B-11 nuclear magnetic resonance (NMR) experiments and atomistic molecular dynamics (MD) simulations, we resolve the long-standing controversy of whet...", "citations": 47, "author_count": 4, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2958, "doi": "10.1021/acs.jpclett.8b02907", "umap_coordinates": { "x": 392.5213928222656, "y": 136.77667236328125, "z": 205.9217071533203 }, "tsne_coordinates": { "x": 7.876337051391602, "y": 12.694889068603516, "z": 36.16045379638672 }, "pca_coordinates": { "x": -0.19145750999450684, "y": 0.5140659809112549, "z": -1.933952808380127 }, "axis_scores": { "Quantum imaging": 0.6795617938041687, "Quantum Life Science Sensing": 0.6845452785491943, "Quantum sensing Detection": 0.674574613571167, "Quantum sensing Metrology": 0.6513890624046326, "Quantum sensing navigation": 0.6579969525337219, "Quantum sensing Position": 0.641331136226654, "Quantum sensing Timing": 0.6497890949249268, "Quantum sensing": 0.6827329993247986, "Quantum control": 0.6452747583389282 } }, { "id": 2953, "title": "Carrier-envelope-phase measurement of sub-cycle UV pulses using angular photofragment distributions", "abstract": "Carrier-envelope-phase (CEP) of sub-cycle ultraviolet (UV) pulse strongly influences the dynamics of quantum systems, but its characterization is not accessible experimentally. Here we investigate pho...", "citations": 6, "author_count": 9, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2959, "doi": "10.1038/s42005-022-00959-3", "umap_coordinates": { "x": 393.9536437988281, "y": 135.8131866455078, "z": 206.4037628173828 }, "tsne_coordinates": { "x": 5.892116546630859, "y": -4.782689571380615, "z": 20.008852005004883 }, "pca_coordinates": { "x": -0.7148983478546143, "y": 1.4311082363128662, "z": 0.8474598526954651 }, "axis_scores": { "Quantum imaging": 0.6774333715438843, "Quantum Life Science Sensing": 0.6995116472244263, "Quantum sensing Detection": 0.6702530384063721, "Quantum sensing Metrology": 0.6650347113609314, "Quantum sensing navigation": 0.676816463470459, "Quantum sensing Position": 0.6682068109512329, "Quantum sensing Timing": 0.6676292419433594, "Quantum sensing": 0.6756947636604309, "Quantum control": 0.6549373269081116 } }, { "id": 2954, "title": "Nonconvex Morphology of Metallic Copper Obtained via Nonclassical Crystallization of Copper Hydride", "abstract": "Copper particles with a desert rose morphology and high surface area were obtained via decomposition of a copper hydride whose particles possesses a similar shape. Copper hydride was synthesized by th...", "citations": 3, "author_count": 4, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 2960, "doi": "10.1021/acs.cgd.9b00689", "umap_coordinates": { "x": 391.83984375, "y": 136.4084014892578, "z": 205.8994598388672 }, "tsne_coordinates": { "x": 30.995710372924805, "y": -10.243243217468262, "z": -10.249956130981445 }, "pca_coordinates": { "x": -1.1338475942611694, "y": 0.5905523300170898, "z": -1.9276905059814453 }, "axis_scores": { "Quantum imaging": 0.6915391683578491, "Quantum Life Science Sensing": 0.6684648394584656, "Quantum sensing Detection": 0.6796979904174805, "Quantum sensing Metrology": 0.6616464853286743, "Quantum sensing navigation": 0.6631907820701599, "Quantum sensing Position": 0.6476381421089172, "Quantum sensing Timing": 0.6287287473678589, "Quantum sensing": 0.6807692050933838, "Quantum control": 0.6877914071083069 } }, { "id": 2955, "title": "Suppressing relaxation in superconducting qubits by quasiparticle pumping", "abstract": "Dynamical error suppression techniques are commonly used to improve coherence in quantum systems. They reduce dephasing errors by applying control pulses designed to reverse erroneous coherent evoluti...", "citations": 124, "author_count": 19, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2961, "doi": "10.1126/science.aah5844", "umap_coordinates": { "x": 394.3431091308594, "y": 135.80332946777344, "z": 207.56881713867188 }, "tsne_coordinates": { "x": -0.21575604379177094, "y": -12.354488372802734, "z": 23.046236038208008 }, "pca_coordinates": { "x": 2.4767515659332275, "y": -1.023714542388916, "z": -1.0393223762512207 }, "axis_scores": { "Quantum imaging": 0.7312110066413879, "Quantum Life Science Sensing": 0.7432908415794373, "Quantum sensing Detection": 0.7283817529678345, "Quantum sensing Metrology": 0.7142682671546936, "Quantum sensing navigation": 0.747870922088623, "Quantum sensing Position": 0.6965835094451904, "Quantum sensing Timing": 0.7154180407524109, "Quantum sensing": 0.744311511516571, "Quantum control": 0.7435956001281738 } }, { "id": 2956, "title": "SIMULATION OF BAND WIDTHS IN LIQUID WATER SPECTRA - THE BREAKDOWN OF THE FROZEN-FIELD APPROXIMATION", "abstract": "Band shapes of liquid water OH vibrational spectra oblained from molecular dynamics (MD) simulation and from a quantum-mechanical method are investigated. The so-called frozen-field approximation appl...", "citations": 41, "author_count": 5, "categories": [ "Chemistry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 2962, "doi": "10.1016/0009-2614(92)85916-X", "umap_coordinates": { "x": 394.12213134765625, "y": 136.50022888183594, "z": 205.48873901367188 }, "tsne_coordinates": { "x": -6.273345947265625, "y": 18.60900115966797, "z": 25.868728637695312 }, "pca_coordinates": { "x": -0.028448939323425293, "y": 1.6922484636306763, "z": -1.6519272327423096 }, "axis_scores": { "Quantum imaging": 0.6644529104232788, "Quantum Life Science Sensing": 0.6946232914924622, "Quantum sensing Detection": 0.6550579071044922, "Quantum sensing Metrology": 0.6551574468612671, "Quantum sensing navigation": 0.6584077477455139, "Quantum sensing Position": 0.638616144657135, "Quantum sensing Timing": 0.6366429328918457, "Quantum sensing": 0.6692497134208679, "Quantum control": 0.6475577354431152 } }, { "id": 2957, "title": "Multipolar hierarchy of efficient quantum polarization measures", "abstract": "We advocate a simple multipole expansion of the polarization density matrix. The resulting multipoles appear as successive moments of the Stokes variables and can be obtained from feasible measurement...", "citations": 27, "author_count": 9, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 2963, "doi": "10.1103/PhysRevA.88.063803", "umap_coordinates": { "x": 394.4637145996094, "y": 135.8756103515625, "z": 207.2727813720703 }, "tsne_coordinates": { "x": -17.564193725585938, "y": -8.706233978271484, "z": -6.455580234527588 }, "pca_coordinates": { "x": 1.7364294528961182, "y": -0.8288636207580566, "z": 0.8259329199790955 }, "axis_scores": { "Quantum imaging": 0.7700591683387756, "Quantum Life Science Sensing": 0.7532752156257629, "Quantum sensing Detection": 0.7479462027549744, "Quantum sensing Metrology": 0.7452043890953064, "Quantum sensing navigation": 0.7420611381530762, "Quantum sensing Position": 0.721950352191925, "Quantum sensing Timing": 0.6942299604415894, "Quantum sensing": 0.7580395936965942, "Quantum control": 0.7154901027679443 } }, { "id": 2958, "title": "Minimally Dissipative Information Erasure in a Quantum Dot via Thermodynamic Length br", "abstract": "In this Letter, we explore the use of thermodynamic length to improve the performance of experimentalprotocols. In particular, we implement Landauer erasure on a driven electron level in a semiconduct...", "citations": 23, "author_count": 7, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2964, "doi": "10.1103/PhysRevLett.129.270601", "umap_coordinates": { "x": 395.1751403808594, "y": 136.03114318847656, "z": 208.14901733398438 }, "tsne_coordinates": { "x": -25.4200496673584, "y": -19.941734313964844, "z": 5.586038589477539 }, "pca_coordinates": { "x": 4.064779758453369, "y": 0.3529388904571533, "z": 0.5643483996391296 }, "axis_scores": { "Quantum imaging": 0.7546030879020691, "Quantum Life Science Sensing": 0.7585517168045044, "Quantum sensing Detection": 0.7606545090675354, "Quantum sensing Metrology": 0.7529984712600708, "Quantum sensing navigation": 0.7562326788902283, "Quantum sensing Position": 0.747795820236206, "Quantum sensing Timing": 0.7360975742340088, "Quantum sensing": 0.7697106599807739, "Quantum control": 0.7237880229949951 } }, { "id": 2959, "title": "Violation of Onsager's theorem in approximate master equation approaches", "abstract": "The consistency with Onsager's theorem is examined for commonly used perturbative approaches, such as the Redfield and second-order von Neumann master equations, for thermoelectric transport through n...", "citations": 11, "author_count": 5, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2965, "doi": "10.1103/PhysRevB.94.165435", "umap_coordinates": { "x": 394.5202941894531, "y": 137.20513916015625, "z": 207.94886779785156 }, "tsne_coordinates": { "x": -11.382752418518066, "y": -15.686284065246582, "z": 6.055777549743652 }, "pca_coordinates": { "x": 4.89360237121582, "y": 0.26349401473999023, "z": -0.6498949527740479 }, "axis_scores": { "Quantum imaging": 0.6839082837104797, "Quantum Life Science Sensing": 0.7150841951370239, "Quantum sensing Detection": 0.7053784728050232, "Quantum sensing Metrology": 0.7163722515106201, "Quantum sensing navigation": 0.715637743473053, "Quantum sensing Position": 0.7016498446464539, "Quantum sensing Timing": 0.684660017490387, "Quantum sensing": 0.716712236404419, "Quantum control": 0.6780628561973572 } }, { "id": 2960, "title": "Semiclassical theory of Bardeen-Cooper-Schrieffer pairing-gap fluctuations", "abstract": "Superfluidity and superconductivity are genuine many-body manifestations of quantum coherence. For finite-size systems the associated pairing gap fluctuates as a function of size or shape. We provide ...", "citations": 31, "author_count": 4, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 2966, "doi": "10.1103/PhysRevLett.100.037005", "umap_coordinates": { "x": 394.5526123046875, "y": 136.59921264648438, "z": 208.7415313720703 }, "tsne_coordinates": { "x": -11.529202461242676, "y": -34.69529342651367, "z": 2.8259003162384033 }, "pca_coordinates": { "x": 5.947694778442383, "y": 0.3478405475616455, "z": -0.577914297580719 }, "axis_scores": { "Quantum imaging": 0.7020532488822937, "Quantum Life Science Sensing": 0.7375956177711487, "Quantum sensing Detection": 0.7292633056640625, "Quantum sensing Metrology": 0.7233833074569702, "Quantum sensing navigation": 0.741195797920227, "Quantum sensing Position": 0.7191850543022156, "Quantum sensing Timing": 0.7257528305053711, "Quantum sensing": 0.7402576804161072, "Quantum control": 0.7256720066070557 } }, { "id": 2961, "title": "Quantum ballistic transport in a dual-gate Si transistor", "abstract": "BS solving three-dimensional (3-D) Poisson and Schrodinger equations, we have shown that the formation of quantum dots are not very likely in the dual-gate Si transistor recently processed, The observ...", "citations": 1, "author_count": 4, "categories": [ "Engineering" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2967, "doi": "10.1109/16.543046", "umap_coordinates": { "x": 394.1341552734375, "y": 134.8080291748047, "z": 208.5228729248047 }, "tsne_coordinates": { "x": 11.98108196258545, "y": -33.44294357299805, "z": -11.87408447265625 }, "pca_coordinates": { "x": 4.229583263397217, "y": -1.8265166282653809, "z": 1.7143054008483887 }, "axis_scores": { "Quantum imaging": 0.7494052648544312, "Quantum Life Science Sensing": 0.7334938049316406, "Quantum sensing Detection": 0.7554227709770203, "Quantum sensing Metrology": 0.7293816804885864, "Quantum sensing navigation": 0.7683223485946655, "Quantum sensing Position": 0.7267765998840332, "Quantum sensing Timing": 0.7152036428451538, "Quantum sensing": 0.7653636336326599, "Quantum control": 0.7344506978988647 } }, { "id": 2962, "title": "Grain Size-Dependent Thermal Expansion of Nanocrystalline Metals", "abstract": "In the present work, we have used classical molecular dynamics and quantum mechanical density functional theory modeling to investigate the grain size-dependent thermal expansion coefficient (CTE) of ...", "citations": 10, "author_count": 8, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2968, "doi": "10.3390/ma16145032", "umap_coordinates": { "x": 392.668212890625, "y": 134.25946044921875, "z": 206.43321228027344 }, "tsne_coordinates": { "x": 31.495718002319336, "y": -9.02644157409668, "z": -8.407538414001465 }, "pca_coordinates": { "x": -0.7668715715408325, "y": -0.8000643253326416, "z": -2.6944191455841064 }, "axis_scores": { "Quantum imaging": 0.7116299271583557, "Quantum Life Science Sensing": 0.7420802116394043, "Quantum sensing Detection": 0.7104927897453308, "Quantum sensing Metrology": 0.7162030935287476, "Quantum sensing navigation": 0.7017207145690918, "Quantum sensing Position": 0.6894611716270447, "Quantum sensing Timing": 0.6889917850494385, "Quantum sensing": 0.7359463572502136, "Quantum control": 0.7030707597732544 } }, { "id": 2963, "title": "Measurement of jet-medium interactions via direct photon-hadron correlations in Au plus Au and d plus Au collisions at √SNN=200 GeV", "abstract": "We present direct photon-hadron correlations in 200 GeV/A Au + Au, d + Au, and p + p collisions, for direct photon p(T) from 5-12 GeV/c, collected by the PHENIX Collaboration in the years from 2006 to...", "citations": 13, "author_count": 580, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 2969, "doi": "10.1103/PhysRevC.102.054910", "umap_coordinates": { "x": 396.4218444824219, "y": 134.50750732421875, "z": 207.93768310546875 }, "tsne_coordinates": { "x": -34.251888275146484, "y": 2.0172319412231445, "z": -20.31787109375 }, "pca_coordinates": { "x": 1.7920420169830322, "y": -0.5103611946105957, "z": 3.814970016479492 }, "axis_scores": { "Quantum imaging": 0.6984120607376099, "Quantum Life Science Sensing": 0.710561990737915, "Quantum sensing Detection": 0.7391231656074524, "Quantum sensing Metrology": 0.7094401121139526, "Quantum sensing navigation": 0.712631106376648, "Quantum sensing Position": 0.6993080377578735, "Quantum sensing Timing": 0.6964591145515442, "Quantum sensing": 0.7287001609802246, "Quantum control": 0.6789444088935852 } }, { "id": 2964, "title": "Towards Better Understanding QBism", "abstract": "Recently I posted a paper entitled External observer reflections on QBism. As any external observer, I was not able to reflect all features of QBism properly. The comments I received from one of QBism...", "citations": 10, "author_count": 2, "categories": [ "History & Philosophy of Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2970, "doi": "10.1007/s10699-017-9524-0", "umap_coordinates": { "x": 395.04425048828125, "y": 136.93568420410156, "z": 205.50645446777344 }, "tsne_coordinates": { "x": -31.129093170166016, "y": 2.8404738903045654, "z": 12.981672286987305 }, "pca_coordinates": { "x": -1.1179015636444092, "y": 3.456949234008789, "z": -0.4444529712200165 }, "axis_scores": { "Quantum imaging": 0.7054741382598877, "Quantum Life Science Sensing": 0.7261715531349182, "Quantum sensing Detection": 0.7037326693534851, "Quantum sensing Metrology": 0.7326251268386841, "Quantum sensing navigation": 0.7297948598861694, "Quantum sensing Position": 0.7158188819885254, "Quantum sensing Timing": 0.6845747232437134, "Quantum sensing": 0.7250090837478638, "Quantum control": 0.7041610479354858 } }, { "id": 2965, "title": "Fluorescence Enhancement of Single V2 Centers in a 4H-SiC Cavity Antenna", "abstract": "Solid state quantum emitters are a prime candidate in distributed quantum technologies since they inherently provide a spin-photon interface. An ongoing challenge in the field, however, is the low pho...", "citations": 4, "author_count": 12, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2971, "doi": "10.1021/acs.nanolett.4c02162", "umap_coordinates": { "x": 392.98883056640625, "y": 133.96429443359375, "z": 206.59194946289062 }, "tsne_coordinates": { "x": 5.134008884429932, "y": -18.685733795166016, "z": -20.57611656188965 }, "pca_coordinates": { "x": -1.9282201528549194, "y": -3.4150309562683105, "z": 1.1325631141662598 }, "axis_scores": { "Quantum imaging": 0.707137942314148, "Quantum Life Science Sensing": 0.7089091539382935, "Quantum sensing Detection": 0.7037240266799927, "Quantum sensing Metrology": 0.6903325915336609, "Quantum sensing navigation": 0.6860324144363403, "Quantum sensing Position": 0.6548907160758972, "Quantum sensing Timing": 0.6503674387931824, "Quantum sensing": 0.7050260901451111, "Quantum control": 0.6752036213874817 } }, { "id": 2966, "title": "Energy dissipation in energy transfer mediated by optical near-field interactions and their interfaces with optical far-fields", "abstract": "We theoretically and experimentally evaluated energy dissipation of nanophotonic devices based on energy transfer via near-field interactions and their interfaces with optical far-fields. The lower bo...", "citations": 9, "author_count": 8, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2972, "doi": "10.1063/1.4729003", "umap_coordinates": { "x": 393.73150634765625, "y": 135.27981567382812, "z": 207.24485778808594 }, "tsne_coordinates": { "x": -19.754119873046875, "y": -6.98422384262085, "z": 35.35942077636719 }, "pca_coordinates": { "x": 1.2379491329193115, "y": -0.7530155181884766, "z": 0.2502744793891907 }, "axis_scores": { "Quantum imaging": 0.7380092740058899, "Quantum Life Science Sensing": 0.7299134731292725, "Quantum sensing Detection": 0.7100979089736938, "Quantum sensing Metrology": 0.711033821105957, "Quantum sensing navigation": 0.6973584890365601, "Quantum sensing Position": 0.669324517250061, "Quantum sensing Timing": 0.6619935631752014, "Quantum sensing": 0.7279244065284729, "Quantum control": 0.6935771703720093 } }, { "id": 2967, "title": "Optical detection of quantum oscillations in InP/InGaAs quantum structures", "abstract": "A magnetooptical method based on optical detection of quantum oscillations via photoluminescence in a magnetic field is applied for characterization of the electronic structure and recombination mecha...", "citations": 11, "author_count": 6, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2973, "doi": "10.1063/1.117899", "umap_coordinates": { "x": 393.20196533203125, "y": 134.31507873535156, "z": 208.39500427246094 }, "tsne_coordinates": { "x": 29.913084030151367, "y": -18.94866943359375, "z": 2.248133659362793 }, "pca_coordinates": { "x": 3.4752392768859863, "y": -2.8303871154785156, "z": 2.265026569366455 }, "axis_scores": { "Quantum imaging": 0.7793577313423157, "Quantum Life Science Sensing": 0.7701834440231323, "Quantum sensing Detection": 0.7980077266693115, "Quantum sensing Metrology": 0.7743861675262451, "Quantum sensing navigation": 0.7707830667495728, "Quantum sensing Position": 0.7481474876403809, "Quantum sensing Timing": 0.7377278804779053, "Quantum sensing": 0.7887610793113708, "Quantum control": 0.7401495575904846 } }, { "id": 2968, "title": "Reference-State Error Mitigation: A Strategy for High Accuracy Quantum Computation of Chemistry", "abstract": "Decoherence and gate errors severely limit the capabilities of state-of-the-art quantum computers. This work introduces a strategy for reference-state error mitigation (REM) of quantum chemistry that ...", "citations": 26, "author_count": 11, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2974, "doi": "10.1021/acs.jctc.2c00807", "umap_coordinates": { "x": 393.187255859375, "y": 136.79061889648438, "z": 205.73263549804688 }, "tsne_coordinates": { "x": -6.690310955047607, "y": 6.855919361114502, "z": 15.703444480895996 }, "pca_coordinates": { "x": -0.6515184044837952, "y": -0.10767292976379395, "z": -1.9249749183654785 }, "axis_scores": { "Quantum imaging": 0.7318001985549927, "Quantum Life Science Sensing": 0.7365578413009644, "Quantum sensing Detection": 0.7337974905967712, "Quantum sensing Metrology": 0.7381728291511536, "Quantum sensing navigation": 0.7469470500946045, "Quantum sensing Position": 0.7398141026496887, "Quantum sensing Timing": 0.7485572695732117, "Quantum sensing": 0.7460098266601562, "Quantum control": 0.7518672347068787 } }, { "id": 2969, "title": "Magneto-photoluminescence studies of Cd(Mn)Se/Zn(Mn)Se diluted magnetic nanostructures", "abstract": "We report on cw and time-resolved photoluminescence (PL) studies of Cd(Mn)Sc/Zn(Mn)Se diluted magnetic semiconductor nanostructures grown by molecular beam epitaxy. Excitonic PL intensity, decay time ...", "citations": 3, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 2975, "doi": "10.1016/S1386-9477(01)00117-5", "umap_coordinates": { "x": 392.54888916015625, "y": 134.9777374267578, "z": 206.73023986816406 }, "tsne_coordinates": { "x": 40.72554016113281, "y": -1.4860174655914307, "z": 0.2352134883403778 }, "pca_coordinates": { "x": -2.3286056518554688, "y": -2.1152005195617676, "z": -0.7193349599838257 }, "axis_scores": { "Quantum imaging": 0.6813099384307861, "Quantum Life Science Sensing": 0.69184410572052, "Quantum sensing Detection": 0.6688727140426636, "Quantum sensing Metrology": 0.6903137564659119, "Quantum sensing navigation": 0.6758308410644531, "Quantum sensing Position": 0.6774316430091858, "Quantum sensing Timing": 0.6124686598777771, "Quantum sensing": 0.6771578788757324, "Quantum control": 0.6286985874176025 } }, { "id": 2970, "title": "Nanowire-based structures for infrared to ultraviolet emitters studied by cathodoluminescence", "abstract": "Nanowires are structures with features on the nanoscale, and it is therefore essential to study their properties on that scale. We present optical data from a variety of nanowire-based structures usin...", "citations": 7, "author_count": 2, "categories": [ "Microscopy" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2976, "doi": "10.1111/jmi.12296", "umap_coordinates": { "x": 393.994873046875, "y": 133.3273162841797, "z": 206.00169372558594 }, "tsne_coordinates": { "x": 3.3403894901275635, "y": 6.445863723754883, "z": -24.591398239135742 }, "pca_coordinates": { "x": -1.5554237365722656, "y": -2.1820178031921387, "z": 1.2912044525146484 }, "axis_scores": { "Quantum imaging": 0.6998742818832397, "Quantum Life Science Sensing": 0.7046258449554443, "Quantum sensing Detection": 0.6948099136352539, "Quantum sensing Metrology": 0.7024444341659546, "Quantum sensing navigation": 0.6791639924049377, "Quantum sensing Position": 0.6620144844055176, "Quantum sensing Timing": 0.6594405174255371, "Quantum sensing": 0.7013103365898132, "Quantum control": 0.670897901058197 } }, { "id": 2971, "title": "Silver as Seed-Particle Material for GaAs Nanowires-Dictating Crystal Phase and Growth Direction by Substrate Orientation", "abstract": "Here we investigate the feasibility of silver as seed-particle material to synthesize GaAs nanowires and show that both crystal phase and growth direction can be controlled by choice of substrate orie...", "citations": 35, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2977, "doi": "10.1021/acs.nanolett.5b04218", "umap_coordinates": { "x": 392.0104675292969, "y": 134.0138702392578, "z": 206.93783569335938 }, "tsne_coordinates": { "x": 20.19144058227539, "y": -10.037044525146484, "z": -8.354782104492188 }, "pca_coordinates": { "x": -1.1908289194107056, "y": -4.11142110824585, "z": -0.8030046820640564 }, "axis_scores": { "Quantum imaging": 0.6519563794136047, "Quantum Life Science Sensing": 0.659236490726471, "Quantum sensing Detection": 0.656563937664032, "Quantum sensing Metrology": 0.640688955783844, "Quantum sensing navigation": 0.6903285980224609, "Quantum sensing Position": 0.6805585622787476, "Quantum sensing Timing": 0.6513656377792358, "Quantum sensing": 0.6601994633674622, "Quantum control": 0.6504603624343872 } }, { "id": 2972, "title": "High-fidelity readout scheme for rare-earth solid-state quantum computing", "abstract": "We propose and analyze a high-fidelity readout scheme for a single-instance approach to quantum computing in rare-earth-ion-doped crystals. The scheme is based on using different elements as qubit and...", "citations": 27, "author_count": 9, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2978, "doi": "10.1103/PhysRevA.92.022319", "umap_coordinates": { "x": 395.1968688964844, "y": 136.09144592285156, "z": 207.9256134033203 }, "tsne_coordinates": { "x": -24.710769653320312, "y": -17.37110137939453, "z": -2.891448736190796 }, "pca_coordinates": { "x": 3.5301146507263184, "y": -0.6178233623504639, "z": 0.9891270995140076 }, "axis_scores": { "Quantum imaging": 0.7550918459892273, "Quantum Life Science Sensing": 0.7854045033454895, "Quantum sensing Detection": 0.7775003910064697, "Quantum sensing Metrology": 0.763403594493866, "Quantum sensing navigation": 0.7550860643386841, "Quantum sensing Position": 0.7298547029495239, "Quantum sensing Timing": 0.74062579870224, "Quantum sensing": 0.787076473236084, "Quantum control": 0.7358746528625488 } }, { "id": 2973, "title": "Human telomerase reverse transcriptase regulates cyclin D1 and G1/S phase transition in laryngeal squamous carcinoma", "abstract": "Conclusion: Down-regulating human telomerase reverse transcriptase (hTERT) expression will significantly suppress the cell viability of laryngeal squamous cell carcinoma Hep-2, which was mainly due to...", "citations": 25, "author_count": 6, "categories": [ "Otorhinolaryngology" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2979, "doi": "10.3109/00016489.2011.557393", "umap_coordinates": { "x": 394.72052001953125, "y": 134.9794921875, "z": 204.23251342773438 }, "tsne_coordinates": { "x": 13.088981628417969, "y": 29.311378479003906, "z": 0.4727340042591095 }, "pca_coordinates": { "x": -1.9125516414642334, "y": 1.6291273832321167, "z": -1.1710768938064575 }, "axis_scores": { "Quantum imaging": 0.6434924006462097, "Quantum Life Science Sensing": 0.6960756778717041, "Quantum sensing Detection": 0.6461098790168762, "Quantum sensing Metrology": 0.6346307396888733, "Quantum sensing navigation": 0.6558533906936646, "Quantum sensing Position": 0.6296647191047668, "Quantum sensing Timing": 0.6419926285743713, "Quantum sensing": 0.6529466509819031, "Quantum control": 0.6680871844291687 } }, { "id": 2974, "title": "PHOTOINHIBITION OF PHOTOSYNTHESIS IN LEMNA-GIBBA AS INDUCED BY THE INTERACTION BETWEEN LIGHT AND TEMPERATURE .1. PHOTOSYNTHESIS INVIVO", "abstract": "The floating angiosperm L. gibba L. was exposed for 2 h to various combinations of photosynthetic photon flux densities and temperatures. The extent of photoinhibition of photosynthesis was assayed by...", "citations": 83, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1984, "topic": [ "all" ], "embedding_index": 2980, "doi": "10.1111/j.1399-3054.1984.tb00368.x", "umap_coordinates": { "x": 394.22296142578125, "y": 136.16796875, "z": 203.74276733398438 }, "tsne_coordinates": { "x": 7.41366720199585, "y": 35.88153839111328, "z": 14.838165283203125 }, "pca_coordinates": { "x": -1.8659206628799438, "y": 1.364808440208435, "z": -1.030205488204956 }, "axis_scores": { "Quantum imaging": 0.6836920976638794, "Quantum Life Science Sensing": 0.7035313248634338, "Quantum sensing Detection": 0.6752426028251648, "Quantum sensing Metrology": 0.6812583208084106, "Quantum sensing navigation": 0.6539267301559448, "Quantum sensing Position": 0.650621771812439, "Quantum sensing Timing": 0.6553799510002136, "Quantum sensing": 0.6875266432762146, "Quantum control": 0.6649261116981506 } }, { "id": 2975, "title": "Carbon Dots: A Review with Focus on Sustainability", "abstract": "Carbon dots (CDs) are an emerging class of nanomaterials with attractive optical properties, which promise to enable a variety of applications. An important and timely question is whether CDs can beco...", "citations": 56, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2981, "doi": "10.1002/advs.202405472", "umap_coordinates": { "x": 392.8081970214844, "y": 133.88914489746094, "z": 205.0998077392578 }, "tsne_coordinates": { "x": 20.617708206176758, "y": 14.981171607971191, "z": -5.9921064376831055 }, "pca_coordinates": { "x": -4.023553371429443, "y": -2.347808361053467, "z": -1.8045692443847656 }, "axis_scores": { "Quantum imaging": 0.7177484631538391, "Quantum Life Science Sensing": 0.7625179886817932, "Quantum sensing Detection": 0.7237781286239624, "Quantum sensing Metrology": 0.7173556089401245, "Quantum sensing navigation": 0.7089566588401794, "Quantum sensing Position": 0.6897648572921753, "Quantum sensing Timing": 0.6820573806762695, "Quantum sensing": 0.7367499470710754, "Quantum control": 0.7417809963226318 } }, { "id": 2976, "title": "Fractional Statistics", "abstract": "The quantum-mechanical description of assemblies of particles whose motion is confined to two (or one) spatial dimensions offers many possibilities that are distinct from bosons and fermions. We call ...", "citations": 18, "author_count": 3, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2982, "doi": "10.1146/annurev-conmatphys-040423-014045", "umap_coordinates": { "x": 395.18267822265625, "y": 135.8379364013672, "z": 206.498779296875 }, "tsne_coordinates": { "x": -32.934810638427734, "y": -24.78582000732422, "z": -11.343596458435059 }, "pca_coordinates": { "x": 1.3434193134307861, "y": 2.0480592250823975, "z": 0.06976205110549927 }, "axis_scores": { "Quantum imaging": 0.7250611186027527, "Quantum Life Science Sensing": 0.7537360787391663, "Quantum sensing Detection": 0.7159097790718079, "Quantum sensing Metrology": 0.7267179489135742, "Quantum sensing navigation": 0.721237063407898, "Quantum sensing Position": 0.6987261176109314, "Quantum sensing Timing": 0.7277079820632935, "Quantum sensing": 0.7328373789787292, "Quantum control": 0.736065149307251 } }, { "id": 2977, "title": "Investigation of Vibrational Modes and Phonon Density of States in ZnO Quantum Dots", "abstract": "The ability to understand the phonon behavior in small metal oxide nanostructures and their surfaces is of great importance for thermal and microelectronic applications in successively smaller devices...", "citations": 43, "author_count": 5, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 2983, "doi": "10.1021/jp300985k", "umap_coordinates": { "x": 392.1007385253906, "y": 135.41781616210938, "z": 206.98516845703125 }, "tsne_coordinates": { "x": 17.855998992919922, "y": -7.965506076812744, "z": 9.16210651397705 }, "pca_coordinates": { "x": 0.25073719024658203, "y": -2.917090892791748, "z": -1.447314739227295 }, "axis_scores": { "Quantum imaging": 0.6965897679328918, "Quantum Life Science Sensing": 0.7261744141578674, "Quantum sensing Detection": 0.6999168395996094, "Quantum sensing Metrology": 0.6922820806503296, "Quantum sensing navigation": 0.7013493776321411, "Quantum sensing Position": 0.6879784464836121, "Quantum sensing Timing": 0.6583073139190674, "Quantum sensing": 0.7132301926612854, "Quantum control": 0.6749063730239868 } }, { "id": 2978, "title": "Graphene as gain medium for broadband lasers", "abstract": "Efficient nonradiative carrier recombination strongly counteracts the appearance of optical gain in graphene. Based on a microscopic and fully quantum-mechanical study of the coupled carrier, phonon, ...", "citations": 28, "author_count": 5, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 2984, "doi": "10.1103/PhysRevB.92.085407", "umap_coordinates": { "x": 394.82281494140625, "y": 136.10342407226562, "z": 208.17930603027344 }, "tsne_coordinates": { "x": -17.579116821289062, "y": -30.572296142578125, "z": -10.512250900268555 }, "pca_coordinates": { "x": 2.825596809387207, "y": -1.6158905029296875, "z": 0.15290623903274536 }, "axis_scores": { "Quantum imaging": 0.6835813522338867, "Quantum Life Science Sensing": 0.714783251285553, "Quantum sensing Detection": 0.6959032416343689, "Quantum sensing Metrology": 0.6787253618240356, "Quantum sensing navigation": 0.6992958188056946, "Quantum sensing Position": 0.6835805773735046, "Quantum sensing Timing": 0.6469854116439819, "Quantum sensing": 0.7080551981925964, "Quantum control": 0.6682872772216797 } }, { "id": 2979, "title": "GaSb nanowire single-hole transistor", "abstract": "We present an experimental study of single hole transistors (SHTs) made from p-type GaSb nanowires. Closely spaced source-drain electrodes are fabricated onto GaSb nanowires to define a SHT within a G...", "citations": 33, "author_count": 8, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2985, "doi": "10.1063/1.3673328", "umap_coordinates": { "x": 393.3285217285156, "y": 133.91270446777344, "z": 208.60784912109375 }, "tsne_coordinates": { "x": 22.65306854248047, "y": -20.96114158630371, "z": 1.2035447359085083 }, "pca_coordinates": { "x": 2.1718785762786865, "y": -3.2996468544006348, "z": 1.2646844387054443 }, "axis_scores": { "Quantum imaging": 0.7039145231246948, "Quantum Life Science Sensing": 0.7344229221343994, "Quantum sensing Detection": 0.7407271265983582, "Quantum sensing Metrology": 0.724697470664978, "Quantum sensing navigation": 0.7379897832870483, "Quantum sensing Position": 0.7157571911811829, "Quantum sensing Timing": 0.6893578171730042, "Quantum sensing": 0.7556962370872498, "Quantum control": 0.7019609212875366 } }, { "id": 2980, "title": "Phosphorescence of CdS nanoparticles in polymer matrix as an indication of host-guest interaction", "abstract": "We report on the observation of the long-lasting low-temperature photoluminescence decay in the hybrid system nano-CdS/polyvinyl alcohol with a characteristic time of about 1.7 s. The origin of the ph...", "citations": 2, "author_count": 6, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2986, "doi": "10.1016/j.matchemphys.2016.04.042", "umap_coordinates": { "x": 393.0892639160156, "y": 134.31674194335938, "z": 205.17300415039062 }, "tsne_coordinates": { "x": 32.018924713134766, "y": 11.228605270385742, "z": 7.324446201324463 }, "pca_coordinates": { "x": -3.8261005878448486, "y": -0.5992932319641113, "z": -0.2692682147026062 }, "axis_scores": { "Quantum imaging": 0.7337812185287476, "Quantum Life Science Sensing": 0.744658350944519, "Quantum sensing Detection": 0.7309237122535706, "Quantum sensing Metrology": 0.7097277641296387, "Quantum sensing navigation": 0.6765649914741516, "Quantum sensing Position": 0.7120646238327026, "Quantum sensing Timing": 0.70033860206604, "Quantum sensing": 0.7303777933120728, "Quantum control": 0.6826028823852539 } }, { "id": 2981, "title": "Cooling a micromechanical resonator to its ground state by measurement and feedback", "abstract": "We present an analysis of the cooling of a micromechanical resonator by means of measurement and feedback. The measurements are performed via the coupling to a Cooper-pair box, and although the coupli...", "citations": 7, "author_count": 3, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 2987, "doi": "10.1103/PhysRevA.80.043838", "umap_coordinates": { "x": 395.11724853515625, "y": 135.8748321533203, "z": 208.2840576171875 }, "tsne_coordinates": { "x": -17.494441986083984, "y": -23.01451301574707, "z": -0.5432305932044983 }, "pca_coordinates": { "x": 4.369645118713379, "y": 1.105751872062683, "z": 0.07272452116012573 }, "axis_scores": { "Quantum imaging": 0.707942545413971, "Quantum Life Science Sensing": 0.7420358061790466, "Quantum sensing Detection": 0.737382709980011, "Quantum sensing Metrology": 0.7420682311058044, "Quantum sensing navigation": 0.7210620045661926, "Quantum sensing Position": 0.7149345874786377, "Quantum sensing Timing": 0.6955564022064209, "Quantum sensing": 0.7444208264350891, "Quantum control": 0.721847653388977 } }, { "id": 2982, "title": "Perovskite-based nanocubes with simultaneously improved visible-light absorption and charge separation enabling efficient photocatalytic CO2 reduction", "abstract": "Finding an ideal model to disclose the role upon tuning band structure and charge separation of wide-bandgap perovskite semiconductors by introducing suitable heteroatoms remains a huge challenge in p...", "citations": 92, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 2988, "doi": "10.1016/j.nanoen.2016.09.033", "umap_coordinates": { "x": 392.244873046875, "y": 133.46221923828125, "z": 205.08319091796875 }, "tsne_coordinates": { "x": 24.586915969848633, "y": 7.545270919799805, "z": -11.695839881896973 }, "pca_coordinates": { "x": -4.142806529998779, "y": -4.102200984954834, "z": -0.6106258630752563 }, "axis_scores": { "Quantum imaging": 0.6977548599243164, "Quantum Life Science Sensing": 0.6892610788345337, "Quantum sensing Detection": 0.6849002242088318, "Quantum sensing Metrology": 0.6793451309204102, "Quantum sensing navigation": 0.6729287505149841, "Quantum sensing Position": 0.6568743586540222, "Quantum sensing Timing": 0.6321638822555542, "Quantum sensing": 0.7005457878112793, "Quantum control": 0.6833934783935547 } }, { "id": 2983, "title": "Magnetization of a clean quantum dot in a time-dependent flux: Restoration of Aharonov-Bohm oscillations by inelastic scattering", "abstract": "We discuss criteria for discriminating between ballistic' and 'clean' quantum structures created in the 2D electron gas of gated semiconductor heterostructures and show that they are different for imp...", "citations": 5, "author_count": 6, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 2989, "doi": "10.1088/0953-8984/8/15/010", "umap_coordinates": { "x": 394.07745361328125, "y": 135.6771240234375, "z": 207.50502014160156 }, "tsne_coordinates": { "x": 2.291290760040283, "y": -12.966719627380371, "z": 24.080991744995117 }, "pca_coordinates": { "x": 1.378467321395874, "y": 0.5699336528778076, "z": 0.5705956816673279 }, "axis_scores": { "Quantum imaging": 0.7283177375793457, "Quantum Life Science Sensing": 0.7349392175674438, "Quantum sensing Detection": 0.7031432390213013, "Quantum sensing Metrology": 0.7102877497673035, "Quantum sensing navigation": 0.7168430089950562, "Quantum sensing Position": 0.682739794254303, "Quantum sensing Timing": 0.6985976099967957, "Quantum sensing": 0.7153279781341553, "Quantum control": 0.6905624270439148 } }, { "id": 2984, "title": "Three-dimensional printing of silica glass with sub-micrometer resolution", "abstract": "Silica glass is a high-performance material used in many applications such as lenses, glassware, and fibers. However, modern additive manufacturing of micro-scale silica glass structures requires sint...", "citations": 69, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2990, "doi": "10.1038/s41467-023-38996-3", "umap_coordinates": { "x": 393.87493896484375, "y": 134.5769805908203, "z": 205.9668731689453 }, "tsne_coordinates": { "x": -10.126429557800293, "y": 5.617461204528809, "z": -5.076967716217041 }, "pca_coordinates": { "x": -3.31333065032959, "y": -0.4165537357330322, "z": 2.0530800819396973 }, "axis_scores": { "Quantum imaging": 0.7235846519470215, "Quantum Life Science Sensing": 0.7157406210899353, "Quantum sensing Detection": 0.703045129776001, "Quantum sensing Metrology": 0.7113902568817139, "Quantum sensing navigation": 0.7054625153541565, "Quantum sensing Position": 0.7001432776451111, "Quantum sensing Timing": 0.6637632250785828, "Quantum sensing": 0.7212815880775452, "Quantum control": 0.6846539974212646 } }, { "id": 2985, "title": "Low-Noise Phase-sensitive Parametric Amplifiers Based on Integrated Silicon-Nitride-Waveguides for Optical Signal Processing", "abstract": "Low-noise optical amplification has been a long-lasting research topic in various fields including communication, metrology and quantum optics. Here we report optical signal processing at different wa...", "citations": 14, "author_count": 6, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 2991, "doi": "10.1109/JLT.2021.3119425", "umap_coordinates": { "x": 394.6087646484375, "y": 133.74276733398438, "z": 206.5966033935547 }, "tsne_coordinates": { "x": 2.6132235527038574, "y": -1.1654770374298096, "z": -34.14456558227539 }, "pca_coordinates": { "x": -0.7389086484909058, "y": -0.6203804016113281, "z": 2.8595998287200928 }, "axis_scores": { "Quantum imaging": 0.7078756093978882, "Quantum Life Science Sensing": 0.7154431939125061, "Quantum sensing Detection": 0.7162374258041382, "Quantum sensing Metrology": 0.7212003469467163, "Quantum sensing navigation": 0.7163703441619873, "Quantum sensing Position": 0.6996232867240906, "Quantum sensing Timing": 0.7035375833511353, "Quantum sensing": 0.7229037880897522, "Quantum control": 0.6892632842063904 } }, { "id": 2986, "title": "Overlayer resonance and quantum well state of Cs/Cu(111) studied with angle-resolved photoemission, LEED, and first-principles calculations", "abstract": "Angle-resolved photoemission spectroscopy and low-energy electron diffraction are used to study submonolayer coverages of Cs on Cu(111) at room temperature (RT) and 170 K. At RT, the Cs saturation cov...", "citations": 18, "author_count": 6, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 2992, "doi": "10.1103/PhysRevB.75.155403", "umap_coordinates": { "x": 393.9389953613281, "y": 135.41329956054688, "z": 208.9835968017578 }, "tsne_coordinates": { "x": 8.077850341796875, "y": -43.207576751708984, "z": -4.218376636505127 }, "pca_coordinates": { "x": 2.528639316558838, "y": -1.5596342086791992, "z": 0.978830873966217 }, "axis_scores": { "Quantum imaging": 0.6942989826202393, "Quantum Life Science Sensing": 0.7016690373420715, "Quantum sensing Detection": 0.7005783319473267, "Quantum sensing Metrology": 0.6865561008453369, "Quantum sensing navigation": 0.692830502986908, "Quantum sensing Position": 0.6873629093170166, "Quantum sensing Timing": 0.6932058930397034, "Quantum sensing": 0.7121005654335022, "Quantum control": 0.672351598739624 } }, { "id": 2987, "title": "The EPR spectrum of the general (C)over-dot-CX3 quantum rotor", "abstract": "The quantum mechanical Liouville equation for the general drop(C) over dot-CX3 rotor is employed to obtain low temperature electron paramagnetic resonance (EPR) spectra exhibiting E-line splittings ar...", "citations": 5, "author_count": 3, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 2993, "doi": "10.1016/S0301-0104(97)00301-7", "umap_coordinates": { "x": 393.5548400878906, "y": 136.60850524902344, "z": 206.503662109375 }, "tsne_coordinates": { "x": -5.335356712341309, "y": 14.056934356689453, "z": 14.930399894714355 }, "pca_coordinates": { "x": -0.3038381338119507, "y": 1.1754380464553833, "z": -1.7671809196472168 }, "axis_scores": { "Quantum imaging": 0.6942591667175293, "Quantum Life Science Sensing": 0.702067494392395, "Quantum sensing Detection": 0.6854562163352966, "Quantum sensing Metrology": 0.6762832999229431, "Quantum sensing navigation": 0.6858493089675903, "Quantum sensing Position": 0.687927782535553, "Quantum sensing Timing": 0.6693600416183472, "Quantum sensing": 0.6932395100593567, "Quantum control": 0.6884418725967407 } }, { "id": 2988, "title": "SIZE HETEROGENEITY OF HUMAN CERVICAL-MUCUS GLYCOPROTEINS - STUDIES PERFORMED WITH RATE-ZONAL CENTRIFUGATION AND LASER LIGHT-SCATTERING", "abstract": "Mucus glycoproteins (mucins) from cervical pregnancy mucus were fractionated by using rate-zonal centrifugation in a gradient of guanidinium chloride. The distribution of the macromolecules, as assess...", "citations": 44, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1987, "topic": [ "all" ], "embedding_index": 2994, "doi": "10.1042/bj2450757", "umap_coordinates": { "x": 394.0182189941406, "y": 134.7799072265625, "z": 204.89540100097656 }, "tsne_coordinates": { "x": 21.12672996520996, "y": 22.317493438720703, "z": 24.608430862426758 }, "pca_coordinates": { "x": -2.4275522232055664, "y": 2.6852078437805176, "z": -0.5698496699333191 }, "axis_scores": { "Quantum imaging": 0.6470761895179749, "Quantum Life Science Sensing": 0.6729313135147095, "Quantum sensing Detection": 0.6272114515304565, "Quantum sensing Metrology": 0.6278027892112732, "Quantum sensing navigation": 0.6417229771614075, "Quantum sensing Position": 0.6378743052482605, "Quantum sensing Timing": 0.6252075433731079, "Quantum sensing": 0.6473069190979004, "Quantum control": 0.645094633102417 } }, { "id": 2989, "title": "Onset of color decoherence for soft gluon radiation in a medium", "abstract": "We report on recent studies of the phenomenon of color decoherence in jets in QCD media. The effect is most clearly observed in the radiation pattern of a quark-antiquark antenna, created in the same ...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 2995, "doi": "10.1088/0954-3899/38/12/124063", "umap_coordinates": { "x": 395.3540954589844, "y": 135.5524444580078, "z": 206.39891052246094 }, "tsne_coordinates": { "x": -42.87509536743164, "y": -8.824295043945312, "z": -10.00195598602295 }, "pca_coordinates": { "x": -0.3323848843574524, "y": 3.0838520526885986, "z": 0.6055194735527039 }, "axis_scores": { "Quantum imaging": 0.6782777309417725, "Quantum Life Science Sensing": 0.6664419174194336, "Quantum sensing Detection": 0.6639710664749146, "Quantum sensing Metrology": 0.6182323694229126, "Quantum sensing navigation": 0.6511426568031311, "Quantum sensing Position": 0.6480697989463806, "Quantum sensing Timing": 0.6669792532920837, "Quantum sensing": 0.6597775816917419, "Quantum control": 0.6059193015098572 } }, { "id": 2990, "title": "Balancing multiple properties of small molecule hole-transporting materials towards highly efficient perovskite QLEDs", "abstract": "Organic hole-transporting materials (HTMs) play critical roles in the performances and stability of perovskite quantum dot light-emitting diodes (Pe-QLEDs). Ideal HTMs for Pe-QLEDs must satisfy three ...", "citations": 6, "author_count": 11, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 2996, "doi": "10.1016/j.cej.2024.157117", "umap_coordinates": { "x": 392.4563293457031, "y": 133.63467407226562, "z": 205.670166015625 }, "tsne_coordinates": { "x": 14.445307731628418, "y": 0.065906822681427, "z": -26.57120132446289 }, "pca_coordinates": { "x": -2.446295976638794, "y": -2.7607274055480957, "z": -0.6561805009841919 }, "axis_scores": { "Quantum imaging": 0.7327330112457275, "Quantum Life Science Sensing": 0.7379951477050781, "Quantum sensing Detection": 0.7042394876480103, "Quantum sensing Metrology": 0.7164703011512756, "Quantum sensing navigation": 0.7131284475326538, "Quantum sensing Position": 0.6943463683128357, "Quantum sensing Timing": 0.6888290047645569, "Quantum sensing": 0.7304350137710571, "Quantum control": 0.7148717641830444 } }, { "id": 2991, "title": "Four-Majorana qubit with charge readout: Dynamics and decoherence", "abstract": "We present a theoretical analysis of a Majorana-based qubit consisting of two topological superconducting islands connected via a Josephson junction. The qubit is operated by electrostatic gates which...", "citations": 25, "author_count": 6, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 2997, "doi": "10.1103/PhysRevB.98.205403", "umap_coordinates": { "x": 395.2169189453125, "y": 136.38265991210938, "z": 208.416015625 }, "tsne_coordinates": { "x": -13.091248512268066, "y": -23.984546661376953, "z": 3.167285442352295 }, "pca_coordinates": { "x": 5.553714275360107, "y": 0.24393033981323242, "z": 0.21236902475357056 }, "axis_scores": { "Quantum imaging": 0.7419373393058777, "Quantum Life Science Sensing": 0.7186906933784485, "Quantum sensing Detection": 0.7362699508666992, "Quantum sensing Metrology": 0.7101278901100159, "Quantum sensing navigation": 0.7343159317970276, "Quantum sensing Position": 0.7079488635063171, "Quantum sensing Timing": 0.7201561331748962, "Quantum sensing": 0.7362959384918213, "Quantum control": 0.73459392786026 } }, { "id": 2992, "title": "On the interaction of toxic Heavy Metals (Cd, Hg, Pb) with graphene quantum dots and infinite graphene", "abstract": "The promise of graphene and its derivatives as next generation sensors for real-time detection of toxic heavy metals (HM) requires a clear understanding of behavior of these metals on the graphene sur...", "citations": 121, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 2998, "doi": "10.1038/s41598-017-04339-8", "umap_coordinates": { "x": 393.0785827636719, "y": 135.10873413085938, "z": 205.04498291015625 }, "tsne_coordinates": { "x": 26.51643943786621, "y": 16.467397689819336, "z": 14.566516876220703 }, "pca_coordinates": { "x": -1.058181881904602, "y": -0.6312174797058105, "z": -0.03164428472518921 }, "axis_scores": { "Quantum imaging": 0.7185055017471313, "Quantum Life Science Sensing": 0.7156399488449097, "Quantum sensing Detection": 0.7125065326690674, "Quantum sensing Metrology": 0.6831912994384766, "Quantum sensing navigation": 0.6846400499343872, "Quantum sensing Position": 0.6904787421226501, "Quantum sensing Timing": 0.6624372601509094, "Quantum sensing": 0.7120516300201416, "Quantum control": 0.672944962978363 } }, { "id": 2993, "title": "Integration of Self-Adaptive Physical-Layer Key Distribution and Encryption in Optical Coherent Communication", "abstract": "We propose and experimentally demonstrate a compatible physical-layer secure optical communication (PLSOC) system that integrates self-adaptive physical-layer key distribution (PLKD) and encryption (P...", "citations": 13, "author_count": 8, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 2999, "doi": "10.1109/JLT.2023.3257963", "umap_coordinates": { "x": 394.9974670410156, "y": 134.14817810058594, "z": 206.63827514648438 }, "tsne_coordinates": { "x": 3.0595688819885254, "y": 1.7686429023742676, "z": -38.446311950683594 }, "pca_coordinates": { "x": 0.6017463207244873, "y": 0.062447547912597656, "z": 2.196371555328369 }, "axis_scores": { "Quantum imaging": 0.7429249882698059, "Quantum Life Science Sensing": 0.7297526597976685, "Quantum sensing Detection": 0.725151002407074, "Quantum sensing Metrology": 0.7249506711959839, "Quantum sensing navigation": 0.7316855788230896, "Quantum sensing Position": 0.7102202773094177, "Quantum sensing Timing": 0.7162950038909912, "Quantum sensing": 0.7349846363067627, "Quantum control": 0.7219889760017395 } }, { "id": 2994, "title": "Promoted photocatalytic degradation and detoxication performance for norfloxacin on Z-scheme phosphate-doped BiVO4/graphene quantum dots/ P-doped g-C3N4", "abstract": "A novel kind of Z-scheme ternary heterojunctions phosphate-doped BiVO4/graphene quantum dots/P-doped gC3N4 (BVP/GQDs/PCN) were fabricated for the visible light degradation of norfloxacin (NOR), a typi...", "citations": 52, "author_count": 10, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3000, "doi": "10.1016/j.seppur.2021.118692", "umap_coordinates": { "x": 393.3729248046875, "y": 134.84681701660156, "z": 204.197021484375 }, "tsne_coordinates": { "x": 17.051698684692383, "y": 17.313398361206055, "z": 2.2371315956115723 }, "pca_coordinates": { "x": -4.022738456726074, "y": 0.0921940803527832, "z": -1.1815258264541626 }, "axis_scores": { "Quantum imaging": 0.7085963487625122, "Quantum Life Science Sensing": 0.7300611734390259, "Quantum sensing Detection": 0.7033873200416565, "Quantum sensing Metrology": 0.6835532188415527, "Quantum sensing navigation": 0.7057841420173645, "Quantum sensing Position": 0.6806503534317017, "Quantum sensing Timing": 0.654117226600647, "Quantum sensing": 0.710985541343689, "Quantum control": 0.7177723050117493 } }, { "id": 2995, "title": "First-principles method for calculating the rate constants of internal-conversion and intersystem-crossing transitions", "abstract": "A method for calculating the rate constants for internal-conversion (k(IC)) and intersystem-crossing (k(ISC)) processes within the adiabatic and Franck-Condon (FC) approximations is proposed. The appl...", "citations": 115, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3001, "doi": "10.1039/c7cp08703a", "umap_coordinates": { "x": 392.98974609375, "y": 136.88832092285156, "z": 205.92117309570312 }, "tsne_coordinates": { "x": -8.38971996307373, "y": 2.2749269008636475, "z": 14.599905014038086 }, "pca_coordinates": { "x": -0.6930399537086487, "y": 1.0365707874298096, "z": -1.2004542350769043 }, "axis_scores": { "Quantum imaging": 0.6667187213897705, "Quantum Life Science Sensing": 0.6937807202339172, "Quantum sensing Detection": 0.6635060906410217, "Quantum sensing Metrology": 0.6486639380455017, "Quantum sensing navigation": 0.6493878364562988, "Quantum sensing Position": 0.6228846907615662, "Quantum sensing Timing": 0.6629272699356079, "Quantum sensing": 0.6714612245559692, "Quantum control": 0.6551830172538757 } }, { "id": 2996, "title": "Germanium hexa detector: production and testing", "abstract": "Here we present new result on the testing of a Germanium sensor for X-ray radiation. The system is made of 3 x 2 Medipix3RX chips, bump-bonded to a monolithic sensor, and is called hexa. Its dimension...", "citations": 3, "author_count": 12, "categories": [ "Instruments & Instrumentation" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3002, "doi": "10.1088/1748-0221/12/01/C01068", "umap_coordinates": { "x": 395.8623046875, "y": 134.23907470703125, "z": 206.38943481445312 }, "tsne_coordinates": { "x": -28.175029754638672, "y": 21.1110897064209, "z": -12.657578468322754 }, "pca_coordinates": { "x": -0.7027350664138794, "y": 2.162196397781372, "z": 0.6859175562858582 }, "axis_scores": { "Quantum imaging": 0.7063539028167725, "Quantum Life Science Sensing": 0.7087826728820801, "Quantum sensing Detection": 0.713568925857544, "Quantum sensing Metrology": 0.6937453150749207, "Quantum sensing navigation": 0.6959151029586792, "Quantum sensing Position": 0.679045557975769, "Quantum sensing Timing": 0.6864117980003357, "Quantum sensing": 0.7070751786231995, "Quantum control": 0.6904966235160828 } }, { "id": 2997, "title": "One photon per bit communication for free-space optical links", "abstract": "We demonstrate a free-space transmission experiment showing bit-error-free, black-box sensitivity of 1 photon-per-information-bit (PPB) at a net information rate of 10.5 Gb/s. The system uses a simple...", "citations": 2, "author_count": 4, "categories": [ "Computer Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3003, "doi": "10.1109/ECOC48923.2020.9333234", "umap_coordinates": { "x": 394.8034973144531, "y": 134.23983764648438, "z": 206.17391967773438 }, "tsne_coordinates": { "x": 2.9033219814300537, "y": 5.319958686828613, "z": -38.73529815673828 }, "pca_coordinates": { "x": -0.09372448921203613, "y": 0.07524442672729492, "z": 2.1001665592193604 }, "axis_scores": { "Quantum imaging": 0.7111387252807617, "Quantum Life Science Sensing": 0.7344329357147217, "Quantum sensing Detection": 0.7177807092666626, "Quantum sensing Metrology": 0.724624752998352, "Quantum sensing navigation": 0.7275093197822571, "Quantum sensing Position": 0.6935849189758301, "Quantum sensing Timing": 0.6853581666946411, "Quantum sensing": 0.7256561517715454, "Quantum control": 0.6908541321754456 } }, { "id": 2998, "title": "Detection of nonlocal superpositions", "abstract": "We study in theory and experiment the verification of the Schmidt number of quantum correlated radiation fields. This measure of entanglement counts the number of global superpositions of product stat...", "citations": 20, "author_count": 8, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3004, "doi": "10.1103/PhysRevA.90.032328", "umap_coordinates": { "x": 395.92626953125, "y": 136.19338989257812, "z": 207.90289306640625 }, "tsne_coordinates": { "x": -22.16737937927246, "y": -4.6619977951049805, "z": 3.869584560394287 }, "pca_coordinates": { "x": 3.7168631553649902, "y": 1.132477045059204, "z": 2.575733184814453 }, "axis_scores": { "Quantum imaging": 0.7475407123565674, "Quantum Life Science Sensing": 0.7535690069198608, "Quantum sensing Detection": 0.7976409196853638, "Quantum sensing Metrology": 0.7558350563049316, "Quantum sensing navigation": 0.7536786794662476, "Quantum sensing Position": 0.7341099381446838, "Quantum sensing Timing": 0.709499716758728, "Quantum sensing": 0.7807552218437195, "Quantum control": 0.7009360194206238 } }, { "id": 2999, "title": "Neutrino orbital angular momentum in a plasma vortex", "abstract": "It is shown that an electron-neutrino beam, propagating in a background plasma, can be decomposed into orbital momentum (OAM) states, similar to the OAM photon states. Coupling between different OAM n...", "citations": 26, "author_count": 3, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3005, "doi": "10.1209/0295-5075/84/41001", "umap_coordinates": { "x": 393.9954528808594, "y": 136.77069091796875, "z": 208.1523895263672 }, "tsne_coordinates": { "x": -11.147882461547852, "y": -15.298468589782715, "z": 21.90188980102539 }, "pca_coordinates": { "x": 1.325821876525879, "y": 1.4555542469024658, "z": -0.31434154510498047 }, "axis_scores": { "Quantum imaging": 0.6549763083457947, "Quantum Life Science Sensing": 0.6600987911224365, "Quantum sensing Detection": 0.6477619409561157, "Quantum sensing Metrology": 0.6303142309188843, "Quantum sensing navigation": 0.6825085878372192, "Quantum sensing Position": 0.6680210828781128, "Quantum sensing Timing": 0.6624239087104797, "Quantum sensing": 0.6447674632072449, "Quantum control": 0.6584039926528931 } }, { "id": 3000, "title": "Theoretical study of electromagnetically induced transparency in Er3+:YAlO3 crystal", "abstract": "By using the density matrix theory of interaction between light and matter, and relevant parameter calculations of the relaxation rate, the dipole matrix elements and the ion density for a three-level...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3006, "doi": "10.1016/S0921-4526(02)01792-1", "umap_coordinates": { "x": 393.616943359375, "y": 134.95252990722656, "z": 206.2258758544922 }, "tsne_coordinates": { "x": 10.681135177612305, "y": -13.355552673339844, "z": -27.275821685791016 }, "pca_coordinates": { "x": -0.8689110279083252, "y": -0.4880561828613281, "z": -0.4784218668937683 }, "axis_scores": { "Quantum imaging": 0.733489453792572, "Quantum Life Science Sensing": 0.7370970845222473, "Quantum sensing Detection": 0.7166853547096252, "Quantum sensing Metrology": 0.718561053276062, "Quantum sensing navigation": 0.7003681659698486, "Quantum sensing Position": 0.6893998980522156, "Quantum sensing Timing": 0.6826854348182678, "Quantum sensing": 0.7223578691482544, "Quantum control": 0.6796845197677612 } }, { "id": 3001, "title": "Synergistically enhanced water-resistive perovskite nanocrystals for cell nucleus imaging and acid phosphatase detection", "abstract": "Despite the impressive success of metal halide perovskite nanocrystals (NCs) in diverse fields, such as solar cells, light -emitting diodes, photodetectors, and so forth, their intrinsic sensitivity t...", "citations": 6, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3007, "doi": "10.1016/j.snb.2024.136014", "umap_coordinates": { "x": 393.25787353515625, "y": 133.4379425048828, "z": 204.99974060058594 }, "tsne_coordinates": { "x": 24.40825843811035, "y": 5.976912975311279, "z": -22.267263412475586 }, "pca_coordinates": { "x": -4.982572555541992, "y": -2.048068046569824, "z": 1.7016758918762207 }, "axis_scores": { "Quantum imaging": 0.7268308401107788, "Quantum Life Science Sensing": 0.7095924019813538, "Quantum sensing Detection": 0.7084229588508606, "Quantum sensing Metrology": 0.6827200651168823, "Quantum sensing navigation": 0.7019582390785217, "Quantum sensing Position": 0.669874370098114, "Quantum sensing Timing": 0.6648300886154175, "Quantum sensing": 0.7120196223258972, "Quantum control": 0.6622199416160583 } }, { "id": 3002, "title": "Light coupling and distribution for Si3N4/SiO2 integrated multichannel single-mode sensing system", "abstract": "We present an efficient and highly alignment-tolerant light coupling and distribution system for a multichannel Si3N4/SiO2 single-mode photonics sensing chip. The design of the input and output couple...", "citations": 25, "author_count": 14, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3008, "doi": "10.1117/1.3067875", "umap_coordinates": { "x": 394.409912109375, "y": 133.30783081054688, "z": 206.87692260742188 }, "tsne_coordinates": { "x": -5.949741840362549, "y": 5.951956748962402, "z": -27.003360748291016 }, "pca_coordinates": { "x": -1.9901719093322754, "y": -1.6151909828186035, "z": 4.322648525238037 }, "axis_scores": { "Quantum imaging": 0.746310293674469, "Quantum Life Science Sensing": 0.7514873743057251, "Quantum sensing Detection": 0.7627670764923096, "Quantum sensing Metrology": 0.7742195129394531, "Quantum sensing navigation": 0.7376221418380737, "Quantum sensing Position": 0.7237139940261841, "Quantum sensing Timing": 0.7126291394233704, "Quantum sensing": 0.7736842036247253, "Quantum control": 0.7170285582542419 } }, { "id": 3003, "title": "Carbon quantum dot coated Fe3O4 hybrid composites for sensitive electrochemical detection of uric acid", "abstract": "The study explores carbon quantum dots (C-dots) as potential candidates for enhancing the signal sensitivity of an electrochemical sensor devised for biologically important molecule, such as uric acid...", "citations": 67, "author_count": 9, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3009, "doi": "10.1016/j.microc.2019.01.034", "umap_coordinates": { "x": 393.1869812011719, "y": 133.70663452148438, "z": 204.68081665039062 }, "tsne_coordinates": { "x": 20.289344787597656, "y": 18.71033477783203, "z": -14.221755027770996 }, "pca_coordinates": { "x": -4.859189033508301, "y": -1.310603141784668, "z": -0.4920954704284668 }, "axis_scores": { "Quantum imaging": 0.742445707321167, "Quantum Life Science Sensing": 0.7654897570610046, "Quantum sensing Detection": 0.7585035562515259, "Quantum sensing Metrology": 0.7342880368232727, "Quantum sensing navigation": 0.7208327651023865, "Quantum sensing Position": 0.715584397315979, "Quantum sensing Timing": 0.6862810850143433, "Quantum sensing": 0.7633021473884583, "Quantum control": 0.7364687919616699 } }, { "id": 3004, "title": "DNA-BINDING OF DELTA-[RU(PHEN)2DPPZ]2+ AND LAMBDA-[RU(PHEN)2DPPZ]2+", "abstract": "Linear dichroism (LD) spectroscopy and steady-state as well as time-resolved luminescence spectroscopy have been used to investigate the interaction of the DELTA and LAMBDA enantiomers of Ru(phen)2DPP...", "citations": 814, "author_count": 4, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 3010, "doi": "10.1021/ja00062a007", "umap_coordinates": { "x": 392.7469177246094, "y": 136.57249450683594, "z": 204.8865203857422 }, "tsne_coordinates": { "x": 6.951804161071777, "y": 13.847872734069824, "z": 9.971478462219238 }, "pca_coordinates": { "x": -1.1781888008117676, "y": -0.345064640045166, "z": -1.724797248840332 }, "axis_scores": { "Quantum imaging": 0.7192513942718506, "Quantum Life Science Sensing": 0.7310507297515869, "Quantum sensing Detection": 0.7286666035652161, "Quantum sensing Metrology": 0.6994385123252869, "Quantum sensing navigation": 0.7266439199447632, "Quantum sensing Position": 0.7194181680679321, "Quantum sensing Timing": 0.7013313174247742, "Quantum sensing": 0.7259089350700378, "Quantum control": 0.7059496641159058 } }, { "id": 3005, "title": "Highly Luminescent and Stable Perovskite Nanocrystals with Octylphosphonic Acid as a Ligand for Efficient Light-Emitting Diodes", "abstract": "All inorganic perovskite nanocrystals (NCs) of CsPbX3 (X = Cl, Br, I, or their mixture) are regarded as promising candidates for high-performance light-emitting diode (LED) owing to their high photolu...", "citations": 308, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3011, "doi": "10.1021/acsami.7b17166", "umap_coordinates": { "x": 391.7034912109375, "y": 133.71324157714844, "z": 205.33413696289062 }, "tsne_coordinates": { "x": 19.22385025024414, "y": 0.04807434603571892, "z": -20.829530715942383 }, "pca_coordinates": { "x": -3.9908604621887207, "y": -4.575046062469482, "z": -0.0640946626663208 }, "axis_scores": { "Quantum imaging": 0.6845977306365967, "Quantum Life Science Sensing": 0.6873614192008972, "Quantum sensing Detection": 0.6669435501098633, "Quantum sensing Metrology": 0.6583330631256104, "Quantum sensing navigation": 0.6555837988853455, "Quantum sensing Position": 0.634151041507721, "Quantum sensing Timing": 0.6357795596122742, "Quantum sensing": 0.6809661388397217, "Quantum control": 0.6524927616119385 } }, { "id": 3006, "title": "Effect of tunable dot charging on photoresponse spectra of GaAs p-i-n diode with InAs quantum dots", "abstract": "Quantum dot (QD)-embedded photodiodes have demonstrated great potential for use as detectors. A modulation of QD charging opens intriguing possibilities for adaptive sensing with bias-tunable detector...", "citations": 2, "author_count": 10, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3012, "doi": "10.1063/1.4937408", "umap_coordinates": { "x": 393.0205078125, "y": 133.74232482910156, "z": 207.97286987304688 }, "tsne_coordinates": { "x": 28.447847366333008, "y": -24.745927810668945, "z": -1.4565681219100952 }, "pca_coordinates": { "x": -0.631901741027832, "y": -4.511828899383545, "z": 2.1768741607666016 }, "axis_scores": { "Quantum imaging": 0.7380678653717041, "Quantum Life Science Sensing": 0.7431837320327759, "Quantum sensing Detection": 0.7376275658607483, "Quantum sensing Metrology": 0.727238655090332, "Quantum sensing navigation": 0.7097552418708801, "Quantum sensing Position": 0.7129148244857788, "Quantum sensing Timing": 0.7077606916427612, "Quantum sensing": 0.7511419653892517, "Quantum control": 0.7207345962524414 } }, { "id": 3007, "title": "Direct Measurement of Organic Micropollutants in Water and Wastewater Using Fluorescence Spectroscopy", "abstract": "Quantifying organic micropollutants (OMPs) in aquatic environments and assessing their removal by water treatment requires expensive and time-consuming analyses typically using liquid chromatographic ...", "citations": 17, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3013, "doi": "10.1021/acsestwater.3c00323", "umap_coordinates": { "x": 393.407470703125, "y": 135.3346405029297, "z": 204.4568634033203 }, "tsne_coordinates": { "x": 14.793866157531738, "y": 19.846975326538086, "z": 7.624477386474609 }, "pca_coordinates": { "x": -3.920837879180908, "y": -0.4710812568664551, "z": -0.5767343640327454 }, "axis_scores": { "Quantum imaging": 0.7073560357093811, "Quantum Life Science Sensing": 0.7552589178085327, "Quantum sensing Detection": 0.7211259603500366, "Quantum sensing Metrology": 0.7156522870063782, "Quantum sensing navigation": 0.7071832418441772, "Quantum sensing Position": 0.6743890643119812, "Quantum sensing Timing": 0.6363529562950134, "Quantum sensing": 0.7264926433563232, "Quantum control": 0.6699007749557495 } }, { "id": 3008, "title": "Cytotoxic and Proinflammatory Effects of Metal-Based Nanoparticles on THP-1 Monocytes Characterized by Combined Proteomics Approaches", "abstract": "Thorough characterization of toxic effects of Effect of Nanoparticles on Monocyte Proteome nanoparticles (NP) is desirable due to the increasing risk of potential environmental contamination by NP. In...", "citations": 40, "author_count": 11, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3014, "doi": "10.1021/acs.jproteome.6b00747", "umap_coordinates": { "x": 393.8528137207031, "y": 134.5194091796875, "z": 203.98623657226562 }, "tsne_coordinates": { "x": 17.75912094116211, "y": 29.639802932739258, "z": -0.07240668684244156 }, "pca_coordinates": { "x": -4.319392204284668, "y": 0.42559075355529785, "z": -1.198383092880249 }, "axis_scores": { "Quantum imaging": 0.6948657035827637, "Quantum Life Science Sensing": 0.6961902379989624, "Quantum sensing Detection": 0.6861413717269897, "Quantum sensing Metrology": 0.676645815372467, "Quantum sensing navigation": 0.6536303758621216, "Quantum sensing Position": 0.6548870801925659, "Quantum sensing Timing": 0.6498244404792786, "Quantum sensing": 0.6934120655059814, "Quantum control": 0.6394308805465698 } }, { "id": 3009, "title": "Selected Standard Protocols for the Synthesis, Phase Transfer, and Characterization of Inorganic Colloidal Nanoparticles", "abstract": "Synthesis, characterization, and applications of colloidal nanoparticles have been a prominent topic of current research interests within the last two decades. Available reports in the literature that...", "citations": 256, "author_count": 18, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3015, "doi": "10.1021/acs.chemmater.6b04738", "umap_coordinates": { "x": 392.2072448730469, "y": 134.46292114257812, "z": 205.05453491210938 }, "tsne_coordinates": { "x": 13.7000093460083, "y": -2.9292120933532715, "z": -12.595261573791504 }, "pca_coordinates": { "x": -3.7650506496429443, "y": -2.706099033355713, "z": -2.4973208904266357 }, "axis_scores": { "Quantum imaging": 0.6811453700065613, "Quantum Life Science Sensing": 0.7165342569351196, "Quantum sensing Detection": 0.6633886694908142, "Quantum sensing Metrology": 0.6841571927070618, "Quantum sensing navigation": 0.6725313067436218, "Quantum sensing Position": 0.6490581631660461, "Quantum sensing Timing": 0.6463058590888977, "Quantum sensing": 0.6890034079551697, "Quantum control": 0.6887539029121399 } }, { "id": 3010, "title": "Measurement of the excited-state lifetime of a microelectronic circuit", "abstract": "We demonstrate that a continuously measured microelectronic circuit, the Cooper-pair box measured by a radio-frequency single-electron transistor, approximates a quantum two-level system. We extract t...", "citations": 117, "author_count": 8, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3016, "doi": "10.1103/PhysRevLett.90.027002", "umap_coordinates": { "x": 394.1783447265625, "y": 135.7803497314453, "z": 206.80630493164062 }, "tsne_coordinates": { "x": 6.162869453430176, "y": 2.8803062438964844, "z": 16.797054290771484 }, "pca_coordinates": { "x": 2.0818135738372803, "y": -0.6322622299194336, "z": 0.345048725605011 }, "axis_scores": { "Quantum imaging": 0.7026413083076477, "Quantum Life Science Sensing": 0.7737953662872314, "Quantum sensing Detection": 0.7363783121109009, "Quantum sensing Metrology": 0.73212069272995, "Quantum sensing navigation": 0.7032854557037354, "Quantum sensing Position": 0.7208772301673889, "Quantum sensing Timing": 0.7207576632499695, "Quantum sensing": 0.7404613494873047, "Quantum control": 0.6757068037986755 } }, { "id": 3011, "title": "Hopf algebroids and H-separable extensions", "abstract": "Since an H-separable extension A\\B is of depth two, we associate to it dual bialgebroids S := End (B)A(B) and T := (Acircle times(B)A)(B) over the centralizer R as in Kadison-Szlachanyi. We show that ...", "citations": 9, "author_count": 2, "categories": [ "Mathematics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3017, "doi": "10.1090/S0002-9939-02-06876-4", "umap_coordinates": { "x": 394.5630798339844, "y": 137.26405334472656, "z": 206.63934326171875 }, "tsne_coordinates": { "x": -28.061952590942383, "y": -5.754563808441162, "z": 24.928918838500977 }, "pca_coordinates": { "x": 0.7271561622619629, "y": 3.011387825012207, "z": -1.5051829814910889 }, "axis_scores": { "Quantum imaging": 0.6750077605247498, "Quantum Life Science Sensing": 0.6914266347885132, "Quantum sensing Detection": 0.6659297943115234, "Quantum sensing Metrology": 0.6507927179336548, "Quantum sensing navigation": 0.6686843633651733, "Quantum sensing Position": 0.6435889005661011, "Quantum sensing Timing": 0.627921998500824, "Quantum sensing": 0.6730155944824219, "Quantum control": 0.6566808819770813 } }, { "id": 3012, "title": "Visualizing the breakdown of quantum multimodality in coherently driven light-matter interaction", "abstract": "We show that the saturation of a multiphoton transition is accompanied by a gradual collapse of quantum multimodality in the strong-coupling limit of the weakly driven Jaynes-Cummings (JC) model. By m...", "citations": 5, "author_count": 2, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3018, "doi": "10.1103/PhysRevA.106.013711", "umap_coordinates": { "x": 394.82916259765625, "y": 136.19557189941406, "z": 207.22909545898438 }, "tsne_coordinates": { "x": -4.70742130279541, "y": -9.62024211883545, "z": 11.092084884643555 }, "pca_coordinates": { "x": 2.469055652618408, "y": 0.6622476577758789, "z": 0.9809820055961609 }, "axis_scores": { "Quantum imaging": 0.7652552127838135, "Quantum Life Science Sensing": 0.7393181324005127, "Quantum sensing Detection": 0.7428812980651855, "Quantum sensing Metrology": 0.7327549457550049, "Quantum sensing navigation": 0.7387016415596008, "Quantum sensing Position": 0.701061487197876, "Quantum sensing Timing": 0.693855881690979, "Quantum sensing": 0.7394948601722717, "Quantum control": 0.70924973487854 } }, { "id": 3013, "title": "Enhancement of optical quality in metamorphic quantum wells using dilute nitride buffers", "abstract": "Strong enhancement of optical quality in quantum wells by incorporating nitrogen in metamorphic InGaAs buffers grown on GaAs substrates is demonstrated. This has resulted in 3.7 or 5.4 times enhanceme...", "citations": 11, "author_count": 5, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3019, "doi": "10.1063/1.3483839", "umap_coordinates": { "x": 393.2212219238281, "y": 133.56423950195312, "z": 207.96218872070312 }, "tsne_coordinates": { "x": 32.684539794921875, "y": -24.824201583862305, "z": -1.3604506254196167 }, "pca_coordinates": { "x": 0.043108582496643066, "y": -1.9432902336120605, "z": 1.1266095638275146 }, "axis_scores": { "Quantum imaging": 0.7610083222389221, "Quantum Life Science Sensing": 0.7273589968681335, "Quantum sensing Detection": 0.7369323968887329, "Quantum sensing Metrology": 0.7472796440124512, "Quantum sensing navigation": 0.7293439507484436, "Quantum sensing Position": 0.7055504322052002, "Quantum sensing Timing": 0.6843626499176025, "Quantum sensing": 0.7502826452255249, "Quantum control": 0.7226616144180298 } }, { "id": 3014, "title": "Probing Curved Spacetime with a Distributed Atomic Processor Clock", "abstract": "Quantum dynamics on curved spacetime has never been directly probed beyond the Newtonian limit. Although we can describe such dynamics theoretically, experiments would provide empirical evidence that ...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3020, "doi": "10.1103/q188-b1cr", "umap_coordinates": { "x": 394.7747497558594, "y": 136.009033203125, "z": 207.39430236816406 }, "tsne_coordinates": { "x": -2.166360378265381, "y": -13.115988731384277, "z": 18.856670379638672 }, "pca_coordinates": { "x": 2.0453615188598633, "y": 2.862694263458252, "z": 1.1708805561065674 }, "axis_scores": { "Quantum imaging": 0.7466059327125549, "Quantum Life Science Sensing": 0.7312051653862, "Quantum sensing Detection": 0.7463755011558533, "Quantum sensing Metrology": 0.7258989810943604, "Quantum sensing navigation": 0.7685843706130981, "Quantum sensing Position": 0.7314503192901611, "Quantum sensing Timing": 0.7605785131454468, "Quantum sensing": 0.7546559572219849, "Quantum control": 0.7373002767562866 } }, { "id": 3015, "title": "Optimization of a dual-energy contrast-enhanced technique for a photon-counting digital breast tomosynthesis system: I. A theoretical model", "abstract": "Purpose: Dual-energy (DE) iodine contrast-enhanced x-ray imaging of the breast has been shown to identify cancers that would otherwise be mammographically occult. In this article, theoretical modeling...", "citations": 38, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3021, "doi": "10.1118/1.3490556", "umap_coordinates": { "x": 395.80499267578125, "y": 132.8772735595703, "z": 205.47335815429688 }, "tsne_coordinates": { "x": -11.765434265136719, "y": 23.981910705566406, "z": -26.783245086669922 }, "pca_coordinates": { "x": -2.3848214149475098, "y": 2.1617071628570557, "z": 2.5741395950317383 }, "axis_scores": { "Quantum imaging": 0.735292375087738, "Quantum Life Science Sensing": 0.7003166675567627, "Quantum sensing Detection": 0.7151620388031006, "Quantum sensing Metrology": 0.6952170729637146, "Quantum sensing navigation": 0.6953630447387695, "Quantum sensing Position": 0.6739562749862671, "Quantum sensing Timing": 0.6875523924827576, "Quantum sensing": 0.7099617123603821, "Quantum control": 0.6859795451164246 } }, { "id": 3016, "title": "Spectral Selective Solar Light Enhanced Photocatalysis: TiO2/TiAlN Bilayer Films", "abstract": "We demonstrate that spectral selective photocatalytic multilayer films can be tailored such that they can harness the full solar spectrum for enhanced photocatalytic gas-phase oxidation of acetaldehyd...", "citations": 4, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3022, "doi": "10.1007/s11244-018-1011-5", "umap_coordinates": { "x": 392.3636169433594, "y": 134.00514221191406, "z": 205.93743896484375 }, "tsne_coordinates": { "x": 26.026716232299805, "y": -2.8811557292938232, "z": -8.103267669677734 }, "pca_coordinates": { "x": -4.570064544677734, "y": -4.268347263336182, "z": 0.6090506911277771 }, "axis_scores": { "Quantum imaging": 0.66777104139328, "Quantum Life Science Sensing": 0.6773015856742859, "Quantum sensing Detection": 0.6537657380104065, "Quantum sensing Metrology": 0.657487154006958, "Quantum sensing navigation": 0.640528678894043, "Quantum sensing Position": 0.6186355948448181, "Quantum sensing Timing": 0.6248818039894104, "Quantum sensing": 0.6697636842727661, "Quantum control": 0.6366389989852905 } }, { "id": 3017, "title": "Avoided level crossings, diabolic points, and branch points in the complex plane in an open double quantum dot - art. no. 036227", "abstract": "We study the spectrum of an open double quantum dot as a function of different system parameters in order to receive information on the geometric phases of branch points in the complex plane (BPCP). W...", "citations": 38, "author_count": 3, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3023, "doi": "10.1103/PhysRevE.71.036227", "umap_coordinates": { "x": 394.07257080078125, "y": 135.46446228027344, "z": 208.99179077148438 }, "tsne_coordinates": { "x": 2.5669052600860596, "y": -35.46517562866211, "z": -5.5117034912109375 }, "pca_coordinates": { "x": 3.1178383827209473, "y": -1.3540492057800293, "z": -1.003097414970398 }, "axis_scores": { "Quantum imaging": 0.6787385940551758, "Quantum Life Science Sensing": 0.6998832821846008, "Quantum sensing Detection": 0.6826682090759277, "Quantum sensing Metrology": 0.6705717444419861, "Quantum sensing navigation": 0.7022033929824829, "Quantum sensing Position": 0.679405689239502, "Quantum sensing Timing": 0.6664338707923889, "Quantum sensing": 0.679172933101654, "Quantum control": 0.6835697889328003 } }, { "id": 3018, "title": "Proton transfer mediated by the vibronic coupling in oxygen core ionized states of glyoxalmonoxime studied by infrared-X-ray pump-probe spectroscopy", "abstract": "The theory of IR-X-ray pump-probe spectroscopy beyond the Born-Oppenheimer approximation is developed and applied to the study of the dynamics of intramolecular proton transfer in glyoxalmonoxime lead...", "citations": 5, "author_count": 6, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3024, "doi": "10.1021/jp065036d", "umap_coordinates": { "x": 392.7795715332031, "y": 136.62234497070312, "z": 205.93106079101562 }, "tsne_coordinates": { "x": 4.267514705657959, "y": 3.9347963333129883, "z": 21.394805908203125 }, "pca_coordinates": { "x": -0.6714897751808167, "y": 0.7487273216247559, "z": -1.9413299560546875 }, "axis_scores": { "Quantum imaging": 0.6988052725791931, "Quantum Life Science Sensing": 0.7156352400779724, "Quantum sensing Detection": 0.6802858114242554, "Quantum sensing Metrology": 0.6746186017990112, "Quantum sensing navigation": 0.6760075688362122, "Quantum sensing Position": 0.6628409624099731, "Quantum sensing Timing": 0.6458669900894165, "Quantum sensing": 0.7001510858535767, "Quantum control": 0.6491576433181763 } }, { "id": 3019, "title": "Negative-resistance models for parametrically flux-pumped superconducting quantum interference devices", "abstract": "A Superconducting QUantum Interference Device (SQUID) modulated by a fast oscillating magnetic flux can be used as a parametric amplifier, providing gain with very little added noise. Here, we develop...", "citations": 29, "author_count": 3, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3025, "doi": "10.1140/epjqt6", "umap_coordinates": { "x": 394.3855285644531, "y": 135.79530334472656, "z": 207.4277801513672 }, "tsne_coordinates": { "x": -17.671781539916992, "y": -19.39482879638672, "z": 35.368072509765625 }, "pca_coordinates": { "x": 1.4632558822631836, "y": 0.8526396751403809, "z": -0.03757631778717041 }, "axis_scores": { "Quantum imaging": 0.7142683267593384, "Quantum Life Science Sensing": 0.7150231599807739, "Quantum sensing Detection": 0.7055778503417969, "Quantum sensing Metrology": 0.6948195099830627, "Quantum sensing navigation": 0.7131631374359131, "Quantum sensing Position": 0.703233540058136, "Quantum sensing Timing": 0.6967036724090576, "Quantum sensing": 0.7085179686546326, "Quantum control": 0.7034870982170105 } }, { "id": 3020, "title": "A YSO/LSO phoswich array detector for single and coincidence photon imaging", "abstract": "The performance of a phoswich array detector module for possible use in a combined single and coincidence photon imaging system has been evaluated. The detector consist of a linear array of discrete 4...", "citations": 30, "author_count": 7, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3026, "doi": "10.1109/23.681990", "umap_coordinates": { "x": 394.7799987792969, "y": 133.1146697998047, "z": 207.07228088378906 }, "tsne_coordinates": { "x": -12.464482307434082, "y": 11.92578125, "z": -34.303466796875 }, "pca_coordinates": { "x": -1.4815597534179688, "y": -0.4812908172607422, "z": 4.766685962677002 }, "axis_scores": { "Quantum imaging": 0.7281923890113831, "Quantum Life Science Sensing": 0.7530218958854675, "Quantum sensing Detection": 0.7356575727462769, "Quantum sensing Metrology": 0.7217440009117126, "Quantum sensing navigation": 0.7179242372512817, "Quantum sensing Position": 0.7176263928413391, "Quantum sensing Timing": 0.7270435094833374, "Quantum sensing": 0.7361215353012085, "Quantum control": 0.6704786419868469 } }, { "id": 3021, "title": "Fano's Propensity Rule in Angle-Resolved Attosecond Pump-Probe Photoionization", "abstract": "In a seminal article, Fano predicts that absorption of light occurs preferably with increase of angular momentum. We generalize Fano's propensity rule to laser-assisted photoionization, consisting of ...", "citations": 88, "author_count": 12, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3027, "doi": "10.1103/PhysRevLett.123.133201", "umap_coordinates": { "x": 395.2879333496094, "y": 135.92393493652344, "z": 207.3272705078125 }, "tsne_coordinates": { "x": -11.90773868560791, "y": -6.978984355926514, "z": -3.90596604347229 }, "pca_coordinates": { "x": 2.5190563201904297, "y": 0.3089284896850586, "z": -0.3132815957069397 }, "axis_scores": { "Quantum imaging": 0.6875859498977661, "Quantum Life Science Sensing": 0.7053089141845703, "Quantum sensing Detection": 0.7012608051300049, "Quantum sensing Metrology": 0.6774886250495911, "Quantum sensing navigation": 0.699113130569458, "Quantum sensing Position": 0.6740579605102539, "Quantum sensing Timing": 0.7067419290542603, "Quantum sensing": 0.7086315155029297, "Quantum control": 0.6909357905387878 } }, { "id": 3022, "title": "Four-wave mixing in fibers with randomly varying zero-dispersion wavelength", "abstract": "The effect of random fluctuations in the zero-dispersion wavelength is considered for fiber four-wave mixing. Theoretical expressions for average parametric gain, phase-conjugation conversion efficien...", "citations": 182, "author_count": 2, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3028, "doi": "10.1364/JOSAB.15.002269", "umap_coordinates": { "x": 394.0423583984375, "y": 135.07485961914062, "z": 206.72499084472656 }, "tsne_coordinates": { "x": -1.8996862173080444, "y": -8.902374267578125, "z": -26.739505767822266 }, "pca_coordinates": { "x": 0.791841983795166, "y": 1.5299243927001953, "z": 0.1935950517654419 }, "axis_scores": { "Quantum imaging": 0.6616055965423584, "Quantum Life Science Sensing": 0.643924355506897, "Quantum sensing Detection": 0.6294643878936768, "Quantum sensing Metrology": 0.6411433219909668, "Quantum sensing navigation": 0.6630876660346985, "Quantum sensing Position": 0.6456578373908997, "Quantum sensing Timing": 0.6618101000785828, "Quantum sensing": 0.6538204550743103, "Quantum control": 0.6565060019493103 } }, { "id": 3023, "title": "Causal signal transmission by quantum fields. V: Generalised Keldysh rotations and electromagnetic response of the Dirac sea", "abstract": "The connection between real-time quantum field theory (RTQFT) [see, e.g., A. Kamenev and A. Levchenko, Adv. Phys. 58 (2009) 197] and phase-space techniques [E. Wolf and L Mandel, Optical Coherence and...", "citations": 7, "author_count": 3, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3029, "doi": "10.1016/j.aop.2012.06.007", "umap_coordinates": { "x": 394.5102844238281, "y": 136.8634796142578, "z": 206.5209503173828 }, "tsne_coordinates": { "x": -18.66880989074707, "y": 9.557826042175293, "z": 9.350922584533691 }, "pca_coordinates": { "x": 1.003387212753296, "y": 2.834853410720825, "z": -0.2475264072418213 }, "axis_scores": { "Quantum imaging": 0.7659382224082947, "Quantum Life Science Sensing": 0.767966628074646, "Quantum sensing Detection": 0.7655687928199768, "Quantum sensing Metrology": 0.7495501637458801, "Quantum sensing navigation": 0.7824345231056213, "Quantum sensing Position": 0.7379066348075867, "Quantum sensing Timing": 0.7370889186859131, "Quantum sensing": 0.7793363928794861, "Quantum control": 0.751081109046936 } }, { "id": 3024, "title": "Disordered Fermi Liquid in Epitaxial Graphene from Quantum Transport Measurements", "abstract": "We have performed magnetotransport measurements on monolayer epitaxial graphene and analyzed them in the framework of the disordered Fermi liquid theory. We have separated the electron-electron and we...", "citations": 77, "author_count": 9, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3030, "doi": "10.1103/PhysRevLett.107.166602", "umap_coordinates": { "x": 394.60882568359375, "y": 135.987060546875, "z": 208.9984130859375 }, "tsne_coordinates": { "x": -13.249791145324707, "y": -37.635799407958984, "z": -9.885825157165527 }, "pca_coordinates": { "x": 4.636804580688477, "y": -1.8797564506530762, "z": 0.5872260928153992 }, "axis_scores": { "Quantum imaging": 0.6825165152549744, "Quantum Life Science Sensing": 0.7083852887153625, "Quantum sensing Detection": 0.6928762793540955, "Quantum sensing Metrology": 0.6811540722846985, "Quantum sensing navigation": 0.7107691168785095, "Quantum sensing Position": 0.6911734342575073, "Quantum sensing Timing": 0.676643967628479, "Quantum sensing": 0.7056073546409607, "Quantum control": 0.6656666398048401 } }, { "id": 3025, "title": "Discriminating nonisomorphic graphs with an experimental quantum annealer", "abstract": "We demonstrate experimentally the ability of a quantum annealer to distinguish between sets of nonisomorphic graphs that share the same classical Ising spectrum. Utilizing the pause-and-quench feature...", "citations": 4, "author_count": 5, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3031, "doi": "10.1103/PhysRevA.102.032622", "umap_coordinates": { "x": 395.70745849609375, "y": 137.0816650390625, "z": 207.51736450195312 }, "tsne_coordinates": { "x": -20.537059783935547, "y": -5.928713798522949, "z": 0.8217787742614746 }, "pca_coordinates": { "x": 2.0663204193115234, "y": 1.0765076875686646, "z": 1.1557700634002686 }, "axis_scores": { "Quantum imaging": 0.6873931884765625, "Quantum Life Science Sensing": 0.6736936569213867, "Quantum sensing Detection": 0.6816189289093018, "Quantum sensing Metrology": 0.6614763736724854, "Quantum sensing navigation": 0.6824122071266174, "Quantum sensing Position": 0.663743793964386, "Quantum sensing Timing": 0.6622378826141357, "Quantum sensing": 0.6801544427871704, "Quantum control": 0.6435599327087402 } }, { "id": 3026, "title": "Spin seebeck coefficient of a molecular spin pump", "abstract": "Within a generalized version of previously considered model of a molecular spin pump controlled by an external electric field [J. Fransson and M. Galperin, Phys. Rev. B, 2010, 81, 075311] we discuss t...", "citations": 18, "author_count": 3, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3032, "doi": "10.1039/c1cp20720b", "umap_coordinates": { "x": 392.7992858886719, "y": 136.03082275390625, "z": 206.6250457763672 }, "tsne_coordinates": { "x": 1.8453712463378906, "y": -9.530423164367676, "z": 21.106956481933594 }, "pca_coordinates": { "x": 1.2111098766326904, "y": -1.1502680778503418, "z": -1.2721877098083496 }, "axis_scores": { "Quantum imaging": 0.7007802724838257, "Quantum Life Science Sensing": 0.7222951054573059, "Quantum sensing Detection": 0.7013196349143982, "Quantum sensing Metrology": 0.7004119157791138, "Quantum sensing navigation": 0.7086606621742249, "Quantum sensing Position": 0.6890020370483398, "Quantum sensing Timing": 0.6599295139312744, "Quantum sensing": 0.7194749712944031, "Quantum control": 0.6914308071136475 } }, { "id": 3027, "title": "Signatures of a Spin-1/2 Cooperative Paramagnet in the Diluted Triangular Lattice of Y2CuTiO6", "abstract": "We present a combination of thermodynamic and dynamic experimental signatures of a disorder driven dynamic cooperative paramagnet in a 50% site diluted triangular lattice spin-1/2 system: Y2CuTiO6. Ma...", "citations": 35, "author_count": 15, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3033, "doi": "10.1103/PhysRevLett.125.117206", "umap_coordinates": { "x": 393.595947265625, "y": 136.36611938476562, "z": 208.5867919921875 }, "tsne_coordinates": { "x": -5.908913612365723, "y": -26.18459701538086, "z": 19.449399948120117 }, "pca_coordinates": { "x": 2.9008073806762695, "y": -0.9045000076293945, "z": -0.5902171730995178 }, "axis_scores": { "Quantum imaging": 0.7154688835144043, "Quantum Life Science Sensing": 0.7126999497413635, "Quantum sensing Detection": 0.7097870707511902, "Quantum sensing Metrology": 0.7089855074882507, "Quantum sensing navigation": 0.7006752490997314, "Quantum sensing Position": 0.6917762756347656, "Quantum sensing Timing": 0.7065492272377014, "Quantum sensing": 0.7190472483634949, "Quantum control": 0.6944972276687622 } }, { "id": 3028, "title": "High-ET isolated-photon plus jets production in pp collisions at √s=8 TeV with the ATLAS detector", "abstract": "The dynamics of isolated-photon plus one-, two- and three-jet production in pp collisions at a centre-of-mass energy of 8 TeV are studied with the ATLAS detector at the LHC using a data set with an in...", "citations": 30, "author_count": 2665, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3034, "doi": "10.1016/j.nuclphysb.2017.03.006", "umap_coordinates": { "x": 396.902099609375, "y": 134.23635864257812, "z": 207.5703582763672 }, "tsne_coordinates": { "x": -32.83741760253906, "y": 7.401702404022217, "z": -9.908487319946289 }, "pca_coordinates": { "x": -1.7122137546539307, "y": -0.029882431030273438, "z": 3.402225971221924 }, "axis_scores": { "Quantum imaging": 0.6949787139892578, "Quantum Life Science Sensing": 0.667462944984436, "Quantum sensing Detection": 0.69375079870224, "Quantum sensing Metrology": 0.6558102369308472, "Quantum sensing navigation": 0.6575649976730347, "Quantum sensing Position": 0.6648705005645752, "Quantum sensing Timing": 0.6898008584976196, "Quantum sensing": 0.6846802234649658, "Quantum control": 0.6333662867546082 } }, { "id": 3029, "title": "The effect of the polymerisation temperature on molecular weight and photoluminescence quantum yield for a phenylsubstituted PPV", "abstract": "We present the synthesis and characterisation of poly(2-(2',5'-bis(2''-ethylhexyloxy)phenyl)-1,4-phenylenevinylene) (BEHP-PPV) polymerised under different conditions. The photoluminescence efficiencie...", "citations": 12, "author_count": 5, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3035, "doi": "10.1016/S0379-6779(00)00623-8", "umap_coordinates": { "x": 392.7447204589844, "y": 135.49388122558594, "z": 205.09182739257812 }, "tsne_coordinates": { "x": -4.157806396484375, "y": -1.7679944038391113, "z": -18.747600555419922 }, "pca_coordinates": { "x": -3.070343017578125, "y": -0.38101959228515625, "z": 0.33014601469039917 }, "axis_scores": { "Quantum imaging": 0.6627643704414368, "Quantum Life Science Sensing": 0.6921162605285645, "Quantum sensing Detection": 0.6537103652954102, "Quantum sensing Metrology": 0.64975905418396, "Quantum sensing navigation": 0.6302621364593506, "Quantum sensing Position": 0.6884065270423889, "Quantum sensing Timing": 0.6639599800109863, "Quantum sensing": 0.6623690128326416, "Quantum control": 0.644332766532898 } }, { "id": 3030, "title": "Measures on the Hilbert space of a quantum system", "abstract": "The paper is the first in a series of papers on the use of measures and generalized measures in quantum theory. In particular, a survey of the proofs of equivalence of various definitions of the densi...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3036, "doi": "10.1134/S106192081702008X", "umap_coordinates": { "x": 395.4346618652344, "y": 137.3321533203125, "z": 206.40957641601562 }, "tsne_coordinates": { "x": -34.7587890625, "y": 8.069269180297852, "z": 8.662800788879395 }, "pca_coordinates": { "x": 2.8100781440734863, "y": 2.619812488555908, "z": 0.540244996547699 }, "axis_scores": { "Quantum imaging": 0.7327941656112671, "Quantum Life Science Sensing": 0.7459956407546997, "Quantum sensing Detection": 0.7443854212760925, "Quantum sensing Metrology": 0.7468187808990479, "Quantum sensing navigation": 0.7378696799278259, "Quantum sensing Position": 0.7439868450164795, "Quantum sensing Timing": 0.7056193947792053, "Quantum sensing": 0.7628445029258728, "Quantum control": 0.73307865858078 } }, { "id": 3031, "title": "Description of Composite Quantum Systems by Means of Classical Random Fields", "abstract": "Recently a new attempt to go beyond QM was performed in the form of so-called prequantum classical statistical field theory (PCSFT). In this approach quantum systems are described by classical random ...", "citations": 15, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3037, "doi": "10.1007/s10701-009-9392-8", "umap_coordinates": { "x": 394.95318603515625, "y": 137.55845642089844, "z": 206.48477172851562 }, "tsne_coordinates": { "x": -29.198057174682617, "y": 3.709193468093872, "z": 17.375259399414062 }, "pca_coordinates": { "x": 1.3241174221038818, "y": 2.3138675689697266, "z": -0.6966871619224548 }, "axis_scores": { "Quantum imaging": 0.7661080956459045, "Quantum Life Science Sensing": 0.7795765995979309, "Quantum sensing Detection": 0.7548283338546753, "Quantum sensing Metrology": 0.7532469630241394, "Quantum sensing navigation": 0.7577299475669861, "Quantum sensing Position": 0.7134513854980469, "Quantum sensing Timing": 0.7097333073616028, "Quantum sensing": 0.7795894742012024, "Quantum control": 0.7549793124198914 } }, { "id": 3032, "title": "Carbon Nanodots from an In Silico Perspective", "abstract": "Carbon nanodots (CNDs) are the latest and most shining rising stars among photoluminescent (PL) nanomaterials. These carbon-based surface-passivated nanostructures compete with other related PL materi...", "citations": 100, "author_count": 10, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3038, "doi": "10.1021/acs.chemrev.1c00864", "umap_coordinates": { "x": 392.42083740234375, "y": 135.2559051513672, "z": 205.22279357910156 }, "tsne_coordinates": { "x": 21.06689453125, "y": 12.200398445129395, "z": 8.352241516113281 }, "pca_coordinates": { "x": -1.0507006645202637, "y": -1.9168286323547363, "z": -2.3667635917663574 }, "axis_scores": { "Quantum imaging": 0.7218914031982422, "Quantum Life Science Sensing": 0.747276782989502, "Quantum sensing Detection": 0.725033164024353, "Quantum sensing Metrology": 0.7044425010681152, "Quantum sensing navigation": 0.727016031742096, "Quantum sensing Position": 0.7080044746398926, "Quantum sensing Timing": 0.6844048500061035, "Quantum sensing": 0.737673282623291, "Quantum control": 0.7192186117172241 } }, { "id": 3033, "title": "ToxTracker Reporter Cell Lines as a Tool for Mechanism-Based (Geno)Toxicity Screening of Nanoparticles-Metals, Oxides and Quantum Dots", "abstract": "The increased use of nanoparticles (NPs) requires efficient testing of their potential toxic effects. A promising approach is to use reporter cell lines to quickly assess the activation of cellular st...", "citations": 20, "author_count": 12, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3039, "doi": "10.3390/nano10010110", "umap_coordinates": { "x": 393.27044677734375, "y": 134.0770721435547, "z": 204.7667694091797 }, "tsne_coordinates": { "x": 12.991908073425293, "y": 22.121231079101562, "z": 0.401481956243515 }, "pca_coordinates": { "x": -3.4512176513671875, "y": -0.5496470928192139, "z": -0.7493854761123657 }, "axis_scores": { "Quantum imaging": 0.6857894659042358, "Quantum Life Science Sensing": 0.7427208423614502, "Quantum sensing Detection": 0.7115170359611511, "Quantum sensing Metrology": 0.692825436592102, "Quantum sensing navigation": 0.6955722570419312, "Quantum sensing Position": 0.6636477112770081, "Quantum sensing Timing": 0.6839020848274231, "Quantum sensing": 0.7063586711883545, "Quantum control": 0.6611183285713196 } }, { "id": 3034, "title": "SMALL METAL PARTICLES - NONLOCAL OPTICAL-PROPERTIES AND QUANTUM-SIZE EFFECTS", "abstract": "", "citations": 15, "author_count": 4, "categories": [ "Crystallography" ], "year": 1990, "topic": [ "all" ], "embedding_index": 3040, "doi": "10.1080/01411599008210245", "umap_coordinates": { "x": 393.04840087890625, "y": 134.32130432128906, "z": 205.99063110351562 }, "tsne_coordinates": { "x": 33.16423034667969, "y": -5.140512466430664, "z": -4.956622123718262 }, "pca_coordinates": { "x": -0.9812960624694824, "y": -0.34039998054504395, "z": -0.16729646921157837 }, "axis_scores": { "Quantum imaging": 0.7276393175125122, "Quantum Life Science Sensing": 0.7471815943717957, "Quantum sensing Detection": 0.7303334474563599, "Quantum sensing Metrology": 0.7239114046096802, "Quantum sensing navigation": 0.7179992198944092, "Quantum sensing Position": 0.7162363529205322, "Quantum sensing Timing": 0.6722224354743958, "Quantum sensing": 0.7426304817199707, "Quantum control": 0.6884859204292297 } }, { "id": 3035, "title": "Room temperature operation of a deep etched buried heterostructure photonic crystal quantum cascade laser", "abstract": "High power single mode quantum cascade lasers with a narrow far field are important for several applications including surgery or military countermeasure. Existing technologies suffer from drawbacks s...", "citations": 11, "author_count": 15, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3041, "doi": "10.1002/lpor.201600047", "umap_coordinates": { "x": 394.1654052734375, "y": 134.0026092529297, "z": 206.76731872558594 }, "tsne_coordinates": { "x": 6.347537994384766, "y": -8.541059494018555, "z": -33.953529357910156 }, "pca_coordinates": { "x": -0.40686720609664917, "y": -1.074692964553833, "z": 1.092806100845337 }, "axis_scores": { "Quantum imaging": 0.7271988391876221, "Quantum Life Science Sensing": 0.7311305403709412, "Quantum sensing Detection": 0.7199851274490356, "Quantum sensing Metrology": 0.7102283239364624, "Quantum sensing navigation": 0.7061042785644531, "Quantum sensing Position": 0.7049823999404907, "Quantum sensing Timing": 0.6927441954612732, "Quantum sensing": 0.7317241430282593, "Quantum control": 0.7172915935516357 } }, { "id": 3036, "title": "Tailoring the interfacial structure of colloidal giant quantum dots for optoelectronic applications", "abstract": "Colloidal semiconductor quantum dots (QDs) are promising building blocks for the realization of future optoelectronic technologies, thanks to their size-tunable electronic and optical properties. Amon...", "citations": 23, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3042, "doi": "10.1039/c8nr04313b", "umap_coordinates": { "x": 392.14007568359375, "y": 134.38075256347656, "z": 205.78990173339844 }, "tsne_coordinates": { "x": 16.503829956054688, "y": -3.8795859813690186, "z": -4.474033355712891 }, "pca_coordinates": { "x": -1.820554256439209, "y": -3.964561939239502, "z": -2.7401020526885986 }, "axis_scores": { "Quantum imaging": 0.7192585468292236, "Quantum Life Science Sensing": 0.7619022130966187, "Quantum sensing Detection": 0.7097100019454956, "Quantum sensing Metrology": 0.7052849531173706, "Quantum sensing navigation": 0.7202718257904053, "Quantum sensing Position": 0.6836486458778381, "Quantum sensing Timing": 0.6524776220321655, "Quantum sensing": 0.7297841310501099, "Quantum control": 0.7079001069068909 } }, { "id": 3037, "title": "Synthesis, COSMO-RS analysis and optical properties of surface modified ZnS quantum dots using ionic liquids", "abstract": "Zinc sulfide (ZnS) quantum dots (QDs) were synthesized using the microwave assisted ionic liquid (MAIL) route. Three ionic liquids (ILs), namely, 1-butyl-3-methylimidazolium tetrafluoroborate ([BMIM][...", "citations": 21, "author_count": 6, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3043, "doi": "10.1016/j.jpcs.2015.04.020", "umap_coordinates": { "x": 392.8211669921875, "y": 134.14590454101562, "z": 205.3086700439453 }, "tsne_coordinates": { "x": 31.014041900634766, "y": 7.050366401672363, "z": 0.35123521089553833 }, "pca_coordinates": { "x": -3.9981284141540527, "y": -0.7051661014556885, "z": -1.1144003868103027 }, "axis_scores": { "Quantum imaging": 0.740974485874176, "Quantum Life Science Sensing": 0.7612700462341309, "Quantum sensing Detection": 0.718039333820343, "Quantum sensing Metrology": 0.7075497508049011, "Quantum sensing navigation": 0.7377722263336182, "Quantum sensing Position": 0.7018957734107971, "Quantum sensing Timing": 0.6801019906997681, "Quantum sensing": 0.7384649515151978, "Quantum control": 0.7209807634353638 } }, { "id": 3038, "title": "Toward a diffraction-limited square-kilometer optical telescope: Digital revival of intensity interferometry", "abstract": "Much of the progress in astronomy follows imaging with improved resolution. In observing stars, current capabilities are only marginal in beginning to image the disks of a few, although many stars wil...", "citations": 15, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3044, "doi": "10.1117/12.801260", "umap_coordinates": { "x": 395.1268615722656, "y": 133.72738647460938, "z": 206.2337188720703 }, "tsne_coordinates": { "x": -16.981014251708984, "y": 10.429741859436035, "z": -38.23702621459961 }, "pca_coordinates": { "x": -0.6421606540679932, "y": 1.0699079036712646, "z": 2.7329843044281006 }, "axis_scores": { "Quantum imaging": 0.7429084777832031, "Quantum Life Science Sensing": 0.7356809973716736, "Quantum sensing Detection": 0.7375153303146362, "Quantum sensing Metrology": 0.7384589314460754, "Quantum sensing navigation": 0.723724365234375, "Quantum sensing Position": 0.7137868404388428, "Quantum sensing Timing": 0.7068548798561096, "Quantum sensing": 0.7417290806770325, "Quantum control": 0.7054722905158997 } }, { "id": 3039, "title": "Electron transport in nanocrystalline Si based single electron transistors", "abstract": "Electron transport has been studied by measurement and simulation of single electron transistors based on nanocrystalline silicon (nc-Si). Nanocrystalline silicon is formed in the gas phase of the SiH...", "citations": 86, "author_count": 5, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3045, "doi": "10.1143/JJAP.39.4647", "umap_coordinates": { "x": 394.0611267089844, "y": 134.14407348632812, "z": 208.6338348388672 }, "tsne_coordinates": { "x": 11.326340675354004, "y": -31.246105194091797, "z": -12.768513679504395 }, "pca_coordinates": { "x": 1.4928607940673828, "y": -3.271446704864502, "z": 1.4078609943389893 }, "axis_scores": { "Quantum imaging": 0.7017849087715149, "Quantum Life Science Sensing": 0.7019063830375671, "Quantum sensing Detection": 0.6997317671775818, "Quantum sensing Metrology": 0.6861234903335571, "Quantum sensing navigation": 0.7111843228340149, "Quantum sensing Position": 0.6913443207740784, "Quantum sensing Timing": 0.6704439520835876, "Quantum sensing": 0.716537356376648, "Quantum control": 0.6933891773223877 } }, { "id": 3040, "title": "Confocal pH imaging of microscopic specimens using fluorescence lifetimes and phase fluorometry: influence of parameter choice on system performance", "abstract": "We investigate the performance of confocal pH imaging when using phase fluorometry and fluorophores with pH-dependent lifetimes. In these experiments, the specimen is illuminated by a laser beam, whos...", "citations": 24, "author_count": 5, "categories": [ "Microscopy" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3046, "doi": "10.1046/j.1365-2818.2000.00722.x", "umap_coordinates": { "x": 394.2391357421875, "y": 135.0581817626953, "z": 204.6768035888672 }, "tsne_coordinates": { "x": -9.162032127380371, "y": 18.040409088134766, "z": -2.964622974395752 }, "pca_coordinates": { "x": -3.6925387382507324, "y": 3.1357688903808594, "z": -0.3357256054878235 }, "axis_scores": { "Quantum imaging": 0.7435896992683411, "Quantum Life Science Sensing": 0.7546284198760986, "Quantum sensing Detection": 0.6988329887390137, "Quantum sensing Metrology": 0.7080931067466736, "Quantum sensing navigation": 0.7043687105178833, "Quantum sensing Position": 0.7080910801887512, "Quantum sensing Timing": 0.6930797100067139, "Quantum sensing": 0.7259734869003296, "Quantum control": 0.7022878527641296 } }, { "id": 3041, "title": "On Applicability of Quantum Formalism to Model Decision Making: Can Cognitive Signaling Be Compatible with Quantum Theory?", "abstract": "This note is devoted to the problem of signaling (marginal inconsistency) in the Bell-type experiments with physical and cognitive systems. It seems that in quantum physics, this problem is still not ...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3047, "doi": "10.3390/e24111592", "umap_coordinates": { "x": 395.26611328125, "y": 137.6427459716797, "z": 205.81385803222656 }, "tsne_coordinates": { "x": -24.308837890625, "y": 12.285344123840332, "z": 17.019012451171875 }, "pca_coordinates": { "x": 0.5328593254089355, "y": 4.348578453063965, "z": -0.687771737575531 }, "axis_scores": { "Quantum imaging": 0.7122666835784912, "Quantum Life Science Sensing": 0.7376297116279602, "Quantum sensing Detection": 0.7290530204772949, "Quantum sensing Metrology": 0.7151490449905396, "Quantum sensing navigation": 0.7417699694633484, "Quantum sensing Position": 0.7026793956756592, "Quantum sensing Timing": 0.6972174048423767, "Quantum sensing": 0.7397928833961487, "Quantum control": 0.7292909622192383 } }, { "id": 3042, "title": "Monitoring the release of a NO photodonor from polymer nanoparticles via Forster resonance energy transfer and two-photon fluorescence imaging", "abstract": "Core-shell polymeric nanoparticles (NPs) made of either di-block or tri-block poly-epsilon-caprolactone and polyethylene glycol copolymers, covalently integrating Rhodamine B in the core or the shell ...", "citations": 8, "author_count": 10, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3048, "doi": "10.1039/c7tb02781h", "umap_coordinates": { "x": 392.83294677734375, "y": 134.9858856201172, "z": 204.79388427734375 }, "tsne_coordinates": { "x": 11.888275146484375, "y": 5.84169864654541, "z": -5.944854736328125 }, "pca_coordinates": { "x": -3.7052412033081055, "y": -0.2883918285369873, "z": -0.129624605178833 }, "axis_scores": { "Quantum imaging": 0.7021864652633667, "Quantum Life Science Sensing": 0.7314935326576233, "Quantum sensing Detection": 0.7025430798530579, "Quantum sensing Metrology": 0.6847895383834839, "Quantum sensing navigation": 0.6770021915435791, "Quantum sensing Position": 0.6784705519676208, "Quantum sensing Timing": 0.6861992478370667, "Quantum sensing": 0.7013312578201294, "Quantum control": 0.6662987470626831 } }, { "id": 3043, "title": "Fluorescence properties of protonated and unprotonated Schiff bases of retinal at room temperature", "abstract": "The fluorescence spectra, quantum yields and kinetics of protonated (PSBR) and unprotonated (SBR) Schiff bases of retinal in different solvents were investigated at room temperature. The emission quan...", "citations": 23, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3049, "doi": "10.1016/1011-1344(95)07271-3", "umap_coordinates": { "x": 393.1184387207031, "y": 135.81021118164062, "z": 204.57501220703125 }, "tsne_coordinates": { "x": 1.5086387395858765, "y": 14.158913612365723, "z": 0.1784476339817047 }, "pca_coordinates": { "x": -2.2956676483154297, "y": 1.1832668781280518, "z": -2.12900972366333 }, "axis_scores": { "Quantum imaging": 0.7155080437660217, "Quantum Life Science Sensing": 0.746343195438385, "Quantum sensing Detection": 0.6935585737228394, "Quantum sensing Metrology": 0.6944160461425781, "Quantum sensing navigation": 0.6899978518486023, "Quantum sensing Position": 0.6979250907897949, "Quantum sensing Timing": 0.6680876612663269, "Quantum sensing": 0.7164080142974854, "Quantum control": 0.6750845909118652 } }, { "id": 3044, "title": "Molecular quantum similarity measures from Fermi hole densities: Modeling Hammett sigma constants", "abstract": "A new approach, based on the use of fragment Quantum Self-Similarity Measures (MQS-SM) as descriptors of electronic substituent effect in aromatic series, was proposed. The novelty of this approach co...", "citations": 11, "author_count": 3, "categories": [ "Pharmacology & Pharmacy" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3050, "doi": "10.1021/ci050061m", "umap_coordinates": { "x": 393.8351135253906, "y": 137.4344940185547, "z": 206.12806701660156 }, "tsne_coordinates": { "x": -14.460509300231934, "y": 16.318017959594727, "z": 23.752342224121094 }, "pca_coordinates": { "x": 1.059903621673584, "y": 0.8213787078857422, "z": -2.4984986782073975 }, "axis_scores": { "Quantum imaging": 0.717727541923523, "Quantum Life Science Sensing": 0.7410759329795837, "Quantum sensing Detection": 0.70769864320755, "Quantum sensing Metrology": 0.717808723449707, "Quantum sensing navigation": 0.7306303977966309, "Quantum sensing Position": 0.6972007155418396, "Quantum sensing Timing": 0.684438169002533, "Quantum sensing": 0.7239866256713867, "Quantum control": 0.7039134502410889 } }, { "id": 3045, "title": "Temperature-anisotropy conjugate magnon squeezing in antiferromagnets", "abstract": "Quantum squeezing is an essential asset in the field of quantum science and technology. In this paper, we investigate the impact of temperature and anisotropy on squeezing of quantum fluctuations in t...", "citations": 3, "author_count": 4, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3051, "doi": "10.1103/PhysRevB.108.144302", "umap_coordinates": { "x": 394.51068115234375, "y": 136.50437927246094, "z": 208.20997619628906 }, "tsne_coordinates": { "x": -6.837672233581543, "y": -39.01498794555664, "z": 23.21767807006836 }, "pca_coordinates": { "x": 4.570201873779297, "y": -0.3047056198120117, "z": 0.9058629870414734 }, "axis_scores": { "Quantum imaging": 0.7242949604988098, "Quantum Life Science Sensing": 0.6909438371658325, "Quantum sensing Detection": 0.7072877883911133, "Quantum sensing Metrology": 0.7133573293685913, "Quantum sensing navigation": 0.7267869114875793, "Quantum sensing Position": 0.7238946557044983, "Quantum sensing Timing": 0.7187779545783997, "Quantum sensing": 0.7218897342681885, "Quantum control": 0.6993463635444641 } }, { "id": 3046, "title": "Nonlinear transport at the strong intra-dot Coulomb interaction", "abstract": "Nonlinear transport is studied in the limit of weak and strong intra-dot Coulomb interaction. The nonequilibrium self-consistent mean-field equations for one-electron transition energies of an open do...", "citations": 7, "author_count": 3, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3052, "doi": "10.1088/0953-8984/18/5/L01", "umap_coordinates": { "x": 393.63604736328125, "y": 135.69313049316406, "z": 208.42123413085938 }, "tsne_coordinates": { "x": 10.146431922912598, "y": -20.63543701171875, "z": 10.777205467224121 }, "pca_coordinates": { "x": 1.0162129402160645, "y": -1.4848966598510742, "z": 1.6104118824005127 }, "axis_scores": { "Quantum imaging": 0.7039346098899841, "Quantum Life Science Sensing": 0.6705944538116455, "Quantum sensing Detection": 0.6746746301651001, "Quantum sensing Metrology": 0.6549807786941528, "Quantum sensing navigation": 0.669207751750946, "Quantum sensing Position": 0.6658907532691956, "Quantum sensing Timing": 0.6510425806045532, "Quantum sensing": 0.6790934801101685, "Quantum control": 0.6297311186790466 } }, { "id": 3047, "title": "Majorana modes in quantum dots coupled via a floating superconducting island", "abstract": "Majorana modes can be engineered in arrays where quantum dots (QDs) are coupled via grounded superconductors, effectively realizing an artificial Kitaev chain. Minimal Kitaev chains, composed by two Q...", "citations": 6, "author_count": 8, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3053, "doi": "10.1103/PhysRevB.111.174501", "umap_coordinates": { "x": 394.3510437011719, "y": 135.6976318359375, "z": 208.99298095703125 }, "tsne_coordinates": { "x": -2.575288772583008, "y": -19.2235164642334, "z": 5.370665073394775 }, "pca_coordinates": { "x": 4.902975559234619, "y": -2.4917187690734863, "z": 0.2154654860496521 }, "axis_scores": { "Quantum imaging": 0.7091267108917236, "Quantum Life Science Sensing": 0.7145121097564697, "Quantum sensing Detection": 0.7224410176277161, "Quantum sensing Metrology": 0.6988582611083984, "Quantum sensing navigation": 0.7229933142662048, "Quantum sensing Position": 0.6930887699127197, "Quantum sensing Timing": 0.6707261800765991, "Quantum sensing": 0.7214853167533875, "Quantum control": 0.7006387710571289 } }, { "id": 3048, "title": "Quantum-like model of subjective expected utility", "abstract": "We present a very general quantum-like model of lottery selection based on representation of beliefs of an agent by pure quantum states. Subjective probabilities are mathematically realized in the fra...", "citations": 26, "author_count": 6, "categories": [ "Business & Economics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3054, "doi": "10.1016/j.jmateco.2018.02.001", "umap_coordinates": { "x": 394.8523254394531, "y": 137.35946655273438, "z": 205.93287658691406 }, "tsne_coordinates": { "x": -21.514692306518555, "y": 11.01258373260498, "z": 18.758970260620117 }, "pca_coordinates": { "x": 1.0646302700042725, "y": 3.0116629600524902, "z": -1.505904197692871 }, "axis_scores": { "Quantum imaging": 0.7852300405502319, "Quantum Life Science Sensing": 0.8002283573150635, "Quantum sensing Detection": 0.7843198776245117, "Quantum sensing Metrology": 0.7695909142494202, "Quantum sensing navigation": 0.7868744730949402, "Quantum sensing Position": 0.7628753781318665, "Quantum sensing Timing": 0.7371411323547363, "Quantum sensing": 0.8011143803596497, "Quantum control": 0.7861745953559875 } }, { "id": 3049, "title": "Circularly polarized emission from ensembles of InAs/GaAs quantum dots", "abstract": "We present a low-temperature micro-photoluminescence (mu-PL) study of ensembles of InAs/GaAs quantum dots (QDs) with respect to its circular polarization (rho(c)) for a manifold of experimental condit...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3055, "doi": "10.1063/1.3599853", "umap_coordinates": { "x": 393.2658386230469, "y": 133.6210479736328, "z": 208.09117126464844 }, "tsne_coordinates": { "x": 20.733497619628906, "y": -24.48231315612793, "z": -0.3336595594882965 }, "pca_coordinates": { "x": 1.2752492427825928, "y": -4.512045383453369, "z": 1.6253666877746582 }, "axis_scores": { "Quantum imaging": 0.7416138052940369, "Quantum Life Science Sensing": 0.748916745185852, "Quantum sensing Detection": 0.754542350769043, "Quantum sensing Metrology": 0.735878586769104, "Quantum sensing navigation": 0.7314314246177673, "Quantum sensing Position": 0.7101014256477356, "Quantum sensing Timing": 0.6821490526199341, "Quantum sensing": 0.7669354677200317, "Quantum control": 0.7131147980690002 } }, { "id": 3050, "title": "Giant superconducting proximity effect on spintronic anisotropy", "abstract": "We investigate theoretically the interplay of proximity effects due to the presence of a superconductor and normal ferromagnetic leads on the formation of the spintronic quadrupolar exchange field in ...", "citations": 1, "author_count": 4, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3056, "doi": "10.1103/PhysRevB.100.045401", "umap_coordinates": { "x": 393.6541748046875, "y": 135.73760986328125, "z": 208.68670654296875 }, "tsne_coordinates": { "x": 14.836821556091309, "y": -33.918052673339844, "z": 10.055974006652832 }, "pca_coordinates": { "x": 4.011341094970703, "y": -1.7924017906188965, "z": -0.07662147283554077 }, "axis_scores": { "Quantum imaging": 0.7047815322875977, "Quantum Life Science Sensing": 0.7201138734817505, "Quantum sensing Detection": 0.7152426838874817, "Quantum sensing Metrology": 0.6945896148681641, "Quantum sensing navigation": 0.7220061421394348, "Quantum sensing Position": 0.7135022878646851, "Quantum sensing Timing": 0.7004525661468506, "Quantum sensing": 0.7321870923042297, "Quantum control": 0.7015767693519592 } }, { "id": 3051, "title": "Fabrication and measurement of one-dimensional arrays of small capacitance Josephson junctions", "abstract": "We describe the fabrication and measurement of one-dimensional series arrays of small capacitance Josephson junctions and superconducting quantum interference devices. These arrays exhibit a Coulomb b...", "citations": 12, "author_count": 5, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3057, "doi": "10.1116/1.580346", "umap_coordinates": { "x": 394.2314453125, "y": 133.87106323242188, "z": 207.8626251220703 }, "tsne_coordinates": { "x": 30.276153564453125, "y": -30.916393280029297, "z": 1.1328085660934448 }, "pca_coordinates": { "x": 0.6513078212738037, "y": -1.3552801609039307, "z": 2.7522830963134766 }, "axis_scores": { "Quantum imaging": 0.73382568359375, "Quantum Life Science Sensing": 0.749732494354248, "Quantum sensing Detection": 0.7451297044754028, "Quantum sensing Metrology": 0.7528390288352966, "Quantum sensing navigation": 0.730014979839325, "Quantum sensing Position": 0.7334390878677368, "Quantum sensing Timing": 0.7273916006088257, "Quantum sensing": 0.7592940330505371, "Quantum control": 0.7131218314170837 } }, { "id": 3052, "title": "Dynamical Disentangling and Cooling of Atoms in Bilayer Optical Lattices", "abstract": "We show how experimentally available bilayer lattice systems can be used to prepare quantum many-body states with exceptionally low entropy in one layer, by dynamically disentangling the two layers. T...", "citations": 27, "author_count": 4, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3058, "doi": "10.1103/PhysRevLett.120.060401", "umap_coordinates": { "x": 394.554931640625, "y": 136.6527862548828, "z": 208.34498596191406 }, "tsne_coordinates": { "x": -14.886889457702637, "y": -21.577877044677734, "z": 16.9975528717041 }, "pca_coordinates": { "x": 4.60128927230835, "y": -0.8956475257873535, "z": -1.0717031955718994 }, "axis_scores": { "Quantum imaging": 0.7001096606254578, "Quantum Life Science Sensing": 0.6879490613937378, "Quantum sensing Detection": 0.6788029670715332, "Quantum sensing Metrology": 0.6662644743919373, "Quantum sensing navigation": 0.699918270111084, "Quantum sensing Position": 0.6689079403877258, "Quantum sensing Timing": 0.6836029291152954, "Quantum sensing": 0.6874293088912964, "Quantum control": 0.677974283695221 } }, { "id": 3053, "title": "Accelerating the convergence of the Lanczos algorithm by the use of a complex symmetric Cholesky factorization: application to correlation functions in quantum molecular dynamics", "abstract": "The theoretical description of reactive scattering, photo dissociation and a number of other problems in chemical physics can be formulated in terms of a correlation function between an initial and fi...", "citations": 1, "author_count": 2, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3059, "doi": "10.1088/0953-4075/44/20/205102", "umap_coordinates": { "x": 393.749755859375, "y": 137.51649475097656, "z": 206.55162048339844 }, "tsne_coordinates": { "x": -18.727251052856445, "y": 0.9402540326118469, "z": 30.363351821899414 }, "pca_coordinates": { "x": 0.7352588176727295, "y": 1.8833262920379639, "z": -0.44743192195892334 }, "axis_scores": { "Quantum imaging": 0.7107746601104736, "Quantum Life Science Sensing": 0.6981415152549744, "Quantum sensing Detection": 0.6891250610351562, "Quantum sensing Metrology": 0.6726263761520386, "Quantum sensing navigation": 0.7189391255378723, "Quantum sensing Position": 0.6902470588684082, "Quantum sensing Timing": 0.7110756635665894, "Quantum sensing": 0.7018116116523743, "Quantum control": 0.7025384902954102 } }, { "id": 3054, "title": "CHIRAL QUANTUM BARYONS", "abstract": "We suggest a modified version of the quantum stabilization method for the usual SU(2)-sigma-model, proposed by Mignaco and Wulck, which avoids the difficulties with the usual soliton boundary conditio...", "citations": 15, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 3060, "doi": "10.1142/S021773239100275X", "umap_coordinates": { "x": 395.4647521972656, "y": 136.5426788330078, "z": 206.28756713867188 }, "tsne_coordinates": { "x": -35.84471893310547, "y": 10.009477615356445, "z": 7.087333679199219 }, "pca_coordinates": { "x": 1.4439082145690918, "y": 1.8382258415222168, "z": -0.5910017490386963 }, "axis_scores": { "Quantum imaging": 0.7006716728210449, "Quantum Life Science Sensing": 0.6925467848777771, "Quantum sensing Detection": 0.7008207440376282, "Quantum sensing Metrology": 0.6988458037376404, "Quantum sensing navigation": 0.7151482105255127, "Quantum sensing Position": 0.7018657922744751, "Quantum sensing Timing": 0.6954630613327026, "Quantum sensing": 0.7150058150291443, "Quantum control": 0.7230079770088196 } }, { "id": 3055, "title": "Energy localization in two chaotically coupled systems - art. no. 036214", "abstract": "We set up and analyze a random matrix model to study energy localization and its time behavior in two chaotically coupled systems. This investigation is prompted by a recent experimental and theoretic...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3061, "doi": "10.1103/PhysRevE.71.036214", "umap_coordinates": { "x": 394.49920654296875, "y": 135.97772216796875, "z": 208.48194885253906 }, "tsne_coordinates": { "x": -13.060545921325684, "y": -14.802488327026367, "z": 11.044026374816895 }, "pca_coordinates": { "x": 4.495110511779785, "y": -0.33687877655029297, "z": -1.4848331212997437 }, "axis_scores": { "Quantum imaging": 0.709537923336029, "Quantum Life Science Sensing": 0.7142512798309326, "Quantum sensing Detection": 0.7148399353027344, "Quantum sensing Metrology": 0.6955310106277466, "Quantum sensing navigation": 0.7206457853317261, "Quantum sensing Position": 0.7024068832397461, "Quantum sensing Timing": 0.6990680694580078, "Quantum sensing": 0.714392900466919, "Quantum control": 0.7098996639251709 } }, { "id": 3056, "title": "Bright, single-spatial-mode source of frequency non-degenerate, polarization-entangled photon pairs using periodically poled KTP", "abstract": "We use two perpendicular crystals of periodically-poled KTP to directly generate polarization-entangled photon pairs, the majority of which are emitted into a single Gaussian spatial mode. The signal ...", "citations": 84, "author_count": 9, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3062, "doi": "10.1364/OPEX.12.003573", "umap_coordinates": { "x": 395.1119689941406, "y": 133.4866943359375, "z": 207.05877685546875 }, "tsne_coordinates": { "x": -9.377466201782227, "y": -4.2595133781433105, "z": -30.66879653930664 }, "pca_coordinates": { "x": 0.037249088287353516, "y": -0.8913407325744629, "z": 3.7370948791503906 }, "axis_scores": { "Quantum imaging": 0.7209027409553528, "Quantum Life Science Sensing": 0.706459641456604, "Quantum sensing Detection": 0.7148075699806213, "Quantum sensing Metrology": 0.7078393697738647, "Quantum sensing navigation": 0.7034271359443665, "Quantum sensing Position": 0.6937189698219299, "Quantum sensing Timing": 0.7186616659164429, "Quantum sensing": 0.7199039459228516, "Quantum control": 0.6601017117500305 } }, { "id": 3057, "title": "PHITS overview", "abstract": "The paper presents a brief description of the models incorporated in PHITS and the present status of the code, showing some benchmarking tests of the PHITS code for accelerator facilities and space ra...", "citations": 4, "author_count": 10, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3063, "doi": null, "umap_coordinates": { "x": 391.763427734375, "y": 139.85836791992188, "z": 209.5074005126953 }, "tsne_coordinates": { "x": -4.996772766113281, "y": 46.82759475708008, "z": -1.3584269285202026 }, "pca_coordinates": { "x": -1.6937475204467773, "y": 4.024743556976318, "z": -2.337770700454712 }, "axis_scores": { "Quantum imaging": 0.7014399170875549, "Quantum Life Science Sensing": 0.6991823315620422, "Quantum sensing Detection": 0.689153254032135, "Quantum sensing Metrology": 0.6752609014511108, "Quantum sensing navigation": 0.6835278868675232, "Quantum sensing Position": 0.6762634515762329, "Quantum sensing Timing": 0.7029526233673096, "Quantum sensing": 0.7027974724769592, "Quantum control": 0.7061110138893127 } }, { "id": 3058, "title": "Mechanisms for improved open-circuit voltage in ternary organic solar cells", "abstract": "The addition of a guest component can improve the open-circuit voltage in ternary organic solar cells. Spectroscopic experiments, combined with quantum chemistry simulations, conducted on a series of ...", "citations": 4, "author_count": 3, "categories": [ "Energy & Fuels" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3064, "doi": "10.1038/s41560-023-01313-9", "umap_coordinates": { "x": 392.2607727050781, "y": 135.20062255859375, "z": 205.85498046875 }, "tsne_coordinates": { "x": 20.913314819335938, "y": -43.53809356689453, "z": 3.1701912879943848 }, "pca_coordinates": { "x": -0.3294795751571655, "y": -2.402099132537842, "z": -0.8022772073745728 }, "axis_scores": { "Quantum imaging": 0.6678569912910461, "Quantum Life Science Sensing": 0.6860789656639099, "Quantum sensing Detection": 0.6698206067085266, "Quantum sensing Metrology": 0.6603188514709473, "Quantum sensing navigation": 0.664487361907959, "Quantum sensing Position": 0.6411956548690796, "Quantum sensing Timing": 0.6692751049995422, "Quantum sensing": 0.6809585094451904, "Quantum control": 0.6719841361045837 } }, { "id": 3059, "title": "Electrically pumped graphene-based Landau-level laser", "abstract": "Graphene exhibits a nonequidistant Landau quantization with tunable Landau-level (LL) transitions in the technologically desired terahertz spectral range. Here, we present a strategy for an electrical...", "citations": 8, "author_count": 5, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3065, "doi": "10.1103/PhysRevMaterials.2.034002", "umap_coordinates": { "x": 394.9087219238281, "y": 135.83883666992188, "z": 208.4674530029297 }, "tsne_coordinates": { "x": -18.76090431213379, "y": -31.373437881469727, "z": -10.462044715881348 }, "pca_coordinates": { "x": 2.2950339317321777, "y": -2.208836078643799, "z": -0.6491391658782959 }, "axis_scores": { "Quantum imaging": 0.691063404083252, "Quantum Life Science Sensing": 0.7339779734611511, "Quantum sensing Detection": 0.6984560489654541, "Quantum sensing Metrology": 0.6909373998641968, "Quantum sensing navigation": 0.702081561088562, "Quantum sensing Position": 0.6952288150787354, "Quantum sensing Timing": 0.6468943357467651, "Quantum sensing": 0.714112401008606, "Quantum control": 0.6678664684295654 } }, { "id": 3060, "title": "Quantum logic with channelled atomic particles", "abstract": "This paper discusses the time-dependent quantum description of logical operations based on channelled atomic particles. We envisage particle traps in the form of grooves which steer atoms or ions, mak...", "citations": 3, "author_count": 3, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3066, "doi": null, "umap_coordinates": { "x": 392.13201904296875, "y": 139.2986602783203, "z": 208.49913024902344 }, "tsne_coordinates": { "x": -17.670785903930664, "y": 42.15886688232422, "z": -5.163019180297852 }, "pca_coordinates": { "x": 2.5582098960876465, "y": 2.6535966396331787, "z": 1.3281795978546143 }, "axis_scores": { "Quantum imaging": 0.7460848093032837, "Quantum Life Science Sensing": 0.7109758853912354, "Quantum sensing Detection": 0.7395214438438416, "Quantum sensing Metrology": 0.7274512052536011, "Quantum sensing navigation": 0.7792993783950806, "Quantum sensing Position": 0.7277231812477112, "Quantum sensing Timing": 0.7018826007843018, "Quantum sensing": 0.7499308586120605, "Quantum control": 0.730266273021698 } }, { "id": 3061, "title": "Vibrational vs. electronic coherences in 2D spectrum of molecular systems", "abstract": "Two-dimensional spectroscopy has recently revealed the oscillatory behavior of the excitation dynamics of molecular systems. However, in the majority of cases there is considerable debate over what is...", "citations": 240, "author_count": 5, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3067, "doi": "10.1016/j.cplett.2012.07.014", "umap_coordinates": { "x": 393.29254150390625, "y": 136.3937530517578, "z": 206.9603271484375 }, "tsne_coordinates": { "x": 7.747638702392578, "y": -1.7070578336715698, "z": 12.293686866760254 }, "pca_coordinates": { "x": 1.8755342960357666, "y": -0.06354379653930664, "z": -3.7255187034606934 }, "axis_scores": { "Quantum imaging": 0.7344954609870911, "Quantum Life Science Sensing": 0.7460891008377075, "Quantum sensing Detection": 0.722915768623352, "Quantum sensing Metrology": 0.6992046236991882, "Quantum sensing navigation": 0.7081068158149719, "Quantum sensing Position": 0.7045040726661682, "Quantum sensing Timing": 0.701388418674469, "Quantum sensing": 0.7287870645523071, "Quantum control": 0.7185055017471313 } }, { "id": 3062, "title": "New approach to many-body quantum-electrodynamics calculations: merging quantum electrodynamics with many-body perturbation", "abstract": "A new method for bound-state quantum electrodynamics (QED) calculations on many-electron systems is presented that is a combination of the non-QED many-body technique for quasi-degenerate systems and ...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3068, "doi": "10.1139/P05-012", "umap_coordinates": { "x": 394.3084411621094, "y": 136.60951232910156, "z": 207.1181182861328 }, "tsne_coordinates": { "x": -31.04564666748047, "y": -11.910575866699219, "z": 26.2552433013916 }, "pca_coordinates": { "x": 1.790985107421875, "y": 1.2987291812896729, "z": -0.48004305362701416 }, "axis_scores": { "Quantum imaging": 0.7051759362220764, "Quantum Life Science Sensing": 0.7133140563964844, "Quantum sensing Detection": 0.6997981071472168, "Quantum sensing Metrology": 0.7032930254936218, "Quantum sensing navigation": 0.6982197165489197, "Quantum sensing Position": 0.6901876330375671, "Quantum sensing Timing": 0.6752055883407593, "Quantum sensing": 0.7073052525520325, "Quantum control": 0.6977065205574036 } }, { "id": 3063, "title": "Superconducting analogue electronics for research and industry", "abstract": "This paper gives a brief review of superconducting electronics in research and industry. Examples will show how science benefits from the development and how superconducting devices have found their w...", "citations": 13, "author_count": 2, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3069, "doi": "10.1088/0953-2048/16/12/056", "umap_coordinates": { "x": 395.1457214355469, "y": 134.76136779785156, "z": 206.49879455566406 }, "tsne_coordinates": { "x": -17.99635887145996, "y": -2.7501211166381836, "z": -25.68153953552246 }, "pca_coordinates": { "x": 0.7089240550994873, "y": 0.9444293975830078, "z": 1.5389089584350586 }, "axis_scores": { "Quantum imaging": 0.693374514579773, "Quantum Life Science Sensing": 0.7202383279800415, "Quantum sensing Detection": 0.701320230960846, "Quantum sensing Metrology": 0.6870650053024292, "Quantum sensing navigation": 0.6912933588027954, "Quantum sensing Position": 0.6931909918785095, "Quantum sensing Timing": 0.6996338367462158, "Quantum sensing": 0.7078952789306641, "Quantum control": 0.6807593107223511 } }, { "id": 3064, "title": "Spectral photon-counting CT in cardiovascular imaging", "abstract": "Photon-counting computed tomography (PCCT) is an emerging technology promising to substantially improve cardiovascular imaging. Recent engineering and manufacturing advances by several vendors are exp...", "citations": 107, "author_count": 7, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3070, "doi": "10.1016/j.jcct.2020.12.005", "umap_coordinates": { "x": 395.2154235839844, "y": 132.89259338378906, "z": 205.10557556152344 }, "tsne_coordinates": { "x": -5.267293453216553, "y": 21.897680282592773, "z": -15.266960144042969 }, "pca_coordinates": { "x": -3.397826671600342, "y": 2.165769338607788, "z": 2.209038734436035 }, "axis_scores": { "Quantum imaging": 0.7473981976509094, "Quantum Life Science Sensing": 0.7232427597045898, "Quantum sensing Detection": 0.7222177982330322, "Quantum sensing Metrology": 0.6912959814071655, "Quantum sensing navigation": 0.7039484977722168, "Quantum sensing Position": 0.6934317350387573, "Quantum sensing Timing": 0.7119187712669373, "Quantum sensing": 0.7133986353874207, "Quantum control": 0.6703710556030273 } }, { "id": 3065, "title": "Simulating trends in reaction path geometry as a function of external fields. A generalized electronic diabatic model for two-dimensional energy surfaces", "abstract": "We introduce a protocol to represent quantum states as a linear superposition of model electronic diabatic basis states coupled in an external (static) electric field. By considering an entire family ...", "citations": 3, "author_count": 4, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3071, "doi": "10.1002/qua.21645", "umap_coordinates": { "x": 393.7314453125, "y": 137.04266357421875, "z": 206.33843994140625 }, "tsne_coordinates": { "x": -16.100608825683594, "y": 16.730579376220703, "z": 29.088756561279297 }, "pca_coordinates": { "x": 0.06451129913330078, "y": 1.3092900514602661, "z": -2.8110697269439697 }, "axis_scores": { "Quantum imaging": 0.6972814202308655, "Quantum Life Science Sensing": 0.7149190902709961, "Quantum sensing Detection": 0.6781020164489746, "Quantum sensing Metrology": 0.6825015544891357, "Quantum sensing navigation": 0.7146515846252441, "Quantum sensing Position": 0.6748975515365601, "Quantum sensing Timing": 0.6859809160232544, "Quantum sensing": 0.6928452849388123, "Quantum control": 0.7062894105911255 } }, { "id": 3066, "title": "Spin-polarized voltage probes for helical edge state: A model study", "abstract": "Theoretical models of a spin-polarized voltage probe (SPVP) tunnel-coupled to the helical edge states (HES) of a quantum spin Hall system (QSHS) are studied. Our first model of the SPVP comprises N-P ...", "citations": 3, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3072, "doi": "10.1016/j.physe.2021.115125", "umap_coordinates": { "x": 393.7547607421875, "y": 136.99351501464844, "z": 207.40106201171875 }, "tsne_coordinates": { "x": -15.226240158081055, "y": -34.17499542236328, "z": 15.094015121459961 }, "pca_coordinates": { "x": 0.48788881301879883, "y": 0.9173588752746582, "z": -1.9116215705871582 }, "axis_scores": { "Quantum imaging": 0.699312150478363, "Quantum Life Science Sensing": 0.7217926383018494, "Quantum sensing Detection": 0.6856719255447388, "Quantum sensing Metrology": 0.6720819473266602, "Quantum sensing navigation": 0.6967967748641968, "Quantum sensing Position": 0.6840478181838989, "Quantum sensing Timing": 0.6450891494750977, "Quantum sensing": 0.6902367472648621, "Quantum control": 0.6732223629951477 } }, { "id": 3067, "title": "ON THE CONNECTION BETWEEN CERTAIN PROPERTIES OF THE 2ND-ORDER REDUCED DENSITY-MATRIX AND THE OCCURRENCE OF COHERENT-DISSIPATIVE STRUCTURES IN DISORDERED CONDENSED MATTER", "abstract": "It is demonstrated, from general physical principles, that a new kind of quantum correlations, associated with the appropriate reduced density matrix, GAMMA, exist in amorphous condensed matter. The t...", "citations": 22, "author_count": 3, "categories": [ "Chemistry" ], "year": 1991, "topic": [ "all" ], "embedding_index": 3073, "doi": "10.1002/qua.560400508", "umap_coordinates": { "x": 393.6848449707031, "y": 137.1229248046875, "z": 207.6416015625 }, "tsne_coordinates": { "x": -0.10279779881238937, "y": -8.35877799987793, "z": 6.938823223114014 }, "pca_coordinates": { "x": 2.1816763877868652, "y": 1.8594002723693848, "z": -2.474797248840332 }, "axis_scores": { "Quantum imaging": 0.6876369714736938, "Quantum Life Science Sensing": 0.6910117864608765, "Quantum sensing Detection": 0.6803701519966125, "Quantum sensing Metrology": 0.6635719537734985, "Quantum sensing navigation": 0.6813921928405762, "Quantum sensing Position": 0.6694077253341675, "Quantum sensing Timing": 0.6598032712936401, "Quantum sensing": 0.6861082911491394, "Quantum control": 0.6790393590927124 } }, { "id": 3068, "title": "Quantum spin systems: Toroidal classification and geometric duality", "abstract": "We demonstrate a toroidal classification for quantum spin systems, revealing an intrinsic geometric duality within this structure. Through our classification and duality, we reveal that various bipart...", "citations": 3, "author_count": 8, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3074, "doi": "10.1103/PhysRevB.110.L140403", "umap_coordinates": { "x": 394.6271057128906, "y": 137.12020874023438, "z": 208.2075653076172 }, "tsne_coordinates": { "x": -15.90595531463623, "y": -13.968680381774902, "z": 5.251904487609863 }, "pca_coordinates": { "x": 4.522968292236328, "y": 0.5286271572113037, "z": -1.649146556854248 }, "axis_scores": { "Quantum imaging": 0.7650489807128906, "Quantum Life Science Sensing": 0.7564915418624878, "Quantum sensing Detection": 0.7517919540405273, "Quantum sensing Metrology": 0.7494186162948608, "Quantum sensing navigation": 0.7779558300971985, "Quantum sensing Position": 0.7326933145523071, "Quantum sensing Timing": 0.7255692481994629, "Quantum sensing": 0.7630670070648193, "Quantum control": 0.7479187250137329 } }, { "id": 3069, "title": "Study of structural and optical properties of nanocrystalline silicon embedded in SiO2", "abstract": "Silicon-rich suboxide (SiOx, x < 2) films with oxygen content (x) ranging from 1.0 to 1.9 were deposited by plasma enhanced CVD on a silicon substrate. Successive annealing at various temperatures was...", "citations": 55, "author_count": 7, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3075, "doi": "10.1016/S0040-6090(00)01259-1", "umap_coordinates": { "x": 392.9250793457031, "y": 133.6671905517578, "z": 206.77536010742188 }, "tsne_coordinates": { "x": 37.3075065612793, "y": -9.684967041015625, "z": -6.553198337554932 }, "pca_coordinates": { "x": -2.140897750854492, "y": -1.991100788116455, "z": 0.219981849193573 }, "axis_scores": { "Quantum imaging": 0.7402008771896362, "Quantum Life Science Sensing": 0.7699248790740967, "Quantum sensing Detection": 0.724929928779602, "Quantum sensing Metrology": 0.7301161885261536, "Quantum sensing navigation": 0.7158083319664001, "Quantum sensing Position": 0.7200207114219666, "Quantum sensing Timing": 0.6634407639503479, "Quantum sensing": 0.7464733123779297, "Quantum control": 0.6984080672264099 } }, { "id": 3070, "title": "Quantum Batteries: A Materials Science Perspective", "abstract": "In the context of quantum thermodynamics, quantum batteries have emerged as promising devices for energy storage and manipulation. Over the past decade, substantial progress is made in understanding t...", "citations": 5, "author_count": 7, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3076, "doi": "10.1002/adma.202415073", "umap_coordinates": { "x": 392.88299560546875, "y": 134.27517700195312, "z": 205.24624633789062 }, "tsne_coordinates": { "x": 21.16080093383789, "y": 15.528847694396973, "z": -5.033575057983398 }, "pca_coordinates": { "x": -0.4183844327926636, "y": -2.537227153778076, "z": -1.860229253768921 }, "axis_scores": { "Quantum imaging": 0.7545900344848633, "Quantum Life Science Sensing": 0.793627142906189, "Quantum sensing Detection": 0.7534340620040894, "Quantum sensing Metrology": 0.7645697593688965, "Quantum sensing navigation": 0.7481721043586731, "Quantum sensing Position": 0.7350890636444092, "Quantum sensing Timing": 0.7136423587799072, "Quantum sensing": 0.7808190584182739, "Quantum control": 0.7457303404808044 } }, { "id": 3071, "title": "State-Quantum-Chemistry Set in a Photonic Framework", "abstract": "The photonic scheme provides an abstract perspective to describing chemical and physical processes; it is well adapted for biologically sustained processes too. The scheme is used to help analyze semi...", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3077, "doi": "10.1016/bs.aiq.2016.07.001", "umap_coordinates": { "x": 394.3590393066406, "y": 136.5621337890625, "z": 206.1562042236328 }, "tsne_coordinates": { "x": -11.438706398010254, "y": 6.599973678588867, "z": -10.500972747802734 }, "pca_coordinates": { "x": -0.19809603691101074, "y": -0.7431087493896484, "z": -0.1169615387916565 }, "axis_scores": { "Quantum imaging": 0.7799994945526123, "Quantum Life Science Sensing": 0.7726578116416931, "Quantum sensing Detection": 0.7788004279136658, "Quantum sensing Metrology": 0.7651148438453674, "Quantum sensing navigation": 0.7698403000831604, "Quantum sensing Position": 0.7615868449211121, "Quantum sensing Timing": 0.7299466133117676, "Quantum sensing": 0.7946920394897461, "Quantum control": 0.7672221064567566 } }, { "id": 3072, "title": "Zero-Dimensional and Highly Oxygenated Graphene Oxide for Multifunctional Poly(lactic acid) Bionanocomposites", "abstract": "The unique strengths of 2D graphene oxide nanosheets (GONSs) in polymer composites are thwarted by nanosheet agglomeration due to strong intersheet attractions. Here, we reveal that shrinking the plan...", "citations": 62, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3078, "doi": "10.1021/acssuschemeng.6b01524", "umap_coordinates": { "x": 392.79608154296875, "y": 134.09213256835938, "z": 204.13970947265625 }, "tsne_coordinates": { "x": 27.712711334228516, "y": 23.529563903808594, "z": -3.654550313949585 }, "pca_coordinates": { "x": -4.158218860626221, "y": -2.1661152839660645, "z": -1.3756059408187866 }, "axis_scores": { "Quantum imaging": 0.6772737503051758, "Quantum Life Science Sensing": 0.7151183485984802, "Quantum sensing Detection": 0.6595326662063599, "Quantum sensing Metrology": 0.6570401191711426, "Quantum sensing navigation": 0.669368326663971, "Quantum sensing Position": 0.6515951752662659, "Quantum sensing Timing": 0.6242787837982178, "Quantum sensing": 0.6766159534454346, "Quantum control": 0.6806113719940186 } }, { "id": 3073, "title": "Pharmaceuticals in STP effluents and their solar photodegradation in aquatic environment", "abstract": "The presence of pharmaceutical compounds in surface waters is an emerging environmental issue. Sewage treatment plants (STPs) are recognized as being the main point discharge sources of these substanc...", "citations": 1262, "author_count": 4, "categories": [ "Environmental Sciences & Ecology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3079, "doi": "10.1016/S0045-6535(02)00769-5", "umap_coordinates": { "x": 393.3701477050781, "y": 135.12103271484375, "z": 203.998779296875 }, "tsne_coordinates": { "x": 14.518922805786133, "y": 23.1920166015625, "z": 11.946599960327148 }, "pca_coordinates": { "x": -4.57232141494751, "y": -0.23741459846496582, "z": -0.7490282654762268 }, "axis_scores": { "Quantum imaging": 0.6615993976593018, "Quantum Life Science Sensing": 0.7158259153366089, "Quantum sensing Detection": 0.6713935732841492, "Quantum sensing Metrology": 0.6646419763565063, "Quantum sensing navigation": 0.6594746708869934, "Quantum sensing Position": 0.6658331155776978, "Quantum sensing Timing": 0.6467255353927612, "Quantum sensing": 0.6731116771697998, "Quantum control": 0.6326917409896851 } }, { "id": 3074, "title": "Collective Fluorescence Blinking in Linear J-Aggregates Assisted by Long-Distance Exciton Migration", "abstract": "Fluorescence blinking corresponding to collective quenching of up to 100 dye monomers is reported for individual J-aggregates of a perylene bisimide (PBI) dye. This implies an exciton diffusion length...", "citations": 139, "author_count": 7, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3080, "doi": "10.1021/nl9036559", "umap_coordinates": { "x": 392.58575439453125, "y": 135.89254760742188, "z": 206.1255340576172 }, "tsne_coordinates": { "x": 13.475516319274902, "y": -1.0017831325531006, "z": 15.90739631652832 }, "pca_coordinates": { "x": -0.5611065626144409, "y": -2.913252353668213, "z": -2.5218091011047363 }, "axis_scores": { "Quantum imaging": 0.6563078761100769, "Quantum Life Science Sensing": 0.6708856821060181, "Quantum sensing Detection": 0.6386404633522034, "Quantum sensing Metrology": 0.6225689649581909, "Quantum sensing navigation": 0.6592133641242981, "Quantum sensing Position": 0.6412385106086731, "Quantum sensing Timing": 0.6070152521133423, "Quantum sensing": 0.6536639928817749, "Quantum control": 0.6363369226455688 } }, { "id": 3075, "title": "Search for Dark Photons from Supersymmetric Hidden Valleys", "abstract": "We search for a new light gauge boson, a dark photon, with the D0 experiment. In the model we consider, supersymmetric partners are pair produced and cascade to the lightest neutralinos that can decay...", "citations": 35, "author_count": 501, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3081, "doi": "10.1103/PhysRevLett.103.081802", "umap_coordinates": { "x": 396.29656982421875, "y": 135.51837158203125, "z": 207.3948211669922 }, "tsne_coordinates": { "x": -40.06520462036133, "y": 0.34555375576019287, "z": -10.7100830078125 }, "pca_coordinates": { "x": 2.921464443206787, "y": 0.9410268068313599, "z": 1.4812681674957275 }, "axis_scores": { "Quantum imaging": 0.7111091017723083, "Quantum Life Science Sensing": 0.7140794396400452, "Quantum sensing Detection": 0.7096087336540222, "Quantum sensing Metrology": 0.6951950192451477, "Quantum sensing navigation": 0.726304829120636, "Quantum sensing Position": 0.6883633732795715, "Quantum sensing Timing": 0.687724232673645, "Quantum sensing": 0.7051131725311279, "Quantum control": 0.6575027108192444 } }, { "id": 3076, "title": "The influence of confining wall profile on quantum interference effects in etched Ga0.25In0.75As/InP billiards", "abstract": "We present measurements of the potential profile of etched GaInAs/InP billiards and show that their energy gradients are an order of magnitude steeper than those of surface-gated GaAs/AlGaAs billiards...", "citations": 4, "author_count": 11, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3082, "doi": "10.1016/j.spmi.2004.03.006", "umap_coordinates": { "x": 392.5966491699219, "y": 133.70481872558594, "z": 206.89163208007812 }, "tsne_coordinates": { "x": 31.460840225219727, "y": -5.782726287841797, "z": 11.368016242980957 }, "pca_coordinates": { "x": -0.579338550567627, "y": 0.3054203987121582, "z": 0.9346546530723572 }, "axis_scores": { "Quantum imaging": 0.7205315828323364, "Quantum Life Science Sensing": 0.6750568151473999, "Quantum sensing Detection": 0.6801966428756714, "Quantum sensing Metrology": 0.7043673992156982, "Quantum sensing navigation": 0.6965172290802002, "Quantum sensing Position": 0.7027392387390137, "Quantum sensing Timing": 0.6843305826187134, "Quantum sensing": 0.6989865303039551, "Quantum control": 0.6796349883079529 } }, { "id": 3077, "title": "Quantum phase transition and Coulomb blockade with one-dimensional SQUID arrays", "abstract": "We report on experiments with one-dimensional (1D) arrays of small-capacitance superconducting quantum interference devices (SQUIDs), where an external magnetic field can be used to tune in situ the J...", "citations": 6, "author_count": 3, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3083, "doi": null, "umap_coordinates": { "x": 391.8876647949219, "y": 139.25836181640625, "z": 208.9562530517578 }, "tsne_coordinates": { "x": -14.568126678466797, "y": 42.50216293334961, "z": -6.007389068603516 }, "pca_coordinates": { "x": 2.507549285888672, "y": 0.49774885177612305, "z": -1.286629319190979 }, "axis_scores": { "Quantum imaging": 0.7544221878051758, "Quantum Life Science Sensing": 0.7653244137763977, "Quantum sensing Detection": 0.7559956312179565, "Quantum sensing Metrology": 0.751363217830658, "Quantum sensing navigation": 0.768150806427002, "Quantum sensing Position": 0.71988844871521, "Quantum sensing Timing": 0.7157896161079407, "Quantum sensing": 0.7610156536102295, "Quantum control": 0.7487590312957764 } }, { "id": 3078, "title": "On the diffusion of NV defects in diamond", "abstract": "Besides their importance for quantum information processing, NV defects are crucial agents for the diffusion and aggregation of nitrogen in diamond. In the absence of transition metals, it is thought ...", "citations": 41, "author_count": 7, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3084, "doi": "10.1002/pssa.201200050", "umap_coordinates": { "x": 392.4906921386719, "y": 134.96092224121094, "z": 206.9281768798828 }, "tsne_coordinates": { "x": 27.063142776489258, "y": -7.472675800323486, "z": 11.256790161132812 }, "pca_coordinates": { "x": -0.4805670976638794, "y": -0.5495965480804443, "z": -0.9786869287490845 }, "axis_scores": { "Quantum imaging": 0.7147306799888611, "Quantum Life Science Sensing": 0.7289796471595764, "Quantum sensing Detection": 0.7167301177978516, "Quantum sensing Metrology": 0.6824957132339478, "Quantum sensing navigation": 0.7431905269622803, "Quantum sensing Position": 0.7203636169433594, "Quantum sensing Timing": 0.6995094418525696, "Quantum sensing": 0.721639096736908, "Quantum control": 0.7115375399589539 } }, { "id": 3079, "title": "Strong rejuvenation in a chiral-glass superconductor -: art. no. 052505", "abstract": "The glassy paramagnetic Meissner phase of a Bi2Sr2CaCu2Ox superconductor (x=8.18) is investigated by superconducting quantum interference device magnetometry, using dc-memory experiments employed earl...", "citations": 24, "author_count": 5, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3085, "doi": "10.1103/PhysRevB.67.052505", "umap_coordinates": { "x": 393.83404541015625, "y": 136.72921752929688, "z": 208.57366943359375 }, "tsne_coordinates": { "x": -4.611476898193359, "y": -43.78921890258789, "z": 8.64710807800293 }, "pca_coordinates": { "x": 3.260112762451172, "y": 0.02088308334350586, "z": -1.1423691511154175 }, "axis_scores": { "Quantum imaging": 0.6847409009933472, "Quantum Life Science Sensing": 0.6897251009941101, "Quantum sensing Detection": 0.6833627223968506, "Quantum sensing Metrology": 0.6608115434646606, "Quantum sensing navigation": 0.6771612167358398, "Quantum sensing Position": 0.6458152532577515, "Quantum sensing Timing": 0.6693532466888428, "Quantum sensing": 0.693498432636261, "Quantum control": 0.6832366585731506 } }, { "id": 3080, "title": "Exact solution for a hydrogen atom in a magnetic field of arbitrary strength", "abstract": "An exact solution describing the quantum states of a hydrogen atom in a homogeneous magnetic field of arbitrary strength is obtained in the form of a power series in the radial variable with coefficie...", "citations": 146, "author_count": 4, "categories": [ "Optics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3086, "doi": "10.1103/PhysRevA.54.287", "umap_coordinates": { "x": 394.1214599609375, "y": 136.8563690185547, "z": 208.8308868408203 }, "tsne_coordinates": { "x": 1.521748423576355, "y": -38.23996353149414, "z": 17.348520278930664 }, "pca_coordinates": { "x": 4.785428524017334, "y": 1.3966121673583984, "z": -2.674556255340576 }, "axis_scores": { "Quantum imaging": 0.7127128839492798, "Quantum Life Science Sensing": 0.7282606363296509, "Quantum sensing Detection": 0.6984608769416809, "Quantum sensing Metrology": 0.7038537859916687, "Quantum sensing navigation": 0.7157110571861267, "Quantum sensing Position": 0.6953791975975037, "Quantum sensing Timing": 0.6720278263092041, "Quantum sensing": 0.7178491950035095, "Quantum control": 0.6998223066329956 } }, { "id": 3081, "title": "Astronomical applications of quantum optics for extremely large telescopes", "abstract": "A programme has been started to investigate photon properties that are not currently exploited in astronomical instruments, namely second- and higher-order coherence functions encoded in their arrival...", "citations": 20, "author_count": 12, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3087, "doi": "10.1080/09500340600742270", "umap_coordinates": { "x": 395.130859375, "y": 135.17947387695312, "z": 205.55897521972656 }, "tsne_coordinates": { "x": -22.71013069152832, "y": 22.349464416503906, "z": -3.344670057296753 }, "pca_coordinates": { "x": -1.265160322189331, "y": 1.3576483726501465, "z": 1.449404239654541 }, "axis_scores": { "Quantum imaging": 0.7458325624465942, "Quantum Life Science Sensing": 0.7705447673797607, "Quantum sensing Detection": 0.7337610721588135, "Quantum sensing Metrology": 0.7329232096672058, "Quantum sensing navigation": 0.7275798916816711, "Quantum sensing Position": 0.7161306738853455, "Quantum sensing Timing": 0.7153457403182983, "Quantum sensing": 0.7486087679862976, "Quantum control": 0.6948094964027405 } }, { "id": 3082, "title": "All-digital window discriminator for photon counting pixel detectors", "abstract": "An all-digital window discriminator is presented. It is event-driven and does not rely on any external or internal timing; references. In addition, it provides an area-efficient implementation of phot...", "citations": 2, "author_count": 4, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3088, "doi": "10.1049/el:20010265", "umap_coordinates": { "x": 395.343505859375, "y": 133.26123046875, "z": 206.18666076660156 }, "tsne_coordinates": { "x": -24.031713485717773, "y": 22.576725006103516, "z": -20.782459259033203 }, "pca_coordinates": { "x": -2.6197218894958496, "y": 0.4107184410095215, "z": 3.9729886054992676 }, "axis_scores": { "Quantum imaging": 0.7131117582321167, "Quantum Life Science Sensing": 0.7062229514122009, "Quantum sensing Detection": 0.7117806077003479, "Quantum sensing Metrology": 0.6832568049430847, "Quantum sensing navigation": 0.681942343711853, "Quantum sensing Position": 0.6754106283187866, "Quantum sensing Timing": 0.7090399861335754, "Quantum sensing": 0.7074357867240906, "Quantum control": 0.6545391082763672 } }, { "id": 3083, "title": "Hybrid Spider Silk with Inorganic Nanomaterials", "abstract": "High-performance functional biomaterials are becoming increasingly requested. Numerous natural and artificial polymers have already demonstrated their ability to serve as a basis for bio-composites. S...", "citations": 14, "author_count": 8, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3089, "doi": "10.3390/nano10091853", "umap_coordinates": { "x": 392.9116516113281, "y": 134.0516357421875, "z": 204.71202087402344 }, "tsne_coordinates": { "x": 30.044559478759766, "y": 16.841642379760742, "z": -9.967033386230469 }, "pca_coordinates": { "x": -2.2104809284210205, "y": -2.6132864952087402, "z": 0.11278092861175537 }, "axis_scores": { "Quantum imaging": 0.7086414694786072, "Quantum Life Science Sensing": 0.7380723357200623, "Quantum sensing Detection": 0.6938823461532593, "Quantum sensing Metrology": 0.6920323371887207, "Quantum sensing navigation": 0.6981126666069031, "Quantum sensing Position": 0.6513273119926453, "Quantum sensing Timing": 0.6350552439689636, "Quantum sensing": 0.715828537940979, "Quantum control": 0.6659570932388306 } }, { "id": 3084, "title": "Tentacle-type Zwitterionic stationary phase, prepared by surface-initiated graft polymerization of 3-[N,N-dimethyl-N-(methacryloyloxyethyl)-ammonium] propanesulfonate through peroxide groups tethered on porous silica", "abstract": "A novel stationary phase with tentacle-type zwitterionic interaction layer was synthesized by free radical graft polymerization of 3-[N,N-dimethyl-N-(methactyloyloxyethyl)ammonium]propanesulfonate (SP...", "citations": 106, "author_count": 3, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3090, "doi": "10.1021/ac020293+", "umap_coordinates": { "x": 393.0693664550781, "y": 135.133544921875, "z": 204.11782836914062 }, "tsne_coordinates": { "x": 27.308820724487305, "y": 29.540210723876953, "z": -10.033302307128906 }, "pca_coordinates": { "x": -3.090944528579712, "y": 0.598099946975708, "z": -1.0112483501434326 }, "axis_scores": { "Quantum imaging": 0.638654351234436, "Quantum Life Science Sensing": 0.6716033816337585, "Quantum sensing Detection": 0.6381046175956726, "Quantum sensing Metrology": 0.6366803646087646, "Quantum sensing navigation": 0.6532847285270691, "Quantum sensing Position": 0.6487382650375366, "Quantum sensing Timing": 0.6297709941864014, "Quantum sensing": 0.6529561877250671, "Quantum control": 0.6577975153923035 } }, { "id": 3085, "title": "Intrinsic Superchirality in Planar Plasmonic Metasurfaces", "abstract": "Plasmonic metasurfaces with spatial symmetry breaking are crucial materials with significant applications in fields such as polarization-controlled photonic devices and nanophotonic platforms for chir...", "citations": 15, "author_count": 12, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3091, "doi": "10.1021/acs.nanolett.4c02530", "umap_coordinates": { "x": 392.6937255859375, "y": 134.2060089111328, "z": 206.4803466796875 }, "tsne_coordinates": { "x": 11.384683609008789, "y": -14.028379440307617, "z": -9.287934303283691 }, "pca_coordinates": { "x": -0.5073559880256653, "y": -2.2524237632751465, "z": -0.7740330696105957 }, "axis_scores": { "Quantum imaging": 0.7219571471214294, "Quantum Life Science Sensing": 0.7115037441253662, "Quantum sensing Detection": 0.6953570246696472, "Quantum sensing Metrology": 0.7021450996398926, "Quantum sensing navigation": 0.6927156448364258, "Quantum sensing Position": 0.6898651123046875, "Quantum sensing Timing": 0.6745870113372803, "Quantum sensing": 0.7143754959106445, "Quantum control": 0.6772668361663818 } }, { "id": 3086, "title": "Unifying geometric entanglement and geometric phase in a quantum phase transition", "abstract": "Geometric measure of entanglement and geometric phase have recently been used to analyze quantum phase transition in the XY spin chain. We unify these two approaches by showing that the geometric enta...", "citations": 10, "author_count": 4, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3092, "doi": "10.1103/PhysRevA.88.012310", "umap_coordinates": { "x": 395.289306640625, "y": 137.44375610351562, "z": 207.66082763671875 }, "tsne_coordinates": { "x": -31.396533966064453, "y": -7.026682376861572, "z": 9.835321426391602 }, "pca_coordinates": { "x": 4.984822750091553, "y": 3.0081043243408203, "z": 0.12331140041351318 }, "axis_scores": { "Quantum imaging": 0.7570922374725342, "Quantum Life Science Sensing": 0.7248923778533936, "Quantum sensing Detection": 0.7438281178474426, "Quantum sensing Metrology": 0.7545880079269409, "Quantum sensing navigation": 0.7651589512825012, "Quantum sensing Position": 0.7256307601928711, "Quantum sensing Timing": 0.7410499453544617, "Quantum sensing": 0.7573474049568176, "Quantum control": 0.7378035187721252 } }, { "id": 3087, "title": "Nanostructured Solar Cells", "abstract": "We are glad to announce the Special Issue Nanostructured Solar Cells, published in Nanomaterials. This issue consists of eight articles, two communications, and one review paper, covering major import...", "citations": 11, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3093, "doi": "10.3390/nano6080145", "umap_coordinates": { "x": 393.16748046875, "y": 133.8873748779297, "z": 205.26768493652344 }, "tsne_coordinates": { "x": 31.759199142456055, "y": 16.613128662109375, "z": -11.070599555969238 }, "pca_coordinates": { "x": -2.0920042991638184, "y": -3.065992832183838, "z": -1.5813814401626587 }, "axis_scores": { "Quantum imaging": 0.7216113805770874, "Quantum Life Science Sensing": 0.7991896867752075, "Quantum sensing Detection": 0.7401012182235718, "Quantum sensing Metrology": 0.7365447282791138, "Quantum sensing navigation": 0.7396234273910522, "Quantum sensing Position": 0.6989650726318359, "Quantum sensing Timing": 0.6719791293144226, "Quantum sensing": 0.7589030265808105, "Quantum control": 0.7223174571990967 } }, { "id": 3088, "title": "On the structure of the body of states with positive partial transpose", "abstract": "We show that the convex set of separable mixed states of the 2 x 2 system is a body of a constant height. This fact is used to prove that the probability of finding a random state to be separable equa...", "citations": 26, "author_count": 4, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3094, "doi": "10.1088/0305-4470/39/5/L02", "umap_coordinates": { "x": 394.87359619140625, "y": 137.5276336669922, "z": 206.68313598632812 }, "tsne_coordinates": { "x": -21.7164306640625, "y": -5.4456071853637695, "z": 17.68587303161621 }, "pca_coordinates": { "x": 2.8247580528259277, "y": 3.633662223815918, "z": -0.49594739079475403 }, "axis_scores": { "Quantum imaging": 0.6925288438796997, "Quantum Life Science Sensing": 0.6916437745094299, "Quantum sensing Detection": 0.6817019581794739, "Quantum sensing Metrology": 0.6866443157196045, "Quantum sensing navigation": 0.7123259902000427, "Quantum sensing Position": 0.7219898104667664, "Quantum sensing Timing": 0.6750340461730957, "Quantum sensing": 0.6925305724143982, "Quantum control": 0.6919333338737488 } }, { "id": 3089, "title": "OBSERVATION OF SCALING BEHAVIOR IN THE LIQUID-GLASS TRANSITION RANGE FROM DYNAMIC LIGHT-SCATTERING IN POLY(PROPYLENE GLYCOL)", "abstract": "We have performed wide-time-range photon correlation spectroscopy (PCS) on poly(propylene glycol) to probe the dynamics in the glass transition range. In addition to the primary (alpha) relaxation whi...", "citations": 45, "author_count": 5, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 3095, "doi": "10.1103/PhysRevLett.68.3587", "umap_coordinates": { "x": 394.174072265625, "y": 136.25375366210938, "z": 206.2702178955078 }, "tsne_coordinates": { "x": -7.195210933685303, "y": -3.741058349609375, "z": 31.826969146728516 }, "pca_coordinates": { "x": 2.747577667236328, "y": 1.0806902647018433, "z": 0.144162118434906 }, "axis_scores": { "Quantum imaging": 0.683612048625946, "Quantum Life Science Sensing": 0.7332048416137695, "Quantum sensing Detection": 0.6976751089096069, "Quantum sensing Metrology": 0.6727461814880371, "Quantum sensing navigation": 0.6901321411132812, "Quantum sensing Position": 0.6775239109992981, "Quantum sensing Timing": 0.6622945070266724, "Quantum sensing": 0.6991786956787109, "Quantum control": 0.6769711971282959 } }, { "id": 3090, "title": "Quantum-size effects in photoemission from ultra-thin films: Theory and application to Cu-films on fcc-Co(001)", "abstract": "We report on detailed calculations of quantum-size effects on the electronic structure of the valence-band regime and their manifestation in photoemission. Model calculations reveal the basic features...", "citations": 10, "author_count": 3, "categories": [ "Spectroscopy" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3096, "doi": "10.1016/S0368-2048(99)00034-1", "umap_coordinates": { "x": 392.5561828613281, "y": 134.33628845214844, "z": 206.51210021972656 }, "tsne_coordinates": { "x": 32.244693756103516, "y": -6.004706382751465, "z": -2.951244354248047 }, "pca_coordinates": { "x": -0.3752509355545044, "y": -1.5327329635620117, "z": -0.036059677600860596 }, "axis_scores": { "Quantum imaging": 0.7191962599754333, "Quantum Life Science Sensing": 0.7196657061576843, "Quantum sensing Detection": 0.7074166536331177, "Quantum sensing Metrology": 0.6948251724243164, "Quantum sensing navigation": 0.6755356192588806, "Quantum sensing Position": 0.6989050507545471, "Quantum sensing Timing": 0.6910099387168884, "Quantum sensing": 0.7223501801490784, "Quantum control": 0.6858734488487244 } }, { "id": 3091, "title": "Functionality of epidermal melanin pigments: current knowledge on UV-dissipative mechanisms and research perspectives", "abstract": "So far it is not known whether epidermal melanins are solely photoprotective or also phototoxic. Also largely unknown are underlying UV-induced mechanisms and impact of the chemical structure. This pe...", "citations": 94, "author_count": 4, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3097, "doi": "10.1039/c1cp20131j", "umap_coordinates": { "x": 393.33782958984375, "y": 136.06393432617188, "z": 204.5187225341797 }, "tsne_coordinates": { "x": 1.8462302684783936, "y": 7.266428470611572, "z": -2.8654725551605225 }, "pca_coordinates": { "x": -2.435041904449463, "y": 0.532660961151123, "z": -2.286620855331421 }, "axis_scores": { "Quantum imaging": 0.675579845905304, "Quantum Life Science Sensing": 0.7363510131835938, "Quantum sensing Detection": 0.6791374683380127, "Quantum sensing Metrology": 0.6666607856750488, "Quantum sensing navigation": 0.6693885326385498, "Quantum sensing Position": 0.6536833643913269, "Quantum sensing Timing": 0.6155749559402466, "Quantum sensing": 0.6889768242835999, "Quantum control": 0.6658503413200378 } }, { "id": 3092, "title": "THERMODYNAMIC LIMIT OF DENSITY-MATRIX RENORMALIZATION", "abstract": "The density matrix renormalization group discovered by White is investigated. In the case where renormalization eventually converges to a fixed point we show that quantum states in the thermodynamic l...", "citations": 947, "author_count": 3, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3098, "doi": "10.1103/PhysRevLett.75.3537", "umap_coordinates": { "x": 394.6430358886719, "y": 137.04026794433594, "z": 208.04373168945312 }, "tsne_coordinates": { "x": -13.311666488647461, "y": -34.3491096496582, "z": 1.6949485540390015 }, "pca_coordinates": { "x": 4.7516584396362305, "y": 1.259918212890625, "z": -1.7841086387634277 }, "axis_scores": { "Quantum imaging": 0.7004430294036865, "Quantum Life Science Sensing": 0.7308454513549805, "Quantum sensing Detection": 0.7136381268501282, "Quantum sensing Metrology": 0.7103903889656067, "Quantum sensing navigation": 0.7222862243652344, "Quantum sensing Position": 0.7092202305793762, "Quantum sensing Timing": 0.6634954810142517, "Quantum sensing": 0.7149720788002014, "Quantum control": 0.7107047438621521 } }, { "id": 3093, "title": "Chemical control of excited-state reactivity of the anionic green fluorescent protein chromophore", "abstract": "Controlling excited-state reactivity is a long-standing challenge in photochemistry, as a desired pathway may be inaccessible or compete with other unwanted channels. An important example is internal ...", "citations": 14, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3099, "doi": "10.1038/s42004-024-01099-1", "umap_coordinates": { "x": 392.8570861816406, "y": 135.61050415039062, "z": 204.96315002441406 }, "tsne_coordinates": { "x": 9.204872131347656, "y": -4.147138595581055, "z": -8.70779037475586 }, "pca_coordinates": { "x": -2.863652467727661, "y": -1.9229602813720703, "z": -2.7882537841796875 }, "axis_scores": { "Quantum imaging": 0.7177688479423523, "Quantum Life Science Sensing": 0.7315433025360107, "Quantum sensing Detection": 0.7191055417060852, "Quantum sensing Metrology": 0.6839256286621094, "Quantum sensing navigation": 0.7116456627845764, "Quantum sensing Position": 0.7022972702980042, "Quantum sensing Timing": 0.6888695359230042, "Quantum sensing": 0.7285829782485962, "Quantum control": 0.7393031120300293 } }, { "id": 3094, "title": "Bioelectric and Morphological Response of Liquid-Covered Human Airway Epithelial Calu-3 Cell Monolayer to Periodic Deposition of Colloidal 3-Mercaptopropionic-Acid Coated CdSe-CdS/ZnS Core-Multishell Quantum Dots", "abstract": "Lung epithelial cells are extensively exposed to nanoparticles present in the modern urban environment. Nanoparticles, including colloidal quantum dots (QDs), are also considered to be potentially use...", "citations": 5, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3100, "doi": "10.1371/journal.pone.0149915", "umap_coordinates": { "x": 394.45831298828125, "y": 134.88662719726562, "z": 204.6405792236328 }, "tsne_coordinates": { "x": 12.655508995056152, "y": 27.39884376525879, "z": -1.6492815017700195 }, "pca_coordinates": { "x": -2.6749863624572754, "y": -0.9868974685668945, "z": -1.0184565782546997 }, "axis_scores": { "Quantum imaging": 0.6834640502929688, "Quantum Life Science Sensing": 0.7319237589836121, "Quantum sensing Detection": 0.682837963104248, "Quantum sensing Metrology": 0.6954047083854675, "Quantum sensing navigation": 0.6709876656532288, "Quantum sensing Position": 0.6744256019592285, "Quantum sensing Timing": 0.6609490513801575, "Quantum sensing": 0.7001800537109375, "Quantum control": 0.6900479793548584 } }, { "id": 3095, "title": "Novel flow cytometry technique for detection of Plasmodium falciparum specific B-cells in humans: increased levels of specific B-cells in ongoing infection", "abstract": "Background: Malaria caused by Plasmodium falciparum is still a major health threat in endemic areas especially for children below 5 years of age. While it is recognized that antibody immunity plays an...", "citations": 9, "author_count": 7, "categories": [ "Infectious Diseases" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3101, "doi": "10.1186/s12936-015-0911-0", "umap_coordinates": { "x": 394.2587585449219, "y": 134.8272247314453, "z": 204.0799102783203 }, "tsne_coordinates": { "x": 18.101341247558594, "y": 28.236963272094727, "z": -7.3504252433776855 }, "pca_coordinates": { "x": -2.737447738647461, "y": 2.4447035789489746, "z": -0.8674232959747314 }, "axis_scores": { "Quantum imaging": 0.6813898086547852, "Quantum Life Science Sensing": 0.70269775390625, "Quantum sensing Detection": 0.6679506897926331, "Quantum sensing Metrology": 0.6560139060020447, "Quantum sensing navigation": 0.655544638633728, "Quantum sensing Position": 0.6455703973770142, "Quantum sensing Timing": 0.6471250057220459, "Quantum sensing": 0.6652251482009888, "Quantum control": 0.6585111021995544 } }, { "id": 3096, "title": "Simulation of quantum algorithms on a symbolic computer", "abstract": "This paper is a presentation of how to implement quantum algorithms (namely, Shot's algorithm) on a classical computer by using the well-known Mathematica package. It will give us a lucid connection b...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3102, "doi": null, "umap_coordinates": { "x": 392.18060302734375, "y": 139.1142578125, "z": 209.0938720703125 }, "tsne_coordinates": { "x": -17.04157257080078, "y": 43.15357971191406, "z": 0.06497453153133392 }, "pca_coordinates": { "x": 3.1927714347839355, "y": 4.549483299255371, "z": -0.38808703422546387 }, "axis_scores": { "Quantum imaging": 0.7601645588874817, "Quantum Life Science Sensing": 0.7296295166015625, "Quantum sensing Detection": 0.7621933221817017, "Quantum sensing Metrology": 0.73157799243927, "Quantum sensing navigation": 0.7684359550476074, "Quantum sensing Position": 0.7255845665931702, "Quantum sensing Timing": 0.7475941777229309, "Quantum sensing": 0.766716718673706, "Quantum control": 0.7555819153785706 } }, { "id": 3097, "title": "Non-Abelian Phases from the Condensation of Abelian Anyons", "abstract": "The observed fractional quantum Hall (FQH) plateaus follow a recurring hierarchical structure that allows an understanding of complex states based on simpler ones. Condensing the elementary quasiparti...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3103, "doi": "10.1103/3yvl-4hws", "umap_coordinates": { "x": 394.7558898925781, "y": 137.43833923339844, "z": 208.3440704345703 }, "tsne_coordinates": { "x": -20.121906280517578, "y": -26.397201538085938, "z": 14.72909927368164 }, "pca_coordinates": { "x": 3.6111221313476562, "y": 1.421050786972046, "z": -2.0530917644500732 }, "axis_scores": { "Quantum imaging": 0.6620097160339355, "Quantum Life Science Sensing": 0.6618445515632629, "Quantum sensing Detection": 0.643691897392273, "Quantum sensing Metrology": 0.6250636577606201, "Quantum sensing navigation": 0.6580208539962769, "Quantum sensing Position": 0.6046096682548523, "Quantum sensing Timing": 0.63011634349823, "Quantum sensing": 0.6538659334182739, "Quantum control": 0.6648751497268677 } }, { "id": 3098, "title": "Effect of electron-phonon interaction on the formation of one-dimensional electronic states in coupled Cl vacancies", "abstract": "The formation of extended electron states in one-dimensional nanostructures is of key importance for the function of molecular electronic devices. Here, we study the effects of strong electron-phonon ...", "citations": 14, "author_count": 8, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3104, "doi": "10.1103/PhysRevB.91.235443", "umap_coordinates": { "x": 394.4458312988281, "y": 135.0985107421875, "z": 208.9076690673828 }, "tsne_coordinates": { "x": -6.617108345031738, "y": -41.25080871582031, "z": -2.694037437438965 }, "pca_coordinates": { "x": 3.9005255699157715, "y": -1.5289342403411865, "z": -0.16124677658081055 }, "axis_scores": { "Quantum imaging": 0.6950595378875732, "Quantum Life Science Sensing": 0.7186272144317627, "Quantum sensing Detection": 0.7130041122436523, "Quantum sensing Metrology": 0.6993601322174072, "Quantum sensing navigation": 0.6984410285949707, "Quantum sensing Position": 0.6838976740837097, "Quantum sensing Timing": 0.6644324064254761, "Quantum sensing": 0.7114453911781311, "Quantum control": 0.6992594599723816 } }, { "id": 3099, "title": "Optimum growth conditions and light utilization efficiency of Spirulina platensis (equals Arthrospira fusiformis) (Cyanophyta) from Lake Chitu, Ethiopia", "abstract": "Spirulina platensis (= Arthrospira fusiformis) was isolated from Lake Chitu, a saline, alkaline lake in Ethiopia, where it forms an almost unialgal population. Optimum growth conditions were studied i...", "citations": 95, "author_count": 3, "categories": [ "Marine & Freshwater Biology" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3105, "doi": "10.1007/BF00016689", "umap_coordinates": { "x": 393.8547668457031, "y": 135.93426513671875, "z": 203.58645629882812 }, "tsne_coordinates": { "x": 17.40303611755371, "y": 27.53554344177246, "z": 10.809247016906738 }, "pca_coordinates": { "x": -4.109516143798828, "y": 1.6694588661193848, "z": -0.9330856800079346 }, "axis_scores": { "Quantum imaging": 0.677067756652832, "Quantum Life Science Sensing": 0.7058190107345581, "Quantum sensing Detection": 0.6667593717575073, "Quantum sensing Metrology": 0.6687715649604797, "Quantum sensing navigation": 0.6689063310623169, "Quantum sensing Position": 0.6699663996696472, "Quantum sensing Timing": 0.6490806937217712, "Quantum sensing": 0.681652843952179, "Quantum control": 0.6585208177566528 } }, { "id": 3100, "title": "Conformational Effects on the Circular Dichroism of Human Carbonic Anhydrase II: A Multilevel Computational Study", "abstract": "Circular Dichroism (CD) spectroscopy is a powerful method for investigating conformational changes in proteins and therefore has numerous applications in structural and molecular biology. Here a compu...", "citations": 18, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3106, "doi": "10.1371/journal.pone.0056874", "umap_coordinates": { "x": 393.43115234375, "y": 136.55538940429688, "z": 205.2334747314453 }, "tsne_coordinates": { "x": 4.88412618637085, "y": 21.077098846435547, "z": 23.067907333374023 }, "pca_coordinates": { "x": -1.0129730701446533, "y": 2.2599403858184814, "z": -4.0577826499938965 }, "axis_scores": { "Quantum imaging": 0.7305002808570862, "Quantum Life Science Sensing": 0.7126762866973877, "Quantum sensing Detection": 0.6877335906028748, "Quantum sensing Metrology": 0.6867288947105408, "Quantum sensing navigation": 0.6946960687637329, "Quantum sensing Position": 0.6765081882476807, "Quantum sensing Timing": 0.6836974620819092, "Quantum sensing": 0.7132353186607361, "Quantum control": 0.7243773937225342 } }, { "id": 3101, "title": "H2 adsorbed in a two-dimensional quantum rotor state on a stepped copper surface", "abstract": "We have, in total-energy calculations and electron-energy-loss measurements, identified a molecular adsorption state of hydrogen residing above a step atom on a stepped copper surface. Rotational and ...", "citations": 35, "author_count": 7, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3107, "doi": "10.1103/PhysRevB.61.16921", "umap_coordinates": { "x": 394.4626159667969, "y": 135.9815673828125, "z": 209.12588500976562 }, "tsne_coordinates": { "x": -13.21708869934082, "y": -44.23982238769531, "z": 3.0044362545013428 }, "pca_coordinates": { "x": 4.6398749351501465, "y": -1.183863639831543, "z": -1.6657177209854126 }, "axis_scores": { "Quantum imaging": 0.6939902305603027, "Quantum Life Science Sensing": 0.7266271114349365, "Quantum sensing Detection": 0.7161962985992432, "Quantum sensing Metrology": 0.700603723526001, "Quantum sensing navigation": 0.7178583145141602, "Quantum sensing Position": 0.7103894352912903, "Quantum sensing Timing": 0.6748190522193909, "Quantum sensing": 0.7293974757194519, "Quantum control": 0.7114212512969971 } }, { "id": 3102, "title": "Photoelectrochemical studies of dye-sensitized polycrystalline titanium oxide thin films prepared by sputtering", "abstract": "Titanium oxide thin films were prepared by reactive DC magnetron sputtering of Ti in O-2 + Ar onto SnO2:F coated glass. A dye consisting of Cis-dithiocyanato-N-bis(2,2'-bipyridyl-4,4'-dicarboxylic aci...", "citations": 47, "author_count": 5, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3108, "doi": "10.1016/S0040-6090(98)01482-5", "umap_coordinates": { "x": 393.07110595703125, "y": 135.1000518798828, "z": 205.63511657714844 }, "tsne_coordinates": { "x": 18.04891586303711, "y": 12.518133163452148, "z": 3.1791257858276367 }, "pca_coordinates": { "x": -3.686663866043091, "y": -2.812112331390381, "z": -0.3028823733329773 }, "axis_scores": { "Quantum imaging": 0.6858901977539062, "Quantum Life Science Sensing": 0.7302393913269043, "Quantum sensing Detection": 0.6748636960983276, "Quantum sensing Metrology": 0.6643662452697754, "Quantum sensing navigation": 0.6564164161682129, "Quantum sensing Position": 0.6749882698059082, "Quantum sensing Timing": 0.6607016324996948, "Quantum sensing": 0.6933600902557373, "Quantum control": 0.650967001914978 } }, { "id": 3103, "title": "Simulating ultrastrong-coupling processes breaking parity conservation in Jaynes-Cummings systems", "abstract": "We propose the effective simulation of light-matter ultrastrong-coupling phenomena with strong-coupling systems. Recent theory and experiments have shown that the quantum Rabi Hamiltonian can be simul...", "citations": 24, "author_count": 5, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3109, "doi": "10.1103/PhysRevA.102.033716", "umap_coordinates": { "x": 393.9471435546875, "y": 137.15554809570312, "z": 207.0204620361328 }, "tsne_coordinates": { "x": -8.490983009338379, "y": -12.559708595275879, "z": 5.743535995483398 }, "pca_coordinates": { "x": 4.478041172027588, "y": 1.2405767440795898, "z": -0.9331014156341553 }, "axis_scores": { "Quantum imaging": 0.6866496801376343, "Quantum Life Science Sensing": 0.71380615234375, "Quantum sensing Detection": 0.6975016593933105, "Quantum sensing Metrology": 0.6736114621162415, "Quantum sensing navigation": 0.7050237059593201, "Quantum sensing Position": 0.6665648221969604, "Quantum sensing Timing": 0.7055349349975586, "Quantum sensing": 0.7006183862686157, "Quantum control": 0.6962890625 } }, { "id": 3104, "title": "Measurement of the isolated photon cross section in p(p)over-bar collisions at √s = 1.96 TeV (vol 639, pg 151, 2006)", "abstract": "", "citations": 24, "author_count": 579, "categories": [ "Astronomy & Astrophysics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3110, "doi": "10.1016/j.physletb.2007.06.047", "umap_coordinates": { "x": 396.79559326171875, "y": 134.36663818359375, "z": 207.6786346435547 }, "tsne_coordinates": { "x": -29.336217880249023, "y": 7.764886856079102, "z": -12.526893615722656 }, "pca_coordinates": { "x": -0.22114646434783936, "y": 0.27541351318359375, "z": 3.176929473876953 }, "axis_scores": { "Quantum imaging": 0.6943961977958679, "Quantum Life Science Sensing": 0.6933131217956543, "Quantum sensing Detection": 0.6994380950927734, "Quantum sensing Metrology": 0.671165943145752, "Quantum sensing navigation": 0.6666523218154907, "Quantum sensing Position": 0.6849402785301208, "Quantum sensing Timing": 0.6657449007034302, "Quantum sensing": 0.6972404718399048, "Quantum control": 0.6418864130973816 } }, { "id": 3105, "title": "Photon counting 3D imaging from multiple positions", "abstract": "Detecting and identifying objects inside a forest edge on the other side of an open field is an important task in defence and security applications. This can be difficult to achieve with passive imagi...", "citations": 4, "author_count": 8, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3111, "doi": "10.1117/12.2573445", "umap_coordinates": { "x": 395.2872009277344, "y": 133.18336486816406, "z": 206.26820373535156 }, "tsne_coordinates": { "x": -7.501577377319336, "y": 13.214227676391602, "z": -29.793563842773438 }, "pca_coordinates": { "x": -1.7225910425186157, "y": 1.359359622001648, "z": 4.993679523468018 }, "axis_scores": { "Quantum imaging": 0.7803980112075806, "Quantum Life Science Sensing": 0.7293067574501038, "Quantum sensing Detection": 0.759320855140686, "Quantum sensing Metrology": 0.7524144053459167, "Quantum sensing navigation": 0.7624960541725159, "Quantum sensing Position": 0.7693970203399658, "Quantum sensing Timing": 0.7468973398208618, "Quantum sensing": 0.761379599571228, "Quantum control": 0.7076916098594666 } }, { "id": 3106, "title": "Toward atomic resolution diffractive imaging of isolated molecules with X-ray free-electron lasers", "abstract": "We give a detailed account of the theoretical analysis and the experimental results of an X-ray-diffraction experiment on quantum-state selected and strongly laser-aligned gasphase ensembles of the pr...", "citations": 32, "author_count": 29, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3112, "doi": "10.1039/c4fd00028e", "umap_coordinates": { "x": 393.4962463378906, "y": 135.00584411621094, "z": 206.05084228515625 }, "tsne_coordinates": { "x": -17.514144897460938, "y": -24.155319213867188, "z": -24.377613067626953 }, "pca_coordinates": { "x": -1.3460532426834106, "y": -0.9029731750488281, "z": -1.0024771690368652 }, "axis_scores": { "Quantum imaging": 0.7082819938659668, "Quantum Life Science Sensing": 0.7015725374221802, "Quantum sensing Detection": 0.6728850603103638, "Quantum sensing Metrology": 0.6544225215911865, "Quantum sensing navigation": 0.6720350980758667, "Quantum sensing Position": 0.6555262804031372, "Quantum sensing Timing": 0.6058982610702515, "Quantum sensing": 0.6825692653656006, "Quantum control": 0.6558992862701416 } }, { "id": 3107, "title": "Influence of Ion Implantation on Magnetic, Structural and Optical Properties of (Ga,Mn)As Epitaxial Films", "abstract": "We performed implantation experiments; applying both the chemically active oxygen ions and inactive ions of neon noble gas, to thin epitaxial films of (Ga,Mn)As ferromagnetic semiconductor. Inspection...", "citations": 1, "author_count": 9, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3113, "doi": "10.12693/APhysPolA.114.1445", "umap_coordinates": { "x": 393.8441162109375, "y": 134.83448791503906, "z": 205.85296630859375 }, "tsne_coordinates": { "x": 4.1676554679870605, "y": -39.259979248046875, "z": 10.903714179992676 }, "pca_coordinates": { "x": -0.4117615818977356, "y": -0.23924946784973145, "z": -0.7317094802856445 }, "axis_scores": { "Quantum imaging": 0.6977275013923645, "Quantum Life Science Sensing": 0.6868378520011902, "Quantum sensing Detection": 0.6698124408721924, "Quantum sensing Metrology": 0.6792995929718018, "Quantum sensing navigation": 0.6863572597503662, "Quantum sensing Position": 0.6871530413627625, "Quantum sensing Timing": 0.6592180132865906, "Quantum sensing": 0.6938525438308716, "Quantum control": 0.666504442691803 } }, { "id": 3108, "title": "Photoluminescence dynamics of AlGaN quantum wells with built-in electric fields and localized states", "abstract": "We report on photoluminescence (PL) studies of AlGaN/AlGaN multiple quantum well (MQW) structures with well widths spanning from 1.65 to 5.0 nm under various excitations and temperatures. The samples ...", "citations": 12, "author_count": 8, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3114, "doi": "10.1002/pssa.200925227", "umap_coordinates": { "x": 392.62701416015625, "y": 135.088134765625, "z": 206.98423767089844 }, "tsne_coordinates": { "x": 23.39093780517578, "y": -6.459658622741699, "z": 13.917976379394531 }, "pca_coordinates": { "x": 0.27013683319091797, "y": -2.295362949371338, "z": -0.4107587933540344 }, "axis_scores": { "Quantum imaging": 0.7364342212677002, "Quantum Life Science Sensing": 0.7352175712585449, "Quantum sensing Detection": 0.7140005826950073, "Quantum sensing Metrology": 0.7055806517601013, "Quantum sensing navigation": 0.7321997880935669, "Quantum sensing Position": 0.7010865211486816, "Quantum sensing Timing": 0.6817175149917603, "Quantum sensing": 0.727418065071106, "Quantum control": 0.7181669473648071 } }, { "id": 3109, "title": "Performance characterization of a silicon strip detector for spectral computed tomography utilizing a laser testing system", "abstract": "A new silicon strip detector with sub-millimeter pixel size operated in single photon-counting mode has been developed for use in spectral computed tomography (CT). An ultra fast application specific ...", "citations": 7, "author_count": 6, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3115, "doi": "10.1117/12.872867", "umap_coordinates": { "x": 395.1016540527344, "y": 133.00074768066406, "z": 206.02928161621094 }, "tsne_coordinates": { "x": -12.411001205444336, "y": 20.450849533081055, "z": -20.76019287109375 }, "pca_coordinates": { "x": -2.7927191257476807, "y": 0.6363885402679443, "z": 4.668590545654297 }, "axis_scores": { "Quantum imaging": 0.7239761352539062, "Quantum Life Science Sensing": 0.7234377861022949, "Quantum sensing Detection": 0.7262657880783081, "Quantum sensing Metrology": 0.7279521822929382, "Quantum sensing navigation": 0.698459804058075, "Quantum sensing Position": 0.7039310932159424, "Quantum sensing Timing": 0.7010467648506165, "Quantum sensing": 0.7258472442626953, "Quantum control": 0.6611853241920471 } }, { "id": 3110, "title": "Coherent Dynamics in Solutions of Colloidal Plexcitonic Nanohybrids at Room Temperature", "abstract": "The increasing ability to prepare systems with nanoscale resolution and address their optical properties with ultrashort time precision is revealing quantum phenomena with tremendous potential in quan...", "citations": 19, "author_count": 4, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3116, "doi": "10.1002/adom.202203010", "umap_coordinates": { "x": 392.8206787109375, "y": 135.63467407226562, "z": 206.53407287597656 }, "tsne_coordinates": { "x": 14.892538070678711, "y": -2.9353935718536377, "z": 13.865689277648926 }, "pca_coordinates": { "x": 0.5633831024169922, "y": -1.49558424949646, "z": -2.1005678176879883 }, "axis_scores": { "Quantum imaging": 0.7245931625366211, "Quantum Life Science Sensing": 0.7243124842643738, "Quantum sensing Detection": 0.70867520570755, "Quantum sensing Metrology": 0.6927794218063354, "Quantum sensing navigation": 0.7192704081535339, "Quantum sensing Position": 0.7077909708023071, "Quantum sensing Timing": 0.6949145793914795, "Quantum sensing": 0.7131091952323914, "Quantum control": 0.7172052264213562 } }, { "id": 3111, "title": "Temperature dependence of band gaps and conformational disorder in PEDOT and its selenium and tellurium derivatives: Density functional calculations", "abstract": "The conducting polymer poly(3,4-ethylenedioxythiophene), or PEDOT, is an attractive material for flexible electronics. We present combined molecular dynamics and quantum chemical calculations, based o...", "citations": 5, "author_count": 5, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3117, "doi": "10.1063/1.4998509", "umap_coordinates": { "x": 392.7564392089844, "y": 134.75393676757812, "z": 206.88597106933594 }, "tsne_coordinates": { "x": 15.200068473815918, "y": -15.432985305786133, "z": 10.82535457611084 }, "pca_coordinates": { "x": 0.5534303188323975, "y": -2.2598085403442383, "z": -1.5393648147583008 }, "axis_scores": { "Quantum imaging": 0.7072136998176575, "Quantum Life Science Sensing": 0.7364556193351746, "Quantum sensing Detection": 0.7014212012290955, "Quantum sensing Metrology": 0.7197264432907104, "Quantum sensing navigation": 0.6984933018684387, "Quantum sensing Position": 0.7146910429000854, "Quantum sensing Timing": 0.7146260738372803, "Quantum sensing": 0.7170636653900146, "Quantum control": 0.684712827205658 } }, { "id": 3112, "title": "Anisotropic de Gennes Narrowing in Confined Fluids", "abstract": "The collective diffusion of dense fluids in spatial confinement is studied by combining high-energy (21 keV) x-ray photon correlation spectroscopy and small-angle x-ray scattering from colloid-filled ...", "citations": 31, "author_count": 7, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3118, "doi": "10.1103/PhysRevLett.116.167801", "umap_coordinates": { "x": 394.5685729980469, "y": 135.6908721923828, "z": 208.58740234375 }, "tsne_coordinates": { "x": -1.1074422597885132, "y": 0.2131040245294571, "z": 40.37373733520508 }, "pca_coordinates": { "x": 3.3072152137756348, "y": -0.2923436164855957, "z": 0.2181890606880188 }, "axis_scores": { "Quantum imaging": 0.7078474164009094, "Quantum Life Science Sensing": 0.6866586804389954, "Quantum sensing Detection": 0.6807848215103149, "Quantum sensing Metrology": 0.6747713685035706, "Quantum sensing navigation": 0.7334270477294922, "Quantum sensing Position": 0.6775307059288025, "Quantum sensing Timing": 0.6759231686592102, "Quantum sensing": 0.6986055374145508, "Quantum control": 0.6913556456565857 } }, { "id": 3113, "title": "Dynamical quantum phase transition of a two-component Bose-Einstein condensate in an optical lattice", "abstract": "We study the dynamics of a two-component Bose-Einstein condensate where the two components are coupled via an optical lattice. In particular, we focus on the dynamics as one drives the system through ...", "citations": 7, "author_count": 4, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3119, "doi": "10.1103/PhysRevA.81.013603", "umap_coordinates": { "x": 394.32904052734375, "y": 136.46214294433594, "z": 208.40855407714844 }, "tsne_coordinates": { "x": -16.423425674438477, "y": -22.194982528686523, "z": 17.434276580810547 }, "pca_coordinates": { "x": 4.846548080444336, "y": -0.6619253158569336, "z": -1.645914077758789 }, "axis_scores": { "Quantum imaging": 0.7412375807762146, "Quantum Life Science Sensing": 0.741151750087738, "Quantum sensing Detection": 0.7498733997344971, "Quantum sensing Metrology": 0.7259624004364014, "Quantum sensing navigation": 0.7477468252182007, "Quantum sensing Position": 0.72527015209198, "Quantum sensing Timing": 0.7263599634170532, "Quantum sensing": 0.7507656812667847, "Quantum control": 0.7396295070648193 } }, { "id": 3114, "title": "Metamorphic InGaAs telecom lasers on GaAs", "abstract": "We demonstrate GaAs-based metamorphic lasers in the 1.3-1.55 mu m telecom range grown by molecular beam epitaxy. The introduction of dopants in a compositionally graded layer is shown to significantly...", "citations": 2, "author_count": 7, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3120, "doi": "10.1117/12.808787", "umap_coordinates": { "x": 394.6216125488281, "y": 133.585693359375, "z": 206.57733154296875 }, "tsne_coordinates": { "x": -0.5128374695777893, "y": 4.485516548156738, "z": -27.2729549407959 }, "pca_coordinates": { "x": -0.14454317092895508, "y": -1.1049418449401855, "z": 1.784186840057373 }, "axis_scores": { "Quantum imaging": 0.7058563232421875, "Quantum Life Science Sensing": 0.7024894952774048, "Quantum sensing Detection": 0.7087617516517639, "Quantum sensing Metrology": 0.7163247466087341, "Quantum sensing navigation": 0.694305419921875, "Quantum sensing Position": 0.6864564418792725, "Quantum sensing Timing": 0.6884109377861023, "Quantum sensing": 0.7159324288368225, "Quantum control": 0.6723657250404358 } }, { "id": 3115, "title": "Autofluorescence insensitive imaging using upconverting nanocrystals in scattering media", "abstract": "Autofluorescence is a nuisance in the field of fluorescence imaging and tomography of exogenous molecular markers in tissue, degrading the quality of the collected data. In this letter, we report auto...", "citations": 90, "author_count": 11, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3121, "doi": "10.1063/1.3005588", "umap_coordinates": { "x": 393.33123779296875, "y": 133.4796905517578, "z": 207.35809326171875 }, "tsne_coordinates": { "x": 12.565814971923828, "y": 23.64177894592285, "z": -24.106735229492188 }, "pca_coordinates": { "x": -2.099414348602295, "y": -2.458509922027588, "z": 2.208409309387207 }, "axis_scores": { "Quantum imaging": 0.7405505180358887, "Quantum Life Science Sensing": 0.7366044521331787, "Quantum sensing Detection": 0.7329998016357422, "Quantum sensing Metrology": 0.7138446569442749, "Quantum sensing navigation": 0.6971224546432495, "Quantum sensing Position": 0.6610605716705322, "Quantum sensing Timing": 0.661443829536438, "Quantum sensing": 0.738638162612915, "Quantum control": 0.6903343200683594 } }, { "id": 3116, "title": "Unified model of fractal conductance fluctuations for diffusive and ballistic semiconductor devices", "abstract": "We present an experimental comparison of magnetoconductance fluctuations measured in the ballistic, quasiballistic, and diffusive scattering regimes of semiconductor devices. In contradiction to expec...", "citations": 33, "author_count": 19, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3122, "doi": "10.1103/PhysRevB.73.195318", "umap_coordinates": { "x": 394.2168884277344, "y": 136.44076538085938, "z": 208.9786834716797 }, "tsne_coordinates": { "x": -8.540207862854004, "y": -34.1659049987793, "z": 3.9995789527893066 }, "pca_coordinates": { "x": 3.8399925231933594, "y": -1.294912338256836, "z": 0.13296186923980713 }, "axis_scores": { "Quantum imaging": 0.7087950706481934, "Quantum Life Science Sensing": 0.7462719678878784, "Quantum sensing Detection": 0.7373132109642029, "Quantum sensing Metrology": 0.7263048887252808, "Quantum sensing navigation": 0.7466313242912292, "Quantum sensing Position": 0.692420482635498, "Quantum sensing Timing": 0.6857260465621948, "Quantum sensing": 0.7475969791412354, "Quantum control": 0.7269043326377869 } }, { "id": 3117, "title": "A perfect spin-filter quantum dot system", "abstract": "The discovery of a novel effect in the transport through a QD spin-dependently coupled to magnetic contacts is reported. For a finite range of source-drain voltages the spin projections of the current...", "citations": 4, "author_count": 4, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3123, "doi": "10.1088/0953-8984/16/16/L03", "umap_coordinates": { "x": 394.4395751953125, "y": 135.36917114257812, "z": 207.2510223388672 }, "tsne_coordinates": { "x": 0.31267231702804565, "y": -6.127937316894531, "z": 23.39924430847168 }, "pca_coordinates": { "x": 1.476168155670166, "y": 0.4826691150665283, "z": 1.8599529266357422 }, "axis_scores": { "Quantum imaging": 0.7677454948425293, "Quantum Life Science Sensing": 0.7592542767524719, "Quantum sensing Detection": 0.7628483772277832, "Quantum sensing Metrology": 0.7568886280059814, "Quantum sensing navigation": 0.7722331285476685, "Quantum sensing Position": 0.7493772506713867, "Quantum sensing Timing": 0.7307679057121277, "Quantum sensing": 0.774314820766449, "Quantum control": 0.7347785234451294 } }, { "id": 3118, "title": "WEAK-LOCALIZATION EFFECTS ON SPIN RELAXATION OF EXCITONS IN QUANTUM-WELLS", "abstract": "We have analyzed the effect of weak disorder, originated from impurities and imperfections that scatter excitons elastically, on spin-relaxation dynamics of excitons in a quantum well, assuming domina...", "citations": 9, "author_count": 4, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3124, "doi": "10.1103/PhysRevB.52.5233", "umap_coordinates": { "x": 393.9503479003906, "y": 135.8881378173828, "z": 209.24172973632812 }, "tsne_coordinates": { "x": -3.9661993980407715, "y": -38.50677490234375, "z": 6.254197120666504 }, "pca_coordinates": { "x": 3.6140151023864746, "y": -1.7044110298156738, "z": -2.4352760314941406 }, "axis_scores": { "Quantum imaging": 0.7165802717208862, "Quantum Life Science Sensing": 0.7071556448936462, "Quantum sensing Detection": 0.7061759233474731, "Quantum sensing Metrology": 0.6799278259277344, "Quantum sensing navigation": 0.7214115858078003, "Quantum sensing Position": 0.691623330116272, "Quantum sensing Timing": 0.6779059171676636, "Quantum sensing": 0.7264109253883362, "Quantum control": 0.699837327003479 } }, { "id": 3119, "title": "Scattering of coherent states on a single artificial atom", "abstract": "In this work, we theoretically analyze a circuit quantum electrodynamics design where propagating quantum microwaves interact with a single artificial atom, a single Cooper-pair box. In particular, we...", "citations": 76, "author_count": 8, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3125, "doi": "10.1088/1367-2630/15/3/035009", "umap_coordinates": { "x": 394.61602783203125, "y": 134.1613311767578, "z": 207.9270782470703 }, "tsne_coordinates": { "x": -8.771027565002441, "y": -12.844083786010742, "z": -20.046829223632812 }, "pca_coordinates": { "x": 2.3876359462738037, "y": 0.5694973468780518, "z": 2.6361653804779053 }, "axis_scores": { "Quantum imaging": 0.7660175561904907, "Quantum Life Science Sensing": 0.7565077543258667, "Quantum sensing Detection": 0.7604688405990601, "Quantum sensing Metrology": 0.7406686544418335, "Quantum sensing navigation": 0.7431595325469971, "Quantum sensing Position": 0.7075313925743103, "Quantum sensing Timing": 0.7081601023674011, "Quantum sensing": 0.7725949287414551, "Quantum control": 0.7401714324951172 } }, { "id": 3120, "title": "Chlorine vacancy in 4H-SiC: An NV-like defect with telecom-wavelength emission", "abstract": "The diamond nitrogen vacancy (NV) center remains an ever-increasing topic of interest. At present, it is considered an ideal example of a solid-state qubit applicable in quantum communication, computi...", "citations": 12, "author_count": 5, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3126, "doi": "10.1103/PhysRevB.108.224106", "umap_coordinates": { "x": 394.8334045410156, "y": 135.4069366455078, "z": 208.33560180664062 }, "tsne_coordinates": { "x": 1.4853088855743408, "y": -15.083168983459473, "z": -0.6735512018203735 }, "pca_coordinates": { "x": 3.1242856979370117, "y": 0.16034340858459473, "z": 0.805478036403656 }, "axis_scores": { "Quantum imaging": 0.6731350421905518, "Quantum Life Science Sensing": 0.696927011013031, "Quantum sensing Detection": 0.6797209978103638, "Quantum sensing Metrology": 0.6532086730003357, "Quantum sensing navigation": 0.6874876022338867, "Quantum sensing Position": 0.649996817111969, "Quantum sensing Timing": 0.6415467858314514, "Quantum sensing": 0.6756274104118347, "Quantum control": 0.6546874046325684 } }, { "id": 3121, "title": "Room temperature ferromagnetism in transition metal (V, Cr, Ti) doped In2O3", "abstract": "Indium oxide is chosen as the host material for doping Ti, V, and Cr transition metal ions. Theoretical calculations based on density functional theory within a local spin density approximation show t...", "citations": 92, "author_count": 7, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3127, "doi": "10.1063/1.2712018", "umap_coordinates": { "x": 392.84912109375, "y": 135.4658966064453, "z": 208.36500549316406 }, "tsne_coordinates": { "x": 16.444128036499023, "y": -31.358362197875977, "z": 15.26133918762207 }, "pca_coordinates": { "x": 1.4123120307922363, "y": -2.378976345062256, "z": -1.7651009559631348 }, "axis_scores": { "Quantum imaging": 0.7338367104530334, "Quantum Life Science Sensing": 0.7434995174407959, "Quantum sensing Detection": 0.7345137596130371, "Quantum sensing Metrology": 0.7482635378837585, "Quantum sensing navigation": 0.7145392298698425, "Quantum sensing Position": 0.6912391185760498, "Quantum sensing Timing": 0.7173131704330444, "Quantum sensing": 0.7491340041160583, "Quantum control": 0.713005781173706 } }, { "id": 3122, "title": "Analysis of Carrier Transport in Tunnel-Junction Vertical-Cavity Surface-Emitting Lasers by a Coupled Nonequilibrium Green's Function-Drift-Diffusion Approach", "abstract": "This work investigates carrier transport in tunnel junctions for vertical-cavity surface-emitting lasers (VCSELs). The study is performed with a quantum-corrected semiclassical approach, where tunneli...", "citations": 11, "author_count": 12, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3128, "doi": "10.1103/PhysRevApplied.14.024037", "umap_coordinates": { "x": 394.50341796875, "y": 135.1775665283203, "z": 207.96591186523438 }, "tsne_coordinates": { "x": -2.1430439949035645, "y": -29.703798294067383, "z": 3.9118833541870117 }, "pca_coordinates": { "x": 2.2543816566467285, "y": -0.8487887382507324, "z": -0.5322673320770264 }, "axis_scores": { "Quantum imaging": 0.7279547452926636, "Quantum Life Science Sensing": 0.7368822693824768, "Quantum sensing Detection": 0.7318083643913269, "Quantum sensing Metrology": 0.7135845422744751, "Quantum sensing navigation": 0.7569116353988647, "Quantum sensing Position": 0.7137837409973145, "Quantum sensing Timing": 0.6978209018707275, "Quantum sensing": 0.7353515028953552, "Quantum control": 0.7287290096282959 } }, { "id": 3123, "title": "Orders of magnitude increased accuracy for quantum many-body problems on quantum computers via an exact transcorrelated method", "abstract": "Transcorrelated methods provide an efficient way of partially transferring the description of electronic correlations from the ground-state wave function directly into the underlying Hamiltonian. In p...", "citations": 24, "author_count": 6, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3129, "doi": "10.1103/PhysRevResearch.5.023174", "umap_coordinates": { "x": 394.1686096191406, "y": 136.9773712158203, "z": 207.30661010742188 }, "tsne_coordinates": { "x": -31.493165969848633, "y": -17.28943634033203, "z": -16.673709869384766 }, "pca_coordinates": { "x": 1.9814319610595703, "y": 0.16850066184997559, "z": 0.0464511513710022 }, "axis_scores": { "Quantum imaging": 0.7179499864578247, "Quantum Life Science Sensing": 0.7214537858963013, "Quantum sensing Detection": 0.715308666229248, "Quantum sensing Metrology": 0.72294020652771, "Quantum sensing navigation": 0.7022126913070679, "Quantum sensing Position": 0.6950829029083252, "Quantum sensing Timing": 0.6941673159599304, "Quantum sensing": 0.7290380597114563, "Quantum control": 0.6823689341545105 } }, { "id": 3124, "title": "Modeling combination of question order effect, response replicability effect, and QQ-equality with quantum instruments", "abstract": "We continue to analyze basic constraints on the human decision making from the viewpoint of quantum measurement theory (QMT). As it has been found, the conventional QMT based on the projection postula...", "citations": 32, "author_count": 3, "categories": [ "Mathematics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3130, "doi": "10.1016/j.jmp.2020.1020491", "umap_coordinates": { "x": 395.0012512207031, "y": 136.54922485351562, "z": 205.9688720703125 }, "tsne_coordinates": { "x": -23.729129791259766, "y": 6.998377323150635, "z": 5.171960353851318 }, "pca_coordinates": { "x": -0.44599443674087524, "y": 2.8605358600616455, "z": 0.4966861605644226 }, "axis_scores": { "Quantum imaging": 0.7621840834617615, "Quantum Life Science Sensing": 0.7646518349647522, "Quantum sensing Detection": 0.7580899596214294, "Quantum sensing Metrology": 0.7611166834831238, "Quantum sensing navigation": 0.7450631856918335, "Quantum sensing Position": 0.7507296800613403, "Quantum sensing Timing": 0.7530801296234131, "Quantum sensing": 0.7645432949066162, "Quantum control": 0.7470525503158569 } }, { "id": 3125, "title": "Quantum version of Aumann's approach to common knowledge: Sufficient conditions of impossibility to agree on disagree", "abstract": "Aumann's theorem states that if two agents with classical processing of information (and, in particular, the Bayesian update of probabilities) have the common priors, and their posteriors for a given ...", "citations": 13, "author_count": 2, "categories": [ "Business & Economics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3131, "doi": "10.1016/j.jmateco.2015.06.018", "umap_coordinates": { "x": 395.6094055175781, "y": 137.27464294433594, "z": 206.35260009765625 }, "tsne_coordinates": { "x": -27.42272186279297, "y": 12.51632308959961, "z": 18.07744026184082 }, "pca_coordinates": { "x": 1.9905211925506592, "y": 4.886330604553223, "z": 0.18595397472381592 }, "axis_scores": { "Quantum imaging": 0.7383236289024353, "Quantum Life Science Sensing": 0.7418862581253052, "Quantum sensing Detection": 0.7665965557098389, "Quantum sensing Metrology": 0.7670093774795532, "Quantum sensing navigation": 0.7412448525428772, "Quantum sensing Position": 0.7340397238731384, "Quantum sensing Timing": 0.7154268026351929, "Quantum sensing": 0.7782459855079651, "Quantum control": 0.7567194700241089 } }, { "id": 3126, "title": "Optical line shapes of color centers in solids from classical autocorrelation functions", "abstract": "Color centers play key roles in, e.g., solid state lighting and quantum information technology. Here, we describe an approach for predicting the optical line shapes of such emitters based on direct sa...", "citations": 1, "author_count": 5, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3132, "doi": "10.1038/s41524-025-01565-x", "umap_coordinates": { "x": 394.69854736328125, "y": 137.9202117919922, "z": 206.57948303222656 }, "tsne_coordinates": { "x": -35.934234619140625, "y": 7.589674949645996, "z": 17.192996978759766 }, "pca_coordinates": { "x": -0.8088197708129883, "y": 0.44885337352752686, "z": -0.5876399278640747 }, "axis_scores": { "Quantum imaging": 0.709509015083313, "Quantum Life Science Sensing": 0.7120159268379211, "Quantum sensing Detection": 0.6934882998466492, "Quantum sensing Metrology": 0.6874717473983765, "Quantum sensing navigation": 0.6925178170204163, "Quantum sensing Position": 0.6946693062782288, "Quantum sensing Timing": 0.6975977420806885, "Quantum sensing": 0.7073489427566528, "Quantum control": 0.6774711012840271 } }, { "id": 3127, "title": "Benzoselenophenylpyridine platinum complexes: green versus red phosphorescence towards hybrid OLEDs", "abstract": "The first examples of phosphorescent platinum complexes bearing 2- and 3-(2-pyridyl)benzo[b]selenophenes (PyBSe) were synthesized and fully characterized. Almost identical ionization potential values ...", "citations": 24, "author_count": 11, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3133, "doi": "10.1039/d0dt00214c", "umap_coordinates": { "x": 392.03057861328125, "y": 135.409423828125, "z": 205.22274780273438 }, "tsne_coordinates": { "x": 2.967179775238037, "y": 5.890009880065918, "z": -13.604365348815918 }, "pca_coordinates": { "x": -3.413851737976074, "y": -3.036022663116455, "z": -1.9405605792999268 }, "axis_scores": { "Quantum imaging": 0.6926181316375732, "Quantum Life Science Sensing": 0.6995022892951965, "Quantum sensing Detection": 0.6867572069168091, "Quantum sensing Metrology": 0.6536893844604492, "Quantum sensing navigation": 0.6740847229957581, "Quantum sensing Position": 0.6895536184310913, "Quantum sensing Timing": 0.6686922311782837, "Quantum sensing": 0.6923896670341492, "Quantum control": 0.6860930323600769 } }, { "id": 3128, "title": "Measurement of the shot noise in a single-electron transistor", "abstract": "We have systematically measured the shot noise in a single-electron transistor (SET) as a function of bias and gate voltages. By embedding a SET in a resonance circuit we have been able to measure its...", "citations": 21, "author_count": 3, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3134, "doi": "10.1103/PhysRevB.80.155320", "umap_coordinates": { "x": 394.3387756347656, "y": 134.39093017578125, "z": 208.93601989746094 }, "tsne_coordinates": { "x": 3.751406669616699, "y": -30.09689712524414, "z": -11.263073921203613 }, "pca_coordinates": { "x": 4.1988606452941895, "y": -1.9704499244689941, "z": 3.4432921409606934 }, "axis_scores": { "Quantum imaging": 0.7039750218391418, "Quantum Life Science Sensing": 0.7295171618461609, "Quantum sensing Detection": 0.7461059093475342, "Quantum sensing Metrology": 0.7347618341445923, "Quantum sensing navigation": 0.7312394380569458, "Quantum sensing Position": 0.7089959383010864, "Quantum sensing Timing": 0.6998971104621887, "Quantum sensing": 0.7428480982780457, "Quantum control": 0.695751428604126 } }, { "id": 3129, "title": "Interpretive analogies between quantum and statistical mechanics", "abstract": "The conspicuous similarities between interpretive strategies in classical statistical mechanics and in quantum mechanics may be grounded on their employment of common implementations of probability. T...", "citations": 2, "author_count": 2, "categories": [ "History & Philosophy of Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3135, "doi": "10.1007/s13194-019-0268-2", "umap_coordinates": { "x": 395.1833190917969, "y": 137.20370483398438, "z": 206.02273559570312 }, "tsne_coordinates": { "x": -27.0773868560791, "y": 3.2269561290740967, "z": 9.629467010498047 }, "pca_coordinates": { "x": 1.4824070930480957, "y": 3.313822031021118, "z": -0.9201840758323669 }, "axis_scores": { "Quantum imaging": 0.7488617300987244, "Quantum Life Science Sensing": 0.7550175786018372, "Quantum sensing Detection": 0.7500416040420532, "Quantum sensing Metrology": 0.7348620891571045, "Quantum sensing navigation": 0.7623094320297241, "Quantum sensing Position": 0.7262880206108093, "Quantum sensing Timing": 0.7098472714424133, "Quantum sensing": 0.763468325138092, "Quantum control": 0.7423447966575623 } }, { "id": 3130, "title": "FREESTANDING SILICON MICROSTRUCTURES FABRICATED BY LASER CHEMICAL-PROCESSING", "abstract": "Laser-assisted chemical-vapor deposition (LCVD) is used for growth in ''free space'' of microscale fibers and helical structures of silicon. The LCVD technique is also used for fabrication of a tungst...", "citations": 24, "author_count": 5, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 3136, "doi": "10.1063/1.353937", "umap_coordinates": { "x": 393.8021240234375, "y": 133.65260314941406, "z": 207.66452026367188 }, "tsne_coordinates": { "x": 32.219703674316406, "y": -30.526737213134766, "z": 4.752827167510986 }, "pca_coordinates": { "x": 0.4757544994354248, "y": -0.9327182769775391, "z": 0.9003848433494568 }, "axis_scores": { "Quantum imaging": 0.7297002077102661, "Quantum Life Science Sensing": 0.7457627058029175, "Quantum sensing Detection": 0.7187453508377075, "Quantum sensing Metrology": 0.7421590685844421, "Quantum sensing navigation": 0.732933759689331, "Quantum sensing Position": 0.7125371098518372, "Quantum sensing Timing": 0.6962853074073792, "Quantum sensing": 0.749636173248291, "Quantum control": 0.7302364110946655 } }, { "id": 3131, "title": "Optical and transport properties of CdSe/ZnSe self-organized nanostructures: 1-dimensional versus 3-dimensional quantum confinement", "abstract": "We present comprehensive studies of optical, structural and transport properties of molecular beam epitaxy grown CdSe/ZnSe self-organizing nanostructures, aimed at elucidation of the intrinsic morphol...", "citations": 23, "author_count": 12, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3137, "doi": "10.1143/JJAP.38.566", "umap_coordinates": { "x": 393.2845153808594, "y": 134.32530212402344, "z": 206.91360473632812 }, "tsne_coordinates": { "x": 27.72895622253418, "y": -1.9580951929092407, "z": 1.300345778465271 }, "pca_coordinates": { "x": 0.7305262088775635, "y": -2.7742815017700195, "z": -0.12323707342147827 }, "axis_scores": { "Quantum imaging": 0.7555575370788574, "Quantum Life Science Sensing": 0.75870680809021, "Quantum sensing Detection": 0.7465199828147888, "Quantum sensing Metrology": 0.7303801774978638, "Quantum sensing navigation": 0.7683793902397156, "Quantum sensing Position": 0.7260661721229553, "Quantum sensing Timing": 0.6945835947990417, "Quantum sensing": 0.7614412307739258, "Quantum control": 0.7539545297622681 } }, { "id": 3132, "title": "Photolytic Studies of Norbornadiene Derivatives under High- Intensity Light Conditions", "abstract": "The photoconversion of a norbornadiene (NBD) derivative was studied under high-intensity mono-and polychromatic light conditions at high concentrations. The photoisomerization quantum yield (phi NBD -...", "citations": 18, "author_count": 5, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3138, "doi": "10.1021/acs.jpca.2c03583", "umap_coordinates": { "x": 392.1947326660156, "y": 135.8277587890625, "z": 205.33213806152344 }, "tsne_coordinates": { "x": 3.3399863243103027, "y": 1.9762065410614014, "z": -2.9940664768218994 }, "pca_coordinates": { "x": -3.271383762359619, "y": -1.586677074432373, "z": -0.8392940163612366 }, "axis_scores": { "Quantum imaging": 0.722179651260376, "Quantum Life Science Sensing": 0.7126575708389282, "Quantum sensing Detection": 0.6891965270042419, "Quantum sensing Metrology": 0.64860600233078, "Quantum sensing navigation": 0.6646044850349426, "Quantum sensing Position": 0.6645594239234924, "Quantum sensing Timing": 0.6598531603813171, "Quantum sensing": 0.7006734609603882, "Quantum control": 0.6838047504425049 } }, { "id": 3133, "title": "Physicochemical characterisation of a drug-containing phospholipid-stabilised o/w emulsion for intravenous administration", "abstract": "Clomethiazole (CMZ) was used as a model drug to be incorporated into an emulsion vehicle. The effects of drug concentration and number of homogenisation steps were evaluated using multiple linear regr...", "citations": 61, "author_count": 5, "categories": [ "Pharmacology & Pharmacy" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3139, "doi": "10.1016/S0928-0987(01)00138-5", "umap_coordinates": { "x": 393.72039794921875, "y": 134.63340759277344, "z": 204.27719116210938 }, "tsne_coordinates": { "x": 9.372517585754395, "y": 23.106321334838867, "z": 5.974109172821045 }, "pca_coordinates": { "x": -3.8705286979675293, "y": 2.055910110473633, "z": -1.5260913372039795 }, "axis_scores": { "Quantum imaging": 0.6530302166938782, "Quantum Life Science Sensing": 0.6805180311203003, "Quantum sensing Detection": 0.6220032572746277, "Quantum sensing Metrology": 0.6296337246894836, "Quantum sensing navigation": 0.6307070255279541, "Quantum sensing Position": 0.6452611088752747, "Quantum sensing Timing": 0.6084065437316895, "Quantum sensing": 0.6405353546142578, "Quantum control": 0.6402614116668701 } }, { "id": 3134, "title": "Toward Fast and Efficient Visible-Light-Driven Molecular Motors: A Minimal Design", "abstract": "A key goal in the development of light-driven rotary molecular motors is to facilitate their usage in biology and medicine by shifting the required irradiation wavelengths from the UV regime to the no...", "citations": 25, "author_count": 3, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3140, "doi": "10.1002/open.201800089", "umap_coordinates": { "x": 392.59478759765625, "y": 135.36184692382812, "z": 204.5207977294922 }, "tsne_coordinates": { "x": -7.107353210449219, "y": 9.888723373413086, "z": -8.660913467407227 }, "pca_coordinates": { "x": -1.5855317115783691, "y": 1.8629456758499146, "z": -1.0594879388809204 }, "axis_scores": { "Quantum imaging": 0.7113755941390991, "Quantum Life Science Sensing": 0.7216348648071289, "Quantum sensing Detection": 0.7024668455123901, "Quantum sensing Metrology": 0.7079772353172302, "Quantum sensing navigation": 0.7177326679229736, "Quantum sensing Position": 0.6712101697921753, "Quantum sensing Timing": 0.6720240712165833, "Quantum sensing": 0.7181823253631592, "Quantum control": 0.7206642031669617 } }, { "id": 3135, "title": "Mechanisms of site-specific photochemistry following core-shell ionization of chemically inequivalent carbon atoms in acetaldehyde (ethanal)", "abstract": "Site-specific fragmentation upon 1s photoionisation of acetaldehyde has been studied using synchrotron radiation and a multi-electron-ion coincidence technique based on a magnetic bottle. Experimental...", "citations": 12, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3141, "doi": "10.1063/1.4962823", "umap_coordinates": { "x": 393.1609191894531, "y": 136.11521911621094, "z": 206.36160278320312 }, "tsne_coordinates": { "x": -1.7162564992904663, "y": -4.520108222961426, "z": 1.7927502393722534 }, "pca_coordinates": { "x": 0.2794935703277588, "y": 0.3644986152648926, "z": -1.2544519901275635 }, "axis_scores": { "Quantum imaging": 0.7029787302017212, "Quantum Life Science Sensing": 0.6979950666427612, "Quantum sensing Detection": 0.6906871199607849, "Quantum sensing Metrology": 0.6892385482788086, "Quantum sensing navigation": 0.6813992857933044, "Quantum sensing Position": 0.6528205871582031, "Quantum sensing Timing": 0.6577078700065613, "Quantum sensing": 0.7026329636573792, "Quantum control": 0.6662670969963074 } }, { "id": 3136, "title": "Tuning the field in a microwave resonator faster than the photon lifetime", "abstract": "We have fabricated and characterized tunable superconducting transmission line resonators. To change the resonance frequency, we modify the boundary condition at one end of the resonator through the t...", "citations": 265, "author_count": 9, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3142, "doi": "10.1063/1.2929367", "umap_coordinates": { "x": 394.0747985839844, "y": 135.39109802246094, "z": 207.5202178955078 }, "tsne_coordinates": { "x": -5.024579048156738, "y": -17.541561126708984, "z": 14.67107105255127 }, "pca_coordinates": { "x": 0.9474210739135742, "y": -0.22113990783691406, "z": -0.05626249313354492 }, "axis_scores": { "Quantum imaging": 0.7363145351409912, "Quantum Life Science Sensing": 0.7777866721153259, "Quantum sensing Detection": 0.748570442199707, "Quantum sensing Metrology": 0.7602641582489014, "Quantum sensing navigation": 0.7332882285118103, "Quantum sensing Position": 0.7132245898246765, "Quantum sensing Timing": 0.7207143902778625, "Quantum sensing": 0.7673512697219849, "Quantum control": 0.7148506045341492 } }, { "id": 3137, "title": "Fermion-parity duality and energy relaxation in interacting open systems", "abstract": "We study the transient heat current out of a confined electron system into a weakly coupled electrode in response to a voltage switch. We show that the decay of the Coulomb interaction energy for this...", "citations": 30, "author_count": 6, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3143, "doi": "10.1103/PhysRevB.93.081411", "umap_coordinates": { "x": 394.15557861328125, "y": 136.6029052734375, "z": 208.64028930664062 }, "tsne_coordinates": { "x": -12.310462951660156, "y": -12.1582670211792, "z": 6.224977970123291 }, "pca_coordinates": { "x": 4.758082389831543, "y": -0.3018035888671875, "z": -1.7460811138153076 }, "axis_scores": { "Quantum imaging": 0.72225421667099, "Quantum Life Science Sensing": 0.7232234477996826, "Quantum sensing Detection": 0.7049156427383423, "Quantum sensing Metrology": 0.6718738079071045, "Quantum sensing navigation": 0.7137017250061035, "Quantum sensing Position": 0.6678091287612915, "Quantum sensing Timing": 0.678367018699646, "Quantum sensing": 0.7132970690727234, "Quantum control": 0.6853240728378296 } }, { "id": 3138, "title": "Observation of Rabi dynamics with a short-wavelength free-electron laser", "abstract": "Rabi oscillations are periodic modulations of populations in two-level systems interacting with a time-varying field(1). They are ubiquitous in physics with applications in different areas such as pho...", "citations": 86, "author_count": 30, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3144, "doi": "10.1038/s41586-022-04948-y", "umap_coordinates": { "x": 393.744384765625, "y": 135.4226531982422, "z": 206.53060913085938 }, "tsne_coordinates": { "x": -5.3402934074401855, "y": -3.364147186279297, "z": -6.850976943969727 }, "pca_coordinates": { "x": 0.8372783660888672, "y": -0.5767903327941895, "z": 0.5025832056999207 }, "axis_scores": { "Quantum imaging": 0.7091087102890015, "Quantum Life Science Sensing": 0.7331048250198364, "Quantum sensing Detection": 0.7060345411300659, "Quantum sensing Metrology": 0.6812587976455688, "Quantum sensing navigation": 0.7139675617218018, "Quantum sensing Position": 0.6826528310775757, "Quantum sensing Timing": 0.6709184050559998, "Quantum sensing": 0.7106819152832031, "Quantum control": 0.6856660842895508 } }, { "id": 3139, "title": "Quantum coherence in photo-ionisation with tailored XUV pulses", "abstract": "Ionisation with ultrashort pulses in the extreme ultraviolet (XUV) regime can be used to prepare an ion in a superposition of spin-orbit substates. In this work, we study the coherence properties of s...", "citations": 17, "author_count": 6, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3145, "doi": "10.1088/1361-6455/aa96e7", "umap_coordinates": { "x": 395.12310791015625, "y": 135.17730712890625, "z": 206.7067413330078 }, "tsne_coordinates": { "x": -22.232398986816406, "y": -7.472005844116211, "z": -18.94918441772461 }, "pca_coordinates": { "x": 1.210247278213501, "y": 1.1088794469833374, "z": 2.4503860473632812 }, "axis_scores": { "Quantum imaging": 0.7548128962516785, "Quantum Life Science Sensing": 0.7282160520553589, "Quantum sensing Detection": 0.7272804975509644, "Quantum sensing Metrology": 0.7088034152984619, "Quantum sensing navigation": 0.7199734449386597, "Quantum sensing Position": 0.69304358959198, "Quantum sensing Timing": 0.7226218581199646, "Quantum sensing": 0.7400723695755005, "Quantum control": 0.7306370735168457 } }, { "id": 3140, "title": "Extremely lightweight and ultra-flexible infrared light-converting quantum dot solar cells with high power-per-weight output using a solution-processed bending durable silver nanowire-based electrode", "abstract": "Lightweight and flexible solar cells are highly interesting materials for use in new applications, such as spacecraft, aircraft and personal pack load. PbS colloidal quantum dots (CQDs) exhibit a broa...", "citations": 137, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3146, "doi": "10.1039/c7ee02772a", "umap_coordinates": { "x": 391.7944641113281, "y": 134.0336456298828, "z": 204.89161682128906 }, "tsne_coordinates": { "x": 13.503605842590332, "y": 1.2351709604263306, "z": -14.24538803100586 }, "pca_coordinates": { "x": -3.424576997756958, "y": -4.456889629364014, "z": 0.5564780831336975 }, "axis_scores": { "Quantum imaging": 0.6109437346458435, "Quantum Life Science Sensing": 0.6559122800827026, "Quantum sensing Detection": 0.6223106384277344, "Quantum sensing Metrology": 0.6039776802062988, "Quantum sensing navigation": 0.6075296998023987, "Quantum sensing Position": 0.6021915078163147, "Quantum sensing Timing": 0.5931295156478882, "Quantum sensing": 0.6299761533737183, "Quantum control": 0.5793024897575378 } }, { "id": 3141, "title": "From axiomatics of quantum probability to modelling geological uncertainty and management of intelligent hydrocarbon reservoirs with the theory of open quantum systems", "abstract": "As was recently shown by the authors, quantum probability theory can be used for the modelling of the process of decision-making (e.g. probabilistic risk analysis) for macroscopic geophysical structur...", "citations": 3, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3147, "doi": "10.1098/rsta.2017.0225", "umap_coordinates": { "x": 395.2840881347656, "y": 137.60400390625, "z": 205.9393310546875 }, "tsne_coordinates": { "x": -29.173221588134766, "y": 13.31758975982666, "z": 13.820839881896973 }, "pca_coordinates": { "x": 1.9247426986694336, "y": 3.604046583175659, "z": -0.49261003732681274 }, "axis_scores": { "Quantum imaging": 0.7709084153175354, "Quantum Life Science Sensing": 0.7713685035705566, "Quantum sensing Detection": 0.7550618648529053, "Quantum sensing Metrology": 0.7617544531822205, "Quantum sensing navigation": 0.7872099876403809, "Quantum sensing Position": 0.7394015192985535, "Quantum sensing Timing": 0.7268551588058472, "Quantum sensing": 0.7733698487281799, "Quantum control": 0.7461963295936584 } }, { "id": 3142, "title": "Photon counting carbon dioxide gas sensing at 2.05 μm wavelength", "abstract": "We demonstrate proof-of-principle carbon dioxide (CO2) sensing at 2.05 mu m wavelength using a commercial infrared superconducting nanowire single photon detector (SNSPD). We verify the absorption pea...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3148, "doi": "10.1117/12.2669496", "umap_coordinates": { "x": 394.9941101074219, "y": 133.43576049804688, "z": 206.12249755859375 }, "tsne_coordinates": { "x": -5.664135932922363, "y": 17.007640838623047, "z": -25.21525764465332 }, "pca_coordinates": { "x": -2.4645771980285645, "y": 0.3933556079864502, "z": 3.0021209716796875 }, "axis_scores": { "Quantum imaging": 0.7451332211494446, "Quantum Life Science Sensing": 0.7650207281112671, "Quantum sensing Detection": 0.7741106152534485, "Quantum sensing Metrology": 0.7585656046867371, "Quantum sensing navigation": 0.7375783920288086, "Quantum sensing Position": 0.7429794669151306, "Quantum sensing Timing": 0.7337480783462524, "Quantum sensing": 0.7760344743728638, "Quantum control": 0.7126937508583069 } }, { "id": 3143, "title": "Fluorescent RNA cytosine analogue - an internal probe for detailed structure and dynamics investigations", "abstract": "The bright fluorescent cytosine analogue tCO stands out among fluorescent bases due to its virtually unquenched fluorescence emission in duplex DNA. However, like most reported base analogues, it has ...", "citations": 24, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3149, "doi": "10.1038/s41598-017-02453-1", "umap_coordinates": { "x": 392.405517578125, "y": 136.4206085205078, "z": 204.81507873535156 }, "tsne_coordinates": { "x": 8.251815795898438, "y": 9.083620071411133, "z": 6.308714866638184 }, "pca_coordinates": { "x": -1.8568283319473267, "y": 0.741608738899231, "z": -2.0350775718688965 }, "axis_scores": { "Quantum imaging": 0.6925665736198425, "Quantum Life Science Sensing": 0.722048282623291, "Quantum sensing Detection": 0.6657189726829529, "Quantum sensing Metrology": 0.6549263000488281, "Quantum sensing navigation": 0.672417163848877, "Quantum sensing Position": 0.6422851085662842, "Quantum sensing Timing": 0.6364684104919434, "Quantum sensing": 0.6833726763725281, "Quantum control": 0.6794244050979614 } }, { "id": 3144, "title": "Response of Spirulina platensis (=Arthrospira fusiformis) from Lake Chitu, Ethiopia, to salinity stress from sodium salts", "abstract": "Spirulina platensis (=Arthrospira fusiformis) was isolated from Lake Chitu, a soda crater lake in the Ethiopian Rift Valley, where it forms a dense and almost unialgal population. Growth experiments w...", "citations": 73, "author_count": 2, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3150, "doi": null, "umap_coordinates": { "x": 391.79888916015625, "y": 139.6200714111328, "z": 209.57127380371094 }, "tsne_coordinates": { "x": -4.264345645904541, "y": 45.239749908447266, "z": 0.006615138612687588 }, "pca_coordinates": { "x": -2.6145527362823486, "y": 3.6055517196655273, "z": -3.3314049243927 }, "axis_scores": { "Quantum imaging": 0.7097688913345337, "Quantum Life Science Sensing": 0.7408627271652222, "Quantum sensing Detection": 0.7215633392333984, "Quantum sensing Metrology": 0.7060565948486328, "Quantum sensing navigation": 0.7201060056686401, "Quantum sensing Position": 0.6946166157722473, "Quantum sensing Timing": 0.6802458763122559, "Quantum sensing": 0.7364335656166077, "Quantum control": 0.7393302917480469 } }, { "id": 3145, "title": "Performance of a YSO/LSO phoswich detector for use in a PET/SPECT system", "abstract": "The performance of a YSO/LSO phoswich detector module is evaluated for potential use as in a combined PET/SPECT imaging system. The high light output of LSO (similar to 5-6 times BGO) would allow the ...", "citations": 65, "author_count": 8, "categories": [ "Engineering" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3151, "doi": "10.1109/23.596974", "umap_coordinates": { "x": 395.0621337890625, "y": 133.18902587890625, "z": 205.72869873046875 }, "tsne_coordinates": { "x": -12.719748497009277, "y": 12.120402336120605, "z": -34.40596008300781 }, "pca_coordinates": { "x": -2.403306007385254, "y": 2.2600719928741455, "z": 2.5046730041503906 }, "axis_scores": { "Quantum imaging": 0.7095358371734619, "Quantum Life Science Sensing": 0.7339431047439575, "Quantum sensing Detection": 0.7071443796157837, "Quantum sensing Metrology": 0.6886288523674011, "Quantum sensing navigation": 0.7008018493652344, "Quantum sensing Position": 0.7126122117042542, "Quantum sensing Timing": 0.7020453214645386, "Quantum sensing": 0.7129867076873779, "Quantum control": 0.6627855896949768 } }, { "id": 3146, "title": "THE INTERPLAY BETWEEN UNIVERSAL QUANTUM CORRELATIONS AND SPECIFIC MECHANISMS, INVOLVING SHORT-LIVED MAGNETIC CLUSTERS, IN HTSCS", "abstract": "Recently the theory of dilation analyticity (or the Complex Scaling Method, CSM) was applied, for the first time, to the domain of quantum statistics far from equilibrium. As a result a novel kind of ...", "citations": 8, "author_count": 4, "categories": [ "Physics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 3152, "doi": "10.1088/0031-8949/44/1/011", "umap_coordinates": { "x": 393.6847839355469, "y": 136.44827270507812, "z": 208.01385498046875 }, "tsne_coordinates": { "x": 19.363285064697266, "y": -19.826431274414062, "z": 19.88208770751953 }, "pca_coordinates": { "x": 2.4295852184295654, "y": 1.6625620126724243, "z": -2.2440967559814453 }, "axis_scores": { "Quantum imaging": 0.6946037411689758, "Quantum Life Science Sensing": 0.7119160890579224, "Quantum sensing Detection": 0.6871260404586792, "Quantum sensing Metrology": 0.6772003769874573, "Quantum sensing navigation": 0.6858609318733215, "Quantum sensing Position": 0.6673484444618225, "Quantum sensing Timing": 0.7060642242431641, "Quantum sensing": 0.7048755288124084, "Quantum control": 0.6878724694252014 } }, { "id": 3147, "title": "CLASSICAL LANGEVIN DYNAMICS DERIVED FROM QUANTUM MECHANICS", "abstract": "The classical work by Zwanzig [J. Stat. Phys. 9 (1973) 215-220] derived Langevin dynamics from a Hamiltonian system of a heavy particle coupled to a heat bath. This work extends Zwanzig's model to a q...", "citations": 5, "author_count": 3, "categories": [ "Mathematics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3153, "doi": "10.3934/dcdsb.2020135", "umap_coordinates": { "x": 394.5918884277344, "y": 137.66830444335938, "z": 206.6337890625 }, "tsne_coordinates": { "x": -32.358497619628906, "y": 9.412738800048828, "z": 20.363035202026367 }, "pca_coordinates": { "x": 2.2242650985717773, "y": 1.4515743255615234, "z": -2.5110654830932617 }, "axis_scores": { "Quantum imaging": 0.743628203868866, "Quantum Life Science Sensing": 0.790754497051239, "Quantum sensing Detection": 0.7651123404502869, "Quantum sensing Metrology": 0.7324618101119995, "Quantum sensing navigation": 0.7732285857200623, "Quantum sensing Position": 0.7302984595298767, "Quantum sensing Timing": 0.7228493690490723, "Quantum sensing": 0.7700915336608887, "Quantum control": 0.7759705185890198 } }, { "id": 3148, "title": "Nature of Metallic and Insulating Domains in the Charge-Density-Wave System 1T-TaSe2", "abstract": "We study the electronic structure of bulk 1T-TaSe2 in the charge-density wave phase at low temperature. Our spatially and angle-resolved photoemission data show insulating areas coexisting with metall...", "citations": 2, "author_count": 16, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3154, "doi": "10.1103/pbyw-mzfy", "umap_coordinates": { "x": 394.1271667480469, "y": 136.31393432617188, "z": 208.29180908203125 }, "tsne_coordinates": { "x": -14.198463439941406, "y": -28.809972763061523, "z": 18.98186683654785 }, "pca_coordinates": { "x": 1.6402268409729004, "y": -1.1873853206634521, "z": -1.572901964187622 }, "axis_scores": { "Quantum imaging": 0.6830704212188721, "Quantum Life Science Sensing": 0.6780207753181458, "Quantum sensing Detection": 0.6630734205245972, "Quantum sensing Metrology": 0.6791079640388489, "Quantum sensing navigation": 0.6771775484085083, "Quantum sensing Position": 0.6736510992050171, "Quantum sensing Timing": 0.6754881143569946, "Quantum sensing": 0.6795089840888977, "Quantum control": 0.6656143069267273 } }, { "id": 3149, "title": "Photon-Counting LIDAR Based on a Fractal SNSPD", "abstract": "We report on a photon-counting LIDAR system based on a polarization-insensitive fractal SNSPD with high detection efficiency and high timing resolution, and showcase depth imaging of an object at 1560...", "citations": 7, "author_count": 10, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3155, "doi": null, "umap_coordinates": { "x": 391.4828186035156, "y": 139.48287963867188, "z": 209.165283203125 }, "tsne_coordinates": { "x": -5.188014030456543, "y": 41.30361557006836, "z": -12.75156021118164 }, "pca_coordinates": { "x": -1.311907410621643, "y": 1.4270374774932861, "z": 2.667215347290039 }, "axis_scores": { "Quantum imaging": 0.7070438265800476, "Quantum Life Science Sensing": 0.7464120984077454, "Quantum sensing Detection": 0.7328864336013794, "Quantum sensing Metrology": 0.7221014499664307, "Quantum sensing navigation": 0.7281748652458191, "Quantum sensing Position": 0.7090139985084534, "Quantum sensing Timing": 0.6828488111495972, "Quantum sensing": 0.7313713431358337, "Quantum control": 0.6805015206336975 } }, { "id": 3150, "title": "Quantum phase dynamics in an LC shunted Josephson junction", "abstract": "We have studied both theoretically and experimentally how an LC series circuit connected in parallel to a Josephson junction influences the Josephson dynamics. The presence of the shell circuit introd...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3156, "doi": "10.1063/1.3581139", "umap_coordinates": { "x": 394.1598205566406, "y": 135.42185974121094, "z": 208.2854461669922 }, "tsne_coordinates": { "x": -1.2493281364440918, "y": -17.284988403320312, "z": 15.412808418273926 }, "pca_coordinates": { "x": 4.0818047523498535, "y": -1.600874423980713, "z": -1.2647088766098022 }, "axis_scores": { "Quantum imaging": 0.7377737760543823, "Quantum Life Science Sensing": 0.7414799928665161, "Quantum sensing Detection": 0.7208322286605835, "Quantum sensing Metrology": 0.7003931403160095, "Quantum sensing navigation": 0.7431051731109619, "Quantum sensing Position": 0.7185089588165283, "Quantum sensing Timing": 0.7108356952667236, "Quantum sensing": 0.7336199283599854, "Quantum control": 0.7454606294631958 } }, { "id": 3151, "title": "Imidazolium-modification enhances photocatalytic CO2 reduction on ZnSe quantum dots", "abstract": "Colloidal photocatalysts can utilize solar light for the conversion of CO2 to carbon-based fuels, but controlling the product selectivity for CO2 reduction remains challenging, in particular in aqueou...", "citations": 40, "author_count": 12, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3157, "doi": "10.1039/d1sc01310f", "umap_coordinates": { "x": 392.0818786621094, "y": 134.21829223632812, "z": 205.61891174316406 }, "tsne_coordinates": { "x": 18.661609649658203, "y": 1.5216107368469238, "z": -6.074416637420654 }, "pca_coordinates": { "x": -3.159055471420288, "y": -3.523284435272217, "z": -1.8815128803253174 }, "axis_scores": { "Quantum imaging": 0.7225332260131836, "Quantum Life Science Sensing": 0.7129113674163818, "Quantum sensing Detection": 0.7105912566184998, "Quantum sensing Metrology": 0.7006685733795166, "Quantum sensing navigation": 0.6874207854270935, "Quantum sensing Position": 0.6772806644439697, "Quantum sensing Timing": 0.6546490788459778, "Quantum sensing": 0.7151641845703125, "Quantum control": 0.7131084203720093 } }, { "id": 3152, "title": "TWO-DIMENSIONAL ARRAY OF COLD-ELECTRON BOLOMETERS FOR HIGH-SENSITIVITY POLARIZATION MEASUREMENTS", "abstract": "A new concept of a two-dimensional array of cold-electron bolometers with distributed dipole antennas in the focal plane for high-sensitivity polarization measurements is proposed. The concept gives a...", "citations": 2, "author_count": 2, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3158, "doi": "10.1007/s11141-012-9313-0", "umap_coordinates": { "x": 394.0808410644531, "y": 133.74905395507812, "z": 206.2960662841797 }, "tsne_coordinates": { "x": -12.16297721862793, "y": -6.03190803527832, "z": -38.6430549621582 }, "pca_coordinates": { "x": -1.5419609546661377, "y": -1.0257973670959473, "z": 1.9173576831817627 }, "axis_scores": { "Quantum imaging": 0.6821807026863098, "Quantum Life Science Sensing": 0.6950220465660095, "Quantum sensing Detection": 0.6880443096160889, "Quantum sensing Metrology": 0.6774540543556213, "Quantum sensing navigation": 0.6852026581764221, "Quantum sensing Position": 0.6854012608528137, "Quantum sensing Timing": 0.6630114316940308, "Quantum sensing": 0.6897132396697998, "Quantum control": 0.6608712077140808 } }, { "id": 3153, "title": "Highly sensitive humidity sensor based on cadmium selenide quantum dots-polymer composites: synthesis, characterization, and effect of UV/ozone treatment", "abstract": "This work describes the rational design of thin film-based cadmium selenide quantum dots (CdSe) mixed with conductive polyvinylidene fluoride (PVDF), inducing PVDF-CdSe composite for potential resisti...", "citations": 3, "author_count": 10, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3159, "doi": "10.1007/s10854-023-10955-0", "umap_coordinates": { "x": 393.35205078125, "y": 133.47499084472656, "z": 205.75607299804688 }, "tsne_coordinates": { "x": 27.577266693115234, "y": 1.9764151573181152, "z": -10.828744888305664 }, "pca_coordinates": { "x": -3.2588326930999756, "y": -1.7557768821716309, "z": 1.570065975189209 }, "axis_scores": { "Quantum imaging": 0.6936143040657043, "Quantum Life Science Sensing": 0.7588083744049072, "Quantum sensing Detection": 0.7248860001564026, "Quantum sensing Metrology": 0.7027300000190735, "Quantum sensing navigation": 0.690708577632904, "Quantum sensing Position": 0.7047865390777588, "Quantum sensing Timing": 0.6766290068626404, "Quantum sensing": 0.7262919545173645, "Quantum control": 0.6687906980514526 } }, { "id": 3154, "title": "Biodegradable polymeric vesicles containing magnetic nanoparticles, quantum dots and anticancer drugs for drug delivery and imaging", "abstract": "We have developed biodegradable polymeric vesicles as a nanocarrier system for multimodal bioimaging and anticancer drug delivery. The poly(lactic-co-glycolic acid) (PLGA) vesicles were fabricated by ...", "citations": 216, "author_count": 11, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3160, "doi": "10.1016/j.biomaterials.2014.01.041", "umap_coordinates": { "x": 393.3598937988281, "y": 133.9165802001953, "z": 204.27149963378906 }, "tsne_coordinates": { "x": 12.102313041687012, "y": 21.51508331298828, "z": -11.750202178955078 }, "pca_coordinates": { "x": -5.588525295257568, "y": -0.7691259384155273, "z": -1.188572883605957 }, "axis_scores": { "Quantum imaging": 0.7010484933853149, "Quantum Life Science Sensing": 0.7098991274833679, "Quantum sensing Detection": 0.6635615229606628, "Quantum sensing Metrology": 0.6648629307746887, "Quantum sensing navigation": 0.6577235460281372, "Quantum sensing Position": 0.6437733173370361, "Quantum sensing Timing": 0.62093186378479, "Quantum sensing": 0.6787434816360474, "Quantum control": 0.6556630730628967 } }, { "id": 3155, "title": "Optical properties of thermomechanical pulp (TMP) obtained from sulfite-pretreated Norway spruce with focus on two-photon spectral imaging (TPSI)", "abstract": "Chips of Norway spruce have been impregnated with Na2SO3 and refined at two specific energy consumptions levels at full mill scale. The optical properties of thermomechanical pulps (TMPs) obtained wer...", "citations": 1, "author_count": 5, "categories": [ "Forestry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3161, "doi": "10.1515/hf-2011-0184", "umap_coordinates": { "x": 393.918212890625, "y": 135.6693115234375, "z": 204.71139526367188 }, "tsne_coordinates": { "x": 11.741156578063965, "y": 11.39334774017334, "z": -34.506649017333984 }, "pca_coordinates": { "x": -4.072491645812988, "y": 0.9606645107269287, "z": 1.523916482925415 }, "axis_scores": { "Quantum imaging": 0.7147147059440613, "Quantum Life Science Sensing": 0.7015390396118164, "Quantum sensing Detection": 0.6698690056800842, "Quantum sensing Metrology": 0.6907877326011658, "Quantum sensing navigation": 0.6664806008338928, "Quantum sensing Position": 0.6633883118629456, "Quantum sensing Timing": 0.6629216074943542, "Quantum sensing": 0.6952605247497559, "Quantum control": 0.6487084627151489 } }, { "id": 3156, "title": "Can quantum information be processed by macroscopic systems?", "abstract": "We present a quantum-like (QL) model in that contexts (complexes of e.g. mental, social, biological, economic or even political conditions) are represented by complex probability amplitudes. This appr...", "citations": 12, "author_count": 2, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3162, "doi": "10.1007/s11128-007-0060-7", "umap_coordinates": { "x": 394.81475830078125, "y": 137.4365234375, "z": 205.81173706054688 }, "tsne_coordinates": { "x": -16.72626304626465, "y": 14.762337684631348, "z": 8.41176986694336 }, "pca_coordinates": { "x": 1.1170897483825684, "y": 2.3535070419311523, "z": 0.3273574709892273 }, "axis_scores": { "Quantum imaging": 0.7844710350036621, "Quantum Life Science Sensing": 0.7769348621368408, "Quantum sensing Detection": 0.7698183059692383, "Quantum sensing Metrology": 0.762286365032196, "Quantum sensing navigation": 0.7706621289253235, "Quantum sensing Position": 0.7272246479988098, "Quantum sensing Timing": 0.7086712121963501, "Quantum sensing": 0.7997223138809204, "Quantum control": 0.7564913630485535 } }, { "id": 3157, "title": "A review of the development of graphene-incorporated dye-sensitized solar cells", "abstract": "To utilize abundant solar energy, dye-sensitized solar cells (DSSCs) have attracted researchers' attention due to many reasons, such as low production costs, easy fabrication methods, low toxicity of ...", "citations": 7, "author_count": 7, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3163, "doi": "10.1007/s11581-024-05752-6", "umap_coordinates": { "x": 392.8772277832031, "y": 134.25442504882812, "z": 205.10275268554688 }, "tsne_coordinates": { "x": 31.412338256835938, "y": 12.334346771240234, "z": -5.215614318847656 }, "pca_coordinates": { "x": -3.7561588287353516, "y": -1.8377180099487305, "z": -0.07168251276016235 }, "axis_scores": { "Quantum imaging": 0.6696396470069885, "Quantum Life Science Sensing": 0.7014333009719849, "Quantum sensing Detection": 0.6626391410827637, "Quantum sensing Metrology": 0.6576146483421326, "Quantum sensing navigation": 0.6722864508628845, "Quantum sensing Position": 0.6604263782501221, "Quantum sensing Timing": 0.6399157047271729, "Quantum sensing": 0.6761674880981445, "Quantum control": 0.6573593616485596 } }, { "id": 3158, "title": "Trap States and Their Dynamics in Organometal Halide Perovskite Nanoparticles and Bulk Crystals", "abstract": "Organometal halide perovskites have attracted tremendous attention for optoelectronic applications. Charge carrier trapping is one of the dominant processes often deteriorating the performance of devi...", "citations": 150, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3164, "doi": "10.1021/acs.jpcc.6b00612", "umap_coordinates": { "x": 391.74853515625, "y": 135.07350158691406, "z": 206.3773956298828 }, "tsne_coordinates": { "x": 16.189607620239258, "y": -8.088118553161621, "z": -20.398744583129883 }, "pca_coordinates": { "x": -0.3243885040283203, "y": -3.9302821159362793, "z": -3.5721771717071533 }, "axis_scores": { "Quantum imaging": 0.7112661004066467, "Quantum Life Science Sensing": 0.7057346105575562, "Quantum sensing Detection": 0.6814628839492798, "Quantum sensing Metrology": 0.6725656986236572, "Quantum sensing navigation": 0.6827309727668762, "Quantum sensing Position": 0.6799533367156982, "Quantum sensing Timing": 0.6732372641563416, "Quantum sensing": 0.6922275424003601, "Quantum control": 0.687694251537323 } }, { "id": 3159, "title": "Albumin-based nanoparticles as magnetic resonance contrast agents: I. Concept, first syntheses and characterisation", "abstract": "To develop a platform for molecular magnetic resonance imaging, we prepared gadolinium-bearing albumin-polylactic acid nanoparticles in the size range 20-40 nm diameter. Iterative cycles of design and...", "citations": 23, "author_count": 17, "categories": [ "Cell Biology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3165, "doi": "10.1007/s00418-010-0676-z", "umap_coordinates": { "x": 393.8275451660156, "y": 134.39486694335938, "z": 204.29754638671875 }, "tsne_coordinates": { "x": 12.581352233886719, "y": 28.55302619934082, "z": -10.457064628601074 }, "pca_coordinates": { "x": -3.956209659576416, "y": 0.8883086442947388, "z": -2.1512415409088135 }, "axis_scores": { "Quantum imaging": 0.6865265369415283, "Quantum Life Science Sensing": 0.7156317234039307, "Quantum sensing Detection": 0.6705726981163025, "Quantum sensing Metrology": 0.6653323769569397, "Quantum sensing navigation": 0.6848934888839722, "Quantum sensing Position": 0.6775983572006226, "Quantum sensing Timing": 0.6533294916152954, "Quantum sensing": 0.6816948652267456, "Quantum control": 0.6664798259735107 } }, { "id": 3160, "title": "Yellow Fluorescent Semiconducting Polymer Dots with High Brightness, Small Size, and Narrow Emission for Biological Applications", "abstract": "Cross-linked polymer dots with intense and narrow yellow emission were designed using boron-dipyrromethene (BODIPY) polymer as the acceptor and poly[9,9-dioctylfluorenyl-2,7-diyl-co-1,4-benzo-{2,1'-3}...", "citations": 20, "author_count": 12, "categories": [ "Polymer Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3166, "doi": "10.1021/mz500383c", "umap_coordinates": { "x": 392.8642578125, "y": 134.64468383789062, "z": 204.4768524169922 }, "tsne_coordinates": { "x": 10.761984825134277, "y": 14.851639747619629, "z": -15.982089042663574 }, "pca_coordinates": { "x": -4.82580041885376, "y": -2.0761642456054688, "z": -0.05569100379943848 }, "axis_scores": { "Quantum imaging": 0.7218514680862427, "Quantum Life Science Sensing": 0.7466240525245667, "Quantum sensing Detection": 0.712121844291687, "Quantum sensing Metrology": 0.6960949301719666, "Quantum sensing navigation": 0.6909488439559937, "Quantum sensing Position": 0.6852753162384033, "Quantum sensing Timing": 0.668999433517456, "Quantum sensing": 0.7237808704376221, "Quantum control": 0.6881299018859863 } }, { "id": 3161, "title": "Photoelectrochemical Determination of the Absolute Band Edge Positions as a Function of Particle Size for ZnO Quantum Dots", "abstract": "The absolute position of the conduction and the valence band edges of ZnO quantum dots (Qdots) has been determined as a function of particle size with potential dependent absorption spectroscopy. The ...", "citations": 60, "author_count": 3, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3167, "doi": "10.1021/jp302220w", "umap_coordinates": { "x": 391.9003601074219, "y": 134.2384490966797, "z": 206.3739776611328 }, "tsne_coordinates": { "x": 19.530542373657227, "y": -8.30497932434082, "z": 5.225728511810303 }, "pca_coordinates": { "x": -2.6923203468322754, "y": -3.9694948196411133, "z": -0.927983820438385 }, "axis_scores": { "Quantum imaging": 0.6887995600700378, "Quantum Life Science Sensing": 0.7359664440155029, "Quantum sensing Detection": 0.6977980732917786, "Quantum sensing Metrology": 0.7038388252258301, "Quantum sensing navigation": 0.7022477984428406, "Quantum sensing Position": 0.7525482773780823, "Quantum sensing Timing": 0.6929489970207214, "Quantum sensing": 0.7093765735626221, "Quantum control": 0.6634998321533203 } }, { "id": 3162, "title": "A High-Rate Energy-Resolving Photon-Counting ASIC for Spectral Computed Tomography", "abstract": "We describe a high-rate energy-resolving photon-counting ASIC aimed for spectral computed tomography. The chip has 160 channels and 8 energy bins per channel. It demonstrates a noise level of ENC= ele...", "citations": 39, "author_count": 7, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3168, "doi": "10.1109/TNS.2011.2169811", "umap_coordinates": { "x": 394.84881591796875, "y": 133.02479553222656, "z": 206.09632873535156 }, "tsne_coordinates": { "x": -17.83375358581543, "y": 20.696918487548828, "z": -21.744796752929688 }, "pca_coordinates": { "x": -1.7955143451690674, "y": -0.9029457569122314, "z": 4.332010746002197 }, "axis_scores": { "Quantum imaging": 0.7103800773620605, "Quantum Life Science Sensing": 0.7053833603858948, "Quantum sensing Detection": 0.7063417434692383, "Quantum sensing Metrology": 0.6926884651184082, "Quantum sensing navigation": 0.6827459335327148, "Quantum sensing Position": 0.6622872948646545, "Quantum sensing Timing": 0.7232394218444824, "Quantum sensing": 0.7116344571113586, "Quantum control": 0.6371340751647949 } }, { "id": 3163, "title": "Luminescent and Optically Detected Magnetic Resonance Studies of CdS/PVA Nanocomposite", "abstract": "A series of solid nanocomposites containing CdS nanoparticles in polymeric matrix with varied conditions on the interface particle/polymer was fabricated and studied by photoluminescence (PL) and opti...", "citations": 12, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3169, "doi": "10.1186/s11671-017-1892-4", "umap_coordinates": { "x": 393.2921447753906, "y": 134.8445281982422, "z": 205.29490661621094 }, "tsne_coordinates": { "x": 31.85488510131836, "y": 15.369184494018555, "z": 4.32088565826416 }, "pca_coordinates": { "x": -3.30582857131958, "y": 0.02958393096923828, "z": -1.0880576372146606 }, "axis_scores": { "Quantum imaging": 0.6875337362289429, "Quantum Life Science Sensing": 0.7015596032142639, "Quantum sensing Detection": 0.667525053024292, "Quantum sensing Metrology": 0.6537660956382751, "Quantum sensing navigation": 0.6492139101028442, "Quantum sensing Position": 0.6509453058242798, "Quantum sensing Timing": 0.6447587609291077, "Quantum sensing": 0.6697574257850647, "Quantum control": 0.653626024723053 } }, { "id": 3164, "title": "Quantized dynamics of a coherent capacitor", "abstract": "A quantum coherent capacitor subject to large amplitude pulse cycles can be made to emit or reabsorb an electron in each half cycle. Quantized currents with pulse cycles in the GHz range have been dem...", "citations": 118, "author_count": 4, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3170, "doi": "10.1103/PhysRevLett.100.086601", "umap_coordinates": { "x": 394.37103271484375, "y": 136.53138732910156, "z": 208.15499877929688 }, "tsne_coordinates": { "x": -13.942442893981934, "y": -22.768386840820312, "z": 5.075624942779541 }, "pca_coordinates": { "x": 5.445006847381592, "y": -0.4966273307800293, "z": -0.9759173393249512 }, "axis_scores": { "Quantum imaging": 0.7363365888595581, "Quantum Life Science Sensing": 0.7532014846801758, "Quantum sensing Detection": 0.7436051368713379, "Quantum sensing Metrology": 0.7092218399047852, "Quantum sensing navigation": 0.7385367155075073, "Quantum sensing Position": 0.7221453785896301, "Quantum sensing Timing": 0.7221841812133789, "Quantum sensing": 0.7456082701683044, "Quantum control": 0.7408336400985718 } }, { "id": 3165, "title": "Magnetic force exerted by the Aharonov-Bohm line", "abstract": "The controversial question of the transverse force exerted by the Aharonov-Bohm (AB) magnetic-flux line is reconsidered with the help of a new paraxial solution to the AB-scattering problem. It is sho...", "citations": 34, "author_count": 2, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3171, "doi": "10.1209/epl/i1998-00408-4", "umap_coordinates": { "x": 393.6001892089844, "y": 136.4143524169922, "z": 207.75582885742188 }, "tsne_coordinates": { "x": 14.234783172607422, "y": -37.55443572998047, "z": 16.223896026611328 }, "pca_coordinates": { "x": 1.475250244140625, "y": 2.708975076675415, "z": -2.337599039077759 }, "axis_scores": { "Quantum imaging": 0.6804583072662354, "Quantum Life Science Sensing": 0.6602386236190796, "Quantum sensing Detection": 0.6443284749984741, "Quantum sensing Metrology": 0.6408987045288086, "Quantum sensing navigation": 0.6528467535972595, "Quantum sensing Position": 0.6695051193237305, "Quantum sensing Timing": 0.6388902068138123, "Quantum sensing": 0.6608359217643738, "Quantum control": 0.6956987380981445 } }, { "id": 3166, "title": "Induced unconventional superconductivity on the surface states of Bi2Te3 topological insulator", "abstract": "Topological superconductivity is central to a variety of novel phenomena involving the interplay between topologically ordered phases and broken-symmetry states. The key ingredient is an unconventiona...", "citations": 56, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3172, "doi": "10.1038/s41467-017-02069-z", "umap_coordinates": { "x": 392.8871154785156, "y": 135.7247314453125, "z": 207.83583068847656 }, "tsne_coordinates": { "x": 8.11254596710205, "y": -13.214444160461426, "z": 14.278939247131348 }, "pca_coordinates": { "x": 0.9151325225830078, "y": -1.9540610313415527, "z": -2.166882038116455 }, "axis_scores": { "Quantum imaging": 0.6766849756240845, "Quantum Life Science Sensing": 0.6751847863197327, "Quantum sensing Detection": 0.6746127605438232, "Quantum sensing Metrology": 0.6547474265098572, "Quantum sensing navigation": 0.6674792170524597, "Quantum sensing Position": 0.646434485912323, "Quantum sensing Timing": 0.6524888277053833, "Quantum sensing": 0.6790164709091187, "Quantum control": 0.6728035807609558 } }, { "id": 3167, "title": "Measurement of the photon polarization in Λb0 → Λγ decays", "abstract": "The photon polarization in b -> s gamma transitions is measured for the first time in radiative b -baryon decays exploiting the unique spin structure of Lambda(0)(b)-> Lambda(gamma) decays. A data sam...", "citations": 11, "author_count": 1009, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3173, "doi": "10.1103/PhysRevD.105.L051104", "umap_coordinates": { "x": 396.43536376953125, "y": 134.7541046142578, "z": 207.85194396972656 }, "tsne_coordinates": { "x": -26.38140106201172, "y": 2.6357877254486084, "z": -15.507246971130371 }, "pca_coordinates": { "x": 2.3108129501342773, "y": -0.19025564193725586, "z": 2.233548641204834 }, "axis_scores": { "Quantum imaging": 0.7335575819015503, "Quantum Life Science Sensing": 0.7520297765731812, "Quantum sensing Detection": 0.7569554448127747, "Quantum sensing Metrology": 0.7220246195793152, "Quantum sensing navigation": 0.7325207591056824, "Quantum sensing Position": 0.7271903157234192, "Quantum sensing Timing": 0.6951339840888977, "Quantum sensing": 0.7465908527374268, "Quantum control": 0.6893523335456848 } }, { "id": 3168, "title": "Entanglement duality in spin-spin interactions", "abstract": "We examine entanglement of thermal states for spin-1/2 dimers in external magnetic fields. Entanglement transition in the temperature-magnetic-field plane demonstrates a duality in spin-spin interacti...", "citations": 3, "author_count": 8, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3174, "doi": "10.1103/PhysRevA.106.032407", "umap_coordinates": { "x": 394.8146667480469, "y": 136.26776123046875, "z": 208.80189514160156 }, "tsne_coordinates": { "x": -14.697933197021484, "y": -12.454645156860352, "z": 6.416981220245361 }, "pca_coordinates": { "x": 6.051479816436768, "y": 0.14354920387268066, "z": -0.06032967567443848 }, "axis_scores": { "Quantum imaging": 0.7516577243804932, "Quantum Life Science Sensing": 0.7406795620918274, "Quantum sensing Detection": 0.7365245819091797, "Quantum sensing Metrology": 0.7081090211868286, "Quantum sensing navigation": 0.7485312819480896, "Quantum sensing Position": 0.7043371796607971, "Quantum sensing Timing": 0.7088028192520142, "Quantum sensing": 0.7458497881889343, "Quantum control": 0.7213923335075378 } }, { "id": 3169, "title": "Toward a Molecular Understanding of the Detection of Amyloid Proteins with Flexible Conjugated Oligothiophenes", "abstract": "Molecular and electronic structures and optical absorption properties of oligothiophenes used for spectral assignment of amyloid deposits have been investigated for a family of probes known as lumines...", "citations": 38, "author_count": 8, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3175, "doi": "10.1021/jp506797j", "umap_coordinates": { "x": 392.1827697753906, "y": 136.05491638183594, "z": 204.74221801757812 }, "tsne_coordinates": { "x": 2.1987252235412598, "y": 3.277127265930176, "z": -16.83740234375 }, "pca_coordinates": { "x": -1.5704141855239868, "y": -1.3653512001037598, "z": 0.04010206460952759 }, "axis_scores": { "Quantum imaging": 0.6990148425102234, "Quantum Life Science Sensing": 0.7175092101097107, "Quantum sensing Detection": 0.7023872137069702, "Quantum sensing Metrology": 0.6726759076118469, "Quantum sensing navigation": 0.6930599212646484, "Quantum sensing Position": 0.6696962714195251, "Quantum sensing Timing": 0.6588780879974365, "Quantum sensing": 0.7115476727485657, "Quantum control": 0.6603899002075195 } }, { "id": 3170, "title": "Count statistics and pileup correction for nonparalyzable photon counting detectors with finite pulse length", "abstract": "Photon counting detectors are expected to be the next big step in the development of medical computed tomography. Accurate modeling of the behavior of photon counting detectors in the high count rate ...", "citations": 2, "author_count": 4, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3176, "doi": "10.1117/12.2293095", "umap_coordinates": { "x": 395.6141662597656, "y": 133.2985382080078, "z": 206.4210968017578 }, "tsne_coordinates": { "x": -20.477359771728516, "y": 22.532888412475586, "z": -31.410531997680664 }, "pca_coordinates": { "x": -0.22918999195098877, "y": 2.6704399585723877, "z": 4.363837718963623 }, "axis_scores": { "Quantum imaging": 0.6858741641044617, "Quantum Life Science Sensing": 0.6931129097938538, "Quantum sensing Detection": 0.7071766257286072, "Quantum sensing Metrology": 0.6982395052909851, "Quantum sensing navigation": 0.6830449104309082, "Quantum sensing Position": 0.6735585331916809, "Quantum sensing Timing": 0.7003222703933716, "Quantum sensing": 0.6971434950828552, "Quantum control": 0.6559228301048279 } }, { "id": 3171, "title": "Robust window discriminator for photon-counting pixel detectors", "abstract": "The paper proposes a robust and area-efficient way of designing window discriminators for photon-counting pixel detectors. For that, an all-digital window discriminator is proposed. It is event-driven...", "citations": 4, "author_count": 4, "categories": [ "Engineering" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3177, "doi": "10.1049/ip-opt:20020437", "umap_coordinates": { "x": 394.77947998046875, "y": 133.18006896972656, "z": 205.9457244873047 }, "tsne_coordinates": { "x": -24.057870864868164, "y": 22.598623275756836, "z": -20.825965881347656 }, "pca_coordinates": { "x": -2.7322444915771484, "y": 0.565361499786377, "z": 4.0959248542785645 }, "axis_scores": { "Quantum imaging": 0.7434754967689514, "Quantum Life Science Sensing": 0.7155082821846008, "Quantum sensing Detection": 0.734481930732727, "Quantum sensing Metrology": 0.6982743740081787, "Quantum sensing navigation": 0.7046921253204346, "Quantum sensing Position": 0.7000629901885986, "Quantum sensing Timing": 0.7266398072242737, "Quantum sensing": 0.733550488948822, "Quantum control": 0.6865041255950928 } }, { "id": 3172, "title": "Distance measurements using partial donor-donor energy migration within pairs of fluorescent groups in lipid bilayers", "abstract": "For distance measurements the fluorescence relaxation was explored within pairwise interacting chemically identical, but photophysically different fluorescent groups. The recently developed theory (Ka...", "citations": 20, "author_count": 4, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3178, "doi": "10.1021/jp022672c", "umap_coordinates": { "x": 393.041015625, "y": 135.84130859375, "z": 205.65338134765625 }, "tsne_coordinates": { "x": 23.342975616455078, "y": 10.942071914672852, "z": 21.863744735717773 }, "pca_coordinates": { "x": -0.7276721000671387, "y": 0.1635425090789795, "z": -1.1719591617584229 }, "axis_scores": { "Quantum imaging": 0.6703960299491882, "Quantum Life Science Sensing": 0.6846963167190552, "Quantum sensing Detection": 0.6537888646125793, "Quantum sensing Metrology": 0.6579985022544861, "Quantum sensing navigation": 0.6593425273895264, "Quantum sensing Position": 0.7051437497138977, "Quantum sensing Timing": 0.6720016598701477, "Quantum sensing": 0.6695741415023804, "Quantum control": 0.6180115938186646 } }, { "id": 3173, "title": "Wafer Bonding: A Retrospective", "abstract": "Wafer bonding has become well-known and widely used as the process of adhesion of two flat mirror-polished wafers without the use of any intermediate adhesive layer. Today, it is used as a versatile t...", "citations": 1, "author_count": 2, "categories": [ "Electrochemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3179, "doi": "10.1149/1.3483533", "umap_coordinates": { "x": 394.8265075683594, "y": 134.6468963623047, "z": 205.8165740966797 }, "tsne_coordinates": { "x": 15.481215476989746, "y": -7.097202301025391, "z": -37.59513473510742 }, "pca_coordinates": { "x": -0.10199451446533203, "y": 2.1279377937316895, "z": 0.24924278259277344 }, "axis_scores": { "Quantum imaging": 0.6913403272628784, "Quantum Life Science Sensing": 0.7007765769958496, "Quantum sensing Detection": 0.7017245292663574, "Quantum sensing Metrology": 0.6964530944824219, "Quantum sensing navigation": 0.7018754482269287, "Quantum sensing Position": 0.697232723236084, "Quantum sensing Timing": 0.6947188973426819, "Quantum sensing": 0.7185648679733276, "Quantum control": 0.7141866683959961 } }, { "id": 3174, "title": "An Atomically Dispersed Mn Photocatalyst for Vicinal Dichlorination of Nonactivated Alkenes", "abstract": "A novel Mn-based single-atom photocatalyst is disclosed in this study, designed for the dichlorination of alkenes to achieve vicinal dichlorinated products using N-chlorosuccinimide as a mild chlorina...", "citations": 6, "author_count": 15, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3180, "doi": "10.1021/jacs.4c16413", "umap_coordinates": { "x": 391.8948669433594, "y": 134.7724151611328, "z": 204.82395935058594 }, "tsne_coordinates": { "x": 10.79250717163086, "y": -7.831362724304199, "z": -13.801712036132812 }, "pca_coordinates": { "x": -2.7764782905578613, "y": -1.6002540588378906, "z": -2.3459792137145996 }, "axis_scores": { "Quantum imaging": 0.6577035188674927, "Quantum Life Science Sensing": 0.6748705506324768, "Quantum sensing Detection": 0.648133397102356, "Quantum sensing Metrology": 0.6456587314605713, "Quantum sensing navigation": 0.6488451957702637, "Quantum sensing Position": 0.6250516772270203, "Quantum sensing Timing": 0.5999651551246643, "Quantum sensing": 0.6600114703178406, "Quantum control": 0.6379706263542175 } }, { "id": 3175, "title": "Measurements on a full-field digital mammography system with a photon counting crystalline silicon detector", "abstract": "Sectra Microdose is the first single photon counting mammography detector. An edge-on crystalline silicon detector is connected to application specific integrated circuits that individually process ea...", "citations": 19, "author_count": 7, "categories": [ "Engineering" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3181, "doi": "10.1117/12.480251", "umap_coordinates": { "x": 395.44677734375, "y": 132.66725158691406, "z": 205.97398376464844 }, "tsne_coordinates": { "x": -10.277538299560547, "y": 20.359874725341797, "z": -23.92864418029785 }, "pca_coordinates": { "x": -2.213822603225708, "y": 1.4095487594604492, "z": 5.521825313568115 }, "axis_scores": { "Quantum imaging": 0.7353619933128357, "Quantum Life Science Sensing": 0.7254078984260559, "Quantum sensing Detection": 0.7276156544685364, "Quantum sensing Metrology": 0.7369908690452576, "Quantum sensing navigation": 0.6997690796852112, "Quantum sensing Position": 0.6936490535736084, "Quantum sensing Timing": 0.691569447517395, "Quantum sensing": 0.7312212586402893, "Quantum control": 0.6603355407714844 } }, { "id": 3176, "title": "Determination of a molecular torsional angle in the metarhodopsin-I photointermediate of rhodopsin by double-quantum solid-state NMR", "abstract": "We present a solid-state NMR study of metarhodopsin-I, the pre-discharge intermediate of the photochemical signal transduction cascade of rhodopsin, which is the 41 kDa integral membrane protein that ...", "citations": 64, "author_count": 11, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3182, "doi": "10.1023/A:1008377231625", "umap_coordinates": { "x": 392.6055603027344, "y": 136.7223358154297, "z": 206.2198944091797 }, "tsne_coordinates": { "x": 17.940031051635742, "y": 3.4496006965637207, "z": 24.94109535217285 }, "pca_coordinates": { "x": -0.9639444351196289, "y": 1.8077232837677002, "z": -0.8693910837173462 }, "axis_scores": { "Quantum imaging": 0.7050281167030334, "Quantum Life Science Sensing": 0.7071869969367981, "Quantum sensing Detection": 0.6813347935676575, "Quantum sensing Metrology": 0.6798547506332397, "Quantum sensing navigation": 0.6845380067825317, "Quantum sensing Position": 0.6802802085876465, "Quantum sensing Timing": 0.6805083155632019, "Quantum sensing": 0.6932390928268433, "Quantum control": 0.6605160236358643 } }, { "id": 3177, "title": "Direct photon production in d+Au collisions at √sNN=200 GeV", "abstract": "Direct photons have been measured in root s(NN) = 200 GeV d + Au collisions at midrapidity. A wide p(T) range is covered by measurements of nearly real virtual photons (1 < p(T) < 6 GeV/c) and real ph...", "citations": 62, "author_count": 547, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3183, "doi": "10.1103/PhysRevC.87.054907", "umap_coordinates": { "x": 396.3072509765625, "y": 134.5108642578125, "z": 208.0624237060547 }, "tsne_coordinates": { "x": -33.82682418823242, "y": 2.2260899543762207, "z": -17.557044982910156 }, "pca_coordinates": { "x": 2.957660675048828, "y": -1.5812554359436035, "z": 3.3079378604888916 }, "axis_scores": { "Quantum imaging": 0.7002708911895752, "Quantum Life Science Sensing": 0.7156414985656738, "Quantum sensing Detection": 0.7360822558403015, "Quantum sensing Metrology": 0.7027205228805542, "Quantum sensing navigation": 0.7236437797546387, "Quantum sensing Position": 0.7001693844795227, "Quantum sensing Timing": 0.691274881362915, "Quantum sensing": 0.7237266302108765, "Quantum control": 0.6864623427391052 } }, { "id": 3178, "title": "Effect of photonic bandgap on luminescence from silicon nanocrystals", "abstract": "The modification of the luminescence of silicon nanocrystals experiencing the effect of a photonic bandgap in a 2D photonic crystal was investigated. The time-integrated photoluminescence spectra dete...", "citations": 11, "author_count": 6, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3184, "doi": "10.1364/OL.32.001878", "umap_coordinates": { "x": 393.2360534667969, "y": 133.67848205566406, "z": 206.53384399414062 }, "tsne_coordinates": { "x": 34.72869110107422, "y": -15.364615440368652, "z": -5.231125831604004 }, "pca_coordinates": { "x": -1.7717835903167725, "y": -1.8281092643737793, "z": 1.641273021697998 }, "axis_scores": { "Quantum imaging": 0.7411515712738037, "Quantum Life Science Sensing": 0.7340235114097595, "Quantum sensing Detection": 0.7169065475463867, "Quantum sensing Metrology": 0.722195029258728, "Quantum sensing navigation": 0.7087860107421875, "Quantum sensing Position": 0.690453052520752, "Quantum sensing Timing": 0.6840023398399353, "Quantum sensing": 0.7353311777114868, "Quantum control": 0.7068638801574707 } }, { "id": 3179, "title": "Propagation of 3D wave packets for nonzero total angular momentum using the split operator method", "abstract": "Three-dimensional wave packet calculations for total angular momentum quantum number J greater than or equal to 0 have been performed in Jacobi coordinates. To be able to use the split operator propag...", "citations": 6, "author_count": 4, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3185, "doi": "10.1021/jp011036w", "umap_coordinates": { "x": 394.63848876953125, "y": 136.8158416748047, "z": 206.9525909423828 }, "tsne_coordinates": { "x": -16.85708236694336, "y": -3.5210256576538086, "z": 17.36017417907715 }, "pca_coordinates": { "x": 1.0293617248535156, "y": 0.731468915939331, "z": 0.4927211403846741 }, "axis_scores": { "Quantum imaging": 0.6738177537918091, "Quantum Life Science Sensing": 0.6522209644317627, "Quantum sensing Detection": 0.6587069034576416, "Quantum sensing Metrology": 0.6490702033042908, "Quantum sensing navigation": 0.694690465927124, "Quantum sensing Position": 0.6635758280754089, "Quantum sensing Timing": 0.6460502743721008, "Quantum sensing": 0.6705192923545837, "Quantum control": 0.6421490907669067 } }, { "id": 3180, "title": "Aqueous based ultra-small magnetic Cr-doped CdSe quantum dots as a potential dual imaging probe in biomedicine", "abstract": "The substitution of semiconductor quantum dots (QDs) by a small number of transition-metal ions with magnetic properties gives rise to magnetic-doped semiconductors. With a balance of optical and magn...", "citations": 3, "author_count": 13, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3186, "doi": "10.1039/d4bm00811a", "umap_coordinates": { "x": 392.9837646484375, "y": 135.19869995117188, "z": 205.42552185058594 }, "tsne_coordinates": { "x": 14.465202331542969, "y": 17.8013858795166, "z": -13.931792259216309 }, "pca_coordinates": { "x": -2.9546756744384766, "y": -0.5156621932983398, "z": -2.0769035816192627 }, "axis_scores": { "Quantum imaging": 0.7447413206100464, "Quantum Life Science Sensing": 0.7580063343048096, "Quantum sensing Detection": 0.7267663478851318, "Quantum sensing Metrology": 0.7058832049369812, "Quantum sensing navigation": 0.7034682631492615, "Quantum sensing Position": 0.7015003561973572, "Quantum sensing Timing": 0.6770285367965698, "Quantum sensing": 0.728035032749176, "Quantum control": 0.6857642531394958 } }, { "id": 3181, "title": "Full counting statistics of the photocurrent through a double quantum dot embedded in a driven microwave resonator", "abstract": "Detection of single, itinerant microwave photons is an important functionality for emerging quantum technol-ogy applications as well as of fundamental interest in quantum thermodynamics experiments on...", "citations": 19, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3187, "doi": "10.1103/PhysRevB.106.205135", "umap_coordinates": { "x": 395.2807312011719, "y": 135.19174194335938, "z": 208.1240692138672 }, "tsne_coordinates": { "x": -9.828887939453125, "y": -24.28694725036621, "z": -7.886727333068848 }, "pca_coordinates": { "x": 3.124289035797119, "y": -1.559873104095459, "z": 2.2299346923828125 }, "axis_scores": { "Quantum imaging": 0.7260255813598633, "Quantum Life Science Sensing": 0.7515014410018921, "Quantum sensing Detection": 0.7426589131355286, "Quantum sensing Metrology": 0.7443241477012634, "Quantum sensing navigation": 0.7294903993606567, "Quantum sensing Position": 0.6965315341949463, "Quantum sensing Timing": 0.7044554352760315, "Quantum sensing": 0.7424953579902649, "Quantum control": 0.6980152130126953 } }, { "id": 3182, "title": "X-ray radiation hardness and influence on blinking in Si and CdSe quantum dots", "abstract": "We study the effect of X-ray irradiation on the photoluminescence (PL) efficiency and intermittency (blinking) of single Si/SiO2 and CdSe/CdZnS quantum dots (QDs). Our results show that the PL efficie...", "citations": 3, "author_count": 8, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3188, "doi": "10.1063/1.5053885", "umap_coordinates": { "x": 393.18597412109375, "y": 133.49478149414062, "z": 207.65121459960938 }, "tsne_coordinates": { "x": 38.7009391784668, "y": -2.9185423851013184, "z": -8.442645072937012 }, "pca_coordinates": { "x": -0.8134325742721558, "y": -2.2635068893432617, "z": 0.3769957423210144 }, "axis_scores": { "Quantum imaging": 0.7408890128135681, "Quantum Life Science Sensing": 0.7763879895210266, "Quantum sensing Detection": 0.7352836728096008, "Quantum sensing Metrology": 0.712883472442627, "Quantum sensing navigation": 0.7061325311660767, "Quantum sensing Position": 0.7106539011001587, "Quantum sensing Timing": 0.6935968399047852, "Quantum sensing": 0.7471320629119873, "Quantum control": 0.7042674422264099 } }, { "id": 3183, "title": "Directed Energy Transfer in Films of CdSe Quantum Dots: Beyond the Point Dipole Approximation", "abstract": "Understanding of Forster resonance energy transfer (FRET) in thin films composed of quantum dots (QDs) is of fundamental and technological significance in optimal design of QD based optoelectronic dev...", "citations": 75, "author_count": 9, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3189, "doi": "10.1021/ja411127w", "umap_coordinates": { "x": 392.400390625, "y": 135.32064819335938, "z": 206.2248992919922 }, "tsne_coordinates": { "x": 17.20391845703125, "y": -7.799727439880371, "z": 2.2031044960021973 }, "pca_coordinates": { "x": -0.6716035604476929, "y": -3.934943675994873, "z": -1.3759177923202515 }, "axis_scores": { "Quantum imaging": 0.6747612357139587, "Quantum Life Science Sensing": 0.6932969093322754, "Quantum sensing Detection": 0.669269323348999, "Quantum sensing Metrology": 0.6464067101478577, "Quantum sensing navigation": 0.6765833497047424, "Quantum sensing Position": 0.6711642742156982, "Quantum sensing Timing": 0.6371614336967468, "Quantum sensing": 0.6802849769592285, "Quantum control": 0.6765207052230835 } }, { "id": 3184, "title": "Engineering the Luminescence and Generation of Individual Defect Emitters in Atomically Thin MoS2", "abstract": "We demonstrate the on-demand creation and positioning of photon emitters in atomically thin MoS2 with very narrow ensemble broadening and negligible background luminescence. Focused helium-ion beam ir...", "citations": 79, "author_count": 17, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3190, "doi": "10.1021/acsphotonics.0c01907", "umap_coordinates": { "x": 392.6647644042969, "y": 133.84593200683594, "z": 206.57435607910156 }, "tsne_coordinates": { "x": 23.44648551940918, "y": -10.717538833618164, "z": -17.479238510131836 }, "pca_coordinates": { "x": -1.8978846073150635, "y": -4.474416732788086, "z": 0.7783356308937073 }, "axis_scores": { "Quantum imaging": 0.7374429106712341, "Quantum Life Science Sensing": 0.7327768802642822, "Quantum sensing Detection": 0.7239911556243896, "Quantum sensing Metrology": 0.7206533551216125, "Quantum sensing navigation": 0.6984660625457764, "Quantum sensing Position": 0.6827712655067444, "Quantum sensing Timing": 0.6794901490211487, "Quantum sensing": 0.7344964146614075, "Quantum control": 0.68996661901474 } }, { "id": 3185, "title": "Protein-induced bonding perturbation of the rhodopsin chromophore detected by double-quantum solid-state NMR", "abstract": "We have obtained carbon-carbon bond length data for the functional retinylidene chromophore of rhodopsin, with a spatial resolution of 3 pm. The very high resolution was obtained by performing double-...", "citations": 59, "author_count": 14, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3191, "doi": "10.1021/ja039390q", "umap_coordinates": { "x": 392.5830993652344, "y": 136.8123779296875, "z": 205.90057373046875 }, "tsne_coordinates": { "x": 18.462827682495117, "y": 4.601974964141846, "z": 26.57547378540039 }, "pca_coordinates": { "x": -0.5808953642845154, "y": -0.3910789489746094, "z": -3.003156900405884 }, "axis_scores": { "Quantum imaging": 0.7185002565383911, "Quantum Life Science Sensing": 0.7563112378120422, "Quantum sensing Detection": 0.7181587815284729, "Quantum sensing Metrology": 0.6955813765525818, "Quantum sensing navigation": 0.7024738192558289, "Quantum sensing Position": 0.6866757869720459, "Quantum sensing Timing": 0.6650627851486206, "Quantum sensing": 0.7286843657493591, "Quantum control": 0.6874020099639893 } }, { "id": 3186, "title": "Design of a ballistic fluxon qubit readout", "abstract": "A detailed design is given for a flux qubit readout using ballistic fluxons. In this scheme, fluxons propagate through an underdamped Josephson transmission line (JTL) coupled to the qubit, whose stat...", "citations": 42, "author_count": 6, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3192, "doi": "10.1088/0953-2048/20/11/S29", "umap_coordinates": { "x": 394.51361083984375, "y": 135.29458618164062, "z": 207.2423858642578 }, "tsne_coordinates": { "x": 0.40677639842033386, "y": -13.079110145568848, "z": 26.20076560974121 }, "pca_coordinates": { "x": 0.7573127746582031, "y": 1.1687721014022827, "z": 0.7125334143638611 }, "axis_scores": { "Quantum imaging": 0.7163370847702026, "Quantum Life Science Sensing": 0.7304407954216003, "Quantum sensing Detection": 0.7271102666854858, "Quantum sensing Metrology": 0.7128565907478333, "Quantum sensing navigation": 0.7476156949996948, "Quantum sensing Position": 0.7266437411308289, "Quantum sensing Timing": 0.706057608127594, "Quantum sensing": 0.735954999923706, "Quantum control": 0.7147652506828308 } }, { "id": 3187, "title": "Irreversible quantum graphs", "abstract": "Irreversibility is introduced to quantum graphs by coupling the graphs to a bath of harmonic oscillators. The interaction which is linear in the harmonic oscillator amplitudes is localized at the vert...", "citations": 26, "author_count": 2, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3193, "doi": "10.1088/0959-7174/14/1/016", "umap_coordinates": { "x": 395.0103454589844, "y": 136.9333038330078, "z": 207.300048828125 }, "tsne_coordinates": { "x": -35.927310943603516, "y": -8.802741050720215, "z": 0.2872004508972168 }, "pca_coordinates": { "x": 2.7723913192749023, "y": 2.584333896636963, "z": -1.2336211204528809 }, "axis_scores": { "Quantum imaging": 0.7695109248161316, "Quantum Life Science Sensing": 0.7522345781326294, "Quantum sensing Detection": 0.7387276887893677, "Quantum sensing Metrology": 0.715225875377655, "Quantum sensing navigation": 0.7524321675300598, "Quantum sensing Position": 0.7184900045394897, "Quantum sensing Timing": 0.7199022173881531, "Quantum sensing": 0.7565276026725769, "Quantum control": 0.7367057204246521 } }, { "id": 3188, "title": "Characterization of Cystic Lesions by Spectral Mammography: Results of a Clinical Pilot Study", "abstract": "Objectives Round lesions are a common mammographic finding, which can contribute more than 20% of overall recalls at screening. Discrimination of cystic fluid from solid tissue by spectral x-ray imagi...", "citations": 23, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3194, "doi": "10.1097/RLI.0000000000000246", "umap_coordinates": { "x": 395.4552917480469, "y": 133.33778381347656, "z": 205.03126525878906 }, "tsne_coordinates": { "x": -7.969462871551514, "y": 22.72947120666504, "z": -29.597854614257812 }, "pca_coordinates": { "x": -3.2098851203918457, "y": 4.30404806137085, "z": 1.2291696071624756 }, "axis_scores": { "Quantum imaging": 0.7024674415588379, "Quantum Life Science Sensing": 0.7006201148033142, "Quantum sensing Detection": 0.689136266708374, "Quantum sensing Metrology": 0.6744757294654846, "Quantum sensing navigation": 0.6577292680740356, "Quantum sensing Position": 0.6524128317832947, "Quantum sensing Timing": 0.6200752854347229, "Quantum sensing": 0.6863247752189636, "Quantum control": 0.6438740491867065 } }, { "id": 3189, "title": "Spin-Echo Silencing Using a Current-Biased Frequency-Tunable Resonator", "abstract": "The ability to control microwave emission from a spin ensemble is a requirement of several quantum memory protocols. Here, we demonstrate such ability by using a resonator whose frequency can be rapid...", "citations": 9, "author_count": 9, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3195, "doi": "10.1103/PhysRevLett.129.180504", "umap_coordinates": { "x": 394.6692810058594, "y": 135.3853302001953, "z": 207.8452911376953 }, "tsne_coordinates": { "x": 1.1859313249588013, "y": -11.740859031677246, "z": 16.50163459777832 }, "pca_coordinates": { "x": 2.5756723880767822, "y": -0.5579385757446289, "z": 1.122852087020874 }, "axis_scores": { "Quantum imaging": 0.6967973709106445, "Quantum Life Science Sensing": 0.7196019291877747, "Quantum sensing Detection": 0.6953469514846802, "Quantum sensing Metrology": 0.6876442432403564, "Quantum sensing navigation": 0.709735631942749, "Quantum sensing Position": 0.6956413984298706, "Quantum sensing Timing": 0.6795639395713806, "Quantum sensing": 0.707175076007843, "Quantum control": 0.6860171556472778 } }, { "id": 3190, "title": "Single-dot absorption spectroscopy and theory of silicon nanocrystals", "abstract": "Photoluminescence excitation measurements have been performed on single, unstrained oxide-embedded Si nanocrystals. Having overcome the challenge of detecting weak emission, we observe four broad peak...", "citations": 39, "author_count": 6, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3196, "doi": "10.1103/PhysRevB.93.161413", "umap_coordinates": { "x": 394.2720947265625, "y": 133.78062438964844, "z": 208.31219482421875 }, "tsne_coordinates": { "x": 6.335677623748779, "y": -25.739656448364258, "z": -7.843765735626221 }, "pca_coordinates": { "x": 2.3108162879943848, "y": -4.041810512542725, "z": 2.3195652961730957 }, "axis_scores": { "Quantum imaging": 0.7167856097221375, "Quantum Life Science Sensing": 0.7601010203361511, "Quantum sensing Detection": 0.7507978081703186, "Quantum sensing Metrology": 0.7437191605567932, "Quantum sensing navigation": 0.7242549061775208, "Quantum sensing Position": 0.7003519535064697, "Quantum sensing Timing": 0.6935662627220154, "Quantum sensing": 0.751343846321106, "Quantum control": 0.6987560987472534 } }, { "id": 3191, "title": "Role of the host polymer matrix in light emission processes in nano-CdS/poly vinyl alcohol composite", "abstract": "Participation of a polymeric media in light-emitting processes of composite nano-CdS/polyvinyl alcohol is studied by probing different absorption-emission routes via adjustment of excitation wavelengt...", "citations": 14, "author_count": 8, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3197, "doi": "10.1016/j.tsf.2013.04.035", "umap_coordinates": { "x": 393.0327453613281, "y": 134.1258087158203, "z": 205.2269287109375 }, "tsne_coordinates": { "x": 32.16909408569336, "y": 11.09714126586914, "z": 7.1135969161987305 }, "pca_coordinates": { "x": -3.589341878890991, "y": -1.7405567169189453, "z": -1.538984775543213 }, "axis_scores": { "Quantum imaging": 0.6970199346542358, "Quantum Life Science Sensing": 0.7103250026702881, "Quantum sensing Detection": 0.6833038926124573, "Quantum sensing Metrology": 0.6548503637313843, "Quantum sensing navigation": 0.6524484157562256, "Quantum sensing Position": 0.6514074802398682, "Quantum sensing Timing": 0.652988612651825, "Quantum sensing": 0.6959596872329712, "Quantum control": 0.6885449886322021 } }, { "id": 3192, "title": "Tightly-integrated quantum-classical computing using the QHDL hardware description language", "abstract": "We present the design, development, and application of QHDL, a quantum hardware description language specifically designed for tightly-coupled quantum-classical computing systems. Together with the la...", "citations": 2, "author_count": 5, "categories": [ "Computer Science" ], "year": 2026, "topic": [ "all" ], "embedding_index": 3198, "doi": "10.1016/j.future.2025.107977", "umap_coordinates": { "x": 395.03363037109375, "y": 136.32208251953125, "z": 205.69479370117188 }, "tsne_coordinates": { "x": -16.838516235351562, "y": 16.490798950195312, "z": 14.239263534545898 }, "pca_coordinates": { "x": -0.1369696855545044, "y": 2.0926098823547363, "z": 0.38696783781051636 }, "axis_scores": { "Quantum imaging": 0.7849555611610413, "Quantum Life Science Sensing": 0.7881312966346741, "Quantum sensing Detection": 0.7732553482055664, "Quantum sensing Metrology": 0.7539780735969543, "Quantum sensing navigation": 0.7716392278671265, "Quantum sensing Position": 0.7423657178878784, "Quantum sensing Timing": 0.7607711553573608, "Quantum sensing": 0.788726806640625, "Quantum control": 0.7863972187042236 } }, { "id": 3193, "title": "Search for C violation in the decay η → π0e+e- with WASA-at-COSY", "abstract": "We report on the search for the rare decay eta -> pi(0)e(+)e(-) which is of interest to study C violation in the electromagnetic interaction which would indicate contributions from physics beyond the ...", "citations": 3, "author_count": 93, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3199, "doi": "10.1016/j.physletb.2018.07.017", "umap_coordinates": { "x": 396.9596862792969, "y": 134.54925537109375, "z": 207.17210388183594 }, "tsne_coordinates": { "x": -34.32007598876953, "y": 8.782905578613281, "z": -1.6756871938705444 }, "pca_coordinates": { "x": -0.4952682852745056, "y": 2.7546682357788086, "z": 1.2852585315704346 }, "axis_scores": { "Quantum imaging": 0.6670273542404175, "Quantum Life Science Sensing": 0.6598874926567078, "Quantum sensing Detection": 0.6673786044120789, "Quantum sensing Metrology": 0.6476277112960815, "Quantum sensing navigation": 0.6771960854530334, "Quantum sensing Position": 0.6709105372428894, "Quantum sensing Timing": 0.6784660220146179, "Quantum sensing": 0.6637263894081116, "Quantum control": 0.6563094854354858 } }, { "id": 3194, "title": "Bead-Fourier path integral molecular dynamics - art. no. 066710", "abstract": "Molecular dynamics formulation of Bead-Fourier path integral method for simulation of quantum systems at finite temperatures is presented. Within this scheme, both the bead coordinates and Fourier coe...", "citations": 9, "author_count": 4, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3200, "doi": "10.1103/PhysRevE.67.066710", "umap_coordinates": { "x": 394.24609375, "y": 136.4801788330078, "z": 207.41310119628906 }, "tsne_coordinates": { "x": -15.786328315734863, "y": -16.456787109375, "z": -4.457977771759033 }, "pca_coordinates": { "x": 3.3395237922668457, "y": 0.28161096572875977, "z": -0.05211895704269409 }, "axis_scores": { "Quantum imaging": 0.7169795632362366, "Quantum Life Science Sensing": 0.7206249833106995, "Quantum sensing Detection": 0.7011591196060181, "Quantum sensing Metrology": 0.69618821144104, "Quantum sensing navigation": 0.7329931259155273, "Quantum sensing Position": 0.698959469795227, "Quantum sensing Timing": 0.6853058338165283, "Quantum sensing": 0.7148268222808838, "Quantum control": 0.6952110528945923 } }, { "id": 3195, "title": "Development of a hybrid quantum chemical and molecular mechanics method with application to solvent effects on the electronic spectra of uracil and uracil derivatives", "abstract": "A method for molecular dynamics (MD), Monte Carlo (MC), and energy minimization simulation utilizing a Hamiltonian that is divided into two parts is described. One part is treated with a quantum mecha...", "citations": 55, "author_count": 4, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3201, "doi": "10.1021/jp9629699", "umap_coordinates": { "x": 393.3572998046875, "y": 137.25592041015625, "z": 205.5988311767578 }, "tsne_coordinates": { "x": -0.3659965395927429, "y": 11.61352825164795, "z": 31.825637817382812 }, "pca_coordinates": { "x": -1.3679478168487549, "y": -0.03028106689453125, "z": -1.4430406093597412 }, "axis_scores": { "Quantum imaging": 0.700780987739563, "Quantum Life Science Sensing": 0.7163181900978088, "Quantum sensing Detection": 0.6924317479133606, "Quantum sensing Metrology": 0.6888108253479004, "Quantum sensing navigation": 0.6788027882575989, "Quantum sensing Position": 0.6679826974868774, "Quantum sensing Timing": 0.6704849004745483, "Quantum sensing": 0.7093769907951355, "Quantum control": 0.6831719875335693 } }, { "id": 3196, "title": "Insights into the origin of the excited transitions in graphene quantum dots interacting with heavy metals in different media", "abstract": "Exploring graphene quantum dots (GQDs) is an attractive way to design novel optical and electrochemical sensors for fast and reliable detection of toxic heavy metals (HMs), such as Cd, Hg and Pb. Ther...", "citations": 31, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3202, "doi": "10.1039/c7cp04711h", "umap_coordinates": { "x": 392.0615539550781, "y": 135.60159301757812, "z": 206.12777709960938 }, "tsne_coordinates": { "x": 12.40888500213623, "y": -5.388189315795898, "z": -0.08176644146442413 }, "pca_coordinates": { "x": 0.5682480335235596, "y": -1.2161865234375, "z": -2.707732915878296 }, "axis_scores": { "Quantum imaging": 0.694483757019043, "Quantum Life Science Sensing": 0.7063790559768677, "Quantum sensing Detection": 0.6941371560096741, "Quantum sensing Metrology": 0.6589283347129822, "Quantum sensing navigation": 0.6684607863426208, "Quantum sensing Position": 0.6556105017662048, "Quantum sensing Timing": 0.6471960544586182, "Quantum sensing": 0.6964428424835205, "Quantum control": 0.6653217077255249 } }, { "id": 3197, "title": "Excited state non-adiabatic dynamics of pyrrole: A time-resolved photoelectron spectroscopy and quantum dynamics study", "abstract": "The dynamics of pyrrole excited at wavelengths in the range 242-217 nm are studied using a combination of time-resolved photoelectron spectroscopy and wavepacket propagations performed using the multi...", "citations": 74, "author_count": 8, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3203, "doi": "10.1063/1.4907529", "umap_coordinates": { "x": 392.7903747558594, "y": 135.87454223632812, "z": 206.9253387451172 }, "tsne_coordinates": { "x": -2.359513521194458, "y": 3.7033607959747314, "z": 11.044425010681152 }, "pca_coordinates": { "x": 1.266225814819336, "y": -1.1083159446716309, "z": -1.1153193712234497 }, "axis_scores": { "Quantum imaging": 0.7241331338882446, "Quantum Life Science Sensing": 0.7431141138076782, "Quantum sensing Detection": 0.7289905548095703, "Quantum sensing Metrology": 0.6953750252723694, "Quantum sensing navigation": 0.6925252079963684, "Quantum sensing Position": 0.6852270364761353, "Quantum sensing Timing": 0.6885042190551758, "Quantum sensing": 0.7350893616676331, "Quantum control": 0.7103604674339294 } }, { "id": 3198, "title": "Magnetization Density Distribution of Sr2IrO4: Deviation from a Local jeff=1/2 Picture", "abstract": "5d iridium oxides are of huge interest due to the potential for new quantum states driven by strong spinorbit coupling. The strontium iridate Sr2IO4 is particularly in the spotlight because of the so-...", "citations": 15, "author_count": 14, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3204, "doi": "10.1103/PhysRevLett.125.097202", "umap_coordinates": { "x": 393.2944641113281, "y": 136.75991821289062, "z": 208.512939453125 }, "tsne_coordinates": { "x": -3.101356029510498, "y": -25.283987045288086, "z": 18.852163314819336 }, "pca_coordinates": { "x": 2.7613301277160645, "y": -0.07826972007751465, "z": -2.0005743503570557 }, "axis_scores": { "Quantum imaging": 0.7067122459411621, "Quantum Life Science Sensing": 0.7188840508460999, "Quantum sensing Detection": 0.684057354927063, "Quantum sensing Metrology": 0.7017782926559448, "Quantum sensing navigation": 0.6978117227554321, "Quantum sensing Position": 0.6815717220306396, "Quantum sensing Timing": 0.6486284732818604, "Quantum sensing": 0.7014548182487488, "Quantum control": 0.6809461116790771 } }, { "id": 3199, "title": "Unraveling factors leading to efficient norbornadiene-quadricyclane molecular solar-thermal energy storage systems", "abstract": "Developing norbornadiene-quadricyclane (NBD-QC) systems for molecular solar-thermal (MOST) energy storage is often a process of trial and error. By studying a series of norbornadienes (NBD-R-2) doubly...", "citations": 105, "author_count": 12, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3205, "doi": "10.1039/c7ta04259k", "umap_coordinates": { "x": 391.9079895019531, "y": 134.8298797607422, "z": 205.35704040527344 }, "tsne_coordinates": { "x": 5.084959030151367, "y": -1.368627905845642, "z": -6.16028356552124 }, "pca_coordinates": { "x": -0.5612310767173767, "y": -1.247096300125122, "z": -2.256006956100464 }, "axis_scores": { "Quantum imaging": 0.6877611875534058, "Quantum Life Science Sensing": 0.7041546106338501, "Quantum sensing Detection": 0.6797287464141846, "Quantum sensing Metrology": 0.6770935654640198, "Quantum sensing navigation": 0.6813156008720398, "Quantum sensing Position": 0.652730405330658, "Quantum sensing Timing": 0.6755492091178894, "Quantum sensing": 0.6986943483352661, "Quantum control": 0.692805826663971 } }, { "id": 3200, "title": "Field-quadrature and photon-number correlations produced by parametric processes", "abstract": "In a previous paper [Opt. Express 13, 4986 (2005)], formulas were derived for the field-quadrature and photon-number variances produced by multiple-mode parametric processes. In this paper, formulas a...", "citations": 29, "author_count": 4, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3206, "doi": "10.1364/OE.18.019792", "umap_coordinates": { "x": 394.783203125, "y": 134.79884338378906, "z": 206.72103881835938 }, "tsne_coordinates": { "x": -5.7497334480285645, "y": -6.5842156410217285, "z": -27.455156326293945 }, "pca_coordinates": { "x": 0.9407963752746582, "y": 2.0439772605895996, "z": 2.426912784576416 }, "axis_scores": { "Quantum imaging": 0.7584648132324219, "Quantum Life Science Sensing": 0.7250139117240906, "Quantum sensing Detection": 0.7516552209854126, "Quantum sensing Metrology": 0.7368309497833252, "Quantum sensing navigation": 0.7428184151649475, "Quantum sensing Position": 0.7185268998146057, "Quantum sensing Timing": 0.7376899719238281, "Quantum sensing": 0.7528464794158936, "Quantum control": 0.7295243144035339 } }, { "id": 3201, "title": "Feynman-Kleinert linearized path integral (FK-LPI) algorithms for quantum molecular dynamics, with application to water and He(4)", "abstract": "The Feynman-Kleinert Linearized Path Integral (FK-LPI) representation of quantum correlation functions is extended in applications and algorithms. Diffusion including quantum effects for a flexible si...", "citations": 53, "author_count": 4, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3207, "doi": "10.1021/ct600167s", "umap_coordinates": { "x": 393.514404296875, "y": 137.42347717285156, "z": 205.90460205078125 }, "tsne_coordinates": { "x": -13.819376945495605, "y": 4.223029613494873, "z": 25.610782623291016 }, "pca_coordinates": { "x": -0.09930121898651123, "y": 1.3231680393218994, "z": -2.45223331451416 }, "axis_scores": { "Quantum imaging": 0.692138135433197, "Quantum Life Science Sensing": 0.7073584794998169, "Quantum sensing Detection": 0.6550014019012451, "Quantum sensing Metrology": 0.6574139595031738, "Quantum sensing navigation": 0.6839616894721985, "Quantum sensing Position": 0.6543959975242615, "Quantum sensing Timing": 0.6536685228347778, "Quantum sensing": 0.6796789169311523, "Quantum control": 0.6671959161758423 } }, { "id": 3202, "title": "Single Photon Counter Based on a Josephson Junction at 14 GHz for Searching Galactic Axions", "abstract": "Axions and axion-like particles appear in well-motivated extensions of the standard model of particle physics and may be the solution to the long-standing puzzle of the dark matter in our Universe. Se...", "citations": 40, "author_count": 8, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3208, "doi": "10.1109/TASC.2018.2850019", "umap_coordinates": { "x": 394.9608154296875, "y": 133.3778533935547, "z": 207.26942443847656 }, "tsne_coordinates": { "x": -12.67739200592041, "y": 0.9828366637229919, "z": -25.021976470947266 }, "pca_coordinates": { "x": 0.326931357383728, "y": -0.3055899143218994, "z": 3.9196367263793945 }, "axis_scores": { "Quantum imaging": 0.7098524570465088, "Quantum Life Science Sensing": 0.7135834693908691, "Quantum sensing Detection": 0.721897542476654, "Quantum sensing Metrology": 0.7015846967697144, "Quantum sensing navigation": 0.73609858751297, "Quantum sensing Position": 0.7011210322380066, "Quantum sensing Timing": 0.7381306886672974, "Quantum sensing": 0.7211152911186218, "Quantum control": 0.6873331069946289 } }, { "id": 3203, "title": "A New Nano-Scale and Energy-Optimized Reversible Digital Circuit Based on Quantum Technology", "abstract": "A nano-scale quantum-dot cellular automaton (QCA) is one of the most promising replacements for CMOS technology. Despite the potential advantages of this technology, QCA circuits are frequently plague...", "citations": 8, "author_count": 4, "categories": [ "Computer Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3209, "doi": "10.3390/electronics11234038", "umap_coordinates": { "x": 393.23712158203125, "y": 134.7561492919922, "z": 205.87071228027344 }, "tsne_coordinates": { "x": -11.01048755645752, "y": 9.048219680786133, "z": -0.5857195854187012 }, "pca_coordinates": { "x": -0.1903364658355713, "y": -0.9505715370178223, "z": -0.6850703358650208 }, "axis_scores": { "Quantum imaging": 0.7394258975982666, "Quantum Life Science Sensing": 0.7797983884811401, "Quantum sensing Detection": 0.7539990544319153, "Quantum sensing Metrology": 0.7426848411560059, "Quantum sensing navigation": 0.7286084294319153, "Quantum sensing Position": 0.7010605335235596, "Quantum sensing Timing": 0.7116074562072754, "Quantum sensing": 0.773673415184021, "Quantum control": 0.7367998361587524 } }, { "id": 3204, "title": "Chiral Surface Plasmon Polaritons on Metallic Nanowires", "abstract": "Chiral surface plasmon polaritons (SPPs) can be generated by linearly polarized light incident at the end of a nanowire, exciting a coherent superposition of three specific nanowire waveguide modes. I...", "citations": 258, "author_count": 8, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3210, "doi": "10.1103/PhysRevLett.107.096801", "umap_coordinates": { "x": 395.0116271972656, "y": 134.97337341308594, "z": 208.73007202148438 }, "tsne_coordinates": { "x": 5.896825313568115, "y": -23.699064254760742, "z": 4.351531028747559 }, "pca_coordinates": { "x": 3.7678542137145996, "y": -3.451097011566162, "z": 1.262423038482666 }, "axis_scores": { "Quantum imaging": 0.6792294383049011, "Quantum Life Science Sensing": 0.6927275061607361, "Quantum sensing Detection": 0.692861020565033, "Quantum sensing Metrology": 0.6722438335418701, "Quantum sensing navigation": 0.7014130353927612, "Quantum sensing Position": 0.6816906929016113, "Quantum sensing Timing": 0.6702592968940735, "Quantum sensing": 0.6970314383506775, "Quantum control": 0.6621267199516296 } }, { "id": 3205, "title": "The influence of inhomogeneous trap distribution on results of DLTS study", "abstract": "A model is developed to describe how a narrow distribution of deep traps adjacent to quantum dots (QDs) influences the trap-related signals measured by frequency scanned deep level transient spectrosc...", "citations": 1, "author_count": 4, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3211, "doi": "10.1016/j.microrel.2011.01.011", "umap_coordinates": { "x": 393.5412292480469, "y": 134.61788940429688, "z": 205.61163330078125 }, "tsne_coordinates": { "x": 28.21156120300293, "y": 14.215202331542969, "z": -26.35501480102539 }, "pca_coordinates": { "x": -1.9667283296585083, "y": 1.2610855102539062, "z": -2.6648144721984863 }, "axis_scores": { "Quantum imaging": 0.6979717016220093, "Quantum Life Science Sensing": 0.7171822786331177, "Quantum sensing Detection": 0.6947726607322693, "Quantum sensing Metrology": 0.699286937713623, "Quantum sensing navigation": 0.7029278874397278, "Quantum sensing Position": 0.7107021808624268, "Quantum sensing Timing": 0.6935479640960693, "Quantum sensing": 0.7102692127227783, "Quantum control": 0.7006268501281738 } }, { "id": 3206, "title": "Measuring non-Gaussian fluctuations through incoherent Cooper-pair current -: art. no. 247005", "abstract": "We study a Josephson junction (JJ) in the regime of incoherent Cooper-pair tunneling, capacitively coupled to a nonequilibrium noise source. The current-voltage (I-V) characteristics of the JJ are sen...", "citations": 40, "author_count": 5, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3212, "doi": "10.1103/PhysRevLett.93.247005", "umap_coordinates": { "x": 395.8981018066406, "y": 136.13348388671875, "z": 207.55213928222656 }, "tsne_coordinates": { "x": -20.617116928100586, "y": -4.204432487487793, "z": 5.81868839263916 }, "pca_coordinates": { "x": 2.72265887260437, "y": 0.7169307470321655, "z": 2.9446918964385986 }, "axis_scores": { "Quantum imaging": 0.7305699586868286, "Quantum Life Science Sensing": 0.714354395866394, "Quantum sensing Detection": 0.7321674823760986, "Quantum sensing Metrology": 0.7198551297187805, "Quantum sensing navigation": 0.7395505905151367, "Quantum sensing Position": 0.7025603652000427, "Quantum sensing Timing": 0.6932504177093506, "Quantum sensing": 0.737971842288971, "Quantum control": 0.7134411334991455 } }, { "id": 3207, "title": "Resonant ion pair formation in electron collisions with ground state molecular ions", "abstract": "Resonant ion pair formation from collisions of electrons with ground state diatomic molecular ions has been observed and absolute cross sections measured. The cross section for HD+ is characterized by...", "citations": 30, "author_count": 15, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3213, "doi": "10.1103/PhysRevLett.83.951", "umap_coordinates": { "x": 395.2738952636719, "y": 135.3829803466797, "z": 208.51914978027344 }, "tsne_coordinates": { "x": -5.951308250427246, "y": -9.59736156463623, "z": -0.8883569240570068 }, "pca_coordinates": { "x": 4.381886959075928, "y": -1.2733588218688965, "z": -0.35370007157325745 }, "axis_scores": { "Quantum imaging": 0.6803998947143555, "Quantum Life Science Sensing": 0.6954012513160706, "Quantum sensing Detection": 0.7035586833953857, "Quantum sensing Metrology": 0.6741613149642944, "Quantum sensing navigation": 0.6813430190086365, "Quantum sensing Position": 0.6754169464111328, "Quantum sensing Timing": 0.673128068447113, "Quantum sensing": 0.6952387094497681, "Quantum control": 0.6570321917533875 } }, { "id": 3208, "title": "Temporal dynamics in the one-dimensional quantum Zakharov equations for plasmas", "abstract": "The temporal dynamics of the quantum Zakharov equations in one spatial dimension, which describes the nonlinear interaction of quantum Langmuir waves and quantum ion-acoustic waves, is revisited by co...", "citations": 41, "author_count": 6, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3214, "doi": "10.1063/1.3356059", "umap_coordinates": { "x": 393.6193542480469, "y": 136.40895080566406, "z": 207.73553466796875 }, "tsne_coordinates": { "x": -12.5330810546875, "y": -16.77338981628418, "z": 32.63734817504883 }, "pca_coordinates": { "x": 4.198599338531494, "y": -0.5575957298278809, "z": -1.681078553199768 }, "axis_scores": { "Quantum imaging": 0.727788507938385, "Quantum Life Science Sensing": 0.7246069312095642, "Quantum sensing Detection": 0.7060020565986633, "Quantum sensing Metrology": 0.7108628153800964, "Quantum sensing navigation": 0.7271011471748352, "Quantum sensing Position": 0.6797133684158325, "Quantum sensing Timing": 0.7113791108131409, "Quantum sensing": 0.7223140001296997, "Quantum control": 0.7200539708137512 } }, { "id": 3209, "title": "Fluorescent properties of DNA base analogue tC upon incorporation into DNA - negligible influence of neighbouring bases on fluorescence quantum yield", "abstract": "The quantum yield of the fluorescent tricyclic cytosine analogue, 1,3-diaza-2-oxophenothiazine, tC, is high and virtually unaffected by incorporation into both single- and double-stranded DNA irrespec...", "citations": 130, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3215, "doi": "10.1093/nar/gki790", "umap_coordinates": { "x": 392.8403625488281, "y": 136.21971130371094, "z": 204.6037139892578 }, "tsne_coordinates": { "x": 6.805929660797119, "y": 11.226994514465332, "z": 5.099229335784912 }, "pca_coordinates": { "x": -1.2514104843139648, "y": 1.9512619972229004, "z": -2.0246758460998535 }, "axis_scores": { "Quantum imaging": 0.676250696182251, "Quantum Life Science Sensing": 0.7124907970428467, "Quantum sensing Detection": 0.6747735738754272, "Quantum sensing Metrology": 0.653450608253479, "Quantum sensing navigation": 0.6895272731781006, "Quantum sensing Position": 0.6834900379180908, "Quantum sensing Timing": 0.6614994406700134, "Quantum sensing": 0.6849596500396729, "Quantum control": 0.669508695602417 } }, { "id": 3210, "title": "Thickness dependence of the mechanical properties of piezoelectric high-Qm nanomechanical resonators made from aluminium nitride", "abstract": "Nanomechanical resonators with high quality factors (Qm) enable mechanics-based quantum technologies, in particular quantum sensing and quantum transduction. High-Qm nanomechanical resonators in the k...", "citations": 2, "author_count": 10, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3216, "doi": "10.1088/2633-4356/ad9b64", "umap_coordinates": { "x": 393.50567626953125, "y": 134.62802124023438, "z": 205.96002197265625 }, "tsne_coordinates": { "x": 35.71505355834961, "y": -5.130006313323975, "z": -5.805185794830322 }, "pca_coordinates": { "x": -0.7059739828109741, "y": -1.2212259769439697, "z": 0.06416219472885132 }, "axis_scores": { "Quantum imaging": 0.6995753645896912, "Quantum Life Science Sensing": 0.7094815969467163, "Quantum sensing Detection": 0.6798150539398193, "Quantum sensing Metrology": 0.7098776698112488, "Quantum sensing navigation": 0.6835744976997375, "Quantum sensing Position": 0.6926461458206177, "Quantum sensing Timing": 0.6446890234947205, "Quantum sensing": 0.7082957029342651, "Quantum control": 0.6658187508583069 } }, { "id": 3211, "title": "Zwitterionic stationary phase with covalently bonded phosphorylcholine type polymer grafts and its applicability to separation of peptides in the hydrophilic interaction liquid chromatography mode", "abstract": "A novel phosphorylcholine type zwitterionic stationary phase was synthesized by graft polymerization of 2-methacryloyloxyethyl phosphorylcholine onto the surface of porous silica particles. The result...", "citations": 178, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3217, "doi": "10.1016/j.chroma.2006.05.080", "umap_coordinates": { "x": 393.1108703613281, "y": 134.62835693359375, "z": 203.84268188476562 }, "tsne_coordinates": { "x": 27.26325225830078, "y": 28.240921020507812, "z": -8.99572467803955 }, "pca_coordinates": { "x": -4.345759391784668, "y": 2.374363422393799, "z": 0.030097544193267822 }, "axis_scores": { "Quantum imaging": 0.6444061994552612, "Quantum Life Science Sensing": 0.6672545671463013, "Quantum sensing Detection": 0.6360933780670166, "Quantum sensing Metrology": 0.6224036812782288, "Quantum sensing navigation": 0.6290534734725952, "Quantum sensing Position": 0.6462180614471436, "Quantum sensing Timing": 0.6210653781890869, "Quantum sensing": 0.6475775837898254, "Quantum control": 0.6343174576759338 } }, { "id": 3212, "title": "Targeting of Uropathogenic Escherichia coli papG gene using CRISPR-dot nanocomplex reduced virulence of UPEC", "abstract": "Urinary tract infections (UTI) are the most common infectious diseases in the world. It is becoming increasingly tough to treat because of emergence of antibiotic resistance. So, there is an exigency ...", "citations": 37, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3218, "doi": "10.1038/s41598-021-97224-4", "umap_coordinates": { "x": 393.9840087890625, "y": 134.64797973632812, "z": 204.5892333984375 }, "tsne_coordinates": { "x": 15.940284729003906, "y": 18.4135799407959, "z": 2.3044307231903076 }, "pca_coordinates": { "x": -3.2306323051452637, "y": 0.24834752082824707, "z": 0.10251694917678833 }, "axis_scores": { "Quantum imaging": 0.7104352712631226, "Quantum Life Science Sensing": 0.7094889283180237, "Quantum sensing Detection": 0.703181803226471, "Quantum sensing Metrology": 0.6808384656906128, "Quantum sensing navigation": 0.7018840312957764, "Quantum sensing Position": 0.6903126239776611, "Quantum sensing Timing": 0.675369143486023, "Quantum sensing": 0.7062917947769165, "Quantum control": 0.7017924189567566 } }, { "id": 3213, "title": "Time-correlated single-photon counting range profiling and reflectance tomographic imaging", "abstract": "Time-correlated single-photon counting (TCSPC) range profiling and imaging provide high resolution laser radar data applicable in several optical remote sensing applications at short and long distance...", "citations": 17, "author_count": 5, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3219, "doi": "10.1515/aot-2014-0003", "umap_coordinates": { "x": 395.0243225097656, "y": 133.2870635986328, "z": 206.46676635742188 }, "tsne_coordinates": { "x": -8.209086418151855, "y": 10.564592361450195, "z": -32.78527069091797 }, "pca_coordinates": { "x": -2.8237791061401367, "y": 1.4380519390106201, "z": 4.681652069091797 }, "axis_scores": { "Quantum imaging": 0.7489842772483826, "Quantum Life Science Sensing": 0.7465372085571289, "Quantum sensing Detection": 0.7404735088348389, "Quantum sensing Metrology": 0.754478394985199, "Quantum sensing navigation": 0.7353318929672241, "Quantum sensing Position": 0.7306489944458008, "Quantum sensing Timing": 0.7764710783958435, "Quantum sensing": 0.7500333786010742, "Quantum control": 0.6901994347572327 } }, { "id": 3214, "title": "Two-photon fluorescence correlation microscopy combined with measurements of point spread function; investigations made in human skin", "abstract": "Two-photon excitation fluorescence correlation spectroscopy (TPFCS) has been applied in connection to measurements of the point spread function (PSF) for quantitative analysis of sulphorhodamine B (SR...", "citations": 15, "author_count": 6, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3220, "doi": "10.1364/OE.18.015289", "umap_coordinates": { "x": 394.82281494140625, "y": 134.0270538330078, "z": 205.6700439453125 }, "tsne_coordinates": { "x": 7.858023643493652, "y": 24.033855438232422, "z": -16.078641891479492 }, "pca_coordinates": { "x": -3.16866135597229, "y": 1.184516429901123, "z": 3.517742156982422 }, "axis_scores": { "Quantum imaging": 0.7207767963409424, "Quantum Life Science Sensing": 0.7198559045791626, "Quantum sensing Detection": 0.7066828608512878, "Quantum sensing Metrology": 0.7029314637184143, "Quantum sensing navigation": 0.6862198710441589, "Quantum sensing Position": 0.7019419074058533, "Quantum sensing Timing": 0.6917147636413574, "Quantum sensing": 0.7162314653396606, "Quantum control": 0.6503499150276184 } }, { "id": 3215, "title": "A core-multiple shell nanostructure enabling concurrent upconversion and quantum cutting for photon management", "abstract": "Photon management enables the manipulation of the number of input photons by conversion of two or more light quanta into one (upconversion) or vice versa (quantum cutting). Simultaneous realization of...", "citations": 30, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3221, "doi": "10.1039/c6nr09713h", "umap_coordinates": { "x": 393.3325500488281, "y": 133.6095733642578, "z": 205.60694885253906 }, "tsne_coordinates": { "x": 12.595958709716797, "y": -7.243344783782959, "z": -5.699407577514648 }, "pca_coordinates": { "x": -2.733123540878296, "y": -2.048283100128174, "z": 1.8695082664489746 }, "axis_scores": { "Quantum imaging": 0.7135032415390015, "Quantum Life Science Sensing": 0.7137112021446228, "Quantum sensing Detection": 0.6974244713783264, "Quantum sensing Metrology": 0.7022340297698975, "Quantum sensing navigation": 0.6763675212860107, "Quantum sensing Position": 0.642019510269165, "Quantum sensing Timing": 0.6544650197029114, "Quantum sensing": 0.7043670415878296, "Quantum control": 0.6692220568656921 } }, { "id": 3216, "title": "Quantum hall system in Tao-Thouless limit", "abstract": "We consider spin-polarized electrons in a single Landau level on a torus. The quantum Hall problem is mapped onto a one-dimensional lattice model with lattice constant 2 pi/L-1, where L-1 is a circumf...", "citations": 123, "author_count": 3, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3222, "doi": "10.1103/PhysRevB.77.155308", "umap_coordinates": { "x": 394.6703186035156, "y": 136.31015014648438, "z": 208.79632568359375 }, "tsne_coordinates": { "x": -19.309391021728516, "y": -32.6697883605957, "z": 6.808151721954346 }, "pca_coordinates": { "x": 5.863242149353027, "y": 0.8204152584075928, "z": -1.3950843811035156 }, "axis_scores": { "Quantum imaging": 0.6979222893714905, "Quantum Life Science Sensing": 0.7121889591217041, "Quantum sensing Detection": 0.7130440473556519, "Quantum sensing Metrology": 0.6996521949768066, "Quantum sensing navigation": 0.7151118516921997, "Quantum sensing Position": 0.6908339262008667, "Quantum sensing Timing": 0.7142429947853088, "Quantum sensing": 0.7176402807235718, "Quantum control": 0.7140651345252991 } }, { "id": 3217, "title": "A single-crystal source of path/polarization entanglement at non-degenerate wavelengths", "abstract": "We demonstrate a bright, narrowband, compact, quasi-phase-matched single-crystal source generating path-polarization-entangled photon pairs at 810 nm and 1550 nm at a maximum rate of 3 x 10(6) s(-1) T...", "citations": 1, "author_count": 3, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3223, "doi": "10.1134/S0030400X10020037", "umap_coordinates": { "x": 394.8994140625, "y": 133.86495971679688, "z": 207.7323760986328 }, "tsne_coordinates": { "x": -10.87169075012207, "y": -5.2783122062683105, "z": -30.617843627929688 }, "pca_coordinates": { "x": 0.8504462242126465, "y": 0.27871179580688477, "z": 3.649332046508789 }, "axis_scores": { "Quantum imaging": 0.6980005502700806, "Quantum Life Science Sensing": 0.6952301263809204, "Quantum sensing Detection": 0.6928945779800415, "Quantum sensing Metrology": 0.6830942630767822, "Quantum sensing navigation": 0.700269341468811, "Quantum sensing Position": 0.6743656396865845, "Quantum sensing Timing": 0.6664101481437683, "Quantum sensing": 0.6981608867645264, "Quantum control": 0.6542055010795593 } }, { "id": 3218, "title": "Full characterization of the signal and idler noise figure spectra in single-pumped fiber optical parametric amplifiers", "abstract": "For the first time, four different noise sources, which are amplified quantum noise, Raman phonon seeded excess noise, pump transferred noise (PTN), and pump residual noise, are considered simultaneou...", "citations": 75, "author_count": 5, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3224, "doi": "10.1364/OE.18.002884", "umap_coordinates": { "x": 394.67950439453125, "y": 133.67828369140625, "z": 206.86997985839844 }, "tsne_coordinates": { "x": -8.73499584197998, "y": -2.4012789726257324, "z": -33.98696517944336 }, "pca_coordinates": { "x": -1.029119849205017, "y": -0.15307283401489258, "z": 3.3621630668640137 }, "axis_scores": { "Quantum imaging": 0.686468780040741, "Quantum Life Science Sensing": 0.688066840171814, "Quantum sensing Detection": 0.6804050207138062, "Quantum sensing Metrology": 0.6832267642021179, "Quantum sensing navigation": 0.6654718518257141, "Quantum sensing Position": 0.6465166211128235, "Quantum sensing Timing": 0.6445767283439636, "Quantum sensing": 0.6868959665298462, "Quantum control": 0.6402875781059265 } }, { "id": 3219, "title": "Quantum-like formalism for cognitive measurements", "abstract": "We develop a quantum formalism (Hilbert space probabilistic calculus) for measurements performed over cognitive systems. In particular, this formalism is used for mathematical modelling of the functio...", "citations": 47, "author_count": 2, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3225, "doi": "10.1016/S0303-2647(03)00041-8", "umap_coordinates": { "x": 394.9264221191406, "y": 137.39749145507812, "z": 205.94374084472656 }, "tsne_coordinates": { "x": -23.172130584716797, "y": 9.049786567687988, "z": 16.540096282958984 }, "pca_coordinates": { "x": 0.37916362285614014, "y": 3.168839931488037, "z": 1.5804567337036133 }, "axis_scores": { "Quantum imaging": 0.7603728175163269, "Quantum Life Science Sensing": 0.7697813510894775, "Quantum sensing Detection": 0.7547045350074768, "Quantum sensing Metrology": 0.7672187685966492, "Quantum sensing navigation": 0.7812936305999756, "Quantum sensing Position": 0.760539174079895, "Quantum sensing Timing": 0.7332890033721924, "Quantum sensing": 0.7702133655548096, "Quantum control": 0.7188539505004883 } }, { "id": 3220, "title": "Superposition-preserving photon-number amplifier", "abstract": "We analyze a pure-state photon-number amplifier (PNA), i.e., a device that performs the action \\psi(in)] =Sigma(lcl)\\l]-->\\psi(out)]=Sigma(lcl)\\Gl], where G is a positive integer. We derive expression...", "citations": 6, "author_count": 4, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3226, "doi": "10.1103/PhysRevA.57.650", "umap_coordinates": { "x": 395.42779541015625, "y": 135.5670928955078, "z": 207.80357360839844 }, "tsne_coordinates": { "x": -19.49247932434082, "y": -14.379117012023926, "z": -3.7624988555908203 }, "pca_coordinates": { "x": 3.012220859527588, "y": -0.1878223419189453, "z": 3.45554256439209 }, "axis_scores": { "Quantum imaging": 0.7042514085769653, "Quantum Life Science Sensing": 0.7085221409797668, "Quantum sensing Detection": 0.7225491404533386, "Quantum sensing Metrology": 0.7147822976112366, "Quantum sensing navigation": 0.7209193110466003, "Quantum sensing Position": 0.7137691974639893, "Quantum sensing Timing": 0.6875445246696472, "Quantum sensing": 0.7262670993804932, "Quantum control": 0.6807928085327148 } }, { "id": 3221, "title": "Mechanism for radiative recombination in In0.15Ga0.85N/GaN multi quantum well structures", "abstract": "We present a comparative study of the radiative recombination in two sets of InGaN/GaN multiquantum well samples, with and without InGaN phase separation, respectively. It is concluded that the quantu...", "citations": 1, "author_count": 7, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3227, "doi": null, "umap_coordinates": { "x": 392.0187683105469, "y": 139.2958984375, "z": 209.60714721679688 }, "tsne_coordinates": { "x": -7.125373363494873, "y": 44.847476959228516, "z": -2.519609212875366 }, "pca_coordinates": { "x": -0.9157143831253052, "y": 2.2648918628692627, "z": -2.4021923542022705 }, "axis_scores": { "Quantum imaging": 0.7428988218307495, "Quantum Life Science Sensing": 0.7578277587890625, "Quantum sensing Detection": 0.7453445196151733, "Quantum sensing Metrology": 0.7327509522438049, "Quantum sensing navigation": 0.7404094338417053, "Quantum sensing Position": 0.699462890625, "Quantum sensing Timing": 0.7048202157020569, "Quantum sensing": 0.7550300359725952, "Quantum control": 0.7580594420433044 } }, { "id": 3222, "title": "Steady-state entanglement production in a quantum thermal machine with continuous feedback control", "abstract": "Quantum thermal machines can generate steady-state entanglement by harvesting spontaneous interactions with local environments. However, using minimal resources and control, the entanglement is typica...", "citations": 4, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3228, "doi": "10.1088/1367-2630/ad3f3d", "umap_coordinates": { "x": 395.10894775390625, "y": 136.9728240966797, "z": 206.76658630371094 }, "tsne_coordinates": { "x": -25.11104393005371, "y": -12.957304954528809, "z": -18.36075210571289 }, "pca_coordinates": { "x": 2.659743547439575, "y": 2.5588536262512207, "z": 0.6368648409843445 }, "axis_scores": { "Quantum imaging": 0.7228437066078186, "Quantum Life Science Sensing": 0.7083918452262878, "Quantum sensing Detection": 0.7248671650886536, "Quantum sensing Metrology": 0.7150465846061707, "Quantum sensing navigation": 0.722500741481781, "Quantum sensing Position": 0.6925951242446899, "Quantum sensing Timing": 0.6949021816253662, "Quantum sensing": 0.7351090312004089, "Quantum control": 0.7629335522651672 } }, { "id": 3223, "title": "Interaction of excitons with magnetic topological defects in 2D magnetic monolayers: localization and anomalous Hall effect", "abstract": "Novel 2D material CrI3 reveals unique combination of 2D ferromagnetism and robust excitonic response. We demonstrate that the possibility of the formation of magnetic topological defects, such as Neel...", "citations": 3, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3229, "doi": "10.1088/2053-1583/ac973d", "umap_coordinates": { "x": 393.3577575683594, "y": 136.14779663085938, "z": 208.06202697753906 }, "tsne_coordinates": { "x": 4.323845386505127, "y": -25.19501304626465, "z": 14.975418090820312 }, "pca_coordinates": { "x": 2.1611714363098145, "y": -0.2404186725616455, "z": -1.1917884349822998 }, "axis_scores": { "Quantum imaging": 0.6997906565666199, "Quantum Life Science Sensing": 0.6671407222747803, "Quantum sensing Detection": 0.6748744249343872, "Quantum sensing Metrology": 0.67729252576828, "Quantum sensing navigation": 0.6878671646118164, "Quantum sensing Position": 0.6717387437820435, "Quantum sensing Timing": 0.6782869100570679, "Quantum sensing": 0.6786179542541504, "Quantum control": 0.6594310402870178 } }, { "id": 3224, "title": "Multiphoton interaction phase shifts in attosecond science", "abstract": "Ab initio simulations of a range of interferometric experiments are used to identify a strong dependence on multiphoton phase shifts in above-threshold ionization (ATI). A simple rule of thumb for int...", "citations": 25, "author_count": 3, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3230, "doi": "10.1103/PhysRevResearch.3.013270", "umap_coordinates": { "x": 395.384521484375, "y": 135.14500427246094, "z": 207.54920959472656 }, "tsne_coordinates": { "x": -8.445493698120117, "y": -9.835156440734863, "z": -8.369962692260742 }, "pca_coordinates": { "x": 2.235076427459717, "y": 0.09794282913208008, "z": 0.8837277293205261 }, "axis_scores": { "Quantum imaging": 0.7470067739486694, "Quantum Life Science Sensing": 0.7640848159790039, "Quantum sensing Detection": 0.7367581129074097, "Quantum sensing Metrology": 0.7418386936187744, "Quantum sensing navigation": 0.7179938554763794, "Quantum sensing Position": 0.708112359046936, "Quantum sensing Timing": 0.7202692031860352, "Quantum sensing": 0.7424519062042236, "Quantum control": 0.7062948942184448 } }, { "id": 3225, "title": "PHOTOINHIBITION OF PHOTOSYNTHESIS REPRESENTS A MECHANISM FOR THE LONG-TERM REGULATION OF PHOTOSYSTEM-II", "abstract": "The obligate shade plant, Tradescantia albiflora Kunth grown at 50-mu-mol photons.m-2 s-1 and Pisum sativum L. acclimated to two photon fluence rates, 50 and 300-mu-mol.m-2.s-1, were exposed to photoi...", "citations": 377, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1992, "topic": [ "all" ], "embedding_index": 3231, "doi": "10.1007/BF00195327", "umap_coordinates": { "x": 394.0246276855469, "y": 136.27838134765625, "z": 204.0791473388672 }, "tsne_coordinates": { "x": 8.671792984008789, "y": 29.260358810424805, "z": 7.9770827293396 }, "pca_coordinates": { "x": -2.475768566131592, "y": 0.8533923625946045, "z": -2.064131021499634 }, "axis_scores": { "Quantum imaging": 0.6787141561508179, "Quantum Life Science Sensing": 0.7370025515556335, "Quantum sensing Detection": 0.6734253168106079, "Quantum sensing Metrology": 0.6641001105308533, "Quantum sensing navigation": 0.6814895272254944, "Quantum sensing Position": 0.6567373275756836, "Quantum sensing Timing": 0.6550888419151306, "Quantum sensing": 0.6889171600341797, "Quantum control": 0.6857802867889404 } }, { "id": 3226, "title": "Long narrow CsI(Tl) rods as calorimeter elements", "abstract": "A new layout of a crystal calorimeter for gamma ray space experiments is presented. It employs layers of narrow rods of CsI(Tl) crystals arranged perpendicular to the central incident photon direction...", "citations": 3, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3232, "doi": "10.1016/0168-9002(96)00198-2", "umap_coordinates": { "x": 394.9853820800781, "y": 133.46212768554688, "z": 205.92337036132812 }, "tsne_coordinates": { "x": -18.512453079223633, "y": 16.934484481811523, "z": -22.091026306152344 }, "pca_coordinates": { "x": -2.383898973464966, "y": 0.45072174072265625, "z": 1.3054487705230713 }, "axis_scores": { "Quantum imaging": 0.68632972240448, "Quantum Life Science Sensing": 0.729780912399292, "Quantum sensing Detection": 0.6907896399497986, "Quantum sensing Metrology": 0.7021717429161072, "Quantum sensing navigation": 0.7040373086929321, "Quantum sensing Position": 0.7123539447784424, "Quantum sensing Timing": 0.7243970632553101, "Quantum sensing": 0.7106295824050903, "Quantum control": 0.6582962870597839 } }, { "id": 3227, "title": "Exciton polaritons of nano-spherical-particle photonic crystals in compound lattices", "abstract": "Nonlocal investigations are presented for exciton-photon coupling in three-dimensional nano-spherical-particle photonic crystals in compound lattices for a tailored dielectric environment to optimize ...", "citations": 4, "author_count": 5, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3233, "doi": "10.1140/epjb/e2006-00073-5", "umap_coordinates": { "x": 393.6104736328125, "y": 135.13768005371094, "z": 206.4657440185547 }, "tsne_coordinates": { "x": 14.732527732849121, "y": -21.099239349365234, "z": 10.95512866973877 }, "pca_coordinates": { "x": 0.49580955505371094, "y": -1.7850165367126465, "z": -0.49215686321258545 }, "axis_scores": { "Quantum imaging": 0.7183247804641724, "Quantum Life Science Sensing": 0.7133424878120422, "Quantum sensing Detection": 0.6920113563537598, "Quantum sensing Metrology": 0.6852995157241821, "Quantum sensing navigation": 0.7114003896713257, "Quantum sensing Position": 0.7075037956237793, "Quantum sensing Timing": 0.6814525127410889, "Quantum sensing": 0.7054046392440796, "Quantum control": 0.6892409920692444 } }, { "id": 3228, "title": "Micromanipulation of neutral atoms with nanofabricated structures", "abstract": "A large variety of trapping and guiding potentials can be designed by bringing cold atoms close to charged or current cal lying material objects. We describe the basic principles of constructing micro...", "citations": 61, "author_count": 11, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3234, "doi": "10.1007/s003400050886", "umap_coordinates": { "x": 394.32696533203125, "y": 135.4449462890625, "z": 206.51226806640625 }, "tsne_coordinates": { "x": 7.011242389678955, "y": -23.21961212158203, "z": -33.90833282470703 }, "pca_coordinates": { "x": -0.16359984874725342, "y": 1.3623840808868408, "z": 0.4599103331565857 }, "axis_scores": { "Quantum imaging": 0.7187396287918091, "Quantum Life Science Sensing": 0.7150541543960571, "Quantum sensing Detection": 0.6910750269889832, "Quantum sensing Metrology": 0.7135292887687683, "Quantum sensing navigation": 0.7269827127456665, "Quantum sensing Position": 0.6999583840370178, "Quantum sensing Timing": 0.641444206237793, "Quantum sensing": 0.708904504776001, "Quantum control": 0.719021201133728 } }, { "id": 3229, "title": "Macromolecular Crowding Effects on Two Homo logs of Ribosomal Protein S16: Protein-Dependent Structural Changes and Local Interactions", "abstract": "Proteins function in cellular environments that are crowded with biomolecules, and in this reduced available space, their biophysical properties may differ from those observed in dilute solutions in v...", "citations": 13, "author_count": 5, "categories": [ "Biophysics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3235, "doi": "10.1016/j.bpj.2014.05.038", "umap_coordinates": { "x": 393.8411865234375, "y": 136.21861267089844, "z": 204.9148406982422 }, "tsne_coordinates": { "x": 5.036406993865967, "y": 23.432720184326172, "z": 21.53665542602539 }, "pca_coordinates": { "x": -0.8099851012229919, "y": 1.7212259769439697, "z": -3.1290128231048584 }, "axis_scores": { "Quantum imaging": 0.7158175706863403, "Quantum Life Science Sensing": 0.7543916702270508, "Quantum sensing Detection": 0.7116299867630005, "Quantum sensing Metrology": 0.7200062274932861, "Quantum sensing navigation": 0.7067380547523499, "Quantum sensing Position": 0.7138775587081909, "Quantum sensing Timing": 0.6975285410881042, "Quantum sensing": 0.7330998182296753, "Quantum control": 0.7251794338226318 } }, { "id": 3230, "title": "Electron-electron interaction effects in transport through open dots: Pinning of resonant levels", "abstract": "The role of electron-electron interaction in transport properties of open quantum dots is studied. The self-consistent full quantum-mechanical magnetotransport calculations within the Hartree, density...", "citations": 19, "author_count": 4, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3236, "doi": "10.1103/PhysRevB.75.235307", "umap_coordinates": { "x": 394.13543701171875, "y": 135.22003173828125, "z": 208.77056884765625 }, "tsne_coordinates": { "x": -4.17094087600708, "y": -30.73554229736328, "z": -3.8743906021118164 }, "pca_coordinates": { "x": 3.4567437171936035, "y": -2.2526559829711914, "z": 0.5886954665184021 }, "axis_scores": { "Quantum imaging": 0.7373711466789246, "Quantum Life Science Sensing": 0.7200718522071838, "Quantum sensing Detection": 0.7326469421386719, "Quantum sensing Metrology": 0.7137136459350586, "Quantum sensing navigation": 0.7256420254707336, "Quantum sensing Position": 0.6915228962898254, "Quantum sensing Timing": 0.6908987164497375, "Quantum sensing": 0.7413268685340881, "Quantum control": 0.7291441559791565 } }, { "id": 3231, "title": "Dissociation of cyclopropane in double ionization continuum", "abstract": "Dissociative double photoionization of cyclopropane is studied in the inner-valence region using tunable synchrotron radiation. With the aid of ab initio quantum chemical calculations the energies of ...", "citations": 10, "author_count": 8, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3237, "doi": "10.1039/c7cp01667k", "umap_coordinates": { "x": 393.0130615234375, "y": 136.4485321044922, "z": 206.1528778076172 }, "tsne_coordinates": { "x": 6.158005237579346, "y": 8.08559513092041, "z": 12.740161895751953 }, "pca_coordinates": { "x": 0.001529693603515625, "y": 0.5191690921783447, "z": -2.5863070487976074 }, "axis_scores": { "Quantum imaging": 0.6668151617050171, "Quantum Life Science Sensing": 0.6913496255874634, "Quantum sensing Detection": 0.6626731157302856, "Quantum sensing Metrology": 0.6236385703086853, "Quantum sensing navigation": 0.6285161375999451, "Quantum sensing Position": 0.6190727353096008, "Quantum sensing Timing": 0.6112872362136841, "Quantum sensing": 0.656421959400177, "Quantum control": 0.6496179103851318 } }, { "id": 3232, "title": "Multipartite entanglement encoded in the photon-number basis by sequential excitation of a three-level system", "abstract": "We propose a general scheme to generate entanglement encoded in the photon-number basis, via a sequential resonant two-photon excitation of a three-level system. We apply it to the specific case of a ...", "citations": 4, "author_count": 6, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3238, "doi": "10.1364/OL.506403", "umap_coordinates": { "x": 395.1758117675781, "y": 135.25579833984375, "z": 207.25352478027344 }, "tsne_coordinates": { "x": -6.905650615692139, "y": -8.691329002380371, "z": -21.167333602905273 }, "pca_coordinates": { "x": 1.803440809249878, "y": 0.10703301429748535, "z": 2.7516021728515625 }, "axis_scores": { "Quantum imaging": 0.7446791529655457, "Quantum Life Science Sensing": 0.6975257396697998, "Quantum sensing Detection": 0.7354218363761902, "Quantum sensing Metrology": 0.7100306749343872, "Quantum sensing navigation": 0.7253063917160034, "Quantum sensing Position": 0.7031636834144592, "Quantum sensing Timing": 0.7107269763946533, "Quantum sensing": 0.7415359020233154, "Quantum control": 0.6903588771820068 } }, { "id": 3233, "title": "Exact Results for the Kondo Screening Cloud of Two Helical Liquids", "abstract": "We analyze the screening of a magnetic quantum dot with spin 1/2 coupled to two helical liquids. Interestingly, we find two qualitatively different sets of Toulouse points, i.e., nontrivial parameters...", "citations": 31, "author_count": 5, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3239, "doi": "10.1103/PhysRevLett.110.016602", "umap_coordinates": { "x": 394.8890075683594, "y": 136.4342803955078, "z": 208.4781951904297 }, "tsne_coordinates": { "x": -1.5035805702209473, "y": -18.33027458190918, "z": -4.674422264099121 }, "pca_coordinates": { "x": 3.4153037071228027, "y": -0.3158705234527588, "z": -1.5746254920959473 }, "axis_scores": { "Quantum imaging": 0.6778708696365356, "Quantum Life Science Sensing": 0.6890929937362671, "Quantum sensing Detection": 0.6684844493865967, "Quantum sensing Metrology": 0.6563490033149719, "Quantum sensing navigation": 0.6630693078041077, "Quantum sensing Position": 0.6459864377975464, "Quantum sensing Timing": 0.6646335124969482, "Quantum sensing": 0.6767409443855286, "Quantum control": 0.6521961092948914 } }, { "id": 3234, "title": "Fluorescence emission of excited hydrogen atoms after core excitation of water vapor - art. no. 063003", "abstract": "The Balmer emission from atomic hydrogen has been recorded across the resonances at the oxygen K edge of the water molecule using synchrotron radiation excitation. The emission is observed to be stron...", "citations": 23, "author_count": 9, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3240, "doi": "10.1103/PhysLettRev.96.063003", "umap_coordinates": { "x": 395.0173645019531, "y": 135.96356201171875, "z": 207.72459411621094 }, "tsne_coordinates": { "x": -14.331836700439453, "y": -17.60672950744629, "z": -4.232678413391113 }, "pca_coordinates": { "x": 1.9781303405761719, "y": 0.17188405990600586, "z": -0.6457165479660034 }, "axis_scores": { "Quantum imaging": 0.6974728107452393, "Quantum Life Science Sensing": 0.7217754125595093, "Quantum sensing Detection": 0.6876861453056335, "Quantum sensing Metrology": 0.6678993105888367, "Quantum sensing navigation": 0.6754676103591919, "Quantum sensing Position": 0.6585977077484131, "Quantum sensing Timing": 0.6665542721748352, "Quantum sensing": 0.6964043974876404, "Quantum control": 0.664409875869751 } }, { "id": 3235, "title": "Singular factorizations, self-adjoint extensions and applications to quantum many-body physics", "abstract": "We study self-adjoint operators defined by factorizing second-order differential operators in first-order ones. We discuss examples where such factorizations introduce singular interactions into simpl...", "citations": 4, "author_count": 4, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3241, "doi": "10.1088/0305-4470/39/5/004", "umap_coordinates": { "x": 394.60260009765625, "y": 137.4658203125, "z": 206.9470672607422 }, "tsne_coordinates": { "x": -26.091201782226562, "y": -3.947951316833496, "z": 25.729482650756836 }, "pca_coordinates": { "x": 1.5709259510040283, "y": 2.5514941215515137, "z": 0.04865419864654541 }, "axis_scores": { "Quantum imaging": 0.7308096885681152, "Quantum Life Science Sensing": 0.7545771598815918, "Quantum sensing Detection": 0.7178788781166077, "Quantum sensing Metrology": 0.700888991355896, "Quantum sensing navigation": 0.7226627469062805, "Quantum sensing Position": 0.6888490319252014, "Quantum sensing Timing": 0.6656607985496521, "Quantum sensing": 0.7287322282791138, "Quantum control": 0.7017884254455566 } }, { "id": 3236, "title": "Contextual viewpoint to quantum stochastics", "abstract": "We study the role of context, complex of physical conditions, in quantum as well as classical experiments. It is shown that by taking into account contextual dependence of experimental probabilities w...", "citations": 47, "author_count": 2, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3242, "doi": "10.1063/1.1570952", "umap_coordinates": { "x": 395.46295166015625, "y": 137.89047241210938, "z": 206.67359924316406 }, "tsne_coordinates": { "x": -18.887470245361328, "y": 2.2763314247131348, "z": 11.10181999206543 }, "pca_coordinates": { "x": 3.0573854446411133, "y": 3.2751288414001465, "z": -0.009131014347076416 }, "axis_scores": { "Quantum imaging": 0.7529420852661133, "Quantum Life Science Sensing": 0.7364374399185181, "Quantum sensing Detection": 0.7546169757843018, "Quantum sensing Metrology": 0.7397038340568542, "Quantum sensing navigation": 0.7803295254707336, "Quantum sensing Position": 0.7350512742996216, "Quantum sensing Timing": 0.7461721301078796, "Quantum sensing": 0.7788455486297607, "Quantum control": 0.7720590829849243 } }, { "id": 3237, "title": "Strong tunneling and Coulomb blockade in a single-electron transistor", "abstract": "We have developed a detailed experimental study of a single-electron transistor in a strong tunneling regime. Although weakened by strong charge fluctuations, Coulomb effects were found to persist in ...", "citations": 35, "author_count": 5, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3243, "doi": "10.1103/PhysRevB.59.10599", "umap_coordinates": { "x": 394.3368225097656, "y": 134.243896484375, "z": 208.83200073242188 }, "tsne_coordinates": { "x": 2.9729907512664795, "y": -31.381677627563477, "z": -10.638701438903809 }, "pca_coordinates": { "x": 4.244400978088379, "y": -3.2790160179138184, "z": 1.5573310852050781 }, "axis_scores": { "Quantum imaging": 0.681214451789856, "Quantum Life Science Sensing": 0.692190945148468, "Quantum sensing Detection": 0.7024655342102051, "Quantum sensing Metrology": 0.6844578981399536, "Quantum sensing navigation": 0.69301837682724, "Quantum sensing Position": 0.6597402691841125, "Quantum sensing Timing": 0.6791061758995056, "Quantum sensing": 0.7075101137161255, "Quantum control": 0.6658074259757996 } }, { "id": 3238, "title": "Vibrational instability due to coherent tunneling of electrons", "abstract": "Effects of a coupling between the mechanical vibrations of a quantum dot placed between the two leads of a single-electron transistor and coherent tunneling of electrons through a single level in the ...", "citations": 66, "author_count": 5, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3244, "doi": "10.1209/epl/i2002-00611-3", "umap_coordinates": { "x": 394.3367919921875, "y": 136.14532470703125, "z": 207.14053344726562 }, "tsne_coordinates": { "x": -10.67387866973877, "y": -10.504857063293457, "z": 21.244815826416016 }, "pca_coordinates": { "x": 2.259951114654541, "y": 0.1421976089477539, "z": -0.7793580889701843 }, "axis_scores": { "Quantum imaging": 0.7178617119789124, "Quantum Life Science Sensing": 0.724959135055542, "Quantum sensing Detection": 0.7141772508621216, "Quantum sensing Metrology": 0.6827383637428284, "Quantum sensing navigation": 0.7025840878486633, "Quantum sensing Position": 0.6780566573143005, "Quantum sensing Timing": 0.6815716028213501, "Quantum sensing": 0.7117210626602173, "Quantum control": 0.7201732993125916 } }, { "id": 3239, "title": "Polymer-encapsulated molecular doped epigraphene for quantum resistance metrology", "abstract": "One of the aspirations of quantum metrology is to deliver primary standards directly to end-users thereby significantly shortening the traceability chains and enabling more accurate products. Epitaxia...", "citations": 32, "author_count": 13, "categories": [ "Instruments & Instrumentation" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3245, "doi": "10.1088/1681-7575/ab2807", "umap_coordinates": { "x": 394.37860107421875, "y": 135.00865173339844, "z": 206.05372619628906 }, "tsne_coordinates": { "x": -16.55583953857422, "y": -1.476228952407837, "z": -23.7073917388916 }, "pca_coordinates": { "x": -0.849277913570404, "y": -0.3960072994232178, "z": 2.0119385719299316 }, "axis_scores": { "Quantum imaging": 0.7059069871902466, "Quantum Life Science Sensing": 0.7075915336608887, "Quantum sensing Detection": 0.67630535364151, "Quantum sensing Metrology": 0.694625735282898, "Quantum sensing navigation": 0.6913784146308899, "Quantum sensing Position": 0.6799981594085693, "Quantum sensing Timing": 0.6574336886405945, "Quantum sensing": 0.6901774406433105, "Quantum control": 0.6446868777275085 } }, { "id": 3240, "title": "Spectral shaping for photon counting digital mammography", "abstract": "The spectral shaping properties of conventional filters have been evaluated for a photon counting digital mammography system, and the result has been compared with the theoretical spectrum from a mult...", "citations": 4, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3246, "doi": "10.1016/j.nima.2007.06.087", "umap_coordinates": { "x": 394.968505859375, "y": 132.64715576171875, "z": 205.54640197753906 }, "tsne_coordinates": { "x": -17.086833953857422, "y": 18.774349212646484, "z": -14.139617919921875 }, "pca_coordinates": { "x": -3.381533145904541, "y": 0.9397733211517334, "z": 3.8356375694274902 }, "axis_scores": { "Quantum imaging": 0.7342679500579834, "Quantum Life Science Sensing": 0.7281126379966736, "Quantum sensing Detection": 0.7219278812408447, "Quantum sensing Metrology": 0.7289688587188721, "Quantum sensing navigation": 0.7089334726333618, "Quantum sensing Position": 0.6799762845039368, "Quantum sensing Timing": 0.6857240200042725, "Quantum sensing": 0.7217208743095398, "Quantum control": 0.6629935503005981 } }, { "id": 3241, "title": "Surface enhanced luminescence and Raman scattering from ferroelectrically defined Ag nanopatterned arrays", "abstract": "Ag nanopatterned arrays prepared using periodically proton exchanged templates have been demonstrated to support surface enhanced luminescence. Fluorescence lifetime imaging reveals that luminescence ...", "citations": 33, "author_count": 10, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3247, "doi": "10.1063/1.4818910", "umap_coordinates": { "x": 393.0278015136719, "y": 133.48780822753906, "z": 207.7157745361328 }, "tsne_coordinates": { "x": 25.7531681060791, "y": -15.820504188537598, "z": -7.1213459968566895 }, "pca_coordinates": { "x": -0.9213494062423706, "y": -4.444398403167725, "z": 1.2770531177520752 }, "axis_scores": { "Quantum imaging": 0.7123503088951111, "Quantum Life Science Sensing": 0.7341594099998474, "Quantum sensing Detection": 0.7076387405395508, "Quantum sensing Metrology": 0.714530885219574, "Quantum sensing navigation": 0.7031553983688354, "Quantum sensing Position": 0.6910318732261658, "Quantum sensing Timing": 0.6581954956054688, "Quantum sensing": 0.7223125696182251, "Quantum control": 0.6725171208381653 } }, { "id": 3242, "title": "Optical spectra of low-dimensional semiconductors", "abstract": "We have studied the optical spectra of low-dimensional semiconductor systems by calculating all possible optical transitions between electronic states. Optical absorption and emission have been obtain...", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3248, "doi": null, "umap_coordinates": { "x": 391.7352294921875, "y": 139.18572998046875, "z": 209.10276794433594 }, "tsne_coordinates": { "x": -8.464001655578613, "y": 42.9112663269043, "z": -10.499568939208984 }, "pca_coordinates": { "x": -0.38731110095977783, "y": 0.01307535171508789, "z": -0.3818928599357605 }, "axis_scores": { "Quantum imaging": 0.7558892965316772, "Quantum Life Science Sensing": 0.7686139345169067, "Quantum sensing Detection": 0.7387499213218689, "Quantum sensing Metrology": 0.7337948083877563, "Quantum sensing navigation": 0.7310196757316589, "Quantum sensing Position": 0.7153385877609253, "Quantum sensing Timing": 0.6794013977050781, "Quantum sensing": 0.7446324229240417, "Quantum control": 0.7033399343490601 } }, { "id": 3243, "title": "Artifact reduction in the CSPAD detectors used for LCLS experiments", "abstract": "The existence of noise and column-wise artifacts in the CSPAD-140K detector and in a module of the CSPAD-2.3M large camera, respectively, is reported for the L730 and L867 experiments performed at the...", "citations": 4, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3249, "doi": "10.1107/S160057751701058X", "umap_coordinates": { "x": 395.8978271484375, "y": 134.5208282470703, "z": 206.1946258544922 }, "tsne_coordinates": { "x": -23.18695640563965, "y": 8.445693016052246, "z": -21.88711166381836 }, "pca_coordinates": { "x": -0.5688640475273132, "y": 1.0422141551971436, "z": 1.7050361633300781 }, "axis_scores": { "Quantum imaging": 0.6583681702613831, "Quantum Life Science Sensing": 0.6687456369400024, "Quantum sensing Detection": 0.6694326996803284, "Quantum sensing Metrology": 0.6535843014717102, "Quantum sensing navigation": 0.6469287276268005, "Quantum sensing Position": 0.6582867503166199, "Quantum sensing Timing": 0.6706649661064148, "Quantum sensing": 0.6700648665428162, "Quantum control": 0.6558103561401367 } }, { "id": 3244, "title": "Fabrication of fluorescent nanoparticles based on AIE luminogens (AIE dots) and their applications in bioimaging", "abstract": "Fluorescent nanoparticles (NPs) represent a new group of contrast agents for bioimaging. One of the challenging problems in this area is to fabricate fluorescent NPs with improved brightness, photosta...", "citations": 221, "author_count": 5, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3250, "doi": "10.1039/c6mh00060f", "umap_coordinates": { "x": 392.7620544433594, "y": 134.68983459472656, "z": 204.94888305664062 }, "tsne_coordinates": { "x": 13.16783332824707, "y": 11.415982246398926, "z": -12.225040435791016 }, "pca_coordinates": { "x": -3.6007072925567627, "y": -1.6504836082458496, "z": -1.1082377433776855 }, "axis_scores": { "Quantum imaging": 0.7272719144821167, "Quantum Life Science Sensing": 0.731462299823761, "Quantum sensing Detection": 0.6955760717391968, "Quantum sensing Metrology": 0.68853759765625, "Quantum sensing navigation": 0.6608723402023315, "Quantum sensing Position": 0.6613748073577881, "Quantum sensing Timing": 0.6391752362251282, "Quantum sensing": 0.7048549056053162, "Quantum control": 0.6669178009033203 } }, { "id": 3245, "title": "Two-impurity Anderson model at quantum criticality", "abstract": "We propose a realization of the two-impurity Anderson model in a double quantum-dot device. When charge transfer between the dots is suppressed, the system exhibits a quantum phase transition, which i...", "citations": 6, "author_count": 3, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3251, "doi": "10.1103/PhysRevB.78.035449", "umap_coordinates": { "x": 394.724853515625, "y": 136.7361297607422, "z": 208.66152954101562 }, "tsne_coordinates": { "x": -17.377851486206055, "y": -23.080171585083008, "z": 21.96104621887207 }, "pca_coordinates": { "x": 4.39411735534668, "y": 0.10471725463867188, "z": -1.466338872909546 }, "axis_scores": { "Quantum imaging": 0.7413231134414673, "Quantum Life Science Sensing": 0.7390210032463074, "Quantum sensing Detection": 0.742880642414093, "Quantum sensing Metrology": 0.7200214862823486, "Quantum sensing navigation": 0.7256694436073303, "Quantum sensing Position": 0.7088918685913086, "Quantum sensing Timing": 0.7273852825164795, "Quantum sensing": 0.7486964464187622, "Quantum control": 0.739776074886322 } }, { "id": 3246, "title": "Constant-cutoff approach to the isovector exchange magnetic moment", "abstract": "We suggest a quantum stabilization method for the SU(2) sigma-model based on the constant-cutoff limit of the cutoff quantization method developed by Balakrishna et al., which avoids the difficulties ...", "citations": 7, "author_count": 2, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3252, "doi": null, "umap_coordinates": { "x": 392.4297180175781, "y": 138.757080078125, "z": 209.03134155273438 }, "tsne_coordinates": { "x": -17.242704391479492, "y": 36.300540924072266, "z": 9.88908863067627 }, "pca_coordinates": { "x": 0.9942991733551025, "y": 3.6764326095581055, "z": -4.48922061920166 }, "axis_scores": { "Quantum imaging": 0.6789129376411438, "Quantum Life Science Sensing": 0.6573854088783264, "Quantum sensing Detection": 0.636044979095459, "Quantum sensing Metrology": 0.6320092678070068, "Quantum sensing navigation": 0.6817838549613953, "Quantum sensing Position": 0.6467457413673401, "Quantum sensing Timing": 0.6290930509567261, "Quantum sensing": 0.6525851488113403, "Quantum control": 0.680321991443634 } }, { "id": 3247, "title": "Digital Homodyne and Heterodyne Detection for Stationary Bosonic Modes", "abstract": "Homo- and heterodyne detection are fundamental techniques for measuring propagating electromagnetic fields. However, applying these techniques to stationary fields confined in cavities poses a challen...", "citations": 5, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3253, "doi": "10.1103/PhysRevLett.133.063601", "umap_coordinates": { "x": 395.3129577636719, "y": 136.81809997558594, "z": 208.731201171875 }, "tsne_coordinates": { "x": -22.770545959472656, "y": -22.895584106445312, "z": -6.142955303192139 }, "pca_coordinates": { "x": 4.574368000030518, "y": -0.1328268051147461, "z": 1.019953727722168 }, "axis_scores": { "Quantum imaging": 0.6705615520477295, "Quantum Life Science Sensing": 0.6894087195396423, "Quantum sensing Detection": 0.6833537817001343, "Quantum sensing Metrology": 0.6579287052154541, "Quantum sensing navigation": 0.6855922937393188, "Quantum sensing Position": 0.6631178855895996, "Quantum sensing Timing": 0.665494978427887, "Quantum sensing": 0.6748999953269958, "Quantum control": 0.6580730676651001 } }, { "id": 3248, "title": "Relational Quantum Mechanics: Ozawa's Intersubjectivity Theorem as Justification of the Postulate on Internally Consistent Descriptions", "abstract": "The Ozawa's intersubjectivity theorem (OIT) proved within quantum measurement theory supports the new postulate of relational quantum mechanics (RQM), the postulate on internally consistent descriptio...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3254, "doi": "10.1007/s10701-024-00762-w", "umap_coordinates": { "x": 395.02081298828125, "y": 136.9364013671875, "z": 206.03524780273438 }, "tsne_coordinates": { "x": -31.627304077148438, "y": 16.61369514465332, "z": 19.555492401123047 }, "pca_coordinates": { "x": 0.7894798517227173, "y": 2.6237645149230957, "z": 0.49019962549209595 }, "axis_scores": { "Quantum imaging": 0.7332165837287903, "Quantum Life Science Sensing": 0.721383810043335, "Quantum sensing Detection": 0.7107990980148315, "Quantum sensing Metrology": 0.7012108564376831, "Quantum sensing navigation": 0.7161560654640198, "Quantum sensing Position": 0.6828160881996155, "Quantum sensing Timing": 0.6923352479934692, "Quantum sensing": 0.7278729677200317, "Quantum control": 0.693107545375824 } }, { "id": 3249, "title": "A single-crystal source of path-polarization entangled photons at non-degenerate wavelengths", "abstract": "We demonstrate a bright, narrowband, compact, quasi-phase-matched single-crystal source generating path-polarization-entangled photon pairs at 810 nm and 1550 nm at a maximum rate of 3 x 10(6) s(-1) T...", "citations": 18, "author_count": 5, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3255, "doi": "10.1364/OE.16.009701", "umap_coordinates": { "x": 394.86688232421875, "y": 133.62266540527344, "z": 207.6414337158203 }, "tsne_coordinates": { "x": -10.507415771484375, "y": -4.942271709442139, "z": -30.667312622070312 }, "pca_coordinates": { "x": 0.1812896728515625, "y": -0.755622148513794, "z": 4.335884094238281 }, "axis_scores": { "Quantum imaging": 0.7100147008895874, "Quantum Life Science Sensing": 0.6983340978622437, "Quantum sensing Detection": 0.7046998739242554, "Quantum sensing Metrology": 0.6951133012771606, "Quantum sensing navigation": 0.7019853591918945, "Quantum sensing Position": 0.6742139458656311, "Quantum sensing Timing": 0.6751784682273865, "Quantum sensing": 0.7085886001586914, "Quantum control": 0.6527900695800781 } }, { "id": 3250, "title": "Theoretical investigation of the signal-to-noise ratio in fluorescence lifetime imaging", "abstract": "We deduce the signal-to-noise ratio for fluorescence lifetime imaging when using frequency-domain methods. We assume mono-exponential decay and quantum-noise-limited performance. The results are compa...", "citations": 130, "author_count": 3, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3256, "doi": "10.1364/JOSAA.20.000368", "umap_coordinates": { "x": 394.2744445800781, "y": 134.62440490722656, "z": 205.91116333007812 }, "tsne_coordinates": { "x": 4.120892524719238, "y": 25.431612014770508, "z": -30.30109214782715 }, "pca_coordinates": { "x": -1.1626596450805664, "y": 1.6242939233779907, "z": 0.2891198992729187 }, "axis_scores": { "Quantum imaging": 0.7438828945159912, "Quantum Life Science Sensing": 0.7324602603912354, "Quantum sensing Detection": 0.7118921279907227, "Quantum sensing Metrology": 0.7065183520317078, "Quantum sensing navigation": 0.7017461657524109, "Quantum sensing Position": 0.6814364194869995, "Quantum sensing Timing": 0.6970802545547485, "Quantum sensing": 0.7224516272544861, "Quantum control": 0.6767004132270813 } }, { "id": 3251, "title": "Ultrafast Spectroelectrochemistry Reveals Photoinduced Carrier Dynamics in Positively Charged CdSe Nanocrystals", "abstract": "Extra charges in semiconductor nanocrystals are of paramount importance for their electrically driven optoelectronic and photovoltaic applications. Optical excitations of such charged nanocrystals lea...", "citations": 18, "author_count": 10, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3257, "doi": "10.1021/acs.jpcc.1c02729", "umap_coordinates": { "x": 391.9299011230469, "y": 135.22080993652344, "z": 206.4962921142578 }, "tsne_coordinates": { "x": 12.996194839477539, "y": 0.20653942227363586, "z": 8.911498069763184 }, "pca_coordinates": { "x": -1.2458088397979736, "y": -5.160611629486084, "z": -2.5858399868011475 }, "axis_scores": { "Quantum imaging": 0.7141726016998291, "Quantum Life Science Sensing": 0.7331024408340454, "Quantum sensing Detection": 0.7115445137023926, "Quantum sensing Metrology": 0.6649123430252075, "Quantum sensing navigation": 0.6865952610969543, "Quantum sensing Position": 0.6760944724082947, "Quantum sensing Timing": 0.6775004267692566, "Quantum sensing": 0.7130046486854553, "Quantum control": 0.6983396410942078 } }, { "id": 3252, "title": "Click Reaction Synthesis and Photophysical Studies of Dendritic Metalloporphyrins", "abstract": "Several dendritic zinc(II)-porphyrins bearing carbazole units at the terminals have been prepared through click reaction of azide-substituted Zn-porphyrin precursors and carbazole-based alkynes under ...", "citations": 25, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3258, "doi": "10.1002/ejoc.201301158", "umap_coordinates": { "x": 392.5826721191406, "y": 135.53866577148438, "z": 204.86325073242188 }, "tsne_coordinates": { "x": 17.066816329956055, "y": 8.721817016601562, "z": -4.165499687194824 }, "pca_coordinates": { "x": -3.6285061836242676, "y": 0.19295620918273926, "z": -0.5400276184082031 }, "axis_scores": { "Quantum imaging": 0.7344939112663269, "Quantum Life Science Sensing": 0.7233410477638245, "Quantum sensing Detection": 0.7154783010482788, "Quantum sensing Metrology": 0.6966111063957214, "Quantum sensing navigation": 0.6931426525115967, "Quantum sensing Position": 0.6577161550521851, "Quantum sensing Timing": 0.6793639659881592, "Quantum sensing": 0.7216648459434509, "Quantum control": 0.7117317914962769 } }, { "id": 3253, "title": "Wave-Function Engineering of CdSe/CdS Core/Shell Quantum Dots for Enhanced Electron Transfer to a TiO2 Substrate", "abstract": "In this paper, we have synthesized a series of core/shell quantum dots (QDs) for the purpose of enhancing the electron transfer from the dots to a TiO2 substrate. We make use of the fact that CdSe is ...", "citations": 62, "author_count": 8, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3259, "doi": "10.1021/jp102978g", "umap_coordinates": { "x": 391.63909912109375, "y": 134.3461456298828, "z": 205.79759216308594 }, "tsne_coordinates": { "x": 11.735974311828613, "y": -8.685530662536621, "z": -9.87399959564209 }, "pca_coordinates": { "x": -3.089128017425537, "y": -4.7031145095825195, "z": -0.9501990079879761 }, "axis_scores": { "Quantum imaging": 0.6744148135185242, "Quantum Life Science Sensing": 0.6840226054191589, "Quantum sensing Detection": 0.655583918094635, "Quantum sensing Metrology": 0.6476241946220398, "Quantum sensing navigation": 0.6431751251220703, "Quantum sensing Position": 0.6347975730895996, "Quantum sensing Timing": 0.6335901618003845, "Quantum sensing": 0.6705949902534485, "Quantum control": 0.6469554305076599 } }, { "id": 3254, "title": "Desiccation and salinity effects on marine and brackish Fucus vesiculosus L. (Phaeophyceae)", "abstract": "Ecotypes of Fucus vesiculosus L. from the Norwegian Sea (34 psu, marine ecotype) and Bothnian Sea (5 psu, brackish ecotype) have been compared with respect to the ability to withstand desiccation at d...", "citations": 39, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3260, "doi": "10.2216/08-45.1", "umap_coordinates": { "x": 393.72503662109375, "y": 135.84329223632812, "z": 203.51129150390625 }, "tsne_coordinates": { "x": 15.565302848815918, "y": 29.950271606445312, "z": 16.49049186706543 }, "pca_coordinates": { "x": -3.010633945465088, "y": 2.472933530807495, "z": -2.2922823429107666 }, "axis_scores": { "Quantum imaging": 0.6721788048744202, "Quantum Life Science Sensing": 0.7280319929122925, "Quantum sensing Detection": 0.6522009968757629, "Quantum sensing Metrology": 0.6639806032180786, "Quantum sensing navigation": 0.6708016395568848, "Quantum sensing Position": 0.648944616317749, "Quantum sensing Timing": 0.6303893327713013, "Quantum sensing": 0.6794577240943909, "Quantum control": 0.6813079714775085 } }, { "id": 3255, "title": "Correlation between overgrowth morphology and optical properties of single self-assembled InP quantum dots - art. no. 125303", "abstract": "We have studied the early stages of GaInP overgrowth on InP quantum dots (QD's) experimentally and theoretically. A direct correlation between the surface morphology and the optical properties of indi...", "citations": 10, "author_count": 12, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3261, "doi": "10.1103/PhysRevB.68.125303", "umap_coordinates": { "x": 393.3583068847656, "y": 134.53074645996094, "z": 208.95751953125 }, "tsne_coordinates": { "x": 8.561849594116211, "y": -30.711688995361328, "z": -3.9372098445892334 }, "pca_coordinates": { "x": 2.573662281036377, "y": -3.6010308265686035, "z": 1.2754762172698975 }, "axis_scores": { "Quantum imaging": 0.7084145545959473, "Quantum Life Science Sensing": 0.7257987856864929, "Quantum sensing Detection": 0.7056562304496765, "Quantum sensing Metrology": 0.7173366546630859, "Quantum sensing navigation": 0.7003805041313171, "Quantum sensing Position": 0.6943989992141724, "Quantum sensing Timing": 0.6529508829116821, "Quantum sensing": 0.713778018951416, "Quantum control": 0.6785135269165039 } }, { "id": 3256, "title": "Increasing the dose efficiency in silicon photon-counting detectors utilizing dual shapers", "abstract": "Silicon photon-counting spectral detectors are candidates for the next generation of medical CT. For silicon detectors, a low noise floor is necessary to obtain good detection efficiency. A low noise ...", "citations": 1, "author_count": 6, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3262, "doi": "10.1117/12.2293453", "umap_coordinates": { "x": 395.68951416015625, "y": 132.61183166503906, "z": 205.9248809814453 }, "tsne_coordinates": { "x": -13.884387016296387, "y": 23.117294311523438, "z": -23.444185256958008 }, "pca_coordinates": { "x": -2.738236904144287, "y": 0.2965860366821289, "z": 5.23739767074585 }, "axis_scores": { "Quantum imaging": 0.7167601585388184, "Quantum Life Science Sensing": 0.7057554721832275, "Quantum sensing Detection": 0.71628737449646, "Quantum sensing Metrology": 0.7049828171730042, "Quantum sensing navigation": 0.6892033815383911, "Quantum sensing Position": 0.6811395883560181, "Quantum sensing Timing": 0.6978458166122437, "Quantum sensing": 0.7075468301773071, "Quantum control": 0.649619996547699 } }, { "id": 3257, "title": "Experimental Measurement-Device-Independent Entanglement Detection", "abstract": "Entanglement is one of the most puzzling features of quantum theory and of great importance for the new field of quantum information. The determination whether a given state is entangled or not is one...", "citations": 20, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3263, "doi": "10.1038/srep08048", "umap_coordinates": { "x": 395.81707763671875, "y": 135.97390747070312, "z": 207.0336456298828 }, "tsne_coordinates": { "x": -24.414169311523438, "y": -7.453250408172607, "z": -8.080153465270996 }, "pca_coordinates": { "x": 1.0473837852478027, "y": 1.408327579498291, "z": 4.162564754486084 }, "axis_scores": { "Quantum imaging": 0.7551530599594116, "Quantum Life Science Sensing": 0.7326187491416931, "Quantum sensing Detection": 0.7538412809371948, "Quantum sensing Metrology": 0.7250158786773682, "Quantum sensing navigation": 0.7249369025230408, "Quantum sensing Position": 0.7084137201309204, "Quantum sensing Timing": 0.69956374168396, "Quantum sensing": 0.7507926821708679, "Quantum control": 0.7036280632019043 } }, { "id": 3258, "title": "Photon upconversion in degenerately sulfur doped InP nanowires", "abstract": "Radiative recombination in degenerately n-doped InP nanowires is studied for excitation above and below the Fermi energy of the electron gas, using photoluminescence. Laser-induced electron heating is...", "citations": 1, "author_count": 8, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3264, "doi": "10.1039/c5nr05472a", "umap_coordinates": { "x": 392.2496643066406, "y": 134.14234924316406, "z": 207.81028747558594 }, "tsne_coordinates": { "x": 15.02084732055664, "y": -11.07995319366455, "z": 1.535858154296875 }, "pca_coordinates": { "x": -0.5037480592727661, "y": -5.226349353790283, "z": 2.1111361980438232 }, "axis_scores": { "Quantum imaging": 0.7042741179466248, "Quantum Life Science Sensing": 0.7093837261199951, "Quantum sensing Detection": 0.7086371779441833, "Quantum sensing Metrology": 0.6880505681037903, "Quantum sensing navigation": 0.6956893801689148, "Quantum sensing Position": 0.6676280498504639, "Quantum sensing Timing": 0.6556658148765564, "Quantum sensing": 0.7071795463562012, "Quantum control": 0.6538224220275879 } }, { "id": 3259, "title": "Graphene nanoribbon as a negative differential resistance device", "abstract": "We present a theoretical study on electronic structure and elastic transport properties of armchair graphene nanoribbon based junctions by using density functional theory calculations and nonequilibri...", "citations": 235, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3265, "doi": "10.1063/1.3126451", "umap_coordinates": { "x": 393.7084045410156, "y": 134.42977905273438, "z": 208.07711791992188 }, "tsne_coordinates": { "x": 26.264158248901367, "y": -32.14750289916992, "z": 1.370155930519104 }, "pca_coordinates": { "x": 0.6550593376159668, "y": -2.3513684272766113, "z": 0.29921644926071167 }, "axis_scores": { "Quantum imaging": 0.6978611946105957, "Quantum Life Science Sensing": 0.7495944499969482, "Quantum sensing Detection": 0.7494164705276489, "Quantum sensing Metrology": 0.7135483622550964, "Quantum sensing navigation": 0.7272935509681702, "Quantum sensing Position": 0.7208456993103027, "Quantum sensing Timing": 0.6737332344055176, "Quantum sensing": 0.7468946576118469, "Quantum control": 0.6963906288146973 } }, { "id": 3260, "title": "A novel electrical property of three-terminal ballistic junctions and its applications in nanoelectronics", "abstract": "A room-temperature electrical property of three-terminal ballistic junctions (TBJs) is predicted. For a symmetric TBJ. it is shown that when finite voltages F and -V are applied to the left and right ...", "citations": 25, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3266, "doi": "10.1016/S1386-9477(02)00240-0", "umap_coordinates": { "x": 393.4571533203125, "y": 134.6828155517578, "z": 206.81005859375 }, "tsne_coordinates": { "x": 26.63762092590332, "y": -26.813127517700195, "z": 14.349021911621094 }, "pca_coordinates": { "x": 0.3005247116088867, "y": -1.721524715423584, "z": -0.20183846354484558 }, "axis_scores": { "Quantum imaging": 0.7030681371688843, "Quantum Life Science Sensing": 0.737277626991272, "Quantum sensing Detection": 0.7181621193885803, "Quantum sensing Metrology": 0.7018523812294006, "Quantum sensing navigation": 0.7171839475631714, "Quantum sensing Position": 0.7087815999984741, "Quantum sensing Timing": 0.6863921284675598, "Quantum sensing": 0.7238556146621704, "Quantum control": 0.6798443794250488 } }, { "id": 3261, "title": "Spectral decomposition of the Lindblad operator", "abstract": "We discuss the mathematical structure of quantum states on which the master equation generates a semigroup of irreversible time evolution. As an illustration of an open system we choose to treat the h...", "citations": 33, "author_count": 3, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3267, "doi": "10.1080/09500340008232202", "umap_coordinates": { "x": 394.8828430175781, "y": 136.19874572753906, "z": 206.06729125976562 }, "tsne_coordinates": { "x": -38.7408447265625, "y": 4.225124835968018, "z": 6.5313401222229 }, "pca_coordinates": { "x": 0.7364060878753662, "y": 2.0042028427124023, "z": -0.8183621168136597 }, "axis_scores": { "Quantum imaging": 0.7034634947776794, "Quantum Life Science Sensing": 0.719184398651123, "Quantum sensing Detection": 0.7115876078605652, "Quantum sensing Metrology": 0.7053508162498474, "Quantum sensing navigation": 0.7171755433082581, "Quantum sensing Position": 0.6976783871650696, "Quantum sensing Timing": 0.6640661954879761, "Quantum sensing": 0.7186325788497925, "Quantum control": 0.6806252002716064 } }, { "id": 3262, "title": "CHANNELING RADIATION AND COHERENT BREMSSTRAHLUNG FOR SIMPLE LATTICES - A 3-DIMENSIONAL APPROACH", "abstract": "The effect of the longitudinal variation of the lattice potential is investigated numerically for the case of electron channeling in the low-energy regime. Corrections to the energy of the emitted pho...", "citations": 5, "author_count": 3, "categories": [ "Materials Science" ], "year": 1991, "topic": [ "all" ], "embedding_index": 3268, "doi": "10.1103/PhysRevB.43.12701", "umap_coordinates": { "x": 395.1751403808594, "y": 136.2969512939453, "z": 207.9241485595703 }, "tsne_coordinates": { "x": -19.864654541015625, "y": -27.442245483398438, "z": -7.175075531005859 }, "pca_coordinates": { "x": 2.4732859134674072, "y": 0.7198405265808105, "z": 1.271479845046997 }, "axis_scores": { "Quantum imaging": 0.7213382720947266, "Quantum Life Science Sensing": 0.7095429301261902, "Quantum sensing Detection": 0.7057391405105591, "Quantum sensing Metrology": 0.6873378157615662, "Quantum sensing navigation": 0.7241278290748596, "Quantum sensing Position": 0.6687413454055786, "Quantum sensing Timing": 0.6698277592658997, "Quantum sensing": 0.7116547226905823, "Quantum control": 0.6838580369949341 } }, { "id": 3263, "title": "Ground State Host-Guest Interactions upon Effective Dispersion of Regioregular Poly(3-hexylthiophene) in Poly(9,9-dioctylfluorene-alt-benzothiadiazole)", "abstract": "Regioregular poly(3-hexylthiophene), (rr-P3HT), is widely regarded as an archetypical semiconducting electron-donor polymer in bulk heterojunction solar cells, mainly due to its notable exciton and ch...", "citations": 17, "author_count": 9, "categories": [ "Polymer Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3269, "doi": "10.1021/acs.macromol.5b02111", "umap_coordinates": { "x": 392.365966796875, "y": 136.0896453857422, "z": 205.29037475585938 }, "tsne_coordinates": { "x": 3.8822262287139893, "y": 12.136236190795898, "z": -18.402799606323242 }, "pca_coordinates": { "x": -0.9236841201782227, "y": -1.8478083610534668, "z": -2.832636594772339 }, "axis_scores": { "Quantum imaging": 0.6871604919433594, "Quantum Life Science Sensing": 0.6839016079902649, "Quantum sensing Detection": 0.6644788384437561, "Quantum sensing Metrology": 0.6603471040725708, "Quantum sensing navigation": 0.6465032696723938, "Quantum sensing Position": 0.6745724081993103, "Quantum sensing Timing": 0.6494439244270325, "Quantum sensing": 0.6775048971176147, "Quantum control": 0.6585999727249146 } }, { "id": 3264, "title": "High-resolution ptychographic imaging at a seeded free-electron laser source using OAM beams", "abstract": "Electromagnetic waves possessing orbital angular momentum (OAM) are powerful tools for applications in optical communications, quantum technologies, and optical tweezers. Recently, they have attracted...", "citations": 16, "author_count": 25, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3270, "doi": "10.1364/OPTICA.509745", "umap_coordinates": { "x": 394.86358642578125, "y": 133.9932861328125, "z": 206.1329803466797 }, "tsne_coordinates": { "x": 2.517434597015381, "y": 18.600919723510742, "z": -30.897109985351562 }, "pca_coordinates": { "x": -1.6388306617736816, "y": 0.09063720703125, "z": 3.4967145919799805 }, "axis_scores": { "Quantum imaging": 0.6838015913963318, "Quantum Life Science Sensing": 0.6521691083908081, "Quantum sensing Detection": 0.6484036445617676, "Quantum sensing Metrology": 0.6659813523292542, "Quantum sensing navigation": 0.6536206603050232, "Quantum sensing Position": 0.6496286392211914, "Quantum sensing Timing": 0.6458043456077576, "Quantum sensing": 0.6570377349853516, "Quantum control": 0.639975905418396 } }, { "id": 3265, "title": "Theory of tunneling spectroscopy in ferromagnetic nanoparticles", "abstract": "We present a theory of the low-energy excitations of a ferromagnetic metal nanoparticle. In addition to the particle-hole excitations, which occur in a paramagnetic metal nanoparticle, we predict a br...", "citations": 43, "author_count": 3, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3271, "doi": "10.1103/PhysRevLett.85.5623", "umap_coordinates": { "x": 394.1080017089844, "y": 135.3965301513672, "z": 209.04428100585938 }, "tsne_coordinates": { "x": -9.849201202392578, "y": -34.92007064819336, "z": 1.3930355310440063 }, "pca_coordinates": { "x": 3.8713626861572266, "y": -2.0410327911376953, "z": 0.2672775387763977 }, "axis_scores": { "Quantum imaging": 0.7238301038742065, "Quantum Life Science Sensing": 0.7529885172843933, "Quantum sensing Detection": 0.7427440881729126, "Quantum sensing Metrology": 0.7435373067855835, "Quantum sensing navigation": 0.7379194498062134, "Quantum sensing Position": 0.7151177525520325, "Quantum sensing Timing": 0.7111814022064209, "Quantum sensing": 0.7482151985168457, "Quantum control": 0.6963123679161072 } }, { "id": 3266, "title": "Subpicosecond hard x-ray streak camera using single-photon counting", "abstract": "We have developed and characterized a hard x-ray accumulating streak camera that achieves subpicosecond time resolution by using single-photon counting. A high repetition rate of 2 kHz was achieved by...", "citations": 13, "author_count": 10, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3272, "doi": "10.1364/OL.35.003219", "umap_coordinates": { "x": 395.2785949707031, "y": 133.4974365234375, "z": 206.72146606445312 }, "tsne_coordinates": { "x": 0.33479586243629456, "y": 18.24785804748535, "z": -33.82804870605469 }, "pca_coordinates": { "x": -1.7963989973068237, "y": 0.6340748071670532, "z": 4.550025463104248 }, "axis_scores": { "Quantum imaging": 0.7108454704284668, "Quantum Life Science Sensing": 0.7070221304893494, "Quantum sensing Detection": 0.6972490549087524, "Quantum sensing Metrology": 0.6847878098487854, "Quantum sensing navigation": 0.6849638223648071, "Quantum sensing Position": 0.672102689743042, "Quantum sensing Timing": 0.6819585561752319, "Quantum sensing": 0.7064809799194336, "Quantum control": 0.6514554619789124 } }, { "id": 3267, "title": "Sufficient Condition for Universal Quantum Computation Using Bosonic Circuits", "abstract": "Continuous-variable bosonic systems stand as prominent candidates for implementing quantum computational tasks. While various necessary criteria have been established to assess their resourcefulness, ...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3273, "doi": "10.1103/PRXQuantum.5.020337", "umap_coordinates": { "x": 395.87762451171875, "y": 136.8668975830078, "z": 207.46905517578125 }, "tsne_coordinates": { "x": -31.344717025756836, "y": -18.451309204101562, "z": -0.8475112318992615 }, "pca_coordinates": { "x": 3.090959072113037, "y": 1.6193606853485107, "z": 1.508061170578003 }, "axis_scores": { "Quantum imaging": 0.723844587802887, "Quantum Life Science Sensing": 0.7383943200111389, "Quantum sensing Detection": 0.762012779712677, "Quantum sensing Metrology": 0.7550238370895386, "Quantum sensing navigation": 0.7313559055328369, "Quantum sensing Position": 0.7223049402236938, "Quantum sensing Timing": 0.7204917073249817, "Quantum sensing": 0.7624082565307617, "Quantum control": 0.7294166684150696 } }, { "id": 3268, "title": "Entanglement fidelity and measure of entanglement", "abstract": "The notion of entanglement fidelity is to measure entanglement preservation through quantum channels. Nevertheless, the amount of entanglement present in a state of a quantum system at any time is mea...", "citations": 7, "author_count": 2, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3274, "doi": "10.1007/s11128-020-02808-0", "umap_coordinates": { "x": 395.54302978515625, "y": 136.72438049316406, "z": 206.2755126953125 }, "tsne_coordinates": { "x": -25.436973571777344, "y": -0.7051023244857788, "z": 12.427000999450684 }, "pca_coordinates": { "x": 0.9201686382293701, "y": 2.651942491531372, "z": 1.5425999164581299 }, "axis_scores": { "Quantum imaging": 0.7446770071983337, "Quantum Life Science Sensing": 0.7365904450416565, "Quantum sensing Detection": 0.7408393621444702, "Quantum sensing Metrology": 0.744421124458313, "Quantum sensing navigation": 0.7340393662452698, "Quantum sensing Position": 0.7324126362800598, "Quantum sensing Timing": 0.7071409225463867, "Quantum sensing": 0.7543604969978333, "Quantum control": 0.7435197830200195 } }, { "id": 3269, "title": "The O(N)-flavoured replica twist defect", "abstract": "Replica twist defects are of codimension two and enter in quantum information when finding the Renyi entropy. In particular, they generate n replicas of the bulk conformal field theory. We study the m...", "citations": 5, "author_count": 2, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3275, "doi": "10.1007/JHEP07(2023)022", "umap_coordinates": { "x": 396.113037109375, "y": 136.04434204101562, "z": 206.69427490234375 }, "tsne_coordinates": { "x": -41.58929443359375, "y": 10.927587509155273, "z": -3.9142684936523438 }, "pca_coordinates": { "x": 0.3808177709579468, "y": 3.1167824268341064, "z": -0.9598114490509033 }, "axis_scores": { "Quantum imaging": 0.66292405128479, "Quantum Life Science Sensing": 0.6724069714546204, "Quantum sensing Detection": 0.6547046303749084, "Quantum sensing Metrology": 0.6491252779960632, "Quantum sensing navigation": 0.6761478185653687, "Quantum sensing Position": 0.6784660816192627, "Quantum sensing Timing": 0.6739813089370728, "Quantum sensing": 0.6683639883995056, "Quantum control": 0.6622159481048584 } }, { "id": 3270, "title": "A short and efficient error correcting code for polarization coded photonic qubits in a dissipative channel", "abstract": "We propose a short and efficient non-degenerate quantum error correcting code that is adapted for qubits encoded on two orthogonal, single-photon states (e.g., horizontally and vertically polarized) s...", "citations": 3, "author_count": 3, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3276, "doi": "10.1016/j.optcom.2010.09.006", "umap_coordinates": { "x": 394.8984069824219, "y": 134.44276428222656, "z": 206.62998962402344 }, "tsne_coordinates": { "x": -15.696910858154297, "y": -1.7060236930847168, "z": -8.560293197631836 }, "pca_coordinates": { "x": -0.370061993598938, "y": -0.5937819480895996, "z": 2.4529190063476562 }, "axis_scores": { "Quantum imaging": 0.7454342842102051, "Quantum Life Science Sensing": 0.7133538722991943, "Quantum sensing Detection": 0.7329599857330322, "Quantum sensing Metrology": 0.6957147121429443, "Quantum sensing navigation": 0.7333695888519287, "Quantum sensing Position": 0.7003080248832703, "Quantum sensing Timing": 0.7094650268554688, "Quantum sensing": 0.7455086708068848, "Quantum control": 0.69902104139328 } }, { "id": 3271, "title": "Fractional pumping of energy into a ballistic quantum ring", "abstract": "We consider the energy stored in a one-dimensional ballistic ring with a barrier subject to a linearly time-dependent magnetic flux. An exact analytic solution for the quantum dynamics of electrons in...", "citations": 8, "author_count": 6, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3277, "doi": "10.1103/PhysRevLett.78.2196", "umap_coordinates": { "x": 394.441162109375, "y": 136.0123748779297, "z": 208.05807495117188 }, "tsne_coordinates": { "x": -7.723574161529541, "y": -14.910953521728516, "z": 16.72730255126953 }, "pca_coordinates": { "x": 4.333143711090088, "y": -0.46878647804260254, "z": -0.3813017010688782 }, "axis_scores": { "Quantum imaging": 0.74387127161026, "Quantum Life Science Sensing": 0.763624906539917, "Quantum sensing Detection": 0.7571112513542175, "Quantum sensing Metrology": 0.7360866069793701, "Quantum sensing navigation": 0.7490055561065674, "Quantum sensing Position": 0.7410210371017456, "Quantum sensing Timing": 0.7292444109916687, "Quantum sensing": 0.766304075717926, "Quantum control": 0.7241418361663818 } }, { "id": 3272, "title": "Measurement of the 4He(γ,n) reaction from 23 < Eγ<70 MeV", "abstract": "A comprehensive set of He-4(gamma,n) absolute cross-section measurements was performed at MAX-lab in Lund, Sweden. Tagged photons from 23 < E-gamma < 70 MeV were directed toward a liquid He-4 target, ...", "citations": 27, "author_count": 22, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3278, "doi": "10.1103/PhysRevC.75.014007", "umap_coordinates": { "x": 396.53521728515625, "y": 135.0044708251953, "z": 207.53182983398438 }, "tsne_coordinates": { "x": -26.78706932067871, "y": 7.410161972045898, "z": -16.551912307739258 }, "pca_coordinates": { "x": 2.742584228515625, "y": 2.0250306129455566, "z": 1.2466301918029785 }, "axis_scores": { "Quantum imaging": 0.6842755675315857, "Quantum Life Science Sensing": 0.7157476544380188, "Quantum sensing Detection": 0.7001854777336121, "Quantum sensing Metrology": 0.6698381900787354, "Quantum sensing navigation": 0.7063599824905396, "Quantum sensing Position": 0.6796897053718567, "Quantum sensing Timing": 0.6776259541511536, "Quantum sensing": 0.7013083696365356, "Quantum control": 0.6691935658454895 } }, { "id": 3273, "title": "Enhanced triple-quantum excitation in 13C magic-angle spinning NMR", "abstract": "We describe a new method for exciting triple-quantum coherences in C-13-labelled powder samples under MAS. The proposed method combines selective double-quantum excitation with rotational resonance an...", "citations": 10, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3279, "doi": "10.1016/S1090-7807(03)00059-4", "umap_coordinates": { "x": 392.4095764160156, "y": 136.3201904296875, "z": 206.73178100585938 }, "tsne_coordinates": { "x": 15.307860374450684, "y": -1.0980886220932007, "z": 29.243064880371094 }, "pca_coordinates": { "x": -1.6124851703643799, "y": 0.5156303644180298, "z": 0.23327654600143433 }, "axis_scores": { "Quantum imaging": 0.7236254215240479, "Quantum Life Science Sensing": 0.7013545036315918, "Quantum sensing Detection": 0.6948181986808777, "Quantum sensing Metrology": 0.6893693208694458, "Quantum sensing navigation": 0.6844982504844666, "Quantum sensing Position": 0.6807851195335388, "Quantum sensing Timing": 0.6932588219642639, "Quantum sensing": 0.7098680734634399, "Quantum control": 0.6831169128417969 } }, { "id": 3274, "title": "Direct Atomic Scale Imaging of III-V Nanowire Surfaces", "abstract": "We have succeeded in direct atomic scale imaging of the exterior surfaces of III-V nanowires by scanning tunneling microscopy (STM). By using atomic hydrogen, we expose the crystalline surfaces of InA...", "citations": 93, "author_count": 9, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3280, "doi": "10.1021/nl802500d", "umap_coordinates": { "x": 392.4853210449219, "y": 133.9971923828125, "z": 207.19309997558594 }, "tsne_coordinates": { "x": 14.50133991241455, "y": -20.622085571289062, "z": -9.48657512664795 }, "pca_coordinates": { "x": -1.852702260017395, "y": -3.0878381729125977, "z": 1.484243392944336 }, "axis_scores": { "Quantum imaging": 0.755234956741333, "Quantum Life Science Sensing": 0.7525384426116943, "Quantum sensing Detection": 0.7413057684898376, "Quantum sensing Metrology": 0.7277541160583496, "Quantum sensing navigation": 0.7440305948257446, "Quantum sensing Position": 0.7209998369216919, "Quantum sensing Timing": 0.6706511974334717, "Quantum sensing": 0.7492456436157227, "Quantum control": 0.6916494369506836 } }, { "id": 3275, "title": "Edible Long-Afterglow Photoluminescent Materials for Bioimaging", "abstract": "Confining luminophores into modified hydrophilic matrices or polymers is a straightforward and widely used approach for afterglow bioimaging. However, the afterglow quantum yield and lifetime of the r...", "citations": 54, "author_count": 11, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3281, "doi": "10.1002/adma.202404888", "umap_coordinates": { "x": 392.837646484375, "y": 134.609619140625, "z": 204.35089111328125 }, "tsne_coordinates": { "x": 18.174028396606445, "y": 35.079078674316406, "z": -6.934210300445557 }, "pca_coordinates": { "x": -4.777042388916016, "y": 0.16155219078063965, "z": -1.0322022438049316 }, "axis_scores": { "Quantum imaging": 0.6767632961273193, "Quantum Life Science Sensing": 0.687446117401123, "Quantum sensing Detection": 0.6153117418289185, "Quantum sensing Metrology": 0.6186851859092712, "Quantum sensing navigation": 0.6081283092498779, "Quantum sensing Position": 0.6062161326408386, "Quantum sensing Timing": 0.6156563758850098, "Quantum sensing": 0.6410782337188721, "Quantum control": 0.6089451909065247 } }, { "id": 3276, "title": "Characterization of VCAM-1-Binding Peptide-Functionalized Quantum Dots for Molecular Imaging of Inflamed Endothelium", "abstract": "Inflammation-induced activation of endothelium constitutes one of the earliest changes during atherogenesis. New imaging techniques that allow detecting activated endothelial cells can improve the ide...", "citations": 22, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3282, "doi": "10.1371/journal.pone.0083805", "umap_coordinates": { "x": 393.93817138671875, "y": 134.68077087402344, "z": 204.22296142578125 }, "tsne_coordinates": { "x": 7.023665904998779, "y": 28.57382583618164, "z": -8.42569637298584 }, "pca_coordinates": { "x": -3.134173631668091, "y": 1.2180718183517456, "z": 1.1554369926452637 }, "axis_scores": { "Quantum imaging": 0.7383540272712708, "Quantum Life Science Sensing": 0.7146367430686951, "Quantum sensing Detection": 0.7130172848701477, "Quantum sensing Metrology": 0.7109248042106628, "Quantum sensing navigation": 0.7049832344055176, "Quantum sensing Position": 0.6791456341743469, "Quantum sensing Timing": 0.6907358169555664, "Quantum sensing": 0.7136057615280151, "Quantum control": 0.6975411772727966 } }, { "id": 3277, "title": "Quantum signatures of an oscillatory instability in the Bose-Hubbard trimer", "abstract": "We study the Bose-Hubbard model for three sites in a symmetric, triangular configuration and search for quantum signatures of the classical regime of oscillatory instabilities, known to appear through...", "citations": 20, "author_count": 4, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3283, "doi": "10.1103/PhysRevE.86.016214", "umap_coordinates": { "x": 394.3066711425781, "y": 136.4369354248047, "z": 208.75230407714844 }, "tsne_coordinates": { "x": -9.927708625793457, "y": -22.207263946533203, "z": 19.87265968322754 }, "pca_coordinates": { "x": 4.536483287811279, "y": -0.6373567581176758, "z": -1.7206828594207764 }, "axis_scores": { "Quantum imaging": 0.7109152674674988, "Quantum Life Science Sensing": 0.7203212976455688, "Quantum sensing Detection": 0.721587598323822, "Quantum sensing Metrology": 0.6881731748580933, "Quantum sensing navigation": 0.7059418559074402, "Quantum sensing Position": 0.6893018484115601, "Quantum sensing Timing": 0.701256275177002, "Quantum sensing": 0.7144181132316589, "Quantum control": 0.6928290724754333 } }, { "id": 3278, "title": "GTPack: A Mathematica Group Theory Package for Application in Solid-State Physics and Photonics", "abstract": "We present the Mathematica group theory package GTPack providing about 200 additional modules to the standard Mathematica language. The content ranges from basic group theory and representation theory...", "citations": 25, "author_count": 3, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3284, "doi": "10.3389/fphy.2018.00086", "umap_coordinates": { "x": 394.7350769042969, "y": 136.9722442626953, "z": 205.2895965576172 }, "tsne_coordinates": { "x": -19.547643661499023, "y": 20.691635131835938, "z": 18.258689880371094 }, "pca_coordinates": { "x": 0.5025651454925537, "y": 1.8011542558670044, "z": -0.06335705518722534 }, "axis_scores": { "Quantum imaging": 0.7081563472747803, "Quantum Life Science Sensing": 0.7080084085464478, "Quantum sensing Detection": 0.6995905637741089, "Quantum sensing Metrology": 0.696099579334259, "Quantum sensing navigation": 0.7038434743881226, "Quantum sensing Position": 0.6985479593276978, "Quantum sensing Timing": 0.7031460404396057, "Quantum sensing": 0.7100633382797241, "Quantum control": 0.697169303894043 } }, { "id": 3279, "title": "Comparison of photon-counting to storage phosphor plate mammography using contrast-detail phantom analysis", "abstract": "Two digital mammography systems, one based on scanning photon counting silicon detectors and the other on storage phosphor plates (CR), have been compared in terms of image quality and dose. Sets of i...", "citations": 1, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3285, "doi": "10.1016/j.nima.2007.06.115", "umap_coordinates": { "x": 394.8401794433594, "y": 132.74240112304688, "z": 205.24087524414062 }, "tsne_coordinates": { "x": -11.351405143737793, "y": 16.624048233032227, "z": -13.87420654296875 }, "pca_coordinates": { "x": -3.77292537689209, "y": 2.483088970184326, "z": 3.233069896697998 }, "axis_scores": { "Quantum imaging": 0.6898205280303955, "Quantum Life Science Sensing": 0.6731603145599365, "Quantum sensing Detection": 0.6755396127700806, "Quantum sensing Metrology": 0.666821300983429, "Quantum sensing navigation": 0.667099118232727, "Quantum sensing Position": 0.6650989651679993, "Quantum sensing Timing": 0.6633769869804382, "Quantum sensing": 0.6672136187553406, "Quantum control": 0.61423659324646 } }, { "id": 3280, "title": "The Metallofullerene Field-Induced Single-Ion Magnet HoSc2N@C80", "abstract": "The low-temperature magnetic properties of the endohedral metallofullerene HoSc2N@C-80 have been studied by superconducting quantum interference device (SQUID) magnetometry. Alternating current (ac) s...", "citations": 62, "author_count": 10, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3286, "doi": "10.1002/chem.201403042", "umap_coordinates": { "x": 392.2052917480469, "y": 135.87745666503906, "z": 207.18287658691406 }, "tsne_coordinates": { "x": 18.312015533447266, "y": -29.502647399902344, "z": 22.818788528442383 }, "pca_coordinates": { "x": -0.4253358840942383, "y": -1.820601463317871, "z": -3.539564609527588 }, "axis_scores": { "Quantum imaging": 0.6896815299987793, "Quantum Life Science Sensing": 0.7228672504425049, "Quantum sensing Detection": 0.6999552249908447, "Quantum sensing Metrology": 0.7080733776092529, "Quantum sensing navigation": 0.6866530179977417, "Quantum sensing Position": 0.6583301424980164, "Quantum sensing Timing": 0.646030604839325, "Quantum sensing": 0.7158721089363098, "Quantum control": 0.6790594458580017 } }, { "id": 3281, "title": "Two-component Bose gases under rotation", "abstract": "We examine the formation of vortices in a one- and two-component gas of bosonic atoms in a harmonic trap that is set rotating. Both the mean-field Gross-Pitaevskii approach, and the numerical diagonal...", "citations": 1, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3287, "doi": null, "umap_coordinates": { "x": 391.8986511230469, "y": 139.47776794433594, "z": 208.83021545410156 }, "tsne_coordinates": { "x": -14.91602897644043, "y": 37.937843322753906, "z": 5.30476188659668 }, "pca_coordinates": { "x": 1.134141206741333, "y": 4.262679100036621, "z": -3.5558502674102783 }, "axis_scores": { "Quantum imaging": 0.702165961265564, "Quantum Life Science Sensing": 0.702609121799469, "Quantum sensing Detection": 0.6934630870819092, "Quantum sensing Metrology": 0.6886472702026367, "Quantum sensing navigation": 0.6970064043998718, "Quantum sensing Position": 0.6723644733428955, "Quantum sensing Timing": 0.6766946315765381, "Quantum sensing": 0.7039512395858765, "Quantum control": 0.7115166783332825 } }, { "id": 3282, "title": "Diode effect in asymmetric double-tunnel barriers with single-metal nanoclusters", "abstract": "Asymmetric double-tunnel barriers with the center electrode being a metal cluster in the quantum regime are studied. The zero dimensionality of the clusters used and the associated quantized energy sp...", "citations": 11, "author_count": 4, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3288, "doi": "10.1063/1.2195643", "umap_coordinates": { "x": 393.8055419921875, "y": 133.90362548828125, "z": 208.34617614746094 }, "tsne_coordinates": { "x": 23.747867584228516, "y": -28.574174880981445, "z": -3.4641976356506348 }, "pca_coordinates": { "x": 0.8293764591217041, "y": -3.413534164428711, "z": 1.1696548461914062 }, "axis_scores": { "Quantum imaging": 0.7226481437683105, "Quantum Life Science Sensing": 0.7203599214553833, "Quantum sensing Detection": 0.724201500415802, "Quantum sensing Metrology": 0.7194504141807556, "Quantum sensing navigation": 0.7118068933486938, "Quantum sensing Position": 0.6741109490394592, "Quantum sensing Timing": 0.6737706065177917, "Quantum sensing": 0.7294017672538757, "Quantum control": 0.69185471534729 } }, { "id": 3283, "title": "Quasi-zero-dimensional excitons in quantum well structures of CdTe/CdMnTe", "abstract": "in this work we discuss properties of excitons in quantum well structures of CdTe/CdMnTe. We analyse exciton-phonon interaction of strongly localised excitons by studying the temperature dependence of...", "citations": 8, "author_count": 6, "categories": [ "Crystallography" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3289, "doi": "10.1016/S0022-0248(00)00121-4", "umap_coordinates": { "x": 392.4087829589844, "y": 135.06292724609375, "z": 207.66600036621094 }, "tsne_coordinates": { "x": 19.841320037841797, "y": -5.713525772094727, "z": 11.865386962890625 }, "pca_coordinates": { "x": 0.5049272775650024, "y": -2.7493791580200195, "z": -1.2839243412017822 }, "axis_scores": { "Quantum imaging": 0.6994888186454773, "Quantum Life Science Sensing": 0.6973158121109009, "Quantum sensing Detection": 0.6810756325721741, "Quantum sensing Metrology": 0.6854590177536011, "Quantum sensing navigation": 0.6964926719665527, "Quantum sensing Position": 0.6971177458763123, "Quantum sensing Timing": 0.663057267665863, "Quantum sensing": 0.6832292079925537, "Quantum control": 0.6756120324134827 } }, { "id": 3284, "title": "Formation and evaporation of quantum black holes from the decoupling mechanism in quantum gravity", "abstract": "We propose a new method to account for quantum-gravitational effects in cosmological and black hole spacetimes. At the core of our construction is the decoupling mechanism: when a physical infrared sc...", "citations": 18, "author_count": 3, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3290, "doi": "10.1007/JHEP03(2023)046", "umap_coordinates": { "x": 396.0130310058594, "y": 136.38528442382812, "z": 206.50514221191406 }, "tsne_coordinates": { "x": -43.32975769042969, "y": -0.5053399801254272, "z": 7.9430623054504395 }, "pca_coordinates": { "x": 2.1000723838806152, "y": 2.262153148651123, "z": -1.5257736444473267 }, "axis_scores": { "Quantum imaging": 0.7019275426864624, "Quantum Life Science Sensing": 0.7228071689605713, "Quantum sensing Detection": 0.7055781483650208, "Quantum sensing Metrology": 0.6777910590171814, "Quantum sensing navigation": 0.6978306174278259, "Quantum sensing Position": 0.66903156042099, "Quantum sensing Timing": 0.6868479251861572, "Quantum sensing": 0.7041397094726562, "Quantum control": 0.7078424692153931 } }, { "id": 3285, "title": "High resolution ladar using time-correlated single-photon counting", "abstract": "Range profiling with high resolution and accuracy can be accomplished using single-photon counting time-of-flight techniques. Detection of target surfaces with high resolution is of importance for sev...", "citations": 13, "author_count": 5, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3291, "doi": "10.1117/12.778323", "umap_coordinates": { "x": 395.1122131347656, "y": 133.11582946777344, "z": 206.79319763183594 }, "tsne_coordinates": { "x": -6.103272914886475, "y": 10.644245147705078, "z": -32.05268859863281 }, "pca_coordinates": { "x": -2.039252758026123, "y": 0.3562905788421631, "z": 5.7609758377075195 }, "axis_scores": { "Quantum imaging": 0.7265183925628662, "Quantum Life Science Sensing": 0.7186661958694458, "Quantum sensing Detection": 0.7362812757492065, "Quantum sensing Metrology": 0.7115142941474915, "Quantum sensing navigation": 0.7143042087554932, "Quantum sensing Position": 0.6907755136489868, "Quantum sensing Timing": 0.7318319082260132, "Quantum sensing": 0.7341437935829163, "Quantum control": 0.6638625264167786 } }, { "id": 3286, "title": "The Frame Potential, on Average", "abstract": "A Symmetric Informationally Complete Positive Operator Valued Measure (SIC) consists of N(2) equiangular unit vectors in an N dimensional Hilbert space. The frame potential is a function of N(2) unit ...", "citations": 7, "author_count": 3, "categories": [ "Mathematics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3292, "doi": "10.1142/S1230161209000116", "umap_coordinates": { "x": 394.75042724609375, "y": 137.3189239501953, "z": 205.86984252929688 }, "tsne_coordinates": { "x": -23.84356117248535, "y": 5.207970142364502, "z": 12.213266372680664 }, "pca_coordinates": { "x": 0.11105489730834961, "y": 3.2710483074188232, "z": -2.207191228866577 }, "axis_scores": { "Quantum imaging": 0.6964993476867676, "Quantum Life Science Sensing": 0.6953452229499817, "Quantum sensing Detection": 0.67109614610672, "Quantum sensing Metrology": 0.6703563928604126, "Quantum sensing navigation": 0.712774395942688, "Quantum sensing Position": 0.696463406085968, "Quantum sensing Timing": 0.6986923813819885, "Quantum sensing": 0.6957353949546814, "Quantum control": 0.7165886163711548 } }, { "id": 3287, "title": "Initial experiments concerning quantum information processing in rare-earth-ion doped crystals", "abstract": "In this paper initial experiments towards constructing simple quantum gates in a solid state material are presented. Instead of using specially tailored materials. the aim is to select a subset of ran...", "citations": 50, "author_count": 6, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3293, "doi": "10.1238/Physica.Topical.102a00178", "umap_coordinates": { "x": 394.5101623535156, "y": 136.53268432617188, "z": 206.77236938476562 }, "tsne_coordinates": { "x": 5.924997806549072, "y": -1.388152003288269, "z": 27.491262435913086 }, "pca_coordinates": { "x": 0.3998420238494873, "y": 0.6431182622909546, "z": 0.3310648798942566 }, "axis_scores": { "Quantum imaging": 0.7132589817047119, "Quantum Life Science Sensing": 0.7137618064880371, "Quantum sensing Detection": 0.7056760787963867, "Quantum sensing Metrology": 0.687617301940918, "Quantum sensing navigation": 0.698940634727478, "Quantum sensing Position": 0.6829898953437805, "Quantum sensing Timing": 0.678514838218689, "Quantum sensing": 0.7152299284934998, "Quantum control": 0.6669703125953674 } }, { "id": 3288, "title": "Dimensional discontinuity in quantum communication complexity at dimension seven", "abstract": "Entanglement-assisted classical communication and transmission of a quantum system are the two quantum resources for information processing. Many information tasks can be performed using either quantu...", "citations": 17, "author_count": 5, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3294, "doi": "10.1103/PhysRevA.95.020302", "umap_coordinates": { "x": 395.52557373046875, "y": 137.12411499023438, "z": 207.4658660888672 }, "tsne_coordinates": { "x": -26.881439208984375, "y": -11.502986907958984, "z": -2.1906607151031494 }, "pca_coordinates": { "x": 4.928995132446289, "y": 2.139948844909668, "z": 1.0247454643249512 }, "axis_scores": { "Quantum imaging": 0.7371525764465332, "Quantum Life Science Sensing": 0.7274571061134338, "Quantum sensing Detection": 0.731628954410553, "Quantum sensing Metrology": 0.7065093517303467, "Quantum sensing navigation": 0.7334768772125244, "Quantum sensing Position": 0.7262957096099854, "Quantum sensing Timing": 0.715083658695221, "Quantum sensing": 0.7311872839927673, "Quantum control": 0.7110694050788879 } }, { "id": 3289, "title": "Classical and quantum mechanics on information spaces with applications to cognitive, psychological, social, and anomalous phenomena", "abstract": "We use the system of p-adic numbers for the description of information processes. Basic objects of our models are so-called transformers of information, basic processes are information processes and s...", "citations": 111, "author_count": 2, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3295, "doi": "10.1023/A:1018885632116", "umap_coordinates": { "x": 395.04534912109375, "y": 137.42234802246094, "z": 206.1933135986328 }, "tsne_coordinates": { "x": -25.776979446411133, "y": -2.568589925765991, "z": 19.262231826782227 }, "pca_coordinates": { "x": 1.8136208057403564, "y": 1.9003099203109741, "z": 0.3140304684638977 }, "axis_scores": { "Quantum imaging": 0.7750404477119446, "Quantum Life Science Sensing": 0.7625819444656372, "Quantum sensing Detection": 0.7663365602493286, "Quantum sensing Metrology": 0.7528834342956543, "Quantum sensing navigation": 0.7683584690093994, "Quantum sensing Position": 0.7462055683135986, "Quantum sensing Timing": 0.7203735113143921, "Quantum sensing": 0.7814286351203918, "Quantum control": 0.7452758550643921 } }, { "id": 3290, "title": "Many-anyon trial states", "abstract": "The problem of bounding the (Abelian) many-anyon ground-state energy from above, with a dependence on the statistics parameter which matches that of currently available lower bounds, is reduced to stu...", "citations": 16, "author_count": 2, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3296, "doi": "10.1103/PhysRevA.96.012116", "umap_coordinates": { "x": 395.660400390625, "y": 136.72808837890625, "z": 208.19921875 }, "tsne_coordinates": { "x": -19.346792221069336, "y": -12.84416389465332, "z": 2.0692977905273438 }, "pca_coordinates": { "x": 4.975866794586182, "y": 0.7794657945632935, "z": 0.030769407749176025 }, "axis_scores": { "Quantum imaging": 0.709546685218811, "Quantum Life Science Sensing": 0.7160053849220276, "Quantum sensing Detection": 0.7252345085144043, "Quantum sensing Metrology": 0.6982575058937073, "Quantum sensing navigation": 0.7162638306617737, "Quantum sensing Position": 0.6980138421058655, "Quantum sensing Timing": 0.7170846462249756, "Quantum sensing": 0.7345939874649048, "Quantum control": 0.7038580775260925 } }, { "id": 3291, "title": "Effects of dipole alignment and channel interference on two-photon absorption cross sections of two-dimensional charge-transfer systems", "abstract": "The relationship between two-photon absorption cross sections and the architecture of donor-acceptor substitutions in two-dimensional charge-transfer cumulene-containing aromatic molecules is analyzed...", "citations": 82, "author_count": 4, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3297, "doi": "10.1063/1.1522408", "umap_coordinates": { "x": 392.9749450683594, "y": 135.41456604003906, "z": 207.33309936523438 }, "tsne_coordinates": { "x": 1.9275426864624023, "y": -4.6715521812438965, "z": 2.5365209579467773 }, "pca_coordinates": { "x": 0.4500284194946289, "y": -1.6573262214660645, "z": 1.0739450454711914 }, "axis_scores": { "Quantum imaging": 0.7372385859489441, "Quantum Life Science Sensing": 0.694632887840271, "Quantum sensing Detection": 0.7052123546600342, "Quantum sensing Metrology": 0.704134464263916, "Quantum sensing navigation": 0.6888588070869446, "Quantum sensing Position": 0.6825800538063049, "Quantum sensing Timing": 0.6983567476272583, "Quantum sensing": 0.7190331220626831, "Quantum control": 0.7084113955497742 } }, { "id": 3292, "title": "Equilibrium finite-frequency noise of an interacting mesoscopic capacitor studied in time-dependent density functional theory", "abstract": "We calculate the frequency-dependent equilibrium noise of a mesoscopic capacitor in time-dependent density functional theory (TDDFT). The capacitor is modeled as a single-level quantum dot with on-sit...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3298, "doi": "10.1088/1742-6596/969/1/012145", "umap_coordinates": { "x": 394.3306579589844, "y": 136.45460510253906, "z": 208.13308715820312 }, "tsne_coordinates": { "x": -15.527664184570312, "y": -30.985198974609375, "z": -0.7944141030311584 }, "pca_coordinates": { "x": 2.5846662521362305, "y": 0.9974913597106934, "z": -1.0737366676330566 }, "axis_scores": { "Quantum imaging": 0.6847769021987915, "Quantum Life Science Sensing": 0.7154557704925537, "Quantum sensing Detection": 0.6798312067985535, "Quantum sensing Metrology": 0.6729528903961182, "Quantum sensing navigation": 0.6857420206069946, "Quantum sensing Position": 0.6774769425392151, "Quantum sensing Timing": 0.6904807686805725, "Quantum sensing": 0.6922066807746887, "Quantum control": 0.6856377124786377 } }, { "id": 3293, "title": "Argon KLL Auger spectrum: Initial states, core-hole lifetimes, shake, and knock-down processes", "abstract": "State-of-the-art argon KLL Auger spectra measured using photon energies of h nu = 3216 and 3400 eV are presented along with an Ar [1s] photoelectron spectrum (square brackets indicate holes in the res...", "citations": 16, "author_count": 18, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3299, "doi": "10.1103/PhysRevA.102.052832", "umap_coordinates": { "x": 394.58575439453125, "y": 135.73292541503906, "z": 207.5864715576172 }, "tsne_coordinates": { "x": -1.6839979887008667, "y": -10.237277030944824, "z": -3.8230338096618652 }, "pca_coordinates": { "x": 2.5918283462524414, "y": -0.36980199813842773, "z": -1.0124413967132568 }, "axis_scores": { "Quantum imaging": 0.6776785850524902, "Quantum Life Science Sensing": 0.707165539264679, "Quantum sensing Detection": 0.6821199655532837, "Quantum sensing Metrology": 0.6638709306716919, "Quantum sensing navigation": 0.6757130026817322, "Quantum sensing Position": 0.6551522016525269, "Quantum sensing Timing": 0.6466900110244751, "Quantum sensing": 0.6941040754318237, "Quantum control": 0.6618861556053162 } }, { "id": 3294, "title": "Symmetrical Josephson vortex interferometer as an advanced ballistic single-shot detector", "abstract": "We consider a ballistic detector formed in an interferometer manner which operational principle relies on Josephson vortex scattering at a measurement potential. We propose an approach to symmetrize t...", "citations": 31, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3300, "doi": "10.1063/1.4902327", "umap_coordinates": { "x": 394.6166687011719, "y": 133.82882690429688, "z": 208.13601684570312 }, "tsne_coordinates": { "x": 8.799738883972168, "y": -32.319480895996094, "z": -20.311534881591797 }, "pca_coordinates": { "x": 2.114017963409424, "y": -1.1364316940307617, "z": 3.570127487182617 }, "axis_scores": { "Quantum imaging": 0.7178564667701721, "Quantum Life Science Sensing": 0.7134724855422974, "Quantum sensing Detection": 0.733062207698822, "Quantum sensing Metrology": 0.72145676612854, "Quantum sensing navigation": 0.7270551919937134, "Quantum sensing Position": 0.7037237882614136, "Quantum sensing Timing": 0.6886304616928101, "Quantum sensing": 0.7310636043548584, "Quantum control": 0.682519257068634 } }, { "id": 3295, "title": "Coupling between Electronic and Vibrational Excitations in Carbon Nanotubes Filled with C60 Fullerenes", "abstract": "We investigate the low-temperature electron transport through C-60 peapods, which are carbon nanotubes encapsulating C-60 fullerenes. We find that the temperature dependence of the Coulomb blockade os...", "citations": 2, "author_count": 9, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3301, "doi": "10.12693/APhysPolA.120.839", "umap_coordinates": { "x": 394.1092529296875, "y": 135.72682189941406, "z": 206.35055541992188 }, "tsne_coordinates": { "x": 33.87095642089844, "y": -11.432644844055176, "z": 16.2191104888916 }, "pca_coordinates": { "x": 1.5076227188110352, "y": 0.25800490379333496, "z": 0.501512348651886 }, "axis_scores": { "Quantum imaging": 0.6959373950958252, "Quantum Life Science Sensing": 0.7272384166717529, "Quantum sensing Detection": 0.7075914144515991, "Quantum sensing Metrology": 0.6916652917861938, "Quantum sensing navigation": 0.6921079158782959, "Quantum sensing Position": 0.6821836233139038, "Quantum sensing Timing": 0.6852479577064514, "Quantum sensing": 0.7198697328567505, "Quantum control": 0.6933010816574097 } }, { "id": 3296, "title": "Theory of current-voltage asymmetries in double quantum dots - art. no. 201304", "abstract": "An explanation for the asymmetries in the current-voltage characteristics in mesoscopic quantum systems weakly coupled to reservoirs is proposed. Thus, it is suggested that inelastic scattering betwee...", "citations": 35, "author_count": 2, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3302, "doi": "10.1103/PhysRevB.69.201304", "umap_coordinates": { "x": 393.9242248535156, "y": 135.0382537841797, "z": 208.97634887695312 }, "tsne_coordinates": { "x": 2.198961019515991, "y": -27.906837463378906, "z": -1.9882824420928955 }, "pca_coordinates": { "x": 3.456549644470215, "y": -2.136521339416504, "z": 0.1330944299697876 }, "axis_scores": { "Quantum imaging": 0.7652686238288879, "Quantum Life Science Sensing": 0.7537311911582947, "Quantum sensing Detection": 0.7491957545280457, "Quantum sensing Metrology": 0.7411975860595703, "Quantum sensing navigation": 0.7440639734268188, "Quantum sensing Position": 0.7279144525527954, "Quantum sensing Timing": 0.7229747176170349, "Quantum sensing": 0.7573022842407227, "Quantum control": 0.7339005470275879 } }, { "id": 3297, "title": "On the role of interaction anisotropy in vibrational relaxation of HF and HCl by Ar", "abstract": "A coupled states quantum scattering study of vibrational relaxation in Ar + HF and Ar + HCl collisions is presented. The energy transfer in these systems exhibits a quasiresonant character resulting i...", "citations": 14, "author_count": 5, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3303, "doi": "10.1016/S0009-2614(01)00041-0", "umap_coordinates": { "x": 393.033203125, "y": 136.9520263671875, "z": 206.69398498535156 }, "tsne_coordinates": { "x": -8.906025886535645, "y": 15.457283020019531, "z": 22.748552322387695 }, "pca_coordinates": { "x": -0.6399891376495361, "y": 1.911163330078125, "z": -2.175959587097168 }, "axis_scores": { "Quantum imaging": 0.6698436737060547, "Quantum Life Science Sensing": 0.6911799907684326, "Quantum sensing Detection": 0.6437211036682129, "Quantum sensing Metrology": 0.6467920541763306, "Quantum sensing navigation": 0.6559598445892334, "Quantum sensing Position": 0.6625233292579651, "Quantum sensing Timing": 0.6408606767654419, "Quantum sensing": 0.6745442152023315, "Quantum control": 0.663022518157959 } }, { "id": 3298, "title": "Task Based Weights for Spectral Computed Tomography", "abstract": "In photon counting multi-bin CT, both projection based weighting and image based weighting (designed to maximize the signal-difference-to-noise ratio SDNR) in the final image, are pixel based and do n...", "citations": 1, "author_count": 4, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3304, "doi": "10.1117/12.910098", "umap_coordinates": { "x": 395.4619140625, "y": 132.70704650878906, "z": 205.66151428222656 }, "tsne_coordinates": { "x": 0.8322670459747314, "y": 19.791303634643555, "z": -21.225313186645508 }, "pca_coordinates": { "x": -2.7153730392456055, "y": 2.6637630462646484, "z": 2.7009592056274414 }, "axis_scores": { "Quantum imaging": 0.7268428802490234, "Quantum Life Science Sensing": 0.6911603212356567, "Quantum sensing Detection": 0.7039344906806946, "Quantum sensing Metrology": 0.7181936502456665, "Quantum sensing navigation": 0.7095531225204468, "Quantum sensing Position": 0.6986289024353027, "Quantum sensing Timing": 0.7181432843208313, "Quantum sensing": 0.7134243249893188, "Quantum control": 0.6874491572380066 } }, { "id": 3299, "title": "Energy levels and radiative data for Kr-like W38+ from MCDHF and RMBPT calculations", "abstract": "Energies, transition rates, line strengths and lifetimes have been computed for all levels of the 4p(6) and 4p(5)4d configurations of W38+ by using the multi-configuration Dirac-Hartree-Fock (MCDHF) m...", "citations": 18, "author_count": 11, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3305, "doi": "10.1088/0953-4075/49/13/135003", "umap_coordinates": { "x": 394.7202453613281, "y": 135.41754150390625, "z": 206.5228729248047 }, "tsne_coordinates": { "x": -4.408475875854492, "y": 0.03261556848883629, "z": 15.017239570617676 }, "pca_coordinates": { "x": -0.39549314975738525, "y": 1.985094666481018, "z": -0.9854522943496704 }, "axis_scores": { "Quantum imaging": 0.6597408652305603, "Quantum Life Science Sensing": 0.6965456008911133, "Quantum sensing Detection": 0.648418664932251, "Quantum sensing Metrology": 0.6609009504318237, "Quantum sensing navigation": 0.6430666446685791, "Quantum sensing Position": 0.6454116106033325, "Quantum sensing Timing": 0.6388417482376099, "Quantum sensing": 0.6605261564254761, "Quantum control": 0.6171447038650513 } }, { "id": 3300, "title": "Electronic Structure and Spectroscopy of I-III-VI2 Nanocrystals: A Perspective", "abstract": "I-III-VI2 semiconductor nanocrystals have been applied to a host of energy conversion devices with great success. Large scale implementation of device concepts based on these materials has, however, b...", "citations": 17, "author_count": 7, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3306, "doi": "10.1021/acs.jpcc.1c10922", "umap_coordinates": { "x": 392.15203857421875, "y": 135.0099639892578, "z": 206.20127868652344 }, "tsne_coordinates": { "x": 20.693992614746094, "y": -3.553725242614746, "z": 3.549872875213623 }, "pca_coordinates": { "x": -1.93313729763031, "y": -2.8252854347229004, "z": -2.395047903060913 }, "axis_scores": { "Quantum imaging": 0.7450384497642517, "Quantum Life Science Sensing": 0.7650637030601501, "Quantum sensing Detection": 0.7237317562103271, "Quantum sensing Metrology": 0.7081771492958069, "Quantum sensing navigation": 0.7041915059089661, "Quantum sensing Position": 0.6887270212173462, "Quantum sensing Timing": 0.6695894002914429, "Quantum sensing": 0.7386806011199951, "Quantum control": 0.7049702405929565 } }, { "id": 3301, "title": "Optimization of energy transfer in a polymer composite with perylene chromophores", "abstract": "Luminescent solar concentrators based on molecular dyes are a promising approach to light collection for photovoltaics owing to their potential low cost and wide light acceptance angles. However, they...", "citations": 10, "author_count": 10, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3307, "doi": "10.1039/c8tc02457j", "umap_coordinates": { "x": 392.15203857421875, "y": 135.24542236328125, "z": 205.17364501953125 }, "tsne_coordinates": { "x": 7.577092170715332, "y": 3.9181137084960938, "z": -8.087350845336914 }, "pca_coordinates": { "x": -1.5089908838272095, "y": -1.7469053268432617, "z": -0.664277195930481 }, "axis_scores": { "Quantum imaging": 0.7143339514732361, "Quantum Life Science Sensing": 0.7156071066856384, "Quantum sensing Detection": 0.697590708732605, "Quantum sensing Metrology": 0.6914560198783875, "Quantum sensing navigation": 0.678132176399231, "Quantum sensing Position": 0.6776683330535889, "Quantum sensing Timing": 0.6813040971755981, "Quantum sensing": 0.7132835984230042, "Quantum control": 0.7094126343727112 } }, { "id": 3302, "title": "Colloidal metal halide perovskite nanocrystals: synthesis, characterization, and applications", "abstract": "Colloidal metal halide perovskite nanocrystals (NCs) have emerged as promising materials for optoelectronic devices and received considerable attention recently. Their superior photoluminescence (PL) ...", "citations": 196, "author_count": 4, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3308, "doi": "10.1039/c5tc04116c", "umap_coordinates": { "x": 391.6427917480469, "y": 134.5677947998047, "z": 205.68264770507812 }, "tsne_coordinates": { "x": 15.484464645385742, "y": -3.0617997646331787, "z": -15.42162036895752 }, "pca_coordinates": { "x": -3.1473946571350098, "y": -2.914368152618408, "z": -2.7997376918792725 }, "axis_scores": { "Quantum imaging": 0.6885758638381958, "Quantum Life Science Sensing": 0.7042701244354248, "Quantum sensing Detection": 0.6788040399551392, "Quantum sensing Metrology": 0.6787497401237488, "Quantum sensing navigation": 0.6683903336524963, "Quantum sensing Position": 0.6714962720870972, "Quantum sensing Timing": 0.6632699370384216, "Quantum sensing": 0.6883833408355713, "Quantum control": 0.6907223463058472 } }, { "id": 3303, "title": "Extremal quantum states and their Majorana constellations", "abstract": "The characterization of quantum polarization of light requires knowledge of all the moments of the Stokes variables, which are appropriately encoded in the multipole expansion of the density matrix. W...", "citations": 50, "author_count": 7, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3309, "doi": "10.1103/PhysRevA.92.031801", "umap_coordinates": { "x": 395.1188659667969, "y": 137.5097198486328, "z": 207.7897491455078 }, "tsne_coordinates": { "x": -36.780574798583984, "y": -11.045073509216309, "z": 9.980003356933594 }, "pca_coordinates": { "x": 4.191549777984619, "y": 1.6839642524719238, "z": -1.534570336341858 }, "axis_scores": { "Quantum imaging": 0.7166066765785217, "Quantum Life Science Sensing": 0.7125235795974731, "Quantum sensing Detection": 0.7123234868049622, "Quantum sensing Metrology": 0.7077814936637878, "Quantum sensing navigation": 0.7258334755897522, "Quantum sensing Position": 0.7141388654708862, "Quantum sensing Timing": 0.6738491058349609, "Quantum sensing": 0.712766170501709, "Quantum control": 0.6850266456604004 } }, { "id": 3304, "title": "On the rotating wave approximation in the adiabatic limit", "abstract": "I revisit a longstanding question in quantum optics; when is the rotating wave approximation justified? In terms of the Jaynes-Cummings and Rabi models I demonstrate that the approximation in general ...", "citations": 7, "author_count": 2, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3310, "doi": "10.1088/0031-8949/2013/T153/014040", "umap_coordinates": { "x": 394.7842712402344, "y": 137.4838409423828, "z": 206.7830810546875 }, "tsne_coordinates": { "x": -31.781938552856445, "y": -0.539551854133606, "z": 5.502261161804199 }, "pca_coordinates": { "x": 2.3923416137695312, "y": 4.425635814666748, "z": -1.0118820667266846 }, "axis_scores": { "Quantum imaging": 0.6457581520080566, "Quantum Life Science Sensing": 0.6534021496772766, "Quantum sensing Detection": 0.6419146656990051, "Quantum sensing Metrology": 0.6269712448120117, "Quantum sensing navigation": 0.6497933268547058, "Quantum sensing Position": 0.6421597599983215, "Quantum sensing Timing": 0.6504186391830444, "Quantum sensing": 0.6513712406158447, "Quantum control": 0.6550928354263306 } }, { "id": 3305, "title": "Amplifying magneto-optical photonic crystal", "abstract": "We modeled transmission and Faraday rotation characteristics of Er-doped all-garnet [Bi(3)Fe(5)O(12)/Gd(3)Ga(5)O(12)](m) photonic crystals in view of their application in C-band magneto-optical amplif...", "citations": 10, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3311, "doi": "10.1063/1.3479910", "umap_coordinates": { "x": 393.73291015625, "y": 133.857666015625, "z": 207.28036499023438 }, "tsne_coordinates": { "x": 18.2149600982666, "y": -26.14513397216797, "z": -20.585071563720703 }, "pca_coordinates": { "x": 1.056947946548462, "y": -0.9848895072937012, "z": 1.4077961444854736 }, "axis_scores": { "Quantum imaging": 0.7535417079925537, "Quantum Life Science Sensing": 0.7358580231666565, "Quantum sensing Detection": 0.7582204341888428, "Quantum sensing Metrology": 0.7575430870056152, "Quantum sensing navigation": 0.7291266322135925, "Quantum sensing Position": 0.695944607257843, "Quantum sensing Timing": 0.693493127822876, "Quantum sensing": 0.7679471969604492, "Quantum control": 0.7279123067855835 } }, { "id": 3306, "title": "The excitonic spectrum of germanium in a high magnetic field", "abstract": "In recently reported experiments with uniaxially deformed germanium in a magnetic field [V. B. Timofeev and A. V. Chernenko, JETP Lett. 61, 617 (1995)], it was found that applying a magnetic field of ...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3312, "doi": "10.1134/1.567686", "umap_coordinates": { "x": 393.1632080078125, "y": 135.61109924316406, "z": 207.9806671142578 }, "tsne_coordinates": { "x": 14.760921478271484, "y": -28.34429359436035, "z": 9.689380645751953 }, "pca_coordinates": { "x": 1.6509158611297607, "y": -0.5825831890106201, "z": -2.381634473800659 }, "axis_scores": { "Quantum imaging": 0.7233929634094238, "Quantum Life Science Sensing": 0.7199068069458008, "Quantum sensing Detection": 0.7087872624397278, "Quantum sensing Metrology": 0.6986393928527832, "Quantum sensing navigation": 0.7005492448806763, "Quantum sensing Position": 0.6846752166748047, "Quantum sensing Timing": 0.6819087266921997, "Quantum sensing": 0.7226769328117371, "Quantum control": 0.6991345286369324 } }, { "id": 3307, "title": "Highly Emissive Layers based on Organic/Inorganic Nanohybrids Using Aggregation Induced Emission Effect", "abstract": "Fluorescent nanohybrids, based on pi-extended hydroxyoxophosphole ligands grafted onto ZnO nanoparticles, are designed and studied. The restriction of the intramolecular motions of the organic fluorop...", "citations": 7, "author_count": 20, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3313, "doi": "10.1002/admt.202100876", "umap_coordinates": { "x": 392.2873840332031, "y": 134.0670928955078, "z": 205.76341247558594 }, "tsne_coordinates": { "x": 32.036407470703125, "y": -2.2060117721557617, "z": -23.39009666442871 }, "pca_coordinates": { "x": -2.6626338958740234, "y": -3.2847208976745605, "z": -0.33417150378227234 }, "axis_scores": { "Quantum imaging": 0.694401741027832, "Quantum Life Science Sensing": 0.6951375007629395, "Quantum sensing Detection": 0.6747779846191406, "Quantum sensing Metrology": 0.6695610284805298, "Quantum sensing navigation": 0.6454296112060547, "Quantum sensing Position": 0.6400696635246277, "Quantum sensing Timing": 0.6188585162162781, "Quantum sensing": 0.6830098032951355, "Quantum control": 0.6449031829833984 } }, { "id": 3308, "title": "Novel coumarin-based fluorescent probe for selective detection of Cu(II)", "abstract": "We report an efficient and convenient method for preparing nitro-3-carboxamide coumarin derivatives, proposed as novel fluorescent chemosensor, through microwave irradiation. This compound can be used...", "citations": 64, "author_count": 4, "categories": [ "Spectroscopy" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3314, "doi": "10.1016/j.saa.2015.07.029", "umap_coordinates": { "x": 392.966064453125, "y": 135.07420349121094, "z": 204.36624145507812 }, "tsne_coordinates": { "x": 18.997390747070312, "y": 18.721569061279297, "z": -14.593460083007812 }, "pca_coordinates": { "x": -4.572549343109131, "y": -0.4702153205871582, "z": -1.9354832172393799 }, "axis_scores": { "Quantum imaging": 0.7273111343383789, "Quantum Life Science Sensing": 0.7481047511100769, "Quantum sensing Detection": 0.7459535598754883, "Quantum sensing Metrology": 0.7065355181694031, "Quantum sensing navigation": 0.7170438170433044, "Quantum sensing Position": 0.6981402039527893, "Quantum sensing Timing": 0.6640080809593201, "Quantum sensing": 0.7405580282211304, "Quantum control": 0.7117509245872498 } }, { "id": 3309, "title": "Structure-to-property relations for two-photon absorption of hydrocarbon oligomers", "abstract": "Results from response theory calculations of various hydrocarbon oligomers predict that there is a common localization length, longer than for which the two-photon spectrum is dominated by a single st...", "citations": 58, "author_count": 4, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3315, "doi": "10.1016/S0009-2614(98)01008-2", "umap_coordinates": { "x": 393.56268310546875, "y": 135.6249542236328, "z": 205.59722900390625 }, "tsne_coordinates": { "x": -4.504297256469727, "y": 0.9852775931358337, "z": 4.277716636657715 }, "pca_coordinates": { "x": -0.8784469962120056, "y": -0.5887935161590576, "z": -0.3471376895904541 }, "axis_scores": { "Quantum imaging": 0.6922873258590698, "Quantum Life Science Sensing": 0.7504249811172485, "Quantum sensing Detection": 0.6950953006744385, "Quantum sensing Metrology": 0.707129180431366, "Quantum sensing navigation": 0.6872851848602295, "Quantum sensing Position": 0.6827812194824219, "Quantum sensing Timing": 0.6504936218261719, "Quantum sensing": 0.7074981331825256, "Quantum control": 0.6543564796447754 } }, { "id": 3310, "title": "Complexity of Chlorophyll Fluorescence Dynamic Response as an Indicator of Excessive Light Intensity", "abstract": "The controllability of LED lighting systems for greenhouses and plant factories offers a possibility for light induced diagnose of plant status. Here, a novel method for proximal remote detection of p...", "citations": 3, "author_count": 6, "categories": [ "Automation & Control Systems" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3316, "doi": "10.1016/j.ifacol.2016.10.072", "umap_coordinates": { "x": 394.0721435546875, "y": 136.1470947265625, "z": 203.72389221191406 }, "tsne_coordinates": { "x": 18.62796974182129, "y": 32.66329574584961, "z": 11.727062225341797 }, "pca_coordinates": { "x": -3.6007275581359863, "y": 2.1836462020874023, "z": -1.9505348205566406 }, "axis_scores": { "Quantum imaging": 0.7335999608039856, "Quantum Life Science Sensing": 0.7602206468582153, "Quantum sensing Detection": 0.7210823893547058, "Quantum sensing Metrology": 0.6915372610092163, "Quantum sensing navigation": 0.6752462387084961, "Quantum sensing Position": 0.6676918268203735, "Quantum sensing Timing": 0.6734069585800171, "Quantum sensing": 0.7245415449142456, "Quantum control": 0.6985723972320557 } }, { "id": 3311, "title": "The interelectronic angle in doubly excited states:: towards higher N", "abstract": "We extend our examination of the expectation value of the cosine of the interelectronic angle in helium doubly excited S-1(e) states up to relatively high excitation energy (N = 10). As expected, the ...", "citations": 3, "author_count": 2, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3317, "doi": "10.1088/0953-4075/32/3/024", "umap_coordinates": { "x": 392.47503662109375, "y": 136.63449096679688, "z": 206.76295471191406 }, "tsne_coordinates": { "x": 15.511995315551758, "y": -2.719133138656616, "z": 25.176965713500977 }, "pca_coordinates": { "x": 0.04324960708618164, "y": 0.4626476764678955, "z": -0.2630094289779663 }, "axis_scores": { "Quantum imaging": 0.6701528429985046, "Quantum Life Science Sensing": 0.6740137934684753, "Quantum sensing Detection": 0.6439041495323181, "Quantum sensing Metrology": 0.6415987014770508, "Quantum sensing navigation": 0.6633584499359131, "Quantum sensing Position": 0.6804403066635132, "Quantum sensing Timing": 0.6764940023422241, "Quantum sensing": 0.6585386395454407, "Quantum control": 0.6233980655670166 } }, { "id": 3312, "title": "The quantum DELL system", "abstract": "We propose quantum Hamiltonians of the double-elliptic many-body integrable system (DELL) and study its spectrum. These Hamiltonians are certain elliptic functions of coordinates and momenta. Our resu...", "citations": 26, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3318, "doi": "10.1007/s11005-019-01247-y", "umap_coordinates": { "x": 394.9273681640625, "y": 137.376220703125, "z": 205.96878051757812 }, "tsne_coordinates": { "x": -32.7848014831543, "y": 0.03905196487903595, "z": 11.541436195373535 }, "pca_coordinates": { "x": 1.2413437366485596, "y": 2.661231517791748, "z": -0.262066513299942 }, "axis_scores": { "Quantum imaging": 0.7437282800674438, "Quantum Life Science Sensing": 0.7465463876724243, "Quantum sensing Detection": 0.7603299617767334, "Quantum sensing Metrology": 0.742358386516571, "Quantum sensing navigation": 0.7456323504447937, "Quantum sensing Position": 0.7384477853775024, "Quantum sensing Timing": 0.7401981353759766, "Quantum sensing": 0.7657006978988647, "Quantum control": 0.765358030796051 } }, { "id": 3313, "title": "Certification of non-classicality in all links of a photonic star network without assuming quantum mechanics", "abstract": "Networks composed of independent sources of entangled particles that connect distant users are a rapidly developing quantum technology and an increasingly promising test-bed for fundamental physics. H...", "citations": 18, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3319, "doi": "10.1038/s41467-023-37842-w", "umap_coordinates": { "x": 395.66748046875, "y": 136.73757934570312, "z": 206.54415893554688 }, "tsne_coordinates": { "x": -21.451101303100586, "y": 4.278014183044434, "z": -1.548798680305481 }, "pca_coordinates": { "x": -0.009516239166259766, "y": 2.205799102783203, "z": 0.9438783526420593 }, "axis_scores": { "Quantum imaging": 0.7361745834350586, "Quantum Life Science Sensing": 0.7457495927810669, "Quantum sensing Detection": 0.7325332760810852, "Quantum sensing Metrology": 0.7314901351928711, "Quantum sensing navigation": 0.7513177990913391, "Quantum sensing Position": 0.7284597754478455, "Quantum sensing Timing": 0.6999479532241821, "Quantum sensing": 0.7428068518638611, "Quantum control": 0.7158787846565247 } }, { "id": 3314, "title": "Enhancing the statistical probability factor in triplet-triplet annihilation photon upconversion via TIPS functionalization", "abstract": "We investigated the influence of triisopropylsilyl (TIPS) functionalization on annihilators in triplet-triplet annihilation photon upconversion, specifically focusing on their spin statistical probabi...", "citations": 1, "author_count": 16, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3320, "doi": "10.1039/d5sc05248c", "umap_coordinates": { "x": 393.1548767089844, "y": 134.9720916748047, "z": 205.8408203125 }, "tsne_coordinates": { "x": -1.7045484781265259, "y": -2.838685989379883, "z": -8.960905075073242 }, "pca_coordinates": { "x": -2.0425455570220947, "y": -0.5372724533081055, "z": 1.7359483242034912 }, "axis_scores": { "Quantum imaging": 0.7010589838027954, "Quantum Life Science Sensing": 0.6858778595924377, "Quantum sensing Detection": 0.6899212598800659, "Quantum sensing Metrology": 0.6903666257858276, "Quantum sensing navigation": 0.6738907694816589, "Quantum sensing Position": 0.6755161285400391, "Quantum sensing Timing": 0.7018591165542603, "Quantum sensing": 0.6993874311447144, "Quantum control": 0.6906771063804626 } }, { "id": 3315, "title": "TEMPERATURE AND VISCOSITY SENSITIVE S-1 EMISSION FROM A HIGHLY SUBSTITUTED TRIENE", "abstract": "Fluorescence from a highly substituted triene, called mini-3, studied at cryogenic temperatures, originates from the lowest excited state (S-1). Compared to the longer compounds homologous to all-tran...", "citations": 11, "author_count": 5, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3321, "doi": "10.1016/0009-2614(95)00077-H", "umap_coordinates": { "x": 393.0423278808594, "y": 135.6195831298828, "z": 206.0435333251953 }, "tsne_coordinates": { "x": -5.887209892272949, "y": -0.8844753503799438, "z": -17.92608070373535 }, "pca_coordinates": { "x": -1.9404305219650269, "y": 0.057530879974365234, "z": 0.18215161561965942 }, "axis_scores": { "Quantum imaging": 0.6781367659568787, "Quantum Life Science Sensing": 0.7016469240188599, "Quantum sensing Detection": 0.6706198453903198, "Quantum sensing Metrology": 0.6477167010307312, "Quantum sensing navigation": 0.6454330086708069, "Quantum sensing Position": 0.6540277600288391, "Quantum sensing Timing": 0.6619205474853516, "Quantum sensing": 0.6845555305480957, "Quantum control": 0.6519985198974609 } }, { "id": 3316, "title": "Optical center of a luminescent solar concentrator", "abstract": "This Letter introduces a novel, to the best of our knowledge, approach to estimate the power conversion efficiency (PCE) of a square luminescent solar concentrator (LSC) by point excitations on the op...", "citations": 1, "author_count": 4, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3322, "doi": "10.1364/OL.467917", "umap_coordinates": { "x": 394.0316162109375, "y": 134.23492431640625, "z": 205.88978576660156 }, "tsne_coordinates": { "x": 21.95818328857422, "y": 13.166299819946289, "z": -31.47941017150879 }, "pca_coordinates": { "x": -2.2829060554504395, "y": 1.3147575855255127, "z": 0.46471351385116577 }, "axis_scores": { "Quantum imaging": 0.7148823142051697, "Quantum Life Science Sensing": 0.7147892713546753, "Quantum sensing Detection": 0.7042437791824341, "Quantum sensing Metrology": 0.7112815380096436, "Quantum sensing navigation": 0.6899493336677551, "Quantum sensing Position": 0.7013798356056213, "Quantum sensing Timing": 0.6746540069580078, "Quantum sensing": 0.7170382738113403, "Quantum control": 0.7124570608139038 } }, { "id": 3317, "title": "Geometry along evolution of mixed quantum states", "abstract": "The metric underlying the mixed state geometric phase in unitary and nonunitary evolution [Phys. Rev. Lett. 85, 2845 (2000); 93, 080405 (2004)] is delineated. An explicit form for the line element is ...", "citations": 17, "author_count": 2, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3323, "doi": "10.1103/PhysRevResearch.2.013344", "umap_coordinates": { "x": 395.2923583984375, "y": 137.10903930664062, "z": 208.0301971435547 }, "tsne_coordinates": { "x": -36.186702728271484, "y": -5.904893398284912, "z": 10.266773223876953 }, "pca_coordinates": { "x": 3.8911995887756348, "y": 2.132915735244751, "z": -1.5688340663909912 }, "axis_scores": { "Quantum imaging": 0.7630290389060974, "Quantum Life Science Sensing": 0.76143878698349, "Quantum sensing Detection": 0.7412207722663879, "Quantum sensing Metrology": 0.752379834651947, "Quantum sensing navigation": 0.7760582566261292, "Quantum sensing Position": 0.7607611417770386, "Quantum sensing Timing": 0.7163326144218445, "Quantum sensing": 0.7546748518943787, "Quantum control": 0.7287527918815613 } }, { "id": 3318, "title": "Dynamical Casimir Effect in a Superconducting Coplanar Waveguide", "abstract": "We investigate the dynamical Casimir effect in a coplanar waveguide (CPW) terminated by a superconducting quantum interference device (SQUID). Changing the magnetic flux through the SQUID parametrical...", "citations": 266, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3324, "doi": "10.1103/PhysRevLett.103.147003", "umap_coordinates": { "x": 395.02435302734375, "y": 136.13735961914062, "z": 208.8193359375 }, "tsne_coordinates": { "x": -12.90531063079834, "y": -23.523101806640625, "z": 10.03668212890625 }, "pca_coordinates": { "x": 4.905833721160889, "y": -0.6139001846313477, "z": 1.0518581867218018 }, "axis_scores": { "Quantum imaging": 0.7026729583740234, "Quantum Life Science Sensing": 0.6842312812805176, "Quantum sensing Detection": 0.6929370760917664, "Quantum sensing Metrology": 0.6766402125358582, "Quantum sensing navigation": 0.714604914188385, "Quantum sensing Position": 0.6859321594238281, "Quantum sensing Timing": 0.6927177906036377, "Quantum sensing": 0.692653238773346, "Quantum control": 0.6888678073883057 } }, { "id": 3319, "title": "Cloning the quantum oscillator", "abstract": "A class of completely positive maps are constructed which perform an approximate cloning of arbitrary states of a multi-mode quantum oscillator. Inside this class we find the optimal maps which do the...", "citations": 91, "author_count": 2, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3325, "doi": "10.1088/0305-4470/33/28/310", "umap_coordinates": { "x": 395.6634216308594, "y": 136.1931610107422, "z": 206.23727416992188 }, "tsne_coordinates": { "x": -35.51410675048828, "y": 1.4433414936065674, "z": 2.9755003452301025 }, "pca_coordinates": { "x": 1.7128105163574219, "y": 3.4614357948303223, "z": 0.24096816778182983 }, "axis_scores": { "Quantum imaging": 0.7343354225158691, "Quantum Life Science Sensing": 0.7448692917823792, "Quantum sensing Detection": 0.7427552938461304, "Quantum sensing Metrology": 0.7236121892929077, "Quantum sensing navigation": 0.7610090970993042, "Quantum sensing Position": 0.7423816919326782, "Quantum sensing Timing": 0.7095025181770325, "Quantum sensing": 0.7472461462020874, "Quantum control": 0.7406173348426819 } }, { "id": 3320, "title": "Frequency stabilization of a terahertz quantum-cascade laser to the Lamb dip of a molecular absorption line", "abstract": "We demonstrate the frequency stabilization of a terahertz quantum-cascade laser (QCL) to the Lamb dip of the absorption line of a D2O rotational transition at 3.3809309 THz. To assess the quality of t...", "citations": 6, "author_count": 11, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3326, "doi": "10.1364/OE.483883", "umap_coordinates": { "x": 393.8164978027344, "y": 136.6453399658203, "z": 206.9736328125 }, "tsne_coordinates": { "x": -10.514764785766602, "y": -20.26776123046875, "z": 35.395233154296875 }, "pca_coordinates": { "x": 0.963585376739502, "y": 0.8169510364532471, "z": -1.4780322313308716 }, "axis_scores": { "Quantum imaging": 0.6887544393539429, "Quantum Life Science Sensing": 0.7083747982978821, "Quantum sensing Detection": 0.6786949038505554, "Quantum sensing Metrology": 0.6750702857971191, "Quantum sensing navigation": 0.6805053949356079, "Quantum sensing Position": 0.6713197827339172, "Quantum sensing Timing": 0.6953405141830444, "Quantum sensing": 0.6957038640975952, "Quantum control": 0.7068405151367188 } }, { "id": 3321, "title": "Monofunctionalization and Dimerization of Nanoparticles Using Coordination Chemistry", "abstract": "This paper describes a strategy for controlled nanoparticle dimerization by using a solid support approach. Two types of nanoparticles have been linked by using a 5-([2,2':6',2-terpyridine]-4'-yloxy)p...", "citations": 21, "author_count": 7, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3327, "doi": "10.1021/nn5058408", "umap_coordinates": { "x": 392.8810729980469, "y": 134.84812927246094, "z": 205.1498565673828 }, "tsne_coordinates": { "x": 24.070220947265625, "y": 23.330833435058594, "z": -21.0638370513916 }, "pca_coordinates": { "x": -2.809610366821289, "y": -2.6298699378967285, "z": -1.3911988735198975 }, "axis_scores": { "Quantum imaging": 0.7365050315856934, "Quantum Life Science Sensing": 0.7463435530662537, "Quantum sensing Detection": 0.7403090000152588, "Quantum sensing Metrology": 0.7299975752830505, "Quantum sensing navigation": 0.7216455340385437, "Quantum sensing Position": 0.6891679167747498, "Quantum sensing Timing": 0.6827644109725952, "Quantum sensing": 0.7477042078971863, "Quantum control": 0.7218802571296692 } }, { "id": 3322, "title": "How does image quality affect radiologists' perceived ability for image interpretation and lesion detection in digital mammography?", "abstract": "Objectives To study how radiologists' perceived ability to interpret digital mammography (DM) images is affected by decreases in image quality. Methods One view from 45 DM cases (including 30 cancers)...", "citations": 20, "author_count": 14, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3328, "doi": "10.1007/s00330-020-07679-8", "umap_coordinates": { "x": 395.3826599121094, "y": 132.79766845703125, "z": 204.84622192382812 }, "tsne_coordinates": { "x": -3.1875076293945312, "y": 29.243133544921875, "z": -21.962671279907227 }, "pca_coordinates": { "x": -3.612288475036621, "y": 3.77846097946167, "z": 1.4143331050872803 }, "axis_scores": { "Quantum imaging": 0.7324506640434265, "Quantum Life Science Sensing": 0.7068659067153931, "Quantum sensing Detection": 0.6990469098091125, "Quantum sensing Metrology": 0.6805942058563232, "Quantum sensing navigation": 0.6926844716072083, "Quantum sensing Position": 0.6893087029457092, "Quantum sensing Timing": 0.6449854373931885, "Quantum sensing": 0.7040297389030457, "Quantum control": 0.6699187755584717 } }, { "id": 3323, "title": "Early stage evaluation of colon cancer using tungsten disulfide quantum dots and bacteriophage nano-biocomposite as an efficient electrochemical platform", "abstract": "Background: Recently, biosensors have become popular analytical tools for small analytes due to their high sensitivity and wide analytical range. In the present work, development of a novel biosensing...", "citations": 24, "author_count": 17, "categories": [ "Oncology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3329, "doi": "10.1186/s12645-022-00113-2", "umap_coordinates": { "x": 394.1866149902344, "y": 133.70147705078125, "z": 204.6478271484375 }, "tsne_coordinates": { "x": 16.054994583129883, "y": 20.70180320739746, "z": -9.225339889526367 }, "pca_coordinates": { "x": -4.264801025390625, "y": -0.640383243560791, "z": 0.8215709328651428 }, "axis_scores": { "Quantum imaging": 0.7077813148498535, "Quantum Life Science Sensing": 0.7320460677146912, "Quantum sensing Detection": 0.721549928188324, "Quantum sensing Metrology": 0.6808290481567383, "Quantum sensing navigation": 0.7059724926948547, "Quantum sensing Position": 0.7040282487869263, "Quantum sensing Timing": 0.7001960277557373, "Quantum sensing": 0.7130523324012756, "Quantum control": 0.6670138835906982 } }, { "id": 3324, "title": "Exotic Non-Abelian Topological Defects in Lattice Fractional Quantum Hall States", "abstract": "We investigate extrinsic wormholelike twist defects that effectively increase the genus of space in lattice versions of multicomponent fractional quantum Hall systems. Although the original band struc...", "citations": 8, "author_count": 4, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3330, "doi": "10.1103/PhysRevLett.119.106801", "umap_coordinates": { "x": 394.65234375, "y": 136.71481323242188, "z": 208.9221954345703 }, "tsne_coordinates": { "x": -17.243101119995117, "y": -27.81914710998535, "z": 14.834956169128418 }, "pca_coordinates": { "x": 5.522397994995117, "y": -0.7639453411102295, "z": -0.511439323425293 }, "axis_scores": { "Quantum imaging": 0.7128430604934692, "Quantum Life Science Sensing": 0.7142931222915649, "Quantum sensing Detection": 0.7186177372932434, "Quantum sensing Metrology": 0.7001733779907227, "Quantum sensing navigation": 0.727292001247406, "Quantum sensing Position": 0.6906778216362, "Quantum sensing Timing": 0.7020221948623657, "Quantum sensing": 0.7276883125305176, "Quantum control": 0.699142575263977 } }, { "id": 3325, "title": "Multiple-quantum spin counting in magic-angle-spinning NMR via low-power symmetry-based dipolar recoupling", "abstract": "By using a symmetry-based R2(8)(1)S2(8)(-1) double-quantum (2Q dipolar recoupling sequence, we demonstrate high-order multiple-quantum coherence (MQC) excitation at fast magic-angle spinning (MAS) fre...", "citations": 18, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3331, "doi": "10.1016/j.jmr.2013.08.005", "umap_coordinates": { "x": 392.9603271484375, "y": 136.90057373046875, "z": 207.22386169433594 }, "tsne_coordinates": { "x": 14.754606246948242, "y": -1.2943400144577026, "z": 32.58884811401367 }, "pca_coordinates": { "x": 0.23085081577301025, "y": 1.9227241277694702, "z": 0.09871691465377808 }, "axis_scores": { "Quantum imaging": 0.7212809324264526, "Quantum Life Science Sensing": 0.6981954574584961, "Quantum sensing Detection": 0.69671630859375, "Quantum sensing Metrology": 0.7018511295318604, "Quantum sensing navigation": 0.7098121643066406, "Quantum sensing Position": 0.6846179366111755, "Quantum sensing Timing": 0.6962672472000122, "Quantum sensing": 0.7054648399353027, "Quantum control": 0.6814043521881104 } }, { "id": 3326, "title": "Anomalous Zero-Bias Conductance Peak in a Nb-InSb Nanowire-Nb Hybrid Device", "abstract": "Semiconductor InSb nanowires are expected to provide an excellent material platform for the study of Majorana fermions in solid state systems. Here, we report on the realization of a Nb-InSb nanowire-...", "citations": 1576, "author_count": 7, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3332, "doi": "10.1021/nl303758w", "umap_coordinates": { "x": 392.49908447265625, "y": 134.48318481445312, "z": 207.9615020751953 }, "tsne_coordinates": { "x": 13.41366195678711, "y": -15.751765251159668, "z": 2.9217464923858643 }, "pca_coordinates": { "x": 1.4130005836486816, "y": -3.9466590881347656, "z": 0.3403269648551941 }, "axis_scores": { "Quantum imaging": 0.6581994891166687, "Quantum Life Science Sensing": 0.6594821214675903, "Quantum sensing Detection": 0.6700020432472229, "Quantum sensing Metrology": 0.6454731225967407, "Quantum sensing navigation": 0.6826410293579102, "Quantum sensing Position": 0.6657465696334839, "Quantum sensing Timing": 0.6393813490867615, "Quantum sensing": 0.6677296757698059, "Quantum control": 0.6307612657546997 } }, { "id": 3327, "title": "Photoluminescence quantum yield of carbon dots: emission due to multiple centers versus excitonic emission", "abstract": "Carbon dots (CDs) are recognized as promising fluorescent nanomaterials with bright emission and large variations of photoluminescence quantum yield (PLQY). However, there is still no unique approach ...", "citations": 21, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3333, "doi": "10.1039/d4na00033a", "umap_coordinates": { "x": 392.7466735839844, "y": 134.29273986816406, "z": 206.5691375732422 }, "tsne_coordinates": { "x": 17.49309539794922, "y": 2.2222743034362793, "z": 4.199869155883789 }, "pca_coordinates": { "x": -2.560427665710449, "y": -3.001063346862793, "z": -0.22430306673049927 }, "axis_scores": { "Quantum imaging": 0.7016989588737488, "Quantum Life Science Sensing": 0.702700138092041, "Quantum sensing Detection": 0.7020031213760376, "Quantum sensing Metrology": 0.6791428923606873, "Quantum sensing navigation": 0.659948468208313, "Quantum sensing Position": 0.6649885177612305, "Quantum sensing Timing": 0.6428211331367493, "Quantum sensing": 0.7042154669761658, "Quantum control": 0.6867365837097168 } }, { "id": 3328, "title": "INHIBITION OF PHOTOSYNTHESIS IN CURRENT-YEAR NEEDLES OF UNFERTILIZED AND FERTILIZED NORWAY SPRUCE [PICEA-ABIES (L) KARST] DURING AUTUMN AND EARLY WINTER", "abstract": "Inhibition of photosynthesis was followed during autumn and early winter in current-year sun and shade needles of unfertilized and fertilized Norway spruce [Picea abies (L.) Karst.] by simultaneous me...", "citations": 21, "author_count": 2, "categories": [ "Forestry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3334, "doi": null, "umap_coordinates": { "x": 391.9803771972656, "y": 139.57972717285156, "z": 209.76034545898438 }, "tsne_coordinates": { "x": -2.7309045791625977, "y": 43.487979888916016, "z": -1.80913245677948 }, "pca_coordinates": { "x": -2.6176276206970215, "y": 3.4934029579162598, "z": -2.9919607639312744 }, "axis_scores": { "Quantum imaging": 0.765629231929779, "Quantum Life Science Sensing": 0.7831856608390808, "Quantum sensing Detection": 0.7626112699508667, "Quantum sensing Metrology": 0.7395257949829102, "Quantum sensing navigation": 0.7612631916999817, "Quantum sensing Position": 0.717802882194519, "Quantum sensing Timing": 0.7188632488250732, "Quantum sensing": 0.7794559001922607, "Quantum control": 0.7970225811004639 } }, { "id": 3329, "title": "Computational Comparison of Chemical and Isotopic Approaches to Control the Photoisomerization Dynamics of Light-Driven Molecular Motors", "abstract": "Synthetic molecular motors driven by E/Z photoisomerization reactions are able to produce unidirectional rotary motion because of a structural asymmetry that makes one direction of rotation more proba...", "citations": 8, "author_count": 4, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3335, "doi": "10.1021/acs.joc.1c00063", "umap_coordinates": { "x": 392.7484436035156, "y": 137.08294677734375, "z": 205.81211853027344 }, "tsne_coordinates": { "x": -8.194598197937012, "y": 9.020084381103516, "z": 19.597488403320312 }, "pca_coordinates": { "x": -1.6045575141906738, "y": 0.7688647508621216, "z": -2.788754463195801 }, "axis_scores": { "Quantum imaging": 0.7314466238021851, "Quantum Life Science Sensing": 0.7099987268447876, "Quantum sensing Detection": 0.6889593601226807, "Quantum sensing Metrology": 0.6817368865013123, "Quantum sensing navigation": 0.7083191871643066, "Quantum sensing Position": 0.6650568246841431, "Quantum sensing Timing": 0.6965094804763794, "Quantum sensing": 0.7054873108863831, "Quantum control": 0.7240249514579773 } }, { "id": 3330, "title": "On the Physical Basis of Theory of Mental Waves", "abstract": "We discuss the conjecture on quantum-like (QL) processing of information in the brain. It is not based on the physical quantum brain (e. g., Penrose) - quantum physical carriers of information. In our...", "citations": 6, "author_count": 2, "categories": [ "Neurosciences & Neurology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3336, "doi": null, "umap_coordinates": { "x": 392.08642578125, "y": 139.5748748779297, "z": 209.36659240722656 }, "tsne_coordinates": { "x": -11.739015579223633, "y": 39.097530364990234, "z": 0.5087669491767883 }, "pca_coordinates": { "x": 1.8171594142913818, "y": 4.950713157653809, "z": -1.7707462310791016 }, "axis_scores": { "Quantum imaging": 0.7182368040084839, "Quantum Life Science Sensing": 0.7303308248519897, "Quantum sensing Detection": 0.7231925129890442, "Quantum sensing Metrology": 0.7116049528121948, "Quantum sensing navigation": 0.7263469696044922, "Quantum sensing Position": 0.7061583995819092, "Quantum sensing Timing": 0.6983349919319153, "Quantum sensing": 0.734364926815033, "Quantum control": 0.7117537260055542 } }, { "id": 3331, "title": "Characterisation of a pixel readout chip for medical X-ray imaging", "abstract": "A pixel readout chip for medical X-ray imaging has been developed. It is to be used in a hybrid pixel detector, where it is connected to a semiconductor sensor. A single chip consists of 992 square pi...", "citations": 4, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3337, "doi": "10.1016/j.nima.2004.03.048", "umap_coordinates": { "x": 394.8777160644531, "y": 132.6122283935547, "z": 205.38169860839844 }, "tsne_coordinates": { "x": -12.548929214477539, "y": 14.75238037109375, "z": -11.580127716064453 }, "pca_coordinates": { "x": -4.106689929962158, "y": 2.132021903991699, "z": 3.8385510444641113 }, "axis_scores": { "Quantum imaging": 0.7293071150779724, "Quantum Life Science Sensing": 0.7091353535652161, "Quantum sensing Detection": 0.7090988755226135, "Quantum sensing Metrology": 0.7087333798408508, "Quantum sensing navigation": 0.6858050227165222, "Quantum sensing Position": 0.7011065483093262, "Quantum sensing Timing": 0.6759108901023865, "Quantum sensing": 0.7091127634048462, "Quantum control": 0.6349429488182068 } }, { "id": 3332, "title": "IoMT-Based Smart Healthcare Detection System Driven by Quantum Blockchain and Quantum Neural Network", "abstract": "Electrocardiogram (ECG) is the main criterion for arrhythmia detection. As a means of identification, ECG leakage seems to be a common occurrence due to the development of the Internet of Medical Thin...", "citations": 27, "author_count": 6, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3338, "doi": "10.1109/JBHI.2023.3288199", "umap_coordinates": { "x": 394.92071533203125, "y": 134.89659118652344, "z": 205.99465942382812 }, "tsne_coordinates": { "x": -21.378562927246094, "y": 13.561859130859375, "z": 4.927409648895264 }, "pca_coordinates": { "x": 0.07754349708557129, "y": 1.2927758693695068, "z": 1.5888113975524902 }, "axis_scores": { "Quantum imaging": 0.7796769738197327, "Quantum Life Science Sensing": 0.7861637473106384, "Quantum sensing Detection": 0.7860978245735168, "Quantum sensing Metrology": 0.7632420659065247, "Quantum sensing navigation": 0.7585161924362183, "Quantum sensing Position": 0.7298564314842224, "Quantum sensing Timing": 0.7431501150131226, "Quantum sensing": 0.7864499092102051, "Quantum control": 0.7457519769668579 } }, { "id": 3333, "title": "Apparent quantum yield of photochemical dissolved organic carbon mineralization in lakes", "abstract": "Up to one tenth of the carbon dioxide (CO2) emissions from inland waters worldwide are directly induced by the photochemical mineralization of dissolved organic matter (DOM). The photochemical product...", "citations": 45, "author_count": 4, "categories": [ "Marine & Freshwater Biology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3339, "doi": "10.1002/lno.10366", "umap_coordinates": { "x": 393.27471923828125, "y": 136.272216796875, "z": 203.97645568847656 }, "tsne_coordinates": { "x": 13.059554100036621, "y": 22.25699234008789, "z": 18.315364837646484 }, "pca_coordinates": { "x": -2.507009267807007, "y": -0.14997315406799316, "z": -0.14128237962722778 }, "axis_scores": { "Quantum imaging": 0.7194631099700928, "Quantum Life Science Sensing": 0.7419618368148804, "Quantum sensing Detection": 0.7212274670600891, "Quantum sensing Metrology": 0.706098198890686, "Quantum sensing navigation": 0.7088805437088013, "Quantum sensing Position": 0.6937429308891296, "Quantum sensing Timing": 0.658510148525238, "Quantum sensing": 0.7256647348403931, "Quantum control": 0.6900564432144165 } }, { "id": 3334, "title": "Hole-burning techniques for isolation and study of individual hyperfine transitions in inhomogeneously broadened solids demonstrated in Pr3+:Y2SiO5 -: art. no. 214116", "abstract": "Due to their narrow homogeneous linewidths, rare-earth ions in inorganic crystals at low temperatures have recently been given considerable attention as test materials for experiments in coherent quan...", "citations": 176, "author_count": 6, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3340, "doi": "10.1103/PhysRevB.70.214116", "umap_coordinates": { "x": 394.96453857421875, "y": 135.54281616210938, "z": 208.612548828125 }, "tsne_coordinates": { "x": -0.38304445147514343, "y": -46.9289436340332, "z": 6.333787441253662 }, "pca_coordinates": { "x": 1.952235221862793, "y": 0.3914604187011719, "z": 0.24077969789505005 }, "axis_scores": { "Quantum imaging": 0.6751792430877686, "Quantum Life Science Sensing": 0.6965317130088806, "Quantum sensing Detection": 0.6813884973526001, "Quantum sensing Metrology": 0.6643528342247009, "Quantum sensing navigation": 0.6579973101615906, "Quantum sensing Position": 0.65035480260849, "Quantum sensing Timing": 0.6655906438827515, "Quantum sensing": 0.6908027529716492, "Quantum control": 0.6472471952438354 } }, { "id": 3335, "title": "Structural characterization of milled wood lignins from different eucalypt species", "abstract": "The chemical structure of milled-wood lignins from Eucalyptus globulus, E. nitens, E. maidenii, E. grandis, and E. dunnii was investigated. The lignins were characterized by analytical pyrolysis, thio...", "citations": 173, "author_count": 11, "categories": [ "Forestry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3341, "doi": "10.1515/HF.2008.096", "umap_coordinates": { "x": 393.5774841308594, "y": 136.3889617919922, "z": 203.94308471679688 }, "tsne_coordinates": { "x": 25.723146438598633, "y": 36.89565658569336, "z": -1.570527195930481 }, "pca_coordinates": { "x": -1.7750730514526367, "y": 2.7028441429138184, "z": -2.3502769470214844 }, "axis_scores": { "Quantum imaging": 0.6570030450820923, "Quantum Life Science Sensing": 0.6761914491653442, "Quantum sensing Detection": 0.6239995956420898, "Quantum sensing Metrology": 0.6537965536117554, "Quantum sensing navigation": 0.6313732266426086, "Quantum sensing Position": 0.6270650625228882, "Quantum sensing Timing": 0.6166934967041016, "Quantum sensing": 0.6555984020233154, "Quantum control": 0.639026403427124 } }, { "id": 3336, "title": "High-precision electron affinity of oxygen", "abstract": "Negative ions are important in many areas of science and technology, e.g., in interstellar chemistry, for accelerator-based radionuclide dating, and in anti-matter research. They are unique quantum sy...", "citations": 32, "author_count": 23, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3342, "doi": "10.1038/s41467-022-33438-y", "umap_coordinates": { "x": 393.5997619628906, "y": 135.0325927734375, "z": 206.1903076171875 }, "tsne_coordinates": { "x": -10.386704444885254, "y": 0.7774946093559265, "z": -1.032297134399414 }, "pca_coordinates": { "x": -1.9376988410949707, "y": -0.8353970050811768, "z": -0.47883981466293335 }, "axis_scores": { "Quantum imaging": 0.7211695909500122, "Quantum Life Science Sensing": 0.7360125780105591, "Quantum sensing Detection": 0.7150275707244873, "Quantum sensing Metrology": 0.7115631103515625, "Quantum sensing navigation": 0.7177144885063171, "Quantum sensing Position": 0.7358848452568054, "Quantum sensing Timing": 0.7119327783584595, "Quantum sensing": 0.7381510734558105, "Quantum control": 0.7094265222549438 } }, { "id": 3337, "title": "Is it the boundaries or disorder that dominates electron transport in semiconductor `billiards'?", "abstract": "Semiconductor billiards are often considered as ideal systems for studying dynamical chaos in the quantum mechanical limit. In the traditional picture, once the electron's mean free path, as determine...", "citations": 11, "author_count": 10, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3343, "doi": "10.1002/prop.201200081", "umap_coordinates": { "x": 393.12109375, "y": 135.1346435546875, "z": 207.3468780517578 }, "tsne_coordinates": { "x": 27.052457809448242, "y": -25.550559997558594, "z": 19.887847900390625 }, "pca_coordinates": { "x": 0.21140515804290771, "y": -0.6507818698883057, "z": -2.4695956707000732 }, "axis_scores": { "Quantum imaging": 0.7393162846565247, "Quantum Life Science Sensing": 0.7345626950263977, "Quantum sensing Detection": 0.7152957320213318, "Quantum sensing Metrology": 0.7036884427070618, "Quantum sensing navigation": 0.7306544780731201, "Quantum sensing Position": 0.7155205011367798, "Quantum sensing Timing": 0.6982287168502808, "Quantum sensing": 0.7370160818099976, "Quantum control": 0.7286011576652527 } }, { "id": 3338, "title": "Nonperturbative modeling of fifth-order coherent multidimensional spectroscopy in light harvesting antennas", "abstract": "Recent advances in coherent multidimensional spectroscopy have boosted interest in exciton coherences in light harvesting complexes. We present nonperturbative calculations of two-dimensional (2D) ele...", "citations": 37, "author_count": 3, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3344, "doi": "10.1088/1367-2630/13/2/025024", "umap_coordinates": { "x": 395.0650634765625, "y": 135.2296905517578, "z": 206.67327880859375 }, "tsne_coordinates": { "x": -8.686844825744629, "y": 2.4882588386535645, "z": 8.525884628295898 }, "pca_coordinates": { "x": 1.2399017810821533, "y": 1.2233082056045532, "z": 1.1625208854675293 }, "axis_scores": { "Quantum imaging": 0.7169694304466248, "Quantum Life Science Sensing": 0.7382823824882507, "Quantum sensing Detection": 0.714320719242096, "Quantum sensing Metrology": 0.7063648104667664, "Quantum sensing navigation": 0.7044641375541687, "Quantum sensing Position": 0.6960822939872742, "Quantum sensing Timing": 0.6972192525863647, "Quantum sensing": 0.718278706073761, "Quantum control": 0.6848308444023132 } }, { "id": 3339, "title": "Charge pumping in InAs nanowires by surface acoustic waves", "abstract": "We investigate the interaction between surface acoustic waves on a piezoelectric LiNbO3 substrate and charge carriers in InAs nanowire transistors. Interdigital transducers are used to excite electrom...", "citations": 7, "author_count": 8, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3345, "doi": "10.1088/0268-1242/25/2/024013", "umap_coordinates": { "x": 393.2637023925781, "y": 134.52491760253906, "z": 207.55572509765625 }, "tsne_coordinates": { "x": 25.024316787719727, "y": -14.81446647644043, "z": 13.903722763061523 }, "pca_coordinates": { "x": 0.7685205936431885, "y": -2.1529579162597656, "z": 1.5625581741333008 }, "axis_scores": { "Quantum imaging": 0.6989818811416626, "Quantum Life Science Sensing": 0.692489504814148, "Quantum sensing Detection": 0.6904124021530151, "Quantum sensing Metrology": 0.6728178858757019, "Quantum sensing navigation": 0.7127932906150818, "Quantum sensing Position": 0.6954633593559265, "Quantum sensing Timing": 0.6827266216278076, "Quantum sensing": 0.702896237373352, "Quantum control": 0.690921425819397 } }, { "id": 3340, "title": "Controllable generation of partially coherent light pulses with direct space-to-time pulse shaper", "abstract": "We demonstrate the possibility of creating user-defined partially coherent light pulses by means of a slight modification of the direct space-to-time pulse shaper. Specifically, we generate a mutual c...", "citations": 38, "author_count": 5, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3346, "doi": "10.1364/OL.32.001608", "umap_coordinates": { "x": 395.2483215332031, "y": 135.3720703125, "z": 206.7519989013672 }, "tsne_coordinates": { "x": -22.65160369873047, "y": -8.610005378723145, "z": -16.266704559326172 }, "pca_coordinates": { "x": -0.4065629839897156, "y": 2.3020410537719727, "z": 2.9090514183044434 }, "axis_scores": { "Quantum imaging": 0.7039658427238464, "Quantum Life Science Sensing": 0.7055070996284485, "Quantum sensing Detection": 0.6878095269203186, "Quantum sensing Metrology": 0.6926184296607971, "Quantum sensing navigation": 0.690599799156189, "Quantum sensing Position": 0.6733868718147278, "Quantum sensing Timing": 0.7229433655738831, "Quantum sensing": 0.705760657787323, "Quantum control": 0.713463544845581 } }, { "id": 3341, "title": "Propagation of partially coherent photons in an ultra-intense radiation gas", "abstract": "The scattering of photons off photons at the one-loop level is investigated. We give a short review of the weak field limit, as given by the first order term in the series expansion of the Heisenberg-...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3347, "doi": null, "umap_coordinates": { "x": 391.6574401855469, "y": 139.26451110839844, "z": 209.24462890625 }, "tsne_coordinates": { "x": -10.181397438049316, "y": 38.55101013183594, "z": -10.371966361999512 }, "pca_coordinates": { "x": 0.8818981647491455, "y": 3.899240255355835, "z": 1.1429877281188965 }, "axis_scores": { "Quantum imaging": 0.7650863528251648, "Quantum Life Science Sensing": 0.7345627546310425, "Quantum sensing Detection": 0.7335597276687622, "Quantum sensing Metrology": 0.6995970010757446, "Quantum sensing navigation": 0.7437297105789185, "Quantum sensing Position": 0.7046194672584534, "Quantum sensing Timing": 0.698503315448761, "Quantum sensing": 0.7389519810676575, "Quantum control": 0.6894009113311768 } }, { "id": 3342, "title": "Measurement of the inclusive isolated-photon production cross section in pp collisions at √s=13 TeV", "abstract": "The production cross section of inclusive isolated photons has been measured by the ALICE experiment at the CERN LHC in pp collisions at centre-of-momentum energy of root s = 13 TeV collected during t...", "citations": 3, "author_count": 1073, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3348, "doi": "10.1140/epjc/s10052-024-13506-x", "umap_coordinates": { "x": 396.80010986328125, "y": 134.54022216796875, "z": 207.40606689453125 }, "tsne_coordinates": { "x": -30.6375675201416, "y": 12.13578987121582, "z": -11.161222457885742 }, "pca_coordinates": { "x": -0.3428913354873657, "y": 1.3312034606933594, "z": 3.401026725769043 }, "axis_scores": { "Quantum imaging": 0.6893084049224854, "Quantum Life Science Sensing": 0.6858779191970825, "Quantum sensing Detection": 0.7058036923408508, "Quantum sensing Metrology": 0.6676332354545593, "Quantum sensing navigation": 0.6695296764373779, "Quantum sensing Position": 0.6876092553138733, "Quantum sensing Timing": 0.6815337538719177, "Quantum sensing": 0.6967511177062988, "Quantum control": 0.6546241044998169 } }, { "id": 3343, "title": "Comment on Quantum interference effects in biphenyl dithiol for gas detection by J. Prasongkit and A. R. Rocha, RSC Adv., 2016, 64, 59299-59304", "abstract": "The paper [Prasongkit et al., RSC Adv., 2016, 64, 59299] by Prasongkit and Rocha calculates the binding energy of gas molecules attached to 1-8-biphenyl-dithiol (BPDT) molecules. We find from our calc...", "citations": 1, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3349, "doi": "10.1039/c9ra00451c", "umap_coordinates": { "x": 392.9439697265625, "y": 136.05673217773438, "z": 205.1096649169922 }, "tsne_coordinates": { "x": 1.2477959394454956, "y": -9.472039222717285, "z": -19.498449325561523 }, "pca_coordinates": { "x": -1.0016993284225464, "y": 0.4503517150878906, "z": -1.3499932289123535 }, "axis_scores": { "Quantum imaging": 0.7160625457763672, "Quantum Life Science Sensing": 0.7277670502662659, "Quantum sensing Detection": 0.7304734587669373, "Quantum sensing Metrology": 0.6931048631668091, "Quantum sensing navigation": 0.7005343437194824, "Quantum sensing Position": 0.7025769948959351, "Quantum sensing Timing": 0.6932979226112366, "Quantum sensing": 0.7280554175376892, "Quantum control": 0.6970252394676208 } }, { "id": 3344, "title": "Nanoparticle Surface Functionality Dictates Cellular and Systemic Toxicity", "abstract": "Engineered nanoparticles (NPs) have opened new frontiers in therapeutics and diagnostics in recent years. The surface functionality of these nanoparticles often predominates their interactions with va...", "citations": 108, "author_count": 12, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3350, "doi": "10.1021/acs.chemmater.7b01979", "umap_coordinates": { "x": 393.2899475097656, "y": 134.5109100341797, "z": 204.36407470703125 }, "tsne_coordinates": { "x": 19.089094161987305, "y": 25.237707138061523, "z": -1.150630235671997 }, "pca_coordinates": { "x": -3.9813132286071777, "y": -1.7774462699890137, "z": -2.652831792831421 }, "axis_scores": { "Quantum imaging": 0.7246426343917847, "Quantum Life Science Sensing": 0.7575739622116089, "Quantum sensing Detection": 0.7249948978424072, "Quantum sensing Metrology": 0.7129640579223633, "Quantum sensing navigation": 0.711999773979187, "Quantum sensing Position": 0.6985791921615601, "Quantum sensing Timing": 0.6626259684562683, "Quantum sensing": 0.7361058592796326, "Quantum control": 0.7136520743370056 } }, { "id": 3345, "title": "Shuttling of electrons and Cooper pairs", "abstract": "Properties of nanocomposite materials are affected by a coupling between mechanical deformations of the materials and electronic charge transport. In one of the simplest systems of this kind, a single...", "citations": 73, "author_count": 6, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3351, "doi": "10.1088/0953-8984/15/12/201", "umap_coordinates": { "x": 394.2601013183594, "y": 136.19715881347656, "z": 207.7620849609375 }, "tsne_coordinates": { "x": 22.391990661621094, "y": -21.84078598022461, "z": 15.386177062988281 }, "pca_coordinates": { "x": 2.3832767009735107, "y": 1.1761150360107422, "z": -0.7301746010780334 }, "axis_scores": { "Quantum imaging": 0.7201528549194336, "Quantum Life Science Sensing": 0.717117428779602, "Quantum sensing Detection": 0.7204549312591553, "Quantum sensing Metrology": 0.7019989490509033, "Quantum sensing navigation": 0.733394980430603, "Quantum sensing Position": 0.7069427967071533, "Quantum sensing Timing": 0.7134212255477905, "Quantum sensing": 0.7312979698181152, "Quantum control": 0.7189843058586121 } }, { "id": 3346, "title": "Triplet superconducting proximity effect in inhomogeneous magnetic materials", "abstract": "We show that quantum spin fluctuations in inhomogeneous conducting ferromagnets drastically affect the Andreev reflection of electrons and holes at a ferromagnet-superconductor interface. As a result,...", "citations": 13, "author_count": 4, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3352, "doi": "10.1063/1.1401185", "umap_coordinates": { "x": 393.2882385253906, "y": 135.522216796875, "z": 208.55450439453125 }, "tsne_coordinates": { "x": 16.212177276611328, "y": -33.909847259521484, "z": 10.59390926361084 }, "pca_coordinates": { "x": 2.6374406814575195, "y": -1.4194164276123047, "z": -0.8916983604431152 }, "axis_scores": { "Quantum imaging": 0.7265013456344604, "Quantum Life Science Sensing": 0.7397918701171875, "Quantum sensing Detection": 0.7281745672225952, "Quantum sensing Metrology": 0.7268816232681274, "Quantum sensing navigation": 0.7100502848625183, "Quantum sensing Position": 0.7144509553909302, "Quantum sensing Timing": 0.7210196852684021, "Quantum sensing": 0.7403813004493713, "Quantum control": 0.6990744471549988 } }, { "id": 3347, "title": "Operatorial formulation of the ghost rotationally invariant slave-boson theory", "abstract": "We propose an operatorially exact formalism for describing the equilibrium and quantum-dynamical properties of many-electron systems interacting locally on a lattice, called ghost rotationally invaria...", "citations": 8, "author_count": 2, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3353, "doi": "10.1103/PhysRevB.105.045111", "umap_coordinates": { "x": 394.99322509765625, "y": 137.2274932861328, "z": 208.46726989746094 }, "tsne_coordinates": { "x": -20.14112663269043, "y": -18.92801856994629, "z": -0.07682250440120697 }, "pca_coordinates": { "x": 5.707704067230225, "y": 1.286501169204712, "z": 0.47518330812454224 }, "axis_scores": { "Quantum imaging": 0.7365161180496216, "Quantum Life Science Sensing": 0.7106137871742249, "Quantum sensing Detection": 0.7278876900672913, "Quantum sensing Metrology": 0.7181883454322815, "Quantum sensing navigation": 0.7403995394706726, "Quantum sensing Position": 0.721745491027832, "Quantum sensing Timing": 0.7203028202056885, "Quantum sensing": 0.7411620020866394, "Quantum control": 0.727337658405304 } }, { "id": 3348, "title": "Extended computational kernels in a massively parallel implementation of the Trotter-Suzuki approximation", "abstract": "We extended a parallel and distributed implementation of the Trotter Suzuki algorithm for simulating quantum systems to study a wider range of physical problems and to make the library easier to use. ...", "citations": 7, "author_count": 3, "categories": [ "Computer Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3354, "doi": "10.1016/j.cpc.2015.07.017", "umap_coordinates": { "x": 394.27911376953125, "y": 137.80862426757812, "z": 205.97067260742188 }, "tsne_coordinates": { "x": -7.476449966430664, "y": 13.472860336303711, "z": 38.92277908325195 }, "pca_coordinates": { "x": 0.3290858268737793, "y": 2.9228949546813965, "z": -0.18851548433303833 }, "axis_scores": { "Quantum imaging": 0.7170981764793396, "Quantum Life Science Sensing": 0.6521707773208618, "Quantum sensing Detection": 0.6782400608062744, "Quantum sensing Metrology": 0.6542385816574097, "Quantum sensing navigation": 0.67387455701828, "Quantum sensing Position": 0.6553750038146973, "Quantum sensing Timing": 0.688096284866333, "Quantum sensing": 0.6940404772758484, "Quantum control": 0.6786381006240845 } }, { "id": 3349, "title": "Photo-induced fluorescence quenching in conjugated polymers dispersed in solid matrices at low concentration", "abstract": "When isolated conjugated polymer (CP) chains are studied by single molecule spectroscopy, excitation power density in the range of 10-1000 W cm(-2) is normally used. We show that at such excitation po...", "citations": 29, "author_count": 6, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3355, "doi": "10.1039/c4tc00831f", "umap_coordinates": { "x": 392.4855651855469, "y": 135.58587646484375, "z": 205.04331970214844 }, "tsne_coordinates": { "x": 1.9926475286483765, "y": -2.2321603298187256, "z": -17.32671356201172 }, "pca_coordinates": { "x": -2.6571474075317383, "y": -1.1858890056610107, "z": -2.1187305450439453 }, "axis_scores": { "Quantum imaging": 0.6784608364105225, "Quantum Life Science Sensing": 0.6954166889190674, "Quantum sensing Detection": 0.666032075881958, "Quantum sensing Metrology": 0.649819016456604, "Quantum sensing navigation": 0.6335041522979736, "Quantum sensing Position": 0.6425625085830688, "Quantum sensing Timing": 0.6257266998291016, "Quantum sensing": 0.6676308512687683, "Quantum control": 0.6527032852172852 } }, { "id": 3350, "title": "Dynamical Effects of Solvation on Norbornadiene/Quadricyclane Systems", "abstract": "Molecules that can undergo reversible chemical transformations following the absorption of light, the so-called molecular photoswitches, have attracted increasing attention in technologies, such as so...", "citations": 2, "author_count": 5, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3356, "doi": "10.1021/acs.jpca.4c00045", "umap_coordinates": { "x": 392.7139892578125, "y": 136.3416748046875, "z": 206.51907348632812 }, "tsne_coordinates": { "x": 4.302820682525635, "y": 0.3175770938396454, "z": -1.7665300369262695 }, "pca_coordinates": { "x": 0.48047757148742676, "y": 0.06327152252197266, "z": -4.480742931365967 }, "axis_scores": { "Quantum imaging": 0.7230211496353149, "Quantum Life Science Sensing": 0.710260272026062, "Quantum sensing Detection": 0.6874340772628784, "Quantum sensing Metrology": 0.6594700217247009, "Quantum sensing navigation": 0.6972076296806335, "Quantum sensing Position": 0.6690157055854797, "Quantum sensing Timing": 0.6787133812904358, "Quantum sensing": 0.7024229168891907, "Quantum control": 0.7430345416069031 } }, { "id": 3351, "title": "Absent thermal equilibration on fractional quantum Hall edges over macroscopic scale", "abstract": "The transport behaviour of counter-propagating edge modes in the hole-conjugate fractional quantum Hall state is not fully understood. Here, by combining local noise thermometry and thermal conductanc...", "citations": 38, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3357, "doi": "10.1038/s41467-022-28009-0", "umap_coordinates": { "x": 393.87176513671875, "y": 137.1794891357422, "z": 207.8700408935547 }, "tsne_coordinates": { "x": 7.069947719573975, "y": -9.777050971984863, "z": 23.65523338317871 }, "pca_coordinates": { "x": 1.7051925659179688, "y": 1.6377639770507812, "z": -2.370823383331299 }, "axis_scores": { "Quantum imaging": 0.7132532596588135, "Quantum Life Science Sensing": 0.7096048593521118, "Quantum sensing Detection": 0.6848418712615967, "Quantum sensing Metrology": 0.6937927007675171, "Quantum sensing navigation": 0.7005952596664429, "Quantum sensing Position": 0.7001204490661621, "Quantum sensing Timing": 0.709101140499115, "Quantum sensing": 0.7139687538146973, "Quantum control": 0.6936467885971069 } }, { "id": 3352, "title": "Spin-statistics relation for quantum Hall states", "abstract": "We prove a generic spin-statistics relation for the fractional quasiparticles that appear in Abelian quantum Hall states on the disk. The proof is based on an efficient way for computing the Berry pha...", "citations": 11, "author_count": 4, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3358, "doi": "10.1103/PhysRevB.108.L041105", "umap_coordinates": { "x": 394.5552673339844, "y": 137.07188415527344, "z": 208.89401245117188 }, "tsne_coordinates": { "x": -20.19387435913086, "y": -33.399192810058594, "z": 14.251178741455078 }, "pca_coordinates": { "x": 5.495886325836182, "y": 0.5868668556213379, "z": -0.23643255233764648 }, "axis_scores": { "Quantum imaging": 0.6842467784881592, "Quantum Life Science Sensing": 0.7289000749588013, "Quantum sensing Detection": 0.7064332365989685, "Quantum sensing Metrology": 0.701397716999054, "Quantum sensing navigation": 0.7266589403152466, "Quantum sensing Position": 0.7012350559234619, "Quantum sensing Timing": 0.6923823356628418, "Quantum sensing": 0.7127306461334229, "Quantum control": 0.6705376505851746 } }, { "id": 3353, "title": "High sensitive assay of formaldehyde using resonance light scattering technique based on carbon dots aggregation", "abstract": "Formaldehyde (FA) is widely used in industry and also common in daily life. Finding an efficient method to determine FA is quite an industrial challenge. Herein, a novel method based on a resonance li...", "citations": 5, "author_count": 11, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3359, "doi": "10.1016/j.arabjc.2023.104786", "umap_coordinates": { "x": 393.1455383300781, "y": 134.23934936523438, "z": 204.3715362548828 }, "tsne_coordinates": { "x": 20.592529296875, "y": 17.05422592163086, "z": -13.531134605407715 }, "pca_coordinates": { "x": -4.0616679191589355, "y": -0.03962993621826172, "z": -2.0498828887939453 }, "axis_scores": { "Quantum imaging": 0.6858083009719849, "Quantum Life Science Sensing": 0.736272394657135, "Quantum sensing Detection": 0.6944319009780884, "Quantum sensing Metrology": 0.6855188608169556, "Quantum sensing navigation": 0.6813722252845764, "Quantum sensing Position": 0.6924369931221008, "Quantum sensing Timing": 0.6624823212623596, "Quantum sensing": 0.707643985748291, "Quantum control": 0.6907699108123779 } }, { "id": 3354, "title": "Syntheses and DNA-binding studies of a series of unsymmetrical cyanine dyes: structural influence on the degree of minor groove binding to natural DNA", "abstract": "Twelve crescent-shaped unsymmetrical dyes have been synthesized and their interactions with DNA have been investigated by spectroscopic methods. A new facile synthetic-route to this type of cyanine dy...", "citations": 53, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3360, "doi": "10.1016/j.bmc.2004.02.006", "umap_coordinates": { "x": 393.1746520996094, "y": 135.4887237548828, "z": 204.55389404296875 }, "tsne_coordinates": { "x": 7.783581256866455, "y": 17.00058937072754, "z": 5.964147090911865 }, "pca_coordinates": { "x": -3.426316738128662, "y": 1.4384325742721558, "z": -2.569657564163208 }, "axis_scores": { "Quantum imaging": 0.7180629968643188, "Quantum Life Science Sensing": 0.7294009327888489, "Quantum sensing Detection": 0.7012941241264343, "Quantum sensing Metrology": 0.6979566812515259, "Quantum sensing navigation": 0.7286826372146606, "Quantum sensing Position": 0.7069080471992493, "Quantum sensing Timing": 0.6713135242462158, "Quantum sensing": 0.7144666910171509, "Quantum control": 0.6979454159736633 } }, { "id": 3355, "title": "Universal single-frequency oscillations in a quantum impurity system after a local quench", "abstract": "Universal single-frequency oscillations in the local nonequilibrium dynamics of a quantum many-body system are an exceptional phenomenon. In fact, till now, this has never been observed or predicted f...", "citations": 11, "author_count": 5, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3361, "doi": "10.1103/PhysRevB.92.155141", "umap_coordinates": { "x": 394.6521911621094, "y": 135.83673095703125, "z": 209.1685791015625 }, "tsne_coordinates": { "x": -1.2090866565704346, "y": -28.693817138671875, "z": -9.902194023132324 }, "pca_coordinates": { "x": 5.751277446746826, "y": -0.6639933586120605, "z": -1.0756011009216309 }, "axis_scores": { "Quantum imaging": 0.6847100257873535, "Quantum Life Science Sensing": 0.7206750512123108, "Quantum sensing Detection": 0.7131961584091187, "Quantum sensing Metrology": 0.6926266551017761, "Quantum sensing navigation": 0.7115983963012695, "Quantum sensing Position": 0.6767286658287048, "Quantum sensing Timing": 0.6824859380722046, "Quantum sensing": 0.7169427275657654, "Quantum control": 0.704754650592804 } }, { "id": 3356, "title": "Extreme Ultraviolet Wave Packet Interferometry of the Autoionizing HeNe Dimer", "abstract": "Femtosecond extreme ultraviolet wave packet interferometry (XUV-WPI) was applied to study resonant interatomic Coulombic decay (ICD) in the HeNe dimer. The high demands on phase stability and sensitiv...", "citations": 3, "author_count": 28, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3362, "doi": "10.1021/acs.jpclett.2c01619", "umap_coordinates": { "x": 393.1717834472656, "y": 135.86842346191406, "z": 206.1502227783203 }, "tsne_coordinates": { "x": 4.279371738433838, "y": -10.910951614379883, "z": -9.403430938720703 }, "pca_coordinates": { "x": 0.47764134407043457, "y": -1.0422396659851074, "z": 1.1426711082458496 }, "axis_scores": { "Quantum imaging": 0.7421162724494934, "Quantum Life Science Sensing": 0.7342280149459839, "Quantum sensing Detection": 0.7229849100112915, "Quantum sensing Metrology": 0.7057708501815796, "Quantum sensing navigation": 0.7029943466186523, "Quantum sensing Position": 0.6948098540306091, "Quantum sensing Timing": 0.6868918538093567, "Quantum sensing": 0.7326761484146118, "Quantum control": 0.6921874284744263 } }, { "id": 3357, "title": "Dynamical simulation of photoinduced electron transfer reactions in dye-semiconductor systems with different anchor groups", "abstract": "Photoinduced electron transfer processes in dye-semiconductor systems are studied employing a recently proposed method based on a model Hamiltonian where the parameters are determined by first-princip...", "citations": 95, "author_count": 8, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3363, "doi": "10.1021/jp7118263", "umap_coordinates": { "x": 392.5806579589844, "y": 135.7447967529297, "z": 206.7775115966797 }, "tsne_coordinates": { "x": 1.5346016883850098, "y": -0.980803906917572, "z": 0.525087833404541 }, "pca_coordinates": { "x": 0.4182772636413574, "y": -0.9437739849090576, "z": -2.2526118755340576 }, "axis_scores": { "Quantum imaging": 0.6871698498725891, "Quantum Life Science Sensing": 0.6874691247940063, "Quantum sensing Detection": 0.6568559408187866, "Quantum sensing Metrology": 0.6291677951812744, "Quantum sensing navigation": 0.6849310398101807, "Quantum sensing Position": 0.6636177897453308, "Quantum sensing Timing": 0.6710929870605469, "Quantum sensing": 0.6730625629425049, "Quantum control": 0.6841896772384644 } }, { "id": 3358, "title": "Fabry-Perot and Aharonov-Bohm interference in ideal graphene nanoribbons", "abstract": "Quantum-mechanical calculations of electron magnetotransport in ideal graphene nanoribbons are presented. In noninteracting theory, it is predicted that an ideal ribbon that is attached to wide leads ...", "citations": 2, "author_count": 2, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3364, "doi": "10.1103/PhysRevB.106.115408", "umap_coordinates": { "x": 394.6001892089844, "y": 135.7197723388672, "z": 209.17335510253906 }, "tsne_coordinates": { "x": -3.2689263820648193, "y": -25.776647567749023, "z": -3.0629384517669678 }, "pca_coordinates": { "x": 4.667206287384033, "y": -0.6000666618347168, "z": 0.28935110569000244 }, "axis_scores": { "Quantum imaging": 0.7039692997932434, "Quantum Life Science Sensing": 0.7202282547950745, "Quantum sensing Detection": 0.6993647217750549, "Quantum sensing Metrology": 0.7007384300231934, "Quantum sensing navigation": 0.7024737000465393, "Quantum sensing Position": 0.6635228395462036, "Quantum sensing Timing": 0.6599384546279907, "Quantum sensing": 0.7143619656562805, "Quantum control": 0.69074946641922 } }, { "id": 3359, "title": "Radiative emission from Cu2ZnSnS4/ZnSn core/shell nanocrystals", "abstract": "Kesterite Cu2ZnSnS4 (CZTS) nanocrystals so far have been found to luminesce neither at room temperature nor at low temperature. Here a core-shell architecture for kesterite CZTS nanocrystals is demons...", "citations": 2, "author_count": 6, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3365, "doi": "10.1039/c9tc00904c", "umap_coordinates": { "x": 392.014404296875, "y": 133.9763946533203, "z": 206.1664276123047 }, "tsne_coordinates": { "x": 16.486906051635742, "y": -0.4438591003417969, "z": -8.660350799560547 }, "pca_coordinates": { "x": -1.9913345575332642, "y": -4.115005016326904, "z": -0.2727580666542053 }, "axis_scores": { "Quantum imaging": 0.6755317449569702, "Quantum Life Science Sensing": 0.6881319880485535, "Quantum sensing Detection": 0.6944271326065063, "Quantum sensing Metrology": 0.6651724576950073, "Quantum sensing navigation": 0.6749913096427917, "Quantum sensing Position": 0.6418197751045227, "Quantum sensing Timing": 0.6614835262298584, "Quantum sensing": 0.690096914768219, "Quantum control": 0.6777363419532776 } }, { "id": 3360, "title": "Noise properties of an YBCOSQUID", "abstract": "We have measured the electrical and the white noise properties of a high-T-c SQUID at 65 K, using a room temperature low noise amplifier and a high-T-c SQUID-based voltage amplifier. Operating at 65 K...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3366, "doi": "10.1016/S0921-4534(01)01165-0", "umap_coordinates": { "x": 394.1677551269531, "y": 135.12290954589844, "z": 207.22061157226562 }, "tsne_coordinates": { "x": 2.6423394680023193, "y": -25.337568283081055, "z": -27.861766815185547 }, "pca_coordinates": { "x": 0.023224234580993652, "y": 0.7030318975448608, "z": -0.0214882493019104 }, "axis_scores": { "Quantum imaging": 0.7278352379798889, "Quantum Life Science Sensing": 0.7478720545768738, "Quantum sensing Detection": 0.7413181662559509, "Quantum sensing Metrology": 0.7309315800666809, "Quantum sensing navigation": 0.7625826001167297, "Quantum sensing Position": 0.7298243641853333, "Quantum sensing Timing": 0.7039593458175659, "Quantum sensing": 0.7485687732696533, "Quantum control": 0.741646409034729 } }, { "id": 3361, "title": "Optimal power and efficiency of single quantum dot heat engines: Theory and experiment", "abstract": "Quantum dots (QDs) can serve as near perfect energy filters and are therefore of significant interest for the study of thermoelectric energy conversion close to thermodynamic efficiency limits. Indeed...", "citations": 35, "author_count": 5, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3367, "doi": "10.1103/PhysRevB.99.235432", "umap_coordinates": { "x": 394.53125, "y": 134.07862854003906, "z": 208.404296875 }, "tsne_coordinates": { "x": 3.5446126461029053, "y": -22.229881286621094, "z": -10.982277870178223 }, "pca_coordinates": { "x": 3.0695667266845703, "y": -2.20932674407959, "z": 1.7336080074310303 }, "axis_scores": { "Quantum imaging": 0.7246809005737305, "Quantum Life Science Sensing": 0.734409749507904, "Quantum sensing Detection": 0.7368789911270142, "Quantum sensing Metrology": 0.7219172716140747, "Quantum sensing navigation": 0.7162047028541565, "Quantum sensing Position": 0.70026034116745, "Quantum sensing Timing": 0.7066086530685425, "Quantum sensing": 0.7392529249191284, "Quantum control": 0.7337405681610107 } }, { "id": 3362, "title": "Effect of built-in electric field in photovoltaic InAs quantum dot embedded GaAs solar cell", "abstract": "In this paper, three p-i-n GaAs solar cells were grown and characterized, one with InAs quantum dot (QD) layers embedded in the depletion region (sample A), one with QD layers embedded in the n (-) ba...", "citations": 23, "author_count": 8, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3368, "doi": "10.1007/s00339-010-6152-8", "umap_coordinates": { "x": 392.3869323730469, "y": 134.27593994140625, "z": 207.1276092529297 }, "tsne_coordinates": { "x": 34.39647674560547, "y": -5.982820510864258, "z": -18.805395126342773 }, "pca_coordinates": { "x": -1.7798311710357666, "y": -2.892703056335449, "z": -0.6892202496528625 }, "axis_scores": { "Quantum imaging": 0.6782901287078857, "Quantum Life Science Sensing": 0.7123392820358276, "Quantum sensing Detection": 0.6656094789505005, "Quantum sensing Metrology": 0.6675119400024414, "Quantum sensing navigation": 0.6801531910896301, "Quantum sensing Position": 0.6729133725166321, "Quantum sensing Timing": 0.6298230886459351, "Quantum sensing": 0.6820813417434692, "Quantum control": 0.660849392414093 } }, { "id": 3363, "title": "Using covariance mapping to investigate the dynamics of multi-photon ionization processes of Ne atoms exposed to X-FEL pulses", "abstract": "We report on a detailed investigation into the electron emission processes of Ne atoms exposed to intense femtosecond x-ray pulses, provided by the Linac Coherent Light Source Free Electron Laser (FEL...", "citations": 30, "author_count": 35, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3369, "doi": "10.1088/0953-4075/46/16/164034", "umap_coordinates": { "x": 394.80926513671875, "y": 135.32647705078125, "z": 206.07142639160156 }, "tsne_coordinates": { "x": -23.027311325073242, "y": -2.605609655380249, "z": -16.384435653686523 }, "pca_coordinates": { "x": -1.198768973350525, "y": 2.8402862548828125, "z": 1.716763973236084 }, "axis_scores": { "Quantum imaging": 0.7183756828308105, "Quantum Life Science Sensing": 0.7103879451751709, "Quantum sensing Detection": 0.690714955329895, "Quantum sensing Metrology": 0.6826943755149841, "Quantum sensing navigation": 0.7090792655944824, "Quantum sensing Position": 0.6840553283691406, "Quantum sensing Timing": 0.6831691265106201, "Quantum sensing": 0.695914626121521, "Quantum control": 0.6830641031265259 } }, { "id": 3364, "title": "Photon counting ladar work at FOI, Sweden", "abstract": "Photon counting techniques using direct detection has recently gained considerable interest within the laser radar community. The high sensitivity is of special importance to achieve high area coverag...", "citations": 12, "author_count": 4, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3370, "doi": "10.1117/12.920294", "umap_coordinates": { "x": 395.3499755859375, "y": 133.2283172607422, "z": 206.20103454589844 }, "tsne_coordinates": { "x": -6.223869323730469, "y": 18.520864486694336, "z": -24.97479248046875 }, "pca_coordinates": { "x": -2.7934064865112305, "y": 1.6953551769256592, "z": 3.4843249320983887 }, "axis_scores": { "Quantum imaging": 0.7105889320373535, "Quantum Life Science Sensing": 0.7084466218948364, "Quantum sensing Detection": 0.7190607190132141, "Quantum sensing Metrology": 0.6985487937927246, "Quantum sensing navigation": 0.6946039795875549, "Quantum sensing Position": 0.7133610248565674, "Quantum sensing Timing": 0.6958165168762207, "Quantum sensing": 0.7099055051803589, "Quantum control": 0.648674726486206 } }, { "id": 3365, "title": "Live Cell Linear Dichroism Imaging Reveals Extensive Membrane Ruffling within the Docking Structure of Natural Killer Cell Immune Synapses", "abstract": "We have applied fluorescence imaging of two-photon linear dichroism to measure the subresolution organization of the cell membrane during formation of the activating (cytolytic) natural killer (NK) ce...", "citations": 31, "author_count": 12, "categories": [ "Biophysics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3371, "doi": "10.1016/j.bpj.2008.10.005", "umap_coordinates": { "x": 394.420166015625, "y": 135.54708862304688, "z": 204.58627319335938 }, "tsne_coordinates": { "x": 3.2883522510528564, "y": 21.06662368774414, "z": 4.521979808807373 }, "pca_coordinates": { "x": -1.5095469951629639, "y": 1.4650273323059082, "z": -1.1822187900543213 }, "axis_scores": { "Quantum imaging": 0.7466078400611877, "Quantum Life Science Sensing": 0.7298301458358765, "Quantum sensing Detection": 0.6877959966659546, "Quantum sensing Metrology": 0.688667893409729, "Quantum sensing navigation": 0.7040560841560364, "Quantum sensing Position": 0.6940236687660217, "Quantum sensing Timing": 0.6548106670379639, "Quantum sensing": 0.707768440246582, "Quantum control": 0.6759334802627563 } }, { "id": 3366, "title": "Mutual neutralization of C60+ and C60- ions: Excitation energies and state-selective rate coefficients", "abstract": "Context. Mutual neutralization (MN) between cations and anions plays an important role in determining the charge balance in certain astrophysical environments. However, empirical data for such reactio...", "citations": 3, "author_count": 10, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3372, "doi": "10.1051/0004-6361/202452303", "umap_coordinates": { "x": 393.88873291015625, "y": 136.25555419921875, "z": 206.58753967285156 }, "tsne_coordinates": { "x": -8.34949016571045, "y": -7.495109558105469, "z": 3.2566685676574707 }, "pca_coordinates": { "x": -0.6718283295631409, "y": 0.7255077362060547, "z": -0.39100226759910583 }, "axis_scores": { "Quantum imaging": 0.6868912577629089, "Quantum Life Science Sensing": 0.7197895646095276, "Quantum sensing Detection": 0.6976338028907776, "Quantum sensing Metrology": 0.6973507404327393, "Quantum sensing navigation": 0.6894751787185669, "Quantum sensing Position": 0.6693608164787292, "Quantum sensing Timing": 0.6681289076805115, "Quantum sensing": 0.7048021554946899, "Quantum control": 0.6786961555480957 } }, { "id": 3367, "title": "Using MD snapshots in ab initio and DFT calculations: OH vibrations in the first hydration shell around Li+(aq)", "abstract": "The average OH stretching vibrational frequency for the water molecules in the first hydration shell around a Li+ ion in a dilute aqueous solution was calculated by a hybrid molecular dynamics + quant...", "citations": 37, "author_count": 4, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3373, "doi": "10.1021/jp047395j", "umap_coordinates": { "x": 392.80474853515625, "y": 137.1531524658203, "z": 205.80258178710938 }, "tsne_coordinates": { "x": -2.3214030265808105, "y": 14.522248268127441, "z": 25.473146438598633 }, "pca_coordinates": { "x": -0.25569653511047363, "y": -0.2071397304534912, "z": -3.2290868759155273 }, "axis_scores": { "Quantum imaging": 0.658491313457489, "Quantum Life Science Sensing": 0.6936758756637573, "Quantum sensing Detection": 0.6360775828361511, "Quantum sensing Metrology": 0.6339992880821228, "Quantum sensing navigation": 0.6575413346290588, "Quantum sensing Position": 0.6559100151062012, "Quantum sensing Timing": 0.6523494124412537, "Quantum sensing": 0.656624972820282, "Quantum control": 0.6336780190467834 } }, { "id": 3368, "title": "Dynamical origin of quantum probabilities", "abstract": "We study the origin of the Born probability rule rho = \\Psi\\(2) in the de Broglie-Bohm pilot-wave formulation of quantum theory. It is argued that quantum probabilities arise dynamically, and have a s...", "citations": 116, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3374, "doi": "10.1098/rspa.2004.1394", "umap_coordinates": { "x": 394.9978942871094, "y": 137.53509521484375, "z": 206.68067932128906 }, "tsne_coordinates": { "x": -29.710311889648438, "y": 8.086379051208496, "z": 21.851337432861328 }, "pca_coordinates": { "x": 3.581299304962158, "y": 2.892796039581299, "z": -1.876283884048462 }, "axis_scores": { "Quantum imaging": 0.7577068209648132, "Quantum Life Science Sensing": 0.7691068053245544, "Quantum sensing Detection": 0.7657040953636169, "Quantum sensing Metrology": 0.7314653992652893, "Quantum sensing navigation": 0.7889517545700073, "Quantum sensing Position": 0.7554059028625488, "Quantum sensing Timing": 0.7602078914642334, "Quantum sensing": 0.7735706567764282, "Quantum control": 0.7677569389343262 } }, { "id": 3369, "title": "Photochemistry of diiodomethane in solution studied by femtosecond and nanosecond laser photolysis. Formation and dark reactions of the CH2I-I isomer photoproduct and its role in cyclopropanation of olefins", "abstract": "Femtosecond and nanosecond photolysis of CH2I2 in acetonitrile at an excitation wavelength of 266-nm yield the ground-state CH2I-I isomer product in similar to70% quantum yield. High isomer formation ...", "citations": 62, "author_count": 5, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3375, "doi": "10.1021/jp035406n", "umap_coordinates": { "x": 392.7114562988281, "y": 135.98175048828125, "z": 205.48204040527344 }, "tsne_coordinates": { "x": 2.418607711791992, "y": 6.400650501251221, "z": 10.625227928161621 }, "pca_coordinates": { "x": -3.260221481323242, "y": -0.14866399765014648, "z": -2.651954412460327 }, "axis_scores": { "Quantum imaging": 0.6827519536018372, "Quantum Life Science Sensing": 0.6996217370033264, "Quantum sensing Detection": 0.6544387936592102, "Quantum sensing Metrology": 0.6273332834243774, "Quantum sensing navigation": 0.6208693385124207, "Quantum sensing Position": 0.6207607388496399, "Quantum sensing Timing": 0.6255239248275757, "Quantum sensing": 0.6607434749603271, "Quantum control": 0.6521105766296387 } }, { "id": 3370, "title": "COMPARISON OF PHOTON-COUNTING AND FLAT-PANEL DIGITAL MAMMMOGRAPHY FOR THE PURPOSE OF 3D IMAGING USING A NOVEL IMAGE PROCESSING METHOD", "abstract": "The purpose of the present work was to compare the quality of low-dose projections from a photon-counting with a flat-panel system, and to evaluate a novel image processing method. Images were acquire...", "citations": 2, "author_count": 6, "categories": [ "Environmental Sciences & Ecology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3376, "doi": "10.1093/rpd/ncab104", "umap_coordinates": { "x": 395.54193115234375, "y": 132.69070434570312, "z": 204.85357666015625 }, "tsne_coordinates": { "x": -5.249721527099609, "y": 32.45716094970703, "z": -22.349185943603516 }, "pca_coordinates": { "x": -3.3158183097839355, "y": 2.6642425060272217, "z": 3.116849899291992 }, "axis_scores": { "Quantum imaging": 0.6918545961380005, "Quantum Life Science Sensing": 0.6933160424232483, "Quantum sensing Detection": 0.6840731501579285, "Quantum sensing Metrology": 0.6739345788955688, "Quantum sensing navigation": 0.6707790493965149, "Quantum sensing Position": 0.6625878810882568, "Quantum sensing Timing": 0.6433230638504028, "Quantum sensing": 0.6812365055084229, "Quantum control": 0.6372256278991699 } }, { "id": 3371, "title": "Kinetics of the formation of nano-sized platinum particles in water-in-oil microemulsions", "abstract": "The effect of surfactant type and temperature on the kinetics of the formation of platinum nanoparticles in water-in-oil microemulsions by chemical reduction of ptCl(6)(2-) were examined with time-res...", "citations": 97, "author_count": 8, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3377, "doi": "10.1006/jcis.2001.7747", "umap_coordinates": { "x": 393.340576171875, "y": 134.33245849609375, "z": 205.09967041015625 }, "tsne_coordinates": { "x": 28.400117874145508, "y": 19.994457244873047, "z": 1.6285640001296997 }, "pca_coordinates": { "x": -2.1862971782684326, "y": -0.4797506332397461, "z": -1.2630494832992554 }, "axis_scores": { "Quantum imaging": 0.7071711421012878, "Quantum Life Science Sensing": 0.7227519154548645, "Quantum sensing Detection": 0.6958257555961609, "Quantum sensing Metrology": 0.6811822652816772, "Quantum sensing navigation": 0.6727008819580078, "Quantum sensing Position": 0.679986298084259, "Quantum sensing Timing": 0.7056300640106201, "Quantum sensing": 0.7041395306587219, "Quantum control": 0.6915274858474731 } }, { "id": 3372, "title": "Nonlocal correlations in the star-network configuration", "abstract": "The concept of bilocality was introduced to study the correlations which arise in an entanglement-swapping scenario, where one has two sources which can naturally be taken to be independent. This addi...", "citations": 132, "author_count": 5, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3378, "doi": "10.1103/PhysRevA.90.062109", "umap_coordinates": { "x": 395.408447265625, "y": 136.7799072265625, "z": 208.08453369140625 }, "tsne_coordinates": { "x": -23.34596824645996, "y": -3.66904616355896, "z": 2.3465583324432373 }, "pca_coordinates": { "x": 3.6965861320495605, "y": 1.6901586055755615, "z": -0.639276385307312 }, "axis_scores": { "Quantum imaging": 0.6989556550979614, "Quantum Life Science Sensing": 0.7389536499977112, "Quantum sensing Detection": 0.7180891036987305, "Quantum sensing Metrology": 0.7078529596328735, "Quantum sensing navigation": 0.7340208292007446, "Quantum sensing Position": 0.71364426612854, "Quantum sensing Timing": 0.6819337606430054, "Quantum sensing": 0.7216124534606934, "Quantum control": 0.6856114268302917 } }, { "id": 3373, "title": "DYNAMICS IN CONCENTRATED-SOLUTIONS OF POLY(METHYL METHACRYLATE) BIS(2-ETHYLHEXYL PHTHALATE)", "abstract": "Photon correlation spectroscopy (PCS) and dielectric spectroscopy (DS) are employed to study the dynamics of density fluctuations at temperatures above and below the glass transition temperature, T(g)...", "citations": 17, "author_count": 5, "categories": [ "Polymer Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 3379, "doi": "10.1021/ma00088a011", "umap_coordinates": { "x": 393.3350524902344, "y": 136.03628540039062, "z": 205.97213745117188 }, "tsne_coordinates": { "x": -3.358027935028076, "y": -2.1757118701934814, "z": 34.300540924072266 }, "pca_coordinates": { "x": 0.05228614807128906, "y": 1.0785088539123535, "z": -3.8195295333862305 }, "axis_scores": { "Quantum imaging": 0.6668549180030823, "Quantum Life Science Sensing": 0.6814296245574951, "Quantum sensing Detection": 0.649283230304718, "Quantum sensing Metrology": 0.6406155228614807, "Quantum sensing navigation": 0.6552054286003113, "Quantum sensing Position": 0.6667888164520264, "Quantum sensing Timing": 0.6284106373786926, "Quantum sensing": 0.6587170362472534, "Quantum control": 0.6700202822685242 } }, { "id": 3374, "title": "Atmospheric intensity scintillation of stars .1. Statistical distributions and temporal properties", "abstract": "Stellar intensity scintillation in the optical was extensively studied at the astronomical observatory on La Palma (Canary Islands). Photon-counting detectors and digital signal processors recorded te...", "citations": 96, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3380, "doi": "10.1086/133872", "umap_coordinates": { "x": 395.334228515625, "y": 135.48202514648438, "z": 205.9250946044922 }, "tsne_coordinates": { "x": -11.560656547546387, "y": 10.477025985717773, "z": -40.02236557006836 }, "pca_coordinates": { "x": -1.0402147769927979, "y": 2.0044243335723877, "z": 0.7202762961387634 }, "axis_scores": { "Quantum imaging": 0.7037289142608643, "Quantum Life Science Sensing": 0.7310351133346558, "Quantum sensing Detection": 0.6967383623123169, "Quantum sensing Metrology": 0.6826758980751038, "Quantum sensing navigation": 0.682488739490509, "Quantum sensing Position": 0.6631384491920471, "Quantum sensing Timing": 0.7082836627960205, "Quantum sensing": 0.69941246509552, "Quantum control": 0.663125216960907 } }, { "id": 3375, "title": "High efficiency sandwich structure luminescent solar concentrators based on colloidal quantum dots", "abstract": "Luminescent solar concentrators (LSCs) have received significant attention because of their low cost, large-area and high efficiency sunlight energy harvesting. Colloidal core/shell quantum dots (QDs)...", "citations": 64, "author_count": 6, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3381, "doi": "10.1016/j.nanoen.2019.03.038", "umap_coordinates": { "x": 392.804443359375, "y": 133.3265380859375, "z": 205.82894897460938 }, "tsne_coordinates": { "x": 28.160551071166992, "y": 7.661208152770996, "z": -13.308239936828613 }, "pca_coordinates": { "x": -2.7653894424438477, "y": -3.764503002166748, "z": 0.12536996603012085 }, "axis_scores": { "Quantum imaging": 0.7031129598617554, "Quantum Life Science Sensing": 0.7270500659942627, "Quantum sensing Detection": 0.7060477137565613, "Quantum sensing Metrology": 0.7012515068054199, "Quantum sensing navigation": 0.6965006589889526, "Quantum sensing Position": 0.6975367069244385, "Quantum sensing Timing": 0.6463637948036194, "Quantum sensing": 0.7169978022575378, "Quantum control": 0.6878343820571899 } }, { "id": 3376, "title": "Stability of long-sustained oscillations induced by electron tunneling", "abstract": "Self -oscillations are the result of an efficient mechanism generating periodic motion from a constant power source. In quantum devices, these oscillations may arise due to the interaction between sin...", "citations": 5, "author_count": 13, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3382, "doi": "10.1103/PhysRevResearch.6.013291", "umap_coordinates": { "x": 393.9152526855469, "y": 136.10549926757812, "z": 208.25735473632812 }, "tsne_coordinates": { "x": -10.110650062561035, "y": -10.370038032531738, "z": 19.855165481567383 }, "pca_coordinates": { "x": 3.050309181213379, "y": -1.2071843147277832, "z": -1.9652585983276367 }, "axis_scores": { "Quantum imaging": 0.666021466255188, "Quantum Life Science Sensing": 0.7164953947067261, "Quantum sensing Detection": 0.6779199838638306, "Quantum sensing Metrology": 0.6640257835388184, "Quantum sensing navigation": 0.6945716738700867, "Quantum sensing Position": 0.6571234464645386, "Quantum sensing Timing": 0.661417543888092, "Quantum sensing": 0.6805174350738525, "Quantum control": 0.6776626706123352 } }, { "id": 3377, "title": "Geometric hydrodynamics via Madelung transform", "abstract": "We introduce a geometric framework to study Newton's equations on infinite-dimensional configuration spaces of diffeomorphisms and smooth probability densities. It turns out that several important par...", "citations": 15, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3383, "doi": "10.1073/pnas.1719346115", "umap_coordinates": { "x": 394.7203063964844, "y": 137.54843139648438, "z": 207.58334350585938 }, "tsne_coordinates": { "x": -25.695171356201172, "y": -27.889049530029297, "z": 18.534494400024414 }, "pca_coordinates": { "x": 1.6320710182189941, "y": 2.965872049331665, "z": -0.561058759689331 }, "axis_scores": { "Quantum imaging": 0.7176662087440491, "Quantum Life Science Sensing": 0.6884064674377441, "Quantum sensing Detection": 0.6721087694168091, "Quantum sensing Metrology": 0.6938744187355042, "Quantum sensing navigation": 0.7251851558685303, "Quantum sensing Position": 0.6786808967590332, "Quantum sensing Timing": 0.6893020272254944, "Quantum sensing": 0.7011672258377075, "Quantum control": 0.7029612064361572 } }, { "id": 3378, "title": "Resistive state triggered by vortex entry in YBa2Cu3O7-δ nanostructures", "abstract": "We have realized YBa2Cu3O7-delta nanowires and nano Superconducting Quantum Interference Devices (nanoSQUID). The measured temperature dependence of the wire resistances below the superconducting tran...", "citations": 19, "author_count": 10, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3384, "doi": "10.1016/j.physc.2014.06.002", "umap_coordinates": { "x": 393.8154296875, "y": 135.99427795410156, "z": 207.9202880859375 }, "tsne_coordinates": { "x": -0.6607133150100708, "y": -21.28789710998535, "z": 15.951971054077148 }, "pca_coordinates": { "x": 1.2519793510437012, "y": -1.0912396907806396, "z": -1.4382719993591309 }, "axis_scores": { "Quantum imaging": 0.704613983631134, "Quantum Life Science Sensing": 0.728188157081604, "Quantum sensing Detection": 0.7293201088905334, "Quantum sensing Metrology": 0.6943963170051575, "Quantum sensing navigation": 0.7295839786529541, "Quantum sensing Position": 0.715173602104187, "Quantum sensing Timing": 0.7046921849250793, "Quantum sensing": 0.7175217866897583, "Quantum control": 0.7022204995155334 } }, { "id": 3379, "title": "Inter-laboratory differences in the apparent quantum yield for the photochemical production of dissolved inorganic carbon in inland waters and implications for photochemical rate modeling", "abstract": "Solar radiation initiates photochemical oxidation of dissolved organic carbon (DOC) to dissolved inorganic carbon (DIC) in inland waters, contributing to their carbon dioxide emissions to the atmosphe...", "citations": 7, "author_count": 10, "categories": [ "Marine & Freshwater Biology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3385, "doi": "10.1002/lom3.10489", "umap_coordinates": { "x": 393.49700927734375, "y": 136.3846435546875, "z": 204.15737915039062 }, "tsne_coordinates": { "x": 13.627432823181152, "y": 22.514507293701172, "z": 19.04815101623535 }, "pca_coordinates": { "x": -1.6761279106140137, "y": 1.2801333665847778, "z": -0.9734840393066406 }, "axis_scores": { "Quantum imaging": 0.6920183897018433, "Quantum Life Science Sensing": 0.7234377264976501, "Quantum sensing Detection": 0.6710485816001892, "Quantum sensing Metrology": 0.6753482222557068, "Quantum sensing navigation": 0.6610859632492065, "Quantum sensing Position": 0.6470724940299988, "Quantum sensing Timing": 0.641187310218811, "Quantum sensing": 0.685693085193634, "Quantum control": 0.6504942774772644 } }, { "id": 3380, "title": "Diurnal measurements of Fv/Fm used to improve productivity estimates in macroalgae", "abstract": "The ratio of variable fluorescence to maximal fluorescence (F-v/F-m) was measured during a night and day cycle in five different macroalgae growing in the littoral zone at the Swedish west coast; the ...", "citations": 34, "author_count": 2, "categories": [ "Marine & Freshwater Biology" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3386, "doi": "10.1007/s002270050239", "umap_coordinates": { "x": 393.909423828125, "y": 136.1689910888672, "z": 203.90179443359375 }, "tsne_coordinates": { "x": 21.171789169311523, "y": 30.375041961669922, "z": 10.166820526123047 }, "pca_coordinates": { "x": -5.267301559448242, "y": 1.0856695175170898, "z": -1.4789259433746338 }, "axis_scores": { "Quantum imaging": 0.6286618709564209, "Quantum Life Science Sensing": 0.7029861807823181, "Quantum sensing Detection": 0.6260998249053955, "Quantum sensing Metrology": 0.6623483300209045, "Quantum sensing navigation": 0.6309685111045837, "Quantum sensing Position": 0.6389517188072205, "Quantum sensing Timing": 0.6300343871116638, "Quantum sensing": 0.6500024199485779, "Quantum control": 0.6394038796424866 } }, { "id": 3381, "title": "Nanoelectromechanics of superconducting weak links", "abstract": "Nanoelectromechanical effects in superconducting weak links are considered. Three different superconducting devices are studied: (i) a single-Cooper-pair transistor, (ii) a transparent SNS junction, a...", "citations": 8, "author_count": 5, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3387, "doi": "10.1063/1.3699628", "umap_coordinates": { "x": 393.569091796875, "y": 135.7091064453125, "z": 208.28077697753906 }, "tsne_coordinates": { "x": 17.03899574279785, "y": -36.18788146972656, "z": 11.275071144104004 }, "pca_coordinates": { "x": 3.734839916229248, "y": -0.7752208709716797, "z": -1.2662975788116455 }, "axis_scores": { "Quantum imaging": 0.7104817628860474, "Quantum Life Science Sensing": 0.752356767654419, "Quantum sensing Detection": 0.7239840030670166, "Quantum sensing Metrology": 0.7171626687049866, "Quantum sensing navigation": 0.7458369731903076, "Quantum sensing Position": 0.7222904562950134, "Quantum sensing Timing": 0.6914153695106506, "Quantum sensing": 0.7378329038619995, "Quantum control": 0.7139771580696106 } }, { "id": 3382, "title": "NUCLEAR-FUSION AND STICKING FROM RESONANT STATES OF DT-MU", "abstract": "Fusion rates and sticking fractions for s-symmetry resonant states that cluster below the (tmu)2s + d threshold in the molecular continuum of dtmu are analyzed. The fusion rates for some of these stat...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 3388, "doi": "10.1007/BF01027963", "umap_coordinates": { "x": 393.7883605957031, "y": 137.46266174316406, "z": 206.8806610107422 }, "tsne_coordinates": { "x": -2.5133259296417236, "y": -1.3532618284225464, "z": -3.2863574028015137 }, "pca_coordinates": { "x": 1.5398449897766113, "y": 2.6595332622528076, "z": -1.7300260066986084 }, "axis_scores": { "Quantum imaging": 0.6600161194801331, "Quantum Life Science Sensing": 0.6826041340827942, "Quantum sensing Detection": 0.6799629330635071, "Quantum sensing Metrology": 0.661098301410675, "Quantum sensing navigation": 0.6807445883750916, "Quantum sensing Position": 0.6766877770423889, "Quantum sensing Timing": 0.6959538459777832, "Quantum sensing": 0.6842768788337708, "Quantum control": 0.666283130645752 } }, { "id": 3383, "title": "RECOVERY OF PHOTOSYNTHESIS IN 1-YEAR-OLD NEEDLES OF UNFERTILIZED AND FERTILIZED NORWAY SPRUCE (PICEA-ABIES (L) KARST) DURING SPRING", "abstract": "Photosynthetic O-2 evolution and chlorophyll a fluorescence were measured in 1-year-old needles of unfertilized and fertilized trees of Norway spruce (Picea abies (L.) Karst.) during recovery of photo...", "citations": 37, "author_count": 3, "categories": [ "Forestry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3389, "doi": "10.1093/treephys/15.3.151", "umap_coordinates": { "x": 394.1656799316406, "y": 136.2799530029297, "z": 203.80642700195312 }, "tsne_coordinates": { "x": 9.737593650817871, "y": 37.45347213745117, "z": 9.642187118530273 }, "pca_coordinates": { "x": -0.8321532607078552, "y": 1.1581120491027832, "z": -0.1712682843208313 }, "axis_scores": { "Quantum imaging": 0.6446473002433777, "Quantum Life Science Sensing": 0.7069159150123596, "Quantum sensing Detection": 0.6457539200782776, "Quantum sensing Metrology": 0.6384128332138062, "Quantum sensing navigation": 0.6561580896377563, "Quantum sensing Position": 0.6282833218574524, "Quantum sensing Timing": 0.6627358198165894, "Quantum sensing": 0.6609181761741638, "Quantum control": 0.63189697265625 } }, { "id": 3384, "title": "Quantum computation based on capture-and-release dynamics", "abstract": "High-fidelity and decoherence-insensitive quantum gates are essential for achieving universal quantum computing. In quantum information processing, decoherence arising from excited states significantl...", "citations": 2, "author_count": 8, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3390, "doi": "10.1103/PhysRevA.111.012604", "umap_coordinates": { "x": 394.6023254394531, "y": 137.0857696533203, "z": 207.3134765625 }, "tsne_coordinates": { "x": -19.922832489013672, "y": -25.479642868041992, "z": -0.4748304486274719 }, "pca_coordinates": { "x": 5.109973907470703, "y": 0.5956299304962158, "z": -0.22122183442115784 }, "axis_scores": { "Quantum imaging": 0.7610281705856323, "Quantum Life Science Sensing": 0.7639501690864563, "Quantum sensing Detection": 0.7873551845550537, "Quantum sensing Metrology": 0.746351420879364, "Quantum sensing navigation": 0.7533819079399109, "Quantum sensing Position": 0.726885974407196, "Quantum sensing Timing": 0.7448953986167908, "Quantum sensing": 0.7944550514221191, "Quantum control": 0.7831845879554749 } }, { "id": 3385, "title": "The Beginning of HCN Polymerization: Iminoacetonitrile Formation and Its Implications in Astrochemical Environments", "abstract": "Hydrogen cyanide (HCN) is known to react with complex organic materials and is a key reagent in the formation of various prebiotic building blocks, including amino acids and nucleobases. Here, we expl...", "citations": 26, "author_count": 3, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3391, "doi": "10.1021/acsearthspacechem.1c00195", "umap_coordinates": { "x": 393.2139892578125, "y": 136.96612548828125, "z": 204.87762451171875 }, "tsne_coordinates": { "x": -0.6615053415298462, "y": 21.982887268066406, "z": 18.982223510742188 }, "pca_coordinates": { "x": -2.862377405166626, "y": 2.318363666534424, "z": -2.3288235664367676 }, "axis_scores": { "Quantum imaging": 0.652128279209137, "Quantum Life Science Sensing": 0.675576388835907, "Quantum sensing Detection": 0.6278681755065918, "Quantum sensing Metrology": 0.6242755651473999, "Quantum sensing navigation": 0.6497607231140137, "Quantum sensing Position": 0.6466274857521057, "Quantum sensing Timing": 0.6452547311782837, "Quantum sensing": 0.6327322125434875, "Quantum control": 0.6234959959983826 } }, { "id": 3386, "title": "Digital versus screen-film mammography:: A retrospective comparison in a population-based screening program", "abstract": "Background: Digital radiography has several advantages over screen-film radiography in data storage and retrieval, making it an attractive alternative to screen-film radiography in screening mammograp...", "citations": 58, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3392, "doi": "10.1016/j.ejrad.2007.02.030", "umap_coordinates": { "x": 395.3273010253906, "y": 132.9822998046875, "z": 204.86410522460938 }, "tsne_coordinates": { "x": -3.6972575187683105, "y": 30.585691452026367, "z": -23.00510597229004 }, "pca_coordinates": { "x": -3.7928061485290527, "y": 2.8354835510253906, "z": 0.1186947226524353 }, "axis_scores": { "Quantum imaging": 0.6813360452651978, "Quantum Life Science Sensing": 0.6720179915428162, "Quantum sensing Detection": 0.6652175784111023, "Quantum sensing Metrology": 0.6323156356811523, "Quantum sensing navigation": 0.6447964310646057, "Quantum sensing Position": 0.6482978463172913, "Quantum sensing Timing": 0.6448491215705872, "Quantum sensing": 0.661007821559906, "Quantum control": 0.6453403830528259 } }, { "id": 3387, "title": "A generalization of the quantum Rabi model: exact solution and spectral structure", "abstract": "We consider a generalization of the quantum Rabi model where the two-level system and the single-mode cavity oscillator are coupled by an additional Stark-like term. By adapting a method recently intr...", "citations": 56, "author_count": 3, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3393, "doi": "10.1088/1751-8121/aa785a", "umap_coordinates": { "x": 394.4079895019531, "y": 137.43399047851562, "z": 207.15821838378906 }, "tsne_coordinates": { "x": -39.631961822509766, "y": -8.855626106262207, "z": 4.34636926651001 }, "pca_coordinates": { "x": 2.6047024726867676, "y": 2.5475471019744873, "z": -1.1832091808319092 }, "axis_scores": { "Quantum imaging": 0.7051023244857788, "Quantum Life Science Sensing": 0.7042953372001648, "Quantum sensing Detection": 0.6814344525337219, "Quantum sensing Metrology": 0.6980891227722168, "Quantum sensing navigation": 0.7054291367530823, "Quantum sensing Position": 0.6780438423156738, "Quantum sensing Timing": 0.6732386946678162, "Quantum sensing": 0.6995399594306946, "Quantum control": 0.6790413856506348 } }, { "id": 3388, "title": "Thermally driven ballistic rectifier", "abstract": "The response of electric devices to an applied thermal gradient has, so far, been studied almost exclusively in two-terminal devices. Here we present measurements of the response to a thermal bias of ...", "citations": 29, "author_count": 5, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3394, "doi": "10.1103/PhysRevB.85.205309", "umap_coordinates": { "x": 394.6175537109375, "y": 135.8333740234375, "z": 208.98538208007812 }, "tsne_coordinates": { "x": -6.37741231918335, "y": -32.282493591308594, "z": 0.8593982458114624 }, "pca_coordinates": { "x": 4.478334903717041, "y": -1.9489307403564453, "z": -0.30227360129356384 }, "axis_scores": { "Quantum imaging": 0.692985475063324, "Quantum Life Science Sensing": 0.7236871123313904, "Quantum sensing Detection": 0.7126795053482056, "Quantum sensing Metrology": 0.7096289992332458, "Quantum sensing navigation": 0.7093090415000916, "Quantum sensing Position": 0.6690569519996643, "Quantum sensing Timing": 0.6779996156692505, "Quantum sensing": 0.7249405384063721, "Quantum control": 0.6994273662567139 } }, { "id": 3389, "title": "Precision Lifetime Measurements of He- in a Cryogenic Electrostatic Ion-Beam Trap", "abstract": "We have developed a small purely electrostatic ion-beam trap which may be operated in thermal equilibrium at precisely controlled temperatures down to 10 K. Thus, we avoid magnetic field induced mixin...", "citations": 54, "author_count": 13, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3395, "doi": "10.1103/PhysRevLett.103.213002", "umap_coordinates": { "x": 394.8842468261719, "y": 135.82107543945312, "z": 208.04293823242188 }, "tsne_coordinates": { "x": -7.731688976287842, "y": -13.694663047790527, "z": -4.363285064697266 }, "pca_coordinates": { "x": 3.082246780395508, "y": -0.7796382904052734, "z": -0.23522725701332092 }, "axis_scores": { "Quantum imaging": 0.7053137421607971, "Quantum Life Science Sensing": 0.7525867819786072, "Quantum sensing Detection": 0.7111434936523438, "Quantum sensing Metrology": 0.7049299478530884, "Quantum sensing navigation": 0.7178208827972412, "Quantum sensing Position": 0.726826548576355, "Quantum sensing Timing": 0.7132916450500488, "Quantum sensing": 0.7198810577392578, "Quantum control": 0.6831488609313965 } }, { "id": 3390, "title": "Few-body effects in nuclear halos", "abstract": "Nuclear halos are spatially extended quantum states with large cluster components. Characteristic observable properties of two- and three-body halo structures are discussed in general terms suited for...", "citations": 23, "author_count": 3, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3396, "doi": "10.1016/S0375-9474(00)00518-2", "umap_coordinates": { "x": 394.1781921386719, "y": 136.22354125976562, "z": 206.0505828857422 }, "tsne_coordinates": { "x": -4.828324794769287, "y": 14.378662109375, "z": 10.940093994140625 }, "pca_coordinates": { "x": -0.7623782753944397, "y": 2.677500009536743, "z": -1.412294864654541 }, "axis_scores": { "Quantum imaging": 0.6955465078353882, "Quantum Life Science Sensing": 0.6971275210380554, "Quantum sensing Detection": 0.68552565574646, "Quantum sensing Metrology": 0.6572598218917847, "Quantum sensing navigation": 0.680008053779602, "Quantum sensing Position": 0.6707549691200256, "Quantum sensing Timing": 0.6697620153427124, "Quantum sensing": 0.6903599500656128, "Quantum control": 0.6767605543136597 } }, { "id": 3391, "title": "First-principles calculations of anharmonic and deuteration effects on the photophysical properties of polyacenes and porphyrinoids", "abstract": "A new method for calculating internal conversion rate constants (k_(IC)), including anharmonic effects and using the Lagrangian multiplier technique, is proposed. The deuteration effect on k_(IC) is i...", "citations": 49, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3397, "doi": "10.1039/d0cp03231j", "umap_coordinates": { "x": 392.0452880859375, "y": 136.08668518066406, "z": 205.84249877929688 }, "tsne_coordinates": { "x": 2.178569793701172, "y": 5.041455268859863, "z": -0.47614380717277527 }, "pca_coordinates": { "x": -0.6893633008003235, "y": -2.0469250679016113, "z": -2.466181516647339 }, "axis_scores": { "Quantum imaging": 0.6802062392234802, "Quantum Life Science Sensing": 0.7119089365005493, "Quantum sensing Detection": 0.6751397848129272, "Quantum sensing Metrology": 0.6515215039253235, "Quantum sensing navigation": 0.6435804963111877, "Quantum sensing Position": 0.6456138491630554, "Quantum sensing Timing": 0.6472429037094116, "Quantum sensing": 0.6872415542602539, "Quantum control": 0.6720436811447144 } }, { "id": 3392, "title": "Remote sensing of a levitated superconductor with a flux-tunable microwave cavity", "abstract": "We present a cavity-electromechanical system comprising a superconducting quantum interference device which is embedded in a microwave resonator and coupled via a pickup loop to a 6-mu g magnetically ...", "citations": 5, "author_count": 14, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3398, "doi": "10.1103/PhysRevApplied.22.014078", "umap_coordinates": { "x": 394.6778869628906, "y": 135.47996520996094, "z": 207.876953125 }, "tsne_coordinates": { "x": -15.067122459411621, "y": -36.07790756225586, "z": 20.624094009399414 }, "pca_coordinates": { "x": 2.5170063972473145, "y": -0.49590206146240234, "z": 0.7822558283805847 }, "axis_scores": { "Quantum imaging": 0.6949116587638855, "Quantum Life Science Sensing": 0.7268108129501343, "Quantum sensing Detection": 0.7177631258964539, "Quantum sensing Metrology": 0.724582314491272, "Quantum sensing navigation": 0.7139041423797607, "Quantum sensing Position": 0.6987704634666443, "Quantum sensing Timing": 0.6667628288269043, "Quantum sensing": 0.7266185879707336, "Quantum control": 0.683961808681488 } }, { "id": 3393, "title": "Giant Rydberg excitons in Cu2O probed by photoluminescence excitation spectroscopy", "abstract": "Rydberg excitons are, with their ultrastrong mutual interactions, giant optical nonlinearities, and very high sensitivity to external fields, promising for applications in quantum sensing and nonlinea...", "citations": 43, "author_count": 11, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3399, "doi": "10.1103/PhysRevB.104.245206", "umap_coordinates": { "x": 394.2298889160156, "y": 135.39974975585938, "z": 209.03219604492188 }, "tsne_coordinates": { "x": 3.407287836074829, "y": -39.96560287475586, "z": 4.772900104522705 }, "pca_coordinates": { "x": 3.4861063957214355, "y": -2.6772632598876953, "z": -0.367021381855011 }, "axis_scores": { "Quantum imaging": 0.7055824995040894, "Quantum Life Science Sensing": 0.7260948419570923, "Quantum sensing Detection": 0.7210330963134766, "Quantum sensing Metrology": 0.6972836852073669, "Quantum sensing navigation": 0.700025737285614, "Quantum sensing Position": 0.6676756739616394, "Quantum sensing Timing": 0.6826567053794861, "Quantum sensing": 0.7267563343048096, "Quantum control": 0.6972017884254456 } }, { "id": 3394, "title": "Rejection-based sampling of inelastic neutron scattering", "abstract": "Distributions of inelastically scattered neutrons can be quantum dynamically described by a scattering kernel. We present an accurate and computationally efficient rejection method for sampling a give...", "citations": 22, "author_count": 5, "categories": [ "Computer Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3400, "doi": "10.1016/j.jcp.2018.11.043", "umap_coordinates": { "x": 394.2257995605469, "y": 134.1328887939453, "z": 205.27682495117188 }, "tsne_coordinates": { "x": -2.1410555839538574, "y": 21.62541961669922, "z": -0.5251879692077637 }, "pca_coordinates": { "x": -2.1485443115234375, "y": 1.2454583644866943, "z": 0.5771574378013611 }, "axis_scores": { "Quantum imaging": 0.7181093096733093, "Quantum Life Science Sensing": 0.7213835716247559, "Quantum sensing Detection": 0.7172192931175232, "Quantum sensing Metrology": 0.6896029710769653, "Quantum sensing navigation": 0.7096285223960876, "Quantum sensing Position": 0.6802429556846619, "Quantum sensing Timing": 0.6978372931480408, "Quantum sensing": 0.7224882245063782, "Quantum control": 0.6895419955253601 } }, { "id": 3395, "title": "Nonequilibrium Wilson loops in N=4 super Yang-Mills theory", "abstract": "We consider rectangular Wilson loops in certain nonequilibrium quantum states in N = 4 super Yang-Mills theory at weak coupling, prepared with a quantum quench. We find that in the ladder approximatio...", "citations": 1, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3401, "doi": "10.1103/PhysRevD.88.105022", "umap_coordinates": { "x": 394.3956604003906, "y": 136.63714599609375, "z": 208.5220184326172 }, "tsne_coordinates": { "x": -10.107813835144043, "y": -29.300771713256836, "z": 8.169439315795898 }, "pca_coordinates": { "x": 4.908047199249268, "y": 0.11151933670043945, "z": -0.7008320689201355 }, "axis_scores": { "Quantum imaging": 0.6801645159721375, "Quantum Life Science Sensing": 0.6910768747329712, "Quantum sensing Detection": 0.6783908009529114, "Quantum sensing Metrology": 0.6580821871757507, "Quantum sensing navigation": 0.7122470140457153, "Quantum sensing Position": 0.664139986038208, "Quantum sensing Timing": 0.6914576292037964, "Quantum sensing": 0.6814066171646118, "Quantum control": 0.6807178258895874 } }, { "id": 3396, "title": "Genuine Multipartite Entanglement Detection with Imperfect Measurements: Concept and Experiment", "abstract": "Standard procedures for entanglement detection assume that experimenters can exactly implement specific quantum measurements. Here, we depart from such idealizations and investigate, in both theory an...", "citations": 15, "author_count": 7, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3402, "doi": "10.1103/PhysRevLett.133.150201", "umap_coordinates": { "x": 396.0911865234375, "y": 136.20115661621094, "z": 207.37493896484375 }, "tsne_coordinates": { "x": -19.80095672607422, "y": -2.922741651535034, "z": -0.84375 }, "pca_coordinates": { "x": 3.9658350944519043, "y": 2.220916748046875, "z": 4.201468467712402 }, "axis_scores": { "Quantum imaging": 0.7819453477859497, "Quantum Life Science Sensing": 0.7781880497932434, "Quantum sensing Detection": 0.8109830617904663, "Quantum sensing Metrology": 0.7903954386711121, "Quantum sensing navigation": 0.7702669501304626, "Quantum sensing Position": 0.7613966464996338, "Quantum sensing Timing": 0.7599175572395325, "Quantum sensing": 0.8020312190055847, "Quantum control": 0.7385295629501343 } }, { "id": 3397, "title": "Lateral positioning and vertical stacking of InAs islands on GaAs substrates: Designing quantum transport devices", "abstract": "Some prospects and constraints for coupling strained islands into strongly modulated one-dimensional electronic systems and using them as quantum transport devices are assessed. Two device structures:...", "citations": 12, "author_count": 2, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3403, "doi": "10.1143/JJAP.36.4123", "umap_coordinates": { "x": 392.6130065917969, "y": 133.85545349121094, "z": 207.60946655273438 }, "tsne_coordinates": { "x": 34.03500747680664, "y": -8.582193374633789, "z": 9.735831260681152 }, "pca_coordinates": { "x": 0.20171582698822021, "y": -1.710688591003418, "z": 0.723362386226654 }, "axis_scores": { "Quantum imaging": 0.7031996250152588, "Quantum Life Science Sensing": 0.6819347739219666, "Quantum sensing Detection": 0.6857315897941589, "Quantum sensing Metrology": 0.6966225504875183, "Quantum sensing navigation": 0.7441224455833435, "Quantum sensing Position": 0.7522459030151367, "Quantum sensing Timing": 0.7292810678482056, "Quantum sensing": 0.71184903383255, "Quantum control": 0.7089825868606567 } }, { "id": 3398, "title": "Collective Strong Coupling Modifies Aggregation and Solvation", "abstract": "Intermolecular (Coulombic) interactions are pivotal for aggregation, solvation, and crystallization. We demonstrate that the collective strong coupling of several molecules to a single optical mode re...", "citations": 25, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3404, "doi": "10.1021/acs.jpclett.3c03506", "umap_coordinates": { "x": 392.96868896484375, "y": 136.44717407226562, "z": 206.05624389648438 }, "tsne_coordinates": { "x": 4.5539231300354, "y": -11.446208953857422, "z": -12.436041831970215 }, "pca_coordinates": { "x": -0.4418056607246399, "y": -0.29281187057495117, "z": -3.809577465057373 }, "axis_scores": { "Quantum imaging": 0.7056654095649719, "Quantum Life Science Sensing": 0.7225161790847778, "Quantum sensing Detection": 0.693659782409668, "Quantum sensing Metrology": 0.6625257730484009, "Quantum sensing navigation": 0.6933484673500061, "Quantum sensing Position": 0.6857274770736694, "Quantum sensing Timing": 0.6702691912651062, "Quantum sensing": 0.7156285047531128, "Quantum control": 0.7200230360031128 } }, { "id": 3399, "title": "A FAST UNCOOLED INFRARED NANOBOLOMETER FEATURING A HYBRID-PLASMONIC CAVITY FOR ENHANCED OPTICAL RESPONSIVITY", "abstract": "We demonstrate the first uncooled single-nanowire-based infrared bolometer to detect sub-mW optical signals up to MHz frequencies. The bolometer consists of a Pt nanowire on a suspended silicon hybrid...", "citations": 1, "author_count": 6, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3405, "doi": null, "umap_coordinates": { "x": 391.8470764160156, "y": 139.6269989013672, "z": 209.5537567138672 }, "tsne_coordinates": { "x": -3.6761326789855957, "y": 49.11750411987305, "z": -5.424931049346924 }, "pca_coordinates": { "x": -2.4286997318267822, "y": 2.4671742916107178, "z": -1.039387583732605 }, "axis_scores": { "Quantum imaging": 0.7186610698699951, "Quantum Life Science Sensing": 0.7343668937683105, "Quantum sensing Detection": 0.7253642082214355, "Quantum sensing Metrology": 0.7052901387214661, "Quantum sensing navigation": 0.7204145789146423, "Quantum sensing Position": 0.685698926448822, "Quantum sensing Timing": 0.6882049441337585, "Quantum sensing": 0.7335272431373596, "Quantum control": 0.7149227857589722 } }, { "id": 3400, "title": "Scattering of coherent pulses on a two-level system-single-photon generation", "abstract": "In this paper, we consider a two-level system (TLS) coupled to a one-dimensional continuum of bosonic modes in a transmission line (TL). Using the master equation approach, a method for determining th...", "citations": 29, "author_count": 3, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3406, "doi": "10.1088/1367-2630/16/5/055018", "umap_coordinates": { "x": 395.0495910644531, "y": 134.05255126953125, "z": 207.60012817382812 }, "tsne_coordinates": { "x": -8.499512672424316, "y": -12.813848495483398, "z": -19.814916610717773 }, "pca_coordinates": { "x": 1.1260228157043457, "y": 0.449701189994812, "z": 3.3682861328125 }, "axis_scores": { "Quantum imaging": 0.7474516034126282, "Quantum Life Science Sensing": 0.7360672950744629, "Quantum sensing Detection": 0.7428913712501526, "Quantum sensing Metrology": 0.7197825312614441, "Quantum sensing navigation": 0.7113738656044006, "Quantum sensing Position": 0.6991046071052551, "Quantum sensing Timing": 0.7248435616493225, "Quantum sensing": 0.7459940910339355, "Quantum control": 0.7071632146835327 } }, { "id": 3401, "title": "Stacked Josephson junction SQUID", "abstract": "Operation of a superconducting quantum interference device (SQUID) made of stacked Josephson junction (SJJs) is analyzed numerically for a variety of junction parameters. Due to a magnetic coupling Of...", "citations": 16, "author_count": 2, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3407, "doi": "10.1016/S0921-4534(01)01175-3", "umap_coordinates": { "x": 393.8160705566406, "y": 134.92967224121094, "z": 206.75640869140625 }, "tsne_coordinates": { "x": -9.447823524475098, "y": 5.613177299499512, "z": 5.496229648590088 }, "pca_coordinates": { "x": -0.3038855791091919, "y": -1.3319103717803955, "z": -0.3582618236541748 }, "axis_scores": { "Quantum imaging": 0.6989469528198242, "Quantum Life Science Sensing": 0.725858211517334, "Quantum sensing Detection": 0.6870861649513245, "Quantum sensing Metrology": 0.7024713158607483, "Quantum sensing navigation": 0.7135593295097351, "Quantum sensing Position": 0.7047533988952637, "Quantum sensing Timing": 0.6664688587188721, "Quantum sensing": 0.7106759548187256, "Quantum control": 0.6899158358573914 } }, { "id": 3402, "title": "Molecular quantum theory: Separable electronuclear wave functions and vibronic states - A generalized diabatic approach", "abstract": "The linear superposition principle is used to represent chemical and physical processes. A quantum state representation is obtained for model molecular systems. An exact Hamiltonian is first introduce...", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3408, "doi": "10.1002/qua.20035", "umap_coordinates": { "x": 393.92864990234375, "y": 137.31094360351562, "z": 206.24607849121094 }, "tsne_coordinates": { "x": -16.436851501464844, "y": 14.27640438079834, "z": 30.1079158782959 }, "pca_coordinates": { "x": 1.0379819869995117, "y": 0.49436748027801514, "z": -2.6566851139068604 }, "axis_scores": { "Quantum imaging": 0.7372241020202637, "Quantum Life Science Sensing": 0.7216134667396545, "Quantum sensing Detection": 0.7241409420967102, "Quantum sensing Metrology": 0.7104125618934631, "Quantum sensing navigation": 0.7281477451324463, "Quantum sensing Position": 0.6842649579048157, "Quantum sensing Timing": 0.676562488079071, "Quantum sensing": 0.7440255284309387, "Quantum control": 0.733947217464447 } }, { "id": 3403, "title": "Measurement and control of a superconducting quantum processor with a fully integrated radio-frequency system on a chip", "abstract": "We describe a digital microwave platform called Presto, designed for measurement and control of multiple quantum bits (qubits) and based on the third-generation radio-frequency system on a chip. Prest...", "citations": 27, "author_count": 12, "categories": [ "Instruments & Instrumentation" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3409, "doi": "10.1063/5.0101398", "umap_coordinates": { "x": 395.1407165527344, "y": 135.3052978515625, "z": 207.0509033203125 }, "tsne_coordinates": { "x": -35.57256317138672, "y": -11.631269454956055, "z": -10.839811325073242 }, "pca_coordinates": { "x": 2.407996654510498, "y": 1.3529586791992188, "z": 3.290102005004883 }, "axis_scores": { "Quantum imaging": 0.7486129999160767, "Quantum Life Science Sensing": 0.7434803247451782, "Quantum sensing Detection": 0.7565158605575562, "Quantum sensing Metrology": 0.7618564963340759, "Quantum sensing navigation": 0.7466105222702026, "Quantum sensing Position": 0.7184285521507263, "Quantum sensing Timing": 0.7356022596359253, "Quantum sensing": 0.7670468091964722, "Quantum control": 0.7390021681785583 } }, { "id": 3404, "title": "Measurement of linewidths and permanent electric dipole moment change of the Ce 4f-5d transition in Y2SiO5 for qubit readout scheme in rare-earth ion based quantum computing", "abstract": "In this work the inhomogeneous (zero-phonon line) and homogeneous linewidths and the permanent electric dipole moment change (averaged value of all dipole orientations) for the Ce 4f-5d transition in ...", "citations": 24, "author_count": 12, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3410, "doi": "10.1103/PhysRevB.87.184205", "umap_coordinates": { "x": 393.9190368652344, "y": 136.08984375, "z": 207.93077087402344 }, "tsne_coordinates": { "x": -25.128021240234375, "y": -17.741273880004883, "z": -0.8530153632164001 }, "pca_coordinates": { "x": 1.8697080612182617, "y": -0.5617775917053223, "z": -0.7294769287109375 }, "axis_scores": { "Quantum imaging": 0.7262106537818909, "Quantum Life Science Sensing": 0.7460228204727173, "Quantum sensing Detection": 0.7260463237762451, "Quantum sensing Metrology": 0.7312601804733276, "Quantum sensing navigation": 0.7229807376861572, "Quantum sensing Position": 0.7178718447685242, "Quantum sensing Timing": 0.7362372279167175, "Quantum sensing": 0.7367478609085083, "Quantum control": 0.7076040506362915 } }, { "id": 3405, "title": "A 275-370 GHz receiver employing novel probe structure", "abstract": "We present the results of the development of a 275-370 GHz, fixed-tuned double sideband (DSB) receiver based on superconductor-insulator-superconductor (SIS) junction mixer. The mixer block uses a ful...", "citations": 12, "author_count": 6, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3411, "doi": "10.1007/s10762-005-5659-0", "umap_coordinates": { "x": 394.84381103515625, "y": 134.7016143798828, "z": 206.21580505371094 }, "tsne_coordinates": { "x": -23.731237411499023, "y": 17.972881317138672, "z": 0.4730183482170105 }, "pca_coordinates": { "x": -1.842031717300415, "y": 2.5457406044006348, "z": 2.326028823852539 }, "axis_scores": { "Quantum imaging": 0.6704772114753723, "Quantum Life Science Sensing": 0.6913775205612183, "Quantum sensing Detection": 0.6719092130661011, "Quantum sensing Metrology": 0.670873761177063, "Quantum sensing navigation": 0.6904783844947815, "Quantum sensing Position": 0.6656970381736755, "Quantum sensing Timing": 0.6577956676483154, "Quantum sensing": 0.6802908778190613, "Quantum control": 0.6433571577072144 } }, { "id": 3406, "title": "A model of adaptive decision-making from representation of information environment by quantum fields", "abstract": "We present the mathematical model of decisionmaking (DM) of agents acting in a complex and uncertain environment (combining huge variety of economical, financial, behavioural and geopolitical factors)...", "citations": 12, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3412, "doi": "10.1098/rsta.2017.0162", "umap_coordinates": { "x": 395.1390686035156, "y": 137.37791442871094, "z": 205.81381225585938 }, "tsne_coordinates": { "x": -28.52593994140625, "y": 11.056166648864746, "z": 14.0545072555542 }, "pca_coordinates": { "x": 1.271711826324463, "y": 3.6629629135131836, "z": -1.2301783561706543 }, "axis_scores": { "Quantum imaging": 0.7622553110122681, "Quantum Life Science Sensing": 0.7738494277000427, "Quantum sensing Detection": 0.7701413631439209, "Quantum sensing Metrology": 0.7447759509086609, "Quantum sensing navigation": 0.7790549993515015, "Quantum sensing Position": 0.7450733780860901, "Quantum sensing Timing": 0.725385308265686, "Quantum sensing": 0.7833503484725952, "Quantum control": 0.7708241939544678 } }, { "id": 3407, "title": "Physical evaluation of a prototype for the sectra microdose mammography system", "abstract": "The Sectra Microdose mammography system is the first photon counting digital mammography detector system in clinical test. We will discuss fundamental features of the new direct photon counting techni...", "citations": 1, "author_count": 8, "categories": [ "Computer Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3413, "doi": null, "umap_coordinates": { "x": 391.67303466796875, "y": 138.99647521972656, "z": 209.48641967773438 }, "tsne_coordinates": { "x": -1.1346137523651123, "y": 37.309757232666016, "z": -8.131696701049805 }, "pca_coordinates": { "x": -2.5527126789093018, "y": 5.271337509155273, "z": 0.6359434723854065 }, "axis_scores": { "Quantum imaging": 0.6986860632896423, "Quantum Life Science Sensing": 0.7024288773536682, "Quantum sensing Detection": 0.6889548301696777, "Quantum sensing Metrology": 0.6923238635063171, "Quantum sensing navigation": 0.66179358959198, "Quantum sensing Position": 0.6902220845222473, "Quantum sensing Timing": 0.6474381685256958, "Quantum sensing": 0.6943095326423645, "Quantum control": 0.6495250463485718 } }, { "id": 3408, "title": "Spin-relaxation times exceeding seconds for color centers with strong spin-orbit coupling in SiC", "abstract": "Spin-active color centers in solids show good performance for quantum technologies. Several transition-metal defects in SiC offer compatibility with telecom and semiconductor industries. However, whet...", "citations": 20, "author_count": 10, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3414, "doi": "10.1088/1367-2630/abbf23", "umap_coordinates": { "x": 393.7458190917969, "y": 136.2589569091797, "z": 206.9622039794922 }, "tsne_coordinates": { "x": 6.2977728843688965, "y": -9.774983406066895, "z": 33.48534393310547 }, "pca_coordinates": { "x": 0.12890315055847168, "y": 1.8153533935546875, "z": -1.1114060878753662 }, "axis_scores": { "Quantum imaging": 0.6647090315818787, "Quantum Life Science Sensing": 0.6724833846092224, "Quantum sensing Detection": 0.6460030674934387, "Quantum sensing Metrology": 0.6433095932006836, "Quantum sensing navigation": 0.6474004983901978, "Quantum sensing Position": 0.624576210975647, "Quantum sensing Timing": 0.7005009055137634, "Quantum sensing": 0.6675184369087219, "Quantum control": 0.6467444896697998 } }, { "id": 3409, "title": "Quantum states of p-band bosons in optical lattices", "abstract": "We study a gas of repulsively interacting bosons in the first excited band of an optical lattice. We explore this p-band physics both within the framework of a standard mean-field theory as well as wi...", "citations": 31, "author_count": 4, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3415, "doi": "10.1103/PhysRevA.81.023605", "umap_coordinates": { "x": 395.0576477050781, "y": 135.73733520507812, "z": 208.7018585205078 }, "tsne_coordinates": { "x": -7.441552639007568, "y": -16.434778213500977, "z": 8.129228591918945 }, "pca_coordinates": { "x": 4.9088873863220215, "y": -2.2334694862365723, "z": 0.664099395275116 }, "axis_scores": { "Quantum imaging": 0.7516003251075745, "Quantum Life Science Sensing": 0.7380300760269165, "Quantum sensing Detection": 0.7541782855987549, "Quantum sensing Metrology": 0.7394973635673523, "Quantum sensing navigation": 0.7552622556686401, "Quantum sensing Position": 0.7580633163452148, "Quantum sensing Timing": 0.7261918187141418, "Quantum sensing": 0.7643495798110962, "Quantum control": 0.7236825227737427 } }, { "id": 3410, "title": "Air-stable organic-based semiconducting room temperature thin film magnet for spintronics applications", "abstract": "Herein, we report on a preparation method of vanadium tetracyanoethylene, V(TCNE)(x), an organic-based semiconducting room temperature thin film magnet. Previously, this compound has been reported to ...", "citations": 27, "author_count": 5, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3416, "doi": "10.1063/1.2916901", "umap_coordinates": { "x": 393.3098449707031, "y": 134.78170776367188, "z": 207.97439575195312 }, "tsne_coordinates": { "x": 19.37835121154785, "y": -21.073217391967773, "z": 1.6006228923797607 }, "pca_coordinates": { "x": 0.7522035837173462, "y": -3.4906973838806152, "z": -0.8769316673278809 }, "axis_scores": { "Quantum imaging": 0.66554856300354, "Quantum Life Science Sensing": 0.7153185606002808, "Quantum sensing Detection": 0.6800983548164368, "Quantum sensing Metrology": 0.683000385761261, "Quantum sensing navigation": 0.6720063090324402, "Quantum sensing Position": 0.6640805006027222, "Quantum sensing Timing": 0.6503597497940063, "Quantum sensing": 0.7009554505348206, "Quantum control": 0.6502740979194641 } }, { "id": 3411, "title": "Titan's exosphere and its interaction with Saturn's magnetosphere", "abstract": "Titan's nitrogen-rich atmosphere is directly bombarded by energetic ions, due to its lack of a significant intrinsic magnetic field. Singly charged energetic ions from Saturn's magnetosphere undergo c...", "citations": 10, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3417, "doi": "10.1098/rsta.2008.0249", "umap_coordinates": { "x": 394.6008605957031, "y": 136.87770080566406, "z": 205.2526397705078 }, "tsne_coordinates": { "x": -24.992965698242188, "y": 15.583418846130371, "z": 21.31624412536621 }, "pca_coordinates": { "x": -0.015045642852783203, "y": 2.1728272438049316, "z": -1.3701143264770508 }, "axis_scores": { "Quantum imaging": 0.6764575242996216, "Quantum Life Science Sensing": 0.690841019153595, "Quantum sensing Detection": 0.6728663444519043, "Quantum sensing Metrology": 0.6737237572669983, "Quantum sensing navigation": 0.692642092704773, "Quantum sensing Position": 0.6804772615432739, "Quantum sensing Timing": 0.6834170818328857, "Quantum sensing": 0.6851264834403992, "Quantum control": 0.6575174927711487 } }, { "id": 3412, "title": "Quantum Computing: Foundations, Architecture and Applications", "abstract": "Quantum computing exploits the principles of quantum mechanics to address computational problems that are intractable to classical systems. This study examines the evolution, architecture, and applica...", "citations": 11, "author_count": 6, "categories": [ "Computer Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3418, "doi": "10.1002/eng2.70337", "umap_coordinates": { "x": 394.73748779296875, "y": 136.73228454589844, "z": 205.78858947753906 }, "tsne_coordinates": { "x": -17.92983055114746, "y": 12.716462135314941, "z": 14.180557250976562 }, "pca_coordinates": { "x": 0.5116386413574219, "y": 1.6003481149673462, "z": -1.4368488788604736 }, "axis_scores": { "Quantum imaging": 0.8095293641090393, "Quantum Life Science Sensing": 0.8126646876335144, "Quantum sensing Detection": 0.8000426292419434, "Quantum sensing Metrology": 0.8009198307991028, "Quantum sensing navigation": 0.7987178564071655, "Quantum sensing Position": 0.7652935981750488, "Quantum sensing Timing": 0.7508589029312134, "Quantum sensing": 0.8182699084281921, "Quantum control": 0.8016610741615295 } }, { "id": 3413, "title": "Formation of the BeH+ and BeD+ Molecules in Be+", "abstract": "Cross sections and rate coefficients for the formation of BeH+ and BeD+ molecules in Be+ + H/D collisions through radiative association are calculated using quantum mechanical perturbation theory and ...", "citations": 4, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3419, "doi": "10.3389/fspas.2021.704953", "umap_coordinates": { "x": 394.0372314453125, "y": 136.86483764648438, "z": 204.88661193847656 }, "tsne_coordinates": { "x": -20.950077056884766, "y": 13.074394226074219, "z": 24.439123153686523 }, "pca_coordinates": { "x": -0.42456305027008057, "y": 1.8451697826385498, "z": -4.201173782348633 }, "axis_scores": { "Quantum imaging": 0.6931939721107483, "Quantum Life Science Sensing": 0.7153164744377136, "Quantum sensing Detection": 0.6813366413116455, "Quantum sensing Metrology": 0.6727056503295898, "Quantum sensing navigation": 0.6739436984062195, "Quantum sensing Position": 0.6656423807144165, "Quantum sensing Timing": 0.6563384532928467, "Quantum sensing": 0.6910449266433716, "Quantum control": 0.687444806098938 } }, { "id": 3414, "title": "Electronic structure of strained InP/Ga0.51In0.49P quantum dots", "abstract": "We calculate the electronic structure of nm scale InP islands embedded in Ga0.51In0.49P. The calculations are done in the envelope approximation and include the effects of strain, piezoelectric polari...", "citations": 199, "author_count": 4, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3420, "doi": "10.1103/PhysRevB.56.10404", "umap_coordinates": { "x": 392.8345031738281, "y": 134.58584594726562, "z": 208.77630615234375 }, "tsne_coordinates": { "x": 23.36064338684082, "y": -16.415802001953125, "z": 3.064202308654785 }, "pca_coordinates": { "x": 3.1666221618652344, "y": -3.669106960296631, "z": -0.33738693594932556 }, "axis_scores": { "Quantum imaging": 0.7230336666107178, "Quantum Life Science Sensing": 0.727732241153717, "Quantum sensing Detection": 0.7120456695556641, "Quantum sensing Metrology": 0.7030677199363708, "Quantum sensing navigation": 0.716717004776001, "Quantum sensing Position": 0.7291148900985718, "Quantum sensing Timing": 0.7014815211296082, "Quantum sensing": 0.7249284982681274, "Quantum control": 0.7038803100585938 } }, { "id": 3415, "title": "Color Erasure Detectors Enable Chromatic Interferometry", "abstract": "By engineering and manipulating quantum entanglement between incoming photons and experimental apparatus, we construct single-photon detectors which cannot distinguish between photons of very differen...", "citations": 12, "author_count": 11, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3421, "doi": "10.1103/PhysRevLett.123.243601", "umap_coordinates": { "x": 395.6219177246094, "y": 135.6289520263672, "z": 207.57212829589844 }, "tsne_coordinates": { "x": -15.49850082397461, "y": -17.595693588256836, "z": -0.4474008083343506 }, "pca_coordinates": { "x": 2.750977039337158, "y": -0.5762059688568115, "z": 1.9560439586639404 }, "axis_scores": { "Quantum imaging": 0.7561529278755188, "Quantum Life Science Sensing": 0.7429290413856506, "Quantum sensing Detection": 0.7500335574150085, "Quantum sensing Metrology": 0.7288367748260498, "Quantum sensing navigation": 0.7456302046775818, "Quantum sensing Position": 0.7206193208694458, "Quantum sensing Timing": 0.7334793210029602, "Quantum sensing": 0.7605071067810059, "Quantum control": 0.7291473746299744 } }, { "id": 3416, "title": "High energy Pb+Pb collisions viewed by pion interferometry", "abstract": "Two-pion correlations from Pb+Pb collisions at 158 GeV/c per nucleon are measured by the NA44 experiment at CERN. Multidimensional fits characterize the emission volume, which is found to be larger th...", "citations": 82, "author_count": 54, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3422, "doi": "10.1103/PhysRevC.58.1656", "umap_coordinates": { "x": 396.44622802734375, "y": 134.7041778564453, "z": 208.0679168701172 }, "tsne_coordinates": { "x": -35.48631286621094, "y": 1.2439595460891724, "z": -13.851469039916992 }, "pca_coordinates": { "x": 3.292243480682373, "y": 0.8773055076599121, "z": 2.2823033332824707 }, "axis_scores": { "Quantum imaging": 0.7312576770782471, "Quantum Life Science Sensing": 0.7116255760192871, "Quantum sensing Detection": 0.7097923755645752, "Quantum sensing Metrology": 0.6943501234054565, "Quantum sensing navigation": 0.7215745449066162, "Quantum sensing Position": 0.7184818983078003, "Quantum sensing Timing": 0.6947267651557922, "Quantum sensing": 0.7141354084014893, "Quantum control": 0.6902655363082886 } }, { "id": 3417, "title": "Scalar quantum kinetic theory for spin-1/2 particles: mean field theory", "abstract": "Starting from the Pauli Hamiltonian operator, we derive scalar quantum kinetic equations for spin-1/2 systems. Here, the regular Wigner two-state matrix is replaced by a scalar distribution function i...", "citations": 100, "author_count": 4, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3423, "doi": "10.1088/1367-2630/12/4/043019", "umap_coordinates": { "x": 394.4068298339844, "y": 137.43783569335938, "z": 207.13409423828125 }, "tsne_coordinates": { "x": -24.083986282348633, "y": -0.11363564431667328, "z": 24.21295928955078 }, "pca_coordinates": { "x": 2.0450658798217773, "y": 1.914054274559021, "z": -1.2337311506271362 }, "axis_scores": { "Quantum imaging": 0.7317356467247009, "Quantum Life Science Sensing": 0.7309413552284241, "Quantum sensing Detection": 0.7138723134994507, "Quantum sensing Metrology": 0.7188666462898254, "Quantum sensing navigation": 0.7432690262794495, "Quantum sensing Position": 0.7042943835258484, "Quantum sensing Timing": 0.692312479019165, "Quantum sensing": 0.7372592091560364, "Quantum control": 0.7399870157241821 } }, { "id": 3418, "title": "Quadruples of Ge dots grown on patterned Si surfaces", "abstract": "In this paper, we present the results of Ge deposition on a pre-pattemed Si surface. By partially overgrowing nanometer-sized electron beam-induced carbon deposits, faceted pits form at the Si surface...", "citations": 5, "author_count": 4, "categories": [ "Crystallography" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3424, "doi": "10.1016/j.jcrysgro.2003.07.020", "umap_coordinates": { "x": 392.9068908691406, "y": 133.67774963378906, "z": 207.05690002441406 }, "tsne_coordinates": { "x": 42.7005500793457, "y": 4.594283580780029, "z": -3.1150989532470703 }, "pca_coordinates": { "x": -0.30947816371917725, "y": -1.4876294136047363, "z": 0.377342164516449 }, "axis_scores": { "Quantum imaging": 0.7390627861022949, "Quantum Life Science Sensing": 0.7563903331756592, "Quantum sensing Detection": 0.7373809814453125, "Quantum sensing Metrology": 0.7393184304237366, "Quantum sensing navigation": 0.7107115387916565, "Quantum sensing Position": 0.7308661937713623, "Quantum sensing Timing": 0.7223972678184509, "Quantum sensing": 0.7485429048538208, "Quantum control": 0.7088998556137085 } }, { "id": 3419, "title": "Quantum mechanical model and simulation of GaAs/AlGaAs quantum well infrared photodetector-II electrical aspects", "abstract": "A complete quantum mechanical model for GaAs/AlGaAs quantum well infrared photodetectors (QWIPs) was presented. The photocurrent was investigated by the optical transition( absorption coefficient) bet...", "citations": 2, "author_count": 5, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3425, "doi": null, "umap_coordinates": { "x": 391.9603271484375, "y": 139.1440887451172, "z": 209.6616973876953 }, "tsne_coordinates": { "x": -10.999390602111816, "y": 43.27653503417969, "z": -2.2192187309265137 }, "pca_coordinates": { "x": -0.2722375988960266, "y": 1.8927156925201416, "z": -1.4377639293670654 }, "axis_scores": { "Quantum imaging": 0.7559694051742554, "Quantum Life Science Sensing": 0.7739575505256653, "Quantum sensing Detection": 0.7470767498016357, "Quantum sensing Metrology": 0.7402386665344238, "Quantum sensing navigation": 0.74139004945755, "Quantum sensing Position": 0.7251664996147156, "Quantum sensing Timing": 0.7067190408706665, "Quantum sensing": 0.7605174779891968, "Quantum control": 0.7463011145591736 } }, { "id": 3420, "title": "Metasurface Enabled On-Chip Generation and Manipulation of Vector Beams from Vertical Cavity Surface-Emitting Lasers", "abstract": "Metasurface polarization optics that consist of 2D array of birefringent nano-antennas have proven remarkable capabilities to generate and manipulate vectorial fields with subwavelength resolution and...", "citations": 53, "author_count": 11, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3426, "doi": "10.1002/adma.202204286", "umap_coordinates": { "x": 393.859130859375, "y": 134.02978515625, "z": 206.12893676757812 }, "tsne_coordinates": { "x": -2.475522041320801, "y": -16.14474105834961, "z": -34.07732009887695 }, "pca_coordinates": { "x": -2.1956543922424316, "y": -0.4515230655670166, "z": 1.4797782897949219 }, "axis_scores": { "Quantum imaging": 0.7264387607574463, "Quantum Life Science Sensing": 0.6960774660110474, "Quantum sensing Detection": 0.6956392526626587, "Quantum sensing Metrology": 0.7212073802947998, "Quantum sensing navigation": 0.7120429873466492, "Quantum sensing Position": 0.6913385987281799, "Quantum sensing Timing": 0.6673425436019897, "Quantum sensing": 0.7149634957313538, "Quantum control": 0.720132052898407 } }, { "id": 3421, "title": "Wavelength-Sensitive Superconducting Single-Photon Detectors on Thin Film Lithium Niobate Waveguides", "abstract": "Lithium niobate, because of its nonlinear and electro-optical properties, is one of the materials of choice for photonic applications. The development of nanostructuring capabilities of thin film lith...", "citations": 11, "author_count": 12, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3427, "doi": "10.1021/acs.nanolett.3c02324", "umap_coordinates": { "x": 394.04119873046875, "y": 133.19680786132812, "z": 207.3639373779297 }, "tsne_coordinates": { "x": 15.463732719421387, "y": -12.610780715942383, "z": -14.310001373291016 }, "pca_coordinates": { "x": -0.4510859251022339, "y": -4.793200969696045, "z": 3.462810516357422 }, "axis_scores": { "Quantum imaging": 0.7250233888626099, "Quantum Life Science Sensing": 0.7333004474639893, "Quantum sensing Detection": 0.7438638806343079, "Quantum sensing Metrology": 0.7280539274215698, "Quantum sensing navigation": 0.7302148342132568, "Quantum sensing Position": 0.7216030359268188, "Quantum sensing Timing": 0.7045368552207947, "Quantum sensing": 0.7478185296058655, "Quantum control": 0.6769136786460876 } }, { "id": 3422, "title": "Ensemble density-functional approach to charge-spin textures in inhomogeneous quantum Hall systems", "abstract": "We extend our ensemble density-functional approach to quantum Hall systems to include noncollinear spins to study charge-spin textures in inhomogeneous quantum Hall systems. We have studied the edge r...", "citations": 16, "author_count": 4, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3428, "doi": "10.1103/PhysRevB.59.8073", "umap_coordinates": { "x": 394.3853759765625, "y": 137.0311279296875, "z": 208.85836791992188 }, "tsne_coordinates": { "x": -16.598241806030273, "y": -28.820262908935547, "z": 9.369035720825195 }, "pca_coordinates": { "x": 4.226872444152832, "y": -0.573580265045166, "z": -2.8237364292144775 }, "axis_scores": { "Quantum imaging": 0.7159705758094788, "Quantum Life Science Sensing": 0.7108256220817566, "Quantum sensing Detection": 0.6881355047225952, "Quantum sensing Metrology": 0.6841208934783936, "Quantum sensing navigation": 0.7220454216003418, "Quantum sensing Position": 0.6783309578895569, "Quantum sensing Timing": 0.6629136800765991, "Quantum sensing": 0.7187213897705078, "Quantum control": 0.7090885639190674 } }, { "id": 3423, "title": "Conductance oscillations in overgrown sub100nm InP/Ga0.25In0.75As quantum wires", "abstract": "We report the observation of strong conductance oscillations as a function of Fermi energy in the quantized plateau region in epitaxially overgrown, heterostructurally defined, 90 nm wide InP/Ga0.25In...", "citations": 2, "author_count": 12, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3429, "doi": "10.1088/0268-1242/13/8A/021", "umap_coordinates": { "x": 392.5181884765625, "y": 134.6270294189453, "z": 208.02259826660156 }, "tsne_coordinates": { "x": 25.44464874267578, "y": -15.8380708694458, "z": 13.161932945251465 }, "pca_coordinates": { "x": 1.6720528602600098, "y": -2.0668821334838867, "z": 0.8015517592430115 }, "axis_scores": { "Quantum imaging": 0.687079668045044, "Quantum Life Science Sensing": 0.6848135590553284, "Quantum sensing Detection": 0.6839016675949097, "Quantum sensing Metrology": 0.6814396977424622, "Quantum sensing navigation": 0.7017318606376648, "Quantum sensing Position": 0.6768736839294434, "Quantum sensing Timing": 0.6868993639945984, "Quantum sensing": 0.6964719295501709, "Quantum control": 0.6740463376045227 } }, { "id": 3424, "title": "The phase space of radiative spacetimes", "abstract": "Using the continuity of the scalar psi(2) (the mass aspect) at null infinity through io, we show that the space of radiative solutions of general relativity can be foliated by identifying each leaf wi...", "citations": 5, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3430, "doi": "10.1088/0264-9381/14/12/020", "umap_coordinates": { "x": 395.34637451171875, "y": 136.96990966796875, "z": 206.64186096191406 }, "tsne_coordinates": { "x": -34.02758026123047, "y": -3.1086182594299316, "z": 10.652334213256836 }, "pca_coordinates": { "x": 0.9053773880004883, "y": 4.252943992614746, "z": -1.5582997798919678 }, "axis_scores": { "Quantum imaging": 0.729871392250061, "Quantum Life Science Sensing": 0.7267572283744812, "Quantum sensing Detection": 0.7000552415847778, "Quantum sensing Metrology": 0.6817743182182312, "Quantum sensing navigation": 0.7373228669166565, "Quantum sensing Position": 0.711822509765625, "Quantum sensing Timing": 0.702597975730896, "Quantum sensing": 0.7143046259880066, "Quantum control": 0.7031100988388062 } }, { "id": 3425, "title": "Persistent effects of low concentrations of SO2 and NO2 on photosynthesis in Scots pine (Pinus sylvestris) needles", "abstract": "In an open-field experiment, 50-year-old trees of Scots pine (Pinus sylvestris L.) were fumigated with low concentrations of SO2 and NO2 (10-15 nl l(-1)) during the growing season in four consecutive ...", "citations": 6, "author_count": 2, "categories": [ "Plant Sciences" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3431, "doi": "10.1111/j.1399-3054.1995.tb05526.x", "umap_coordinates": { "x": 394.4407958984375, "y": 135.705078125, "z": 203.84178161621094 }, "tsne_coordinates": { "x": 8.403960227966309, "y": 33.40341567993164, "z": 12.198466300964355 }, "pca_coordinates": { "x": -1.7650341987609863, "y": 0.7304233312606812, "z": -0.5892653465270996 }, "axis_scores": { "Quantum imaging": 0.7078685164451599, "Quantum Life Science Sensing": 0.7416883707046509, "Quantum sensing Detection": 0.7227492928504944, "Quantum sensing Metrology": 0.7101088166236877, "Quantum sensing navigation": 0.7101319432258606, "Quantum sensing Position": 0.7056055665016174, "Quantum sensing Timing": 0.7240338921546936, "Quantum sensing": 0.7364428043365479, "Quantum control": 0.7106608152389526 } }, { "id": 3426, "title": "Fragmentation and Emergent Integrable Transport in the Weakly Tilted Ising Chain", "abstract": "We investigate emergent quantum dynamics of the tilted Ising chain in the regime of a weak transverse field. Within the leading order perturbation theory, the Hilbert space is fragmented into exponent...", "citations": 30, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3432, "doi": "10.1103/PhysRevLett.128.196601", "umap_coordinates": { "x": 394.0550537109375, "y": 136.83668518066406, "z": 208.7279052734375 }, "tsne_coordinates": { "x": -5.948665618896484, "y": -30.49396514892578, "z": 16.243324279785156 }, "pca_coordinates": { "x": 4.152989864349365, "y": 0.9234740734100342, "z": -1.0229336023330688 }, "axis_scores": { "Quantum imaging": 0.6753842830657959, "Quantum Life Science Sensing": 0.6608085632324219, "Quantum sensing Detection": 0.6505815982818604, "Quantum sensing Metrology": 0.6213516592979431, "Quantum sensing navigation": 0.6648407578468323, "Quantum sensing Position": 0.6210947036743164, "Quantum sensing Timing": 0.6212288737297058, "Quantum sensing": 0.6598211526870728, "Quantum control": 0.6489509344100952 } }, { "id": 3427, "title": "Direct Measurement of a Nonlocal Entangled Quantum State", "abstract": "Entanglement and the wave function description are two of the core concepts that make quantum mechanics such a unique theory. A method to directly measure the wave function, using weak values, was dem...", "citations": 68, "author_count": 12, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3433, "doi": "10.1103/PhysRevLett.123.150402", "umap_coordinates": { "x": 396.01629638671875, "y": 135.9777374267578, "z": 207.8657989501953 }, "tsne_coordinates": { "x": -21.930400848388672, "y": -5.334414958953857, "z": 4.979337215423584 }, "pca_coordinates": { "x": 4.707723617553711, "y": 1.1115880012512207, "z": 3.232797622680664 }, "axis_scores": { "Quantum imaging": 0.7585740685462952, "Quantum Life Science Sensing": 0.7665282487869263, "Quantum sensing Detection": 0.7956184148788452, "Quantum sensing Metrology": 0.7637530565261841, "Quantum sensing navigation": 0.7698041796684265, "Quantum sensing Position": 0.7616565823554993, "Quantum sensing Timing": 0.7209713459014893, "Quantum sensing": 0.7935739755630493, "Quantum control": 0.7308295369148254 } }, { "id": 3428, "title": "A multiscale approach for electronic transport simulation of carbon nanostructures in aqueous solvent", "abstract": "Theoretical works addressing electronic nano-devices operating in an aqueous environment often neglect solvent effects. In order to assess the role played by the polarization effects on the electronic...", "citations": 2, "author_count": 5, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3434, "doi": "10.1039/d2cp02474h", "umap_coordinates": { "x": 392.8791809082031, "y": 136.6973419189453, "z": 205.6114501953125 }, "tsne_coordinates": { "x": 1.0291889905929565, "y": 9.690512657165527, "z": 24.437091827392578 }, "pca_coordinates": { "x": -0.8036887049674988, "y": -0.8627753257751465, "z": -2.872066020965576 }, "axis_scores": { "Quantum imaging": 0.7043095231056213, "Quantum Life Science Sensing": 0.7291944622993469, "Quantum sensing Detection": 0.6908008456230164, "Quantum sensing Metrology": 0.6752979755401611, "Quantum sensing navigation": 0.6986910104751587, "Quantum sensing Position": 0.6684621572494507, "Quantum sensing Timing": 0.6437010765075684, "Quantum sensing": 0.704498291015625, "Quantum control": 0.7014286518096924 } }, { "id": 3429, "title": "Quantum error correction for the toric code using deep reinforcement learning", "abstract": "We implement a quantum error correction algorithm for bit-flip errors on the topological toric code using deep reinforcement learning. An action-value Q-function encodes the discounted value of moving...", "citations": 86, "author_count": 5, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3435, "doi": "10.22331/q-2019-09-02-183", "umap_coordinates": { "x": 394.9589538574219, "y": 137.15838623046875, "z": 206.48333740234375 }, "tsne_coordinates": { "x": -26.352497100830078, "y": 1.6816667318344116, "z": -3.5235369205474854 }, "pca_coordinates": { "x": 1.967341423034668, "y": 2.508784532546997, "z": 0.3995591998100281 }, "axis_scores": { "Quantum imaging": 0.7441948056221008, "Quantum Life Science Sensing": 0.7143257260322571, "Quantum sensing Detection": 0.7325229644775391, "Quantum sensing Metrology": 0.7274302840232849, "Quantum sensing navigation": 0.7566816806793213, "Quantum sensing Position": 0.7098680734634399, "Quantum sensing Timing": 0.72710782289505, "Quantum sensing": 0.7384268045425415, "Quantum control": 0.7518664598464966 } }, { "id": 3430, "title": "Evaluation of the charge-sharing effects on spot intensity in XRD setup using photon-counting pixel detectors", "abstract": "In this study, we examine how charge loss due to charge sharing in photon-counting pixels detectors affects the recording of spot intensity in an X-ray diffraction (XRD) setup. In the photon-counting ...", "citations": 2, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3436, "doi": "10.1016/j.nima.2006.01.091", "umap_coordinates": { "x": 394.57696533203125, "y": 132.76275634765625, "z": 205.63735961914062 }, "tsne_coordinates": { "x": -10.076708793640137, "y": 14.952186584472656, "z": -12.40545654296875 }, "pca_coordinates": { "x": -3.6341915130615234, "y": 0.23150873184204102, "z": 2.996699571609497 }, "axis_scores": { "Quantum imaging": 0.7343476414680481, "Quantum Life Science Sensing": 0.7031310796737671, "Quantum sensing Detection": 0.7037458419799805, "Quantum sensing Metrology": 0.7235191464424133, "Quantum sensing navigation": 0.6934384107589722, "Quantum sensing Position": 0.7156251072883606, "Quantum sensing Timing": 0.7066176533699036, "Quantum sensing": 0.7100092172622681, "Quantum control": 0.663598895072937 } }, { "id": 3431, "title": "Detection and Cloaking of Molecular Objects in Coherent Nanostructures Using Inelastic Electron Tunneling Spectroscopy", "abstract": "We address quantum invisibility in the context of electronics in nanoscale quantum structures. We make use of the freedom of design that quantum corrals provide and show that quantum mechanical object...", "citations": 10, "author_count": 4, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3437, "doi": "10.1021/nl903991a", "umap_coordinates": { "x": 392.9731750488281, "y": 134.38162231445312, "z": 207.09017944335938 }, "tsne_coordinates": { "x": 15.371499061584473, "y": -19.11186408996582, "z": -9.473745346069336 }, "pca_coordinates": { "x": -0.409145712852478, "y": -2.338026523590088, "z": 0.8170904517173767 }, "axis_scores": { "Quantum imaging": 0.7472642064094543, "Quantum Life Science Sensing": 0.7354673743247986, "Quantum sensing Detection": 0.7456488013267517, "Quantum sensing Metrology": 0.7144558429718018, "Quantum sensing navigation": 0.7427434325218201, "Quantum sensing Position": 0.6958009004592896, "Quantum sensing Timing": 0.6818372011184692, "Quantum sensing": 0.7386989593505859, "Quantum control": 0.6885755062103271 } }, { "id": 3432, "title": "Objective comparison of methods to decode anomalous diffusion", "abstract": "Deviations from Brownian motion leading to anomalous diffusion are found in transport dynamics from quantum physics to life sciences. The characterization of anomalous diffusion from the measurement o...", "citations": 192, "author_count": 35, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3438, "doi": "10.1038/s41467-021-26320-w", "umap_coordinates": { "x": 394.9998779296875, "y": 134.97216796875, "z": 205.15309143066406 }, "tsne_coordinates": { "x": -12.735016822814941, "y": 29.512861251831055, "z": 0.6313687562942505 }, "pca_coordinates": { "x": -1.9156543016433716, "y": 2.228468656539917, "z": 0.7489914298057556 }, "axis_scores": { "Quantum imaging": 0.7154586911201477, "Quantum Life Science Sensing": 0.7090535163879395, "Quantum sensing Detection": 0.7061141729354858, "Quantum sensing Metrology": 0.6931757926940918, "Quantum sensing navigation": 0.7302201390266418, "Quantum sensing Position": 0.7025277614593506, "Quantum sensing Timing": 0.6989531517028809, "Quantum sensing": 0.7126405239105225, "Quantum control": 0.7007209658622742 } }, { "id": 3433, "title": "Quantum-well states in thin Ag films grown on the Ga/Si(111)-√3 x √3 surface", "abstract": "Silver thin films have been created by room temperature deposition on a Ga/Si(111)-root 3 x root 3 surface and their valence band structures and core levels have been measured by angle-resolved photoe...", "citations": 11, "author_count": 4, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3439, "doi": "10.1103/PhysRevB.97.195430", "umap_coordinates": { "x": 394.094482421875, "y": 134.93621826171875, "z": 209.3124542236328 }, "tsne_coordinates": { "x": 11.396008491516113, "y": -37.54417037963867, "z": 1.3869738578796387 }, "pca_coordinates": { "x": 4.306490421295166, "y": -2.5041513442993164, "z": 1.4213054180145264 }, "axis_scores": { "Quantum imaging": 0.699511706829071, "Quantum Life Science Sensing": 0.7156664133071899, "Quantum sensing Detection": 0.7161394357681274, "Quantum sensing Metrology": 0.7034557461738586, "Quantum sensing navigation": 0.7163608074188232, "Quantum sensing Position": 0.7023649215698242, "Quantum sensing Timing": 0.6959517002105713, "Quantum sensing": 0.7252209782600403, "Quantum control": 0.6858946681022644 } }, { "id": 3434, "title": "Enlarging the Stokes shift of CuInS2 quantum dots using thiol-ene polymers for efficient large-area luminescent solar concentrators", "abstract": "CuInS2/ZnS (CIS/ZnS) quantum dots (QDs) are extensively employed as fluorophores in luminescent solar concentrators (LSCs), due to their excellent optical properties and low toxicity. However, the pow...", "citations": 21, "author_count": 12, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3440, "doi": "10.1039/d4ee02603a", "umap_coordinates": { "x": 392.2821044921875, "y": 133.64047241210938, "z": 205.34255981445312 }, "tsne_coordinates": { "x": 25.066171646118164, "y": 9.434338569641113, "z": -14.51888370513916 }, "pca_coordinates": { "x": -4.187928199768066, "y": -3.383810520172119, "z": -0.7372695803642273 }, "axis_scores": { "Quantum imaging": 0.6391931772232056, "Quantum Life Science Sensing": 0.6581065654754639, "Quantum sensing Detection": 0.6439509987831116, "Quantum sensing Metrology": 0.63861083984375, "Quantum sensing navigation": 0.6414082050323486, "Quantum sensing Position": 0.6515198349952698, "Quantum sensing Timing": 0.6368573307991028, "Quantum sensing": 0.6523354053497314, "Quantum control": 0.6493245959281921 } }, { "id": 3435, "title": "Organic-quantum dot hybrid interfaces and their role in photon fission/fusion applications", "abstract": "Solar energy is rapidly becoming a more important aspect in today's energy systems, and solar cells are playing a major role in this shift. However, to further boost the efficiency of conventional sol...", "citations": 15, "author_count": 5, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3441, "doi": "10.1063/5.0050464", "umap_coordinates": { "x": 393.4731750488281, "y": 135.0521697998047, "z": 207.7859344482422 }, "tsne_coordinates": { "x": 3.3445863723754883, "y": -14.791857719421387, "z": -6.0442585945129395 }, "pca_coordinates": { "x": 0.7323052883148193, "y": -3.006230354309082, "z": 0.37755948305130005 }, "axis_scores": { "Quantum imaging": 0.7701539993286133, "Quantum Life Science Sensing": 0.769094705581665, "Quantum sensing Detection": 0.7480377554893494, "Quantum sensing Metrology": 0.7300387620925903, "Quantum sensing navigation": 0.7271791100502014, "Quantum sensing Position": 0.7163339257240295, "Quantum sensing Timing": 0.7116111516952515, "Quantum sensing": 0.7598764896392822, "Quantum control": 0.7143768668174744 } }, { "id": 3436, "title": "Exploring the antioxidant property of bioflavonoid quercetin in preventing DNA glycation: A calorimetric and spectroscopic study", "abstract": "Reducing sugars for example glucose, fructose, etc., and their phosphate derivatives non-enzymatically glycate biological macromolecules (e.g., proteins, DNA and lipids) and is related to the producti...", "citations": 28, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3442, "doi": "10.1016/j.bbrc.2005.11.019", "umap_coordinates": { "x": 393.5230712890625, "y": 135.40528869628906, "z": 204.2699432373047 }, "tsne_coordinates": { "x": 10.803709030151367, "y": 17.516952514648438, "z": 5.322900295257568 }, "pca_coordinates": { "x": -3.0524959564208984, "y": 1.2309257984161377, "z": -2.559814929962158 }, "axis_scores": { "Quantum imaging": 0.6909762620925903, "Quantum Life Science Sensing": 0.7398681640625, "Quantum sensing Detection": 0.6900545954704285, "Quantum sensing Metrology": 0.6760421395301819, "Quantum sensing navigation": 0.6994417309761047, "Quantum sensing Position": 0.6688245534896851, "Quantum sensing Timing": 0.6510772109031677, "Quantum sensing": 0.7000172138214111, "Quantum control": 0.6965740919113159 } }, { "id": 3437, "title": "Quantum conditional generative adversarial network based on patch method for abnormal electrocardiogram generation", "abstract": "To address the scarcity and class imbalance of abnormal electrocardiogram (ECG) databases, which are crucial in AI-driven diagnostic tools for potential cardiovascular disease detection, this study pr...", "citations": 18, "author_count": 4, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3443, "doi": "10.1016/j.compbiomed.2023.107549", "umap_coordinates": { "x": 395.20111083984375, "y": 134.743896484375, "z": 205.04039001464844 }, "tsne_coordinates": { "x": -12.182727813720703, "y": 28.620161056518555, "z": 8.505062103271484 }, "pca_coordinates": { "x": -0.4136162996292114, "y": 3.1042726039886475, "z": 0.6343342661857605 }, "axis_scores": { "Quantum imaging": 0.7501712441444397, "Quantum Life Science Sensing": 0.7382935881614685, "Quantum sensing Detection": 0.734316885471344, "Quantum sensing Metrology": 0.7128202319145203, "Quantum sensing navigation": 0.7278901934623718, "Quantum sensing Position": 0.7108303308486938, "Quantum sensing Timing": 0.7236777544021606, "Quantum sensing": 0.7421693205833435, "Quantum control": 0.7330305576324463 } }, { "id": 3438, "title": "A single-photon counter for long-haul telecom", "abstract": "", "citations": 52, "author_count": 8, "categories": [ "Engineering" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3444, "doi": "10.1109/101.808854", "umap_coordinates": { "x": 394.7873840332031, "y": 133.36712646484375, "z": 207.53256225585938 }, "tsne_coordinates": { "x": -15.441383361816406, "y": 3.0675525665283203, "z": -24.571327209472656 }, "pca_coordinates": { "x": -0.45804500579833984, "y": -0.31003618240356445, "z": 3.654177188873291 }, "axis_scores": { "Quantum imaging": 0.6860092282295227, "Quantum Life Science Sensing": 0.7261168360710144, "Quantum sensing Detection": 0.7142817974090576, "Quantum sensing Metrology": 0.7016721367835999, "Quantum sensing navigation": 0.6905305981636047, "Quantum sensing Position": 0.6869384050369263, "Quantum sensing Timing": 0.6902977824211121, "Quantum sensing": 0.7155979871749878, "Quantum control": 0.6641945838928223 } }, { "id": 3439, "title": "Alignment and Cherenkov angle resolution of the DELPHI RICH", "abstract": "The particle separation power of a RICH depends crucially on the obtained resolution in Cherenkov angle. In order to obtain the highest possible resolution, a precise knowledge of the positions of det...", "citations": 3, "author_count": 10, "categories": [ "Instruments & Instrumentation" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3445, "doi": "10.1016/0168-9002(95)01164-1", "umap_coordinates": { "x": 395.8623352050781, "y": 134.66119384765625, "z": 207.07598876953125 }, "tsne_coordinates": { "x": -26.780338287353516, "y": 15.575074195861816, "z": -18.63485336303711 }, "pca_coordinates": { "x": -0.5372721552848816, "y": 1.7188798189163208, "z": 0.7227107882499695 }, "axis_scores": { "Quantum imaging": 0.6852291822433472, "Quantum Life Science Sensing": 0.6813333034515381, "Quantum sensing Detection": 0.6568124890327454, "Quantum sensing Metrology": 0.6848887205123901, "Quantum sensing navigation": 0.6915484070777893, "Quantum sensing Position": 0.7022148370742798, "Quantum sensing Timing": 0.6977705955505371, "Quantum sensing": 0.6732729077339172, "Quantum control": 0.6532917022705078 } }, { "id": 3440, "title": "Surface chemiluminescence of Cl2 on potassium", "abstract": "We have measured the initial (zero coverage) photon (1.5 < < 3.5 eV) and electron emission from the reaction of a Cl, molecular beam with a potassium surface for a range of molecular velocities (460 <...", "citations": 6, "author_count": 4, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3446, "doi": "10.1016/S0039-6028(01)01985-9", "umap_coordinates": { "x": 393.4964294433594, "y": 135.22348022460938, "z": 205.60769653320312 }, "tsne_coordinates": { "x": -7.772652626037598, "y": 5.969844341278076, "z": -2.7952187061309814 }, "pca_coordinates": { "x": -2.634697198867798, "y": -0.4041414260864258, "z": -2.5009918212890625 }, "axis_scores": { "Quantum imaging": 0.6808019280433655, "Quantum Life Science Sensing": 0.7104344367980957, "Quantum sensing Detection": 0.6901163458824158, "Quantum sensing Metrology": 0.6704840660095215, "Quantum sensing navigation": 0.66142737865448, "Quantum sensing Position": 0.6705417633056641, "Quantum sensing Timing": 0.6348128318786621, "Quantum sensing": 0.6929532885551453, "Quantum control": 0.6605929136276245 } }, { "id": 3441, "title": "A performance assessment of type-II interband In0.5Ga0.5Sb QD photodetectors", "abstract": "Self-assembled quantum-dot (QD) structures with type-II band alignment to the surrounding matrix material have been proposed as a III/V material approach to realize small-bandgap device structures sui...", "citations": 8, "author_count": 10, "categories": [ "Instruments & Instrumentation" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3447, "doi": "10.1016/j.infrared.2013.09.009", "umap_coordinates": { "x": 392.90008544921875, "y": 133.39312744140625, "z": 206.64834594726562 }, "tsne_coordinates": { "x": 8.090352058410645, "y": 4.17657995223999, "z": -27.92698860168457 }, "pca_coordinates": { "x": -3.1848340034484863, "y": -1.9065113067626953, "z": 1.3858850002288818 }, "axis_scores": { "Quantum imaging": 0.7283390760421753, "Quantum Life Science Sensing": 0.7246778011322021, "Quantum sensing Detection": 0.711432158946991, "Quantum sensing Metrology": 0.7037914395332336, "Quantum sensing navigation": 0.681247353553772, "Quantum sensing Position": 0.6970957517623901, "Quantum sensing Timing": 0.6822296977043152, "Quantum sensing": 0.7171814441680908, "Quantum control": 0.6540747284889221 } }, { "id": 3442, "title": "Simple preparation of Bell and Greenberger-Horne-Zeilinger states using ultrastrong-coupling circuit QED", "abstract": "The ability to entangle quantum systems is crucial for many applications in quantum technology, including quantum communication and quantum computing. Here, we propose a simple and versatile setup for...", "citations": 52, "author_count": 4, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3448, "doi": "10.1103/PhysRevA.98.062327", "umap_coordinates": { "x": 395.8070068359375, "y": 136.26119995117188, "z": 207.9382781982422 }, "tsne_coordinates": { "x": -26.848398208618164, "y": -13.172290802001953, "z": -5.4623236656188965 }, "pca_coordinates": { "x": 3.5814647674560547, "y": 0.4377889633178711, "z": 1.12139892578125 }, "axis_scores": { "Quantum imaging": 0.7123147249221802, "Quantum Life Science Sensing": 0.7473288774490356, "Quantum sensing Detection": 0.7305635213851929, "Quantum sensing Metrology": 0.7044965624809265, "Quantum sensing navigation": 0.720777690410614, "Quantum sensing Position": 0.6835861206054688, "Quantum sensing Timing": 0.7094486951828003, "Quantum sensing": 0.7393102645874023, "Quantum control": 0.7039996981620789 } }, { "id": 3443, "title": "A systematic interpolatory method for an impurity in a one-dimensional fermionic background", "abstract": "We explore a new numerical method for studying one-dimensional quantum systems in a trapping potential. We focus on the setup of an impurity in a fermionic background, where a single distinguishable p...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3449, "doi": "10.21468/SciPostPhys.9.1.005", "umap_coordinates": { "x": 394.5038146972656, "y": 136.4425506591797, "z": 206.67279052734375 }, "tsne_coordinates": { "x": -10.270611763000488, "y": -10.674433708190918, "z": 33.29586410522461 }, "pca_coordinates": { "x": 0.697533369064331, "y": 1.8432984352111816, "z": 0.23350757360458374 }, "axis_scores": { "Quantum imaging": 0.685909628868103, "Quantum Life Science Sensing": 0.657189667224884, "Quantum sensing Detection": 0.6606898903846741, "Quantum sensing Metrology": 0.6514877080917358, "Quantum sensing navigation": 0.6936981678009033, "Quantum sensing Position": 0.6722700595855713, "Quantum sensing Timing": 0.6955646872520447, "Quantum sensing": 0.6731118559837341, "Quantum control": 0.67515629529953 } }, { "id": 3444, "title": "Dynamics of colloidal particles in ice", "abstract": "We use x-ray photon correlation spectroscopy (XPCS) to probe the dynamics of colloidal particles in polycrystalline ice. During freezing, the dendritic ice morphology and rejection of particles from t...", "citations": 20, "author_count": 5, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3450, "doi": "10.1063/1.3665927", "umap_coordinates": { "x": 393.126953125, "y": 136.0576171875, "z": 206.7152862548828 }, "tsne_coordinates": { "x": 0.9064921736717224, "y": 2.5250959396362305, "z": 36.295230865478516 }, "pca_coordinates": { "x": 1.3658430576324463, "y": -1.0209250450134277, "z": -3.4084043502807617 }, "axis_scores": { "Quantum imaging": 0.6927904486656189, "Quantum Life Science Sensing": 0.727059006690979, "Quantum sensing Detection": 0.673736572265625, "Quantum sensing Metrology": 0.6650077104568481, "Quantum sensing navigation": 0.6917768716812134, "Quantum sensing Position": 0.670661985874176, "Quantum sensing Timing": 0.6451576352119446, "Quantum sensing": 0.6861889362335205, "Quantum control": 0.6798862218856812 } }, { "id": 3445, "title": "Quantum statistics of atoms in microstructures", "abstract": "This paper proposes groovelike potential structures for the observation of quantum information processing by trapped particles. As an illustration the effect of quantum statistics at a 50-50 beam spli...", "citations": 34, "author_count": 4, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3451, "doi": "10.1103/PhysRevA.59.3841", "umap_coordinates": { "x": 394.9027404785156, "y": 136.58274841308594, "z": 208.8228302001953 }, "tsne_coordinates": { "x": -11.23965072631836, "y": -17.339801788330078, "z": 9.495781898498535 }, "pca_coordinates": { "x": 5.2278828620910645, "y": -0.36104631423950195, "z": -0.6927348971366882 }, "axis_scores": { "Quantum imaging": 0.7726629376411438, "Quantum Life Science Sensing": 0.7799315452575684, "Quantum sensing Detection": 0.7703282237052917, "Quantum sensing Metrology": 0.7626031637191772, "Quantum sensing navigation": 0.7943707704544067, "Quantum sensing Position": 0.7558115720748901, "Quantum sensing Timing": 0.7421531677246094, "Quantum sensing": 0.7875564098358154, "Quantum control": 0.7494451403617859 } }, { "id": 3446, "title": "Visible-light-driven photocatalysis with Z-scheme Ag3PO4@N-GQDs@g-C3N4 nano/hetero-junctions", "abstract": "The fabrication and improved performance of Z-scheme visible-light-driven Ag3PO4@N-GQDs@g-C3N4 ternary nano/hetero-junctions have been described in this study. Fern-like silver orthophosphate (Ag3PO4)...", "citations": 12, "author_count": 5, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3452, "doi": "10.1007/s00339-022-06005-x", "umap_coordinates": { "x": 392.5333557128906, "y": 134.605224609375, "z": 205.64479064941406 }, "tsne_coordinates": { "x": 24.656585693359375, "y": 15.55102825164795, "z": -20.573427200317383 }, "pca_coordinates": { "x": -1.0766409635543823, "y": -1.620455265045166, "z": 0.7081679701805115 }, "axis_scores": { "Quantum imaging": 0.6954411268234253, "Quantum Life Science Sensing": 0.7066274285316467, "Quantum sensing Detection": 0.6895216107368469, "Quantum sensing Metrology": 0.682220995426178, "Quantum sensing navigation": 0.7202471494674683, "Quantum sensing Position": 0.6654630899429321, "Quantum sensing Timing": 0.6623179912567139, "Quantum sensing": 0.698927104473114, "Quantum control": 0.7102843523025513 } }, { "id": 3447, "title": "Quantum Fuzzy Federated Learning for Privacy Protection in Intelligent Information Processing", "abstract": "With the advent of the intelligent information processing era, more and more private sensitive data are being collected and analyzed for intelligent decision making tasks. Such information processing ...", "citations": 4, "author_count": 4, "categories": [ "Computer Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3453, "doi": "10.1109/TFUZZ.2024.3419559", "umap_coordinates": { "x": 395.1986083984375, "y": 135.85499572753906, "z": 205.64414978027344 }, "tsne_coordinates": { "x": -26.918563842773438, "y": 19.26011085510254, "z": 14.063987731933594 }, "pca_coordinates": { "x": 0.2620915174484253, "y": 1.7619576454162598, "z": 0.3999606966972351 }, "axis_scores": { "Quantum imaging": 0.7576929330825806, "Quantum Life Science Sensing": 0.7585601210594177, "Quantum sensing Detection": 0.7637055516242981, "Quantum sensing Metrology": 0.7546775937080383, "Quantum sensing navigation": 0.7478691935539246, "Quantum sensing Position": 0.7154607176780701, "Quantum sensing Timing": 0.7270956039428711, "Quantum sensing": 0.7730908989906311, "Quantum control": 0.7617758512496948 } }, { "id": 3448, "title": "Controlling the morphology of mesostructured silicas by pseudomorphic transformation: A route towards applications", "abstract": "Micelle-templated silicas (MTSs) such as MCM-41 and MCM-48 feature unique textural properties owing to their uniform distribution of mesopores with tunable sizes. MTS synthesis is relevant to unique s...", "citations": 164, "author_count": 8, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3454, "doi": "10.1002/adfm.200500825", "umap_coordinates": { "x": 392.7386169433594, "y": 134.4526824951172, "z": 205.25872802734375 }, "tsne_coordinates": { "x": 32.645530700683594, "y": 2.689358711242676, "z": -7.823810577392578 }, "pca_coordinates": { "x": -2.9022269248962402, "y": -0.5193262100219727, "z": -1.9262690544128418 }, "axis_scores": { "Quantum imaging": 0.7094246745109558, "Quantum Life Science Sensing": 0.7255591154098511, "Quantum sensing Detection": 0.6821650266647339, "Quantum sensing Metrology": 0.7129669785499573, "Quantum sensing navigation": 0.6815324425697327, "Quantum sensing Position": 0.6600992679595947, "Quantum sensing Timing": 0.6385331749916077, "Quantum sensing": 0.7114800214767456, "Quantum control": 0.7020398378372192 } }, { "id": 3449, "title": "Achieving spin-squeezed states by quench dynamics in a quantum chain", "abstract": "We study the time evolution of spin squeezing in the one-dimensional spin-1/2 XY model subject to a sudden quantum quench of a transverse magnetic field. The initial state is selected from the ground ...", "citations": 10, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3455, "doi": "10.1103/PhysRevB.105.024425", "umap_coordinates": { "x": 395.5682067871094, "y": 136.5552978515625, "z": 208.26194763183594 }, "tsne_coordinates": { "x": -17.128387451171875, "y": -25.248409271240234, "z": 1.263602614402771 }, "pca_coordinates": { "x": 5.154961109161377, "y": 0.20830035209655762, "z": 0.3245617747306824 }, "axis_scores": { "Quantum imaging": 0.7349388003349304, "Quantum Life Science Sensing": 0.7169075012207031, "Quantum sensing Detection": 0.738054633140564, "Quantum sensing Metrology": 0.7272807359695435, "Quantum sensing navigation": 0.7500203847885132, "Quantum sensing Position": 0.7278562784194946, "Quantum sensing Timing": 0.70319002866745, "Quantum sensing": 0.7527602314949036, "Quantum control": 0.7504540085792542 } }, { "id": 3450, "title": "Performance of the ALICE Electromagnetic Calorimeter", "abstract": "The performance of the electromagnetic calorimeter of the ALICE experiment during operation in 2010-2018 at the Large Hadron Collider is presented. After a short introduction into the design, readout,...", "citations": 10, "author_count": 1087, "categories": [ "Instruments & Instrumentation" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3456, "doi": "10.1088/1748-0221/18/08/P08007", "umap_coordinates": { "x": 395.844970703125, "y": 134.24534606933594, "z": 206.28684997558594 }, "tsne_coordinates": { "x": -29.9130802154541, "y": 21.373754501342773, "z": -10.521366119384766 }, "pca_coordinates": { "x": -0.8370422124862671, "y": 2.775676727294922, "z": 2.4715638160705566 }, "axis_scores": { "Quantum imaging": 0.681075930595398, "Quantum Life Science Sensing": 0.6541597247123718, "Quantum sensing Detection": 0.6653884649276733, "Quantum sensing Metrology": 0.6647059917449951, "Quantum sensing navigation": 0.6653801798820496, "Quantum sensing Position": 0.6825129985809326, "Quantum sensing Timing": 0.6853564381599426, "Quantum sensing": 0.6692758798599243, "Quantum control": 0.6483467221260071 } }, { "id": 3451, "title": "Isolated electron spins in silicon carbide with millisecond coherence times", "abstract": "The elimination of defects from SiC has facilitated its move to the forefront of the optoelectronics and power-electronics industries(1). Nonetheless, because certain SiC defects have electronic state...", "citations": 471, "author_count": 10, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3457, "doi": "10.1038/NMAT4144", "umap_coordinates": { "x": 393.71270751953125, "y": 135.89341735839844, "z": 207.58827209472656 }, "tsne_coordinates": { "x": 5.495419979095459, "y": -9.868429183959961, "z": 32.119075775146484 }, "pca_coordinates": { "x": 1.2968411445617676, "y": -0.8115367889404297, "z": 0.3803088068962097 }, "axis_scores": { "Quantum imaging": 0.7094273567199707, "Quantum Life Science Sensing": 0.7097492218017578, "Quantum sensing Detection": 0.6857435703277588, "Quantum sensing Metrology": 0.6898849010467529, "Quantum sensing navigation": 0.6818008422851562, "Quantum sensing Position": 0.662595808506012, "Quantum sensing Timing": 0.7013697624206543, "Quantum sensing": 0.7000705599784851, "Quantum control": 0.6566938757896423 } }, { "id": 3452, "title": "Reduced-order modeling, error estimation, and the role of the start-vector: The recursive residue generation method revisited", "abstract": "The recursive residue generation method (RRGM) [Wyatt, R. E. Adv. Chem. Phys. 1989, 73, 231] is rederived using the formalism of reduced-order modeling [Bai, Z. Appl. Numerical Math. 2002, 43, 9]. A s...", "citations": 4, "author_count": 2, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3458, "doi": "10.1021/jp072647c", "umap_coordinates": { "x": 393.5355224609375, "y": 137.4846954345703, "z": 205.6775360107422 }, "tsne_coordinates": { "x": -6.463743209838867, "y": 7.02384614944458, "z": 14.520918846130371 }, "pca_coordinates": { "x": -1.4905848503112793, "y": 2.7957072257995605, "z": -1.2938377857208252 }, "axis_scores": { "Quantum imaging": 0.6669202446937561, "Quantum Life Science Sensing": 0.6845815777778625, "Quantum sensing Detection": 0.6618697643280029, "Quantum sensing Metrology": 0.6622689366340637, "Quantum sensing navigation": 0.6867382526397705, "Quantum sensing Position": 0.6989251971244812, "Quantum sensing Timing": 0.6920006275177002, "Quantum sensing": 0.6719304919242859, "Quantum control": 0.678670346736908 } }, { "id": 3453, "title": "First attempts to combine capillary tubes with photocathodes", "abstract": "We describe our efforts to combine glass capillary plates, operating as a gas amplification structure at similar to 1 atm, with photocathodes sensitive to visible light. Such capillary tubes are a by-...", "citations": 56, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3459, "doi": "10.1016/S0168-9002(99)00346-0", "umap_coordinates": { "x": 394.2665100097656, "y": 134.43692016601562, "z": 205.0646514892578 }, "tsne_coordinates": { "x": -21.632314682006836, "y": 17.591230392456055, "z": -18.10470199584961 }, "pca_coordinates": { "x": -2.9744796752929688, "y": 1.7542238235473633, "z": 2.0946249961853027 }, "axis_scores": { "Quantum imaging": 0.6234228610992432, "Quantum Life Science Sensing": 0.6529276967048645, "Quantum sensing Detection": 0.6429671049118042, "Quantum sensing Metrology": 0.6341894268989563, "Quantum sensing navigation": 0.635498046875, "Quantum sensing Position": 0.6336634159088135, "Quantum sensing Timing": 0.6218444108963013, "Quantum sensing": 0.646090030670166, "Quantum control": 0.6096809506416321 } }, { "id": 3454, "title": "Si δ-layers embedded in GaAs", "abstract": "An ultrathin, 1-6 monolayers (MLs) thick, Si delta layer, is embedded in bulk GaAs. The normally observed self-assembling with resulting phase separation can be avoided until Slayer thickness of 4 MLs...", "citations": 1, "author_count": 11, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3460, "doi": "10.1063/1.122871", "umap_coordinates": { "x": 393.04052734375, "y": 133.66700744628906, "z": 208.33908081054688 }, "tsne_coordinates": { "x": 22.639263153076172, "y": -20.68776512145996, "z": -2.2596795558929443 }, "pca_coordinates": { "x": 1.947049617767334, "y": -3.398350238800049, "z": 2.0833396911621094 }, "axis_scores": { "Quantum imaging": 0.7394977807998657, "Quantum Life Science Sensing": 0.7241578698158264, "Quantum sensing Detection": 0.7371745705604553, "Quantum sensing Metrology": 0.7360632419586182, "Quantum sensing navigation": 0.7420291900634766, "Quantum sensing Position": 0.7342094779014587, "Quantum sensing Timing": 0.7076199650764465, "Quantum sensing": 0.7543600797653198, "Quantum control": 0.6986476182937622 } }, { "id": 3455, "title": "Digital Self-Coherent Continuous Variable Quantum Key Distribution System", "abstract": "We investigate a continuous variable quantum key distribution system with digital tracking of both polarization and phase. Stable operation over 25km for 36 hours with secret key rates between 1.9 and...", "citations": 1, "author_count": 12, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3461, "doi": null, "umap_coordinates": { "x": 391.9253234863281, "y": 139.48753356933594, "z": 208.94578552246094 }, "tsne_coordinates": { "x": -13.972692489624023, "y": 46.040283203125, "z": -0.3824130594730377 }, "pca_coordinates": { "x": 1.5009596347808838, "y": 3.793186664581299, "z": -1.0258865356445312 }, "axis_scores": { "Quantum imaging": 0.7551008462905884, "Quantum Life Science Sensing": 0.7748590707778931, "Quantum sensing Detection": 0.7624154090881348, "Quantum sensing Metrology": 0.7373182773590088, "Quantum sensing navigation": 0.7577424645423889, "Quantum sensing Position": 0.7301681041717529, "Quantum sensing Timing": 0.7248337864875793, "Quantum sensing": 0.7666428685188293, "Quantum control": 0.7749285101890564 } }, { "id": 3456, "title": "Radiative lifetime measurements in TmIII with time-resolved laser spectroscopy and comparisons with HFR calculations", "abstract": "Natural radiative lifetimes of eight levels in Tm m were measured with the time-resolved laser-induced fluorescence (LIF) technique. Free doubly ionized thulium ions were obtained in a laser-produced ...", "citations": 31, "author_count": 10, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3462, "doi": "10.1088/0953-4075/34/8/301", "umap_coordinates": { "x": 394.3445739746094, "y": 135.4302520751953, "z": 205.83482360839844 }, "tsne_coordinates": { "x": -4.302623748779297, "y": 1.4782319068908691, "z": 15.38361930847168 }, "pca_coordinates": { "x": -1.5658466815948486, "y": 2.0787737369537354, "z": -0.983973503112793 }, "axis_scores": { "Quantum imaging": 0.656039834022522, "Quantum Life Science Sensing": 0.718804121017456, "Quantum sensing Detection": 0.643093466758728, "Quantum sensing Metrology": 0.6592133045196533, "Quantum sensing navigation": 0.6249823570251465, "Quantum sensing Position": 0.6186134815216064, "Quantum sensing Timing": 0.6510365605354309, "Quantum sensing": 0.6535608768463135, "Quantum control": 0.5974326133728027 } }, { "id": 3457, "title": "Particle physics at the European Spallation Source", "abstract": "Presently under construction in Lund, Sweden, the European Spallation Source (ESS) will be the world's brightest neutron source. As such, it has the potential for a particle physics program with a uni...", "citations": 28, "author_count": 180, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3463, "doi": "10.1016/j.physrep.2023.06.001", "umap_coordinates": { "x": 396.48907470703125, "y": 134.443115234375, "z": 206.80767822265625 }, "tsne_coordinates": { "x": -21.599031448364258, "y": 16.307470321655273, "z": -8.690866470336914 }, "pca_coordinates": { "x": -0.8824239373207092, "y": 1.0065064430236816, "z": 0.6411420702934265 }, "axis_scores": { "Quantum imaging": 0.6920413970947266, "Quantum Life Science Sensing": 0.7152959704399109, "Quantum sensing Detection": 0.6915133595466614, "Quantum sensing Metrology": 0.6743298768997192, "Quantum sensing navigation": 0.7051651477813721, "Quantum sensing Position": 0.7195492386817932, "Quantum sensing Timing": 0.6942776441574097, "Quantum sensing": 0.6953781247138977, "Quantum control": 0.6650179624557495 } }, { "id": 3458, "title": "Magnetic properties of carbon phases synthesized using high-pressure high-temperature treatment - art. no. 224424", "abstract": "Two sets of samples were synthesized at 3.5 GPa near the point of C-60 cage collapse at different annealing times. A clear structural transformation from mixture of C-60 polymeric phases to graphite-l...", "citations": 13, "author_count": 9, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3464, "doi": "10.1103/PhysRevB.72.224424", "umap_coordinates": { "x": 393.150390625, "y": 136.34588623046875, "z": 208.7565155029297 }, "tsne_coordinates": { "x": 4.337682723999023, "y": -40.10690689086914, "z": 16.302871704101562 }, "pca_coordinates": { "x": 2.495896339416504, "y": -0.27526092529296875, "z": -2.88482928276062 }, "axis_scores": { "Quantum imaging": 0.683594822883606, "Quantum Life Science Sensing": 0.7076330780982971, "Quantum sensing Detection": 0.6625179052352905, "Quantum sensing Metrology": 0.6668173670768738, "Quantum sensing navigation": 0.6699277758598328, "Quantum sensing Position": 0.6534507274627686, "Quantum sensing Timing": 0.6446755528450012, "Quantum sensing": 0.6861637830734253, "Quantum control": 0.6878371238708496 } }, { "id": 3459, "title": "Nanowire resonant tunneling diodes", "abstract": "Semiconductor heterostructures and their implementation into electronic and photonic devices have had tremendous impact on science and technology. In the development of quantum nanoelectronics, one-di...", "citations": 448, "author_count": 8, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3465, "doi": "10.1063/1.1527995", "umap_coordinates": { "x": 393.5925598144531, "y": 133.96652221679688, "z": 208.411865234375 }, "tsne_coordinates": { "x": 26.632234573364258, "y": -30.927169799804688, "z": -0.23214219510555267 }, "pca_coordinates": { "x": 2.3785817623138428, "y": -3.214102268218994, "z": 1.887666940689087 }, "axis_scores": { "Quantum imaging": 0.7337989807128906, "Quantum Life Science Sensing": 0.739982008934021, "Quantum sensing Detection": 0.7582411766052246, "Quantum sensing Metrology": 0.7515087127685547, "Quantum sensing navigation": 0.7588798999786377, "Quantum sensing Position": 0.7150239944458008, "Quantum sensing Timing": 0.7149326801300049, "Quantum sensing": 0.7718831300735474, "Quantum control": 0.7228145599365234 } }, { "id": 3460, "title": "Single-qubit lasing and cooling at the Rabi frequency", "abstract": "For a superconducting qubit driven to perform Rabi oscillations and coupled to a slow electromagnetic or nanomechanical oscillator we describe previously unexplored quantum optics effects. When the Ra...", "citations": 112, "author_count": 6, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3466, "doi": "10.1103/PhysRevLett.100.037003", "umap_coordinates": { "x": 394.9071350097656, "y": 135.11415100097656, "z": 208.7236328125 }, "tsne_coordinates": { "x": -2.0621895790100098, "y": -27.911237716674805, "z": -11.200224876403809 }, "pca_coordinates": { "x": 4.843891620635986, "y": -1.534867286682129, "z": 0.4772421717643738 }, "axis_scores": { "Quantum imaging": 0.724561333656311, "Quantum Life Science Sensing": 0.7477990388870239, "Quantum sensing Detection": 0.7297697067260742, "Quantum sensing Metrology": 0.7298535108566284, "Quantum sensing navigation": 0.7323242425918579, "Quantum sensing Position": 0.7037328481674194, "Quantum sensing Timing": 0.7106279730796814, "Quantum sensing": 0.7417763471603394, "Quantum control": 0.7134907841682434 } }, { "id": 3461, "title": "Semi-classical treatment of chemical reactions: extension to 3D wave packets", "abstract": "A recently developed method for approximate solution of three-atomic reactive scattering problems in hyperspherical coordinates [Chem. Phys. 209 (1996) 377] is improved by treating all three internal ...", "citations": 13, "author_count": 3, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3467, "doi": "10.1016/S0301-0104(97)00245-0", "umap_coordinates": { "x": 394.22283935546875, "y": 136.97744750976562, "z": 206.1007537841797 }, "tsne_coordinates": { "x": -12.64570140838623, "y": 12.083454132080078, "z": 24.160465240478516 }, "pca_coordinates": { "x": -0.6376512050628662, "y": 1.2051104307174683, "z": -0.8306354284286499 }, "axis_scores": { "Quantum imaging": 0.7331361174583435, "Quantum Life Science Sensing": 0.7435559034347534, "Quantum sensing Detection": 0.7229665517807007, "Quantum sensing Metrology": 0.7097377777099609, "Quantum sensing navigation": 0.7233788967132568, "Quantum sensing Position": 0.691314697265625, "Quantum sensing Timing": 0.6877978444099426, "Quantum sensing": 0.7365749478340149, "Quantum control": 0.711565375328064 } }, { "id": 3462, "title": "2-STEP RELAXATION DECAY IN A STRONG GLASS FORMER", "abstract": "The dynamics around the liquid-glass transition in B2O3 have been investigated by photon correlation spectroscopy. A two-step relaxation is for the first time observed in a ''strong'' network forming ...", "citations": 88, "author_count": 5, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 3468, "doi": "10.1103/PhysRevLett.71.2260", "umap_coordinates": { "x": 393.9136657714844, "y": 136.81158447265625, "z": 208.30718994140625 }, "tsne_coordinates": { "x": -5.620341777801514, "y": -43.5435791015625, "z": 9.725251197814941 }, "pca_coordinates": { "x": 1.75895094871521, "y": -0.26758456230163574, "z": -1.874394416809082 }, "axis_scores": { "Quantum imaging": 0.6619464159011841, "Quantum Life Science Sensing": 0.6930322647094727, "Quantum sensing Detection": 0.676372766494751, "Quantum sensing Metrology": 0.6405742764472961, "Quantum sensing navigation": 0.6555659770965576, "Quantum sensing Position": 0.6513488292694092, "Quantum sensing Timing": 0.659107506275177, "Quantum sensing": 0.6858146786689758, "Quantum control": 0.6412305235862732 } }, { "id": 3463, "title": "Three-state light switch of [Ru(phen)2dppz]2+: Distinct excited-state species with two, one, or no hydrogen bonds from solvent", "abstract": "The ruthenium complexes of dppz (dipyrido[3,2-a:2',3'-c]phenazine) have found wide interest due to their environment-sensitive luminescence and are used, for example, as spectroscopic probes for DNA. ...", "citations": 132, "author_count": 4, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3469, "doi": "10.1021/jp037967k", "umap_coordinates": { "x": 391.88507080078125, "y": 136.167724609375, "z": 205.4151153564453 }, "tsne_coordinates": { "x": -2.408388137817383, "y": -20.76506996154785, "z": -26.952045440673828 }, "pca_coordinates": { "x": -0.46118253469467163, "y": -0.8457918167114258, "z": -3.024717330932617 }, "axis_scores": { "Quantum imaging": 0.7022939920425415, "Quantum Life Science Sensing": 0.7260334491729736, "Quantum sensing Detection": 0.7167519330978394, "Quantum sensing Metrology": 0.6788338422775269, "Quantum sensing navigation": 0.6837493181228638, "Quantum sensing Position": 0.6786454319953918, "Quantum sensing Timing": 0.6684342622756958, "Quantum sensing": 0.7226637601852417, "Quantum control": 0.690433144569397 } }, { "id": 3464, "title": "Gauge fixing, co-BRST and time evolution in QED", "abstract": "We consider BRST-invariant inner product states for quantum electrodynamics constructed from trivial BRST-invariant states and a gauge regulator. The trivial states are products of matter and ghost st...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3470, "doi": "10.1142/S0217751X96002194", "umap_coordinates": { "x": 395.79595947265625, "y": 136.10060119628906, "z": 206.0699920654297 }, "tsne_coordinates": { "x": -39.463218688964844, "y": 7.035572528839111, "z": 10.516944885253906 }, "pca_coordinates": { "x": 0.07640814781188965, "y": 3.8319311141967773, "z": -1.0965635776519775 }, "axis_scores": { "Quantum imaging": 0.7109717130661011, "Quantum Life Science Sensing": 0.7206037044525146, "Quantum sensing Detection": 0.6957224011421204, "Quantum sensing Metrology": 0.6919010877609253, "Quantum sensing navigation": 0.72719407081604, "Quantum sensing Position": 0.7312402129173279, "Quantum sensing Timing": 0.7521688938140869, "Quantum sensing": 0.7081418037414551, "Quantum control": 0.7326528429985046 } }, { "id": 3465, "title": "Influence of the medium length on high-order harmonic generation", "abstract": "We study high-order harmonic generation using a 110 fs Ti:sapphire laser loosely focused into a variable-length gas cell filled with neon or argon at 5 mbar pressure. The harmonic intensity is recorde...", "citations": 25, "author_count": 9, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3471, "doi": "10.1088/0953-4075/32/22/316", "umap_coordinates": { "x": 395.0423278808594, "y": 135.62741088867188, "z": 205.86209106445312 }, "tsne_coordinates": { "x": -7.507509231567383, "y": -15.027603149414062, "z": -15.426973342895508 }, "pca_coordinates": { "x": -0.6099296808242798, "y": 3.3365719318389893, "z": -0.33884096145629883 }, "axis_scores": { "Quantum imaging": 0.674720048904419, "Quantum Life Science Sensing": 0.6902880072593689, "Quantum sensing Detection": 0.650672197341919, "Quantum sensing Metrology": 0.6451431512832642, "Quantum sensing navigation": 0.641109824180603, "Quantum sensing Position": 0.6568897366523743, "Quantum sensing Timing": 0.6415034532546997, "Quantum sensing": 0.6696776151657104, "Quantum control": 0.6590018272399902 } }, { "id": 3466, "title": "NEW INNER PRODUCTS FOR PHYSICAL STATES IN BRST QUANTIZATION", "abstract": "In a BRST quantization involving operators with continuous eigenvalues the naive inner products of physical states are usually undefined. In order to include such cases we propose new inner products d...", "citations": 25, "author_count": 3, "categories": [ "Physics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 3472, "doi": "10.1016/0550-3213(91)90098-I", "umap_coordinates": { "x": 394.34490966796875, "y": 137.3768768310547, "z": 206.18577575683594 }, "tsne_coordinates": { "x": -25.910266876220703, "y": -9.173203468322754, "z": 16.509653091430664 }, "pca_coordinates": { "x": 1.4734385013580322, "y": 2.4265029430389404, "z": -0.10462212562561035 }, "axis_scores": { "Quantum imaging": 0.732711136341095, "Quantum Life Science Sensing": 0.7305724620819092, "Quantum sensing Detection": 0.7287238240242004, "Quantum sensing Metrology": 0.729816734790802, "Quantum sensing navigation": 0.7205788493156433, "Quantum sensing Position": 0.7133671641349792, "Quantum sensing Timing": 0.6955356001853943, "Quantum sensing": 0.735201358795166, "Quantum control": 0.6963384747505188 } }, { "id": 3467, "title": "First experimental tests with a CdTe photon counting pixel detector hybridized with a Medipix2 readout chip", "abstract": "We present preliminary tests of hybrid pixel detectors consisting of the Medipix2 readout chip bump-bonded to a 1-mm-thick CdTe pixel detector. This room temperature imaging system for single photon c...", "citations": 85, "author_count": 14, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3473, "doi": "10.1109/tns.2004.832324", "umap_coordinates": { "x": 394.8304138183594, "y": 132.7379608154297, "z": 205.72630310058594 }, "tsne_coordinates": { "x": -19.844850540161133, "y": 18.182165145874023, "z": -18.133220672607422 }, "pca_coordinates": { "x": -1.9213378429412842, "y": 1.0007404088974, "z": 3.502542018890381 }, "axis_scores": { "Quantum imaging": 0.705406129360199, "Quantum Life Science Sensing": 0.7182926535606384, "Quantum sensing Detection": 0.7350353002548218, "Quantum sensing Metrology": 0.7199761271476746, "Quantum sensing navigation": 0.7052934169769287, "Quantum sensing Position": 0.7000277042388916, "Quantum sensing Timing": 0.7224185466766357, "Quantum sensing": 0.7291185855865479, "Quantum control": 0.6621764898300171 } }, { "id": 3468, "title": "Towards an electrowetting-based digital microfluidic platform for magnetic immunoassays", "abstract": "We demonstrate ElectroWetting-On-Dielectric (EWOD) transport and SQUID gradiometer detection of magnetic nanoparticles (MNPs) suspended in a 2 mu l de-ionized water droplet. This proof-of-concept meth...", "citations": 21, "author_count": 12, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3474, "doi": "10.1039/b912646e", "umap_coordinates": { "x": 393.5231018066406, "y": 134.74713134765625, "z": 204.44537353515625 }, "tsne_coordinates": { "x": 20.075441360473633, "y": 23.89259147644043, "z": -17.7231388092041 }, "pca_coordinates": { "x": -2.6581103801727295, "y": -0.3500676155090332, "z": -1.0637909173965454 }, "axis_scores": { "Quantum imaging": 0.6526515483856201, "Quantum Life Science Sensing": 0.665139377117157, "Quantum sensing Detection": 0.6639680862426758, "Quantum sensing Metrology": 0.6602028012275696, "Quantum sensing navigation": 0.6552687287330627, "Quantum sensing Position": 0.6535111665725708, "Quantum sensing Timing": 0.6370441317558289, "Quantum sensing": 0.6676183938980103, "Quantum control": 0.6477219462394714 } }, { "id": 3469, "title": "Macroscopic quantum tunneling in d-wave YBa2Cu3O7-δ josephson junctions - art. no. 087003", "abstract": "The escape rate from the zero voltage state in a superconducting Josephson junction (JJ) is determined by the temperature, but it saturates at low temperature due to macroscopic quantum tunneling (MQT...", "citations": 156, "author_count": 8, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3475, "doi": "10.1103/PhysRevLett.94.087003", "umap_coordinates": { "x": 394.6832580566406, "y": 135.21533203125, "z": 208.9091033935547 }, "tsne_coordinates": { "x": 0.886863648891449, "y": -20.518129348754883, "z": 13.92032241821289 }, "pca_coordinates": { "x": 4.651866436004639, "y": -1.5282535552978516, "z": 0.10861927270889282 }, "axis_scores": { "Quantum imaging": 0.7165650129318237, "Quantum Life Science Sensing": 0.7129950523376465, "Quantum sensing Detection": 0.71422278881073, "Quantum sensing Metrology": 0.7052497863769531, "Quantum sensing navigation": 0.7381240129470825, "Quantum sensing Position": 0.7045190930366516, "Quantum sensing Timing": 0.7080873250961304, "Quantum sensing": 0.7278416156768799, "Quantum control": 0.7078245878219604 } }, { "id": 3470, "title": "Quantum key distribution using multilevel encoding:: security analysis", "abstract": "We propose an extension of quantum key distribution based on encoding the key into quNits, i.e. quantum states in an N-dimensional Hilbert space. We,estimate both the mutual information between the le...", "citations": 74, "author_count": 6, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3476, "doi": "10.1088/0305-4470/35/47/307", "umap_coordinates": { "x": 395.6398620605469, "y": 136.70956420898438, "z": 206.78085327148438 }, "tsne_coordinates": { "x": -30.844661712646484, "y": -10.636784553527832, "z": 1.1331539154052734 }, "pca_coordinates": { "x": 2.4067230224609375, "y": 2.9444491863250732, "z": 1.1446471214294434 }, "axis_scores": { "Quantum imaging": 0.7416653633117676, "Quantum Life Science Sensing": 0.7137107849121094, "Quantum sensing Detection": 0.7108275890350342, "Quantum sensing Metrology": 0.6937267184257507, "Quantum sensing navigation": 0.7335047721862793, "Quantum sensing Position": 0.7000393867492676, "Quantum sensing Timing": 0.6847482919692993, "Quantum sensing": 0.7240453362464905, "Quantum control": 0.7019803524017334 } }, { "id": 3471, "title": "'Nonlocal' dispersion cancelation with classical light", "abstract": "We show a classical analog of the original nonlocal dispersion cancelation effect in intensity interferometry with stationary light obeying Gaussian statistics. The dispersion compensation is due to t...", "citations": 21, "author_count": 4, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3477, "doi": "10.1088/1367-2630/11/6/063041", "umap_coordinates": { "x": 395.6072692871094, "y": 136.02920532226562, "z": 206.87928771972656 }, "tsne_coordinates": { "x": -26.326488494873047, "y": -7.883372783660889, "z": -13.490628242492676 }, "pca_coordinates": { "x": 0.8215501308441162, "y": 2.66219425201416, "z": 1.7799286842346191 }, "axis_scores": { "Quantum imaging": 0.7426875829696655, "Quantum Life Science Sensing": 0.7127206325531006, "Quantum sensing Detection": 0.7212126851081848, "Quantum sensing Metrology": 0.7121871709823608, "Quantum sensing navigation": 0.7375587821006775, "Quantum sensing Position": 0.7138652801513672, "Quantum sensing Timing": 0.6932178139686584, "Quantum sensing": 0.733714759349823, "Quantum control": 0.7255194783210754 } }, { "id": 3472, "title": "Semiconductor nanostructures enabled by aerosol technology", "abstract": "Aerosol technology provides efficient methods for producing nanoparticles with well-controlled composition and size distribution. This review provides an overview of methods and results obtained by us...", "citations": 23, "author_count": 8, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3478, "doi": "10.1007/s11467-013-0405-x", "umap_coordinates": { "x": 393.0353088378906, "y": 133.7698516845703, "z": 206.0297393798828 }, "tsne_coordinates": { "x": 35.724334716796875, "y": 4.798559188842773, "z": -18.392099380493164 }, "pca_coordinates": { "x": -3.0393283367156982, "y": -2.4762139320373535, "z": 1.9243669509887695 }, "axis_scores": { "Quantum imaging": 0.699682891368866, "Quantum Life Science Sensing": 0.7242763042449951, "Quantum sensing Detection": 0.698209822177887, "Quantum sensing Metrology": 0.7073574662208557, "Quantum sensing navigation": 0.7007669806480408, "Quantum sensing Position": 0.6855605840682983, "Quantum sensing Timing": 0.6447018980979919, "Quantum sensing": 0.7084332704544067, "Quantum control": 0.6829280257225037 } }, { "id": 3473, "title": "A Theoretical Study of Semiclassic Models: Toward a Quantum Mechanical Representation of Chemical Processes", "abstract": "CASPT2 level of theory and aug-cc-pV6Z atomic basis set for hydrogen and 6 base states is sufficient to accurately reproduce the historical calculations of Kolos-Wolniewicz for H-2(1) Sigma(+)(g) pote...", "citations": 6, "author_count": 5, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3479, "doi": "10.1002/qua.22646", "umap_coordinates": { "x": 394.296630859375, "y": 137.6125946044922, "z": 205.9121551513672 }, "tsne_coordinates": { "x": -13.483047485351562, "y": 10.242029190063477, "z": 22.316715240478516 }, "pca_coordinates": { "x": 0.8518602848052979, "y": 2.554251194000244, "z": -2.96651029586792 }, "axis_scores": { "Quantum imaging": 0.7260106205940247, "Quantum Life Science Sensing": 0.7434279918670654, "Quantum sensing Detection": 0.72698575258255, "Quantum sensing Metrology": 0.72132408618927, "Quantum sensing navigation": 0.7386600375175476, "Quantum sensing Position": 0.7090291976928711, "Quantum sensing Timing": 0.7125736474990845, "Quantum sensing": 0.7460294961929321, "Quantum control": 0.7561149597167969 } }, { "id": 3474, "title": "Distance-based degrees of polarization for a quantum field - art. no. 033813", "abstract": "It is well established that unpolarized light is invariant with respect to any SU(2) polarization transformation. This requirement fully characterizes the set of density matrices representing unpolari...", "citations": 53, "author_count": 6, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3480, "doi": "10.1103/PhysRevA.72.033813", "umap_coordinates": { "x": 394.2226867675781, "y": 136.59072875976562, "z": 206.7231903076172 }, "tsne_coordinates": { "x": -18.937984466552734, "y": -11.100107192993164, "z": -8.109559059143066 }, "pca_coordinates": { "x": 3.06325101852417, "y": 1.4324333667755127, "z": -0.12014907598495483 }, "axis_scores": { "Quantum imaging": 0.721147358417511, "Quantum Life Science Sensing": 0.7334044575691223, "Quantum sensing Detection": 0.7170894742012024, "Quantum sensing Metrology": 0.7219517230987549, "Quantum sensing navigation": 0.728666365146637, "Quantum sensing Position": 0.732460618019104, "Quantum sensing Timing": 0.6859344840049744, "Quantum sensing": 0.732085108757019, "Quantum control": 0.6896321773529053 } }, { "id": 3475, "title": "Interchain photoluminescence in substituted polyfluorenes", "abstract": "We have characterised the interchain emitting states of two substituted polyfluorenes with steady-state and time-resolved photoluminescence (PL). Site selective excitation of the interchain state show...", "citations": 8, "author_count": 8, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3481, "doi": "10.1016/S0379-6779(00)00788-8", "umap_coordinates": { "x": 392.7486877441406, "y": 135.55484008789062, "z": 205.57742309570312 }, "tsne_coordinates": { "x": -1.6189265251159668, "y": -1.6201063394546509, "z": -20.740943908691406 }, "pca_coordinates": { "x": -1.368958830833435, "y": -0.8951153755187988, "z": 0.548076331615448 }, "axis_scores": { "Quantum imaging": 0.710881233215332, "Quantum Life Science Sensing": 0.6975125074386597, "Quantum sensing Detection": 0.6687642335891724, "Quantum sensing Metrology": 0.6611778736114502, "Quantum sensing navigation": 0.6639230251312256, "Quantum sensing Position": 0.6785898208618164, "Quantum sensing Timing": 0.6645499467849731, "Quantum sensing": 0.6860933899879456, "Quantum control": 0.6471933722496033 } }, { "id": 3476, "title": "Feasibility of Bell tests with the W state", "abstract": "The feasibility of Bell tests depends to a large extent on the tradeoff of difficulty between the preparation and the measurement of entangled systems. Polarization-entangled systems, though easy to m...", "citations": 7, "author_count": 3, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3482, "doi": "10.1103/PhysRevA.81.033823", "umap_coordinates": { "x": 395.92498779296875, "y": 136.35630798339844, "z": 206.9443817138672 }, "tsne_coordinates": { "x": -22.47527313232422, "y": -8.7230863571167, "z": 6.390971660614014 }, "pca_coordinates": { "x": 2.6584396362304688, "y": 3.1728439331054688, "z": 1.3633675575256348 }, "axis_scores": { "Quantum imaging": 0.7063676118850708, "Quantum Life Science Sensing": 0.7261840105056763, "Quantum sensing Detection": 0.7189105749130249, "Quantum sensing Metrology": 0.7070326209068298, "Quantum sensing navigation": 0.7274893522262573, "Quantum sensing Position": 0.7145481705665588, "Quantum sensing Timing": 0.6894683837890625, "Quantum sensing": 0.7209582924842834, "Quantum control": 0.690456748008728 } }, { "id": 3477, "title": "Electron irradiation effects on nanocrystal quantum dots used in bio-sensing applications", "abstract": "Effects of low energy electron irradiation (5-30 keV) on some of the optical properties of CdSe nanocrystals are examined. Degradation in luminescence intensities are measured and compared for inorgan...", "citations": 7, "author_count": 6, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3483, "doi": "10.1109/TNS.2004.839197", "umap_coordinates": { "x": 393.9520263671875, "y": 133.33822631835938, "z": 205.46006774902344 }, "tsne_coordinates": { "x": 13.794466018676758, "y": 26.28022003173828, "z": -18.745832443237305 }, "pca_coordinates": { "x": -2.656867027282715, "y": -1.8870558738708496, "z": 0.7601882815361023 }, "axis_scores": { "Quantum imaging": 0.7397058606147766, "Quantum Life Science Sensing": 0.7708081603050232, "Quantum sensing Detection": 0.7511724233627319, "Quantum sensing Metrology": 0.7243581414222717, "Quantum sensing navigation": 0.7268961071968079, "Quantum sensing Position": 0.7137740850448608, "Quantum sensing Timing": 0.7282156944274902, "Quantum sensing": 0.7553001642227173, "Quantum control": 0.7026117444038391 } }, { "id": 3478, "title": "Adiabatic transfer of atomic coherence", "abstract": "We examine the possibility of transfer of atomic coherence via stimulated Raman adiabatic passage (STIRAP). As a case study, we consider a five-level scheme in which the four ground states can be coup...", "citations": 7, "author_count": 3, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3484, "doi": "10.1016/S0030-4018(01)01024-0", "umap_coordinates": { "x": 394.1710205078125, "y": 136.4875030517578, "z": 206.2877960205078 }, "tsne_coordinates": { "x": -14.447361946105957, "y": 6.283493995666504, "z": 11.041929244995117 }, "pca_coordinates": { "x": 1.1785211563110352, "y": 0.8171391487121582, "z": -1.1843059062957764 }, "axis_scores": { "Quantum imaging": 0.7257509231567383, "Quantum Life Science Sensing": 0.7319129705429077, "Quantum sensing Detection": 0.7193666100502014, "Quantum sensing Metrology": 0.7094358801841736, "Quantum sensing navigation": 0.7125598192214966, "Quantum sensing Position": 0.6999501585960388, "Quantum sensing Timing": 0.6944789886474609, "Quantum sensing": 0.7360337376594543, "Quantum control": 0.7314705848693848 } }, { "id": 3479, "title": "PHOTOSYNTHETIC EFFICIENCY DURING ONTOGENESIS OF LEAVES OF BETULA-PENDULA", "abstract": "Net photosynthesis, photosynthetic electron transport and leaf area density of photosynthetic units were studied in developing, mature, and old leaves of seedlings of B. pendula. The photosynthetic qu...", "citations": 12, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1982, "topic": [ "all" ], "embedding_index": 3485, "doi": null, "umap_coordinates": { "x": 391.687744140625, "y": 139.394775390625, "z": 209.56626892089844 }, "tsne_coordinates": { "x": -1.4731165170669556, "y": 46.68006134033203, "z": 4.600713729858398 }, "pca_coordinates": { "x": -2.461756706237793, "y": 2.4677727222442627, "z": -2.182725667953491 }, "axis_scores": { "Quantum imaging": 0.6867508292198181, "Quantum Life Science Sensing": 0.7230197191238403, "Quantum sensing Detection": 0.6790556907653809, "Quantum sensing Metrology": 0.6896083950996399, "Quantum sensing navigation": 0.6776820421218872, "Quantum sensing Position": 0.6726340055465698, "Quantum sensing Timing": 0.6807212829589844, "Quantum sensing": 0.6881548166275024, "Quantum control": 0.6862528324127197 } }, { "id": 3480, "title": "High performance [Bi3Fe5O12/Sm3Ga5O12]m magneto-optical photonic crystals", "abstract": "We report the properties of one-dimensional heteroepitaxial all-garnet magneto-optical (MO) photonic crystals (MOPCs) composed of alternating MO-active Bi3Fe5O12 (BIG) and transparent Sm3Ga5O12 (SGG) ...", "citations": 56, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3486, "doi": "10.1063/1.2437051", "umap_coordinates": { "x": 393.5614318847656, "y": 133.93121337890625, "z": 207.94371032714844 }, "tsne_coordinates": { "x": 16.93851089477539, "y": -26.003435134887695, "z": -17.511030197143555 }, "pca_coordinates": { "x": 0.5704655647277832, "y": -2.9536705017089844, "z": 0.32434624433517456 }, "axis_scores": { "Quantum imaging": 0.7527274489402771, "Quantum Life Science Sensing": 0.7379634976387024, "Quantum sensing Detection": 0.7384556531906128, "Quantum sensing Metrology": 0.761542797088623, "Quantum sensing navigation": 0.7151758670806885, "Quantum sensing Position": 0.6972754597663879, "Quantum sensing Timing": 0.6703633069992065, "Quantum sensing": 0.7578437924385071, "Quantum control": 0.7201343178749084 } }, { "id": 3481, "title": "Deciphering the Electronic Transitions of Thiophene-Based Donor-Acceptor-Donor Pentameric Ligands Utilized for Multimodal Fluorescence Microscopy of Protein Aggregates", "abstract": "Anionic pentameric thiophene acetates can be used for fluorescence detection and diagnosis of protein amyloid aggregates. Replacing the central thiophene unit by benzothiadiazole (BTD) or quinoxaline ...", "citations": 13, "author_count": 9, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3487, "doi": "10.1002/cphc.202000669", "umap_coordinates": { "x": 392.3131408691406, "y": 135.92440795898438, "z": 205.13479614257812 }, "tsne_coordinates": { "x": 2.7243592739105225, "y": 5.05811882019043, "z": -18.562747955322266 }, "pca_coordinates": { "x": -2.4342923164367676, "y": -0.957564115524292, "z": -2.1488187313079834 }, "axis_scores": { "Quantum imaging": 0.7185819745063782, "Quantum Life Science Sensing": 0.7313718795776367, "Quantum sensing Detection": 0.706375777721405, "Quantum sensing Metrology": 0.7038292288780212, "Quantum sensing navigation": 0.6842802166938782, "Quantum sensing Position": 0.6785914301872253, "Quantum sensing Timing": 0.7039761543273926, "Quantum sensing": 0.7196993827819824, "Quantum control": 0.675419807434082 } }, { "id": 3482, "title": "Nanopatterning of oxide 2-dimensional electron systems using low-temperature ion milling", "abstract": "We present a 'top-down' patterning technique based on ion milling performed at low-temperature, for the realization of oxide two-dimensional electron system devices with dimensions down to 160 nm. Usi...", "citations": 5, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3488, "doi": "10.1088/1361-6528/ac385e", "umap_coordinates": { "x": 394.32061767578125, "y": 134.72128295898438, "z": 206.91578674316406 }, "tsne_coordinates": { "x": 5.5600385665893555, "y": -21.46633529663086, "z": -33.82206726074219 }, "pca_coordinates": { "x": 0.35130739212036133, "y": -0.7046496868133545, "z": 0.9659693837165833 }, "axis_scores": { "Quantum imaging": 0.709940493106842, "Quantum Life Science Sensing": 0.709118664264679, "Quantum sensing Detection": 0.6865358948707581, "Quantum sensing Metrology": 0.6994432210922241, "Quantum sensing navigation": 0.7006650567054749, "Quantum sensing Position": 0.6716892719268799, "Quantum sensing Timing": 0.6597408056259155, "Quantum sensing": 0.6999741196632385, "Quantum control": 0.6788036227226257 } }, { "id": 3483, "title": "Photophysical properties of gallium hydroxyl tetratolylporphyrin and 132-demethoxycarbonyl-(gallium hydroxyl)-methyl-pheophorbide α", "abstract": "Two metal tetrapyrroles containing gallium, gallium hydroxyl tetratolylporphyrin and 13(2)-demethoxycarbonyl-(gallium hydroxyl)methyl pheophorbide a (Ga-(OH)-chlorin), were synthesized from their resp...", "citations": 8, "author_count": 6, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3489, "doi": "10.1016/j.cplett.2005.10.131", "umap_coordinates": { "x": 393.3861389160156, "y": 135.18838500976562, "z": 204.77587890625 }, "tsne_coordinates": { "x": 6.457373142242432, "y": 13.392866134643555, "z": -0.8436675071716309 }, "pca_coordinates": { "x": -2.6063194274902344, "y": 0.30380916595458984, "z": -0.4793674051761627 }, "axis_scores": { "Quantum imaging": 0.7064085006713867, "Quantum Life Science Sensing": 0.7369943261146545, "Quantum sensing Detection": 0.6960059404373169, "Quantum sensing Metrology": 0.6826736330986023, "Quantum sensing navigation": 0.6472827196121216, "Quantum sensing Position": 0.6716954112052917, "Quantum sensing Timing": 0.6774261593818665, "Quantum sensing": 0.7089815139770508, "Quantum control": 0.6752734780311584 } }, { "id": 3484, "title": "Reconstructing the discrete Wigner function and some properties of the measurement bases -: art. no. 012106", "abstract": "We derive a direct reconstruction algorithm for the discrete Wigner function through different types of measurements. For a system described in a Hilbert space of dimension N=N-1...N-p, where the numb...", "citations": 36, "author_count": 3, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3490, "doi": "10.1103/PhysRevA.64.012106", "umap_coordinates": { "x": 395.41693115234375, "y": 136.5800018310547, "z": 207.48985290527344 }, "tsne_coordinates": { "x": -21.909635543823242, "y": -14.357954978942871, "z": 0.7485072016716003 }, "pca_coordinates": { "x": 3.0348896980285645, "y": 1.9972609281539917, "z": 1.3790802955627441 }, "axis_scores": { "Quantum imaging": 0.6992833018302917, "Quantum Life Science Sensing": 0.7265478372573853, "Quantum sensing Detection": 0.7065115571022034, "Quantum sensing Metrology": 0.7148152589797974, "Quantum sensing navigation": 0.7046175003051758, "Quantum sensing Position": 0.6964339017868042, "Quantum sensing Timing": 0.6844074726104736, "Quantum sensing": 0.7189601063728333, "Quantum control": 0.6717857122421265 } }, { "id": 3485, "title": "Kondo effect in a Aharonov-Casher interferometer", "abstract": "We consider a model describing a spin field-effect transistor based on a quantum nanowire with a tunable spin-orbit interaction embedded between two ferromagnetic leads with anticollinear magnetizatio...", "citations": 1, "author_count": 6, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3491, "doi": "10.1103/PhysRevB.100.235413", "umap_coordinates": { "x": 394.87615966796875, "y": 135.6179962158203, "z": 208.91123962402344 }, "tsne_coordinates": { "x": -4.488193035125732, "y": -23.52324104309082, "z": -4.5050249099731445 }, "pca_coordinates": { "x": 5.382928848266602, "y": 0.5379434823989868, "z": 0.3405856490135193 }, "axis_scores": { "Quantum imaging": 0.7273319363594055, "Quantum Life Science Sensing": 0.7406518459320068, "Quantum sensing Detection": 0.7372872829437256, "Quantum sensing Metrology": 0.7157447338104248, "Quantum sensing navigation": 0.7290571331977844, "Quantum sensing Position": 0.6925166845321655, "Quantum sensing Timing": 0.7027466297149658, "Quantum sensing": 0.7468197345733643, "Quantum control": 0.7327570915222168 } }, { "id": 3486, "title": "Fully Nonlocal, Monogamous, and Random Genuinely Multipartite Quantum Correlations", "abstract": "Local measurements on bipartite maximally entangled states can yield correlations that are maximally nonlocal, monogamous, and with fully random outcomes. This makes these states ideal for bipartite c...", "citations": 49, "author_count": 5, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3492, "doi": "10.1103/PhysRevLett.108.100401", "umap_coordinates": { "x": 395.8168640136719, "y": 136.60391235351562, "z": 208.14678955078125 }, "tsne_coordinates": { "x": -21.743562698364258, "y": -2.055245876312256, "z": 2.3605098724365234 }, "pca_coordinates": { "x": 3.8384156227111816, "y": 1.1656298637390137, "z": 0.7737125754356384 }, "axis_scores": { "Quantum imaging": 0.738358199596405, "Quantum Life Science Sensing": 0.7494913339614868, "Quantum sensing Detection": 0.7377244234085083, "Quantum sensing Metrology": 0.7316954135894775, "Quantum sensing navigation": 0.7371611595153809, "Quantum sensing Position": 0.7106637358665466, "Quantum sensing Timing": 0.7087779641151428, "Quantum sensing": 0.7608739733695984, "Quantum control": 0.716156542301178 } }, { "id": 3487, "title": "Citrullus colocynthis regulates photosynthetic and biochemical processes to develop stress resilience and sustain growth under sub-optimal temperatures", "abstract": "Sub-optimal temperatures posed significant challenges to leaf photosynthesis and plant growth. This study examined the eco-physiological adaptations of a desert vine (Citrullus colocynthis) to unfavor...", "citations": 10, "author_count": 8, "categories": [ "Plant Sciences" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3493, "doi": "10.1016/j.stress.2024.100502", "umap_coordinates": { "x": 394.2198486328125, "y": 136.1881561279297, "z": 203.5545196533203 }, "tsne_coordinates": { "x": 16.708738327026367, "y": 35.261024475097656, "z": 11.3424072265625 }, "pca_coordinates": { "x": -2.8402674198150635, "y": 1.6548998355865479, "z": -2.4092049598693848 }, "axis_scores": { "Quantum imaging": 0.6760973930358887, "Quantum Life Science Sensing": 0.7437999248504639, "Quantum sensing Detection": 0.6845864057540894, "Quantum sensing Metrology": 0.6802371144294739, "Quantum sensing navigation": 0.6844902634620667, "Quantum sensing Position": 0.6727439165115356, "Quantum sensing Timing": 0.6934695243835449, "Quantum sensing": 0.706416130065918, "Quantum control": 0.7002219557762146 } }, { "id": 3488, "title": "Local Josephson vortex generation and manipulation with a Magnetic Force Microscope", "abstract": "Josephson vortices play an essential role in superconducting quantum electronics devices. Often seen as purely conceptual topological objects, 2 pi-phase singularities, their observation and manipulat...", "citations": 42, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3494, "doi": "10.1038/s41467-019-11924-0", "umap_coordinates": { "x": 393.7664489746094, "y": 135.68789672851562, "z": 207.03208923339844 }, "tsne_coordinates": { "x": 5.340918064117432, "y": -13.72724723815918, "z": 19.42184066772461 }, "pca_coordinates": { "x": 0.4526939392089844, "y": 1.4311692714691162, "z": 0.2882094979286194 }, "axis_scores": { "Quantum imaging": 0.6837369799613953, "Quantum Life Science Sensing": 0.6793129444122314, "Quantum sensing Detection": 0.6685613393783569, "Quantum sensing Metrology": 0.6784956455230713, "Quantum sensing navigation": 0.6877042651176453, "Quantum sensing Position": 0.679269552230835, "Quantum sensing Timing": 0.6536654829978943, "Quantum sensing": 0.6785984635353088, "Quantum control": 0.6808995008468628 } }, { "id": 3489, "title": "Quantum Walk in Degenerate Spin Environments", "abstract": "We study the propagation of a hole in degenerate (paramagnetic) spin environments. This canonical problem has important connections to a number of physical systems, and is perfectly suited for experim...", "citations": 27, "author_count": 4, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3495, "doi": "10.1103/PhysRevLett.116.247202", "umap_coordinates": { "x": 394.37042236328125, "y": 136.3798065185547, "z": 209.02734375 }, "tsne_coordinates": { "x": -10.15666389465332, "y": -29.002532958984375, "z": 15.757343292236328 }, "pca_coordinates": { "x": 5.396650791168213, "y": -0.7245452404022217, "z": -0.6912865042686462 }, "axis_scores": { "Quantum imaging": 0.7259403467178345, "Quantum Life Science Sensing": 0.7350892424583435, "Quantum sensing Detection": 0.7207506895065308, "Quantum sensing Metrology": 0.711574375629425, "Quantum sensing navigation": 0.7646832466125488, "Quantum sensing Position": 0.7179345488548279, "Quantum sensing Timing": 0.7034856081008911, "Quantum sensing": 0.7330859899520874, "Quantum control": 0.7069913148880005 } }, { "id": 3490, "title": "Fluorescence diffuse optical tomography using upconverting nanoparticles", "abstract": "Fluorescence diffuse optical tomography (FDOT) can provide important information in biomedical studies. In this ill-posed problem, suppression of background tissue autofluorescence is of utmost import...", "citations": 55, "author_count": 4, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3496, "doi": "10.1063/1.3156857", "umap_coordinates": { "x": 393.75384521484375, "y": 133.4527587890625, "z": 206.17076110839844 }, "tsne_coordinates": { "x": 12.391684532165527, "y": 22.269559860229492, "z": -23.840198516845703 }, "pca_coordinates": { "x": -2.183159828186035, "y": -1.8637299537658691, "z": 2.44264554977417 }, "axis_scores": { "Quantum imaging": 0.7524362802505493, "Quantum Life Science Sensing": 0.742354691028595, "Quantum sensing Detection": 0.7417346239089966, "Quantum sensing Metrology": 0.735063910484314, "Quantum sensing navigation": 0.7141196727752686, "Quantum sensing Position": 0.6921905875205994, "Quantum sensing Timing": 0.6833884119987488, "Quantum sensing": 0.747715950012207, "Quantum control": 0.6918172836303711 } }, { "id": 3491, "title": "Influence of electron-electron interactions on supercurrent in SNS structures", "abstract": "A superconductor-normal quantum dot-superconductor structure where the number of electrons in the dot can be controlled by a gate voltage is considered. The effect of electron-electron interactions on...", "citations": 3, "author_count": 6, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3497, "doi": "10.1063/1.1596575", "umap_coordinates": { "x": 393.4579162597656, "y": 134.189697265625, "z": 208.47958374023438 }, "tsne_coordinates": { "x": 19.088010787963867, "y": -33.26390075683594, "z": -2.4762284755706787 }, "pca_coordinates": { "x": 1.6498804092407227, "y": -3.0913305282592773, "z": 0.08792632818222046 }, "axis_scores": { "Quantum imaging": 0.7011687755584717, "Quantum Life Science Sensing": 0.7116320133209229, "Quantum sensing Detection": 0.6947197318077087, "Quantum sensing Metrology": 0.6850126385688782, "Quantum sensing navigation": 0.7019400596618652, "Quantum sensing Position": 0.6808427572250366, "Quantum sensing Timing": 0.6529194116592407, "Quantum sensing": 0.70565265417099, "Quantum control": 0.6911975145339966 } }, { "id": 3492, "title": "New insights into the physical processes that underpin cell division and the emergence of different cellular and multicellular structures", "abstract": "Despite decades of focused research, a detailed understanding of the fundamental physical processes that underpin biological systems (structures and processes) remains an open challenge. Within the pr...", "citations": 7, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3498, "doi": "10.1016/j.pbiomolbio.2019.04.006", "umap_coordinates": { "x": 394.1268615722656, "y": 136.5421600341797, "z": 204.88780212402344 }, "tsne_coordinates": { "x": -18.07625389099121, "y": 14.385794639587402, "z": 20.4626407623291 }, "pca_coordinates": { "x": -2.418137788772583, "y": 2.1113805770874023, "z": -2.479762315750122 }, "axis_scores": { "Quantum imaging": 0.7334740161895752, "Quantum Life Science Sensing": 0.7473482489585876, "Quantum sensing Detection": 0.7017906308174133, "Quantum sensing Metrology": 0.6932066082954407, "Quantum sensing navigation": 0.7052004933357239, "Quantum sensing Position": 0.7036372423171997, "Quantum sensing Timing": 0.6794975996017456, "Quantum sensing": 0.7189128398895264, "Quantum control": 0.699337363243103 } }, { "id": 3493, "title": "Photon Counting Computed Tomography of Symptomatic Carotid Stenosis", "abstract": "", "citations": 2, "author_count": 4, "categories": [ "Surgery" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3499, "doi": "10.1016/j.ejvs.2024.08.006", "umap_coordinates": { "x": 395.06658935546875, "y": 133.0679473876953, "z": 205.06285095214844 }, "tsne_coordinates": { "x": -5.559876918792725, "y": 21.942903518676758, "z": -14.73154354095459 }, "pca_coordinates": { "x": -3.523083209991455, "y": 2.282823085784912, "z": 3.0836453437805176 }, "axis_scores": { "Quantum imaging": 0.7221528887748718, "Quantum Life Science Sensing": 0.698551595211029, "Quantum sensing Detection": 0.7094322443008423, "Quantum sensing Metrology": 0.6886690855026245, "Quantum sensing navigation": 0.7127397656440735, "Quantum sensing Position": 0.6944668292999268, "Quantum sensing Timing": 0.6996216177940369, "Quantum sensing": 0.6981621384620667, "Quantum control": 0.6671270132064819 } }, { "id": 3494, "title": "AUTOMATED CHARACTERIZATION OF SINGLE-PHOTON AVALANCHE PHOTODIODE", "abstract": "We report an automated characterization of a single-photon detector based on commercial silicon avalanche photodiode (PerkinElmer C30902SH). The photodiode is characterized by I-V curves at different ...", "citations": 1, "author_count": 5, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3500, "doi": null, "umap_coordinates": { "x": 391.73046875, "y": 139.30300903320312, "z": 209.8614959716797 }, "tsne_coordinates": { "x": -4.1303887367248535, "y": 42.1083869934082, "z": -8.635894775390625 }, "pca_coordinates": { "x": -2.607694625854492, "y": 2.0629982948303223, "z": 1.6922900676727295 }, "axis_scores": { "Quantum imaging": 0.7452692985534668, "Quantum Life Science Sensing": 0.7482186555862427, "Quantum sensing Detection": 0.7543820142745972, "Quantum sensing Metrology": 0.747407853603363, "Quantum sensing navigation": 0.7213756442070007, "Quantum sensing Position": 0.7065985202789307, "Quantum sensing Timing": 0.7107870578765869, "Quantum sensing": 0.7563750743865967, "Quantum control": 0.7286882400512695 } }, { "id": 3495, "title": "Comprehensive experimental test of quantum erasure", "abstract": "In an interferometer, path information and interference visibility are incompatible quantities. Complete determination of the path will exclude any possibility of interference, rendering zero visibili...", "citations": 17, "author_count": 5, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3501, "doi": "10.1140/epjd/e20020030", "umap_coordinates": { "x": 395.8973083496094, "y": 136.11383056640625, "z": 206.758056640625 }, "tsne_coordinates": { "x": -27.561676025390625, "y": 11.534817695617676, "z": 2.1183559894561768 }, "pca_coordinates": { "x": 1.9510612487792969, "y": 2.9090678691864014, "z": 1.3402953147888184 }, "axis_scores": { "Quantum imaging": 0.7644674777984619, "Quantum Life Science Sensing": 0.7582296133041382, "Quantum sensing Detection": 0.7503572702407837, "Quantum sensing Metrology": 0.7404930591583252, "Quantum sensing navigation": 0.7429701685905457, "Quantum sensing Position": 0.7307195663452148, "Quantum sensing Timing": 0.7444108724594116, "Quantum sensing": 0.7604153752326965, "Quantum control": 0.7463555932044983 } }, { "id": 3496, "title": "On the path toward organic spintronics", "abstract": "Organic materials provide a unique platform for exploiting the spin of the electron-a field dubbed organic spintronics. Originally, this was mostly motivated by the notion that because of weak spin-or...", "citations": 40, "author_count": 4, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3502, "doi": "10.1557/mrs.2014.128", "umap_coordinates": { "x": 394.3536682128906, "y": 135.34889221191406, "z": 206.5768280029297 }, "tsne_coordinates": { "x": -10.801627159118652, "y": -26.011655807495117, "z": 32.19821548461914 }, "pca_coordinates": { "x": 0.9601941108703613, "y": 1.2476482391357422, "z": -0.41413745284080505 }, "axis_scores": { "Quantum imaging": 0.7486492395401001, "Quantum Life Science Sensing": 0.7364735007286072, "Quantum sensing Detection": 0.7308642268180847, "Quantum sensing Metrology": 0.7313078045845032, "Quantum sensing navigation": 0.7557313442230225, "Quantum sensing Position": 0.7274351716041565, "Quantum sensing Timing": 0.7067810893058777, "Quantum sensing": 0.7481708526611328, "Quantum control": 0.7177302837371826 } }, { "id": 3497, "title": "RealTimeTransport: An open-source C plus plus library for quantum transport simulations in the strong coupling regime", "abstract": "The description of quantum transport in the strong system-reservoir coupling regime poses a significant theoretical and computational challenge that demands specialized tools for accurate analysis. Re...", "citations": 2, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3503, "doi": "10.1063/5.0220783", "umap_coordinates": { "x": 394.855712890625, "y": 135.75144958496094, "z": 206.20364379882812 }, "tsne_coordinates": { "x": -10.392258644104004, "y": 8.648703575134277, "z": 16.889013290405273 }, "pca_coordinates": { "x": 0.2170562744140625, "y": 0.519070029258728, "z": 0.9176138043403625 }, "axis_scores": { "Quantum imaging": 0.7313036322593689, "Quantum Life Science Sensing": 0.7352023720741272, "Quantum sensing Detection": 0.7291527986526489, "Quantum sensing Metrology": 0.7237048149108887, "Quantum sensing navigation": 0.7202252149581909, "Quantum sensing Position": 0.7033589482307434, "Quantum sensing Timing": 0.7591034173965454, "Quantum sensing": 0.7462066411972046, "Quantum control": 0.7220355272293091 } }, { "id": 3498, "title": "Measurement of photon-jet transverse momentum correlations in 5.02 TeV Pb + Pb and pp collisions with ATLAS", "abstract": "Jets created in association with a photon can be used as a calibrated probe to study energy loss in the medium created in nuclear collisions. Measurements of the transverse momentum balance between is...", "citations": 60, "author_count": 2677, "categories": [ "Astronomy & Astrophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3504, "doi": "10.1016/j.physletb.2018.12.023", "umap_coordinates": { "x": 396.9543151855469, "y": 134.17811584472656, "z": 207.56378173828125 }, "tsne_coordinates": { "x": -33.49481964111328, "y": 4.795331954956055, "z": -8.556095123291016 }, "pca_coordinates": { "x": -0.022625207901000977, "y": 0.87813401222229, "z": 3.526625156402588 }, "axis_scores": { "Quantum imaging": 0.7241408824920654, "Quantum Life Science Sensing": 0.6961761713027954, "Quantum sensing Detection": 0.7253232598304749, "Quantum sensing Metrology": 0.7015546560287476, "Quantum sensing navigation": 0.7139661908149719, "Quantum sensing Position": 0.7275617718696594, "Quantum sensing Timing": 0.7376610040664673, "Quantum sensing": 0.7176930904388428, "Quantum control": 0.6746803522109985 } }, { "id": 3499, "title": "Reversible Modification of CdSe-CdS/ZnS Quantum Dot Fluorescence by Surrounding Ca2+ Ions", "abstract": "It has been known for a long time that the fluorescence intensity of colloidal quantum dots (QDs) becomes modified when free ions are added to the QD solution. The consequences of removing free ions f...", "citations": 23, "author_count": 11, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3505, "doi": "10.1021/jp500853h", "umap_coordinates": { "x": 392.2778625488281, "y": 135.02801513671875, "z": 205.341064453125 }, "tsne_coordinates": { "x": 16.578392028808594, "y": 2.8509743213653564, "z": -16.0708065032959 }, "pca_coordinates": { "x": -3.1007914543151855, "y": -1.1152997016906738, "z": -3.288027048110962 }, "axis_scores": { "Quantum imaging": 0.7270250916481018, "Quantum Life Science Sensing": 0.7460790872573853, "Quantum sensing Detection": 0.7225746512413025, "Quantum sensing Metrology": 0.697678804397583, "Quantum sensing navigation": 0.7116376161575317, "Quantum sensing Position": 0.7094721794128418, "Quantum sensing Timing": 0.7078297734260559, "Quantum sensing": 0.7375797033309937, "Quantum control": 0.7377023696899414 } }, { "id": 3500, "title": "Photo-physical properties and OPL of some new longer thiophenyl-containing arylalkynyl Pt(II) compounds", "abstract": "The photo-physical and optical power limiting (OPL) properties of several new thiophenyl-containing arylalkynyl Pt(II) complexes with longer arylalkynyl groups, named ATP3, ATP4, ATP6 and ATP7 were st...", "citations": 2, "author_count": 6, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3506, "doi": "10.1117/12.737696", "umap_coordinates": { "x": 392.5710144042969, "y": 135.35394287109375, "z": 204.75669860839844 }, "tsne_coordinates": { "x": -1.0566463470458984, "y": 4.663644790649414, "z": -14.265143394470215 }, "pca_coordinates": { "x": -2.8724989891052246, "y": -0.24567914009094238, "z": -0.1873587965965271 }, "axis_scores": { "Quantum imaging": 0.6798218488693237, "Quantum Life Science Sensing": 0.6935230493545532, "Quantum sensing Detection": 0.6558693647384644, "Quantum sensing Metrology": 0.6398057341575623, "Quantum sensing navigation": 0.6520154476165771, "Quantum sensing Position": 0.6720535159111023, "Quantum sensing Timing": 0.6891537308692932, "Quantum sensing": 0.6800657510757446, "Quantum control": 0.6438992023468018 } }, { "id": 3501, "title": "Resolution characterization of a silicon-based, photon-counting computed tomography prototype capable of patient scanning", "abstract": "Photon-counting detectors are expected to bring a range of improvements to patient imaging with x-ray computed tomography (CT). One is higher spatial resolution. We demonstrate the resolution obtained...", "citations": 56, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3507, "doi": "10.1117/1.JMI.6.4.043502", "umap_coordinates": { "x": 395.254150390625, "y": 132.5060272216797, "z": 205.4071044921875 }, "tsne_coordinates": { "x": -10.157382011413574, "y": 17.880910873413086, "z": -18.572729110717773 }, "pca_coordinates": { "x": -2.6294779777526855, "y": 1.9096226692199707, "z": 4.568088054656982 }, "axis_scores": { "Quantum imaging": 0.7387399077415466, "Quantum Life Science Sensing": 0.7205605506896973, "Quantum sensing Detection": 0.7063945531845093, "Quantum sensing Metrology": 0.7234804630279541, "Quantum sensing navigation": 0.6830819249153137, "Quantum sensing Position": 0.6996688842773438, "Quantum sensing Timing": 0.6830201745033264, "Quantum sensing": 0.714492917060852, "Quantum control": 0.6514372825622559 } }, { "id": 3502, "title": "Coherent decision making stimulated within the social laser: open quantum systems framework", "abstract": "We start with a brief review on social laser theory which is newly framed with the notion of an infon-social energy quantum carrying coarse-grained information content. Infons are the excitations of t...", "citations": 2, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3508, "doi": "10.1098/rsta.2022.0294", "umap_coordinates": { "x": 395.13702392578125, "y": 136.87503051757812, "z": 205.58836364746094 }, "tsne_coordinates": { "x": -26.29946517944336, "y": 11.651694297790527, "z": 11.314163208007812 }, "pca_coordinates": { "x": -0.8966709971427917, "y": 2.0540621280670166, "z": -0.5423988103866577 }, "axis_scores": { "Quantum imaging": 0.7379670143127441, "Quantum Life Science Sensing": 0.7732453346252441, "Quantum sensing Detection": 0.7494902014732361, "Quantum sensing Metrology": 0.733275830745697, "Quantum sensing navigation": 0.749260663986206, "Quantum sensing Position": 0.7166740298271179, "Quantum sensing Timing": 0.7257273197174072, "Quantum sensing": 0.7624989748001099, "Quantum control": 0.7575589418411255 } }, { "id": 3503, "title": "Two-impurity Kondo model with spin-orbit interactions", "abstract": "We study the two-impurity Kondo model (TIKM) in two dimensions with spin-orbit coupled conduction electrons. In the first part of the paper we analyze how spin-orbit interactions of Rashba as well as ...", "citations": 34, "author_count": 3, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3509, "doi": "10.1103/PhysRevB.80.155302", "umap_coordinates": { "x": 394.2247009277344, "y": 136.0060272216797, "z": 209.0149383544922 }, "tsne_coordinates": { "x": -17.380897521972656, "y": -23.98365020751953, "z": 23.58255386352539 }, "pca_coordinates": { "x": 4.577075958251953, "y": -0.47189974784851074, "z": -0.560516893863678 }, "axis_scores": { "Quantum imaging": 0.7137042880058289, "Quantum Life Science Sensing": 0.6960288286209106, "Quantum sensing Detection": 0.7076455354690552, "Quantum sensing Metrology": 0.6929960250854492, "Quantum sensing navigation": 0.7037855386734009, "Quantum sensing Position": 0.6658570170402527, "Quantum sensing Timing": 0.6851348876953125, "Quantum sensing": 0.7140683531761169, "Quantum control": 0.7074545621871948 } }, { "id": 3504, "title": "Introducing MR-TADF Emitters into Light-Emitting Electrochemical Cells for Narrowband and Efficient Emission", "abstract": "Organic semiconductors that emit by the process of multi-resonance thermally activated delayed fluorescence (MR-TADF) can deliver narrowband and efficient electroluminescence while being processable f...", "citations": 24, "author_count": 7, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3510, "doi": "10.1002/adfm.202306170", "umap_coordinates": { "x": 392.2995300292969, "y": 134.060546875, "z": 204.86314392089844 }, "tsne_coordinates": { "x": 21.101627349853516, "y": 2.8910887241363525, "z": -24.924827575683594 }, "pca_coordinates": { "x": -4.2924628257751465, "y": -0.9924945831298828, "z": -1.942674160003662 }, "axis_scores": { "Quantum imaging": 0.6709867715835571, "Quantum Life Science Sensing": 0.6940866708755493, "Quantum sensing Detection": 0.6450521945953369, "Quantum sensing Metrology": 0.6621703505516052, "Quantum sensing navigation": 0.6497780084609985, "Quantum sensing Position": 0.6260109543800354, "Quantum sensing Timing": 0.6380785703659058, "Quantum sensing": 0.6611218452453613, "Quantum control": 0.6289165019989014 } }, { "id": 3505, "title": "Carrier recombination dynamics in external-quantum-efficiency roll-off of perovskite light-emitting diodes studied by in situ ultrafast spectroscopy", "abstract": "External-quantum-efficiency (EQE) roll-off is a key challenge for perovskite light-emitting diodes (PeLEDs), limiting their applications where high brightness is needed. Auger recombination and Joule ...", "citations": 3, "author_count": 17, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3511, "doi": "10.1103/PhysRevApplied.22.054072", "umap_coordinates": { "x": 392.51763916015625, "y": 135.53097534179688, "z": 207.1035919189453 }, "tsne_coordinates": { "x": 24.375972747802734, "y": -10.383665084838867, "z": 6.347086429595947 }, "pca_coordinates": { "x": 0.9593069553375244, "y": -2.010039806365967, "z": -1.5852783918380737 }, "axis_scores": { "Quantum imaging": 0.7009580135345459, "Quantum Life Science Sensing": 0.7189722061157227, "Quantum sensing Detection": 0.6864804029464722, "Quantum sensing Metrology": 0.6632086634635925, "Quantum sensing navigation": 0.6872320771217346, "Quantum sensing Position": 0.6608177423477173, "Quantum sensing Timing": 0.662071943283081, "Quantum sensing": 0.694779098033905, "Quantum control": 0.6749169230461121 } }, { "id": 3506, "title": "Platicon dynamics in photonic molecules", "abstract": "Coherent dissipative structures known as platicons can be reliably generated in photonic molecules, resulting in deterministic and reproducible microcombs derived from a continuous-wave pump. However,...", "citations": 21, "author_count": 10, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3512, "doi": "10.1038/s42005-023-01424-5", "umap_coordinates": { "x": 393.0679016113281, "y": 135.8788299560547, "z": 206.82583618164062 }, "tsne_coordinates": { "x": -6.117395401000977, "y": 2.910526990890503, "z": -0.6094577312469482 }, "pca_coordinates": { "x": 0.8748290538787842, "y": -1.581521987915039, "z": -1.8113808631896973 }, "axis_scores": { "Quantum imaging": 0.7289223074913025, "Quantum Life Science Sensing": 0.720710277557373, "Quantum sensing Detection": 0.6988542675971985, "Quantum sensing Metrology": 0.6902082562446594, "Quantum sensing navigation": 0.7071089148521423, "Quantum sensing Position": 0.6920135021209717, "Quantum sensing Timing": 0.6837974190711975, "Quantum sensing": 0.7120115756988525, "Quantum control": 0.7295238971710205 } }, { "id": 3507, "title": "Breakdown of optical power limiting and dynamical two-photon absorption for femtosecond laser pulses in molecular medium", "abstract": "We solve numerically the Maxwell-Bloch equations using an iterative predictor-corrector finite-difference time-domain technique to study the propagation of femtosecond laser pulses in a strong two-pho...", "citations": 24, "author_count": 6, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3513, "doi": "10.1364/JOSAB.24.002436", "umap_coordinates": { "x": 394.0633850097656, "y": 135.69131469726562, "z": 206.79762268066406 }, "tsne_coordinates": { "x": -15.221975326538086, "y": -2.6230175495147705, "z": 37.62261199951172 }, "pca_coordinates": { "x": 0.5512285232543945, "y": 0.7831299304962158, "z": -0.7480207681655884 }, "axis_scores": { "Quantum imaging": 0.7017707824707031, "Quantum Life Science Sensing": 0.7146162390708923, "Quantum sensing Detection": 0.6823179125785828, "Quantum sensing Metrology": 0.6718186736106873, "Quantum sensing navigation": 0.6450426578521729, "Quantum sensing Position": 0.6439743041992188, "Quantum sensing Timing": 0.6465013027191162, "Quantum sensing": 0.6840373277664185, "Quantum control": 0.6702662110328674 } }, { "id": 3508, "title": "Modeling Tests Based on the Eberhard Inequality", "abstract": "Last year, the first experimental tests closing the detection loophole (also referred to as the fair sampling loophole) were performed by two experimental groups, one in Vienna and the other one in Ur...", "citations": 1, "author_count": 3, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3514, "doi": "10.1007/s10946-015-9471-6", "umap_coordinates": { "x": 395.3152160644531, "y": 135.74623107910156, "z": 205.3355255126953 }, "tsne_coordinates": { "x": -21.14960479736328, "y": 16.050363540649414, "z": 9.572257995605469 }, "pca_coordinates": { "x": -0.9132850766181946, "y": 4.444665908813477, "z": -0.4710761606693268 }, "axis_scores": { "Quantum imaging": 0.6926062703132629, "Quantum Life Science Sensing": 0.704627275466919, "Quantum sensing Detection": 0.6806902289390564, "Quantum sensing Metrology": 0.6942388415336609, "Quantum sensing navigation": 0.6963973045349121, "Quantum sensing Position": 0.6824750900268555, "Quantum sensing Timing": 0.6833938360214233, "Quantum sensing": 0.6930130124092102, "Quantum control": 0.6789880990982056 } }, { "id": 3509, "title": "Noise characteristics of fiber optical parametric amplifiers", "abstract": "We derive an analytical theory for the noise figure of an undepleted and lossless fiber optical parametric amplifier (FOPA). Both the signal and the wavelength converted idler are investigated. Our th...", "citations": 110, "author_count": 6, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3515, "doi": "10.1109/JLT.2003.822152", "umap_coordinates": { "x": 394.42156982421875, "y": 134.13626098632812, "z": 207.04885864257812 }, "tsne_coordinates": { "x": 1.5118510723114014, "y": -3.6646602153778076, "z": -32.410240173339844 }, "pca_coordinates": { "x": -0.2462928295135498, "y": 0.07957863807678223, "z": 2.0409865379333496 }, "axis_scores": { "Quantum imaging": 0.7150834798812866, "Quantum Life Science Sensing": 0.720551609992981, "Quantum sensing Detection": 0.7285920977592468, "Quantum sensing Metrology": 0.7193686962127686, "Quantum sensing navigation": 0.7187500596046448, "Quantum sensing Position": 0.7033652663230896, "Quantum sensing Timing": 0.6945061683654785, "Quantum sensing": 0.7328976988792419, "Quantum control": 0.7039307951927185 } }, { "id": 3510, "title": "Resonant ion-pair formation in electron collisions with HD+ and OH+ - art. no. 042707", "abstract": "Resonant ion-pair formation from collisions of electrons with electronic and vibronic ground-state diatomic molecular ions has been studied in the present work for HD+ and OH+. The cross section for H...", "citations": 23, "author_count": 17, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3516, "doi": "10.1103/PhysRevA.62.042707", "umap_coordinates": { "x": 395.4208068847656, "y": 135.38015747070312, "z": 208.62440490722656 }, "tsne_coordinates": { "x": -6.300539493560791, "y": -9.471903800964355, "z": -0.3821364939212799 }, "pca_coordinates": { "x": 3.9910922050476074, "y": 0.06825089454650879, "z": -0.49018582701683044 }, "axis_scores": { "Quantum imaging": 0.6889398097991943, "Quantum Life Science Sensing": 0.7144755721092224, "Quantum sensing Detection": 0.7022967338562012, "Quantum sensing Metrology": 0.672599732875824, "Quantum sensing navigation": 0.6933113932609558, "Quantum sensing Position": 0.6750228404998779, "Quantum sensing Timing": 0.6731223464012146, "Quantum sensing": 0.6992732882499695, "Quantum control": 0.6830887794494629 } }, { "id": 3511, "title": "Comparison of two methods for describing the strain profiles in quantum dots", "abstract": "The electronic structure of interfaces between lattice-mismatched semiconductors is sensitive to the strain. We compare two approaches for calculating such inhomogeneous strain-continuum elasticity [(...", "citations": 435, "author_count": 6, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3517, "doi": "10.1063/1.366631", "umap_coordinates": { "x": 393.0153503417969, "y": 134.7793426513672, "z": 208.21136474609375 }, "tsne_coordinates": { "x": 19.499696731567383, "y": -28.222135543823242, "z": -7.585140228271484 }, "pca_coordinates": { "x": 0.040972232818603516, "y": -2.0181174278259277, "z": 0.48378604650497437 }, "axis_scores": { "Quantum imaging": 0.7133312225341797, "Quantum Life Science Sensing": 0.7250369787216187, "Quantum sensing Detection": 0.7048458456993103, "Quantum sensing Metrology": 0.7267657518386841, "Quantum sensing navigation": 0.7041614651679993, "Quantum sensing Position": 0.7194180488586426, "Quantum sensing Timing": 0.7078022956848145, "Quantum sensing": 0.7189369201660156, "Quantum control": 0.6787284016609192 } }, { "id": 3512, "title": "Ag-Sensitized Yb3+ Emission in Glass-Ceramics", "abstract": "Rare earth doped materials play a very important role in the development of many photonic devices, such as optical amplifiers and lasers, frequency converters, solar concentrators, up to quantum infor...", "citations": 15, "author_count": 11, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3518, "doi": "10.3390/mi9080380", "umap_coordinates": { "x": 392.28302001953125, "y": 134.92767333984375, "z": 206.13194274902344 }, "tsne_coordinates": { "x": 10.622763633728027, "y": -16.22378921508789, "z": -25.509191513061523 }, "pca_coordinates": { "x": -1.7798222303390503, "y": -1.3175733089447021, "z": -1.8794701099395752 }, "axis_scores": { "Quantum imaging": 0.6627576351165771, "Quantum Life Science Sensing": 0.6806992292404175, "Quantum sensing Detection": 0.680313229560852, "Quantum sensing Metrology": 0.6612103581428528, "Quantum sensing navigation": 0.6619926691055298, "Quantum sensing Position": 0.637818455696106, "Quantum sensing Timing": 0.6324108839035034, "Quantum sensing": 0.6773799657821655, "Quantum control": 0.6375762224197388 } }, { "id": 3513, "title": "Photon upconversion through triplet-triplet annihilation", "abstract": "Photon upconversion (UC) is a process that fuses the energy of two low energy photons to generate one photon of higher energy. It is not hard to imagine many applications for such a process, and indee...", "citations": 3, "author_count": 2, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3519, "doi": "10.1039/9781788016520-00404", "umap_coordinates": { "x": 394.0599670410156, "y": 134.83016967773438, "z": 205.99844360351562 }, "tsne_coordinates": { "x": 6.632779121398926, "y": -1.117777705192566, "z": -14.065274238586426 }, "pca_coordinates": { "x": -1.0041358470916748, "y": -0.26480817794799805, "z": 2.6111879348754883 }, "axis_scores": { "Quantum imaging": 0.7247901558876038, "Quantum Life Science Sensing": 0.7178942561149597, "Quantum sensing Detection": 0.7144306302070618, "Quantum sensing Metrology": 0.702971875667572, "Quantum sensing navigation": 0.6933333277702332, "Quantum sensing Position": 0.6629634499549866, "Quantum sensing Timing": 0.6988515853881836, "Quantum sensing": 0.7162845134735107, "Quantum control": 0.6842150688171387 } }, { "id": 3514, "title": "Quantum-well-induced ferromagnetism in thin films", "abstract": "We have used a first-principles Green's-function technique to investigate the magnetic properties of thin films of Rh, Pd, and Pt deposited on a fee Ag (001) substrate. We find that the magnetic momen...", "citations": 40, "author_count": 5, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3520, "doi": "10.1103/PhysRevB.56.3276", "umap_coordinates": { "x": 393.61431884765625, "y": 135.47108459472656, "z": 209.37921142578125 }, "tsne_coordinates": { "x": 2.6047112941741943, "y": -32.88234329223633, "z": 14.597646713256836 }, "pca_coordinates": { "x": 3.9738826751708984, "y": -3.432776927947998, "z": -1.0719449520111084 }, "axis_scores": { "Quantum imaging": 0.7355775833129883, "Quantum Life Science Sensing": 0.7514165043830872, "Quantum sensing Detection": 0.7270373702049255, "Quantum sensing Metrology": 0.7184016108512878, "Quantum sensing navigation": 0.7074038982391357, "Quantum sensing Position": 0.6904671788215637, "Quantum sensing Timing": 0.6805946230888367, "Quantum sensing": 0.740669846534729, "Quantum control": 0.6940047144889832 } }, { "id": 3515, "title": "Challenges in Coding, DSP and Parallel Operation of Quantum Key Distribution and Coherent Data Transmission", "abstract": "We discuss challenges and recent progress on coding, digital signal processing and joint transmission with classical data channels, for quantum key distribution....", "citations": 1, "author_count": 13, "categories": [ "Computer Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3521, "doi": "10.1109/ECOC48923.2020.9333170", "umap_coordinates": { "x": 395.3175048828125, "y": 134.84576416015625, "z": 206.20803833007812 }, "tsne_coordinates": { "x": 2.5969104766845703, "y": 4.438372611999512, "z": -39.198829650878906 }, "pca_coordinates": { "x": 0.2485717535018921, "y": 1.5675513744354248, "z": 0.9240285754203796 }, "axis_scores": { "Quantum imaging": 0.7489443421363831, "Quantum Life Science Sensing": 0.737639307975769, "Quantum sensing Detection": 0.7350770235061646, "Quantum sensing Metrology": 0.7302887439727783, "Quantum sensing navigation": 0.7426562905311584, "Quantum sensing Position": 0.7105249166488647, "Quantum sensing Timing": 0.7191532254219055, "Quantum sensing": 0.7420800924301147, "Quantum control": 0.7429753541946411 } }, { "id": 3516, "title": "In situ detection of warfarin using time-correlated single-photon counting", "abstract": "Here we report on a novel method for the direct in situ measurement of specific isomeric forms of the anticoagulant warfarin using time correlated single-photon counting (TCSPC) spectroscopy in conjun...", "citations": 9, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3522, "doi": "10.1016/j.bbrc.2011.02.103", "umap_coordinates": { "x": 394.8062744140625, "y": 133.51556396484375, "z": 205.14846801757812 }, "tsne_coordinates": { "x": 7.941555023193359, "y": 28.234840393066406, "z": -4.6796956062316895 }, "pca_coordinates": { "x": -3.1540589332580566, "y": 0.7778737545013428, "z": 3.001145601272583 }, "axis_scores": { "Quantum imaging": 0.7276991605758667, "Quantum Life Science Sensing": 0.739233672618866, "Quantum sensing Detection": 0.7413005828857422, "Quantum sensing Metrology": 0.7062530517578125, "Quantum sensing navigation": 0.7201018333435059, "Quantum sensing Position": 0.7258875370025635, "Quantum sensing Timing": 0.7455295324325562, "Quantum sensing": 0.7367867231369019, "Quantum control": 0.67530757188797 } }, { "id": 3517, "title": "Effective-interaction approach to the many-boson problem", "abstract": "We show that the convergence behavior of the many-body numerical diagonalization scheme for strongly interacting bosons in a trap can be significantly improved by the Lee-Suzuki method adapted from nu...", "citations": 35, "author_count": 5, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3523, "doi": "10.1103/PhysRevA.79.012707", "umap_coordinates": { "x": 394.5153503417969, "y": 137.55459594726562, "z": 208.25018310546875 }, "tsne_coordinates": { "x": -18.786989212036133, "y": -39.382896423339844, "z": 4.012117862701416 }, "pca_coordinates": { "x": 3.861682415008545, "y": 1.3856549263000488, "z": 0.13132160902023315 }, "axis_scores": { "Quantum imaging": 0.7260146737098694, "Quantum Life Science Sensing": 0.7059577703475952, "Quantum sensing Detection": 0.704460620880127, "Quantum sensing Metrology": 0.6967172622680664, "Quantum sensing navigation": 0.7030397653579712, "Quantum sensing Position": 0.6868431568145752, "Quantum sensing Timing": 0.674593448638916, "Quantum sensing": 0.7185628414154053, "Quantum control": 0.7074791193008423 } }, { "id": 3518, "title": "High-precision mass measurements for fundamental applications using highly-charged ions with SMILETRAP", "abstract": "The Penning trap mass spectrometer SMILETRAP takes advantage of highly-charged ions for high-accuracy mass measurements. In this paper recent mass measurements on Li and Ca ions are presented and thei...", "citations": 3, "author_count": 8, "categories": [ "Astronomy & Astrophysics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3524, "doi": "10.1088/1742-6596/58/1/018", "umap_coordinates": { "x": 395.3298645019531, "y": 134.874267578125, "z": 205.85841369628906 }, "tsne_coordinates": { "x": -19.255321502685547, "y": 8.718987464904785, "z": -4.579720973968506 }, "pca_coordinates": { "x": -2.0064103603363037, "y": 2.001744031906128, "z": 1.9097537994384766 }, "axis_scores": { "Quantum imaging": 0.6705488562583923, "Quantum Life Science Sensing": 0.7088006734848022, "Quantum sensing Detection": 0.6761265397071838, "Quantum sensing Metrology": 0.6998206377029419, "Quantum sensing navigation": 0.6593062281608582, "Quantum sensing Position": 0.6742991805076599, "Quantum sensing Timing": 0.6633852124214172, "Quantum sensing": 0.6878605484962463, "Quantum control": 0.6353499293327332 } }, { "id": 3519, "title": "Energy pumping in a quantum nanoelectromechanical system", "abstract": "The fully quantized mechanical motion of a single-level quantum dot coupled to two voltage-biased electronic leads is studied. It is found that there are two different regimes, depending on the applie...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3525, "doi": "10.1063/1.1943539", "umap_coordinates": { "x": 393.8262023925781, "y": 134.90208435058594, "z": 208.19993591308594 }, "tsne_coordinates": { "x": -6.921755313873291, "y": -14.471358299255371, "z": 16.238346099853516 }, "pca_coordinates": { "x": 4.137705326080322, "y": -1.926130771636963, "z": 0.18764162063598633 }, "axis_scores": { "Quantum imaging": 0.7706589698791504, "Quantum Life Science Sensing": 0.7905313372612, "Quantum sensing Detection": 0.7870085835456848, "Quantum sensing Metrology": 0.7703579664230347, "Quantum sensing navigation": 0.784798800945282, "Quantum sensing Position": 0.7616109848022461, "Quantum sensing Timing": 0.7324340343475342, "Quantum sensing": 0.7978783249855042, "Quantum control": 0.7610525488853455 } }, { "id": 3520, "title": "Escape from intermittent repellers: Periodic orbit theory for crossover from exponential to algebraic decay", "abstract": "We apply periodic orbit theory to study the asymptotic distribution of escape times from an intermittent map. The dynamical zeta function exhibits a branch point which is associated with an asymptotic...", "citations": 12, "author_count": 2, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3526, "doi": "10.1103/PhysRevE.60.6639", "umap_coordinates": { "x": 394.3943786621094, "y": 137.2797393798828, "z": 207.94723510742188 }, "tsne_coordinates": { "x": -8.815154075622559, "y": -6.006645679473877, "z": 29.863279342651367 }, "pca_coordinates": { "x": 4.044327259063721, "y": 1.1917717456817627, "z": -1.5989322662353516 }, "axis_scores": { "Quantum imaging": 0.6728352308273315, "Quantum Life Science Sensing": 0.7161754965782166, "Quantum sensing Detection": 0.6712678670883179, "Quantum sensing Metrology": 0.6454300284385681, "Quantum sensing navigation": 0.6846354007720947, "Quantum sensing Position": 0.6458562612533569, "Quantum sensing Timing": 0.6570509672164917, "Quantum sensing": 0.6758792400360107, "Quantum control": 0.6771273612976074 } }, { "id": 3521, "title": "200 and 300 MeV/nucleon nuclear reactions responsible for single-event effects in microelectronics", "abstract": "An experimental study of nuclear reactions between Si-28 nuclei at 200 and 300 MeV/nucleon and hydrogen or deuterium target nuclei was performed at the CELSIUS storage ring in Uppsala, Sweden, to coll...", "citations": 2, "author_count": 25, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3527, "doi": "10.1103/PhysRevC.77.044601", "umap_coordinates": { "x": 394.66888427734375, "y": 134.06472778320312, "z": 208.5728302001953 }, "tsne_coordinates": { "x": 5.861359596252441, "y": -25.764205932617188, "z": -13.96485424041748 }, "pca_coordinates": { "x": 1.3617770671844482, "y": -1.2438344955444336, "z": 0.6176885962486267 }, "axis_scores": { "Quantum imaging": 0.6675685048103333, "Quantum Life Science Sensing": 0.7027045488357544, "Quantum sensing Detection": 0.6801020503044128, "Quantum sensing Metrology": 0.6643115282058716, "Quantum sensing navigation": 0.6615951061248779, "Quantum sensing Position": 0.64153653383255, "Quantum sensing Timing": 0.677336573600769, "Quantum sensing": 0.6844104528427124, "Quantum control": 0.6636348962783813 } }, { "id": 3522, "title": "Long-wavelength infrared quantum-dot based interband photodetectors", "abstract": "We report on the design and fabrication of (Al)GaAs(Sb)/InAs tensile strained quantum-dot (QD) based detector material for thermal infrared imaging applications in the long-wavelength infrared (LWIR) ...", "citations": 11, "author_count": 19, "categories": [ "Instruments & Instrumentation" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3528, "doi": "10.1016/j.infrared.2010.12.031", "umap_coordinates": { "x": 393.05682373046875, "y": 133.5716094970703, "z": 206.47132873535156 }, "tsne_coordinates": { "x": 7.447453498840332, "y": 4.862949848175049, "z": -26.97254753112793 }, "pca_coordinates": { "x": -2.052823543548584, "y": -3.2865729331970215, "z": 2.4563136100769043 }, "axis_scores": { "Quantum imaging": 0.7484363913536072, "Quantum Life Science Sensing": 0.746961236000061, "Quantum sensing Detection": 0.7391137480735779, "Quantum sensing Metrology": 0.717278778553009, "Quantum sensing navigation": 0.6997844576835632, "Quantum sensing Position": 0.7064367532730103, "Quantum sensing Timing": 0.6998704075813293, "Quantum sensing": 0.7463485598564148, "Quantum control": 0.6648741960525513 } }, { "id": 3523, "title": "Surface passivation extends single and biexciton lifetimes of InP quantum dots", "abstract": "Indium phosphide quantum dots (InP QDs) are nontoxic nanomaterials with potential applications in photocatalytic and optoelectronic fields. Post-synthetic treatments of InP QDs are known to be essenti...", "citations": 89, "author_count": 8, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3529, "doi": "10.1039/d0sc01039a", "umap_coordinates": { "x": 392.4453125, "y": 133.94732666015625, "z": 207.6681365966797 }, "tsne_coordinates": { "x": 27.90325927734375, "y": -13.289793014526367, "z": 2.683347463607788 }, "pca_coordinates": { "x": -1.1955835819244385, "y": -5.3998637199401855, "z": 0.6045575737953186 }, "axis_scores": { "Quantum imaging": 0.7102054357528687, "Quantum Life Science Sensing": 0.7278649806976318, "Quantum sensing Detection": 0.7135539650917053, "Quantum sensing Metrology": 0.7029338479042053, "Quantum sensing navigation": 0.6825641989707947, "Quantum sensing Position": 0.680348813533783, "Quantum sensing Timing": 0.6851261854171753, "Quantum sensing": 0.718076229095459, "Quantum control": 0.678730845451355 } }, { "id": 3524, "title": "EXPOSURE TO SUDDEN LIGHT BURST AFTER PROLONGED DARKNESS - A CASE STUDY ON BENTHIC DIATOMS IN ANTARCTICA", "abstract": "In polar areas, benthic diatoms are regarded to play a major role in supplying energy to the benthic fauna, particularly prior to the release of microalgae from sea ice and the phytoplankton bloom. As...", "citations": 38, "author_count": 5, "categories": [ "Marine & Freshwater Biology" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3530, "doi": null, "umap_coordinates": { "x": 391.6813049316406, "y": 139.6463165283203, "z": 209.66542053222656 }, "tsne_coordinates": { "x": -2.1735496520996094, "y": 47.24074935913086, "z": -0.6036935448646545 }, "pca_coordinates": { "x": -2.697329044342041, "y": 3.5712037086486816, "z": -3.6303305625915527 }, "axis_scores": { "Quantum imaging": 0.6413900852203369, "Quantum Life Science Sensing": 0.718015730381012, "Quantum sensing Detection": 0.6659284830093384, "Quantum sensing Metrology": 0.6396315693855286, "Quantum sensing navigation": 0.6558132171630859, "Quantum sensing Position": 0.636559784412384, "Quantum sensing Timing": 0.652924120426178, "Quantum sensing": 0.6719059348106384, "Quantum control": 0.6702415347099304 } }, { "id": 3525, "title": "Photon-counting x-ray detectors for CT", "abstract": "The introduction of photon-counting detectors is expected to be the next major breakthrough in clinical x-ray computed tomography (CT). During the last decade, there has been considerable research act...", "citations": 231, "author_count": 4, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3531, "doi": "10.1088/1361-6560/abc5a5", "umap_coordinates": { "x": 395.82708740234375, "y": 133.07022094726562, "z": 205.512451171875 }, "tsne_coordinates": { "x": -10.036745071411133, "y": 28.101810455322266, "z": -18.874422073364258 }, "pca_coordinates": { "x": -1.9247682094573975, "y": 3.2956435680389404, "z": 3.91951847076416 }, "axis_scores": { "Quantum imaging": 0.7278094291687012, "Quantum Life Science Sensing": 0.7029824256896973, "Quantum sensing Detection": 0.7034881114959717, "Quantum sensing Metrology": 0.6915871500968933, "Quantum sensing navigation": 0.6988800764083862, "Quantum sensing Position": 0.6678555607795715, "Quantum sensing Timing": 0.6979433298110962, "Quantum sensing": 0.7086954712867737, "Quantum control": 0.6757150888442993 } }, { "id": 3526, "title": "Photon-counting distribution for arrays of single-photon detectors", "abstract": "We derive a computationally efficient expression of the photon-counting distribution for a uniformly illuminated array of single-photon detectors. The expression takes the number of single detectors, ...", "citations": 10, "author_count": 3, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3532, "doi": "10.1103/PhysRevA.101.013815", "umap_coordinates": { "x": 394.8631896972656, "y": 133.44454956054688, "z": 207.61614990234375 }, "tsne_coordinates": { "x": -17.044389724731445, "y": 4.306310653686523, "z": -29.880361557006836 }, "pca_coordinates": { "x": 1.8679203987121582, "y": -2.084564685821533, "z": 4.188913822174072 }, "axis_scores": { "Quantum imaging": 0.7211933732032776, "Quantum Life Science Sensing": 0.7332749366760254, "Quantum sensing Detection": 0.7372052073478699, "Quantum sensing Metrology": 0.7233585119247437, "Quantum sensing navigation": 0.7217106819152832, "Quantum sensing Position": 0.7090244293212891, "Quantum sensing Timing": 0.7013971209526062, "Quantum sensing": 0.7315488457679749, "Quantum control": 0.6686346530914307 } }, { "id": 3527, "title": "Photon-counting detector computed tomography: iodine density versus virtual monoenergetic imaging of pancreatic ductal adenocarcinoma", "abstract": "", "citations": 1, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3533, "doi": "10.1007/s00261-024-04605-0", "umap_coordinates": { "x": 395.4569091796875, "y": 132.7886962890625, "z": 205.13458251953125 }, "tsne_coordinates": { "x": -8.07194995880127, "y": 21.727680206298828, "z": -18.30900001525879 }, "pca_coordinates": { "x": -3.6141085624694824, "y": 1.8571527004241943, "z": 2.4508039951324463 }, "axis_scores": { "Quantum imaging": 0.7310723662376404, "Quantum Life Science Sensing": 0.6998755931854248, "Quantum sensing Detection": 0.6958838105201721, "Quantum sensing Metrology": 0.6813807487487793, "Quantum sensing navigation": 0.696206271648407, "Quantum sensing Position": 0.689461886882782, "Quantum sensing Timing": 0.6666073799133301, "Quantum sensing": 0.690898060798645, "Quantum control": 0.6751985549926758 } }, { "id": 3528, "title": "High contrast breast cancer biomarker semi-quantification and immunohistochemistry imaging using upconverting nanoparticles", "abstract": "Breast cancer is the second leading cause of cancer death in women. Current clinical treatment stratification practices open up an avenue for significant improvements, potentially through advancements...", "citations": 1, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3534, "doi": "10.1364/BOE.504939", "umap_coordinates": { "x": 393.98065185546875, "y": 133.4324951171875, "z": 205.2943878173828 }, "tsne_coordinates": { "x": 13.77033805847168, "y": 21.06396484375, "z": -23.90530014038086 }, "pca_coordinates": { "x": -3.463172435760498, "y": 0.27922487258911133, "z": 1.5015010833740234 }, "axis_scores": { "Quantum imaging": 0.7473276853561401, "Quantum Life Science Sensing": 0.7260499596595764, "Quantum sensing Detection": 0.7301927208900452, "Quantum sensing Metrology": 0.7095104455947876, "Quantum sensing navigation": 0.7018486261367798, "Quantum sensing Position": 0.6941190361976624, "Quantum sensing Timing": 0.6919612884521484, "Quantum sensing": 0.7265701293945312, "Quantum control": 0.6804823875427246 } }, { "id": 3529, "title": "Photochemical mineralisation in a boreal brown water lake: considerable temporal variability and minor contribution to carbon dioxide production", "abstract": "Sunlight induces photochemical mineralisation of chromophoric dissolved organic matter (CDOM) to dissolved inorganic carbon (DIC) in inland waters, resulting in carbon dioxide (CO2) emissions to the a...", "citations": 34, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3535, "doi": "10.5194/bg-13-3931-2016", "umap_coordinates": { "x": 393.689453125, "y": 136.30067443847656, "z": 203.9381561279297 }, "tsne_coordinates": { "x": 13.820174217224121, "y": 25.07183265686035, "z": 20.95256996154785 }, "pca_coordinates": { "x": -2.530644416809082, "y": 2.9654839038848877, "z": -2.7424798011779785 }, "axis_scores": { "Quantum imaging": 0.6633920073509216, "Quantum Life Science Sensing": 0.6956011056900024, "Quantum sensing Detection": 0.6683981418609619, "Quantum sensing Metrology": 0.6640753149986267, "Quantum sensing navigation": 0.6729416847229004, "Quantum sensing Position": 0.6508340835571289, "Quantum sensing Timing": 0.6512163877487183, "Quantum sensing": 0.6856274604797363, "Quantum control": 0.6700398325920105 } }, { "id": 3530, "title": "Noncollinear first-principles studies of the spin-electric coupling in frustrated triangular molecular magnets", "abstract": "Frustrated triangular molecular magnets (MMs) with antiferromagnetic ground states (GSs) are an important class of magnetic systems with potential applications in quantum information processing. The t...", "citations": 3, "author_count": 5, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3536, "doi": "10.1103/PhysRevB.109.214407", "umap_coordinates": { "x": 393.4649353027344, "y": 136.32040405273438, "z": 208.93687438964844 }, "tsne_coordinates": { "x": -4.003284931182861, "y": -34.14802551269531, "z": 14.970452308654785 }, "pca_coordinates": { "x": 4.663084506988525, "y": -0.8424282073974609, "z": -1.5396393537521362 }, "axis_scores": { "Quantum imaging": 0.6920560598373413, "Quantum Life Science Sensing": 0.7025215029716492, "Quantum sensing Detection": 0.6996650695800781, "Quantum sensing Metrology": 0.6847686767578125, "Quantum sensing navigation": 0.6894915699958801, "Quantum sensing Position": 0.6642706394195557, "Quantum sensing Timing": 0.6770454049110413, "Quantum sensing": 0.7021530866622925, "Quantum control": 0.6753526926040649 } }, { "id": 3531, "title": "Experimental demonstration of a quantum protocol for byzantine agreement and liar detection", "abstract": "We introduce a new quantum protocol for solving detectable Byzantine agreement (also called detectable broadcast) between three parties, and also for solving the detectable liar detection problem. The...", "citations": 36, "author_count": 6, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3537, "doi": "10.1103/PhysRevLett.100.070504", "umap_coordinates": { "x": 395.8716125488281, "y": 136.12716674804688, "z": 207.76202392578125 }, "tsne_coordinates": { "x": -22.929845809936523, "y": -11.834699630737305, "z": -4.999065399169922 }, "pca_coordinates": { "x": 3.1447091102600098, "y": 0.815394401550293, "z": 3.0920825004577637 }, "axis_scores": { "Quantum imaging": 0.6977030038833618, "Quantum Life Science Sensing": 0.6869200468063354, "Quantum sensing Detection": 0.698249876499176, "Quantum sensing Metrology": 0.6950951814651489, "Quantum sensing navigation": 0.6856244802474976, "Quantum sensing Position": 0.6854713559150696, "Quantum sensing Timing": 0.6961672306060791, "Quantum sensing": 0.7014161348342896, "Quantum control": 0.6833954453468323 } }, { "id": 3532, "title": "Quantum teleportation of single-electron states", "abstract": "We consider a scheme for on-demand teleportation of a dual-rail electron qubit state, based on single-electron sources and detectors. The scheme has a maximal efficiency of 25%, which is limited both ...", "citations": 13, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3538, "doi": "10.1103/PhysRevB.101.195403", "umap_coordinates": { "x": 394.7170715332031, "y": 134.21009826660156, "z": 208.6179962158203 }, "tsne_coordinates": { "x": 3.2867772579193115, "y": -25.604595184326172, "z": -12.565340995788574 }, "pca_coordinates": { "x": 5.009875297546387, "y": -1.3560879230499268, "z": 2.3447999954223633 }, "axis_scores": { "Quantum imaging": 0.7531402111053467, "Quantum Life Science Sensing": 0.752541184425354, "Quantum sensing Detection": 0.7754054665565491, "Quantum sensing Metrology": 0.7536617517471313, "Quantum sensing navigation": 0.7540162205696106, "Quantum sensing Position": 0.7352045178413391, "Quantum sensing Timing": 0.7292027473449707, "Quantum sensing": 0.779056191444397, "Quantum control": 0.7275367975234985 } }, { "id": 3533, "title": "2,6,8-Trisubstituted 3-Hydroxychromone Derivatives as Fluorophores for Live-Cell Imaging", "abstract": "We present the synthesis and photophysical characterisation of a series of structurally diverse, fluorescent 2,6,8-trisubstituted 3-hydroxychromone derivatives with high fluorescence quantum yields an...", "citations": 30, "author_count": 10, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3539, "doi": "10.1002/chem.200900279", "umap_coordinates": { "x": 392.52044677734375, "y": 135.344970703125, "z": 204.2283477783203 }, "tsne_coordinates": { "x": 6.505383491516113, "y": 10.799202919006348, "z": -14.988994598388672 }, "pca_coordinates": { "x": -4.26884651184082, "y": 0.03920125961303711, "z": -2.890153408050537 }, "axis_scores": { "Quantum imaging": 0.7311501502990723, "Quantum Life Science Sensing": 0.7225899696350098, "Quantum sensing Detection": 0.6863200664520264, "Quantum sensing Metrology": 0.6766905784606934, "Quantum sensing navigation": 0.6949200630187988, "Quantum sensing Position": 0.6723402738571167, "Quantum sensing Timing": 0.6652069687843323, "Quantum sensing": 0.7118422985076904, "Quantum control": 0.6889106035232544 } }, { "id": 3534, "title": "CdSe layers of below critical thickness in ZnSe matrix: Intrinsic morphology and defect formation", "abstract": "Three main stages of the intrinsic morphology transformation of MBE grown CdSe fractional monolayers in ZnSe with increase in their nominal thickness w in the 0.1-3.0 monolayer range were found using ...", "citations": 6, "author_count": 8, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3540, "doi": "10.12693/APhysPolA.94.519", "umap_coordinates": { "x": 392.8819580078125, "y": 134.358642578125, "z": 206.52769470214844 }, "tsne_coordinates": { "x": 26.744598388671875, "y": -0.7428563833236694, "z": 1.4905520677566528 }, "pca_coordinates": { "x": -0.9851511716842651, "y": -0.7668282985687256, "z": -0.28498703241348267 }, "axis_scores": { "Quantum imaging": 0.7065280675888062, "Quantum Life Science Sensing": 0.718627393245697, "Quantum sensing Detection": 0.6998620629310608, "Quantum sensing Metrology": 0.6993356943130493, "Quantum sensing navigation": 0.6967712044715881, "Quantum sensing Position": 0.6972249746322632, "Quantum sensing Timing": 0.6797808408737183, "Quantum sensing": 0.706283688545227, "Quantum control": 0.6931216716766357 } }, { "id": 3535, "title": "LOW 1/F NOISE IN YBA2CU3O7 DC SQUIDS ON (Y)ZRO2 BICRYSTAL SUBSTRATES", "abstract": "We report low noise operation of YBa2Cu3O7 SQUIDs superconducting quantum interference devices using Josephson junctions grown on bicrystal substrates of (Y)ZrO2. Energy sensitivities measured at 10 H...", "citations": 28, "author_count": 7, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 3541, "doi": "10.1063/1.107769", "umap_coordinates": { "x": 393.667236328125, "y": 134.40476989746094, "z": 208.13232421875 }, "tsne_coordinates": { "x": 20.163005828857422, "y": -37.06979751586914, "z": 5.997062683105469 }, "pca_coordinates": { "x": 0.907867431640625, "y": -1.756904125213623, "z": -0.08398175239562988 }, "axis_scores": { "Quantum imaging": 0.7135759592056274, "Quantum Life Science Sensing": 0.7230176329612732, "Quantum sensing Detection": 0.7202533483505249, "Quantum sensing Metrology": 0.7092462182044983, "Quantum sensing navigation": 0.7143378853797913, "Quantum sensing Position": 0.6851000785827637, "Quantum sensing Timing": 0.683605968952179, "Quantum sensing": 0.7295321226119995, "Quantum control": 0.7197423577308655 } }, { "id": 3536, "title": "States that are far from being stabilizer states", "abstract": "Stabilizer states are eigenvectors of maximal commuting sets of operators in a finite Heisenberg group. States that are far from being stabilizer states include magic states in quantum computation, MU...", "citations": 8, "author_count": 5, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3542, "doi": "10.1088/1751-8113/48/34/345301", "umap_coordinates": { "x": 395.285400390625, "y": 137.38619995117188, "z": 207.06246948242188 }, "tsne_coordinates": { "x": -38.28129196166992, "y": -7.694357872009277, "z": -0.9317686557769775 }, "pca_coordinates": { "x": 2.001477003097534, "y": 2.5556724071502686, "z": -2.2734768390655518 }, "axis_scores": { "Quantum imaging": 0.6578312516212463, "Quantum Life Science Sensing": 0.7012608051300049, "Quantum sensing Detection": 0.6612734198570251, "Quantum sensing Metrology": 0.6714636087417603, "Quantum sensing navigation": 0.6847392320632935, "Quantum sensing Position": 0.6736361980438232, "Quantum sensing Timing": 0.647726833820343, "Quantum sensing": 0.6812080144882202, "Quantum control": 0.7022694945335388 } }, { "id": 3537, "title": "Negative refraction in two-dimensional photonic crystals", "abstract": "We present some of our recent results for negative refraction in photonic crystals. The concept of negative refraction in photonic crystals is firstly introduced. Then, the propagation of electromagne...", "citations": 4, "author_count": 10, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3543, "doi": "10.1007/s00339-004-3179-8", "umap_coordinates": { "x": 393.5272216796875, "y": 135.1729278564453, "z": 206.8306121826172 }, "tsne_coordinates": { "x": 9.977158546447754, "y": -13.757941246032715, "z": -33.65265655517578 }, "pca_coordinates": { "x": -1.260331630706787, "y": -0.5808584690093994, "z": 1.08640718460083 }, "axis_scores": { "Quantum imaging": 0.7255119681358337, "Quantum Life Science Sensing": 0.7141861319541931, "Quantum sensing Detection": 0.7087129354476929, "Quantum sensing Metrology": 0.7006253004074097, "Quantum sensing navigation": 0.7294324636459351, "Quantum sensing Position": 0.7040412425994873, "Quantum sensing Timing": 0.6813973188400269, "Quantum sensing": 0.7105077505111694, "Quantum control": 0.6934283375740051 } }, { "id": 3538, "title": "Engineering Symmetry-Selective Couplings of a Superconducting Artificial Molecule to Microwave Waveguides", "abstract": "Tailoring the decay rate of structured quantum emitters into their environment opens new avenues for nonlinear quantum optics, collective phenomena, and quantum communications. Here, we demonstrate a ...", "citations": 10, "author_count": 11, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3544, "doi": "10.1103/PhysRevLett.129.123604", "umap_coordinates": { "x": 394.5012512207031, "y": 135.1805877685547, "z": 207.99169921875 }, "tsne_coordinates": { "x": -12.83945083618164, "y": -24.158824920654297, "z": -12.610076904296875 }, "pca_coordinates": { "x": 3.4514517784118652, "y": -1.4709491729736328, "z": 0.7180437445640564 }, "axis_scores": { "Quantum imaging": 0.729727029800415, "Quantum Life Science Sensing": 0.7260910868644714, "Quantum sensing Detection": 0.7287643551826477, "Quantum sensing Metrology": 0.7117764949798584, "Quantum sensing navigation": 0.7368949055671692, "Quantum sensing Position": 0.6891897320747375, "Quantum sensing Timing": 0.6962403059005737, "Quantum sensing": 0.7401629090309143, "Quantum control": 0.7183055877685547 } }, { "id": 3539, "title": "A study of the reaction e(+)e(-)->mu(+)mu(-)gamma(ISR) at LEP and search for new physics at annihilation energies near 80 GeV", "abstract": "A study of the channel e(+)e(-) --> mu(+)mu(-)gamma ISR, where gamma ISR is an initial state radiation photon, is presented using data collected by the DELPHI experiment from 1991 to 1994. The total c...", "citations": 10, "author_count": 542, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3545, "doi": "10.1007/s002880050504", "umap_coordinates": { "x": 396.2371520996094, "y": 134.76429748535156, "z": 206.5392608642578 }, "tsne_coordinates": { "x": -25.797931671142578, "y": 13.772589683532715, "z": -2.983935832977295 }, "pca_coordinates": { "x": -1.3451008796691895, "y": 2.1302363872528076, "z": 1.37324857711792 }, "axis_scores": { "Quantum imaging": 0.6640174984931946, "Quantum Life Science Sensing": 0.6765472888946533, "Quantum sensing Detection": 0.656731367111206, "Quantum sensing Metrology": 0.654021680355072, "Quantum sensing navigation": 0.6564005017280579, "Quantum sensing Position": 0.6476632356643677, "Quantum sensing Timing": 0.6448149681091309, "Quantum sensing": 0.6546847224235535, "Quantum control": 0.6293751001358032 } }, { "id": 3540, "title": "Femtosecond laser processing of glassy and polymeric matrices containing metals and semiconductor nanostructures", "abstract": "Tailoring properties of materials by femtosecond laser processing has been proposed in the last decade as a powerful approach for technological applications, ranging from optics to biology. Although m...", "citations": 30, "author_count": 13, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3546, "doi": "10.1016/j.optmat.2013.08.001", "umap_coordinates": { "x": 393.6107482910156, "y": 133.93592834472656, "z": 205.16256713867188 }, "tsne_coordinates": { "x": 12.205246925354004, "y": 17.62022590637207, "z": -7.242100715637207 }, "pca_coordinates": { "x": -3.4616615772247314, "y": -1.228823184967041, "z": 0.757246196269989 }, "axis_scores": { "Quantum imaging": 0.7309719920158386, "Quantum Life Science Sensing": 0.7366295456886292, "Quantum sensing Detection": 0.7194038033485413, "Quantum sensing Metrology": 0.7370703816413879, "Quantum sensing navigation": 0.6927388310432434, "Quantum sensing Position": 0.6972911357879639, "Quantum sensing Timing": 0.6672666668891907, "Quantum sensing": 0.7362596392631531, "Quantum control": 0.6670119762420654 } }, { "id": 3541, "title": "Energy resolution of a segmented silicon strip detector for photon-counting spectral CT", "abstract": "We investigated the energy resolution of a segmented silicon strip detector for photon-counting spectral computed tomography (CT). The detector response to different monochromatic photon energies and ...", "citations": 44, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3547, "doi": "10.1016/j.nima.2013.02.030", "umap_coordinates": { "x": 394.79425048828125, "y": 132.52545166015625, "z": 205.3687286376953 }, "tsne_coordinates": { "x": -15.159371376037598, "y": 18.378623962402344, "z": -14.322927474975586 }, "pca_coordinates": { "x": -4.20393180847168, "y": 0.3186197280883789, "z": 3.6252455711364746 }, "axis_scores": { "Quantum imaging": 0.7048929333686829, "Quantum Life Science Sensing": 0.6933547854423523, "Quantum sensing Detection": 0.6903658509254456, "Quantum sensing Metrology": 0.6790046095848083, "Quantum sensing navigation": 0.6684700846672058, "Quantum sensing Position": 0.6631495356559753, "Quantum sensing Timing": 0.6729987263679504, "Quantum sensing": 0.6893976330757141, "Quantum control": 0.607584536075592 } }, { "id": 3542, "title": "Photodetachment in a strong laser field: An experimental test of Keldysh-like theories", "abstract": "We investigate the photodetachment process in the negative fluorine ion in a strong linearly polarized laser field. Angle-resolved momentum distributions of photoelectrons are measured with the use of...", "citations": 63, "author_count": 5, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3548, "doi": "10.1103/PhysRevA.75.063415", "umap_coordinates": { "x": 395.4187316894531, "y": 135.48619079589844, "z": 207.45359802246094 }, "tsne_coordinates": { "x": -11.094551086425781, "y": -8.783432960510254, "z": -12.24207592010498 }, "pca_coordinates": { "x": 2.004359483718872, "y": 0.4136631488800049, "z": 0.5763290524482727 }, "axis_scores": { "Quantum imaging": 0.7082441449165344, "Quantum Life Science Sensing": 0.7281837463378906, "Quantum sensing Detection": 0.7120470404624939, "Quantum sensing Metrology": 0.6929932236671448, "Quantum sensing navigation": 0.6802049279212952, "Quantum sensing Position": 0.6842409372329712, "Quantum sensing Timing": 0.6708012223243713, "Quantum sensing": 0.7166653871536255, "Quantum control": 0.6652735471725464 } }, { "id": 3543, "title": "Syntheses and spectroscopic properties of energy transfer systems based on squaraines", "abstract": "The purpose of this project was to prepare fluorescent dyes that could absorb energy at relatively short wavelengths, and fluoresce in the near-IR region. To achieve this, copper- and palladium-mediat...", "citations": 39, "author_count": 7, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3549, "doi": "10.1016/S0040-4020(03)00383-1", "umap_coordinates": { "x": 392.510986328125, "y": 135.8166046142578, "z": 205.63771057128906 }, "tsne_coordinates": { "x": 16.328292846679688, "y": 11.194022178649902, "z": -27.84063148498535 }, "pca_coordinates": { "x": -1.3937249183654785, "y": -1.0109124183654785, "z": -2.5172345638275146 }, "axis_scores": { "Quantum imaging": 0.6837498545646667, "Quantum Life Science Sensing": 0.736636757850647, "Quantum sensing Detection": 0.6696762442588806, "Quantum sensing Metrology": 0.6721519231796265, "Quantum sensing navigation": 0.6678252816200256, "Quantum sensing Position": 0.6635364890098572, "Quantum sensing Timing": 0.6454078555107117, "Quantum sensing": 0.6912407875061035, "Quantum control": 0.6713630557060242 } }, { "id": 3544, "title": "Research communities in cyber security: A comprehensive literature review", "abstract": "In order to provide a coherent overview of cyber security research, the Scopus academic abstract and citation database was mined to create a citation graph of 98,373 authors active in the field betwee...", "citations": 23, "author_count": 5, "categories": [ "Computer Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3550, "doi": "10.1016/j.cosrev.2021.100431", "umap_coordinates": { "x": 394.1595153808594, "y": 135.0231475830078, "z": 204.95208740234375 }, "tsne_coordinates": { "x": -11.138944625854492, "y": 16.5379581451416, "z": 13.226895332336426 }, "pca_coordinates": { "x": -0.7083255648612976, "y": 3.1750030517578125, "z": -1.6538763046264648 }, "axis_scores": { "Quantum imaging": 0.6925735473632812, "Quantum Life Science Sensing": 0.7207720279693604, "Quantum sensing Detection": 0.6976058483123779, "Quantum sensing Metrology": 0.6786677241325378, "Quantum sensing navigation": 0.6922696828842163, "Quantum sensing Position": 0.6724660992622375, "Quantum sensing Timing": 0.6709957718849182, "Quantum sensing": 0.7070620059967041, "Quantum control": 0.7198403477668762 } }, { "id": 3545, "title": "Anisotropic hydrodynamic function of dense confined colloids", "abstract": "Dense colloidal dispersions exhibit complex wave-vector-dependent diffusion, which is controlled by both direct particle interactions and indirect nonadditive hydrodynamic interactions mediated by the...", "citations": 5, "author_count": 7, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3551, "doi": "10.1103/PhysRevE.95.062601", "umap_coordinates": { "x": 394.70477294921875, "y": 136.18565368652344, "z": 208.3881378173828 }, "tsne_coordinates": { "x": -1.0035594701766968, "y": 0.5264427065849304, "z": 40.18339157104492 }, "pca_coordinates": { "x": 2.2113075256347656, "y": -0.9975006580352783, "z": -1.2813775539398193 }, "axis_scores": { "Quantum imaging": 0.7097889184951782, "Quantum Life Science Sensing": 0.7142013907432556, "Quantum sensing Detection": 0.6902110576629639, "Quantum sensing Metrology": 0.6775863766670227, "Quantum sensing navigation": 0.7143843173980713, "Quantum sensing Position": 0.6739444136619568, "Quantum sensing Timing": 0.6375526189804077, "Quantum sensing": 0.7066748738288879, "Quantum control": 0.696253776550293 } }, { "id": 3546, "title": "Multidimensional Instability and Dynamics of Spin Avalanches in Crystals of Nanomagnets", "abstract": "We obtain a fundamental instability of the magnetization-switching fronts in superparamagnetic and ferromagnetic materials such as crystals of nanomagnets, ferromagnetic nanowires, and systems of quan...", "citations": 7, "author_count": 5, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3552, "doi": "10.1103/PhysRevLett.113.217206", "umap_coordinates": { "x": 393.5943298339844, "y": 136.15762329101562, "z": 208.37379455566406 }, "tsne_coordinates": { "x": -1.8940074443817139, "y": -21.933635711669922, "z": 22.023815155029297 }, "pca_coordinates": { "x": 4.0188422203063965, "y": -2.719137668609619, "z": -0.46638768911361694 }, "axis_scores": { "Quantum imaging": 0.7156039476394653, "Quantum Life Science Sensing": 0.7426236271858215, "Quantum sensing Detection": 0.7177801728248596, "Quantum sensing Metrology": 0.7126978635787964, "Quantum sensing navigation": 0.7183186411857605, "Quantum sensing Position": 0.6880781054496765, "Quantum sensing Timing": 0.6797118186950684, "Quantum sensing": 0.7185969948768616, "Quantum control": 0.6850844621658325 } }, { "id": 3547, "title": "Transition from silicon nanowires to isolated quantum dots: Optical and structural evolution", "abstract": "The evolution of the structural and optical properties of a silicon core in oxidized nanowalls is investigated as a function of oxidation time. The same individual nanostructures are characterized aft...", "citations": 13, "author_count": 6, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3553, "doi": "10.1103/PhysRevB.87.045404", "umap_coordinates": { "x": 393.67095947265625, "y": 134.072265625, "z": 208.72384643554688 }, "tsne_coordinates": { "x": 4.9887614250183105, "y": -22.616924285888672, "z": -0.4780527353286743 }, "pca_coordinates": { "x": 2.6717872619628906, "y": -3.7665038108825684, "z": 0.5958853363990784 }, "axis_scores": { "Quantum imaging": 0.7499045133590698, "Quantum Life Science Sensing": 0.7618508338928223, "Quantum sensing Detection": 0.7520431280136108, "Quantum sensing Metrology": 0.7272180914878845, "Quantum sensing navigation": 0.7378146648406982, "Quantum sensing Position": 0.7040971517562866, "Quantum sensing Timing": 0.6801360249519348, "Quantum sensing": 0.758543074131012, "Quantum control": 0.718248188495636 } }, { "id": 3548, "title": "Orbital Angular Momentum Coupling in Elastic Photon-Photon Scattering", "abstract": "In this Letter, we investigate the effect of orbital angular momentum (OAM) on elastic photon-photon scattering in a vacuum for the first time. We define exact solutions to the vacuum electromagnetic ...", "citations": 30, "author_count": 12, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3554, "doi": "10.1103/PhysRevLett.123.113604", "umap_coordinates": { "x": 395.1043701171875, "y": 135.47007751464844, "z": 208.8685760498047 }, "tsne_coordinates": { "x": -14.690314292907715, "y": -10.303133010864258, "z": 5.8998613357543945 }, "pca_coordinates": { "x": 4.318573474884033, "y": -0.9826736450195312, "z": 1.180729627609253 }, "axis_scores": { "Quantum imaging": 0.7076839804649353, "Quantum Life Science Sensing": 0.6873818635940552, "Quantum sensing Detection": 0.7062923908233643, "Quantum sensing Metrology": 0.67581707239151, "Quantum sensing navigation": 0.7151097655296326, "Quantum sensing Position": 0.6876253485679626, "Quantum sensing Timing": 0.687371551990509, "Quantum sensing": 0.7089328169822693, "Quantum control": 0.6803169250488281 } }, { "id": 3549, "title": "High quality large area ELOG InP on silicon for photonic integration using conventional optical lithography", "abstract": "A simple method of growing large areas of InP on Si through Epitaxial Lateral Overgrowth (ELOG) is presented. Isolated areas of high quality InP suitable for photonic integration are grown in deeply e...", "citations": 4, "author_count": 7, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3555, "doi": "10.1117/12.2039794", "umap_coordinates": { "x": 394.13818359375, "y": 133.29263305664062, "z": 206.52175903320312 }, "tsne_coordinates": { "x": -0.0004611619806382805, "y": 4.0995635986328125, "z": -30.566396713256836 }, "pca_coordinates": { "x": -1.5002012252807617, "y": -1.813201904296875, "z": 3.2553703784942627 }, "axis_scores": { "Quantum imaging": 0.7197210192680359, "Quantum Life Science Sensing": 0.6988366842269897, "Quantum sensing Detection": 0.6985129714012146, "Quantum sensing Metrology": 0.720849335193634, "Quantum sensing navigation": 0.7095073461532593, "Quantum sensing Position": 0.6979100704193115, "Quantum sensing Timing": 0.6734844446182251, "Quantum sensing": 0.7111989259719849, "Quantum control": 0.6799365878105164 } }, { "id": 3550, "title": "Visible light-driven water oxidation catalyzed by mononuclear ruthenium complexes", "abstract": "A series of mononuclear ruthenium water oxidation catalysts (WOCs) [Ru(bda)L-2] (H(2)bda = 2,2'-bipyridine-6,6'-dicarboxylic acid; L = N-cyclic aromatic ligands) were investigated in three-component l...", "citations": 59, "author_count": 5, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3556, "doi": "10.1016/j.jcat.2013.06.023", "umap_coordinates": { "x": 392.79827880859375, "y": 134.69984436035156, "z": 204.86419677734375 }, "tsne_coordinates": { "x": 18.974960327148438, "y": 8.499824523925781, "z": -4.30950403213501 }, "pca_coordinates": { "x": -3.483186721801758, "y": -1.2934579849243164, "z": -2.593606948852539 }, "axis_scores": { "Quantum imaging": 0.7324756383895874, "Quantum Life Science Sensing": 0.7592889666557312, "Quantum sensing Detection": 0.7330160140991211, "Quantum sensing Metrology": 0.7171184420585632, "Quantum sensing navigation": 0.7239148616790771, "Quantum sensing Position": 0.6695293188095093, "Quantum sensing Timing": 0.6762725114822388, "Quantum sensing": 0.7438392043113708, "Quantum control": 0.7335855960845947 } }, { "id": 3551, "title": "Single-particle nonlocality and entanglement with the vacuum -: art. no. 042106", "abstract": "We propose a single-particle experiment that is equivalent to the conventional two-particle experiment used to demonstrate a violation of Bell's inequalities. Hence, we argue that quantum mechanical n...", "citations": 45, "author_count": 4, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3557, "doi": "10.1103/PhysRevA.64.042106", "umap_coordinates": { "x": 395.1707763671875, "y": 134.93099975585938, "z": 208.4073028564453 }, "tsne_coordinates": { "x": 2.196939706802368, "y": -23.207977294921875, "z": -13.429264068603516 }, "pca_coordinates": { "x": 4.132372856140137, "y": 0.3872952461242676, "z": 2.2217841148376465 }, "axis_scores": { "Quantum imaging": 0.7255875468254089, "Quantum Life Science Sensing": 0.7290735840797424, "Quantum sensing Detection": 0.7351465225219727, "Quantum sensing Metrology": 0.719847559928894, "Quantum sensing navigation": 0.739514946937561, "Quantum sensing Position": 0.7147647738456726, "Quantum sensing Timing": 0.6799167990684509, "Quantum sensing": 0.7378683090209961, "Quantum control": 0.7083083987236023 } }, { "id": 3552, "title": "Evidence of half-integer Shapiro steps originated from nonsinusoidal current phase relation in a short ballistic InAs nanowire Josephson junction", "abstract": "We report on half-integer Shapiro steps observed in a gate-tunable short ballistic InAs nanowire Josephson junction. We observed the Shapiro steps of the short ballistic InAs nanowire Josephson juncti...", "citations": 27, "author_count": 10, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3558, "doi": "10.1103/PhysRevResearch.2.033435", "umap_coordinates": { "x": 393.5700988769531, "y": 135.3002166748047, "z": 208.64730834960938 }, "tsne_coordinates": { "x": 12.07319164276123, "y": -17.930252075195312, "z": 0.43434104323387146 }, "pca_coordinates": { "x": 3.5483336448669434, "y": -1.6328234672546387, "z": 0.6922518610954285 }, "axis_scores": { "Quantum imaging": 0.713093638420105, "Quantum Life Science Sensing": 0.7423325181007385, "Quantum sensing Detection": 0.7101035118103027, "Quantum sensing Metrology": 0.7093383073806763, "Quantum sensing navigation": 0.7423957586288452, "Quantum sensing Position": 0.7187913656234741, "Quantum sensing Timing": 0.7125034332275391, "Quantum sensing": 0.7203863263130188, "Quantum control": 0.6604761481285095 } }, { "id": 3553, "title": "Strong Absorption Enhancement in Si Nanorods", "abstract": "We report two orders of magnitude stronger absorption in silicon nanorods relative to bulk in a wide energy range. The local field enhancement and dipole matrix element contributions were disentangled...", "citations": 12, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3559, "doi": "10.1021/acs.nanolett.6b04243", "umap_coordinates": { "x": 392.6017761230469, "y": 133.44395446777344, "z": 206.92349243164062 }, "tsne_coordinates": { "x": 22.475034713745117, "y": -16.79303550720215, "z": -19.002500534057617 }, "pca_coordinates": { "x": -2.213465452194214, "y": -5.748372554779053, "z": 0.9002780318260193 }, "axis_scores": { "Quantum imaging": 0.7063296437263489, "Quantum Life Science Sensing": 0.7285271286964417, "Quantum sensing Detection": 0.7092654705047607, "Quantum sensing Metrology": 0.6874209642410278, "Quantum sensing navigation": 0.6837048530578613, "Quantum sensing Position": 0.6738399863243103, "Quantum sensing Timing": 0.643574595451355, "Quantum sensing": 0.7165809273719788, "Quantum control": 0.6482510566711426 } }, { "id": 3554, "title": "Multispectral guided fluorescence diffuse optical tomography using upconverting nanoparticles", "abstract": "We report on improved image detectability for fluorescence diffuse optical tomography using upconverting nanoparticles doped with rare-earth elements. Core-shell NaYF4 : Yb3+/Er3+ @ NaYF4 upconverting...", "citations": 9, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3560, "doi": "10.1063/1.4863960", "umap_coordinates": { "x": 393.7366638183594, "y": 133.37075805664062, "z": 206.27793884277344 }, "tsne_coordinates": { "x": 12.006461143493652, "y": 22.343647003173828, "z": -23.966501235961914 }, "pca_coordinates": { "x": -2.3672988414764404, "y": -2.2861995697021484, "z": 3.00233793258667 }, "axis_scores": { "Quantum imaging": 0.7501267194747925, "Quantum Life Science Sensing": 0.7383313775062561, "Quantum sensing Detection": 0.7367061376571655, "Quantum sensing Metrology": 0.7370977997779846, "Quantum sensing navigation": 0.7178323864936829, "Quantum sensing Position": 0.6932929754257202, "Quantum sensing Timing": 0.6760574579238892, "Quantum sensing": 0.7483183741569519, "Quantum control": 0.6840142011642456 } }, { "id": 3555, "title": "TRANSITION FROM CHAOTIC TO REGULAR BEHAVIOR OF ELECTRONS IN A STADIUM-SHAPED QUANTUM-DOT IN A PERPENDICULAR MAGNETIC-FIELD", "abstract": "The energy spectrum, wave functions, and field-induced currents in a two-dimensional isolated stadium-shaped dot are calculated in the presence of a perpendicular magnetic field. By means of the magne...", "citations": 27, "author_count": 3, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3561, "doi": "10.1103/PhysRevB.52.1745", "umap_coordinates": { "x": 393.9970703125, "y": 136.12269592285156, "z": 208.9850616455078 }, "tsne_coordinates": { "x": 0.875846803188324, "y": -31.135459899902344, "z": 9.70309829711914 }, "pca_coordinates": { "x": 4.133213520050049, "y": -1.5784087181091309, "z": -2.4941160678863525 }, "axis_scores": { "Quantum imaging": 0.7024046182632446, "Quantum Life Science Sensing": 0.7068998217582703, "Quantum sensing Detection": 0.7016635537147522, "Quantum sensing Metrology": 0.6753568649291992, "Quantum sensing navigation": 0.720247745513916, "Quantum sensing Position": 0.6932421326637268, "Quantum sensing Timing": 0.6882463693618774, "Quantum sensing": 0.7042319178581238, "Quantum control": 0.7079048752784729 } }, { "id": 3556, "title": "Nuclear Spectroscopy with Geant4: Proton and Neutron Emission & Radioactivity", "abstract": "With the aid of a novel combination of existing equipment - JYFLTRAP and the TASISpec decay station it is possible to perform very clean quantum-state selective, high-resolution particle-gamma decay s...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3562, "doi": "10.1063/1.4955370", "umap_coordinates": { "x": 393.7315368652344, "y": 135.6886749267578, "z": 207.25177001953125 }, "tsne_coordinates": { "x": -14.672820091247559, "y": 20.106307983398438, "z": -35.43073654174805 }, "pca_coordinates": { "x": 0.0800471305847168, "y": 1.498866081237793, "z": 2.1389646530151367 }, "axis_scores": { "Quantum imaging": 0.7370743751525879, "Quantum Life Science Sensing": 0.747247576713562, "Quantum sensing Detection": 0.7299864888191223, "Quantum sensing Metrology": 0.7137200832366943, "Quantum sensing navigation": 0.7244616150856018, "Quantum sensing Position": 0.6892110109329224, "Quantum sensing Timing": 0.6835863590240479, "Quantum sensing": 0.7390639781951904, "Quantum control": 0.6800124049186707 } }, { "id": 3557, "title": "Chemiluminescence and Fluorescence States of a Small Model for Coelenteramide and Cypridina Oxyluciferin: A CASSCF/CASPT2 Study", "abstract": "Fluorescence and chemiluminescence phenomena are often confused in experimental and theoretical studies on the luminescent properties of chemical systems. To establish the patterns that distinguish bo...", "citations": 53, "author_count": 7, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3563, "doi": "10.1021/ct2004758", "umap_coordinates": { "x": 392.51898193359375, "y": 136.44761657714844, "z": 205.0186767578125 }, "tsne_coordinates": { "x": 8.660372734069824, "y": 4.340897560119629, "z": 8.259221076965332 }, "pca_coordinates": { "x": -2.5935375690460205, "y": 2.8324027061462402, "z": -3.307368755340576 }, "axis_scores": { "Quantum imaging": 0.6735271215438843, "Quantum Life Science Sensing": 0.7056835889816284, "Quantum sensing Detection": 0.6540927290916443, "Quantum sensing Metrology": 0.6402700543403625, "Quantum sensing navigation": 0.6419854760169983, "Quantum sensing Position": 0.6139543056488037, "Quantum sensing Timing": 0.6210803985595703, "Quantum sensing": 0.6659836173057556, "Quantum control": 0.6763845086097717 } }, { "id": 3558, "title": "Photon Generation in an Electromagnetic Cavity with a Time-Dependent Boundary", "abstract": "We report the observation of photon generation in a microwave cavity with a time-dependent boundary condition. Our system is a microfabricated quarter-wave coplanar waveguide cavity. The electrical le...", "citations": 151, "author_count": 7, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3564, "doi": "10.1103/PhysRevLett.105.233907", "umap_coordinates": { "x": 395.3067626953125, "y": 135.392822265625, "z": 208.20098876953125 }, "tsne_coordinates": { "x": -10.414445877075195, "y": -20.994243621826172, "z": -3.458616256713867 }, "pca_coordinates": { "x": 3.372544765472412, "y": 0.48464274406433105, "z": 1.4209957122802734 }, "axis_scores": { "Quantum imaging": 0.7184076309204102, "Quantum Life Science Sensing": 0.7289878129959106, "Quantum sensing Detection": 0.7281253933906555, "Quantum sensing Metrology": 0.7048775553703308, "Quantum sensing navigation": 0.7128769755363464, "Quantum sensing Position": 0.6886978149414062, "Quantum sensing Timing": 0.7158454060554504, "Quantum sensing": 0.7239025831222534, "Quantum control": 0.6937686800956726 } }, { "id": 3559, "title": "Performance of the Gaia mission", "abstract": "The expected performance of the Gaia mission is outlined. The improvement compared with Hipparcos in the accuracy, number of objects and limiting magnitude is staggering, and we focus on explaining ho...", "citations": 6, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3565, "doi": null, "umap_coordinates": { "x": 391.984619140625, "y": 139.4440460205078, "z": 209.7937469482422 }, "tsne_coordinates": { "x": 2.1977779865264893, "y": 50.29304122924805, "z": -5.004456996917725 }, "pca_coordinates": { "x": -1.3018320798873901, "y": 4.95332670211792, "z": -1.317112684249878 }, "axis_scores": { "Quantum imaging": 0.6917104721069336, "Quantum Life Science Sensing": 0.6961767673492432, "Quantum sensing Detection": 0.6838889122009277, "Quantum sensing Metrology": 0.6891026496887207, "Quantum sensing navigation": 0.6949561834335327, "Quantum sensing Position": 0.671863317489624, "Quantum sensing Timing": 0.6728329062461853, "Quantum sensing": 0.6933653950691223, "Quantum control": 0.7033525109291077 } }, { "id": 3560, "title": "Controlling excitonic wavepacket motion in the PS1 core-antenna system", "abstract": "Sub-picosecond laser pulse driven localization of electronic excitation energy is suggested for a biological chromophore complex. Based on an exciton model of the photosynthetic core antenna PSI of Sy...", "citations": 17, "author_count": 3, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3566, "doi": "10.1016/j.cplett.2004.11.022", "umap_coordinates": { "x": 392.4994812011719, "y": 136.1207275390625, "z": 206.46995544433594 }, "tsne_coordinates": { "x": 12.236310005187988, "y": 0.8085340261459351, "z": 13.663002014160156 }, "pca_coordinates": { "x": 0.39736151695251465, "y": -0.5444507598876953, "z": -1.3435919284820557 }, "axis_scores": { "Quantum imaging": 0.6669977903366089, "Quantum Life Science Sensing": 0.6596977710723877, "Quantum sensing Detection": 0.6558299660682678, "Quantum sensing Metrology": 0.6507657766342163, "Quantum sensing navigation": 0.6915362477302551, "Quantum sensing Position": 0.6780790090560913, "Quantum sensing Timing": 0.685743510723114, "Quantum sensing": 0.6715145707130432, "Quantum control": 0.6944778561592102 } }, { "id": 3561, "title": "The renaissance of hybrid solar cells: progresses, challenges, and perspectives", "abstract": "Solution-processed hybrid solar cells, a blend of conjugated polymers and semiconducting nanocrystals, are a promising candidate for next-generation energy-conversion devices. The renaissance of this ...", "citations": 111, "author_count": 4, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3567, "doi": "10.1039/c3ee23666h", "umap_coordinates": { "x": 392.2135314941406, "y": 134.67080688476562, "z": 205.09866333007812 }, "tsne_coordinates": { "x": 10.834773063659668, "y": -0.3500170111656189, "z": -18.652023315429688 }, "pca_coordinates": { "x": -2.249222755432129, "y": -0.46936464309692383, "z": -4.397848129272461 }, "axis_scores": { "Quantum imaging": 0.6424789428710938, "Quantum Life Science Sensing": 0.7130740880966187, "Quantum sensing Detection": 0.6411921977996826, "Quantum sensing Metrology": 0.6417763233184814, "Quantum sensing navigation": 0.6621060371398926, "Quantum sensing Position": 0.6483340859413147, "Quantum sensing Timing": 0.6169074773788452, "Quantum sensing": 0.6630264520645142, "Quantum control": 0.6588738560676575 } }, { "id": 3562, "title": "Increased Electronic Coupling in Silicon Nanocrystal Networks Doped with F4-TCNQ", "abstract": "The modification of the electronic structure of silicon nanocrystals using an organic dopant, 2,3,5,6-tetrafluoro-7,7,8,8-tetracyanoquinodimethane (F-4-TCNQ), is investigated using first-principles ca...", "citations": 1, "author_count": 5, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3568, "doi": "10.1166/jnn.2013.6129", "umap_coordinates": { "x": 392.7441101074219, "y": 134.712890625, "z": 206.3422088623047 }, "tsne_coordinates": { "x": 4.1412224769592285, "y": -28.6724796295166, "z": -25.5383358001709 }, "pca_coordinates": { "x": -0.5885975360870361, "y": -1.6830124855041504, "z": 0.19569331407546997 }, "axis_scores": { "Quantum imaging": 0.7042466998100281, "Quantum Life Science Sensing": 0.6771707534790039, "Quantum sensing Detection": 0.6760236024856567, "Quantum sensing Metrology": 0.6656498312950134, "Quantum sensing navigation": 0.6887914538383484, "Quantum sensing Position": 0.6572239995002747, "Quantum sensing Timing": 0.6641544699668884, "Quantum sensing": 0.6918898820877075, "Quantum control": 0.6861286163330078 } }, { "id": 3563, "title": "Nonperturbative-transverse-momentum effects and evolution in dihadron and direct photon-hadron angular correlations in p plus p collisions at √s=510 GeV", "abstract": "Dihadron and isolated direct photon-hadron angular correlations are measured in p + p collisions at root s = 510 GeV. Correlations of charged hadrons of 0.7 < p(T) < 10 GeV/c with pi(0) mesons of 4 < ...", "citations": 11, "author_count": 467, "categories": [ "Astronomy & Astrophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3569, "doi": "10.1103/PhysRevD.95.072002", "umap_coordinates": { "x": 396.6121520996094, "y": 134.62176513671875, "z": 207.97520446777344 }, "tsne_coordinates": { "x": -31.24759864807129, "y": 5.698822021484375, "z": -16.366891860961914 }, "pca_coordinates": { "x": 2.531264066696167, "y": 0.6835598945617676, "z": 1.3812785148620605 }, "axis_scores": { "Quantum imaging": 0.6927841305732727, "Quantum Life Science Sensing": 0.675899863243103, "Quantum sensing Detection": 0.6877884268760681, "Quantum sensing Metrology": 0.6561620831489563, "Quantum sensing navigation": 0.6877877116203308, "Quantum sensing Position": 0.6843248009681702, "Quantum sensing Timing": 0.6861160397529602, "Quantum sensing": 0.6893446445465088, "Quantum control": 0.6775873899459839 } }, { "id": 3564, "title": "Detuning the Honeycomb of the α-RuCl3 Kitaev Lattice: A Case of Cr3+ Dopant", "abstract": "Fine-tuning chemistry by doping with transition metals enables new perspectives for exploring Kitaev physics on a two-dimensional (2D) honeycomb lattice of alpha-RuCl3, which is promising in the field...", "citations": 14, "author_count": 13, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3570, "doi": "10.1021/acs.inorgchem.8b03545", "umap_coordinates": { "x": 391.8067321777344, "y": 135.71372985839844, "z": 205.8955535888672 }, "tsne_coordinates": { "x": 14.677791595458984, "y": -4.526914596557617, "z": -2.7868573665618896 }, "pca_coordinates": { "x": 0.12590539455413818, "y": -0.6866254806518555, "z": -2.5709736347198486 }, "axis_scores": { "Quantum imaging": 0.6952896118164062, "Quantum Life Science Sensing": 0.7173566818237305, "Quantum sensing Detection": 0.7222601175308228, "Quantum sensing Metrology": 0.7148078680038452, "Quantum sensing navigation": 0.7112904191017151, "Quantum sensing Position": 0.7098124027252197, "Quantum sensing Timing": 0.6942602396011353, "Quantum sensing": 0.7236474752426147, "Quantum control": 0.6929053664207458 } }, { "id": 3565, "title": "Quantum structure based infrared detector research and development within Acreo's centre of excellence IMAGIC", "abstract": "Acreo has a long tradition of working with quantum structure based infrared (IR) detectors and arrays. This includes QWIP (quantum well infrared photodetector), QDIP (quantum dot infrared photodetecto...", "citations": 3, "author_count": 15, "categories": [ "Instruments & Instrumentation" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3571, "doi": "10.1016/j.infrared.2010.02.001", "umap_coordinates": { "x": 393.492431640625, "y": 133.40802001953125, "z": 206.05258178710938 }, "tsne_coordinates": { "x": 8.273341178894043, "y": 6.274759292602539, "z": -27.163408279418945 }, "pca_coordinates": { "x": -1.793829321861267, "y": -0.02049708366394043, "z": 0.9075224995613098 }, "axis_scores": { "Quantum imaging": 0.7866976261138916, "Quantum Life Science Sensing": 0.7952547073364258, "Quantum sensing Detection": 0.7605792284011841, "Quantum sensing Metrology": 0.7548253536224365, "Quantum sensing navigation": 0.7423365712165833, "Quantum sensing Position": 0.7501147389411926, "Quantum sensing Timing": 0.7071604132652283, "Quantum sensing": 0.770304262638092, "Quantum control": 0.7150043845176697 } }, { "id": 3566, "title": "Superconducting vortices carrying a temperature-dependent fraction of the flux quantum", "abstract": "Magnetic field penetrates type-II bulk superconductors by forming quantum vortices that enclose a magnetic flux equal to the magnetic flux quantum. The flux quantum is a universal quantity that depend...", "citations": 53, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3572, "doi": "10.1126/science.abp9979", "umap_coordinates": { "x": 394.04315185546875, "y": 135.7235870361328, "z": 207.72732543945312 }, "tsne_coordinates": { "x": -0.2849467098712921, "y": -10.955912590026855, "z": 22.749467849731445 }, "pca_coordinates": { "x": 2.0142695903778076, "y": -0.6471467018127441, "z": -0.8598082661628723 }, "axis_scores": { "Quantum imaging": 0.7122435569763184, "Quantum Life Science Sensing": 0.7457059025764465, "Quantum sensing Detection": 0.7169884443283081, "Quantum sensing Metrology": 0.7156745195388794, "Quantum sensing navigation": 0.7245819568634033, "Quantum sensing Position": 0.7112859487533569, "Quantum sensing Timing": 0.7070772647857666, "Quantum sensing": 0.7281658053398132, "Quantum control": 0.7135788202285767 } }, { "id": 3567, "title": "Anisotropic GaAs island phase grown on flat GaP: A Stranski-Krastanow-formed corrugated surface", "abstract": "A dense phase of GaAs wires forms a corrugated surface in the early stages of strained growth on GaP, assembling from elongated Stranski-Krastanow islands. For a series of samples, the evolution of sh...", "citations": 11, "author_count": 5, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3573, "doi": "10.1063/1.1359160", "umap_coordinates": { "x": 393.25958251953125, "y": 133.77178955078125, "z": 208.23475646972656 }, "tsne_coordinates": { "x": 33.5658073425293, "y": -24.52964210510254, "z": 5.761268138885498 }, "pca_coordinates": { "x": 1.5647058486938477, "y": -2.490936756134033, "z": 0.6614875197410583 }, "axis_scores": { "Quantum imaging": 0.7032067179679871, "Quantum Life Science Sensing": 0.7075647115707397, "Quantum sensing Detection": 0.6940146088600159, "Quantum sensing Metrology": 0.7094045877456665, "Quantum sensing navigation": 0.7076462507247925, "Quantum sensing Position": 0.6823062300682068, "Quantum sensing Timing": 0.6570838689804077, "Quantum sensing": 0.7142943143844604, "Quantum control": 0.6739271283149719 } }, { "id": 3568, "title": "Local quenches from a Krylov perspective", "abstract": "In this work, we investigate local quench dynamics in two-dimensional conformal field theories using Krylov space methods. We derive Lanczos coefficients, spread complexity, and Krylov entropies for l...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3574, "doi": "10.1007/JHEP07(2025)164", "umap_coordinates": { "x": 395.41888427734375, "y": 137.39637756347656, "z": 207.37881469726562 }, "tsne_coordinates": { "x": -32.9609489440918, "y": -16.457378387451172, "z": 6.153859615325928 }, "pca_coordinates": { "x": 2.4569315910339355, "y": 4.15895414352417, "z": -2.5582435131073 }, "axis_scores": { "Quantum imaging": 0.71354079246521, "Quantum Life Science Sensing": 0.7174264788627625, "Quantum sensing Detection": 0.6861485838890076, "Quantum sensing Metrology": 0.6767694354057312, "Quantum sensing navigation": 0.7139270305633545, "Quantum sensing Position": 0.7114568948745728, "Quantum sensing Timing": 0.69227534532547, "Quantum sensing": 0.7064865827560425, "Quantum control": 0.7121860980987549 } }, { "id": 3569, "title": "Spectrally Resolved Maker Fringes in High-Order Harmonic Generation", "abstract": "We investigate macroscopic interference effects in high-order harmonic generation using a Ti:sapphire laser operating at a 100 kHz repetition rate. The structure and behavior of spectral and spatial i...", "citations": 57, "author_count": 5, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3575, "doi": "10.1103/PhysRevLett.107.033903", "umap_coordinates": { "x": 394.19012451171875, "y": 136.72662353515625, "z": 207.6873016357422 }, "tsne_coordinates": { "x": -23.3960018157959, "y": -29.037893295288086, "z": 12.878669738769531 }, "pca_coordinates": { "x": 1.5102980136871338, "y": 0.2392873764038086, "z": -0.4518609344959259 }, "axis_scores": { "Quantum imaging": 0.6977154016494751, "Quantum Life Science Sensing": 0.7114647030830383, "Quantum sensing Detection": 0.6773543357849121, "Quantum sensing Metrology": 0.6819944977760315, "Quantum sensing navigation": 0.6925414204597473, "Quantum sensing Position": 0.685861349105835, "Quantum sensing Timing": 0.694258451461792, "Quantum sensing": 0.694621205329895, "Quantum control": 0.6562430262565613 } }, { "id": 3570, "title": "Evaluation of silver sulfide nanoparticles as a contrast agent for spectral photon-counting digital mammography: a phantom study", "abstract": "The objective of our study was to evaluate the feasibility of using silver sulfide nanoparticles (Ag2S-NP) as a contrast agent for photon-counting mammography. The efficacies of Ag2S-NP and iodine con...", "citations": 2, "author_count": 6, "categories": [ "Engineering" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3576, "doi": "10.1117/12.2511757", "umap_coordinates": { "x": 395.2322692871094, "y": 132.54550170898438, "z": 205.75059509277344 }, "tsne_coordinates": { "x": -6.0965352058410645, "y": 20.21648597717285, "z": -27.064163208007812 }, "pca_coordinates": { "x": -4.198089122772217, "y": -0.583470344543457, "z": 3.472599983215332 }, "axis_scores": { "Quantum imaging": 0.6997516751289368, "Quantum Life Science Sensing": 0.6939370632171631, "Quantum sensing Detection": 0.7037267088890076, "Quantum sensing Metrology": 0.6914172768592834, "Quantum sensing navigation": 0.6890594363212585, "Quantum sensing Position": 0.6789443492889404, "Quantum sensing Timing": 0.6563889980316162, "Quantum sensing": 0.6985335946083069, "Quantum control": 0.6375595331192017 } }, { "id": 3571, "title": "A simplicity-guided cocktail approach toward multicolor fluorescent systems", "abstract": "A molecular cocktail containing two photochromic diarylethene derivatives that displays multicolor emission spanning blue-green to orange in a color-correlated fashion has been devised. The function d...", "citations": 18, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3577, "doi": "10.1039/c9cc10040g", "umap_coordinates": { "x": 392.3662414550781, "y": 136.19557189941406, "z": 204.47023010253906 }, "tsne_coordinates": { "x": 0.5102049708366394, "y": 19.07822608947754, "z": 9.527641296386719 }, "pca_coordinates": { "x": -3.713261604309082, "y": 1.2819623947143555, "z": -1.5000333786010742 }, "axis_scores": { "Quantum imaging": 0.6765875816345215, "Quantum Life Science Sensing": 0.6944739818572998, "Quantum sensing Detection": 0.672919511795044, "Quantum sensing Metrology": 0.6528937816619873, "Quantum sensing navigation": 0.6705439686775208, "Quantum sensing Position": 0.6451461315155029, "Quantum sensing Timing": 0.6401378512382507, "Quantum sensing": 0.6794058084487915, "Quantum control": 0.6715807318687439 } }, { "id": 3572, "title": "Molecular dynamics of NH3 induced by core-electron excitation", "abstract": "Nuclear motion in the N1s(-1)4a(1)(1) core-excited state of ammonia is investigated by studying the angular anisotropy of fragments produced in the decay of the highly excited molecule and compared wi...", "citations": 15, "author_count": 10, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3578, "doi": "10.1039/c5cp02959g", "umap_coordinates": { "x": 392.68341064453125, "y": 136.4791717529297, "z": 206.64224243164062 }, "tsne_coordinates": { "x": 7.7993950843811035, "y": 3.849431037902832, "z": 12.167139053344727 }, "pca_coordinates": { "x": 1.2018299102783203, "y": -0.2080526351928711, "z": -4.53729248046875 }, "axis_scores": { "Quantum imaging": 0.6791708469390869, "Quantum Life Science Sensing": 0.6818708777427673, "Quantum sensing Detection": 0.6697008609771729, "Quantum sensing Metrology": 0.6325215697288513, "Quantum sensing navigation": 0.6619534492492676, "Quantum sensing Position": 0.6261879801750183, "Quantum sensing Timing": 0.623725414276123, "Quantum sensing": 0.6713459491729736, "Quantum control": 0.6810535788536072 } }, { "id": 3573, "title": "Characterization of InGaN/GaN quantum well growth using monochromated valence electron energy loss spectroscopy", "abstract": "The early stages of InGaN/GaN quantum well growth for In-reduced conditions have been investigated for varying thickness and composition of the wells. The structures were studied by monochromated scan...", "citations": 2, "author_count": 8, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3579, "doi": "10.1063/1.4861179", "umap_coordinates": { "x": 393.3623962402344, "y": 133.51039123535156, "z": 208.22335815429688 }, "tsne_coordinates": { "x": 27.869640350341797, "y": -23.415908813476562, "z": 2.5619540214538574 }, "pca_coordinates": { "x": 0.40415048599243164, "y": -3.4462738037109375, "z": 2.832181453704834 }, "axis_scores": { "Quantum imaging": 0.7174404263496399, "Quantum Life Science Sensing": 0.7368425726890564, "Quantum sensing Detection": 0.7280231714248657, "Quantum sensing Metrology": 0.7344933748245239, "Quantum sensing navigation": 0.7003364562988281, "Quantum sensing Position": 0.6847846508026123, "Quantum sensing Timing": 0.6471713185310364, "Quantum sensing": 0.7327821850776672, "Quantum control": 0.6772912740707397 } }, { "id": 3574, "title": "Surface related and intrinsic exciton recombination dynamics in ZnO nanoparticles synthesized by a sol-gel method", "abstract": "ZnO nanoparticles with controlled sizes produced by a sol-gel method are studied by means of time-integrated as well as time-resolved photoluminescence (TRPL) spectroscopy. Room-temperature photolumin...", "citations": 26, "author_count": 6, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3580, "doi": "10.1063/1.4774002", "umap_coordinates": { "x": 392.478271484375, "y": 135.00274658203125, "z": 207.6806640625 }, "tsne_coordinates": { "x": 16.80237579345703, "y": -2.588541269302368, "z": 4.866176605224609 }, "pca_coordinates": { "x": 0.15285074710845947, "y": -3.759060859680176, "z": -2.037598133087158 }, "axis_scores": { "Quantum imaging": 0.6911627650260925, "Quantum Life Science Sensing": 0.7287586331367493, "Quantum sensing Detection": 0.6809260249137878, "Quantum sensing Metrology": 0.6702930927276611, "Quantum sensing navigation": 0.6895169019699097, "Quantum sensing Position": 0.6561045050621033, "Quantum sensing Timing": 0.6652941107749939, "Quantum sensing": 0.6907369494438171, "Quantum control": 0.6725108623504639 } }, { "id": 3575, "title": "Quantum description of shuttle instability in a nanoelectromechanical single-electron transistor - art. no. 033106", "abstract": "The voltage dependence of nanoelectromechanical effects in a system where the quantized mechanical vibrations of a quantum dot are coupled to coherent tunneling of electrons through a single level in ...", "citations": 30, "author_count": 2, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3581, "doi": "10.1103/PhysRevB.68.033106", "umap_coordinates": { "x": 394.396728515625, "y": 134.74246215820312, "z": 209.1429901123047 }, "tsne_coordinates": { "x": 6.830109119415283, "y": -31.92727279663086, "z": -12.194803237915039 }, "pca_coordinates": { "x": 4.635862827301025, "y": -1.2348518371582031, "z": -0.7154233455657959 }, "axis_scores": { "Quantum imaging": 0.6899394392967224, "Quantum Life Science Sensing": 0.7421781420707703, "Quantum sensing Detection": 0.7079879641532898, "Quantum sensing Metrology": 0.7205749154090881, "Quantum sensing navigation": 0.7237014770507812, "Quantum sensing Position": 0.688787043094635, "Quantum sensing Timing": 0.6727818846702576, "Quantum sensing": 0.7208764553070068, "Quantum control": 0.7036062479019165 } }, { "id": 3576, "title": "Characterization of a single Cooper pair box", "abstract": "We have used a radio-frequency single electron transistor to read-out a single Cooper pair box. We observe a Coulomb staircase with 2e periodicity, but with a shorter step corresponding to odd number ...", "citations": 1, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3582, "doi": "10.1016/S1386-9477(02)00942-6", "umap_coordinates": { "x": 394.4739990234375, "y": 133.81517028808594, "z": 207.95257568359375 }, "tsne_coordinates": { "x": -0.4455801546573639, "y": -32.391082763671875, "z": -18.87221336364746 }, "pca_coordinates": { "x": -0.1331557035446167, "y": 0.3097372055053711, "z": 0.9267953038215637 }, "axis_scores": { "Quantum imaging": 0.6941914558410645, "Quantum Life Science Sensing": 0.7116233110427856, "Quantum sensing Detection": 0.7138535976409912, "Quantum sensing Metrology": 0.709251344203949, "Quantum sensing navigation": 0.7017327547073364, "Quantum sensing Position": 0.7103663682937622, "Quantum sensing Timing": 0.698368489742279, "Quantum sensing": 0.7197797298431396, "Quantum control": 0.6927667260169983 } }, { "id": 3577, "title": "An application of the rotating line umbrella model to quantum dynamics of SN2 reactions", "abstract": "The rotating line umbrella (RLU) model has been modified to study quantum scattering of the S(N)2 reaction A + CH3B reversible arrow ACH(3) + B. The RLU model treats three internal physical variables:...", "citations": 30, "author_count": 3, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3583, "doi": "10.1016/S0009-2614(99)00981-1", "umap_coordinates": { "x": 394.1136474609375, "y": 137.31613159179688, "z": 205.91136169433594 }, "tsne_coordinates": { "x": -12.636853218078613, "y": 9.62928581237793, "z": 28.827882766723633 }, "pca_coordinates": { "x": -0.8772300481796265, "y": 1.8836907148361206, "z": -2.089552402496338 }, "axis_scores": { "Quantum imaging": 0.6800228953361511, "Quantum Life Science Sensing": 0.715918779373169, "Quantum sensing Detection": 0.6879154443740845, "Quantum sensing Metrology": 0.6726025342941284, "Quantum sensing navigation": 0.7010699510574341, "Quantum sensing Position": 0.6961062550544739, "Quantum sensing Timing": 0.689365029335022, "Quantum sensing": 0.69561767578125, "Quantum control": 0.7037674188613892 } }, { "id": 3578, "title": "Al3+, Ca2+, Mg2+, and Li+ in aqueous solution: Calculated first-shell anharmonic OH vibrations at 300 K", "abstract": "The anharmonic OH stretching vibrational frequencies, nu(OH), for the first-shell water molecules around the Li+, Ca2+, Mg2+, and Al3+ ions in dilute aqueous solutions have been calculated based on cl...", "citations": 17, "author_count": 4, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3584, "doi": "10.1063/1.3460261", "umap_coordinates": { "x": 393.2498474121094, "y": 137.3040008544922, "z": 206.21546936035156 }, "tsne_coordinates": { "x": -1.23824143409729, "y": 15.245063781738281, "z": 26.21269416809082 }, "pca_coordinates": { "x": -0.5795496702194214, "y": -1.09379243850708, "z": -3.4226036071777344 }, "axis_scores": { "Quantum imaging": 0.6833032369613647, "Quantum Life Science Sensing": 0.7333105802536011, "Quantum sensing Detection": 0.6800163984298706, "Quantum sensing Metrology": 0.6774283647537231, "Quantum sensing navigation": 0.6709887385368347, "Quantum sensing Position": 0.6553471684455872, "Quantum sensing Timing": 0.6556840538978577, "Quantum sensing": 0.7006880640983582, "Quantum control": 0.6724108457565308 } }, { "id": 3579, "title": "Computerised tomography - A theoretical model for determination of the optimal irradiation conditions for computerised tomography", "abstract": "Image quality in Computerised Tomography (CT) depends strongly on the quality of the CT-projection data. These depend on sample composition and geometry, contrasting details within the sample and the ...", "citations": 3, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3585, "doi": null, "umap_coordinates": { "x": 391.9504089355469, "y": 139.17587280273438, "z": 209.7373809814453 }, "tsne_coordinates": { "x": 0.8525222539901733, "y": 40.78708267211914, "z": -4.3154730796813965 }, "pca_coordinates": { "x": -2.6226274967193604, "y": 6.258506774902344, "z": -1.1720991134643555 }, "axis_scores": { "Quantum imaging": 0.7378373742103577, "Quantum Life Science Sensing": 0.7413361072540283, "Quantum sensing Detection": 0.7139941453933716, "Quantum sensing Metrology": 0.7033783793449402, "Quantum sensing navigation": 0.7136654853820801, "Quantum sensing Position": 0.6894533038139343, "Quantum sensing Timing": 0.6885115504264832, "Quantum sensing": 0.7223869562149048, "Quantum control": 0.7290467619895935 } }, { "id": 3580, "title": "Improved coronary calcification quantification using photon-counting-detector CT: an ex vivo study in cadaveric specimens", "abstract": "Objectives To compare the accuracy of coronary calcium quantification of cadaveric specimens imaged from a photon-counting detector (PCD)-CT and an energy-integrating detector (EID)-CT. Methods Excise...", "citations": 50, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3586, "doi": "10.1007/s00330-021-07780-6", "umap_coordinates": { "x": 395.4101257324219, "y": 133.1102294921875, "z": 204.82745361328125 }, "tsne_coordinates": { "x": -6.6381378173828125, "y": 25.13393783569336, "z": -14.895968437194824 }, "pca_coordinates": { "x": -3.985603094100952, "y": 3.5730059146881104, "z": 3.4639267921447754 }, "axis_scores": { "Quantum imaging": 0.6753890514373779, "Quantum Life Science Sensing": 0.649884819984436, "Quantum sensing Detection": 0.6433011293411255, "Quantum sensing Metrology": 0.6283647418022156, "Quantum sensing navigation": 0.6415840983390808, "Quantum sensing Position": 0.6444094777107239, "Quantum sensing Timing": 0.6335633397102356, "Quantum sensing": 0.6504094004631042, "Quantum control": 0.623276948928833 } }, { "id": 3581, "title": "Peak detection approaches for time-correlated single-photon counting three-dimensional lidar systems", "abstract": "Time-correlated single-photon counting lidar provides very high-resolution range measurements, making the technology interesting for 3D imaging of objects behind foliage or other obscuration. We study...", "citations": 36, "author_count": 4, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3587, "doi": "10.1117/1.OE.57.3.031306", "umap_coordinates": { "x": 394.9865417480469, "y": 133.25205993652344, "z": 207.0671844482422 }, "tsne_coordinates": { "x": -8.409186363220215, "y": 9.184743881225586, "z": -30.691911697387695 }, "pca_coordinates": { "x": -1.009663462638855, "y": 0.3080461025238037, "z": 3.6593070030212402 }, "axis_scores": { "Quantum imaging": 0.726321816444397, "Quantum Life Science Sensing": 0.7266186475753784, "Quantum sensing Detection": 0.7347705364227295, "Quantum sensing Metrology": 0.7257621884346008, "Quantum sensing navigation": 0.7167505025863647, "Quantum sensing Position": 0.7087055444717407, "Quantum sensing Timing": 0.7399128675460815, "Quantum sensing": 0.7270197868347168, "Quantum control": 0.6878197193145752 } }, { "id": 3582, "title": "Aqueous processable WO3-x nanocrystals with solution tunable localized surface plasmon resonance", "abstract": "Heavily doped tungsten oxide nanoparticles with localized surface plasmon resonances (LSPRs) were recently highlighted as potential substitutes for noble metals in the field of plasmonic applications....", "citations": 23, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3588, "doi": "10.1039/c6ra07938e", "umap_coordinates": { "x": 391.9405822753906, "y": 134.64276123046875, "z": 205.13388061523438 }, "tsne_coordinates": { "x": 15.090587615966797, "y": -0.20655576884746552, "z": -13.105192184448242 }, "pca_coordinates": { "x": -3.0138232707977295, "y": -1.5904951095581055, "z": -1.3049569129943848 }, "axis_scores": { "Quantum imaging": 0.6867332458496094, "Quantum Life Science Sensing": 0.7151046395301819, "Quantum sensing Detection": 0.6806580424308777, "Quantum sensing Metrology": 0.6673030257225037, "Quantum sensing navigation": 0.6744095087051392, "Quantum sensing Position": 0.6604467630386353, "Quantum sensing Timing": 0.6426425576210022, "Quantum sensing": 0.6967261433601379, "Quantum control": 0.6904294490814209 } }, { "id": 3583, "title": "Kondo Force in Shuttling Devices: Dynamical Probe for a Kondo Cloud", "abstract": "We consider the electromechanical properties of a single-electronic device consisting of a movable quantum dot attached to a vibrating cantilever, forming a tunnel contact with a nonmovable source ele...", "citations": 10, "author_count": 5, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3589, "doi": "10.1103/PhysRevLett.110.066804", "umap_coordinates": { "x": 395.0482482910156, "y": 136.37355041503906, "z": 208.68231201171875 }, "tsne_coordinates": { "x": -10.496729850769043, "y": -24.159467697143555, "z": 10.342442512512207 }, "pca_coordinates": { "x": 4.176215648651123, "y": 0.21643805503845215, "z": -1.1480363607406616 }, "axis_scores": { "Quantum imaging": 0.7007008790969849, "Quantum Life Science Sensing": 0.7404526472091675, "Quantum sensing Detection": 0.7135810852050781, "Quantum sensing Metrology": 0.6939698457717896, "Quantum sensing navigation": 0.720482349395752, "Quantum sensing Position": 0.7041019797325134, "Quantum sensing Timing": 0.7002667188644409, "Quantum sensing": 0.7212427854537964, "Quantum control": 0.7112942934036255 } }, { "id": 3584, "title": "Optimal molecular alignment and orientation through rotational ladder climbing", "abstract": "We study the control by electromagnetic fields of molecular alignment and orientation in a linear, rigid-rotor model. With the help of a monotonically convergent algorithm, we find that the optimal fi...", "citations": 90, "author_count": 4, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3590, "doi": "10.1063/1.2049270", "umap_coordinates": { "x": 393.5590515136719, "y": 137.12599182128906, "z": 207.68576049804688 }, "tsne_coordinates": { "x": -13.412429809570312, "y": -10.905013084411621, "z": 32.329490661621094 }, "pca_coordinates": { "x": 2.09794020652771, "y": 0.5505435466766357, "z": -1.7962472438812256 }, "axis_scores": { "Quantum imaging": 0.7223479151725769, "Quantum Life Science Sensing": 0.7067664265632629, "Quantum sensing Detection": 0.6896968483924866, "Quantum sensing Metrology": 0.6850407719612122, "Quantum sensing navigation": 0.7457606196403503, "Quantum sensing Position": 0.6992663741111755, "Quantum sensing Timing": 0.6885470747947693, "Quantum sensing": 0.7093812227249146, "Quantum control": 0.7088655829429626 } }, { "id": 3585, "title": "Repulsive dynamics of strongly attractive one-dimensional quantum gases", "abstract": "We analyze the dynamics of one-dimensional quantum gases with strongly attractive contact interactions. We specify a class of initial states for which attractive forces effectively act as strongly rep...", "citations": 3, "author_count": 5, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3591, "doi": "10.1103/PhysRevA.105.L011303", "umap_coordinates": { "x": 394.68365478515625, "y": 136.2943572998047, "z": 208.73580932617188 }, "tsne_coordinates": { "x": -20.115249633789062, "y": -28.027301788330078, "z": -14.880488395690918 }, "pca_coordinates": { "x": 5.332602024078369, "y": -1.0666813850402832, "z": -0.6633940935134888 }, "axis_scores": { "Quantum imaging": 0.7118381261825562, "Quantum Life Science Sensing": 0.712967038154602, "Quantum sensing Detection": 0.7142341136932373, "Quantum sensing Metrology": 0.676469624042511, "Quantum sensing navigation": 0.7166523933410645, "Quantum sensing Position": 0.6802845001220703, "Quantum sensing Timing": 0.6628933548927307, "Quantum sensing": 0.7151976227760315, "Quantum control": 0.6997857093811035 } }, { "id": 3586, "title": "Supercurrent Detection of Topologically Trivial Zero-Energy States in Nanowire Junctions", "abstract": "We report the emergence of zero-energy states in the trivial phase of a short nanowire junction with a strong spin-orbit coupling and magnetic field, formed by strong coupling between the nanowire and...", "citations": 112, "author_count": 4, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3592, "doi": "10.1103/PhysRevLett.123.117001", "umap_coordinates": { "x": 394.6463317871094, "y": 135.71556091308594, "z": 208.85450744628906 }, "tsne_coordinates": { "x": 2.3030316829681396, "y": -23.96544075012207, "z": 6.462069034576416 }, "pca_coordinates": { "x": 4.584908962249756, "y": -1.396538257598877, "z": 1.0880794525146484 }, "axis_scores": { "Quantum imaging": 0.6802805662155151, "Quantum Life Science Sensing": 0.6923952698707581, "Quantum sensing Detection": 0.7059127688407898, "Quantum sensing Metrology": 0.6747455596923828, "Quantum sensing navigation": 0.7078174948692322, "Quantum sensing Position": 0.6774389743804932, "Quantum sensing Timing": 0.6757066249847412, "Quantum sensing": 0.6935697793960571, "Quantum control": 0.6591810584068298 } }, { "id": 3587, "title": "Kondo shuttling in a nanoelectromechanical single-electron transistor", "abstract": "We investigate theoretically a mechanically assisted Kondo effect and electric charge shuttling in a nanoelectromechanical single-electron transistor. It is shown that the mechanical motion of the cen...", "citations": 20, "author_count": 5, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3593, "doi": "10.1103/PhysRevB.74.233403", "umap_coordinates": { "x": 394.31573486328125, "y": 134.7938690185547, "z": 209.0926055908203 }, "tsne_coordinates": { "x": 6.940826416015625, "y": -31.51700210571289, "z": -12.100346565246582 }, "pca_coordinates": { "x": 5.1201491355896, "y": -1.7715001106262207, "z": -0.5183578729629517 }, "axis_scores": { "Quantum imaging": 0.7051621079444885, "Quantum Life Science Sensing": 0.7341495752334595, "Quantum sensing Detection": 0.7222486138343811, "Quantum sensing Metrology": 0.7172754406929016, "Quantum sensing navigation": 0.740117073059082, "Quantum sensing Position": 0.7051706910133362, "Quantum sensing Timing": 0.6892013549804688, "Quantum sensing": 0.7372808456420898, "Quantum control": 0.7150565981864929 } }, { "id": 3588, "title": "Synthesis and characterisation of polyfluorenes with light-emitting segments", "abstract": "We present the synthesis and characterisation of two copolymers. They consists of poly(9-hexyl-9-(2'-ethylhexyl)fluorene) (HEH-PF) with a small amount of another polymer with a narrow band-gap. The sy...", "citations": 16, "author_count": 6, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3594, "doi": "10.1016/S0379-6779(00)00684-6", "umap_coordinates": { "x": 393.1350402832031, "y": 135.3145751953125, "z": 205.06198120117188 }, "tsne_coordinates": { "x": -0.17781411111354828, "y": -2.3637003898620605, "z": -21.809057235717773 }, "pca_coordinates": { "x": -3.609090566635132, "y": 0.7479939460754395, "z": 0.15882867574691772 }, "axis_scores": { "Quantum imaging": 0.6814509630203247, "Quantum Life Science Sensing": 0.7053704261779785, "Quantum sensing Detection": 0.6559990048408508, "Quantum sensing Metrology": 0.659102737903595, "Quantum sensing navigation": 0.661211371421814, "Quantum sensing Position": 0.6575008630752563, "Quantum sensing Timing": 0.6300742626190186, "Quantum sensing": 0.6725887656211853, "Quantum control": 0.6432766914367676 } }, { "id": 3589, "title": "Structure of the O-specific polysaccharide of Proteus penneri strain 25 containing N-(L-alanyl) and multiple O-acetyl groups in a tetrasaccharide repeating unit", "abstract": "Based on sugar and methylation analyses, O-deacetylation, Smith degradation, and H-1 and C-13 NMR spectroscopy, including 2D COSY, H-1-detected H-1, C-13 heteronuclear single-quantum coherence (HSQC),...", "citations": 34, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3595, "doi": "10.1016/S0008-6215(96)00308-4", "umap_coordinates": { "x": 394.0198669433594, "y": 136.0607147216797, "z": 204.34368896484375 }, "tsne_coordinates": { "x": 5.992518901824951, "y": 31.662443161010742, "z": 21.58088493347168 }, "pca_coordinates": { "x": -2.662763833999634, "y": 2.24631667137146, "z": -0.03690129518508911 }, "axis_scores": { "Quantum imaging": 0.6617291569709778, "Quantum Life Science Sensing": 0.6820815801620483, "Quantum sensing Detection": 0.6258502006530762, "Quantum sensing Metrology": 0.6472277045249939, "Quantum sensing navigation": 0.6659442186355591, "Quantum sensing Position": 0.6604381799697876, "Quantum sensing Timing": 0.6262084245681763, "Quantum sensing": 0.651012122631073, "Quantum control": 0.6374304294586182 } }, { "id": 3590, "title": "TIME-DEPENDENCE OF THE MAGNETIZATION OF BI2SR2CACU2O8 DISPLAYING THE PARAMAGNETIC MEISSNER EFFECT", "abstract": "The time dependence of the magnetization of a Bi2Sr2CaCu2O8 sample displaying the paramagnetic Meissner effect has been studied as a function of field, temperature, and age of the system using superco...", "citations": 22, "author_count": 7, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3596, "doi": "10.1103/PhysRevB.52.7675", "umap_coordinates": { "x": 392.6490783691406, "y": 136.26402282714844, "z": 207.96624755859375 }, "tsne_coordinates": { "x": -1.166962742805481, "y": -25.424314498901367, "z": 16.846574783325195 }, "pca_coordinates": { "x": 1.8448944091796875, "y": 0.13809680938720703, "z": -1.990708351135254 }, "axis_scores": { "Quantum imaging": 0.714756965637207, "Quantum Life Science Sensing": 0.7281255125999451, "Quantum sensing Detection": 0.6994178295135498, "Quantum sensing Metrology": 0.7106347680091858, "Quantum sensing navigation": 0.7021949291229248, "Quantum sensing Position": 0.7075551152229309, "Quantum sensing Timing": 0.7219722270965576, "Quantum sensing": 0.7164115905761719, "Quantum control": 0.694773256778717 } }, { "id": 3591, "title": "Temperature tuning of the optical properties of planar photonic crystal microcavities", "abstract": "We report on the temperature tuning of the optical properties of photonic crystal (PhC) microcavities. Planar and one-dimensional cavities were made from two-dimensional PhCs etched in GaAs and InP ba...", "citations": 70, "author_count": 7, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3597, "doi": "10.1063/1.1645675", "umap_coordinates": { "x": 393.7094421386719, "y": 133.92539978027344, "z": 207.4676055908203 }, "tsne_coordinates": { "x": 20.440961837768555, "y": -23.693645477294922, "z": -20.956621170043945 }, "pca_coordinates": { "x": 0.045464515686035156, "y": -1.9489574432373047, "z": 0.6086556315422058 }, "axis_scores": { "Quantum imaging": 0.7562869787216187, "Quantum Life Science Sensing": 0.7517726421356201, "Quantum sensing Detection": 0.7418196201324463, "Quantum sensing Metrology": 0.759922981262207, "Quantum sensing navigation": 0.7421387434005737, "Quantum sensing Position": 0.7210382223129272, "Quantum sensing Timing": 0.7111297249794006, "Quantum sensing": 0.7680760622024536, "Quantum control": 0.7573508620262146 } }, { "id": 3592, "title": "Photon-counting detector computed tomography (PCD-CT) - an emerging technology in hand and wrist imaging", "abstract": "", "citations": 6, "author_count": 5, "categories": [ "Orthopedics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3598, "doi": "10.1177/17531934221132692", "umap_coordinates": { "x": 395.202392578125, "y": 133.0195770263672, "z": 204.8797149658203 }, "tsne_coordinates": { "x": -4.689274787902832, "y": 28.8648681640625, "z": -16.320362091064453 }, "pca_coordinates": { "x": -3.357004404067993, "y": 2.3999783992767334, "z": 2.6497995853424072 }, "axis_scores": { "Quantum imaging": 0.6964378356933594, "Quantum Life Science Sensing": 0.6892374753952026, "Quantum sensing Detection": 0.6850581169128418, "Quantum sensing Metrology": 0.6624689102172852, "Quantum sensing navigation": 0.6704756021499634, "Quantum sensing Position": 0.681313693523407, "Quantum sensing Timing": 0.674910306930542, "Quantum sensing": 0.6835716962814331, "Quantum control": 0.6634948253631592 } }, { "id": 3593, "title": "Visualizing Spatial Variations of Plasmon-Exciton Polaritons at the Nanoscale Using Electron Microscopy", "abstract": "Polaritons are compositional light-matter quasiparticles that have enabled remarkable breakthroughs in quantum and nonlinear optics, as well as in material science. Recently, plasmon-exciton polariton...", "citations": 102, "author_count": 11, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3599, "doi": "10.1021/acs.nanolett.9b03534", "umap_coordinates": { "x": 392.4249267578125, "y": 134.52932739257812, "z": 206.52224731445312 }, "tsne_coordinates": { "x": 12.960432052612305, "y": -17.15313720703125, "z": -10.654260635375977 }, "pca_coordinates": { "x": -1.0875535011291504, "y": -3.1831417083740234, "z": 0.2227710485458374 }, "axis_scores": { "Quantum imaging": 0.7008213996887207, "Quantum Life Science Sensing": 0.6738279461860657, "Quantum sensing Detection": 0.6718757748603821, "Quantum sensing Metrology": 0.6650264263153076, "Quantum sensing navigation": 0.6920412182807922, "Quantum sensing Position": 0.6964649558067322, "Quantum sensing Timing": 0.6688438653945923, "Quantum sensing": 0.6817451119422913, "Quantum control": 0.6420294046401978 } }, { "id": 3594, "title": "Zero Thermal Noise in Resistors at Zero Temperature", "abstract": "The bandwidth of transistors in logic devices approaches the quantum limit, where Johnson noise and associated error rates are supposed to be strongly enhanced. However, the related theory - asserting...", "citations": 7, "author_count": 4, "categories": [ "Mathematics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3600, "doi": "10.1142/S0219477516400010", "umap_coordinates": { "x": 394.1923522949219, "y": 136.46800231933594, "z": 207.15830993652344 }, "tsne_coordinates": { "x": -35.35468673706055, "y": 10.115121841430664, "z": 13.302632331848145 }, "pca_coordinates": { "x": 1.290600299835205, "y": 1.1534422636032104, "z": 0.06279140710830688 }, "axis_scores": { "Quantum imaging": 0.6599001884460449, "Quantum Life Science Sensing": 0.6941183805465698, "Quantum sensing Detection": 0.6809232234954834, "Quantum sensing Metrology": 0.6773730516433716, "Quantum sensing navigation": 0.6929637789726257, "Quantum sensing Position": 0.6924254894256592, "Quantum sensing Timing": 0.7127501964569092, "Quantum sensing": 0.6906481385231018, "Quantum control": 0.6923244595527649 } }, { "id": 3595, "title": "Molecular fusion of fullerenes", "abstract": "Now experimental data is reported for the absolute cross sections for the fusion reaction channel in single gas-phase collisions between fullerenes. The experimental data is compared with the results ...", "citations": 8, "author_count": 5, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3601, "doi": "10.1007/s100530170123", "umap_coordinates": { "x": 393.9678649902344, "y": 136.110595703125, "z": 205.80975341796875 }, "tsne_coordinates": { "x": 14.151966094970703, "y": 16.171859741210938, "z": 21.59551239013672 }, "pca_coordinates": { "x": -1.108565092086792, "y": 0.08582758903503418, "z": -1.2887541055679321 }, "axis_scores": { "Quantum imaging": 0.700291097164154, "Quantum Life Science Sensing": 0.7376852035522461, "Quantum sensing Detection": 0.6998412609100342, "Quantum sensing Metrology": 0.6930328011512756, "Quantum sensing navigation": 0.6938713788986206, "Quantum sensing Position": 0.6722992658615112, "Quantum sensing Timing": 0.6653984189033508, "Quantum sensing": 0.7162282466888428, "Quantum control": 0.6954482793807983 } }, { "id": 3596, "title": "Tunable Chiral Bound States with Giant Atoms", "abstract": "We propose tunable chiral bound states in a system composed of superconducting giant atoms and a Josephson photonic-crystal waveguide (PCW), with no analog in other quantum setups. The chiral bound st...", "citations": 153, "author_count": 6, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3602, "doi": "10.1103/PhysRevLett.126.043602", "umap_coordinates": { "x": 395.38018798828125, "y": 136.1974334716797, "z": 208.6793670654297 }, "tsne_coordinates": { "x": -19.546424865722656, "y": -21.060203552246094, "z": -11.590888023376465 }, "pca_coordinates": { "x": 3.8994569778442383, "y": -1.0813579559326172, "z": -0.05595189332962036 }, "axis_scores": { "Quantum imaging": 0.7188613414764404, "Quantum Life Science Sensing": 0.7143056988716125, "Quantum sensing Detection": 0.733654797077179, "Quantum sensing Metrology": 0.7173754572868347, "Quantum sensing navigation": 0.7344093918800354, "Quantum sensing Position": 0.7070879340171814, "Quantum sensing Timing": 0.7153794765472412, "Quantum sensing": 0.7452837824821472, "Quantum control": 0.7335517406463623 } }, { "id": 3597, "title": "The observation of vibrating pear-shapes in radon nuclei", "abstract": "There is a large body of evidence that atomic nuclei can undergo octupole distortion and assume the shape of a pear. This phenomenon is important for measurements of electric-dipole moments of atoms, ...", "citations": 47, "author_count": 45, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3603, "doi": "10.1038/s41467-019-10494-5", "umap_coordinates": { "x": 395.5237121582031, "y": 135.28749084472656, "z": 206.20272827148438 }, "tsne_coordinates": { "x": -6.762598037719727, "y": 12.37580394744873, "z": 6.824833393096924 }, "pca_coordinates": { "x": -0.7061014175415039, "y": 1.6661362648010254, "z": 0.759739339351654 }, "axis_scores": { "Quantum imaging": 0.7032171487808228, "Quantum Life Science Sensing": 0.7232416272163391, "Quantum sensing Detection": 0.7015106081962585, "Quantum sensing Metrology": 0.6750679612159729, "Quantum sensing navigation": 0.7012066841125488, "Quantum sensing Position": 0.7056106328964233, "Quantum sensing Timing": 0.7067639231681824, "Quantum sensing": 0.7064431309700012, "Quantum control": 0.6620503067970276 } }, { "id": 3598, "title": "Phototriggerable peptidomimetics for the inhibition of Mycobacterium tuberculosis ribonucleotide reductase by targeting protein-protein binding", "abstract": "Incorporation of an artificial amino acid 2 with a stilbene chromophore into peptidomimetics with three to nine amino acids yields phototriggerable candidates for inhibition of the binding between the...", "citations": 15, "author_count": 9, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3604, "doi": "10.1039/c4ob01926a", "umap_coordinates": { "x": 392.4351806640625, "y": 135.35939025878906, "z": 204.24252319335938 }, "tsne_coordinates": { "x": 10.563627243041992, "y": 12.041379928588867, "z": -14.975001335144043 }, "pca_coordinates": { "x": -2.8054451942443848, "y": 0.10386419296264648, "z": -1.4826180934906006 }, "axis_scores": { "Quantum imaging": 0.6839445233345032, "Quantum Life Science Sensing": 0.7050325870513916, "Quantum sensing Detection": 0.6811450719833374, "Quantum sensing Metrology": 0.6729112863540649, "Quantum sensing navigation": 0.6695148944854736, "Quantum sensing Position": 0.6638379693031311, "Quantum sensing Timing": 0.6746262907981873, "Quantum sensing": 0.6922600269317627, "Quantum control": 0.6740252375602722 } }, { "id": 3599, "title": "Universality of many-body states in rotating Bose and Fermi systems", "abstract": "We propose a universal transformation from a many-boson state to a corresponding many-fermion state in the lowest-Landau-level approximation of rotating many-body systems, inspired by the Laughlin wav...", "citations": 9, "author_count": 6, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3605, "doi": "10.1103/PhysRevA.77.033615", "umap_coordinates": { "x": 394.2298278808594, "y": 136.9476318359375, "z": 208.55384826660156 }, "tsne_coordinates": { "x": -16.384580612182617, "y": -16.791996002197266, "z": 23.756839752197266 }, "pca_coordinates": { "x": 4.958591938018799, "y": 1.374657154083252, "z": -1.8926098346710205 }, "axis_scores": { "Quantum imaging": 0.7198293209075928, "Quantum Life Science Sensing": 0.7429728507995605, "Quantum sensing Detection": 0.7239445447921753, "Quantum sensing Metrology": 0.7142425179481506, "Quantum sensing navigation": 0.732845664024353, "Quantum sensing Position": 0.6904383897781372, "Quantum sensing Timing": 0.6987671852111816, "Quantum sensing": 0.7346278429031372, "Quantum control": 0.7127305269241333 } }, { "id": 3600, "title": "PHENIX study of the initial state with forward hadron measurements in 200 GeV p(d)+A and 3He+Au collisions", "abstract": "Forward hadron measurements in p(d)+A provide a signal to study nuclear shadowing, initial state energy loss and/or gluon saturation effects as a function of rapidity, centrality and energy. High p(T)...", "citations": 2, "author_count": 730, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3606, "doi": "10.1016/j.nuclphysa.2018.09.070", "umap_coordinates": { "x": 396.8767395019531, "y": 134.27748107910156, "z": 207.45616149902344 }, "tsne_coordinates": { "x": -28.82060432434082, "y": 4.184452533721924, "z": -7.337950706481934 }, "pca_coordinates": { "x": -0.40898919105529785, "y": 2.5556869506835938, "z": 0.9938415884971619 }, "axis_scores": { "Quantum imaging": 0.7068883180618286, "Quantum Life Science Sensing": 0.7179887890815735, "Quantum sensing Detection": 0.7357903122901917, "Quantum sensing Metrology": 0.7085793614387512, "Quantum sensing navigation": 0.7100299596786499, "Quantum sensing Position": 0.7433962821960449, "Quantum sensing Timing": 0.7177104949951172, "Quantum sensing": 0.724173903465271, "Quantum control": 0.6887766718864441 } }, { "id": 3601, "title": "Towards Information Lasers", "abstract": "Recently, the methods of quantum theory (QT), especially quantum information and probability, started to be widely applied outside of physics: in cognitive, social and political sciences, psychology, ...", "citations": 21, "author_count": 2, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3607, "doi": "10.3390/e17106969", "umap_coordinates": { "x": 394.93365478515625, "y": 135.6873016357422, "z": 205.60629272460938 }, "tsne_coordinates": { "x": -25.52031707763672, "y": 13.981246948242188, "z": 8.76075267791748 }, "pca_coordinates": { "x": -2.1781039237976074, "y": 1.5350655317306519, "z": -0.03802764415740967 }, "axis_scores": { "Quantum imaging": 0.7278960347175598, "Quantum Life Science Sensing": 0.7419449687004089, "Quantum sensing Detection": 0.7279131412506104, "Quantum sensing Metrology": 0.7158353328704834, "Quantum sensing navigation": 0.7358298301696777, "Quantum sensing Position": 0.7159953713417053, "Quantum sensing Timing": 0.6924574375152588, "Quantum sensing": 0.7366991639137268, "Quantum control": 0.7146844863891602 } }, { "id": 3602, "title": "Silicon nanoclusters formed through self-assembly on CaF2 substrates: morphology and optical properties", "abstract": "We studied the influence of the size and shape of silicon nanoclusters on their optical response. For this purpose, clusters were prepared by deposition, and subsequent diffusion and nucleation, of Si...", "citations": 5, "author_count": 5, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3608, "doi": null, "umap_coordinates": { "x": 391.6338195800781, "y": 139.2295684814453, "z": 209.66342163085938 }, "tsne_coordinates": { "x": -5.8858962059021, "y": 44.812957763671875, "z": -5.442373275756836 }, "pca_coordinates": { "x": -2.777708053588867, "y": 2.069312334060669, "z": -2.7890255451202393 }, "axis_scores": { "Quantum imaging": 0.7292110323905945, "Quantum Life Science Sensing": 0.7536503672599792, "Quantum sensing Detection": 0.7293720245361328, "Quantum sensing Metrology": 0.7207207679748535, "Quantum sensing navigation": 0.7224206328392029, "Quantum sensing Position": 0.6974952220916748, "Quantum sensing Timing": 0.679408609867096, "Quantum sensing": 0.7437683343887329, "Quantum control": 0.7523049116134644 } }, { "id": 3603, "title": "DECONVOLUTION OF SINGLE PHOTON-COUNTING DATA WITH A REFERENCE METHOD AND GLOBAL ANALYSIS", "abstract": "", "citations": 69, "author_count": 2, "categories": [ "Biophysics" ], "year": 1985, "topic": [ "all" ], "embedding_index": 3609, "doi": null, "umap_coordinates": { "x": 391.3011169433594, "y": 139.5684051513672, "z": 209.54782104492188 }, "tsne_coordinates": { "x": -1.6625492572784424, "y": 42.82396697998047, "z": -9.097421646118164 }, "pca_coordinates": { "x": -3.3410537242889404, "y": 3.161100387573242, "z": 2.1029348373413086 }, "axis_scores": { "Quantum imaging": 0.7099438905715942, "Quantum Life Science Sensing": 0.7024943828582764, "Quantum sensing Detection": 0.7027744054794312, "Quantum sensing Metrology": 0.7075698375701904, "Quantum sensing navigation": 0.7062604427337646, "Quantum sensing Position": 0.6795899868011475, "Quantum sensing Timing": 0.6929627060890198, "Quantum sensing": 0.7036774754524231, "Quantum control": 0.6871543526649475 } }, { "id": 3604, "title": "Electronic excitation energies of ZniSi nanoparticles", "abstract": "The excitation energies of small ZnS nanoclusters characterized in previous studies have been calculated using TDDFT. The relativistic pseudopotentials of Stevens et al have been used, including Zn 4s...", "citations": 18, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3610, "doi": "10.1088/0957-4484/17/16/018", "umap_coordinates": { "x": 393.3479309082031, "y": 134.6657257080078, "z": 206.67990112304688 }, "tsne_coordinates": { "x": 1.3213857412338257, "y": -4.296022891998291, "z": 22.048091888427734 }, "pca_coordinates": { "x": -0.259310245513916, "y": -1.693993091583252, "z": 0.5062140822410583 }, "axis_scores": { "Quantum imaging": 0.7327739596366882, "Quantum Life Science Sensing": 0.7326011657714844, "Quantum sensing Detection": 0.7212166786193848, "Quantum sensing Metrology": 0.7014211416244507, "Quantum sensing navigation": 0.721967339515686, "Quantum sensing Position": 0.7121527791023254, "Quantum sensing Timing": 0.6935904622077942, "Quantum sensing": 0.723808228969574, "Quantum control": 0.6850435733795166 } }, { "id": 3605, "title": "Optical response of two-dimensional electron fluids beyond the Kohn regime: Strong nonparabolic confinement and intense laser light - art. no. 286801", "abstract": "We investigate the linear and nonlinear optical response of two-dimensional interacting electron fluids confined by a strong nonparabolic potential. We show that such fluids may exhibit higher-harmoni...", "citations": 6, "author_count": 4, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3611, "doi": "10.1103/PhysRevLett.89.286801", "umap_coordinates": { "x": 394.5413513183594, "y": 135.12588500976562, "z": 207.32969665527344 }, "tsne_coordinates": { "x": -2.93471097946167, "y": -19.053621292114258, "z": -8.194706916809082 }, "pca_coordinates": { "x": 1.0591607093811035, "y": -0.8267688751220703, "z": 0.40001970529556274 }, "axis_scores": { "Quantum imaging": 0.6881093978881836, "Quantum Life Science Sensing": 0.6981650590896606, "Quantum sensing Detection": 0.6777201890945435, "Quantum sensing Metrology": 0.6681761145591736, "Quantum sensing navigation": 0.6647820472717285, "Quantum sensing Position": 0.6490313410758972, "Quantum sensing Timing": 0.6462093591690063, "Quantum sensing": 0.6817643642425537, "Quantum control": 0.6419467926025391 } }, { "id": 3606, "title": "Semiclassical transport in a square billiard: Conductance oscillations as probe of coherence length", "abstract": "We provide a semiclassical interpretation of the conductance oscillations in a square billiard and outline its relation to a commonly used picture of periodic orbits. We demonstrate that the character...", "citations": 14, "author_count": 3, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3612, "doi": "10.1103/PhysRevB.61.1724", "umap_coordinates": { "x": 394.0764465332031, "y": 136.05545043945312, "z": 208.445556640625 }, "tsne_coordinates": { "x": -11.788016319274902, "y": -20.45067596435547, "z": 7.8311238288879395 }, "pca_coordinates": { "x": 3.781886100769043, "y": -1.8837075233459473, "z": -0.6295068860054016 }, "axis_scores": { "Quantum imaging": 0.7119646668434143, "Quantum Life Science Sensing": 0.7579601407051086, "Quantum sensing Detection": 0.7325978875160217, "Quantum sensing Metrology": 0.722377598285675, "Quantum sensing navigation": 0.7553254961967468, "Quantum sensing Position": 0.7296738028526306, "Quantum sensing Timing": 0.7115520238876343, "Quantum sensing": 0.7437239289283752, "Quantum control": 0.7194404602050781 } }, { "id": 3607, "title": "Relaxational and vibrational dynamics of poly(propylene glycol)", "abstract": "Photon correlation spectroscopy has been used to study structural relaxation dynamics near the glass transition temperature for glass-forming linear chain molecules differing in the number of repeat u...", "citations": 32, "author_count": 6, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3613, "doi": "10.1016/S0022-3093(98)00638-3", "umap_coordinates": { "x": 393.345458984375, "y": 136.36688232421875, "z": 205.839599609375 }, "tsne_coordinates": { "x": -3.894993782043457, "y": 2.0320210456848145, "z": 31.549652099609375 }, "pca_coordinates": { "x": -0.51487135887146, "y": 1.4685430526733398, "z": -3.052619695663452 }, "axis_scores": { "Quantum imaging": 0.686404824256897, "Quantum Life Science Sensing": 0.7145578861236572, "Quantum sensing Detection": 0.6762424111366272, "Quantum sensing Metrology": 0.654076099395752, "Quantum sensing navigation": 0.6697544455528259, "Quantum sensing Position": 0.6723918914794922, "Quantum sensing Timing": 0.6583162546157837, "Quantum sensing": 0.6856952905654907, "Quantum control": 0.6833909749984741 } }, { "id": 3608, "title": "Approaching microwave photon sensitivity with Al Josephson junctions", "abstract": "Here, we experimentally test the applicability of an aluminium Josephson junction of a few micrometers size as a single photon counter in the microwave frequency range. We have measured the switching ...", "citations": 17, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3614, "doi": "10.3762/bjnano.13.50", "umap_coordinates": { "x": 394.5264892578125, "y": 134.544189453125, "z": 207.7478485107422 }, "tsne_coordinates": { "x": -16.606107711791992, "y": -8.174123764038086, "z": -29.917322158813477 }, "pca_coordinates": { "x": 0.408514142036438, "y": -1.0968666076660156, "z": 3.7115397453308105 }, "axis_scores": { "Quantum imaging": 0.7129182815551758, "Quantum Life Science Sensing": 0.7082011699676514, "Quantum sensing Detection": 0.7233445048332214, "Quantum sensing Metrology": 0.7112702131271362, "Quantum sensing navigation": 0.7242677807807922, "Quantum sensing Position": 0.7035360336303711, "Quantum sensing Timing": 0.6954299211502075, "Quantum sensing": 0.7162288427352905, "Quantum control": 0.643909215927124 } }, { "id": 3609, "title": "Spatially and spectrally resolved quantum path interference with chirped driving pulses", "abstract": "We measure spectrally and spatially resolved high-order harmonics generated in argon using chirped multi-cycle laser pulses. Using a stable, high-repetition rate laser we observe detailed interference...", "citations": 31, "author_count": 11, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3615, "doi": "10.1088/1367-2630/aa511f", "umap_coordinates": { "x": 395.2094421386719, "y": 135.1880340576172, "z": 206.6101837158203 }, "tsne_coordinates": { "x": -22.867279052734375, "y": -8.291410446166992, "z": -17.61789894104004 }, "pca_coordinates": { "x": 0.7323006391525269, "y": 2.160764694213867, "z": 4.058891773223877 }, "axis_scores": { "Quantum imaging": 0.7369121313095093, "Quantum Life Science Sensing": 0.6950121521949768, "Quantum sensing Detection": 0.7031672596931458, "Quantum sensing Metrology": 0.7049848437309265, "Quantum sensing navigation": 0.7100976705551147, "Quantum sensing Position": 0.6828758716583252, "Quantum sensing Timing": 0.7011365294456482, "Quantum sensing": 0.7184188961982727, "Quantum control": 0.6873331069946289 } }, { "id": 3610, "title": "Aligned multi-walled carbon nanotube-embodied hydrogel via low magnetic field: A strategy for engineering aligned injectable scaffolds", "abstract": "Injectable scaffolds are a promising strategy to restore and regenerate damaged and diseased tissues. They require minimally invasive procedure and allow the formation of an in-situ structure of any s...", "citations": 12, "author_count": 15, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3616, "doi": "10.1016/j.compositesb.2022.110398", "umap_coordinates": { "x": 393.1268005371094, "y": 133.98487854003906, "z": 204.1448974609375 }, "tsne_coordinates": { "x": 23.04041862487793, "y": 22.314876556396484, "z": -2.710732936859131 }, "pca_coordinates": { "x": -3.1126391887664795, "y": -1.170839786529541, "z": -0.6408170461654663 }, "axis_scores": { "Quantum imaging": 0.6799613237380981, "Quantum Life Science Sensing": 0.6796376705169678, "Quantum sensing Detection": 0.6397903561592102, "Quantum sensing Metrology": 0.6581383943557739, "Quantum sensing navigation": 0.6745446920394897, "Quantum sensing Position": 0.6594715118408203, "Quantum sensing Timing": 0.629134476184845, "Quantum sensing": 0.6641260385513306, "Quantum control": 0.6620000600814819 } }, { "id": 3611, "title": "Field-resolved high-order sub-cycle nonlinearities in a terahertz semiconductor laser", "abstract": "The exploitation of ultrafast electron dynamics in quantum cascade lasers (QCLs) holds enormous potential for intense, compact mode-locked terahertz (THz) sources, squeezed THz light, frequency mixers...", "citations": 19, "author_count": 15, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3617, "doi": "10.1038/s41377-021-00685-5", "umap_coordinates": { "x": 393.5356140136719, "y": 135.5025177001953, "z": 206.59812927246094 }, "tsne_coordinates": { "x": 5.983011722564697, "y": -5.465109825134277, "z": 18.624290466308594 }, "pca_coordinates": { "x": 0.05055403709411621, "y": -1.3554491996765137, "z": -0.4200095534324646 }, "axis_scores": { "Quantum imaging": 0.7144126296043396, "Quantum Life Science Sensing": 0.7351929545402527, "Quantum sensing Detection": 0.6909112334251404, "Quantum sensing Metrology": 0.6986323595046997, "Quantum sensing navigation": 0.6838279962539673, "Quantum sensing Position": 0.6635715365409851, "Quantum sensing Timing": 0.689720094203949, "Quantum sensing": 0.7067304253578186, "Quantum control": 0.6804812550544739 } }, { "id": 3612, "title": "Quasi-Classical Gravity Effect on Neutrino Oscillations in a Gravitational Field of a Heavy Astrophysical Object", "abstract": "In the framework of quantum field theory, a graviton interacts locally with a quantum state having definite mass, that is, the gravitational mass eigenstate, while a weak boson interacts with a state ...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3618, "doi": "10.1155/2015/381569", "umap_coordinates": { "x": 395.4249267578125, "y": 136.36318969726562, "z": 205.80404663085938 }, "tsne_coordinates": { "x": -19.19763946533203, "y": -6.5174407958984375, "z": 22.824539184570312 }, "pca_coordinates": { "x": 1.411728858947754, "y": 3.31050968170166, "z": -0.7668377161026001 }, "axis_scores": { "Quantum imaging": 0.7131811380386353, "Quantum Life Science Sensing": 0.7187960147857666, "Quantum sensing Detection": 0.7128878831863403, "Quantum sensing Metrology": 0.6961919665336609, "Quantum sensing navigation": 0.7246522903442383, "Quantum sensing Position": 0.6825039982795715, "Quantum sensing Timing": 0.6829288005828857, "Quantum sensing": 0.719237208366394, "Quantum control": 0.7173253893852234 } }, { "id": 3613, "title": "Hyperfine structure, optical dephasing, and spectral-hole lifetime of single-crystalline Pr3+:La2(WO4)3", "abstract": "Most of the experiments related to quantum information applications, involving rare-earth doped inorganic crystals, are performed on yttrium orthosilicate single crystals. The work presented here is m...", "citations": 17, "author_count": 8, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3619, "doi": "10.1103/PhysRevB.75.205110", "umap_coordinates": { "x": 394.01226806640625, "y": 135.0441436767578, "z": 208.4208221435547 }, "tsne_coordinates": { "x": 1.789080262184143, "y": -46.61943054199219, "z": 7.490550994873047 }, "pca_coordinates": { "x": 2.069949150085449, "y": -1.7382221221923828, "z": -1.2255523204803467 }, "axis_scores": { "Quantum imaging": 0.7125550508499146, "Quantum Life Science Sensing": 0.7464882731437683, "Quantum sensing Detection": 0.6904197335243225, "Quantum sensing Metrology": 0.693540096282959, "Quantum sensing navigation": 0.6783084273338318, "Quantum sensing Position": 0.6663097143173218, "Quantum sensing Timing": 0.6824466586112976, "Quantum sensing": 0.7125074863433838, "Quantum control": 0.671764075756073 } }, { "id": 3614, "title": "Quantum-size effects in visible defect photoluminescence of colloidal ZnO quantum dots: a theoretical analysis", "abstract": "ZnO has been known for a long time to be a highly efficient luminescent material. In the last few years, the experimental investigation of the luminescent properties of colloidal ZnO nanocrystals in t...", "citations": 7, "author_count": 4, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3620, "doi": "10.1039/c8nr00534f", "umap_coordinates": { "x": 392.1203308105469, "y": 134.2117919921875, "z": 206.5414276123047 }, "tsne_coordinates": { "x": 28.248350143432617, "y": -5.280609607696533, "z": -3.8616926670074463 }, "pca_coordinates": { "x": -1.07395339012146, "y": -2.8783106803894043, "z": -1.5166773796081543 }, "axis_scores": { "Quantum imaging": 0.7308728694915771, "Quantum Life Science Sensing": 0.7568464279174805, "Quantum sensing Detection": 0.7277916669845581, "Quantum sensing Metrology": 0.7143601179122925, "Quantum sensing navigation": 0.7140318751335144, "Quantum sensing Position": 0.7155832052230835, "Quantum sensing Timing": 0.6781061291694641, "Quantum sensing": 0.7357654571533203, "Quantum control": 0.7040523290634155 } }, { "id": 3615, "title": "Topological superconductivity in a magnetic-texture coupled Josephson junction", "abstract": "Topological superconductors are appealing building blocks for robust and reliable quantum information processing. Most platforms for engineering topological superconductivity rely on a combination of ...", "citations": 4, "author_count": 4, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3621, "doi": "10.1103/PhysRevB.110.L060505", "umap_coordinates": { "x": 393.9331970214844, "y": 136.01593017578125, "z": 209.09530639648438 }, "tsne_coordinates": { "x": 3.4075982570648193, "y": -25.104663848876953, "z": 13.539667129516602 }, "pca_coordinates": { "x": 4.8294997215271, "y": -1.7463583946228027, "z": -0.4239344596862793 }, "axis_scores": { "Quantum imaging": 0.6932472586631775, "Quantum Life Science Sensing": 0.6761177778244019, "Quantum sensing Detection": 0.6822705864906311, "Quantum sensing Metrology": 0.6676662564277649, "Quantum sensing navigation": 0.6983647346496582, "Quantum sensing Position": 0.675940215587616, "Quantum sensing Timing": 0.6881668567657471, "Quantum sensing": 0.6919788122177124, "Quantum control": 0.6767070889472961 } }, { "id": 3616, "title": "Scattering in time-dependent basis light-front quantization", "abstract": "We introduce a nonperturbative, first-principles numerical approach for solving time-dependent problems in quantum field theory, using light-front quantization. As a first application we consider QED ...", "citations": 64, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3622, "doi": "10.1103/PhysRevD.88.065014", "umap_coordinates": { "x": 394.37322998046875, "y": 136.47650146484375, "z": 206.94241333007812 }, "tsne_coordinates": { "x": -23.369802474975586, "y": 25.749635696411133, "z": 15.758978843688965 }, "pca_coordinates": { "x": 3.0748167037963867, "y": 0.16438746452331543, "z": -0.22702458500862122 }, "axis_scores": { "Quantum imaging": 0.7201806306838989, "Quantum Life Science Sensing": 0.7220600843429565, "Quantum sensing Detection": 0.7118108868598938, "Quantum sensing Metrology": 0.6948295831680298, "Quantum sensing navigation": 0.7235381603240967, "Quantum sensing Position": 0.7056469917297363, "Quantum sensing Timing": 0.699862003326416, "Quantum sensing": 0.7185273170471191, "Quantum control": 0.697264552116394 } }, { "id": 3617, "title": "Micro-cavities in silicon-on-insulator photonic crystal slabs: Determining resonant frequencies and quality factors accurately", "abstract": "Micro-cavities in two-dimensional silicon-on-insulator (SOI) photonic-crystal slabs are studied. A combination of the finite-difference time-domain (FDTD) technique and the Pad approximation with Bake...", "citations": 19, "author_count": 2, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3623, "doi": "10.1002/mop.20830", "umap_coordinates": { "x": 393.8230285644531, "y": 133.7795867919922, "z": 206.78018188476562 }, "tsne_coordinates": { "x": 34.39044952392578, "y": -19.49549674987793, "z": 6.222959995269775 }, "pca_coordinates": { "x": -0.14037322998046875, "y": -0.2709324359893799, "z": 1.3822569847106934 }, "axis_scores": { "Quantum imaging": 0.745534360408783, "Quantum Life Science Sensing": 0.745865523815155, "Quantum sensing Detection": 0.7367406487464905, "Quantum sensing Metrology": 0.7609119415283203, "Quantum sensing navigation": 0.7388550639152527, "Quantum sensing Position": 0.7150589227676392, "Quantum sensing Timing": 0.7042962908744812, "Quantum sensing": 0.7569023370742798, "Quantum control": 0.7037776708602905 } }, { "id": 3618, "title": "Magnetic properties of TlCu2-xFexSe2 crystals - art. no. 10B311", "abstract": "The magnetic properties of two compositions of random solutions in the TlCu2-xFexSe2 system with x = 0.2 and 0.45 have been investigated by superconducting quantum interference device magnetometry. Th...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3624, "doi": "10.1063/1.1854434", "umap_coordinates": { "x": 392.7615966796875, "y": 135.4305877685547, "z": 207.86843872070312 }, "tsne_coordinates": { "x": 15.479338645935059, "y": -19.90631103515625, "z": 27.823040008544922 }, "pca_coordinates": { "x": -0.014345169067382812, "y": -1.7260308265686035, "z": -2.9672868251800537 }, "axis_scores": { "Quantum imaging": 0.6807217597961426, "Quantum Life Science Sensing": 0.7058546543121338, "Quantum sensing Detection": 0.6595777273178101, "Quantum sensing Metrology": 0.6919993758201599, "Quantum sensing navigation": 0.6575339436531067, "Quantum sensing Position": 0.6582242250442505, "Quantum sensing Timing": 0.6378164291381836, "Quantum sensing": 0.685675323009491, "Quantum control": 0.686455249786377 } }, { "id": 3619, "title": "Manipulating InAs island sizes with chemical beam epitaxy growth on GaAs patterns", "abstract": "We demonstrate the manipulation of InAs island size through growth on patterned GaAs substrates. Using chemical beam epitaxy, we deposited islands on patterns consisting of concentric circular trenche...", "citations": 6, "author_count": 8, "categories": [ "Crystallography" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3625, "doi": "10.1016/S0022-0248(96)01219-5", "umap_coordinates": { "x": 392.0286865234375, "y": 134.12939453125, "z": 207.41123962402344 }, "tsne_coordinates": { "x": 30.871524810791016, "y": -8.04720401763916, "z": 5.217848777770996 }, "pca_coordinates": { "x": -1.4450218677520752, "y": -2.2981319427490234, "z": 0.8484610915184021 }, "axis_scores": { "Quantum imaging": 0.6686665415763855, "Quantum Life Science Sensing": 0.6496549844741821, "Quantum sensing Detection": 0.6493623852729797, "Quantum sensing Metrology": 0.6589250564575195, "Quantum sensing navigation": 0.6744368672370911, "Quantum sensing Position": 0.6727234125137329, "Quantum sensing Timing": 0.6611183285713196, "Quantum sensing": 0.6700299978256226, "Quantum control": 0.6720610857009888 } }, { "id": 3620, "title": "Path integral molecular dynamics approximations of quantum canonical observables", "abstract": "Mean-field molecular dynamics based on path integrals is used to approximate canonical quantum observables for particle systems consisting of nuclei and electrons. A computational bottleneck is the Mo...", "citations": 2, "author_count": 5, "categories": [ "Computer Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3626, "doi": "10.1016/j.jcp.2024.113625", "umap_coordinates": { "x": 394.16253662109375, "y": 137.5322723388672, "z": 206.29148864746094 }, "tsne_coordinates": { "x": -11.750561714172363, "y": 6.015980243682861, "z": 22.625070571899414 }, "pca_coordinates": { "x": 2.399693727493286, "y": 1.8977253437042236, "z": -1.7584786415100098 }, "axis_scores": { "Quantum imaging": 0.7840914726257324, "Quantum Life Science Sensing": 0.7743901610374451, "Quantum sensing Detection": 0.7694138884544373, "Quantum sensing Metrology": 0.7487682104110718, "Quantum sensing navigation": 0.7926191091537476, "Quantum sensing Position": 0.7504186034202576, "Quantum sensing Timing": 0.7348501086235046, "Quantum sensing": 0.7830712199211121, "Quantum control": 0.7808443903923035 } }, { "id": 3621, "title": "Space-time geometry of quantum dielectrics - art. no. 012111", "abstract": "Light experiences dielectric matter as an effective gravitational field and matter experiences light as a form of gravity as well. Light and matter waves experience each other as dual space-time metri...", "citations": 45, "author_count": 2, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3627, "doi": "10.1103/PhysRevA.62.012111", "umap_coordinates": { "x": 394.9164123535156, "y": 136.4781494140625, "z": 207.91610717773438 }, "tsne_coordinates": { "x": -20.868732452392578, "y": -16.806371688842773, "z": 2.7237491607666016 }, "pca_coordinates": { "x": 3.8116307258605957, "y": 0.4071462154388428, "z": -0.4285968244075775 }, "axis_scores": { "Quantum imaging": 0.7313566207885742, "Quantum Life Science Sensing": 0.7646678686141968, "Quantum sensing Detection": 0.7331833839416504, "Quantum sensing Metrology": 0.7366642951965332, "Quantum sensing navigation": 0.7483503222465515, "Quantum sensing Position": 0.7339430451393127, "Quantum sensing Timing": 0.7291033267974854, "Quantum sensing": 0.7461906671524048, "Quantum control": 0.714587390422821 } }, { "id": 3622, "title": "Single-photon detection using large-scale high-temperature MgB2 sensors at 20 K", "abstract": "Ultra-fast single-photon detectors with high current density and operating temperature can benefit space and ground applications, including quantum optical communication systems, lightweight cryogenic...", "citations": 25, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3628, "doi": "10.1038/s41467-024-47353-x", "umap_coordinates": { "x": 394.7036437988281, "y": 133.47984313964844, "z": 206.78016662597656 }, "tsne_coordinates": { "x": -7.715987682342529, "y": -0.6571029424667358, "z": -22.333799362182617 }, "pca_coordinates": { "x": -2.6068429946899414, "y": -1.6611661911010742, "z": 2.1815812587738037 }, "axis_scores": { "Quantum imaging": 0.7162761688232422, "Quantum Life Science Sensing": 0.7499520778656006, "Quantum sensing Detection": 0.7381759881973267, "Quantum sensing Metrology": 0.7164871692657471, "Quantum sensing navigation": 0.7008119225502014, "Quantum sensing Position": 0.7214579582214355, "Quantum sensing Timing": 0.7081661820411682, "Quantum sensing": 0.74260413646698, "Quantum control": 0.6680662631988525 } }, { "id": 3623, "title": "Few-states models for three-photon absorption", "abstract": "Few-states models are derived for the calculation of three-photon absorption matrix elements. Together with earlier derived few-states models for two-photon absorption, the models are evaluated agains...", "citations": 46, "author_count": 5, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3629, "doi": "10.1063/1.1767516", "umap_coordinates": { "x": 395.0358581542969, "y": 135.36167907714844, "z": 207.49790954589844 }, "tsne_coordinates": { "x": -6.397294998168945, "y": -0.3994510769844055, "z": 6.030730724334717 }, "pca_coordinates": { "x": 1.4993484020233154, "y": -0.0029494762420654297, "z": 0.9422113299369812 }, "axis_scores": { "Quantum imaging": 0.7198129296302795, "Quantum Life Science Sensing": 0.7277495265007019, "Quantum sensing Detection": 0.7298885583877563, "Quantum sensing Metrology": 0.7185908555984497, "Quantum sensing navigation": 0.7072925567626953, "Quantum sensing Position": 0.6741499304771423, "Quantum sensing Timing": 0.6766234636306763, "Quantum sensing": 0.7384310960769653, "Quantum control": 0.6853395104408264 } }, { "id": 3624, "title": "Classical field approximation of ultralight dark matter: Quantum break times, corrections, and decoherence", "abstract": "The classical field approximation is widely used to better understand the predictions of ultralight dark matter. Here, we use the truncated Wigner approximation method to test the classical field appr...", "citations": 9, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3630, "doi": "10.1103/PhysRevD.109.083527", "umap_coordinates": { "x": 395.6215515136719, "y": 136.51893615722656, "z": 207.03912353515625 }, "tsne_coordinates": { "x": -14.975550651550293, "y": -14.281375885009766, "z": -16.0537166595459 }, "pca_coordinates": { "x": 2.799865484237671, "y": 2.9196627140045166, "z": -1.0350669622421265 }, "axis_scores": { "Quantum imaging": 0.7192843556404114, "Quantum Life Science Sensing": 0.7386537194252014, "Quantum sensing Detection": 0.7114591002464294, "Quantum sensing Metrology": 0.6884707808494568, "Quantum sensing navigation": 0.7061068415641785, "Quantum sensing Position": 0.6838858127593994, "Quantum sensing Timing": 0.7095101475715637, "Quantum sensing": 0.7185674905776978, "Quantum control": 0.6993567943572998 } }, { "id": 3625, "title": "Electronic Light-Matter Strong Coupling in Nanofluidic Fabry-Perot Cavities", "abstract": "Electronic light-matter strong coupling has been limited to solid molecular films due to the challenge of preparing optical cavities with nanoscale dimensions. Here we report a technique to fabricate ...", "citations": 41, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3631, "doi": "10.1021/acsphotonics.7b00679", "umap_coordinates": { "x": 392.99005126953125, "y": 134.7092742919922, "z": 206.490478515625 }, "tsne_coordinates": { "x": 6.94681978225708, "y": -14.325961112976074, "z": -14.307191848754883 }, "pca_coordinates": { "x": -0.13923132419586182, "y": -2.8650708198547363, "z": 0.568946897983551 }, "axis_scores": { "Quantum imaging": 0.7510383129119873, "Quantum Life Science Sensing": 0.7422506213188171, "Quantum sensing Detection": 0.7460941076278687, "Quantum sensing Metrology": 0.7389249801635742, "Quantum sensing navigation": 0.7255269885063171, "Quantum sensing Position": 0.7005348801612854, "Quantum sensing Timing": 0.6802431344985962, "Quantum sensing": 0.7499300837516785, "Quantum control": 0.7141060829162598 } }, { "id": 3626, "title": "High critical temperature superconductor Josephson junctions for quantum circuit applications", "abstract": "Recent findings of macroscopic quantum properties in high critical temperature superconductor (HTS) Josephson junctions (JJs) point toward the need to revise the role of zero energy quasi-particles in...", "citations": 4, "author_count": 9, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3632, "doi": "10.1088/0031-8949/2009/T137/014006", "umap_coordinates": { "x": 394.55767822265625, "y": 134.94007873535156, "z": 207.2793426513672 }, "tsne_coordinates": { "x": 2.6139755249023438, "y": -14.537850379943848, "z": 15.9603853225708 }, "pca_coordinates": { "x": 1.310701847076416, "y": 0.42478036880493164, "z": 1.5649936199188232 }, "axis_scores": { "Quantum imaging": 0.6788131594657898, "Quantum Life Science Sensing": 0.696733832359314, "Quantum sensing Detection": 0.670289933681488, "Quantum sensing Metrology": 0.6721364259719849, "Quantum sensing navigation": 0.6744539737701416, "Quantum sensing Position": 0.6553800106048584, "Quantum sensing Timing": 0.7072271704673767, "Quantum sensing": 0.6837425827980042, "Quantum control": 0.6614375114440918 } }, { "id": 3627, "title": "Statistical measure of ensemble nonreproducibility and correction to Bell's inequality", "abstract": "We analyse the proof of Bell's inequality and demonstrate that this inequality is related to one particular model of probability theory, namely Kolmogorov measure-theoretical axiomatics, 1933. We foun...", "citations": 24, "author_count": 2, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3633, "doi": null, "umap_coordinates": { "x": 392.1349182128906, "y": 139.6098175048828, "z": 209.2216339111328 }, "tsne_coordinates": { "x": -14.328539848327637, "y": 36.245487213134766, "z": -2.4871065616607666 }, "pca_coordinates": { "x": 0.10585784912109375, "y": 3.4456238746643066, "z": -1.1930592060089111 }, "axis_scores": { "Quantum imaging": 0.72137451171875, "Quantum Life Science Sensing": 0.7560427188873291, "Quantum sensing Detection": 0.7416455149650574, "Quantum sensing Metrology": 0.741860032081604, "Quantum sensing navigation": 0.7331137657165527, "Quantum sensing Position": 0.7364957332611084, "Quantum sensing Timing": 0.710081934928894, "Quantum sensing": 0.7472856044769287, "Quantum control": 0.7260452508926392 } }, { "id": 3628, "title": "Droplet-target laser-plasma source for proximity x-ray lithography", "abstract": "A compact, high-brightness and practically debris-free laser-plasma soft x-ray source for proximity x-ray lithography is described. The target of the source is small liquid fluorocarbon droplets injec...", "citations": 33, "author_count": 4, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3634, "doi": "10.1063/1.116203", "umap_coordinates": { "x": 394.5677185058594, "y": 133.9243927001953, "z": 207.28182983398438 }, "tsne_coordinates": { "x": -22.160797119140625, "y": 14.742106437683105, "z": -28.03608512878418 }, "pca_coordinates": { "x": -0.7369810342788696, "y": -0.4092075824737549, "z": 1.7170579433441162 }, "axis_scores": { "Quantum imaging": 0.6754504442214966, "Quantum Life Science Sensing": 0.7009933590888977, "Quantum sensing Detection": 0.6926249861717224, "Quantum sensing Metrology": 0.6961389780044556, "Quantum sensing navigation": 0.6615278124809265, "Quantum sensing Position": 0.6886206865310669, "Quantum sensing Timing": 0.6810643672943115, "Quantum sensing": 0.7011340856552124, "Quantum control": 0.6732950806617737 } }, { "id": 3629, "title": "Communication Games Reveal Preparation Contextuality", "abstract": "A communication game consists of distributed parties attempting to jointly complete a task with restricted communication. Such games are useful tools for studying limitations of physical theories. A t...", "citations": 39, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3635, "doi": "10.1103/PhysRevLett.119.220402", "umap_coordinates": { "x": 395.8191833496094, "y": 137.37026977539062, "z": 207.0416259765625 }, "tsne_coordinates": { "x": -20.169483184814453, "y": 1.7251321077346802, "z": 6.2407732009887695 }, "pca_coordinates": { "x": 3.1079115867614746, "y": 3.625365734100342, "z": -0.3164307475090027 }, "axis_scores": { "Quantum imaging": 0.7436859607696533, "Quantum Life Science Sensing": 0.7321670651435852, "Quantum sensing Detection": 0.7425645589828491, "Quantum sensing Metrology": 0.7159519791603088, "Quantum sensing navigation": 0.7535330653190613, "Quantum sensing Position": 0.7295849323272705, "Quantum sensing Timing": 0.7542847394943237, "Quantum sensing": 0.7572882175445557, "Quantum control": 0.7526487708091736 } }, { "id": 3630, "title": "Storage and on-demand release of microwaves using superconducting resonators with tunable coupling", "abstract": "We present a system which allows to tune the coupling between a superconducting resonator and a transmission line. This storage resonator is addressed through a second, coupling resonator, which is fr...", "citations": 75, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3636, "doi": "10.1063/1.4882646", "umap_coordinates": { "x": 394.6034240722656, "y": 135.4512176513672, "z": 207.8285369873047 }, "tsne_coordinates": { "x": -15.140954971313477, "y": -33.42952346801758, "z": 27.055944442749023 }, "pca_coordinates": { "x": 1.6977496147155762, "y": -0.4228546619415283, "z": 0.2186834216117859 }, "axis_scores": { "Quantum imaging": 0.6896021962165833, "Quantum Life Science Sensing": 0.713074266910553, "Quantum sensing Detection": 0.7032781839370728, "Quantum sensing Metrology": 0.7022910118103027, "Quantum sensing navigation": 0.6849513649940491, "Quantum sensing Position": 0.6701325178146362, "Quantum sensing Timing": 0.698694109916687, "Quantum sensing": 0.7228276133537292, "Quantum control": 0.692654013633728 } }, { "id": 3631, "title": "Photovoltaic effect generated by spin-orbit interactions", "abstract": "An AC electric field applied to a junction comprising two spin-orbit coupled weak links connecting a quantum dot to two electronic terminals is proposed to induce a DC current and to generate a voltag...", "citations": 8, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3637, "doi": "10.1103/PhysRevB.101.121303", "umap_coordinates": { "x": 394.268798828125, "y": 135.21897888183594, "z": 208.94471740722656 }, "tsne_coordinates": { "x": 7.2865471839904785, "y": -32.26376724243164, "z": 8.524877548217773 }, "pca_coordinates": { "x": 2.5611214637756348, "y": -2.5306410789489746, "z": -0.19478923082351685 }, "axis_scores": { "Quantum imaging": 0.7001028656959534, "Quantum Life Science Sensing": 0.725445568561554, "Quantum sensing Detection": 0.6982284188270569, "Quantum sensing Metrology": 0.6842313408851624, "Quantum sensing navigation": 0.6898941993713379, "Quantum sensing Position": 0.6665946245193481, "Quantum sensing Timing": 0.6576218605041504, "Quantum sensing": 0.7103362679481506, "Quantum control": 0.6940342783927917 } }, { "id": 3632, "title": "Quadracyclic Adenine: A Non-Perturbing Fluorescent Adenine Analogue", "abstract": "Fluorescent-base analogues (FBAs) comprise a group of increasingly important molecules for the investigation of nucleic acid structure and dynamics as well as of interactions between nucleic acids and...", "citations": 40, "author_count": 8, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3638, "doi": "10.1002/chem.201103419", "umap_coordinates": { "x": 392.3846740722656, "y": 136.495849609375, "z": 204.577880859375 }, "tsne_coordinates": { "x": 7.294537544250488, "y": 10.674893379211426, "z": 2.1015915870666504 }, "pca_coordinates": { "x": -1.2055245637893677, "y": 0.7275478839874268, "z": -2.766995429992676 }, "axis_scores": { "Quantum imaging": 0.7096190452575684, "Quantum Life Science Sensing": 0.7283814549446106, "Quantum sensing Detection": 0.7098963856697083, "Quantum sensing Metrology": 0.6990561485290527, "Quantum sensing navigation": 0.7108296155929565, "Quantum sensing Position": 0.6938529014587402, "Quantum sensing Timing": 0.681368350982666, "Quantum sensing": 0.722986102104187, "Quantum control": 0.7191503047943115 } }, { "id": 3633, "title": "Interacting electrons in the Aharonov-Bohm interferometer", "abstract": "We present a microscopic picture of quantum transport in the Aharonov-Bohm (AB) interferometer taking into account the electron interaction within the Hartree and the spin density-functional theory ap...", "citations": 20, "author_count": 3, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3639, "doi": "10.1103/PhysRevB.77.235304", "umap_coordinates": { "x": 394.9716491699219, "y": 135.56556701660156, "z": 208.9968719482422 }, "tsne_coordinates": { "x": -4.524448394775391, "y": -24.387367248535156, "z": -4.595065116882324 }, "pca_coordinates": { "x": 5.575939655303955, "y": -0.06783533096313477, "z": 1.6312072277069092 }, "axis_scores": { "Quantum imaging": 0.7219444513320923, "Quantum Life Science Sensing": 0.7107281684875488, "Quantum sensing Detection": 0.7196909785270691, "Quantum sensing Metrology": 0.7167550325393677, "Quantum sensing navigation": 0.73253333568573, "Quantum sensing Position": 0.6896630525588989, "Quantum sensing Timing": 0.6851470470428467, "Quantum sensing": 0.7250953316688538, "Quantum control": 0.6942005157470703 } }, { "id": 3634, "title": "Inhomogeneous InGaN and InN with In-enriched nanostructures", "abstract": "We present optical evidences for formation of In-enriched nanostructures in InxGa1-xN alloys (x=0.2-1.0) grown by I ME. Two-band photoluminescence (PL) has been recorded in several InxGa1-xN films (x ...", "citations": 5, "author_count": 9, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3640, "doi": null, "umap_coordinates": { "x": 391.28009033203125, "y": 139.1769256591797, "z": 208.8516387939453 }, "tsne_coordinates": { "x": -12.84463882446289, "y": 48.62469482421875, "z": -7.7578864097595215 }, "pca_coordinates": { "x": -1.3325026035308838, "y": -0.33194398880004883, "z": -0.4192035496234894 }, "axis_scores": { "Quantum imaging": 0.7024995684623718, "Quantum Life Science Sensing": 0.6615728735923767, "Quantum sensing Detection": 0.6650415062904358, "Quantum sensing Metrology": 0.6654208898544312, "Quantum sensing navigation": 0.6776595711708069, "Quantum sensing Position": 0.6403470039367676, "Quantum sensing Timing": 0.618270218372345, "Quantum sensing": 0.6785922646522522, "Quantum control": 0.6486403346061707 } }, { "id": 3635, "title": "Upconversion luminescence of CdTe nanoparticles - art. no. 165304", "abstract": "Efficient upconversion luminescence is observed from CdTe nanoparticles in solution and precipitated as solids. In the solids, the upconversion luminescence spectrum is significantly red shifted relat...", "citations": 89, "author_count": 6, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3641, "doi": "10.1103/PhysRevB.71.165304", "umap_coordinates": { "x": 394.11151123046875, "y": 134.60475158691406, "z": 208.84385681152344 }, "tsne_coordinates": { "x": 4.731719970703125, "y": -32.741886138916016, "z": -0.004477674141526222 }, "pca_coordinates": { "x": 1.703629493713379, "y": -2.8193564414978027, "z": 0.007879018783569336 }, "axis_scores": { "Quantum imaging": 0.7048741579055786, "Quantum Life Science Sensing": 0.7354596257209778, "Quantum sensing Detection": 0.717808723449707, "Quantum sensing Metrology": 0.7157809734344482, "Quantum sensing navigation": 0.7083621621131897, "Quantum sensing Position": 0.6897335052490234, "Quantum sensing Timing": 0.6740362644195557, "Quantum sensing": 0.7214682698249817, "Quantum control": 0.6958760619163513 } }, { "id": 3636, "title": "Reflection phase of scattering electrons in a single-channel atomic wire - art. no. 241306", "abstract": "A theoretical study of the phase property of the reflection coefficient of a single-channel quantum system is presented. This reflection phase information is required for a complete characterization o...", "citations": 4, "author_count": 6, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3642, "doi": "10.1103/PhysRevB.68.241306", "umap_coordinates": { "x": 394.59759521484375, "y": 134.37203979492188, "z": 208.81781005859375 }, "tsne_coordinates": { "x": 6.194703578948975, "y": -33.99348068237305, "z": -7.330121040344238 }, "pca_coordinates": { "x": 3.589029312133789, "y": -1.8511857986450195, "z": 1.9044744968414307 }, "axis_scores": { "Quantum imaging": 0.6907731890678406, "Quantum Life Science Sensing": 0.6980710625648499, "Quantum sensing Detection": 0.6914336681365967, "Quantum sensing Metrology": 0.6915131211280823, "Quantum sensing navigation": 0.7041534185409546, "Quantum sensing Position": 0.6735563278198242, "Quantum sensing Timing": 0.6780473589897156, "Quantum sensing": 0.7048641443252563, "Quantum control": 0.6614347696304321 } }, { "id": 3637, "title": "Quantum mechanical model and simulation of GaAs/AlGaAs quantum well infrared photodetector-I optical aspects", "abstract": "A complete quantum mechanical model for GaAs/AlGaAs quantum well infrared photodetectors(QWIPs) is presented here. The model consisted of four parts: (1) Starting with the description of the electroma...", "citations": 3, "author_count": 5, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3643, "doi": null, "umap_coordinates": { "x": 392.04742431640625, "y": 139.21987915039062, "z": 209.59373474121094 }, "tsne_coordinates": { "x": -11.125078201293945, "y": 43.09041976928711, "z": -2.2009363174438477 }, "pca_coordinates": { "x": -0.2516636252403259, "y": 2.0304996967315674, "z": -1.128308892250061 }, "axis_scores": { "Quantum imaging": 0.769675076007843, "Quantum Life Science Sensing": 0.7784460783004761, "Quantum sensing Detection": 0.7557375431060791, "Quantum sensing Metrology": 0.7499339580535889, "Quantum sensing navigation": 0.7509613633155823, "Quantum sensing Position": 0.7324945330619812, "Quantum sensing Timing": 0.7113837003707886, "Quantum sensing": 0.7691316604614258, "Quantum control": 0.7568085193634033 } }, { "id": 3638, "title": "Photon filters in a microwave cavity", "abstract": "In an earlier paper we concluded that time-dependent parameters in the atom-mode interaction can be utilized to modify the quantum field in a cavity. When an atom shoots through the cavity field, it i...", "citations": 5, "author_count": 3, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3644, "doi": "10.1080/0950034031000095551", "umap_coordinates": { "x": 395.1080627441406, "y": 135.40042114257812, "z": 206.6870880126953 }, "tsne_coordinates": { "x": -28.300060272216797, "y": -2.7469725608825684, "z": -9.292084693908691 }, "pca_coordinates": { "x": 0.0654749870300293, "y": 1.14620041847229, "z": 2.371184825897217 }, "axis_scores": { "Quantum imaging": 0.7163923382759094, "Quantum Life Science Sensing": 0.7182435989379883, "Quantum sensing Detection": 0.7191449403762817, "Quantum sensing Metrology": 0.6977881789207458, "Quantum sensing navigation": 0.7214108109474182, "Quantum sensing Position": 0.6760482788085938, "Quantum sensing Timing": 0.6696916222572327, "Quantum sensing": 0.7172289490699768, "Quantum control": 0.6691350340843201 } }, { "id": 3639, "title": "Continuous-Variable Square-Ladder Cluster States in a Microwave Frequency Comb", "abstract": "We describe an experiment demonstrating the generation of three independent square-ladder continuousvariable cluster states with up to 94 qumodes of a microwave frequency comb. This entanglement struc...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3645, "doi": "10.1103/PhysRevLett.134.183602", "umap_coordinates": { "x": 394.11651611328125, "y": 136.68081665039062, "z": 207.79689025878906 }, "tsne_coordinates": { "x": -11.765541076660156, "y": -20.058996200561523, "z": 6.493256568908691 }, "pca_coordinates": { "x": 4.280942440032959, "y": -0.5398373603820801, "z": -1.7538228034973145 }, "axis_scores": { "Quantum imaging": 0.6924077868461609, "Quantum Life Science Sensing": 0.7300429940223694, "Quantum sensing Detection": 0.7114761471748352, "Quantum sensing Metrology": 0.6967836618423462, "Quantum sensing navigation": 0.7215186953544617, "Quantum sensing Position": 0.695353090763092, "Quantum sensing Timing": 0.6836407780647278, "Quantum sensing": 0.7186778783798218, "Quantum control": 0.7025782465934753 } }, { "id": 3640, "title": "Transmon probe for quantum characteristics of magnons in antiferromagnets", "abstract": "The detection of magnons and their quantum properties, especially in antiferromagnetic (AFM) materials, is a substantial step to realize many ambitious advances in the study of nanomagnetism and the d...", "citations": 4, "author_count": 8, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3646, "doi": "10.1103/PhysRevB.108.094430", "umap_coordinates": { "x": 394.6258850097656, "y": 135.9563446044922, "z": 208.15805053710938 }, "tsne_coordinates": { "x": -6.61115026473999, "y": -38.560359954833984, "z": 23.118881225585938 }, "pca_coordinates": { "x": 4.385311126708984, "y": 0.2666313648223877, "z": 0.27511030435562134 }, "axis_scores": { "Quantum imaging": 0.7090170383453369, "Quantum Life Science Sensing": 0.716015100479126, "Quantum sensing Detection": 0.7032967805862427, "Quantum sensing Metrology": 0.7088472247123718, "Quantum sensing navigation": 0.6882572174072266, "Quantum sensing Position": 0.6926900744438171, "Quantum sensing Timing": 0.6876440048217773, "Quantum sensing": 0.7105514407157898, "Quantum control": 0.6569147706031799 } }, { "id": 3641, "title": "Strategies in a Symmetric Quantum Kolkata Restaurant Problem", "abstract": "The Quantum Kolkata restaurant problem is a multiple-choice version of the quantum minority game, where a set of n non-communicating players have to chose between one of m choices. A payoff is granted...", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3647, "doi": "10.1063/1.4773171", "umap_coordinates": { "x": 394.6917724609375, "y": 137.94638061523438, "z": 207.17697143554688 }, "tsne_coordinates": { "x": -24.786823272705078, "y": 9.548882484436035, "z": 23.867584228515625 }, "pca_coordinates": { "x": 2.850529193878174, "y": 1.8506526947021484, "z": -0.5555875301361084 }, "axis_scores": { "Quantum imaging": 0.6971080303192139, "Quantum Life Science Sensing": 0.6742116212844849, "Quantum sensing Detection": 0.6999344825744629, "Quantum sensing Metrology": 0.6860489249229431, "Quantum sensing navigation": 0.7420117259025574, "Quantum sensing Position": 0.7063645720481873, "Quantum sensing Timing": 0.6830867528915405, "Quantum sensing": 0.7161710262298584, "Quantum control": 0.7015250325202942 } }, { "id": 3642, "title": "Measuring hybridization in GaInAs/InP electron billiard arrays", "abstract": "We study low temperature magnetoconductance fluctuations in arrays of electron billiards in an effort to quantitatively measure hybridization between array elements. In contrast to previous research i...", "citations": 1, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3648, "doi": "10.1016/j.physe.2009.11.010", "umap_coordinates": { "x": 392.6436767578125, "y": 133.9286346435547, "z": 207.68284606933594 }, "tsne_coordinates": { "x": 26.745668411254883, "y": -18.158321380615234, "z": 6.378479480743408 }, "pca_coordinates": { "x": 0.7813174724578857, "y": -1.9768500328063965, "z": 2.537562608718872 }, "axis_scores": { "Quantum imaging": 0.7372739911079407, "Quantum Life Science Sensing": 0.7320658564567566, "Quantum sensing Detection": 0.7415465712547302, "Quantum sensing Metrology": 0.7451763153076172, "Quantum sensing navigation": 0.7362980842590332, "Quantum sensing Position": 0.7438896894454956, "Quantum sensing Timing": 0.7092131972312927, "Quantum sensing": 0.7513606548309326, "Quantum control": 0.685761034488678 } }, { "id": 3643, "title": "Photonic band-gap effects on photoluminescence of silicon nanocrystals embedded in artificial opals", "abstract": "Si nanocrystals were formed in synthetic opals by Si-ion implantation and their optical properties studied using microphotoluminescence and reflection techniques. The properties of areas with high cry...", "citations": 29, "author_count": 9, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3649, "doi": "10.1063/1.1560565", "umap_coordinates": { "x": 392.9726257324219, "y": 133.453125, "z": 207.8599853515625 }, "tsne_coordinates": { "x": 34.17129135131836, "y": -15.877793312072754, "z": -4.9048943519592285 }, "pca_coordinates": { "x": 0.02037513256072998, "y": -3.3287158012390137, "z": 2.5246167182922363 }, "axis_scores": { "Quantum imaging": 0.7540202140808105, "Quantum Life Science Sensing": 0.73827064037323, "Quantum sensing Detection": 0.7385380268096924, "Quantum sensing Metrology": 0.7279847860336304, "Quantum sensing navigation": 0.7248415946960449, "Quantum sensing Position": 0.7034447193145752, "Quantum sensing Timing": 0.6924178004264832, "Quantum sensing": 0.7539018392562866, "Quantum control": 0.7078019380569458 } }, { "id": 3644, "title": "Unlocking the potential of photon counting detector CT for paediatric imaging: a pictorial essay", "abstract": "Recent advancements in CT technology have introduced a revolutionary innovation to practice known as the Photon-Counting detector (PCD) CT imaging. The pivotal hardware enhancement of the PCD-CT scann...", "citations": 9, "author_count": 11, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3650, "doi": "10.1093/bjro/tzae015", "umap_coordinates": { "x": 395.3805847167969, "y": 133.34169006347656, "z": 204.57266235351562 }, "tsne_coordinates": { "x": -2.1761839389801025, "y": 26.427980422973633, "z": -14.09067153930664 }, "pca_coordinates": { "x": -2.692668914794922, "y": 3.5357370376586914, "z": 1.1440255641937256 }, "axis_scores": { "Quantum imaging": 0.6968669891357422, "Quantum Life Science Sensing": 0.6849361062049866, "Quantum sensing Detection": 0.6591912508010864, "Quantum sensing Metrology": 0.6475063562393188, "Quantum sensing navigation": 0.6674933433532715, "Quantum sensing Position": 0.6580654978752136, "Quantum sensing Timing": 0.688622236251831, "Quantum sensing": 0.6675528287887573, "Quantum control": 0.6444750428199768 } }, { "id": 3645, "title": "Applications of Basis Light-Front Quantization to QED", "abstract": "Hamiltonian light-front quantum field theory provides a framework for calculating both static and dynamic properties of strongly interacting relativistic systems. Invariant masses, correlated parton a...", "citations": 10, "author_count": 7, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3651, "doi": "10.1016/j.nuclphysbps.2014.04.002", "umap_coordinates": { "x": 394.9258728027344, "y": 136.5399627685547, "z": 205.70114135742188 }, "tsne_coordinates": { "x": -23.351261138916016, "y": 26.128162384033203, "z": 15.145692825317383 }, "pca_coordinates": { "x": -0.757086992263794, "y": 0.889501690864563, "z": -1.013594150543213 }, "axis_scores": { "Quantum imaging": 0.7631867527961731, "Quantum Life Science Sensing": 0.7571492195129395, "Quantum sensing Detection": 0.7498811483383179, "Quantum sensing Metrology": 0.7268987894058228, "Quantum sensing navigation": 0.745930552482605, "Quantum sensing Position": 0.7353418469429016, "Quantum sensing Timing": 0.708326518535614, "Quantum sensing": 0.7561982274055481, "Quantum control": 0.7379648685455322 } }, { "id": 3646, "title": "Possibility to agree on disagree from quantum information and decision making", "abstract": "The celebrated Aumann theorem states that if two agents have common priors, and their posteriors for a given event E are common knowledge, then their posteriors must be equal; agents with the same pri...", "citations": 32, "author_count": 3, "categories": [ "Mathematics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3652, "doi": "10.1016/j.jmp.2014.09.003", "umap_coordinates": { "x": 395.56494140625, "y": 137.25802612304688, "z": 205.86265563964844 }, "tsne_coordinates": { "x": -27.051132202148438, "y": 11.943567276000977, "z": 18.422727584838867 }, "pca_coordinates": { "x": 1.2813830375671387, "y": 4.211235046386719, "z": -0.33613812923431396 }, "axis_scores": { "Quantum imaging": 0.7420065402984619, "Quantum Life Science Sensing": 0.742751955986023, "Quantum sensing Detection": 0.7590006589889526, "Quantum sensing Metrology": 0.7410269975662231, "Quantum sensing navigation": 0.7459098100662231, "Quantum sensing Position": 0.7450543642044067, "Quantum sensing Timing": 0.7121358513832092, "Quantum sensing": 0.7675611972808838, "Quantum control": 0.7399175763130188 } }, { "id": 3647, "title": "Sensitization Pathways in NIR-Emitting Yb(III) Complexes Bearing 0,+1,+2, or+3 Charges", "abstract": "Yb(III) complexes of macrocyclic ligands based on 1,4,7,10-tetraazacyclododecane were synthesized. The ligands carried a carbostyril chromophore for Yb(III) sensitization, and carboxylate or carbamide...", "citations": 15, "author_count": 8, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3653, "doi": "10.1021/jacs.2c05813", "umap_coordinates": { "x": 391.8428039550781, "y": 135.5369415283203, "z": 205.9589385986328 }, "tsne_coordinates": { "x": 10.531342506408691, "y": -15.405838966369629, "z": -24.130815505981445 }, "pca_coordinates": { "x": -1.5788413286209106, "y": -1.9053950309753418, "z": -1.256960391998291 }, "axis_scores": { "Quantum imaging": 0.70096755027771, "Quantum Life Science Sensing": 0.7065466046333313, "Quantum sensing Detection": 0.7046982645988464, "Quantum sensing Metrology": 0.6708883047103882, "Quantum sensing navigation": 0.6894909143447876, "Quantum sensing Position": 0.6654547452926636, "Quantum sensing Timing": 0.6913078427314758, "Quantum sensing": 0.701151967048645, "Quantum control": 0.6639928817749023 } }, { "id": 3648, "title": "First-Principle Quantum Modeling of Optical Power Limiting Materials", "abstract": "We highlight the course of development of a project initiated 1998 by the authors and concerned with quantum modeling of optical power limiting materials. The methodological development has involved v...", "citations": 9, "author_count": 3, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3654, "doi": "10.1166/jctn.2004.034", "umap_coordinates": { "x": 394.5508728027344, "y": 135.47259521484375, "z": 206.23365783691406 }, "tsne_coordinates": { "x": -11.705534934997559, "y": 11.234651565551758, "z": 6.071960926055908 }, "pca_coordinates": { "x": -0.689221203327179, "y": 0.6463509798049927, "z": 1.6501777172088623 }, "axis_scores": { "Quantum imaging": 0.7437747120857239, "Quantum Life Science Sensing": 0.7400349378585815, "Quantum sensing Detection": 0.7322781682014465, "Quantum sensing Metrology": 0.7289325594902039, "Quantum sensing navigation": 0.7176830768585205, "Quantum sensing Position": 0.7011169791221619, "Quantum sensing Timing": 0.7069063782691956, "Quantum sensing": 0.7434417605400085, "Quantum control": 0.7263524532318115 } }, { "id": 3649, "title": "Evaluation of a Second-Generation Ultra-Fast Energy-Resolved ASIC for Photon-Counting Spectral CT", "abstract": "A second-generation ultra-fast energy-resolved application specific integrated circuit (ASIC) has been developed for photon-counting spectral computed tomography (CT). The energy resolution, threshold...", "citations": 53, "author_count": 8, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3655, "doi": "10.1109/TNS.2012.2228276", "umap_coordinates": { "x": 394.8723449707031, "y": 132.80039978027344, "z": 205.8226318359375 }, "tsne_coordinates": { "x": -18.387367248535156, "y": 20.8845157623291, "z": -22.49308204650879 }, "pca_coordinates": { "x": -2.6240100860595703, "y": 0.12323641777038574, "z": 3.1149115562438965 }, "axis_scores": { "Quantum imaging": 0.7062682509422302, "Quantum Life Science Sensing": 0.7060511708259583, "Quantum sensing Detection": 0.6994969248771667, "Quantum sensing Metrology": 0.6761682033538818, "Quantum sensing navigation": 0.6667468547821045, "Quantum sensing Position": 0.6530109643936157, "Quantum sensing Timing": 0.7098276019096375, "Quantum sensing": 0.7020837664604187, "Quantum control": 0.6342303156852722 } }, { "id": 3650, "title": "Origin of conductance fluctuations in large circular quantum dots", "abstract": "The conductance of large circular quantum dots in high-mobility semiconductor materials displays oscillations as a function of both magnetic field and size. A simple tunneling model has been introduce...", "citations": 27, "author_count": 4, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3656, "doi": "10.1103/PhysRevB.54.11612", "umap_coordinates": { "x": 394.3353576660156, "y": 135.88677978515625, "z": 208.89218139648438 }, "tsne_coordinates": { "x": -6.897566795349121, "y": -33.614437103271484, "z": 5.411407947540283 }, "pca_coordinates": { "x": 3.748595714569092, "y": -1.749316692352295, "z": -1.6790850162506104 }, "axis_scores": { "Quantum imaging": 0.7141373753547668, "Quantum Life Science Sensing": 0.7598285675048828, "Quantum sensing Detection": 0.7542633414268494, "Quantum sensing Metrology": 0.7128391861915588, "Quantum sensing navigation": 0.747075617313385, "Quantum sensing Position": 0.7278494834899902, "Quantum sensing Timing": 0.7170554399490356, "Quantum sensing": 0.7590467929840088, "Quantum control": 0.75374436378479 } }, { "id": 3651, "title": "Ultrastable, high-repetition-rate attosecond beamline for time-resolved XUV-IR coincidence spectroscopy", "abstract": "The implementation of attosecond photoelectron-photoion coincidence spectroscopy for the investigation of atomic and molecular dynamics calls for a high-repetition-rate driving source combined with ex...", "citations": 9, "author_count": 16, "categories": [ "Instruments & Instrumentation" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3657, "doi": "10.1063/5.0139496", "umap_coordinates": { "x": 395.1750183105469, "y": 133.78981018066406, "z": 206.64369201660156 }, "tsne_coordinates": { "x": -24.852127075195312, "y": -4.534753322601318, "z": -25.210830688476562 }, "pca_coordinates": { "x": 0.46866703033447266, "y": 0.08682680130004883, "z": 2.4340262413024902 }, "axis_scores": { "Quantum imaging": 0.6868900656700134, "Quantum Life Science Sensing": 0.7071018218994141, "Quantum sensing Detection": 0.6818137764930725, "Quantum sensing Metrology": 0.6839467883110046, "Quantum sensing navigation": 0.6727801561355591, "Quantum sensing Position": 0.6801926493644714, "Quantum sensing Timing": 0.7295506000518799, "Quantum sensing": 0.6935925483703613, "Quantum control": 0.6619468331336975 } }, { "id": 3652, "title": "Drell-Yan process in pA collisions: Path-integral treatment of coherence effects", "abstract": "In this work, we investigate production of Drell-Yan (DY) pairs in proton-nucleus collisions in kinematic regions where the corresponding coherence length does not exceed the nuclear radius, R-A, and ...", "citations": 5, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3658, "doi": "10.1103/PhysRevD.94.114009", "umap_coordinates": { "x": 396.2845458984375, "y": 135.21726989746094, "z": 207.92996215820312 }, "tsne_coordinates": { "x": -41.186153411865234, "y": -17.8182430267334, "z": 3.3166961669921875 }, "pca_coordinates": { "x": 3.156411647796631, "y": 1.8859244585037231, "z": 1.3129627704620361 }, "axis_scores": { "Quantum imaging": 0.721391499042511, "Quantum Life Science Sensing": 0.7008132338523865, "Quantum sensing Detection": 0.697941243648529, "Quantum sensing Metrology": 0.6741083860397339, "Quantum sensing navigation": 0.7193963527679443, "Quantum sensing Position": 0.6822850704193115, "Quantum sensing Timing": 0.6898514628410339, "Quantum sensing": 0.7012355327606201, "Quantum control": 0.6957088708877563 } }, { "id": 3653, "title": "Photon counting, dual energy X-ray imaging at CT count rates: measurements and implications of in-pixel charge sharing correction", "abstract": "In photon counting detectors with small pixels, charge sharing has a significant effect on the spectral response and on the image quality. A charge can be shared between pixels for two main reasons; a...", "citations": 16, "author_count": 6, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3659, "doi": "10.1117/12.2293591", "umap_coordinates": { "x": 395.57427978515625, "y": 132.6416778564453, "z": 205.52322387695312 }, "tsne_coordinates": { "x": -5.681249141693115, "y": 21.779216766357422, "z": -21.733617782592773 }, "pca_coordinates": { "x": -1.9807066917419434, "y": 2.6208488941192627, "z": 3.818416118621826 }, "axis_scores": { "Quantum imaging": 0.7291998267173767, "Quantum Life Science Sensing": 0.6909791231155396, "Quantum sensing Detection": 0.7096046805381775, "Quantum sensing Metrology": 0.7004762291908264, "Quantum sensing navigation": 0.6867854595184326, "Quantum sensing Position": 0.7004988789558411, "Quantum sensing Timing": 0.7253058552742004, "Quantum sensing": 0.70977783203125, "Quantum control": 0.6681380271911621 } }, { "id": 3654, "title": "Quantum Metal-Organic Frameworks", "abstract": "Quantum materials and metal-organic framework (MOFs) materials describe two attractive research areas in physics and chemistry. Yet, with very few exceptions, these fields have been developed with lit...", "citations": 3, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3660, "doi": "10.1002/smsc.202400161", "umap_coordinates": { "x": 393.6784973144531, "y": 136.3702392578125, "z": 205.66455078125 }, "tsne_coordinates": { "x": 23.870208740234375, "y": 10.342028617858887, "z": 5.955566883087158 }, "pca_coordinates": { "x": -0.5297107696533203, "y": -1.0874037742614746, "z": -2.498161554336548 }, "axis_scores": { "Quantum imaging": 0.7766658663749695, "Quantum Life Science Sensing": 0.7824528217315674, "Quantum sensing Detection": 0.7797905802726746, "Quantum sensing Metrology": 0.7795931100845337, "Quantum sensing navigation": 0.7754125595092773, "Quantum sensing Position": 0.7342749834060669, "Quantum sensing Timing": 0.7311322689056396, "Quantum sensing": 0.7976245284080505, "Quantum control": 0.7822685241699219 } }, { "id": 3655, "title": "PREQUANTUM CLASSICAL STATISTICAL FIELD THEORY: DERIVATION OF GAUSSIANITY OF PROBABILITY DISTRIBUTIONS", "abstract": "We developed a purely field model of microphenomena - prequantum classical statistical field theory (PCSFT). This model reproduces important probabilistic predictions of QM including correlations for ...", "citations": 1, "author_count": 2, "categories": [ "Mathematics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3661, "doi": null, "umap_coordinates": { "x": 392.16888427734375, "y": 139.55160522460938, "z": 209.38340759277344 }, "tsne_coordinates": { "x": -8.197463035583496, "y": 42.27785110473633, "z": -0.2112894505262375 }, "pca_coordinates": { "x": 0.4481877088546753, "y": 5.530898094177246, "z": -2.4224088191986084 }, "axis_scores": { "Quantum imaging": 0.7492343783378601, "Quantum Life Science Sensing": 0.7534884214401245, "Quantum sensing Detection": 0.7587804198265076, "Quantum sensing Metrology": 0.7449184060096741, "Quantum sensing navigation": 0.7579628229141235, "Quantum sensing Position": 0.7253327369689941, "Quantum sensing Timing": 0.7026026844978333, "Quantum sensing": 0.7643120884895325, "Quantum control": 0.7630207538604736 } }, { "id": 3656, "title": "Nonequilibrium Green's Function Model for Simulation of Quantum Cascade Laser Devices Under Operating Conditions", "abstract": "A simulation scheme based on nonequilibrium Green's functions for biased periodic semiconductor heterostructure devices is presented in detail. The implementation can determine current and optical gai...", "citations": 103, "author_count": 4, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3662, "doi": "10.1109/JSTQE.2013.2239613", "umap_coordinates": { "x": 394.373046875, "y": 134.95713806152344, "z": 206.51052856445312 }, "tsne_coordinates": { "x": -14.421671867370605, "y": 5.826425075531006, "z": 5.891839981079102 }, "pca_coordinates": { "x": 0.915069580078125, "y": -0.11291050910949707, "z": -0.6456904411315918 }, "axis_scores": { "Quantum imaging": 0.7273829579353333, "Quantum Life Science Sensing": 0.7592908143997192, "Quantum sensing Detection": 0.7325180768966675, "Quantum sensing Metrology": 0.7191975712776184, "Quantum sensing navigation": 0.7284427285194397, "Quantum sensing Position": 0.6977905035018921, "Quantum sensing Timing": 0.7147483825683594, "Quantum sensing": 0.737880527973175, "Quantum control": 0.7300699353218079 } }, { "id": 3657, "title": "Picosecond and steady-state emission of [Ru(phen)2dppz]2+ in glycerol:: Anomalous temperature dependence", "abstract": "The excited-state deactivation of the light-switch compound [Ru(phen)(2)dppz](2+), where phen = 1,10-phenanthroline and dppz = dipyrido[3,2-a:2',3'-c]phenazine, has been investigated in glycerol using...", "citations": 64, "author_count": 5, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3663, "doi": "10.1021/jp0269266", "umap_coordinates": { "x": 391.9256286621094, "y": 136.3272247314453, "z": 205.31143188476562 }, "tsne_coordinates": { "x": -2.4220662117004395, "y": -20.898250579833984, "z": -27.102323532104492 }, "pca_coordinates": { "x": -1.2473853826522827, "y": -0.0755155086517334, "z": -2.545874834060669 }, "axis_scores": { "Quantum imaging": 0.703059196472168, "Quantum Life Science Sensing": 0.721387505531311, "Quantum sensing Detection": 0.6898002028465271, "Quantum sensing Metrology": 0.6752749085426331, "Quantum sensing navigation": 0.6818943023681641, "Quantum sensing Position": 0.6798862814903259, "Quantum sensing Timing": 0.6847710609436035, "Quantum sensing": 0.6999396681785583, "Quantum control": 0.6938772201538086 } }, { "id": 3658, "title": "Waveguiding properties of surface states in photonic crystals", "abstract": "We propose and analyze novel surface-state-based waveguides in bandgap photonic crystals. We discuss the surface-mode band structure, the field localization, and the effect of imperfections on the wav...", "citations": 41, "author_count": 3, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3664, "doi": "10.1364/JOSAB.23.001679", "umap_coordinates": { "x": 393.7945556640625, "y": 134.4894561767578, "z": 206.81304931640625 }, "tsne_coordinates": { "x": -1.1376959085464478, "y": -12.689178466796875, "z": -27.03127670288086 }, "pca_coordinates": { "x": 1.1138949394226074, "y": -2.2477288246154785, "z": 0.8314835429191589 }, "axis_scores": { "Quantum imaging": 0.7368627190589905, "Quantum Life Science Sensing": 0.7110698819160461, "Quantum sensing Detection": 0.7153161764144897, "Quantum sensing Metrology": 0.7266950011253357, "Quantum sensing navigation": 0.7293283939361572, "Quantum sensing Position": 0.7035667300224304, "Quantum sensing Timing": 0.6922909617424011, "Quantum sensing": 0.7327244281768799, "Quantum control": 0.7017309069633484 } }, { "id": 3659, "title": "Subsurface condensation of potassium for K/graphite - art. no. 153401", "abstract": "Photoemission from quantum well states show that K films can be grown nearly layer by atomic layer on a cooled graphite substrate. The data also indicate that this growth is preceded by the formation ...", "citations": 17, "author_count": 5, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3665, "doi": "10.1103/PhysRevB.66.153401", "umap_coordinates": { "x": 395.0326232910156, "y": 136.25534057617188, "z": 208.97389221191406 }, "tsne_coordinates": { "x": 5.767639636993408, "y": -39.93608856201172, "z": -1.9408825635910034 }, "pca_coordinates": { "x": 4.088346481323242, "y": 0.7562308311462402, "z": -0.9595140218734741 }, "axis_scores": { "Quantum imaging": 0.6761419177055359, "Quantum Life Science Sensing": 0.7140403389930725, "Quantum sensing Detection": 0.6856746673583984, "Quantum sensing Metrology": 0.6743060350418091, "Quantum sensing navigation": 0.7045888900756836, "Quantum sensing Position": 0.6627150774002075, "Quantum sensing Timing": 0.6520780324935913, "Quantum sensing": 0.6914092898368835, "Quantum control": 0.6463468670845032 } }, { "id": 3660, "title": "Photophysical Integrity of the Iron(III) Scorpionate Framework in Iron(III)-NHC Complexes with Long-Lived 2LMCT Excited States", "abstract": "Fe(III) complexes with N-heterocyclic carbene (NHC) ligands belong to the rare examples of Earth-abundant transition metal complexes with long-lived luminescent charge-transfer excited states that ena...", "citations": 35, "author_count": 21, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3666, "doi": "10.1021/acs.inorgchem.2c02410", "umap_coordinates": { "x": 392.2414245605469, "y": 136.41307067871094, "z": 205.2454833984375 }, "tsne_coordinates": { "x": 7.452013969421387, "y": -0.31607893109321594, "z": 1.4586447477340698 }, "pca_coordinates": { "x": -3.4986939430236816, "y": -0.7839930057525635, "z": -3.1576600074768066 }, "axis_scores": { "Quantum imaging": 0.7016410827636719, "Quantum Life Science Sensing": 0.7465487718582153, "Quantum sensing Detection": 0.6828792691230774, "Quantum sensing Metrology": 0.6705280542373657, "Quantum sensing navigation": 0.6559417843818665, "Quantum sensing Position": 0.6503151059150696, "Quantum sensing Timing": 0.6396977305412292, "Quantum sensing": 0.6985681056976318, "Quantum control": 0.6683263778686523 } }, { "id": 3661, "title": "A Framework for Evaluating Threshold Variation Compensation Methods in Photon Counting Spectral CT", "abstract": "One of the challenges in the development of photon counting spectral computed tomography (CT) detectors is that the location of the energy thresholds tends to vary among detector elements. If not comp...", "citations": 27, "author_count": 3, "categories": [ "Computer Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3667, "doi": "10.1109/TMI.2012.2204274", "umap_coordinates": { "x": 395.2602233886719, "y": 132.42288208007812, "z": 205.46119689941406 }, "tsne_coordinates": { "x": -14.012361526489258, "y": 15.159392356872559, "z": -19.698612213134766 }, "pca_coordinates": { "x": -3.154874801635742, "y": 2.625495195388794, "z": 2.7209959030151367 }, "axis_scores": { "Quantum imaging": 0.7324956655502319, "Quantum Life Science Sensing": 0.7023334503173828, "Quantum sensing Detection": 0.7096248269081116, "Quantum sensing Metrology": 0.7111386060714722, "Quantum sensing navigation": 0.6852610111236572, "Quantum sensing Position": 0.6819795370101929, "Quantum sensing Timing": 0.7316794395446777, "Quantum sensing": 0.7116965651512146, "Quantum control": 0.6742801070213318 } }, { "id": 3662, "title": "Cascaded systems analysis of photon counting detectors", "abstract": "Purpose: Photon counting detectors (PCDs) are an emerging technology with applications in spectral and low-dose radiographic and tomographic imaging. This paper develops an analytical model of PCD ima...", "citations": 58, "author_count": 10, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3668, "doi": "10.1118/1.4894733", "umap_coordinates": { "x": 395.5069580078125, "y": 133.18521118164062, "z": 206.38600158691406 }, "tsne_coordinates": { "x": -13.32452392578125, "y": 17.503965377807617, "z": -29.136377334594727 }, "pca_coordinates": { "x": 0.7568128108978271, "y": 0.9768049716949463, "z": 3.0266757011413574 }, "axis_scores": { "Quantum imaging": 0.7770448923110962, "Quantum Life Science Sensing": 0.763709306716919, "Quantum sensing Detection": 0.7960110902786255, "Quantum sensing Metrology": 0.7476222515106201, "Quantum sensing navigation": 0.7446104884147644, "Quantum sensing Position": 0.7166454792022705, "Quantum sensing Timing": 0.7296130657196045, "Quantum sensing": 0.780391275882721, "Quantum control": 0.7289051413536072 } }, { "id": 3663, "title": "On the ground state for quantum graphs", "abstract": "Ground-state eigenfunctions of Schrodinger operators can often be chosen positive. We analyse to which extent this is true for quantum graphs-differential operators on metric graphs. It is shown that ...", "citations": 20, "author_count": 2, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3669, "doi": "10.1007/s11005-019-01192-w", "umap_coordinates": { "x": 394.6009826660156, "y": 137.267578125, "z": 206.5293731689453 }, "tsne_coordinates": { "x": -39.1124382019043, "y": -2.9233853816986084, "z": 16.399450302124023 }, "pca_coordinates": { "x": 2.2620041370391846, "y": 0.9815514087677002, "z": -0.9362263679504395 }, "axis_scores": { "Quantum imaging": 0.6631305813789368, "Quantum Life Science Sensing": 0.6794250011444092, "Quantum sensing Detection": 0.6782025098800659, "Quantum sensing Metrology": 0.6706560254096985, "Quantum sensing navigation": 0.6853659749031067, "Quantum sensing Position": 0.67806476354599, "Quantum sensing Timing": 0.6513157486915588, "Quantum sensing": 0.6795801520347595, "Quantum control": 0.6722492575645447 } }, { "id": 3664, "title": "Photonic crystal optical filter based on contra-directional waveguide coupling", "abstract": "Wavelength-selective operation of an optical filter (add/drop) based on a contra-directional photonic crystal waveguide coupler is demonstrated. The waveguides are defined as line defects in a two-dim...", "citations": 82, "author_count": 9, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3670, "doi": "10.1063/1.1634373", "umap_coordinates": { "x": 393.85491943359375, "y": 133.99913024902344, "z": 207.3668212890625 }, "tsne_coordinates": { "x": 16.554819107055664, "y": -25.336166381835938, "z": -21.49561882019043 }, "pca_coordinates": { "x": 0.6719939708709717, "y": -0.8346471786499023, "z": 2.4312186241149902 }, "axis_scores": { "Quantum imaging": 0.7292231321334839, "Quantum Life Science Sensing": 0.7150052189826965, "Quantum sensing Detection": 0.7389435172080994, "Quantum sensing Metrology": 0.7311011552810669, "Quantum sensing navigation": 0.7381693720817566, "Quantum sensing Position": 0.6970996856689453, "Quantum sensing Timing": 0.6822410821914673, "Quantum sensing": 0.7446208000183105, "Quantum control": 0.7425934076309204 } }, { "id": 3665, "title": "Energy levels of hydrogen atom in discrete time dynamics", "abstract": "We analyze dynamical consequences of a conjecture that there exists a fundamental (indivisible) quant of time. In particular we study the problem of discrete energy levels of hydrogen atom. We are abl...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3671, "doi": null, "umap_coordinates": { "x": 392.0496826171875, "y": 139.16664123535156, "z": 208.96339416503906 }, "tsne_coordinates": { "x": -16.454416275024414, "y": 45.73492431640625, "z": -2.6003310680389404 }, "pca_coordinates": { "x": 3.005128860473633, "y": 3.234107255935669, "z": -4.741815567016602 }, "axis_scores": { "Quantum imaging": 0.7167864441871643, "Quantum Life Science Sensing": 0.7304298281669617, "Quantum sensing Detection": 0.7025097608566284, "Quantum sensing Metrology": 0.6704117059707642, "Quantum sensing navigation": 0.7102046608924866, "Quantum sensing Position": 0.7031124234199524, "Quantum sensing Timing": 0.7201962471008301, "Quantum sensing": 0.7068166732788086, "Quantum control": 0.7172755002975464 } }, { "id": 3666, "title": "Kochen-Specker set with seven contexts", "abstract": "The Kochen-Specker (KS) theorem is a central result in quantum theory and has applications in quantum information. Its proof requires several yes-no tests that can be grouped in contexts or subsets of...", "citations": 39, "author_count": 5, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3672, "doi": "10.1103/PhysRevA.89.042101", "umap_coordinates": { "x": 395.62396240234375, "y": 137.56736755371094, "z": 207.04098510742188 }, "tsne_coordinates": { "x": -17.21170997619629, "y": 1.6282026767730713, "z": 8.620718002319336 }, "pca_coordinates": { "x": 2.4669861793518066, "y": 3.2619311809539795, "z": 0.6527366042137146 }, "axis_scores": { "Quantum imaging": 0.6737928986549377, "Quantum Life Science Sensing": 0.6900525689125061, "Quantum sensing Detection": 0.674055814743042, "Quantum sensing Metrology": 0.6646443009376526, "Quantum sensing navigation": 0.6688041687011719, "Quantum sensing Position": 0.6597344279289246, "Quantum sensing Timing": 0.6756608486175537, "Quantum sensing": 0.6843354105949402, "Quantum control": 0.6640164852142334 } }, { "id": 3667, "title": "Quantum memories", "abstract": "We perform a review of various approaches to the implementation of quantum memories, with an emphasis on activities within the quantum memory sub-project of the EU integrated project Qubit Application...", "citations": 479, "author_count": 25, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3673, "doi": "10.1140/epjd/e2010-00103-y", "umap_coordinates": { "x": 395.28924560546875, "y": 136.37118530273438, "z": 206.52459716796875 }, "tsne_coordinates": { "x": -26.781421661376953, "y": 9.661914825439453, "z": 1.9150141477584839 }, "pca_coordinates": { "x": 1.7510089874267578, "y": 1.4452122449874878, "z": -0.20312225818634033 }, "axis_scores": { "Quantum imaging": 0.7663514018058777, "Quantum Life Science Sensing": 0.7530938982963562, "Quantum sensing Detection": 0.7542816996574402, "Quantum sensing Metrology": 0.7267884612083435, "Quantum sensing navigation": 0.7483376860618591, "Quantum sensing Position": 0.7292070388793945, "Quantum sensing Timing": 0.7362694144248962, "Quantum sensing": 0.7683558464050293, "Quantum control": 0.7580615878105164 } }, { "id": 3668, "title": "Dynamics of a LC shunted YBa2Cu3O7-δ Josephson junction", "abstract": "We have measured the energy level separation from the ground state to the first excited state in a high critical temperature superconductor d-wave Josephson junction. We observe that the bias current ...", "citations": 6, "author_count": 9, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3674, "doi": "10.1109/TASC.2007.898246", "umap_coordinates": { "x": 394.133544921875, "y": 135.08018493652344, "z": 207.83538818359375 }, "tsne_coordinates": { "x": -0.5019232034683228, "y": -18.63190269470215, "z": 15.614367485046387 }, "pca_coordinates": { "x": 0.8126564025878906, "y": -1.2967333793640137, "z": -0.6134916543960571 }, "axis_scores": { "Quantum imaging": 0.6784728765487671, "Quantum Life Science Sensing": 0.6889947652816772, "Quantum sensing Detection": 0.6749478578567505, "Quantum sensing Metrology": 0.6505969166755676, "Quantum sensing navigation": 0.6934661865234375, "Quantum sensing Position": 0.6732683777809143, "Quantum sensing Timing": 0.693042516708374, "Quantum sensing": 0.6827497482299805, "Quantum control": 0.7044328451156616 } }, { "id": 3669, "title": "Robust nanosized transistor effect in fullerene-tube heterostructure", "abstract": "A fullerene-tube heterostructure should produce a compact resonant-tunneling system, when a nanometer section of non-conducting nanotube separates a pair of metallic-nanotubes leads. Adding a set of m...", "citations": 18, "author_count": 3, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3675, "doi": "10.1016/S0038-1098(00)00377-X", "umap_coordinates": { "x": 392.58660888671875, "y": 134.29254150390625, "z": 206.13807678222656 }, "tsne_coordinates": { "x": 18.33779525756836, "y": -8.779708862304688, "z": 26.1600399017334 }, "pca_coordinates": { "x": -1.2436472177505493, "y": -2.072460651397705, "z": -0.06631410121917725 }, "axis_scores": { "Quantum imaging": 0.6993736028671265, "Quantum Life Science Sensing": 0.7286008596420288, "Quantum sensing Detection": 0.6936061382293701, "Quantum sensing Metrology": 0.6721987724304199, "Quantum sensing navigation": 0.6909304261207581, "Quantum sensing Position": 0.6723777651786804, "Quantum sensing Timing": 0.662310004234314, "Quantum sensing": 0.7135366201400757, "Quantum control": 0.696444034576416 } }, { "id": 3670, "title": "Effect of Temperature Variation on the Energy Response of a Photon Counting Silicon CT Detector", "abstract": "The effect of temperature variation on pulse height determination accuracy is determined for a photon counting multibin silicon detector developed for spectral CT. Theoretical predictions of the tempe...", "citations": 12, "author_count": 7, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3676, "doi": "10.1109/TNS.2013.2244909", "umap_coordinates": { "x": 394.7497253417969, "y": 132.88804626464844, "z": 205.8962860107422 }, "tsne_coordinates": { "x": -16.800254821777344, "y": 18.066686630249023, "z": -19.682849884033203 }, "pca_coordinates": { "x": -1.249117374420166, "y": 0.9045075178146362, "z": 2.9312970638275146 }, "axis_scores": { "Quantum imaging": 0.7477521300315857, "Quantum Life Science Sensing": 0.7589088082313538, "Quantum sensing Detection": 0.7656879425048828, "Quantum sensing Metrology": 0.7411155700683594, "Quantum sensing navigation": 0.7332268953323364, "Quantum sensing Position": 0.7377567887306213, "Quantum sensing Timing": 0.7735816836357117, "Quantum sensing": 0.7634235620498657, "Quantum control": 0.7093807458877563 } }, { "id": 3671, "title": "DIURNAL-VARIATIONS IN LUMINESCENCE IN SCENEDESMUS-OBTUSIUSCULUS (CHLOROPHYCEAE) INDUCED BY 3-(3,4-DICHLOROPHENYL)-1,1-DIMETHYLUREA", "abstract": "Luminescence from synchronously cultured S. obtusiusculus cells was measured with a high sensitivity photon counter. Recording of light emission was initiated 0.2 s after switching off actinic light. ...", "citations": 5, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1984, "topic": [ "all" ], "embedding_index": 3677, "doi": "10.1111/j.1751-1097.1984.tb08865.x", "umap_coordinates": { "x": 394.2128601074219, "y": 135.6264190673828, "z": 204.0345458984375 }, "tsne_coordinates": { "x": 5.488121509552002, "y": 32.85819625854492, "z": 16.3486385345459 }, "pca_coordinates": { "x": -2.133497476577759, "y": 0.7598046064376831, "z": -0.6158312559127808 }, "axis_scores": { "Quantum imaging": 0.6973650455474854, "Quantum Life Science Sensing": 0.7106781005859375, "Quantum sensing Detection": 0.7011952996253967, "Quantum sensing Metrology": 0.6989002823829651, "Quantum sensing navigation": 0.68231201171875, "Quantum sensing Position": 0.6672143936157227, "Quantum sensing Timing": 0.7032385468482971, "Quantum sensing": 0.7055007815361023, "Quantum control": 0.6970740556716919 } }, { "id": 3672, "title": "Ultrafast photoisomerization of pinacyanol: watching an excited state reaction transiting from barrier to barrierless forms", "abstract": "Photoisomerization of 1,1'-diethyl-2,2'-carbocyanine iodide (pinacyanol) in alcohols was investigated by means of femtosecond time-resolved absorption spectroscopy. Only one out of two possible types ...", "citations": 8, "author_count": 3, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3678, "doi": "10.1039/c6ra03299k", "umap_coordinates": { "x": 392.6341857910156, "y": 136.25369262695312, "z": 205.59483337402344 }, "tsne_coordinates": { "x": 1.32682466506958, "y": 3.4734549522399902, "z": -5.010197639465332 }, "pca_coordinates": { "x": -1.3573870658874512, "y": 0.9738113880157471, "z": -2.2681970596313477 }, "axis_scores": { "Quantum imaging": 0.7052881717681885, "Quantum Life Science Sensing": 0.7273896336555481, "Quantum sensing Detection": 0.6950323581695557, "Quantum sensing Metrology": 0.6738971471786499, "Quantum sensing navigation": 0.675814688205719, "Quantum sensing Position": 0.6628862023353577, "Quantum sensing Timing": 0.6668891310691833, "Quantum sensing": 0.7054897546768188, "Quantum control": 0.6917508840560913 } }, { "id": 3673, "title": "Observation of ballistic upstream modes at fractional quantum Hall edges of graphene", "abstract": "Recently graphene has emerged as a new platform for the study of quantum Hall states. Here, by means of noise measurements, the authors report evidence for the existence of the upstream mode and its b...", "citations": 36, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3679, "doi": "10.1038/s41467-021-27805-4", "umap_coordinates": { "x": 393.7657775878906, "y": 136.27085876464844, "z": 207.37222290039062 }, "tsne_coordinates": { "x": 8.189664840698242, "y": -8.724347114562988, "z": 23.679529190063477 }, "pca_coordinates": { "x": 2.6387476921081543, "y": 0.30613279342651367, "z": 0.07845807075500488 }, "axis_scores": { "Quantum imaging": 0.7259200811386108, "Quantum Life Science Sensing": 0.7249718904495239, "Quantum sensing Detection": 0.7246558666229248, "Quantum sensing Metrology": 0.7094211578369141, "Quantum sensing navigation": 0.7261624932289124, "Quantum sensing Position": 0.7195446491241455, "Quantum sensing Timing": 0.6978307366371155, "Quantum sensing": 0.7296905517578125, "Quantum control": 0.6819911003112793 } }, { "id": 3674, "title": "The First Branching Point in Porphyrin Biosynthesis: A Systematic Docking, Molecular Dynamics and Quantum Mechanical/Molecular Mechanical Study of Substrate Binding and Mechanism of Uroporphyrinogen-III Decarboxylase", "abstract": "In humans, uroporphyrinogen decarboxylase is intimately involved in the synthesis of heme, where the decarboxylation of the uroporphyrinogen-III occurs in a single catalytic site. Several variants of ...", "citations": 18, "author_count": 6, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3680, "doi": "10.1002/jcc.21661", "umap_coordinates": { "x": 393.23828125, "y": 137.3110809326172, "z": 205.2906951904297 }, "tsne_coordinates": { "x": -2.8716163635253906, "y": 10.295658111572266, "z": 25.922025680541992 }, "pca_coordinates": { "x": -0.9488339424133301, "y": 2.0085642337799072, "z": -2.065718412399292 }, "axis_scores": { "Quantum imaging": 0.7016505599021912, "Quantum Life Science Sensing": 0.7112972736358643, "Quantum sensing Detection": 0.6988431215286255, "Quantum sensing Metrology": 0.6806362271308899, "Quantum sensing navigation": 0.7102872729301453, "Quantum sensing Position": 0.7123278975486755, "Quantum sensing Timing": 0.7106297612190247, "Quantum sensing": 0.7007002234458923, "Quantum control": 0.7007879614830017 } }, { "id": 3675, "title": "First-principles investigation of the quantum-well system Na on Cu(111)", "abstract": "The alkali-metal adsorption system Na on Cu(111) has been investigated theoretically in order to clarify the possible presence of quantum-well states observed in photoemission experiments. We analyze ...", "citations": 92, "author_count": 3, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3681, "doi": "10.1103/PhysRevB.61.13973", "umap_coordinates": { "x": 393.8221130371094, "y": 135.0889434814453, "z": 209.2921905517578 }, "tsne_coordinates": { "x": 8.666407585144043, "y": -39.12748718261719, "z": -4.210569858551025 }, "pca_coordinates": { "x": 2.79238224029541, "y": -1.731947422027588, "z": 0.6652819514274597 }, "axis_scores": { "Quantum imaging": 0.7120317220687866, "Quantum Life Science Sensing": 0.7268297672271729, "Quantum sensing Detection": 0.7304948568344116, "Quantum sensing Metrology": 0.7062707543373108, "Quantum sensing navigation": 0.7296671867370605, "Quantum sensing Position": 0.6984664797782898, "Quantum sensing Timing": 0.6743295192718506, "Quantum sensing": 0.7327176332473755, "Quantum control": 0.6952841281890869 } }, { "id": 3676, "title": "Evaluation of a Micro-Channel Plate PMT in PET", "abstract": "The focus of this paper is the evaluation of micro-channel plate PMTs for PET detectors. Several properties of MCPs make them interesting for PET applications, such as fast time response, high spatial...", "citations": 3, "author_count": 5, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3682, "doi": null, "umap_coordinates": { "x": 391.305908203125, "y": 139.07565307617188, "z": 209.4499053955078 }, "tsne_coordinates": { "x": -1.519751787185669, "y": 38.940406799316406, "z": -6.948418617248535 }, "pca_coordinates": { "x": -4.1944732666015625, "y": 3.9973838329315186, "z": 1.0999081134796143 }, "axis_scores": { "Quantum imaging": 0.7265127897262573, "Quantum Life Science Sensing": 0.695588231086731, "Quantum sensing Detection": 0.7068487405776978, "Quantum sensing Metrology": 0.715625524520874, "Quantum sensing navigation": 0.6916028261184692, "Quantum sensing Position": 0.7111132144927979, "Quantum sensing Timing": 0.6985236406326294, "Quantum sensing": 0.710788369178772, "Quantum control": 0.6891286373138428 } }, { "id": 3677, "title": "Tripartite composite fermion states", "abstract": "The Read-Rezayi wave function is one of the candidates for the fractional quantum Hall effect at filling fraction nu = 2 + (3/5), and thereby also its hole conjugate at 2 + (2/5). We study a general c...", "citations": 31, "author_count": 5, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3683, "doi": "10.1103/PhysRevB.87.245125", "umap_coordinates": { "x": 395.29156494140625, "y": 136.64955139160156, "z": 208.7317352294922 }, "tsne_coordinates": { "x": -17.147014617919922, "y": -14.015890121459961, "z": 2.051539897918701 }, "pca_coordinates": { "x": 3.8815741539001465, "y": -0.7593951225280762, "z": -0.3919453024864197 }, "axis_scores": { "Quantum imaging": 0.7585543394088745, "Quantum Life Science Sensing": 0.750609815120697, "Quantum sensing Detection": 0.7482572793960571, "Quantum sensing Metrology": 0.735256016254425, "Quantum sensing navigation": 0.7397962212562561, "Quantum sensing Position": 0.7053691148757935, "Quantum sensing Timing": 0.7144623398780823, "Quantum sensing": 0.7648845911026001, "Quantum control": 0.7341498136520386 } }, { "id": 3678, "title": "Ultra-compact optical filter in two-dimensional photonic crystal", "abstract": "A design of an ultra-compact in-plane optical add/drop filter is proposed. The filter is formed by two waveguides and one two-mode cavity in a two-dimensional triangular photonic crystal. The simulate...", "citations": 18, "author_count": 2, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3684, "doi": "10.1049/el:20040362", "umap_coordinates": { "x": 394.0222473144531, "y": 133.813232421875, "z": 206.6090545654297 }, "tsne_coordinates": { "x": 6.618858814239502, "y": -11.472636222839355, "z": -31.373313903808594 }, "pca_coordinates": { "x": -0.6343088150024414, "y": -1.578132152557373, "z": 0.8692039847373962 }, "axis_scores": { "Quantum imaging": 0.7392655611038208, "Quantum Life Science Sensing": 0.7290564775466919, "Quantum sensing Detection": 0.7317590713500977, "Quantum sensing Metrology": 0.7152002453804016, "Quantum sensing navigation": 0.721548318862915, "Quantum sensing Position": 0.7025216817855835, "Quantum sensing Timing": 0.6849326491355896, "Quantum sensing": 0.7375640869140625, "Quantum control": 0.7193276882171631 } }, { "id": 3679, "title": "Full Lagrangian and Hamiltonian for quantum strings on AdS4 x CP3 in a near plane wave limit", "abstract": "We find the full interacting Lagrangian and Hamiltonian for quantum strings in a near plane wave limit of AdS(4) x CP3. The leading curvature corrections give rise to cubic and quartic terms in the La...", "citations": 19, "author_count": 6, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3685, "doi": "10.1007/JHEP04(2010)079", "umap_coordinates": { "x": 396.6395568847656, "y": 135.36807250976562, "z": 207.09326171875 }, "tsne_coordinates": { "x": -38.8584098815918, "y": 12.753656387329102, "z": 1.8160412311553955 }, "pca_coordinates": { "x": 2.2335171699523926, "y": 1.34633207321167, "z": -0.8213316202163696 }, "axis_scores": { "Quantum imaging": 0.6984544992446899, "Quantum Life Science Sensing": 0.7063710689544678, "Quantum sensing Detection": 0.672600269317627, "Quantum sensing Metrology": 0.6543235778808594, "Quantum sensing navigation": 0.6870301365852356, "Quantum sensing Position": 0.6780692338943481, "Quantum sensing Timing": 0.6632192730903625, "Quantum sensing": 0.6880162358283997, "Quantum control": 0.6885343194007874 } }, { "id": 3680, "title": "Design of xanthone propionate photolabile protecting group releasing acyclovir for the treatment of ocular herpes simplex virus", "abstract": "We have attached the antiviral drug acyclovir (ACV) to a xanthone photolabile protecting group (or photocage) through the O6 position of acyclovir, a procedure designed for the treatment of ocular her...", "citations": 10, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3686, "doi": "10.1039/c2pp05311j", "umap_coordinates": { "x": 392.7229309082031, "y": 135.44314575195312, "z": 204.2662353515625 }, "tsne_coordinates": { "x": 5.593944072723389, "y": 17.917387008666992, "z": -3.3502347469329834 }, "pca_coordinates": { "x": -3.6422243118286133, "y": 0.552515983581543, "z": -2.061849594116211 }, "axis_scores": { "Quantum imaging": 0.6379088163375854, "Quantum Life Science Sensing": 0.6651430726051331, "Quantum sensing Detection": 0.6194043159484863, "Quantum sensing Metrology": 0.6154234409332275, "Quantum sensing navigation": 0.6265918612480164, "Quantum sensing Position": 0.6432561278343201, "Quantum sensing Timing": 0.6340171694755554, "Quantum sensing": 0.6408059597015381, "Quantum control": 0.6903669834136963 } }, { "id": 3681, "title": "Diverse Applications of Nanomedicine", "abstract": "The design and use of materials in the nanoscale size range for addressing medical and health-related issues continues to receive increasing interest. Research in nanomedicine spans a multitude of are...", "citations": 1130, "author_count": 87, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3687, "doi": "10.1021/acsnano.6b06040", "umap_coordinates": { "x": 393.6867980957031, "y": 133.81105041503906, "z": 204.16712951660156 }, "tsne_coordinates": { "x": 18.359102249145508, "y": 25.582538604736328, "z": -3.151994228363037 }, "pca_coordinates": { "x": -4.563172817230225, "y": -0.7957866191864014, "z": -0.594965398311615 }, "axis_scores": { "Quantum imaging": 0.7311965823173523, "Quantum Life Science Sensing": 0.7464017868041992, "Quantum sensing Detection": 0.7069671154022217, "Quantum sensing Metrology": 0.7117376327514648, "Quantum sensing navigation": 0.7126249074935913, "Quantum sensing Position": 0.6837937831878662, "Quantum sensing Timing": 0.6639757752418518, "Quantum sensing": 0.7240957021713257, "Quantum control": 0.6908053159713745 } }, { "id": 3682, "title": "Quantum Versus Classical Entanglement: Eliminating the Issue of Quantum Nonlocality", "abstract": "We analyze the interrelation of quantum and classical entanglement. The latter notion is widely used in classical optic simulation of some quantum-like features of light. We criticize the common inter...", "citations": 31, "author_count": 2, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3688, "doi": "10.1007/s10701-020-00319-7", "umap_coordinates": { "x": 395.62774658203125, "y": 137.18359375, "z": 206.32220458984375 }, "tsne_coordinates": { "x": -26.25529670715332, "y": -0.24758456647396088, "z": 10.64840030670166 }, "pca_coordinates": { "x": 1.2683887481689453, "y": 3.0035905838012695, "z": 0.5451366305351257 }, "axis_scores": { "Quantum imaging": 0.7379920482635498, "Quantum Life Science Sensing": 0.7052998542785645, "Quantum sensing Detection": 0.7195985317230225, "Quantum sensing Metrology": 0.7114400267601013, "Quantum sensing navigation": 0.739709198474884, "Quantum sensing Position": 0.7233142852783203, "Quantum sensing Timing": 0.7049818634986877, "Quantum sensing": 0.7337323427200317, "Quantum control": 0.7264536619186401 } }, { "id": 3683, "title": "Continuously scanning time-correlated single-photon-counting single-pixel 3-D lidar", "abstract": "Time-correlated single-photon-counting (TCSPC) lidar provides very high resolution range measurements. This makes the technology interesting for three-dimensional imaging of complex scenes with target...", "citations": 49, "author_count": 5, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3689, "doi": "10.1117/1.OE.56.3.031204", "umap_coordinates": { "x": 394.87646484375, "y": 133.02264404296875, "z": 206.9828643798828 }, "tsne_coordinates": { "x": -7.8647780418396, "y": 9.929661750793457, "z": -30.311925888061523 }, "pca_coordinates": { "x": -1.3605725765228271, "y": -0.5267095565795898, "z": 4.127298831939697 }, "axis_scores": { "Quantum imaging": 0.7435864806175232, "Quantum Life Science Sensing": 0.7554475665092468, "Quantum sensing Detection": 0.7531344294548035, "Quantum sensing Metrology": 0.7564696073532104, "Quantum sensing navigation": 0.7464112639427185, "Quantum sensing Position": 0.7353463768959045, "Quantum sensing Timing": 0.7474561929702759, "Quantum sensing": 0.7574951648712158, "Quantum control": 0.7065960764884949 } }, { "id": 3684, "title": "Noncommutative probability in classical disordered systems", "abstract": "Two examples of the situation when the classical observables should be described by a noncommutative probability space are investigated. A possible experimental approach to find quantum-like correlati...", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3690, "doi": "10.1016/S0378-4371(03)00360-1", "umap_coordinates": { "x": 394.7817687988281, "y": 137.41880798339844, "z": 206.56524658203125 }, "tsne_coordinates": { "x": -20.980121612548828, "y": -0.8479675650596619, "z": 14.894302368164062 }, "pca_coordinates": { "x": 2.4264678955078125, "y": 1.5465604066848755, "z": -0.43586909770965576 }, "axis_scores": { "Quantum imaging": 0.732938289642334, "Quantum Life Science Sensing": 0.7340940237045288, "Quantum sensing Detection": 0.7453201413154602, "Quantum sensing Metrology": 0.7225691676139832, "Quantum sensing navigation": 0.7469921708106995, "Quantum sensing Position": 0.7382017374038696, "Quantum sensing Timing": 0.7148621082305908, "Quantum sensing": 0.753368079662323, "Quantum control": 0.72915118932724 } }, { "id": 3685, "title": "Polarization-dependent optical properties of planar photonic crystals infiltrated with liquid crystals - art. no. 121105", "abstract": "Photonic crystals with infiltrated liquid crystals are investigated in the 1.5 mu m wavelength regime. Due to the strong temperature dependence of the refractive index of liquid crystals, especially n...", "citations": 23, "author_count": 7, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3691, "doi": "10.1063/1.2053353", "umap_coordinates": { "x": 393.6671142578125, "y": 133.9794921875, "z": 207.22254943847656 }, "tsne_coordinates": { "x": 19.457279205322266, "y": -23.006359100341797, "z": -20.929458618164062 }, "pca_coordinates": { "x": -0.42021727561950684, "y": -1.9091758728027344, "z": 1.1316845417022705 }, "axis_scores": { "Quantum imaging": 0.7229416370391846, "Quantum Life Science Sensing": 0.7195195555686951, "Quantum sensing Detection": 0.6942107677459717, "Quantum sensing Metrology": 0.6970730423927307, "Quantum sensing navigation": 0.6986603736877441, "Quantum sensing Position": 0.6739974617958069, "Quantum sensing Timing": 0.6441130638122559, "Quantum sensing": 0.7158104181289673, "Quantum control": 0.6883078217506409 } }, { "id": 3686, "title": "In vivo determination of local skin optical properties and photon path length by use of spatially resolved diffuse reflectance with applications in laser Doppler flowmetry", "abstract": "Methods for local photon path length and optical properties estimation, based on measured and simulated diffuse reflectance within 2 min from the light source, are proposed and evaluated in vivo on Ca...", "citations": 46, "author_count": 4, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3692, "doi": "10.1364/AO.42.000124", "umap_coordinates": { "x": 395.01708984375, "y": 133.96119689941406, "z": 205.25375366210938 }, "tsne_coordinates": { "x": 0.32564255595207214, "y": 29.02379608154297, "z": -31.53421401977539 }, "pca_coordinates": { "x": -2.4008662700653076, "y": 1.6283503770828247, "z": 2.3318634033203125 }, "axis_scores": { "Quantum imaging": 0.7035968899726868, "Quantum Life Science Sensing": 0.7202551364898682, "Quantum sensing Detection": 0.6784585118293762, "Quantum sensing Metrology": 0.6787441968917847, "Quantum sensing navigation": 0.691623330116272, "Quantum sensing Position": 0.6913875341415405, "Quantum sensing Timing": 0.6574394106864929, "Quantum sensing": 0.700546383857727, "Quantum control": 0.6484707593917847 } }, { "id": 3687, "title": "A flavonoid mutant of barley (Hordeum vulgare L.) exhibits increased sensitivity to UV-B radiation in the primary leaf", "abstract": "The aim of the present investigation was to define the role of soluble flavonoids as UV-B protectants in the primary leaf of barley (Hordeum vulgare L.). For this purpose we used a mutant line (Ant 28...", "citations": 164, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3693, "doi": "10.1111/j.1365-3040.1996.tb00393.x", "umap_coordinates": { "x": 394.63458251953125, "y": 135.82386779785156, "z": 203.60682678222656 }, "tsne_coordinates": { "x": 7.771650314331055, "y": 34.82566833496094, "z": 17.316667556762695 }, "pca_coordinates": { "x": -1.9347240924835205, "y": 0.5100188255310059, "z": -1.0678309202194214 }, "axis_scores": { "Quantum imaging": 0.6681610345840454, "Quantum Life Science Sensing": 0.6703314781188965, "Quantum sensing Detection": 0.6664099097251892, "Quantum sensing Metrology": 0.648585855960846, "Quantum sensing navigation": 0.657219648361206, "Quantum sensing Position": 0.6449000239372253, "Quantum sensing Timing": 0.6429840326309204, "Quantum sensing": 0.6738718152046204, "Quantum control": 0.6667884588241577 } }, { "id": 3688, "title": "A prototype detector module for combined PET/CT or combined photon counting/standard CT based on SiPM technology", "abstract": "A method extending the functionality of silicon photomultipiers (SiPMs) has been developed. It enables the use of SiPMs for quantifying high radiation fluxes in current mode as well as in pulse mode m...", "citations": 2, "author_count": 5, "categories": [ "Engineering" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3694, "doi": "10.1109/NSSMIC.2009.5401800", "umap_coordinates": { "x": 395.0351867675781, "y": 132.51194763183594, "z": 205.69044494628906 }, "tsne_coordinates": { "x": -16.188379287719727, "y": 21.252880096435547, "z": -16.183029174804688 }, "pca_coordinates": { "x": -2.354281425476074, "y": 1.524543046951294, "z": 5.245805263519287 }, "axis_scores": { "Quantum imaging": 0.6977211236953735, "Quantum Life Science Sensing": 0.7067146897315979, "Quantum sensing Detection": 0.6963454484939575, "Quantum sensing Metrology": 0.6987755298614502, "Quantum sensing navigation": 0.668479859828949, "Quantum sensing Position": 0.6613861322402954, "Quantum sensing Timing": 0.6706182956695557, "Quantum sensing": 0.6924567818641663, "Quantum control": 0.629460334777832 } }, { "id": 3689, "title": "Aggregation of Gold Nanoparticles for Controlling Emission Polarization: Implications for Applications in Photonics", "abstract": "Manipulating the light polarization properties of gold nanoparticle aggregates can facilitate their applications in sensing and imaging. However, control of the intrinsic light polarization on demand ...", "citations": 3, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3695, "doi": "10.1021/acsanm.4c01558", "umap_coordinates": { "x": 392.8304443359375, "y": 134.28855895996094, "z": 204.98233032226562 }, "tsne_coordinates": { "x": 20.567811965942383, "y": -6.783923625946045, "z": -8.591226577758789 }, "pca_coordinates": { "x": -3.3552489280700684, "y": -4.457980632781982, "z": -0.9656641483306885 }, "axis_scores": { "Quantum imaging": 0.680908739566803, "Quantum Life Science Sensing": 0.6800622344017029, "Quantum sensing Detection": 0.6709800958633423, "Quantum sensing Metrology": 0.660264253616333, "Quantum sensing navigation": 0.6759170889854431, "Quantum sensing Position": 0.6495370864868164, "Quantum sensing Timing": 0.6207125186920166, "Quantum sensing": 0.6806638836860657, "Quantum control": 0.6753177046775818 } }, { "id": 3690, "title": "Ultrafast, jitter-free x-ray streak camera that uses single-photon counting", "abstract": "novel method developed to increase the temporal resolution of x-ray streak cameras is described. The method is analogous to the time-correlated single-photon-counting technique, which is commonly used...", "citations": 5, "author_count": 2, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3696, "doi": "10.1364/OL.26.000295", "umap_coordinates": { "x": 394.9403991699219, "y": 133.47012329101562, "z": 206.6857452392578 }, "tsne_coordinates": { "x": 0.47203466296195984, "y": 18.39704704284668, "z": -33.39042663574219 }, "pca_coordinates": { "x": -1.619894027709961, "y": 0.6825592517852783, "z": 3.6639232635498047 }, "axis_scores": { "Quantum imaging": 0.7207828760147095, "Quantum Life Science Sensing": 0.7163512706756592, "Quantum sensing Detection": 0.7095703482627869, "Quantum sensing Metrology": 0.7046189904212952, "Quantum sensing navigation": 0.7087857127189636, "Quantum sensing Position": 0.6946083903312683, "Quantum sensing Timing": 0.7189337015151978, "Quantum sensing": 0.7282763123512268, "Quantum control": 0.6896629333496094 } }, { "id": 3691, "title": "Coherent multichannel nonadiabatic dynamics and parallel excitation pathways in the blue-violet absorption band of Rb2", "abstract": "The blue-violet absorption band in the Rb-2 molecule at 430 nm is studied by ultrafast pump-probe spectroscopy and quantum dynamical calculations. We find that two electronic states are excited simult...", "citations": 9, "author_count": 6, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3697, "doi": "10.1016/S0009-2614(02)01848-1", "umap_coordinates": { "x": 393.1116027832031, "y": 135.82833862304688, "z": 206.7432861328125 }, "tsne_coordinates": { "x": 0.03676018863916397, "y": -2.444911479949951, "z": 9.064199447631836 }, "pca_coordinates": { "x": 0.2706063985824585, "y": -0.23275041580200195, "z": -0.03140115737915039 }, "axis_scores": { "Quantum imaging": 0.7160564661026001, "Quantum Life Science Sensing": 0.7055655717849731, "Quantum sensing Detection": 0.6968793869018555, "Quantum sensing Metrology": 0.6793221831321716, "Quantum sensing navigation": 0.7064456343650818, "Quantum sensing Position": 0.6745163202285767, "Quantum sensing Timing": 0.6958953142166138, "Quantum sensing": 0.7042776346206665, "Quantum control": 0.6961594820022583 } }, { "id": 3692, "title": "Fast one-dimensional photonic crystal modulators for the terahertz range", "abstract": "Optically controlled one-dimensional photonic crystal structures for the THz range are studied both theoretically and experimentally. A GaAs:Cr layer constitutes a defect in the photonic crystals stud...", "citations": 60, "author_count": 5, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3698, "doi": "10.1364/OE.15.008898", "umap_coordinates": { "x": 394.0282287597656, "y": 133.9302215576172, "z": 206.24542236328125 }, "tsne_coordinates": { "x": 2.485647439956665, "y": -17.014482498168945, "z": -30.582273483276367 }, "pca_coordinates": { "x": -0.7161915302276611, "y": -0.06945133209228516, "z": 2.4922313690185547 }, "axis_scores": { "Quantum imaging": 0.7229340076446533, "Quantum Life Science Sensing": 0.6930785775184631, "Quantum sensing Detection": 0.6885190010070801, "Quantum sensing Metrology": 0.7079636454582214, "Quantum sensing navigation": 0.7049119472503662, "Quantum sensing Position": 0.6611219644546509, "Quantum sensing Timing": 0.7031833529472351, "Quantum sensing": 0.7079131603240967, "Quantum control": 0.686242938041687 } }, { "id": 3693, "title": "Systematics of the Third Row Transition Metal Melting: The HCP Metals Rhenium and Osmium", "abstract": "The melting curves of rhenium and osmium to megabar pressures are obtained from an extensive suite of ab initio quantum molecular dynamics (QMD) simulations using the Z method. In addition, for Re, we...", "citations": 16, "author_count": 5, "categories": [ "Crystallography" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3699, "doi": "10.3390/cryst8060243", "umap_coordinates": { "x": 393.05267333984375, "y": 137.5237274169922, "z": 207.19827270507812 }, "tsne_coordinates": { "x": 14.432509422302246, "y": -30.473299026489258, "z": 27.839635848999023 }, "pca_coordinates": { "x": -0.45150524377822876, "y": 2.3225505352020264, "z": -3.8087570667266846 }, "axis_scores": { "Quantum imaging": 0.6791793704032898, "Quantum Life Science Sensing": 0.7144821286201477, "Quantum sensing Detection": 0.6773408055305481, "Quantum sensing Metrology": 0.692842960357666, "Quantum sensing navigation": 0.6808135509490967, "Quantum sensing Position": 0.6557075381278992, "Quantum sensing Timing": 0.6710067987442017, "Quantum sensing": 0.6918405294418335, "Quantum control": 0.6754086017608643 } }, { "id": 3694, "title": "Efficient and versatile toolbox for analysis of time-tagged measurements", "abstract": "Acquisition and analysis of time-tagged events is a ubiquitous tool in scientific and industrial applications. With increasing time resolution, number of input channels, and acquired events, the amoun...", "citations": 8, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3700, "doi": "10.1088/1748-0221/16/08/T08016", "umap_coordinates": { "x": 395.409912109375, "y": 134.31903076171875, "z": 205.52391052246094 }, "tsne_coordinates": { "x": 2.3855087757110596, "y": 23.503501892089844, "z": -34.331451416015625 }, "pca_coordinates": { "x": -2.3801398277282715, "y": 3.023559093475342, "z": 1.552321434020996 }, "axis_scores": { "Quantum imaging": 0.6673926711082458, "Quantum Life Science Sensing": 0.6678041815757751, "Quantum sensing Detection": 0.6407396197319031, "Quantum sensing Metrology": 0.644921600818634, "Quantum sensing navigation": 0.6546354293823242, "Quantum sensing Position": 0.6509588956832886, "Quantum sensing Timing": 0.698313295841217, "Quantum sensing": 0.6617136001586914, "Quantum control": 0.6357052326202393 } }, { "id": 3695, "title": "Polyatomic radiative association by quasiclassical trajectory calculations: Formation of HCN and HNC molecules in H plus CN collisions", "abstract": "We have developed the polyatomic extension of the established [M. Gustafsson, J. Chem. Phys. 138, 074308 (2013)] classical theory of radiative association in the absence of electronic transitions. The...", "citations": 2, "author_count": 3, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3701, "doi": "10.1063/5.0170577", "umap_coordinates": { "x": 393.4744873046875, "y": 137.3375244140625, "z": 206.52545166015625 }, "tsne_coordinates": { "x": -5.491312503814697, "y": 3.8315072059631348, "z": 24.132232666015625 }, "pca_coordinates": { "x": 1.627350091934204, "y": 1.0202274322509766, "z": -0.715732753276825 }, "axis_scores": { "Quantum imaging": 0.6942383050918579, "Quantum Life Science Sensing": 0.691046953201294, "Quantum sensing Detection": 0.6929321885108948, "Quantum sensing Metrology": 0.6653014421463013, "Quantum sensing navigation": 0.7057043313980103, "Quantum sensing Position": 0.6730257868766785, "Quantum sensing Timing": 0.6887718439102173, "Quantum sensing": 0.6993284225463867, "Quantum control": 0.6933789849281311 } }, { "id": 3696, "title": "Angle-Dependent Microresonator ESR Characterization of Locally Doped Gd3+:Al2O3", "abstract": "Interfacing rare-earth-doped crystals with superconducting circuit architectures provides an attractive platform for quantum memory and transducer devices. Here, we present the detailed characterizati...", "citations": 9, "author_count": 9, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3702, "doi": "10.1103/PhysRevApplied.6.024021", "umap_coordinates": { "x": 393.7550048828125, "y": 136.44187927246094, "z": 206.9294891357422 }, "tsne_coordinates": { "x": -4.481224536895752, "y": -25.944820404052734, "z": -24.579830169677734 }, "pca_coordinates": { "x": 1.4082927703857422, "y": 0.19585657119750977, "z": -0.0892220139503479 }, "axis_scores": { "Quantum imaging": 0.7133762240409851, "Quantum Life Science Sensing": 0.7328923940658569, "Quantum sensing Detection": 0.7097175121307373, "Quantum sensing Metrology": 0.7048385739326477, "Quantum sensing navigation": 0.7365108728408813, "Quantum sensing Position": 0.7296668291091919, "Quantum sensing Timing": 0.7057868838310242, "Quantum sensing": 0.7208995819091797, "Quantum control": 0.6933872103691101 } }, { "id": 3697, "title": "Engineering and metrology of epitaxial graphene", "abstract": "Here we review the concepts and technologies, in particular photochemical gating, which contributed to the recent progress in quantum Hall resistance metrology based on large scale epitaxial graphene ...", "citations": 23, "author_count": 13, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3703, "doi": "10.1016/j.ssc.2011.05.020", "umap_coordinates": { "x": 393.7039489746094, "y": 133.6724090576172, "z": 205.4158477783203 }, "tsne_coordinates": { "x": -8.66932487487793, "y": 16.25019073486328, "z": 7.767340183258057 }, "pca_coordinates": { "x": -2.5269813537597656, "y": -0.907282829284668, "z": 0.8884939551353455 }, "axis_scores": { "Quantum imaging": 0.7202529907226562, "Quantum Life Science Sensing": 0.756438136100769, "Quantum sensing Detection": 0.7330487370491028, "Quantum sensing Metrology": 0.7826058864593506, "Quantum sensing navigation": 0.7306696176528931, "Quantum sensing Position": 0.7423088550567627, "Quantum sensing Timing": 0.6926737427711487, "Quantum sensing": 0.7460171580314636, "Quantum control": 0.704748809337616 } }, { "id": 3698, "title": "Chern Number Spins of Mn Acceptor Magnets in GaAs", "abstract": "We determine the effective total spin J of local moments formed from acceptor states bound to Mn ions in GaAs by evaluating their magnetic Chern numbers. When individual Mn atoms are close to the samp...", "citations": 11, "author_count": 4, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3704, "doi": "10.1103/PhysRevLett.106.017202", "umap_coordinates": { "x": 393.3739013671875, "y": 136.2196807861328, "z": 208.9888153076172 }, "tsne_coordinates": { "x": 8.555901527404785, "y": -30.117420196533203, "z": 14.182958602905273 }, "pca_coordinates": { "x": 5.168612957000732, "y": -1.640455722808838, "z": -0.616937518119812 }, "axis_scores": { "Quantum imaging": 0.6848810911178589, "Quantum Life Science Sensing": 0.690576434135437, "Quantum sensing Detection": 0.6971654891967773, "Quantum sensing Metrology": 0.6891075968742371, "Quantum sensing navigation": 0.7097697854042053, "Quantum sensing Position": 0.7076897025108337, "Quantum sensing Timing": 0.6957404017448425, "Quantum sensing": 0.7041232585906982, "Quantum control": 0.6656467914581299 } }, { "id": 3699, "title": "A quantum electronic theory of chemical processes - The inverted energy profile case: CH3++H-2 reaction", "abstract": "A quantum approach to chemical processes is developed. The chemical interconversion is described as an electronic process. The reaction corresponds to histories involving quantum states belonging to d...", "citations": 7, "author_count": 4, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3705, "doi": "10.1002/(SICI)1097-461X(1997)63:2<373::AID-QUA9>3.0.CO;2-T", "umap_coordinates": { "x": 394.11639404296875, "y": 137.52622985839844, "z": 206.0455780029297 }, "tsne_coordinates": { "x": -10.074138641357422, "y": 11.374268531799316, "z": 30.802248001098633 }, "pca_coordinates": { "x": -0.10700535774230957, "y": 2.308443546295166, "z": -1.5044188499450684 }, "axis_scores": { "Quantum imaging": 0.7436505556106567, "Quantum Life Science Sensing": 0.7485305666923523, "Quantum sensing Detection": 0.7391012907028198, "Quantum sensing Metrology": 0.7112463712692261, "Quantum sensing navigation": 0.731622576713562, "Quantum sensing Position": 0.7013341784477234, "Quantum sensing Timing": 0.6927400827407837, "Quantum sensing": 0.7451328039169312, "Quantum control": 0.7337642908096313 } }, { "id": 3700, "title": "Quantum-like Dynamics of Decision-making in Prisoner's Dilemma Game", "abstract": "In cognitive psychology, some experiments of games were reported [1, 2, 3, 4], and these demonstrated that real players did not use the rational strategy provided by classical game theory. To discuss ...", "citations": 7, "author_count": 6, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3706, "doi": "10.1063/1.3688998", "umap_coordinates": { "x": 394.7880554199219, "y": 137.73333740234375, "z": 206.79278564453125 }, "tsne_coordinates": { "x": -23.898935317993164, "y": 9.917616844177246, "z": 20.68682098388672 }, "pca_coordinates": { "x": 4.581214427947998, "y": 2.2971670627593994, "z": -1.9512009620666504 }, "axis_scores": { "Quantum imaging": 0.7626291513442993, "Quantum Life Science Sensing": 0.7789829969406128, "Quantum sensing Detection": 0.7746623754501343, "Quantum sensing Metrology": 0.7535713911056519, "Quantum sensing navigation": 0.7874443531036377, "Quantum sensing Position": 0.7403212785720825, "Quantum sensing Timing": 0.7336491942405701, "Quantum sensing": 0.7858338952064514, "Quantum control": 0.7795177102088928 } }, { "id": 3701, "title": "Compton scattering from proton pairs - illustrating weak and strong measurements", "abstract": "Neutrons interacting with protons in Compton scattering is here chosen as an example of a non-trivial quantum measurement. It illustrates a situation where a probe particle makes an observation (a wea...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3707, "doi": "10.1088/1402-4896/ad9d07", "umap_coordinates": { "x": 396.10748291015625, "y": 135.74734497070312, "z": 206.77783203125 }, "tsne_coordinates": { "x": -41.0323600769043, "y": 7.9111127853393555, "z": 5.076859951019287 }, "pca_coordinates": { "x": -0.4534909725189209, "y": 2.8435592651367188, "z": 1.8686580657958984 }, "axis_scores": { "Quantum imaging": 0.6703441739082336, "Quantum Life Science Sensing": 0.6897458434104919, "Quantum sensing Detection": 0.6748383641242981, "Quantum sensing Metrology": 0.6572339534759521, "Quantum sensing navigation": 0.657711386680603, "Quantum sensing Position": 0.6742774248123169, "Quantum sensing Timing": 0.6609541177749634, "Quantum sensing": 0.6784029006958008, "Quantum control": 0.6322993040084839 } }, { "id": 3702, "title": "Superdensity operators for spacetime quantum mechanics", "abstract": "We introduce superdensity operators as a tool for analyzing quantum information in spacetime. Superdensity operators encode spacetime correlation functions in an operator framework, and support a natu...", "citations": 56, "author_count": 5, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3708, "doi": "10.1007/JHEP09(2018)093", "umap_coordinates": { "x": 395.4040222167969, "y": 137.3790283203125, "z": 206.69859313964844 }, "tsne_coordinates": { "x": -40.024253845214844, "y": 13.394293785095215, "z": 2.5973072052001953 }, "pca_coordinates": { "x": 2.245880603790283, "y": 2.7904951572418213, "z": -0.4366118311882019 }, "axis_scores": { "Quantum imaging": 0.7571924924850464, "Quantum Life Science Sensing": 0.7421184778213501, "Quantum sensing Detection": 0.7364422082901001, "Quantum sensing Metrology": 0.7250365614891052, "Quantum sensing navigation": 0.7561948299407959, "Quantum sensing Position": 0.7247716784477234, "Quantum sensing Timing": 0.705954372882843, "Quantum sensing": 0.7495130896568298, "Quantum control": 0.7143126726150513 } }, { "id": 3703, "title": "Effects of subfemtosecond quantum correlations in neutron scattering on water", "abstract": "Several recent experiments have shown that protons, and to some extent also deuterons, show anomalous cross sections when the neutrons have energies in the range 10-100 eV (this results in a Compton s...", "citations": 42, "author_count": 2, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3709, "doi": "10.1103/PhysRevLett.90.095301", "umap_coordinates": { "x": 394.5832214355469, "y": 136.27996826171875, "z": 207.90225219726562 }, "tsne_coordinates": { "x": -22.157821655273438, "y": -28.076549530029297, "z": -3.470655918121338 }, "pca_coordinates": { "x": 3.3396754264831543, "y": 0.05539131164550781, "z": -0.333562433719635 }, "axis_scores": { "Quantum imaging": 0.732160210609436, "Quantum Life Science Sensing": 0.763804018497467, "Quantum sensing Detection": 0.7309445142745972, "Quantum sensing Metrology": 0.7214827537536621, "Quantum sensing navigation": 0.7369021773338318, "Quantum sensing Position": 0.7041528224945068, "Quantum sensing Timing": 0.7235400676727295, "Quantum sensing": 0.7504202127456665, "Quantum control": 0.6913233399391174 } }, { "id": 3704, "title": "Mobile quantum gravity sensor with unprecedented stability", "abstract": "Changes of surface gravity on Earth are of great interest in geodesy, earth sciences and natural resource exploration. They are indicative of Earth system's mass redistributions and vertical surface m...", "citations": 260, "author_count": 10, "categories": [ "Instruments & Instrumentation" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3710, "doi": "10.1088/1742-6596/723/1/012050", "umap_coordinates": { "x": 394.92803955078125, "y": 135.41578674316406, "z": 207.13885498046875 }, "tsne_coordinates": { "x": -21.758882522583008, "y": -9.5729341506958, "z": -28.221284866333008 }, "pca_coordinates": { "x": 1.1414310932159424, "y": 1.3156583309173584, "z": 0.35411685705184937 }, "axis_scores": { "Quantum imaging": 0.6905834078788757, "Quantum Life Science Sensing": 0.7473644018173218, "Quantum sensing Detection": 0.7141728401184082, "Quantum sensing Metrology": 0.7228115200996399, "Quantum sensing navigation": 0.7492294907569885, "Quantum sensing Position": 0.7176543474197388, "Quantum sensing Timing": 0.6755009889602661, "Quantum sensing": 0.7261624336242676, "Quantum control": 0.6833134293556213 } }, { "id": 3705, "title": "EFFECTS ON PHOTOSYSTEM-II FUNCTION, PHOTOINHIBITION, AND PLANT PERFORMANCE OF THE SPONTANEOUS MUTATION OF SERINE-264 IN THE PHOTOSYSTEM-II REACTION-CENTER D1 PROTEIN IN TRIAZINE-RESISTANT BRASSICA-NAPUS L", "abstract": "Wild-type and an atrazine-resistant biotype of Brassica napus, in which a glycine is substituted for the serine-264 of the D1 protein, were grown over a wide range of constant irradiances in a growth ...", "citations": 70, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1993, "topic": [ "all" ], "embedding_index": 3711, "doi": "10.1104/pp.103.1.105", "umap_coordinates": { "x": 394.4269104003906, "y": 136.3258819580078, "z": 203.8592987060547 }, "tsne_coordinates": { "x": 9.42362117767334, "y": 32.7168083190918, "z": 9.368587493896484 }, "pca_coordinates": { "x": -0.9856050610542297, "y": -0.14343643188476562, "z": -0.6024609804153442 }, "axis_scores": { "Quantum imaging": 0.6790151000022888, "Quantum Life Science Sensing": 0.7031418085098267, "Quantum sensing Detection": 0.6791985630989075, "Quantum sensing Metrology": 0.6703786253929138, "Quantum sensing navigation": 0.6547760963439941, "Quantum sensing Position": 0.6623569130897522, "Quantum sensing Timing": 0.667819082736969, "Quantum sensing": 0.687791109085083, "Quantum control": 0.6909298300743103 } }, { "id": 3706, "title": "Colloquium: Quantum and classical discrete time crystals", "abstract": "(published July 2023) The spontaneous breaking of time-translation symmetry has led to the discovery of a new phase of matter: the discrete time crystal. Discrete time crystals exhibit rigid subharmon...", "citations": 99, "author_count": 7, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3712, "doi": "10.1103/RevModPhys.95.031001", "umap_coordinates": { "x": 394.4967346191406, "y": 137.24537658691406, "z": 206.93202209472656 }, "tsne_coordinates": { "x": -18.91278648376465, "y": -16.229734420776367, "z": 5.447945594787598 }, "pca_coordinates": { "x": 3.2016615867614746, "y": 1.538954496383667, "z": -0.5815240144729614 }, "axis_scores": { "Quantum imaging": 0.7746325731277466, "Quantum Life Science Sensing": 0.79237300157547, "Quantum sensing Detection": 0.7814698219299316, "Quantum sensing Metrology": 0.7728145718574524, "Quantum sensing navigation": 0.7622499465942383, "Quantum sensing Position": 0.7453465461730957, "Quantum sensing Timing": 0.7976071834564209, "Quantum sensing": 0.7921987771987915, "Quantum control": 0.7755745649337769 } }, { "id": 3707, "title": "Photophysics of Coumarin and Carbostyril-Sensitized Luminescent Lanthanide Complexes: Implications for Complex Design in Multiplex Detection", "abstract": "Luminescent lanthanide (Ln(III)) complexes with coumarin or carbostyril antennae were synthesized and their photophysical properties evaluated using steady-state and time-resolved UV-vis spectroscopy....", "citations": 113, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3713, "doi": "10.1021/jacs.6b11274", "umap_coordinates": { "x": 392.4439392089844, "y": 135.57591247558594, "z": 205.1138458251953 }, "tsne_coordinates": { "x": 12.876893043518066, "y": 14.120546340942383, "z": -18.291431427001953 }, "pca_coordinates": { "x": -3.181985378265381, "y": -1.5161523818969727, "z": -1.3666775226593018 }, "axis_scores": { "Quantum imaging": 0.7141267657279968, "Quantum Life Science Sensing": 0.7406699657440186, "Quantum sensing Detection": 0.7140534520149231, "Quantum sensing Metrology": 0.6938619613647461, "Quantum sensing navigation": 0.6781584024429321, "Quantum sensing Position": 0.668265700340271, "Quantum sensing Timing": 0.676899254322052, "Quantum sensing": 0.7153487205505371, "Quantum control": 0.68833327293396 } }, { "id": 3708, "title": "Coherent bremsstrahlung, coherent pair production, birefringence, and polarimetry in the 20-170 GeV energy range using aligned crystals", "abstract": "The processes of coherent bremsstrahlung (CB) and coherent pair production (CPP) based on aligned crystal targets have been studied in the energy range 20-170 GeV. The experimental arrangement allowed...", "citations": 13, "author_count": 30, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3714, "doi": "10.1103/PhysRevSTAB.11.041001", "umap_coordinates": { "x": 395.7589111328125, "y": 134.97610473632812, "z": 207.61761474609375 }, "tsne_coordinates": { "x": -15.39656925201416, "y": -24.429197311401367, "z": -21.149240493774414 }, "pca_coordinates": { "x": 2.2577953338623047, "y": -0.6619088649749756, "z": 1.6800553798675537 }, "axis_scores": { "Quantum imaging": 0.6804264783859253, "Quantum Life Science Sensing": 0.6878142356872559, "Quantum sensing Detection": 0.6678510308265686, "Quantum sensing Metrology": 0.6799192428588867, "Quantum sensing navigation": 0.6851207613945007, "Quantum sensing Position": 0.6907331943511963, "Quantum sensing Timing": 0.6847116351127625, "Quantum sensing": 0.6749012470245361, "Quantum control": 0.6442831754684448 } }, { "id": 3709, "title": "Clinical photon-counting computed tomography in living patients detects intra-plaque haemorrhage and thrombus in carotid plaques", "abstract": "", "citations": 3, "author_count": 9, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3715, "doi": "10.1093/eurheartj/ehaf707", "umap_coordinates": { "x": 395.6890563964844, "y": 133.68521118164062, "z": 205.05955505371094 }, "tsne_coordinates": { "x": -6.517842769622803, "y": 21.671175003051758, "z": -13.571272850036621 }, "pca_coordinates": { "x": -1.8441810607910156, "y": 3.7945291996002197, "z": 2.6558923721313477 }, "axis_scores": { "Quantum imaging": 0.686648428440094, "Quantum Life Science Sensing": 0.6876456141471863, "Quantum sensing Detection": 0.6758066415786743, "Quantum sensing Metrology": 0.6342635154724121, "Quantum sensing navigation": 0.6660208702087402, "Quantum sensing Position": 0.6568816900253296, "Quantum sensing Timing": 0.6521403789520264, "Quantum sensing": 0.6622249484062195, "Quantum control": 0.6137592196464539 } }, { "id": 3710, "title": "TRANSITION FROM LAMINAR TO VORTEX FLOW IN A MODEL SEMICONDUCTOR NANOSTRUCTURE", "abstract": "Spatial distributions of electron densities and velocities accompanying ideal ballistic transport in a model crossbar structure are considered. As the energy of the electrons is increased one observes...", "citations": 23, "author_count": 4, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 3716, "doi": "10.1088/0031-8949/1992/T42/025", "umap_coordinates": { "x": 394.5542297363281, "y": 135.6771240234375, "z": 207.13832092285156 }, "tsne_coordinates": { "x": -12.704961776733398, "y": -13.605445861816406, "z": 23.56126594543457 }, "pca_coordinates": { "x": 1.2668938636779785, "y": 0.3453254699707031, "z": -0.6738342046737671 }, "axis_scores": { "Quantum imaging": 0.6851537823677063, "Quantum Life Science Sensing": 0.6983621120452881, "Quantum sensing Detection": 0.6751072406768799, "Quantum sensing Metrology": 0.6657706499099731, "Quantum sensing navigation": 0.7013378143310547, "Quantum sensing Position": 0.6765573024749756, "Quantum sensing Timing": 0.6679984331130981, "Quantum sensing": 0.67877197265625, "Quantum control": 0.680293619632721 } }, { "id": 3711, "title": "Investigations on the synthesis and chemiluminescence of novel 2-coumaranones - II", "abstract": "The optimized one-pot synthesis of 16 new 2-coumaranones containing a carbamate side-chain is described. Furthermore, the quantum yields for the base-activated chemiluminescence in the presence of oxy...", "citations": 20, "author_count": 10, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3717, "doi": "10.3998/ark.5550190.p009.044", "umap_coordinates": { "x": 393.20220947265625, "y": 135.42283630371094, "z": 204.4263916015625 }, "tsne_coordinates": { "x": 1.4652737379074097, "y": 16.252981185913086, "z": -5.055200576782227 }, "pca_coordinates": { "x": -3.241081476211548, "y": 2.11275053024292, "z": -1.3980636596679688 }, "axis_scores": { "Quantum imaging": 0.6706404685974121, "Quantum Life Science Sensing": 0.6909711360931396, "Quantum sensing Detection": 0.6668820977210999, "Quantum sensing Metrology": 0.6430990695953369, "Quantum sensing navigation": 0.6483108401298523, "Quantum sensing Position": 0.6179274916648865, "Quantum sensing Timing": 0.6256933212280273, "Quantum sensing": 0.6679701805114746, "Quantum control": 0.6584461331367493 } }, { "id": 3712, "title": "Directional dependence of InAs island formation on patterned GaAs", "abstract": "Strained, coherent InAs islands were grown in the Stranski-Krastanov growth mode on patterned GaAs by chemical beam epitaxy. The present work represents initial steps in quantitatively understanding t...", "citations": 4, "author_count": 6, "categories": [ "Crystallography" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3718, "doi": "10.1016/0022-0248(96)00028-0", "umap_coordinates": { "x": 392.17327880859375, "y": 133.987060546875, "z": 207.484130859375 }, "tsne_coordinates": { "x": 32.01768493652344, "y": -9.223475456237793, "z": 6.421936988830566 }, "pca_coordinates": { "x": -1.513189673423767, "y": -2.3986892700195312, "z": 0.4416195750236511 }, "axis_scores": { "Quantum imaging": 0.6867442727088928, "Quantum Life Science Sensing": 0.6711658835411072, "Quantum sensing Detection": 0.6744704246520996, "Quantum sensing Metrology": 0.6572244167327881, "Quantum sensing navigation": 0.6916329860687256, "Quantum sensing Position": 0.7042040228843689, "Quantum sensing Timing": 0.6679373979568481, "Quantum sensing": 0.6847444176673889, "Quantum control": 0.6703670024871826 } }, { "id": 3713, "title": "Chiral Polaritonics: Analytical Solutions, Intuition, and Use", "abstract": "Preferential selection of a given enantiomer over its chiral counterpart has become increasingly relevant in the advent of the next era of medical drug design. In parallel, cavity quantum electrodynam...", "citations": 34, "author_count": 3, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3719, "doi": "10.1021/acs.jpclett.3c00286", "umap_coordinates": { "x": 392.61968994140625, "y": 135.80433654785156, "z": 205.8440399169922 }, "tsne_coordinates": { "x": 4.3527140617370605, "y": -7.573338508605957, "z": -4.522742748260498 }, "pca_coordinates": { "x": -1.8166097402572632, "y": 0.12048864364624023, "z": -1.5387749671936035 }, "axis_scores": { "Quantum imaging": 0.7195361256599426, "Quantum Life Science Sensing": 0.7210266590118408, "Quantum sensing Detection": 0.7155346274375916, "Quantum sensing Metrology": 0.6828586459159851, "Quantum sensing navigation": 0.7120047211647034, "Quantum sensing Position": 0.6877315640449524, "Quantum sensing Timing": 0.6731635928153992, "Quantum sensing": 0.7216137051582336, "Quantum control": 0.7117597460746765 } }, { "id": 3714, "title": "Photoelectron angular distributions in photodetachment from P-", "abstract": "The angular distributions of electrons ejected in laser photodetachment of the P- ion have been studied in the photon energy range of 0.95-3.28 eV using a photoelectron spectrometer designed to accomm...", "citations": 1, "author_count": 8, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3720, "doi": "10.1103/PhysRevA.103.033108", "umap_coordinates": { "x": 396.1976318359375, "y": 134.8871307373047, "z": 207.92849731445312 }, "tsne_coordinates": { "x": 19.88878631591797, "y": -17.276321411132812, "z": 33.947265625 }, "pca_coordinates": { "x": 2.386781692504883, "y": -0.7443747520446777, "z": 0.9061800837516785 }, "axis_scores": { "Quantum imaging": 0.6979646682739258, "Quantum Life Science Sensing": 0.6955088376998901, "Quantum sensing Detection": 0.6958154439926147, "Quantum sensing Metrology": 0.6758634448051453, "Quantum sensing navigation": 0.6906753182411194, "Quantum sensing Position": 0.6922917366027832, "Quantum sensing Timing": 0.6692270636558533, "Quantum sensing": 0.6992419362068176, "Quantum control": 0.6555485725402832 } }, { "id": 3715, "title": "Porous Gold Films-A Short Review on Recent Progress", "abstract": "Porous gold films have attracted increasing interest over the last ten years due to the unique properties of high specific surface area and electrical conductivity combined with chemical stability and...", "citations": 78, "author_count": 3, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3721, "doi": "10.3390/ma7053834", "umap_coordinates": { "x": 393.3367004394531, "y": 134.2977752685547, "z": 204.95494079589844 }, "tsne_coordinates": { "x": 32.303131103515625, "y": 15.438410758972168, "z": -7.241293430328369 }, "pca_coordinates": { "x": -2.3202946186065674, "y": -0.10490989685058594, "z": -1.9916284084320068 }, "axis_scores": { "Quantum imaging": 0.6914219260215759, "Quantum Life Science Sensing": 0.7330533266067505, "Quantum sensing Detection": 0.6872758269309998, "Quantum sensing Metrology": 0.6878178715705872, "Quantum sensing navigation": 0.6982771158218384, "Quantum sensing Position": 0.6839022636413574, "Quantum sensing Timing": 0.6340218782424927, "Quantum sensing": 0.7096099853515625, "Quantum control": 0.6816611886024475 } }, { "id": 3716, "title": "Reversal of the circulation of a vortex by quantum tunneling in trapped Bose systems", "abstract": "We study the quantum dynamics of a model for a vortex in a Bose gas with repulsive interactions in an anisotropic, harmonic trap. By solving the Schrodinger equation numerically, we show that the circ...", "citations": 20, "author_count": 3, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3722, "doi": "10.1103/PhysRevA.76.021605", "umap_coordinates": { "x": 394.6849670410156, "y": 136.53575134277344, "z": 209.0944366455078 }, "tsne_coordinates": { "x": -11.739314079284668, "y": -20.89666748046875, "z": 19.278846740722656 }, "pca_coordinates": { "x": 5.810152530670166, "y": 0.2617650032043457, "z": -1.029421329498291 }, "axis_scores": { "Quantum imaging": 0.697085440158844, "Quantum Life Science Sensing": 0.6993259191513062, "Quantum sensing Detection": 0.7000214457511902, "Quantum sensing Metrology": 0.6837759017944336, "Quantum sensing navigation": 0.726513683795929, "Quantum sensing Position": 0.6883816719055176, "Quantum sensing Timing": 0.6968968510627747, "Quantum sensing": 0.7030001878738403, "Quantum control": 0.7078789472579956 } }, { "id": 3717, "title": "Spin-filter effect in metallic nanowires - art. no. 165441", "abstract": "We present ab initio calculations for metallic nanowires with a diameter of few atoms. The electronic structure is calculated using the screened Korringa Kohn Rostoker Green's function method, while e...", "citations": 17, "author_count": 5, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3723, "doi": "10.1103/PhysRevB.66.165441", "umap_coordinates": { "x": 393.8833312988281, "y": 135.24908447265625, "z": 209.16726684570312 }, "tsne_coordinates": { "x": 3.7005467414855957, "y": -28.56265640258789, "z": 6.307508945465088 }, "pca_coordinates": { "x": 4.222718715667725, "y": -2.6118125915527344, "z": 0.49785345792770386 }, "axis_scores": { "Quantum imaging": 0.6971677541732788, "Quantum Life Science Sensing": 0.7150274515151978, "Quantum sensing Detection": 0.7050160765647888, "Quantum sensing Metrology": 0.7068629264831543, "Quantum sensing navigation": 0.7341691255569458, "Quantum sensing Position": 0.6918240785598755, "Quantum sensing Timing": 0.6644579172134399, "Quantum sensing": 0.7147606015205383, "Quantum control": 0.6930621862411499 } }, { "id": 3718, "title": "Second-order coherence of fluorescence in multi-photon blockade", "abstract": "We calculate the second-order correlation function for the atomic fluorescence in the two-photon resonance operation of a driven dissipative Jaynes-Cummings oscillator. We employ a minimal four-level ...", "citations": 9, "author_count": 3, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3724, "doi": "10.1016/j.optcom.2021.126791", "umap_coordinates": { "x": 393.93719482421875, "y": 135.86993408203125, "z": 206.2311553955078 }, "tsne_coordinates": { "x": -16.933013916015625, "y": -3.2154533863067627, "z": -14.685368537902832 }, "pca_coordinates": { "x": -0.5474982857704163, "y": -0.333615779876709, "z": 0.9306691288948059 }, "axis_scores": { "Quantum imaging": 0.7377094626426697, "Quantum Life Science Sensing": 0.7245863080024719, "Quantum sensing Detection": 0.7277854681015015, "Quantum sensing Metrology": 0.7172574996948242, "Quantum sensing navigation": 0.7119200825691223, "Quantum sensing Position": 0.6888480186462402, "Quantum sensing Timing": 0.6910844445228577, "Quantum sensing": 0.7247021794319153, "Quantum control": 0.6913108229637146 } }, { "id": 3719, "title": "Enhanced symmetry-based dipolar recoupling in solid-state NMR", "abstract": "Symmetry-based RNnv pulse sequences [Chem. Phys. Lett. 321 (2000) 205] provide efficient dipolar recoupling in magic-angle spinning nuclear magnetic resonance. For homonuclear and heteronuclear recoup...", "citations": 30, "author_count": 2, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3725, "doi": "10.1016/S0009-2614(03)01241-7", "umap_coordinates": { "x": 392.6700439453125, "y": 137.0449676513672, "z": 207.09030151367188 }, "tsne_coordinates": { "x": 11.73156452178955, "y": 0.8082292675971985, "z": 31.09010887145996 }, "pca_coordinates": { "x": 0.2049328088760376, "y": 0.6266686916351318, "z": -0.9050514698028564 }, "axis_scores": { "Quantum imaging": 0.6807093620300293, "Quantum Life Science Sensing": 0.6696150302886963, "Quantum sensing Detection": 0.647107720375061, "Quantum sensing Metrology": 0.6560455560684204, "Quantum sensing navigation": 0.6690204739570618, "Quantum sensing Position": 0.6554805636405945, "Quantum sensing Timing": 0.6546359658241272, "Quantum sensing": 0.6631665825843811, "Quantum control": 0.6434109210968018 } }, { "id": 3720, "title": "Experimental Verification of the Work Fluctuation-Dissipation Relation", "abstract": "We study experimentally work fluctuations in a Szilard engine that extracts work from information encoded as the occupancy of an electron level in a semiconductor quantum dot. We show that as the aver...", "citations": 33, "author_count": 8, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3726, "doi": "10.1103/PhysRevLett.128.040602", "umap_coordinates": { "x": 395.8114929199219, "y": 136.38287353515625, "z": 208.03829956054688 }, "tsne_coordinates": { "x": -27.578054428100586, "y": -21.813701629638672, "z": 2.614814043045044 }, "pca_coordinates": { "x": 3.6029815673828125, "y": 1.3195412158966064, "z": 0.946207582950592 }, "axis_scores": { "Quantum imaging": 0.7017158269882202, "Quantum Life Science Sensing": 0.734341025352478, "Quantum sensing Detection": 0.7196503281593323, "Quantum sensing Metrology": 0.7146831154823303, "Quantum sensing navigation": 0.709604799747467, "Quantum sensing Position": 0.7216721177101135, "Quantum sensing Timing": 0.7012280225753784, "Quantum sensing": 0.7269995212554932, "Quantum control": 0.7132672071456909 } }, { "id": 3721, "title": "Communication through quantum fields near a black hole", "abstract": "We study the quantum channel between two localized first-quantized systems that communicate in 3 + 1 dimensional Schwarzschild spacetime via a quantum field. We analyze the information carrying capaci...", "citations": 31, "author_count": 6, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3727, "doi": "10.1103/PhysRevD.101.125005", "umap_coordinates": { "x": 395.23553466796875, "y": 135.59544372558594, "z": 207.98533630371094 }, "tsne_coordinates": { "x": -4.03627347946167, "y": -27.529338836669922, "z": 0.8042398691177368 }, "pca_coordinates": { "x": 4.638072490692139, "y": 0.3214895725250244, "z": 1.9206552505493164 }, "axis_scores": { "Quantum imaging": 0.7627419233322144, "Quantum Life Science Sensing": 0.7414790987968445, "Quantum sensing Detection": 0.7653307914733887, "Quantum sensing Metrology": 0.7473968863487244, "Quantum sensing navigation": 0.7740958333015442, "Quantum sensing Position": 0.7415050268173218, "Quantum sensing Timing": 0.7221133708953857, "Quantum sensing": 0.7719177603721619, "Quantum control": 0.7414985299110413 } }, { "id": 3722, "title": "Highly tunable propagating surface plasmons on supported silver nanowires", "abstract": "Surface plasmons, the quanta of the collective oscillations of free electrons at metal surface, can be easily tuned by changing the surrounding dielectric materials, which is well known for metal nano...", "citations": 129, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3728, "doi": "10.1073/pnas.1217931110", "umap_coordinates": { "x": 392.8277587890625, "y": 134.1328887939453, "z": 206.65216064453125 }, "tsne_coordinates": { "x": 11.373848915100098, "y": -14.227066993713379, "z": -4.773317337036133 }, "pca_coordinates": { "x": -0.8229750394821167, "y": -4.269599437713623, "z": 1.2051725387573242 }, "axis_scores": { "Quantum imaging": 0.6392975449562073, "Quantum Life Science Sensing": 0.6461523771286011, "Quantum sensing Detection": 0.6471388339996338, "Quantum sensing Metrology": 0.6357924938201904, "Quantum sensing navigation": 0.6555529832839966, "Quantum sensing Position": 0.63112872838974, "Quantum sensing Timing": 0.6209624409675598, "Quantum sensing": 0.6583170890808105, "Quantum control": 0.6437151432037354 } }, { "id": 3723, "title": "From irrational to nonunitary: Haffnian and Haldane-Rezayi wave functions", "abstract": "We study the Haffnian and Haldane-Rezayi quantum Hall wave functions and their quasihole excitations by means of their root configurations, and point out a close connection between these seemingly dif...", "citations": 24, "author_count": 5, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3729, "doi": "10.1103/PhysRevB.83.241302", "umap_coordinates": { "x": 394.473388671875, "y": 137.40109252929688, "z": 207.98683166503906 }, "tsne_coordinates": { "x": -20.34903907775879, "y": -26.12541389465332, "z": 6.741081714630127 }, "pca_coordinates": { "x": 2.910193920135498, "y": 1.24988853931427, "z": -2.6510510444641113 }, "axis_scores": { "Quantum imaging": 0.7190566658973694, "Quantum Life Science Sensing": 0.7300936579704285, "Quantum sensing Detection": 0.702403724193573, "Quantum sensing Metrology": 0.6935226321220398, "Quantum sensing navigation": 0.7232088446617126, "Quantum sensing Position": 0.6711724996566772, "Quantum sensing Timing": 0.6604709029197693, "Quantum sensing": 0.7193670868873596, "Quantum control": 0.7007449865341187 } }, { "id": 3724, "title": "Quantum Mechanics of Gravitational Waves", "abstract": "For the purpose of analyzing observed phenomena, it has been convenient, and thus far sufficient, to regard gravity as subject to the deterministic principles of classical physics, with the gravitatio...", "citations": 74, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3730, "doi": "10.1103/PhysRevLett.127.081602", "umap_coordinates": { "x": 395.3426208496094, "y": 136.3404083251953, "z": 208.1276092529297 }, "tsne_coordinates": { "x": -19.11162757873535, "y": -19.50115203857422, "z": 3.282463550567627 }, "pca_coordinates": { "x": 5.56724214553833, "y": 1.1958599090576172, "z": 1.315770149230957 }, "axis_scores": { "Quantum imaging": 0.7644830346107483, "Quantum Life Science Sensing": 0.7704704999923706, "Quantum sensing Detection": 0.7676560878753662, "Quantum sensing Metrology": 0.7548559904098511, "Quantum sensing navigation": 0.7793828248977661, "Quantum sensing Position": 0.7365724444389343, "Quantum sensing Timing": 0.7402291297912598, "Quantum sensing": 0.7736360430717468, "Quantum control": 0.7420641183853149 } }, { "id": 3725, "title": "Binuclear ruthenium(II) complexes for amyloid fibrils recognition", "abstract": "Metal-organic compounds represent a unique class of biomarkers with promising photophysical properties useful for imaging. Here interactions of insulin fibrils with two binuclear complexes [mu-(11,11 ...", "citations": 14, "author_count": 2, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3731, "doi": "10.1016/j.chemphys.2014.10.015", "umap_coordinates": { "x": 392.6681823730469, "y": 135.1960906982422, "z": 204.4605712890625 }, "tsne_coordinates": { "x": 14.3554105758667, "y": 13.916065216064453, "z": -3.544431209564209 }, "pca_coordinates": { "x": -2.014495372772217, "y": -2.1434402465820312, "z": -2.6312146186828613 }, "axis_scores": { "Quantum imaging": 0.7357763051986694, "Quantum Life Science Sensing": 0.7639687657356262, "Quantum sensing Detection": 0.7394775152206421, "Quantum sensing Metrology": 0.7242206335067749, "Quantum sensing navigation": 0.7289406061172485, "Quantum sensing Position": 0.6868486404418945, "Quantum sensing Timing": 0.6750888228416443, "Quantum sensing": 0.7451019287109375, "Quantum control": 0.6901120543479919 } }, { "id": 3726, "title": "Stacking InAs islands and GaAs layers: Strongly modulated one-dimensional electronic systems", "abstract": "With chemical beam epitaxy we stacked small InAs islands, separated by thin GaAs layers. Reflection electron diffraction during growth showed that after a seed-layer growth, subsequent depositions req...", "citations": 46, "author_count": 8, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3732, "doi": "10.1063/1.363248", "umap_coordinates": { "x": 393.2989196777344, "y": 133.96597290039062, "z": 208.53216552734375 }, "tsne_coordinates": { "x": 22.858810424804688, "y": -22.754056930541992, "z": -1.733407974243164 }, "pca_coordinates": { "x": 1.9107306003570557, "y": -3.643700122833252, "z": 0.4892163872718811 }, "axis_scores": { "Quantum imaging": 0.7230104207992554, "Quantum Life Science Sensing": 0.7154661417007446, "Quantum sensing Detection": 0.7090151309967041, "Quantum sensing Metrology": 0.7199726104736328, "Quantum sensing navigation": 0.711353063583374, "Quantum sensing Position": 0.6892104744911194, "Quantum sensing Timing": 0.6704033613204956, "Quantum sensing": 0.7311981320381165, "Quantum control": 0.7076238393783569 } }, { "id": 3727, "title": "Quantum social networks", "abstract": "We introduce a physical approach to social networks (SNs) in which each actor is characterized by a yes-no test on a physical system. This allows us to consider SNs beyond those originated by interact...", "citations": 11, "author_count": 5, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3733, "doi": "10.1088/1751-8113/45/28/285101", "umap_coordinates": { "x": 395.2208251953125, "y": 137.13465881347656, "z": 206.83441162109375 }, "tsne_coordinates": { "x": -35.84365463256836, "y": -8.297017097473145, "z": -0.13617053627967834 }, "pca_coordinates": { "x": 3.272617816925049, "y": 2.076101779937744, "z": 0.08238130807876587 }, "axis_scores": { "Quantum imaging": 0.8048296570777893, "Quantum Life Science Sensing": 0.7994695901870728, "Quantum sensing Detection": 0.7925306558609009, "Quantum sensing Metrology": 0.7822242379188538, "Quantum sensing navigation": 0.8070251941680908, "Quantum sensing Position": 0.7648721933364868, "Quantum sensing Timing": 0.7495124340057373, "Quantum sensing": 0.8150555491447449, "Quantum control": 0.7887853384017944 } }, { "id": 3728, "title": "Magnetism and Hund's rule in an optical lattice with cold fermions", "abstract": "We demonstrate that a two-dimensional (2D) optical lattice loaded with repulsive, contact-interacting fermions shows a rich and systematic magnetic phase diagram. Trapping a few (N <= 12) fermions in ...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3734, "doi": "10.1088/1367-2630/9/2/033", "umap_coordinates": { "x": 394.562744140625, "y": 136.2671356201172, "z": 207.5270538330078 }, "tsne_coordinates": { "x": -2.9423882961273193, "y": -18.217893600463867, "z": 35.35003662109375 }, "pca_coordinates": { "x": 2.2083401679992676, "y": 1.3361583948135376, "z": -0.0261765718460083 }, "axis_scores": { "Quantum imaging": 0.6849451065063477, "Quantum Life Science Sensing": 0.6826350688934326, "Quantum sensing Detection": 0.681989848613739, "Quantum sensing Metrology": 0.6864824891090393, "Quantum sensing navigation": 0.6951147317886353, "Quantum sensing Position": 0.6536896824836731, "Quantum sensing Timing": 0.6573320627212524, "Quantum sensing": 0.6921788454055786, "Quantum control": 0.6840733289718628 } }, { "id": 3729, "title": "K+ Exchanged Zeolite ZK-4 as a Highly Selective Sorbent for CO2", "abstract": "Adsorbents with high capacity and selectivity for adsorption of CO2 are currently being investigated for applications in adsorption-driven separation of CO2 from flue gas. An adsorbent with a particul...", "citations": 33, "author_count": 7, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3735, "doi": "10.1021/la502897p", "umap_coordinates": { "x": 391.94873046875, "y": 134.47935485839844, "z": 204.9717559814453 }, "tsne_coordinates": { "x": 4.901782035827637, "y": -11.723278045654297, "z": -18.154333114624023 }, "pca_coordinates": { "x": -2.058523416519165, "y": -1.162480354309082, "z": -2.482944965362549 }, "axis_scores": { "Quantum imaging": 0.6656014919281006, "Quantum Life Science Sensing": 0.678261399269104, "Quantum sensing Detection": 0.656546413898468, "Quantum sensing Metrology": 0.6490880250930786, "Quantum sensing navigation": 0.6735715270042419, "Quantum sensing Position": 0.6579915285110474, "Quantum sensing Timing": 0.63280189037323, "Quantum sensing": 0.6797482371330261, "Quantum control": 0.6550387144088745 } }, { "id": 3730, "title": "Thermoelectric current in topological insulator nanowires with impurities", "abstract": "In this paper we consider charge current generated by maintaining a temperature difference over a nanowire at zero voltage bias. For topological insulator nanowires in a perpendicular magnetic field t...", "citations": 7, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3736, "doi": "10.3762/bjnano.9.107", "umap_coordinates": { "x": 393.7774658203125, "y": 134.7032012939453, "z": 208.13824462890625 }, "tsne_coordinates": { "x": 5.293766021728516, "y": -20.827558517456055, "z": 6.349486351013184 }, "pca_coordinates": { "x": 2.0652666091918945, "y": -3.1846022605895996, "z": 1.315413236618042 }, "axis_scores": { "Quantum imaging": 0.7021116018295288, "Quantum Life Science Sensing": 0.6743406653404236, "Quantum sensing Detection": 0.6917276978492737, "Quantum sensing Metrology": 0.6806133389472961, "Quantum sensing navigation": 0.7073633670806885, "Quantum sensing Position": 0.6848452091217041, "Quantum sensing Timing": 0.6885006427764893, "Quantum sensing": 0.6934682130813599, "Quantum control": 0.6634863615036011 } }, { "id": 3731, "title": "SPACE-TIME SYMMETRIES OF QUANTIZED TENSIONLESS STRINGS", "abstract": "The tensionless limit of the free bosonic string is space-time conformally symmetric classically. Requiring invariance of the quantum theory in the light-cone gauge tests the reparametrization symmetr...", "citations": 41, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 3737, "doi": "10.1016/0370-2693(92)90890-G", "umap_coordinates": { "x": 394.31427001953125, "y": 137.2666015625, "z": 207.1957244873047 }, "tsne_coordinates": { "x": -23.186105728149414, "y": -7.041828632354736, "z": 23.87073516845703 }, "pca_coordinates": { "x": 2.7138490676879883, "y": 1.9748828411102295, "z": -1.0459541082382202 }, "axis_scores": { "Quantum imaging": 0.6906574368476868, "Quantum Life Science Sensing": 0.6965562105178833, "Quantum sensing Detection": 0.6798584461212158, "Quantum sensing Metrology": 0.6781506538391113, "Quantum sensing navigation": 0.7117921710014343, "Quantum sensing Position": 0.6943709254264832, "Quantum sensing Timing": 0.7070666551589966, "Quantum sensing": 0.6998284459114075, "Quantum control": 0.6859194040298462 } }, { "id": 3732, "title": "Unidirectional Enhanced Emission from 2D Monolayer Suspended by Dielectric Pillar Array", "abstract": "Monolayers of transition metal dichalcogenides show great promise for optoelectronic devices as atomically thin semiconductors. Although dielectric or metal nanostructures have been extensively studie...", "citations": 20, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3738, "doi": "10.1021/acsami.8b12701", "umap_coordinates": { "x": 392.3114013671875, "y": 134.28916931152344, "z": 206.58187866210938 }, "tsne_coordinates": { "x": 22.44468116760254, "y": -12.225773811340332, "z": -13.97797679901123 }, "pca_coordinates": { "x": -1.9930343627929688, "y": -5.000919342041016, "z": -0.5232293605804443 }, "axis_scores": { "Quantum imaging": 0.7036636471748352, "Quantum Life Science Sensing": 0.6940839290618896, "Quantum sensing Detection": 0.6771999001502991, "Quantum sensing Metrology": 0.6723477244377136, "Quantum sensing navigation": 0.6772916913032532, "Quantum sensing Position": 0.6590062975883484, "Quantum sensing Timing": 0.6359375715255737, "Quantum sensing": 0.6828330159187317, "Quantum control": 0.6619304418563843 } }, { "id": 3733, "title": "Distinctive character of electronic and vibrational coherences in disordered molecular aggregates", "abstract": "Coherent dynamics of coupled molecules are effectively characterized by the two-dimensional electronic spectroscopy. Depending on the coupling between electronic and vibrational states, oscillating si...", "citations": 106, "author_count": 5, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3739, "doi": "10.1016/j.cplett.2013.09.043", "umap_coordinates": { "x": 393.3951416015625, "y": 136.5316162109375, "z": 207.24562072753906 }, "tsne_coordinates": { "x": 7.663812160491943, "y": -1.552768349647522, "z": 13.012495994567871 }, "pca_coordinates": { "x": 2.1238853931427, "y": -1.0833053588867188, "z": -3.9368913173675537 }, "axis_scores": { "Quantum imaging": 0.7165402173995972, "Quantum Life Science Sensing": 0.7390366792678833, "Quantum sensing Detection": 0.7076402306556702, "Quantum sensing Metrology": 0.678612232208252, "Quantum sensing navigation": 0.6862960457801819, "Quantum sensing Position": 0.681846559047699, "Quantum sensing Timing": 0.6740270256996155, "Quantum sensing": 0.7195643186569214, "Quantum control": 0.7070830464363098 } }, { "id": 3734, "title": "Electron-phonon interactions on a single-branch quantum Hall edge", "abstract": "We consider the effect of electron-phonon interactions on edge states in quantum Hall systems with a single edge branch. The presence of electron-phonon interactions modifies the single-particle propa...", "citations": 18, "author_count": 3, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3740, "doi": "10.1103/PhysRevLett.77.358", "umap_coordinates": { "x": 394.44549560546875, "y": 134.78675842285156, "z": 208.8738555908203 }, "tsne_coordinates": { "x": 8.593348503112793, "y": -26.561342239379883, "z": -11.315592765808105 }, "pca_coordinates": { "x": 4.678969383239746, "y": -1.9998507499694824, "z": 1.31266188621521 }, "axis_scores": { "Quantum imaging": 0.6561581492424011, "Quantum Life Science Sensing": 0.6631076335906982, "Quantum sensing Detection": 0.6663402318954468, "Quantum sensing Metrology": 0.6459102630615234, "Quantum sensing navigation": 0.6690976023674011, "Quantum sensing Position": 0.658363938331604, "Quantum sensing Timing": 0.6450803875923157, "Quantum sensing": 0.6699259281158447, "Quantum control": 0.628889262676239 } }, { "id": 3735, "title": "Scalable Quantum Photonics with Single Color Centers in Silicon Carbide", "abstract": "Silicon carbide is a promising platform for single photon sources, quantum bits (qubits), and nanoscale sensors based on individual color centers. Toward this goal, we develop a scalable array of nano...", "citations": 175, "author_count": 13, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3741, "doi": "10.1021/acs.nanolett.6b05102", "umap_coordinates": { "x": 393.9089660644531, "y": 133.48487854003906, "z": 207.38673400878906 }, "tsne_coordinates": { "x": 16.319580078125, "y": -14.218677520751953, "z": -19.60295295715332 }, "pca_coordinates": { "x": -0.7393003702163696, "y": -4.285376071929932, "z": 2.4631214141845703 }, "axis_scores": { "Quantum imaging": 0.7511245012283325, "Quantum Life Science Sensing": 0.7293630838394165, "Quantum sensing Detection": 0.7468710541725159, "Quantum sensing Metrology": 0.7368189096450806, "Quantum sensing navigation": 0.7299591302871704, "Quantum sensing Position": 0.7120712399482727, "Quantum sensing Timing": 0.6992325782775879, "Quantum sensing": 0.7545157670974731, "Quantum control": 0.7270269393920898 } }, { "id": 3736, "title": "Phase rigidity and avoided level crossings in the complex energy plane", "abstract": "We consider the effective Hamiltonian of an open quantum system, its biorthogonal eigenfunctions phi(lambda), and define the value r(lambda)=(phi(lambda)parallel to phi(lambda))/ that characterizes th...", "citations": 45, "author_count": 4, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3742, "doi": "10.1103/PhysRevE.74.056204", "umap_coordinates": { "x": 394.2716064453125, "y": 136.51708984375, "z": 208.71347045898438 }, "tsne_coordinates": { "x": 2.169891595840454, "y": -36.4351692199707, "z": -5.883455753326416 }, "pca_coordinates": { "x": 3.889427661895752, "y": 1.358595371246338, "z": -2.185112714767456 }, "axis_scores": { "Quantum imaging": 0.6821597814559937, "Quantum Life Science Sensing": 0.6817349791526794, "Quantum sensing Detection": 0.66993647813797, "Quantum sensing Metrology": 0.6628289222717285, "Quantum sensing navigation": 0.699307918548584, "Quantum sensing Position": 0.6881478428840637, "Quantum sensing Timing": 0.6827720999717712, "Quantum sensing": 0.669624388217926, "Quantum control": 0.6707146763801575 } }, { "id": 3737, "title": "Majorana fermions in topological-insulator nanowires: From single superconducting nanowires to Josephson junctions", "abstract": "Signatures of Majorana-fermion bound states in one-dimensional topological-insulator (TI) nanowires with proximity-effect-induced superconductivity are studied. The phase diagram and energy spectra ar...", "citations": 7, "author_count": 3, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3743, "doi": "10.1103/PhysRevB.95.155420", "umap_coordinates": { "x": 393.7146301269531, "y": 134.45753479003906, "z": 208.8407745361328 }, "tsne_coordinates": { "x": 10.822855949401855, "y": -24.353954315185547, "z": -5.850516319274902 }, "pca_coordinates": { "x": 4.311311721801758, "y": -3.876668930053711, "z": 1.3107788562774658 }, "axis_scores": { "Quantum imaging": 0.6827400326728821, "Quantum Life Science Sensing": 0.6724079847335815, "Quantum sensing Detection": 0.6859660148620605, "Quantum sensing Metrology": 0.6837459802627563, "Quantum sensing navigation": 0.7183887958526611, "Quantum sensing Position": 0.67045658826828, "Quantum sensing Timing": 0.6730155348777771, "Quantum sensing": 0.6902204751968384, "Quantum control": 0.6732153296470642 } }, { "id": 3738, "title": "Flux qubit noise spectroscopy using Rabi oscillations under strong driving conditions", "abstract": "We infer the high-frequency flux noise spectrum in a superconducting flux qubit by studying the decay of Rabi oscillations under strong driving conditions. The large anharmonicity of the qubit and its...", "citations": 88, "author_count": 8, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3744, "doi": "10.1103/PhysRevB.89.020503", "umap_coordinates": { "x": 394.2155456542969, "y": 135.63836669921875, "z": 208.1931915283203 }, "tsne_coordinates": { "x": -16.93012046813965, "y": -34.873741149902344, "z": 20.121599197387695 }, "pca_coordinates": { "x": 3.4381251335144043, "y": -1.3165674209594727, "z": 0.6725971102714539 }, "axis_scores": { "Quantum imaging": 0.7310248017311096, "Quantum Life Science Sensing": 0.7499653100967407, "Quantum sensing Detection": 0.7468531131744385, "Quantum sensing Metrology": 0.7372126579284668, "Quantum sensing navigation": 0.7539308667182922, "Quantum sensing Position": 0.7133412957191467, "Quantum sensing Timing": 0.6964468359947205, "Quantum sensing": 0.7443322539329529, "Quantum control": 0.7193397879600525 } }, { "id": 3739, "title": "Mechanically mediated electron transfer in model metallo-enzyme interfaces", "abstract": "In this paper, we develop a physical analysis of charge transfer in the model 'metallo-enzyme' complex which consists of a synthetic redox-addressed assembly (a 'reaction center') hybridized with a qu...", "citations": 6, "author_count": 3, "categories": [ "Biophysics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3745, "doi": "10.1016/j.bios.2006.06.032", "umap_coordinates": { "x": 392.9924011230469, "y": 136.77316284179688, "z": 205.25811767578125 }, "tsne_coordinates": { "x": 9.885723114013672, "y": 17.436847686767578, "z": 20.940961837768555 }, "pca_coordinates": { "x": -0.2846490144729614, "y": 0.23232221603393555, "z": -3.2798523902893066 }, "axis_scores": { "Quantum imaging": 0.6959126591682434, "Quantum Life Science Sensing": 0.7095096111297607, "Quantum sensing Detection": 0.6830518245697021, "Quantum sensing Metrology": 0.6946327686309814, "Quantum sensing navigation": 0.6826703548431396, "Quantum sensing Position": 0.6870286464691162, "Quantum sensing Timing": 0.6435831785202026, "Quantum sensing": 0.6990405321121216, "Quantum control": 0.6740255951881409 } }, { "id": 3740, "title": "Modeling the Structure and Absorption Spectra of Stilbazolium Merocyanine in Polar and Nonpolar Solvents Using Hybrid QM/MM Techniques", "abstract": "We have performed Car-Parrinello mixed quantum mechanics/molecular mechanics (CP-QM/MM) calculations for stilbazolium merocyanine (SM) in polar and nonpolar solvents in order to explore the role of so...", "citations": 57, "author_count": 6, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3746, "doi": "10.1021/jp1060717", "umap_coordinates": { "x": 392.44464111328125, "y": 136.33416748046875, "z": 205.4270477294922 }, "tsne_coordinates": { "x": -6.2477874755859375, "y": 4.7228922843933105, "z": -14.833276748657227 }, "pca_coordinates": { "x": -2.399263381958008, "y": -0.6695561408996582, "z": -0.5849286317825317 }, "axis_scores": { "Quantum imaging": 0.6955235004425049, "Quantum Life Science Sensing": 0.7222099900245667, "Quantum sensing Detection": 0.6687263250350952, "Quantum sensing Metrology": 0.6899152994155884, "Quantum sensing navigation": 0.6648956537246704, "Quantum sensing Position": 0.6574647426605225, "Quantum sensing Timing": 0.6511645317077637, "Quantum sensing": 0.6871007680892944, "Quantum control": 0.6427450776100159 } }, { "id": 3741, "title": "OPTICAL AND PHOTOPHYSICAL PROPERTIES OF THE OXAZOLE YELLOW DNA PROBES YO AND YOYO", "abstract": "The photophysical properties of the optical DNA probe YOYO (homodimeric derivative of oxazole yellow) have been characterized in terms of the monomeric part, the YO chromophore. In aqueous solutions Y...", "citations": 153, "author_count": 6, "categories": [ "Chemistry" ], "year": 1994, "topic": [ "all" ], "embedding_index": 3747, "doi": "10.1021/j100091a055", "umap_coordinates": { "x": 392.4771728515625, "y": 136.16650390625, "z": 204.5980987548828 }, "tsne_coordinates": { "x": 3.5955536365509033, "y": 13.792686462402344, "z": 3.2955009937286377 }, "pca_coordinates": { "x": -2.418640613555908, "y": -0.8305869102478027, "z": -2.0088858604431152 }, "axis_scores": { "Quantum imaging": 0.7337878346443176, "Quantum Life Science Sensing": 0.7575859427452087, "Quantum sensing Detection": 0.7218501567840576, "Quantum sensing Metrology": 0.7050995826721191, "Quantum sensing navigation": 0.7181617021560669, "Quantum sensing Position": 0.6908442378044128, "Quantum sensing Timing": 0.6762774586677551, "Quantum sensing": 0.733748733997345, "Quantum control": 0.7049596905708313 } }, { "id": 3742, "title": "Dilute nitrides-based nanowires-a promising platform for nanoscale photonics and energy technology", "abstract": "Dilute nitrides are novel III-V-N semiconductor alloys promising for a great variety of applications ranging from nanoscale light emitters and solar cells to energy production via photoelectrochemical...", "citations": 17, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3748, "doi": "10.1088/1361-6528/ab1516", "umap_coordinates": { "x": 393.66070556640625, "y": 133.83409118652344, "z": 206.9757080078125 }, "tsne_coordinates": { "x": 6.72067403793335, "y": -24.508573532104492, "z": -23.273035049438477 }, "pca_coordinates": { "x": -0.26070910692214966, "y": -2.600490093231201, "z": 1.877732515335083 }, "axis_scores": { "Quantum imaging": 0.7088667750358582, "Quantum Life Science Sensing": 0.7135937809944153, "Quantum sensing Detection": 0.7000146508216858, "Quantum sensing Metrology": 0.6946243047714233, "Quantum sensing navigation": 0.7082772254943848, "Quantum sensing Position": 0.6740451455116272, "Quantum sensing Timing": 0.6562628746032715, "Quantum sensing": 0.711136519908905, "Quantum control": 0.6858594417572021 } }, { "id": 3743, "title": "Evidence for an insulating ground state in high-resistivity icosahedral AlPdRe from the magnetoresistance -: art. no. 172202", "abstract": "Magnetoresistance (MR) has been studied between 1.5-8 K in magnetic fields B up to 12 T in icosahedral (i)-AlPdRe samples prepared by two different methods and with resistance ratios R[ = rho (4 K)/rh...", "citations": 27, "author_count": 5, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3749, "doi": "10.1103/PhysRevB.63.172202", "umap_coordinates": { "x": 393.68402099609375, "y": 136.44322204589844, "z": 208.65579223632812 }, "tsne_coordinates": { "x": 4.114301681518555, "y": -41.55078887939453, "z": 15.740263938903809 }, "pca_coordinates": { "x": 2.5749220848083496, "y": -0.1658458709716797, "z": -2.417426109313965 }, "axis_scores": { "Quantum imaging": 0.6286354064941406, "Quantum Life Science Sensing": 0.675907552242279, "Quantum sensing Detection": 0.6325394511222839, "Quantum sensing Metrology": 0.6435240507125854, "Quantum sensing navigation": 0.6520079970359802, "Quantum sensing Position": 0.6331354379653931, "Quantum sensing Timing": 0.6153703331947327, "Quantum sensing": 0.6452507972717285, "Quantum control": 0.6142253279685974 } }, { "id": 3744, "title": "Perovskite photonic crystal photoelectric devices", "abstract": "Metal halide perovskite materials have been extensively explored in modern photonic devices. Photonic crystals (PCs) are periodic structures with specific optical properties, such as photonic stop ban...", "citations": 19, "author_count": 11, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3750, "doi": "10.1063/5.0106118", "umap_coordinates": { "x": 393.5109558105469, "y": 133.7913818359375, "z": 206.98104858398438 }, "tsne_coordinates": { "x": 10.818229675292969, "y": -12.173541069030762, "z": -18.635652542114258 }, "pca_coordinates": { "x": -0.11584329605102539, "y": -3.7081332206726074, "z": 1.6228244304656982 }, "axis_scores": { "Quantum imaging": 0.7470382452011108, "Quantum Life Science Sensing": 0.7399308085441589, "Quantum sensing Detection": 0.7273003458976746, "Quantum sensing Metrology": 0.7297579646110535, "Quantum sensing navigation": 0.710532009601593, "Quantum sensing Position": 0.7040836215019226, "Quantum sensing Timing": 0.699662983417511, "Quantum sensing": 0.7457171678543091, "Quantum control": 0.7190316319465637 } }, { "id": 3745, "title": "Mapping of Defects in Individual Silicon Nanocrystals Using Real-Space Spectroscopy", "abstract": "The photophysical properties of silicon semiconductor nanocrystals (SiNCs) are extremely sensitive to the presence of surface chemical defects, many of which are easily produced by oxidation under amb...", "citations": 12, "author_count": 12, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3751, "doi": "10.1021/acs.jpclett.6b00176", "umap_coordinates": { "x": 393.3207092285156, "y": 133.6905975341797, "z": 206.90164184570312 }, "tsne_coordinates": { "x": 25.06783103942871, "y": -16.739864349365234, "z": -12.478318214416504 }, "pca_coordinates": { "x": -2.2611172199249268, "y": -2.4179906845092773, "z": 1.6507277488708496 }, "axis_scores": { "Quantum imaging": 0.7514520883560181, "Quantum Life Science Sensing": 0.7653841972351074, "Quantum sensing Detection": 0.7456461787223816, "Quantum sensing Metrology": 0.7428099513053894, "Quantum sensing navigation": 0.7419832348823547, "Quantum sensing Position": 0.7459641695022583, "Quantum sensing Timing": 0.7133159637451172, "Quantum sensing": 0.7598357200622559, "Quantum control": 0.6937289834022522 } }, { "id": 3746, "title": "Impact of the ion-ion energy transfer on quantum computing schemes in rare-earth doped solids", "abstract": "We analyze the Ce3+-Pr3+:Y2SiO5 emission spectra obtained under selective excitation of the two Ce3+ sites in Y2SiO5 and we show clear evidence of direct energy transfer from Ce3+ to Pr3+. Energy tran...", "citations": 6, "author_count": 9, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3752, "doi": "10.1016/j.jlumin.2014.01.072", "umap_coordinates": { "x": 393.3619079589844, "y": 135.0376739501953, "z": 206.00694274902344 }, "tsne_coordinates": { "x": 27.974809646606445, "y": 4.856588840484619, "z": 13.157875061035156 }, "pca_coordinates": { "x": -0.2624821662902832, "y": -0.8936512470245361, "z": -1.880314588546753 }, "axis_scores": { "Quantum imaging": 0.7707067728042603, "Quantum Life Science Sensing": 0.7674379944801331, "Quantum sensing Detection": 0.7528253793716431, "Quantum sensing Metrology": 0.7353395819664001, "Quantum sensing navigation": 0.727439284324646, "Quantum sensing Position": 0.7258622050285339, "Quantum sensing Timing": 0.7169702053070068, "Quantum sensing": 0.7700133323669434, "Quantum control": 0.7368791103363037 } }, { "id": 3747, "title": "Quantum-interference effects in the o1Πu(v=1)∼b1Πu(v=9) Rydberg-valence complex of molecular nitrogen", "abstract": "Two distinct high-resolution experimental techniques, 1 XUV + 1 ' UV laser-based ionization spectroscopy and synchrotron-based XUV photoabsorption spectroscopy, have been used to study the o(1) Pi(u)(...", "citations": 13, "author_count": 8, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3753, "doi": "10.1080/00268970701291750", "umap_coordinates": { "x": 393.9296875, "y": 136.22340393066406, "z": 206.91404724121094 }, "tsne_coordinates": { "x": 3.534269332885742, "y": -0.1038108840584755, "z": 21.517614364624023 }, "pca_coordinates": { "x": 1.7124300003051758, "y": 0.7566236257553101, "z": -0.6359021067619324 }, "axis_scores": { "Quantum imaging": 0.7253945469856262, "Quantum Life Science Sensing": 0.7104238867759705, "Quantum sensing Detection": 0.7084115147590637, "Quantum sensing Metrology": 0.6890181303024292, "Quantum sensing navigation": 0.7231887578964233, "Quantum sensing Position": 0.6777523159980774, "Quantum sensing Timing": 0.6801798343658447, "Quantum sensing": 0.7170611619949341, "Quantum control": 0.7047996520996094 } }, { "id": 3748, "title": "Secondary electron imaging of nanostructures using Extreme Ultra-Violet attosecond pulse trains and Infra-Red femtosecond pulses", "abstract": "Surface electron dynamics unfold at time and length scales down to attoseconds and nanometres, making direct imaging with extreme spatiotemporal resolution highly desirable. However, this has turned o...", "citations": 13, "author_count": 11, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3754, "doi": "10.1002/andp.201200269", "umap_coordinates": { "x": 394.1854553222656, "y": 133.81227111816406, "z": 205.8743896484375 }, "tsne_coordinates": { "x": -13.566475868225098, "y": -5.857218265533447, "z": -8.387540817260742 }, "pca_coordinates": { "x": -2.2783899307250977, "y": -1.0845494270324707, "z": 1.747525691986084 }, "axis_scores": { "Quantum imaging": 0.7342736721038818, "Quantum Life Science Sensing": 0.7248592972755432, "Quantum sensing Detection": 0.7002354264259338, "Quantum sensing Metrology": 0.6911236047744751, "Quantum sensing navigation": 0.6896350383758545, "Quantum sensing Position": 0.661270797252655, "Quantum sensing Timing": 0.6741177439689636, "Quantum sensing": 0.7103474140167236, "Quantum control": 0.6663463115692139 } }, { "id": 3749, "title": "Charge state control of the silicon vacancy and divacancy in silicon carbide", "abstract": "Color centers in silicon carbide (SiC), such as the negative silicon vacancy (V-Si(-)) and neutral divacancy (VSiVC0), have recently been shown to be promising quantum bits (qubits) for a variety of a...", "citations": 41, "author_count": 3, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3755, "doi": "10.1063/5.0052131", "umap_coordinates": { "x": 393.3709411621094, "y": 135.46527099609375, "z": 207.46070861816406 }, "tsne_coordinates": { "x": 4.925785541534424, "y": -13.013277053833008, "z": 2.814828634262085 }, "pca_coordinates": { "x": 1.1419644355773926, "y": -0.4131498336791992, "z": -1.2556462287902832 }, "axis_scores": { "Quantum imaging": 0.6987812519073486, "Quantum Life Science Sensing": 0.7333557605743408, "Quantum sensing Detection": 0.7136175632476807, "Quantum sensing Metrology": 0.7146303057670593, "Quantum sensing navigation": 0.7255028486251831, "Quantum sensing Position": 0.7131280899047852, "Quantum sensing Timing": 0.6793044805526733, "Quantum sensing": 0.7208578586578369, "Quantum control": 0.744742751121521 } }, { "id": 3750, "title": "Landau-Zener quantum tunneling in disordered nanomagnets - art. no. 184426", "abstract": "We study Landau-Zener macroscopic quantum transitions in ferromagnetic metal nanoparticles containing on the order of 100 atoms. The model that we consider is described by an effective giant-spin Hami...", "citations": 4, "author_count": 4, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3756, "doi": "10.1103/PhysRevB.70.184426", "umap_coordinates": { "x": 394.2822570800781, "y": 135.8489532470703, "z": 209.10511779785156 }, "tsne_coordinates": { "x": 2.587465286254883, "y": -35.26132583618164, "z": 9.507701873779297 }, "pca_coordinates": { "x": 4.894011974334717, "y": -1.126051425933838, "z": -0.9242091178894043 }, "axis_scores": { "Quantum imaging": 0.7064940333366394, "Quantum Life Science Sensing": 0.7359187006950378, "Quantum sensing Detection": 0.7153185606002808, "Quantum sensing Metrology": 0.7244192361831665, "Quantum sensing navigation": 0.7382258176803589, "Quantum sensing Position": 0.7120914459228516, "Quantum sensing Timing": 0.6948620676994324, "Quantum sensing": 0.7303888201713562, "Quantum control": 0.6980140209197998 } }, { "id": 3751, "title": "Two-photon Franson-type experiments and local realism", "abstract": "The two-photon interferometric experiment proposed by J.D. Franson [Phys. Rev. Lett. 62, 2205 (1989)] is often treated as a Bell test of local realism. However, it has been suggested that this is inco...", "citations": 83, "author_count": 5, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3757, "doi": "10.1103/PhysRevLett.83.2872", "umap_coordinates": { "x": 395.90179443359375, "y": 137.02879333496094, "z": 207.1168975830078 }, "tsne_coordinates": { "x": -18.159324645996094, "y": -1.9904218912124634, "z": 3.37947416305542 }, "pca_coordinates": { "x": 1.647010326385498, "y": 2.36594820022583, "z": 1.0638141632080078 }, "axis_scores": { "Quantum imaging": 0.7290085554122925, "Quantum Life Science Sensing": 0.7149627208709717, "Quantum sensing Detection": 0.7166711688041687, "Quantum sensing Metrology": 0.7125647068023682, "Quantum sensing navigation": 0.7047531008720398, "Quantum sensing Position": 0.6812822818756104, "Quantum sensing Timing": 0.6896041631698608, "Quantum sensing": 0.7345213890075684, "Quantum control": 0.6983224153518677 } }, { "id": 3752, "title": "Probing electronic decoherence with high-resolution attosecond photoelectron interferometry", "abstract": "Quantum coherence plays a fundamental role in the study and control of ultrafast dynamics in matter. In the case of photoionization, entanglement of the photoelectron with the ion is a well-known sour...", "citations": 22, "author_count": 18, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3758, "doi": "10.1140/epjd/s10053-022-00438-y", "umap_coordinates": { "x": 395.9967041015625, "y": 134.83424377441406, "z": 206.99676513671875 }, "tsne_coordinates": { "x": -26.541305541992188, "y": 10.412490844726562, "z": 0.22150644659996033 }, "pca_coordinates": { "x": 1.1024458408355713, "y": 0.17971229553222656, "z": 2.1418514251708984 }, "axis_scores": { "Quantum imaging": 0.7293965816497803, "Quantum Life Science Sensing": 0.7293193936347961, "Quantum sensing Detection": 0.7275880575180054, "Quantum sensing Metrology": 0.6987475752830505, "Quantum sensing navigation": 0.7214903831481934, "Quantum sensing Position": 0.7106363773345947, "Quantum sensing Timing": 0.708395779132843, "Quantum sensing": 0.7308303117752075, "Quantum control": 0.7082276344299316 } }, { "id": 3753, "title": "Cold collisions in strong laser fields: partial wave analysis of magnesium collisions", "abstract": "We have developed Monte Carlo wave function simulation schemes to study cold collisions between magnesium atoms in a strong red-detuned laser field. In order to address the strong-field problem, we ex...", "citations": 1, "author_count": 4, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3759, "doi": "10.1140/epjd/e2006-00147-6", "umap_coordinates": { "x": 395.8936767578125, "y": 135.0821990966797, "z": 207.07757568359375 }, "tsne_coordinates": { "x": -42.330413818359375, "y": 3.4779844284057617, "z": -4.443307399749756 }, "pca_coordinates": { "x": 0.966106653213501, "y": 2.460157632827759, "z": 0.18801158666610718 }, "axis_scores": { "Quantum imaging": 0.6986887454986572, "Quantum Life Science Sensing": 0.6780583262443542, "Quantum sensing Detection": 0.6790419220924377, "Quantum sensing Metrology": 0.6725238561630249, "Quantum sensing navigation": 0.6668639183044434, "Quantum sensing Position": 0.6767442226409912, "Quantum sensing Timing": 0.684941291809082, "Quantum sensing": 0.6801059246063232, "Quantum control": 0.6721693873405457 } }, { "id": 3754, "title": "Two-photon correlations and Hong-Ou-Mandel visibility from an imperfect single-photon source", "abstract": "We study the single-photon purity of a resonantly driven single-photon source in the realistic scenario where the excitation laser pulse can leak into the detection path. We find that the duration of ...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3760, "doi": "10.1103/PhysRevApplied.23.054063", "umap_coordinates": { "x": 395.10516357421875, "y": 134.33277893066406, "z": 207.7841033935547 }, "tsne_coordinates": { "x": -5.224111080169678, "y": -16.669437408447266, "z": -10.194403648376465 }, "pca_coordinates": { "x": 2.5615549087524414, "y": 0.7160358428955078, "z": 3.818236827850342 }, "axis_scores": { "Quantum imaging": 0.7642310857772827, "Quantum Life Science Sensing": 0.747968316078186, "Quantum sensing Detection": 0.7608393430709839, "Quantum sensing Metrology": 0.7486777901649475, "Quantum sensing navigation": 0.7486352920532227, "Quantum sensing Position": 0.7170826196670532, "Quantum sensing Timing": 0.7282353043556213, "Quantum sensing": 0.7610803246498108, "Quantum control": 0.7092684507369995 } }, { "id": 3755, "title": "Energy and power fluctuations in ac-driven coherent conductors", "abstract": "Using a scattering matrix approach we study transport in coherent conductors driven by a time-periodic bias voltage. We investigate the role of electron-like and hole-like excitations created by the d...", "citations": 43, "author_count": 4, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3761, "doi": "10.1103/PhysRevB.90.085418", "umap_coordinates": { "x": 393.7532653808594, "y": 136.26724243164062, "z": 207.8278045654297 }, "tsne_coordinates": { "x": -15.260074615478516, "y": -26.895721435546875, "z": 4.746943950653076 }, "pca_coordinates": { "x": 3.9065327644348145, "y": -1.2998051643371582, "z": -0.8912653923034668 }, "axis_scores": { "Quantum imaging": 0.7059904932975769, "Quantum Life Science Sensing": 0.7374270558357239, "Quantum sensing Detection": 0.7084360718727112, "Quantum sensing Metrology": 0.6871916055679321, "Quantum sensing navigation": 0.6958104968070984, "Quantum sensing Position": 0.660605251789093, "Quantum sensing Timing": 0.6661306619644165, "Quantum sensing": 0.7139855027198792, "Quantum control": 0.7223870754241943 } }, { "id": 3756, "title": "X-Ray Diffraction from Isolated and Strongly Aligned Gas-Phase Molecules with a Free-Electron Laser", "abstract": "We report experimental results on x-ray diffraction of quantum-state-selected and strongly aligned ensembles of the prototypical asymmetric rotor molecule 2,5-diiodobenzonitrile using the Linac Cohere...", "citations": 240, "author_count": 56, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3762, "doi": "10.1103/PhysRevLett.112.083002", "umap_coordinates": { "x": 394.79071044921875, "y": 134.80699157714844, "z": 207.3944549560547 }, "tsne_coordinates": { "x": -17.340147018432617, "y": -24.18797492980957, "z": -24.060091018676758 }, "pca_coordinates": { "x": 2.1424713134765625, "y": -1.2892229557037354, "z": 0.8987482190132141 }, "axis_scores": { "Quantum imaging": 0.6886885166168213, "Quantum Life Science Sensing": 0.687659502029419, "Quantum sensing Detection": 0.6733604669570923, "Quantum sensing Metrology": 0.6593671441078186, "Quantum sensing navigation": 0.6777812242507935, "Quantum sensing Position": 0.668509304523468, "Quantum sensing Timing": 0.6385214924812317, "Quantum sensing": 0.6854145526885986, "Quantum control": 0.6565629243850708 } }, { "id": 3757, "title": "Quantum dynamics of the reaction of hydrogen atom with methane", "abstract": "Time-independent quantum scattering calculations on the H + CH4 --> H-2 + CH3 reaction have been performed by using a four-dimensional rotating bond umbrella (RBU) model, based on a modified potential...", "citations": 39, "author_count": 2, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3763, "doi": "10.1016/S0009-2614(00)01313-0", "umap_coordinates": { "x": 394.00592041015625, "y": 136.89605712890625, "z": 206.2458953857422 }, "tsne_coordinates": { "x": -8.242229461669922, "y": 13.70511245727539, "z": 22.451370239257812 }, "pca_coordinates": { "x": 1.3795878887176514, "y": 2.298269748687744, "z": -1.8206920623779297 }, "axis_scores": { "Quantum imaging": 0.7394302487373352, "Quantum Life Science Sensing": 0.7554671764373779, "Quantum sensing Detection": 0.7357686161994934, "Quantum sensing Metrology": 0.7276669144630432, "Quantum sensing navigation": 0.7309849858283997, "Quantum sensing Position": 0.7238380908966064, "Quantum sensing Timing": 0.709953784942627, "Quantum sensing": 0.7490084171295166, "Quantum control": 0.7437235116958618 } }, { "id": 3758, "title": "Engineering the level structure of a giant artificial atom in waveguide quantum electrodynamics", "abstract": "Engineering light-matter interactions at the quantum level has been central to the pursuit of quantum optics for decades. Traditionally, this has been done by coupling emitters, typically natural atom...", "citations": 128, "author_count": 8, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3764, "doi": "10.1103/PhysRevA.103.023710", "umap_coordinates": { "x": 394.7210998535156, "y": 135.88900756835938, "z": 208.09649658203125 }, "tsne_coordinates": { "x": -16.723440170288086, "y": -22.020252227783203, "z": -12.736632347106934 }, "pca_coordinates": { "x": 3.964569091796875, "y": -1.005622148513794, "z": 0.09305328130722046 }, "axis_scores": { "Quantum imaging": 0.7352317571640015, "Quantum Life Science Sensing": 0.7359323501586914, "Quantum sensing Detection": 0.732031524181366, "Quantum sensing Metrology": 0.7198389172554016, "Quantum sensing navigation": 0.7514610290527344, "Quantum sensing Position": 0.7122362852096558, "Quantum sensing Timing": 0.6886904835700989, "Quantum sensing": 0.7379730343818665, "Quantum control": 0.7196901440620422 } }, { "id": 3759, "title": "Structure-Guided Design of D-Galactal Derivatives with High Affinity and Selectivity for the Galectin-8 N-Terminal Domain", "abstract": "Galectin-8 is a carbohydrate-binding protein that plays a crucial role in tumor progression and metastasis, antibacterial autophagy, modulation of the immune system, and bone remodeling. The design, s...", "citations": 13, "author_count": 12, "categories": [ "Pharmacology & Pharmacy" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3765, "doi": "10.1021/acsmedchemlett.1c00371", "umap_coordinates": { "x": 393.0647888183594, "y": 135.33981323242188, "z": 204.60963439941406 }, "tsne_coordinates": { "x": 12.279792785644531, "y": 17.1990909576416, "z": -17.390443801879883 }, "pca_coordinates": { "x": -3.3275158405303955, "y": 0.936276912689209, "z": -1.0538471937179565 }, "axis_scores": { "Quantum imaging": 0.6881743669509888, "Quantum Life Science Sensing": 0.6943848133087158, "Quantum sensing Detection": 0.6631531119346619, "Quantum sensing Metrology": 0.6656362414360046, "Quantum sensing navigation": 0.708202600479126, "Quantum sensing Position": 0.6599833369255066, "Quantum sensing Timing": 0.6351479291915894, "Quantum sensing": 0.6775180101394653, "Quantum control": 0.6767718195915222 } }, { "id": 3760, "title": "A parallel quantum mechanical MD simulation of liquids", "abstract": "A parallel implementation to perform quantum molecular dynamics simulations of liquids on Born-Oppenheimer surfaces is evaluated. The MD method allows the use of atomic energy gradient forces at an ar...", "citations": 7, "author_count": 3, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3766, "doi": "10.1080/08927029808022037", "umap_coordinates": { "x": 394.06756591796875, "y": 137.17803955078125, "z": 206.9817352294922 }, "tsne_coordinates": { "x": -6.147147178649902, "y": 9.340720176696777, "z": 27.79034996032715 }, "pca_coordinates": { "x": 1.512535810470581, "y": 1.4990930557250977, "z": -0.45252957940101624 }, "axis_scores": { "Quantum imaging": 0.7203892469406128, "Quantum Life Science Sensing": 0.7133519649505615, "Quantum sensing Detection": 0.6949183940887451, "Quantum sensing Metrology": 0.6824542284011841, "Quantum sensing navigation": 0.7059365510940552, "Quantum sensing Position": 0.683790385723114, "Quantum sensing Timing": 0.6799914240837097, "Quantum sensing": 0.7076596021652222, "Quantum control": 0.7034410834312439 } }, { "id": 3761, "title": "Femtosecond UV/mid-IR study of photochromism of the spiropyran 1′,3′-dihydro-1′,3′,3′-trimethyl-6-nitrospiro-[2H-1-benzopyran-2,2′-(2H)-indole] in solution", "abstract": "The ring-opening reaction of 1',3'-dihydro-1',3',3'-trimethyl-6-nitrospiro[2H-1-benzopyran-2,2'-(2H)-indole] is investigated in two solvents, by probing the evolution of the vibrational absorption spe...", "citations": 44, "author_count": 5, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3767, "doi": "10.1016/S0009-2614(03)00949-7", "umap_coordinates": { "x": 393.7154846191406, "y": 135.21498107910156, "z": 205.27435302734375 }, "tsne_coordinates": { "x": 0.17677903175354004, "y": 7.3323187828063965, "z": 7.12391471862793 }, "pca_coordinates": { "x": -2.9245827198028564, "y": 0.1320209503173828, "z": -0.5176219940185547 }, "axis_scores": { "Quantum imaging": 0.7030719518661499, "Quantum Life Science Sensing": 0.7477913498878479, "Quantum sensing Detection": 0.6921389102935791, "Quantum sensing Metrology": 0.7045324444770813, "Quantum sensing navigation": 0.6932069659233093, "Quantum sensing Position": 0.6976923942565918, "Quantum sensing Timing": 0.6638473868370056, "Quantum sensing": 0.7043923735618591, "Quantum control": 0.6540663242340088 } }, { "id": 3762, "title": "POLARIZED AND DEPOLARIZED DYNAMIC LIGHT-SCATTERING OF CONCENTRATED POLYSTYRENE SOLUTIONS", "abstract": "Polarized and depolarized dynamic light scattering have been used to examine the dynamics of concentrated polystyrene solutions in dioctyl phthalate and toluene. Time-temperature superposition of the ...", "citations": 1, "author_count": 3, "categories": [ "Polymer Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 3768, "doi": "10.1002/masy.19940790114", "umap_coordinates": { "x": 393.412841796875, "y": 135.562255859375, "z": 205.48269653320312 }, "tsne_coordinates": { "x": -0.3968488872051239, "y": -2.605165719985962, "z": 34.90141296386719 }, "pca_coordinates": { "x": -1.8692870140075684, "y": 1.7247095108032227, "z": -1.5257418155670166 }, "axis_scores": { "Quantum imaging": 0.6767444610595703, "Quantum Life Science Sensing": 0.6949486136436462, "Quantum sensing Detection": 0.6608092784881592, "Quantum sensing Metrology": 0.6592077612876892, "Quantum sensing navigation": 0.671204686164856, "Quantum sensing Position": 0.6594441533088684, "Quantum sensing Timing": 0.6148195266723633, "Quantum sensing": 0.6782171726226807, "Quantum control": 0.6645759344100952 } }, { "id": 3763, "title": "Structural and Magnetic Properties of the Holmium-Yttrium Superlattice", "abstract": "The structural and magnetic properties of the multilayer holmium-yttrium system are investigated by superconducting quantum interference device (SQUID) magnetometry and X-ray and neutron scattering. T...", "citations": 6, "author_count": 8, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3769, "doi": "10.1134/S1027451014050425", "umap_coordinates": { "x": 392.2480163574219, "y": 136.08294677734375, "z": 206.9384307861328 }, "tsne_coordinates": { "x": 11.53096866607666, "y": -16.344099044799805, "z": 24.04753875732422 }, "pca_coordinates": { "x": -0.9737890362739563, "y": -1.0118772983551025, "z": -2.287769317626953 }, "axis_scores": { "Quantum imaging": 0.6839562058448792, "Quantum Life Science Sensing": 0.6973099708557129, "Quantum sensing Detection": 0.6524109840393066, "Quantum sensing Metrology": 0.6750650405883789, "Quantum sensing navigation": 0.6444938778877258, "Quantum sensing Position": 0.654198408126831, "Quantum sensing Timing": 0.6652461290359497, "Quantum sensing": 0.6829082369804382, "Quantum control": 0.6436046957969666 } }, { "id": 3764, "title": "Controlled polytypic and twin-plane superlattices in III-V nanowires", "abstract": "Semiconductor nanowires show promise for use in nanoelectronics, fundamental electron transport studies, quantum optics and biological sensing. Such applications require a high degree of nanowire grow...", "citations": 705, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3770, "doi": "10.1038/NNANO.2008.359", "umap_coordinates": { "x": 392.2278747558594, "y": 134.3556671142578, "z": 207.4642333984375 }, "tsne_coordinates": { "x": 21.531890869140625, "y": -14.010368347167969, "z": -8.791170120239258 }, "pca_coordinates": { "x": -0.10331833362579346, "y": -3.4996066093444824, "z": -0.06762176752090454 }, "axis_scores": { "Quantum imaging": 0.715024471282959, "Quantum Life Science Sensing": 0.7056180238723755, "Quantum sensing Detection": 0.7019595503807068, "Quantum sensing Metrology": 0.7035398483276367, "Quantum sensing navigation": 0.7218910455703735, "Quantum sensing Position": 0.6744347810745239, "Quantum sensing Timing": 0.6956950426101685, "Quantum sensing": 0.7216669917106628, "Quantum control": 0.7251078486442566 } }, { "id": 3765, "title": "Nonlinear collective effects in photon-photon and photon-plasma interactions", "abstract": "Strong-field effects in laboratory and astrophysical plasmas and high intensity laser and cavity systems are considered, related to quantum electrodynamical (QED) photon-photon scattering. Current sta...", "citations": 1015, "author_count": 3, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3771, "doi": "10.1103/RevModPhys.78.591", "umap_coordinates": { "x": 394.4813232421875, "y": 135.23435974121094, "z": 207.78768920898438 }, "tsne_coordinates": { "x": -10.667716979980469, "y": -22.372060775756836, "z": -15.63540267944336 }, "pca_coordinates": { "x": 2.071168899536133, "y": -0.47801995277404785, "z": 1.1040279865264893 }, "axis_scores": { "Quantum imaging": 0.7484674453735352, "Quantum Life Science Sensing": 0.7335901260375977, "Quantum sensing Detection": 0.7354036569595337, "Quantum sensing Metrology": 0.7128687500953674, "Quantum sensing navigation": 0.7267584204673767, "Quantum sensing Position": 0.6967766880989075, "Quantum sensing Timing": 0.6853101849555969, "Quantum sensing": 0.7429402470588684, "Quantum control": 0.7086284160614014 } }, { "id": 3766, "title": "COMPARISON OF SIZE DISTRIBUTION DATA FROM DYNAMIC LIGHT-SCATTERING AND SIZE-EXCLUSION CHROMATOGRAPHY", "abstract": "The intensity-defined distribution functions of hydrodynamic radii of equivalent spheres, R(h), Obtained from dynamic light-scattering experiments using the CONTIN procedure via the Stokes formula wer...", "citations": 10, "author_count": 4, "categories": [ "Polymer Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3772, "doi": "10.1002/app.1995.070581114", "umap_coordinates": { "x": 393.7566223144531, "y": 134.94529724121094, "z": 204.8057403564453 }, "tsne_coordinates": { "x": 6.698296546936035, "y": 22.497798919677734, "z": 11.38988971710205 }, "pca_coordinates": { "x": -2.096162796020508, "y": 1.886462926864624, "z": 0.4402642846107483 }, "axis_scores": { "Quantum imaging": 0.6689568758010864, "Quantum Life Science Sensing": 0.6852152347564697, "Quantum sensing Detection": 0.6532429456710815, "Quantum sensing Metrology": 0.6444404125213623, "Quantum sensing navigation": 0.6558644771575928, "Quantum sensing Position": 0.6497967839241028, "Quantum sensing Timing": 0.6382125020027161, "Quantum sensing": 0.6654664874076843, "Quantum control": 0.6478033065795898 } }, { "id": 3767, "title": "OPTICALLY DETECTED ESR (OD-ESR) OF ION-RADICAL PAIRS IN COLORED SOLUTIONS - OBSERVATION OF TRANSIENT TRANS-AZOBENZENE RADICAL-CATION", "abstract": "Trans-azobenzene dissolved in different liquid hydrocarbons absorbs fluorescence arising from all acceptors previously used in Fluorescence Detected Magnetic Resonance (FDMR) and Optically Detected ES...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 3773, "doi": "10.1007/BF03162475", "umap_coordinates": { "x": 393.0022888183594, "y": 136.06396484375, "z": 205.7760009765625 }, "tsne_coordinates": { "x": -2.272136688232422, "y": 14.356348037719727, "z": -12.290939331054688 }, "pca_coordinates": { "x": -0.5269279479980469, "y": 0.7033694982528687, "z": -1.1976889371871948 }, "axis_scores": { "Quantum imaging": 0.7142402529716492, "Quantum Life Science Sensing": 0.7452458143234253, "Quantum sensing Detection": 0.7232624292373657, "Quantum sensing Metrology": 0.6981310248374939, "Quantum sensing navigation": 0.7111943960189819, "Quantum sensing Position": 0.7028756141662598, "Quantum sensing Timing": 0.7069986462593079, "Quantum sensing": 0.7205256819725037, "Quantum control": 0.6701692938804626 } }, { "id": 3768, "title": "Polymer photonics and nano-materials for optical communication", "abstract": "Polymer materials offer process compatibility, design flexibility, and low cost technology as a multi-functional platform for optical communication and photonics applications. Design and thermal reflo...", "citations": 1, "author_count": 10, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3774, "doi": null, "umap_coordinates": { "x": 391.76422119140625, "y": 139.46170043945312, "z": 209.4854736328125 }, "tsne_coordinates": { "x": -10.743659019470215, "y": 40.60920715332031, "z": -7.978700637817383 }, "pca_coordinates": { "x": -2.667358875274658, "y": 1.815692663192749, "z": -0.41253846883773804 }, "axis_scores": { "Quantum imaging": 0.7321624755859375, "Quantum Life Science Sensing": 0.7370351552963257, "Quantum sensing Detection": 0.7138306498527527, "Quantum sensing Metrology": 0.7116353511810303, "Quantum sensing navigation": 0.7141586542129517, "Quantum sensing Position": 0.6961053013801575, "Quantum sensing Timing": 0.6687235832214355, "Quantum sensing": 0.7256652116775513, "Quantum control": 0.7100507616996765 } }, { "id": 3769, "title": "Hybrid thermal machines: Generalized thermodynamic resources for multitasking", "abstract": "Thermal machines perform useful tasks, such as producing work, cooling, or heating by exchanging energy, and possibly additional conserved quantities such as particles, with reservoirs. Here we consid...", "citations": 45, "author_count": 8, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3775, "doi": "10.1103/PhysRevResearch.2.043302", "umap_coordinates": { "x": 395.1554870605469, "y": 136.69717407226562, "z": 208.01805114746094 }, "tsne_coordinates": { "x": -27.54984474182129, "y": -22.422208786010742, "z": -8.776467323303223 }, "pca_coordinates": { "x": 1.9810295104980469, "y": 0.8385770320892334, "z": -1.0062941312789917 }, "axis_scores": { "Quantum imaging": 0.7181346416473389, "Quantum Life Science Sensing": 0.740697979927063, "Quantum sensing Detection": 0.7143493294715881, "Quantum sensing Metrology": 0.7340167760848999, "Quantum sensing navigation": 0.7206047773361206, "Quantum sensing Position": 0.6950326561927795, "Quantum sensing Timing": 0.6999937891960144, "Quantum sensing": 0.7399085164070129, "Quantum control": 0.7201343774795532 } }, { "id": 3770, "title": "Jahn-Teller-induced Berry phase in spin-orbit-coupled Bose-Einstein condensates", "abstract": "We demonstrate that Berry phases may greatly affect the dynamics of spin-orbit-coupled Bose-Einstein condensates. The effective model Hamiltonian under consideration is shown to be equivalent to the E...", "citations": 63, "author_count": 3, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3776, "doi": "10.1103/PhysRevA.79.043627", "umap_coordinates": { "x": 393.968017578125, "y": 136.61289978027344, "z": 208.66575622558594 }, "tsne_coordinates": { "x": -10.916268348693848, "y": -15.900795936584473, "z": 12.571989059448242 }, "pca_coordinates": { "x": 5.098238468170166, "y": -0.1904284954071045, "z": -2.165756940841675 }, "axis_scores": { "Quantum imaging": 0.6958645582199097, "Quantum Life Science Sensing": 0.6971725225448608, "Quantum sensing Detection": 0.6928501725196838, "Quantum sensing Metrology": 0.683304488658905, "Quantum sensing navigation": 0.69718998670578, "Quantum sensing Position": 0.6707708239555359, "Quantum sensing Timing": 0.6803362965583801, "Quantum sensing": 0.7021234631538391, "Quantum control": 0.6913509964942932 } }, { "id": 3771, "title": "CROSSOVER FROM LOGARITHMICALLY RELAXING TO PIEZOMAGNETICALLY FROZEN MAGNETIC REMANENCE IN LOW-FIELD-COOLED FE0.47ZN0.53F2", "abstract": "Weak-field-induced magnetization M and temporal relaxation of its remanence mu are investigated in Fe0.47Zn0.53F2 by using Faraday rotation and superconducting quantum interference device (SQUID) magn...", "citations": 23, "author_count": 5, "categories": [ "Materials Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 3777, "doi": "10.1103/PhysRevB.49.6346", "umap_coordinates": { "x": 393.1849670410156, "y": 136.9437713623047, "z": 208.3686065673828 }, "tsne_coordinates": { "x": 8.235810279846191, "y": -34.6866569519043, "z": 26.634817123413086 }, "pca_coordinates": { "x": 2.739871025085449, "y": 0.3632805347442627, "z": -3.7374002933502197 }, "axis_scores": { "Quantum imaging": 0.671393632888794, "Quantum Life Science Sensing": 0.7039673924446106, "Quantum sensing Detection": 0.6572446227073669, "Quantum sensing Metrology": 0.6700894832611084, "Quantum sensing navigation": 0.6747891306877136, "Quantum sensing Position": 0.6603060960769653, "Quantum sensing Timing": 0.647739827632904, "Quantum sensing": 0.6787641048431396, "Quantum control": 0.6625508069992065 } }, { "id": 3772, "title": "High-repetition-rate, hard x-ray radiation from a laser-produced plasma:: Photon yield and application considerations", "abstract": "We present an experimental study of hard x rays produced in laser-produced plasmas. The laser used is a 1 kHz system, delivering 0.7 mJ for 25 fs onto a solid target. The x-ray spectrum was measured w...", "citations": 30, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3778, "doi": "10.1063/1.1544054", "umap_coordinates": { "x": 394.4573059082031, "y": 134.70968627929688, "z": 207.02305603027344 }, "tsne_coordinates": { "x": -22.101350784301758, "y": 16.5860652923584, "z": -27.09395408630371 }, "pca_coordinates": { "x": -1.3441708087921143, "y": 0.8204433917999268, "z": 1.9370617866516113 }, "axis_scores": { "Quantum imaging": 0.6934826374053955, "Quantum Life Science Sensing": 0.70351243019104, "Quantum sensing Detection": 0.6877709031105042, "Quantum sensing Metrology": 0.6691188216209412, "Quantum sensing navigation": 0.6496735215187073, "Quantum sensing Position": 0.6517273783683777, "Quantum sensing Timing": 0.6614559292793274, "Quantum sensing": 0.6984502673149109, "Quantum control": 0.6614987254142761 } }, { "id": 3773, "title": "Theory of fluorescence correlation spectroscopy on single molecules", "abstract": "A theoretical framework is presented that connects classic fluorescence correlation spectroscopy (FCS) treating averages of many freely diffusing molecules and FCS single-molecule analysis. By assumin...", "citations": 25, "author_count": 2, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3779, "doi": "10.1021/jp000100r", "umap_coordinates": { "x": 394.666748046875, "y": 134.03736877441406, "z": 207.59521484375 }, "tsne_coordinates": { "x": -2.8028368949890137, "y": -14.212502479553223, "z": -18.030078887939453 }, "pca_coordinates": { "x": 0.680361270904541, "y": -0.33138155937194824, "z": 0.49163585901260376 }, "axis_scores": { "Quantum imaging": 0.7468658089637756, "Quantum Life Science Sensing": 0.7736726999282837, "Quantum sensing Detection": 0.7605937719345093, "Quantum sensing Metrology": 0.7441325783729553, "Quantum sensing navigation": 0.7405346632003784, "Quantum sensing Position": 0.7166310548782349, "Quantum sensing Timing": 0.7202105522155762, "Quantum sensing": 0.7669549584388733, "Quantum control": 0.7212182879447937 } }, { "id": 3774, "title": "Size-selected nanocrystals of III-V semiconductor materials by the aerotaxy method", "abstract": "In this paper we present a fabrication route to produce size-selected III-V semiconductor nanocrystals via a simple, reliable, and efficient aerosol route. Since this approach includes the reaction of...", "citations": 24, "author_count": 7, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3780, "doi": "10.1016/S0021-8502(97)10017-9", "umap_coordinates": { "x": 392.773193359375, "y": 133.8761749267578, "z": 206.04132080078125 }, "tsne_coordinates": { "x": 32.61241912841797, "y": -1.830812931060791, "z": -6.838266372680664 }, "pca_coordinates": { "x": -3.482161283493042, "y": -1.4477877616882324, "z": -0.14687258005142212 }, "axis_scores": { "Quantum imaging": 0.6689580678939819, "Quantum Life Science Sensing": 0.7097047567367554, "Quantum sensing Detection": 0.6745666861534119, "Quantum sensing Metrology": 0.6835567951202393, "Quantum sensing navigation": 0.6848503947257996, "Quantum sensing Position": 0.6806868314743042, "Quantum sensing Timing": 0.6497927904129028, "Quantum sensing": 0.6880533695220947, "Quantum control": 0.6588359475135803 } }, { "id": 3775, "title": "Superconducting Cold-Electron Bolometers with JFET Readout for OLIMPO Balloon Telescope", "abstract": "The OLIMPO experiment is a 2.6 m balloon-borne telescope, aimed at measuring the Sunyaev-Zeldovich effect in clusters of Galaxies. OLIMPO will carry out surveys in four frequency bands centered at 140...", "citations": 9, "author_count": 4, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3781, "doi": "10.1088/1742-6596/43/1/317", "umap_coordinates": { "x": 395.2648010253906, "y": 134.44322204589844, "z": 207.0608673095703 }, "tsne_coordinates": { "x": -9.883167266845703, "y": -6.068872451782227, "z": -37.42778778076172 }, "pca_coordinates": { "x": 0.0033135414123535156, "y": 0.7300684452056885, "z": 3.0374536514282227 }, "axis_scores": { "Quantum imaging": 0.6602680087089539, "Quantum Life Science Sensing": 0.6695376038551331, "Quantum sensing Detection": 0.6552586555480957, "Quantum sensing Metrology": 0.6550130248069763, "Quantum sensing navigation": 0.6639852523803711, "Quantum sensing Position": 0.6383147835731506, "Quantum sensing Timing": 0.6663335561752319, "Quantum sensing": 0.6524901390075684, "Quantum control": 0.6326584219932556 } }, { "id": 3776, "title": "Higher-capacity communication links based on two-mode phase-sensitive amplifiers", "abstract": "Optical communication links are usually made with erbium-doped fiber amplifiers, which amplify the signal waves in a phase-insensitive (PI) manner. They can also be made with parametric fiber amplifie...", "citations": 11, "author_count": 5, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3782, "doi": "10.1364/OE.19.011977", "umap_coordinates": { "x": 394.60284423828125, "y": 134.60952758789062, "z": 206.4566650390625 }, "tsne_coordinates": { "x": -2.289548635482788, "y": -4.921770095825195, "z": -32.91929244995117 }, "pca_coordinates": { "x": -0.5675565004348755, "y": 0.6793572902679443, "z": 2.619987964630127 }, "axis_scores": { "Quantum imaging": 0.6578851938247681, "Quantum Life Science Sensing": 0.6427813768386841, "Quantum sensing Detection": 0.6546198725700378, "Quantum sensing Metrology": 0.6447327136993408, "Quantum sensing navigation": 0.6448453664779663, "Quantum sensing Position": 0.6435897946357727, "Quantum sensing Timing": 0.6456226706504822, "Quantum sensing": 0.6626745462417603, "Quantum control": 0.6329200267791748 } }, { "id": 3777, "title": "Faraday rotation spectrometer with sub-second response time for detection of nitric oxide using a cw DFB quantum cascade laser at 5.33 μm", "abstract": "A Faraday modulation spectrometer for sensitive and fast detection of nitric oxide at 5.33 mu m utilizing a room temperature continuous wave distributed feedback quantum cascade laser and a Peltier co...", "citations": 43, "author_count": 5, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3783, "doi": "10.1007/s00340-010-4336-8", "umap_coordinates": { "x": 394.4231872558594, "y": 135.06768798828125, "z": 205.59991455078125 }, "tsne_coordinates": { "x": -6.228013038635254, "y": 9.747432708740234, "z": 0.740297257900238 }, "pca_coordinates": { "x": -1.8232678174972534, "y": 2.0498242378234863, "z": 0.6225113272666931 }, "axis_scores": { "Quantum imaging": 0.7003551125526428, "Quantum Life Science Sensing": 0.760170578956604, "Quantum sensing Detection": 0.7176453471183777, "Quantum sensing Metrology": 0.7213170528411865, "Quantum sensing navigation": 0.7198963761329651, "Quantum sensing Position": 0.6886478662490845, "Quantum sensing Timing": 0.6950629949569702, "Quantum sensing": 0.7260939478874207, "Quantum control": 0.6890569925308228 } }, { "id": 3778, "title": "Materials, devices, and systems for high-speed single-photon counting", "abstract": "Optical communications and high-speed optoelectronics are enabling technologies for modern information networks. Driven by the need for improved bandwidth, high efficiency, and low noise, advances ove...", "citations": 6, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3784, "doi": "10.1557/s43577-022-00345-y", "umap_coordinates": { "x": 394.6679992675781, "y": 133.44427490234375, "z": 206.51820373535156 }, "tsne_coordinates": { "x": -17.667245864868164, "y": 4.602431774139404, "z": -24.58763313293457 }, "pca_coordinates": { "x": -1.9328970909118652, "y": -0.9408845901489258, "z": 2.950054168701172 }, "axis_scores": { "Quantum imaging": 0.730374813079834, "Quantum Life Science Sensing": 0.7497103810310364, "Quantum sensing Detection": 0.726656436920166, "Quantum sensing Metrology": 0.7363709211349487, "Quantum sensing navigation": 0.7294571399688721, "Quantum sensing Position": 0.7024465203285217, "Quantum sensing Timing": 0.7163034677505493, "Quantum sensing": 0.7425835132598877, "Quantum control": 0.7093030214309692 } }, { "id": 3779, "title": "Optimization of operating conditions in photon counting multi-slit mammography based on Si-strip detectors", "abstract": "Measurements and simulations of the signal-difference-to-noise ratio (SDNR) and average glandular dose (AGD) have been performed on a photon counting full-field digital mammography system to determine...", "citations": 7, "author_count": 5, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3785, "doi": "10.1117/12.652728", "umap_coordinates": { "x": 395.3830871582031, "y": 132.63638305664062, "z": 205.8421173095703 }, "tsne_coordinates": { "x": -11.634012222290039, "y": 21.420116424560547, "z": -22.678773880004883 }, "pca_coordinates": { "x": -2.9292492866516113, "y": -0.1939537525177002, "z": 4.5571770668029785 }, "axis_scores": { "Quantum imaging": 0.7134174108505249, "Quantum Life Science Sensing": 0.7070174217224121, "Quantum sensing Detection": 0.7098655104637146, "Quantum sensing Metrology": 0.7194702625274658, "Quantum sensing navigation": 0.7018586993217468, "Quantum sensing Position": 0.6976624131202698, "Quantum sensing Timing": 0.6950227618217468, "Quantum sensing": 0.7106614112854004, "Quantum control": 0.6596704721450806 } }, { "id": 3780, "title": "Nontrivial quantum and quantum-like effects in biosystems: Unsolved questions and paradoxes", "abstract": "Non-trivial quantum effects in biological systems are analyzed. Some unresolved issues and paradoxes related to quantum effects (Levinthal's paradox, the paradox of speed, and mechanisms of evolution)...", "citations": 39, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3786, "doi": "10.1016/j.pbiomolbio.2015.07.001", "umap_coordinates": { "x": 394.7531433105469, "y": 136.96812438964844, "z": 205.95706176757812 }, "tsne_coordinates": { "x": -18.002262115478516, "y": 13.197612762451172, "z": 19.655258178710938 }, "pca_coordinates": { "x": 1.187173843383789, "y": 2.2401509284973145, "z": -2.4773032665252686 }, "axis_scores": { "Quantum imaging": 0.7730953097343445, "Quantum Life Science Sensing": 0.7790372967720032, "Quantum sensing Detection": 0.7595508694648743, "Quantum sensing Metrology": 0.735773503780365, "Quantum sensing navigation": 0.7451644539833069, "Quantum sensing Position": 0.721187174320221, "Quantum sensing Timing": 0.716068685054779, "Quantum sensing": 0.765889585018158, "Quantum control": 0.7414288520812988 } }, { "id": 3781, "title": "Development and validation of a full model of a four-headed neuroimaging single-photon emission computed tomography scanner", "abstract": "Objective The Nucline X-Ring 4R is a four-headed gamma camera dedicated to neuroimaging. In this paper, we describe and validate a GATE (Geant4 Application for Tomographic Emission) model of the Nucli...", "citations": 1, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3787, "doi": "10.1097/MNM.0000000000000939", "umap_coordinates": { "x": 395.045654296875, "y": 133.89251708984375, "z": 204.91168212890625 }, "tsne_coordinates": { "x": -10.944314956665039, "y": 24.883953094482422, "z": -0.4756653606891632 }, "pca_coordinates": { "x": -1.9963526725769043, "y": 3.808631420135498, "z": 2.306593179702759 }, "axis_scores": { "Quantum imaging": 0.7122220993041992, "Quantum Life Science Sensing": 0.6848270893096924, "Quantum sensing Detection": 0.6819875836372375, "Quantum sensing Metrology": 0.6925014853477478, "Quantum sensing navigation": 0.6916893124580383, "Quantum sensing Position": 0.6641274690628052, "Quantum sensing Timing": 0.6551785469055176, "Quantum sensing": 0.6950908899307251, "Quantum control": 0.6668285727500916 } }, { "id": 3782, "title": "The Role of Probe Photophysics in Localization-Based Superresolution Microscopy", "abstract": "Fluorescent proteins are used extensively for biological imaging applications; photoactivatable and photoconvertible fluorescent proteins (PAFPs) are used widely in superresolution localization micros...", "citations": 27, "author_count": 4, "categories": [ "Biophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3788, "doi": "10.1016/j.bpj.2017.08.054", "umap_coordinates": { "x": 393.89324951171875, "y": 135.7975311279297, "z": 204.9881134033203 }, "tsne_coordinates": { "x": 3.1486692428588867, "y": 20.35323143005371, "z": 2.6620304584503174 }, "pca_coordinates": { "x": -1.8382635116577148, "y": 0.4058349132537842, "z": -1.0034046173095703 }, "axis_scores": { "Quantum imaging": 0.7656592726707458, "Quantum Life Science Sensing": 0.768000602722168, "Quantum sensing Detection": 0.7466249465942383, "Quantum sensing Metrology": 0.7389428019523621, "Quantum sensing navigation": 0.7415211200714111, "Quantum sensing Position": 0.7543395161628723, "Quantum sensing Timing": 0.7077808380126953, "Quantum sensing": 0.7660865783691406, "Quantum control": 0.7156108021736145 } }, { "id": 3783, "title": "Localization and Dynamics of Long-Lived Excitations in Colloidal Semiconductor Nanocrystals with Dual Quantum Confinement", "abstract": "Semiconductor nanocrystals consisting of a quantum dot (QD) core and a quantum well (QW) shell, where the QD and QW are separated by a tunneling barrier, offer a unique opportunity to engineer the pho...", "citations": 12, "author_count": 6, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3789, "doi": "10.1002/cphc.201402826", "umap_coordinates": { "x": 392.3371276855469, "y": 135.45623779296875, "z": 207.09136962890625 }, "tsne_coordinates": { "x": 16.975255966186523, "y": -2.8921847343444824, "z": 10.475540161132812 }, "pca_coordinates": { "x": 0.5424574613571167, "y": -2.7085723876953125, "z": -1.0286980867385864 }, "axis_scores": { "Quantum imaging": 0.7400469183921814, "Quantum Life Science Sensing": 0.7500534653663635, "Quantum sensing Detection": 0.7318263053894043, "Quantum sensing Metrology": 0.6972184181213379, "Quantum sensing navigation": 0.7261909246444702, "Quantum sensing Position": 0.6981031894683838, "Quantum sensing Timing": 0.7101414799690247, "Quantum sensing": 0.7363501191139221, "Quantum control": 0.709265947341919 } }, { "id": 3784, "title": "Superconducting nanowire single-photon detectors at the infrared spectrum range: detection efficiency and timing jitter", "abstract": "This paper reviews some recent research progress in superconducting nanowire single-photon detectors (SNSPDs) at the infrared spectrum range, with particular emphasis on detection efficiency and timin...", "citations": 1, "author_count": 13, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3790, "doi": "10.1117/12.2516132", "umap_coordinates": { "x": 394.7222595214844, "y": 133.1366729736328, "z": 207.17079162597656 }, "tsne_coordinates": { "x": -9.529716491699219, "y": 5.808999061584473, "z": -29.70676040649414 }, "pca_coordinates": { "x": -0.6814202070236206, "y": -2.1838951110839844, "z": 4.523687362670898 }, "axis_scores": { "Quantum imaging": 0.7153372168540955, "Quantum Life Science Sensing": 0.7215230464935303, "Quantum sensing Detection": 0.7455302476882935, "Quantum sensing Metrology": 0.732362687587738, "Quantum sensing navigation": 0.7304654121398926, "Quantum sensing Position": 0.723593533039093, "Quantum sensing Timing": 0.7796630859375, "Quantum sensing": 0.7448538541793823, "Quantum control": 0.698425829410553 } }, { "id": 3785, "title": "ON THE ROLE OF GLU-68 IN ALCOHOL-DEHYDROGENASE", "abstract": "Theoretical computations (molecular dynamics and combined quantum chemical and molecular mechanical geometry optimizations) have been performed on horse liver alcohol dehydrogenase. The results provid...", "citations": 92, "author_count": 2, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3791, "doi": "10.1002/pro.5560040611", "umap_coordinates": { "x": 394.2044982910156, "y": 136.39898681640625, "z": 205.43138122558594 }, "tsne_coordinates": { "x": 5.369348526000977, "y": 20.787471771240234, "z": 33.43452453613281 }, "pca_coordinates": { "x": -0.32900017499923706, "y": 2.024082660675049, "z": -2.3939249515533447 }, "axis_scores": { "Quantum imaging": 0.6440988183021545, "Quantum Life Science Sensing": 0.6493455171585083, "Quantum sensing Detection": 0.6350472569465637, "Quantum sensing Metrology": 0.6259844899177551, "Quantum sensing navigation": 0.6573368310928345, "Quantum sensing Position": 0.6615966558456421, "Quantum sensing Timing": 0.6366097927093506, "Quantum sensing": 0.6536162495613098, "Quantum control": 0.6634597182273865 } }, { "id": 3786, "title": "Efficient and flexible approach to simulate low-dimensional quantum lattice models with large local Hilbert spaces", "abstract": "Quantum lattice models with large local Hilbert spaces emerge across various fields in quantum many-body physics. Problems such as the interplay between fermions and phonons, the BCS-BEC crossover of ...", "citations": 25, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3792, "doi": "10.21468/SciPostPhys.10.3.058", "umap_coordinates": { "x": 395.01971435546875, "y": 137.3525848388672, "z": 206.9943084716797 }, "tsne_coordinates": { "x": -30.391386032104492, "y": -16.38271713256836, "z": 12.645917892456055 }, "pca_coordinates": { "x": 1.3672313690185547, "y": 2.517867088317871, "z": 0.5002674460411072 }, "axis_scores": { "Quantum imaging": 0.7351704239845276, "Quantum Life Science Sensing": 0.7405527234077454, "Quantum sensing Detection": 0.7186301946640015, "Quantum sensing Metrology": 0.7026681900024414, "Quantum sensing navigation": 0.7271353602409363, "Quantum sensing Position": 0.7057671546936035, "Quantum sensing Timing": 0.6961584091186523, "Quantum sensing": 0.7338305115699768, "Quantum control": 0.710311770439148 } }, { "id": 3787, "title": "Magnetization of ultrathin (Ga,Mn)As layers - art. no. 184421", "abstract": "Kerr rotation and superconducting quantum interference device magnetometry measurements were performed on ultrathin (Ga0.95Mn0.05)As layers. The thinner layers (below 250 A) exhibit magnetic propertie...", "citations": 18, "author_count": 10, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3793, "doi": "10.1103/PhysRevB.68.184421", "umap_coordinates": { "x": 393.61016845703125, "y": 135.9467010498047, "z": 209.18392944335938 }, "tsne_coordinates": { "x": 3.3614678382873535, "y": -36.351104736328125, "z": 10.286243438720703 }, "pca_coordinates": { "x": 3.4748435020446777, "y": -1.6325736045837402, "z": -1.2562689781188965 }, "axis_scores": { "Quantum imaging": 0.6868374347686768, "Quantum Life Science Sensing": 0.7078418135643005, "Quantum sensing Detection": 0.6835981607437134, "Quantum sensing Metrology": 0.7022552490234375, "Quantum sensing navigation": 0.7104007005691528, "Quantum sensing Position": 0.6897438168525696, "Quantum sensing Timing": 0.6585678458213806, "Quantum sensing": 0.7026018500328064, "Quantum control": 0.6646006107330322 } }, { "id": 3788, "title": "High photon count rates improve the quality of super-resolution fluorescence fluctuation spectroscopy", "abstract": "Probing the diffusion of molecules has become a routine measurement across the life sciences, chemistry and physics. It provides valuable insights into reaction dynamics, oligomerisation, molecular (r...", "citations": 16, "author_count": 11, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3794, "doi": "10.1088/1361-6463/ab6cca", "umap_coordinates": { "x": 394.70281982421875, "y": 134.7164306640625, "z": 205.7208709716797 }, "tsne_coordinates": { "x": -6.815467834472656, "y": 8.862845420837402, "z": -16.106365203857422 }, "pca_coordinates": { "x": -1.2809312343597412, "y": 0.33032703399658203, "z": 1.4919617176055908 }, "axis_scores": { "Quantum imaging": 0.7277024388313293, "Quantum Life Science Sensing": 0.7272159457206726, "Quantum sensing Detection": 0.7111883163452148, "Quantum sensing Metrology": 0.7032046318054199, "Quantum sensing navigation": 0.7100454568862915, "Quantum sensing Position": 0.6831340193748474, "Quantum sensing Timing": 0.6912239789962769, "Quantum sensing": 0.7308987379074097, "Quantum control": 0.7042455673217773 } }, { "id": 3789, "title": "Accurate intermolecular potentials obtained from molecular wave functions:: Bridging the gap between quantum chemistry and molecular simulations", "abstract": "", "citations": 187, "author_count": 4, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3795, "doi": "10.1021/cr9900477", "umap_coordinates": { "x": 393.4653015136719, "y": 137.20204162597656, "z": 205.7041015625 }, "tsne_coordinates": { "x": -6.29557466506958, "y": 6.294774055480957, "z": 17.188846588134766 }, "pca_coordinates": { "x": 0.5037628412246704, "y": -0.1406097412109375, "z": -2.472498893737793 }, "axis_scores": { "Quantum imaging": 0.7052645683288574, "Quantum Life Science Sensing": 0.7136021256446838, "Quantum sensing Detection": 0.6867246031761169, "Quantum sensing Metrology": 0.6904861330986023, "Quantum sensing navigation": 0.7002278566360474, "Quantum sensing Position": 0.6743805408477783, "Quantum sensing Timing": 0.6871344447135925, "Quantum sensing": 0.7119846343994141, "Quantum control": 0.6879202723503113 } }, { "id": 3790, "title": "Modeling and Minimizing Spontaneous Raman Scattering for QKD Secured DWDM Networks", "abstract": "Quantum key distribution (QKD) provides information-theoretic security based on quantum mechanics. Integrating QKD with classical data traffic by using wavelength division multiplexing (WDM) technique...", "citations": 14, "author_count": 3, "categories": [ "Telecommunications" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3796, "doi": "10.1109/LCOMM.2021.3116755", "umap_coordinates": { "x": 394.6256408691406, "y": 134.1255645751953, "z": 206.03147888183594 }, "tsne_coordinates": { "x": -0.6944867372512817, "y": 3.34431529045105, "z": -39.878204345703125 }, "pca_coordinates": { "x": -0.48271286487579346, "y": 0.9051369428634644, "z": 1.1078572273254395 }, "axis_scores": { "Quantum imaging": 0.696262776851654, "Quantum Life Science Sensing": 0.7098110914230347, "Quantum sensing Detection": 0.6983071565628052, "Quantum sensing Metrology": 0.7152131795883179, "Quantum sensing navigation": 0.7053724527359009, "Quantum sensing Position": 0.6706814765930176, "Quantum sensing Timing": 0.6808415055274963, "Quantum sensing": 0.706901490688324, "Quantum control": 0.6971899271011353 } }, { "id": 3791, "title": "Shape of Multireference, Equation-of-Motion Coupled-Cluster, and Density Functional Theory Potential Energy Surfaces at a Conical Intersection", "abstract": "We report and characterize ground-state and excited-state potential energy profiles using a variety of electronic structure methods along a loop lying on the branching plane associated with a conical ...", "citations": 185, "author_count": 13, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3797, "doi": "10.1021/ct500154k", "umap_coordinates": { "x": 393.2024841308594, "y": 137.14080810546875, "z": 206.3594970703125 }, "tsne_coordinates": { "x": -13.019927024841309, "y": -7.5739946365356445, "z": 23.49852752685547 }, "pca_coordinates": { "x": -0.5184924006462097, "y": 1.2841181755065918, "z": -1.9459142684936523 }, "axis_scores": { "Quantum imaging": 0.6939045190811157, "Quantum Life Science Sensing": 0.6978684663772583, "Quantum sensing Detection": 0.6735337376594543, "Quantum sensing Metrology": 0.671191930770874, "Quantum sensing navigation": 0.6596903800964355, "Quantum sensing Position": 0.676048755645752, "Quantum sensing Timing": 0.6729738712310791, "Quantum sensing": 0.6812412738800049, "Quantum control": 0.6762475371360779 } }, { "id": 3792, "title": "Billion atom molecular dynamics simulations of carbon at extreme conditions and experimental time and length scales", "abstract": "Billion atom molecular dynamics (MD) using quantum-accurate machine-learning Spectral Neighbor Analysis Potential (SNAP) observed long-sought high pressure BC8 phase of carbon at extreme pressure (12 ...", "citations": 34, "author_count": 10, "categories": [ "Computer Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3798, "doi": "10.1145/3458817.3487400", "umap_coordinates": { "x": 394.1112976074219, "y": 137.0072784423828, "z": 206.83950805664062 }, "tsne_coordinates": { "x": -11.944748878479004, "y": -6.47819185256958, "z": 34.545387268066406 }, "pca_coordinates": { "x": 1.44252347946167, "y": 2.8941893577575684, "z": -1.6236622333526611 }, "axis_scores": { "Quantum imaging": 0.6970789432525635, "Quantum Life Science Sensing": 0.7352504134178162, "Quantum sensing Detection": 0.6771564483642578, "Quantum sensing Metrology": 0.6779757738113403, "Quantum sensing navigation": 0.6795635223388672, "Quantum sensing Position": 0.6759241223335266, "Quantum sensing Timing": 0.7033258676528931, "Quantum sensing": 0.6997146606445312, "Quantum control": 0.6960298418998718 } }, { "id": 3793, "title": "Search for the jet-induced diffusion wake in the quark-gluon plasma via measurements of jet-track correlations in photon-jet events in Pb plus Pb collisions at √sNN=5.02 TeV with the ATLAS detector", "abstract": "This paper presents a measurement of jet-track correlations in photon-jet events, using 1.72 nb(-1) of Pb+Pb data at root s(NN) = 5.02 TeV recorded with the ATLAS detector at the LHC. Events with ener...", "citations": 5, "author_count": 2685, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3799, "doi": "10.1103/PhysRevC.111.044909", "umap_coordinates": { "x": 396.6277770996094, "y": 134.4167022705078, "z": 207.70399475097656 }, "tsne_coordinates": { "x": -38.56949234008789, "y": 4.901696681976318, "z": -13.95905590057373 }, "pca_coordinates": { "x": 2.076300621032715, "y": -0.03855609893798828, "z": 2.90455961227417 }, "axis_scores": { "Quantum imaging": 0.6748877763748169, "Quantum Life Science Sensing": 0.6651973724365234, "Quantum sensing Detection": 0.6825512051582336, "Quantum sensing Metrology": 0.6596047878265381, "Quantum sensing navigation": 0.7041364312171936, "Quantum sensing Position": 0.6848256587982178, "Quantum sensing Timing": 0.6873506307601929, "Quantum sensing": 0.6774657368659973, "Quantum control": 0.6569226980209351 } }, { "id": 3794, "title": "Photon-counting panoramic three-dimensional imaging using a Geiger-mode avalanche photodiode array", "abstract": "A lidar system based on a photon-counting Geiger-mode avalanche photodiode (GmAPD) array can provide high range resolution three-dimensional imaging. The small number of pixels in the GmAPD array limi...", "citations": 27, "author_count": 3, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3800, "doi": "10.1117/1.OE.57.9.093104", "umap_coordinates": { "x": 395.1086120605469, "y": 132.9990997314453, "z": 205.9334259033203 }, "tsne_coordinates": { "x": -8.09843635559082, "y": 12.301400184631348, "z": -26.688261032104492 }, "pca_coordinates": { "x": -1.9032069444656372, "y": 0.2533538341522217, "z": 5.061845302581787 }, "axis_scores": { "Quantum imaging": 0.7401482462882996, "Quantum Life Science Sensing": 0.7276239991188049, "Quantum sensing Detection": 0.7290300726890564, "Quantum sensing Metrology": 0.7096167802810669, "Quantum sensing navigation": 0.715411365032196, "Quantum sensing Position": 0.6874841451644897, "Quantum sensing Timing": 0.6802346706390381, "Quantum sensing": 0.7238654494285583, "Quantum control": 0.6536829471588135 } }, { "id": 3795, "title": "Sunlight-induced carbon dioxide emissions from inland waters", "abstract": "The emissions of carbon dioxide (CO2) from inland waters are substantial on a global scale. Yet the fundamental question remains open which proportion of these CO2 emissions is induced by sunlight via...", "citations": 150, "author_count": 6, "categories": [ "Environmental Sciences & Ecology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3801, "doi": "10.1002/2014GB004850", "umap_coordinates": { "x": 393.7052307128906, "y": 136.06814575195312, "z": 203.78294372558594 }, "tsne_coordinates": { "x": 14.787110328674316, "y": 22.87544822692871, "z": 20.575382232666016 }, "pca_coordinates": { "x": -3.05256986618042, "y": 0.42990541458129883, "z": -1.843965768814087 }, "axis_scores": { "Quantum imaging": 0.7002969980239868, "Quantum Life Science Sensing": 0.7359446287155151, "Quantum sensing Detection": 0.6981071829795837, "Quantum sensing Metrology": 0.6754228472709656, "Quantum sensing navigation": 0.6917906403541565, "Quantum sensing Position": 0.6421208381652832, "Quantum sensing Timing": 0.6418348550796509, "Quantum sensing": 0.7094423770904541, "Quantum control": 0.6817852854728699 } }, { "id": 3796, "title": "A MODEL FOR CALCULATION OF NUTRIENT-UPTAKE CAPACITY OF SEAWEEDS IN CULTIVATION", "abstract": "A formula has been compiled, which calculates the capacity of marine macroalgae to absorb nutrients. The formula uses the C : N : P-ratio of the alga, the capability of the alga to use the incident ir...", "citations": 11, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 1994, "topic": [ "all" ], "embedding_index": 3802, "doi": "10.1515/botm.1994.37.2.115", "umap_coordinates": { "x": 394.1390380859375, "y": 136.21066284179688, "z": 203.88064575195312 }, "tsne_coordinates": { "x": 10.633991241455078, "y": 29.23250961303711, "z": 18.53398895263672 }, "pca_coordinates": { "x": -1.5779218673706055, "y": 2.4488682746887207, "z": -1.0048940181732178 }, "axis_scores": { "Quantum imaging": 0.6590532660484314, "Quantum Life Science Sensing": 0.6867765188217163, "Quantum sensing Detection": 0.6626231074333191, "Quantum sensing Metrology": 0.6753696203231812, "Quantum sensing navigation": 0.6790295243263245, "Quantum sensing Position": 0.652833878993988, "Quantum sensing Timing": 0.6425713300704956, "Quantum sensing": 0.6764947772026062, "Quantum control": 0.6705107688903809 } }, { "id": 3797, "title": "Quasi-two-dimensional electron gas at the oxide interfaces for topological quantum physics", "abstract": "The development of fault-tolerant quantum computers, unaffected by noise and decoherence, is one of the fundamental challenges in quantum technology. One of the approaches currently followed is the re...", "citations": 17, "author_count": 13, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3803, "doi": "10.1209/0295-5075/133/17001", "umap_coordinates": { "x": 394.01617431640625, "y": 135.74334716796875, "z": 207.8980255126953 }, "tsne_coordinates": { "x": -0.5229617357254028, "y": -16.197017669677734, "z": -6.8358635902404785 }, "pca_coordinates": { "x": 2.3435792922973633, "y": -1.142329216003418, "z": -1.1580777168273926 }, "axis_scores": { "Quantum imaging": 0.7015160322189331, "Quantum Life Science Sensing": 0.6973968148231506, "Quantum sensing Detection": 0.68359375, "Quantum sensing Metrology": 0.6826264262199402, "Quantum sensing navigation": 0.7027077674865723, "Quantum sensing Position": 0.6800327301025391, "Quantum sensing Timing": 0.6795514822006226, "Quantum sensing": 0.6913468837738037, "Quantum control": 0.6688858866691589 } }, { "id": 3798, "title": "Multistep Modeling Strategy To Improve the Binding Affinity Prediction of PET Tracers to Aβ42: Case Study with Styrylbenzoxazole Derivatives", "abstract": "Positron emission tomography (PET) tracers play an important role in the diagnosis of Alzheimer's disease, a condition that leads to progressive dementia and memory loss. A high binding affinity and s...", "citations": 7, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3804, "doi": "10.1021/acschemneuro.6b00216", "umap_coordinates": { "x": 394.6404724121094, "y": 134.75796508789062, "z": 204.63034057617188 }, "tsne_coordinates": { "x": 2.2745797634124756, "y": 24.725021362304688, "z": -5.452118873596191 }, "pca_coordinates": { "x": -3.46463680267334, "y": 0.8175327777862549, "z": -0.40351229906082153 }, "axis_scores": { "Quantum imaging": 0.6806201934814453, "Quantum Life Science Sensing": 0.6568167209625244, "Quantum sensing Detection": 0.6557767391204834, "Quantum sensing Metrology": 0.6531020402908325, "Quantum sensing navigation": 0.6936811208724976, "Quantum sensing Position": 0.6687813401222229, "Quantum sensing Timing": 0.6629911661148071, "Quantum sensing": 0.6631184816360474, "Quantum control": 0.6599109172821045 } }, { "id": 3799, "title": "A Fluorescence-Phosphorescence-Phosphorescence Triple-Channel Emission Strategy for Full-Color Luminescence", "abstract": "Organic luminogens constitute promising prototypes for various optoelectronic applications. Since gaining distinct color emissions normally requires the alternation of the conjugated backbone, big iss...", "citations": 59, "author_count": 11, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3805, "doi": "10.1002/smll.201906475", "umap_coordinates": { "x": 391.9774169921875, "y": 133.8455352783203, "z": 205.1527862548828 }, "tsne_coordinates": { "x": 27.68401336669922, "y": 2.6787514686584473, "z": -23.01041603088379 }, "pca_coordinates": { "x": -4.6028733253479, "y": 0.6738815307617188, "z": 0.7611998915672302 }, "axis_scores": { "Quantum imaging": 0.6938020586967468, "Quantum Life Science Sensing": 0.6886320114135742, "Quantum sensing Detection": 0.6794263124465942, "Quantum sensing Metrology": 0.6839585900306702, "Quantum sensing navigation": 0.6725287437438965, "Quantum sensing Position": 0.6460630893707275, "Quantum sensing Timing": 0.6554863452911377, "Quantum sensing": 0.6942705512046814, "Quantum control": 0.6593349575996399 } }, { "id": 3800, "title": "Experimental Implementation of Dimension-Dependent Contextuality Inequality", "abstract": "We present a derivation and experimental implementation of a dimension-dependent contextuality inequality to certify both the quantumness and dimensionality of a given system. Existing methods for cer...", "citations": 1, "author_count": 8, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3806, "doi": "10.1103/PhysRevLett.134.200202", "umap_coordinates": { "x": 395.7618713378906, "y": 136.53309631347656, "z": 207.5980224609375 }, "tsne_coordinates": { "x": -18.75376319885254, "y": 0.07117125391960144, "z": 5.942513465881348 }, "pca_coordinates": { "x": 2.7372355461120605, "y": 3.0224215984344482, "z": 0.09269875288009644 }, "axis_scores": { "Quantum imaging": 0.7594095468521118, "Quantum Life Science Sensing": 0.745417058467865, "Quantum sensing Detection": 0.7432392835617065, "Quantum sensing Metrology": 0.724557638168335, "Quantum sensing navigation": 0.7593091726303101, "Quantum sensing Position": 0.7481734752655029, "Quantum sensing Timing": 0.7332085967063904, "Quantum sensing": 0.7562610507011414, "Quantum control": 0.7460296154022217 } }, { "id": 3801, "title": "Finding purifications with minimal entanglement", "abstract": "Purification is a tool that allows to represent mixed quantum states as pure states on enlarged Hilbert spaces. A purification of a given state is not unique and its entanglement strongly depends on t...", "citations": 49, "author_count": 7, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3807, "doi": "10.1103/PhysRevB.98.235163", "umap_coordinates": { "x": 395.87353515625, "y": 136.93177795410156, "z": 207.63510131835938 }, "tsne_coordinates": { "x": -29.998512268066406, "y": -14.262674331665039, "z": 11.717080116271973 }, "pca_coordinates": { "x": 4.494778633117676, "y": 2.9690656661987305, "z": 1.3243095874786377 }, "axis_scores": { "Quantum imaging": 0.7114644646644592, "Quantum Life Science Sensing": 0.7070797681808472, "Quantum sensing Detection": 0.7271137237548828, "Quantum sensing Metrology": 0.7216284871101379, "Quantum sensing navigation": 0.7282091379165649, "Quantum sensing Position": 0.6899083852767944, "Quantum sensing Timing": 0.6835357546806335, "Quantum sensing": 0.7268948554992676, "Quantum control": 0.6895648837089539 } }, { "id": 3802, "title": "Dimeric lanthanide hexafluoroacetylacetonate adducts with 4-cyarlopyridine-N-oxide", "abstract": "A series of new dimeric complexes with composition [Ln(2)(hfa)(6)(4-cpyNO)(3)](2:3 adduct, Ln=Sm-III-Dy-III, Tm-III) were synthesized and fully characterized. X-ray diffraction data of [Tb-2(hfa)(6)(4...", "citations": 9, "author_count": 7, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3808, "doi": "10.1016/j.jallcom.2007.04.160", "umap_coordinates": { "x": 392.78253173828125, "y": 135.13014221191406, "z": 204.51425170898438 }, "tsne_coordinates": { "x": 16.752685546875, "y": 14.560192108154297, "z": -21.379003524780273 }, "pca_coordinates": { "x": -1.3545385599136353, "y": 0.3836226463317871, "z": -0.3605537712574005 }, "axis_scores": { "Quantum imaging": 0.7133467793464661, "Quantum Life Science Sensing": 0.6873761415481567, "Quantum sensing Detection": 0.68301922082901, "Quantum sensing Metrology": 0.6675496101379395, "Quantum sensing navigation": 0.6782963275909424, "Quantum sensing Position": 0.6589088439941406, "Quantum sensing Timing": 0.6645550727844238, "Quantum sensing": 0.6912981271743774, "Quantum control": 0.6658452749252319 } }, { "id": 3803, "title": "Deep Q-learning decoder for depolarizing noise on the toric code", "abstract": "We present an AI-based decoding agent for quantum error correction of depolarizing noise on the toric code. The agent is trained using deep reinforcement learning (DRL), where an artificial neural net...", "citations": 28, "author_count": 5, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3809, "doi": "10.1103/PhysRevResearch.2.023230", "umap_coordinates": { "x": 395.3431091308594, "y": 136.9166717529297, "z": 207.68800354003906 }, "tsne_coordinates": { "x": -25.199874877929688, "y": -19.915088653564453, "z": -6.746809482574463 }, "pca_coordinates": { "x": 3.488283634185791, "y": 0.9396947622299194, "z": 0.4296876788139343 }, "axis_scores": { "Quantum imaging": 0.7194918394088745, "Quantum Life Science Sensing": 0.7088370323181152, "Quantum sensing Detection": 0.7109940052032471, "Quantum sensing Metrology": 0.7015067934989929, "Quantum sensing navigation": 0.7271577715873718, "Quantum sensing Position": 0.6874592304229736, "Quantum sensing Timing": 0.6923225522041321, "Quantum sensing": 0.7192128300666809, "Quantum control": 0.6940830945968628 } }, { "id": 3804, "title": "Classification of dark states in multilevel dissipative systems", "abstract": "Dark states are eigenstates or steady states of a system that are decoupled from the radiation. Their use, along with associated techniques such as stimulated Raman adiabatic passage, has extended fro...", "citations": 21, "author_count": 6, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3810, "doi": "10.1103/PhysRevA.99.053829", "umap_coordinates": { "x": 394.4444274902344, "y": 136.78855895996094, "z": 208.29147338867188 }, "tsne_coordinates": { "x": -8.14101505279541, "y": -11.93967056274414, "z": 10.248894691467285 }, "pca_coordinates": { "x": 4.989901065826416, "y": 0.12120819091796875, "z": -2.033369541168213 }, "axis_scores": { "Quantum imaging": 0.7304210662841797, "Quantum Life Science Sensing": 0.7463951706886292, "Quantum sensing Detection": 0.7378309965133667, "Quantum sensing Metrology": 0.7056338787078857, "Quantum sensing navigation": 0.737355649471283, "Quantum sensing Position": 0.7070375680923462, "Quantum sensing Timing": 0.7041269540786743, "Quantum sensing": 0.73282390832901, "Quantum control": 0.7132956981658936 } }, { "id": 3805, "title": "Heterogeneous 3D Integration of MOEMS and ICs", "abstract": "Heterogeneous integration of micro-opto-electromechanical systems (MOEMS) and integrated circuits (ICs) allows the combination of high-quality optical and photonic MOEMS materials such as monocrystall...", "citations": 3, "author_count": 3, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3811, "doi": null, "umap_coordinates": { "x": 391.94110107421875, "y": 139.75477600097656, "z": 209.1607666015625 }, "tsne_coordinates": { "x": -11.057087898254395, "y": 42.951229095458984, "z": -5.480381965637207 }, "pca_coordinates": { "x": -1.566201090812683, "y": 2.90934419631958, "z": -1.6129646301269531 }, "axis_scores": { "Quantum imaging": 0.7460923790931702, "Quantum Life Science Sensing": 0.7325339317321777, "Quantum sensing Detection": 0.710141122341156, "Quantum sensing Metrology": 0.7262040972709656, "Quantum sensing navigation": 0.7156796455383301, "Quantum sensing Position": 0.6802467107772827, "Quantum sensing Timing": 0.6644730567932129, "Quantum sensing": 0.7324389219284058, "Quantum control": 0.7349305152893066 } }, { "id": 3806, "title": "Observation of Broadband Entanglement in Microwave Radiation from a Single Time-Varying Boundary Condition", "abstract": "Entangled pairs of microwave photons are commonly produced in the narrow frequency band of a resonator, which represents a modified vacuum density of states. We generate and investigate the entangleme...", "citations": 33, "author_count": 8, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3812, "doi": "10.1103/PhysRevLett.124.140503", "umap_coordinates": { "x": 395.0335693359375, "y": 135.62548828125, "z": 208.21046447753906 }, "tsne_coordinates": { "x": -13.09300422668457, "y": -19.133766174316406, "z": 4.2941083908081055 }, "pca_coordinates": { "x": 4.352084636688232, "y": 0.9348317384719849, "z": 1.921449899673462 }, "axis_scores": { "Quantum imaging": 0.7187964916229248, "Quantum Life Science Sensing": 0.7303897142410278, "Quantum sensing Detection": 0.72090083360672, "Quantum sensing Metrology": 0.6970844864845276, "Quantum sensing navigation": 0.705203115940094, "Quantum sensing Position": 0.6861792802810669, "Quantum sensing Timing": 0.7245079278945923, "Quantum sensing": 0.7239667177200317, "Quantum control": 0.6905372142791748 } }, { "id": 3807, "title": "An adaptive interpolation scheme for molecular potential energy surfaces", "abstract": "The calculation of potential energy surfaces for quantum dynamics can be a time consuming task-especially when a high level of theory for the electronic structure calculation is required. We propose a...", "citations": 8, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3813, "doi": "10.1063/1.4961148", "umap_coordinates": { "x": 393.6679992675781, "y": 137.21839904785156, "z": 206.72470092773438 }, "tsne_coordinates": { "x": -11.569969177246094, "y": -10.147780418395996, "z": 32.83943176269531 }, "pca_coordinates": { "x": 1.2409276962280273, "y": -0.06336164474487305, "z": -0.9563188552856445 }, "axis_scores": { "Quantum imaging": 0.7003176212310791, "Quantum Life Science Sensing": 0.7079559564590454, "Quantum sensing Detection": 0.6859498620033264, "Quantum sensing Metrology": 0.6917211413383484, "Quantum sensing navigation": 0.7064618468284607, "Quantum sensing Position": 0.6767590641975403, "Quantum sensing Timing": 0.676243007183075, "Quantum sensing": 0.7116872668266296, "Quantum control": 0.702646017074585 } }, { "id": 3808, "title": "Magnetic Aspects and Large Exchange Bias of Ni0.9Co0.1/NiCoO Multilayers", "abstract": "Ultrathin films of Ni-0.Co-9(0).(1) were grown by radio frequency magnetron sputtering. By means of a periodic natural oxidation procedure they were transformed into Ni-0.Co-9(0).(1)/NiCoO multilayers...", "citations": 3, "author_count": 9, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3814, "doi": "10.3390/micro1010005", "umap_coordinates": { "x": 392.54266357421875, "y": 136.53973388671875, "z": 208.36788940429688 }, "tsne_coordinates": { "x": 7.428628921508789, "y": -36.84735870361328, "z": 21.766788482666016 }, "pca_coordinates": { "x": -1.3448127508163452, "y": -0.475771427154541, "z": -2.317007541656494 }, "axis_scores": { "Quantum imaging": 0.6801252365112305, "Quantum Life Science Sensing": 0.6830393075942993, "Quantum sensing Detection": 0.6463775038719177, "Quantum sensing Metrology": 0.6593297123908997, "Quantum sensing navigation": 0.6644312143325806, "Quantum sensing Position": 0.6459961533546448, "Quantum sensing Timing": 0.6248134970664978, "Quantum sensing": 0.6661591529846191, "Quantum control": 0.6585681438446045 } }, { "id": 3809, "title": "Practical and Fundamental Impact of Epitaxial Graphene on Quantum Metrology", "abstract": "The discovery 8 years ago of the quantum Hall effect (QHE) in graphene sparked an immediate interest in the metrological community. Here was a material which was completely different from commonly use...", "citations": 1, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3815, "doi": "10.1007/s12647-013-0064-y", "umap_coordinates": { "x": 394.3789978027344, "y": 134.9844512939453, "z": 205.69444274902344 }, "tsne_coordinates": { "x": -8.099264144897461, "y": 16.000877380371094, "z": 6.747053623199463 }, "pca_coordinates": { "x": -1.0366731882095337, "y": 0.5776963233947754, "z": 1.7373785972595215 }, "axis_scores": { "Quantum imaging": 0.7398291230201721, "Quantum Life Science Sensing": 0.7558963298797607, "Quantum sensing Detection": 0.7407366037368774, "Quantum sensing Metrology": 0.769314169883728, "Quantum sensing navigation": 0.7393190860748291, "Quantum sensing Position": 0.7488444447517395, "Quantum sensing Timing": 0.7096885442733765, "Quantum sensing": 0.7610078454017639, "Quantum control": 0.72817063331604 } }, { "id": 3810, "title": "THE EFFECT OF HEAT-TREATMENT ON BOVINE IMMUNOGLOBULINS", "abstract": "The effect of heat on bovine immunoglobulins from colostrum is investigated both in terms of thermally induced conformational changes, monitored by differential scanning calorimetry (DSC), and aggrega...", "citations": 26, "author_count": 6, "categories": [ "Food Science & Technology" ], "year": 1994, "topic": [ "all" ], "embedding_index": 3816, "doi": null, "umap_coordinates": { "x": 391.4356689453125, "y": 139.69998168945312, "z": 209.19924926757812 }, "tsne_coordinates": { "x": 0.6155346035957336, "y": 42.812984466552734, "z": 3.48331880569458 }, "pca_coordinates": { "x": -1.5893986225128174, "y": 4.370699405670166, "z": -3.4293041229248047 }, "axis_scores": { "Quantum imaging": 0.6482678055763245, "Quantum Life Science Sensing": 0.6770690083503723, "Quantum sensing Detection": 0.6583449244499207, "Quantum sensing Metrology": 0.6418797969818115, "Quantum sensing navigation": 0.6391512751579285, "Quantum sensing Position": 0.636972188949585, "Quantum sensing Timing": 0.6303746700286865, "Quantum sensing": 0.6627933382987976, "Quantum control": 0.6662290096282959 } }, { "id": 3811, "title": "TIME-CORRELATED SINGLE-PHOTON COUNTING RANGE PROFILING OF MOVING OBJECTS", "abstract": "Time-correlated single-photon counting (TCSPC) is a laser radar technique that can provide range profiling with very high resolution. Range profiles of multiple surface objects and geometrical shapes ...", "citations": 4, "author_count": 5, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3817, "doi": "10.1051/epjconf/201611906010", "umap_coordinates": { "x": 395.34954833984375, "y": 133.65371704101562, "z": 206.77174377441406 }, "tsne_coordinates": { "x": -8.430465698242188, "y": 11.841763496398926, "z": -32.03940963745117 }, "pca_coordinates": { "x": -1.0339246988296509, "y": 1.3090262413024902, "z": 3.207792282104492 }, "axis_scores": { "Quantum imaging": 0.7371855974197388, "Quantum Life Science Sensing": 0.7348959445953369, "Quantum sensing Detection": 0.7348761558532715, "Quantum sensing Metrology": 0.7339169383049011, "Quantum sensing navigation": 0.7471567392349243, "Quantum sensing Position": 0.7500096559524536, "Quantum sensing Timing": 0.7612928152084351, "Quantum sensing": 0.7338889241218567, "Quantum control": 0.6968585252761841 } }, { "id": 3812, "title": "Overexpression of the autism candidate gene Cyfip1 pathologically enhances olivo-cerebellar signaling in mice", "abstract": "Cyfip1, the gene encoding cytoplasmic FMR1 interacting protein 1, has been of interest as an autism candidate gene for years. A potential role in autism spectrum disorder (ASD) is suggested by its loc...", "citations": 6, "author_count": 9, "categories": [ "Neurosciences & Neurology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3818, "doi": "10.3389/fncel.2023.1219270", "umap_coordinates": { "x": 394.7178649902344, "y": 135.08502197265625, "z": 204.27357482910156 }, "tsne_coordinates": { "x": 0.1914326250553131, "y": 25.127674102783203, "z": 6.031848430633545 }, "pca_coordinates": { "x": -2.63454008102417, "y": 2.313839912414551, "z": -0.5202113389968872 }, "axis_scores": { "Quantum imaging": 0.7062771916389465, "Quantum Life Science Sensing": 0.6617880463600159, "Quantum sensing Detection": 0.6802667379379272, "Quantum sensing Metrology": 0.6556104421615601, "Quantum sensing navigation": 0.68212890625, "Quantum sensing Position": 0.644939124584198, "Quantum sensing Timing": 0.6565784811973572, "Quantum sensing": 0.6787238121032715, "Quantum control": 0.7032385468482971 } }, { "id": 3813, "title": "What is Quantum Parallelism, Anyhow?", "abstract": "Central to the power of quantum computing is the concept of quantum parallelism: quantum systems can explore and process multiple computational paths simultaneously. In this paper, we discuss the elus...", "citations": 2, "author_count": 2, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3819, "doi": null, "umap_coordinates": { "x": 391.9078369140625, "y": 139.44943237304688, "z": 209.02333068847656 }, "tsne_coordinates": { "x": -10.819117546081543, "y": 38.7453498840332, "z": -3.4486403465270996 }, "pca_coordinates": { "x": 1.6829171180725098, "y": 4.347252368927002, "z": -0.7587376832962036 }, "axis_scores": { "Quantum imaging": 0.77833491563797, "Quantum Life Science Sensing": 0.7619643211364746, "Quantum sensing Detection": 0.7612023949623108, "Quantum sensing Metrology": 0.7493414878845215, "Quantum sensing navigation": 0.7607656121253967, "Quantum sensing Position": 0.7284115552902222, "Quantum sensing Timing": 0.737957239151001, "Quantum sensing": 0.776736855506897, "Quantum control": 0.7665593028068542 } }, { "id": 3814, "title": "Ligand Affinities Estimated by Quantum Chemical Calculations", "abstract": "We present quantum chemical estimates of ligand-binding affinities performed, for the first time, at a level of theory for which there is a hope that dispersion and polarization effects are properly a...", "citations": 84, "author_count": 4, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3820, "doi": "10.1021/ct9006986", "umap_coordinates": { "x": 392.7996520996094, "y": 136.36886596679688, "z": 205.04318237304688 }, "tsne_coordinates": { "x": -4.043905258178711, "y": 10.107854843139648, "z": 17.59031867980957 }, "pca_coordinates": { "x": -1.4832346439361572, "y": 0.34310030937194824, "z": -2.8712973594665527 }, "axis_scores": { "Quantum imaging": 0.7366572022438049, "Quantum Life Science Sensing": 0.7504736185073853, "Quantum sensing Detection": 0.7353357672691345, "Quantum sensing Metrology": 0.7395488619804382, "Quantum sensing navigation": 0.7321821451187134, "Quantum sensing Position": 0.7317809462547302, "Quantum sensing Timing": 0.7079848647117615, "Quantum sensing": 0.7498869299888611, "Quantum control": 0.7180895805358887 } }, { "id": 3815, "title": "Transparent plywood as a load-bearing and luminescent biocomposite", "abstract": "Transparent wood (TW) structures in research studies were either thin and highly anisotropic or thick and isotropic but weak. Here, transparent plywood (TPW) laminates are investigated as load-bearing...", "citations": 120, "author_count": 7, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3821, "doi": "10.1016/j.compscitech.2018.06.001", "umap_coordinates": { "x": 393.3314208984375, "y": 135.23573303222656, "z": 204.0594482421875 }, "tsne_coordinates": { "x": 20.80470085144043, "y": 36.04234313964844, "z": -2.9610722064971924 }, "pca_coordinates": { "x": -5.622431755065918, "y": 1.032586932182312, "z": -0.6820061802864075 }, "axis_scores": { "Quantum imaging": 0.6835291981697083, "Quantum Life Science Sensing": 0.712165355682373, "Quantum sensing Detection": 0.6662153005599976, "Quantum sensing Metrology": 0.6589230895042419, "Quantum sensing navigation": 0.641764760017395, "Quantum sensing Position": 0.6637235879898071, "Quantum sensing Timing": 0.6300624012947083, "Quantum sensing": 0.6826149821281433, "Quantum control": 0.6625659465789795 } }, { "id": 3816, "title": "Variability of carbon monoxide and carbon dioxide apparent quantum yield spectra in three coastal estuaries of the South Atlantic Bight", "abstract": "The photochemical oxidation of oceanic dissolved organic carbon (DOC) to carbon monoxide (CO) and carbon dioxide (CO2) has been estimated to be a significant process with global photoproduction transf...", "citations": 39, "author_count": 3, "categories": [ "Environmental Sciences & Ecology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3822, "doi": "10.5194/bg-9-4279-2012", "umap_coordinates": { "x": 393.83740234375, "y": 136.1274871826172, "z": 203.8908233642578 }, "tsne_coordinates": { "x": 13.789838790893555, "y": 25.434232711791992, "z": 21.03216552734375 }, "pca_coordinates": { "x": -1.2687739133834839, "y": 1.7621266841888428, "z": -1.7276742458343506 }, "axis_scores": { "Quantum imaging": 0.7134770750999451, "Quantum Life Science Sensing": 0.7368638515472412, "Quantum sensing Detection": 0.6995742917060852, "Quantum sensing Metrology": 0.6999619603157043, "Quantum sensing navigation": 0.712039589881897, "Quantum sensing Position": 0.6878989934921265, "Quantum sensing Timing": 0.675672173500061, "Quantum sensing": 0.7174063920974731, "Quantum control": 0.698767364025116 } }, { "id": 3817, "title": "Quantum nonlocality in the excitation energy transfer in the Fenna-Matthews-Olson complex", "abstract": "The Fenna-Matthews-Olson (FMO) complex-a pigment protein complex involved in photosynthesis in green sulfur bacteria-is remarkably efficient in transferring excitation energy from light harvesting ant...", "citations": 5, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3823, "doi": "10.1002/qua.25221", "umap_coordinates": { "x": 393.9580383300781, "y": 137.00352478027344, "z": 205.98854064941406 }, "tsne_coordinates": { "x": -16.588075637817383, "y": -2.161830425262451, "z": 11.636343955993652 }, "pca_coordinates": { "x": 0.7512104511260986, "y": 0.7861775159835815, "z": -1.906362533569336 }, "axis_scores": { "Quantum imaging": 0.7209036350250244, "Quantum Life Science Sensing": 0.7089035511016846, "Quantum sensing Detection": 0.7251966595649719, "Quantum sensing Metrology": 0.7197245955467224, "Quantum sensing navigation": 0.7203261852264404, "Quantum sensing Position": 0.6977818608283997, "Quantum sensing Timing": 0.6901364326477051, "Quantum sensing": 0.7328837513923645, "Quantum control": 0.7235878109931946 } }, { "id": 3818, "title": "Bio-molecule-conjugated fluorescent organically modified silica nanoparticles as optical probes for cancer cell imaging", "abstract": "Organically modified silica nanoparticles doped with Nile Red were synthesized and characterized. Silica encapsulation is relatively transparent for light and can protect hydrophobic Nile Red against ...", "citations": 67, "author_count": 7, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3824, "doi": "10.1364/OE.16.019568", "umap_coordinates": { "x": 393.97991943359375, "y": 133.8634796142578, "z": 204.94825744628906 }, "tsne_coordinates": { "x": 10.993643760681152, "y": 23.689111709594727, "z": -12.206019401550293 }, "pca_coordinates": { "x": -3.2327027320861816, "y": -1.0547432899475098, "z": 1.3432385921478271 }, "axis_scores": { "Quantum imaging": 0.7495849132537842, "Quantum Life Science Sensing": 0.7411803007125854, "Quantum sensing Detection": 0.7244945764541626, "Quantum sensing Metrology": 0.7066367864608765, "Quantum sensing navigation": 0.7246639132499695, "Quantum sensing Position": 0.6967329382896423, "Quantum sensing Timing": 0.6749144196510315, "Quantum sensing": 0.7347869873046875, "Quantum control": 0.6967012882232666 } }, { "id": 3819, "title": "High photoluminescence efficiency in substituted polythiophene aggregates", "abstract": "In this paper we discuss the optical (absorption and photoluminescence) and solvatochromic properties of a newly synthesized alternating copolymer based on poly(3-alkylthiophene) structure. In this co...", "citations": 32, "author_count": 10, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3825, "doi": "10.1016/S0379-6779(03)00171-1", "umap_coordinates": { "x": 392.4341735839844, "y": 134.62181091308594, "z": 205.4996795654297 }, "tsne_coordinates": { "x": -2.630690097808838, "y": -0.649911105632782, "z": -19.443452835083008 }, "pca_coordinates": { "x": -3.2624826431274414, "y": -4.077002048492432, "z": 1.2015738487243652 }, "axis_scores": { "Quantum imaging": 0.6640638113021851, "Quantum Life Science Sensing": 0.668796956539154, "Quantum sensing Detection": 0.6503821015357971, "Quantum sensing Metrology": 0.6355122327804565, "Quantum sensing navigation": 0.6280815601348877, "Quantum sensing Position": 0.6549396514892578, "Quantum sensing Timing": 0.6362685561180115, "Quantum sensing": 0.6575236916542053, "Quantum control": 0.6150967478752136 } }, { "id": 3820, "title": "UV-induced kinetics of second harmonic generation in CdI2-Cu layered nanocrystals", "abstract": "Substantial increase (up to 0.40 pm/V) of the second-order susceptibility was observed in the CdI2-Cu single layered nanocrystals for the Nd:YAG laser beam lambda = 1.06 mum. The Cu impurity and nano-...", "citations": 8, "author_count": 3, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3826, "doi": "10.1016/S0030-4018(03)01459-7", "umap_coordinates": { "x": 392.15911865234375, "y": 135.26052856445312, "z": 206.68914794921875 }, "tsne_coordinates": { "x": 13.00538444519043, "y": 3.8154618740081787, "z": 12.09904670715332 }, "pca_coordinates": { "x": -2.3123960494995117, "y": -3.1764302253723145, "z": -2.2844555377960205 }, "axis_scores": { "Quantum imaging": 0.663877546787262, "Quantum Life Science Sensing": 0.6840499639511108, "Quantum sensing Detection": 0.6565959453582764, "Quantum sensing Metrology": 0.6282066702842712, "Quantum sensing navigation": 0.6321452856063843, "Quantum sensing Position": 0.615892767906189, "Quantum sensing Timing": 0.637435793876648, "Quantum sensing": 0.6529318690299988, "Quantum control": 0.6476548910140991 } }, { "id": 3821, "title": "High Tc SQUID systems for magnetophysiology", "abstract": "Magnetophysiology is the use of a superconducting quantum interference device (SQUID) based instrument to detect neuromagnetic fields evoked by electrical stimulation of brain tissue slices. In this p...", "citations": 5, "author_count": 9, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3827, "doi": "10.1016/S0921-4534(01)01139-X", "umap_coordinates": { "x": 393.770751953125, "y": 134.9702911376953, "z": 206.44419860839844 }, "tsne_coordinates": { "x": -9.89211654663086, "y": 4.935230731964111, "z": 4.8377275466918945 }, "pca_coordinates": { "x": -0.5374731421470642, "y": 0.5522916316986084, "z": -1.8371851444244385 }, "axis_scores": { "Quantum imaging": 0.6874149441719055, "Quantum Life Science Sensing": 0.7258496880531311, "Quantum sensing Detection": 0.6811091899871826, "Quantum sensing Metrology": 0.7008591890335083, "Quantum sensing navigation": 0.6881421208381653, "Quantum sensing Position": 0.6826132535934448, "Quantum sensing Timing": 0.6746781468391418, "Quantum sensing": 0.6955073475837708, "Quantum control": 0.6813262104988098 } }, { "id": 3822, "title": "A linearized path integral description of the collision process between a water molecule and a graphite surface", "abstract": "Quantum effects in the scattering and desorption process of a water molecule from a graphite surface are investigated using the linearized path integral model. The graphite surface is quantized rigoro...", "citations": 6, "author_count": 3, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3828, "doi": "10.1021/jp074875c", "umap_coordinates": { "x": 393.58685302734375, "y": 137.65309143066406, "z": 205.98158264160156 }, "tsne_coordinates": { "x": -14.679845809936523, "y": 5.177268981933594, "z": 25.8408145904541 }, "pca_coordinates": { "x": 0.46518707275390625, "y": 2.1459662914276123, "z": -1.3005015850067139 }, "axis_scores": { "Quantum imaging": 0.6979784369468689, "Quantum Life Science Sensing": 0.7164311408996582, "Quantum sensing Detection": 0.6835211515426636, "Quantum sensing Metrology": 0.6642645001411438, "Quantum sensing navigation": 0.705720067024231, "Quantum sensing Position": 0.6643235087394714, "Quantum sensing Timing": 0.6475985646247864, "Quantum sensing": 0.6988358497619629, "Quantum control": 0.6764894723892212 } }, { "id": 3823, "title": "Limitations in the use of PAM fluorometry for measuring photosynthetic rates of macroalgae at high irradiances", "abstract": "Pulse amplitude modulated (PAM) fluorometry can be used for measuring photosynthetic electron transport rates (ETR) of marine angiosperms and macroalgae both in the laboratory and in situ. Regarding m...", "citations": 95, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 2004, "topic": [ "all" ], "embedding_index": 3829, "doi": "10.1080/0967026032000157138", "umap_coordinates": { "x": 394.25860595703125, "y": 135.69139099121094, "z": 204.4079132080078 }, "tsne_coordinates": { "x": 21.981477737426758, "y": 31.236452102661133, "z": 9.061522483825684 }, "pca_coordinates": { "x": -3.2363460063934326, "y": 2.943025588989258, "z": 1.0032079219818115 }, "axis_scores": { "Quantum imaging": 0.6552829146385193, "Quantum Life Science Sensing": 0.6798466444015503, "Quantum sensing Detection": 0.6447196006774902, "Quantum sensing Metrology": 0.668664813041687, "Quantum sensing navigation": 0.6466824412345886, "Quantum sensing Position": 0.6386902928352356, "Quantum sensing Timing": 0.6382232308387756, "Quantum sensing": 0.6572555899620056, "Quantum control": 0.6318694949150085 } }, { "id": 3824, "title": "Nano-Graphene Oxide Functionalized Bioactive Poly(lactic acid) and Poly(ε-caprolactone) Nanofibrous Scaffolds", "abstract": "A versatile and convenient way to produce bioactive poly(lactic acid) (PLA) and poly(epsilon-caprolactone) (PCL) electrospun nanofibrous scaffolds is described. PLA and PCL are extensively used as bio...", "citations": 41, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3830, "doi": "10.3390/ma11040566", "umap_coordinates": { "x": 393.304443359375, "y": 134.45889282226562, "z": 203.9990997314453 }, "tsne_coordinates": { "x": 26.315332412719727, "y": 23.536136627197266, "z": -3.605410099029541 }, "pca_coordinates": { "x": -3.896790027618408, "y": 0.23819255828857422, "z": -1.5145572423934937 }, "axis_scores": { "Quantum imaging": 0.6821367740631104, "Quantum Life Science Sensing": 0.7428411245346069, "Quantum sensing Detection": 0.6929171085357666, "Quantum sensing Metrology": 0.6958605051040649, "Quantum sensing navigation": 0.6927526593208313, "Quantum sensing Position": 0.6688801646232605, "Quantum sensing Timing": 0.6347132921218872, "Quantum sensing": 0.7140682339668274, "Quantum control": 0.7130926847457886 } }, { "id": 3825, "title": "The Construction of Quantum Reality", "abstract": "This paper recognizes that quantum theory is not satisfactorily formulated; in spite of its empirical success, we may wish to consider the possibility to find more intuitively acceptable foundations. ...", "citations": 4, "author_count": 2, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3831, "doi": "10.1007/s10701-010-9519-y", "umap_coordinates": { "x": 395.2046203613281, "y": 137.1366424560547, "z": 206.11170959472656 }, "tsne_coordinates": { "x": -31.594627380371094, "y": -1.1114940643310547, "z": 12.060294151306152 }, "pca_coordinates": { "x": 1.2001919746398926, "y": 4.1052961349487305, "z": 0.760189950466156 }, "axis_scores": { "Quantum imaging": 0.7589852809906006, "Quantum Life Science Sensing": 0.7719365358352661, "Quantum sensing Detection": 0.7576069831848145, "Quantum sensing Metrology": 0.7471843361854553, "Quantum sensing navigation": 0.7701994776725769, "Quantum sensing Position": 0.7335180640220642, "Quantum sensing Timing": 0.7260872721672058, "Quantum sensing": 0.7685413360595703, "Quantum control": 0.7464768290519714 } }, { "id": 3826, "title": "Synthesis and characterization of polyfluorenes with light-emitting segments", "abstract": "Two new polymers consisting of poly(9-(2'-ethylhexyl)-9-hexylfluorene) (EHH-PF) with a small amount of substituted poly(p-phenylenevinylene) (PPV) segments have been synthesized and characterized. The...", "citations": 24, "author_count": 6, "categories": [ "Polymer Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3832, "doi": "10.1021/ma001684y", "umap_coordinates": { "x": 392.626220703125, "y": 135.4525909423828, "z": 204.87620544433594 }, "tsne_coordinates": { "x": 0.14303119480609894, "y": -2.4510011672973633, "z": -21.984073638916016 }, "pca_coordinates": { "x": -3.011814594268799, "y": 0.14033865928649902, "z": -0.35688790678977966 }, "axis_scores": { "Quantum imaging": 0.6723272204399109, "Quantum Life Science Sensing": 0.6881909370422363, "Quantum sensing Detection": 0.652480959892273, "Quantum sensing Metrology": 0.6593579649925232, "Quantum sensing navigation": 0.6478993892669678, "Quantum sensing Position": 0.6243611574172974, "Quantum sensing Timing": 0.619344174861908, "Quantum sensing": 0.6677249073982239, "Quantum control": 0.6555973887443542 } }, { "id": 3827, "title": "Adiabatic construction of hierarchical quantum Hall states", "abstract": "We propose an exact model of anyon ground states including higher Landau levels, and use it to obtain fractionally quantized Hall states at filling fractions nu = p/(p(m - 1) + 1) with m odd, from int...", "citations": 3, "author_count": 3, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3833, "doi": "10.1103/PhysRevB.104.L121111", "umap_coordinates": { "x": 394.669677734375, "y": 137.28173828125, "z": 208.44557189941406 }, "tsne_coordinates": { "x": -15.745824813842773, "y": -34.33567428588867, "z": 9.972671508789062 }, "pca_coordinates": { "x": 5.140042781829834, "y": 0.42963266372680664, "z": -1.1588609218597412 }, "axis_scores": { "Quantum imaging": 0.7336041927337646, "Quantum Life Science Sensing": 0.7125307321548462, "Quantum sensing Detection": 0.7220274806022644, "Quantum sensing Metrology": 0.7088865041732788, "Quantum sensing navigation": 0.7350234985351562, "Quantum sensing Position": 0.6839650869369507, "Quantum sensing Timing": 0.6922310590744019, "Quantum sensing": 0.7422797679901123, "Quantum control": 0.7407270073890686 } }, { "id": 3828, "title": "New kind of echo from quantum black holes", "abstract": "We propose that a quantum black hole can produce a new kind of late-time gravitational echoes, facilitated by a near-horizon process analogous to Andreev reflection in condensed matter systems. In com...", "citations": 7, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3834, "doi": "10.1103/PhysRevD.105.064024", "umap_coordinates": { "x": 395.87384033203125, "y": 135.97999572753906, "z": 207.14292907714844 }, "tsne_coordinates": { "x": -25.812509536743164, "y": -29.57636070251465, "z": 6.674200057983398 }, "pca_coordinates": { "x": 3.560183525085449, "y": 0.7445769309997559, "z": 0.9573685526847839 }, "axis_scores": { "Quantum imaging": 0.7308328151702881, "Quantum Life Science Sensing": 0.7500687837600708, "Quantum sensing Detection": 0.7470200657844543, "Quantum sensing Metrology": 0.7175338864326477, "Quantum sensing navigation": 0.7346550226211548, "Quantum sensing Position": 0.7191115617752075, "Quantum sensing Timing": 0.7191663980484009, "Quantum sensing": 0.741557776927948, "Quantum control": 0.6928479671478271 } }, { "id": 3829, "title": "Nonlinear thermoelectric efficiency of superlattice-structured nanowires", "abstract": "We theoretically investigate nonlinear ballistic thermoelectric transport in a superlattice-structured nanowire. By a special choice of nonuniform widths of the superlattice barriers-analogous to anti...", "citations": 37, "author_count": 6, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3835, "doi": "10.1103/PhysRevB.94.115414", "umap_coordinates": { "x": 393.1547546386719, "y": 134.41619873046875, "z": 208.3391571044922 }, "tsne_coordinates": { "x": 5.331231117248535, "y": -19.53582000732422, "z": -8.217507362365723 }, "pca_coordinates": { "x": 2.1074399948120117, "y": -5.146887302398682, "z": 1.6629366874694824 }, "axis_scores": { "Quantum imaging": 0.7111775279045105, "Quantum Life Science Sensing": 0.7139765620231628, "Quantum sensing Detection": 0.6986985802650452, "Quantum sensing Metrology": 0.6990166902542114, "Quantum sensing navigation": 0.7001198530197144, "Quantum sensing Position": 0.6781079769134521, "Quantum sensing Timing": 0.6605191230773926, "Quantum sensing": 0.7133219242095947, "Quantum control": 0.6605340838432312 } }, { "id": 3830, "title": "Epr-bohm experiment and Bell's inequality: Quantum physics meets probability theory", "abstract": "Our main aim in this paper is to inform the physics community (and especially experts in quantum information) about investigations of the problem of the probabilistic compatibility of a family of rand...", "citations": 28, "author_count": 2, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3836, "doi": "10.1007/s11232-008-0119-3", "umap_coordinates": { "x": 395.42034912109375, "y": 136.17942810058594, "z": 206.1212615966797 }, "tsne_coordinates": { "x": -30.268098831176758, "y": 5.137141227722168, "z": 6.357113838195801 }, "pca_coordinates": { "x": 0.968733549118042, "y": 2.251559019088745, "z": 0.775390088558197 }, "axis_scores": { "Quantum imaging": 0.741346001625061, "Quantum Life Science Sensing": 0.7577058672904968, "Quantum sensing Detection": 0.7568000555038452, "Quantum sensing Metrology": 0.7580598592758179, "Quantum sensing navigation": 0.7545111775398254, "Quantum sensing Position": 0.7413716316223145, "Quantum sensing Timing": 0.7166317701339722, "Quantum sensing": 0.7606551051139832, "Quantum control": 0.7224793434143066 } }, { "id": 3831, "title": "Luminescence blinking of a Si quantum dot in a SiO2 shell -: art. no. 115331", "abstract": "The phenomenon of on-off luminescence intermittency-blinking-in silicon nanocrystals was studied using a single-dot microphotoluminescence technique. From recordings of the luminescence intensity trac...", "citations": 58, "author_count": 5, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3837, "doi": "10.1103/PhysRevB.71.115331", "umap_coordinates": { "x": 393.7325744628906, "y": 134.4881134033203, "z": 208.7860565185547 }, "tsne_coordinates": { "x": 5.971797943115234, "y": -32.37685775756836, "z": -0.18210192024707794 }, "pca_coordinates": { "x": 2.272390842437744, "y": -2.8003077507019043, "z": 0.7114643454551697 }, "axis_scores": { "Quantum imaging": 0.7109803557395935, "Quantum Life Science Sensing": 0.7419192790985107, "Quantum sensing Detection": 0.7285484075546265, "Quantum sensing Metrology": 0.7246456146240234, "Quantum sensing navigation": 0.7079019546508789, "Quantum sensing Position": 0.6969006657600403, "Quantum sensing Timing": 0.677406370639801, "Quantum sensing": 0.7362853288650513, "Quantum control": 0.7000559568405151 } }, { "id": 3832, "title": "Fractionalized holes in one-dimensional Z2 gauge theory coupled to fermion matter: Deconfined dynamics and emergent integrability", "abstract": "We investigate the interplay of quantum one-dimensional discrete Z2 gauge fields and fermion matter near full filling in terms of deconfined fractionalized hole excitations that constitute mobile doma...", "citations": 4, "author_count": 4, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3838, "doi": "10.1103/PhysRevB.107.064302", "umap_coordinates": { "x": 394.4539489746094, "y": 136.72073364257812, "z": 208.65774536132812 }, "tsne_coordinates": { "x": -16.266490936279297, "y": -26.90989112854004, "z": 19.727725982666016 }, "pca_coordinates": { "x": 4.485705375671387, "y": -0.03856539726257324, "z": -1.9897949695587158 }, "axis_scores": { "Quantum imaging": 0.7326355576515198, "Quantum Life Science Sensing": 0.7330692410469055, "Quantum sensing Detection": 0.71787428855896, "Quantum sensing Metrology": 0.7001047134399414, "Quantum sensing navigation": 0.7365402579307556, "Quantum sensing Position": 0.6715635657310486, "Quantum sensing Timing": 0.6856957674026489, "Quantum sensing": 0.730902910232544, "Quantum control": 0.7410564422607422 } }, { "id": 3833, "title": "Decay kinetic properties of atoms in photonic crystals with absolute gaps - art. no. 113904", "abstract": "Decay kinetic properties of a two-level atom near the band edges of photonic crystals (PCs) with absolute gaps are studied based on the Green's function expression for the evolution operator. The loca...", "citations": 106, "author_count": 5, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3839, "doi": "10.1103/PhysRevLett.91.113904", "umap_coordinates": { "x": 395.04608154296875, "y": 135.6664581298828, "z": 208.64535522460938 }, "tsne_coordinates": { "x": -8.424477577209473, "y": -20.99901580810547, "z": -5.322576999664307 }, "pca_coordinates": { "x": 4.259632110595703, "y": -0.4593183994293213, "z": 0.7702381014823914 }, "axis_scores": { "Quantum imaging": 0.7189785838127136, "Quantum Life Science Sensing": 0.7165817022323608, "Quantum sensing Detection": 0.7187369465827942, "Quantum sensing Metrology": 0.7194211483001709, "Quantum sensing navigation": 0.7311539053916931, "Quantum sensing Position": 0.7168297171592712, "Quantum sensing Timing": 0.7266556024551392, "Quantum sensing": 0.7254104018211365, "Quantum control": 0.6908801794052124 } }, { "id": 3834, "title": "A classical phase r-centroid approach to molecular wave packet dynamics -: illustrating the danger of using an incomplete set of initial states for thermal averaging", "abstract": "An inexpensive semiclassical method to simulate time-resolved pump-probe spectroscopy on molecular wave packets is applied to NaK molecules at high temperature. The method builds on the introduction o...", "citations": 3, "author_count": 2, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3840, "doi": "10.1016/S0009-2614(99)00709-5", "umap_coordinates": { "x": 394.5547180175781, "y": 137.3606719970703, "z": 206.05844116210938 }, "tsne_coordinates": { "x": -14.312825202941895, "y": 12.431360244750977, "z": 26.187503814697266 }, "pca_coordinates": { "x": -0.3995705842971802, "y": 3.4974656105041504, "z": -1.2429919242858887 }, "axis_scores": { "Quantum imaging": 0.7108045220375061, "Quantum Life Science Sensing": 0.6957359313964844, "Quantum sensing Detection": 0.6860287189483643, "Quantum sensing Metrology": 0.6776806712150574, "Quantum sensing navigation": 0.6999938488006592, "Quantum sensing Position": 0.7111525535583496, "Quantum sensing Timing": 0.7173437476158142, "Quantum sensing": 0.70291668176651, "Quantum control": 0.6880021691322327 } }, { "id": 3835, "title": "Task-based weights for photon counting spectral x-ray imaging", "abstract": "Purpose: To develop a framework for taking the spatial frequency composition of an imaging task into account when determining optimal bin weight factors for photon counting energy sensitive x-ray syst...", "citations": 18, "author_count": 2, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3841, "doi": "10.1118/1.3653195", "umap_coordinates": { "x": 395.61962890625, "y": 132.92381286621094, "z": 205.59176635742188 }, "tsne_coordinates": { "x": 0.9850696325302124, "y": 19.659482955932617, "z": -21.633703231811523 }, "pca_coordinates": { "x": -2.805630683898926, "y": 1.8517369031906128, "z": 3.6117238998413086 }, "axis_scores": { "Quantum imaging": 0.7423602938652039, "Quantum Life Science Sensing": 0.7020077109336853, "Quantum sensing Detection": 0.7050306797027588, "Quantum sensing Metrology": 0.716041624546051, "Quantum sensing navigation": 0.7184444069862366, "Quantum sensing Position": 0.7082049250602722, "Quantum sensing Timing": 0.7225100994110107, "Quantum sensing": 0.7170053720474243, "Quantum control": 0.6867201924324036 } }, { "id": 3836, "title": "Decay of transverse correlations in quantum Heisenberg models", "abstract": "We study a class of quantum spin systems that include the S = 1/2 Heisenberg and XY-models and prove that two-point correlations exhibit exponential decay in the presence of a transverse magnetic fiel...", "citations": 8, "author_count": 3, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3842, "doi": "10.1063/1.4918675", "umap_coordinates": { "x": 394.1573486328125, "y": 136.98793029785156, "z": 207.9479217529297 }, "tsne_coordinates": { "x": -17.054183959960938, "y": -26.328760147094727, "z": 28.271841049194336 }, "pca_coordinates": { "x": 4.416369438171387, "y": 1.5792090892791748, "z": -1.015934944152832 }, "axis_scores": { "Quantum imaging": 0.7445168495178223, "Quantum Life Science Sensing": 0.7163211703300476, "Quantum sensing Detection": 0.7302979230880737, "Quantum sensing Metrology": 0.7075629234313965, "Quantum sensing navigation": 0.7287043333053589, "Quantum sensing Position": 0.7043673992156982, "Quantum sensing Timing": 0.7234596610069275, "Quantum sensing": 0.73906010389328, "Quantum control": 0.7311120629310608 } }, { "id": 3837, "title": "Interplay between relaxational atomic fluctuations and charge density waves in La2-xSrxCuO4", "abstract": "In the cuprate superconductors, the spatial coherence of the charge density wave (CDW) state grows below a temperature T-CDW, the origin of which is debated. Using x-ray photon correlation spectroscop...", "citations": 5, "author_count": 14, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3843, "doi": "10.1103/PhysRevB.108.L201111", "umap_coordinates": { "x": 393.47320556640625, "y": 136.64279174804688, "z": 208.1909637451172 }, "tsne_coordinates": { "x": -9.37551212310791, "y": -38.23182678222656, "z": 16.660877227783203 }, "pca_coordinates": { "x": 3.570662498474121, "y": -1.1144628524780273, "z": -3.0025582313537598 }, "axis_scores": { "Quantum imaging": 0.6974725723266602, "Quantum Life Science Sensing": 0.7097091674804688, "Quantum sensing Detection": 0.6762034893035889, "Quantum sensing Metrology": 0.6602247357368469, "Quantum sensing navigation": 0.6987950801849365, "Quantum sensing Position": 0.6725525259971619, "Quantum sensing Timing": 0.6751447916030884, "Quantum sensing": 0.7033805847167969, "Quantum control": 0.7074943780899048 } }, { "id": 3838, "title": "A Chip-Based Superconducting Magnetic Trap for Levitating Superconducting Microparticles", "abstract": "Magnetically-levitated superconducting microparticles have been recently proposed as a promising platform for performing quantum experiments with particles in the picogram regime. Here, we demonstrate...", "citations": 8, "author_count": 6, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3844, "doi": "10.1109/TASC.2022.3147730", "umap_coordinates": { "x": 394.7380065917969, "y": 134.43997192382812, "z": 206.46556091308594 }, "tsne_coordinates": { "x": -5.568910598754883, "y": 0.012160275131464005, "z": -40.695777893066406 }, "pca_coordinates": { "x": 0.12468791007995605, "y": -0.11560630798339844, "z": -0.18757429718971252 }, "axis_scores": { "Quantum imaging": 0.6527652144432068, "Quantum Life Science Sensing": 0.6798539161682129, "Quantum sensing Detection": 0.6755536794662476, "Quantum sensing Metrology": 0.6689082384109497, "Quantum sensing navigation": 0.6803653240203857, "Quantum sensing Position": 0.6790785789489746, "Quantum sensing Timing": 0.6825506091117859, "Quantum sensing": 0.6788409948348999, "Quantum control": 0.6719224452972412 } }, { "id": 3839, "title": "Reversal of Thermoelectric Current in Tubular Nanowires", "abstract": "We calculate the charge current generated by a temperature bias between the two ends of a tubular nanowire. We show that in the presence of a transversal magnetic field the current can change sign; i....", "citations": 24, "author_count": 6, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3845, "doi": "10.1103/PhysRevLett.119.036804", "umap_coordinates": { "x": 393.8164367675781, "y": 135.29847717285156, "z": 208.47427368164062 }, "tsne_coordinates": { "x": 4.780312538146973, "y": -22.130191802978516, "z": 5.889492511749268 }, "pca_coordinates": { "x": 3.441580295562744, "y": -2.1379780769348145, "z": -0.28564444184303284 }, "axis_scores": { "Quantum imaging": 0.7004597783088684, "Quantum Life Science Sensing": 0.7121942043304443, "Quantum sensing Detection": 0.6947904229164124, "Quantum sensing Metrology": 0.6861675977706909, "Quantum sensing navigation": 0.717930257320404, "Quantum sensing Position": 0.682775616645813, "Quantum sensing Timing": 0.7063413858413696, "Quantum sensing": 0.703524649143219, "Quantum control": 0.6840791702270508 } }, { "id": 3840, "title": "Inorganic nanomaterials as delivery systems for proteins, peptides, DNA, and siRNA", "abstract": "With large current interest in nanomedicine, there has been rapid progress during the last couple of years in the understanding of opportunities offered by advanced materials in diagnostics, drug deli...", "citations": 89, "author_count": 2, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3846, "doi": "10.1016/j.cocis.2013.06.002", "umap_coordinates": { "x": 393.2622375488281, "y": 134.08973693847656, "z": 204.43487548828125 }, "tsne_coordinates": { "x": 23.90377426147461, "y": 23.6807861328125, "z": 5.147744178771973 }, "pca_coordinates": { "x": -4.505575180053711, "y": -1.4290637969970703, "z": -1.3192386627197266 }, "axis_scores": { "Quantum imaging": 0.7469615340232849, "Quantum Life Science Sensing": 0.7623692154884338, "Quantum sensing Detection": 0.7247361540794373, "Quantum sensing Metrology": 0.7109493017196655, "Quantum sensing navigation": 0.7237564325332642, "Quantum sensing Position": 0.7035836577415466, "Quantum sensing Timing": 0.6851727962493896, "Quantum sensing": 0.7431213855743408, "Quantum control": 0.7332842350006104 } }, { "id": 3841, "title": "Self-calibrated concentration measurements of polydisperse nanoparticles", "abstract": "Summary Quantitative characterization of nanoparticles, e.g. accurate estimation of concentration distributions, is critical to many pharmaceutical and biological applications. We present a method tha...", "citations": 9, "author_count": 6, "categories": [ "Microscopy" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3847, "doi": "10.1111/jmi.12073", "umap_coordinates": { "x": 393.62896728515625, "y": 134.2766876220703, "z": 205.46575927734375 }, "tsne_coordinates": { "x": 17.028902053833008, "y": 20.201183319091797, "z": -26.292268753051758 }, "pca_coordinates": { "x": -3.313416004180908, "y": -0.8603105545043945, "z": 1.2001466751098633 }, "axis_scores": { "Quantum imaging": 0.7263588905334473, "Quantum Life Science Sensing": 0.7627937197685242, "Quantum sensing Detection": 0.7382853031158447, "Quantum sensing Metrology": 0.7513412833213806, "Quantum sensing navigation": 0.7134235501289368, "Quantum sensing Position": 0.7229812741279602, "Quantum sensing Timing": 0.6918020844459534, "Quantum sensing": 0.7476768493652344, "Quantum control": 0.7069032192230225 } }, { "id": 3842, "title": "Fluorescence spectrum and charge state control of divacancy qubits via illumination at elevated temperatures in 4H silicon carbide", "abstract": "Divacancy in its neutral charge state (VCV0Si) in 4H silicon carbide (SiC) is a leading quantum bit (qubit) contender. Owing to the lattice structure of 4H SiC, four different VCVSi configurations can...", "citations": 16, "author_count": 5, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3848, "doi": "10.1103/PhysRevB.105.165108", "umap_coordinates": { "x": 393.7841491699219, "y": 135.47848510742188, "z": 207.72232055664062 }, "tsne_coordinates": { "x": 4.047223091125488, "y": -13.965490341186523, "z": 1.1447502374649048 }, "pca_coordinates": { "x": 2.390806198120117, "y": -1.8720598220825195, "z": 0.23234373331069946 }, "axis_scores": { "Quantum imaging": 0.7461336255073547, "Quantum Life Science Sensing": 0.7485504150390625, "Quantum sensing Detection": 0.727885365486145, "Quantum sensing Metrology": 0.7164850234985352, "Quantum sensing navigation": 0.7231361865997314, "Quantum sensing Position": 0.6913437843322754, "Quantum sensing Timing": 0.6885703802108765, "Quantum sensing": 0.7373209595680237, "Quantum control": 0.7281316518783569 } }, { "id": 3843, "title": "CLIFFORD TORI AND UNBIASED VECTORS", "abstract": "The existence problem for mutually unbiased bases is an unsolved problem in quantum information theory. A related question is whether every pair of bases admits vectors that are unbiased to both. Math...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3849, "doi": "10.1016/S0034-4877(17)30019-8", "umap_coordinates": { "x": 394.0688781738281, "y": 136.22738647460938, "z": 205.90809631347656 }, "tsne_coordinates": { "x": -48.55403137207031, "y": -2.365586280822754, "z": 1.040015697479248 }, "pca_coordinates": { "x": -1.3732901811599731, "y": 0.9633591175079346, "z": -1.0786381959915161 }, "axis_scores": { "Quantum imaging": 0.6974620223045349, "Quantum Life Science Sensing": 0.6744847893714905, "Quantum sensing Detection": 0.6643840074539185, "Quantum sensing Metrology": 0.6804131865501404, "Quantum sensing navigation": 0.7026510238647461, "Quantum sensing Position": 0.6555655598640442, "Quantum sensing Timing": 0.6490107774734497, "Quantum sensing": 0.6845829486846924, "Quantum control": 0.725895881652832 } }, { "id": 3844, "title": "Strong 1.3-1.6 μm light emission from metamorphic InGaAs quantum wells on GaAs - art. no. 171902", "abstract": "We demonstrate strong 1.3-1.6 mu m photoluminescence (PL) from InGaAs quantum wells (QWs) grown on alloy graded InGaAs buffer layers on GaAs by molecular beam epitaxy. The epistructures show quite smo...", "citations": 19, "author_count": 10, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3850, "doi": "10.1063/1.1906308", "umap_coordinates": { "x": 393.4110412597656, "y": 133.5137176513672, "z": 207.9259033203125 }, "tsne_coordinates": { "x": 30.111665725708008, "y": -24.720867156982422, "z": -5.847107410430908 }, "pca_coordinates": { "x": 0.5819621086120605, "y": -3.6035046577453613, "z": 2.471574068069458 }, "axis_scores": { "Quantum imaging": 0.718064546585083, "Quantum Life Science Sensing": 0.7084075212478638, "Quantum sensing Detection": 0.7094716429710388, "Quantum sensing Metrology": 0.7148351669311523, "Quantum sensing navigation": 0.6826554536819458, "Quantum sensing Position": 0.6582195162773132, "Quantum sensing Timing": 0.6475493311882019, "Quantum sensing": 0.7240116596221924, "Quantum control": 0.6535692811012268 } }, { "id": 3845, "title": "A first-principles potential energy surface for Eley-Rideal reaction dynamics of H atoms on Cu(111)", "abstract": "We have performed first-principles total-energy calculations of low-dimensional sections of the electronically adiabatic potential energy surface (PES) that are relevant for the Eley-Rideal (ER) react...", "citations": 71, "author_count": 7, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3851, "doi": "10.1063/1.477836", "umap_coordinates": { "x": 393.4590148925781, "y": 137.50845336914062, "z": 206.98304748535156 }, "tsne_coordinates": { "x": 8.059328079223633, "y": -39.14311599731445, "z": -5.98054313659668 }, "pca_coordinates": { "x": 1.665473461151123, "y": -0.3718852996826172, "z": -2.493471145629883 }, "axis_scores": { "Quantum imaging": 0.6608609557151794, "Quantum Life Science Sensing": 0.6823835968971252, "Quantum sensing Detection": 0.6613457202911377, "Quantum sensing Metrology": 0.6419038772583008, "Quantum sensing navigation": 0.6561682224273682, "Quantum sensing Position": 0.6272257566452026, "Quantum sensing Timing": 0.6335559487342834, "Quantum sensing": 0.6662721633911133, "Quantum control": 0.6729946136474609 } }, { "id": 3846, "title": "Reconstruction of time-correlated single-photon counting range profiles of moving objects", "abstract": "Time-correlated single-photon counting (TCSPC) is a laser radar technique that can provide range profiling with sub-centimetre range resolution. The method relies on accurate time measurements between...", "citations": 9, "author_count": 5, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3852, "doi": "10.1117/12.2194859", "umap_coordinates": { "x": 395.1479797363281, "y": 133.20733642578125, "z": 206.2574920654297 }, "tsne_coordinates": { "x": -7.945090293884277, "y": 12.069415092468262, "z": -31.81464385986328 }, "pca_coordinates": { "x": -1.3711693286895752, "y": 2.4383316040039062, "z": 3.3736538887023926 }, "axis_scores": { "Quantum imaging": 0.7495372295379639, "Quantum Life Science Sensing": 0.7426154613494873, "Quantum sensing Detection": 0.7425663471221924, "Quantum sensing Metrology": 0.7447863817214966, "Quantum sensing navigation": 0.7566985487937927, "Quantum sensing Position": 0.7487788796424866, "Quantum sensing Timing": 0.7525561451911926, "Quantum sensing": 0.7422018051147461, "Quantum control": 0.6858408451080322 } }, { "id": 3847, "title": "Improved Morphology Control Using a Modified Two-Step Method for Efficient Perovskite Solar Cells", "abstract": "A two-step wet chemical synthesis method for methylammonium lead(II) triiodide (CH3NH3PbI3) perovskite is further developed for the preparation of highly reproducible solar cells, with the following s...", "citations": 71, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3853, "doi": "10.1021/am504320h", "umap_coordinates": { "x": 392.08941650390625, "y": 133.8111114501953, "z": 205.1993865966797 }, "tsne_coordinates": { "x": 28.529924392700195, "y": -3.7613091468811035, "z": -11.675402641296387 }, "pca_coordinates": { "x": -5.245638847351074, "y": -1.3824405670166016, "z": -1.9871816635131836 }, "axis_scores": { "Quantum imaging": 0.6293247938156128, "Quantum Life Science Sensing": 0.6468852162361145, "Quantum sensing Detection": 0.6119811534881592, "Quantum sensing Metrology": 0.6272839307785034, "Quantum sensing navigation": 0.5971669554710388, "Quantum sensing Position": 0.5911999940872192, "Quantum sensing Timing": 0.5860195159912109, "Quantum sensing": 0.6319730877876282, "Quantum control": 0.6369280815124512 } }, { "id": 3848, "title": "Fluorescence correlation spectroscopy of flavins and flavoenzymes: photochemical and photophysical aspects", "abstract": "Fluorescence Correlation Spectroscopy (FCS) was used to investigate the excited-state properties of flavins and flavoproteins in solution at the single molecule level. Flavin mononucleotide (FMN), fla...", "citations": 75, "author_count": 6, "categories": [ "Spectroscopy" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3854, "doi": "10.1016/S1386-1425(01)00494-2", "umap_coordinates": { "x": 393.4476623535156, "y": 135.7089080810547, "z": 204.80955505371094 }, "tsne_coordinates": { "x": -2.1312272548675537, "y": 16.17859649658203, "z": 0.5770481824874878 }, "pca_coordinates": { "x": -2.959498405456543, "y": 0.5382871627807617, "z": -1.403801441192627 }, "axis_scores": { "Quantum imaging": 0.7172142267227173, "Quantum Life Science Sensing": 0.7444726228713989, "Quantum sensing Detection": 0.7074584364891052, "Quantum sensing Metrology": 0.713476300239563, "Quantum sensing navigation": 0.6988027095794678, "Quantum sensing Position": 0.6752685308456421, "Quantum sensing Timing": 0.6746747493743896, "Quantum sensing": 0.7202862501144409, "Quantum control": 0.6778801679611206 } }, { "id": 3849, "title": "Quantum origin of the oxygen storage capability of ceria - art. no. 166601", "abstract": "The microscopic mechanism behind the extraordinary ability of ceria to store, release, and transport oxygen is explained on the basis of first-principles quantum mechanical simulations. The oxygen-vac...", "citations": 756, "author_count": 6, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3855, "doi": "10.1103/PhysRevLett.89.166601", "umap_coordinates": { "x": 395.07958984375, "y": 135.5706787109375, "z": 208.47093200683594 }, "tsne_coordinates": { "x": -12.836883544921875, "y": -17.56391716003418, "z": -0.5694770216941833 }, "pca_coordinates": { "x": 2.7356879711151123, "y": 0.02125835418701172, "z": -1.060650110244751 }, "axis_scores": { "Quantum imaging": 0.7162076234817505, "Quantum Life Science Sensing": 0.7738872766494751, "Quantum sensing Detection": 0.7232851982116699, "Quantum sensing Metrology": 0.7174403667449951, "Quantum sensing navigation": 0.7212491035461426, "Quantum sensing Position": 0.7003409266471863, "Quantum sensing Timing": 0.7094489932060242, "Quantum sensing": 0.7391617894172668, "Quantum control": 0.7024582624435425 } }, { "id": 3850, "title": "Nanomechanics driven by Andreev tunneling", "abstract": "We predict and analyze mechanical instability and corresponding self-sustained mechanical oscillations occurring in a nanoelectromechanical system composed of a metallic carbon nanotube (CNT) suspende...", "citations": 4, "author_count": 6, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3856, "doi": "10.1103/PhysRevB.102.235402", "umap_coordinates": { "x": 394.2127685546875, "y": 135.2179412841797, "z": 208.7395477294922 }, "tsne_coordinates": { "x": 9.062080383300781, "y": -35.24997329711914, "z": 9.44192123413086 }, "pca_coordinates": { "x": 4.438155651092529, "y": -2.112092971801758, "z": -0.1220579743385315 }, "axis_scores": { "Quantum imaging": 0.7137985229492188, "Quantum Life Science Sensing": 0.7328710556030273, "Quantum sensing Detection": 0.7209246158599854, "Quantum sensing Metrology": 0.721371054649353, "Quantum sensing navigation": 0.7335676550865173, "Quantum sensing Position": 0.6889667510986328, "Quantum sensing Timing": 0.6958578824996948, "Quantum sensing": 0.7359553575515747, "Quantum control": 0.712409496307373 } }, { "id": 3851, "title": "Energy gaps and interaction blockade in confined quantum systems", "abstract": "We investigate universal properties of strongly confined particles that turn out to be dramatically different from what is observed for electrons in atoms and molecules. For a large class of harmonica...", "citations": 27, "author_count": 5, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3857, "doi": "10.1103/PhysRevLett.99.010402", "umap_coordinates": { "x": 394.3840637207031, "y": 136.01824951171875, "z": 208.84983825683594 }, "tsne_coordinates": { "x": -10.629280090332031, "y": -12.566112518310547, "z": 4.042448043823242 }, "pca_coordinates": { "x": 5.404263973236084, "y": -1.2817420959472656, "z": -0.03646582365036011 }, "axis_scores": { "Quantum imaging": 0.7035782337188721, "Quantum Life Science Sensing": 0.7082207798957825, "Quantum sensing Detection": 0.7099940776824951, "Quantum sensing Metrology": 0.6961516737937927, "Quantum sensing navigation": 0.7093050479888916, "Quantum sensing Position": 0.6925066113471985, "Quantum sensing Timing": 0.7032216787338257, "Quantum sensing": 0.7142952084541321, "Quantum control": 0.6770515441894531 } }, { "id": 3852, "title": "Photon-Counting Spectral Phase-Contrast Mammography", "abstract": "Phase-contrast imaging is an emerging technology that may increase the signal-difference-to-noise ratio in medical imaging. One of the most promising phase-contrast techniques is Talbot interferometry...", "citations": 2, "author_count": 14, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3858, "doi": "10.1117/12.910615", "umap_coordinates": { "x": 395.3333740234375, "y": 133.05616760253906, "z": 206.1214141845703 }, "tsne_coordinates": { "x": -7.329971790313721, "y": 19.782888412475586, "z": -25.18976593017578 }, "pca_coordinates": { "x": -1.3706318140029907, "y": 0.6760848760604858, "z": 4.198538303375244 }, "axis_scores": { "Quantum imaging": 0.7604560256004333, "Quantum Life Science Sensing": 0.7476492524147034, "Quantum sensing Detection": 0.7691292762756348, "Quantum sensing Metrology": 0.755357027053833, "Quantum sensing navigation": 0.7467231750488281, "Quantum sensing Position": 0.7343547940254211, "Quantum sensing Timing": 0.7250471115112305, "Quantum sensing": 0.7620798945426941, "Quantum control": 0.6827347278594971 } }, { "id": 3853, "title": "Starch-Derived Nanographene Oxide Paves the Way for Electrospinnable and Bioactive Starch Scaffolds for Bone Tissue Engineering", "abstract": "A straightforward process that enabled electrospinning of bioactive starch-based nanofiber scaffolds was developed by utilizing starch derived nano graphene oxide (nGO) as a property enhancer and form...", "citations": 68, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3859, "doi": "10.1021/acs.biomac.7b00195", "umap_coordinates": { "x": 392.8715515136719, "y": 134.2378692626953, "z": 204.42431640625 }, "tsne_coordinates": { "x": 25.824434280395508, "y": 25.62713050842285, "z": -2.500006914138794 }, "pca_coordinates": { "x": -3.3618359565734863, "y": -0.7934038639068604, "z": -1.188098430633545 }, "axis_scores": { "Quantum imaging": 0.6679806113243103, "Quantum Life Science Sensing": 0.7035797238349915, "Quantum sensing Detection": 0.6498595476150513, "Quantum sensing Metrology": 0.6383094787597656, "Quantum sensing navigation": 0.6724147796630859, "Quantum sensing Position": 0.634556233882904, "Quantum sensing Timing": 0.6217721700668335, "Quantum sensing": 0.673080563545227, "Quantum control": 0.6500211954116821 } }, { "id": 3854, "title": "The application of microbeads to microfluidic systems for enhanced detection and purification of biomolecules", "abstract": "This paper describes microbead-based microfluidic systems. Several aspects of bead assays in microfluidics make them advantageous for bioassays in simple microchannels, including enhanced surface-to-v...", "citations": 56, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3860, "doi": "10.1016/j.ymeth.2016.12.005", "umap_coordinates": { "x": 393.5237121582031, "y": 134.32244873046875, "z": 203.97613525390625 }, "tsne_coordinates": { "x": 20.166738510131836, "y": 26.73978614807129, "z": -8.851380348205566 }, "pca_coordinates": { "x": -4.069242477416992, "y": 0.8319355249404907, "z": -1.0640212297439575 }, "axis_scores": { "Quantum imaging": 0.7038917541503906, "Quantum Life Science Sensing": 0.710519015789032, "Quantum sensing Detection": 0.7012423872947693, "Quantum sensing Metrology": 0.7010029554367065, "Quantum sensing navigation": 0.6796421408653259, "Quantum sensing Position": 0.6816500425338745, "Quantum sensing Timing": 0.6608614325523376, "Quantum sensing": 0.7034186124801636, "Quantum control": 0.6756733059883118 } }, { "id": 3855, "title": "Novel Bisthienylethenes Containing Naphthalimide as the Center Ethene Bridge: Photochromism and Solvatochromism for Combined NOR and INHIBIT Logic Gates", "abstract": "Two novel photochromic bisthienylethene derivatives BTE-NA1 and BTE-NA2 with a six-membered aryl ring of naphthalimide fluorescent moiety as the center ethene bridging unit were synthesized and fully ...", "citations": 91, "author_count": 7, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3861, "doi": "10.1021/jp807179v", "umap_coordinates": { "x": 391.9760437011719, "y": 135.5101318359375, "z": 205.14678955078125 }, "tsne_coordinates": { "x": 20.26999855041504, "y": 10.259467124938965, "z": -25.910144805908203 }, "pca_coordinates": { "x": -1.8408567905426025, "y": -1.620983600616455, "z": -0.27052953839302063 }, "axis_scores": { "Quantum imaging": 0.7024883031845093, "Quantum Life Science Sensing": 0.6843680143356323, "Quantum sensing Detection": 0.6875320672988892, "Quantum sensing Metrology": 0.6621446013450623, "Quantum sensing navigation": 0.6722515225410461, "Quantum sensing Position": 0.6541512608528137, "Quantum sensing Timing": 0.6576902270317078, "Quantum sensing": 0.6917909383773804, "Quantum control": 0.6638242602348328 } }, { "id": 3856, "title": "Fast quantum limited readout of a superconducting qubit using a slow oscillator", "abstract": "We describe how to perform fast quantum limited readout of a solid state qubit biased at its degeneracy point. The method is based on homodyne detection of the phase of a microwave signal reflected by...", "citations": 40, "author_count": 4, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3862, "doi": "10.1103/PhysRevB.74.100504", "umap_coordinates": { "x": 394.85028076171875, "y": 135.63002014160156, "z": 207.9294891357422 }, "tsne_coordinates": { "x": -18.93083381652832, "y": -34.96615219116211, "z": 23.716541290283203 }, "pca_coordinates": { "x": 4.440906524658203, "y": 0.9636894464492798, "z": 1.6828575134277344 }, "axis_scores": { "Quantum imaging": 0.7258860468864441, "Quantum Life Science Sensing": 0.7439334988594055, "Quantum sensing Detection": 0.7554096579551697, "Quantum sensing Metrology": 0.7170047163963318, "Quantum sensing navigation": 0.7454825043678284, "Quantum sensing Position": 0.7197384834289551, "Quantum sensing Timing": 0.7196329832077026, "Quantum sensing": 0.7622042298316956, "Quantum control": 0.720920741558075 } }, { "id": 3857, "title": "Relaxation dynamics in ultrathin polymer films", "abstract": "We have used photon correlation spectroscopy and quartz crystal microbalance techniques to examine the relaxation dynamics of ultrathin (h<400 Angstrom) polystyrene films in both supported and freely ...", "citations": 129, "author_count": 7, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3863, "doi": "10.1103/PhysRevE.58.R1226", "umap_coordinates": { "x": 393.1401062011719, "y": 136.473876953125, "z": 206.968505859375 }, "tsne_coordinates": { "x": -6.489508152008057, "y": -5.301938056945801, "z": 29.501522064208984 }, "pca_coordinates": { "x": 3.0006117820739746, "y": -0.7998602390289307, "z": -2.250361919403076 }, "axis_scores": { "Quantum imaging": 0.6986016035079956, "Quantum Life Science Sensing": 0.736130952835083, "Quantum sensing Detection": 0.6853009462356567, "Quantum sensing Metrology": 0.6602230668067932, "Quantum sensing navigation": 0.6901373267173767, "Quantum sensing Position": 0.6696157455444336, "Quantum sensing Timing": 0.6689723134040833, "Quantum sensing": 0.7007851600646973, "Quantum control": 0.6693041920661926 } }, { "id": 3858, "title": "Quantum Mechanics/Molecular Mechanics Density Functional Theory Simulations of the Optical Properties Fingerprinting the Ligand-Binding of Pentameric Formyl Thiophene Acetic Acid in Annyloid-β(1-42)", "abstract": "The binding pocket proposed by Konig et al. [Chem. Commun. 2018, 54, 3030-3033] for the biomarker pentameric formyl thiophene acetic acid (p-FTAA) in the fibrillar structure of amyloid-beta(1-42) has ...", "citations": 12, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3864, "doi": "10.1021/acs.jpca.9b09779", "umap_coordinates": { "x": 392.5511779785156, "y": 136.18304443359375, "z": 205.23733520507812 }, "tsne_coordinates": { "x": 2.4842441082000732, "y": 5.593903064727783, "z": -19.0533447265625 }, "pca_coordinates": { "x": -1.0233350992202759, "y": 0.1593155860900879, "z": -0.8283613920211792 }, "axis_scores": { "Quantum imaging": 0.6972504258155823, "Quantum Life Science Sensing": 0.7215508818626404, "Quantum sensing Detection": 0.6942542195320129, "Quantum sensing Metrology": 0.6912297010421753, "Quantum sensing navigation": 0.7002478837966919, "Quantum sensing Position": 0.6776351928710938, "Quantum sensing Timing": 0.6916912794113159, "Quantum sensing": 0.7067708969116211, "Quantum control": 0.6722936630249023 } }, { "id": 3859, "title": "A Low-complexity FPGA TDC based on a DSP Delay Line and a Wave Union Launcher", "abstract": "High-precision time-to-digital converters (TDCs) are key components for controlling quantum systems and FPGAs have gained popularity for this task thanks to their low-cost and flexibility compared wit...", "citations": 2, "author_count": 4, "categories": [ "Computer Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3865, "doi": "10.1109/DSD57027.2022.00023", "umap_coordinates": { "x": 395.0541687011719, "y": 134.7799072265625, "z": 206.03453063964844 }, "tsne_coordinates": { "x": 1.4609527587890625, "y": 6.685739517211914, "z": -41.63819122314453 }, "pca_coordinates": { "x": -1.2670451402664185, "y": 2.1622800827026367, "z": 1.758622646331787 }, "axis_scores": { "Quantum imaging": 0.6607778668403625, "Quantum Life Science Sensing": 0.6747258901596069, "Quantum sensing Detection": 0.6671184301376343, "Quantum sensing Metrology": 0.6545864343643188, "Quantum sensing navigation": 0.6783078908920288, "Quantum sensing Position": 0.6761655211448669, "Quantum sensing Timing": 0.7104682326316833, "Quantum sensing": 0.6674769520759583, "Quantum control": 0.6721605658531189 } }, { "id": 3860, "title": "Coherent Picosecond Exciton Dynamics in a Photosynthetic Reaction Center", "abstract": "Photosynthetic reaction centers convert sunlight into a transmembrane electrochemical potential difference, providing chemical energy to almost all life on earth. Light energy is efficiently transferr...", "citations": 118, "author_count": 6, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3866, "doi": "10.1021/ja3065478", "umap_coordinates": { "x": 392.3977355957031, "y": 136.06781005859375, "z": 206.5897674560547 }, "tsne_coordinates": { "x": 12.797320365905762, "y": -2.7227070331573486, "z": 12.688668251037598 }, "pca_coordinates": { "x": 0.40528225898742676, "y": -2.1962790489196777, "z": -0.9253702163696289 }, "axis_scores": { "Quantum imaging": 0.7284546494483948, "Quantum Life Science Sensing": 0.7289136648178101, "Quantum sensing Detection": 0.7084072828292847, "Quantum sensing Metrology": 0.6797018647193909, "Quantum sensing navigation": 0.6981863379478455, "Quantum sensing Position": 0.679151713848114, "Quantum sensing Timing": 0.6942343711853027, "Quantum sensing": 0.712266743183136, "Quantum control": 0.7035602331161499 } }, { "id": 3861, "title": "Chiral effects in normal and superconducting carbon nanotube-based nanostructures", "abstract": "The novel phenomenon of chiral tunneling in metallic single-wall carbon nanotubes is considered. It is induced by the interplay of electrostatic and pseudomagnetic effects in electron scattering in ch...", "citations": 4, "author_count": 7, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3867, "doi": "10.1063/1.3518334", "umap_coordinates": { "x": 393.2560119628906, "y": 134.49595642089844, "z": 208.08523559570312 }, "tsne_coordinates": { "x": 18.862375259399414, "y": -20.851530075073242, "z": -2.002028703689575 }, "pca_coordinates": { "x": 1.72719144821167, "y": -2.823037624359131, "z": 0.06892925500869751 }, "axis_scores": { "Quantum imaging": 0.7044293880462646, "Quantum Life Science Sensing": 0.7203025221824646, "Quantum sensing Detection": 0.7116491198539734, "Quantum sensing Metrology": 0.7019996643066406, "Quantum sensing navigation": 0.7260595560073853, "Quantum sensing Position": 0.7009885311126709, "Quantum sensing Timing": 0.6902903914451599, "Quantum sensing": 0.7244330644607544, "Quantum control": 0.7107446193695068 } }, { "id": 3862, "title": "Non-Abelian geometric phases in a system of coupled quantum bits", "abstract": "A common strategy to measure the Abelian geometric phase for a qubit is to let it evolve along an orange-slice-shaped path connecting two antipodal points on the Bloch sphere by two different semi-gre...", "citations": 27, "author_count": 3, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3868, "doi": "10.1103/PhysRevA.89.022117", "umap_coordinates": { "x": 394.8363342285156, "y": 136.97901916503906, "z": 208.26055908203125 }, "tsne_coordinates": { "x": -18.888980865478516, "y": -24.382741928100586, "z": 15.270259857177734 }, "pca_coordinates": { "x": 5.893340587615967, "y": 0.9606001377105713, "z": -0.7842968106269836 }, "axis_scores": { "Quantum imaging": 0.7364580035209656, "Quantum Life Science Sensing": 0.7231794595718384, "Quantum sensing Detection": 0.7311315536499023, "Quantum sensing Metrology": 0.7273179888725281, "Quantum sensing navigation": 0.7534912824630737, "Quantum sensing Position": 0.722501814365387, "Quantum sensing Timing": 0.7140811085700989, "Quantum sensing": 0.7378872036933899, "Quantum control": 0.7196542024612427 } }, { "id": 3863, "title": "Quantum-well-driven magnetism in thin films", "abstract": "We have performed local spin-density calculations for an fee (100) Ag substrate covered by 1 to 16 monolayers (ML) of Pd. We find that thin films of Pd are magnetic with a moment of the order of 0.3 m...", "citations": 23, "author_count": 4, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3869, "doi": "10.1103/PhysRevB.53.R13310", "umap_coordinates": { "x": 393.7200927734375, "y": 135.7623291015625, "z": 209.13934326171875 }, "tsne_coordinates": { "x": 3.0767822265625, "y": -32.38018798828125, "z": 14.67530632019043 }, "pca_coordinates": { "x": 4.4464521408081055, "y": -3.506527900695801, "z": -1.851980209350586 }, "axis_scores": { "Quantum imaging": 0.7469328045845032, "Quantum Life Science Sensing": 0.7609041929244995, "Quantum sensing Detection": 0.7452436685562134, "Quantum sensing Metrology": 0.7390624284744263, "Quantum sensing navigation": 0.739143431186676, "Quantum sensing Position": 0.6955394148826599, "Quantum sensing Timing": 0.6792741417884827, "Quantum sensing": 0.7598293423652649, "Quantum control": 0.7213857173919678 } }, { "id": 3864, "title": "Fast tuning of superconducting microwave cavities", "abstract": "Photons are fundamental excitations of electromagnetic fields and can be captured in cavities. For a given cavity with a certain size, the fundamental mode has a fixed frequency f which gives the phot...", "citations": 4, "author_count": 9, "categories": [ "Computer Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3870, "doi": null, "umap_coordinates": { "x": 391.5660095214844, "y": 139.5672607421875, "z": 208.882568359375 }, "tsne_coordinates": { "x": -4.734003067016602, "y": 50.84072494506836, "z": -5.379209041595459 }, "pca_coordinates": { "x": 0.44261693954467773, "y": 2.804741382598877, "z": -1.5404458045959473 }, "axis_scores": { "Quantum imaging": 0.7210381031036377, "Quantum Life Science Sensing": 0.7329146862030029, "Quantum sensing Detection": 0.7288359999656677, "Quantum sensing Metrology": 0.7197977900505066, "Quantum sensing navigation": 0.7466831207275391, "Quantum sensing Position": 0.7002451419830322, "Quantum sensing Timing": 0.7323008179664612, "Quantum sensing": 0.7417567372322083, "Quantum control": 0.7400894165039062 } }, { "id": 3865, "title": "Nano-based drug delivery systems in hepatocellular carcinoma", "abstract": "The high recurrence rate of hepatocellular carcinoma (HCC) and poor prognosis after medical treatment reflects the necessity to improve the current chemotherapy protocols, particularly drug delivery m...", "citations": 8, "author_count": 8, "categories": [ "Pharmacology & Pharmacy" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3871, "doi": "10.1080/1061186X.2024.2365937", "umap_coordinates": { "x": 394.2101135253906, "y": 134.1949920654297, "z": 204.5844268798828 }, "tsne_coordinates": { "x": 13.824020385742188, "y": 28.683202743530273, "z": -7.665822982788086 }, "pca_coordinates": { "x": -2.43269681930542, "y": 0.9996272325515747, "z": -0.8617898225784302 }, "axis_scores": { "Quantum imaging": 0.6851803660392761, "Quantum Life Science Sensing": 0.7201749682426453, "Quantum sensing Detection": 0.6809940934181213, "Quantum sensing Metrology": 0.6671931743621826, "Quantum sensing navigation": 0.6739312410354614, "Quantum sensing Position": 0.6631630659103394, "Quantum sensing Timing": 0.6539461612701416, "Quantum sensing": 0.6900266408920288, "Quantum control": 0.6866409778594971 } }, { "id": 3866, "title": "An all-photonic full color RGB system based on molecular photoswitches", "abstract": "On-command changes in the emission color of functional materials is a sought-after property in many contexts. Of particular interest are systems using light as the external trigger to induce the color...", "citations": 84, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3872, "doi": "10.1038/s41467-019-11885-4", "umap_coordinates": { "x": 393.623291015625, "y": 134.86068725585938, "z": 205.63157653808594 }, "tsne_coordinates": { "x": -9.85022258758545, "y": 4.219147682189941, "z": -10.59591007232666 }, "pca_coordinates": { "x": -1.9271039962768555, "y": -0.713709831237793, "z": 0.7318323254585266 }, "axis_scores": { "Quantum imaging": 0.7312418818473816, "Quantum Life Science Sensing": 0.7266178131103516, "Quantum sensing Detection": 0.7133516073226929, "Quantum sensing Metrology": 0.7012110948562622, "Quantum sensing navigation": 0.7027256488800049, "Quantum sensing Position": 0.6859563589096069, "Quantum sensing Timing": 0.6911820769309998, "Quantum sensing": 0.7381209135055542, "Quantum control": 0.6963860988616943 } }, { "id": 3867, "title": "Dynamics of proteins in solution", "abstract": "The dynamics of proteins in solution includes a variety of processes, such as backbone and side-chain fluctuations, interdomain motions, as well as global rotational and translational (i.e. center of ...", "citations": 114, "author_count": 6, "categories": [ "Biophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3873, "doi": "10.1017/S0033583519000027", "umap_coordinates": { "x": 393.5607604980469, "y": 136.1111297607422, "z": 205.6254425048828 }, "tsne_coordinates": { "x": 14.973140716552734, "y": 14.622084617614746, "z": 21.297746658325195 }, "pca_coordinates": { "x": -0.9305949211120605, "y": 0.33669090270996094, "z": -3.9879584312438965 }, "axis_scores": { "Quantum imaging": 0.6776357293128967, "Quantum Life Science Sensing": 0.7206759452819824, "Quantum sensing Detection": 0.6711597442626953, "Quantum sensing Metrology": 0.6660099625587463, "Quantum sensing navigation": 0.7002125382423401, "Quantum sensing Position": 0.6843946576118469, "Quantum sensing Timing": 0.6503183245658875, "Quantum sensing": 0.6830469965934753, "Quantum control": 0.677931547164917 } }, { "id": 3868, "title": "Local environment can enhance fidelity of quantum teleportation - art. no. 012311", "abstract": "We show how an interaction with the environment can enhance fidelity of quantum teleportation. To this end, we present examples of states which cannot be made useful for teleportation by any local uni...", "citations": 167, "author_count": 5, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 3874, "doi": "10.1103/PhysRevA.62.012311", "umap_coordinates": { "x": 395.7204895019531, "y": 137.08746337890625, "z": 207.54293823242188 }, "tsne_coordinates": { "x": -26.248628616333008, "y": -9.517462730407715, "z": 6.340712547302246 }, "pca_coordinates": { "x": 2.8960561752319336, "y": 1.5122736692428589, "z": 0.7282266020774841 }, "axis_scores": { "Quantum imaging": 0.7495566010475159, "Quantum Life Science Sensing": 0.7260796427726746, "Quantum sensing Detection": 0.73637855052948, "Quantum sensing Metrology": 0.731107234954834, "Quantum sensing navigation": 0.7506831884384155, "Quantum sensing Position": 0.7283154726028442, "Quantum sensing Timing": 0.6981493234634399, "Quantum sensing": 0.7591975927352905, "Quantum control": 0.744969367980957 } }, { "id": 3869, "title": "Feasibility study of nanoparticle synthesis from powders of compounds with incongruent sublimation behavior by the evaporation/condensation method", "abstract": "In this paper we investigate the feasibility of a fabrication route to produce nanocrystals of compound material with incongruent sublimation behavior via the simple evaporation of the powder of the c...", "citations": 10, "author_count": 6, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3875, "doi": "10.1016/S0965-9773(98)00104-4", "umap_coordinates": { "x": 392.74261474609375, "y": 134.352294921875, "z": 205.48825073242188 }, "tsne_coordinates": { "x": 31.29389190673828, "y": 22.292760848999023, "z": -0.08166957646608353 }, "pca_coordinates": { "x": -2.494206666946411, "y": 0.41967272758483887, "z": -0.599781334400177 }, "axis_scores": { "Quantum imaging": 0.6708729267120361, "Quantum Life Science Sensing": 0.6885867714881897, "Quantum sensing Detection": 0.655320405960083, "Quantum sensing Metrology": 0.6457178592681885, "Quantum sensing navigation": 0.6456435918807983, "Quantum sensing Position": 0.6592676639556885, "Quantum sensing Timing": 0.6440163850784302, "Quantum sensing": 0.6589345335960388, "Quantum control": 0.6360281705856323 } }, { "id": 3870, "title": "Magnetization and magnetocrystalline anisotropy of Ni-Mo single crystal alloys", "abstract": "Magnetizations of the binary alloy system Ni1-xMox [x(wt%) = 4, 6, 8, 10] single crystals have been measured at 4.2, 77 and 300 K, respectively, using the Vibrating Sample Magnetometer (VSM) and the S...", "citations": 23, "author_count": 4, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3876, "doi": "10.1016/S0304-8853(97)00182-0", "umap_coordinates": { "x": 392.3274230957031, "y": 136.2263641357422, "z": 207.88343811035156 }, "tsne_coordinates": { "x": 6.618593692779541, "y": -39.87554931640625, "z": 19.699480056762695 }, "pca_coordinates": { "x": -0.8926165103912354, "y": -1.67448091506958, "z": -1.1621476411819458 }, "axis_scores": { "Quantum imaging": 0.6763305068016052, "Quantum Life Science Sensing": 0.6745242476463318, "Quantum sensing Detection": 0.637222170829773, "Quantum sensing Metrology": 0.6760496497154236, "Quantum sensing navigation": 0.665835976600647, "Quantum sensing Position": 0.6536523699760437, "Quantum sensing Timing": 0.6180895566940308, "Quantum sensing": 0.6628137826919556, "Quantum control": 0.6372383236885071 } }, { "id": 3871, "title": "SENSITIVE METHOD FOR THE DETERMINATION OF CHLOROQUINE AND ITS METABOLITE DESETHYL-CHLOROQUINE IN HUMAN-PLASMA AND URINE BY HIGH-PERFORMANCE LIQUID-CHROMATOGRAPHY", "abstract": "A method has been developed for the rapid quantitative analysis of the antirheumatic drug chloroquine and its metabolite desethyl-chloroquine in plasma, blood and urine using high-performance liquid c...", "citations": 106, "author_count": 3, "categories": [ "Chemistry" ], "year": 1980, "topic": [ "all" ], "embedding_index": 3877, "doi": "10.1016/S0378-4347(00)81013-0", "umap_coordinates": { "x": 393.9757995605469, "y": 134.88148498535156, "z": 204.66122436523438 }, "tsne_coordinates": { "x": 19.62260627746582, "y": 16.77323341369629, "z": -21.22506332397461 }, "pca_coordinates": { "x": -4.182043075561523, "y": 1.5457146167755127, "z": -0.5046818852424622 }, "axis_scores": { "Quantum imaging": 0.6904094815254211, "Quantum Life Science Sensing": 0.7301000356674194, "Quantum sensing Detection": 0.7028406262397766, "Quantum sensing Metrology": 0.6935365796089172, "Quantum sensing navigation": 0.6804133653640747, "Quantum sensing Position": 0.6859280467033386, "Quantum sensing Timing": 0.6484025716781616, "Quantum sensing": 0.7086576223373413, "Quantum control": 0.6677072644233704 } }, { "id": 3872, "title": "Tunneling and coupling between one-dimensional states in double quantum wires", "abstract": "Evidence of tunneling and electronic coupling in a one-dimensional system is reported. This is accomplished by comparing low-temperature photoluminescence and photoluminescence excitation spectra of G...", "citations": 13, "author_count": 7, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3878, "doi": "10.1103/PhysRevB.58.1150", "umap_coordinates": { "x": 394.06256103515625, "y": 135.40516662597656, "z": 208.95135498046875 }, "tsne_coordinates": { "x": -1.466333031654358, "y": -24.47264862060547, "z": 6.129709243774414 }, "pca_coordinates": { "x": 5.6301188468933105, "y": -1.8697185516357422, "z": 0.5016897320747375 }, "axis_scores": { "Quantum imaging": 0.7187976837158203, "Quantum Life Science Sensing": 0.7189557552337646, "Quantum sensing Detection": 0.7243528366088867, "Quantum sensing Metrology": 0.702439546585083, "Quantum sensing navigation": 0.7315710783004761, "Quantum sensing Position": 0.6887720823287964, "Quantum sensing Timing": 0.7016822099685669, "Quantum sensing": 0.7326506972312927, "Quantum control": 0.7132248878479004 } }, { "id": 3873, "title": "Molecular dynamics study of zinc binding to cysteines in a peptide mimic of the alcohol dehydrogenase structural zinc site", "abstract": "The binding of zinc (Zn) ions to proteins is important for many cellular events. The theoretical and computational description of this binding (as well as that of other transition metals) is a challen...", "citations": 57, "author_count": 6, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3879, "doi": "10.1039/b815482a", "umap_coordinates": { "x": 393.2329406738281, "y": 137.0955047607422, "z": 205.69479370117188 }, "tsne_coordinates": { "x": -1.4565726518630981, "y": 9.592577934265137, "z": 27.739452362060547 }, "pca_coordinates": { "x": 0.8241004943847656, "y": 0.7927629947662354, "z": -3.22050404548645 }, "axis_scores": { "Quantum imaging": 0.6845118403434753, "Quantum Life Science Sensing": 0.6971967816352844, "Quantum sensing Detection": 0.6743884682655334, "Quantum sensing Metrology": 0.6577589511871338, "Quantum sensing navigation": 0.6805405616760254, "Quantum sensing Position": 0.6726694703102112, "Quantum sensing Timing": 0.6681565642356873, "Quantum sensing": 0.6828424334526062, "Quantum control": 0.6896950602531433 } }, { "id": 3874, "title": "Room temperature photon-counting lidar at 3 μm", "abstract": "A midinfrared single-photon-counting lidar at 3 mu m is presented. The 3 mu m photons were upconverted to 790 nm in a periodically poled rubidium-doped KTiOPO4 crystal through intracavity mixing insid...", "citations": 13, "author_count": 6, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3880, "doi": "10.1364/AO.444963", "umap_coordinates": { "x": 394.7605285644531, "y": 133.9576873779297, "z": 206.4678955078125 }, "tsne_coordinates": { "x": -5.108124732971191, "y": -0.7969725728034973, "z": -30.16180419921875 }, "pca_coordinates": { "x": -0.37931621074676514, "y": 1.1392698287963867, "z": 3.2610626220703125 }, "axis_scores": { "Quantum imaging": 0.7376164793968201, "Quantum Life Science Sensing": 0.7388162612915039, "Quantum sensing Detection": 0.7377529740333557, "Quantum sensing Metrology": 0.741448700428009, "Quantum sensing navigation": 0.7353990077972412, "Quantum sensing Position": 0.7261918187141418, "Quantum sensing Timing": 0.7366160750389099, "Quantum sensing": 0.7491210103034973, "Quantum control": 0.698864221572876 } }, { "id": 3875, "title": "Measurement of the inclusive isolated prompt photon cross-section in pp collisions at √s=7 TeV using 35 pb-1 of ATLAS data", "abstract": "A measurement of the differential cross-section for the inclusive production of isolated prompt photons in pp collisions at a center-of-mass energy root s = 7 TeV is presented. The measurement covers ...", "citations": 71, "author_count": 2670, "categories": [ "Astronomy & Astrophysics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3881, "doi": "10.1016/j.physletb.2011.11.010", "umap_coordinates": { "x": 396.8554992675781, "y": 134.2394561767578, "z": 207.59324645996094 }, "tsne_coordinates": { "x": -31.60685920715332, "y": 9.105339050292969, "z": -12.035196304321289 }, "pca_coordinates": { "x": -0.7987481951713562, "y": 0.2366948127746582, "z": 3.6080050468444824 }, "axis_scores": { "Quantum imaging": 0.6850383281707764, "Quantum Life Science Sensing": 0.7009658217430115, "Quantum sensing Detection": 0.7014098763465881, "Quantum sensing Metrology": 0.6635558605194092, "Quantum sensing navigation": 0.6628949642181396, "Quantum sensing Position": 0.678820788860321, "Quantum sensing Timing": 0.6745530962944031, "Quantum sensing": 0.6944370269775391, "Quantum control": 0.6294833421707153 } }, { "id": 3876, "title": "Dynamics of semiconducting nanocrystal uptake into mesoporous TiO2 thick films by electrophoretic deposition", "abstract": "Electrophoretic deposition (EPD) is a simple technique for the uptake of nanoparticles into mesoporous films, for example to graft semiconducting nanocrystals (quantum dots, QDs) on mesoporous oxide t...", "citations": 37, "author_count": 6, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3882, "doi": "10.1039/c4ta05549g", "umap_coordinates": { "x": 392.000244140625, "y": 134.72291564941406, "z": 205.9077911376953 }, "tsne_coordinates": { "x": 13.676013946533203, "y": -0.16342170536518097, "z": -1.4175490140914917 }, "pca_coordinates": { "x": -1.4239630699157715, "y": -3.444605827331543, "z": -2.0050132274627686 }, "axis_scores": { "Quantum imaging": 0.6612514853477478, "Quantum Life Science Sensing": 0.6734554767608643, "Quantum sensing Detection": 0.6519129872322083, "Quantum sensing Metrology": 0.6284477710723877, "Quantum sensing navigation": 0.6551409959793091, "Quantum sensing Position": 0.6331753134727478, "Quantum sensing Timing": 0.6484610438346863, "Quantum sensing": 0.6603797674179077, "Quantum control": 0.6465761661529541 } }, { "id": 3877, "title": "Susceptibility of spores of different ploidy levels from Antarctic Gigartina skottsbergii (Gigartinales, Rhodophyta) to ultraviolet radiation", "abstract": "Haploid tetraspores and diploid carpospores from Antarctic Gigartina skottsbergii were exposed in the laboratory to photosynthetically active radiation (400-700 nm = P), P + ultraviolet (UV)-A radiati...", "citations": 40, "author_count": 6, "categories": [ "Plant Sciences" ], "year": 2008, "topic": [ "all" ], "embedding_index": 3883, "doi": "10.2216/PH07-84.1", "umap_coordinates": { "x": 394.2234191894531, "y": 135.6849365234375, "z": 203.863037109375 }, "tsne_coordinates": { "x": 13.78869342803955, "y": 30.73295783996582, "z": 16.539112091064453 }, "pca_coordinates": { "x": -1.9553380012512207, "y": 2.379711866378784, "z": -1.5829559564590454 }, "axis_scores": { "Quantum imaging": 0.6335217356681824, "Quantum Life Science Sensing": 0.7266624569892883, "Quantum sensing Detection": 0.633337140083313, "Quantum sensing Metrology": 0.6348723769187927, "Quantum sensing navigation": 0.635814905166626, "Quantum sensing Position": 0.6532378792762756, "Quantum sensing Timing": 0.6289199590682983, "Quantum sensing": 0.6549220085144043, "Quantum control": 0.628801703453064 } }, { "id": 3878, "title": "Optical Properties of Few-Layer Ti3CN MXene: From Experimental Observations to Theoretical Calculations", "abstract": "Despite the emerging interest in research and development of Ti3CN MXene nanosheet (NS)-based optoelectronic devices, there is still a lack of in-depth studies of the underlying photophysical processe...", "citations": 109, "author_count": 8, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 3884, "doi": "10.1021/acsnano.1c10577", "umap_coordinates": { "x": 392.839111328125, "y": 134.85447692871094, "z": 205.73155212402344 }, "tsne_coordinates": { "x": 37.8676643371582, "y": 9.56580924987793, "z": -7.2815046310424805 }, "pca_coordinates": { "x": -1.8276865482330322, "y": -1.2184925079345703, "z": 0.08539718389511108 }, "axis_scores": { "Quantum imaging": 0.711469292640686, "Quantum Life Science Sensing": 0.7138469219207764, "Quantum sensing Detection": 0.7035174369812012, "Quantum sensing Metrology": 0.7113415002822876, "Quantum sensing navigation": 0.6741133332252502, "Quantum sensing Position": 0.6691970229148865, "Quantum sensing Timing": 0.6732344031333923, "Quantum sensing": 0.7184643745422363, "Quantum control": 0.6701406836509705 } }, { "id": 3879, "title": "Origin of Long-Lived Coherences in Light-Harvesting Complexes", "abstract": "A vibronic exciton model is applied to explain the long-lived oscillatory features in the two-dimensional (2D) electronic spectra of the Fenna-Matthews-Olson (FMO) complex. Using experimentally determ...", "citations": 401, "author_count": 5, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3885, "doi": "10.1021/jp304649c", "umap_coordinates": { "x": 392.69287109375, "y": 135.97315979003906, "z": 206.74301147460938 }, "tsne_coordinates": { "x": 9.53612232208252, "y": -3.9052553176879883, "z": 16.13006019592285 }, "pca_coordinates": { "x": 0.9615223407745361, "y": -0.5849893093109131, "z": -3.084110975265503 }, "axis_scores": { "Quantum imaging": 0.6828793287277222, "Quantum Life Science Sensing": 0.7474454641342163, "Quantum sensing Detection": 0.6831936836242676, "Quantum sensing Metrology": 0.6433317065238953, "Quantum sensing navigation": 0.6785765886306763, "Quantum sensing Position": 0.6625465154647827, "Quantum sensing Timing": 0.6734284162521362, "Quantum sensing": 0.6917016506195068, "Quantum control": 0.6741899847984314 } }, { "id": 3880, "title": "Dimensionality of photoluminescence spectrum of GaAs/AlGaAs system", "abstract": "We have theoretically studied the radiative recombination process between a conduction-band electron and a valence-band hole to analyze the photoluminescence (PL) spectrum. It is shown that due to the...", "citations": 7, "author_count": 5, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3886, "doi": "10.1063/1.1357781", "umap_coordinates": { "x": 393.1778259277344, "y": 133.91368103027344, "z": 207.8899688720703 }, "tsne_coordinates": { "x": 27.50363540649414, "y": -22.997039794921875, "z": -3.1394028663635254 }, "pca_coordinates": { "x": 0.9178152084350586, "y": -2.085832118988037, "z": 0.8776842951774597 }, "axis_scores": { "Quantum imaging": 0.7743345499038696, "Quantum Life Science Sensing": 0.7863214612007141, "Quantum sensing Detection": 0.7730992436408997, "Quantum sensing Metrology": 0.7643391489982605, "Quantum sensing navigation": 0.7427526712417603, "Quantum sensing Position": 0.7393049597740173, "Quantum sensing Timing": 0.7086994051933289, "Quantum sensing": 0.7810155749320984, "Quantum control": 0.7297758460044861 } }, { "id": 3881, "title": "Large-signal circuit model for datacom VCSELs", "abstract": "We present a physics-based equivalent-circuit model for datacom VCSELs, with ambient temperature and self-heating effects accounted for. This circuit model is unique in accounting for carrier capture ...", "citations": 2, "author_count": 5, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3887, "doi": null, "umap_coordinates": { "x": 391.78765869140625, "y": 139.31387329101562, "z": 209.3721160888672 }, "tsne_coordinates": { "x": -10.71603012084961, "y": 45.42184829711914, "z": -2.2696330547332764 }, "pca_coordinates": { "x": -0.6333153247833252, "y": 2.7865710258483887, "z": -0.4744480550289154 }, "axis_scores": { "Quantum imaging": 0.675496518611908, "Quantum Life Science Sensing": 0.7114948630332947, "Quantum sensing Detection": 0.6844828128814697, "Quantum sensing Metrology": 0.6756015419960022, "Quantum sensing navigation": 0.6883929967880249, "Quantum sensing Position": 0.6579589247703552, "Quantum sensing Timing": 0.6499584317207336, "Quantum sensing": 0.6845510005950928, "Quantum control": 0.6855387687683105 } }, { "id": 3882, "title": "Dynamics of strongly correlated fermions: Ab initio results for two and three dimensions", "abstract": "Quantum transport of strongly correlated fermions is of central interest in condensed matter physics. While the stationary expansion dynamics have recently been measured with cold atoms in 2D optical ...", "citations": 57, "author_count": 5, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3888, "doi": "10.1103/PhysRevB.93.035107", "umap_coordinates": { "x": 394.7004699707031, "y": 136.12869262695312, "z": 208.67849731445312 }, "tsne_coordinates": { "x": -13.908876419067383, "y": -24.87981414794922, "z": 19.189496994018555 }, "pca_coordinates": { "x": 4.40285062789917, "y": -1.332951545715332, "z": -1.4721455574035645 }, "axis_scores": { "Quantum imaging": 0.7085525989532471, "Quantum Life Science Sensing": 0.7020303606987, "Quantum sensing Detection": 0.709312915802002, "Quantum sensing Metrology": 0.675769567489624, "Quantum sensing navigation": 0.7176021337509155, "Quantum sensing Position": 0.6705930233001709, "Quantum sensing Timing": 0.6712234616279602, "Quantum sensing": 0.707551121711731, "Quantum control": 0.7118182182312012 } }, { "id": 3883, "title": "Continuously tunable devices based on electrical control of dual-frequency liquid crystal filled photonic bandgap fibers", "abstract": "We present an electrically controlled photonic bandgap fiber device obtained by infiltrating the air holes of a photonic crystal fiber (PCF) with a dual-frequency liquid crystal (LC) with pre-tilted m...", "citations": 144, "author_count": 5, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3889, "doi": "10.1364/OPEX.13.007483", "umap_coordinates": { "x": 394.1623229980469, "y": 133.80255126953125, "z": 206.45689392089844 }, "tsne_coordinates": { "x": 5.276154041290283, "y": -10.34299373626709, "z": -31.623130798339844 }, "pca_coordinates": { "x": -1.0316615104675293, "y": -0.522735595703125, "z": 0.6417081952095032 }, "axis_scores": { "Quantum imaging": 0.7143697738647461, "Quantum Life Science Sensing": 0.7352427244186401, "Quantum sensing Detection": 0.7024943232536316, "Quantum sensing Metrology": 0.7066777944564819, "Quantum sensing navigation": 0.7076959013938904, "Quantum sensing Position": 0.6896202564239502, "Quantum sensing Timing": 0.6938495635986328, "Quantum sensing": 0.7200211882591248, "Quantum control": 0.7243958115577698 } }, { "id": 3884, "title": "Quantum decoherence and weak localization at low temperatures", "abstract": "With the aid of the Keldysh technique we develop a path-integral formalism which allows us to nonperturbatively study the quantum dynamics of electrons in a disordered metal in the presence of interac...", "citations": 77, "author_count": 3, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3890, "doi": "10.1103/PhysRevB.59.9195", "umap_coordinates": { "x": 394.9411926269531, "y": 136.45518493652344, "z": 208.56015014648438 }, "tsne_coordinates": { "x": -4.833677291870117, "y": -39.38319778442383, "z": 4.400676250457764 }, "pca_coordinates": { "x": 5.0143232345581055, "y": 0.516021728515625, "z": -0.8890509605407715 }, "axis_scores": { "Quantum imaging": 0.7166754603385925, "Quantum Life Science Sensing": 0.7327143549919128, "Quantum sensing Detection": 0.7331258654594421, "Quantum sensing Metrology": 0.707863986492157, "Quantum sensing navigation": 0.731952428817749, "Quantum sensing Position": 0.7219994068145752, "Quantum sensing Timing": 0.7056428790092468, "Quantum sensing": 0.7387424111366272, "Quantum control": 0.7053639888763428 } }, { "id": 3885, "title": "Direct determination of a molecular torsional angle by solid-state NMR", "abstract": "A solid-state NMR method for the determination of the torsional angle of a C-13-labelled H-C-C-H moiety is demonstrated. The method exploits the evolution of C-13 double-quantum coherence under the in...", "citations": 174, "author_count": 8, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 3891, "doi": "10.1016/0009-2614(96)00558-1", "umap_coordinates": { "x": 393.2024230957031, "y": 136.65219116210938, "z": 206.5944366455078 }, "tsne_coordinates": { "x": 16.77959442138672, "y": 2.9019179344177246, "z": 25.89379119873047 }, "pca_coordinates": { "x": -0.09885096549987793, "y": 2.750568151473999, "z": -0.42788463830947876 }, "axis_scores": { "Quantum imaging": 0.6798601150512695, "Quantum Life Science Sensing": 0.7035859227180481, "Quantum sensing Detection": 0.6791370511054993, "Quantum sensing Metrology": 0.6742088794708252, "Quantum sensing navigation": 0.693535566329956, "Quantum sensing Position": 0.701214611530304, "Quantum sensing Timing": 0.6863390207290649, "Quantum sensing": 0.692261278629303, "Quantum control": 0.6757755279541016 } }, { "id": 3886, "title": "Mapping between finite temperature classical and zero temperature quantum systems: Quantum critical jamming and quantum dynamical heterogeneities", "abstract": "Many electronic systems (e. g., the cuprate superconductors and heavy fermions) exhibit striking features in their dynamical response over a prominent range of experimental parameters. While there are...", "citations": 17, "author_count": 5, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3892, "doi": "10.1103/PhysRevB.87.184202", "umap_coordinates": { "x": 395.014892578125, "y": 137.2458953857422, "z": 208.4201202392578 }, "tsne_coordinates": { "x": -18.116313934326172, "y": -18.821128845214844, "z": 10.502248764038086 }, "pca_coordinates": { "x": 5.2900004386901855, "y": 1.6382009983062744, "z": -1.4070701599121094 }, "axis_scores": { "Quantum imaging": 0.7481671571731567, "Quantum Life Science Sensing": 0.7454892992973328, "Quantum sensing Detection": 0.7362050414085388, "Quantum sensing Metrology": 0.7329456210136414, "Quantum sensing navigation": 0.7428813576698303, "Quantum sensing Position": 0.7159953713417053, "Quantum sensing Timing": 0.7293240427970886, "Quantum sensing": 0.7437576651573181, "Quantum control": 0.7364187836647034 } }, { "id": 3887, "title": "Low-pT direct-photon production in Au plus Au collisions at √sNN=39 and 62.4 GeV", "abstract": "The measurement of direct photons from Au + Au collisions at ,/sNN = 39 and 62.4 GeV in the transverse-momentum range 0.4 < pT < 3 Gev/c is presented by the PHENIX collaboration at the BNLRelativistic...", "citations": 10, "author_count": 435, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3893, "doi": "10.1103/PhysRevC.107.024914", "umap_coordinates": { "x": 396.420166015625, "y": 134.49208068847656, "z": 208.05262756347656 }, "tsne_coordinates": { "x": -33.76827621459961, "y": 3.524219036102295, "z": -17.68187713623047 }, "pca_coordinates": { "x": 2.435121536254883, "y": -1.3142404556274414, "z": 3.1311869621276855 }, "axis_scores": { "Quantum imaging": 0.687555730342865, "Quantum Life Science Sensing": 0.710763692855835, "Quantum sensing Detection": 0.7273383140563965, "Quantum sensing Metrology": 0.6890271902084351, "Quantum sensing navigation": 0.7028477191925049, "Quantum sensing Position": 0.6927887201309204, "Quantum sensing Timing": 0.6974610686302185, "Quantum sensing": 0.7141113877296448, "Quantum control": 0.6760113835334778 } }, { "id": 3888, "title": "Dynamics of anisotropic colloidal systems: What to choose, DLS, DDM or XPCS?", "abstract": "Investigation of the dynamics of colloids in bulk can be hindered by issues such as multiple scattering and sample opacity. These challenges are exacerbated when dealing with inorganic materials. In t...", "citations": 10, "author_count": 8, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3894, "doi": "10.1016/j.jcis.2023.12.163", "umap_coordinates": { "x": 393.1842956542969, "y": 134.93487548828125, "z": 205.5015106201172 }, "tsne_coordinates": { "x": 0.19100208580493927, "y": 5.227723121643066, "z": 40.69224548339844 }, "pca_coordinates": { "x": -2.4280028343200684, "y": 0.6012172698974609, "z": -4.1064019203186035 }, "axis_scores": { "Quantum imaging": 0.6963854432106018, "Quantum Life Science Sensing": 0.7135509252548218, "Quantum sensing Detection": 0.6743842363357544, "Quantum sensing Metrology": 0.6563460826873779, "Quantum sensing navigation": 0.6958155035972595, "Quantum sensing Position": 0.6865158081054688, "Quantum sensing Timing": 0.6575026512145996, "Quantum sensing": 0.6901138424873352, "Quantum control": 0.7093129754066467 } }, { "id": 3889, "title": "Snowmass2021 cosmic frontier white paper: Ultraheavy particle dark matter", "abstract": "We outline the unique opportunities and challenges in the search for ultraheavy dark matter candidates with masses between roughly 10 TeV and the Planck scale mpl approximate to 1016 TeV. This mass ra...", "citations": 24, "author_count": 29, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3895, "doi": "10.21468/SciPostPhysCore.6.4.075", "umap_coordinates": { "x": 395.9880676269531, "y": 135.30770874023438, "z": 206.14175415039062 }, "tsne_coordinates": { "x": -32.33515167236328, "y": 18.423782348632812, "z": 6.2353410720825195 }, "pca_coordinates": { "x": -0.6916035413742065, "y": 2.6098926067352295, "z": 0.23189741373062134 }, "axis_scores": { "Quantum imaging": 0.6880619525909424, "Quantum Life Science Sensing": 0.7435713410377502, "Quantum sensing Detection": 0.6913601756095886, "Quantum sensing Metrology": 0.6820068955421448, "Quantum sensing navigation": 0.6984200477600098, "Quantum sensing Position": 0.6850143074989319, "Quantum sensing Timing": 0.6877959966659546, "Quantum sensing": 0.6956779956817627, "Quantum control": 0.6718207001686096 } }, { "id": 3890, "title": "Evidence for spin-triplet superconducting correlations in metal-oxide heterostructures with noncollinear magnetization", "abstract": "Heterostructures composed of ferromagnetic La0.7Sr0.3MnO3, ferromagnetic SrRuO3, and superconducting YBa2Cu3O6+x were studied experimentally. Structures of composition Au/La0.7Sr0.3MnO3/SrRuO3/YBa2Cu3...", "citations": 37, "author_count": 13, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3896, "doi": "10.1103/PhysRevB.90.035130", "umap_coordinates": { "x": 394.22314453125, "y": 136.30665588378906, "z": 209.1777801513672 }, "tsne_coordinates": { "x": -5.255270481109619, "y": -33.94293975830078, "z": 13.164543151855469 }, "pca_coordinates": { "x": 5.405764102935791, "y": -1.361112117767334, "z": 0.12484759092330933 }, "axis_scores": { "Quantum imaging": 0.6882677674293518, "Quantum Life Science Sensing": 0.6972699761390686, "Quantum sensing Detection": 0.6922863125801086, "Quantum sensing Metrology": 0.6919412612915039, "Quantum sensing navigation": 0.7033200263977051, "Quantum sensing Position": 0.6639347672462463, "Quantum sensing Timing": 0.6654077172279358, "Quantum sensing": 0.6916016936302185, "Quantum control": 0.6559133529663086 } }, { "id": 3891, "title": "Vibrational Scattering Anisotropy Generated by Multichannel Quantum Interference", "abstract": "Based on angularly and vibrationally resolved electron spectroscopy measurements in acetylene, we report the first observation of anomalously strong vibrational anisotropy of resonant Auger scattering...", "citations": 19, "author_count": 8, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3897, "doi": "10.1103/PhysRevLett.105.093002", "umap_coordinates": { "x": 394.3746337890625, "y": 136.10009765625, "z": 207.7185821533203 }, "tsne_coordinates": { "x": -11.309466361999512, "y": -16.187002182006836, "z": -3.563377857208252 }, "pca_coordinates": { "x": 3.6137123107910156, "y": -0.689028263092041, "z": 1.1441287994384766 }, "axis_scores": { "Quantum imaging": 0.7762905359268188, "Quantum Life Science Sensing": 0.7525110840797424, "Quantum sensing Detection": 0.7554361820220947, "Quantum sensing Metrology": 0.7523313164710999, "Quantum sensing navigation": 0.754011332988739, "Quantum sensing Position": 0.7242578864097595, "Quantum sensing Timing": 0.721343457698822, "Quantum sensing": 0.775244414806366, "Quantum control": 0.7387198805809021 } }, { "id": 3892, "title": "Phase sensitive amplification based on quadratic cascading in a periodically poled lithium niobate waveguide", "abstract": "We propose and demonstrate phase-sensitive amplification based on cascaded second harmonic generation and difference frequency generation within a periodically poled lithium niobate waveguide. Excelle...", "citations": 91, "author_count": 8, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3898, "doi": "10.1364/OE.17.020393", "umap_coordinates": { "x": 394.05584716796875, "y": 134.1204833984375, "z": 206.74472045898438 }, "tsne_coordinates": { "x": -0.8823484182357788, "y": -9.44243335723877, "z": -35.03766632080078 }, "pca_coordinates": { "x": 0.3521956205368042, "y": -1.3223259449005127, "z": 2.915832042694092 }, "axis_scores": { "Quantum imaging": 0.7305475473403931, "Quantum Life Science Sensing": 0.6998389959335327, "Quantum sensing Detection": 0.7218981385231018, "Quantum sensing Metrology": 0.7100958228111267, "Quantum sensing navigation": 0.7225583791732788, "Quantum sensing Position": 0.7208809852600098, "Quantum sensing Timing": 0.6910929083824158, "Quantum sensing": 0.7252437472343445, "Quantum control": 0.702452540397644 } }, { "id": 3893, "title": "Radiative neutralization of small clusters impinging on solid surfaces", "abstract": "Light emission during the interaction of dow singly-charged clusters with solid surfaces is studied theoretically. More precisely, we consider positive ions of Ag, clusters (n = 1...5) impinging on si...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3899, "doi": "10.1007/s004600050303", "umap_coordinates": { "x": 393.4511413574219, "y": 134.97677612304688, "z": 205.87673950195312 }, "tsne_coordinates": { "x": 36.763309478759766, "y": 7.890960693359375, "z": 14.006634712219238 }, "pca_coordinates": { "x": -2.413675546646118, "y": 0.35502171516418457, "z": -0.7426802515983582 }, "axis_scores": { "Quantum imaging": 0.6595489382743835, "Quantum Life Science Sensing": 0.6912685632705688, "Quantum sensing Detection": 0.6724690198898315, "Quantum sensing Metrology": 0.6511853933334351, "Quantum sensing navigation": 0.651008665561676, "Quantum sensing Position": 0.6578462719917297, "Quantum sensing Timing": 0.632936418056488, "Quantum sensing": 0.6745519638061523, "Quantum control": 0.6593188643455505 } }, { "id": 3894, "title": "Microscopic derivation of Ginzburg-Landau theories for hierarchical quantum Hall states", "abstract": "We propose a Ginzburg-Landau theory for a large and important part of the abelian quantum Hall hierarchy, including the prominently observed Jain sequences. By a generalized flux attachment constructi...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3900, "doi": "10.21468/SciPostPhys.8.5.079", "umap_coordinates": { "x": 394.59942626953125, "y": 137.25881958007812, "z": 207.9913787841797 }, "tsne_coordinates": { "x": -29.175607681274414, "y": -15.905301094055176, "z": 15.449450492858887 }, "pca_coordinates": { "x": 2.766014575958252, "y": 2.9167985916137695, "z": -2.018099308013916 }, "axis_scores": { "Quantum imaging": 0.7130283713340759, "Quantum Life Science Sensing": 0.7289379835128784, "Quantum sensing Detection": 0.6969733238220215, "Quantum sensing Metrology": 0.697425901889801, "Quantum sensing navigation": 0.7132142186164856, "Quantum sensing Position": 0.6730967164039612, "Quantum sensing Timing": 0.6941176056861877, "Quantum sensing": 0.7127922177314758, "Quantum control": 0.7062044143676758 } }, { "id": 3895, "title": "Fiber-based stray light suppression in spectroscopy using periodic shadowing", "abstract": "Stray light is a known strong interference in spectroscopic measurements. Photons from high-intensity signals that are scattered inside the spectrometer, or photons that enter the detector through uni...", "citations": 6, "author_count": 12, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3901, "doi": "10.1364/OE.410517", "umap_coordinates": { "x": 394.4010009765625, "y": 134.7310333251953, "z": 205.8969268798828 }, "tsne_coordinates": { "x": -5.580185890197754, "y": -11.944249153137207, "z": -25.53152084350586 }, "pca_coordinates": { "x": -1.796639084815979, "y": 0.3118875026702881, "z": 1.5192196369171143 }, "axis_scores": { "Quantum imaging": 0.6944689750671387, "Quantum Life Science Sensing": 0.6990968585014343, "Quantum sensing Detection": 0.6795083284378052, "Quantum sensing Metrology": 0.6907138228416443, "Quantum sensing navigation": 0.6862936019897461, "Quantum sensing Position": 0.6812517046928406, "Quantum sensing Timing": 0.6809643507003784, "Quantum sensing": 0.6938749551773071, "Quantum control": 0.669131875038147 } }, { "id": 3896, "title": "Impact of the Molecular Environment on Thiol-Ene Coupling For Biofunctionalization and Conjugation", "abstract": "Thiol-ene radical coupling is increasingly used for the biofunctionalization of biomaterials and the formation of 3D hydrogels enabling cell encapsulation. Indeed, thiol-ene chemistry presents interes...", "citations": 49, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3902, "doi": "10.1021/acs.bioconjchem.6b00349", "umap_coordinates": { "x": 392.398193359375, "y": 134.7753448486328, "z": 204.39906311035156 }, "tsne_coordinates": { "x": 19.977924346923828, "y": 26.279067993164062, "z": -1.120150089263916 }, "pca_coordinates": { "x": -4.493103504180908, "y": -1.2805495262145996, "z": -4.381130218505859 }, "axis_scores": { "Quantum imaging": 0.644972562789917, "Quantum Life Science Sensing": 0.6765202283859253, "Quantum sensing Detection": 0.629542887210846, "Quantum sensing Metrology": 0.6253232955932617, "Quantum sensing navigation": 0.6529613137245178, "Quantum sensing Position": 0.6464756727218628, "Quantum sensing Timing": 0.6249427199363708, "Quantum sensing": 0.6449858546257019, "Quantum control": 0.6643818616867065 } }, { "id": 3897, "title": "Field theory for partially polarized quantum Hall states", "abstract": "We propose an effective field theory for partially polarized quantum Hall states. The density and polarization for the mean-field ground states are determined by couplings to two Chem-Simons gauge fie...", "citations": 4, "author_count": 5, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 3903, "doi": "10.1103/PhysRevB.60.4866", "umap_coordinates": { "x": 394.4328918457031, "y": 136.6165313720703, "z": 208.90292358398438 }, "tsne_coordinates": { "x": -17.74114990234375, "y": -33.78361892700195, "z": 13.790419578552246 }, "pca_coordinates": { "x": 5.267773151397705, "y": 0.5111374855041504, "z": -0.8779747486114502 }, "axis_scores": { "Quantum imaging": 0.7165183424949646, "Quantum Life Science Sensing": 0.7227845191955566, "Quantum sensing Detection": 0.7045133709907532, "Quantum sensing Metrology": 0.7096574306488037, "Quantum sensing navigation": 0.7239009737968445, "Quantum sensing Position": 0.6799191236495972, "Quantum sensing Timing": 0.67451411485672, "Quantum sensing": 0.7254832983016968, "Quantum control": 0.7030360698699951 } }, { "id": 3898, "title": "Tunable Ultranarrowband Grating Filters in Thin-Film Lithium Niobate", "abstract": "Several applications in modern photonics require compact on-chip optical filters with a tailored spectral response. However, achieving subnanometric bandwidths and high extinction ratios is particular...", "citations": 52, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3904, "doi": "10.1021/acsphotonics.1c00383", "umap_coordinates": { "x": 393.3372802734375, "y": 133.7708740234375, "z": 206.6329803466797 }, "tsne_coordinates": { "x": 15.581449508666992, "y": -11.918499946594238, "z": -13.631294250488281 }, "pca_coordinates": { "x": -1.1836073398590088, "y": -3.695296287536621, "z": 0.9032196402549744 }, "axis_scores": { "Quantum imaging": 0.7325079441070557, "Quantum Life Science Sensing": 0.7270402312278748, "Quantum sensing Detection": 0.7102688550949097, "Quantum sensing Metrology": 0.7066778540611267, "Quantum sensing navigation": 0.7063601613044739, "Quantum sensing Position": 0.6878218054771423, "Quantum sensing Timing": 0.6744114756584167, "Quantum sensing": 0.727053165435791, "Quantum control": 0.6850111484527588 } }, { "id": 3899, "title": "Low- and high-intensity velocity selective coherent population trapping in a two-level system", "abstract": "An experimental investigation is made of sub-recoil cooling by velocity selective coherent population trapping in a two-level system in Sr. The experiment is carried out using the narrow linewidth int...", "citations": 4, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3905, "doi": "10.1209/0295-5075/86/53001", "umap_coordinates": { "x": 393.29180908203125, "y": 136.20521545410156, "z": 207.5160675048828 }, "tsne_coordinates": { "x": -1.1376912593841553, "y": -4.816459655761719, "z": 26.96946144104004 }, "pca_coordinates": { "x": 0.988518238067627, "y": 1.081506371498108, "z": -0.28212618827819824 }, "axis_scores": { "Quantum imaging": 0.6988081932067871, "Quantum Life Science Sensing": 0.6541380286216736, "Quantum sensing Detection": 0.6731802821159363, "Quantum sensing Metrology": 0.6335313320159912, "Quantum sensing navigation": 0.6880101561546326, "Quantum sensing Position": 0.6745741963386536, "Quantum sensing Timing": 0.6684485673904419, "Quantum sensing": 0.6737725734710693, "Quantum control": 0.6789517402648926 } }, { "id": 3900, "title": "Dynamics of exciton-spin injection, transfer, and relaxation in self-assembled quantum dots of CdSe coupled with a diluted magnetic semiconductor layer of Zn0.80Mn0.20Se", "abstract": "We study the dynamics of exciton-spin injection, transfer, and relaxation in self-assembled quantum dots (QDs) of CdSe coupled with a diluted magnetic semiconductor (DMS) layer of Zn0.80Mn0.20Se, wher...", "citations": 24, "author_count": 9, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3906, "doi": "10.1103/PhysRevB.75.195308", "umap_coordinates": { "x": 393.5223693847656, "y": 135.34860229492188, "z": 208.86605834960938 }, "tsne_coordinates": { "x": 9.303343772888184, "y": -26.245929718017578, "z": 10.460543632507324 }, "pca_coordinates": { "x": 3.8547816276550293, "y": -2.8092846870422363, "z": -1.276548147201538 }, "axis_scores": { "Quantum imaging": 0.7082167267799377, "Quantum Life Science Sensing": 0.7265665531158447, "Quantum sensing Detection": 0.7029814720153809, "Quantum sensing Metrology": 0.6892165541648865, "Quantum sensing navigation": 0.713630199432373, "Quantum sensing Position": 0.6746780276298523, "Quantum sensing Timing": 0.6642255783081055, "Quantum sensing": 0.7085939645767212, "Quantum control": 0.6990267634391785 } }, { "id": 3901, "title": "Ballistic tracks in graphene nanoribbons", "abstract": "High quality graphene nanoribbons epitaxially grown on the sidewalls of silicon carbide (SiC) mesa structures stand as key building blocks for graphene-based nanoelectronics. Such ribbons display 1D s...", "citations": 54, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3907, "doi": "10.1038/s41467-018-06940-5", "umap_coordinates": { "x": 393.0882568359375, "y": 135.5923309326172, "z": 207.40077209472656 }, "tsne_coordinates": { "x": 9.94331169128418, "y": -9.17766284942627, "z": 25.19894027709961 }, "pca_coordinates": { "x": 0.5480339527130127, "y": -1.596078872680664, "z": -0.7625210881233215 }, "axis_scores": { "Quantum imaging": 0.6774786114692688, "Quantum Life Science Sensing": 0.7068219780921936, "Quantum sensing Detection": 0.6822506785392761, "Quantum sensing Metrology": 0.6802401542663574, "Quantum sensing navigation": 0.7237554788589478, "Quantum sensing Position": 0.7090409994125366, "Quantum sensing Timing": 0.6888741254806519, "Quantum sensing": 0.6936732530593872, "Quantum control": 0.6766617894172668 } }, { "id": 3902, "title": "Mechanistic insights on the non-innocent role of electron donors: reversible photocapture of CO2 by RuII-polypyridyl complexes", "abstract": "The ability of [Ru-II((t)Butpy)(dmbpy)(MeCN)](2+) (1-MeCN) to capture CO2, with the assistance of triethanolamine (TEOA), has been assessed under photocatalytically-relevant conditions. The photolabil...", "citations": 9, "author_count": 7, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3908, "doi": "10.1039/c9dt03461g", "umap_coordinates": { "x": 391.71417236328125, "y": 135.5491180419922, "z": 205.15118408203125 }, "tsne_coordinates": { "x": -1.4443047046661377, "y": 1.329047679901123, "z": -7.933513641357422 }, "pca_coordinates": { "x": -2.071532726287842, "y": -0.18807601928710938, "z": -2.7446062564849854 }, "axis_scores": { "Quantum imaging": 0.6822817921638489, "Quantum Life Science Sensing": 0.7021232843399048, "Quantum sensing Detection": 0.6839511394500732, "Quantum sensing Metrology": 0.648838222026825, "Quantum sensing navigation": 0.663737416267395, "Quantum sensing Position": 0.6491142511367798, "Quantum sensing Timing": 0.6627476811408997, "Quantum sensing": 0.6885980367660522, "Quantum control": 0.6777839064598083 } }, { "id": 3903, "title": "First Commissioning Results of Phase I Insertion Devices at MAX IV Laboratory", "abstract": "An overview of the insertion devices (ID) activities at MAX IV Laboratory will be presented. This paper describes the current status of the MAX IV insertion devices and the first commissioning results...", "citations": 6, "author_count": 4, "categories": [ "Instruments & Instrumentation" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3909, "doi": "10.1063/1.5084586", "umap_coordinates": { "x": 395.5933837890625, "y": 134.27186584472656, "z": 206.1474151611328 }, "tsne_coordinates": { "x": -22.506040573120117, "y": 12.916494369506836, "z": -19.947710037231445 }, "pca_coordinates": { "x": 0.36339592933654785, "y": 1.6989493370056152, "z": 1.9626193046569824 }, "axis_scores": { "Quantum imaging": 0.6844696998596191, "Quantum Life Science Sensing": 0.7129830718040466, "Quantum sensing Detection": 0.6908150315284729, "Quantum sensing Metrology": 0.7032231688499451, "Quantum sensing navigation": 0.6776095628738403, "Quantum sensing Position": 0.6908794641494751, "Quantum sensing Timing": 0.6856212019920349, "Quantum sensing": 0.6925857067108154, "Quantum control": 0.6403985023498535 } }, { "id": 3904, "title": "Single-molecule electronics: from chemical design to functional devices", "abstract": "The use of single molecules in electronics represents the next limit of miniaturisation of electronic devices, which would enable us to continue the trend of aggressive downscaling of silicon-based el...", "citations": 497, "author_count": 7, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 3910, "doi": "10.1039/c4cs00143e", "umap_coordinates": { "x": 394.15740966796875, "y": 133.71900939941406, "z": 208.1017303466797 }, "tsne_coordinates": { "x": 8.277636528015137, "y": -26.787445068359375, "z": -17.392507553100586 }, "pca_coordinates": { "x": -0.8757713437080383, "y": -2.8564023971557617, "z": -2.30967116355896 }, "axis_scores": { "Quantum imaging": 0.7070875763893127, "Quantum Life Science Sensing": 0.7582036256790161, "Quantum sensing Detection": 0.7232750058174133, "Quantum sensing Metrology": 0.7037938833236694, "Quantum sensing navigation": 0.708340585231781, "Quantum sensing Position": 0.687533438205719, "Quantum sensing Timing": 0.6709069013595581, "Quantum sensing": 0.7401418685913086, "Quantum control": 0.7257699370384216 } }, { "id": 3905, "title": "Delay-bandwidth product of electromagnetically induced transparency media", "abstract": "The limitations on the delay-bandwidth product (DBP) in an electromagnetically induced transparency medium are investigated analytically by studying the susceptibility of the system, derived through L...", "citations": 25, "author_count": 4, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3911, "doi": "10.1103/PhysRevA.75.053803", "umap_coordinates": { "x": 394.5714416503906, "y": 135.08804321289062, "z": 207.40219116210938 }, "tsne_coordinates": { "x": -9.09982967376709, "y": -18.283422470092773, "z": -19.760509490966797 }, "pca_coordinates": { "x": 1.9956061840057373, "y": 0.06642317771911621, "z": 1.7012183666229248 }, "axis_scores": { "Quantum imaging": 0.7466385960578918, "Quantum Life Science Sensing": 0.7073974609375, "Quantum sensing Detection": 0.7172596454620361, "Quantum sensing Metrology": 0.7088103890419006, "Quantum sensing navigation": 0.7044024467468262, "Quantum sensing Position": 0.6965824961662292, "Quantum sensing Timing": 0.7317990064620972, "Quantum sensing": 0.7227764129638672, "Quantum control": 0.6802118420600891 } }, { "id": 3906, "title": "Negatively refracting atomic vapour", "abstract": "A new mechanism for realizing negative refractive index with a four-level atomic system is suggested. The explicit expressions for the electric permittivity and magnetic permeability at probe frequenc...", "citations": 28, "author_count": 2, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3912, "doi": "10.1080/09500340600812966", "umap_coordinates": { "x": 394.81805419921875, "y": 136.5233917236328, "z": 206.15428161621094 }, "tsne_coordinates": { "x": -18.65924072265625, "y": 30.029226303100586, "z": 19.406660079956055 }, "pca_coordinates": { "x": -0.24651813507080078, "y": 2.2879528999328613, "z": -1.3367652893066406 }, "axis_scores": { "Quantum imaging": 0.7019042372703552, "Quantum Life Science Sensing": 0.7189813852310181, "Quantum sensing Detection": 0.6911622285842896, "Quantum sensing Metrology": 0.6608935594558716, "Quantum sensing navigation": 0.6990979909896851, "Quantum sensing Position": 0.6863261461257935, "Quantum sensing Timing": 0.6657092571258545, "Quantum sensing": 0.7027977108955383, "Quantum control": 0.6863554120063782 } }, { "id": 3907, "title": "Vibrational eigenstates of NO2 by a Chebyshev-MINRES spectral filtering procedure", "abstract": "It is shown that the minimum residual algorithm (MINRES) is able to generate spectral filters sharp enough to obtain bound vibrational eigenstates of NO2 (J = 0) by direct access in the most dense par...", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3913, "doi": "10.1063/1.1512651", "umap_coordinates": { "x": 393.98382568359375, "y": 135.9133758544922, "z": 207.13941955566406 }, "tsne_coordinates": { "x": -29.880292892456055, "y": -13.565288543701172, "z": -11.843568801879883 }, "pca_coordinates": { "x": 0.9874894618988037, "y": 0.9411852359771729, "z": 0.11039352416992188 }, "axis_scores": { "Quantum imaging": 0.7182686924934387, "Quantum Life Science Sensing": 0.7293907403945923, "Quantum sensing Detection": 0.7439644932746887, "Quantum sensing Metrology": 0.7482911348342896, "Quantum sensing navigation": 0.7403008341789246, "Quantum sensing Position": 0.6959671378135681, "Quantum sensing Timing": 0.6901809573173523, "Quantum sensing": 0.7552262544631958, "Quantum control": 0.7223709225654602 } }, { "id": 3908, "title": "Acoustically driven emission of light in granular and layered semiconductors: recent advances and future prospects", "abstract": "Acoustic driving techniques can produce luminescence in semiconductors quite efficiently. A mixture of grain particles, for example, emits light when driven by sufficiently intense acoustic fields. Th...", "citations": 2, "author_count": 6, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3914, "doi": "10.1088/0034-4885/65/1/203", "umap_coordinates": { "x": 394.3993835449219, "y": 134.80386352539062, "z": 205.90914916992188 }, "tsne_coordinates": { "x": -12.04443359375, "y": -3.479079008102417, "z": -20.102203369140625 }, "pca_coordinates": { "x": -1.160407543182373, "y": -0.700075626373291, "z": 0.679691731929779 }, "axis_scores": { "Quantum imaging": 0.6939350366592407, "Quantum Life Science Sensing": 0.6986159086227417, "Quantum sensing Detection": 0.6653697490692139, "Quantum sensing Metrology": 0.6581550240516663, "Quantum sensing navigation": 0.6866669058799744, "Quantum sensing Position": 0.6538463830947876, "Quantum sensing Timing": 0.6570090651512146, "Quantum sensing": 0.6873207688331604, "Quantum control": 0.6563164591789246 } }, { "id": 3909, "title": "A majority gate with chiral magnetic solitons", "abstract": "In magnetic materials, nontrivial spin textures may emerge due to the competition among different types of magnetic interactions. Among such spin textures, chiral magnetic solitons represent topologic...", "citations": 17, "author_count": 7, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3915, "doi": "10.1088/1361-648X/aad82f", "umap_coordinates": { "x": 394.657470703125, "y": 135.96551513671875, "z": 206.94564819335938 }, "tsne_coordinates": { "x": -0.1827448010444641, "y": -18.188369750976562, "z": 34.9496955871582 }, "pca_coordinates": { "x": 0.940093994140625, "y": 1.3183907270431519, "z": 1.6142477989196777 }, "axis_scores": { "Quantum imaging": 0.6768372654914856, "Quantum Life Science Sensing": 0.6437824964523315, "Quantum sensing Detection": 0.675476610660553, "Quantum sensing Metrology": 0.6802257299423218, "Quantum sensing navigation": 0.6807569861412048, "Quantum sensing Position": 0.6528671979904175, "Quantum sensing Timing": 0.6690805554389954, "Quantum sensing": 0.6829686760902405, "Quantum control": 0.6809436082839966 } }, { "id": 3910, "title": "Carrier Dynamics and Evaluation of Lasing Actions in Halide Perovskites", "abstract": "Metal halide perovskites have shown rapid development in various fields such as photovoltaics, photodetectors, light-emitting diodes (LEDs), and optically pumped lasers owing to their superior optoele...", "citations": 91, "author_count": 5, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3916, "doi": "10.1016/j.trechm.2020.10.010", "umap_coordinates": { "x": 392.22088623046875, "y": 135.3682098388672, "z": 206.49461364746094 }, "tsne_coordinates": { "x": 26.822072982788086, "y": 3.788515567779541, "z": 25.204193115234375 }, "pca_coordinates": { "x": -2.0223238468170166, "y": 0.14696788787841797, "z": -2.466708183288574 }, "axis_scores": { "Quantum imaging": 0.7086585760116577, "Quantum Life Science Sensing": 0.7096108794212341, "Quantum sensing Detection": 0.6817177534103394, "Quantum sensing Metrology": 0.6858811974525452, "Quantum sensing navigation": 0.6860371828079224, "Quantum sensing Position": 0.6796342730522156, "Quantum sensing Timing": 0.6846836805343628, "Quantum sensing": 0.6969580054283142, "Quantum control": 0.7050503492355347 } }, { "id": 3911, "title": "Vortices in Bose-Einstein condensates: Finite-size effects and the thermodynamic limit", "abstract": "For a weakly interacting Bose gas rotating in a harmonic trap we relate the yrast states of small systems (that can be treated exactly) to the thermodynamic limit (derived within the mean-field approx...", "citations": 14, "author_count": 5, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3917, "doi": "10.1103/PhysRevA.87.053615", "umap_coordinates": { "x": 394.3077392578125, "y": 136.72315979003906, "z": 209.0803680419922 }, "tsne_coordinates": { "x": -13.345303535461426, "y": -19.945079803466797, "z": 27.416027069091797 }, "pca_coordinates": { "x": 4.257348537445068, "y": -0.07677125930786133, "z": -1.3981010913848877 }, "axis_scores": { "Quantum imaging": 0.7026163339614868, "Quantum Life Science Sensing": 0.7282212972640991, "Quantum sensing Detection": 0.7093116044998169, "Quantum sensing Metrology": 0.6928955316543579, "Quantum sensing navigation": 0.7106082439422607, "Quantum sensing Position": 0.7017885446548462, "Quantum sensing Timing": 0.6858956813812256, "Quantum sensing": 0.7144497036933899, "Quantum control": 0.7112222909927368 } }, { "id": 3912, "title": "Attosecond Control in Photoionization of Hydrogen Molecules", "abstract": "We report experiments where hydrogen molecules were dissociatively ionized by an attosecond pulse train in the presence of a near-infrared field. Fragment ion yields from distinguishable ionization ch...", "citations": 136, "author_count": 13, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 3918, "doi": "10.1103/PhysRevLett.107.043002", "umap_coordinates": { "x": 395.6237487792969, "y": 135.4205780029297, "z": 207.7573699951172 }, "tsne_coordinates": { "x": -11.155976295471191, "y": -8.306273460388184, "z": -5.541290283203125 }, "pca_coordinates": { "x": 3.432211399078369, "y": -0.14373207092285156, "z": -0.3924485445022583 }, "axis_scores": { "Quantum imaging": 0.7049480676651001, "Quantum Life Science Sensing": 0.7126760482788086, "Quantum sensing Detection": 0.7045950293540955, "Quantum sensing Metrology": 0.6619899272918701, "Quantum sensing navigation": 0.6800472736358643, "Quantum sensing Position": 0.6637362241744995, "Quantum sensing Timing": 0.6948843598365784, "Quantum sensing": 0.7089401483535767, "Quantum control": 0.7321736216545105 } }, { "id": 3913, "title": "Surfactant-induced enhanced room temperature ferromagnetism in Zn0.96Mn0.03Li0.01O nanoparticles:: Prepared by solid-state pyrolitic reaction", "abstract": "We report the synthesis of nanoparticles of Zn0.96Mn0.03Li0.01O by a low-temperature solid-state pyrolitic reaction, followed by a surfactant-assisted calcination at 400 degrees C. The X-ray diffracti...", "citations": 8, "author_count": 8, "categories": [ "Crystallography" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3919, "doi": "10.1016/j.jcrysgro.2007.06.027", "umap_coordinates": { "x": 392.63140869140625, "y": 134.1966552734375, "z": 205.429931640625 }, "tsne_coordinates": { "x": 28.84319496154785, "y": 5.022784233093262, "z": 1.6246933937072754 }, "pca_coordinates": { "x": -3.5583856105804443, "y": -2.082812786102295, "z": -2.2544233798980713 }, "axis_scores": { "Quantum imaging": 0.6638301014900208, "Quantum Life Science Sensing": 0.6813825368881226, "Quantum sensing Detection": 0.6411883234977722, "Quantum sensing Metrology": 0.6322709321975708, "Quantum sensing navigation": 0.6318302750587463, "Quantum sensing Position": 0.6378297805786133, "Quantum sensing Timing": 0.6466065645217896, "Quantum sensing": 0.653783917427063, "Quantum control": 0.6371195316314697 } }, { "id": 3914, "title": "Coulomb blockade of Cooper pair tunneling and parity effects in the Cooper pair transistor", "abstract": "We have measured the Cooper pair transistor (CPT) in a tunable electromagnetic environment consisting of four one-dimensional superconducting quantum interference device arrays. The transport properti...", "citations": 17, "author_count": 5, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3920, "doi": "10.1103/PhysRevB.74.224505", "umap_coordinates": { "x": 394.44317626953125, "y": 135.7139892578125, "z": 209.09458923339844 }, "tsne_coordinates": { "x": -12.468195915222168, "y": -27.68429183959961, "z": 0.5425618290901184 }, "pca_coordinates": { "x": 4.8076958656311035, "y": -0.6902320384979248, "z": 0.7482604384422302 }, "axis_scores": { "Quantum imaging": 0.6983927488327026, "Quantum Life Science Sensing": 0.6759170293807983, "Quantum sensing Detection": 0.7029987573623657, "Quantum sensing Metrology": 0.6739820241928101, "Quantum sensing navigation": 0.7170464396476746, "Quantum sensing Position": 0.6973281502723694, "Quantum sensing Timing": 0.7154819369316101, "Quantum sensing": 0.7066083550453186, "Quantum control": 0.700125515460968 } }, { "id": 3915, "title": "Non-Hermitian minimal Kitaev chains", "abstract": "Starting from a double quantum dot realization of a minimal Kitaev chain, we demonstrate that nonHermiticity stabilizes the so-called poor man's Majorana zero modes in a region of parameter space that...", "citations": 4, "author_count": 3, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3921, "doi": "10.1103/PhysRevB.111.205432", "umap_coordinates": { "x": 395.1112060546875, "y": 136.9717559814453, "z": 208.63668823242188 }, "tsne_coordinates": { "x": -32.86573791503906, "y": -24.572872161865234, "z": 7.375136852264404 }, "pca_coordinates": { "x": 5.206296920776367, "y": 1.411309003829956, "z": -0.6574628949165344 }, "axis_scores": { "Quantum imaging": 0.7229350805282593, "Quantum Life Science Sensing": 0.7336339354515076, "Quantum sensing Detection": 0.7325735092163086, "Quantum sensing Metrology": 0.7278509140014648, "Quantum sensing navigation": 0.7513235211372375, "Quantum sensing Position": 0.6917546987533569, "Quantum sensing Timing": 0.689953088760376, "Quantum sensing": 0.7361829876899719, "Quantum control": 0.7102240324020386 } }, { "id": 3916, "title": "Secret sharing with a single d-level quantum system", "abstract": "We give an example of a wide class of problems for which quantum-information protocols based on multisystem entanglement can be mapped into much simpler ones involving one system. Secret sharing is a ...", "citations": 135, "author_count": 5, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3922, "doi": "10.1103/PhysRevA.92.030302", "umap_coordinates": { "x": 395.085205078125, "y": 134.5140380859375, "z": 208.38735961914062 }, "tsne_coordinates": { "x": -0.7399108409881592, "y": -21.92685890197754, "z": -14.39514446258545 }, "pca_coordinates": { "x": 3.884195327758789, "y": -1.0315394401550293, "z": 2.5096702575683594 }, "axis_scores": { "Quantum imaging": 0.7374664545059204, "Quantum Life Science Sensing": 0.7458618879318237, "Quantum sensing Detection": 0.7459373474121094, "Quantum sensing Metrology": 0.737023651599884, "Quantum sensing navigation": 0.7284895777702332, "Quantum sensing Position": 0.7107164859771729, "Quantum sensing Timing": 0.7016724348068237, "Quantum sensing": 0.7533413767814636, "Quantum control": 0.7235386371612549 } }, { "id": 3917, "title": "Switching current of a Cooper pair transistor with tunable Josephson junctions -: art. no. 014510", "abstract": "We investigate the switching current of a Cooper pair transistor with tunable Josephson energy. The junctions are fabricated in a superconducting quantum interference device (SQUID) geometry which all...", "citations": 4, "author_count": 4, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3923, "doi": "10.1103/PhysRevB.66.014510", "umap_coordinates": { "x": 394.56854248046875, "y": 134.9524383544922, "z": 208.62608337402344 }, "tsne_coordinates": { "x": -10.998031616210938, "y": -25.814804077148438, "z": -1.6662218570709229 }, "pca_coordinates": { "x": 4.115001201629639, "y": -1.536911964416504, "z": 1.8240110874176025 }, "axis_scores": { "Quantum imaging": 0.6793718338012695, "Quantum Life Science Sensing": 0.693148136138916, "Quantum sensing Detection": 0.6949202418327332, "Quantum sensing Metrology": 0.6800634860992432, "Quantum sensing navigation": 0.6885941624641418, "Quantum sensing Position": 0.6652278900146484, "Quantum sensing Timing": 0.6908773183822632, "Quantum sensing": 0.703336775302887, "Quantum control": 0.6886329650878906 } }, { "id": 3918, "title": "Constant-cutoff approach to hyperon polarizabilities in the bound-state soliton model", "abstract": "We suggest a quantum stabilization method for the SU(2) sigma-model, based on the constant-cutoff limit of the cutoff quantization method developed by Balakrishna et al., which avoids the difficulties...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3924, "doi": "10.1007/BF02435761", "umap_coordinates": { "x": 394.09515380859375, "y": 136.9741668701172, "z": 207.90771484375 }, "tsne_coordinates": { "x": -19.192096710205078, "y": 34.04778289794922, "z": 11.911918640136719 }, "pca_coordinates": { "x": 1.5603744983673096, "y": 1.271660327911377, "z": -3.188992738723755 }, "axis_scores": { "Quantum imaging": 0.6436522006988525, "Quantum Life Science Sensing": 0.6514020562171936, "Quantum sensing Detection": 0.6396058797836304, "Quantum sensing Metrology": 0.618155300617218, "Quantum sensing navigation": 0.664414644241333, "Quantum sensing Position": 0.6635322570800781, "Quantum sensing Timing": 0.6253265738487244, "Quantum sensing": 0.6450002193450928, "Quantum control": 0.6560232043266296 } }, { "id": 3919, "title": "Localized trimers inducing metallic states in sub-monolayer thin Bi films on InSb(111)A", "abstract": "Low-dimensional topological states have transformed our understanding of charge transportation through quantum materials. Many relevant observations have been connected to bismuth (Bi) containing mate...", "citations": 1, "author_count": 4, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3925, "doi": "10.1103/mp9b-hgz1", "umap_coordinates": { "x": 393.55950927734375, "y": 136.2685089111328, "z": 208.89051818847656 }, "tsne_coordinates": { "x": -5.3830413818359375, "y": -13.41837215423584, "z": 9.335929870605469 }, "pca_coordinates": { "x": 2.2722959518432617, "y": -1.9487600326538086, "z": -2.022489309310913 }, "axis_scores": { "Quantum imaging": 0.6742632389068604, "Quantum Life Science Sensing": 0.6722044944763184, "Quantum sensing Detection": 0.6795561909675598, "Quantum sensing Metrology": 0.6730034351348877, "Quantum sensing navigation": 0.6543907523155212, "Quantum sensing Position": 0.6659954190254211, "Quantum sensing Timing": 0.641682505607605, "Quantum sensing": 0.6807540059089661, "Quantum control": 0.6374260187149048 } }, { "id": 3920, "title": "Electron correlation and quantum electrodynamics", "abstract": "A review is given of the coupled-cluster approach for a multi-reference model space. Various schemes of normalization are discussed, particularly the hermitian formulation. Relativistic many-body sche...", "citations": 11, "author_count": 2, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3926, "doi": "10.1080/002689798168312", "umap_coordinates": { "x": 394.7180480957031, "y": 136.07318115234375, "z": 207.00527954101562 }, "tsne_coordinates": { "x": 21.80847930908203, "y": -21.093151092529297, "z": 15.2343168258667 }, "pca_coordinates": { "x": 2.181527614593506, "y": 1.44151771068573, "z": -0.0006107687950134277 }, "axis_scores": { "Quantum imaging": 0.7296969890594482, "Quantum Life Science Sensing": 0.7266623973846436, "Quantum sensing Detection": 0.7158094048500061, "Quantum sensing Metrology": 0.7037730813026428, "Quantum sensing navigation": 0.7368959784507751, "Quantum sensing Position": 0.7072761058807373, "Quantum sensing Timing": 0.7016015648841858, "Quantum sensing": 0.7277102470397949, "Quantum control": 0.7101939916610718 } }, { "id": 3921, "title": "Conical intersection in a bilirubin model - A possible pathway for phototherapy of neonatal jaundice", "abstract": "Phototherapy of neonatal jaundice involves Z-E-isomerisation around an exocyclic double bond in bilirubin. Our results of a CASSCF study on dipyrrinone, a bilirubin model, show a conical intersection ...", "citations": 17, "author_count": 3, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3927, "doi": "10.1016/j.cplett.2006.01.028", "umap_coordinates": { "x": 393.7140197753906, "y": 136.69796752929688, "z": 205.52911376953125 }, "tsne_coordinates": { "x": -1.967191219329834, "y": 18.426021575927734, "z": 13.053995132446289 }, "pca_coordinates": { "x": -1.4007571935653687, "y": 2.686154365539551, "z": 0.46217256784439087 }, "axis_scores": { "Quantum imaging": 0.6984136700630188, "Quantum Life Science Sensing": 0.6871296167373657, "Quantum sensing Detection": 0.680044412612915, "Quantum sensing Metrology": 0.6564939618110657, "Quantum sensing navigation": 0.6640982627868652, "Quantum sensing Position": 0.6686530709266663, "Quantum sensing Timing": 0.6720957159996033, "Quantum sensing": 0.675647497177124, "Quantum control": 0.661700427532196 } }, { "id": 3922, "title": "Ozone depletion in the middle atmosphere during solar proton events in October 2003", "abstract": "A one-dimensional time-dependent model has been used to calculate the production and loss of minor components of the middle atmosphere during solar proton precipitations in October 2003. We used the s...", "citations": 2, "author_count": 4, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3928, "doi": "10.1016/j.asr.2006.04.015", "umap_coordinates": { "x": 394.31317138671875, "y": 135.68206787109375, "z": 205.00973510742188 }, "tsne_coordinates": { "x": 5.322676181793213, "y": 15.714804649353027, "z": 16.059581756591797 }, "pca_coordinates": { "x": -1.8779051303863525, "y": 1.2168011665344238, "z": -1.1343812942504883 }, "axis_scores": { "Quantum imaging": 0.6658235788345337, "Quantum Life Science Sensing": 0.7182687520980835, "Quantum sensing Detection": 0.6730666756629944, "Quantum sensing Metrology": 0.6697672605514526, "Quantum sensing navigation": 0.6580236554145813, "Quantum sensing Position": 0.6591294407844543, "Quantum sensing Timing": 0.6532284021377563, "Quantum sensing": 0.6751059293746948, "Quantum control": 0.6343902349472046 } }, { "id": 3923, "title": "Noise characteristics of dual-pump fiber-optic parametric amplifiers", "abstract": "The noise figure (NF) properties of an undepleted and lossless dual-pump fiber-optic parametric amplifier (FOPA) are theoretically and numerically investigated. The theoretical study takes into accoun...", "citations": 36, "author_count": 5, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3929, "doi": "10.1109/JLT.2005.853140", "umap_coordinates": { "x": 394.5729675292969, "y": 134.11207580566406, "z": 206.94456481933594 }, "tsne_coordinates": { "x": 1.287138819694519, "y": -3.8822314739227295, "z": -32.25806427001953 }, "pca_coordinates": { "x": -0.40349000692367554, "y": 0.025704383850097656, "z": 2.6698601245880127 }, "axis_scores": { "Quantum imaging": 0.7178479433059692, "Quantum Life Science Sensing": 0.7211649417877197, "Quantum sensing Detection": 0.7303470373153687, "Quantum sensing Metrology": 0.7157348394393921, "Quantum sensing navigation": 0.7148520350456238, "Quantum sensing Position": 0.6947656273841858, "Quantum sensing Timing": 0.6973153352737427, "Quantum sensing": 0.7317758202552795, "Quantum control": 0.6955887675285339 } }, { "id": 3924, "title": "Substituent effects in N-acetylated phenylazopyrazole photoswitches", "abstract": "henylazopyrazole photoswitches proved to be valuable structural motifs for various applications ranging from materials science tomedicine. Despite their potential, their structural diversity is still ...", "citations": 2, "author_count": 6, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3930, "doi": "10.3762/bjoc.21.66", "umap_coordinates": { "x": 392.6191101074219, "y": 135.9674072265625, "z": 204.39320373535156 }, "tsne_coordinates": { "x": 5.53627872467041, "y": 10.318371772766113, "z": -4.532029151916504 }, "pca_coordinates": { "x": -1.3325817584991455, "y": -0.5175740718841553, "z": -1.9463016986846924 }, "axis_scores": { "Quantum imaging": 0.6958417296409607, "Quantum Life Science Sensing": 0.6910033822059631, "Quantum sensing Detection": 0.6851832866668701, "Quantum sensing Metrology": 0.664432942867279, "Quantum sensing navigation": 0.7030066847801208, "Quantum sensing Position": 0.7032303810119629, "Quantum sensing Timing": 0.6776401400566101, "Quantum sensing": 0.7021634578704834, "Quantum control": 0.719713568687439 } }, { "id": 3925, "title": "Harnessing chemical functionality of lignin towards stimuli-responsive materials", "abstract": "The mysteries of chemical structures and properties of lignin are gradually being unveiled. In parallel, lignin is gaining ground as a versatile resource for the development of stimuli-responsive mate...", "citations": 62, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3931, "doi": "10.1016/j.trechm.2023.12.001", "umap_coordinates": { "x": 392.8973388671875, "y": 135.5031280517578, "z": 203.88803100585938 }, "tsne_coordinates": { "x": 21.898305892944336, "y": 32.75543975830078, "z": -1.947602391242981 }, "pca_coordinates": { "x": -5.095067977905273, "y": 0.8858499526977539, "z": -2.758007287979126 }, "axis_scores": { "Quantum imaging": 0.654789924621582, "Quantum Life Science Sensing": 0.6873510479927063, "Quantum sensing Detection": 0.644907534122467, "Quantum sensing Metrology": 0.6461416482925415, "Quantum sensing navigation": 0.6270202994346619, "Quantum sensing Position": 0.615778923034668, "Quantum sensing Timing": 0.6368129849433899, "Quantum sensing": 0.6727863550186157, "Quantum control": 0.6640603542327881 } }, { "id": 3926, "title": "Signatures of the quantization of gravity at gravitational wave detectors", "abstract": "We develop a formalism to calculate the response of a model gravitational wave detector to a quantized gravitational field. Coupling a detector to a quantum field induces stochastic fluctuations (nois...", "citations": 78, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3932, "doi": "10.1103/PhysRevD.104.046021", "umap_coordinates": { "x": 395.17803955078125, "y": 136.83746337890625, "z": 208.78265380859375 }, "tsne_coordinates": { "x": -23.867605209350586, "y": -28.230510711669922, "z": 9.05969524383545 }, "pca_coordinates": { "x": 4.499998569488525, "y": 1.258089303970337, "z": 0.5971580147743225 }, "axis_scores": { "Quantum imaging": 0.7486249208450317, "Quantum Life Science Sensing": 0.7592437267303467, "Quantum sensing Detection": 0.7688649892807007, "Quantum sensing Metrology": 0.7384825348854065, "Quantum sensing navigation": 0.7731214165687561, "Quantum sensing Position": 0.7500585317611694, "Quantum sensing Timing": 0.7527991533279419, "Quantum sensing": 0.7637220621109009, "Quantum control": 0.7232218980789185 } }, { "id": 3927, "title": "Multiple exciton generation in nano-crystals revisited: Consistent calculation of the yield based on pump-probe spectroscopy", "abstract": "Multiple exciton generation (MEG) is a process in which more than one exciton is generated upon the absorption of a high energy photon, typically higher than two times the band gap, in semiconductor n...", "citations": 42, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3933, "doi": "10.1038/srep02287", "umap_coordinates": { "x": 392.7117614746094, "y": 135.0037078857422, "z": 206.88604736328125 }, "tsne_coordinates": { "x": 18.165952682495117, "y": 1.2622517347335815, "z": 4.403931617736816 }, "pca_coordinates": { "x": -1.0753233432769775, "y": -2.5203661918640137, "z": 0.20128405094146729 }, "axis_scores": { "Quantum imaging": 0.70304274559021, "Quantum Life Science Sensing": 0.7257728576660156, "Quantum sensing Detection": 0.7061623930931091, "Quantum sensing Metrology": 0.7044529318809509, "Quantum sensing navigation": 0.6899791359901428, "Quantum sensing Position": 0.6832475066184998, "Quantum sensing Timing": 0.6834893822669983, "Quantum sensing": 0.7081223726272583, "Quantum control": 0.6697189807891846 } }, { "id": 3928, "title": "Observation of intrinsic magnetic domains in C60 polymer", "abstract": "A C-60 polymer has been characterized for the first time with respect to impurity content and ferromagnetic properties by laterally resolved particle induced X-ray emission (PIXE), superconducting qua...", "citations": 54, "author_count": 8, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 3934, "doi": "10.1016/S0008-6223(02)00401-3", "umap_coordinates": { "x": 393.1003723144531, "y": 135.7907257080078, "z": 205.76808166503906 }, "tsne_coordinates": { "x": 30.852821350097656, "y": 16.028160095214844, "z": 7.418121337890625 }, "pca_coordinates": { "x": -1.509746789932251, "y": 0.13800644874572754, "z": -1.508265733718872 }, "axis_scores": { "Quantum imaging": 0.700427770614624, "Quantum Life Science Sensing": 0.7276418805122375, "Quantum sensing Detection": 0.6749260425567627, "Quantum sensing Metrology": 0.6696581244468689, "Quantum sensing navigation": 0.6657851934432983, "Quantum sensing Position": 0.6689398288726807, "Quantum sensing Timing": 0.6315443515777588, "Quantum sensing": 0.686475396156311, "Quantum control": 0.6519342064857483 } }, { "id": 3929, "title": "Optimization of 1.3 μm metamorphic InGaAs quantum wells on GaAs grown by molecular beam epitaxy", "abstract": "We investigate surface, structural and optical properties of 1.3 mu m metamorphic InGaAs quantum wells (QWs) on GaAs substrates grown by molecular beam epitaxy. Optimization of structure design and gr...", "citations": 15, "author_count": 6, "categories": [ "Crystallography" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3935, "doi": "10.1016/j.jcrysgro.2005.04.019", "umap_coordinates": { "x": 393.361572265625, "y": 133.58692932128906, "z": 206.85894775390625 }, "tsne_coordinates": { "x": 44.09294891357422, "y": 3.202627182006836, "z": -4.602623462677002 }, "pca_coordinates": { "x": -0.9133787155151367, "y": -0.862729549407959, "z": 1.3494150638580322 }, "axis_scores": { "Quantum imaging": 0.7488530874252319, "Quantum Life Science Sensing": 0.7218992114067078, "Quantum sensing Detection": 0.72371506690979, "Quantum sensing Metrology": 0.7386116981506348, "Quantum sensing navigation": 0.7278391122817993, "Quantum sensing Position": 0.7113993167877197, "Quantum sensing Timing": 0.7005532383918762, "Quantum sensing": 0.7401638031005859, "Quantum control": 0.7149053812026978 } }, { "id": 3930, "title": "Interfacial dynamics and structure of surfactant layers", "abstract": "The present article provides current opinion on studies of the interfacial dynamics, adsorption, and structure of surfactant layers. The physical principles and applications of physicochemical methods...", "citations": 45, "author_count": 3, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3936, "doi": "10.1016/j.cis.2005.01.001", "umap_coordinates": { "x": 393.22515869140625, "y": 135.23585510253906, "z": 205.1403350830078 }, "tsne_coordinates": { "x": 21.548038482666016, "y": 21.844459533691406, "z": 9.305732727050781 }, "pca_coordinates": { "x": -1.7655810117721558, "y": -0.5681695938110352, "z": -4.90296745300293 }, "axis_scores": { "Quantum imaging": 0.6865122318267822, "Quantum Life Science Sensing": 0.7237330675125122, "Quantum sensing Detection": 0.6620017886161804, "Quantum sensing Metrology": 0.6504256725311279, "Quantum sensing navigation": 0.6655502319335938, "Quantum sensing Position": 0.6582638025283813, "Quantum sensing Timing": 0.6504519581794739, "Quantum sensing": 0.6798341274261475, "Quantum control": 0.6917126178741455 } }, { "id": 3931, "title": "Structural effects of the thermal treatment on a GaInNAs/GaAs superlattice", "abstract": "We have studied structural changes that occur during annealing of GaInNAs/GaAs multiple quantum wells grown by metalorganic vapor-phase epitaxy (MOVPE). Different thermal treatments led to an improved...", "citations": 31, "author_count": 8, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3937, "doi": "10.1063/1.1405002", "umap_coordinates": { "x": 392.9078063964844, "y": 133.79574584960938, "z": 208.2437744140625 }, "tsne_coordinates": { "x": 30.458744049072266, "y": -23.470361709594727, "z": 1.266979455947876 }, "pca_coordinates": { "x": 0.9522833824157715, "y": -2.298074245452881, "z": -0.04859954118728638 }, "axis_scores": { "Quantum imaging": 0.6963988542556763, "Quantum Life Science Sensing": 0.7006339430809021, "Quantum sensing Detection": 0.690949559211731, "Quantum sensing Metrology": 0.6986029148101807, "Quantum sensing navigation": 0.6792116761207581, "Quantum sensing Position": 0.6835424304008484, "Quantum sensing Timing": 0.679535448551178, "Quantum sensing": 0.7162615656852722, "Quantum control": 0.6817525029182434 } }, { "id": 3932, "title": "Spin-Orbit Charge-Transfer Intersystem Crossing of Compact Naphthalenediimide-Carbazole Electron-Donor-Acceptor Triads", "abstract": "Compact electron donor-acceptor triads based on carbazole (Cz) and naphthalenediimide (NDI) were prepared to study the spin-orbit charge-transfer intersystem crossing (SOCT-ISC). By variation of the m...", "citations": 31, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3938, "doi": "10.1021/acs.jpcb.1c06498", "umap_coordinates": { "x": 392.0044250488281, "y": 135.812744140625, "z": 205.80470275878906 }, "tsne_coordinates": { "x": 5.01621150970459, "y": -5.47568416595459, "z": -13.49245834350586 }, "pca_coordinates": { "x": -0.5329965949058533, "y": -2.3748860359191895, "z": -1.2974185943603516 }, "axis_scores": { "Quantum imaging": 0.7168139815330505, "Quantum Life Science Sensing": 0.7051243782043457, "Quantum sensing Detection": 0.6880831718444824, "Quantum sensing Metrology": 0.6695517301559448, "Quantum sensing navigation": 0.689863383769989, "Quantum sensing Position": 0.6658440828323364, "Quantum sensing Timing": 0.6591621041297913, "Quantum sensing": 0.7052692174911499, "Quantum control": 0.6956964135169983 } }, { "id": 3933, "title": "Nanofiber-supported CuS nanoplatelets as high efficiency counter electrodes for quantum dot-based photoelectrochemical hydrogen production", "abstract": "We developed a hierarchically assembled hybrid counter electrode (CE) based on copper sulfide (CuS) nanoplatelets grown on polymer nanofibers. The resulting CE was used in a quantum dot (QD)-based pho...", "citations": 24, "author_count": 14, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3939, "doi": "10.1039/c6qm00144k", "umap_coordinates": { "x": 392.0478515625, "y": 134.51968383789062, "z": 205.4285125732422 }, "tsne_coordinates": { "x": 16.69099998474121, "y": 1.1710811853408813, "z": -11.059969902038574 }, "pca_coordinates": { "x": -2.1915364265441895, "y": -3.1869468688964844, "z": -1.3562188148498535 }, "axis_scores": { "Quantum imaging": 0.6733782887458801, "Quantum Life Science Sensing": 0.7209622859954834, "Quantum sensing Detection": 0.6772504448890686, "Quantum sensing Metrology": 0.6708730459213257, "Quantum sensing navigation": 0.668979287147522, "Quantum sensing Position": 0.6731479167938232, "Quantum sensing Timing": 0.6381262540817261, "Quantum sensing": 0.687393069267273, "Quantum control": 0.6766335964202881 } }, { "id": 3934, "title": "Quantum-chemical simulations of free and bound hole polarons in corundum crystal", "abstract": "The semi-empirical method of the so-called intermediate neglect of differential overlap (INDO) has been applied to the calculations of the hole small-radius polarons in corundum crystals, Results for ...", "citations": 12, "author_count": 5, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3940, "doi": "10.1016/S0927-0256(96)00090-0", "umap_coordinates": { "x": 393.50885009765625, "y": 136.59226989746094, "z": 206.2366180419922 }, "tsne_coordinates": { "x": -6.745014190673828, "y": 18.431373596191406, "z": 14.213953018188477 }, "pca_coordinates": { "x": 0.8149182796478271, "y": 0.3511929512023926, "z": -1.9577686786651611 }, "axis_scores": { "Quantum imaging": 0.7217848896980286, "Quantum Life Science Sensing": 0.7435035705566406, "Quantum sensing Detection": 0.721832275390625, "Quantum sensing Metrology": 0.712559700012207, "Quantum sensing navigation": 0.7366942763328552, "Quantum sensing Position": 0.7166010737419128, "Quantum sensing Timing": 0.7042128443717957, "Quantum sensing": 0.7330873012542725, "Quantum control": 0.7184939980506897 } }, { "id": 3935, "title": "Exploring Image Quality Improvements in High-Speed Dual Threshold Photon-Counting Micro-CT", "abstract": "High-speed X-ray computed tomography (CT) of batteries in-line or at-line is a promising technique to obtain quality-relevant insights leading to an optimized production process and detection of defec...", "citations": 1, "author_count": 5, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3941, "doi": "10.1007/s10921-025-01250-5", "umap_coordinates": { "x": 395.3525390625, "y": 133.13174438476562, "z": 205.22544860839844 }, "tsne_coordinates": { "x": -5.099215507507324, "y": 25.043258666992188, "z": -14.607967376708984 }, "pca_coordinates": { "x": -3.1056976318359375, "y": 2.6923835277557373, "z": 3.613830089569092 }, "axis_scores": { "Quantum imaging": 0.7381243109703064, "Quantum Life Science Sensing": 0.712614893913269, "Quantum sensing Detection": 0.7068837881088257, "Quantum sensing Metrology": 0.6984454393386841, "Quantum sensing navigation": 0.6984521150588989, "Quantum sensing Position": 0.6841009855270386, "Quantum sensing Timing": 0.69985431432724, "Quantum sensing": 0.7113930583000183, "Quantum control": 0.6707813739776611 } }, { "id": 3936, "title": "Modeling charge transport in photon-counting detectors", "abstract": "The purpose of this study is to review and compare simulation methods for describing the transport of charge clouds in silicon based semiconductor detectors and investigate the effects on energy spect...", "citations": 4, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3942, "doi": "10.1016/j.nima.2018.05.027", "umap_coordinates": { "x": 394.61773681640625, "y": 133.03318786621094, "z": 205.48292541503906 }, "tsne_coordinates": { "x": -15.192222595214844, "y": 18.374982833862305, "z": -9.532963752746582 }, "pca_coordinates": { "x": -0.9833321571350098, "y": 0.2336418628692627, "z": 1.7549633979797363 }, "axis_scores": { "Quantum imaging": 0.7585201263427734, "Quantum Life Science Sensing": 0.7415791153907776, "Quantum sensing Detection": 0.7516867518424988, "Quantum sensing Metrology": 0.7339457273483276, "Quantum sensing navigation": 0.7580721974372864, "Quantum sensing Position": 0.7289795875549316, "Quantum sensing Timing": 0.7349585294723511, "Quantum sensing": 0.7477695345878601, "Quantum control": 0.7112393975257874 } }, { "id": 3937, "title": "A pillar-array based two-dimensional photonic crystal microcavity", "abstract": "Experimental results are presented for a high quality factor cavity based on pillar arrays. The cavity is formed from a square lattice of silicon pillars of finite height. The quality factor of the fu...", "citations": 25, "author_count": 7, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3943, "doi": "10.1063/1.3152245", "umap_coordinates": { "x": 393.86553955078125, "y": 134.11219787597656, "z": 207.70147705078125 }, "tsne_coordinates": { "x": 20.941518783569336, "y": -25.408632278442383, "z": -21.522403717041016 }, "pca_coordinates": { "x": 0.07396292686462402, "y": -2.493837356567383, "z": 2.467407703399658 }, "axis_scores": { "Quantum imaging": 0.7338274717330933, "Quantum Life Science Sensing": 0.7270954847335815, "Quantum sensing Detection": 0.7353546619415283, "Quantum sensing Metrology": 0.7390814423561096, "Quantum sensing navigation": 0.7167545557022095, "Quantum sensing Position": 0.7193551063537598, "Quantum sensing Timing": 0.6921966671943665, "Quantum sensing": 0.7440634369850159, "Quantum control": 0.7194831967353821 } }, { "id": 3938, "title": "Two-photon excitation and time-resolved fluorescence:: 1.: The proper response function for analysing single-photon counting experiments", "abstract": "An accurate instrumental response function is needed to deconvolute fluorescence data obtained by time-correlated single-photon counting (TCSPC) upon multi-photon excitation. Hitherto the response fun...", "citations": 27, "author_count": 6, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3944, "doi": "10.1016/S0009-2614(02)00141-0", "umap_coordinates": { "x": 394.042236328125, "y": 134.51812744140625, "z": 205.54522705078125 }, "tsne_coordinates": { "x": 13.622444152832031, "y": 5.291573524475098, "z": -32.40086364746094 }, "pca_coordinates": { "x": -3.6127102375030518, "y": 0.9041746854782104, "z": 0.5911054015159607 }, "axis_scores": { "Quantum imaging": 0.708483099937439, "Quantum Life Science Sensing": 0.7603930234909058, "Quantum sensing Detection": 0.7186363935470581, "Quantum sensing Metrology": 0.7111077308654785, "Quantum sensing navigation": 0.6973674297332764, "Quantum sensing Position": 0.6867348551750183, "Quantum sensing Timing": 0.7110713124275208, "Quantum sensing": 0.7290145754814148, "Quantum control": 0.6866146922111511 } }, { "id": 3939, "title": "Building flat space-time from information exchange between quantum fluctuations", "abstract": "We consider a hypothesis in which classical space-time emerges from information exchange (interactions) between quantum fluctuations in the gravity theory. In this picture, a line element would arise ...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3945, "doi": "10.1007/JHEP07(2019)140", "umap_coordinates": { "x": 395.70263671875, "y": 137.11305236816406, "z": 206.23390197753906 }, "tsne_coordinates": { "x": -43.26015853881836, "y": 0.6975988149642944, "z": 10.229909896850586 }, "pca_coordinates": { "x": 1.657780647277832, "y": 3.8909459114074707, "z": -0.5242641568183899 }, "axis_scores": { "Quantum imaging": 0.7458412647247314, "Quantum Life Science Sensing": 0.752274215221405, "Quantum sensing Detection": 0.7191241383552551, "Quantum sensing Metrology": 0.7182447910308838, "Quantum sensing navigation": 0.7602047324180603, "Quantum sensing Position": 0.7259117960929871, "Quantum sensing Timing": 0.7399066686630249, "Quantum sensing": 0.7485741376876831, "Quantum control": 0.745157778263092 } }, { "id": 3940, "title": "Preliminary evaluation of a silicon strip detector for photon-counting spectral CT", "abstract": "An edge-on silicon strip detector designed for photon-counting spectral computed tomography (CT) is presented. Progress on the development of an application specific integrated circuit (ASIC) to proce...", "citations": 43, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3946, "doi": "10.1016/j.nima.2012.02.034", "umap_coordinates": { "x": 394.9579162597656, "y": 132.6233367919922, "z": 205.49276733398438 }, "tsne_coordinates": { "x": -14.282113075256348, "y": 19.185279846191406, "z": -14.815727233886719 }, "pca_coordinates": { "x": -4.563467979431152, "y": 1.52443528175354, "z": 3.7893452644348145 }, "axis_scores": { "Quantum imaging": 0.6771962642669678, "Quantum Life Science Sensing": 0.6777694821357727, "Quantum sensing Detection": 0.6735338568687439, "Quantum sensing Metrology": 0.6597391366958618, "Quantum sensing navigation": 0.6522500514984131, "Quantum sensing Position": 0.6464897394180298, "Quantum sensing Timing": 0.6586321592330933, "Quantum sensing": 0.6667069792747498, "Quantum control": 0.5975072383880615 } }, { "id": 3941, "title": "Cultivation and Photophysiological Characteristics of Desmids in Moderately Saline Aquaculture Wastewater", "abstract": "Although desmids typically inhabit freshwater environments characterized by low amounts of nutrients and low salinity, several desmid species have been recorded in eutrophic waters, indicating their a...", "citations": 7, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3947, "doi": "10.1111/jpy.13150", "umap_coordinates": { "x": 393.6439208984375, "y": 136.1971435546875, "z": 203.41383361816406 }, "tsne_coordinates": { "x": 17.84817886352539, "y": 31.15093994140625, "z": 14.510494232177734 }, "pca_coordinates": { "x": -4.579226493835449, "y": 0.8656058311462402, "z": -0.7666234970092773 }, "axis_scores": { "Quantum imaging": 0.6660703420639038, "Quantum Life Science Sensing": 0.714615523815155, "Quantum sensing Detection": 0.6627373099327087, "Quantum sensing Metrology": 0.6693574786186218, "Quantum sensing navigation": 0.6468373537063599, "Quantum sensing Position": 0.6375553607940674, "Quantum sensing Timing": 0.6128536462783813, "Quantum sensing": 0.6726630330085754, "Quantum control": 0.642109751701355 } }, { "id": 3942, "title": "Effect of isotopic substitution on the electron spin dynamics of the CH3(C)over-dot(COOH)(2) radical in X-irradiated methyl malonic acid powder: Intrinsic potentials and activation energies", "abstract": "The temperature-dependent EPR line shapes from the methyl rotor of the X irradiation-induced CH3C(COOH)(2) radical in powder MMA (methyl malonic acid) and the X irradiation-induced radical CD3C(COOH)(...", "citations": 16, "author_count": 7, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3948, "doi": "10.1021/jp972067n", "umap_coordinates": { "x": 392.6143798828125, "y": 136.3013458251953, "z": 206.44915771484375 }, "tsne_coordinates": { "x": 10.50333309173584, "y": 6.863028049468994, "z": 16.665634155273438 }, "pca_coordinates": { "x": -0.6822856068611145, "y": -0.16820359230041504, "z": -3.245382785797119 }, "axis_scores": { "Quantum imaging": 0.690902829170227, "Quantum Life Science Sensing": 0.7096817493438721, "Quantum sensing Detection": 0.6665412187576294, "Quantum sensing Metrology": 0.6615539193153381, "Quantum sensing navigation": 0.6638295650482178, "Quantum sensing Position": 0.6727950572967529, "Quantum sensing Timing": 0.6767086982727051, "Quantum sensing": 0.6847870349884033, "Quantum control": 0.6872209906578064 } }, { "id": 3943, "title": "Atomic-Level Understanding for the Enhanced Generation of Hydrogen Peroxide by the Introduction of an Aryl Amino Group in Polymeric Carbon Nitrides", "abstract": "Heterogeneous catalysts are often black boxes due to the insufficient understanding of the detailed mechanisms at the catalytic sites. An atomic-level elucidation of the processes taking place in thos...", "citations": 57, "author_count": 13, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3949, "doi": "10.1021/acscatal.1c03733", "umap_coordinates": { "x": 392.5341491699219, "y": 135.59759521484375, "z": 205.25164794921875 }, "tsne_coordinates": { "x": 7.572185516357422, "y": 5.259452819824219, "z": 4.14108943939209 }, "pca_coordinates": { "x": -1.4016584157943726, "y": -1.5220835208892822, "z": -0.735801637172699 }, "axis_scores": { "Quantum imaging": 0.7147793769836426, "Quantum Life Science Sensing": 0.6995141506195068, "Quantum sensing Detection": 0.6904039978981018, "Quantum sensing Metrology": 0.6825583577156067, "Quantum sensing navigation": 0.6957230567932129, "Quantum sensing Position": 0.6746471524238586, "Quantum sensing Timing": 0.6630651950836182, "Quantum sensing": 0.707248330116272, "Quantum control": 0.6941409111022949 } }, { "id": 3944, "title": "Parity-conserving Cooper-pair transport and ideal superconducting diode in planar germanium", "abstract": "Superconductor/semiconductor hybrid devices have attracted increasing interest in the past years. Superconducting electronics aims to complement semiconductor technology, while hybrid architectures ar...", "citations": 57, "author_count": 20, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3950, "doi": "10.1038/s41467-023-44114-0", "umap_coordinates": { "x": 393.6903381347656, "y": 135.47117614746094, "z": 207.25592041015625 }, "tsne_coordinates": { "x": 11.609306335449219, "y": -15.626191139221191, "z": 5.698624134063721 }, "pca_coordinates": { "x": 1.195429801940918, "y": -0.8429441452026367, "z": 0.5409644246101379 }, "axis_scores": { "Quantum imaging": 0.6931833028793335, "Quantum Life Science Sensing": 0.6883094310760498, "Quantum sensing Detection": 0.6776480078697205, "Quantum sensing Metrology": 0.6653376817703247, "Quantum sensing navigation": 0.7016257643699646, "Quantum sensing Position": 0.6823848485946655, "Quantum sensing Timing": 0.6951573491096497, "Quantum sensing": 0.6861104369163513, "Quantum control": 0.6819825768470764 } }, { "id": 3945, "title": "Highly reconfigurable oscillator-based Ising Machine through quasiperiodic modulation of coupling strength", "abstract": "Ising Machines (IMs) have the potential to outperform conventional Von-Neuman architectures in notoriously difficult optimization problems. Various IM implementations have been proposed based on quant...", "citations": 8, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3951, "doi": "10.1038/s41598-023-31155-0", "umap_coordinates": { "x": 393.029541015625, "y": 136.18685913085938, "z": 207.28306579589844 }, "tsne_coordinates": { "x": 5.808767795562744, "y": -21.83664321899414, "z": 28.581167221069336 }, "pca_coordinates": { "x": 0.7118083238601685, "y": -0.5754575729370117, "z": -0.09467542171478271 }, "axis_scores": { "Quantum imaging": 0.7218871116638184, "Quantum Life Science Sensing": 0.7286456227302551, "Quantum sensing Detection": 0.7162789702415466, "Quantum sensing Metrology": 0.7076022028923035, "Quantum sensing navigation": 0.7190032005310059, "Quantum sensing Position": 0.7074477076530457, "Quantum sensing Timing": 0.7184867858886719, "Quantum sensing": 0.7360163331031799, "Quantum control": 0.7069230675697327 } }, { "id": 3946, "title": "Probabilistic fault-tolerant universal quantum computation and sampling problems in continuous variables", "abstract": "Continuous-variable (CV) devices are a promising platform for demonstrating large-scale quantum information protocols. In this framework we define a general quantum computational model based on a CV h...", "citations": 18, "author_count": 6, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3952, "doi": "10.1103/PhysRevA.99.012344", "umap_coordinates": { "x": 395.3616638183594, "y": 136.62301635742188, "z": 207.91542053222656 }, "tsne_coordinates": { "x": -21.271671295166016, "y": -15.585159301757812, "z": 0.2319197952747345 }, "pca_coordinates": { "x": 4.857951641082764, "y": 1.3911062479019165, "z": 1.0827662944793701 }, "axis_scores": { "Quantum imaging": 0.7586843371391296, "Quantum Life Science Sensing": 0.7837106585502625, "Quantum sensing Detection": 0.7862404584884644, "Quantum sensing Metrology": 0.7684942483901978, "Quantum sensing navigation": 0.7782127857208252, "Quantum sensing Position": 0.743547797203064, "Quantum sensing Timing": 0.7648698091506958, "Quantum sensing": 0.7940568327903748, "Quantum control": 0.7528425455093384 } }, { "id": 3947, "title": "Exploration of pyrazine-embedded antiaromatic polycyclic hydrocarbons generated by solution and on-surface azomethine ylide homocoupling", "abstract": "Nanographenes, namely polycyclic aromatic hydrocarbons (PAHs) with nanoscale dimensions (>1 nm), are atomically precise cutouts from graphene. They represent prime models to enhance the scope of chemi...", "citations": 79, "author_count": 17, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3953, "doi": "10.1038/s41467-017-01934-1", "umap_coordinates": { "x": 393.4879455566406, "y": 135.10902404785156, "z": 205.5684356689453 }, "tsne_coordinates": { "x": 11.819136619567871, "y": 7.259479522705078, "z": -23.80287742614746 }, "pca_coordinates": { "x": -2.3549063205718994, "y": -0.49948740005493164, "z": -0.15786641836166382 }, "axis_scores": { "Quantum imaging": 0.7029390335083008, "Quantum Life Science Sensing": 0.7083139419555664, "Quantum sensing Detection": 0.6720835566520691, "Quantum sensing Metrology": 0.6591277122497559, "Quantum sensing navigation": 0.6708418726921082, "Quantum sensing Position": 0.6686906814575195, "Quantum sensing Timing": 0.6265444755554199, "Quantum sensing": 0.6833062171936035, "Quantum control": 0.6611979603767395 } }, { "id": 3948, "title": "Specific Imaging of Intracellular Lipid Droplets Using a Benzothiadiazole Derivative with Solvatochromic Properties", "abstract": "Altered lipid metabolism and extensive lipid storage in cells have been associated with various medical disorders, including cancer. The development of fluorescent probes that specifically accumulate ...", "citations": 58, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3954, "doi": "10.1021/acs.bioconjchem.7b00048", "umap_coordinates": { "x": 392.2258605957031, "y": 135.3278045654297, "z": 204.43096923828125 }, "tsne_coordinates": { "x": 7.5920729637146, "y": 13.70659351348877, "z": -14.804009437561035 }, "pca_coordinates": { "x": -4.601040840148926, "y": -1.2402782440185547, "z": -2.0238969326019287 }, "axis_scores": { "Quantum imaging": 0.726371169090271, "Quantum Life Science Sensing": 0.7194714546203613, "Quantum sensing Detection": 0.6898683905601501, "Quantum sensing Metrology": 0.6713335514068604, "Quantum sensing navigation": 0.6740023493766785, "Quantum sensing Position": 0.6649035215377808, "Quantum sensing Timing": 0.6426655650138855, "Quantum sensing": 0.6947015523910522, "Quantum control": 0.6794277429580688 } }, { "id": 3949, "title": "Future Prospects in Dermatologic Applications of Lasers, Nanotechnology, and Other New Technologies", "abstract": "We review novel technologies with diagnostic and therapeutic applications in dermatology. Among the diagnostic techniques that promise to become part of dermatologic practice in the future are optical...", "citations": 15, "author_count": 5, "categories": [ "Dermatology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3955, "doi": "10.1016/j.ad.2014.07.002", "umap_coordinates": { "x": 393.66143798828125, "y": 133.7506866455078, "z": 204.3849334716797 }, "tsne_coordinates": { "x": 15.20784854888916, "y": 18.313499450683594, "z": -4.114665508270264 }, "pca_coordinates": { "x": -5.258901119232178, "y": -0.9226639270782471, "z": 0.30686628818511963 }, "axis_scores": { "Quantum imaging": 0.6858546733856201, "Quantum Life Science Sensing": 0.7163906693458557, "Quantum sensing Detection": 0.6633389592170715, "Quantum sensing Metrology": 0.6624392867088318, "Quantum sensing navigation": 0.6574319005012512, "Quantum sensing Position": 0.6626797914505005, "Quantum sensing Timing": 0.62911456823349, "Quantum sensing": 0.6721054315567017, "Quantum control": 0.6347782015800476 } }, { "id": 3950, "title": "CLONAL VARIATION IN OXYGEN EVOLUTION IN FICUS-BENJAMINA L", "abstract": "The oxygen evolution rate of leaf discs (PN) in two clones (37, 62) of 1/2-year-old Ficus benjamina L. showed no differences with respect to leaf position on young plants. In the range of 18 to 26.deg...", "citations": 2, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1989, "topic": [ "all" ], "embedding_index": 3956, "doi": null, "umap_coordinates": { "x": 391.5359802246094, "y": 139.80335998535156, "z": 209.0729522705078 }, "tsne_coordinates": { "x": -3.2592008113861084, "y": 44.92424774169922, "z": 5.166817665100098 }, "pca_coordinates": { "x": -1.3651447296142578, "y": 3.241879463195801, "z": -4.119738578796387 }, "axis_scores": { "Quantum imaging": 0.6538213491439819, "Quantum Life Science Sensing": 0.6722038388252258, "Quantum sensing Detection": 0.6366061568260193, "Quantum sensing Metrology": 0.6242444515228271, "Quantum sensing navigation": 0.6489043235778809, "Quantum sensing Position": 0.6280008554458618, "Quantum sensing Timing": 0.6159525513648987, "Quantum sensing": 0.6440961956977844, "Quantum control": 0.6779552698135376 } }, { "id": 3951, "title": "Atomic structure and oxygen deficiency of the ultrathin aluminium oxide barrier in Al/AlOx/Al Josephson junctions", "abstract": "Al/AlOx/Al Josephson junctions are the building blocks of a wide range of superconducting quantum devices that are key elements for quantum computers, extremely sensitive magnetometers and radiation d...", "citations": 51, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3957, "doi": "10.1038/srep29679", "umap_coordinates": { "x": 393.2882385253906, "y": 134.9417266845703, "z": 207.27932739257812 }, "tsne_coordinates": { "x": 30.589107513427734, "y": -36.790611267089844, "z": 3.3999106884002686 }, "pca_coordinates": { "x": 0.2550102472305298, "y": -2.029998302459717, "z": -0.6728147268295288 }, "axis_scores": { "Quantum imaging": 0.6929565668106079, "Quantum Life Science Sensing": 0.7278529405593872, "Quantum sensing Detection": 0.6723251342773438, "Quantum sensing Metrology": 0.678450345993042, "Quantum sensing navigation": 0.690811276435852, "Quantum sensing Position": 0.680170476436615, "Quantum sensing Timing": 0.6718940138816833, "Quantum sensing": 0.6920719742774963, "Quantum control": 0.6511685848236084 } }, { "id": 3952, "title": "Multiscale Modeling of Two-Photon Probes for Parkinson's Diagnostics Based on Monoamine Oxidase B Biomarker", "abstract": "Monoamine oxidase B (MAO-B) is a potential biomarker for Parkinson's disease (PD), a neurodegenerative disease associated with the loss of motor activities in human subjects. The disease state is asso...", "citations": 13, "author_count": 3, "categories": [ "Pharmacology & Pharmacy" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3958, "doi": "10.1021/acs.jcim.0c00423", "umap_coordinates": { "x": 394.62957763671875, "y": 134.0533905029297, "z": 205.21754455566406 }, "tsne_coordinates": { "x": 3.365983009338379, "y": 21.787153244018555, "z": -0.011629173532128334 }, "pca_coordinates": { "x": -3.134352207183838, "y": -0.31165647506713867, "z": 0.5886351466178894 }, "axis_scores": { "Quantum imaging": 0.7692086696624756, "Quantum Life Science Sensing": 0.764979362487793, "Quantum sensing Detection": 0.749447762966156, "Quantum sensing Metrology": 0.7384835481643677, "Quantum sensing navigation": 0.7330328822135925, "Quantum sensing Position": 0.723068118095398, "Quantum sensing Timing": 0.7150225043296814, "Quantum sensing": 0.7500698566436768, "Quantum control": 0.7013757228851318 } }, { "id": 3953, "title": "Photophysical image analysis: Unsupervised probabilistic thresholding for images from electron-multiplying charge-coupled devices", "abstract": "We introduce the concept photophysical image analysis (PIA) and an associated pipeline for unsupervised probabilistic image thresholding for images recorded by electron-multiplying charge-coupled devi...", "citations": 2, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3959, "doi": "10.1371/journal.pone.0300122", "umap_coordinates": { "x": 394.73358154296875, "y": 135.48159790039062, "z": 205.40066528320312 }, "tsne_coordinates": { "x": 1.526153802871704, "y": 22.103286743164062, "z": -0.2185077667236328 }, "pca_coordinates": { "x": -1.8988218307495117, "y": 0.818112850189209, "z": 1.9409620761871338 }, "axis_scores": { "Quantum imaging": 0.7636620402336121, "Quantum Life Science Sensing": 0.7258782386779785, "Quantum sensing Detection": 0.7507337331771851, "Quantum sensing Metrology": 0.731528639793396, "Quantum sensing navigation": 0.7116234302520752, "Quantum sensing Position": 0.6885300278663635, "Quantum sensing Timing": 0.7141794562339783, "Quantum sensing": 0.7514129281044006, "Quantum control": 0.7052534818649292 } }, { "id": 3954, "title": "A decade of experience from commercial 3D laser range sensors for ground applications", "abstract": "For use in the development of synthetic environment models, the Swedish Defence Research Agency (FOI) bought two laser scanners in the beginning of this millennium, one from the Austrian company Riegl...", "citations": 3, "author_count": 2, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3960, "doi": "10.1117/12.2009524", "umap_coordinates": { "x": 395.1929931640625, "y": 133.49407958984375, "z": 206.3911590576172 }, "tsne_coordinates": { "x": -3.2722017765045166, "y": 12.600177764892578, "z": -29.134788513183594 }, "pca_coordinates": { "x": -2.1075472831726074, "y": 2.2381887435913086, "z": 1.95880126953125 }, "axis_scores": { "Quantum imaging": 0.7165595293045044, "Quantum Life Science Sensing": 0.7543055415153503, "Quantum sensing Detection": 0.7275989055633545, "Quantum sensing Metrology": 0.741641640663147, "Quantum sensing navigation": 0.7311359643936157, "Quantum sensing Position": 0.728911817073822, "Quantum sensing Timing": 0.7000056505203247, "Quantum sensing": 0.7376545667648315, "Quantum control": 0.6790128946304321 } }, { "id": 3955, "title": "High resolution and sensitivity up-conversion mid-infrared photon-counting LIDAR", "abstract": "A single-photon-counting mid-infrared LIDAR is presented. 2.4 mu m mid-infrared photons were up-converted to 737 nm by intra-cavity mixing in a periodically poled rubidium-doped KTiOPO4 crystal inside...", "citations": 16, "author_count": 7, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3961, "doi": "10.1364/AO.383907", "umap_coordinates": { "x": 394.64105224609375, "y": 133.76077270507812, "z": 206.23460388183594 }, "tsne_coordinates": { "x": -4.861739635467529, "y": 0.17757706344127655, "z": -30.358131408691406 }, "pca_coordinates": { "x": -2.356945753097534, "y": -0.14894819259643555, "z": 3.912672519683838 }, "axis_scores": { "Quantum imaging": 0.7347150444984436, "Quantum Life Science Sensing": 0.7401527166366577, "Quantum sensing Detection": 0.743209958076477, "Quantum sensing Metrology": 0.7348222136497498, "Quantum sensing navigation": 0.7116261720657349, "Quantum sensing Position": 0.6920945048332214, "Quantum sensing Timing": 0.7046796679496765, "Quantum sensing": 0.7456214427947998, "Quantum control": 0.6841698884963989 } }, { "id": 3956, "title": "Spin polarization of edge states and the magnetosubband structure in quantum wires", "abstract": "We provide a quantitative description of the structure of edge states in split-gate quantum wires in the integer quantum Hall regime. We develop an effective numerical approach based on the Green's fu...", "citations": 40, "author_count": 3, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3962, "doi": "10.1103/PhysRevB.73.075331", "umap_coordinates": { "x": 393.7272033691406, "y": 136.088134765625, "z": 209.06431579589844 }, "tsne_coordinates": { "x": -16.097576141357422, "y": -32.640316009521484, "z": 15.723485946655273 }, "pca_coordinates": { "x": 3.686018943786621, "y": -2.3356070518493652, "z": -1.9519774913787842 }, "axis_scores": { "Quantum imaging": 0.7056573033332825, "Quantum Life Science Sensing": 0.7156494855880737, "Quantum sensing Detection": 0.6887504458427429, "Quantum sensing Metrology": 0.6851701140403748, "Quantum sensing navigation": 0.7103861570358276, "Quantum sensing Position": 0.6855363845825195, "Quantum sensing Timing": 0.648553729057312, "Quantum sensing": 0.7018720507621765, "Quantum control": 0.6655261516571045 } }, { "id": 3957, "title": "Constrained one-step material decomposition reconstruction of head CT data from a silicon photon-counting prototype", "abstract": "BackgroundSpectral CT material decomposition provides quantitative information but is challenged by the instability of the inversion into basis materials. We have previously proposed the constrained O...", "citations": 2, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2023, "topic": [ "all" ], "embedding_index": 3963, "doi": "10.1002/mp.16649", "umap_coordinates": { "x": 395.32421875, "y": 132.93463134765625, "z": 205.39694213867188 }, "tsne_coordinates": { "x": -4.295148849487305, "y": 16.989765167236328, "z": -17.124723434448242 }, "pca_coordinates": { "x": -2.1239099502563477, "y": 3.552983522415161, "z": 1.8953566551208496 }, "axis_scores": { "Quantum imaging": 0.726808488368988, "Quantum Life Science Sensing": 0.7136947512626648, "Quantum sensing Detection": 0.6998526453971863, "Quantum sensing Metrology": 0.6983324885368347, "Quantum sensing navigation": 0.6898087859153748, "Quantum sensing Position": 0.6825700998306274, "Quantum sensing Timing": 0.6816263198852539, "Quantum sensing": 0.7142689824104309, "Quantum control": 0.6695178151130676 } }, { "id": 3958, "title": "HARMONIC-GENERATION AT THE MAX-LAB UNDULATOR - REPORT OF THE 1ST RESULTS", "abstract": "By the use of coherent harmonic generation photons in the third harmonic of a Nd:YAG laser have been produced. The laser illuminated the electrons inside the permanent magnet undulator at Max-lab, Lun...", "citations": 4, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 1991, "topic": [ "all" ], "embedding_index": 3964, "doi": "10.1016/0168-9002(91)90825-B", "umap_coordinates": { "x": 395.2715759277344, "y": 134.51312255859375, "z": 205.7249298095703 }, "tsne_coordinates": { "x": -23.426193237304688, "y": 13.166410446166992, "z": -19.51123046875 }, "pca_coordinates": { "x": -0.2544100880622864, "y": 1.9340360164642334, "z": 0.534359872341156 }, "axis_scores": { "Quantum imaging": 0.6484273076057434, "Quantum Life Science Sensing": 0.6773988008499146, "Quantum sensing Detection": 0.6531554460525513, "Quantum sensing Metrology": 0.6897828578948975, "Quantum sensing navigation": 0.653323769569397, "Quantum sensing Position": 0.6625872850418091, "Quantum sensing Timing": 0.6479742527008057, "Quantum sensing": 0.662083089351654, "Quantum control": 0.6351258158683777 } }, { "id": 3959, "title": "Amplification of photon echo signals for photon-echo-based optical storage and optical processing devices", "abstract": "In photon-echo-based optical data storage and data processing the photon echo output intensity generally is about 0.1-1% of the input intensity. Many devices, such as processors would require that the...", "citations": 1, "author_count": 6, "categories": [ "Computer Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 3965, "doi": "10.1117/12.330413", "umap_coordinates": { "x": 394.7891845703125, "y": 133.56919860839844, "z": 206.49464416503906 }, "tsne_coordinates": { "x": -0.3348551094532013, "y": -0.43867775797843933, "z": -26.41192054748535 }, "pca_coordinates": { "x": -1.069076657295227, "y": -0.3668529987335205, "z": 3.3294577598571777 }, "axis_scores": { "Quantum imaging": 0.7286567091941833, "Quantum Life Science Sensing": 0.7108388543128967, "Quantum sensing Detection": 0.7272471785545349, "Quantum sensing Metrology": 0.713053822517395, "Quantum sensing navigation": 0.7003480792045593, "Quantum sensing Position": 0.6921314001083374, "Quantum sensing Timing": 0.6949275135993958, "Quantum sensing": 0.7237637042999268, "Quantum control": 0.6685884594917297 } }, { "id": 3960, "title": "A deep learning post-processing to enhance the maximum likelihood estimate of three material decomposition in photon counting spectral CT", "abstract": "Photon counting detectors in x-ray computed tomography (CT) are a major technological advancement that provides additional energy information, and improve the decomposition of the CT image into materi...", "citations": 5, "author_count": 4, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3966, "doi": "10.1117/12.2581044", "umap_coordinates": { "x": 395.5002746582031, "y": 132.6580352783203, "z": 205.5519256591797 }, "tsne_coordinates": { "x": -3.6169073581695557, "y": 16.87153434753418, "z": -19.384490966796875 }, "pca_coordinates": { "x": -2.432375192642212, "y": 2.5944836139678955, "z": 3.656108856201172 }, "axis_scores": { "Quantum imaging": 0.7187220454216003, "Quantum Life Science Sensing": 0.6812056303024292, "Quantum sensing Detection": 0.699019193649292, "Quantum sensing Metrology": 0.6869287490844727, "Quantum sensing navigation": 0.664008617401123, "Quantum sensing Position": 0.669780433177948, "Quantum sensing Timing": 0.6759864687919617, "Quantum sensing": 0.6938652396202087, "Quantum control": 0.6383999586105347 } }, { "id": 3961, "title": "Entanglement persistency of multiphoton entangled states", "abstract": "We experimentally demonstrate the entanglement persistency when losing photons in three- and four-photon polarization-entangled states. The entanglement properties of the mixed states obtained from mu...", "citations": 27, "author_count": 7, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 3967, "doi": "10.1103/PhysRevLett.96.100502", "umap_coordinates": { "x": 395.4494934082031, "y": 136.1681365966797, "z": 207.88186645507812 }, "tsne_coordinates": { "x": -14.136128425598145, "y": -17.620954513549805, "z": 5.963578224182129 }, "pca_coordinates": { "x": 4.078068733215332, "y": 0.47783780097961426, "z": 1.3315434455871582 }, "axis_scores": { "Quantum imaging": 0.7060263752937317, "Quantum Life Science Sensing": 0.7149921655654907, "Quantum sensing Detection": 0.7132565975189209, "Quantum sensing Metrology": 0.6892903447151184, "Quantum sensing navigation": 0.6988455653190613, "Quantum sensing Position": 0.6989306211471558, "Quantum sensing Timing": 0.6933745741844177, "Quantum sensing": 0.7119380831718445, "Quantum control": 0.6795812249183655 } }, { "id": 3962, "title": "Direct photon production at low transverse momentum in proton-proton collisions at √s=2.76 and 8 TeV", "abstract": "Measurements of inclusive and direct photon production at midrapidity in pp collisions at root s = 2.76 and 8 TeV are presented by the ALICE experiment at the LHC. The results are reported in transver...", "citations": 25, "author_count": 1004, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3968, "doi": "10.1103/PhysRevC.99.024912", "umap_coordinates": { "x": 396.46044921875, "y": 134.54734802246094, "z": 207.68075561523438 }, "tsne_coordinates": { "x": -32.80329132080078, "y": 3.561039924621582, "z": -15.932271957397461 }, "pca_coordinates": { "x": 2.837480068206787, "y": -0.3279082775115967, "z": 2.4249813556671143 }, "axis_scores": { "Quantum imaging": 0.6860813498497009, "Quantum Life Science Sensing": 0.6906178593635559, "Quantum sensing Detection": 0.7033525705337524, "Quantum sensing Metrology": 0.6661587953567505, "Quantum sensing navigation": 0.6816949248313904, "Quantum sensing Position": 0.6884196996688843, "Quantum sensing Timing": 0.6930770874023438, "Quantum sensing": 0.6967806220054626, "Quantum control": 0.6538429260253906 } }, { "id": 3963, "title": "Organotypic cell cultures and two-photon imaging: Tools for in vitro and in vivo assessment of percutaneous drug delivery and skin toxicity", "abstract": "The outermost protective layer of the skin, the stratum corneum, is responsible for skin impermeability toward external medications and potentially harmful chemicals. Stratum corneum is the target for...", "citations": 28, "author_count": 7, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 3969, "doi": "10.1016/j.jconrel.2012.03.005", "umap_coordinates": { "x": 394.2686767578125, "y": 133.89833068847656, "z": 204.45018005371094 }, "tsne_coordinates": { "x": 8.155686378479004, "y": 22.929943084716797, "z": -14.168597221374512 }, "pca_coordinates": { "x": -5.727528095245361, "y": 0.6435920000076294, "z": 0.7299150824546814 }, "axis_scores": { "Quantum imaging": 0.7263695001602173, "Quantum Life Science Sensing": 0.7245357036590576, "Quantum sensing Detection": 0.6952429413795471, "Quantum sensing Metrology": 0.6774947047233582, "Quantum sensing navigation": 0.6686006188392639, "Quantum sensing Position": 0.6609323620796204, "Quantum sensing Timing": 0.6612892150878906, "Quantum sensing": 0.7038127779960632, "Quantum control": 0.659976601600647 } }, { "id": 3964, "title": "Ligand-Binding Affinity Estimates Supported by Quantum-Mechanical Methods", "abstract": "One of the largest challenges of computational chemistry is calculation of accurate free energies for the binding of a small molecule to a biological macromolecule, which has immense implications in d...", "citations": 274, "author_count": 3, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3970, "doi": "10.1021/acs.chemrev.5b00630", "umap_coordinates": { "x": 393.718505859375, "y": 136.8251495361328, "z": 206.03591918945312 }, "tsne_coordinates": { "x": -4.339576721191406, "y": 9.808300018310547, "z": 17.404090881347656 }, "pca_coordinates": { "x": 0.6691510677337646, "y": 0.12273502349853516, "z": -2.1139347553253174 }, "axis_scores": { "Quantum imaging": 0.7195712327957153, "Quantum Life Science Sensing": 0.7362361550331116, "Quantum sensing Detection": 0.7169142365455627, "Quantum sensing Metrology": 0.7297600507736206, "Quantum sensing navigation": 0.7349981665611267, "Quantum sensing Position": 0.7229803800582886, "Quantum sensing Timing": 0.6701409220695496, "Quantum sensing": 0.7332000732421875, "Quantum control": 0.6983283758163452 } }, { "id": 3965, "title": "TRACE DETERMINATION OF ALIPHATIC-AMINES USING HIGH-PERFORMANCE LIQUID-CHROMATOGRAPHY WITH CHEMI-LUMINESCENCE EXCITATION AND PHOTON-COUNTING", "abstract": "", "citations": 66, "author_count": 3, "categories": [ "Chemistry" ], "year": 1984, "topic": [ "all" ], "embedding_index": 3971, "doi": "10.1016/S0021-9673(01)92775-X", "umap_coordinates": { "x": 393.8173522949219, "y": 135.0693817138672, "z": 204.69873046875 }, "tsne_coordinates": { "x": 18.801897048950195, "y": 15.928813934326172, "z": -21.788909912109375 }, "pca_coordinates": { "x": -3.4461357593536377, "y": 0.43762660026550293, "z": 1.8792951107025146 }, "axis_scores": { "Quantum imaging": 0.6821922063827515, "Quantum Life Science Sensing": 0.6805152893066406, "Quantum sensing Detection": 0.6823089122772217, "Quantum sensing Metrology": 0.6755691766738892, "Quantum sensing navigation": 0.6820381283760071, "Quantum sensing Position": 0.6707761287689209, "Quantum sensing Timing": 0.6690540313720703, "Quantum sensing": 0.6894773840904236, "Quantum control": 0.6483672261238098 } }, { "id": 3966, "title": "Physical characterization of a scanning photon counting digital mammography system based on Si-strip detectors", "abstract": "The physical performance of a scanning multislit full field digital mammography system was determined using basic image quality parameters. The system employs a direct detection detector comprised of ...", "citations": 87, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3972, "doi": "10.1118/1.2731032", "umap_coordinates": { "x": 395.22833251953125, "y": 132.52487182617188, "z": 205.9319305419922 }, "tsne_coordinates": { "x": -11.378436088562012, "y": 20.54691505432129, "z": -22.494441986083984 }, "pca_coordinates": { "x": -0.9488000869750977, "y": 0.06049156188964844, "z": 4.397776126861572 }, "axis_scores": { "Quantum imaging": 0.7414354085922241, "Quantum Life Science Sensing": 0.7437396049499512, "Quantum sensing Detection": 0.7514197826385498, "Quantum sensing Metrology": 0.7479220032691956, "Quantum sensing navigation": 0.711567223072052, "Quantum sensing Position": 0.7184471487998962, "Quantum sensing Timing": 0.7060707211494446, "Quantum sensing": 0.7533997297286987, "Quantum control": 0.6734111309051514 } }, { "id": 3967, "title": "Photodegradation of Organometal Hybrid Perovskite Nanocrystals: Clarifying the Role of Oxygen by Single-Dot Photoluminescence", "abstract": "Photostability has been a major issue for perovskite materials. Understanding the photodegradation mechanism and suppressing it are of central importance for applications. By investigating single-dot ...", "citations": 56, "author_count": 8, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3973, "doi": "10.1021/acs.jpclett.9b00143", "umap_coordinates": { "x": 391.9494934082031, "y": 134.1200714111328, "z": 206.26632690429688 }, "tsne_coordinates": { "x": 16.114669799804688, "y": -11.18681812286377, "z": -17.685903549194336 }, "pca_coordinates": { "x": -3.153931140899658, "y": -4.419963836669922, "z": -0.648576021194458 }, "axis_scores": { "Quantum imaging": 0.7036277651786804, "Quantum Life Science Sensing": 0.7104231119155884, "Quantum sensing Detection": 0.6894816160202026, "Quantum sensing Metrology": 0.6694987416267395, "Quantum sensing navigation": 0.6725592017173767, "Quantum sensing Position": 0.6631820797920227, "Quantum sensing Timing": 0.658142626285553, "Quantum sensing": 0.6957858204841614, "Quantum control": 0.6746484041213989 } }, { "id": 3968, "title": "Spectral properties of rotating electrons in quantum dots and their relation to quantum Hall liquids", "abstract": "The exact diagonalization technique is used to study many-particle properties of interacting electrons with spin, confined in a two-dimensional harmonic potential. The single-particle basis is limited...", "citations": 11, "author_count": 5, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 3974, "doi": "10.1088/0953-8984/19/7/076211", "umap_coordinates": { "x": 393.5191650390625, "y": 136.18223571777344, "z": 207.43472290039062 }, "tsne_coordinates": { "x": 20.26565933227539, "y": -14.582294464111328, "z": 20.150672912597656 }, "pca_coordinates": { "x": 1.6484813690185547, "y": 0.06515169143676758, "z": -1.3735299110412598 }, "axis_scores": { "Quantum imaging": 0.7366841435432434, "Quantum Life Science Sensing": 0.7392707467079163, "Quantum sensing Detection": 0.7170495986938477, "Quantum sensing Metrology": 0.7076331973075867, "Quantum sensing navigation": 0.7327322959899902, "Quantum sensing Position": 0.7130433320999146, "Quantum sensing Timing": 0.7101936936378479, "Quantum sensing": 0.7323168516159058, "Quantum control": 0.6900408267974854 } }, { "id": 3969, "title": "QUANTUM INTERFERENCE EFFECTS IN PERCOLATED METAL NETWORKS", "abstract": "Quantum corrections (QC) to the resistivity due to weak localization (WL) and electron-electron interaction (EEI) have been measured for percolated metal networks with precolation coherence length zet...", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 3975, "doi": "10.1016/0921-4526(94)90884-2", "umap_coordinates": { "x": 393.6011047363281, "y": 136.07894897460938, "z": 207.9058074951172 }, "tsne_coordinates": { "x": 9.439244270324707, "y": -18.455886840820312, "z": 16.623239517211914 }, "pca_coordinates": { "x": 2.132070302963257, "y": -0.43230199813842773, "z": -0.8326156735420227 }, "axis_scores": { "Quantum imaging": 0.7664815187454224, "Quantum Life Science Sensing": 0.7196580171585083, "Quantum sensing Detection": 0.737269937992096, "Quantum sensing Metrology": 0.7231737375259399, "Quantum sensing navigation": 0.751178503036499, "Quantum sensing Position": 0.7156062722206116, "Quantum sensing Timing": 0.6907185316085815, "Quantum sensing": 0.7489888668060303, "Quantum control": 0.720363199710846 } }, { "id": 3970, "title": "A compact 4 K cooling system for superconducting nanowire single photon detectors", "abstract": "Compact, low power, robust closed-cycle cooling platforms are a key requirement for emerging low temperature quantum technologies. We have repurposed a 4 K Stirling/Joule-Thomson cooler built for the ...", "citations": 5, "author_count": 13, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3976, "doi": "10.1088/1757-899X/502/1/012193", "umap_coordinates": { "x": 395.0818176269531, "y": 134.10415649414062, "z": 207.23753356933594 }, "tsne_coordinates": { "x": -18.400251388549805, "y": -0.628141462802887, "z": -29.378982543945312 }, "pca_coordinates": { "x": 1.056840181350708, "y": 0.20353150367736816, "z": 3.3983511924743652 }, "axis_scores": { "Quantum imaging": 0.6952757239341736, "Quantum Life Science Sensing": 0.6934309601783752, "Quantum sensing Detection": 0.697176456451416, "Quantum sensing Metrology": 0.684653639793396, "Quantum sensing navigation": 0.7047700881958008, "Quantum sensing Position": 0.6904423236846924, "Quantum sensing Timing": 0.6970118284225464, "Quantum sensing": 0.7014425992965698, "Quantum control": 0.6649738550186157 } }, { "id": 3971, "title": "Some remarks on (super)-conformal Killing-Yano tensors", "abstract": "A Killing-Yano tensor is an antisymmetric tensor obeying a first-order differential constraint similar to that obeyed by a Killing vector. In this article we consider generalisations of such objects, ...", "citations": 24, "author_count": 3, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3977, "doi": "10.1007/JHEP11(2018)049", "umap_coordinates": { "x": 395.0526123046875, "y": 137.30221557617188, "z": 206.7645263671875 }, "tsne_coordinates": { "x": -41.20977020263672, "y": 12.913777351379395, "z": 2.455204486846924 }, "pca_coordinates": { "x": 0.5114017724990845, "y": 3.045945405960083, "z": -1.8028781414031982 }, "axis_scores": { "Quantum imaging": 0.6595421433448792, "Quantum Life Science Sensing": 0.6336456537246704, "Quantum sensing Detection": 0.6116985082626343, "Quantum sensing Metrology": 0.6036074161529541, "Quantum sensing navigation": 0.6477386355400085, "Quantum sensing Position": 0.6241190433502197, "Quantum sensing Timing": 0.6384625434875488, "Quantum sensing": 0.6354316473007202, "Quantum control": 0.6365399360656738 } }, { "id": 3972, "title": "Quantum-matter photonic framework perspective of chemical processes: Entanglement shifts in HCN/CNH isomerization", "abstract": "A complete electro-nuclear (EN) basis set and quantum electrodynamics bases in photon number scheme combines to form photonic bases sets. The EN q-states can hence be modulated by appropriate external...", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3978, "doi": "10.1002/qua.24962", "umap_coordinates": { "x": 393.361083984375, "y": 137.2417755126953, "z": 205.79518127441406 }, "tsne_coordinates": { "x": -4.932581424713135, "y": 4.538234233856201, "z": 24.802013397216797 }, "pca_coordinates": { "x": 0.5458621978759766, "y": 1.4031356573104858, "z": -2.7856850624084473 }, "axis_scores": { "Quantum imaging": 0.7584789395332336, "Quantum Life Science Sensing": 0.7422986030578613, "Quantum sensing Detection": 0.7423247694969177, "Quantum sensing Metrology": 0.7241473197937012, "Quantum sensing navigation": 0.7600277662277222, "Quantum sensing Position": 0.7334218621253967, "Quantum sensing Timing": 0.7273877859115601, "Quantum sensing": 0.7617579102516174, "Quantum control": 0.7670526504516602 } }, { "id": 3973, "title": "Quantum degrees of polarization", "abstract": "We discuss different proposals for the degree of polarization of quantum fields. The simplest approach, namely making a direct analogy with the classical description via the Stokes operators, is known...", "citations": 72, "author_count": 8, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3979, "doi": "10.1016/j.optcom.2010.04.088", "umap_coordinates": { "x": 394.32659912109375, "y": 135.46078491210938, "z": 205.93946838378906 }, "tsne_coordinates": { "x": -17.001667022705078, "y": -2.2747609615325928, "z": -9.781630516052246 }, "pca_coordinates": { "x": -0.22528010606765747, "y": 0.8828586339950562, "z": 1.1377830505371094 }, "axis_scores": { "Quantum imaging": 0.8384369015693665, "Quantum Life Science Sensing": 0.8220227956771851, "Quantum sensing Detection": 0.8300033807754517, "Quantum sensing Metrology": 0.81512850522995, "Quantum sensing navigation": 0.8107786178588867, "Quantum sensing Position": 0.8050994873046875, "Quantum sensing Timing": 0.759773850440979, "Quantum sensing": 0.8439188003540039, "Quantum control": 0.7932661175727844 } }, { "id": 3974, "title": "Percolation of optical excitation mediated by near-field interactions", "abstract": "Optical excitation transfer in nanostructured matter has been intensively studied in various material systems for versatile applications. Herein, we theoretically and numerically discuss the percolati...", "citations": 2, "author_count": 11, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 3980, "doi": "10.1016/j.physa.2016.12.019", "umap_coordinates": { "x": 394.24969482421875, "y": 135.69615173339844, "z": 206.37290954589844 }, "tsne_coordinates": { "x": -20.397830963134766, "y": -7.6706013679504395, "z": 35.756221771240234 }, "pca_coordinates": { "x": 0.27556872367858887, "y": 0.21134591102600098, "z": 0.760275661945343 }, "axis_scores": { "Quantum imaging": 0.7512588500976562, "Quantum Life Science Sensing": 0.7390131950378418, "Quantum sensing Detection": 0.7525384426116943, "Quantum sensing Metrology": 0.7357358932495117, "Quantum sensing navigation": 0.7313257455825806, "Quantum sensing Position": 0.7075580358505249, "Quantum sensing Timing": 0.6862470507621765, "Quantum sensing": 0.7580296993255615, "Quantum control": 0.7064515948295593 } }, { "id": 3975, "title": "Simulation of electronic structure of nanomaterials by central insertion scheme", "abstract": "An effective central insertion scheme (CIS) that allows to study the electronic structure of nanomaterials at the first principles level is introduced. Taking advantage of advanced numerical methods, ...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 3981, "doi": "10.1007/s11467-009-0025-7", "umap_coordinates": { "x": 393.2603759765625, "y": 135.1121063232422, "z": 206.78810119628906 }, "tsne_coordinates": { "x": 12.874385833740234, "y": -27.372323989868164, "z": 3.4075427055358887 }, "pca_coordinates": { "x": -0.624263346195221, "y": -0.466355562210083, "z": -0.36773523688316345 }, "axis_scores": { "Quantum imaging": 0.7202010750770569, "Quantum Life Science Sensing": 0.7381371259689331, "Quantum sensing Detection": 0.7177171111106873, "Quantum sensing Metrology": 0.7175468802452087, "Quantum sensing navigation": 0.7272671461105347, "Quantum sensing Position": 0.7264558672904968, "Quantum sensing Timing": 0.6842540502548218, "Quantum sensing": 0.7197055220603943, "Quantum control": 0.6931207180023193 } }, { "id": 3976, "title": "Entanglement dualities in supersymmetry", "abstract": "We derive a general relation between the bosonic and fermionic entanglement in the ground states of supersymmetric quadratic Hamiltonians. For this, we construct canonical identifications between boso...", "citations": 12, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3982, "doi": "10.1103/PhysRevResearch.3.023213", "umap_coordinates": { "x": 395.1186828613281, "y": 136.366455078125, "z": 208.53231811523438 }, "tsne_coordinates": { "x": -14.719303131103516, "y": -12.728574752807617, "z": 6.711457252502441 }, "pca_coordinates": { "x": 4.853752136230469, "y": 0.7142717838287354, "z": -0.19981995224952698 }, "axis_scores": { "Quantum imaging": 0.7351610064506531, "Quantum Life Science Sensing": 0.7223159670829773, "Quantum sensing Detection": 0.719904899597168, "Quantum sensing Metrology": 0.698685884475708, "Quantum sensing navigation": 0.7351513504981995, "Quantum sensing Position": 0.6909230351448059, "Quantum sensing Timing": 0.6789779663085938, "Quantum sensing": 0.7243596315383911, "Quantum control": 0.7073915600776672 } }, { "id": 3977, "title": "New Scandium-containing Coordination Polymers with Linear Linker Molecules: Crystal Structures and Luminescence Properties", "abstract": "Two new scandium-containing coordination polymers, with the formulae {(CH3)(2)NH2}[Sc(BPDC)(2)] (1) and [Sc(OH) (BPyDC)] (2) were solvothermally synthesized by using the linear linker molecules biphen...", "citations": 10, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 3983, "doi": "10.1002/ejic.202000231", "umap_coordinates": { "x": 392.5135498046875, "y": 135.07618713378906, "z": 204.54611206054688 }, "tsne_coordinates": { "x": 15.37168025970459, "y": 12.069355964660645, "z": -20.97353744506836 }, "pca_coordinates": { "x": -3.0344300270080566, "y": 0.004666805267333984, "z": -1.3167979717254639 }, "axis_scores": { "Quantum imaging": 0.6944314241409302, "Quantum Life Science Sensing": 0.7063770294189453, "Quantum sensing Detection": 0.6633156538009644, "Quantum sensing Metrology": 0.6512916684150696, "Quantum sensing navigation": 0.6821705102920532, "Quantum sensing Position": 0.6519543528556824, "Quantum sensing Timing": 0.6593917608261108, "Quantum sensing": 0.6764923334121704, "Quantum control": 0.6616201400756836 } }, { "id": 3978, "title": "Spin rotation for ballistic electron transmission induced by spin-orbit interaction - art. no. 075331", "abstract": "We study spin-dependent electron transmission through one- and two-dimensional curved waveguides and quantum dots with account of spin-orbit interaction. We prove that for a transmission through an ar...", "citations": 60, "author_count": 3, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 3984, "doi": "10.1103/PhysRevB.66.075331", "umap_coordinates": { "x": 394.0116271972656, "y": 135.79872131347656, "z": 209.18780517578125 }, "tsne_coordinates": { "x": 7.058781147003174, "y": -34.598731994628906, "z": 6.800075531005859 }, "pca_coordinates": { "x": 4.401828289031982, "y": -0.3611268997192383, "z": -0.5183046460151672 }, "axis_scores": { "Quantum imaging": 0.6887747645378113, "Quantum Life Science Sensing": 0.6965402960777283, "Quantum sensing Detection": 0.6817824840545654, "Quantum sensing Metrology": 0.6832001805305481, "Quantum sensing navigation": 0.7010815143585205, "Quantum sensing Position": 0.6611927151679993, "Quantum sensing Timing": 0.6495164632797241, "Quantum sensing": 0.6898044943809509, "Quantum control": 0.6841961741447449 } }, { "id": 3979, "title": "Synthesis, characterization and optical power limiting behaviour of phenylazo- and 4-nitrophenylazo-tetrahydroxytetrathiacalix[4]arene", "abstract": "p-Tetrakis(4-nitrophenylazo) tetrahydroxytetrathiacalix[4] arene and p-tetrakis(phenylazo) tetrahydroxytetrathiacalix[4] arene were prepared and fully characterized using H-1 and C-13 NMR, mass spectr...", "citations": 35, "author_count": 11, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 3985, "doi": "10.1039/b105034f", "umap_coordinates": { "x": 392.5035095214844, "y": 135.84019470214844, "z": 205.11630249023438 }, "tsne_coordinates": { "x": -0.5041843056678772, "y": 1.8493568897247314, "z": -12.432640075683594 }, "pca_coordinates": { "x": -1.7922780513763428, "y": -0.41020870208740234, "z": 0.08368414640426636 }, "axis_scores": { "Quantum imaging": 0.7205272912979126, "Quantum Life Science Sensing": 0.7090351581573486, "Quantum sensing Detection": 0.6909223794937134, "Quantum sensing Metrology": 0.6744163632392883, "Quantum sensing navigation": 0.6842287182807922, "Quantum sensing Position": 0.6892676949501038, "Quantum sensing Timing": 0.6921563148498535, "Quantum sensing": 0.7064085006713867, "Quantum control": 0.7054774165153503 } }, { "id": 3980, "title": "Photon upconversion utilizing energy beyond the band gap of crystalline silicon with a hybrid TES-ADT/PbS quantum dots system", "abstract": "The recent introduction of inorganic semiconductor quantum dots (QDs) as triplet sensitizers for molecular semiconductors has led to significant interest in harvesting low energy photons, which can th...", "citations": 75, "author_count": 7, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3986, "doi": "10.1039/c9sc00821g", "umap_coordinates": { "x": 392.2272033691406, "y": 134.65606689453125, "z": 205.74583435058594 }, "tsne_coordinates": { "x": 8.421489715576172, "y": -2.9017598628997803, "z": -12.419300079345703 }, "pca_coordinates": { "x": -1.7780218124389648, "y": -3.3298797607421875, "z": 1.9411344528198242 }, "axis_scores": { "Quantum imaging": 0.6936419010162354, "Quantum Life Science Sensing": 0.7095150351524353, "Quantum sensing Detection": 0.6840059757232666, "Quantum sensing Metrology": 0.6790974736213684, "Quantum sensing navigation": 0.6612935662269592, "Quantum sensing Position": 0.6573976278305054, "Quantum sensing Timing": 0.6664234399795532, "Quantum sensing": 0.6910549402236938, "Quantum control": 0.6466768980026245 } }, { "id": 3981, "title": "One- and Two-Photon Absorption of a Spiropyran-Merocyanine System: Experimental and Theoretical Studies", "abstract": "We report on the nonlinear optical properties measurements and quantum-chemical calculations of a well-known photochromic system consisting of spiropyran and the merocyanine photoproduct. The study of...", "citations": 32, "author_count": 13, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 3987, "doi": "10.1021/jp5071715", "umap_coordinates": { "x": 392.68267822265625, "y": 135.9535369873047, "z": 205.74615478515625 }, "tsne_coordinates": { "x": 5.799325942993164, "y": 4.970808982849121, "z": -0.32883819937705994 }, "pca_coordinates": { "x": -2.2322564125061035, "y": -1.1276493072509766, "z": 0.2206990122795105 }, "axis_scores": { "Quantum imaging": 0.7263312339782715, "Quantum Life Science Sensing": 0.7455732822418213, "Quantum sensing Detection": 0.726799488067627, "Quantum sensing Metrology": 0.7223584651947021, "Quantum sensing navigation": 0.6831884980201721, "Quantum sensing Position": 0.6804358959197998, "Quantum sensing Timing": 0.6697240471839905, "Quantum sensing": 0.732416033744812, "Quantum control": 0.6761949062347412 } }, { "id": 3982, "title": "SOLVENT AND TEMPERATURE EFFECTS ON DUAL FLUORESCENCE IN A SERIES OF CAROTENES - ENERGY-GAP DEPENDENCE OF THE INTERNAL-CONVERSION RATE", "abstract": "Solvent and temperature effects on the dipole-allowed S-2 --> S-0 and the symmetry-forbidden Si --> S-0 transitions of all-trans-carotenes, with 5 (m-5), 7 (m-7), 8 (m-8), 9 (m-9), 11 (all-trans-beta-...", "citations": 143, "author_count": 5, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 3988, "doi": "10.1021/j100044a002", "umap_coordinates": { "x": 392.2115478515625, "y": 135.86334228515625, "z": 205.9344940185547 }, "tsne_coordinates": { "x": -1.0541359186172485, "y": -7.021108150482178, "z": -11.712381362915039 }, "pca_coordinates": { "x": -2.347848653793335, "y": -1.307840347290039, "z": -1.480248212814331 }, "axis_scores": { "Quantum imaging": 0.671235978603363, "Quantum Life Science Sensing": 0.6927213668823242, "Quantum sensing Detection": 0.6502054929733276, "Quantum sensing Metrology": 0.6325395703315735, "Quantum sensing navigation": 0.6317593455314636, "Quantum sensing Position": 0.6167376637458801, "Quantum sensing Timing": 0.6544269919395447, "Quantum sensing": 0.6585636138916016, "Quantum control": 0.6323933005332947 } }, { "id": 3983, "title": "Laboratory x-ray nano-computed tomography for biomedical research", "abstract": "High-resolution x-ray tomography is a common technique for biomedical research using synchrotron sources. With advancements in laboratory x-ray sources, an increasing number of experiments can be perf...", "citations": 2, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2024, "topic": [ "all" ], "embedding_index": 3989, "doi": "10.1088/1748-0221/19/10/P10021", "umap_coordinates": { "x": 395.4920349121094, "y": 133.861572265625, "z": 205.27110290527344 }, "tsne_coordinates": { "x": 3.888345718383789, "y": 21.45041847229004, "z": -25.71534538269043 }, "pca_coordinates": { "x": -2.4030919075012207, "y": 3.3697264194488525, "z": 1.2765288352966309 }, "axis_scores": { "Quantum imaging": 0.7174044847488403, "Quantum Life Science Sensing": 0.7298624515533447, "Quantum sensing Detection": 0.6862064599990845, "Quantum sensing Metrology": 0.6771960258483887, "Quantum sensing navigation": 0.6872092485427856, "Quantum sensing Position": 0.6881269812583923, "Quantum sensing Timing": 0.6775923371315002, "Quantum sensing": 0.7050434350967407, "Quantum control": 0.678406298160553 } }, { "id": 3984, "title": "Count rate performance of a silicon-strip detector for photon-counting spectral CT", "abstract": "A silicon-strip detector is developed for spectral computed tomography. The detector operates in photon counting mode and allows pulse-height discrimination with 8 adjustable energy bins. In this work...", "citations": 41, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3990, "doi": "10.1016/j.nima.2016.04.087", "umap_coordinates": { "x": 394.9433898925781, "y": 132.70411682128906, "z": 205.45664978027344 }, "tsne_coordinates": { "x": -14.128032684326172, "y": 18.45709800720215, "z": -14.341132164001465 }, "pca_coordinates": { "x": -3.763826847076416, "y": 0.6565217971801758, "z": 4.193627834320068 }, "axis_scores": { "Quantum imaging": 0.7047635316848755, "Quantum Life Science Sensing": 0.6994186043739319, "Quantum sensing Detection": 0.6963557004928589, "Quantum sensing Metrology": 0.6890830993652344, "Quantum sensing navigation": 0.6708700656890869, "Quantum sensing Position": 0.6698967218399048, "Quantum sensing Timing": 0.6881353855133057, "Quantum sensing": 0.6903359293937683, "Quantum control": 0.6316788196563721 } }, { "id": 3985, "title": "Rotating Binary Bose-Einstein Condensates and Vortex Clusters in Quantum Droplets", "abstract": "Quantum droplets may form out of a gaseous Bose-Einstein condensate, stabilized by quantum fluctuations beyond mean field. Determining the ground state of a rotating binary condensate, we show that mu...", "citations": 91, "author_count": 5, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 3991, "doi": "10.1103/PhysRevLett.123.160405", "umap_coordinates": { "x": 394.6234130859375, "y": 136.7052459716797, "z": 208.92784118652344 }, "tsne_coordinates": { "x": -11.406723976135254, "y": -18.803653717041016, "z": 23.786754608154297 }, "pca_coordinates": { "x": 5.053221225738525, "y": -0.772484540939331, "z": -2.2691597938537598 }, "axis_scores": { "Quantum imaging": 0.6936976313591003, "Quantum Life Science Sensing": 0.7053573727607727, "Quantum sensing Detection": 0.7024531960487366, "Quantum sensing Metrology": 0.6749712824821472, "Quantum sensing navigation": 0.6861756443977356, "Quantum sensing Position": 0.6828168630599976, "Quantum sensing Timing": 0.6933107972145081, "Quantum sensing": 0.6999810934066772, "Quantum control": 0.7046548128128052 } }, { "id": 3986, "title": "A Room Temperature Single Photon Source in Silicon Carbide", "abstract": "We report the first observation of stable single photon sources in an electronic and photonic device-friendly material, silicon carbide (SiC). SiC is a viable material for implementing quantum communi...", "citations": 1, "author_count": 8, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 3992, "doi": null, "umap_coordinates": { "x": 391.54742431640625, "y": 139.19354248046875, "z": 209.51869201660156 }, "tsne_coordinates": { "x": -3.6935806274414062, "y": 40.388729095458984, "z": -10.581254959106445 }, "pca_coordinates": { "x": -1.8599517345428467, "y": 0.867889404296875, "z": 1.8258819580078125 }, "axis_scores": { "Quantum imaging": 0.7164905667304993, "Quantum Life Science Sensing": 0.7314704656600952, "Quantum sensing Detection": 0.7218379974365234, "Quantum sensing Metrology": 0.7053872346878052, "Quantum sensing navigation": 0.6986484527587891, "Quantum sensing Position": 0.688921332359314, "Quantum sensing Timing": 0.699653148651123, "Quantum sensing": 0.7207719683647156, "Quantum control": 0.6904970407485962 } }, { "id": 3987, "title": "Metal halide perovskites for light-emitting diodes", "abstract": "The development of perovskite emitters, their use in light-emitting devices, and the challenges in enhancing the efficiency and stability, as well as reducing the potential toxicity of this technology...", "citations": 1354, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 3993, "doi": "10.1038/s41563-020-0784-7", "umap_coordinates": { "x": 391.867919921875, "y": 133.9105682373047, "z": 205.6207733154297 }, "tsne_coordinates": { "x": 17.960264205932617, "y": -3.715416193008423, "z": -23.4105224609375 }, "pca_coordinates": { "x": -3.5744266510009766, "y": -2.7874550819396973, "z": -0.45670264959335327 }, "axis_scores": { "Quantum imaging": 0.6835350394248962, "Quantum Life Science Sensing": 0.701708197593689, "Quantum sensing Detection": 0.6655837297439575, "Quantum sensing Metrology": 0.6652891635894775, "Quantum sensing navigation": 0.6554600596427917, "Quantum sensing Position": 0.6545539498329163, "Quantum sensing Timing": 0.643020749092102, "Quantum sensing": 0.6796280145645142, "Quantum control": 0.6484383940696716 } }, { "id": 3988, "title": "Tuning the morphology of self-assisted GaP nanowires", "abstract": "Patterned arrays of self-assisted GaP nanowires (NWs) were grown on a Si substrate by gas source molecular beam epitaxy using various V/III flux ratios from 1-6, and various pitches from 360-1000 nm. ...", "citations": 18, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 3994, "doi": "10.1088/1361-6528/aab47b", "umap_coordinates": { "x": 392.8943176269531, "y": 134.0538330078125, "z": 207.17422485351562 }, "tsne_coordinates": { "x": 6.359249114990234, "y": -24.656436920166016, "z": -26.384363174438477 }, "pca_coordinates": { "x": -0.725364089012146, "y": -2.8088064193725586, "z": 1.6437122821807861 }, "axis_scores": { "Quantum imaging": 0.6809026598930359, "Quantum Life Science Sensing": 0.6941843628883362, "Quantum sensing Detection": 0.6796313524246216, "Quantum sensing Metrology": 0.6903210878372192, "Quantum sensing navigation": 0.7031202912330627, "Quantum sensing Position": 0.6610749959945679, "Quantum sensing Timing": 0.6572641730308533, "Quantum sensing": 0.7010819315910339, "Quantum control": 0.6870043277740479 } }, { "id": 3989, "title": "Direct Measure of Strain and Electronic Structure in GaAs/GaP Core-Shell Nanowires", "abstract": "Highly strained GaAs/GaP nanowires of excellent optical quality were grown with 50 nm diameter GaAs cores and 25 nm GaP shells. Photoluminescence from these nanowires is observed at energies dramatica...", "citations": 108, "author_count": 14, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 3995, "doi": "10.1021/nl903547r", "umap_coordinates": { "x": 392.3330993652344, "y": 133.86680603027344, "z": 207.6767120361328 }, "tsne_coordinates": { "x": 13.118658065795898, "y": -22.182655334472656, "z": -9.288920402526855 }, "pca_coordinates": { "x": -0.8540182113647461, "y": -3.2790560722351074, "z": 1.4606914520263672 }, "axis_scores": { "Quantum imaging": 0.6975484490394592, "Quantum Life Science Sensing": 0.7312932014465332, "Quantum sensing Detection": 0.7098192572593689, "Quantum sensing Metrology": 0.710009753704071, "Quantum sensing navigation": 0.7047236561775208, "Quantum sensing Position": 0.7151287794113159, "Quantum sensing Timing": 0.6695543527603149, "Quantum sensing": 0.7187680006027222, "Quantum control": 0.6735513806343079 } }, { "id": 3990, "title": "Ordering effect of Coulomb interaction in ballistic double-ring systems", "abstract": "We study a model of two concentric onedimensional rings with incommensurate areas A(1) and A(2), in a constant magnetic field. The two rings are coupled by an nonhomogeneous inter-ring tunneling ampli...", "citations": 4, "author_count": 6, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 3996, "doi": "10.1016/S0038-1098(97)00310-4", "umap_coordinates": { "x": 393.6584167480469, "y": 136.74270629882812, "z": 207.7477264404297 }, "tsne_coordinates": { "x": -8.185896873474121, "y": -42.798465728759766, "z": -3.8543832302093506 }, "pca_coordinates": { "x": 1.785308837890625, "y": 0.7644009590148926, "z": -3.0510826110839844 }, "axis_scores": { "Quantum imaging": 0.7036252617835999, "Quantum Life Science Sensing": 0.7052146196365356, "Quantum sensing Detection": 0.699079692363739, "Quantum sensing Metrology": 0.6763380765914917, "Quantum sensing navigation": 0.7054566740989685, "Quantum sensing Position": 0.7030065655708313, "Quantum sensing Timing": 0.6913145184516907, "Quantum sensing": 0.7017568349838257, "Quantum control": 0.686795711517334 } }, { "id": 3991, "title": "A single probe for imaging photons, electrons and physical forces", "abstract": "The combination of complementary measurement techniques has become a frequent approach to improve scientific knowledge. Pairing of the high lateral resolution scanning force microscopy (SFM) with the ...", "citations": 2, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 3997, "doi": "10.1088/0957-4484/27/23/235705", "umap_coordinates": { "x": 394.8476867675781, "y": 133.64306640625, "z": 207.73635864257812 }, "tsne_coordinates": { "x": -11.923114776611328, "y": -6.489795207977295, "z": -26.58262062072754 }, "pca_coordinates": { "x": -0.47588884830474854, "y": 1.129995584487915, "z": 4.000385761260986 }, "axis_scores": { "Quantum imaging": 0.7554479837417603, "Quantum Life Science Sensing": 0.7405157685279846, "Quantum sensing Detection": 0.7407646179199219, "Quantum sensing Metrology": 0.7323855757713318, "Quantum sensing navigation": 0.7293187975883484, "Quantum sensing Position": 0.7091645002365112, "Quantum sensing Timing": 0.699502170085907, "Quantum sensing": 0.742721676826477, "Quantum control": 0.688149631023407 } }, { "id": 3992, "title": "Photon-counting detector CT in musculoskeletal imaging: benefits and outlook", "abstract": "Photon-counting detector CT (PCD-CT) represents a significant advancement in medical imaging, particularly for musculoskeletal (MSK) applications. Its primary innovation lies in enhanced spatial resol...", "citations": 2, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2025, "topic": [ "all" ], "embedding_index": 3998, "doi": "10.1093/bjr/tqaf124", "umap_coordinates": { "x": 395.4414367675781, "y": 133.17262268066406, "z": 204.7449493408203 }, "tsne_coordinates": { "x": -3.5387346744537354, "y": 26.926006317138672, "z": -13.59644603729248 }, "pca_coordinates": { "x": -2.4944753646850586, "y": 3.3319921493530273, "z": 1.100813627243042 }, "axis_scores": { "Quantum imaging": 0.7251386642456055, "Quantum Life Science Sensing": 0.6970946788787842, "Quantum sensing Detection": 0.689413845539093, "Quantum sensing Metrology": 0.6709108948707581, "Quantum sensing navigation": 0.6867583394050598, "Quantum sensing Position": 0.6900267601013184, "Quantum sensing Timing": 0.699612021446228, "Quantum sensing": 0.6902514696121216, "Quantum control": 0.6618709564208984 } }, { "id": 3993, "title": "The single Cooper-pair box as a charge qubit - art. no. 180", "abstract": "We present a series of measurements on nine single Cooper-pair boxes (SCBs), where the charging energy, E-C, and the Josephson coupling energy, E-J, have been varied. We have investigated both the gro...", "citations": 37, "author_count": 5, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 3999, "doi": "10.1088/1367-2630/7/1/180", "umap_coordinates": { "x": 394.72662353515625, "y": 134.32826232910156, "z": 208.16624450683594 }, "tsne_coordinates": { "x": -0.5965198278427124, "y": -31.752708435058594, "z": -18.77608299255371 }, "pca_coordinates": { "x": 1.3634324073791504, "y": 0.40024495124816895, "z": 1.4662692546844482 }, "axis_scores": { "Quantum imaging": 0.7084683179855347, "Quantum Life Science Sensing": 0.7301778793334961, "Quantum sensing Detection": 0.7172370553016663, "Quantum sensing Metrology": 0.7140588164329529, "Quantum sensing navigation": 0.718830943107605, "Quantum sensing Position": 0.7106427550315857, "Quantum sensing Timing": 0.7080368399620056, "Quantum sensing": 0.7285966277122498, "Quantum control": 0.7137852311134338 } }, { "id": 3994, "title": "Quantitative uptake of colloidal particles by cell cultures", "abstract": "The use of nanotechnologies involving nano-and microparticles has increased tremendously in the recent past. There are various beneficial characteristics that make particles attractive for a wide rang...", "citations": 37, "author_count": 18, "categories": [ "Environmental Sciences & Ecology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4000, "doi": "10.1016/j.scitotenv.2016.05.213", "umap_coordinates": { "x": 393.76104736328125, "y": 134.75233459472656, "z": 204.35340881347656 }, "tsne_coordinates": { "x": 20.693620681762695, "y": 22.154796600341797, "z": 4.164619445800781 }, "pca_coordinates": { "x": -5.685602188110352, "y": 0.3274707794189453, "z": -2.110731601715088 }, "axis_scores": { "Quantum imaging": 0.7007317543029785, "Quantum Life Science Sensing": 0.7433446049690247, "Quantum sensing Detection": 0.6879273056983948, "Quantum sensing Metrology": 0.6831380128860474, "Quantum sensing navigation": 0.6829872131347656, "Quantum sensing Position": 0.672785222530365, "Quantum sensing Timing": 0.6408060789108276, "Quantum sensing": 0.701248049736023, "Quantum control": 0.6766179203987122 } }, { "id": 3995, "title": "Spectral continuum in the Rabi-Stark model [Invited]", "abstract": "The Rabi-Stark model is a nonlinear generalization of the quantum Rabi model including the dynamical Stark shift as a tunable term, which can be realized via quantum simulation on a cavity QED platfor...", "citations": 7, "author_count": 6, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4001, "doi": "10.1364/JOSAB.524014", "umap_coordinates": { "x": 394.1187438964844, "y": 137.1359405517578, "z": 207.26397705078125 }, "tsne_coordinates": { "x": -39.96137237548828, "y": -8.63893985748291, "z": 3.846096992492676 }, "pca_coordinates": { "x": 2.1086084842681885, "y": 0.9142529964447021, "z": -1.8512327671051025 }, "axis_scores": { "Quantum imaging": 0.7042738795280457, "Quantum Life Science Sensing": 0.687148928642273, "Quantum sensing Detection": 0.6869015097618103, "Quantum sensing Metrology": 0.6934221386909485, "Quantum sensing navigation": 0.6946116089820862, "Quantum sensing Position": 0.6638177633285522, "Quantum sensing Timing": 0.671614408493042, "Quantum sensing": 0.7062004208564758, "Quantum control": 0.6949979066848755 } }, { "id": 3996, "title": "Visual Detection of DNA on Paper Chips", "abstract": "On-site DNA analysis for diagnostic or forensic purposes is much anticipated in the future of molecular testing. Yet the challenges to achieve this goal remain large with rapid and inexpensive detecti...", "citations": 54, "author_count": 7, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4002, "doi": "10.1021/ac403196b", "umap_coordinates": { "x": 392.5564880371094, "y": 135.76390075683594, "z": 204.59170532226562 }, "tsne_coordinates": { "x": 13.193371772766113, "y": 14.26006031036377, "z": 5.871362686157227 }, "pca_coordinates": { "x": -2.4252538681030273, "y": -0.831479549407959, "z": -0.6964365243911743 }, "axis_scores": { "Quantum imaging": 0.7042568325996399, "Quantum Life Science Sensing": 0.7362632155418396, "Quantum sensing Detection": 0.7323436737060547, "Quantum sensing Metrology": 0.6902348399162292, "Quantum sensing navigation": 0.695033848285675, "Quantum sensing Position": 0.6960681080818176, "Quantum sensing Timing": 0.672244668006897, "Quantum sensing": 0.7281254529953003, "Quantum control": 0.7029932737350464 } }, { "id": 3997, "title": "Quantum theory of excess noise", "abstract": "We analyze the excess noise in the framework of the conventional quantum theory of laserlike systems. Our calculation is conceptually simple and our result also shows a correction to the semiclassical...", "citations": 18, "author_count": 3, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4003, "doi": "10.1103/PhysRevA.60.2529", "umap_coordinates": { "x": 395.09747314453125, "y": 135.5950164794922, "z": 208.52084350585938 }, "tsne_coordinates": { "x": -15.857898712158203, "y": -37.489173889160156, "z": 3.3419785499572754 }, "pca_coordinates": { "x": 4.432562351226807, "y": 0.3953723907470703, "z": 1.1911375522613525 }, "axis_scores": { "Quantum imaging": 0.7544862031936646, "Quantum Life Science Sensing": 0.7558537721633911, "Quantum sensing Detection": 0.7843436598777771, "Quantum sensing Metrology": 0.7543145418167114, "Quantum sensing navigation": 0.7786855101585388, "Quantum sensing Position": 0.7449650764465332, "Quantum sensing Timing": 0.7522533535957336, "Quantum sensing": 0.7840859293937683, "Quantum control": 0.7539232969284058 } }, { "id": 3998, "title": "Modeling of the magnetic free energy of self-diffusion in bcc Fe", "abstract": "A first-principles based approach to calculating self-diffusion rates in bcc Fe is discussed with particular focus on the magnetic free energy associated with diffusion activation. First, the enthalpi...", "citations": 26, "author_count": 6, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4004, "doi": "10.1103/PhysRevB.92.184102", "umap_coordinates": { "x": 393.18804931640625, "y": 136.5473175048828, "z": 209.00750732421875 }, "tsne_coordinates": { "x": -3.8654229640960693, "y": -34.95654296875, "z": 26.40652084350586 }, "pca_coordinates": { "x": 2.8294005393981934, "y": -0.43242621421813965, "z": -2.551696538925171 }, "axis_scores": { "Quantum imaging": 0.7002440094947815, "Quantum Life Science Sensing": 0.7127991318702698, "Quantum sensing Detection": 0.6877424716949463, "Quantum sensing Metrology": 0.687762975692749, "Quantum sensing navigation": 0.7082017660140991, "Quantum sensing Position": 0.6760210990905762, "Quantum sensing Timing": 0.6593637466430664, "Quantum sensing": 0.6954395174980164, "Quantum control": 0.6791908144950867 } }, { "id": 3999, "title": "Sensing and actuating photonic devices in magnetofluidic, microstructured optical fiber Bragg gratings", "abstract": "We have recently introduced a new approach in the utilisation and actuation of liquid matrices inside microstructured optical fibers, by infiltrating in their capillaries magnetically active fluids, n...", "citations": 2, "author_count": 7, "categories": [ "Remote Sensing" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4005, "doi": "10.1117/12.891891", "umap_coordinates": { "x": 394.0708312988281, "y": 133.51036071777344, "z": 206.5749053955078 }, "tsne_coordinates": { "x": -2.2740345001220703, "y": 6.4265923500061035, "z": -29.582422256469727 }, "pca_coordinates": { "x": -0.6828314065933228, "y": -0.9345703125, "z": 1.6525349617004395 }, "axis_scores": { "Quantum imaging": 0.7289819717407227, "Quantum Life Science Sensing": 0.7218997478485107, "Quantum sensing Detection": 0.7330076694488525, "Quantum sensing Metrology": 0.7638209462165833, "Quantum sensing navigation": 0.7368664741516113, "Quantum sensing Position": 0.7177959680557251, "Quantum sensing Timing": 0.6949445605278015, "Quantum sensing": 0.7508214116096497, "Quantum control": 0.7071085572242737 } }, { "id": 4000, "title": "Novel photoswitchable receptors: Synthesis and cation-induced self-assembly into dimeric complexes leading to stereospecific [2+2]-photocycloaddition of styryl dyes containing a 15-crown-5 ether unit", "abstract": "Styryl dyes 4a-e containing a 15-crown-5 ether unit and a quinoline residue with a sulfonatoalkyl or sulfonatobenzyl N-substituent were synthesized. The relationship between the photochemical behavior...", "citations": 48, "author_count": 12, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4006, "doi": "10.1021/jo034460x", "umap_coordinates": { "x": 392.1910095214844, "y": 135.8061981201172, "z": 204.54833984375 }, "tsne_coordinates": { "x": 3.967574119567871, "y": 10.69969654083252, "z": -13.810945510864258 }, "pca_coordinates": { "x": -2.7594335079193115, "y": -1.2110533714294434, "z": -1.4904370307922363 }, "axis_scores": { "Quantum imaging": 0.6621108055114746, "Quantum Life Science Sensing": 0.7013368606567383, "Quantum sensing Detection": 0.6827744245529175, "Quantum sensing Metrology": 0.6659947633743286, "Quantum sensing navigation": 0.6597416996955872, "Quantum sensing Position": 0.6389490962028503, "Quantum sensing Timing": 0.65023273229599, "Quantum sensing": 0.6889594793319702, "Quantum control": 0.6485139727592468 } }, { "id": 4001, "title": "Triplet-triplet annihilation mediated photon upconversion solar energy systems", "abstract": "Solar energy harvesting is among the best solutions for a global transition toward carbon-neutral energy technologies. The existing solar energy harvesting technologies like photovoltaics (PV) and eme...", "citations": 58, "author_count": 4, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4007, "doi": "10.1039/d3qm00069a", "umap_coordinates": { "x": 392.7442321777344, "y": 135.2233123779297, "z": 206.1693878173828 }, "tsne_coordinates": { "x": 7.273843288421631, "y": -0.5640379786491394, "z": -14.629382133483887 }, "pca_coordinates": { "x": -0.4151231050491333, "y": -1.1117768287658691, "z": 0.07488113641738892 }, "axis_scores": { "Quantum imaging": 0.7282246351242065, "Quantum Life Science Sensing": 0.7512609958648682, "Quantum sensing Detection": 0.7401561737060547, "Quantum sensing Metrology": 0.7218962907791138, "Quantum sensing navigation": 0.7012221217155457, "Quantum sensing Position": 0.6663253903388977, "Quantum sensing Timing": 0.681167483329773, "Quantum sensing": 0.733352780342102, "Quantum control": 0.7043685913085938 } }, { "id": 4002, "title": "Nanomechanics driven by the superconducting proximity effect", "abstract": "We consider a nanoelectromechanical weak link composed of a carbon nanotube suspended above a trench in a normal metal electrode and positioned in a gap between two superconducting leads. The nanotube...", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4008, "doi": "10.1088/1367-2630/ac5758", "umap_coordinates": { "x": 394.0625915527344, "y": 135.4553985595703, "z": 207.74667358398438 }, "tsne_coordinates": { "x": 10.346359252929688, "y": -35.198020935058594, "z": 10.159436225891113 }, "pca_coordinates": { "x": 1.58052396774292, "y": 0.7845957279205322, "z": 0.062163710594177246 }, "axis_scores": { "Quantum imaging": 0.7063038349151611, "Quantum Life Science Sensing": 0.7310234308242798, "Quantum sensing Detection": 0.7120271921157837, "Quantum sensing Metrology": 0.7117666602134705, "Quantum sensing navigation": 0.7324621081352234, "Quantum sensing Position": 0.7096202969551086, "Quantum sensing Timing": 0.7107006311416626, "Quantum sensing": 0.7336099743843079, "Quantum control": 0.7274285554885864 } }, { "id": 4003, "title": "Magnetic properties of Ruddlesden-Popper phases Sr3-xYx(Fe1.25Ni0.75)O7-δ: A combined experimental and theoretical investigation", "abstract": "We present a comprehensive study of the magnetic properties of Sr3-xYx(Fe1.25Ni0.75)O7-delta (0 <= x <= 0.75). Experimentally, the magnetic properties are investigated using superconducting quantum in...", "citations": 1, "author_count": 13, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4009, "doi": "10.1103/PhysRevMaterials.2.044005", "umap_coordinates": { "x": 392.949951171875, "y": 136.35508728027344, "z": 208.54522705078125 }, "tsne_coordinates": { "x": 4.7842535972595215, "y": -32.6312255859375, "z": 20.796655654907227 }, "pca_coordinates": { "x": 1.1388602256774902, "y": 0.007299900054931641, "z": -1.6813812255859375 }, "axis_scores": { "Quantum imaging": 0.6956024765968323, "Quantum Life Science Sensing": 0.7328717112541199, "Quantum sensing Detection": 0.6721959114074707, "Quantum sensing Metrology": 0.7000036835670471, "Quantum sensing navigation": 0.6892143487930298, "Quantum sensing Position": 0.6729689240455627, "Quantum sensing Timing": 0.639260470867157, "Quantum sensing": 0.7025247812271118, "Quantum control": 0.6510406732559204 } }, { "id": 4004, "title": "Photoluminescence quenching of dye molecules near a resonant silicon nanoparticle", "abstract": "Luminescent molecules attached to resonant colloidal particles are an important tool to study light-matter interaction. A traditional approach to enhance the photoluminescence intensity of the lumines...", "citations": 33, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4010, "doi": "10.1038/s41598-018-24492-y", "umap_coordinates": { "x": 393.06829833984375, "y": 134.36268615722656, "z": 206.32748413085938 }, "tsne_coordinates": { "x": 9.112853050231934, "y": -11.498044967651367, "z": -4.364128589630127 }, "pca_coordinates": { "x": -2.3332064151763916, "y": -2.8762125968933105, "z": 1.172699213027954 }, "axis_scores": { "Quantum imaging": 0.7382874488830566, "Quantum Life Science Sensing": 0.7429002523422241, "Quantum sensing Detection": 0.7313796877861023, "Quantum sensing Metrology": 0.7077224850654602, "Quantum sensing navigation": 0.7072324752807617, "Quantum sensing Position": 0.7153871655464172, "Quantum sensing Timing": 0.6833067536354065, "Quantum sensing": 0.7357742190361023, "Quantum control": 0.6772264242172241 } }, { "id": 4005, "title": "Nanoelectromechanical coupling in fullerene peapods probed by resonant electrical transport experiments", "abstract": "Fullerene peapods, which are carbon nanotubes encapsulating fullerene molecules, can offer enhanced functionality with respect to empty nanotubes. Their prospective applications include, for example, ...", "citations": 30, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4011, "doi": "10.1038/ncomms1034", "umap_coordinates": { "x": 393.663818359375, "y": 135.54855346679688, "z": 206.70582580566406 }, "tsne_coordinates": { "x": 14.628775596618652, "y": -7.703009605407715, "z": 19.67559814453125 }, "pca_coordinates": { "x": 0.9302611351013184, "y": -0.8700253963470459, "z": -0.6101786494255066 }, "axis_scores": { "Quantum imaging": 0.7104402780532837, "Quantum Life Science Sensing": 0.7426127791404724, "Quantum sensing Detection": 0.7133986949920654, "Quantum sensing Metrology": 0.7039612531661987, "Quantum sensing navigation": 0.7156019806861877, "Quantum sensing Position": 0.7106847167015076, "Quantum sensing Timing": 0.7069490551948547, "Quantum sensing": 0.7268927693367004, "Quantum control": 0.7012338638305664 } }, { "id": 4006, "title": "Noncyclic geometric changes of quantum states", "abstract": "Non-Abelian quantum holonomies, i.e., unitary state changes solely induced by geometric properties of a quantum system, have been much under focus in the physics community as generalizations of the Ab...", "citations": 47, "author_count": 4, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4012, "doi": "10.1103/PhysRevA.74.022106", "umap_coordinates": { "x": 394.7981872558594, "y": 137.4454345703125, "z": 207.37393188476562 }, "tsne_coordinates": { "x": -29.721162796020508, "y": -9.471302032470703, "z": 12.349837303161621 }, "pca_coordinates": { "x": 4.091729640960693, "y": 2.8114168643951416, "z": -2.0568151473999023 }, "axis_scores": { "Quantum imaging": 0.758557915687561, "Quantum Life Science Sensing": 0.7658650875091553, "Quantum sensing Detection": 0.7597184181213379, "Quantum sensing Metrology": 0.7457112073898315, "Quantum sensing navigation": 0.7768642902374268, "Quantum sensing Position": 0.7491849660873413, "Quantum sensing Timing": 0.7436935901641846, "Quantum sensing": 0.7691314220428467, "Quantum control": 0.7731761932373047 } }, { "id": 4007, "title": "Identifying quantum phase transitions with minimal prior knowledge by unsupervised learning", "abstract": "In this work, we proposed a novel approach for identifying quantum phase transitions in one-dimensional quantum many-body systems using AutoEncoder (AE), an unsupervised machine learning technique, wi...", "citations": 1, "author_count": 8, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4013, "doi": "10.21468/SciPostPhysCore.8.1.029", "umap_coordinates": { "x": 395.7594299316406, "y": 137.3276824951172, "z": 207.19386291503906 }, "tsne_coordinates": { "x": -30.11650276184082, "y": -15.235185623168945, "z": 12.530734062194824 }, "pca_coordinates": { "x": 1.1905972957611084, "y": 3.1386525630950928, "z": 0.35181230306625366 }, "axis_scores": { "Quantum imaging": 0.7488300204277039, "Quantum Life Science Sensing": 0.7617012858390808, "Quantum sensing Detection": 0.7596807479858398, "Quantum sensing Metrology": 0.7557756304740906, "Quantum sensing navigation": 0.7471258640289307, "Quantum sensing Position": 0.7230134010314941, "Quantum sensing Timing": 0.7324177026748657, "Quantum sensing": 0.761480450630188, "Quantum control": 0.7190768718719482 } }, { "id": 4008, "title": "Ultraviolet Photoluminescence of Carbon Nanospheres and its Surface Plasmon-Induced Enhancement", "abstract": "Ultraviolet (UV) light can be used in versatile applications ranging from photo-electronic devices to biomedical imaging. In the development of new UV light sources, in this study, stable UV emission ...", "citations": 16, "author_count": 9, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4014, "doi": "10.1002/smll.201704239", "umap_coordinates": { "x": 393.055908203125, "y": 133.87013244628906, "z": 205.83860778808594 }, "tsne_coordinates": { "x": 35.852176666259766, "y": -2.2609643936157227, "z": -13.00141716003418 }, "pca_coordinates": { "x": -3.6601853370666504, "y": -2.0043044090270996, "z": -0.06097888946533203 }, "axis_scores": { "Quantum imaging": 0.6878867745399475, "Quantum Life Science Sensing": 0.7266307473182678, "Quantum sensing Detection": 0.6975570321083069, "Quantum sensing Metrology": 0.6833459138870239, "Quantum sensing navigation": 0.6520327925682068, "Quantum sensing Position": 0.6638153195381165, "Quantum sensing Timing": 0.6192431449890137, "Quantum sensing": 0.7015120387077332, "Quantum control": 0.6680083274841309 } }, { "id": 4009, "title": "Lighting up long-range charge-transfer states by a localized plasmonic field", "abstract": "The long-range charge-transfer states in a donor-acceptor system exhibit well separated electron-hole pairs, but are often difficult to achieve by optical means owing to a very small overlap between t...", "citations": 18, "author_count": 5, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4015, "doi": "10.1039/c7nr06322a", "umap_coordinates": { "x": 392.57098388671875, "y": 134.3309783935547, "z": 205.5840606689453 }, "tsne_coordinates": { "x": 8.436278343200684, "y": -9.333067893981934, "z": -5.737202167510986 }, "pca_coordinates": { "x": -1.6139931678771973, "y": -2.0242276191711426, "z": -0.9326382875442505 }, "axis_scores": { "Quantum imaging": 0.720751166343689, "Quantum Life Science Sensing": 0.732815146446228, "Quantum sensing Detection": 0.7055650353431702, "Quantum sensing Metrology": 0.692069947719574, "Quantum sensing navigation": 0.7040861248970032, "Quantum sensing Position": 0.679869532585144, "Quantum sensing Timing": 0.652901291847229, "Quantum sensing": 0.725753128528595, "Quantum control": 0.6905632615089417 } }, { "id": 4010, "title": "Quantum Bose-Hubbard model with an evolving graph as a toy model for emergent spacetime", "abstract": "We present a toy model for interacting matter and geometry that explores quantum dynamics in a spin system as a precursor to a quantum theory of gravity. The model has no a priori geometric properties...", "citations": 41, "author_count": 7, "categories": [ "Astronomy & Astrophysics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4016, "doi": "10.1103/PhysRevD.81.104032", "umap_coordinates": { "x": 394.5673522949219, "y": 137.4381561279297, "z": 207.76055908203125 }, "tsne_coordinates": { "x": -32.009944915771484, "y": -19.20747184753418, "z": 12.816398620605469 }, "pca_coordinates": { "x": 4.352579116821289, "y": 0.6959199905395508, "z": -1.2582135200500488 }, "axis_scores": { "Quantum imaging": 0.7105491757392883, "Quantum Life Science Sensing": 0.7131973505020142, "Quantum sensing Detection": 0.7000192403793335, "Quantum sensing Metrology": 0.6674859523773193, "Quantum sensing navigation": 0.7245676517486572, "Quantum sensing Position": 0.685867965221405, "Quantum sensing Timing": 0.6894228458404541, "Quantum sensing": 0.7033983469009399, "Quantum control": 0.6918540000915527 } }, { "id": 4011, "title": "Optical systems for single cell analyses", "abstract": "Background: Data extracted from a population of cells represent the average response from all cells within the population. Even when the cells are genetically identical, cell-to-cell variations and ge...", "citations": 11, "author_count": 5, "categories": [ "Pharmacology & Pharmacy" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4017, "doi": "10.1517/17460441.3.11.1323", "umap_coordinates": { "x": 394.5536193847656, "y": 133.8492889404297, "z": 206.1754608154297 }, "tsne_coordinates": { "x": -18.7459659576416, "y": 4.7724480628967285, "z": -24.33098602294922 }, "pca_coordinates": { "x": -2.3801517486572266, "y": 1.1745860576629639, "z": 0.41883784532546997 }, "axis_scores": { "Quantum imaging": 0.7063217759132385, "Quantum Life Science Sensing": 0.7489910125732422, "Quantum sensing Detection": 0.6979243755340576, "Quantum sensing Metrology": 0.7124931812286377, "Quantum sensing navigation": 0.6966643929481506, "Quantum sensing Position": 0.6763507127761841, "Quantum sensing Timing": 0.6711951494216919, "Quantum sensing": 0.7160212993621826, "Quantum control": 0.6922136545181274 } }, { "id": 4012, "title": "Measurement of light-by-light scattering and the Breit-Wheeler process, and search for axion-like particles in ultraperipheral PbPb collisions at √sNN=5.02 TeV", "abstract": "Measurements of light-by-light scattering (LbL, gamma gamma -> gamma gamma) and the Breit-Wheeler process (BW, gamma gamma -> e(+)e(-)) are reported in ultraperipheral PbPb collisions at a centre-of-m...", "citations": 1, "author_count": 2403, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4018, "doi": "10.1007/JHEP08(2025)006", "umap_coordinates": { "x": 396.9364318847656, "y": 134.4012908935547, "z": 207.4778289794922 }, "tsne_coordinates": { "x": -34.15641784667969, "y": 7.293258190155029, "z": -5.2520833015441895 }, "pca_coordinates": { "x": -0.7257898449897766, "y": 2.167856454849243, "z": 2.7335896492004395 }, "axis_scores": { "Quantum imaging": 0.713897705078125, "Quantum Life Science Sensing": 0.7006950378417969, "Quantum sensing Detection": 0.7111918926239014, "Quantum sensing Metrology": 0.6948782801628113, "Quantum sensing navigation": 0.7175383567810059, "Quantum sensing Position": 0.713289737701416, "Quantum sensing Timing": 0.7060716152191162, "Quantum sensing": 0.7143670916557312, "Quantum control": 0.6824684739112854 } }, { "id": 4013, "title": "Superscars for arithmetic point scatters II", "abstract": "We consider momentum push-forwards of measures arising as quantum limits (semiclassical measures) of eigenfunctions of a point scatterer on the standard flat torus T-2 = R-2/Z(2). Given any probabilit...", "citations": 1, "author_count": 4, "categories": [ "Mathematics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4019, "doi": "10.1017/fms.2023.33", "umap_coordinates": { "x": 394.93035888671875, "y": 134.26953125, "z": 205.5449981689453 }, "tsne_coordinates": { "x": -9.023031234741211, "y": 4.759990692138672, "z": -20.51678466796875 }, "pca_coordinates": { "x": -1.8100860118865967, "y": 2.4333348274230957, "z": 1.536968469619751 }, "axis_scores": { "Quantum imaging": 0.7176674604415894, "Quantum Life Science Sensing": 0.7151950597763062, "Quantum sensing Detection": 0.6979238390922546, "Quantum sensing Metrology": 0.7306067943572998, "Quantum sensing navigation": 0.7251457571983337, "Quantum sensing Position": 0.7044128179550171, "Quantum sensing Timing": 0.7043144106864929, "Quantum sensing": 0.7160218954086304, "Quantum control": 0.6934910416603088 } }, { "id": 4014, "title": "Light-Controlled Multiphase Structuring of Perovskite Crystal Enabled by Thermoplasmonic Metasurface", "abstract": "Halide perovskites belong to an important family of semiconducting materials with electronic properties that enable a myriad of applications, especially in photovoltaics and optoelectronics. Their opt...", "citations": 18, "author_count": 9, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4020, "doi": "10.1021/acsnano.3c00373", "umap_coordinates": { "x": 392.1893615722656, "y": 133.92807006835938, "z": 206.03512573242188 }, "tsne_coordinates": { "x": 18.828535079956055, "y": -9.856423377990723, "z": -14.926088333129883 }, "pca_coordinates": { "x": -3.254744529724121, "y": -3.844487190246582, "z": -0.4966144561767578 }, "axis_scores": { "Quantum imaging": 0.716687798500061, "Quantum Life Science Sensing": 0.7079588770866394, "Quantum sensing Detection": 0.6827062368392944, "Quantum sensing Metrology": 0.6943449974060059, "Quantum sensing navigation": 0.6852500438690186, "Quantum sensing Position": 0.6713658571243286, "Quantum sensing Timing": 0.671651303768158, "Quantum sensing": 0.701433539390564, "Quantum control": 0.6916216015815735 } }, { "id": 4015, "title": "TDLAS-based photofragmentation spectroscopy for detection of K and KOH in flames under optically thick conditions", "abstract": "Photofragmentation spectroscopy is combined with tunable diode laser absorption spectroscopy to measure the line shape of the fragment species. This provides flexibility in choosing the UV pulse locat...", "citations": 34, "author_count": 3, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4021, "doi": "10.1364/OL.400614", "umap_coordinates": { "x": 393.8121337890625, "y": 136.1407012939453, "z": 205.3317413330078 }, "tsne_coordinates": { "x": 0.15685877203941345, "y": -9.968667984008789, "z": -6.723551273345947 }, "pca_coordinates": { "x": -1.5423742532730103, "y": 0.6739287376403809, "z": -0.8161847591400146 }, "axis_scores": { "Quantum imaging": 0.6730137467384338, "Quantum Life Science Sensing": 0.6791938543319702, "Quantum sensing Detection": 0.6639167666435242, "Quantum sensing Metrology": 0.6458463072776794, "Quantum sensing navigation": 0.6346920132637024, "Quantum sensing Position": 0.6367477774620056, "Quantum sensing Timing": 0.6506613492965698, "Quantum sensing": 0.6718553900718689, "Quantum control": 0.6284297704696655 } }, { "id": 4016, "title": "Shaping charge excitations in chiral edge states with a time-dependent gate voltage", "abstract": "We study a coherent conductor supporting a single edge channel in which alternating current pulses are created by local time-dependent gating and sent on a beam-splitter realized by a quantum point co...", "citations": 31, "author_count": 4, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4022, "doi": "10.1103/PhysRevB.97.075426", "umap_coordinates": { "x": 394.8406677246094, "y": 136.52664184570312, "z": 208.66128540039062 }, "tsne_coordinates": { "x": -12.574457168579102, "y": -35.36493682861328, "z": 14.369047164916992 }, "pca_coordinates": { "x": 2.562079429626465, "y": -0.2415790557861328, "z": 0.49287527799606323 }, "axis_scores": { "Quantum imaging": 0.6974096298217773, "Quantum Life Science Sensing": 0.692649245262146, "Quantum sensing Detection": 0.6890218257904053, "Quantum sensing Metrology": 0.6719470024108887, "Quantum sensing navigation": 0.7080729007720947, "Quantum sensing Position": 0.685325026512146, "Quantum sensing Timing": 0.7109324336051941, "Quantum sensing": 0.6964113712310791, "Quantum control": 0.6972429752349854 } }, { "id": 4017, "title": "Comparison of different bonding techniques for efficient strain transfer using piezoelectric actuators", "abstract": "In this paper, strain transfer efficiencies from a single crystalline piezoelectric lead magnesium niobatelead titanate substrate to a GaAs semiconductor membrane bonded on top are investigated using ...", "citations": 16, "author_count": 9, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4023, "doi": "10.1063/1.4979859", "umap_coordinates": { "x": 393.5268249511719, "y": 134.34661865234375, "z": 206.54202270507812 }, "tsne_coordinates": { "x": 10.226956367492676, "y": -23.98089027404785, "z": -28.00168800354004 }, "pca_coordinates": { "x": -0.2567673921585083, "y": -0.7656006813049316, "z": 1.7878212928771973 }, "axis_scores": { "Quantum imaging": 0.6818915605545044, "Quantum Life Science Sensing": 0.6726775169372559, "Quantum sensing Detection": 0.66676926612854, "Quantum sensing Metrology": 0.6901710629463196, "Quantum sensing navigation": 0.6553163528442383, "Quantum sensing Position": 0.6749387383460999, "Quantum sensing Timing": 0.677710235118866, "Quantum sensing": 0.691690981388092, "Quantum control": 0.6636489629745483 } }, { "id": 4018, "title": "Hybrid quantum-classical Monte Carlo study of a molecule-based magnet", "abstract": "Using a Monte Carlo (MC) method, we study an effective model for the Fe(II)Fe(III) bimetallic oxalates. Within a hybrid quantum-classical MC algorithm, the Heisenberg S=2 and S-'=5/2 spins on the Fe(I...", "citations": 15, "author_count": 3, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4024, "doi": "10.1103/PhysRevB.78.214405", "umap_coordinates": { "x": 393.64703369140625, "y": 136.7870330810547, "z": 207.69271850585938 }, "tsne_coordinates": { "x": 5.53109884262085, "y": -33.03889846801758, "z": 13.129167556762695 }, "pca_coordinates": { "x": 4.053159236907959, "y": 0.7397944927215576, "z": -1.270434856414795 }, "axis_scores": { "Quantum imaging": 0.7244325280189514, "Quantum Life Science Sensing": 0.7245534062385559, "Quantum sensing Detection": 0.7174201011657715, "Quantum sensing Metrology": 0.703069806098938, "Quantum sensing navigation": 0.7044702172279358, "Quantum sensing Position": 0.6832529306411743, "Quantum sensing Timing": 0.6726356148719788, "Quantum sensing": 0.73326176404953, "Quantum control": 0.6955594420433044 } }, { "id": 4019, "title": "Atomic force microscope current-imaging study for current density through nanocrystalline silicon dots embedded in SiO2", "abstract": "Simultaneous surface and current imaging through nanocrystalline silicon (nc-Si) dots embedded in SiO2 was achieved using a contact mode atomic force microscope (AFM) under a tip-to-sample bias voltag...", "citations": 5, "author_count": 6, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4025, "doi": "10.1143/JJAP.44.L88", "umap_coordinates": { "x": 393.5710144042969, "y": 134.29824829101562, "z": 207.16241455078125 }, "tsne_coordinates": { "x": 38.98305892944336, "y": -9.893964767456055, "z": -6.980777263641357 }, "pca_coordinates": { "x": -0.3621635437011719, "y": -1.4012408256530762, "z": 2.1611685752868652 }, "axis_scores": { "Quantum imaging": 0.755828857421875, "Quantum Life Science Sensing": 0.7242506742477417, "Quantum sensing Detection": 0.7192227840423584, "Quantum sensing Metrology": 0.7125194668769836, "Quantum sensing navigation": 0.7231941223144531, "Quantum sensing Position": 0.7173230051994324, "Quantum sensing Timing": 0.6627313494682312, "Quantum sensing": 0.7280110120773315, "Quantum control": 0.7156009078025818 } }, { "id": 4020, "title": "INTRASPECIFIC VARIATION IN PHOTOSYNTHETIC LIGHT RESPONSE AND PHOTOSYNTHETIC NITROGEN-UTILIZATION IN THE MOUNTAIN BIRCH, BETULA-PUBESCENS SSP TORTUOSA", "abstract": "Variation among individuals and sites in photosynthetic light-response characteristics and nitrogen use efficiency in the mountain birch (Betula pubescens ssp. tortuosa) is described and related to le...", "citations": 17, "author_count": 2, "categories": [ "Environmental Sciences & Ecology" ], "year": 1991, "topic": [ "all" ], "embedding_index": 4026, "doi": "10.2307/3544991", "umap_coordinates": { "x": 394.4497985839844, "y": 136.3317413330078, "z": 203.5040740966797 }, "tsne_coordinates": { "x": 11.580368041992188, "y": 35.62446212768555, "z": 11.325545310974121 }, "pca_coordinates": { "x": -1.4395594596862793, "y": 1.3956955671310425, "z": -1.307955026626587 }, "axis_scores": { "Quantum imaging": 0.6512409448623657, "Quantum Life Science Sensing": 0.6760076284408569, "Quantum sensing Detection": 0.6497493386268616, "Quantum sensing Metrology": 0.6496269106864929, "Quantum sensing navigation": 0.6615195274353027, "Quantum sensing Position": 0.6445267200469971, "Quantum sensing Timing": 0.6521087884902954, "Quantum sensing": 0.6655499339103699, "Quantum control": 0.6498490571975708 } }, { "id": 4021, "title": "Dynamics and observational signatures of shell-like black hole mimickers", "abstract": "We undertake the task of studying the nonlinear dynamics of quantum gravity motivated alternatives to black holes that in the classical limit appear as ultracompact shells of matter. We develop a form...", "citations": 21, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4027, "doi": "10.1103/PhysRevD.104.124011", "umap_coordinates": { "x": 394.6639404296875, "y": 137.11827087402344, "z": 208.0045166015625 }, "tsne_coordinates": { "x": -25.313993453979492, "y": -30.04416275024414, "z": 9.5785551071167 }, "pca_coordinates": { "x": 3.464709758758545, "y": 1.0832213163375854, "z": -1.0886832475662231 }, "axis_scores": { "Quantum imaging": 0.6908720135688782, "Quantum Life Science Sensing": 0.6960848569869995, "Quantum sensing Detection": 0.6854982972145081, "Quantum sensing Metrology": 0.665774941444397, "Quantum sensing navigation": 0.6842593550682068, "Quantum sensing Position": 0.6599925756454468, "Quantum sensing Timing": 0.6741035580635071, "Quantum sensing": 0.6836852431297302, "Quantum control": 0.6646319031715393 } }, { "id": 4022, "title": "Thermostable Luciferase from Luciola cruciate for Imaging of Carbon Nanotubes and Carbon Nanotubes Carrying Doxorubicin Using in Vivo Imaging System", "abstract": "In the present study, we introduce a novel method for in vivo imaging of the biodistribution of single wall carbon nanotubes (SWNTs) labeled with recombinant thermo-stable Luciola cruciata luciferase ...", "citations": 29, "author_count": 12, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4028, "doi": "10.1021/nl304123u", "umap_coordinates": { "x": 393.9670104980469, "y": 133.80433654785156, "z": 205.06640625 }, "tsne_coordinates": { "x": 9.353582382202148, "y": 19.45258140563965, "z": -18.912185668945312 }, "pca_coordinates": { "x": -3.7547049522399902, "y": -0.41507411003112793, "z": -0.5106652975082397 }, "axis_scores": { "Quantum imaging": 0.7200080156326294, "Quantum Life Science Sensing": 0.7452714443206787, "Quantum sensing Detection": 0.7050952911376953, "Quantum sensing Metrology": 0.6872127056121826, "Quantum sensing navigation": 0.6965123414993286, "Quantum sensing Position": 0.6827972531318665, "Quantum sensing Timing": 0.664893627166748, "Quantum sensing": 0.7107645869255066, "Quantum control": 0.6969099640846252 } }, { "id": 4023, "title": "Telling emissions apart in a multiphoton resonance: visualizing a conditional evolution", "abstract": "We find that the phase-space representation of the electromagnetic field inside a driven cavity strongly coupled to a two-level atom can be employed to distinguish photon emissions along a ladder of d...", "citations": 2, "author_count": 2, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4029, "doi": "10.1088/2040-8986/aca91c", "umap_coordinates": { "x": 394.10650634765625, "y": 136.00405883789062, "z": 206.1866455078125 }, "tsne_coordinates": { "x": -4.6048784255981445, "y": -5.772640705108643, "z": 9.996576309204102 }, "pca_coordinates": { "x": -0.5577427744865417, "y": 1.9858955144882202, "z": 0.09254741668701172 }, "axis_scores": { "Quantum imaging": 0.7076817750930786, "Quantum Life Science Sensing": 0.688890814781189, "Quantum sensing Detection": 0.671773374080658, "Quantum sensing Metrology": 0.6584211587905884, "Quantum sensing navigation": 0.6802122592926025, "Quantum sensing Position": 0.6489748358726501, "Quantum sensing Timing": 0.6722148060798645, "Quantum sensing": 0.6819062829017639, "Quantum control": 0.6599466800689697 } }, { "id": 4024, "title": "Rashba spin-splitting of single electrons and Cooper pairs", "abstract": "Electric weak links, the term used for those parts of an electrical circuit that provide most of the resistance against the flow of an electrical current, are important elements of many nanodevices. Q...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4030, "doi": "10.1063/1.4976637", "umap_coordinates": { "x": 394.0640563964844, "y": 134.12074279785156, "z": 208.55442810058594 }, "tsne_coordinates": { "x": 10.474979400634766, "y": -24.437461853027344, "z": -10.477689743041992 }, "pca_coordinates": { "x": 3.063586711883545, "y": -3.5130486488342285, "z": 0.1852712631225586 }, "axis_scores": { "Quantum imaging": 0.7175776958465576, "Quantum Life Science Sensing": 0.7253316044807434, "Quantum sensing Detection": 0.7273188829421997, "Quantum sensing Metrology": 0.7219412326812744, "Quantum sensing navigation": 0.7077670097351074, "Quantum sensing Position": 0.6864770650863647, "Quantum sensing Timing": 0.6691953539848328, "Quantum sensing": 0.7406555414199829, "Quantum control": 0.6939752697944641 } }, { "id": 4025, "title": "Design of Graphene-Nanoribbon Heterojunctions from First Principles", "abstract": "Graphene nanoribbons with armchair and zigzag edges are known to have very different electronic structure and properties. We show here that the fusion of an armchair and a zigzag graphene-nanoribbon (...", "citations": 50, "author_count": 5, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4031, "doi": "10.1021/jp202188t", "umap_coordinates": { "x": 392.0599060058594, "y": 135.88009643554688, "z": 205.9664764404297 }, "tsne_coordinates": { "x": 6.742947578430176, "y": -5.5126776695251465, "z": -4.778430938720703 }, "pca_coordinates": { "x": -0.2136802077293396, "y": -2.6946916580200195, "z": -2.418027639389038 }, "axis_scores": { "Quantum imaging": 0.6523250341415405, "Quantum Life Science Sensing": 0.7005190849304199, "Quantum sensing Detection": 0.6666349768638611, "Quantum sensing Metrology": 0.6599828600883484, "Quantum sensing navigation": 0.6753231287002563, "Quantum sensing Position": 0.6623462438583374, "Quantum sensing Timing": 0.6500850915908813, "Quantum sensing": 0.6848117709159851, "Quantum control": 0.6666415929794312 } }, { "id": 4026, "title": "Effect of the spin-orbit geometric phase on the spectrum of Aharonov-Bohm oscillations in a semiconductor mesoscopic ring", "abstract": "Taking into account the spin precession caused by the spin-orbit splitting of the conduction band in semiconductor quantum wells, we have calculated the Fourier spectra of conductance and state-densit...", "citations": 33, "author_count": 4, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4032, "doi": "10.1103/PhysRevB.60.R2161", "umap_coordinates": { "x": 394.2884216308594, "y": 136.48434448242188, "z": 208.70098876953125 }, "tsne_coordinates": { "x": -4.173327445983887, "y": -19.771121978759766, "z": -2.8492414951324463 }, "pca_coordinates": { "x": 3.8528780937194824, "y": -0.27147817611694336, "z": -1.6664388179779053 }, "axis_scores": { "Quantum imaging": 0.6999800205230713, "Quantum Life Science Sensing": 0.7372646927833557, "Quantum sensing Detection": 0.7006263732910156, "Quantum sensing Metrology": 0.7167052626609802, "Quantum sensing navigation": 0.7125735878944397, "Quantum sensing Position": 0.7095496654510498, "Quantum sensing Timing": 0.6972246766090393, "Quantum sensing": 0.720436692237854, "Quantum control": 0.7054948210716248 } }, { "id": 4027, "title": "Spectral response model for a multibin photon-counting spectral computed tomography detector and its applications (vol 2, 033502, 2015)", "abstract": "", "citations": 2, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4033, "doi": "10.1117/1.JMI.3.4.049801", "umap_coordinates": { "x": 395.1519775390625, "y": 132.84803771972656, "z": 205.8123321533203 }, "tsne_coordinates": { "x": -6.005850791931152, "y": 18.74860382080078, "z": -19.917207717895508 }, "pca_coordinates": { "x": -1.883336067199707, "y": 1.1937978267669678, "z": 2.627077579498291 }, "axis_scores": { "Quantum imaging": 0.7509024143218994, "Quantum Life Science Sensing": 0.7461925148963928, "Quantum sensing Detection": 0.7426108121871948, "Quantum sensing Metrology": 0.732805609703064, "Quantum sensing navigation": 0.7009335160255432, "Quantum sensing Position": 0.6955927014350891, "Quantum sensing Timing": 0.7059715390205383, "Quantum sensing": 0.7375198602676392, "Quantum control": 0.6792336702346802 } }, { "id": 4028, "title": "Out-of-equilibrium phase diagram of long-range superconductors", "abstract": "Within the ultimate goal of classifying universality in quantum many-body dynamics, understanding the relation between out-of-equilibrium and equilibrium criticality is a crucial objective. Models wit...", "citations": 58, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4034, "doi": "10.1103/PhysRevB.101.245148", "umap_coordinates": { "x": 394.0149230957031, "y": 136.3489990234375, "z": 208.84437561035156 }, "tsne_coordinates": { "x": -2.3638532161712646, "y": -24.098838806152344, "z": 13.443063735961914 }, "pca_coordinates": { "x": 4.2470173835754395, "y": -1.0390963554382324, "z": -1.4169615507125854 }, "axis_scores": { "Quantum imaging": 0.7001035213470459, "Quantum Life Science Sensing": 0.7300510406494141, "Quantum sensing Detection": 0.6994304656982422, "Quantum sensing Metrology": 0.6942769289016724, "Quantum sensing navigation": 0.7167613506317139, "Quantum sensing Position": 0.6987810134887695, "Quantum sensing Timing": 0.6931388974189758, "Quantum sensing": 0.709735631942749, "Quantum control": 0.6872038245201111 } }, { "id": 4029, "title": "Towards quantum-limited coherent detection of terahertz waves in charge-neutral graphene", "abstract": "Spectacular advances in heterodyne astronomy(1,2) have been largely due to breakthroughs in detector technology(3). To exploit the full capacity of future terahertz (similar to 300 GHz-5 THz) telescop...", "citations": 38, "author_count": 11, "categories": [ "Astronomy & Astrophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4035, "doi": "10.1038/s41550-019-0843-7", "umap_coordinates": { "x": 394.322265625, "y": 134.83993530273438, "z": 206.7209014892578 }, "tsne_coordinates": { "x": -16.534669876098633, "y": -8.333512306213379, "z": -13.54297161102295 }, "pca_coordinates": { "x": 0.37778782844543457, "y": -0.14014315605163574, "z": 1.9847769737243652 }, "axis_scores": { "Quantum imaging": 0.7208554744720459, "Quantum Life Science Sensing": 0.734645426273346, "Quantum sensing Detection": 0.7372263073921204, "Quantum sensing Metrology": 0.7091176509857178, "Quantum sensing navigation": 0.7371196746826172, "Quantum sensing Position": 0.720100998878479, "Quantum sensing Timing": 0.6969539523124695, "Quantum sensing": 0.7322418689727783, "Quantum control": 0.6864557862281799 } }, { "id": 4030, "title": "Degeneracy of non-Abelian quantum Hall states on the torus: domain walls and conformal field theory", "abstract": "We analyze the non-Abelian Read-Rezayi quantum Hall states on the torus, where it is natural to employ a mapping of the many-body problem onto a one-dimensional lattice model. On the thin torus-the Ta...", "citations": 55, "author_count": 5, "categories": [ "Mechanics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4036, "doi": "10.1088/1742-5468/2008/04/P04016", "umap_coordinates": { "x": 394.4947509765625, "y": 137.21420288085938, "z": 207.93798828125 }, "tsne_coordinates": { "x": -20.525672912597656, "y": -32.047096252441406, "z": 9.525016784667969 }, "pca_coordinates": { "x": 2.9439244270324707, "y": 2.2136807441711426, "z": -1.1643109321594238 }, "axis_scores": { "Quantum imaging": 0.720047116279602, "Quantum Life Science Sensing": 0.7059701681137085, "Quantum sensing Detection": 0.6906059384346008, "Quantum sensing Metrology": 0.6874322891235352, "Quantum sensing navigation": 0.7163136005401611, "Quantum sensing Position": 0.6655175685882568, "Quantum sensing Timing": 0.6878453493118286, "Quantum sensing": 0.6974828243255615, "Quantum control": 0.698379635810852 } }, { "id": 4031, "title": "T-type diarylethenes for molecular solar thermal energy storage: aromaticity as a design principle", "abstract": "Molecular photoswitches that absorb sunlight and store it in the form of chemical energy are attractive for applications in molecular solar thermal energy storage (MOST) systems. Typically, these syst...", "citations": 3, "author_count": 6, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4037, "doi": "10.1039/d4nj05407e", "umap_coordinates": { "x": 391.8306579589844, "y": 135.3913116455078, "z": 204.96951293945312 }, "tsne_coordinates": { "x": 6.058025360107422, "y": 0.08658762276172638, "z": -8.75318431854248 }, "pca_coordinates": { "x": -1.6151583194732666, "y": -1.483811378479004, "z": -2.801466703414917 }, "axis_scores": { "Quantum imaging": 0.6548497676849365, "Quantum Life Science Sensing": 0.6955080032348633, "Quantum sensing Detection": 0.6525362133979797, "Quantum sensing Metrology": 0.632433295249939, "Quantum sensing navigation": 0.6554161906242371, "Quantum sensing Position": 0.6454804539680481, "Quantum sensing Timing": 0.6736447215080261, "Quantum sensing": 0.6668186187744141, "Quantum control": 0.6649888753890991 } }, { "id": 4032, "title": "Exploring ortho-dianthrylbenzenes for molecular solar thermal energy storage", "abstract": "Molecular solar thermal systems, which absorb light, store it, and release it as heat, have been extensively researched, yet many potential candidates remain unexplored. To expand this range, five spe...", "citations": 10, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4038, "doi": "10.1039/d4ta03879g", "umap_coordinates": { "x": 391.8687744140625, "y": 135.20399475097656, "z": 205.10400390625 }, "tsne_coordinates": { "x": 6.309408187866211, "y": -0.40148431062698364, "z": -8.407631874084473 }, "pca_coordinates": { "x": -0.9805634021759033, "y": -1.931488037109375, "z": -2.390941858291626 }, "axis_scores": { "Quantum imaging": 0.6760735511779785, "Quantum Life Science Sensing": 0.7143540978431702, "Quantum sensing Detection": 0.6712090969085693, "Quantum sensing Metrology": 0.6611813306808472, "Quantum sensing navigation": 0.6539044380187988, "Quantum sensing Position": 0.6384599804878235, "Quantum sensing Timing": 0.6580728888511658, "Quantum sensing": 0.6847928762435913, "Quantum control": 0.6421088576316833 } }, { "id": 4033, "title": "Exciton spin Hall effect in arc-shaped strained WSe2", "abstract": "Generating a pure spin current using electrons, which have degrees of freedom beyond spin, such as electric charge and valley index, presents challenges. In response, we propose a mechanism based on i...", "citations": 1, "author_count": 5, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4039, "doi": "10.1103/PhysRevB.109.L201409", "umap_coordinates": { "x": 393.5116882324219, "y": 135.85369873046875, "z": 208.5758819580078 }, "tsne_coordinates": { "x": 7.86598539352417, "y": -23.157028198242188, "z": 7.5368266105651855 }, "pca_coordinates": { "x": 2.816317081451416, "y": -3.214015483856201, "z": -0.8378082513809204 }, "axis_scores": { "Quantum imaging": 0.6869325637817383, "Quantum Life Science Sensing": 0.6979494690895081, "Quantum sensing Detection": 0.6848814487457275, "Quantum sensing Metrology": 0.6707733869552612, "Quantum sensing navigation": 0.6944712996482849, "Quantum sensing Position": 0.6782966256141663, "Quantum sensing Timing": 0.6895409822463989, "Quantum sensing": 0.7001063823699951, "Quantum control": 0.6775405406951904 } }, { "id": 4034, "title": "Enhanced Ammonia Gas Adsorption through Site-Selective Fluorination of Graphene", "abstract": "Graphene has been widely explored as an ideal platform for gas sensing owing to exceptional properties, such as its atom-thin two-dimensional conjugated structure and large specific surface area. Here...", "citations": 4, "author_count": 6, "categories": [ "Crystallography" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4040, "doi": "10.3390/cryst12081117", "umap_coordinates": { "x": 392.9300537109375, "y": 134.71145629882812, "z": 205.07212829589844 }, "tsne_coordinates": { "x": 37.929466247558594, "y": 14.439447402954102, "z": -13.579285621643066 }, "pca_coordinates": { "x": -2.2653326988220215, "y": -0.6895275115966797, "z": -0.7462846040725708 }, "axis_scores": { "Quantum imaging": 0.7229762077331543, "Quantum Life Science Sensing": 0.7044824957847595, "Quantum sensing Detection": 0.7063876390457153, "Quantum sensing Metrology": 0.7083429098129272, "Quantum sensing navigation": 0.7143871188163757, "Quantum sensing Position": 0.6753599643707275, "Quantum sensing Timing": 0.6508857011795044, "Quantum sensing": 0.7272427082061768, "Quantum control": 0.7045351266860962 } }, { "id": 4035, "title": "Formation of Na-containing complex molecules in the gas phase in dense molecular clouds: quantum study of the Na+ + H2 and Na+ + D2 radiative association step", "abstract": "The Na+ -H-2 radiative association ( RA) is the first and limiting step in the models of formation of NaH in the gas phase. Also, the accurate evaluation of the RA rate is required to be included in c...", "citations": 8, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4041, "doi": "10.1093/mnras/stz795", "umap_coordinates": { "x": 393.5126953125, "y": 137.20286560058594, "z": 206.33946228027344 }, "tsne_coordinates": { "x": -6.706033706665039, "y": -0.8904839158058167, "z": 23.731473922729492 }, "pca_coordinates": { "x": 0.9578454494476318, "y": 1.5328781604766846, "z": -1.7727196216583252 }, "axis_scores": { "Quantum imaging": 0.7231493592262268, "Quantum Life Science Sensing": 0.7451322078704834, "Quantum sensing Detection": 0.7307752370834351, "Quantum sensing Metrology": 0.7120743989944458, "Quantum sensing navigation": 0.7268478870391846, "Quantum sensing Position": 0.6969172358512878, "Quantum sensing Timing": 0.6941108703613281, "Quantum sensing": 0.7327325940132141, "Quantum control": 0.6815773844718933 } }, { "id": 4036, "title": "The role of momentum-dark excitons in the elementary optical response of bilayer WSe2", "abstract": "Monolayer transition metal dichalcogenides (TMDs) undergo substantial changes in the single-particle band structure and excitonic optical response upon the addition of just one layer. As opposed to th...", "citations": 95, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4042, "doi": "10.1038/s41467-018-04877-3", "umap_coordinates": { "x": 392.8465881347656, "y": 135.61672973632812, "z": 206.72447204589844 }, "tsne_coordinates": { "x": 12.894243240356445, "y": -9.189027786254883, "z": 12.806500434875488 }, "pca_coordinates": { "x": -0.7757893800735474, "y": -2.0234618186950684, "z": -0.9953634738922119 }, "axis_scores": { "Quantum imaging": 0.7049252986907959, "Quantum Life Science Sensing": 0.6993726491928101, "Quantum sensing Detection": 0.6824640035629272, "Quantum sensing Metrology": 0.6636468172073364, "Quantum sensing navigation": 0.6876585483551025, "Quantum sensing Position": 0.6903947591781616, "Quantum sensing Timing": 0.667838454246521, "Quantum sensing": 0.6993336081504822, "Quantum control": 0.6701991558074951 } }, { "id": 4037, "title": "EPR investigation of pure and Co-doped ZnO oriented nanocrystals", "abstract": "Pure and cobalt-doped zinc oxide aligned nanorods have been grown by the low-temperature (90 degrees C) aqueous chemical method on amorphous ZnO seed layer, deposited on a sapphire substrate. High cry...", "citations": 17, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4043, "doi": "10.1088/1361-6528/28/3/035705", "umap_coordinates": { "x": 392.92730712890625, "y": 135.40640258789062, "z": 206.00494384765625 }, "tsne_coordinates": { "x": 33.61625671386719, "y": 15.755084991455078, "z": 3.7009453773498535 }, "pca_coordinates": { "x": -0.5401992201805115, "y": -0.4047505855560303, "z": -0.11878681182861328 }, "axis_scores": { "Quantum imaging": 0.7296139001846313, "Quantum Life Science Sensing": 0.72647625207901, "Quantum sensing Detection": 0.701297402381897, "Quantum sensing Metrology": 0.6920377016067505, "Quantum sensing navigation": 0.6985903382301331, "Quantum sensing Position": 0.6703988909721375, "Quantum sensing Timing": 0.652860701084137, "Quantum sensing": 0.7145737409591675, "Quantum control": 0.6931726932525635 } }, { "id": 4038, "title": "Multistability and switching in a superconducting metamaterial", "abstract": "The field of metamaterial research revolves around the idea of creating artificial media that interact with light in a way unknown from naturally occurring materials. This is commonly achieved using s...", "citations": 64, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4044, "doi": "10.1038/ncomms4730", "umap_coordinates": { "x": 393.11669921875, "y": 136.05538940429688, "z": 207.88671875 }, "tsne_coordinates": { "x": -4.79144811630249, "y": -22.45099449157715, "z": 16.2228946685791 }, "pca_coordinates": { "x": 1.3030261993408203, "y": -2.103844165802002, "z": -1.7757847309112549 }, "axis_scores": { "Quantum imaging": 0.6601341962814331, "Quantum Life Science Sensing": 0.6966617107391357, "Quantum sensing Detection": 0.6720467805862427, "Quantum sensing Metrology": 0.6645336151123047, "Quantum sensing navigation": 0.6822751760482788, "Quantum sensing Position": 0.6413120627403259, "Quantum sensing Timing": 0.6691368818283081, "Quantum sensing": 0.6820827722549438, "Quantum control": 0.6612144112586975 } }, { "id": 4039, "title": "The astrometric instrument of Gaia: Principles", "abstract": "Compared with Hipparcos, Gaia will give an enormous improvement in accuracy, completeness and number of stars: about two orders of magnitude in accuracy, four orders in number, and a completeness limi...", "citations": 20, "author_count": 2, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4045, "doi": null, "umap_coordinates": { "x": 391.92327880859375, "y": 139.5728302001953, "z": 209.4488067626953 }, "tsne_coordinates": { "x": 2.1393327713012695, "y": 49.969329833984375, "z": -6.126760959625244 }, "pca_coordinates": { "x": -1.2695202827453613, "y": 5.448564529418945, "z": -1.0415180921554565 }, "axis_scores": { "Quantum imaging": 0.6792580485343933, "Quantum Life Science Sensing": 0.7102921605110168, "Quantum sensing Detection": 0.6939583420753479, "Quantum sensing Metrology": 0.7115105390548706, "Quantum sensing navigation": 0.7251235246658325, "Quantum sensing Position": 0.6996710300445557, "Quantum sensing Timing": 0.6871280074119568, "Quantum sensing": 0.7047956585884094, "Quantum control": 0.6937030553817749 } }, { "id": 4040, "title": "HIGH-RESOLUTION VUV SPECTROSCOPY USING PULSED-LASER SOURCES", "abstract": "The resonance spectroscopic techniques - level-crossing, optical double resonance and quantum-beat spectroscopy - have been employed following pulsed laser excitation. The use of pulsed lasers has ena...", "citations": 3, "author_count": 3, "categories": [ "Optics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 4046, "doi": "10.1007/BF01081065", "umap_coordinates": { "x": 394.2855224609375, "y": 135.67364501953125, "z": 205.10646057128906 }, "tsne_coordinates": { "x": -12.692483901977539, "y": 14.472434997558594, "z": -0.20741769671440125 }, "pca_coordinates": { "x": -1.507515549659729, "y": -0.002520322799682617, "z": 1.3998832702636719 }, "axis_scores": { "Quantum imaging": 0.6900241374969482, "Quantum Life Science Sensing": 0.7048335671424866, "Quantum sensing Detection": 0.6837679743766785, "Quantum sensing Metrology": 0.6848188638687134, "Quantum sensing navigation": 0.6920266151428223, "Quantum sensing Position": 0.6827216148376465, "Quantum sensing Timing": 0.6602356433868408, "Quantum sensing": 0.6925868391990662, "Quantum control": 0.6654264330863953 } }, { "id": 4041, "title": "Colloidal suspensions of silicon nanocrystals: from single nanocrystals to photonic structures", "abstract": "Colloidal suspesions of Si nanocrystals (NCs) are prepared from light-emitting porous Si grains obtained by mechanical pulverization of electrochemically etched layers. Sedimented and/or filtered Si N...", "citations": 31, "author_count": 7, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4047, "doi": "10.1016/j.optmat.2004.08.060", "umap_coordinates": { "x": 393.3073425292969, "y": 133.43490600585938, "z": 206.63604736328125 }, "tsne_coordinates": { "x": 35.66970443725586, "y": 1.8773844242095947, "z": -2.0012290477752686 }, "pca_coordinates": { "x": -2.3745927810668945, "y": -3.3251051902770996, "z": 0.9931558966636658 }, "axis_scores": { "Quantum imaging": 0.7599188685417175, "Quantum Life Science Sensing": 0.7668885588645935, "Quantum sensing Detection": 0.7487331628799438, "Quantum sensing Metrology": 0.7529136538505554, "Quantum sensing navigation": 0.7405910491943359, "Quantum sensing Position": 0.7279409170150757, "Quantum sensing Timing": 0.6875675916671753, "Quantum sensing": 0.762654185295105, "Quantum control": 0.7214778661727905 } }, { "id": 4042, "title": "Cathodoluminescence spectroscopy and imaging of individual GaN dots", "abstract": "Uncapped GaN dots on AlGaN barrier material, grown by metal organic chemical vapor deposition on 6H-SiC substrates, were studied. Cathodoluminescence (CL) microscopy and scanning electron microscopy (...", "citations": 26, "author_count": 6, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4048, "doi": "10.1063/1.124147", "umap_coordinates": { "x": 393.4864196777344, "y": 133.4832763671875, "z": 207.83859252929688 }, "tsne_coordinates": { "x": 25.51938819885254, "y": -18.789913177490234, "z": -9.502034187316895 }, "pca_coordinates": { "x": -0.42389142513275146, "y": -3.215775966644287, "z": 2.2464239597320557 }, "axis_scores": { "Quantum imaging": 0.7795540690422058, "Quantum Life Science Sensing": 0.7651734352111816, "Quantum sensing Detection": 0.763900876045227, "Quantum sensing Metrology": 0.7601426839828491, "Quantum sensing navigation": 0.727114200592041, "Quantum sensing Position": 0.6972562074661255, "Quantum sensing Timing": 0.6962600350379944, "Quantum sensing": 0.7680075168609619, "Quantum control": 0.7191055417060852 } }, { "id": 4043, "title": "Structure of the O-antigen of Vibrio cholerae O155 that shares a putative D-galactose 4,6-cyclophosphate-associated epitope with V.cholerae O139 Bengal", "abstract": "The O-specific polysaccharide of Vibrio cholerae O155 was studied by sugar and methylation analyses, dephosphorylation with 48% hydrofluoric acid, H-1- and C-13-NMR spectroscopy, including two-dimensi...", "citations": 6, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4049, "doi": "10.1046/j.1432-1327.1998.2540058.x", "umap_coordinates": { "x": 394.20660400390625, "y": 136.3725128173828, "z": 204.23451232910156 }, "tsne_coordinates": { "x": 5.69876766204834, "y": 31.35428810119629, "z": 20.198612213134766 }, "pca_coordinates": { "x": -1.3144309520721436, "y": 2.726202964782715, "z": -0.5986164808273315 }, "axis_scores": { "Quantum imaging": 0.7054610252380371, "Quantum Life Science Sensing": 0.6881795525550842, "Quantum sensing Detection": 0.6665194630622864, "Quantum sensing Metrology": 0.6763026714324951, "Quantum sensing navigation": 0.6868309378623962, "Quantum sensing Position": 0.6709063053131104, "Quantum sensing Timing": 0.6777521371841431, "Quantum sensing": 0.6845545172691345, "Quantum control": 0.6897084712982178 } }, { "id": 4044, "title": "Interaction-induced Landau-Zener transitions", "abstract": "By considering a quantum-critical Lipkin-Meshkov-Glick model we analyze a new type of Landau-Zener transitions where the population transfer is mediated by interaction rather than from a direct diabat...", "citations": 12, "author_count": 2, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4050, "doi": "10.1209/0295-5075/107/30007", "umap_coordinates": { "x": 394.2680358886719, "y": 136.8761444091797, "z": 207.3083953857422 }, "tsne_coordinates": { "x": -7.768155574798584, "y": -9.75247573852539, "z": 40.31742858886719 }, "pca_coordinates": { "x": 2.48866868019104, "y": 1.3624396324157715, "z": -0.8220966458320618 }, "axis_scores": { "Quantum imaging": 0.7045830488204956, "Quantum Life Science Sensing": 0.7183821201324463, "Quantum sensing Detection": 0.6990787982940674, "Quantum sensing Metrology": 0.6802562475204468, "Quantum sensing navigation": 0.6883213520050049, "Quantum sensing Position": 0.6538683176040649, "Quantum sensing Timing": 0.6892303228378296, "Quantum sensing": 0.7042962908744812, "Quantum control": 0.677891194820404 } }, { "id": 4045, "title": "Photoinduced electron transfer processes in dye-semiconductor systems with different spacer groups", "abstract": "Photoinduced electron transfer processes in perylene-titanium dioxide dye-semiconductor systems are studied. In particular, the influence of saturated and unsaturated aliphatic spacer groups inserted ...", "citations": 40, "author_count": 5, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4051, "doi": "10.1063/1.4746768", "umap_coordinates": { "x": 392.8929443359375, "y": 134.8420867919922, "z": 207.65562438964844 }, "tsne_coordinates": { "x": 1.4001013040542603, "y": -1.329361915588379, "z": 0.5197747945785522 }, "pca_coordinates": { "x": 0.38617515563964844, "y": -2.749450206756592, "z": -0.09012168645858765 }, "axis_scores": { "Quantum imaging": 0.6931919455528259, "Quantum Life Science Sensing": 0.6765249967575073, "Quantum sensing Detection": 0.6671445965766907, "Quantum sensing Metrology": 0.6442370414733887, "Quantum sensing navigation": 0.6468954086303711, "Quantum sensing Position": 0.6451865434646606, "Quantum sensing Timing": 0.6569365859031677, "Quantum sensing": 0.6799857020378113, "Quantum control": 0.653965950012207 } }, { "id": 4046, "title": "Charge transport and Zener tunneling in small Josephson junctions with dissipation", "abstract": "We have investigated a small-area Josephson tunnel junction in a superconducting quantum interference device (SQUID) geometry, biased through high-resistance thin-film leads. This configuration provid...", "citations": 19, "author_count": 5, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4052, "doi": "10.1103/PhysRevB.54.10074", "umap_coordinates": { "x": 394.4737548828125, "y": 135.6179962158203, "z": 208.9031524658203 }, "tsne_coordinates": { "x": -1.9566359519958496, "y": -18.718408584594727, "z": 11.16091537475586 }, "pca_coordinates": { "x": 4.896370887756348, "y": -0.9032800197601318, "z": -0.06364274024963379 }, "axis_scores": { "Quantum imaging": 0.6858310699462891, "Quantum Life Science Sensing": 0.7045911550521851, "Quantum sensing Detection": 0.6986651420593262, "Quantum sensing Metrology": 0.6718388795852661, "Quantum sensing navigation": 0.7141953706741333, "Quantum sensing Position": 0.6763216853141785, "Quantum sensing Timing": 0.6828869581222534, "Quantum sensing": 0.7079687118530273, "Quantum control": 0.6905859708786011 } }, { "id": 4047, "title": "AHARONOV-BOHM EFFECT IN A QUANTUM RING WITH STRONG ELECTRON-ELECTRON CORRELATIONS", "abstract": "We calculate the magnetic moment (''persistent current'') in a strongly correlated electron system - a Wigner crystal - in a one-dimensional ballistic ring (quantum ring). The flux- and temperature de...", "citations": 7, "author_count": 5, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 4053, "doi": "10.1088/0031-8949/1994/T54/029", "umap_coordinates": { "x": 395.0748291015625, "y": 135.86953735351562, "z": 208.37220764160156 }, "tsne_coordinates": { "x": -2.5044474601745605, "y": -21.94066619873047, "z": -5.490051746368408 }, "pca_coordinates": { "x": 2.6093244552612305, "y": 1.3826920986175537, "z": 0.7616316676139832 }, "axis_scores": { "Quantum imaging": 0.7263016700744629, "Quantum Life Science Sensing": 0.721653938293457, "Quantum sensing Detection": 0.725901186466217, "Quantum sensing Metrology": 0.7163197994232178, "Quantum sensing navigation": 0.7137959599494934, "Quantum sensing Position": 0.7023084759712219, "Quantum sensing Timing": 0.6856093406677246, "Quantum sensing": 0.7371268272399902, "Quantum control": 0.7045915126800537 } }, { "id": 4048, "title": "Characterization of a multimode coplanar waveguide parametric amplifier", "abstract": "We characterize a Josephson parametric amplifier based on a flux-tunable quarter-wavelength resonator. The fundamental resonance frequency is similar to 1 GHz, but we use higher modes of the resonator...", "citations": 43, "author_count": 9, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4054, "doi": "10.1063/1.4933265", "umap_coordinates": { "x": 394.1924743652344, "y": 133.8956756591797, "z": 207.2783203125 }, "tsne_coordinates": { "x": 19.853683471679688, "y": -26.572174072265625, "z": -21.4482479095459 }, "pca_coordinates": { "x": 0.31491684913635254, "y": 0.19772911071777344, "z": 3.688011646270752 }, "axis_scores": { "Quantum imaging": 0.706555187702179, "Quantum Life Science Sensing": 0.7003417611122131, "Quantum sensing Detection": 0.70920729637146, "Quantum sensing Metrology": 0.7315517663955688, "Quantum sensing navigation": 0.6826528310775757, "Quantum sensing Position": 0.6849550008773804, "Quantum sensing Timing": 0.6512141227722168, "Quantum sensing": 0.7190567255020142, "Quantum control": 0.6629363298416138 } }, { "id": 4049, "title": "Evidence for an excess of soft photons in hadronic decays of Z0", "abstract": "Soft photons inside hadronic jets converted in front of the DELPHI main tracker (TPC) in events of qq disintegrations of the Z(0) were studied in the kinematic range 0.2 < E-y < I GeV and transverse m...", "citations": 36, "author_count": 349, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4055, "doi": "10.1140/epjc/s2006-02568-8", "umap_coordinates": { "x": 396.6490173339844, "y": 134.6974639892578, "z": 206.87452697753906 }, "tsne_coordinates": { "x": -30.297914505004883, "y": 12.218504905700684, "z": -2.619770050048828 }, "pca_coordinates": { "x": 0.04908478260040283, "y": 2.1540720462799072, "z": 1.0066657066345215 }, "axis_scores": { "Quantum imaging": 0.6809393763542175, "Quantum Life Science Sensing": 0.6803689002990723, "Quantum sensing Detection": 0.6834661960601807, "Quantum sensing Metrology": 0.6451041102409363, "Quantum sensing navigation": 0.6666988730430603, "Quantum sensing Position": 0.6672220230102539, "Quantum sensing Timing": 0.6833474040031433, "Quantum sensing": 0.6731938719749451, "Quantum control": 0.6463837623596191 } }, { "id": 4050, "title": "Current-phase relation of a short multi-mode Bi2Se3 topological insulator nanoribbon Josephson junction with ballistic transport modes", "abstract": "We used the asymmetric superconducting quantum interference device (SQUID) technique to extract the current phase relation (CPR) of a Josephson junction with a 3D-topological insulator (3D-TI) Bi2Se3 ...", "citations": 3, "author_count": 12, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4056, "doi": "10.1088/1361-6668/accf40", "umap_coordinates": { "x": 394.16241455078125, "y": 134.99864196777344, "z": 207.61724853515625 }, "tsne_coordinates": { "x": 25.515560150146484, "y": -27.118452072143555, "z": 15.381950378417969 }, "pca_coordinates": { "x": 2.3026652336120605, "y": -0.7925970554351807, "z": 0.33295971155166626 }, "axis_scores": { "Quantum imaging": 0.7020643949508667, "Quantum Life Science Sensing": 0.7280309200286865, "Quantum sensing Detection": 0.6990741491317749, "Quantum sensing Metrology": 0.7071558833122253, "Quantum sensing navigation": 0.7275203466415405, "Quantum sensing Position": 0.696172833442688, "Quantum sensing Timing": 0.6969078183174133, "Quantum sensing": 0.7079146504402161, "Quantum control": 0.6694300174713135 } }, { "id": 4051, "title": "Improved stabilization scheme for extreme ultraviolet quantum interference experiments", "abstract": "Interferometric pump-probe experiments in the extreme ultraviolet (XUV) domain are experimentally very challenging due to the high phase stability required between the XUV pulses. Recently, an efficie...", "citations": 6, "author_count": 22, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4057, "doi": "10.1088/1361-6455/ac5f74", "umap_coordinates": { "x": 395.14324951171875, "y": 135.25238037109375, "z": 206.4967498779297 }, "tsne_coordinates": { "x": -21.696109771728516, "y": -5.726813793182373, "z": -21.8997859954834 }, "pca_coordinates": { "x": 0.31479334831237793, "y": 1.2716357707977295, "z": 0.8501946330070496 }, "axis_scores": { "Quantum imaging": 0.6954752802848816, "Quantum Life Science Sensing": 0.6893835067749023, "Quantum sensing Detection": 0.674657940864563, "Quantum sensing Metrology": 0.6679877638816833, "Quantum sensing navigation": 0.6799404621124268, "Quantum sensing Position": 0.6652846932411194, "Quantum sensing Timing": 0.6681811809539795, "Quantum sensing": 0.6891652345657349, "Quantum control": 0.7020831108093262 } }, { "id": 4052, "title": "SENSITIVITY AND NOISE OF COLD-ELECTRON BOLOMETER ARRAYS", "abstract": "We perform experimental and theoretical studies of the series-parallel arrays of the cold-electron bolometers integrated into a cross-slot antenna and composed with an immersion silicon lens. This wor...", "citations": 5, "author_count": 9, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4058, "doi": "10.1007/s11141-017-9744-8", "umap_coordinates": { "x": 394.41705322265625, "y": 134.23533630371094, "z": 206.73724365234375 }, "tsne_coordinates": { "x": -13.07624340057373, "y": -5.852964401245117, "z": -38.28010940551758 }, "pca_coordinates": { "x": -1.1154444217681885, "y": 0.05093812942504883, "z": 2.9413375854492188 }, "axis_scores": { "Quantum imaging": 0.6748499870300293, "Quantum Life Science Sensing": 0.6926487684249878, "Quantum sensing Detection": 0.6981301307678223, "Quantum sensing Metrology": 0.6882236003875732, "Quantum sensing navigation": 0.6923099756240845, "Quantum sensing Position": 0.693551778793335, "Quantum sensing Timing": 0.675955057144165, "Quantum sensing": 0.6922908425331116, "Quantum control": 0.6601578593254089 } }, { "id": 4053, "title": "Charge Sensitivity Enhancement via Mechanical Oscillation in Suspended Carbon Nanotube Devices", "abstract": "Single electron transistors (SETs) fabricated from single-walled carbon nanotubes (SWNTs) can be operated as highly sensitive charge detectors reaching sensitivity levels comparable to metallic radio ...", "citations": 22, "author_count": 6, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4059, "doi": "10.1021/nl504282s", "umap_coordinates": { "x": 393.3638916015625, "y": 135.0103759765625, "z": 206.3692169189453 }, "tsne_coordinates": { "x": 15.349098205566406, "y": -6.6390814781188965, "z": 22.131258010864258 }, "pca_coordinates": { "x": -1.1732077598571777, "y": -2.644115447998047, "z": -0.0340690016746521 }, "axis_scores": { "Quantum imaging": 0.6808724403381348, "Quantum Life Science Sensing": 0.7339594960212708, "Quantum sensing Detection": 0.718548059463501, "Quantum sensing Metrology": 0.7107894420623779, "Quantum sensing navigation": 0.7120213508605957, "Quantum sensing Position": 0.7217111587524414, "Quantum sensing Timing": 0.6879051327705383, "Quantum sensing": 0.7198007106781006, "Quantum control": 0.699905276298523 } }, { "id": 4054, "title": "Rapid single-flux-quantum circuits for low noise mK operation", "abstract": "Rapid single-flux-quantum (RSFQ) technology has been proposed as control electronics for superconducting quantum bits because of the material and working temperature compatibility. In this work, we co...", "citations": 16, "author_count": 6, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4060, "doi": "10.1088/0953-2048/19/5/S36", "umap_coordinates": { "x": 394.93988037109375, "y": 134.5259552001953, "z": 207.06553649902344 }, "tsne_coordinates": { "x": -18.768539428710938, "y": -1.055728793144226, "z": -31.226070404052734 }, "pca_coordinates": { "x": 0.3504382371902466, "y": 1.0202580690383911, "z": 1.0671608448028564 }, "axis_scores": { "Quantum imaging": 0.6645525693893433, "Quantum Life Science Sensing": 0.6982198357582092, "Quantum sensing Detection": 0.6680893898010254, "Quantum sensing Metrology": 0.6817499399185181, "Quantum sensing navigation": 0.6934207081794739, "Quantum sensing Position": 0.6643697619438171, "Quantum sensing Timing": 0.6717360615730286, "Quantum sensing": 0.6830326318740845, "Quantum control": 0.6390083432197571 } }, { "id": 4055, "title": "Investigation of nonlinear effects in Josephson parametric oscillators used in circuit quantum electrodynamics", "abstract": "We experimentally study the behavior of a parametrically pumped nonlinear oscillator, which is based on a superconducting lambda/4 resonator, and is terminated by a flux-tunable superconducting quantu...", "citations": 52, "author_count": 10, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4061, "doi": "10.1088/1367-2630/15/10/105002", "umap_coordinates": { "x": 394.56329345703125, "y": 134.9693603515625, "z": 207.302978515625 }, "tsne_coordinates": { "x": -5.903110504150391, "y": -11.082047462463379, "z": 19.84958839416504 }, "pca_coordinates": { "x": 1.720320463180542, "y": 0.7199172973632812, "z": 1.2843647003173828 }, "axis_scores": { "Quantum imaging": 0.7325356006622314, "Quantum Life Science Sensing": 0.7270167469978333, "Quantum sensing Detection": 0.709742546081543, "Quantum sensing Metrology": 0.7065789699554443, "Quantum sensing navigation": 0.7250857353210449, "Quantum sensing Position": 0.696785032749176, "Quantum sensing Timing": 0.7007328271865845, "Quantum sensing": 0.7242913246154785, "Quantum control": 0.7087138295173645 } }, { "id": 4056, "title": "Anomalous molecular dynamics in the vicinity of a conical intersection", "abstract": "Conical intersections between molecular electronic potential energy surfaces can greatly affect molecular dynamics and chemical properties. Molecular gauge theory is capable of explaining many of thes...", "citations": 5, "author_count": 4, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4062, "doi": "10.1209/0295-5075/101/43001", "umap_coordinates": { "x": 394.20001220703125, "y": 136.5975799560547, "z": 207.533203125 }, "tsne_coordinates": { "x": -10.455880165100098, "y": -6.853881359100342, "z": 24.445594787597656 }, "pca_coordinates": { "x": 1.5778160095214844, "y": 1.8129701614379883, "z": -0.4059543013572693 }, "axis_scores": { "Quantum imaging": 0.6882030963897705, "Quantum Life Science Sensing": 0.6828686594963074, "Quantum sensing Detection": 0.6892883777618408, "Quantum sensing Metrology": 0.6554548144340515, "Quantum sensing navigation": 0.6883591413497925, "Quantum sensing Position": 0.6935456991195679, "Quantum sensing Timing": 0.6981881260871887, "Quantum sensing": 0.6815162897109985, "Quantum control": 0.6852806210517883 } }, { "id": 4057, "title": "Effective field theory for a p-wave superconductor in the subgap regime", "abstract": "We construct an effective field theory for the 2d spinless p-wave paired superconductor that faithfully describes the topological properties of the bulk state, and also provides a model for the subgap...", "citations": 7, "author_count": 5, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4063, "doi": "10.1103/PhysRevB.91.075116", "umap_coordinates": { "x": 394.20526123046875, "y": 136.67556762695312, "z": 208.73959350585938 }, "tsne_coordinates": { "x": -15.395085334777832, "y": -39.70292282104492, "z": 5.856256008148193 }, "pca_coordinates": { "x": 3.737044334411621, "y": -0.49091100692749023, "z": 0.15708857774734497 }, "axis_scores": { "Quantum imaging": 0.684407651424408, "Quantum Life Science Sensing": 0.706052839756012, "Quantum sensing Detection": 0.6756733059883118, "Quantum sensing Metrology": 0.6720433235168457, "Quantum sensing navigation": 0.6804616451263428, "Quantum sensing Position": 0.6675834059715271, "Quantum sensing Timing": 0.6513938307762146, "Quantum sensing": 0.6907244324684143, "Quantum control": 0.6596235632896423 } }, { "id": 4058, "title": "A Count Rate-Dependent Method for Spectral Distortion Correction in Photon Counting CT", "abstract": "Rawdata-based material decomposition in spectral CT using photon-counting energy-selective detectors relies on a precise forward model that predicts a count-rate given intersection lengths for each ma...", "citations": 8, "author_count": 8, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4064, "doi": "10.1117/12.2292194", "umap_coordinates": { "x": 395.68548583984375, "y": 132.6733856201172, "z": 205.64926147460938 }, "tsne_coordinates": { "x": -4.647905349731445, "y": 21.26922035217285, "z": -21.47275733947754 }, "pca_coordinates": { "x": -2.3131513595581055, "y": 3.041530132293701, "z": 3.0618700981140137 }, "axis_scores": { "Quantum imaging": 0.703780472278595, "Quantum Life Science Sensing": 0.692949116230011, "Quantum sensing Detection": 0.7049326300621033, "Quantum sensing Metrology": 0.6894471645355225, "Quantum sensing navigation": 0.6751281023025513, "Quantum sensing Position": 0.6739670038223267, "Quantum sensing Timing": 0.699256956577301, "Quantum sensing": 0.6966553330421448, "Quantum control": 0.6727374792098999 } }, { "id": 4059, "title": "DISPERSION MEASUREMENTS OF HOT HOLES IN QUANTUM-WELLS", "abstract": "An optical method for obtaining the valence subband dispersion of GaAs/AlGaAs quantum wells, including warping, is reviewed. Utilizing the recombination of hot electrons at neutral acceptors, the meth...", "citations": 9, "author_count": 5, "categories": [ "Engineering" ], "year": 1994, "topic": [ "all" ], "embedding_index": 4065, "doi": "10.1088/0268-1242/9/5S/075", "umap_coordinates": { "x": 393.9643249511719, "y": 135.14749145507812, "z": 207.38116455078125 }, "tsne_coordinates": { "x": 26.847448348999023, "y": -17.392292022705078, "z": 16.12863540649414 }, "pca_coordinates": { "x": 1.5726008415222168, "y": -0.14100933074951172, "z": 1.5832173824310303 }, "axis_scores": { "Quantum imaging": 0.7000371217727661, "Quantum Life Science Sensing": 0.7026571035385132, "Quantum sensing Detection": 0.6961775422096252, "Quantum sensing Metrology": 0.7007824182510376, "Quantum sensing navigation": 0.7075880765914917, "Quantum sensing Position": 0.7188298106193542, "Quantum sensing Timing": 0.7197377681732178, "Quantum sensing": 0.710770308971405, "Quantum control": 0.6703945994377136 } }, { "id": 4060, "title": "Fast Rasterscanning Enables FLIM in Macroscopic Samples up to Several Centimeters", "abstract": "Fluorescence Lifetime Imaging (FLIM) based on Time-Correlated Single Photon Counting (TCSPC) is nowadays a well established technique that is very often realised as an add-on for confocal laser scanni...", "citations": 2, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4066, "doi": "10.1117/12.843453", "umap_coordinates": { "x": 394.9898376464844, "y": 133.64663696289062, "z": 205.9459228515625 }, "tsne_coordinates": { "x": -2.11684513092041, "y": 14.58808708190918, "z": -25.14519691467285 }, "pca_coordinates": { "x": -2.211721181869507, "y": 1.444661021232605, "z": 1.0067667961120605 }, "axis_scores": { "Quantum imaging": 0.7068416476249695, "Quantum Life Science Sensing": 0.6938331127166748, "Quantum sensing Detection": 0.6782088279724121, "Quantum sensing Metrology": 0.7044485807418823, "Quantum sensing navigation": 0.6919352412223816, "Quantum sensing Position": 0.6774957776069641, "Quantum sensing Timing": 0.6709158420562744, "Quantum sensing": 0.7078847289085388, "Quantum control": 0.6609743237495422 } }, { "id": 4061, "title": "Visualisation of nitric oxide released by nerve stimulation", "abstract": "We have visualised nitric oxide (NO) released from the electrically stimulated myenteric plexus and hypogastric nerve. NO was visualised by a reaction with luminol and hydrogen peroxide to generate ph...", "citations": 43, "author_count": 10, "categories": [ "Neurosciences & Neurology" ], "year": 1997, "topic": [ "all" ], "embedding_index": 4067, "doi": "10.1002/(SICI)1097-4547(19970115)47:2<224::AID-JNR11>3.0.CO;2-2", "umap_coordinates": { "x": 394.9772033691406, "y": 135.1774139404297, "z": 204.8525848388672 }, "tsne_coordinates": { "x": -9.5546236038208, "y": 21.709508895874023, "z": 8.600190162658691 }, "pca_coordinates": { "x": -1.6994755268096924, "y": 2.868168354034424, "z": 1.2626290321350098 }, "axis_scores": { "Quantum imaging": 0.7213308811187744, "Quantum Life Science Sensing": 0.7146732211112976, "Quantum sensing Detection": 0.7155776619911194, "Quantum sensing Metrology": 0.6973596811294556, "Quantum sensing navigation": 0.7292121052742004, "Quantum sensing Position": 0.6971081495285034, "Quantum sensing Timing": 0.6782978177070618, "Quantum sensing": 0.719560980796814, "Quantum control": 0.6936390399932861 } }, { "id": 4062, "title": "Atomic Layer Deposition as the Enabler for the Metastable Semiconductor InN and Its Alloys", "abstract": "Indium nitride (InN) is a low-band-gap semiconductor with unusually high electron mobility, making it suitable for IR-range optoelectronics and high-frequency transistors. However, the development of ...", "citations": 7, "author_count": 6, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4068, "doi": "10.1021/acs.cgd.3c00775", "umap_coordinates": { "x": 391.8611145019531, "y": 134.04608154296875, "z": 206.5885467529297 }, "tsne_coordinates": { "x": 21.634057998657227, "y": -9.191216468811035, "z": -5.949573040008545 }, "pca_coordinates": { "x": -0.7960431575775146, "y": -2.1885204315185547, "z": -0.9841727018356323 }, "axis_scores": { "Quantum imaging": 0.6291947960853577, "Quantum Life Science Sensing": 0.6573681831359863, "Quantum sensing Detection": 0.6594470739364624, "Quantum sensing Metrology": 0.653123676776886, "Quantum sensing navigation": 0.6645951867103577, "Quantum sensing Position": 0.6503535509109497, "Quantum sensing Timing": 0.6413429379463196, "Quantum sensing": 0.6570596694946289, "Quantum control": 0.6310571432113647 } }, { "id": 4063, "title": "Optimal fidelity witnesses for gravitational entanglement", "abstract": "Optomechanical systems open new possibilities in fundamental research at the interface between quantum information and gravity. Recently, an ambitious experimental proposal was suggested by Bose et al...", "citations": 8, "author_count": 4, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4069, "doi": "10.1103/PhysRevA.105.022444", "umap_coordinates": { "x": 395.7320251464844, "y": 137.17959594726562, "z": 207.8799591064453 }, "tsne_coordinates": { "x": -22.068185806274414, "y": -19.648439407348633, "z": -4.6208600997924805 }, "pca_coordinates": { "x": 4.49775505065918, "y": 2.9391748905181885, "z": 1.0266225337982178 }, "axis_scores": { "Quantum imaging": 0.7273303866386414, "Quantum Life Science Sensing": 0.7057176828384399, "Quantum sensing Detection": 0.7154858708381653, "Quantum sensing Metrology": 0.7062405347824097, "Quantum sensing navigation": 0.7218985557556152, "Quantum sensing Position": 0.7069016695022583, "Quantum sensing Timing": 0.7189151048660278, "Quantum sensing": 0.7279949188232422, "Quantum control": 0.7239039540290833 } }, { "id": 4064, "title": "Realizing nonadiabatic holonomic quantum computation beyond the three-level setting", "abstract": "Nonadiabatic holonomic quantum computation (NHQC) provides a method to implement error resilient gates and that has attracted considerable attention recently. Since it was proposed, three-level A syst...", "citations": 15, "author_count": 5, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4070, "doi": "10.1103/PhysRevA.103.052605", "umap_coordinates": { "x": 395.0091552734375, "y": 137.20777893066406, "z": 208.18121337890625 }, "tsne_coordinates": { "x": -34.36631774902344, "y": -11.247550010681152, "z": 17.570690155029297 }, "pca_coordinates": { "x": 3.7317886352539062, "y": 1.2574597597122192, "z": -0.16628426313400269 }, "axis_scores": { "Quantum imaging": 0.7310633659362793, "Quantum Life Science Sensing": 0.7062938809394836, "Quantum sensing Detection": 0.7141056060791016, "Quantum sensing Metrology": 0.7042466998100281, "Quantum sensing navigation": 0.7295235991477966, "Quantum sensing Position": 0.7044402360916138, "Quantum sensing Timing": 0.7078791856765747, "Quantum sensing": 0.7291394472122192, "Quantum control": 0.7188482880592346 } }, { "id": 4065, "title": "Nonradiative centers in InAs dots grown on GaAs substrates for 1.3 μm emission", "abstract": "Nonradiative centers in InAs dots grown on GaAs substrates are investigated in this study. The emission from InAs dots close to 1.3 mum is monitored under different excitation densities and different ...", "citations": 2, "author_count": 10, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4071, "doi": "10.1016/S0375-9601(03)00975-7", "umap_coordinates": { "x": 392.9525451660156, "y": 133.62989807128906, "z": 206.90846252441406 }, "tsne_coordinates": { "x": 45.66073226928711, "y": 0.15531712770462036, "z": 1.2602827548980713 }, "pca_coordinates": { "x": -2.431999444961548, "y": -1.9978156089782715, "z": 1.4372217655181885 }, "axis_scores": { "Quantum imaging": 0.6695694327354431, "Quantum Life Science Sensing": 0.6778931021690369, "Quantum sensing Detection": 0.6709995865821838, "Quantum sensing Metrology": 0.6682011485099792, "Quantum sensing navigation": 0.6618567109107971, "Quantum sensing Position": 0.6585904359817505, "Quantum sensing Timing": 0.6431047320365906, "Quantum sensing": 0.6727394461631775, "Quantum control": 0.6230413317680359 } }, { "id": 4066, "title": "Composition Related Tunability of Green Core/Shell Quantum Dots for Photovoltaic Applications from First Principles", "abstract": "Quantum dots (QDs) with core/shell (c/s) type configurations are promising candidates for photovoltaic (PV) applications, as they are known to enhance the QD stability, and are also expected to reduce...", "citations": 12, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4072, "doi": "10.1021/acs.jpcc.1c05230", "umap_coordinates": { "x": 391.9615478515625, "y": 134.87069702148438, "z": 205.56277465820312 }, "tsne_coordinates": { "x": 6.958606243133545, "y": -3.9386379718780518, "z": -4.903916358947754 }, "pca_coordinates": { "x": -2.8349738121032715, "y": -3.536041259765625, "z": -2.427248954772949 }, "axis_scores": { "Quantum imaging": 0.6868096590042114, "Quantum Life Science Sensing": 0.7445284128189087, "Quantum sensing Detection": 0.6890843510627747, "Quantum sensing Metrology": 0.6874579191207886, "Quantum sensing navigation": 0.6902520060539246, "Quantum sensing Position": 0.6785029768943787, "Quantum sensing Timing": 0.6661750078201294, "Quantum sensing": 0.7033759355545044, "Quantum control": 0.6999095678329468 } }, { "id": 4067, "title": "Cascaded Systems Modeling of Signal, Noise, and DQE for X-Ray Photon Counting Detectors", "abstract": "Photon counting detector (PCD) x-ray imaging systems have seen increasing use in the past decade in applications such as low-dose radiography and tomography. A cascaded systems analysis model has been...", "citations": 1, "author_count": 10, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4073, "doi": "10.1117/12.2043515", "umap_coordinates": { "x": 395.64410400390625, "y": 133.17672729492188, "z": 206.0093536376953 }, "tsne_coordinates": { "x": -13.496295928955078, "y": 17.3197021484375, "z": -29.01152801513672 }, "pca_coordinates": { "x": -0.10292541980743408, "y": 1.5290700197219849, "z": 2.3051164150238037 }, "axis_scores": { "Quantum imaging": 0.7686663269996643, "Quantum Life Science Sensing": 0.7593618631362915, "Quantum sensing Detection": 0.769037127494812, "Quantum sensing Metrology": 0.7329663038253784, "Quantum sensing navigation": 0.7468055486679077, "Quantum sensing Position": 0.7249234914779663, "Quantum sensing Timing": 0.7409126162528992, "Quantum sensing": 0.756923496723175, "Quantum control": 0.7294593453407288 } }, { "id": 4068, "title": "Wafer-level capping and sealing of heat sensitive substances and liquids with gold gaskets", "abstract": "This paper reports on a novel wafer-level packaging method employing gold gaskets and an epoxy underfill. The packaging is done at room-temperature and atmospheric pressure. The mild packaging conditi...", "citations": 6, "author_count": 7, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4074, "doi": "10.1016/j.sna.2013.07.007", "umap_coordinates": { "x": 393.57855224609375, "y": 133.48410034179688, "z": 205.41932678222656 }, "tsne_coordinates": { "x": 9.951948165893555, "y": 15.221105575561523, "z": -10.233349800109863 }, "pca_coordinates": { "x": -2.7020950317382812, "y": 0.8080804347991943, "z": 1.4845302104949951 }, "axis_scores": { "Quantum imaging": 0.6948635578155518, "Quantum Life Science Sensing": 0.7132999300956726, "Quantum sensing Detection": 0.706661581993103, "Quantum sensing Metrology": 0.708238959312439, "Quantum sensing navigation": 0.7175514698028564, "Quantum sensing Position": 0.7092138528823853, "Quantum sensing Timing": 0.7011972665786743, "Quantum sensing": 0.7216107249259949, "Quantum control": 0.6865372061729431 } }, { "id": 4069, "title": "Hyper Rayleigh scattering yields improved response function in analysing 2-photon excited fluorescence", "abstract": "An accurate instrumental response function is needed to conclusively deconvolute fluorescence data based on time-correlated single-photon counting (TCSPC) and multiphoton excitation. Routinely the res...", "citations": 5, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4075, "doi": "10.1023/A:1021378313407", "umap_coordinates": { "x": 393.05755615234375, "y": 135.15359497070312, "z": 205.48573303222656 }, "tsne_coordinates": { "x": 37.68132781982422, "y": -2.8574981689453125, "z": -19.764760971069336 }, "pca_coordinates": { "x": -3.1042208671569824, "y": -0.024930953979492188, "z": -0.19881471991539001 }, "axis_scores": { "Quantum imaging": 0.6892330646514893, "Quantum Life Science Sensing": 0.686005175113678, "Quantum sensing Detection": 0.677819013595581, "Quantum sensing Metrology": 0.6766857504844666, "Quantum sensing navigation": 0.6693806648254395, "Quantum sensing Position": 0.6498602032661438, "Quantum sensing Timing": 0.6297643780708313, "Quantum sensing": 0.6915350556373596, "Quantum control": 0.6469790935516357 } }, { "id": 4070, "title": "Contextuality in Classical Physics and Its Impact on the Foundations of Quantum Mechanics", "abstract": "It is shown that the hallmark quantum phenomenon of contextuality is present in classical statistical mechanics (CSM). It is first shown that the occurrence of contextuality is equivalent to there bei...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4076, "doi": "10.3390/e23080968", "umap_coordinates": { "x": 395.3332824707031, "y": 137.50698852539062, "z": 206.30967712402344 }, "tsne_coordinates": { "x": -19.308622360229492, "y": 2.6377389430999756, "z": 9.387582778930664 }, "pca_coordinates": { "x": 1.2284266948699951, "y": 4.36676549911499, "z": -2.4584667682647705 }, "axis_scores": { "Quantum imaging": 0.7545675039291382, "Quantum Life Science Sensing": 0.7550849914550781, "Quantum sensing Detection": 0.7381724715232849, "Quantum sensing Metrology": 0.7273553609848022, "Quantum sensing navigation": 0.7700070738792419, "Quantum sensing Position": 0.7331743836402893, "Quantum sensing Timing": 0.7359013557434082, "Quantum sensing": 0.7678732872009277, "Quantum control": 0.7507271766662598 } }, { "id": 4071, "title": "Multifunctional ZnO/SiO2 Core/Shell Nanoparticles for Bioimaging and Drug Delivery Application", "abstract": "Semiconducting nanoparticles with luminescent properties are used as detection probes and drug carriers in in-vitro and in-vivo analysis. ZnO nanoparticles, due to its biocompatibility and low cost, h...", "citations": 36, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4077, "doi": "10.1007/s10895-020-02578-z", "umap_coordinates": { "x": 393.543212890625, "y": 133.8591766357422, "z": 204.8739776611328 }, "tsne_coordinates": { "x": 14.952138900756836, "y": 26.17365074157715, "z": -12.547540664672852 }, "pca_coordinates": { "x": -5.592987537384033, "y": -1.6201844215393066, "z": 0.8272437453269958 }, "axis_scores": { "Quantum imaging": 0.7027389407157898, "Quantum Life Science Sensing": 0.7210094928741455, "Quantum sensing Detection": 0.6858096122741699, "Quantum sensing Metrology": 0.6936153173446655, "Quantum sensing navigation": 0.6816579699516296, "Quantum sensing Position": 0.6818592548370361, "Quantum sensing Timing": 0.6563212871551514, "Quantum sensing": 0.6993593573570251, "Quantum control": 0.6797491312026978 } }, { "id": 4072, "title": "Crystal Structure Induced Preferential Surface Alloying of Sb on Wurtzite/Zinc Blende GaAs Nanowires", "abstract": "We study the surface diffusion and alloying of Sb into GaAs nanowires (NWs) with controlled axial stacking of wurtzite (Wz) and zinc blende (Zb) crystal phases. Using atomically resolved scanning tunn...", "citations": 15, "author_count": 9, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4078, "doi": "10.1021/acs.nanolett.7b00806", "umap_coordinates": { "x": 391.93316650390625, "y": 134.15142822265625, "z": 207.19842529296875 }, "tsne_coordinates": { "x": 20.4277286529541, "y": -11.42161750793457, "z": -8.165207862854004 }, "pca_coordinates": { "x": -0.6707545518875122, "y": -5.215893268585205, "z": -1.2033895254135132 }, "axis_scores": { "Quantum imaging": 0.6555836200714111, "Quantum Life Science Sensing": 0.6742035150527954, "Quantum sensing Detection": 0.6640025973320007, "Quantum sensing Metrology": 0.6552391648292542, "Quantum sensing navigation": 0.6850094199180603, "Quantum sensing Position": 0.6734067797660828, "Quantum sensing Timing": 0.6496620178222656, "Quantum sensing": 0.6671923995018005, "Quantum control": 0.6537976861000061 } }, { "id": 4073, "title": "Tunable Wigner States with Dipolar Atoms and Molecules", "abstract": "We study the few-body physics of trapped atoms or molecules with electric or magnetic dipole moments aligned by an external field. Using exact numerical diagonalization appropriate for the strongly co...", "citations": 42, "author_count": 4, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4079, "doi": "10.1103/PhysRevLett.105.255301", "umap_coordinates": { "x": 395.33441162109375, "y": 136.10736083984375, "z": 208.64134216308594 }, "tsne_coordinates": { "x": -20.137039184570312, "y": -20.415876388549805, "z": -10.247237205505371 }, "pca_coordinates": { "x": 3.2129464149475098, "y": -1.2699785232543945, "z": 0.5280258059501648 }, "axis_scores": { "Quantum imaging": 0.7278791069984436, "Quantum Life Science Sensing": 0.7234295010566711, "Quantum sensing Detection": 0.7171764373779297, "Quantum sensing Metrology": 0.708591639995575, "Quantum sensing navigation": 0.7240194082260132, "Quantum sensing Position": 0.6734522581100464, "Quantum sensing Timing": 0.6958790421485901, "Quantum sensing": 0.736538827419281, "Quantum control": 0.7279669642448425 } }, { "id": 4074, "title": "On pulse-induced transition amplitudes in a two-state quantum system without level crossings", "abstract": "An exact dynamical parametrization of pulse-induced transition amplitudes in a Rosen-Zener- or Nikitin-type two-level system is constructed. The three dynamical parameters are closely related to the s...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4080, "doi": "10.1088/0305-4470/35/34/318", "umap_coordinates": { "x": 394.4111633300781, "y": 136.4403839111328, "z": 206.5230712890625 }, "tsne_coordinates": { "x": -4.878810405731201, "y": -2.1337943077087402, "z": 10.80864429473877 }, "pca_coordinates": { "x": 2.5752923488616943, "y": 1.7491016387939453, "z": 1.5302186012268066 }, "axis_scores": { "Quantum imaging": 0.6923637986183167, "Quantum Life Science Sensing": 0.6742426156997681, "Quantum sensing Detection": 0.6787376999855042, "Quantum sensing Metrology": 0.666006326675415, "Quantum sensing navigation": 0.6664114594459534, "Quantum sensing Position": 0.6523554921150208, "Quantum sensing Timing": 0.688769519329071, "Quantum sensing": 0.6832041144371033, "Quantum control": 0.6598473787307739 } }, { "id": 4075, "title": "The gravito-phononic effect: a quantum signature of linearised gravity", "abstract": "The photo-electric effect was a historic milestone in the development of quantum theory, revealing the first evidence of discrete energy of the electromagnetic field through hallmark signatures such a...", "citations": 1, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4081, "doi": "10.1016/j.physletb.2025.139785", "umap_coordinates": { "x": 394.5325927734375, "y": 136.7271270751953, "z": 205.73336791992188 }, "tsne_coordinates": { "x": -13.799783706665039, "y": 8.519659996032715, "z": 15.503424644470215 }, "pca_coordinates": { "x": 0.8728437423706055, "y": 2.0784220695495605, "z": -0.26493746042251587 }, "axis_scores": { "Quantum imaging": 0.7255955338478088, "Quantum Life Science Sensing": 0.7409334778785706, "Quantum sensing Detection": 0.729835569858551, "Quantum sensing Metrology": 0.7198376655578613, "Quantum sensing navigation": 0.7474843859672546, "Quantum sensing Position": 0.7355448007583618, "Quantum sensing Timing": 0.6998142600059509, "Quantum sensing": 0.7369927167892456, "Quantum control": 0.6986530423164368 } }, { "id": 4076, "title": "A visible-light-driven molecular motor based on barbituric acid", "abstract": "We present a class of visible-light-driven molecular motors based on barbituric acid. Due to a serendipitous reactivity we observed during their synthesis, these motors possess a tertiary stereogenic ...", "citations": 25, "author_count": 10, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4082, "doi": "10.1039/d3sc03090c", "umap_coordinates": { "x": 392.27130126953125, "y": 135.59860229492188, "z": 204.88169860839844 }, "tsne_coordinates": { "x": 10.955903053283691, "y": 8.419927597045898, "z": -12.138524055480957 }, "pca_coordinates": { "x": -1.4782817363739014, "y": -0.6715023517608643, "z": -2.840742349624634 }, "axis_scores": { "Quantum imaging": 0.6848378777503967, "Quantum Life Science Sensing": 0.7122666835784912, "Quantum sensing Detection": 0.6979202032089233, "Quantum sensing Metrology": 0.6781203150749207, "Quantum sensing navigation": 0.7033831477165222, "Quantum sensing Position": 0.6782215237617493, "Quantum sensing Timing": 0.6633995771408081, "Quantum sensing": 0.7109613418579102, "Quantum control": 0.7183825969696045 } }, { "id": 4077, "title": "Co(NO3)2 as an inverted umbrella-type chiral noncoplanar ferrimagnet", "abstract": "The low-dimensional magnetic systems tend to reveal exotic spin-liquid ground states or form peculiar types of long-range order. Among systems of vivid interest are those characterized by the triangul...", "citations": 5, "author_count": 20, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4083, "doi": "10.1103/PhysRevB.102.094429", "umap_coordinates": { "x": 393.6268005371094, "y": 137.14608764648438, "z": 208.40098571777344 }, "tsne_coordinates": { "x": -4.227502346038818, "y": -32.71364974975586, "z": 11.463264465332031 }, "pca_coordinates": { "x": 1.306194543838501, "y": -0.6453492641448975, "z": -2.0072951316833496 }, "axis_scores": { "Quantum imaging": 0.7278215289115906, "Quantum Life Science Sensing": 0.7274816036224365, "Quantum sensing Detection": 0.7136576175689697, "Quantum sensing Metrology": 0.7004097700119019, "Quantum sensing navigation": 0.7104759216308594, "Quantum sensing Position": 0.6830421090126038, "Quantum sensing Timing": 0.6633792519569397, "Quantum sensing": 0.7179075479507446, "Quantum control": 0.7037578821182251 } }, { "id": 4078, "title": "A dual-band cold-electron bolometer with on-chip filters for the 220/240GHz channels of the LSPE instrument", "abstract": "We are developing multi-chroic double-slot antenna with cold-electron Bolometer (CEB) on-chip filters for the 220/240 GHz interstellar dust monitoring channels of the LSPE-SWIPE experiment. For this g...", "citations": 2, "author_count": 7, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4084, "doi": "10.1088/1361-6668/ab214b", "umap_coordinates": { "x": 395.2133483886719, "y": 134.29872131347656, "z": 206.71836853027344 }, "tsne_coordinates": { "x": -11.689826011657715, "y": -7.841170787811279, "z": -35.73966979980469 }, "pca_coordinates": { "x": -1.002790093421936, "y": 1.038553237915039, "z": 3.069716453552246 }, "axis_scores": { "Quantum imaging": 0.6466268301010132, "Quantum Life Science Sensing": 0.6660082340240479, "Quantum sensing Detection": 0.6450315713882446, "Quantum sensing Metrology": 0.642255425453186, "Quantum sensing navigation": 0.6401732563972473, "Quantum sensing Position": 0.6216678023338318, "Quantum sensing Timing": 0.6414389610290527, "Quantum sensing": 0.6547980308532715, "Quantum control": 0.6239410638809204 } }, { "id": 4079, "title": "2D Spectroscopy Study of Water-Soluble Chlorophyll-Binding Protein from Lepidium virginicum", "abstract": "Water-soluble chlorophyll-binding proteins (WSCPs) are interesting model systems for the study of pigment-pigment and pigment-protein interactions. While class IIa WSCP has been extensively studied by...", "citations": 39, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4085, "doi": "10.1021/jp411174t", "umap_coordinates": { "x": 392.885986328125, "y": 136.1819610595703, "z": 205.0546417236328 }, "tsne_coordinates": { "x": 11.15968132019043, "y": 14.749698638916016, "z": 13.98794174194336 }, "pca_coordinates": { "x": -3.036284923553467, "y": -1.3724465370178223, "z": -2.10101318359375 }, "axis_scores": { "Quantum imaging": 0.6915180683135986, "Quantum Life Science Sensing": 0.7384663224220276, "Quantum sensing Detection": 0.6855279803276062, "Quantum sensing Metrology": 0.6837972402572632, "Quantum sensing navigation": 0.6723703742027283, "Quantum sensing Position": 0.671968936920166, "Quantum sensing Timing": 0.6418589949607849, "Quantum sensing": 0.6981194615364075, "Quantum control": 0.6599183082580566 } }, { "id": 4080, "title": "Coherent interference in the resonant dissociative electron attachment to carbon monoxide", "abstract": "Dissociative electron attachment to carbon monoxide, e(-) + CO -> C + O-, at 9.5, 10.0, and 10.6 eV is investigated by using the anion velocity time-sliced map imaging technique. The completely backwa...", "citations": 17, "author_count": 9, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4086, "doi": "10.1103/PhysRevA.88.012708", "umap_coordinates": { "x": 395.3011474609375, "y": 135.47085571289062, "z": 207.90020751953125 }, "tsne_coordinates": { "x": -7.130944728851318, "y": -10.603906631469727, "z": -3.0994529724121094 }, "pca_coordinates": { "x": 3.6425509452819824, "y": 0.15031147003173828, "z": 0.6932787299156189 }, "axis_scores": { "Quantum imaging": 0.7229154706001282, "Quantum Life Science Sensing": 0.7125741839408875, "Quantum sensing Detection": 0.7236422896385193, "Quantum sensing Metrology": 0.6735411882400513, "Quantum sensing navigation": 0.6910504698753357, "Quantum sensing Position": 0.6789823174476624, "Quantum sensing Timing": 0.6741838455200195, "Quantum sensing": 0.7106151580810547, "Quantum control": 0.6841077208518982 } }, { "id": 4081, "title": "Synchronous X-ray and Radio Mode Switches: A Rapid Global Transformation of the Pulsar Magnetosphere", "abstract": "Pulsars emit from low-frequency radio waves up to high-energy gamma-rays, generated anywhere from the stellar surface out to the edge of the magnetosphere. Detecting correlated mode changes across the...", "citations": 126, "author_count": 90, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4087, "doi": "10.1126/science.1230960", "umap_coordinates": { "x": 395.8791809082031, "y": 135.33412170410156, "z": 206.06484985351562 }, "tsne_coordinates": { "x": -28.412334442138672, "y": 23.139604568481445, "z": 8.683724403381348 }, "pca_coordinates": { "x": -0.1734253168106079, "y": 1.490750789642334, "z": -1.1196913719177246 }, "axis_scores": { "Quantum imaging": 0.7063490748405457, "Quantum Life Science Sensing": 0.7430189847946167, "Quantum sensing Detection": 0.7055016756057739, "Quantum sensing Metrology": 0.702368974685669, "Quantum sensing navigation": 0.7179369926452637, "Quantum sensing Position": 0.6814395785331726, "Quantum sensing Timing": 0.6982591152191162, "Quantum sensing": 0.716915488243103, "Quantum control": 0.6956549286842346 } }, { "id": 4082, "title": "Discrete phase-space structure of n-qubit mutually unbiased bases", "abstract": "We work out the phase-space structure for a system of n qubits. We replace the field of real numbers that label the axes of the continuous phase space by the finite field GF(2(n)) and investigate the ...", "citations": 32, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4088, "doi": "10.1016/j.aop.2008.10.003", "umap_coordinates": { "x": 394.7408752441406, "y": 136.78004455566406, "z": 207.15415954589844 }, "tsne_coordinates": { "x": -18.11565589904785, "y": 37.620479583740234, "z": -7.622303009033203 }, "pca_coordinates": { "x": 2.3640081882476807, "y": 1.2931984663009644, "z": 0.010109126567840576 }, "axis_scores": { "Quantum imaging": 0.7698215842247009, "Quantum Life Science Sensing": 0.7469213604927063, "Quantum sensing Detection": 0.7542852163314819, "Quantum sensing Metrology": 0.7547484636306763, "Quantum sensing navigation": 0.7884180545806885, "Quantum sensing Position": 0.7641147971153259, "Quantum sensing Timing": 0.7417367696762085, "Quantum sensing": 0.7714647650718689, "Quantum control": 0.7504451870918274 } }, { "id": 4083, "title": "DNA gel nanoparticles: preparation and controlling the size", "abstract": "A simple and novel method was used for the preparation of nano-/micro-sized DNA gel particles by nebulisation of a solution of DNA (single-or double-stranded) into an oppositely charged surfactant (ce...", "citations": 18, "author_count": 6, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4089, "doi": "10.1039/b822169c", "umap_coordinates": { "x": 392.9453430175781, "y": 135.38827514648438, "z": 205.1190948486328 }, "tsne_coordinates": { "x": 12.830668449401855, "y": 14.583745002746582, "z": 5.184220790863037 }, "pca_coordinates": { "x": -2.2115116119384766, "y": -1.444145679473877, "z": -2.786527395248413 }, "axis_scores": { "Quantum imaging": 0.7107577323913574, "Quantum Life Science Sensing": 0.7377333641052246, "Quantum sensing Detection": 0.711453914642334, "Quantum sensing Metrology": 0.6879504919052124, "Quantum sensing navigation": 0.7157818078994751, "Quantum sensing Position": 0.6998760104179382, "Quantum sensing Timing": 0.6723644137382507, "Quantum sensing": 0.7232308983802795, "Quantum control": 0.727986216545105 } }, { "id": 4084, "title": "Non-Kolmogorov probability models and modified Bell's inequality", "abstract": "We analyze the proof of Bell's inequality and demonstrate that this inequality is related to one particular model of probability theory, namely Kolmogorov measure-theoretical axiomatics from 1933. We ...", "citations": 49, "author_count": 2, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4090, "doi": "10.1063/1.533210", "umap_coordinates": { "x": 395.1358337402344, "y": 137.59889221191406, "z": 206.59243774414062 }, "tsne_coordinates": { "x": -21.474353790283203, "y": 2.8930933475494385, "z": 16.49132537841797 }, "pca_coordinates": { "x": 2.233231544494629, "y": 3.094135046005249, "z": -0.07644909620285034 }, "axis_scores": { "Quantum imaging": 0.7227783799171448, "Quantum Life Science Sensing": 0.7334777116775513, "Quantum sensing Detection": 0.7401383519172668, "Quantum sensing Metrology": 0.731371283531189, "Quantum sensing navigation": 0.7349305748939514, "Quantum sensing Position": 0.6991105675697327, "Quantum sensing Timing": 0.682828426361084, "Quantum sensing": 0.7508487105369568, "Quantum control": 0.710224449634552 } }, { "id": 4085, "title": "Soft-x-ray emission study of Fe/V(001) superlattices", "abstract": "We have studied the electronic structure of the interfaces in bet Fe/V (001) superlattices (SL's) grown on MgO(001) with soft-x-ray emission spectroscopy. Two samples with different thicknesses of Fe ...", "citations": 25, "author_count": 8, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4091, "doi": "10.1103/PhysRevB.54.10393", "umap_coordinates": { "x": 393.8229675292969, "y": 134.78587341308594, "z": 208.51846313476562 }, "tsne_coordinates": { "x": 10.546382904052734, "y": -43.74467468261719, "z": 2.9314894676208496 }, "pca_coordinates": { "x": 1.1500623226165771, "y": -2.140366554260254, "z": -0.14821583032608032 }, "axis_scores": { "Quantum imaging": 0.6849269270896912, "Quantum Life Science Sensing": 0.7113795876502991, "Quantum sensing Detection": 0.6869077682495117, "Quantum sensing Metrology": 0.6755456924438477, "Quantum sensing navigation": 0.667742908000946, "Quantum sensing Position": 0.6611153483390808, "Quantum sensing Timing": 0.6333962678909302, "Quantum sensing": 0.6917858123779297, "Quantum control": 0.6374559998512268 } }, { "id": 4086, "title": "Transparent wood for functional and structural applications", "abstract": "Optically transparent wood combines mechanical performance with optical functionalities is an emerging candidate for applications in smart buildings and structural optics and photonics. The present re...", "citations": 145, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4092, "doi": "10.1098/rsta.2017.0182", "umap_coordinates": { "x": 393.6137390136719, "y": 135.76821899414062, "z": 204.04136657714844 }, "tsne_coordinates": { "x": 21.102230072021484, "y": 33.875572204589844, "z": -2.819441795349121 }, "pca_coordinates": { "x": -4.009000778198242, "y": 1.0442681312561035, "z": -0.7509106397628784 }, "axis_scores": { "Quantum imaging": 0.6819161176681519, "Quantum Life Science Sensing": 0.7177810072898865, "Quantum sensing Detection": 0.6623765230178833, "Quantum sensing Metrology": 0.6598620414733887, "Quantum sensing navigation": 0.6536421179771423, "Quantum sensing Position": 0.6410963535308838, "Quantum sensing Timing": 0.6368760466575623, "Quantum sensing": 0.6856909394264221, "Quantum control": 0.644944429397583 } }, { "id": 4087, "title": "Impurity effects in quasi-one-dimensional S=1/2 antiferromagnetic chain KCuF3 studied by muon spin rotation", "abstract": "The local magnetic susceptibility chi(loc) around a positive muon in quasi-one-dimensional spin 1/2 antiferromagnetic chain compounds dichlorobis KCuF3 has been investigated using muon spin rotation/r...", "citations": 5, "author_count": 9, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4093, "doi": "10.1016/j.jmmm.2003.12.168", "umap_coordinates": { "x": 392.7893371582031, "y": 136.78134155273438, "z": 207.53526306152344 }, "tsne_coordinates": { "x": 10.254762649536133, "y": -20.785572052001953, "z": 26.895769119262695 }, "pca_coordinates": { "x": 1.0424199104309082, "y": 0.4869192838668823, "z": -2.5540108680725098 }, "axis_scores": { "Quantum imaging": 0.698218584060669, "Quantum Life Science Sensing": 0.6891301870346069, "Quantum sensing Detection": 0.6717473864555359, "Quantum sensing Metrology": 0.6871041059494019, "Quantum sensing navigation": 0.6999047994613647, "Quantum sensing Position": 0.6805108189582825, "Quantum sensing Timing": 0.6453549265861511, "Quantum sensing": 0.6924074292182922, "Quantum control": 0.6800239682197571 } }, { "id": 4088, "title": "Two-dimensional quantum rotation of adsorbed H2", "abstract": "We report experimental and theoretical evidence of H-2 adsorbed in a confined quantum rotor state on a stepped copper surface. Rotational transitions of step-adsorbed para-H-2, and ortho-H-2 observed ...", "citations": 43, "author_count": 7, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4094, "doi": "10.1103/PhysRevLett.83.124", "umap_coordinates": { "x": 394.70843505859375, "y": 136.25848388671875, "z": 208.28030395507812 }, "tsne_coordinates": { "x": -13.00124740600586, "y": -44.4187126159668, "z": 2.865072727203369 }, "pca_coordinates": { "x": 4.478929042816162, "y": 0.04015326499938965, "z": -2.116410732269287 }, "axis_scores": { "Quantum imaging": 0.7409467697143555, "Quantum Life Science Sensing": 0.7437986731529236, "Quantum sensing Detection": 0.7448435425758362, "Quantum sensing Metrology": 0.7189314365386963, "Quantum sensing navigation": 0.738922655582428, "Quantum sensing Position": 0.7225039005279541, "Quantum sensing Timing": 0.7039147019386292, "Quantum sensing": 0.7575361132621765, "Quantum control": 0.7363481521606445 } }, { "id": 4089, "title": "Size and Fluorescence Properties of Algal Photosynthetic Antenna Proteins Estimated by Microscopy", "abstract": "Antenna proteins play a major role in the regulation of light-harvesting in photosynthesis. However, less is known about a possible link between their sizes (oligomerization state) and fluorescence in...", "citations": 4, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4095, "doi": "10.3390/ijms23020778", "umap_coordinates": { "x": 393.7677001953125, "y": 135.39730834960938, "z": 204.33462524414062 }, "tsne_coordinates": { "x": 20.20931053161621, "y": 30.285573959350586, "z": 11.856053352355957 }, "pca_coordinates": { "x": -3.9980340003967285, "y": 0.4615650177001953, "z": -1.5627610683441162 }, "axis_scores": { "Quantum imaging": 0.7244437336921692, "Quantum Life Science Sensing": 0.7613559365272522, "Quantum sensing Detection": 0.7010370492935181, "Quantum sensing Metrology": 0.7146422266960144, "Quantum sensing navigation": 0.6901243925094604, "Quantum sensing Position": 0.6890090703964233, "Quantum sensing Timing": 0.6595660448074341, "Quantum sensing": 0.7263534665107727, "Quantum control": 0.665022075176239 } }, { "id": 4090, "title": "Stochastic-master-equation analysis of optimized three-qubit nondemolition parity measurements", "abstract": "We analyzea direct parity measurement of the state of three superconducting qubits in circuit quantum electrodynamics. The parity is inferred from a homodyne measurement of the reflected and transmitt...", "citations": 14, "author_count": 4, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4096, "doi": "10.1103/PhysRevA.89.032314", "umap_coordinates": { "x": 395.57183837890625, "y": 136.2624969482422, "z": 207.9135284423828 }, "tsne_coordinates": { "x": -18.231130599975586, "y": -11.277833938598633, "z": -3.3375933170318604 }, "pca_coordinates": { "x": 4.044250011444092, "y": 1.155297040939331, "z": 0.9671313166618347 }, "axis_scores": { "Quantum imaging": 0.7505143284797668, "Quantum Life Science Sensing": 0.7542697191238403, "Quantum sensing Detection": 0.7641265392303467, "Quantum sensing Metrology": 0.7650091052055359, "Quantum sensing navigation": 0.7798919081687927, "Quantum sensing Position": 0.7404122352600098, "Quantum sensing Timing": 0.7200438380241394, "Quantum sensing": 0.7687814831733704, "Quantum control": 0.733558714389801 } }, { "id": 4091, "title": "Planar Superconductor-Ferromagnet-Superconductor Josephson Junctions as Scanning-Probe Sensors", "abstract": "We propose a magnetic scanning-probe sensor based on a single-planar Josephson junction with a magnetic barrier. The planar geometry together with the high magnetic permeability of the barrier facilit...", "citations": 30, "author_count": 4, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4097, "doi": "10.1103/PhysRevApplied.11.014062", "umap_coordinates": { "x": 394.4212951660156, "y": 134.8353729248047, "z": 208.10414123535156 }, "tsne_coordinates": { "x": -1.909091591835022, "y": -39.483524322509766, "z": -0.13549329340457916 }, "pca_coordinates": { "x": 2.810375690460205, "y": -1.779604434967041, "z": 1.0716121196746826 }, "axis_scores": { "Quantum imaging": 0.7063112854957581, "Quantum Life Science Sensing": 0.7376634478569031, "Quantum sensing Detection": 0.7210721969604492, "Quantum sensing Metrology": 0.7191309928894043, "Quantum sensing navigation": 0.737128496170044, "Quantum sensing Position": 0.7225133180618286, "Quantum sensing Timing": 0.71718829870224, "Quantum sensing": 0.733887255191803, "Quantum control": 0.6772460341453552 } }, { "id": 4092, "title": "Photochromic Diarylethenes with Heterocyclic Aromatic Rings: Correlation between Thermal Bistability and Geometrical Characters of Transition States", "abstract": "We present a density functional theory study on the thermal bistability of a number of photochromic diarylethenes, with emphasis on the free energy barrier of the ground-state ring-opening process. We...", "citations": 22, "author_count": 4, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4098, "doi": "10.1021/acs.jpca.5b04268", "umap_coordinates": { "x": 392.11102294921875, "y": 136.11033630371094, "z": 205.2345428466797 }, "tsne_coordinates": { "x": 1.5745068788528442, "y": 5.81268835067749, "z": -8.017546653747559 }, "pca_coordinates": { "x": -0.2819841504096985, "y": 0.05651068687438965, "z": -1.4273619651794434 }, "axis_scores": { "Quantum imaging": 0.7263329029083252, "Quantum Life Science Sensing": 0.7236939668655396, "Quantum sensing Detection": 0.7109294533729553, "Quantum sensing Metrology": 0.6919105648994446, "Quantum sensing navigation": 0.7091703414916992, "Quantum sensing Position": 0.6939988732337952, "Quantum sensing Timing": 0.7171510457992554, "Quantum sensing": 0.7206094861030579, "Quantum control": 0.7046254277229309 } }, { "id": 4093, "title": "The potential legacy of cancer nanotechnology: celluar selection", "abstract": "Overexpression of oncogenes or loss of tumour suppressors can transform a normal cell to a cancerous one, resulting in uncontrolled regulation of intracellular signalling pathways and immunity to stre...", "citations": 37, "author_count": 3, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4099, "doi": "10.1016/j.tibtech.2013.10.004", "umap_coordinates": { "x": 393.7049865722656, "y": 134.23800659179688, "z": 203.97605895996094 }, "tsne_coordinates": { "x": 18.460527420043945, "y": 23.30949592590332, "z": -4.713131904602051 }, "pca_coordinates": { "x": -3.715106964111328, "y": 0.7720509767532349, "z": -1.2610610723495483 }, "axis_scores": { "Quantum imaging": 0.7227585315704346, "Quantum Life Science Sensing": 0.7477752566337585, "Quantum sensing Detection": 0.7112562656402588, "Quantum sensing Metrology": 0.684726357460022, "Quantum sensing navigation": 0.7271362543106079, "Quantum sensing Position": 0.7087962627410889, "Quantum sensing Timing": 0.6903096437454224, "Quantum sensing": 0.7164613008499146, "Quantum control": 0.7211173176765442 } }, { "id": 4094, "title": "Approaching the strong coupling limit in single plasmonic nanorods interacting with J-aggregates", "abstract": "We studied scattering and extinction of individual silver nanorods coupled to the J-aggregate form of the cyanine dye TDBC as a function of plasmon - exciton detuning. The measured single particle spe...", "citations": 254, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4100, "doi": "10.1038/srep03074", "umap_coordinates": { "x": 393.2600402832031, "y": 135.20355224609375, "z": 206.7500762939453 }, "tsne_coordinates": { "x": 3.3803179264068604, "y": -14.700965881347656, "z": -12.367110252380371 }, "pca_coordinates": { "x": 0.05446958541870117, "y": -2.4332499504089355, "z": -0.1056855320930481 }, "axis_scores": { "Quantum imaging": 0.6960828900337219, "Quantum Life Science Sensing": 0.7311431765556335, "Quantum sensing Detection": 0.7059026956558228, "Quantum sensing Metrology": 0.6863029599189758, "Quantum sensing navigation": 0.687673807144165, "Quantum sensing Position": 0.6814544200897217, "Quantum sensing Timing": 0.6497403383255005, "Quantum sensing": 0.7024654150009155, "Quantum control": 0.6521607637405396 } }, { "id": 4095, "title": "Diode for Bose-Einstein condensates", "abstract": "Given a quantum state at some instant of time t, the underlying system Hamiltonian can not only predict how the state will evolve, but also the history of the state prior to t. Thereby, in order to ha...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4101, "doi": "10.1209/0295-5075/96/50004", "umap_coordinates": { "x": 394.65155029296875, "y": 135.29103088378906, "z": 206.31300354003906 }, "tsne_coordinates": { "x": 2.6321823596954346, "y": 3.027722120285034, "z": -22.848421096801758 }, "pca_coordinates": { "x": -0.1552295684814453, "y": 0.49508726596832275, "z": 0.0996062159538269 }, "axis_scores": { "Quantum imaging": 0.6765977740287781, "Quantum Life Science Sensing": 0.6893603205680847, "Quantum sensing Detection": 0.6635489463806152, "Quantum sensing Metrology": 0.6553292274475098, "Quantum sensing navigation": 0.6646572351455688, "Quantum sensing Position": 0.6507565379142761, "Quantum sensing Timing": 0.6770267486572266, "Quantum sensing": 0.6718277931213379, "Quantum control": 0.6790698170661926 } }, { "id": 4096, "title": "Poly(methyl methacrylate)-based protonic gel electrolytes: a spectroscopic study", "abstract": "We present the first vibrational spectroscopic investigation of a novel non-aqeous proton conducting polymer gel electrolyte consisting of a PMMA matrix and a solvent mixture (ethylene carbonate (EC)/...", "citations": 68, "author_count": 8, "categories": [ "Electrochemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4102, "doi": "10.1016/S0013-4686(99)00352-7", "umap_coordinates": { "x": 393.26861572265625, "y": 135.92855834960938, "z": 205.2145233154297 }, "tsne_coordinates": { "x": 18.369558334350586, "y": 12.426403045654297, "z": 16.616634368896484 }, "pca_coordinates": { "x": -2.4110677242279053, "y": 0.9980823993682861, "z": -1.8402483463287354 }, "axis_scores": { "Quantum imaging": 0.6458753347396851, "Quantum Life Science Sensing": 0.6842076778411865, "Quantum sensing Detection": 0.6274778246879578, "Quantum sensing Metrology": 0.6330651044845581, "Quantum sensing navigation": 0.6360192894935608, "Quantum sensing Position": 0.651316225528717, "Quantum sensing Timing": 0.6014981865882874, "Quantum sensing": 0.6492133140563965, "Quantum control": 0.5994172096252441 } }, { "id": 4097, "title": "Material Decomposition in Low-Energy Micro-CT Using a Dual-Threshold Photon Counting X-Ray Detector", "abstract": "Material decomposition in computed tomography is a method for differentiation and quantification of materials in a sample and it utilizes the energy dependence of the linear attenuation coefficient. I...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4103, "doi": "10.3389/fphy.2021.673843", "umap_coordinates": { "x": 395.34527587890625, "y": 132.75511169433594, "z": 205.1865692138672 }, "tsne_coordinates": { "x": -2.1834285259246826, "y": 17.20400047302246, "z": -20.291379928588867 }, "pca_coordinates": { "x": -2.894850730895996, "y": 3.0331482887268066, "z": 0.9621637463569641 }, "axis_scores": { "Quantum imaging": 0.7016433477401733, "Quantum Life Science Sensing": 0.711261510848999, "Quantum sensing Detection": 0.6949762105941772, "Quantum sensing Metrology": 0.6536697149276733, "Quantum sensing navigation": 0.6479579210281372, "Quantum sensing Position": 0.6453909277915955, "Quantum sensing Timing": 0.6520355343818665, "Quantum sensing": 0.6832475066184998, "Quantum control": 0.6293853521347046 } }, { "id": 4098, "title": "Highly Polarizable Rydberg Ion in a Paul Trap", "abstract": "Usually the influence of the quadratic Stark effect on an ion's trapping potential is minuscule and only needs to be considered in atomic clock experiments. In this work we excite a trapped ion to a R...", "citations": 13, "author_count": 5, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4104, "doi": "10.1103/PhysRevLett.123.153602", "umap_coordinates": { "x": 394.7106018066406, "y": 135.96621704101562, "z": 208.28871154785156 }, "tsne_coordinates": { "x": -6.746367931365967, "y": -27.6954402923584, "z": -11.139540672302246 }, "pca_coordinates": { "x": 3.375352382659912, "y": -1.234222650527954, "z": -0.13377970457077026 }, "axis_scores": { "Quantum imaging": 0.7280495762825012, "Quantum Life Science Sensing": 0.7218589186668396, "Quantum sensing Detection": 0.7208340764045715, "Quantum sensing Metrology": 0.6884902119636536, "Quantum sensing navigation": 0.7258541584014893, "Quantum sensing Position": 0.7069714665412903, "Quantum sensing Timing": 0.7051708698272705, "Quantum sensing": 0.7355130910873413, "Quantum control": 0.6986117362976074 } }, { "id": 4099, "title": "Blue perovskite light-emitting diodes: progress, challenges and future directions", "abstract": "Metal halide perovskites have excellent optical and electrical properties and can be easily processed via low-cost solution-based techniques like blade-coating and inkjet printing, promising a bright ...", "citations": 255, "author_count": 5, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4105, "doi": "10.1039/c8nr09885a", "umap_coordinates": { "x": 392.3596496582031, "y": 134.47401428222656, "z": 205.3546142578125 }, "tsne_coordinates": { "x": 11.987722396850586, "y": -2.0706117153167725, "z": -19.442289352416992 }, "pca_coordinates": { "x": -3.3122446537017822, "y": -1.642354965209961, "z": -1.947309970855713 }, "axis_scores": { "Quantum imaging": 0.686653733253479, "Quantum Life Science Sensing": 0.6986968517303467, "Quantum sensing Detection": 0.6653240323066711, "Quantum sensing Metrology": 0.6577677726745605, "Quantum sensing navigation": 0.6802355051040649, "Quantum sensing Position": 0.6676247715950012, "Quantum sensing Timing": 0.6396946310997009, "Quantum sensing": 0.6799530982971191, "Quantum control": 0.6599658131599426 } }, { "id": 4100, "title": "Photoinduced Charge-Tran sfer Dynamics in WO3/BiVO4 Photoanodes Probed through Midinfrared Transient Absorption Spectroscopy", "abstract": "The dynamics of photopromoted electrons in BiVO4, WO3, and WO3/BiVO4 heterojunction electrodes has been directly probed by transient absorption (TA) midinfrared (mid-IR) spectroscopy in the picosecond...", "citations": 93, "author_count": 7, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4106, "doi": "10.1021/jacs.8b08309", "umap_coordinates": { "x": 392.1575012207031, "y": 135.81874084472656, "z": 206.53611755371094 }, "tsne_coordinates": { "x": 12.840313911437988, "y": 1.6710361242294312, "z": 9.907989501953125 }, "pca_coordinates": { "x": -0.7423630952835083, "y": -3.339003562927246, "z": -3.4031453132629395 }, "axis_scores": { "Quantum imaging": 0.7161204814910889, "Quantum Life Science Sensing": 0.7444644570350647, "Quantum sensing Detection": 0.7012391090393066, "Quantum sensing Metrology": 0.6658275127410889, "Quantum sensing navigation": 0.673073410987854, "Quantum sensing Position": 0.6561130285263062, "Quantum sensing Timing": 0.677175760269165, "Quantum sensing": 0.7095433473587036, "Quantum control": 0.6938861012458801 } }, { "id": 4101, "title": "Tunable entanglement distillation of spatially correlated down-converted photons", "abstract": "We report on a new technique for entanglement distillation of the bipartite continuous variable state of spatially correlated photons generated in the spontaneous parametric down-conversion process ( ...", "citations": 1, "author_count": 8, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4107, "doi": "10.1364/OE.26.013961", "umap_coordinates": { "x": 394.9301452636719, "y": 134.79104614257812, "z": 206.73915100097656 }, "tsne_coordinates": { "x": -5.19821834564209, "y": -8.275979995727539, "z": -29.912336349487305 }, "pca_coordinates": { "x": 1.2145342826843262, "y": 1.1673870086669922, "z": 3.111905574798584 }, "axis_scores": { "Quantum imaging": 0.7685319781303406, "Quantum Life Science Sensing": 0.7110365629196167, "Quantum sensing Detection": 0.7540407180786133, "Quantum sensing Metrology": 0.7322934865951538, "Quantum sensing navigation": 0.7553356885910034, "Quantum sensing Position": 0.7202883958816528, "Quantum sensing Timing": 0.7485636472702026, "Quantum sensing": 0.7662002444267273, "Quantum control": 0.7543888688087463 } }, { "id": 4102, "title": "Nanoscale distribution of Bi atoms in InP1-xBix", "abstract": "The nanoscale distribution of Bi in InPBi is determined by atom probe tomography and transmission electron microscopy. The distribution of Bi atoms is not uniform both along the growth direction and w...", "citations": 4, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4108, "doi": "10.1038/s41598-017-12075-2", "umap_coordinates": { "x": 392.1036682128906, "y": 134.67788696289062, "z": 207.70465087890625 }, "tsne_coordinates": { "x": 28.312034606933594, "y": -10.288818359375, "z": 4.70755672454834 }, "pca_coordinates": { "x": -0.6755070686340332, "y": -2.321953296661377, "z": -1.1638965606689453 }, "axis_scores": { "Quantum imaging": 0.7129695415496826, "Quantum Life Science Sensing": 0.6846868395805359, "Quantum sensing Detection": 0.6876009702682495, "Quantum sensing Metrology": 0.6887843012809753, "Quantum sensing navigation": 0.6801284551620483, "Quantum sensing Position": 0.7112718820571899, "Quantum sensing Timing": 0.6842265129089355, "Quantum sensing": 0.7033671736717224, "Quantum control": 0.6702271103858948 } }, { "id": 4103, "title": "Quantum-state-selective decay spectroscopy of 213Ra", "abstract": "An experimental scheme combining the mass resolving power of a Penning trap with contemporary decay spectroscopy has been established at GSI Darmstadt. The Universal Linear Accelerator (UNILAC) at GSI...", "citations": 9, "author_count": 24, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4109, "doi": "10.1103/PhysRevC.96.034315", "umap_coordinates": { "x": 394.4029846191406, "y": 136.3408660888672, "z": 207.76278686523438 }, "tsne_coordinates": { "x": -11.823354721069336, "y": -20.732328414916992, "z": -8.816916465759277 }, "pca_coordinates": { "x": 2.277617931365967, "y": 0.09426641464233398, "z": 0.006185710430145264 }, "axis_scores": { "Quantum imaging": 0.7133463621139526, "Quantum Life Science Sensing": 0.751484751701355, "Quantum sensing Detection": 0.7432477474212646, "Quantum sensing Metrology": 0.7165325880050659, "Quantum sensing navigation": 0.7193111777305603, "Quantum sensing Position": 0.6811566948890686, "Quantum sensing Timing": 0.6762716174125671, "Quantum sensing": 0.7383959889411926, "Quantum control": 0.6797719597816467 } }, { "id": 4104, "title": "The atomic details of the interfacial interaction between the bottom electrode of Al/AlOx/Al Josephson junctions and HF-treated Si substrates", "abstract": "The interface between the Al bottom contact layer and Si substrates in Al based Josephson junctions is believed to have a significant effect on the noise observed in Al based superconducting devices. ...", "citations": 18, "author_count": 6, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4110, "doi": "10.1063/1.4919224", "umap_coordinates": { "x": 393.3318176269531, "y": 134.5253448486328, "z": 208.04383850097656 }, "tsne_coordinates": { "x": 30.575172424316406, "y": -36.60984420776367, "z": 3.3030381202697754 }, "pca_coordinates": { "x": 1.0576839447021484, "y": -1.3293027877807617, "z": -0.4686429500579834 }, "axis_scores": { "Quantum imaging": 0.6851378679275513, "Quantum Life Science Sensing": 0.6895512342453003, "Quantum sensing Detection": 0.654761552810669, "Quantum sensing Metrology": 0.6692976355552673, "Quantum sensing navigation": 0.6618644595146179, "Quantum sensing Position": 0.6682743430137634, "Quantum sensing Timing": 0.6596586108207703, "Quantum sensing": 0.690182626247406, "Quantum control": 0.6658673286437988 } }, { "id": 4105, "title": "Lipid-Based Passivation in Nanofluidics", "abstract": "Stretching DNA in nanochannels is a useful tool for direct, visual studies of genomic DNA at the single molecule level. To facilitate the study of the interaction of linear DNA with proteins in nanoch...", "citations": 89, "author_count": 7, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4111, "doi": "10.1021/nl204535h", "umap_coordinates": { "x": 393.0473937988281, "y": 135.19491577148438, "z": 204.84457397460938 }, "tsne_coordinates": { "x": 21.34629249572754, "y": 18.820438385009766, "z": 10.493176460266113 }, "pca_coordinates": { "x": -2.45279860496521, "y": -1.3149333000183105, "z": -2.0188586711883545 }, "axis_scores": { "Quantum imaging": 0.6711938977241516, "Quantum Life Science Sensing": 0.7010582089424133, "Quantum sensing Detection": 0.6564759612083435, "Quantum sensing Metrology": 0.647855818271637, "Quantum sensing navigation": 0.6734160780906677, "Quantum sensing Position": 0.6421762108802795, "Quantum sensing Timing": 0.6197620034217834, "Quantum sensing": 0.6655356287956238, "Quantum control": 0.6742187142372131 } }, { "id": 4106, "title": "Exclusive measurement of the η → π+ π- γ decay", "abstract": "An exclusive measurement of the decay eta -> pi(+) pi(-) gamma has been performed at the WASA facility at COSY. The eta mesons were produced in the fusion reaction pd -> He-3 X at a proton beam moment...", "citations": 36, "author_count": 124, "categories": [ "Astronomy & Astrophysics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4112, "doi": "10.1016/j.physletb.2011.12.027", "umap_coordinates": { "x": 396.83563232421875, "y": 134.16888427734375, "z": 207.30120849609375 }, "tsne_coordinates": { "x": -29.746021270751953, "y": 6.293200969696045, "z": -9.521586418151855 }, "pca_coordinates": { "x": -0.6721641421318054, "y": 1.8969075679779053, "z": 2.6214098930358887 }, "axis_scores": { "Quantum imaging": 0.7384161353111267, "Quantum Life Science Sensing": 0.7299743890762329, "Quantum sensing Detection": 0.7503541707992554, "Quantum sensing Metrology": 0.7139571309089661, "Quantum sensing navigation": 0.7375996112823486, "Quantum sensing Position": 0.7339265942573547, "Quantum sensing Timing": 0.7126390933990479, "Quantum sensing": 0.7452341318130493, "Quantum control": 0.6910724639892578 } }, { "id": 4107, "title": "Micro-optical elements functioning in non-visible spectral range", "abstract": "Nowadays novel micro-fabrication and wafer-based manufacturing approach allows realizing micro-optics in a way scientists have dreamt for generations, in particular, utilizing nano-imprint lithography...", "citations": 1, "author_count": 8, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4113, "doi": "10.1117/12.853959", "umap_coordinates": { "x": 394.61181640625, "y": 133.4789581298828, "z": 205.96942138671875 }, "tsne_coordinates": { "x": 1.024888515472412, "y": 9.053756713867188, "z": -25.929534912109375 }, "pca_coordinates": { "x": -2.1933484077453613, "y": 0.22779464721679688, "z": 2.16896390914917 }, "axis_scores": { "Quantum imaging": 0.752278745174408, "Quantum Life Science Sensing": 0.7826097011566162, "Quantum sensing Detection": 0.7634362578392029, "Quantum sensing Metrology": 0.7792541980743408, "Quantum sensing navigation": 0.7451127767562866, "Quantum sensing Position": 0.7354324460029602, "Quantum sensing Timing": 0.7048351764678955, "Quantum sensing": 0.7712430357933044, "Quantum control": 0.7172502279281616 } }, { "id": 4108, "title": "Photoexcitation of excitons in self-assembled quantum dots", "abstract": "Using an approach of combining Fourier transform infrared spectroscopy with resonant illumination from a secondary external light source, we have measured the photocurrent (PC) for multiple layers of ...", "citations": 6, "author_count": 7, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4114, "doi": "10.1063/1.1824174", "umap_coordinates": { "x": 392.78472900390625, "y": 133.90028381347656, "z": 208.2277374267578 }, "tsne_coordinates": { "x": 27.028972625732422, "y": -20.79766082763672, "z": -3.942943811416626 }, "pca_coordinates": { "x": 0.9078507423400879, "y": -5.793900966644287, "z": 0.6567561030387878 }, "axis_scores": { "Quantum imaging": 0.7437024712562561, "Quantum Life Science Sensing": 0.7470725774765015, "Quantum sensing Detection": 0.7574071288108826, "Quantum sensing Metrology": 0.7289036512374878, "Quantum sensing navigation": 0.7123422026634216, "Quantum sensing Position": 0.7120398879051208, "Quantum sensing Timing": 0.6951450109481812, "Quantum sensing": 0.7559766173362732, "Quantum control": 0.7119084000587463 } }, { "id": 4109, "title": "Kinetics of self-assembled island formation: Part II - Island size", "abstract": "In this paper, we propose a simple and intuitive way to predict self-assembled island sizes for varying deposition conditions, i.e., temperature and deposition rate. The average island size and the mo...", "citations": 28, "author_count": 3, "categories": [ "Crystallography" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4115, "doi": "10.1016/S0022-0248(01)01675-X", "umap_coordinates": { "x": 392.3740539550781, "y": 134.38723754882812, "z": 206.6959686279297 }, "tsne_coordinates": { "x": 34.32541275024414, "y": -7.063736915588379, "z": 3.564218044281006 }, "pca_coordinates": { "x": -2.180539608001709, "y": -0.9606785774230957, "z": -1.9749741554260254 }, "axis_scores": { "Quantum imaging": 0.6594478487968445, "Quantum Life Science Sensing": 0.6902083158493042, "Quantum sensing Detection": 0.6539013981819153, "Quantum sensing Metrology": 0.6450666785240173, "Quantum sensing navigation": 0.6544475555419922, "Quantum sensing Position": 0.6562917828559875, "Quantum sensing Timing": 0.6245794296264648, "Quantum sensing": 0.6599105000495911, "Quantum control": 0.6451776027679443 } }, { "id": 4110, "title": "TEMPERATURE-DEPENDENCE OF THE RESISTANCE OF ONE-DIMENSIONAL METAL-FILMS WITH DOMINANT NYQUIST PHASE BREAKING", "abstract": "We report the results of a comprehensive study of the temperature dependences of the resistance of one-dimensional narrow gold films with respect to the effects of weak localization (WL) and electron-...", "citations": 8, "author_count": 6, "categories": [ "Materials Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 4116, "doi": "10.1103/PhysRevB.50.5748", "umap_coordinates": { "x": 394.11383056640625, "y": 135.86322021484375, "z": 209.19398498535156 }, "tsne_coordinates": { "x": -8.34294605255127, "y": -40.61716842651367, "z": -1.4666376113891602 }, "pca_coordinates": { "x": 3.533052444458008, "y": -1.0583362579345703, "z": -0.24810945987701416 }, "axis_scores": { "Quantum imaging": 0.6965242028236389, "Quantum Life Science Sensing": 0.7212204933166504, "Quantum sensing Detection": 0.7137041091918945, "Quantum sensing Metrology": 0.7034214735031128, "Quantum sensing navigation": 0.6979812979698181, "Quantum sensing Position": 0.6868908405303955, "Quantum sensing Timing": 0.6772762537002563, "Quantum sensing": 0.7124601602554321, "Quantum control": 0.6691462993621826 } }, { "id": 4111, "title": "Exploring the impact of fluctuation-induced criticality on non-Hermitian skin effect and quantum sensors", "abstract": "In this paper we present a concrete example comparing the results predicted by non -Hermitian quantum mechanics with those of a more comprehensive description that considers environment -induced fluct...", "citations": 13, "author_count": 3, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4117, "doi": "10.1103/PhysRevResearch.6.023135", "umap_coordinates": { "x": 395.20208740234375, "y": 136.7809295654297, "z": 207.9102020263672 }, "tsne_coordinates": { "x": -35.79353713989258, "y": -17.868114471435547, "z": -9.74014949798584 }, "pca_coordinates": { "x": 1.334545612335205, "y": 1.3870841264724731, "z": -0.7679277658462524 }, "axis_scores": { "Quantum imaging": 0.7241066694259644, "Quantum Life Science Sensing": 0.7871379256248474, "Quantum sensing Detection": 0.7458417415618896, "Quantum sensing Metrology": 0.7352933883666992, "Quantum sensing navigation": 0.7401387691497803, "Quantum sensing Position": 0.7180125713348389, "Quantum sensing Timing": 0.6982573866844177, "Quantum sensing": 0.7552399635314941, "Quantum control": 0.719967246055603 } }, { "id": 4112, "title": "Gelation Dynamics upon Pressure-Induced Liquid-Liquid Phase Separation in a Water-Lysozyme Solution", "abstract": "Employing X-ray photon correlation spectroscopy, we measure the kinetics and dynamics of a pressure-induced liquid-liquid phase separation (LLPS) in a water-lysozyme solution. Scattering invariants an...", "citations": 16, "author_count": 13, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4118, "doi": "10.1021/acs.jpcb.2c01947", "umap_coordinates": { "x": 393.0779113769531, "y": 136.35589599609375, "z": 205.69793701171875 }, "tsne_coordinates": { "x": -3.8277347087860107, "y": -1.4494482278823853, "z": 35.63730239868164 }, "pca_coordinates": { "x": -0.5817182064056396, "y": -0.339768648147583, "z": -4.34793758392334 }, "axis_scores": { "Quantum imaging": 0.6722488403320312, "Quantum Life Science Sensing": 0.7011893391609192, "Quantum sensing Detection": 0.6511692404747009, "Quantum sensing Metrology": 0.6206961274147034, "Quantum sensing navigation": 0.6540362238883972, "Quantum sensing Position": 0.6557981371879578, "Quantum sensing Timing": 0.6300145387649536, "Quantum sensing": 0.6620747447013855, "Quantum control": 0.6575643420219421 } }, { "id": 4113, "title": "Coulomb effects on thermally induced shuttling of spin-polarized electrons", "abstract": "A thermally driven single-electron transistor with magnetic leads and a movable central island (a quantum dot) subject to an external magnetic field is considered. The possibility of a mechanical inst...", "citations": 1, "author_count": 8, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4119, "doi": "10.1063/1.5121274", "umap_coordinates": { "x": 393.2110290527344, "y": 135.30502319335938, "z": 208.5570526123047 }, "tsne_coordinates": { "x": 18.499650955200195, "y": -32.72111129760742, "z": 1.8019179105758667 }, "pca_coordinates": { "x": 2.6482627391815186, "y": -1.502157211303711, "z": -1.882650375366211 }, "axis_scores": { "Quantum imaging": 0.7272546887397766, "Quantum Life Science Sensing": 0.7158142328262329, "Quantum sensing Detection": 0.7095805406570435, "Quantum sensing Metrology": 0.7004593014717102, "Quantum sensing navigation": 0.719880223274231, "Quantum sensing Position": 0.6754284501075745, "Quantum sensing Timing": 0.6861158013343811, "Quantum sensing": 0.7317343950271606, "Quantum control": 0.7128150463104248 } }, { "id": 4114, "title": "Schmidt decompositions of parametric processes I: Basic theory and simple examples", "abstract": "Parametric devices based on four-wave mixing in fibers perform many signal-processing functions required by optical communication systems. In these devices, strong pumps drive weak signal and idler si...", "citations": 19, "author_count": 3, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4120, "doi": "10.1364/OE.21.001374", "umap_coordinates": { "x": 394.5686950683594, "y": 137.50218200683594, "z": 205.5505828857422 }, "tsne_coordinates": { "x": -18.162334442138672, "y": 13.522581100463867, "z": 23.28030776977539 }, "pca_coordinates": { "x": -0.6159209609031677, "y": 3.8781661987304688, "z": -0.7508105039596558 }, "axis_scores": { "Quantum imaging": 0.7022199630737305, "Quantum Life Science Sensing": 0.7034595608711243, "Quantum sensing Detection": 0.6899224519729614, "Quantum sensing Metrology": 0.6923258900642395, "Quantum sensing navigation": 0.6803058981895447, "Quantum sensing Position": 0.646215558052063, "Quantum sensing Timing": 0.6792975068092346, "Quantum sensing": 0.707378089427948, "Quantum control": 0.706357479095459 } }, { "id": 4115, "title": "Presynaptic peptidergic modulation of olfactory receptor neurons in Drosophila", "abstract": "The role of classical neurotransmitters in the transfer and processing of olfactory information is well established in many organisms. Neuropeptide action, however, is largely unexplored in any periph...", "citations": 157, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4121, "doi": "10.1073/pnas.0813004106", "umap_coordinates": { "x": 394.6886291503906, "y": 135.36007690429688, "z": 204.61715698242188 }, "tsne_coordinates": { "x": -5.765200138092041, "y": 23.13646697998047, "z": 10.482284545898438 }, "pca_coordinates": { "x": 0.07366907596588135, "y": 0.04916977882385254, "z": 0.6193695664405823 }, "axis_scores": { "Quantum imaging": 0.7095679044723511, "Quantum Life Science Sensing": 0.7036321759223938, "Quantum sensing Detection": 0.6978123188018799, "Quantum sensing Metrology": 0.6852250695228577, "Quantum sensing navigation": 0.7160881757736206, "Quantum sensing Position": 0.7077099084854126, "Quantum sensing Timing": 0.6877738833427429, "Quantum sensing": 0.7083622217178345, "Quantum control": 0.692863941192627 } }, { "id": 4116, "title": "Niobium Tunable Microwave Filter", "abstract": "A superconductor bandpass filter with tunable central frequency in the range of 2-3.5 GHz has been implemented using superconducting quantum interference devices (SQUIDs). The filter is designed using...", "citations": 14, "author_count": 5, "categories": [ "Engineering" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4122, "doi": "10.1109/TMTT.2009.2017347", "umap_coordinates": { "x": 394.8114929199219, "y": 133.92214965820312, "z": 206.7532501220703 }, "tsne_coordinates": { "x": 3.851902961730957, "y": -3.2060165405273438, "z": -40.06450653076172 }, "pca_coordinates": { "x": -0.02309441566467285, "y": 0.5775580406188965, "z": 1.0275721549987793 }, "axis_scores": { "Quantum imaging": 0.7122136354446411, "Quantum Life Science Sensing": 0.7110643982887268, "Quantum sensing Detection": 0.7169701457023621, "Quantum sensing Metrology": 0.724640429019928, "Quantum sensing navigation": 0.721895694732666, "Quantum sensing Position": 0.6851574778556824, "Quantum sensing Timing": 0.7111269235610962, "Quantum sensing": 0.725342869758606, "Quantum control": 0.6986967921257019 } }, { "id": 4117, "title": "Quantum statistics via perturbation effects of preparation procedures", "abstract": "We study the following problem: Is it possible to explain the quantum interference of probabilities in the purely corpuscular model for elementary particles? We demonstrate Chat (by taking into accoun...", "citations": 28, "author_count": 2, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4123, "doi": null, "umap_coordinates": { "x": 391.8179016113281, "y": 139.52413940429688, "z": 208.79049682617188 }, "tsne_coordinates": { "x": -11.015678405761719, "y": 41.85276412963867, "z": 1.2666763067245483 }, "pca_coordinates": { "x": 0.8005119562149048, "y": 4.196770668029785, "z": -0.381213903427124 }, "axis_scores": { "Quantum imaging": 0.7469444870948792, "Quantum Life Science Sensing": 0.7342091202735901, "Quantum sensing Detection": 0.7462783455848694, "Quantum sensing Metrology": 0.7328166961669922, "Quantum sensing navigation": 0.7511883974075317, "Quantum sensing Position": 0.727421760559082, "Quantum sensing Timing": 0.7315123081207275, "Quantum sensing": 0.7579935193061829, "Quantum control": 0.7603561878204346 } }, { "id": 4118, "title": "Multiple peak spectra from InGaN/GaN multiple quantum wells", "abstract": "Optical properties of In0.12Ga0.88N/GaN multiple quantum well (MQW) structures grown by metalorganic vapor phase epitaxy at 820 degrees C are reported. The transmission electron microscopy measurement...", "citations": 5, "author_count": 7, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4124, "doi": "10.1002/1521-396X(200007)180:1<85::AID-PSSA85>3.0.CO;2-Y", "umap_coordinates": { "x": 393.6112365722656, "y": 133.9644775390625, "z": 207.31796264648438 }, "tsne_coordinates": { "x": 45.12076950073242, "y": -2.3198764324188232, "z": -5.303014755249023 }, "pca_coordinates": { "x": -1.5996127128601074, "y": -0.34217405319213867, "z": 2.416947841644287 }, "axis_scores": { "Quantum imaging": 0.7015122771263123, "Quantum Life Science Sensing": 0.6896248459815979, "Quantum sensing Detection": 0.6810121536254883, "Quantum sensing Metrology": 0.6954386830329895, "Quantum sensing navigation": 0.679813802242279, "Quantum sensing Position": 0.676491379737854, "Quantum sensing Timing": 0.6825366616249084, "Quantum sensing": 0.6962501406669617, "Quantum control": 0.6561967134475708 } }, { "id": 4119, "title": "Transmission of Infrared Radiation Through Metallic Photonic Crystal Structures", "abstract": "Monolithic integration of a metallic photonic crystal (mPhC) structure onto semiconductor infrared (IR) photodetectors can enhance the detector performances. In order to experimentally investigate the...", "citations": 5, "author_count": 5, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4125, "doi": "10.1109/JPHOT.2013.2278527", "umap_coordinates": { "x": 394.1109313964844, "y": 133.65139770507812, "z": 206.90628051757812 }, "tsne_coordinates": { "x": 8.983621597290039, "y": -2.477466344833374, "z": -35.517520904541016 }, "pca_coordinates": { "x": 0.052413105964660645, "y": -1.0970072746276855, "z": 2.7873597145080566 }, "axis_scores": { "Quantum imaging": 0.7609719634056091, "Quantum Life Science Sensing": 0.7436841130256653, "Quantum sensing Detection": 0.7386439442634583, "Quantum sensing Metrology": 0.723803699016571, "Quantum sensing navigation": 0.7278265357017517, "Quantum sensing Position": 0.6908177733421326, "Quantum sensing Timing": 0.6912419199943542, "Quantum sensing": 0.74934983253479, "Quantum control": 0.6997161507606506 } }, { "id": 4120, "title": "Color-Stable Blue Light-Emitting Diodes Enabled by Effective Passivation of Mixed Halide Perovskites", "abstract": "Bandgap tuning through mixing halide anions is one of the most attractive features for metal halide perovskites. However, mixed halide perovskites usually suffer from phase segregation under electrica...", "citations": 37, "author_count": 12, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4126, "doi": "10.1021/acs.jpclett.1c01547", "umap_coordinates": { "x": 391.5368347167969, "y": 133.9889373779297, "z": 205.27906799316406 }, "tsne_coordinates": { "x": 16.940006256103516, "y": -0.039558328688144684, "z": -22.826539993286133 }, "pca_coordinates": { "x": -3.7077393531799316, "y": -3.269718647003174, "z": -0.9070404767990112 }, "axis_scores": { "Quantum imaging": 0.7065582871437073, "Quantum Life Science Sensing": 0.6993033289909363, "Quantum sensing Detection": 0.6811655163764954, "Quantum sensing Metrology": 0.6647581458091736, "Quantum sensing navigation": 0.6689950227737427, "Quantum sensing Position": 0.6450679302215576, "Quantum sensing Timing": 0.6407532691955566, "Quantum sensing": 0.6994571089744568, "Quantum control": 0.6929680705070496 } }, { "id": 4121, "title": "Quantifying dynamics and interactions of individual spurious low-energy fluctuators in superconducting circuits", "abstract": "Understanding the nature and dynamics of material defects in superconducting circuits is of paramount importance for improving qubit coherence and parameter stability and much needed for implementing ...", "citations": 9, "author_count": 6, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4127, "doi": "10.1103/PhysRevB.103.174103", "umap_coordinates": { "x": 394.4497375488281, "y": 136.43861389160156, "z": 208.6741485595703 }, "tsne_coordinates": { "x": -8.789989471435547, "y": -20.022354125976562, "z": 12.088081359863281 }, "pca_coordinates": { "x": 4.813307762145996, "y": -0.24162817001342773, "z": -0.5332157015800476 }, "axis_scores": { "Quantum imaging": 0.6909573674201965, "Quantum Life Science Sensing": 0.7010604739189148, "Quantum sensing Detection": 0.7068080902099609, "Quantum sensing Metrology": 0.6868396997451782, "Quantum sensing navigation": 0.7095741629600525, "Quantum sensing Position": 0.6901726722717285, "Quantum sensing Timing": 0.7115979194641113, "Quantum sensing": 0.7091747522354126, "Quantum control": 0.6940705180168152 } }, { "id": 4122, "title": "Space QUEST mission proposal: experimentally testing decoherence due to gravity", "abstract": "Models of quantum systems on curved space-times lack sufficient experimental verification. Some speculative theories suggest that quantum correlations, such as entanglement, may exhibit different beha...", "citations": 36, "author_count": 46, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4128, "doi": "10.1088/1367-2630/aac58b", "umap_coordinates": { "x": 395.6117248535156, "y": 135.76873779296875, "z": 206.0577850341797 }, "tsne_coordinates": { "x": -32.693504333496094, "y": -6.043552875518799, "z": -11.493852615356445 }, "pca_coordinates": { "x": 1.2341423034667969, "y": 5.690578937530518, "z": 0.4046778082847595 }, "axis_scores": { "Quantum imaging": 0.68119215965271, "Quantum Life Science Sensing": 0.7060014009475708, "Quantum sensing Detection": 0.676826536655426, "Quantum sensing Metrology": 0.6792264580726624, "Quantum sensing navigation": 0.7217018604278564, "Quantum sensing Position": 0.6897926330566406, "Quantum sensing Timing": 0.6560296416282654, "Quantum sensing": 0.685992419719696, "Quantum control": 0.7002034783363342 } }, { "id": 4123, "title": "Glyconanomaterials: Emerging applications in biomedical research", "abstract": "Carbohydrates constitute the most abundant organic matter in nature, serving as structural components and energy sources, and mediating a wide range of cellular activities. The emergence of nanomateri...", "citations": 57, "author_count": 4, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4129, "doi": "10.1007/s12274-014-0507-y", "umap_coordinates": { "x": 393.840087890625, "y": 134.2537841796875, "z": 204.43511962890625 }, "tsne_coordinates": { "x": 19.62455177307129, "y": 25.021686553955078, "z": -7.793097496032715 }, "pca_coordinates": { "x": -3.92073392868042, "y": 0.48387885093688965, "z": -0.6727960705757141 }, "axis_scores": { "Quantum imaging": 0.7042769193649292, "Quantum Life Science Sensing": 0.731836199760437, "Quantum sensing Detection": 0.6815442442893982, "Quantum sensing Metrology": 0.6878037452697754, "Quantum sensing navigation": 0.6962563395500183, "Quantum sensing Position": 0.6901274919509888, "Quantum sensing Timing": 0.65097576379776, "Quantum sensing": 0.6964195370674133, "Quantum control": 0.6714431643486023 } }, { "id": 4124, "title": "Search for fermiophobic Higgs bosons in final states with photons at LEP 2", "abstract": "Higgs boson production with subsequent decay to photons was searched for in the data collected by the DELPHI detector at centre-of-mass energies between 183 GeV and 209 GeV, corresponding to a total i...", "citations": 21, "author_count": 352, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4130, "doi": "10.1140/epjc/s2004-01869-2", "umap_coordinates": { "x": 396.47198486328125, "y": 134.71328735351562, "z": 206.8906707763672 }, "tsne_coordinates": { "x": -31.716617584228516, "y": 12.384521484375, "z": -1.255849003791809 }, "pca_coordinates": { "x": 0.4593569040298462, "y": 1.4421722888946533, "z": 1.816645622253418 }, "axis_scores": { "Quantum imaging": 0.7053738832473755, "Quantum Life Science Sensing": 0.6949394345283508, "Quantum sensing Detection": 0.7053837180137634, "Quantum sensing Metrology": 0.6885951161384583, "Quantum sensing navigation": 0.7105250358581543, "Quantum sensing Position": 0.6862375736236572, "Quantum sensing Timing": 0.6984089612960815, "Quantum sensing": 0.701389491558075, "Quantum control": 0.6862773895263672 } }, { "id": 4125, "title": "Lignin-based smart materials: a roadmap to processing and synthesis for current and future applications", "abstract": "Biomass-derived materials are green alternatives to synthetic plastics and other fossil-based materials. Lignin, an aromatic plant polymer, is one of the most appealing renewable material precursors f...", "citations": 166, "author_count": 3, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4131, "doi": "10.1039/d0mh00798f", "umap_coordinates": { "x": 392.8436584472656, "y": 135.3612518310547, "z": 204.08750915527344 }, "tsne_coordinates": { "x": 21.830503463745117, "y": 32.85086441040039, "z": -4.391315460205078 }, "pca_coordinates": { "x": -4.0380778312683105, "y": 1.0897648334503174, "z": -2.4227185249328613 }, "axis_scores": { "Quantum imaging": 0.6581248044967651, "Quantum Life Science Sensing": 0.6972235441207886, "Quantum sensing Detection": 0.6362583637237549, "Quantum sensing Metrology": 0.6469714641571045, "Quantum sensing navigation": 0.6460980772972107, "Quantum sensing Position": 0.6407840251922607, "Quantum sensing Timing": 0.613919198513031, "Quantum sensing": 0.659183144569397, "Quantum control": 0.6403498649597168 } }, { "id": 4126, "title": "Site-specific electronic structure of an oligo-ethylenedioxythiophene derivative probed by resonant photoemission - art. no. 104", "abstract": "A combination of conventional and resonant photoemission spectroscopy, x-ray absorption spectroscopy and ground-state quantum-chemical calculations has been used to study the valence electronic struct...", "citations": 16, "author_count": 7, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4132, "doi": "10.1088/1367-2630/7/1/104", "umap_coordinates": { "x": 393.1091613769531, "y": 135.2364959716797, "z": 206.86953735351562 }, "tsne_coordinates": { "x": 14.272570610046387, "y": -25.42498779296875, "z": 4.733415603637695 }, "pca_coordinates": { "x": -0.441342830657959, "y": -0.7686467170715332, "z": 0.11611473560333252 }, "axis_scores": { "Quantum imaging": 0.707058846950531, "Quantum Life Science Sensing": 0.717279851436615, "Quantum sensing Detection": 0.699654221534729, "Quantum sensing Metrology": 0.6787538528442383, "Quantum sensing navigation": 0.6883165240287781, "Quantum sensing Position": 0.6861105561256409, "Quantum sensing Timing": 0.6888890862464905, "Quantum sensing": 0.7111402153968811, "Quantum control": 0.6751084923744202 } }, { "id": 4127, "title": "Tunable physics through coordination chemistry: formation on oxide surface of Ti and Al chelates with 3-hydroxyflavone capable of electron injection and light emission", "abstract": "The optoelectronic features of 3-hydroxyflavone (3HF) self-assembled on the surface of an n-type semiconducting metal oxide (TiO2) and an insulator (Al2O3) are herein investigated. 3HF molecules use t...", "citations": 1, "author_count": 13, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4133, "doi": "10.1039/d2dt02195a", "umap_coordinates": { "x": 391.6577453613281, "y": 134.9813690185547, "z": 205.32333374023438 }, "tsne_coordinates": { "x": 7.062516689300537, "y": -7.836647033691406, "z": -18.445236206054688 }, "pca_coordinates": { "x": -1.882997989654541, "y": -1.3597540855407715, "z": -2.320126533508301 }, "axis_scores": { "Quantum imaging": 0.7250449657440186, "Quantum Life Science Sensing": 0.7342931032180786, "Quantum sensing Detection": 0.7042673230171204, "Quantum sensing Metrology": 0.6921308636665344, "Quantum sensing navigation": 0.7035636305809021, "Quantum sensing Position": 0.6564531922340393, "Quantum sensing Timing": 0.6768558025360107, "Quantum sensing": 0.7232756614685059, "Quantum control": 0.7281103730201721 } }, { "id": 4128, "title": "Universal Gate Set for Continuous-Variable Quantum Computation with Microwave Circuits", "abstract": "We provide an explicit construction of a universal gate set for continuous-variable quantum computation with microwave circuits. Such a universal set has been first proposed in quantum-optical setups,...", "citations": 58, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4134, "doi": "10.1103/PhysRevLett.125.160501", "umap_coordinates": { "x": 395.67401123046875, "y": 136.28363037109375, "z": 208.1884765625 }, "tsne_coordinates": { "x": -18.621593475341797, "y": -24.387128829956055, "z": -5.207594394683838 }, "pca_coordinates": { "x": 4.127121448516846, "y": 1.3196892738342285, "z": 2.8175220489501953 }, "axis_scores": { "Quantum imaging": 0.7251262664794922, "Quantum Life Science Sensing": 0.7416540384292603, "Quantum sensing Detection": 0.7573562860488892, "Quantum sensing Metrology": 0.7472997307777405, "Quantum sensing navigation": 0.7385000586509705, "Quantum sensing Position": 0.6878070831298828, "Quantum sensing Timing": 0.7224486470222473, "Quantum sensing": 0.7585468292236328, "Quantum control": 0.7432395219802856 } }, { "id": 4129, "title": "Random coding for sharing bosonic quantum secrets", "abstract": "We consider a protocol for sharing quantum states using continuous variable systems. Specifically we introduce an encoding procedure where bosonic modes in arbitrary secret states are mixed with sever...", "citations": 6, "author_count": 5, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4135, "doi": "10.1103/PhysRevA.100.022303", "umap_coordinates": { "x": 395.3993225097656, "y": 136.75547790527344, "z": 208.48841857910156 }, "tsne_coordinates": { "x": -24.34081268310547, "y": -22.472999572753906, "z": -5.684145450592041 }, "pca_coordinates": { "x": 4.841137409210205, "y": -0.18250393867492676, "z": 1.2945821285247803 }, "axis_scores": { "Quantum imaging": 0.7277161478996277, "Quantum Life Science Sensing": 0.7223851084709167, "Quantum sensing Detection": 0.7221064567565918, "Quantum sensing Metrology": 0.7193028926849365, "Quantum sensing navigation": 0.7426819801330566, "Quantum sensing Position": 0.6942569017410278, "Quantum sensing Timing": 0.7143315672874451, "Quantum sensing": 0.7413346171379089, "Quantum control": 0.7359786033630371 } }, { "id": 4130, "title": "Lead-Free Silver-Bismuth Halide Double Perovskite Nanocrystals", "abstract": "Lead-free perovskite nanocrystals (NCs) were obtained mainly by substituting a Pb2+ cation with a divalent cation or substituting three Pb2+ cations with two trivalent cations. The substitution of two...", "citations": 411, "author_count": 10, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4136, "doi": "10.1002/anie.201800660", "umap_coordinates": { "x": 392.1084289550781, "y": 133.5941619873047, "z": 205.5794219970703 }, "tsne_coordinates": { "x": 23.666259765625, "y": -1.2022364139556885, "z": -22.267688751220703 }, "pca_coordinates": { "x": -2.379815101623535, "y": -3.7038702964782715, "z": -0.9985973238945007 }, "axis_scores": { "Quantum imaging": 0.7193353772163391, "Quantum Life Science Sensing": 0.7174293994903564, "Quantum sensing Detection": 0.7120656967163086, "Quantum sensing Metrology": 0.710414469242096, "Quantum sensing navigation": 0.709868848323822, "Quantum sensing Position": 0.6799336671829224, "Quantum sensing Timing": 0.6716018915176392, "Quantum sensing": 0.7284374237060547, "Quantum control": 0.7157539129257202 } }, { "id": 4131, "title": "Influence of excited Landau levels on a two-dimensional electron-hole system in a strong perpendicular magnetic field", "abstract": "The study of the quantum states of a two-dimensional electron-hole system in a strong perpendicular magnetic field is carried out with special attention to the influence of virtual quantum transitions...", "citations": 14, "author_count": 7, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4137, "doi": "10.1016/j.ssc.2006.08.010", "umap_coordinates": { "x": 392.58319091796875, "y": 134.96945190429688, "z": 207.57949829101562 }, "tsne_coordinates": { "x": 15.316408157348633, "y": -25.023242950439453, "z": 10.810131072998047 }, "pca_coordinates": { "x": -0.3549751043319702, "y": -1.6000523567199707, "z": -2.244235038757324 }, "axis_scores": { "Quantum imaging": 0.7300124168395996, "Quantum Life Science Sensing": 0.7144203782081604, "Quantum sensing Detection": 0.7134135961532593, "Quantum sensing Metrology": 0.6918312311172485, "Quantum sensing navigation": 0.7003450989723206, "Quantum sensing Position": 0.700510561466217, "Quantum sensing Timing": 0.6623690724372864, "Quantum sensing": 0.7222272753715515, "Quantum control": 0.7083665728569031 } }, { "id": 4132, "title": "THE CLASSICAL LIMIT OF QUANTUM OBSERVABLES IN THE CONSERVATION LAWS OF FLUID DYNAMICS", "abstract": "In the classical work by Irving and Zwanzig [J.H. Irving and R.W. Zwanzig, J. Chem. Phys., 19, 1173-1180, 1951] it has been shown that quantum observables for macroscopic density, momentum and energy ...", "citations": 2, "author_count": 4, "categories": [ "Mathematics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4138, "doi": "10.4310/CMS.2019.v17.n8.a5", "umap_coordinates": { "x": 394.8003845214844, "y": 137.79965209960938, "z": 206.57762145996094 }, "tsne_coordinates": { "x": -20.85533332824707, "y": -3.330317258834839, "z": 27.171592712402344 }, "pca_coordinates": { "x": 2.7988781929016113, "y": 3.6093058586120605, "z": -1.58510422706604 }, "axis_scores": { "Quantum imaging": 0.7374026775360107, "Quantum Life Science Sensing": 0.7613649368286133, "Quantum sensing Detection": 0.7500306367874146, "Quantum sensing Metrology": 0.736835241317749, "Quantum sensing navigation": 0.7606443166732788, "Quantum sensing Position": 0.7327976822853088, "Quantum sensing Timing": 0.7100762724876404, "Quantum sensing": 0.7498151659965515, "Quantum control": 0.7531529664993286 } }, { "id": 4133, "title": "Label-free monitoring of ambient oxygenation and redox conditions using the photodynamics of flavin compounds and transient state (TRAST) spectroscopy", "abstract": "Transient state (TRAST) monitoring can determine population dynamics of long-lived, dark transient states of fluorescent molecules, detecting only the average fluorescence intensity from a sample, whe...", "citations": 20, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4139, "doi": "10.1016/j.ymeth.2017.11.013", "umap_coordinates": { "x": 393.55584716796875, "y": 134.9695281982422, "z": 204.30047607421875 }, "tsne_coordinates": { "x": 9.599178314208984, "y": 20.88337516784668, "z": -4.35361385345459 }, "pca_coordinates": { "x": -4.488759517669678, "y": 1.2363579273223877, "z": -1.2818212509155273 }, "axis_scores": { "Quantum imaging": 0.7010823488235474, "Quantum Life Science Sensing": 0.763085126876831, "Quantum sensing Detection": 0.7023975849151611, "Quantum sensing Metrology": 0.7007434964179993, "Quantum sensing navigation": 0.6842194199562073, "Quantum sensing Position": 0.6777557134628296, "Quantum sensing Timing": 0.6841509938240051, "Quantum sensing": 0.7104185819625854, "Quantum control": 0.678807258605957 } }, { "id": 4134, "title": "Speed enhancement of VCSELs by photon lifetime reduction", "abstract": "The dependence of the performance of high-speed 850 nm vertical cavity surface-emitting lasers (VCSELs) on photon lifetime is investigated. The photon lifetime is controlled by shallow surface etching...", "citations": 33, "author_count": 7, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4140, "doi": "10.1049/el.2010.0779", "umap_coordinates": { "x": 394.1467590332031, "y": 134.16424560546875, "z": 206.10931396484375 }, "tsne_coordinates": { "x": 34.90103530883789, "y": 16.468124389648438, "z": -8.354984283447266 }, "pca_coordinates": { "x": -1.6148183345794678, "y": -0.09430766105651855, "z": 2.0824451446533203 }, "axis_scores": { "Quantum imaging": 0.7165487408638, "Quantum Life Science Sensing": 0.7144856452941895, "Quantum sensing Detection": 0.6980369687080383, "Quantum sensing Metrology": 0.6835227608680725, "Quantum sensing navigation": 0.699570894241333, "Quantum sensing Position": 0.6821699142456055, "Quantum sensing Timing": 0.6796711683273315, "Quantum sensing": 0.6971384286880493, "Quantum control": 0.6858891248703003 } }, { "id": 4135, "title": "Centrality and transverse momentum dependence of collective flow in 158 A GeV Pb+Pb collisions measured via inclusive photons", "abstract": "Directed and elliptic flow of inclusive photons near mid-rapidity in 158 A GeV Pb + Pb collisions has been studied. The data have been obtained with the photon spectrometer LEDA of the WA98 experiment...", "citations": 22, "author_count": 129, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4141, "doi": "10.1016/j.nuclphysa.2005.08.004", "umap_coordinates": { "x": 396.66485595703125, "y": 134.18687438964844, "z": 207.55198669433594 }, "tsne_coordinates": { "x": -31.698963165283203, "y": 2.952333450317383, "z": -8.605354309082031 }, "pca_coordinates": { "x": -0.5992666482925415, "y": 1.247666835784912, "z": 2.0943551063537598 }, "axis_scores": { "Quantum imaging": 0.7344884276390076, "Quantum Life Science Sensing": 0.6994016170501709, "Quantum sensing Detection": 0.7243145704269409, "Quantum sensing Metrology": 0.6986174583435059, "Quantum sensing navigation": 0.7178592085838318, "Quantum sensing Position": 0.720255434513092, "Quantum sensing Timing": 0.7176390290260315, "Quantum sensing": 0.7213060855865479, "Quantum control": 0.7076955437660217 } }, { "id": 4136, "title": "Chances and challenges of photon-counting CT in musculoskeletal imaging", "abstract": "In musculoskeletal imaging, CT is used in a wide range of indications, either alone or in a synergistic approach with MRI. While MRI is the preferred modality for the assessment of soft tissues and bo...", "citations": 16, "author_count": 8, "categories": [ "Orthopedics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4142, "doi": "10.1007/s00256-024-04622-6", "umap_coordinates": { "x": 395.3259582519531, "y": 133.0729522705078, "z": 204.85523986816406 }, "tsne_coordinates": { "x": -3.7686800956726074, "y": 24.340051651000977, "z": -14.90749740600586 }, "pca_coordinates": { "x": -3.31992769241333, "y": 4.146031379699707, "z": 1.928919792175293 }, "axis_scores": { "Quantum imaging": 0.7147279381752014, "Quantum Life Science Sensing": 0.6950322985649109, "Quantum sensing Detection": 0.6795288920402527, "Quantum sensing Metrology": 0.6727326512336731, "Quantum sensing navigation": 0.6906447410583496, "Quantum sensing Position": 0.6918727159500122, "Quantum sensing Timing": 0.7015768885612488, "Quantum sensing": 0.6780744791030884, "Quantum control": 0.6474911570549011 } }, { "id": 4137, "title": "Effects of changes in ambient PAR and UV radiation on the nutritional quality of an Arctic diatom (Thalassiosira antaretica var. borealis)", "abstract": "Polyunsaturated fatty acids (PUFAs) are essential macromolecules that are synthesized by phytoplankton during spring bloom, and they play a key role in the Arctic food web. They are, however, consider...", "citations": 43, "author_count": 7, "categories": [ "Environmental Sciences & Ecology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4143, "doi": "10.1016/j.jembe.2006.06.005", "umap_coordinates": { "x": 394.0328063964844, "y": 135.640625, "z": 203.59042358398438 }, "tsne_coordinates": { "x": 14.822790145874023, "y": 26.643800735473633, "z": 14.481346130371094 }, "pca_coordinates": { "x": -4.487463474273682, "y": 0.9941873550415039, "z": -2.0222909450531006 }, "axis_scores": { "Quantum imaging": 0.6640200018882751, "Quantum Life Science Sensing": 0.7094558477401733, "Quantum sensing Detection": 0.6546725034713745, "Quantum sensing Metrology": 0.6499952077865601, "Quantum sensing navigation": 0.6586627960205078, "Quantum sensing Position": 0.6592429876327515, "Quantum sensing Timing": 0.6359051465988159, "Quantum sensing": 0.6659963130950928, "Quantum control": 0.6511045694351196 } }, { "id": 4138, "title": "Photodynamic therapy targeting VCAM-1-expressing human umbilical vein endothelial cells using a PpIX-VCAM-1 binding peptide-quantum dot conjugate", "abstract": "With increasing knowledge of the relevance of vascular cell adhesion molecule 1 (VCAM-1) for tumor growth, metastasis, angiogenesis, and related processes, it has become an attractive anti-tumor strat...", "citations": 12, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4144, "doi": "10.1039/c7ra10648c", "umap_coordinates": { "x": 393.5377502441406, "y": 135.2279052734375, "z": 204.3091583251953 }, "tsne_coordinates": { "x": 5.531871795654297, "y": 27.861778259277344, "z": -8.72220516204834 }, "pca_coordinates": { "x": -2.8401198387145996, "y": -0.02141427993774414, "z": 1.204237937927246 }, "axis_scores": { "Quantum imaging": 0.7102407217025757, "Quantum Life Science Sensing": 0.7146344184875488, "Quantum sensing Detection": 0.6994448900222778, "Quantum sensing Metrology": 0.6828296184539795, "Quantum sensing navigation": 0.6872924566268921, "Quantum sensing Position": 0.66761314868927, "Quantum sensing Timing": 0.6653331518173218, "Quantum sensing": 0.7006325125694275, "Quantum control": 0.6913706660270691 } }, { "id": 4139, "title": "Influence of time of lifting and storage on the potential photosynthetic efficiency in newly developed leaves of bare-root silver birch and common oak", "abstract": "Silver birch and common oak are known to be sensitive to standard practices in nurseries and they often show poor establishment when transplanted in urban areas. Lifting date and time in cold storage ...", "citations": 8, "author_count": 3, "categories": [ "Agriculture" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4145, "doi": "10.1016/S0304-4238(01)00361-2", "umap_coordinates": { "x": 394.26507568359375, "y": 136.14768981933594, "z": 203.84434509277344 }, "tsne_coordinates": { "x": 10.102621078491211, "y": 31.32753562927246, "z": 12.13622760772705 }, "pca_coordinates": { "x": -3.554380416870117, "y": 1.4429106712341309, "z": -0.2808000445365906 }, "axis_scores": { "Quantum imaging": 0.6534785628318787, "Quantum Life Science Sensing": 0.6975964307785034, "Quantum sensing Detection": 0.6414764523506165, "Quantum sensing Metrology": 0.6485918760299683, "Quantum sensing navigation": 0.6492531299591064, "Quantum sensing Position": 0.6667406558990479, "Quantum sensing Timing": 0.6530624032020569, "Quantum sensing": 0.6607364416122437, "Quantum control": 0.6460763812065125 } }, { "id": 4140, "title": "Many-photon dynamics of photobleaching", "abstract": "A detailed dynamical theory of photobleaching by periodical sequences of laser pulses is presented. The theory is used for interpretation of recent experiments with pyrylium salts. Our simulations are...", "citations": 50, "author_count": 7, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4146, "doi": "10.1021/jp074756x", "umap_coordinates": { "x": 392.88165283203125, "y": 135.93406677246094, "z": 206.21897888183594 }, "tsne_coordinates": { "x": -0.8426200747489929, "y": -0.15733204782009125, "z": 11.520482063293457 }, "pca_coordinates": { "x": -0.7181574702262878, "y": 0.23340630531311035, "z": 0.3476523756980896 }, "axis_scores": { "Quantum imaging": 0.7274572253227234, "Quantum Life Science Sensing": 0.7146161794662476, "Quantum sensing Detection": 0.696638286113739, "Quantum sensing Metrology": 0.675101637840271, "Quantum sensing navigation": 0.6716361045837402, "Quantum sensing Position": 0.6763678193092346, "Quantum sensing Timing": 0.6823158860206604, "Quantum sensing": 0.7062118053436279, "Quantum control": 0.6794360280036926 } }, { "id": 4141, "title": "QHDL: a Low-Level Circuit Description Language for Quantum Computing", "abstract": "This paper proposes a descriptive language called QHDL, akin to VHDL, to program gate-based quantum computing systems. Unlike other popular quantum programming languages, QHDL targets low-level quantu...", "citations": 1, "author_count": 3, "categories": [ "Computer Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4147, "doi": "10.1145/3587135.3592191", "umap_coordinates": { "x": 395.145263671875, "y": 136.81631469726562, "z": 206.9196014404297 }, "tsne_coordinates": { "x": -16.871376037597656, "y": 16.58995246887207, "z": 13.75173568725586 }, "pca_coordinates": { "x": 2.110957384109497, "y": 2.2490761280059814, "z": -0.10476940870285034 }, "axis_scores": { "Quantum imaging": 0.7256110906600952, "Quantum Life Science Sensing": 0.7323188781738281, "Quantum sensing Detection": 0.7372636795043945, "Quantum sensing Metrology": 0.7161674499511719, "Quantum sensing navigation": 0.7262983322143555, "Quantum sensing Position": 0.680456280708313, "Quantum sensing Timing": 0.6923819184303284, "Quantum sensing": 0.7551194429397583, "Quantum control": 0.755979597568512 } }, { "id": 4142, "title": "Polarization-Enabled Tuning of Anapole Resonances in Vertically Stacked Elliptical Silicon Nanodisks", "abstract": "This work presents the polarization-dependent behavior of the anapole state in stacked amorphous silicon (a-Si) nanodisks with elliptical geometries. Using SiO2 as a spacer layer between the a-Si disk...", "citations": 2, "author_count": 5, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4148, "doi": "10.1002/adpr.202400009", "umap_coordinates": { "x": 393.3071594238281, "y": 134.2873992919922, "z": 206.14462280273438 }, "tsne_coordinates": { "x": 30.830455780029297, "y": -11.895371437072754, "z": -20.653026580810547 }, "pca_coordinates": { "x": -1.9040641784667969, "y": -2.398043632507324, "z": 0.611811101436615 }, "axis_scores": { "Quantum imaging": 0.7162423133850098, "Quantum Life Science Sensing": 0.7146486639976501, "Quantum sensing Detection": 0.7062667012214661, "Quantum sensing Metrology": 0.70958012342453, "Quantum sensing navigation": 0.7183029651641846, "Quantum sensing Position": 0.705432653427124, "Quantum sensing Timing": 0.6844356060028076, "Quantum sensing": 0.7207053899765015, "Quantum control": 0.6974360346794128 } }, { "id": 4143, "title": "Large two-photon absorption cross sections in two-dimensional, charge-transfer, cumulene-containing aromatic molecules", "abstract": "Ab initio simulations of two-photon absorption in donor-acceptor substituted cumulene-containing aromatic molecules have been carried out. The results reveal that these two-dimensional, charge-transfe...", "citations": 105, "author_count": 4, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4149, "doi": "10.1063/1.480111", "umap_coordinates": { "x": 392.63031005859375, "y": 135.4210662841797, "z": 206.5514678955078 }, "tsne_coordinates": { "x": 2.5167548656463623, "y": -5.084217548370361, "z": 2.216179370880127 }, "pca_coordinates": { "x": -0.8809041976928711, "y": -2.232372760772705, "z": 0.34839075803756714 }, "axis_scores": { "Quantum imaging": 0.7056443691253662, "Quantum Life Science Sensing": 0.6960816383361816, "Quantum sensing Detection": 0.6875356435775757, "Quantum sensing Metrology": 0.664801299571991, "Quantum sensing navigation": 0.6500100493431091, "Quantum sensing Position": 0.6340486407279968, "Quantum sensing Timing": 0.6473245620727539, "Quantum sensing": 0.6970890760421753, "Quantum control": 0.6653451323509216 } }, { "id": 4144, "title": "Three-qubit topological phase on entangled photon pairs", "abstract": "We propose an experiment to observe the topological phases associated with cyclic evolutions, generated by local SU(2) operations, on three-qubit entangled states prepared on different degrees of free...", "citations": 13, "author_count": 5, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4150, "doi": "10.1103/PhysRevA.87.042112", "umap_coordinates": { "x": 395.52606201171875, "y": 136.64910888671875, "z": 208.29666137695312 }, "tsne_coordinates": { "x": -18.716588973999023, "y": -11.869300842285156, "z": -0.1131022721529007 }, "pca_coordinates": { "x": 5.983117580413818, "y": 0.0407109260559082, "z": 1.3436436653137207 }, "axis_scores": { "Quantum imaging": 0.7547835111618042, "Quantum Life Science Sensing": 0.7393617033958435, "Quantum sensing Detection": 0.7621830105781555, "Quantum sensing Metrology": 0.7380783557891846, "Quantum sensing navigation": 0.7645536065101624, "Quantum sensing Position": 0.7435693740844727, "Quantum sensing Timing": 0.7378774881362915, "Quantum sensing": 0.7657948732376099, "Quantum control": 0.7163040041923523 } }, { "id": 4145, "title": "Thresholds and noise limitations of colour vision in dim light", "abstract": "Colour discrimination is based on opponent photoreceptor interactions, and limited by receptor noise. In dim light, photon shot noise impairs colour vision, and in vertebrates, the absolute threshold ...", "citations": 80, "author_count": 4, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4151, "doi": "10.1098/rstb.2016.0065", "umap_coordinates": { "x": 394.952392578125, "y": 135.8130340576172, "z": 204.72512817382812 }, "tsne_coordinates": { "x": -10.08786392211914, "y": 29.844249725341797, "z": 19.6781005859375 }, "pca_coordinates": { "x": -2.1075642108917236, "y": 2.4611740112304688, "z": 1.160374641418457 }, "axis_scores": { "Quantum imaging": 0.7226461172103882, "Quantum Life Science Sensing": 0.7415377497673035, "Quantum sensing Detection": 0.742064356803894, "Quantum sensing Metrology": 0.7085143327713013, "Quantum sensing navigation": 0.7122085094451904, "Quantum sensing Position": 0.7102223038673401, "Quantum sensing Timing": 0.7157124280929565, "Quantum sensing": 0.7341504096984863, "Quantum control": 0.6838779449462891 } }, { "id": 4146, "title": "Spin-charge separation and the Pauli electron", "abstract": "The separation between the spin and the charge converts the quantum mechanical Pauli Hamiltonian into the Hamiltonian of the non-Abelian Georoi-Glashow model, which is notorious for its magnetic monop...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4152, "doi": "10.1134/S0021364007080024", "umap_coordinates": { "x": 393.7774963378906, "y": 136.20077514648438, "z": 207.16331481933594 }, "tsne_coordinates": { "x": 18.392650604248047, "y": -25.556377410888672, "z": 14.851635932922363 }, "pca_coordinates": { "x": 0.334153413772583, "y": -0.395291805267334, "z": -2.605966329574585 }, "axis_scores": { "Quantum imaging": 0.6812436580657959, "Quantum Life Science Sensing": 0.7059125304222107, "Quantum sensing Detection": 0.6742708683013916, "Quantum sensing Metrology": 0.6727716326713562, "Quantum sensing navigation": 0.6815265417098999, "Quantum sensing Position": 0.6754265427589417, "Quantum sensing Timing": 0.6450110077857971, "Quantum sensing": 0.6897074580192566, "Quantum control": 0.6850197315216064 } }, { "id": 4147, "title": "Quantum plasmonics with multi-emitters: application to stimulated Raman adiabatic passage", "abstract": "We construct a mode-selective effective model describing the interaction of the localised surface plasmon polaritons (LSPs) supported by a spherical metal nanoparticle (MNP) with N quantum emitters (Q...", "citations": 16, "author_count": 8, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4153, "doi": "10.1140/epjd/e2018-90322-5", "umap_coordinates": { "x": 394.0130310058594, "y": 134.54376220703125, "z": 206.61683654785156 }, "tsne_coordinates": { "x": 27.666807174682617, "y": -12.465836524963379, "z": -25.28171157836914 }, "pca_coordinates": { "x": 0.1989448070526123, "y": -1.0815012454986572, "z": 2.5267233848571777 }, "axis_scores": { "Quantum imaging": 0.713822066783905, "Quantum Life Science Sensing": 0.703533411026001, "Quantum sensing Detection": 0.7135743498802185, "Quantum sensing Metrology": 0.718684196472168, "Quantum sensing navigation": 0.699357271194458, "Quantum sensing Position": 0.6882469058036804, "Quantum sensing Timing": 0.6790469288825989, "Quantum sensing": 0.7205413579940796, "Quantum control": 0.6891416907310486 } }, { "id": 4148, "title": "Thermodynamic Stability of Gold-Assisted InAs Nanowire Growth", "abstract": "Growth of III-V semiconductor nanowires, is generally assisted by a liquid particle in order to get a highly anisotropic crystallization. The thermodynamic stability of the particle is therefore of im...", "citations": 13, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4154, "doi": "10.1021/acs.jpcc.7b06138", "umap_coordinates": { "x": 392.0499267578125, "y": 133.72560119628906, "z": 207.02481079101562 }, "tsne_coordinates": { "x": 23.110301971435547, "y": -11.013482093811035, "z": -4.512573719024658 }, "pca_coordinates": { "x": -0.3140789866447449, "y": -4.71877384185791, "z": -1.2600889205932617 }, "axis_scores": { "Quantum imaging": 0.6900582909584045, "Quantum Life Science Sensing": 0.7208744287490845, "Quantum sensing Detection": 0.7078889608383179, "Quantum sensing Metrology": 0.6971037983894348, "Quantum sensing navigation": 0.7249152064323425, "Quantum sensing Position": 0.712361752986908, "Quantum sensing Timing": 0.6751677393913269, "Quantum sensing": 0.7160918712615967, "Quantum control": 0.7036806344985962 } }, { "id": 4149, "title": "Homonuclear dipolar recoupling of half-integer spin quadrupolar nuclei: Techniques and applications", "abstract": "We review recent advances in solid state NMR methodology for recovering homonuclear dipolar interactions among half-integer quadrupolar spins undergoing sample rotation. Existing dipolar recoupling te...", "citations": 47, "author_count": 2, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4155, "doi": "10.1016/j.ssnmr.2009.06.005", "umap_coordinates": { "x": 392.5487365722656, "y": 137.06356811523438, "z": 206.91806030273438 }, "tsne_coordinates": { "x": 13.257367134094238, "y": 0.0113160889595747, "z": 32.204864501953125 }, "pca_coordinates": { "x": -1.22001051902771, "y": 1.0020298957824707, "z": -1.014411211013794 }, "axis_scores": { "Quantum imaging": 0.7285076379776001, "Quantum Life Science Sensing": 0.7310543656349182, "Quantum sensing Detection": 0.6898418664932251, "Quantum sensing Metrology": 0.6974239945411682, "Quantum sensing navigation": 0.7042281031608582, "Quantum sensing Position": 0.6842753887176514, "Quantum sensing Timing": 0.7056669592857361, "Quantum sensing": 0.7103298306465149, "Quantum control": 0.6566173434257507 } }, { "id": 4150, "title": "Weak localization and chaos in ballistic quantum dots", "abstract": "Ballistic fluctuations due to coherent mode mixing dominate magnetotransport in the dot at milli Kelvin temperatures. As the temperature is increased and Ohmic behavior is established in the dot, the ...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 4156, "doi": "10.1088/0031-8949/1997/T69/075", "umap_coordinates": { "x": 394.2640075683594, "y": 135.99798583984375, "z": 208.3398895263672 }, "tsne_coordinates": { "x": -4.627592086791992, "y": -38.66244125366211, "z": 3.904924154281616 }, "pca_coordinates": { "x": 2.92543363571167, "y": 1.2243479490280151, "z": -0.6554993391036987 }, "axis_scores": { "Quantum imaging": 0.7536991238594055, "Quantum Life Science Sensing": 0.7407035827636719, "Quantum sensing Detection": 0.7555674314498901, "Quantum sensing Metrology": 0.7294338345527649, "Quantum sensing navigation": 0.7577592730522156, "Quantum sensing Position": 0.7444879412651062, "Quantum sensing Timing": 0.7253316640853882, "Quantum sensing": 0.7548900246620178, "Quantum control": 0.734717845916748 } }, { "id": 4151, "title": "Cooling of Nanomechanical Resonators by Thermally Activated Single-Electron Transport", "abstract": "We show that the vibrations of a nanomechanical resonator can be cooled to near its quantum ground state by tunneling injection of electrons from a scanning tunneling microscope tip. The interplay bet...", "citations": 26, "author_count": 5, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4157, "doi": "10.1103/PhysRevLett.106.186803", "umap_coordinates": { "x": 394.7214660644531, "y": 134.7610626220703, "z": 208.5752716064453 }, "tsne_coordinates": { "x": -0.6759042739868164, "y": -28.538822174072266, "z": -15.140298843383789 }, "pca_coordinates": { "x": 3.5383572578430176, "y": -2.6670613288879395, "z": 1.1018733978271484 }, "axis_scores": { "Quantum imaging": 0.6808170080184937, "Quantum Life Science Sensing": 0.7095276713371277, "Quantum sensing Detection": 0.7025429010391235, "Quantum sensing Metrology": 0.6956380605697632, "Quantum sensing navigation": 0.6935608386993408, "Quantum sensing Position": 0.6745400428771973, "Quantum sensing Timing": 0.6830759048461914, "Quantum sensing": 0.715053379535675, "Quantum control": 0.6766672134399414 } }, { "id": 4152, "title": "Energy resolution of a photon-counting silicon strip detector", "abstract": "A photon-counting silicon strip detector with two energy thresholds was investigated for spectral X-ray imaging in a mammography system. Preliminary studies already indicate clinical benefit of the de...", "citations": 99, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4158, "doi": "10.1016/j.nima.2009.10.152", "umap_coordinates": { "x": 394.7525939941406, "y": 132.82241821289062, "z": 205.75282287597656 }, "tsne_coordinates": { "x": -15.37765121459961, "y": 17.760061264038086, "z": -13.015366554260254 }, "pca_coordinates": { "x": -2.411510467529297, "y": -0.7081894874572754, "z": 3.51646089553833 }, "axis_scores": { "Quantum imaging": 0.7245035171508789, "Quantum Life Science Sensing": 0.7238911986351013, "Quantum sensing Detection": 0.7294424772262573, "Quantum sensing Metrology": 0.7173244953155518, "Quantum sensing navigation": 0.70894855260849, "Quantum sensing Position": 0.7107101678848267, "Quantum sensing Timing": 0.6974291205406189, "Quantum sensing": 0.7251818180084229, "Quantum control": 0.6465820074081421 } }, { "id": 4153, "title": "Superscars in billiards:: A model for doorway states in quantum spectra", "abstract": "In a unifying way, the doorway mechanism explains spectral properties in a rich variety of open mesoscopic quantum systems, ranging from atoms to nuclei. A distinct state and a background of other sta...", "citations": 36, "author_count": 5, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4159, "doi": "10.1103/PhysRevLett.100.204101", "umap_coordinates": { "x": 394.4390869140625, "y": 137.29763793945312, "z": 207.36329650878906 }, "tsne_coordinates": { "x": -10.324893951416016, "y": -19.750730514526367, "z": 6.466816425323486 }, "pca_coordinates": { "x": 3.2495908737182617, "y": 0.8720532655715942, "z": -0.4526854157447815 }, "axis_scores": { "Quantum imaging": 0.7103031277656555, "Quantum Life Science Sensing": 0.7188200354576111, "Quantum sensing Detection": 0.7066491842269897, "Quantum sensing Metrology": 0.6902014017105103, "Quantum sensing navigation": 0.7194636464118958, "Quantum sensing Position": 0.681259036064148, "Quantum sensing Timing": 0.706937313079834, "Quantum sensing": 0.7127159833908081, "Quantum control": 0.6912515163421631 } }, { "id": 4154, "title": "Quantum error correction in the noisy intermediate-scale quantum regime for sequential quantum computing", "abstract": "We use density-matrix simulations to study the performance of three distance three quantum error correction (QEC) codes in the context of the rare-earth (RE) ion-doped crystal platform for quantum com...", "citations": 5, "author_count": 4, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4160, "doi": "10.1103/PhysRevA.105.062604", "umap_coordinates": { "x": 395.5435485839844, "y": 136.92774963378906, "z": 207.7831573486328 }, "tsne_coordinates": { "x": -25.301177978515625, "y": -20.376811981201172, "z": -2.9493188858032227 }, "pca_coordinates": { "x": 4.38508939743042, "y": 0.1321568489074707, "z": 2.0510904788970947 }, "axis_scores": { "Quantum imaging": 0.7499426007270813, "Quantum Life Science Sensing": 0.7490637898445129, "Quantum sensing Detection": 0.7655045986175537, "Quantum sensing Metrology": 0.7534744739532471, "Quantum sensing navigation": 0.7613413333892822, "Quantum sensing Position": 0.7436595559120178, "Quantum sensing Timing": 0.7464333176612854, "Quantum sensing": 0.7774749994277954, "Quantum control": 0.7174621224403381 } }, { "id": 4155, "title": "Energy Calibration of a Silicon-Strip Detector for Photon-Counting Spectral CT by Direct Usage of the X-ray Tube Spectrum", "abstract": "The variation among energy thresholds in a multibin detector for photon-counting spectral CT can lead to ring artefacts in the reconstructed images. Calibration of the energy thresholds can be used to...", "citations": 15, "author_count": 9, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4161, "doi": "10.1109/TNS.2014.2373641", "umap_coordinates": { "x": 395.2474060058594, "y": 132.9457244873047, "z": 205.8380126953125 }, "tsne_coordinates": { "x": -15.24709415435791, "y": 19.069799423217773, "z": -19.03970718383789 }, "pca_coordinates": { "x": -2.4066121578216553, "y": 0.6031553745269775, "z": 4.7121901512146 }, "axis_scores": { "Quantum imaging": 0.6972237229347229, "Quantum Life Science Sensing": 0.7226300239562988, "Quantum sensing Detection": 0.7070621848106384, "Quantum sensing Metrology": 0.6954852342605591, "Quantum sensing navigation": 0.6904406547546387, "Quantum sensing Position": 0.6799958348274231, "Quantum sensing Timing": 0.7103476524353027, "Quantum sensing": 0.7086231708526611, "Quantum control": 0.6474913954734802 } }, { "id": 4156, "title": "Priorities in optimisation of medical X-ray imaging - A contribution to the debate", "abstract": "A simplistic approach to optimising medical imaging is to use the lowest effective dose to the patient that does not jeopardise a correct diagnosis. With limited resources and over 1000 different type...", "citations": 18, "author_count": 4, "categories": [ "Environmental Sciences & Ecology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4162, "doi": "10.1093/rpd/nch578", "umap_coordinates": { "x": 395.6611022949219, "y": 133.00912475585938, "z": 204.81185913085938 }, "tsne_coordinates": { "x": -8.693278312683105, "y": 34.148929595947266, "z": -18.240421295166016 }, "pca_coordinates": { "x": -3.736229419708252, "y": 4.710414886474609, "z": -0.27194175124168396 }, "axis_scores": { "Quantum imaging": 0.7081810235977173, "Quantum Life Science Sensing": 0.6883184909820557, "Quantum sensing Detection": 0.6617199182510376, "Quantum sensing Metrology": 0.6617834568023682, "Quantum sensing navigation": 0.686884343624115, "Quantum sensing Position": 0.7017949819564819, "Quantum sensing Timing": 0.6744914054870605, "Quantum sensing": 0.6765284538269043, "Quantum control": 0.677945613861084 } }, { "id": 4157, "title": "Structural and functional damage sustained by mitochondria after traumatic brain injury in the rat: Evidence for differentially sensitive populations in the cortex and hippocampus", "abstract": "The cellular and molecular pathways initiated by traumatic brain injury (TBI) may compromise the function and structural integrity of mitochondria, thereby contributing to cerebral metabolic dysfuncti...", "citations": 162, "author_count": 11, "categories": [ "Endocrinology & Metabolism" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4163, "doi": "10.1097/01.WCB.0000040581.43808.03", "umap_coordinates": { "x": 395.04852294921875, "y": 134.98263549804688, "z": 204.37571716308594 }, "tsne_coordinates": { "x": -0.881086528301239, "y": 29.15959358215332, "z": -3.3927383422851562 }, "pca_coordinates": { "x": -1.3435981273651123, "y": 2.8236944675445557, "z": -1.8281123638153076 }, "axis_scores": { "Quantum imaging": 0.6538610458374023, "Quantum Life Science Sensing": 0.6709997057914734, "Quantum sensing Detection": 0.6472876071929932, "Quantum sensing Metrology": 0.6234828233718872, "Quantum sensing navigation": 0.6355152130126953, "Quantum sensing Position": 0.6390629410743713, "Quantum sensing Timing": 0.6377733945846558, "Quantum sensing": 0.6494455337524414, "Quantum control": 0.6488372087478638 } }, { "id": 4158, "title": "Tunneling between Edge States in a Quantum Spin Hall System", "abstract": "We analyze a quantum spin Hall device with a point contact connecting two of its edges. The contact supports a net spin tunneling current that can be probed experimentally via a two-terminal resistanc...", "citations": 103, "author_count": 3, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4164, "doi": "10.1103/PhysRevLett.102.096806", "umap_coordinates": { "x": 394.4772644042969, "y": 136.09747314453125, "z": 209.16432189941406 }, "tsne_coordinates": { "x": -13.654597282409668, "y": -31.341920852661133, "z": 12.719979286193848 }, "pca_coordinates": { "x": 6.062662601470947, "y": -0.5397763252258301, "z": -0.7314214706420898 }, "axis_scores": { "Quantum imaging": 0.7176839709281921, "Quantum Life Science Sensing": 0.7247353792190552, "Quantum sensing Detection": 0.7269010543823242, "Quantum sensing Metrology": 0.7121028900146484, "Quantum sensing navigation": 0.7452982068061829, "Quantum sensing Position": 0.7189892530441284, "Quantum sensing Timing": 0.7231130003929138, "Quantum sensing": 0.7361472845077515, "Quantum control": 0.6857768297195435 } }, { "id": 4159, "title": "Time-resolving state-specific molecular dissociation with XUV broadband absorption spectroscopy", "abstract": "The electronic and nuclear dynamics inside molecules are essential for chemical reactions, where different pathways typically unfold on ultrafast timescales. Extreme ultraviolet (XUV) light pulses gen...", "citations": 6, "author_count": 36, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4165, "doi": "10.1126/sciadv.adk1482", "umap_coordinates": { "x": 394.00372314453125, "y": 135.95608520507812, "z": 205.79156494140625 }, "tsne_coordinates": { "x": -9.806726455688477, "y": -3.4289116859436035, "z": 3.178112268447876 }, "pca_coordinates": { "x": -0.30121153593063354, "y": -0.528637170791626, "z": 0.6222632527351379 }, "axis_scores": { "Quantum imaging": 0.7058620452880859, "Quantum Life Science Sensing": 0.7289482355117798, "Quantum sensing Detection": 0.704777717590332, "Quantum sensing Metrology": 0.6907323598861694, "Quantum sensing navigation": 0.7063011527061462, "Quantum sensing Position": 0.6819651126861572, "Quantum sensing Timing": 0.6887071132659912, "Quantum sensing": 0.7071892023086548, "Quantum control": 0.67383873462677 } }, { "id": 4160, "title": "Optically Switchable NIR Photoluminescence of PbS Semiconducting Nanocrystals using Diarylethene Photoswitches", "abstract": "Precisely modulated photoluminescence (PL) with external control is highly demanded in material and biological sciences. However, it is challenging to switch the PL on and off in the NIR region with a...", "citations": 39, "author_count": 7, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4166, "doi": "10.1021/jacs.2c07102", "umap_coordinates": { "x": 391.91796875, "y": 134.98211669921875, "z": 205.68580627441406 }, "tsne_coordinates": { "x": 3.9435677528381348, "y": 2.454340696334839, "z": -9.185813903808594 }, "pca_coordinates": { "x": -2.3533382415771484, "y": -4.838339805603027, "z": -0.039008378982543945 }, "axis_scores": { "Quantum imaging": 0.7183794975280762, "Quantum Life Science Sensing": 0.7464835047721863, "Quantum sensing Detection": 0.7310646772384644, "Quantum sensing Metrology": 0.6876171827316284, "Quantum sensing navigation": 0.6975199580192566, "Quantum sensing Position": 0.6891018152236938, "Quantum sensing Timing": 0.6906989216804504, "Quantum sensing": 0.7329277992248535, "Quantum control": 0.7091939449310303 } }, { "id": 4161, "title": "1D Josephson quantum interference grids: diffraction patterns and dynamics", "abstract": "We investigate the magnetic response of transmission lines with embedded Josephson junctions and thus generating a 1D underdamped array. The measured multi-junction interference patterns are compared ...", "citations": 3, "author_count": 10, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4167, "doi": "10.1088/0022-3727/49/6/065303", "umap_coordinates": { "x": 393.94073486328125, "y": 135.92242431640625, "z": 208.0072479248047 }, "tsne_coordinates": { "x": 0.8125402927398682, "y": -14.568937301635742, "z": 19.781131744384766 }, "pca_coordinates": { "x": 2.5350422859191895, "y": 0.9684271812438965, "z": 0.47064417600631714 }, "axis_scores": { "Quantum imaging": 0.756240963935852, "Quantum Life Science Sensing": 0.7143614292144775, "Quantum sensing Detection": 0.7090853452682495, "Quantum sensing Metrology": 0.7052093148231506, "Quantum sensing navigation": 0.7434470057487488, "Quantum sensing Position": 0.7121850848197937, "Quantum sensing Timing": 0.7246864438056946, "Quantum sensing": 0.722851037979126, "Quantum control": 0.7189284563064575 } }, { "id": 4162, "title": "Emergence of a negative charging energy in a metallic dot capacitively coupled to a superconducting island", "abstract": "We consider the hybrid setup formed by a metallic dot, capacitively coupled to a superconducting island S connected to a bulk superconductor by a Josephson junction. Charge fluctuations in S act as a ...", "citations": 2, "author_count": 4, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4168, "doi": "10.1103/PhysRevB.77.054517", "umap_coordinates": { "x": 394.6640625, "y": 135.5598907470703, "z": 208.66119384765625 }, "tsne_coordinates": { "x": -8.747096061706543, "y": -22.465679168701172, "z": 0.5441048741340637 }, "pca_coordinates": { "x": 3.3352065086364746, "y": -2.132110595703125, "z": -0.7874090671539307 }, "axis_scores": { "Quantum imaging": 0.6947207450866699, "Quantum Life Science Sensing": 0.7281663417816162, "Quantum sensing Detection": 0.7239933609962463, "Quantum sensing Metrology": 0.6850800514221191, "Quantum sensing navigation": 0.706270158290863, "Quantum sensing Position": 0.7063398361206055, "Quantum sensing Timing": 0.6854977011680603, "Quantum sensing": 0.7078846096992493, "Quantum control": 0.676337718963623 } }, { "id": 4163, "title": "Resolution of ultrafast excited state kinetics of bilirubin in chloroform and bound to human serum albumin", "abstract": "The Z-E-isomerisation of bilirubin upon excitation with visible light is a fundamental step in phototherapy of newborns with neonatal jaundice. Here we report results of an ultrafast optical spectrosc...", "citations": 25, "author_count": 4, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4169, "doi": "10.1039/b409840d", "umap_coordinates": { "x": 392.8077087402344, "y": 136.32505798339844, "z": 205.640869140625 }, "tsne_coordinates": { "x": 11.99402141571045, "y": 5.650728225708008, "z": 8.956401824951172 }, "pca_coordinates": { "x": -0.6507468819618225, "y": -1.2160747051239014, "z": -2.895256519317627 }, "axis_scores": { "Quantum imaging": 0.7137736082077026, "Quantum Life Science Sensing": 0.7504485845565796, "Quantum sensing Detection": 0.7173590064048767, "Quantum sensing Metrology": 0.6962032914161682, "Quantum sensing navigation": 0.6839819550514221, "Quantum sensing Position": 0.6843284964561462, "Quantum sensing Timing": 0.6902949810028076, "Quantum sensing": 0.7204176187515259, "Quantum control": 0.6796836256980896 } }, { "id": 4164, "title": "Nanotechnology for catalysis and solar energy conversion", "abstract": "This roadmap on Nanotechnology for Catalysis and Solar Energy Conversion focuses on the application of nanotechnology in addressing the current challenges of energy conversion: 'high efficiency, stabi...", "citations": 59, "author_count": 26, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4170, "doi": "10.1088/1361-6528/abbce8", "umap_coordinates": { "x": 394.4827880859375, "y": 134.53004455566406, "z": 205.7926788330078 }, "tsne_coordinates": { "x": -18.116975784301758, "y": -3.4840314388275146, "z": -23.005340576171875 }, "pca_coordinates": { "x": -1.6840788125991821, "y": -1.032578945159912, "z": 0.0009540319442749023 }, "axis_scores": { "Quantum imaging": 0.6906487345695496, "Quantum Life Science Sensing": 0.725968599319458, "Quantum sensing Detection": 0.6912174820899963, "Quantum sensing Metrology": 0.6946388483047485, "Quantum sensing navigation": 0.6953157782554626, "Quantum sensing Position": 0.6480859518051147, "Quantum sensing Timing": 0.6558721661567688, "Quantum sensing": 0.7061717510223389, "Quantum control": 0.6954307556152344 } }, { "id": 4165, "title": "Photosynthetic performance, DNA damage and repair in gametes of the endemic Antarctic brown alga Ascoseira mirabilis exposed to ultraviolet radiation", "abstract": "Stress physiology on the reproductive cells of Antarctic macroalgae remained unstudied. Ascoseira mirabilis is endemic to the Antarctic region, an isolated ecosystem exposed to extreme environmental c...", "citations": 23, "author_count": 6, "categories": [ "Environmental Sciences & Ecology" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4171, "doi": "10.1111/j.1442-9993.2007.01796.x", "umap_coordinates": { "x": 394.33380126953125, "y": 135.77903747558594, "z": 203.917236328125 }, "tsne_coordinates": { "x": 12.325987815856934, "y": 31.057743072509766, "z": 15.631888389587402 }, "pca_coordinates": { "x": -1.4461164474487305, "y": 1.1004801988601685, "z": -0.034434616565704346 }, "axis_scores": { "Quantum imaging": 0.6969789266586304, "Quantum Life Science Sensing": 0.7371277809143066, "Quantum sensing Detection": 0.7030144929885864, "Quantum sensing Metrology": 0.6929497718811035, "Quantum sensing navigation": 0.6815537214279175, "Quantum sensing Position": 0.6730207800865173, "Quantum sensing Timing": 0.6792401075363159, "Quantum sensing": 0.7110198140144348, "Quantum control": 0.6759635806083679 } }, { "id": 4166, "title": "Roadmap for optical tweezers", "abstract": "Optical tweezers are tools made of light that enable contactless pushing, trapping, and manipulation of objects, ranging from atoms to space light sails. Since the pioneering work by Arthur Ashkin in ...", "citations": 126, "author_count": 84, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4172, "doi": "10.1088/2515-7647/acb57b", "umap_coordinates": { "x": 394.84271240234375, "y": 134.88819885253906, "z": 205.8423309326172 }, "tsne_coordinates": { "x": -14.789787292480469, "y": 2.963531017303467, "z": -18.108503341674805 }, "pca_coordinates": { "x": -1.449888825416565, "y": 1.423264741897583, "z": 0.5375129580497742 }, "axis_scores": { "Quantum imaging": 0.692635178565979, "Quantum Life Science Sensing": 0.6879108548164368, "Quantum sensing Detection": 0.6816909313201904, "Quantum sensing Metrology": 0.696229875087738, "Quantum sensing navigation": 0.7096759080886841, "Quantum sensing Position": 0.6843081712722778, "Quantum sensing Timing": 0.6816633343696594, "Quantum sensing": 0.6980294585227966, "Quantum control": 0.7038953900337219 } }, { "id": 4167, "title": "Bell Diagonal and Werner State Generation: Entanglement, Non-Locality, Steering and Discord on the IBM Quantum Computer", "abstract": "We propose the first correct special-purpose quantum circuits for preparation of Bell diagonal states (BDS), and implement them on the IBM Quantum computer, characterizing and testing complex aspects ...", "citations": 21, "author_count": 12, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4173, "doi": "10.3390/e23070797", "umap_coordinates": { "x": 395.3585205078125, "y": 136.9120330810547, "z": 206.08950805664062 }, "tsne_coordinates": { "x": -26.254060745239258, "y": 9.466893196105957, "z": 8.363123893737793 }, "pca_coordinates": { "x": 1.0848441123962402, "y": 1.967858910560608, "z": -0.3856791853904724 }, "axis_scores": { "Quantum imaging": 0.7331075072288513, "Quantum Life Science Sensing": 0.70504230260849, "Quantum sensing Detection": 0.7215303182601929, "Quantum sensing Metrology": 0.7133932113647461, "Quantum sensing navigation": 0.7396734356880188, "Quantum sensing Position": 0.7002862691879272, "Quantum sensing Timing": 0.6987952589988708, "Quantum sensing": 0.7286050915718079, "Quantum control": 0.7493080496788025 } }, { "id": 4168, "title": "Identification of Si-vacancy related room-temperature qubits in 4H silicon carbide", "abstract": "The identification of a microscopic configuration of point defects acting as quantum bits is a key step in the advance of quantum information processing and sensing. Among the numerous candidates, sil...", "citations": 111, "author_count": 7, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4174, "doi": "10.1103/PhysRevB.96.161114", "umap_coordinates": { "x": 394.578369140625, "y": 135.4883270263672, "z": 208.64735412597656 }, "tsne_coordinates": { "x": 4.012096405029297, "y": -15.770272254943848, "z": -0.8731165528297424 }, "pca_coordinates": { "x": 4.778736591339111, "y": -0.5845315456390381, "z": 1.1333696842193604 }, "axis_scores": { "Quantum imaging": 0.7075915932655334, "Quantum Life Science Sensing": 0.7165376543998718, "Quantum sensing Detection": 0.722511351108551, "Quantum sensing Metrology": 0.711432158946991, "Quantum sensing navigation": 0.7256731986999512, "Quantum sensing Position": 0.720453143119812, "Quantum sensing Timing": 0.7209672331809998, "Quantum sensing": 0.7238422632217407, "Quantum control": 0.6884409785270691 } }, { "id": 4169, "title": "Spin-resolved dynamical conductance of a correlated large-spin magnetic molecule", "abstract": "The finite-frequency transport properties of a large-spin molecule attached to ferromagnetic contacts are studied theoretically in the Kondo regime. The focus is on the behavior of the dynamical condu...", "citations": 7, "author_count": 4, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4175, "doi": "10.1103/PhysRevB.95.155446", "umap_coordinates": { "x": 394.0028991699219, "y": 135.8568572998047, "z": 208.91744995117188 }, "tsne_coordinates": { "x": -10.74820327758789, "y": -25.575788497924805, "z": 6.8114118576049805 }, "pca_coordinates": { "x": 5.204626560211182, "y": -1.0950298309326172, "z": -0.9474595189094543 }, "axis_scores": { "Quantum imaging": 0.7119831442832947, "Quantum Life Science Sensing": 0.7169367671012878, "Quantum sensing Detection": 0.7213236689567566, "Quantum sensing Metrology": 0.6978387832641602, "Quantum sensing navigation": 0.7199822664260864, "Quantum sensing Position": 0.6926558613777161, "Quantum sensing Timing": 0.6773884296417236, "Quantum sensing": 0.7329565286636353, "Quantum control": 0.7033953666687012 } }, { "id": 4170, "title": "Structural and optical characterization of self-assembled Ge nanocrystal layers grown by plasma-enhanced chemical vapor deposition", "abstract": "We present a structural and optical study of solid-state dispersions of Ge nanocrystals prepared by plasma-enhanced chemical vapor deposition. Structural analysis shows the presence of nanocrystalline...", "citations": 11, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4176, "doi": "10.1088/0957-4484/25/40/405705", "umap_coordinates": { "x": 393.4159851074219, "y": 134.04908752441406, "z": 206.88479614257812 }, "tsne_coordinates": { "x": 41.096038818359375, "y": -7.657573223114014, "z": 1.0545228719711304 }, "pca_coordinates": { "x": -1.2760542631149292, "y": -1.7656474113464355, "z": 1.4845919609069824 }, "axis_scores": { "Quantum imaging": 0.69227135181427, "Quantum Life Science Sensing": 0.7107642292976379, "Quantum sensing Detection": 0.6714866161346436, "Quantum sensing Metrology": 0.6700921654701233, "Quantum sensing navigation": 0.6863970160484314, "Quantum sensing Position": 0.6661319732666016, "Quantum sensing Timing": 0.6291549801826477, "Quantum sensing": 0.6817411780357361, "Quantum control": 0.6494651436805725 } }, { "id": 4171, "title": "Transport of ultracold Bose gases beyond the Gross-Pitaevskii description", "abstract": "We explore atom-laser-like transport processes of ultracold Bose-condensed atomic vapors in mesoscopic waveguide structures beyond the Gross-Pitaevskii mean-field theory. Based on a microscopic descri...", "citations": 31, "author_count": 4, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4177, "doi": "10.1103/PhysRevA.81.013631", "umap_coordinates": { "x": 394.69744873046875, "y": 136.73553466796875, "z": 208.55389404296875 }, "tsne_coordinates": { "x": -21.480554580688477, "y": -20.746936798095703, "z": 5.893330097198486 }, "pca_coordinates": { "x": 4.836175441741943, "y": 0.3361525535583496, "z": -0.23547425866127014 }, "axis_scores": { "Quantum imaging": 0.7233763933181763, "Quantum Life Science Sensing": 0.7309660911560059, "Quantum sensing Detection": 0.7208245396614075, "Quantum sensing Metrology": 0.718498945236206, "Quantum sensing navigation": 0.7483159899711609, "Quantum sensing Position": 0.7051023244857788, "Quantum sensing Timing": 0.6942909359931946, "Quantum sensing": 0.7378705143928528, "Quantum control": 0.7119808793067932 } }, { "id": 4172, "title": "Spin filtering and spin accumulation in an electron stub waveguide with spin-orbit interaction", "abstract": "We investigate spin-dependent transport properties of a two-terminal electron waveguide, attached with a side arm, with Rashba spin-orbit interaction (SOI). The interference between the bound states i...", "citations": 38, "author_count": 3, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4178, "doi": "10.1103/PhysRevB.76.035306", "umap_coordinates": { "x": 393.8127746582031, "y": 135.53414916992188, "z": 209.1466827392578 }, "tsne_coordinates": { "x": 3.205803632736206, "y": -29.59112548828125, "z": 5.181941509246826 }, "pca_coordinates": { "x": 2.8807544708251953, "y": -1.3699140548706055, "z": 1.7777009010314941 }, "axis_scores": { "Quantum imaging": 0.6919400095939636, "Quantum Life Science Sensing": 0.6614176630973816, "Quantum sensing Detection": 0.6751993298530579, "Quantum sensing Metrology": 0.6670352816581726, "Quantum sensing navigation": 0.7081273198127747, "Quantum sensing Position": 0.6659144759178162, "Quantum sensing Timing": 0.6501792073249817, "Quantum sensing": 0.6821500062942505, "Quantum control": 0.6606660485267639 } }, { "id": 4173, "title": "Coherent dynamics of a Josephson charge qubit - art. no. 140503", "abstract": "We have fabricated a Josephson charge qubit by capacitively coupling a single-Cooper-pair box (SCB) to an electrometer based upon a single-electron transistor (SET) configured for radio-frequency read...", "citations": 172, "author_count": 5, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4179, "doi": "10.1103/PhysRevB.69.140503", "umap_coordinates": { "x": 394.8323059082031, "y": 135.966796875, "z": 208.5827178955078 }, "tsne_coordinates": { "x": -13.013602256774902, "y": -23.302978515625, "z": 4.928018093109131 }, "pca_coordinates": { "x": 6.277679443359375, "y": 0.34261155128479004, "z": 0.012116014957427979 }, "axis_scores": { "Quantum imaging": 0.7323342561721802, "Quantum Life Science Sensing": 0.736563503742218, "Quantum sensing Detection": 0.7360644936561584, "Quantum sensing Metrology": 0.7169724702835083, "Quantum sensing navigation": 0.7495576739311218, "Quantum sensing Position": 0.7186742424964905, "Quantum sensing Timing": 0.7134249210357666, "Quantum sensing": 0.7397162914276123, "Quantum control": 0.7341475486755371 } }, { "id": 4174, "title": "Chiral dendritic polymers for photonic applications", "abstract": "We present chiral dendrons of different generations accomplished by reacting the hydroxyl groups at the chain ends with (-)menthoxyacetic acid. Subsequent deprotection of the carboxylic acid rendered ...", "citations": 15, "author_count": 6, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4180, "doi": "10.1016/S0379-6779(01)00585-9", "umap_coordinates": { "x": 393.4732360839844, "y": 134.43011474609375, "z": 205.2108612060547 }, "tsne_coordinates": { "x": 22.644756317138672, "y": 11.337252616882324, "z": -20.21819496154785 }, "pca_coordinates": { "x": -3.894347667694092, "y": -0.8261656761169434, "z": 0.7233855128288269 }, "axis_scores": { "Quantum imaging": 0.6749547719955444, "Quantum Life Science Sensing": 0.6893399953842163, "Quantum sensing Detection": 0.6574459075927734, "Quantum sensing Metrology": 0.6568349599838257, "Quantum sensing navigation": 0.6703773140907288, "Quantum sensing Position": 0.6676430702209473, "Quantum sensing Timing": 0.6370970606803894, "Quantum sensing": 0.6690376400947571, "Quantum control": 0.6386222839355469 } }, { "id": 4175, "title": "Low-symmetry vacancy-related spin qubit in hexagonal boron nitride", "abstract": "Point defect qubits in semiconductors have demonstrated their outstanding capabilities for high spatial resolution sensing generating broad multidisciplinary interest. Hexagonal boron nitride (hBN) ho...", "citations": 5, "author_count": 12, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4181, "doi": "10.1038/s41524-024-01361-z", "umap_coordinates": { "x": 393.248291015625, "y": 136.12852478027344, "z": 207.48072814941406 }, "tsne_coordinates": { "x": 9.626953125, "y": -13.614890098571777, "z": 7.073806285858154 }, "pca_coordinates": { "x": 2.7888832092285156, "y": -1.1189048290252686, "z": -1.3637809753417969 }, "axis_scores": { "Quantum imaging": 0.7167117595672607, "Quantum Life Science Sensing": 0.7231900691986084, "Quantum sensing Detection": 0.7271806597709656, "Quantum sensing Metrology": 0.7210854887962341, "Quantum sensing navigation": 0.74675452709198, "Quantum sensing Position": 0.7254848480224609, "Quantum sensing Timing": 0.6982027888298035, "Quantum sensing": 0.7329659461975098, "Quantum control": 0.705718994140625 } }, { "id": 4176, "title": "Bird colour vision: behavioural thresholds reveal receptor noise", "abstract": "Birds have impressive physiological adaptations for colour vision, including tetrachromacy and coloured oil droplets, yet it is not clear exactly how well birds can discriminate the reflecting object ...", "citations": 136, "author_count": 4, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4182, "doi": "10.1242/jeb.111187", "umap_coordinates": { "x": 395.2162780761719, "y": 134.96856689453125, "z": 204.9840087890625 }, "tsne_coordinates": { "x": -9.313440322875977, "y": 29.088836669921875, "z": 19.407447814941406 }, "pca_coordinates": { "x": -0.35227423906326294, "y": 1.1513394117355347, "z": 1.3838939666748047 }, "axis_scores": { "Quantum imaging": 0.7395118474960327, "Quantum Life Science Sensing": 0.7370635271072388, "Quantum sensing Detection": 0.7545660138130188, "Quantum sensing Metrology": 0.7147520184516907, "Quantum sensing navigation": 0.7444362044334412, "Quantum sensing Position": 0.7210606336593628, "Quantum sensing Timing": 0.7173313498497009, "Quantum sensing": 0.7474973201751709, "Quantum control": 0.7125043869018555 } }, { "id": 4177, "title": "Characterization of intersubband devices combining a nonequilibrium many body theory with transmission spectroscopy experiments", "abstract": "In this paper we apply a microscopic nonequilibrium many body Keldysh Green's functions approach to an analysis of complex intersubband optical materials and devices. The calculated absorption/gain sp...", "citations": 30, "author_count": 11, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4183, "doi": "10.1007/s10854-006-9093-4", "umap_coordinates": { "x": 393.6474609375, "y": 135.54736328125, "z": 207.6352081298828 }, "tsne_coordinates": { "x": 16.608919143676758, "y": -38.696102142333984, "z": -2.285325050354004 }, "pca_coordinates": { "x": 1.2068126201629639, "y": -0.9156086444854736, "z": 2.2662081718444824 }, "axis_scores": { "Quantum imaging": 0.6986140608787537, "Quantum Life Science Sensing": 0.7021913528442383, "Quantum sensing Detection": 0.686399519443512, "Quantum sensing Metrology": 0.6793861985206604, "Quantum sensing navigation": 0.6619080901145935, "Quantum sensing Position": 0.6472800970077515, "Quantum sensing Timing": 0.6708464622497559, "Quantum sensing": 0.6942107677459717, "Quantum control": 0.6380077004432678 } }, { "id": 4178, "title": "Quantum Metric Unveils Defect Freezing in Non-Hermitian Systems", "abstract": "Non-Hermiticity in quantum Hamiltonians leads to nonunitary time evolution and possibly complex energy eigenvalues, which can lead to a rich phenomenology with no Hermitian counterpart. In this work, ...", "citations": 16, "author_count": 5, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4184, "doi": "10.1103/PhysRevLett.131.156501", "umap_coordinates": { "x": 395.65814208984375, "y": 136.86329650878906, "z": 208.37811279296875 }, "tsne_coordinates": { "x": -17.901552200317383, "y": -26.066423416137695, "z": 11.882357597351074 }, "pca_coordinates": { "x": 5.527455806732178, "y": 2.4279956817626953, "z": -0.23197492957115173 }, "axis_scores": { "Quantum imaging": 0.7239179611206055, "Quantum Life Science Sensing": 0.7307500839233398, "Quantum sensing Detection": 0.7330225706100464, "Quantum sensing Metrology": 0.7311798930168152, "Quantum sensing navigation": 0.7408953309059143, "Quantum sensing Position": 0.7024940848350525, "Quantum sensing Timing": 0.6979724764823914, "Quantum sensing": 0.7442055940628052, "Quantum control": 0.702333390712738 } }, { "id": 4179, "title": "Optically detected magnetic resonance study of relaxation/emission processes in the nanoparticle-polymer composite", "abstract": "Two nanocomposites containing CdS nanoparticles in polymeric matrices were studied using the photoluminescence (PL) and optically detected magnetic resonance (ODMR) methods. Due to equal sizes of NPs ...", "citations": 3, "author_count": 11, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4185, "doi": "10.15407/spqeo22.03.310", "umap_coordinates": { "x": 393.0470886230469, "y": 135.44354248046875, "z": 206.0279541015625 }, "tsne_coordinates": { "x": 31.915691375732422, "y": 15.584725379943848, "z": 4.704819202423096 }, "pca_coordinates": { "x": -1.4467782974243164, "y": 0.18302154541015625, "z": -1.8212652206420898 }, "axis_scores": { "Quantum imaging": 0.7042279243469238, "Quantum Life Science Sensing": 0.7227534651756287, "Quantum sensing Detection": 0.6799042224884033, "Quantum sensing Metrology": 0.6573367118835449, "Quantum sensing navigation": 0.669737696647644, "Quantum sensing Position": 0.6666232347488403, "Quantum sensing Timing": 0.6386973261833191, "Quantum sensing": 0.6837575435638428, "Quantum control": 0.6632713079452515 } }, { "id": 4180, "title": "The Ehrenfest method with fully quantum nuclear motion (Qu-Eh): Application to charge migration in radical cations", "abstract": "An algorithm is described for quantum dynamics where an Ehrenfest potential is combined with fully quantum nuclear motion (Quantum-Ehrenfest, Qu-Eh). The method is related to the single-set variationa...", "citations": 35, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4186, "doi": "10.1063/1.5038428", "umap_coordinates": { "x": 393.40966796875, "y": 137.4941864013672, "z": 206.98764038085938 }, "tsne_coordinates": { "x": -16.755664825439453, "y": 8.706802368164062, "z": 31.341825485229492 }, "pca_coordinates": { "x": 1.2762455940246582, "y": 2.308924913406372, "z": -2.420565128326416 }, "axis_scores": { "Quantum imaging": 0.7346377968788147, "Quantum Life Science Sensing": 0.7361186146736145, "Quantum sensing Detection": 0.7201551795005798, "Quantum sensing Metrology": 0.7238138914108276, "Quantum sensing navigation": 0.7289422750473022, "Quantum sensing Position": 0.6983071565628052, "Quantum sensing Timing": 0.6889243125915527, "Quantum sensing": 0.7339498400688171, "Quantum control": 0.7113942503929138 } }, { "id": 4181, "title": "Collective modes in the fluxonium qubit", "abstract": "Superconducting qubit designs vary in complexity from single-and few-junction systems, such as the transmon and flux qubits, to the many-junction fluxonium. Here, we consider the question of whether t...", "citations": 27, "author_count": 3, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4187, "doi": "10.1103/PhysRevB.92.224511", "umap_coordinates": { "x": 394.0418701171875, "y": 136.14266967773438, "z": 208.39385986328125 }, "tsne_coordinates": { "x": -3.255568742752075, "y": -21.176193237304688, "z": 6.099358081817627 }, "pca_coordinates": { "x": 4.918841361999512, "y": -1.3267946243286133, "z": -1.373669147491455 }, "axis_scores": { "Quantum imaging": 0.7106426358222961, "Quantum Life Science Sensing": 0.7167389392852783, "Quantum sensing Detection": 0.7292239665985107, "Quantum sensing Metrology": 0.7116879820823669, "Quantum sensing navigation": 0.7465052604675293, "Quantum sensing Position": 0.7138161063194275, "Quantum sensing Timing": 0.6668087244033813, "Quantum sensing": 0.7356230616569519, "Quantum control": 0.7149513363838196 } }, { "id": 4182, "title": "Self-sustained oscillations in nanoelectromechanical systems induced by Kondo resonance", "abstract": "We investigate the instability and dynamical properties of nanoelectromechanical systems represented by a single-electron device containing movable quantum dots attached to a vibrating cantilever via ...", "citations": 2, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4188, "doi": "10.1088/1367-2630/16/3/033043", "umap_coordinates": { "x": 393.68511962890625, "y": 136.00303649902344, "z": 207.8722381591797 }, "tsne_coordinates": { "x": -9.057219505310059, "y": -9.956814765930176, "z": 19.014617919921875 }, "pca_coordinates": { "x": 2.4325456619262695, "y": -0.43665194511413574, "z": -2.0377066135406494 }, "axis_scores": { "Quantum imaging": 0.696391224861145, "Quantum Life Science Sensing": 0.7474425435066223, "Quantum sensing Detection": 0.7019245028495789, "Quantum sensing Metrology": 0.6903784275054932, "Quantum sensing navigation": 0.7149721384048462, "Quantum sensing Position": 0.6790741682052612, "Quantum sensing Timing": 0.6751728057861328, "Quantum sensing": 0.7130460739135742, "Quantum control": 0.7061005234718323 } }, { "id": 4183, "title": "Quantitative conditional quantum erasure in two-atom resonance fluorescence - art. no. 062107", "abstract": "We present a conditional quantum eraser that erases the a priori knowledge or, the predictability of the path a photon takes in a Young-type double-slit experiment with two fluorescent four-level atom...", "citations": 8, "author_count": 3, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4189, "doi": "10.1103/PhysRevA.66.062107", "umap_coordinates": { "x": 395.10479736328125, "y": 136.28720092773438, "z": 207.9293670654297 }, "tsne_coordinates": { "x": -23.154767990112305, "y": -11.668713569641113, "z": 3.1029810905456543 }, "pca_coordinates": { "x": 3.2903261184692383, "y": 0.8070085048675537, "z": -0.37264275550842285 }, "axis_scores": { "Quantum imaging": 0.7546430230140686, "Quantum Life Science Sensing": 0.7612231969833374, "Quantum sensing Detection": 0.7571098804473877, "Quantum sensing Metrology": 0.748657763004303, "Quantum sensing navigation": 0.7435703277587891, "Quantum sensing Position": 0.7198660373687744, "Quantum sensing Timing": 0.7417727708816528, "Quantum sensing": 0.7727420330047607, "Quantum control": 0.7393712401390076 } }, { "id": 4184, "title": "Necessary forward model specification accuracy for basis material decomposition in spectral CT", "abstract": "Material basis decomposition in the sinogram domain requires accurate knowledge of the forward model in spectral CT. Misspecifications over a certain limit will result in biased estimates and make qua...", "citations": 2, "author_count": 4, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4190, "doi": "10.1117/12.2043702", "umap_coordinates": { "x": 395.44256591796875, "y": 133.04344177246094, "z": 205.8155059814453 }, "tsne_coordinates": { "x": -19.673620223999023, "y": 26.155029296875, "z": -24.689388275146484 }, "pca_coordinates": { "x": -1.370766282081604, "y": 2.8896806240081787, "z": 1.5115623474121094 }, "axis_scores": { "Quantum imaging": 0.6554515957832336, "Quantum Life Science Sensing": 0.6532235741615295, "Quantum sensing Detection": 0.6435310244560242, "Quantum sensing Metrology": 0.6612302660942078, "Quantum sensing navigation": 0.636038064956665, "Quantum sensing Position": 0.6432684659957886, "Quantum sensing Timing": 0.660834014415741, "Quantum sensing": 0.6531541347503662, "Quantum control": 0.6048159599304199 } }, { "id": 4185, "title": "Computer modelling of radiation damage in cation sublattice of corundum", "abstract": "Results of quantum chemical computer simulations of close Frenkel defects in corundum crystals are presented and discussed. The conclusion is drawn that the energy barrier for a back recombination up ...", "citations": 14, "author_count": 4, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4191, "doi": "10.1002/(SICI)1521-3951(199805)207:1<69::AID-PSSB69>3.0.CO;2-B", "umap_coordinates": { "x": 395.33758544921875, "y": 133.43887329101562, "z": 205.4949188232422 }, "tsne_coordinates": { "x": -18.95093536376953, "y": 28.290668487548828, "z": -7.251134395599365 }, "pca_coordinates": { "x": -0.9714683294296265, "y": 2.148399829864502, "z": -0.835060715675354 }, "axis_scores": { "Quantum imaging": 0.6941128969192505, "Quantum Life Science Sensing": 0.7179105281829834, "Quantum sensing Detection": 0.6856675148010254, "Quantum sensing Metrology": 0.692687451839447, "Quantum sensing navigation": 0.6950232982635498, "Quantum sensing Position": 0.6778926253318787, "Quantum sensing Timing": 0.6771544814109802, "Quantum sensing": 0.6962187886238098, "Quantum control": 0.6768101453781128 } }, { "id": 4186, "title": "High midday temperature stress has stronger effects on biomass than on photosynthesis: A mesocosm experiment on four tropical seagrass species", "abstract": "The effect of repeated midday temperature stress on the photosynthetic performance and biomass production of seagrass was studied in a mesocosm setup with four common tropical species, including Thala...", "citations": 48, "author_count": 6, "categories": [ "Environmental Sciences & Ecology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4192, "doi": "10.1002/ece3.3952", "umap_coordinates": { "x": 394.1182556152344, "y": 135.9071044921875, "z": 203.54324340820312 }, "tsne_coordinates": { "x": 16.466787338256836, "y": 29.793954849243164, "z": 20.12480926513672 }, "pca_coordinates": { "x": -2.9001636505126953, "y": 0.4992799758911133, "z": -1.932676076889038 }, "axis_scores": { "Quantum imaging": 0.6415493488311768, "Quantum Life Science Sensing": 0.7041652798652649, "Quantum sensing Detection": 0.6482868790626526, "Quantum sensing Metrology": 0.6556646823883057, "Quantum sensing navigation": 0.6371450424194336, "Quantum sensing Position": 0.6404901742935181, "Quantum sensing Timing": 0.6559839248657227, "Quantum sensing": 0.671028196811676, "Quantum control": 0.6485572457313538 } }, { "id": 4187, "title": "Possibility to measure elastic photon-photon scattering in vacuum - art. no. 013808", "abstract": "Photon-photon scattering in vacuum due to the interaction with virtual electron-positron pairs is a consequence of quantum electrodynamics. A way for detecting this phenomenon has been devised based o...", "citations": 25, "author_count": 5, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4193, "doi": "10.1103/PhysRevA.70.013808", "umap_coordinates": { "x": 395.8672180175781, "y": 135.3299102783203, "z": 207.9236297607422 }, "tsne_coordinates": { "x": -17.71973991394043, "y": -14.38831615447998, "z": -2.288681983947754 }, "pca_coordinates": { "x": 2.179192066192627, "y": 0.45081186294555664, "z": 2.663757801055908 }, "axis_scores": { "Quantum imaging": 0.6971351504325867, "Quantum Life Science Sensing": 0.7294345498085022, "Quantum sensing Detection": 0.7145246267318726, "Quantum sensing Metrology": 0.7012518644332886, "Quantum sensing navigation": 0.7044466137886047, "Quantum sensing Position": 0.6872713565826416, "Quantum sensing Timing": 0.6658239364624023, "Quantum sensing": 0.7106181383132935, "Quantum control": 0.6487997770309448 } }, { "id": 4188, "title": "DEVELOPMENT OF POSITION-SENSITIVE DETECTORS FOR USE IN POSITRON EMISSION TOMOGRAPHY OF SMALL LABORATORY-ANIMALS", "abstract": "We report the development of high resolution detector modules for use in PET imaging of small laboratory animals. The detectors are based on thin blocks of NaI coupled to a light guide which serves to...", "citations": 6, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 1994, "topic": [ "all" ], "embedding_index": 4194, "doi": "10.1016/0168-9002(94)90809-5", "umap_coordinates": { "x": 395.1500549316406, "y": 133.84300231933594, "z": 205.111572265625 }, "tsne_coordinates": { "x": -13.190455436706543, "y": 16.078380584716797, "z": -4.510359764099121 }, "pca_coordinates": { "x": -2.844057083129883, "y": 2.4801623821258545, "z": 1.9259161949157715 }, "axis_scores": { "Quantum imaging": 0.6818358302116394, "Quantum Life Science Sensing": 0.70306396484375, "Quantum sensing Detection": 0.6759766340255737, "Quantum sensing Metrology": 0.6660107970237732, "Quantum sensing navigation": 0.7015276551246643, "Quantum sensing Position": 0.7367908358573914, "Quantum sensing Timing": 0.6873213648796082, "Quantum sensing": 0.6786504983901978, "Quantum control": 0.6322373747825623 } }, { "id": 4189, "title": "Spectral response model for a multibin photon-counting spectral computed tomography detector and its applications", "abstract": "Variations among detector channels in computed tomography can lead to ring artifacts in the reconstructed images and biased estimates in projection-based material decomposition. Typically, the ring ar...", "citations": 19, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4195, "doi": "10.1117/1.JMI.2.3.033502", "umap_coordinates": { "x": 395.2261047363281, "y": 132.79354858398438, "z": 205.87240600585938 }, "tsne_coordinates": { "x": -5.960883617401123, "y": 18.722230911254883, "z": -20.01505470275879 }, "pca_coordinates": { "x": -1.7110819816589355, "y": 0.9800680875778198, "z": 2.416621208190918 }, "axis_scores": { "Quantum imaging": 0.745751678943634, "Quantum Life Science Sensing": 0.7417370676994324, "Quantum sensing Detection": 0.7403957843780518, "Quantum sensing Metrology": 0.7362107038497925, "Quantum sensing navigation": 0.704513430595398, "Quantum sensing Position": 0.69278883934021, "Quantum sensing Timing": 0.6986147165298462, "Quantum sensing": 0.7354926466941833, "Quantum control": 0.6777448654174805 } }, { "id": 4190, "title": "High-Q Optical Filter Based on Photonic Crystal Surface-Mode Microcavity", "abstract": "An optical filter based on a side-coupled two-dimensional photonic crystal surface mode cavity on crystalline silicon-on-insulator (SOI) structure is presented. The measured system Q and intrinsic Q f...", "citations": 1, "author_count": 3, "categories": [ "Engineering" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4196, "doi": null, "umap_coordinates": { "x": 391.92047119140625, "y": 139.5978546142578, "z": 209.70596313476562 }, "tsne_coordinates": { "x": -7.937704086303711, "y": 42.247589111328125, "z": -5.935023784637451 }, "pca_coordinates": { "x": -1.8162633180618286, "y": 1.9716377258300781, "z": -0.8101317882537842 }, "axis_scores": { "Quantum imaging": 0.7400779724121094, "Quantum Life Science Sensing": 0.7466274499893188, "Quantum sensing Detection": 0.7457300424575806, "Quantum sensing Metrology": 0.7416907548904419, "Quantum sensing navigation": 0.7385214567184448, "Quantum sensing Position": 0.7151486277580261, "Quantum sensing Timing": 0.6689120531082153, "Quantum sensing": 0.7536957859992981, "Quantum control": 0.7521215677261353 } }, { "id": 4191, "title": "Search for supersymmetry in a final state containing two photons and missing transverse momentum in √s=13 TeV pp collisions at the LHC using the ATLAS detector", "abstract": "A search has been made for supersymmetry in a final state containing two photons and missing transverse momentum using the ATLAS detector at the Large Hadron Collider. The search makes use of 3.2 fb-1...", "citations": 131, "author_count": 2664, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4197, "doi": "10.1140/epjc/s10052-016-4344-x", "umap_coordinates": { "x": 396.7582702636719, "y": 134.5455780029297, "z": 207.1066131591797 }, "tsne_coordinates": { "x": -33.1874885559082, "y": 11.622283935546875, "z": -2.624843120574951 }, "pca_coordinates": { "x": -0.04385566711425781, "y": 1.8776085376739502, "z": 2.957746744155884 }, "axis_scores": { "Quantum imaging": 0.6735267639160156, "Quantum Life Science Sensing": 0.6661455631256104, "Quantum sensing Detection": 0.6854607462882996, "Quantum sensing Metrology": 0.6632417440414429, "Quantum sensing navigation": 0.6760100722312927, "Quantum sensing Position": 0.6795130372047424, "Quantum sensing Timing": 0.6912426948547363, "Quantum sensing": 0.6772474646568298, "Quantum control": 0.6476820707321167 } }, { "id": 4192, "title": "Low-power synchronous helical pulse sequences for large anisotropic interactions in MAS NMR: Double-quantum excitation of 14N", "abstract": "We develop a theoretical framework for a class of pulse sequences in the nuclear magnetic resonance (NMR) of rotating solids, which are applicable to nuclear spins with anisotropic interactions substa...", "citations": 5, "author_count": 3, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4198, "doi": "10.1063/5.0030604", "umap_coordinates": { "x": 392.6770935058594, "y": 137.007568359375, "z": 207.1328887939453 }, "tsne_coordinates": { "x": 12.465741157531738, "y": -2.6650729179382324, "z": 35.08811569213867 }, "pca_coordinates": { "x": 0.8119468688964844, "y": 1.0269479751586914, "z": 0.40076392889022827 }, "axis_scores": { "Quantum imaging": 0.6933672428131104, "Quantum Life Science Sensing": 0.668877363204956, "Quantum sensing Detection": 0.646842360496521, "Quantum sensing Metrology": 0.6473702788352966, "Quantum sensing navigation": 0.6716494560241699, "Quantum sensing Position": 0.6485010981559753, "Quantum sensing Timing": 0.6629982590675354, "Quantum sensing": 0.6656085252761841, "Quantum control": 0.6538513898849487 } }, { "id": 4193, "title": "Measurements of Higgs boson properties in the diphoton decay channel with 36 fb-1 of pp collision data at √s=13 TeV with the ATLAS detector", "abstract": "Properties of the Higgs boson are measured in the two-photon final state using 36.1 fb(-1) of proton-proton collision data recorded at root s = 13 TeV by the ATLAS experiment at the Large Hadron Colli...", "citations": 135, "author_count": 2672, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4199, "doi": "10.1103/PhysRevD.98.052005", "umap_coordinates": { "x": 396.814453125, "y": 134.54074096679688, "z": 207.75979614257812 }, "tsne_coordinates": { "x": -37.38870620727539, "y": 7.798456192016602, "z": -13.520663261413574 }, "pca_coordinates": { "x": 3.015967845916748, "y": 0.8114067316055298, "z": 2.8758838176727295 }, "axis_scores": { "Quantum imaging": 0.6789529323577881, "Quantum Life Science Sensing": 0.7005990743637085, "Quantum sensing Detection": 0.6989530920982361, "Quantum sensing Metrology": 0.6820391416549683, "Quantum sensing navigation": 0.6897593140602112, "Quantum sensing Position": 0.6890605688095093, "Quantum sensing Timing": 0.6994938850402832, "Quantum sensing": 0.7006068229675293, "Quantum control": 0.6576400995254517 } }, { "id": 4194, "title": "Paranasal sinus ventilation in healthy subjects and in patients with sinus disease evaluated with the 133-xenon washout technique", "abstract": "Ventilation of the paranasal sinuses is of great importance in sinus pathophysiology. Therefore, methods of measuring sinus ventilation are important for the evaluation of patients with sinus disease....", "citations": 18, "author_count": 6, "categories": [ "Otorhinolaryngology" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4200, "doi": "10.1177/000348940111000713", "umap_coordinates": { "x": 395.3904113769531, "y": 134.42515563964844, "z": 204.63746643066406 }, "tsne_coordinates": { "x": -2.157318353652954, "y": 29.449899673461914, "z": -0.910099983215332 }, "pca_coordinates": { "x": -1.3327276706695557, "y": 4.289156913757324, "z": 1.219111442565918 }, "axis_scores": { "Quantum imaging": 0.657617449760437, "Quantum Life Science Sensing": 0.6703585982322693, "Quantum sensing Detection": 0.6425310969352722, "Quantum sensing Metrology": 0.6476168632507324, "Quantum sensing navigation": 0.6679745316505432, "Quantum sensing Position": 0.6438831686973572, "Quantum sensing Timing": 0.641338586807251, "Quantum sensing": 0.6561200022697449, "Quantum control": 0.6352056860923767 } }, { "id": 4195, "title": "Electrical control of the Kondo effect in a helical edge liquid", "abstract": "Magnetic impurities affect the transport properties of the helical edge states of quantum spin Hall insulators by causing single-electron backscattering. We study such a system in the presence of a Ra...", "citations": 30, "author_count": 5, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4201, "doi": "10.1103/PhysRevB.86.161103", "umap_coordinates": { "x": 394.1623229980469, "y": 136.54302978515625, "z": 209.2967987060547 }, "tsne_coordinates": { "x": -13.35335636138916, "y": -33.48258590698242, "z": 14.299443244934082 }, "pca_coordinates": { "x": 3.918790340423584, "y": -0.9805591106414795, "z": -2.0253357887268066 }, "axis_scores": { "Quantum imaging": 0.6988932490348816, "Quantum Life Science Sensing": 0.7127497792243958, "Quantum sensing Detection": 0.692046046257019, "Quantum sensing Metrology": 0.6698720455169678, "Quantum sensing navigation": 0.7030125856399536, "Quantum sensing Position": 0.6878101229667664, "Quantum sensing Timing": 0.6669508218765259, "Quantum sensing": 0.7023323774337769, "Quantum control": 0.7126058340072632 } }, { "id": 4196, "title": "Dendrochronology with a medical X-ray photon counting computed tomography scanner", "abstract": "Dendrochronology traditionally involves invasive techniques that might harm cultural heritage artifacts. Noninvasive approaches using X-ray technology and computed tomography (CT) have emerged, but de...", "citations": 3, "author_count": 4, "categories": [ "Forestry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4202, "doi": "10.1016/j.dendro.2024.126233", "umap_coordinates": { "x": 395.0216064453125, "y": 133.06011962890625, "z": 205.02886962890625 }, "tsne_coordinates": { "x": -11.279926300048828, "y": 14.198149681091309, "z": -16.394855499267578 }, "pca_coordinates": { "x": -2.7925539016723633, "y": 2.3601322174072266, "z": 3.283155918121338 }, "axis_scores": { "Quantum imaging": 0.7243790626525879, "Quantum Life Science Sensing": 0.709934651851654, "Quantum sensing Detection": 0.6976670026779175, "Quantum sensing Metrology": 0.7080500721931458, "Quantum sensing navigation": 0.6975746750831604, "Quantum sensing Position": 0.6960781812667847, "Quantum sensing Timing": 0.6789535284042358, "Quantum sensing": 0.7026551365852356, "Quantum control": 0.6602593660354614 } }, { "id": 4197, "title": "Effects of scarring on quantum chaos in disordered quantum wells", "abstract": "The suppression of chaos in quantum reality is evident in quantum scars, i.e. in enhanced probability densities along classical periodic orbits. They provide opportunities in controlling quantum trans...", "citations": 20, "author_count": 5, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4203, "doi": "10.1088/1361-648X/aaf9fb", "umap_coordinates": { "x": 394.4552917480469, "y": 135.48033142089844, "z": 206.64877319335938 }, "tsne_coordinates": { "x": -19.11860466003418, "y": -11.226210594177246, "z": -20.422014236450195 }, "pca_coordinates": { "x": 1.6250536441802979, "y": 1.253908634185791, "z": -0.338003933429718 }, "axis_scores": { "Quantum imaging": 0.724927544593811, "Quantum Life Science Sensing": 0.7155486941337585, "Quantum sensing Detection": 0.7090508341789246, "Quantum sensing Metrology": 0.6887322068214417, "Quantum sensing navigation": 0.6989622712135315, "Quantum sensing Position": 0.6792375445365906, "Quantum sensing Timing": 0.7004283666610718, "Quantum sensing": 0.7246727347373962, "Quantum control": 0.7149906754493713 } }, { "id": 4198, "title": "Diffuse Surface Scattering in the Plasmonic Resonances of Ultralow Electron Density Nanospheres", "abstract": "Localized surface plasmon resonances (LSPRs) have recently been identified in extremely diluted electron systems obtained by doping semiconductor quantum dots. Here, we investigate the role that diffe...", "citations": 15, "author_count": 4, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4204, "doi": "10.1021/acs.jpclett.5b00581", "umap_coordinates": { "x": 392.3550720214844, "y": 134.62380981445312, "z": 206.54685974121094 }, "tsne_coordinates": { "x": 6.755032539367676, "y": -9.872535705566406, "z": -10.173774719238281 }, "pca_coordinates": { "x": -1.4636013507843018, "y": -2.740175724029541, "z": -1.6166009902954102 }, "axis_scores": { "Quantum imaging": 0.6998745799064636, "Quantum Life Science Sensing": 0.7290480732917786, "Quantum sensing Detection": 0.6981550455093384, "Quantum sensing Metrology": 0.679945707321167, "Quantum sensing navigation": 0.6872782707214355, "Quantum sensing Position": 0.6664085984230042, "Quantum sensing Timing": 0.6307291388511658, "Quantum sensing": 0.7090484499931335, "Quantum control": 0.6640160083770752 } }, { "id": 4199, "title": "Plasmon-Exciton Interactions in a Core-Shell Geometry: From Enhanced Absorption to Strong Coupling", "abstract": "We present a detailed Mie theory, finite-difference time-domain, and quasi-static study of plasmon-exciton interactions in a spherical core shell geometry. In particular, we report absorption, scatter...", "citations": 271, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4205, "doi": "10.1021/ph500032d", "umap_coordinates": { "x": 392.4465026855469, "y": 134.76014709472656, "z": 206.18763732910156 }, "tsne_coordinates": { "x": 11.06820011138916, "y": -9.743941307067871, "z": -9.085993766784668 }, "pca_coordinates": { "x": -1.6744787693023682, "y": -2.809223175048828, "z": -1.2117650508880615 }, "axis_scores": { "Quantum imaging": 0.7165769338607788, "Quantum Life Science Sensing": 0.7030373811721802, "Quantum sensing Detection": 0.7086437940597534, "Quantum sensing Metrology": 0.6926801204681396, "Quantum sensing navigation": 0.6978475451469421, "Quantum sensing Position": 0.6950109004974365, "Quantum sensing Timing": 0.6637510657310486, "Quantum sensing": 0.719118595123291, "Quantum control": 0.6840075254440308 } }, { "id": 4200, "title": "Thermodynamic uncertainty relations including measurement and feedback", "abstract": "Thermodynamic uncertainty relations quantify how the signal-to-noise ratio of a given observable is constrained by dissipation. Fluctuation relations generalize the second law of thermodynamics to sto...", "citations": 80, "author_count": 3, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4206, "doi": "10.1103/PhysRevE.100.052137", "umap_coordinates": { "x": 395.6405944824219, "y": 137.37100219726562, "z": 207.35365295410156 }, "tsne_coordinates": { "x": -17.097749710083008, "y": -8.895115852355957, "z": 12.13711929321289 }, "pca_coordinates": { "x": 3.421945095062256, "y": 1.7747716903686523, "z": 0.7346635460853577 }, "axis_scores": { "Quantum imaging": 0.7300621867179871, "Quantum Life Science Sensing": 0.7703249454498291, "Quantum sensing Detection": 0.7546712756156921, "Quantum sensing Metrology": 0.7754336595535278, "Quantum sensing navigation": 0.7619134783744812, "Quantum sensing Position": 0.7360807657241821, "Quantum sensing Timing": 0.7327439785003662, "Quantum sensing": 0.7679034471511841, "Quantum control": 0.7560760378837585 } }, { "id": 4201, "title": "Theoretical and experimental evidence of enhanced ferromagnetism in Ba and Mn cosubstituted BiFeO3", "abstract": "Ba and Mn doped BiFeO3 prepared through the pyrolysis of xerogel precursors are characterized by powder x-ray diffraction, high resolution transmission electron microscopy, superconducting quantum int...", "citations": 83, "author_count": 11, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4207, "doi": "10.1063/1.3280043", "umap_coordinates": { "x": 392.9513244628906, "y": 135.6791229248047, "z": 208.266845703125 }, "tsne_coordinates": { "x": 2.7014904022216797, "y": -21.758384704589844, "z": 33.75511169433594 }, "pca_coordinates": { "x": 0.685104489326477, "y": -0.906890869140625, "z": -1.9717504978179932 }, "axis_scores": { "Quantum imaging": 0.7052476406097412, "Quantum Life Science Sensing": 0.6904850602149963, "Quantum sensing Detection": 0.6825954914093018, "Quantum sensing Metrology": 0.7031425833702087, "Quantum sensing navigation": 0.6806498169898987, "Quantum sensing Position": 0.6622983813285828, "Quantum sensing Timing": 0.6544920802116394, "Quantum sensing": 0.7024803757667542, "Quantum control": 0.6833064556121826 } }, { "id": 4202, "title": "The need for stable, mono-dispersed, and biofunctional magnetic nanoparticles for one-step magnetic immunoassays", "abstract": "We have developed a magnetic immunoassay system (MIA) using magnetic nanoparticle markers for biomolecule detection. We have magnetically characterized multi-core magnetic nanoparticles (MNPs) contain...", "citations": 3, "author_count": 7, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4208, "doi": "10.1088/1742-6596/200/12/122006", "umap_coordinates": { "x": 393.67608642578125, "y": 134.52818298339844, "z": 204.75372314453125 }, "tsne_coordinates": { "x": 11.046424865722656, "y": 28.77873992919922, "z": -12.409286499023438 }, "pca_coordinates": { "x": -3.58524227142334, "y": -0.0028023719787597656, "z": -1.0003924369812012 }, "axis_scores": { "Quantum imaging": 0.6364444494247437, "Quantum Life Science Sensing": 0.669697642326355, "Quantum sensing Detection": 0.6387535929679871, "Quantum sensing Metrology": 0.6574729681015015, "Quantum sensing navigation": 0.6394399404525757, "Quantum sensing Position": 0.6339778304100037, "Quantum sensing Timing": 0.6187170743942261, "Quantum sensing": 0.6478563547134399, "Quantum control": 0.6182516813278198 } }, { "id": 4203, "title": "Synthesis of soluble phenyl-substituted poly(p-phenylenevinylenes) with a low content of structural defects", "abstract": "The synthesis and characterization of two new soluble poly(p-phenylenevinylenes) (PPVs) are reported. The polymers are poly(2-2',5'-bis(octyloxy)benzene)-1,4-phenylenevinylene) (BOP-PPV) and poly(2-(2...", "citations": 44, "author_count": 8, "categories": [ "Polymer Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4209, "doi": "10.1021/ma011768m", "umap_coordinates": { "x": 392.2956237792969, "y": 135.12022399902344, "z": 204.67477416992188 }, "tsne_coordinates": { "x": 2.5241215229034424, "y": -1.1154764890670776, "z": -21.831464767456055 }, "pca_coordinates": { "x": -1.7716684341430664, "y": -1.0687499046325684, "z": -0.23485654592514038 }, "axis_scores": { "Quantum imaging": 0.6742855310440063, "Quantum Life Science Sensing": 0.6878846883773804, "Quantum sensing Detection": 0.6724424362182617, "Quantum sensing Metrology": 0.6750649809837341, "Quantum sensing navigation": 0.6732518672943115, "Quantum sensing Position": 0.6782971620559692, "Quantum sensing Timing": 0.6404305100440979, "Quantum sensing": 0.6831837892532349, "Quantum control": 0.65826416015625 } }, { "id": 4204, "title": "On ultrafast x-ray scattering methods for magnetism", "abstract": "With the introduction of x-ray free electron laser sources around the world, new scientific approaches for visualizing matter at fundamental length and time-scales have become possible. As it relates ...", "citations": 1, "author_count": 41, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4210, "doi": "10.1080/23746149.2024.2423935", "umap_coordinates": { "x": 395.0096435546875, "y": 134.43324279785156, "z": 205.43405151367188 }, "tsne_coordinates": { "x": -2.4624545574188232, "y": 9.921738624572754, "z": -18.425567626953125 }, "pca_coordinates": { "x": -1.1440849304199219, "y": 2.4368093013763428, "z": -0.5734413862228394 }, "axis_scores": { "Quantum imaging": 0.6695548295974731, "Quantum Life Science Sensing": 0.7032172679901123, "Quantum sensing Detection": 0.6560092568397522, "Quantum sensing Metrology": 0.6676034927368164, "Quantum sensing navigation": 0.6623849868774414, "Quantum sensing Position": 0.6323428750038147, "Quantum sensing Timing": 0.6582481861114502, "Quantum sensing": 0.6740587949752808, "Quantum control": 0.643619179725647 } }, { "id": 4205, "title": "Dynamics and Coherent Control of Exciton-Exciton Annihilation in Aqueous J-Aggregate", "abstract": "In aqueous solution of 1,1'-diethyl-2,2'-carbocyanine J-aggregate, the exciton self-trapped (EST) state is usually expected to be negligible. However, in this work, by measuring transient absorption s...", "citations": 12, "author_count": 2, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4211, "doi": "10.1021/acs.jpcb.8b09891", "umap_coordinates": { "x": 392.4208068847656, "y": 135.96942138671875, "z": 206.37850952148438 }, "tsne_coordinates": { "x": 13.773061752319336, "y": -2.1321890354156494, "z": 13.760004043579102 }, "pca_coordinates": { "x": -0.09868228435516357, "y": -1.7691445350646973, "z": -3.479863166809082 }, "axis_scores": { "Quantum imaging": 0.7201035618782043, "Quantum Life Science Sensing": 0.7027224898338318, "Quantum sensing Detection": 0.6870974898338318, "Quantum sensing Metrology": 0.6517288088798523, "Quantum sensing navigation": 0.6867246627807617, "Quantum sensing Position": 0.6568706631660461, "Quantum sensing Timing": 0.6631829738616943, "Quantum sensing": 0.6893696784973145, "Quantum control": 0.7215096950531006 } }, { "id": 4206, "title": "A macroscopic violation of no-signaling in time inequalities? How to test temporal entanglement with behavioral observables", "abstract": "In this paper we applied for the first time the no-signaling in time (NSIT) formalism discussed by Kofler and Brukner (2013) to investigate temporal entanglement between binary human behavioral uncons...", "citations": 7, "author_count": 5, "categories": [ "Psychology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4212, "doi": "10.3389/fpsyg.2015.01061", "umap_coordinates": { "x": 395.1039733886719, "y": 137.9875030517578, "z": 206.54762268066406 }, "tsne_coordinates": { "x": -11.15953540802002, "y": 36.78713607788086, "z": 2.103320598602295 }, "pca_coordinates": { "x": 1.911470890045166, "y": 4.913321495056152, "z": -0.4576399028301239 }, "axis_scores": { "Quantum imaging": 0.7336316108703613, "Quantum Life Science Sensing": 0.7192332148551941, "Quantum sensing Detection": 0.7286804914474487, "Quantum sensing Metrology": 0.703535795211792, "Quantum sensing navigation": 0.7468129992485046, "Quantum sensing Position": 0.7194479703903198, "Quantum sensing Timing": 0.7698156237602234, "Quantum sensing": 0.7353759407997131, "Quantum control": 0.7225109338760376 } }, { "id": 4207, "title": "Split operator method in hyperspherical coordinates:: Application to CH2I2 and OClO", "abstract": "3D wave packet calculations on the CH2I2 and OClO molecules have been performed for a total angular momentum equal to zero. The initial wave function is found by solving the time independent Schroding...", "citations": 33, "author_count": 4, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4213, "doi": "10.1063/1.479969", "umap_coordinates": { "x": 393.6220397949219, "y": 137.5071258544922, "z": 206.31947326660156 }, "tsne_coordinates": { "x": -11.08829116821289, "y": 10.026773452758789, "z": 31.595314025878906 }, "pca_coordinates": { "x": -0.06988108158111572, "y": 2.2090091705322266, "z": -2.3548688888549805 }, "axis_scores": { "Quantum imaging": 0.7321798205375671, "Quantum Life Science Sensing": 0.7329497933387756, "Quantum sensing Detection": 0.7237072587013245, "Quantum sensing Metrology": 0.7267650365829468, "Quantum sensing navigation": 0.7228484153747559, "Quantum sensing Position": 0.713931679725647, "Quantum sensing Timing": 0.6919403076171875, "Quantum sensing": 0.7404330372810364, "Quantum control": 0.7368988990783691 } }, { "id": 4208, "title": "Implementation of a crossed-slit system for fast alignment of sealed polycapillary X-ray optics", "abstract": "A new modification of a table-top laser-driven water-jet plasma X-ray source has been successfully implemented and commissioned at the Extreme Light Infrastructure (ELI) Beamlines user facility. In or...", "citations": 7, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4214, "doi": "10.1107/S1600577520012217", "umap_coordinates": { "x": 395.8910217285156, "y": 134.1431427001953, "z": 206.4029998779297 }, "tsne_coordinates": { "x": -22.19552230834961, "y": 8.672348976135254, "z": -23.281967163085938 }, "pca_coordinates": { "x": -1.5264126062393188, "y": 1.502478003501892, "z": 2.750117540359497 }, "axis_scores": { "Quantum imaging": 0.6935293674468994, "Quantum Life Science Sensing": 0.688770055770874, "Quantum sensing Detection": 0.676469624042511, "Quantum sensing Metrology": 0.6882022023200989, "Quantum sensing navigation": 0.7011961340904236, "Quantum sensing Position": 0.7019113898277283, "Quantum sensing Timing": 0.7204785943031311, "Quantum sensing": 0.6888641715049744, "Quantum control": 0.6690202951431274 } }, { "id": 4209, "title": "Search for fast-oscillating fundamental constants with space missions", "abstract": "While it is possible to estimate the dark matter density at the Sun distance from the galactic center, this does not give information on actual dark matter density in the Solar system. There can be co...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4215, "doi": "10.1140/epjqt/s40507-025-00339-0", "umap_coordinates": { "x": 395.6441650390625, "y": 136.316162109375, "z": 206.695068359375 }, "tsne_coordinates": { "x": -31.696516036987305, "y": 12.220951080322266, "z": 0.2526959478855133 }, "pca_coordinates": { "x": 0.5324933528900146, "y": 2.814573287963867, "z": -0.5039774179458618 }, "axis_scores": { "Quantum imaging": 0.6669463515281677, "Quantum Life Science Sensing": 0.7094631791114807, "Quantum sensing Detection": 0.6620988845825195, "Quantum sensing Metrology": 0.6740578413009644, "Quantum sensing navigation": 0.7035272717475891, "Quantum sensing Position": 0.6782898902893066, "Quantum sensing Timing": 0.6899426579475403, "Quantum sensing": 0.6738107204437256, "Quantum control": 0.6653605103492737 } }, { "id": 4210, "title": "Losses in magnetic field resilient coplanar stripline resonators", "abstract": "Coplanar waveguide (CPW) resonators have shown considerable success in circuit quantum electrodynamics research. However, their susceptibility to an external magnetic field limits their general functi...", "citations": 2, "author_count": 8, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4216, "doi": "10.1088/1361-6463/added5", "umap_coordinates": { "x": 393.4231262207031, "y": 136.37518310546875, "z": 207.44374084472656 }, "tsne_coordinates": { "x": 2.6164803504943848, "y": -18.609289169311523, "z": 35.75727844238281 }, "pca_coordinates": { "x": 1.2660963535308838, "y": 1.804486632347107, "z": -0.30703774094581604 }, "axis_scores": { "Quantum imaging": 0.677208662033081, "Quantum Life Science Sensing": 0.6808830499649048, "Quantum sensing Detection": 0.6559434533119202, "Quantum sensing Metrology": 0.6607266664505005, "Quantum sensing navigation": 0.6713599562644958, "Quantum sensing Position": 0.6587494611740112, "Quantum sensing Timing": 0.6563476920127869, "Quantum sensing": 0.6732214689254761, "Quantum control": 0.6551177501678467 } }, { "id": 4211, "title": "Luminescent solar concentrator efficiency versus edge solar cell coverage", "abstract": "This Letter introduces an analytical approach to estimate the waveguiding efficiency of large-area luminescent solar concentrators (LSCs), where the edges are covered by a var-ied number of mirrors an...", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4217, "doi": "10.1364/OL.496595", "umap_coordinates": { "x": 393.52313232421875, "y": 133.70970153808594, "z": 205.74600219726562 }, "tsne_coordinates": { "x": 22.10039710998535, "y": 13.121410369873047, "z": -31.2133846282959 }, "pca_coordinates": { "x": -2.8514740467071533, "y": 0.5489691495895386, "z": 0.2987787127494812 }, "axis_scores": { "Quantum imaging": 0.7095599174499512, "Quantum Life Science Sensing": 0.717170000076294, "Quantum sensing Detection": 0.6930124759674072, "Quantum sensing Metrology": 0.6976096630096436, "Quantum sensing navigation": 0.6762475967407227, "Quantum sensing Position": 0.6871128082275391, "Quantum sensing Timing": 0.670356035232544, "Quantum sensing": 0.7031291723251343, "Quantum control": 0.6942764520645142 } }, { "id": 4212, "title": "Topological charge distributions of an interacting two-spin system", "abstract": "Quantum systems are often described by parameter-dependent Hamiltonians. Points in parameter space where two levels are degenerate can carry a topological charge. Here we theoretically study an intera...", "citations": 2, "author_count": 6, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4218, "doi": "10.1103/PhysRevB.105.035414", "umap_coordinates": { "x": 394.4974365234375, "y": 136.61245727539062, "z": 208.8961181640625 }, "tsne_coordinates": { "x": -20.87908363342285, "y": -21.18567657470703, "z": 19.084823608398438 }, "pca_coordinates": { "x": 4.280819892883301, "y": -0.7295289039611816, "z": -2.1035711765289307 }, "axis_scores": { "Quantum imaging": 0.7317706942558289, "Quantum Life Science Sensing": 0.7085358500480652, "Quantum sensing Detection": 0.7072482109069824, "Quantum sensing Metrology": 0.6970683932304382, "Quantum sensing navigation": 0.7159532308578491, "Quantum sensing Position": 0.6892005801200867, "Quantum sensing Timing": 0.6760446429252625, "Quantum sensing": 0.7194339036941528, "Quantum control": 0.7072494029998779 } }, { "id": 4213, "title": "Impedance of Hot-Electron Bolometer Mixers at Terahertz Frequencies", "abstract": "This paper discusses the current distribution in thin-film devices, especially in a hot-electron bolometer (HEB) mixer at terahertz frequencies, and the consequences of different current distributions...", "citations": 13, "author_count": 7, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4219, "doi": "10.1109/TTHZ.2011.2163550", "umap_coordinates": { "x": 394.44061279296875, "y": 134.83741760253906, "z": 207.7873077392578 }, "tsne_coordinates": { "x": -0.6687867641448975, "y": -0.7225818037986755, "z": -44.334251403808594 }, "pca_coordinates": { "x": 1.8157768249511719, "y": 0.6954236030578613, "z": -0.06590837240219116 }, "axis_scores": { "Quantum imaging": 0.6414178013801575, "Quantum Life Science Sensing": 0.6690776944160461, "Quantum sensing Detection": 0.6467132568359375, "Quantum sensing Metrology": 0.6584064364433289, "Quantum sensing navigation": 0.6413861513137817, "Quantum sensing Position": 0.6311631798744202, "Quantum sensing Timing": 0.6857114434242249, "Quantum sensing": 0.6600860953330994, "Quantum control": 0.6291991472244263 } }, { "id": 4214, "title": "Interference effects in phtalocyanine controlled by H-H tautomerization: Potential two-terminal unimolecular electronic switch", "abstract": "We investigate the electrical transport properties of two hydrogen tautomer configurations of phthalocyanine (H2Pc) connected to cumulene and gold leads. Hydrogen tautomerization affects the electroni...", "citations": 21, "author_count": 5, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4220, "doi": "10.1103/PhysRevB.84.165437", "umap_coordinates": { "x": 394.0431823730469, "y": 136.31741333007812, "z": 206.52627563476562 }, "tsne_coordinates": { "x": -8.471991539001465, "y": -5.370596408843994, "z": -4.5077104568481445 }, "pca_coordinates": { "x": 1.1386730670928955, "y": 0.43811893463134766, "z": -0.8000411987304688 }, "axis_scores": { "Quantum imaging": 0.727708637714386, "Quantum Life Science Sensing": 0.7300352454185486, "Quantum sensing Detection": 0.7244117259979248, "Quantum sensing Metrology": 0.7003875970840454, "Quantum sensing navigation": 0.6965577602386475, "Quantum sensing Position": 0.6880385279655457, "Quantum sensing Timing": 0.7236519455909729, "Quantum sensing": 0.7243726253509521, "Quantum control": 0.7314717769622803 } }, { "id": 4215, "title": "Magnetically Triggered Release From Giant Unilamellar Vesicles: Visualization By Means Of Confocal Microscopy", "abstract": "Magnetically triggered release from magnetic giant unilamellar vesicles (GUVs) loaded with Alexa fluorescent dye was studied by means of confocal laser scanning microscopy (CLSM) under a low-frequency...", "citations": 57, "author_count": 6, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4221, "doi": "10.1021/jz2000936", "umap_coordinates": { "x": 392.5955505371094, "y": 135.4394989013672, "z": 205.23585510253906 }, "tsne_coordinates": { "x": 20.750850677490234, "y": 7.773437023162842, "z": 7.260556221008301 }, "pca_coordinates": { "x": -2.613248825073242, "y": -1.052337408065796, "z": -3.350478172302246 }, "axis_scores": { "Quantum imaging": 0.7067270874977112, "Quantum Life Science Sensing": 0.7222274541854858, "Quantum sensing Detection": 0.6902055740356445, "Quantum sensing Metrology": 0.6849397420883179, "Quantum sensing navigation": 0.6802445650100708, "Quantum sensing Position": 0.6494126915931702, "Quantum sensing Timing": 0.6561076641082764, "Quantum sensing": 0.7035571336746216, "Quantum control": 0.6968128681182861 } }, { "id": 4216, "title": "III-V/II-VI heterovalent double quantum wells", "abstract": "We report on design, fabrication by molecular beam epitaxy, and photoluminescence (PL) studies of Ill-V/II-VI heterovalent structures containing a GaAs/AlGaAs/ZnSe/ZnCdMnSe double quantum well (QW). T...", "citations": 8, "author_count": 10, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4222, "doi": "10.1002/pssb.200564763", "umap_coordinates": { "x": 392.4732666015625, "y": 134.90835571289062, "z": 206.85818481445312 }, "tsne_coordinates": { "x": 26.954504013061523, "y": -5.474209308624268, "z": 16.607662200927734 }, "pca_coordinates": { "x": 0.03767359256744385, "y": -1.9962215423583984, "z": -0.8705314993858337 }, "axis_scores": { "Quantum imaging": 0.7747729420661926, "Quantum Life Science Sensing": 0.7749840617179871, "Quantum sensing Detection": 0.758932888507843, "Quantum sensing Metrology": 0.7458544969558716, "Quantum sensing navigation": 0.7602869272232056, "Quantum sensing Position": 0.7389974594116211, "Quantum sensing Timing": 0.7246733903884888, "Quantum sensing": 0.7760252356529236, "Quantum control": 0.7538987398147583 } }, { "id": 4217, "title": "Variational functions in driven open quantum systems - art. no. 032111", "abstract": "We consider the Lindblad-type master equation of an open system. We address the question how to construct a functional of the quantum state which displays a monotonic behavior in time. This thus defin...", "citations": 24, "author_count": 3, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4223, "doi": "10.1103/PhysRevA.67.032111", "umap_coordinates": { "x": 394.42413330078125, "y": 136.2902374267578, "z": 208.45388793945312 }, "tsne_coordinates": { "x": -10.734570503234863, "y": -14.140843391418457, "z": 8.152713775634766 }, "pca_coordinates": { "x": 3.9183716773986816, "y": -0.15950870513916016, "z": -0.7351809740066528 }, "axis_scores": { "Quantum imaging": 0.7295477986335754, "Quantum Life Science Sensing": 0.7457073330879211, "Quantum sensing Detection": 0.7312370538711548, "Quantum sensing Metrology": 0.7333317995071411, "Quantum sensing navigation": 0.7492109537124634, "Quantum sensing Position": 0.6871324777603149, "Quantum sensing Timing": 0.6821479201316833, "Quantum sensing": 0.7434362173080444, "Quantum control": 0.7408562302589417 } }, { "id": 4218, "title": "Properties of a discretized coherent state representation and the relation to Gabor analysis", "abstract": "Properties of a discretized coherent state representation (DCSR) and its connection to Gabor frame analysis are discussed. The DCSR approach was recently shown (Andersson L M 2001 J. Chem. Phys. 115 1...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4224, "doi": "10.1088/0305-4470/35/36/307", "umap_coordinates": { "x": 395.01873779296875, "y": 137.2487030029297, "z": 207.1554412841797 }, "tsne_coordinates": { "x": -37.49777603149414, "y": 5.750210285186768, "z": 4.519913673400879 }, "pca_coordinates": { "x": 2.4573214054107666, "y": 3.1068367958068848, "z": 0.062422335147857666 }, "axis_scores": { "Quantum imaging": 0.6986804008483887, "Quantum Life Science Sensing": 0.7071211934089661, "Quantum sensing Detection": 0.7044475078582764, "Quantum sensing Metrology": 0.6773868799209595, "Quantum sensing navigation": 0.6998867392539978, "Quantum sensing Position": 0.6954006552696228, "Quantum sensing Timing": 0.6804640293121338, "Quantum sensing": 0.7085810303688049, "Quantum control": 0.6883029937744141 } }, { "id": 4219, "title": "Dissociation of N2O+ ions from the valence states reached by one-photon photoionisation", "abstract": "The dissociation of N2O+ from the states reached by one-photon ionisation at 58.4 and 30.4 nm has been examined by photoelectron-photoion coincidence spectroscopy. At 30.4 nm, ions formed in some inne...", "citations": 29, "author_count": 4, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4225, "doi": "10.1016/S1387-3806(98)14181-7", "umap_coordinates": { "x": 393.6912841796875, "y": 135.67295837402344, "z": 206.3350830078125 }, "tsne_coordinates": { "x": -2.9928479194641113, "y": -1.050819993019104, "z": 1.8517787456512451 }, "pca_coordinates": { "x": -2.127734422683716, "y": -0.5749850273132324, "z": 0.3726128935813904 }, "axis_scores": { "Quantum imaging": 0.6920450925827026, "Quantum Life Science Sensing": 0.7184597253799438, "Quantum sensing Detection": 0.7021012306213379, "Quantum sensing Metrology": 0.6795191764831543, "Quantum sensing navigation": 0.6804081201553345, "Quantum sensing Position": 0.6489440202713013, "Quantum sensing Timing": 0.650269091129303, "Quantum sensing": 0.7033653259277344, "Quantum control": 0.6510401964187622 } }, { "id": 4220, "title": "Quantum size effects in epitaxial ErAs on GaAs(001)", "abstract": "The electronic structure of very thin epitaxial ErAs layers on GaAs(100) is studied with angle resolved photoelectron spectroscopy. Clear evidence is found for confinement induced quantization of stat...", "citations": 7, "author_count": 6, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4226, "doi": "10.1103/PhysRevLett.77.4946", "umap_coordinates": { "x": 392.76641845703125, "y": 134.2624969482422, "z": 207.80523681640625 }, "tsne_coordinates": { "x": 33.221797943115234, "y": -8.940131187438965, "z": -2.9779677391052246 }, "pca_coordinates": { "x": 2.977245330810547, "y": -2.1966824531555176, "z": 1.0386881828308105 }, "axis_scores": { "Quantum imaging": 0.7251429557800293, "Quantum Life Science Sensing": 0.727434515953064, "Quantum sensing Detection": 0.720314085483551, "Quantum sensing Metrology": 0.7164431214332581, "Quantum sensing navigation": 0.7115136384963989, "Quantum sensing Position": 0.726293683052063, "Quantum sensing Timing": 0.7323286533355713, "Quantum sensing": 0.740157961845398, "Quantum control": 0.6962721943855286 } }, { "id": 4221, "title": "Search for new phenomena in high-mass final states with a photon and a jet from pp collisions at √s=13 TeV with the ATLAS detector", "abstract": "A search is performed for new phenomena in events having a photon with high transverse momentum and a jet collected in 36.7 fb(-1) of proton-proton collisions at a centre-of-mass energy of root s = 13...", "citations": 21, "author_count": 2666, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4227, "doi": "10.1140/epjc/s10052-018-5553-2", "umap_coordinates": { "x": 396.6419372558594, "y": 134.49496459960938, "z": 207.01429748535156 }, "tsne_coordinates": { "x": -33.63104248046875, "y": 12.994139671325684, "z": -3.396714210510254 }, "pca_coordinates": { "x": -0.2792242169380188, "y": 1.57175874710083, "z": 2.2556118965148926 }, "axis_scores": { "Quantum imaging": 0.6960681676864624, "Quantum Life Science Sensing": 0.7000812292098999, "Quantum sensing Detection": 0.7019481062889099, "Quantum sensing Metrology": 0.6740965247154236, "Quantum sensing navigation": 0.6876862049102783, "Quantum sensing Position": 0.6800298690795898, "Quantum sensing Timing": 0.6991464495658875, "Quantum sensing": 0.698428750038147, "Quantum control": 0.6830014586448669 } }, { "id": 4222, "title": "High-fidelity spin and optical control of single silicon-vacancy centres in silicon carbide", "abstract": "Scalable quantum networking requires quantum systems with quantum processing capabilities. Solid state spin systems with reliable spin-optical interfaces are a leading hardware in this regard. However...", "citations": 263, "author_count": 18, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4228, "doi": "10.1038/s41467-019-09873-9", "umap_coordinates": { "x": 394.23699951171875, "y": 133.69851684570312, "z": 207.6903533935547 }, "tsne_coordinates": { "x": 8.824356079101562, "y": -13.789606094360352, "z": 1.7445937395095825 }, "pca_coordinates": { "x": -0.562244176864624, "y": -2.2210617065429688, "z": 1.914189100265503 }, "axis_scores": { "Quantum imaging": 0.7193084955215454, "Quantum Life Science Sensing": 0.7292596101760864, "Quantum sensing Detection": 0.7248871922492981, "Quantum sensing Metrology": 0.7292408347129822, "Quantum sensing navigation": 0.7136136293411255, "Quantum sensing Position": 0.7013711929321289, "Quantum sensing Timing": 0.6910658478736877, "Quantum sensing": 0.7363577485084534, "Quantum control": 0.7263866066932678 } }, { "id": 4223, "title": "Multiple quantum solid-state NMR indicates a parallel, not antiparallel, organization of β-sheets in Alzheimer's β-amyloid fibrils", "abstract": "Senile plaques associated with Alzheimer's disease contain deposits of fibrils formed by 39- to 43-residue beta -amyloid peptides with possible neurotoxic effects. X-ray diffraction measurements on or...", "citations": 412, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4229, "doi": "10.1073/pnas.230315097", "umap_coordinates": { "x": 392.6066589355469, "y": 137.07273864746094, "z": 206.91110229492188 }, "tsne_coordinates": { "x": 20.0387020111084, "y": -2.4208500385284424, "z": 30.082969665527344 }, "pca_coordinates": { "x": 1.0234317779541016, "y": -0.16643047332763672, "z": 0.08558952808380127 }, "axis_scores": { "Quantum imaging": 0.7162497043609619, "Quantum Life Science Sensing": 0.7312560081481934, "Quantum sensing Detection": 0.6957225799560547, "Quantum sensing Metrology": 0.7010469436645508, "Quantum sensing navigation": 0.7037792205810547, "Quantum sensing Position": 0.6913381218910217, "Quantum sensing Timing": 0.6755329966545105, "Quantum sensing": 0.7105857133865356, "Quantum control": 0.6604321002960205 } }, { "id": 4224, "title": "3-PG simulations of young ponderosa pine plantations under varied management intensity: Why do they grow so differently?", "abstract": "Models can be powerful tools for estimating forest productivity and guiding forest management, but their credibility and complexity are often at issue for forest managers. We parameterized a process-b...", "citations": 24, "author_count": 6, "categories": [ "Forestry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4230, "doi": "10.1016/j.foreco.2013.10.035", "umap_coordinates": { "x": 394.2641906738281, "y": 136.6193389892578, "z": 203.63133239746094 }, "tsne_coordinates": { "x": 13.320695877075195, "y": 39.803768157958984, "z": 9.847848892211914 }, "pca_coordinates": { "x": -2.4521968364715576, "y": 3.395381212234497, "z": -0.8170839548110962 }, "axis_scores": { "Quantum imaging": 0.6703851819038391, "Quantum Life Science Sensing": 0.6871141791343689, "Quantum sensing Detection": 0.6440941691398621, "Quantum sensing Metrology": 0.6356431841850281, "Quantum sensing navigation": 0.6556763052940369, "Quantum sensing Position": 0.6410815715789795, "Quantum sensing Timing": 0.6516996026039124, "Quantum sensing": 0.6664024591445923, "Quantum control": 0.6742224097251892 } }, { "id": 4225, "title": "Flux qubit with a quantum point contact", "abstract": "Andreev bound states in superconducting quantum point contacts (QPC) can be accessed for manipulation and measurement by embedding the QPC in a superconducting loop. We discuss the characteristics of ...", "citations": 14, "author_count": 5, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4231, "doi": "10.1016/S0921-4534(01)01188-1", "umap_coordinates": { "x": 394.1546630859375, "y": 135.15773010253906, "z": 207.8505859375 }, "tsne_coordinates": { "x": -15.46444034576416, "y": -38.22587966918945, "z": 18.41878890991211 }, "pca_coordinates": { "x": 1.1762642860412598, "y": 0.5952633619308472, "z": 1.7477831840515137 }, "axis_scores": { "Quantum imaging": 0.7140085697174072, "Quantum Life Science Sensing": 0.7321435213088989, "Quantum sensing Detection": 0.7248576879501343, "Quantum sensing Metrology": 0.733629584312439, "Quantum sensing navigation": 0.7275822758674622, "Quantum sensing Position": 0.7497637271881104, "Quantum sensing Timing": 0.6984018683433533, "Quantum sensing": 0.7366423606872559, "Quantum control": 0.7103803753852844 } }, { "id": 4226, "title": "Topology optimization of dispersive plasmonic nanostructures in the time-domain", "abstract": "Topology optimization techniques have been applied in integrated optics and nanophotonics for the inverse design of devices with shapes that cannot be conceived by human intuition. At optical frequenc...", "citations": 16, "author_count": 3, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4232, "doi": "10.1364/OE.458080", "umap_coordinates": { "x": 393.54345703125, "y": 134.09063720703125, "z": 206.31063842773438 }, "tsne_coordinates": { "x": 1.0500315427780151, "y": -15.16042709350586, "z": -37.838829040527344 }, "pca_coordinates": { "x": -1.0190808773040771, "y": -0.7657873630523682, "z": -0.48095938563346863 }, "axis_scores": { "Quantum imaging": 0.7304311990737915, "Quantum Life Science Sensing": 0.7213936448097229, "Quantum sensing Detection": 0.7003113031387329, "Quantum sensing Metrology": 0.7119956612586975, "Quantum sensing navigation": 0.7295664548873901, "Quantum sensing Position": 0.7132526636123657, "Quantum sensing Timing": 0.7228707075119019, "Quantum sensing": 0.7176598310470581, "Quantum control": 0.7065092325210571 } }, { "id": 4227, "title": "Monte Carlo simulation of the photoneutron field in linac radiotherapy treatments with different collimation systems", "abstract": "Bremsstrahlung photon beams produced by linac accelerators are currently the most commonly used method of radiotherapy for tumour treatments. When the photon energy exceeds 10 MeV the patient receives...", "citations": 96, "author_count": 12, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4233, "doi": "10.1088/0031-9155/49/4/008", "umap_coordinates": { "x": 396.1021423339844, "y": 133.50436401367188, "z": 205.13690185546875 }, "tsne_coordinates": { "x": -15.313370704650879, "y": 29.30011749267578, "z": -15.624409675598145 }, "pca_coordinates": { "x": -0.47374188899993896, "y": 3.6095099449157715, "z": 2.829235076904297 }, "axis_scores": { "Quantum imaging": 0.6790053248405457, "Quantum Life Science Sensing": 0.6741393208503723, "Quantum sensing Detection": 0.6395061612129211, "Quantum sensing Metrology": 0.6487693786621094, "Quantum sensing navigation": 0.6768211126327515, "Quantum sensing Position": 0.6522530317306519, "Quantum sensing Timing": 0.6474325656890869, "Quantum sensing": 0.6527454853057861, "Quantum control": 0.6325417160987854 } }, { "id": 4228, "title": "Hall viscosity of hierarchical quantum Hall states", "abstract": "Using methods based on conformal field theory, we construct model wave functions on a torus with arbitrary flat metric for all chiral states in the abelian quantum Hall hierarchy. These functions have...", "citations": 35, "author_count": 4, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4234, "doi": "10.1103/PhysRevB.89.125303", "umap_coordinates": { "x": 394.459716796875, "y": 137.15576171875, "z": 208.7872314453125 }, "tsne_coordinates": { "x": -14.951778411865234, "y": -34.51637649536133, "z": 9.6007080078125 }, "pca_coordinates": { "x": 5.216239929199219, "y": 1.030066728591919, "z": -2.376213788986206 }, "axis_scores": { "Quantum imaging": 0.733182966709137, "Quantum Life Science Sensing": 0.7161568403244019, "Quantum sensing Detection": 0.7113211750984192, "Quantum sensing Metrology": 0.6894041299819946, "Quantum sensing navigation": 0.7262244820594788, "Quantum sensing Position": 0.6750833988189697, "Quantum sensing Timing": 0.6697997450828552, "Quantum sensing": 0.7245029807090759, "Quantum control": 0.709918200969696 } }, { "id": 4229, "title": "Exact projected entangled pair ground states with topological Euler invariant", "abstract": "We report on a class of gapped projected entangled pair states (PEPS) with non-trivial Euler topology motivated by recent progress in band geometry. In the non-interacting limit, these systems have op...", "citations": 4, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4235, "doi": "10.1038/s41467-024-55484-4", "umap_coordinates": { "x": 395.510986328125, "y": 136.91612243652344, "z": 207.4913330078125 }, "tsne_coordinates": { "x": -19.832670211791992, "y": -11.684126853942871, "z": 7.045130729675293 }, "pca_coordinates": { "x": 3.192657947540283, "y": 1.334831714630127, "z": 1.6201567649841309 }, "axis_scores": { "Quantum imaging": 0.7304759621620178, "Quantum Life Science Sensing": 0.6986755728721619, "Quantum sensing Detection": 0.7105482816696167, "Quantum sensing Metrology": 0.7128012776374817, "Quantum sensing navigation": 0.7357885241508484, "Quantum sensing Position": 0.726815938949585, "Quantum sensing Timing": 0.7051137089729309, "Quantum sensing": 0.7183619737625122, "Quantum control": 0.6894513964653015 } }, { "id": 4230, "title": "A DFT Study of Phosphate Ion Adsorption on Graphene Nanodots: Implications for Sensing", "abstract": "The optical properties of graphene nanodots (GND) and their interaction with phosphate ions have been investigated to explore their potential for optical sensing applications. The absorption spectra o...", "citations": 6, "author_count": 2, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4236, "doi": "10.3390/s23125631", "umap_coordinates": { "x": 393.2737121582031, "y": 135.82701110839844, "z": 204.92787170410156 }, "tsne_coordinates": { "x": 25.52117919921875, "y": 13.410101890563965, "z": 9.43812370300293 }, "pca_coordinates": { "x": -2.0469443798065186, "y": -0.4953134059906006, "z": -1.6255476474761963 }, "axis_scores": { "Quantum imaging": 0.7052947878837585, "Quantum Life Science Sensing": 0.7422491312026978, "Quantum sensing Detection": 0.7175706624984741, "Quantum sensing Metrology": 0.7020463347434998, "Quantum sensing navigation": 0.7173012495040894, "Quantum sensing Position": 0.7109333276748657, "Quantum sensing Timing": 0.6756699681282043, "Quantum sensing": 0.732334554195404, "Quantum control": 0.6928618550300598 } }, { "id": 4231, "title": "Tackling the Defects, Stability, and Photoluminescence of CsPbX3 Perovskite Nanocrystals", "abstract": "Defects have always been an integral part of semiconductor crystals, controlling their optical and electronic properties. Even though growing popularity of the CsPbX3 (X = CI, Br, I, and their mixture...", "citations": 302, "author_count": 5, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4237, "doi": "10.1021/acsenergylett.9b00849", "umap_coordinates": { "x": 391.49578857421875, "y": 134.29742431640625, "z": 205.7805938720703 }, "tsne_coordinates": { "x": 20.972084045410156, "y": -3.0392134189605713, "z": -17.976329803466797 }, "pca_coordinates": { "x": -2.4103660583496094, "y": -4.028467178344727, "z": -2.522829055786133 }, "axis_scores": { "Quantum imaging": 0.6693216562271118, "Quantum Life Science Sensing": 0.6990536451339722, "Quantum sensing Detection": 0.6765638589859009, "Quantum sensing Metrology": 0.6613004207611084, "Quantum sensing navigation": 0.6634649634361267, "Quantum sensing Position": 0.6675550937652588, "Quantum sensing Timing": 0.6623243093490601, "Quantum sensing": 0.6827647089958191, "Quantum control": 0.6589141488075256 } }, { "id": 4232, "title": "Characterization of photophysical and base-mimicking properties of a novel fluorescent adenine analogue in DNA", "abstract": "To increase the diversity of fluorescent base analogues with improved properties, we here present the straightforward click-chemistry-based synthesis of a novel fluorescent adenine-analogue triazole a...", "citations": 48, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4238, "doi": "10.1093/nar/gkr010", "umap_coordinates": { "x": 392.8600769042969, "y": 136.25393676757812, "z": 204.73756408691406 }, "tsne_coordinates": { "x": 7.604733467102051, "y": 11.847421646118164, "z": 4.406165599822998 }, "pca_coordinates": { "x": -0.6685904860496521, "y": 1.0716489553451538, "z": -0.6514312028884888 }, "axis_scores": { "Quantum imaging": 0.6821224689483643, "Quantum Life Science Sensing": 0.721534013748169, "Quantum sensing Detection": 0.6905890107154846, "Quantum sensing Metrology": 0.6653928160667419, "Quantum sensing navigation": 0.693539023399353, "Quantum sensing Position": 0.6660000681877136, "Quantum sensing Timing": 0.6481316089630127, "Quantum sensing": 0.6974416375160217, "Quantum control": 0.6496782302856445 } }, { "id": 4233, "title": "Synthesis and Photophysical Characterisation of Fluorescent 8-(1H-1,2,3-Triazol-4-yl)adenosine Derivatives", "abstract": "A series of 8-(1H-1,2,3-triazol-4-yl)-substituted adenosine derivatives have been synthesised by using Sonogashira cross-coupling and click chemistry. The use of click chemistry enables an easy access...", "citations": 60, "author_count": 8, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4239, "doi": "10.1002/ejoc.200900018", "umap_coordinates": { "x": 393.0674743652344, "y": 135.7719268798828, "z": 204.61439514160156 }, "tsne_coordinates": { "x": 0.21793970465660095, "y": 11.873262405395508, "z": -1.4847103357315063 }, "pca_coordinates": { "x": -3.5695748329162598, "y": 0.5985662937164307, "z": -0.41024601459503174 }, "axis_scores": { "Quantum imaging": 0.743213951587677, "Quantum Life Science Sensing": 0.7363904118537903, "Quantum sensing Detection": 0.7071778178215027, "Quantum sensing Metrology": 0.6993548274040222, "Quantum sensing navigation": 0.7087832689285278, "Quantum sensing Position": 0.6970912218093872, "Quantum sensing Timing": 0.6958839893341064, "Quantum sensing": 0.7292664051055908, "Quantum control": 0.7088403701782227 } }, { "id": 4234, "title": "Constant cutoff approach to the Eta photoproduction in the Skyrme model", "abstract": "We suggest a quantum stabilization method for the SU(2) sigma-model, based on the constant-cutoff Limit of the cutoff quantization method developed by Balakrishna et al., which avoids the difficulties...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 4240, "doi": null, "umap_coordinates": { "x": 392.1882629394531, "y": 139.3228302001953, "z": 209.34652709960938 }, "tsne_coordinates": { "x": -16.950790405273438, "y": 36.145751953125, "z": 9.896753311157227 }, "pca_coordinates": { "x": -1.31770658493042, "y": 4.132577896118164, "z": -2.713303804397583 }, "axis_scores": { "Quantum imaging": 0.685390293598175, "Quantum Life Science Sensing": 0.6992296576499939, "Quantum sensing Detection": 0.6843035817146301, "Quantum sensing Metrology": 0.6652197241783142, "Quantum sensing navigation": 0.6931730508804321, "Quantum sensing Position": 0.6727219223976135, "Quantum sensing Timing": 0.6834713220596313, "Quantum sensing": 0.6850687265396118, "Quantum control": 0.703784167766571 } }, { "id": 4235, "title": "Analysis of High-Performing Terahertz Quantum Cascade Lasers", "abstract": "Detailed simulations for terahertz quantum cascade lasers based on two-well designs are presented. reproduce the maximal operation temperatures observed and attribute the degradation with temperature ...", "citations": 25, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4241, "doi": "10.1103/PhysRevApplied.18.L041001", "umap_coordinates": { "x": 394.6968688964844, "y": 135.16729736328125, "z": 207.43287658691406 }, "tsne_coordinates": { "x": -11.625428199768066, "y": -24.03891372680664, "z": -27.224613189697266 }, "pca_coordinates": { "x": 1.6176197528839111, "y": -0.5697414875030518, "z": 0.5015429854393005 }, "axis_scores": { "Quantum imaging": 0.7167894840240479, "Quantum Life Science Sensing": 0.7299754619598389, "Quantum sensing Detection": 0.7080132365226746, "Quantum sensing Metrology": 0.7004321217536926, "Quantum sensing navigation": 0.6808879375457764, "Quantum sensing Position": 0.6739677786827087, "Quantum sensing Timing": 0.6964664459228516, "Quantum sensing": 0.7219809293746948, "Quantum control": 0.6946783065795898 } }, { "id": 4236, "title": "Single-Molecule X-Ray Interferometry: Controlling Coupled Electron-Nuclear Quantum Dynamics and Imaging Molecular Potentials by Ultrahigh-Resolution Resonant Photoemission and Ab Initio Calculations", "abstract": "This paper reports an advanced study of the excited ionic states of the gas-phase nitrogen molecule in the binding-energy region of 22-34 eV, combining ultrahigh-resolution resonant photoemission (RPE...", "citations": 34, "author_count": 10, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4242, "doi": "10.1103/PhysRevX.3.011017", "umap_coordinates": { "x": 394.6294860839844, "y": 134.2269744873047, "z": 208.04405212402344 }, "tsne_coordinates": { "x": -4.8275651931762695, "y": -28.272855758666992, "z": -14.040358543395996 }, "pca_coordinates": { "x": 2.1086173057556152, "y": -2.159170627593994, "z": 1.518664836883545 }, "axis_scores": { "Quantum imaging": 0.749655544757843, "Quantum Life Science Sensing": 0.7458624243736267, "Quantum sensing Detection": 0.7258286476135254, "Quantum sensing Metrology": 0.7151190638542175, "Quantum sensing navigation": 0.7293276190757751, "Quantum sensing Position": 0.6968632340431213, "Quantum sensing Timing": 0.6873485445976257, "Quantum sensing": 0.7460217475891113, "Quantum control": 0.7189294099807739 } }, { "id": 4237, "title": "STUDIES OF THE MALDI PROCESS BY LUMINESCENCE SPECTROSCOPY", "abstract": "The process of matrix-assisted laser desorption/ionization (MALDI) was investigated by studying the luminescence of matrix molecules induced by laser radiation. An optical multi-channel analyser was u...", "citations": 63, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1995, "topic": [ "all" ], "embedding_index": 4243, "doi": "10.1002/jms.1190300915", "umap_coordinates": { "x": 393.68902587890625, "y": 135.50730895996094, "z": 205.15667724609375 }, "tsne_coordinates": { "x": 19.901273727416992, "y": 18.38654136657715, "z": -25.52938461303711 }, "pca_coordinates": { "x": -3.057760000228882, "y": 1.2382056713104248, "z": -0.20477703213691711 }, "axis_scores": { "Quantum imaging": 0.6941540837287903, "Quantum Life Science Sensing": 0.7170730233192444, "Quantum sensing Detection": 0.6948980093002319, "Quantum sensing Metrology": 0.6986000537872314, "Quantum sensing navigation": 0.6687893867492676, "Quantum sensing Position": 0.6661016941070557, "Quantum sensing Timing": 0.6352928876876831, "Quantum sensing": 0.6944639682769775, "Quantum control": 0.6523932814598083 } }, { "id": 4238, "title": "EFFECT OF LONG-TERM PHOTOINHIBITION ON GROWTH AND PHOTOSYNTHESIS OF COLD-HARDENED SPRING AND WINTER-WHEAT", "abstract": "The effect of repeated exposure to high light (1200 mumol . m-2 . s-1 photosynthetic photon flux density, PPFD) at 5-degrees-C was examined in attached leaves of cold-grown spring (cv. Katepwa) and wi...", "citations": 70, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 1992, "topic": [ "all" ], "embedding_index": 4244, "doi": null, "umap_coordinates": { "x": 391.8302307128906, "y": 139.75933837890625, "z": 209.5339813232422 }, "tsne_coordinates": { "x": -0.856029748916626, "y": 46.52737808227539, "z": 0.39960992336273193 }, "pca_coordinates": { "x": -3.0274100303649902, "y": 2.870047092437744, "z": -2.8795828819274902 }, "axis_scores": { "Quantum imaging": 0.6599186658859253, "Quantum Life Science Sensing": 0.7149673700332642, "Quantum sensing Detection": 0.662804901599884, "Quantum sensing Metrology": 0.6472989320755005, "Quantum sensing navigation": 0.656740665435791, "Quantum sensing Position": 0.6487938165664673, "Quantum sensing Timing": 0.6625851392745972, "Quantum sensing": 0.677259624004364, "Quantum control": 0.6783975958824158 } }, { "id": 4239, "title": "Qubit motion as a microscopic model for the dynamical Casimir effect", "abstract": "The generation of photons from the vacuum by means of the movement of a mirror is known as the dynamical Casimir effect (DCE). In general, this phenomenon is effectively described by a field with time...", "citations": 6, "author_count": 5, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4245, "doi": "10.1103/PhysRevA.103.062201", "umap_coordinates": { "x": 394.4098815917969, "y": 137.13748168945312, "z": 208.4557342529297 }, "tsne_coordinates": { "x": -14.979303359985352, "y": -23.57316017150879, "z": 9.131490707397461 }, "pca_coordinates": { "x": 5.414860248565674, "y": 0.7476377487182617, "z": -1.7495694160461426 }, "axis_scores": { "Quantum imaging": 0.7429827451705933, "Quantum Life Science Sensing": 0.746157169342041, "Quantum sensing Detection": 0.7385485172271729, "Quantum sensing Metrology": 0.7283951044082642, "Quantum sensing navigation": 0.760493278503418, "Quantum sensing Position": 0.7258018255233765, "Quantum sensing Timing": 0.730929970741272, "Quantum sensing": 0.7480916380882263, "Quantum control": 0.7486833333969116 } }, { "id": 4240, "title": "Counting quantum fluctuations of particle density", "abstract": "Methods of charge projectors using special gauge transformations for tagging particles are presented. Such engineering of a many-body wave function allows extracting information regarding properties o...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4246, "doi": "10.1002/andp.201100277", "umap_coordinates": { "x": 394.609375, "y": 135.78070068359375, "z": 205.8661651611328 }, "tsne_coordinates": { "x": -13.174866676330566, "y": 15.533110618591309, "z": 16.63422966003418 }, "pca_coordinates": { "x": 0.7075471878051758, "y": 0.9065067768096924, "z": 0.8222574591636658 }, "axis_scores": { "Quantum imaging": 0.7636284828186035, "Quantum Life Science Sensing": 0.7606244683265686, "Quantum sensing Detection": 0.7777075171470642, "Quantum sensing Metrology": 0.7699683308601379, "Quantum sensing navigation": 0.7798187732696533, "Quantum sensing Position": 0.7571730017662048, "Quantum sensing Timing": 0.7485791444778442, "Quantum sensing": 0.782459557056427, "Quantum control": 0.7767593860626221 } }, { "id": 4241, "title": "Microwave-induced spin-flip scattering of electrons in point contacts", "abstract": "In bilayer systems, electron-hole (e-h) pairs, we investigate resonant interaction of conduction electrons with an electromagnetic field that irradiates a point contact between a ferromagnetic and a n...", "citations": 8, "author_count": 7, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4247, "doi": "10.1063/1.3671676", "umap_coordinates": { "x": 393.7427978515625, "y": 134.8425750732422, "z": 208.60592651367188 }, "tsne_coordinates": { "x": 18.831186294555664, "y": -32.63945388793945, "z": 1.4110219478607178 }, "pca_coordinates": { "x": 2.050328254699707, "y": -2.4804940223693848, "z": 0.006264030933380127 }, "axis_scores": { "Quantum imaging": 0.6818419098854065, "Quantum Life Science Sensing": 0.697272539138794, "Quantum sensing Detection": 0.6727291941642761, "Quantum sensing Metrology": 0.6749983429908752, "Quantum sensing navigation": 0.6727098822593689, "Quantum sensing Position": 0.6556546092033386, "Quantum sensing Timing": 0.6325419545173645, "Quantum sensing": 0.6909950375556946, "Quantum control": 0.6513857841491699 } }, { "id": 4242, "title": "Magneto-optics of electronic transport in nanowires", "abstract": "Effects of irradiation on the electronic conductance in nanowires, for field-free conditions and under the influence of applied longitudinal magnetic fields, were investigated. The nanowires were mode...", "citations": 21, "author_count": 8, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4248, "doi": "10.1103/PhysRevB.58.16305", "umap_coordinates": { "x": 393.7268371582031, "y": 135.45001220703125, "z": 209.17251586914062 }, "tsne_coordinates": { "x": 3.597792625427246, "y": -27.966365814208984, "z": 7.0637006759643555 }, "pca_coordinates": { "x": 4.536740779876709, "y": -2.3515353202819824, "z": 0.25271856784820557 }, "axis_scores": { "Quantum imaging": 0.7406011819839478, "Quantum Life Science Sensing": 0.7370237112045288, "Quantum sensing Detection": 0.7352259159088135, "Quantum sensing Metrology": 0.7348006963729858, "Quantum sensing navigation": 0.7620245218276978, "Quantum sensing Position": 0.7135382890701294, "Quantum sensing Timing": 0.6943712830543518, "Quantum sensing": 0.7441310286521912, "Quantum control": 0.7148200869560242 } }, { "id": 4243, "title": "Utility and considerations of donor-donor energy migration as a fluorescence method for exploring protein structure-function", "abstract": "This review aims at surveying the use of electronic energy transport between chemically identical fluorophores (i.e. donors) in studies of various protein systems. Applications of intra- and interprot...", "citations": 22, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4249, "doi": "10.1023/B:JOFL.0000047218.51768.59", "umap_coordinates": { "x": 393.12579345703125, "y": 135.9911651611328, "z": 205.01068115234375 }, "tsne_coordinates": { "x": 25.430004119873047, "y": 12.229968070983887, "z": 20.306133270263672 }, "pca_coordinates": { "x": -1.7764766216278076, "y": 0.541391134262085, "z": -3.41923189163208 }, "axis_scores": { "Quantum imaging": 0.6782453656196594, "Quantum Life Science Sensing": 0.7247117757797241, "Quantum sensing Detection": 0.6688981652259827, "Quantum sensing Metrology": 0.6545888185501099, "Quantum sensing navigation": 0.6762456893920898, "Quantum sensing Position": 0.6650584936141968, "Quantum sensing Timing": 0.6479291319847107, "Quantum sensing": 0.6833932399749756, "Quantum control": 0.6526756882667542 } }, { "id": 4244, "title": "Exciton-cyclotron resonance in two-dimensional structures in a strong perpendicular magnetic field and optical orientation conditions", "abstract": "The absorption band shapes of the combined optical quantum transitions with creation of the two-dimensional magnetoexcitons and simultaneous excitation of one background electron from its lowest to th...", "citations": 14, "author_count": 4, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4250, "doi": "10.1103/PhysRevB.79.125425", "umap_coordinates": { "x": 393.3335876464844, "y": 135.7067413330078, "z": 208.51168823242188 }, "tsne_coordinates": { "x": 13.545120239257812, "y": -25.561077117919922, "z": 9.706140518188477 }, "pca_coordinates": { "x": 2.237818479537964, "y": -2.442406177520752, "z": -1.198913335800171 }, "axis_scores": { "Quantum imaging": 0.70860356092453, "Quantum Life Science Sensing": 0.7048529982566833, "Quantum sensing Detection": 0.6882965564727783, "Quantum sensing Metrology": 0.6825915575027466, "Quantum sensing navigation": 0.6949272155761719, "Quantum sensing Position": 0.6730681657791138, "Quantum sensing Timing": 0.6628135442733765, "Quantum sensing": 0.6956726908683777, "Quantum control": 0.687933623790741 } }, { "id": 4245, "title": "Nanoscale engineering and dynamic stabilization of mesoscopic spin textures", "abstract": "Thermalization, while ubiquitous in physics, has traditionally been viewed as an obstacle to be mitigated. In contrast, we demonstrate here the use of thermalization in the generation, control, and re...", "citations": 3, "author_count": 20, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4251, "doi": "10.1126/sciadv.adn9021", "umap_coordinates": { "x": 393.5699768066406, "y": 135.8863983154297, "z": 205.88739013671875 }, "tsne_coordinates": { "x": 1.2537001371383667, "y": -9.858436584472656, "z": 29.066341400146484 }, "pca_coordinates": { "x": -0.15246546268463135, "y": -1.1787595748901367, "z": -3.5654945373535156 }, "axis_scores": { "Quantum imaging": 0.7163476943969727, "Quantum Life Science Sensing": 0.7269009947776794, "Quantum sensing Detection": 0.6776006817817688, "Quantum sensing Metrology": 0.697028636932373, "Quantum sensing navigation": 0.7302388548851013, "Quantum sensing Position": 0.6806930303573608, "Quantum sensing Timing": 0.671014130115509, "Quantum sensing": 0.7080256342887878, "Quantum control": 0.7356786131858826 } }, { "id": 4246, "title": "Tripartite Genuine Non-Gaussian Entanglement in Three-Mode Spontaneous Parametric Down-Conversion", "abstract": "We show that the states generated by a three-mode spontaneous parametric down-conversion (SPDC) interaction Hamiltonian possess tripartite entanglement of a different nature to other paradigmatic thre...", "citations": 46, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4252, "doi": "10.1103/PhysRevLett.125.020502", "umap_coordinates": { "x": 395.49652099609375, "y": 135.93099975585938, "z": 207.46710205078125 }, "tsne_coordinates": { "x": -18.96099281311035, "y": -2.9708824157714844, "z": -0.4022628366947174 }, "pca_coordinates": { "x": 4.373591423034668, "y": 0.5520780086517334, "z": 1.8608877658843994 }, "axis_scores": { "Quantum imaging": 0.730651319026947, "Quantum Life Science Sensing": 0.7173230051994324, "Quantum sensing Detection": 0.7354932427406311, "Quantum sensing Metrology": 0.7150359153747559, "Quantum sensing navigation": 0.7304359078407288, "Quantum sensing Position": 0.6944594383239746, "Quantum sensing Timing": 0.7007840275764465, "Quantum sensing": 0.7368549704551697, "Quantum control": 0.7060118913650513 } }, { "id": 4247, "title": "The Interaction Modes of Haloimidazolium Salts in Solution", "abstract": "We performed a comparative study on the interaction modes of 2-haloimidazolium salts with anions in solution, particularly with regard to halogen bonding, hydrogen bonding and anion-pi interactions. T...", "citations": 44, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4253, "doi": "10.1002/chem.201705032", "umap_coordinates": { "x": 393.1017761230469, "y": 136.44969177246094, "z": 204.9002227783203 }, "tsne_coordinates": { "x": 19.804903030395508, "y": 20.378089904785156, "z": 6.351083278656006 }, "pca_coordinates": { "x": -1.0936604738235474, "y": 1.0963174104690552, "z": -3.994703531265259 }, "axis_scores": { "Quantum imaging": 0.7189468741416931, "Quantum Life Science Sensing": 0.7253023386001587, "Quantum sensing Detection": 0.6889479756355286, "Quantum sensing Metrology": 0.6849057078361511, "Quantum sensing navigation": 0.702416718006134, "Quantum sensing Position": 0.6786129474639893, "Quantum sensing Timing": 0.6474766731262207, "Quantum sensing": 0.7015362977981567, "Quantum control": 0.6864125728607178 } }, { "id": 4248, "title": "Exciton Structure and Energy Transfer in the Fenna-Matthews-Olson Complex", "abstract": "The Fenna-Matthews-Olson (FMO) photosynthetic complex found in green sulfur bacteria has over the last decades been one of the favorite model systems for biological energy transfer. However, even afte...", "citations": 120, "author_count": 6, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4254, "doi": "10.1021/acs.jpclett.6b00534", "umap_coordinates": { "x": 392.4033508300781, "y": 136.63287353515625, "z": 205.7693328857422 }, "tsne_coordinates": { "x": 6.101134300231934, "y": -3.7186079025268555, "z": 0.005291265901178122 }, "pca_coordinates": { "x": -0.5869172215461731, "y": -0.8576779365539551, "z": -3.280531406402588 }, "axis_scores": { "Quantum imaging": 0.7005409002304077, "Quantum Life Science Sensing": 0.7010605931282043, "Quantum sensing Detection": 0.6744188666343689, "Quantum sensing Metrology": 0.6705092191696167, "Quantum sensing navigation": 0.6863924860954285, "Quantum sensing Position": 0.6594732999801636, "Quantum sensing Timing": 0.6541566252708435, "Quantum sensing": 0.6855216026306152, "Quantum control": 0.6810046434402466 } }, { "id": 4249, "title": "Exciton coupling induces vibronic hyperchromism in light-harvesting complexes", "abstract": "The recently suggested possibility that weak vibronic transitions can be excitonically enhanced in light-harvesting complexes is studied in detail. A vibronic exciton dimer model that includes ground-...", "citations": 28, "author_count": 5, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4255, "doi": "10.1088/1367-2630/16/4/045010", "umap_coordinates": { "x": 393.4328308105469, "y": 136.45994567871094, "z": 206.51585388183594 }, "tsne_coordinates": { "x": 10.362890243530273, "y": -0.7772281765937805, "z": 20.766159057617188 }, "pca_coordinates": { "x": 1.4026589393615723, "y": 0.49871504306793213, "z": -1.5772464275360107 }, "axis_scores": { "Quantum imaging": 0.7003710865974426, "Quantum Life Science Sensing": 0.6990062594413757, "Quantum sensing Detection": 0.6903197169303894, "Quantum sensing Metrology": 0.6584162712097168, "Quantum sensing navigation": 0.6671639680862427, "Quantum sensing Position": 0.6433536410331726, "Quantum sensing Timing": 0.657947838306427, "Quantum sensing": 0.6972337365150452, "Quantum control": 0.6907728314399719 } }, { "id": 4250, "title": "Two channels of entangled twin photons generated by quasi-phase-matched spontaneous parametric down-conversion in periodically poled lithium niobate crystals", "abstract": "We propose the generation of two-channel time-energy entangled twin photons based on two simultaneous first-order quasi-phase-matched (QPM) spontaneous parametric down-conversion processes in a period...", "citations": 3, "author_count": 3, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4256, "doi": "10.1364/JOSAB.25.000734", "umap_coordinates": { "x": 394.6819763183594, "y": 134.60317993164062, "z": 207.18374633789062 }, "tsne_coordinates": { "x": -6.974285125732422, "y": -8.322260856628418, "z": -27.333040237426758 }, "pca_coordinates": { "x": 1.3363037109375, "y": -1.0732917785644531, "z": 2.9954276084899902 }, "axis_scores": { "Quantum imaging": 0.7194737195968628, "Quantum Life Science Sensing": 0.6846433281898499, "Quantum sensing Detection": 0.7017016410827637, "Quantum sensing Metrology": 0.6995502710342407, "Quantum sensing navigation": 0.6993550062179565, "Quantum sensing Position": 0.6757551431655884, "Quantum sensing Timing": 0.7127227783203125, "Quantum sensing": 0.7078589797019958, "Quantum control": 0.6831826567649841 } }, { "id": 4251, "title": "AT2-selective angiotensin II analogues containing tyrosine-functionalized 5,5-bicyclic thiazabicycloalkane dipeptide mimetics", "abstract": "This paper reports the synthesis of two angiotensin II analogues with tyrosine-functionalized 5,5-bicyclic thiazabicycloalkane dipeptide mimetics replacing the Tyr(4)-Ile(5) residues. The preparation ...", "citations": 33, "author_count": 8, "categories": [ "Pharmacology & Pharmacy" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4257, "doi": "10.1021/jm049651m", "umap_coordinates": { "x": 392.226806640625, "y": 135.57525634765625, "z": 204.27720642089844 }, "tsne_coordinates": { "x": 9.776615142822266, "y": 10.85557746887207, "z": -15.17203140258789 }, "pca_coordinates": { "x": -2.8707187175750732, "y": -0.15359234809875488, "z": -0.971311092376709 }, "axis_scores": { "Quantum imaging": 0.6624146103858948, "Quantum Life Science Sensing": 0.6470298767089844, "Quantum sensing Detection": 0.648175835609436, "Quantum sensing Metrology": 0.6604099869728088, "Quantum sensing navigation": 0.6505586504936218, "Quantum sensing Position": 0.6412853002548218, "Quantum sensing Timing": 0.6693791151046753, "Quantum sensing": 0.6621245741844177, "Quantum control": 0.6493395566940308 } }, { "id": 4252, "title": "Superconducting films and devices", "abstract": "Simple superconducting circuits and sensors can be fabricated in the new cuprate high temperature superconductors and conventional low-T-c components can be integrated at a large scale. Reliable multi...", "citations": 3, "author_count": 4, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4258, "doi": "10.1016/S1359-0286(99)80010-2", "umap_coordinates": { "x": 393.5784912109375, "y": 134.87388610839844, "z": 206.62591552734375 }, "tsne_coordinates": { "x": -8.639582633972168, "y": 7.332576274871826, "z": 6.1363701820373535 }, "pca_coordinates": { "x": -0.4988101124763489, "y": -1.5738272666931152, "z": -0.34437525272369385 }, "axis_scores": { "Quantum imaging": 0.6965570449829102, "Quantum Life Science Sensing": 0.7261031866073608, "Quantum sensing Detection": 0.7133416533470154, "Quantum sensing Metrology": 0.7055041193962097, "Quantum sensing navigation": 0.6974851489067078, "Quantum sensing Position": 0.716644287109375, "Quantum sensing Timing": 0.6971795558929443, "Quantum sensing": 0.7184712886810303, "Quantum control": 0.6873630881309509 } }, { "id": 4253, "title": "POLARIZED AND DEPOLARIZED LIGHT-SCATTERING OF CONCENTRATED POLYSTYRENE SOLUTIONS", "abstract": "Polarized and depolarized dynamic light scattering have been used to examine the dynamics of concentrated (0.7 < C < 1.0 g/mL) polystyrene solutions in dioctyl phthalate and toluene. Time-temperature ...", "citations": 25, "author_count": 3, "categories": [ "Polymer Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 4259, "doi": "10.1021/ma00087a016", "umap_coordinates": { "x": 393.474365234375, "y": 135.27847290039062, "z": 205.41065979003906 }, "tsne_coordinates": { "x": -0.1011224091053009, "y": -2.5234012603759766, "z": 34.73710632324219 }, "pca_coordinates": { "x": -2.2430357933044434, "y": -0.3475229740142822, "z": -0.9989443421363831 }, "axis_scores": { "Quantum imaging": 0.6656755208969116, "Quantum Life Science Sensing": 0.695555567741394, "Quantum sensing Detection": 0.6595390439033508, "Quantum sensing Metrology": 0.6594692468643188, "Quantum sensing navigation": 0.6620396971702576, "Quantum sensing Position": 0.6506310701370239, "Quantum sensing Timing": 0.5967288613319397, "Quantum sensing": 0.6764927506446838, "Quantum control": 0.6401032209396362 } }, { "id": 4254, "title": "Capacitively coupled hot-electron nanobolometer as far-infrared photon counter", "abstract": "We show theoretically that hot-electron nanobolometers consisting of a small piece of normal metal, capacitively coupled to a superconducting antenna through a pair of normal metal-insulator-supercond...", "citations": 19, "author_count": 3, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4260, "doi": "10.1063/1.1536728", "umap_coordinates": { "x": 394.53082275390625, "y": 134.459228515625, "z": 207.71905517578125 }, "tsne_coordinates": { "x": -16.535797119140625, "y": -8.154203414916992, "z": -37.246028900146484 }, "pca_coordinates": { "x": 0.3240278959274292, "y": -1.4239778518676758, "z": 2.0050249099731445 }, "axis_scores": { "Quantum imaging": 0.727405846118927, "Quantum Life Science Sensing": 0.7632241249084473, "Quantum sensing Detection": 0.7560153007507324, "Quantum sensing Metrology": 0.7381447553634644, "Quantum sensing navigation": 0.7311881184577942, "Quantum sensing Position": 0.7335553169250488, "Quantum sensing Timing": 0.7180808186531067, "Quantum sensing": 0.7595577239990234, "Quantum control": 0.6929613947868347 } }, { "id": 4255, "title": "Cobalt-Embedded Metal-Covalent Organic Frameworks for CO2 Photoreduction", "abstract": "With the pressing urgency to reduce carbon footprint, photocatalytic carbon dioxide reduction has attracted growing attention as a sustainable mitigating option. Considering the important role of cata...", "citations": 19, "author_count": 15, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4261, "doi": "10.1021/jacs.4c18450", "umap_coordinates": { "x": 391.9081115722656, "y": 134.5768280029297, "z": 205.0718536376953 }, "tsne_coordinates": { "x": 9.056400299072266, "y": 2.2417125701904297, "z": -22.03557777404785 }, "pca_coordinates": { "x": -2.3993499279022217, "y": -1.7677149772644043, "z": -2.475566864013672 }, "axis_scores": { "Quantum imaging": 0.7317012548446655, "Quantum Life Science Sensing": 0.7234968543052673, "Quantum sensing Detection": 0.7183124423027039, "Quantum sensing Metrology": 0.7041515111923218, "Quantum sensing navigation": 0.7044441103935242, "Quantum sensing Position": 0.6864689588546753, "Quantum sensing Timing": 0.6923555731773376, "Quantum sensing": 0.7354743480682373, "Quantum control": 0.7144854664802551 } }, { "id": 4256, "title": "Elastic moduli and thermal conductivity of quantum materials at finite temperature", "abstract": "We describe a theoretical and computational approach to calculate the vibrational, elastic, and thermal properties of materials from the low-temperature quantum regime to the high-temperature anharmon...", "citations": 8, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4262, "doi": "10.1063/5.0238723", "umap_coordinates": { "x": 394.4851379394531, "y": 137.0074005126953, "z": 207.99169921875 }, "tsne_coordinates": { "x": -7.849095344543457, "y": -40.910057067871094, "z": 23.685590744018555 }, "pca_coordinates": { "x": 2.541384696960449, "y": -0.31537580490112305, "z": -0.5748220682144165 }, "axis_scores": { "Quantum imaging": 0.7135018706321716, "Quantum Life Science Sensing": 0.7284365892410278, "Quantum sensing Detection": 0.698384702205658, "Quantum sensing Metrology": 0.7135387659072876, "Quantum sensing navigation": 0.6953883171081543, "Quantum sensing Position": 0.7096609473228455, "Quantum sensing Timing": 0.7115792036056519, "Quantum sensing": 0.7291092276573181, "Quantum control": 0.6676074862480164 } }, { "id": 4257, "title": "Machine-learned tuning of artificial Kitaev chains from tunneling spectroscopy measurements", "abstract": "We demonstrate reliable machine-learned tuning of quantum-dot-based artificial Kitaev chains to Majorana sweet spots, using the covariance matrix adaptation algorithm. We show that a loss function bas...", "citations": 8, "author_count": 7, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4263, "doi": "10.1103/PhysRevB.110.075402", "umap_coordinates": { "x": 395.05999755859375, "y": 136.9025421142578, "z": 208.60302734375 }, "tsne_coordinates": { "x": -25.4422607421875, "y": -30.132266998291016, "z": 0.5012875199317932 }, "pca_coordinates": { "x": 4.40608549118042, "y": 0.5216001272201538, "z": 0.5104897618293762 }, "axis_scores": { "Quantum imaging": 0.7116331458091736, "Quantum Life Science Sensing": 0.7507115006446838, "Quantum sensing Detection": 0.7283951044082642, "Quantum sensing Metrology": 0.7237966656684875, "Quantum sensing navigation": 0.7480642795562744, "Quantum sensing Position": 0.6905539035797119, "Quantum sensing Timing": 0.6959859728813171, "Quantum sensing": 0.7448599934577942, "Quantum control": 0.7044448852539062 } }, { "id": 4258, "title": "Cryogenic Fluorescence Spectroscopy of Ionic Fluorones in Gaseous and Condensed Phases: New Light on Their Intrinsic Photophysics", "abstract": "Fluorescence spectroscopy of gas-phase ions generated through electrospray ionization is an emerging technique able to probe intrinsic molecular photophysics directly without perturbations from solven...", "citations": 7, "author_count": 8, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4264, "doi": "10.1021/acs.jpca.2c07231", "umap_coordinates": { "x": 392.5743408203125, "y": 136.0895538330078, "z": 205.24378967285156 }, "tsne_coordinates": { "x": 10.644305229187012, "y": 9.746593475341797, "z": 13.694292068481445 }, "pca_coordinates": { "x": -1.1348068714141846, "y": 0.01077413558959961, "z": -3.5084547996520996 }, "axis_scores": { "Quantum imaging": 0.715968132019043, "Quantum Life Science Sensing": 0.7247980237007141, "Quantum sensing Detection": 0.6754278540611267, "Quantum sensing Metrology": 0.6536355018615723, "Quantum sensing navigation": 0.6815216541290283, "Quantum sensing Position": 0.6423175930976868, "Quantum sensing Timing": 0.6310366988182068, "Quantum sensing": 0.6977971792221069, "Quantum control": 0.672636866569519 } }, { "id": 4259, "title": "Visible-Light-Promoted Photocatalytic Applications of Carbon Dots: A Review", "abstract": "The same carbon-based nanomaterials have shown their potential photocatalytic applications toward environmental and energy-related problems based on their excellent light absorption abilities. Herein,...", "citations": 94, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4265, "doi": "10.1021/acsanm.1c04142", "umap_coordinates": { "x": 392.2938232421875, "y": 134.19346618652344, "z": 205.03509521484375 }, "tsne_coordinates": { "x": 17.364572525024414, "y": 9.506904602050781, "z": -9.745804786682129 }, "pca_coordinates": { "x": -4.417819976806641, "y": -4.43147087097168, "z": -0.7997681498527527 }, "axis_scores": { "Quantum imaging": 0.696367621421814, "Quantum Life Science Sensing": 0.7202762365341187, "Quantum sensing Detection": 0.7089554667472839, "Quantum sensing Metrology": 0.6887632012367249, "Quantum sensing navigation": 0.6837107539176941, "Quantum sensing Position": 0.6677894592285156, "Quantum sensing Timing": 0.6584159731864929, "Quantum sensing": 0.7126362323760986, "Quantum control": 0.6925012469291687 } }, { "id": 4260, "title": "Relating Defect Luminescence and Nonradiative Charge Recombination in MAPbI3 Perovskite Films", "abstract": "Nonradiative losses in semiconductors are related to defects. At cryogenic temperatures, defect-related photoluminescence (PL) at energies lower than the band-edge PL is observed in methylammonium lea...", "citations": 44, "author_count": 7, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4266, "doi": "10.1021/acs.jpclett.9b03878", "umap_coordinates": { "x": 391.5979919433594, "y": 135.2703094482422, "z": 205.91722106933594 }, "tsne_coordinates": { "x": 4.2869720458984375, "y": -7.5670928955078125, "z": -15.009757995605469 }, "pca_coordinates": { "x": -1.9417083263397217, "y": -1.211033821105957, "z": -1.028426170349121 }, "axis_scores": { "Quantum imaging": 0.6780299544334412, "Quantum Life Science Sensing": 0.69913250207901, "Quantum sensing Detection": 0.6779083013534546, "Quantum sensing Metrology": 0.6717771887779236, "Quantum sensing navigation": 0.6595900654792786, "Quantum sensing Position": 0.6699777245521545, "Quantum sensing Timing": 0.6564200520515442, "Quantum sensing": 0.6773011684417725, "Quantum control": 0.6492519378662109 } }, { "id": 4261, "title": "Unassisted water splitting with 9.3% efficiency by a single quantum nanostructure photoelectrode", "abstract": "To split water and produce hydrogen by white light is an excellent solution for the storage and supply of clean and sustainable energy. Efficiency and stability are the key challenges for a successful...", "citations": 12, "author_count": 7, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4267, "doi": "10.1016/j.ijhydene.2019.06.008", "umap_coordinates": { "x": 392.867919921875, "y": 133.73072814941406, "z": 205.20169067382812 }, "tsne_coordinates": { "x": 29.983150482177734, "y": 11.709157943725586, "z": -0.08951936662197113 }, "pca_coordinates": { "x": -1.5785967111587524, "y": -2.341722011566162, "z": 0.34318846464157104 }, "axis_scores": { "Quantum imaging": 0.7214938402175903, "Quantum Life Science Sensing": 0.7440349459648132, "Quantum sensing Detection": 0.7075830698013306, "Quantum sensing Metrology": 0.7016667723655701, "Quantum sensing navigation": 0.703646183013916, "Quantum sensing Position": 0.6741257905960083, "Quantum sensing Timing": 0.6346347332000732, "Quantum sensing": 0.7282540798187256, "Quantum control": 0.6904667019844055 } }, { "id": 4262, "title": "Lead-Free, Air-Stable All-Inorganic Cesium Bismuth Halide Perovskite Nanocrystals", "abstract": "Lead-based perovskite nanocrystals (NCs) have outstanding optical properties and cheap synthesis conferring them a tremendous potential in the field of optoelectronic devices. However, two critical pr...", "citations": 629, "author_count": 11, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4268, "doi": "10.1002/anie.201704739", "umap_coordinates": { "x": 391.8359069824219, "y": 133.55682373046875, "z": 205.38658142089844 }, "tsne_coordinates": { "x": 23.608278274536133, "y": -1.519079566001892, "z": -22.542774200439453 }, "pca_coordinates": { "x": -2.3255043029785156, "y": -3.2244396209716797, "z": -1.6938865184783936 }, "axis_scores": { "Quantum imaging": 0.6993505358695984, "Quantum Life Science Sensing": 0.7258118987083435, "Quantum sensing Detection": 0.6868038177490234, "Quantum sensing Metrology": 0.688391387462616, "Quantum sensing navigation": 0.6856940388679504, "Quantum sensing Position": 0.6653829216957092, "Quantum sensing Timing": 0.6619988083839417, "Quantum sensing": 0.7114618420600891, "Quantum control": 0.6982659697532654 } }, { "id": 4263, "title": "Studies of luminescent conjugated polythiophene derivatives:: Enhanced spectral discrimination of protein conformational states", "abstract": "Improved probes for amyloid fibril formation are advantageous for the early detection and better understanding of this disease-associated process. Here, we report a comparative study of eight luminesc...", "citations": 86, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4269, "doi": "10.1021/bc700180g", "umap_coordinates": { "x": 392.3670654296875, "y": 136.06866455078125, "z": 204.88153076171875 }, "tsne_coordinates": { "x": -3.897324800491333, "y": 4.050619602203369, "z": -10.923352241516113 }, "pca_coordinates": { "x": -2.8275890350341797, "y": -1.886192798614502, "z": -2.094456195831299 }, "axis_scores": { "Quantum imaging": 0.6670140624046326, "Quantum Life Science Sensing": 0.6906239986419678, "Quantum sensing Detection": 0.6621487140655518, "Quantum sensing Metrology": 0.6515326499938965, "Quantum sensing navigation": 0.6431301236152649, "Quantum sensing Position": 0.663912832736969, "Quantum sensing Timing": 0.6521368622779846, "Quantum sensing": 0.6725730895996094, "Quantum control": 0.6329066753387451 } }, { "id": 4264, "title": "X-ray scattering from two-dimensionally patterned magnetic thin film nanoscale arrays", "abstract": "Thin metallic films patterned into nanoscale periodic arrays give rise to coherent satellites on either side of the specular reflection when illuminated at grazing incidence with x-rays. We have used ...", "citations": 1, "author_count": 8, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4270, "doi": "10.1016/j.spmi.2006.06.003", "umap_coordinates": { "x": 393.3795471191406, "y": 134.24124145507812, "z": 205.94863891601562 }, "tsne_coordinates": { "x": 8.412550926208496, "y": 33.360111236572266, "z": -5.332225799560547 }, "pca_coordinates": { "x": -1.6840224266052246, "y": -1.2293927669525146, "z": 0.7953868508338928 }, "axis_scores": { "Quantum imaging": 0.7221566438674927, "Quantum Life Science Sensing": 0.6944468021392822, "Quantum sensing Detection": 0.6875470876693726, "Quantum sensing Metrology": 0.7028147578239441, "Quantum sensing navigation": 0.6873024702072144, "Quantum sensing Position": 0.7124148011207581, "Quantum sensing Timing": 0.6676359176635742, "Quantum sensing": 0.7099507451057434, "Quantum control": 0.6590062975883484 } }, { "id": 4265, "title": "Magnetoresistance in the region of the possible metal-insulator transition in icosahedral AlPdRe", "abstract": "The magnetoresistance, Delta rho(B,T)/rho(T), has been measured between 200 mK and 20 K, in magnetic fields up to 12 T for: icosahedral AlPdRe quasicrystals of nominal composition Al(70.5)Pd(21.5)Re(8...", "citations": 6, "author_count": 7, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4271, "doi": "10.1016/S0022-3093(99)00199-4", "umap_coordinates": { "x": 392.88775634765625, "y": 136.4614715576172, "z": 207.99082946777344 }, "tsne_coordinates": { "x": 4.3203558921813965, "y": -42.78219223022461, "z": 15.697394371032715 }, "pca_coordinates": { "x": -0.7172614336013794, "y": 0.8451783657073975, "z": -1.7821052074432373 }, "axis_scores": { "Quantum imaging": 0.6212084889411926, "Quantum Life Science Sensing": 0.6473724246025085, "Quantum sensing Detection": 0.6140983700752258, "Quantum sensing Metrology": 0.634304940700531, "Quantum sensing navigation": 0.6249122619628906, "Quantum sensing Position": 0.6321108341217041, "Quantum sensing Timing": 0.5991798639297485, "Quantum sensing": 0.6216398477554321, "Quantum control": 0.5701699256896973 } }, { "id": 4266, "title": "Quantum communication in optical networks:: an overview and selected recent results", "abstract": "We discuss recent work in quantum communication, and in some details present a bright, narrowband, portable, quasi-phase-matched two-crystal source generating polarization-entangled photon pairs at 80...", "citations": 3, "author_count": 10, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4272, "doi": "10.1109/ICTON.2007.4296023", "umap_coordinates": { "x": 394.8206481933594, "y": 134.48489379882812, "z": 206.41903686523438 }, "tsne_coordinates": { "x": -0.22852566838264465, "y": 6.364452838897705, "z": -37.12009811401367 }, "pca_coordinates": { "x": 0.8901855945587158, "y": 0.05808234214782715, "z": 2.0614678859710693 }, "axis_scores": { "Quantum imaging": 0.7632706165313721, "Quantum Life Science Sensing": 0.7343125939369202, "Quantum sensing Detection": 0.7559434771537781, "Quantum sensing Metrology": 0.7396221160888672, "Quantum sensing navigation": 0.7530751824378967, "Quantum sensing Position": 0.7102733254432678, "Quantum sensing Timing": 0.726594090461731, "Quantum sensing": 0.7609341740608215, "Quantum control": 0.7304880023002625 } }, { "id": 4267, "title": "A theoretical optimization of GaInP/GaInAs/GaAs based 980 nm Al-free pump laser using self-consistent numerical simulation", "abstract": "Using self-consistent two dimensional numerical simulation (LASTIP), the layer structure of the laser diodes is optimized. A ridge waveguide structure with GaInAs/GaAs and GaInAs/GaInAsP active region...", "citations": 6, "author_count": 5, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4273, "doi": "10.1109/ISDRS.2001.984497", "umap_coordinates": { "x": 393.9773864746094, "y": 134.1039581298828, "z": 206.95223999023438 }, "tsne_coordinates": { "x": -3.5563600063323975, "y": 2.6355535984039307, "z": -23.630138397216797 }, "pca_coordinates": { "x": -0.5333823561668396, "y": -0.6677412986755371, "z": 2.2521986961364746 }, "axis_scores": { "Quantum imaging": 0.700229287147522, "Quantum Life Science Sensing": 0.7068749070167542, "Quantum sensing Detection": 0.6980236172676086, "Quantum sensing Metrology": 0.7036756277084351, "Quantum sensing navigation": 0.7072246670722961, "Quantum sensing Position": 0.7017264366149902, "Quantum sensing Timing": 0.7017499208450317, "Quantum sensing": 0.7062085270881653, "Quantum control": 0.6887373924255371 } }, { "id": 4268, "title": "Protonation States of Homocitrate and Nearby Residues in Nitrogenase Studied by Computational Methods and Quantum Refinement", "abstract": "Nitrogenase is the only enzyme that can break the triple bond in N-2 to form two molecules of ammonia. The enzyme has been thoroughly studied with both experimental and computational methods, but ther...", "citations": 71, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4274, "doi": "10.1021/acs.jpcb.7b02714", "umap_coordinates": { "x": 393.0970458984375, "y": 137.13330078125, "z": 205.64198303222656 }, "tsne_coordinates": { "x": 3.841142177581787, "y": 15.406563758850098, "z": 31.123456954956055 }, "pca_coordinates": { "x": 0.16170918941497803, "y": 0.8991198539733887, "z": -2.7673795223236084 }, "axis_scores": { "Quantum imaging": 0.7212300896644592, "Quantum Life Science Sensing": 0.7238847017288208, "Quantum sensing Detection": 0.7019691467285156, "Quantum sensing Metrology": 0.7010045051574707, "Quantum sensing navigation": 0.729876697063446, "Quantum sensing Position": 0.7223304510116577, "Quantum sensing Timing": 0.7093971371650696, "Quantum sensing": 0.7245244383811951, "Quantum control": 0.7082687616348267 } }, { "id": 4269, "title": "Atherosclerotic plaque features relevant to rupture-risk detected by clinical photon-counting CT ex vivo: a proof-of-concept study", "abstract": "Background To identify subjects with rupture-prone atherosclerotic plaques before thrombotic events occur is an unmet clinical need. Thus, this proof-of-concept study aims to determine which rupture-p...", "citations": 16, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4275, "doi": "10.1186/s41747-023-00410-4", "umap_coordinates": { "x": 395.2362976074219, "y": 133.65927124023438, "z": 204.57786560058594 }, "tsne_coordinates": { "x": -6.626846790313721, "y": 23.116514205932617, "z": -13.02856159210205 }, "pca_coordinates": { "x": -3.781874418258667, "y": 3.442615509033203, "z": 1.4729900360107422 }, "axis_scores": { "Quantum imaging": 0.6864356994628906, "Quantum Life Science Sensing": 0.6840367913246155, "Quantum sensing Detection": 0.6619908213615417, "Quantum sensing Metrology": 0.6321329474449158, "Quantum sensing navigation": 0.6477609872817993, "Quantum sensing Position": 0.6481572389602661, "Quantum sensing Timing": 0.655250072479248, "Quantum sensing": 0.6542378664016724, "Quantum control": 0.6292659640312195 } }, { "id": 4270, "title": "Switch energy requirements for first- and second-order perturbations in asymmetric quantum box optical switches", "abstract": "We have studied the limits to the switching energy of electrically controlled optical absorption switches, Investigating a case with intraband transitions in asymmetric quantum boxes, it is shown that...", "citations": 5, "author_count": 5, "categories": [ "Engineering" ], "year": 1997, "topic": [ "all" ], "embedding_index": 4276, "doi": "10.1109/3.563384", "umap_coordinates": { "x": 394.11187744140625, "y": 134.93360900878906, "z": 207.68716430664062 }, "tsne_coordinates": { "x": 11.442503929138184, "y": -38.62703323364258, "z": -13.849045753479004 }, "pca_coordinates": { "x": 1.409447193145752, "y": -0.8507957458496094, "z": -0.2793850898742676 }, "axis_scores": { "Quantum imaging": 0.6906560063362122, "Quantum Life Science Sensing": 0.7152836322784424, "Quantum sensing Detection": 0.7192882299423218, "Quantum sensing Metrology": 0.7246926426887512, "Quantum sensing navigation": 0.6961601972579956, "Quantum sensing Position": 0.6878175735473633, "Quantum sensing Timing": 0.6965663433074951, "Quantum sensing": 0.727541446685791, "Quantum control": 0.697891891002655 } }, { "id": 4271, "title": "Comparison of the Agatston score acquired with photon-counting detector CT and energy-integrating detector CT: ex vivo study of cadaveric hearts", "abstract": "The purpose of this study was to compare the correlation and agreement between AS derived from either an energy-integrating detector CT (EID-CT) or a photon-counting detector CT (PCD-CT). Reproducibil...", "citations": 15, "author_count": 7, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4277, "doi": "10.1007/s10554-021-02494-8", "umap_coordinates": { "x": 395.50274658203125, "y": 132.96644592285156, "z": 204.7235107421875 }, "tsne_coordinates": { "x": -5.45545768737793, "y": 25.769073486328125, "z": -19.165292739868164 }, "pca_coordinates": { "x": -2.7353453636169434, "y": 3.8654258251190186, "z": 3.4330849647521973 }, "axis_scores": { "Quantum imaging": 0.6847174167633057, "Quantum Life Science Sensing": 0.6720947027206421, "Quantum sensing Detection": 0.6612651944160461, "Quantum sensing Metrology": 0.6488571763038635, "Quantum sensing navigation": 0.6509358286857605, "Quantum sensing Position": 0.6570412516593933, "Quantum sensing Timing": 0.6745597720146179, "Quantum sensing": 0.662097156047821, "Quantum control": 0.6217081546783447 } }, { "id": 4272, "title": "Tunable spin-polaron state in a singly clamped semiconducting carbon nanotube", "abstract": "We consider a semiconducting carbon nanotube (CNT) lying on a ferromagnetic insulating substrate with one end passing the substrate and suspended over a metallic gate. We assume that the polarized sub...", "citations": 6, "author_count": 3, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4278, "doi": "10.1103/PhysRevB.92.035423", "umap_coordinates": { "x": 393.83758544921875, "y": 135.2359161376953, "z": 208.8121337890625 }, "tsne_coordinates": { "x": -5.86850643157959, "y": -23.362878799438477, "z": 12.037041664123535 }, "pca_coordinates": { "x": 2.6121442317962646, "y": -2.6407604217529297, "z": 0.28948700428009033 }, "axis_scores": { "Quantum imaging": 0.6693752408027649, "Quantum Life Science Sensing": 0.7107102870941162, "Quantum sensing Detection": 0.6953628063201904, "Quantum sensing Metrology": 0.6736955642700195, "Quantum sensing navigation": 0.7119532823562622, "Quantum sensing Position": 0.6936444044113159, "Quantum sensing Timing": 0.669654130935669, "Quantum sensing": 0.7097083926200867, "Quantum control": 0.6931756734848022 } }, { "id": 4273, "title": "Coreless vortices in rotating two-component quantum droplets", "abstract": "The rotation of a quantum liquid induces vortices to carry angular momentum. When the system is composed of multiple components that are distinguishable from each other, vortex cores in one component ...", "citations": 5, "author_count": 7, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4279, "doi": "10.1209/0295-5075/91/30006", "umap_coordinates": { "x": 394.12396240234375, "y": 136.92149353027344, "z": 208.53555297851562 }, "tsne_coordinates": { "x": -11.073905944824219, "y": -17.17483139038086, "z": 23.534160614013672 }, "pca_coordinates": { "x": 1.3372118473052979, "y": 1.0982762575149536, "z": -2.016770839691162 }, "axis_scores": { "Quantum imaging": 0.6778576374053955, "Quantum Life Science Sensing": 0.6881670951843262, "Quantum sensing Detection": 0.6798413395881653, "Quantum sensing Metrology": 0.6625633239746094, "Quantum sensing navigation": 0.6624136567115784, "Quantum sensing Position": 0.6644806861877441, "Quantum sensing Timing": 0.67933189868927, "Quantum sensing": 0.6790712475776672, "Quantum control": 0.6897748112678528 } }, { "id": 4274, "title": "Theory of two-dimensional macroscopic quantum tunneling in a Josephson junction coupled with an LC circuit", "abstract": "We investigate classical thermal activation (TA) and macroscopic quantum tunneling (MQT) for a Josephson junction coupled with an LC circuit theoretically. The TA and MQT escape rate are calculated an...", "citations": 1, "author_count": 4, "categories": [ "Thermodynamics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4281, "doi": "10.1088/1742-6596/150/5/052105", "umap_coordinates": { "x": 394.3584899902344, "y": 135.80734252929688, "z": 208.3629913330078 }, "tsne_coordinates": { "x": 2.0961179733276367, "y": -19.08936882019043, "z": 14.46960163116455 }, "pca_coordinates": { "x": 2.5739352703094482, "y": 0.919629693031311, "z": 0.35140353441238403 }, "axis_scores": { "Quantum imaging": 0.7169906497001648, "Quantum Life Science Sensing": 0.7209658622741699, "Quantum sensing Detection": 0.7080790996551514, "Quantum sensing Metrology": 0.7010422348976135, "Quantum sensing navigation": 0.720486044883728, "Quantum sensing Position": 0.6893759965896606, "Quantum sensing Timing": 0.7150329351425171, "Quantum sensing": 0.7263840436935425, "Quantum control": 0.7237125039100647 } }, { "id": 4275, "title": "Complex analysis of gold interactions with photoemulsion nuclei at 10.7 GeV/nucleon within the framework of cascade and FRITIOF models", "abstract": "Complex analysis of Gold interaction with photoemulsion nuclei at 10.7 GeV/nucleon has been performed. The data obtained were compared with a modified FRITIOF model which allowance is made for exitati...", "citations": 43, "author_count": 105, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 4282, "doi": "10.1007/s002180050337", "umap_coordinates": { "x": 394.25823974609375, "y": 135.7755584716797, "z": 205.67747497558594 }, "tsne_coordinates": { "x": -23.218002319335938, "y": 14.34652042388916, "z": -3.7594058513641357 }, "pca_coordinates": { "x": -1.4388227462768555, "y": 1.9409990310668945, "z": -1.006173849105835 }, "axis_scores": { "Quantum imaging": 0.7072790861129761, "Quantum Life Science Sensing": 0.7147799730300903, "Quantum sensing Detection": 0.6841666102409363, "Quantum sensing Metrology": 0.6635938286781311, "Quantum sensing navigation": 0.6896815896034241, "Quantum sensing Position": 0.6626960635185242, "Quantum sensing Timing": 0.6556740403175354, "Quantum sensing": 0.685994029045105, "Quantum control": 0.6794548630714417 } }, { "id": 4276, "title": "Unexpectedly low UV-sensitivity in a bird, the budgerigar", "abstract": "Photoreceptor adaptation ensures appropriate visual responses during changing light conditions and contributes to colour constancy. We used behavioural tests to compare UV-sensitivity of budgerigars a...", "citations": 7, "author_count": 5, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4283, "doi": "10.1098/rsbl.2014.0670", "umap_coordinates": { "x": 394.47039794921875, "y": 136.5004425048828, "z": 204.46743774414062 }, "tsne_coordinates": { "x": -9.270232200622559, "y": 30.07716178894043, "z": 21.397106170654297 }, "pca_coordinates": { "x": -0.2494354248046875, "y": 2.130006790161133, "z": -0.4054628312587738 }, "axis_scores": { "Quantum imaging": 0.6572010517120361, "Quantum Life Science Sensing": 0.7297074794769287, "Quantum sensing Detection": 0.6929870843887329, "Quantum sensing Metrology": 0.6604845523834229, "Quantum sensing navigation": 0.6693771481513977, "Quantum sensing Position": 0.6624566912651062, "Quantum sensing Timing": 0.6361609101295471, "Quantum sensing": 0.6906498074531555, "Quantum control": 0.629187822341919 } }, { "id": 4277, "title": "Vertically coupled photonic crystal optical filters", "abstract": "A novel design of optical filters, based on the vertical coupling between channel waveguides and photonic crystal microcavities, is proposed. The choice of channel waveguides can be arbitrary because ...", "citations": 18, "author_count": 2, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4284, "doi": "10.1364/OL.30.001476", "umap_coordinates": { "x": 394.2347106933594, "y": 133.99093627929688, "z": 206.55859375 }, "tsne_coordinates": { "x": -0.8561210036277771, "y": -12.4207763671875, "z": -30.946008682250977 }, "pca_coordinates": { "x": -0.3569594621658325, "y": 0.053792715072631836, "z": 2.0076098442077637 }, "axis_scores": { "Quantum imaging": 0.763243556022644, "Quantum Life Science Sensing": 0.7244266271591187, "Quantum sensing Detection": 0.7361940145492554, "Quantum sensing Metrology": 0.7403936386108398, "Quantum sensing navigation": 0.7478544116020203, "Quantum sensing Position": 0.7094506025314331, "Quantum sensing Timing": 0.7082550525665283, "Quantum sensing": 0.7517977952957153, "Quantum control": 0.7453424334526062 } }, { "id": 4278, "title": "Detection probabilities for photon-counting avalanche photodiodes applied to a laser radar system", "abstract": "Arrays of photon-counting avalanche photodiodes with time-resolved readout can improve the performance of three-dimensional laser radars. A comparison of the detection and false-alarm probabilities fo...", "citations": 66, "author_count": 2, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4285, "doi": "10.1364/AO.44.005140", "umap_coordinates": { "x": 395.2422180175781, "y": 134.6795654296875, "z": 206.23780822753906 }, "tsne_coordinates": { "x": -2.733366012573242, "y": 0.18884018063545227, "z": -28.019115447998047 }, "pca_coordinates": { "x": -0.6604583859443665, "y": 1.5515639781951904, "z": 4.233541965484619 }, "axis_scores": { "Quantum imaging": 0.7095897197723389, "Quantum Life Science Sensing": 0.7104622721672058, "Quantum sensing Detection": 0.735519289970398, "Quantum sensing Metrology": 0.7055774331092834, "Quantum sensing navigation": 0.7030928730964661, "Quantum sensing Position": 0.6934467554092407, "Quantum sensing Timing": 0.7291162610054016, "Quantum sensing": 0.7181161046028137, "Quantum control": 0.6737104654312134 } }, { "id": 4279, "title": "Roadmap on perovskite light-emitting diodes", "abstract": "In recent years, the field of metal-halide perovskite emitters has rapidly emerged as a new community in solid-state lighting. Their exceptional optoelectronic properties have contributed to the rapid...", "citations": 27, "author_count": 44, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4286, "doi": "10.1088/2515-7647/ad46a6", "umap_coordinates": { "x": 393.3213806152344, "y": 134.1291961669922, "z": 205.4498291015625 }, "tsne_coordinates": { "x": -13.013436317443848, "y": 3.6810972690582275, "z": -18.089445114135742 }, "pca_coordinates": { "x": -2.578962564468384, "y": -0.1937577724456787, "z": 0.5402260422706604 }, "axis_scores": { "Quantum imaging": 0.6581554412841797, "Quantum Life Science Sensing": 0.6747962832450867, "Quantum sensing Detection": 0.6456153392791748, "Quantum sensing Metrology": 0.6691137552261353, "Quantum sensing navigation": 0.6587414145469666, "Quantum sensing Position": 0.6452561616897583, "Quantum sensing Timing": 0.6377977132797241, "Quantum sensing": 0.6732139587402344, "Quantum control": 0.66248619556427 } }, { "id": 4280, "title": "Recent applications of synchrotron radiation and neutrons in the study of soft matter", "abstract": "The broad range of applications of synchrotron and neutron scattering in the investigation of soft condensed matter is reviewed. Appropriate combinations of these techniques allow probing the structur...", "citations": 91, "author_count": 5, "categories": [ "Crystallography" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4287, "doi": "10.1080/0889311X.2016.1277212", "umap_coordinates": { "x": 395.7198791503906, "y": 134.3383026123047, "z": 205.76564025878906 }, "tsne_coordinates": { "x": -17.466516494750977, "y": 11.327563285827637, "z": -23.674753189086914 }, "pca_coordinates": { "x": -0.7186774015426636, "y": 0.94817054271698, "z": 1.6071865558624268 }, "axis_scores": { "Quantum imaging": 0.6692742705345154, "Quantum Life Science Sensing": 0.6949000358581543, "Quantum sensing Detection": 0.6618137955665588, "Quantum sensing Metrology": 0.6516174077987671, "Quantum sensing navigation": 0.6635376811027527, "Quantum sensing Position": 0.6538492441177368, "Quantum sensing Timing": 0.657150387763977, "Quantum sensing": 0.6712303757667542, "Quantum control": 0.6172332763671875 } }, { "id": 4281, "title": "Parametric resonance in tunable superconducting cavities", "abstract": "We develop a theory of parametric resonance in tunable superconducting cavities. The nonlinearity introduced by the superconducting quantum interference device (SQUID) attached to the cavity and dampi...", "citations": 119, "author_count": 3, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4288, "doi": "10.1103/PhysRevB.87.184501", "umap_coordinates": { "x": 394.3921813964844, "y": 135.63702392578125, "z": 208.6197052001953 }, "tsne_coordinates": { "x": -6.10032844543457, "y": -20.11265754699707, "z": 11.492653846740723 }, "pca_coordinates": { "x": 5.052008152008057, "y": -1.8521175384521484, "z": 0.05726569890975952 }, "axis_scores": { "Quantum imaging": 0.7080437541007996, "Quantum Life Science Sensing": 0.7251986861228943, "Quantum sensing Detection": 0.7185781002044678, "Quantum sensing Metrology": 0.7127520442008972, "Quantum sensing navigation": 0.7279781699180603, "Quantum sensing Position": 0.7049019932746887, "Quantum sensing Timing": 0.7120037078857422, "Quantum sensing": 0.7309842705726624, "Quantum control": 0.7064000964164734 } }, { "id": 4282, "title": "A diagrammatic description of the equations of motion, current and noise within the second-order von Neumann approach", "abstract": "We investigate the second-order von Neumann approach from a diagrammatic point of view and demonstrate its equivalence with the resonant tunneling approximation. The investigation of higher order diag...", "citations": 19, "author_count": 9, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4289, "doi": "10.1088/1751-8113/46/6/065301", "umap_coordinates": { "x": 393.8458557128906, "y": 137.28587341308594, "z": 207.38404846191406 }, "tsne_coordinates": { "x": -21.96919822692871, "y": -20.409181594848633, "z": 31.201135635375977 }, "pca_coordinates": { "x": 1.1091234683990479, "y": 2.069704532623291, "z": -0.19557338953018188 }, "axis_scores": { "Quantum imaging": 0.6853249073028564, "Quantum Life Science Sensing": 0.6898820400238037, "Quantum sensing Detection": 0.6732702255249023, "Quantum sensing Metrology": 0.6798791885375977, "Quantum sensing navigation": 0.7154818177223206, "Quantum sensing Position": 0.677241325378418, "Quantum sensing Timing": 0.6779338121414185, "Quantum sensing": 0.6841257810592651, "Quantum control": 0.6826159954071045 } }, { "id": 4283, "title": "Coupled two-component atomic gas in an optical lattice", "abstract": "We present an ab initio study of the ground state of an ideal coupled two-component gas of ultracold atoms in a one-dimensional optical lattice, either bosons or fermions. Due to the internal two-leve...", "citations": 9, "author_count": 3, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4290, "doi": "10.1103/PhysRevA.78.063618", "umap_coordinates": { "x": 394.7923889160156, "y": 135.86447143554688, "z": 208.4446563720703 }, "tsne_coordinates": { "x": -17.05668830871582, "y": -23.13459014892578, "z": 17.665729522705078 }, "pca_coordinates": { "x": 3.0706849098205566, "y": -1.1721558570861816, "z": -0.06697279214859009 }, "axis_scores": { "Quantum imaging": 0.7399283051490784, "Quantum Life Science Sensing": 0.7351033687591553, "Quantum sensing Detection": 0.7438576817512512, "Quantum sensing Metrology": 0.7215052843093872, "Quantum sensing navigation": 0.729741632938385, "Quantum sensing Position": 0.7128022909164429, "Quantum sensing Timing": 0.7049912810325623, "Quantum sensing": 0.7497116923332214, "Quantum control": 0.7095315456390381 } }, { "id": 4284, "title": "A pre-quantum classical statistical model with infinite-dimensional phase space", "abstract": "We study the problem of correspondence between classical and quantum statistical models. We show that (contrary to a rather common opinion) it is possible to construct a natural pre-quantum classical ...", "citations": 99, "author_count": 2, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4291, "doi": "10.1088/0305-4470/38/41/015", "umap_coordinates": { "x": 395.21270751953125, "y": 137.59475708007812, "z": 206.40847778320312 }, "tsne_coordinates": { "x": -20.608949661254883, "y": 4.25888204574585, "z": 14.170022010803223 }, "pca_coordinates": { "x": 3.458543300628662, "y": 4.5410919189453125, "z": 0.9320124983787537 }, "axis_scores": { "Quantum imaging": 0.753201961517334, "Quantum Life Science Sensing": 0.7419524192810059, "Quantum sensing Detection": 0.7353142499923706, "Quantum sensing Metrology": 0.7215531468391418, "Quantum sensing navigation": 0.7533127069473267, "Quantum sensing Position": 0.7282549142837524, "Quantum sensing Timing": 0.7197554111480713, "Quantum sensing": 0.7488711476325989, "Quantum control": 0.7253310680389404 } }, { "id": 4285, "title": "Compact microwave photonic transversal filter with 40-dB sidelobe suppression", "abstract": "A compact mass-production ready 18-tap microwave photonic filter based on fiber Bragg gratings which slice a light source spectrum is presented. The operation frequency, 3-dB bandwidth, sidelobe suppr...", "citations": 33, "author_count": 4, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4292, "doi": "10.1109/LPT.2004.842384", "umap_coordinates": { "x": 394.4969177246094, "y": 133.62551879882812, "z": 206.77671813964844 }, "tsne_coordinates": { "x": 4.991611003875732, "y": -5.311773777008057, "z": -36.706966400146484 }, "pca_coordinates": { "x": -1.0682439804077148, "y": 0.6053593158721924, "z": 3.0444939136505127 }, "axis_scores": { "Quantum imaging": 0.6750600337982178, "Quantum Life Science Sensing": 0.6679626107215881, "Quantum sensing Detection": 0.6665186285972595, "Quantum sensing Metrology": 0.6672027707099915, "Quantum sensing navigation": 0.661453127861023, "Quantum sensing Position": 0.6467757821083069, "Quantum sensing Timing": 0.653890073299408, "Quantum sensing": 0.6739049553871155, "Quantum control": 0.6517935991287231 } }, { "id": 4286, "title": "Initial human studies with single-photon emission tomography using iodine-123 labelled 3-(5-cyclopropyl-1,2,4-oxadiazo-3-yl)-7-iodo-5,6-dihydro-5-methyl-6-oxo-4H-imidazo[1,5-a][1,4]-benzodiazepine (NNC 13-8241)", "abstract": "The iodine-123 labelled ligand 3-(5-cyclopropyl-1,2,4-oxadiazo-3-yl)-7-iodo-5,6-dihydro-5-methyl-6-oxo-4H-imidazo[1,5-a][1,4]-benzodiazepine ([I-123]NNC 13-8241) was evaluated as a probe for in vivo i...", "citations": 12, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4293, "doi": "10.1007/BF00843709", "umap_coordinates": { "x": 395.3363952636719, "y": 133.82435607910156, "z": 204.70782470703125 }, "tsne_coordinates": { "x": -9.492178916931152, "y": 23.482128143310547, "z": -2.6401023864746094 }, "pca_coordinates": { "x": -2.778855323791504, "y": 2.8028392791748047, "z": 3.2351927757263184 }, "axis_scores": { "Quantum imaging": 0.7048135995864868, "Quantum Life Science Sensing": 0.6641272902488708, "Quantum sensing Detection": 0.6699537634849548, "Quantum sensing Metrology": 0.6518775820732117, "Quantum sensing navigation": 0.6866777539253235, "Quantum sensing Position": 0.6534700989723206, "Quantum sensing Timing": 0.6418809294700623, "Quantum sensing": 0.6731887459754944, "Quantum control": 0.6344120502471924 } }, { "id": 4287, "title": "Tailoring Auger Recombination Dynamics in CsPbI3 Perovskite Nanocrystals via Transition Metal Doping", "abstract": "Auger recombination is a pivotal process for semiconductor nanocrystals (NCs), significantly affecting charge carrier generation and collection in optoelectronic devices. This process depends mainly o...", "citations": 9, "author_count": 7, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4294, "doi": "10.1021/acs.nanolett.4c02032", "umap_coordinates": { "x": 391.5606384277344, "y": 134.35000610351562, "z": 206.1238555908203 }, "tsne_coordinates": { "x": 21.408113479614258, "y": -3.4923930168151855, "z": -17.214746475219727 }, "pca_coordinates": { "x": -0.9166576862335205, "y": -4.248855113983154, "z": -1.5979883670806885 }, "axis_scores": { "Quantum imaging": 0.7061901688575745, "Quantum Life Science Sensing": 0.7032465934753418, "Quantum sensing Detection": 0.6966442465782166, "Quantum sensing Metrology": 0.6700862646102905, "Quantum sensing navigation": 0.6982487440109253, "Quantum sensing Position": 0.6730085015296936, "Quantum sensing Timing": 0.6883983016014099, "Quantum sensing": 0.7026843428611755, "Quantum control": 0.6973748207092285 } }, { "id": 4288, "title": "Attosecond dynamics of multi-channel single photon ionization", "abstract": "Photoionization of atoms and molecules is one of the fastest processes in nature. The understanding of the ultrafast temporal dynamics of this process often requires the characterization of the differ...", "citations": 36, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4295, "doi": "10.1038/s41467-022-32780-5", "umap_coordinates": { "x": 394.06964111328125, "y": 134.6316375732422, "z": 206.84043884277344 }, "tsne_coordinates": { "x": 0.8530794382095337, "y": 0.7881020903587341, "z": 11.579475402832031 }, "pca_coordinates": { "x": -0.7349677681922913, "y": -0.8805623054504395, "z": 1.5307369232177734 }, "axis_scores": { "Quantum imaging": 0.715674877166748, "Quantum Life Science Sensing": 0.7248390913009644, "Quantum sensing Detection": 0.7092342972755432, "Quantum sensing Metrology": 0.6924397945404053, "Quantum sensing navigation": 0.6768965721130371, "Quantum sensing Position": 0.6626307368278503, "Quantum sensing Timing": 0.7038434147834778, "Quantum sensing": 0.7116798162460327, "Quantum control": 0.6861876845359802 } }, { "id": 4289, "title": "Order-Stability in Complex Biological, Social, and AI-Systems from Quantum Information Theory", "abstract": "This paper is our attempt, on the basis of physical theory, to bring more clarification on the question What is life? formulated in the well-known book of Schrodinger in 1944. According to Schrodinger...", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4296, "doi": "10.3390/e23030355", "umap_coordinates": { "x": 394.9083557128906, "y": 137.62985229492188, "z": 205.85305786132812 }, "tsne_coordinates": { "x": -29.610469818115234, "y": 10.414522171020508, "z": 16.547182083129883 }, "pca_coordinates": { "x": 1.4848580360412598, "y": 1.9995636940002441, "z": -4.09388542175293 }, "axis_scores": { "Quantum imaging": 0.7492890954017639, "Quantum Life Science Sensing": 0.8002268075942993, "Quantum sensing Detection": 0.7459873557090759, "Quantum sensing Metrology": 0.7170245051383972, "Quantum sensing navigation": 0.7545351386070251, "Quantum sensing Position": 0.7192304134368896, "Quantum sensing Timing": 0.692578911781311, "Quantum sensing": 0.7554634809494019, "Quantum control": 0.7500025033950806 } }, { "id": 4290, "title": "Stationary optomechanical entanglement between a mechanical oscillator and its measurement apparatus", "abstract": "We provide an argument to infer stationary entanglement between light and a mechanical oscillator based on continuous measurement of light only. We propose an experimentally realizable scheme involvin...", "citations": 33, "author_count": 13, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4297, "doi": "10.1103/PhysRevResearch.2.033244", "umap_coordinates": { "x": 395.61572265625, "y": 136.46185302734375, "z": 207.88095092773438 }, "tsne_coordinates": { "x": -21.470365524291992, "y": -18.932607650756836, "z": -1.7908166646957397 }, "pca_coordinates": { "x": 4.416521072387695, "y": 2.1396217346191406, "z": 0.705700695514679 }, "axis_scores": { "Quantum imaging": 0.7333887815475464, "Quantum Life Science Sensing": 0.7539350986480713, "Quantum sensing Detection": 0.7458707690238953, "Quantum sensing Metrology": 0.7381470799446106, "Quantum sensing navigation": 0.7636758685112, "Quantum sensing Position": 0.7646743655204773, "Quantum sensing Timing": 0.7229679822921753, "Quantum sensing": 0.7530026435852051, "Quantum control": 0.7170689702033997 } }, { "id": 4291, "title": "Highly luminescent lanthanide complexes sensitised by tertiary amide-linked carbostyril antennae", "abstract": "Carbostyrils are among the most widely used sensitising antennae for luminescent lanthanides; they afford bright complexes with Eu and Tb, and can also sensitise the emissions of the less commonly use...", "citations": 25, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4298, "doi": "10.1039/c8dt01270a", "umap_coordinates": { "x": 391.7216491699219, "y": 135.17909240722656, "z": 204.815185546875 }, "tsne_coordinates": { "x": 7.253555774688721, "y": -4.600128650665283, "z": -17.3485107421875 }, "pca_coordinates": { "x": -3.5641016960144043, "y": -2.7756800651550293, "z": -1.8865444660186768 }, "axis_scores": { "Quantum imaging": 0.6389575600624084, "Quantum Life Science Sensing": 0.6502748131752014, "Quantum sensing Detection": 0.625957727432251, "Quantum sensing Metrology": 0.6028319597244263, "Quantum sensing navigation": 0.6107733249664307, "Quantum sensing Position": 0.6032183766365051, "Quantum sensing Timing": 0.6135826706886292, "Quantum sensing": 0.6361779570579529, "Quantum control": 0.6180024147033691 } }, { "id": 4292, "title": "Template-directed nucleation and growth of CdS nanocrystal: the role of helical and nonhelical nanofibers on their shape and size", "abstract": "This study describes the use of chiral nature of synthetic self-assembled nanofibers for nucleation and growth of Cadmium sulfide (CdS) nanocrystals with different sizes and shapes in room temperature...", "citations": 2, "author_count": 3, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4299, "doi": "10.1007/s11051-010-9851-3", "umap_coordinates": { "x": 392.71368408203125, "y": 134.02606201171875, "z": 206.1758270263672 }, "tsne_coordinates": { "x": 30.85024642944336, "y": -2.2330844402313232, "z": -1.3668233156204224 }, "pca_coordinates": { "x": -3.7787811756134033, "y": -1.5581626892089844, "z": -0.8880727291107178 }, "axis_scores": { "Quantum imaging": 0.6574702858924866, "Quantum Life Science Sensing": 0.6820652484893799, "Quantum sensing Detection": 0.6510297656059265, "Quantum sensing Metrology": 0.6430539488792419, "Quantum sensing navigation": 0.6445976495742798, "Quantum sensing Position": 0.6436883211135864, "Quantum sensing Timing": 0.6346640586853027, "Quantum sensing": 0.6598883867263794, "Quantum control": 0.6704710125923157 } }, { "id": 4293, "title": "The ionospheric oxygen green airglow:: Electron temperature dependence and aeronomical implications.", "abstract": "The laboratory measurement of processes involved in terrestrial airglows is essential in developing diagnostic tools of the dynamics and photochemistry of the upper atmosphere. Dissociative electron r...", "citations": 22, "author_count": 12, "categories": [ "Geology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4300, "doi": "10.1029/1999GL010711", "umap_coordinates": { "x": 394.1742858886719, "y": 135.8749237060547, "z": 204.57357788085938 }, "tsne_coordinates": { "x": -15.773908615112305, "y": 25.325523376464844, "z": 11.97917652130127 }, "pca_coordinates": { "x": -2.005385398864746, "y": 0.6303281784057617, "z": -2.414102077484131 }, "axis_scores": { "Quantum imaging": 0.6845319867134094, "Quantum Life Science Sensing": 0.7214362025260925, "Quantum sensing Detection": 0.6713384985923767, "Quantum sensing Metrology": 0.6662043929100037, "Quantum sensing navigation": 0.6988523602485657, "Quantum sensing Position": 0.6906211972236633, "Quantum sensing Timing": 0.675652027130127, "Quantum sensing": 0.6846396327018738, "Quantum control": 0.6640998125076294 } }, { "id": 4294, "title": "Photoelectrochemical response of GaN, InGaN, and GaNP nanowire ensembles", "abstract": "The photoelectrochemical responses of GaN, GaNP, and InGaN nanowire ensembles are investigated by the electrical bias dependent photoluminescence, photocurrent, and spin trapping experiments. The resu...", "citations": 4, "author_count": 9, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4301, "doi": "10.1063/1.5024334", "umap_coordinates": { "x": 392.955322265625, "y": 133.48934936523438, "z": 208.17642211914062 }, "tsne_coordinates": { "x": 25.100313186645508, "y": -18.111923217773438, "z": -6.539868354797363 }, "pca_coordinates": { "x": -0.03695023059844971, "y": -5.071589469909668, "z": 1.650341510772705 }, "axis_scores": { "Quantum imaging": 0.721833348274231, "Quantum Life Science Sensing": 0.741268515586853, "Quantum sensing Detection": 0.7321563959121704, "Quantum sensing Metrology": 0.7211273312568665, "Quantum sensing navigation": 0.7088519930839539, "Quantum sensing Position": 0.6912025809288025, "Quantum sensing Timing": 0.6705953478813171, "Quantum sensing": 0.7435581684112549, "Quantum control": 0.6917474865913391 } }, { "id": 4295, "title": "Vibronic origin of long-lived coherence in an artificial molecular light harvester", "abstract": "Natural and artificial light-harvesting processes have recently gained new interest. Signatures of long-lasting coherence in spectroscopic signals of biological systems have been repeatedly observed, ...", "citations": 160, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4302, "doi": "10.1038/ncomms8755", "umap_coordinates": { "x": 393.7604675292969, "y": 135.9852752685547, "z": 207.3740997314453 }, "tsne_coordinates": { "x": 9.77075481414795, "y": -3.6574528217315674, "z": 16.277908325195312 }, "pca_coordinates": { "x": 1.7212636470794678, "y": -0.5367889404296875, "z": -1.24379301071167 }, "axis_scores": { "Quantum imaging": 0.7019174695014954, "Quantum Life Science Sensing": 0.7466005682945251, "Quantum sensing Detection": 0.7043338418006897, "Quantum sensing Metrology": 0.6730362772941589, "Quantum sensing navigation": 0.7055264711380005, "Quantum sensing Position": 0.6699649691581726, "Quantum sensing Timing": 0.6992250084877014, "Quantum sensing": 0.7165242433547974, "Quantum control": 0.6918031573295593 } }, { "id": 4296, "title": "Nonlinear photonics properties of porphyrins nanocomposites and self-assembled porphyrins", "abstract": "Two major reasons limit porphyrins photonic applications: (i) the difficulty of handling them in liquid solutions and (ii) their degradation with long exposure to light. This necessitates the use of a...", "citations": 25, "author_count": 8, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4303, "doi": "10.1142/S1088424612501076", "umap_coordinates": { "x": 393.3320007324219, "y": 134.61813354492188, "z": 206.20425415039062 }, "tsne_coordinates": { "x": 29.6263484954834, "y": -1.734308123588562, "z": 1.4908071756362915 }, "pca_coordinates": { "x": -1.4721934795379639, "y": -2.345083713531494, "z": 0.5225366950035095 }, "axis_scores": { "Quantum imaging": 0.734160840511322, "Quantum Life Science Sensing": 0.7445456981658936, "Quantum sensing Detection": 0.7132670879364014, "Quantum sensing Metrology": 0.7102460861206055, "Quantum sensing navigation": 0.7165430188179016, "Quantum sensing Position": 0.6928424835205078, "Quantum sensing Timing": 0.6621829867362976, "Quantum sensing": 0.7325193285942078, "Quantum control": 0.6982887983322144 } }, { "id": 4297, "title": "Effects of polarization on laser-induced electron-ion recombination", "abstract": "The polarization dependence of laser-induced radiative recombination (LIR) to D+ ions was investigated in the electron cooler of the CRYRING storage ring. The LIR gain as a function of wavelength into...", "citations": 10, "author_count": 7, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4304, "doi": "10.1103/PhysRevA.83.032702", "umap_coordinates": { "x": 394.54949951171875, "y": 135.6248321533203, "z": 207.8153076171875 }, "tsne_coordinates": { "x": -4.048891067504883, "y": -13.301782608032227, "z": -1.5282930135726929 }, "pca_coordinates": { "x": 1.8792076110839844, "y": -1.5256893634796143, "z": -1.1783652305603027 }, "axis_scores": { "Quantum imaging": 0.711840033531189, "Quantum Life Science Sensing": 0.7130680680274963, "Quantum sensing Detection": 0.6964420080184937, "Quantum sensing Metrology": 0.6621029376983643, "Quantum sensing navigation": 0.6753168702125549, "Quantum sensing Position": 0.6634182929992676, "Quantum sensing Timing": 0.6476176977157593, "Quantum sensing": 0.7006321549415588, "Quantum control": 0.6779101490974426 } }, { "id": 4298, "title": "Constant-cutoff approach to electric seagull terms in the soliton Hamiltonian", "abstract": "We suggest a quantum stabilization method for the SU(2) sigma-model, based on the constant-cutoff limit of the cutoff quantization method developed by Balakrishna et al., which avoids the difficulties...", "citations": 5, "author_count": 2, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 4305, "doi": "10.1007/BF02435743", "umap_coordinates": { "x": 394.05413818359375, "y": 136.95872497558594, "z": 207.8788604736328 }, "tsne_coordinates": { "x": -19.242767333984375, "y": 34.88877868652344, "z": 12.13713264465332 }, "pca_coordinates": { "x": 1.2387537956237793, "y": 0.6421836614608765, "z": -3.8070781230926514 }, "axis_scores": { "Quantum imaging": 0.6305535435676575, "Quantum Life Science Sensing": 0.6665285229682922, "Quantum sensing Detection": 0.6250724792480469, "Quantum sensing Metrology": 0.6043429970741272, "Quantum sensing navigation": 0.6630997061729431, "Quantum sensing Position": 0.628661036491394, "Quantum sensing Timing": 0.6143223643302917, "Quantum sensing": 0.6316803693771362, "Quantum control": 0.648055911064148 } }, { "id": 4299, "title": "Gauge freedom in observables and Landsberg's nonadiabatic geometric phase: Pumping spectroscopy of interacting open quantum systems", "abstract": "We set up a general density-operator approach to geometric steady-state pumping through slowly driven open quantum systems. This approach applies to strongly interacting systems that are weakly couple...", "citations": 23, "author_count": 4, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4306, "doi": "10.1103/PhysRevB.95.155431", "umap_coordinates": { "x": 394.94244384765625, "y": 136.7228546142578, "z": 207.82208251953125 }, "tsne_coordinates": { "x": -8.91024398803711, "y": -28.739017486572266, "z": 2.6418826580047607 }, "pca_coordinates": { "x": 4.292418956756592, "y": 0.6244304180145264, "z": 0.8918730616569519 }, "axis_scores": { "Quantum imaging": 0.7574388384819031, "Quantum Life Science Sensing": 0.7521058320999146, "Quantum sensing Detection": 0.7550411224365234, "Quantum sensing Metrology": 0.7471044063568115, "Quantum sensing navigation": 0.7656604647636414, "Quantum sensing Position": 0.7236530780792236, "Quantum sensing Timing": 0.7210966348648071, "Quantum sensing": 0.7627257108688354, "Quantum control": 0.7358078360557556 } }, { "id": 4300, "title": "Ray scattering in fiber-reinforced transparent wood composites - wood microstructural effects and virtual camera simulation", "abstract": "Transparent wood (TW) is a sustainable composite material with high optical transmittance and excellent mechanical properties. Nanoparticles, dyes and quantum dots can be added in a controlled manner ...", "citations": 2, "author_count": 4, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4307, "doi": "10.1016/j.optmat.2025.116953", "umap_coordinates": { "x": 394.3936767578125, "y": 134.23939514160156, "z": 204.64797973632812 }, "tsne_coordinates": { "x": 18.421228408813477, "y": 34.923988342285156, "z": -2.5547680854797363 }, "pca_coordinates": { "x": -3.3825440406799316, "y": 1.979231595993042, "z": 1.264068365097046 }, "axis_scores": { "Quantum imaging": 0.710782527923584, "Quantum Life Science Sensing": 0.7176686525344849, "Quantum sensing Detection": 0.6804744005203247, "Quantum sensing Metrology": 0.6868259906768799, "Quantum sensing navigation": 0.6851011514663696, "Quantum sensing Position": 0.6720967292785645, "Quantum sensing Timing": 0.6610322594642639, "Quantum sensing": 0.6998361349105835, "Quantum control": 0.6576918363571167 } }, { "id": 4301, "title": "Phenylalanine stacking enhances the red fluorescence of biliverdin IXα on UV excitation in sandercyanin fluorescent protein", "abstract": "Biliverdin IX alpha (BV) binds to several prokaryotic and eukaryotic proteins. How nature exploits the versatility of BV's properties is not fully understood. Unlike free BV, the Sandercyanin fluoresc...", "citations": 4, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4308, "doi": "10.1002/1873-3468.14281", "umap_coordinates": { "x": 393.77825927734375, "y": 135.46592712402344, "z": 204.23037719726562 }, "tsne_coordinates": { "x": -0.4494886100292206, "y": 21.466236114501953, "z": -3.6152539253234863 }, "pca_coordinates": { "x": -2.292728900909424, "y": -0.5919153690338135, "z": -0.7217546701431274 }, "axis_scores": { "Quantum imaging": 0.7297916412353516, "Quantum Life Science Sensing": 0.7062666416168213, "Quantum sensing Detection": 0.6822225451469421, "Quantum sensing Metrology": 0.676201343536377, "Quantum sensing navigation": 0.6813238263130188, "Quantum sensing Position": 0.6733695864677429, "Quantum sensing Timing": 0.6664394736289978, "Quantum sensing": 0.7012791633605957, "Quantum control": 0.6859606504440308 } }, { "id": 4302, "title": "High mobility organic semiconductor for constructing high efficiency carbon nitride heterojunction photocatalysts", "abstract": "Graphitic carbon nitride (CN) has attracted worldwide attention due to its low-cost, environmental friendliness and tunable structures. However, the CN photocatalyst still suffers from low charge sepa...", "citations": 13, "author_count": 11, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4309, "doi": "10.1039/d0tc05123c", "umap_coordinates": { "x": 391.9145812988281, "y": 134.39544677734375, "z": 205.54808044433594 }, "tsne_coordinates": { "x": 11.48420524597168, "y": 3.7261297702789307, "z": -13.290830612182617 }, "pca_coordinates": { "x": -1.2946414947509766, "y": -3.155604362487793, "z": -0.46231693029403687 }, "axis_scores": { "Quantum imaging": 0.6816489696502686, "Quantum Life Science Sensing": 0.6882598400115967, "Quantum sensing Detection": 0.6743819713592529, "Quantum sensing Metrology": 0.6599058508872986, "Quantum sensing navigation": 0.683033287525177, "Quantum sensing Position": 0.6453696489334106, "Quantum sensing Timing": 0.643509030342102, "Quantum sensing": 0.6837224960327148, "Quantum control": 0.6763803958892822 } }, { "id": 4303, "title": "Non-exponential decay of a giant artificial atom", "abstract": "In quantum optics, light-matter interaction has conventionally been studied using small atoms interacting with electromagnetic fields with wavelength several orders of magnitude larger than the atomic...", "citations": 215, "author_count": 6, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4310, "doi": "10.1038/s41567-019-0605-6", "umap_coordinates": { "x": 394.5614318847656, "y": 136.3276824951172, "z": 207.60806274414062 }, "tsne_coordinates": { "x": -16.969375610351562, "y": -24.37082862854004, "z": -11.680150985717773 }, "pca_coordinates": { "x": 1.0552124977111816, "y": 0.9908308982849121, "z": -1.5526947975158691 }, "axis_scores": { "Quantum imaging": 0.7146207690238953, "Quantum Life Science Sensing": 0.7605991363525391, "Quantum sensing Detection": 0.7290396690368652, "Quantum sensing Metrology": 0.6945028305053711, "Quantum sensing navigation": 0.7153827548027039, "Quantum sensing Position": 0.6831358671188354, "Quantum sensing Timing": 0.6788815855979919, "Quantum sensing": 0.7300271391868591, "Quantum control": 0.6909787654876709 } }, { "id": 4304, "title": "Advances in the Application of Perovskite Materials", "abstract": "Nowadays, the soar of photovoltaic performance of perovskite solar cells has set off a fever in the study of metal halide perovskite materials. The excellent optoelectronic properties and defect toler...", "citations": 366, "author_count": 41, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4311, "doi": "10.1007/s40820-023-01140-3", "umap_coordinates": { "x": 393.3519592285156, "y": 134.2461700439453, "z": 205.36474609375 }, "tsne_coordinates": { "x": 11.164901733398438, "y": -4.39253044128418, "z": -16.9886531829834 }, "pca_coordinates": { "x": -3.978710174560547, "y": -1.527465581893921, "z": -1.3712538480758667 }, "axis_scores": { "Quantum imaging": 0.6828144788742065, "Quantum Life Science Sensing": 0.6932154893875122, "Quantum sensing Detection": 0.6537481546401978, "Quantum sensing Metrology": 0.6643221378326416, "Quantum sensing navigation": 0.660277247428894, "Quantum sensing Position": 0.6661593317985535, "Quantum sensing Timing": 0.6508629322052002, "Quantum sensing": 0.6751331686973572, "Quantum control": 0.6658280491828918 } }, { "id": 4305, "title": "Experimental simulation of symmetry-protected higher-order exceptional points with single photons", "abstract": "Exceptional points (EPs) of non-Hermitian (NH) systems have recently attracted increasing attention due to their rich phenomenology and intriguing applications. Compared to the predominantly studied s...", "citations": 31, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4312, "doi": "10.1126/sciadv.adi0732", "umap_coordinates": { "x": 395.32666015625, "y": 134.24864196777344, "z": 207.34735107421875 }, "tsne_coordinates": { "x": -12.024776458740234, "y": -3.0870227813720703, "z": 1.3028268814086914 }, "pca_coordinates": { "x": 0.8799188137054443, "y": 0.9092855453491211, "z": 3.573975086212158 }, "axis_scores": { "Quantum imaging": 0.7052258253097534, "Quantum Life Science Sensing": 0.6981866359710693, "Quantum sensing Detection": 0.6834293007850647, "Quantum sensing Metrology": 0.6950172185897827, "Quantum sensing navigation": 0.6930801868438721, "Quantum sensing Position": 0.6889983415603638, "Quantum sensing Timing": 0.6920762658119202, "Quantum sensing": 0.6887083649635315, "Quantum control": 0.6655023097991943 } }, { "id": 4306, "title": "Maximized Optical Absorption in Ultrathin Films and Its Application to Plasmon-Based Two-Dimensional Photovoltaics", "abstract": "For ultrathin films of a given material, light absorption is proportional to the film thickness. However, if the optical constants of the film are chosen in an optimal way, light absorption can be hig...", "citations": 107, "author_count": 4, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4313, "doi": "10.1021/nl101929j", "umap_coordinates": { "x": 392.5573425292969, "y": 133.9281463623047, "z": 206.3116912841797 }, "tsne_coordinates": { "x": 11.453863143920898, "y": -14.147078514099121, "z": -12.189555168151855 }, "pca_coordinates": { "x": -3.5076940059661865, "y": -3.623828411102295, "z": 0.41922420263290405 }, "axis_scores": { "Quantum imaging": 0.6703000068664551, "Quantum Life Science Sensing": 0.6797490119934082, "Quantum sensing Detection": 0.6627004742622375, "Quantum sensing Metrology": 0.671220064163208, "Quantum sensing navigation": 0.641136884689331, "Quantum sensing Position": 0.6603550910949707, "Quantum sensing Timing": 0.6232744455337524, "Quantum sensing": 0.6705033779144287, "Quantum control": 0.6276063919067383 } }, { "id": 4307, "title": "Tracking ultrafast excited-state bond-twisting motion in solution close to the Franck-Condon point", "abstract": "Applying optimal control to photoinduced trans-cis isomerization in condensed phase, the dynamics of bond-twisting motion of 1,1'-diethyl-4,4'-cyanine in methanol and propanol is revealed. The shape o...", "citations": 26, "author_count": 4, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4314, "doi": "10.1021/jp068652i", "umap_coordinates": { "x": 392.8472900390625, "y": 136.70765686035156, "z": 205.96153259277344 }, "tsne_coordinates": { "x": -1.6766929626464844, "y": -0.39001473784446716, "z": -3.207174062728882 }, "pca_coordinates": { "x": -0.14056086540222168, "y": 0.5001800060272217, "z": -2.527651786804199 }, "axis_scores": { "Quantum imaging": 0.7037095427513123, "Quantum Life Science Sensing": 0.7162259221076965, "Quantum sensing Detection": 0.6894606947898865, "Quantum sensing Metrology": 0.6779505014419556, "Quantum sensing navigation": 0.714209258556366, "Quantum sensing Position": 0.7284217476844788, "Quantum sensing Timing": 0.7088010907173157, "Quantum sensing": 0.6980472803115845, "Quantum control": 0.6783723831176758 } }, { "id": 4308, "title": "Cooling-rate dependence of the antiferromagnetic domain structure of a single-crystal charge-ordered manganite - art. no. 132416", "abstract": "The low-temperature phase of single crystals of Nd0.5Ca0.5MnO3 and Gd0.5Ca0.5MnO3 manganites is investigated by superconducting quantum interference device magnetometry. Nd0.5Ca0.5MnO3 undergoes a cha...", "citations": 7, "author_count": 5, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4315, "doi": "10.1103/PhysRevB.65.132416", "umap_coordinates": { "x": 394.306396484375, "y": 135.01766967773438, "z": 208.8833770751953 }, "tsne_coordinates": { "x": -2.1567530632019043, "y": -31.709524154663086, "z": -14.779021263122559 }, "pca_coordinates": { "x": 2.4731717109680176, "y": -1.9750924110412598, "z": -0.9495097398757935 }, "axis_scores": { "Quantum imaging": 0.670352578163147, "Quantum Life Science Sensing": 0.6897663474082947, "Quantum sensing Detection": 0.6618308424949646, "Quantum sensing Metrology": 0.677771806716919, "Quantum sensing navigation": 0.6662759184837341, "Quantum sensing Position": 0.6537541151046753, "Quantum sensing Timing": 0.6632903814315796, "Quantum sensing": 0.6728893518447876, "Quantum control": 0.6623556017875671 } }, { "id": 4309, "title": "Nuclear magnetic resonance spectrometer with a frequency range extended below the megahertz region", "abstract": "A conventional nuclear magnetic resonance (NMR) spectrometer with an original low-frequency limit of 2 MHz and equipped with an electromagnet is rebuilt to allow performing NMR experiments at resonanc...", "citations": 6, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4316, "doi": "10.1063/1.1150222", "umap_coordinates": { "x": 393.4391174316406, "y": 136.06785583496094, "z": 207.67527770996094 }, "tsne_coordinates": { "x": 2.4541642665863037, "y": -33.952293395996094, "z": 29.50037956237793 }, "pca_coordinates": { "x": 0.9716155529022217, "y": 1.1633484363555908, "z": 0.5557639002799988 }, "axis_scores": { "Quantum imaging": 0.688622772693634, "Quantum Life Science Sensing": 0.7162017226219177, "Quantum sensing Detection": 0.6944289207458496, "Quantum sensing Metrology": 0.7169970273971558, "Quantum sensing navigation": 0.6774972081184387, "Quantum sensing Position": 0.6612791419029236, "Quantum sensing Timing": 0.65924072265625, "Quantum sensing": 0.7088242769241333, "Quantum control": 0.6658921241760254 } }, { "id": 4310, "title": "EFFECTS OF SO2 ON PHOTOSYNTHESIS AND RIBULOSE BISPHOSPHATE CARBOXYLASE IN PINE TREE SEEDLINGS", "abstract": "Fumigations of 4-7 wk old seedlings of P. sylvestris with .apprx. 400 .mu.g SO2 m-3 for 4-5 days resulted in a decrease in net photosynthetic rate and in the levels of ribulose bisphosphate carboxylas...", "citations": 31, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1982, "topic": [ "all" ], "embedding_index": 4317, "doi": "10.1111/j.1399-3054.1982.tb06319.x", "umap_coordinates": { "x": 394.3830261230469, "y": 135.8917694091797, "z": 203.8419952392578 }, "tsne_coordinates": { "x": 8.448140144348145, "y": 33.06094741821289, "z": 12.941428184509277 }, "pca_coordinates": { "x": -2.313037395477295, "y": 1.2132282257080078, "z": -0.7059903144836426 }, "axis_scores": { "Quantum imaging": 0.707750141620636, "Quantum Life Science Sensing": 0.7452946901321411, "Quantum sensing Detection": 0.7114380598068237, "Quantum sensing Metrology": 0.7124746441841125, "Quantum sensing navigation": 0.699105441570282, "Quantum sensing Position": 0.6982983350753784, "Quantum sensing Timing": 0.7132251858711243, "Quantum sensing": 0.7308720350265503, "Quantum control": 0.7120122909545898 } }, { "id": 4311, "title": "ELECTRONIC AND CHEMICAL-STRUCTURE OF CONJUGATED POLYMERS AND THEIR INTERFACES - EXPERIMENT, THEORY AND A GLANCE TOWARD THE FUTURE", "abstract": "A brief overview of measurement methods and quantum chemical calculation techniques for studies of the chemical and electronic structure of conjugated polymer surfaces and interfaces with metals is pr...", "citations": 6, "author_count": 3, "categories": [ "Materials Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 4318, "doi": "10.1016/0379-6779(94)90005-1", "umap_coordinates": { "x": 393.5149230957031, "y": 135.716796875, "z": 205.43887329101562 }, "tsne_coordinates": { "x": 14.897233009338379, "y": 17.286685943603516, "z": -1.656360149383545 }, "pca_coordinates": { "x": -0.35507822036743164, "y": 0.6336826086044312, "z": -0.8347151279449463 }, "axis_scores": { "Quantum imaging": 0.7157917022705078, "Quantum Life Science Sensing": 0.7563692331314087, "Quantum sensing Detection": 0.6972049474716187, "Quantum sensing Metrology": 0.692953884601593, "Quantum sensing navigation": 0.7125849723815918, "Quantum sensing Position": 0.720194935798645, "Quantum sensing Timing": 0.6839727163314819, "Quantum sensing": 0.7083920836448669, "Quantum control": 0.6858741641044617 } }, { "id": 4312, "title": "Isolated photon production and pion-photon correlations in high-energy pp and pA collisions", "abstract": "A phenomenological study of the isolated photon production in high energy pp and pA collisions at RHIC and LHC energies is performed. Using the color dipole approach we investigate the production cros...", "citations": 18, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4319, "doi": "10.1103/PhysRevD.101.094019", "umap_coordinates": { "x": 396.6269226074219, "y": 134.45631408691406, "z": 207.99337768554688 }, "tsne_coordinates": { "x": -32.098106384277344, "y": 7.646756172180176, "z": -14.072624206542969 }, "pca_coordinates": { "x": 2.054518938064575, "y": -0.45313453674316406, "z": 2.5915212631225586 }, "axis_scores": { "Quantum imaging": 0.6906533241271973, "Quantum Life Science Sensing": 0.6885803937911987, "Quantum sensing Detection": 0.6960684061050415, "Quantum sensing Metrology": 0.6456975936889648, "Quantum sensing navigation": 0.6588529348373413, "Quantum sensing Position": 0.6509084701538086, "Quantum sensing Timing": 0.6583591103553772, "Quantum sensing": 0.686640739440918, "Quantum control": 0.6359527111053467 } }, { "id": 4313, "title": "Modelling the ultra-strongly coupled spin-boson model with unphysical modes", "abstract": "A quantum system weakly coupled to a zero-temperature environment will relax, via spontaneous emission, to its ground-state. However, when the coupling to the environment is ultra-strong the ground-st...", "citations": 113, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4320, "doi": "10.1038/s41467-019-11656-1", "umap_coordinates": { "x": 394.2584228515625, "y": 137.0574188232422, "z": 206.40432739257812 }, "tsne_coordinates": { "x": -20.82878303527832, "y": 4.709563732147217, "z": 23.13096809387207 }, "pca_coordinates": { "x": 1.5879909992218018, "y": 1.5377994775772095, "z": 0.5496024489402771 }, "axis_scores": { "Quantum imaging": 0.7116979360580444, "Quantum Life Science Sensing": 0.722205400466919, "Quantum sensing Detection": 0.7206502556800842, "Quantum sensing Metrology": 0.7153825759887695, "Quantum sensing navigation": 0.7078544497489929, "Quantum sensing Position": 0.6932520270347595, "Quantum sensing Timing": 0.6846619844436646, "Quantum sensing": 0.7327507734298706, "Quantum control": 0.7019797563552856 } }, { "id": 4314, "title": "An AIEgen-based 3D covalent organic framework for white light-emitting diodes", "abstract": "The design and synthesis of three-dimensional covalent organic frameworks (3D COFs) have still been considered as a big challenge. Here we report the design and synthesis of an AIEgen-based 3D COF (3D...", "citations": 377, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4321, "doi": "10.1038/s41467-018-07670-4", "umap_coordinates": { "x": 392.5819091796875, "y": 134.54058837890625, "z": 205.01333618164062 }, "tsne_coordinates": { "x": -9.191043853759766, "y": 5.047238826751709, "z": -10.466021537780762 }, "pca_coordinates": { "x": -2.8018062114715576, "y": -1.5601389408111572, "z": -0.37815865874290466 }, "axis_scores": { "Quantum imaging": 0.7071831226348877, "Quantum Life Science Sensing": 0.6996147632598877, "Quantum sensing Detection": 0.6738280653953552, "Quantum sensing Metrology": 0.6604411602020264, "Quantum sensing navigation": 0.6840118169784546, "Quantum sensing Position": 0.6483535170555115, "Quantum sensing Timing": 0.649393618106842, "Quantum sensing": 0.6965928673744202, "Quantum control": 0.6864760518074036 } }, { "id": 4315, "title": "Computer simulation of primary kinetic isotope effects in the proposed rate-limiting step of the glyoxalase I catalyzed reaction", "abstract": "The proposed rate-limiting step of the glyoxalase I catalyzed reaction is the proton abstraction from the C1 carbon of the substrate by Glu(172). Here we examine primary kinetic isotope effects and th...", "citations": 49, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4322, "doi": "10.1074/jbc.M000726200", "umap_coordinates": { "x": 393.4908142089844, "y": 137.08309936523438, "z": 205.30096435546875 }, "tsne_coordinates": { "x": -2.842820882797241, "y": 16.951269149780273, "z": 18.247413635253906 }, "pca_coordinates": { "x": -1.1588231325149536, "y": 3.9509973526000977, "z": -2.7249598503112793 }, "axis_scores": { "Quantum imaging": 0.6561838388442993, "Quantum Life Science Sensing": 0.6630040407180786, "Quantum sensing Detection": 0.6298542022705078, "Quantum sensing Metrology": 0.6203803420066833, "Quantum sensing navigation": 0.6530633568763733, "Quantum sensing Position": 0.6393000483512878, "Quantum sensing Timing": 0.6513664126396179, "Quantum sensing": 0.6393725872039795, "Quantum control": 0.6412671208381653 } }, { "id": 4316, "title": "INTERIOR EIGENVALUES FROM DENSITY MATRIX EXPANSIONS IN QUANTUM MECHANICAL MOLECULAR DYNAMICS", "abstract": "An accelerated polynomial expansion scheme to construct the density matrix in quantum mechanical molecular dynamics simulations is proposed. The scheme is based on recursive density matrix expansions,...", "citations": 21, "author_count": 3, "categories": [ "Mathematics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4323, "doi": "10.1137/130911585", "umap_coordinates": { "x": 394.5536804199219, "y": 137.77272033691406, "z": 207.71368408203125 }, "tsne_coordinates": { "x": -22.754106521606445, "y": -33.73006820678711, "z": 0.502760648727417 }, "pca_coordinates": { "x": 3.2057929039001465, "y": 1.623626947402954, "z": -2.255866527557373 }, "axis_scores": { "Quantum imaging": 0.7210410237312317, "Quantum Life Science Sensing": 0.7102956771850586, "Quantum sensing Detection": 0.6986419558525085, "Quantum sensing Metrology": 0.6885166168212891, "Quantum sensing navigation": 0.7005118131637573, "Quantum sensing Position": 0.6762639284133911, "Quantum sensing Timing": 0.6472302079200745, "Quantum sensing": 0.7062188982963562, "Quantum control": 0.6844450235366821 } }, { "id": 4317, "title": "Observation of an Associative State in Aqueous Hydroxide", "abstract": "The dynamics of chemical reactions in solution are of paramount importance in fields ranging from biology to materials science. Because the hydrogen-bond network and proton dynamics govern the behavio...", "citations": 1, "author_count": 18, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4324, "doi": "10.1021/jacs.4c13453", "umap_coordinates": { "x": 392.8250732421875, "y": 137.03550720214844, "z": 206.07012939453125 }, "tsne_coordinates": { "x": 7.591951370239258, "y": 9.845284461975098, "z": 25.877405166625977 }, "pca_coordinates": { "x": 1.126063346862793, "y": 0.5223631858825684, "z": -3.91983699798584 }, "axis_scores": { "Quantum imaging": 0.6643599271774292, "Quantum Life Science Sensing": 0.7161283493041992, "Quantum sensing Detection": 0.6804131865501404, "Quantum sensing Metrology": 0.660034716129303, "Quantum sensing navigation": 0.671309232711792, "Quantum sensing Position": 0.674817681312561, "Quantum sensing Timing": 0.6510430574417114, "Quantum sensing": 0.6889556050300598, "Quantum control": 0.6653947830200195 } }, { "id": 4318, "title": "Josephson Diode Effect in Supercurrent Interferometers", "abstract": "A Josephson diode is a nonreciprocal circuit element that supports a larger dissipationless supercurrent in one direction than in the other. In this Letter, we propose a class of Josephson diodes base...", "citations": 134, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4325, "doi": "10.1103/PhysRevLett.129.267702", "umap_coordinates": { "x": 394.5816650390625, "y": 135.08546447753906, "z": 208.59860229492188 }, "tsne_coordinates": { "x": 0.987985372543335, "y": -19.162137985229492, "z": 10.225289344787598 }, "pca_coordinates": { "x": 4.1592488288879395, "y": -1.5790729522705078, "z": 1.7189207077026367 }, "axis_scores": { "Quantum imaging": 0.7278885841369629, "Quantum Life Science Sensing": 0.7341344356536865, "Quantum sensing Detection": 0.7235921025276184, "Quantum sensing Metrology": 0.7215492725372314, "Quantum sensing navigation": 0.7279071807861328, "Quantum sensing Position": 0.7034788727760315, "Quantum sensing Timing": 0.7105768918991089, "Quantum sensing": 0.7354183793067932, "Quantum control": 0.7027367353439331 } }, { "id": 4319, "title": "Timescales for charge transfer based operations on Majorana systems", "abstract": "In this Rapid Communication we analyze the efficiency of operations based on transferring charge from a quantum dot (QD) to two coupled topological superconductors, which can be used for performing no...", "citations": 12, "author_count": 4, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4326, "doi": "10.1103/PhysRevB.101.081407", "umap_coordinates": { "x": 394.3555908203125, "y": 137.4585723876953, "z": 207.6419219970703 }, "tsne_coordinates": { "x": -29.69894790649414, "y": -26.714412689208984, "z": 10.455755233764648 }, "pca_coordinates": { "x": 2.5188724994659424, "y": 0.35530519485473633, "z": -2.0670385360717773 }, "axis_scores": { "Quantum imaging": 0.6750494241714478, "Quantum Life Science Sensing": 0.6985574960708618, "Quantum sensing Detection": 0.6668262481689453, "Quantum sensing Metrology": 0.6641583442687988, "Quantum sensing navigation": 0.6610901951789856, "Quantum sensing Position": 0.6453038454055786, "Quantum sensing Timing": 0.6870076656341553, "Quantum sensing": 0.6806598901748657, "Quantum control": 0.6698083877563477 } }, { "id": 4320, "title": "Tunable Hybrid Fano Resonances in Halide Perovskite Nanoparticles", "abstract": "Halide perovskites are known to support excitons at room temperatures with high quantum yield of luminescence that make them attractive for all-dielectric resonant nanophotonics and meta-optics. Here ...", "citations": 108, "author_count": 11, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4327, "doi": "10.1021/acs.nanolett.8b01912", "umap_coordinates": { "x": 391.7488098144531, "y": 134.18069458007812, "z": 206.25010681152344 }, "tsne_coordinates": { "x": 18.120635986328125, "y": -7.399370193481445, "z": -19.27658462524414 }, "pca_coordinates": { "x": -1.272964596748352, "y": -5.0527496337890625, "z": -2.224008083343506 }, "axis_scores": { "Quantum imaging": 0.7132529616355896, "Quantum Life Science Sensing": 0.7042364478111267, "Quantum sensing Detection": 0.6923383474349976, "Quantum sensing Metrology": 0.6852004528045654, "Quantum sensing navigation": 0.6981333494186401, "Quantum sensing Position": 0.675383985042572, "Quantum sensing Timing": 0.6584374904632568, "Quantum sensing": 0.7116731405258179, "Quantum control": 0.7024022340774536 } }, { "id": 4321, "title": "Correlating structure and electronic band-edge properties in organolead halide perovskites nanoparticles", "abstract": "After having emerged as primary contenders in the race for highly efficient optoelectronics materials, organolead halide perovskites (OHLP) are now being investigated in the nanoscale regime as promis...", "citations": 33, "author_count": 13, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4328, "doi": "10.1039/c6cp01843b", "umap_coordinates": { "x": 391.5065612792969, "y": 134.65647888183594, "z": 206.0620880126953 }, "tsne_coordinates": { "x": 15.256791114807129, "y": -7.835119724273682, "z": -21.666290283203125 }, "pca_coordinates": { "x": -0.8251215219497681, "y": -3.4642605781555176, "z": -2.146448850631714 }, "axis_scores": { "Quantum imaging": 0.6840913891792297, "Quantum Life Science Sensing": 0.6971642971038818, "Quantum sensing Detection": 0.6607702374458313, "Quantum sensing Metrology": 0.6625397205352783, "Quantum sensing navigation": 0.6618251800537109, "Quantum sensing Position": 0.6697185635566711, "Quantum sensing Timing": 0.6370269656181335, "Quantum sensing": 0.6702203154563904, "Quantum control": 0.6410426497459412 } }, { "id": 4322, "title": "Computational assignment of redox states to Coulomb blockade diamonds", "abstract": "With the advent of molecular transistors, electrochemistry can now be studied at the single-molecule level. Experimentally, the redox chemistry of the molecule manifests itself as features in the obse...", "citations": 12, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4329, "doi": "10.1039/c4cp02055c", "umap_coordinates": { "x": 392.3246154785156, "y": 136.4610137939453, "z": 205.80650329589844 }, "tsne_coordinates": { "x": 11.633069038391113, "y": -3.7988474369049072, "z": 6.649444580078125 }, "pca_coordinates": { "x": 0.5727053880691528, "y": -0.14339780807495117, "z": -3.4629201889038086 }, "axis_scores": { "Quantum imaging": 0.7157579064369202, "Quantum Life Science Sensing": 0.7158684134483337, "Quantum sensing Detection": 0.7161768674850464, "Quantum sensing Metrology": 0.6872246861457825, "Quantum sensing navigation": 0.716465950012207, "Quantum sensing Position": 0.6994303464889526, "Quantum sensing Timing": 0.7060155272483826, "Quantum sensing": 0.7143456935882568, "Quantum control": 0.7190135717391968 } }, { "id": 4323, "title": "Isotope Labeling Methods for Large Systems", "abstract": "A major drawback of nuclear magnetic resonance (NMR) spectroscopy compared to other methods is that the technique has been limited to relatively small molecules. However, in the last two decades the s...", "citations": 6, "author_count": 4, "categories": [ "Research & Experimental Medicine" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4330, "doi": "10.1007/978-94-007-4954-2_1", "umap_coordinates": { "x": 394.52960205078125, "y": 135.30784606933594, "z": 205.23736572265625 }, "tsne_coordinates": { "x": -16.09957504272461, "y": 19.88995933532715, "z": 3.2040977478027344 }, "pca_coordinates": { "x": -2.493880033493042, "y": 2.450324296951294, "z": -1.4239020347595215 }, "axis_scores": { "Quantum imaging": 0.723568320274353, "Quantum Life Science Sensing": 0.7242736220359802, "Quantum sensing Detection": 0.6961530447006226, "Quantum sensing Metrology": 0.697954535484314, "Quantum sensing navigation": 0.7103560566902161, "Quantum sensing Position": 0.7019565105438232, "Quantum sensing Timing": 0.7136844396591187, "Quantum sensing": 0.7170274257659912, "Quantum control": 0.7096137404441833 } }, { "id": 4324, "title": "Vortices in quantum droplets: Analogies between boson and fermion systems", "abstract": "The main theme of this review is the many-body physics of vortices in quantum droplets of bosons or fermions in the limit of small particle numbers. Systems of interest include cold atoms in traps as ...", "citations": 89, "author_count": 5, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4331, "doi": "10.1103/RevModPhys.82.2785", "umap_coordinates": { "x": 394.4671630859375, "y": 136.96351623535156, "z": 208.9613037109375 }, "tsne_coordinates": { "x": -12.399831771850586, "y": -18.76654815673828, "z": 24.927536010742188 }, "pca_coordinates": { "x": 4.110659122467041, "y": 0.10288310050964355, "z": -1.834946632385254 }, "axis_scores": { "Quantum imaging": 0.7169092893600464, "Quantum Life Science Sensing": 0.7303783893585205, "Quantum sensing Detection": 0.7194606065750122, "Quantum sensing Metrology": 0.7057584524154663, "Quantum sensing navigation": 0.7168464064598083, "Quantum sensing Position": 0.6997799873352051, "Quantum sensing Timing": 0.6957930326461792, "Quantum sensing": 0.7235316038131714, "Quantum control": 0.7245559096336365 } }, { "id": 4325, "title": "DYNAMIC BEHAVIOR OF HIGH-MOLECULAR-WEIGHT POLYSTYRENE IN THE MARGINAL SOLVENT 2-BUTANONE", "abstract": "This article reports the dynamic properties of polystyrene in the marginal solvent 2-butanone at both dilute and semidilute concentrations. The first internal mode (tau-1), evaluated by use of dynamic...", "citations": 11, "author_count": 3, "categories": [ "Polymer Science" ], "year": 1991, "topic": [ "all" ], "embedding_index": 4332, "doi": "10.1021/ma00018a023", "umap_coordinates": { "x": 393.3030090332031, "y": 135.90028381347656, "z": 205.24105834960938 }, "tsne_coordinates": { "x": -3.2861011028289795, "y": -1.5949043035507202, "z": 32.19468307495117 }, "pca_coordinates": { "x": -1.1419389247894287, "y": 1.8393536806106567, "z": -2.6268439292907715 }, "axis_scores": { "Quantum imaging": 0.6633889079093933, "Quantum Life Science Sensing": 0.6819398999214172, "Quantum sensing Detection": 0.6444352269172668, "Quantum sensing Metrology": 0.633064866065979, "Quantum sensing navigation": 0.6672645807266235, "Quantum sensing Position": 0.6604083180427551, "Quantum sensing Timing": 0.6416656970977783, "Quantum sensing": 0.6590553522109985, "Quantum control": 0.6449235081672668 } }, { "id": 4326, "title": "Quantum biology revisited", "abstract": "Photosynthesis is a highly optimized process from which valuable lessons can be learned about the operating principles in nature. Its primary steps involve energy transport operating near theoretical ...", "citations": 397, "author_count": 19, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4333, "doi": "10.1126/sciadv.aaz4888", "umap_coordinates": { "x": 394.6125793457031, "y": 136.3596954345703, "z": 205.90269470214844 }, "tsne_coordinates": { "x": -13.082318305969238, "y": -3.6725528240203857, "z": 4.142776012420654 }, "pca_coordinates": { "x": 1.4164645671844482, "y": 1.2967759370803833, "z": -0.8250357508659363 }, "axis_scores": { "Quantum imaging": 0.7840330004692078, "Quantum Life Science Sensing": 0.8040056228637695, "Quantum sensing Detection": 0.7728273868560791, "Quantum sensing Metrology": 0.771559476852417, "Quantum sensing navigation": 0.8060322999954224, "Quantum sensing Position": 0.7541040778160095, "Quantum sensing Timing": 0.731268048286438, "Quantum sensing": 0.7879078388214111, "Quantum control": 0.774878978729248 } }, { "id": 4327, "title": "High-Tc SQUID gradiometer system for immunoassays", "abstract": "A high-T-c dc SQUID ( superconducting quantum interference device) gradiometer was developed for magnetic immunoassays where magnetic nanoparticles are used as markers to detect biological reactions. ...", "citations": 15, "author_count": 5, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4334, "doi": "10.1088/0953-2048/21/3/034004", "umap_coordinates": { "x": 394.2752380371094, "y": 134.4042510986328, "z": 206.116943359375 }, "tsne_coordinates": { "x": -22.885175704956055, "y": 0.6300756931304932, "z": -24.726951599121094 }, "pca_coordinates": { "x": -1.841972827911377, "y": 1.2890124320983887, "z": -0.11806851625442505 }, "axis_scores": { "Quantum imaging": 0.6698499917984009, "Quantum Life Science Sensing": 0.7068367004394531, "Quantum sensing Detection": 0.6758831143379211, "Quantum sensing Metrology": 0.6867554187774658, "Quantum sensing navigation": 0.6861526370048523, "Quantum sensing Position": 0.6756675243377686, "Quantum sensing Timing": 0.6714434623718262, "Quantum sensing": 0.6833339333534241, "Quantum control": 0.6530325412750244 } }, { "id": 4328, "title": "STEREOSELECTIVE DECARBOXYLATION OF AMINO-ACIDS IN THE SOLID-STATE, WITH SPECIAL REFERENCE TO CHIRAL DISCRIMINATION IN PREBIOTIC EVOLUTION", "abstract": "The decarboxylations of sublimated solid D- and L-Leu by nonpolarized .gamma.-rays give quite different quantum yields, indicating significant selection. The G(CO2) value for the D-isomer is higher th...", "citations": 16, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1985, "topic": [ "all" ], "embedding_index": 4335, "doi": "10.1007/BF02115656", "umap_coordinates": { "x": 393.7403259277344, "y": 136.35255432128906, "z": 205.2822265625 }, "tsne_coordinates": { "x": 9.354887008666992, "y": 20.071643829345703, "z": 32.20311737060547 }, "pca_coordinates": { "x": -1.3897881507873535, "y": 0.966012716293335, "z": -2.505943775177002 }, "axis_scores": { "Quantum imaging": 0.6653109192848206, "Quantum Life Science Sensing": 0.7046491503715515, "Quantum sensing Detection": 0.6706270575523376, "Quantum sensing Metrology": 0.675763726234436, "Quantum sensing navigation": 0.6922575831413269, "Quantum sensing Position": 0.6892271041870117, "Quantum sensing Timing": 0.6763585209846497, "Quantum sensing": 0.6921086311340332, "Quantum control": 0.6765066981315613 } }, { "id": 4329, "title": "Surface Modification of Ti3CN MXene and Their Enhanced Performance in Photodetection", "abstract": "As a typical hetero-MXene, Ti3CN MXene has attracted great attentions owing to its ultrafast carrier dynamic and unique nonlinear optical response. However, the photo-response of pristine Ti3CN is uns...", "citations": 4, "author_count": 12, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4336, "doi": "10.1002/smll.202412637", "umap_coordinates": { "x": 392.8055114746094, "y": 134.17886352539062, "z": 205.05599975585938 }, "tsne_coordinates": { "x": 37.123291015625, "y": 9.118037223815918, "z": -6.830552577972412 }, "pca_coordinates": { "x": -4.604827404022217, "y": -1.6552443504333496, "z": 0.308707058429718 }, "axis_scores": { "Quantum imaging": 0.7080627679824829, "Quantum Life Science Sensing": 0.7111544013023376, "Quantum sensing Detection": 0.6996305584907532, "Quantum sensing Metrology": 0.6987892389297485, "Quantum sensing navigation": 0.6589190363883972, "Quantum sensing Position": 0.6662914752960205, "Quantum sensing Timing": 0.6609373688697815, "Quantum sensing": 0.7039825916290283, "Quantum control": 0.6763128638267517 } }, { "id": 4330, "title": "Memlumor: A Luminescent Memory Device for Energy-Efficient Photonic Neuromorphic Computing", "abstract": "Neuromorphic computing promises to transform the current paradigm of traditional computing toward non-von Neumann dynamic energy-efficient problem solving. To realize this, a neuromorphic platform mus...", "citations": 20, "author_count": 8, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4337, "doi": "10.1021/acsenergylett.4c00691", "umap_coordinates": { "x": 392.2269592285156, "y": 134.10958862304688, "z": 205.4005126953125 }, "tsne_coordinates": { "x": 12.169663429260254, "y": -0.8606950640678406, "z": -27.393383026123047 }, "pca_coordinates": { "x": -1.5041263103485107, "y": -2.7495837211608887, "z": 0.13277393579483032 }, "axis_scores": { "Quantum imaging": 0.6979150772094727, "Quantum Life Science Sensing": 0.7203454971313477, "Quantum sensing Detection": 0.693526029586792, "Quantum sensing Metrology": 0.6912887096405029, "Quantum sensing navigation": 0.6790048480033875, "Quantum sensing Position": 0.6621400117874146, "Quantum sensing Timing": 0.6496669054031372, "Quantum sensing": 0.70085608959198, "Quantum control": 0.6458384990692139 } }, { "id": 4331, "title": "Visualizing Material Processing via Photoexcitation-Controlled Organic-Phase Aggregation-Induced Emission", "abstract": "Aggregation-induced emission (AIE) has been much employed for visualizing material aggregation and self-assembly. However, water is generally required for the preparation of the AIE aggregates, the op...", "citations": 30, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4338, "doi": "10.34133/2021/9862093", "umap_coordinates": { "x": 393.3355407714844, "y": 134.69003295898438, "z": 205.5487060546875 }, "tsne_coordinates": { "x": 30.374187469482422, "y": -1.0630995035171509, "z": -23.365079879760742 }, "pca_coordinates": { "x": -2.3759169578552246, "y": -1.2622418403625488, "z": -0.40456992387771606 }, "axis_scores": { "Quantum imaging": 0.723967432975769, "Quantum Life Science Sensing": 0.70223069190979, "Quantum sensing Detection": 0.6945520639419556, "Quantum sensing Metrology": 0.6811621189117432, "Quantum sensing navigation": 0.6810055375099182, "Quantum sensing Position": 0.6750717759132385, "Quantum sensing Timing": 0.6762014031410217, "Quantum sensing": 0.6986436247825623, "Quantum control": 0.672491192817688 } }, { "id": 4332, "title": "Stable and bright formamidinium-based perovskite light-emitting diodes with high energy conversion efficiency", "abstract": "Solution-processable perovskites show highly emissive and good charge transport, making them attractive for low-cost light-emitting diodes (LEDs) with high energy conversion efficiencies. Despite rece...", "citations": 138, "author_count": 20, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4339, "doi": "10.1038/s41467-019-11567-1", "umap_coordinates": { "x": 391.91314697265625, "y": 133.71153259277344, "z": 205.14942932128906 }, "tsne_coordinates": { "x": 20.915292739868164, "y": -0.4478316009044647, "z": -26.683364868164062 }, "pca_coordinates": { "x": -3.4465696811676025, "y": -3.137564182281494, "z": 0.15528792142868042 }, "axis_scores": { "Quantum imaging": 0.660804033279419, "Quantum Life Science Sensing": 0.6840097308158875, "Quantum sensing Detection": 0.6500883102416992, "Quantum sensing Metrology": 0.6517381072044373, "Quantum sensing navigation": 0.6374081373214722, "Quantum sensing Position": 0.6202220916748047, "Quantum sensing Timing": 0.6110886335372925, "Quantum sensing": 0.6624482870101929, "Quantum control": 0.6469062566757202 } }, { "id": 4333, "title": "Luminescence and reactivity of a charge-transfer excited iron complex with nanosecond lifetime", "abstract": "Iron's abundance and rich coordination chemistry are potentially appealing features for photochemical applications. However, the photoexcitable charge-transfer states of most iron complexes are limite...", "citations": 349, "author_count": 23, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4340, "doi": "10.1126/science.aau7160", "umap_coordinates": { "x": 392.8667907714844, "y": 135.85272216796875, "z": 205.23818969726562 }, "tsne_coordinates": { "x": 9.875129699707031, "y": 6.867763519287109, "z": 10.100900650024414 }, "pca_coordinates": { "x": -1.8810815811157227, "y": -1.7785625457763672, "z": -2.3320653438568115 }, "axis_scores": { "Quantum imaging": 0.7166447043418884, "Quantum Life Science Sensing": 0.7900580167770386, "Quantum sensing Detection": 0.7144097685813904, "Quantum sensing Metrology": 0.7023727297782898, "Quantum sensing navigation": 0.6975061893463135, "Quantum sensing Position": 0.6569616794586182, "Quantum sensing Timing": 0.6845488548278809, "Quantum sensing": 0.7286067008972168, "Quantum control": 0.6935298442840576 } }, { "id": 4334, "title": "Coherent Energy Transfers between Orthogonal Radiant and Weakly Radiant Plasmonic Nanorod Resonators", "abstract": "The coherent couplings between plasmon modes have attracted significant research interest recently as they can dramatically modify the lightmatter interactions and have many applications such as senso...", "citations": 10, "author_count": 2, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4341, "doi": "10.1021/acs.jpcc.5b08122", "umap_coordinates": { "x": 392.7679138183594, "y": 135.4228057861328, "z": 206.5305633544922 }, "tsne_coordinates": { "x": 5.2744269371032715, "y": -11.640069007873535, "z": -11.0682954788208 }, "pca_coordinates": { "x": 0.2685800790786743, "y": -2.2380166053771973, "z": -0.15045815706253052 }, "axis_scores": { "Quantum imaging": 0.7704128623008728, "Quantum Life Science Sensing": 0.771609365940094, "Quantum sensing Detection": 0.7678897976875305, "Quantum sensing Metrology": 0.741768479347229, "Quantum sensing navigation": 0.7612119913101196, "Quantum sensing Position": 0.7407832145690918, "Quantum sensing Timing": 0.7202683687210083, "Quantum sensing": 0.7766458988189697, "Quantum control": 0.7311400771141052 } }, { "id": 4335, "title": "Photoluminescence measurements in the phase transition region of Zn1-x Cd x S films", "abstract": "Thin films of Zn1-x Cd (x) S (0.1 a parts per thousand currency sign x a parts per thousand currency sign 0.5) were prepared by using pulsed laser ablation technique on corning glass substrates. Phase...", "citations": 8, "author_count": 6, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4342, "doi": "10.1007/s11051-009-9687-x", "umap_coordinates": { "x": 393.58990478515625, "y": 134.04774475097656, "z": 206.9777374267578 }, "tsne_coordinates": { "x": 14.611985206604004, "y": 31.137840270996094, "z": -24.366052627563477 }, "pca_coordinates": { "x": -1.8203487396240234, "y": -1.34480619430542, "z": 0.3535645604133606 }, "axis_scores": { "Quantum imaging": 0.6816530823707581, "Quantum Life Science Sensing": 0.7208231091499329, "Quantum sensing Detection": 0.6959659457206726, "Quantum sensing Metrology": 0.6930311322212219, "Quantum sensing navigation": 0.6822309494018555, "Quantum sensing Position": 0.7017014026641846, "Quantum sensing Timing": 0.682731032371521, "Quantum sensing": 0.7013736367225647, "Quantum control": 0.6504923701286316 } }, { "id": 4336, "title": "Dynamics of the O plus CN Reaction and N plus CO Scattering on Two Coupled Surfaces", "abstract": "Spin-orbit coupling between the two collinear (2)Pi and (4)Sigma(-) potential energy surfaces for the NCO system are calculated using the RASSI method with CASSCF wave functions as basis set. The GDVR...", "citations": 11, "author_count": 5, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4343, "doi": "10.1021/jp904954k", "umap_coordinates": { "x": 393.1017150878906, "y": 137.41156005859375, "z": 206.00912475585938 }, "tsne_coordinates": { "x": -8.244949340820312, "y": 6.333061695098877, "z": 23.20724868774414 }, "pca_coordinates": { "x": -0.583563506603241, "y": 0.2741427421569824, "z": -1.4716439247131348 }, "axis_scores": { "Quantum imaging": 0.7053775191307068, "Quantum Life Science Sensing": 0.7127423286437988, "Quantum sensing Detection": 0.7128428816795349, "Quantum sensing Metrology": 0.6805206537246704, "Quantum sensing navigation": 0.7051413655281067, "Quantum sensing Position": 0.6739424467086792, "Quantum sensing Timing": 0.6758220195770264, "Quantum sensing": 0.7136359810829163, "Quantum control": 0.7067773342132568 } }, { "id": 4337, "title": "Surface effects and quantum confinement in nanosized GaN clusters:: Theoretical predictions", "abstract": "The structure and the electronic properties of stoichiometric (GaN)(n) clusters (with 6 <= n <= 48) were investigated by means of quantum-chemical hybrid density functional theory (DFT) using the B3LY...", "citations": 30, "author_count": 3, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4344, "doi": "10.1021/jp8048179", "umap_coordinates": { "x": 392.67095947265625, "y": 134.91966247558594, "z": 206.44276428222656 }, "tsne_coordinates": { "x": 26.318574905395508, "y": -5.67951774597168, "z": -3.2903079986572266 }, "pca_coordinates": { "x": 0.3120436668395996, "y": -2.008847236633301, "z": -1.8688201904296875 }, "axis_scores": { "Quantum imaging": 0.739599883556366, "Quantum Life Science Sensing": 0.7448939681053162, "Quantum sensing Detection": 0.7271096110343933, "Quantum sensing Metrology": 0.7207187414169312, "Quantum sensing navigation": 0.7384551167488098, "Quantum sensing Position": 0.7134718894958496, "Quantum sensing Timing": 0.6801086068153381, "Quantum sensing": 0.7466913461685181, "Quantum control": 0.7331860065460205 } }, { "id": 4338, "title": "Quantum-state measurement through ballistic expansion of matter waves -: art. no. 043612", "abstract": "In this paper, a method for state measurement in atomic waveguides is presented. Matter waves exiting a terminated waveguide are allowed to expand ballistically. Measurement is performed by spatially ...", "citations": 7, "author_count": 3, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4345, "doi": "10.1103/PhysRevA.66.043612", "umap_coordinates": { "x": 395.1249084472656, "y": 136.8199005126953, "z": 207.7117919921875 }, "tsne_coordinates": { "x": -21.65924072265625, "y": -21.538610458374023, "z": 2.1418211460113525 }, "pca_coordinates": { "x": 4.5184006690979, "y": 1.8232996463775635, "z": 0.8385284543037415 }, "axis_scores": { "Quantum imaging": 0.7520512342453003, "Quantum Life Science Sensing": 0.7607340812683105, "Quantum sensing Detection": 0.7570725083351135, "Quantum sensing Metrology": 0.7527174353599548, "Quantum sensing navigation": 0.7629595994949341, "Quantum sensing Position": 0.7291482090950012, "Quantum sensing Timing": 0.7070208191871643, "Quantum sensing": 0.7680771350860596, "Quantum control": 0.7257398962974548 } }, { "id": 4339, "title": "A concept for a submillimeter-wave single-photon counter", "abstract": "We discuss the design for a submillimeter-wave photometer, using a combination of superconducting and single-electron devices, which would have high quantum efficiency, very low noise-equivalent power...", "citations": 67, "author_count": 6, "categories": [ "Engineering" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4346, "doi": "10.1109/77.783645", "umap_coordinates": { "x": 395.08978271484375, "y": 133.64382934570312, "z": 207.4197540283203 }, "tsne_coordinates": { "x": -15.031888008117676, "y": 2.8750123977661133, "z": -24.38829231262207 }, "pca_coordinates": { "x": 0.012659907341003418, "y": 1.0109944343566895, "z": 3.0903825759887695 }, "axis_scores": { "Quantum imaging": 0.6976441144943237, "Quantum Life Science Sensing": 0.7452387809753418, "Quantum sensing Detection": 0.7347472310066223, "Quantum sensing Metrology": 0.7334653735160828, "Quantum sensing navigation": 0.7167609930038452, "Quantum sensing Position": 0.7038933038711548, "Quantum sensing Timing": 0.7151223421096802, "Quantum sensing": 0.7374828457832336, "Quantum control": 0.6823228001594543 } }, { "id": 4340, "title": "Does probability interference exist in social science?", "abstract": "In this paper we discuss the rationale why sub(super)-additive probabilities in a psychological setting could be explained via the use of quantum probability interference. We propose to measure the co...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4347, "doi": null, "umap_coordinates": { "x": 391.6291198730469, "y": 139.83860778808594, "z": 208.76161193847656 }, "tsne_coordinates": { "x": -9.063348770141602, "y": 39.443538665771484, "z": -2.518155813217163 }, "pca_coordinates": { "x": 1.4664239883422852, "y": 4.818681240081787, "z": -0.865410327911377 }, "axis_scores": { "Quantum imaging": 0.716526985168457, "Quantum Life Science Sensing": 0.7201364040374756, "Quantum sensing Detection": 0.7070848941802979, "Quantum sensing Metrology": 0.6789141893386841, "Quantum sensing navigation": 0.7124683856964111, "Quantum sensing Position": 0.6881780624389648, "Quantum sensing Timing": 0.6714083552360535, "Quantum sensing": 0.7070368528366089, "Quantum control": 0.7001162171363831 } }, { "id": 4341, "title": "High-resolution crystal structures of transient intermediates in the phytochrome photocycle", "abstract": "Phytochromes are red/far-red light photoreceptors in bacteria to plants, which elicit a variety of important physiological responses. They display a reversible photocycle between the resting Pr state ...", "citations": 53, "author_count": 24, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4348, "doi": "10.1016/j.str.2021.03.004", "umap_coordinates": { "x": 393.3898010253906, "y": 136.12481689453125, "z": 204.53683471679688 }, "tsne_coordinates": { "x": 7.8620147705078125, "y": -5.019979953765869, "z": 17.12153434753418 }, "pca_coordinates": { "x": -1.4815897941589355, "y": -0.027975797653198242, "z": -2.7565879821777344 }, "axis_scores": { "Quantum imaging": 0.706548810005188, "Quantum Life Science Sensing": 0.7335126996040344, "Quantum sensing Detection": 0.6802879571914673, "Quantum sensing Metrology": 0.6690592765808105, "Quantum sensing navigation": 0.6811926960945129, "Quantum sensing Position": 0.6815101504325867, "Quantum sensing Timing": 0.6870683431625366, "Quantum sensing": 0.6929144263267517, "Quantum control": 0.6596965193748474 } }, { "id": 4342, "title": "Strong mechanically induced effects in DC current-biased suspended Josephson junctions", "abstract": "Superconductivity is a result of quantum coherence at macroscopic scales. Two superconductors separated by a metallic or insulating weak link exhibit the AC Josephson effect: the conversion of a DC vo...", "citations": 2, "author_count": 5, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4349, "doi": "10.1103/PhysRevB.97.014526", "umap_coordinates": { "x": 393.8416748046875, "y": 135.77850341796875, "z": 208.6902313232422 }, "tsne_coordinates": { "x": 7.29343318939209, "y": -26.99018669128418, "z": 18.325702667236328 }, "pca_coordinates": { "x": 3.223076820373535, "y": -1.300112009048462, "z": -0.6111249327659607 }, "axis_scores": { "Quantum imaging": 0.6758348345756531, "Quantum Life Science Sensing": 0.6865281462669373, "Quantum sensing Detection": 0.6720174551010132, "Quantum sensing Metrology": 0.6612823009490967, "Quantum sensing navigation": 0.6598952412605286, "Quantum sensing Position": 0.6690701246261597, "Quantum sensing Timing": 0.6525808572769165, "Quantum sensing": 0.6799299120903015, "Quantum control": 0.6603364944458008 } }, { "id": 4343, "title": "A novel semiconductor compatible path for nano-graphene synthesis using CBr4 precursor and Ga catalyst", "abstract": "We propose a novel semiconductor compatible path for nano-graphene synthesis using precursors containing C-Br bonding and liquid catalyst. The unique combination of CBr4 as precursor and Ga as catalys...", "citations": 8, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4350, "doi": "10.1038/srep04653", "umap_coordinates": { "x": 393.9496765136719, "y": 134.41542053222656, "z": 205.45265197753906 }, "tsne_coordinates": { "x": 11.948790550231934, "y": -5.702077388763428, "z": -4.999408721923828 }, "pca_coordinates": { "x": -1.9066752195358276, "y": -0.3385801315307617, "z": 1.3172926902770996 }, "axis_scores": { "Quantum imaging": 0.6570276021957397, "Quantum Life Science Sensing": 0.6878138184547424, "Quantum sensing Detection": 0.6647920608520508, "Quantum sensing Metrology": 0.6566712260246277, "Quantum sensing navigation": 0.7002421617507935, "Quantum sensing Position": 0.6535907983779907, "Quantum sensing Timing": 0.6505707502365112, "Quantum sensing": 0.6702030897140503, "Quantum control": 0.6395450234413147 } }, { "id": 4344, "title": "Structure and optical properties of (CdSxSe1-x)42 nanoclusters", "abstract": "The structures of the (CdS)(42), (CdSe)(42), Cd42Se32S10, Cd42Se22S20, and Cd42Se10S32 clusters have been determined using the simulated annealing method. Factors influencing the band gap value have b...", "citations": 3, "author_count": 3, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4351, "doi": "10.1039/c4cp01008f", "umap_coordinates": { "x": 392.107177734375, "y": 135.07089233398438, "z": 206.2828826904297 }, "tsne_coordinates": { "x": 20.02997589111328, "y": -2.6605064868927, "z": 1.51746666431427 }, "pca_coordinates": { "x": -1.815406084060669, "y": -3.296565532684326, "z": -2.501959800720215 }, "axis_scores": { "Quantum imaging": 0.685437798500061, "Quantum Life Science Sensing": 0.7254285216331482, "Quantum sensing Detection": 0.6818979382514954, "Quantum sensing Metrology": 0.6700217723846436, "Quantum sensing navigation": 0.6707199811935425, "Quantum sensing Position": 0.6620620489120483, "Quantum sensing Timing": 0.6306089162826538, "Quantum sensing": 0.6928398609161377, "Quantum control": 0.6751171350479126 } }, { "id": 4345, "title": "Efficient room-temperature nuclear spin hyperpolarization of a defect atom in a semiconductor", "abstract": "Nuclear spin hyperpolarization is essential to future solid-state quantum computation using nuclear spin qubits and in highly sensitive magnetic resonance imaging. Though efficient dynamic nuclear pol...", "citations": 36, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4352, "doi": "10.1038/ncomms2776", "umap_coordinates": { "x": 392.9811706542969, "y": 135.80776977539062, "z": 206.58932495117188 }, "tsne_coordinates": { "x": 8.911369323730469, "y": -10.769460678100586, "z": 4.544868469238281 }, "pca_coordinates": { "x": 0.5714123249053955, "y": -1.6493163108825684, "z": 0.6310245394706726 }, "axis_scores": { "Quantum imaging": 0.7522859573364258, "Quantum Life Science Sensing": 0.7284167408943176, "Quantum sensing Detection": 0.7319557666778564, "Quantum sensing Metrology": 0.7151470184326172, "Quantum sensing navigation": 0.7340922355651855, "Quantum sensing Position": 0.7068732380867004, "Quantum sensing Timing": 0.7149046063423157, "Quantum sensing": 0.7473129034042358, "Quantum control": 0.7032538056373596 } }, { "id": 4346, "title": "Lateral current confinement in selectively grown resonant tunneling transistor with an embedded gate", "abstract": "We report on fabrication and measurements of a selectively grown vertical resonant tunneling transistor with lateral current constriction. A GaInP/GaAs/GaInP, 3/9/3 nm, double barrier structure is epi...", "citations": 5, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4353, "doi": "10.1016/S1386-9477(00)00067-9", "umap_coordinates": { "x": 393.20465087890625, "y": 134.78829956054688, "z": 207.17877197265625 }, "tsne_coordinates": { "x": 22.912120819091797, "y": -6.169840335845947, "z": 24.978857040405273 }, "pca_coordinates": { "x": -0.1732006072998047, "y": -0.2706007957458496, "z": 1.1273283958435059 }, "axis_scores": { "Quantum imaging": 0.6651383638381958, "Quantum Life Science Sensing": 0.6462863683700562, "Quantum sensing Detection": 0.6560696959495544, "Quantum sensing Metrology": 0.6409789323806763, "Quantum sensing navigation": 0.669446587562561, "Quantum sensing Position": 0.6499897837638855, "Quantum sensing Timing": 0.6351078152656555, "Quantum sensing": 0.664760410785675, "Quantum control": 0.6391313672065735 } }, { "id": 4347, "title": "OBSERVATIONS OF SPECTRAL GLOBAL RADIATION AT ULTUNA, SWEDEN, 1978-1981", "abstract": "Global radiation in the spectral ranges 0.295-2.8, 0.495-2.8, 0.630-2.8 and 0.695-2.8 .mu.m was recorded at Ultuna, 59.degree.49''N and 17.degree.39''E, by Eppley precision pyranometers model PSP. Glo...", "citations": 1, "author_count": 3, "categories": [ "Agriculture" ], "year": 1984, "topic": [ "all" ], "embedding_index": 4354, "doi": null, "umap_coordinates": { "x": 391.59814453125, "y": 139.54641723632812, "z": 209.46466064453125 }, "tsne_coordinates": { "x": -4.4849629402160645, "y": 37.33653259277344, "z": -5.421387195587158 }, "pca_coordinates": { "x": -2.217116355895996, "y": 3.880286455154419, "z": -0.277903288602829 }, "axis_scores": { "Quantum imaging": 0.6795897483825684, "Quantum Life Science Sensing": 0.7223399877548218, "Quantum sensing Detection": 0.6833784580230713, "Quantum sensing Metrology": 0.6854603290557861, "Quantum sensing navigation": 0.686698853969574, "Quantum sensing Position": 0.661887526512146, "Quantum sensing Timing": 0.6429632306098938, "Quantum sensing": 0.6935234069824219, "Quantum control": 0.6517453193664551 } }, { "id": 4348, "title": "Monte Carlo simulation of the photon-tagger focal-plane electronics at the MAX IV laboratory", "abstract": "Rate-dependent effects in the electronics used to instrument the tagger focal plane at the MAX IV Laboratory have been investigated using the novel approach of Monte Carlo simulation. Results are comp...", "citations": 6, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4355, "doi": "10.1016/j.nima.2013.08.032", "umap_coordinates": { "x": 394.76336669921875, "y": 132.84336853027344, "z": 205.67869567871094 }, "tsne_coordinates": { "x": -18.65627670288086, "y": 15.165886878967285, "z": -11.757650375366211 }, "pca_coordinates": { "x": -1.9654896259307861, "y": 1.8637409210205078, "z": 3.41062068939209 }, "axis_scores": { "Quantum imaging": 0.7308486700057983, "Quantum Life Science Sensing": 0.7065832614898682, "Quantum sensing Detection": 0.708507239818573, "Quantum sensing Metrology": 0.723146915435791, "Quantum sensing navigation": 0.714329719543457, "Quantum sensing Position": 0.7029968500137329, "Quantum sensing Timing": 0.714330792427063, "Quantum sensing": 0.7122113704681396, "Quantum control": 0.6629788875579834 } }, { "id": 4349, "title": "Non-Abelian off-diagonal geometric phases in nano-engineered four-qubit systems", "abstract": "The concept of off-diagonal geometric phase (GP) has been introduced in order to recover interference information about the geometry of quantal evolution where the standard GPs are not well defined. I...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4356, "doi": "10.1209/0295-5075/103/60011", "umap_coordinates": { "x": 394.4220275878906, "y": 136.94757080078125, "z": 207.9888916015625 }, "tsne_coordinates": { "x": -19.77696418762207, "y": -24.410198211669922, "z": 15.580260276794434 }, "pca_coordinates": { "x": 3.6668777465820312, "y": 0.7634186744689941, "z": -0.6933428049087524 }, "axis_scores": { "Quantum imaging": 0.7527486681938171, "Quantum Life Science Sensing": 0.7135797739028931, "Quantum sensing Detection": 0.7114384770393372, "Quantum sensing Metrology": 0.7117105722427368, "Quantum sensing navigation": 0.7549063563346863, "Quantum sensing Position": 0.7070125937461853, "Quantum sensing Timing": 0.7139905095100403, "Quantum sensing": 0.7280281782150269, "Quantum control": 0.7285698652267456 } }, { "id": 4350, "title": "High Resolution Photon Counting Detection System for Advanced Inelastic X-Ray Scattering Studies", "abstract": "High brilliance and high spectral resolution of synchrotron sources enable a large number of soft-x-ray spectroscopic studies such as inelastic X-ray scattering, which is becoming a technique of choic...", "citations": 5, "author_count": 10, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4357, "doi": "10.1109/NSSMIC.2006.355959", "umap_coordinates": { "x": 395.4974365234375, "y": 133.3926239013672, "z": 206.31080627441406 }, "tsne_coordinates": { "x": -17.45708465576172, "y": 9.855072021484375, "z": -22.939102172851562 }, "pca_coordinates": { "x": -0.8243296146392822, "y": -0.3845713138580322, "z": 4.052676200866699 }, "axis_scores": { "Quantum imaging": 0.7210990190505981, "Quantum Life Science Sensing": 0.7399247288703918, "Quantum sensing Detection": 0.7287078499794006, "Quantum sensing Metrology": 0.7207026481628418, "Quantum sensing navigation": 0.714851975440979, "Quantum sensing Position": 0.6928764581680298, "Quantum sensing Timing": 0.7011391520500183, "Quantum sensing": 0.7320873737335205, "Quantum control": 0.667576014995575 } }, { "id": 4351, "title": "Postdeposition Sulfurization of CuInSe2 Solar Absorbers by Employing Sacrificial CuInS2 Precursor Layers", "abstract": "Herein, a new route of sulfur grading in CuInSe2 (CISe) thin-film solar absorbers by introducing an ultrathin (<50 nm) sacrificial sputtered CuInS2 (CIS) layer on top of the CISe. Different CIS top la...", "citations": 3, "author_count": 10, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4358, "doi": "10.1002/pssa.202100441", "umap_coordinates": { "x": 392.67144775390625, "y": 133.4843292236328, "z": 205.47564697265625 }, "tsne_coordinates": { "x": 28.091402053833008, "y": 6.900563716888428, "z": -3.6888375282287598 }, "pca_coordinates": { "x": -3.4855551719665527, "y": -2.2181782722473145, "z": -0.7306110858917236 }, "axis_scores": { "Quantum imaging": 0.6508976221084595, "Quantum Life Science Sensing": 0.6941185593605042, "Quantum sensing Detection": 0.6664045453071594, "Quantum sensing Metrology": 0.654209315776825, "Quantum sensing navigation": 0.6575841307640076, "Quantum sensing Position": 0.6616066098213196, "Quantum sensing Timing": 0.6785564422607422, "Quantum sensing": 0.6735642552375793, "Quantum control": 0.6650965213775635 } }, { "id": 4352, "title": "Detective quantum efficiency dependence on x-ray energy weighting in mammography", "abstract": "An evaluation of the dependence of detective quantum efficiency (DQE) on the incident energy spectrum has been made for mammography. The DQE dependence on the energy spectrum has been evaluated for en...", "citations": 137, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4359, "doi": "10.1118/1.598807", "umap_coordinates": { "x": 395.9010925292969, "y": 132.76185607910156, "z": 205.54299926757812 }, "tsne_coordinates": { "x": -9.989357948303223, "y": 25.671092987060547, "z": -24.504932403564453 }, "pca_coordinates": { "x": -1.5000399351119995, "y": 0.8533251285552979, "z": 4.1003265380859375 }, "axis_scores": { "Quantum imaging": 0.758094310760498, "Quantum Life Science Sensing": 0.7384613752365112, "Quantum sensing Detection": 0.7594558596611023, "Quantum sensing Metrology": 0.7359728813171387, "Quantum sensing navigation": 0.7188320755958557, "Quantum sensing Position": 0.722446084022522, "Quantum sensing Timing": 0.7104905843734741, "Quantum sensing": 0.7520684599876404, "Quantum control": 0.686555027961731 } }, { "id": 4353, "title": "The BRST treatment of stretched membranes", "abstract": "The BRST invariant formulation of the bosonic stretched membrane is considered. In this formulation the stretched membrane is given as a perturbation around zero-tension membranes, where the BRST char...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4360, "doi": "10.1016/j.nuclphysb.2005.12.004", "umap_coordinates": { "x": 393.8561706542969, "y": 136.205078125, "z": 205.0598602294922 }, "tsne_coordinates": { "x": 17.48550796508789, "y": 8.286173820495605, "z": 22.599245071411133 }, "pca_coordinates": { "x": -1.5201644897460938, "y": 1.9810832738876343, "z": -2.1178953647613525 }, "axis_scores": { "Quantum imaging": 0.6706541776657104, "Quantum Life Science Sensing": 0.7140940427780151, "Quantum sensing Detection": 0.6747589707374573, "Quantum sensing Metrology": 0.6765657663345337, "Quantum sensing navigation": 0.6525380611419678, "Quantum sensing Position": 0.675542414188385, "Quantum sensing Timing": 0.6784599423408508, "Quantum sensing": 0.6884884834289551, "Quantum control": 0.6608597636222839 } }, { "id": 4354, "title": "Electron-phonon coupling of epigraphene at millikelvin temperatures measured by quantum transport thermometry", "abstract": "We investigate the basic charge and heat transport properties of charge neutral epigraphene at sub-kelvin temperatures, demonstrating a nearly logarithmic dependence of electrical conductivity over mo...", "citations": 1, "author_count": 11, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4361, "doi": "10.1063/5.0031315", "umap_coordinates": { "x": 393.7618408203125, "y": 134.8482208251953, "z": 207.88418579101562 }, "tsne_coordinates": { "x": 16.01730728149414, "y": -26.468080520629883, "z": -7.339855670928955 }, "pca_coordinates": { "x": 2.1590466499328613, "y": -2.216611385345459, "z": 2.025669813156128 }, "axis_scores": { "Quantum imaging": 0.7137243151664734, "Quantum Life Science Sensing": 0.7194336652755737, "Quantum sensing Detection": 0.7028623819351196, "Quantum sensing Metrology": 0.7201610803604126, "Quantum sensing navigation": 0.7034659385681152, "Quantum sensing Position": 0.7008286714553833, "Quantum sensing Timing": 0.6954019069671631, "Quantum sensing": 0.7173373699188232, "Quantum control": 0.6717151403427124 } }, { "id": 4355, "title": "Duality for open fermion systems: Energy-dependent weak coupling and quantum master equations", "abstract": "Open fermion systems with energy-independent bilinear coupling to a fermionic environment have been shown to obey a general duality relation [J. Schulenborg et al., Phys. Rev. B 93, 081411 (2016)] whi...", "citations": 13, "author_count": 4, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4362, "doi": "10.1103/PhysRevB.98.235405", "umap_coordinates": { "x": 394.7190856933594, "y": 137.10719299316406, "z": 208.47708129882812 }, "tsne_coordinates": { "x": -11.838960647583008, "y": -11.625285148620605, "z": 6.661551475524902 }, "pca_coordinates": { "x": 4.399331569671631, "y": -0.6058368682861328, "z": -0.4989161789417267 }, "axis_scores": { "Quantum imaging": 0.709303617477417, "Quantum Life Science Sensing": 0.7404667735099792, "Quantum sensing Detection": 0.711706280708313, "Quantum sensing Metrology": 0.6911318898200989, "Quantum sensing navigation": 0.7055301070213318, "Quantum sensing Position": 0.6647143363952637, "Quantum sensing Timing": 0.6712591648101807, "Quantum sensing": 0.7133174538612366, "Quantum control": 0.689846932888031 } }, { "id": 4356, "title": "Fermi-surface effect on magnetic interlayer coupling -: art. no. 064408", "abstract": "The oscillating magnetic interlayer coupling of Fe over spacer layers consisting of CuxPd1-x alloys is investigated by first principles density functional theory. The amplitude, period, and phase of t...", "citations": 10, "author_count": 7, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4363, "doi": "10.1103/PhysRevB.70.064408", "umap_coordinates": { "x": 393.3131408691406, "y": 135.84222412109375, "z": 208.73333740234375 }, "tsne_coordinates": { "x": 10.07374095916748, "y": -36.531898498535156, "z": 15.049153327941895 }, "pca_coordinates": { "x": 3.1548585891723633, "y": -1.1453680992126465, "z": -1.3580310344696045 }, "axis_scores": { "Quantum imaging": 0.6981795430183411, "Quantum Life Science Sensing": 0.7104419469833374, "Quantum sensing Detection": 0.6796595454216003, "Quantum sensing Metrology": 0.6865288019180298, "Quantum sensing navigation": 0.6835707426071167, "Quantum sensing Position": 0.6760244965553284, "Quantum sensing Timing": 0.6645776033401489, "Quantum sensing": 0.6966768503189087, "Quantum control": 0.6723239421844482 } }, { "id": 4357, "title": "General and class specific models for prediction of soil sorption using various physicochemical descriptors", "abstract": "Diverse chemical descriptors were explored for use in QSAR models aimed to screen the soil sorption potential of organic compounds. The descriptors included logP. HyperChem QSARProperties descriptors....", "citations": 14, "author_count": 6, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4364, "doi": "10.1021/ci025540p", "umap_coordinates": { "x": 393.28179931640625, "y": 137.1031494140625, "z": 204.93930053710938 }, "tsne_coordinates": { "x": 1.7308123111724854, "y": 17.07423973083496, "z": 27.11208152770996 }, "pca_coordinates": { "x": -2.755491256713867, "y": 1.3342571258544922, "z": -2.898768663406372 }, "axis_scores": { "Quantum imaging": 0.6519763469696045, "Quantum Life Science Sensing": 0.6755534410476685, "Quantum sensing Detection": 0.6547916531562805, "Quantum sensing Metrology": 0.6491261720657349, "Quantum sensing navigation": 0.6548594832420349, "Quantum sensing Position": 0.6250543594360352, "Quantum sensing Timing": 0.6240572333335876, "Quantum sensing": 0.6722318530082703, "Quantum control": 0.6584362983703613 } }, { "id": 4358, "title": "Experimental Observation of Hardy-Like Quantum Contextuality", "abstract": "Contextuality is a fundamental property of quantum theory and a critical resource for quantum computation. Here, we experimentally observe the arguably cleanest form of contextuality in quantum theory...", "citations": 34, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4365, "doi": "10.1103/PhysRevLett.113.250403", "umap_coordinates": { "x": 395.6399841308594, "y": 136.90713500976562, "z": 207.68751525878906 }, "tsne_coordinates": { "x": -19.17838478088379, "y": -0.1496846079826355, "z": 7.15545129776001 }, "pca_coordinates": { "x": 3.3495068550109863, "y": 3.3936638832092285, "z": -0.35696518421173096 }, "axis_scores": { "Quantum imaging": 0.7184652090072632, "Quantum Life Science Sensing": 0.7337162494659424, "Quantum sensing Detection": 0.7263950705528259, "Quantum sensing Metrology": 0.709093451499939, "Quantum sensing navigation": 0.7334413528442383, "Quantum sensing Position": 0.7275476455688477, "Quantum sensing Timing": 0.7369502186775208, "Quantum sensing": 0.7432458400726318, "Quantum control": 0.7076534032821655 } }, { "id": 4359, "title": "Inverse engineering of shortcut pulses for high fidelity initialization on qubits closely spaced in frequency", "abstract": "High-fidelity qubit initialization is of significance for efficient error correction in fault tolerant quantum algorithms. Combining two best worlds, speed and robustness, to achieve high-fidelity sta...", "citations": 21, "author_count": 10, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4366, "doi": "10.1364/OE.27.008267", "umap_coordinates": { "x": 394.6531982421875, "y": 135.8247528076172, "z": 206.72427368164062 }, "tsne_coordinates": { "x": -21.3818416595459, "y": -6.153001308441162, "z": -18.40814781188965 }, "pca_coordinates": { "x": 1.763472557067871, "y": 1.7150516510009766, "z": 1.0410346984863281 }, "axis_scores": { "Quantum imaging": 0.7382658123970032, "Quantum Life Science Sensing": 0.7324293851852417, "Quantum sensing Detection": 0.7027900815010071, "Quantum sensing Metrology": 0.7145323753356934, "Quantum sensing navigation": 0.7258041501045227, "Quantum sensing Position": 0.7034736275672913, "Quantum sensing Timing": 0.7371239066123962, "Quantum sensing": 0.7266180515289307, "Quantum control": 0.7012709379196167 } }, { "id": 4360, "title": "Double-quantum solid-state NMR of 13C spin pairs coupled to 14N", "abstract": "We examine the double-quantum magic angle spinning NMR spectra of pairs of C-13 nuclei coupled to one or more N-14 nuclei. The experimental spectra of C-13(2)-glycine and glycyl-[C-13(2)]-glycyl-glyci...", "citations": 8, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4367, "doi": "10.1016/S1090-7807(02)00118-0", "umap_coordinates": { "x": 392.6499938964844, "y": 137.01718139648438, "z": 206.90476989746094 }, "tsne_coordinates": { "x": 16.51078224182129, "y": 0.7154068946838379, "z": 29.034849166870117 }, "pca_coordinates": { "x": 0.06348133087158203, "y": 0.9189012050628662, "z": 0.026590824127197266 }, "axis_scores": { "Quantum imaging": 0.7186650633811951, "Quantum Life Science Sensing": 0.7495957612991333, "Quantum sensing Detection": 0.7249157428741455, "Quantum sensing Metrology": 0.7181715965270996, "Quantum sensing navigation": 0.7231300473213196, "Quantum sensing Position": 0.7260290384292603, "Quantum sensing Timing": 0.7003817558288574, "Quantum sensing": 0.7357640266418457, "Quantum control": 0.6970691680908203 } }, { "id": 4361, "title": "Differentiation of True Nonlinear and Incoherent Mixing of Linear Signals in Action-Detected 2D Spectroscopy", "abstract": "Phase modulation and phase cycling schemes have been commonly used in electronic two-dimensional (2D) spectroscopy where the observables are incoherent signals such as fluorescence or photocurrent. Al...", "citations": 28, "author_count": 4, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4368, "doi": "10.1021/acs.jpca.9b01129", "umap_coordinates": { "x": 392.95654296875, "y": 136.51251220703125, "z": 206.39549255371094 }, "tsne_coordinates": { "x": 6.672492980957031, "y": -3.9731690883636475, "z": 10.91279125213623 }, "pca_coordinates": { "x": -1.2578232288360596, "y": 0.32650184631347656, "z": -0.2895817458629608 }, "axis_scores": { "Quantum imaging": 0.714306652545929, "Quantum Life Science Sensing": 0.6967641711235046, "Quantum sensing Detection": 0.7012012600898743, "Quantum sensing Metrology": 0.6769907474517822, "Quantum sensing navigation": 0.6861756443977356, "Quantum sensing Position": 0.6824333667755127, "Quantum sensing Timing": 0.6770403385162354, "Quantum sensing": 0.7041293382644653, "Quantum control": 0.6585677266120911 } }, { "id": 4362, "title": "Urea parametrization for molecular dynamics simulations", "abstract": "Although the idea of urea as water structure breaker is widely spread, urea dimer formation is also thought to be an important factor influencing the behavior of urea-water solutions. We use this last...", "citations": 26, "author_count": 3, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4369, "doi": "10.1016/j.theochem.2005.10.018", "umap_coordinates": { "x": 393.67333984375, "y": 137.05833435058594, "z": 205.32627868652344 }, "tsne_coordinates": { "x": -13.096923828125, "y": 17.442819595336914, "z": 20.08512306213379 }, "pca_coordinates": { "x": -1.7854485511779785, "y": 2.2403998374938965, "z": -3.37644362449646 }, "axis_scores": { "Quantum imaging": 0.7231336832046509, "Quantum Life Science Sensing": 0.7428706884384155, "Quantum sensing Detection": 0.7026948928833008, "Quantum sensing Metrology": 0.7017438411712646, "Quantum sensing navigation": 0.7234282493591309, "Quantum sensing Position": 0.6986474394798279, "Quantum sensing Timing": 0.7012763619422913, "Quantum sensing": 0.7233742475509644, "Quantum control": 0.741510808467865 } }, { "id": 4363, "title": "PREDICTION OF SAMPLING DEPTH AND PHOTON PATHLENGTH IN LASER-DOPPLER FLOWMETRY", "abstract": "Monte Carlo simulation of photon migration in tissue was used to assess the sampling depth, measuring depth and photon pathlength in laser Doppler flowmetry. The median sampling depth and photon pathl...", "citations": 178, "author_count": 3, "categories": [ "Computer Science" ], "year": 1993, "topic": [ "all" ], "embedding_index": 4370, "doi": "10.1007/BF02458050", "umap_coordinates": { "x": 395.2129821777344, "y": 134.7960205078125, "z": 205.38473510742188 }, "tsne_coordinates": { "x": 0.7972294092178345, "y": 29.987957000732422, "z": -31.108991622924805 }, "pca_coordinates": { "x": -1.1742807626724243, "y": 3.7562413215637207, "z": 1.8383564949035645 }, "axis_scores": { "Quantum imaging": 0.7079869508743286, "Quantum Life Science Sensing": 0.7219797968864441, "Quantum sensing Detection": 0.705968976020813, "Quantum sensing Metrology": 0.707213819026947, "Quantum sensing navigation": 0.751809298992157, "Quantum sensing Position": 0.7365542054176331, "Quantum sensing Timing": 0.695740282535553, "Quantum sensing": 0.7128577828407288, "Quantum control": 0.678178608417511 } }, { "id": 4364, "title": "Stellar intensity interferometry over kilometer baselines: Laboratory simulation of observations with the Cherenkov Telescope Array", "abstract": "A long-held astronomical vision is to realize diffraction-limited optical aperture synthesis over kilometer baselines. This will enable imaging of stellar surfaces and their environments, show their e...", "citations": 7, "author_count": 3, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4371, "doi": "10.1117/12.2055131", "umap_coordinates": { "x": 395.43023681640625, "y": 133.79193115234375, "z": 206.39369201660156 }, "tsne_coordinates": { "x": -17.67205810546875, "y": 10.415613174438477, "z": -37.85176086425781 }, "pca_coordinates": { "x": 0.284229040145874, "y": 1.5488638877868652, "z": 2.1527624130249023 }, "axis_scores": { "Quantum imaging": 0.7489064931869507, "Quantum Life Science Sensing": 0.7448407411575317, "Quantum sensing Detection": 0.71211177110672, "Quantum sensing Metrology": 0.7383966445922852, "Quantum sensing navigation": 0.7288894653320312, "Quantum sensing Position": 0.7071421146392822, "Quantum sensing Timing": 0.7149163484573364, "Quantum sensing": 0.7313221096992493, "Quantum control": 0.7028297185897827 } }, { "id": 4365, "title": "Subgap transport in superconductor-semiconductor hybrid islands: Weak and strong coupling regimes", "abstract": "Superconductor-semiconductor hybrid systems play a crucial role in realizing nanoscale quantum devices, including hybrid qubits, Majorana bound states, and Kitaev chains. For such hybrid devices, subg...", "citations": 5, "author_count": 9, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4372, "doi": "10.1103/PhysRevResearch.7.023022", "umap_coordinates": { "x": 394.2517395019531, "y": 135.79234313964844, "z": 208.96066284179688 }, "tsne_coordinates": { "x": -7.519960880279541, "y": -39.48235321044922, "z": 7.631058692932129 }, "pca_coordinates": { "x": 3.2522082328796387, "y": -2.065168857574463, "z": -0.21576076745986938 }, "axis_scores": { "Quantum imaging": 0.6890981793403625, "Quantum Life Science Sensing": 0.7155373692512512, "Quantum sensing Detection": 0.6883955597877502, "Quantum sensing Metrology": 0.6725518107414246, "Quantum sensing navigation": 0.6980273723602295, "Quantum sensing Position": 0.6742927432060242, "Quantum sensing Timing": 0.6523973345756531, "Quantum sensing": 0.6995909214019775, "Quantum control": 0.6633318662643433 } }, { "id": 4366, "title": "Sterically Tuned Ortho-Phenylene-Linked Donor-Acceptor Benzothiazole-Based Boron Difluoride Complexes as Thermally-Activated Delayed Fluorescence Emitters for Organic Light-Emitting Diodes", "abstract": "Two donor-acceptor dyes with an ortho-phenylene-linked carbazole electron donor and a benzothiazole-fused boron heterocyclic acceptor were designed, synthesized, and spectroscopically investigated. Du...", "citations": 15, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4373, "doi": "10.1021/acsami.4c12662", "umap_coordinates": { "x": 392.10125732421875, "y": 135.67442321777344, "z": 204.70523071289062 }, "tsne_coordinates": { "x": 7.42518424987793, "y": 8.558764457702637, "z": -17.690834045410156 }, "pca_coordinates": { "x": -2.5231070518493652, "y": -2.6543564796447754, "z": -1.4912889003753662 }, "axis_scores": { "Quantum imaging": 0.7123804688453674, "Quantum Life Science Sensing": 0.7000904083251953, "Quantum sensing Detection": 0.6876063942909241, "Quantum sensing Metrology": 0.6663439273834229, "Quantum sensing navigation": 0.6847097873687744, "Quantum sensing Position": 0.6759788990020752, "Quantum sensing Timing": 0.70478755235672, "Quantum sensing": 0.7054234147071838, "Quantum control": 0.6851757168769836 } }, { "id": 4367, "title": "Formation of the CH/CD molecules through radiative association of C with H/D", "abstract": "Reaction rate constants have been calculated for the formation of CH and CD molecules through radiative association of C and H/D atoms in their ground states. Quantum mechanical and semiclassical/clas...", "citations": 3, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4374, "doi": "10.1093/mnras/stac2881", "umap_coordinates": { "x": 393.70367431640625, "y": 136.69448852539062, "z": 206.44940185546875 }, "tsne_coordinates": { "x": -6.421375751495361, "y": -1.065873384475708, "z": 23.296602249145508 }, "pca_coordinates": { "x": 0.5615365505218506, "y": 1.717708706855774, "z": -2.0354559421539307 }, "axis_scores": { "Quantum imaging": 0.6822946667671204, "Quantum Life Science Sensing": 0.7200117707252502, "Quantum sensing Detection": 0.6975825428962708, "Quantum sensing Metrology": 0.6852076053619385, "Quantum sensing navigation": 0.681597888469696, "Quantum sensing Position": 0.6604763269424438, "Quantum sensing Timing": 0.6672385334968567, "Quantum sensing": 0.6998318433761597, "Quantum control": 0.6716970801353455 } }, { "id": 4368, "title": "Coordination polymers for energy transfer: Preparations, properties, sensing applications, and perspectives", "abstract": "This review highlights the recent progress of bulk and nanoscale coordination polymer (CP) materials for energy transfer. Artificial light-harvesting materials with efficient energy transfer are pract...", "citations": 416, "author_count": 6, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4375, "doi": "10.1016/j.ccr.2014.10.006", "umap_coordinates": { "x": 393.1446228027344, "y": 134.65321350097656, "z": 204.3985137939453 }, "tsne_coordinates": { "x": 14.273913383483887, "y": 16.103422164916992, "z": -3.63932466506958 }, "pca_coordinates": { "x": -4.360301494598389, "y": -0.449709415435791, "z": -2.392446279525757 }, "axis_scores": { "Quantum imaging": 0.7166783809661865, "Quantum Life Science Sensing": 0.7509380578994751, "Quantum sensing Detection": 0.7150750756263733, "Quantum sensing Metrology": 0.7065272927284241, "Quantum sensing navigation": 0.6887589693069458, "Quantum sensing Position": 0.6933644413948059, "Quantum sensing Timing": 0.6849205493927002, "Quantum sensing": 0.7320564985275269, "Quantum control": 0.6893868446350098 } }, { "id": 4369, "title": "Quantum coherence in photosynthesis for efficient solar-energy conversion", "abstract": "The crucial step in the conversion of solar to chemical energy in photosynthesis takes place in the reaction centre, where the absorbed excitation energy is converted into a stable charge-separated st...", "citations": 552, "author_count": 8, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4376, "doi": "10.1038/NPHYS3017", "umap_coordinates": { "x": 392.4674072265625, "y": 135.78639221191406, "z": 205.7500457763672 }, "tsne_coordinates": { "x": 11.022974014282227, "y": -3.1707544326782227, "z": 14.023695945739746 }, "pca_coordinates": { "x": -0.10551977157592773, "y": -1.7330636978149414, "z": -0.15016478300094604 }, "axis_scores": { "Quantum imaging": 0.7349464893341064, "Quantum Life Science Sensing": 0.7662113308906555, "Quantum sensing Detection": 0.7277831435203552, "Quantum sensing Metrology": 0.7080445885658264, "Quantum sensing navigation": 0.7277765870094299, "Quantum sensing Position": 0.6848790049552917, "Quantum sensing Timing": 0.6902878284454346, "Quantum sensing": 0.7394595742225647, "Quantum control": 0.7081568241119385 } }, { "id": 4370, "title": "Simple Epitaxial Lateral Overgrowth Process as a Strategy for Photonic Integration on Silicon", "abstract": "In this paper we propose a strategy to achieve monolithic integration of III-Vs on Si for photonic integration through a simple process. By mimicking the SiO2/Si/SiO2 waveguide necessary to couple lig...", "citations": 29, "author_count": 8, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4377, "doi": "10.1109/JSTQE.2013.2294453", "umap_coordinates": { "x": 394.2370300292969, "y": 133.54461669921875, "z": 206.63099670410156 }, "tsne_coordinates": { "x": 0.8097316026687622, "y": 2.437878370285034, "z": -32.717769622802734 }, "pca_coordinates": { "x": -1.1111583709716797, "y": -1.697892189025879, "z": 3.134004592895508 }, "axis_scores": { "Quantum imaging": 0.7165812849998474, "Quantum Life Science Sensing": 0.7132964134216309, "Quantum sensing Detection": 0.7149405479431152, "Quantum sensing Metrology": 0.7098091244697571, "Quantum sensing navigation": 0.7159503698348999, "Quantum sensing Position": 0.6797670125961304, "Quantum sensing Timing": 0.6873384118080139, "Quantum sensing": 0.7267483472824097, "Quantum control": 0.7075725197792053 } }, { "id": 4371, "title": "Effect of sonication and serum proteins on copper release from copper nanoparticles and the toxicity towards lung epithelial cells", "abstract": "Different methodological settings can influence particle characteristics and toxicity in nanotoxicology. The aim of this study was to investigate how serum proteins and sonication of Cu nanoparticle s...", "citations": 57, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4378, "doi": "10.3109/17435390.2010.536268", "umap_coordinates": { "x": 394.2843933105469, "y": 134.6690673828125, "z": 204.24374389648438 }, "tsne_coordinates": { "x": 13.972683906555176, "y": 27.47927474975586, "z": 0.43644770979881287 }, "pca_coordinates": { "x": -3.6278045177459717, "y": 0.979193925857544, "z": -1.8029892444610596 }, "axis_scores": { "Quantum imaging": 0.6474018692970276, "Quantum Life Science Sensing": 0.6981006860733032, "Quantum sensing Detection": 0.6610592007637024, "Quantum sensing Metrology": 0.6269924640655518, "Quantum sensing navigation": 0.6292176246643066, "Quantum sensing Position": 0.6290925741195679, "Quantum sensing Timing": 0.619001567363739, "Quantum sensing": 0.662277340888977, "Quantum control": 0.666880190372467 } }, { "id": 4372, "title": "Dynamic properties and optical phase conjugation of two-photon pumped ultrashort blue stimulated emission in a chromophore solution", "abstract": "The dynamic properties of two-photon pumped blue lasing (similar to 470 nm) in the solution of an organic chromophore [2-acetyl-6-(dimethylamino)naphthalene], excited by similar to 160-fs laser pulses...", "citations": 15, "author_count": 11, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4379, "doi": "10.1103/PhysRevA.77.013824", "umap_coordinates": { "x": 393.3081970214844, "y": 135.7613525390625, "z": 205.6480255126953 }, "tsne_coordinates": { "x": -2.2291297912597656, "y": -1.457559585571289, "z": 8.505030632019043 }, "pca_coordinates": { "x": 0.908430814743042, "y": -1.2366969585418701, "z": -0.6801259517669678 }, "axis_scores": { "Quantum imaging": 0.7187953591346741, "Quantum Life Science Sensing": 0.7400380969047546, "Quantum sensing Detection": 0.7046268582344055, "Quantum sensing Metrology": 0.6882610321044922, "Quantum sensing navigation": 0.7126572728157043, "Quantum sensing Position": 0.6874327659606934, "Quantum sensing Timing": 0.6876583695411682, "Quantum sensing": 0.7152802348136902, "Quantum control": 0.6830361485481262 } }, { "id": 4373, "title": "Pumping of energy into a mesoscopic ring: Exactly solvable model", "abstract": "We consider the energy stored in a one-dimensional ballistic ring with a barrier subjected to a linearly time-dependent magnetic flux. An exact analytical solution for the quantum dynamics of electron...", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4380, "doi": "10.1063/1.593523", "umap_coordinates": { "x": 394.0742492675781, "y": 135.98207092285156, "z": 207.88919067382812 }, "tsne_coordinates": { "x": -6.153692245483398, "y": -14.835200309753418, "z": 16.83013153076172 }, "pca_coordinates": { "x": 2.420762777328491, "y": -0.021939754486083984, "z": -1.5610663890838623 }, "axis_scores": { "Quantum imaging": 0.7387812733650208, "Quantum Life Science Sensing": 0.749428391456604, "Quantum sensing Detection": 0.7323776483535767, "Quantum sensing Metrology": 0.7356083989143372, "Quantum sensing navigation": 0.7230966687202454, "Quantum sensing Position": 0.7128030061721802, "Quantum sensing Timing": 0.7080099582672119, "Quantum sensing": 0.7539613842964172, "Quantum control": 0.7253870964050293 } }, { "id": 4374, "title": "p-adic probability prediction of correlations between particles in the two-slit and neutron interferometry experiments", "abstract": "We start from Feynman's idea to use negative probabilities to describe the two-slit experiment and other quantum interference experiments. Formally by using negative probability distributions we can e...", "citations": 16, "author_count": 2, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4381, "doi": null, "umap_coordinates": { "x": 391.95281982421875, "y": 139.45730590820312, "z": 209.49362182617188 }, "tsne_coordinates": { "x": -7.94205379486084, "y": 40.410484313964844, "z": -3.218874454498291 }, "pca_coordinates": { "x": -0.39672720432281494, "y": 3.4514150619506836, "z": -0.3911367356777191 }, "axis_scores": { "Quantum imaging": 0.7450360655784607, "Quantum Life Science Sensing": 0.7398039698600769, "Quantum sensing Detection": 0.7500928044319153, "Quantum sensing Metrology": 0.7341915965080261, "Quantum sensing navigation": 0.7575371265411377, "Quantum sensing Position": 0.7273676991462708, "Quantum sensing Timing": 0.7196057438850403, "Quantum sensing": 0.7574754953384399, "Quantum control": 0.7494053840637207 } }, { "id": 4375, "title": "Search for supersymmetry in di-photon final states at √s=1.96 TeV", "abstract": "We report results of a search for supersymmetry (SUSY) with gauge-mediated symmetry breaking in di-photon events collected by the DO experiment at the Fermilab Tevatron Collider in 2002-2006. In 1.1 f...", "citations": 36, "author_count": 549, "categories": [ "Astronomy & Astrophysics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4382, "doi": "10.1016/j.physletb.2007.12.006", "umap_coordinates": { "x": 396.7292785644531, "y": 134.45401000976562, "z": 207.6089630126953 }, "tsne_coordinates": { "x": -39.14949035644531, "y": -0.03558202087879181, "z": -11.708054542541504 }, "pca_coordinates": { "x": 0.6832650899887085, "y": 0.3482346534729004, "z": 1.339343547821045 }, "axis_scores": { "Quantum imaging": 0.7074400186538696, "Quantum Life Science Sensing": 0.7092993259429932, "Quantum sensing Detection": 0.7121683359146118, "Quantum sensing Metrology": 0.6840766072273254, "Quantum sensing navigation": 0.7036223411560059, "Quantum sensing Position": 0.688012957572937, "Quantum sensing Timing": 0.6822404265403748, "Quantum sensing": 0.7044788599014282, "Quantum control": 0.655009925365448 } }, { "id": 4376, "title": "Time-dependent spin and transport properties of a single-molecule magnet in a tunnel junction", "abstract": "In single-molecule magnets, the exchange between a localized spin moment and the electronic background provides a suitable laboratory for studies of dynamical aspects of both local spin and transport ...", "citations": 30, "author_count": 3, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4383, "doi": "10.1103/PhysRevB.94.054311", "umap_coordinates": { "x": 394.07342529296875, "y": 134.72988891601562, "z": 208.8297576904297 }, "tsne_coordinates": { "x": 10.211557388305664, "y": -23.746959686279297, "z": 22.21031379699707 }, "pca_coordinates": { "x": 3.3003439903259277, "y": -2.1781506538391113, "z": -0.4628479778766632 }, "axis_scores": { "Quantum imaging": 0.7003737092018127, "Quantum Life Science Sensing": 0.7185086011886597, "Quantum sensing Detection": 0.6943100690841675, "Quantum sensing Metrology": 0.6903278827667236, "Quantum sensing navigation": 0.702277421951294, "Quantum sensing Position": 0.6802771091461182, "Quantum sensing Timing": 0.6994096040725708, "Quantum sensing": 0.7126626372337341, "Quantum control": 0.6785942912101746 } }, { "id": 4377, "title": "Ultrafast dynamics in the vicinity of quantum light-induced conical intersections", "abstract": "Nonadiabatic effects appear due to avoided crossings or conical intersections (CIs) that are either intrinsic properties in field-free space or induced by a classical laser field in a molecule. It was...", "citations": 46, "author_count": 5, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4384, "doi": "10.1088/1367-2630/ab3fcc", "umap_coordinates": { "x": 393.6992492675781, "y": 136.59622192382812, "z": 207.3026123046875 }, "tsne_coordinates": { "x": -10.304821968078613, "y": -6.813295364379883, "z": 24.50142478942871 }, "pca_coordinates": { "x": 1.9685184955596924, "y": 1.4435335397720337, "z": -1.2841706275939941 }, "axis_scores": { "Quantum imaging": 0.7362002730369568, "Quantum Life Science Sensing": 0.7257142663002014, "Quantum sensing Detection": 0.7156062722206116, "Quantum sensing Metrology": 0.6846520900726318, "Quantum sensing navigation": 0.710853636264801, "Quantum sensing Position": 0.695795476436615, "Quantum sensing Timing": 0.7000682353973389, "Quantum sensing": 0.7151657342910767, "Quantum control": 0.7175428867340088 } }, { "id": 4378, "title": "Thermodynamic classification of three-dimensional Kitaev spin liquids", "abstract": "In the field of frustrated magnetism, Kitaev models provide a unique framework to study the phenomena of spin fractionalization and emergent lattice gauge theories in two and three spatial dimensions....", "citations": 29, "author_count": 9, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4385, "doi": "10.1103/PhysRevB.102.075125", "umap_coordinates": { "x": 394.5260925292969, "y": 137.00486755371094, "z": 208.97738647460938 }, "tsne_coordinates": { "x": -20.279062271118164, "y": -29.232770919799805, "z": 22.37872886657715 }, "pca_coordinates": { "x": 3.904600143432617, "y": -0.2936067581176758, "z": -2.3483200073242188 }, "axis_scores": { "Quantum imaging": 0.7037494778633118, "Quantum Life Science Sensing": 0.7205559611320496, "Quantum sensing Detection": 0.7002542018890381, "Quantum sensing Metrology": 0.6966055035591125, "Quantum sensing navigation": 0.7342338562011719, "Quantum sensing Position": 0.6836411356925964, "Quantum sensing Timing": 0.6692736744880676, "Quantum sensing": 0.7155575156211853, "Quantum control": 0.6905304193496704 } }, { "id": 4379, "title": "Robustness of optimal energy thresholds in photon-counting spectral CT", "abstract": "An important question when developing photon-counting detectors for computed tomography is how to select energy thresholds. In this work thresholds are optimized by maximizing signal-difference-to-noi...", "citations": 18, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4386, "doi": "10.1016/j.nima.2019.163132", "umap_coordinates": { "x": 395.02716064453125, "y": 132.75820922851562, "z": 205.39920043945312 }, "tsne_coordinates": { "x": -15.203363418579102, "y": 14.45687198638916, "z": -15.938520431518555 }, "pca_coordinates": { "x": -2.277808427810669, "y": 2.0718727111816406, "z": 2.581096649169922 }, "axis_scores": { "Quantum imaging": 0.7413747906684875, "Quantum Life Science Sensing": 0.740545392036438, "Quantum sensing Detection": 0.744722306728363, "Quantum sensing Metrology": 0.7207409143447876, "Quantum sensing navigation": 0.7228794693946838, "Quantum sensing Position": 0.7104867100715637, "Quantum sensing Timing": 0.7379539012908936, "Quantum sensing": 0.7335817217826843, "Quantum control": 0.6843847036361694 } }, { "id": 4380, "title": "Perfect transmission and Aharanov-Bohm oscillations in topological insulator nanowires with nonuniform cross section", "abstract": "Topological insulator nanowires with uniform cross section, combined with a magnetic flux, can host both a perfectly transmitted mode and Majorana zero modes. Here we consider nanowires with rippled s...", "citations": 9, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4387, "doi": "10.1103/PhysRevB.101.045401", "umap_coordinates": { "x": 393.94171142578125, "y": 135.4369659423828, "z": 209.02757263183594 }, "tsne_coordinates": { "x": 1.9251354932785034, "y": -27.01405143737793, "z": 8.206771850585938 }, "pca_coordinates": { "x": 4.783454895019531, "y": -2.1816344261169434, "z": 1.2370426654815674 }, "axis_scores": { "Quantum imaging": 0.702315628528595, "Quantum Life Science Sensing": 0.6872541904449463, "Quantum sensing Detection": 0.6893157958984375, "Quantum sensing Metrology": 0.6963380575180054, "Quantum sensing navigation": 0.7061394453048706, "Quantum sensing Position": 0.673165500164032, "Quantum sensing Timing": 0.6931000351905823, "Quantum sensing": 0.6981112957000732, "Quantum control": 0.6787330508232117 } }, { "id": 4381, "title": "Bright Free Exciton Electroluminescence from Mn-Doped Two-Dimensional Layered Perovskites", "abstract": "Two-dimensional (2D) perovskites incorporating hydrophobic organic spacer cations show improved film stability and morphology compared to their three-dimensional (3D) counterparts. However, 2D perovsk...", "citations": 40, "author_count": 16, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4388, "doi": "10.1021/acs.jpclett.9b01326", "umap_coordinates": { "x": 391.64532470703125, "y": 134.3723907470703, "z": 205.8124542236328 }, "tsne_coordinates": { "x": 18.961984634399414, "y": -8.069457054138184, "z": -16.14667510986328 }, "pca_coordinates": { "x": -2.5280230045318604, "y": -3.8334579467773438, "z": -1.0538604259490967 }, "axis_scores": { "Quantum imaging": 0.6987597346305847, "Quantum Life Science Sensing": 0.6819370985031128, "Quantum sensing Detection": 0.681978702545166, "Quantum sensing Metrology": 0.6610009670257568, "Quantum sensing navigation": 0.660936176776886, "Quantum sensing Position": 0.6485289335250854, "Quantum sensing Timing": 0.6379929184913635, "Quantum sensing": 0.6909452080726624, "Quantum control": 0.6559154391288757 } }, { "id": 4382, "title": "On-Chip Photonic Crystal Surface-Emitting Membrane Lasers", "abstract": "Photonic crystal lasers can be realized either based on photonic bandgap defect mode or defect-free bandedge mode, while the bandgap is not essential for the latter. We review here defect-free bandedg...", "citations": 12, "author_count": 8, "categories": [ "Engineering" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4389, "doi": "10.1109/JSTQE.2019.2902904", "umap_coordinates": { "x": 394.289794921875, "y": 133.8702392578125, "z": 206.66281127929688 }, "tsne_coordinates": { "x": 0.5588118433952332, "y": 1.5788874626159668, "z": -34.97690963745117 }, "pca_coordinates": { "x": -1.016810417175293, "y": -1.6402416229248047, "z": 1.256159782409668 }, "axis_scores": { "Quantum imaging": 0.729125440120697, "Quantum Life Science Sensing": 0.7428776621818542, "Quantum sensing Detection": 0.7311663031578064, "Quantum sensing Metrology": 0.7300535440444946, "Quantum sensing navigation": 0.7153696417808533, "Quantum sensing Position": 0.6857527494430542, "Quantum sensing Timing": 0.7008935809135437, "Quantum sensing": 0.7460293769836426, "Quantum control": 0.7277143001556396 } }, { "id": 4383, "title": "Postselection-Loophole-Free Bell Violation with Genuine Time-Bin Entanglement", "abstract": "Entanglement is an invaluable resource for fundamental tests of physics and the implementation of quantum information protocols such as device-independent secure communications. In particular, time-bi...", "citations": 56, "author_count": 8, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4390, "doi": "10.1103/PhysRevLett.121.190401", "umap_coordinates": { "x": 395.8863525390625, "y": 135.88690185546875, "z": 207.38046264648438 }, "tsne_coordinates": { "x": -22.6978816986084, "y": -3.8279855251312256, "z": -1.5580331087112427 }, "pca_coordinates": { "x": 3.769843101501465, "y": 2.470453977584839, "z": 1.7243335247039795 }, "axis_scores": { "Quantum imaging": 0.7018769979476929, "Quantum Life Science Sensing": 0.7094221115112305, "Quantum sensing Detection": 0.7149102091789246, "Quantum sensing Metrology": 0.6895228028297424, "Quantum sensing navigation": 0.7166515588760376, "Quantum sensing Position": 0.6959095597267151, "Quantum sensing Timing": 0.7630349397659302, "Quantum sensing": 0.7146870493888855, "Quantum control": 0.7039462924003601 } }, { "id": 4384, "title": "Liposomes and lipid bilayers in biosensors", "abstract": "Biosensors for the rapid, specific, and sensitive detection of analytes play a vital role in healthcare, drug discovery, food safety, and environmental monitoring. Although a number of sensing concept...", "citations": 160, "author_count": 5, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4391, "doi": "10.1016/j.cis.2017.05.020", "umap_coordinates": { "x": 393.4677429199219, "y": 134.38185119628906, "z": 204.41473388671875 }, "tsne_coordinates": { "x": 21.353532791137695, "y": 20.298269271850586, "z": 8.90764331817627 }, "pca_coordinates": { "x": -3.228055477142334, "y": -0.8744716644287109, "z": -2.050710678100586 }, "axis_scores": { "Quantum imaging": 0.7230958938598633, "Quantum Life Science Sensing": 0.7554079294204712, "Quantum sensing Detection": 0.7248245477676392, "Quantum sensing Metrology": 0.7182528972625732, "Quantum sensing navigation": 0.7161166071891785, "Quantum sensing Position": 0.7060661315917969, "Quantum sensing Timing": 0.6759949922561646, "Quantum sensing": 0.733137845993042, "Quantum control": 0.6998114585876465 } }, { "id": 4385, "title": "Bound entangled states with extremal properties", "abstract": "Following recent work of Beigi and Shor, we investigate positive partial transpose (PPT) states that are heavily entangled. We first exploit volumetric methods to show that in a randomly chosen direct...", "citations": 5, "author_count": 6, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4392, "doi": "10.1103/PhysRevA.90.012301", "umap_coordinates": { "x": 395.7494201660156, "y": 136.7294158935547, "z": 208.15115356445312 }, "tsne_coordinates": { "x": -22.57361602783203, "y": -10.915618896484375, "z": 8.271934509277344 }, "pca_coordinates": { "x": 5.16161584854126, "y": 0.6328792572021484, "z": 0.37465840578079224 }, "axis_scores": { "Quantum imaging": 0.7395882606506348, "Quantum Life Science Sensing": 0.7316827774047852, "Quantum sensing Detection": 0.7570794820785522, "Quantum sensing Metrology": 0.7373257875442505, "Quantum sensing navigation": 0.750963568687439, "Quantum sensing Position": 0.7359544038772583, "Quantum sensing Timing": 0.6945067644119263, "Quantum sensing": 0.7534263134002686, "Quantum control": 0.7129970788955688 } }, { "id": 4386, "title": "Initial photochemistry of bilirubin probed by femtosecond spectroscopy", "abstract": "Bilirubin is a breakdown product from heme catabolism, and reduced excretion of bilirubin can lead to jaundice. Phototherapy is the most common treatment for neonatal jaundice, a condition frequently ...", "citations": 29, "author_count": 3, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4393, "doi": "10.1021/jp073421c", "umap_coordinates": { "x": 392.4539794921875, "y": 136.41912841796875, "z": 204.8658905029297 }, "tsne_coordinates": { "x": 12.470016479492188, "y": 7.0318450927734375, "z": 8.626286506652832 }, "pca_coordinates": { "x": -2.772428512573242, "y": 0.2755720615386963, "z": -2.30411434173584 }, "axis_scores": { "Quantum imaging": 0.6867592334747314, "Quantum Life Science Sensing": 0.725687563419342, "Quantum sensing Detection": 0.683394730091095, "Quantum sensing Metrology": 0.6534133553504944, "Quantum sensing navigation": 0.6524502635002136, "Quantum sensing Position": 0.6587059497833252, "Quantum sensing Timing": 0.6616277694702148, "Quantum sensing": 0.688236653804779, "Quantum control": 0.633645236492157 } }, { "id": 4387, "title": "Theoretical assessment of naphazoline redoxchemistry and photochemistry", "abstract": "The imidazoline derivative naphazoline (2-(1-naphtylmethyl)-2-imidazoline) is an alpha(2)-adrenergic agonist used as non-prescription eye and nasal preparations. Besides its functionality in generatin...", "citations": 4, "author_count": 3, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4394, "doi": "10.1021/jp070207f", "umap_coordinates": { "x": 392.8566589355469, "y": 135.8241729736328, "z": 204.8615264892578 }, "tsne_coordinates": { "x": 4.412646293640137, "y": 8.412544250488281, "z": -1.6057292222976685 }, "pca_coordinates": { "x": -3.1125078201293945, "y": 0.0376582145690918, "z": -2.768258571624756 }, "axis_scores": { "Quantum imaging": 0.716454029083252, "Quantum Life Science Sensing": 0.7358959913253784, "Quantum sensing Detection": 0.6838971376419067, "Quantum sensing Metrology": 0.6834558248519897, "Quantum sensing navigation": 0.7003748416900635, "Quantum sensing Position": 0.6738486886024475, "Quantum sensing Timing": 0.6650121808052063, "Quantum sensing": 0.6982811689376831, "Quantum control": 0.6966301798820496 } }, { "id": 4388, "title": "Anharmonic corrections in constant-cutoff soliton model", "abstract": "We suggest a quantum stabilization method for the SU(2) sigma-model, based on the constant-cutoff limit of the cutoff quantization method developed by Balakrishna et al., which avoids the difficulties...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4395, "doi": "10.1007/BF02085774", "umap_coordinates": { "x": 394.1843566894531, "y": 137.0929412841797, "z": 208.0958251953125 }, "tsne_coordinates": { "x": -18.608808517456055, "y": 34.44068145751953, "z": 13.216973304748535 }, "pca_coordinates": { "x": 2.1232781410217285, "y": 1.2244075536727905, "z": -2.793605327606201 }, "axis_scores": { "Quantum imaging": 0.6416539549827576, "Quantum Life Science Sensing": 0.6680248975753784, "Quantum sensing Detection": 0.645484209060669, "Quantum sensing Metrology": 0.6289956569671631, "Quantum sensing navigation": 0.6543299555778503, "Quantum sensing Position": 0.6272187829017639, "Quantum sensing Timing": 0.6450235843658447, "Quantum sensing": 0.6515716314315796, "Quantum control": 0.6711001396179199 } }, { "id": 4389, "title": "SELECTIVE N-BROMOSUCCINIMIDE OXIDATION OF THE NON-FLUORESCENT TRYPTOPHAN-31 IN THE ACTIVE-CENTER OF THIOREDOXIN FROM ESCHERICHIA-COLI", "abstract": "The 2 tryptophan residues (Trp-28 and Trp-31) of thioredoxin-S2 (oxidized thioredoxin) from E. coli were selectively tritiated with trifluoroacetic [3H]acid. The 3H label was introduced to permit quan...", "citations": 17, "author_count": 2, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1981, "topic": [ "all" ], "embedding_index": 4396, "doi": "10.1021/bi00514a033", "umap_coordinates": { "x": 393.3020324707031, "y": 135.95681762695312, "z": 204.53921508789062 }, "tsne_coordinates": { "x": 2.7364401817321777, "y": 9.113883972167969, "z": -16.754016876220703 }, "pca_coordinates": { "x": -3.306088924407959, "y": -1.2268614768981934, "z": -1.5727250576019287 }, "axis_scores": { "Quantum imaging": 0.6887408494949341, "Quantum Life Science Sensing": 0.7056788802146912, "Quantum sensing Detection": 0.6947605609893799, "Quantum sensing Metrology": 0.6828563809394836, "Quantum sensing navigation": 0.6835496425628662, "Quantum sensing Position": 0.6546806693077087, "Quantum sensing Timing": 0.6571167707443237, "Quantum sensing": 0.6996892690658569, "Quantum control": 0.6719134449958801 } }, { "id": 4390, "title": "Multiconfiguration Dirac-Hartree-Fock calculations of transition rates and lifetimes of the eight lowest excited levels of radium", "abstract": "The multiconfiguration Dirac-Hartree-Fock (MCDHF) model has been employed to calculate the transition rates between the nine lowest levels of radium. The dominant rates were then used to evaluate the ...", "citations": 20, "author_count": 4, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4397, "doi": "10.1140/epjst/e2007-00110-3", "umap_coordinates": { "x": 394.8591003417969, "y": 136.00601196289062, "z": 206.6328125 }, "tsne_coordinates": { "x": -28.11632537841797, "y": 9.570189476013184, "z": -3.252089500427246 }, "pca_coordinates": { "x": 1.1715407371520996, "y": 1.394286870956421, "z": -1.1146293878555298 }, "axis_scores": { "Quantum imaging": 0.6682289838790894, "Quantum Life Science Sensing": 0.6892006397247314, "Quantum sensing Detection": 0.6604033708572388, "Quantum sensing Metrology": 0.6597980260848999, "Quantum sensing navigation": 0.6653786301612854, "Quantum sensing Position": 0.6539406180381775, "Quantum sensing Timing": 0.68583744764328, "Quantum sensing": 0.6701215505599976, "Quantum control": 0.6484291553497314 } }, { "id": 4391, "title": "Weyl anomalies of four dimensional conformal boundaries and defects", "abstract": "Motivated by questions about quantum information and classification of quantum field theories, we consider Conformal Field Theories (CFTs) in spacetime dimension d >= 5 with a conformally-invariant sp...", "citations": 30, "author_count": 6, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4398, "doi": "10.1007/JHEP02(2022)166", "umap_coordinates": { "x": 396.5989074707031, "y": 135.4794921875, "z": 206.9551239013672 }, "tsne_coordinates": { "x": -40.580902099609375, "y": 11.106199264526367, "z": -3.186232566833496 }, "pca_coordinates": { "x": 0.5127441883087158, "y": 1.7753963470458984, "z": -0.9457013607025146 }, "axis_scores": { "Quantum imaging": 0.7001166939735413, "Quantum Life Science Sensing": 0.6916619539260864, "Quantum sensing Detection": 0.6601055264472961, "Quantum sensing Metrology": 0.6551562547683716, "Quantum sensing navigation": 0.6812361478805542, "Quantum sensing Position": 0.667975902557373, "Quantum sensing Timing": 0.6925582885742188, "Quantum sensing": 0.6769373416900635, "Quantum control": 0.6862319111824036 } }, { "id": 4392, "title": "Strong-coupling limit of the driven dissipative light-matter interaction", "abstract": "We approach the strong-coupling thermodynamic limit in the response of the open driven Jaynes-Cummings (JC) oscillator. We do so by highlighting the role of quantum fluctuations against the semiclassi...", "citations": 6, "author_count": 2, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4399, "doi": "10.1103/PhysRevA.100.033810", "umap_coordinates": { "x": 394.80841064453125, "y": 136.37054443359375, "z": 207.4786376953125 }, "tsne_coordinates": { "x": -10.516785621643066, "y": -12.215500831604004, "z": -14.060503005981445 }, "pca_coordinates": { "x": 3.7887468338012695, "y": -0.1350996494293213, "z": -0.04246097803115845 }, "axis_scores": { "Quantum imaging": 0.7130761742591858, "Quantum Life Science Sensing": 0.7374314069747925, "Quantum sensing Detection": 0.7319462895393372, "Quantum sensing Metrology": 0.6908252239227295, "Quantum sensing navigation": 0.6962791085243225, "Quantum sensing Position": 0.6669562458992004, "Quantum sensing Timing": 0.6591141819953918, "Quantum sensing": 0.7211021184921265, "Quantum control": 0.7027996778488159 } }, { "id": 4393, "title": "Time-resolved botulinum neurotoxin A activity monitored using peptide-functionalized Au nanoparticle energy transfer sensors", "abstract": "We report herein on the employment of synthetic peptide-functionalized gold nanoparticles (AuNPs) with various diameters as radiative quenchers for the time-resolved monitoring of botulinum A light ch...", "citations": 31, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4400, "doi": "10.1039/c3sc53305k", "umap_coordinates": { "x": 392.27325439453125, "y": 135.2323455810547, "z": 205.1065216064453 }, "tsne_coordinates": { "x": 12.941048622131348, "y": 1.7232624292373657, "z": -2.5110533237457275 }, "pca_coordinates": { "x": -1.656135082244873, "y": -2.647258758544922, "z": 0.0024460554122924805 }, "axis_scores": { "Quantum imaging": 0.6753437519073486, "Quantum Life Science Sensing": 0.7290399074554443, "Quantum sensing Detection": 0.701446533203125, "Quantum sensing Metrology": 0.6898170113563538, "Quantum sensing navigation": 0.6855242252349854, "Quantum sensing Position": 0.6907758712768555, "Quantum sensing Timing": 0.6770429611206055, "Quantum sensing": 0.7052395343780518, "Quantum control": 0.6643903851509094 } }, { "id": 4394, "title": "Charge separation dynamics in a narrow band gap polymer-PbS nanocrystal blend for efficient hybrid solar cells", "abstract": "We have demonstrated efficient hybrid solar cells based on lead sulfide (PbS) nanocrystals and a narrow band gap polymer, poly[{2,5-bis(2-hexyldecyl)-2,3,5,6-tetrahydro-3,6-dioxopyrrolo[3,4-c]pyrrole-...", "citations": 46, "author_count": 9, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4401, "doi": "10.1039/c2jm34034h", "umap_coordinates": { "x": 391.75445556640625, "y": 135.58518981933594, "z": 206.0199432373047 }, "tsne_coordinates": { "x": 13.374021530151367, "y": 1.7591134309768677, "z": 1.1350994110107422 }, "pca_coordinates": { "x": -0.6642277240753174, "y": -3.4265828132629395, "z": -2.231374979019165 }, "axis_scores": { "Quantum imaging": 0.660559356212616, "Quantum Life Science Sensing": 0.6903715133666992, "Quantum sensing Detection": 0.6480011343955994, "Quantum sensing Metrology": 0.6206711530685425, "Quantum sensing navigation": 0.6601564884185791, "Quantum sensing Position": 0.6357520818710327, "Quantum sensing Timing": 0.6240423917770386, "Quantum sensing": 0.6537739038467407, "Quantum control": 0.6531189680099487 } }, { "id": 4395, "title": "Point-contact spectroscopy in heavy-fermion superconductors", "abstract": "We develop a microscopic model to calculate point-contact spectra between a metallic tip and a superconducting heavy-fermion system. We apply our tunneling model to the heavy fermion CeCoIn5, both in ...", "citations": 32, "author_count": 6, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4402, "doi": "10.1103/PhysRevB.82.014527", "umap_coordinates": { "x": 394.32196044921875, "y": 135.40895080566406, "z": 208.52825927734375 }, "tsne_coordinates": { "x": -0.9335660934448242, "y": -39.37199783325195, "z": -1.6492223739624023 }, "pca_coordinates": { "x": 3.6421375274658203, "y": -2.2327704429626465, "z": 0.2668153643608093 }, "axis_scores": { "Quantum imaging": 0.6994274854660034, "Quantum Life Science Sensing": 0.7234647274017334, "Quantum sensing Detection": 0.7099871635437012, "Quantum sensing Metrology": 0.6963174343109131, "Quantum sensing navigation": 0.6962940692901611, "Quantum sensing Position": 0.7153357863426208, "Quantum sensing Timing": 0.6911479830741882, "Quantum sensing": 0.7181831002235413, "Quantum control": 0.6768494844436646 } }, { "id": 4396, "title": "Noise performance of optical fiber transmission links that use non-degenerate cascaded phase-sensitive amplifiers", "abstract": "Based on semi-classical theory, the noise performance of a multispan fiber optical transmission system employing a cascaded phase-insensitive amplifier (PIA) and phase-sensitive amplifiers (PSAs) is i...", "citations": 46, "author_count": 6, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4403, "doi": "10.1364/OE.18.015426", "umap_coordinates": { "x": 394.81378173828125, "y": 134.38107299804688, "z": 206.9082489013672 }, "tsne_coordinates": { "x": -1.1102049350738525, "y": -4.712892532348633, "z": -30.238176345825195 }, "pca_coordinates": { "x": 0.35644805431365967, "y": 0.5040218830108643, "z": 3.299220085144043 }, "axis_scores": { "Quantum imaging": 0.7259080410003662, "Quantum Life Science Sensing": 0.7073052525520325, "Quantum sensing Detection": 0.7256937026977539, "Quantum sensing Metrology": 0.703675389289856, "Quantum sensing navigation": 0.7181788086891174, "Quantum sensing Position": 0.6923823356628418, "Quantum sensing Timing": 0.684169590473175, "Quantum sensing": 0.7234736084938049, "Quantum control": 0.6985443234443665 } }, { "id": 4397, "title": "Transport in robust fullerene-tube heterostructure transistor", "abstract": "A fullerene-tube (nanotube) heterostructure produces a robust resonant-tunneling transistor when leads of metallic nanotubes surround a short barrier of semiconducting nanotube and when a close metall...", "citations": 4, "author_count": 3, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4404, "doi": "10.1016/S0928-4931(01)00443-X", "umap_coordinates": { "x": 392.8112487792969, "y": 134.94161987304688, "z": 206.8789520263672 }, "tsne_coordinates": { "x": 18.338359832763672, "y": -8.7772855758667, "z": 26.15532112121582 }, "pca_coordinates": { "x": -0.7976537346839905, "y": -2.152535915374756, "z": -0.35164785385131836 }, "axis_scores": { "Quantum imaging": 0.6763365268707275, "Quantum Life Science Sensing": 0.6939831972122192, "Quantum sensing Detection": 0.6629589796066284, "Quantum sensing Metrology": 0.6467350721359253, "Quantum sensing navigation": 0.6828680634498596, "Quantum sensing Position": 0.6640788316726685, "Quantum sensing Timing": 0.6522217988967896, "Quantum sensing": 0.6829978823661804, "Quantum control": 0.6656043529510498 } }, { "id": 4398, "title": "Microfluidic (bio)-sensors based on 2-D layered materials", "abstract": "Microfluidics has brought about tremendous advancements in measurement science, enabling low sample consumption, fast readout due to short diffusion distances and high throughput; the small footprint ...", "citations": 12, "author_count": 3, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4405, "doi": "10.1016/j.trac.2022.116839", "umap_coordinates": { "x": 393.9718017578125, "y": 134.30517578125, "z": 204.54966735839844 }, "tsne_coordinates": { "x": 21.474103927612305, "y": 19.962602615356445, "z": -9.915173530578613 }, "pca_coordinates": { "x": -3.525404930114746, "y": 0.3608419895172119, "z": -0.23365837335586548 }, "axis_scores": { "Quantum imaging": 0.7024926543235779, "Quantum Life Science Sensing": 0.7218807935714722, "Quantum sensing Detection": 0.7091995477676392, "Quantum sensing Metrology": 0.713279664516449, "Quantum sensing navigation": 0.7000566124916077, "Quantum sensing Position": 0.7007253170013428, "Quantum sensing Timing": 0.6872780323028564, "Quantum sensing": 0.7228882312774658, "Quantum control": 0.6835674047470093 } }, { "id": 4399, "title": "Tight bound on finite-resolution quantum thermometry at low temperatures", "abstract": "Precise thermometry is of wide importance in science and technology in general and in quantum systems in particular. Here, we investigate fundamental precision limits for thermometry on cold quantum s...", "citations": 41, "author_count": 5, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4406, "doi": "10.1103/PhysRevResearch.2.033394", "umap_coordinates": { "x": 395.0641174316406, "y": 135.95184326171875, "z": 207.74853515625 }, "tsne_coordinates": { "x": -4.68025541305542, "y": -40.93814468383789, "z": 3.5608997344970703 }, "pca_coordinates": { "x": 3.7452049255371094, "y": 0.6473283767700195, "z": 0.8135305047035217 }, "axis_scores": { "Quantum imaging": 0.7427221536636353, "Quantum Life Science Sensing": 0.7736413478851318, "Quantum sensing Detection": 0.7697246074676514, "Quantum sensing Metrology": 0.764790415763855, "Quantum sensing navigation": 0.75215083360672, "Quantum sensing Position": 0.7613768577575684, "Quantum sensing Timing": 0.7486842274665833, "Quantum sensing": 0.7776368260383606, "Quantum control": 0.717467188835144 } }, { "id": 4400, "title": "Importance of Plasmonic Heating on Visible Light Driven Photocatalysis of Gold Nanoparticle Decorated Zinc Oxide Nanorods", "abstract": "Herein we explore the role of localized plasmonic heat generated by resonantly excited gold (Au) NPs on visible light driven photocatalysis process. Au NPs are deposited on the surface of vertically a...", "citations": 139, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4407, "doi": "10.1038/srep26913", "umap_coordinates": { "x": 392.37823486328125, "y": 134.0698699951172, "z": 205.88038635253906 }, "tsne_coordinates": { "x": 19.18463897705078, "y": 9.942716598510742, "z": -3.557788372039795 }, "pca_coordinates": { "x": -3.3898324966430664, "y": -3.0982422828674316, "z": -1.4385404586791992 }, "axis_scores": { "Quantum imaging": 0.6711216568946838, "Quantum Life Science Sensing": 0.7097315192222595, "Quantum sensing Detection": 0.6714975237846375, "Quantum sensing Metrology": 0.6661446690559387, "Quantum sensing navigation": 0.6618837118148804, "Quantum sensing Position": 0.6476698517799377, "Quantum sensing Timing": 0.6379802823066711, "Quantum sensing": 0.68425053358078, "Quantum control": 0.6612601280212402 } }, { "id": 4401, "title": "Highly Luminescent and Stable CsPbI3 Perovskite Nanocrystals with Sodium Dodecyl Sulfate Ligand Passivation for Red-Light-Emitting Diodes", "abstract": "CsPbI3 perovskite nanocrystals (NCs) have recently emerged as promising materials for optoelectronic devices because of their superior properties. However, the poor stability of the CsPbI3 NCs induced...", "citations": 100, "author_count": 11, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4408, "doi": "10.1021/acs.jpclett.1c00008", "umap_coordinates": { "x": 391.4692077636719, "y": 133.87689208984375, "z": 205.27435302734375 }, "tsne_coordinates": { "x": 19.80762481689453, "y": 0.17624139785766602, "z": -19.755002975463867 }, "pca_coordinates": { "x": -3.926802158355713, "y": -3.798776149749756, "z": -0.787889301776886 }, "axis_scores": { "Quantum imaging": 0.6832426190376282, "Quantum Life Science Sensing": 0.6978960037231445, "Quantum sensing Detection": 0.6749286651611328, "Quantum sensing Metrology": 0.6478119492530823, "Quantum sensing navigation": 0.6605393290519714, "Quantum sensing Position": 0.6290013790130615, "Quantum sensing Timing": 0.6328034400939941, "Quantum sensing": 0.6824683547019958, "Quantum control": 0.6739033460617065 } }, { "id": 4402, "title": "Enhanced Size Selection in Two-Photon Excitation for CsPbBr3 Perovskite Nanocrystals", "abstract": "Cesium lead bromide (CsPbBr3) perovskite nanocrystals (NCs), with large two-photon absorption (TPA) cross-section and bright photoluminescence (PL), have been demonstrated as stable two-photon-pumped ...", "citations": 40, "author_count": 9, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4409, "doi": "10.1021/acs.jpclett.7b02178", "umap_coordinates": { "x": 391.7576599121094, "y": 133.84921264648438, "z": 205.927490234375 }, "tsne_coordinates": { "x": 29.622896194458008, "y": -6.389712810516357, "z": -9.528404235839844 }, "pca_coordinates": { "x": -4.401185989379883, "y": -3.7752203941345215, "z": -0.4732092618942261 }, "axis_scores": { "Quantum imaging": 0.6842789053916931, "Quantum Life Science Sensing": 0.6666992902755737, "Quantum sensing Detection": 0.6712118983268738, "Quantum sensing Metrology": 0.6500988602638245, "Quantum sensing navigation": 0.6332679390907288, "Quantum sensing Position": 0.644267737865448, "Quantum sensing Timing": 0.6435481905937195, "Quantum sensing": 0.678396999835968, "Quantum control": 0.6514595746994019 } }, { "id": 4403, "title": "Recent method developments and applications in computational photochemistry, chemiluminescene and bioluminescence", "abstract": "This review summarises and discusses the advances of computational photochemistry in 2012 and 2013 in both methodology and applications fields. The methodological developments of models and tools used...", "citations": 5, "author_count": 5, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4410, "doi": "10.1039/9781782624547-00011", "umap_coordinates": { "x": 393.7879333496094, "y": 134.87216186523438, "z": 204.8098602294922 }, "tsne_coordinates": { "x": 0.6862406134605408, "y": 17.210527420043945, "z": -3.8576908111572266 }, "pca_coordinates": { "x": -3.3738818168640137, "y": 1.2043094635009766, "z": -0.5772898197174072 }, "axis_scores": { "Quantum imaging": 0.6881912350654602, "Quantum Life Science Sensing": 0.7091895341873169, "Quantum sensing Detection": 0.6697177290916443, "Quantum sensing Metrology": 0.6611449122428894, "Quantum sensing navigation": 0.663885235786438, "Quantum sensing Position": 0.653812050819397, "Quantum sensing Timing": 0.662001371383667, "Quantum sensing": 0.6745573282241821, "Quantum control": 0.6552336812019348 } }, { "id": 4404, "title": "Catalyst-free nanowires with axial InxGa1-xAs/GaAs heterostructures", "abstract": "Self-catalyzed growth of axial InxGa1-xAs/GaAs heterostructures has been realized by molecular beam epitaxy. The growth of the wires is achieved from gallium/indium alloy droplets that are nucleated i...", "citations": 81, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4411, "doi": "10.1088/0957-4484/20/7/075603", "umap_coordinates": { "x": 392.69775390625, "y": 134.1851806640625, "z": 207.93392944335938 }, "tsne_coordinates": { "x": 23.94624137878418, "y": -13.63414478302002, "z": 10.007828712463379 }, "pca_coordinates": { "x": -0.06616687774658203, "y": -2.184025764465332, "z": 2.994892120361328 }, "axis_scores": { "Quantum imaging": 0.6726183295249939, "Quantum Life Science Sensing": 0.6573070287704468, "Quantum sensing Detection": 0.657448410987854, "Quantum sensing Metrology": 0.6585613489151001, "Quantum sensing navigation": 0.6898540258407593, "Quantum sensing Position": 0.6682463884353638, "Quantum sensing Timing": 0.6542931795120239, "Quantum sensing": 0.6724005937576294, "Quantum control": 0.6581228375434875 } }, { "id": 4405, "title": "Clinical evaluation of a photon-counting tomosynthesis mammography system", "abstract": "Digital breast tomosynthesis promises solutions to many of the problems currently associated with projection mammography, including elimination of artifactual densities from the superposition of norma...", "citations": 4, "author_count": 9, "categories": [ "Computer Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4412, "doi": null, "umap_coordinates": { "x": 391.3880920410156, "y": 139.16111755371094, "z": 209.58517456054688 }, "tsne_coordinates": { "x": -0.9300999641418457, "y": 37.862091064453125, "z": -7.595188140869141 }, "pca_coordinates": { "x": -3.627288579940796, "y": 4.617332458496094, "z": 1.2506802082061768 }, "axis_scores": { "Quantum imaging": 0.7317888140678406, "Quantum Life Science Sensing": 0.726364016532898, "Quantum sensing Detection": 0.7227828502655029, "Quantum sensing Metrology": 0.7106189727783203, "Quantum sensing navigation": 0.6965678930282593, "Quantum sensing Position": 0.6947280168533325, "Quantum sensing Timing": 0.6870812177658081, "Quantum sensing": 0.7171681523323059, "Quantum control": 0.6761221289634705 } }, { "id": 4406, "title": "Nanophotonics with multilayer van der Waals materials", "abstract": "The field of nanophotonics requires high-quality materials for the fabrication of resonant structures that can confine light down to the nanoscale. Metallic nanostructures often used for this purpose ...", "citations": 3, "author_count": 13, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4413, "doi": "10.1038/s41566-025-01717-x", "umap_coordinates": { "x": 393.6759338378906, "y": 134.1859893798828, "z": 207.11273193359375 }, "tsne_coordinates": { "x": 26.590347290039062, "y": -14.604866027832031, "z": -23.965059280395508 }, "pca_coordinates": { "x": -1.0556358098983765, "y": -2.717764377593994, "z": 2.621879816055298 }, "axis_scores": { "Quantum imaging": 0.7225528359413147, "Quantum Life Science Sensing": 0.7003002166748047, "Quantum sensing Detection": 0.6948200464248657, "Quantum sensing Metrology": 0.709700882434845, "Quantum sensing navigation": 0.700825035572052, "Quantum sensing Position": 0.6804013848304749, "Quantum sensing Timing": 0.661502480506897, "Quantum sensing": 0.7147136330604553, "Quantum control": 0.671651303768158 } }, { "id": 4407, "title": "The response of lead-tungstate scintillators (PWO) to photons with energies in the range 13 MeV-64 MeV", "abstract": "The response of a matrix of 25 lead tungstate (PWO) scintillator detectors, operated at -25 degrees C, to photons in the range 13 MeV-64 MeV has been measured at the tagged-photon facility at MAX-lab,...", "citations": 3, "author_count": 16, "categories": [ "Instruments & Instrumentation" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4414, "doi": "10.1016/j.nima.2012.03.030", "umap_coordinates": { "x": 394.5578918457031, "y": 132.91893005371094, "z": 205.45513916015625 }, "tsne_coordinates": { "x": -17.920337677001953, "y": 18.288589477539062, "z": -10.691534996032715 }, "pca_coordinates": { "x": -2.5344436168670654, "y": -0.5316867828369141, "z": 1.9412939548492432 }, "axis_scores": { "Quantum imaging": 0.7362101674079895, "Quantum Life Science Sensing": 0.727017343044281, "Quantum sensing Detection": 0.72559654712677, "Quantum sensing Metrology": 0.7102319598197937, "Quantum sensing navigation": 0.7256001234054565, "Quantum sensing Position": 0.7148383259773254, "Quantum sensing Timing": 0.7042160630226135, "Quantum sensing": 0.7323436141014099, "Quantum control": 0.6803576946258545 } }, { "id": 4408, "title": "Electric control of spin states in frustrated triangular molecular magnets", "abstract": "Frustrated triangular molecular magnets are a very important class of magnetic molecules since the absence of inversion symmetry allows an external electric field to couple directly with the spin chir...", "citations": 7, "author_count": 5, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4415, "doi": "10.1103/PhysRevB.107.245402", "umap_coordinates": { "x": 393.6361389160156, "y": 136.25625610351562, "z": 209.1800537109375 }, "tsne_coordinates": { "x": -4.7389092445373535, "y": -33.71815872192383, "z": 16.563016891479492 }, "pca_coordinates": { "x": 4.667275428771973, "y": -2.2753515243530273, "z": -2.628784418106079 }, "axis_scores": { "Quantum imaging": 0.7334200739860535, "Quantum Life Science Sensing": 0.7247951030731201, "Quantum sensing Detection": 0.7186585664749146, "Quantum sensing Metrology": 0.7131890654563904, "Quantum sensing navigation": 0.7259884476661682, "Quantum sensing Position": 0.6899447441101074, "Quantum sensing Timing": 0.6897919774055481, "Quantum sensing": 0.7355100512504578, "Quantum control": 0.7482479810714722 } }, { "id": 4409, "title": "Novel Nanostructures and Materials for Strong Light Matter Interactions", "abstract": "Quantum mechanical interactions between electromagnetic radiation and matter underlie a broad spectrum of optical phenomena. Strong light-matter interactions result in the well-known vacuum Rabi split...", "citations": 484, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4416, "doi": "10.1021/acsphotonics.7b00674", "umap_coordinates": { "x": 392.8172912597656, "y": 133.61221313476562, "z": 206.06610107421875 }, "tsne_coordinates": { "x": 6.9032392501831055, "y": -14.754481315612793, "z": -14.66769027709961 }, "pca_coordinates": { "x": -2.7359516620635986, "y": -3.741482734680176, "z": 0.9912250638008118 }, "axis_scores": { "Quantum imaging": 0.7281630635261536, "Quantum Life Science Sensing": 0.7277588844299316, "Quantum sensing Detection": 0.7146632075309753, "Quantum sensing Metrology": 0.698539674282074, "Quantum sensing navigation": 0.6907910108566284, "Quantum sensing Position": 0.6690968871116638, "Quantum sensing Timing": 0.6473045349121094, "Quantum sensing": 0.7211914658546448, "Quantum control": 0.6672759056091309 } }, { "id": 4410, "title": "Achieving high-efficiency emission depletion nanoscopy by employing cross relaxation in upconversion nanoparticles", "abstract": "Stimulated emission depletion microscopy provides a powerful sub-diffraction imaging modality for life science studies. Conventionally, stimulated emission depletion requires a relatively high light i...", "citations": 305, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4417, "doi": "10.1038/s41467-017-01141-y", "umap_coordinates": { "x": 393.18817138671875, "y": 133.79441833496094, "z": 205.71400451660156 }, "tsne_coordinates": { "x": 9.74867057800293, "y": -9.854131698608398, "z": -3.2891736030578613 }, "pca_coordinates": { "x": -3.2460901737213135, "y": -1.4637341499328613, "z": 1.783553123474121 }, "axis_scores": { "Quantum imaging": 0.7021286487579346, "Quantum Life Science Sensing": 0.7066119909286499, "Quantum sensing Detection": 0.6868506669998169, "Quantum sensing Metrology": 0.6776295304298401, "Quantum sensing navigation": 0.6737446784973145, "Quantum sensing Position": 0.6500644087791443, "Quantum sensing Timing": 0.6636265516281128, "Quantum sensing": 0.6980651021003723, "Quantum control": 0.6763333678245544 } }, { "id": 4411, "title": "Regiospecifically alkylated oligothiophenes via structurally defined building blocks", "abstract": "We have developed a new synthetic protocol for the unsymmetrically alkylated and halogenated terthiophenes 5 and 10. To demonstrate their usefulness as building blocks for well-defined oligothiophenes...", "citations": 8, "author_count": 5, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4418, "doi": null, "umap_coordinates": { "x": 391.60540771484375, "y": 139.7376708984375, "z": 209.56515502929688 }, "tsne_coordinates": { "x": -3.432948350906372, "y": 42.64621353149414, "z": -6.025864601135254 }, "pca_coordinates": { "x": -3.1620302200317383, "y": 2.1836495399475098, "z": -2.0193254947662354 }, "axis_scores": { "Quantum imaging": 0.7111822962760925, "Quantum Life Science Sensing": 0.7036923170089722, "Quantum sensing Detection": 0.6898343563079834, "Quantum sensing Metrology": 0.6818059086799622, "Quantum sensing navigation": 0.717495322227478, "Quantum sensing Position": 0.6805548667907715, "Quantum sensing Timing": 0.6803378462791443, "Quantum sensing": 0.709075927734375, "Quantum control": 0.7169526815414429 } }, { "id": 4412, "title": "METHOD FOR DETERMINING BONE-MINERAL CONTENT USING FOURIER IMAGE-RECONSTRUCTION AND DUAL SOURCE TECHNIQUE", "abstract": "The basic principles of a quantitative tomographic technique for bone mineral determination are considered. The bone mineral content could be evaluated from a single reconstruction using projection da...", "citations": 5, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1978, "topic": [ "all" ], "embedding_index": 4419, "doi": "10.1097/00004728-197807000-00021", "umap_coordinates": { "x": 395.3824768066406, "y": 133.8252410888672, "z": 204.689697265625 }, "tsne_coordinates": { "x": -11.316048622131348, "y": 23.585840225219727, "z": -31.859210968017578 }, "pca_coordinates": { "x": -3.0329740047454834, "y": 3.9697446823120117, "z": 1.7007708549499512 }, "axis_scores": { "Quantum imaging": 0.7019926905632019, "Quantum Life Science Sensing": 0.7068386673927307, "Quantum sensing Detection": 0.6771659851074219, "Quantum sensing Metrology": 0.679582953453064, "Quantum sensing navigation": 0.6820409893989563, "Quantum sensing Position": 0.6613216996192932, "Quantum sensing Timing": 0.6496577858924866, "Quantum sensing": 0.6800007224082947, "Quantum control": 0.6271083950996399 } }, { "id": 4413, "title": "Testing quantum theory on curved spacetime with quantum networks", "abstract": "Quantum technologies present new opportunities for fundamental tests of nature. One potential application is to probe the interplay between quantum physics and general relativity-a field of physics wi...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4420, "doi": "10.1103/PhysRevResearch.7.023192", "umap_coordinates": { "x": 395.9217834472656, "y": 136.733642578125, "z": 207.5731964111328 }, "tsne_coordinates": { "x": -25.40565299987793, "y": -16.074453353881836, "z": -7.044428825378418 }, "pca_coordinates": { "x": 3.4991936683654785, "y": 2.800018310546875, "z": 1.4054901599884033 }, "axis_scores": { "Quantum imaging": 0.7492990493774414, "Quantum Life Science Sensing": 0.74955153465271, "Quantum sensing Detection": 0.7486045360565186, "Quantum sensing Metrology": 0.731944739818573, "Quantum sensing navigation": 0.7820680737495422, "Quantum sensing Position": 0.7345976233482361, "Quantum sensing Timing": 0.716494083404541, "Quantum sensing": 0.7529947757720947, "Quantum control": 0.716518223285675 } }, { "id": 4414, "title": "Vibronic coherence contributes to photocurrent generation in organic semiconductor heterojunction diodes", "abstract": "Charge separation dynamics after the absorption of a photon is a fundamental process relevant both for photosynthetic reaction centers and artificial solar conversion devices. It has been proposed tha...", "citations": 42, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4421, "doi": "10.1038/s41467-020-14476-w", "umap_coordinates": { "x": 393.031982421875, "y": 136.2975616455078, "z": 206.8748779296875 }, "tsne_coordinates": { "x": 10.368619918823242, "y": -1.920534610748291, "z": 19.701066970825195 }, "pca_coordinates": { "x": 0.4858412742614746, "y": -1.4913687705993652, "z": 0.08354657888412476 }, "axis_scores": { "Quantum imaging": 0.7165729999542236, "Quantum Life Science Sensing": 0.711572527885437, "Quantum sensing Detection": 0.6941248178482056, "Quantum sensing Metrology": 0.675311803817749, "Quantum sensing navigation": 0.6990624070167542, "Quantum sensing Position": 0.6684583425521851, "Quantum sensing Timing": 0.6781483888626099, "Quantum sensing": 0.7088759541511536, "Quantum control": 0.7075941562652588 } }, { "id": 4415, "title": "Noise-tunable nonlinearity in a dispersively coupled diffusion-resonator system using superconducting circuits", "abstract": "The harmonic oscillator is one of the most widely used model systems in physics: an indispensable theoretical tool in a variety of fields. It is well known that an otherwise linear oscillator can atta...", "citations": 2, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4422, "doi": "10.1038/srep41313", "umap_coordinates": { "x": 394.21923828125, "y": 135.20455932617188, "z": 207.4551239013672 }, "tsne_coordinates": { "x": 3.0228216648101807, "y": -10.644196510314941, "z": 16.71071434020996 }, "pca_coordinates": { "x": 0.18835163116455078, "y": -1.3436193466186523, "z": 0.999337375164032 }, "axis_scores": { "Quantum imaging": 0.6873223781585693, "Quantum Life Science Sensing": 0.7151979207992554, "Quantum sensing Detection": 0.7092556953430176, "Quantum sensing Metrology": 0.6826790571212769, "Quantum sensing navigation": 0.7176398038864136, "Quantum sensing Position": 0.6904691457748413, "Quantum sensing Timing": 0.6788709163665771, "Quantum sensing": 0.7144246697425842, "Quantum control": 0.667262613773346 } }, { "id": 4416, "title": "Thin Films of Zinc Oxide Nanoparticles and Poly(acrylic acid) Fabricated by the Layer-by-Layer Technique: a Facile Platform for Outstanding Properties", "abstract": "The incorporation of nanoparticles into polyelectrolytes thin films opens the way to a broad range of applications depending on the functionality of the nanoparticles. In this work, thin films of ZnO ...", "citations": 33, "author_count": 4, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4423, "doi": "10.1021/jp2095328", "umap_coordinates": { "x": 392.6954650878906, "y": 134.3289031982422, "z": 204.83595275878906 }, "tsne_coordinates": { "x": 29.369457244873047, "y": 21.592016220092773, "z": -1.2935022115707397 }, "pca_coordinates": { "x": -3.297441244125366, "y": -3.2552037239074707, "z": -0.6822064518928528 }, "axis_scores": { "Quantum imaging": 0.7065906524658203, "Quantum Life Science Sensing": 0.7174323201179504, "Quantum sensing Detection": 0.7022671699523926, "Quantum sensing Metrology": 0.6886330842971802, "Quantum sensing navigation": 0.686948299407959, "Quantum sensing Position": 0.6878494024276733, "Quantum sensing Timing": 0.6647078990936279, "Quantum sensing": 0.7197937965393066, "Quantum control": 0.6898331642150879 } }, { "id": 4417, "title": "Photoinduced Formation Mechanism of the Thymine-Thymine (6-4) Adduct", "abstract": "The photoinduced mechanism leading to the formation of the thymine-thymine (6-4) photolesion has been studied by using the CASPT2//CASSCF approach over a dinucleotide model in vacuo. Following light a...", "citations": 52, "author_count": 6, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4424, "doi": "10.1021/jp307200g", "umap_coordinates": { "x": 392.3487854003906, "y": 136.53204345703125, "z": 205.20901489257812 }, "tsne_coordinates": { "x": -0.0047183590941131115, "y": -6.375612735748291, "z": -7.5673956871032715 }, "pca_coordinates": { "x": -1.2254018783569336, "y": -0.31542181968688965, "z": -1.4113836288452148 }, "axis_scores": { "Quantum imaging": 0.6925458908081055, "Quantum Life Science Sensing": 0.7153763771057129, "Quantum sensing Detection": 0.6851106882095337, "Quantum sensing Metrology": 0.6643334031105042, "Quantum sensing navigation": 0.6490072011947632, "Quantum sensing Position": 0.6547806262969971, "Quantum sensing Timing": 0.676982581615448, "Quantum sensing": 0.6886504888534546, "Quantum control": 0.6727654337882996 } }, { "id": 4418, "title": "Spectral distribution and wave function of electrons emitted from a single-particle source in the quantum Hall regime", "abstract": "We investigate theoretically a scheme for spectroscopy of electrons emitted by an on-demand single-particle source. The total system, with an electron turnstile source and a single-level quantum dot s...", "citations": 21, "author_count": 3, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4425, "doi": "10.1103/PhysRevB.85.075428", "umap_coordinates": { "x": 394.4916076660156, "y": 133.8436737060547, "z": 208.4115753173828 }, "tsne_coordinates": { "x": 8.339434623718262, "y": -24.81572914123535, "z": -11.100295066833496 }, "pca_coordinates": { "x": 3.2284436225891113, "y": -2.2938218116760254, "z": 1.7504668235778809 }, "axis_scores": { "Quantum imaging": 0.7116338610649109, "Quantum Life Science Sensing": 0.734620988368988, "Quantum sensing Detection": 0.7175387740135193, "Quantum sensing Metrology": 0.7079545855522156, "Quantum sensing navigation": 0.7076615691184998, "Quantum sensing Position": 0.6805503368377686, "Quantum sensing Timing": 0.6687413454055786, "Quantum sensing": 0.7251638174057007, "Quantum control": 0.665302038192749 } }, { "id": 4419, "title": "PARTICLE-ENHANCED MEMBRANE UPTAKE OF A POLYNUCLEAR AROMATIC HYDROCARBON - POSSIBLE ROLE IN COCARCINOGENESIS", "abstract": "One possible mechanism by which cocarcinogenesis occurs was investigated. The effect of a particulate, silica, on the rate of membrane uptake of a polynuclear aromatic hydrocarbon, benz[a]anthracene (...", "citations": 12, "author_count": 4, "categories": [ "Oncology" ], "year": 1978, "topic": [ "all" ], "embedding_index": 4426, "doi": null, "umap_coordinates": { "x": 391.37322998046875, "y": 139.6226348876953, "z": 209.19491577148438 }, "tsne_coordinates": { "x": 8.84188461303711, "y": 39.067543029785156, "z": -4.485671043395996 }, "pca_coordinates": { "x": -2.8776016235351562, "y": 3.0547642707824707, "z": -3.06904673576355 }, "axis_scores": { "Quantum imaging": 0.6825074553489685, "Quantum Life Science Sensing": 0.679102897644043, "Quantum sensing Detection": 0.6533305644989014, "Quantum sensing Metrology": 0.6410647034645081, "Quantum sensing navigation": 0.6638472676277161, "Quantum sensing Position": 0.6587545871734619, "Quantum sensing Timing": 0.6108464002609253, "Quantum sensing": 0.663600504398346, "Quantum control": 0.675281286239624 } }, { "id": 4420, "title": "NOISE IN A QUANTUM POINT-CONTACT DUE TO A FLUCTUATING IMPURITY CONFIGURATION", "abstract": "We propose a theoretical model for the low-frequency noise observed in a quantum point contact (QPC) electrostatically defined in the 2D electron gas at a GaAs-AlGaAs interface. In such contacts elect...", "citations": 4, "author_count": 6, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 4427, "doi": "10.1088/0953-8984/7/36/013", "umap_coordinates": { "x": 394.3217468261719, "y": 135.68321228027344, "z": 207.8614044189453 }, "tsne_coordinates": { "x": -2.0543887615203857, "y": -39.23068618774414, "z": -6.202621936798096 }, "pca_coordinates": { "x": 2.411222219467163, "y": 1.9052159786224365, "z": 0.4677501320838928 }, "axis_scores": { "Quantum imaging": 0.6866060495376587, "Quantum Life Science Sensing": 0.6940742135047913, "Quantum sensing Detection": 0.6960471272468567, "Quantum sensing Metrology": 0.6874820590019226, "Quantum sensing navigation": 0.714512288570404, "Quantum sensing Position": 0.7282812595367432, "Quantum sensing Timing": 0.6906778812408447, "Quantum sensing": 0.708845853805542, "Quantum control": 0.6996129751205444 } }, { "id": 4421, "title": "Topological order in the (2+1)D compact lattice superconductor", "abstract": "We study topological aspects of a compact lattice superconductor, and show that the characteristic energy splitting, Delta, between almost degenerate ground states, is simply related to a novel order ...", "citations": 9, "author_count": 4, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4428, "doi": "10.1209/epl/i2004-10320-5", "umap_coordinates": { "x": 393.80792236328125, "y": 136.5779266357422, "z": 207.7958221435547 }, "tsne_coordinates": { "x": -4.136114597320557, "y": -17.10479736328125, "z": 30.08043670654297 }, "pca_coordinates": { "x": 2.310448169708252, "y": 0.17580771446228027, "z": -1.7248773574829102 }, "axis_scores": { "Quantum imaging": 0.6919689774513245, "Quantum Life Science Sensing": 0.6850610971450806, "Quantum sensing Detection": 0.6886972784996033, "Quantum sensing Metrology": 0.6820859313011169, "Quantum sensing navigation": 0.7013567686080933, "Quantum sensing Position": 0.7187495231628418, "Quantum sensing Timing": 0.7062013149261475, "Quantum sensing": 0.6947537660598755, "Quantum control": 0.6893861293792725 } }, { "id": 4422, "title": "Γ-X tunnelling in GaAs/AlAs/GaAs heterostructure", "abstract": "Tunnelling, via X-valley related states, is investigated in GaAs/AlAs/GaAs single-barrier structures. The features in the tunnel current, which are experimentally observed, are associated with resonan...", "citations": 6, "author_count": 7, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4429, "doi": "10.1143/JJAP.37.3245", "umap_coordinates": { "x": 393.2029724121094, "y": 134.44602966308594, "z": 208.03964233398438 }, "tsne_coordinates": { "x": 13.502389907836914, "y": -33.84323501586914, "z": 1.6334805488586426 }, "pca_coordinates": { "x": 2.3420519828796387, "y": -0.6925694942474365, "z": 1.1640517711639404 }, "axis_scores": { "Quantum imaging": 0.7101963758468628, "Quantum Life Science Sensing": 0.7004629373550415, "Quantum sensing Detection": 0.6996254920959473, "Quantum sensing Metrology": 0.6793568730354309, "Quantum sensing navigation": 0.7317959070205688, "Quantum sensing Position": 0.7120382189750671, "Quantum sensing Timing": 0.7042117118835449, "Quantum sensing": 0.7135157585144043, "Quantum control": 0.6966443061828613 } }, { "id": 4423, "title": "Light-ion Production from O, Si, Fe and Bi Induced by 175 MeV Quasi-monoenergetic Neutrons", "abstract": "We have measured double-differential cross sections in the interaction of 175 MeV quasimonoenergetic neutrons with O, Si, Fe and Bi. We have compared these results with model calculations with INCL4.5...", "citations": 1, "author_count": 19, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4430, "doi": "10.1016/j.nds.2014.08.053", "umap_coordinates": { "x": 394.0946044921875, "y": 133.99859619140625, "z": 205.55052185058594 }, "tsne_coordinates": { "x": -19.4370174407959, "y": 8.866437911987305, "z": -10.446864128112793 }, "pca_coordinates": { "x": -2.2488441467285156, "y": -0.4147317409515381, "z": -0.11359059810638428 }, "axis_scores": { "Quantum imaging": 0.7324795722961426, "Quantum Life Science Sensing": 0.7518171072006226, "Quantum sensing Detection": 0.7257770299911499, "Quantum sensing Metrology": 0.7053840756416321, "Quantum sensing navigation": 0.6999193429946899, "Quantum sensing Position": 0.6842074990272522, "Quantum sensing Timing": 0.663977861404419, "Quantum sensing": 0.7298697233200073, "Quantum control": 0.679504930973053 } }, { "id": 4424, "title": "(gamma,n) study of the isovector quadrupole resonance in Ca-40", "abstract": "The forward-to-backward asymmetry of neutrons emitted in the Ca-40(gamma,n(0)) reaction was measured at photon energies in the range of 27-50 MeV. An energy-dependent asymmetry was observed that is in...", "citations": 14, "author_count": 20, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 4431, "doi": "10.1103/PhysRevC.55.1288", "umap_coordinates": { "x": 394.6267395019531, "y": 136.1700439453125, "z": 207.27713012695312 }, "tsne_coordinates": { "x": -3.3851709365844727, "y": -8.672903060913086, "z": -8.276202201843262 }, "pca_coordinates": { "x": 1.2570171356201172, "y": 2.2620315551757812, "z": -0.7886335253715515 }, "axis_scores": { "Quantum imaging": 0.6833392381668091, "Quantum Life Science Sensing": 0.7051208019256592, "Quantum sensing Detection": 0.6616452932357788, "Quantum sensing Metrology": 0.648967444896698, "Quantum sensing navigation": 0.6832033395767212, "Quantum sensing Position": 0.6455499529838562, "Quantum sensing Timing": 0.642493724822998, "Quantum sensing": 0.67691969871521, "Quantum control": 0.6683561205863953 } }, { "id": 4425, "title": "Ideal-observer detectability in photon-counting differential phase-contrast imaging using a linear-systems approach", "abstract": "Purpose: To provide a cascaded-systems framework based on the noise-power spectrum (NPS), modulation transfer function (MTF), and noise-equivalent number of quanta (NEQ) for quantitative evaluation of...", "citations": 10, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4432, "doi": "10.1118/1.4739195", "umap_coordinates": { "x": 395.42425537109375, "y": 133.07664489746094, "z": 205.9291229248047 }, "tsne_coordinates": { "x": -7.591190814971924, "y": 14.29644775390625, "z": -16.76526641845703 }, "pca_coordinates": { "x": 0.04110848903656006, "y": 1.9173146486282349, "z": 3.7735509872436523 }, "axis_scores": { "Quantum imaging": 0.7839199900627136, "Quantum Life Science Sensing": 0.751327395439148, "Quantum sensing Detection": 0.770621657371521, "Quantum sensing Metrology": 0.7371880412101746, "Quantum sensing navigation": 0.7538208961486816, "Quantum sensing Position": 0.7289408445358276, "Quantum sensing Timing": 0.7226126194000244, "Quantum sensing": 0.7592978477478027, "Quantum control": 0.7109952569007874 } }, { "id": 4426, "title": "A Silicon-Strip Detector for Photon-Counting Spectral CT: Energy Resolution From 40 keV to 120 keV", "abstract": "We are developing a segmented silicon-strip detector for spectral computed tomography. The detector operates in photon-counting mode and allows pulse-height discrimination with 8 adjustable energy bin...", "citations": 36, "author_count": 9, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4433, "doi": "10.1109/TNS.2014.2300153", "umap_coordinates": { "x": 394.989990234375, "y": 132.72921752929688, "z": 205.89630126953125 }, "tsne_coordinates": { "x": -16.162006378173828, "y": 19.094425201416016, "z": -19.07621955871582 }, "pca_coordinates": { "x": -2.3030638694763184, "y": 0.1426999568939209, "z": 3.7994751930236816 }, "axis_scores": { "Quantum imaging": 0.7112541794776917, "Quantum Life Science Sensing": 0.7248833179473877, "Quantum sensing Detection": 0.7198315262794495, "Quantum sensing Metrology": 0.69903165102005, "Quantum sensing navigation": 0.6949139833450317, "Quantum sensing Position": 0.664518415927887, "Quantum sensing Timing": 0.7126214504241943, "Quantum sensing": 0.7201735973358154, "Quantum control": 0.651517927646637 } }, { "id": 4427, "title": "Benchmarking two-photon absorption with CC3 quadratic response theory, and comparison with density-functional response theory - art. no. 054322", "abstract": "We present a detailed study of the effects of electron correlation on two-photon absorption calculated by coupled cluster quadratic response theory. The hierarchy of coupled cluster models CCS, CC2, C...", "citations": 149, "author_count": 8, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4434, "doi": "10.1063/1.2163874", "umap_coordinates": { "x": 393.7423400878906, "y": 135.7149200439453, "z": 206.73492431640625 }, "tsne_coordinates": { "x": 2.757456064224243, "y": -4.21115255355835, "z": 5.895296573638916 }, "pca_coordinates": { "x": -0.19321680068969727, "y": 0.08631014823913574, "z": 1.5992212295532227 }, "axis_scores": { "Quantum imaging": 0.72179114818573, "Quantum Life Science Sensing": 0.733353853225708, "Quantum sensing Detection": 0.7341870069503784, "Quantum sensing Metrology": 0.7365999221801758, "Quantum sensing navigation": 0.7120308876037598, "Quantum sensing Position": 0.6884352564811707, "Quantum sensing Timing": 0.7017131447792053, "Quantum sensing": 0.7384084463119507, "Quantum control": 0.7081126570701599 } }, { "id": 4428, "title": "Engineering Molecular Ligand Shells on Quantum Dots for Quantitative Harvesting of Triplet Excitons Generated by Singlet Fission", "abstract": "Singlet fission is an exciton multiplication process in organic molecules in which a photogenerated spin-singlet exciton is rapidly and efficiently converted to two spin-triplet excitons. This process...", "citations": 60, "author_count": 13, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4435, "doi": "10.1021/jacs.9b06584", "umap_coordinates": { "x": 391.65301513671875, "y": 134.76466369628906, "z": 205.66436767578125 }, "tsne_coordinates": { "x": 13.307503700256348, "y": -5.335720539093018, "z": -9.559720039367676 }, "pca_coordinates": { "x": -1.966774582862854, "y": -4.042059898376465, "z": -2.9622819423675537 }, "axis_scores": { "Quantum imaging": 0.7235614657402039, "Quantum Life Science Sensing": 0.7400268912315369, "Quantum sensing Detection": 0.7166875600814819, "Quantum sensing Metrology": 0.706616222858429, "Quantum sensing navigation": 0.6909520626068115, "Quantum sensing Position": 0.6711441874504089, "Quantum sensing Timing": 0.6836596727371216, "Quantum sensing": 0.7276089787483215, "Quantum control": 0.7071223855018616 } }, { "id": 4429, "title": "ANISOTROPIC VALENCE BANDS IN QUANTUM-WELLS - QUANTITATIVE COMPARISON OF THEORY AND EXPERIMENT", "abstract": "The valence subband dispersion of GaAs/AlGaAs quantum wells is measured with meV accuracy using the recombination of hot electrons at neutral acceptors. This precision, in combination with polarizatio...", "citations": 33, "author_count": 5, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 4436, "doi": "10.1103/PhysRevLett.69.2260", "umap_coordinates": { "x": 394.0166015625, "y": 135.34722900390625, "z": 208.67291259765625 }, "tsne_coordinates": { "x": 4.546436309814453, "y": -20.019163131713867, "z": 1.4424113035202026 }, "pca_coordinates": { "x": 3.7621655464172363, "y": -1.9486231803894043, "z": 0.6998915076255798 }, "axis_scores": { "Quantum imaging": 0.7542493343353271, "Quantum Life Science Sensing": 0.7447781562805176, "Quantum sensing Detection": 0.7414730191230774, "Quantum sensing Metrology": 0.7306523323059082, "Quantum sensing navigation": 0.7550649046897888, "Quantum sensing Position": 0.7289530634880066, "Quantum sensing Timing": 0.7202463746070862, "Quantum sensing": 0.7579256892204285, "Quantum control": 0.7144614458084106 } }, { "id": 4430, "title": "Detecting kHz gravitons from a neutron star merger with a multi-mode resonant mass detector", "abstract": "We propose a multi-mode bar consisting of mass elements of decreasing size for the implementation of a gravitational version of the photo-electric effect through the stimulated absorption of up to kHz...", "citations": 4, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4437, "doi": "10.1088/1361-6382/adae4a", "umap_coordinates": { "x": 395.5726318359375, "y": 135.2353973388672, "z": 206.75193786621094 }, "tsne_coordinates": { "x": -27.301790237426758, "y": -2.868475914001465, "z": -11.809284210205078 }, "pca_coordinates": { "x": 0.20953309535980225, "y": 2.950477361679077, "z": 2.4794974327087402 }, "axis_scores": { "Quantum imaging": 0.6695550680160522, "Quantum Life Science Sensing": 0.6862010359764099, "Quantum sensing Detection": 0.6887223720550537, "Quantum sensing Metrology": 0.6752784252166748, "Quantum sensing navigation": 0.6792503595352173, "Quantum sensing Position": 0.6508249640464783, "Quantum sensing Timing": 0.6601786613464355, "Quantum sensing": 0.6821236610412598, "Quantum control": 0.6326401829719543 } }, { "id": 4431, "title": "Electrochemical Properties of Biobased Carbon Aerogels Decorated with Graphene Dots Synthesized from Biochar", "abstract": "Carbon aerogels prepared from low-cost renewable resources are promising electrode materials for future energy storage applications. However, their electrochemical properties must be significantly imp...", "citations": 24, "author_count": 9, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4438, "doi": "10.1021/acsaelm.1c00487", "umap_coordinates": { "x": 392.4617004394531, "y": 134.38153076171875, "z": 204.52255249023438 }, "tsne_coordinates": { "x": 25.918325424194336, "y": 16.755708694458008, "z": -9.063043594360352 }, "pca_coordinates": { "x": -3.120147943496704, "y": -3.0041794776916504, "z": -2.872755527496338 }, "axis_scores": { "Quantum imaging": 0.6648473143577576, "Quantum Life Science Sensing": 0.7387824058532715, "Quantum sensing Detection": 0.6714491844177246, "Quantum sensing Metrology": 0.6701588034629822, "Quantum sensing navigation": 0.6622115969657898, "Quantum sensing Position": 0.6568205952644348, "Quantum sensing Timing": 0.6404892206192017, "Quantum sensing": 0.6887759566307068, "Quantum control": 0.6617341637611389 } }, { "id": 4432, "title": "The Role of Odd-Frequency Pairing in Multiband Superconductors", "abstract": "Recent progress in the understanding of multiband superconductivity and its relationship to odd-frequency pairing are reviewed herein. The discussion begins by reviewing the emergence of odd-frequency...", "citations": 53, "author_count": 4, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4439, "doi": "10.1002/andp.201900298", "umap_coordinates": { "x": 393.2561950683594, "y": 136.29212951660156, "z": 207.8356170654297 }, "tsne_coordinates": { "x": 17.092639923095703, "y": -23.88749122619629, "z": 23.402992248535156 }, "pca_coordinates": { "x": 1.1193690299987793, "y": 0.15450716018676758, "z": -1.436955451965332 }, "axis_scores": { "Quantum imaging": 0.689365565776825, "Quantum Life Science Sensing": 0.6918572187423706, "Quantum sensing Detection": 0.684732973575592, "Quantum sensing Metrology": 0.6814708113670349, "Quantum sensing navigation": 0.6902034282684326, "Quantum sensing Position": 0.6857538223266602, "Quantum sensing Timing": 0.7112451791763306, "Quantum sensing": 0.6970592737197876, "Quantum control": 0.6831023097038269 } }, { "id": 4433, "title": "The coordination of uranyl in water: A combined quantum chemical and molecular simulation study", "abstract": "The coordination environment of uranyl in water has been studied using a combined quantum mechanical and molecular dynamics approach. Multiconfigurational wave function calculations have been performe...", "citations": 202, "author_count": 5, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4440, "doi": "10.1021/ja0526719", "umap_coordinates": { "x": 393.17999267578125, "y": 137.05160522460938, "z": 205.80345153808594 }, "tsne_coordinates": { "x": -0.12861880660057068, "y": 11.729405403137207, "z": 29.159236907958984 }, "pca_coordinates": { "x": 0.10466122627258301, "y": -0.12074065208435059, "z": -2.7649359703063965 }, "axis_scores": { "Quantum imaging": 0.7145606875419617, "Quantum Life Science Sensing": 0.7456276416778564, "Quantum sensing Detection": 0.7143160700798035, "Quantum sensing Metrology": 0.7052858471870422, "Quantum sensing navigation": 0.7186152338981628, "Quantum sensing Position": 0.6841595768928528, "Quantum sensing Timing": 0.6860678195953369, "Quantum sensing": 0.7351137399673462, "Quantum control": 0.7047651410102844 } }, { "id": 4434, "title": "Apparent magnetic energy-barrier distribution in horse-spleen ferritin: Evidence for multiple interacting magnetic entities per ferrihydrite nanoparticle - art. no. 024436", "abstract": "Magnetic viscosity measurements were made on native horse-spleen ferritin in zero applied magnetic field at temperatures between 21 and 21 K. The data have been used to calculate the apparent magnetic...", "citations": 7, "author_count": 6, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4441, "doi": "10.1103/PhysRevB.65.024436", "umap_coordinates": { "x": 393.2778015136719, "y": 136.2678680419922, "z": 208.6509552001953 }, "tsne_coordinates": { "x": 10.603734016418457, "y": -38.6628532409668, "z": 13.36441707611084 }, "pca_coordinates": { "x": 1.9493722915649414, "y": 0.6985723972320557, "z": -1.3982378244400024 }, "axis_scores": { "Quantum imaging": 0.694100558757782, "Quantum Life Science Sensing": 0.6679472327232361, "Quantum sensing Detection": 0.6489854454994202, "Quantum sensing Metrology": 0.6426883935928345, "Quantum sensing navigation": 0.6510432958602905, "Quantum sensing Position": 0.6416041851043701, "Quantum sensing Timing": 0.6246845722198486, "Quantum sensing": 0.6557993292808533, "Quantum control": 0.6366006135940552 } }, { "id": 4435, "title": "MAGNETIC-BEHAVIOR OF A REENTRANT ISING SPIN-GLASS", "abstract": "The ac susceptibility of the reentrant Ising spin glass Fe0.62Mn0.38TiO3 has been investigated in a superconducting-quantum-interference-device magnetometer. The data show a transition from a paramagn...", "citations": 24, "author_count": 8, "categories": [ "Materials Science" ], "year": 1992, "topic": [ "all" ], "embedding_index": 4442, "doi": "10.1103/PhysRevB.46.8227", "umap_coordinates": { "x": 393.20306396484375, "y": 136.86685180664062, "z": 208.50823974609375 }, "tsne_coordinates": { "x": -1.2378132343292236, "y": -33.314453125, "z": 23.312381744384766 }, "pca_coordinates": { "x": 3.4188599586486816, "y": 0.7428884506225586, "z": -3.39756441116333 }, "axis_scores": { "Quantum imaging": 0.6822556853294373, "Quantum Life Science Sensing": 0.7086270451545715, "Quantum sensing Detection": 0.670828104019165, "Quantum sensing Metrology": 0.6546068787574768, "Quantum sensing navigation": 0.6975994110107422, "Quantum sensing Position": 0.6619351506233215, "Quantum sensing Timing": 0.6623607277870178, "Quantum sensing": 0.6844155788421631, "Quantum control": 0.6571937799453735 } }, { "id": 4436, "title": "Enhancing high-energy powder X-ray diffraction applications using a PILATUS4 CdTe detector", "abstract": "Hybrid photon counting detectors have significantly advanced synchrotron research. In particular, the introduction of large cadmium telluride-based detectors in 2015 enabled a whole new range of high-...", "citations": 1, "author_count": 10, "categories": [ "Instruments & Instrumentation" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4443, "doi": "10.1107/S1600577525000566", "umap_coordinates": { "x": 393.29736328125, "y": 133.76913452148438, "z": 205.29025268554688 }, "tsne_coordinates": { "x": 10.984532356262207, "y": 5.060385704040527, "z": -18.618547439575195 }, "pca_coordinates": { "x": -3.0679244995117188, "y": -0.03918647766113281, "z": 1.914520025253296 }, "axis_scores": { "Quantum imaging": 0.6914290189743042, "Quantum Life Science Sensing": 0.6702681183815002, "Quantum sensing Detection": 0.6669908165931702, "Quantum sensing Metrology": 0.6623367667198181, "Quantum sensing navigation": 0.648125171661377, "Quantum sensing Position": 0.657806396484375, "Quantum sensing Timing": 0.6693105697631836, "Quantum sensing": 0.6781134009361267, "Quantum control": 0.6534866094589233 } }, { "id": 4437, "title": "A novel UV photon detector with resistive electrodes", "abstract": "In this study we present first results from a new detector of UV photons: a thick gaseous electron multiplier (GEM) with resistive electrodes, combined with CsI or CsTe/CsI photocathodes. The hole typ...", "citations": 33, "author_count": 7, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4444, "doi": "10.1016/j.nuclphysbps.2006.07.009", "umap_coordinates": { "x": 394.2284240722656, "y": 133.0098419189453, "z": 205.44859313964844 }, "tsne_coordinates": { "x": -12.428319931030273, "y": 10.465405464172363, "z": -7.338953971862793 }, "pca_coordinates": { "x": -2.4804210662841797, "y": -0.12963533401489258, "z": 2.745974540710449 }, "axis_scores": { "Quantum imaging": 0.7026150822639465, "Quantum Life Science Sensing": 0.738796591758728, "Quantum sensing Detection": 0.7325828075408936, "Quantum sensing Metrology": 0.6893221735954285, "Quantum sensing navigation": 0.6904836893081665, "Quantum sensing Position": 0.6805952787399292, "Quantum sensing Timing": 0.6744354963302612, "Quantum sensing": 0.7224171161651611, "Quantum control": 0.6451253890991211 } }, { "id": 4438, "title": "Optimization of beam quality for photon-counting spectral computed tomography in head imaging: simulation study", "abstract": "Head computed tomography (CT) plays an important role in the comprehensive evaluation of acute stroke. Photon-counting spectral detectors, as promising candidates for use in the next generation of x-r...", "citations": 15, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4445, "doi": "10.1117/1.JMI.2.4.043504", "umap_coordinates": { "x": 395.64215087890625, "y": 132.93060302734375, "z": 205.39697265625 }, "tsne_coordinates": { "x": -7.724547386169434, "y": 18.9741268157959, "z": -19.65933609008789 }, "pca_coordinates": { "x": -1.9590988159179688, "y": 1.942662239074707, "z": 2.765458583831787 }, "axis_scores": { "Quantum imaging": 0.7502477169036865, "Quantum Life Science Sensing": 0.7126736640930176, "Quantum sensing Detection": 0.7047802805900574, "Quantum sensing Metrology": 0.7087819576263428, "Quantum sensing navigation": 0.7030400633811951, "Quantum sensing Position": 0.6781514286994934, "Quantum sensing Timing": 0.6842694878578186, "Quantum sensing": 0.7089862823486328, "Quantum control": 0.6868880391120911 } }, { "id": 4439, "title": "Size-dependent scanning parameters (kVp and mAs) for photon-counting spectral CT system in pediatric imaging: simulation study", "abstract": "We are developing a photon-counting spectral CT detector with a small pixel size of 0.4 x 0.5 mm(2), offering a potential advantage for better visualization of small structures in pediatric patients. ...", "citations": 14, "author_count": 4, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4446, "doi": "10.1088/0031-9155/61/11/4105", "umap_coordinates": { "x": 395.6256408691406, "y": 133.16970825195312, "z": 205.07789611816406 }, "tsne_coordinates": { "x": 0.6904326677322388, "y": 23.229265213012695, "z": -18.247520446777344 }, "pca_coordinates": { "x": -2.93599796295166, "y": 2.690692186355591, "z": 2.5022330284118652 }, "axis_scores": { "Quantum imaging": 0.6884794235229492, "Quantum Life Science Sensing": 0.691789984703064, "Quantum sensing Detection": 0.6466732621192932, "Quantum sensing Metrology": 0.6533461213111877, "Quantum sensing navigation": 0.653067946434021, "Quantum sensing Position": 0.6544983983039856, "Quantum sensing Timing": 0.6531751155853271, "Quantum sensing": 0.6630310416221619, "Quantum control": 0.6121550798416138 } }, { "id": 4440, "title": "Task-based image quality assessment of an intraoperative CBCT for spine surgery compared with conventional CT", "abstract": "Purpose: To analyze the image quality of a novel, state-of-the art platform for CBCT image-guided spine surgery, focusing particularly on the dose-effectiveness compared with conventional CT (the gold...", "citations": 5, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4447, "doi": "10.1016/j.ejmp.2024.103426", "umap_coordinates": { "x": 395.6684875488281, "y": 132.85011291503906, "z": 204.79782104492188 }, "tsne_coordinates": { "x": -2.0860042572021484, "y": 24.697023391723633, "z": -19.06262969970703 }, "pca_coordinates": { "x": -3.742419719696045, "y": 3.845442295074463, "z": 0.48300451040267944 }, "axis_scores": { "Quantum imaging": 0.7099043130874634, "Quantum Life Science Sensing": 0.6582160592079163, "Quantum sensing Detection": 0.6639278531074524, "Quantum sensing Metrology": 0.6707824468612671, "Quantum sensing navigation": 0.6797502040863037, "Quantum sensing Position": 0.6904208660125732, "Quantum sensing Timing": 0.6767638921737671, "Quantum sensing": 0.6789231896400452, "Quantum control": 0.6691268086433411 } }, { "id": 4441, "title": "High signal to noise ratio quantum well bolometer materials", "abstract": "Novel single crystalline high-performance temperature sensing materials (quantum well structures) have been developed for the manufacturing of uncooled infrared bolometers. SiGe/Si and AlGaAs/GaAs qua...", "citations": 9, "author_count": 7, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4448, "doi": "10.1117/12.689874", "umap_coordinates": { "x": 394.672119140625, "y": 133.27928161621094, "z": 206.65724182128906 }, "tsne_coordinates": { "x": 1.79248046875, "y": 7.957753658294678, "z": -27.74481773376465 }, "pca_coordinates": { "x": -0.10245132446289062, "y": -1.012674331665039, "z": 3.2510323524475098 }, "axis_scores": { "Quantum imaging": 0.7501336932182312, "Quantum Life Science Sensing": 0.7506805658340454, "Quantum sensing Detection": 0.7656188011169434, "Quantum sensing Metrology": 0.75897216796875, "Quantum sensing navigation": 0.7537526488304138, "Quantum sensing Position": 0.7372050881385803, "Quantum sensing Timing": 0.7270037531852722, "Quantum sensing": 0.769022524356842, "Quantum control": 0.7097934484481812 } }, { "id": 4442, "title": "Photon small-field measurements with a CMOS active pixel sensor", "abstract": "In this work the dosimetric performance of CMOS active pixel sensors for the measurement of small photon beams is presented. The detector used consisted of an array of 520 x 520 pixels on a 25 mu m pi...", "citations": 13, "author_count": 5, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4449, "doi": "10.1088/0031-9155/60/11/4383", "umap_coordinates": { "x": 395.5556335449219, "y": 133.41384887695312, "z": 206.0249481201172 }, "tsne_coordinates": { "x": -11.936330795288086, "y": 12.882271766662598, "z": -25.959739685058594 }, "pca_coordinates": { "x": -1.5158495903015137, "y": 0.6106839179992676, "z": 6.085417747497559 }, "axis_scores": { "Quantum imaging": 0.724437952041626, "Quantum Life Science Sensing": 0.7453948259353638, "Quantum sensing Detection": 0.7356830835342407, "Quantum sensing Metrology": 0.7303832173347473, "Quantum sensing navigation": 0.7180452942848206, "Quantum sensing Position": 0.7139223217964172, "Quantum sensing Timing": 0.6849796175956726, "Quantum sensing": 0.7430897951126099, "Quantum control": 0.6438048481941223 } }, { "id": 4443, "title": "A model calculation of coherence effects in the elastic backscattering of very low energy electrons (1-20 eV) from amorphous ice", "abstract": "Purpose: Backscattering of very low energy electrons in thin layers of amorphous ice is known to provide experimental data for the elastic and inelastic cross sections and indicates values to be expec...", "citations": 6, "author_count": 2, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4450, "doi": "10.3109/09553002.2011.577506", "umap_coordinates": { "x": 394.6107177734375, "y": 135.8489990234375, "z": 205.3114013671875 }, "tsne_coordinates": { "x": -5.03598690032959, "y": 15.639362335205078, "z": 32.7972297668457 }, "pca_coordinates": { "x": 0.35590875148773193, "y": 1.4551210403442383, "z": -0.10201722383499146 }, "axis_scores": { "Quantum imaging": 0.6967336535453796, "Quantum Life Science Sensing": 0.7196565270423889, "Quantum sensing Detection": 0.68266361951828, "Quantum sensing Metrology": 0.6663593649864197, "Quantum sensing navigation": 0.6695253252983093, "Quantum sensing Position": 0.637902021408081, "Quantum sensing Timing": 0.6504737734794617, "Quantum sensing": 0.6910251975059509, "Quantum control": 0.6689552068710327 } }, { "id": 4444, "title": "Imaging Dynamics Beneath Turbid Media via Parallelized Single-Photon Detection", "abstract": "Noninvasive optical imaging through dynamic scattering media has numerous important biomedical applications but still remains a challenging task. While standard diffuse imaging methods measure optical...", "citations": 14, "author_count": 13, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4451, "doi": "10.1002/advs.202201885", "umap_coordinates": { "x": 394.3785400390625, "y": 133.40457153320312, "z": 206.57098388671875 }, "tsne_coordinates": { "x": -6.693429470062256, "y": 15.558963775634766, "z": -33.995277404785156 }, "pca_coordinates": { "x": -1.8137567043304443, "y": -0.2659902572631836, "z": 2.3097927570343018 }, "axis_scores": { "Quantum imaging": 0.7783907651901245, "Quantum Life Science Sensing": 0.7396608591079712, "Quantum sensing Detection": 0.7361852526664734, "Quantum sensing Metrology": 0.7247738838195801, "Quantum sensing navigation": 0.7344692349433899, "Quantum sensing Position": 0.7000695466995239, "Quantum sensing Timing": 0.6879245042800903, "Quantum sensing": 0.742655873298645, "Quantum control": 0.704701840877533 } }, { "id": 4445, "title": "Surface defects and symmetries", "abstract": "In quantum field theory, defects of various codimensions are natural ingredients and carry a lot of interesting information. In this contribution we concentrate on topological quantum field theories i...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4452, "doi": "10.1088/1742-6596/597/1/012002", "umap_coordinates": { "x": 394.7309265136719, "y": 136.3648223876953, "z": 206.90724182128906 }, "tsne_coordinates": { "x": -20.98700714111328, "y": -9.54117202758789, "z": 26.864213943481445 }, "pca_coordinates": { "x": 1.1755661964416504, "y": 0.8261992931365967, "z": -0.20940929651260376 }, "axis_scores": { "Quantum imaging": 0.7134717106819153, "Quantum Life Science Sensing": 0.7079072594642639, "Quantum sensing Detection": 0.7005501389503479, "Quantum sensing Metrology": 0.7059788107872009, "Quantum sensing navigation": 0.7213596701622009, "Quantum sensing Position": 0.6956931948661804, "Quantum sensing Timing": 0.6920337677001953, "Quantum sensing": 0.717223584651947, "Quantum control": 0.7094818353652954 } }, { "id": 4446, "title": "On the importance of excited state species in low pressure capacitively coupled plasma argon discharges", "abstract": "In the past three decades, first principles-based fully kinetic particle-in-cell Monte Carlo collision (PIC/MCC) simulations have been proven to be an important tool for the understanding of the physi...", "citations": 23, "author_count": 8, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4453, "doi": "10.1088/1361-6595/acd6b4", "umap_coordinates": { "x": 394.0679016113281, "y": 136.01173400878906, "z": 206.380859375 }, "tsne_coordinates": { "x": 1.2463548183441162, "y": -12.015385627746582, "z": -2.57852840423584 }, "pca_coordinates": { "x": -0.10014259815216064, "y": 0.5575027465820312, "z": -1.1957308053970337 }, "axis_scores": { "Quantum imaging": 0.6282987594604492, "Quantum Life Science Sensing": 0.675670862197876, "Quantum sensing Detection": 0.6417065262794495, "Quantum sensing Metrology": 0.6152237057685852, "Quantum sensing navigation": 0.6204087734222412, "Quantum sensing Position": 0.6370209455490112, "Quantum sensing Timing": 0.6199808716773987, "Quantum sensing": 0.6482573747634888, "Quantum control": 0.6323193907737732 } }, { "id": 4447, "title": "Convergence of coined quantum walks on Rd", "abstract": "Coined quantum walks may be interpreted as the motion in position space of a quantum particle with a spin degree of freedom; the dynamics are determined by iterating a unitary transformation which is ...", "citations": 10, "author_count": 4, "categories": [ "Mathematics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4454, "doi": "10.1142/S0219025705001895", "umap_coordinates": { "x": 394.966796875, "y": 137.44757080078125, "z": 206.67591857910156 }, "tsne_coordinates": { "x": -33.728309631347656, "y": 9.095839500427246, "z": 11.19125747680664 }, "pca_coordinates": { "x": 1.3039073944091797, "y": 0.6294324398040771, "z": -0.3715628981590271 }, "axis_scores": { "Quantum imaging": 0.7131607532501221, "Quantum Life Science Sensing": 0.733645498752594, "Quantum sensing Detection": 0.727080762386322, "Quantum sensing Metrology": 0.7122339010238647, "Quantum sensing navigation": 0.7547099590301514, "Quantum sensing Position": 0.7333601117134094, "Quantum sensing Timing": 0.7207159996032715, "Quantum sensing": 0.7349867224693298, "Quantum control": 0.7367362380027771 } }, { "id": 4448, "title": "Experimental evidence of one-dimensional plasma modes in superconducting thin wires", "abstract": "We have studied niobium superconducting thin wires deposited onto a SrTiO3 substrate. By measuring the reflection coefficient of the wires, resonances are observed in the superconducting state in the ...", "citations": 23, "author_count": 6, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4455, "doi": "10.1103/PhysRevLett.86.480", "umap_coordinates": { "x": 395.2273254394531, "y": 135.55899047851562, "z": 208.4624786376953 }, "tsne_coordinates": { "x": 0.02722352370619774, "y": -17.769384384155273, "z": -10.09817886352539 }, "pca_coordinates": { "x": 4.724524974822998, "y": -1.0136568546295166, "z": 1.0801129341125488 }, "axis_scores": { "Quantum imaging": 0.6971235871315002, "Quantum Life Science Sensing": 0.7139684557914734, "Quantum sensing Detection": 0.6927112340927124, "Quantum sensing Metrology": 0.6753143668174744, "Quantum sensing navigation": 0.6965530514717102, "Quantum sensing Position": 0.6753422021865845, "Quantum sensing Timing": 0.6796536445617676, "Quantum sensing": 0.6978994607925415, "Quantum control": 0.6544796228408813 } }, { "id": 4449, "title": "High-Q side-coupled semi-2D-photonic crystal cavity", "abstract": "High-Q semi-2D-photonic crystal cavities with a tapered edge and side-coupled bus waveguide are demonstrated. With a quadratic design, the unloaded cavity presents a theoretical ultrahigh quality fact...", "citations": 3, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4456, "doi": "10.1038/srep26038", "umap_coordinates": { "x": 393.4404296875, "y": 134.16294860839844, "z": 206.57595825195312 }, "tsne_coordinates": { "x": 9.15335750579834, "y": -18.786514282226562, "z": -20.703227996826172 }, "pca_coordinates": { "x": -1.4751973152160645, "y": -1.949782371520996, "z": 1.262451171875 }, "axis_scores": { "Quantum imaging": 0.763618528842926, "Quantum Life Science Sensing": 0.758596658706665, "Quantum sensing Detection": 0.751716673374176, "Quantum sensing Metrology": 0.7482613921165466, "Quantum sensing navigation": 0.7333172559738159, "Quantum sensing Position": 0.7022979259490967, "Quantum sensing Timing": 0.6987958550453186, "Quantum sensing": 0.7671086192131042, "Quantum control": 0.7249941825866699 } }, { "id": 4450, "title": "Two schemes for characterization and detection of the squeezed light: dynamical Casimir effect and nonlinear materials", "abstract": "Using two different schemes, a non-classical-squeezed state of light is detected and characterized. In the first scheme, in a one-dimensional cavity with a moving mirror (non-stationary Casimir effect...", "citations": 3, "author_count": 5, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4457, "doi": "10.1088/0953-4075/49/6/065503", "umap_coordinates": { "x": 395.41180419921875, "y": 135.8358154296875, "z": 206.5645294189453 }, "tsne_coordinates": { "x": -29.988616943359375, "y": -7.049779415130615, "z": -7.1214919090271 }, "pca_coordinates": { "x": 0.19430232048034668, "y": 2.1463820934295654, "z": 1.2789480686187744 }, "axis_scores": { "Quantum imaging": 0.7366455793380737, "Quantum Life Science Sensing": 0.7239365577697754, "Quantum sensing Detection": 0.7381947636604309, "Quantum sensing Metrology": 0.7227226495742798, "Quantum sensing navigation": 0.7259162664413452, "Quantum sensing Position": 0.7256584167480469, "Quantum sensing Timing": 0.6871553659439087, "Quantum sensing": 0.7391927242279053, "Quantum control": 0.69263756275177 } }, { "id": 4451, "title": "Effect of resonant impurity scattering on the carrier dynamics in Si/SiGe quantum wells - art. no. 045303", "abstract": "We have performed Monte Carlo simulations of the electron drift velocity in a delta-doped Si/SiGe quantum well, for high and low temperatures as well as strong and weak electric field. All scattering ...", "citations": 1, "author_count": 4, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4458, "doi": "10.1103/PhysRevB.72.045303", "umap_coordinates": { "x": 393.75994873046875, "y": 135.1241455078125, "z": 209.15110778808594 }, "tsne_coordinates": { "x": 9.903980255126953, "y": -32.45328140258789, "z": 2.47595477104187 }, "pca_coordinates": { "x": 4.4684271812438965, "y": -1.6683769226074219, "z": -0.32038071751594543 }, "axis_scores": { "Quantum imaging": 0.7049539089202881, "Quantum Life Science Sensing": 0.7033426761627197, "Quantum sensing Detection": 0.7026088833808899, "Quantum sensing Metrology": 0.6785677075386047, "Quantum sensing navigation": 0.7213890552520752, "Quantum sensing Position": 0.6981428265571594, "Quantum sensing Timing": 0.6862697601318359, "Quantum sensing": 0.7111460566520691, "Quantum control": 0.7041792273521423 } }, { "id": 4452, "title": "Coherent feedback control for cavity optomechanical systems with a frequency-dependent mirror", "abstract": "Ground-state cooling of mechanical resonators is a prerequisite for the observation of various quantum effects in optomechanical systems and thus has always been a crucial task in quantum optomechanic...", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4459, "doi": "10.1103/PhysRevA.111.013506", "umap_coordinates": { "x": 395.0772399902344, "y": 135.4071044921875, "z": 208.25015258789062 }, "tsne_coordinates": { "x": -16.475584030151367, "y": -23.799453735351562, "z": -2.9677212238311768 }, "pca_coordinates": { "x": 3.9398045539855957, "y": -0.07790827751159668, "z": 1.864046573638916 }, "axis_scores": { "Quantum imaging": 0.7155806422233582, "Quantum Life Science Sensing": 0.7397118210792542, "Quantum sensing Detection": 0.7368024587631226, "Quantum sensing Metrology": 0.7348945736885071, "Quantum sensing navigation": 0.7197384238243103, "Quantum sensing Position": 0.688602864742279, "Quantum sensing Timing": 0.6890913248062134, "Quantum sensing": 0.7345818281173706, "Quantum control": 0.7372815012931824 } }, { "id": 4453, "title": "Two-dimensional electronic spectroscopy", "abstract": "Two-dimensional electronic spectroscopy (2DES) is a popular technique that can track ultrafast coherent and incoherent processes in real time. Since its development in the late 1990s, 2DES has become ...", "citations": 56, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4460, "doi": "10.1038/s43586-023-00267-2", "umap_coordinates": { "x": 393.063720703125, "y": 135.65374755859375, "z": 206.61485290527344 }, "tsne_coordinates": { "x": 5.953848361968994, "y": -4.290770530700684, "z": 7.45164680480957 }, "pca_coordinates": { "x": -0.3320041298866272, "y": -1.0243291854858398, "z": -1.453384280204773 }, "axis_scores": { "Quantum imaging": 0.7457544207572937, "Quantum Life Science Sensing": 0.7703552842140198, "Quantum sensing Detection": 0.7428976893424988, "Quantum sensing Metrology": 0.7180375456809998, "Quantum sensing navigation": 0.7273674011230469, "Quantum sensing Position": 0.7254126071929932, "Quantum sensing Timing": 0.6979682445526123, "Quantum sensing": 0.7517157793045044, "Quantum control": 0.7122016549110413 } }, { "id": 4454, "title": "Tuning the carrier injection barrier of hybrid metal-organic interfaces on rare earth-gold surface compounds", "abstract": "Magnetic hybrid metal-organic interfaces possess a great potential in areas such as organic spintronics and quantum information processing. However, tuning their carrier injection barriers on-demand i...", "citations": 4, "author_count": 7, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4461, "doi": "10.1039/d2nr06440e", "umap_coordinates": { "x": 391.990234375, "y": 134.6052703857422, "z": 206.07595825195312 }, "tsne_coordinates": { "x": 15.764880180358887, "y": -4.2722344398498535, "z": -3.7894296646118164 }, "pca_coordinates": { "x": -0.8904315829277039, "y": -3.6797614097595215, "z": -1.6228277683258057 }, "axis_scores": { "Quantum imaging": 0.7422813773155212, "Quantum Life Science Sensing": 0.7520059943199158, "Quantum sensing Detection": 0.737395703792572, "Quantum sensing Metrology": 0.7240929007530212, "Quantum sensing navigation": 0.7352913022041321, "Quantum sensing Position": 0.7041491270065308, "Quantum sensing Timing": 0.6792402863502502, "Quantum sensing": 0.7483843564987183, "Quantum control": 0.7240927219390869 } }, { "id": 4455, "title": "Numerical modeling of a multi-frequency receiving system based on an array of dipole antennas for LSPE-SWIPE", "abstract": "Here we present the results of a numerical modeling of mode composition in the constriction of the Large Scale Polarization Explorer-Short-Wavelength Instrument for the Polarization Explorer (LSPE-SWI...", "citations": 3, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4462, "doi": "10.3762/bjnano.13.77", "umap_coordinates": { "x": 394.3365173339844, "y": 133.69935607910156, "z": 206.06385803222656 }, "tsne_coordinates": { "x": -16.32754135131836, "y": -6.14520788192749, "z": -30.019886016845703 }, "pca_coordinates": { "x": -1.9049851894378662, "y": -0.6881356239318848, "z": 1.702531099319458 }, "axis_scores": { "Quantum imaging": 0.6770004630088806, "Quantum Life Science Sensing": 0.7020695805549622, "Quantum sensing Detection": 0.6661100387573242, "Quantum sensing Metrology": 0.6660189032554626, "Quantum sensing navigation": 0.683530330657959, "Quantum sensing Position": 0.6715309619903564, "Quantum sensing Timing": 0.6587939262390137, "Quantum sensing": 0.6778793334960938, "Quantum control": 0.6279951333999634 } }, { "id": 4456, "title": "Electrochemical Detection and Characterization of Nanoparticles with Printed Devices", "abstract": "Innovative methods to achieve the user-friendly, quick, and highly sensitive detection of nanomaterials are urgently needed. Nanomaterials have increased importance in commercial products, and there a...", "citations": 27, "author_count": 2, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4463, "doi": "10.3390/bios9020047", "umap_coordinates": { "x": 393.36724853515625, "y": 133.9449462890625, "z": 204.55535888671875 }, "tsne_coordinates": { "x": 25.75489616394043, "y": 17.181203842163086, "z": -9.911500930786133 }, "pca_coordinates": { "x": -4.282651901245117, "y": -2.22237491607666, "z": 0.3793577551841736 }, "axis_scores": { "Quantum imaging": 0.7170445322990417, "Quantum Life Science Sensing": 0.76642906665802, "Quantum sensing Detection": 0.7348316311836243, "Quantum sensing Metrology": 0.7236374616622925, "Quantum sensing navigation": 0.7030236124992371, "Quantum sensing Position": 0.7058373689651489, "Quantum sensing Timing": 0.6777709126472473, "Quantum sensing": 0.735959529876709, "Quantum control": 0.682471752166748 } }, { "id": 4457, "title": "Measurements of Nonlocal Variables and Demonstration of the Failure of the Product Rule for a Pre- and Postselected Pair of Photons", "abstract": "We report the first implementation of the von Neumann instantaneous measurements of nonlocal variables, which becomes possible due to technological achievements in creating hyperentangled photons. Tes...", "citations": 18, "author_count": 13, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4464, "doi": "10.1103/PhysRevLett.122.100405", "umap_coordinates": { "x": 396.17303466796875, "y": 136.14739990234375, "z": 207.50344848632812 }, "tsne_coordinates": { "x": -23.14096450805664, "y": -4.635595798492432, "z": 5.767416954040527 }, "pca_coordinates": { "x": 2.45538067817688, "y": 2.1814587116241455, "z": 3.0667669773101807 }, "axis_scores": { "Quantum imaging": 0.7135462760925293, "Quantum Life Science Sensing": 0.7200518846511841, "Quantum sensing Detection": 0.7464338541030884, "Quantum sensing Metrology": 0.7348286509513855, "Quantum sensing navigation": 0.7104631662368774, "Quantum sensing Position": 0.7179668545722961, "Quantum sensing Timing": 0.7059628367424011, "Quantum sensing": 0.7395491600036621, "Quantum control": 0.699141800403595 } }, { "id": 4458, "title": "Three-dimensional dynamics of a fermionic Mott wedding-cake in clean and disordered optical lattices", "abstract": "Non-equilibrium quantum phenomena are ubiquitous in nature. Yet, theoretical predictions on the real-time dynamics of many-body quantum systems remain formidably challenging, especially for high dimen...", "citations": 18, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4465, "doi": "10.1038/srep02570", "umap_coordinates": { "x": 393.1152648925781, "y": 136.85215759277344, "z": 207.40048217773438 }, "tsne_coordinates": { "x": 14.057991981506348, "y": -4.050754070281982, "z": 17.710189819335938 }, "pca_coordinates": { "x": 1.4877958297729492, "y": -0.20791935920715332, "z": -2.9476561546325684 }, "axis_scores": { "Quantum imaging": 0.6914252042770386, "Quantum Life Science Sensing": 0.6820279955863953, "Quantum sensing Detection": 0.6593689322471619, "Quantum sensing Metrology": 0.6550775170326233, "Quantum sensing navigation": 0.6971057653427124, "Quantum sensing Position": 0.6505558490753174, "Quantum sensing Timing": 0.6546393036842346, "Quantum sensing": 0.67316073179245, "Quantum control": 0.6732559204101562 } }, { "id": 4459, "title": "Full-Dimensional Quantum Reaction Rate Calculations for H + CH4 → H2 + CH3 on a Recent Potential Energy Surface", "abstract": "The thermal rate constant of the H + CH4 -> H-2 + CH3 reaction on the recent potential energy surface (PES) of Corchado et al (CBE) (Corchado, J. C.; Bravo, J. L.; Espinosa-Garcia, J. J. Chem. Phys. 2...", "citations": 49, "author_count": 4, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4466, "doi": "10.1021/jp911880u", "umap_coordinates": { "x": 393.37774658203125, "y": 137.16603088378906, "z": 206.01437377929688 }, "tsne_coordinates": { "x": -9.13623046875, "y": 5.836866855621338, "z": 28.995481491088867 }, "pca_coordinates": { "x": 0.5770037174224854, "y": 0.536456823348999, "z": -1.7173190116882324 }, "axis_scores": { "Quantum imaging": 0.6650356650352478, "Quantum Life Science Sensing": 0.6928111910820007, "Quantum sensing Detection": 0.6599546670913696, "Quantum sensing Metrology": 0.6535227298736572, "Quantum sensing navigation": 0.6539679765701294, "Quantum sensing Position": 0.6482868790626526, "Quantum sensing Timing": 0.6440518498420715, "Quantum sensing": 0.6803421974182129, "Quantum control": 0.6781817674636841 } }, { "id": 4460, "title": "Intramolecular dimers: A new strategy to fluorescence quenching in dual-labeled oligonucleotide probes", "abstract": "Many genomics assays use profluorescent oligonucleotide probes that are covalently labeled at the 5' end with a fluorophore and at the 3' end with a quencher. It is generally accepted that quenching i...", "citations": 202, "author_count": 5, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4467, "doi": "10.1021/ja025678o", "umap_coordinates": { "x": 392.6617736816406, "y": 136.18118286132812, "z": 204.99746704101562 }, "tsne_coordinates": { "x": 25.518415451049805, "y": 21.80519676208496, "z": -22.38855743408203 }, "pca_coordinates": { "x": -1.7668524980545044, "y": -1.1647894382476807, "z": -1.525219440460205 }, "axis_scores": { "Quantum imaging": 0.7060176134109497, "Quantum Life Science Sensing": 0.7158375382423401, "Quantum sensing Detection": 0.7031252384185791, "Quantum sensing Metrology": 0.6671273708343506, "Quantum sensing navigation": 0.6996855139732361, "Quantum sensing Position": 0.6647049188613892, "Quantum sensing Timing": 0.6684814691543579, "Quantum sensing": 0.7024392485618591, "Quantum control": 0.6690942645072937 } }, { "id": 4461, "title": "A Simple and Tunable Single-Bandpass Microwave Photonic Filter of Adjustable Shape", "abstract": "A simple and tunable single-hand pass microwave photonic filter of adjustable shape is proposed and experimentally demonstrated. The filter is based on multiple sources (spectrum-sliced by a Mach-Zehn...", "citations": 26, "author_count": 6, "categories": [ "Engineering" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4468, "doi": "10.1109/LPT.2008.2004718", "umap_coordinates": { "x": 394.3114929199219, "y": 133.41949462890625, "z": 207.03543090820312 }, "tsne_coordinates": { "x": 4.68875789642334, "y": -5.863858222961426, "z": -36.173152923583984 }, "pca_coordinates": { "x": -1.6672550439834595, "y": -1.5752711296081543, "z": 2.661806106567383 }, "axis_scores": { "Quantum imaging": 0.6669260263442993, "Quantum Life Science Sensing": 0.6880505681037903, "Quantum sensing Detection": 0.6756800413131714, "Quantum sensing Metrology": 0.6694408059120178, "Quantum sensing navigation": 0.6597954630851746, "Quantum sensing Position": 0.6526232957839966, "Quantum sensing Timing": 0.6573549509048462, "Quantum sensing": 0.6898847818374634, "Quantum control": 0.6677030324935913 } }, { "id": 4462, "title": "Gross and fine structure of pion production excitation functions in p-nucleus and nucleus-nucleus reactions", "abstract": "Slow ramping of the CELSIUS storage ring has been utilized to measure the yield of charged pions in proton and heavy ion induced collisions with continuously varying beam energy. Boltzmann-Uehling-Uhl...", "citations": 16, "author_count": 31, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 4469, "doi": "10.1103/PhysRevLett.78.3828", "umap_coordinates": { "x": 396.0116271972656, "y": 135.1071319580078, "z": 207.8060760498047 }, "tsne_coordinates": { "x": 25.398555755615234, "y": -14.335525512695312, "z": 29.84975242614746 }, "pca_coordinates": { "x": 2.2294116020202637, "y": 0.563399076461792, "z": -0.6078528761863708 }, "axis_scores": { "Quantum imaging": 0.6879777908325195, "Quantum Life Science Sensing": 0.6746109127998352, "Quantum sensing Detection": 0.665488600730896, "Quantum sensing Metrology": 0.6565816402435303, "Quantum sensing navigation": 0.6823318004608154, "Quantum sensing Position": 0.6667818427085876, "Quantum sensing Timing": 0.6710910797119141, "Quantum sensing": 0.684257447719574, "Quantum control": 0.6693310737609863 } }, { "id": 4463, "title": "Coupled atomic wires in a synthetic magnetic field", "abstract": "We propose and study systems of coupled atomic wires in a perpendicular synthetic magnetic field as a platform to realize exotic phases of quantum matter. This includes (fractional) quantum Hall state...", "citations": 23, "author_count": 7, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4470, "doi": "10.1103/PhysRevA.95.043632", "umap_coordinates": { "x": 393.53887939453125, "y": 136.04788208007812, "z": 208.99156188964844 }, "tsne_coordinates": { "x": 3.526813507080078, "y": -25.701431274414062, "z": 11.988363265991211 }, "pca_coordinates": { "x": 4.13214111328125, "y": -1.1158041954040527, "z": -1.1777993440628052 }, "axis_scores": { "Quantum imaging": 0.7193037271499634, "Quantum Life Science Sensing": 0.718529224395752, "Quantum sensing Detection": 0.7035254240036011, "Quantum sensing Metrology": 0.7033270001411438, "Quantum sensing navigation": 0.7195395827293396, "Quantum sensing Position": 0.6719878315925598, "Quantum sensing Timing": 0.6870174407958984, "Quantum sensing": 0.7242669463157654, "Quantum control": 0.7191828489303589 } }, { "id": 4464, "title": "Precision resonance energy scans with the PANDA experiment at FAIR: Sensitivity study for width and line shape measurements of the X(3872)", "abstract": ".This paper summarises a comprehensive Monte Carlo simulation study for precision resonance energy scan measurements. Apart from the proof of principle for natural width and line shape measurements of...", "citations": 44, "author_count": 452, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4471, "doi": "10.1140/epja/i2019-12718-2", "umap_coordinates": { "x": 396.4507751464844, "y": 134.5730438232422, "z": 206.73507690429688 }, "tsne_coordinates": { "x": -28.0983943939209, "y": 16.989580154418945, "z": -7.9423136711120605 }, "pca_coordinates": { "x": -1.0968400239944458, "y": 2.090841293334961, "z": 2.1852076053619385 }, "axis_scores": { "Quantum imaging": 0.6856443285942078, "Quantum Life Science Sensing": 0.6734421253204346, "Quantum sensing Detection": 0.6716818809509277, "Quantum sensing Metrology": 0.6794479489326477, "Quantum sensing navigation": 0.6783304214477539, "Quantum sensing Position": 0.7020321488380432, "Quantum sensing Timing": 0.7021138668060303, "Quantum sensing": 0.6886796951293945, "Quantum control": 0.6699900031089783 } }, { "id": 4465, "title": "A kinetic Monte Carlo study of proton diffusion in disordered perovskite structured lattices based on first-principles calculations", "abstract": "A jump-diffusion model is introduced to describe proton diffusion in cubic perovskites. It is solved using both an analytical matrix approach and kinetic Monte Carlo simulations. The model is applied ...", "citations": 84, "author_count": 5, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4472, "doi": "10.1016/j.ssi.2005.09.044", "umap_coordinates": { "x": 393.1452331542969, "y": 136.39752197265625, "z": 205.80105590820312 }, "tsne_coordinates": { "x": 16.190702438354492, "y": 6.847896099090576, "z": 19.688888549804688 }, "pca_coordinates": { "x": -0.504348874092102, "y": 0.24808239936828613, "z": -1.9977176189422607 }, "axis_scores": { "Quantum imaging": 0.7091605067253113, "Quantum Life Science Sensing": 0.7096742391586304, "Quantum sensing Detection": 0.6724062561988831, "Quantum sensing Metrology": 0.6696686744689941, "Quantum sensing navigation": 0.7113773822784424, "Quantum sensing Position": 0.6817209720611572, "Quantum sensing Timing": 0.6719715595245361, "Quantum sensing": 0.6972370743751526, "Quantum control": 0.666835606098175 } }, { "id": 4466, "title": "Optimizing the stoichiometry of ultrathin NbTiN films for high-performance superconducting nanowire single-photon detectors", "abstract": "The requirements in quantum optics experiments for high single-photon detection efficiency. low timing jitter, low dark count rate and short dead time have been fulfilled with the development of super...", "citations": 48, "author_count": 12, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4473, "doi": "10.1364/OE.27.026579", "umap_coordinates": { "x": 394.0268249511719, "y": 133.37545776367188, "z": 206.9459228515625 }, "tsne_coordinates": { "x": -15.1917142868042, "y": 3.3588247299194336, "z": -33.21288299560547 }, "pca_coordinates": { "x": -1.697859764099121, "y": -2.688753604888916, "z": 2.7044568061828613 }, "axis_scores": { "Quantum imaging": 0.716600239276886, "Quantum Life Science Sensing": 0.7114066481590271, "Quantum sensing Detection": 0.7084189057350159, "Quantum sensing Metrology": 0.7161201238632202, "Quantum sensing navigation": 0.7171140909194946, "Quantum sensing Position": 0.6997189521789551, "Quantum sensing Timing": 0.7226114869117737, "Quantum sensing": 0.7195805907249451, "Quantum control": 0.679546058177948 } }, { "id": 4467, "title": "Two-center interference in fast proton-H2-electron transfer and excitation processes - art. no. 050703", "abstract": "We present experimental evidence for a strong dependence on the angle between the molecular axis of H-2 and the direction of the incoming projectile (p) in the cross section for transfer excitation in...", "citations": 33, "author_count": 14, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4474, "doi": "10.1103/PhysRevA.72.050703", "umap_coordinates": { "x": 395.4486083984375, "y": 135.33836364746094, "z": 207.79974365234375 }, "tsne_coordinates": { "x": -8.206321716308594, "y": -5.858809471130371, "z": -4.152095794677734 }, "pca_coordinates": { "x": 2.366987705230713, "y": 1.346975326538086, "z": -0.33069199323654175 }, "axis_scores": { "Quantum imaging": 0.7122166752815247, "Quantum Life Science Sensing": 0.6890801191329956, "Quantum sensing Detection": 0.6905673742294312, "Quantum sensing Metrology": 0.6645828485488892, "Quantum sensing navigation": 0.6726133227348328, "Quantum sensing Position": 0.6585488319396973, "Quantum sensing Timing": 0.6864396929740906, "Quantum sensing": 0.6941167116165161, "Quantum control": 0.6807044744491577 } }, { "id": 4468, "title": "Unveiling the role of Ag-Sb bimetallic S-scheme heterojunction for vis-NIR-light driven selective photoreduction CO2 to CH4", "abstract": "The construction of interfacial engineered heterojunctions is an effective strategy to broaden the optical response and facilitate charge separation. Herein, a novel 0D/1D Ag2S/Sb2S3 heterojunction is...", "citations": 40, "author_count": 7, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4475, "doi": "10.1016/j.apcatb.2022.121960", "umap_coordinates": { "x": 392.6244812011719, "y": 134.54783630371094, "z": 205.07321166992188 }, "tsne_coordinates": { "x": 25.49789810180664, "y": 8.545906066894531, "z": -0.1697818636894226 }, "pca_coordinates": { "x": -2.8929152488708496, "y": -1.2359216213226318, "z": -1.0606962442398071 }, "axis_scores": { "Quantum imaging": 0.6406722068786621, "Quantum Life Science Sensing": 0.6743646860122681, "Quantum sensing Detection": 0.6577098965644836, "Quantum sensing Metrology": 0.6479967832565308, "Quantum sensing navigation": 0.6458896398544312, "Quantum sensing Position": 0.6552258729934692, "Quantum sensing Timing": 0.6468109488487244, "Quantum sensing": 0.6673833727836609, "Quantum control": 0.6594744324684143 } }, { "id": 4469, "title": "Magnetic, Photo- and Electroluminescent: Multifunctional Ionic Tb Complexes", "abstract": "In the search for new multifunctional materials, particularly for application in solid-state lighting, a set of terbium salicylato (Sal) complexes of general composition [Cat] [Tb(Sal)(4)] with the co...", "citations": 8, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4476, "doi": "10.1021/acs.inorgchem.1c01875", "umap_coordinates": { "x": 391.7373046875, "y": 135.25509643554688, "z": 205.0934600830078 }, "tsne_coordinates": { "x": 6.577500820159912, "y": -4.151742458343506, "z": -22.422460556030273 }, "pca_coordinates": { "x": -3.27895450592041, "y": -3.64170503616333, "z": -3.4013915061950684 }, "axis_scores": { "Quantum imaging": 0.7295964956283569, "Quantum Life Science Sensing": 0.7005384564399719, "Quantum sensing Detection": 0.6929020881652832, "Quantum sensing Metrology": 0.6869034767150879, "Quantum sensing navigation": 0.6635904908180237, "Quantum sensing Position": 0.6465540528297424, "Quantum sensing Timing": 0.6575846076011658, "Quantum sensing": 0.710256040096283, "Quantum control": 0.6843977570533752 } }, { "id": 4470, "title": "Extended Intermolecular Interactions Governing Photocurrent-Voltage Relations in Ternary Organic Solar Cells", "abstract": "Efficient organic solar cells are based on (electron) donor-acceptor heterojunctions. An optically generated excited molecular state (exciton) is dissociated at this junction, forming a charge-transfe...", "citations": 11, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4477, "doi": "10.1021/acs.jpclett.6b01962", "umap_coordinates": { "x": 392.04534912109375, "y": 136.0264129638672, "z": 205.54356384277344 }, "tsne_coordinates": { "x": 20.89800262451172, "y": -43.521446228027344, "z": 3.183851718902588 }, "pca_coordinates": { "x": -0.006432533264160156, "y": -2.0689263343811035, "z": -2.3979318141937256 }, "axis_scores": { "Quantum imaging": 0.686545729637146, "Quantum Life Science Sensing": 0.6981387734413147, "Quantum sensing Detection": 0.6625214219093323, "Quantum sensing Metrology": 0.6617332696914673, "Quantum sensing navigation": 0.6697559356689453, "Quantum sensing Position": 0.6568436622619629, "Quantum sensing Timing": 0.659564733505249, "Quantum sensing": 0.6882882118225098, "Quantum control": 0.6714220643043518 } }, { "id": 4471, "title": "Real-time observation of multiexcitonic states in ultrafast singlet fission using coherent 2D electronic spectroscopy", "abstract": "Singlet fission is the spin-allowed conversion of a spin-singlet exciton into a pair of spin-triplet excitons residing on neighbouring molecules. To rationalize this phenomenon, a multiexcitonic spin-...", "citations": 330, "author_count": 9, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4478, "doi": "10.1038/NCHEM.2371", "umap_coordinates": { "x": 393.036376953125, "y": 135.58819580078125, "z": 206.4788360595703 }, "tsne_coordinates": { "x": 4.327127933502197, "y": 0.3336005210876465, "z": 8.622078895568848 }, "pca_coordinates": { "x": -0.32648229598999023, "y": -1.279843807220459, "z": 0.7114976048469543 }, "axis_scores": { "Quantum imaging": 0.7239439487457275, "Quantum Life Science Sensing": 0.7513381242752075, "Quantum sensing Detection": 0.7374736070632935, "Quantum sensing Metrology": 0.696419894695282, "Quantum sensing navigation": 0.6975758671760559, "Quantum sensing Position": 0.68471759557724, "Quantum sensing Timing": 0.725144624710083, "Quantum sensing": 0.727441132068634, "Quantum control": 0.689454972743988 } }, { "id": 4472, "title": "A Cambrian origin for vertebrate rods", "abstract": "Vertebrates acquired dim-light vision when an ancestral cone evolved into the rod photoreceptor at an unknown stage preceding the last common ancestor of extant jawed vertebrates (similar to 420 milli...", "citations": 46, "author_count": 4, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4479, "doi": "10.7554/eLife.07166", "umap_coordinates": { "x": 394.6110534667969, "y": 136.5262908935547, "z": 205.05023193359375 }, "tsne_coordinates": { "x": -11.861621856689453, "y": 30.413528442382812, "z": 21.079233169555664 }, "pca_coordinates": { "x": -0.905815839767456, "y": 3.2294368743896484, "z": -1.2540128231048584 }, "axis_scores": { "Quantum imaging": 0.6931931376457214, "Quantum Life Science Sensing": 0.7229312658309937, "Quantum sensing Detection": 0.6804215908050537, "Quantum sensing Metrology": 0.6581680774688721, "Quantum sensing navigation": 0.7124184966087341, "Quantum sensing Position": 0.6903435587882996, "Quantum sensing Timing": 0.6803147792816162, "Quantum sensing": 0.6870716214179993, "Quantum control": 0.6642606854438782 } }, { "id": 4473, "title": "Suspended InAsnanowire gate-all-around field-effect transistors", "abstract": "Gate-all-around field-effect transistors are realized with thin, single-crystalline, pure-phase InAs nanowires grown by molecular beam epitaxy. At room temperature, the transistors show a desired high...", "citations": 29, "author_count": 7, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4480, "doi": "10.1063/1.4896105", "umap_coordinates": { "x": 393.4060363769531, "y": 133.8293914794922, "z": 208.48728942871094 }, "tsne_coordinates": { "x": 20.327959060668945, "y": -22.959043502807617, "z": -4.018983840942383 }, "pca_coordinates": { "x": 1.7715826034545898, "y": -2.961164951324463, "z": 2.071174144744873 }, "axis_scores": { "Quantum imaging": 0.6719789505004883, "Quantum Life Science Sensing": 0.6906260251998901, "Quantum sensing Detection": 0.6799476742744446, "Quantum sensing Metrology": 0.6824412941932678, "Quantum sensing navigation": 0.705743670463562, "Quantum sensing Position": 0.6745863556861877, "Quantum sensing Timing": 0.6775776743888855, "Quantum sensing": 0.7010370492935181, "Quantum control": 0.6733978390693665 } }, { "id": 4474, "title": "AC susceptometry and magnetorelaxometry for magnetic nanoparticle based biomolecule detection", "abstract": "Functionalized magnetic nanoparticles are increasingly used as probes in biomolecule detection. We compared two different techniques, which provide information on the state of the magnetic particle sy...", "citations": 4, "author_count": 11, "categories": [ "Engineering" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4481, "doi": null, "umap_coordinates": { "x": 391.62841796875, "y": 139.29000854492188, "z": 209.63111877441406 }, "tsne_coordinates": { "x": -4.203900337219238, "y": 45.00720977783203, "z": -5.2268266677856445 }, "pca_coordinates": { "x": -2.266716480255127, "y": 2.2420778274536133, "z": -3.0598437786102295 }, "axis_scores": { "Quantum imaging": 0.7019389271736145, "Quantum Life Science Sensing": 0.7398729920387268, "Quantum sensing Detection": 0.7224994897842407, "Quantum sensing Metrology": 0.72162926197052, "Quantum sensing navigation": 0.7194888591766357, "Quantum sensing Position": 0.6987007856369019, "Quantum sensing Timing": 0.6692556142807007, "Quantum sensing": 0.726251482963562, "Quantum control": 0.7126902341842651 } }, { "id": 4475, "title": "Photophysical characterization of cinnamates", "abstract": "The photophysical properties of five methoxy-substituted 2-ethylhexylcinnamates were studied with experimental and theoretical methods. It was found that the fluorescence quantum yields varied strongl...", "citations": 32, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4482, "doi": "10.1039/b909695g", "umap_coordinates": { "x": 392.78131103515625, "y": 135.91539001464844, "z": 204.64364624023438 }, "tsne_coordinates": { "x": 3.0800211429595947, "y": 8.362773895263672, "z": -3.445295572280884 }, "pca_coordinates": { "x": -2.7155652046203613, "y": 0.30371689796447754, "z": -2.760906219482422 }, "axis_scores": { "Quantum imaging": 0.7136262655258179, "Quantum Life Science Sensing": 0.7412633299827576, "Quantum sensing Detection": 0.7131657600402832, "Quantum sensing Metrology": 0.6901081800460815, "Quantum sensing navigation": 0.6823883652687073, "Quantum sensing Position": 0.6808925867080688, "Quantum sensing Timing": 0.667050302028656, "Quantum sensing": 0.7282105684280396, "Quantum control": 0.7041500210762024 } }, { "id": 4476, "title": "Current trends in imaging for otosclerosis and the potential role of photon-counting computed tomography", "abstract": "Otosclerosis is a primary otodystrophy that impacts the osseous architecture of the otic capsule within the temporal bone, resulting in progressive hearing loss. High-resolution computed tomography (H...", "citations": 3, "author_count": 8, "categories": [ "Otorhinolaryngology" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4483, "doi": "10.14639/0392-100X-suppl.1_3-45-2025-A1335", "umap_coordinates": { "x": 395.2143859863281, "y": 133.14617919921875, "z": 204.72369384765625 }, "tsne_coordinates": { "x": -1.9843882322311401, "y": 24.763853073120117, "z": -14.84626579284668 }, "pca_coordinates": { "x": -3.327726125717163, "y": 2.901339054107666, "z": 1.5502738952636719 }, "axis_scores": { "Quantum imaging": 0.673097550868988, "Quantum Life Science Sensing": 0.6761614084243774, "Quantum sensing Detection": 0.6552183628082275, "Quantum sensing Metrology": 0.6518691778182983, "Quantum sensing navigation": 0.6723844408988953, "Quantum sensing Position": 0.6718881130218506, "Quantum sensing Timing": 0.6710087060928345, "Quantum sensing": 0.6547200679779053, "Quantum control": 0.6277049779891968 } }, { "id": 4477, "title": "Room-temperature control and electrical readout of individual nitrogen-vacancy nuclear spins", "abstract": "Nuclear spins in semiconductors are leading candidates for future quantum technologies, including quantum computation, communication, and sensing. Nuclear spins in diamond are particularly attractive ...", "citations": 35, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4484, "doi": "10.1038/s41467-021-24494-x", "umap_coordinates": { "x": 393.2763977050781, "y": 135.58236694335938, "z": 207.01739501953125 }, "tsne_coordinates": { "x": 11.629642486572266, "y": -10.488907814025879, "z": 22.235383987426758 }, "pca_coordinates": { "x": -0.24515700340270996, "y": -0.6674544811248779, "z": 0.3703990578651428 }, "axis_scores": { "Quantum imaging": 0.7306110858917236, "Quantum Life Science Sensing": 0.7424395084381104, "Quantum sensing Detection": 0.7247411012649536, "Quantum sensing Metrology": 0.7137203216552734, "Quantum sensing navigation": 0.7309892177581787, "Quantum sensing Position": 0.72487473487854, "Quantum sensing Timing": 0.7256012558937073, "Quantum sensing": 0.7443033456802368, "Quantum control": 0.7319030165672302 } }, { "id": 4478, "title": "Entanglement Enabled Intensity Interferometry of different wavelengths of light", "abstract": "We propose methods to perform intensity interferometry of photons having two different wavelengths. Distinguishable particles typically cannot interfere with each other, but we overcome that obstacle ...", "citations": 8, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4485, "doi": "10.1016/j.aop.2020.168346", "umap_coordinates": { "x": 395.29730224609375, "y": 136.1102752685547, "z": 206.0621337890625 }, "tsne_coordinates": { "x": -17.31454849243164, "y": -3.4081554412841797, "z": -8.919825553894043 }, "pca_coordinates": { "x": -0.9380500912666321, "y": 1.9446818828582764, "z": 2.656053066253662 }, "axis_scores": { "Quantum imaging": 0.803520143032074, "Quantum Life Science Sensing": 0.7605999112129211, "Quantum sensing Detection": 0.7734692692756653, "Quantum sensing Metrology": 0.7607784271240234, "Quantum sensing navigation": 0.7572647333145142, "Quantum sensing Position": 0.7418166399002075, "Quantum sensing Timing": 0.7432870864868164, "Quantum sensing": 0.7818002700805664, "Quantum control": 0.7529717683792114 } }, { "id": 4479, "title": "Collimatorless imaging of gamma rays with help of gamma-ray tracking", "abstract": "In many gamma-ray detector systems that are built for imaging purposes Compton scattered photons are suppressed as much as possible. However, the information from photons that scattered inside a detec...", "citations": 8, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4486, "doi": "10.1016/S0168-9002(01)01007-5", "umap_coordinates": { "x": 395.23712158203125, "y": 133.25100708007812, "z": 205.10626220703125 }, "tsne_coordinates": { "x": -7.656511306762695, "y": 19.132814407348633, "z": -10.741508483886719 }, "pca_coordinates": { "x": -3.573385238647461, "y": 2.8603758811950684, "z": 3.5399627685546875 }, "axis_scores": { "Quantum imaging": 0.6871919631958008, "Quantum Life Science Sensing": 0.6745890974998474, "Quantum sensing Detection": 0.6501244902610779, "Quantum sensing Metrology": 0.6545131802558899, "Quantum sensing navigation": 0.6923019886016846, "Quantum sensing Position": 0.6641064286231995, "Quantum sensing Timing": 0.6600997447967529, "Quantum sensing": 0.6542587280273438, "Quantum control": 0.6244996190071106 } }, { "id": 4480, "title": "Dynamics of carrier recombination and localization in AlGaN quantum wells studied by time-resolved transmission spectroscopy", "abstract": "Time-resolved transmission and photoluminescence measurements were performed on Al0.35Ga0.65N/Al0.49Ga0.51N quantum well structures with different well widths. Comparison of transmission and luminesce...", "citations": 15, "author_count": 6, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4487, "doi": "10.1063/1.3222972", "umap_coordinates": { "x": 392.9673156738281, "y": 134.84915161132812, "z": 208.1626434326172 }, "tsne_coordinates": { "x": 25.444122314453125, "y": -22.801929473876953, "z": 5.626521587371826 }, "pca_coordinates": { "x": 1.2980396747589111, "y": -2.559213638305664, "z": -0.552626371383667 }, "axis_scores": { "Quantum imaging": 0.7328305244445801, "Quantum Life Science Sensing": 0.7340140342712402, "Quantum sensing Detection": 0.7185342311859131, "Quantum sensing Metrology": 0.7101802825927734, "Quantum sensing navigation": 0.7271520495414734, "Quantum sensing Position": 0.6983033418655396, "Quantum sensing Timing": 0.7030377388000488, "Quantum sensing": 0.7312412261962891, "Quantum control": 0.7012524604797363 } }, { "id": 4481, "title": "QuTiP-BoFiN: A bosonic and fermionic numerical hierarchical-equations-of-motion library with applications in light-harvesting, quantum control, and single-molecule electronics", "abstract": "The hierarchical equations of motion (HEOM) method is a powerful exact numerical approach to solve the dynamics and find the steady-state of a quantum system coupled to a non-Markovian and nonperturba...", "citations": 66, "author_count": 9, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4488, "doi": "10.1103/PhysRevResearch.5.013181", "umap_coordinates": { "x": 394.0730895996094, "y": 136.91197204589844, "z": 206.77294921875 }, "tsne_coordinates": { "x": -1.9559531211853027, "y": -17.16798210144043, "z": 0.19411331415176392 }, "pca_coordinates": { "x": 2.2748188972473145, "y": -1.071493148803711, "z": -0.6409039497375488 }, "axis_scores": { "Quantum imaging": 0.7530505657196045, "Quantum Life Science Sensing": 0.7416257262229919, "Quantum sensing Detection": 0.7321493029594421, "Quantum sensing Metrology": 0.7258058786392212, "Quantum sensing navigation": 0.7427943348884583, "Quantum sensing Position": 0.7256636023521423, "Quantum sensing Timing": 0.7244307994842529, "Quantum sensing": 0.75, "Quantum control": 0.7445806264877319 } }, { "id": 4482, "title": "Quantum scattering, resonant states, and conductance fluctuations in an open square electron billiard", "abstract": "Electron transport was studied in an open square quantum dot with a dimension typical for current experiments. A numerical analysis of the probability density distribution inside the dot was performed...", "citations": 66, "author_count": 3, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 4489, "doi": "10.1103/PhysRevB.56.6931", "umap_coordinates": { "x": 394.0083923339844, "y": 135.54769897460938, "z": 208.8506622314453 }, "tsne_coordinates": { "x": -4.555770397186279, "y": -34.14531326293945, "z": -2.2814321517944336 }, "pca_coordinates": { "x": 4.119664669036865, "y": -2.409210681915283, "z": -0.4800316095352173 }, "axis_scores": { "Quantum imaging": 0.7204576134681702, "Quantum Life Science Sensing": 0.7559351325035095, "Quantum sensing Detection": 0.7480592727661133, "Quantum sensing Metrology": 0.7405213117599487, "Quantum sensing navigation": 0.7507132291793823, "Quantum sensing Position": 0.7061657309532166, "Quantum sensing Timing": 0.695819079875946, "Quantum sensing": 0.7666363716125488, "Quantum control": 0.7234830260276794 } }, { "id": 4483, "title": "Readout of Quantum Screening Effects Using a Time-Dependent Probe", "abstract": "In voltage-and temperature-biased coherent conductors quantum screening effects occur if the conductor's transmission is energy dependent. Here, we show that an additional ac-driven terminal can act a...", "citations": 4, "author_count": 7, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4490, "doi": "10.1103/PhysRevLett.127.246802", "umap_coordinates": { "x": 395.18695068359375, "y": 135.8326873779297, "z": 207.53115844726562 }, "tsne_coordinates": { "x": -20.63150978088379, "y": -6.376836776733398, "z": 5.226897716522217 }, "pca_coordinates": { "x": 2.4742321968078613, "y": 0.26651787757873535, "z": 2.607628345489502 }, "axis_scores": { "Quantum imaging": 0.7616783976554871, "Quantum Life Science Sensing": 0.7712371349334717, "Quantum sensing Detection": 0.7731502056121826, "Quantum sensing Metrology": 0.736268162727356, "Quantum sensing navigation": 0.7479425668716431, "Quantum sensing Position": 0.7349961400032043, "Quantum sensing Timing": 0.7719006538391113, "Quantum sensing": 0.7749463319778442, "Quantum control": 0.7364059090614319 } }, { "id": 4484, "title": "Design considerations to overcome cross talk in a photon counting silicon strip detector for computed tomography", "abstract": "This article presents a Monte Carlo simulation of the detector energy response in the presence of pileup in a segmented silicon microstrip detector designed for high flux spectral computed tomography ...", "citations": 27, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4491, "doi": "10.1016/j.nima.2010.04.071", "umap_coordinates": { "x": 394.884521484375, "y": 132.54026794433594, "z": 205.47903442382812 }, "tsne_coordinates": { "x": -14.143064498901367, "y": 18.279420852661133, "z": -16.00261116027832 }, "pca_coordinates": { "x": -3.481269359588623, "y": 0.8793866634368896, "z": 3.7306504249572754 }, "axis_scores": { "Quantum imaging": 0.6823039054870605, "Quantum Life Science Sensing": 0.6756635904312134, "Quantum sensing Detection": 0.6843612790107727, "Quantum sensing Metrology": 0.6876091361045837, "Quantum sensing navigation": 0.6745266318321228, "Quantum sensing Position": 0.654176652431488, "Quantum sensing Timing": 0.6713733673095703, "Quantum sensing": 0.681290328502655, "Quantum control": 0.6369757056236267 } }, { "id": 4485, "title": "Recent Advances in Upconversion Nanoparticles for Therapeutics: From Fundamentals to Cutting-Edge Applications", "abstract": "Optically responsive composite materials hold significant promise for in vivo diagnostics and targeted therapies. Rare-earth-doped upconversion nanoparticles (UCNPs), renowned for their unique lumines...", "citations": 4, "author_count": 8, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4492, "doi": "10.1002/elt2.70012", "umap_coordinates": { "x": 393.46014404296875, "y": 133.72076416015625, "z": 204.82749938964844 }, "tsne_coordinates": { "x": 12.980175018310547, "y": 21.439878463745117, "z": -20.777376174926758 }, "pca_coordinates": { "x": -4.557233810424805, "y": -0.8012852668762207, "z": -1.676603078842163 }, "axis_scores": { "Quantum imaging": 0.7106925249099731, "Quantum Life Science Sensing": 0.7230158448219299, "Quantum sensing Detection": 0.6724777221679688, "Quantum sensing Metrology": 0.6815240979194641, "Quantum sensing navigation": 0.6638075709342957, "Quantum sensing Position": 0.6559396982192993, "Quantum sensing Timing": 0.6718261241912842, "Quantum sensing": 0.6898679733276367, "Quantum control": 0.6765825748443604 } }, { "id": 4486, "title": "Holistic analysis of a gliding arc discharge using 3D tomography and single-shot fluorescence lifetime imaging", "abstract": "Gliding arc plasmas, a versatile form of non-thermal plasma discharges, hold great promise for sustainable chemical conversion in electrified industrial applications. Their relatively high temperature...", "citations": 2, "author_count": 8, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4493, "doi": "10.1038/s44172-024-00250-z", "umap_coordinates": { "x": 394.49468994140625, "y": 133.8625946044922, "z": 206.03848266601562 }, "tsne_coordinates": { "x": -4.681900978088379, "y": 14.395868301391602, "z": -35.99173355102539 }, "pca_coordinates": { "x": -2.807407855987549, "y": 1.485811710357666, "z": 1.2261533737182617 }, "axis_scores": { "Quantum imaging": 0.7249588966369629, "Quantum Life Science Sensing": 0.737267017364502, "Quantum sensing Detection": 0.6898249387741089, "Quantum sensing Metrology": 0.7003154158592224, "Quantum sensing navigation": 0.7083672285079956, "Quantum sensing Position": 0.6523964405059814, "Quantum sensing Timing": 0.6710801124572754, "Quantum sensing": 0.7062487602233887, "Quantum control": 0.6461256742477417 } }, { "id": 4487, "title": "X-ray-Based Techniques to Study the Nano-Bio Interface", "abstract": "X-ray-based analytics are routinely applied in many fields, including physics, chemistry, materials science, and engineering. The full potential of such techniques in the life sciences and medicine, h...", "citations": 87, "author_count": 82, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4494, "doi": "10.1021/acsnano.0c09563", "umap_coordinates": { "x": 394.1898498535156, "y": 133.86407470703125, "z": 204.9810791015625 }, "tsne_coordinates": { "x": 4.730592250823975, "y": 21.77908706665039, "z": -23.68937110900879 }, "pca_coordinates": { "x": -3.43046236038208, "y": 0.26660871505737305, "z": -0.5393160581588745 }, "axis_scores": { "Quantum imaging": 0.7012947797775269, "Quantum Life Science Sensing": 0.7287225127220154, "Quantum sensing Detection": 0.6854588985443115, "Quantum sensing Metrology": 0.6753690242767334, "Quantum sensing navigation": 0.6903629899024963, "Quantum sensing Position": 0.6885381937026978, "Quantum sensing Timing": 0.662227213382721, "Quantum sensing": 0.7016410827636719, "Quantum control": 0.6512082815170288 } }, { "id": 4488, "title": "Optical Force Enhancement Using an Imaginary Vector Potential for Photons", "abstract": "The enhancement of optical forces has enabled a variety of technological applications that rely on the optical control of small objects and devices. Unfortunately, optical forces are still too small f...", "citations": 14, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4495, "doi": "10.1103/PhysRevLett.119.137402", "umap_coordinates": { "x": 395.2188415527344, "y": 135.8485107421875, "z": 208.0772705078125 }, "tsne_coordinates": { "x": -16.519163131713867, "y": -26.568458557128906, "z": -3.5532193183898926 }, "pca_coordinates": { "x": 3.0019993782043457, "y": -0.5597262382507324, "z": 1.9866962432861328 }, "axis_scores": { "Quantum imaging": 0.7419215440750122, "Quantum Life Science Sensing": 0.7077347040176392, "Quantum sensing Detection": 0.7290219068527222, "Quantum sensing Metrology": 0.7057877779006958, "Quantum sensing navigation": 0.7211493849754333, "Quantum sensing Position": 0.6846857070922852, "Quantum sensing Timing": 0.694805920124054, "Quantum sensing": 0.7269424796104431, "Quantum control": 0.7011231184005737 } }, { "id": 4489, "title": "Mapping Uncharted Lead-Free Halide Perovskites and Related Low-Dimensional Structures", "abstract": "Research on perovskites has grown exponentially in the past decade due to the potential of methyl ammonium lead iodide in photovoltaics. Although these devices have achieved remarkable and competitive...", "citations": 3, "author_count": 7, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4496, "doi": "10.3390/ma17020491", "umap_coordinates": { "x": 391.4718017578125, "y": 134.6787872314453, "z": 205.38978576660156 }, "tsne_coordinates": { "x": 13.975435256958008, "y": -4.758737564086914, "z": -20.290756225585938 }, "pca_coordinates": { "x": -0.9228897094726562, "y": 1.0609654188156128, "z": -2.047919988632202 }, "axis_scores": { "Quantum imaging": 0.6871991157531738, "Quantum Life Science Sensing": 0.6950401067733765, "Quantum sensing Detection": 0.6474968194961548, "Quantum sensing Metrology": 0.6726579666137695, "Quantum sensing navigation": 0.6861324906349182, "Quantum sensing Position": 0.6745243072509766, "Quantum sensing Timing": 0.6407017707824707, "Quantum sensing": 0.6668142080307007, "Quantum control": 0.6572495698928833 } }, { "id": 4490, "title": "Programming Quantum Neural Networks on NISQ Systems: An Overview of Technologies and Methodologies", "abstract": "Noisy Intermediate-Scale Quantum (NISQ) systems and associated programming interfaces make it possible to explore and investigate the design and development of quantum computing techniques for Machine...", "citations": 13, "author_count": 2, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4497, "doi": "10.3390/e25040694", "umap_coordinates": { "x": 394.8197937011719, "y": 135.93215942382812, "z": 205.9916534423828 }, "tsne_coordinates": { "x": -16.39751434326172, "y": 13.199782371520996, "z": 12.921269416809082 }, "pca_coordinates": { "x": -0.12434422969818115, "y": -0.31928539276123047, "z": 0.36306196451187134 }, "axis_scores": { "Quantum imaging": 0.7809792757034302, "Quantum Life Science Sensing": 0.7663737535476685, "Quantum sensing Detection": 0.7612401843070984, "Quantum sensing Metrology": 0.7533145546913147, "Quantum sensing navigation": 0.7703559994697571, "Quantum sensing Position": 0.7318061590194702, "Quantum sensing Timing": 0.7507773637771606, "Quantum sensing": 0.779966413974762, "Quantum control": 0.7564581036567688 } }, { "id": 4491, "title": "Pump-shaped dump optimal control reveals the nuclear reaction pathway of isomerization of a photoexcited cyanine dye", "abstract": "Using optimal control as a spectroscopic tool we decipher the details of the molecular dynamics of the essential multidimensional excited-state photoisomerization - a fundamental chemical reaction of ...", "citations": 38, "author_count": 5, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4498, "doi": "10.1021/ja072639+", "umap_coordinates": { "x": 392.6285705566406, "y": 136.9124298095703, "z": 205.08981323242188 }, "tsne_coordinates": { "x": -5.10443639755249, "y": 4.81339168548584, "z": 26.22218132019043 }, "pca_coordinates": { "x": -0.6583647131919861, "y": 0.7022724151611328, "z": -1.30869722366333 }, "axis_scores": { "Quantum imaging": 0.7217794060707092, "Quantum Life Science Sensing": 0.7084165811538696, "Quantum sensing Detection": 0.7097928524017334, "Quantum sensing Metrology": 0.6645638942718506, "Quantum sensing navigation": 0.7223631143569946, "Quantum sensing Position": 0.705854594707489, "Quantum sensing Timing": 0.6977660655975342, "Quantum sensing": 0.715475857257843, "Quantum control": 0.7201802730560303 } }, { "id": 4492, "title": "Conductance fluctuations in a rectangular dot at constant magnetic fields", "abstract": "A systematic experimental and theoretical study has been performed on the conductance oscillations of a rectangular dot as a function of the dot width at different Fred magnetic fields (including zero...", "citations": 16, "author_count": 7, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4499, "doi": "10.1103/PhysRevB.58.10597", "umap_coordinates": { "x": 394.2312316894531, "y": 135.87075805664062, "z": 209.2545623779297 }, "tsne_coordinates": { "x": -6.463281154632568, "y": -33.021915435791016, "z": 5.666964530944824 }, "pca_coordinates": { "x": 4.986188888549805, "y": -1.4629416465759277, "z": -1.053360104560852 }, "axis_scores": { "Quantum imaging": 0.6910108923912048, "Quantum Life Science Sensing": 0.7119635343551636, "Quantum sensing Detection": 0.7020560503005981, "Quantum sensing Metrology": 0.6947788000106812, "Quantum sensing navigation": 0.716771125793457, "Quantum sensing Position": 0.6907081604003906, "Quantum sensing Timing": 0.6774010062217712, "Quantum sensing": 0.7142109870910645, "Quantum control": 0.7174946069717407 } }, { "id": 4493, "title": "The radio-frequency single-electron transistor (RF-SET): A fast and ultrasensitive electrometer", "abstract": "A new type of electrometer is described that uses a single-electron transistor (SET) and that allows large operating speeds and extremely high charge sensitivity. The SET readout was accomplished by m...", "citations": 790, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4500, "doi": "10.1126/science.280.5367.1238", "umap_coordinates": { "x": 394.3953857421875, "y": 133.91607666015625, "z": 208.12168884277344 }, "tsne_coordinates": { "x": 5.453294277191162, "y": -29.776323318481445, "z": -16.808979034423828 }, "pca_coordinates": { "x": -1.0028842687606812, "y": -0.6677236557006836, "z": 0.34351009130477905 }, "axis_scores": { "Quantum imaging": 0.7156662344932556, "Quantum Life Science Sensing": 0.792059063911438, "Quantum sensing Detection": 0.7375183701515198, "Quantum sensing Metrology": 0.739668071269989, "Quantum sensing navigation": 0.7194455862045288, "Quantum sensing Position": 0.6966318488121033, "Quantum sensing Timing": 0.6932173371315002, "Quantum sensing": 0.7508643865585327, "Quantum control": 0.7028617262840271 } }, { "id": 4494, "title": "Measurement of prompt photon cross sections in photoproduction at HERA", "abstract": "Results are presented on the photoproduction of isolated prompt photons, inclusively and associated with jets, in the gammap center of mass energy range 142 < W < 266 GeV. The cross sections are measu...", "citations": 39, "author_count": 313, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4501, "doi": "10.1140/epjc/s2004-02085-x", "umap_coordinates": { "x": 396.5721130371094, "y": 134.2394561767578, "z": 207.33233642578125 }, "tsne_coordinates": { "x": -28.785930633544922, "y": 9.70905876159668, "z": -7.227886199951172 }, "pca_coordinates": { "x": -0.08426737785339355, "y": 1.3584381341934204, "z": 3.2839555740356445 }, "axis_scores": { "Quantum imaging": 0.6922252178192139, "Quantum Life Science Sensing": 0.697245180606842, "Quantum sensing Detection": 0.7120246887207031, "Quantum sensing Metrology": 0.6824841499328613, "Quantum sensing navigation": 0.6778332591056824, "Quantum sensing Position": 0.7053482532501221, "Quantum sensing Timing": 0.721540629863739, "Quantum sensing": 0.7091953754425049, "Quantum control": 0.6657998561859131 } }, { "id": 4495, "title": "Interplay between shell structure and trap deformation in dipolar Fermi gases", "abstract": "Finite fermion systems are known to exhibit shell structure in the weakly interacting regime, as is well known from atoms, nuclei, metallic clusters, or even quantum dots in two dimensions. All these ...", "citations": 3, "author_count": 6, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4502, "doi": "10.1103/PhysRevA.102.053302", "umap_coordinates": { "x": 393.83624267578125, "y": 136.49664306640625, "z": 208.56105041503906 }, "tsne_coordinates": { "x": -11.36725902557373, "y": -42.87835693359375, "z": 14.908584594726562 }, "pca_coordinates": { "x": 2.9179396629333496, "y": -1.3341455459594727, "z": -3.3845956325531006 }, "axis_scores": { "Quantum imaging": 0.7029419541358948, "Quantum Life Science Sensing": 0.685586154460907, "Quantum sensing Detection": 0.6626641750335693, "Quantum sensing Metrology": 0.6656954288482666, "Quantum sensing navigation": 0.6858519315719604, "Quantum sensing Position": 0.6725191473960876, "Quantum sensing Timing": 0.6734597086906433, "Quantum sensing": 0.6867348551750183, "Quantum control": 0.6825363636016846 } }, { "id": 4496, "title": "Plasmon induced modification of silicon nanocrystals photoluminescence in presence of gold nanostripes", "abstract": "We report on the results of theoretical and experimental studies of photoluminescense of silicon nanocrystals in the proximity to plasmonic modes of different types. In the studied samples, the type o...", "citations": 24, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4503, "doi": "10.1038/s41598-018-22633-x", "umap_coordinates": { "x": 393.0133361816406, "y": 133.54595947265625, "z": 206.37557983398438 }, "tsne_coordinates": { "x": 36.52223205566406, "y": -2.218867301940918, "z": -13.150606155395508 }, "pca_coordinates": { "x": -3.570629358291626, "y": -3.4086270332336426, "z": 1.3570032119750977 }, "axis_scores": { "Quantum imaging": 0.7054160237312317, "Quantum Life Science Sensing": 0.7360923886299133, "Quantum sensing Detection": 0.715440034866333, "Quantum sensing Metrology": 0.703827440738678, "Quantum sensing navigation": 0.6823932528495789, "Quantum sensing Position": 0.702481746673584, "Quantum sensing Timing": 0.6718576550483704, "Quantum sensing": 0.720917820930481, "Quantum control": 0.6664197444915771 } }, { "id": 4497, "title": "High-Tc SQUID biomagnetometers", "abstract": "In this paper, we review the preparation technology, integration in measurement systems and tests of high-T-c superconducting quantum interference devices (SQUIDs) intended for biomagnetic application...", "citations": 80, "author_count": 9, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4504, "doi": "10.1088/1361-6668/aa73ad", "umap_coordinates": { "x": 394.330078125, "y": 134.82681274414062, "z": 206.51791381835938 }, "tsne_coordinates": { "x": -22.007396697998047, "y": -0.4164688289165497, "z": -21.725048065185547 }, "pca_coordinates": { "x": 0.6505519151687622, "y": 0.03265714645385742, "z": -0.4608578681945801 }, "axis_scores": { "Quantum imaging": 0.6987411975860596, "Quantum Life Science Sensing": 0.7074536085128784, "Quantum sensing Detection": 0.6776849031448364, "Quantum sensing Metrology": 0.7031035423278809, "Quantum sensing navigation": 0.6928473114967346, "Quantum sensing Position": 0.6861118078231812, "Quantum sensing Timing": 0.6912566423416138, "Quantum sensing": 0.7054354548454285, "Quantum control": 0.6740438342094421 } }, { "id": 4498, "title": "Information Processing with Molecules-Quo Vadis?", "abstract": "Information processing at the molecular level is coming of age. Since the first molecular AND gate was proposed about 20 years ago, the molecular interpretation of binary logic has become vastly more ...", "citations": 126, "author_count": 5, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4505, "doi": "10.1002/cphc.201200157", "umap_coordinates": { "x": 394.89886474609375, "y": 136.95816040039062, "z": 205.9111785888672 }, "tsne_coordinates": { "x": -16.310964584350586, "y": 12.780106544494629, "z": 16.51244354248047 }, "pca_coordinates": { "x": 0.025121688842773438, "y": 3.1355156898498535, "z": -0.6250837445259094 }, "axis_scores": { "Quantum imaging": 0.792461097240448, "Quantum Life Science Sensing": 0.7747969627380371, "Quantum sensing Detection": 0.7737200260162354, "Quantum sensing Metrology": 0.7468295693397522, "Quantum sensing navigation": 0.7609410285949707, "Quantum sensing Position": 0.7258909344673157, "Quantum sensing Timing": 0.7208808064460754, "Quantum sensing": 0.7863881587982178, "Quantum control": 0.7797209024429321 } }, { "id": 4499, "title": "Remote State Preparation of Mental Information: A Theoretical Model and a Summary of Experimental Evidence", "abstract": "The aim of this paper is to define in theoretical terms and summarise the available experimental evidence that physical and mental objects, if considered information units, may present similar classic...", "citations": 2, "author_count": 3, "categories": [ "Neurosciences & Neurology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4506, "doi": null, "umap_coordinates": { "x": 391.9095458984375, "y": 139.7509765625, "z": 209.42169189453125 }, "tsne_coordinates": { "x": -9.855423927307129, "y": 38.65234375, "z": 0.627791702747345 }, "pca_coordinates": { "x": 0.08361268043518066, "y": 6.625128269195557, "z": -1.4853508472442627 }, "axis_scores": { "Quantum imaging": 0.7201098203659058, "Quantum Life Science Sensing": 0.724570631980896, "Quantum sensing Detection": 0.7160135507583618, "Quantum sensing Metrology": 0.7086140513420105, "Quantum sensing navigation": 0.7162355184555054, "Quantum sensing Position": 0.7171143889427185, "Quantum sensing Timing": 0.6926470994949341, "Quantum sensing": 0.7320643663406372, "Quantum control": 0.7170321941375732 } }, { "id": 4500, "title": "A measurement and QCD analysis of the proton structure function F-2(x,Q(2)) at HERA", "abstract": "A new measurement of the proton structure function F-2(x,Q(2)) is reported for momentum transfers squared Q(2) between 1.5 GeV2 and 5000 GeV2 and for Bjorken x between 3 . 10(-5) and 0.32 using data c...", "citations": 376, "author_count": 419, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4507, "doi": "10.1016/0550-3213(96)00211-8", "umap_coordinates": { "x": 396.24853515625, "y": 134.66812133789062, "z": 206.99465942382812 }, "tsne_coordinates": { "x": -24.644651412963867, "y": 11.142143249511719, "z": -11.065929412841797 }, "pca_coordinates": { "x": -1.478783130645752, "y": 2.5654263496398926, "z": -0.393204927444458 }, "axis_scores": { "Quantum imaging": 0.6968817114830017, "Quantum Life Science Sensing": 0.7260615229606628, "Quantum sensing Detection": 0.6861633658409119, "Quantum sensing Metrology": 0.6925903558731079, "Quantum sensing navigation": 0.680865466594696, "Quantum sensing Position": 0.69374018907547, "Quantum sensing Timing": 0.6674895286560059, "Quantum sensing": 0.698206901550293, "Quantum control": 0.6776015162467957 } }, { "id": 4501, "title": "CONSTANT-CUTOFF APPROACH TO SU(3)-SYMMETRY BREAKING FOR STRANGE DIBARYON STATES", "abstract": "We suggest a quantum stabilization method for the SU(2) sigma-model, based on the constant-cutoff limit of the cutoff quantization method developed by Balakrishna et al., which avoids the difficulties...", "citations": 11, "author_count": 2, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 4508, "doi": "10.1007/BF00673075", "umap_coordinates": { "x": 394.3817443847656, "y": 137.4384765625, "z": 207.71885681152344 }, "tsne_coordinates": { "x": -19.374879837036133, "y": 35.493736267089844, "z": 11.337462425231934 }, "pca_coordinates": { "x": 1.0904371738433838, "y": 2.0059938430786133, "z": -3.0599708557128906 }, "axis_scores": { "Quantum imaging": 0.6229879260063171, "Quantum Life Science Sensing": 0.6587260961532593, "Quantum sensing Detection": 0.6285557150840759, "Quantum sensing Metrology": 0.6092895865440369, "Quantum sensing navigation": 0.6637294888496399, "Quantum sensing Position": 0.6271233558654785, "Quantum sensing Timing": 0.6045747995376587, "Quantum sensing": 0.6307787895202637, "Quantum control": 0.6461153626441956 } }, { "id": 4502, "title": "No gadolinium K-edge detected on the first clinical photon-counting computed tomography scanner", "abstract": "Purpose: This study aimed to elucidate whether gadolinium contrast in clinically relevant doses can be used with photon-counting computed tomography (PCCT) as an alternative contrast agent in clinical...", "citations": 5, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4509, "doi": "10.1002/acm2.14324", "umap_coordinates": { "x": 395.6429443359375, "y": 133.14263916015625, "z": 205.32066345214844 }, "tsne_coordinates": { "x": -6.587230682373047, "y": 18.976816177368164, "z": -16.163284301757812 }, "pca_coordinates": { "x": -1.1767815351486206, "y": 2.8424227237701416, "z": 1.7268731594085693 }, "axis_scores": { "Quantum imaging": 0.7027955055236816, "Quantum Life Science Sensing": 0.6921876668930054, "Quantum sensing Detection": 0.7165800333023071, "Quantum sensing Metrology": 0.6976686716079712, "Quantum sensing navigation": 0.7066933512687683, "Quantum sensing Position": 0.6903632283210754, "Quantum sensing Timing": 0.6951748132705688, "Quantum sensing": 0.7052018642425537, "Quantum control": 0.654723048210144 } }, { "id": 4503, "title": "Indefinite temporal order without gravity", "abstract": "According to the general theory of relativity, time can flow at different rates depending on the configuration of massive objects, affecting the temporal order of events. Combined with quantum theory,...", "citations": 2, "author_count": 5, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4510, "doi": "10.1103/PhysRevA.108.062204", "umap_coordinates": { "x": 395.43572998046875, "y": 137.05152893066406, "z": 208.08358764648438 }, "tsne_coordinates": { "x": -18.931358337402344, "y": -14.851842880249023, "z": 9.4801607131958 }, "pca_coordinates": { "x": 4.288873195648193, "y": 2.764248847961426, "z": -0.9097094535827637 }, "axis_scores": { "Quantum imaging": 0.721780002117157, "Quantum Life Science Sensing": 0.7381535172462463, "Quantum sensing Detection": 0.7030938863754272, "Quantum sensing Metrology": 0.6847413182258606, "Quantum sensing navigation": 0.7277969717979431, "Quantum sensing Position": 0.7015116214752197, "Quantum sensing Timing": 0.7297866940498352, "Quantum sensing": 0.7176477313041687, "Quantum control": 0.6994675397872925 } }, { "id": 4504, "title": "Hyperparametric Oscillation via Bound States in the Continuum", "abstract": "Optical hyperparametric oscillation based on the third-order nonlinearity is one of the most significant mechanisms to generate coherent electromagnetic radiation and produce quantum states of light. ...", "citations": 13, "author_count": 9, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4511, "doi": "10.1103/PhysRevLett.130.093801", "umap_coordinates": { "x": 394.4107666015625, "y": 136.1669464111328, "z": 207.7887420654297 }, "tsne_coordinates": { "x": -8.241825103759766, "y": -20.787460327148438, "z": -2.731220245361328 }, "pca_coordinates": { "x": 3.0207505226135254, "y": 0.6862871646881104, "z": -0.23472487926483154 }, "axis_scores": { "Quantum imaging": 0.7244387865066528, "Quantum Life Science Sensing": 0.717036247253418, "Quantum sensing Detection": 0.7289636135101318, "Quantum sensing Metrology": 0.7043143510818481, "Quantum sensing navigation": 0.7200945615768433, "Quantum sensing Position": 0.6973691582679749, "Quantum sensing Timing": 0.7022630572319031, "Quantum sensing": 0.7249828577041626, "Quantum control": 0.7141197323799133 } }, { "id": 4505, "title": "What is the causal effect of R&D on patenting activity in a professor's privilege country? Evidence from Sweden", "abstract": "We investigate the responsiveness of academic patenting to research and development (R&D) at the subject level at Swedish universities in panel data regressions. The general responsiveness to R&D is f...", "citations": 10, "author_count": 3, "categories": [ "Business & Economics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4512, "doi": "10.1007/s11187-016-9752-7", "umap_coordinates": { "x": 394.72027587890625, "y": 136.89817810058594, "z": 205.29486083984375 }, "tsne_coordinates": { "x": -29.278074264526367, "y": 5.501720428466797, "z": 12.912823677062988 }, "pca_coordinates": { "x": -2.4567179679870605, "y": 3.927520275115967, "z": -0.596164345741272 }, "axis_scores": { "Quantum imaging": 0.646269679069519, "Quantum Life Science Sensing": 0.6579236388206482, "Quantum sensing Detection": 0.6424407958984375, "Quantum sensing Metrology": 0.631105363368988, "Quantum sensing navigation": 0.6487201452255249, "Quantum sensing Position": 0.6531722545623779, "Quantum sensing Timing": 0.6366310715675354, "Quantum sensing": 0.6517930030822754, "Quantum control": 0.6529733538627625 } }, { "id": 4506, "title": "Continuous and discontinuous metal-organic vapour phase epitaxy of coherent self-assembled islands: effects on size homogeneity", "abstract": "The size-homogeneity of coherent three-dimensional islands of InP on GaAs forming during self-assembling or Stranski-Krastanow growth is studied (i) for continuous and (ii) for discontinuous growth of...", "citations": 7, "author_count": 6, "categories": [ "Crystallography" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4513, "doi": "10.1016/S0022-0248(98)00881-1", "umap_coordinates": { "x": 392.04290771484375, "y": 134.39859008789062, "z": 207.15647888183594 }, "tsne_coordinates": { "x": 33.056251525878906, "y": -6.0591139793396, "z": 3.4959661960601807 }, "pca_coordinates": { "x": -1.4888283014297485, "y": -0.957024335861206, "z": -1.4067611694335938 }, "axis_scores": { "Quantum imaging": 0.6966286301612854, "Quantum Life Science Sensing": 0.6873161792755127, "Quantum sensing Detection": 0.6738006472587585, "Quantum sensing Metrology": 0.669714093208313, "Quantum sensing navigation": 0.662090539932251, "Quantum sensing Position": 0.6668134331703186, "Quantum sensing Timing": 0.6436377167701721, "Quantum sensing": 0.6833918690681458, "Quantum control": 0.6797053217887878 } }, { "id": 4507, "title": "CIS-TRANS-PHOTOISOMERIZATION OF BIS-STILBENES WITH ETHYLENE BRIDGES", "abstract": "The mechanisms for Z-E photoisomerization of two bisstilbenes, 4,4'-bis(3,5-di-tert-butylstyryl)bibenzyl, 1, and [2.2]-4,4'-stilbenophane, 2, have been studied. The isomerizations of ZZ-1 and EE-1 are...", "citations": 27, "author_count": 5, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 4514, "doi": "10.1021/j100111a033", "umap_coordinates": { "x": 392.4657287597656, "y": 135.7589874267578, "z": 205.3089141845703 }, "tsne_coordinates": { "x": -4.725129127502441, "y": -1.4578782320022583, "z": -13.305293083190918 }, "pca_coordinates": { "x": -1.9367448091506958, "y": -0.15972065925598145, "z": -0.222857266664505 }, "axis_scores": { "Quantum imaging": 0.6730055212974548, "Quantum Life Science Sensing": 0.6927555799484253, "Quantum sensing Detection": 0.6712259650230408, "Quantum sensing Metrology": 0.6565549373626709, "Quantum sensing navigation": 0.6523957252502441, "Quantum sensing Position": 0.6414529085159302, "Quantum sensing Timing": 0.6735331416130066, "Quantum sensing": 0.6745759844779968, "Quantum control": 0.6365658044815063 } }, { "id": 4508, "title": "Classical phase space and statistical mechanics of identical particles - art. no. 026102", "abstract": "Starting from the quantum theory of identical particles, we show how to define a classical mechanics that retains information about the quantum statistics. We consider two examples of relevance for th...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4515, "doi": "10.1103/PhysRevE.63.026102", "umap_coordinates": { "x": 395.2966003417969, "y": 136.86264038085938, "z": 207.62118530273438 }, "tsne_coordinates": { "x": -22.53666877746582, "y": -16.412324905395508, "z": 4.250589370727539 }, "pca_coordinates": { "x": 4.5928263664245605, "y": 1.4382367134094238, "z": -0.38169407844543457 }, "axis_scores": { "Quantum imaging": 0.7243770956993103, "Quantum Life Science Sensing": 0.7543936371803284, "Quantum sensing Detection": 0.732961118221283, "Quantum sensing Metrology": 0.7364000678062439, "Quantum sensing navigation": 0.7510061860084534, "Quantum sensing Position": 0.7246406674385071, "Quantum sensing Timing": 0.7017834186553955, "Quantum sensing": 0.742928147315979, "Quantum control": 0.7312331795692444 } }, { "id": 4509, "title": "Quantification of bone microarchitecture using photon-counting CT at different radiation doses: A comparison with μCT", "abstract": "Purpose: Accurate measurements of trabecular bone microarchitecture are required for a proper assessment of bone fragility. Photon-counting detector CT (PCD-CT) has different technical properties than...", "citations": 8, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4516, "doi": "10.1016/j.ejrad.2024.111717", "umap_coordinates": { "x": 395.4364318847656, "y": 132.88790893554688, "z": 204.856689453125 }, "tsne_coordinates": { "x": -2.29232120513916, "y": 26.87970542907715, "z": -17.91034507751465 }, "pca_coordinates": { "x": -4.3983001708984375, "y": 3.888105630874634, "z": 2.9000680446624756 }, "axis_scores": { "Quantum imaging": 0.7066288590431213, "Quantum Life Science Sensing": 0.6991525888442993, "Quantum sensing Detection": 0.6809112429618835, "Quantum sensing Metrology": 0.6867384910583496, "Quantum sensing navigation": 0.6926047801971436, "Quantum sensing Position": 0.6903547048568726, "Quantum sensing Timing": 0.6890767812728882, "Quantum sensing": 0.6861054301261902, "Quantum control": 0.6407914757728577 } }, { "id": 4510, "title": "Polarization-resolved cross-correlated (C2) imaging of a photonic bandgap fiber", "abstract": "We demonstrate polarization-resolved frequency domain cross-correlated (C-2) imaging to characterize a 5m length of hollow-core photonic bandgap fiber. We produce a spectrogram of the fiber response t...", "citations": 6, "author_count": 4, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4517, "doi": "10.1364/OE.24.027785", "umap_coordinates": { "x": 394.4539794921875, "y": 134.2967987060547, "z": 206.11708068847656 }, "tsne_coordinates": { "x": 8.112398147583008, "y": 14.699987411499023, "z": -28.725526809692383 }, "pca_coordinates": { "x": -1.7687333822250366, "y": 0.29752087593078613, "z": 2.360720634460449 }, "axis_scores": { "Quantum imaging": 0.7578192353248596, "Quantum Life Science Sensing": 0.722459614276886, "Quantum sensing Detection": 0.727581799030304, "Quantum sensing Metrology": 0.7211069464683533, "Quantum sensing navigation": 0.7313376665115356, "Quantum sensing Position": 0.7197714447975159, "Quantum sensing Timing": 0.6975195407867432, "Quantum sensing": 0.7415787577629089, "Quantum control": 0.7188002467155457 } }, { "id": 4511, "title": "Theoretical Comparison of a Dual Energy System and Photon Counting Silicon Detector Used for Material Quantification in Spectral CT", "abstract": "Any method using dual energy computed tomography (CT) has to make prior assumptions in order to quantify k-edge contrast agents. This work estimates the mean square error (MSE) in contrast agent quant...", "citations": 25, "author_count": 4, "categories": [ "Computer Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4518, "doi": "10.1109/TMI.2014.2362795", "umap_coordinates": { "x": 395.3283996582031, "y": 132.4907989501953, "z": 205.404296875 }, "tsne_coordinates": { "x": -13.853327751159668, "y": 16.379634857177734, "z": -19.40125846862793 }, "pca_coordinates": { "x": -2.6507177352905273, "y": 2.3258216381073, "z": 3.770965099334717 }, "axis_scores": { "Quantum imaging": 0.7341890335083008, "Quantum Life Science Sensing": 0.7271683216094971, "Quantum sensing Detection": 0.7196518182754517, "Quantum sensing Metrology": 0.7147490978240967, "Quantum sensing navigation": 0.6756148934364319, "Quantum sensing Position": 0.6839506030082703, "Quantum sensing Timing": 0.7071267366409302, "Quantum sensing": 0.7114357948303223, "Quantum control": 0.6361346244812012 } }, { "id": 4512, "title": "Low-power broadband homonuclear dipolar recoupling in MAS NMR by two-fold symmetry pulse schemes for magnetization transfers and double-quantum excitation", "abstract": "We provide an experimental, numerical, and high-order average Hamiltonian evaluation of an open-ended series of homonuclear dipolar recoupling sequences, SR2(2p)(1), with p = 1, 2,3, .... While operat...", "citations": 36, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4519, "doi": "10.1016/j.jmr.2015.09.004", "umap_coordinates": { "x": 392.5338439941406, "y": 136.91336059570312, "z": 206.93357849121094 }, "tsne_coordinates": { "x": 13.659074783325195, "y": -0.7780658602714539, "z": 33.25421905517578 }, "pca_coordinates": { "x": 0.1655871868133545, "y": 0.918576717376709, "z": -0.684720516204834 }, "axis_scores": { "Quantum imaging": 0.7161229848861694, "Quantum Life Science Sensing": 0.6871436834335327, "Quantum sensing Detection": 0.6736578941345215, "Quantum sensing Metrology": 0.6781644821166992, "Quantum sensing navigation": 0.6792009472846985, "Quantum sensing Position": 0.6507076621055603, "Quantum sensing Timing": 0.6724634170532227, "Quantum sensing": 0.6906837224960327, "Quantum control": 0.6662068367004395 } }, { "id": 4513, "title": "Selective growth of InP on focused-ion-beam-modified GaAs surface by hydride vapor phase epitaxy", "abstract": "The growth of InP islands on a planar focused-ion-beam (FIB)-modified (001) GaAs substrate was investigated in a hydride vapor phase epitaxy system. InP grew selectively on the FIB-implanted lines, fo...", "citations": 13, "author_count": 8, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4520, "doi": "10.1063/1.1401781", "umap_coordinates": { "x": 392.67376708984375, "y": 133.87356567382812, "z": 208.3667755126953 }, "tsne_coordinates": { "x": 32.29771423339844, "y": -17.179916381835938, "z": 2.5815846920013428 }, "pca_coordinates": { "x": 0.2275468111038208, "y": -2.181580066680908, "z": 0.7182623744010925 }, "axis_scores": { "Quantum imaging": 0.7096943855285645, "Quantum Life Science Sensing": 0.7038174867630005, "Quantum sensing Detection": 0.7016327977180481, "Quantum sensing Metrology": 0.7028930187225342, "Quantum sensing navigation": 0.6927458643913269, "Quantum sensing Position": 0.6766341924667358, "Quantum sensing Timing": 0.6419447660446167, "Quantum sensing": 0.7169229388237, "Quantum control": 0.6892774701118469 } }, { "id": 4514, "title": "FLUORESCENCE CORRELATION SPECTROSCOPY WITH HIGH COUNT RATE AND LOW-BACKGROUND - ANALYSIS OF TRANSLATIONAL DIFFUSION", "abstract": "An epi-illuminated microscope configuration for use in fluorescence correlation spectroscopy in bulk solutions has been analyzed. For determining the effective sample dimensions the spatial distributi...", "citations": 995, "author_count": 5, "categories": [ "Biophysics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 4521, "doi": null, "umap_coordinates": { "x": 391.37109375, "y": 139.54954528808594, "z": 209.4341278076172 }, "tsne_coordinates": { "x": -1.7697505950927734, "y": 44.92672348022461, "z": -10.277862548828125 }, "pca_coordinates": { "x": -1.621558666229248, "y": 4.096813678741455, "z": 0.017311513423919678 }, "axis_scores": { "Quantum imaging": 0.7308018803596497, "Quantum Life Science Sensing": 0.7246856689453125, "Quantum sensing Detection": 0.7316983938217163, "Quantum sensing Metrology": 0.7049230933189392, "Quantum sensing navigation": 0.722996175289154, "Quantum sensing Position": 0.7078816294670105, "Quantum sensing Timing": 0.7099277973175049, "Quantum sensing": 0.7193931937217712, "Quantum control": 0.7074533700942993 } }, { "id": 4515, "title": "Coulomb-gauge calculation of the combined effect of correlation and QED for heliumlike highly charged ions", "abstract": "We present numerical results for the energy shift due to the combination of Coulomb-correlation and quantum-electrodynamic effects in the ground state of heliumlike highly charged ions. The combined e...", "citations": 10, "author_count": 4, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4522, "doi": "10.1103/PhysRevA.92.012509", "umap_coordinates": { "x": 395.5794982910156, "y": 135.950439453125, "z": 208.25526428222656 }, "tsne_coordinates": { "x": -6.274440288543701, "y": -42.67974853515625, "z": -0.7998702526092529 }, "pca_coordinates": { "x": 3.155688762664795, "y": 1.0514016151428223, "z": 0.6506068110466003 }, "axis_scores": { "Quantum imaging": 0.7170230150222778, "Quantum Life Science Sensing": 0.7164413928985596, "Quantum sensing Detection": 0.7124430537223816, "Quantum sensing Metrology": 0.6967095136642456, "Quantum sensing navigation": 0.7074621319770813, "Quantum sensing Position": 0.6864632964134216, "Quantum sensing Timing": 0.6931052207946777, "Quantum sensing": 0.7220724821090698, "Quantum control": 0.7134596109390259 } }, { "id": 4516, "title": "BAND FILLING AT LOW OPTICAL POWER-DENSITY IN SEMICONDUCTOR DOTS", "abstract": "We have studied band filling in strained InP dots grown on GaInP. Compared to quantum wells, the dots show band filling at two orders of magnitude lower optical excitation power density. We show that ...", "citations": 55, "author_count": 8, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 4523, "doi": "10.1063/1.114372", "umap_coordinates": { "x": 393.2208557128906, "y": 133.8651123046875, "z": 208.33946228027344 }, "tsne_coordinates": { "x": 29.035728454589844, "y": -18.323240280151367, "z": -2.1626932621002197 }, "pca_coordinates": { "x": 2.1883811950683594, "y": -3.784437656402588, "z": 1.954789638519287 }, "axis_scores": { "Quantum imaging": 0.7323099374771118, "Quantum Life Science Sensing": 0.7355972528457642, "Quantum sensing Detection": 0.7296204566955566, "Quantum sensing Metrology": 0.7196916937828064, "Quantum sensing navigation": 0.704538106918335, "Quantum sensing Position": 0.6996316313743591, "Quantum sensing Timing": 0.6843162178993225, "Quantum sensing": 0.7316762804985046, "Quantum control": 0.6950147151947021 } }, { "id": 4517, "title": "Interplay of Electronic Orders in Topological Quantum Materials", "abstract": "Topological quantum materials hold great promise for future technological applications. Their unique electronic properties, such as protected surface states and exotic quasi-particles, offer opportuni...", "citations": 3, "author_count": 3, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4524, "doi": "10.1021/acsmaterialsau.4c00114", "umap_coordinates": { "x": 394.04351806640625, "y": 137.24609375, "z": 208.40557861328125 }, "tsne_coordinates": { "x": 2.979731321334839, "y": -16.95949935913086, "z": 9.582670211791992 }, "pca_coordinates": { "x": 3.3638744354248047, "y": -2.4454779624938965, "z": -2.34442400932312 }, "axis_scores": { "Quantum imaging": 0.7521146535873413, "Quantum Life Science Sensing": 0.7238054275512695, "Quantum sensing Detection": 0.7253932952880859, "Quantum sensing Metrology": 0.7277509570121765, "Quantum sensing navigation": 0.7422544956207275, "Quantum sensing Position": 0.7205276489257812, "Quantum sensing Timing": 0.7161511182785034, "Quantum sensing": 0.742857813835144, "Quantum control": 0.7109578251838684 } }, { "id": 4518, "title": "Photoinduced Fano Resonances between Quantum Confined Nanocrystals and Adsorbed Molecular Catalysts", "abstract": "Interaction of surface adsorbate vibration and intraband electron absorption in nanocrystals has been reported to affect the photophysical properties of both nanocrystals and surface adsorbates and ma...", "citations": 11, "author_count": 10, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4525, "doi": "10.1021/acs.nanolett.1c01739", "umap_coordinates": { "x": 392.175537109375, "y": 134.6364288330078, "z": 206.29481506347656 }, "tsne_coordinates": { "x": 18.07274055480957, "y": -16.578243255615234, "z": -14.837739944458008 }, "pca_coordinates": { "x": 0.3406369686126709, "y": -4.271640300750732, "z": -1.4184807538986206 }, "axis_scores": { "Quantum imaging": 0.7461307048797607, "Quantum Life Science Sensing": 0.7381599545478821, "Quantum sensing Detection": 0.7450487613677979, "Quantum sensing Metrology": 0.7156241536140442, "Quantum sensing navigation": 0.7282096147537231, "Quantum sensing Position": 0.6974632740020752, "Quantum sensing Timing": 0.6854528784751892, "Quantum sensing": 0.7549206018447876, "Quantum control": 0.7277059555053711 } }, { "id": 4519, "title": "Fermi-Bose Mixture in Ba(K)BiO3 Superconducting Oxide", "abstract": "We have demonstrated a new description of local electronic structure in the perovskite-like bismuthates Ba1-x K (x) BiO3 (BKBO) based on existence of the spatially separated Fermi-Bose mixture. We hav...", "citations": 25, "author_count": 5, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4526, "doi": "10.1007/s10948-015-3295-z", "umap_coordinates": { "x": 392.8503723144531, "y": 135.8176727294922, "z": 207.86032104492188 }, "tsne_coordinates": { "x": 11.683741569519043, "y": -15.154869079589844, "z": 15.249629974365234 }, "pca_coordinates": { "x": 0.2706177234649658, "y": -0.6750679016113281, "z": -2.576294422149658 }, "axis_scores": { "Quantum imaging": 0.6724706292152405, "Quantum Life Science Sensing": 0.7088168859481812, "Quantum sensing Detection": 0.6566504240036011, "Quantum sensing Metrology": 0.6720215678215027, "Quantum sensing navigation": 0.6790048480033875, "Quantum sensing Position": 0.6612553000450134, "Quantum sensing Timing": 0.6394556164741516, "Quantum sensing": 0.6765220761299133, "Quantum control": 0.6567170023918152 } }, { "id": 4520, "title": "Simultaneous negative permittivity and permeability in a coherent atomic vapour", "abstract": "A new quantum optical mechanism to realize simultaneously negative electric permittivity and magnetic permeability is suggested. In order to obtain a negative permeability, we choose a proper atomic c...", "citations": 4, "author_count": 2, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4527, "doi": null, "umap_coordinates": { "x": 391.53802490234375, "y": 139.52293395996094, "z": 208.8645782470703 }, "tsne_coordinates": { "x": -9.257323265075684, "y": 37.90849304199219, "z": -11.611929893493652 }, "pca_coordinates": { "x": 0.738257646560669, "y": 1.2382011413574219, "z": -1.0465102195739746 }, "axis_scores": { "Quantum imaging": 0.7288991212844849, "Quantum Life Science Sensing": 0.7238208651542664, "Quantum sensing Detection": 0.7295930981636047, "Quantum sensing Metrology": 0.6985016465187073, "Quantum sensing navigation": 0.7120047807693481, "Quantum sensing Position": 0.6892868280410767, "Quantum sensing Timing": 0.6744625568389893, "Quantum sensing": 0.7210546135902405, "Quantum control": 0.6792719960212708 } }, { "id": 4521, "title": "What leads to reduced fitness in non-photochemical quenching mutants?", "abstract": "Feedback de-excitation (FDE) is a process that protects photosystem II from damage during short periods of overexcitation. Arabidopsis thaliana mutants lacking this mechanism have reduced fitness in e...", "citations": 34, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4528, "doi": "10.1111/j.1399-3054.2005.00547.x", "umap_coordinates": { "x": 394.4120178222656, "y": 136.2721405029297, "z": 203.85728454589844 }, "tsne_coordinates": { "x": 9.675652503967285, "y": 31.59869956970215, "z": 17.202646255493164 }, "pca_coordinates": { "x": -1.127361536026001, "y": 2.4351134300231934, "z": -1.711139440536499 }, "axis_scores": { "Quantum imaging": 0.7197504043579102, "Quantum Life Science Sensing": 0.744981586933136, "Quantum sensing Detection": 0.7149204015731812, "Quantum sensing Metrology": 0.7044732570648193, "Quantum sensing navigation": 0.7036365866661072, "Quantum sensing Position": 0.6814936399459839, "Quantum sensing Timing": 0.689265787601471, "Quantum sensing": 0.7246255278587341, "Quantum control": 0.7176280617713928 } }, { "id": 4522, "title": "Device aspects of Er-doped Si structures for optoelectric interconnect applications", "abstract": "Pr-doped Si light emitting structures have recently attracted a special interest in association with potential applications of optical interconnects in future chip technology. The objective of this st...", "citations": 2, "author_count": 7, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4529, "doi": "10.1238/Physica.Topical.079a00143", "umap_coordinates": { "x": 393.83575439453125, "y": 134.3336944580078, "z": 206.83419799804688 }, "tsne_coordinates": { "x": 7.455288887023926, "y": -2.925417900085449, "z": 27.65993881225586 }, "pca_coordinates": { "x": -0.3775525689125061, "y": -1.212519645690918, "z": 1.2136542797088623 }, "axis_scores": { "Quantum imaging": 0.6869605183601379, "Quantum Life Science Sensing": 0.695842981338501, "Quantum sensing Detection": 0.6541035175323486, "Quantum sensing Metrology": 0.6687600612640381, "Quantum sensing navigation": 0.6643903255462646, "Quantum sensing Position": 0.6606898903846741, "Quantum sensing Timing": 0.6420742869377136, "Quantum sensing": 0.6678144335746765, "Quantum control": 0.6267461776733398 } }, { "id": 4523, "title": "Nano-columnar, self-organised NiCrC/a-C:H thin films deposited by magnetron sputtering", "abstract": "Thin films of NiCr-C were deposited by pulse magnetron sputtering of the NiCr20 alloy cathode in an atmosphere containing a mixture of argon and acetylene. Their structure, chemical composition, and m...", "citations": 4, "author_count": 7, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4530, "doi": "10.1016/j.apsusc.2022.153134", "umap_coordinates": { "x": 393.2527770996094, "y": 133.9864959716797, "z": 205.64358520507812 }, "tsne_coordinates": { "x": 25.28589630126953, "y": 4.785950660705566, "z": -0.28339481353759766 }, "pca_coordinates": { "x": -1.8721588850021362, "y": -0.6489930152893066, "z": -1.3750667572021484 }, "axis_scores": { "Quantum imaging": 0.6960437297821045, "Quantum Life Science Sensing": 0.7142677307128906, "Quantum sensing Detection": 0.6831479072570801, "Quantum sensing Metrology": 0.681937038898468, "Quantum sensing navigation": 0.7057898044586182, "Quantum sensing Position": 0.6783719062805176, "Quantum sensing Timing": 0.6572622656822205, "Quantum sensing": 0.7039192914962769, "Quantum control": 0.6888260841369629 } }, { "id": 4524, "title": "Compounds of symmetric informationally complete measurements and their application in quantum key distribution", "abstract": "Symmetric informationally complete measurements (SICs) are elegant, celebrated, and broadly useful discrete structures in Hilbert space. We introduce a more sophisticated discrete structure compounded...", "citations": 14, "author_count": 5, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4531, "doi": "10.1103/PhysRevResearch.2.043122", "umap_coordinates": { "x": 395.8449401855469, "y": 136.6767578125, "z": 207.2646942138672 }, "tsne_coordinates": { "x": -29.065603256225586, "y": -14.175918579101562, "z": -0.5055696368217468 }, "pca_coordinates": { "x": 2.5120420455932617, "y": 1.1214447021484375, "z": 1.071739673614502 }, "axis_scores": { "Quantum imaging": 0.7634443044662476, "Quantum Life Science Sensing": 0.7415753602981567, "Quantum sensing Detection": 0.7417634129524231, "Quantum sensing Metrology": 0.7613335251808167, "Quantum sensing navigation": 0.750095546245575, "Quantum sensing Position": 0.7510976195335388, "Quantum sensing Timing": 0.7215570211410522, "Quantum sensing": 0.7624280452728271, "Quantum control": 0.7074402570724487 } }, { "id": 4525, "title": "Stress and strain analysis of Si-based III - V template fabricated by ion-slicing*", "abstract": "Strain and stress were simulated using finite element method (FEM) for three III-V-on-Insulator (III-VOI) structures,i.e., InP/SiO2/Si, InP/Al2O3/SiO2/Si, and GaAs/Al2O3/SiO2/Si, fabricated by ion-sli...", "citations": 6, "author_count": 11, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4532, "doi": "10.1088/1674-1056/ab8a35", "umap_coordinates": { "x": 393.3899841308594, "y": 134.39366149902344, "z": 207.08584594726562 }, "tsne_coordinates": { "x": 29.967100143432617, "y": -19.283828735351562, "z": 14.461302757263184 }, "pca_coordinates": { "x": -0.6742880940437317, "y": 0.9240288734436035, "z": 1.653747797012329 }, "axis_scores": { "Quantum imaging": 0.6596360206604004, "Quantum Life Science Sensing": 0.6468346118927002, "Quantum sensing Detection": 0.6235602498054504, "Quantum sensing Metrology": 0.6398590803146362, "Quantum sensing navigation": 0.6464394927024841, "Quantum sensing Position": 0.6505481004714966, "Quantum sensing Timing": 0.6540100574493408, "Quantum sensing": 0.6460580825805664, "Quantum control": 0.6263279914855957 } }, { "id": 4526, "title": "Dark and bright exciton formation, thermalization, and photoluminescence in monolayer transition metal dichalcogenides", "abstract": "The remarkably strong Coulomb interaction in atomically thin transition metal dichalcogenides (TMDs) results in an extraordinarily rich many-particle physics including the formation of tightly bound e...", "citations": 193, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4533, "doi": "10.1088/2053-1583/aabea3", "umap_coordinates": { "x": 393.8437805175781, "y": 135.46726989746094, "z": 205.84396362304688 }, "tsne_coordinates": { "x": 5.150765419006348, "y": -25.17091178894043, "z": 15.77287769317627 }, "pca_coordinates": { "x": -0.26221245527267456, "y": -1.4948406219482422, "z": -1.098082184791565 }, "axis_scores": { "Quantum imaging": 0.6937463879585266, "Quantum Life Science Sensing": 0.6890466809272766, "Quantum sensing Detection": 0.6711449027061462, "Quantum sensing Metrology": 0.6702695488929749, "Quantum sensing navigation": 0.6449431777000427, "Quantum sensing Position": 0.6400718092918396, "Quantum sensing Timing": 0.6713758707046509, "Quantum sensing": 0.6773797273635864, "Quantum control": 0.6464089155197144 } }, { "id": 4527, "title": "Talking through the continuum: New manifestations of Fano-resonance phenomenology realized with mesoscopic nanostructures", "abstract": "The focus of this review is recent work in which we have demonstrated a highly-flexible approach to the study of Fano-resonance phenomena, by making use of the mesoscopic devices known as quantum poin...", "citations": 4, "author_count": 12, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4534, "doi": "10.1002/prop.201200075", "umap_coordinates": { "x": 394.0267333984375, "y": 135.3303985595703, "z": 205.95884704589844 }, "tsne_coordinates": { "x": -2.6880900859832764, "y": -16.10129165649414, "z": 3.836437225341797 }, "pca_coordinates": { "x": -0.2579752206802368, "y": 0.38938164710998535, "z": -0.8442365527153015 }, "axis_scores": { "Quantum imaging": 0.7455715537071228, "Quantum Life Science Sensing": 0.754707396030426, "Quantum sensing Detection": 0.7174250483512878, "Quantum sensing Metrology": 0.7205137014389038, "Quantum sensing navigation": 0.7321837544441223, "Quantum sensing Position": 0.6769310235977173, "Quantum sensing Timing": 0.6646241545677185, "Quantum sensing": 0.7396453022956848, "Quantum control": 0.7172384858131409 } }, { "id": 4528, "title": "Effects of doping and grading slope on surface and structure of metamorphic InGaAs buffers on GaAs substrates", "abstract": "We investigate the effects of doping and grading slope on the surface and structure of linearly alloy graded InGaAs buffers. It is found that the Be doping can improve material properties, resulting i...", "citations": 28, "author_count": 6, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4535, "doi": "10.1063/1.3273492", "umap_coordinates": { "x": 392.73345947265625, "y": 133.58901977539062, "z": 207.90797424316406 }, "tsne_coordinates": { "x": 31.17661476135254, "y": -25.88678550720215, "z": -1.009354591369629 }, "pca_coordinates": { "x": 0.29196739196777344, "y": -2.002779960632324, "z": 0.40955597162246704 }, "axis_scores": { "Quantum imaging": 0.6901339888572693, "Quantum Life Science Sensing": 0.6816691160202026, "Quantum sensing Detection": 0.6672480702400208, "Quantum sensing Metrology": 0.6908281445503235, "Quantum sensing navigation": 0.6846712231636047, "Quantum sensing Position": 0.6766015887260437, "Quantum sensing Timing": 0.6567770838737488, "Quantum sensing": 0.6849228143692017, "Quantum control": 0.6682401299476624 } }, { "id": 4529, "title": "Quantitative single-molecule imaging by confocal laser scanning microscopy", "abstract": "A new approach to quantitative single-molecule imaging by confocal laser scanning microscopy (CLSM) is presented. it relies on fluorescence intensity distribution to analyze the molecular occurrence s...", "citations": 84, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4536, "doi": "10.1073/pnas.0809250105", "umap_coordinates": { "x": 394.2837219238281, "y": 134.5952911376953, "z": 205.79556274414062 }, "tsne_coordinates": { "x": -5.017154216766357, "y": 15.20573902130127, "z": -2.510378122329712 }, "pca_coordinates": { "x": -0.9343864321708679, "y": -0.746070146560669, "z": 1.035106897354126 }, "axis_scores": { "Quantum imaging": 0.7601599097251892, "Quantum Life Science Sensing": 0.7541493773460388, "Quantum sensing Detection": 0.7418644428253174, "Quantum sensing Metrology": 0.7439525127410889, "Quantum sensing navigation": 0.7311245203018188, "Quantum sensing Position": 0.7086950540542603, "Quantum sensing Timing": 0.6993328332901001, "Quantum sensing": 0.7602307796478271, "Quantum control": 0.7164257764816284 } }, { "id": 4530, "title": "Holonomy for quantum channels", "abstract": "A quantum holonomy reflects the curvature of some underlying structure of quantum-mechanical systems, such as that associated with quantum states. Here, we extend the notion of holonomy to families of...", "citations": 3, "author_count": 4, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4537, "doi": "10.1103/PhysRevA.77.012114", "umap_coordinates": { "x": 395.19140625, "y": 137.09808349609375, "z": 208.38372802734375 }, "tsne_coordinates": { "x": -20.170198440551758, "y": -30.692289352416992, "z": 12.794350624084473 }, "pca_coordinates": { "x": 4.822717189788818, "y": 1.2259434461593628, "z": -0.13729029893875122 }, "axis_scores": { "Quantum imaging": 0.722683310508728, "Quantum Life Science Sensing": 0.7156854271888733, "Quantum sensing Detection": 0.7132768630981445, "Quantum sensing Metrology": 0.7132458090782166, "Quantum sensing navigation": 0.7330703139305115, "Quantum sensing Position": 0.6937543153762817, "Quantum sensing Timing": 0.6984320282936096, "Quantum sensing": 0.7331783771514893, "Quantum control": 0.7066535353660583 } }, { "id": 4531, "title": "Dynamics of d-wave YBa2Cu3O7-x dc SQUIDs", "abstract": "The predominant d-wave pairing symmetry in high temperature superconductors leads to an unconventional current - phase relation in Josephson junctions. This circumstance may induce new effects in the ...", "citations": 4, "author_count": 7, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4538, "doi": "10.1088/0953-2048/20/2/S19", "umap_coordinates": { "x": 393.0572509765625, "y": 136.2241973876953, "z": 207.9900665283203 }, "tsne_coordinates": { "x": 0.7229803800582886, "y": -20.54974937438965, "z": 18.712955474853516 }, "pca_coordinates": { "x": 1.257951259613037, "y": -0.038904428482055664, "z": -2.7681100368499756 }, "axis_scores": { "Quantum imaging": 0.6865323185920715, "Quantum Life Science Sensing": 0.7115362286567688, "Quantum sensing Detection": 0.6813488006591797, "Quantum sensing Metrology": 0.6620358824729919, "Quantum sensing navigation": 0.7002583146095276, "Quantum sensing Position": 0.6778523325920105, "Quantum sensing Timing": 0.6627419590950012, "Quantum sensing": 0.6884239315986633, "Quantum control": 0.7100991010665894 } }, { "id": 4532, "title": "Laterally Tunable Plasmon Resonance in Confined Biatomic-Layer Ag Nanodisks", "abstract": "We report on the fabrication and investigation of the plasmon excitations in laterally confined quasi-two-dimensional (2D) Ag nanodisks on a Si(111) substrate. Different from the Mie resonance in Ag c...", "citations": 21, "author_count": 7, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4539, "doi": "10.1021/nl1012129", "umap_coordinates": { "x": 392.3775329589844, "y": 134.0749053955078, "z": 206.74659729003906 }, "tsne_coordinates": { "x": 14.304228782653809, "y": -18.047409057617188, "z": -6.428869724273682 }, "pca_coordinates": { "x": -0.5528208613395691, "y": -4.6757025718688965, "z": -0.9414126873016357 }, "axis_scores": { "Quantum imaging": 0.6723336577415466, "Quantum Life Science Sensing": 0.6803697943687439, "Quantum sensing Detection": 0.6862043142318726, "Quantum sensing Metrology": 0.6782698631286621, "Quantum sensing navigation": 0.6992647051811218, "Quantum sensing Position": 0.6852324604988098, "Quantum sensing Timing": 0.6430253386497498, "Quantum sensing": 0.6960088610649109, "Quantum control": 0.6685898303985596 } }, { "id": 4533, "title": "CHARACTERIZATION OF THE BINDING OF YO TO [POLY(DA-DT)](2) AND [POLY(DG-DC)](2), AND OF THE FLUORESCENT PROPERTIES OF YO AND YOYO COMPLEXED WITH THE POLYNUCLEOTIDES AND DOUBLE-STRANDED DNA", "abstract": "The interaction between the fluorescent dye YO (oxazole yellow) and the alternating polynucleotides [poly(dA-dT)](2) [the duplex of alternating poly(dA-dT)] and [poly(dG-dC)](2) [the duplex of alterna...", "citations": 60, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1995, "topic": [ "all" ], "embedding_index": 4540, "doi": "10.1002/bip.360360205", "umap_coordinates": { "x": 392.71636962890625, "y": 136.28085327148438, "z": 204.33523559570312 }, "tsne_coordinates": { "x": 3.8576948642730713, "y": 14.388223648071289, "z": 3.5091254711151123 }, "pca_coordinates": { "x": -2.6374025344848633, "y": 1.0735059976577759, "z": -2.9811553955078125 }, "axis_scores": { "Quantum imaging": 0.728817880153656, "Quantum Life Science Sensing": 0.7519291639328003, "Quantum sensing Detection": 0.7164735794067383, "Quantum sensing Metrology": 0.7070043087005615, "Quantum sensing navigation": 0.7240030169487, "Quantum sensing Position": 0.6980996131896973, "Quantum sensing Timing": 0.7086766958236694, "Quantum sensing": 0.7333640456199646, "Quantum control": 0.7412766814231873 } }, { "id": 4534, "title": "PHOTOSYNTHETIC LIGHT-RESPONSE CURVES .1. THE INFLUENCE OF CO2 PARTIAL-PRESSURE AND LEAF INVERSION", "abstract": "The shapes of photosynthetic light-response curves for leaves of Eucalyptus maculata (Hook) and E. pauciflora (Sieber ex Sprengel) were examined. Three different methods were used to measure photosynt...", "citations": 261, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1993, "topic": [ "all" ], "embedding_index": 4541, "doi": "10.1007/BF00195075", "umap_coordinates": { "x": 394.2209167480469, "y": 136.49916076660156, "z": 203.74398803710938 }, "tsne_coordinates": { "x": 6.112416744232178, "y": 31.15402603149414, "z": 9.015641212463379 }, "pca_coordinates": { "x": -2.1246836185455322, "y": 1.7420190572738647, "z": -1.2713027000427246 }, "axis_scores": { "Quantum imaging": 0.692851185798645, "Quantum Life Science Sensing": 0.711833119392395, "Quantum sensing Detection": 0.6735559105873108, "Quantum sensing Metrology": 0.6746119260787964, "Quantum sensing navigation": 0.673538863658905, "Quantum sensing Position": 0.6742525696754456, "Quantum sensing Timing": 0.6455128788948059, "Quantum sensing": 0.6894625425338745, "Quantum control": 0.6913084983825684 } }, { "id": 4535, "title": "How to assess good candidate molecules for self-activated optical power limiting", "abstract": "Reverse saturable absorbers have shown great potential to attenuate laser radiation. Good candidate molecules and various particles have successfully been incorporated into different glass matrices, e...", "citations": 8, "author_count": 5, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4542, "doi": "10.1117/1.OE.57.3.030802", "umap_coordinates": { "x": 393.7208557128906, "y": 134.34378051757812, "z": 205.65191650390625 }, "tsne_coordinates": { "x": 14.297165870666504, "y": 1.8198466300964355, "z": -29.907974243164062 }, "pca_coordinates": { "x": -2.3057503700256348, "y": 0.46084606647491455, "z": 0.3761116862297058 }, "axis_scores": { "Quantum imaging": 0.7045929431915283, "Quantum Life Science Sensing": 0.7262212634086609, "Quantum sensing Detection": 0.6931041479110718, "Quantum sensing Metrology": 0.675439715385437, "Quantum sensing navigation": 0.6811293363571167, "Quantum sensing Position": 0.6739798784255981, "Quantum sensing Timing": 0.6395785808563232, "Quantum sensing": 0.6972061991691589, "Quantum control": 0.6788754463195801 } }, { "id": 4536, "title": "Quantum size effect in Pb(100) films: Role of symmetry and implications for film growth", "abstract": "We show from density-functional calculations that Pb(100) thin films exhibit quantum size effect with a bilayer periodicity in film energies, film relaxations, and work functions, which originate from...", "citations": 14, "author_count": 4, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4543, "doi": "10.1103/PhysRevB.74.113401", "umap_coordinates": { "x": 392.42822265625, "y": 134.45530700683594, "z": 207.4252471923828 }, "tsne_coordinates": { "x": 34.51671600341797, "y": -7.984060764312744, "z": -2.455442428588867 }, "pca_coordinates": { "x": 2.527371644973755, "y": -1.34810209274292, "z": -1.0922765731811523 }, "axis_scores": { "Quantum imaging": 0.7365372180938721, "Quantum Life Science Sensing": 0.749697208404541, "Quantum sensing Detection": 0.7337729930877686, "Quantum sensing Metrology": 0.7193015813827515, "Quantum sensing navigation": 0.7252851724624634, "Quantum sensing Position": 0.7406179904937744, "Quantum sensing Timing": 0.7121047973632812, "Quantum sensing": 0.7458372712135315, "Quantum control": 0.7234494686126709 } }, { "id": 4537, "title": "Anomalously strong pinning of the filling factor ν=2 in epitaxial graphene", "abstract": "We explore the robust quantization of the Hall resistance in epitaxial graphene grown on Si-terminated SiC. Uniquely to this system, the dominance of quantum over classical capacitance in the charge t...", "citations": 113, "author_count": 8, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4544, "doi": "10.1103/PhysRevB.83.233402", "umap_coordinates": { "x": 394.6280517578125, "y": 136.07034301757812, "z": 208.8408966064453 }, "tsne_coordinates": { "x": -11.213094711303711, "y": -33.11201095581055, "z": 7.277512550354004 }, "pca_coordinates": { "x": 2.8818445205688477, "y": -0.6506385803222656, "z": 0.23233681917190552 }, "axis_scores": { "Quantum imaging": 0.6951959133148193, "Quantum Life Science Sensing": 0.7013280391693115, "Quantum sensing Detection": 0.7069790363311768, "Quantum sensing Metrology": 0.7012221217155457, "Quantum sensing navigation": 0.7116494178771973, "Quantum sensing Position": 0.6911323070526123, "Quantum sensing Timing": 0.6890037059783936, "Quantum sensing": 0.7146902084350586, "Quantum control": 0.6836913228034973 } }, { "id": 4538, "title": "Extended plane-wave-based transfer-matrix approach to simulating dispersive photonic crystals", "abstract": "It has been difficult to compute the band structures and transmission spectra for photonic crystals (PCs) with dispersive components included in the periodic units. Here we show that by using an exten...", "citations": 10, "author_count": 6, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4545, "doi": "10.1016/j.ssc.2006.06.036", "umap_coordinates": { "x": 393.8912353515625, "y": 134.19989013671875, "z": 206.13827514648438 }, "tsne_coordinates": { "x": 8.835432052612305, "y": -11.575810432434082, "z": -30.833688735961914 }, "pca_coordinates": { "x": -2.1808595657348633, "y": -0.5221467018127441, "z": 0.8357570767402649 }, "axis_scores": { "Quantum imaging": 0.7107962965965271, "Quantum Life Science Sensing": 0.701374351978302, "Quantum sensing Detection": 0.6799525618553162, "Quantum sensing Metrology": 0.6860088109970093, "Quantum sensing navigation": 0.6839674711227417, "Quantum sensing Position": 0.675638735294342, "Quantum sensing Timing": 0.6605628132820129, "Quantum sensing": 0.6997464299201965, "Quantum control": 0.6642907857894897 } }, { "id": 4539, "title": "Programmed Cell Death: Molecular Mechanisms and Implications for Safety Assessment of Nanomaterials", "abstract": "Engineered nanomaterials offer numerous and tantalizing opportunities in many sectors of society, including medicine. Needless to say, attention should also be paid to the potential for unexpected haz...", "citations": 212, "author_count": 3, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4546, "doi": "10.1021/ar300020b", "umap_coordinates": { "x": 393.3229064941406, "y": 134.33311462402344, "z": 204.0741729736328 }, "tsne_coordinates": { "x": 16.534135818481445, "y": 22.59915542602539, "z": 0.40869632363319397 }, "pca_coordinates": { "x": -3.3910770416259766, "y": -1.084428071975708, "z": -2.5336692333221436 }, "axis_scores": { "Quantum imaging": 0.6807063817977905, "Quantum Life Science Sensing": 0.7398514151573181, "Quantum sensing Detection": 0.6907321214675903, "Quantum sensing Metrology": 0.6661951541900635, "Quantum sensing navigation": 0.6720075011253357, "Quantum sensing Position": 0.6448717713356018, "Quantum sensing Timing": 0.6375189423561096, "Quantum sensing": 0.6906455159187317, "Quantum control": 0.6746225357055664 } }, { "id": 4540, "title": "Growth mechanism of graphene on platinum: Surface catalysis and carbon segregation", "abstract": "A model of the graphene growth mechanism of chemical vapor deposition on platinum is proposed and verified by experiments. Surface catalysis and carbon segregation occur, respectively, at high and low...", "citations": 62, "author_count": 8, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4547, "doi": "10.1063/1.4871978", "umap_coordinates": { "x": 393.7652587890625, "y": 134.30087280273438, "z": 207.77345275878906 }, "tsne_coordinates": { "x": 29.138248443603516, "y": -34.26831817626953, "z": -3.2830705642700195 }, "pca_coordinates": { "x": -0.0063588619232177734, "y": -1.6155409812927246, "z": -0.919854998588562 }, "axis_scores": { "Quantum imaging": 0.6845681071281433, "Quantum Life Science Sensing": 0.714028537273407, "Quantum sensing Detection": 0.7062057256698608, "Quantum sensing Metrology": 0.6946011185646057, "Quantum sensing navigation": 0.6832742691040039, "Quantum sensing Position": 0.6833106279373169, "Quantum sensing Timing": 0.6761895418167114, "Quantum sensing": 0.7110794186592102, "Quantum control": 0.695072591304779 } }, { "id": 4541, "title": "Amplitude distributions of dark counts and photon counts in NbN superconducting single-photon detectors integrated with the HEMT readout", "abstract": "We present a new operation regime of NbN superconducting single-photon detectors (SSPDs) by integrating them with a low-noise cryogenic high-electron-mobility transistor and a high-load resistor. The ...", "citations": 7, "author_count": 8, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4548, "doi": "10.1016/j.physc.2016.11.008", "umap_coordinates": { "x": 394.64007568359375, "y": 132.94058227539062, "z": 206.4109344482422 }, "tsne_coordinates": { "x": -15.8026123046875, "y": 5.689329624176025, "z": -30.728790283203125 }, "pca_coordinates": { "x": 0.16088664531707764, "y": -0.989166259765625, "z": 3.297863483428955 }, "axis_scores": { "Quantum imaging": 0.7352882027626038, "Quantum Life Science Sensing": 0.7265267968177795, "Quantum sensing Detection": 0.7343812584877014, "Quantum sensing Metrology": 0.7191614508628845, "Quantum sensing navigation": 0.7233718633651733, "Quantum sensing Position": 0.6991351842880249, "Quantum sensing Timing": 0.7213407754898071, "Quantum sensing": 0.7312484383583069, "Quantum control": 0.6804233193397522 } }, { "id": 4542, "title": "Fermionic Free Energies from Ab Initio Path Integral Monte Carlo Simulations of Fictitious Identical Particles", "abstract": "We combine the recent eta-ensemble path integral Monte Carlo approach to the free energy [Dornheim et al. Phys. Rev. B 2025 111, L041114] with a recent fictitious partition function technique based on...", "citations": 6, "author_count": 6, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4549, "doi": "10.1021/acs.jctc.5c00301", "umap_coordinates": { "x": 393.8960876464844, "y": 137.7135772705078, "z": 206.58493041992188 }, "tsne_coordinates": { "x": -11.232745170593262, "y": 4.570833206176758, "z": 22.679107666015625 }, "pca_coordinates": { "x": 0.8025991916656494, "y": -0.38465166091918945, "z": -0.9957944750785828 }, "axis_scores": { "Quantum imaging": 0.6902399063110352, "Quantum Life Science Sensing": 0.6983547210693359, "Quantum sensing Detection": 0.6656880974769592, "Quantum sensing Metrology": 0.6689797639846802, "Quantum sensing navigation": 0.6967102289199829, "Quantum sensing Position": 0.6460010409355164, "Quantum sensing Timing": 0.6547117829322815, "Quantum sensing": 0.6837498545646667, "Quantum control": 0.6714531779289246 } }, { "id": 4543, "title": "Organosulfur/selenium-based Highly Fluorogenic Molecular Probes for Live-Cell Nucleolus Imaging", "abstract": "We present fluorogenic cationic organo chalcogens that are highly selective to RNA. We have demonstrated that the conformational dynamics and subsequently the optical properties of these dyes can be c...", "citations": 10, "author_count": 11, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4550, "doi": "10.1002/asia.202101281", "umap_coordinates": { "x": 393.3894958496094, "y": 133.78082275390625, "z": 204.68389892578125 }, "tsne_coordinates": { "x": 15.954582214355469, "y": 15.170792579650879, "z": -12.6221342086792 }, "pca_coordinates": { "x": -4.54111385345459, "y": -1.007194995880127, "z": -0.4112054705619812 }, "axis_scores": { "Quantum imaging": 0.744935929775238, "Quantum Life Science Sensing": 0.7483581304550171, "Quantum sensing Detection": 0.7072191834449768, "Quantum sensing Metrology": 0.7003750801086426, "Quantum sensing navigation": 0.7160661816596985, "Quantum sensing Position": 0.6840313673019409, "Quantum sensing Timing": 0.6722011566162109, "Quantum sensing": 0.7190001010894775, "Quantum control": 0.6785435676574707 } }, { "id": 4544, "title": "Electromigration tuning of the voltage modulation depth in YBa2Cu3O7-δ nanowire-based SQUIDs", "abstract": "Oxygen electromigration applied to a YBa2Cu3O7-delta nanowire can be used to tune its electrical properties. Here, we apply electromigration to YBCO nanowire-based superconducting quantum interference...", "citations": 4, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4551, "doi": "10.1088/1361-6668/ac1c15", "umap_coordinates": { "x": 393.8695983886719, "y": 134.78543090820312, "z": 207.40126037597656 }, "tsne_coordinates": { "x": 4.831859111785889, "y": -25.28215980529785, "z": -26.342248916625977 }, "pca_coordinates": { "x": 0.843447208404541, "y": -1.2559192180633545, "z": 0.9333086609840393 }, "axis_scores": { "Quantum imaging": 0.7031035423278809, "Quantum Life Science Sensing": 0.7102738618850708, "Quantum sensing Detection": 0.7036612033843994, "Quantum sensing Metrology": 0.7123070359230042, "Quantum sensing navigation": 0.7462934851646423, "Quantum sensing Position": 0.7149632573127747, "Quantum sensing Timing": 0.7004231214523315, "Quantum sensing": 0.7127314209938049, "Quantum control": 0.6929706931114197 } }, { "id": 4545, "title": "Gadolinium as an accelerator for reaching thermal equilibrium and its influence on the ground state of Dy2GdN@C80 single-molecule magnets", "abstract": "Endohedral fullerenes are perfect nanolaboratories for the study of magnetism. The substitution of a diamagnetic scandium atom in Dy2ScN@C-80 with gadolinium decreases the stability of a given magneti...", "citations": 8, "author_count": 10, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4552, "doi": "10.1103/PhysRevB.103.014404", "umap_coordinates": { "x": 392.922119140625, "y": 136.12478637695312, "z": 207.8970489501953 }, "tsne_coordinates": { "x": 18.40287208557129, "y": -31.76077651977539, "z": 20.414596557617188 }, "pca_coordinates": { "x": 2.3272290229797363, "y": -1.2567558288574219, "z": -1.4856581687927246 }, "axis_scores": { "Quantum imaging": 0.6804854273796082, "Quantum Life Science Sensing": 0.6889349818229675, "Quantum sensing Detection": 0.6909266710281372, "Quantum sensing Metrology": 0.6809881329536438, "Quantum sensing navigation": 0.6983668804168701, "Quantum sensing Position": 0.6747409105300903, "Quantum sensing Timing": 0.6840558052062988, "Quantum sensing": 0.6924465298652649, "Quantum control": 0.6796460747718811 } }, { "id": 4546, "title": "Molecular solar thermal energy storage in photoswitch oligomers increases energy densities and storage times", "abstract": "Molecular photoswitches can be used for solar thermal energy storage by photoisomerization into high-energy, meta-stable isomers; we present a molecular design strategy leading to photoswitches with h...", "citations": 167, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4553, "doi": "10.1038/s41467-018-04230-8", "umap_coordinates": { "x": 392.4830017089844, "y": 135.60873413085938, "z": 206.0512237548828 }, "tsne_coordinates": { "x": -4.451052665710449, "y": 2.676555633544922, "z": 0.6240495443344116 }, "pca_coordinates": { "x": -0.2104494571685791, "y": -2.818385601043701, "z": -0.8826271295547485 }, "axis_scores": { "Quantum imaging": 0.6787757873535156, "Quantum Life Science Sensing": 0.7072474956512451, "Quantum sensing Detection": 0.6614433526992798, "Quantum sensing Metrology": 0.6555834412574768, "Quantum sensing navigation": 0.6471109390258789, "Quantum sensing Position": 0.6524540185928345, "Quantum sensing Timing": 0.6681835651397705, "Quantum sensing": 0.681800365447998, "Quantum control": 0.6460825204849243 } }, { "id": 4547, "title": "Nanotechnology in stem cells research: advances and applications", "abstract": "Human beings suffer from a myriad of disorders caused by biochemical or biophysical alteration of physiological systems leading to organ failure. For a number of these conditions, stem cells and their...", "citations": 24, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4554, "doi": "10.2741/4016", "umap_coordinates": { "x": 394.0582275390625, "y": 134.36363220214844, "z": 204.09552001953125 }, "tsne_coordinates": { "x": 16.56385040283203, "y": 26.066051483154297, "z": -5.777822971343994 }, "pca_coordinates": { "x": -3.536299705505371, "y": -0.18150019645690918, "z": -0.043162763118743896 }, "axis_scores": { "Quantum imaging": 0.6791975498199463, "Quantum Life Science Sensing": 0.7353644371032715, "Quantum sensing Detection": 0.6765562891960144, "Quantum sensing Metrology": 0.6736387014389038, "Quantum sensing navigation": 0.6784361004829407, "Quantum sensing Position": 0.6709903478622437, "Quantum sensing Timing": 0.6594291925430298, "Quantum sensing": 0.6892765760421753, "Quantum control": 0.664195716381073 } }, { "id": 4548, "title": "Influence of different stabilizers on the optical and nonlinear optical properties of CdTe nanoparticles", "abstract": "CdTe semiconductor nanocrystals were synthesized with three different stabilizers: Mercaptoacetic Acid (MM), Mercaptopropionic Acid (MPA) and 2-Mercaptoethanol (ME) at pH approximate to 11.2 by wet ch...", "citations": 38, "author_count": 5, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4555, "doi": "10.1016/j.optcom.2011.01.071", "umap_coordinates": { "x": 393.0426940917969, "y": 134.1164093017578, "z": 205.61863708496094 }, "tsne_coordinates": { "x": 27.777416229248047, "y": 2.4528162479400635, "z": 5.23259973526001 }, "pca_coordinates": { "x": -3.009556770324707, "y": -2.4466710090637207, "z": -1.5728092193603516 }, "axis_scores": { "Quantum imaging": 0.7136293649673462, "Quantum Life Science Sensing": 0.7340694665908813, "Quantum sensing Detection": 0.7077332735061646, "Quantum sensing Metrology": 0.697556734085083, "Quantum sensing navigation": 0.6952381134033203, "Quantum sensing Position": 0.6845903992652893, "Quantum sensing Timing": 0.6532912254333496, "Quantum sensing": 0.7140099406242371, "Quantum control": 0.7169976234436035 } }, { "id": 4549, "title": "Electronic Double-Quantum Coherences and Their Impact on Ultrafast Spectroscopy: The Example of β-Carotene", "abstract": "The energy level structure and dynamics of biomolecules are important for understanding their photoinduced function. In particular, the role of carotenoids in light-harvesting is heavily studied, yet ...", "citations": 54, "author_count": 10, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4556, "doi": "10.1021/jz101409r", "umap_coordinates": { "x": 392.7113952636719, "y": 136.11810302734375, "z": 206.3872528076172 }, "tsne_coordinates": { "x": 5.516450881958008, "y": -2.3163113594055176, "z": 8.245339393615723 }, "pca_coordinates": { "x": -0.27256035804748535, "y": -0.8108055591583252, "z": -1.9977772235870361 }, "axis_scores": { "Quantum imaging": 0.7490341067314148, "Quantum Life Science Sensing": 0.7944082021713257, "Quantum sensing Detection": 0.7449748516082764, "Quantum sensing Metrology": 0.7217856049537659, "Quantum sensing navigation": 0.7135452628135681, "Quantum sensing Position": 0.6958833932876587, "Quantum sensing Timing": 0.6998344659805298, "Quantum sensing": 0.7517005205154419, "Quantum control": 0.7037874460220337 } }, { "id": 4550, "title": "Generation of Oxide Nanopatterns by Combining Self-Assembly of S-Layer Proteins and Area-Selective Atomic Layer Deposition", "abstract": "We report an effective method to fabricate two-dimensional (2D) periodic oxide nanopatterns using S-layer proteins as a template. Specifically, S-layer proteins with a unit cell dimension of 20 nm wer...", "citations": 56, "author_count": 11, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4557, "doi": "10.1021/ja803186e", "umap_coordinates": { "x": 392.5467529296875, "y": 134.5518798828125, "z": 205.16334533691406 }, "tsne_coordinates": { "x": 22.474071502685547, "y": 14.178906440734863, "z": 14.0868501663208 }, "pca_coordinates": { "x": -2.1427979469299316, "y": -3.560576915740967, "z": 0.5448448061943054 }, "axis_scores": { "Quantum imaging": 0.672243595123291, "Quantum Life Science Sensing": 0.7128305435180664, "Quantum sensing Detection": 0.6763970255851746, "Quantum sensing Metrology": 0.6751461029052734, "Quantum sensing navigation": 0.6768631935119629, "Quantum sensing Position": 0.6452285051345825, "Quantum sensing Timing": 0.6246126890182495, "Quantum sensing": 0.6931471228599548, "Quantum control": 0.639792799949646 } }, { "id": 4551, "title": "Solvatochromic shift of phenol blue in water from a combined Car-Parrinello molecular dynamics hybrid quantum mechanics-molecular mechanics and ZINDO approach", "abstract": "The present work addresses the solvatochromic shift of phenol blue (PB) dye. For this purpose the results of Car-Parrinello molecular dynamics (CPMD) simulations for PB in gas phase are compared with ...", "citations": 25, "author_count": 6, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4558, "doi": "10.1063/1.3436516", "umap_coordinates": { "x": 393.3641052246094, "y": 137.3848876953125, "z": 205.78395080566406 }, "tsne_coordinates": { "x": -1.400700569152832, "y": 9.280765533447266, "z": 32.49406814575195 }, "pca_coordinates": { "x": -0.25938308238983154, "y": 1.1326757669448853, "z": -2.0892672538757324 }, "axis_scores": { "Quantum imaging": 0.7345030307769775, "Quantum Life Science Sensing": 0.7491817474365234, "Quantum sensing Detection": 0.7233523726463318, "Quantum sensing Metrology": 0.7148172855377197, "Quantum sensing navigation": 0.7255138158798218, "Quantum sensing Position": 0.6928414106369019, "Quantum sensing Timing": 0.6790065765380859, "Quantum sensing": 0.7414698600769043, "Quantum control": 0.7232087850570679 } }, { "id": 4552, "title": "High-order harmonic generation using a high-repetition-rate turnkey laser", "abstract": "We generate high-order harmonics at high pulse repetition rates using a turnkey laser. High-order harmonics at 400 kHz are observed when argon is used as target gas. In neon, we achieve generation of ...", "citations": 52, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4559, "doi": "10.1063/1.4902819", "umap_coordinates": { "x": 394.2334899902344, "y": 135.38648986816406, "z": 207.411865234375 }, "tsne_coordinates": { "x": 4.183300018310547, "y": -5.852980136871338, "z": 17.55845069885254 }, "pca_coordinates": { "x": 0.9324350357055664, "y": 0.004507541656494141, "z": 0.38435596227645874 }, "axis_scores": { "Quantum imaging": 0.6732407808303833, "Quantum Life Science Sensing": 0.6717132925987244, "Quantum sensing Detection": 0.6710744500160217, "Quantum sensing Metrology": 0.6549268364906311, "Quantum sensing navigation": 0.6598159074783325, "Quantum sensing Position": 0.6379904747009277, "Quantum sensing Timing": 0.6613875031471252, "Quantum sensing": 0.6910071969032288, "Quantum control": 0.6775564551353455 } }, { "id": 4553, "title": "Measurement of isolated-photon pair production in pp collisions at √s=7 TeV with the ATLAS detector", "abstract": "The ATLAS experiment at the LHC has measured the production cross section of events with two isolated photons in the final state, in proton-proton collisions at root s = 7 TeV. The full data set colle...", "citations": 70, "author_count": 2655, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4560, "doi": "10.1007/JHEP01(2013)086", "umap_coordinates": { "x": 397.0110778808594, "y": 134.3048858642578, "z": 207.41639709472656 }, "tsne_coordinates": { "x": -33.57467269897461, "y": 10.260112762451172, "z": -10.738768577575684 }, "pca_coordinates": { "x": -0.5252114534378052, "y": 1.4108680486679077, "z": 4.142658710479736 }, "axis_scores": { "Quantum imaging": 0.6930806636810303, "Quantum Life Science Sensing": 0.6946154832839966, "Quantum sensing Detection": 0.7027009129524231, "Quantum sensing Metrology": 0.6697779893875122, "Quantum sensing navigation": 0.6616740226745605, "Quantum sensing Position": 0.6862967610359192, "Quantum sensing Timing": 0.6866541504859924, "Quantum sensing": 0.694692850112915, "Quantum control": 0.6387560963630676 } }, { "id": 4554, "title": "DECAYS OF D-WAVE QUARKONIUM STATES INTO GGG AND GAMMA-GG", "abstract": "We use a covariant formalism to calculate D-wave quarkonium annihilation into three gluons. We present the exact lowest order results for the differential decay distributions for this decay and for th...", "citations": 22, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 4561, "doi": null, "umap_coordinates": { "x": 391.8395080566406, "y": 139.4363250732422, "z": 209.69520568847656 }, "tsne_coordinates": { "x": -6.596693515777588, "y": 38.6554069519043, "z": -1.0122087001800537 }, "pca_coordinates": { "x": -0.36570632457733154, "y": 4.119986057281494, "z": -2.8304290771484375 }, "axis_scores": { "Quantum imaging": 0.684180498123169, "Quantum Life Science Sensing": 0.6956542134284973, "Quantum sensing Detection": 0.6943581104278564, "Quantum sensing Metrology": 0.6592794060707092, "Quantum sensing navigation": 0.7009624242782593, "Quantum sensing Position": 0.647300124168396, "Quantum sensing Timing": 0.6525416374206543, "Quantum sensing": 0.6939772367477417, "Quantum control": 0.6929045915603638 } }, { "id": 4555, "title": "Improving the Q2MM Method for Transition State Force Field Modeling", "abstract": "The Quantum-to-molecular mechanics method (Q2MM) for converting quantum mechanical transition states (TSs) to molecular mechanical minima has been modified to allow a fit to the natural reaction mode ...", "citations": 12, "author_count": 3, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4562, "doi": "10.1002/jcc.23797", "umap_coordinates": { "x": 393.82476806640625, "y": 137.4847869873047, "z": 205.8314666748047 }, "tsne_coordinates": { "x": 0.34302183985710144, "y": 22.262378692626953, "z": 28.233814239501953 }, "pca_coordinates": { "x": -1.032512903213501, "y": 2.9370758533477783, "z": -2.6086266040802 }, "axis_scores": { "Quantum imaging": 0.663661003112793, "Quantum Life Science Sensing": 0.6658124923706055, "Quantum sensing Detection": 0.6451812982559204, "Quantum sensing Metrology": 0.6724449396133423, "Quantum sensing navigation": 0.6732704043388367, "Quantum sensing Position": 0.6474784016609192, "Quantum sensing Timing": 0.6632767915725708, "Quantum sensing": 0.6649998426437378, "Quantum control": 0.6860268115997314 } }, { "id": 4556, "title": "Hilbert space factorization and partial measurements", "abstract": "A quantum system whose state vector belongs to a finite-dimensional Hilbert space is considered. If this space has a dimension that is a composite number, one can factor the space into a tensor produc...", "citations": 1, "author_count": 6, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4563, "doi": "10.1134/1.1576837", "umap_coordinates": { "x": 395.60223388671875, "y": 137.01576232910156, "z": 206.6770477294922 }, "tsne_coordinates": { "x": -21.47589111328125, "y": -1.8850017786026, "z": -9.181780815124512 }, "pca_coordinates": { "x": 2.543947696685791, "y": 3.9976000785827637, "z": 2.139881134033203 }, "axis_scores": { "Quantum imaging": 0.7682067155838013, "Quantum Life Science Sensing": 0.7551419734954834, "Quantum sensing Detection": 0.7732978463172913, "Quantum sensing Metrology": 0.7810102701187134, "Quantum sensing navigation": 0.7759724855422974, "Quantum sensing Position": 0.7507727742195129, "Quantum sensing Timing": 0.7190656661987305, "Quantum sensing": 0.7900873422622681, "Quantum control": 0.7407292723655701 } }, { "id": 4557, "title": "Tunneling spectroscopy of localized states near the quantum Hall edge", "abstract": "In this paper, we discuss the experimental results of M. Grayson et al. on tunneling I-V characteristics of the quantum Hall edge. We suggest a two-step tunneling mechanism involving localized electro...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4564, "doi": "10.1134/1.1328450", "umap_coordinates": { "x": 393.855224609375, "y": 135.43270874023438, "z": 208.43898010253906 }, "tsne_coordinates": { "x": 22.38890266418457, "y": -31.605045318603516, "z": 13.028057098388672 }, "pca_coordinates": { "x": 4.115423202514648, "y": -0.17566275596618652, "z": 0.054515182971954346 }, "axis_scores": { "Quantum imaging": 0.735240638256073, "Quantum Life Science Sensing": 0.7357915639877319, "Quantum sensing Detection": 0.7549943923950195, "Quantum sensing Metrology": 0.7487572431564331, "Quantum sensing navigation": 0.7446867227554321, "Quantum sensing Position": 0.7241212129592896, "Quantum sensing Timing": 0.7095650434494019, "Quantum sensing": 0.7651100754737854, "Quantum control": 0.7008517384529114 } }, { "id": 4558, "title": "Effect of synthesis methods on photoluminescent properties for CsPbBr3 nanocrystals: Hot injection method and conversion method", "abstract": "Multiple facile synthetic strategies for all inorganic perovskite CsPbBr3 nanocrystals (NCs) have been established and developed, profiting from their excellent performance and great potential applied...", "citations": 23, "author_count": 6, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4565, "doi": "10.1016/j.jlumin.2019.117023", "umap_coordinates": { "x": 392.9307861328125, "y": 134.24781799316406, "z": 205.2535858154297 }, "tsne_coordinates": { "x": 5.365523815155029, "y": 14.076194763183594, "z": -5.58349609375 }, "pca_coordinates": { "x": -4.0843610763549805, "y": -1.0611624717712402, "z": -0.5657565593719482 }, "axis_scores": { "Quantum imaging": 0.7058054804801941, "Quantum Life Science Sensing": 0.7134214639663696, "Quantum sensing Detection": 0.6933425664901733, "Quantum sensing Metrology": 0.6814277768135071, "Quantum sensing navigation": 0.6654258370399475, "Quantum sensing Position": 0.6652718186378479, "Quantum sensing Timing": 0.6781277656555176, "Quantum sensing": 0.7056412696838379, "Quantum control": 0.6916460990905762 } }, { "id": 4559, "title": "Single-shot, planar infrared imaging in flames using polarization spectroscopy", "abstract": "Planar infrared visualization of species in flames is challenging due to the severe thermal radiation background and relatively weak fluorescence quantum yields from ro-vibration transitions. In this ...", "citations": 4, "author_count": 6, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4566, "doi": "10.1364/OE.23.030414", "umap_coordinates": { "x": 394.9245300292969, "y": 133.3907470703125, "z": 206.9332275390625 }, "tsne_coordinates": { "x": -8.598648071289062, "y": -2.267009973526001, "z": -31.74907875061035 }, "pca_coordinates": { "x": -2.2365918159484863, "y": -0.5798039436340332, "z": 2.64190936088562 }, "axis_scores": { "Quantum imaging": 0.7246037721633911, "Quantum Life Science Sensing": 0.6987451314926147, "Quantum sensing Detection": 0.6939035654067993, "Quantum sensing Metrology": 0.6686909794807434, "Quantum sensing navigation": 0.6838517189025879, "Quantum sensing Position": 0.6576604247093201, "Quantum sensing Timing": 0.6599857211112976, "Quantum sensing": 0.703590452671051, "Quantum control": 0.652337372303009 } }, { "id": 4560, "title": "Luminescent benzo- and naphthoquinolines: Synthesis and investigation of photophysical properties", "abstract": "The aim of this study was to synthesise new luminescent small molecular weight benzo- and naphthoquinoline derivatives (based on already known synthons) with different substituents (chlorine, tetrazol...", "citations": 5, "author_count": 9, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4567, "doi": "10.1016/j.jlumin.2015.06.052", "umap_coordinates": { "x": 393.1975402832031, "y": 135.31320190429688, "z": 204.71080017089844 }, "tsne_coordinates": { "x": 4.133967876434326, "y": 13.769965171813965, "z": -4.975521087646484 }, "pca_coordinates": { "x": -3.2995457649230957, "y": -1.0125775337219238, "z": -1.0781569480895996 }, "axis_scores": { "Quantum imaging": 0.7782571911811829, "Quantum Life Science Sensing": 0.782472550868988, "Quantum sensing Detection": 0.7583617568016052, "Quantum sensing Metrology": 0.7423897385597229, "Quantum sensing navigation": 0.7413788437843323, "Quantum sensing Position": 0.7245938181877136, "Quantum sensing Timing": 0.6925062537193298, "Quantum sensing": 0.7726887464523315, "Quantum control": 0.7490051984786987 } }, { "id": 4561, "title": "High-intensity near-IR fluorescence in semiconducting polymer dots achieved by cascade FRET strategy", "abstract": "Near-IR (NIR) emitting semiconducting polymer dots (Pdots) with ultrabright fluorescence have been prepared for specific cellular targeting. A series of pi-conjugated polymers were synthesized to form...", "citations": 82, "author_count": 7, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4568, "doi": "10.1039/c3sc50222h", "umap_coordinates": { "x": 392.0419616699219, "y": 134.72286987304688, "z": 205.54470825195312 }, "tsne_coordinates": { "x": 14.366291046142578, "y": 11.858620643615723, "z": -15.639212608337402 }, "pca_coordinates": { "x": -2.481522560119629, "y": -3.173128604888916, "z": 1.3905479907989502 }, "axis_scores": { "Quantum imaging": 0.7088565230369568, "Quantum Life Science Sensing": 0.7230696082115173, "Quantum sensing Detection": 0.7078820466995239, "Quantum sensing Metrology": 0.6746897101402283, "Quantum sensing navigation": 0.6654171347618103, "Quantum sensing Position": 0.6592676639556885, "Quantum sensing Timing": 0.6513609886169434, "Quantum sensing": 0.7089425921440125, "Quantum control": 0.6675587892532349 } }, { "id": 4562, "title": "Ultralow Noise, Broadband Phase-Sensitive Optical Amplifiers, and Their Applications", "abstract": "Frequency nondegenerate phase-sensitive amplifiers (PSAs) have the potential to realize broadband and noiseless amplification. However, the rigorous requirement of phase- and wavelength-locking of the...", "citations": 114, "author_count": 6, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4569, "doi": "10.1109/JSTQE.2011.2136330", "umap_coordinates": { "x": 394.544921875, "y": 133.8481903076172, "z": 206.7808074951172 }, "tsne_coordinates": { "x": -0.28067970275878906, "y": -1.775768518447876, "z": -34.03490447998047 }, "pca_coordinates": { "x": -0.27080297470092773, "y": -1.5162053108215332, "z": 1.808034896850586 }, "axis_scores": { "Quantum imaging": 0.7281007170677185, "Quantum Life Science Sensing": 0.7459461688995361, "Quantum sensing Detection": 0.7446234226226807, "Quantum sensing Metrology": 0.7331709265708923, "Quantum sensing navigation": 0.7269478440284729, "Quantum sensing Position": 0.7075967192649841, "Quantum sensing Timing": 0.7203406095504761, "Quantum sensing": 0.7505167722702026, "Quantum control": 0.6989796757698059 } }, { "id": 4563, "title": "Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers", "abstract": "In principle, optical phase-sensitive amplifiers are known to be capable of realizing noiseless amplification, as well as improving the signal-to-noise-ratio of optical links by 3 dB compared to conve...", "citations": 391, "author_count": 11, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4570, "doi": "10.1038/NPHOTON.2011.79", "umap_coordinates": { "x": 394.54290771484375, "y": 134.3737030029297, "z": 206.58189392089844 }, "tsne_coordinates": { "x": -17.37086296081543, "y": -7.876533031463623, "z": -12.805493354797363 }, "pca_coordinates": { "x": -0.7063503265380859, "y": -0.7036917209625244, "z": 2.8198561668395996 }, "axis_scores": { "Quantum imaging": 0.7376961708068848, "Quantum Life Science Sensing": 0.7375458478927612, "Quantum sensing Detection": 0.7476656436920166, "Quantum sensing Metrology": 0.7184728980064392, "Quantum sensing navigation": 0.7558404207229614, "Quantum sensing Position": 0.7417755722999573, "Quantum sensing Timing": 0.7069066166877747, "Quantum sensing": 0.7473799586296082, "Quantum control": 0.6916183829307556 } }, { "id": 4564, "title": "REMANENT MAGNETIZATION IN THE DILUTED ISING ANTIFERROMAGNET FE0.6ZN0.4F2", "abstract": "The field, H less-than-or-equal-to 5 T, and temperature, T greater-than-or-equal-to 2 K, dependence of the remanent magnetization mu of the diluted Ising antiferromagnet Fe0.6Zn0.4F2 has been investig...", "citations": 5, "author_count": 4, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 4571, "doi": "10.1063/1.355682", "umap_coordinates": { "x": 392.6257019042969, "y": 135.7032928466797, "z": 208.2322540283203 }, "tsne_coordinates": { "x": 14.684432983398438, "y": -30.233980178833008, "z": 14.911641120910645 }, "pca_coordinates": { "x": 1.3869125843048096, "y": -1.5621414184570312, "z": -1.853057861328125 }, "axis_scores": { "Quantum imaging": 0.7086132168769836, "Quantum Life Science Sensing": 0.7067875266075134, "Quantum sensing Detection": 0.6806525588035583, "Quantum sensing Metrology": 0.7120397686958313, "Quantum sensing navigation": 0.6936691403388977, "Quantum sensing Position": 0.672523558139801, "Quantum sensing Timing": 0.6444504261016846, "Quantum sensing": 0.7105088233947754, "Quantum control": 0.6772098541259766 } }, { "id": 4565, "title": "Numerical analysis of entanglement properties of density matrices in C2⊗C2 systems", "abstract": "Quantum entanglement is an enigmatic and powerful property that has attracted much attention due to its usefulness in new ways of communications, like quantum teleportation and quantum key distributio...", "citations": 1, "author_count": 3, "categories": [ "Computer Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4572, "doi": null, "umap_coordinates": { "x": 392.0634765625, "y": 139.28121948242188, "z": 208.58860778808594 }, "tsne_coordinates": { "x": -16.435407638549805, "y": 37.717926025390625, "z": -2.6155245304107666 }, "pca_coordinates": { "x": 1.8002729415893555, "y": 3.0953240394592285, "z": -2.0006263256073 }, "axis_scores": { "Quantum imaging": 0.7495144009590149, "Quantum Life Science Sensing": 0.7161145806312561, "Quantum sensing Detection": 0.7374542951583862, "Quantum sensing Metrology": 0.7299907207489014, "Quantum sensing navigation": 0.7382579445838928, "Quantum sensing Position": 0.7110724449157715, "Quantum sensing Timing": 0.682803750038147, "Quantum sensing": 0.7439482808113098, "Quantum control": 0.7429775595664978 } }, { "id": 4566, "title": "Laser- and collision-induced nonadiabatic wave-packet dynamics in sodium molecules", "abstract": "We investigate nonadiabatic dynamics of molecular sodium in two alternative approximate ways. Firstly, the semiclassical mapping formalism is used to study the decisive step in resonant two photon ion...", "citations": 4, "author_count": 4, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4573, "doi": "10.1002/1521-3889(200010)9:9/10<785::AID-ANDP785>3.0.CO;2-J", "umap_coordinates": { "x": 393.134521484375, "y": 136.0272979736328, "z": 207.10189819335938 }, "tsne_coordinates": { "x": -9.378252029418945, "y": -2.2274224758148193, "z": 15.238751411437988 }, "pca_coordinates": { "x": 1.2694578170776367, "y": 0.6650621891021729, "z": -0.6732518672943115 }, "axis_scores": { "Quantum imaging": 0.7006587386131287, "Quantum Life Science Sensing": 0.6793703436851501, "Quantum sensing Detection": 0.6903885006904602, "Quantum sensing Metrology": 0.649037778377533, "Quantum sensing navigation": 0.6928762197494507, "Quantum sensing Position": 0.6529827117919922, "Quantum sensing Timing": 0.6781023740768433, "Quantum sensing": 0.6871008276939392, "Quantum control": 0.6709532737731934 } }, { "id": 4567, "title": "Photosensitive gaseous detectors and their applications", "abstract": "This paper reviews a large and important class of position sensitive detectors called photosensitive gaseous detectors (PGDs). Their main application rests in the imaging of UV photons. There are howe...", "citations": 15, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4574, "doi": "10.1016/j.nima.2004.03.017", "umap_coordinates": { "x": 394.1965637207031, "y": 133.08682250976562, "z": 205.3070526123047 }, "tsne_coordinates": { "x": -14.346343994140625, "y": 13.278414726257324, "z": -6.804523944854736 }, "pca_coordinates": { "x": -2.6690526008605957, "y": 0.45245885848999023, "z": 1.172504186630249 }, "axis_scores": { "Quantum imaging": 0.7225146293640137, "Quantum Life Science Sensing": 0.7465721368789673, "Quantum sensing Detection": 0.7387592792510986, "Quantum sensing Metrology": 0.7146543264389038, "Quantum sensing navigation": 0.7094005942344666, "Quantum sensing Position": 0.708432137966156, "Quantum sensing Timing": 0.7008277773857117, "Quantum sensing": 0.7361534833908081, "Quantum control": 0.6568912863731384 } }, { "id": 4568, "title": "Two-dimensional quantum-confined Stark effect in V-groove quantum wires: Excited state spectroscopy and theory", "abstract": "We report on the electric field effects in photoluminescence (PL) and PL excitation (PLE) measurements of reverse-biased GaAs V-groove quantum wires. We observe large redshifts (9 meV at 265 kV/cm) of...", "citations": 17, "author_count": 7, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4575, "doi": "10.1063/1.123842", "umap_coordinates": { "x": 393.3666076660156, "y": 134.96376037597656, "z": 207.97215270996094 }, "tsne_coordinates": { "x": 4.3522725105285645, "y": -6.381075859069824, "z": 7.491682052612305 }, "pca_coordinates": { "x": 3.121035099029541, "y": -2.42360782623291, "z": 0.4683728814125061 }, "axis_scores": { "Quantum imaging": 0.7633476257324219, "Quantum Life Science Sensing": 0.7480311393737793, "Quantum sensing Detection": 0.7638530135154724, "Quantum sensing Metrology": 0.7436018586158752, "Quantum sensing navigation": 0.7708897590637207, "Quantum sensing Position": 0.7291214466094971, "Quantum sensing Timing": 0.7118695378303528, "Quantum sensing": 0.7696700096130371, "Quantum control": 0.7346275448799133 } }, { "id": 4569, "title": "Formylation boosts the performance of light-driven overcrowded alkene-derived rotary molecular motors", "abstract": "Artificial molecular motors and machines constitute a critical element in the transition from individual molecular motion to the creation of collective dynamic molecular systems and responsive materia...", "citations": 30, "author_count": 11, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4576, "doi": "10.1038/s41557-024-01521-0", "umap_coordinates": { "x": 392.1185302734375, "y": 135.04087829589844, "z": 204.71875 }, "tsne_coordinates": { "x": -5.847825050354004, "y": 8.247376441955566, "z": -10.237449645996094 }, "pca_coordinates": { "x": -3.1107730865478516, "y": 0.11571121215820312, "z": -1.314404010772705 }, "axis_scores": { "Quantum imaging": 0.7026746869087219, "Quantum Life Science Sensing": 0.7039052248001099, "Quantum sensing Detection": 0.6875565648078918, "Quantum sensing Metrology": 0.6955485939979553, "Quantum sensing navigation": 0.6891235709190369, "Quantum sensing Position": 0.6762614250183105, "Quantum sensing Timing": 0.6461341381072998, "Quantum sensing": 0.7101401686668396, "Quantum control": 0.6980232000350952 } }, { "id": 4570, "title": "Constructing ZnTe Spherical Quantum Well for Efficient Light Emission", "abstract": "ZnTe colloidal semiconductor nanocrystals (NCs) have shown promise for light-emitting diodes (LEDs) and displays, because they are free from toxic heavy metals (Cd). However, so far, their low photolu...", "citations": 14, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4577, "doi": "10.1021/acs.nanolett.4c00734", "umap_coordinates": { "x": 391.9018859863281, "y": 133.73605346679688, "z": 205.9690704345703 }, "tsne_coordinates": { "x": 29.462125778198242, "y": 1.6931712627410889, "z": -13.822340965270996 }, "pca_coordinates": { "x": -3.0007951259613037, "y": -4.095078945159912, "z": -0.4780561625957489 }, "axis_scores": { "Quantum imaging": 0.7292029857635498, "Quantum Life Science Sensing": 0.742183268070221, "Quantum sensing Detection": 0.7155492305755615, "Quantum sensing Metrology": 0.7224761843681335, "Quantum sensing navigation": 0.7374460697174072, "Quantum sensing Position": 0.696254312992096, "Quantum sensing Timing": 0.6846213936805725, "Quantum sensing": 0.7293157577514648, "Quantum control": 0.7021978497505188 } }, { "id": 4571, "title": "Strategies for Molecular Imprinting and the Evolution of MIP Nanoparticles as Plastic Antibodies-Synthesis and Applications", "abstract": "Materials that can mimic the molecular recognition-based functions found in biology are a significant goal for science and technology. Molecular imprinting is a technology that addresses this challeng...", "citations": 157, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4578, "doi": "10.3390/ijms20246304", "umap_coordinates": { "x": 393.3074035644531, "y": 134.22962951660156, "z": 203.87957763671875 }, "tsne_coordinates": { "x": 26.250686645507812, "y": 23.374692916870117, "z": -9.080063819885254 }, "pca_coordinates": { "x": -4.380939483642578, "y": 0.08624267578125, "z": -1.6000374555587769 }, "axis_scores": { "Quantum imaging": 0.6934942603111267, "Quantum Life Science Sensing": 0.6938649415969849, "Quantum sensing Detection": 0.6652631759643555, "Quantum sensing Metrology": 0.666490375995636, "Quantum sensing navigation": 0.6709485054016113, "Quantum sensing Position": 0.6570813059806824, "Quantum sensing Timing": 0.6460272073745728, "Quantum sensing": 0.6793876886367798, "Quantum control": 0.6763592958450317 } }, { "id": 4572, "title": "Iron sensitizer converts light to electrons with 92% yield", "abstract": "Solar energy conversion in photovoltaics or photocatalysis involves light harvesting, or sensitization, of a semiconductor or catalyst as a first step. Rare elements are frequently used for this purpo...", "citations": 221, "author_count": 17, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4579, "doi": "10.1038/NCHEM.2365", "umap_coordinates": { "x": 392.7629089355469, "y": 135.29452514648438, "z": 205.27798461914062 }, "tsne_coordinates": { "x": 6.999624252319336, "y": 0.32208070158958435, "z": 1.1118770837783813 }, "pca_coordinates": { "x": -2.7259998321533203, "y": -0.902163028717041, "z": -1.6600594520568848 }, "axis_scores": { "Quantum imaging": 0.7280084490776062, "Quantum Life Science Sensing": 0.7584419846534729, "Quantum sensing Detection": 0.7348591685295105, "Quantum sensing Metrology": 0.7033822536468506, "Quantum sensing navigation": 0.7010099291801453, "Quantum sensing Position": 0.6777478456497192, "Quantum sensing Timing": 0.6673687696456909, "Quantum sensing": 0.737049400806427, "Quantum control": 0.7029747366905212 } }, { "id": 4573, "title": "Extracting high fidelity quantum computer hardware from random systems", "abstract": "An overview of current status and prospects of the development of quantum computer hardware based on inorganic crystals doped with rare-earth ions are presented. Major parts of the experimental work i...", "citations": 22, "author_count": 8, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4580, "doi": "10.1088/0031-8949/2009/T137/014009", "umap_coordinates": { "x": 395.36761474609375, "y": 137.19467163085938, "z": 206.9846649169922 }, "tsne_coordinates": { "x": -28.97675132751465, "y": -1.7597440481185913, "z": 1.3859636783599854 }, "pca_coordinates": { "x": 2.6457183361053467, "y": 3.532285213470459, "z": 1.1188468933105469 }, "axis_scores": { "Quantum imaging": 0.7651819586753845, "Quantum Life Science Sensing": 0.7538278698921204, "Quantum sensing Detection": 0.7542551755905151, "Quantum sensing Metrology": 0.732629656791687, "Quantum sensing navigation": 0.7408161163330078, "Quantum sensing Position": 0.7144365310668945, "Quantum sensing Timing": 0.7420409917831421, "Quantum sensing": 0.7705597877502441, "Quantum control": 0.7446759939193726 } }, { "id": 4574, "title": "Quantum dynamics of the O(3P)+CH4→OH+CH3 reaction:: An application of the rotating bond umbrella model and spectral transform subspace iteration", "abstract": "We have applied the rotating bond umbrella (RBU) model to perform time-independent quantum scattering calculations of the O(P-3)+CH4--> OH+CH3 reaction based on a realistic analytic potential energy s...", "citations": 67, "author_count": 3, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4581, "doi": "10.1063/1.480576", "umap_coordinates": { "x": 393.7040100097656, "y": 137.49603271484375, "z": 206.642333984375 }, "tsne_coordinates": { "x": -11.442365646362305, "y": 8.996306419372559, "z": 31.373506546020508 }, "pca_coordinates": { "x": 1.4412319660186768, "y": 2.901637554168701, "z": -2.484407424926758 }, "axis_scores": { "Quantum imaging": 0.7337647676467896, "Quantum Life Science Sensing": 0.742677628993988, "Quantum sensing Detection": 0.7205876708030701, "Quantum sensing Metrology": 0.7160624265670776, "Quantum sensing navigation": 0.7110592722892761, "Quantum sensing Position": 0.6942459344863892, "Quantum sensing Timing": 0.6998562812805176, "Quantum sensing": 0.73456871509552, "Quantum control": 0.7356042861938477 } }, { "id": 4575, "title": "Role of copolymer architecture on adsorption at the solid/liquid interface", "abstract": "The adsorption of monodisperse block copolymers comprising poly(ethylene oxide)-poly(butylene oxide) onto polystyrene latex from aqueous solution has been investigated by small-angle neutron scatterin...", "citations": 22, "author_count": 8, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4582, "doi": "10.1021/la9621426", "umap_coordinates": { "x": 392.6541442871094, "y": 136.0370635986328, "z": 204.4203643798828 }, "tsne_coordinates": { "x": 27.65097999572754, "y": 21.294994354248047, "z": 9.102717399597168 }, "pca_coordinates": { "x": -1.003369688987732, "y": -1.4970030784606934, "z": -2.4485573768615723 }, "axis_scores": { "Quantum imaging": 0.6409934163093567, "Quantum Life Science Sensing": 0.6725739240646362, "Quantum sensing Detection": 0.6347773671150208, "Quantum sensing Metrology": 0.6227310299873352, "Quantum sensing navigation": 0.6390994191169739, "Quantum sensing Position": 0.6632859706878662, "Quantum sensing Timing": 0.6349197030067444, "Quantum sensing": 0.6561687588691711, "Quantum control": 0.6433635354042053 } }, { "id": 4576, "title": "COUPLING OF DENSITY TO CONCENTRATION FLUCTUATIONS IN CONCENTRATED-SOLUTIONS OF POLYSTYRENE IN TOLUENE", "abstract": "In concentrated polystyrene (PS) solutions in toluene, close to the glass transition temperature (T(g)), both concentration (q2 dependent) and density fluctuations (q independent) are simultaneously o...", "citations": 12, "author_count": 3, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 4583, "doi": "10.1063/1.464460", "umap_coordinates": { "x": 394.58502197265625, "y": 135.45779418945312, "z": 208.07754516601562 }, "tsne_coordinates": { "x": -3.4911739826202393, "y": -5.543424129486084, "z": 35.05097579956055 }, "pca_coordinates": { "x": 1.9409842491149902, "y": 0.4265904426574707, "z": 0.30877798795700073 }, "axis_scores": { "Quantum imaging": 0.7143849730491638, "Quantum Life Science Sensing": 0.7261174917221069, "Quantum sensing Detection": 0.7322144508361816, "Quantum sensing Metrology": 0.7269920110702515, "Quantum sensing navigation": 0.7219768762588501, "Quantum sensing Position": 0.7335342168807983, "Quantum sensing Timing": 0.683513879776001, "Quantum sensing": 0.7408329248428345, "Quantum control": 0.7235033512115479 } }, { "id": 4577, "title": "CHK MODEL SIMPLIFIED BY MEANS OF THE CONSTANT-CUTOFF METHOD", "abstract": "We suggest a quantum stabilization method for the SU(2)sigma-model, based on the constant-cutoff limit of the cutoff quantization method developed by Balakrishna, Sanyuk, Schechter and Subbaraman, whi...", "citations": 13, "author_count": 2, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 4584, "doi": "10.1016/0375-9474(93)90247-U", "umap_coordinates": { "x": 393.88385009765625, "y": 137.8134765625, "z": 207.66058349609375 }, "tsne_coordinates": { "x": -16.908859252929688, "y": 33.93669891357422, "z": 11.896705627441406 }, "pca_coordinates": { "x": 0.3711608648300171, "y": 5.64900541305542, "z": -3.3426082134246826 }, "axis_scores": { "Quantum imaging": 0.6281502842903137, "Quantum Life Science Sensing": 0.6521420478820801, "Quantum sensing Detection": 0.6276490688323975, "Quantum sensing Metrology": 0.6183269619941711, "Quantum sensing navigation": 0.6378762125968933, "Quantum sensing Position": 0.6281459927558899, "Quantum sensing Timing": 0.6057289838790894, "Quantum sensing": 0.6428769826889038, "Quantum control": 0.6597212553024292 } }, { "id": 4578, "title": "TIME-RESOLVED FLUORESCENCE PROPERTIES OF FLUORESCEIN AND FLUORESCEIN GLUCURONIDE", "abstract": "The use of fluorescein as a tracer in the study of the blood-ocular barriers is complicated by the metabolic production of fluorescein monoglucuronide, the excitation and fluorescence spectra of which...", "citations": 12, "author_count": 3, "categories": [ "Ophthalmology" ], "year": 1989, "topic": [ "all" ], "embedding_index": 4585, "doi": "10.1016/0014-4835(89)90031-6", "umap_coordinates": { "x": 393.4909362792969, "y": 135.4768524169922, "z": 205.0318603515625 }, "tsne_coordinates": { "x": -1.0124118328094482, "y": 13.847561836242676, "z": 0.29412299394607544 }, "pca_coordinates": { "x": -3.893702268600464, "y": 0.9964742660522461, "z": -1.6059609651565552 }, "axis_scores": { "Quantum imaging": 0.7068161368370056, "Quantum Life Science Sensing": 0.7310197353363037, "Quantum sensing Detection": 0.6717339158058167, "Quantum sensing Metrology": 0.6709977388381958, "Quantum sensing navigation": 0.6828747391700745, "Quantum sensing Position": 0.6687350273132324, "Quantum sensing Timing": 0.6671597361564636, "Quantum sensing": 0.6913816928863525, "Quantum control": 0.656618058681488 } }, { "id": 4579, "title": "Spring photosynthetic recovery of boreal Norway spruce under conditions of elevated [CO2] and air temperature", "abstract": "Accumulated carbon uptake, apparent quantum yield (AQY) and light-saturated net CO2 assimilation (A(sat)) were used to assess the responses of photosynthesis to environmental conditions during spring ...", "citations": 37, "author_count": 7, "categories": [ "Forestry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4586, "doi": "10.1093/treephys/tpt066", "umap_coordinates": { "x": 394.3353271484375, "y": 136.20706176757812, "z": 203.6044921875 }, "tsne_coordinates": { "x": 10.293591499328613, "y": 37.94118881225586, "z": 9.82402515411377 }, "pca_coordinates": { "x": -0.9026933312416077, "y": 0.6334645748138428, "z": -0.8834234476089478 }, "axis_scores": { "Quantum imaging": 0.6417982578277588, "Quantum Life Science Sensing": 0.7020615339279175, "Quantum sensing Detection": 0.6590335965156555, "Quantum sensing Metrology": 0.6497544646263123, "Quantum sensing navigation": 0.6627237200737, "Quantum sensing Position": 0.6574111580848694, "Quantum sensing Timing": 0.689328134059906, "Quantum sensing": 0.6677728295326233, "Quantum control": 0.6306978464126587 } }, { "id": 4580, "title": "Biomass-Derived Carbon Dots: Sustainable Solutions for Advanced Energy Storage Applications", "abstract": "The growing energy demand has underscored the importance of sustainable energy storage devices. Biomass-derived carbon dots (B-Cdots) have gained significant attention for their potential to address t...", "citations": 8, "author_count": 5, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4587, "doi": "10.1002/asia.202500094", "umap_coordinates": { "x": 392.6019592285156, "y": 133.60513305664062, "z": 204.87899780273438 }, "tsne_coordinates": { "x": 20.904638290405273, "y": 14.270934104919434, "z": -6.227062225341797 }, "pca_coordinates": { "x": -3.252861976623535, "y": -2.2159152030944824, "z": -2.0738277435302734 }, "axis_scores": { "Quantum imaging": 0.7075615525245667, "Quantum Life Science Sensing": 0.7416949272155762, "Quantum sensing Detection": 0.7052232623100281, "Quantum sensing Metrology": 0.6971209645271301, "Quantum sensing navigation": 0.6947324275970459, "Quantum sensing Position": 0.6792781352996826, "Quantum sensing Timing": 0.6732020378112793, "Quantum sensing": 0.7210736274719238, "Quantum control": 0.7051272988319397 } }, { "id": 4581, "title": "Silicon photonic microelectromechanical phase shifters for scalable programmable photonics", "abstract": "Programmable photonic integrated circuits are emerging as an attractive platform for applications such as quantum information processing and artificial neural networks. However, current programmable c...", "citations": 76, "author_count": 10, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4588, "doi": "10.1364/OL.436288", "umap_coordinates": { "x": 394.11572265625, "y": 133.710693359375, "z": 206.2637176513672 }, "tsne_coordinates": { "x": 4.729197025299072, "y": 3.5783803462982178, "z": -32.66517639160156 }, "pca_coordinates": { "x": -0.9596841335296631, "y": -0.7107291221618652, "z": 1.975539207458496 }, "axis_scores": { "Quantum imaging": 0.7475648522377014, "Quantum Life Science Sensing": 0.7301863431930542, "Quantum sensing Detection": 0.7260758280754089, "Quantum sensing Metrology": 0.7628682851791382, "Quantum sensing navigation": 0.7460407018661499, "Quantum sensing Position": 0.7266727685928345, "Quantum sensing Timing": 0.7226994037628174, "Quantum sensing": 0.758033812046051, "Quantum control": 0.7424315214157104 } }, { "id": 4582, "title": "TFET inverter static and transient performances in presence of traps and localized strain", "abstract": "This paper investigates the digital circuit-level performance of an inverter realised with n- and p-type tunnel field-effect transistors (TFETs) integrated on the same InAs/Al0.05Ga0.95Sb tech nology ...", "citations": 5, "author_count": 6, "categories": [ "Engineering" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4589, "doi": "10.1016/j.sse.2019.03.051", "umap_coordinates": { "x": 393.3470458984375, "y": 133.8395538330078, "z": 205.71722412109375 }, "tsne_coordinates": { "x": 27.186525344848633, "y": 13.478462219238281, "z": -27.14717674255371 }, "pca_coordinates": { "x": -2.1554102897644043, "y": -1.432856798171997, "z": -0.91551673412323 }, "axis_scores": { "Quantum imaging": 0.6801935434341431, "Quantum Life Science Sensing": 0.7041378617286682, "Quantum sensing Detection": 0.6731687188148499, "Quantum sensing Metrology": 0.661992073059082, "Quantum sensing navigation": 0.669810950756073, "Quantum sensing Position": 0.6858758926391602, "Quantum sensing Timing": 0.6839689612388611, "Quantum sensing": 0.6796294450759888, "Quantum control": 0.6586158871650696 } }, { "id": 4583, "title": "Effect of gelatin/agar bilayer film incorporated with TiO2 nanoparticles as a UV absorbent on fish oil photooxidation", "abstract": "This research evaluated the effect of gelatin/agar bilayer film and nanocomposites containing different concentrations of TiO2 nanoparticles (0.5%, 1% and 2%) as ultraviolet (UV) and oxygen barriers o...", "citations": 29, "author_count": 4, "categories": [ "Food Science & Technology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4590, "doi": "10.1111/ijfs.13461", "umap_coordinates": { "x": 393.6156005859375, "y": 134.55319213867188, "z": 204.6611328125 }, "tsne_coordinates": { "x": 18.69239044189453, "y": 25.443845748901367, "z": 5.941390037536621 }, "pca_coordinates": { "x": -4.242425918579102, "y": -0.1566004753112793, "z": -1.3537555932998657 }, "axis_scores": { "Quantum imaging": 0.7063708901405334, "Quantum Life Science Sensing": 0.724114716053009, "Quantum sensing Detection": 0.691824197769165, "Quantum sensing Metrology": 0.6740760207176208, "Quantum sensing navigation": 0.6648030281066895, "Quantum sensing Position": 0.6493424773216248, "Quantum sensing Timing": 0.6454991102218628, "Quantum sensing": 0.7106626629829407, "Quantum control": 0.6637250781059265 } }, { "id": 4584, "title": "Graphene Oxide: A One- versus Two-Component Material", "abstract": "The structure of graphene oxide (GO) is a matter of discussion. While established GO models are based on functional groups attached to the carbon framework, another frequently used model claims that G...", "citations": 74, "author_count": 9, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4591, "doi": "10.1021/jacs.6b05928", "umap_coordinates": { "x": 392.3991394042969, "y": 135.75306701660156, "z": 206.03269958496094 }, "tsne_coordinates": { "x": 26.873031616210938, "y": -13.740118026733398, "z": -16.834659576416016 }, "pca_coordinates": { "x": -1.618603229522705, "y": -1.093226432800293, "z": -3.2610068321228027 }, "axis_scores": { "Quantum imaging": 0.6617891192436218, "Quantum Life Science Sensing": 0.6939570903778076, "Quantum sensing Detection": 0.6679607629776001, "Quantum sensing Metrology": 0.6511287689208984, "Quantum sensing navigation": 0.6532336473464966, "Quantum sensing Position": 0.6558626294136047, "Quantum sensing Timing": 0.6372864842414856, "Quantum sensing": 0.684410572052002, "Quantum control": 0.6647066473960876 } }, { "id": 4585, "title": "All-Inorganic Perovskite Nanocrystals for High-Efficiency Light Emitting Diodes: Dual-Phase CsPbBr3-CsPb2Br5 Composites", "abstract": "A dual-phase all-inorganic composite CsPbBr3-CsPb2Br5 is developed and applied as the emitting layer in LEDs, which exhibited a maximum luminance of 3853 cd m(-2), with current density (CE) of approxi...", "citations": 487, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4592, "doi": "10.1002/adfm.201600958", "umap_coordinates": { "x": 391.9508972167969, "y": 133.5441131591797, "z": 205.3250274658203 }, "tsne_coordinates": { "x": 24.07256317138672, "y": 1.5049018859863281, "z": -19.816617965698242 }, "pca_coordinates": { "x": -3.8454418182373047, "y": -3.1939306259155273, "z": -1.0304768085479736 }, "axis_scores": { "Quantum imaging": 0.7089536190032959, "Quantum Life Science Sensing": 0.7049147486686707, "Quantum sensing Detection": 0.6908025741577148, "Quantum sensing Metrology": 0.7040107846260071, "Quantum sensing navigation": 0.6718305945396423, "Quantum sensing Position": 0.645620584487915, "Quantum sensing Timing": 0.6587292551994324, "Quantum sensing": 0.7108563780784607, "Quantum control": 0.6838353276252747 } }, { "id": 4586, "title": "Topological insulators with arbitrarily tunable entanglement", "abstract": "We elucidate how Chern and topological insulators fulfill an area law for the entanglement entropy. By explicit construction of a family of lattice Hamiltonians, we are able to demonstrate that the ar...", "citations": 8, "author_count": 4, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4593, "doi": "10.1103/PhysRevB.89.195120", "umap_coordinates": { "x": 395.5648498535156, "y": 136.85009765625, "z": 208.60525512695312 }, "tsne_coordinates": { "x": -19.69324493408203, "y": -11.762651443481445, "z": 10.518231391906738 }, "pca_coordinates": { "x": 5.549770832061768, "y": 0.45741260051727295, "z": 1.4310126304626465 }, "axis_scores": { "Quantum imaging": 0.7213671207427979, "Quantum Life Science Sensing": 0.6973386406898499, "Quantum sensing Detection": 0.7134920954704285, "Quantum sensing Metrology": 0.6935456991195679, "Quantum sensing navigation": 0.7205324172973633, "Quantum sensing Position": 0.6710296869277954, "Quantum sensing Timing": 0.694105327129364, "Quantum sensing": 0.728323221206665, "Quantum control": 0.7135951519012451 } }, { "id": 4587, "title": "Symmetry principles in the nuclear magnetic resonance of spinning solids: Heteronuclear recoupling by generalized Hartmann-Hahn sequences", "abstract": "General symmetry principles for rotor-synchronized pulse sequences in magic-angle spinning solid-state nuclear magnetic resonance are presented. The theory of symmetry-based pulse sequences using pi p...", "citations": 212, "author_count": 3, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4594, "doi": "10.1063/1.1377031", "umap_coordinates": { "x": 393.4310302734375, "y": 136.90505981445312, "z": 207.8449249267578 }, "tsne_coordinates": { "x": 10.091163635253906, "y": -0.3447171449661255, "z": 34.81577682495117 }, "pca_coordinates": { "x": 3.1002726554870605, "y": 1.3546314239501953, "z": -1.8353040218353271 }, "axis_scores": { "Quantum imaging": 0.7012982964515686, "Quantum Life Science Sensing": 0.7139623165130615, "Quantum sensing Detection": 0.6848986148834229, "Quantum sensing Metrology": 0.7104868292808533, "Quantum sensing navigation": 0.7082142233848572, "Quantum sensing Position": 0.6563717126846313, "Quantum sensing Timing": 0.6855308413505554, "Quantum sensing": 0.7097228169441223, "Quantum control": 0.6956939697265625 } }, { "id": 4588, "title": "Transport properties of Tl2Ba2CaCu2O8 weak links on LaAlO3 bicrystal substrates", "abstract": "Josephson junctions and de superconducting quantum interference devices (SQUIDs) have been fabricated in ex situ epitaxial Tl2Ba2CaCu2O8 films on bicrystal LaAlO3 substrates with symmetric 32 degrees ...", "citations": 9, "author_count": 8, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4595, "doi": "10.1063/1.362595", "umap_coordinates": { "x": 393.47564697265625, "y": 135.00668334960938, "z": 208.32821655273438 }, "tsne_coordinates": { "x": 18.806230545043945, "y": -37.874576568603516, "z": 7.422793388366699 }, "pca_coordinates": { "x": 0.7321796417236328, "y": -2.4313430786132812, "z": -0.5714229345321655 }, "axis_scores": { "Quantum imaging": 0.692284107208252, "Quantum Life Science Sensing": 0.6878237128257751, "Quantum sensing Detection": 0.6779038310050964, "Quantum sensing Metrology": 0.6866880655288696, "Quantum sensing navigation": 0.6975054740905762, "Quantum sensing Position": 0.6829254031181335, "Quantum sensing Timing": 0.6687408685684204, "Quantum sensing": 0.7026296257972717, "Quantum control": 0.6853246092796326 } }, { "id": 4589, "title": "Experimental quantum communication complexity - art. no. 050305", "abstract": "We prove that by communicating N-1 times a single qubit, instead of N-1 classical bits, the success probability for solving some N partner communication complexity tasks is strongly enhanced. The supe...", "citations": 43, "author_count": 7, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4596, "doi": "10.1103/PhysRevA.72.050305", "umap_coordinates": { "x": 395.8257751464844, "y": 136.8946533203125, "z": 207.5305938720703 }, "tsne_coordinates": { "x": -27.201040267944336, "y": -10.741353034973145, "z": -1.4172192811965942 }, "pca_coordinates": { "x": 4.872575759887695, "y": 3.124993324279785, "z": 0.9702345728874207 }, "axis_scores": { "Quantum imaging": 0.7807673215866089, "Quantum Life Science Sensing": 0.7720004320144653, "Quantum sensing Detection": 0.7724076509475708, "Quantum sensing Metrology": 0.7646178007125854, "Quantum sensing navigation": 0.77580326795578, "Quantum sensing Position": 0.7572221755981445, "Quantum sensing Timing": 0.7404019236564636, "Quantum sensing": 0.7814949154853821, "Quantum control": 0.7662907838821411 } }, { "id": 4590, "title": "Proposal for nonlocal electron-hole turnstile in the quantum Hall regime", "abstract": "We present a theory for a mesoscopic turnstile that produces spatially separated streams of electrons and holes along edge states in the quantum Hall regime. For a broad range of frequencies in the no...", "citations": 30, "author_count": 3, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4597, "doi": "10.1103/PhysRevB.83.125324", "umap_coordinates": { "x": 394.6788330078125, "y": 136.8455352783203, "z": 209.01344299316406 }, "tsne_coordinates": { "x": -17.904865264892578, "y": -29.345657348632812, "z": 14.43402099609375 }, "pca_coordinates": { "x": 5.183327674865723, "y": -0.03930473327636719, "z": -0.5885801911354065 }, "axis_scores": { "Quantum imaging": 0.6564092636108398, "Quantum Life Science Sensing": 0.6697224378585815, "Quantum sensing Detection": 0.6847696304321289, "Quantum sensing Metrology": 0.6689703464508057, "Quantum sensing navigation": 0.6928613185882568, "Quantum sensing Position": 0.6622529029846191, "Quantum sensing Timing": 0.6435989737510681, "Quantum sensing": 0.6884466409683228, "Quantum control": 0.6690191030502319 } }, { "id": 4591, "title": "Electron and photon performance measurements with the ATLAS detector using the 2015-2017 LHC proton-proton collision data", "abstract": "This paper describes the reconstruction of electrons and photons with the ATLAS detector, employed for measurements and searches exploiting the complete LHC Run 2 dataset. An improved energy clusterin...", "citations": 370, "author_count": 2686, "categories": [ "Instruments & Instrumentation" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4598, "doi": "10.1088/1748-0221/14/12/P12006", "umap_coordinates": { "x": 396.5995788574219, "y": 134.13465881347656, "z": 206.93211364746094 }, "tsne_coordinates": { "x": -30.560253143310547, "y": 18.119312286376953, "z": -9.179607391357422 }, "pca_coordinates": { "x": -0.21104121208190918, "y": 2.0441253185272217, "z": 4.709102153778076 }, "axis_scores": { "Quantum imaging": 0.6992111206054688, "Quantum Life Science Sensing": 0.6827012300491333, "Quantum sensing Detection": 0.682690441608429, "Quantum sensing Metrology": 0.671222984790802, "Quantum sensing navigation": 0.6799101829528809, "Quantum sensing Position": 0.6826700568199158, "Quantum sensing Timing": 0.6937020421028137, "Quantum sensing": 0.6811748147010803, "Quantum control": 0.6501002907752991 } }, { "id": 4592, "title": "Optical characterization of 4H-SiC by variable angle of incidence spectroscopic ellipsometry", "abstract": "A variable angle of incidence spectroscopic ellipsometer equipped with a compensator has been used to determine the dielectric functions in the 0.74 - 6 eV photon energy range of n-type bulk 4H-SiC wi...", "citations": 2, "author_count": 6, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4599, "doi": "10.4028/www.scientific.net/MSF.338-342.575", "umap_coordinates": { "x": 394.83453369140625, "y": 134.90196228027344, "z": 205.9990692138672 }, "tsne_coordinates": { "x": 18.20730209350586, "y": 4.61663293838501, "z": -37.4250373840332 }, "pca_coordinates": { "x": -1.8186960220336914, "y": 1.7108482122421265, "z": 0.06524437665939331 }, "axis_scores": { "Quantum imaging": 0.6685580611228943, "Quantum Life Science Sensing": 0.7142667770385742, "Quantum sensing Detection": 0.6516899466514587, "Quantum sensing Metrology": 0.6812760233879089, "Quantum sensing navigation": 0.6658808588981628, "Quantum sensing Position": 0.6533432602882385, "Quantum sensing Timing": 0.628817081451416, "Quantum sensing": 0.6722944974899292, "Quantum control": 0.6581336855888367 } }, { "id": 4593, "title": "Percolation Theories for Quantum Networks", "abstract": "Quantum networks have experienced rapid advancements in both theoretical and experimental domains over the last decade, making it increasingly important to understand their large-scale features from t...", "citations": 12, "author_count": 8, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4600, "doi": "10.3390/e25111564", "umap_coordinates": { "x": 395.15313720703125, "y": 137.826416015625, "z": 205.98292541503906 }, "tsne_coordinates": { "x": -23.007646560668945, "y": 13.695759773254395, "z": 16.63075065612793 }, "pca_coordinates": { "x": 1.968217372894287, "y": 2.026365041732788, "z": -1.5472323894500732 }, "axis_scores": { "Quantum imaging": 0.7284238338470459, "Quantum Life Science Sensing": 0.740547239780426, "Quantum sensing Detection": 0.7312376499176025, "Quantum sensing Metrology": 0.714878499507904, "Quantum sensing navigation": 0.739063024520874, "Quantum sensing Position": 0.6756772994995117, "Quantum sensing Timing": 0.6957478523254395, "Quantum sensing": 0.7425286769866943, "Quantum control": 0.7296344637870789 } }, { "id": 4594, "title": "Responsivity and Noise Equivalent Power of a Single Cold-Electron Bolometer", "abstract": "We have developed a single-pixel capacitively coupled Cold-Electron Bolometer (CEB) and characterized it in the current-biased regime. The most attractive feature of the CEB is effective electron self...", "citations": 1, "author_count": 3, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4601, "doi": "10.3390/app11104608", "umap_coordinates": { "x": 394.8739929199219, "y": 133.60809326171875, "z": 207.5912322998047 }, "tsne_coordinates": { "x": -14.620511054992676, "y": -3.979337692260742, "z": -37.82395553588867 }, "pca_coordinates": { "x": -1.2017614841461182, "y": -1.0057117938995361, "z": 3.1768875122070312 }, "axis_scores": { "Quantum imaging": 0.6737764477729797, "Quantum Life Science Sensing": 0.7212838530540466, "Quantum sensing Detection": 0.710649311542511, "Quantum sensing Metrology": 0.7052755951881409, "Quantum sensing navigation": 0.6785818338394165, "Quantum sensing Position": 0.665202796459198, "Quantum sensing Timing": 0.6637254953384399, "Quantum sensing": 0.7098159790039062, "Quantum control": 0.6552588939666748 } }, { "id": 4595, "title": "Triplet-triplet annihilation based near infrared to visible molecular photon upconversion", "abstract": "Triplet-triplet annihilation based molecular photon upconversion (TTA-UC) is an exciting research area for a broad range of photonic applications due to its tunable spectral range and possible operati...", "citations": 298, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4602, "doi": "10.1039/d0cs00257g", "umap_coordinates": { "x": 392.5463562011719, "y": 135.11636352539062, "z": 205.99179077148438 }, "tsne_coordinates": { "x": 7.883242130279541, "y": -0.42553165555000305, "z": -14.551286697387695 }, "pca_coordinates": { "x": -1.3846553564071655, "y": -1.774451732635498, "z": 0.28496402502059937 }, "axis_scores": { "Quantum imaging": 0.6955200433731079, "Quantum Life Science Sensing": 0.7264471650123596, "Quantum sensing Detection": 0.7156707048416138, "Quantum sensing Metrology": 0.6830953359603882, "Quantum sensing navigation": 0.6650696992874146, "Quantum sensing Position": 0.6529507637023926, "Quantum sensing Timing": 0.6768404841423035, "Quantum sensing": 0.705440104007721, "Quantum control": 0.6682873368263245 } }, { "id": 4596, "title": "Zebrafish Differentially Process Color across Visual Space to Match Natural Scenes", "abstract": "Animal eyes have evolved to process behaviorally important visual information, but how retinas deal with statistical asymmetries in visual space remains poorly understood. Using hyperspectral imaging ...", "citations": 145, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4603, "doi": "10.1016/j.cub.2018.04.075", "umap_coordinates": { "x": 394.4555969238281, "y": 136.26644897460938, "z": 204.5789337158203 }, "tsne_coordinates": { "x": -10.919541358947754, "y": 26.54064178466797, "z": 19.28093147277832 }, "pca_coordinates": { "x": -2.8544487953186035, "y": 2.8035573959350586, "z": -1.3122613430023193 }, "axis_scores": { "Quantum imaging": 0.7679324150085449, "Quantum Life Science Sensing": 0.7281801104545593, "Quantum sensing Detection": 0.7349876165390015, "Quantum sensing Metrology": 0.7072766423225403, "Quantum sensing navigation": 0.766811728477478, "Quantum sensing Position": 0.7177850604057312, "Quantum sensing Timing": 0.7188587188720703, "Quantum sensing": 0.7531701326370239, "Quantum control": 0.7475125789642334 } }, { "id": 4597, "title": "Carrier conduction in a Si-nanocrystal-based single-electron transistor-I. Effect of gate bias", "abstract": "We have successfully fabricated a single-electron transistor based on undoped Si nanocrystals having radii of approximately 3 nm. Gate voltage oscillation was observed from low temperature to room tem...", "citations": 20, "author_count": 5, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4604, "doi": "10.1006/spmi.2000.0911", "umap_coordinates": { "x": 393.8306884765625, "y": 133.71017456054688, "z": 208.17764282226562 }, "tsne_coordinates": { "x": 11.3074369430542, "y": -30.95730209350586, "z": -12.909957885742188 }, "pca_coordinates": { "x": -0.5563592910766602, "y": -3.380380153656006, "z": 1.6835236549377441 }, "axis_scores": { "Quantum imaging": 0.7098771333694458, "Quantum Life Science Sensing": 0.7035436034202576, "Quantum sensing Detection": 0.7050175666809082, "Quantum sensing Metrology": 0.697070300579071, "Quantum sensing navigation": 0.7020203471183777, "Quantum sensing Position": 0.6911478042602539, "Quantum sensing Timing": 0.6696736216545105, "Quantum sensing": 0.7164133787155151, "Quantum control": 0.6920526027679443 } }, { "id": 4598, "title": "TUNNELING DENSITY OF STATES AND CONDUCTANCE BACKGROUND IN THE PB-BI-O AND CU-O HIGH-TEMPERATURE SUPERCONDUCTORS", "abstract": "Some recent experimental findings concerning the conductance background G(V) in tunneling measurements on Pb-Bi-O and Cu-O high-T(c) superconductors are analysed in the general framework of scattering...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 4605, "doi": "10.1016/0921-4534(92)90482-R", "umap_coordinates": { "x": 393.7951965332031, "y": 135.42266845703125, "z": 207.68548583984375 }, "tsne_coordinates": { "x": 26.275217056274414, "y": -19.130292892456055, "z": 18.90192222595215 }, "pca_coordinates": { "x": 1.7080187797546387, "y": -0.5180654525756836, "z": -0.3017885684967041 }, "axis_scores": { "Quantum imaging": 0.7049216032028198, "Quantum Life Science Sensing": 0.6959764361381531, "Quantum sensing Detection": 0.6952642798423767, "Quantum sensing Metrology": 0.6877515316009521, "Quantum sensing navigation": 0.7071099877357483, "Quantum sensing Position": 0.6861650943756104, "Quantum sensing Timing": 0.6967641711235046, "Quantum sensing": 0.7062894701957703, "Quantum control": 0.6960715055465698 } }, { "id": 4599, "title": "Low-energy calibration of XENON1T with an internal 37Ar source", "abstract": "A low-energy electronic recoil calibration of XENON1T, a dual-phase xenon time projection chamber, with an internal Ar-37 source was performed. This calibration source features a 35-day half-life and ...", "citations": 8, "author_count": 165, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4606, "doi": "10.1140/epjc/s10052-023-11512-z", "umap_coordinates": { "x": 396.3017578125, "y": 134.28260803222656, "z": 206.78701782226562 }, "tsne_coordinates": { "x": -32.95644760131836, "y": 14.742902755737305, "z": -8.780553817749023 }, "pca_coordinates": { "x": -0.43033188581466675, "y": 2.735686779022217, "z": 2.488241195678711 }, "axis_scores": { "Quantum imaging": 0.6655929088592529, "Quantum Life Science Sensing": 0.6691346168518066, "Quantum sensing Detection": 0.6596405506134033, "Quantum sensing Metrology": 0.6492565870285034, "Quantum sensing navigation": 0.6689250469207764, "Quantum sensing Position": 0.6636537313461304, "Quantum sensing Timing": 0.6858493685722351, "Quantum sensing": 0.6623243093490601, "Quantum control": 0.6531399488449097 } }, { "id": 4600, "title": "Identification of Thioflavin T Binding Modes to DNA: A Structure-Specific Molecular Probe for Lasing Applications", "abstract": "The binding mechanism of thioflavin T (ThT) to DNA was studied using polarized light spectroscopy and fluorescence-based techniques in solutions and in solid films. Linear dichroism measurements showe...", "citations": 34, "author_count": 5, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4607, "doi": "10.1021/acs.jpclett.1c01254", "umap_coordinates": { "x": 392.3174133300781, "y": 136.075927734375, "z": 204.67410278320312 }, "tsne_coordinates": { "x": 5.3637919425964355, "y": 4.75937032699585, "z": -17.972684860229492 }, "pca_coordinates": { "x": -3.053818702697754, "y": -1.20310640335083, "z": -1.2535617351531982 }, "axis_scores": { "Quantum imaging": 0.6986383199691772, "Quantum Life Science Sensing": 0.7297659516334534, "Quantum sensing Detection": 0.703014612197876, "Quantum sensing Metrology": 0.675178050994873, "Quantum sensing navigation": 0.7030739188194275, "Quantum sensing Position": 0.6811611652374268, "Quantum sensing Timing": 0.6775273084640503, "Quantum sensing": 0.7075409293174744, "Quantum control": 0.6815311908721924 } }, { "id": 4601, "title": "Communication: Visualization and spectroscopy of defects induced by dehydrogenation in individual silicon nanocrystals", "abstract": "We present results of a scanning tunneling spectroscopy (STS) study of the impact of dehydrogenation on the electronic structures of hydrogen-passivated silicon nanocrystals (SiNCs) supported on the A...", "citations": 4, "author_count": 13, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4608, "doi": "10.1063/1.4954833", "umap_coordinates": { "x": 393.2752990722656, "y": 133.33335876464844, "z": 207.81788635253906 }, "tsne_coordinates": { "x": 25.45261001586914, "y": -17.310401916503906, "z": -11.871501922607422 }, "pca_coordinates": { "x": 0.2727828025817871, "y": -2.3521227836608887, "z": 0.43579357862472534 }, "axis_scores": { "Quantum imaging": 0.745450496673584, "Quantum Life Science Sensing": 0.7573524117469788, "Quantum sensing Detection": 0.7544361352920532, "Quantum sensing Metrology": 0.7336366176605225, "Quantum sensing navigation": 0.7164755463600159, "Quantum sensing Position": 0.7035001516342163, "Quantum sensing Timing": 0.690582811832428, "Quantum sensing": 0.7570570707321167, "Quantum control": 0.6970174908638 } }, { "id": 4602, "title": "Engineering Nanomaterial Surfaces for Biomedical Applications", "abstract": "Nanomaterials, possessing unique physical and chemical properties, have attracted much interest and generated wide varieties of applications. Recent investigations of functionalized nanomaterials have...", "citations": 125, "author_count": 5, "categories": [ "Research & Experimental Medicine" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4609, "doi": "10.3181/0904-MR-134", "umap_coordinates": { "x": 394.3370361328125, "y": 134.20681762695312, "z": 204.2952423095703 }, "tsne_coordinates": { "x": 20.16533088684082, "y": 28.207094192504883, "z": -4.778148651123047 }, "pca_coordinates": { "x": -2.894357204437256, "y": 2.1132588386535645, "z": -0.19147655367851257 }, "axis_scores": { "Quantum imaging": 0.6927458047866821, "Quantum Life Science Sensing": 0.7335855960845947, "Quantum sensing Detection": 0.6729755997657776, "Quantum sensing Metrology": 0.698451817035675, "Quantum sensing navigation": 0.6651492118835449, "Quantum sensing Position": 0.6637680530548096, "Quantum sensing Timing": 0.6354399919509888, "Quantum sensing": 0.6874575018882751, "Quantum control": 0.647003173828125 } }, { "id": 4603, "title": "Transport in metallic multi-island Coulomb blockade systems: A systematic perturbative expansion in the junction transparency", "abstract": "We study electronic transport through metallic multi-island Coulomb-blockade systems. Based on a diagrammatic real-time approach, we develop a computer algorithm that generates and calculates all tran...", "citations": 6, "author_count": 4, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4610, "doi": "10.1103/PhysRevB.73.165316", "umap_coordinates": { "x": 394.1348571777344, "y": 135.3560333251953, "z": 208.8927764892578 }, "tsne_coordinates": { "x": -0.9439026713371277, "y": -34.34718704223633, "z": 1.5735580921173096 }, "pca_coordinates": { "x": 3.378901958465576, "y": -2.5073156356811523, "z": 0.5310987830162048 }, "axis_scores": { "Quantum imaging": 0.6955749988555908, "Quantum Life Science Sensing": 0.6815351843833923, "Quantum sensing Detection": 0.6882951259613037, "Quantum sensing Metrology": 0.6723660230636597, "Quantum sensing navigation": 0.7036009430885315, "Quantum sensing Position": 0.6659551858901978, "Quantum sensing Timing": 0.6751008629798889, "Quantum sensing": 0.6911803483963013, "Quantum control": 0.6668283939361572 } }, { "id": 4604, "title": "Multiplication of electronic excitations and prospects for increasing scintillation efficiency in wide-gap crystals", "abstract": "A comparative analysis of the electron-hole (e-h) excitation mechanism of impurity luminescence has been performed for wide-gap oxides (WGO) and alkali halides crystals (AHC). A low quantum yield of s...", "citations": 8, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4611, "doi": "10.1016/j.nima.2004.07.229", "umap_coordinates": { "x": 394.15802001953125, "y": 132.9908447265625, "z": 205.5311279296875 }, "tsne_coordinates": { "x": -19.699621200561523, "y": 19.20457649230957, "z": -13.458828926086426 }, "pca_coordinates": { "x": -0.8044151067733765, "y": -1.2233147621154785, "z": 2.2460601329803467 }, "axis_scores": { "Quantum imaging": 0.7096129059791565, "Quantum Life Science Sensing": 0.7075135707855225, "Quantum sensing Detection": 0.6980433464050293, "Quantum sensing Metrology": 0.7106128334999084, "Quantum sensing navigation": 0.6936821341514587, "Quantum sensing Position": 0.6786870956420898, "Quantum sensing Timing": 0.692061185836792, "Quantum sensing": 0.6978923082351685, "Quantum control": 0.641565203666687 } }, { "id": 4605, "title": "Two-dimensional imaging of flame species using two-photon laser-induced fluorescence", "abstract": "The potential for two-dimensional visualization of combustion species by using two-photon laser-induced fluorescence (LIF) has been investigated. The technique was applied for two-dimensional (2D) ima...", "citations": 37, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 1997, "topic": [ "all" ], "embedding_index": 4612, "doi": "10.1366/0003702971941809", "umap_coordinates": { "x": 394.5514221191406, "y": 134.52137756347656, "z": 205.60874938964844 }, "tsne_coordinates": { "x": 6.821439266204834, "y": 14.152411460876465, "z": -33.363548278808594 }, "pca_coordinates": { "x": -3.269380569458008, "y": 0.652696967124939, "z": 0.9443830847740173 }, "axis_scores": { "Quantum imaging": 0.7386366128921509, "Quantum Life Science Sensing": 0.709932267665863, "Quantum sensing Detection": 0.7016788721084595, "Quantum sensing Metrology": 0.6802051067352295, "Quantum sensing navigation": 0.6901384592056274, "Quantum sensing Position": 0.6753429174423218, "Quantum sensing Timing": 0.6636815667152405, "Quantum sensing": 0.7078275084495544, "Quantum control": 0.6655576229095459 } }, { "id": 4606, "title": "ULTRA-LOW-NOISE 100 GHZ RECEIVER BASED ON PARALLEL BIASED SIS ARRAYS", "abstract": "The possibility of overcoming the main drawbacks of the traditional series arrays by using a parallel connection of sis junctions for DC and IF current has been experimentally demonstrated in full hei...", "citations": 12, "author_count": 7, "categories": [ "Physics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 4613, "doi": "10.1088/0953-2048/4/9/006", "umap_coordinates": { "x": 395.10150146484375, "y": 134.20599365234375, "z": 206.81207275390625 }, "tsne_coordinates": { "x": -16.244943618774414, "y": -3.6261868476867676, "z": -29.255643844604492 }, "pca_coordinates": { "x": 0.011509895324707031, "y": 0.4697725772857666, "z": 4.8329997062683105 }, "axis_scores": { "Quantum imaging": 0.693099319934845, "Quantum Life Science Sensing": 0.6980187296867371, "Quantum sensing Detection": 0.697880744934082, "Quantum sensing Metrology": 0.6807628870010376, "Quantum sensing navigation": 0.704519510269165, "Quantum sensing Position": 0.7032071352005005, "Quantum sensing Timing": 0.6967222094535828, "Quantum sensing": 0.7004995346069336, "Quantum control": 0.6421006321907043 } }, { "id": 4607, "title": "In-Situ Self-Encapsulated Tin-Halide Perovskites for Air-Functional Near-Infrared Light-Emitting Diodes", "abstract": "Tin-halide perovskites are emerging as exceptional materials for near-infrared light-emitting diodes (NIR-LEDs). However, their extreme oxygen sensitivity remains a significant obstacle to practical a...", "citations": 3, "author_count": 13, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4614, "doi": "10.1021/acsenergylett.5c01017", "umap_coordinates": { "x": 391.55133056640625, "y": 133.65170288085938, "z": 205.68016052246094 }, "tsne_coordinates": { "x": 19.264436721801758, "y": -5.150412082672119, "z": -20.99265480041504 }, "pca_coordinates": { "x": -2.2748734951019287, "y": -4.471011638641357, "z": -0.9663334488868713 }, "axis_scores": { "Quantum imaging": 0.6576329469680786, "Quantum Life Science Sensing": 0.6833256483078003, "Quantum sensing Detection": 0.6435460448265076, "Quantum sensing Metrology": 0.6430455446243286, "Quantum sensing navigation": 0.6445716619491577, "Quantum sensing Position": 0.6350117921829224, "Quantum sensing Timing": 0.6308251023292542, "Quantum sensing": 0.6595876812934875, "Quantum control": 0.6284492611885071 } }, { "id": 4608, "title": "First-principles computational methods for quantum defects in two-dimensional materials: A perspective", "abstract": "Quantum defects are atomic defects in materials that provide resources to construct quantum information devices such as single-photon emitters and spin qubits. Recently, two-dimensional (2D) materials...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4615, "doi": "10.1063/5.0230736", "umap_coordinates": { "x": 393.4212646484375, "y": 136.4566650390625, "z": 206.8869171142578 }, "tsne_coordinates": { "x": 5.173544406890869, "y": -9.369059562683105, "z": 6.586847305297852 }, "pca_coordinates": { "x": 1.386265754699707, "y": -1.6386103630065918, "z": -0.7306673526763916 }, "axis_scores": { "Quantum imaging": 0.7404323816299438, "Quantum Life Science Sensing": 0.7313406467437744, "Quantum sensing Detection": 0.7282739877700806, "Quantum sensing Metrology": 0.7149393558502197, "Quantum sensing navigation": 0.7181940674781799, "Quantum sensing Position": 0.7005758285522461, "Quantum sensing Timing": 0.7030022740364075, "Quantum sensing": 0.7400165796279907, "Quantum control": 0.7073585987091064 } }, { "id": 4609, "title": "Entanglement of Observables: Quantum Conditional Probability Approach", "abstract": "This paper is devoted to clarification of the notion of entanglement through decoupling it from the tensor product structure and treating as a constraint posed by probabilistic dependence of quantum o...", "citations": 8, "author_count": 3, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4616, "doi": "10.1007/s10701-023-00725-7", "umap_coordinates": { "x": 395.34600830078125, "y": 137.11123657226562, "z": 206.3063201904297 }, "tsne_coordinates": { "x": -25.67738914489746, "y": 0.11849615722894669, "z": 12.936437606811523 }, "pca_coordinates": { "x": 1.5032367706298828, "y": 3.401569366455078, "z": 1.0628204345703125 }, "axis_scores": { "Quantum imaging": 0.7641071081161499, "Quantum Life Science Sensing": 0.7487672567367554, "Quantum sensing Detection": 0.775499701499939, "Quantum sensing Metrology": 0.7464081048965454, "Quantum sensing navigation": 0.7778179049491882, "Quantum sensing Position": 0.7543001174926758, "Quantum sensing Timing": 0.7397525310516357, "Quantum sensing": 0.7809615135192871, "Quantum control": 0.7664121389389038 } }, { "id": 4610, "title": "Photoinhibition or photoprotection of photosynthesis? Update on the (newly termed) sustained quenching component qH", "abstract": "Non-photochemical quenching (NPQ) of chlorophyll fluorescence is a valuable feature for the study of photosynthetic organisms' light utilization and dissipation. However, all too often NPQ is simply e...", "citations": 151, "author_count": 2, "categories": [ "Plant Sciences" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4617, "doi": "10.1016/j.envexpbot.2018.05.005", "umap_coordinates": { "x": 394.0341491699219, "y": 136.3490447998047, "z": 203.63734436035156 }, "tsne_coordinates": { "x": 9.186524391174316, "y": 28.47035789489746, "z": 5.320839881896973 }, "pca_coordinates": { "x": -3.5616650581359863, "y": 2.0466411113739014, "z": -2.511786460876465 }, "axis_scores": { "Quantum imaging": 0.6820687055587769, "Quantum Life Science Sensing": 0.736614465713501, "Quantum sensing Detection": 0.6877879500389099, "Quantum sensing Metrology": 0.6768656373023987, "Quantum sensing navigation": 0.6734517216682434, "Quantum sensing Position": 0.6623726487159729, "Quantum sensing Timing": 0.6444080471992493, "Quantum sensing": 0.6983393430709839, "Quantum control": 0.6853699088096619 } }, { "id": 4611, "title": "Glyconanomaterials for biosensing applications", "abstract": "Nanomaterials constitute a class of structures that have unique physiochemical properties and are excellent scaffolds for presenting carbohydrates, important biomolecules that mediate a wide variety o...", "citations": 45, "author_count": 5, "categories": [ "Biophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4618, "doi": "10.1016/j.bios.2015.07.031", "umap_coordinates": { "x": 393.5026550292969, "y": 133.88992309570312, "z": 204.250244140625 }, "tsne_coordinates": { "x": 20.123916625976562, "y": 25.132747650146484, "z": -8.375643730163574 }, "pca_coordinates": { "x": -4.5810465812683105, "y": -0.5557644367218018, "z": -0.7797507047653198 }, "axis_scores": { "Quantum imaging": 0.7210454940795898, "Quantum Life Science Sensing": 0.7691752314567566, "Quantum sensing Detection": 0.7300330400466919, "Quantum sensing Metrology": 0.7496179938316345, "Quantum sensing navigation": 0.721407413482666, "Quantum sensing Position": 0.7108214497566223, "Quantum sensing Timing": 0.6782510876655579, "Quantum sensing": 0.7423741817474365, "Quantum control": 0.6960851550102234 } }, { "id": 4612, "title": "Energy level alignment in TiO2/metal sulfide/polymer interfaces for solar cell applications", "abstract": "Semiconductor sensitized solar cell interfaces have been studied with photoelectron spectroscopy to understand the interfacial electronic structures. In particular, the experimental energy level align...", "citations": 11, "author_count": 8, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4619, "doi": "10.1039/c4cp01581a", "umap_coordinates": { "x": 391.72735595703125, "y": 134.34327697753906, "z": 206.00262451171875 }, "tsne_coordinates": { "x": 18.74216651916504, "y": -3.2611794471740723, "z": -12.712531089782715 }, "pca_coordinates": { "x": -1.2812002897262573, "y": -3.6837377548217773, "z": -1.2342331409454346 }, "axis_scores": { "Quantum imaging": 0.6816902160644531, "Quantum Life Science Sensing": 0.7000387907028198, "Quantum sensing Detection": 0.6771496534347534, "Quantum sensing Metrology": 0.676519513130188, "Quantum sensing navigation": 0.67801433801651, "Quantum sensing Position": 0.706605851650238, "Quantum sensing Timing": 0.6797536611557007, "Quantum sensing": 0.6826228499412537, "Quantum control": 0.6581801176071167 } }, { "id": 4613, "title": "Mechanistic Insight into the Structure and Dynamics of Entangled and Hydrated λ-Phage DNA", "abstract": "Intrinsic dynamics of DNA plays a crucial role in DNA protein interactions and has been emphasized as a possible key component for in vivo chromatin organization. We have prepared an entangled DNA mic...", "citations": 5, "author_count": 10, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4620, "doi": "10.1021/jp2108363", "umap_coordinates": { "x": 392.64373779296875, "y": 136.8526153564453, "z": 205.31979370117188 }, "tsne_coordinates": { "x": 11.056863784790039, "y": 11.669699668884277, "z": 21.415706634521484 }, "pca_coordinates": { "x": 1.6460344791412354, "y": 0.31247615814208984, "z": -1.8584353923797607 }, "axis_scores": { "Quantum imaging": 0.7406754493713379, "Quantum Life Science Sensing": 0.7380409240722656, "Quantum sensing Detection": 0.7167714238166809, "Quantum sensing Metrology": 0.6835871934890747, "Quantum sensing navigation": 0.7384599447250366, "Quantum sensing Position": 0.6966865658760071, "Quantum sensing Timing": 0.6723343729972839, "Quantum sensing": 0.7326409220695496, "Quantum control": 0.7070566415786743 } }, { "id": 4614, "title": "Highly efficient fluorescence of a fluorescing nanoparticle with a silver shell", "abstract": "Spontaneous emission (SE) rate and the fluorescence efficiency of a bare fluorescing nanoparticle and the nanoparticle with a silver nanoshell are analyzed rigorously by using a classical electromagne...", "citations": 15, "author_count": 5, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4621, "doi": "10.1364/OE.15.007083", "umap_coordinates": { "x": 393.5115966796875, "y": 133.5248565673828, "z": 205.5835723876953 }, "tsne_coordinates": { "x": 10.440319061279297, "y": 17.109201431274414, "z": -25.68136215209961 }, "pca_coordinates": { "x": -3.684062957763672, "y": -2.121424674987793, "z": 1.2876977920532227 }, "axis_scores": { "Quantum imaging": 0.722262442111969, "Quantum Life Science Sensing": 0.6833908557891846, "Quantum sensing Detection": 0.6962227821350098, "Quantum sensing Metrology": 0.6693961024284363, "Quantum sensing navigation": 0.6832261681556702, "Quantum sensing Position": 0.654651403427124, "Quantum sensing Timing": 0.6500542163848877, "Quantum sensing": 0.7034962773323059, "Quantum control": 0.6702695488929749 } }, { "id": 4615, "title": "Combining magneto-hydrostatic constraints with Stokes profiles inversions III. Uncertainty in the inference of electric currents", "abstract": "Context. Electric currents play an important role in the energy balance of the plasma in the solar atmosphere. They are also indicative of non-potential magnetic fields and magnetic reconnection. Unfo...", "citations": 5, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4622, "doi": "10.1051/0004-6361/202244716", "umap_coordinates": { "x": 394.0591125488281, "y": 136.32656860351562, "z": 206.50357055664062 }, "tsne_coordinates": { "x": -9.660944938659668, "y": -1.4009101390838623, "z": 41.53382110595703 }, "pca_coordinates": { "x": -0.050521254539489746, "y": 1.4093343019485474, "z": 0.10152530670166016 }, "axis_scores": { "Quantum imaging": 0.6868001222610474, "Quantum Life Science Sensing": 0.6799721121788025, "Quantum sensing Detection": 0.6681105494499207, "Quantum sensing Metrology": 0.6850325465202332, "Quantum sensing navigation": 0.7117218375205994, "Quantum sensing Position": 0.6707233786582947, "Quantum sensing Timing": 0.6511720418930054, "Quantum sensing": 0.6863003373146057, "Quantum control": 0.668387234210968 } }, { "id": 4616, "title": "Pulsed electron spin resonance of an organic microcrystal by dispersive readout", "abstract": "We establish a testbed system for the development of high-sensitivity Electron Spin Resonance (ESR) techniques for small samples at cryogenic temperatures. Our system consists of a NbN thin-film plana...", "citations": 6, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4623, "doi": "10.1016/j.jmr.2020.106853", "umap_coordinates": { "x": 392.9625244140625, "y": 135.29615783691406, "z": 206.14437866210938 }, "tsne_coordinates": { "x": 14.465045928955078, "y": 6.637105464935303, "z": 36.467716217041016 }, "pca_coordinates": { "x": -2.079873561859131, "y": -1.2476527690887451, "z": 0.30083268880844116 }, "axis_scores": { "Quantum imaging": 0.7297658324241638, "Quantum Life Science Sensing": 0.7266443371772766, "Quantum sensing Detection": 0.7179358005523682, "Quantum sensing Metrology": 0.7074032425880432, "Quantum sensing navigation": 0.7052984237670898, "Quantum sensing Position": 0.7093066573143005, "Quantum sensing Timing": 0.6816821098327637, "Quantum sensing": 0.7233361601829529, "Quantum control": 0.6804502010345459 } }, { "id": 4617, "title": "Generalization properties of neural network approximations to frustrated magnet ground states", "abstract": "Neural quantum states (NQS) attract a lot of attention due to their potential to serve as a very expressive variational ansatz for quantum many-body systems. Here we study the main factors governing t...", "citations": 102, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4624, "doi": "10.1038/s41467-020-15402-w", "umap_coordinates": { "x": 393.06109619140625, "y": 136.3307342529297, "z": 207.76953125 }, "tsne_coordinates": { "x": 11.560189247131348, "y": -15.089249610900879, "z": 29.082286834716797 }, "pca_coordinates": { "x": 1.20072340965271, "y": 0.6704068183898926, "z": -2.154472827911377 }, "axis_scores": { "Quantum imaging": 0.684931218624115, "Quantum Life Science Sensing": 0.6815875172615051, "Quantum sensing Detection": 0.6716495752334595, "Quantum sensing Metrology": 0.6696476340293884, "Quantum sensing navigation": 0.6990638971328735, "Quantum sensing Position": 0.6737465262413025, "Quantum sensing Timing": 0.6497156620025635, "Quantum sensing": 0.6867247819900513, "Quantum control": 0.667834460735321 } }, { "id": 4618, "title": "Effect of Ring Strain on the Charge Transport of a Robust Norbornadiene-Quadricyclane-Based Molecular Photoswitch", "abstract": "Integrating functional molecules into single-molecule devices is a key step toward the realization of future computing machines based on the smallest possible components. In this context, photoswitchi...", "citations": 53, "author_count": 8, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4625, "doi": "10.1021/acs.jpcc.7b00319", "umap_coordinates": { "x": 391.902587890625, "y": 135.63998413085938, "z": 205.5692138671875 }, "tsne_coordinates": { "x": 3.3791847229003906, "y": -1.4313424825668335, "z": -4.177402973175049 }, "pca_coordinates": { "x": -1.7510818243026733, "y": -2.3130931854248047, "z": -1.5786051750183105 }, "axis_scores": { "Quantum imaging": 0.7296937108039856, "Quantum Life Science Sensing": 0.7300862073898315, "Quantum sensing Detection": 0.7128627300262451, "Quantum sensing Metrology": 0.6866816282272339, "Quantum sensing navigation": 0.7034183144569397, "Quantum sensing Position": 0.7070460915565491, "Quantum sensing Timing": 0.6927218437194824, "Quantum sensing": 0.7312697768211365, "Quantum control": 0.7411146759986877 } }, { "id": 4619, "title": "Effective bias and potentials in steady-state quantum transport: A NEGF reverse-engineering study", "abstract": "Using non-equilibrium Green's functions combined with many-body perturbation theory, we have calculated steady-state densities and currents through short interacting chains subject to a finite electri...", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4626, "doi": "10.1088/1742-6596/696/1/012018", "umap_coordinates": { "x": 393.8719787597656, "y": 135.2199249267578, "z": 207.51646423339844 }, "tsne_coordinates": { "x": 27.436969757080078, "y": -16.563369750976562, "z": 18.876859664916992 }, "pca_coordinates": { "x": 0.6612529754638672, "y": -0.34049415588378906, "z": -0.8366839289665222 }, "axis_scores": { "Quantum imaging": 0.6984061002731323, "Quantum Life Science Sensing": 0.7100349068641663, "Quantum sensing Detection": 0.6749972701072693, "Quantum sensing Metrology": 0.6731705665588379, "Quantum sensing navigation": 0.7086061239242554, "Quantum sensing Position": 0.6862571239471436, "Quantum sensing Timing": 0.6604111790657043, "Quantum sensing": 0.6901745200157166, "Quantum control": 0.679307222366333 } }, { "id": 4620, "title": "Density-matrix theory of the optical dynamics and transport in quantum cascade structures: The role of coherence", "abstract": "The impact of coherence on the nonlinear optical response and stationary transport is studied in quantum cascade laser structures. Nonequilibrium effects such as the pump-probe signals, the spatiotemp...", "citations": 58, "author_count": 4, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4627, "doi": "10.1103/PhysRevB.79.165322", "umap_coordinates": { "x": 394.77093505859375, "y": 136.1936798095703, "z": 208.74710083007812 }, "tsne_coordinates": { "x": -8.292648315429688, "y": -18.195674896240234, "z": -0.3999365568161011 }, "pca_coordinates": { "x": 4.843653678894043, "y": 0.2984809875488281, "z": -0.5163044929504395 }, "axis_scores": { "Quantum imaging": 0.7644211649894714, "Quantum Life Science Sensing": 0.7539533972740173, "Quantum sensing Detection": 0.755549967288971, "Quantum sensing Metrology": 0.7357065677642822, "Quantum sensing navigation": 0.7597216963768005, "Quantum sensing Position": 0.717795729637146, "Quantum sensing Timing": 0.7086411714553833, "Quantum sensing": 0.7586023807525635, "Quantum control": 0.7615512013435364 } }, { "id": 4621, "title": "Evidence for high-temperature ferromagnetism in photolyzed C60 - art. no. 033403", "abstract": "C-60 transforms to a polymeric phase where the C-60 molecules are bonded to form a chain structure when it is subjected to ultraviolet radiation at ambient temperature in the absence of oxygen. The el...", "citations": 33, "author_count": 5, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4628, "doi": "10.1103/PhysRevB.69.033403", "umap_coordinates": { "x": 394.78472900390625, "y": 135.7296905517578, "z": 209.0746612548828 }, "tsne_coordinates": { "x": 3.044219493865967, "y": -34.81690979003906, "z": 14.535123825073242 }, "pca_coordinates": { "x": 2.7539219856262207, "y": -0.28627896308898926, "z": -1.4606688022613525 }, "axis_scores": { "Quantum imaging": 0.6889067888259888, "Quantum Life Science Sensing": 0.7308735847473145, "Quantum sensing Detection": 0.6890658140182495, "Quantum sensing Metrology": 0.679349422454834, "Quantum sensing navigation": 0.6710588335990906, "Quantum sensing Position": 0.6653358340263367, "Quantum sensing Timing": 0.671544075012207, "Quantum sensing": 0.6964776515960693, "Quantum control": 0.6566465497016907 } }, { "id": 4622, "title": "A FAST AND COMPACT SOLID RADIATOR RICH COUNTER", "abstract": "The performance of NaF as Cherenkov radiator in a RICH counter has been studied. This detector is less than 8 cm thick and represents 10% of a radiation length. It uses TMAE as photosensitive compound...", "citations": 4, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 1991, "topic": [ "all" ], "embedding_index": 4629, "doi": "10.1016/0168-9002(91)91014-M", "umap_coordinates": { "x": 395.2401123046875, "y": 134.2983856201172, "z": 206.02560424804688 }, "tsne_coordinates": { "x": -19.67523193359375, "y": 16.5822811126709, "z": -22.74540138244629 }, "pca_coordinates": { "x": -1.5512243509292603, "y": 2.3364734649658203, "z": 0.7810742259025574 }, "axis_scores": { "Quantum imaging": 0.6354262828826904, "Quantum Life Science Sensing": 0.6660805940628052, "Quantum sensing Detection": 0.6470776200294495, "Quantum sensing Metrology": 0.654427707195282, "Quantum sensing navigation": 0.6564792990684509, "Quantum sensing Position": 0.6498268842697144, "Quantum sensing Timing": 0.6548874974250793, "Quantum sensing": 0.6627761721611023, "Quantum control": 0.6214590668678284 } }, { "id": 4623, "title": "NbTiN thin films for superconducting photon detectors on photonic and two-dimensional materials", "abstract": "Integration of superconducting devices on photonic platforms opens up a wide range of functionalities and applications. We report on NbTiN thin films deposited on SiO2, Si3N4, GaAs, LiNbO3, and AlN as...", "citations": 38, "author_count": 11, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4630, "doi": "10.1063/1.5143986", "umap_coordinates": { "x": 393.9718322753906, "y": 133.86659240722656, "z": 207.88848876953125 }, "tsne_coordinates": { "x": 18.61125373840332, "y": -33.06908416748047, "z": -11.163411140441895 }, "pca_coordinates": { "x": 0.9710164070129395, "y": -3.304380416870117, "z": 2.3760766983032227 }, "axis_scores": { "Quantum imaging": 0.7363979816436768, "Quantum Life Science Sensing": 0.7275341749191284, "Quantum sensing Detection": 0.746117889881134, "Quantum sensing Metrology": 0.7235510349273682, "Quantum sensing navigation": 0.7281498908996582, "Quantum sensing Position": 0.7053132057189941, "Quantum sensing Timing": 0.7129303216934204, "Quantum sensing": 0.7476023435592651, "Quantum control": 0.6915087699890137 } }, { "id": 4624, "title": "Grain engineering for efficient near-infrared perovskite light-emitting diodes", "abstract": "Metal halide perovskites show promise for next-generation light-emitting diodes, particularly in the near-infrared range, where they outperform organic and quantum-dot counterparts. However, they stil...", "citations": 26, "author_count": 26, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4631, "doi": "10.1038/s41467-024-55075-3", "umap_coordinates": { "x": 392.3477783203125, "y": 133.67445373535156, "z": 205.76560974121094 }, "tsne_coordinates": { "x": 19.515625, "y": -4.187744140625, "z": -23.907411575317383 }, "pca_coordinates": { "x": -3.2545878887176514, "y": -3.135885715484619, "z": -0.5021342635154724 }, "axis_scores": { "Quantum imaging": 0.7202447056770325, "Quantum Life Science Sensing": 0.7239649295806885, "Quantum sensing Detection": 0.6858737468719482, "Quantum sensing Metrology": 0.6952091455459595, "Quantum sensing navigation": 0.6906731128692627, "Quantum sensing Position": 0.6657641530036926, "Quantum sensing Timing": 0.6728717684745789, "Quantum sensing": 0.7144148349761963, "Quantum control": 0.6859616637229919 } }, { "id": 4625, "title": "Competition between ring-puckering and ring-opening excited state reactions exemplified on 5H-furan-2-one and derivatives", "abstract": "The influence of ring-puckering on the light-induced ring-opening dynamics of heterocyclic compounds was studied on the sample 5-membered ring molecules gamma-valerolactone and 5H-furan-2-one using ti...", "citations": 10, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4632, "doi": "10.1063/1.5129366", "umap_coordinates": { "x": 392.7893371582031, "y": 136.34649658203125, "z": 206.1211700439453 }, "tsne_coordinates": { "x": -2.3580515384674072, "y": 6.413379192352295, "z": 10.884413719177246 }, "pca_coordinates": { "x": -0.2760929465293884, "y": 1.5389482975006104, "z": -1.1445969343185425 }, "axis_scores": { "Quantum imaging": 0.7255200147628784, "Quantum Life Science Sensing": 0.7131609320640564, "Quantum sensing Detection": 0.7193621397018433, "Quantum sensing Metrology": 0.7005146741867065, "Quantum sensing navigation": 0.708387017250061, "Quantum sensing Position": 0.689096212387085, "Quantum sensing Timing": 0.6912922263145447, "Quantum sensing": 0.7275546193122864, "Quantum control": 0.7314890027046204 } }, { "id": 4626, "title": "Decoherence benchmarking of superconducting qubits", "abstract": "We benchmark the decoherence of superconducting transmon qubits to examine the temporal stability of energy relaxation, dephasing, and qubit transition frequency. By collecting statistics during measu...", "citations": 289, "author_count": 8, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4633, "doi": "10.1038/s41534-019-0168-5", "umap_coordinates": { "x": 395.10015869140625, "y": 135.74166870117188, "z": 206.7696533203125 }, "tsne_coordinates": { "x": 4.055429458618164, "y": -10.823681831359863, "z": 11.384207725524902 }, "pca_coordinates": { "x": 1.4634835720062256, "y": 0.5131020545959473, "z": 0.5974065661430359 }, "axis_scores": { "Quantum imaging": 0.7597898244857788, "Quantum Life Science Sensing": 0.7511061429977417, "Quantum sensing Detection": 0.7560194730758667, "Quantum sensing Metrology": 0.7481420040130615, "Quantum sensing navigation": 0.7691141366958618, "Quantum sensing Position": 0.7577521800994873, "Quantum sensing Timing": 0.7635827660560608, "Quantum sensing": 0.7665663361549377, "Quantum control": 0.7408648133277893 } }, { "id": 4627, "title": "Nanoparticles for diagnosis and therapy of atherosclerosis and myocardial infarction: evolution toward prospective theranostic approaches", "abstract": "Cardiovascular diseases are the leading cause of death worldwide. Despite preventive efforts, early detection of atherosclerosis, the common pathophysiological mechanism underlying cardiovascular dise...", "citations": 125, "author_count": 12, "categories": [ "Research & Experimental Medicine" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4634, "doi": "10.7150/thno.26284", "umap_coordinates": { "x": 393.95562744140625, "y": 133.96298217773438, "z": 204.18341064453125 }, "tsne_coordinates": { "x": 13.151056289672852, "y": 22.205726623535156, "z": -6.991851329803467 }, "pca_coordinates": { "x": -4.422171592712402, "y": 1.2767794132232666, "z": -0.49714896082878113 }, "axis_scores": { "Quantum imaging": 0.7034847736358643, "Quantum Life Science Sensing": 0.7008928060531616, "Quantum sensing Detection": 0.664150059223175, "Quantum sensing Metrology": 0.6554390788078308, "Quantum sensing navigation": 0.6645030379295349, "Quantum sensing Position": 0.6467188596725464, "Quantum sensing Timing": 0.6696265935897827, "Quantum sensing": 0.6756828427314758, "Quantum control": 0.6697849631309509 } }, { "id": 4628, "title": "High Excitation Intensity Opens a New Trapping Channel in Organic - Inorganic Hybrid Perovskite Nanoparticles", "abstract": "We investigated the excited-state dynamics of CH3NH3PbBr3 perovskite nanoparticles (NPs) and bulk crystals under various excitation intensity regimes using transient absorption spectroscopy. We confir...", "citations": 82, "author_count": 9, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4635, "doi": "10.1021/acsenergylett.6b00352", "umap_coordinates": { "x": 391.70068359375, "y": 133.85182189941406, "z": 205.87315368652344 }, "tsne_coordinates": { "x": 18.692235946655273, "y": -9.282797813415527, "z": -18.302019119262695 }, "pca_coordinates": { "x": -1.773749589920044, "y": -4.866100788116455, "z": 0.2843053340911865 }, "axis_scores": { "Quantum imaging": 0.7217020988464355, "Quantum Life Science Sensing": 0.6859118938446045, "Quantum sensing Detection": 0.6918365359306335, "Quantum sensing Metrology": 0.6640332937240601, "Quantum sensing navigation": 0.6757400035858154, "Quantum sensing Position": 0.6690235733985901, "Quantum sensing Timing": 0.6681537628173828, "Quantum sensing": 0.7003194093704224, "Quantum control": 0.666786253452301 } }, { "id": 4629, "title": "Interference and multiparticle effects in a Mach-Zehnder interferometer with single-particle sources", "abstract": "We investigate a Mach-Zehnder interferometer fed by two time-dependently driven single-particle sources, one of them placed in front of the interferometer, the other in the center of one of the arms. ...", "citations": 20, "author_count": 5, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4636, "doi": "10.1103/PhysRevB.91.115438", "umap_coordinates": { "x": 394.97607421875, "y": 134.67095947265625, "z": 208.38499450683594 }, "tsne_coordinates": { "x": -3.1936428546905518, "y": -25.38668441772461, "z": -8.293615341186523 }, "pca_coordinates": { "x": 3.1141161918640137, "y": -0.20591044425964355, "z": 3.935004711151123 }, "axis_scores": { "Quantum imaging": 0.7234445214271545, "Quantum Life Science Sensing": 0.7076599597930908, "Quantum sensing Detection": 0.721342146396637, "Quantum sensing Metrology": 0.7220876216888428, "Quantum sensing navigation": 0.7160106301307678, "Quantum sensing Position": 0.6928191184997559, "Quantum sensing Timing": 0.6808418035507202, "Quantum sensing": 0.7210341095924377, "Quantum control": 0.686275064945221 } }, { "id": 4630, "title": "VISCOELASTIC PROPERTIES OF DODECYLAMMONIUM CHLORIDE MONOLAYERS", "abstract": "Monolayers of dodecylammonium chloride formed at the solution-air interface at different electrolyte concentrations have been investigated by dynamic surface light scattering. Pronounced maxima in the...", "citations": 9, "author_count": 5, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 4637, "doi": "10.1006/jcis.1995.1162", "umap_coordinates": { "x": 393.5074462890625, "y": 135.20623779296875, "z": 205.23641967773438 }, "tsne_coordinates": { "x": 21.781452178955078, "y": 22.58068084716797, "z": 9.624058723449707 }, "pca_coordinates": { "x": -1.716310977935791, "y": -0.4797487258911133, "z": -2.112541913986206 }, "axis_scores": { "Quantum imaging": 0.6777656078338623, "Quantum Life Science Sensing": 0.7211475968360901, "Quantum sensing Detection": 0.663681149482727, "Quantum sensing Metrology": 0.6546521186828613, "Quantum sensing navigation": 0.6681020259857178, "Quantum sensing Position": 0.6688855290412903, "Quantum sensing Timing": 0.6474519968032837, "Quantum sensing": 0.6838873028755188, "Quantum control": 0.6769388914108276 } }, { "id": 4631, "title": "Advances in Nanotechnology-Based Biosensing of Immunoregulatory Cytokines", "abstract": "Cytokines are a large group of small proteins secreted by immune and non-immune cells in response to external stimuli. Much attention has been given to the application of cytokines' detection in early...", "citations": 23, "author_count": 4, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4638, "doi": "10.3390/bios11100364", "umap_coordinates": { "x": 393.9370422363281, "y": 134.25086975097656, "z": 204.0286865234375 }, "tsne_coordinates": { "x": 17.910423278808594, "y": 27.046009063720703, "z": -6.702531337738037 }, "pca_coordinates": { "x": -3.501903772354126, "y": 0.3835453987121582, "z": -0.1368524432182312 }, "axis_scores": { "Quantum imaging": 0.7112034559249878, "Quantum Life Science Sensing": 0.7532711029052734, "Quantum sensing Detection": 0.7106678485870361, "Quantum sensing Metrology": 0.709726870059967, "Quantum sensing navigation": 0.6977907419204712, "Quantum sensing Position": 0.6897719502449036, "Quantum sensing Timing": 0.6840959787368774, "Quantum sensing": 0.7205424904823303, "Quantum control": 0.6857404708862305 } }, { "id": 4632, "title": "Excellent growth of ZnS shell on Ag2S QDs using a photochemical-microwave irradiation approach and fabrication of their indoor QD thin film solar cells", "abstract": "In this report, a new two pots method using microwave-photochemical approaches was suggested for the fabrication of Ag2S@ZnS core-shells. UV-Vis and photoluminescence spectroscopies clearly proved the...", "citations": 12, "author_count": 5, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4639, "doi": "10.1080/10667857.2018.1503781", "umap_coordinates": { "x": 392.4270935058594, "y": 133.48028564453125, "z": 205.68310546875 }, "tsne_coordinates": { "x": 24.72431182861328, "y": 4.405081272125244, "z": -14.524106979370117 }, "pca_coordinates": { "x": -3.147871255874634, "y": -2.865896224975586, "z": 1.2830421924591064 }, "axis_scores": { "Quantum imaging": 0.676052451133728, "Quantum Life Science Sensing": 0.7090904712677002, "Quantum sensing Detection": 0.6651177406311035, "Quantum sensing Metrology": 0.679584264755249, "Quantum sensing navigation": 0.6724391579627991, "Quantum sensing Position": 0.6454352140426636, "Quantum sensing Timing": 0.6601149439811707, "Quantum sensing": 0.6793614029884338, "Quantum control": 0.6457868814468384 } }, { "id": 4633, "title": "Efficient Device-Independent Entanglement Detection for Multipartite Systems", "abstract": "Entanglement is one of the most studied properties of quantum mechanics for its application in quantum information protocols. Nevertheless, detecting the presence of entanglement in large multipartite...", "citations": 52, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4640, "doi": "10.1103/PhysRevX.7.021042", "umap_coordinates": { "x": 396.2102966308594, "y": 136.2576141357422, "z": 207.5203094482422 }, "tsne_coordinates": { "x": -24.881717681884766, "y": -8.600597381591797, "z": -7.848331928253174 }, "pca_coordinates": { "x": 3.192200183868408, "y": -1.024388313293457, "z": 4.053293228149414 }, "axis_scores": { "Quantum imaging": 0.7441720366477966, "Quantum Life Science Sensing": 0.7172509431838989, "Quantum sensing Detection": 0.7422741055488586, "Quantum sensing Metrology": 0.7113571763038635, "Quantum sensing navigation": 0.7094201445579529, "Quantum sensing Position": 0.6877146363258362, "Quantum sensing Timing": 0.693056583404541, "Quantum sensing": 0.7424044013023376, "Quantum control": 0.6989617347717285 } }, { "id": 4634, "title": "Dynamical Casimir effect in superconducting microwave circuits", "abstract": "We theoretically investigate the dynamical Casimir effect (DCE) in electrical circuits based on superconducting microfabricated waveguides with tunable boundary conditions. We propose implementing a r...", "citations": 181, "author_count": 5, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4641, "doi": "10.1103/PhysRevA.82.052509", "umap_coordinates": { "x": 394.59564208984375, "y": 136.4997100830078, "z": 208.8634490966797 }, "tsne_coordinates": { "x": -13.01889705657959, "y": -23.584440231323242, "z": 11.198674201965332 }, "pca_coordinates": { "x": 5.556662559509277, "y": -0.011261940002441406, "z": -1.4161088466644287 }, "axis_scores": { "Quantum imaging": 0.7041735053062439, "Quantum Life Science Sensing": 0.7187682390213013, "Quantum sensing Detection": 0.7124437689781189, "Quantum sensing Metrology": 0.7029637098312378, "Quantum sensing navigation": 0.7221862077713013, "Quantum sensing Position": 0.694463312625885, "Quantum sensing Timing": 0.701207160949707, "Quantum sensing": 0.714664101600647, "Quantum control": 0.7133687734603882 } }, { "id": 4635, "title": "SPIN KINETIC THEORY-QUANTUM KINETIC THEORY IN EXTENDED PHASE SPACE", "abstract": "The concept of phase space distribution functions and their evolution is used in the case of en enlarged phase space. In particular, we include the intrinsic spin of particles and present a quantum ki...", "citations": 11, "author_count": 4, "categories": [ "Mathematics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4642, "doi": "10.1080/00411450.2011.566502", "umap_coordinates": { "x": 394.5055236816406, "y": 136.7438507080078, "z": 206.4525909423828 }, "tsne_coordinates": { "x": -24.19168472290039, "y": 0.837990939617157, "z": 23.520418167114258 }, "pca_coordinates": { "x": 2.2586116790771484, "y": 2.256108283996582, "z": -1.1494872570037842 }, "axis_scores": { "Quantum imaging": 0.7351213693618774, "Quantum Life Science Sensing": 0.7368173003196716, "Quantum sensing Detection": 0.7154225707054138, "Quantum sensing Metrology": 0.7017843723297119, "Quantum sensing navigation": 0.7472237348556519, "Quantum sensing Position": 0.7205767631530762, "Quantum sensing Timing": 0.7171688675880432, "Quantum sensing": 0.7345886826515198, "Quantum control": 0.7285972833633423 } }, { "id": 4636, "title": "Photoinduced electron transfer via nonbuttressed metal-metal bonds.: The photochemical study of binuclear complexes with platinum-thallium bonds", "abstract": "The photochemistry of binuclear metal-metal bonded complexes [(NC)(5)Pt-Tl(solv)(x)] (solv is water or dimethylsulfoxide) has been studied in aqueous and dimethylsulfoxide solutions. Both stationary a...", "citations": 3, "author_count": 6, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4643, "doi": "10.1021/jp7121278", "umap_coordinates": { "x": 391.7634582519531, "y": 135.8882293701172, "z": 205.3504638671875 }, "tsne_coordinates": { "x": 6.394028663635254, "y": -7.0524468421936035, "z": -14.65749454498291 }, "pca_coordinates": { "x": -1.8204643726348877, "y": -1.2124955654144287, "z": -1.5869240760803223 }, "axis_scores": { "Quantum imaging": 0.6573476791381836, "Quantum Life Science Sensing": 0.6685777306556702, "Quantum sensing Detection": 0.6585073471069336, "Quantum sensing Metrology": 0.6371138095855713, "Quantum sensing navigation": 0.6246344447135925, "Quantum sensing Position": 0.6336972713470459, "Quantum sensing Timing": 0.6370604038238525, "Quantum sensing": 0.660895586013794, "Quantum control": 0.6298620700836182 } }, { "id": 4637, "title": "Finding the ground state of a lattice gauge theory with fermionic tensor networks: A 2+1D Z2 demonstration", "abstract": "Tensor network states, and in particular projected entangled pair states (PEPS) have been a strong ansatz for the variational study of complicated quantum many-body systems, thanks to their built-in e...", "citations": 20, "author_count": 7, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4644, "doi": "10.1103/PhysRevD.107.014505", "umap_coordinates": { "x": 394.5789489746094, "y": 136.7156982421875, "z": 207.7436065673828 }, "tsne_coordinates": { "x": -18.73305320739746, "y": -27.555191040039062, "z": 21.241395950317383 }, "pca_coordinates": { "x": 2.3882575035095215, "y": -0.03679537773132324, "z": -0.04832583665847778 }, "axis_scores": { "Quantum imaging": 0.721634030342102, "Quantum Life Science Sensing": 0.7009278535842896, "Quantum sensing Detection": 0.7159702777862549, "Quantum sensing Metrology": 0.7094683647155762, "Quantum sensing navigation": 0.7406707406044006, "Quantum sensing Position": 0.70415198802948, "Quantum sensing Timing": 0.7047576904296875, "Quantum sensing": 0.721416175365448, "Quantum control": 0.718035101890564 } }, { "id": 4638, "title": "Optimal control of hybrid optomechanical systems for generating non-classical states of mechanical motion", "abstract": "Cavity optomechanical systems are one of the leading experimental platforms for controlling mechanical motion in the quantum regime. We exemplify that the control over cavity optomechanical systems gr...", "citations": 31, "author_count": 5, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4645, "doi": "10.1088/2058-9565/ab1682", "umap_coordinates": { "x": 395.4101257324219, "y": 136.96875, "z": 207.00860595703125 }, "tsne_coordinates": { "x": -32.31716537475586, "y": -8.731108665466309, "z": -6.481478214263916 }, "pca_coordinates": { "x": 2.414212465286255, "y": 2.843205213546753, "z": 0.17101538181304932 }, "axis_scores": { "Quantum imaging": 0.7154951691627502, "Quantum Life Science Sensing": 0.706447184085846, "Quantum sensing Detection": 0.6924052238464355, "Quantum sensing Metrology": 0.7104359865188599, "Quantum sensing navigation": 0.7203633785247803, "Quantum sensing Position": 0.6866103410720825, "Quantum sensing Timing": 0.6849697232246399, "Quantum sensing": 0.7118542194366455, "Quantum control": 0.7240443229675293 } }, { "id": 4639, "title": "2-Dimensional graphene as a route for emergence of additional dimension nanomaterials", "abstract": "Dimension has a different and impactful significance in the field of innovation, research and technologies. Starting from one-dimension, now, we all are moving towards 3-D visuals and try to do the th...", "citations": 29, "author_count": 6, "categories": [ "Biophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4646, "doi": "10.1016/j.bios.2016.02.067", "umap_coordinates": { "x": 393.2366027832031, "y": 133.9327392578125, "z": 204.23951721191406 }, "tsne_coordinates": { "x": 19.800800323486328, "y": 29.65676498413086, "z": -11.417226791381836 }, "pca_coordinates": { "x": -2.67069149017334, "y": -0.9329423904418945, "z": -0.8749380707740784 }, "axis_scores": { "Quantum imaging": 0.6842041015625, "Quantum Life Science Sensing": 0.7260370254516602, "Quantum sensing Detection": 0.6865335702896118, "Quantum sensing Metrology": 0.6763821244239807, "Quantum sensing navigation": 0.6837523579597473, "Quantum sensing Position": 0.6739253997802734, "Quantum sensing Timing": 0.6364574432373047, "Quantum sensing": 0.6934959292411804, "Quantum control": 0.6581149697303772 } }, { "id": 4640, "title": "Stuckelberg formulation of holography", "abstract": "We suggest that holography can be formulated in terms of the information capacity of the Stuckelberg degrees of freedom that maintain gauge invariance of the theory in the presence of an information b...", "citations": 5, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4647, "doi": "10.1103/PhysRevD.94.084051", "umap_coordinates": { "x": 395.02264404296875, "y": 137.3369903564453, "z": 208.12570190429688 }, "tsne_coordinates": { "x": -17.073410034179688, "y": -37.16596984863281, "z": 7.035587787628174 }, "pca_coordinates": { "x": 4.253359794616699, "y": 2.7626795768737793, "z": -0.695893406867981 }, "axis_scores": { "Quantum imaging": 0.7310827970504761, "Quantum Life Science Sensing": 0.7263244390487671, "Quantum sensing Detection": 0.708190381526947, "Quantum sensing Metrology": 0.7219860553741455, "Quantum sensing navigation": 0.7392948269844055, "Quantum sensing Position": 0.7355546951293945, "Quantum sensing Timing": 0.7187865972518921, "Quantum sensing": 0.7275261282920837, "Quantum control": 0.7029560804367065 } }, { "id": 4641, "title": "Quench dynamics and ground state fidelity of the one-dimensional extended quantum compass model in a transverse field", "abstract": "We study the ground state fidelity, fidelity susceptibility, and quench dynamics of the extended quantum compass model in a transverse field. This model reveals a rich phase diagram which includes sev...", "citations": 33, "author_count": 2, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4648, "doi": "10.1088/1751-8113/49/18/185004", "umap_coordinates": { "x": 394.2453918457031, "y": 137.44979858398438, "z": 207.63104248046875 }, "tsne_coordinates": { "x": -18.575458526611328, "y": -26.92115020751953, "z": 28.51763153076172 }, "pca_coordinates": { "x": 3.641838550567627, "y": 3.7515196800231934, "z": -0.5656676888465881 }, "axis_scores": { "Quantum imaging": 0.723970890045166, "Quantum Life Science Sensing": 0.7037292718887329, "Quantum sensing Detection": 0.699924111366272, "Quantum sensing Metrology": 0.6983153223991394, "Quantum sensing navigation": 0.72243332862854, "Quantum sensing Position": 0.7117433547973633, "Quantum sensing Timing": 0.7228711843490601, "Quantum sensing": 0.7098572254180908, "Quantum control": 0.727409303188324 } }, { "id": 4642, "title": "Prequantum Classical Statistical Field Theory: Schrodinger Dynamics of Entangled Systems as a Classical Stochastic Process", "abstract": "The idea that quantum randomness can be reduced to randomness of classical fields (fluctuating at time and space scales which are essentially finer than scales approachable in modern quantum experimen...", "citations": 9, "author_count": 2, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4649, "doi": "10.1007/s10701-009-9402-x", "umap_coordinates": { "x": 395.31005859375, "y": 137.1735076904297, "z": 206.6964111328125 }, "tsne_coordinates": { "x": -30.929401397705078, "y": 1.8356977701187134, "z": 17.529972076416016 }, "pca_coordinates": { "x": 2.818056583404541, "y": 3.1893763542175293, "z": 0.5566484332084656 }, "axis_scores": { "Quantum imaging": 0.7501590251922607, "Quantum Life Science Sensing": 0.7461221218109131, "Quantum sensing Detection": 0.7558125257492065, "Quantum sensing Metrology": 0.7305527329444885, "Quantum sensing navigation": 0.7526782155036926, "Quantum sensing Position": 0.7398241758346558, "Quantum sensing Timing": 0.7298769950866699, "Quantum sensing": 0.7588626146316528, "Quantum control": 0.7417404651641846 } }, { "id": 4643, "title": "Effects of exchange and electron correlation on conductance and nanomagnetism in ballistic semiconductor quantum point contacts - art. no. 085323", "abstract": "The spontaneous magnetization of a quantum point contact (QPC) formed between two large quantum dots by a lateral confinement of a high-mobility two-dimensional electron gas is studied for a realistic...", "citations": 95, "author_count": 3, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4650, "doi": "10.1103/PhysRevB.66.085323", "umap_coordinates": { "x": 394.0240783691406, "y": 135.09864807128906, "z": 208.85317993164062 }, "tsne_coordinates": { "x": -1.4719136953353882, "y": -38.26429748535156, "z": -2.3149478435516357 }, "pca_coordinates": { "x": 4.624762058258057, "y": -1.9037089347839355, "z": 0.09197330474853516 }, "axis_scores": { "Quantum imaging": 0.7068608403205872, "Quantum Life Science Sensing": 0.7133206725120544, "Quantum sensing Detection": 0.7059401273727417, "Quantum sensing Metrology": 0.715478241443634, "Quantum sensing navigation": 0.7163949608802795, "Quantum sensing Position": 0.7142372727394104, "Quantum sensing Timing": 0.684097945690155, "Quantum sensing": 0.7233150005340576, "Quantum control": 0.7055371999740601 } }, { "id": 4644, "title": "Quality of preimplant low-dose tomography", "abstract": "Objectives. The aim of this study was to test the influence of radiation dose on image quality in mandibular preimplant computed tomographic examinations and to compare the quality of computed and con...", "citations": 15, "author_count": 4, "categories": [ "Dentistry", "Oral Surgery & Medicine" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4651, "doi": "10.1016/S1079-2104(99)70018-1", "umap_coordinates": { "x": 395.291748046875, "y": 133.33506774902344, "z": 204.79405212402344 }, "tsne_coordinates": { "x": -1.248441219329834, "y": 27.948883056640625, "z": -20.623207092285156 }, "pca_coordinates": { "x": -2.710200786590576, "y": 3.7121634483337402, "z": 3.00417423248291 }, "axis_scores": { "Quantum imaging": 0.7220873236656189, "Quantum Life Science Sensing": 0.7224886417388916, "Quantum sensing Detection": 0.6903988718986511, "Quantum sensing Metrology": 0.693340539932251, "Quantum sensing navigation": 0.6838552355766296, "Quantum sensing Position": 0.6922127604484558, "Quantum sensing Timing": 0.6863395571708679, "Quantum sensing": 0.7042649984359741, "Quantum control": 0.645842432975769 } }, { "id": 4645, "title": "The SP Josephson potentiometer Quantum Hall Resistance standard", "abstract": "A Josephson potentiometer method has been developed at SP for Quantum Hall Resistance (QHR) measurements. The QHR 12.9 k Omega value is used for the determination of the resistance value of a room tem...", "citations": 1, "author_count": 4, "categories": [ "Engineering" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4652, "doi": "10.1109/CPEM.2000.851130", "umap_coordinates": { "x": 395.04437255859375, "y": 134.8995361328125, "z": 207.5470428466797 }, "tsne_coordinates": { "x": -43.69542694091797, "y": -0.3650606870651245, "z": 0.2883915603160858 }, "pca_coordinates": { "x": 1.8921773433685303, "y": 1.0323643684387207, "z": 0.8810356259346008 }, "axis_scores": { "Quantum imaging": 0.7349954843521118, "Quantum Life Science Sensing": 0.7764458656311035, "Quantum sensing Detection": 0.7590824365615845, "Quantum sensing Metrology": 0.764350175857544, "Quantum sensing navigation": 0.7591823935508728, "Quantum sensing Position": 0.755573034286499, "Quantum sensing Timing": 0.7199161648750305, "Quantum sensing": 0.7773063778877258, "Quantum control": 0.7315793037414551 } }, { "id": 4646, "title": "Proximitized Josephson junctions in highly-doped InAs nanowires robust to optical illumination", "abstract": "We have studied the effects of optical-frequency light on proximitized InAs/Al Josephson junctions based on highly n-doped InAs nanowires at varying incident photon flux and at three different photon ...", "citations": 3, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4653, "doi": "10.1088/1361-6528/abc44e", "umap_coordinates": { "x": 393.8398132324219, "y": 133.9667510986328, "z": 207.53524780273438 }, "tsne_coordinates": { "x": 6.577017307281494, "y": -24.73751449584961, "z": -24.09514808654785 }, "pca_coordinates": { "x": 0.08458030223846436, "y": -3.138521671295166, "z": 2.6895976066589355 }, "axis_scores": { "Quantum imaging": 0.7369778156280518, "Quantum Life Science Sensing": 0.702472448348999, "Quantum sensing Detection": 0.7059714198112488, "Quantum sensing Metrology": 0.6921958923339844, "Quantum sensing navigation": 0.7285822629928589, "Quantum sensing Position": 0.6932955980300903, "Quantum sensing Timing": 0.6865438222885132, "Quantum sensing": 0.7250353097915649, "Quantum control": 0.6954217553138733 } }, { "id": 4647, "title": "Charge transfer in sodium iodide collisions", "abstract": "Sodium iodide (NaI) has, over the years, served as a prototype system in studies of non-adiabatic dynamics. Here, the charge transfer collision reactions Na+ + I- reversible arrow Na + I (mutual neutr...", "citations": 5, "author_count": 4, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4654, "doi": "10.1063/5.0131749", "umap_coordinates": { "x": 395.42657470703125, "y": 135.7238311767578, "z": 208.26406860351562 }, "tsne_coordinates": { "x": -8.252931594848633, "y": -7.8584513664245605, "z": -1.708591341972351 }, "pca_coordinates": { "x": 2.327552318572998, "y": -0.8467791080474854, "z": 0.88628751039505 }, "axis_scores": { "Quantum imaging": 0.6936817169189453, "Quantum Life Science Sensing": 0.6636228561401367, "Quantum sensing Detection": 0.6881774663925171, "Quantum sensing Metrology": 0.655634343624115, "Quantum sensing navigation": 0.683003306388855, "Quantum sensing Position": 0.6749429702758789, "Quantum sensing Timing": 0.6813278794288635, "Quantum sensing": 0.6860690116882324, "Quantum control": 0.6784286499023438 } }, { "id": 4648, "title": "Crystal Structure and Magnetic Properties of FeSeO3F-Alternating Antiferromagnetic S=5/2 chains", "abstract": "The new oxofluoride FeSeO3F, which is isostructural with FeTeO3F and GaTeO3F, was prepared by hydrothermal synthesis, and its structure was determined by X-ray diffraction. The magnetic properties of ...", "citations": 45, "author_count": 7, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4655, "doi": "10.1021/ic5003995", "umap_coordinates": { "x": 392.15667724609375, "y": 136.1165008544922, "z": 207.20370483398438 }, "tsne_coordinates": { "x": 13.873356819152832, "y": -20.319223403930664, "z": 25.699989318847656 }, "pca_coordinates": { "x": -0.9376593232154846, "y": -1.9277963638305664, "z": -4.242508411407471 }, "axis_scores": { "Quantum imaging": 0.6940636038780212, "Quantum Life Science Sensing": 0.7160040140151978, "Quantum sensing Detection": 0.6521435379981995, "Quantum sensing Metrology": 0.6703252792358398, "Quantum sensing navigation": 0.6753914952278137, "Quantum sensing Position": 0.6470695734024048, "Quantum sensing Timing": 0.6270135641098022, "Quantum sensing": 0.6798461079597473, "Quantum control": 0.6683133244514465 } }, { "id": 4649, "title": "Dynamics of the compact, ferromagnetic v=1 edge", "abstract": "We consider the edge dynamics of a compact, fully spin-polarized state at filling factor nu = 1. We show that then are two sets of collective excitations localized near the edge: the much studied, gap...", "citations": 16, "author_count": 4, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4656, "doi": "10.1103/PhysRevB.60.15948", "umap_coordinates": { "x": 393.5093078613281, "y": 136.80499267578125, "z": 208.80056762695312 }, "tsne_coordinates": { "x": -2.6644437313079834, "y": -24.376867294311523, "z": 24.030263900756836 }, "pca_coordinates": { "x": 4.218809127807617, "y": 0.1405496597290039, "z": -2.7257332801818848 }, "axis_scores": { "Quantum imaging": 0.6902198791503906, "Quantum Life Science Sensing": 0.7101178169250488, "Quantum sensing Detection": 0.6910913586616516, "Quantum sensing Metrology": 0.6775022149085999, "Quantum sensing navigation": 0.7073705792427063, "Quantum sensing Position": 0.686739981174469, "Quantum sensing Timing": 0.664401650428772, "Quantum sensing": 0.6914107799530029, "Quantum control": 0.6779075860977173 } }, { "id": 4650, "title": "Proton Environments in Biomimetic Calcium Phosphates Formed from Mesoporous Bioactive CaO-SiO2-P2O5 Glasses in Vitro: Insights from Solid-State NMR", "abstract": "When exposed to body fluids, mesoporous bioactive glasses (MBGs) of the CaO-SiO2-P2O5 system develop a bone-bonding surface layer that initially consists of amorphous calcium phosphate (ACP), which tr...", "citations": 44, "author_count": 10, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4657, "doi": "10.1021/acs.jpcc.7b03469", "umap_coordinates": { "x": 392.72845458984375, "y": 136.44998168945312, "z": 205.3792724609375 }, "tsne_coordinates": { "x": 8.529142379760742, "y": 12.1783447265625, "z": 34.21042251586914 }, "pca_coordinates": { "x": -2.124016761779785, "y": 0.8508011102676392, "z": -3.1599111557006836 }, "axis_scores": { "Quantum imaging": 0.7106108069419861, "Quantum Life Science Sensing": 0.7355311512947083, "Quantum sensing Detection": 0.6818170547485352, "Quantum sensing Metrology": 0.6820794343948364, "Quantum sensing navigation": 0.6884773969650269, "Quantum sensing Position": 0.670047402381897, "Quantum sensing Timing": 0.6698552370071411, "Quantum sensing": 0.710931122303009, "Quantum control": 0.6740423440933228 } }, { "id": 4651, "title": "Cosmology from Strong Interactions", "abstract": "The wealth of theoretical and phenomenological information about Quantum Chromodynamics at short and long distances collected so far in major collider measurements has profound implications in cosmolo...", "citations": 7, "author_count": 6, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4658, "doi": "10.3390/universe8090451", "umap_coordinates": { "x": 395.3435363769531, "y": 137.1638946533203, "z": 206.19778442382812 }, "tsne_coordinates": { "x": -33.32136535644531, "y": 16.644359588623047, "z": 10.713799476623535 }, "pca_coordinates": { "x": 0.1073293685913086, "y": 3.1561031341552734, "z": -2.7623753547668457 }, "axis_scores": { "Quantum imaging": 0.7038565874099731, "Quantum Life Science Sensing": 0.7541593909263611, "Quantum sensing Detection": 0.7018561363220215, "Quantum sensing Metrology": 0.6810488700866699, "Quantum sensing navigation": 0.7100415825843811, "Quantum sensing Position": 0.666874885559082, "Quantum sensing Timing": 0.669644832611084, "Quantum sensing": 0.7182128429412842, "Quantum control": 0.6993222236633301 } }, { "id": 4652, "title": "Gravitational wave detection using electromagnetic modes in a resonance cavity", "abstract": "We present a proposal for a gravitational wave detector, based on the excitation of an electromagnetic mode in a resonance cavity. The mode is excited due to the interaction between a large amplitude ...", "citations": 12, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4659, "doi": "10.1088/0264-9381/20/5/101", "umap_coordinates": { "x": 394.9525146484375, "y": 135.8195343017578, "z": 206.7512664794922 }, "tsne_coordinates": { "x": -27.93316650390625, "y": -2.7978503704071045, "z": -10.21568775177002 }, "pca_coordinates": { "x": 0.3934202194213867, "y": 2.3048064708709717, "z": 1.7267067432403564 }, "axis_scores": { "Quantum imaging": 0.6938282251358032, "Quantum Life Science Sensing": 0.7032549381256104, "Quantum sensing Detection": 0.7094509601593018, "Quantum sensing Metrology": 0.6852802038192749, "Quantum sensing navigation": 0.7104932069778442, "Quantum sensing Position": 0.6805004477500916, "Quantum sensing Timing": 0.6642593145370483, "Quantum sensing": 0.696938693523407, "Quantum control": 0.6446488499641418 } }, { "id": 4653, "title": "Critical Role of Protons for Emission Quenching of Indoline Dyes in Solution and on Semiconductor Surfaces", "abstract": "By combining time-correlated single photon counting (TCSPC) measurements, density functional theory (DFT), and time-dependent DFT (TD-DFT) calculations, we herein investigate the role of protons, in s...", "citations": 9, "author_count": 6, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4660, "doi": "10.1021/acs.jpcc.0c07099", "umap_coordinates": { "x": 392.4320373535156, "y": 136.10934448242188, "z": 205.32142639160156 }, "tsne_coordinates": { "x": 9.12739372253418, "y": 10.571949005126953, "z": 17.49125099182129 }, "pca_coordinates": { "x": -2.839592456817627, "y": -1.5759320259094238, "z": -2.149226188659668 }, "axis_scores": { "Quantum imaging": 0.7152578830718994, "Quantum Life Science Sensing": 0.7315708994865417, "Quantum sensing Detection": 0.6868628263473511, "Quantum sensing Metrology": 0.6842034459114075, "Quantum sensing navigation": 0.6986653208732605, "Quantum sensing Position": 0.689759373664856, "Quantum sensing Timing": 0.671086847782135, "Quantum sensing": 0.7027485966682434, "Quantum control": 0.6801901459693909 } }, { "id": 4654, "title": "Generation and detection of photonic qutrit states by linear optics", "abstract": "We address the problem of generation and detection of the four mutually unbiased biphoton polarization-qutrit bases by linear optics. First, the generation of the bases is studied. Our numeric results...", "citations": 1, "author_count": 3, "categories": [ "Computer Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4661, "doi": null, "umap_coordinates": { "x": 391.8273620605469, "y": 139.56744384765625, "z": 209.0973358154297 }, "tsne_coordinates": { "x": -10.06170654296875, "y": 38.817115783691406, "z": -6.181764602661133 }, "pca_coordinates": { "x": 0.41678738594055176, "y": 2.246466875076294, "z": 0.20566898584365845 }, "axis_scores": { "Quantum imaging": 0.7780414819717407, "Quantum Life Science Sensing": 0.7765170335769653, "Quantum sensing Detection": 0.794422447681427, "Quantum sensing Metrology": 0.7694082856178284, "Quantum sensing navigation": 0.7753356695175171, "Quantum sensing Position": 0.7490188479423523, "Quantum sensing Timing": 0.7324768900871277, "Quantum sensing": 0.7873284816741943, "Quantum control": 0.7516573071479797 } }, { "id": 4655, "title": "Photovoltaic devices based on photo induced charge transfer in polythiophene:CN-PPV blends", "abstract": "We have investigated the photovoltaic properties of polymer devices based on a blend of two polymers, (poly(3-(2'-methoxy-5'-octylphenyl) thiophene) (POMeOPT) and poly(2,5,2',5'-tetrahexyloxy-7,8'-dic...", "citations": 12, "author_count": 6, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4662, "doi": "10.1590/S0103-97332003000200041", "umap_coordinates": { "x": 393.3337707519531, "y": 134.36862182617188, "z": 205.60743713378906 }, "tsne_coordinates": { "x": 15.332662582397461, "y": 13.098065376281738, "z": 0.5594362020492554 }, "pca_coordinates": { "x": -2.0513057708740234, "y": -1.6430554389953613, "z": 0.4007396101951599 }, "axis_scores": { "Quantum imaging": 0.6641660928726196, "Quantum Life Science Sensing": 0.6923315525054932, "Quantum sensing Detection": 0.6794337034225464, "Quantum sensing Metrology": 0.6557364463806152, "Quantum sensing navigation": 0.6648390293121338, "Quantum sensing Position": 0.6660640835762024, "Quantum sensing Timing": 0.6760484576225281, "Quantum sensing": 0.6792856454849243, "Quantum control": 0.6730008721351624 } }, { "id": 4656, "title": "High-Performance Thermally Evaporated Blue Perovskite Light-Emitting Diodes Enabled by Post-Evaporation Passivation", "abstract": "Thermally evaporated perovskite light-emitting diodes (PeLEDs) are promising for next-generation displays, yet process-compatible passivation strategies for performance enhancement are still lacking. ...", "citations": 10, "author_count": 13, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4663, "doi": "10.1016/j.cej.2024.155955", "umap_coordinates": { "x": 392.4507141113281, "y": 133.6333465576172, "z": 205.4138641357422 }, "tsne_coordinates": { "x": 16.764711380004883, "y": 0.06703801453113556, "z": -23.815744400024414 }, "pca_coordinates": { "x": -3.504883050918579, "y": -1.5075697898864746, "z": 0.48131436109542847 }, "axis_scores": { "Quantum imaging": 0.7061986327171326, "Quantum Life Science Sensing": 0.687748908996582, "Quantum sensing Detection": 0.6884841918945312, "Quantum sensing Metrology": 0.6850865483283997, "Quantum sensing navigation": 0.6715455055236816, "Quantum sensing Position": 0.6667514443397522, "Quantum sensing Timing": 0.676468551158905, "Quantum sensing": 0.6991832852363586, "Quantum control": 0.6920145153999329 } }, { "id": 4657, "title": "Highly-excited Rydberg excitons in synthetic thin-film cuprous oxide", "abstract": "Cuprous oxide (Cu2O) has recently emerged as a promising material in solid-state quantum technology, specifically for its excitonic Rydberg states characterized by large principal quantum numbers (n)....", "citations": 12, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4664, "doi": "10.1038/s41598-023-41465-y", "umap_coordinates": { "x": 392.18157958984375, "y": 134.84280395507812, "z": 205.88442993164062 }, "tsne_coordinates": { "x": 5.891807556152344, "y": -14.147381782531738, "z": -22.451751708984375 }, "pca_coordinates": { "x": -2.496732234954834, "y": -2.8674521446228027, "z": -0.9870885610580444 }, "axis_scores": { "Quantum imaging": 0.7101322412490845, "Quantum Life Science Sensing": 0.7131102085113525, "Quantum sensing Detection": 0.6855109333992004, "Quantum sensing Metrology": 0.6661296486854553, "Quantum sensing navigation": 0.6611449718475342, "Quantum sensing Position": 0.6414055824279785, "Quantum sensing Timing": 0.6711872816085815, "Quantum sensing": 0.7027243375778198, "Quantum control": 0.6659061908721924 } }, { "id": 4658, "title": "Photochemical Ring-Opening Reaction of 1,3-Cyclohexadiene: the True Reactive State", "abstract": "The photochemically induced ring-opening isomeriza-tion reaction of 1,3-cyclohexadiene to 1,3,5-hexatriene is a textbook example of a pericyclic reaction and has been amply investigated with advanced ...", "citations": 21, "author_count": 23, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4665, "doi": "10.1021/jacs.2c06296", "umap_coordinates": { "x": 391.837158203125, "y": 136.22116088867188, "z": 205.38241577148438 }, "tsne_coordinates": { "x": 2.9701216220855713, "y": 1.279152274131775, "z": -4.443964004516602 }, "pca_coordinates": { "x": -1.7779686450958252, "y": 0.9071038961410522, "z": -2.590778112411499 }, "axis_scores": { "Quantum imaging": 0.7058835625648499, "Quantum Life Science Sensing": 0.7428928017616272, "Quantum sensing Detection": 0.7256476283073425, "Quantum sensing Metrology": 0.6745105385780334, "Quantum sensing navigation": 0.6827296614646912, "Quantum sensing Position": 0.6911123394966125, "Quantum sensing Timing": 0.7003279328346252, "Quantum sensing": 0.7244136333465576, "Quantum control": 0.6957377791404724 } }, { "id": 4659, "title": "Theoretical model of dynamic spin polarization of nuclei coupled to paramagnetic point defects in diamond and silicon carbide", "abstract": "Dynamic nuclear spin polarization (DNP) mediated by paramagnetic point defects in semiconductors is a key resource for both initializing nuclear quantum memories and producing nuclear hyperpolarizatio...", "citations": 73, "author_count": 10, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4666, "doi": "10.1103/PhysRevB.92.115206", "umap_coordinates": { "x": 393.4779968261719, "y": 136.89028930664062, "z": 208.30662536621094 }, "tsne_coordinates": { "x": -9.545339584350586, "y": -29.47193145751953, "z": 26.49925994873047 }, "pca_coordinates": { "x": 3.4592738151550293, "y": 0.6446647644042969, "z": -1.746591567993164 }, "axis_scores": { "Quantum imaging": 0.7255724668502808, "Quantum Life Science Sensing": 0.7338083982467651, "Quantum sensing Detection": 0.7139415144920349, "Quantum sensing Metrology": 0.6899100542068481, "Quantum sensing navigation": 0.7275548577308655, "Quantum sensing Position": 0.7096383571624756, "Quantum sensing Timing": 0.6895755529403687, "Quantum sensing": 0.7223044633865356, "Quantum control": 0.7227655649185181 } }, { "id": 4660, "title": "Fluorescence lifetime imaging in a flame", "abstract": "A novel method for two-dimensional fluorescence lifetime imaging is presented. The technique is demonstrated on averaged planar laser-induced fluorescence (PLIF) signals recorded in a flame. Although ...", "citations": 25, "author_count": 7, "categories": [ "Thermodynamics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4667, "doi": "10.1016/j.proci.2010.05.083", "umap_coordinates": { "x": 393.9942932128906, "y": 134.7655487060547, "z": 204.9109649658203 }, "tsne_coordinates": { "x": -16.391658782958984, "y": 2.9998555183410645, "z": -11.420319557189941 }, "pca_coordinates": { "x": -3.149271011352539, "y": 0.7969101667404175, "z": -0.6729143857955933 }, "axis_scores": { "Quantum imaging": 0.7428726553916931, "Quantum Life Science Sensing": 0.7268111109733582, "Quantum sensing Detection": 0.7129450440406799, "Quantum sensing Metrology": 0.6806485056877136, "Quantum sensing navigation": 0.6892937421798706, "Quantum sensing Position": 0.6966249346733093, "Quantum sensing Timing": 0.6950615048408508, "Quantum sensing": 0.720873236656189, "Quantum control": 0.6724562048912048 } }, { "id": 4661, "title": "Magnetoresistance of Al90Y10 and Al90La10: Strong enhancement due to small crystalline precipitates in Al90La10", "abstract": "The normal-state magnetoresistance, Delta rho/rho was measured for Al90La10 and Al90Y10 alloys in the temperature region from four to eight times the superconducting T-c and in magnetic fields up to 1...", "citations": 2, "author_count": 6, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4668, "doi": "10.1103/PhysRevB.54.9174", "umap_coordinates": { "x": 393.54705810546875, "y": 135.9786834716797, "z": 208.5104522705078 }, "tsne_coordinates": { "x": 2.001932144165039, "y": -43.64471435546875, "z": 12.971278190612793 }, "pca_coordinates": { "x": 1.334179401397705, "y": -1.242783784866333, "z": -1.2218164205551147 }, "axis_scores": { "Quantum imaging": 0.6541212797164917, "Quantum Life Science Sensing": 0.6838215589523315, "Quantum sensing Detection": 0.6539894342422485, "Quantum sensing Metrology": 0.6594628691673279, "Quantum sensing navigation": 0.6501827239990234, "Quantum sensing Position": 0.6441822648048401, "Quantum sensing Timing": 0.6245393753051758, "Quantum sensing": 0.6671937108039856, "Quantum control": 0.6184234023094177 } }, { "id": 4662, "title": "Light emission from Na/Cu(111) induced by a scanning tunneling microscope", "abstract": "Measurements of light emission from a scanning tunneling microscope probing a Na overlayer on the (111) surface of Cu are reported along with the results of a model calculation that essentially agree ...", "citations": 15, "author_count": 4, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4669, "doi": "10.1103/PhysRevB.66.245415", "umap_coordinates": { "x": 394.1382141113281, "y": 134.89120483398438, "z": 209.36305236816406 }, "tsne_coordinates": { "x": 9.631695747375488, "y": -39.83524703979492, "z": -2.3485171794891357 }, "pca_coordinates": { "x": 3.5567703247070312, "y": -2.227598190307617, "z": 1.7231130599975586 }, "axis_scores": { "Quantum imaging": 0.7028502821922302, "Quantum Life Science Sensing": 0.7232864499092102, "Quantum sensing Detection": 0.7168383598327637, "Quantum sensing Metrology": 0.7020828723907471, "Quantum sensing navigation": 0.718328595161438, "Quantum sensing Position": 0.6727390885353088, "Quantum sensing Timing": 0.666527509689331, "Quantum sensing": 0.7241142988204956, "Quantum control": 0.691422700881958 } }, { "id": 4663, "title": "Electron transition pathways of photoluminescence from 3C-SiC nanocrystals unraveled by steady-state, blinking and time-resolved photoluminescence measurements", "abstract": "The cubic phase SiC nanocrystals (3C-SiC NCs) have been extensively studied for electronics and photonics applications. In this work we study the electron transition pathways of photoluminescence (PL)...", "citations": 13, "author_count": 7, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4670, "doi": "10.1088/0022-3727/49/27/275107", "umap_coordinates": { "x": 391.8772277832031, "y": 135.36839294433594, "z": 206.1116180419922 }, "tsne_coordinates": { "x": 16.786497116088867, "y": -0.6478519439697266, "z": 7.659778118133545 }, "pca_coordinates": { "x": -1.9102503061294556, "y": -1.463935375213623, "z": 0.31261712312698364 }, "axis_scores": { "Quantum imaging": 0.6757685542106628, "Quantum Life Science Sensing": 0.7061665654182434, "Quantum sensing Detection": 0.6704965829849243, "Quantum sensing Metrology": 0.6507278680801392, "Quantum sensing navigation": 0.6671608686447144, "Quantum sensing Position": 0.6353145837783813, "Quantum sensing Timing": 0.6436627507209778, "Quantum sensing": 0.6765148639678955, "Quantum control": 0.6523949503898621 } }, { "id": 4664, "title": "Bicarbonate-controlled reduction of oxygen by the QA semiquinone in Photosystem II in membranes", "abstract": "Photosystem II (PSII), the water/plastoquinone photo-oxidoreductase, plays a key energy input role in the biosphere. Q(A)(center dot-), the reduced semiquinone form of the nonexchangeable quinone, is ...", "citations": 31, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4671, "doi": "10.1073/pnas.2116063119", "umap_coordinates": { "x": 393.730224609375, "y": 136.66004943847656, "z": 204.52357482910156 }, "tsne_coordinates": { "x": 4.74943733215332, "y": 16.83447265625, "z": 18.210474014282227 }, "pca_coordinates": { "x": 0.19945263862609863, "y": -0.2820401191711426, "z": -2.7154979705810547 }, "axis_scores": { "Quantum imaging": 0.7205750942230225, "Quantum Life Science Sensing": 0.7618764042854309, "Quantum sensing Detection": 0.7224406599998474, "Quantum sensing Metrology": 0.7195202708244324, "Quantum sensing navigation": 0.7234511375427246, "Quantum sensing Position": 0.6893335580825806, "Quantum sensing Timing": 0.676184892654419, "Quantum sensing": 0.7401553392410278, "Quantum control": 0.7130852341651917 } }, { "id": 4665, "title": "Dual-Functional Carbon Dot Films: Blue-Light Filtration and Cyan-Light Conversion for Healthier White Light-Emitting Diodes", "abstract": "Blue light emitted by commercial white light-emitting diodes (WLEDs) in the 440-470 nm range poses ocular health risks with prolonged exposure. Effective filtration is crucial for health-conscious lig...", "citations": 3, "author_count": 7, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4672, "doi": "10.1021/acs.nanolett.4c06272", "umap_coordinates": { "x": 392.0578918457031, "y": 133.92483520507812, "z": 204.9544677734375 }, "tsne_coordinates": { "x": 18.706281661987305, "y": 6.229651927947998, "z": -10.40899658203125 }, "pca_coordinates": { "x": -3.902719020843506, "y": -3.5501580238342285, "z": -0.3240550756454468 }, "axis_scores": { "Quantum imaging": 0.7127717733383179, "Quantum Life Science Sensing": 0.7154985666275024, "Quantum sensing Detection": 0.6982061266899109, "Quantum sensing Metrology": 0.6746698021888733, "Quantum sensing navigation": 0.687917947769165, "Quantum sensing Position": 0.6687527298927307, "Quantum sensing Timing": 0.6653047204017639, "Quantum sensing": 0.7052319645881653, "Quantum control": 0.702551007270813 } }, { "id": 4666, "title": "Ionic liquids and deep eutectics as a transformative platform for the synthesis of nanomaterials", "abstract": "Ionic liquids (ILs) are becoming a revolutionary synthesis medium for inorganic nanomaterials, permitting more efficient, safer and environmentally benign preparation of high quality products. A smart...", "citations": 85, "author_count": 3, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4673, "doi": "10.1039/d1cc06543b", "umap_coordinates": { "x": 392.35247802734375, "y": 134.51080322265625, "z": 204.63946533203125 }, "tsne_coordinates": { "x": 16.155414581298828, "y": 8.471803665161133, "z": -18.479660034179688 }, "pca_coordinates": { "x": -2.9621262550354004, "y": -1.8282470703125, "z": -2.0042293071746826 }, "axis_scores": { "Quantum imaging": 0.7069609761238098, "Quantum Life Science Sensing": 0.7242633700370789, "Quantum sensing Detection": 0.6826280355453491, "Quantum sensing Metrology": 0.6699469685554504, "Quantum sensing navigation": 0.6879921555519104, "Quantum sensing Position": 0.6377337574958801, "Quantum sensing Timing": 0.6371726989746094, "Quantum sensing": 0.7016484141349792, "Quantum control": 0.672137975692749 } }, { "id": 4667, "title": "Impact of Excess Lead Iodide on the Recombination Kinetics in Metal Halide Perovskites", "abstract": "Fundmental comprehension of light-induced processes in perovskites are still scarce. One active debate surrounds the influence of excess lead iodide (PbI2) on device performance, as well as optoelectr...", "citations": 86, "author_count": 11, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4674, "doi": "10.1021/acsenergylett.9b00774", "umap_coordinates": { "x": 391.3770751953125, "y": 133.93849182128906, "z": 205.52606201171875 }, "tsne_coordinates": { "x": 18.9968318939209, "y": -4.704535007476807, "z": -19.63652801513672 }, "pca_coordinates": { "x": -1.5631357431411743, "y": -3.6968178749084473, "z": -2.536897659301758 }, "axis_scores": { "Quantum imaging": 0.6760396361351013, "Quantum Life Science Sensing": 0.6616817712783813, "Quantum sensing Detection": 0.6567599177360535, "Quantum sensing Metrology": 0.6328599452972412, "Quantum sensing navigation": 0.6447821259498596, "Quantum sensing Position": 0.6568689942359924, "Quantum sensing Timing": 0.6589484214782715, "Quantum sensing": 0.6583541631698608, "Quantum control": 0.6462457180023193 } }, { "id": 4668, "title": "Inter-phase charge and energy transfer in Ruddlesden-Popper 2D perovskites: critical role of the spacing cations", "abstract": "Photo-generated charge carrier dynamics in Ruddlesden-Popper 2D perovskites with linear (n-BA) and branched (iso-BA) butylamine as spacing cations have been studied by using transient absorption and t...", "citations": 106, "author_count": 11, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4675, "doi": "10.1039/c8ta01518j", "umap_coordinates": { "x": 391.46588134765625, "y": 134.79299926757812, "z": 206.0332794189453 }, "tsne_coordinates": { "x": 16.377803802490234, "y": -5.481715679168701, "z": -15.261820793151855 }, "pca_coordinates": { "x": -0.9575676918029785, "y": -2.9494118690490723, "z": -2.4595553874969482 }, "axis_scores": { "Quantum imaging": 0.6562301516532898, "Quantum Life Science Sensing": 0.667023777961731, "Quantum sensing Detection": 0.6327323317527771, "Quantum sensing Metrology": 0.6571091413497925, "Quantum sensing navigation": 0.6435170769691467, "Quantum sensing Position": 0.647915244102478, "Quantum sensing Timing": 0.6748713254928589, "Quantum sensing": 0.6569615602493286, "Quantum control": 0.641571581363678 } }, { "id": 4669, "title": "Coherence and population dynamics of chlorophyll excitations in FCP complex: Two-dimensional spectroscopy study", "abstract": "Energy transfer processes and coherent phenomena in the fucoxanthin-chlorophyll protein complex, which is responsible for the light harvesting function in marine algae diatoms, were investigated at 77...", "citations": 36, "author_count": 10, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4676, "doi": "10.1063/1.4914098", "umap_coordinates": { "x": 392.5367431640625, "y": 136.2377166748047, "z": 206.3759307861328 }, "tsne_coordinates": { "x": 9.21944522857666, "y": -0.07495473325252533, "z": 9.428277015686035 }, "pca_coordinates": { "x": -0.3303645849227905, "y": -0.8585820198059082, "z": -2.7334115505218506 }, "axis_scores": { "Quantum imaging": 0.7312339544296265, "Quantum Life Science Sensing": 0.7680213451385498, "Quantum sensing Detection": 0.7191252708435059, "Quantum sensing Metrology": 0.6996792554855347, "Quantum sensing navigation": 0.6956459879875183, "Quantum sensing Position": 0.6810357570648193, "Quantum sensing Timing": 0.6536214351654053, "Quantum sensing": 0.7273808717727661, "Quantum control": 0.7162142992019653 } }, { "id": 4670, "title": "Chiral Selectivity in the Binding of [4]Helicene Derivatives to Double-Stranded DNA", "abstract": "The interaction of a series of chiral cationic [4]helicene derivatives, which differ by their substituents, with double-stranded DNA has been investigated by using a combination of spectroscopic techn...", "citations": 48, "author_count": 10, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4677, "doi": "10.1002/chem.201203915", "umap_coordinates": { "x": 392.75335693359375, "y": 136.53282165527344, "z": 205.01324462890625 }, "tsne_coordinates": { "x": -2.2025742530822754, "y": 12.292859077453613, "z": -8.798871994018555 }, "pca_coordinates": { "x": -1.0780699253082275, "y": -0.10273051261901855, "z": -3.628256320953369 }, "axis_scores": { "Quantum imaging": 0.7284579277038574, "Quantum Life Science Sensing": 0.7352685332298279, "Quantum sensing Detection": 0.7255755066871643, "Quantum sensing Metrology": 0.685301661491394, "Quantum sensing navigation": 0.7372382879257202, "Quantum sensing Position": 0.7026944756507874, "Quantum sensing Timing": 0.679587721824646, "Quantum sensing": 0.7363815903663635, "Quantum control": 0.7410875558853149 } }, { "id": 4671, "title": "A Noncanonical Postsynaptic Transport Route for a GPCR Belonging to the Serotonin Receptor Family", "abstract": "Postsynaptic receptor trafficking plays an essential role in tuning neurotransmission and signal plasticity and has emerged as a potential therapeutic target in neuropsychiatric disease. Using a novel...", "citations": 22, "author_count": 11, "categories": [ "Neurosciences & Neurology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4678, "doi": "10.1523/JNEUROSCI.1804-12.2012", "umap_coordinates": { "x": 394.8358154296875, "y": 135.91265869140625, "z": 204.92897033691406 }, "tsne_coordinates": { "x": -4.736322402954102, "y": 25.652366638183594, "z": 9.81522274017334 }, "pca_coordinates": { "x": 0.4518359899520874, "y": 2.685885429382324, "z": 0.5874573588371277 }, "axis_scores": { "Quantum imaging": 0.6755111217498779, "Quantum Life Science Sensing": 0.6628121137619019, "Quantum sensing Detection": 0.6701841354370117, "Quantum sensing Metrology": 0.6609979867935181, "Quantum sensing navigation": 0.7243140935897827, "Quantum sensing Position": 0.6655219793319702, "Quantum sensing Timing": 0.6717904210090637, "Quantum sensing": 0.678104043006897, "Quantum control": 0.6632523536682129 } }, { "id": 4672, "title": "Experimental and theoretical study of the photodissociation of bromo-3-fluorobenzene", "abstract": "The UV photodissociation of bromo-3-fluorobenzene under collisionless conditions has been studied as a function of the excitation wavelength between 255 and 265 nm. The experiments were performed usin...", "citations": 7, "author_count": 6, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4679, "doi": "10.1063/1.2819093", "umap_coordinates": { "x": 393.9662780761719, "y": 135.0087890625, "z": 207.3817901611328 }, "tsne_coordinates": { "x": 20.799118041992188, "y": -27.962265014648438, "z": -14.448099136352539 }, "pca_coordinates": { "x": 0.4815797805786133, "y": 0.8845441341400146, "z": -0.0908164381980896 }, "axis_scores": { "Quantum imaging": 0.7275170087814331, "Quantum Life Science Sensing": 0.7428205013275146, "Quantum sensing Detection": 0.7313007116317749, "Quantum sensing Metrology": 0.7138564586639404, "Quantum sensing navigation": 0.7006758451461792, "Quantum sensing Position": 0.691840410232544, "Quantum sensing Timing": 0.676911473274231, "Quantum sensing": 0.7334818840026855, "Quantum control": 0.6946975588798523 } }, { "id": 4673, "title": "Impact of the herbicides 2,4-D and diuron on the metabolism of the coral Porites cylindrica", "abstract": "This study investigates the effects of two herbicides on the hermatypic coral Porites cylindrica. The herbicides tested were 2,4-D and diuron, since they are commonly used and have different toxic cha...", "citations": 24, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4680, "doi": "10.1016/S0141-1136(03)00039-4", "umap_coordinates": { "x": 393.5998840332031, "y": 135.4510955810547, "z": 203.7925567626953 }, "tsne_coordinates": { "x": 15.107857704162598, "y": 25.176523208618164, "z": 13.551283836364746 }, "pca_coordinates": { "x": -4.8167338371276855, "y": 1.4116812944412231, "z": -1.3813085556030273 }, "axis_scores": { "Quantum imaging": 0.6749539375305176, "Quantum Life Science Sensing": 0.691870927810669, "Quantum sensing Detection": 0.6687209606170654, "Quantum sensing Metrology": 0.6543118953704834, "Quantum sensing navigation": 0.6542031764984131, "Quantum sensing Position": 0.6514683961868286, "Quantum sensing Timing": 0.6513863801956177, "Quantum sensing": 0.6739016771316528, "Quantum control": 0.6687639355659485 } }, { "id": 4674, "title": "Exciton-vibrational coupling in the dynamics and spectroscopy of Frenkel excitons in molecular aggregates", "abstract": "The influence of exciton-vibrational coupling on the optical and transport properties of molecular aggregates is an old problem that gained renewed interest in recent years. On the experimental side, ...", "citations": 238, "author_count": 8, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4681, "doi": "10.1016/j.physrep.2014.12.001", "umap_coordinates": { "x": 392.9437255859375, "y": 136.41622924804688, "z": 206.4429473876953 }, "tsne_coordinates": { "x": 11.36204719543457, "y": 0.605047345161438, "z": 15.416481018066406 }, "pca_coordinates": { "x": 0.8657145500183105, "y": -1.2872803211212158, "z": -3.307380199432373 }, "axis_scores": { "Quantum imaging": 0.7033461332321167, "Quantum Life Science Sensing": 0.7241412401199341, "Quantum sensing Detection": 0.6916323304176331, "Quantum sensing Metrology": 0.668759822845459, "Quantum sensing navigation": 0.6914239525794983, "Quantum sensing Position": 0.6790112257003784, "Quantum sensing Timing": 0.6665407419204712, "Quantum sensing": 0.7008787393569946, "Quantum control": 0.684199869632721 } }, { "id": 4675, "title": "Nanoscale Engineering of Optical Strong Coupling inside Metals", "abstract": "Optical polaritons appear when a material excitation strongly couples to an optical mode. Such strong coupling between molecular transitions and optical cavities results in far-reaching opportunities ...", "citations": 7, "author_count": 5, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4682, "doi": "10.1002/adom.202201971", "umap_coordinates": { "x": 393.1198425292969, "y": 133.8404998779297, "z": 206.435791015625 }, "tsne_coordinates": { "x": 8.323137283325195, "y": -12.156452178955078, "z": -13.448060989379883 }, "pca_coordinates": { "x": -0.802111029624939, "y": -2.3391966819763184, "z": -0.07855856418609619 }, "axis_scores": { "Quantum imaging": 0.7818668484687805, "Quantum Life Science Sensing": 0.7688155770301819, "Quantum sensing Detection": 0.7686842679977417, "Quantum sensing Metrology": 0.7809458374977112, "Quantum sensing navigation": 0.748757541179657, "Quantum sensing Position": 0.7418588995933533, "Quantum sensing Timing": 0.7252868413925171, "Quantum sensing": 0.7829462885856628, "Quantum control": 0.7440245747566223 } }, { "id": 4676, "title": "Compressive imaging of transient absorption dynamics on the femtosecond timescale", "abstract": "Femtosecond spectroscopy is an important tool used for tracking rapid photoinduced processes in a variety of materials. To spatially map the processes in a sample would substantially expand the method...", "citations": 4, "author_count": 5, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4683, "doi": "10.1364/OE.27.010234", "umap_coordinates": { "x": 394.08038330078125, "y": 135.2184600830078, "z": 206.28395080566406 }, "tsne_coordinates": { "x": -15.108551025390625, "y": -10.045245170593262, "z": -17.663516998291016 }, "pca_coordinates": { "x": -0.811177134513855, "y": 1.902464747428894, "z": -0.13307350873947144 }, "axis_scores": { "Quantum imaging": 0.7422196269035339, "Quantum Life Science Sensing": 0.7280113697052002, "Quantum sensing Detection": 0.702407956123352, "Quantum sensing Metrology": 0.6985622048377991, "Quantum sensing navigation": 0.6913642883300781, "Quantum sensing Position": 0.6787892580032349, "Quantum sensing Timing": 0.7118411064147949, "Quantum sensing": 0.7204697132110596, "Quantum control": 0.6848838925361633 } }, { "id": 4677, "title": "Cooper-pair splitting in two parallel InAs nanowires", "abstract": "We report on the fabrication and electrical characterization of an InAs double-nanowire (NW) device consisting of two closely placed parallel NWs coupled to a common superconducting electrode on one s...", "citations": 40, "author_count": 13, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4684, "doi": "10.1088/1367-2630/aac74e", "umap_coordinates": { "x": 393.2762145996094, "y": 134.54225158691406, "z": 208.01902770996094 }, "tsne_coordinates": { "x": 15.334270477294922, "y": -15.367790222167969, "z": -5.402423858642578 }, "pca_coordinates": { "x": 1.9306578636169434, "y": -2.4207916259765625, "z": 1.9871995449066162 }, "axis_scores": { "Quantum imaging": 0.7191458344459534, "Quantum Life Science Sensing": 0.6924375891685486, "Quantum sensing Detection": 0.712143063545227, "Quantum sensing Metrology": 0.6905953288078308, "Quantum sensing navigation": 0.7142165899276733, "Quantum sensing Position": 0.6956690549850464, "Quantum sensing Timing": 0.6906419396400452, "Quantum sensing": 0.7207335233688354, "Quantum control": 0.6918966770172119 } }, { "id": 4678, "title": "Observation of Tunable Charged Exciton Polaritons in Hybrid Monolayer WS2-Plasmonic Nanoantenna System", "abstract": "Formation of dressed light-matter states in optical structures, manifested as Rabi splitting of the eigen energies of a coupled system, is one of the key effects in quantum optics. In pursuing this re...", "citations": 257, "author_count": 7, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4685, "doi": "10.1021/acs.nanolett.7b04965", "umap_coordinates": { "x": 392.14495849609375, "y": 134.45913696289062, "z": 206.62734985351562 }, "tsne_coordinates": { "x": 11.83847427368164, "y": -16.52484130859375, "z": -11.533350944519043 }, "pca_coordinates": { "x": -0.9454309940338135, "y": -5.461156368255615, "z": -0.03940397500991821 }, "axis_scores": { "Quantum imaging": 0.683899998664856, "Quantum Life Science Sensing": 0.7001928091049194, "Quantum sensing Detection": 0.6930192708969116, "Quantum sensing Metrology": 0.6707977056503296, "Quantum sensing navigation": 0.6793736815452576, "Quantum sensing Position": 0.6781320571899414, "Quantum sensing Timing": 0.669050931930542, "Quantum sensing": 0.6994129419326782, "Quantum control": 0.6677781343460083 } }, { "id": 4679, "title": "Poly(HEMA-co-HEMA-PFPA): Synthesis and preparation of stable micelles encapsulating imaging nanoparticles", "abstract": "We report the preparation of stable micelles from random copolymers of 2-hydroxyethyl methacrylate (HEMA) and perfluorophenyl azide (PFPA)-derivatized HEMA (HEMA-PFPA). The copolymers were synthesized...", "citations": 22, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4686, "doi": "10.1016/j.jcis.2017.03.099", "umap_coordinates": { "x": 393.52508544921875, "y": 133.9906005859375, "z": 204.40359497070312 }, "tsne_coordinates": { "x": 14.016768455505371, "y": 21.550323486328125, "z": -11.25776481628418 }, "pca_coordinates": { "x": -5.663440227508545, "y": 0.9963555335998535, "z": -0.9492337107658386 }, "axis_scores": { "Quantum imaging": 0.7268551588058472, "Quantum Life Science Sensing": 0.722598671913147, "Quantum sensing Detection": 0.678237795829773, "Quantum sensing Metrology": 0.6598554849624634, "Quantum sensing navigation": 0.65837162733078, "Quantum sensing Position": 0.651759147644043, "Quantum sensing Timing": 0.6517596244812012, "Quantum sensing": 0.6876156330108643, "Quantum control": 0.670562207698822 } }, { "id": 4680, "title": "Hydrogen bond effect on the photophysical properties of 2-ureido-4[1H]-pyrimidinone quadruple hydrogen bonded systems", "abstract": "In this work, spectroscopic techniques and quantum chemistry calculations were used to investigate the photophysical properties of 2-ureido-4[1H]-pyrimidinone (UPy) systems in two different solvents o...", "citations": 18, "author_count": 5, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4687, "doi": "10.1039/c5ra04005a", "umap_coordinates": { "x": 392.47735595703125, "y": 136.31101989746094, "z": 204.64808654785156 }, "tsne_coordinates": { "x": 2.145328998565674, "y": 10.332901954650879, "z": 0.13638834655284882 }, "pca_coordinates": { "x": -0.7716128826141357, "y": -0.23182392120361328, "z": -2.243746519088745 }, "axis_scores": { "Quantum imaging": 0.7388851642608643, "Quantum Life Science Sensing": 0.7669652700424194, "Quantum sensing Detection": 0.714408278465271, "Quantum sensing Metrology": 0.7143305540084839, "Quantum sensing navigation": 0.6967746019363403, "Quantum sensing Position": 0.7067894339561462, "Quantum sensing Timing": 0.6808128952980042, "Quantum sensing": 0.7397764325141907, "Quantum control": 0.7143862247467041 } }, { "id": 4681, "title": "Generation of Free OHaq Radicals by Black Light Illumination of Degussa (Evonik) P25 TiO2 Aqueous Suspensions", "abstract": "This work demonstrates how formation of strongly chemiluminescent 3-hydroxyphthalic hydrazide by hydroxylation of non-chemiluminescent phthalic hydrazide can be applied as a selective reaction probe t...", "citations": 54, "author_count": 3, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4688, "doi": "10.3390/catal3020418", "umap_coordinates": { "x": 393.3558044433594, "y": 135.38673400878906, "z": 204.03387451171875 }, "tsne_coordinates": { "x": 18.965763092041016, "y": 15.942322731018066, "z": 6.299907684326172 }, "pca_coordinates": { "x": -2.9506518840789795, "y": -0.4512333869934082, "z": -3.3908474445343018 }, "axis_scores": { "Quantum imaging": 0.6812012195587158, "Quantum Life Science Sensing": 0.7262828946113586, "Quantum sensing Detection": 0.6786924004554749, "Quantum sensing Metrology": 0.6635417342185974, "Quantum sensing navigation": 0.6664021611213684, "Quantum sensing Position": 0.6366443634033203, "Quantum sensing Timing": 0.6250615119934082, "Quantum sensing": 0.6939292550086975, "Quantum control": 0.6941860318183899 } }, { "id": 4682, "title": "Morphological, optical, and Raman characteristics of ZnO nanoflakes prepared via a sol-gel method", "abstract": "Two-dimensional (2D) ZnO nanoflakes were grown on thin aluminum layer, deposited on silicon substrate, using a sol-gel method. The surface morphologies of ZnO nanoflakes at different precursor concent...", "citations": 58, "author_count": 8, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4689, "doi": "10.1002/pssa.201127357", "umap_coordinates": { "x": 393.1253662109375, "y": 134.40757751464844, "z": 205.1146697998047 }, "tsne_coordinates": { "x": 31.522451400756836, "y": 2.3396506309509277, "z": 1.795725703239441 }, "pca_coordinates": { "x": -3.1915042400360107, "y": -2.5616345405578613, "z": -0.8607738018035889 }, "axis_scores": { "Quantum imaging": 0.683803379535675, "Quantum Life Science Sensing": 0.7348929643630981, "Quantum sensing Detection": 0.6736258268356323, "Quantum sensing Metrology": 0.7032824754714966, "Quantum sensing navigation": 0.6869328022003174, "Quantum sensing Position": 0.6719648838043213, "Quantum sensing Timing": 0.629906415939331, "Quantum sensing": 0.7012149095535278, "Quantum control": 0.6694867014884949 } }, { "id": 4683, "title": "Energy- and angle-dependent threshold photoemission magnetic circular dichroism from an ultrathin Co/Pt(111) film", "abstract": "Threshold photoemission magnetic circular dichroism (TPMCD) in one-photon photoemission (1PPE) and two-photon photoemission (2PPE) is measured at an ultrathin Co film grown on Pt(111). Energy-dependen...", "citations": 8, "author_count": 8, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4690, "doi": "10.1103/PhysRevB.82.195430", "umap_coordinates": { "x": 393.4294738769531, "y": 135.66709899902344, "z": 209.21871948242188 }, "tsne_coordinates": { "x": 7.2804107666015625, "y": -38.704811096191406, "z": 16.861696243286133 }, "pca_coordinates": { "x": 2.2194416522979736, "y": -1.5721440315246582, "z": -0.28112173080444336 }, "axis_scores": { "Quantum imaging": 0.6858500838279724, "Quantum Life Science Sensing": 0.7037768363952637, "Quantum sensing Detection": 0.6890155076980591, "Quantum sensing Metrology": 0.6715648770332336, "Quantum sensing navigation": 0.6473892331123352, "Quantum sensing Position": 0.6589562892913818, "Quantum sensing Timing": 0.6700549721717834, "Quantum sensing": 0.6915683150291443, "Quantum control": 0.6483717560768127 } }, { "id": 4684, "title": "Nanowire-based tunable photonic crystals", "abstract": "Photonic crystals, materials with periodically varying refractive indices, show exciting optical properties that enable many technological applications. Conventional photonic crystals have optical pro...", "citations": 4, "author_count": 3, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4691, "doi": "10.1364/OE.16.021682", "umap_coordinates": { "x": 393.9283447265625, "y": 133.70896911621094, "z": 206.79226684570312 }, "tsne_coordinates": { "x": -3.005246162414551, "y": -11.960710525512695, "z": -32.461463928222656 }, "pca_coordinates": { "x": -0.2958405017852783, "y": -3.0501599311828613, "z": 1.9494178295135498 }, "axis_scores": { "Quantum imaging": 0.7328077554702759, "Quantum Life Science Sensing": 0.7022387981414795, "Quantum sensing Detection": 0.7149425148963928, "Quantum sensing Metrology": 0.7128543257713318, "Quantum sensing navigation": 0.7393807768821716, "Quantum sensing Position": 0.7037410140037537, "Quantum sensing Timing": 0.7251272797584534, "Quantum sensing": 0.73403400182724, "Quantum control": 0.7322096824645996 } }, { "id": 4685, "title": "Assessment of metal artifacts from titanium wrist prostheses: photon-counting versus energy-integrating detector CT", "abstract": "BackgroundWe compared photon-counting detector computed tomography (PCD-CT) polyenergetic images, PCD-CT virtual monoenergetic images (VMI), and energy-integrating detector computed tomography (EID-CT...", "citations": 1, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4692, "doi": "10.1186/s41747-025-00587-w", "umap_coordinates": { "x": 395.2757873535156, "y": 133.14849853515625, "z": 204.78663635253906 }, "tsne_coordinates": { "x": -5.55291223526001, "y": 27.32404327392578, "z": -17.483314514160156 }, "pca_coordinates": { "x": -4.326720237731934, "y": 2.8555665016174316, "z": 2.662161350250244 }, "axis_scores": { "Quantum imaging": 0.6798744797706604, "Quantum Life Science Sensing": 0.6602073311805725, "Quantum sensing Detection": 0.665149986743927, "Quantum sensing Metrology": 0.6461718678474426, "Quantum sensing navigation": 0.6569066047668457, "Quantum sensing Position": 0.6722851991653442, "Quantum sensing Timing": 0.6915864944458008, "Quantum sensing": 0.6628349423408508, "Quantum control": 0.6262034177780151 } }, { "id": 4686, "title": "A surface-hopping method for semiclassical calculations of cross sections for radiative association with electronic transitions", "abstract": "A semiclassical method based on surface-hopping techniques is developed to model the dynamics of radiative association with electronic transitions. It can be proven that this method is an extension of...", "citations": 8, "author_count": 3, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4693, "doi": "10.1063/1.5000573", "umap_coordinates": { "x": 393.7078857421875, "y": 136.73007202148438, "z": 206.73228454589844 }, "tsne_coordinates": { "x": 29.518863677978516, "y": -29.51331329345703, "z": -5.427528381347656 }, "pca_coordinates": { "x": 1.6445190906524658, "y": -1.013324499130249, "z": 0.5260670781135559 }, "axis_scores": { "Quantum imaging": 0.6700237393379211, "Quantum Life Science Sensing": 0.7076691389083862, "Quantum sensing Detection": 0.6844507455825806, "Quantum sensing Metrology": 0.6851022243499756, "Quantum sensing navigation": 0.6816608905792236, "Quantum sensing Position": 0.6712014675140381, "Quantum sensing Timing": 0.6811601519584656, "Quantum sensing": 0.6960011124610901, "Quantum control": 0.6506463289260864 } }, { "id": 4687, "title": "Sensitive detection of C. parvum using near infrared emitting Ag2S@silica core-shell nanospheres", "abstract": "An optical immunosensor was developed using anti-oocysts McAb immobilized near-infrared (NIR) emitting Ag2S@silica core-shell nanospheres for the detection of C. parvum in water. The formation of the ...", "citations": 13, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4694, "doi": "10.1039/c4ra10833g", "umap_coordinates": { "x": 392.5981140136719, "y": 134.45379638671875, "z": 205.5842742919922 }, "tsne_coordinates": { "x": 13.890359878540039, "y": 0.7199632525444031, "z": -9.935863494873047 }, "pca_coordinates": { "x": -3.6927154064178467, "y": -2.2420029640197754, "z": -0.06430846452713013 }, "axis_scores": { "Quantum imaging": 0.6788667440414429, "Quantum Life Science Sensing": 0.7373611927032471, "Quantum sensing Detection": 0.7165684700012207, "Quantum sensing Metrology": 0.6960198879241943, "Quantum sensing navigation": 0.6681381464004517, "Quantum sensing Position": 0.6666551828384399, "Quantum sensing Timing": 0.6445773839950562, "Quantum sensing": 0.7132247090339661, "Quantum control": 0.6587848663330078 } }, { "id": 4688, "title": "Growth and Characterization of Strained and Alloyed Type-II ZnTe/ZnSe Core-Shell Nanocrystals", "abstract": "We investigate the growth and the physical and optical properties of type-II heterostructured ZnTe/ZnSe colloidal nanocrystals, focusing on the role of the 7% lattice mismatch between the two material...", "citations": 67, "author_count": 12, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4695, "doi": "10.1021/jp3087804", "umap_coordinates": { "x": 391.8075256347656, "y": 134.46182250976562, "z": 206.5834503173828 }, "tsne_coordinates": { "x": 22.32378387451172, "y": -3.077792167663574, "z": 5.34304666519165 }, "pca_coordinates": { "x": -2.876591444015503, "y": -2.9379711151123047, "z": -1.1273200511932373 }, "axis_scores": { "Quantum imaging": 0.6818901896476746, "Quantum Life Science Sensing": 0.689248263835907, "Quantum sensing Detection": 0.6590080261230469, "Quantum sensing Metrology": 0.6617263555526733, "Quantum sensing navigation": 0.6636849045753479, "Quantum sensing Position": 0.6618928909301758, "Quantum sensing Timing": 0.6559505462646484, "Quantum sensing": 0.673014223575592, "Quantum control": 0.6607682108879089 } }, { "id": 4689, "title": "A computational study of radiationless deactivation mechanisms of furan", "abstract": "Possible mechanisms for the radiationless deactivation of photo-excited furan have been investigated using high-level electronic structure methods. Two different conical intersections between the S-0 ...", "citations": 35, "author_count": 3, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4696, "doi": "10.1016/j.chemphys.2010.10.002", "umap_coordinates": { "x": 393.1629333496094, "y": 136.7010040283203, "z": 205.81947326660156 }, "tsne_coordinates": { "x": -2.2893190383911133, "y": 7.725876808166504, "z": 12.137996673583984 }, "pca_coordinates": { "x": -1.3752776384353638, "y": 1.7492481470108032, "z": -1.455134391784668 }, "axis_scores": { "Quantum imaging": 0.7184262275695801, "Quantum Life Science Sensing": 0.7333455681800842, "Quantum sensing Detection": 0.7135857939720154, "Quantum sensing Metrology": 0.6818438172340393, "Quantum sensing navigation": 0.6960023045539856, "Quantum sensing Position": 0.6520155072212219, "Quantum sensing Timing": 0.6642926931381226, "Quantum sensing": 0.7167512774467468, "Quantum control": 0.6905441284179688 } }, { "id": 4690, "title": "A MONTE-CARLO PROGRAM FOR THE SIMULATION OF SCINTILLATION CAMERA CHARACTERISTICS", "abstract": "There is a need for mathematical modelling for the evaluation of important parameters for photon imaging systems. A Monte Carlo program which simulates medical imaging nuclear detectors has been devel...", "citations": 461, "author_count": 3, "categories": [ "Computer Science" ], "year": 1989, "topic": [ "all" ], "embedding_index": 4697, "doi": "10.1016/0169-2607(89)90111-9", "umap_coordinates": { "x": 395.0963134765625, "y": 132.99815368652344, "z": 205.4912567138672 }, "tsne_coordinates": { "x": -12.178797721862793, "y": 22.552547454833984, "z": -10.859481811523438 }, "pca_coordinates": { "x": -2.3868839740753174, "y": 2.3440985679626465, "z": 3.0147552490234375 }, "axis_scores": { "Quantum imaging": 0.6897457838058472, "Quantum Life Science Sensing": 0.7105295062065125, "Quantum sensing Detection": 0.6820454001426697, "Quantum sensing Metrology": 0.6872486472129822, "Quantum sensing navigation": 0.6845589876174927, "Quantum sensing Position": 0.6742714047431946, "Quantum sensing Timing": 0.691851019859314, "Quantum sensing": 0.68446284532547, "Quantum control": 0.6431084275245667 } }, { "id": 4691, "title": "SIGNIFICANCE OF QUANTUM FLUCTUATIONS IN ROENTGEN IMAGING", "abstract": "Quantum fluctuations in the roentgen radiation relief are analyzed mathematically. The intrinsic signal-to-noise ratio of the radiation relief for a given object contrast is proportional to the square...", "citations": 11, "author_count": 2, "categories": [ "Oncology" ], "year": 1980, "topic": [ "all" ], "embedding_index": 4698, "doi": "10.3109/02841868009130144", "umap_coordinates": { "x": 394.62298583984375, "y": 136.182373046875, "z": 205.9805908203125 }, "tsne_coordinates": { "x": -38.24012756347656, "y": 8.293703079223633, "z": 14.499438285827637 }, "pca_coordinates": { "x": 0.18877172470092773, "y": 2.8288373947143555, "z": -0.7910494804382324 }, "axis_scores": { "Quantum imaging": 0.7623147964477539, "Quantum Life Science Sensing": 0.7566956281661987, "Quantum sensing Detection": 0.7313809394836426, "Quantum sensing Metrology": 0.722588062286377, "Quantum sensing navigation": 0.7520672678947449, "Quantum sensing Position": 0.7265459895133972, "Quantum sensing Timing": 0.7065863013267517, "Quantum sensing": 0.7461400628089905, "Quantum control": 0.73567795753479 } }, { "id": 4692, "title": "A Long Residence Time Enoyl-Reductase Inhibitor Explores an Extended Binding Region with Isoenzyme-Dependent Tautomer Adaptation and Differential Substrate-Binding Loop Closure", "abstract": "The enoyl-acyl carrier protein (ACP) reductase (ENR) is a key enzyme within the bacterial fatty-acid synthesis pathway. It has been demonstrated that small-molecule inhibitors carrying the diphenyleth...", "citations": 7, "author_count": 13, "categories": [ "Pharmacology & Pharmacy" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4699, "doi": "10.1021/acsinfecdis.0c00437", "umap_coordinates": { "x": 392.8398132324219, "y": 136.3124542236328, "z": 204.7437744140625 }, "tsne_coordinates": { "x": 25.660104751586914, "y": 14.961685180664062, "z": 20.53093910217285 }, "pca_coordinates": { "x": -2.9161107540130615, "y": 2.095881462097168, "z": -2.7397215366363525 }, "axis_scores": { "Quantum imaging": 0.6426765322685242, "Quantum Life Science Sensing": 0.6645939946174622, "Quantum sensing Detection": 0.6139001846313477, "Quantum sensing Metrology": 0.5979933738708496, "Quantum sensing navigation": 0.6250866055488586, "Quantum sensing Position": 0.6210789680480957, "Quantum sensing Timing": 0.6382554769515991, "Quantum sensing": 0.6249120235443115, "Quantum control": 0.6237340569496155 } }, { "id": 4693, "title": "Demonstrating Majorana non-Abelian properties using fast adiabatic charge transfer", "abstract": "Demonstration of Majorana non-Abelian properties is a major challenge in the field of topological superconductivity. In this work, we propose a minimal device and protocol for testing non-Abelian prop...", "citations": 9, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4700, "doi": "10.1103/PhysRevB.105.045425", "umap_coordinates": { "x": 394.8360595703125, "y": 137.49281311035156, "z": 207.75259399414062 }, "tsne_coordinates": { "x": -28.996646881103516, "y": -26.9448299407959, "z": 11.436500549316406 }, "pca_coordinates": { "x": 3.2390975952148438, "y": 0.2988548278808594, "z": 0.2666851282119751 }, "axis_scores": { "Quantum imaging": 0.6926077604293823, "Quantum Life Science Sensing": 0.6721336841583252, "Quantum sensing Detection": 0.6685178875923157, "Quantum sensing Metrology": 0.6570777297019958, "Quantum sensing navigation": 0.6624305844306946, "Quantum sensing Position": 0.632475733757019, "Quantum sensing Timing": 0.6384320259094238, "Quantum sensing": 0.6799664497375488, "Quantum control": 0.6759724617004395 } }, { "id": 4694, "title": "Photoluminescence Evolution with Deposition Thickness of Ge Nanostructures Embedded in GaSb", "abstract": "Herein, low-temperature and temperature-dependent photoluminescence (PL) measurements are carried out on highly tensile-strained Ge nanostructures embedded in GaSb matrix, and the effects of Ge deposi...", "citations": 4, "author_count": 12, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4701, "doi": "10.1002/pssb.202100418", "umap_coordinates": { "x": 392.6446228027344, "y": 134.4347381591797, "z": 207.131591796875 }, "tsne_coordinates": { "x": 27.623830795288086, "y": -8.469850540161133, "z": 14.884610176086426 }, "pca_coordinates": { "x": -1.1119492053985596, "y": -2.095076084136963, "z": -0.3119467794895172 }, "axis_scores": { "Quantum imaging": 0.6933287382125854, "Quantum Life Science Sensing": 0.7181450724601746, "Quantum sensing Detection": 0.6840786933898926, "Quantum sensing Metrology": 0.6725292801856995, "Quantum sensing navigation": 0.6891781687736511, "Quantum sensing Position": 0.7053871154785156, "Quantum sensing Timing": 0.6655300855636597, "Quantum sensing": 0.687544584274292, "Quantum control": 0.6509051322937012 } }, { "id": 4695, "title": "Surface-Initiated Controlled Radical Polymerization Approach to In Situ Cross-Link Cellulose Nanofibrils with Inorganic Nanoparticles", "abstract": "This paper investigates a strategy to convert hydrophilic cellulose nanofibrils (CNF) into a hydrophobic highly cross-linked network made of cellulose nanofibrils and inorganic nanoparticles. First, t...", "citations": 28, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4702, "doi": "10.1021/acs.biomac.0c00210", "umap_coordinates": { "x": 392.8789367675781, "y": 134.38232421875, "z": 204.1371307373047 }, "tsne_coordinates": { "x": 24.971986770629883, "y": 23.950599670410156, "z": -0.6430379152297974 }, "pca_coordinates": { "x": -4.802772045135498, "y": -2.06707763671875, "z": -1.7452411651611328 }, "axis_scores": { "Quantum imaging": 0.6517651081085205, "Quantum Life Science Sensing": 0.6833992600440979, "Quantum sensing Detection": 0.6454286575317383, "Quantum sensing Metrology": 0.6291562914848328, "Quantum sensing navigation": 0.6361726522445679, "Quantum sensing Position": 0.6193246841430664, "Quantum sensing Timing": 0.5965885519981384, "Quantum sensing": 0.6523698568344116, "Quantum control": 0.6552238464355469 } }, { "id": 4696, "title": "A protected excitation-energy reservoir for efficient upconversion luminescence", "abstract": "Lanthanide-doped upconversion nanoparticles (UCNPs) are of great interest for biomedical applications. Currently, the applicability of UCNP bionanotechnology is hampered by the generally low luminesce...", "citations": 50, "author_count": 10, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4703, "doi": "10.1039/c7nr06900f", "umap_coordinates": { "x": 391.97802734375, "y": 134.63064575195312, "z": 205.17481994628906 }, "tsne_coordinates": { "x": 9.238348960876465, "y": -7.560428619384766, "z": -5.4605326652526855 }, "pca_coordinates": { "x": -2.4055042266845703, "y": -1.3005151748657227, "z": 0.37306708097457886 }, "axis_scores": { "Quantum imaging": 0.6718528866767883, "Quantum Life Science Sensing": 0.6874526739120483, "Quantum sensing Detection": 0.6548032760620117, "Quantum sensing Metrology": 0.6521967649459839, "Quantum sensing navigation": 0.6517511606216431, "Quantum sensing Position": 0.6339972019195557, "Quantum sensing Timing": 0.6362790465354919, "Quantum sensing": 0.6729149222373962, "Quantum control": 0.6380301713943481 } }, { "id": 4697, "title": "Structural and optical properties of visible active photocatalytic WO3 thin films prepared by reactive dc magnetron sputtering", "abstract": "Nanostructured tungsten trioxide films were prepared by reactive dc magnetron sputtering at different working pressures P-tot = 1-4 Pa. The films were characterized by scanning electron microscopy, x-...", "citations": 39, "author_count": 4, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4704, "doi": "10.1557/jmr.2012.384", "umap_coordinates": { "x": 393.2542724609375, "y": 134.73297119140625, "z": 205.56683349609375 }, "tsne_coordinates": { "x": 16.09034538269043, "y": 10.399486541748047, "z": -1.682939887046814 }, "pca_coordinates": { "x": -2.3126749992370605, "y": -1.2873873710632324, "z": -1.1435072422027588 }, "axis_scores": { "Quantum imaging": 0.7122273445129395, "Quantum Life Science Sensing": 0.7480270862579346, "Quantum sensing Detection": 0.693636953830719, "Quantum sensing Metrology": 0.6988144516944885, "Quantum sensing navigation": 0.6866070032119751, "Quantum sensing Position": 0.6655901074409485, "Quantum sensing Timing": 0.6471417546272278, "Quantum sensing": 0.7128767967224121, "Quantum control": 0.6788868308067322 } }, { "id": 4698, "title": "Electronic structure and magnetism of transition metal doped Zn12O12 clusters: Role of defects", "abstract": "We present a comprehensive study of the energetics and magnetic properties of ZnO clusters doped with 3d transition metals (TMs) using ab initio density functional calculations in the framework of gen...", "citations": 25, "author_count": 4, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4705, "doi": "10.1063/1.3525649", "umap_coordinates": { "x": 392.8426208496094, "y": 135.51043701171875, "z": 207.8973846435547 }, "tsne_coordinates": { "x": 17.059560775756836, "y": -31.6473331451416, "z": 15.525829315185547 }, "pca_coordinates": { "x": 1.1967225074768066, "y": -2.105309009552002, "z": -3.314220905303955 }, "axis_scores": { "Quantum imaging": 0.7099292874336243, "Quantum Life Science Sensing": 0.721518874168396, "Quantum sensing Detection": 0.7129444479942322, "Quantum sensing Metrology": 0.7099154591560364, "Quantum sensing navigation": 0.7110497951507568, "Quantum sensing Position": 0.6962541341781616, "Quantum sensing Timing": 0.6751978993415833, "Quantum sensing": 0.7237731218338013, "Quantum control": 0.7047449350357056 } }, { "id": 4699, "title": "Nonadiabatic Josephson dynamics in junctions with in-gap quasiparticles", "abstract": "Conventional models of Josephson junction dynamics rely on the absence of low-energy quasiparticle states owing to a large superconducting gap. With this assumption the quasiparticle degrees of freedo...", "citations": 4, "author_count": 3, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4706, "doi": "10.1063/1.3516470", "umap_coordinates": { "x": 393.90618896484375, "y": 134.9319610595703, "z": 208.5897979736328 }, "tsne_coordinates": { "x": -1.1263453960418701, "y": -16.278749465942383, "z": 14.409204483032227 }, "pca_coordinates": { "x": 5.470823287963867, "y": -2.464573860168457, "z": -0.3646981716156006 }, "axis_scores": { "Quantum imaging": 0.7097269296646118, "Quantum Life Science Sensing": 0.6979880332946777, "Quantum sensing Detection": 0.6951494216918945, "Quantum sensing Metrology": 0.682020902633667, "Quantum sensing navigation": 0.7230879068374634, "Quantum sensing Position": 0.6792265772819519, "Quantum sensing Timing": 0.6892997622489929, "Quantum sensing": 0.7016741037368774, "Quantum control": 0.7007668018341064 } }, { "id": 4700, "title": "Aging phenomena in ferrofluids suitable for magnetic biosensor applications", "abstract": "Aging phenomena were investigated in three different ferrofluids containing submicron sized magnetic beads consisting of a cluster of iron oxide nanoparticles embedded in a dextrane matrix with primar...", "citations": 31, "author_count": 6, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4707, "doi": "10.1063/1.2424522", "umap_coordinates": { "x": 393.4989318847656, "y": 135.30319213867188, "z": 207.3761749267578 }, "tsne_coordinates": { "x": 13.49133014678955, "y": -32.6060905456543, "z": 12.715224266052246 }, "pca_coordinates": { "x": 0.338934063911438, "y": -0.9733905792236328, "z": -2.3485300540924072 }, "axis_scores": { "Quantum imaging": 0.6961364150047302, "Quantum Life Science Sensing": 0.7742990255355835, "Quantum sensing Detection": 0.7069898247718811, "Quantum sensing Metrology": 0.7199240922927856, "Quantum sensing navigation": 0.6984354853630066, "Quantum sensing Position": 0.6785809397697449, "Quantum sensing Timing": 0.6745493412017822, "Quantum sensing": 0.7212822437286377, "Quantum control": 0.6859700679779053 } }, { "id": 4701, "title": "A novel device principle for nanoelectronics", "abstract": "We report on the results of our recent theoretical and experimental investigations of a novel, room temperature electrical property of three-terminal ballistic junctions (TBJs). For a symmetric TBJ de...", "citations": 10, "author_count": 7, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4708, "doi": "10.1016/S0928-4931(01)00435-0", "umap_coordinates": { "x": 393.62158203125, "y": 134.3051300048828, "z": 205.90924072265625 }, "tsne_coordinates": { "x": -10.573107719421387, "y": 8.759193420410156, "z": -2.8733437061309814 }, "pca_coordinates": { "x": -1.3322961330413818, "y": -1.505648136138916, "z": 1.098203182220459 }, "axis_scores": { "Quantum imaging": 0.7000109553337097, "Quantum Life Science Sensing": 0.7498242855072021, "Quantum sensing Detection": 0.7266589403152466, "Quantum sensing Metrology": 0.7258245348930359, "Quantum sensing navigation": 0.7097151875495911, "Quantum sensing Position": 0.7198801040649414, "Quantum sensing Timing": 0.6741949319839478, "Quantum sensing": 0.7310245037078857, "Quantum control": 0.6862620711326599 } }, { "id": 4702, "title": "Anharmonicity of a superconducting qubit with a few-mode Josephson junction", "abstract": "Coherent operation of gate-voltage-controlled hybrid transmon qubits (gatemons) based on semiconductor nanowires was recently demonstrated. Here we experimentally investigate the anharmonicity in epit...", "citations": 58, "author_count": 12, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4709, "doi": "10.1103/PhysRevB.97.060508", "umap_coordinates": { "x": 395.0175476074219, "y": 135.4779815673828, "z": 208.5043487548828 }, "tsne_coordinates": { "x": -10.68077564239502, "y": -22.645856857299805, "z": 3.523664951324463 }, "pca_coordinates": { "x": 5.082550525665283, "y": -0.4348738193511963, "z": 1.5440037250518799 }, "axis_scores": { "Quantum imaging": 0.6900942921638489, "Quantum Life Science Sensing": 0.7055466175079346, "Quantum sensing Detection": 0.7078171968460083, "Quantum sensing Metrology": 0.6964282393455505, "Quantum sensing navigation": 0.6972512006759644, "Quantum sensing Position": 0.6754902005195618, "Quantum sensing Timing": 0.7070648074150085, "Quantum sensing": 0.707257091999054, "Quantum control": 0.6651685833930969 } }, { "id": 4703, "title": "VCSEL-based oxygen spectroscopy for structural analysis of pharmaceutical solids", "abstract": "We present a minimalistic and flexible single-beam instrumentation based on sensitive tunable diode laser absorption spectroscopy (TDLAS) and its use in structural analysis of highly scattering pharma...", "citations": 77, "author_count": 8, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4710, "doi": "10.1007/s00340-007-2901-6", "umap_coordinates": { "x": 393.84588623046875, "y": 134.99496459960938, "z": 204.5766143798828 }, "tsne_coordinates": { "x": -11.792428970336914, "y": 15.21449089050293, "z": 1.4933044910430908 }, "pca_coordinates": { "x": -3.1869237422943115, "y": 0.7656378746032715, "z": -0.4941493272781372 }, "axis_scores": { "Quantum imaging": 0.7099307775497437, "Quantum Life Science Sensing": 0.7513978481292725, "Quantum sensing Detection": 0.6912246346473694, "Quantum sensing Metrology": 0.6943762898445129, "Quantum sensing navigation": 0.6985279321670532, "Quantum sensing Position": 0.6957056522369385, "Quantum sensing Timing": 0.659201443195343, "Quantum sensing": 0.7081347703933716, "Quantum control": 0.6804556250572205 } }, { "id": 4704, "title": "Interactions Between Graphene-Based Materials and Biological Surfaces: A Review of Underlying Molecular Mechanisms", "abstract": "Understanding the underlying molecular mechanism of how graphene materials (GMs) interact with biological surfaces is the key to develop safe and effective biomedical applications of GMs. Here, a syst...", "citations": 29, "author_count": 5, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4711, "doi": "10.1002/admi.202101132", "umap_coordinates": { "x": 393.8508605957031, "y": 134.54893493652344, "z": 204.03941345214844 }, "tsne_coordinates": { "x": 22.00606918334961, "y": 25.524227142333984, "z": -6.062812328338623 }, "pca_coordinates": { "x": -1.5558488368988037, "y": 0.5788564682006836, "z": -1.9170849323272705 }, "axis_scores": { "Quantum imaging": 0.6806894540786743, "Quantum Life Science Sensing": 0.7082314491271973, "Quantum sensing Detection": 0.6701194047927856, "Quantum sensing Metrology": 0.6685748100280762, "Quantum sensing navigation": 0.6681250333786011, "Quantum sensing Position": 0.6554421186447144, "Quantum sensing Timing": 0.6408880949020386, "Quantum sensing": 0.6821838617324829, "Quantum control": 0.6589494943618774 } }, { "id": 4705, "title": "UV-INDUCED FREE-RADICALS IN ORIENTED DNA", "abstract": "Samples of oriented DNA [calf thymus] containing 30% water were UV-irradiated at 77.degree. K and investigated by EPR. The EPR spectra recorded in directions parallel and perpendicular to the DNA fibe...", "citations": 27, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1979, "topic": [ "all" ], "embedding_index": 4712, "doi": "10.1111/j.1751-1097.1979.tb07045.x", "umap_coordinates": { "x": 394.0880432128906, "y": 136.2283935546875, "z": 204.02801513671875 }, "tsne_coordinates": { "x": 4.357860565185547, "y": 33.20705795288086, "z": 16.960474014282227 }, "pca_coordinates": { "x": 0.008621931076049805, "y": 1.4986746311187744, "z": -0.9327424764633179 }, "axis_scores": { "Quantum imaging": 0.6854575872421265, "Quantum Life Science Sensing": 0.7001970410346985, "Quantum sensing Detection": 0.6832267045974731, "Quantum sensing Metrology": 0.6506181359291077, "Quantum sensing navigation": 0.684292197227478, "Quantum sensing Position": 0.6712923645973206, "Quantum sensing Timing": 0.6778534650802612, "Quantum sensing": 0.6817301511764526, "Quantum control": 0.6769521236419678 } }, { "id": 4706, "title": "Shape-controlled Bose-Einstein condensation", "abstract": "Size-invariant shape transformation is a geometric technique that allows for a clear separation between quantum size and shape effects by modifying the shape of the confinement domain without altering...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4713, "doi": "10.1088/1402-4896/ad9fb2", "umap_coordinates": { "x": 394.8020935058594, "y": 135.49432373046875, "z": 206.25074768066406 }, "tsne_coordinates": { "x": 33.15210723876953, "y": -0.34877127408981323, "z": 10.838272094726562 }, "pca_coordinates": { "x": -0.9973688125610352, "y": 1.8797328472137451, "z": -1.234246850013733 }, "axis_scores": { "Quantum imaging": 0.7039387226104736, "Quantum Life Science Sensing": 0.7132485508918762, "Quantum sensing Detection": 0.6894810199737549, "Quantum sensing Metrology": 0.680801272392273, "Quantum sensing navigation": 0.7014898061752319, "Quantum sensing Position": 0.6831852197647095, "Quantum sensing Timing": 0.6846932172775269, "Quantum sensing": 0.708228588104248, "Quantum control": 0.7513747215270996 } }, { "id": 4707, "title": "Correlated quantum dynamics of graphene clusters", "abstract": "Phase-space representations are a family of methods for dynamics of both bosonic , fermionic systems, that work by mapping the system's density matrix to a quasiprobability density and the Liouville-v...", "citations": 2, "author_count": 4, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4714, "doi": "10.1103/PhysRevB.107.134306", "umap_coordinates": { "x": 395.0353698730469, "y": 136.369873046875, "z": 208.68927001953125 }, "tsne_coordinates": { "x": -15.405903816223145, "y": -22.56623077392578, "z": 4.17166805267334 }, "pca_coordinates": { "x": 6.0437750816345215, "y": -0.6031529903411865, "z": -1.0695445537567139 }, "axis_scores": { "Quantum imaging": 0.7298088669776917, "Quantum Life Science Sensing": 0.7381787896156311, "Quantum sensing Detection": 0.7419073581695557, "Quantum sensing Metrology": 0.7060495615005493, "Quantum sensing navigation": 0.7385926842689514, "Quantum sensing Position": 0.7163779139518738, "Quantum sensing Timing": 0.7125679850578308, "Quantum sensing": 0.7443953156471252, "Quantum control": 0.7317098379135132 } }, { "id": 4708, "title": "Ultrafast photonics applications of emerging 2D-Xenes beyond graphene", "abstract": "Driven by new two-dimensional materials, great changes and progress have taken place in the field of ultrafast photonics in recent years. Among them, the emerging single element two-dimensional materi...", "citations": 97, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4715, "doi": "10.1515/nanoph-2022-0045", "umap_coordinates": { "x": 394.202392578125, "y": 134.51292419433594, "z": 205.84800720214844 }, "tsne_coordinates": { "x": 7.701822757720947, "y": -2.6113696098327637, "z": -29.23812484741211 }, "pca_coordinates": { "x": -1.3233239650726318, "y": -0.5783896446228027, "z": 0.4788309931755066 }, "axis_scores": { "Quantum imaging": 0.7427048683166504, "Quantum Life Science Sensing": 0.7491007447242737, "Quantum sensing Detection": 0.7171294689178467, "Quantum sensing Metrology": 0.7227956652641296, "Quantum sensing navigation": 0.7180909514427185, "Quantum sensing Position": 0.6877090334892273, "Quantum sensing Timing": 0.6893882155418396, "Quantum sensing": 0.730685830116272, "Quantum control": 0.6937562823295593 } }, { "id": 4709, "title": "Interplay between amphiphilic peptides and nanoparticles for selective membrane destabilization and antimicrobial effects", "abstract": "As a result of an increasing number of bacteria developing resistance against antibiotics, antimicrobial peptides (AMPs) are attracting significant interest, particularly in relation to identification...", "citations": 16, "author_count": 3, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4716, "doi": "10.1016/j.cocis.2019.09.004", "umap_coordinates": { "x": 393.3352966308594, "y": 134.4783935546875, "z": 204.0678253173828 }, "tsne_coordinates": { "x": 23.810468673706055, "y": 21.3240966796875, "z": 6.26913595199585 }, "pca_coordinates": { "x": -3.835582971572876, "y": 0.11184263229370117, "z": -3.0372142791748047 }, "axis_scores": { "Quantum imaging": 0.6877977848052979, "Quantum Life Science Sensing": 0.7252042293548584, "Quantum sensing Detection": 0.6786777973175049, "Quantum sensing Metrology": 0.6705465316772461, "Quantum sensing navigation": 0.6700118184089661, "Quantum sensing Position": 0.6522256731987, "Quantum sensing Timing": 0.6348523497581482, "Quantum sensing": 0.6978185176849365, "Quantum control": 0.69325190782547 } }, { "id": 4710, "title": "Neutrinos from active black holes, sources of ultra high energy cosmic rays", "abstract": "A correlation between the highest energy cosmic rays (above similar to 60 EeV) and the distribution of active galactic nuclei (AGN) gives rise to a prediction of neutrino production in the same source...", "citations": 37, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4717, "doi": "10.1016/j.astropartphys.2008.12.006", "umap_coordinates": { "x": 396.0538330078125, "y": 134.7227783203125, "z": 205.9998016357422 }, "tsne_coordinates": { "x": -23.530805587768555, "y": 28.133432388305664, "z": 1.4386905431747437 }, "pca_coordinates": { "x": -0.6061164736747742, "y": 1.2641139030456543, "z": 1.1242315769195557 }, "axis_scores": { "Quantum imaging": 0.6982367634773254, "Quantum Life Science Sensing": 0.7251720428466797, "Quantum sensing Detection": 0.7095214128494263, "Quantum sensing Metrology": 0.6876387596130371, "Quantum sensing navigation": 0.7092775106430054, "Quantum sensing Position": 0.6950733661651611, "Quantum sensing Timing": 0.6912232041358948, "Quantum sensing": 0.713162899017334, "Quantum control": 0.6694176197052002 } }, { "id": 4711, "title": "Bethe ansatz and fluctuations in SU(3) Yang-Mills operators - art. no. 010", "abstract": "We consider the scalar operators corresponding to semiclassical string states in AdS(5) x S-5 with the three angular momenta in S-5 non-trivial. The string states receive quantum corrections and we st...", "citations": 34, "author_count": 2, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4718, "doi": null, "umap_coordinates": { "x": 392.1043701171875, "y": 139.35154724121094, "z": 209.4943389892578 }, "tsne_coordinates": { "x": -6.130923748016357, "y": 41.24835205078125, "z": 0.36030498147010803 }, "pca_coordinates": { "x": 0.013659477233886719, "y": 3.681720018386841, "z": -2.8926589488983154 }, "axis_scores": { "Quantum imaging": 0.7320655584335327, "Quantum Life Science Sensing": 0.744504988193512, "Quantum sensing Detection": 0.746837854385376, "Quantum sensing Metrology": 0.7409110069274902, "Quantum sensing navigation": 0.7594392895698547, "Quantum sensing Position": 0.7186033129692078, "Quantum sensing Timing": 0.7021578550338745, "Quantum sensing": 0.761310875415802, "Quantum control": 0.7720776796340942 } }, { "id": 4712, "title": "Role of material loss and mode volume of plasmonic nanocavities for strong plasmon-exciton interactions", "abstract": "We investigate the role of material loss and mode volume of plasmonic nanostructures on strong plasmon-exciton coupling. We find that the field enhancement, and therefore loss, is not important for th...", "citations": 69, "author_count": 4, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4719, "doi": "10.1364/OE.24.020373", "umap_coordinates": { "x": 393.0976257324219, "y": 133.92491149902344, "z": 206.2318115234375 }, "tsne_coordinates": { "x": 9.126066207885742, "y": -12.251541137695312, "z": -11.232128143310547 }, "pca_coordinates": { "x": -1.9950653314590454, "y": -2.161592483520508, "z": 0.11304980516433716 }, "axis_scores": { "Quantum imaging": 0.7018702626228333, "Quantum Life Science Sensing": 0.6912172436714172, "Quantum sensing Detection": 0.683804452419281, "Quantum sensing Metrology": 0.6852344870567322, "Quantum sensing navigation": 0.6704529523849487, "Quantum sensing Position": 0.6714227199554443, "Quantum sensing Timing": 0.6420535445213318, "Quantum sensing": 0.6921477317810059, "Quantum control": 0.6650694012641907 } }, { "id": 4713, "title": "Gauge Invariance, Correlated Fermions, and Photon Mass in 2+1 Dimensions", "abstract": "We present a 2+1 dimensional quantum gauge theory with correlated fermions that is exactly solvable by bosonization. This model describes a system of Luttinger liquids propagating on two sets of equid...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4720, "doi": "10.1007/s10955-013-0912-8", "umap_coordinates": { "x": 395.142578125, "y": 136.19607543945312, "z": 206.19113159179688 }, "tsne_coordinates": { "x": -40.159603118896484, "y": 4.4100022315979, "z": 11.433563232421875 }, "pca_coordinates": { "x": 0.8754725456237793, "y": 1.0111112594604492, "z": 1.5500576496124268 }, "axis_scores": { "Quantum imaging": 0.7322587966918945, "Quantum Life Science Sensing": 0.7073518633842468, "Quantum sensing Detection": 0.7310968041419983, "Quantum sensing Metrology": 0.7222292423248291, "Quantum sensing navigation": 0.7414250373840332, "Quantum sensing Position": 0.7143676280975342, "Quantum sensing Timing": 0.7088824510574341, "Quantum sensing": 0.7303968667984009, "Quantum control": 0.7091951370239258 } }, { "id": 4714, "title": "An environmental-sensitive BODIPY®-derivative with bioapplication:: Spectral and photophysical properties", "abstract": "A previously synthesised derivative of BODIPY aimed for sulfhydryl specific labelling of cysteine residues in proteins was studied. The spectral and photophysical properties of this derivative, N-( 4,...", "citations": 10, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4721, "doi": "10.1023/A:1026156605013", "umap_coordinates": { "x": 392.8125, "y": 135.45050048828125, "z": 204.22549438476562 }, "tsne_coordinates": { "x": 5.41940975189209, "y": 11.747069358825684, "z": -7.519020080566406 }, "pca_coordinates": { "x": -5.45208740234375, "y": -0.9508147239685059, "z": -0.44508805871009827 }, "axis_scores": { "Quantum imaging": 0.6777043342590332, "Quantum Life Science Sensing": 0.7238907814025879, "Quantum sensing Detection": 0.6898933053016663, "Quantum sensing Metrology": 0.6794241666793823, "Quantum sensing navigation": 0.6573280096054077, "Quantum sensing Position": 0.6674793362617493, "Quantum sensing Timing": 0.6387675404548645, "Quantum sensing": 0.6972182393074036, "Quantum control": 0.6403976678848267 } }, { "id": 4715, "title": "ALIGNMENT OF MAGNETIC SUBSTATES IN DOUBLE-ELECTRON-CAPTURE COLLISIONS", "abstract": "We have determined the magnetic-substate alignment produced in double-electron capture by the H-like projectiles C5+ and B4+ from He atoms by measuring the anisotropy of the Auger electron emission fr...", "citations": 10, "author_count": 6, "categories": [ "Optics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 4722, "doi": "10.1103/PhysRevA.48.1964", "umap_coordinates": { "x": 394.4100036621094, "y": 135.83718872070312, "z": 208.78196716308594 }, "tsne_coordinates": { "x": -0.07228635996580124, "y": -31.034555435180664, "z": 10.943363189697266 }, "pca_coordinates": { "x": 4.164162635803223, "y": 0.102447509765625, "z": -1.0727355480194092 }, "axis_scores": { "Quantum imaging": 0.6895976066589355, "Quantum Life Science Sensing": 0.6664024591445923, "Quantum sensing Detection": 0.6634488105773926, "Quantum sensing Metrology": 0.6664959788322449, "Quantum sensing navigation": 0.6895776987075806, "Quantum sensing Position": 0.6915355920791626, "Quantum sensing Timing": 0.7017015814781189, "Quantum sensing": 0.6714752912521362, "Quantum control": 0.6848700046539307 } }, { "id": 4716, "title": "Searches for exclusive Higgs and Z boson decays into a vector quarkonium state and a photon using 139 fb-1 of ATLAS √s=13 TeV proton-proton collision data", "abstract": "Searches for the exclusive decays of Higgs and Z bosons into a vector quarkonium state and a photon are performed in the mu(+)mu(-) gamma final state with a proton-proton collision data sample corresp...", "citations": 15, "author_count": 2607, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4723, "doi": "10.1140/epjc/s10052-023-11869-1", "umap_coordinates": { "x": 396.86260986328125, "y": 134.5482940673828, "z": 207.05242919921875 }, "tsne_coordinates": { "x": -31.639278411865234, "y": 11.510986328125, "z": -3.243000030517578 }, "pca_coordinates": { "x": -0.24407589435577393, "y": 2.1894326210021973, "z": 2.7426629066467285 }, "axis_scores": { "Quantum imaging": 0.6887908577919006, "Quantum Life Science Sensing": 0.6705904006958008, "Quantum sensing Detection": 0.6908887028694153, "Quantum sensing Metrology": 0.6634989380836487, "Quantum sensing navigation": 0.688906192779541, "Quantum sensing Position": 0.6663711071014404, "Quantum sensing Timing": 0.6913948059082031, "Quantum sensing": 0.6863142251968384, "Quantum control": 0.66745525598526 } }, { "id": 4717, "title": "THE EFFECT OF A GONADOTROPIN-RELEASING HORMONE AGONIST ANALOG (NAFARELIN) ON BONE METABOLISM", "abstract": "The effect on bone metabolism of an agonist analog of GnRH, nafarelin, was studied in 16 premenopausal women, who received 200 .mu.g nafarelin/day for 6 months, and 9 premenopausal women, who received...", "citations": 184, "author_count": 7, "categories": [ "Endocrinology & Metabolism" ], "year": 1988, "topic": [ "all" ], "embedding_index": 4724, "doi": "10.1210/jcem-67-4-701", "umap_coordinates": { "x": 395.1946716308594, "y": 135.02755737304688, "z": 204.20750427246094 }, "tsne_coordinates": { "x": 0.5881054401397705, "y": 34.20540237426758, "z": 10.240288734436035 }, "pca_coordinates": { "x": -1.5853115320205688, "y": 4.164422988891602, "z": -1.361870527267456 }, "axis_scores": { "Quantum imaging": 0.6605655550956726, "Quantum Life Science Sensing": 0.6780321002006531, "Quantum sensing Detection": 0.6448856592178345, "Quantum sensing Metrology": 0.6520909070968628, "Quantum sensing navigation": 0.6657798290252686, "Quantum sensing Position": 0.6613240838050842, "Quantum sensing Timing": 0.6609823107719421, "Quantum sensing": 0.6629343628883362, "Quantum control": 0.671282172203064 } }, { "id": 4718, "title": "Tuneable Nonlinear Spin Response in a Nonmagnetic Semiconductor", "abstract": "Nonlinear effects and dynamics are found in a wide range of research fields. In magnetic materials, nonlinear spin dynamics enables ultrafast manipulation of spin, which promises high-speed nonvolatil...", "citations": 1, "author_count": 9, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4725, "doi": "10.1103/PhysRevApplied.19.064048", "umap_coordinates": { "x": 393.50762939453125, "y": 135.8881072998047, "z": 208.49896240234375 }, "tsne_coordinates": { "x": -6.142435073852539, "y": -21.86003303527832, "z": 13.850601196289062 }, "pca_coordinates": { "x": 2.931565761566162, "y": -1.96854829788208, "z": -0.06368523836135864 }, "axis_scores": { "Quantum imaging": 0.7101505398750305, "Quantum Life Science Sensing": 0.7320533990859985, "Quantum sensing Detection": 0.7092437148094177, "Quantum sensing Metrology": 0.7019429206848145, "Quantum sensing navigation": 0.7171952724456787, "Quantum sensing Position": 0.6869234442710876, "Quantum sensing Timing": 0.6738577485084534, "Quantum sensing": 0.721509575843811, "Quantum control": 0.6799942255020142 } }, { "id": 4719, "title": "Simulation of double quantum well GaInNAs laser diodes", "abstract": "The simulation of double quantum well (QW) GaInNAs ridge-waveguide (RW) lasers is performed over a wide range of cavity lengths and operating temperatures using a comprehensive in-house 2D laser simul...", "citations": 16, "author_count": 15, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4726, "doi": "10.1049/iet-opt:20070036", "umap_coordinates": { "x": 394.1240539550781, "y": 133.7270050048828, "z": 206.9712371826172 }, "tsne_coordinates": { "x": -1.5564203262329102, "y": 3.5359725952148438, "z": -25.091899871826172 }, "pca_coordinates": { "x": -0.43721699714660645, "y": -1.7863783836364746, "z": 1.9465827941894531 }, "axis_scores": { "Quantum imaging": 0.7771261930465698, "Quantum Life Science Sensing": 0.7652251720428467, "Quantum sensing Detection": 0.7573747634887695, "Quantum sensing Metrology": 0.7501031756401062, "Quantum sensing navigation": 0.7524460554122925, "Quantum sensing Position": 0.7137821316719055, "Quantum sensing Timing": 0.7168782353401184, "Quantum sensing": 0.7675195336341858, "Quantum control": 0.7461522817611694 } }, { "id": 4720, "title": "Self-selective formation of ordered 1D and 2D GaBi structures on wurtzite GaAs nanowire surfaces", "abstract": "Scaling down material synthesis to crystalline structures only few atoms in size and precisely positioned in device configurations remains highly challenging, but is crucial for new applications e.g.,...", "citations": 10, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4727, "doi": "10.1038/s41467-021-26148-4", "umap_coordinates": { "x": 392.0970153808594, "y": 134.33892822265625, "z": 207.3557891845703 }, "tsne_coordinates": { "x": 20.677310943603516, "y": -12.3484525680542, "z": -7.94675350189209 }, "pca_coordinates": { "x": -1.3582689762115479, "y": -4.513723850250244, "z": -0.9867285490036011 }, "axis_scores": { "Quantum imaging": 0.6941243410110474, "Quantum Life Science Sensing": 0.6946468353271484, "Quantum sensing Detection": 0.6823012828826904, "Quantum sensing Metrology": 0.6901763677597046, "Quantum sensing navigation": 0.6981494426727295, "Quantum sensing Position": 0.6822413802146912, "Quantum sensing Timing": 0.6686156988143921, "Quantum sensing": 0.697573184967041, "Quantum control": 0.683609664440155 } }, { "id": 4721, "title": "Probing the Quantum Interference between Singly and Doubly Resonant Top-Quark Production in pp Collisions at √s=13 TeV with the ATLAS Detector", "abstract": "This Letter presents a normalized differential cross-section measurement in a fiducial phase-space region where interference effects between top-quark pair production and associated production of a si...", "citations": 24, "author_count": 2675, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4728, "doi": "10.1103/PhysRevLett.121.152002", "umap_coordinates": { "x": 397.08709716796875, "y": 134.46754455566406, "z": 207.65191650390625 }, "tsne_coordinates": { "x": -35.908348083496094, "y": 7.310286998748779, "z": -11.473445892333984 }, "pca_coordinates": { "x": 2.257087230682373, "y": 0.011123180389404297, "z": 3.3129324913024902 }, "axis_scores": { "Quantum imaging": 0.7161521315574646, "Quantum Life Science Sensing": 0.7033689022064209, "Quantum sensing Detection": 0.721644937992096, "Quantum sensing Metrology": 0.6917700171470642, "Quantum sensing navigation": 0.7081730365753174, "Quantum sensing Position": 0.6984224319458008, "Quantum sensing Timing": 0.7263031005859375, "Quantum sensing": 0.7233849167823792, "Quantum control": 0.6847489476203918 } }, { "id": 4722, "title": "Estimating internuclear distances between half-integer quadrupolar nuclei by central-transition double-quantum sideband NMR spectroscopy", "abstract": "We demonstrate the estimation of homonuclear dipolar couplings, and thereby internuclear distances, between half-integer spin quadrupolar nuclei by central-transition (CT) double-quantum (2Q) sideband...", "citations": 17, "author_count": 3, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4729, "doi": "10.1139/V11-020", "umap_coordinates": { "x": 392.721435546875, "y": 136.64663696289062, "z": 207.0070037841797 }, "tsne_coordinates": { "x": 16.705169677734375, "y": -0.6176381707191467, "z": 25.838306427001953 }, "pca_coordinates": { "x": 0.15104246139526367, "y": 1.5680928230285645, "z": -0.10007041692733765 }, "axis_scores": { "Quantum imaging": 0.7231742739677429, "Quantum Life Science Sensing": 0.7216567397117615, "Quantum sensing Detection": 0.7008543014526367, "Quantum sensing Metrology": 0.7160889506340027, "Quantum sensing navigation": 0.7178677916526794, "Quantum sensing Position": 0.7199569940567017, "Quantum sensing Timing": 0.7140780687332153, "Quantum sensing": 0.7168155312538147, "Quantum control": 0.6538335084915161 } }, { "id": 4723, "title": "Controlled switching of single-molecule junctions by mechanical motion of a phenyl ring", "abstract": "Mechanical methods for single-molecule control have potential for wide application in nanodevices and machines. Here we demonstrate the operation of a single-molecule switch made functional by the mot...", "citations": 11, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4730, "doi": "10.3762/bjnano.6.213", "umap_coordinates": { "x": 393.8040771484375, "y": 135.5994110107422, "z": 207.26995849609375 }, "tsne_coordinates": { "x": 7.434233665466309, "y": -11.464897155761719, "z": 28.555843353271484 }, "pca_coordinates": { "x": 0.8055840730667114, "y": -0.845313310623169, "z": -0.34793204069137573 }, "axis_scores": { "Quantum imaging": 0.7035119533538818, "Quantum Life Science Sensing": 0.7154221534729004, "Quantum sensing Detection": 0.7073140144348145, "Quantum sensing Metrology": 0.6980835795402527, "Quantum sensing navigation": 0.7289451956748962, "Quantum sensing Position": 0.7186467051506042, "Quantum sensing Timing": 0.7011086940765381, "Quantum sensing": 0.7211448550224304, "Quantum control": 0.7249671816825867 } }, { "id": 4724, "title": "Measurement of the photon identification efficiencies with the ATLAS detector using LHC Run 2 data collected in 2015 and 2016", "abstract": "The efficiency of the photon identification criteria in the ATLAS detector is measured using 36.1 fb1 to 36.7 fb1 of pp collision data at v s = 13 TeV collected in 2015 and 2016. The efficiencies are ...", "citations": 100, "author_count": 2680, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4731, "doi": "10.1140/epjc/s10052-019-6650-6", "umap_coordinates": { "x": 396.5269470214844, "y": 134.14862060546875, "z": 206.95130920410156 }, "tsne_coordinates": { "x": -30.77557373046875, "y": 16.254793167114258, "z": -9.293550491333008 }, "pca_coordinates": { "x": -1.1588985919952393, "y": 1.525285005569458, "z": 4.029367923736572 }, "axis_scores": { "Quantum imaging": 0.7098292112350464, "Quantum Life Science Sensing": 0.7027588486671448, "Quantum sensing Detection": 0.707842230796814, "Quantum sensing Metrology": 0.6959737539291382, "Quantum sensing navigation": 0.6981747150421143, "Quantum sensing Position": 0.691127359867096, "Quantum sensing Timing": 0.7284231781959534, "Quantum sensing": 0.7049587965011597, "Quantum control": 0.668975293636322 } }, { "id": 4725, "title": "Photon-counting computed tomography for paediatric congenital heart defects yields images of high diagnostic quality with low radiation doses at both 70 kV and 90 kV", "abstract": "Background Photon-counting computed tomography (PCCT) is a new clinical method that may show better diagnostic quality at lower radiation doses than conventional CT. Objective To investigate the diagn...", "citations": 14, "author_count": 8, "categories": [ "Pediatrics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4732, "doi": "10.1007/s00247-024-05939-z", "umap_coordinates": { "x": 395.41168212890625, "y": 133.43328857421875, "z": 204.93968200683594 }, "tsne_coordinates": { "x": -5.33349609375, "y": 20.573898315429688, "z": -10.39823055267334 }, "pca_coordinates": { "x": -3.121264934539795, "y": 1.217294692993164, "z": 2.9574787616729736 }, "axis_scores": { "Quantum imaging": 0.7126128673553467, "Quantum Life Science Sensing": 0.7077758312225342, "Quantum sensing Detection": 0.6870807409286499, "Quantum sensing Metrology": 0.6771697402000427, "Quantum sensing navigation": 0.690970778465271, "Quantum sensing Position": 0.6797006130218506, "Quantum sensing Timing": 0.6838988065719604, "Quantum sensing": 0.6912969350814819, "Quantum control": 0.6656827926635742 } }, { "id": 4726, "title": "Sign problem in Monte Carlo simulations of frustrated quantum spin systems", "abstract": "We discuss the: sign problem arising in Monte Carlo simulations of frustrated quantum spin systems. We show that for a class of semifrustrated systems [Heisenberg models with ferromagnetic couplings J...", "citations": 122, "author_count": 3, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 4733, "doi": "10.1103/PhysRevB.62.1102", "umap_coordinates": { "x": 394.2265625, "y": 136.87344360351562, "z": 208.69972229003906 }, "tsne_coordinates": { "x": -9.867807388305664, "y": -30.21149444580078, "z": 17.336929321289062 }, "pca_coordinates": { "x": 3.503718852996826, "y": 1.1622238159179688, "z": -1.3005576133728027 }, "axis_scores": { "Quantum imaging": 0.7181351780891418, "Quantum Life Science Sensing": 0.6993021965026855, "Quantum sensing Detection": 0.7197861075401306, "Quantum sensing Metrology": 0.7012888193130493, "Quantum sensing navigation": 0.7453381419181824, "Quantum sensing Position": 0.7102391123771667, "Quantum sensing Timing": 0.7013044357299805, "Quantum sensing": 0.7168685793876648, "Quantum control": 0.6997014880180359 } }, { "id": 4727, "title": "Transient photoluminescence spectroscopy of spin injection dynamics in double quantum wells of diluted magnetic semiconductors", "abstract": "Dynamics of spin injection has been studied in double quantum wells (DQWs) composed of diluted magnetic and non-magnetic semiconductors. Picosecond-transient photoluminescence (PL) of excitons in the ...", "citations": 1, "author_count": 8, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4734, "doi": "10.1016/j.jlumin.2006.01.061", "umap_coordinates": { "x": 392.619140625, "y": 135.3692626953125, "z": 207.72802734375 }, "tsne_coordinates": { "x": 21.25363540649414, "y": -0.04531516507267952, "z": 16.491619110107422 }, "pca_coordinates": { "x": -0.08717525005340576, "y": -2.2672719955444336, "z": -1.0476140975952148 }, "axis_scores": { "Quantum imaging": 0.7389469146728516, "Quantum Life Science Sensing": 0.7351714372634888, "Quantum sensing Detection": 0.7180160880088806, "Quantum sensing Metrology": 0.7021204829216003, "Quantum sensing navigation": 0.7090112566947937, "Quantum sensing Position": 0.6980201005935669, "Quantum sensing Timing": 0.697665274143219, "Quantum sensing": 0.7251777648925781, "Quantum control": 0.6955773830413818 } }, { "id": 4728, "title": "A comparative study of image quality and diagnostic confidence in diagnosis and follow-up of scaphoid fractures using photon-counting detector CT and energy-integrating detector CT", "abstract": "Purpose: Scaphoid fractures in patients and assessment of healing using PCD-CT have, as far as we know, not yet been studied. Therefore, the aim was to compare photon counting detector CT (PCD-CT) wit...", "citations": 3, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4735, "doi": "10.1016/j.ejrad.2024.111383", "umap_coordinates": { "x": 395.35760498046875, "y": 132.7097930908203, "z": 204.98019409179688 }, "tsne_coordinates": { "x": -4.159075736999512, "y": 25.952924728393555, "z": -18.043500900268555 }, "pca_coordinates": { "x": -3.6246674060821533, "y": 3.7457756996154785, "z": 3.2542238235473633 }, "axis_scores": { "Quantum imaging": 0.6926926970481873, "Quantum Life Science Sensing": 0.67699134349823, "Quantum sensing Detection": 0.6724597215652466, "Quantum sensing Metrology": 0.6561506390571594, "Quantum sensing navigation": 0.6655154228210449, "Quantum sensing Position": 0.6620984077453613, "Quantum sensing Timing": 0.6638986468315125, "Quantum sensing": 0.665207028388977, "Quantum control": 0.6263861656188965 } }, { "id": 4729, "title": "Characterization of the radiation background at the Spallation Neutron Source", "abstract": "We present a survey of the radiation background at the Spallation Neutron Source (SNS) at Oak Ridge National Laboratory, TN, USA during routine daily operation. A broad range of detectors was used to ...", "citations": 6, "author_count": 17, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4736, "doi": "10.1088/1742-6596/746/1/012033", "umap_coordinates": { "x": 396.13189697265625, "y": 134.16558837890625, "z": 205.96652221679688 }, "tsne_coordinates": { "x": -22.49591636657715, "y": 17.320396423339844, "z": -9.495199203491211 }, "pca_coordinates": { "x": -1.5437476634979248, "y": 2.697460174560547, "z": 1.2335619926452637 }, "axis_scores": { "Quantum imaging": 0.6642744541168213, "Quantum Life Science Sensing": 0.6739160418510437, "Quantum sensing Detection": 0.6525663137435913, "Quantum sensing Metrology": 0.6333309412002563, "Quantum sensing navigation": 0.6778157949447632, "Quantum sensing Position": 0.6734742522239685, "Quantum sensing Timing": 0.6812604069709778, "Quantum sensing": 0.6589540243148804, "Quantum control": 0.6408030986785889 } }, { "id": 4730, "title": "Collective states of interacting Fibonacci anyons", "abstract": "We show that chains of interacting Fibonacci anyons can support a wide variety of collective ground states ranging from extended critical, gapless phases to gapped phases with ground-state degeneracy ...", "citations": 76, "author_count": 7, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4737, "doi": "10.1103/PhysRevLett.101.050401", "umap_coordinates": { "x": 395.1833190917969, "y": 136.1960906982422, "z": 208.8150177001953 }, "tsne_coordinates": { "x": -23.792024612426758, "y": -18.2074031829834, "z": 18.880950927734375 }, "pca_coordinates": { "x": 4.525177478790283, "y": -0.7153012752532959, "z": -0.24234527349472046 }, "axis_scores": { "Quantum imaging": 0.7334994077682495, "Quantum Life Science Sensing": 0.7343631982803345, "Quantum sensing Detection": 0.7354291677474976, "Quantum sensing Metrology": 0.715978741645813, "Quantum sensing navigation": 0.7211242318153381, "Quantum sensing Position": 0.7051553726196289, "Quantum sensing Timing": 0.6929638385772705, "Quantum sensing": 0.7432070970535278, "Quantum control": 0.7259754538536072 } }, { "id": 4731, "title": "Ultrafast, atto-Joule switch using fiber-optic parametric amplifier operated in saturation", "abstract": "All-optical manipulation of signals carried by lightwaves is attractive because controlling the light directly can be more efficient, allows a multitude of signal formats, and can also prove most cost...", "citations": 36, "author_count": 6, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4738, "doi": "10.1364/OE.16.010956", "umap_coordinates": { "x": 394.4964599609375, "y": 134.18939208984375, "z": 206.69677734375 }, "tsne_coordinates": { "x": -1.0322532653808594, "y": -1.6911088228225708, "z": -28.928955078125 }, "pca_coordinates": { "x": -0.6584044694900513, "y": -0.45682525634765625, "z": 2.398092269897461 }, "axis_scores": { "Quantum imaging": 0.6843812465667725, "Quantum Life Science Sensing": 0.6922490000724792, "Quantum sensing Detection": 0.6916623711585999, "Quantum sensing Metrology": 0.6904433965682983, "Quantum sensing navigation": 0.6641851663589478, "Quantum sensing Position": 0.6519292593002319, "Quantum sensing Timing": 0.6694835424423218, "Quantum sensing": 0.700667142868042, "Quantum control": 0.6676183938980103 } }, { "id": 4732, "title": "Experimental Evaluation of Penetration Capabilities of a Geiger-mode APD Array Laser Radar System", "abstract": "Laser radar 3D imaging has the potential to improve target recognition in many scenarios. One case that is challenging for most optical sensors is to recognize targets hidden in vegetation or behind c...", "citations": 8, "author_count": 6, "categories": [ "Remote Sensing" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4739, "doi": "10.1117/12.2278443", "umap_coordinates": { "x": 395.05047607421875, "y": 133.72259521484375, "z": 206.08682250976562 }, "tsne_coordinates": { "x": -4.022674560546875, "y": 12.990333557128906, "z": -28.46979522705078 }, "pca_coordinates": { "x": -2.1065402030944824, "y": 2.255828857421875, "z": 3.658064365386963 }, "axis_scores": { "Quantum imaging": 0.7099738121032715, "Quantum Life Science Sensing": 0.7108172178268433, "Quantum sensing Detection": 0.6973743438720703, "Quantum sensing Metrology": 0.7011551856994629, "Quantum sensing navigation": 0.701793372631073, "Quantum sensing Position": 0.6984902620315552, "Quantum sensing Timing": 0.668502151966095, "Quantum sensing": 0.6984990239143372, "Quantum control": 0.6420154571533203 } }, { "id": 4733, "title": "Deep, high contrast microscopic cell imaging using three-photon luminescence of β-(NaYF4:Er3+/NaYF4) nanoprobe excited by 1480-nm CW laser of only 1.5-mW", "abstract": "It is challenging to achieve deep microscopic imaging for the strong scattering in biotissue. An efficient three-photon luminescence can effectively increase the penetration depth. Here we report that...", "citations": 32, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4740, "doi": "10.1364/BOE.6.001857", "umap_coordinates": { "x": 394.2369079589844, "y": 133.8834991455078, "z": 205.58348083496094 }, "tsne_coordinates": { "x": 8.705666542053223, "y": 18.775108337402344, "z": -24.43373680114746 }, "pca_coordinates": { "x": -2.9184603691101074, "y": 0.9460153579711914, "z": 1.883113145828247 }, "axis_scores": { "Quantum imaging": 0.7380862832069397, "Quantum Life Science Sensing": 0.7365174293518066, "Quantum sensing Detection": 0.7048558592796326, "Quantum sensing Metrology": 0.6893302798271179, "Quantum sensing navigation": 0.6998612284660339, "Quantum sensing Position": 0.659978985786438, "Quantum sensing Timing": 0.6575961709022522, "Quantum sensing": 0.7116603851318359, "Quantum control": 0.6627267599105835 } }, { "id": 4734, "title": "Low-temperature heat transport under phonon confinement in nanostructures", "abstract": "Heat transport in bulk materials is well described using the Debye theory of three-dimensional vibrational modes (phonons) and the acoustic match model. However, in cryogenic nanodevices, phonon wavel...", "citations": 7, "author_count": 9, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4741, "doi": "10.1103/PhysRevB.110.134513", "umap_coordinates": { "x": 394.5419616699219, "y": 134.9702606201172, "z": 208.8035888671875 }, "tsne_coordinates": { "x": -3.728843927383423, "y": -27.62135887145996, "z": 5.889179706573486 }, "pca_coordinates": { "x": 4.417413234710693, "y": -2.945753574371338, "z": 0.4715788960456848 }, "axis_scores": { "Quantum imaging": 0.6989781856536865, "Quantum Life Science Sensing": 0.7173894643783569, "Quantum sensing Detection": 0.7105435132980347, "Quantum sensing Metrology": 0.6969473958015442, "Quantum sensing navigation": 0.7303675413131714, "Quantum sensing Position": 0.6909682154655457, "Quantum sensing Timing": 0.6813404560089111, "Quantum sensing": 0.7207878232002258, "Quantum control": 0.6971398591995239 } }, { "id": 4735, "title": "Roadmap for Photonics with 2D Materials", "abstract": "Triggered by advances in atomic-layer exfoliation and growth techniques, along with the identification of a wide range of extraordinary physical properties in self-standing films consisting of one or ...", "citations": 12, "author_count": 149, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4742, "doi": "10.1021/acsphotonics.5c00353", "umap_coordinates": { "x": 393.4748840332031, "y": 134.25198364257812, "z": 206.13934326171875 }, "tsne_coordinates": { "x": 22.348310470581055, "y": -11.089055061340332, "z": -21.078210830688477 }, "pca_coordinates": { "x": -2.8788628578186035, "y": -2.1202011108398438, "z": 1.4330589771270752 }, "axis_scores": { "Quantum imaging": 0.7459595203399658, "Quantum Life Science Sensing": 0.7246595621109009, "Quantum sensing Detection": 0.714036226272583, "Quantum sensing Metrology": 0.730940043926239, "Quantum sensing navigation": 0.7180882692337036, "Quantum sensing Position": 0.6889216303825378, "Quantum sensing Timing": 0.6751826405525208, "Quantum sensing": 0.7289062142372131, "Quantum control": 0.6918153166770935 } }, { "id": 4736, "title": "A 3D-PRINTED FUNCTIONAL MEMS ACCELEROMETER", "abstract": "3D printing of MEMS devices could enable the cost-efficient production of custom-designed and complex 3D MEMS for prototyping and for low-volume applications. In this work, we present the first micro ...", "citations": 2, "author_count": 9, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4743, "doi": "10.1109/MEMS49605.2023.10052385", "umap_coordinates": { "x": 394.6414794921875, "y": 134.3842010498047, "z": 206.23712158203125 }, "tsne_coordinates": { "x": 5.759912014007568, "y": 5.10211181640625, "z": -34.61722946166992 }, "pca_coordinates": { "x": -1.0307930707931519, "y": 0.25629353523254395, "z": 0.6403934359550476 }, "axis_scores": { "Quantum imaging": 0.677413284778595, "Quantum Life Science Sensing": 0.7400998473167419, "Quantum sensing Detection": 0.7010894417762756, "Quantum sensing Metrology": 0.7306469678878784, "Quantum sensing navigation": 0.7100570201873779, "Quantum sensing Position": 0.7112522125244141, "Quantum sensing Timing": 0.6848123669624329, "Quantum sensing": 0.7222604751586914, "Quantum control": 0.6833186745643616 } }, { "id": 4737, "title": "Emulation of quantum mechanical billiards by electrical resonance circuits - art. no. 056206", "abstract": "We propose that a two-dimensional electric network may be used for fundamental studies of wave function properties, transport, and related statistics. Using Kirchhoff's current law and the j omega met...", "citations": 11, "author_count": 4, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4744, "doi": "10.1103/PhysRevE.71.056206", "umap_coordinates": { "x": 394.39154052734375, "y": 136.00900268554688, "z": 208.0005645751953 }, "tsne_coordinates": { "x": -11.736715316772461, "y": -19.7869815826416, "z": -0.13988588750362396 }, "pca_coordinates": { "x": 4.148056983947754, "y": -0.36866021156311035, "z": -0.1214495301246643 }, "axis_scores": { "Quantum imaging": 0.7372044920921326, "Quantum Life Science Sensing": 0.7639592885971069, "Quantum sensing Detection": 0.7352960705757141, "Quantum sensing Metrology": 0.7564094662666321, "Quantum sensing navigation": 0.7436728477478027, "Quantum sensing Position": 0.7197492718696594, "Quantum sensing Timing": 0.71328204870224, "Quantum sensing": 0.7493248581886292, "Quantum control": 0.7281563878059387 } }, { "id": 4738, "title": "Local-density approximation for confined bosons in an optical lattice - art. no. 053601", "abstract": "We investigate local and global properties of the one-dimensional Bose-Hubbard model with an external confining potential, describing an atomic condensate in an optical lattice. Using quantum Monte Ca...", "citations": 40, "author_count": 4, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4745, "doi": "10.1103/PhysRevA.70.053601", "umap_coordinates": { "x": 395.16192626953125, "y": 136.8139190673828, "z": 208.5335235595703 }, "tsne_coordinates": { "x": -26.933597564697266, "y": -15.550695419311523, "z": 7.21798038482666 }, "pca_coordinates": { "x": 4.8248467445373535, "y": -0.022765636444091797, "z": 0.483787477016449 }, "axis_scores": { "Quantum imaging": 0.6852899193763733, "Quantum Life Science Sensing": 0.6886448264122009, "Quantum sensing Detection": 0.6877094507217407, "Quantum sensing Metrology": 0.6819982528686523, "Quantum sensing navigation": 0.7075815200805664, "Quantum sensing Position": 0.6898194551467896, "Quantum sensing Timing": 0.649691104888916, "Quantum sensing": 0.6970222592353821, "Quantum control": 0.67310631275177 } }, { "id": 4739, "title": "Localized surface plasmon resonances in a hybrid structure consisting of a mono-layered Al sheet and Ti3C2F MXene", "abstract": "MXenes are a novel class of two-dimensional materials that exhibit unique light-matter interactions. In this work, using quantum-mechanical simulations based on the time dependent density functional t...", "citations": 22, "author_count": 2, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4746, "doi": "10.1039/d2cp01150f", "umap_coordinates": { "x": 392.04461669921875, "y": 134.8558807373047, "z": 205.8589324951172 }, "tsne_coordinates": { "x": 14.37614917755127, "y": -7.613237380981445, "z": -16.059049606323242 }, "pca_coordinates": { "x": -1.8026974201202393, "y": -2.5781359672546387, "z": -1.6525670289993286 }, "axis_scores": { "Quantum imaging": 0.6740702390670776, "Quantum Life Science Sensing": 0.6893119215965271, "Quantum sensing Detection": 0.6668463349342346, "Quantum sensing Metrology": 0.6785468459129333, "Quantum sensing navigation": 0.641674816608429, "Quantum sensing Position": 0.6543508172035217, "Quantum sensing Timing": 0.6175615191459656, "Quantum sensing": 0.6838116645812988, "Quantum control": 0.651791512966156 } }, { "id": 4740, "title": "FLICKER NOISE-INDUCED BY DYNAMIC IMPURITIES IN A QUANTUM POINT-CONTACT", "abstract": "We calculate low-frequency noise (LFN) in a quantum point contact (QPC) which is electrostatically defined in a two-dimensional electron gas of a GaAs-AlxGa1-xAs heterostructure. The conventional sour...", "citations": 9, "author_count": 3, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 4747, "doi": "10.1103/PhysRevB.52.5082", "umap_coordinates": { "x": 394.37060546875, "y": 135.3975830078125, "z": 209.24539184570312 }, "tsne_coordinates": { "x": -2.000922441482544, "y": -39.41536331176758, "z": -6.50344181060791 }, "pca_coordinates": { "x": 3.3973984718322754, "y": -1.0755565166473389, "z": -0.4976637363433838 }, "axis_scores": { "Quantum imaging": 0.7065038084983826, "Quantum Life Science Sensing": 0.7175503969192505, "Quantum sensing Detection": 0.7211794853210449, "Quantum sensing Metrology": 0.693712055683136, "Quantum sensing navigation": 0.7177417278289795, "Quantum sensing Position": 0.7181050181388855, "Quantum sensing Timing": 0.6893040537834167, "Quantum sensing": 0.730437695980072, "Quantum control": 0.7138677835464478 } }, { "id": 4741, "title": "Probing the Connection between IceCube Neutrinos and MOJAVE AGN", "abstract": "Active galactic nuclei (AGN) are prime candidate sources of the high-energy, astrophysical neutrinos detected by IceCube. This is demonstrated by the real-time multimessenger detection of the blazar T...", "citations": 5, "author_count": 424, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4748, "doi": "10.3847/1538-4357/ad643d", "umap_coordinates": { "x": 396.04229736328125, "y": 134.803466796875, "z": 206.07908630371094 }, "tsne_coordinates": { "x": -35.80551528930664, "y": 21.478853225708008, "z": -0.13564899563789368 }, "pca_coordinates": { "x": -0.8384844064712524, "y": 3.040618896484375, "z": 1.3313820362091064 }, "axis_scores": { "Quantum imaging": 0.6480028629302979, "Quantum Life Science Sensing": 0.6673352718353271, "Quantum sensing Detection": 0.6438965797424316, "Quantum sensing Metrology": 0.6338299512863159, "Quantum sensing navigation": 0.6862727403640747, "Quantum sensing Position": 0.6122442483901978, "Quantum sensing Timing": 0.6061726212501526, "Quantum sensing": 0.6396300196647644, "Quantum control": 0.6304176449775696 } }, { "id": 4742, "title": "Evidence of Wγγ Production in pp Collisions at √s=8 TeV and Limits on Anomalous Quartic Gauge Couplings with the ATLAS Detector", "abstract": "This Letter reports evidence of triple gauge boson production pp -> W(l nu)gamma gamma + X, which is accessible for the first time with the 8 TeV LHC data set. The fiducial cross section for this proc...", "citations": 22, "author_count": 2656, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4749, "doi": "10.1103/PhysRevLett.115.031802", "umap_coordinates": { "x": 396.7830810546875, "y": 134.56369018554688, "z": 207.8417205810547 }, "tsne_coordinates": { "x": -38.462947845458984, "y": 7.057461738586426, "z": -10.121537208557129 }, "pca_coordinates": { "x": 2.9156155586242676, "y": 0.28402137756347656, "z": 2.7752060890197754 }, "axis_scores": { "Quantum imaging": 0.6672570705413818, "Quantum Life Science Sensing": 0.6698933243751526, "Quantum sensing Detection": 0.671768307685852, "Quantum sensing Metrology": 0.6519981026649475, "Quantum sensing navigation": 0.6763859391212463, "Quantum sensing Position": 0.6661491394042969, "Quantum sensing Timing": 0.6894516944885254, "Quantum sensing": 0.6725595593452454, "Quantum control": 0.6574366688728333 } }, { "id": 4743, "title": "Twisted Soft Photon Hair Implants on Black Holes", "abstract": "Background: The Hawking-Perry-Strominger (HPS) work states a new controversial idea about the black hole (BH) information paradox, where BHs maximally entropize and encode information in their event h...", "citations": 9, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4750, "doi": "10.3390/e19090458", "umap_coordinates": { "x": 395.1883239746094, "y": 136.02626037597656, "z": 205.55154418945312 }, "tsne_coordinates": { "x": -38.52725601196289, "y": -17.325441360473633, "z": -9.820072174072266 }, "pca_coordinates": { "x": -1.0329344272613525, "y": 1.386810541152954, "z": 1.0226268768310547 }, "axis_scores": { "Quantum imaging": 0.7009786367416382, "Quantum Life Science Sensing": 0.7185801267623901, "Quantum sensing Detection": 0.7073000073432922, "Quantum sensing Metrology": 0.6952816247940063, "Quantum sensing navigation": 0.6918014287948608, "Quantum sensing Position": 0.6889201998710632, "Quantum sensing Timing": 0.6926562190055847, "Quantum sensing": 0.7183488011360168, "Quantum control": 0.6643883585929871 } }, { "id": 4744, "title": "A Method Improving the Accuracy of Fluorescence Recovery after Photobleaching Analysis", "abstract": "Fluorescence recovery after photobleaching has been an established technique of quantifying the mobility of molecular species in cells and cell membranes for more than 30 years. However, under nonidea...", "citations": 230, "author_count": 5, "categories": [ "Biophysics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4751, "doi": "10.1529/biophysj.108.134874", "umap_coordinates": { "x": 393.98968505859375, "y": 135.93089294433594, "z": 204.8589324951172 }, "tsne_coordinates": { "x": 15.476210594177246, "y": 14.044861793518066, "z": 9.382567405700684 }, "pca_coordinates": { "x": -2.2201247215270996, "y": 2.4016966819763184, "z": -0.4401546120643616 }, "axis_scores": { "Quantum imaging": 0.6747116446495056, "Quantum Life Science Sensing": 0.6824711561203003, "Quantum sensing Detection": 0.6539466381072998, "Quantum sensing Metrology": 0.6578309535980225, "Quantum sensing navigation": 0.6528193354606628, "Quantum sensing Position": 0.6511546969413757, "Quantum sensing Timing": 0.661747395992279, "Quantum sensing": 0.6681678295135498, "Quantum control": 0.643609344959259 } }, { "id": 4745, "title": "Optical anisotropies in strained Si/SiGe systems", "abstract": "Optical anisotropies were studied in two types of Si/Ge systems: strain-adjusted superlattices, and thin Ge quantum wells on Si. For the superlattices, investigations of the polarization dependence sh...", "citations": 1, "author_count": 6, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4752, "doi": "10.1016/0169-4332(96)00065-7", "umap_coordinates": { "x": 393.26593017578125, "y": 133.549072265625, "z": 206.70045471191406 }, "tsne_coordinates": { "x": 39.10029602050781, "y": -1.9846655130386353, "z": 5.032708644866943 }, "pca_coordinates": { "x": -0.5219442248344421, "y": -1.5722203254699707, "z": 1.4794845581054688 }, "axis_scores": { "Quantum imaging": 0.7045362591743469, "Quantum Life Science Sensing": 0.6841181516647339, "Quantum sensing Detection": 0.66596919298172, "Quantum sensing Metrology": 0.7060351967811584, "Quantum sensing navigation": 0.6917212009429932, "Quantum sensing Position": 0.7119971513748169, "Quantum sensing Timing": 0.6701741218566895, "Quantum sensing": 0.6968730688095093, "Quantum control": 0.6592056155204773 } }, { "id": 4746, "title": "Toward Molecular Chiral Polaritons", "abstract": "Coupling between light and material excitations underliesa widerange of optical phenomena. Polaritons are eigenstates of a coupledsystem with a hybridized wave function. Owing to their hybrid composit...", "citations": 43, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4753, "doi": "10.1021/acsphotonics.2c02011", "umap_coordinates": { "x": 392.5714111328125, "y": 134.98756408691406, "z": 206.11709594726562 }, "tsne_coordinates": { "x": 3.4590322971343994, "y": -7.297941207885742, "z": -4.2913713455200195 }, "pca_coordinates": { "x": -1.1695448160171509, "y": -2.9027061462402344, "z": -0.8352155685424805 }, "axis_scores": { "Quantum imaging": 0.7029176354408264, "Quantum Life Science Sensing": 0.6760962605476379, "Quantum sensing Detection": 0.69435715675354, "Quantum sensing Metrology": 0.6659801006317139, "Quantum sensing navigation": 0.6949853301048279, "Quantum sensing Position": 0.6914637088775635, "Quantum sensing Timing": 0.6640929579734802, "Quantum sensing": 0.6974576711654663, "Quantum control": 0.6761533617973328 } }, { "id": 4747, "title": "Novel Reversible Comparator Design in Quantum Dot-Cellular Automata with Power Dissipation Analysis", "abstract": "In very large-scale integration (VLSI) circuits, a partial of energy lost leads to information loss in irreversible computing because, in conventional combinatorial circuits, each bit of information g...", "citations": 10, "author_count": 6, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4754, "doi": "10.3390/app12157846", "umap_coordinates": { "x": 393.93121337890625, "y": 134.9575653076172, "z": 205.9256134033203 }, "tsne_coordinates": { "x": -12.718902587890625, "y": 8.710529327392578, "z": 0.4471431374549866 }, "pca_coordinates": { "x": -0.13560962677001953, "y": -0.13689589500427246, "z": 1.1509835720062256 }, "axis_scores": { "Quantum imaging": 0.7137898206710815, "Quantum Life Science Sensing": 0.7278591394424438, "Quantum sensing Detection": 0.7376721501350403, "Quantum sensing Metrology": 0.7090036869049072, "Quantum sensing navigation": 0.7203611135482788, "Quantum sensing Position": 0.6960285902023315, "Quantum sensing Timing": 0.7279769778251648, "Quantum sensing": 0.7358908653259277, "Quantum control": 0.7149301767349243 } }, { "id": 4748, "title": "Multi-beam X-ray ptychography using coded probes for rapid non-destructive high resolution imaging of extended samples", "abstract": "Imaging large areas of a sample non-destructively and with high resolution is of great interest for both science and industry. For scanning coherent X-ray diffraction microscopy, i. e., ptychography, ...", "citations": 22, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4755, "doi": "10.1038/s41598-022-09466-5", "umap_coordinates": { "x": 394.68359375, "y": 133.95448303222656, "z": 205.88238525390625 }, "tsne_coordinates": { "x": 3.459017753601074, "y": 21.113176345825195, "z": -34.22560119628906 }, "pca_coordinates": { "x": -2.6847097873687744, "y": 1.3843687772750854, "z": 1.6122634410858154 }, "axis_scores": { "Quantum imaging": 0.68926602602005, "Quantum Life Science Sensing": 0.68953537940979, "Quantum sensing Detection": 0.6658507585525513, "Quantum sensing Metrology": 0.6687173247337341, "Quantum sensing navigation": 0.669316291809082, "Quantum sensing Position": 0.6756131649017334, "Quantum sensing Timing": 0.6804080605506897, "Quantum sensing": 0.6833474040031433, "Quantum control": 0.6290550827980042 } }, { "id": 4749, "title": "A porphyrin pentamer as a bright emitter for NIR OLEDs", "abstract": "The Luminescence and electroluminescence of an ethyne-Linked zinc(II) porphyrin pentamer have been investigated, by testing blends in two different conjugated polymer matrices, at a range of concentra...", "citations": 12, "author_count": 10, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4756, "doi": "10.1039/d1tc05951c", "umap_coordinates": { "x": 392.0531005859375, "y": 135.2579345703125, "z": 204.85409545898438 }, "tsne_coordinates": { "x": 7.32249641418457, "y": 4.793649196624756, "z": -9.046929359436035 }, "pca_coordinates": { "x": -2.726027488708496, "y": -3.0615882873535156, "z": 0.35191482305526733 }, "axis_scores": { "Quantum imaging": 0.6951699256896973, "Quantum Life Science Sensing": 0.7100678086280823, "Quantum sensing Detection": 0.7084407806396484, "Quantum sensing Metrology": 0.6817417740821838, "Quantum sensing navigation": 0.661615252494812, "Quantum sensing Position": 0.6686744093894958, "Quantum sensing Timing": 0.6825404167175293, "Quantum sensing": 0.7089029550552368, "Quantum control": 0.6615228652954102 } }, { "id": 4750, "title": "Global photosynthetic capacity is optimized to the environment", "abstract": "Earth system models (ESMs) use photosynthetic capacity, indexed by the maximum Rubisco carboxylation rate (V-cmax), to simulate carbon assimilation and typically rely on empirical estimates, including...", "citations": 221, "author_count": 22, "categories": [ "Environmental Sciences & Ecology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4757, "doi": "10.1111/ele.13210", "umap_coordinates": { "x": 394.34112548828125, "y": 136.03245544433594, "z": 203.68235778808594 }, "tsne_coordinates": { "x": 12.125988006591797, "y": 37.573970794677734, "z": 3.8691747188568115 }, "pca_coordinates": { "x": -2.334388494491577, "y": 0.5283482074737549, "z": -0.928437352180481 }, "axis_scores": { "Quantum imaging": 0.7289358973503113, "Quantum Life Science Sensing": 0.7474584579467773, "Quantum sensing Detection": 0.7297475934028625, "Quantum sensing Metrology": 0.7329663038253784, "Quantum sensing navigation": 0.7289632558822632, "Quantum sensing Position": 0.6970605850219727, "Quantum sensing Timing": 0.6908597946166992, "Quantum sensing": 0.7473238706588745, "Quantum control": 0.7318233847618103 } }, { "id": 4751, "title": "Molecules, semiconductors, light and information: Towards future sensing and computing paradigms", "abstract": "Over the last few years we have witnessed a great progress in the research devoted to unconventional computing - an unorthodox approach to information handling. It includes both novel algorithms and c...", "citations": 34, "author_count": 9, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4758, "doi": "10.1016/j.ccr.2018.03.018", "umap_coordinates": { "x": 393.7280578613281, "y": 134.19541931152344, "z": 204.38925170898438 }, "tsne_coordinates": { "x": 14.75307846069336, "y": 17.223587036132812, "z": -3.31573486328125 }, "pca_coordinates": { "x": -3.2907156944274902, "y": -0.17132210731506348, "z": -1.12999427318573 }, "axis_scores": { "Quantum imaging": 0.746286928653717, "Quantum Life Science Sensing": 0.7750431895256042, "Quantum sensing Detection": 0.7530505061149597, "Quantum sensing Metrology": 0.7287830114364624, "Quantum sensing navigation": 0.736781120300293, "Quantum sensing Position": 0.7298705577850342, "Quantum sensing Timing": 0.7081195712089539, "Quantum sensing": 0.7579261064529419, "Quantum control": 0.7141680121421814 } }, { "id": 4752, "title": "Wave packet dynamics of an atomic ion in a Paul trap: Approximations and stability", "abstract": "Using numerical simulations of the time-dependent Schrodinger equation, we study the full quantum dynamics of the motion of an atomic ion in a linear Paul trap. Such a trap is based on a time-varying,...", "citations": 7, "author_count": 4, "categories": [ "Computer Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4759, "doi": "10.1142/S0129183116500145", "umap_coordinates": { "x": 393.9670715332031, "y": 136.8719024658203, "z": 207.35227966308594 }, "tsne_coordinates": { "x": -14.254423141479492, "y": -3.564148426055908, "z": 25.884309768676758 }, "pca_coordinates": { "x": 2.0349106788635254, "y": 0.5802077054977417, "z": -1.9074528217315674 }, "axis_scores": { "Quantum imaging": 0.6892260313034058, "Quantum Life Science Sensing": 0.6950147151947021, "Quantum sensing Detection": 0.6871061325073242, "Quantum sensing Metrology": 0.6634966731071472, "Quantum sensing navigation": 0.7091140151023865, "Quantum sensing Position": 0.7100577354431152, "Quantum sensing Timing": 0.6946038007736206, "Quantum sensing": 0.6970687508583069, "Quantum control": 0.7025020122528076 } }, { "id": 4753, "title": "Quantum correlations and dynamics from classical random fields valued in complex Hilbert spaces", "abstract": "One of the crucial differences between mathematical models of classical and quantum mechanics (QM) is the use of the tensor product of the state spaces of subsystems as the state space of the correspo...", "citations": 10, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4760, "doi": "10.1063/1.3474600", "umap_coordinates": { "x": 394.83343505859375, "y": 137.65077209472656, "z": 207.1273651123047 }, "tsne_coordinates": { "x": -32.6624641418457, "y": 7.347998142242432, "z": 16.405569076538086 }, "pca_coordinates": { "x": 4.611352443695068, "y": 2.0321500301361084, "z": -1.3866114616394043 }, "axis_scores": { "Quantum imaging": 0.7478209137916565, "Quantum Life Science Sensing": 0.7639178037643433, "Quantum sensing Detection": 0.7485289573669434, "Quantum sensing Metrology": 0.7308745384216309, "Quantum sensing navigation": 0.7507317662239075, "Quantum sensing Position": 0.7043713927268982, "Quantum sensing Timing": 0.705051064491272, "Quantum sensing": 0.7641445994377136, "Quantum control": 0.7500654458999634 } }, { "id": 4754, "title": "Brownian motion of quantum harmonic oscillators: Existence of a subdynamics", "abstract": "The effects of system-environment correlations on the dynamics of an open quantum system are investigated for the standard model of a set of quantum harmonic oscillators interacting with a heat bath o...", "citations": 21, "author_count": 2, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4761, "doi": "10.1063/1.532419", "umap_coordinates": { "x": 394.03118896484375, "y": 136.7447509765625, "z": 207.25393676757812 }, "tsne_coordinates": { "x": -7.247622489929199, "y": -12.04506778717041, "z": 15.736919403076172 }, "pca_coordinates": { "x": 2.576808214187622, "y": 0.8962936401367188, "z": -1.644465684890747 }, "axis_scores": { "Quantum imaging": 0.7069422602653503, "Quantum Life Science Sensing": 0.7373290061950684, "Quantum sensing Detection": 0.7182137966156006, "Quantum sensing Metrology": 0.7173555493354797, "Quantum sensing navigation": 0.7373830676078796, "Quantum sensing Position": 0.7090377807617188, "Quantum sensing Timing": 0.6812450289726257, "Quantum sensing": 0.7200515270233154, "Quantum control": 0.7005447149276733 } }, { "id": 4755, "title": "BER floors due to heterodyne coherent crosstalk in space photonic switches for WDM networks", "abstract": "The occurrence of bit-error-rate floors due to coherent heterodyne crosstalk in photonic space switches is studied, This source of errors occurs when a particular switch is used to route signals of no...", "citations": 19, "author_count": 4, "categories": [ "Engineering" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4762, "doi": "10.1109/68.484268", "umap_coordinates": { "x": 394.60870361328125, "y": 135.007568359375, "z": 206.71356201171875 }, "tsne_coordinates": { "x": -5.886405944824219, "y": -12.66168212890625, "z": -25.58548355102539 }, "pca_coordinates": { "x": 1.56687331199646, "y": 0.2185044288635254, "z": 2.0999903678894043 }, "axis_scores": { "Quantum imaging": 0.683991551399231, "Quantum Life Science Sensing": 0.6597439646720886, "Quantum sensing Detection": 0.6730000376701355, "Quantum sensing Metrology": 0.6887787580490112, "Quantum sensing navigation": 0.6861577033996582, "Quantum sensing Position": 0.6729754209518433, "Quantum sensing Timing": 0.6839120984077454, "Quantum sensing": 0.6767039895057678, "Quantum control": 0.668117105960846 } }, { "id": 4756, "title": "Intervalence plasmons in boron-doped diamond", "abstract": "Doped semiconductors can exhibit metallic-like properties ranging from superconductivity to tunable localized surface plasmon resonances. Diamond is a wide-bandgap semiconductor that is rendered elect...", "citations": 4, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4763, "doi": "10.1038/s41467-024-55353-0", "umap_coordinates": { "x": 393.038330078125, "y": 135.38819885253906, "z": 207.06991577148438 }, "tsne_coordinates": { "x": 10.16149616241455, "y": -12.650975227355957, "z": 11.502985954284668 }, "pca_coordinates": { "x": -0.37283891439437866, "y": -2.1211538314819336, "z": -0.25126832723617554 }, "axis_scores": { "Quantum imaging": 0.7241945862770081, "Quantum Life Science Sensing": 0.7271947264671326, "Quantum sensing Detection": 0.7263109683990479, "Quantum sensing Metrology": 0.7136714458465576, "Quantum sensing navigation": 0.7088429927825928, "Quantum sensing Position": 0.7211187481880188, "Quantum sensing Timing": 0.7130016684532166, "Quantum sensing": 0.7331579923629761, "Quantum control": 0.6915260553359985 } }, { "id": 4757, "title": "QMFND: A quantum multimodal fusion-based fake news detection model for social media", "abstract": "Fake news is frequently disseminated through social media, which significantly impacts public perception and individual decision-making. Accurate identification of fake news on social media is usually...", "citations": 76, "author_count": 5, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4764, "doi": "10.1016/j.inffus.2023.102172", "umap_coordinates": { "x": 394.8548278808594, "y": 136.5605010986328, "z": 205.781005859375 }, "tsne_coordinates": { "x": -24.374656677246094, "y": 19.5123348236084, "z": 15.752091407775879 }, "pca_coordinates": { "x": -0.8808591961860657, "y": 2.5737507343292236, "z": 0.28196650743484497 }, "axis_scores": { "Quantum imaging": 0.7664072513580322, "Quantum Life Science Sensing": 0.7469111084938049, "Quantum sensing Detection": 0.7622866630554199, "Quantum sensing Metrology": 0.7417497634887695, "Quantum sensing navigation": 0.7432019710540771, "Quantum sensing Position": 0.7136944532394409, "Quantum sensing Timing": 0.6956555843353271, "Quantum sensing": 0.7621532678604126, "Quantum control": 0.7388727068901062 } }, { "id": 4758, "title": "Effect of X-ray irradiation on the blinking of single silicon nanocrystals", "abstract": "Photoluminescence (PL) intermittency (blinking) observed for single silicon nanocrystals (Si-NCs) embedded in oxide is usually attributed to trapping/de-trapping of carriers in the vicinity of the NC....", "citations": 2, "author_count": 7, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4765, "doi": "10.1002/pssa.201532652", "umap_coordinates": { "x": 393.48724365234375, "y": 133.3482208251953, "z": 207.08010864257812 }, "tsne_coordinates": { "x": 38.67485046386719, "y": -2.5332329273223877, "z": -8.65894889831543 }, "pca_coordinates": { "x": -3.17563796043396, "y": -2.421143054962158, "z": 1.5100488662719727 }, "axis_scores": { "Quantum imaging": 0.7172508239746094, "Quantum Life Science Sensing": 0.7499327659606934, "Quantum sensing Detection": 0.7147508859634399, "Quantum sensing Metrology": 0.7057902812957764, "Quantum sensing navigation": 0.6862066388130188, "Quantum sensing Position": 0.6981933116912842, "Quantum sensing Timing": 0.6947566866874695, "Quantum sensing": 0.7234189510345459, "Quantum control": 0.6983064413070679 } }, { "id": 4759, "title": "A NOVEL METHOD TO DETERMINE MAGNETIC FIELDS IN LOW-DENSITY PLASMA FACILITATED THROUGH ACCIDENTAL DEGENERACY OF QUANTUM STATES IN Fe9+", "abstract": "We propose a new method to determine magnetic fields, by using the magnetic-field-induced electric dipole transition 3p(4) 3d D-4(7/2) -> 3p(5) P-3/2 in Fe9+ ions. This ion has a high abundance in ast...", "citations": 52, "author_count": 12, "categories": [ "Astronomy & Astrophysics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4766, "doi": "10.1088/0004-637X/807/1/69", "umap_coordinates": { "x": 394.7685546875, "y": 135.87449645996094, "z": 206.70114135742188 }, "tsne_coordinates": { "x": 4.2662553787231445, "y": -13.327951431274414, "z": 23.110734939575195 }, "pca_coordinates": { "x": 0.9673752784729004, "y": 2.7021100521087646, "z": 0.007842063903808594 }, "axis_scores": { "Quantum imaging": 0.7032832503318787, "Quantum Life Science Sensing": 0.7067874670028687, "Quantum sensing Detection": 0.6944649815559387, "Quantum sensing Metrology": 0.6832715272903442, "Quantum sensing navigation": 0.6999282836914062, "Quantum sensing Position": 0.6695184707641602, "Quantum sensing Timing": 0.6435711979866028, "Quantum sensing": 0.6915391087532043, "Quantum control": 0.6703230738639832 } }, { "id": 4760, "title": "Maximally polarized states for quantum light fields", "abstract": "The degree of polarization of a quantum field can be defined as its distance to an appropriate set of states. When we take unpolarized states as this reference set, the states optimizing this degree f...", "citations": 8, "author_count": 5, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4767, "doi": "10.1103/PhysRevA.76.043820", "umap_coordinates": { "x": 395.0932922363281, "y": 136.813232421875, "z": 207.77694702148438 }, "tsne_coordinates": { "x": -18.57032012939453, "y": -13.032110214233398, "z": -7.628847122192383 }, "pca_coordinates": { "x": 3.4300589561462402, "y": 0.4288809299468994, "z": -0.11136245727539062 }, "axis_scores": { "Quantum imaging": 0.7308846116065979, "Quantum Life Science Sensing": 0.7202499508857727, "Quantum sensing Detection": 0.7196275591850281, "Quantum sensing Metrology": 0.7190648317337036, "Quantum sensing navigation": 0.7154269218444824, "Quantum sensing Position": 0.6920263171195984, "Quantum sensing Timing": 0.6779371500015259, "Quantum sensing": 0.7301537394523621, "Quantum control": 0.6932292580604553 } }, { "id": 4761, "title": "Thermal comptonization in GRS 1915+105", "abstract": "The Rossi X-ray Timing Explorer (RXTE) data of GRS 1915+105 from several observing periods were modelled with a thermal Comptonization model. In the model (Figure I), seed soft photons from an optical...", "citations": 1, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4768, "doi": "10.1023/A:1011699430730", "umap_coordinates": { "x": 394.5979309082031, "y": 136.48934936523438, "z": 206.32977294921875 }, "tsne_coordinates": { "x": -21.17463493347168, "y": -11.045084953308105, "z": 16.320615768432617 }, "pca_coordinates": { "x": 0.7913798093795776, "y": 2.9630045890808105, "z": -0.8375254273414612 }, "axis_scores": { "Quantum imaging": 0.6593539118766785, "Quantum Life Science Sensing": 0.68655925989151, "Quantum sensing Detection": 0.6684683561325073, "Quantum sensing Metrology": 0.6633058786392212, "Quantum sensing navigation": 0.6643602252006531, "Quantum sensing Position": 0.6597382426261902, "Quantum sensing Timing": 0.678565502166748, "Quantum sensing": 0.6711212992668152, "Quantum control": 0.6492416858673096 } }, { "id": 4762, "title": "Classical Simulation of Circuits with Realistic Odd-Dimensional Gottesman-Kitaev-Preskill States", "abstract": "Classically simulating circuits with bosonic codes is challenging due to the prohibitive cost of simulating quantum systems with many, possibly infinite, energy levels. We propose an algorithm to simu...", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4769, "doi": "10.1103/xmtw-g54f", "umap_coordinates": { "x": 395.37042236328125, "y": 137.24429321289062, "z": 207.71871948242188 }, "tsne_coordinates": { "x": -27.433977127075195, "y": -15.313875198364258, "z": -8.578071594238281 }, "pca_coordinates": { "x": 3.4204697608947754, "y": 2.543835163116455, "z": 0.9942185282707214 }, "axis_scores": { "Quantum imaging": 0.7235406041145325, "Quantum Life Science Sensing": 0.7006857395172119, "Quantum sensing Detection": 0.6989639401435852, "Quantum sensing Metrology": 0.7202594876289368, "Quantum sensing navigation": 0.7147006988525391, "Quantum sensing Position": 0.6619681715965271, "Quantum sensing Timing": 0.707723081111908, "Quantum sensing": 0.7169574499130249, "Quantum control": 0.7133170962333679 } }, { "id": 4763, "title": "Hole utilization in solar hydrogen production", "abstract": "In photochemical production of hydrogen from water, the hole-mediated oxidation reaction is the rate-determining step. A poor solar-to-hydrogen efficiency is usually related to a mismatch between the ...", "citations": 126, "author_count": 4, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4770, "doi": "10.1038/s41570-022-00366-w", "umap_coordinates": { "x": 393.5231018066406, "y": 135.65283203125, "z": 205.58755493164062 }, "tsne_coordinates": { "x": 24.81346893310547, "y": 7.938286781311035, "z": 2.7278289794921875 }, "pca_coordinates": { "x": -2.1560726165771484, "y": -0.9314255714416504, "z": -1.0385076999664307 }, "axis_scores": { "Quantum imaging": 0.6876113414764404, "Quantum Life Science Sensing": 0.7105336785316467, "Quantum sensing Detection": 0.687056839466095, "Quantum sensing Metrology": 0.6679269671440125, "Quantum sensing navigation": 0.6876165866851807, "Quantum sensing Position": 0.6756332516670227, "Quantum sensing Timing": 0.6692001819610596, "Quantum sensing": 0.6998472213745117, "Quantum control": 0.6776974201202393 } }, { "id": 4764, "title": "Rational Design of Bright Long Fluorescence Lifetime Dyad Fluorophores for Single Molecule Imaging and Detection", "abstract": "Increasing demand for detecting single molecules in challenging environments has raised the bar for the fluorophores used. To achieve better resolution and/or contrast in fluorescence microscopy, it i...", "citations": 41, "author_count": 9, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4771, "doi": "10.1021/jacs.0c10457", "umap_coordinates": { "x": 392.2906494140625, "y": 135.1034393310547, "z": 204.83984375 }, "tsne_coordinates": { "x": 11.746129035949707, "y": 14.969924926757812, "z": -17.226848602294922 }, "pca_coordinates": { "x": -3.5915136337280273, "y": -2.312927722930908, "z": -1.566946029663086 }, "axis_scores": { "Quantum imaging": 0.73434978723526, "Quantum Life Science Sensing": 0.7469474673271179, "Quantum sensing Detection": 0.709054708480835, "Quantum sensing Metrology": 0.6916747689247131, "Quantum sensing navigation": 0.6997247338294983, "Quantum sensing Position": 0.676010251045227, "Quantum sensing Timing": 0.6952342391014099, "Quantum sensing": 0.7262746095657349, "Quantum control": 0.7010296583175659 } }, { "id": 4765, "title": "Nonlinear optical characteristics of an exciton in a GaSb-capped InSb heterodot: role of size control", "abstract": "The optical characteristics of a bound electron-hole quasiparticle inside a GaSb-capped InSb nanodot were investigated using a combination between a density-matrix approach and variational calculation...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4772, "doi": "10.1140/epjp/s13360-019-00003-4", "umap_coordinates": { "x": 392.38916015625, "y": 134.46963500976562, "z": 207.0471954345703 }, "tsne_coordinates": { "x": 35.85224151611328, "y": -8.251867294311523, "z": -1.2707643508911133 }, "pca_coordinates": { "x": 0.12286937236785889, "y": -0.32216548919677734, "z": 0.045269548892974854 }, "axis_scores": { "Quantum imaging": 0.7210047841072083, "Quantum Life Science Sensing": 0.7198716998100281, "Quantum sensing Detection": 0.7111789584159851, "Quantum sensing Metrology": 0.6915039420127869, "Quantum sensing navigation": 0.7019374966621399, "Quantum sensing Position": 0.7195885181427002, "Quantum sensing Timing": 0.704680323600769, "Quantum sensing": 0.7248308658599854, "Quantum control": 0.7150325775146484 } }, { "id": 4766, "title": "Identification and characterization of diverse coherences in the Fenna-Matthews-Olson complex", "abstract": "The idea that excitonic (electronic) coherences are of fundamental importance to natural photosynthesis gained popularity when slowly dephasing quantum beats (QBs) were observed in the two-dimensional...", "citations": 244, "author_count": 9, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4773, "doi": "10.1038/s41557-018-0060-5", "umap_coordinates": { "x": 393.1408996582031, "y": 136.7792205810547, "z": 206.6196746826172 }, "tsne_coordinates": { "x": 5.588104724884033, "y": -3.0146026611328125, "z": 14.161871910095215 }, "pca_coordinates": { "x": -0.38236701488494873, "y": 2.1113672256469727, "z": -1.589902639389038 }, "axis_scores": { "Quantum imaging": 0.7166615128517151, "Quantum Life Science Sensing": 0.7259490489959717, "Quantum sensing Detection": 0.6980600953102112, "Quantum sensing Metrology": 0.7104020118713379, "Quantum sensing navigation": 0.7135084867477417, "Quantum sensing Position": 0.6724982857704163, "Quantum sensing Timing": 0.6849216222763062, "Quantum sensing": 0.7120296359062195, "Quantum control": 0.6859357953071594 } }, { "id": 4767, "title": "Linear and non-linear spectroscopy of Ho3+-doped YVO4 and LuVO4", "abstract": "Rare-earth-doped crystals can be attractive materials for quantum information processing, because of the long coherence times that can be expected, in particular, from non-Kramers ions. In this paper,...", "citations": 3, "author_count": 10, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4774, "doi": "10.1088/0953-8984/17/42/013", "umap_coordinates": { "x": 394.6768493652344, "y": 134.06045532226562, "z": 205.84735107421875 }, "tsne_coordinates": { "x": 2.722601890563965, "y": 11.17475414276123, "z": -24.146345138549805 }, "pca_coordinates": { "x": -1.1926305294036865, "y": 1.0512089729309082, "z": 0.909498393535614 }, "axis_scores": { "Quantum imaging": 0.7283897995948792, "Quantum Life Science Sensing": 0.7557108402252197, "Quantum sensing Detection": 0.7265076637268066, "Quantum sensing Metrology": 0.7156010270118713, "Quantum sensing navigation": 0.711104154586792, "Quantum sensing Position": 0.6862447261810303, "Quantum sensing Timing": 0.6657374501228333, "Quantum sensing": 0.7301757335662842, "Quantum control": 0.6739266514778137 } }, { "id": 4768, "title": "ASSIGNMENT OF THE N-15 NMR-SPECTRA OF REDUCED AND OXIDIZED ESCHERICHIA-COLI THIOREDOXIN", "abstract": "As a necessary first step in the use of heteronuclear correlated spectra to obtain high resolution solution structures of the protein, assignment of the N-15 NMR spectra of reduced and oxidized Escher...", "citations": 33, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1991, "topic": [ "all" ], "embedding_index": 4775, "doi": "10.1016/0014-5793(91)80679-W", "umap_coordinates": { "x": 392.72503662109375, "y": 136.90223693847656, "z": 206.2574920654297 }, "tsne_coordinates": { "x": 15.534551620483398, "y": 7.6628265380859375, "z": 27.421688079833984 }, "pca_coordinates": { "x": -1.539196252822876, "y": 2.3183138370513916, "z": -1.4997673034667969 }, "axis_scores": { "Quantum imaging": 0.6910377740859985, "Quantum Life Science Sensing": 0.7072778940200806, "Quantum sensing Detection": 0.6813369989395142, "Quantum sensing Metrology": 0.6750118732452393, "Quantum sensing navigation": 0.6915246844291687, "Quantum sensing Position": 0.6744871139526367, "Quantum sensing Timing": 0.6672078371047974, "Quantum sensing": 0.688291609287262, "Quantum control": 0.6677421927452087 } }, { "id": 4769, "title": "Infrared Fingerprints of the CO2 Conversion into Methanol at Cu(s)/ZrO2(s): An Experimental and Theoretical Study", "abstract": "The methanol economy is an attractive approach to tackle the current concerns over the depletion of natural resources and the global warming intrinsically associated with the use of fossil fuels. This...", "citations": 6, "author_count": 7, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4776, "doi": "10.1002/cctc.202300886", "umap_coordinates": { "x": 392.922607421875, "y": 134.67259216308594, "z": 204.74554443359375 }, "tsne_coordinates": { "x": 24.99590301513672, "y": 14.390984535217285, "z": 4.453360557556152 }, "pca_coordinates": { "x": -2.2572522163391113, "y": 1.5399112701416016, "z": -1.9865071773529053 }, "axis_scores": { "Quantum imaging": 0.6837873458862305, "Quantum Life Science Sensing": 0.7069721221923828, "Quantum sensing Detection": 0.6832893490791321, "Quantum sensing Metrology": 0.682908296585083, "Quantum sensing navigation": 0.6674669981002808, "Quantum sensing Position": 0.6701852679252625, "Quantum sensing Timing": 0.6875206828117371, "Quantum sensing": 0.6987419128417969, "Quantum control": 0.6853139400482178 } }, { "id": 4770, "title": "Laser cooling of antihydrogen atoms", "abstract": "The photon-the quantum excitation of the electromagnetic field-is massless but carries momentum. A photon can therefore exert a force on an object upon collision(1). Slowing the translational motion o...", "citations": 73, "author_count": 59, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4777, "doi": "10.1038/s41586-021-03289-6", "umap_coordinates": { "x": 394.1954345703125, "y": 136.19454956054688, "z": 206.9676513671875 }, "tsne_coordinates": { "x": -23.009212493896484, "y": -19.8250732421875, "z": -19.837785720825195 }, "pca_coordinates": { "x": 0.311861515045166, "y": -0.2743082046508789, "z": -0.8999289870262146 }, "axis_scores": { "Quantum imaging": 0.7085091471672058, "Quantum Life Science Sensing": 0.7129862904548645, "Quantum sensing Detection": 0.6964367628097534, "Quantum sensing Metrology": 0.6785265207290649, "Quantum sensing navigation": 0.6961682438850403, "Quantum sensing Position": 0.7007779479026794, "Quantum sensing Timing": 0.6914201974868774, "Quantum sensing": 0.7084848880767822, "Quantum control": 0.6895236968994141 } }, { "id": 4771, "title": "Paired fermions in strong magnetic fields and daughters of even-denominator Hall plateaus", "abstract": "Recent quantum Hall experiments have observed daughter states next to several plateaus at half-integer filling factors in various platforms. These states were first proposed based on model wave functi...", "citations": 4, "author_count": 4, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4778, "doi": "10.1103/PhysRevB.110.165402", "umap_coordinates": { "x": 394.10614013671875, "y": 136.65797424316406, "z": 208.60586547851562 }, "tsne_coordinates": { "x": -4.058095932006836, "y": -17.45656967163086, "z": 19.561843872070312 }, "pca_coordinates": { "x": 3.657071113586426, "y": -0.6008384227752686, "z": 0.458554208278656 }, "axis_scores": { "Quantum imaging": 0.7037215828895569, "Quantum Life Science Sensing": 0.684516966342926, "Quantum sensing Detection": 0.6904869079589844, "Quantum sensing Metrology": 0.6892178058624268, "Quantum sensing navigation": 0.6881808042526245, "Quantum sensing Position": 0.6802324652671814, "Quantum sensing Timing": 0.6898012161254883, "Quantum sensing": 0.6931440234184265, "Quantum control": 0.6657841205596924 } }, { "id": 4772, "title": "THE PREDICTIVE VALUE OF FOREARM BONE-MINERAL CONTENT MEASUREMENTS IN MEN", "abstract": "Six hundred and fifty-four men had their bone mineral content (BMC) measured with single photon absorptiometry during 1970-1976. All roentgenograms 1975-1985 (11 years) were registered and thus all fa...", "citations": 86, "author_count": 4, "categories": [ "Endocrinology & Metabolism" ], "year": 1990, "topic": [ "all" ], "embedding_index": 4779, "doi": "10.1016/8756-3282(90)90074-9", "umap_coordinates": { "x": 395.3124694824219, "y": 134.63436889648438, "z": 204.2451934814453 }, "tsne_coordinates": { "x": -4.6709747314453125, "y": 36.11553955078125, "z": 9.786968231201172 }, "pca_coordinates": { "x": -3.3929905891418457, "y": 4.244950294494629, "z": 1.003000020980835 }, "axis_scores": { "Quantum imaging": 0.6319566369056702, "Quantum Life Science Sensing": 0.6645680069923401, "Quantum sensing Detection": 0.6426499485969543, "Quantum sensing Metrology": 0.6644812226295471, "Quantum sensing navigation": 0.6567019820213318, "Quantum sensing Position": 0.6738494038581848, "Quantum sensing Timing": 0.6176447868347168, "Quantum sensing": 0.64944988489151, "Quantum control": 0.612787127494812 } }, { "id": 4773, "title": "Simultaneous laser-driven x-ray and two-photon fluorescence imaging of atomizing sprays", "abstract": "In this Letter, we report for the first time, to the best of our knowledge, the possibility of visualizing an atomizing spray by simultaneously recording x-ray absorption and two-photon laser-induced ...", "citations": 19, "author_count": 8, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4780, "doi": "10.1364/OPTICA.378063", "umap_coordinates": { "x": 394.8069763183594, "y": 134.16896057128906, "z": 206.3070068359375 }, "tsne_coordinates": { "x": 4.433782577514648, "y": 14.394381523132324, "z": -32.502105712890625 }, "pca_coordinates": { "x": -2.109196186065674, "y": 1.1419970989227295, "z": 3.132483959197998 }, "axis_scores": { "Quantum imaging": 0.7428069114685059, "Quantum Life Science Sensing": 0.6878040432929993, "Quantum sensing Detection": 0.7030459046363831, "Quantum sensing Metrology": 0.7039464116096497, "Quantum sensing navigation": 0.7034438848495483, "Quantum sensing Position": 0.6721449494361877, "Quantum sensing Timing": 0.671754002571106, "Quantum sensing": 0.715091347694397, "Quantum control": 0.6878628730773926 } }, { "id": 4774, "title": "Electroweak signatures of gauge-mediated supersymmetry breaking in multiple hidden sectors", "abstract": "This paper discusses electroweak collider signatures of the NMSSM with multiple-sector gauge mediation. We focus on the production of neutralinos and charginos which cascade decay into standard model ...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4781, "doi": "10.1007/JHEP01(2022)139", "umap_coordinates": { "x": 396.9643249511719, "y": 134.9142303466797, "z": 207.0995330810547 }, "tsne_coordinates": { "x": -38.12873458862305, "y": 13.976212501525879, "z": -3.4706671237945557 }, "pca_coordinates": { "x": 0.6298527717590332, "y": 2.593884229660034, "z": 0.6301469206809998 }, "axis_scores": { "Quantum imaging": 0.6644799709320068, "Quantum Life Science Sensing": 0.6458432078361511, "Quantum sensing Detection": 0.6501022577285767, "Quantum sensing Metrology": 0.6343896985054016, "Quantum sensing navigation": 0.6497810482978821, "Quantum sensing Position": 0.6317715048789978, "Quantum sensing Timing": 0.65059894323349, "Quantum sensing": 0.6506268382072449, "Quantum control": 0.6388956904411316 } }, { "id": 4775, "title": "Spin fractionalization at the edge of quantum Hall fluids induced by bulk quasiparticles", "abstract": "We define a measurable spin for the edge of a lowest Landau level and incompressible fractional quantum Hall state in the presence of an Abelian or non-Abelian bulk quasiparticle. We show that this qu...", "citations": 1, "author_count": 5, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4782, "doi": "10.1103/t5ww-65lz", "umap_coordinates": { "x": 394.0574035644531, "y": 136.6818389892578, "z": 208.87789916992188 }, "tsne_coordinates": { "x": -12.490060806274414, "y": -33.16081237792969, "z": 11.785175323486328 }, "pca_coordinates": { "x": 3.1494364738464355, "y": -0.12354326248168945, "z": -2.8805148601531982 }, "axis_scores": { "Quantum imaging": 0.7017768621444702, "Quantum Life Science Sensing": 0.6930966377258301, "Quantum sensing Detection": 0.668771505355835, "Quantum sensing Metrology": 0.675267219543457, "Quantum sensing navigation": 0.7081345915794373, "Quantum sensing Position": 0.6820014119148254, "Quantum sensing Timing": 0.669938325881958, "Quantum sensing": 0.695020318031311, "Quantum control": 0.6860905885696411 } }, { "id": 4776, "title": "Band splitting of quantum wells of thin Ag films on Sn/Si(111)√3 x √3", "abstract": "High-resolution valence band spectra of ultrathin Ag films on Sn/Si(111)root 3 x root 3 show intrinsic splitting of the quantum-well states (QWSs). Especially at low coverages, the QWSs of such a syst...", "citations": 7, "author_count": 4, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4783, "doi": "10.1103/PhysRevB.96.041402", "umap_coordinates": { "x": 393.8832092285156, "y": 134.8660888671875, "z": 209.04347229003906 }, "tsne_coordinates": { "x": 11.586444854736328, "y": -37.4630241394043, "z": 1.4733268022537231 }, "pca_coordinates": { "x": 3.793762683868408, "y": -3.384665012359619, "z": 1.4043364524841309 }, "axis_scores": { "Quantum imaging": 0.6789647340774536, "Quantum Life Science Sensing": 0.684699535369873, "Quantum sensing Detection": 0.6782622933387756, "Quantum sensing Metrology": 0.6687361001968384, "Quantum sensing navigation": 0.6865860819816589, "Quantum sensing Position": 0.6705278158187866, "Quantum sensing Timing": 0.6575689315795898, "Quantum sensing": 0.6929108500480652, "Quantum control": 0.6598287224769592 } }, { "id": 4777, "title": "Increased permeability of the blood-aqueous barrier after panretinal photocoagulation for proliferative diabetic retinopathy", "abstract": "Purpose: To measure the permeability of the blood-aqueous barrier before and after panretinal photocoagulation (PRP) in patients with proliferative diabetic retinopathy. Methods: Twenty patients with ...", "citations": 25, "author_count": 3, "categories": [ "Ophthalmology" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4784, "doi": "10.1034/j.1600-0420.2001.079004414.x", "umap_coordinates": { "x": 394.38580322265625, "y": 135.00355529785156, "z": 204.512451171875 }, "tsne_coordinates": { "x": 0.8311379551887512, "y": 21.658531188964844, "z": -5.869827747344971 }, "pca_coordinates": { "x": -2.5175344944000244, "y": 1.2776637077331543, "z": 0.4795965552330017 }, "axis_scores": { "Quantum imaging": 0.6598641872406006, "Quantum Life Science Sensing": 0.6559460163116455, "Quantum sensing Detection": 0.6270714402198792, "Quantum sensing Metrology": 0.6240274906158447, "Quantum sensing navigation": 0.6373581290245056, "Quantum sensing Position": 0.6399932503700256, "Quantum sensing Timing": 0.6348968148231506, "Quantum sensing": 0.6359824538230896, "Quantum control": 0.618443489074707 } }, { "id": 4778, "title": "OPTICAL-PROPERTIES OF QUANTUM STRUCTURES FABRICATED BY FOCUSED GA+ ION-BEAM IMPLANTATION", "abstract": "High energy focused ion beam implantation of Ga is used to interdiffuse AlGaAs/GaAs quantum wells. Results from low temperature cathodoluminescence, time-decay photoluminescence measurements and photo...", "citations": 11, "author_count": 6, "categories": [ "Engineering" ], "year": 1991, "topic": [ "all" ], "embedding_index": 4785, "doi": "10.1116/1.585827", "umap_coordinates": { "x": 393.71075439453125, "y": 133.87417602539062, "z": 207.69091796875 }, "tsne_coordinates": { "x": 31.689476013183594, "y": -27.735843658447266, "z": 1.7864930629730225 }, "pca_coordinates": { "x": 0.316023588180542, "y": -1.932436466217041, "z": 2.4315147399902344 }, "axis_scores": { "Quantum imaging": 0.7645728588104248, "Quantum Life Science Sensing": 0.7499727010726929, "Quantum sensing Detection": 0.7483007907867432, "Quantum sensing Metrology": 0.7569047212600708, "Quantum sensing navigation": 0.7422186732292175, "Quantum sensing Position": 0.7280908226966858, "Quantum sensing Timing": 0.6856908798217773, "Quantum sensing": 0.7643716335296631, "Quantum control": 0.7176870107650757 } }, { "id": 4779, "title": "Time-correlated single-photon counting laser radar in turbulence", "abstract": "A time-correlated single-photon counting (TCSPC) laser radar system can be used for range profiling of objects with high time resolution and dynamic range. A system setup is described and daytime outd...", "citations": 6, "author_count": 3, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4786, "doi": "10.1117/12.898032", "umap_coordinates": { "x": 395.1732482910156, "y": 133.41995239257812, "z": 206.84107971191406 }, "tsne_coordinates": { "x": -5.845133304595947, "y": 9.58115005493164, "z": -30.932262420654297 }, "pca_coordinates": { "x": 0.8959152698516846, "y": 1.148369312286377, "z": 3.4247326850891113 }, "axis_scores": { "Quantum imaging": 0.7281955480575562, "Quantum Life Science Sensing": 0.7303450107574463, "Quantum sensing Detection": 0.7393272519111633, "Quantum sensing Metrology": 0.7254389524459839, "Quantum sensing navigation": 0.7395152449607849, "Quantum sensing Position": 0.7189103364944458, "Quantum sensing Timing": 0.7527239918708801, "Quantum sensing": 0.7356266975402832, "Quantum control": 0.6971361637115479 } }, { "id": 4780, "title": "NANOSECOND STRUCTURED LASER ILLUMINATION PLANAR IMAGING FOR SINGLE-SHOT IMAGING OF DENSE SPRAYS", "abstract": "Recently, a novel laser imaging technique, structured laser illumination planar imaging (SLIPI), has demonstrated great potential for suppressing multiply scattered light in spray imaging. SLIP! uses ...", "citations": 31, "author_count": 5, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4787, "doi": "10.1615/AtomizSpr.v20.i4.50", "umap_coordinates": { "x": 394.64105224609375, "y": 133.70294189453125, "z": 206.94630432128906 }, "tsne_coordinates": { "x": 1.544789433479309, "y": 13.267574310302734, "z": -35.589839935302734 }, "pca_coordinates": { "x": -0.8769605159759521, "y": -0.08390402793884277, "z": 1.9760992527008057 }, "axis_scores": { "Quantum imaging": 0.7464979290962219, "Quantum Life Science Sensing": 0.7350620031356812, "Quantum sensing Detection": 0.7009410262107849, "Quantum sensing Metrology": 0.727402925491333, "Quantum sensing navigation": 0.7133543491363525, "Quantum sensing Position": 0.6890183091163635, "Quantum sensing Timing": 0.6923844218254089, "Quantum sensing": 0.7301799058914185, "Quantum control": 0.7009468078613281 } }, { "id": 4781, "title": "Evaluating the performance of photon-number-resolving detectors", "abstract": "We analyze the performance of photon-number-resolving (PNR) detectors and introduce a figure of merit for the accuracy of such detectors. This figure of merit is the (worst-case) probability that the ...", "citations": 48, "author_count": 3, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4788, "doi": "10.1103/PhysRevA.99.043822", "umap_coordinates": { "x": 394.9494934082031, "y": 133.21400451660156, "z": 205.9766387939453 }, "tsne_coordinates": { "x": -23.287263870239258, "y": 2.9240808486938477, "z": -31.17047119140625 }, "pca_coordinates": { "x": 0.7821986675262451, "y": 0.4072086811065674, "z": 3.4986462593078613 }, "axis_scores": { "Quantum imaging": 0.7412501573562622, "Quantum Life Science Sensing": 0.7463791966438293, "Quantum sensing Detection": 0.7539147138595581, "Quantum sensing Metrology": 0.7355407476425171, "Quantum sensing navigation": 0.7300423979759216, "Quantum sensing Position": 0.7343718409538269, "Quantum sensing Timing": 0.736769437789917, "Quantum sensing": 0.7495212554931641, "Quantum control": 0.6780571341514587 } }, { "id": 4782, "title": "SELECTION INVITRO FOR UV-TOLERANT SUGAR-BEET (BETA-VULGARIS) SOMACLONES", "abstract": "With a reduced stratospheric ozone concentration, the generation of UV-tolerant plants may be of particular importance. Among different crop plants there is large variation in sensitivity to UV-B radi...", "citations": 12, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1993, "topic": [ "all" ], "embedding_index": 4789, "doi": null, "umap_coordinates": { "x": 391.8052978515625, "y": 139.8090057373047, "z": 209.75340270996094 }, "tsne_coordinates": { "x": -2.506560802459717, "y": 39.92533493041992, "z": -3.70408034324646 }, "pca_coordinates": { "x": -3.0709216594696045, "y": 2.319695472717285, "z": -1.0938904285430908 }, "axis_scores": { "Quantum imaging": 0.6928696632385254, "Quantum Life Science Sensing": 0.7160168886184692, "Quantum sensing Detection": 0.6912939548492432, "Quantum sensing Metrology": 0.666094183921814, "Quantum sensing navigation": 0.7034498453140259, "Quantum sensing Position": 0.6549811363220215, "Quantum sensing Timing": 0.6456575393676758, "Quantum sensing": 0.6923507452011108, "Quantum control": 0.6866276264190674 } }, { "id": 4783, "title": "The effects of intra-detector Compton scatter on low-frequency DQE for photon-counting CT using edge-on-irradiated silicon detectors", "abstract": "BackgroundEdge-on-irradiated silicon detectors are currently being investigated for use in full-body photon-counting computed tomography (CT) applications. The low atomic number of silicon leads to a ...", "citations": 8, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4790, "doi": "10.1002/mp.17122", "umap_coordinates": { "x": 395.4347839355469, "y": 132.76504516601562, "z": 205.29554748535156 }, "tsne_coordinates": { "x": -11.385089874267578, "y": 17.72224998474121, "z": -21.138294219970703 }, "pca_coordinates": { "x": -2.2220335006713867, "y": 2.946929693222046, "z": 2.959178924560547 }, "axis_scores": { "Quantum imaging": 0.703065037727356, "Quantum Life Science Sensing": 0.692612886428833, "Quantum sensing Detection": 0.6719775795936584, "Quantum sensing Metrology": 0.663763165473938, "Quantum sensing navigation": 0.6523017883300781, "Quantum sensing Position": 0.6512640714645386, "Quantum sensing Timing": 0.6815218329429626, "Quantum sensing": 0.6714831590652466, "Quantum control": 0.6337908506393433 } }, { "id": 4784, "title": "Simulation and analysis of the relaxation dynamics of a photochromic furylfulgide", "abstract": "Furylfulgides, a class of photochromic organic compounds, show a complex system of photoinduced reactions. In the present study, the excited-state dynamics of the E-alpha and E-beta isomers of a repre...", "citations": 8, "author_count": 5, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4791, "doi": "10.1039/d2cp02143a", "umap_coordinates": { "x": 392.64874267578125, "y": 136.47445678710938, "z": 206.1710205078125 }, "tsne_coordinates": { "x": 8.19210147857666, "y": 2.6664979457855225, "z": 8.746889114379883 }, "pca_coordinates": { "x": 0.0010046958923339844, "y": 0.8749593496322632, "z": -4.071639537811279 }, "axis_scores": { "Quantum imaging": 0.7191791534423828, "Quantum Life Science Sensing": 0.735350489616394, "Quantum sensing Detection": 0.6926649212837219, "Quantum sensing Metrology": 0.6673928499221802, "Quantum sensing navigation": 0.6856818199157715, "Quantum sensing Position": 0.6467090249061584, "Quantum sensing Timing": 0.6610252857208252, "Quantum sensing": 0.7032942175865173, "Quantum control": 0.7089921236038208 } }, { "id": 4785, "title": "Superconducting properties of the spin Hall candidate Ta3Sb with eightfold degeneracy", "abstract": "We report the synthesis and characterization of phase pure Ta3Sb, a material predicted to be topological with eightfold degenerate fermionic states [Bradlyn et al., Science 353, aaf5037 (2016)] and to...", "citations": 9, "author_count": 11, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4792, "doi": "10.1103/PhysRevB.105.184510", "umap_coordinates": { "x": 394.3269348144531, "y": 136.45823669433594, "z": 209.0149383544922 }, "tsne_coordinates": { "x": -8.01331901550293, "y": -33.58320236206055, "z": 12.837259292602539 }, "pca_coordinates": { "x": 4.890162467956543, "y": -0.6273646354675293, "z": -1.2679433822631836 }, "axis_scores": { "Quantum imaging": 0.6573351621627808, "Quantum Life Science Sensing": 0.6756412386894226, "Quantum sensing Detection": 0.6631630659103394, "Quantum sensing Metrology": 0.665679395198822, "Quantum sensing navigation": 0.6877565979957581, "Quantum sensing Position": 0.661770224571228, "Quantum sensing Timing": 0.6612556576728821, "Quantum sensing": 0.6724908947944641, "Quantum control": 0.654541015625 } }, { "id": 4786, "title": "Large-scale planar and spherical light-emitting diodes based on arrays of perovskite quantum wires", "abstract": "Halide perovskites are enticing candidates for highly efficient planar light-emitting diodes (LEDs) with commercial potential in displays and lighting. However, it remains a challenge for conventional...", "citations": 119, "author_count": 22, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4793, "doi": "10.1038/s41566-022-00978-0", "umap_coordinates": { "x": 392.5917663574219, "y": 133.85125732421875, "z": 206.17019653320312 }, "tsne_coordinates": { "x": 22.448619842529297, "y": -9.56967830657959, "z": -12.596247673034668 }, "pca_coordinates": { "x": -2.7549617290496826, "y": -3.6266255378723145, "z": 0.8173045516014099 }, "axis_scores": { "Quantum imaging": 0.709121823310852, "Quantum Life Science Sensing": 0.7141962051391602, "Quantum sensing Detection": 0.6835933327674866, "Quantum sensing Metrology": 0.6893509030342102, "Quantum sensing navigation": 0.6977385878562927, "Quantum sensing Position": 0.6883030533790588, "Quantum sensing Timing": 0.6744723320007324, "Quantum sensing": 0.7135612964630127, "Quantum control": 0.673764169216156 } }, { "id": 4787, "title": "Improved efficiency of organic solar cell using MoS2 doped poly (3,4-ethylenedioxythiophene)(PEDOT) as hole transport layer", "abstract": "We report an efficient hole transporting layer (HTL) for organic solar cell (OSC) based on solution-processed organic-inorganic hybrid composed of ultrasonic-exfoliated MoS2 nanosheets and dopamine-co...", "citations": 14, "author_count": 12, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4794, "doi": "10.1016/j.apsusc.2022.153042", "umap_coordinates": { "x": 392.8330383300781, "y": 133.7312774658203, "z": 205.68304443359375 }, "tsne_coordinates": { "x": 27.759254455566406, "y": -2.019224166870117, "z": -11.673979759216309 }, "pca_coordinates": { "x": -2.694408893585205, "y": -2.592918872833252, "z": 0.5229285359382629 }, "axis_scores": { "Quantum imaging": 0.7037119269371033, "Quantum Life Science Sensing": 0.709102213382721, "Quantum sensing Detection": 0.6991437673568726, "Quantum sensing Metrology": 0.6986834406852722, "Quantum sensing navigation": 0.699813961982727, "Quantum sensing Position": 0.7029561996459961, "Quantum sensing Timing": 0.6802576780319214, "Quantum sensing": 0.7157240509986877, "Quantum control": 0.696729302406311 } }, { "id": 4788, "title": "Dianthracenylazatrioxa[8]circulene: Synthesis, Characterization and Application in OLEDs", "abstract": "A soluble, green-blue fluorescent, pi-extended azatrioxa[8]circulene was synthesized by oxidative condensation of a 3,6-dihydroxycarbazole and 1,4-anthraquinone by using benzofuran scaffolding. This i...", "citations": 10, "author_count": 13, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4795, "doi": "10.1002/chem.202100090", "umap_coordinates": { "x": 392.29534912109375, "y": 136.14010620117188, "z": 204.73681640625 }, "tsne_coordinates": { "x": -2.46187686920166, "y": 7.793736457824707, "z": 1.1417242288589478 }, "pca_coordinates": { "x": -3.4258158206939697, "y": -0.4166688919067383, "z": -2.8674168586730957 }, "axis_scores": { "Quantum imaging": 0.6898522973060608, "Quantum Life Science Sensing": 0.7269348502159119, "Quantum sensing Detection": 0.6842392683029175, "Quantum sensing Metrology": 0.667809784412384, "Quantum sensing navigation": 0.6683050394058228, "Quantum sensing Position": 0.663360595703125, "Quantum sensing Timing": 0.6781119704246521, "Quantum sensing": 0.6946605443954468, "Quantum control": 0.7013963460922241 } }, { "id": 4789, "title": "Vibration-induced modulation of magnetic anisotropy in a magnetic molecule", "abstract": "We theoretically analyze the spectrum of a magnetic molecule when its charge and spin can couple to the molecular vibrations. More specifically, we show that the interplay between charge-vibron and sp...", "citations": 4, "author_count": 4, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4796, "doi": "10.1103/PhysRevB.97.235441", "umap_coordinates": { "x": 393.132568359375, "y": 136.1310272216797, "z": 208.53407287597656 }, "tsne_coordinates": { "x": 7.53599739074707, "y": -28.633167266845703, "z": 21.476579666137695 }, "pca_coordinates": { "x": 4.182501316070557, "y": -0.6783337593078613, "z": -2.5583157539367676 }, "axis_scores": { "Quantum imaging": 0.6976718306541443, "Quantum Life Science Sensing": 0.6963527202606201, "Quantum sensing Detection": 0.6885471940040588, "Quantum sensing Metrology": 0.6760956645011902, "Quantum sensing navigation": 0.6823941469192505, "Quantum sensing Position": 0.6522543430328369, "Quantum sensing Timing": 0.6475982666015625, "Quantum sensing": 0.6974217295646667, "Quantum control": 0.689781665802002 } }, { "id": 4790, "title": "Surface Engineering of Quantum Dots for Remarkably High Detectivity Photodetectors", "abstract": "Ternary alloyed CdSexTe1-x colloidal QDs trap-passivated by iodide-based ligands (TBAI) are developed as building blocks for UV-NIR photodetectors. Both the few surface traps and high loading of QDs a...", "citations": 39, "author_count": 7, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4797, "doi": "10.1021/acs.jpclett.8b01255", "umap_coordinates": { "x": 391.87347412109375, "y": 133.9320068359375, "z": 205.50904846191406 }, "tsne_coordinates": { "x": 21.674762725830078, "y": -9.13515567779541, "z": -24.009159088134766 }, "pca_coordinates": { "x": -3.3200597763061523, "y": -4.404384136199951, "z": 0.41469067335128784 }, "axis_scores": { "Quantum imaging": 0.7223027348518372, "Quantum Life Science Sensing": 0.7315942049026489, "Quantum sensing Detection": 0.7243786454200745, "Quantum sensing Metrology": 0.6874349117279053, "Quantum sensing navigation": 0.6878349184989929, "Quantum sensing Position": 0.6662240028381348, "Quantum sensing Timing": 0.663538932800293, "Quantum sensing": 0.7195294499397278, "Quantum control": 0.6910616159439087 } }, { "id": 4791, "title": "Fast non-Abelian geometric gates via transitionless quantum driving", "abstract": "A practical quantum computer must be capable of performing high fidelity quantum gates on a set of quantum bits (qubits). In the presence of noise, the realization of such gates poses daunting challen...", "citations": 93, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4798, "doi": "10.1038/srep18414", "umap_coordinates": { "x": 394.8845520019531, "y": 137.51329040527344, "z": 207.49020385742188 }, "tsne_coordinates": { "x": -28.14105796813965, "y": -26.7966365814209, "z": 13.690598487854004 }, "pca_coordinates": { "x": 2.259819984436035, "y": 1.920931100845337, "z": 1.1777920722961426 }, "axis_scores": { "Quantum imaging": 0.742203950881958, "Quantum Life Science Sensing": 0.7096695899963379, "Quantum sensing Detection": 0.7279733419418335, "Quantum sensing Metrology": 0.7208972573280334, "Quantum sensing navigation": 0.7546584010124207, "Quantum sensing Position": 0.6791106462478638, "Quantum sensing Timing": 0.7259476184844971, "Quantum sensing": 0.7349600195884705, "Quantum control": 0.7325263023376465 } }, { "id": 4792, "title": "All-visible-light-driven stiff-stilbene photoswitches", "abstract": "Molecular photoswitches are potent tools to construct dynamic functional systems and responsive materials that can be controlled in a non-invasive manner. As P-type photoswitches, stiff-stilbenes attr...", "citations": 22, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4799, "doi": "10.1039/d4sc00983e", "umap_coordinates": { "x": 392.0207214355469, "y": 135.43670654296875, "z": 205.06739807128906 }, "tsne_coordinates": { "x": 3.9806206226348877, "y": 3.0530264377593994, "z": -11.274776458740234 }, "pca_coordinates": { "x": -1.6987558603286743, "y": -2.4657974243164062, "z": -0.7998301982879639 }, "axis_scores": { "Quantum imaging": 0.688788115978241, "Quantum Life Science Sensing": 0.7182626724243164, "Quantum sensing Detection": 0.6951497793197632, "Quantum sensing Metrology": 0.6715715527534485, "Quantum sensing navigation": 0.6760616302490234, "Quantum sensing Position": 0.65854412317276, "Quantum sensing Timing": 0.6759423613548279, "Quantum sensing": 0.7082896828651428, "Quantum control": 0.6799504160881042 } }, { "id": 4793, "title": "Efficient and Spectrally Stable Blue Perovskite Light-Emitting Diodes Based on Potassium Passivated Nanocrystals", "abstract": "Metal halide perovskites have aroused tremendous interest in the past several years for their promising applications in display and lighting. However, the development of blue perovskite light-emitting...", "citations": 180, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4800, "doi": "10.1002/adfm.201908760", "umap_coordinates": { "x": 392.31219482421875, "y": 133.81837463378906, "z": 205.1730194091797 }, "tsne_coordinates": { "x": 21.75008201599121, "y": 0.8261685371398926, "z": -24.37468719482422 }, "pca_coordinates": { "x": -3.436795711517334, "y": -3.4037418365478516, "z": -1.0332558155059814 }, "axis_scores": { "Quantum imaging": 0.6978030800819397, "Quantum Life Science Sensing": 0.6960424780845642, "Quantum sensing Detection": 0.6742351055145264, "Quantum sensing Metrology": 0.682057797908783, "Quantum sensing navigation": 0.6616050601005554, "Quantum sensing Position": 0.6450495719909668, "Quantum sensing Timing": 0.6393983364105225, "Quantum sensing": 0.6976568698883057, "Quantum control": 0.6674820184707642 } }, { "id": 4794, "title": "Centrality, rapidity, and transverse momentum dependence of isolated prompt photon production in lead-lead collisions at √SNN=2.76 TeV measured with the ATLAS detector", "abstract": "Prompt photon production in root S-NN = 2.76-TeV Pb + Pb collisions has been measured by the ATLAS experiment at the Large Hadron Collider using data collected in 2011 with an integrated luminosity of...", "citations": 53, "author_count": 2654, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4801, "doi": "10.1103/PhysRevC.93.034914", "umap_coordinates": { "x": 396.71429443359375, "y": 134.317626953125, "z": 207.90191650390625 }, "tsne_coordinates": { "x": -32.56317901611328, "y": 9.538671493530273, "z": -15.234601020812988 }, "pca_coordinates": { "x": 0.7630935907363892, "y": -0.6459379196166992, "z": 1.9763169288635254 }, "axis_scores": { "Quantum imaging": 0.659687876701355, "Quantum Life Science Sensing": 0.6671871542930603, "Quantum sensing Detection": 0.674511730670929, "Quantum sensing Metrology": 0.6358746290206909, "Quantum sensing navigation": 0.6573711037635803, "Quantum sensing Position": 0.6704964637756348, "Quantum sensing Timing": 0.6799860000610352, "Quantum sensing": 0.671830415725708, "Quantum control": 0.6355312466621399 } }, { "id": 4795, "title": "Iodine-free redox couples for dye-sensitized solar cells", "abstract": "Redox couples, as one of the crucial components of dye-sensitized solar cells, have been investigated for many years. Due to the many drawbacks of I I-/I-3(-) electrolyte, scientists have paid more at...", "citations": 147, "author_count": 3, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4802, "doi": "10.1039/c1jm10598a", "umap_coordinates": { "x": 392.1138916015625, "y": 134.953369140625, "z": 204.80960083007812 }, "tsne_coordinates": { "x": 18.953392028808594, "y": 4.066068649291992, "z": -13.055112838745117 }, "pca_coordinates": { "x": -1.6476200819015503, "y": -1.9725441932678223, "z": -1.785250186920166 }, "axis_scores": { "Quantum imaging": 0.6922335028648376, "Quantum Life Science Sensing": 0.718016505241394, "Quantum sensing Detection": 0.6788933277130127, "Quantum sensing Metrology": 0.6844154596328735, "Quantum sensing navigation": 0.6662421226501465, "Quantum sensing Position": 0.6348116993904114, "Quantum sensing Timing": 0.6389361023902893, "Quantum sensing": 0.69355309009552, "Quantum control": 0.6688562035560608 } }, { "id": 4796, "title": "Partitioning technique for open systems", "abstract": "The focus of the present contribution is essentially confined to three research areas carried out during the author's turns as visiting (assistant, associate and full) professor at the University of F...", "citations": 4, "author_count": 2, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4803, "doi": "10.1080/00268976.2010.508754", "umap_coordinates": { "x": 394.8570251464844, "y": 137.32635498046875, "z": 205.7442626953125 }, "tsne_coordinates": { "x": -23.817283630371094, "y": 7.147640705108643, "z": 10.160914421081543 }, "pca_coordinates": { "x": -0.2951391339302063, "y": 3.169288158416748, "z": -1.236968994140625 }, "axis_scores": { "Quantum imaging": 0.7017039060592651, "Quantum Life Science Sensing": 0.7211310267448425, "Quantum sensing Detection": 0.6812940239906311, "Quantum sensing Metrology": 0.677656888961792, "Quantum sensing navigation": 0.6963596343994141, "Quantum sensing Position": 0.6739178895950317, "Quantum sensing Timing": 0.6890555024147034, "Quantum sensing": 0.70366370677948, "Quantum control": 0.7018904089927673 } }, { "id": 4797, "title": "Collective Properties and Combined Quantum Transitions of Two-Dimensional Magnetoexcitons", "abstract": "The article consists of two parts describing two associated properties of two-dimensional magnetoexcitons. In the first part, the theory of combined exciton-cyclotron resonance in the quantum well str...", "citations": 2, "author_count": 5, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 4804, "doi": "10.1002/qua.22315", "umap_coordinates": { "x": 393.5206298828125, "y": 136.655517578125, "z": 206.98846435546875 }, "tsne_coordinates": { "x": 0.497582346200943, "y": -10.879242897033691, "z": 4.005166530609131 }, "pca_coordinates": { "x": 1.4395573139190674, "y": -1.4574480056762695, "z": -1.4337823390960693 }, "axis_scores": { "Quantum imaging": 0.7471832633018494, "Quantum Life Science Sensing": 0.7415058612823486, "Quantum sensing Detection": 0.7477270364761353, "Quantum sensing Metrology": 0.7413752675056458, "Quantum sensing navigation": 0.7269303202629089, "Quantum sensing Position": 0.7046738266944885, "Quantum sensing Timing": 0.6914767026901245, "Quantum sensing": 0.7592642903327942, "Quantum control": 0.7397003173828125 } }, { "id": 4798, "title": "A combined quantum mechanics and molecular dynamics study of small Jahn-Teller distorted hydrocarbons: Another difficult test for density-functional theory", "abstract": "Temperature, vibrational, and matrix effects on the geometry and hyperfine coupling constants of the methane and ethane radical cations are investigated with a combined quantum mechanics and molecular...", "citations": 16, "author_count": 5, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4805, "doi": "10.1063/1.479141", "umap_coordinates": { "x": 393.1534423828125, "y": 137.43467712402344, "z": 206.13650512695312 }, "tsne_coordinates": { "x": -2.949209213256836, "y": 9.004261016845703, "z": 30.16014289855957 }, "pca_coordinates": { "x": 1.846738576889038, "y": 1.0573922395706177, "z": -1.4192677736282349 }, "axis_scores": { "Quantum imaging": 0.7175960540771484, "Quantum Life Science Sensing": 0.7337378859519958, "Quantum sensing Detection": 0.7001142501831055, "Quantum sensing Metrology": 0.6907410025596619, "Quantum sensing navigation": 0.6844328045845032, "Quantum sensing Position": 0.642814040184021, "Quantum sensing Timing": 0.6450074315071106, "Quantum sensing": 0.7209482789039612, "Quantum control": 0.6904675364494324 } }, { "id": 4799, "title": "ON THE POSSIBILITY OF EPR-CORRELATIONS BETWEEN PARTIALLY DELOCALIZED PROTONS IN METAL-HYDROGEN SYSTEMS", "abstract": "In connection with current theoretical work based on the Complex Scaling Method (CSM), thermally activated Einstein-Podolsky-Rosen (EPR) correlations between protons in water at room temperature have ...", "citations": 6, "author_count": 3, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 4806, "doi": "10.1524/zpch.1993.181.Part_1_2.165", "umap_coordinates": { "x": 393.109619140625, "y": 137.29112243652344, "z": 207.1567840576172 }, "tsne_coordinates": { "x": 8.154216766357422, "y": 6.925780296325684, "z": 23.30129051208496 }, "pca_coordinates": { "x": 1.8905110359191895, "y": 3.3801381587982178, "z": -2.158432722091675 }, "axis_scores": { "Quantum imaging": 0.698364794254303, "Quantum Life Science Sensing": 0.69549161195755, "Quantum sensing Detection": 0.6696162819862366, "Quantum sensing Metrology": 0.6777769923210144, "Quantum sensing navigation": 0.6935499310493469, "Quantum sensing Position": 0.680486261844635, "Quantum sensing Timing": 0.6637120246887207, "Quantum sensing": 0.6865396499633789, "Quantum control": 0.6627568602561951 } }, { "id": 4800, "title": "Thermo-responsive emission induced by different delocalized excited-states in isomorphous Pd(ii) and Pt(ii) one-dimensional chains", "abstract": "The self-assembly of d8 transition metal complexes is essential for the development of optoelectronic and sensing materials with superior photofunctional properties. However, detailed insight into the...", "citations": 4, "author_count": 12, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4807, "doi": "10.1039/d4sc04497e", "umap_coordinates": { "x": 391.9111633300781, "y": 135.8295135498047, "z": 205.4663543701172 }, "tsne_coordinates": { "x": 5.021984577178955, "y": -4.807067394256592, "z": -17.019622802734375 }, "pca_coordinates": { "x": -1.0927478075027466, "y": -1.5931682586669922, "z": -1.5409104824066162 }, "axis_scores": { "Quantum imaging": 0.6892294883728027, "Quantum Life Science Sensing": 0.7096885442733765, "Quantum sensing Detection": 0.6666199564933777, "Quantum sensing Metrology": 0.6526118516921997, "Quantum sensing navigation": 0.6449076533317566, "Quantum sensing Position": 0.6369508504867554, "Quantum sensing Timing": 0.6628653407096863, "Quantum sensing": 0.6798891425132751, "Quantum control": 0.6579042077064514 } }, { "id": 4801, "title": "Two-photon absorption of oxindole-based push-pull molecular motors", "abstract": "Future applications of light-driven molecular motors in bio-based systems and soft materials require their operation with benign, low-energy light irradiation. Here we report four rotary molecular mot...", "citations": 11, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4808, "doi": "10.1016/j.jphotochem.2024.115649", "umap_coordinates": { "x": 393.0793762207031, "y": 135.1336212158203, "z": 205.05873107910156 }, "tsne_coordinates": { "x": -1.6044056415557861, "y": 9.063578605651855, "z": -8.712946891784668 }, "pca_coordinates": { "x": -2.8578319549560547, "y": -1.6849279403686523, "z": 0.03552883863449097 }, "axis_scores": { "Quantum imaging": 0.7371631264686584, "Quantum Life Science Sensing": 0.7199665904045105, "Quantum sensing Detection": 0.7227620482444763, "Quantum sensing Metrology": 0.704681932926178, "Quantum sensing navigation": 0.714972972869873, "Quantum sensing Position": 0.6988198757171631, "Quantum sensing Timing": 0.6802335977554321, "Quantum sensing": 0.7290200591087341, "Quantum control": 0.6998478174209595 } }, { "id": 4802, "title": "Fundamental Limits on Anomalous Energy Flows in Correlated Quantum Systems", "abstract": "In classical thermodynamics energy always flows from the hotter system to the colder one. However, if these systems are initially correlated, the energy flow can reverse, making the cold system colder...", "citations": 15, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4809, "doi": "10.1103/PhysRevLett.132.140402", "umap_coordinates": { "x": 394.8730773925781, "y": 136.62374877929688, "z": 208.037353515625 }, "tsne_coordinates": { "x": -17.818538665771484, "y": -23.098955154418945, "z": 4.095159530639648 }, "pca_coordinates": { "x": 5.605980396270752, "y": 0.4665210247039795, "z": -0.6673021912574768 }, "axis_scores": { "Quantum imaging": 0.7020382881164551, "Quantum Life Science Sensing": 0.7188126444816589, "Quantum sensing Detection": 0.7136443853378296, "Quantum sensing Metrology": 0.69402015209198, "Quantum sensing navigation": 0.709639847278595, "Quantum sensing Position": 0.687969446182251, "Quantum sensing Timing": 0.6948723793029785, "Quantum sensing": 0.7181857824325562, "Quantum control": 0.7030012607574463 } }, { "id": 4803, "title": "The Role of Ligands in the Chemical Synthesis and Applications of Inorganic Nanoparticles", "abstract": "The design of nanoparticles is critical for their efficient use in many applications ranging from biomedicine to sensing and energy. While shape and size are responsible for the properties of the inor...", "citations": 1093, "author_count": 17, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4810, "doi": "10.1021/acs.chemrev.8b00733", "umap_coordinates": { "x": 392.5536193847656, "y": 134.8274383544922, "z": 204.93930053710938 }, "tsne_coordinates": { "x": 14.494818687438965, "y": -3.915628671646118, "z": -12.352407455444336 }, "pca_coordinates": { "x": -3.1032772064208984, "y": -3.069125175476074, "z": -3.0983736515045166 }, "axis_scores": { "Quantum imaging": 0.7013126611709595, "Quantum Life Science Sensing": 0.714866042137146, "Quantum sensing Detection": 0.6862178444862366, "Quantum sensing Metrology": 0.6815146207809448, "Quantum sensing navigation": 0.6970064043998718, "Quantum sensing Position": 0.6709503531455994, "Quantum sensing Timing": 0.6504084467887878, "Quantum sensing": 0.7012004256248474, "Quantum control": 0.6937493681907654 } }, { "id": 4804, "title": "Investigation of electrocatalytic activity on a N-doped reduced graphene oxide surface for the oxygen reduction reaction in an alkaline medium", "abstract": "Today the search for new energy resources is a crucial topic for materials science. The development of new effective catalysts for the oxygen reduction reaction can significantly improve the performan...", "citations": 37, "author_count": 9, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4811, "doi": "10.1016/j.ijhydene.2018.05.012", "umap_coordinates": { "x": 393.1439208984375, "y": 134.228271484375, "z": 204.9752197265625 }, "tsne_coordinates": { "x": 24.211259841918945, "y": 12.761603355407715, "z": -0.6628149151802063 }, "pca_coordinates": { "x": -2.2844009399414062, "y": -0.2419443130493164, "z": -1.2571287155151367 }, "axis_scores": { "Quantum imaging": 0.7123162150382996, "Quantum Life Science Sensing": 0.7446139454841614, "Quantum sensing Detection": 0.7044563293457031, "Quantum sensing Metrology": 0.6790913939476013, "Quantum sensing navigation": 0.6958985924720764, "Quantum sensing Position": 0.6668649911880493, "Quantum sensing Timing": 0.6388605833053589, "Quantum sensing": 0.7208808064460754, "Quantum control": 0.686826765537262 } }, { "id": 4805, "title": "Automated analysis of large sets of heteronuclear correlation spectra in NMR-based drug discovery", "abstract": "Drug discovery procedures based on NMR typically require the analysis of thousands of NMR spectra. For example, in SAR by NMR, two-dimensional NMR spectra are recorded for a target protein mixed with ...", "citations": 15, "author_count": 4, "categories": [ "Pharmacology & Pharmacy" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4812, "doi": "10.1021/jm020866a", "umap_coordinates": { "x": 392.5530090332031, "y": 137.2108612060547, "z": 206.45916748046875 }, "tsne_coordinates": { "x": 13.098063468933105, "y": 8.362523078918457, "z": 31.07996368408203 }, "pca_coordinates": { "x": -0.7923249006271362, "y": 2.5002195835113525, "z": -1.0946781635284424 }, "axis_scores": { "Quantum imaging": 0.7235093116760254, "Quantum Life Science Sensing": 0.6973292231559753, "Quantum sensing Detection": 0.6869751214981079, "Quantum sensing Metrology": 0.6869037747383118, "Quantum sensing navigation": 0.6887552738189697, "Quantum sensing Position": 0.6590486168861389, "Quantum sensing Timing": 0.6770274639129639, "Quantum sensing": 0.7037177085876465, "Quantum control": 0.6865628361701965 } }, { "id": 4806, "title": "Large Dzyaloshinskii-Moriya interaction and atomic layer thickness dependence in a ferromagnet-WS2 heterostructure", "abstract": "Two-dimensional transition metal dichalcogenides (TMDs) have immense potential for spintronics applications. Here, we report atomic layer thickness dependence in WS2/Co-3 FeB heterostructures. The lay...", "citations": 23, "author_count": 16, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4813, "doi": "10.1103/PhysRevB.105.064422", "umap_coordinates": { "x": 393.3741455078125, "y": 135.64303588867188, "z": 209.01666259765625 }, "tsne_coordinates": { "x": 14.409476280212402, "y": -41.005828857421875, "z": 11.654743194580078 }, "pca_coordinates": { "x": 1.8217792510986328, "y": -3.1210250854492188, "z": -0.9012664556503296 }, "axis_scores": { "Quantum imaging": 0.6955223679542542, "Quantum Life Science Sensing": 0.697638750076294, "Quantum sensing Detection": 0.6761373281478882, "Quantum sensing Metrology": 0.6734675168991089, "Quantum sensing navigation": 0.6602755784988403, "Quantum sensing Position": 0.6544627547264099, "Quantum sensing Timing": 0.6613316535949707, "Quantum sensing": 0.692320704460144, "Quantum control": 0.6598638296127319 } }, { "id": 4807, "title": "Exploring the structural and optical properties of FeS filled graphene/PVA blend for environmental-friendly applications", "abstract": "In this study, the role of iron sulfide (FeS) content on the structural and optical properties of graphene/polyvinyl alcohol (Gr/PVA) blend has been examined for environmental-friendly applications. G...", "citations": 59, "author_count": 7, "categories": [ "Polymer Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4814, "doi": "10.1007/s10965-021-02626-7", "umap_coordinates": { "x": 393.0080871582031, "y": 134.61236572265625, "z": 204.75912475585938 }, "tsne_coordinates": { "x": 30.884780883789062, "y": 13.512529373168945, "z": -4.6115498542785645 }, "pca_coordinates": { "x": -3.8713948726654053, "y": -1.0662379264831543, "z": -1.1806411743164062 }, "axis_scores": { "Quantum imaging": 0.6584473848342896, "Quantum Life Science Sensing": 0.7042641043663025, "Quantum sensing Detection": 0.6437988877296448, "Quantum sensing Metrology": 0.640748143196106, "Quantum sensing navigation": 0.6602857708930969, "Quantum sensing Position": 0.6401599645614624, "Quantum sensing Timing": 0.6040816307067871, "Quantum sensing": 0.6618550419807434, "Quantum control": 0.6336588859558105 } }, { "id": 4808, "title": "Formation of spatial patterns by spin-selective excitations of interacting fermions", "abstract": "We describe the formation of charge- and spin-density patterns induced by spin-selective photoexcitations of interacting fermionic systems in the presence of a microstructure. As an example, we consid...", "citations": 4, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4815, "doi": "10.1103/PhysRevB.102.235166", "umap_coordinates": { "x": 394.7154541015625, "y": 136.56710815429688, "z": 209.14157104492188 }, "tsne_coordinates": { "x": -23.583595275878906, "y": -21.915416717529297, "z": 21.681373596191406 }, "pca_coordinates": { "x": 3.7535834312438965, "y": -1.9872527122497559, "z": 0.2198278307914734 }, "axis_scores": { "Quantum imaging": 0.7035043239593506, "Quantum Life Science Sensing": 0.6735345721244812, "Quantum sensing Detection": 0.6947275996208191, "Quantum sensing Metrology": 0.6843830943107605, "Quantum sensing navigation": 0.71053546667099, "Quantum sensing Position": 0.6693318486213684, "Quantum sensing Timing": 0.6652283668518066, "Quantum sensing": 0.6984978318214417, "Quantum control": 0.6731485724449158 } }, { "id": 4809, "title": "Liouvillian of the Open STIRAP Problem", "abstract": "With the corresponding Liouvillian as a starting point, we demonstrate two seemingly new phenomena of the STIRAP problem when subjected to irreversible losses. It is argued that both of these can be u...", "citations": 16, "author_count": 3, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4816, "doi": "10.3390/e20010020", "umap_coordinates": { "x": 395.07513427734375, "y": 137.43190002441406, "z": 205.45880126953125 }, "tsne_coordinates": { "x": -22.91652488708496, "y": 8.231341361999512, "z": 9.505237579345703 }, "pca_coordinates": { "x": -0.7930816411972046, "y": 2.706941604614258, "z": -1.320931315422058 }, "axis_scores": { "Quantum imaging": 0.7053267955780029, "Quantum Life Science Sensing": 0.7333141565322876, "Quantum sensing Detection": 0.6928058862686157, "Quantum sensing Metrology": 0.7054018974304199, "Quantum sensing navigation": 0.713742733001709, "Quantum sensing Position": 0.6952004432678223, "Quantum sensing Timing": 0.675883412361145, "Quantum sensing": 0.7148259878158569, "Quantum control": 0.6986646056175232 } }, { "id": 4810, "title": "Origin of radiative recombination and manifestations of localization effects in GaAs/GaNAs core/shell nanowires", "abstract": "Radiative carrier recombination processes in GaAs/GaNAs core/shell nanowires grown by molecular beam epitaxy on a Si substrate are systematically investigated by employing micro-photoluminescence (mu-...", "citations": 29, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4817, "doi": "10.1063/1.4905090", "umap_coordinates": { "x": 392.7091064453125, "y": 133.87046813964844, "z": 208.13760375976562 }, "tsne_coordinates": { "x": 26.017826080322266, "y": -22.16446304321289, "z": 8.616386413574219 }, "pca_coordinates": { "x": 0.09468531608581543, "y": -2.9578003883361816, "z": 0.3716065287590027 }, "axis_scores": { "Quantum imaging": 0.722466230392456, "Quantum Life Science Sensing": 0.7207458019256592, "Quantum sensing Detection": 0.7208189964294434, "Quantum sensing Metrology": 0.7062573432922363, "Quantum sensing navigation": 0.7258180379867554, "Quantum sensing Position": 0.7073882818222046, "Quantum sensing Timing": 0.7013818025588989, "Quantum sensing": 0.7264378070831299, "Quantum control": 0.6799266338348389 } }, { "id": 4811, "title": "Controlled growth of hexagonal GaN pyramids by hot-wall MOCVD", "abstract": "Hexagonal GaN pyramids have been fabricated by hot-wall metal organic chemical vapor deposition (hot-wall MOCVD) and the growth evolution have been studied. It was concluded that the pyramid growth ca...", "citations": 20, "author_count": 8, "categories": [ "Crystallography" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4818, "doi": "10.1016/j.jcrysgro.2012.11.014", "umap_coordinates": { "x": 392.82135009765625, "y": 133.931640625, "z": 206.04434204101562 }, "tsne_coordinates": { "x": 43.642295837402344, "y": 4.555088043212891, "z": -6.159354209899902 }, "pca_coordinates": { "x": -1.6728053092956543, "y": -0.3856844902038574, "z": -0.7665294408798218 }, "axis_scores": { "Quantum imaging": 0.7140883207321167, "Quantum Life Science Sensing": 0.7069320678710938, "Quantum sensing Detection": 0.6935489773750305, "Quantum sensing Metrology": 0.7057127356529236, "Quantum sensing navigation": 0.6976528763771057, "Quantum sensing Position": 0.6576108932495117, "Quantum sensing Timing": 0.667759895324707, "Quantum sensing": 0.7169439196586609, "Quantum control": 0.7490887641906738 } }, { "id": 4812, "title": "Photoreflectance study of the fundamental optical properties of (Ga,Mn) As epitaxial films", "abstract": "Fundamental optical properties of thin films of the (Ga,Mn) As diluted ferromagnetic semiconductor with low (1%-2%) and high (4%-6%) Mn content and of a reference GaAs film, grown by low-temperature m...", "citations": 27, "author_count": 8, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4819, "doi": "10.1103/PhysRevB.83.245201", "umap_coordinates": { "x": 393.37225341796875, "y": 135.13406372070312, "z": 208.4318389892578 }, "tsne_coordinates": { "x": 3.6838278770446777, "y": -38.453006744384766, "z": 10.952737808227539 }, "pca_coordinates": { "x": 1.2880706787109375, "y": -1.5957026481628418, "z": -0.2324995994567871 }, "axis_scores": { "Quantum imaging": 0.7072126865386963, "Quantum Life Science Sensing": 0.732537567615509, "Quantum sensing Detection": 0.7072941660881042, "Quantum sensing Metrology": 0.7163500785827637, "Quantum sensing navigation": 0.7116005420684814, "Quantum sensing Position": 0.7045484185218811, "Quantum sensing Timing": 0.6630975604057312, "Quantum sensing": 0.7266208529472351, "Quantum control": 0.6799692511558533 } }, { "id": 4813, "title": "NEUTRON AND LIGHT-SCATTERING STUDY OF RELAXATION DYNAMICS IN A GLASS-FORMING FRAGILE MOLECULAR LIQUID", "abstract": "We present experimental results on the structural relaxation dynamics of a fragile molecular glass, propylene carbonate, from quasielastic neutron and inelastic light scattering investigations of the ...", "citations": 73, "author_count": 4, "categories": [ "Chemistry" ], "year": 1990, "topic": [ "all" ], "embedding_index": 4820, "doi": "10.1016/0301-0104(90)80140-S", "umap_coordinates": { "x": 393.2010803222656, "y": 136.3595733642578, "z": 205.8271026611328 }, "tsne_coordinates": { "x": 14.330296516418457, "y": 14.194689750671387, "z": 16.95271110534668 }, "pca_coordinates": { "x": 0.03882408142089844, "y": 2.285202741622925, "z": -2.1659140586853027 }, "axis_scores": { "Quantum imaging": 0.6418800950050354, "Quantum Life Science Sensing": 0.6883013248443604, "Quantum sensing Detection": 0.6369555592536926, "Quantum sensing Metrology": 0.6057130694389343, "Quantum sensing navigation": 0.6396538019180298, "Quantum sensing Position": 0.6145058870315552, "Quantum sensing Timing": 0.6152313947677612, "Quantum sensing": 0.64729905128479, "Quantum control": 0.6186637282371521 } }, { "id": 4814, "title": "Heterocyclic [9]Helicenes Exhibiting Bright Circularly Polarized Luminescence", "abstract": "We describe a concise synthetic strategy for the preparation of heterocyclic [9]helicenes and a simple preparative-scale protocol for the optical resolution of the resulting M- and P-enantiomers. The ...", "citations": 6, "author_count": 14, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4821, "doi": "10.1002/chem.202301815", "umap_coordinates": { "x": 392.1273498535156, "y": 135.72259521484375, "z": 204.6990509033203 }, "tsne_coordinates": { "x": -2.100202798843384, "y": 11.817680358886719, "z": -8.85722827911377 }, "pca_coordinates": { "x": -1.0637567043304443, "y": -1.049685001373291, "z": -3.212489604949951 }, "axis_scores": { "Quantum imaging": 0.7346210479736328, "Quantum Life Science Sensing": 0.7474551200866699, "Quantum sensing Detection": 0.7238088846206665, "Quantum sensing Metrology": 0.6954826712608337, "Quantum sensing navigation": 0.7121816873550415, "Quantum sensing Position": 0.6761628985404968, "Quantum sensing Timing": 0.6748907566070557, "Quantum sensing": 0.7384015917778015, "Quantum control": 0.7272156476974487 } }, { "id": 4815, "title": "Analysis of Anion Binding Effects on the Sensitized Luminescence of Macrocyclic Europium(III) Complexes", "abstract": "Four triazamacrocyclic and two tetraazamacrocyclic ligands carrying two and three coordinating donor groups, respectively, and a carbostyril light-harvesting antenna were synthesized. The antenna was ...", "citations": 10, "author_count": 7, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4822, "doi": "10.1002/anse.202200015", "umap_coordinates": { "x": 392.95452880859375, "y": 135.30233764648438, "z": 204.48910522460938 }, "tsne_coordinates": { "x": 5.572251319885254, "y": 15.0029296875, "z": -9.446905136108398 }, "pca_coordinates": { "x": -3.4131815433502197, "y": -1.0508673191070557, "z": -2.544625997543335 }, "axis_scores": { "Quantum imaging": 0.7146158814430237, "Quantum Life Science Sensing": 0.7385371923446655, "Quantum sensing Detection": 0.7152958512306213, "Quantum sensing Metrology": 0.7063900232315063, "Quantum sensing navigation": 0.7141596674919128, "Quantum sensing Position": 0.6929017901420593, "Quantum sensing Timing": 0.6852812170982361, "Quantum sensing": 0.7289127111434937, "Quantum control": 0.7079107165336609 } }, { "id": 4816, "title": "Reduction-based engineering of three-dimensional morphology of Ni-rGO nanocomposite", "abstract": "Relying on the reduction of oxygenated functional groups of graphene oxide, the engineering of the morphology of Ni-based reduced graphene oxide (Ni-rGO) nanocomposite was carried out via galvanostati...", "citations": 13, "author_count": 5, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4823, "doi": "10.1016/j.mseb.2021.115259", "umap_coordinates": { "x": 392.7784423828125, "y": 134.4110870361328, "z": 205.44442749023438 }, "tsne_coordinates": { "x": 23.46047592163086, "y": 18.74140167236328, "z": -14.99025821685791 }, "pca_coordinates": { "x": -3.728503942489624, "y": -0.5265679359436035, "z": -2.350766181945801 }, "axis_scores": { "Quantum imaging": 0.715481162071228, "Quantum Life Science Sensing": 0.7226651906967163, "Quantum sensing Detection": 0.6786671876907349, "Quantum sensing Metrology": 0.6835057735443115, "Quantum sensing navigation": 0.6931899189949036, "Quantum sensing Position": 0.670851469039917, "Quantum sensing Timing": 0.6306121945381165, "Quantum sensing": 0.6967240571975708, "Quantum control": 0.6863352656364441 } }, { "id": 4817, "title": "Ultimate quantum limit for amplification: a single atom in front of a mirror", "abstract": "We investigate three types of amplification processes for light fields coupling to an atom near the end of a one-dimensional (1D) semi-infinite waveguide. We consider two setups where a drive creates ...", "citations": 2, "author_count": 6, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4824, "doi": "10.1088/1367-2630/abf1d8", "umap_coordinates": { "x": 394.8847351074219, "y": 135.43869018554688, "z": 206.24020385742188 }, "tsne_coordinates": { "x": -12.784793853759766, "y": -12.95382022857666, "z": -21.25169563293457 }, "pca_coordinates": { "x": 0.376379132270813, "y": 1.3032033443450928, "z": 0.7743135094642639 }, "axis_scores": { "Quantum imaging": 0.7248138189315796, "Quantum Life Science Sensing": 0.730753481388092, "Quantum sensing Detection": 0.7345575094223022, "Quantum sensing Metrology": 0.7274173498153687, "Quantum sensing navigation": 0.7029145359992981, "Quantum sensing Position": 0.7019166350364685, "Quantum sensing Timing": 0.6582126021385193, "Quantum sensing": 0.7339264154434204, "Quantum control": 0.7192136645317078 } }, { "id": 4818, "title": "Electrical Control of Hybrid Monolayer Tungsten Disulfide-Plasmonic Nanoantenna Light-Matter States at Cryogenic and Room Temperatures", "abstract": "Hybrid light-matter states-polaritons-have attracted considerable scientific interest recently, motivated by their potential for development of nonlinear and quantum optical schemes. To realize such s...", "citations": 64, "author_count": 8, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4825, "doi": "10.1021/acsnano.9b09684", "umap_coordinates": { "x": 392.92755126953125, "y": 134.7627716064453, "z": 206.538330078125 }, "tsne_coordinates": { "x": 12.1366548538208, "y": -17.4477481842041, "z": -12.755101203918457 }, "pca_coordinates": { "x": -0.1005481481552124, "y": -3.568385601043701, "z": -0.9686902165412903 }, "axis_scores": { "Quantum imaging": 0.7098590135574341, "Quantum Life Science Sensing": 0.7375345230102539, "Quantum sensing Detection": 0.6970788240432739, "Quantum sensing Metrology": 0.7033999562263489, "Quantum sensing navigation": 0.7028878331184387, "Quantum sensing Position": 0.6884798407554626, "Quantum sensing Timing": 0.6865756511688232, "Quantum sensing": 0.714430570602417, "Quantum control": 0.7007467150688171 } }, { "id": 4819, "title": "Epitaxial Graphene on SiC: A Review of Growth and Characterization", "abstract": "This review is devoted to one of the most promising two-dimensional (2D) materials, graphene. Graphene can be prepared by different methods and the one discussed here is fabricated by the thermal deco...", "citations": 225, "author_count": 4, "categories": [ "Crystallography" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4826, "doi": "10.3390/cryst6050053", "umap_coordinates": { "x": 393.2110290527344, "y": 133.8779296875, "z": 205.7476806640625 }, "tsne_coordinates": { "x": 36.77131271362305, "y": 13.97706413269043, "z": -13.604655265808105 }, "pca_coordinates": { "x": -1.6234886646270752, "y": -0.2773563861846924, "z": -1.3344529867172241 }, "axis_scores": { "Quantum imaging": 0.6958088278770447, "Quantum Life Science Sensing": 0.7297569513320923, "Quantum sensing Detection": 0.6943133473396301, "Quantum sensing Metrology": 0.7020391821861267, "Quantum sensing navigation": 0.6914830207824707, "Quantum sensing Position": 0.6766178011894226, "Quantum sensing Timing": 0.6560114026069641, "Quantum sensing": 0.7133099436759949, "Quantum control": 0.7045313119888306 } }, { "id": 4820, "title": "Analytical tools to monitor exocytosis: a focus on new fluorescent probes and methods", "abstract": "A great deal of research has been focused on unraveling the processes governing the exocytotic pathway and the extent of release during the process. Arguments abound for and against both the occurrenc...", "citations": 38, "author_count": 4, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4827, "doi": "10.1039/c2an15901e", "umap_coordinates": { "x": 393.3708801269531, "y": 135.00242614746094, "z": 204.49256896972656 }, "tsne_coordinates": { "x": 8.461640357971191, "y": 13.794327735900879, "z": -20.41754722595215 }, "pca_coordinates": { "x": -3.918078660964966, "y": 0.31064915657043457, "z": -1.1171475648880005 }, "axis_scores": { "Quantum imaging": 0.6751708984375, "Quantum Life Science Sensing": 0.7141573429107666, "Quantum sensing Detection": 0.7013900279998779, "Quantum sensing Metrology": 0.6891520023345947, "Quantum sensing navigation": 0.6821460127830505, "Quantum sensing Position": 0.6609644889831543, "Quantum sensing Timing": 0.6588441729545593, "Quantum sensing": 0.7010610699653625, "Quantum control": 0.67448890209198 } }, { "id": 4821, "title": "Assessment of visibility of bone structures in the wrist using normal and half of the radiation dose with photon-counting detector CT", "abstract": "Purpose: To quantitatively and qualitatively assess the visibility of bone structures in the wrist on photon-counting detector computed tomography (PCD-CT) images compared to state-of-the-art energy-i...", "citations": 35, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4828, "doi": "10.1016/j.ejrad.2022.110662", "umap_coordinates": { "x": 395.3082580566406, "y": 132.97398376464844, "z": 204.9546356201172 }, "tsne_coordinates": { "x": -4.003830432891846, "y": 28.173782348632812, "z": -18.36424446105957 }, "pca_coordinates": { "x": -3.605149269104004, "y": 3.970546245574951, "z": 3.6559276580810547 }, "axis_scores": { "Quantum imaging": 0.696802020072937, "Quantum Life Science Sensing": 0.6845062375068665, "Quantum sensing Detection": 0.6751226186752319, "Quantum sensing Metrology": 0.6714270114898682, "Quantum sensing navigation": 0.6844584941864014, "Quantum sensing Position": 0.6782432198524475, "Quantum sensing Timing": 0.6732786893844604, "Quantum sensing": 0.6757937073707581, "Quantum control": 0.6312227249145508 } }, { "id": 4822, "title": "Detection of On-Chip Generated Weak Microwave Radiation Using Superconducting Normal-Metal SET", "abstract": "The present work addresses quantum interaction phenomena of microwave radiation with a single-electron tunneling system. For this study, an integrated circuit is implemented, combining on the same chi...", "citations": 7, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4829, "doi": "10.3390/app6020035", "umap_coordinates": { "x": 394.72137451171875, "y": 134.35540771484375, "z": 206.67657470703125 }, "tsne_coordinates": { "x": -15.401250839233398, "y": -2.926521062850952, "z": -39.54277038574219 }, "pca_coordinates": { "x": -1.0133177042007446, "y": 0.4209122657775879, "z": 2.253373622894287 }, "axis_scores": { "Quantum imaging": 0.6686977744102478, "Quantum Life Science Sensing": 0.7169641256332397, "Quantum sensing Detection": 0.712356686592102, "Quantum sensing Metrology": 0.6893318891525269, "Quantum sensing navigation": 0.676864504814148, "Quantum sensing Position": 0.6543551683425903, "Quantum sensing Timing": 0.6611950397491455, "Quantum sensing": 0.7041662931442261, "Quantum control": 0.6540464758872986 } }, { "id": 4823, "title": "Calculated reaction cycle of cytochrome c oxidase", "abstract": "The catalytic cycle of cytochrome c oxidase has been simulated by means of quantum mechanical calculations. The experimental energetics of the catalytic cycle is nearly reproduced. The atomic structur...", "citations": 20, "author_count": 2, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4830, "doi": "10.1021/jp070578w", "umap_coordinates": { "x": 393.0625915527344, "y": 137.3629150390625, "z": 205.38436889648438 }, "tsne_coordinates": { "x": -0.2935692071914673, "y": 13.648496627807617, "z": 21.607357025146484 }, "pca_coordinates": { "x": -0.41505682468414307, "y": 1.7300658226013184, "z": -2.482208013534546 }, "axis_scores": { "Quantum imaging": 0.6770128011703491, "Quantum Life Science Sensing": 0.7330210208892822, "Quantum sensing Detection": 0.6839597225189209, "Quantum sensing Metrology": 0.6742746829986572, "Quantum sensing navigation": 0.6897918581962585, "Quantum sensing Position": 0.6721099019050598, "Quantum sensing Timing": 0.6700723171234131, "Quantum sensing": 0.684364914894104, "Quantum control": 0.6961464285850525 } }, { "id": 4824, "title": "Dynamics of a nanoscale rotor driven by single-electron tunneling", "abstract": "We investigate theoretically the dynamics and the charge transport properties of a rod-shaped nanoscale rotor, which is driven by a similar mechanism as the nanomechanical single-electron transistor (...", "citations": 17, "author_count": 3, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4831, "doi": "10.1209/0295-5075/98/68004", "umap_coordinates": { "x": 394.349853515625, "y": 134.4221954345703, "z": 208.56231689453125 }, "tsne_coordinates": { "x": 6.933810234069824, "y": -33.45964050292969, "z": -12.60453987121582 }, "pca_coordinates": { "x": 2.091472625732422, "y": -0.14867782592773438, "z": -0.9671308398246765 }, "axis_scores": { "Quantum imaging": 0.6886873841285706, "Quantum Life Science Sensing": 0.7171867489814758, "Quantum sensing Detection": 0.6877713203430176, "Quantum sensing Metrology": 0.6861302852630615, "Quantum sensing navigation": 0.719243049621582, "Quantum sensing Position": 0.6868137121200562, "Quantum sensing Timing": 0.6822061538696289, "Quantum sensing": 0.7001601457595825, "Quantum control": 0.7028708457946777 } }, { "id": 4825, "title": "Bose condensation of two-dimensional dipolar excitons: Simulation by the quantum Monte Carlo method", "abstract": "The Bose condensation of two-dimensional dipolar excitons in quantum wells is numerically studied by the diffusion Monte Carlo simulation method. The correlation, microscopic, thermodynamic, and spect...", "citations": 12, "author_count": 5, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 4832, "doi": "10.1134/S106377610802009X", "umap_coordinates": { "x": 393.83966064453125, "y": 136.87832641601562, "z": 206.95799255371094 }, "tsne_coordinates": { "x": 1.8585128784179688, "y": -11.445868492126465, "z": 6.8917999267578125 }, "pca_coordinates": { "x": 1.2086565494537354, "y": 0.0204925537109375, "z": -1.303403615951538 }, "axis_scores": { "Quantum imaging": 0.7114193439483643, "Quantum Life Science Sensing": 0.7058490514755249, "Quantum sensing Detection": 0.6994183659553528, "Quantum sensing Metrology": 0.6931580901145935, "Quantum sensing navigation": 0.7111586928367615, "Quantum sensing Position": 0.6800550818443298, "Quantum sensing Timing": 0.7082139849662781, "Quantum sensing": 0.7091590762138367, "Quantum control": 0.7023537158966064 } }, { "id": 4826, "title": "Many-body effects in highly acceptor-doped GaAs/AlxGa1-xAs quantum wells", "abstract": "The optical properties of quantum wells, which are center-doped with accepters up to the high doping regime, 1 x 10(19) cm(-3), have been studied by means of photoluminescence and photoluminescence ex...", "citations": 13, "author_count": 12, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4833, "doi": "10.1103/PhysRevB.58.4624", "umap_coordinates": { "x": 393.4695129394531, "y": 134.87269592285156, "z": 209.06614685058594 }, "tsne_coordinates": { "x": 12.85915756225586, "y": -32.61943054199219, "z": -0.02538326568901539 }, "pca_coordinates": { "x": 3.966940402984619, "y": -2.9057068824768066, "z": 1.2092781066894531 }, "axis_scores": { "Quantum imaging": 0.7139602899551392, "Quantum Life Science Sensing": 0.7128192782402039, "Quantum sensing Detection": 0.7057363390922546, "Quantum sensing Metrology": 0.6964350342750549, "Quantum sensing navigation": 0.7001665234565735, "Quantum sensing Position": 0.6902912855148315, "Quantum sensing Timing": 0.6821277737617493, "Quantum sensing": 0.7268054485321045, "Quantum control": 0.6907920241355896 } }, { "id": 4827, "title": "Non-adiabatic holonomic quantum computation", "abstract": "We develop a non-adiabatic generalization of holonomic quantum computation in which high-speed universal quantum gates can be realized using non-Abelian geometric phases. We show how a set of non-adia...", "citations": 364, "author_count": 7, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4834, "doi": "10.1088/1367-2630/14/10/103035", "umap_coordinates": { "x": 394.9278564453125, "y": 137.16387939453125, "z": 207.4097137451172 }, "tsne_coordinates": { "x": -34.287837982177734, "y": -11.112462997436523, "z": 16.241941452026367 }, "pca_coordinates": { "x": 2.7761542797088623, "y": 3.9320340156555176, "z": 0.35801321268081665 }, "axis_scores": { "Quantum imaging": 0.7389026284217834, "Quantum Life Science Sensing": 0.7091045379638672, "Quantum sensing Detection": 0.7240646481513977, "Quantum sensing Metrology": 0.7027707695960999, "Quantum sensing navigation": 0.7396926879882812, "Quantum sensing Position": 0.7050153613090515, "Quantum sensing Timing": 0.7147706151008606, "Quantum sensing": 0.7388609647750854, "Quantum control": 0.7295488119125366 } }, { "id": 4828, "title": "A new era of high-resolution CT diagnostics of the lung: improved image quality, detailed morphology, and reduced radiation dose with high-resolution photon-counting CT of the lungs compared to high-resolution energy-integrated CT", "abstract": "Background High-resolution computed tomography (HRCT) is dependent on detailed morphology in diagnostic assessment of interstitial lung diseases. Photon-counting CT (PCCT) enables improved resolution ...", "citations": 2, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4835, "doi": "10.1177/02841851241269918", "umap_coordinates": { "x": 395.67950439453125, "y": 133.06700134277344, "z": 205.11656188964844 }, "tsne_coordinates": { "x": -6.694974899291992, "y": 26.90469741821289, "z": -14.411700248718262 }, "pca_coordinates": { "x": -3.7191267013549805, "y": 2.9036991596221924, "z": 3.647162914276123 }, "axis_scores": { "Quantum imaging": 0.706269383430481, "Quantum Life Science Sensing": 0.6871969103813171, "Quantum sensing Detection": 0.6714776158332825, "Quantum sensing Metrology": 0.6505452990531921, "Quantum sensing navigation": 0.645727813243866, "Quantum sensing Position": 0.6319212317466736, "Quantum sensing Timing": 0.6533098220825195, "Quantum sensing": 0.6734274625778198, "Quantum control": 0.6393836736679077 } }, { "id": 4829, "title": "MULTIDIMENSIONAL EFFECTS IN DISSOCIATIVE CHEMISORPTION - H-2 ON CU-SURFACE AND NI-SURFACES", "abstract": "It is shown that, in order to describe and understand the trends found experimentally for the variation of the H-2 sticking probability with crystal face on Cu and Ni surfaces, the dynamics of all six...", "citations": 57, "author_count": 5, "categories": [ "Materials Science" ], "year": 1992, "topic": [ "all" ], "embedding_index": 4836, "doi": "10.1103/PhysRevB.45.11362", "umap_coordinates": { "x": 394.9839172363281, "y": 135.57835388183594, "z": 208.67173767089844 }, "tsne_coordinates": { "x": -11.76582145690918, "y": -45.384735107421875, "z": 2.0999200344085693 }, "pca_coordinates": { "x": 2.106513738632202, "y": -1.28071928024292, "z": -1.552492380142212 }, "axis_scores": { "Quantum imaging": 0.6955201029777527, "Quantum Life Science Sensing": 0.7048583030700684, "Quantum sensing Detection": 0.6916254758834839, "Quantum sensing Metrology": 0.6608999371528625, "Quantum sensing navigation": 0.6632736325263977, "Quantum sensing Position": 0.659324586391449, "Quantum sensing Timing": 0.6413282155990601, "Quantum sensing": 0.6973075270652771, "Quantum control": 0.6731637120246887 } }, { "id": 4830, "title": "Quantum Algorithm for Approximating Maximum Independent Sets", "abstract": "We present a quantum algorithm for approximating maximum independent sets of a graph based on quantum non-Abelian adiabatic mixing in the sub-Hilbert space of degenerate ground states, which generates...", "citations": 13, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4837, "doi": "10.1088/0256-307X/38/3/030304", "umap_coordinates": { "x": 395.22320556640625, "y": 136.3404541015625, "z": 206.50108337402344 }, "tsne_coordinates": { "x": -34.4940299987793, "y": 0.31869903206825256, "z": 0.977668285369873 }, "pca_coordinates": { "x": 1.567460060119629, "y": 2.979785919189453, "z": 2.1648406982421875 }, "axis_scores": { "Quantum imaging": 0.7567140460014343, "Quantum Life Science Sensing": 0.7226136326789856, "Quantum sensing Detection": 0.737072229385376, "Quantum sensing Metrology": 0.7321603894233704, "Quantum sensing navigation": 0.737822949886322, "Quantum sensing Position": 0.7183151245117188, "Quantum sensing Timing": 0.7227219939231873, "Quantum sensing": 0.7466315627098083, "Quantum control": 0.7098243832588196 } }, { "id": 4831, "title": "Realism of mammography tissue patches simulated using Perlin noise - a forced choice reading study", "abstract": "Software breast phantoms are central to the optimization of breast imaging, where in many cases the use of real images would be inefficient - or impossible. Establishing the realism of such phantoms i...", "citations": 1, "author_count": 6, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4838, "doi": "10.1117/12.2582094", "umap_coordinates": { "x": 395.748779296875, "y": 132.70361328125, "z": 205.55462646484375 }, "tsne_coordinates": { "x": -5.930622577667236, "y": 25.71808433532715, "z": -26.301977157592773 }, "pca_coordinates": { "x": -2.0011024475097656, "y": 3.765841484069824, "z": 3.137338638305664 }, "axis_scores": { "Quantum imaging": 0.7076003551483154, "Quantum Life Science Sensing": 0.7004768252372742, "Quantum sensing Detection": 0.7034022212028503, "Quantum sensing Metrology": 0.7018861174583435, "Quantum sensing navigation": 0.6829116940498352, "Quantum sensing Position": 0.6736811399459839, "Quantum sensing Timing": 0.6777386665344238, "Quantum sensing": 0.7091952562332153, "Quantum control": 0.6520122289657593 } }, { "id": 4832, "title": "Microscopic modeling of tunable graphene-based terahertz Landau-level lasers", "abstract": "In the presence of strong magnetic fields the electronic band structure of graphene drastically changes. The Dirac cone collapses into discrete nonequidistant Landau levels, which can be externally tu...", "citations": 13, "author_count": 4, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4839, "doi": "10.1103/PhysRevB.96.045427", "umap_coordinates": { "x": 394.2453308105469, "y": 136.45021057128906, "z": 208.1948699951172 }, "tsne_coordinates": { "x": -0.21987105906009674, "y": -26.92467498779297, "z": 28.743881225585938 }, "pca_coordinates": { "x": 3.5578560829162598, "y": -0.34618711471557617, "z": -1.1686745882034302 }, "axis_scores": { "Quantum imaging": 0.7045261263847351, "Quantum Life Science Sensing": 0.7081716656684875, "Quantum sensing Detection": 0.6930898427963257, "Quantum sensing Metrology": 0.6950256824493408, "Quantum sensing navigation": 0.7068848609924316, "Quantum sensing Position": 0.6871771812438965, "Quantum sensing Timing": 0.7005700469017029, "Quantum sensing": 0.7164369821548462, "Quantum control": 0.7132778763771057 } }, { "id": 4833, "title": "Experimental Realization of Sensitivity Enhancement and Suppression with Exceptional Surfaces", "abstract": "By preparing a sensor system around isolated exceptional points, one can obtain a great enhancement of the sensitivity benefiting from the non-Hermiticity. However, this comes at the cost of reduction...", "citations": 81, "author_count": 11, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4840, "doi": "10.1002/lpor.202000569", "umap_coordinates": { "x": 394.3323669433594, "y": 134.53738403320312, "z": 205.84915161132812 }, "tsne_coordinates": { "x": -17.827621459960938, "y": 5.206050872802734, "z": -6.967266082763672 }, "pca_coordinates": { "x": -2.343207836151123, "y": 1.8473793268203735, "z": 2.6664798259735107 }, "axis_scores": { "Quantum imaging": 0.7153332829475403, "Quantum Life Science Sensing": 0.7260346412658691, "Quantum sensing Detection": 0.7209235429763794, "Quantum sensing Metrology": 0.7216595411300659, "Quantum sensing navigation": 0.6864486336708069, "Quantum sensing Position": 0.6959018707275391, "Quantum sensing Timing": 0.6878665685653687, "Quantum sensing": 0.7199969291687012, "Quantum control": 0.6810075044631958 } }, { "id": 4834, "title": "Self-assembled nanodisks in coaxial GaAs/GaAsBi/GaAs core-multishell nanowires", "abstract": "III-V semiconductor nanowires (NWs), such as those based on GaAs, are attractive for advanced optoelectronic and nanophotonic applications. The addition of Bi into GaAs offers a new avenue to enhance ...", "citations": 7, "author_count": 7, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4841, "doi": "10.1039/d0nr05488g", "umap_coordinates": { "x": 392.1994934082031, "y": 134.28857421875, "z": 207.23886108398438 }, "tsne_coordinates": { "x": 16.910770416259766, "y": -11.157211303710938, "z": -3.979135274887085 }, "pca_coordinates": { "x": 0.2274109125137329, "y": -5.04326868057251, "z": 0.09501492977142334 }, "axis_scores": { "Quantum imaging": 0.6976536512374878, "Quantum Life Science Sensing": 0.7194026708602905, "Quantum sensing Detection": 0.7075790166854858, "Quantum sensing Metrology": 0.7066578269004822, "Quantum sensing navigation": 0.7078039050102234, "Quantum sensing Position": 0.6903195977210999, "Quantum sensing Timing": 0.6509453058242798, "Quantum sensing": 0.7081555128097534, "Quantum control": 0.6789604425430298 } }, { "id": 4835, "title": "Design, Synthesis and Inhibitory Activity of Photoswitchable RET Kinase Inhibitors", "abstract": "REarranged during Transfection (RET) is a transmembrane receptor tyrosine kinase required for normal development and maintenance of neurons of the central and peripheral nervous systems. Deregulation ...", "citations": 75, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4842, "doi": "10.1038/srep09769", "umap_coordinates": { "x": 392.3935852050781, "y": 135.28585815429688, "z": 204.6205596923828 }, "tsne_coordinates": { "x": 16.469703674316406, "y": -11.344924926757812, "z": -31.207599639892578 }, "pca_coordinates": { "x": -3.8885281085968018, "y": 0.6012332439422607, "z": -1.5602483749389648 }, "axis_scores": { "Quantum imaging": 0.7161762118339539, "Quantum Life Science Sensing": 0.7270236015319824, "Quantum sensing Detection": 0.6856992244720459, "Quantum sensing Metrology": 0.6672441959381104, "Quantum sensing navigation": 0.6768092513084412, "Quantum sensing Position": 0.6478028893470764, "Quantum sensing Timing": 0.6827765107154846, "Quantum sensing": 0.7037086486816406, "Quantum control": 0.7010367512702942 } }, { "id": 4836, "title": "Photon-recoil imaging: Expanding the view of nonlinear x-ray physics", "abstract": "Addressing the ultrafast coherent evolution of electronic wave functions has long been a goal of nonlinear x-ray physics. A first step toward this goal is the investigation of stimulated x-ray Raman s...", "citations": 31, "author_count": 22, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4843, "doi": "10.1126/science.abc2622", "umap_coordinates": { "x": 395.1833190917969, "y": 134.8694610595703, "z": 205.79904174804688 }, "tsne_coordinates": { "x": -20.22856903076172, "y": 21.611845016479492, "z": 11.724806785583496 }, "pca_coordinates": { "x": -1.2546926736831665, "y": 0.8844788074493408, "z": 0.4681040644645691 }, "axis_scores": { "Quantum imaging": 0.7784386873245239, "Quantum Life Science Sensing": 0.7732239961624146, "Quantum sensing Detection": 0.7309945821762085, "Quantum sensing Metrology": 0.7082586884498596, "Quantum sensing navigation": 0.7465130686759949, "Quantum sensing Position": 0.7057721018791199, "Quantum sensing Timing": 0.6729733943939209, "Quantum sensing": 0.7445077300071716, "Quantum control": 0.6977986097335815 } }, { "id": 4837, "title": "Photonic crystal bandedge membrane lasers on silicon", "abstract": "We report here the design and experimental demonstration of optically pumped photonic crystal bandedge membrane lasers on silicon-on-insulator (SOI) and on bulk silicon (Si) substrates, based on heter...", "citations": 15, "author_count": 10, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4844, "doi": "10.1364/AO.56.000H67", "umap_coordinates": { "x": 394.1769714355469, "y": 134.12408447265625, "z": 206.53285217285156 }, "tsne_coordinates": { "x": -1.239218831062317, "y": -12.904634475708008, "z": -30.230451583862305 }, "pca_coordinates": { "x": -0.07078731060028076, "y": -0.641016960144043, "z": 1.4693756103515625 }, "axis_scores": { "Quantum imaging": 0.7309166193008423, "Quantum Life Science Sensing": 0.7128519415855408, "Quantum sensing Detection": 0.6989566683769226, "Quantum sensing Metrology": 0.7124805450439453, "Quantum sensing navigation": 0.7001878619194031, "Quantum sensing Position": 0.6787425875663757, "Quantum sensing Timing": 0.6807116270065308, "Quantum sensing": 0.7259054183959961, "Quantum control": 0.71573406457901 } }, { "id": 4838, "title": "A Multifunctional Small-Molecule Hole- Transporting Material Enables Perovskite QLEDs with EQE Exceeding 20%", "abstract": "Hole-transporting materials (HTMs) play critical roles in the device performance and stability of perovskite quantum dot light-emitting diodes (Pe-QLEDs). However, the development of small-molecule HT...", "citations": 48, "author_count": 15, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4845, "doi": "10.1021/acsenergylett.2c02938", "umap_coordinates": { "x": 391.8476257324219, "y": 134.1906280517578, "z": 205.39208984375 }, "tsne_coordinates": { "x": 13.149712562561035, "y": -0.2386467605829239, "z": -26.16022491455078 }, "pca_coordinates": { "x": -2.3363771438598633, "y": -4.140361785888672, "z": -1.5419059991836548 }, "axis_scores": { "Quantum imaging": 0.7177512645721436, "Quantum Life Science Sensing": 0.7336603403091431, "Quantum sensing Detection": 0.7033424973487854, "Quantum sensing Metrology": 0.6967222690582275, "Quantum sensing navigation": 0.6859089136123657, "Quantum sensing Position": 0.6689779162406921, "Quantum sensing Timing": 0.6633950471878052, "Quantum sensing": 0.7241771817207336, "Quantum control": 0.6892071962356567 } }, { "id": 4839, "title": "Size-Dependent Phase Transition in Perovskite Nanocrystals", "abstract": "The complex structure of halide and oxide perovskites strongly affects their physical properties. Here, the effect of dimensions reduced to the nanoscale has been investigated by a combination of sing...", "citations": 60, "author_count": 10, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4846, "doi": "10.1021/acs.jpclett.9b02058", "umap_coordinates": { "x": 391.94171142578125, "y": 134.3199005126953, "z": 206.21783447265625 }, "tsne_coordinates": { "x": 30.104032516479492, "y": -7.475539684295654, "z": -8.76666259765625 }, "pca_coordinates": { "x": -2.324948787689209, "y": -3.599916458129883, "z": -3.043881893157959 }, "axis_scores": { "Quantum imaging": 0.710176408290863, "Quantum Life Science Sensing": 0.726786732673645, "Quantum sensing Detection": 0.6962934732437134, "Quantum sensing Metrology": 0.678954541683197, "Quantum sensing navigation": 0.6760694980621338, "Quantum sensing Position": 0.6768797636032104, "Quantum sensing Timing": 0.675499677658081, "Quantum sensing": 0.7116907835006714, "Quantum control": 0.699958324432373 } }, { "id": 4840, "title": "Ultra-Bright Near-Infrared Perovskite Light-Emitting Diodes with Reduced Efficiency Roll-off", "abstract": "Herein, an insulating biopolymer is exploited to guide the controlled formation of micro/nano-structure and physical confinement of alpha-delta mixed phase crystalline grains of formamidinium lead iod...", "citations": 50, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4847, "doi": "10.1038/s41598-018-33729-9", "umap_coordinates": { "x": 392.413330078125, "y": 133.8990936279297, "z": 205.55380249023438 }, "tsne_coordinates": { "x": 18.99266815185547, "y": -1.4848629236221313, "z": -26.975229263305664 }, "pca_coordinates": { "x": -3.0317673683166504, "y": -2.2547574043273926, "z": 1.4046406745910645 }, "axis_scores": { "Quantum imaging": 0.6899775266647339, "Quantum Life Science Sensing": 0.6799566745758057, "Quantum sensing Detection": 0.6655399799346924, "Quantum sensing Metrology": 0.6479231119155884, "Quantum sensing navigation": 0.6392184495925903, "Quantum sensing Position": 0.6285638213157654, "Quantum sensing Timing": 0.6406100988388062, "Quantum sensing": 0.6741040349006653, "Quantum control": 0.6286664009094238 } }, { "id": 4841, "title": "Quantum interference in off-resonant transport through single molecules", "abstract": "We provide a simple set of rules for predicting interference effects in off-resonant transport through single molecule junctions. These effects fall into two classes, showing, respectively, an odd or ...", "citations": 69, "author_count": 7, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4848, "doi": "10.1103/PhysRevB.90.125413", "umap_coordinates": { "x": 394.30169677734375, "y": 135.13536071777344, "z": 208.84811401367188 }, "tsne_coordinates": { "x": -2.0231006145477295, "y": -27.961685180664062, "z": -1.986452341079712 }, "pca_coordinates": { "x": 4.9495368003845215, "y": -1.8855390548706055, "z": 1.2901935577392578 }, "axis_scores": { "Quantum imaging": 0.7737725973129272, "Quantum Life Science Sensing": 0.7504912614822388, "Quantum sensing Detection": 0.7647524476051331, "Quantum sensing Metrology": 0.7385476231575012, "Quantum sensing navigation": 0.7602009773254395, "Quantum sensing Position": 0.7091362476348877, "Quantum sensing Timing": 0.7197345495223999, "Quantum sensing": 0.773479163646698, "Quantum control": 0.7401815056800842 } }, { "id": 4842, "title": "Recovery from winter depression of photosynthesis in pine and spruce", "abstract": "Recovery from winter depression of photosynthesis was studied in Pinus sylvestris, Pinus contorta and Picea abies by means of chlorophyll fluorescence and gas exchange measurements. During the winter ...", "citations": 60, "author_count": 4, "categories": [ "Forestry" ], "year": 1988, "topic": [ "all" ], "embedding_index": 4849, "doi": null, "umap_coordinates": { "x": 391.8514709472656, "y": 139.43272399902344, "z": 209.80091857910156 }, "tsne_coordinates": { "x": 0.8368457555770874, "y": 47.617637634277344, "z": 1.0609458684921265 }, "pca_coordinates": { "x": -2.0379228591918945, "y": 2.295760154724121, "z": -2.346933603286743 }, "axis_scores": { "Quantum imaging": 0.6462770700454712, "Quantum Life Science Sensing": 0.6952383518218994, "Quantum sensing Detection": 0.6446894407272339, "Quantum sensing Metrology": 0.6374818086624146, "Quantum sensing navigation": 0.6530634760856628, "Quantum sensing Position": 0.6187208890914917, "Quantum sensing Timing": 0.6322767734527588, "Quantum sensing": 0.6523576974868774, "Quantum control": 0.65204918384552 } }, { "id": 4843, "title": "Medium-Range Structural Organization of Phosphorus-Bearing Borosilicate Glasses Revealed by Advanced Solid-State NMR Experiments and MD Simulations: Consequences of B/Si Substitutions", "abstract": "The short and intermediate range structures of a large series of bioactive borophosphosilicate (BPS) glasses were probed by solid-state nuclear magnetic resonance (NMR) spectroscopy and atomistic mole...", "citations": 59, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4850, "doi": "10.1021/acs.jpcb.7b06654", "umap_coordinates": { "x": 392.5685119628906, "y": 136.50790405273438, "z": 205.73155212402344 }, "tsne_coordinates": { "x": 7.716644763946533, "y": 11.22022533416748, "z": 35.104759216308594 }, "pca_coordinates": { "x": -1.4844183921813965, "y": 0.7314960956573486, "z": -2.014495372772217 }, "axis_scores": { "Quantum imaging": 0.7120274305343628, "Quantum Life Science Sensing": 0.7159008979797363, "Quantum sensing Detection": 0.6738039255142212, "Quantum sensing Metrology": 0.6788121461868286, "Quantum sensing navigation": 0.6964880228042603, "Quantum sensing Position": 0.6907737255096436, "Quantum sensing Timing": 0.6634246110916138, "Quantum sensing": 0.7039419412612915, "Quantum control": 0.6591153144836426 } }, { "id": 4844, "title": "Spectroscopic Tools Applied to Flerovium Decay Chains", "abstract": "An upgraded TASISpec setup, with the addition of a veto DSSD and the new Compex detector-germanium array, has been employed with the gas-filled recoil separator TASCA at the GSI Helmholtzzentrum far S...", "citations": 8, "author_count": 41, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4851, "doi": "10.1088/1742-6596/1643/1/012125", "umap_coordinates": { "x": 394.0847473144531, "y": 137.439453125, "z": 206.91029357910156 }, "tsne_coordinates": { "x": -37.90142822265625, "y": -12.619095802307129, "z": 2.243755340576172 }, "pca_coordinates": { "x": -1.115602970123291, "y": 3.3518404960632324, "z": 0.7377013564109802 }, "axis_scores": { "Quantum imaging": 0.6950525045394897, "Quantum Life Science Sensing": 0.7264482378959656, "Quantum sensing Detection": 0.6862938404083252, "Quantum sensing Metrology": 0.6801846027374268, "Quantum sensing navigation": 0.6894294023513794, "Quantum sensing Position": 0.6607003808021545, "Quantum sensing Timing": 0.6808686852455139, "Quantum sensing": 0.6918735504150391, "Quantum control": 0.650458812713623 } }, { "id": 4845, "title": "Direct photon production in p plus p collisions at √s=200 GeV at midrapidity", "abstract": "The differential cross section for the production of direct photons in p + p collisions at root s = 200 GeV at midrapidity was measured in the PHENIX detector at the Relativistic Heavy Ion Collider. I...", "citations": 52, "author_count": 384, "categories": [ "Astronomy & Astrophysics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4852, "doi": "10.1103/PhysRevD.86.072008", "umap_coordinates": { "x": 396.52099609375, "y": 134.63470458984375, "z": 207.85879516601562 }, "tsne_coordinates": { "x": -33.0279541015625, "y": 1.8462952375411987, "z": -15.23326587677002 }, "pca_coordinates": { "x": 2.1393654346466064, "y": -0.671393632888794, "z": 2.3711204528808594 }, "axis_scores": { "Quantum imaging": 0.7158172130584717, "Quantum Life Science Sensing": 0.7253435850143433, "Quantum sensing Detection": 0.7306959629058838, "Quantum sensing Metrology": 0.7063162326812744, "Quantum sensing navigation": 0.710777997970581, "Quantum sensing Position": 0.7195967435836792, "Quantum sensing Timing": 0.7041902542114258, "Quantum sensing": 0.7270472049713135, "Quantum control": 0.6845654249191284 } }, { "id": 4846, "title": "Clinical experience of photon counting breast tomosynthesis: comparison with traditional mammography", "abstract": "Background: In two-dimensional mammography, a well-known problem is over- and underlying tissue which can either obstruct a lesion or create a false-positive result. Tomosynthesis, with an ability to ...", "citations": 49, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4853, "doi": "10.1258/ar.2010.100262", "umap_coordinates": { "x": 395.4839782714844, "y": 132.82037353515625, "z": 205.24981689453125 }, "tsne_coordinates": { "x": -5.451337814331055, "y": 30.30923080444336, "z": -22.167808532714844 }, "pca_coordinates": { "x": -3.0446419715881348, "y": 3.627812623977661, "z": 3.948984146118164 }, "axis_scores": { "Quantum imaging": 0.7225601673126221, "Quantum Life Science Sensing": 0.7107290625572205, "Quantum sensing Detection": 0.7039892077445984, "Quantum sensing Metrology": 0.6929362416267395, "Quantum sensing navigation": 0.6768515110015869, "Quantum sensing Position": 0.6731346249580383, "Quantum sensing Timing": 0.695176899433136, "Quantum sensing": 0.7072598934173584, "Quantum control": 0.6568876504898071 } }, { "id": 4847, "title": "Development of high-rate timing RPCs", "abstract": "For many applications of RPCs to time-of-flight counters in heavy ion experiments the expansion to much higher values of the counting rate capability, so far limited to around 2 kHz/cm(2) is of fundam...", "citations": 14, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4854, "doi": "10.1016/j.nima.2004.07.003", "umap_coordinates": { "x": 394.74676513671875, "y": 133.7782745361328, "z": 205.13368225097656 }, "tsne_coordinates": { "x": -15.850448608398438, "y": 23.366756439208984, "z": -2.3076186180114746 }, "pca_coordinates": { "x": -2.557858943939209, "y": 2.687242031097412, "z": 1.7300472259521484 }, "axis_scores": { "Quantum imaging": 0.7062843441963196, "Quantum Life Science Sensing": 0.7014948725700378, "Quantum sensing Detection": 0.7004683613777161, "Quantum sensing Metrology": 0.6885373592376709, "Quantum sensing navigation": 0.7035492658615112, "Quantum sensing Position": 0.7091449499130249, "Quantum sensing Timing": 0.7970303297042847, "Quantum sensing": 0.7085263729095459, "Quantum control": 0.699297308921814 } }, { "id": 4848, "title": "Non-Gaussian velocity distributions in optical lattices - art. no. 013410", "abstract": "We present a detailed experimental study of the velocity distribution of atoms cooled in an optical lattice. Our results are supported by full-quantum numerical simulations. Even though the Sisyphus e...", "citations": 30, "author_count": 7, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4855, "doi": "10.1103/PhysRevA.69.013410", "umap_coordinates": { "x": 395.2156982421875, "y": 136.432373046875, "z": 208.2514190673828 }, "tsne_coordinates": { "x": -22.900131225585938, "y": -7.38532829284668, "z": 3.0235512256622314 }, "pca_coordinates": { "x": 3.612631320953369, "y": 1.302591323852539, "z": 0.38086169958114624 }, "axis_scores": { "Quantum imaging": 0.7270861268043518, "Quantum Life Science Sensing": 0.7156948447227478, "Quantum sensing Detection": 0.7199021577835083, "Quantum sensing Metrology": 0.7185656428337097, "Quantum sensing navigation": 0.7498347759246826, "Quantum sensing Position": 0.7283415198326111, "Quantum sensing Timing": 0.6906765699386597, "Quantum sensing": 0.7236582040786743, "Quantum control": 0.7076604962348938 } }, { "id": 4849, "title": "Long-baseline optical intensity interferometry Laboratory demonstration of diffraction-limited imaging", "abstract": "Context. A long-held vision has been to realize diffraction-limited optical aperture synthesis over kilometer baselines. This will enable imaging of stellar surfaces and their environments, and reveal...", "citations": 26, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4856, "doi": "10.1051/0004-6361/201526334", "umap_coordinates": { "x": 395.076904296875, "y": 134.04476928710938, "z": 206.12710571289062 }, "tsne_coordinates": { "x": -18.350830078125, "y": 10.384893417358398, "z": -37.51526641845703 }, "pca_coordinates": { "x": -0.6920987367630005, "y": 1.859484076499939, "z": 3.6230196952819824 }, "axis_scores": { "Quantum imaging": 0.7632944583892822, "Quantum Life Science Sensing": 0.7269667983055115, "Quantum sensing Detection": 0.7130391597747803, "Quantum sensing Metrology": 0.722000241279602, "Quantum sensing navigation": 0.7138135433197021, "Quantum sensing Position": 0.6980149149894714, "Quantum sensing Timing": 0.6843826770782471, "Quantum sensing": 0.7247939109802246, "Quantum control": 0.6936399340629578 } }, { "id": 4850, "title": "FIBONACCI OPTICAL LATTICE: A FRACTAL BIOMODULATION DEVICE", "abstract": "Natural scenes or structures share fractal-like geometries with scale-invariant statistical patterns that exhibit useful functional physiological properties in humans. This paper explores the self-ass...", "citations": 1, "author_count": 3, "categories": [ "Mathematics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4857, "doi": "10.1142/S0218348X19500397", "umap_coordinates": { "x": 395.02178955078125, "y": 136.07508850097656, "z": 205.85324096679688 }, "tsne_coordinates": { "x": -33.06495666503906, "y": 11.0352783203125, "z": 5.6812543869018555 }, "pca_coordinates": { "x": -0.41634809970855713, "y": 1.4320989847183228, "z": 0.19880568981170654 }, "axis_scores": { "Quantum imaging": 0.6999699473381042, "Quantum Life Science Sensing": 0.7178514003753662, "Quantum sensing Detection": 0.6946816444396973, "Quantum sensing Metrology": 0.6993457078933716, "Quantum sensing navigation": 0.7145084738731384, "Quantum sensing Position": 0.7015272974967957, "Quantum sensing Timing": 0.6649554967880249, "Quantum sensing": 0.7057182788848877, "Quantum control": 0.7050231099128723 } }, { "id": 4851, "title": "AUGER-SPECTRA OF K+ L23 EXCITATIONS IN POTASSIUM HALIDES", "abstract": "The L23M23M23 Auger spectra of K+ L23 excitation in potassium halides are measured using photon excitation with different energies in the region of the K+ L23 absorption edge (around 300 eV). It is sh...", "citations": 9, "author_count": 7, "categories": [ "Physics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 4858, "doi": "10.1209/0295-5075/15/6/021", "umap_coordinates": { "x": 394.4220886230469, "y": 136.0745391845703, "z": 206.63079833984375 }, "tsne_coordinates": { "x": -0.6106948256492615, "y": -10.69350528717041, "z": -5.92885684967041 }, "pca_coordinates": { "x": 1.2607650756835938, "y": 0.1467273235321045, "z": -0.7265558242797852 }, "axis_scores": { "Quantum imaging": 0.6904942393302917, "Quantum Life Science Sensing": 0.7016727924346924, "Quantum sensing Detection": 0.6920325756072998, "Quantum sensing Metrology": 0.6737368702888489, "Quantum sensing navigation": 0.6733055114746094, "Quantum sensing Position": 0.6694047451019287, "Quantum sensing Timing": 0.6513186693191528, "Quantum sensing": 0.6974214315414429, "Quantum control": 0.6486915946006775 } }, { "id": 4852, "title": "Giant optical anisotropy in transition metal dichalcogenides for next-generation photonics", "abstract": "Large optical anisotropy observed in a broad spectral range is of paramount importance for efficient light manipulation in countless devices. Although a giant anisotropy has been recently observed in ...", "citations": 275, "author_count": 21, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4859, "doi": "10.1038/s41467-021-21139-x", "umap_coordinates": { "x": 392.9654846191406, "y": 134.64500427246094, "z": 206.273193359375 }, "tsne_coordinates": { "x": 18.1380558013916, "y": -5.771429538726807, "z": -23.971446990966797 }, "pca_coordinates": { "x": -1.9994251728057861, "y": -2.4194583892822266, "z": -0.3200463652610779 }, "axis_scores": { "Quantum imaging": 0.7032530307769775, "Quantum Life Science Sensing": 0.6982647180557251, "Quantum sensing Detection": 0.6805332899093628, "Quantum sensing Metrology": 0.6860523223876953, "Quantum sensing navigation": 0.6803388595581055, "Quantum sensing Position": 0.662995457649231, "Quantum sensing Timing": 0.6657761931419373, "Quantum sensing": 0.6972533464431763, "Quantum control": 0.6611886620521545 } }, { "id": 4853, "title": "Stochastic thermodynamic cycles of a mesoscopic thermoelectric engine", "abstract": "We analyze a steady-state thermoelectric engine, whose working substance consists of two capacitively coupled quantum dots. One dot is tunnel-coupled to a hot reservoir serving as a heat source, the o...", "citations": 16, "author_count": 5, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4860, "doi": "10.1103/PhysRevB.103.075404", "umap_coordinates": { "x": 394.2854309082031, "y": 136.82723999023438, "z": 207.7650604248047 }, "tsne_coordinates": { "x": -11.735862731933594, "y": -18.32106590270996, "z": 12.223932266235352 }, "pca_coordinates": { "x": 3.5641775131225586, "y": -0.33776235580444336, "z": -1.059519648551941 }, "axis_scores": { "Quantum imaging": 0.7086085081100464, "Quantum Life Science Sensing": 0.7413787841796875, "Quantum sensing Detection": 0.7165807485580444, "Quantum sensing Metrology": 0.7051249146461487, "Quantum sensing navigation": 0.7248297333717346, "Quantum sensing Position": 0.6704116463661194, "Quantum sensing Timing": 0.7029228806495667, "Quantum sensing": 0.7255836725234985, "Quantum control": 0.7220773100852966 } }, { "id": 4854, "title": "Boosting Perovskite Light-Emitting Diode Performance via Tailoring Interfacial Contact", "abstract": "Solution-processed perovskite light-emitting diodes (LEDs) have attracted wide attention in the past several years. However, the overall efficiency and stability of perovskite-based LEDs remain inferi...", "citations": 118, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4861, "doi": "10.1021/acsami.8b07438", "umap_coordinates": { "x": 391.6167297363281, "y": 134.0243377685547, "z": 205.33013916015625 }, "tsne_coordinates": { "x": 24.685951232910156, "y": -2.0338616371154785, "z": -16.09929656982422 }, "pca_coordinates": { "x": -3.7548537254333496, "y": -4.1366963386535645, "z": -0.34796231985092163 }, "axis_scores": { "Quantum imaging": 0.6903467774391174, "Quantum Life Science Sensing": 0.6847645044326782, "Quantum sensing Detection": 0.6667517423629761, "Quantum sensing Metrology": 0.671903133392334, "Quantum sensing navigation": 0.6614033579826355, "Quantum sensing Position": 0.6559125185012817, "Quantum sensing Timing": 0.6449773907661438, "Quantum sensing": 0.6839663982391357, "Quantum control": 0.6777412295341492 } }, { "id": 4855, "title": "From starch to polylactide and nano-graphene oxide: fully starch derived high performance composites", "abstract": "A delicate closed-loop strategy for valorization of starch to value-added products was developed. Carbon sheets, formed of carbon spheres, were obtained by microwave-assisted hydrothermal degradation ...", "citations": 44, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4862, "doi": "10.1039/c6ra08194k", "umap_coordinates": { "x": 392.56585693359375, "y": 134.96446228027344, "z": 204.12692260742188 }, "tsne_coordinates": { "x": 25.498554229736328, "y": 26.958213806152344, "z": -3.1659483909606934 }, "pca_coordinates": { "x": -1.895914077758789, "y": -0.0945589542388916, "z": -2.1842269897460938 }, "axis_scores": { "Quantum imaging": 0.653723955154419, "Quantum Life Science Sensing": 0.7027186155319214, "Quantum sensing Detection": 0.6412157416343689, "Quantum sensing Metrology": 0.6318157911300659, "Quantum sensing navigation": 0.656833291053772, "Quantum sensing Position": 0.6227907538414001, "Quantum sensing Timing": 0.6016080975532532, "Quantum sensing": 0.669900119304657, "Quantum control": 0.6459431648254395 } }, { "id": 4856, "title": "Surface states of ZnO nanoparticles effect on the performance of inverted-organic solar cells", "abstract": "ZnO is a promising material used as the electron transport layer in the inverted organic solar cells (IOSCs). However, the electrical or photoelectric properties of ZnO nanoparticles are governed by t...", "citations": 10, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4863, "doi": "10.1063/1.4821219", "umap_coordinates": { "x": 392.6698303222656, "y": 133.65625, "z": 207.11474609375 }, "tsne_coordinates": { "x": 25.958280563354492, "y": -5.234547138214111, "z": 2.79725980758667 }, "pca_coordinates": { "x": -0.9950225353240967, "y": -3.5873875617980957, "z": -0.200484961271286 }, "axis_scores": { "Quantum imaging": 0.7478629350662231, "Quantum Life Science Sensing": 0.7778132557868958, "Quantum sensing Detection": 0.739753782749176, "Quantum sensing Metrology": 0.734852135181427, "Quantum sensing navigation": 0.7303715944290161, "Quantum sensing Position": 0.7126268148422241, "Quantum sensing Timing": 0.6732012033462524, "Quantum sensing": 0.7572500705718994, "Quantum control": 0.7114452123641968 } }, { "id": 4857, "title": "An integrated framework for multi-scale multi-physics numerical modelling of interface evolution in welding", "abstract": "The project Modelling of Interface evolution in advanced Welding (MIntWeld) is a 4-year international research project funded by the European Commission under their FP7 programme. Its main target is t...", "citations": 7, "author_count": 18, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4864, "doi": "10.1088/1757-899X/33/1/012029", "umap_coordinates": { "x": 394.0751037597656, "y": 136.68630981445312, "z": 205.9811248779297 }, "tsne_coordinates": { "x": -22.380434036254883, "y": 19.608989715576172, "z": 25.5196533203125 }, "pca_coordinates": { "x": -0.03316628932952881, "y": 2.019033432006836, "z": 0.36349958181381226 }, "axis_scores": { "Quantum imaging": 0.6916945576667786, "Quantum Life Science Sensing": 0.670600414276123, "Quantum sensing Detection": 0.6457240581512451, "Quantum sensing Metrology": 0.672182559967041, "Quantum sensing navigation": 0.6752164363861084, "Quantum sensing Position": 0.6451185345649719, "Quantum sensing Timing": 0.6596862077713013, "Quantum sensing": 0.6670551300048828, "Quantum control": 0.6613861918449402 } }, { "id": 4858, "title": "ATTENUATION CORRECTION IN SPECT BASED ON TRANSMISSION STUDIES AND MONTE-CARLO SIMULATIONS OF BUILDUP FUNCTIONS", "abstract": "The quantitative information in SPECT images is distorted by photon attenuation and contribution of photons scattered in the object. It is, therefore, important to know the distribution of different a...", "citations": 55, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1990, "topic": [ "all" ], "embedding_index": 4865, "doi": null, "umap_coordinates": { "x": 391.6490783691406, "y": 139.17352294921875, "z": 209.54725646972656 }, "tsne_coordinates": { "x": 2.8088176250457764, "y": 39.089725494384766, "z": -8.786053657531738 }, "pca_coordinates": { "x": -2.352170467376709, "y": 5.006100654602051, "z": 0.6330869793891907 }, "axis_scores": { "Quantum imaging": 0.7116669416427612, "Quantum Life Science Sensing": 0.6786613464355469, "Quantum sensing Detection": 0.6721166968345642, "Quantum sensing Metrology": 0.6639400124549866, "Quantum sensing navigation": 0.6927530765533447, "Quantum sensing Position": 0.6604831218719482, "Quantum sensing Timing": 0.659243643283844, "Quantum sensing": 0.6741236448287964, "Quantum control": 0.6487610340118408 } }, { "id": 4859, "title": "Probing Defects in a Small Pixellated CdTe Sensor Using an Inclined Mono Energetic X-Ray Micro Beam", "abstract": "High quantum efficiency is important in X-ray imaging applications. This means using high-Z sensor materials. Unfortunately many of these materials suffer from defects that cause non-ideal charge tran...", "citations": 5, "author_count": 12, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4866, "doi": "10.1109/TNS.2013.2257851", "umap_coordinates": { "x": 395.0735778808594, "y": 132.86077880859375, "z": 206.05267333984375 }, "tsne_coordinates": { "x": -19.347620010375977, "y": 19.65897560119629, "z": -18.535869598388672 }, "pca_coordinates": { "x": -2.0811104774475098, "y": -0.21963119506835938, "z": 3.226928234100342 }, "axis_scores": { "Quantum imaging": 0.713141679763794, "Quantum Life Science Sensing": 0.721512496471405, "Quantum sensing Detection": 0.7242879867553711, "Quantum sensing Metrology": 0.7253527641296387, "Quantum sensing navigation": 0.7206820845603943, "Quantum sensing Position": 0.7198150157928467, "Quantum sensing Timing": 0.7004815936088562, "Quantum sensing": 0.7255944609642029, "Quantum control": 0.6654372215270996 } }, { "id": 4860, "title": "Combining kinetic and thermodynamic uncertainty relations in quantum transport", "abstract": "We study the fluctuations of generic currents in multi-terminal, multi-channel coherent quantum transport settings. In the quantum regime, these fluctuations and the resulting precision differ strongl...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4867, "doi": "10.1088/2058-9565/ade623", "umap_coordinates": { "x": 395.1319274902344, "y": 137.51376342773438, "z": 207.29397583007812 }, "tsne_coordinates": { "x": -16.688161849975586, "y": -9.873165130615234, "z": 13.872671127319336 }, "pca_coordinates": { "x": 2.0362188816070557, "y": 1.7195876836776733, "z": 0.7244700789451599 }, "axis_scores": { "Quantum imaging": 0.7029672265052795, "Quantum Life Science Sensing": 0.6824055910110474, "Quantum sensing Detection": 0.6926083564758301, "Quantum sensing Metrology": 0.7064372897148132, "Quantum sensing navigation": 0.7355446815490723, "Quantum sensing Position": 0.6967130899429321, "Quantum sensing Timing": 0.7058891654014587, "Quantum sensing": 0.7116595506668091, "Quantum control": 0.6935152411460876 } }, { "id": 4861, "title": "Epitaxy of GaSe Coupled to Graphene: From In Situ Band Engineering to Photon Sensing", "abstract": "2D semiconductors can drive advances in quantum science and technologies. However, they should be free of any contamination; also, the crystallographic ordering and coupling of adjacent layers and the...", "citations": 6, "author_count": 15, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4868, "doi": "10.1002/smll.202404809", "umap_coordinates": { "x": 392.5477294921875, "y": 134.01600646972656, "z": 206.54754638671875 }, "tsne_coordinates": { "x": 25.39968490600586, "y": -3.1674599647521973, "z": 12.281847953796387 }, "pca_coordinates": { "x": -1.9462108612060547, "y": -2.0773606300354004, "z": 0.6737691760063171 }, "axis_scores": { "Quantum imaging": 0.7077814936637878, "Quantum Life Science Sensing": 0.7361080646514893, "Quantum sensing Detection": 0.7187516093254089, "Quantum sensing Metrology": 0.719104528427124, "Quantum sensing navigation": 0.703174352645874, "Quantum sensing Position": 0.7145237326622009, "Quantum sensing Timing": 0.6777825951576233, "Quantum sensing": 0.7290917634963989, "Quantum control": 0.6679450273513794 } }, { "id": 4862, "title": "Tuning the Localized Surface Plasmon Resonance in Cu2-xSe Nanocrystals by Postsynthetic Ligand Exchange", "abstract": "Nanoparticles exhibiting localized surface plasmon resonances (LSPR) are valuable tools traditionally used in a wide field of applications including sensing, imaging, biodiagnostics and medical therap...", "citations": 75, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4869, "doi": "10.1021/am504296y", "umap_coordinates": { "x": 391.95330810546875, "y": 134.53427124023438, "z": 205.90074157714844 }, "tsne_coordinates": { "x": 11.677363395690918, "y": -4.628975868225098, "z": -10.6144437789917 }, "pca_coordinates": { "x": -2.698223114013672, "y": -3.318349838256836, "z": -2.124730348587036 }, "axis_scores": { "Quantum imaging": 0.7088595628738403, "Quantum Life Science Sensing": 0.7005608677864075, "Quantum sensing Detection": 0.7059866786003113, "Quantum sensing Metrology": 0.7045532464981079, "Quantum sensing navigation": 0.7089914679527283, "Quantum sensing Position": 0.6936769485473633, "Quantum sensing Timing": 0.6927006244659424, "Quantum sensing": 0.722234845161438, "Quantum control": 0.7187275290489197 } }, { "id": 4863, "title": "Photosensitizer encapsulated organically modified silica nanoparticles for direct two-photon photodynamic therapy and In Vivo functional imaging", "abstract": "Nanoparticle-assisted two-photon imaging and near infrared (NIR) imaging are two important technologies in biophotonics research. In the present paper, organically modified silica (ORMOSIL) nanopartic...", "citations": 144, "author_count": 7, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4870, "doi": "10.1016/j.biomaterials.2012.02.053", "umap_coordinates": { "x": 393.7271728515625, "y": 133.9160919189453, "z": 204.54737854003906 }, "tsne_coordinates": { "x": 11.314285278320312, "y": 22.100601196289062, "z": -12.5529146194458 }, "pca_coordinates": { "x": -5.882507801055908, "y": -1.9833550453186035, "z": 1.3077852725982666 }, "axis_scores": { "Quantum imaging": 0.7349750399589539, "Quantum Life Science Sensing": 0.7317633032798767, "Quantum sensing Detection": 0.7031236886978149, "Quantum sensing Metrology": 0.6867393255233765, "Quantum sensing navigation": 0.6809727549552917, "Quantum sensing Position": 0.6734356880187988, "Quantum sensing Timing": 0.645668625831604, "Quantum sensing": 0.7147020101547241, "Quantum control": 0.6636515855789185 } }, { "id": 4864, "title": "Wavelength-selective solar photovoltaic systems to enhance spectral sharing of sunlight in agrivoltaics", "abstract": "Agrivoltaic systems offer a solution to the debate over using agricultural land for food production or energy conversion. Conventional silicon solar panels often shade plants excessively, impacting gr...", "citations": 32, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4871, "doi": "10.1016/j.joule.2024.08.006", "umap_coordinates": { "x": 393.6613464355469, "y": 134.87518310546875, "z": 204.353759765625 }, "tsne_coordinates": { "x": -12.537087440490723, "y": 5.209463119506836, "z": -15.516324043273926 }, "pca_coordinates": { "x": -3.7231838703155518, "y": -1.0528552532196045, "z": 0.22025495767593384 }, "axis_scores": { "Quantum imaging": 0.6598681211471558, "Quantum Life Science Sensing": 0.6996690034866333, "Quantum sensing Detection": 0.6436132788658142, "Quantum sensing Metrology": 0.6689623594284058, "Quantum sensing navigation": 0.6467084288597107, "Quantum sensing Position": 0.6248311996459961, "Quantum sensing Timing": 0.626733124256134, "Quantum sensing": 0.6705548763275146, "Quantum control": 0.6396132111549377 } }, { "id": 4865, "title": "Norbornadiene-Quadricyclane Photoswitches with Enhanced Solar Spectrum Match", "abstract": "Herein, we report monomeric and dimeric norbornadiene-quadricyclane molecular photoswitch systems intended for molecular solar thermal applications. A series of six new norbornadiene derivatives conju...", "citations": 9, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4872, "doi": "10.1002/chem.202401430", "umap_coordinates": { "x": 392.1793212890625, "y": 134.45050048828125, "z": 205.2583770751953 }, "tsne_coordinates": { "x": 6.24846887588501, "y": -1.1428183317184448, "z": -4.237985610961914 }, "pca_coordinates": { "x": -2.0515575408935547, "y": -2.1156182289123535, "z": -0.23700639605522156 }, "axis_scores": { "Quantum imaging": 0.7282105088233948, "Quantum Life Science Sensing": 0.7431861162185669, "Quantum sensing Detection": 0.7286779880523682, "Quantum sensing Metrology": 0.727809488773346, "Quantum sensing navigation": 0.7063740491867065, "Quantum sensing Position": 0.6873947381973267, "Quantum sensing Timing": 0.696782112121582, "Quantum sensing": 0.7377179861068726, "Quantum control": 0.7257106900215149 } }, { "id": 4866, "title": "Unveiling the role of bisulfide in the photocatalytic splitting of H2S in aqueous solutions", "abstract": "Anaerobic photocatalytic conversion of aqueous H2S to H-2 was tested on Pt-decorated N-doped TiO2 grown on graphene. The hydrogen production increased linearly (rate: 32.3 mu mol/h/g, quantum yield: 1...", "citations": 24, "author_count": 7, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4873, "doi": "10.1016/j.apcatb.2020.118886", "umap_coordinates": { "x": 393.038818359375, "y": 134.8568572998047, "z": 204.43707275390625 }, "tsne_coordinates": { "x": 25.146818161010742, "y": 8.740735054016113, "z": 0.39340054988861084 }, "pca_coordinates": { "x": -3.0425755977630615, "y": -0.6249179840087891, "z": -3.1879196166992188 }, "axis_scores": { "Quantum imaging": 0.6858280301094055, "Quantum Life Science Sensing": 0.7359380722045898, "Quantum sensing Detection": 0.6815879344940186, "Quantum sensing Metrology": 0.6771965026855469, "Quantum sensing navigation": 0.6879984140396118, "Quantum sensing Position": 0.6784526109695435, "Quantum sensing Timing": 0.6506171226501465, "Quantum sensing": 0.6941813230514526, "Quantum control": 0.6688752770423889 } }, { "id": 4867, "title": "Mechanochemical synthesis, luminescent and magnetic properties of lanthanide benzene-1,4-dicarboxylate coordination polymers (Ln0.5Gd0.5)2 (1,4-BDC)3(H2O)4; Ln = Sm, Eu, Tb", "abstract": "Mechanochemical reactions of benzene-1,4-dicarboxylate (BDC2-) and lanthanide carbonates, Ln(2)(CO3)(3)center dot xH(2)O (Ln = Sm, Eu, Gd, Tb) yield phase pure lanthanide coordination polymers, (Ln(0....", "citations": 26, "author_count": 10, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4874, "doi": "10.1039/c9nj02583a", "umap_coordinates": { "x": 392.1258544921875, "y": 135.39984130859375, "z": 205.81597900390625 }, "tsne_coordinates": { "x": 9.028375625610352, "y": -8.259866714477539, "z": -23.08279800415039 }, "pca_coordinates": { "x": -1.0544706583023071, "y": -0.41469383239746094, "z": -3.160315990447998 }, "axis_scores": { "Quantum imaging": 0.6965680122375488, "Quantum Life Science Sensing": 0.7250133752822876, "Quantum sensing Detection": 0.7024365067481995, "Quantum sensing Metrology": 0.6935752034187317, "Quantum sensing navigation": 0.7075914740562439, "Quantum sensing Position": 0.6810370683670044, "Quantum sensing Timing": 0.6714869141578674, "Quantum sensing": 0.7127470970153809, "Quantum control": 0.692988395690918 } }, { "id": 4868, "title": "Spin gating of mesoscopic devices", "abstract": "Inefficient screening of electric fields in nanoconductors makes electric manipulation of electronic transport in nanodevices possible. Accordingly, electrostatic (charge) gating is routinely used to ...", "citations": 3, "author_count": 3, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4875, "doi": "10.1016/j.synthmet.2015.09.009", "umap_coordinates": { "x": 393.4755554199219, "y": 135.329345703125, "z": 206.2211456298828 }, "tsne_coordinates": { "x": 22.77237892150879, "y": 1.3759912252426147, "z": 14.939249992370605 }, "pca_coordinates": { "x": -0.5583820343017578, "y": -0.8199417591094971, "z": -1.6995036602020264 }, "axis_scores": { "Quantum imaging": 0.7724148631095886, "Quantum Life Science Sensing": 0.7894584536552429, "Quantum sensing Detection": 0.7691448926925659, "Quantum sensing Metrology": 0.7779259085655212, "Quantum sensing navigation": 0.7644619941711426, "Quantum sensing Position": 0.7374047040939331, "Quantum sensing Timing": 0.7404806017875671, "Quantum sensing": 0.7963752150535583, "Quantum control": 0.7833195328712463 } }, { "id": 4869, "title": "Continuous sensing of hydrogen peroxide and glucose via quenching of the UV and visible luminescence of ZnO nanoparticles", "abstract": "We report on an indirect optical method for the determination of glucose via the detection of hydrogen peroxide (H2O2) that is generated during the glucose oxidase (GOx) catalyzed oxidation of glucose...", "citations": 94, "author_count": 17, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4876, "doi": "10.1007/s00604-015-1493-9", "umap_coordinates": { "x": 393.93206787109375, "y": 135.03753662109375, "z": 204.73512268066406 }, "tsne_coordinates": { "x": -6.273482799530029, "y": 17.561250686645508, "z": 4.766411781311035 }, "pca_coordinates": { "x": -2.5085463523864746, "y": 0.4145376682281494, "z": 0.7439047694206238 }, "axis_scores": { "Quantum imaging": 0.7307676076889038, "Quantum Life Science Sensing": 0.7672224640846252, "Quantum sensing Detection": 0.743644118309021, "Quantum sensing Metrology": 0.7340476512908936, "Quantum sensing navigation": 0.7441975474357605, "Quantum sensing Position": 0.7188532948493958, "Quantum sensing Timing": 0.7014596462249756, "Quantum sensing": 0.7491204142570496, "Quantum control": 0.7263241410255432 } }, { "id": 4870, "title": "Nonadiabatic dynamics in the dark subspace of a multilevel stimulated Raman adiabatic passage process - art. no. 063406", "abstract": "In this paper we consider a generalization of the three-level stimulated Raman adiabatic-pas sage process (STIRAP). In our scheme, there are N-1 ground levels and one excited level. The ground levels ...", "citations": 38, "author_count": 3, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4877, "doi": "10.1103/PhysRevA.64.063406", "umap_coordinates": { "x": 394.57525634765625, "y": 136.9830322265625, "z": 207.81324768066406 }, "tsne_coordinates": { "x": -13.976810455322266, "y": -16.06315803527832, "z": 17.59877586364746 }, "pca_coordinates": { "x": 4.747915744781494, "y": 1.2617905139923096, "z": -0.13355296850204468 }, "axis_scores": { "Quantum imaging": 0.6881346702575684, "Quantum Life Science Sensing": 0.6876009702682495, "Quantum sensing Detection": 0.6746804714202881, "Quantum sensing Metrology": 0.6535791158676147, "Quantum sensing navigation": 0.6926342844963074, "Quantum sensing Position": 0.656350314617157, "Quantum sensing Timing": 0.6481778621673584, "Quantum sensing": 0.6783690452575684, "Quantum control": 0.6835318803787231 } }, { "id": 4871, "title": "Isolation and properties of PS II membrane fragments depleted of the non heme iron center", "abstract": "The functional properties and the content of non heme iron and cytochrome b559 mere investigated by measuring flash induced transient changes of the relative fluorescence quantum yield and applying Mo...", "citations": 19, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4878, "doi": "10.1016/0014-5793(96)00061-0", "umap_coordinates": { "x": 393.8284912109375, "y": 135.81578063964844, "z": 204.43130493164062 }, "tsne_coordinates": { "x": -0.7306986451148987, "y": 17.694660186767578, "z": 2.0227842330932617 }, "pca_coordinates": { "x": -2.8264434337615967, "y": 1.2384564876556396, "z": -2.4851181507110596 }, "axis_scores": { "Quantum imaging": 0.6640107035636902, "Quantum Life Science Sensing": 0.7022920846939087, "Quantum sensing Detection": 0.6356798410415649, "Quantum sensing Metrology": 0.6371631026268005, "Quantum sensing navigation": 0.6171873211860657, "Quantum sensing Position": 0.618220329284668, "Quantum sensing Timing": 0.5923281311988831, "Quantum sensing": 0.6535095572471619, "Quantum control": 0.6337183713912964 } }, { "id": 4872, "title": "Toward Accurate Post-Born-Oppenheimer Molecular Simulations on Quantum Computers: An Adaptive Variational Eigensolver with Nuclear-Electronic Frozen Natural Orbitals", "abstract": "Nuclear quantum effects such as zero-point energy and hydrogen tunneling play a central role in many biological and chemical processes. The nuclear-electronic orbital (NEO) approach captures these eff...", "citations": 1, "author_count": 15, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4879, "doi": "10.1021/acs.jctc.3c01091", "umap_coordinates": { "x": 393.9443359375, "y": 137.05117797851562, "z": 206.59080505371094 }, "tsne_coordinates": { "x": -13.863779067993164, "y": 1.8762599229812622, "z": 15.91150188446045 }, "pca_coordinates": { "x": 0.5769015550613403, "y": 1.0870728492736816, "z": -2.2907726764678955 }, "axis_scores": { "Quantum imaging": 0.6833699941635132, "Quantum Life Science Sensing": 0.6910912990570068, "Quantum sensing Detection": 0.6653600931167603, "Quantum sensing Metrology": 0.647796094417572, "Quantum sensing navigation": 0.6968121528625488, "Quantum sensing Position": 0.6482877731323242, "Quantum sensing Timing": 0.6519815921783447, "Quantum sensing": 0.6842887997627258, "Quantum control": 0.6978429555892944 } }, { "id": 4873, "title": "Quantum resistance metrology using graphene", "abstract": "In this paper, we review the recent extraordinary progress in the development of a new quantum standard for resistance based on graphene. We discuss the unique properties of this material system relat...", "citations": 70, "author_count": 6, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4880, "doi": "10.1088/0034-4885/76/10/104501", "umap_coordinates": { "x": 394.889892578125, "y": 135.6651611328125, "z": 206.71881103515625 }, "tsne_coordinates": { "x": -39.79376220703125, "y": -0.34000563621520996, "z": 0.16264700889587402 }, "pca_coordinates": { "x": 0.6773351430892944, "y": 1.0572850704193115, "z": 2.5428056716918945 }, "axis_scores": { "Quantum imaging": 0.70957350730896, "Quantum Life Science Sensing": 0.7400046586990356, "Quantum sensing Detection": 0.7217060923576355, "Quantum sensing Metrology": 0.7431981563568115, "Quantum sensing navigation": 0.7215469479560852, "Quantum sensing Position": 0.7140507102012634, "Quantum sensing Timing": 0.6909563541412354, "Quantum sensing": 0.7373151183128357, "Quantum control": 0.6831292510032654 } }, { "id": 4874, "title": "INFLUENCE OF EXCITED-STATE PR3+ ON THE RELAXATION OF THE PR3+-YALO3 3H4-1D2 TRANSITION", "abstract": "Two-pulse photon-echo measurements on the 0.1 at. % Pr3+:YAlO3 H-3(4)-D-1(2) transition suggest that the relaxation time depends on the density of excited states created by the excitation pulses. The ...", "citations": 17, "author_count": 4, "categories": [ "Materials Science" ], "year": 1991, "topic": [ "all" ], "embedding_index": 4881, "doi": "10.1103/PhysRevB.44.30", "umap_coordinates": { "x": 394.76800537109375, "y": 135.57159423828125, "z": 208.08872985839844 }, "tsne_coordinates": { "x": -4.101223945617676, "y": -14.241228103637695, "z": -2.350557327270508 }, "pca_coordinates": { "x": 3.2723474502563477, "y": -0.3699312210083008, "z": -2.3380792140960693 }, "axis_scores": { "Quantum imaging": 0.6952448487281799, "Quantum Life Science Sensing": 0.7275291085243225, "Quantum sensing Detection": 0.7082028985023499, "Quantum sensing Metrology": 0.6855837106704712, "Quantum sensing navigation": 0.6874691843986511, "Quantum sensing Position": 0.674725353717804, "Quantum sensing Timing": 0.6677946448326111, "Quantum sensing": 0.7155550718307495, "Quantum control": 0.7081639766693115 } }, { "id": 4875, "title": "Phase-difference measurements, distributions and the phase-difference minimum uncertainty states", "abstract": "We discuss phase-difference measurements of two bosonic modes and propose an experimental realization of the phase-difference operator by Luis and Sanchez-Soto (1993 Phys. Rev. A 48 4702). We show tha...", "citations": 13, "author_count": 3, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 4882, "doi": null, "umap_coordinates": { "x": 391.765869140625, "y": 139.4380645751953, "z": 209.05609130859375 }, "tsne_coordinates": { "x": -16.153894424438477, "y": 37.28944778442383, "z": -7.715169429779053 }, "pca_coordinates": { "x": 0.7829744815826416, "y": 4.121248245239258, "z": -0.667797327041626 }, "axis_scores": { "Quantum imaging": 0.7423903346061707, "Quantum Life Science Sensing": 0.7607428431510925, "Quantum sensing Detection": 0.7500879764556885, "Quantum sensing Metrology": 0.7714149951934814, "Quantum sensing navigation": 0.7679253220558167, "Quantum sensing Position": 0.7632220983505249, "Quantum sensing Timing": 0.7399742603302002, "Quantum sensing": 0.7568155527114868, "Quantum control": 0.7212981581687927 } }, { "id": 4876, "title": "Mesoporous silica particles as a lipophilic drug vehicle investigated by fluorescence lifetime imaging", "abstract": "Three types of new label-free fluorescent mesoporous silica micro- and nanoparticles were prepared by controlled thermal decomposition of carboamino groups linked on the surface without compromising t...", "citations": 14, "author_count": 6, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4883, "doi": "10.1039/c7tb00198c", "umap_coordinates": { "x": 393.00439453125, "y": 134.97776794433594, "z": 204.36279296875 }, "tsne_coordinates": { "x": 7.383925914764404, "y": 18.253517150878906, "z": -13.82740306854248 }, "pca_coordinates": { "x": -4.498276233673096, "y": 0.042841434478759766, "z": -1.9705841541290283 }, "axis_scores": { "Quantum imaging": 0.6893413662910461, "Quantum Life Science Sensing": 0.6937422752380371, "Quantum sensing Detection": 0.6447858214378357, "Quantum sensing Metrology": 0.636262059211731, "Quantum sensing navigation": 0.6435906887054443, "Quantum sensing Position": 0.6297098994255066, "Quantum sensing Timing": 0.6063418984413147, "Quantum sensing": 0.6582211852073669, "Quantum control": 0.6444894671440125 } }, { "id": 4877, "title": "Composition of Gold Alloy Seeded InGaAs Nanowires in the Nucleation Limited Regime", "abstract": "We explain the composition of gold alloy particle seeded InGaAs, nanowires the nucleation limited regime. We use binary-nucleation modeling to account for the nucleation of InGaAs- from a supersaturat...", "citations": 37, "author_count": 3, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4884, "doi": "10.1021/acs.cgd.6b01653", "umap_coordinates": { "x": 392.1911926269531, "y": 133.8813934326172, "z": 207.11923217773438 }, "tsne_coordinates": { "x": 22.564783096313477, "y": -10.181130409240723, "z": -4.421062469482422 }, "pca_coordinates": { "x": -1.8278477191925049, "y": -3.715259075164795, "z": -0.10632187128067017 }, "axis_scores": { "Quantum imaging": 0.6316024661064148, "Quantum Life Science Sensing": 0.6620257496833801, "Quantum sensing Detection": 0.6550158858299255, "Quantum sensing Metrology": 0.6471723318099976, "Quantum sensing navigation": 0.6635503768920898, "Quantum sensing Position": 0.6530962586402893, "Quantum sensing Timing": 0.6251805424690247, "Quantum sensing": 0.6544283628463745, "Quantum control": 0.6293756365776062 } }, { "id": 4878, "title": "A review on sustainable graphene production from rice husks: Strategies and key considerations", "abstract": "In this review, the history of the graphene and their excellent structure and properties were briefly explained. The form of graphene in different allotropes and derivatives were also discussed as eac...", "citations": 19, "author_count": 7, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4885, "doi": "10.1016/j.cej.2024.154408", "umap_coordinates": { "x": 393.0478210449219, "y": 134.60205078125, "z": 204.13743591308594 }, "tsne_coordinates": { "x": 21.393274307250977, "y": 15.596920013427734, "z": -0.9205737709999084 }, "pca_coordinates": { "x": -4.026927471160889, "y": 1.264899730682373, "z": -2.9200279712677 }, "axis_scores": { "Quantum imaging": 0.6581982374191284, "Quantum Life Science Sensing": 0.6955398917198181, "Quantum sensing Detection": 0.6483146548271179, "Quantum sensing Metrology": 0.641266942024231, "Quantum sensing navigation": 0.6692057847976685, "Quantum sensing Position": 0.6378262639045715, "Quantum sensing Timing": 0.6222175359725952, "Quantum sensing": 0.671000063419342, "Quantum control": 0.6809333562850952 } }, { "id": 4879, "title": "State of the Art and Prospects for Halide Perovskite Nanocrystals", "abstract": "Metal-halide perovskites have rapidly emerged as one of the most promising materials of the 21st century, with many exciting properties and great potential for a broad range of applications, from phot...", "citations": 1179, "author_count": 71, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4886, "doi": "10.1021/acsnano.0c08903", "umap_coordinates": { "x": 391.82635498046875, "y": 133.9977264404297, "z": 205.63919067382812 }, "tsne_coordinates": { "x": 11.276063919067383, "y": -2.7164883613586426, "z": -20.540096282958984 }, "pca_coordinates": { "x": -2.9524762630462646, "y": -2.8600716590881348, "z": -1.4720404148101807 }, "axis_scores": { "Quantum imaging": 0.6910770535469055, "Quantum Life Science Sensing": 0.6998742818832397, "Quantum sensing Detection": 0.6750063896179199, "Quantum sensing Metrology": 0.6763893961906433, "Quantum sensing navigation": 0.6776211261749268, "Quantum sensing Position": 0.6779524683952332, "Quantum sensing Timing": 0.645075798034668, "Quantum sensing": 0.688336968421936, "Quantum control": 0.6707728505134583 } }, { "id": 4880, "title": "Optimization of the noise performance of the AGIPD prototype chips", "abstract": "The charge integrating readout electronics AGIPD (adaptive gain integrating pixel detector) is a hybrid detector system developed for the European XFEL. It features a threefold dynamic gain switching ...", "citations": 4, "author_count": 23, "categories": [ "Instruments & Instrumentation" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4887, "doi": "10.1088/1748-0221/8/10/P10022", "umap_coordinates": { "x": 395.1534118652344, "y": 134.38162231445312, "z": 206.47303771972656 }, "tsne_coordinates": { "x": -30.94546890258789, "y": 24.728775024414062, "z": -15.360231399536133 }, "pca_coordinates": { "x": -1.7132339477539062, "y": 1.2565580606460571, "z": 2.344313383102417 }, "axis_scores": { "Quantum imaging": 0.6802148222923279, "Quantum Life Science Sensing": 0.6545847654342651, "Quantum sensing Detection": 0.6661059260368347, "Quantum sensing Metrology": 0.6538492441177368, "Quantum sensing navigation": 0.6712222099304199, "Quantum sensing Position": 0.6741412281990051, "Quantum sensing Timing": 0.6614753007888794, "Quantum sensing": 0.6699060797691345, "Quantum control": 0.6850975751876831 } }, { "id": 4881, "title": "In search of the Holy Grail: Folate-targeted nanoparticles for cancer therapy", "abstract": "Targeted drug therapy or smart drug delivery, potentially combined with simultaneous imaging modalities to monitor the delivery of drugs to specific tissues, is arguably the holy grail of pharmacology...", "citations": 119, "author_count": 4, "categories": [ "Pharmacology & Pharmacy" ], "year": 2011, "topic": [ "all" ], "embedding_index": 4888, "doi": "10.1016/j.bcp.2011.01.023", "umap_coordinates": { "x": 393.8693542480469, "y": 134.36595153808594, "z": 204.1606903076172 }, "tsne_coordinates": { "x": 20.066431045532227, "y": 22.880327224731445, "z": -4.427924156188965 }, "pca_coordinates": { "x": -4.15723991394043, "y": 0.5233253240585327, "z": -1.6283302307128906 }, "axis_scores": { "Quantum imaging": 0.71300208568573, "Quantum Life Science Sensing": 0.7245797514915466, "Quantum sensing Detection": 0.6976836919784546, "Quantum sensing Metrology": 0.6949616074562073, "Quantum sensing navigation": 0.7035300135612488, "Quantum sensing Position": 0.6917744278907776, "Quantum sensing Timing": 0.6670082211494446, "Quantum sensing": 0.7131816148757935, "Quantum control": 0.6939294338226318 } }, { "id": 4882, "title": "Fast photorefractive polymer composites based on nanocrystalline J-aggregates of the cyanine dyes", "abstract": "The hole and electron drift mobility, photoelectric properties as well as influence of temperature, dark current and also relative position of oxidation potentials of the interacting components on pho...", "citations": 17, "author_count": 8, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4889, "doi": "10.1016/j.synthmet.2004.02.013", "umap_coordinates": { "x": 393.2763366699219, "y": 134.7899932861328, "z": 205.12820434570312 }, "tsne_coordinates": { "x": 14.033515930175781, "y": 14.318477630615234, "z": -6.801295280456543 }, "pca_coordinates": { "x": -3.1649622917175293, "y": -0.30320167541503906, "z": -1.1146656274795532 }, "axis_scores": { "Quantum imaging": 0.7162872552871704, "Quantum Life Science Sensing": 0.7275726795196533, "Quantum sensing Detection": 0.7048453688621521, "Quantum sensing Metrology": 0.6845371723175049, "Quantum sensing navigation": 0.6967271566390991, "Quantum sensing Position": 0.6844336986541748, "Quantum sensing Timing": 0.6812872886657715, "Quantum sensing": 0.7266849279403687, "Quantum control": 0.7051389217376709 } }, { "id": 4883, "title": "Effect of Plasmonic Ag Nanoparticles on Emission Properties of Planar GaN Nanowires", "abstract": "The combination of plasmonic nanoparticles and semiconductor substrates changes the properties of hybrid structures that can be used for various applications in optoelectronics, photonics, and sensing...", "citations": 3, "author_count": 7, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4890, "doi": "10.3390/nano13081421", "umap_coordinates": { "x": 392.65863037109375, "y": 134.01925659179688, "z": 206.2716064453125 }, "tsne_coordinates": { "x": 32.63414001464844, "y": 17.5649471282959, "z": -8.995447158813477 }, "pca_coordinates": { "x": -2.107074022293091, "y": -3.308267593383789, "z": -0.2778517007827759 }, "axis_scores": { "Quantum imaging": 0.7029997706413269, "Quantum Life Science Sensing": 0.7166232466697693, "Quantum sensing Detection": 0.6924593448638916, "Quantum sensing Metrology": 0.700969398021698, "Quantum sensing navigation": 0.7039550542831421, "Quantum sensing Position": 0.6648617386817932, "Quantum sensing Timing": 0.6373496055603027, "Quantum sensing": 0.706092894077301, "Quantum control": 0.6873903870582581 } }, { "id": 4884, "title": "Transmission Mueller-matrix characterization of transparent ramie films", "abstract": "Ramie is a plant whose fibers are used in fabrics. Ramie films are prepared by hot pressing and studied with transmission Mueller-matrix ellipsometry, which provides a complete description of polarizi...", "citations": 5, "author_count": 8, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4891, "doi": "10.1116/1.5129651", "umap_coordinates": { "x": 394.1675109863281, "y": 134.267822265625, "z": 206.40560913085938 }, "tsne_coordinates": { "x": 5.986559867858887, "y": 10.787369728088379, "z": -25.632471084594727 }, "pca_coordinates": { "x": -0.8732808828353882, "y": 0.5274312496185303, "z": 0.7672236561775208 }, "axis_scores": { "Quantum imaging": 0.7113648056983948, "Quantum Life Science Sensing": 0.7039926052093506, "Quantum sensing Detection": 0.6861857771873474, "Quantum sensing Metrology": 0.7088719606399536, "Quantum sensing navigation": 0.6630020141601562, "Quantum sensing Position": 0.6492916941642761, "Quantum sensing Timing": 0.6384570598602295, "Quantum sensing": 0.7087877988815308, "Quantum control": 0.6485906839370728 } }, { "id": 4885, "title": "Properties of a Luttinger liquid with boundaries at finite temperature and size", "abstract": "We use bosonization methods to calculate the exact finite-temperature single-electron Green's function of a spinful Luttinger liquid confined by open boundaries. The corresponding local spectral densi...", "citations": 95, "author_count": 4, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 4892, "doi": "10.1103/PhysRevB.56.15615", "umap_coordinates": { "x": 394.7265930175781, "y": 136.3579559326172, "z": 208.87179565429688 }, "tsne_coordinates": { "x": -15.196020126342773, "y": -19.313861846923828, "z": 28.18410301208496 }, "pca_coordinates": { "x": 3.1415696144104004, "y": 0.6770064830780029, "z": -0.1532573699951172 }, "axis_scores": { "Quantum imaging": 0.7018443942070007, "Quantum Life Science Sensing": 0.7196668386459351, "Quantum sensing Detection": 0.7018427848815918, "Quantum sensing Metrology": 0.7086024284362793, "Quantum sensing navigation": 0.6954091787338257, "Quantum sensing Position": 0.7035354971885681, "Quantum sensing Timing": 0.710138201713562, "Quantum sensing": 0.7283350825309753, "Quantum control": 0.7002506852149963 } }, { "id": 4886, "title": "Airglow and Aurora in the Martian Atmosphere: Contributions by the Mars Express and ExoMars TGO Missions", "abstract": "The study of atmospheric emissions from orbit to probe the middle and upper atmosphere of Mars, which started with the Mariner missions, is living a golden era thanks to the European Space Agency (ESA...", "citations": 8, "author_count": 10, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4893, "doi": "10.1007/s11214-024-01077-y", "umap_coordinates": { "x": 394.35675048828125, "y": 135.95814514160156, "z": 204.92393493652344 }, "tsne_coordinates": { "x": -16.535009384155273, "y": 25.07115936279297, "z": 11.37027645111084 }, "pca_coordinates": { "x": -1.654973030090332, "y": 1.875230073928833, "z": -1.5006872415542603 }, "axis_scores": { "Quantum imaging": 0.6387115716934204, "Quantum Life Science Sensing": 0.6770325303077698, "Quantum sensing Detection": 0.6348758339881897, "Quantum sensing Metrology": 0.6662730574607849, "Quantum sensing navigation": 0.6585754156112671, "Quantum sensing Position": 0.6261196732521057, "Quantum sensing Timing": 0.640984833240509, "Quantum sensing": 0.6553208827972412, "Quantum control": 0.6516616344451904 } }, { "id": 4887, "title": "Suppressing aggregation induced quenching in anthracene based conjugated polymers", "abstract": "Anthracene is a highly valuable building block for luminescent conjugated polymers, particularly when a large singlet-triplet energy gap (Delta E-ST) is desired. Unfortunately, the extended pi system ...", "citations": 32, "author_count": 8, "categories": [ "Polymer Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4894, "doi": "10.1039/d1py00118c", "umap_coordinates": { "x": 392.3924255371094, "y": 135.74227905273438, "z": 205.27597045898438 }, "tsne_coordinates": { "x": 1.495346188545227, "y": -4.007812976837158, "z": -16.63035774230957 }, "pca_coordinates": { "x": -1.5543829202651978, "y": -2.024956703186035, "z": -0.17938178777694702 }, "axis_scores": { "Quantum imaging": 0.6868752241134644, "Quantum Life Science Sensing": 0.689554750919342, "Quantum sensing Detection": 0.6880472898483276, "Quantum sensing Metrology": 0.658107578754425, "Quantum sensing navigation": 0.6683802008628845, "Quantum sensing Position": 0.6564398407936096, "Quantum sensing Timing": 0.6640059947967529, "Quantum sensing": 0.6852065324783325, "Quantum control": 0.698314368724823 } }, { "id": 4888, "title": "Ultrafast spectroscopy reveals singlet fission, ionization and excimer formation in perylene film", "abstract": "Singlet exciton fission (SF) is a spin-allowed process whereby two triplet excitons are created from one singlet exciton. This phenomenon can offset UV photon energy losses and enhance the overall eff...", "citations": 39, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4895, "doi": "10.1038/s41598-021-83791-z", "umap_coordinates": { "x": 393.3521423339844, "y": 135.87374877929688, "z": 206.18295288085938 }, "tsne_coordinates": { "x": 3.7280519008636475, "y": 1.8228703737258911, "z": 8.195009231567383 }, "pca_coordinates": { "x": -1.1573172807693481, "y": -1.5976972579956055, "z": 0.1501675248146057 }, "axis_scores": { "Quantum imaging": 0.7087600827217102, "Quantum Life Science Sensing": 0.7439022660255432, "Quantum sensing Detection": 0.7160648703575134, "Quantum sensing Metrology": 0.6893214583396912, "Quantum sensing navigation": 0.6543689966201782, "Quantum sensing Position": 0.6710336208343506, "Quantum sensing Timing": 0.6675890684127808, "Quantum sensing": 0.7116101384162903, "Quantum control": 0.6356648802757263 } }, { "id": 4889, "title": "Review-Towards the Two-Dimensional Hexagonal Boron Nitride (2D h-BN) Electrochemical Sensing Platforms", "abstract": "Electrochemical sensing performance of two-dimensional hexagonal boron nitride (2D h-BN) has traditionally been suppressed by their intrinsic electrical insulation and deficient electron transportatio...", "citations": 70, "author_count": 8, "categories": [ "Electrochemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4896, "doi": "10.1149/1945-7111/abaf29", "umap_coordinates": { "x": 393.6754150390625, "y": 134.47108459472656, "z": 205.2235565185547 }, "tsne_coordinates": { "x": 21.47332191467285, "y": 18.517698287963867, "z": -8.617545127868652 }, "pca_coordinates": { "x": -1.2764606475830078, "y": -0.43366575241088867, "z": -0.777397632598877 }, "axis_scores": { "Quantum imaging": 0.7080340385437012, "Quantum Life Science Sensing": 0.7207563519477844, "Quantum sensing Detection": 0.720331072807312, "Quantum sensing Metrology": 0.71305251121521, "Quantum sensing navigation": 0.7225270867347717, "Quantum sensing Position": 0.7184455990791321, "Quantum sensing Timing": 0.6890703439712524, "Quantum sensing": 0.731198251247406, "Quantum control": 0.6998417377471924 } }, { "id": 4890, "title": "Rational molecular passivation for high-performance perovskite light-emitting diodes", "abstract": "A major efficiency limit for solution-processed perovskite optoelectronic devices, for example light-emitting diodes, is trap-mediated non-radiative losses. Defect passivation using organic molecules ...", "citations": 1200, "author_count": 26, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4897, "doi": "10.1038/s41566-019-0390-x", "umap_coordinates": { "x": 391.68841552734375, "y": 134.06700134277344, "z": 205.1246795654297 }, "tsne_coordinates": { "x": 19.78081512451172, "y": -3.29732346534729, "z": -24.611003875732422 }, "pca_coordinates": { "x": -2.7778823375701904, "y": -2.566150665283203, "z": -0.4061838686466217 }, "axis_scores": { "Quantum imaging": 0.6913011074066162, "Quantum Life Science Sensing": 0.6840970516204834, "Quantum sensing Detection": 0.6629700660705566, "Quantum sensing Metrology": 0.6593115925788879, "Quantum sensing navigation": 0.6600390076637268, "Quantum sensing Position": 0.6438932418823242, "Quantum sensing Timing": 0.6372250318527222, "Quantum sensing": 0.68614262342453, "Quantum control": 0.6701918244361877 } }, { "id": 4891, "title": "On the decay time of upconversion luminescence", "abstract": "In this study, we systematically investigate the decay characteristics of upconversion luminescence (UCL) under anti-Stokes excitation through numerical simulations based on rate-equation models. We f...", "citations": 99, "author_count": 11, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4898, "doi": "10.1039/c8nr10332a", "umap_coordinates": { "x": 393.4704895019531, "y": 135.18089294433594, "z": 205.84742736816406 }, "tsne_coordinates": { "x": 12.039233207702637, "y": 7.670596122741699, "z": 1.8483284711837769 }, "pca_coordinates": { "x": -1.5018061399459839, "y": 0.3627593517303467, "z": -1.0086243152618408 }, "axis_scores": { "Quantum imaging": 0.7132176160812378, "Quantum Life Science Sensing": 0.7406858801841736, "Quantum sensing Detection": 0.7118157148361206, "Quantum sensing Metrology": 0.6814913153648376, "Quantum sensing navigation": 0.6946940422058105, "Quantum sensing Position": 0.6817478537559509, "Quantum sensing Timing": 0.7078028321266174, "Quantum sensing": 0.715549111366272, "Quantum control": 0.6802436113357544 } }, { "id": 4892, "title": "Dramatic enhancement of the detection limits of bioassays via ultrafast deposition of polydopamine", "abstract": "The ability to detect biomarkers with ultrahigh sensitivity radically transformed biology and disease diagnosis. However, owing to incompatibilities with infrastructure in current biological and medic...", "citations": 117, "author_count": 11, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4899, "doi": "10.1038/s41551-017-0082", "umap_coordinates": { "x": 393.79425048828125, "y": 134.10260009765625, "z": 204.94212341308594 }, "tsne_coordinates": { "x": 5.6889262199401855, "y": 23.409847259521484, "z": -7.753057479858398 }, "pca_coordinates": { "x": -4.400791168212891, "y": -1.3353099822998047, "z": 1.4064815044403076 }, "axis_scores": { "Quantum imaging": 0.7014140486717224, "Quantum Life Science Sensing": 0.7162464261054993, "Quantum sensing Detection": 0.7010487914085388, "Quantum sensing Metrology": 0.6833726167678833, "Quantum sensing navigation": 0.6771875619888306, "Quantum sensing Position": 0.670602560043335, "Quantum sensing Timing": 0.6523208022117615, "Quantum sensing": 0.7010641694068909, "Quantum control": 0.653506875038147 } }, { "id": 4893, "title": "Towards Si1-xGex quantum-well resonant-state terahertz laser", "abstract": "We report on the experimental evidence for terahertz (THz) lasing of boron-doped strained Si1-xGex quantum-well structures. The lasing arises under strong electric fields (300-1500 V/cm) applied paral...", "citations": 68, "author_count": 10, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4900, "doi": "10.1063/1.1423771", "umap_coordinates": { "x": 393.20233154296875, "y": 133.97219848632812, "z": 207.64244079589844 }, "tsne_coordinates": { "x": 23.443584442138672, "y": -35.19493103027344, "z": 4.973526954650879 }, "pca_coordinates": { "x": 0.14714860916137695, "y": -2.172603130340576, "z": 0.9478533864021301 }, "axis_scores": { "Quantum imaging": 0.7121277451515198, "Quantum Life Science Sensing": 0.7153910398483276, "Quantum sensing Detection": 0.710124671459198, "Quantum sensing Metrology": 0.728007972240448, "Quantum sensing navigation": 0.7232939600944519, "Quantum sensing Position": 0.7250944972038269, "Quantum sensing Timing": 0.6889010667800903, "Quantum sensing": 0.7299394011497498, "Quantum control": 0.687228262424469 } }, { "id": 4894, "title": "Majorana sweet spots in three-site Kitaev chains", "abstract": "Minimal Kitaev chains, composed of two quantum dots connected via a superconductor, have emerged as an attractive platform to realize Majorana bound states (MBSs). These excitations exist when the gro...", "citations": 4, "author_count": 4, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4901, "doi": "10.1103/PhysRevB.111.235409", "umap_coordinates": { "x": 395.046630859375, "y": 136.93984985351562, "z": 208.74472045898438 }, "tsne_coordinates": { "x": -32.83259201049805, "y": -25.670650482177734, "z": 6.081455230712891 }, "pca_coordinates": { "x": 3.778654098510742, "y": -0.058168888092041016, "z": -0.13084477186203003 }, "axis_scores": { "Quantum imaging": 0.6745392084121704, "Quantum Life Science Sensing": 0.6776309609413147, "Quantum sensing Detection": 0.6841076016426086, "Quantum sensing Metrology": 0.6690512895584106, "Quantum sensing navigation": 0.6940781474113464, "Quantum sensing Position": 0.6571708917617798, "Quantum sensing Timing": 0.6678528189659119, "Quantum sensing": 0.692001461982727, "Quantum control": 0.6515775918960571 } }, { "id": 4895, "title": "Internal electric field engineering step-scheme-based heterojunction using lead-free Cs3Bi2Br9 perovskite-modified In4SnS8 for selective photocatalytic CO2 reduction to CO", "abstract": "This study focuses on improving photocatalytic CO2 reduction reaction (CRR) activity and modulating product selectivity. An In4SnS8/Cs3Bi2Br9-X (ISS/CBB-X) heterojunction is prepared using novel lead-...", "citations": 41, "author_count": 8, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4902, "doi": "10.1016/j.apcatb.2022.121426", "umap_coordinates": { "x": 392.38970947265625, "y": 133.70838928222656, "z": 205.51319885253906 }, "tsne_coordinates": { "x": 26.17888832092285, "y": 7.898443698883057, "z": -2.4240012168884277 }, "pca_coordinates": { "x": -2.880775213241577, "y": -1.7240090370178223, "z": -1.008888602256775 }, "axis_scores": { "Quantum imaging": 0.6773087978363037, "Quantum Life Science Sensing": 0.6822341084480286, "Quantum sensing Detection": 0.6517242789268494, "Quantum sensing Metrology": 0.6527338624000549, "Quantum sensing navigation": 0.6598376035690308, "Quantum sensing Position": 0.6411944031715393, "Quantum sensing Timing": 0.6394044160842896, "Quantum sensing": 0.6767529249191284, "Quantum control": 0.6819601058959961 } }, { "id": 4896, "title": "Lorentzian spatial intensity distribution in one-photon fluorescence correlation spectroscopy", "abstract": "The theory of autocorrelation-function evaluation in fluorescence correlation spectroscopy is applied to a Lorentzian intensity distribution. An analytical solution to the autocorrelation function for...", "citations": 10, "author_count": 3, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 4903, "doi": "10.1364/AO.48.006050", "umap_coordinates": { "x": 394.93963623046875, "y": 133.89126586914062, "z": 206.41001892089844 }, "tsne_coordinates": { "x": 8.424159049987793, "y": 14.543685913085938, "z": -26.728126525878906 }, "pca_coordinates": { "x": -0.5883750319480896, "y": 0.7702624797821045, "z": 2.869964122772217 }, "axis_scores": { "Quantum imaging": 0.7613229155540466, "Quantum Life Science Sensing": 0.7215937376022339, "Quantum sensing Detection": 0.7296347618103027, "Quantum sensing Metrology": 0.723009467124939, "Quantum sensing navigation": 0.7365095615386963, "Quantum sensing Position": 0.7296302914619446, "Quantum sensing Timing": 0.7316187620162964, "Quantum sensing": 0.7430731654167175, "Quantum control": 0.7092500925064087 } }, { "id": 4897, "title": "Superconducting microwave parametric amplifier based on a quasi-fractal slow propagation line", "abstract": "Quantum limited amplifiers are sought after for a wide range of applications within quantum technologies and sensing. One promising candidate is the travelling wave parametric amplifier which exploits...", "citations": 47, "author_count": 5, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4904, "doi": "10.1063/1.4942362", "umap_coordinates": { "x": 394.3219299316406, "y": 135.22503662109375, "z": 207.88160705566406 }, "tsne_coordinates": { "x": -17.70906639099121, "y": -34.532135009765625, "z": 25.837646484375 }, "pca_coordinates": { "x": 2.4830057621002197, "y": 0.01991868019104004, "z": 1.172940969467163 }, "axis_scores": { "Quantum imaging": 0.6801813840866089, "Quantum Life Science Sensing": 0.7040858268737793, "Quantum sensing Detection": 0.6914585828781128, "Quantum sensing Metrology": 0.6696799993515015, "Quantum sensing navigation": 0.7012089490890503, "Quantum sensing Position": 0.6740803122520447, "Quantum sensing Timing": 0.6568973064422607, "Quantum sensing": 0.7055289149284363, "Quantum control": 0.6577645540237427 } }, { "id": 4898, "title": "QUANTUM CORRELATED LIGHT-BEAMS AND SUB-POISSONIAN ELECTRICAL PARTITION NOISE IN PARALLEL AND SERIES COUPLED SEMICONDUCTOR LIGHT EMITTERS", "abstract": "Quantum correlated twin beams have been generated using series and parallel coupled light emitting diodes. Furthermore, sub-Poissonian light, with a noise level 1.4 dB below the standard quantum limit...", "citations": 26, "author_count": 5, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 4905, "doi": "10.1103/PhysRevLett.70.437", "umap_coordinates": { "x": 394.2882385253906, "y": 134.89276123046875, "z": 208.5712127685547 }, "tsne_coordinates": { "x": 2.922656297683716, "y": -20.0981388092041, "z": -4.160877704620361 }, "pca_coordinates": { "x": 3.1292929649353027, "y": -1.8225955963134766, "z": 1.9824929237365723 }, "axis_scores": { "Quantum imaging": 0.739027738571167, "Quantum Life Science Sensing": 0.7337384223937988, "Quantum sensing Detection": 0.7420996427536011, "Quantum sensing Metrology": 0.7254138588905334, "Quantum sensing navigation": 0.7433133125305176, "Quantum sensing Position": 0.7253797054290771, "Quantum sensing Timing": 0.7117181420326233, "Quantum sensing": 0.7480388879776001, "Quantum control": 0.7153674364089966 } }, { "id": 4899, "title": "Measurement of the impact-parameter dependent azimuthal anisotropy in coherent ρ0 photoproduction in Pb-Pb collisions at √sNN=5.02 TeV", "abstract": "This Letter presents the first measurement of the impact-parameter dependent angular anisotropy in the decay of coherently photoproduced rho(0) mesons. The rho(0) mesons are reconstructed through thei...", "citations": 9, "author_count": 1064, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4906, "doi": "10.1016/j.physletb.2024.139017", "umap_coordinates": { "x": 396.72637939453125, "y": 134.3871612548828, "z": 207.5565185546875 }, "tsne_coordinates": { "x": -34.34993362426758, "y": 2.1692588329315186, "z": -10.10593032836914 }, "pca_coordinates": { "x": -0.3952164649963379, "y": 0.969090461730957, "z": 2.140913963317871 }, "axis_scores": { "Quantum imaging": 0.7124667763710022, "Quantum Life Science Sensing": 0.6824085712432861, "Quantum sensing Detection": 0.6905574202537537, "Quantum sensing Metrology": 0.6780836582183838, "Quantum sensing navigation": 0.7067985534667969, "Quantum sensing Position": 0.714402973651886, "Quantum sensing Timing": 0.6997842192649841, "Quantum sensing": 0.6976763606071472, "Quantum control": 0.6714745759963989 } }, { "id": 4900, "title": "Overcoming small-bandgap charge recombination in visible and NIR-light-driven hydrogen evolution by engineering the polymer photocatalyst structure", "abstract": "Designing an organic polymer photocatalyst for efficient hydrogen evolution with visible and near-infrared (NIR) light activity is still a major challenge. Unlike the common behavior of gradually incr...", "citations": 60, "author_count": 20, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4907, "doi": "10.1038/s41467-024-45085-6", "umap_coordinates": { "x": 391.9896240234375, "y": 134.7218475341797, "z": 205.0198974609375 }, "tsne_coordinates": { "x": 23.30712127685547, "y": 1.0121269226074219, "z": -9.387398719787598 }, "pca_coordinates": { "x": -2.48811674118042, "y": -1.081822395324707, "z": -0.864326536655426 }, "axis_scores": { "Quantum imaging": 0.6713289022445679, "Quantum Life Science Sensing": 0.7075693607330322, "Quantum sensing Detection": 0.6558625102043152, "Quantum sensing Metrology": 0.6449404954910278, "Quantum sensing navigation": 0.6676213145256042, "Quantum sensing Position": 0.6403819918632507, "Quantum sensing Timing": 0.6330602765083313, "Quantum sensing": 0.6721400022506714, "Quantum control": 0.6635342240333557 } }, { "id": 4901, "title": "Coulomb blockade from the shell of an InP-InAs core-shell nanowire with a triangular cross section", "abstract": "We report on growth of InP-InAs core-shell nanowires and demonstration of the formation of single quantum structures, which show the Coulomb blockade effect, over entire lengths of the nanowires. The ...", "citations": 13, "author_count": 9, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4908, "doi": "10.1063/1.5084222", "umap_coordinates": { "x": 392.4444580078125, "y": 133.944091796875, "z": 208.30679321289062 }, "tsne_coordinates": { "x": 24.554561614990234, "y": -15.719586372375488, "z": 0.3871051073074341 }, "pca_coordinates": { "x": 1.2465317249298096, "y": -4.057065486907959, "z": 1.2475388050079346 }, "axis_scores": { "Quantum imaging": 0.7215307354927063, "Quantum Life Science Sensing": 0.7022371888160706, "Quantum sensing Detection": 0.7226362228393555, "Quantum sensing Metrology": 0.7107560634613037, "Quantum sensing navigation": 0.7140085101127625, "Quantum sensing Position": 0.6874262690544128, "Quantum sensing Timing": 0.6734229922294617, "Quantum sensing": 0.7308311462402344, "Quantum control": 0.687753438949585 } }, { "id": 4902, "title": "Performance of the First ALMA Band 5 Production Cartridge", "abstract": "We present performance of the first ALMA Band 5 production cartridge, covering frequencies from 163 to 211 GHz. Atacama Large Millimeter/sub-millimeter Array (ALMA) Band 5 is a dual polarization, side...", "citations": 50, "author_count": 13, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4909, "doi": "10.1109/TTHZ.2011.2182220", "umap_coordinates": { "x": 394.8218994140625, "y": 134.302001953125, "z": 206.7875213623047 }, "tsne_coordinates": { "x": -0.9848253726959229, "y": -1.3154399394989014, "z": -42.27105712890625 }, "pca_coordinates": { "x": -0.3351109027862549, "y": 1.5594990253448486, "z": 0.8202137351036072 }, "axis_scores": { "Quantum imaging": 0.6370381116867065, "Quantum Life Science Sensing": 0.6538044214248657, "Quantum sensing Detection": 0.6583757996559143, "Quantum sensing Metrology": 0.6734642386436462, "Quantum sensing navigation": 0.6379910111427307, "Quantum sensing Position": 0.6561644673347473, "Quantum sensing Timing": 0.6911805272102356, "Quantum sensing": 0.6687760949134827, "Quantum control": 0.6542009115219116 } }, { "id": 4903, "title": "Accurate and approximate thermal rate constants for polyatomic chemical reactions", "abstract": "In favourable cases it is possible to calculate thermal rate constants for polyatomic reactions to high accuracy from first principles. Here, we discuss the use of flux correlation functions combined ...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4910, "doi": "10.1088/0031-8949/76/3/N05", "umap_coordinates": { "x": 393.544677734375, "y": 137.39645385742188, "z": 206.33560180664062 }, "tsne_coordinates": { "x": -6.468463897705078, "y": 5.045101165771484, "z": 18.196210861206055 }, "pca_coordinates": { "x": 0.0867842435836792, "y": 1.0482062101364136, "z": -0.41797029972076416 }, "axis_scores": { "Quantum imaging": 0.67731112241745, "Quantum Life Science Sensing": 0.7018333077430725, "Quantum sensing Detection": 0.6719566583633423, "Quantum sensing Metrology": 0.6772599220275879, "Quantum sensing navigation": 0.6711108684539795, "Quantum sensing Position": 0.6717005372047424, "Quantum sensing Timing": 0.6989499926567078, "Quantum sensing": 0.6956404447555542, "Quantum control": 0.6689375638961792 } }, { "id": 4904, "title": "SiGe (Ge-dot) heterojunction phototransistors for efficient light detection at 1.3-1.55 μm", "abstract": "The aim of this work is to develop a Si/SiGe HBT-type phototransistor with several Ge dot layers incorporated in the collector, in order to obtain improved light detectivity at 1.3-1.55 mum. The MBE g...", "citations": 41, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4911, "doi": "10.1016/S1386-9477(02)00634-3", "umap_coordinates": { "x": 393.46551513671875, "y": 133.61358642578125, "z": 206.05255126953125 }, "tsne_coordinates": { "x": 44.80670928955078, "y": -1.0972152948379517, "z": 1.4160035848617554 }, "pca_coordinates": { "x": -2.407377004623413, "y": -2.0808424949645996, "z": 2.5003113746643066 }, "axis_scores": { "Quantum imaging": 0.701187252998352, "Quantum Life Science Sensing": 0.719590425491333, "Quantum sensing Detection": 0.7094385623931885, "Quantum sensing Metrology": 0.705354630947113, "Quantum sensing navigation": 0.6890474557876587, "Quantum sensing Position": 0.6775711178779602, "Quantum sensing Timing": 0.66493821144104, "Quantum sensing": 0.7091366648674011, "Quantum control": 0.6496763825416565 } }, { "id": 4905, "title": "Photoluminescence and photoluminescence excitation studies of lateral size effects in Zn1-xMnxSe/ZnSe quantum disk samples of different radii", "abstract": "Quantum disc structures (with diameters of 200 and 100 nm) were prepared from a Zn0.72Mn0.28Se/ZnSe single quantum well structure by electron beam lithography followed by an etching procedure that com...", "citations": 14, "author_count": 7, "categories": [ "Materials Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4912, "doi": "10.1103/PhysRevB.57.7114", "umap_coordinates": { "x": 392.5954895019531, "y": 134.07839965820312, "z": 207.3515625 }, "tsne_coordinates": { "x": 33.24747848510742, "y": -9.152364730834961, "z": -2.3463120460510254 }, "pca_coordinates": { "x": 1.3788847923278809, "y": -2.1537365913391113, "z": 0.24159198999404907 }, "axis_scores": { "Quantum imaging": 0.7171754240989685, "Quantum Life Science Sensing": 0.7302061319351196, "Quantum sensing Detection": 0.70795077085495, "Quantum sensing Metrology": 0.7143399119377136, "Quantum sensing navigation": 0.7145749926567078, "Quantum sensing Position": 0.7325987815856934, "Quantum sensing Timing": 0.6907036304473877, "Quantum sensing": 0.727108895778656, "Quantum control": 0.6965669989585876 } }, { "id": 4906, "title": "Superconducting nanowire single-photon detectors: A perspective on evolution, state-of-the-art, future developments, and applications", "abstract": "Two decades after their demonstration, superconducting nanowire single-photon detectors (SNSPDs) have become indispensable tools for quantum photonics as well as for many other photon-starved applicat...", "citations": 269, "author_count": 9, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4913, "doi": "10.1063/5.0045990", "umap_coordinates": { "x": 394.20428466796875, "y": 133.40286254882812, "z": 207.44667053222656 }, "tsne_coordinates": { "x": -15.20263385772705, "y": 1.9016468524932861, "z": -28.63683319091797 }, "pca_coordinates": { "x": -0.5503317713737488, "y": -2.854038715362549, "z": 3.4331955909729004 }, "axis_scores": { "Quantum imaging": 0.7345448732376099, "Quantum Life Science Sensing": 0.7659910321235657, "Quantum sensing Detection": 0.7545297741889954, "Quantum sensing Metrology": 0.7370724081993103, "Quantum sensing navigation": 0.7527527809143066, "Quantum sensing Position": 0.7405990958213806, "Quantum sensing Timing": 0.7239587306976318, "Quantum sensing": 0.7541365623474121, "Quantum control": 0.6960799694061279 } }, { "id": 4907, "title": "Unipolar quantum optoelectronics for high speed direct modulation and transmission in 8-14μm atmospheric window", "abstract": "The large mid-infrared (MIR) spectral region, ranging from 2.5 mu m to 25 mu m, has remained under-exploited in the electromagnetic spectrum, primarily due to the absence of viable transceiver technol...", "citations": 11, "author_count": 21, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4914, "doi": "10.1038/s41467-024-52053-7", "umap_coordinates": { "x": 394.3027038574219, "y": 134.78097534179688, "z": 206.16651916503906 }, "tsne_coordinates": { "x": -9.67064094543457, "y": 1.857508659362793, "z": -2.271298408508301 }, "pca_coordinates": { "x": -0.8970428109169006, "y": -0.9233379364013672, "z": 1.60683012008667 }, "axis_scores": { "Quantum imaging": 0.7247839570045471, "Quantum Life Science Sensing": 0.7360225319862366, "Quantum sensing Detection": 0.7101056575775146, "Quantum sensing Metrology": 0.7130170464515686, "Quantum sensing navigation": 0.7103030681610107, "Quantum sensing Position": 0.6914937496185303, "Quantum sensing Timing": 0.7026792764663696, "Quantum sensing": 0.7218754887580872, "Quantum control": 0.686664879322052 } }, { "id": 4908, "title": "Photon-pair production and frequency translation using backward-wave spontaneous parametric downconversion", "abstract": "Backward-wave three-wave mixing is a difficult chi(2) interaction to observe, because it requires ultrashort poling periods to achieve phasematching. Having realized sub-micrometer periods in periodic...", "citations": 11, "author_count": 7, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4915, "doi": "10.1364/OPTICAQ.500021", "umap_coordinates": { "x": 394.7533264160156, "y": 134.53379821777344, "z": 206.6712188720703 }, "tsne_coordinates": { "x": -6.007767200469971, "y": -7.314651966094971, "z": -27.01511573791504 }, "pca_coordinates": { "x": -0.5480356216430664, "y": 1.2098768949508667, "z": 3.4628076553344727 }, "axis_scores": { "Quantum imaging": 0.705852746963501, "Quantum Life Science Sensing": 0.6891151070594788, "Quantum sensing Detection": 0.7022885084152222, "Quantum sensing Metrology": 0.7071101665496826, "Quantum sensing navigation": 0.7014733552932739, "Quantum sensing Position": 0.6743972301483154, "Quantum sensing Timing": 0.697538435459137, "Quantum sensing": 0.7076553106307983, "Quantum control": 0.6896038055419922 } }, { "id": 4909, "title": "Collision-induced absorption in Ar-Xe: a comparative study of empirical and ab initio interaction potentials and electric dipole moments", "abstract": "Empirical Barker-Fisher-Watts and modified Tang-Toennies potential energy curves are obtained through fit to experimental vibrational transition energies for argon-argon, xenon-xenon, and argon-xenon ...", "citations": 2, "author_count": 3, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4916, "doi": "10.1016/j.jqsrt.2022.108362", "umap_coordinates": { "x": 393.55670166015625, "y": 136.04722595214844, "z": 206.38986206054688 }, "tsne_coordinates": { "x": -6.498861789703369, "y": 6.437596797943115, "z": 38.18870544433594 }, "pca_coordinates": { "x": -0.21831953525543213, "y": 1.1499093770980835, "z": -1.7988996505737305 }, "axis_scores": { "Quantum imaging": 0.6904250383377075, "Quantum Life Science Sensing": 0.6958448886871338, "Quantum sensing Detection": 0.6791855692863464, "Quantum sensing Metrology": 0.6563368439674377, "Quantum sensing navigation": 0.6653800010681152, "Quantum sensing Position": 0.6487653255462646, "Quantum sensing Timing": 0.662133514881134, "Quantum sensing": 0.6819579601287842, "Quantum control": 0.6514321565628052 } }, { "id": 4910, "title": "Distance mapping of protein-binding sites using spin-labeled oligosaccharide ligands", "abstract": "The binding of a nitroxide spin-labeled analog of N-acetyllactosamine to galectin-3, a mammalian lectin of 26 kD size, is studied to map the binding sites of this small oligosaccharide on the protein ...", "citations": 50, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4917, "doi": "10.1110/ps.17401", "umap_coordinates": { "x": 393.631103515625, "y": 136.281982421875, "z": 205.33383178710938 }, "tsne_coordinates": { "x": 16.640724182128906, "y": 10.172616004943848, "z": 28.97602653503418 }, "pca_coordinates": { "x": -0.597267210483551, "y": 1.491851806640625, "z": -0.06408518552780151 }, "axis_scores": { "Quantum imaging": 0.7463112473487854, "Quantum Life Science Sensing": 0.7505922317504883, "Quantum sensing Detection": 0.7321281433105469, "Quantum sensing Metrology": 0.7330016493797302, "Quantum sensing navigation": 0.7674230933189392, "Quantum sensing Position": 0.7678159475326538, "Quantum sensing Timing": 0.7367036938667297, "Quantum sensing": 0.7488656640052795, "Quantum control": 0.7007077932357788 } }, { "id": 4911, "title": "Control of electron transfer in supramolecular systems", "abstract": "The fluorescence quantum yield of zinc porphyrin (ZnP) covalently linked to 9,10-bis(phenylethynyl)anthracene (AB) is strongly dependent upon the solvent properties. The bichromophoric system ZnP-AB e...", "citations": 25, "author_count": 6, "categories": [ "Spectroscopy" ], "year": 2001, "topic": [ "all" ], "embedding_index": 4918, "doi": "10.1016/S1386-1425(01)00497-8", "umap_coordinates": { "x": 392.9749450683594, "y": 136.24038696289062, "z": 206.19161987304688 }, "tsne_coordinates": { "x": 9.390083312988281, "y": 17.464656829833984, "z": 20.511259078979492 }, "pca_coordinates": { "x": -0.7012304663658142, "y": -0.887660026550293, "z": -3.0696306228637695 }, "axis_scores": { "Quantum imaging": 0.7101321816444397, "Quantum Life Science Sensing": 0.7189593315124512, "Quantum sensing Detection": 0.7023410797119141, "Quantum sensing Metrology": 0.7051551938056946, "Quantum sensing navigation": 0.6990742683410645, "Quantum sensing Position": 0.683761715888977, "Quantum sensing Timing": 0.6740965843200684, "Quantum sensing": 0.7201094627380371, "Quantum control": 0.7439382076263428 } }, { "id": 4912, "title": "Compton scattering from the deuteron above pion-production threshold", "abstract": "The electromagnetic polarizabilities of the nucleon are fundamental nucleon-structure observables that characterize its response to external electromagnetic fields. The neutron polarizabilities can be...", "citations": 1, "author_count": 30, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4919, "doi": "10.1103/PhysRevC.98.012201", "umap_coordinates": { "x": 395.69293212890625, "y": 135.1846923828125, "z": 208.42222595214844 }, "tsne_coordinates": { "x": -1.4621517658233643, "y": -45.28745651245117, "z": -10.35800552368164 }, "pca_coordinates": { "x": 3.3571105003356934, "y": 0.16901016235351562, "z": 0.28263264894485474 }, "axis_scores": { "Quantum imaging": 0.6530768275260925, "Quantum Life Science Sensing": 0.6826239228248596, "Quantum sensing Detection": 0.67268306016922, "Quantum sensing Metrology": 0.6513749957084656, "Quantum sensing navigation": 0.6455278396606445, "Quantum sensing Position": 0.648291289806366, "Quantum sensing Timing": 0.6648522615432739, "Quantum sensing": 0.6676074266433716, "Quantum control": 0.6524189710617065 } }, { "id": 4913, "title": "Exclusive and dissociative J/ψ photoproduction, and exclusive dimuon production, in p-Pb collisions at √sNN=8.16 TeV", "abstract": "The ALICE Collaboration reports three measurements in ultraperipheral proton-lead collisions at forward rapidity. The exclusive two-photon process gamma gamma ->mu(+)mu(-) and the exclusive photoprodu...", "citations": 12, "author_count": 1042, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4920, "doi": "10.1103/PhysRevD.108.112004", "umap_coordinates": { "x": 396.6562805175781, "y": 134.4057159423828, "z": 207.94564819335938 }, "tsne_coordinates": { "x": -33.51919174194336, "y": 5.070033550262451, "z": -13.659361839294434 }, "pca_coordinates": { "x": 1.6306328773498535, "y": -0.4019646644592285, "z": 1.477158546447754 }, "axis_scores": { "Quantum imaging": 0.6489580869674683, "Quantum Life Science Sensing": 0.650547444820404, "Quantum sensing Detection": 0.6601806879043579, "Quantum sensing Metrology": 0.6160682439804077, "Quantum sensing navigation": 0.6345425844192505, "Quantum sensing Position": 0.6153450608253479, "Quantum sensing Timing": 0.6246662735939026, "Quantum sensing": 0.6502672433853149, "Quantum control": 0.6231162548065186 } }, { "id": 4914, "title": "Ultimate Limit of Light Extinction by Nanophotonic Structures", "abstract": "Nanophotonic structures make it possible to precisely engineer the optical response at deep subwavelength scales. However, a fundamental understanding of the general performance limits remains a chall...", "citations": 30, "author_count": 7, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4921, "doi": "10.1021/acs.nanolett.5b03512", "umap_coordinates": { "x": 393.6663818359375, "y": 134.99542236328125, "z": 206.6238555908203 }, "tsne_coordinates": { "x": 14.614503860473633, "y": -20.144542694091797, "z": -26.15919303894043 }, "pca_coordinates": { "x": -0.747389018535614, "y": -2.0205607414245605, "z": 0.7492370009422302 }, "axis_scores": { "Quantum imaging": 0.7290318012237549, "Quantum Life Science Sensing": 0.7422023415565491, "Quantum sensing Detection": 0.7324680089950562, "Quantum sensing Metrology": 0.7187658548355103, "Quantum sensing navigation": 0.7194764018058777, "Quantum sensing Position": 0.7022605538368225, "Quantum sensing Timing": 0.6479774117469788, "Quantum sensing": 0.7245362997055054, "Quantum control": 0.6946302652359009 } }, { "id": 4915, "title": "Fractional domain walls from on-site softening in dipolar bosons", "abstract": "We study dipolar bosons in a 1D optical lattice and identify a region in parameter space-strong coupling but relatively weak on-site repulsion-hosting a series of stable charge-density-wave (CDW) stat...", "citations": 11, "author_count": 5, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4922, "doi": "10.1103/PhysRevA.85.033607", "umap_coordinates": { "x": 394.2698669433594, "y": 136.41261291503906, "z": 209.1715850830078 }, "tsne_coordinates": { "x": -12.983452796936035, "y": -28.325672149658203, "z": 22.401588439941406 }, "pca_coordinates": { "x": 3.373875617980957, "y": -0.35774755477905273, "z": -0.4148387908935547 }, "axis_scores": { "Quantum imaging": 0.6860615611076355, "Quantum Life Science Sensing": 0.6747017502784729, "Quantum sensing Detection": 0.6670346856117249, "Quantum sensing Metrology": 0.6604531407356262, "Quantum sensing navigation": 0.6780087351799011, "Quantum sensing Position": 0.6480900645256042, "Quantum sensing Timing": 0.6700751185417175, "Quantum sensing": 0.6832126975059509, "Quantum control": 0.6568204760551453 } }, { "id": 4916, "title": "Origin of Macroscopic Observables of Strongly Coupled Metal Nanoparticle-Molecule Systems from Microscopic Electronic Properties", "abstract": "Strongly coupled light-matter systems are becoming a ubiquitous platform for investigating an increasing number of physical phenomena from modifying charge transport, altered emission, and relaxation ...", "citations": 3, "author_count": 5, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4923, "doi": "10.1021/acs.jpcc.4c02200", "umap_coordinates": { "x": 392.6832580566406, "y": 135.4594268798828, "z": 206.2692108154297 }, "tsne_coordinates": { "x": 5.836427211761475, "y": -13.100667953491211, "z": -10.980753898620605 }, "pca_coordinates": { "x": 0.7758985757827759, "y": -1.8919577598571777, "z": -2.343855857849121 }, "axis_scores": { "Quantum imaging": 0.7300507426261902, "Quantum Life Science Sensing": 0.7406769394874573, "Quantum sensing Detection": 0.7381947636604309, "Quantum sensing Metrology": 0.7068996429443359, "Quantum sensing navigation": 0.7062974572181702, "Quantum sensing Position": 0.7002861499786377, "Quantum sensing Timing": 0.6701416373252869, "Quantum sensing": 0.7461068630218506, "Quantum control": 0.7101805806159973 } }, { "id": 4917, "title": "Kinetically Controlled Synthesis of Quasi-Square CsPbI3 Nanoplatelets with Excellent Stability", "abstract": "Nanoplatelets (NPLs) share excellent luminescent properties with their symmetric quantum dots counterparts and entail special characters benefiting from the shape, like the thickness-dependent bandgap...", "citations": 6, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4924, "doi": "10.1002/smll.202306360", "umap_coordinates": { "x": 391.4907531738281, "y": 133.90232849121094, "z": 205.08877563476562 }, "tsne_coordinates": { "x": 23.208690643310547, "y": -3.7001969814300537, "z": -20.614587783813477 }, "pca_coordinates": { "x": -1.7849845886230469, "y": -2.5305213928222656, "z": -2.299360990524292 }, "axis_scores": { "Quantum imaging": 0.6818147301673889, "Quantum Life Science Sensing": 0.7132142782211304, "Quantum sensing Detection": 0.6772960424423218, "Quantum sensing Metrology": 0.6818053126335144, "Quantum sensing navigation": 0.6983235478401184, "Quantum sensing Position": 0.6798994541168213, "Quantum sensing Timing": 0.6819331645965576, "Quantum sensing": 0.6986839771270752, "Quantum control": 0.6950034499168396 } }, { "id": 4918, "title": "Enhanced S2 Fluorescence from a Free-Base Tetraphenylporphyrin Surface-Mounted Metal Organic Framework", "abstract": "The ultrafast transient dynamics of a free-base tetraphenylporphyrin (H2TPP) surface-mounted metal organic framework (SURMOF) is spectroscopically characterized and compared with that of H2TPP in etha...", "citations": 18, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4925, "doi": "10.1021/acs.jpcc.8b06836", "umap_coordinates": { "x": 391.9098815917969, "y": 135.1305389404297, "z": 204.81253051757812 }, "tsne_coordinates": { "x": 8.821233749389648, "y": 11.711457252502441, "z": -11.892101287841797 }, "pca_coordinates": { "x": -3.6803717613220215, "y": -2.751647472381592, "z": -1.7737343311309814 }, "axis_scores": { "Quantum imaging": 0.7020798921585083, "Quantum Life Science Sensing": 0.6959627866744995, "Quantum sensing Detection": 0.6930291056632996, "Quantum sensing Metrology": 0.6696058511734009, "Quantum sensing navigation": 0.6645892858505249, "Quantum sensing Position": 0.6804282665252686, "Quantum sensing Timing": 0.6558615565299988, "Quantum sensing": 0.7047064304351807, "Quantum control": 0.6780575513839722 } }, { "id": 4919, "title": "Photocatalytic hydrogen generation from a visible-light responsive metal-organic framework system: the impact of nickel phosphide nanoparticles", "abstract": "Herein, we report the performance of a photocatalytic system based on visible-light active MIL-125-NH2 mixed with nickel phosphide (Ni2P) nanoparticles. This combination boosts the H-2 evolution rate ...", "citations": 103, "author_count": 15, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4926, "doi": "10.1039/c7ta10225a", "umap_coordinates": { "x": 391.7448425292969, "y": 134.8932647705078, "z": 205.22305297851562 }, "tsne_coordinates": { "x": 14.188546180725098, "y": 6.6370463371276855, "z": -5.696669101715088 }, "pca_coordinates": { "x": -3.459576368331909, "y": -2.4702343940734863, "z": -2.0967650413513184 }, "axis_scores": { "Quantum imaging": 0.6917415857315063, "Quantum Life Science Sensing": 0.6885455250740051, "Quantum sensing Detection": 0.6707194447517395, "Quantum sensing Metrology": 0.642322301864624, "Quantum sensing navigation": 0.6539328098297119, "Quantum sensing Position": 0.6362795829772949, "Quantum sensing Timing": 0.6453301906585693, "Quantum sensing": 0.6887097358703613, "Quantum control": 0.6732401251792908 } }, { "id": 4920, "title": "Origin of the Substitution Mechanism for the Binding of Organic Ligands on the Surface of CsPbBr3 Perovskite Nanocubes", "abstract": "Optoelectronic properties of CsPbBr3 perovskite nanocubes (NCs) depend strongly on the interaction of the organic passivating molecules with the inorganic crystal. To understand this interaction, we e...", "citations": 367, "author_count": 9, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4927, "doi": "10.1021/acs.jpclett.7b02192", "umap_coordinates": { "x": 391.3699951171875, "y": 134.48350524902344, "z": 205.69796752929688 }, "tsne_coordinates": { "x": 18.71668815612793, "y": -1.1155600547790527, "z": -17.35108757019043 }, "pca_coordinates": { "x": -2.9049997329711914, "y": -2.2271032333374023, "z": -3.188150644302368 }, "axis_scores": { "Quantum imaging": 0.6714407205581665, "Quantum Life Science Sensing": 0.6883491277694702, "Quantum sensing Detection": 0.6737855076789856, "Quantum sensing Metrology": 0.6490046381950378, "Quantum sensing navigation": 0.6751744151115417, "Quantum sensing Position": 0.6754537224769592, "Quantum sensing Timing": 0.6715147495269775, "Quantum sensing": 0.6796432137489319, "Quantum control": 0.662197470664978 } }, { "id": 4921, "title": "Ultrasensitive Inertial and Force Sensors with Diamagnetically Levitated Magnets", "abstract": "We theoretically show that a magnet can be stably levitated on top of a punctured superconductor sheet in the Meissner state without applying any external field. The trapping potential created by such...", "citations": 54, "author_count": 6, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4928, "doi": "10.1103/PhysRevApplied.8.034002", "umap_coordinates": { "x": 394.7274475097656, "y": 135.9237060546875, "z": 207.74745178222656 }, "tsne_coordinates": { "x": -13.294450759887695, "y": -35.63836669921875, "z": 21.099529266357422 }, "pca_coordinates": { "x": 3.0999317169189453, "y": -0.4977579116821289, "z": 0.11223024129867554 }, "axis_scores": { "Quantum imaging": 0.725906252861023, "Quantum Life Science Sensing": 0.758007287979126, "Quantum sensing Detection": 0.7378851175308228, "Quantum sensing Metrology": 0.7419465184211731, "Quantum sensing navigation": 0.7347701787948608, "Quantum sensing Position": 0.7393894791603088, "Quantum sensing Timing": 0.6961413025856018, "Quantum sensing": 0.7476040124893188, "Quantum control": 0.6922236084938049 } }, { "id": 4922, "title": "Measurements of Zγ and Zγγ production in pp collisions at √s=8 TeV with the ATLAS detector", "abstract": "The production of Z bosons with one or two isolated high-energy photons is studied using pp collisions at root s = 8 TeV. The analyses use a data sample with an integrated luminosity of 20.3 fb(-1) co...", "citations": 30, "author_count": 2665, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4929, "doi": "10.1103/PhysRevD.93.112002", "umap_coordinates": { "x": 396.7039794921875, "y": 134.47264099121094, "z": 207.64120483398438 }, "tsne_coordinates": { "x": -38.63618850708008, "y": 7.974119186401367, "z": -11.306774139404297 }, "pca_coordinates": { "x": 2.2880136966705322, "y": 0.08178043365478516, "z": 2.8298330307006836 }, "axis_scores": { "Quantum imaging": 0.6983445882797241, "Quantum Life Science Sensing": 0.703983724117279, "Quantum sensing Detection": 0.7107095718383789, "Quantum sensing Metrology": 0.6955314874649048, "Quantum sensing navigation": 0.707584798336029, "Quantum sensing Position": 0.7039784789085388, "Quantum sensing Timing": 0.7107007503509521, "Quantum sensing": 0.7098739147186279, "Quantum control": 0.674249529838562 } }, { "id": 4923, "title": "General strategy for boosting the performance of speed-tunable rotary molecular motors with visible light", "abstract": "Light-driven molecular rotary motors perform chirality-controlled unidirectional rotations fueled by light and heat. This unique function renders them appealing for the construction of dynamic molecul...", "citations": 8, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4930, "doi": "10.1126/sciadv.adr9326", "umap_coordinates": { "x": 393.91326904296875, "y": 135.8601837158203, "z": 205.376708984375 }, "tsne_coordinates": { "x": -10.073392868041992, "y": -3.51121187210083, "z": 4.890506744384766 }, "pca_coordinates": { "x": -1.665454626083374, "y": 0.6823117733001709, "z": 0.690376341342926 }, "axis_scores": { "Quantum imaging": 0.680867612361908, "Quantum Life Science Sensing": 0.6788477897644043, "Quantum sensing Detection": 0.6685566306114197, "Quantum sensing Metrology": 0.6769620180130005, "Quantum sensing navigation": 0.7075520753860474, "Quantum sensing Position": 0.66513592004776, "Quantum sensing Timing": 0.6478997468948364, "Quantum sensing": 0.6823117136955261, "Quantum control": 0.695806086063385 } }, { "id": 4924, "title": "Change in the emission saturation and kinetics of upconversion nanoparticles under different light irradiations", "abstract": "Nd3+-sensitized upconversion nanoparticles (UCNPs) can be excited by both 980 and 808 nm light, which is regarded as a particularly advantageous property of these particles. In this work, we demonstra...", "citations": 4, "author_count": 10, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4931, "doi": "10.1016/j.optmat.2019.109389", "umap_coordinates": { "x": 393.7024841308594, "y": 134.41334533691406, "z": 205.30128479003906 }, "tsne_coordinates": { "x": 11.619341850280762, "y": 8.430585861206055, "z": 1.335857629776001 }, "pca_coordinates": { "x": -3.78914737701416, "y": -0.7954907417297363, "z": -0.061985552310943604 }, "axis_scores": { "Quantum imaging": 0.7427170276641846, "Quantum Life Science Sensing": 0.7631129622459412, "Quantum sensing Detection": 0.7349140644073486, "Quantum sensing Metrology": 0.7171000242233276, "Quantum sensing navigation": 0.7069929242134094, "Quantum sensing Position": 0.7002972960472107, "Quantum sensing Timing": 0.6906521320343018, "Quantum sensing": 0.7370811700820923, "Quantum control": 0.6966081857681274 } }, { "id": 4925, "title": "Highly Efficient Ruddlesden-Popper Halide Perovskite PA2MA4Pb5I16 Solar Cells", "abstract": "Two-dimensional (2D) Ruddlesden-Popper (RP) organic-inorganic perovskites have emerged as promising candidates for solar cells with technologically relevant stability. Herein, a new RP perovskite, the...", "citations": 151, "author_count": 11, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4932, "doi": "10.1021/acsenergylett.8b01153", "umap_coordinates": { "x": 391.57965087890625, "y": 133.7140655517578, "z": 205.31414794921875 }, "tsne_coordinates": { "x": 19.01331329345703, "y": -2.7545928955078125, "z": -21.182647705078125 }, "pca_coordinates": { "x": -2.7321114540100098, "y": -3.8459177017211914, "z": -1.1477372646331787 }, "axis_scores": { "Quantum imaging": 0.6608975529670715, "Quantum Life Science Sensing": 0.6823607683181763, "Quantum sensing Detection": 0.6459683179855347, "Quantum sensing Metrology": 0.6457705497741699, "Quantum sensing navigation": 0.630512535572052, "Quantum sensing Position": 0.6203625202178955, "Quantum sensing Timing": 0.6126258373260498, "Quantum sensing": 0.6646419763565063, "Quantum control": 0.6421539187431335 } }, { "id": 4926, "title": "Coherent X-rays reveal the influence of cage effects on ultrafast water dynamics", "abstract": "The dynamics of liquid water feature a variety of time scales, ranging from extremely fast ballistic-like thermal motion, to slower molecular diffusion and hydrogen-bond rearrangements. Here, we utili...", "citations": 78, "author_count": 30, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4933, "doi": "10.1038/s41467-018-04330-5", "umap_coordinates": { "x": 393.1421813964844, "y": 136.26113891601562, "z": 206.51536560058594 }, "tsne_coordinates": { "x": 0.976839542388916, "y": 2.0157604217529297, "z": 27.235179901123047 }, "pca_coordinates": { "x": 0.0456317663192749, "y": 1.1088652610778809, "z": -1.6668875217437744 }, "axis_scores": { "Quantum imaging": 0.7604052424430847, "Quantum Life Science Sensing": 0.7660359144210815, "Quantum sensing Detection": 0.7190289497375488, "Quantum sensing Metrology": 0.6853561997413635, "Quantum sensing navigation": 0.7275379300117493, "Quantum sensing Position": 0.702465295791626, "Quantum sensing Timing": 0.6956676840782166, "Quantum sensing": 0.7348200082778931, "Quantum control": 0.7303633093833923 } }, { "id": 4927, "title": "On the magnetic ordering in interleaved Fe(3 ML)/V(y ML)/Fe(2 ML)/V(y ML) superlattices", "abstract": "The magnetic properties of superlattice films with alternating Fe thicknesses, Fe(3 ML)/V(y ML)/Fe(2 ML)/V(y ML) with 4 less than or equal to y less than or equal to 15, prepared by do magnetron sputt...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4934, "doi": "10.1088/0953-8984/14/47/329", "umap_coordinates": { "x": 392.895751953125, "y": 136.5684814453125, "z": 208.2272186279297 }, "tsne_coordinates": { "x": 12.66706371307373, "y": -28.54957389831543, "z": 19.7382869720459 }, "pca_coordinates": { "x": 1.0134472846984863, "y": 1.4889217615127563, "z": -1.832662582397461 }, "axis_scores": { "Quantum imaging": 0.700478196144104, "Quantum Life Science Sensing": 0.6624695062637329, "Quantum sensing Detection": 0.6454054117202759, "Quantum sensing Metrology": 0.6724994778633118, "Quantum sensing navigation": 0.6690297722816467, "Quantum sensing Position": 0.6621202826499939, "Quantum sensing Timing": 0.6485787630081177, "Quantum sensing": 0.6675997972488403, "Quantum control": 0.65053391456604 } }, { "id": 4928, "title": "Tunneling through a multigrain system: Deducing sample topology from nonlinear conductance - art. no. 125312", "abstract": "We study a current transport through a system of a few grains connected with tunneling links. The exact solution is given for an arbitrarily connected double-grain system with a shared gate in the fra...", "citations": 32, "author_count": 4, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 4935, "doi": "10.1103/PhysRevB.65.125312", "umap_coordinates": { "x": 394.61883544921875, "y": 135.54164123535156, "z": 208.96998596191406 }, "tsne_coordinates": { "x": -0.6331031322479248, "y": -33.9415283203125, "z": 1.4989873170852661 }, "pca_coordinates": { "x": 4.3848958015441895, "y": -0.0021157264709472656, "z": 0.26506727933883667 }, "axis_scores": { "Quantum imaging": 0.691168487071991, "Quantum Life Science Sensing": 0.7126879692077637, "Quantum sensing Detection": 0.6976743936538696, "Quantum sensing Metrology": 0.7106181383132935, "Quantum sensing navigation": 0.7145863771438599, "Quantum sensing Position": 0.6711909770965576, "Quantum sensing Timing": 0.6638880968093872, "Quantum sensing": 0.708238959312439, "Quantum control": 0.6827770471572876 } }, { "id": 4929, "title": "ELECTROREFLECTANCE STUDIES OF INGAAS/GAAS ASYMMETRIC STEP QUANTUM-WELLS", "abstract": "Electroreflectance (ER) spectra of InGaAs/GaAs asymmetric step quantum wells (ASQWS) have been investigated under an applied electric field up to 130 kV cm-1 at 120 and 300 K. From the ER lineshape an...", "citations": 2, "author_count": 8, "categories": [ "Engineering" ], "year": 1993, "topic": [ "all" ], "embedding_index": 4936, "doi": "10.1088/0268-1242/8/10/015", "umap_coordinates": { "x": 393.3860778808594, "y": 134.6716766357422, "z": 207.60572814941406 }, "tsne_coordinates": { "x": 28.871129989624023, "y": -16.22349739074707, "z": 15.66594409942627 }, "pca_coordinates": { "x": 0.23028266429901123, "y": -1.8631620407104492, "z": 1.0981736183166504 }, "axis_scores": { "Quantum imaging": 0.7016127705574036, "Quantum Life Science Sensing": 0.6899503469467163, "Quantum sensing Detection": 0.6709203720092773, "Quantum sensing Metrology": 0.6781914234161377, "Quantum sensing navigation": 0.6827777624130249, "Quantum sensing Position": 0.6912070512771606, "Quantum sensing Timing": 0.667213499546051, "Quantum sensing": 0.6916913986206055, "Quantum control": 0.6592053174972534 } }, { "id": 4930, "title": "Mirror QCD and Cosmological Constant", "abstract": "An analog of Quantum Chromo Dynamics (QCD) sector known as mirror QCD (mQCD) can affect the cosmological evolution due to a non-trivial contribution to the Cosmological Constant analogous to that indu...", "citations": 8, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4937, "doi": "10.3390/universe3020043", "umap_coordinates": { "x": 395.0177307128906, "y": 136.92031860351562, "z": 206.15257263183594 }, "tsne_coordinates": { "x": -34.593597412109375, "y": 16.323171615600586, "z": 9.795591354370117 }, "pca_coordinates": { "x": -0.5041153430938721, "y": 2.643982410430908, "z": -1.951725721359253 }, "axis_scores": { "Quantum imaging": 0.7171257734298706, "Quantum Life Science Sensing": 0.7602007389068604, "Quantum sensing Detection": 0.7112215757369995, "Quantum sensing Metrology": 0.7174016833305359, "Quantum sensing navigation": 0.7305811643600464, "Quantum sensing Position": 0.6959929466247559, "Quantum sensing Timing": 0.6893020272254944, "Quantum sensing": 0.7226598262786865, "Quantum control": 0.7225875854492188 } }, { "id": 4931, "title": "Efficient in situ method to determine radionuclide concentration in soil", "abstract": "A simple realisation of the so-called peak-to-valley method is described combining simulations of photon transport in soil with measured detector properties. Comparisons regarding the total activity o...", "citations": 26, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4938, "doi": "10.1016/j.nima.2005.03.143", "umap_coordinates": { "x": 394.4016418457031, "y": 132.98330688476562, "z": 205.22630310058594 }, "tsne_coordinates": { "x": -16.78413963317871, "y": 20.934993743896484, "z": -11.329761505126953 }, "pca_coordinates": { "x": -3.6979305744171143, "y": 1.4096871614456177, "z": 1.4791221618652344 }, "axis_scores": { "Quantum imaging": 0.7156082391738892, "Quantum Life Science Sensing": 0.7253094911575317, "Quantum sensing Detection": 0.7119703888893127, "Quantum sensing Metrology": 0.7078161239624023, "Quantum sensing navigation": 0.7171571254730225, "Quantum sensing Position": 0.6926320195198059, "Quantum sensing Timing": 0.6860966682434082, "Quantum sensing": 0.715520441532135, "Quantum control": 0.6400925517082214 } }, { "id": 4932, "title": "DUAL SINGLET-STATE EMISSION IN A SERIES OF MINI-CAROTENES", "abstract": "Fluorescence and fluorescence excitation spectra of 77 K glasses and room temperature solutions of a series of compounds homologous to trans-beta-carotene with 5 (mini-5), 7 (mini-7), 9 (mini-9) and 1...", "citations": 74, "author_count": 5, "categories": [ "Optics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 4939, "doi": "10.1016/0022-2313(92)90014-Z", "umap_coordinates": { "x": 392.58294677734375, "y": 135.8364715576172, "z": 205.7053680419922 }, "tsne_coordinates": { "x": -7.957810878753662, "y": 1.189611792564392, "z": 3.669501543045044 }, "pca_coordinates": { "x": -2.2077362537384033, "y": -0.8948698043823242, "z": 0.025516033172607422 }, "axis_scores": { "Quantum imaging": 0.6750866770744324, "Quantum Life Science Sensing": 0.7175146341323853, "Quantum sensing Detection": 0.6836728453636169, "Quantum sensing Metrology": 0.6817662715911865, "Quantum sensing navigation": 0.6664369106292725, "Quantum sensing Position": 0.6525757908821106, "Quantum sensing Timing": 0.6427839994430542, "Quantum sensing": 0.6878232955932617, "Quantum control": 0.627015233039856 } }, { "id": 4933, "title": "Gravitational lensing reveals ionizing ultraviolet photons escaping from a distant galaxy", "abstract": "During the epoch of reionization, neutral gas in the early Universe was ionized by hard ultraviolet radiation emitted by young stars in the first galaxies. To do so, ionizing ultraviolet photons must ...", "citations": 130, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4940, "doi": "10.1126/science.aaw0978", "umap_coordinates": { "x": 395.4267578125, "y": 135.8469696044922, "z": 206.02171325683594 }, "tsne_coordinates": { "x": -40.62751770019531, "y": 12.302084922790527, "z": 11.726277351379395 }, "pca_coordinates": { "x": -0.6177501678466797, "y": 1.1832516193389893, "z": 0.9493893980979919 }, "axis_scores": { "Quantum imaging": 0.695578396320343, "Quantum Life Science Sensing": 0.7303641438484192, "Quantum sensing Detection": 0.6868882775306702, "Quantum sensing Metrology": 0.6696698665618896, "Quantum sensing navigation": 0.7129467725753784, "Quantum sensing Position": 0.6710212826728821, "Quantum sensing Timing": 0.6539538502693176, "Quantum sensing": 0.693017303943634, "Quantum control": 0.6494760513305664 } }, { "id": 4934, "title": "Reaching a Quantum Consensus: Master Equations That Generate Symmetrization and Synchronization", "abstract": "In this paper, we propose and study amaster-equation based approach to drive a quantum network with n qubits to a consensus (symmetric) state introduced by Mazzarella et al. The state evolution of the...", "citations": 35, "author_count": 5, "categories": [ "Automation & Control Systems" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4941, "doi": "10.1109/TAC.2015.2434034", "umap_coordinates": { "x": 394.5462646484375, "y": 136.82789611816406, "z": 207.73556518554688 }, "tsne_coordinates": { "x": -27.009347915649414, "y": -21.46063232421875, "z": 14.933391571044922 }, "pca_coordinates": { "x": 3.1325931549072266, "y": 0.6986908912658691, "z": 0.03505980968475342 }, "axis_scores": { "Quantum imaging": 0.7390884160995483, "Quantum Life Science Sensing": 0.7281498908996582, "Quantum sensing Detection": 0.7566004991531372, "Quantum sensing Metrology": 0.7744579315185547, "Quantum sensing navigation": 0.7580416202545166, "Quantum sensing Position": 0.7273865938186646, "Quantum sensing Timing": 0.760449230670929, "Quantum sensing": 0.7678210735321045, "Quantum control": 0.7723642587661743 } }, { "id": 4935, "title": "Micro/Nano Engineering Advances Next-Generation Flexible X-ray Detectors", "abstract": "The growing demands for X-ray imaging applications impose diverse and stringent requirements on advanced X-ray detectors. Among these, flexibility stands out as the most expected characteristic for ne...", "citations": 15, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4942, "doi": "10.1021/acsnano.4c09554", "umap_coordinates": { "x": 394.029541015625, "y": 133.35386657714844, "z": 205.3586883544922 }, "tsne_coordinates": { "x": -18.61432647705078, "y": 8.058134078979492, "z": -20.349496841430664 }, "pca_coordinates": { "x": -3.2936863899230957, "y": -1.1813933849334717, "z": 1.5383400917053223 }, "axis_scores": { "Quantum imaging": 0.7514735460281372, "Quantum Life Science Sensing": 0.7567390203475952, "Quantum sensing Detection": 0.7418285012245178, "Quantum sensing Metrology": 0.7315996885299683, "Quantum sensing navigation": 0.728255033493042, "Quantum sensing Position": 0.7295418977737427, "Quantum sensing Timing": 0.7095258831977844, "Quantum sensing": 0.7525225877761841, "Quantum control": 0.7086814045906067 } }, { "id": 4936, "title": "Plant-Based Structures as an Opportunity to Engineer Optical Functions in Next-Generation Light Management", "abstract": "This review addresses the reconstruction of structural plant components (cellulose, lignin, and hemicelluloses) into materials displaying advanced optical properties. The strategies to isolate the mai...", "citations": 86, "author_count": 7, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4943, "doi": "10.1002/adma.202104473", "umap_coordinates": { "x": 393.74847412109375, "y": 135.9532012939453, "z": 204.0739288330078 }, "tsne_coordinates": { "x": 18.92791748046875, "y": 35.07821273803711, "z": -5.202340126037598 }, "pca_coordinates": { "x": -2.7788655757904053, "y": 0.07618379592895508, "z": -1.4811768531799316 }, "axis_scores": { "Quantum imaging": 0.6967605352401733, "Quantum Life Science Sensing": 0.736649751663208, "Quantum sensing Detection": 0.6664636731147766, "Quantum sensing Metrology": 0.6803825497627258, "Quantum sensing navigation": 0.6895512342453003, "Quantum sensing Position": 0.6724135875701904, "Quantum sensing Timing": 0.6438024044036865, "Quantum sensing": 0.6834232807159424, "Quantum control": 0.676222026348114 } }, { "id": 4937, "title": "Coordination Environment-Controlled Photoinduced Electron Transfer Quenching in Luminescent Europium Complexes", "abstract": "The quenching of sensitized Eu(III) luminescence by photoinduced electron transfer from the excited light-harvesting antenna to Eu(III) was investigated. A series of complexes incorporating different ...", "citations": 51, "author_count": 8, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4944, "doi": "10.1021/jacs.0c05518", "umap_coordinates": { "x": 392.01629638671875, "y": 135.6341552734375, "z": 205.4684600830078 }, "tsne_coordinates": { "x": 10.554912567138672, "y": -4.497326850891113, "z": -9.621072769165039 }, "pca_coordinates": { "x": -2.4489545822143555, "y": -2.4469680786132812, "z": -3.674089193344116 }, "axis_scores": { "Quantum imaging": 0.7269018888473511, "Quantum Life Science Sensing": 0.7169209718704224, "Quantum sensing Detection": 0.7110299468040466, "Quantum sensing Metrology": 0.6824145317077637, "Quantum sensing navigation": 0.7030476331710815, "Quantum sensing Position": 0.6849625706672668, "Quantum sensing Timing": 0.7006998062133789, "Quantum sensing": 0.7217733263969421, "Quantum control": 0.7379328012466431 } }, { "id": 4938, "title": "Photo-reactivity of dissolved organic carbon in the freshwater continuum", "abstract": "The patterns in dissolved organic carbon (DOC) photo-mineralization along the freshwater continuum from land to sea are poorly known. Specifically, it has not been resolved how the photo-degradation o...", "citations": 20, "author_count": 7, "categories": [ "Environmental Sciences & Ecology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4945, "doi": "10.1007/s00027-019-0653-0", "umap_coordinates": { "x": 393.7545471191406, "y": 135.9725341796875, "z": 204.01626586914062 }, "tsne_coordinates": { "x": 13.190686225891113, "y": 26.691608428955078, "z": 9.71995735168457 }, "pca_coordinates": { "x": -2.421016216278076, "y": 0.8854513168334961, "z": -1.7738878726959229 }, "axis_scores": { "Quantum imaging": 0.6934950351715088, "Quantum Life Science Sensing": 0.7510491013526917, "Quantum sensing Detection": 0.7057409882545471, "Quantum sensing Metrology": 0.6806206107139587, "Quantum sensing navigation": 0.6839907765388489, "Quantum sensing Position": 0.6741995811462402, "Quantum sensing Timing": 0.6495903134346008, "Quantum sensing": 0.7070937156677246, "Quantum control": 0.6862308979034424 } }, { "id": 4939, "title": "Molecular Photoswitching Aided by Excited-State Aromaticity", "abstract": "Central to the development of optoelectronic devices is the availability of efficient synthetic molecular photoswitches, the design of which is an arena where the evolving concept of excited-state aro...", "citations": 38, "author_count": 4, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4946, "doi": "10.1002/cplu.201800307", "umap_coordinates": { "x": 392.2330322265625, "y": 135.8866729736328, "z": 205.25880432128906 }, "tsne_coordinates": { "x": -3.103935480117798, "y": 8.631891250610352, "z": -10.563690185546875 }, "pca_coordinates": { "x": -0.6990647912025452, "y": -0.9834084510803223, "z": -1.37788724899292 }, "axis_scores": { "Quantum imaging": 0.737857460975647, "Quantum Life Science Sensing": 0.7299004793167114, "Quantum sensing Detection": 0.7216362357139587, "Quantum sensing Metrology": 0.6937278509140015, "Quantum sensing navigation": 0.7146084308624268, "Quantum sensing Position": 0.6937353014945984, "Quantum sensing Timing": 0.678634524345398, "Quantum sensing": 0.738990306854248, "Quantum control": 0.7363326549530029 } }, { "id": 4940, "title": "Probing charge- and heat-current noise by frequency-dependent fluctuations in temperature and potential", "abstract": "The energetic properties of electron transport in mesoscopic and nanoscale conductors are of considerable interest at present. Here, we theoretically investigate the possibility of probing charge-and ...", "citations": 13, "author_count": 5, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4947, "doi": "10.1103/PhysRevApplied.10.024007", "umap_coordinates": { "x": 394.8912048339844, "y": 135.9027557373047, "z": 208.05101013183594 }, "tsne_coordinates": { "x": -15.55528736114502, "y": -29.353315353393555, "z": -0.5854528546333313 }, "pca_coordinates": { "x": 3.451529026031494, "y": -0.5442626476287842, "z": 0.12578469514846802 }, "axis_scores": { "Quantum imaging": 0.7175220251083374, "Quantum Life Science Sensing": 0.7680663466453552, "Quantum sensing Detection": 0.7406117916107178, "Quantum sensing Metrology": 0.7202686667442322, "Quantum sensing navigation": 0.7458956837654114, "Quantum sensing Position": 0.7240222692489624, "Quantum sensing Timing": 0.7185313105583191, "Quantum sensing": 0.7507525682449341, "Quantum control": 0.7334631681442261 } }, { "id": 4941, "title": "TiO2 Nanostructures in Biomedicine", "abstract": "The benefits and risks associated with various applications of TiO2 nanostructures in medical devices and therapeutic methods are discussed in this chapter. Different approaches for the fabrication, c...", "citations": 1, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 4948, "doi": "10.1016/bs.abl.2016.05.002", "umap_coordinates": { "x": 393.7117004394531, "y": 134.12559509277344, "z": 204.3526153564453 }, "tsne_coordinates": { "x": 16.121557235717773, "y": 23.517452239990234, "z": -4.564004898071289 }, "pca_coordinates": { "x": -4.354888916015625, "y": -2.0592331886291504, "z": -2.2422101497650146 }, "axis_scores": { "Quantum imaging": 0.7299537658691406, "Quantum Life Science Sensing": 0.7675350904464722, "Quantum sensing Detection": 0.7190337181091309, "Quantum sensing Metrology": 0.7234055995941162, "Quantum sensing navigation": 0.7071453928947449, "Quantum sensing Position": 0.7064533233642578, "Quantum sensing Timing": 0.6821475625038147, "Quantum sensing": 0.7375898957252502, "Quantum control": 0.7049222588539124 } }, { "id": 4942, "title": "Clearing Up Discrepancies in 2D and 3D Nickel Molybdate Hydrate Structures", "abstract": "When electrocatalysts are prepared, modification of the morphology is a common strategy to enhance their electrocatalytic performance. In this work, we have examined and characterized nanorods (3D) an...", "citations": 5, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4949, "doi": "10.1021/acs.inorgchem.3c03261", "umap_coordinates": { "x": 391.9498291015625, "y": 136.7132110595703, "z": 205.86392211914062 }, "tsne_coordinates": { "x": 7.982115268707275, "y": -0.33987361192703247, "z": 3.850795269012451 }, "pca_coordinates": { "x": -0.42832595109939575, "y": 1.07552969455719, "z": -3.912688732147217 }, "axis_scores": { "Quantum imaging": 0.7190355658531189, "Quantum Life Science Sensing": 0.7010036110877991, "Quantum sensing Detection": 0.6820532083511353, "Quantum sensing Metrology": 0.7110651135444641, "Quantum sensing navigation": 0.7046882510185242, "Quantum sensing Position": 0.6914547085762024, "Quantum sensing Timing": 0.6792030930519104, "Quantum sensing": 0.6990996599197388, "Quantum control": 0.6858113408088684 } }, { "id": 4943, "title": "Giant Cross-Kerr Effect for Propagating Microwaves Induced by an Artificial Atom", "abstract": "We investigate the effective interaction between two microwave fields, mediated by a transmon-type superconducting artificial atom which is strongly coupled to a coplanar transmission line. The intera...", "citations": 207, "author_count": 11, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4950, "doi": "10.1103/PhysRevLett.111.053601", "umap_coordinates": { "x": 394.99658203125, "y": 135.79087829589844, "z": 208.27642822265625 }, "tsne_coordinates": { "x": -16.072847366333008, "y": -22.03923988342285, "z": -10.458158493041992 }, "pca_coordinates": { "x": 3.9416580200195312, "y": 0.14605426788330078, "z": 0.4962870478630066 }, "axis_scores": { "Quantum imaging": 0.69309401512146, "Quantum Life Science Sensing": 0.7212314009666443, "Quantum sensing Detection": 0.7103708982467651, "Quantum sensing Metrology": 0.6947585344314575, "Quantum sensing navigation": 0.7088069319725037, "Quantum sensing Position": 0.6732897758483887, "Quantum sensing Timing": 0.6835072636604309, "Quantum sensing": 0.7141638994216919, "Quantum control": 0.6791486740112305 } }, { "id": 4944, "title": "Midrapidity direct-photon production in p+p collisions at √s=200 GeV - art. no. 071102", "abstract": "A measurement of direct photons in p+p collisions at root s=200 GeV is presented. A photon excess above background from pi(0)->gamma+gamma, eta ->gamma+gamma and other decays is observed in the transv...", "citations": 43, "author_count": 331, "categories": [ "Astronomy & Astrophysics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4951, "doi": "10.1103/PhysRevD.71.071102", "umap_coordinates": { "x": 396.4978332519531, "y": 134.76327514648438, "z": 207.8034210205078 }, "tsne_coordinates": { "x": -32.899051666259766, "y": 1.4149223566055298, "z": -14.697967529296875 }, "pca_coordinates": { "x": 1.937316656112671, "y": -0.19128704071044922, "z": 2.046144485473633 }, "axis_scores": { "Quantum imaging": 0.7061148285865784, "Quantum Life Science Sensing": 0.7193325757980347, "Quantum sensing Detection": 0.7177025079727173, "Quantum sensing Metrology": 0.7033296227455139, "Quantum sensing navigation": 0.7107638716697693, "Quantum sensing Position": 0.7139487862586975, "Quantum sensing Timing": 0.6994221210479736, "Quantum sensing": 0.7154611945152283, "Quantum control": 0.6818321347236633 } }, { "id": 4945, "title": "Poor Man's Majorana Tetron", "abstract": "The Majorana tetron is a prototypical topological qubit stemming from the ground-state degeneracy of a superconducting island hosting four Majorana modes. This degeneracy manifests as an effective non...", "citations": 1, "author_count": 8, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4952, "doi": "10.1103/r75t-jv32", "umap_coordinates": { "x": 395.05902099609375, "y": 137.95860290527344, "z": 206.6745147705078 }, "tsne_coordinates": { "x": -2.5996932983398438, "y": 38.040077209472656, "z": 2.2906417846679688 }, "pca_coordinates": { "x": 0.24980878829956055, "y": 4.465368270874023, "z": -0.5453906655311584 }, "axis_scores": { "Quantum imaging": 0.7023967504501343, "Quantum Life Science Sensing": 0.7087907791137695, "Quantum sensing Detection": 0.7107265591621399, "Quantum sensing Metrology": 0.6915315985679626, "Quantum sensing navigation": 0.699467122554779, "Quantum sensing Position": 0.6702750325202942, "Quantum sensing Timing": 0.6758137345314026, "Quantum sensing": 0.7216830253601074, "Quantum control": 0.7010312080383301 } }, { "id": 4946, "title": "Unbounded entropy production and violent fragmentation for repulsive-to-attractive interaction quench in long-range interacting systems", "abstract": "We study the non-equilibrium dynamics of a one-dimensional Bose gas with long-rangeinteractions that decay as(1r alpha)(0.5< alpha <4.0). We investigate exotic dynamics when theinteractions are sudden...", "citations": 7, "author_count": 3, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4953, "doi": "10.1088/1367-2630/ad80b8", "umap_coordinates": { "x": 395.214111328125, "y": 136.72103881835938, "z": 207.71144104003906 }, "tsne_coordinates": { "x": -13.769330978393555, "y": -4.008285045623779, "z": 13.810653686523438 }, "pca_coordinates": { "x": 2.5083165168762207, "y": 2.8019421100616455, "z": -1.6339693069458008 }, "axis_scores": { "Quantum imaging": 0.6562871932983398, "Quantum Life Science Sensing": 0.6496444940567017, "Quantum sensing Detection": 0.6478296518325806, "Quantum sensing Metrology": 0.6131018400192261, "Quantum sensing navigation": 0.627940833568573, "Quantum sensing Position": 0.6021909713745117, "Quantum sensing Timing": 0.615803599357605, "Quantum sensing": 0.6461703181266785, "Quantum control": 0.6432662606239319 } }, { "id": 4947, "title": "Photocatalytic nanoparticles - From membrane interactions to antimicrobial and antiviral effects", "abstract": "As a result of increasing resistance among pathogens against antibiotics and anti-viral therapeutics, nano materials are attracting current interest as antimicrobial agents. Such materials offer trigg...", "citations": 68, "author_count": 3, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4954, "doi": "10.1016/j.cis.2021.102526", "umap_coordinates": { "x": 393.2811584472656, "y": 134.36544799804688, "z": 204.6035919189453 }, "tsne_coordinates": { "x": 21.987356185913086, "y": 21.171222686767578, "z": 5.311128616333008 }, "pca_coordinates": { "x": -4.149167060852051, "y": -1.6528315544128418, "z": -2.1905453205108643 }, "axis_scores": { "Quantum imaging": 0.7046895027160645, "Quantum Life Science Sensing": 0.7396441698074341, "Quantum sensing Detection": 0.6934981346130371, "Quantum sensing Metrology": 0.6882014870643616, "Quantum sensing navigation": 0.687312662601471, "Quantum sensing Position": 0.665107011795044, "Quantum sensing Timing": 0.6426585912704468, "Quantum sensing": 0.7046800851821899, "Quantum control": 0.686958909034729 } }, { "id": 4948, "title": "Structure and dynamics of dense colloidal ellipsoids at the nearest-neighbor length scale", "abstract": "Anisotropic particles are known to exhibit a richer and more complex phase behavior in comparison to their spherical counterpart. While the majority of the existing studies address structural properti...", "citations": 7, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4955, "doi": "10.1103/PhysRevResearch.3.023254", "umap_coordinates": { "x": 394.1144104003906, "y": 136.25889587402344, "z": 208.15199279785156 }, "tsne_coordinates": { "x": 0.4006292521953583, "y": 2.990469217300415, "z": 38.86994934082031 }, "pca_coordinates": { "x": 2.373711347579956, "y": -0.38771677017211914, "z": -2.1621744632720947 }, "axis_scores": { "Quantum imaging": 0.7174966931343079, "Quantum Life Science Sensing": 0.757895827293396, "Quantum sensing Detection": 0.7022051215171814, "Quantum sensing Metrology": 0.7128525972366333, "Quantum sensing navigation": 0.7415154576301575, "Quantum sensing Position": 0.7251944541931152, "Quantum sensing Timing": 0.6653011441230774, "Quantum sensing": 0.7214866876602173, "Quantum control": 0.6967236995697021 } }, { "id": 4949, "title": "Theoretical simulations of oxygen K-edge resonant inelastic x-ray scattering of kaolinite", "abstract": "Near-edge x-ray absorption fine structure (NEXAFS) and resonant inelastic x-ray scattering (RIXS) measurements at the oxygen K edge were combined with theoretical spectrum simulations, based on period...", "citations": 12, "author_count": 13, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4956, "doi": "10.1103/PhysRevB.95.144301", "umap_coordinates": { "x": 394.6978759765625, "y": 135.6423797607422, "z": 208.62713623046875 }, "tsne_coordinates": { "x": 8.685068130493164, "y": -42.592777252197266, "z": 5.111636161804199 }, "pca_coordinates": { "x": 3.5674562454223633, "y": -0.17893457412719727, "z": -0.6868692636489868 }, "axis_scores": { "Quantum imaging": 0.713715136051178, "Quantum Life Science Sensing": 0.7178285121917725, "Quantum sensing Detection": 0.6911629438400269, "Quantum sensing Metrology": 0.6807869672775269, "Quantum sensing navigation": 0.711887776851654, "Quantum sensing Position": 0.6604105830192566, "Quantum sensing Timing": 0.6711900234222412, "Quantum sensing": 0.7086397409439087, "Quantum control": 0.6767438054084778 } }, { "id": 4950, "title": "Development of bright fluorescent quadracyclic adenine analogues: TDDFT-calculation supported rational design", "abstract": "Fluorescent base analogues (FBAs) comprise a family of increasingly important molecules for the investigation of nucleic acid structure and dynamics. We recently reported the quantum chemical calculat...", "citations": 22, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4957, "doi": "10.1038/srep12653", "umap_coordinates": { "x": 392.14697265625, "y": 135.99974060058594, "z": 204.72308349609375 }, "tsne_coordinates": { "x": 4.81820011138916, "y": 9.59478759765625, "z": 1.780571460723877 }, "pca_coordinates": { "x": -2.359982967376709, "y": -0.39401674270629883, "z": -1.30665123462677 }, "axis_scores": { "Quantum imaging": 0.7050985097885132, "Quantum Life Science Sensing": 0.7158202528953552, "Quantum sensing Detection": 0.6919558644294739, "Quantum sensing Metrology": 0.6822435855865479, "Quantum sensing navigation": 0.6955666542053223, "Quantum sensing Position": 0.677116334438324, "Quantum sensing Timing": 0.6949968934059143, "Quantum sensing": 0.7001630067825317, "Quantum control": 0.6860004663467407 } }, { "id": 4951, "title": "Global analysis of quenching of the time-resolved emission of ZnO nanocrystals by adsorbed rhodamine B on the basis of Tachiya theory", "abstract": "Normally dye molecules are adsorbed onto the nanocrystal (NC) surface in dye-NC mixed solution, but it is very unlikely that all dye molecules present in the solution will be attached to NCs. The dist...", "citations": 5, "author_count": 5, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 4958, "doi": "10.1016/j.jphotochem.2014.09.011", "umap_coordinates": { "x": 392.9046325683594, "y": 134.98245239257812, "z": 204.92408752441406 }, "tsne_coordinates": { "x": 17.94618034362793, "y": 13.828202247619629, "z": -2.9404726028442383 }, "pca_coordinates": { "x": -3.2537715435028076, "y": 0.11679506301879883, "z": -1.9749743938446045 }, "axis_scores": { "Quantum imaging": 0.740214467048645, "Quantum Life Science Sensing": 0.7475028038024902, "Quantum sensing Detection": 0.7234538197517395, "Quantum sensing Metrology": 0.7081906795501709, "Quantum sensing navigation": 0.7197058796882629, "Quantum sensing Position": 0.6958837509155273, "Quantum sensing Timing": 0.7071710824966431, "Quantum sensing": 0.7402604222297668, "Quantum control": 0.7184723019599915 } }, { "id": 4952, "title": "Quantum Bidding in Bridge", "abstract": "Quantum methods allow us to reduce communication complexity of some computational tasks, with several separated partners, beyond classical constraints. Nevertheless, experimental demonstrations of thi...", "citations": 36, "author_count": 7, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4959, "doi": "10.1103/PhysRevX.4.021047", "umap_coordinates": { "x": 394.7322082519531, "y": 136.1583251953125, "z": 208.4185028076172 }, "tsne_coordinates": { "x": -16.53028106689453, "y": -19.504871368408203, "z": 3.0797793865203857 }, "pca_coordinates": { "x": 5.047602653503418, "y": 1.307999610900879, "z": -1.1424367427825928 }, "axis_scores": { "Quantum imaging": 0.7381259202957153, "Quantum Life Science Sensing": 0.7205982804298401, "Quantum sensing Detection": 0.7278553247451782, "Quantum sensing Metrology": 0.7067263126373291, "Quantum sensing navigation": 0.742310106754303, "Quantum sensing Position": 0.7181671857833862, "Quantum sensing Timing": 0.7183716893196106, "Quantum sensing": 0.7389014959335327, "Quantum control": 0.7414832711219788 } }, { "id": 4953, "title": "Transfer of vibrational coherence through incoherent energy transfer process in Forster limit", "abstract": "We study transfer of coherent nuclear oscillations between an excitation energy donor and an acceptor in a simple dimeric electronic system coupled to an unstructured thermodynamic bath and some prono...", "citations": 13, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4960, "doi": "10.1139/cjc-2013-0351", "umap_coordinates": { "x": 393.64453125, "y": 136.4218292236328, "z": 206.16322326660156 }, "tsne_coordinates": { "x": 6.991591453552246, "y": -0.9420647621154785, "z": 19.172882080078125 }, "pca_coordinates": { "x": 1.2802338600158691, "y": 1.9242240190505981, "z": -2.0913779735565186 }, "axis_scores": { "Quantum imaging": 0.7118610143661499, "Quantum Life Science Sensing": 0.7116844654083252, "Quantum sensing Detection": 0.6821709871292114, "Quantum sensing Metrology": 0.6624184846878052, "Quantum sensing navigation": 0.6679091453552246, "Quantum sensing Position": 0.6407560110092163, "Quantum sensing Timing": 0.6506363749504089, "Quantum sensing": 0.6881476640701294, "Quantum control": 0.710577130317688 } }, { "id": 4954, "title": "Subpixel x-ray imaging with an energy-resolving detector", "abstract": "The detector pixel size can be a severe limitation in x-ray imaging of fine details in the human body. We demonstrate a method of using spectral x-ray measurements to image the spatial distribution of...", "citations": 5, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4961, "doi": "10.1117/1.JMI.5.1.013507", "umap_coordinates": { "x": 395.310546875, "y": 132.68389892578125, "z": 205.8248291015625 }, "tsne_coordinates": { "x": -9.48440170288086, "y": 14.90206241607666, "z": -20.561887741088867 }, "pca_coordinates": { "x": -1.8178973197937012, "y": 0.5673229694366455, "z": 4.140974044799805 }, "axis_scores": { "Quantum imaging": 0.7404223680496216, "Quantum Life Science Sensing": 0.7132382392883301, "Quantum sensing Detection": 0.7187288999557495, "Quantum sensing Metrology": 0.7192456126213074, "Quantum sensing navigation": 0.6934143900871277, "Quantum sensing Position": 0.6902264356613159, "Quantum sensing Timing": 0.6804431676864624, "Quantum sensing": 0.7179493308067322, "Quantum control": 0.6400312185287476 } }, { "id": 4955, "title": "Copper-based perovskites and perovskite-like halides: A review from the perspective of molecular level", "abstract": "The toxicity of lead and instability are crucial factors hindering the commercialization of lead-based halide perovskite materials. In recent years, copper has been considered as one of the promising ...", "citations": 43, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4962, "doi": "10.1016/j.nanoen.2024.109802", "umap_coordinates": { "x": 393.0826416015625, "y": 134.41775512695312, "z": 205.40261840820312 }, "tsne_coordinates": { "x": 24.193490982055664, "y": 3.7812442779541016, "z": -0.16602018475532532 }, "pca_coordinates": { "x": -1.9520785808563232, "y": -1.5998334884643555, "z": -1.8581488132476807 }, "axis_scores": { "Quantum imaging": 0.7485442757606506, "Quantum Life Science Sensing": 0.7471582889556885, "Quantum sensing Detection": 0.7365708351135254, "Quantum sensing Metrology": 0.7204763293266296, "Quantum sensing navigation": 0.7284984588623047, "Quantum sensing Position": 0.7199211120605469, "Quantum sensing Timing": 0.7002250552177429, "Quantum sensing": 0.7479995489120483, "Quantum control": 0.7437548637390137 } }, { "id": 4956, "title": "Low-Field Microwave-Free Magnetometry Using the Dipolar Spin Relaxation of Quartet Spin States in Silicon Carbide", "abstract": "Paramagnetic defects and nuclear spins are the major sources of magnetic-field-dependent spin relaxation in point-defect quantum bits. The detection of related optical signals has led to the developme...", "citations": 4, "author_count": 6, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 4963, "doi": "10.1103/PhysRevApplied.19.034006", "umap_coordinates": { "x": 393.7610778808594, "y": 135.93316650390625, "z": 207.8334197998047 }, "tsne_coordinates": { "x": 0.33774030208587646, "y": -29.714902877807617, "z": 14.866887092590332 }, "pca_coordinates": { "x": 2.6358022689819336, "y": -0.27740907669067383, "z": -0.7668218016624451 }, "axis_scores": { "Quantum imaging": 0.6977725028991699, "Quantum Life Science Sensing": 0.7457641363143921, "Quantum sensing Detection": 0.7045563459396362, "Quantum sensing Metrology": 0.7064248919487, "Quantum sensing navigation": 0.7061653137207031, "Quantum sensing Position": 0.6677383184432983, "Quantum sensing Timing": 0.673733115196228, "Quantum sensing": 0.7108681797981262, "Quantum control": 0.6713323593139648 } }, { "id": 4957, "title": "Prethermalization and thermalization in periodically driven many-body systems away from the high-frequency limit", "abstract": "We investigate a class of periodically driven many-body systems that allows us to extend the phenomenon of prethermalization to the vicinity of isolated intermediate-to-low drive frequencies away from...", "citations": 11, "author_count": 3, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4964, "doi": "10.1103/PhysRevB.103.L140302", "umap_coordinates": { "x": 394.4356384277344, "y": 136.4654083251953, "z": 208.3062286376953 }, "tsne_coordinates": { "x": -12.217348098754883, "y": -20.45884895324707, "z": 14.533007621765137 }, "pca_coordinates": { "x": 3.18888521194458, "y": 0.28461575508117676, "z": -2.094787359237671 }, "axis_scores": { "Quantum imaging": 0.6777452826499939, "Quantum Life Science Sensing": 0.7115145325660706, "Quantum sensing Detection": 0.6753789186477661, "Quantum sensing Metrology": 0.6786502599716187, "Quantum sensing navigation": 0.666571855545044, "Quantum sensing Position": 0.6568095684051514, "Quantum sensing Timing": 0.6807490587234497, "Quantum sensing": 0.6871852278709412, "Quantum control": 0.6875509023666382 } }, { "id": 4958, "title": "Tuning the Swelling Properties of Smart Multiresponsive Core-Shell Microgels by Copolymerization", "abstract": "The present study focuses on the development of multiresponsive core-shell microgels and the manipulation of their swelling properties by copolymerization of different acrylamides-especially N-isoprop...", "citations": 14, "author_count": 4, "categories": [ "Polymer Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4965, "doi": "10.3390/polym11081269", "umap_coordinates": { "x": 393.0810546875, "y": 134.45516967773438, "z": 204.04739379882812 }, "tsne_coordinates": { "x": 28.2149715423584, "y": 22.201745986938477, "z": -10.989160537719727 }, "pca_coordinates": { "x": -4.057857513427734, "y": -0.7704010009765625, "z": -1.334106683731079 }, "axis_scores": { "Quantum imaging": 0.660318911075592, "Quantum Life Science Sensing": 0.7094683051109314, "Quantum sensing Detection": 0.6595302224159241, "Quantum sensing Metrology": 0.6694898009300232, "Quantum sensing navigation": 0.6466155052185059, "Quantum sensing Position": 0.6233646273612976, "Quantum sensing Timing": 0.6165125370025635, "Quantum sensing": 0.6860335469245911, "Quantum control": 0.6595966219902039 } }, { "id": 4959, "title": "Near-UV Activated, Photostable Nanophosphors for In Vitro Dosimetry and Dynamic Bioimaging", "abstract": "Luminescent rare earth nanoparticles exhibit superior optical stability over commonly-used organic dyes and higher biocompatibility over quantum dots, rendering them advantageous as bioimaging nanopro...", "citations": 12, "author_count": 9, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 4966, "doi": "10.1002/aic.16166", "umap_coordinates": { "x": 393.84197998046875, "y": 133.74761962890625, "z": 204.6261444091797 }, "tsne_coordinates": { "x": 8.284811973571777, "y": 24.70354652404785, "z": -10.656251907348633 }, "pca_coordinates": { "x": -4.166223049163818, "y": -1.4832649230957031, "z": 2.0188257694244385 }, "axis_scores": { "Quantum imaging": 0.7109658718109131, "Quantum Life Science Sensing": 0.7245079874992371, "Quantum sensing Detection": 0.6864873766899109, "Quantum sensing Metrology": 0.6930499076843262, "Quantum sensing navigation": 0.6831029653549194, "Quantum sensing Position": 0.6773778200149536, "Quantum sensing Timing": 0.6834978461265564, "Quantum sensing": 0.7069997787475586, "Quantum control": 0.6631834506988525 } }, { "id": 4960, "title": "Dynamic Properties of the Warm Dense Uniform Electron Gas With the qSTLS Dielectric Scheme", "abstract": "The recently derived Fourier-Matsubara expansion of imaginary-time correlation functions comprises an exact result of linear response theory for finite-temperature quantum many-body systems. In its de...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4967, "doi": "10.1002/ctpp.70014", "umap_coordinates": { "x": 393.6686096191406, "y": 137.22573852539062, "z": 207.085205078125 }, "tsne_coordinates": { "x": -2.830862283706665, "y": -7.245614528656006, "z": 17.900386810302734 }, "pca_coordinates": { "x": 0.04673361778259277, "y": 0.007233858108520508, "z": -1.7617337703704834 }, "axis_scores": { "Quantum imaging": 0.6657995581626892, "Quantum Life Science Sensing": 0.6956821084022522, "Quantum sensing Detection": 0.6510587930679321, "Quantum sensing Metrology": 0.6462398767471313, "Quantum sensing navigation": 0.6617099642753601, "Quantum sensing Position": 0.6514164209365845, "Quantum sensing Timing": 0.6547320485115051, "Quantum sensing": 0.6730552315711975, "Quantum control": 0.6554950475692749 } }, { "id": 4961, "title": "Isomerization dynamics of a novel cis/trans-only merocyanine", "abstract": "Merocyanines (MC) usually adopt ring opened zwitterionic structures that are interconvertible with their ring-closed spiropyran photoisomers. By methylating the phenolate oxygen, and thereby blocking ...", "citations": 1, "author_count": 10, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4968, "doi": "10.1002/cptc.202300327", "umap_coordinates": { "x": 392.2371520996094, "y": 136.37591552734375, "z": 205.88308715820312 }, "tsne_coordinates": { "x": -0.915864109992981, "y": 3.6070120334625244, "z": -1.8624528646469116 }, "pca_coordinates": { "x": -1.9793000221252441, "y": 1.379827618598938, "z": -2.5504157543182373 }, "axis_scores": { "Quantum imaging": 0.7021920680999756, "Quantum Life Science Sensing": 0.7154235243797302, "Quantum sensing Detection": 0.6863256096839905, "Quantum sensing Metrology": 0.6718845367431641, "Quantum sensing navigation": 0.6743515729904175, "Quantum sensing Position": 0.6624559760093689, "Quantum sensing Timing": 0.6773167252540588, "Quantum sensing": 0.685305118560791, "Quantum control": 0.6625428795814514 } }, { "id": 4962, "title": "Final-state-resolved mutual neutralization of Na+ and D-", "abstract": "The present paper reports on a merged-beam experiment on mutual neutralization between Na+ and D-. For this experiment, we have used the DESIREE ion-beams storage-ring facility. The reaction products ...", "citations": 17, "author_count": 11, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4969, "doi": "10.1103/PhysRevA.103.032814", "umap_coordinates": { "x": 395.116455078125, "y": 135.57565307617188, "z": 208.48672485351562 }, "tsne_coordinates": { "x": -9.030058860778809, "y": -8.586188316345215, "z": 2.441277503967285 }, "pca_coordinates": { "x": 2.4529123306274414, "y": 0.10923290252685547, "z": -0.2597890794277191 }, "axis_scores": { "Quantum imaging": 0.7048429250717163, "Quantum Life Science Sensing": 0.7252973318099976, "Quantum sensing Detection": 0.7195178270339966, "Quantum sensing Metrology": 0.7176260948181152, "Quantum sensing navigation": 0.7228754758834839, "Quantum sensing Position": 0.691782534122467, "Quantum sensing Timing": 0.6681592464447021, "Quantum sensing": 0.7262869477272034, "Quantum control": 0.6856983304023743 } }, { "id": 4963, "title": "Evidence for light-by-light scattering in heavy-ion collisions with the ATLAS detector at the LHC", "abstract": "Light-by-light scattering (gamma gamma -> gamma gamma) is a quantum-mechanical process that is forbidden in the classical theory of electrodynamics. This reaction is accessible at the Large Hadron Col...", "citations": 293, "author_count": 2665, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4970, "doi": "10.1038/NPHYS4208", "umap_coordinates": { "x": 396.8799133300781, "y": 134.4495086669922, "z": 207.3376922607422 }, "tsne_coordinates": { "x": -38.520389556884766, "y": 6.192382335662842, "z": -8.274894714355469 }, "pca_coordinates": { "x": -0.1437540054321289, "y": 0.8342845439910889, "z": 1.4433743953704834 }, "axis_scores": { "Quantum imaging": 0.6894186735153198, "Quantum Life Science Sensing": 0.6801792979240417, "Quantum sensing Detection": 0.684017539024353, "Quantum sensing Metrology": 0.6421658992767334, "Quantum sensing navigation": 0.6754551529884338, "Quantum sensing Position": 0.6600177884101868, "Quantum sensing Timing": 0.6808569431304932, "Quantum sensing": 0.6829537749290466, "Quantum control": 0.6477439403533936 } }, { "id": 4964, "title": "Study of attosecond delays using perturbation diagrams and exterior complex scaling", "abstract": "We describe in detail how attosecond delays in laser-assisted photoionization can be computed using perturbation theory based on two-photon matrix elements. Special emphasis is laid on above-threshold...", "citations": 68, "author_count": 3, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 4971, "doi": "10.1088/0953-4075/47/12/124012", "umap_coordinates": { "x": 395.0882873535156, "y": 135.82725524902344, "z": 206.9700469970703 }, "tsne_coordinates": { "x": -13.32559585571289, "y": -18.31804847717285, "z": -21.431665420532227 }, "pca_coordinates": { "x": 0.2071913480758667, "y": 3.1960530281066895, "z": 0.3452180027961731 }, "axis_scores": { "Quantum imaging": 0.6778524518013, "Quantum Life Science Sensing": 0.682121753692627, "Quantum sensing Detection": 0.6629398465156555, "Quantum sensing Metrology": 0.6384856104850769, "Quantum sensing navigation": 0.6742672324180603, "Quantum sensing Position": 0.656690239906311, "Quantum sensing Timing": 0.7151458859443665, "Quantum sensing": 0.6651555299758911, "Quantum control": 0.6755571365356445 } }, { "id": 4965, "title": "Coupled-mode analysis of a resonant channel drop filter using waveguides with mirror boundaries", "abstract": "The operation of resonant channel drop filters is analyzed using coupled-mode theory. The resonator is chosen to support a single standing-wave mode, and, in the ideal case, one can realize 100% in-pl...", "citations": 23, "author_count": 3, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 4972, "doi": "10.1364/JOSAB.23.000104", "umap_coordinates": { "x": 394.3826599121094, "y": 134.44720458984375, "z": 207.1015167236328 }, "tsne_coordinates": { "x": 1.5398929119110107, "y": -12.755919456481934, "z": -33.74345779418945 }, "pca_coordinates": { "x": 0.2748415470123291, "y": 1.1402747631072998, "z": 1.9872145652770996 }, "axis_scores": { "Quantum imaging": 0.7072824239730835, "Quantum Life Science Sensing": 0.6730270385742188, "Quantum sensing Detection": 0.6911708116531372, "Quantum sensing Metrology": 0.7013791799545288, "Quantum sensing navigation": 0.6836697459220886, "Quantum sensing Position": 0.666786789894104, "Quantum sensing Timing": 0.6550962328910828, "Quantum sensing": 0.6983711123466492, "Quantum control": 0.6876182556152344 } }, { "id": 4966, "title": "Investigation of quantum effects on the Bloch electron velocity around closely spaced bands at high electric fields", "abstract": "In conventional Monte Carlo simulations of electron and hole transport in semiconductors, the possibility of electric-field induced interband transitions between scattering events is not taken into ac...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4973, "doi": "10.1063/1.1576306", "umap_coordinates": { "x": 393.8175964355469, "y": 135.36294555664062, "z": 208.57363891601562 }, "tsne_coordinates": { "x": 20.833602905273438, "y": -36.52656173706055, "z": -0.21162472665309906 }, "pca_coordinates": { "x": 3.548964500427246, "y": -0.5687732696533203, "z": 0.3137478232383728 }, "axis_scores": { "Quantum imaging": 0.7000914216041565, "Quantum Life Science Sensing": 0.6883105635643005, "Quantum sensing Detection": 0.6814486980438232, "Quantum sensing Metrology": 0.6805249452590942, "Quantum sensing navigation": 0.7081617712974548, "Quantum sensing Position": 0.7051900625228882, "Quantum sensing Timing": 0.6734462976455688, "Quantum sensing": 0.6986032128334045, "Quantum control": 0.6739441752433777 } }, { "id": 4967, "title": "A theoretical investigation of the physical reason for the very different luminescence properties of the two isomers adenine and 2-aminopurine", "abstract": "The geometry of the ground state and the first singlet excite state of adenine and 2-aminopurine was calculated with three different quantum chemical methods: AM1, CIS/6-31G, and CASSCF/G-31G. Three p...", "citations": 200, "author_count": 2, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 4974, "doi": "10.1021/jp9713625", "umap_coordinates": { "x": 392.280029296875, "y": 136.25711059570312, "z": 204.82984924316406 }, "tsne_coordinates": { "x": 0.657475471496582, "y": 10.035882949829102, "z": -1.193418264389038 }, "pca_coordinates": { "x": -0.5325812101364136, "y": 0.4493674039840698, "z": -0.770246148109436 }, "axis_scores": { "Quantum imaging": 0.7019723653793335, "Quantum Life Science Sensing": 0.7167870402336121, "Quantum sensing Detection": 0.6985554099082947, "Quantum sensing Metrology": 0.6856639385223389, "Quantum sensing navigation": 0.6765338778495789, "Quantum sensing Position": 0.682176947593689, "Quantum sensing Timing": 0.6863653659820557, "Quantum sensing": 0.7141489386558533, "Quantum control": 0.6720728278160095 } }, { "id": 4968, "title": "Starch Derived Nanosized Graphene Oxide Functionalized Bioactive Porous Starch Scaffolds", "abstract": "A fully starch-derived bioactive 3D porous scaffold is developed. The bioactivity is introduced through nanosized graphene oxide (nGO) derived from starch by microwave-assisted degradation to carbon s...", "citations": 40, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4975, "doi": "10.1002/mabi.201600397", "umap_coordinates": { "x": 393.208984375, "y": 134.265625, "z": 204.2685089111328 }, "tsne_coordinates": { "x": 25.834611892700195, "y": 25.088346481323242, "z": -3.1868529319763184 }, "pca_coordinates": { "x": -3.51932430267334, "y": -0.03871965408325195, "z": -1.5112419128417969 }, "axis_scores": { "Quantum imaging": 0.7022936940193176, "Quantum Life Science Sensing": 0.7162864804267883, "Quantum sensing Detection": 0.6803170442581177, "Quantum sensing Metrology": 0.6730040311813354, "Quantum sensing navigation": 0.6981703042984009, "Quantum sensing Position": 0.6537618041038513, "Quantum sensing Timing": 0.6189073324203491, "Quantum sensing": 0.7022356390953064, "Quantum control": 0.6990021467208862 } }, { "id": 4969, "title": "Photoelectric and photorefractive properties of polyvinylcarbazole composites with graphene in the visible spectral range", "abstract": "The photoelectric and photorefractive characteristics of polyvinylcarbazole (PVK) composites with 0.15 wt % graphene at a wavelength of 532 nm have been measured. The dependence of the quantum efficie...", "citations": 5, "author_count": 6, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 4976, "doi": "10.1134/S001814391304005X", "umap_coordinates": { "x": 393.0035095214844, "y": 135.21885681152344, "z": 204.90191650390625 }, "tsne_coordinates": { "x": 7.8903656005859375, "y": 17.89007568359375, "z": -8.31650447845459 }, "pca_coordinates": { "x": -2.7580647468566895, "y": -0.6325948238372803, "z": -0.032093822956085205 }, "axis_scores": { "Quantum imaging": 0.6725687980651855, "Quantum Life Science Sensing": 0.6945618391036987, "Quantum sensing Detection": 0.6586379408836365, "Quantum sensing Metrology": 0.6577891111373901, "Quantum sensing navigation": 0.6537163257598877, "Quantum sensing Position": 0.6450166702270508, "Quantum sensing Timing": 0.6102883815765381, "Quantum sensing": 0.6768319606781006, "Quantum control": 0.6621184349060059 } }, { "id": 4970, "title": "Single-electron transistor of a single organic molecule with access to several redox states", "abstract": "A combination of classical Coulomb charging, electronic level spacings, spin, and vibrational modes determines the single-electron transfer reactions through nanoscale systems connected to external el...", "citations": 838, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4977, "doi": "10.1038/nature02010", "umap_coordinates": { "x": 394.3002624511719, "y": 133.66087341308594, "z": 208.30670166015625 }, "tsne_coordinates": { "x": 8.194845199584961, "y": -27.52151107788086, "z": -16.557479858398438 }, "pca_coordinates": { "x": -0.7857910394668579, "y": -3.232447624206543, "z": 0.45263856649398804 }, "axis_scores": { "Quantum imaging": 0.7004021406173706, "Quantum Life Science Sensing": 0.7380144596099854, "Quantum sensing Detection": 0.7232365608215332, "Quantum sensing Metrology": 0.7031499147415161, "Quantum sensing navigation": 0.7077673673629761, "Quantum sensing Position": 0.6850268840789795, "Quantum sensing Timing": 0.6776055097579956, "Quantum sensing": 0.7312489151954651, "Quantum control": 0.6865164637565613 } }, { "id": 4971, "title": "A new method to fabricate size-selected compound semiconductor nanocrystals: Aerotaxy", "abstract": "A new method of fabrication is proposed to produce compound semiconductor nanocrystals with very narrow size distribution. It utilizes the formation of an aerosol of ultrafine group-III particles and ...", "citations": 38, "author_count": 5, "categories": [ "Crystallography" ], "year": 1996, "topic": [ "all" ], "embedding_index": 4978, "doi": "10.1016/0022-0248(96)00342-9", "umap_coordinates": { "x": 392.7590637207031, "y": 133.9530487060547, "z": 205.9191436767578 }, "tsne_coordinates": { "x": 32.91316604614258, "y": -1.5654479265213013, "z": -6.9984307289123535 }, "pca_coordinates": { "x": -4.014498233795166, "y": -1.5142648220062256, "z": -0.6134365797042847 }, "axis_scores": { "Quantum imaging": 0.6809847354888916, "Quantum Life Science Sensing": 0.7037949562072754, "Quantum sensing Detection": 0.6737591028213501, "Quantum sensing Metrology": 0.6797776222229004, "Quantum sensing navigation": 0.679823100566864, "Quantum sensing Position": 0.6851809024810791, "Quantum sensing Timing": 0.6549826860427856, "Quantum sensing": 0.6910234093666077, "Quantum control": 0.6695937514305115 } }, { "id": 4972, "title": "Robust nonergodicity of the ground states in the β ensemble", "abstract": "In various chaotic quantum many-body systems, the ground states show nontrivial athermal behavior despite the bulk states exhibiting thermalization. Such athermal states play a crucial role in quantum...", "citations": 8, "author_count": 4, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 4979, "doi": "10.1103/PhysRevB.109.064206", "umap_coordinates": { "x": 394.526611328125, "y": 136.55030822753906, "z": 207.83917236328125 }, "tsne_coordinates": { "x": -7.7315545082092285, "y": -12.320943832397461, "z": 12.031035423278809 }, "pca_coordinates": { "x": 3.0988574028015137, "y": 0.13005709648132324, "z": -2.1088504791259766 }, "axis_scores": { "Quantum imaging": 0.6830737590789795, "Quantum Life Science Sensing": 0.735684335231781, "Quantum sensing Detection": 0.6893320679664612, "Quantum sensing Metrology": 0.6642585396766663, "Quantum sensing navigation": 0.7023957371711731, "Quantum sensing Position": 0.6711175441741943, "Quantum sensing Timing": 0.6796721816062927, "Quantum sensing": 0.6979205012321472, "Quantum control": 0.6800291538238525 } }, { "id": 4973, "title": "1D/2D Hybrid Te/Graphene and Te/MoS2: Multifaceted Broadband Photonics and Green", "abstract": "We highlight the enhanced electronic and optical functionalization in the hybrid heterojunction of one-dimensional (1D) tellurene with a two-dimensional (2D) monolayer of graphene and MoS2 in both lat...", "citations": 3, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4980, "doi": "10.1021/acsami.2c13198", "umap_coordinates": { "x": 392.5998229980469, "y": 134.5729522705078, "z": 206.12432861328125 }, "tsne_coordinates": { "x": 23.788436889648438, "y": -11.913618087768555, "z": -16.598609924316406 }, "pca_coordinates": { "x": -1.8799681663513184, "y": -4.014251708984375, "z": -0.659636914730072 }, "axis_scores": { "Quantum imaging": 0.7358338832855225, "Quantum Life Science Sensing": 0.7313264608383179, "Quantum sensing Detection": 0.7209703326225281, "Quantum sensing Metrology": 0.7235317826271057, "Quantum sensing navigation": 0.7005247473716736, "Quantum sensing Position": 0.668708324432373, "Quantum sensing Timing": 0.6815791726112366, "Quantum sensing": 0.7373105883598328, "Quantum control": 0.6911102533340454 } }, { "id": 4974, "title": "Nonlinear absorption and nonlinear refraction: maximizing the merit factors", "abstract": "Both nonlinear absorption and nonlinear refraction are effects that are potentially useful for a plethora of applications in photonics, nanophotonics and biophotonics. Despite substantial attention gi...", "citations": 20, "author_count": 15, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 4981, "doi": "10.1117/12.912236", "umap_coordinates": { "x": 394.7088928222656, "y": 133.28041076660156, "z": 206.50035095214844 }, "tsne_coordinates": { "x": -0.5589439868927002, "y": 8.494820594787598, "z": -27.29941749572754 }, "pca_coordinates": { "x": -1.5701943635940552, "y": 0.24103116989135742, "z": 2.0502755641937256 }, "axis_scores": { "Quantum imaging": 0.6958078742027283, "Quantum Life Science Sensing": 0.6836279630661011, "Quantum sensing Detection": 0.6899663805961609, "Quantum sensing Metrology": 0.7196040749549866, "Quantum sensing navigation": 0.6999151706695557, "Quantum sensing Position": 0.6690412759780884, "Quantum sensing Timing": 0.6533438563346863, "Quantum sensing": 0.7009565234184265, "Quantum control": 0.6642293334007263 } }, { "id": 4975, "title": "Modification of magnetic properties of polyethyleneterephthalate by iron ion implantation", "abstract": "Fe+ ions (40 keV) were implanted into polyethylenetereplithalate (PET) films with fluences of (0.25-1.5) x 10(17) cm(-2). Magnetic properties of the synthesised Fe:PET composites were studied using su...", "citations": 10, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4982, "doi": "10.1016/j.nimb.2007.01.067", "umap_coordinates": { "x": 394.27154541015625, "y": 133.18409729003906, "z": 205.22361755371094 }, "tsne_coordinates": { "x": -19.13413429260254, "y": 22.834421157836914, "z": -10.728499412536621 }, "pca_coordinates": { "x": -2.4094858169555664, "y": 1.345350980758667, "z": -1.4982918500900269 }, "axis_scores": { "Quantum imaging": 0.7163884043693542, "Quantum Life Science Sensing": 0.7216941118240356, "Quantum sensing Detection": 0.6923842430114746, "Quantum sensing Metrology": 0.6909450888633728, "Quantum sensing navigation": 0.6868881583213806, "Quantum sensing Position": 0.6798429489135742, "Quantum sensing Timing": 0.6596070528030396, "Quantum sensing": 0.698344886302948, "Quantum control": 0.6669115424156189 } }, { "id": 4976, "title": "Nodule detection in digital chest radiography: Effect of nodule location", "abstract": "Most detection studies in chest radiography treat the entire chest image as a single background or divided Into the two regions parenchyma and mediastinum. However, the different parts of the lung sho...", "citations": 31, "author_count": 8, "categories": [ "Environmental Sciences & Ecology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4983, "doi": "10.1093/rpd/nch524", "umap_coordinates": { "x": 395.5491943359375, "y": 132.98672485351562, "z": 205.01571655273438 }, "tsne_coordinates": { "x": -4.8838701248168945, "y": 34.55410385131836, "z": -18.612619400024414 }, "pca_coordinates": { "x": -2.731381416320801, "y": 3.6167194843292236, "z": 0.9773086905479431 }, "axis_scores": { "Quantum imaging": 0.6812887191772461, "Quantum Life Science Sensing": 0.6599634885787964, "Quantum sensing Detection": 0.6943933367729187, "Quantum sensing Metrology": 0.6515103578567505, "Quantum sensing navigation": 0.672095537185669, "Quantum sensing Position": 0.7124468684196472, "Quantum sensing Timing": 0.6726144552230835, "Quantum sensing": 0.6764285564422607, "Quantum control": 0.6509748697280884 } }, { "id": 4977, "title": "Is photosynthetic acclimation to low temperature controlled by capacities for storage and growth at low temperature?: Results from comparative studies of grasses and trees", "abstract": "The ability of warm-grown leaves to acclimate their photosynthetic machinery to low, non-freezing temperature was compared for contrasting species of grasses and trees. All trees (Betula pubescens, Sa...", "citations": 18, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 2003, "topic": [ "all" ], "embedding_index": 4984, "doi": "10.1034/j.1399-3054.2003.00164.x", "umap_coordinates": { "x": 394.3309631347656, "y": 136.21142578125, "z": 203.6370849609375 }, "tsne_coordinates": { "x": 10.15909194946289, "y": 36.128173828125, "z": 14.415809631347656 }, "pca_coordinates": { "x": -1.0860792398452759, "y": 2.4897823333740234, "z": -1.68829345703125 }, "axis_scores": { "Quantum imaging": 0.670837938785553, "Quantum Life Science Sensing": 0.7131355404853821, "Quantum sensing Detection": 0.6722603440284729, "Quantum sensing Metrology": 0.6692953109741211, "Quantum sensing navigation": 0.6668429970741272, "Quantum sensing Position": 0.6691573858261108, "Quantum sensing Timing": 0.687658965587616, "Quantum sensing": 0.691161572933197, "Quantum control": 0.6826198697090149 } }, { "id": 4978, "title": "Interplay of one-and two-step channels in electrovibrational two-photon absorption", "abstract": "We present a theory of two-photon absorption that addresses the formation of spectral shapes taking the vibrational degrees of freedom into account. The theory is used to rationalize the observed diff...", "citations": 29, "author_count": 5, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 4985, "doi": "10.1021/jp0536100", "umap_coordinates": { "x": 392.7061767578125, "y": 135.9967803955078, "z": 206.25453186035156 }, "tsne_coordinates": { "x": -0.330892950296402, "y": -0.22707247734069824, "z": 5.495911598205566 }, "pca_coordinates": { "x": -0.4724302887916565, "y": -1.307328701019287, "z": -0.004875540733337402 }, "axis_scores": { "Quantum imaging": 0.7268705368041992, "Quantum Life Science Sensing": 0.7036393880844116, "Quantum sensing Detection": 0.7112156748771667, "Quantum sensing Metrology": 0.6805053353309631, "Quantum sensing navigation": 0.6888032555580139, "Quantum sensing Position": 0.670638918876648, "Quantum sensing Timing": 0.6898006200790405, "Quantum sensing": 0.7198413610458374, "Quantum control": 0.6768495440483093 } }, { "id": 4979, "title": "Excited State Dynamics of Bistridentate and Trisbidentate RuII Complexes of Quinoline-Pyrazole Ligands", "abstract": "Three homoleptic ruthenium(II) complexes, [Ru(Q3PzH)(3)](2+), [Ru(Q1Pz)(3)](2+), and [Ru(DQPz)(2)](2+), based on the quinoline-pyrazole ligands, Q3PzH (8-(3-pyrazole)-quinoline), Q1Pz (8-(1-pyrazole)-...", "citations": 8, "author_count": 8, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4986, "doi": "10.1021/acs.inorgchem.9b01543", "umap_coordinates": { "x": 391.9280090332031, "y": 136.1854248046875, "z": 205.8007354736328 }, "tsne_coordinates": { "x": 4.818929195404053, "y": -5.670791149139404, "z": -20.709850311279297 }, "pca_coordinates": { "x": -0.4586644172668457, "y": -3.3190479278564453, "z": -4.85807466506958 }, "axis_scores": { "Quantum imaging": 0.7302554249763489, "Quantum Life Science Sensing": 0.7315544486045837, "Quantum sensing Detection": 0.709484875202179, "Quantum sensing Metrology": 0.6959419846534729, "Quantum sensing navigation": 0.7066687345504761, "Quantum sensing Position": 0.6893748641014099, "Quantum sensing Timing": 0.6868457198143005, "Quantum sensing": 0.719994306564331, "Quantum control": 0.7101307511329651 } }, { "id": 4980, "title": "It's a trap! On the nature of localised states and charge trapping in lead halide perovskites", "abstract": "The recent surge of scientific interest for lead halide perovskite semiconductors and optoelectronic devices has seen a mix of materials science sub-fields converge on the same magical crystal structu...", "citations": 509, "author_count": 8, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 4987, "doi": "10.1039/c9mh00500e", "umap_coordinates": { "x": 391.52093505859375, "y": 135.0572052001953, "z": 205.74835205078125 }, "tsne_coordinates": { "x": 14.300483703613281, "y": -6.449808120727539, "z": -19.586959838867188 }, "pca_coordinates": { "x": -0.08051919937133789, "y": -0.23781156539916992, "z": -3.555126667022705 }, "axis_scores": { "Quantum imaging": 0.6812446117401123, "Quantum Life Science Sensing": 0.6833531856536865, "Quantum sensing Detection": 0.6706080436706543, "Quantum sensing Metrology": 0.6625989675521851, "Quantum sensing navigation": 0.6698995232582092, "Quantum sensing Position": 0.6956323385238647, "Quantum sensing Timing": 0.6425083875656128, "Quantum sensing": 0.6823861598968506, "Quantum control": 0.6795865893363953 } }, { "id": 4981, "title": "Construction of SnS2-SnO2 heterojunctions decorated on graphene nanosheets with enhanced visible-light photocatalytic performance", "abstract": "Heterostructures formed by the growth of one kind of nanomaterial in/on another have attracted increasing attention due to their microstructural characteristics and potential applications. In this wor...", "citations": 8, "author_count": 11, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 4988, "doi": "10.1107/S2053229619006399", "umap_coordinates": { "x": 392.22662353515625, "y": 133.60238647460938, "z": 205.18263244628906 }, "tsne_coordinates": { "x": 22.660547256469727, "y": 0.16591200232505798, "z": -6.380589962005615 }, "pca_coordinates": { "x": -2.119584083557129, "y": -4.097893238067627, "z": 1.0044355392456055 }, "axis_scores": { "Quantum imaging": 0.633390486240387, "Quantum Life Science Sensing": 0.6764354705810547, "Quantum sensing Detection": 0.6489887237548828, "Quantum sensing Metrology": 0.6507900357246399, "Quantum sensing navigation": 0.6606047749519348, "Quantum sensing Position": 0.6241769790649414, "Quantum sensing Timing": 0.6170037388801575, "Quantum sensing": 0.6672425866127014, "Quantum control": 0.644722580909729 } }, { "id": 4982, "title": "Role of the Bridging Group in Bis-Pyridyl Ligands: Enhancing Both the Photo- and Electroluminescent Features of Cationic (IPr) CuI Complexes", "abstract": "We report on the benefits of changing the bridging group X of bis-pyridyl ligands, that is, Py-X-Py where X is NH, CH2, C(CH3)(2), or PPh, on the photo-and electroluminescent properties of a new famil...", "citations": 42, "author_count": 12, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4989, "doi": "10.1002/chem.201703270", "umap_coordinates": { "x": 392.2674560546875, "y": 135.67955017089844, "z": 204.66851806640625 }, "tsne_coordinates": { "x": 6.982014179229736, "y": 8.559353828430176, "z": -11.984610557556152 }, "pca_coordinates": { "x": -3.5946156978607178, "y": -1.5804572105407715, "z": -1.7607309818267822 }, "axis_scores": { "Quantum imaging": 0.7347452044487, "Quantum Life Science Sensing": 0.7047324180603027, "Quantum sensing Detection": 0.6955347657203674, "Quantum sensing Metrology": 0.6842653155326843, "Quantum sensing navigation": 0.6721421480178833, "Quantum sensing Position": 0.6850961446762085, "Quantum sensing Timing": 0.6800352334976196, "Quantum sensing": 0.712323784828186, "Quantum control": 0.7059717178344727 } }, { "id": 4983, "title": "Structural and ferromagnetic properties of Cu-doped GaN", "abstract": "The wurtzite polymorph of GaN was calcined with CuO in flowing nitrogen. As a result of this processing, both superconducting quantum interference device magnetometry and ferromagnetic resonance studi...", "citations": 19, "author_count": 9, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 4990, "doi": "10.1557/JMR.2007.0168", "umap_coordinates": { "x": 392.7137145996094, "y": 135.8033905029297, "z": 207.9669189453125 }, "tsne_coordinates": { "x": 13.423832893371582, "y": -12.29549789428711, "z": 27.939071655273438 }, "pca_coordinates": { "x": 0.3696190118789673, "y": -0.8834328651428223, "z": -0.38074085116386414 }, "axis_scores": { "Quantum imaging": 0.7185555696487427, "Quantum Life Science Sensing": 0.6996914744377136, "Quantum sensing Detection": 0.6898172497749329, "Quantum sensing Metrology": 0.7124931812286377, "Quantum sensing navigation": 0.7092242240905762, "Quantum sensing Position": 0.6741129755973816, "Quantum sensing Timing": 0.6607741713523865, "Quantum sensing": 0.7045161128044128, "Quantum control": 0.6874736547470093 } }, { "id": 4984, "title": "THE EFFECT OF GUANIDINIUM CHLORIDE ON THE BEHAVIOR OF HUMAN CERVICAL-MUCUS GLYCOPROTEINS - EVIDENCE FOR UNFOLDING REGIONS OF ORDERED STRUCTURE IN 6M-GUANIDINIUM CHLORIDE", "abstract": "The macromolecular properties of cervical-mucus glycoproteins (mucins) were studied as a function of the concentration of guanidinium chloride with conventional light-scattering, photon-correlation sp...", "citations": 30, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1984, "topic": [ "all" ], "embedding_index": 4991, "doi": "10.1042/bj2210499", "umap_coordinates": { "x": 393.87451171875, "y": 135.54356384277344, "z": 205.04295349121094 }, "tsne_coordinates": { "x": 19.999351501464844, "y": 21.241933822631836, "z": 24.691518783569336 }, "pca_coordinates": { "x": -0.8044944405555725, "y": 2.346330404281616, "z": -2.930260181427002 }, "axis_scores": { "Quantum imaging": 0.6500052809715271, "Quantum Life Science Sensing": 0.6970267295837402, "Quantum sensing Detection": 0.652958333492279, "Quantum sensing Metrology": 0.6473191976547241, "Quantum sensing navigation": 0.6740850210189819, "Quantum sensing Position": 0.6579899787902832, "Quantum sensing Timing": 0.6396172046661377, "Quantum sensing": 0.6650711297988892, "Quantum control": 0.659705400466919 } }, { "id": 4985, "title": "Performance of a chip for hybrid pixel detectors with two counters for X-ray imaging", "abstract": "A semiconductor hybrid pixel detector for dynamic X-ray imaging is developed. The detector, called DIXI, consists of a semiconductor sensor mounted onto a readout chip. A detector module with a 500 mu...", "citations": 10, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2004, "topic": [ "all" ], "embedding_index": 4992, "doi": "10.1016/j.nima.2004.06.008", "umap_coordinates": { "x": 395.0227966308594, "y": 132.74586486816406, "z": 205.58653259277344 }, "tsne_coordinates": { "x": -13.567224502563477, "y": 15.442818641662598, "z": -11.440184593200684 }, "pca_coordinates": { "x": -2.715585708618164, "y": 1.5257134437561035, "z": 3.8973164558410645 }, "axis_scores": { "Quantum imaging": 0.7114721536636353, "Quantum Life Science Sensing": 0.672601580619812, "Quantum sensing Detection": 0.6882802248001099, "Quantum sensing Metrology": 0.678335964679718, "Quantum sensing navigation": 0.6636370420455933, "Quantum sensing Position": 0.6662972569465637, "Quantum sensing Timing": 0.6734057068824768, "Quantum sensing": 0.6906511783599854, "Quantum control": 0.6290642619132996 } }, { "id": 4986, "title": "Test of local realism via entangled Λ(Λ)over-bar system", "abstract": "The non-locality of quantum correlations is a fundamental feature of quantum theory. The Bell inequality serves as a benchmark for distinguishing between predictions made by quantum theory and local h...", "citations": 4, "author_count": 608, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 4993, "doi": "10.1038/s41467-025-59498-4", "umap_coordinates": { "x": 395.8237609863281, "y": 136.7748260498047, "z": 206.57286071777344 }, "tsne_coordinates": { "x": -18.507892608642578, "y": -4.077735900878906, "z": 2.5275943279266357 }, "pca_coordinates": { "x": 1.5995044708251953, "y": 3.569854974746704, "z": 0.8662058711051941 }, "axis_scores": { "Quantum imaging": 0.749585747718811, "Quantum Life Science Sensing": 0.7235834002494812, "Quantum sensing Detection": 0.7447800636291504, "Quantum sensing Metrology": 0.7334378957748413, "Quantum sensing navigation": 0.751455545425415, "Quantum sensing Position": 0.7376323342323303, "Quantum sensing Timing": 0.7022383809089661, "Quantum sensing": 0.7545163035392761, "Quantum control": 0.7310577630996704 } }, { "id": 4987, "title": "Valorization of hydrolysis lignin from a spruce-based biorefinery by applying γ-valerolactone treatment", "abstract": "Hydrolysis lignin, i.e., the hydrolysis residue of cellulosic ethanol plants, was extracted with the green solvent gamma-valerolactone (GVL). Treatments at 170-210 C were performed with either non-aci...", "citations": 25, "author_count": 6, "categories": [ "Agriculture" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4994, "doi": "10.1016/j.biortech.2022.127466", "umap_coordinates": { "x": 393.2292175292969, "y": 135.5301971435547, "z": 203.8295135498047 }, "tsne_coordinates": { "x": 22.836166381835938, "y": 32.20586395263672, "z": -0.5759727358818054 }, "pca_coordinates": { "x": -4.3594207763671875, "y": 1.9731732606887817, "z": -0.7292789816856384 }, "axis_scores": { "Quantum imaging": 0.6430928707122803, "Quantum Life Science Sensing": 0.6882197260856628, "Quantum sensing Detection": 0.6388311982154846, "Quantum sensing Metrology": 0.6362793445587158, "Quantum sensing navigation": 0.6398332118988037, "Quantum sensing Position": 0.6180807948112488, "Quantum sensing Timing": 0.6101782321929932, "Quantum sensing": 0.653974711894989, "Quantum control": 0.6460149884223938 } }, { "id": 4988, "title": "Structure and anisotropic dynamics of stimuli responsive colloidal ellipsoids at the nearest neighbor length scale", "abstract": "Stimuli-responsive self-assembly of (an) isotropic colloids has resulted in a plethora of self-assembled structures with potential applications in fabricating smart materials. A lack of detailed under...", "citations": 6, "author_count": 4, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4995, "doi": "10.1016/j.jcis.2022.04.063", "umap_coordinates": { "x": 392.959716796875, "y": 135.04811096191406, "z": 206.2747344970703 }, "tsne_coordinates": { "x": 0.4149085581302643, "y": 3.3365631103515625, "z": 39.188846588134766 }, "pca_coordinates": { "x": -1.747922420501709, "y": -0.709810733795166, "z": -2.2902560234069824 }, "axis_scores": { "Quantum imaging": 0.7261664271354675, "Quantum Life Science Sensing": 0.7376275062561035, "Quantum sensing Detection": 0.6924593448638916, "Quantum sensing Metrology": 0.6967068910598755, "Quantum sensing navigation": 0.7255829572677612, "Quantum sensing Position": 0.7156738638877869, "Quantum sensing Timing": 0.6804707646369934, "Quantum sensing": 0.7159736752510071, "Quantum control": 0.7009195685386658 } }, { "id": 4989, "title": "Hawking radiation and the quantum marginal problem", "abstract": "In 1974 Steven Hawking showed that black holes emit thermal radiation, which eventually causes them to evaporate. The problem of the fate of information in this process is known as the black hole info...", "citations": 3, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 4996, "doi": "10.1088/1475-7516/2022/01/014", "umap_coordinates": { "x": 395.5459899902344, "y": 137.08251953125, "z": 206.06045532226562 }, "tsne_coordinates": { "x": -40.468910217285156, "y": -2.006554126739502, "z": 9.961788177490234 }, "pca_coordinates": { "x": 0.9899032115936279, "y": 5.2801618576049805, "z": 0.13184815645217896 }, "axis_scores": { "Quantum imaging": 0.721504271030426, "Quantum Life Science Sensing": 0.7140814065933228, "Quantum sensing Detection": 0.7008787393569946, "Quantum sensing Metrology": 0.7123048305511475, "Quantum sensing navigation": 0.7319787740707397, "Quantum sensing Position": 0.6941008567810059, "Quantum sensing Timing": 0.6862101554870605, "Quantum sensing": 0.7181695699691772, "Quantum control": 0.6800853610038757 } }, { "id": 4990, "title": "Dual fluorescent immunochromatographic assay for simultaneous quantitative detection of citrinin and zearalenone in corn samples", "abstract": "The presence of multiple mycotoxins in the agricultural products poses a serious threat to the health of humans and animals. Citrinin (CIT) causes slow growth in animals and damages the kidney functio...", "citations": 42, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4997, "doi": "10.1016/j.foodchem.2020.127713", "umap_coordinates": { "x": 393.679931640625, "y": 134.04444885253906, "z": 204.1846923828125 }, "tsne_coordinates": { "x": 18.820371627807617, "y": 21.63259506225586, "z": -12.649214744567871 }, "pca_coordinates": { "x": -5.633641242980957, "y": 1.549534559249878, "z": -0.01783466339111328 }, "axis_scores": { "Quantum imaging": 0.727139949798584, "Quantum Life Science Sensing": 0.7489458322525024, "Quantum sensing Detection": 0.7302009463310242, "Quantum sensing Metrology": 0.7220379114151001, "Quantum sensing navigation": 0.7100247144699097, "Quantum sensing Position": 0.6949071884155273, "Quantum sensing Timing": 0.6995566487312317, "Quantum sensing": 0.734401524066925, "Quantum control": 0.7012975811958313 } }, { "id": 4991, "title": "Imaging multiphoton ionization dynamics of CH3I at a high repetition rate XUV free-electron laser", "abstract": "XUV multiphoton ionization of molecules is commonly used in free-electron laser experiments to study charge transfer dynamics. However, molecular dissociation and electron dynamics, such as multiple p...", "citations": 5, "author_count": 22, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 4998, "doi": "10.1088/1361-6455/abc6bc", "umap_coordinates": { "x": 394.5137023925781, "y": 135.30076599121094, "z": 206.27203369140625 }, "tsne_coordinates": { "x": -22.614511489868164, "y": -7.283483028411865, "z": -20.921449661254883 }, "pca_coordinates": { "x": -0.06831324100494385, "y": 2.023071765899658, "z": 0.5531654953956604 }, "axis_scores": { "Quantum imaging": 0.745591402053833, "Quantum Life Science Sensing": 0.714056134223938, "Quantum sensing Detection": 0.6920352578163147, "Quantum sensing Metrology": 0.6703972220420837, "Quantum sensing navigation": 0.681820273399353, "Quantum sensing Position": 0.6666935682296753, "Quantum sensing Timing": 0.6672847867012024, "Quantum sensing": 0.6999734044075012, "Quantum control": 0.6989346742630005 } }, { "id": 4992, "title": "A computational study of aromaticity and photophysical properties of unsymmetrical azatrioxa[8]circulenes", "abstract": "Owing to their potential use in organic light-emitting diodes and field-effect transistors we present a theoretical study of a series of unsymmetrical azatrioxa[8]circulenes in order to explain the im...", "citations": 14, "author_count": 5, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 4999, "doi": "10.1039/c6nj03925a", "umap_coordinates": { "x": 392.34490966796875, "y": 136.20887756347656, "z": 204.74588012695312 }, "tsne_coordinates": { "x": -1.3456358909606934, "y": 7.72575569152832, "z": 0.9715840816497803 }, "pca_coordinates": { "x": -1.09824800491333, "y": -0.009965896606445312, "z": -1.7191102504730225 }, "axis_scores": { "Quantum imaging": 0.6992439031600952, "Quantum Life Science Sensing": 0.7144676446914673, "Quantum sensing Detection": 0.6790598630905151, "Quantum sensing Metrology": 0.6722403168678284, "Quantum sensing navigation": 0.6889504194259644, "Quantum sensing Position": 0.6601356863975525, "Quantum sensing Timing": 0.6493417024612427, "Quantum sensing": 0.7019383907318115, "Quantum control": 0.6796510219573975 } }, { "id": 4993, "title": "Sub-5-nm lanthanide-doped ZrO2@NaYF4 nanodots as efficient upconverting probes for rapid scanning microscopy and aptamer-mediated bioimaging", "abstract": "Upconversion nanoparticles (UCNPs) is a class of promising probes widely used in protein molecules imaging due to the no photobleaching and non-blinking emission. However, it is still remained challen...", "citations": 8, "author_count": 7, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5000, "doi": "10.1364/OME.5.001759", "umap_coordinates": { "x": 394.15252685546875, "y": 133.84585571289062, "z": 205.57066345214844 }, "tsne_coordinates": { "x": 8.194188117980957, "y": 19.12762451171875, "z": -21.497638702392578 }, "pca_coordinates": { "x": -3.4577701091766357, "y": -0.2703118324279785, "z": 0.3681963086128235 }, "axis_scores": { "Quantum imaging": 0.7293492555618286, "Quantum Life Science Sensing": 0.7193134427070618, "Quantum sensing Detection": 0.7012351751327515, "Quantum sensing Metrology": 0.7065813541412354, "Quantum sensing navigation": 0.7087811231613159, "Quantum sensing Position": 0.6835323572158813, "Quantum sensing Timing": 0.7015770673751831, "Quantum sensing": 0.7188333868980408, "Quantum control": 0.6811181306838989 } }, { "id": 4994, "title": "Application of a new ensemble conserving quantum dynamics simulation algorithm to liquid para-hydrogen and ortho-deuterium", "abstract": "We apply the Feynman-Kleinert Quasi-Classical Wigner (FK-QCW) method developed in our previous work [Smith et al., J. Chem. Phys. 142, 244112 (2015)] for the determination of the dynamic structure fac...", "citations": 25, "author_count": 6, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5001, "doi": "10.1063/1.4922888", "umap_coordinates": { "x": 393.4387512207031, "y": 137.24542236328125, "z": 206.75514221191406 }, "tsne_coordinates": { "x": -10.903763771057129, "y": 1.046217918395996, "z": 32.3745231628418 }, "pca_coordinates": { "x": 0.9930839538574219, "y": 0.35899925231933594, "z": -1.6302425861358643 }, "axis_scores": { "Quantum imaging": 0.7147727608680725, "Quantum Life Science Sensing": 0.7201008796691895, "Quantum sensing Detection": 0.7012208104133606, "Quantum sensing Metrology": 0.6840999722480774, "Quantum sensing navigation": 0.7011674642562866, "Quantum sensing Position": 0.6951025724411011, "Quantum sensing Timing": 0.7187325954437256, "Quantum sensing": 0.7083014249801636, "Quantum control": 0.7013038992881775 } }, { "id": 4995, "title": "Intravital Two-Photon Imaging to Understand Bacterial Infections of the Mammalian Host", "abstract": "Intravital two-photon microscopy (2PM) is an advanced fluorescence based imaging technique that allows for a cinematic study of physiological events occurring within tissues of the live animal. Based ...", "citations": 3, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5002, "doi": "10.1007/978-1-4939-1261-2_5", "umap_coordinates": { "x": 394.5819091796875, "y": 134.27992248535156, "z": 205.0072021484375 }, "tsne_coordinates": { "x": -12.185818672180176, "y": 19.935026168823242, "z": 5.446721076965332 }, "pca_coordinates": { "x": -3.2764081954956055, "y": 2.035454273223877, "z": 2.008500576019287 }, "axis_scores": { "Quantum imaging": 0.751429557800293, "Quantum Life Science Sensing": 0.7287507057189941, "Quantum sensing Detection": 0.7106190919876099, "Quantum sensing Metrology": 0.7191832661628723, "Quantum sensing navigation": 0.716414749622345, "Quantum sensing Position": 0.6954919099807739, "Quantum sensing Timing": 0.6939231157302856, "Quantum sensing": 0.7267712354660034, "Quantum control": 0.6782294511795044 } }, { "id": 4996, "title": "Analysis of surface oxides on narrow bandgap III-V semiconductors leading towards surface leakage free IR photodetectors", "abstract": "Narrow bandgap semiconductors GaSb, InAs, and InSb are important building blocks for infrared photodetectors based on type-II InSb quantum dots or an InAs/GaSb strained layer superlattice. Understandi...", "citations": 2, "author_count": 14, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5003, "doi": "10.1117/12.919334", "umap_coordinates": { "x": 394.04638671875, "y": 133.46067810058594, "z": 206.27178955078125 }, "tsne_coordinates": { "x": 4.3385009765625, "y": 6.9563822746276855, "z": -27.2663631439209 }, "pca_coordinates": { "x": -1.8099391460418701, "y": -1.4566679000854492, "z": 1.1103312969207764 }, "axis_scores": { "Quantum imaging": 0.6876054406166077, "Quantum Life Science Sensing": 0.7168823480606079, "Quantum sensing Detection": 0.6916576027870178, "Quantum sensing Metrology": 0.674296498298645, "Quantum sensing navigation": 0.6787864565849304, "Quantum sensing Position": 0.6497305631637573, "Quantum sensing Timing": 0.6394123435020447, "Quantum sensing": 0.692435622215271, "Quantum control": 0.6525106430053711 } }, { "id": 4997, "title": "Josephson dynamics of bicrystal d-wave YBa2Cu3O7-δ dc-SQUIDs", "abstract": "The properties of YBa2Cu3O7-delta dc-SQUIDs (superconducting quantum interference devices) with 0 degrees-45 degrees grain boundary junctions have been studied. Structures fabricated on two types of b...", "citations": 22, "author_count": 7, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5004, "doi": "10.1103/PhysRevB.74.014503", "umap_coordinates": { "x": 393.55877685546875, "y": 135.79803466796875, "z": 208.5745391845703 }, "tsne_coordinates": { "x": 0.49004682898521423, "y": -20.732421875, "z": 18.239782333374023 }, "pca_coordinates": { "x": 4.293081760406494, "y": -1.882887363433838, "z": -2.1315572261810303 }, "axis_scores": { "Quantum imaging": 0.7152761816978455, "Quantum Life Science Sensing": 0.7248208522796631, "Quantum sensing Detection": 0.7065457105636597, "Quantum sensing Metrology": 0.6972642540931702, "Quantum sensing navigation": 0.7316184639930725, "Quantum sensing Position": 0.6912980079650879, "Quantum sensing Timing": 0.6838070750236511, "Quantum sensing": 0.7156290411949158, "Quantum control": 0.7356348633766174 } }, { "id": 4998, "title": "Comparison of classical and quantum dynamics for collinear cluster scattering -: art. no. 144711", "abstract": "The collinear dynamics of a cluster of four particles colliding with a fixed particle representing a surface is investigated using a four-dimensional wave packet approach. The properties of the system...", "citations": 3, "author_count": 3, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5005, "doi": "10.1063/1.1875072", "umap_coordinates": { "x": 393.9546813964844, "y": 137.2885284423828, "z": 206.8522186279297 }, "tsne_coordinates": { "x": -11.052693367004395, "y": 0.6628183126449585, "z": 27.1193790435791 }, "pca_coordinates": { "x": 3.237224578857422, "y": 1.6514889001846313, "z": 0.6111858487129211 }, "axis_scores": { "Quantum imaging": 0.7283963561058044, "Quantum Life Science Sensing": 0.7210254073143005, "Quantum sensing Detection": 0.7271185517311096, "Quantum sensing Metrology": 0.7274038195610046, "Quantum sensing navigation": 0.7319671511650085, "Quantum sensing Position": 0.7117422223091125, "Quantum sensing Timing": 0.7226485013961792, "Quantum sensing": 0.7309574484825134, "Quantum control": 0.7257635593414307 } }, { "id": 4999, "title": "Evaluation of attenuation corrections using Monte Carlo simulated lung SPECT", "abstract": "SPECT (single photon emission computed tomography) images are distorted by photon attenuation. The effect is complex in the thoracic region due to different tissue densities. This study compares the e...", "citations": 15, "author_count": 7, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5006, "doi": "10.1088/0031-9155/43/8/023", "umap_coordinates": { "x": 395.9533996582031, "y": 133.2375030517578, "z": 205.18405151367188 }, "tsne_coordinates": { "x": -11.2977933883667, "y": 30.320697784423828, "z": -14.405162811279297 }, "pca_coordinates": { "x": -3.233489513397217, "y": 4.090217590332031, "z": 3.575735092163086 }, "axis_scores": { "Quantum imaging": 0.6934890747070312, "Quantum Life Science Sensing": 0.674713134765625, "Quantum sensing Detection": 0.6521450281143188, "Quantum sensing Metrology": 0.6513277888298035, "Quantum sensing navigation": 0.6684381365776062, "Quantum sensing Position": 0.6493299603462219, "Quantum sensing Timing": 0.6353919506072998, "Quantum sensing": 0.6566075086593628, "Quantum control": 0.6268919706344604 } }, { "id": 5000, "title": "High Kinetic Inductance NbN Nanowire Superinductors", "abstract": "We demonstrate that a high kinetic inductance disordered-superconductor nanowire can realize a circuit element-known as a superinductor-with a characteristic impedance greater than the quantum resista...", "citations": 135, "author_count": 4, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5007, "doi": "10.1103/PhysRevApplied.11.044014", "umap_coordinates": { "x": 393.64532470703125, "y": 135.38267517089844, "z": 208.8375701904297 }, "tsne_coordinates": { "x": 5.5923590660095215, "y": -19.1945858001709, "z": -7.875284194946289 }, "pca_coordinates": { "x": 2.669567584991455, "y": -3.512035846710205, "z": 0.7519602179527283 }, "axis_scores": { "Quantum imaging": 0.6822162866592407, "Quantum Life Science Sensing": 0.6918051838874817, "Quantum sensing Detection": 0.6890940070152283, "Quantum sensing Metrology": 0.6797699928283691, "Quantum sensing navigation": 0.7042994499206543, "Quantum sensing Position": 0.6753944158554077, "Quantum sensing Timing": 0.6663333177566528, "Quantum sensing": 0.7036521434783936, "Quantum control": 0.6514198780059814 } }, { "id": 5001, "title": "New rational solutions of Yang-Baxter equation and deformed Yangians", "abstract": "In this paper a new class of quantum groups, deformed Yangians, is used to obtain new matrix rational solutions of the Yang-Baxter equation (YBE). The deformed Yangians arise from rational solutions o...", "citations": 26, "author_count": 3, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5008, "doi": "10.1023/A:1021460515598", "umap_coordinates": { "x": 394.953857421875, "y": 136.75135803222656, "z": 206.19468688964844 }, "tsne_coordinates": { "x": -36.718101501464844, "y": 12.308768272399902, "z": 6.727296352386475 }, "pca_coordinates": { "x": 0.9367835521697998, "y": 0.9490034580230713, "z": -1.0333843231201172 }, "axis_scores": { "Quantum imaging": 0.6759470701217651, "Quantum Life Science Sensing": 0.6663609743118286, "Quantum sensing Detection": 0.6534525156021118, "Quantum sensing Metrology": 0.6693031191825867, "Quantum sensing navigation": 0.6853983998298645, "Quantum sensing Position": 0.6640385389328003, "Quantum sensing Timing": 0.6634960770606995, "Quantum sensing": 0.6699339151382446, "Quantum control": 0.6724249124526978 } }, { "id": 5002, "title": "Mechanical properties of random alloys from quantum mechanical simulations", "abstract": "Today, a direct determination of the mechanical properties of complex alloys from first-principles theory is not feasible. On the other hand, well established phenomenological models exist, which are ...", "citations": 6, "author_count": 3, "categories": [ "Computer Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5009, "doi": null, "umap_coordinates": { "x": 392.1798400878906, "y": 139.31520080566406, "z": 208.87660217285156 }, "tsne_coordinates": { "x": -14.071001052856445, "y": 42.019622802734375, "z": 0.8799445629119873 }, "pca_coordinates": { "x": 2.2575812339782715, "y": 2.399580240249634, "z": -2.679945707321167 }, "axis_scores": { "Quantum imaging": 0.716423511505127, "Quantum Life Science Sensing": 0.724124014377594, "Quantum sensing Detection": 0.6999562978744507, "Quantum sensing Metrology": 0.7174761891365051, "Quantum sensing navigation": 0.7302685379981995, "Quantum sensing Position": 0.7132463455200195, "Quantum sensing Timing": 0.685731828212738, "Quantum sensing": 0.7228184342384338, "Quantum control": 0.7063314318656921 } }, { "id": 5003, "title": "gj factor of an electron bound in a hydrogenlike ion - art. no. 032510", "abstract": "We present a detailed theoretical evaluation far the g(j) factor of a bound electron in hydrogenlike ions up to Z=94. All quantum electrodynamical corrections of order (alpha/pi) are evaluated in deta...", "citations": 120, "author_count": 8, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5010, "doi": "10.1103/PhysRevA.62.032510", "umap_coordinates": { "x": 395.5288391113281, "y": 136.17112731933594, "z": 208.64637756347656 }, "tsne_coordinates": { "x": -7.521350860595703, "y": -11.705493927001953, "z": 0.21464422345161438 }, "pca_coordinates": { "x": 4.075423717498779, "y": 1.5589051246643066, "z": -1.1270846128463745 }, "axis_scores": { "Quantum imaging": 0.6812354326248169, "Quantum Life Science Sensing": 0.7171881198883057, "Quantum sensing Detection": 0.682556688785553, "Quantum sensing Metrology": 0.6832897663116455, "Quantum sensing navigation": 0.7158114910125732, "Quantum sensing Position": 0.6849650740623474, "Quantum sensing Timing": 0.6557542085647583, "Quantum sensing": 0.7000411748886108, "Quantum control": 0.6771843433380127 } }, { "id": 5004, "title": "Dissociative photoionisation of OCS from threshold to 40.8 eV", "abstract": "Energy-analysed photoelectrons have been measured in coincidence with product ions from photoionisation of carbonyl sulphide at 21.21 and 40.8 eV photon energy. Yields of the different products and ki...", "citations": 21, "author_count": 5, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5011, "doi": "10.1016/S1387-3806(98)14254-9", "umap_coordinates": { "x": 394.0474548339844, "y": 135.83599853515625, "z": 205.82467651367188 }, "tsne_coordinates": { "x": -2.771768569946289, "y": -1.3330178260803223, "z": 1.2125557661056519 }, "pca_coordinates": { "x": -2.335022449493408, "y": 1.0260019302368164, "z": -0.6952729821205139 }, "axis_scores": { "Quantum imaging": 0.6713530421257019, "Quantum Life Science Sensing": 0.694847583770752, "Quantum sensing Detection": 0.674074113368988, "Quantum sensing Metrology": 0.6491618156433105, "Quantum sensing navigation": 0.6461895704269409, "Quantum sensing Position": 0.6329402923583984, "Quantum sensing Timing": 0.6456272006034851, "Quantum sensing": 0.6740319728851318, "Quantum control": 0.6389176249504089 } }, { "id": 5005, "title": "Measurement of direct photon production in p+p collisions at √s=200 GeV", "abstract": "Cross sections for midrapidity production of direct photons in p+p collisions at the Relativistic Heavy Ion Collider (RHIC) are reported for transverse momenta of 3 < p(T)< 16 GeV/c. Next-to-leading o...", "citations": 134, "author_count": 332, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5012, "doi": "10.1103/PhysRevLett.98.012002", "umap_coordinates": { "x": 396.4847106933594, "y": 134.65809631347656, "z": 207.6315460205078 }, "tsne_coordinates": { "x": -31.717567443847656, "y": 2.7215590476989746, "z": -15.969836235046387 }, "pca_coordinates": { "x": 2.323030471801758, "y": -0.11801767349243164, "z": 3.8323092460632324 }, "axis_scores": { "Quantum imaging": 0.715325117111206, "Quantum Life Science Sensing": 0.7279495596885681, "Quantum sensing Detection": 0.7507057785987854, "Quantum sensing Metrology": 0.7170141339302063, "Quantum sensing navigation": 0.7146964073181152, "Quantum sensing Position": 0.7360085844993591, "Quantum sensing Timing": 0.7286982536315918, "Quantum sensing": 0.739799439907074, "Quantum control": 0.6837505102157593 } }, { "id": 5006, "title": "Longitudinal magnon in the tetrahedral spin system Cu2Te2O5Br2 near quantum criticality - art. no. 174405", "abstract": "We present a comprehensive study of the coupled tetrahedra compound Cu2Te2O5Br2 by theory and experiments in external magnetic fields. We report the observation of a longitudinal magnon in Raman scatt...", "citations": 55, "author_count": 12, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5013, "doi": "10.1103/PhysRevB.67.174405", "umap_coordinates": { "x": 393.871826171875, "y": 136.33155822753906, "z": 209.1016082763672 }, "tsne_coordinates": { "x": 2.4224932193756104, "y": -38.61455535888672, "z": 6.360777378082275 }, "pca_coordinates": { "x": 3.6939992904663086, "y": -0.49872446060180664, "z": -2.0032060146331787 }, "axis_scores": { "Quantum imaging": 0.7065525054931641, "Quantum Life Science Sensing": 0.7161014080047607, "Quantum sensing Detection": 0.6922563910484314, "Quantum sensing Metrology": 0.7073037624359131, "Quantum sensing navigation": 0.7077659368515015, "Quantum sensing Position": 0.6997867226600647, "Quantum sensing Timing": 0.6948817372322083, "Quantum sensing": 0.7070356011390686, "Quantum control": 0.7074238657951355 } }, { "id": 5007, "title": "Atomic and macroscopic measurements of attosecond pulse trains", "abstract": "We characterize attosecond pulses in a train using both the well established reconstruction of attosecond beating by interference of two-photon transitions (RABITT) technique and the recently demonstr...", "citations": 27, "author_count": 10, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5014, "doi": "10.1103/PhysRevA.80.033836", "umap_coordinates": { "x": 395.32464599609375, "y": 135.67288208007812, "z": 207.44766235351562 }, "tsne_coordinates": { "x": -11.475812911987305, "y": -6.9207377433776855, "z": -8.056709289550781 }, "pca_coordinates": { "x": 2.525482654571533, "y": 0.13806986808776855, "z": 0.8740455508232117 }, "axis_scores": { "Quantum imaging": 0.714674174785614, "Quantum Life Science Sensing": 0.7191966772079468, "Quantum sensing Detection": 0.6959842443466187, "Quantum sensing Metrology": 0.7036973237991333, "Quantum sensing navigation": 0.6811635494232178, "Quantum sensing Position": 0.6677528619766235, "Quantum sensing Timing": 0.7046419382095337, "Quantum sensing": 0.7199907302856445, "Quantum control": 0.6872684955596924 } }, { "id": 5008, "title": "Fractional Angular Momentum in Cold-Atom Systems", "abstract": "The quantum statistics of bosons or fermions are manifest through the even or odd relative angular momentum of a pair. We show theoretically that, under certain conditions, a pair of certain test part...", "citations": 33, "author_count": 5, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5015, "doi": "10.1103/PhysRevLett.113.160404", "umap_coordinates": { "x": 394.1199035644531, "y": 136.55801391601562, "z": 208.23373413085938 }, "tsne_coordinates": { "x": -8.973130226135254, "y": -15.403597831726074, "z": 17.823102951049805 }, "pca_coordinates": { "x": 4.323106288909912, "y": 0.7713193893432617, "z": -1.9905586242675781 }, "axis_scores": { "Quantum imaging": 0.6992470026016235, "Quantum Life Science Sensing": 0.7159906625747681, "Quantum sensing Detection": 0.6949677467346191, "Quantum sensing Metrology": 0.6772608160972595, "Quantum sensing navigation": 0.7133975028991699, "Quantum sensing Position": 0.7027195692062378, "Quantum sensing Timing": 0.703088641166687, "Quantum sensing": 0.7099810242652893, "Quantum control": 0.7125227451324463 } }, { "id": 5009, "title": "Weak first-order quantum phase transition in the spin-tetrahedron system Cu2Te2O5Br2 without lattice contributions", "abstract": "Under pressure the spin tetrahedron system Cu2Te2O5Br2 shows a softening of the collective magnetic mode whereas the energy of local spin-exchange processes increases. This apparent contradiction is d...", "citations": 11, "author_count": 7, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5016, "doi": "10.1103/PhysRevB.83.134403", "umap_coordinates": { "x": 394.0417175292969, "y": 136.1857147216797, "z": 209.24586486816406 }, "tsne_coordinates": { "x": -2.8646647930145264, "y": -40.13142395019531, "z": 8.27631664276123 }, "pca_coordinates": { "x": 3.266685962677002, "y": -0.964693546295166, "z": -2.5095415115356445 }, "axis_scores": { "Quantum imaging": 0.7086463570594788, "Quantum Life Science Sensing": 0.7126431465148926, "Quantum sensing Detection": 0.7179450988769531, "Quantum sensing Metrology": 0.6943615078926086, "Quantum sensing navigation": 0.7073137164115906, "Quantum sensing Position": 0.6691688299179077, "Quantum sensing Timing": 0.6838223934173584, "Quantum sensing": 0.7239702939987183, "Quantum control": 0.7158809304237366 } }, { "id": 5010, "title": "Laser attenuation in falling snow correlated with measurements of snow particle size distribution", "abstract": "We investigate transmission through falling snow using a 3D imaging lidar at 1.56-mu m wavelength. The lidar is based on the time-correlated single-photon counting technique. Experimental transmission...", "citations": 4, "author_count": 4, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5017, "doi": "10.1117/1.OE.60.9.094102", "umap_coordinates": { "x": 395.0330505371094, "y": 133.79205322265625, "z": 205.74496459960938 }, "tsne_coordinates": { "x": -6.053455829620361, "y": 7.327665328979492, "z": -32.04479217529297 }, "pca_coordinates": { "x": -0.5114237070083618, "y": 1.4610570669174194, "z": 1.9257664680480957 }, "axis_scores": { "Quantum imaging": 0.6954529285430908, "Quantum Life Science Sensing": 0.7352144122123718, "Quantum sensing Detection": 0.7054737210273743, "Quantum sensing Metrology": 0.6978477835655212, "Quantum sensing navigation": 0.6981984376907349, "Quantum sensing Position": 0.6998052597045898, "Quantum sensing Timing": 0.670178234577179, "Quantum sensing": 0.7036772966384888, "Quantum control": 0.647646427154541 } }, { "id": 5011, "title": "K+ LMM RESONANT AUGER-SPECTRA OF SOLID KF", "abstract": "The synchrotron-radiation-induced electron emission spectra from evaporated KF films have been measured by varying the photon energy across the K 2p ionization threshold. The excitation of the K 2p el...", "citations": 10, "author_count": 8, "categories": [ "Materials Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 5018, "doi": "10.1103/PhysRevB.50.9079", "umap_coordinates": { "x": 394.5712585449219, "y": 136.35890197753906, "z": 207.43807983398438 }, "tsne_coordinates": { "x": -1.8927216529846191, "y": -11.742804527282715, "z": -5.508663177490234 }, "pca_coordinates": { "x": 3.331958770751953, "y": 0.659276008605957, "z": -1.2918922901153564 }, "axis_scores": { "Quantum imaging": 0.6695859432220459, "Quantum Life Science Sensing": 0.7195737957954407, "Quantum sensing Detection": 0.6800805330276489, "Quantum sensing Metrology": 0.6919953227043152, "Quantum sensing navigation": 0.6613855361938477, "Quantum sensing Position": 0.6684074997901917, "Quantum sensing Timing": 0.6196841597557068, "Quantum sensing": 0.6891493797302246, "Quantum control": 0.6157820224761963 } }, { "id": 5012, "title": "Lession characterization in spectral photon-counting tomosynthesis", "abstract": "It has previously been shown that 2D spectral mammography can be used to discriminate between (likely benign) cystic and (potentially malignant) solid lesions in order to reduce unnecessary recalls in...", "citations": 1, "author_count": 7, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5019, "doi": "10.1117/12.2253966", "umap_coordinates": { "x": 395.6233825683594, "y": 133.10787963867188, "z": 206.03536987304688 }, "tsne_coordinates": { "x": -8.597373008728027, "y": 17.442302703857422, "z": -26.070112228393555 }, "pca_coordinates": { "x": -1.4655816555023193, "y": 2.9114017486572266, "z": 2.6451916694641113 }, "axis_scores": { "Quantum imaging": 0.7459953427314758, "Quantum Life Science Sensing": 0.7325294017791748, "Quantum sensing Detection": 0.7428197264671326, "Quantum sensing Metrology": 0.7379932999610901, "Quantum sensing navigation": 0.7212061285972595, "Quantum sensing Position": 0.7110349535942078, "Quantum sensing Timing": 0.729791522026062, "Quantum sensing": 0.7408139109611511, "Quantum control": 0.6924218535423279 } }, { "id": 5013, "title": "Machine learning interatomic potential for simulations of carbon at extreme conditions", "abstract": "A spectral neighbor analysis (SNAP) machine learning interatomic potential (MLIP) has been developed for simulations of carbon at extreme pressures (up to 5 TPa) and temperatures (up to 20 000 K). Thi...", "citations": 48, "author_count": 9, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5020, "doi": "10.1103/PhysRevB.106.L180101", "umap_coordinates": { "x": 394.61370849609375, "y": 136.6482391357422, "z": 208.24029541015625 }, "tsne_coordinates": { "x": -11.935983657836914, "y": -6.799685478210449, "z": 34.429107666015625 }, "pca_coordinates": { "x": 3.2178969383239746, "y": 0.47187960147857666, "z": -0.7346296310424805 }, "axis_scores": { "Quantum imaging": 0.6928726434707642, "Quantum Life Science Sensing": 0.7393814325332642, "Quantum sensing Detection": 0.6871176958084106, "Quantum sensing Metrology": 0.6986919641494751, "Quantum sensing navigation": 0.6882238984107971, "Quantum sensing Position": 0.678287148475647, "Quantum sensing Timing": 0.6754937171936035, "Quantum sensing": 0.7034294605255127, "Quantum control": 0.6603239178657532 } }, { "id": 5014, "title": "Observation of topological nodal fermion semimetal phase in ZrSiS", "abstract": "Unveiling new topological phases of matter is one of the current objectives in condensed matter physics. Recent experimental discoveries of Dirac and Weyl semimetals prompt the search for other exotic...", "citations": 362, "author_count": 16, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5021, "doi": "10.1103/PhysRevB.93.201104", "umap_coordinates": { "x": 394.0126647949219, "y": 136.3548583984375, "z": 209.0911865234375 }, "tsne_coordinates": { "x": -6.156316757202148, "y": -26.589826583862305, "z": 14.07993221282959 }, "pca_coordinates": { "x": 4.856398105621338, "y": -0.2990610599517822, "z": -1.0379135608673096 }, "axis_scores": { "Quantum imaging": 0.695222795009613, "Quantum Life Science Sensing": 0.6908711791038513, "Quantum sensing Detection": 0.696982741355896, "Quantum sensing Metrology": 0.6855658888816833, "Quantum sensing navigation": 0.714076042175293, "Quantum sensing Position": 0.7078334093093872, "Quantum sensing Timing": 0.6926277279853821, "Quantum sensing": 0.701643705368042, "Quantum control": 0.6587768197059631 } }, { "id": 5015, "title": "Streaming instability in quantum dusty plasmas", "abstract": "By using a quantum hydrodynamic (QHD) model, we derive a generalized dielectric constant for an unmagnetized quantum dusty plasma composed of electrons, ions, and charged dust particulates. Neglecting...", "citations": 89, "author_count": 3, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5022, "doi": "10.1140/epjd/e2006-00232-x", "umap_coordinates": { "x": 394.28741455078125, "y": 136.4525909423828, "z": 206.8855438232422 }, "tsne_coordinates": { "x": -7.724058628082275, "y": -11.96046257019043, "z": 25.130334854125977 }, "pca_coordinates": { "x": 2.2978262901306152, "y": 1.2291560173034668, "z": -2.257589340209961 }, "axis_scores": { "Quantum imaging": 0.6984652280807495, "Quantum Life Science Sensing": 0.7173541188240051, "Quantum sensing Detection": 0.6870449781417847, "Quantum sensing Metrology": 0.658972442150116, "Quantum sensing navigation": 0.696533739566803, "Quantum sensing Position": 0.6757873296737671, "Quantum sensing Timing": 0.6682672500610352, "Quantum sensing": 0.6912679672241211, "Quantum control": 0.7088871002197266 } }, { "id": 5016, "title": "Theoretical Comparison of the Iodine Quantification Accuracy of Two Spectral CT Technologies", "abstract": "We compare the theoretical limits of iodine quantification for the photon counting multibin and dual energy technologies. Dual energy systems by necessity have to make prior assumptions in order to qu...", "citations": 19, "author_count": 3, "categories": [ "Computer Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5023, "doi": "10.1109/TMI.2013.2290198", "umap_coordinates": { "x": 395.1466979980469, "y": 132.724365234375, "z": 205.44857788085938 }, "tsne_coordinates": { "x": -13.372328758239746, "y": 16.399137496948242, "z": -19.13968849182129 }, "pca_coordinates": { "x": -1.777793526649475, "y": 3.564793109893799, "z": 2.889153480529785 }, "axis_scores": { "Quantum imaging": 0.7528337836265564, "Quantum Life Science Sensing": 0.725807785987854, "Quantum sensing Detection": 0.731099545955658, "Quantum sensing Metrology": 0.7304239273071289, "Quantum sensing navigation": 0.703633725643158, "Quantum sensing Position": 0.7029755115509033, "Quantum sensing Timing": 0.7206311821937561, "Quantum sensing": 0.7270328998565674, "Quantum control": 0.6742744445800781 } }, { "id": 5017, "title": "PFCM: Poisson Flow Consistency Models for Low-Dose CT Image Denoising", "abstract": "X-ray computed tomography (CT) is widely used for medical diagnosis and treatment planning; however, concerns about ionizing radiation exposure drive efforts to optimize image quality at lower doses. ...", "citations": 1, "author_count": 5, "categories": [ "Computer Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5024, "doi": "10.1109/TMI.2025.3558019", "umap_coordinates": { "x": 395.30596923828125, "y": 133.0275115966797, "z": 205.53280639648438 }, "tsne_coordinates": { "x": -1.1081335544586182, "y": 19.453365325927734, "z": -15.934000015258789 }, "pca_coordinates": { "x": -1.9742664098739624, "y": 4.255864143371582, "z": 1.303058385848999 }, "axis_scores": { "Quantum imaging": 0.7129027843475342, "Quantum Life Science Sensing": 0.6853213310241699, "Quantum sensing Detection": 0.6767013072967529, "Quantum sensing Metrology": 0.6855120062828064, "Quantum sensing navigation": 0.6781107187271118, "Quantum sensing Position": 0.655704915523529, "Quantum sensing Timing": 0.6905376315116882, "Quantum sensing": 0.680267333984375, "Quantum control": 0.6842806935310364 } }, { "id": 5018, "title": "4D-imaging of drip-line radioactivity by detecting proton emission from 54mNi pictured with ACTAR TPC", "abstract": "Proton radioactivity was discovered exactly 50 years ago. First, this nuclear decay mode sets the limit of existence on the nuclear landscape on the neutron-deficient side. Second, it comprises fundam...", "citations": 15, "author_count": 27, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5025, "doi": "10.1038/s41467-021-24920-0", "umap_coordinates": { "x": 395.588134765625, "y": 133.42320251464844, "z": 204.7185516357422 }, "tsne_coordinates": { "x": 0.03516898676753044, "y": 25.507774353027344, "z": -10.440155982971191 }, "pca_coordinates": { "x": -3.1049370765686035, "y": 3.2604215145111084, "z": 0.930191695690155 }, "axis_scores": { "Quantum imaging": 0.7022210359573364, "Quantum Life Science Sensing": 0.6674402356147766, "Quantum sensing Detection": 0.641448974609375, "Quantum sensing Metrology": 0.6206791996955872, "Quantum sensing navigation": 0.652037501335144, "Quantum sensing Position": 0.6436866521835327, "Quantum sensing Timing": 0.6606616973876953, "Quantum sensing": 0.6502644419670105, "Quantum control": 0.6364171504974365 } }, { "id": 5019, "title": "Hybrid Perovskite Light-Emitting Diodes Based on Perovskite Nanocrystals with Organic-Inorganic Mixed Cations", "abstract": "Organic-inorganic hybrid perovskite materials with mixed cations have demonstrated tremendous advances in photovoltaics recently, by showing a significant enhancement of power conversion efficiency an...", "citations": 292, "author_count": 12, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5026, "doi": "10.1002/adma.201606405", "umap_coordinates": { "x": 392.1691589355469, "y": 133.72381591796875, "z": 205.0594482421875 }, "tsne_coordinates": { "x": 23.18221664428711, "y": 3.5048561096191406, "z": -21.420495986938477 }, "pca_coordinates": { "x": -2.8093090057373047, "y": -3.4485888481140137, "z": 0.43201011419296265 }, "axis_scores": { "Quantum imaging": 0.7055240273475647, "Quantum Life Science Sensing": 0.6904762983322144, "Quantum sensing Detection": 0.6803626418113708, "Quantum sensing Metrology": 0.6819892525672913, "Quantum sensing navigation": 0.6534432768821716, "Quantum sensing Position": 0.6389364004135132, "Quantum sensing Timing": 0.6337159276008606, "Quantum sensing": 0.7035038471221924, "Quantum control": 0.6763225793838501 } }, { "id": 5020, "title": "On the preparation of pure states in resonant microcavities", "abstract": "We consider the time evolution of the radiation field (R) and a two-level atom (A) in a resonant microcavity in terms of the Jaynes - Cummings model with an initial general pure quantum state for the ...", "citations": 12, "author_count": 4, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5027, "doi": "10.1080/0950034031000121731", "umap_coordinates": { "x": 394.3870849609375, "y": 137.12989807128906, "z": 207.51681518554688 }, "tsne_coordinates": { "x": -8.759252548217773, "y": -33.699039459228516, "z": -19.78751564025879 }, "pca_coordinates": { "x": 1.1494426727294922, "y": 0.6109765768051147, "z": -0.8794402480125427 }, "axis_scores": { "Quantum imaging": 0.6903102397918701, "Quantum Life Science Sensing": 0.7051649689674377, "Quantum sensing Detection": 0.6902751922607422, "Quantum sensing Metrology": 0.6996415257453918, "Quantum sensing navigation": 0.7011282444000244, "Quantum sensing Position": 0.6801804900169373, "Quantum sensing Timing": 0.6524300575256348, "Quantum sensing": 0.707965075969696, "Quantum control": 0.6945176124572754 } }, { "id": 5021, "title": "MEASUREMENT OF ABSOLUTE ENERGY-SPECTRA FROM A CLINICAL CT MACHINE UNDER WORKING-CONDITIONS USING A COMPTON SPECTROMETER", "abstract": "Absolute measurements of photon energy spectra (keV-1 sr-1 mA-1 s-1) from a clinical CT machine have been performed under normal working condtions (140 mA tube current) using a Compton spectrometer. T...", "citations": 21, "author_count": 3, "categories": [ "Engineering" ], "year": 1989, "topic": [ "all" ], "embedding_index": 5028, "doi": "10.1088/0031-9155/34/2/005", "umap_coordinates": { "x": 395.9007568359375, "y": 133.20677185058594, "z": 205.39576721191406 }, "tsne_coordinates": { "x": -13.446727752685547, "y": 24.683757781982422, "z": -19.020553588867188 }, "pca_coordinates": { "x": -1.9780364036560059, "y": 4.321943283081055, "z": 3.0871007442474365 }, "axis_scores": { "Quantum imaging": 0.6791021227836609, "Quantum Life Science Sensing": 0.6943938136100769, "Quantum sensing Detection": 0.6819243431091309, "Quantum sensing Metrology": 0.6860310435295105, "Quantum sensing navigation": 0.6454254984855652, "Quantum sensing Position": 0.6794492602348328, "Quantum sensing Timing": 0.6773119568824768, "Quantum sensing": 0.6862386465072632, "Quantum control": 0.6266036629676819 } }, { "id": 5022, "title": "Linear-response study of plasmon excitation in metallic thin films: Layer-dependent hybridization and dispersion - art. no. 155411", "abstract": "We present a theoretical study of collective plasmon excitation in metal thin films using the jellium model. The excitation spectra are calculated in the linear response theory and the time-dependent ...", "citations": 53, "author_count": 3, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5029, "doi": "10.1103/PhysRevB.73.155411", "umap_coordinates": { "x": 393.8669128417969, "y": 135.67198181152344, "z": 209.01797485351562 }, "tsne_coordinates": { "x": -6.306894302368164, "y": -29.378421783447266, "z": 5.763050556182861 }, "pca_coordinates": { "x": 2.0568509101867676, "y": -2.5002236366271973, "z": 0.3790166974067688 }, "axis_scores": { "Quantum imaging": 0.6747894883155823, "Quantum Life Science Sensing": 0.6883306503295898, "Quantum sensing Detection": 0.6891099214553833, "Quantum sensing Metrology": 0.6743795871734619, "Quantum sensing navigation": 0.6760357022285461, "Quantum sensing Position": 0.6718815565109253, "Quantum sensing Timing": 0.6282553672790527, "Quantum sensing": 0.6930059194564819, "Quantum control": 0.64970463514328 } }, { "id": 5023, "title": "Achieving 20.80% Efficiency in Ternary Organic Solar Cells via Suppression of Static and Dynamic Disorder", "abstract": "Suppressing energetic disorder represents a critical pathway toward high-efficiency organic solar cells (OSCs). Herein, a ternary system is successfully developed to regulate the energetic disorder an...", "citations": 1, "author_count": 20, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5030, "doi": "10.1002/adma.202513740", "umap_coordinates": { "x": 392.4764099121094, "y": 133.6537628173828, "z": 205.88551330566406 }, "tsne_coordinates": { "x": 12.96034049987793, "y": 2.5774097442626953, "z": -17.764841079711914 }, "pca_coordinates": { "x": -1.0969948768615723, "y": -2.221294403076172, "z": -1.0292706489562988 }, "axis_scores": { "Quantum imaging": 0.7064213752746582, "Quantum Life Science Sensing": 0.7024726271629333, "Quantum sensing Detection": 0.6940683722496033, "Quantum sensing Metrology": 0.6981717348098755, "Quantum sensing navigation": 0.6922919154167175, "Quantum sensing Position": 0.6663816571235657, "Quantum sensing Timing": 0.6979796886444092, "Quantum sensing": 0.7036168575286865, "Quantum control": 0.7034004926681519 } }, { "id": 5024, "title": "Semiconductor nanocrystals-based triplet-triplet annihilation photon-upconversion: Mechanism, materials and applications", "abstract": "Triplet-triplet annihilation photon upconversion (TTA-UC) has emerged as a promising strategy for enhancing solar energy harvesting efficiency by converting two low-energy, long-wavelength photons int...", "citations": 3, "author_count": 6, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5031, "doi": "10.1002/rpm.20240030", "umap_coordinates": { "x": 393.0315246582031, "y": 134.11048889160156, "z": 205.44537353515625 }, "tsne_coordinates": { "x": 5.803578853607178, "y": 0.21503350138664246, "z": -14.88729190826416 }, "pca_coordinates": { "x": -2.6008105278015137, "y": -1.7770309448242188, "z": 0.4772297739982605 }, "axis_scores": { "Quantum imaging": 0.7233034372329712, "Quantum Life Science Sensing": 0.7351482510566711, "Quantum sensing Detection": 0.7286154627799988, "Quantum sensing Metrology": 0.7116824984550476, "Quantum sensing navigation": 0.7019173502922058, "Quantum sensing Position": 0.6806568503379822, "Quantum sensing Timing": 0.7152876257896423, "Quantum sensing": 0.724476158618927, "Quantum control": 0.707904040813446 } }, { "id": 5025, "title": "Entangled rendezvous: a possible application of Bell non-locality for mobile agents on networks", "abstract": "Rendezvous is an old problem of assuring that two or more parties, initially separated, not knowing the position of each other, and not allowed to communicate, are striving to meet without pre-agreeme...", "citations": 5, "author_count": 2, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5032, "doi": "10.1088/1367-2630/acb22d", "umap_coordinates": { "x": 395.6356201171875, "y": 137.03758239746094, "z": 206.69522094726562 }, "tsne_coordinates": { "x": -28.800214767456055, "y": -6.608447551727295, "z": 3.4706006050109863 }, "pca_coordinates": { "x": 2.7355542182922363, "y": 3.478178024291992, "z": 0.2166234850883484 }, "axis_scores": { "Quantum imaging": 0.7177776098251343, "Quantum Life Science Sensing": 0.6988949775695801, "Quantum sensing Detection": 0.7191042304039001, "Quantum sensing Metrology": 0.696784257888794, "Quantum sensing navigation": 0.7365551590919495, "Quantum sensing Position": 0.7183221578598022, "Quantum sensing Timing": 0.6796625256538391, "Quantum sensing": 0.7184403538703918, "Quantum control": 0.7113364934921265 } }, { "id": 5026, "title": "Buonomano against Bell: Nonergodicity or nonlocality?", "abstract": "The aim of this note is to attract attention of the quantum foundational community to the fact that in Bell's arguments, one cannot distinguish two hypotheses: (a) quantum mechanics is nonlocal, (b) q...", "citations": 6, "author_count": 2, "categories": [ "Computer Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5033, "doi": "10.1142/S021974991740010X", "umap_coordinates": { "x": 395.50152587890625, "y": 137.63644409179688, "z": 206.3162841796875 }, "tsne_coordinates": { "x": -23.792627334594727, "y": 0.14295633137226105, "z": 9.080770492553711 }, "pca_coordinates": { "x": 1.1620573997497559, "y": 3.5683865547180176, "z": -2.561527967453003 }, "axis_scores": { "Quantum imaging": 0.6713171005249023, "Quantum Life Science Sensing": 0.6619857549667358, "Quantum sensing Detection": 0.6700657606124878, "Quantum sensing Metrology": 0.6499745845794678, "Quantum sensing navigation": 0.69117271900177, "Quantum sensing Position": 0.6948785185813904, "Quantum sensing Timing": 0.6689920425415039, "Quantum sensing": 0.6792258024215698, "Quantum control": 0.7057740092277527 } }, { "id": 5027, "title": "Feedback solutions for low crosstalk in dense arrays of high-Tc SQUIDs for on-scalp MEG", "abstract": "Magnetoencephalography (MEG) systems based on a dense array of high critical temperature (high-T-c) superconducting quantum interference devices (SQUIDs) can theoretically outperform a state-of-the-ar...", "citations": 7, "author_count": 8, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5034, "doi": "10.1088/1361-6668/aa65a2", "umap_coordinates": { "x": 394.4034729003906, "y": 134.40023803710938, "z": 205.99827575683594 }, "tsne_coordinates": { "x": -21.568754196166992, "y": 0.7612709999084473, "z": -21.497955322265625 }, "pca_coordinates": { "x": -0.12165749073028564, "y": 0.7307267189025879, "z": 1.5193209648132324 }, "axis_scores": { "Quantum imaging": 0.6508467197418213, "Quantum Life Science Sensing": 0.6466394066810608, "Quantum sensing Detection": 0.6362089514732361, "Quantum sensing Metrology": 0.6622628569602966, "Quantum sensing navigation": 0.6586524844169617, "Quantum sensing Position": 0.6445664167404175, "Quantum sensing Timing": 0.6721137166023254, "Quantum sensing": 0.6520257592201233, "Quantum control": 0.6372032165527344 } }, { "id": 5028, "title": "Experimental observation of anomalous trajectories of single photons", "abstract": "A century after its conception, quantum mechanics still hold surprises that contradict many common sense notions. The contradiction is especially sharp in case one consider trajectories of truly quant...", "citations": 31, "author_count": 9, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5035, "doi": "10.1103/PhysRevA.95.042121", "umap_coordinates": { "x": 395.26416015625, "y": 134.368408203125, "z": 207.95045471191406 }, "tsne_coordinates": { "x": -5.245993137359619, "y": -16.619749069213867, "z": -14.527643203735352 }, "pca_coordinates": { "x": 4.258443832397461, "y": 0.13769865036010742, "z": 3.273113489151001 }, "axis_scores": { "Quantum imaging": 0.736652672290802, "Quantum Life Science Sensing": 0.7421491742134094, "Quantum sensing Detection": 0.7515796422958374, "Quantum sensing Metrology": 0.7213459014892578, "Quantum sensing navigation": 0.7470811605453491, "Quantum sensing Position": 0.7278345823287964, "Quantum sensing Timing": 0.7369191646575928, "Quantum sensing": 0.7476965188980103, "Quantum control": 0.7083969712257385 } }, { "id": 5029, "title": "Shot noise in a harmonically driven ballistic graphene transistor", "abstract": "We study time-dependent electron transport and quantum noise in a ballistic graphene field effect transistor driven by an ac gate potential. The nonlinear response to the ac signal is computed through...", "citations": 6, "author_count": 4, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5036, "doi": "10.1103/PhysRevB.95.165420", "umap_coordinates": { "x": 394.5069885253906, "y": 135.2728729248047, "z": 209.26080322265625 }, "tsne_coordinates": { "x": -5.370058536529541, "y": -32.524166107177734, "z": 1.3912467956542969 }, "pca_coordinates": { "x": 5.338191986083984, "y": -1.8126401901245117, "z": 1.1012837886810303 }, "axis_scores": { "Quantum imaging": 0.7045389413833618, "Quantum Life Science Sensing": 0.721315860748291, "Quantum sensing Detection": 0.7344810962677002, "Quantum sensing Metrology": 0.7107803821563721, "Quantum sensing navigation": 0.74009770154953, "Quantum sensing Position": 0.697381854057312, "Quantum sensing Timing": 0.7052162289619446, "Quantum sensing": 0.7368539571762085, "Quantum control": 0.7176297903060913 } }, { "id": 5030, "title": "Quantum Weak Values and Logic: An Uneasy Couple", "abstract": "Quantum mechanical weak values of projection operators have been used to answer which-way questions, e.g. to trace which arms in a multiple Mach-Zehnder setup a particle may have traversed from a give...", "citations": 8, "author_count": 2, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5037, "doi": "10.1007/s10701-017-0068-5", "umap_coordinates": { "x": 395.35797119140625, "y": 137.0614471435547, "z": 206.2332763671875 }, "tsne_coordinates": { "x": -26.596786499023438, "y": -3.8040413856506348, "z": 7.383060932159424 }, "pca_coordinates": { "x": 1.0065186023712158, "y": 2.5446009635925293, "z": -0.21733957529067993 }, "axis_scores": { "Quantum imaging": 0.7357876896858215, "Quantum Life Science Sensing": 0.7537500262260437, "Quantum sensing Detection": 0.7369894981384277, "Quantum sensing Metrology": 0.7183864712715149, "Quantum sensing navigation": 0.738202691078186, "Quantum sensing Position": 0.7242903113365173, "Quantum sensing Timing": 0.6991959810256958, "Quantum sensing": 0.7472753524780273, "Quantum control": 0.7104862332344055 } }, { "id": 5031, "title": "Lateral-flow technology: From visual to instrumental", "abstract": "Lateral-flow tests were first launched commercially in 1984, as a simple urine-based pregnancy test for home use. The simplicity of the visual readout delivered by the basic lateral-flow format proved...", "citations": 242, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5038, "doi": "10.1016/j.trac.2015.10.017", "umap_coordinates": { "x": 394.7178955078125, "y": 136.1797332763672, "z": 205.22412109375 }, "tsne_coordinates": { "x": -12.570862770080566, "y": -0.8278404474258423, "z": -12.806779861450195 }, "pca_coordinates": { "x": -3.4789164066314697, "y": 3.5680899620056152, "z": 0.6003513932228088 }, "axis_scores": { "Quantum imaging": 0.7512480020523071, "Quantum Life Science Sensing": 0.715723991394043, "Quantum sensing Detection": 0.719258189201355, "Quantum sensing Metrology": 0.7063999772071838, "Quantum sensing navigation": 0.7340036630630493, "Quantum sensing Position": 0.7061337232589722, "Quantum sensing Timing": 0.6961932182312012, "Quantum sensing": 0.7357965707778931, "Quantum control": 0.7514878511428833 } }, { "id": 5032, "title": "A theoretical and experimental study of non-linear absorption properties of substituted 2,5-di-(phenylethynyl)thiophenes and structurally related compounds", "abstract": "Photo-physical properties relevant for optical power limiting in the near-visible and visible regions of the spectrum are reported for a series of substituted diarylalkynyl chalcogenophenes (furans, t...", "citations": 14, "author_count": 9, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5039, "doi": "10.1080/00268970902845289", "umap_coordinates": { "x": 392.86456298828125, "y": 135.75184631347656, "z": 204.91439819335938 }, "tsne_coordinates": { "x": -0.6534882187843323, "y": 2.616894483566284, "z": -13.599929809570312 }, "pca_coordinates": { "x": -1.6291993856430054, "y": 0.6867893934249878, "z": 0.4318949580192566 }, "axis_scores": { "Quantum imaging": 0.6843599677085876, "Quantum Life Science Sensing": 0.700724184513092, "Quantum sensing Detection": 0.6732943654060364, "Quantum sensing Metrology": 0.6651117205619812, "Quantum sensing navigation": 0.6714094877243042, "Quantum sensing Position": 0.6828756332397461, "Quantum sensing Timing": 0.6802067160606384, "Quantum sensing": 0.687619149684906, "Quantum control": 0.6496976613998413 } }, { "id": 5033, "title": "Spectroscopy applications for the Medipix photon counting X-ray system", "abstract": "Since the Medipix system is a photon counting system with selectable threshold, it is possible to use it as a spectroscopic device, which is sensitive to the energy of the incoming photons. One featur...", "citations": 12, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5040, "doi": "10.1016/j.nima.2004.06.013", "umap_coordinates": { "x": 394.5680236816406, "y": 132.91390991210938, "z": 205.28807067871094 }, "tsne_coordinates": { "x": -13.178894996643066, "y": 13.623477935791016, "z": -14.02975845336914 }, "pca_coordinates": { "x": -4.686666011810303, "y": 1.5491385459899902, "z": 2.7539420127868652 }, "axis_scores": { "Quantum imaging": 0.7097316980361938, "Quantum Life Science Sensing": 0.7158914804458618, "Quantum sensing Detection": 0.6940710544586182, "Quantum sensing Metrology": 0.7000498175621033, "Quantum sensing navigation": 0.6642701625823975, "Quantum sensing Position": 0.6890260577201843, "Quantum sensing Timing": 0.6785991787910461, "Quantum sensing": 0.6944210529327393, "Quantum control": 0.609448254108429 } }, { "id": 5034, "title": "The spherical ensemble and quasi-Monte-Carlo designs", "abstract": "The spherical ensemble is a well-known ensemble of N repulsive points on the twodimensional sphere, which can realized in various ways (as a random matrix ensemble, a determinantal point process, a Co...", "citations": 2, "author_count": 2, "categories": [ "Mathematics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5041, "doi": "10.1007/s00365-023-09646-0", "umap_coordinates": { "x": 394.31884765625, "y": 136.767822265625, "z": 205.66287231445312 }, "tsne_coordinates": { "x": -44.11632537841797, "y": -14.181626319885254, "z": -0.6375163793563843 }, "pca_coordinates": { "x": -1.038325309753418, "y": 1.8364230394363403, "z": -1.1695988178253174 }, "axis_scores": { "Quantum imaging": 0.6727779507637024, "Quantum Life Science Sensing": 0.7087305784225464, "Quantum sensing Detection": 0.6640922427177429, "Quantum sensing Metrology": 0.6799977421760559, "Quantum sensing navigation": 0.7104959487915039, "Quantum sensing Position": 0.6843065023422241, "Quantum sensing Timing": 0.663400411605835, "Quantum sensing": 0.6837501525878906, "Quantum control": 0.6947993636131287 } }, { "id": 5035, "title": "Europium(III) and Gadolinium(III) co-doped nanohydroxyapatite with enhanced photoluminescence as potential multimodal bioimaging agent", "abstract": "The advancement of bioimaging and theranostics necessitates the development of highly biocompatible multifunctional agents. Here, we introduce a potential multimodal agent based on nanosized hydroxyap...", "citations": 8, "author_count": 7, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5042, "doi": "10.1016/j.ceramint.2024.01.372", "umap_coordinates": { "x": 393.8486633300781, "y": 133.6081085205078, "z": 204.57037353515625 }, "tsne_coordinates": { "x": 12.880293846130371, "y": 19.54405975341797, "z": -12.781037330627441 }, "pca_coordinates": { "x": -6.156610012054443, "y": -0.38120031356811523, "z": 0.44488435983657837 }, "axis_scores": { "Quantum imaging": 0.7181568145751953, "Quantum Life Science Sensing": 0.7021476626396179, "Quantum sensing Detection": 0.6633175015449524, "Quantum sensing Metrology": 0.6643340587615967, "Quantum sensing navigation": 0.6582430601119995, "Quantum sensing Position": 0.6406174898147583, "Quantum sensing Timing": 0.624046802520752, "Quantum sensing": 0.675889790058136, "Quantum control": 0.6388134956359863 } }, { "id": 5036, "title": "Ultra-broadband infrared gas sensor for pollution detection: the TRIAGE project", "abstract": "Air pollution is one of the largest risk factors for disease or premature death globally, yet current portable monitoring technology cannot provide adequate protection at a local community level. With...", "citations": 10, "author_count": 18, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5043, "doi": "10.1088/2515-7647/ac0542", "umap_coordinates": { "x": 394.7010192871094, "y": 134.1220703125, "z": 205.49729919433594 }, "tsne_coordinates": { "x": -15.097723007202148, "y": 5.816219806671143, "z": -18.804956436157227 }, "pca_coordinates": { "x": -3.514016628265381, "y": 1.5488345623016357, "z": 1.995790958404541 }, "axis_scores": { "Quantum imaging": 0.6714800000190735, "Quantum Life Science Sensing": 0.7177967429161072, "Quantum sensing Detection": 0.6919724941253662, "Quantum sensing Metrology": 0.683558464050293, "Quantum sensing navigation": 0.6708586812019348, "Quantum sensing Position": 0.6685775518417358, "Quantum sensing Timing": 0.6740105152130127, "Quantum sensing": 0.7048319578170776, "Quantum control": 0.6587170958518982 } }, { "id": 5037, "title": "Valence double ionization of O2 at photon energies below and above the molecular double ionization threshold -: art. no. 144308", "abstract": "A recently developed time-of-flight photoelectron-photoelectron coincidence spectroscopy technique, which gives complete two-dimensional e(-)-e(-) spectra in single photon double ionization, is applie...", "citations": 47, "author_count": 4, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5044, "doi": "10.1063/1.1872836", "umap_coordinates": { "x": 393.94439697265625, "y": 135.54115295410156, "z": 206.6569061279297 }, "tsne_coordinates": { "x": -2.56392765045166, "y": -5.662085056304932, "z": 4.003054141998291 }, "pca_coordinates": { "x": 0.2742621898651123, "y": -0.5030755996704102, "z": 0.7567874789237976 }, "axis_scores": { "Quantum imaging": 0.7483268976211548, "Quantum Life Science Sensing": 0.7664037942886353, "Quantum sensing Detection": 0.7455042004585266, "Quantum sensing Metrology": 0.7387901544570923, "Quantum sensing navigation": 0.7102412581443787, "Quantum sensing Position": 0.6917762756347656, "Quantum sensing Timing": 0.697198748588562, "Quantum sensing": 0.7503964900970459, "Quantum control": 0.7073937058448792 } }, { "id": 5038, "title": "Observation of stimulated emission and ultrafast transient absorption dynamics from a novel alkyl-substituted PPV", "abstract": "Ultrafast transient absorption, stimulated emission (SE), and photoluminescence (PL) measurements were performed on solid films of the conducting polymer: poly[2-butyl-5-(2'-ethyl-hexyl)-1,4-phenylene...", "citations": 1, "author_count": 5, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5045, "doi": "10.1016/S0379-6779(96)04098-2", "umap_coordinates": { "x": 392.8652648925781, "y": 135.55035400390625, "z": 206.05479431152344 }, "tsne_coordinates": { "x": -4.067014217376709, "y": 1.145217776298523, "z": -18.968067169189453 }, "pca_coordinates": { "x": -1.6552430391311646, "y": -1.7463579177856445, "z": 0.9631296992301941 }, "axis_scores": { "Quantum imaging": 0.6678542494773865, "Quantum Life Science Sensing": 0.6925584673881531, "Quantum sensing Detection": 0.6577590703964233, "Quantum sensing Metrology": 0.624627947807312, "Quantum sensing navigation": 0.6386113166809082, "Quantum sensing Position": 0.6310404539108276, "Quantum sensing Timing": 0.6332300305366516, "Quantum sensing": 0.6577665209770203, "Quantum control": 0.6181541681289673 } }, { "id": 5039, "title": "Obesity remodels activity and transcriptional state of a lateral hypothalamic brake on feeding", "abstract": "The current obesity epidemic is a major worldwide health concern. Despite the consensus that the brain regulates energy homeostasis, the neural adaptations governing obesity are unknown. Using a combi...", "citations": 138, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5046, "doi": "10.1126/science.aax1184", "umap_coordinates": { "x": 394.9439392089844, "y": 135.37222290039062, "z": 204.54066467285156 }, "tsne_coordinates": { "x": -5.842287540435791, "y": 24.548765182495117, "z": 14.397918701171875 }, "pca_coordinates": { "x": -0.4146287441253662, "y": 2.552706718444824, "z": -1.5580418109893799 }, "axis_scores": { "Quantum imaging": 0.666691780090332, "Quantum Life Science Sensing": 0.6798244118690491, "Quantum sensing Detection": 0.664061963558197, "Quantum sensing Metrology": 0.6529390215873718, "Quantum sensing navigation": 0.6953578591346741, "Quantum sensing Position": 0.6764040589332581, "Quantum sensing Timing": 0.6643776297569275, "Quantum sensing": 0.6784052848815918, "Quantum control": 0.6881263256072998 } }, { "id": 5040, "title": "Simulating terahertz quantum cascade lasers: Trends from samples from different labs", "abstract": "We present a systematic comparison of the results from our non-equilibrium Green's function formalism with a large number of AlGaAs-GaAs terahertz quantum cascade lasers previously published in the li...", "citations": 17, "author_count": 4, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5047, "doi": "10.1063/1.4962646", "umap_coordinates": { "x": 394.38079833984375, "y": 135.37171936035156, "z": 206.9890594482422 }, "tsne_coordinates": { "x": -11.55671215057373, "y": -24.006513595581055, "z": -27.43840789794922 }, "pca_coordinates": { "x": 0.49251437187194824, "y": 0.43022847175598145, "z": -0.2084745466709137 }, "axis_scores": { "Quantum imaging": 0.7163220643997192, "Quantum Life Science Sensing": 0.7474085092544556, "Quantum sensing Detection": 0.699971616268158, "Quantum sensing Metrology": 0.7139524221420288, "Quantum sensing navigation": 0.6997001767158508, "Quantum sensing Position": 0.6902530193328857, "Quantum sensing Timing": 0.7109803557395935, "Quantum sensing": 0.724761426448822, "Quantum control": 0.7075545191764832 } }, { "id": 5041, "title": "Systematics of collision-induced light emission from hot matter", "abstract": "The hypersonic impact of a molecular cluster at a hard surface generates a hot and compressed globule that in a very short while expands and shatters. Even at impact velocities below the onset of ioni...", "citations": 3, "author_count": 4, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5048, "doi": "10.1021/jp0487915", "umap_coordinates": { "x": 396.07403564453125, "y": 135.15737915039062, "z": 207.0103759765625 }, "tsne_coordinates": { "x": -42.51054763793945, "y": 2.909522533416748, "z": -5.384947776794434 }, "pca_coordinates": { "x": -0.17560791969299316, "y": 1.8198692798614502, "z": -0.017412900924682617 }, "axis_scores": { "Quantum imaging": 0.7163277268409729, "Quantum Life Science Sensing": 0.6862190365791321, "Quantum sensing Detection": 0.6967287063598633, "Quantum sensing Metrology": 0.663880467414856, "Quantum sensing navigation": 0.6908081769943237, "Quantum sensing Position": 0.6628319621086121, "Quantum sensing Timing": 0.693141758441925, "Quantum sensing": 0.6957622170448303, "Quantum control": 0.6810193061828613 } }, { "id": 5042, "title": "Detecting entanglement through correlations between local observables", "abstract": "We propose a measure of two-qubit entanglement that is invariant under local unitary transformations, and which is based on local measurements covariances. It measures the Hilbert-Schmidt distance bet...", "citations": 4, "author_count": 4, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5049, "doi": "10.1088/1742-6596/84/1/012010", "umap_coordinates": { "x": 395.82305908203125, "y": 136.73074340820312, "z": 206.87493896484375 }, "tsne_coordinates": { "x": -28.65007209777832, "y": -11.756430625915527, "z": 6.764870643615723 }, "pca_coordinates": { "x": 3.033689022064209, "y": 3.5533607006073, "z": 3.3700003623962402 }, "axis_scores": { "Quantum imaging": 0.7701159715652466, "Quantum Life Science Sensing": 0.7426196932792664, "Quantum sensing Detection": 0.787851870059967, "Quantum sensing Metrology": 0.754638135433197, "Quantum sensing navigation": 0.7812209725379944, "Quantum sensing Position": 0.7486389875411987, "Quantum sensing Timing": 0.7535703778266907, "Quantum sensing": 0.7843543887138367, "Quantum control": 0.725788414478302 } }, { "id": 5043, "title": "Anomalous gapped boundaries between surface topological orders in higher-order topological insulators and superconductors with inversion symmetry", "abstract": "We show that the gapless boundary signatures-namely, chiral/helical hinge modes or localized zero modes- of three-dimensional higher-order topological insulators and superconductors with inversion sym...", "citations": 1, "author_count": 5, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5050, "doi": "10.1103/PhysRevB.106.125121", "umap_coordinates": { "x": 394.2847595214844, "y": 136.52737426757812, "z": 209.10496520996094 }, "tsne_coordinates": { "x": -15.887932777404785, "y": -27.159395217895508, "z": 14.989038467407227 }, "pca_coordinates": { "x": 5.614500999450684, "y": -1.2597851753234863, "z": 0.42685049772262573 }, "axis_scores": { "Quantum imaging": 0.7064995765686035, "Quantum Life Science Sensing": 0.6935877799987793, "Quantum sensing Detection": 0.6906393766403198, "Quantum sensing Metrology": 0.7001820802688599, "Quantum sensing navigation": 0.7113204002380371, "Quantum sensing Position": 0.6821390390396118, "Quantum sensing Timing": 0.6923256516456604, "Quantum sensing": 0.7010793685913086, "Quantum control": 0.6744351387023926 } }, { "id": 5044, "title": "High-Power Broadly Tunable Electrooptic Frequency Comb Generator", "abstract": "Broadband traveling-wave electrooptic modulators made of lithium niobate have reached a high level of technological maturity. They can provide simultaneously low V pi, sustain high power (both optical...", "citations": 215, "author_count": 5, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5051, "doi": "10.1109/JSTQE.2013.2268384", "umap_coordinates": { "x": 394.50225830078125, "y": 133.77281188964844, "z": 206.92005920410156 }, "tsne_coordinates": { "x": 0.14045414328575134, "y": -0.7197275161743164, "z": -36.47332000732422 }, "pca_coordinates": { "x": -1.039233684539795, "y": -2.1861534118652344, "z": 1.1160063743591309 }, "axis_scores": { "Quantum imaging": 0.6996495723724365, "Quantum Life Science Sensing": 0.718954861164093, "Quantum sensing Detection": 0.6970046758651733, "Quantum sensing Metrology": 0.6915936470031738, "Quantum sensing navigation": 0.6790833473205566, "Quantum sensing Position": 0.6552832126617432, "Quantum sensing Timing": 0.6809453964233398, "Quantum sensing": 0.7157629728317261, "Quantum control": 0.7200281620025635 } }, { "id": 5045, "title": "On the stepwise change of activation energies in the hydrodechlorination of chlorobenzene over supported nickel", "abstract": "Kinetics of chlorobenzene hydrodechlorination have been measured over Ni on SiO2, Al2O3, MgO, activated carbon and graphite. A stepwise variation of E-a is analysed using the selective energy transfer...", "citations": 13, "author_count": 3, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5052, "doi": "10.1016/j.catcom.2007.06.024", "umap_coordinates": { "x": 393.3267822265625, "y": 134.4251708984375, "z": 204.97857666015625 }, "tsne_coordinates": { "x": 20.191322326660156, "y": 11.791109085083008, "z": -0.975334107875824 }, "pca_coordinates": { "x": -1.2134373188018799, "y": 0.6173639297485352, "z": -2.5959808826446533 }, "axis_scores": { "Quantum imaging": 0.6794537901878357, "Quantum Life Science Sensing": 0.7027580142021179, "Quantum sensing Detection": 0.691916286945343, "Quantum sensing Metrology": 0.6666325926780701, "Quantum sensing navigation": 0.6832526922225952, "Quantum sensing Position": 0.6664175987243652, "Quantum sensing Timing": 0.6473037004470825, "Quantum sensing": 0.6931712031364441, "Quantum control": 0.6863296627998352 } }, { "id": 5046, "title": "A high-speed modulated retro-reflector communication link with a transmissive modulator in a cat's eye optics arrangement", "abstract": "An optical communication link with a modulated retro-reflector in a cat's eye optics arrangement has been evaluated. A transmissive multiple quantum well modulator with a modulation bandwidth in exces...", "citations": 11, "author_count": 9, "categories": [ "Remote Sensing" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5053, "doi": "10.1117/12.737959", "umap_coordinates": { "x": 395.1902770996094, "y": 133.65072631835938, "z": 206.62448120117188 }, "tsne_coordinates": { "x": -2.25652813911438, "y": 8.104875564575195, "z": -23.908830642700195 }, "pca_coordinates": { "x": -0.8660560846328735, "y": 2.5046916007995605, "z": 3.150540351867676 }, "axis_scores": { "Quantum imaging": 0.6805826425552368, "Quantum Life Science Sensing": 0.6588144898414612, "Quantum sensing Detection": 0.6706775426864624, "Quantum sensing Metrology": 0.6780258417129517, "Quantum sensing navigation": 0.687059760093689, "Quantum sensing Position": 0.6768888235092163, "Quantum sensing Timing": 0.6759967803955078, "Quantum sensing": 0.6747832894325256, "Quantum control": 0.6562641859054565 } }, { "id": 5047, "title": "The electronic structure of InGaAs/InP quantum wells measured by Fourier transform photoluminescence excitation spectroscopy", "abstract": "We report on novel results from a systematic study of excitonic transitions in high quality metalorganic vapor phase epitaxy grown InxGa1-xAs/InP quantum wells (QWs). The electronic structure of the Q...", "citations": 8, "author_count": 8, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 5054, "doi": "10.1063/1.363752", "umap_coordinates": { "x": 392.480712890625, "y": 134.1558074951172, "z": 208.4248809814453 }, "tsne_coordinates": { "x": 25.09589385986328, "y": -18.829999923706055, "z": 3.7335498332977295 }, "pca_coordinates": { "x": 0.8011226654052734, "y": -3.0652308464050293, "z": 1.0789482593536377 }, "axis_scores": { "Quantum imaging": 0.7353779673576355, "Quantum Life Science Sensing": 0.7343955636024475, "Quantum sensing Detection": 0.7159046530723572, "Quantum sensing Metrology": 0.725929319858551, "Quantum sensing navigation": 0.710900068283081, "Quantum sensing Position": 0.7069828510284424, "Quantum sensing Timing": 0.6728353500366211, "Quantum sensing": 0.7352147698402405, "Quantum control": 0.6798948645591736 } }, { "id": 5048, "title": "H-DIFFUSION ON NI(100) - A QUANTUM MONTE-CARLO SIMULATION", "abstract": "We have determined the diffusion constant for H on Ni(100) using the path-centroid formula for the transition rate, the embedded atom method for the potential, and the numerical quantum Monte Carlo te...", "citations": 62, "author_count": 4, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5055, "doi": "10.1103/PhysRevLett.71.2615", "umap_coordinates": { "x": 394.57025146484375, "y": 135.95703125, "z": 208.9403076171875 }, "tsne_coordinates": { "x": 0.05435933172702789, "y": -12.018684387207031, "z": 40.44419860839844 }, "pca_coordinates": { "x": 4.094198226928711, "y": 0.2349247932434082, "z": 0.23464173078536987 }, "axis_scores": { "Quantum imaging": 0.7278981804847717, "Quantum Life Science Sensing": 0.731158435344696, "Quantum sensing Detection": 0.7201454043388367, "Quantum sensing Metrology": 0.6957206726074219, "Quantum sensing navigation": 0.735936164855957, "Quantum sensing Position": 0.6993362903594971, "Quantum sensing Timing": 0.7006956934928894, "Quantum sensing": 0.7370803356170654, "Quantum control": 0.7046335339546204 } }, { "id": 5049, "title": "Evidence for type I band alignment in GaNAs/GaAs quantum structures by optical spectroscopies", "abstract": "Type I band line-up in GaNxAs1-x/GaAs multiple quantum wells (MQW) with x less than or equal to 3%, is concluded based on the following experimental results: (i) a comparable radiative decay time of t...", "citations": 2, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5056, "doi": "10.1016/S1386-9477(02)00306-5", "umap_coordinates": { "x": 392.5726318359375, "y": 134.1299591064453, "z": 207.4022979736328 }, "tsne_coordinates": { "x": 33.339839935302734, "y": -11.33971881866455, "z": 10.686807632446289 }, "pca_coordinates": { "x": 0.5011659860610962, "y": -1.5777831077575684, "z": 1.6090948581695557 }, "axis_scores": { "Quantum imaging": 0.7199663519859314, "Quantum Life Science Sensing": 0.7051453590393066, "Quantum sensing Detection": 0.6967722177505493, "Quantum sensing Metrology": 0.715315580368042, "Quantum sensing navigation": 0.7147148847579956, "Quantum sensing Position": 0.7256141901016235, "Quantum sensing Timing": 0.7009525895118713, "Quantum sensing": 0.7102913856506348, "Quantum control": 0.6560724377632141 } }, { "id": 5050, "title": "Particle identification performance of a straw transition radiation tracker prototype", "abstract": "An 864 channel prototype of an integrated straw tracker and transition radiation detector for tracking and electron identification has been tested with and without magnetic field at the CERN SPS. The ...", "citations": 12, "author_count": 41, "categories": [ "Instruments & Instrumentation" ], "year": 1996, "topic": [ "all" ], "embedding_index": 5057, "doi": null, "umap_coordinates": { "x": 391.2884216308594, "y": 139.2292022705078, "z": 209.2098388671875 }, "tsne_coordinates": { "x": -1.9464493989944458, "y": 37.52294921875, "z": -9.752973556518555 }, "pca_coordinates": { "x": -1.5878195762634277, "y": 3.798341751098633, "z": 1.698174238204956 }, "axis_scores": { "Quantum imaging": 0.683195173740387, "Quantum Life Science Sensing": 0.6852126717567444, "Quantum sensing Detection": 0.6823678612709045, "Quantum sensing Metrology": 0.6659451127052307, "Quantum sensing navigation": 0.689483642578125, "Quantum sensing Position": 0.6999064683914185, "Quantum sensing Timing": 0.688836395740509, "Quantum sensing": 0.67396080493927, "Quantum control": 0.6517791152000427 } }, { "id": 5051, "title": "IMPURITIES IN S=1/2 HEISENBERG ANTIFERROMAGNETIC CHAINS - CONSEQUENCES FOR NEUTRON-SCATTERING AND KNIGHT-SHIFT", "abstract": "Nonmagnetic impurities in an S = 1/2 Heisenberg antiferromagnetic chain are studied using boundary conformal field theory techniques and finite-temperature quantum Monte Carlo simulations. We calculat...", "citations": 153, "author_count": 3, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5058, "doi": "10.1103/PhysRevLett.75.934", "umap_coordinates": { "x": 393.0580139160156, "y": 136.5889434814453, "z": 207.95713806152344 }, "tsne_coordinates": { "x": -8.465965270996094, "y": -38.676971435546875, "z": 9.881597518920898 }, "pca_coordinates": { "x": 2.6114344596862793, "y": -1.1915507316589355, "z": -1.586916208267212 }, "axis_scores": { "Quantum imaging": 0.671025812625885, "Quantum Life Science Sensing": 0.6966103911399841, "Quantum sensing Detection": 0.673088788986206, "Quantum sensing Metrology": 0.6614672541618347, "Quantum sensing navigation": 0.7090222835540771, "Quantum sensing Position": 0.6944520473480225, "Quantum sensing Timing": 0.6742328405380249, "Quantum sensing": 0.6896713972091675, "Quantum control": 0.6593085527420044 } }, { "id": 5052, "title": "Anti-Kibble-Zurek behavior in the quantum XY spin-1/2 chain driven by correlated noisy magnetic field and anisotropy", "abstract": "In the nonadiabatic dynamics across a quantum phase transition, the Kibble-Zurek paradigm describes that the average number of topological defects is suppressed as a universal power law with the quenc...", "citations": 5, "author_count": 4, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5059, "doi": "10.1103/PhysRevB.111.104310", "umap_coordinates": { "x": 393.6744689941406, "y": 135.65463256835938, "z": 208.32467651367188 }, "tsne_coordinates": { "x": -6.84246301651001, "y": -37.58612823486328, "z": 12.008381843566895 }, "pca_coordinates": { "x": 4.3652520179748535, "y": -1.0356874465942383, "z": 0.014444053173065186 }, "axis_scores": { "Quantum imaging": 0.7462846040725708, "Quantum Life Science Sensing": 0.7239149212837219, "Quantum sensing Detection": 0.7319700121879578, "Quantum sensing Metrology": 0.7185019254684448, "Quantum sensing navigation": 0.7679324746131897, "Quantum sensing Position": 0.726076066493988, "Quantum sensing Timing": 0.7189697623252869, "Quantum sensing": 0.7479456663131714, "Quantum control": 0.7423357367515564 } }, { "id": 5053, "title": "Lieb-Schultz-Mattis anomalies and web of dualities induced by gauging in quantum spin chains", "abstract": "Lieb-Schultz-Mattis (LSM) theorems impose non-perturbative constraints on the zero -temperature phase diagrams of quantum lattice Hamiltonians (always assumed to be local in this paper). LSM theorems ...", "citations": 15, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5060, "doi": "10.21468/SciPostPhys.16.1.022", "umap_coordinates": { "x": 394.3769226074219, "y": 137.17071533203125, "z": 207.2465057373047 }, "tsne_coordinates": { "x": -6.059506893157959, "y": -13.129714012145996, "z": 33.585968017578125 }, "pca_coordinates": { "x": 1.7489831447601318, "y": 1.8588234186172485, "z": -1.0727320909500122 }, "axis_scores": { "Quantum imaging": 0.7109459638595581, "Quantum Life Science Sensing": 0.7157180309295654, "Quantum sensing Detection": 0.6919621825218201, "Quantum sensing Metrology": 0.6890038251876831, "Quantum sensing navigation": 0.7215515375137329, "Quantum sensing Position": 0.6871525645256042, "Quantum sensing Timing": 0.6908507943153381, "Quantum sensing": 0.699447751045227, "Quantum control": 0.7058449983596802 } }, { "id": 5054, "title": "3D electron fluid turbulence at nanoscales in dense plasmas", "abstract": "We have performed three-dimensional (3D) nonlinear fluid simulations of electron fluid turbulence at nanoscales in an unmagnetized warm dense plasma in which mode coupling between wave function and el...", "citations": 22, "author_count": 3, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5061, "doi": "10.1088/1367-2630/10/8/083007", "umap_coordinates": { "x": 394.1662292480469, "y": 135.88929748535156, "z": 207.74305725097656 }, "tsne_coordinates": { "x": -0.6037011742591858, "y": -2.2410871982574463, "z": 41.75307083129883 }, "pca_coordinates": { "x": 2.508856773376465, "y": 0.4870781898498535, "z": -0.8251867294311523 }, "axis_scores": { "Quantum imaging": 0.7245513200759888, "Quantum Life Science Sensing": 0.6961491703987122, "Quantum sensing Detection": 0.6771503686904907, "Quantum sensing Metrology": 0.6734214425086975, "Quantum sensing navigation": 0.7119799852371216, "Quantum sensing Position": 0.6764426827430725, "Quantum sensing Timing": 0.6549535989761353, "Quantum sensing": 0.6992366313934326, "Quantum control": 0.6882574558258057 } }, { "id": 5055, "title": "Angle-Independent Polariton Emission Lifetime Shown by Perylene Hybridized to the Vacuum Field Inside a Fabry-Perot Cavity", "abstract": "The formation of hybrid light-matter states in optical structures, manifested as a Rabi splitting of the eigenenergies of a coupled system, is one of the key effects in quantum optics. The hybrid stat...", "citations": 36, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5062, "doi": "10.1021/acs.jpcc.8b07283", "umap_coordinates": { "x": 393.1683044433594, "y": 135.73284912109375, "z": 205.85511779785156 }, "tsne_coordinates": { "x": 3.0319764614105225, "y": 2.149566173553467, "z": 7.106566429138184 }, "pca_coordinates": { "x": -0.8926668167114258, "y": -0.799161434173584, "z": 0.7474337220191956 }, "axis_scores": { "Quantum imaging": 0.7017694711685181, "Quantum Life Science Sensing": 0.7038079500198364, "Quantum sensing Detection": 0.6792391538619995, "Quantum sensing Metrology": 0.6567806005477905, "Quantum sensing navigation": 0.6692279577255249, "Quantum sensing Position": 0.6673016548156738, "Quantum sensing Timing": 0.6709154844284058, "Quantum sensing": 0.6886487007141113, "Quantum control": 0.6619906425476074 } }, { "id": 5056, "title": "Method of simulating dose reduction for digital radiographic systems", "abstract": "The optimisation of image quality vs. radiation dose is an important task in medical imaging. To obtain maximum validity of the optimisation, it must be based on clinical images. Images at different d...", "citations": 65, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5063, "doi": "10.1093/rpd/nch540", "umap_coordinates": { "x": 395.7685546875, "y": 133.00184631347656, "z": 205.11195373535156 }, "tsne_coordinates": { "x": -5.342358112335205, "y": 34.6285514831543, "z": -21.143417358398438 }, "pca_coordinates": { "x": -1.766917109489441, "y": 5.520397663116455, "z": 2.121048927307129 }, "axis_scores": { "Quantum imaging": 0.7075481414794922, "Quantum Life Science Sensing": 0.7037367820739746, "Quantum sensing Detection": 0.6821245551109314, "Quantum sensing Metrology": 0.6820254921913147, "Quantum sensing navigation": 0.6910263895988464, "Quantum sensing Position": 0.6815003752708435, "Quantum sensing Timing": 0.6906303763389587, "Quantum sensing": 0.6873707175254822, "Quantum control": 0.67281174659729 } }, { "id": 5057, "title": "Violation of the London law and Onsager-Feynman quantization in multicomponent superconductors", "abstract": "Non-classical response to rotation is a hallmark of quantum ordered states such as superconductors and superfluids. The rotational responses of all currently known single-component 'super' states of m...", "citations": 57, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5064, "doi": "10.1038/nphys646", "umap_coordinates": { "x": 393.5990905761719, "y": 136.44801330566406, "z": 207.85305786132812 }, "tsne_coordinates": { "x": -6.131311893463135, "y": -16.070323944091797, "z": 24.412031173706055 }, "pca_coordinates": { "x": 1.835880994796753, "y": 0.13203048706054688, "z": -0.7514270544052124 }, "axis_scores": { "Quantum imaging": 0.6895837783813477, "Quantum Life Science Sensing": 0.710720419883728, "Quantum sensing Detection": 0.7024420499801636, "Quantum sensing Metrology": 0.6957402229309082, "Quantum sensing navigation": 0.7020596265792847, "Quantum sensing Position": 0.6869961619377136, "Quantum sensing Timing": 0.6786981225013733, "Quantum sensing": 0.7075313329696655, "Quantum control": 0.6767988204956055 } }, { "id": 5058, "title": "Charge transfer and fragmentation in cluster-atom collisions - art. no. 022715", "abstract": "Charge transfer and fragmentation in collisions of sodium cluster ions with caesium atoms have been investigated theoretically within a microscopic framework called nonadiabatic quantum molecular dyna...", "citations": 22, "author_count": 5, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5065, "doi": "10.1103/PhysRevA.61.022715", "umap_coordinates": { "x": 395.84051513671875, "y": 135.45220947265625, "z": 207.97140502929688 }, "tsne_coordinates": { "x": -7.50343132019043, "y": -7.234552383422852, "z": -1.4040340185165405 }, "pca_coordinates": { "x": 3.16032075881958, "y": 0.8924356698989868, "z": -1.5686852931976318 }, "axis_scores": { "Quantum imaging": 0.6734920740127563, "Quantum Life Science Sensing": 0.6840932965278625, "Quantum sensing Detection": 0.681878924369812, "Quantum sensing Metrology": 0.649975597858429, "Quantum sensing navigation": 0.6584475636482239, "Quantum sensing Position": 0.6492950320243835, "Quantum sensing Timing": 0.6537442803382874, "Quantum sensing": 0.6827123165130615, "Quantum control": 0.6986389756202698 } }, { "id": 5059, "title": "Photoelectron angular distribution and linear magnetic dichroism in the 4p photoemission from Rb atoms", "abstract": "The angular distribution of photoelectrons and linear magnetic dichroism in the angular distribution for the 4p photoemission from Rb atoms in the ground state, oriented by laser pumping, were measure...", "citations": 6, "author_count": 10, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5066, "doi": "10.1103/PhysRevA.81.013406", "umap_coordinates": { "x": 393.6374816894531, "y": 135.6883544921875, "z": 208.05560302734375 }, "tsne_coordinates": { "x": 19.348339080810547, "y": -18.09272003173828, "z": 33.8408088684082 }, "pca_coordinates": { "x": 2.2886486053466797, "y": -1.6999154090881348, "z": -0.8506442308425903 }, "axis_scores": { "Quantum imaging": 0.686749279499054, "Quantum Life Science Sensing": 0.6835713982582092, "Quantum sensing Detection": 0.6584084033966064, "Quantum sensing Metrology": 0.6582131385803223, "Quantum sensing navigation": 0.6582316160202026, "Quantum sensing Position": 0.6639841794967651, "Quantum sensing Timing": 0.6338704824447632, "Quantum sensing": 0.6749492287635803, "Quantum control": 0.6337172389030457 } }, { "id": 5060, "title": "Quantum information engines: Bounds on performance metrics by measurement time", "abstract": "Information engines, sometimes referred to as Maxwell Demon engines, utilize information obtained through measurement to control the conversion of energy into useful work. Discussions around such devi...", "citations": 1, "author_count": 3, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5067, "doi": "10.1103/vdm1-4ryg", "umap_coordinates": { "x": 395.7901306152344, "y": 136.62860107421875, "z": 207.28802490234375 }, "tsne_coordinates": { "x": -27.719942092895508, "y": -17.936277389526367, "z": 2.301044225692749 }, "pca_coordinates": { "x": 2.392176628112793, "y": 2.484286069869995, "z": 1.2356858253479004 }, "axis_scores": { "Quantum imaging": 0.7605431079864502, "Quantum Life Science Sensing": 0.7458691596984863, "Quantum sensing Detection": 0.7691081762313843, "Quantum sensing Metrology": 0.7680308818817139, "Quantum sensing navigation": 0.7616192102432251, "Quantum sensing Position": 0.7430928945541382, "Quantum sensing Timing": 0.7544716000556946, "Quantum sensing": 0.7696276307106018, "Quantum control": 0.7627865672111511 } }, { "id": 5061, "title": "Tuning multifunctional stimuli-responsive behaviour through halogen exchange in hybrid ionic [(CH3CH2)3N(CH2X)]2[MnCl4] (X = Cl, Br)", "abstract": "Hybrid metal halide materials have attracted significant attention due to their diverse functional properties. In this study, we prepared, characterized, and evaluated the multifunctional properties o...", "citations": 1, "author_count": 17, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5068, "doi": "10.1039/d5qi01203a", "umap_coordinates": { "x": 391.89093017578125, "y": 135.4222869873047, "z": 205.20896911621094 }, "tsne_coordinates": { "x": 13.591800689697266, "y": -6.025772571563721, "z": -27.19867706298828 }, "pca_coordinates": { "x": -2.109488010406494, "y": -0.7841794490814209, "z": -2.771000862121582 }, "axis_scores": { "Quantum imaging": 0.6886038780212402, "Quantum Life Science Sensing": 0.6840456128120422, "Quantum sensing Detection": 0.672570526599884, "Quantum sensing Metrology": 0.6648833155632019, "Quantum sensing navigation": 0.6819205284118652, "Quantum sensing Position": 0.6440534591674805, "Quantum sensing Timing": 0.6418213844299316, "Quantum sensing": 0.6989739537239075, "Quantum control": 0.6924219727516174 } }, { "id": 5062, "title": "Experimental radiative cooling rates of a polycyclic aromatic hydrocarbon cation", "abstract": "Several small Polycyclic Aromatic Hydrocarbons (PAHs) have been identified recently in the Taurus Molecular Cloud (TMC-1) using radio telescope observations. Reproducing the observed abundances of the...", "citations": 10, "author_count": 10, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5069, "doi": "10.1039/d3fd00005b", "umap_coordinates": { "x": 393.4397277832031, "y": 136.98211669921875, "z": 206.17916870117188 }, "tsne_coordinates": { "x": -3.732745885848999, "y": 2.696608066558838, "z": 20.416688919067383 }, "pca_coordinates": { "x": -0.04893231391906738, "y": 1.2548151016235352, "z": -2.390023946762085 }, "axis_scores": { "Quantum imaging": 0.6915759444236755, "Quantum Life Science Sensing": 0.7104331851005554, "Quantum sensing Detection": 0.6944034099578857, "Quantum sensing Metrology": 0.6750867366790771, "Quantum sensing navigation": 0.6664060354232788, "Quantum sensing Position": 0.6631223559379578, "Quantum sensing Timing": 0.6726275086402893, "Quantum sensing": 0.6987519264221191, "Quantum control": 0.6882938146591187 } }, { "id": 5063, "title": "Novel Schiff base (DBDDP) selective detection of Fe (III): Dispersed in aqueous solution and encapsulated in silica cross-linked micellar nanoparticles in living cell", "abstract": "This work demonstrated the synthesis of (4E)-4-(4-(diphenylamino)benzylideneamino)-1,2-dihydro-1,5-dimethy1-2-phenylpyrazol-3-one (DBDDP) for Fe (III) detection in aqueous media and in the core of sil...", "citations": 9, "author_count": 11, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5070, "doi": "10.1016/j.jcis.2017.12.050", "umap_coordinates": { "x": 393.1849060058594, "y": 134.3115692138672, "z": 204.54254150390625 }, "tsne_coordinates": { "x": 17.31155014038086, "y": 17.212387084960938, "z": -12.310189247131348 }, "pca_coordinates": { "x": -4.725944519042969, "y": -1.3586809635162354, "z": -3.189370632171631 }, "axis_scores": { "Quantum imaging": 0.7169221043586731, "Quantum Life Science Sensing": 0.7713348269462585, "Quantum sensing Detection": 0.7279390096664429, "Quantum sensing Metrology": 0.6900715827941895, "Quantum sensing navigation": 0.6932458877563477, "Quantum sensing Position": 0.6793482303619385, "Quantum sensing Timing": 0.6338419914245605, "Quantum sensing": 0.7279765605926514, "Quantum control": 0.703238844871521 } }, { "id": 5064, "title": "Ubiquity of Beutler-Fano profiles: From scattering to dissipative processes", "abstract": "Fano models-consisting of a Hamiltonian with a discrete-continuous spectrum-are one of the basic toy models in spectroscopy. They have been successful in explaining the line shape of experiments in at...", "citations": 15, "author_count": 2, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5071, "doi": "10.1103/PhysRevA.97.023411", "umap_coordinates": { "x": 394.5108947753906, "y": 136.71633911132812, "z": 208.01321411132812 }, "tsne_coordinates": { "x": -15.450959205627441, "y": -17.780847549438477, "z": 10.8070068359375 }, "pca_coordinates": { "x": 1.8263533115386963, "y": 0.5318920612335205, "z": -0.6042711734771729 }, "axis_scores": { "Quantum imaging": 0.7402954697608948, "Quantum Life Science Sensing": 0.7545422315597534, "Quantum sensing Detection": 0.7443665862083435, "Quantum sensing Metrology": 0.7190727591514587, "Quantum sensing navigation": 0.7559568285942078, "Quantum sensing Position": 0.7212302684783936, "Quantum sensing Timing": 0.7056118845939636, "Quantum sensing": 0.7503621578216553, "Quantum control": 0.7175583839416504 } }, { "id": 5065, "title": "Tris(hydroxymethyl)aminomethane as a Probe in Heterogeneous TiO2 Photocatalysis", "abstract": "In this work we present a new route to probe the efficiency of aqueous TiO2 photocatalysis using Tris(hydroxymethyl)aminomethane (Tris). Hydrogen abstracting species such as hydroxyl radicals react wi...", "citations": 25, "author_count": 3, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5072, "doi": null, "umap_coordinates": { "x": 391.6678771972656, "y": 139.6606903076172, "z": 209.63539123535156 }, "tsne_coordinates": { "x": -1.600644588470459, "y": 43.667720794677734, "z": -4.800227642059326 }, "pca_coordinates": { "x": -3.6312458515167236, "y": 1.453769564628601, "z": -3.708231210708618 }, "axis_scores": { "Quantum imaging": 0.7091875076293945, "Quantum Life Science Sensing": 0.7379885315895081, "Quantum sensing Detection": 0.707161545753479, "Quantum sensing Metrology": 0.703106164932251, "Quantum sensing navigation": 0.7014708518981934, "Quantum sensing Position": 0.6856045722961426, "Quantum sensing Timing": 0.6801841259002686, "Quantum sensing": 0.7238799929618835, "Quantum control": 0.7103126049041748 } }, { "id": 5066, "title": "The impact of number of repeats N on the interlayer exchange in [Fe/MgO]N(001) superlattices", "abstract": "The strength of the interlayer exchange coupling in [Fe/MgO]N(001) superlattices with 2 <= N <= 10 depends on the number of bilayer repeats (N). The exchange coupling is antiferromagnetic for all the ...", "citations": 2, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5073, "doi": "10.1038/s41598-021-81441-y", "umap_coordinates": { "x": 392.3942565917969, "y": 135.93360900878906, "z": 207.68252563476562 }, "tsne_coordinates": { "x": 14.073528289794922, "y": -27.56186294555664, "z": 21.209548950195312 }, "pca_coordinates": { "x": -0.8915706872940063, "y": -0.8280601501464844, "z": -1.6588060855865479 }, "axis_scores": { "Quantum imaging": 0.6797641515731812, "Quantum Life Science Sensing": 0.6927435398101807, "Quantum sensing Detection": 0.6537089347839355, "Quantum sensing Metrology": 0.6745201945304871, "Quantum sensing navigation": 0.6710772514343262, "Quantum sensing Position": 0.6752634048461914, "Quantum sensing Timing": 0.6717386245727539, "Quantum sensing": 0.6798250079154968, "Quantum control": 0.6408536434173584 } }, { "id": 5067, "title": "Monte Carlo simulation of the transient response of single photon absorption in X-ray pixel detectors", "abstract": "A Monte Carlo study of the transient response of single photon absorption in X-ray pixel detectors is presented. The simulation results have been combined with Monte Carlo simulation of the X-ray phot...", "citations": 6, "author_count": 5, "categories": [ "Computer Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5074, "doi": "10.1016/S0378-4754(02)00242-2", "umap_coordinates": { "x": 394.79583740234375, "y": 132.9811248779297, "z": 206.1689910888672 }, "tsne_coordinates": { "x": -11.00700855255127, "y": 17.61402702331543, "z": -9.072519302368164 }, "pca_coordinates": { "x": -1.7787623405456543, "y": 0.1302506923675537, "z": 2.7145438194274902 }, "axis_scores": { "Quantum imaging": 0.7094597220420837, "Quantum Life Science Sensing": 0.7206973433494568, "Quantum sensing Detection": 0.7130005359649658, "Quantum sensing Metrology": 0.6986295580863953, "Quantum sensing navigation": 0.6870051026344299, "Quantum sensing Position": 0.6922652125358582, "Quantum sensing Timing": 0.711803674697876, "Quantum sensing": 0.712870717048645, "Quantum control": 0.6542706489562988 } }, { "id": 5068, "title": "Breakdown into nanoscale of graphene oxide: Confined hot spot atomic reduction and fragmentation", "abstract": "Nano-graphene oxide (nano-GO) is a new class of carbon based materials being proposed for biomedical applications due to its small size, intrinsic optical properties, large specific surface area, and ...", "citations": 127, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5075, "doi": "10.1038/srep06735", "umap_coordinates": { "x": 393.2537536621094, "y": 135.45962524414062, "z": 206.30169677734375 }, "tsne_coordinates": { "x": 9.191169738769531, "y": -5.936615467071533, "z": 2.79799485206604 }, "pca_coordinates": { "x": 0.32054150104522705, "y": -0.41039419174194336, "z": -1.9676532745361328 }, "axis_scores": { "Quantum imaging": 0.707160234451294, "Quantum Life Science Sensing": 0.7323800325393677, "Quantum sensing Detection": 0.7035577297210693, "Quantum sensing Metrology": 0.6795134544372559, "Quantum sensing navigation": 0.6861453652381897, "Quantum sensing Position": 0.670632004737854, "Quantum sensing Timing": 0.6584880948066711, "Quantum sensing": 0.7104139924049377, "Quantum control": 0.6764986515045166 } }, { "id": 5069, "title": "Optimal control of peridinin excited-state dynamics", "abstract": "Optimal control is applied to study the excited-state relaxation of the carbonyl-carotenoid peridinin in solution. Phase-shaping of the excitation pulses is employed to influence the photoinduced reac...", "citations": 13, "author_count": 9, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5076, "doi": "10.1016/j.chemphys.2010.02.028", "umap_coordinates": { "x": 393.9511413574219, "y": 136.8438720703125, "z": 205.35797119140625 }, "tsne_coordinates": { "x": 0.6409151554107666, "y": 5.085350036621094, "z": 14.343483924865723 }, "pca_coordinates": { "x": -0.6450797915458679, "y": 0.8561933040618896, "z": -2.5418460369110107 }, "axis_scores": { "Quantum imaging": 0.7656763792037964, "Quantum Life Science Sensing": 0.7666760683059692, "Quantum sensing Detection": 0.7580511569976807, "Quantum sensing Metrology": 0.7289788722991943, "Quantum sensing navigation": 0.751164436340332, "Quantum sensing Position": 0.7363001704216003, "Quantum sensing Timing": 0.7342708706855774, "Quantum sensing": 0.7661057710647583, "Quantum control": 0.7830209136009216 } }, { "id": 5070, "title": "Casimir experiments showing saturation effects", "abstract": "We address several different Casimir experiments where theory and experiment disagree. First out is the classical Casimir force measurement between two metal half spaces; here both in the form of the ...", "citations": 15, "author_count": 2, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5077, "doi": "10.1103/PhysRevA.80.043828", "umap_coordinates": { "x": 395.29840087890625, "y": 136.69654846191406, "z": 208.17613220214844 }, "tsne_coordinates": { "x": -22.804439544677734, "y": -19.959766387939453, "z": 8.803505897521973 }, "pca_coordinates": { "x": 2.9826526641845703, "y": 1.9565966129302979, "z": -0.46831566095352173 }, "axis_scores": { "Quantum imaging": 0.6980315446853638, "Quantum Life Science Sensing": 0.7018600702285767, "Quantum sensing Detection": 0.6907769441604614, "Quantum sensing Metrology": 0.6852186918258667, "Quantum sensing navigation": 0.6816744804382324, "Quantum sensing Position": 0.6741843819618225, "Quantum sensing Timing": 0.6686113476753235, "Quantum sensing": 0.7001436352729797, "Quantum control": 0.6744083166122437 } }, { "id": 5071, "title": "EFFECTS OF DROUGHT ON PHOTOSYNTHESIS, CHLOROPHYLL FLUORESCENCE AND PHOTOINHIBITION SUSCEPTIBILITY IN INTACT WILLOW LEAVES", "abstract": "Plants from clonal cuttings of Salix sp. were subjected to a drying cycle of 10 d in a controlled environment. Gas exchange and fluorescence emission were measured on attached leaves. The light-satura...", "citations": 126, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1985, "topic": [ "all" ], "embedding_index": 5078, "doi": "10.1007/BF00401176", "umap_coordinates": { "x": 394.25531005859375, "y": 136.52088928222656, "z": 203.61448669433594 }, "tsne_coordinates": { "x": 8.056292533874512, "y": 29.575138092041016, "z": 10.034307479858398 }, "pca_coordinates": { "x": -2.3839783668518066, "y": 1.180775761604309, "z": -1.9133110046386719 }, "axis_scores": { "Quantum imaging": 0.6641082763671875, "Quantum Life Science Sensing": 0.7087819576263428, "Quantum sensing Detection": 0.6436806917190552, "Quantum sensing Metrology": 0.644629955291748, "Quantum sensing navigation": 0.6368734836578369, "Quantum sensing Position": 0.6206151247024536, "Quantum sensing Timing": 0.6255406141281128, "Quantum sensing": 0.6642032861709595, "Quantum control": 0.6502622365951538 } }, { "id": 5072, "title": "Quantum SWAP gate realized with CZ and iSWAP gates in a superconducting architecture", "abstract": "It is advantageous for any quantum processor to support different classes of two-qubit quantum logic gates when compiling quantum circuits, a property that is typically not present in existing platfor...", "citations": 1, "author_count": 23, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5079, "doi": "10.1088/1367-2630/adeba7", "umap_coordinates": { "x": 394.8930358886719, "y": 136.1729736328125, "z": 206.92391967773438 }, "tsne_coordinates": { "x": -34.726993560791016, "y": -4.0899176597595215, "z": -6.995168209075928 }, "pca_coordinates": { "x": 1.8022749423980713, "y": 1.2768871784210205, "z": 2.1597940921783447 }, "axis_scores": { "Quantum imaging": 0.6948229074478149, "Quantum Life Science Sensing": 0.6687102317810059, "Quantum sensing Detection": 0.6812117695808411, "Quantum sensing Metrology": 0.68648761510849, "Quantum sensing navigation": 0.705836296081543, "Quantum sensing Position": 0.6677269339561462, "Quantum sensing Timing": 0.6954306960105896, "Quantum sensing": 0.7041635513305664, "Quantum control": 0.7063868641853333 } }, { "id": 5073, "title": "A general approach for all-visible-light switching of diarylethenes through triplet sensitization using semiconducting nanocrystals", "abstract": "Coupling semiconducting nanocrystals (NCs) with organic molecules provides an efficient route to generate and transfer triplet excitons. These excitons can be used to power photochemical transformatio...", "citations": 22, "author_count": 6, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5080, "doi": "10.1039/d2tc03582k", "umap_coordinates": { "x": 391.6327209472656, "y": 135.2276153564453, "z": 205.11924743652344 }, "tsne_coordinates": { "x": 5.3595871925354, "y": 1.870766043663025, "z": -10.02515983581543 }, "pca_coordinates": { "x": -1.6290698051452637, "y": -2.5991759300231934, "z": -0.7399614453315735 }, "axis_scores": { "Quantum imaging": 0.6609889268875122, "Quantum Life Science Sensing": 0.7004734873771667, "Quantum sensing Detection": 0.6724805235862732, "Quantum sensing Metrology": 0.645966112613678, "Quantum sensing navigation": 0.6492179036140442, "Quantum sensing Position": 0.6170181035995483, "Quantum sensing Timing": 0.6543780565261841, "Quantum sensing": 0.67457115650177, "Quantum control": 0.6626145839691162 } }, { "id": 5074, "title": "Highly efficient ratiometric nanothermometers based on colloidal carbon quantum dots", "abstract": "Optical nanothermometers have attracted much attention due to their non-contact and precise measurement with high spatial resolution at the micro- and nanoscales. They can be applied in various fields...", "citations": 47, "author_count": 6, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5081, "doi": "10.1039/d1tb00224d", "umap_coordinates": { "x": 392.4307861328125, "y": 134.66099548339844, "z": 205.3591766357422 }, "tsne_coordinates": { "x": 12.10373306274414, "y": 4.200287818908691, "z": -9.076107025146484 }, "pca_coordinates": { "x": -2.5917623043060303, "y": -3.1242995262145996, "z": 0.2202191948890686 }, "axis_scores": { "Quantum imaging": 0.7061560153961182, "Quantum Life Science Sensing": 0.7440121173858643, "Quantum sensing Detection": 0.725167453289032, "Quantum sensing Metrology": 0.7389014363288879, "Quantum sensing navigation": 0.6963761448860168, "Quantum sensing Position": 0.699931263923645, "Quantum sensing Timing": 0.6840699911117554, "Quantum sensing": 0.7320122718811035, "Quantum control": 0.6829279661178589 } }, { "id": 5075, "title": "Pulse-shaped two-photon excitation of a fluorescent base analogue approaches single-molecule sensitivity", "abstract": "Fluorescent nucleobase analogues (FBAs) have many desirable features in comparison to extrinsic fluorescent labels, but they are yet to find application in ultrasensitive detection. Many of the disadv...", "citations": 21, "author_count": 9, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5082, "doi": "10.1039/c8cp05496g", "umap_coordinates": { "x": 392.34521484375, "y": 136.0233917236328, "z": 204.87571716308594 }, "tsne_coordinates": { "x": 6.529786586761475, "y": 5.575978755950928, "z": -2.9179294109344482 }, "pca_coordinates": { "x": -2.284388542175293, "y": -1.3410205841064453, "z": 0.4139859080314636 }, "axis_scores": { "Quantum imaging": 0.7151330709457397, "Quantum Life Science Sensing": 0.741159200668335, "Quantum sensing Detection": 0.736737072467804, "Quantum sensing Metrology": 0.6989047527313232, "Quantum sensing navigation": 0.6926859617233276, "Quantum sensing Position": 0.7056779265403748, "Quantum sensing Timing": 0.6957352161407471, "Quantum sensing": 0.7369357347488403, "Quantum control": 0.6889660954475403 } }, { "id": 5076, "title": "Manipulating spins of magnetic molecules: Hysteretic behavior with respect to bias voltage", "abstract": "Formation of a magnetic hysteresis loop with respect to a bias voltage is investigated theoretically in a spin-valve device based on a single magnetic molecule. We consider a device consisting of two ...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5083, "doi": "10.1209/0295-5075/121/38006", "umap_coordinates": { "x": 392.89788818359375, "y": 136.0529022216797, "z": 207.46116638183594 }, "tsne_coordinates": { "x": 12.86913776397705, "y": -15.782953262329102, "z": 20.04033088684082 }, "pca_coordinates": { "x": 0.3015120029449463, "y": 0.666187047958374, "z": -2.642233371734619 }, "axis_scores": { "Quantum imaging": 0.7106294631958008, "Quantum Life Science Sensing": 0.7084977030754089, "Quantum sensing Detection": 0.681928813457489, "Quantum sensing Metrology": 0.6775460243225098, "Quantum sensing navigation": 0.6926027536392212, "Quantum sensing Position": 0.6731352806091309, "Quantum sensing Timing": 0.6830699443817139, "Quantum sensing": 0.7031378746032715, "Quantum control": 0.7214691042900085 } }, { "id": 5077, "title": "Nonlinear optical response and two-photon biological applications of a new family of imidazole-pyrimidine derivatives", "abstract": "A series of novel D-pi-A type two-photon absorption (2PA) imidazole-pyrimidine derivatives (EX-1 similar to EX-4) have been synthesized and characterized, with EX-1 was crystallography confirmed. Base...", "citations": 17, "author_count": 11, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5084, "doi": "10.1016/j.dyepig.2015.11.026", "umap_coordinates": { "x": 393.1258239746094, "y": 135.05894470214844, "z": 204.67518615722656 }, "tsne_coordinates": { "x": 8.873238563537598, "y": 10.547191619873047, "z": -7.827401161193848 }, "pca_coordinates": { "x": -4.792541027069092, "y": -0.8092541694641113, "z": -0.025753796100616455 }, "axis_scores": { "Quantum imaging": 0.7481122016906738, "Quantum Life Science Sensing": 0.749435544013977, "Quantum sensing Detection": 0.7179325222969055, "Quantum sensing Metrology": 0.6996150016784668, "Quantum sensing navigation": 0.6961557865142822, "Quantum sensing Position": 0.688462495803833, "Quantum sensing Timing": 0.6656014323234558, "Quantum sensing": 0.72511225938797, "Quantum control": 0.6869614720344543 } }, { "id": 5078, "title": "Synthesis and photophysical characterisation of new fluorescent triazole adenine analogues", "abstract": "Fluorescent nucleic acid base analogues are powerful probes of DNA structure. Here we describe the synthesis and photo-physical characterisation of a series of 2-(4-amino-5-(1H-1,2,3-triazol-4-yl)-7H-...", "citations": 17, "author_count": 7, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5085, "doi": "10.1039/c4ob00904e", "umap_coordinates": { "x": 392.3690490722656, "y": 135.89239501953125, "z": 204.78611755371094 }, "tsne_coordinates": { "x": 3.4320642948150635, "y": 10.245646476745605, "z": 1.738845705986023 }, "pca_coordinates": { "x": -2.345470905303955, "y": -1.017871379852295, "z": -1.6572622060775757 }, "axis_scores": { "Quantum imaging": 0.710107147693634, "Quantum Life Science Sensing": 0.7337097525596619, "Quantum sensing Detection": 0.707156777381897, "Quantum sensing Metrology": 0.6943625211715698, "Quantum sensing navigation": 0.6930398344993591, "Quantum sensing Position": 0.6851452589035034, "Quantum sensing Timing": 0.6637827157974243, "Quantum sensing": 0.7148051857948303, "Quantum control": 0.6961908936500549 } }, { "id": 5079, "title": "Fluorescence-surface enhanced Raman scattering co-functionalized gold nanorods as near-infrared probes for purely optical in vivo imaging", "abstract": "Gold nanorods (GNRs) have been widely used for bio-imaging. However, GNRs assisted optical in vivo deep tissue imaging is severely restricted due to signal attenuation, low contrast, complex process o...", "citations": 151, "author_count": 6, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5086, "doi": "10.1016/j.biomaterials.2010.10.058", "umap_coordinates": { "x": 393.6923828125, "y": 133.7119140625, "z": 204.5811767578125 }, "tsne_coordinates": { "x": 10.67854118347168, "y": 21.740718841552734, "z": -13.219746589660645 }, "pca_coordinates": { "x": -5.472919464111328, "y": -1.1478843688964844, "z": 1.8184328079223633 }, "axis_scores": { "Quantum imaging": 0.7134568095207214, "Quantum Life Science Sensing": 0.7333719730377197, "Quantum sensing Detection": 0.7079415321350098, "Quantum sensing Metrology": 0.7041886448860168, "Quantum sensing navigation": 0.6862524747848511, "Quantum sensing Position": 0.6741920113563538, "Quantum sensing Timing": 0.6466971635818481, "Quantum sensing": 0.7170464992523193, "Quantum control": 0.6407470703125 } }, { "id": 5080, "title": "Carbon dot/polymer nanocomposites: From green synthesis to energy, environmental and biomedical applications", "abstract": "Carbon dots (CDs), a novel family of multifunctional carbon-nanomaterials, has the potential to revolutionize several important fields supporting the transformation to sustainable bioeconomy. CDs are ...", "citations": 150, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5087, "doi": "10.1016/j.susmat.2021.e00304", "umap_coordinates": { "x": 393.55438232421875, "y": 133.74642944335938, "z": 204.7999725341797 }, "tsne_coordinates": { "x": 17.750835418701172, "y": 20.106319427490234, "z": -6.5829291343688965 }, "pca_coordinates": { "x": -4.428459644317627, "y": -1.4761152267456055, "z": -0.40680980682373047 }, "axis_scores": { "Quantum imaging": 0.7147514224052429, "Quantum Life Science Sensing": 0.7523935437202454, "Quantum sensing Detection": 0.7126423120498657, "Quantum sensing Metrology": 0.7026142477989197, "Quantum sensing navigation": 0.702873170375824, "Quantum sensing Position": 0.7060714364051819, "Quantum sensing Timing": 0.666934072971344, "Quantum sensing": 0.7205098271369934, "Quantum control": 0.6931829452514648 } }, { "id": 5081, "title": "Fiber-based phase-sensitive optical amplifiers and their applications", "abstract": "Optical parametric amplifiers rely on second-order susceptibility (three-wave mixing) or third-order susceptibility (four-wave mixing) in a nonlinear process where the energy of incoming photons is no...", "citations": 89, "author_count": 3, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5088, "doi": "10.1364/AOP.382548", "umap_coordinates": { "x": 394.6475524902344, "y": 134.47509765625, "z": 206.45114135742188 }, "tsne_coordinates": { "x": -1.702111840248108, "y": -3.037076711654663, "z": -32.803768157958984 }, "pca_coordinates": { "x": -0.975563645362854, "y": 0.7820640802383423, "z": 1.8382093906402588 }, "axis_scores": { "Quantum imaging": 0.7214130163192749, "Quantum Life Science Sensing": 0.7091310024261475, "Quantum sensing Detection": 0.717484176158905, "Quantum sensing Metrology": 0.7148417830467224, "Quantum sensing navigation": 0.709730327129364, "Quantum sensing Position": 0.7076982259750366, "Quantum sensing Timing": 0.7051755785942078, "Quantum sensing": 0.7322319746017456, "Quantum control": 0.6912009119987488 } }, { "id": 5082, "title": "Functional Nanomaterials for Multifarious Nanomedicine", "abstract": "The field of nanomedicine is the medical application of nanotechnology. In a broader sense, nanomedicine is the process of diagnosing, treating, curing and preventing diseases; and also dealing with t...", "citations": 6, "author_count": 5, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5089, "doi": null, "umap_coordinates": { "x": 391.37481689453125, "y": 139.76168823242188, "z": 209.1479034423828 }, "tsne_coordinates": { "x": -6.022459030151367, "y": 44.96062469482422, "z": -9.681888580322266 }, "pca_coordinates": { "x": -4.159186363220215, "y": 1.5830966234207153, "z": -1.8036541938781738 }, "axis_scores": { "Quantum imaging": 0.7064617276191711, "Quantum Life Science Sensing": 0.7461052536964417, "Quantum sensing Detection": 0.6777009963989258, "Quantum sensing Metrology": 0.7090144157409668, "Quantum sensing navigation": 0.6854205131530762, "Quantum sensing Position": 0.6559194326400757, "Quantum sensing Timing": 0.628803551197052, "Quantum sensing": 0.6971553564071655, "Quantum control": 0.6794131994247437 } }, { "id": 5083, "title": "High quality and tuneable silica shell-magnetic core nanoparticles", "abstract": "Obtaining small (< 50 nm), monodispersed, well-separated, single iron oxide core-silica (SiO2) shell nanoparticles for biomedical applications is still a challenge. Preferably, they are synthesised by...", "citations": 109, "author_count": 7, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5090, "doi": "10.1007/s11051-009-9661-7", "umap_coordinates": { "x": 392.3282165527344, "y": 133.7475128173828, "z": 204.9541473388672 }, "tsne_coordinates": { "x": 22.059377670288086, "y": 0.3419025242328644, "z": -27.7124080657959 }, "pca_coordinates": { "x": -3.598130226135254, "y": -2.543020725250244, "z": -0.07601988315582275 }, "axis_scores": { "Quantum imaging": 0.6669906377792358, "Quantum Life Science Sensing": 0.6968125700950623, "Quantum sensing Detection": 0.6598418951034546, "Quantum sensing Metrology": 0.6765342950820923, "Quantum sensing navigation": 0.6699373126029968, "Quantum sensing Position": 0.6475705504417419, "Quantum sensing Timing": 0.6352953910827637, "Quantum sensing": 0.6876015663146973, "Quantum control": 0.6681596040725708 } }, { "id": 5084, "title": "PHITS - a particle and heavy ion transport code system", "abstract": "The paper presents a summary of the recent development of the multi-purpose Monte Carlo Particle and Heavy Ion Transport code System, PHITS. In particular, we discuss in detail the development of two ...", "citations": 306, "author_count": 7, "categories": [ "Nuclear Science & Technology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5091, "doi": "10.1016/j.radmeas.2006.07.013", "umap_coordinates": { "x": 395.4170227050781, "y": 133.13587951660156, "z": 206.00350952148438 }, "tsne_coordinates": { "x": -18.220857620239258, "y": 28.47557830810547, "z": 7.0190324783325195 }, "pca_coordinates": { "x": -1.8315563201904297, "y": 2.346116542816162, "z": 1.8483376502990723 }, "axis_scores": { "Quantum imaging": 0.7290380001068115, "Quantum Life Science Sensing": 0.7219752073287964, "Quantum sensing Detection": 0.7107793092727661, "Quantum sensing Metrology": 0.7111257314682007, "Quantum sensing navigation": 0.7114171981811523, "Quantum sensing Position": 0.7167550921440125, "Quantum sensing Timing": 0.7189925312995911, "Quantum sensing": 0.7300732135772705, "Quantum control": 0.6729416847229004 } }, { "id": 5085, "title": "Quantum field theory and distance effects for polarization correlations in waveguides", "abstract": "Quantization of Maxwell's equations in waveguides is considered together with an analysis of the quantum correction function of the radiation field. Both the spatial and temporal dependence of the pol...", "citations": 8, "author_count": 5, "categories": [ "Mathematics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5092, "doi": null, "umap_coordinates": { "x": 391.8444519042969, "y": 139.34983825683594, "z": 208.9691925048828 }, "tsne_coordinates": { "x": -12.676362037658691, "y": 39.462989807128906, "z": -6.512970924377441 }, "pca_coordinates": { "x": 1.2054626941680908, "y": 3.0033137798309326, "z": 0.11276918649673462 }, "axis_scores": { "Quantum imaging": 0.7646619081497192, "Quantum Life Science Sensing": 0.7443781495094299, "Quantum sensing Detection": 0.7565563917160034, "Quantum sensing Metrology": 0.7473602890968323, "Quantum sensing navigation": 0.7743229269981384, "Quantum sensing Position": 0.7612751722335815, "Quantum sensing Timing": 0.7382472157478333, "Quantum sensing": 0.7632582187652588, "Quantum control": 0.7330143451690674 } }, { "id": 5086, "title": "Rapid Classification of Quantum Sources Enabled by Machine Learning", "abstract": "Deterministic nanoassembly may enable unique integrated on-chip quantum photonic devices. Such integration requires a careful large-scale selection of nanoscale building blocks such as solid-state sin...", "citations": 38, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5093, "doi": "10.1002/qute.202000067", "umap_coordinates": { "x": 394.3406677246094, "y": 135.98182678222656, "z": 205.70684814453125 }, "tsne_coordinates": { "x": -13.771795272827148, "y": -18.29559898376465, "z": -32.5218620300293 }, "pca_coordinates": { "x": -0.37717974185943604, "y": 0.5204823017120361, "z": 0.4626156687736511 }, "axis_scores": { "Quantum imaging": 0.7634909749031067, "Quantum Life Science Sensing": 0.7486558556556702, "Quantum sensing Detection": 0.7713727951049805, "Quantum sensing Metrology": 0.7468213438987732, "Quantum sensing navigation": 0.7539355158805847, "Quantum sensing Position": 0.7097006440162659, "Quantum sensing Timing": 0.7457823157310486, "Quantum sensing": 0.7717983722686768, "Quantum control": 0.7308879494667053 } }, { "id": 5087, "title": "MEMS for Photonic Integrated Circuits", "abstract": "The field of microelectromechanical systems (MEMS) for photonic integrated circuits (PICs) is reviewed. This field leverages mechanics at the nanometer to micrometer scale to improve existing componen...", "citations": 129, "author_count": 7, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5094, "doi": "10.1109/JSTQE.2019.2943384", "umap_coordinates": { "x": 394.32720947265625, "y": 133.6654510498047, "z": 206.45556640625 }, "tsne_coordinates": { "x": 0.2438640296459198, "y": 0.9813142418861389, "z": -34.60532760620117 }, "pca_coordinates": { "x": -0.6469682455062866, "y": -1.9056787490844727, "z": 1.6120195388793945 }, "axis_scores": { "Quantum imaging": 0.7264864444732666, "Quantum Life Science Sensing": 0.7522901296615601, "Quantum sensing Detection": 0.731168270111084, "Quantum sensing Metrology": 0.7487295866012573, "Quantum sensing navigation": 0.7278506755828857, "Quantum sensing Position": 0.7051297426223755, "Quantum sensing Timing": 0.714451789855957, "Quantum sensing": 0.7434511184692383, "Quantum control": 0.7218005061149597 } }, { "id": 5088, "title": "TIME-RESOLVED LASER-INDUCED FLUORESCENCE SPECTROSCOPY FOR ENHANCED DEMARCATION OF HUMAN ATHEROSCLEROTIC PLAQUES", "abstract": "We report on the enhanced demarcation between human atherosclerotic plaques and normal vessel wall obtained using time-resolved detection of laser-induced fluorescence rather than the customary time-i...", "citations": 29, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1990, "topic": [ "all" ], "embedding_index": 5095, "doi": "10.1016/1011-1344(90)85015-O", "umap_coordinates": { "x": 394.2508239746094, "y": 134.17604064941406, "z": 204.90151977539062 }, "tsne_coordinates": { "x": -1.1274917125701904, "y": 22.17917251586914, "z": -7.554738998413086 }, "pca_coordinates": { "x": -4.174229145050049, "y": 0.8034708499908447, "z": 0.36253923177719116 }, "axis_scores": { "Quantum imaging": 0.6698907017707825, "Quantum Life Science Sensing": 0.6677142381668091, "Quantum sensing Detection": 0.6404597163200378, "Quantum sensing Metrology": 0.6385077834129333, "Quantum sensing navigation": 0.635730504989624, "Quantum sensing Position": 0.6363089680671692, "Quantum sensing Timing": 0.6409745216369629, "Quantum sensing": 0.6452697515487671, "Quantum control": 0.6053798198699951 } }, { "id": 5089, "title": "Chiral spin liquids with crystalline Z2 gauge order in a three-dimensional Kitaev model", "abstract": "Chiral spin liquids (CSLs) are time-reversal-symmetry-breaking ground states of frustrated quantum magnets that show no long-range magnetic ordering but instead exhibit topological order and fractiona...", "citations": 8, "author_count": 9, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5096, "doi": "10.1103/PhysRevB.101.045118", "umap_coordinates": { "x": 394.5605773925781, "y": 137.18051147460938, "z": 208.57872009277344 }, "tsne_coordinates": { "x": -19.39305877685547, "y": -28.288192749023438, "z": 21.952449798583984 }, "pca_coordinates": { "x": 3.8937439918518066, "y": -0.6090834140777588, "z": -1.2736804485321045 }, "axis_scores": { "Quantum imaging": 0.6938968896865845, "Quantum Life Science Sensing": 0.676720380783081, "Quantum sensing Detection": 0.6729800701141357, "Quantum sensing Metrology": 0.6791788935661316, "Quantum sensing navigation": 0.7153404951095581, "Quantum sensing Position": 0.6607033014297485, "Quantum sensing Timing": 0.6621906757354736, "Quantum sensing": 0.6908174157142639, "Quantum control": 0.6977753639221191 } }, { "id": 5090, "title": "Optimum drift velocity for single molecule fluorescence bursts in micro/nano-fluidic channels", "abstract": "Photonic burst histograms can be used to identify single protein molecules in micro/nano-fluidic channels provided the width of the histogram is narrow. Photonic shot noise and residence time fluctuat...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5097, "doi": "10.1063/1.4739471", "umap_coordinates": { "x": 394.5539855957031, "y": 134.34751892089844, "z": 207.45948791503906 }, "tsne_coordinates": { "x": -19.019454956054688, "y": -16.197696685791016, "z": -28.80496597290039 }, "pca_coordinates": { "x": -0.3693593144416809, "y": -0.1022944450378418, "z": 0.2516312599182129 }, "axis_scores": { "Quantum imaging": 0.6769730448722839, "Quantum Life Science Sensing": 0.6978651285171509, "Quantum sensing Detection": 0.6703357696533203, "Quantum sensing Metrology": 0.6703890562057495, "Quantum sensing navigation": 0.6940999627113342, "Quantum sensing Position": 0.6822571754455566, "Quantum sensing Timing": 0.6849260330200195, "Quantum sensing": 0.6788688898086548, "Quantum control": 0.6593575477600098 } }, { "id": 5091, "title": "A scheme of measurement of quantum-vacuum geometric phases in a noncoplanar fibre system", "abstract": "We study the quantum-vacuum geometric phases resulting from the vacuum fluctuation of photon fields in a Tomita-Chiao-Wu noncoplanar curved fibre system, and suggest a scheme to test for the potential...", "citations": 12, "author_count": 2, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5098, "doi": "10.1088/1464-4266/6/7/L01", "umap_coordinates": { "x": 395.1976318359375, "y": 136.48204040527344, "z": 206.9637451171875 }, "tsne_coordinates": { "x": -21.52315902709961, "y": 2.52641224861145, "z": -9.493163108825684 }, "pca_coordinates": { "x": 1.4646542072296143, "y": 3.5798308849334717, "z": 2.342463970184326 }, "axis_scores": { "Quantum imaging": 0.7434537410736084, "Quantum Life Science Sensing": 0.7360090017318726, "Quantum sensing Detection": 0.7261937856674194, "Quantum sensing Metrology": 0.7489568591117859, "Quantum sensing navigation": 0.755884051322937, "Quantum sensing Position": 0.7616591453552246, "Quantum sensing Timing": 0.7313075661659241, "Quantum sensing": 0.7393478155136108, "Quantum control": 0.7063648700714111 } }, { "id": 5092, "title": "One photon-per-bit receiver using near-noiseless phase-sensitive amplification", "abstract": "Space communication for deep-space missions, inter-satellite data transfer and Earth monitoring requires high-speed data connectivity. The reach is fundamentally dictated by the available transmission...", "citations": 56, "author_count": 4, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5099, "doi": "10.1038/s41377-020-00389-2", "umap_coordinates": { "x": 394.812255859375, "y": 133.92739868164062, "z": 206.84255981445312 }, "tsne_coordinates": { "x": -6.212459564208984, "y": -2.337151288986206, "z": -25.533769607543945 }, "pca_coordinates": { "x": -1.1179828643798828, "y": -0.4978525638580322, "z": 5.562331676483154 }, "axis_scores": { "Quantum imaging": 0.7285847067832947, "Quantum Life Science Sensing": 0.7277829051017761, "Quantum sensing Detection": 0.7502385377883911, "Quantum sensing Metrology": 0.738548994064331, "Quantum sensing navigation": 0.7225334644317627, "Quantum sensing Position": 0.7103596329689026, "Quantum sensing Timing": 0.7121556997299194, "Quantum sensing": 0.7453644275665283, "Quantum control": 0.6679327487945557 } }, { "id": 5093, "title": "Photodesorption of water ice A molecular dynamics study", "abstract": "Context. Absorption of ultraviolet radiation by water ice coating interstellar grains can lead to dissociation and desorption of the ice molecules. These processes are thought to be important in the g...", "citations": 167, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5100, "doi": "10.1051/0004-6361:200810374", "umap_coordinates": { "x": 393.26959228515625, "y": 136.62139892578125, "z": 205.99295043945312 }, "tsne_coordinates": { "x": -1.088523507118225, "y": 5.567869663238525, "z": 30.735124588012695 }, "pca_coordinates": { "x": 0.5380926132202148, "y": 0.6660196781158447, "z": -0.7922084927558899 }, "axis_scores": { "Quantum imaging": 0.7159731388092041, "Quantum Life Science Sensing": 0.7404271364212036, "Quantum sensing Detection": 0.7041725516319275, "Quantum sensing Metrology": 0.6712051033973694, "Quantum sensing navigation": 0.6968832612037659, "Quantum sensing Position": 0.6638325452804565, "Quantum sensing Timing": 0.6556117534637451, "Quantum sensing": 0.7081851363182068, "Quantum control": 0.6973797678947449 } }, { "id": 5094, "title": "Hard X-ray-emitting black hole fed by accretion of low angular momentum matter", "abstract": "Observed spectra of active galactic nuclei and luminous X-ray binaries in our Galaxy suggest that both hot (similar to 10(9) K) and cold (similar to 10(6) K) plasma components exist close to the centr...", "citations": 11, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5101, "doi": "10.1086/312016", "umap_coordinates": { "x": 395.8460693359375, "y": 135.1356964111328, "z": 206.196044921875 }, "tsne_coordinates": { "x": -25.767444610595703, "y": 26.70466423034668, "z": 1.9834500551223755 }, "pca_coordinates": { "x": -0.05700969696044922, "y": 2.1861448287963867, "z": 1.242232084274292 }, "axis_scores": { "Quantum imaging": 0.6542856693267822, "Quantum Life Science Sensing": 0.6599505543708801, "Quantum sensing Detection": 0.6517413854598999, "Quantum sensing Metrology": 0.6311151385307312, "Quantum sensing navigation": 0.6562200784683228, "Quantum sensing Position": 0.643165111541748, "Quantum sensing Timing": 0.6242645978927612, "Quantum sensing": 0.6552249789237976, "Quantum control": 0.6290882229804993 } }, { "id": 5095, "title": "Seeing better at night: life style, eye design and the optimum strategy of spatial and temporal summation", "abstract": "Animals which need to see well at night generally have eyes with wide pupils. This optical strategy to improve photon capture may be improved neurally by summing the outputs of neighbouring visual cha...", "citations": 305, "author_count": 2, "categories": [ "Neurosciences & Neurology" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5102, "doi": "10.1016/S0042-6989(98)00262-4", "umap_coordinates": { "x": 394.36822509765625, "y": 135.04405212402344, "z": 204.43531799316406 }, "tsne_coordinates": { "x": -5.9323577880859375, "y": 20.195585250854492, "z": -5.233455181121826 }, "pca_coordinates": { "x": -4.028885841369629, "y": 1.9317277669906616, "z": 0.8375183939933777 }, "axis_scores": { "Quantum imaging": 0.6803236603736877, "Quantum Life Science Sensing": 0.7056310176849365, "Quantum sensing Detection": 0.6543480753898621, "Quantum sensing Metrology": 0.658562421798706, "Quantum sensing navigation": 0.6867899894714355, "Quantum sensing Position": 0.6820163130760193, "Quantum sensing Timing": 0.6738935708999634, "Quantum sensing": 0.6741119027137756, "Quantum control": 0.6536974310874939 } }, { "id": 5096, "title": "Inkjet Printing of MoS2", "abstract": "A simple and efficient inkjet printing technology is developed for molybdenum disulfide (MoS2), one of the most attractive two-dimensional layered materials. The technology effectively addresses criti...", "citations": 250, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5103, "doi": "10.1002/adfm.201400984", "umap_coordinates": { "x": 392.72161865234375, "y": 133.65330505371094, "z": 205.22805786132812 }, "tsne_coordinates": { "x": 33.696266174316406, "y": 16.947349548339844, "z": -1.7367935180664062 }, "pca_coordinates": { "x": -2.704869270324707, "y": -2.3156485557556152, "z": -0.6934192180633545 }, "axis_scores": { "Quantum imaging": 0.7333837747573853, "Quantum Life Science Sensing": 0.7329933047294617, "Quantum sensing Detection": 0.7195236086845398, "Quantum sensing Metrology": 0.7292221784591675, "Quantum sensing navigation": 0.7069726586341858, "Quantum sensing Position": 0.6955780386924744, "Quantum sensing Timing": 0.6937229633331299, "Quantum sensing": 0.7377309799194336, "Quantum control": 0.7129400968551636 } }, { "id": 5097, "title": "Copper indium gallium diselenide thin films for sun angle detectors in space applications", "abstract": "This work reports on processing, analysis and characterization of copper indium gallium diselenide (CIGS) used as a photosensitive layer for sensors such as sun angle detectors in space applications. ...", "citations": 7, "author_count": 3, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5104, "doi": "10.1016/j.tsf.2008.10.028", "umap_coordinates": { "x": 393.7371826171875, "y": 133.44737243652344, "z": 205.53921508789062 }, "tsne_coordinates": { "x": 38.72581481933594, "y": 11.081615447998047, "z": -1.2432507276535034 }, "pca_coordinates": { "x": -3.291548728942871, "y": -1.160965919494629, "z": 0.5066218972206116 }, "axis_scores": { "Quantum imaging": 0.6807724833488464, "Quantum Life Science Sensing": 0.7156433463096619, "Quantum sensing Detection": 0.683509886264801, "Quantum sensing Metrology": 0.6771918535232544, "Quantum sensing navigation": 0.673352837562561, "Quantum sensing Position": 0.6849088668823242, "Quantum sensing Timing": 0.694902777671814, "Quantum sensing": 0.6889325976371765, "Quantum control": 0.6708973050117493 } }, { "id": 5098, "title": "Optical tuning of planar photonic crystals infiltrated with organic molecules", "abstract": "The optical tuning of InP-based planar photonic crystals (PhCs) infiltrated with a photoresponsive liquid crystal system is presented. Photoinduced phase transitions of a liquid crystal blend doped wi...", "citations": 33, "author_count": 9, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5105, "doi": "10.1364/JOSAB.24.002165", "umap_coordinates": { "x": 393.8481140136719, "y": 134.31031799316406, "z": 206.41053771972656 }, "tsne_coordinates": { "x": 0.5331176519393921, "y": -14.1649808883667, "z": -28.321645736694336 }, "pca_coordinates": { "x": -1.378737449645996, "y": -1.6659302711486816, "z": 0.3717896342277527 }, "axis_scores": { "Quantum imaging": 0.7532063722610474, "Quantum Life Science Sensing": 0.7175683379173279, "Quantum sensing Detection": 0.7113733887672424, "Quantum sensing Metrology": 0.7151188850402832, "Quantum sensing navigation": 0.7228543758392334, "Quantum sensing Position": 0.67964106798172, "Quantum sensing Timing": 0.6834506392478943, "Quantum sensing": 0.739028811454773, "Quantum control": 0.7309103608131409 } }, { "id": 5099, "title": "Radar-Centric Photonic Terahertz Integrated Sensing and Communication System Based on LFM-PSK Waveform", "abstract": "The radar-centric terahertz integrated sensing and communication (THz-ISAC) is identified as a significant application in future wireless access networks. Up to date, previously reported demonstration...", "citations": 42, "author_count": 12, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5106, "doi": "10.1109/TMTT.2023.3267546", "umap_coordinates": { "x": 394.8470764160156, "y": 133.86378479003906, "z": 206.5924072265625 }, "tsne_coordinates": { "x": 3.3292694091796875, "y": -0.9234675168991089, "z": -38.161590576171875 }, "pca_coordinates": { "x": -1.382783055305481, "y": 0.5819895267486572, "z": 2.166299343109131 }, "axis_scores": { "Quantum imaging": 0.713437020778656, "Quantum Life Science Sensing": 0.743144154548645, "Quantum sensing Detection": 0.7138563394546509, "Quantum sensing Metrology": 0.7401586771011353, "Quantum sensing navigation": 0.7134422063827515, "Quantum sensing Position": 0.6839004755020142, "Quantum sensing Timing": 0.7114244103431702, "Quantum sensing": 0.7217685580253601, "Quantum control": 0.6841093301773071 } }, { "id": 5100, "title": "Phenomenological position and energy resolving Lindblad approach to quantum kinetics", "abstract": "A general theoretical approach to study the quantum kinetics in a system coupled to a bath is proposed. Starting with the microscopic interaction, a Lindblad master equation is established, which goes...", "citations": 60, "author_count": 4, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5107, "doi": "10.1103/PhysRevB.97.035432", "umap_coordinates": { "x": 393.7323913574219, "y": 137.30076599121094, "z": 206.64532470703125 }, "tsne_coordinates": { "x": -22.49754524230957, "y": -15.309205055236816, "z": 12.38244342803955 }, "pca_coordinates": { "x": 2.495239734649658, "y": 0.43041276931762695, "z": -1.8295464515686035 }, "axis_scores": { "Quantum imaging": 0.7049514651298523, "Quantum Life Science Sensing": 0.7195310592651367, "Quantum sensing Detection": 0.710885763168335, "Quantum sensing Metrology": 0.6935961842536926, "Quantum sensing navigation": 0.7449260950088501, "Quantum sensing Position": 0.7835240364074707, "Quantum sensing Timing": 0.7220114469528198, "Quantum sensing": 0.7158968448638916, "Quantum control": 0.6829034090042114 } }, { "id": 5101, "title": "A general approach to quantum Hall hierarchies", "abstract": "The Abelian hierarchy of quantum Hall states accounts for most of the states in the lowest Landau level, and there is evidence of a similar hierarchy of non-Abelian states emanating from the nu = 5/2 ...", "citations": 17, "author_count": 4, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5108, "doi": "10.1088/1367-2630/13/7/075006", "umap_coordinates": { "x": 394.83819580078125, "y": 137.79844665527344, "z": 207.55844116210938 }, "tsne_coordinates": { "x": -40.71823501586914, "y": -4.1265740394592285, "z": 3.6007540225982666 }, "pca_coordinates": { "x": 2.5069823265075684, "y": 3.6488780975341797, "z": -1.6047027111053467 }, "axis_scores": { "Quantum imaging": 0.6887895464897156, "Quantum Life Science Sensing": 0.6792535185813904, "Quantum sensing Detection": 0.6719175577163696, "Quantum sensing Metrology": 0.6639658808708191, "Quantum sensing navigation": 0.7050266265869141, "Quantum sensing Position": 0.6579636335372925, "Quantum sensing Timing": 0.6481937766075134, "Quantum sensing": 0.6916038990020752, "Quantum control": 0.6962951421737671 } }, { "id": 5102, "title": "First principles calculation of spin-related quantities for point defect qubit research", "abstract": "Point defect research in semiconductors has gained remarkable new momentum due to the identification of special point defects that can implement qubits and single photon emitters with unique character...", "citations": 99, "author_count": 4, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5109, "doi": "10.1038/s41524-018-0132-5", "umap_coordinates": { "x": 393.400146484375, "y": 136.43472290039062, "z": 206.58694458007812 }, "tsne_coordinates": { "x": 6.080465316772461, "y": -12.494473457336426, "z": 8.310959815979004 }, "pca_coordinates": { "x": 0.9793784618377686, "y": -0.41530275344848633, "z": 0.36503392457962036 }, "axis_scores": { "Quantum imaging": 0.71136474609375, "Quantum Life Science Sensing": 0.7337908148765564, "Quantum sensing Detection": 0.7065172791481018, "Quantum sensing Metrology": 0.7155953049659729, "Quantum sensing navigation": 0.7124207615852356, "Quantum sensing Position": 0.7264092564582825, "Quantum sensing Timing": 0.6981753706932068, "Quantum sensing": 0.7226541638374329, "Quantum control": 0.6874857544898987 } }, { "id": 5103, "title": "Study of noise in virtual distillation circuits for quantum error mitigation", "abstract": "Virtual distillation has been proposed as an error mitigation protocol for estimating the expectation values of observables in quantum algorithms. It proceeds by creating a cyclic permutation of M noi...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5110, "doi": null, "umap_coordinates": { "x": 391.82672119140625, "y": 139.34751892089844, "z": 209.11676025390625 }, "tsne_coordinates": { "x": -11.01171875, "y": 43.86164093017578, "z": -0.07879932969808578 }, "pca_coordinates": { "x": 1.6443750858306885, "y": 4.302464485168457, "z": -0.05262237787246704 }, "axis_scores": { "Quantum imaging": 0.7524738311767578, "Quantum Life Science Sensing": 0.7484517097473145, "Quantum sensing Detection": 0.7712439298629761, "Quantum sensing Metrology": 0.7593544125556946, "Quantum sensing navigation": 0.7905951738357544, "Quantum sensing Position": 0.7524811625480652, "Quantum sensing Timing": 0.7361154556274414, "Quantum sensing": 0.771297037601471, "Quantum control": 0.7663159966468811 } }, { "id": 5104, "title": "High-Brightness Perovskite Light-Emitting Diodes Based on FAPbBr3 Nanocrystals with Rationally Designed Aromatic Ligands", "abstract": "Despite rapid developments of light-emitting diodes (LEDs) based on emerging perovskite nanocrystals (PeNCs), it remains challenging to achieve devices with integrated high efficiencies and high brigh...", "citations": 119, "author_count": 14, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5111, "doi": "10.1021/acsenergylett.1c00812", "umap_coordinates": { "x": 391.60894775390625, "y": 133.7828826904297, "z": 205.31594848632812 }, "tsne_coordinates": { "x": 19.37379264831543, "y": -1.8366262912750244, "z": -21.33624267578125 }, "pca_coordinates": { "x": -3.563120126724243, "y": -4.340933322906494, "z": -1.4682607650756836 }, "axis_scores": { "Quantum imaging": 0.668167233467102, "Quantum Life Science Sensing": 0.662117063999176, "Quantum sensing Detection": 0.6520825624465942, "Quantum sensing Metrology": 0.6402819752693176, "Quantum sensing navigation": 0.6444034576416016, "Quantum sensing Position": 0.6255669593811035, "Quantum sensing Timing": 0.6276623606681824, "Quantum sensing": 0.667157769203186, "Quantum control": 0.6500040292739868 } }, { "id": 5105, "title": "Multiscale in modelling and validation for solar photovoltaics", "abstract": "Photovoltaics is amongst the most important technologies for renewable energy sources, and plays a key role in the development of a society with a smaller environmental footprint. Key parameters for s...", "citations": 6, "author_count": 83, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5112, "doi": "10.1051/epjpv/2018008", "umap_coordinates": { "x": 394.17437744140625, "y": 135.7490997314453, "z": 205.0216064453125 }, "tsne_coordinates": { "x": 2.3806018829345703, "y": 12.270686149597168, "z": 19.98533821105957 }, "pca_coordinates": { "x": -1.395984172821045, "y": 0.140883207321167, "z": 0.16613084077835083 }, "axis_scores": { "Quantum imaging": 0.701878547668457, "Quantum Life Science Sensing": 0.7338855266571045, "Quantum sensing Detection": 0.6879716515541077, "Quantum sensing Metrology": 0.7002875804901123, "Quantum sensing navigation": 0.6979849338531494, "Quantum sensing Position": 0.6768212914466858, "Quantum sensing Timing": 0.6694185137748718, "Quantum sensing": 0.7035303711891174, "Quantum control": 0.6871632933616638 } }, { "id": 5106, "title": "Two-Photon Fluorescence and Magnetic Resonance Specific Imaging of Aβ Amyloid Using Hybrid Nano-GdF3 Contrast Media", "abstract": "Real time in vivo detection of Amyloid beta (A beta) deposits at an early stage may lead to faster and more conclusive diagnosis of Alzheimer's disease (AD) and can facilitate the follow up of the eff...", "citations": 22, "author_count": 19, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5113, "doi": "10.1021/acsabm.8b00191", "umap_coordinates": { "x": 393.5421447753906, "y": 133.94393920898438, "z": 205.0344696044922 }, "tsne_coordinates": { "x": 4.2399702072143555, "y": 22.27803611755371, "z": -2.447575807571411 }, "pca_coordinates": { "x": -3.5633482933044434, "y": -1.5419807434082031, "z": -0.03351110219955444 }, "axis_scores": { "Quantum imaging": 0.7186625599861145, "Quantum Life Science Sensing": 0.7042668461799622, "Quantum sensing Detection": 0.6808013916015625, "Quantum sensing Metrology": 0.6757422685623169, "Quantum sensing navigation": 0.6767560839653015, "Quantum sensing Position": 0.6220654249191284, "Quantum sensing Timing": 0.6134849786758423, "Quantum sensing": 0.6878011226654053, "Quantum control": 0.6369330883026123 } }, { "id": 5107, "title": "Orbital and spin magnetic moments of transforming one-dimensional iron inside metallic and semiconducting carbon nanotubes", "abstract": "The orbital and spin magnetic properties of iron inside metallic and semiconducting carbon nanotubes are studied by means of local x-ray magnetic circular dichroism (XMCD) and bulk superconducting qua...", "citations": 22, "author_count": 11, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5114, "doi": "10.1103/PhysRevB.87.195435", "umap_coordinates": { "x": 393.4762878417969, "y": 136.18734741210938, "z": 208.89218139648438 }, "tsne_coordinates": { "x": 6.502040386199951, "y": -33.98731994628906, "z": 17.220613479614258 }, "pca_coordinates": { "x": 3.0683422088623047, "y": -1.0309386253356934, "z": -1.1221141815185547 }, "axis_scores": { "Quantum imaging": 0.7208093404769897, "Quantum Life Science Sensing": 0.7270391583442688, "Quantum sensing Detection": 0.7013230919837952, "Quantum sensing Metrology": 0.7038501501083374, "Quantum sensing navigation": 0.7064424753189087, "Quantum sensing Position": 0.6680092811584473, "Quantum sensing Timing": 0.6699979901313782, "Quantum sensing": 0.7168099284172058, "Quantum control": 0.6887838244438171 } }, { "id": 5108, "title": "Supercurrent and Multiple Andreev Reflections in an InSb Nanowire Josephson Junction", "abstract": "Epitaxially grown, high quality semiconductor InSb nanowires are emerging material systems for the development of high performance nanoelectronics and quantum information processing and communication ...", "citations": 94, "author_count": 5, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5115, "doi": "10.1021/nl203380w", "umap_coordinates": { "x": 393.1395263671875, "y": 134.30177307128906, "z": 207.98672485351562 }, "tsne_coordinates": { "x": 13.974931716918945, "y": -16.384859085083008, "z": 1.074100375175476 }, "pca_coordinates": { "x": 0.8624460697174072, "y": -4.500718593597412, "z": 1.6044466495513916 }, "axis_scores": { "Quantum imaging": 0.6623338460922241, "Quantum Life Science Sensing": 0.6649212837219238, "Quantum sensing Detection": 0.6597748398780823, "Quantum sensing Metrology": 0.653017520904541, "Quantum sensing navigation": 0.668207585811615, "Quantum sensing Position": 0.6536201238632202, "Quantum sensing Timing": 0.6498581171035767, "Quantum sensing": 0.6639819145202637, "Quantum control": 0.6062529683113098 } }, { "id": 5109, "title": "Accessing metal-specific orbital interactions in C-H activation with resonant inelastic X-ray scattering", "abstract": "Photochemically prepared transition-metal complexes are known to be effective at cleaving the strong C-H bonds of organic molecules in room temperature solutions. There is also ample theoretical evide...", "citations": 3, "author_count": 21, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5116, "doi": "10.1039/d3sc04388f", "umap_coordinates": { "x": 391.96148681640625, "y": 135.71974182128906, "z": 206.25587463378906 }, "tsne_coordinates": { "x": 6.011831760406494, "y": -45.93673324584961, "z": 3.019170045852661 }, "pca_coordinates": { "x": -0.6729416847229004, "y": -0.23485374450683594, "z": -1.3271595239639282 }, "axis_scores": { "Quantum imaging": 0.6611799001693726, "Quantum Life Science Sensing": 0.656520426273346, "Quantum sensing Detection": 0.6513425707817078, "Quantum sensing Metrology": 0.626876711845398, "Quantum sensing navigation": 0.6391177177429199, "Quantum sensing Position": 0.6154745817184448, "Quantum sensing Timing": 0.6322578191757202, "Quantum sensing": 0.658316433429718, "Quantum control": 0.6214507818222046 } }, { "id": 5110, "title": "Fabrication of graphene quantum Hall resistance standard in a cryogen-free table-top system", "abstract": "We have demonstrated quantum Hall resistance measurements with metrological accuracy in a relatively easy to use and compact cryogen-free system operating at a temperature of around 3.8 K and magnetic...", "citations": 1, "author_count": 8, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5117, "doi": null, "umap_coordinates": { "x": 391.8825378417969, "y": 139.51808166503906, "z": 209.3975067138672 }, "tsne_coordinates": { "x": -9.462605476379395, "y": 48.706180572509766, "z": 4.179440975189209 }, "pca_coordinates": { "x": 0.5627646446228027, "y": 3.2359321117401123, "z": -1.7369041442871094 }, "axis_scores": { "Quantum imaging": 0.7055444717407227, "Quantum Life Science Sensing": 0.7350363731384277, "Quantum sensing Detection": 0.7119539976119995, "Quantum sensing Metrology": 0.7230571508407593, "Quantum sensing navigation": 0.7298426628112793, "Quantum sensing Position": 0.7076475024223328, "Quantum sensing Timing": 0.7002568244934082, "Quantum sensing": 0.7282370328903198, "Quantum control": 0.7266486287117004 } }, { "id": 5111, "title": "A measurement of the photon structure function F-2(gamma) at an average Q(2) of 12 GeV2/c(4)", "abstract": "The hadronic photon structure function F-2(gamma) has been measured in the Q(2) range from 4 to 30 GeV2/c(4) and down to x values of order 0.001, using data taken with the DELPHI detector at LEP betwe...", "citations": 61, "author_count": 539, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 5118, "doi": "10.1007/s002880050022", "umap_coordinates": { "x": 395.87823486328125, "y": 134.7550811767578, "z": 206.35545349121094 }, "tsne_coordinates": { "x": -23.71828842163086, "y": 11.317484855651855, "z": -11.486185073852539 }, "pca_coordinates": { "x": -2.1326897144317627, "y": 1.3928556442260742, "z": 1.6220381259918213 }, "axis_scores": { "Quantum imaging": 0.7069293260574341, "Quantum Life Science Sensing": 0.7193607687950134, "Quantum sensing Detection": 0.6903635263442993, "Quantum sensing Metrology": 0.6916806101799011, "Quantum sensing navigation": 0.6974082589149475, "Quantum sensing Position": 0.6796027421951294, "Quantum sensing Timing": 0.6716216802597046, "Quantum sensing": 0.6960480809211731, "Quantum control": 0.6701677441596985 } }, { "id": 5112, "title": "Light output measurements and computational models of microcolumnar CsI scintillators for x-ray imaging", "abstract": "Purpose: The authors report on measurements of light output and spatial resolution of microcolumnar CsI:Tl scintillator detectors for x-ray imaging. In addition, the authors discuss the results of sim...", "citations": 29, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5119, "doi": "10.1118/1.4905096", "umap_coordinates": { "x": 395.5155334472656, "y": 132.99911499023438, "z": 205.85836791992188 }, "tsne_coordinates": { "x": -15.39845085144043, "y": 15.721816062927246, "z": -25.700963973999023 }, "pca_coordinates": { "x": -2.0519635677337646, "y": 1.2891104221343994, "z": 2.5735058784484863 }, "axis_scores": { "Quantum imaging": 0.7531704306602478, "Quantum Life Science Sensing": 0.7245672345161438, "Quantum sensing Detection": 0.7194737195968628, "Quantum sensing Metrology": 0.7246538996696472, "Quantum sensing navigation": 0.7117589712142944, "Quantum sensing Position": 0.6991138458251953, "Quantum sensing Timing": 0.6977572441101074, "Quantum sensing": 0.7336708307266235, "Quantum control": 0.6803683042526245 } }, { "id": 5113, "title": "Reversal of Zeeman splitting in InGaAs/InP quantum wires in high magnetic field", "abstract": "We report interband circularly polarized magneto-photoluminescence results for In0.53Ga0.47As quantum wires of various widths in magnetic fields up to 28 T. The experimental results reveal a highly wi...", "citations": 4, "author_count": 8, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5120, "doi": "10.1143/JJAP.36.1933", "umap_coordinates": { "x": 392.9752502441406, "y": 135.64210510253906, "z": 208.59657287597656 }, "tsne_coordinates": { "x": 12.781133651733398, "y": -25.198434829711914, "z": 14.044557571411133 }, "pca_coordinates": { "x": 3.4000163078308105, "y": -1.420454740524292, "z": -1.4824113845825195 }, "axis_scores": { "Quantum imaging": 0.717484712600708, "Quantum Life Science Sensing": 0.6892038583755493, "Quantum sensing Detection": 0.6809095740318298, "Quantum sensing Metrology": 0.6787108778953552, "Quantum sensing navigation": 0.7138383388519287, "Quantum sensing Position": 0.6872406601905823, "Quantum sensing Timing": 0.6788033843040466, "Quantum sensing": 0.6972813606262207, "Quantum control": 0.6941182613372803 } }, { "id": 5114, "title": "Efficient simulation of Gottesman-Kitaev-Preskill states with Gaussian circuits", "abstract": "We study the classical simulatability of Gottesman-Kitaev-Preskill (GKP) states in combination with arbitrary displacements, a large set of symplectic operations and homodyne measurements. For these t...", "citations": 11, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5121, "doi": null, "umap_coordinates": { "x": 391.9908142089844, "y": 139.469970703125, "z": 209.02159118652344 }, "tsne_coordinates": { "x": -18.146928787231445, "y": 42.114707946777344, "z": -1.8484677076339722 }, "pca_coordinates": { "x": 1.5134625434875488, "y": 3.832951545715332, "z": 0.3157121539115906 }, "axis_scores": { "Quantum imaging": 0.737392783164978, "Quantum Life Science Sensing": 0.7009891271591187, "Quantum sensing Detection": 0.718030571937561, "Quantum sensing Metrology": 0.7138653993606567, "Quantum sensing navigation": 0.748363196849823, "Quantum sensing Position": 0.6807456612586975, "Quantum sensing Timing": 0.6978622078895569, "Quantum sensing": 0.7308061122894287, "Quantum control": 0.7238745093345642 } }, { "id": 5115, "title": "Bypassing the computational bottleneck of quantum-embedding theories for strong electron correlations with machine learning", "abstract": "A cardinal obstacle to performing quantum-mechanical simulations of strongly correlated matter is that, with the theoretical tools presently available, sufficiently accurate computations are often too...", "citations": 10, "author_count": 9, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5122, "doi": "10.1103/PhysRevResearch.3.013101", "umap_coordinates": { "x": 395.670654296875, "y": 136.49960327148438, "z": 207.87826538085938 }, "tsne_coordinates": { "x": -26.37253189086914, "y": -18.0942440032959, "z": -10.035773277282715 }, "pca_coordinates": { "x": 4.091678619384766, "y": 1.4580280780792236, "z": 1.279378890991211 }, "axis_scores": { "Quantum imaging": 0.7379734516143799, "Quantum Life Science Sensing": 0.7213336229324341, "Quantum sensing Detection": 0.7271575331687927, "Quantum sensing Metrology": 0.7224404811859131, "Quantum sensing navigation": 0.7322991490364075, "Quantum sensing Position": 0.6854492425918579, "Quantum sensing Timing": 0.6796388030052185, "Quantum sensing": 0.7323774099349976, "Quantum control": 0.6944200396537781 } }, { "id": 5116, "title": "UV/Vis+ photochemistry database: Structure, content and applications", "abstract": "The science-softCon UV/Vis(+) Photochemistry Database (www.photochemistry.org) is a large and comprehensive collection of EUV-VUV-UV-Vis-NIR spectral data and other photochemical information assembled...", "citations": 17, "author_count": 16, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5123, "doi": "10.1016/j.jqsrt.2020.107056", "umap_coordinates": { "x": 393.7641906738281, "y": 135.25022888183594, "z": 204.6644287109375 }, "tsne_coordinates": { "x": 9.666048049926758, "y": 15.043962478637695, "z": -3.2949180603027344 }, "pca_coordinates": { "x": -3.85359787940979, "y": 0.6496834754943848, "z": -1.6109354496002197 }, "axis_scores": { "Quantum imaging": 0.7298152446746826, "Quantum Life Science Sensing": 0.7942290306091309, "Quantum sensing Detection": 0.7271014451980591, "Quantum sensing Metrology": 0.724561333656311, "Quantum sensing navigation": 0.7204627990722656, "Quantum sensing Position": 0.7034441828727722, "Quantum sensing Timing": 0.6898404955863953, "Quantum sensing": 0.7342802286148071, "Quantum control": 0.7134970426559448 } }, { "id": 5117, "title": "Tuning Iridium Photocatalysts and Light Irradiation for Enhanced CO2 Reduction", "abstract": "Efficient photocatalytic conversion of carbon dioxide into valuable reduction products is a priority goal for artificial photosynthesis. Iridium(III) photocatalysts with a combined 2-phenylpyridine (p...", "citations": 106, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5124, "doi": "10.1021/acscatal.6b03227", "umap_coordinates": { "x": 391.97747802734375, "y": 134.27769470214844, "z": 204.9114532470703 }, "tsne_coordinates": { "x": 18.44045639038086, "y": 3.4497148990631104, "z": -9.605082511901855 }, "pca_coordinates": { "x": -5.151111602783203, "y": -2.8048644065856934, "z": -2.2599823474884033 }, "axis_scores": { "Quantum imaging": 0.6917843222618103, "Quantum Life Science Sensing": 0.7149729132652283, "Quantum sensing Detection": 0.6758091449737549, "Quantum sensing Metrology": 0.6746990084648132, "Quantum sensing navigation": 0.6631758213043213, "Quantum sensing Position": 0.6350800395011902, "Quantum sensing Timing": 0.6434124708175659, "Quantum sensing": 0.6970013380050659, "Quantum control": 0.6936842799186707 } }, { "id": 5118, "title": "Entanglement distribution over a 96-km-long submarine optical fiber", "abstract": "Quantum entanglement is one of the most extraordinary effects in quantum physics, with many applications in the emerging field of quantum information science. In particular, it provides the foundation...", "citations": 127, "author_count": 19, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5125, "doi": "10.1073/pnas.1818752116", "umap_coordinates": { "x": 395.253173828125, "y": 136.30284118652344, "z": 207.2592315673828 }, "tsne_coordinates": { "x": -12.199715614318848, "y": 0.1830255091190338, "z": -9.103245735168457 }, "pca_coordinates": { "x": 1.7466530799865723, "y": 1.9131871461868286, "z": 1.500509262084961 }, "axis_scores": { "Quantum imaging": 0.7048656344413757, "Quantum Life Science Sensing": 0.6979546546936035, "Quantum sensing Detection": 0.6850557327270508, "Quantum sensing Metrology": 0.6837621331214905, "Quantum sensing navigation": 0.7029240727424622, "Quantum sensing Position": 0.6803035140037537, "Quantum sensing Timing": 0.673559844493866, "Quantum sensing": 0.7053228616714478, "Quantum control": 0.6813698410987854 } }, { "id": 5119, "title": "Volume-amplified magnetic bioassay integrated with microfluidic sample handling and high-Tc SQUID magnetic readout", "abstract": "A bioassay based on a high-T-c superconducting quantum interference device (SQUID) reading out functionalized magnetic nanoparticles (tMNPs) in a prototype microfluidic platform is presented. The targ...", "citations": 15, "author_count": 12, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5126, "doi": "10.1063/1.4999713", "umap_coordinates": { "x": 394.18511962890625, "y": 134.8123321533203, "z": 206.60694885253906 }, "tsne_coordinates": { "x": 22.403470993041992, "y": 24.881319046020508, "z": -14.75314998626709 }, "pca_coordinates": { "x": -1.129733920097351, "y": 0.00843191146850586, "z": 0.8887234330177307 }, "axis_scores": { "Quantum imaging": 0.7061339020729065, "Quantum Life Science Sensing": 0.7146338820457458, "Quantum sensing Detection": 0.7040575742721558, "Quantum sensing Metrology": 0.7255703210830688, "Quantum sensing navigation": 0.6914556622505188, "Quantum sensing Position": 0.6814388036727905, "Quantum sensing Timing": 0.6741687059402466, "Quantum sensing": 0.714897871017456, "Quantum control": 0.6977717280387878 } }, { "id": 5120, "title": "Highly efficient photocatalytic reduction of CO2 and H2O to CO and H2 with a cobalt bipyridyl complex", "abstract": "The development of efficient molecular catalysts for visible-light driven CO2 reduction, based on abundant materials, is necessary to meet energy demands and address environment problems. In this work...", "citations": 42, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5127, "doi": "10.1016/j.jechem.2017.11.012", "umap_coordinates": { "x": 392.1659240722656, "y": 133.9640350341797, "z": 204.7725067138672 }, "tsne_coordinates": { "x": 22.09088897705078, "y": 9.012635231018066, "z": -6.239014148712158 }, "pca_coordinates": { "x": -3.642848491668701, "y": -1.3898372650146484, "z": -1.665663480758667 }, "axis_scores": { "Quantum imaging": 0.7271068096160889, "Quantum Life Science Sensing": 0.7392055988311768, "Quantum sensing Detection": 0.7185264825820923, "Quantum sensing Metrology": 0.695113480091095, "Quantum sensing navigation": 0.6884706616401672, "Quantum sensing Position": 0.6638501286506653, "Quantum sensing Timing": 0.6540935635566711, "Quantum sensing": 0.7346215844154358, "Quantum control": 0.7078220248222351 } }, { "id": 5121, "title": "Dual emission and optical gain in PbS/CdS nanocrystals: Role of shell volume and of core/shell interface", "abstract": "Colloidal semiconductor nanocrystals (NCs) emitting simultaneously at two distinct wavelengths are of great interest for multiple applications ranging from ultrasensitive self-calibrating nanoscale se...", "citations": 14, "author_count": 8, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5128, "doi": "10.1103/PhysRevB.96.155303", "umap_coordinates": { "x": 392.6157531738281, "y": 134.2615509033203, "z": 207.5536651611328 }, "tsne_coordinates": { "x": 25.947961807250977, "y": -1.8618677854537964, "z": 5.437328815460205 }, "pca_coordinates": { "x": 0.875676155090332, "y": -3.514220714569092, "z": 0.775443971157074 }, "axis_scores": { "Quantum imaging": 0.7128487825393677, "Quantum Life Science Sensing": 0.7145168781280518, "Quantum sensing Detection": 0.7064657211303711, "Quantum sensing Metrology": 0.6824747323989868, "Quantum sensing navigation": 0.6893300414085388, "Quantum sensing Position": 0.6733973026275635, "Quantum sensing Timing": 0.6663982272148132, "Quantum sensing": 0.7068020105361938, "Quantum control": 0.6839522123336792 } }, { "id": 5122, "title": "PROTON GRADIENT REGULATION5 Is Essential for Proper Acclimation of Arabidopsis Photosystem I to Naturally and Artificially Fluctuating Light Conditions", "abstract": "In nature, plants are challenged by constantly changing light conditions. To reveal the molecular mechanisms behind acclimation to sometimes drastic and frequent changes in light intensity, we grew Ar...", "citations": 460, "author_count": 12, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5129, "doi": "10.1105/tpc.112.097162", "umap_coordinates": { "x": 394.4020690917969, "y": 136.38125610351562, "z": 203.74807739257812 }, "tsne_coordinates": { "x": 6.864959716796875, "y": 35.73395919799805, "z": 7.651622772216797 }, "pca_coordinates": { "x": -0.6474312543869019, "y": 1.1991229057312012, "z": -1.5840002298355103 }, "axis_scores": { "Quantum imaging": 0.6891584992408752, "Quantum Life Science Sensing": 0.7147121429443359, "Quantum sensing Detection": 0.6775988340377808, "Quantum sensing Metrology": 0.6870383024215698, "Quantum sensing navigation": 0.6850136518478394, "Quantum sensing Position": 0.6743164658546448, "Quantum sensing Timing": 0.6984058618545532, "Quantum sensing": 0.704592227935791, "Quantum control": 0.7063142657279968 } }, { "id": 5123, "title": "ON THE SIGNIFICANCE OF PHOTOINHIBITION OF PHOTOSYNTHESIS IN THE FIELD AND ITS GENERALITY AMONG SPECIES", "abstract": "Photoinhibition was examined in naturally exposed willow leaves in the field. In the afternoon on clear and warm days, the quantum yield of electron transport, derived from gas exchange data, was decr...", "citations": 122, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5130, "doi": "10.1007/BF00032983", "umap_coordinates": { "x": 394.090087890625, "y": 136.568603515625, "z": 203.9239501953125 }, "tsne_coordinates": { "x": 7.270661354064941, "y": 28.4258975982666, "z": 8.6923828125 }, "pca_coordinates": { "x": -3.0236430168151855, "y": 1.8736063241958618, "z": -2.547766923904419 }, "axis_scores": { "Quantum imaging": 0.6296195983886719, "Quantum Life Science Sensing": 0.6593080759048462, "Quantum sensing Detection": 0.6148855686187744, "Quantum sensing Metrology": 0.6179474592208862, "Quantum sensing navigation": 0.6155679225921631, "Quantum sensing Position": 0.6111201047897339, "Quantum sensing Timing": 0.5786305069923401, "Quantum sensing": 0.6335090398788452, "Quantum control": 0.6293408274650574 } }, { "id": 5124, "title": "A Biocompatible Synthetic Lung Fluid Based on Human Respiratory Tract Lining Fluid Composition", "abstract": "To characterise a biorelevant simulated lung fluid (SLF) based on the composition of human respiratory tract lining fluid. SLF was compared to other media which have been utilized as lung fluid simula...", "citations": 58, "author_count": 16, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5131, "doi": "10.1007/s11095-017-2169-4", "umap_coordinates": { "x": 394.22113037109375, "y": 134.674560546875, "z": 204.36341857910156 }, "tsne_coordinates": { "x": 11.936881065368652, "y": 26.48102569580078, "z": -4.548482418060303 }, "pca_coordinates": { "x": -3.6009111404418945, "y": 1.846962332725525, "z": -0.5099595785140991 }, "axis_scores": { "Quantum imaging": 0.6380785703659058, "Quantum Life Science Sensing": 0.6999502182006836, "Quantum sensing Detection": 0.6294821500778198, "Quantum sensing Metrology": 0.6403296589851379, "Quantum sensing navigation": 0.6293729543685913, "Quantum sensing Position": 0.6205043792724609, "Quantum sensing Timing": 0.6127272844314575, "Quantum sensing": 0.6533963084220886, "Quantum control": 0.6402819156646729 } }, { "id": 5125, "title": "Anthracene-based Derivatives: Synthesis, Photophysical Properties and Electrochemical Properties", "abstract": "A series of anthracene-based derivatives, namely, 9-(4-phenyl)anthracene(1), 9-(4-phenylethynyl)anthracene(2) and 9, 10-bis(phenylethynyl)anthracene(3), was synthesized by the Suzuki/Sonogashira cross...", "citations": 14, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5132, "doi": "10.1007/s40242-017-6431-4", "umap_coordinates": { "x": 392.6813049316406, "y": 135.7215576171875, "z": 204.56834411621094 }, "tsne_coordinates": { "x": 4.67270040512085, "y": 10.398421287536621, "z": -7.889210224151611 }, "pca_coordinates": { "x": -3.37034273147583, "y": -1.0762863159179688, "z": -1.2101707458496094 }, "axis_scores": { "Quantum imaging": 0.6902605295181274, "Quantum Life Science Sensing": 0.7225314378738403, "Quantum sensing Detection": 0.6849035024642944, "Quantum sensing Metrology": 0.6654428243637085, "Quantum sensing navigation": 0.6712631583213806, "Quantum sensing Position": 0.6817352771759033, "Quantum sensing Timing": 0.6700615882873535, "Quantum sensing": 0.7009085416793823, "Quantum control": 0.6891838908195496 } }, { "id": 5126, "title": "Photoluminescence study of as-grown vertically standing wurtzite InP nanowire ensembles", "abstract": "We demonstrate a method that enables the study of photoluminescence of as-grown nanowires on a native substrate by non-destructively suppressing the contribution of substrate photoluminescence. This i...", "citations": 18, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5133, "doi": "10.1088/0957-4484/24/11/115706", "umap_coordinates": { "x": 392.3839111328125, "y": 134.22259521484375, "z": 208.11778259277344 }, "tsne_coordinates": { "x": 23.175548553466797, "y": -14.294930458068848, "z": 7.721004962921143 }, "pca_coordinates": { "x": -0.5386077761650085, "y": -3.9232993125915527, "z": 1.772148609161377 }, "axis_scores": { "Quantum imaging": 0.6843552589416504, "Quantum Life Science Sensing": 0.6817355751991272, "Quantum sensing Detection": 0.6623643636703491, "Quantum sensing Metrology": 0.6701036095619202, "Quantum sensing navigation": 0.683879017829895, "Quantum sensing Position": 0.688449501991272, "Quantum sensing Timing": 0.6538029313087463, "Quantum sensing": 0.6795774102210999, "Quantum control": 0.6514097452163696 } }, { "id": 5127, "title": "2D array of cold-electron nanobolometers with double polarised cross-dipole antennas", "abstract": "A novel concept of the two-dimensional (2D) array of cold-electron nanobolometers (CEB) with double polarised cross-dipole antennas is proposed for ultrasensitive multimode measurements. This concept ...", "citations": 7, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5134, "doi": "10.1186/1556-276X-7-224", "umap_coordinates": { "x": 395.2439270019531, "y": 134.52761840820312, "z": 206.6331329345703 }, "tsne_coordinates": { "x": -11.716144561767578, "y": -6.330044269561768, "z": -39.65309143066406 }, "pca_coordinates": { "x": -0.9686943888664246, "y": 0.4920361042022705, "z": 1.4738986492156982 }, "axis_scores": { "Quantum imaging": 0.6927075386047363, "Quantum Life Science Sensing": 0.7038675546646118, "Quantum sensing Detection": 0.6835270524024963, "Quantum sensing Metrology": 0.6865233182907104, "Quantum sensing navigation": 0.7039341330528259, "Quantum sensing Position": 0.6888774037361145, "Quantum sensing Timing": 0.6852234601974487, "Quantum sensing": 0.6882364749908447, "Quantum control": 0.6699318289756775 } }, { "id": 5128, "title": "First-principles theory of the nitrogen interstitial in hBN: a plausible model for the blue emitter", "abstract": "Color centers in hexagonal boron nitride (hBN) have attracted considerable attention due to their remarkable optical properties enabling robust room temperature photonics and quantum optics applicatio...", "citations": 14, "author_count": 7, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5135, "doi": "10.1039/d3nr05811e", "umap_coordinates": { "x": 393.64794921875, "y": 136.64605712890625, "z": 205.64646911621094 }, "tsne_coordinates": { "x": -13.060829162597656, "y": 10.974603652954102, "z": 7.882299900054932 }, "pca_coordinates": { "x": -0.4773593544960022, "y": -0.5902433395385742, "z": -1.9449830055236816 }, "axis_scores": { "Quantum imaging": 0.7148574590682983, "Quantum Life Science Sensing": 0.7317342758178711, "Quantum sensing Detection": 0.7132869362831116, "Quantum sensing Metrology": 0.6908746361732483, "Quantum sensing navigation": 0.7235082983970642, "Quantum sensing Position": 0.6981286406517029, "Quantum sensing Timing": 0.6734405159950256, "Quantum sensing": 0.7214202880859375, "Quantum control": 0.6783652305603027 } }, { "id": 5129, "title": "Stability of quasicrystalline ultracold fermions to dipolar interactions", "abstract": "Quasiperiodic potentials can be used to interpolate between localization and delocalization in one dimension. With the rise of optical platforms engineering dipolar interactions, a key question is the...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5136, "doi": "10.1103/szdc-61nl", "umap_coordinates": { "x": 393.8575439453125, "y": 136.57823181152344, "z": 208.55137634277344 }, "tsne_coordinates": { "x": -1.2088425159454346, "y": -20.46046257019043, "z": 22.070032119750977 }, "pca_coordinates": { "x": 2.942460536956787, "y": -1.6559553146362305, "z": -1.731513500213623 }, "axis_scores": { "Quantum imaging": 0.6791623830795288, "Quantum Life Science Sensing": 0.7278571724891663, "Quantum sensing Detection": 0.6962993741035461, "Quantum sensing Metrology": 0.6869710683822632, "Quantum sensing navigation": 0.7115261554718018, "Quantum sensing Position": 0.6759815812110901, "Quantum sensing Timing": 0.6728569865226746, "Quantum sensing": 0.7043229937553406, "Quantum control": 0.6991812586784363 } }, { "id": 5130, "title": "Characterization and evaluation of photolabile (μ-peroxo)(μ-hydroxo)bis[bis(bipyridyl)cobalt caged oxygen compounds to facilitate time-resolved crystallographic studies of cytochrome c oxidase", "abstract": "Photolabile (mu-peroxo)(mu-hydroxo)bis[bis(bipyridyl)-cobalt-based caged oxygen compounds have been synthesized and characterized by optical absorbance spectroscopy, X-ray crystallography. and the qua...", "citations": 1, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5137, "doi": "10.1007/s43630-024-00558-x", "umap_coordinates": { "x": 393.397216796875, "y": 135.5087890625, "z": 204.4437255859375 }, "tsne_coordinates": { "x": -0.10080556571483612, "y": 17.542455673217773, "z": -1.782271146774292 }, "pca_coordinates": { "x": -3.786473035812378, "y": 0.7179601192474365, "z": -2.416926383972168 }, "axis_scores": { "Quantum imaging": 0.6892043948173523, "Quantum Life Science Sensing": 0.7010529637336731, "Quantum sensing Detection": 0.6564051508903503, "Quantum sensing Metrology": 0.6485761404037476, "Quantum sensing navigation": 0.6532222032546997, "Quantum sensing Position": 0.65630042552948, "Quantum sensing Timing": 0.6565716862678528, "Quantum sensing": 0.6757175326347351, "Quantum control": 0.6703276038169861 } }, { "id": 5131, "title": "Luminescent lanthanide complexes with phosphoramide and arylphosphonic diamide ligands", "abstract": "The sensitization of Eu(III) luminescence by the phosphoramide and arylphosphonic diamide ligands OP(NMe2)(2)Ind, OP(NMe2)(2)Cbz, OP(NMe2)(2)Ph, OP(NMe2)(2)(1-Naph) and OP(NMe2)(2)(2-Naph) (Ind = indo...", "citations": 13, "author_count": 6, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5138, "doi": "10.1007/s11696-019-00799-6", "umap_coordinates": { "x": 392.5287780761719, "y": 134.97201538085938, "z": 204.7215576171875 }, "tsne_coordinates": { "x": 18.230060577392578, "y": 15.390135765075684, "z": -21.779735565185547 }, "pca_coordinates": { "x": -3.4905333518981934, "y": -0.2651331424713135, "z": 0.6497191786766052 }, "axis_scores": { "Quantum imaging": 0.6915951371192932, "Quantum Life Science Sensing": 0.66885906457901, "Quantum sensing Detection": 0.6635672450065613, "Quantum sensing Metrology": 0.6622987985610962, "Quantum sensing navigation": 0.6590057015419006, "Quantum sensing Position": 0.6539357304573059, "Quantum sensing Timing": 0.67064368724823, "Quantum sensing": 0.6749173998832703, "Quantum control": 0.6538161039352417 } }, { "id": 5132, "title": "A THEORETICAL-STUDY OF THE EFFECT OF CHARGE RECOMBINATION ON THE TRANSFER AND TRAPPING OF EXCITATION-ENERGY IN PHOTOSYNTHESIS", "abstract": "Photosynthetic organisms absorb solar energy using chlorophyll-containing antennas and convert it to chemical energy in the form of charge-separated radical pairs. Experimental studies of photosystem ...", "citations": 13, "author_count": 3, "categories": [ "Chemistry" ], "year": 1991, "topic": [ "all" ], "embedding_index": 5139, "doi": "10.1016/0301-0104(91)90036-S", "umap_coordinates": { "x": 393.7489318847656, "y": 135.98770141601562, "z": 204.50741577148438 }, "tsne_coordinates": { "x": 14.281492233276367, "y": 6.856093883514404, "z": 13.909399032592773 }, "pca_coordinates": { "x": -1.391830563545227, "y": -0.0366823673248291, "z": -0.6724858283996582 }, "axis_scores": { "Quantum imaging": 0.658157467842102, "Quantum Life Science Sensing": 0.687954306602478, "Quantum sensing Detection": 0.6508486866950989, "Quantum sensing Metrology": 0.6416752338409424, "Quantum sensing navigation": 0.6386910080909729, "Quantum sensing Position": 0.6552776098251343, "Quantum sensing Timing": 0.6492195129394531, "Quantum sensing": 0.6560200452804565, "Quantum control": 0.6378976702690125 } }, { "id": 5133, "title": "Simulation study of an energy sensitive photon counting silicon strip detector for computed tomography: identifying strengths and weaknesses and developing work-arounds", "abstract": "We model the effect of signal pile-up on the energy resolution of a photon counting silicon detector designed for high flux spectral CT with sub-millimeter pixel size. Various design parameters, such ...", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5140, "doi": "10.1117/12.843914", "umap_coordinates": { "x": 395.32440185546875, "y": 132.80604553222656, "z": 205.6646270751953 }, "tsne_coordinates": { "x": -13.122401237487793, "y": 19.967660903930664, "z": -20.33133316040039 }, "pca_coordinates": { "x": -2.801319122314453, "y": 1.424717664718628, "z": 4.270271301269531 }, "axis_scores": { "Quantum imaging": 0.6986514329910278, "Quantum Life Science Sensing": 0.6970517039299011, "Quantum sensing Detection": 0.7016026973724365, "Quantum sensing Metrology": 0.6936254501342773, "Quantum sensing navigation": 0.6899306774139404, "Quantum sensing Position": 0.6855888366699219, "Quantum sensing Timing": 0.7019214034080505, "Quantum sensing": 0.6982542276382446, "Quantum control": 0.6456482410430908 } }, { "id": 5134, "title": "The dynamic Auger-Doppler effect in HF and DF:: control of fragment velocities in femtosecond dissociation through photon energy detuning", "abstract": "The Auger-Doppler effect in the experimental spectra of HF and DF is presented. and the dynamics of ultra-fast dissociation in the core-excited state are discussed. The Doppler splitting of the atomic...", "citations": 28, "author_count": 8, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5141, "doi": "10.1016/S0009-2614(02)00144-6", "umap_coordinates": { "x": 393.11041259765625, "y": 136.36766052246094, "z": 205.9140625 }, "tsne_coordinates": { "x": 3.8562865257263184, "y": 3.371065855026245, "z": 12.492593765258789 }, "pca_coordinates": { "x": -0.18938970565795898, "y": 2.4058046340942383, "z": -1.7949497699737549 }, "axis_scores": { "Quantum imaging": 0.6858212351799011, "Quantum Life Science Sensing": 0.6902643442153931, "Quantum sensing Detection": 0.6700932383537292, "Quantum sensing Metrology": 0.6494061946868896, "Quantum sensing navigation": 0.6707810759544373, "Quantum sensing Position": 0.6567485332489014, "Quantum sensing Timing": 0.6650345921516418, "Quantum sensing": 0.6777732968330383, "Quantum control": 0.677416980266571 } }, { "id": 5135, "title": "A DNA-Stabilized Ag1812+ Cluster with Excitation-Intensity-Dependent Dual Emission", "abstract": "DNA-stabilized silver nanoclusters (DNA-AgNCs) are easily tunable emitters with intriguing photophysical properties. Here, a DNA-AgNC with dual emission in the red and near-infrared (NIR) regions is p...", "citations": 17, "author_count": 8, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5142, "doi": "10.1002/anie.202309760", "umap_coordinates": { "x": 392.8015441894531, "y": 135.69737243652344, "z": 204.74807739257812 }, "tsne_coordinates": { "x": 25.938573837280273, "y": 21.131074905395508, "z": -22.71949005126953 }, "pca_coordinates": { "x": -2.6040170192718506, "y": -2.305990695953369, "z": -0.5559166669845581 }, "axis_scores": { "Quantum imaging": 0.7141690254211426, "Quantum Life Science Sensing": 0.7119100093841553, "Quantum sensing Detection": 0.7080405950546265, "Quantum sensing Metrology": 0.6681848764419556, "Quantum sensing navigation": 0.6904518604278564, "Quantum sensing Position": 0.6716609597206116, "Quantum sensing Timing": 0.6633069515228271, "Quantum sensing": 0.7025203704833984, "Quantum control": 0.6783040761947632 } }, { "id": 5136, "title": "QNMF: A quantum neural network based multimodal fusion system for intelligent diagnosis", "abstract": "The Internet of Medical Things (IoMT) has emerged as a significant research area in the medical field, enabling the transmission of various types of data to the cloud for analysis and diagnosis. Fusin...", "citations": 50, "author_count": 4, "categories": [ "Computer Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5143, "doi": "10.1016/j.inffus.2023.101913", "umap_coordinates": { "x": 394.56060791015625, "y": 135.6851043701172, "z": 205.52110290527344 }, "tsne_coordinates": { "x": -25.066940307617188, "y": 19.951751708984375, "z": 15.31152057647705 }, "pca_coordinates": { "x": -1.6951607465744019, "y": 1.7969388961791992, "z": 0.7332437634468079 }, "axis_scores": { "Quantum imaging": 0.772641658782959, "Quantum Life Science Sensing": 0.767782986164093, "Quantum sensing Detection": 0.7670681476593018, "Quantum sensing Metrology": 0.7664773464202881, "Quantum sensing navigation": 0.7598742246627808, "Quantum sensing Position": 0.7268148064613342, "Quantum sensing Timing": 0.702311635017395, "Quantum sensing": 0.7787429094314575, "Quantum control": 0.7388951182365417 } }, { "id": 5137, "title": "Millimeter-Wave WISP Search with Coherent Light-Shining-Through-a-Wall Toward the STAX Project", "abstract": "A dark photon is one of the simplest extensions of the Standard Model of particle physics and can be a dark matter candidate. Dark photons kinetically mix with ordinary photons. The mass range from 10...", "citations": 1, "author_count": 9, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5144, "doi": "10.1002/andp.202200619", "umap_coordinates": { "x": 395.7812805175781, "y": 134.9676055908203, "z": 206.3529052734375 }, "tsne_coordinates": { "x": -17.42215919494629, "y": -18.41254425048828, "z": -16.271812438964844 }, "pca_coordinates": { "x": -1.140478491783142, "y": 1.8939869403839111, "z": 3.2303614616394043 }, "axis_scores": { "Quantum imaging": 0.690523624420166, "Quantum Life Science Sensing": 0.6671281456947327, "Quantum sensing Detection": 0.6871402263641357, "Quantum sensing Metrology": 0.6966636180877686, "Quantum sensing navigation": 0.7196428775787354, "Quantum sensing Position": 0.6845911145210266, "Quantum sensing Timing": 0.6925185918807983, "Quantum sensing": 0.6935315132141113, "Quantum control": 0.6566839218139648 } }, { "id": 5138, "title": "Analysis Strategies for MHz XPCS at the European XFEL", "abstract": "The nanometer length-scale holds precious information on several dynamical processes that develop from picoseconds to seconds. In the past decades, X-ray scattering techniques have been developed to p...", "citations": 14, "author_count": 11, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5145, "doi": "10.3390/app11178037", "umap_coordinates": { "x": 395.11810302734375, "y": 134.80221557617188, "z": 205.51979064941406 }, "tsne_coordinates": { "x": -7.217251300811768, "y": 4.007119655609131, "z": -20.146799087524414 }, "pca_coordinates": { "x": -3.003458023071289, "y": 2.7223868370056152, "z": 0.878678023815155 }, "axis_scores": { "Quantum imaging": 0.6433195471763611, "Quantum Life Science Sensing": 0.6689419746398926, "Quantum sensing Detection": 0.6354089975357056, "Quantum sensing Metrology": 0.64235919713974, "Quantum sensing navigation": 0.6557909846305847, "Quantum sensing Position": 0.645305335521698, "Quantum sensing Timing": 0.6628100872039795, "Quantum sensing": 0.6457117795944214, "Quantum control": 0.6333013772964478 } }, { "id": 5139, "title": "Mechanism for the Extremely Efficient Sensitization of Yb3+Luminescence in CsPbCl3 Nanocrystals", "abstract": "Rare earth ion (RE3+)-doped inorganic CsPbX3 (X = Cl or Cl/Br) nanocrystals have been presented as promising materials for applications in solar-energy conversion technology. An extremely efficient se...", "citations": 87, "author_count": 7, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5146, "doi": "10.1021/acs.jpclett.8b03406", "umap_coordinates": { "x": 391.4483947753906, "y": 134.300048828125, "z": 205.82748413085938 }, "tsne_coordinates": { "x": 19.429359436035156, "y": -1.3315939903259277, "z": -18.70155906677246 }, "pca_coordinates": { "x": -2.3298709392547607, "y": -2.798445224761963, "z": -0.7386162877082825 }, "axis_scores": { "Quantum imaging": 0.6933885216712952, "Quantum Life Science Sensing": 0.6978725790977478, "Quantum sensing Detection": 0.6941737532615662, "Quantum sensing Metrology": 0.6558243036270142, "Quantum sensing navigation": 0.6605835556983948, "Quantum sensing Position": 0.6474093198776245, "Quantum sensing Timing": 0.6715498566627502, "Quantum sensing": 0.6943846344947815, "Quantum control": 0.6732041239738464 } }, { "id": 5140, "title": "SiGe/Si quantum structures as a thermistor material for low cost IR microbolometer focal plane arrays", "abstract": "Uncooled microbolometer thermal infrared detector technology is presently revolutionizing the infrared technology field. Essential improvement of the cost/performance ratio would be achieved by microb...", "citations": 17, "author_count": 6, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5147, "doi": "10.1016/j.sse.2011.01.034", "umap_coordinates": { "x": 393.93157958984375, "y": 133.30917358398438, "z": 205.9962615966797 }, "tsne_coordinates": { "x": 8.961695671081543, "y": 7.4448676109313965, "z": -27.73396110534668 }, "pca_coordinates": { "x": -2.043243408203125, "y": -1.1978106498718262, "z": 2.1598010063171387 }, "axis_scores": { "Quantum imaging": 0.7328911423683167, "Quantum Life Science Sensing": 0.7418028116226196, "Quantum sensing Detection": 0.7177034020423889, "Quantum sensing Metrology": 0.726854681968689, "Quantum sensing navigation": 0.709578275680542, "Quantum sensing Position": 0.7299485802650452, "Quantum sensing Timing": 0.6957792639732361, "Quantum sensing": 0.7254030704498291, "Quantum control": 0.679354190826416 } }, { "id": 5141, "title": "DYNAMICS IN CONCENTRATED POLYMER-SOLUTIONS BY POLARIZED RAYLEIGH-BRILLOUIN SCATTERING AND DYNAMIC LIGHT-SCATTERING", "abstract": "Solutions of polystyrene in toluene in the concentration range 0.1-1.0 g/ml have been examined using polarized Rayleigh-Brillouin scattering and dynamic light scattering. The purpose was to extend mea...", "citations": 34, "author_count": 5, "categories": [ "Chemistry" ], "year": 1991, "topic": [ "all" ], "embedding_index": 5148, "doi": "10.1063/1.461235", "umap_coordinates": { "x": 393.16339111328125, "y": 136.0305633544922, "z": 206.19461059570312 }, "tsne_coordinates": { "x": -1.8600711822509766, "y": -2.824350357055664, "z": 34.527442932128906 }, "pca_coordinates": { "x": 0.20842218399047852, "y": -0.011243343353271484, "z": -1.5507855415344238 }, "axis_scores": { "Quantum imaging": 0.7033460140228271, "Quantum Life Science Sensing": 0.7182937264442444, "Quantum sensing Detection": 0.6848852634429932, "Quantum sensing Metrology": 0.6675902605056763, "Quantum sensing navigation": 0.6911336183547974, "Quantum sensing Position": 0.665499746799469, "Quantum sensing Timing": 0.6389774084091187, "Quantum sensing": 0.6942753195762634, "Quantum control": 0.6789436340332031 } }, { "id": 5142, "title": "Cavity-field distribution in multiphoton Jaynes-Cummings resonances", "abstract": "We calculate the cavity-field distribution in the Wigner representation for the two-photon resonance of the weakly driven Jaynes-Cummings (JC) oscillator in its strong-coupling limit. Using an effecti...", "citations": 5, "author_count": 2, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5149, "doi": "10.1103/PhysRevA.104.063717", "umap_coordinates": { "x": 394.62744140625, "y": 135.0868377685547, "z": 208.02073669433594 }, "tsne_coordinates": { "x": -10.009506225585938, "y": -25.34372901916504, "z": -18.086688995361328 }, "pca_coordinates": { "x": 3.0895848274230957, "y": 0.020765304565429688, "z": 0.7900616526603699 }, "axis_scores": { "Quantum imaging": 0.7309183478355408, "Quantum Life Science Sensing": 0.7323075532913208, "Quantum sensing Detection": 0.7289910912513733, "Quantum sensing Metrology": 0.7260892391204834, "Quantum sensing navigation": 0.719684898853302, "Quantum sensing Position": 0.7003836035728455, "Quantum sensing Timing": 0.6976024508476257, "Quantum sensing": 0.7366291284561157, "Quantum control": 0.7031794786453247 } }, { "id": 5143, "title": "Semiconducting metal oxides empowered by graphene and its derivatives: Progresses and critical perspective on selected functional applications", "abstract": "This Perspective presents and discusses the most recent advancements in the field of exploitation of hybrid nanostructured composites consisting of semiconducting metal oxides and graphene and its der...", "citations": 22, "author_count": 6, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5150, "doi": "10.1063/5.0021826", "umap_coordinates": { "x": 393.1204833984375, "y": 134.75172424316406, "z": 205.61863708496094 }, "tsne_coordinates": { "x": 31.94801902770996, "y": 13.541217803955078, "z": -5.6577253341674805 }, "pca_coordinates": { "x": -1.5954582691192627, "y": -2.01261043548584, "z": -1.3237621784210205 }, "axis_scores": { "Quantum imaging": 0.68967604637146, "Quantum Life Science Sensing": 0.7139464020729065, "Quantum sensing Detection": 0.6817944645881653, "Quantum sensing Metrology": 0.6882187724113464, "Quantum sensing navigation": 0.6826776266098022, "Quantum sensing Position": 0.6822943091392517, "Quantum sensing Timing": 0.6555569767951965, "Quantum sensing": 0.7003210186958313, "Quantum control": 0.6716757416725159 } }, { "id": 5144, "title": "A combined multi-reference pump-probe simulation method with application to XUV signatures of ultrafast methyl iodide photodissociation", "abstract": "UV pump-XUV/X-ray probe measurements have been successfully applied in the study of photo-induced chemical reactions. Although rich element-specific electronic structure information is accessible with...", "citations": 21, "author_count": 4, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5151, "doi": "10.1063/1.5116816", "umap_coordinates": { "x": 393.3605651855469, "y": 136.88490295410156, "z": 205.6382293701172 }, "tsne_coordinates": { "x": 0.09015557169914246, "y": 12.304558753967285, "z": 32.90730285644531 }, "pca_coordinates": { "x": -0.7191451191902161, "y": 0.26375842094421387, "z": 2.199185371398926 }, "axis_scores": { "Quantum imaging": 0.7201429605484009, "Quantum Life Science Sensing": 0.7025542259216309, "Quantum sensing Detection": 0.7079394459724426, "Quantum sensing Metrology": 0.7082947492599487, "Quantum sensing navigation": 0.688345193862915, "Quantum sensing Position": 0.6860900521278381, "Quantum sensing Timing": 0.6954807639122009, "Quantum sensing": 0.7092021107673645, "Quantum control": 0.6720395088195801 } }, { "id": 5145, "title": "Metal Doping/Alloying of Cesium Lead Halide Perovskite Nanocrystals and their Applications in Light-Emitting Diodes with Enhanced Efficiency and Stability", "abstract": "Metal halide perovskite nanocrystals (NCs) have demonstrated great advances for light-emitting diodes (LEDs) applications, owing to their excellent optical, electrical properties and cost-effective so...", "citations": 35, "author_count": 5, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5152, "doi": "10.1002/ijch.201900031", "umap_coordinates": { "x": 391.8779296875, "y": 133.7150115966797, "z": 205.5935821533203 }, "tsne_coordinates": { "x": 25.153459548950195, "y": -2.09601092338562, "z": -20.091140747070312 }, "pca_coordinates": { "x": -2.3603360652923584, "y": -3.138737678527832, "z": -1.4165117740631104 }, "axis_scores": { "Quantum imaging": 0.7062108516693115, "Quantum Life Science Sensing": 0.702296257019043, "Quantum sensing Detection": 0.6825951933860779, "Quantum sensing Metrology": 0.6740429401397705, "Quantum sensing navigation": 0.6805195808410645, "Quantum sensing Position": 0.6781486868858337, "Quantum sensing Timing": 0.6702126860618591, "Quantum sensing": 0.6954150199890137, "Quantum control": 0.6962814331054688 } }, { "id": 5146, "title": "Angular dependence of photoemission time delay in helium", "abstract": "Time delays of electrons emitted from an isotropic initial state with the absorption of a single photon and leaving behind an isotropic ion are angle independent. Using an interferometric method invol...", "citations": 134, "author_count": 16, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5153, "doi": "10.1103/PhysRevA.94.063409", "umap_coordinates": { "x": 395.3629455566406, "y": 135.41371154785156, "z": 207.58067321777344 }, "tsne_coordinates": { "x": -10.045465469360352, "y": -19.309650421142578, "z": -21.215429306030273 }, "pca_coordinates": { "x": 3.0869975090026855, "y": 0.6341124773025513, "z": -0.12230390310287476 }, "axis_scores": { "Quantum imaging": 0.731995701789856, "Quantum Life Science Sensing": 0.7207598686218262, "Quantum sensing Detection": 0.7100663185119629, "Quantum sensing Metrology": 0.6862053275108337, "Quantum sensing navigation": 0.7163568735122681, "Quantum sensing Position": 0.7490087151527405, "Quantum sensing Timing": 0.7707110047340393, "Quantum sensing": 0.7181093096733093, "Quantum control": 0.6925508379936218 } }, { "id": 5147, "title": "(α-NaYbF4:Tm3+)/CaF2 Core/Shell Nanoparticles with Efficient Near-Infrared to Near-Infrared Upconversion for High-Contrast Deep Tissue Bioimaging", "abstract": "We describe the development of novel and biocompatible core/shell (alpha-NaYbF4:Tm3+)/CaF2 nanoparticles that exhibit highly efficient NIRin-NIROut upconversion (UC) for high contrast and deep bioimag...", "citations": 689, "author_count": 12, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5154, "doi": "10.1021/nn302972r", "umap_coordinates": { "x": 393.1689453125, "y": 133.56748962402344, "z": 205.1566925048828 }, "tsne_coordinates": { "x": 10.167567253112793, "y": 18.278305053710938, "z": -21.48235511779785 }, "pca_coordinates": { "x": -5.213648319244385, "y": -2.102090835571289, "z": 0.5470574498176575 }, "axis_scores": { "Quantum imaging": 0.7065746188163757, "Quantum Life Science Sensing": 0.6990568041801453, "Quantum sensing Detection": 0.6761822700500488, "Quantum sensing Metrology": 0.664929986000061, "Quantum sensing navigation": 0.6513800024986267, "Quantum sensing Position": 0.6252425312995911, "Quantum sensing Timing": 0.6378257870674133, "Quantum sensing": 0.6841882467269897, "Quantum control": 0.6312013864517212 } }, { "id": 5148, "title": "Structure and photoluminescence of di-amidosil nanohybrids incorporating europium triflate", "abstract": "The sol-gel process was used to prepare amorphous di-amide cross-linked alkyl/siloxane hybrid materials (di-amidosils) incorporating europium triflate (Eu(CF3SO3)(3)). Samples with 200 <= n <= 8 (wher...", "citations": 9, "author_count": 10, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5155, "doi": "10.1016/j.jallcom.2007.04.134", "umap_coordinates": { "x": 392.6881408691406, "y": 135.0472412109375, "z": 204.6024627685547 }, "tsne_coordinates": { "x": 13.135269165039062, "y": 11.392842292785645, "z": -23.84905242919922 }, "pca_coordinates": { "x": -2.2939274311065674, "y": -0.9029586315155029, "z": -0.8463749289512634 }, "axis_scores": { "Quantum imaging": 0.7260231375694275, "Quantum Life Science Sensing": 0.7449274659156799, "Quantum sensing Detection": 0.6859917044639587, "Quantum sensing Metrology": 0.6927977204322815, "Quantum sensing navigation": 0.6699272990226746, "Quantum sensing Position": 0.6546549797058105, "Quantum sensing Timing": 0.6376565098762512, "Quantum sensing": 0.7109352350234985, "Quantum control": 0.6780765056610107 } }, { "id": 5149, "title": "Droplet epitaxy of InAs nanocrystals on GaN/GaAs", "abstract": "The growth of InAs nanocrystals fabricated on GaAs by means of droplet epitaxy in a metal-organic chemical vapour-deposition chamber was investigated. To prevent deterioration of the droplet/substrate...", "citations": 4, "author_count": 6, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 5156, "doi": "10.1143/JJAP.40.6531", "umap_coordinates": { "x": 392.87860107421875, "y": 133.87997436523438, "z": 207.79295349121094 }, "tsne_coordinates": { "x": 39.36925506591797, "y": -14.957958221435547, "z": -1.5215318202972412 }, "pca_coordinates": { "x": 0.7127448320388794, "y": -2.737898826599121, "z": 0.34733349084854126 }, "axis_scores": { "Quantum imaging": 0.7016614675521851, "Quantum Life Science Sensing": 0.7030995488166809, "Quantum sensing Detection": 0.7026445269584656, "Quantum sensing Metrology": 0.6887454986572266, "Quantum sensing navigation": 0.6883589029312134, "Quantum sensing Position": 0.6879076957702637, "Quantum sensing Timing": 0.6859320402145386, "Quantum sensing": 0.7127218246459961, "Quantum control": 0.7156975865364075 } }, { "id": 5150, "title": "Tuning of charge order by uniaxial stress in a cuprate superconductor", "abstract": "Strongly correlated electron materials are often characterized by competition and interplay of multiple quantum states. For example, in high-temperature cuprate superconductors unconventional supercon...", "citations": 3, "author_count": 16, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5157, "doi": "10.1038/s42005-024-01760-0", "umap_coordinates": { "x": 392.6212463378906, "y": 135.4803466796875, "z": 207.3046112060547 }, "tsne_coordinates": { "x": 8.568222999572754, "y": -10.95707893371582, "z": 13.486773490905762 }, "pca_coordinates": { "x": -0.8922021389007568, "y": -1.0835909843444824, "z": -1.2592129707336426 }, "axis_scores": { "Quantum imaging": 0.6848015785217285, "Quantum Life Science Sensing": 0.6897973418235779, "Quantum sensing Detection": 0.6803823113441467, "Quantum sensing Metrology": 0.6789252161979675, "Quantum sensing navigation": 0.7015924453735352, "Quantum sensing Position": 0.7026790380477905, "Quantum sensing Timing": 0.7009400129318237, "Quantum sensing": 0.6937096118927002, "Quantum control": 0.7056286334991455 } }, { "id": 5151, "title": "Tracking Prenucleation Molecular Clustering of Salicylamide in Organic Solvents", "abstract": "Crystal nucleation shapes the structure and product size distribution of solid-state pharmaceuticals and is seeded by early-stage molecular self-assemblies formed in host solution. Here, molecular clu...", "citations": 3, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5158, "doi": "10.1021/acs.cgd.4c00507", "umap_coordinates": { "x": 393.21173095703125, "y": 135.70245361328125, "z": 205.19078063964844 }, "tsne_coordinates": { "x": 28.737485885620117, "y": 21.985197067260742, "z": 14.242437362670898 }, "pca_coordinates": { "x": -1.507232427597046, "y": 0.44602465629577637, "z": -2.430077314376831 }, "axis_scores": { "Quantum imaging": 0.7324484586715698, "Quantum Life Science Sensing": 0.7299011945724487, "Quantum sensing Detection": 0.7191338539123535, "Quantum sensing Metrology": 0.7119737863540649, "Quantum sensing navigation": 0.7456977367401123, "Quantum sensing Position": 0.728058934211731, "Quantum sensing Timing": 0.7266546487808228, "Quantum sensing": 0.7297067642211914, "Quantum control": 0.7134323120117188 } }, { "id": 5152, "title": "Carbon Dots and [FeFe] Hydrogenase Biohybrid Assemblies for Efficient Light-Driven Hydrogen Evolution", "abstract": "Artificial photosynthesis is seen as a path to convert and store solar energy into chemical energy for our society. In this work, highly fluorescent aspartic acid-based carbon dots (CDs) are synthesiz...", "citations": 79, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5159, "doi": "10.1021/acscatal.0c02474", "umap_coordinates": { "x": 391.6832275390625, "y": 134.29791259765625, "z": 205.02394104003906 }, "tsne_coordinates": { "x": 19.60548973083496, "y": 5.946262359619141, "z": -7.507235527038574 }, "pca_coordinates": { "x": -3.326140880584717, "y": -4.5503668785095215, "z": -2.961926221847534 }, "axis_scores": { "Quantum imaging": 0.693618655204773, "Quantum Life Science Sensing": 0.7176495790481567, "Quantum sensing Detection": 0.6734423041343689, "Quantum sensing Metrology": 0.6539559364318848, "Quantum sensing navigation": 0.6591300964355469, "Quantum sensing Position": 0.628916323184967, "Quantum sensing Timing": 0.6290547251701355, "Quantum sensing": 0.6894725561141968, "Quantum control": 0.683358907699585 } }, { "id": 5153, "title": "Ultrasensitive and Fast All-Inorganic Perovskite-Based Photodetector via Fast Carrier Diffusion", "abstract": "Low trap-state density, high carrier mobility, and efficient charge carrier collection are key parameters for photodetectors with high sensitivity and fast response time. This study demonstrates a sim...", "citations": 322, "author_count": 9, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5160, "doi": "10.1002/adma.201703758", "umap_coordinates": { "x": 392.3038024902344, "y": 133.9862060546875, "z": 205.28196716308594 }, "tsne_coordinates": { "x": 19.253725051879883, "y": 1.3651789426803589, "z": -28.013015747070312 }, "pca_coordinates": { "x": -2.9589598178863525, "y": -3.411268711090088, "z": 1.565424919128418 }, "axis_scores": { "Quantum imaging": 0.7210099101066589, "Quantum Life Science Sensing": 0.7110855579376221, "Quantum sensing Detection": 0.7015639543533325, "Quantum sensing Metrology": 0.6762166619300842, "Quantum sensing navigation": 0.6912029385566711, "Quantum sensing Position": 0.6640437245368958, "Quantum sensing Timing": 0.674670398235321, "Quantum sensing": 0.7171528339385986, "Quantum control": 0.6532576084136963 } }, { "id": 5154, "title": "Efficient one-step synthesis of 4-amino substituted phthalimides and evaluation of their potential as fluorescent probes", "abstract": "The phthalimide scaffold is recognized from bioactive compounds and marketed drugs, but can also be used as fluorescent probes by introducing a 4-amino substituent. Unfortunately, a general and conven...", "citations": 10, "author_count": 3, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5161, "doi": "10.1039/c4ob00342j", "umap_coordinates": { "x": 392.3837585449219, "y": 135.55018615722656, "z": 204.54576110839844 }, "tsne_coordinates": { "x": 0.7255282402038574, "y": 9.819123268127441, "z": -11.389827728271484 }, "pca_coordinates": { "x": -4.081226825714111, "y": -0.8363020420074463, "z": -0.6015081405639648 }, "axis_scores": { "Quantum imaging": 0.7274484634399414, "Quantum Life Science Sensing": 0.6993674635887146, "Quantum sensing Detection": 0.6909310817718506, "Quantum sensing Metrology": 0.6741893887519836, "Quantum sensing navigation": 0.688628077507019, "Quantum sensing Position": 0.6675584316253662, "Quantum sensing Timing": 0.6595542430877686, "Quantum sensing": 0.7083576321601868, "Quantum control": 0.6895208358764648 } }, { "id": 5155, "title": "Giant acoustic atom: A single quantum system with a deterministic time delay", "abstract": "We investigate the quantum dynamics of a single transmon qubit coupled to surface acoustic waves (SAWs) via two distant connection points. Since the acoustic speed is five orders of magnitude slower t...", "citations": 166, "author_count": 6, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5162, "doi": "10.1103/PhysRevA.95.053821", "umap_coordinates": { "x": 395.38311767578125, "y": 135.40219116210938, "z": 208.28611755371094 }, "tsne_coordinates": { "x": -2.738224506378174, "y": -20.759004592895508, "z": -14.65060806274414 }, "pca_coordinates": { "x": 3.9380125999450684, "y": 0.7652904987335205, "z": 1.806689977645874 }, "axis_scores": { "Quantum imaging": 0.7163960337638855, "Quantum Life Science Sensing": 0.7274520993232727, "Quantum sensing Detection": 0.7393129467964172, "Quantum sensing Metrology": 0.7205832600593567, "Quantum sensing navigation": 0.7417734265327454, "Quantum sensing Position": 0.7131065726280212, "Quantum sensing Timing": 0.7636213302612305, "Quantum sensing": 0.7475175857543945, "Quantum control": 0.7107518911361694 } }, { "id": 5156, "title": "Polarization Imaging of Emissive Charge Transfer States in Polymer/Fullerene Blends", "abstract": "Photoexcitation of conjugated polymerfullerene blends results in population of a local charge transfer (CT) state at the interface between the two materials. The competition between recombination and ...", "citations": 13, "author_count": 7, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5163, "doi": "10.1021/cm502503f", "umap_coordinates": { "x": 392.9252624511719, "y": 135.39508056640625, "z": 205.57958984375 }, "tsne_coordinates": { "x": 32.0715217590332, "y": 15.539630889892578, "z": 9.181051254272461 }, "pca_coordinates": { "x": -2.8172128200531006, "y": -1.5579924583435059, "z": -0.9659498929977417 }, "axis_scores": { "Quantum imaging": 0.7353214025497437, "Quantum Life Science Sensing": 0.7264432907104492, "Quantum sensing Detection": 0.6962016224861145, "Quantum sensing Metrology": 0.6751378178596497, "Quantum sensing navigation": 0.6644637584686279, "Quantum sensing Position": 0.6781322956085205, "Quantum sensing Timing": 0.6413286328315735, "Quantum sensing": 0.700764000415802, "Quantum control": 0.6585261821746826 } }, { "id": 5157, "title": "Interplay between interference and Coulomb interaction in the ferromagnetic Anderson model with applied magnetic field", "abstract": "We study the competition between interference due to multiple single-particle paths and Coulomb interaction in a simple model of an Anderson-type impurity with local-magnetic-field-induced level split...", "citations": 16, "author_count": 7, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5164, "doi": "10.1103/PhysRevB.79.125403", "umap_coordinates": { "x": 393.33514404296875, "y": 136.55087280273438, "z": 208.9521484375 }, "tsne_coordinates": { "x": -1.7456527948379517, "y": -39.50054168701172, "z": 19.962581634521484 }, "pca_coordinates": { "x": 4.566093921661377, "y": 1.3874918222427368, "z": -1.4831316471099854 }, "axis_scores": { "Quantum imaging": 0.7095573544502258, "Quantum Life Science Sensing": 0.6724498271942139, "Quantum sensing Detection": 0.6805569529533386, "Quantum sensing Metrology": 0.6833089590072632, "Quantum sensing navigation": 0.701084315776825, "Quantum sensing Position": 0.6679568886756897, "Quantum sensing Timing": 0.6699895262718201, "Quantum sensing": 0.6925633549690247, "Quantum control": 0.698788583278656 } }, { "id": 5158, "title": "Propagation Hanle effect of quadrupole polaritons in Cu2O -: art. no. 064303", "abstract": "A generalized theory of the Hanle effect is developed for the case of propagation quantum beats. Time-integrated quantum beats of two polariton wave packets, with the same group velocities and polariz...", "citations": 8, "author_count": 3, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5165, "doi": "10.1103/PhysRevB.65.064303", "umap_coordinates": { "x": 393.8778381347656, "y": 135.70599365234375, "z": 208.56053161621094 }, "tsne_coordinates": { "x": 3.43190860748291, "y": -38.22383117675781, "z": 5.70471715927124 }, "pca_coordinates": { "x": 3.167026996612549, "y": -0.7596433162689209, "z": -1.3001220226287842 }, "axis_scores": { "Quantum imaging": 0.7380688786506653, "Quantum Life Science Sensing": 0.7441787123680115, "Quantum sensing Detection": 0.7349345088005066, "Quantum sensing Metrology": 0.7169164419174194, "Quantum sensing navigation": 0.7482669353485107, "Quantum sensing Position": 0.7160271406173706, "Quantum sensing Timing": 0.7054477334022522, "Quantum sensing": 0.7399935126304626, "Quantum control": 0.7309447526931763 } }, { "id": 5159, "title": "Constant-cutoff approach to Lambda(1405) resonance in the bound-state soliton model", "abstract": "We suggest a quantum stabilization method for the SU(2) sigma-model, based on the constant-cutoff limit of the cutoff quantization method developed by Balakrishna et al., which avoids the difficulties...", "citations": 7, "author_count": 2, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 5166, "doi": "10.1007/BF02330575", "umap_coordinates": { "x": 394.40313720703125, "y": 137.01324462890625, "z": 207.67642211914062 }, "tsne_coordinates": { "x": -19.64509391784668, "y": 33.48268508911133, "z": 12.62581729888916 }, "pca_coordinates": { "x": 1.5984418392181396, "y": 2.1783792972564697, "z": -1.9568603038787842 }, "axis_scores": { "Quantum imaging": 0.6386966705322266, "Quantum Life Science Sensing": 0.655319094657898, "Quantum sensing Detection": 0.6514830589294434, "Quantum sensing Metrology": 0.6370356678962708, "Quantum sensing navigation": 0.6645419001579285, "Quantum sensing Position": 0.6591196656227112, "Quantum sensing Timing": 0.6443146467208862, "Quantum sensing": 0.6480475068092346, "Quantum control": 0.6589900851249695 } }, { "id": 5160, "title": "SPECTROSCOPIC AND FUNCTIONAL-CHARACTERIZATION OF A HIGHLY OXYGEN EVOLVING PHOTOSYSTEM-II REACTION CENTER COMPLEX FROM SPINACH", "abstract": "An oxygen evolving Photosystem II (PS II) reaction center complex was isolated with sucrose gradient centrifugation of PS II membranes solubilized with the detergent dodecylmaltoside in the presence o...", "citations": 29, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1986, "topic": [ "all" ], "embedding_index": 5167, "doi": null, "umap_coordinates": { "x": 392.0453796386719, "y": 139.56044006347656, "z": 209.55694580078125 }, "tsne_coordinates": { "x": -2.8847851753234863, "y": 46.02494812011719, "z": 2.1421959400177 }, "pca_coordinates": { "x": -2.2661800384521484, "y": 1.9596877098083496, "z": -3.4064435958862305 }, "axis_scores": { "Quantum imaging": 0.7306949496269226, "Quantum Life Science Sensing": 0.7628216743469238, "Quantum sensing Detection": 0.7164325714111328, "Quantum sensing Metrology": 0.7149519324302673, "Quantum sensing navigation": 0.7058804035186768, "Quantum sensing Position": 0.6864197254180908, "Quantum sensing Timing": 0.6601614952087402, "Quantum sensing": 0.7404416799545288, "Quantum control": 0.7170620560646057 } }, { "id": 5161, "title": "Nonperturbative transverse-momentum-dependent effects in dihadron and direct photon-hadron angular correlations in p plus p collisions at √s p=200 GeV", "abstract": "Dihadron and isolated direct photon-hadron angular correlations are measured in p + p collisions at root s = 200 GeV. The correlations are sensitive to nonperturbative initial-state and final-state tr...", "citations": 5, "author_count": 294, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5168, "doi": "10.1103/PhysRevD.98.072004", "umap_coordinates": { "x": 396.51153564453125, "y": 134.5648956298828, "z": 207.98098754882812 }, "tsne_coordinates": { "x": -31.2482967376709, "y": 5.580094814300537, "z": -16.311737060546875 }, "pca_coordinates": { "x": 2.2269744873046875, "y": 0.4530702829360962, "z": 1.6969447135925293 }, "axis_scores": { "Quantum imaging": 0.6976068019866943, "Quantum Life Science Sensing": 0.6823328137397766, "Quantum sensing Detection": 0.6984421610832214, "Quantum sensing Metrology": 0.6605260968208313, "Quantum sensing navigation": 0.6809881925582886, "Quantum sensing Position": 0.6840426921844482, "Quantum sensing Timing": 0.6956648230552673, "Quantum sensing": 0.6961818933486938, "Quantum control": 0.681235134601593 } }, { "id": 5162, "title": "The rate constant for radiative association of HF: Comparing quantum and classical dynamics", "abstract": "Radiative association for the formation of hydrogen fluoride through the A(1) Pi -> X-1 Sigma(+) and X-1 Sigma(+) -> X-1 Sigma(+) transitions is studied using quantum and classical dynamics. The total...", "citations": 17, "author_count": 4, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5169, "doi": "10.1063/1.4874271", "umap_coordinates": { "x": 393.6358337402344, "y": 137.0699462890625, "z": 206.8795928955078 }, "tsne_coordinates": { "x": -6.680327415466309, "y": 2.168668746948242, "z": 20.488155364990234 }, "pca_coordinates": { "x": 1.9396116733551025, "y": 1.9784836769104004, "z": -2.725973606109619 }, "axis_scores": { "Quantum imaging": 0.6960951685905457, "Quantum Life Science Sensing": 0.7322996258735657, "Quantum sensing Detection": 0.6865392327308655, "Quantum sensing Metrology": 0.6811050772666931, "Quantum sensing navigation": 0.6747738122940063, "Quantum sensing Position": 0.6688203811645508, "Quantum sensing Timing": 0.6888224482536316, "Quantum sensing": 0.7006916999816895, "Quantum control": 0.6841495037078857 } }, { "id": 5163, "title": "Efficient mid-infrared single-photon detection using superconducting NbTiN nanowires with high time resolution in a Gifford-McMahon cryocooler", "abstract": "Shortly after their inception, superconducting nanowire single-photon detectors (SNSPDs) became the leading quantum light detection technology. With the capability of detecting single-photons with nea...", "citations": 51, "author_count": 10, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5170, "doi": "10.1364/PRJ.437834", "umap_coordinates": { "x": 394.4267883300781, "y": 133.34646606445312, "z": 207.1612091064453 }, "tsne_coordinates": { "x": -13.498848915100098, "y": 1.8262742757797241, "z": -33.254940032958984 }, "pca_coordinates": { "x": -0.9005165100097656, "y": -1.9813852310180664, "z": 4.1906819343566895 }, "axis_scores": { "Quantum imaging": 0.7383416295051575, "Quantum Life Science Sensing": 0.7223330736160278, "Quantum sensing Detection": 0.7246285676956177, "Quantum sensing Metrology": 0.7205334305763245, "Quantum sensing navigation": 0.7319761514663696, "Quantum sensing Position": 0.6881852149963379, "Quantum sensing Timing": 0.7327083349227905, "Quantum sensing": 0.7309500575065613, "Quantum control": 0.691820502281189 } }, { "id": 5164, "title": "Macroscopic quantum phenomena in high critical temperature superconducting Josephson junctions", "abstract": "YBa2Cu3O7-delta grain boundary bi-epitaxial Josepshon junctions (JJs) allow a very clear demonstration of Josephson current variation with the misorientation angle, consistent with the d-wave symmetry...", "citations": 3, "author_count": 9, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5171, "doi": "10.1007/s10948-006-0168-5", "umap_coordinates": { "x": 393.66278076171875, "y": 135.27774047851562, "z": 207.88206481933594 }, "tsne_coordinates": { "x": 3.180213689804077, "y": -15.983729362487793, "z": 15.815873146057129 }, "pca_coordinates": { "x": 3.1579885482788086, "y": -0.5947246551513672, "z": -0.24106892943382263 }, "axis_scores": { "Quantum imaging": 0.7305646538734436, "Quantum Life Science Sensing": 0.7418043613433838, "Quantum sensing Detection": 0.7212942838668823, "Quantum sensing Metrology": 0.7238277196884155, "Quantum sensing navigation": 0.7334424257278442, "Quantum sensing Position": 0.7150249481201172, "Quantum sensing Timing": 0.7359961867332458, "Quantum sensing": 0.742114782333374, "Quantum control": 0.7224934697151184 } }, { "id": 5165, "title": "THE ADSORPTION OF EUROPIUM TO COLLOIDAL IRON OXYHYDROXIDES AND QUARTZ - THE IMPACT OF PH AND AN AQUATIC FULVIC-ACID", "abstract": "The adsorption of europium to colloidal Fe2O3, FeOOH, Fe(OH)(3) and SiO2 was investigated as a function of pH and the presence of an aquatic fulvic acid (FA). The colloids were present at concentratio...", "citations": 40, "author_count": 5, "categories": [ "Chemistry" ], "year": 1994, "topic": [ "all" ], "embedding_index": 5172, "doi": null, "umap_coordinates": { "x": 391.96539306640625, "y": 139.61929321289062, "z": 209.62168884277344 }, "tsne_coordinates": { "x": -4.184512615203857, "y": 42.833736419677734, "z": 0.05135352164506912 }, "pca_coordinates": { "x": -2.486722469329834, "y": 4.146806716918945, "z": -3.917992115020752 }, "axis_scores": { "Quantum imaging": 0.7513794302940369, "Quantum Life Science Sensing": 0.7783046960830688, "Quantum sensing Detection": 0.7519451379776001, "Quantum sensing Metrology": 0.7357953786849976, "Quantum sensing navigation": 0.747849702835083, "Quantum sensing Position": 0.7145029902458191, "Quantum sensing Timing": 0.6991465091705322, "Quantum sensing": 0.7719233632087708, "Quantum control": 0.7767012715339661 } }, { "id": 5166, "title": "First experimental evaluation of count-rate performance for micrometre resolution deep silicon detector", "abstract": "Objective. An ultra-fine-pitch deep silicon detector has been developed for clinical photon-counting computed tomography (CT). With a small pixel size of 14 x 650 mu m2, it has shown potential to reac...", "citations": 1, "author_count": 5, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5173, "doi": "10.1088/1361-6560/ad1d67", "umap_coordinates": { "x": 395.36578369140625, "y": 133.49362182617188, "z": 206.24732971191406 }, "tsne_coordinates": { "x": -8.78718090057373, "y": 12.951859474182129, "z": -22.8987979888916 }, "pca_coordinates": { "x": -0.7546265125274658, "y": 1.8636958599090576, "z": 3.6342921257019043 }, "axis_scores": { "Quantum imaging": 0.6966122388839722, "Quantum Life Science Sensing": 0.7041988372802734, "Quantum sensing Detection": 0.697939932346344, "Quantum sensing Metrology": 0.7067943811416626, "Quantum sensing navigation": 0.6777094006538391, "Quantum sensing Position": 0.6838493347167969, "Quantum sensing Timing": 0.6878145933151245, "Quantum sensing": 0.6979537606239319, "Quantum control": 0.664162814617157 } }, { "id": 5167, "title": "Photodesorption of NO from graphite(0001) surface mediated by silver clusters", "abstract": "The influence of the size and shape of nanometer-scale silver particles on the photodesorption of NO from a graphite(0 0 0 1) surface has been investigated. The initial photodesorption yield from a si...", "citations": 18, "author_count": 4, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5174, "doi": "10.1016/j.susc.2005.06.066", "umap_coordinates": { "x": 393.2426452636719, "y": 134.1490020751953, "z": 204.91697692871094 }, "tsne_coordinates": { "x": 26.223777770996094, "y": 12.260472297668457, "z": 1.0927048921585083 }, "pca_coordinates": { "x": -1.7175588607788086, "y": -0.6924314498901367, "z": -0.25106462836265564 }, "axis_scores": { "Quantum imaging": 0.6995023488998413, "Quantum Life Science Sensing": 0.7315430641174316, "Quantum sensing Detection": 0.7283040881156921, "Quantum sensing Metrology": 0.6998372077941895, "Quantum sensing navigation": 0.7238394021987915, "Quantum sensing Position": 0.6912888288497925, "Quantum sensing Timing": 0.6654504537582397, "Quantum sensing": 0.7306162118911743, "Quantum control": 0.7066179513931274 } }, { "id": 5168, "title": "Defect-assisted reversible phase transition in mono- and few-layer ReS2", "abstract": "2D transition metal dichalcogenide (TMD) materials have attracted interest due to their remarkable excitonic, optical, electrical, and mechanical properties, which are dependent on their crystal struc...", "citations": 1, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5175, "doi": "10.1038/s41699-025-00524-w", "umap_coordinates": { "x": 392.4223327636719, "y": 135.36375427246094, "z": 206.71812438964844 }, "tsne_coordinates": { "x": 14.206862449645996, "y": -10.52012825012207, "z": 7.7847580909729 }, "pca_coordinates": { "x": -0.5342288017272949, "y": -1.0068724155426025, "z": -1.706749677658081 }, "axis_scores": { "Quantum imaging": 0.6758197546005249, "Quantum Life Science Sensing": 0.70986008644104, "Quantum sensing Detection": 0.6759916543960571, "Quantum sensing Metrology": 0.6822822093963623, "Quantum sensing navigation": 0.6586909294128418, "Quantum sensing Position": 0.6596071124076843, "Quantum sensing Timing": 0.6605578660964966, "Quantum sensing": 0.6901842355728149, "Quantum control": 0.655715823173523 } }, { "id": 5169, "title": "Bright and stable near-infrared lead-free perovskite light-emitting diodes", "abstract": "Long-wavelength near-infrared light-emitting diodes (NIR LEDs) with peak emission wavelengths beyond 900 nm are of critical importance for various applications including night vision, biomedical imagi...", "citations": 149, "author_count": 13, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5176, "doi": "10.1038/s41566-023-01351-5", "umap_coordinates": { "x": 392.0550231933594, "y": 133.72662353515625, "z": 205.27561950683594 }, "tsne_coordinates": { "x": 20.418031692504883, "y": -0.7316116690635681, "z": -26.59555435180664 }, "pca_coordinates": { "x": -3.4793412685394287, "y": -3.6493072509765625, "z": 0.23289036750793457 }, "axis_scores": { "Quantum imaging": 0.6712027192115784, "Quantum Life Science Sensing": 0.6973770260810852, "Quantum sensing Detection": 0.6652681231498718, "Quantum sensing Metrology": 0.6569589972496033, "Quantum sensing navigation": 0.6524047255516052, "Quantum sensing Position": 0.6540487408638, "Quantum sensing Timing": 0.6522968411445618, "Quantum sensing": 0.680648148059845, "Quantum control": 0.641181468963623 } }, { "id": 5170, "title": "BPS states in (2,0) theory on R x T5", "abstract": "We consider (2, 0) theory on a space-time of the form R x T-5, where the first factor denotes time, and the second factor is a flat spatial five-torus. In addition to their energy, quantum states are ...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5177, "doi": "10.1088/1126-6708/2009/03/021", "umap_coordinates": { "x": 394.4794616699219, "y": 136.13563537597656, "z": 207.36180114746094 }, "tsne_coordinates": { "x": -24.855918884277344, "y": 7.461558818817139, "z": 30.539901733398438 }, "pca_coordinates": { "x": 2.0378284454345703, "y": 2.116266965866089, "z": -0.15424758195877075 }, "axis_scores": { "Quantum imaging": 0.6983802914619446, "Quantum Life Science Sensing": 0.6925077438354492, "Quantum sensing Detection": 0.6901781558990479, "Quantum sensing Metrology": 0.6846925020217896, "Quantum sensing navigation": 0.7095818519592285, "Quantum sensing Position": 0.7032840847969055, "Quantum sensing Timing": 0.7163470387458801, "Quantum sensing": 0.6940221190452576, "Quantum control": 0.6823983192443848 } }, { "id": 5171, "title": "Photophysical characterization of natural cis-carotenoids", "abstract": "By means of steady-state fluorescence spectroscopy we explore the photophysics of two lowest lying singlet excited states in two natural 15-cis-carotenoids, namely phytoene and phytofluene, possessing...", "citations": 20, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2001, "topic": [ "all" ], "embedding_index": 5178, "doi": "10.1562/0031-8655(2001)074<0549:PCONCC>2.0.CO;2", "umap_coordinates": { "x": 393.3358154296875, "y": 135.60418701171875, "z": 204.890625 }, "tsne_coordinates": { "x": 8.711243629455566, "y": 38.284358978271484, "z": 3.1093900203704834 }, "pca_coordinates": { "x": -3.0573482513427734, "y": 1.4672391414642334, "z": -0.013135910034179688 }, "axis_scores": { "Quantum imaging": 0.726686954498291, "Quantum Life Science Sensing": 0.7570056915283203, "Quantum sensing Detection": 0.7269188165664673, "Quantum sensing Metrology": 0.7116998434066772, "Quantum sensing navigation": 0.707454264163971, "Quantum sensing Position": 0.699706494808197, "Quantum sensing Timing": 0.7031930685043335, "Quantum sensing": 0.7358396053314209, "Quantum control": 0.7138635516166687 } }, { "id": 5172, "title": "ON ROTATIONAL SYMMETRY AND REAL GEOMETRICAL REPRESENTATIONS OF THE ELEMENTARY-PARTICLES WITH SPECIAL REFERENCE TO THE N AND DELTA-SERIES", "abstract": "The isospin and unitary, as well as other gauge-field transformations in current quantum dynamics, are geometrically and otherwise mathematically identical to the group of rotations in ordinary space....", "citations": 12, "author_count": 2, "categories": [ "Physics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 5179, "doi": "10.4006/1.3028909", "umap_coordinates": { "x": 394.3353271484375, "y": 137.25180053710938, "z": 206.8707733154297 }, "tsne_coordinates": { "x": -19.05414581298828, "y": -3.3557381629943848, "z": 21.3389949798584 }, "pca_coordinates": { "x": 0.7219432592391968, "y": 2.3012566566467285, "z": -0.46733155846595764 }, "axis_scores": { "Quantum imaging": 0.6940635442733765, "Quantum Life Science Sensing": 0.7194197177886963, "Quantum sensing Detection": 0.6821633577346802, "Quantum sensing Metrology": 0.6917798519134521, "Quantum sensing navigation": 0.7128857970237732, "Quantum sensing Position": 0.691909909248352, "Quantum sensing Timing": 0.6620901823043823, "Quantum sensing": 0.701552152633667, "Quantum control": 0.6797019839286804 } }, { "id": 5173, "title": "PARTICLE-SIZE DETERMINATION OF A SUBMICRON-SIZED EMULSION", "abstract": "The particle size distribution of a submicron-sized soybean oil-in-water emulsion stabilized by fractionated egg phospholipids was studied. Special attention was focused on the lower end of the size d...", "citations": 16, "author_count": 3, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5180, "doi": "10.1016/0927-7757(93)80318-9", "umap_coordinates": { "x": 393.4400329589844, "y": 134.6087188720703, "z": 204.92237854003906 }, "tsne_coordinates": { "x": 8.580855369567871, "y": 22.189796447753906, "z": 8.36342716217041 }, "pca_coordinates": { "x": -3.834963321685791, "y": 1.6329575777053833, "z": -0.2376883625984192 }, "axis_scores": { "Quantum imaging": 0.6301684379577637, "Quantum Life Science Sensing": 0.6784164309501648, "Quantum sensing Detection": 0.6382017135620117, "Quantum sensing Metrology": 0.6502399444580078, "Quantum sensing navigation": 0.6262891292572021, "Quantum sensing Position": 0.6555190086364746, "Quantum sensing Timing": 0.6127936840057373, "Quantum sensing": 0.6532712578773499, "Quantum control": 0.6027172803878784 } }, { "id": 5174, "title": "Verifying Quantum Circuits with Level-Synchronized Tree Automata", "abstract": "We present a new method for the verification of quantum circuits based on a novel symbolic representation of sets of quantum states using level-synchronized tree automata (LSTAs). LSTAs extend classic...", "citations": 3, "author_count": 9, "categories": [ "Computer Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5181, "doi": "10.1145/3704868", "umap_coordinates": { "x": 395.5335693359375, "y": 136.94593811035156, "z": 206.8691864013672 }, "tsne_coordinates": { "x": -21.287002563476562, "y": 2.611698865890503, "z": -3.8272125720977783 }, "pca_coordinates": { "x": 2.7119503021240234, "y": 3.1311187744140625, "z": 2.2803452014923096 }, "axis_scores": { "Quantum imaging": 0.7272686958312988, "Quantum Life Science Sensing": 0.7178108096122742, "Quantum sensing Detection": 0.7356982827186584, "Quantum sensing Metrology": 0.7383880019187927, "Quantum sensing navigation": 0.7521288990974426, "Quantum sensing Position": 0.7206504940986633, "Quantum sensing Timing": 0.7616779804229736, "Quantum sensing": 0.7445399165153503, "Quantum control": 0.7154904007911682 } }, { "id": 5175, "title": "Multicolor light emission and multifunctional applications in double perovskite-Cs 2 NaInCl 6 by Cu + /Sb 3+co-doping", "abstract": "Halide double perovskites managed by metal doping approach can exhibit dual emission colors, which have been considered as promising multicolor luminescent materials. However, an independent and stabl...", "citations": 17, "author_count": 13, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5182, "doi": "10.1016/j.cej.2024.151212", "umap_coordinates": { "x": 392.7078552246094, "y": 133.77386474609375, "z": 205.2332305908203 }, "tsne_coordinates": { "x": 24.83320426940918, "y": 7.043185234069824, "z": -5.121380805969238 }, "pca_coordinates": { "x": -4.588390350341797, "y": -2.8154172897338867, "z": 0.1167650818824768 }, "axis_scores": { "Quantum imaging": 0.7070229053497314, "Quantum Life Science Sensing": 0.7013257145881653, "Quantum sensing Detection": 0.6973078846931458, "Quantum sensing Metrology": 0.6890946626663208, "Quantum sensing navigation": 0.6863459944725037, "Quantum sensing Position": 0.6586014628410339, "Quantum sensing Timing": 0.6603344678878784, "Quantum sensing": 0.7055249214172363, "Quantum control": 0.6858806014060974 } }, { "id": 5176, "title": "Detection and Imaging of Aβ1-42 and Tau Fibrils by Redesigned Fluorescent X-34 Analogues", "abstract": "We revisited the Congo red analogue 2,5-bis(4'-hydroxy-3'-carboxy-styryl)benzene (X-34) to develop this highly fluorescent amyloid dye for imaging Alzheimer's disease (AD) pathology comprising A beta ...", "citations": 31, "author_count": 11, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5183, "doi": "10.1002/chem.201800501", "umap_coordinates": { "x": 393.3360290527344, "y": 135.23773193359375, "z": 204.5144500732422 }, "tsne_coordinates": { "x": 3.8907368183135986, "y": 22.89805793762207, "z": -5.676997661590576 }, "pca_coordinates": { "x": -3.635160207748413, "y": 0.25437164306640625, "z": -0.8576081395149231 }, "axis_scores": { "Quantum imaging": 0.7388181686401367, "Quantum Life Science Sensing": 0.7278346419334412, "Quantum sensing Detection": 0.7055758833885193, "Quantum sensing Metrology": 0.6983557343482971, "Quantum sensing navigation": 0.7108014822006226, "Quantum sensing Position": 0.6891555786132812, "Quantum sensing Timing": 0.6734028458595276, "Quantum sensing": 0.7176055908203125, "Quantum control": 0.7025051116943359 } }, { "id": 5177, "title": "Atomic Scale Surface Structure and Morphology of InAs Nanowire Crystal Superlattices: The Effect of Epitaxial Overgrowth", "abstract": "While shell growth engineering to the atomic scale is important for tailoring semiconductor nanowires with superior properties, a precise knowledge of-the surface structure and morphology at different...", "citations": 27, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5184, "doi": "10.1021/am507931z", "umap_coordinates": { "x": 392.2277526855469, "y": 133.836181640625, "z": 207.7194061279297 }, "tsne_coordinates": { "x": 22.904685974121094, "y": -12.577812194824219, "z": -5.893270969390869 }, "pca_coordinates": { "x": -1.1552103757858276, "y": -4.1529765129089355, "z": -0.5486650466918945 }, "axis_scores": { "Quantum imaging": 0.6984653472900391, "Quantum Life Science Sensing": 0.7168411016464233, "Quantum sensing Detection": 0.6916486024856567, "Quantum sensing Metrology": 0.7086091637611389, "Quantum sensing navigation": 0.6961804032325745, "Quantum sensing Position": 0.6897860169410706, "Quantum sensing Timing": 0.654049813747406, "Quantum sensing": 0.7138875722885132, "Quantum control": 0.6754828691482544 } }, { "id": 5178, "title": "The William-Wehlau Spectropolarimeter: Observing hot stars in all four Stokes parameters", "abstract": "We introduce a new polarimeter unit, which, mounted at the Cassegrain focus of any telescope and fiber-connected to a fixed CCD spectrograph, is able to measure all Stokes parameters I, Q, U, and V ac...", "citations": 17, "author_count": 9, "categories": [ "Astronomy & Astrophysics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5185, "doi": "10.1086/316253", "umap_coordinates": { "x": 394.4920654296875, "y": 135.50265502929688, "z": 204.98849487304688 }, "tsne_coordinates": { "x": 0.4889824688434601, "y": 9.831911087036133, "z": -21.52610206604004 }, "pca_coordinates": { "x": -2.266672134399414, "y": 1.1355617046356201, "z": 1.384242296218872 }, "axis_scores": { "Quantum imaging": 0.6632241606712341, "Quantum Life Science Sensing": 0.7220784425735474, "Quantum sensing Detection": 0.6741611957550049, "Quantum sensing Metrology": 0.6844257116317749, "Quantum sensing navigation": 0.6684291362762451, "Quantum sensing Position": 0.6657631397247314, "Quantum sensing Timing": 0.6794711351394653, "Quantum sensing": 0.6940062642097473, "Quantum control": 0.6557634472846985 } }, { "id": 5179, "title": "HYTREES: combining matrix elements and parton shower for hypothesis testing", "abstract": "We present a new way of performing hypothesis tests on scattering data, by means of a perturbatively calculable classifier. This classifier exploits the history tree of how the measured data point mig...", "citations": 17, "author_count": 3, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5186, "doi": "10.1140/epjc/s10052-019-7030-y", "umap_coordinates": { "x": 396.6652526855469, "y": 135.13217163085938, "z": 206.8301544189453 }, "tsne_coordinates": { "x": -30.645851135253906, "y": 9.328006744384766, "z": -1.5397553443908691 }, "pca_coordinates": { "x": -0.3909451365470886, "y": 3.7621634006500244, "z": 0.8027399182319641 }, "axis_scores": { "Quantum imaging": 0.6679044365882874, "Quantum Life Science Sensing": 0.6513076424598694, "Quantum sensing Detection": 0.6396095752716064, "Quantum sensing Metrology": 0.6510322690010071, "Quantum sensing navigation": 0.6560812592506409, "Quantum sensing Position": 0.6381803154945374, "Quantum sensing Timing": 0.66276615858078, "Quantum sensing": 0.6572010517120361, "Quantum control": 0.6445257067680359 } }, { "id": 5180, "title": "A formula of total probability with the interference term and the Hilbert space representation of the contextual Kolmogorovian model", "abstract": "We compare the classical Kolmogorov and quantum probability models. We show that the gap between these models is not so huge as was commonly believed. The main structures of quantum theory ( interfere...", "citations": 8, "author_count": 2, "categories": [ "Mathematics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5187, "doi": "10.1137/S0040585X97982505", "umap_coordinates": { "x": 395.5350646972656, "y": 137.66261291503906, "z": 206.20130920410156 }, "tsne_coordinates": { "x": -20.51920509338379, "y": 2.185933828353882, "z": 14.030991554260254 }, "pca_coordinates": { "x": 1.8140699863433838, "y": 5.4509100914001465, "z": 0.9523219466209412 }, "axis_scores": { "Quantum imaging": 0.7125019431114197, "Quantum Life Science Sensing": 0.6896445155143738, "Quantum sensing Detection": 0.7050265073776245, "Quantum sensing Metrology": 0.6960769295692444, "Quantum sensing navigation": 0.7234885096549988, "Quantum sensing Position": 0.6934574246406555, "Quantum sensing Timing": 0.70723557472229, "Quantum sensing": 0.7143325805664062, "Quantum control": 0.7029323577880859 } }, { "id": 5181, "title": "Magnetism and anisotropy of ultrathin Ni films on Cu(001)", "abstract": "Both magnetic structure and magnetic-anisotropy energies are calculated for cubic and tetragonal Ni films on Cu(001) for thicknesses from 1 to 10 monolayers. The magnetic reorientation transition from...", "citations": 23, "author_count": 4, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5188, "doi": "10.1103/PhysRevB.59.9332", "umap_coordinates": { "x": 393.3412780761719, "y": 135.9279327392578, "z": 209.0944061279297 }, "tsne_coordinates": { "x": 5.666618347167969, "y": -37.975006103515625, "z": 18.002531051635742 }, "pca_coordinates": { "x": 3.2752771377563477, "y": -2.2128777503967285, "z": -1.2245380878448486 }, "axis_scores": { "Quantum imaging": 0.6941760778427124, "Quantum Life Science Sensing": 0.7017561793327332, "Quantum sensing Detection": 0.6859126091003418, "Quantum sensing Metrology": 0.6828626394271851, "Quantum sensing navigation": 0.6821647882461548, "Quantum sensing Position": 0.652093231678009, "Quantum sensing Timing": 0.6475009322166443, "Quantum sensing": 0.7042121887207031, "Quantum control": 0.6697521209716797 } }, { "id": 5182, "title": "A STUDY OF RADIATIVE MUNON-PAIR EVENTS AT Z(0) ENERGIES AND LIMITS ON AN ADDITIONAL Z' GAUGE BOSON", "abstract": "An analysis is reported on the channel e(+)e(-) --> mu(+)mu(-)(n gamma), n=1,2.., using data taken with the DELPHI detector at LEP from 1990 to 1992. Differential cross sections of the radiative photo...", "citations": 29, "author_count": 559, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5189, "doi": null, "umap_coordinates": { "x": 391.8824768066406, "y": 139.6004180908203, "z": 209.66494750976562 }, "tsne_coordinates": { "x": -7.01669979095459, "y": 37.79261016845703, "z": 3.0222344398498535 }, "pca_coordinates": { "x": -1.177147626876831, "y": 4.411018371582031, "z": -0.8543944358825684 }, "axis_scores": { "Quantum imaging": 0.6922752857208252, "Quantum Life Science Sensing": 0.6890822052955627, "Quantum sensing Detection": 0.6995962262153625, "Quantum sensing Metrology": 0.6876042485237122, "Quantum sensing navigation": 0.682839035987854, "Quantum sensing Position": 0.6691120266914368, "Quantum sensing Timing": 0.6794964075088501, "Quantum sensing": 0.69981449842453, "Quantum control": 0.7045736312866211 } }, { "id": 5183, "title": "Some theoretical problems in chemistry and physics", "abstract": "Recently the need for incorporating so-called Jordan blocks in the theoretical formulation of dynamical processes in Nature has been confronted and challenged. In addition, quantum mechanics has evolv...", "citations": 8, "author_count": 2, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5190, "doi": "10.1002/qua.21110", "umap_coordinates": { "x": 394.1612854003906, "y": 137.5789337158203, "z": 205.6837615966797 }, "tsne_coordinates": { "x": -13.228517532348633, "y": 10.793451309204102, "z": 18.814136505126953 }, "pca_coordinates": { "x": 0.7883769273757935, "y": 2.188185453414917, "z": -3.1740078926086426 }, "axis_scores": { "Quantum imaging": 0.6911096572875977, "Quantum Life Science Sensing": 0.7194148302078247, "Quantum sensing Detection": 0.6950389742851257, "Quantum sensing Metrology": 0.6932202577590942, "Quantum sensing navigation": 0.6953538060188293, "Quantum sensing Position": 0.6854098439216614, "Quantum sensing Timing": 0.6842478513717651, "Quantum sensing": 0.7060397863388062, "Quantum control": 0.7076257467269897 } }, { "id": 5184, "title": "Fast ion-beam photoelectron spectroscopy of Ca-: Cross sections and asymmetry parameters", "abstract": "We have made a spectroscopic study of the electrons photodetached from a fast beam of Ca- ions by laser photons of energy 2.08 eV. The spectrum exhibits peaks associated with detachment via the Ca(S-1...", "citations": 11, "author_count": 4, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5191, "doi": "10.1103/PhysRevA.58.2121", "umap_coordinates": { "x": 394.9158935546875, "y": 135.60028076171875, "z": 207.081298828125 }, "tsne_coordinates": { "x": -3.8125994205474854, "y": -9.667109489440918, "z": -8.793233871459961 }, "pca_coordinates": { "x": 1.0571012496948242, "y": 0.16721701622009277, "z": -0.44138437509536743 }, "axis_scores": { "Quantum imaging": 0.7066962122917175, "Quantum Life Science Sensing": 0.7174558639526367, "Quantum sensing Detection": 0.6960929036140442, "Quantum sensing Metrology": 0.6818411946296692, "Quantum sensing navigation": 0.702266275882721, "Quantum sensing Position": 0.6837539076805115, "Quantum sensing Timing": 0.6883453130722046, "Quantum sensing": 0.7150515913963318, "Quantum control": 0.6893560886383057 } }, { "id": 5185, "title": "A method for geometric calibration of edge-on detectors in a CT-gantry", "abstract": "Purpose: Photon-counting edge-on detectors are currently being considered for use in clinical computed tomography (CT) systems. A method for geometric calibration of edge-on detectors mounted on a CT-...", "citations": 2, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5192, "doi": "10.1118/1.4964792", "umap_coordinates": { "x": 395.7452392578125, "y": 132.86370849609375, "z": 205.41436767578125 }, "tsne_coordinates": { "x": -11.894423484802246, "y": 25.99267578125, "z": -20.181865692138672 }, "pca_coordinates": { "x": -1.4165388345718384, "y": 4.000545024871826, "z": 4.163209438323975 }, "axis_scores": { "Quantum imaging": 0.7313036322593689, "Quantum Life Science Sensing": 0.7126473188400269, "Quantum sensing Detection": 0.7315220832824707, "Quantum sensing Metrology": 0.7378413081169128, "Quantum sensing navigation": 0.7190955281257629, "Quantum sensing Position": 0.7237350344657898, "Quantum sensing Timing": 0.7411112785339355, "Quantum sensing": 0.7311182618141174, "Quantum control": 0.690172553062439 } }, { "id": 5186, "title": "NESSi: The Non-Equilibrium Systems Simulation package", "abstract": "The nonequilibrium dynamics of correlated many-particle systems is of interest in connection with pump-probe experiments on molecular systems and solids, as well as theoretical investigations of trans...", "citations": 79, "author_count": 9, "categories": [ "Computer Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5193, "doi": "10.1016/j.cpc.2020.107484", "umap_coordinates": { "x": 394.57037353515625, "y": 134.87599182128906, "z": 205.18106079101562 }, "tsne_coordinates": { "x": -11.364387512207031, "y": 15.214853286743164, "z": 14.66285228729248 }, "pca_coordinates": { "x": -1.7630561590194702, "y": 2.3362624645233154, "z": -1.7234835624694824 }, "axis_scores": { "Quantum imaging": 0.7227280139923096, "Quantum Life Science Sensing": 0.7455691695213318, "Quantum sensing Detection": 0.7182360887527466, "Quantum sensing Metrology": 0.6990019083023071, "Quantum sensing navigation": 0.7349230647087097, "Quantum sensing Position": 0.7019129991531372, "Quantum sensing Timing": 0.7072951197624207, "Quantum sensing": 0.7259292602539062, "Quantum control": 0.736274778842926 } }, { "id": 5187, "title": "Local structures and Al/Si ordering in lanthanum aluminosilicate glasses explored by advanced 27Al NMR experiments and molecular dynamics simulations", "abstract": "The structures of 15 La-Al-Si-O glasses, whose compositions span 11-28 mol% La2O3, 11-30 mol% Al2O3, and 45-78 mol% SiO2, are explored over both short and intermediate length-scales by using a combina...", "citations": 65, "author_count": 6, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5194, "doi": "10.1039/c2cp42858j", "umap_coordinates": { "x": 392.3706359863281, "y": 136.51119995117188, "z": 206.04220581054688 }, "tsne_coordinates": { "x": 7.231076717376709, "y": 10.379765510559082, "z": 35.38685607910156 }, "pca_coordinates": { "x": 0.5966397523880005, "y": 0.19814443588256836, "z": -3.051370143890381 }, "axis_scores": { "Quantum imaging": 0.6765856742858887, "Quantum Life Science Sensing": 0.6858859658241272, "Quantum sensing Detection": 0.638262927532196, "Quantum sensing Metrology": 0.6426876187324524, "Quantum sensing navigation": 0.6780328750610352, "Quantum sensing Position": 0.6513180732727051, "Quantum sensing Timing": 0.6294794678688049, "Quantum sensing": 0.6635944843292236, "Quantum control": 0.6503303050994873 } }, { "id": 5188, "title": "Physical properties of a photostimulable phosphor system for intra-oral radiography", "abstract": "Objectives: To determine physical properties of the Digora(R): digital intra-oral radiographic system (Soredex Orion Corporation, Helsinki, Finland) for different calibration settings and beam energie...", "citations": 25, "author_count": 4, "categories": [ "Dentistry", "Oral Surgery & Medicine" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5195, "doi": "10.1038/sj.dmfr.4600497", "umap_coordinates": { "x": 394.7867126464844, "y": 133.74212646484375, "z": 204.97850036621094 }, "tsne_coordinates": { "x": 1.8384227752685547, "y": 31.402814865112305, "z": -23.371267318725586 }, "pca_coordinates": { "x": -4.260741710662842, "y": 1.740734338760376, "z": 0.04670447111129761 }, "axis_scores": { "Quantum imaging": 0.689016580581665, "Quantum Life Science Sensing": 0.7125864028930664, "Quantum sensing Detection": 0.647907018661499, "Quantum sensing Metrology": 0.6630752086639404, "Quantum sensing navigation": 0.6359148621559143, "Quantum sensing Position": 0.6458226442337036, "Quantum sensing Timing": 0.6397605538368225, "Quantum sensing": 0.6741273999214172, "Quantum control": 0.6037905812263489 } }, { "id": 5189, "title": "High-efficiency and narrow-band near-ultraviolet carbon dots for high-color-purity light-emitting diodes", "abstract": "Near-ultraviolet (NUV) light is critical for applications in lighting, manufacturing, and medical fields, yet existing NUV emitters often suffer from complex syntheses or rely on toxic or unsustainabl...", "citations": 3, "author_count": 7, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5196, "doi": "10.1016/j.jcis.2025.138293", "umap_coordinates": { "x": 392.4868469238281, "y": 133.52316284179688, "z": 205.09808349609375 }, "tsne_coordinates": { "x": 25.78763198852539, "y": 9.847064971923828, "z": -8.697875022888184 }, "pca_coordinates": { "x": -4.083675861358643, "y": -2.804443359375, "z": 0.9711442589759827 }, "axis_scores": { "Quantum imaging": 0.7127150297164917, "Quantum Life Science Sensing": 0.7312284708023071, "Quantum sensing Detection": 0.7081605792045593, "Quantum sensing Metrology": 0.7028169631958008, "Quantum sensing navigation": 0.6841856837272644, "Quantum sensing Position": 0.6697008013725281, "Quantum sensing Timing": 0.6873364448547363, "Quantum sensing": 0.7212381958961487, "Quantum control": 0.7000265717506409 } }, { "id": 5190, "title": "Graphene-based biosensors for the detection of prostate cancer protein biomarkers: a review", "abstract": "Prostate cancer (PC) is the sixth most common cancer type in the world, which causes approximately 10% of total cancer fatalities. The detection of protein biomarkers in body fluids is the key topic f...", "citations": 54, "author_count": 11, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5197, "doi": "10.1186/s13065-019-0611-x", "umap_coordinates": { "x": 394.2730407714844, "y": 134.59848022460938, "z": 204.2187042236328 }, "tsne_coordinates": { "x": 15.267476081848145, "y": 27.34921646118164, "z": -9.02038860321045 }, "pca_coordinates": { "x": -2.6258177757263184, "y": 0.9769926071166992, "z": 0.8414613604545593 }, "axis_scores": { "Quantum imaging": 0.6759506464004517, "Quantum Life Science Sensing": 0.719028651714325, "Quantum sensing Detection": 0.7040153741836548, "Quantum sensing Metrology": 0.6971240639686584, "Quantum sensing navigation": 0.7044143676757812, "Quantum sensing Position": 0.7060916423797607, "Quantum sensing Timing": 0.6860767602920532, "Quantum sensing": 0.7039600610733032, "Quantum control": 0.6602721810340881 } }, { "id": 5191, "title": "An Application of the Theory of Open Quantum Systems to Model the Dynamics of Party Governance in the US Political System", "abstract": "The Gorini-Kossakowski-Sudarshan-Lindblad equation allows us to model the process of decision making in US elections. The crucial point we attempt to make is that the voter's mental state can be repre...", "citations": 50, "author_count": 4, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5198, "doi": "10.1007/s10773-013-1931-6", "umap_coordinates": { "x": 394.9761047363281, "y": 137.4027099609375, "z": 206.24713134765625 }, "tsne_coordinates": { "x": -26.249187469482422, "y": 6.627563953399658, "z": 11.28293514251709 }, "pca_coordinates": { "x": 1.6551897525787354, "y": 1.7075669765472412, "z": 0.286577045917511 }, "axis_scores": { "Quantum imaging": 0.7353768348693848, "Quantum Life Science Sensing": 0.7574436068534851, "Quantum sensing Detection": 0.7383811473846436, "Quantum sensing Metrology": 0.7194801568984985, "Quantum sensing navigation": 0.7372517585754395, "Quantum sensing Position": 0.7069013118743896, "Quantum sensing Timing": 0.7027149200439453, "Quantum sensing": 0.7481390833854675, "Quantum control": 0.7517638206481934 } }, { "id": 5192, "title": "Vibrational wave packet dynamics in NaK:: The A 1Σ+ state", "abstract": "A combined experimental and theoretical study of the vibrational wave packet dynamics for the NaK molecule in the A (1)Sigma(+) state is presented. The experiment utilises a 790 nm one-colour femtosec...", "citations": 10, "author_count": 7, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5199, "doi": "10.1016/S0301-0104(98)00404-2", "umap_coordinates": { "x": 393.3726806640625, "y": 136.37364196777344, "z": 206.53208923339844 }, "tsne_coordinates": { "x": 11.65865707397461, "y": 2.574554920196533, "z": 15.195772171020508 }, "pca_coordinates": { "x": 0.8476200103759766, "y": -0.6128988265991211, "z": -0.6608730554580688 }, "axis_scores": { "Quantum imaging": 0.6891347169876099, "Quantum Life Science Sensing": 0.6921175122261047, "Quantum sensing Detection": 0.6910198926925659, "Quantum sensing Metrology": 0.6553924679756165, "Quantum sensing navigation": 0.7007121443748474, "Quantum sensing Position": 0.6881585121154785, "Quantum sensing Timing": 0.6661621332168579, "Quantum sensing": 0.6908367872238159, "Quantum control": 0.6635954976081848 } }, { "id": 5193, "title": "Psychological 'double-slit experiment' in decision making: Quantum versus classical", "abstract": "This paper is devoted to justification of the application of quantum probability theory to problems of cognition, psychology, and decision making. Such applications are heavily based on quantum-like r...", "citations": 9, "author_count": 3, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5200, "doi": "10.1016/j.biosystems.2020.104171", "umap_coordinates": { "x": 394.6221923828125, "y": 137.42050170898438, "z": 205.52059936523438 }, "tsne_coordinates": { "x": -24.025428771972656, "y": 12.927619934082031, "z": 20.32925033569336 }, "pca_coordinates": { "x": -0.6986391544342041, "y": 2.00008487701416, "z": -0.9960867166519165 }, "axis_scores": { "Quantum imaging": 0.7471979856491089, "Quantum Life Science Sensing": 0.7868651747703552, "Quantum sensing Detection": 0.7724285125732422, "Quantum sensing Metrology": 0.7486779689788818, "Quantum sensing navigation": 0.7777755260467529, "Quantum sensing Position": 0.7485522031784058, "Quantum sensing Timing": 0.7454952001571655, "Quantum sensing": 0.7810055017471313, "Quantum control": 0.7596212029457092 } }, { "id": 5194, "title": "Ultrasound-assisted synthesis of organotin compounds and their application as luminescent dye in silk fibroin scaffolds", "abstract": "In this work, we report the green synthesis of four luminescent organotin compounds 1-4 derived from amino acid Schiff bases (1: Naph-Trp-SnPh2, 2: Naph-Tyr-SnBu2, 3: Naph-Tyr-SnPh2, 4: Naph-Phe-SnPh2...", "citations": 15, "author_count": 11, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5201, "doi": "10.1016/j.ica.2020.119490", "umap_coordinates": { "x": 393.3330078125, "y": 133.99253845214844, "z": 204.4021759033203 }, "tsne_coordinates": { "x": 10.320079803466797, "y": 15.590502738952637, "z": -5.418920040130615 }, "pca_coordinates": { "x": -4.8551788330078125, "y": -0.029334545135498047, "z": 0.1382489800453186 }, "axis_scores": { "Quantum imaging": 0.7109487652778625, "Quantum Life Science Sensing": 0.706840455532074, "Quantum sensing Detection": 0.6739141941070557, "Quantum sensing Metrology": 0.6502978801727295, "Quantum sensing navigation": 0.6795641183853149, "Quantum sensing Position": 0.6469470858573914, "Quantum sensing Timing": 0.649640679359436, "Quantum sensing": 0.6841416358947754, "Quantum control": 0.6608255505561829 } }, { "id": 5195, "title": "500 microkelvin nanoelectronics", "abstract": "Fragile quantum effects such as single electron charging in quantum dots or macroscopic coherent tunneling in superconducting junctions are the basis of modern quantum technologies. These phenomena ca...", "citations": 24, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5202, "doi": "10.1038/s41467-020-15201-3", "umap_coordinates": { "x": 393.7510681152344, "y": 134.73687744140625, "z": 206.31793212890625 }, "tsne_coordinates": { "x": -9.043045043945312, "y": 5.083620548248291, "z": -3.554452419281006 }, "pca_coordinates": { "x": -1.465467929840088, "y": -1.5574493408203125, "z": 0.08326417207717896 }, "axis_scores": { "Quantum imaging": 0.7226595878601074, "Quantum Life Science Sensing": 0.7620565295219421, "Quantum sensing Detection": 0.7335468530654907, "Quantum sensing Metrology": 0.7415007948875427, "Quantum sensing navigation": 0.7304108142852783, "Quantum sensing Position": 0.7349950671195984, "Quantum sensing Timing": 0.7088518142700195, "Quantum sensing": 0.7499691843986511, "Quantum control": 0.7206440567970276 } }, { "id": 5196, "title": "Fast all-optical nuclear spin echo technique based on EIT", "abstract": "We demonstrate an all-optical Raman spin echo technique, using electromagnetically induced transparency (EIT) to create the pulses required for a spin echo sequence: initialization, pi-rotation, and r...", "citations": 1, "author_count": 6, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5203, "doi": "10.1140/epjd/e2016-60716-6", "umap_coordinates": { "x": 395.0300598144531, "y": 135.20603942871094, "z": 205.80984497070312 }, "tsne_coordinates": { "x": -19.193496704101562, "y": 24.842586517333984, "z": 2.0247983932495117 }, "pca_coordinates": { "x": -0.9319750070571899, "y": 2.222858190536499, "z": 0.7447184920310974 }, "axis_scores": { "Quantum imaging": 0.7234146595001221, "Quantum Life Science Sensing": 0.7123039364814758, "Quantum sensing Detection": 0.6834139227867126, "Quantum sensing Metrology": 0.6706362962722778, "Quantum sensing navigation": 0.6898318529129028, "Quantum sensing Position": 0.6724305748939514, "Quantum sensing Timing": 0.6955730319023132, "Quantum sensing": 0.6967363357543945, "Quantum control": 0.6640968322753906 } }, { "id": 5197, "title": "Detection of rolling circle amplified DNA molecules using probe-tagged magnetic nanobeads in a portable AC susceptometer", "abstract": "Here, the volume-amplified magnetic nanobead detection assay (VAM-NDA) is for the first time applied for detection of rolling circle amplified (RCA) DNA molecules in a portable, commercial AC suscepto...", "citations": 57, "author_count": 8, "categories": [ "Biophysics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5204, "doi": "10.1016/j.bios.2011.08.019", "umap_coordinates": { "x": 393.7403869628906, "y": 134.47410583496094, "z": 205.02273559570312 }, "tsne_coordinates": { "x": 22.131011962890625, "y": 24.103994369506836, "z": -13.48252010345459 }, "pca_coordinates": { "x": -2.1518123149871826, "y": -0.9416556358337402, "z": -0.10413312911987305 }, "axis_scores": { "Quantum imaging": 0.6936060190200806, "Quantum Life Science Sensing": 0.7406511902809143, "Quantum sensing Detection": 0.7282869815826416, "Quantum sensing Metrology": 0.7175347805023193, "Quantum sensing navigation": 0.7209463715553284, "Quantum sensing Position": 0.729804277420044, "Quantum sensing Timing": 0.6832578182220459, "Quantum sensing": 0.7332178950309753, "Quantum control": 0.6859936118125916 } }, { "id": 5198, "title": "Contextual Probabilistic Analysis of Bell's Inequality: Nonlocality, Death of Reality or Non-Kolmogorovness?", "abstract": "The main aim of this report is to inform the quantum information community about investigations on the problem of probabilistic compatibility of a family of random variables: a possibility to realize ...", "citations": 1, "author_count": 2, "categories": [ "Computer Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5205, "doi": "10.1109/ICQNM.2008.7", "umap_coordinates": { "x": 395.6148376464844, "y": 137.5038604736328, "z": 206.6242218017578 }, "tsne_coordinates": { "x": -21.88738441467285, "y": 0.9069232940673828, "z": 10.260355949401855 }, "pca_coordinates": { "x": 1.6671810150146484, "y": 4.8314337730407715, "z": -0.34927424788475037 }, "axis_scores": { "Quantum imaging": 0.7719044089317322, "Quantum Life Science Sensing": 0.7646751403808594, "Quantum sensing Detection": 0.7726526260375977, "Quantum sensing Metrology": 0.7423887848854065, "Quantum sensing navigation": 0.7809777855873108, "Quantum sensing Position": 0.7452521324157715, "Quantum sensing Timing": 0.7279285788536072, "Quantum sensing": 0.7813146710395813, "Quantum control": 0.7535687685012817 } }, { "id": 5199, "title": "FEASIBILITY OF MEASURING THE COSMOLOGICAL CONSTANT-LAMBDA AND MASS-DENSITY-OMEGA USING TYPE IA SUPERNOVAE", "abstract": "We explore the feasibility of resurrecting the apparent magnitude-redshift relation for a ''standard candle'' to measure the cosmological constant and mass density. We show that Type Ia supernovae, if...", "citations": 147, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5206, "doi": "10.1086/176113", "umap_coordinates": { "x": 395.4804992675781, "y": 135.64486694335938, "z": 205.65185546875 }, "tsne_coordinates": { "x": -22.88405418395996, "y": 21.42137908935547, "z": -3.921841621398926 }, "pca_coordinates": { "x": -1.2595415115356445, "y": 4.208542346954346, "z": 2.4138402938842773 }, "axis_scores": { "Quantum imaging": 0.6785230040550232, "Quantum Life Science Sensing": 0.7038335204124451, "Quantum sensing Detection": 0.6682980060577393, "Quantum sensing Metrology": 0.6788686513900757, "Quantum sensing navigation": 0.7015988230705261, "Quantum sensing Position": 0.6934972405433655, "Quantum sensing Timing": 0.6833552122116089, "Quantum sensing": 0.6775236129760742, "Quantum control": 0.6463637948036194 } }, { "id": 5200, "title": "BINDING OF SUBSTRATES TO HUMAN DEOXYCYTIDINE KINASE STUDIED WITH LIGAND-DEPENDENT QUENCHING OF ENZYME INTRINSIC FLUORESCENCE", "abstract": "Deoxycytidine kinase is a key enzyme in the salvage pathway, and its activity is required for 5'-phosphorylation of several important antiviral and cytostatic nucleoside analogues. It has recently bee...", "citations": 19, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5207, "doi": "10.1021/bi00053a039", "umap_coordinates": { "x": 392.6990051269531, "y": 136.62014770507812, "z": 204.826171875 }, "tsne_coordinates": { "x": 1.9229397773742676, "y": 16.504398345947266, "z": 6.585660934448242 }, "pca_coordinates": { "x": -2.680385112762451, "y": 0.4813636541366577, "z": -2.0168981552124023 }, "axis_scores": { "Quantum imaging": 0.7016928791999817, "Quantum Life Science Sensing": 0.709181010723114, "Quantum sensing Detection": 0.6819518208503723, "Quantum sensing Metrology": 0.6653183102607727, "Quantum sensing navigation": 0.6769644021987915, "Quantum sensing Position": 0.6576654314994812, "Quantum sensing Timing": 0.6456695199012756, "Quantum sensing": 0.6888808012008667, "Quantum control": 0.6687692403793335 } }, { "id": 5201, "title": "Bayesian approach to coherent combination of single photon beams", "abstract": "We theoretically investigate the performance of a coherent beam combination of two light beams under relative phase fluctuations in the photon starved regime. We apply a first-principles approach usin...", "citations": 2, "author_count": 5, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5208, "doi": "10.1364/OE.530127", "umap_coordinates": { "x": 395.1353454589844, "y": 133.59939575195312, "z": 207.2462158203125 }, "tsne_coordinates": { "x": -8.901627540588379, "y": 8.471269607543945, "z": -27.14591407775879 }, "pca_coordinates": { "x": -0.8778687715530396, "y": 1.2226146459579468, "z": 3.268944501876831 }, "axis_scores": { "Quantum imaging": 0.7660486102104187, "Quantum Life Science Sensing": 0.733415961265564, "Quantum sensing Detection": 0.7561533451080322, "Quantum sensing Metrology": 0.7407903671264648, "Quantum sensing navigation": 0.7496802806854248, "Quantum sensing Position": 0.7242396473884583, "Quantum sensing Timing": 0.7201849818229675, "Quantum sensing": 0.7577605247497559, "Quantum control": 0.7164894938468933 } }, { "id": 5202, "title": "Thermal fluctuations in nuclear pasta", "abstract": "Despite their astrophysical relevance, nuclear pasta phases are relatively unstudied at high temperatures. We present molecular dynamics simulations of symmetric nuclear matter with several topologies...", "citations": 12, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5209, "doi": "10.1103/PhysRevC.103.055810", "umap_coordinates": { "x": 394.5498046875, "y": 136.5397491455078, "z": 208.489990234375 }, "tsne_coordinates": { "x": -20.103548049926758, "y": -13.356766700744629, "z": 14.030721664428711 }, "pca_coordinates": { "x": 4.591702461242676, "y": 0.8742467164993286, "z": -1.7085845470428467 }, "axis_scores": { "Quantum imaging": 0.6862025260925293, "Quantum Life Science Sensing": 0.7145494818687439, "Quantum sensing Detection": 0.6975924372673035, "Quantum sensing Metrology": 0.6836113929748535, "Quantum sensing navigation": 0.7183974981307983, "Quantum sensing Position": 0.6838841438293457, "Quantum sensing Timing": 0.6947741508483887, "Quantum sensing": 0.7123759984970093, "Quantum control": 0.7162103056907654 } }, { "id": 5203, "title": "Simulation of excited states and the sign problem in the path integral Monte Carlo method", "abstract": "An approach is presented to compute properties of excited states in path integral Monte Carlo simulations of quantum systems. The approach is based on the introduction of several images of the studied...", "citations": 35, "author_count": 2, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5210, "doi": "10.1088/0305-4470/38/30/003", "umap_coordinates": { "x": 395.237060546875, "y": 136.46144104003906, "z": 206.41061401367188 }, "tsne_coordinates": { "x": -14.226372718811035, "y": 6.47551965713501, "z": 22.140911102294922 }, "pca_coordinates": { "x": 0.8794174194335938, "y": 2.874814748764038, "z": 1.611452579498291 }, "axis_scores": { "Quantum imaging": 0.7179679274559021, "Quantum Life Science Sensing": 0.7114154696464539, "Quantum sensing Detection": 0.7153736352920532, "Quantum sensing Metrology": 0.6996474862098694, "Quantum sensing navigation": 0.7429683208465576, "Quantum sensing Position": 0.7158234119415283, "Quantum sensing Timing": 0.7109482288360596, "Quantum sensing": 0.7089667320251465, "Quantum control": 0.6805403828620911 } }, { "id": 5204, "title": "BALLISTIC TRANSPORT THROUGH A DOUBLE BEND IN AN ELECTRON WAVE-GUIDE", "abstract": "The transport properties of a double bend in a two-dimensional electron waveguide are investigated by performing calculations of the transmission and conductance. The bends can introduce significant m...", "citations": 9, "author_count": 2, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5211, "doi": "10.1063/1.352786", "umap_coordinates": { "x": 394.0882568359375, "y": 134.75576782226562, "z": 208.39378356933594 }, "tsne_coordinates": { "x": 23.485387802124023, "y": -32.04011154174805, "z": -4.252098560333252 }, "pca_coordinates": { "x": 2.849271774291992, "y": -1.5815997123718262, "z": 1.33955979347229 }, "axis_scores": { "Quantum imaging": 0.7147844433784485, "Quantum Life Science Sensing": 0.7037878632545471, "Quantum sensing Detection": 0.7195549607276917, "Quantum sensing Metrology": 0.7139622569084167, "Quantum sensing navigation": 0.7430703043937683, "Quantum sensing Position": 0.6997392773628235, "Quantum sensing Timing": 0.6670618653297424, "Quantum sensing": 0.726752758026123, "Quantum control": 0.6911632418632507 } }, { "id": 5205, "title": "Discrimination of Hover Fly Species and Sexes by Wing Interference Signals", "abstract": "Remote automated surveillance of insect abundance and diversity is poised to revolutionize insect decline studies. The study reveals spectral analysis of thin-film wing interference signals (WISs) can...", "citations": 11, "author_count": 7, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5212, "doi": "10.1002/advs.202304657", "umap_coordinates": { "x": 394.6202392578125, "y": 135.59237670898438, "z": 205.25238037109375 }, "tsne_coordinates": { "x": -7.904422760009766, "y": 28.944612503051758, "z": 18.427810668945312 }, "pca_coordinates": { "x": -0.8410571217536926, "y": 2.378363847732544, "z": -0.620342493057251 }, "axis_scores": { "Quantum imaging": 0.7105123996734619, "Quantum Life Science Sensing": 0.726607620716095, "Quantum sensing Detection": 0.7049192190170288, "Quantum sensing Metrology": 0.6907514929771423, "Quantum sensing navigation": 0.716532826423645, "Quantum sensing Position": 0.6887674927711487, "Quantum sensing Timing": 0.6670241355895996, "Quantum sensing": 0.7166941165924072, "Quantum control": 0.7202802300453186 } }, { "id": 5206, "title": "Probing nonadiabatic dynamics with attosecond pulse trains and soft x-ray Raman spectroscopy", "abstract": "Linear off-resonant x-ray Raman techniques are capable of detecting the ultrafast electronic coherences generated when a photoexcited wave packet passes through a conical intersection. A hybrid femtos...", "citations": 12, "author_count": 4, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5213, "doi": "10.1063/4.0000146", "umap_coordinates": { "x": 394.4091491699219, "y": 135.40194702148438, "z": 206.79962158203125 }, "tsne_coordinates": { "x": -12.196755409240723, "y": -6.503912925720215, "z": -8.604827880859375 }, "pca_coordinates": { "x": 1.6306805610656738, "y": 0.2568674087524414, "z": 2.0695762634277344 }, "axis_scores": { "Quantum imaging": 0.704379677772522, "Quantum Life Science Sensing": 0.7054321765899658, "Quantum sensing Detection": 0.691682755947113, "Quantum sensing Metrology": 0.679113507270813, "Quantum sensing navigation": 0.6931040287017822, "Quantum sensing Position": 0.6672006845474243, "Quantum sensing Timing": 0.7088292241096497, "Quantum sensing": 0.7012304067611694, "Quantum control": 0.6842432022094727 } }, { "id": 5207, "title": "Low-Temperature Bonding of Nanolayered InGaP/SiO2 Waveguides for Spontaneous-Parametric Down Conversion", "abstract": "The integration of III-V materials on photonic integrated circuits has enjoyed a lot of attention because of the necessity of merging photon sources with silicon electronics. Nevertheless, III-V sourc...", "citations": 10, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5214, "doi": "10.1021/acsanm.1c04202", "umap_coordinates": { "x": 393.07879638671875, "y": 133.77955627441406, "z": 206.64393615722656 }, "tsne_coordinates": { "x": 18.47694206237793, "y": -13.386663436889648, "z": -13.058433532714844 }, "pca_coordinates": { "x": -0.7715824246406555, "y": -3.7844104766845703, "z": 1.3129372596740723 }, "axis_scores": { "Quantum imaging": 0.6638170480728149, "Quantum Life Science Sensing": 0.6815809011459351, "Quantum sensing Detection": 0.6727255582809448, "Quantum sensing Metrology": 0.6795638799667358, "Quantum sensing navigation": 0.672640860080719, "Quantum sensing Position": 0.6612546443939209, "Quantum sensing Timing": 0.6490816473960876, "Quantum sensing": 0.6842270493507385, "Quantum control": 0.6637327671051025 } }, { "id": 5208, "title": "Near-Infrared Luminescence from Visible-Light-Sensitized Ruthenium(II)-Neodymium(III) Heterobimetallic Bridged Complexes Containing Alkoxy(silyl) Functional Groups", "abstract": "New infrared emitting d-f (ruthenium(II)-neodymium(III)) heterobimetallic complexes with alkoxy(silyl) functional groups have been prepared. Visible excitation evidenced energy transfer processes from...", "citations": 1, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5215, "doi": "10.21577/0103-5053.20190233", "umap_coordinates": { "x": 393.9869689941406, "y": 135.39169311523438, "z": 204.59649658203125 }, "tsne_coordinates": { "x": 10.203739166259766, "y": 16.960708618164062, "z": -2.830138683319092 }, "pca_coordinates": { "x": -1.8647844791412354, "y": 0.5181763172149658, "z": -0.16615253686904907 }, "axis_scores": { "Quantum imaging": 0.6826989650726318, "Quantum Life Science Sensing": 0.7137584090232849, "Quantum sensing Detection": 0.6633361577987671, "Quantum sensing Metrology": 0.669757068157196, "Quantum sensing navigation": 0.6599525809288025, "Quantum sensing Position": 0.6485674977302551, "Quantum sensing Timing": 0.640902042388916, "Quantum sensing": 0.6850547194480896, "Quantum control": 0.6607547998428345 } }, { "id": 5209, "title": "Extending the Compositional Space of Mixed Lead Halide Perovskites by Cs, Rb, K, and Na Doping", "abstract": "A trend in high performing lead halide perovskite solar cell devices has been increasing compositional complexity by successively introducing more elements, dopants, and additives into the structure; ...", "citations": 74, "author_count": 11, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5216, "doi": "10.1021/acs.jpcc.7b12464", "umap_coordinates": { "x": 391.5078430175781, "y": 134.2910919189453, "z": 205.43585205078125 }, "tsne_coordinates": { "x": 15.83568286895752, "y": -1.0739394426345825, "z": -21.652326583862305 }, "pca_coordinates": { "x": -2.663334369659424, "y": -1.1531071662902832, "z": -2.1991817951202393 }, "axis_scores": { "Quantum imaging": 0.6932649612426758, "Quantum Life Science Sensing": 0.6905969381332397, "Quantum sensing Detection": 0.6571100354194641, "Quantum sensing Metrology": 0.6649036407470703, "Quantum sensing navigation": 0.6956090331077576, "Quantum sensing Position": 0.6888384819030762, "Quantum sensing Timing": 0.6647181510925293, "Quantum sensing": 0.6890887022018433, "Quantum control": 0.6755608320236206 } }, { "id": 5210, "title": "Study of the 14Be Continuum: Identification and Structure of its Second 2+ State", "abstract": "The coupling between bound quantum states and those in the continuum is of high theoretical interest. Experimental studies of bound drip-line nuclei provide ideal testing grounds for such investigatio...", "citations": 18, "author_count": 38, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5217, "doi": "10.1103/PhysRevLett.111.242501", "umap_coordinates": { "x": 394.644775390625, "y": 135.96868896484375, "z": 207.50335693359375 }, "tsne_coordinates": { "x": -2.356412172317505, "y": -8.534564971923828, "z": 1.9987444877624512 }, "pca_coordinates": { "x": 2.084381103515625, "y": 0.39421844482421875, "z": -1.1515085697174072 }, "axis_scores": { "Quantum imaging": 0.6882700324058533, "Quantum Life Science Sensing": 0.7121422290802002, "Quantum sensing Detection": 0.7131012678146362, "Quantum sensing Metrology": 0.6813574433326721, "Quantum sensing navigation": 0.6846880912780762, "Quantum sensing Position": 0.689605176448822, "Quantum sensing Timing": 0.6810801029205322, "Quantum sensing": 0.7014237642288208, "Quantum control": 0.680804967880249 } }, { "id": 5211, "title": "Aggregation, ageing and transport properties of surface modified fumed silica dispersions", "abstract": "We have investigated the aggregation, ageing and transport properties of surface modified silica dispersions in DMSO by photon correlation spectroscopy and conductivity measurements. The surface modif...", "citations": 43, "author_count": 6, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5218, "doi": "10.1039/b921488g", "umap_coordinates": { "x": 393.3755187988281, "y": 135.3415069580078, "z": 204.83847045898438 }, "tsne_coordinates": { "x": 17.752290725708008, "y": 18.163911819458008, "z": 29.336334228515625 }, "pca_coordinates": { "x": -1.8477859497070312, "y": -0.6978726387023926, "z": -3.5995800495147705 }, "axis_scores": { "Quantum imaging": 0.6517263650894165, "Quantum Life Science Sensing": 0.7104899883270264, "Quantum sensing Detection": 0.6441171169281006, "Quantum sensing Metrology": 0.6477575898170471, "Quantum sensing navigation": 0.666531503200531, "Quantum sensing Position": 0.6497488021850586, "Quantum sensing Timing": 0.6047205924987793, "Quantum sensing": 0.6647064089775085, "Quantum control": 0.6652134656906128 } }, { "id": 5212, "title": "Persistent homology of quantum entanglement", "abstract": "Structure in quantum entanglement entropy is often leveraged to focus on a small corner of the exponentially large Hilbert space and efficiently parametrize the problem of finding ground states. A typ...", "citations": 10, "author_count": 2, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5219, "doi": "10.1103/PhysRevB.107.115174", "umap_coordinates": { "x": 395.44573974609375, "y": 136.82452392578125, "z": 208.28875732421875 }, "tsne_coordinates": { "x": -14.647132873535156, "y": -16.895906448364258, "z": 6.556347846984863 }, "pca_coordinates": { "x": 5.794846057891846, "y": 2.2339067459106445, "z": -0.8586125373840332 }, "axis_scores": { "Quantum imaging": 0.7420233488082886, "Quantum Life Science Sensing": 0.7326462268829346, "Quantum sensing Detection": 0.7292138338088989, "Quantum sensing Metrology": 0.6901086568832397, "Quantum sensing navigation": 0.7341231107711792, "Quantum sensing Position": 0.7127257585525513, "Quantum sensing Timing": 0.7025827765464783, "Quantum sensing": 0.7316279411315918, "Quantum control": 0.7189015746116638 } }, { "id": 5213, "title": "Systematic studies of highly excited Rydberg states in ions with two valance electrons", "abstract": "A method, based on the multiconfiguration Hartree-Fock approach, for ab initio calculations of Rydberg states has been developed. The method has been tested for a number of highly excited Rydberg stat...", "citations": 2, "author_count": 6, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5220, "doi": "10.1088/0953-4075/39/12/015", "umap_coordinates": { "x": 394.3625183105469, "y": 135.47413635253906, "z": 206.34349060058594 }, "tsne_coordinates": { "x": 0.3511669933795929, "y": -1.3638346195220947, "z": 17.882837295532227 }, "pca_coordinates": { "x": -0.23966938257217407, "y": 0.3501572608947754, "z": -0.21227407455444336 }, "axis_scores": { "Quantum imaging": 0.6910073757171631, "Quantum Life Science Sensing": 0.7016255855560303, "Quantum sensing Detection": 0.6779018640518188, "Quantum sensing Metrology": 0.6607955694198608, "Quantum sensing navigation": 0.6663187146186829, "Quantum sensing Position": 0.653999924659729, "Quantum sensing Timing": 0.6623536348342896, "Quantum sensing": 0.6861685514450073, "Quantum control": 0.6463969349861145 } }, { "id": 5214, "title": "Disordered, Strongly Scattering Porous Materials as Miniature Multipass Gas Cells", "abstract": "We investigate the interaction of light and gas in strongly scattering nano- and macroporous media. Manufacturing and structural characterization of ZrO2, Al2O3 and TiO2 ceramics with different pore s...", "citations": 71, "author_count": 6, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5221, "doi": "10.1103/PhysRevLett.107.143901", "umap_coordinates": { "x": 394.67730712890625, "y": 136.34405517578125, "z": 207.96224975585938 }, "tsne_coordinates": { "x": -13.993232727050781, "y": -19.466920852661133, "z": 1.2475173473358154 }, "pca_coordinates": { "x": 2.3471169471740723, "y": -0.9390928745269775, "z": 0.2460559606552124 }, "axis_scores": { "Quantum imaging": 0.7231140732765198, "Quantum Life Science Sensing": 0.7656039595603943, "Quantum sensing Detection": 0.7351061105728149, "Quantum sensing Metrology": 0.714730978012085, "Quantum sensing navigation": 0.7258862257003784, "Quantum sensing Position": 0.6965218186378479, "Quantum sensing Timing": 0.6802664995193481, "Quantum sensing": 0.7470441460609436, "Quantum control": 0.6830610036849976 } }, { "id": 5215, "title": "Amplification of photon echo signals by use of a fiber amplifier", "abstract": "The efficiency of photon-echo processes typically lies in the 0.1-1% range. For many photon-echo-based applications suggested in optical storage and all-optical communication the photon-echo output pu...", "citations": 7, "author_count": 6, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5222, "doi": "10.1364/OL.23.000442", "umap_coordinates": { "x": 394.64520263671875, "y": 134.44720458984375, "z": 206.33290100097656 }, "tsne_coordinates": { "x": -1.3804641962051392, "y": -1.132899284362793, "z": -28.018972396850586 }, "pca_coordinates": { "x": -0.7676070928573608, "y": 1.3411731719970703, "z": 3.5832886695861816 }, "axis_scores": { "Quantum imaging": 0.7392781376838684, "Quantum Life Science Sensing": 0.715606689453125, "Quantum sensing Detection": 0.733755886554718, "Quantum sensing Metrology": 0.7158105373382568, "Quantum sensing navigation": 0.7090074419975281, "Quantum sensing Position": 0.6961902379989624, "Quantum sensing Timing": 0.6793278455734253, "Quantum sensing": 0.7354245185852051, "Quantum control": 0.6944761276245117 } }, { "id": 5216, "title": "Comparative analysis of quantum cascade laser modeling based on density matrices and non-equilibrium Green's functions", "abstract": "We study the operation of an 8.5 mu m quantum cascade laser based on GaInAs/AlInAs lattice matched to InP using three different simulation models based on density matrix (DM) and non-equilibrium Green...", "citations": 56, "author_count": 11, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5223, "doi": "10.1063/1.4895123", "umap_coordinates": { "x": 393.8141174316406, "y": 136.4398956298828, "z": 206.60105895996094 }, "tsne_coordinates": { "x": -13.47357177734375, "y": 4.608185768127441, "z": 6.765641689300537 }, "pca_coordinates": { "x": 1.6050634384155273, "y": 1.6585700511932373, "z": -0.6098070740699768 }, "axis_scores": { "Quantum imaging": 0.7299380302429199, "Quantum Life Science Sensing": 0.7089918255805969, "Quantum sensing Detection": 0.708791196346283, "Quantum sensing Metrology": 0.7129747867584229, "Quantum sensing navigation": 0.707910418510437, "Quantum sensing Position": 0.684866189956665, "Quantum sensing Timing": 0.6651720404624939, "Quantum sensing": 0.7162030935287476, "Quantum control": 0.7117172479629517 } }, { "id": 5217, "title": "Estimation of Hamaker constants of ceramic materials from optical data using Lifshitz theory", "abstract": "The Hamaker constants of eight different ceramic materials, 6H-SiC, tetragonal, partially stabilized ZrO2 (3% Y2O3), beta-Si3N4, alpha-Al2O3, Y2O3, sapphire (single-crystal alpha-Al2O3), MgO, MgAl2O4,...", "citations": 131, "author_count": 5, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 5224, "doi": "10.1111/j.1151-2916.1996.tb08126.x", "umap_coordinates": { "x": 394.6182861328125, "y": 135.56570434570312, "z": 204.11434936523438 }, "tsne_coordinates": { "x": 5.575029373168945, "y": 27.09743881225586, "z": 14.8041353225708 }, "pca_coordinates": { "x": -1.0246620178222656, "y": 2.2207140922546387, "z": -0.26907840371131897 }, "axis_scores": { "Quantum imaging": 0.6956600546836853, "Quantum Life Science Sensing": 0.7275599837303162, "Quantum sensing Detection": 0.7023956775665283, "Quantum sensing Metrology": 0.723220705986023, "Quantum sensing navigation": 0.6823371648788452, "Quantum sensing Position": 0.6699974536895752, "Quantum sensing Timing": 0.6774178743362427, "Quantum sensing": 0.7255519032478333, "Quantum control": 0.6912938356399536 } }, { "id": 5218, "title": "Self-supervised pre-trained neural network for quantum natural language processing", "abstract": "Quantum computing models have propelled advances in many application domains. However, in the field of natural language processing (NLP), quantum computing models are limited in representation capacit...", "citations": 9, "author_count": 4, "categories": [ "Computer Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5225, "doi": "10.1016/j.neunet.2024.107004", "umap_coordinates": { "x": 394.9280090332031, "y": 136.4970703125, "z": 205.66702270507812 }, "tsne_coordinates": { "x": -14.923657417297363, "y": 11.706249237060547, "z": 13.357861518859863 }, "pca_coordinates": { "x": 0.12857592105865479, "y": 1.1682989597320557, "z": 1.7275645732879639 }, "axis_scores": { "Quantum imaging": 0.7584488391876221, "Quantum Life Science Sensing": 0.7521432042121887, "Quantum sensing Detection": 0.7557560801506042, "Quantum sensing Metrology": 0.7441497445106506, "Quantum sensing navigation": 0.7730866074562073, "Quantum sensing Position": 0.71660315990448, "Quantum sensing Timing": 0.7056722044944763, "Quantum sensing": 0.7653796076774597, "Quantum control": 0.7305437326431274 } }, { "id": 5219, "title": "Designing gate operations for single-ion quantum computing in rare-earth-ion-doped crystals", "abstract": "Quantum computers based on rare-earth-ion-doped crystals show promising properties in terms of scalability and connectivity if single ions can be used as qubits. Through simulations, we investigate ga...", "citations": 21, "author_count": 5, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5226, "doi": "10.1103/PhysRevA.104.052624", "umap_coordinates": { "x": 394.6121520996094, "y": 134.0835723876953, "z": 208.50640869140625 }, "tsne_coordinates": { "x": 2.7421281337738037, "y": -23.383607864379883, "z": -16.983625411987305 }, "pca_coordinates": { "x": 2.723310708999634, "y": -1.860724925994873, "z": 1.946399450302124 }, "axis_scores": { "Quantum imaging": 0.7215703129768372, "Quantum Life Science Sensing": 0.7352457046508789, "Quantum sensing Detection": 0.733136773109436, "Quantum sensing Metrology": 0.7290762662887573, "Quantum sensing navigation": 0.7241384387016296, "Quantum sensing Position": 0.681764543056488, "Quantum sensing Timing": 0.7055292129516602, "Quantum sensing": 0.7472870945930481, "Quantum control": 0.7141548991203308 } }, { "id": 5220, "title": "Neutral Sulfuric Acid-Water Clustering Rates: Bridging the Gap between Molecular Simulation and Experiment", "abstract": "The role of sulfuric acid during atmospheric new particle formation is an ongoing topic of discussion. In this work, we provide quantitative experimental constraints for quantum chemically calculated ...", "citations": 6, "author_count": 7, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5227, "doi": "10.1021/acs.jpclett.0c01045", "umap_coordinates": { "x": 392.9552917480469, "y": 137.07315063476562, "z": 205.58993530273438 }, "tsne_coordinates": { "x": 5.01718807220459, "y": 11.585561752319336, "z": 22.992815017700195 }, "pca_coordinates": { "x": -0.758643627166748, "y": 1.4151819944381714, "z": -2.5495851039886475 }, "axis_scores": { "Quantum imaging": 0.678032636642456, "Quantum Life Science Sensing": 0.7175663113594055, "Quantum sensing Detection": 0.680797815322876, "Quantum sensing Metrology": 0.667482852935791, "Quantum sensing navigation": 0.7058116793632507, "Quantum sensing Position": 0.6797139644622803, "Quantum sensing Timing": 0.6984063386917114, "Quantum sensing": 0.6953276991844177, "Quantum control": 0.679038941860199 } }, { "id": 5221, "title": "Characterization of nuclear sources via two-neutron intensity interferometry", "abstract": "The neutron energy spectrum and the two-neutron correlation function have been measured for the E/A = 45 MeV Ni + Al reaction in order to assess the space-time characteristics of the neutron emitting ...", "citations": 11, "author_count": 34, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5228, "doi": "10.1016/S0375-9474(99)00377-2", "umap_coordinates": { "x": 394.8848571777344, "y": 133.8043212890625, "z": 205.46974182128906 }, "tsne_coordinates": { "x": -34.450965881347656, "y": 16.468721389770508, "z": -19.85936737060547 }, "pca_coordinates": { "x": -1.6814063787460327, "y": 1.9972000122070312, "z": 2.532543420791626 }, "axis_scores": { "Quantum imaging": 0.7592865228652954, "Quantum Life Science Sensing": 0.7346956133842468, "Quantum sensing Detection": 0.7403831481933594, "Quantum sensing Metrology": 0.7296392917633057, "Quantum sensing navigation": 0.7347227931022644, "Quantum sensing Position": 0.7143733501434326, "Quantum sensing Timing": 0.7162116765975952, "Quantum sensing": 0.7443166971206665, "Quantum control": 0.6926117539405823 } }, { "id": 5222, "title": "Resonant photoemission study of Ba1-xKxBiO3 single crystals", "abstract": "Single crystals of superconducting Ba0.6K0.4BiO3 and semiconducting Ba0.9K0.1BiO3 have been studied by resonant photoemission. in the photon energy range 14-25 eV, a valence-band feature with a bindin...", "citations": 2, "author_count": 11, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5229, "doi": "10.1103/PhysRevB.56.3467", "umap_coordinates": { "x": 393.8235168457031, "y": 135.31097412109375, "z": 208.8972930908203 }, "tsne_coordinates": { "x": 10.986226081848145, "y": -44.11661148071289, "z": 2.6773362159729004 }, "pca_coordinates": { "x": 2.5345046520233154, "y": -2.857388973236084, "z": -0.6850901246070862 }, "axis_scores": { "Quantum imaging": 0.7065232396125793, "Quantum Life Science Sensing": 0.7165126204490662, "Quantum sensing Detection": 0.7032618522644043, "Quantum sensing Metrology": 0.6942402720451355, "Quantum sensing navigation": 0.6892068982124329, "Quantum sensing Position": 0.6861239075660706, "Quantum sensing Timing": 0.6583850979804993, "Quantum sensing": 0.7211251854896545, "Quantum control": 0.6843178272247314 } }, { "id": 5223, "title": "Effect of Reconstruction Kernel and Virtual Monoenergetic Imaging on Segmentation-Based Measurement of Coronary Plaque Volume With Photon-Counting CT", "abstract": "Objectives: Coronary computed tomography angiography is the primary modality for noninvasive assessment of coronary artery disease. Photon-counting computed tomography (PCCT) offers superior spatial r...", "citations": 2, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5230, "doi": "10.1097/RLI.0000000000001167", "umap_coordinates": { "x": 395.6407165527344, "y": 133.14337158203125, "z": 204.7933807373047 }, "tsne_coordinates": { "x": -7.323915481567383, "y": 22.896390914916992, "z": -17.432796478271484 }, "pca_coordinates": { "x": -2.4175429344177246, "y": 5.0146355628967285, "z": 2.2850823402404785 }, "axis_scores": { "Quantum imaging": 0.7230052947998047, "Quantum Life Science Sensing": 0.683373212814331, "Quantum sensing Detection": 0.6769549250602722, "Quantum sensing Metrology": 0.6628907918930054, "Quantum sensing navigation": 0.6651651859283447, "Quantum sensing Position": 0.6695417165756226, "Quantum sensing Timing": 0.6710303425788879, "Quantum sensing": 0.6797664165496826, "Quantum control": 0.6603478789329529 } }, { "id": 5224, "title": "Ice Lithography: Recent Progress Opens a New Frontier of Opportunities", "abstract": "Ice lithography (IL) is an emerging and versatile direct write method that complements two photon lithography and focused electron beam induced deposition (FEBID). Based on interaction between energet...", "citations": 1, "author_count": 11, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5231, "doi": "10.1002/adfm.202515237", "umap_coordinates": { "x": 393.5328674316406, "y": 134.1684112548828, "z": 205.0066375732422 }, "tsne_coordinates": { "x": -9.291340827941895, "y": 2.4873712062835693, "z": -18.4958553314209 }, "pca_coordinates": { "x": -3.0949559211730957, "y": 2.21136474609375, "z": -1.4941580295562744 }, "axis_scores": { "Quantum imaging": 0.6781752705574036, "Quantum Life Science Sensing": 0.6874186992645264, "Quantum sensing Detection": 0.6506836414337158, "Quantum sensing Metrology": 0.6790136098861694, "Quantum sensing navigation": 0.6735314726829529, "Quantum sensing Position": 0.6479892730712891, "Quantum sensing Timing": 0.6418560147285461, "Quantum sensing": 0.6660081148147583, "Quantum control": 0.6594034433364868 } }, { "id": 5225, "title": "THE SECOND FERMI LARGE AREA TELESCOPE CATALOG OF GAMMA-RAY PULSARS", "abstract": "This catalog summarizes 117 high-confidence >= 0.1 GeV gamma-ray pulsar detections using three years of data acquired by the Large Area Telescope (LAT) on the Fermi satellite. Half are neutron stars d...", "citations": 751, "author_count": 212, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5232, "doi": "10.1088/0067-0049/208/2/17", "umap_coordinates": { "x": 396.1039733886719, "y": 134.5470428466797, "z": 206.13604736328125 }, "tsne_coordinates": { "x": -27.749845504760742, "y": 23.644269943237305, "z": -1.1383533477783203 }, "pca_coordinates": { "x": -0.9456790685653687, "y": 2.063612937927246, "z": 1.9052000045776367 }, "axis_scores": { "Quantum imaging": 0.6431570053100586, "Quantum Life Science Sensing": 0.6531128287315369, "Quantum sensing Detection": 0.6410967111587524, "Quantum sensing Metrology": 0.621800422668457, "Quantum sensing navigation": 0.6543902158737183, "Quantum sensing Position": 0.6363421678543091, "Quantum sensing Timing": 0.6740564107894897, "Quantum sensing": 0.6414547562599182, "Quantum control": 0.6319473385810852 } }, { "id": 5226, "title": "Growth of dilute nitrides and 1.3 μm edge emitting lasers on GaAs by MBE", "abstract": "In this paper, we report recent progresses on growth of dilute nitrides and 1.3 mu m lasers on GaAs using molecular beam epitaxy at Chalmers University of Technology, Sweden. Intense long wavelength l...", "citations": 5, "author_count": 11, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5233, "doi": "10.1002/pssb.201000788", "umap_coordinates": { "x": 393.10028076171875, "y": 134.2617950439453, "z": 206.44117736816406 }, "tsne_coordinates": { "x": 27.357810974121094, "y": -7.0023674964904785, "z": 13.426528930664062 }, "pca_coordinates": { "x": -1.2306318283081055, "y": -2.321272373199463, "z": 0.3089469075202942 }, "axis_scores": { "Quantum imaging": 0.6921306848526001, "Quantum Life Science Sensing": 0.708153247833252, "Quantum sensing Detection": 0.6876072287559509, "Quantum sensing Metrology": 0.7018921375274658, "Quantum sensing navigation": 0.6899430751800537, "Quantum sensing Position": 0.6888071894645691, "Quantum sensing Timing": 0.6498610973358154, "Quantum sensing": 0.6961858868598938, "Quantum control": 0.6781355738639832 } }, { "id": 5227, "title": "Peptides for functionalization of InP semiconductors", "abstract": "The challenge is to achieve high specificity in molecular sensing by proper functionalization of micro/nano-structured semiconductors by peptides that reveal specific recognition for these structures....", "citations": 31, "author_count": 8, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5234, "doi": "10.1016/j.jcis.2009.05.040", "umap_coordinates": { "x": 393.17669677734375, "y": 133.90884399414062, "z": 204.72560119628906 }, "tsne_coordinates": { "x": 25.008821487426758, "y": 24.031246185302734, "z": 4.913841724395752 }, "pca_coordinates": { "x": -3.1907734870910645, "y": -2.1801609992980957, "z": -0.5796316266059875 }, "axis_scores": { "Quantum imaging": 0.7150793075561523, "Quantum Life Science Sensing": 0.7324201464653015, "Quantum sensing Detection": 0.6902340054512024, "Quantum sensing Metrology": 0.6951313018798828, "Quantum sensing navigation": 0.6844082474708557, "Quantum sensing Position": 0.6716671586036682, "Quantum sensing Timing": 0.68003249168396, "Quantum sensing": 0.710608184337616, "Quantum control": 0.686109185218811 } }, { "id": 5228, "title": "Theory and experiment of entanglement in a quasi-phase-matched two-crystal source", "abstract": "We report results regarding a source of polarization entangled photon pairs created by the process of spontaneous parametric downconversion in two orthogonally oriented, periodically poled, bulk KTiOP...", "citations": 31, "author_count": 5, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5235, "doi": "10.1103/PhysRevA.73.032326", "umap_coordinates": { "x": 395.4081726074219, "y": 136.12657165527344, "z": 207.99066162109375 }, "tsne_coordinates": { "x": -16.517873764038086, "y": -11.339449882507324, "z": 8.805931091308594 }, "pca_coordinates": { "x": 4.121694087982178, "y": 1.219170331954956, "z": 1.5703787803649902 }, "axis_scores": { "Quantum imaging": 0.7505211234092712, "Quantum Life Science Sensing": 0.739861786365509, "Quantum sensing Detection": 0.7534196972846985, "Quantum sensing Metrology": 0.7402619123458862, "Quantum sensing navigation": 0.7439943552017212, "Quantum sensing Position": 0.721786618232727, "Quantum sensing Timing": 0.7434508800506592, "Quantum sensing": 0.7577977776527405, "Quantum control": 0.7332964539527893 } }, { "id": 5229, "title": "Complex structure of galaxy cluster A1689: Evidence for a merger from X-ray data?", "abstract": "A1689 is a galaxy cluster at z = 0.183 for which previous measurements of its mass by using various techniques gave discrepant results. We present a new detailed measurement of the mass with the data ...", "citations": 86, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5236, "doi": "10.1086/383258", "umap_coordinates": { "x": 396.23809814453125, "y": 135.2377166748047, "z": 205.92030334472656 }, "tsne_coordinates": { "x": -33.38051223754883, "y": 26.668865203857422, "z": -0.8294777870178223 }, "pca_coordinates": { "x": 0.4105745553970337, "y": 4.816868782043457, "z": -1.125867486000061 }, "axis_scores": { "Quantum imaging": 0.6618258357048035, "Quantum Life Science Sensing": 0.6629584431648254, "Quantum sensing Detection": 0.6452653408050537, "Quantum sensing Metrology": 0.619266152381897, "Quantum sensing navigation": 0.6572043299674988, "Quantum sensing Position": 0.653302788734436, "Quantum sensing Timing": 0.623083233833313, "Quantum sensing": 0.6447966694831848, "Quantum control": 0.6403402090072632 } }, { "id": 5230, "title": "Dissociative recombination and dissociative excitation of (HeH+)-He-4: Absolute cross sections and mechanisms", "abstract": "Absolute cross sections have been determined for the dissociative recombination and dissociative excitation of (HeH+)-He-4 electron energies below 30 eV. The dissociative recombination cross section i...", "citations": 118, "author_count": 8, "categories": [ "Optics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 5237, "doi": "10.1103/PhysRevA.54.3086", "umap_coordinates": { "x": 395.2356262207031, "y": 135.6083221435547, "z": 208.0732879638672 }, "tsne_coordinates": { "x": -3.9751341342926025, "y": -6.006559371948242, "z": -3.6473610401153564 }, "pca_coordinates": { "x": 3.0799622535705566, "y": 0.8427919149398804, "z": -1.3385579586029053 }, "axis_scores": { "Quantum imaging": 0.6807568073272705, "Quantum Life Science Sensing": 0.6997244954109192, "Quantum sensing Detection": 0.681287407875061, "Quantum sensing Metrology": 0.6515683531761169, "Quantum sensing navigation": 0.6618070602416992, "Quantum sensing Position": 0.6604321002960205, "Quantum sensing Timing": 0.6661736965179443, "Quantum sensing": 0.6809720396995544, "Quantum control": 0.6580600142478943 } }, { "id": 5231, "title": "EFFECTS OF ARTIFICIAL FROST HARDENING AND WINTER STRESS ON NET PHOTOSYNTHESIS, PHOTOSYNTHETIC ELECTRON-TRANSPORT AND RUBP CARBOXYLASE ACTIVITY IN SEEDLINGS OF PINUS-SILVESTRIS", "abstract": "Net photosynthesis of seedlings of P. sylvestris was measured and compared with the activities of photosynthetic electron transport and extracted RuBP [ribulose 1,5-bisphosphate] carboxylase. The effe...", "citations": 64, "author_count": 7, "categories": [ "Plant Sciences" ], "year": 1980, "topic": [ "all" ], "embedding_index": 5238, "doi": "10.1111/j.1399-3054.1980.tb03299.x", "umap_coordinates": { "x": 394.49774169921875, "y": 135.9538116455078, "z": 203.78965759277344 }, "tsne_coordinates": { "x": 9.881670951843262, "y": 32.97151184082031, "z": 13.071744918823242 }, "pca_coordinates": { "x": -1.5915299654006958, "y": 1.8207625150680542, "z": -0.1012391448020935 }, "axis_scores": { "Quantum imaging": 0.7038519978523254, "Quantum Life Science Sensing": 0.7314113974571228, "Quantum sensing Detection": 0.7040862441062927, "Quantum sensing Metrology": 0.7057873010635376, "Quantum sensing navigation": 0.6991708874702454, "Quantum sensing Position": 0.6868431568145752, "Quantum sensing Timing": 0.7020134329795837, "Quantum sensing": 0.718961775302887, "Quantum control": 0.707660436630249 } }, { "id": 5232, "title": "Designing NHC-Copper(I) Dipyridylamine Complexes for Blue Light-Emitting Electrochemical Cells", "abstract": "This study presents the influence of various substituents on the photophysical features of heteroleptic copper(I) complexes bearing both N-heterocyclic carbene (NHC) and dipyridylamine (dpa = dipyridy...", "citations": 132, "author_count": 16, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5239, "doi": "10.1021/acsami.6b04647", "umap_coordinates": { "x": 391.9288024902344, "y": 134.09573364257812, "z": 204.82273864746094 }, "tsne_coordinates": { "x": 20.555627822875977, "y": 5.9983415603637695, "z": -12.028278350830078 }, "pca_coordinates": { "x": -3.7775065898895264, "y": -2.8021559715270996, "z": -2.678168773651123 }, "axis_scores": { "Quantum imaging": 0.6935985088348389, "Quantum Life Science Sensing": 0.7083068490028381, "Quantum sensing Detection": 0.6849526166915894, "Quantum sensing Metrology": 0.6665923595428467, "Quantum sensing navigation": 0.6849422454833984, "Quantum sensing Position": 0.6594268083572388, "Quantum sensing Timing": 0.6456931829452515, "Quantum sensing": 0.6960945129394531, "Quantum control": 0.6894391179084778 } }, { "id": 5233, "title": "Nuclear photosynthetic gene expression is synergistically modulated by rates of protein synthesis in chloroplasts and mitochondria", "abstract": "Arabidopsis thaliana mutants prors1-1 and -2 were identified on the basis of a decrease in effective photosystem II quantum yield. Mutations were localized to the 5'-untranslated region of the nuclear...", "citations": 122, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5240, "doi": "10.1105/tpc.105.039073", "umap_coordinates": { "x": 394.38226318359375, "y": 136.44471740722656, "z": 203.70263671875 }, "tsne_coordinates": { "x": 5.749295711517334, "y": 35.41216278076172, "z": 11.325643539428711 }, "pca_coordinates": { "x": -1.0038609504699707, "y": 0.35068798065185547, "z": 1.0430195331573486 }, "axis_scores": { "Quantum imaging": 0.6841514110565186, "Quantum Life Science Sensing": 0.6800850629806519, "Quantum sensing Detection": 0.6786194443702698, "Quantum sensing Metrology": 0.6604729890823364, "Quantum sensing navigation": 0.6476519107818604, "Quantum sensing Position": 0.6416805982589722, "Quantum sensing Timing": 0.6981677412986755, "Quantum sensing": 0.6862486004829407, "Quantum control": 0.673713207244873 } }, { "id": 5234, "title": "Constraining neutron-star matter with microscopic and macroscopic collisions", "abstract": "Interpreting high-energy, astrophysical phenomena, such as supernova explosions or neutron-star collisions, requires a robust understanding of matter at supranuclear densities. However, our knowledge ...", "citations": 268, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5241, "doi": "10.1038/s41586-022-04750-w", "umap_coordinates": { "x": 396.2597961425781, "y": 135.53060913085938, "z": 206.77880859375 }, "tsne_coordinates": { "x": -31.797380447387695, "y": -5.482950687408447, "z": -14.767457008361816 }, "pca_coordinates": { "x": 0.23311209678649902, "y": 2.9384853839874268, "z": 0.7995585799217224 }, "axis_scores": { "Quantum imaging": 0.6907665133476257, "Quantum Life Science Sensing": 0.6810347437858582, "Quantum sensing Detection": 0.6920984387397766, "Quantum sensing Metrology": 0.6905946135520935, "Quantum sensing navigation": 0.7028021216392517, "Quantum sensing Position": 0.6763704419136047, "Quantum sensing Timing": 0.6988445520401001, "Quantum sensing": 0.6989328265190125, "Quantum control": 0.6588767766952515 } }, { "id": 5235, "title": "Zero-Dimensional Hybrid Organic-Inorganic Indium Bromide with Blue Emission", "abstract": "Low-dimensional hybrid organic-inorganic metal halides have received increased attention because of their outstanding optical and electronic properties. However, the most studied hybrid compounds cont...", "citations": 73, "author_count": 10, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5242, "doi": "10.1021/acs.inorgchem.0c03164", "umap_coordinates": { "x": 392.20220947265625, "y": 135.08152770996094, "z": 205.7740478515625 }, "tsne_coordinates": { "x": 1.4292529821395874, "y": -10.550664901733398, "z": -15.349648475646973 }, "pca_coordinates": { "x": -0.5984660983085632, "y": -2.981482982635498, "z": -1.1044269800186157 }, "axis_scores": { "Quantum imaging": 0.7573350667953491, "Quantum Life Science Sensing": 0.7287320494651794, "Quantum sensing Detection": 0.7222723364830017, "Quantum sensing Metrology": 0.7010655403137207, "Quantum sensing navigation": 0.7239982485771179, "Quantum sensing Position": 0.6977265477180481, "Quantum sensing Timing": 0.6750524640083313, "Quantum sensing": 0.7303386330604553, "Quantum control": 0.7078821659088135 } }, { "id": 5236, "title": "Photoisomerization of DiD: Molecular Dynamics Calculations Reveal the Influence of Tail Lengths", "abstract": "The photoisomerization scheme of the cyanine-based 1,1'-dioctadecyl-3,3,3',3'-tetramethylindocarbocyanine (DiD) probe was investigated by means of molecular modeling techniques, accounting for differe...", "citations": 1, "author_count": 7, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5243, "doi": "10.1021/acs.jpcc.9b10322", "umap_coordinates": { "x": 392.4480895996094, "y": 136.49359130859375, "z": 205.4819793701172 }, "tsne_coordinates": { "x": 2.730475664138794, "y": 2.176919460296631, "z": 0.8430865406990051 }, "pca_coordinates": { "x": -1.7604634761810303, "y": 1.2234396934509277, "z": -3.674952507019043 }, "axis_scores": { "Quantum imaging": 0.6992076635360718, "Quantum Life Science Sensing": 0.7244123816490173, "Quantum sensing Detection": 0.6751998066902161, "Quantum sensing Metrology": 0.6314300298690796, "Quantum sensing navigation": 0.6478341221809387, "Quantum sensing Position": 0.6514164209365845, "Quantum sensing Timing": 0.6623875498771667, "Quantum sensing": 0.6801507472991943, "Quantum control": 0.6891463994979858 } }, { "id": 5237, "title": "An efficient heterodinuclear Ir(III)/Pt(II) complex: synthesis, photophysics and application in light-emitting electrochemical cells", "abstract": "We report on the design, synthesis, characterization and successful application of a heterodinuclear Ir(III)/Pt(II) complex endowed with two 4,6-diphenylpyrimidine ligands and two acetylacetonate liga...", "citations": 22, "author_count": 7, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5244, "doi": "10.1039/c9tc02930c", "umap_coordinates": { "x": 391.65118408203125, "y": 135.08509826660156, "z": 204.87808227539062 }, "tsne_coordinates": { "x": 8.787899017333984, "y": 5.186084270477295, "z": -8.62304973602295 }, "pca_coordinates": { "x": -2.7311975955963135, "y": -2.1490707397460938, "z": -1.0313379764556885 }, "axis_scores": { "Quantum imaging": 0.6840615272521973, "Quantum Life Science Sensing": 0.703702449798584, "Quantum sensing Detection": 0.6952306032180786, "Quantum sensing Metrology": 0.6631478071212769, "Quantum sensing navigation": 0.6396453380584717, "Quantum sensing Position": 0.6462870240211487, "Quantum sensing Timing": 0.6690468192100525, "Quantum sensing": 0.6879799365997314, "Quantum control": 0.6452851295471191 } }, { "id": 5238, "title": "Photochemical transformation of the thyroid hormone levothyroxine in aqueous solution", "abstract": "Purpose The direct aqueous photolysis of the thyroid hormone levothyroxine (T-4) has been studied. Methods and Result One of the major photoproducts, i.e., 4-[4-(2-amino-2-carboxy-ethyl)-2,6-diiodo-ph...", "citations": 8, "author_count": 4, "categories": [ "Environmental Sciences & Ecology" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5245, "doi": "10.1007/s11356-011-0450-3", "umap_coordinates": { "x": 393.8674621582031, "y": 135.57777404785156, "z": 204.6494140625 }, "tsne_coordinates": { "x": 16.04041290283203, "y": 21.4224910736084, "z": 12.9795503616333 }, "pca_coordinates": { "x": -2.4165868759155273, "y": 0.6497924327850342, "z": -1.5689504146575928 }, "axis_scores": { "Quantum imaging": 0.7064688205718994, "Quantum Life Science Sensing": 0.7500298619270325, "Quantum sensing Detection": 0.7069903612136841, "Quantum sensing Metrology": 0.702422022819519, "Quantum sensing navigation": 0.6992965340614319, "Quantum sensing Position": 0.6869743466377258, "Quantum sensing Timing": 0.6718277931213379, "Quantum sensing": 0.71240234375, "Quantum control": 0.6934066414833069 } }, { "id": 5239, "title": "Optical study of spin injection dynamics in InGaN/GaN quantum wells with GaMnN injection layers", "abstract": "The spin injection dynamics of GaMnN/InGaN multiquantum well (MQW) light emitting diodes (LEDs) grown by molecular beam epitaxy were examined using picosecond-transient and circularly polarized photol...", "citations": 18, "author_count": 16, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5246, "doi": "10.1116/1.1819897", "umap_coordinates": { "x": 392.9600830078125, "y": 134.33065795898438, "z": 208.06155395507812 }, "tsne_coordinates": { "x": 22.312137603759766, "y": -23.82101058959961, "z": 4.651211738586426 }, "pca_coordinates": { "x": 2.061717987060547, "y": -1.7211942672729492, "z": 2.2735037803649902 }, "axis_scores": { "Quantum imaging": 0.7519021034240723, "Quantum Life Science Sensing": 0.7050091624259949, "Quantum sensing Detection": 0.7225507497787476, "Quantum sensing Metrology": 0.7265355587005615, "Quantum sensing navigation": 0.7449290156364441, "Quantum sensing Position": 0.7108145952224731, "Quantum sensing Timing": 0.7001829743385315, "Quantum sensing": 0.7314364314079285, "Quantum control": 0.7065572142601013 } }, { "id": 5240, "title": "Syn2Real: synthesis of CT image ring artifacts for deep learning-based correction", "abstract": "Objective. We strive to overcome the challenges posed by ring artifacts in x-ray computed tomography (CT) by developing a novel approach for generating training data for deep learning-based methods. T...", "citations": 2, "author_count": 8, "categories": [ "Engineering" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5247, "doi": "10.1088/1361-6560/adad2c", "umap_coordinates": { "x": 395.6242370605469, "y": 133.11114501953125, "z": 204.9414520263672 }, "tsne_coordinates": { "x": -0.3876822590827942, "y": 23.516407012939453, "z": -24.32013511657715 }, "pca_coordinates": { "x": -2.9064722061157227, "y": 2.967986822128296, "z": 2.1227433681488037 }, "axis_scores": { "Quantum imaging": 0.6933159232139587, "Quantum Life Science Sensing": 0.6479054689407349, "Quantum sensing Detection": 0.6601711511611938, "Quantum sensing Metrology": 0.6562586426734924, "Quantum sensing navigation": 0.6662068963050842, "Quantum sensing Position": 0.6459944844245911, "Quantum sensing Timing": 0.6997050046920776, "Quantum sensing": 0.6703143119812012, "Quantum control": 0.6654354333877563 } }, { "id": 5241, "title": "Absolute rates for radiative and nonradiative collisional deexcitation of metastable He+(2s) ions", "abstract": "A method devised to measure separate absolute rates for deexcitation of metastable hydrogenic atoms and ions via radiative and nonradiative processes is applied in a pilot study of 6.6-keV He+(2s)-Ar ...", "citations": 2, "author_count": 7, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5248, "doi": "10.1103/PhysRevA.57.R4082", "umap_coordinates": { "x": 394.56915283203125, "y": 135.96978759765625, "z": 207.12367248535156 }, "tsne_coordinates": { "x": -3.4472219944000244, "y": -6.362094879150391, "z": -2.7574031352996826 }, "pca_coordinates": { "x": 2.151792287826538, "y": -0.4368293285369873, "z": -1.6575729846954346 }, "axis_scores": { "Quantum imaging": 0.6651005744934082, "Quantum Life Science Sensing": 0.7017017006874084, "Quantum sensing Detection": 0.6917991042137146, "Quantum sensing Metrology": 0.6684839725494385, "Quantum sensing navigation": 0.6608582139015198, "Quantum sensing Position": 0.6634660363197327, "Quantum sensing Timing": 0.6806935667991638, "Quantum sensing": 0.683921217918396, "Quantum control": 0.6466390490531921 } }, { "id": 5242, "title": "Aryl-Decorated RuII Polypyridyl-type Photosensitizer Approaching NIR Emission with Microsecond Excited State Lifetimes", "abstract": "Bis-tridentate Ru-II complexes based on the dqp scaffold (dqp is 2,6-di(quinolin-8-yl)pyridine) with multiple aryl substituents were explored to tailor the absorption and emission properties. A synthe...", "citations": 30, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5249, "doi": "10.1021/acs.inorgchem.6b00420", "umap_coordinates": { "x": 391.9256591796875, "y": 135.30331420898438, "z": 205.0664520263672 }, "tsne_coordinates": { "x": 14.943061828613281, "y": 5.755916595458984, "z": -26.23233985900879 }, "pca_coordinates": { "x": -3.091573715209961, "y": -2.5061588287353516, "z": -1.0215258598327637 }, "axis_scores": { "Quantum imaging": 0.7096194624900818, "Quantum Life Science Sensing": 0.7360349893569946, "Quantum sensing Detection": 0.6970039010047913, "Quantum sensing Metrology": 0.6801834106445312, "Quantum sensing navigation": 0.6747265458106995, "Quantum sensing Position": 0.6790585517883301, "Quantum sensing Timing": 0.6955524682998657, "Quantum sensing": 0.7084712386131287, "Quantum control": 0.6490350365638733 } }, { "id": 5243, "title": "Infrared detectors: Advances, challenges and new technologies", "abstract": "Human knowledge of infrared (IR) radiation is about 200 years old. However it was in the late 20th century that we developed a wide range of smart technologies for detection and started to take advant...", "citations": 102, "author_count": 3, "categories": [ "Automation & Control Systems" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5250, "doi": "10.1088/1757-899X/51/1/012001", "umap_coordinates": { "x": 395.0223693847656, "y": 134.0075225830078, "z": 205.6226348876953 }, "tsne_coordinates": { "x": -16.156967163085938, "y": 7.184928894042969, "z": -19.570358276367188 }, "pca_coordinates": { "x": -2.5631296634674072, "y": 1.4343054294586182, "z": 2.9621143341064453 }, "axis_scores": { "Quantum imaging": 0.701146125793457, "Quantum Life Science Sensing": 0.7165161371231079, "Quantum sensing Detection": 0.6989943385124207, "Quantum sensing Metrology": 0.686246395111084, "Quantum sensing navigation": 0.6758877038955688, "Quantum sensing Position": 0.6847392916679382, "Quantum sensing Timing": 0.6673719882965088, "Quantum sensing": 0.697528600692749, "Quantum control": 0.6435107588768005 } }, { "id": 5244, "title": "FERMI LARGE AREA TELESCOPE OBSERVATIONS OF PSR J1836+5925", "abstract": "The discovery of the gamma-ray pulsar PSR J1836+5925, powering the formerly unidentified EGRET source 3EG J1835+5918, was one of the early accomplishments of the Fermi Large Area Telescope (LAT). Sitt...", "citations": 38, "author_count": 183, "categories": [ "Astronomy & Astrophysics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5251, "doi": "10.1088/0004-637X/712/2/1209", "umap_coordinates": { "x": 395.6412658691406, "y": 134.8008575439453, "z": 205.98458862304688 }, "tsne_coordinates": { "x": -28.662582397460938, "y": 23.443330764770508, "z": 0.15765778720378876 }, "pca_coordinates": { "x": 0.005597829818725586, "y": 1.5922198295593262, "z": 1.4186854362487793 }, "axis_scores": { "Quantum imaging": 0.6955907344818115, "Quantum Life Science Sensing": 0.7261346578598022, "Quantum sensing Detection": 0.6913063526153564, "Quantum sensing Metrology": 0.6833456754684448, "Quantum sensing navigation": 0.7071760892868042, "Quantum sensing Position": 0.7049616575241089, "Quantum sensing Timing": 0.6974387168884277, "Quantum sensing": 0.7098826766014099, "Quantum control": 0.689045786857605 } }, { "id": 5245, "title": "Polarization-Dependent Color Modulation in Electrodeposited Cellulose Nanocrystals and Birefringent Multilayers", "abstract": "Cellulose nanocrystals (CNCs) can self-organize into a chiral nematic liquid crystal phase with a left-handed helical arrangement, resulting in structurally intrinsic photonic properties in the dry st...", "citations": 3, "author_count": 9, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5252, "doi": "10.1002/adom.202403062", "umap_coordinates": { "x": 392.7199401855469, "y": 134.57589721679688, "z": 205.312744140625 }, "tsne_coordinates": { "x": 32.591407775878906, "y": 15.468957901000977, "z": 9.856733322143555 }, "pca_coordinates": { "x": -3.427985668182373, "y": -2.9322562217712402, "z": -2.3284146785736084 }, "axis_scores": { "Quantum imaging": 0.6995362043380737, "Quantum Life Science Sensing": 0.6953627467155457, "Quantum sensing Detection": 0.6788144707679749, "Quantum sensing Metrology": 0.6601804494857788, "Quantum sensing navigation": 0.6670037508010864, "Quantum sensing Position": 0.6615626811981201, "Quantum sensing Timing": 0.6335802674293518, "Quantum sensing": 0.6886672973632812, "Quantum control": 0.6754382252693176 } }, { "id": 5246, "title": "Sulfur Lone Pairs Open Avenues for π* → n Orange-to-Red TADF and OLEDs", "abstract": "It is always important and fascinating to explore new organic emitters that exploit unconventional pathways to unveil their emission with unique properties, such as thermally activated delayed fluores...", "citations": 15, "author_count": 15, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5253, "doi": "10.1021/jacs.4c18235", "umap_coordinates": { "x": 391.7662353515625, "y": 135.39962768554688, "z": 205.31922912597656 }, "tsne_coordinates": { "x": 1.4519213438034058, "y": -0.5694112777709961, "z": -8.23912525177002 }, "pca_coordinates": { "x": -1.8572375774383545, "y": -1.663853645324707, "z": -0.36295127868652344 }, "axis_scores": { "Quantum imaging": 0.6743704080581665, "Quantum Life Science Sensing": 0.6951622366905212, "Quantum sensing Detection": 0.6635960340499878, "Quantum sensing Metrology": 0.651960015296936, "Quantum sensing navigation": 0.6815987229347229, "Quantum sensing Position": 0.6479640603065491, "Quantum sensing Timing": 0.6798866391181946, "Quantum sensing": 0.6768050193786621, "Quantum control": 0.6498482823371887 } }, { "id": 5247, "title": "Growth of Ag2S-sensitizer on MoS2/ZnO nanocable arrays for improved solar driven photoelectrochemical water splitting", "abstract": "The demonstration of an efficient nanostructure that provides acceptable photoelectrochemical water splitting properties using the sun visible radiation is an appealing issue. In this connection, a ne...", "citations": 14, "author_count": 8, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5254, "doi": "10.1016/j.solidstatesciences.2023.107379", "umap_coordinates": { "x": 392.455078125, "y": 133.47457885742188, "z": 205.23643493652344 }, "tsne_coordinates": { "x": 21.35651397705078, "y": -2.0304198265075684, "z": -8.3560209274292 }, "pca_coordinates": { "x": -3.0576837062835693, "y": -4.084869384765625, "z": -1.270561695098877 }, "axis_scores": { "Quantum imaging": 0.6793708205223083, "Quantum Life Science Sensing": 0.7322639226913452, "Quantum sensing Detection": 0.6805421710014343, "Quantum sensing Metrology": 0.6918454170227051, "Quantum sensing navigation": 0.6883065700531006, "Quantum sensing Position": 0.6580186486244202, "Quantum sensing Timing": 0.6444738507270813, "Quantum sensing": 0.6998974084854126, "Quantum control": 0.6884879469871521 } }, { "id": 5248, "title": "Modulation of biliverdin dynamics and spectral properties by Sandercyanin", "abstract": "Biliverdin IX-alpha (BV), a tetrapyrrole, is found ubiquitously in most living organisms. It functions as a metabolite, pigment, and signaling compound. While BV is known to bind to diverse protein fa...", "citations": 2, "author_count": 8, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5255, "doi": "10.1039/d2ra02880h", "umap_coordinates": { "x": 392.99188232421875, "y": 136.28851318359375, "z": 205.7556915283203 }, "tsne_coordinates": { "x": 9.095450401306152, "y": 1.954850196838379, "z": 9.363757133483887 }, "pca_coordinates": { "x": -1.543631672859192, "y": -0.15576887130737305, "z": -3.525195837020874 }, "axis_scores": { "Quantum imaging": 0.7080560922622681, "Quantum Life Science Sensing": 0.749391496181488, "Quantum sensing Detection": 0.6871171593666077, "Quantum sensing Metrology": 0.6766376495361328, "Quantum sensing navigation": 0.6867092847824097, "Quantum sensing Position": 0.6461789608001709, "Quantum sensing Timing": 0.6410801410675049, "Quantum sensing": 0.7002657651901245, "Quantum control": 0.6943483948707581 } }, { "id": 5249, "title": "Black Phosphorus/Polymers: Status and Challenges", "abstract": "As a newly emerged mono-elemental nanomaterial, black phosphorus (BP) has been widely investigated for its fascinating physical properties, including layer-dependent tunable band gap (0.3-1.5 eV), hig...", "citations": 127, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5256, "doi": "10.1002/adma.202100113", "umap_coordinates": { "x": 393.0185241699219, "y": 133.9640655517578, "z": 204.5553741455078 }, "tsne_coordinates": { "x": 19.16096305847168, "y": 15.989374160766602, "z": -7.455899715423584 }, "pca_coordinates": { "x": -3.6073708534240723, "y": 0.33820271492004395, "z": -2.0788121223449707 }, "axis_scores": { "Quantum imaging": 0.6873842477798462, "Quantum Life Science Sensing": 0.7145439386367798, "Quantum sensing Detection": 0.6807635426521301, "Quantum sensing Metrology": 0.6873047351837158, "Quantum sensing navigation": 0.6708114743232727, "Quantum sensing Position": 0.6849254369735718, "Quantum sensing Timing": 0.6488583087921143, "Quantum sensing": 0.6926641464233398, "Quantum control": 0.6737854480743408 } }, { "id": 5250, "title": "Nucleation of protein fibrillation by nanoparticles", "abstract": "Nanoparticles present enormous surface areas and are found to enhance the rate of protein fibrillation by decreasing the lag time for nucleation. Protein fibrillation is involved in many human disease...", "citations": 835, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5257, "doi": "10.1073/pnas.0701250104", "umap_coordinates": { "x": 393.56939697265625, "y": 135.05001831054688, "z": 204.8257598876953 }, "tsne_coordinates": { "x": 17.321199417114258, "y": 14.273006439208984, "z": 11.064626693725586 }, "pca_coordinates": { "x": -0.7491362690925598, "y": -1.5229427814483643, "z": -1.3914896249771118 }, "axis_scores": { "Quantum imaging": 0.6645811200141907, "Quantum Life Science Sensing": 0.7046507596969604, "Quantum sensing Detection": 0.678959846496582, "Quantum sensing Metrology": 0.6505915522575378, "Quantum sensing navigation": 0.6643236875534058, "Quantum sensing Position": 0.6372917890548706, "Quantum sensing Timing": 0.6332448720932007, "Quantum sensing": 0.676805853843689, "Quantum control": 0.6598547697067261 } }, { "id": 5251, "title": "Angular distribution of different vibrational components of the X and B states reached after resonant Auger decay of core-excited H2O: Experiment and theory", "abstract": "Vibrationally resolved spectra have been obtained for the lowest-lying cationic states X B-2(1), A (2)A(1), and B B-2(2) of the water molecule reached after participator resonant Auger decay of core-e...", "citations": 18, "author_count": 14, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5258, "doi": "10.1063/1.1850898", "umap_coordinates": { "x": 394.2281799316406, "y": 136.15699768066406, "z": 207.16542053222656 }, "tsne_coordinates": { "x": -4.304341793060303, "y": -7.178691387176514, "z": 3.5384888648986816 }, "pca_coordinates": { "x": 1.5445985794067383, "y": 1.3472185134887695, "z": -1.432376742362976 }, "axis_scores": { "Quantum imaging": 0.7153806090354919, "Quantum Life Science Sensing": 0.726322591304779, "Quantum sensing Detection": 0.7165762186050415, "Quantum sensing Metrology": 0.7042295932769775, "Quantum sensing navigation": 0.6959395408630371, "Quantum sensing Position": 0.6889288425445557, "Quantum sensing Timing": 0.6890907287597656, "Quantum sensing": 0.727304995059967, "Quantum control": 0.7010269165039062 } }, { "id": 5252, "title": "Measuring coherence factors of states in superconductors through local current", "abstract": "The coherence factors of quasiparticles in a superconductor determine their properties, including transport as well as their susceptibility to electric fields. In this work, we propose a way to infer ...", "citations": 1, "author_count": 5, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5259, "doi": "10.1103/wx5x-vpf7", "umap_coordinates": { "x": 395.58203125, "y": 137.2899932861328, "z": 207.47618103027344 }, "tsne_coordinates": { "x": -32.96259689331055, "y": -17.07737922668457, "z": 3.454350233078003 }, "pca_coordinates": { "x": 2.878997802734375, "y": 1.2348518371582031, "z": 1.2839574813842773 }, "axis_scores": { "Quantum imaging": 0.7209479808807373, "Quantum Life Science Sensing": 0.7225193381309509, "Quantum sensing Detection": 0.7118841409683228, "Quantum sensing Metrology": 0.7308697700500488, "Quantum sensing navigation": 0.741562008857727, "Quantum sensing Position": 0.7178735136985779, "Quantum sensing Timing": 0.6993988752365112, "Quantum sensing": 0.7314544916152954, "Quantum control": 0.7206369638442993 } }, { "id": 5253, "title": "Domain dynamics in coercive-field engineered sub-μm periodically poled Rb-doped KTiOPO4", "abstract": "Nonlinear optical interactions involving counter-propagating photons are of great interest for both classical and quantum optical applications. However, their use is sparsely spread due to the fact th...", "citations": 15, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5260, "doi": "10.1364/OME.467806", "umap_coordinates": { "x": 393.01983642578125, "y": 136.6181182861328, "z": 207.69149780273438 }, "tsne_coordinates": { "x": -8.96247386932373, "y": -19.52212905883789, "z": 32.5042724609375 }, "pca_coordinates": { "x": 1.1683897972106934, "y": -0.3267707824707031, "z": -2.7366480827331543 }, "axis_scores": { "Quantum imaging": 0.7333453893661499, "Quantum Life Science Sensing": 0.7056419253349304, "Quantum sensing Detection": 0.6784786581993103, "Quantum sensing Metrology": 0.6901335120201111, "Quantum sensing navigation": 0.6979933977127075, "Quantum sensing Position": 0.6724212169647217, "Quantum sensing Timing": 0.6866888999938965, "Quantum sensing": 0.6997573971748352, "Quantum control": 0.6983269453048706 } }, { "id": 5254, "title": "Intramolecular Triplet-Triplet Annihilation Photon Upconversion in Diffusionally Restricted Anthracene Polymer", "abstract": "In the strive to develop triplet-triplet annihilation photon upconversion (TTA-UC) to become applicable in a viable technology, there is a need to develop upconversion systems that can function well i...", "citations": 38, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5261, "doi": "10.1021/acs.jpcb.1c02856", "umap_coordinates": { "x": 392.5024719238281, "y": 135.44667053222656, "z": 205.72494506835938 }, "tsne_coordinates": { "x": 1.0586262941360474, "y": -3.316946268081665, "z": -13.729759216308594 }, "pca_coordinates": { "x": -1.776963472366333, "y": -2.027212619781494, "z": 0.08760708570480347 }, "axis_scores": { "Quantum imaging": 0.7237042784690857, "Quantum Life Science Sensing": 0.7016919255256653, "Quantum sensing Detection": 0.6966612339019775, "Quantum sensing Metrology": 0.65155029296875, "Quantum sensing navigation": 0.6694756746292114, "Quantum sensing Position": 0.6650905609130859, "Quantum sensing Timing": 0.6881346702575684, "Quantum sensing": 0.7000036835670471, "Quantum control": 0.6692196726799011 } }, { "id": 5255, "title": "8-Triazolylpurines: Towards Fluorescent Inhibitors of the MDM2/p53 Interaction", "abstract": "Small molecule nonpeptidic mimics of alpha-helices are widely recognised as protein-protein interaction (PPIs) inhibitors. Protein-protein interactions mediate virtually all important regulatory pathw...", "citations": 12, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5262, "doi": "10.1371/journal.pone.0124423", "umap_coordinates": { "x": 393.1268310546875, "y": 135.66676330566406, "z": 204.4177703857422 }, "tsne_coordinates": { "x": 3.848952531814575, "y": 17.504222869873047, "z": 0.03026195429265499 }, "pca_coordinates": { "x": -2.677804470062256, "y": 1.3432207107543945, "z": -1.295607566833496 }, "axis_scores": { "Quantum imaging": 0.7396199703216553, "Quantum Life Science Sensing": 0.7044150829315186, "Quantum sensing Detection": 0.7099716067314148, "Quantum sensing Metrology": 0.6989556550979614, "Quantum sensing navigation": 0.7098643183708191, "Quantum sensing Position": 0.6919888257980347, "Quantum sensing Timing": 0.6946686506271362, "Quantum sensing": 0.7161377668380737, "Quantum control": 0.7228226065635681 } }, { "id": 5256, "title": "Magneto-fluorescent nanoparticles with high-intensity NIR emission, T1-and T2-weighted MR for multimodal specific tumor imaging", "abstract": "Nanoparticles exhibiting bright near-infrared (NIR) fluorescence, T-1-and T-2-weighted MR were synthesized for specific tumor imaging. Clinically used Fe3O4 nanoparticles exhibit an intrinsic dark sig...", "citations": 35, "author_count": 7, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5263, "doi": "10.1039/c5tb00155b", "umap_coordinates": { "x": 393.7355041503906, "y": 133.52206420898438, "z": 204.9895477294922 }, "tsne_coordinates": { "x": 10.083762168884277, "y": 17.861621856689453, "z": -13.654208183288574 }, "pca_coordinates": { "x": -4.481389045715332, "y": -1.5915155410766602, "z": 0.16869360208511353 }, "axis_scores": { "Quantum imaging": 0.7052545547485352, "Quantum Life Science Sensing": 0.6751738786697388, "Quantum sensing Detection": 0.6611318588256836, "Quantum sensing Metrology": 0.6763410568237305, "Quantum sensing navigation": 0.6569356322288513, "Quantum sensing Position": 0.6186252236366272, "Quantum sensing Timing": 0.62877357006073, "Quantum sensing": 0.6712337136268616, "Quantum control": 0.6360363960266113 } }, { "id": 5257, "title": "Improved accuracy in time-resolved diffuse reflectance spectroscopy", "abstract": "Significant improvements in the accuracy of time-resolved diffuse reflectance spectroscopy are reached by using a Monte Carlo scheme for evaluation of measured photon time-of-flight distributions. The...", "citations": 48, "author_count": 4, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5264, "doi": "10.1364/OE.16.010440", "umap_coordinates": { "x": 394.51910400390625, "y": 134.02981567382812, "z": 205.45127868652344 }, "tsne_coordinates": { "x": -8.822933197021484, "y": 9.38263988494873, "z": -13.34470272064209 }, "pca_coordinates": { "x": -2.000988483428955, "y": -0.005764007568359375, "z": 1.06675124168396 }, "axis_scores": { "Quantum imaging": 0.6880620718002319, "Quantum Life Science Sensing": 0.6866517663002014, "Quantum sensing Detection": 0.6718026399612427, "Quantum sensing Metrology": 0.6745256185531616, "Quantum sensing navigation": 0.6812946796417236, "Quantum sensing Position": 0.6823890209197998, "Quantum sensing Timing": 0.7109590172767639, "Quantum sensing": 0.6904491186141968, "Quantum control": 0.6543886661529541 } }, { "id": 5258, "title": "Anomalous rotational resonance spectra in magic-angle spinning NMR", "abstract": "Magic-angle spinning NMR spectra of samples containing dilute spin-1/2 pairs display broadenings or splittings when a rotational resonance condition is satisfied, meaning that a small integer multiple...", "citations": 39, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5265, "doi": "10.1006/jmre.1999.1843", "umap_coordinates": { "x": 392.7310791015625, "y": 136.84039306640625, "z": 206.99847412109375 }, "tsne_coordinates": { "x": 15.50001335144043, "y": 3.302886724472046, "z": 33.026084899902344 }, "pca_coordinates": { "x": -0.31818175315856934, "y": 2.5340077877044678, "z": -1.659182071685791 }, "axis_scores": { "Quantum imaging": 0.7246736884117126, "Quantum Life Science Sensing": 0.7217032313346863, "Quantum sensing Detection": 0.6976447105407715, "Quantum sensing Metrology": 0.7020900249481201, "Quantum sensing navigation": 0.7130378484725952, "Quantum sensing Position": 0.6955016255378723, "Quantum sensing Timing": 0.6852571964263916, "Quantum sensing": 0.7127572894096375, "Quantum control": 0.6892746686935425 } }, { "id": 5259, "title": "Ca-substitution and O-doping effects in superconducting Cu(Ba0.8Sr0.2)2(Yb1-xCax) Cu2O6+z obtained from neutron diffraction refinements", "abstract": "Distinct calcium and oxygen doping effects were studied in the Cu(Ba0.8Sr0.2)(2)(Yb1 - xCax)Cu2O6 + z (Cu-1212:P) system by means of neutron diffraction and superconducting quantum interference device...", "citations": 16, "author_count": 8, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5266, "doi": "10.1103/PhysRevB.60.4378", "umap_coordinates": { "x": 393.3421936035156, "y": 135.66761779785156, "z": 208.9725341796875 }, "tsne_coordinates": { "x": 8.521029472351074, "y": -40.38526153564453, "z": 8.774859428405762 }, "pca_coordinates": { "x": 2.386922597885132, "y": -0.5856075286865234, "z": -1.3210573196411133 }, "axis_scores": { "Quantum imaging": 0.6855955719947815, "Quantum Life Science Sensing": 0.6981367468833923, "Quantum sensing Detection": 0.6949141025543213, "Quantum sensing Metrology": 0.682216465473175, "Quantum sensing navigation": 0.7175917029380798, "Quantum sensing Position": 0.6899408102035522, "Quantum sensing Timing": 0.6931837797164917, "Quantum sensing": 0.7086626887321472, "Quantum control": 0.7007156610488892 } }, { "id": 5260, "title": "Protection of Photosynthesis by UVR8 and Cryptochromes in Arabidopsis Under Blue and UV Radiation", "abstract": "Photosynthesis in plants is negatively affected by high light intensity and UV radiation. The photoreceptors UV RESISTANCE LOCUS 8 (UVR8) and CRYPTOCHROMES (CRYs) mediate perception and acclimation of...", "citations": 3, "author_count": 6, "categories": [ "Plant Sciences" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5267, "doi": "10.1111/pce.15608", "umap_coordinates": { "x": 394.30072021484375, "y": 135.94532775878906, "z": 203.93313598632812 }, "tsne_coordinates": { "x": 9.341778755187988, "y": 37.49982833862305, "z": 4.29632043838501 }, "pca_coordinates": { "x": -2.604846477508545, "y": 0.2650570869445801, "z": -0.02699679136276245 }, "axis_scores": { "Quantum imaging": 0.7136950492858887, "Quantum Life Science Sensing": 0.7413071393966675, "Quantum sensing Detection": 0.7170687317848206, "Quantum sensing Metrology": 0.7053095102310181, "Quantum sensing navigation": 0.7026573419570923, "Quantum sensing Position": 0.6941298842430115, "Quantum sensing Timing": 0.707867443561554, "Quantum sensing": 0.7282906174659729, "Quantum control": 0.7130334377288818 } }, { "id": 5261, "title": "Impact of micromotion and field-axis misalignment on the excitation of Rydberg states of ions in a Paul trap", "abstract": "Trapped ions are among the most advanced platforms for quantum simulation and computation. Their capabilities can be further augmented by making use of electronically highly excited Rydberg states, wh...", "citations": 1, "author_count": 5, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5268, "doi": "10.1103/PhysRevA.111.043106", "umap_coordinates": { "x": 394.8253479003906, "y": 135.76388549804688, "z": 207.6656036376953 }, "tsne_coordinates": { "x": -8.662444114685059, "y": -27.44855308532715, "z": -12.399306297302246 }, "pca_coordinates": { "x": 3.0586137771606445, "y": 0.9552996158599854, "z": 0.39047831296920776 }, "axis_scores": { "Quantum imaging": 0.7452064156532288, "Quantum Life Science Sensing": 0.7243694067001343, "Quantum sensing Detection": 0.7271254658699036, "Quantum sensing Metrology": 0.73917156457901, "Quantum sensing navigation": 0.7452725172042847, "Quantum sensing Position": 0.7567647695541382, "Quantum sensing Timing": 0.7554945945739746, "Quantum sensing": 0.7382813692092896, "Quantum control": 0.719658374786377 } }, { "id": 5262, "title": "Electrical control of hybrid exciton transport in a van der Waals heterostructure", "abstract": "Interactions between out-of-plane dipoles in bosonic gases enable the long-range propagation of excitons. The lack of direct control over collective dipolar properties has so far limited the degrees o...", "citations": 84, "author_count": 13, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5269, "doi": "10.1038/s41566-023-01198-w", "umap_coordinates": { "x": 392.7936706542969, "y": 135.0749053955078, "z": 206.9219207763672 }, "tsne_coordinates": { "x": 12.839834213256836, "y": -8.799528121948242, "z": 17.527132034301758 }, "pca_coordinates": { "x": 0.45991945266723633, "y": -3.5659728050231934, "z": -0.6580460071563721 }, "axis_scores": { "Quantum imaging": 0.6895790696144104, "Quantum Life Science Sensing": 0.6803984045982361, "Quantum sensing Detection": 0.6677758097648621, "Quantum sensing Metrology": 0.661410391330719, "Quantum sensing navigation": 0.6953510046005249, "Quantum sensing Position": 0.6588197350502014, "Quantum sensing Timing": 0.6593520045280457, "Quantum sensing": 0.6923685073852539, "Quantum control": 0.6986765265464783 } }, { "id": 5263, "title": "Classical Wigner model based on a Feynman path integral open polymer", "abstract": "The classical Wigner model is one way to approximate the quantum dynamics of atomic nuclei. Here, a new method is presented for sampling the initial quantum mechanical distribution that is required in...", "citations": 4, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5270, "doi": "10.1063/1.5126183", "umap_coordinates": { "x": 394.17816162109375, "y": 137.89694213867188, "z": 206.46353149414062 }, "tsne_coordinates": { "x": -17.798006057739258, "y": 6.999987602233887, "z": 29.253402709960938 }, "pca_coordinates": { "x": 1.6214840412139893, "y": 2.081376552581787, "z": 1.3168039321899414 }, "axis_scores": { "Quantum imaging": 0.7158342003822327, "Quantum Life Science Sensing": 0.7298866510391235, "Quantum sensing Detection": 0.7056751251220703, "Quantum sensing Metrology": 0.6972289085388184, "Quantum sensing navigation": 0.7241321802139282, "Quantum sensing Position": 0.6754556894302368, "Quantum sensing Timing": 0.6628856658935547, "Quantum sensing": 0.7282797694206238, "Quantum control": 0.7059738039970398 } }, { "id": 5264, "title": "Resonance Raman and Excitation Energy Dependent Charge Transfer Mechanism in Halide-Substituted Hybrid Perovskite Solar Cells", "abstract": "Organo-metal halide perovskites (OMHPs) are materials with attractive properties for optoelectronics. They made a recent introduction in the photovoltaics world by methylammonium (MA) lead triiodide a...", "citations": 153, "author_count": 7, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5271, "doi": "10.1021/nn507345e", "umap_coordinates": { "x": 391.5943298339844, "y": 135.02894592285156, "z": 206.0801239013672 }, "tsne_coordinates": { "x": 17.042461395263672, "y": -6.653242588043213, "z": -18.64329719543457 }, "pca_coordinates": { "x": -1.3021446466445923, "y": -4.075824737548828, "z": -1.8866488933563232 }, "axis_scores": { "Quantum imaging": 0.6665598154067993, "Quantum Life Science Sensing": 0.676852285861969, "Quantum sensing Detection": 0.651862621307373, "Quantum sensing Metrology": 0.6382110714912415, "Quantum sensing navigation": 0.6550034284591675, "Quantum sensing Position": 0.6378476023674011, "Quantum sensing Timing": 0.6267123222351074, "Quantum sensing": 0.6673248410224915, "Quantum control": 0.6452683806419373 } }, { "id": 5265, "title": "The dynamics of symmetric polystyrene-polybutadiene diblock copolymer melts studied above and below the order-disorder transition using dynamic light scattering", "abstract": "This communication describes dynamic light scattering measurements on three low molar mass symmetric polystyrene-polybutadiene diblock copolymer melts. Above but close to the order-disorder transition...", "citations": 31, "author_count": 6, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 5272, "doi": "10.1063/1.470749", "umap_coordinates": { "x": 393.4642639160156, "y": 136.09237670898438, "z": 205.72438049316406 }, "tsne_coordinates": { "x": -5.4756598472595215, "y": -0.13976138830184937, "z": 32.56489181518555 }, "pca_coordinates": { "x": 0.8737654685974121, "y": -0.3459808826446533, "z": -0.16559046506881714 }, "axis_scores": { "Quantum imaging": 0.6834625005722046, "Quantum Life Science Sensing": 0.6983605623245239, "Quantum sensing Detection": 0.6847230792045593, "Quantum sensing Metrology": 0.6664844751358032, "Quantum sensing navigation": 0.6692419648170471, "Quantum sensing Position": 0.6821425557136536, "Quantum sensing Timing": 0.6734079718589783, "Quantum sensing": 0.6871526837348938, "Quantum control": 0.6596127152442932 } }, { "id": 5266, "title": "Search for decoherence from quantum gravity with atmospheric neutrinos", "abstract": "Neutrino oscillations at the highest energies and longest baselines can be used to study the structure of spacetime and test the fundamental principles of quantum mechanics. If the metric of spacetime...", "citations": 13, "author_count": 409, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5273, "doi": "10.1038/s41567-024-02436-w", "umap_coordinates": { "x": 395.77899169921875, "y": 135.81973266601562, "z": 206.58779907226562 }, "tsne_coordinates": { "x": -30.039846420288086, "y": -6.562138080596924, "z": -13.2959566116333 }, "pca_coordinates": { "x": 0.6354273557662964, "y": 2.3431499004364014, "z": 0.48622244596481323 }, "axis_scores": { "Quantum imaging": 0.7002313137054443, "Quantum Life Science Sensing": 0.7171764373779297, "Quantum sensing Detection": 0.705731987953186, "Quantum sensing Metrology": 0.6867526769638062, "Quantum sensing navigation": 0.742982029914856, "Quantum sensing Position": 0.6868798732757568, "Quantum sensing Timing": 0.6810160875320435, "Quantum sensing": 0.7066166400909424, "Quantum control": 0.6941752433776855 } }, { "id": 5267, "title": "Classical (Local and Contextual) Probability Model for Bohm-Bell Type Experiments: No-Signaling as Independence of Random Variables", "abstract": "We start with a review on classical probability representations of quantum states and observables. We show that the correlations of the observables involved in the Bohm-Bell type experiments can be ex...", "citations": 28, "author_count": 3, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5274, "doi": "10.3390/e21020157", "umap_coordinates": { "x": 395.3214416503906, "y": 137.6701202392578, "z": 205.9866180419922 }, "tsne_coordinates": { "x": -20.795425415039062, "y": 5.794981002807617, "z": 16.137523651123047 }, "pca_coordinates": { "x": 1.0147500038146973, "y": 4.843997478485107, "z": -0.4179718494415283 }, "axis_scores": { "Quantum imaging": 0.7509633302688599, "Quantum Life Science Sensing": 0.7631781101226807, "Quantum sensing Detection": 0.7520756125450134, "Quantum sensing Metrology": 0.7334312796592712, "Quantum sensing navigation": 0.7597402334213257, "Quantum sensing Position": 0.7258405685424805, "Quantum sensing Timing": 0.7263876795768738, "Quantum sensing": 0.7681499719619751, "Quantum control": 0.7515787482261658 } }, { "id": 5268, "title": "Increased certification of semi-device independent random numbers using many inputs and more post-processing", "abstract": "Quantum communication with systems of dimension larger than two provides advantages in information processing tasks. Examples include higher rates of key distribution and random number generation. The...", "citations": 17, "author_count": 7, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5275, "doi": "10.1088/1367-2630/18/6/065004", "umap_coordinates": { "x": 395.4707336425781, "y": 135.0914764404297, "z": 205.84707641601562 }, "tsne_coordinates": { "x": -26.451688766479492, "y": 25.1805362701416, "z": -15.621392250061035 }, "pca_coordinates": { "x": -1.2439155578613281, "y": 2.9846084117889404, "z": 3.390336513519287 }, "axis_scores": { "Quantum imaging": 0.6801727414131165, "Quantum Life Science Sensing": 0.6792141795158386, "Quantum sensing Detection": 0.6752755045890808, "Quantum sensing Metrology": 0.6812626123428345, "Quantum sensing navigation": 0.6627724170684814, "Quantum sensing Position": 0.6630086302757263, "Quantum sensing Timing": 0.6791415810585022, "Quantum sensing": 0.6915885806083679, "Quantum control": 0.6620367169380188 } }, { "id": 5269, "title": "Diffusion of solvent/salt and segmental relaxation in polymer gel electrolytes", "abstract": "Dynamic light scattering and broad band impedance spectroscopy have been performed on polymer gel electrolytes consisting of a mixture of propylene carbonate/lithium perchlorate (PC/LiClO4) stabilised...", "citations": 17, "author_count": 5, "categories": [ "Electrochemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 5276, "doi": "10.1016/S0013-4686(00)00738-6", "umap_coordinates": { "x": 393.1855773925781, "y": 135.98533630371094, "z": 206.07333374023438 }, "tsne_coordinates": { "x": 17.1541690826416, "y": 13.045141220092773, "z": 19.357219696044922 }, "pca_coordinates": { "x": -0.8117047548294067, "y": 0.9570951461791992, "z": -2.678225517272949 }, "axis_scores": { "Quantum imaging": 0.6522953510284424, "Quantum Life Science Sensing": 0.6765726208686829, "Quantum sensing Detection": 0.6236611604690552, "Quantum sensing Metrology": 0.6254516243934631, "Quantum sensing navigation": 0.6683744788169861, "Quantum sensing Position": 0.6520318388938904, "Quantum sensing Timing": 0.6280210018157959, "Quantum sensing": 0.6502748131752014, "Quantum control": 0.6136885285377502 } }, { "id": 5270, "title": "Critical slowing down in circuit quantum electrodynamics", "abstract": "Critical slowing down of the time it takes a system to reach equilibrium is a key signature of bistability in dissipative first-order phase transitions. Understanding and characterizing this process c...", "citations": 28, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5277, "doi": "10.1126/sciadv.abe9492", "umap_coordinates": { "x": 394.4811706542969, "y": 136.06085205078125, "z": 207.02877807617188 }, "tsne_coordinates": { "x": -3.8621537685394287, "y": -10.7105073928833, "z": 24.99466896057129 }, "pca_coordinates": { "x": 2.937912940979004, "y": 0.7749409675598145, "z": -1.5446858406066895 }, "axis_scores": { "Quantum imaging": 0.7380403876304626, "Quantum Life Science Sensing": 0.7402554154396057, "Quantum sensing Detection": 0.7257094979286194, "Quantum sensing Metrology": 0.7143552899360657, "Quantum sensing navigation": 0.7586416602134705, "Quantum sensing Position": 0.7180262207984924, "Quantum sensing Timing": 0.7199344635009766, "Quantum sensing": 0.7363567352294922, "Quantum control": 0.7550821900367737 } }, { "id": 5271, "title": "Interface magnetism of 3d transition metals", "abstract": "The layered resolved magnetic spin moments of the magnetic 3d bilayer interfaces Fe/V bcc, Fe/Co bcc, Fe/Cu bcc, Co/V bcc, Co/Ni fee, Co/Cu fee, Ni/V fee, Ni/Cr fcc, Ni/Cu fee and the magnetic surface...", "citations": 115, "author_count": 4, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5278, "doi": "10.1103/PhysRevB.59.6373", "umap_coordinates": { "x": 393.1918029785156, "y": 136.20236206054688, "z": 208.91766357421875 }, "tsne_coordinates": { "x": 3.526169538497925, "y": -33.812435150146484, "z": 16.804546356201172 }, "pca_coordinates": { "x": 3.733729362487793, "y": -1.488692283630371, "z": -3.5120060443878174 }, "axis_scores": { "Quantum imaging": 0.7125722169876099, "Quantum Life Science Sensing": 0.7289707064628601, "Quantum sensing Detection": 0.7050497531890869, "Quantum sensing Metrology": 0.7072591185569763, "Quantum sensing navigation": 0.7019942998886108, "Quantum sensing Position": 0.6665917634963989, "Quantum sensing Timing": 0.650408148765564, "Quantum sensing": 0.7156159281730652, "Quantum control": 0.6802200675010681 } }, { "id": 5272, "title": "Detailed measurement of the e+e- pair continuum in p plus p and Au plus Au collisions at √sNN=200 GeV and implications for direct photon production", "abstract": "PHENIX has measured the e(+)e(-) pair continuum in root s(NN) = 200 GeV Au+Au and p+p collisions over a wide range of mass and transverse momenta. The e(+)e(-) yield is compared to the expectations fr...", "citations": 314, "author_count": 423, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5279, "doi": "10.1103/PhysRevC.81.034911", "umap_coordinates": { "x": 396.62701416015625, "y": 134.4025115966797, "z": 207.87266540527344 }, "tsne_coordinates": { "x": -32.69273376464844, "y": 1.090681791305542, "z": -17.322065353393555 }, "pca_coordinates": { "x": 0.976813793182373, "y": -0.6523838043212891, "z": 2.957563877105713 }, "axis_scores": { "Quantum imaging": 0.6926227807998657, "Quantum Life Science Sensing": 0.7118306756019592, "Quantum sensing Detection": 0.725797176361084, "Quantum sensing Metrology": 0.7061811685562134, "Quantum sensing navigation": 0.7039309144020081, "Quantum sensing Position": 0.7088668346405029, "Quantum sensing Timing": 0.6812174320220947, "Quantum sensing": 0.7203970551490784, "Quantum control": 0.6669853925704956 } }, { "id": 5273, "title": "Bound and unbound wave functions at short distances", "abstract": "There exists a simple relationship between a quantum-mechanical bound-state wave function and that of nearby scattering states, when the scattering energy is extrapolated to that of the bound state. T...", "citations": 10, "author_count": 3, "categories": [ "Education & Educational Research" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5280, "doi": null, "umap_coordinates": { "x": 391.69573974609375, "y": 139.49298095703125, "z": 208.92332458496094 }, "tsne_coordinates": { "x": -7.948965072631836, "y": 35.89833068847656, "z": -1.7028511762619019 }, "pca_coordinates": { "x": 0.9718847274780273, "y": 2.869591236114502, "z": -2.753690242767334 }, "axis_scores": { "Quantum imaging": 0.7004629373550415, "Quantum Life Science Sensing": 0.7060838341712952, "Quantum sensing Detection": 0.6958887577056885, "Quantum sensing Metrology": 0.6753861308097839, "Quantum sensing navigation": 0.7169085741043091, "Quantum sensing Position": 0.7062303423881531, "Quantum sensing Timing": 0.6791332364082336, "Quantum sensing": 0.704850971698761, "Quantum control": 0.6810522675514221 } }, { "id": 5274, "title": "On the application of extended precision arithmetic to quantum mechanical calculations", "abstract": "The computer arithmetic of extended precision has been successfully applied to the problem of a hydrogen atom in an external magnetic field. The solution of the problem was obtained in the analytical ...", "citations": 15, "author_count": 3, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5281, "doi": "10.1002/(SICI)1097-461X(1997)62:6<593::AID-QUA3>3.0.CO;2-R", "umap_coordinates": { "x": 394.5255126953125, "y": 136.6827850341797, "z": 205.55258178710938 }, "tsne_coordinates": { "x": -18.892921447753906, "y": 12.06531047821045, "z": 12.410303115844727 }, "pca_coordinates": { "x": 0.541367769241333, "y": 2.4154369831085205, "z": 0.3338245749473572 }, "axis_scores": { "Quantum imaging": 0.7008182406425476, "Quantum Life Science Sensing": 0.7214794754981995, "Quantum sensing Detection": 0.7132422924041748, "Quantum sensing Metrology": 0.7240420579910278, "Quantum sensing navigation": 0.7130398154258728, "Quantum sensing Position": 0.7101120948791504, "Quantum sensing Timing": 0.689110279083252, "Quantum sensing": 0.7325466871261597, "Quantum control": 0.7005963325500488 } }, { "id": 5275, "title": "Restored strange metal phase through suppression of charge density waves in underdoped YBa2Cu3O7-δ", "abstract": "The normal state of optimally doped cuprates is dominated by the strange metal phase that shows a linear temperature (T) dependence of the resistivity persisting down to the lowest T. For underdoped c...", "citations": 39, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5282, "doi": "10.1126/science.abc8372", "umap_coordinates": { "x": 393.4117736816406, "y": 135.56292724609375, "z": 207.78878784179688 }, "tsne_coordinates": { "x": -1.6578015089035034, "y": -14.921895027160645, "z": 23.58195686340332 }, "pca_coordinates": { "x": 1.4265105724334717, "y": -0.8377232551574707, "z": -1.8468337059020996 }, "axis_scores": { "Quantum imaging": 0.7048432230949402, "Quantum Life Science Sensing": 0.7077843546867371, "Quantum sensing Detection": 0.6894294023513794, "Quantum sensing Metrology": 0.6804351806640625, "Quantum sensing navigation": 0.7143033146858215, "Quantum sensing Position": 0.6530663967132568, "Quantum sensing Timing": 0.6529190540313721, "Quantum sensing": 0.6997008323669434, "Quantum control": 0.704119086265564 } }, { "id": 5276, "title": "Detectors for Electron and X-ray Scattering and Imaging Experiments", "abstract": "Suitable detectors for these expensive and highly complex experimental instruments described in the previous chapters are a key factor to consider, primarily because if one cannot visualize or record ...", "citations": 2, "author_count": 3, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5283, "doi": "10.1007/978-3-642-45152-2_7", "umap_coordinates": { "x": 395.0037536621094, "y": 134.16702270507812, "z": 205.4227294921875 }, "tsne_coordinates": { "x": -15.817815780639648, "y": 18.126054763793945, "z": 2.9563779830932617 }, "pca_coordinates": { "x": -2.822808027267456, "y": 0.6310780048370361, "z": 2.094986915588379 }, "axis_scores": { "Quantum imaging": 0.7411049008369446, "Quantum Life Science Sensing": 0.7333776950836182, "Quantum sensing Detection": 0.7116485238075256, "Quantum sensing Metrology": 0.7197591066360474, "Quantum sensing navigation": 0.7160682082176208, "Quantum sensing Position": 0.6941919326782227, "Quantum sensing Timing": 0.6867504119873047, "Quantum sensing": 0.7265056371688843, "Quantum control": 0.6804385781288147 } }, { "id": 5277, "title": "Formation of Pyridyl Radicals by Hydrogen Atom Abstraction: Theoretical Study", "abstract": "Specific features of the pyridine structure make it a convenient model system to describe coal combustion; however, the main attention of researchers has been paid to the formation of the ortho-pyridy...", "citations": 4, "author_count": 7, "categories": [ "Thermodynamics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5284, "doi": "10.1134/S0010508223020016", "umap_coordinates": { "x": 393.64031982421875, "y": 136.7783660888672, "z": 205.30104064941406 }, "tsne_coordinates": { "x": -3.0297224521636963, "y": 0.7552024126052856, "z": 22.85186767578125 }, "pca_coordinates": { "x": 0.13811659812927246, "y": 2.1234164237976074, "z": -2.4592738151550293 }, "axis_scores": { "Quantum imaging": 0.6790133714675903, "Quantum Life Science Sensing": 0.7055377960205078, "Quantum sensing Detection": 0.6806213855743408, "Quantum sensing Metrology": 0.6520552635192871, "Quantum sensing navigation": 0.6657642722129822, "Quantum sensing Position": 0.6609015464782715, "Quantum sensing Timing": 0.6394219994544983, "Quantum sensing": 0.6833580732345581, "Quantum control": 0.6947287321090698 } }, { "id": 5278, "title": "Simulations of Sisyphus cooling including multiple excited states", "abstract": "We extend the theory for laser cooling in a near-resonant optical lattice to include multiple excited hyperfine states. Simulations are performed treating the external degrees of freedom of the atom, ...", "citations": 6, "author_count": 4, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5285, "doi": "10.1140/epjd/e2008-00080-8", "umap_coordinates": { "x": 394.4586181640625, "y": 135.5759735107422, "z": 206.9829864501953 }, "tsne_coordinates": { "x": -9.145710945129395, "y": -5.700491428375244, "z": 19.09529685974121 }, "pca_coordinates": { "x": 1.6759710311889648, "y": 1.4026929140090942, "z": 0.3286425471305847 }, "axis_scores": { "Quantum imaging": 0.6758829951286316, "Quantum Life Science Sensing": 0.666091799736023, "Quantum sensing Detection": 0.6440649628639221, "Quantum sensing Metrology": 0.6386181712150574, "Quantum sensing navigation": 0.6451836824417114, "Quantum sensing Position": 0.6237638592720032, "Quantum sensing Timing": 0.6642590165138245, "Quantum sensing": 0.6568799614906311, "Quantum control": 0.6541646122932434 } }, { "id": 5279, "title": "Frequency analysis of oscillations in cerebral hemodynamics measured by time domain near infrared spectroscopy", "abstract": "In this paper, we propose the application of time-domain near-infrared spectroscopy to the assessment of oscillations in cerebral hemodynamics. These oscillations were observed in the statistical mome...", "citations": 12, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5286, "doi": "10.1364/BOE.10.000761", "umap_coordinates": { "x": 394.9770812988281, "y": 135.07080078125, "z": 205.42340087890625 }, "tsne_coordinates": { "x": -21.35194969177246, "y": -7.138153076171875, "z": -23.824630737304688 }, "pca_coordinates": { "x": 0.9644343852996826, "y": 2.444465398788452, "z": -0.6876465082168579 }, "axis_scores": { "Quantum imaging": 0.6993934512138367, "Quantum Life Science Sensing": 0.7036762237548828, "Quantum sensing Detection": 0.6812711954116821, "Quantum sensing Metrology": 0.6682188510894775, "Quantum sensing navigation": 0.6901246905326843, "Quantum sensing Position": 0.6797066926956177, "Quantum sensing Timing": 0.7115164399147034, "Quantum sensing": 0.6909234523773193, "Quantum control": 0.6869446039199829 } }, { "id": 5280, "title": "Perspectives of neutron scattering on proton conducting oxides", "abstract": "Understanding the fundamental properties of materials of relevance for alternative energy technologies is crucial in addressing the global challenge of cleaner sources of energy. This Perspective arti...", "citations": 28, "author_count": 2, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5287, "doi": "10.1039/c2dt31891a", "umap_coordinates": { "x": 391.980712890625, "y": 135.2090301513672, "z": 205.80908203125 }, "tsne_coordinates": { "x": 3.24394154548645, "y": 6.870743274688721, "z": 25.96788787841797 }, "pca_coordinates": { "x": -1.4190599918365479, "y": -1.2530224323272705, "z": -1.7936372756958008 }, "axis_scores": { "Quantum imaging": 0.6744593381881714, "Quantum Life Science Sensing": 0.7122673988342285, "Quantum sensing Detection": 0.6671928763389587, "Quantum sensing Metrology": 0.6483318209648132, "Quantum sensing navigation": 0.6740932464599609, "Quantum sensing Position": 0.6424188017845154, "Quantum sensing Timing": 0.654280424118042, "Quantum sensing": 0.6816678643226624, "Quantum control": 0.644578754901886 } }, { "id": 5281, "title": "Modeling and simulations of quantum phase slips in ultrathin superconducting wires", "abstract": "We study quantum phase slips (QPS) in ultrathin superconducting wires. Starting from an effective one-dimensional microscopic model, which includes electromagnetic fluctuations, we map the problem to ...", "citations": 5, "author_count": 3, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5288, "doi": "10.1103/PhysRevB.91.134504", "umap_coordinates": { "x": 393.9202880859375, "y": 135.8601837158203, "z": 209.52536010742188 }, "tsne_coordinates": { "x": -1.2351168394088745, "y": -26.025053024291992, "z": 7.574800491333008 }, "pca_coordinates": { "x": 5.51417350769043, "y": -0.9164152145385742, "z": 0.373054563999176 }, "axis_scores": { "Quantum imaging": 0.7235687971115112, "Quantum Life Science Sensing": 0.7360302805900574, "Quantum sensing Detection": 0.7255787253379822, "Quantum sensing Metrology": 0.7183700799942017, "Quantum sensing navigation": 0.743522047996521, "Quantum sensing Position": 0.7041395306587219, "Quantum sensing Timing": 0.7352381348609924, "Quantum sensing": 0.7405661344528198, "Quantum control": 0.7047992944717407 } }, { "id": 5282, "title": "Plasmonic particles set into fast orbital motion by an optical vortex beam", "abstract": "We optically trap plasmonic gold particles in two dimensions and set them into circular motion around the optical axis using a helically phased vortex laser beam. The orbiting frequency of the particl...", "citations": 74, "author_count": 5, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5289, "doi": "10.1364/OE.22.004349", "umap_coordinates": { "x": 394.1323547363281, "y": 136.363525390625, "z": 207.70335388183594 }, "tsne_coordinates": { "x": -10.466606140136719, "y": -14.90754508972168, "z": 21.270214080810547 }, "pca_coordinates": { "x": 1.0040419101715088, "y": -0.012056350708007812, "z": 0.18221169710159302 }, "axis_scores": { "Quantum imaging": 0.7199748754501343, "Quantum Life Science Sensing": 0.7067307233810425, "Quantum sensing Detection": 0.7085485458374023, "Quantum sensing Metrology": 0.6934797763824463, "Quantum sensing navigation": 0.7346611022949219, "Quantum sensing Position": 0.7221259474754333, "Quantum sensing Timing": 0.6969241499900818, "Quantum sensing": 0.7102017402648926, "Quantum control": 0.7017881274223328 } }, { "id": 5283, "title": "Manifestations of quantum holonomy in interferometry", "abstract": "Abelian and non-Abelian geometric phases, known as quantum holonomies, have attracted considerable attention in the past. Here, we show that it is possible to associate nonequivalent holonomies to dis...", "citations": 6, "author_count": 4, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5290, "doi": "10.1103/PhysRevA.74.062101", "umap_coordinates": { "x": 395.2698974609375, "y": 136.98431396484375, "z": 208.44244384765625 }, "tsne_coordinates": { "x": -22.354583740234375, "y": -28.912385940551758, "z": 12.16845989227295 }, "pca_coordinates": { "x": 5.287910461425781, "y": 1.4048010110855103, "z": 0.3867871165275574 }, "axis_scores": { "Quantum imaging": 0.7683279514312744, "Quantum Life Science Sensing": 0.7636538743972778, "Quantum sensing Detection": 0.7553638815879822, "Quantum sensing Metrology": 0.7569682002067566, "Quantum sensing navigation": 0.7558348178863525, "Quantum sensing Position": 0.7386986613273621, "Quantum sensing Timing": 0.727303683757782, "Quantum sensing": 0.7677286267280579, "Quantum control": 0.7124453783035278 } }, { "id": 5284, "title": "Properties of skyrmions and multi-quanta vortices in chiral p-wave superconductors", "abstract": "Chiral p-wave superconducting state supports a rich spectrum of topological excitations different from those in conventional superconducting states. Besides domain walls separating different chiral st...", "citations": 33, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5291, "doi": "10.1038/srep17540", "umap_coordinates": { "x": 393.3310241699219, "y": 135.90301513671875, "z": 207.7946319580078 }, "tsne_coordinates": { "x": -6.207922458648682, "y": -17.790054321289062, "z": 24.06297492980957 }, "pca_coordinates": { "x": 0.8821415901184082, "y": -1.8447837829589844, "z": -0.9585931301116943 }, "axis_scores": { "Quantum imaging": 0.7138151526451111, "Quantum Life Science Sensing": 0.7262072563171387, "Quantum sensing Detection": 0.6902281045913696, "Quantum sensing Metrology": 0.699766218662262, "Quantum sensing navigation": 0.706782341003418, "Quantum sensing Position": 0.6951800584793091, "Quantum sensing Timing": 0.6801122426986694, "Quantum sensing": 0.7074370384216309, "Quantum control": 0.6769012212753296 } }, { "id": 5285, "title": "Spin Berry phase in a helical edge state: Sz nonconservation and transport signatures", "abstract": "Topological protection of edge state in quantum spin Hall systems relies only on time-reversal symmetry. Hence, S-z conservation on the edge can be relaxed which can have an interferometric manifestat...", "citations": 6, "author_count": 4, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5292, "doi": "10.1103/PhysRevB.102.035423", "umap_coordinates": { "x": 394.0725402832031, "y": 136.9796600341797, "z": 209.09922790527344 }, "tsne_coordinates": { "x": -12.571810722351074, "y": -31.918903350830078, "z": 14.556015014648438 }, "pca_coordinates": { "x": 4.226299285888672, "y": 0.635744571685791, "z": -2.12239670753479 }, "axis_scores": { "Quantum imaging": 0.6753078699111938, "Quantum Life Science Sensing": 0.6705453395843506, "Quantum sensing Detection": 0.6712709069252014, "Quantum sensing Metrology": 0.6514726877212524, "Quantum sensing navigation": 0.6955490112304688, "Quantum sensing Position": 0.6671182513237, "Quantum sensing Timing": 0.6520832180976868, "Quantum sensing": 0.6672834157943726, "Quantum control": 0.6471066474914551 } }, { "id": 5286, "title": "Temperature effects on intrachain recombination of bipolarons in conjugated polymers", "abstract": "The temperature influence over the intrachain recombination dynamics between oppositely charged bipolarons has been theoretically investigated using a version of the Su-Schrieffer-Heeger model. The re...", "citations": 10, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5293, "doi": "10.1016/j.cplett.2014.09.036", "umap_coordinates": { "x": 392.3218994140625, "y": 135.8647003173828, "z": 205.78060913085938 }, "tsne_coordinates": { "x": 1.0108616352081299, "y": -6.827767848968506, "z": -11.8291597366333 }, "pca_coordinates": { "x": -0.1912236213684082, "y": -1.286008358001709, "z": -1.792783260345459 }, "axis_scores": { "Quantum imaging": 0.6967606544494629, "Quantum Life Science Sensing": 0.7013670802116394, "Quantum sensing Detection": 0.6818535327911377, "Quantum sensing Metrology": 0.6533003449440002, "Quantum sensing navigation": 0.6655889749526978, "Quantum sensing Position": 0.6730436086654663, "Quantum sensing Timing": 0.6953607201576233, "Quantum sensing": 0.6895097494125366, "Quantum control": 0.6682313680648804 } }, { "id": 5287, "title": "Minimum detection efficiency for a loophole-free atom-photon bell experiment", "abstract": "In Bell experiments, one problem is to achieve high enough photodetection to ensure that there is no possibility of describing the results via a local hidden-variable model. Using the Clauser-Horne in...", "citations": 59, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5294, "doi": "10.1103/PhysRevLett.98.220402", "umap_coordinates": { "x": 395.5940246582031, "y": 135.77880859375, "z": 207.21377563476562 }, "tsne_coordinates": { "x": -24.69843292236328, "y": -6.34840726852417, "z": -0.8470859527587891 }, "pca_coordinates": { "x": 3.236192226409912, "y": 1.474482774734497, "z": 1.8983981609344482 }, "axis_scores": { "Quantum imaging": 0.7234150171279907, "Quantum Life Science Sensing": 0.7460341453552246, "Quantum sensing Detection": 0.744642436504364, "Quantum sensing Metrology": 0.726201057434082, "Quantum sensing navigation": 0.7270725965499878, "Quantum sensing Position": 0.7133150696754456, "Quantum sensing Timing": 0.7220629453659058, "Quantum sensing": 0.7392255663871765, "Quantum control": 0.694638192653656 } }, { "id": 5288, "title": "Two-photon absorption of polyfluorene aggregates stabilized by insulin amyloid fibrils", "abstract": "We report on the photophysical and optical properties of a polyfluorene derivative (PFO) and its binding to the amyloid-forming protein insulin. The complexation is based on weak supramolecular intera...", "citations": 10, "author_count": 7, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5295, "doi": "10.1039/c5ra08302h", "umap_coordinates": { "x": 392.4707336425781, "y": 135.672607421875, "z": 205.40879821777344 }, "tsne_coordinates": { "x": 9.954094886779785, "y": 2.271501064300537, "z": -3.9595999717712402 }, "pca_coordinates": { "x": -2.28360652923584, "y": -2.3185534477233887, "z": -1.7471699714660645 }, "axis_scores": { "Quantum imaging": 0.6764340996742249, "Quantum Life Science Sensing": 0.7303646802902222, "Quantum sensing Detection": 0.6807828545570374, "Quantum sensing Metrology": 0.6648297905921936, "Quantum sensing navigation": 0.656243622303009, "Quantum sensing Position": 0.6422666907310486, "Quantum sensing Timing": 0.6195853352546692, "Quantum sensing": 0.6893687844276428, "Quantum control": 0.6601951122283936 } }, { "id": 5289, "title": "Spin-resolved photoemission of a ferromagnetic Mn5Ge3(0001) epilayer on Ge(111)", "abstract": "Here we present a study of the electronic structure of epitaxial ferromagnetic Mn5Ge3(0001) films on Ge(111) by means of x-ray absorption spectroscopy, x-ray photoelectron spectroscopy, and spin-resol...", "citations": 33, "author_count": 6, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5296, "doi": "10.1063/1.3103336", "umap_coordinates": { "x": 393.2947998046875, "y": 134.38150024414062, "z": 208.38040161132812 }, "tsne_coordinates": { "x": 20.47530746459961, "y": -26.3264217376709, "z": -3.059152603149414 }, "pca_coordinates": { "x": 1.8118174076080322, "y": -2.893795967102051, "z": 0.21070057153701782 }, "axis_scores": { "Quantum imaging": 0.7108814120292664, "Quantum Life Science Sensing": 0.715811550617218, "Quantum sensing Detection": 0.7109073996543884, "Quantum sensing Metrology": 0.7182412147521973, "Quantum sensing navigation": 0.7052162289619446, "Quantum sensing Position": 0.6876426935195923, "Quantum sensing Timing": 0.6449364423751831, "Quantum sensing": 0.7219103574752808, "Quantum control": 0.6524204015731812 } }, { "id": 5290, "title": "Secure quantum conversation through non-destructive discrimination of highly entangled multipartite states", "abstract": "Quantum conversation is a way in which two parties can communicate classical information with each other using entanglement as a shared resource. We present this scheme using a multipartite entangled ...", "citations": 28, "author_count": 4, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5297, "doi": "10.1209/0295-5075/87/60008", "umap_coordinates": { "x": 395.5465393066406, "y": 136.5380859375, "z": 206.74526977539062 }, "tsne_coordinates": { "x": -36.04996109008789, "y": -16.69348907470703, "z": -0.65528404712677 }, "pca_coordinates": { "x": 0.6539360284805298, "y": 1.2006595134735107, "z": 2.078472852706909 }, "axis_scores": { "Quantum imaging": 0.7024132013320923, "Quantum Life Science Sensing": 0.7181109189987183, "Quantum sensing Detection": 0.716384768486023, "Quantum sensing Metrology": 0.685479998588562, "Quantum sensing navigation": 0.7097017168998718, "Quantum sensing Position": 0.666636049747467, "Quantum sensing Timing": 0.6676470041275024, "Quantum sensing": 0.7180914282798767, "Quantum control": 0.6849156618118286 } }, { "id": 5291, "title": "Smart dosimetry by pattern recognition using a single photon counting detector system in time over threshold mode", "abstract": "The function of a dosimeter is to determine the absorbed dose of radiation, for those cases in which, generally, the particular type of radiation is already known. Lately, a number of applications hav...", "citations": 5, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5298, "doi": "10.1088/1748-0221/7/01/C01027", "umap_coordinates": { "x": 395.27099609375, "y": 133.04066467285156, "z": 206.34652709960938 }, "tsne_coordinates": { "x": -12.144832611083984, "y": 12.671777725219727, "z": -30.04551887512207 }, "pca_coordinates": { "x": -1.9906470775604248, "y": 0.7685656547546387, "z": 4.2310471534729 }, "axis_scores": { "Quantum imaging": 0.7037302255630493, "Quantum Life Science Sensing": 0.7241968512535095, "Quantum sensing Detection": 0.7164087891578674, "Quantum sensing Metrology": 0.7049811482429504, "Quantum sensing navigation": 0.6982512474060059, "Quantum sensing Position": 0.6938313245773315, "Quantum sensing Timing": 0.7359464168548584, "Quantum sensing": 0.7139667272567749, "Quantum control": 0.6746101379394531 } }, { "id": 5292, "title": "Inelastic neutron scattering study of the magnetic field dependence of the quantum dipolar garnet Yb3Ga5O12", "abstract": "The garnet compound Yb3Ga5O12 is a fascinating material that is considered highly suitable for lowtemperature refrigeration, via the magnetocaloric effect, in addition to enabling the exploration of q...", "citations": 1, "author_count": 9, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5299, "doi": "10.1103/r5md-t5z7", "umap_coordinates": { "x": 393.1782531738281, "y": 136.28207397460938, "z": 207.819091796875 }, "tsne_coordinates": { "x": 16.698863983154297, "y": -15.633086204528809, "z": 28.542142868041992 }, "pca_coordinates": { "x": 1.0525047779083252, "y": 0.6596096754074097, "z": -1.161234974861145 }, "axis_scores": { "Quantum imaging": 0.7220228910446167, "Quantum Life Science Sensing": 0.7173194289207458, "Quantum sensing Detection": 0.6976351141929626, "Quantum sensing Metrology": 0.7097878456115723, "Quantum sensing navigation": 0.7159837484359741, "Quantum sensing Position": 0.6745420694351196, "Quantum sensing Timing": 0.6882437467575073, "Quantum sensing": 0.7195916771888733, "Quantum control": 0.6942124962806702 } }, { "id": 5293, "title": "Mixed halide perovskites for spectrally stable and high-efficiency blue light-emitting diodes", "abstract": "Bright and efficient blue emission is key to further development of metal halide perovskite light-emitting diodes. Although modifying bromide/chloride composition is straightforward to achieve blue em...", "citations": 480, "author_count": 20, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5300, "doi": "10.1038/s41467-020-20582-6", "umap_coordinates": { "x": 391.7929382324219, "y": 133.7039337158203, "z": 205.44761657714844 }, "tsne_coordinates": { "x": 18.24770164489746, "y": -2.965954303741455, "z": -23.36203384399414 }, "pca_coordinates": { "x": -3.7665247917175293, "y": -3.4029951095581055, "z": -0.5935627222061157 }, "axis_scores": { "Quantum imaging": 0.6592808365821838, "Quantum Life Science Sensing": 0.688694417476654, "Quantum sensing Detection": 0.636349081993103, "Quantum sensing Metrology": 0.6492567658424377, "Quantum sensing navigation": 0.6368154287338257, "Quantum sensing Position": 0.6390231251716614, "Quantum sensing Timing": 0.6225329637527466, "Quantum sensing": 0.6566196084022522, "Quantum control": 0.6254667639732361 } }, { "id": 5294, "title": "Proximal Phenotyping and Machine Learning Methods to Identify Septoria Tritici Blotch Disease Symptoms in Wheat", "abstract": "Phenotyping with proximal sensors allow high-precision measurements of plant traits both in the controlled conditions and in the field. In this work, using machine learning, an integrated analysis was...", "citations": 42, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5301, "doi": "10.3389/fpls.2018.00685", "umap_coordinates": { "x": 394.23187255859375, "y": 136.49501037597656, "z": 203.50306701660156 }, "tsne_coordinates": { "x": 13.313737869262695, "y": 35.03342056274414, "z": 6.372906684875488 }, "pca_coordinates": { "x": -2.3422298431396484, "y": 1.8916056156158447, "z": 0.22312110662460327 }, "axis_scores": { "Quantum imaging": 0.6840084195137024, "Quantum Life Science Sensing": 0.7104779481887817, "Quantum sensing Detection": 0.7015355229377747, "Quantum sensing Metrology": 0.6972720623016357, "Quantum sensing navigation": 0.6931315660476685, "Quantum sensing Position": 0.6873586177825928, "Quantum sensing Timing": 0.6834261417388916, "Quantum sensing": 0.7038267850875854, "Quantum control": 0.6517287492752075 } }, { "id": 5295, "title": "Synthesis and DNA binding studies of a new asymmetric cyanine dye binding in the minor groove of [poly(dA-dT)]2", "abstract": "A new asymmetric cyanine dye has been synthesised and its interaction with different DNA has been investigated. In this dye, BEBO, the structure of the known intercalating cyanine dye BO has been exte...", "citations": 39, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5302, "doi": "10.1016/S0968-0896(02)00463-7", "umap_coordinates": { "x": 392.873046875, "y": 135.8265838623047, "z": 204.75958251953125 }, "tsne_coordinates": { "x": 7.295012474060059, "y": 17.037294387817383, "z": 6.419111728668213 }, "pca_coordinates": { "x": -3.5031380653381348, "y": 0.8440020084381104, "z": -1.2352845668792725 }, "axis_scores": { "Quantum imaging": 0.6934483051300049, "Quantum Life Science Sensing": 0.6993595361709595, "Quantum sensing Detection": 0.681444525718689, "Quantum sensing Metrology": 0.6609067916870117, "Quantum sensing navigation": 0.7016582489013672, "Quantum sensing Position": 0.6951382756233215, "Quantum sensing Timing": 0.6733741760253906, "Quantum sensing": 0.6835843324661255, "Quantum control": 0.6703935861587524 } }, { "id": 5296, "title": "Cold acclimation and photoinhibition of photosynthesis in Scots pine", "abstract": "Cold acclimation of Scots pine did not affect the susceptibility of photosynthesis to photoinhibition. Cold acclimation did however cause a suppression of the rate of CO2 uptake, and at given light an...", "citations": 195, "author_count": 7, "categories": [ "Plant Sciences" ], "year": 1996, "topic": [ "all" ], "embedding_index": 5303, "doi": null, "umap_coordinates": { "x": 391.79583740234375, "y": 139.26390075683594, "z": 209.78172302246094 }, "tsne_coordinates": { "x": 0.4812008738517761, "y": 46.208370208740234, "z": 0.6679136157035828 }, "pca_coordinates": { "x": -2.5999910831451416, "y": 2.6998605728149414, "z": -2.770991802215576 }, "axis_scores": { "Quantum imaging": 0.6891492009162903, "Quantum Life Science Sensing": 0.7177762985229492, "Quantum sensing Detection": 0.6929795742034912, "Quantum sensing Metrology": 0.676163911819458, "Quantum sensing navigation": 0.6912427544593811, "Quantum sensing Position": 0.6707783341407776, "Quantum sensing Timing": 0.6772936582565308, "Quantum sensing": 0.6997942328453064, "Quantum control": 0.7042297720909119 } }, { "id": 5297, "title": "PARTICULATE ENHANCED MEMBRANE UPTAKE OF 1,2-BENZANTHRACENE OBSERVED BY FLUORESCENCE SPECTROSCOPY - POSSIBLE ROLE IN CO-CARCINOGENESIS", "abstract": "The co-carcinogenic effects of particulate matter and chemical carcinogens and the effect of particulate silica on the rates of membrane uptake of 1,2-benzanthracene were investigated. The fluorescenc...", "citations": 14, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1978, "topic": [ "all" ], "embedding_index": 5304, "doi": "10.1016/0304-4165(78)90065-X", "umap_coordinates": { "x": 394.0519714355469, "y": 134.5814666748047, "z": 204.38314819335938 }, "tsne_coordinates": { "x": 9.133657455444336, "y": 38.843292236328125, "z": -4.497334003448486 }, "pca_coordinates": { "x": -3.019941806793213, "y": 0.8700883388519287, "z": -0.5779914855957031 }, "axis_scores": { "Quantum imaging": 0.6817657947540283, "Quantum Life Science Sensing": 0.6885753273963928, "Quantum sensing Detection": 0.6726219654083252, "Quantum sensing Metrology": 0.6612693071365356, "Quantum sensing navigation": 0.6636241674423218, "Quantum sensing Position": 0.6741185784339905, "Quantum sensing Timing": 0.626945972442627, "Quantum sensing": 0.6702108383178711, "Quantum control": 0.6394333839416504 } }, { "id": 5298, "title": "Calibration procedures and data correction of ePix100 detectors at the European XFEL", "abstract": "The European XFEL is a research facility that delivers extremely bright and short coherent X-ray pulses of tunable energy at MHz repetition rate, providing unprecedented capabilities to conduct scient...", "citations": 1, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5305, "doi": "10.1088/1748-0221/18/11/C11008", "umap_coordinates": { "x": 395.9253845214844, "y": 133.97833251953125, "z": 206.1898651123047 }, "tsne_coordinates": { "x": -27.1132755279541, "y": 19.4864444732666, "z": -11.914134979248047 }, "pca_coordinates": { "x": -2.9146788120269775, "y": 2.4222021102905273, "z": 2.5507972240448 }, "axis_scores": { "Quantum imaging": 0.6751962900161743, "Quantum Life Science Sensing": 0.6815299987792969, "Quantum sensing Detection": 0.6535617113113403, "Quantum sensing Metrology": 0.6651793718338013, "Quantum sensing navigation": 0.6568441390991211, "Quantum sensing Position": 0.6582252979278564, "Quantum sensing Timing": 0.6954451203346252, "Quantum sensing": 0.6588869690895081, "Quantum control": 0.6406989097595215 } }, { "id": 5299, "title": "Measurement of breast-tissue x-ray attenuation by spectral imaging: fresh and fixed normal and malignant tissue", "abstract": "Knowledge of x-ray attenuation is essential for developing and evaluating x-ray imaging technologies. In mammography, measurement of breast density, dose estimation, and differentiation between cysts ...", "citations": 17, "author_count": 7, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5306, "doi": "10.1088/1361-6560/aaea83", "umap_coordinates": { "x": 395.63616943359375, "y": 133.25750732421875, "z": 205.39132690429688 }, "tsne_coordinates": { "x": -7.157693862915039, "y": 22.356037139892578, "z": -32.566375732421875 }, "pca_coordinates": { "x": -1.9433151483535767, "y": 3.607150077819824, "z": 2.418240547180176 }, "axis_scores": { "Quantum imaging": 0.6820810437202454, "Quantum Life Science Sensing": 0.6842506527900696, "Quantum sensing Detection": 0.657230794429779, "Quantum sensing Metrology": 0.6491712331771851, "Quantum sensing navigation": 0.6440204381942749, "Quantum sensing Position": 0.6480360627174377, "Quantum sensing Timing": 0.6387841105461121, "Quantum sensing": 0.670540452003479, "Quantum control": 0.6096600294113159 } }, { "id": 5300, "title": "PRODUCTION OF LINEARLY POLARIZED PHOTON BEAM AT MAX-LAB", "abstract": "Spectra of coherent bremsstrahlung from the diamond crystal in the laboratory MAX-lab on the accelerator MAX-I are measured at the energy of the electronic beam 144 MeV. First in the laboratory MAX-la...", "citations": 5, "author_count": 12, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5307, "doi": null, "umap_coordinates": { "x": 391.39251708984375, "y": 139.46205139160156, "z": 209.16265869140625 }, "tsne_coordinates": { "x": -7.6061201095581055, "y": 38.16948318481445, "z": -5.8582377433776855 }, "pca_coordinates": { "x": -0.9084250926971436, "y": 2.645745038986206, "z": 0.909031331539154 }, "axis_scores": { "Quantum imaging": 0.7325366139411926, "Quantum Life Science Sensing": 0.7187299132347107, "Quantum sensing Detection": 0.725905179977417, "Quantum sensing Metrology": 0.7025077939033508, "Quantum sensing navigation": 0.706908643245697, "Quantum sensing Position": 0.6931797862052917, "Quantum sensing Timing": 0.6666340827941895, "Quantum sensing": 0.7191749811172485, "Quantum control": 0.6879400610923767 } }, { "id": 5301, "title": "Time-resolved multiphoton effects in the fluorescence spectra of two-level systems at rest and in motion", "abstract": "We study the time-resolved fluorescence spectrum in two-level systems interacting with an incident coherent field, both in the weak and intermediate coupling regimes. For a single two-level system in ...", "citations": 4, "author_count": 5, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5308, "doi": "10.1103/PhysRevA.102.013719", "umap_coordinates": { "x": 393.3443908691406, "y": 135.7737579345703, "z": 206.73741149902344 }, "tsne_coordinates": { "x": 0.7302029132843018, "y": -3.3850362300872803, "z": 11.764183044433594 }, "pca_coordinates": { "x": 1.8222475051879883, "y": 0.12195086479187012, "z": -0.6360973715782166 }, "axis_scores": { "Quantum imaging": 0.7347801923751831, "Quantum Life Science Sensing": 0.7304626703262329, "Quantum sensing Detection": 0.7115126848220825, "Quantum sensing Metrology": 0.6940459609031677, "Quantum sensing navigation": 0.7029327750205994, "Quantum sensing Position": 0.7025604844093323, "Quantum sensing Timing": 0.7220265865325928, "Quantum sensing": 0.718855082988739, "Quantum control": 0.6913431882858276 } }, { "id": 5302, "title": "Quantum modeling of nonlinear dynamics of stock prices: Bohmian approach", "abstract": "We use quantum mechanical methods to model the price dynamics in the financial market mathematically. We propose describing behavioral financial factors using the pilot-wave (Bohmian) model of quantum...", "citations": 9, "author_count": 2, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5309, "doi": "10.1007/s11232-007-0104-2", "umap_coordinates": { "x": 394.51373291015625, "y": 137.1883087158203, "z": 206.20016479492188 }, "tsne_coordinates": { "x": -25.227035522460938, "y": 2.180424451828003, "z": 20.75480842590332 }, "pca_coordinates": { "x": 1.8453936576843262, "y": 2.423421621322632, "z": -1.343409776687622 }, "axis_scores": { "Quantum imaging": 0.7619996666908264, "Quantum Life Science Sensing": 0.7566866874694824, "Quantum sensing Detection": 0.7454463243484497, "Quantum sensing Metrology": 0.7461017370223999, "Quantum sensing navigation": 0.7805731296539307, "Quantum sensing Position": 0.7514808773994446, "Quantum sensing Timing": 0.7261853814125061, "Quantum sensing": 0.761646568775177, "Quantum control": 0.77534019947052 } }, { "id": 5303, "title": "Single-Molecular White Emission of Organic Thianthrene-Based Luminophores Exhibiting Efficient Fluorescence and Room Temperature Phosphorescence Induced by Halogen Atoms", "abstract": "Because of the contradiction of the efficiencies of fluorescence (FL) and room temperature phosphorescence (RTP) under ambient conditions, achievement of the molecular design of efficient monomolecula...", "citations": 13, "author_count": 10, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5310, "doi": "10.1021/acssuschemeng.3c04011", "umap_coordinates": { "x": 392.23394775390625, "y": 135.01715087890625, "z": 205.07754516601562 }, "tsne_coordinates": { "x": 3.6323366165161133, "y": 8.16167163848877, "z": -15.580835342407227 }, "pca_coordinates": { "x": -2.8633337020874023, "y": -3.5682873725891113, "z": -0.33817267417907715 }, "axis_scores": { "Quantum imaging": 0.7105419635772705, "Quantum Life Science Sensing": 0.7149145603179932, "Quantum sensing Detection": 0.6991408467292786, "Quantum sensing Metrology": 0.6847844123840332, "Quantum sensing navigation": 0.676628589630127, "Quantum sensing Position": 0.6553884744644165, "Quantum sensing Timing": 0.6964390277862549, "Quantum sensing": 0.7136704921722412, "Quantum control": 0.6868464350700378 } }, { "id": 5304, "title": "Solvent-free synthesis of photoluminescent carbon nanoparticles from lignin-derived monomers as feedstock", "abstract": "Photoluminescent carbon nanoparticles (CNPs), such as carbon dots (CDs), have attracted much attention owing to a unique set of properties, like high and tunable fluorescence. In this way, the use of ...", "citations": 6, "author_count": 9, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5311, "doi": "10.1080/17518253.2023.2196031", "umap_coordinates": { "x": 392.6995544433594, "y": 134.74102783203125, "z": 204.23817443847656 }, "tsne_coordinates": { "x": 26.848407745361328, "y": 12.786452293395996, "z": -12.317017555236816 }, "pca_coordinates": { "x": -3.461047649383545, "y": -0.20450401306152344, "z": -0.8440260887145996 }, "axis_scores": { "Quantum imaging": 0.6298128366470337, "Quantum Life Science Sensing": 0.6772806644439697, "Quantum sensing Detection": 0.623993992805481, "Quantum sensing Metrology": 0.6258801221847534, "Quantum sensing navigation": 0.6304000616073608, "Quantum sensing Position": 0.6194197535514832, "Quantum sensing Timing": 0.6020219922065735, "Quantum sensing": 0.6406859755516052, "Quantum control": 0.6326071619987488 } }, { "id": 5305, "title": "Quantum phases of two-dimensional Z2 gauge theory coupled to single-component fermion matter", "abstract": "We investigate the rich quantum phase diagram of Wegner's theory of discrete Ising gauge fields interacting with U (1) symmetric single-component fermion matter hopping on a two-dimensional square lat...", "citations": 20, "author_count": 5, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5312, "doi": "10.1103/PhysRevB.105.075132", "umap_coordinates": { "x": 394.4849853515625, "y": 136.30198669433594, "z": 208.99403381347656 }, "tsne_coordinates": { "x": -16.275907516479492, "y": -26.30315589904785, "z": 19.79894256591797 }, "pca_coordinates": { "x": 5.31868839263916, "y": -1.4346184730529785, "z": -0.7757381200790405 }, "axis_scores": { "Quantum imaging": 0.7364468574523926, "Quantum Life Science Sensing": 0.7440249919891357, "Quantum sensing Detection": 0.7351117730140686, "Quantum sensing Metrology": 0.7319943904876709, "Quantum sensing navigation": 0.7525988817214966, "Quantum sensing Position": 0.7113009095191956, "Quantum sensing Timing": 0.7228322625160217, "Quantum sensing": 0.7474669814109802, "Quantum control": 0.744653046131134 } }, { "id": 5306, "title": "Integrating biometallurgical recovery of metals with biogenic synthesis of nanoparticles", "abstract": "Industrial activities, such as mining, electroplating, cement production, and metallurgical operations, as well as manufacturing of plastics, fertilizers, pesticides, batteries, dyes or anticorrosive ...", "citations": 41, "author_count": 10, "categories": [ "Environmental Sciences & Ecology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5313, "doi": "10.1016/j.chemosphere.2020.128306", "umap_coordinates": { "x": 393.47979736328125, "y": 134.6983184814453, "z": 204.2940216064453 }, "tsne_coordinates": { "x": 21.0538387298584, "y": 18.956613540649414, "z": 2.1583030223846436 }, "pca_coordinates": { "x": -3.726701021194458, "y": -0.767524003982544, "z": -1.7883102893829346 }, "axis_scores": { "Quantum imaging": 0.7141129374504089, "Quantum Life Science Sensing": 0.7451308369636536, "Quantum sensing Detection": 0.7015405297279358, "Quantum sensing Metrology": 0.7166429162025452, "Quantum sensing navigation": 0.7086014151573181, "Quantum sensing Position": 0.68098384141922, "Quantum sensing Timing": 0.6634532809257507, "Quantum sensing": 0.7167507410049438, "Quantum control": 0.6842368841171265 } }, { "id": 5307, "title": "Transfer printing of nanomaterials and microstructures using a wire bonder", "abstract": "Scalable and cost-efficient transfer of nanomaterials and microstructures from their original fabrication substrate to a new host substrate is a key challenge for realizing heterogeneously integrated ...", "citations": 3, "author_count": 9, "categories": [ "Engineering" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5314, "doi": "10.1088/1361-6439/ab4d1f", "umap_coordinates": { "x": 394.01385498046875, "y": 134.06378173828125, "z": 206.52810668945312 }, "tsne_coordinates": { "x": 7.388803482055664, "y": -24.440872192382812, "z": -27.12778663635254 }, "pca_coordinates": { "x": -1.687326431274414, "y": -0.9180707931518555, "z": 0.916503369808197 }, "axis_scores": { "Quantum imaging": 0.6850148439407349, "Quantum Life Science Sensing": 0.682369589805603, "Quantum sensing Detection": 0.6573960185050964, "Quantum sensing Metrology": 0.6574534177780151, "Quantum sensing navigation": 0.664557933807373, "Quantum sensing Position": 0.6481167078018188, "Quantum sensing Timing": 0.6606119275093079, "Quantum sensing": 0.6861920356750488, "Quantum control": 0.6810882091522217 } }, { "id": 5308, "title": "K+ and Cl- channels/transporters independently fine-tune photosynthesis in plants", "abstract": "In variable light environments, plants adjust light use in photosynthetic electron transport and photoprotective dissipation in the thylakoid membrane. In this respect, roles of the K+/H+ antiporter K...", "citations": 33, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5315, "doi": "10.1038/s41598-019-44972-z", "umap_coordinates": { "x": 393.89141845703125, "y": 136.40875244140625, "z": 203.7189483642578 }, "tsne_coordinates": { "x": 19.413936614990234, "y": 37.34585952758789, "z": 13.00280475616455 }, "pca_coordinates": { "x": -2.748244047164917, "y": -0.7284421920776367, "z": -1.4428846836090088 }, "axis_scores": { "Quantum imaging": 0.7139757871627808, "Quantum Life Science Sensing": 0.7337109446525574, "Quantum sensing Detection": 0.7067041397094727, "Quantum sensing Metrology": 0.6951455473899841, "Quantum sensing navigation": 0.7087858319282532, "Quantum sensing Position": 0.6808218955993652, "Quantum sensing Timing": 0.6711951494216919, "Quantum sensing": 0.733445942401886, "Quantum control": 0.7060161828994751 } }, { "id": 5309, "title": "Construction of Bioactive and Reinforced Bioresorbable Nanocomposites by Reduced Nano-Graphene Oxide Carbon Dots", "abstract": "Bioactive and reinforced poly(epsilon-caprolactone) (PCL) films were constructed by incorporation of cellulose derived reduced nanographene oxide (r-nGO) carbon nano dots. Two different microwave-assi...", "citations": 47, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5316, "doi": "10.1021/acs.biomac.8b00207", "umap_coordinates": { "x": 393.1405944824219, "y": 134.4014129638672, "z": 204.01182556152344 }, "tsne_coordinates": { "x": 26.281478881835938, "y": 24.392181396484375, "z": -1.2905981540679932 }, "pca_coordinates": { "x": -3.9147095680236816, "y": -2.0076756477355957, "z": -2.6546380519866943 }, "axis_scores": { "Quantum imaging": 0.6809772849082947, "Quantum Life Science Sensing": 0.7192324995994568, "Quantum sensing Detection": 0.6727386713027954, "Quantum sensing Metrology": 0.658818781375885, "Quantum sensing navigation": 0.664726197719574, "Quantum sensing Position": 0.6394708156585693, "Quantum sensing Timing": 0.6271905303001404, "Quantum sensing": 0.6898991465568542, "Quantum control": 0.6883037090301514 } }, { "id": 5310, "title": "Transmission spectroscopy of CF4 molecules in intense x-ray fields", "abstract": "The nonlinear interaction of x rays with matter is at the heart of understanding and controlling ultrafast molecular dynamics from an atom-specific viewpoint, providing new scientific and analytical o...", "citations": 5, "author_count": 23, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5317, "doi": "10.1103/PhysRevA.111.012808", "umap_coordinates": { "x": 394.2271423339844, "y": 136.06787109375, "z": 207.4395751953125 }, "tsne_coordinates": { "x": -9.954546928405762, "y": -16.235591888427734, "z": -8.719757080078125 }, "pca_coordinates": { "x": 2.4628634452819824, "y": -0.08804583549499512, "z": -0.32128673791885376 }, "axis_scores": { "Quantum imaging": 0.7263728976249695, "Quantum Life Science Sensing": 0.7309197187423706, "Quantum sensing Detection": 0.7023580074310303, "Quantum sensing Metrology": 0.6816587448120117, "Quantum sensing navigation": 0.6736070513725281, "Quantum sensing Position": 0.655319094657898, "Quantum sensing Timing": 0.6685543060302734, "Quantum sensing": 0.7183271050453186, "Quantum control": 0.6796414256095886 } }, { "id": 5311, "title": "Simulating Terahertz Field-Induced Ferroelectricity in Quantum Paraelectric SrTiO3", "abstract": "Recent experiments have demonstrated that light can induce a transition from the quantum paraelectric to the ferroelectric phase of SrTiO3. Here, we investigate this terahertz field-induced ferroelect...", "citations": 30, "author_count": 9, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5318, "doi": "10.1103/PhysRevLett.129.167401", "umap_coordinates": { "x": 393.54949951171875, "y": 136.3065185546875, "z": 208.28274536132812 }, "tsne_coordinates": { "x": 0.8944045305252075, "y": -33.11830520629883, "z": 15.596663475036621 }, "pca_coordinates": { "x": 2.7825725078582764, "y": -0.5579009056091309, "z": -0.9901572465896606 }, "axis_scores": { "Quantum imaging": 0.7208263278007507, "Quantum Life Science Sensing": 0.7436418533325195, "Quantum sensing Detection": 0.6978679299354553, "Quantum sensing Metrology": 0.7176121473312378, "Quantum sensing navigation": 0.698045551776886, "Quantum sensing Position": 0.6788511276245117, "Quantum sensing Timing": 0.7167011499404907, "Quantum sensing": 0.7232816219329834, "Quantum control": 0.6836084127426147 } }, { "id": 5312, "title": "Direct Transition from Quantum Escape to a Phase Diffusion Regime in YBaCuO Biepitaxial Josephson Junctions", "abstract": "Dissipation encodes the interaction of a quantum system with the environment and regulates the activation regimes of a Brownian particle. We have engineered grain boundary biepitaxial YBaCuO junctions...", "citations": 51, "author_count": 8, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5319, "doi": "10.1103/PhysRevLett.109.050601", "umap_coordinates": { "x": 394.4382629394531, "y": 135.2915802001953, "z": 208.9986572265625 }, "tsne_coordinates": { "x": 0.899726390838623, "y": -21.632110595703125, "z": 12.916240692138672 }, "pca_coordinates": { "x": 4.618564128875732, "y": -1.3114705085754395, "z": 0.1087990403175354 }, "axis_scores": { "Quantum imaging": 0.7250983715057373, "Quantum Life Science Sensing": 0.7205334305763245, "Quantum sensing Detection": 0.7268736362457275, "Quantum sensing Metrology": 0.6905199289321899, "Quantum sensing navigation": 0.7353137135505676, "Quantum sensing Position": 0.7053886651992798, "Quantum sensing Timing": 0.6999350786209106, "Quantum sensing": 0.7267694473266602, "Quantum control": 0.7157794237136841 } }, { "id": 5313, "title": "Feasibility of photon-counting computed tomography as a novel imaging modality for challenging endodontic diagnostic tasks", "abstract": "Photon-counting computed tomography (PCCT) is an innovative technological advancement in relation to x-ray detectors which offers ultra-high-resolution images. The current study aimed to evaluate the ...", "citations": 14, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5320, "doi": "10.1038/s41598-023-33322-9", "umap_coordinates": { "x": 395.08447265625, "y": 132.88858032226562, "z": 204.81622314453125 }, "tsne_coordinates": { "x": -3.1969101428985596, "y": 23.58390998840332, "z": -16.33779525756836 }, "pca_coordinates": { "x": -4.88106107711792, "y": 2.2740349769592285, "z": 3.080925464630127 }, "axis_scores": { "Quantum imaging": 0.7144344449043274, "Quantum Life Science Sensing": 0.7059769630432129, "Quantum sensing Detection": 0.6969943642616272, "Quantum sensing Metrology": 0.6817613840103149, "Quantum sensing navigation": 0.6868876814842224, "Quantum sensing Position": 0.6639459133148193, "Quantum sensing Timing": 0.6617838144302368, "Quantum sensing": 0.6942183375358582, "Quantum control": 0.6231882572174072 } }, { "id": 5314, "title": "Numerical optimization of a RIXS spectrometer using ray-tracing simulations", "abstract": "At Helmholtz-Zentrum Berlin (HZB) the end-station PEAXIS (Photo Electron Analysis and X-ray resonant Inelastic Spectroscopy) combining Angle-dependent X-ray Photoelectron Spectroscopy (AdXPS) and Reso...", "citations": 3, "author_count": 7, "categories": [ "Mathematics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5321, "doi": "10.1088/1742-6596/738/1/012104", "umap_coordinates": { "x": 395.72113037109375, "y": 133.92816162109375, "z": 205.57704162597656 }, "tsne_coordinates": { "x": -18.271289825439453, "y": 11.322673797607422, "z": -30.38081932067871 }, "pca_coordinates": { "x": -1.1939866542816162, "y": 2.235069513320923, "z": 2.3993451595306396 }, "axis_scores": { "Quantum imaging": 0.6966248750686646, "Quantum Life Science Sensing": 0.6806930303573608, "Quantum sensing Detection": 0.6676235198974609, "Quantum sensing Metrology": 0.6743435859680176, "Quantum sensing navigation": 0.7038829922676086, "Quantum sensing Position": 0.6844388246536255, "Quantum sensing Timing": 0.6933957934379578, "Quantum sensing": 0.6867658495903015, "Quantum control": 0.6493533253669739 } }, { "id": 5315, "title": "Twisting, Hydrogen Bonding, Exciplex Formation, and Charge Transfer. What Makes a Bright Fluorophore Not So Bright?", "abstract": "Excited-state charge transfer (CT) and the formation of twisted conformers govern the optical properties of a wide range of dyes. Aminonaphthalimide (ANI) derivatives, popular photosensitizers for blu...", "citations": 3, "author_count": 10, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5322, "doi": "10.1021/acs.joc.5c00492", "umap_coordinates": { "x": 392.1979675292969, "y": 136.12661743164062, "z": 204.7424774169922 }, "tsne_coordinates": { "x": -0.3362884819507599, "y": 0.9012874364852905, "z": -5.341625213623047 }, "pca_coordinates": { "x": -1.6403923034667969, "y": 0.41866421699523926, "z": -3.1702795028686523 }, "axis_scores": { "Quantum imaging": 0.7336693406105042, "Quantum Life Science Sensing": 0.7188075184822083, "Quantum sensing Detection": 0.7005447149276733, "Quantum sensing Metrology": 0.6760377883911133, "Quantum sensing navigation": 0.6944347620010376, "Quantum sensing Position": 0.6834045648574829, "Quantum sensing Timing": 0.6853785514831543, "Quantum sensing": 0.7157899141311646, "Quantum control": 0.7073065042495728 } }, { "id": 5316, "title": "Steroid glycosides isolated from Paris polyphylla var. chinensis aerial parts and paris saponin II induces G1/S-phase MCF-7 cell cycle arrest", "abstract": "In our previous research on Vietnamese medicinal plants, we found that the ethanolic extract of the aerial parts of Paris polyphylla var. chinensis exhibited cytotoxic effects in vitro in the MCF-7 hu...", "citations": 16, "author_count": 11, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5323, "doi": "10.1016/j.carres.2022.108613", "umap_coordinates": { "x": 393.81640625, "y": 136.0371856689453, "z": 203.89117431640625 }, "tsne_coordinates": { "x": 17.712261199951172, "y": 35.98278045654297, "z": 10.713126182556152 }, "pca_coordinates": { "x": -2.971550941467285, "y": 3.4902162551879883, "z": -2.0840954780578613 }, "axis_scores": { "Quantum imaging": 0.6937225461006165, "Quantum Life Science Sensing": 0.7174074649810791, "Quantum sensing Detection": 0.6782628893852234, "Quantum sensing Metrology": 0.6591528654098511, "Quantum sensing navigation": 0.6875513792037964, "Quantum sensing Position": 0.6816473603248596, "Quantum sensing Timing": 0.6740781664848328, "Quantum sensing": 0.6921560764312744, "Quantum control": 0.7069944143295288 } }, { "id": 5317, "title": "Two-Step Spin Crossover in Hofmann-Type Coordination Polymers [Fe(2-phenylpyrazine)2{M(CN)2}2] (M = Ag, Au)", "abstract": "Two 2D Hofmann-type complexes of the composition [Fe(Phpz)2{M(CN)(2)}(2)] (where Phpz = 2-phenylpyrazine; M = Ag, Au) have been synthesized, and their spin-crossover (SCO) behavior has been thoroughly...", "citations": 20, "author_count": 9, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5324, "doi": "10.1021/acs.inorgchem.1c03302", "umap_coordinates": { "x": 391.7706604003906, "y": 136.14187622070312, "z": 205.3935546875 }, "tsne_coordinates": { "x": 9.28917407989502, "y": 6.889194965362549, "z": -2.4906182289123535 }, "pca_coordinates": { "x": -0.7446923851966858, "y": -1.0051631927490234, "z": -3.454216957092285 }, "axis_scores": { "Quantum imaging": 0.7231979370117188, "Quantum Life Science Sensing": 0.7366524338722229, "Quantum sensing Detection": 0.7343739867210388, "Quantum sensing Metrology": 0.7230846881866455, "Quantum sensing navigation": 0.7094177007675171, "Quantum sensing Position": 0.7106326818466187, "Quantum sensing Timing": 0.6994299292564392, "Quantum sensing": 0.7418394088745117, "Quantum control": 0.700614333152771 } }, { "id": 5318, "title": "Presence of Maximal Characteristic Time in Photoluminescence Blinking of MAPbI3 Perovskite", "abstract": "Photoluminescence (PL) blinking is a common phenomenon in nanostructured semiconductors associated with charge trapping and defect dynamics. PL blinking kinetics exhibit very broadly distributed times...", "citations": 13, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5325, "doi": "10.1002/aenm.202102449", "umap_coordinates": { "x": 392.99383544921875, "y": 134.88478088378906, "z": 205.648681640625 }, "tsne_coordinates": { "x": 29.018207550048828, "y": 3.0288684368133545, "z": 27.43504524230957 }, "pca_coordinates": { "x": -2.4141407012939453, "y": 0.012651681900024414, "z": -0.9741963744163513 }, "axis_scores": { "Quantum imaging": 0.6910808086395264, "Quantum Life Science Sensing": 0.6988915205001831, "Quantum sensing Detection": 0.6749954223632812, "Quantum sensing Metrology": 0.6824705004692078, "Quantum sensing navigation": 0.6572045087814331, "Quantum sensing Position": 0.6940149068832397, "Quantum sensing Timing": 0.7110660672187805, "Quantum sensing": 0.6751194000244141, "Quantum control": 0.6417381763458252 } }, { "id": 5319, "title": "Control and understanding of kink formation in InAs-InP heterostructure nanowires", "abstract": "Nanowire heterostructures are of special interest for band structure engineering due to an expanded range of defect-free material combinations. However, the higher degree of freedom in nanowire hetero...", "citations": 21, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5326, "doi": "10.1088/0957-4484/24/34/345601", "umap_coordinates": { "x": 392.35821533203125, "y": 134.54693603515625, "z": 208.2039794921875 }, "tsne_coordinates": { "x": 24.456161499023438, "y": -16.211193084716797, "z": 8.850079536437988 }, "pca_coordinates": { "x": 1.5745017528533936, "y": -2.01101016998291, "z": 0.3959725499153137 }, "axis_scores": { "Quantum imaging": 0.7047416567802429, "Quantum Life Science Sensing": 0.6934455633163452, "Quantum sensing Detection": 0.6873016953468323, "Quantum sensing Metrology": 0.6915561556816101, "Quantum sensing navigation": 0.7295075058937073, "Quantum sensing Position": 0.6850431561470032, "Quantum sensing Timing": 0.6726049780845642, "Quantum sensing": 0.7077754735946655, "Quantum control": 0.7058995366096497 } }, { "id": 5320, "title": "Dynamic light scattering study of 1-naphthylacetic acid polymeric derivative, a novel plant hormone", "abstract": "This paper describes the dynamics of new slow release formulations of plant growth regulator (PGR) 1-naphthylacetic acid (NAA) in aqueous solution. The new PGR formulations are water-soluble copolymer...", "citations": 11, "author_count": 5, "categories": [ "Polymer Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5327, "doi": "10.1016/S0032-3861(97)10325-1", "umap_coordinates": { "x": 393.388916015625, "y": 135.41412353515625, "z": 204.91302490234375 }, "tsne_coordinates": { "x": 13.218963623046875, "y": 15.919929504394531, "z": 16.205060958862305 }, "pca_coordinates": { "x": -3.3217883110046387, "y": 0.8364434242248535, "z": -0.8236465454101562 }, "axis_scores": { "Quantum imaging": 0.6797284483909607, "Quantum Life Science Sensing": 0.7034884691238403, "Quantum sensing Detection": 0.6657968163490295, "Quantum sensing Metrology": 0.6406487226486206, "Quantum sensing navigation": 0.6788588762283325, "Quantum sensing Position": 0.6655085682868958, "Quantum sensing Timing": 0.6360878944396973, "Quantum sensing": 0.6795892119407654, "Quantum control": 0.6632134318351746 } }, { "id": 5321, "title": "ENHANCED DOUBLE-QUANTUM NUCLEAR-MAGNETIC-RESONANCE IN SPINNING SOLIDS AT ROTATIONAL RESONANCE", "abstract": "The excitation efficiency of double-quantum (2Q) coherences between pairs of spin-1/2 nuclei in rotating powdered solids is greatly enhanced at rotational resonance, where an integer multiple of the s...", "citations": 64, "author_count": 5, "categories": [ "Chemistry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5328, "doi": "10.1063/1.462666", "umap_coordinates": { "x": 392.88714599609375, "y": 135.8699951171875, "z": 207.88714599609375 }, "tsne_coordinates": { "x": 12.084779739379883, "y": 3.0059080123901367, "z": 35.464637756347656 }, "pca_coordinates": { "x": 1.4656822681427002, "y": -0.801738977432251, "z": -1.2358129024505615 }, "axis_scores": { "Quantum imaging": 0.732694685459137, "Quantum Life Science Sensing": 0.7206810116767883, "Quantum sensing Detection": 0.7110253572463989, "Quantum sensing Metrology": 0.71095210313797, "Quantum sensing navigation": 0.6889483332633972, "Quantum sensing Position": 0.6778364181518555, "Quantum sensing Timing": 0.6762262582778931, "Quantum sensing": 0.7329402565956116, "Quantum control": 0.7022311687469482 } }, { "id": 5322, "title": "Hamiltonian Inference from Dynamical Excitations in Confined Quantum Magnets", "abstract": "Quantum-disordered models provide a versatile platform to explore the emergence of quantum excitations in many-body systems. The engineering of spin models at the atomic scale with scanning tunneling ...", "citations": 8, "author_count": 7, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5329, "doi": "10.1103/PhysRevApplied.20.024054", "umap_coordinates": { "x": 394.645751953125, "y": 136.79293823242188, "z": 208.99172973632812 }, "tsne_coordinates": { "x": -12.99500846862793, "y": -28.500659942626953, "z": 11.566230773925781 }, "pca_coordinates": { "x": 6.774059772491455, "y": 0.7115691900253296, "z": -2.148165702819824 }, "axis_scores": { "Quantum imaging": 0.7207335829734802, "Quantum Life Science Sensing": 0.7249353528022766, "Quantum sensing Detection": 0.7301784157752991, "Quantum sensing Metrology": 0.7014815211296082, "Quantum sensing navigation": 0.7364206314086914, "Quantum sensing Position": 0.6951888203620911, "Quantum sensing Timing": 0.6864237785339355, "Quantum sensing": 0.7343466877937317, "Quantum control": 0.7117669582366943 } }, { "id": 5323, "title": "Metal-Free SeBN Ternary-Doped Porous Carbon as Efficient Electrocatalysts for CO2 Reduction Reaction", "abstract": "Cost-effective heteroatom-doped porous carbons are considered promising electrocatalysts for CO2 reduction reaction (CO2RR). Traditionally porous carbons with N doping or N/X codoping (X denotes the s...", "citations": 27, "author_count": 8, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5330, "doi": "10.1021/acsaem.2c01201", "umap_coordinates": { "x": 392.019287109375, "y": 133.89312744140625, "z": 204.95513916015625 }, "tsne_coordinates": { "x": 20.321529388427734, "y": 1.6761010885238647, "z": -9.045578956604004 }, "pca_coordinates": { "x": -2.3387374877929688, "y": -3.705409526824951, "z": -1.354609727859497 }, "axis_scores": { "Quantum imaging": 0.6743627786636353, "Quantum Life Science Sensing": 0.7040473222732544, "Quantum sensing Detection": 0.6888453960418701, "Quantum sensing Metrology": 0.6791946291923523, "Quantum sensing navigation": 0.6785227656364441, "Quantum sensing Position": 0.6491730809211731, "Quantum sensing Timing": 0.6430460810661316, "Quantum sensing": 0.6960195899009705, "Quantum control": 0.6578891277313232 } }, { "id": 5324, "title": "Carbon nanodots: a metal-free, easy-to-synthesize, and benign emitter for light-emitting electrochemical cells", "abstract": "Light-emitting electrochemical cells (LECs) can be fabricated with cost-efficient printing and coating methods, but a current drawback is that the LEC emitter is commonly either a rare-metal complex o...", "citations": 23, "author_count": 9, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5331, "doi": "10.1007/s12274-022-4126-8", "umap_coordinates": { "x": 392.3236389160156, "y": 133.32766723632812, "z": 205.10098266601562 }, "tsne_coordinates": { "x": 22.23793601989746, "y": 9.280288696289062, "z": -12.326929092407227 }, "pca_coordinates": { "x": -4.544964790344238, "y": -2.220334529876709, "z": -0.483065128326416 }, "axis_scores": { "Quantum imaging": 0.6614476442337036, "Quantum Life Science Sensing": 0.7006543278694153, "Quantum sensing Detection": 0.6755788326263428, "Quantum sensing Metrology": 0.6620787978172302, "Quantum sensing navigation": 0.6680923700332642, "Quantum sensing Position": 0.6605594754219055, "Quantum sensing Timing": 0.6445688009262085, "Quantum sensing": 0.6848646998405457, "Quantum control": 0.6642941236495972 } }, { "id": 5325, "title": "Lighting up solid states using a rubber", "abstract": "It is crucial and desirable to develop green and high-efficient strategies to regulate solid-state structures and their related material properties. However, relative to solution, it is more difficult...", "citations": 35, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5332, "doi": "10.1038/s41467-021-21253-w", "umap_coordinates": { "x": 393.2760925292969, "y": 135.40597534179688, "z": 205.75404357910156 }, "tsne_coordinates": { "x": -6.434394359588623, "y": -0.3059821128845215, "z": -4.66793155670166 }, "pca_coordinates": { "x": -2.580672264099121, "y": 0.9215073585510254, "z": 0.19983190298080444 }, "axis_scores": { "Quantum imaging": 0.6973533034324646, "Quantum Life Science Sensing": 0.7197357416152954, "Quantum sensing Detection": 0.6969954967498779, "Quantum sensing Metrology": 0.6818863749504089, "Quantum sensing navigation": 0.6840481162071228, "Quantum sensing Position": 0.6837449073791504, "Quantum sensing Timing": 0.6822819709777832, "Quantum sensing": 0.7177895903587341, "Quantum control": 0.6857360005378723 } }, { "id": 5326, "title": "A NUMERICAL ALGORITHM FOR C2-SPLINES ON SYMMETRIC SPACES", "abstract": "Cubic spline interpolation on Euclidean space is a standard topic in numerical analysis, with countless applications in science and technology. In several emerging fields, for example, computer vision...", "citations": 10, "author_count": 4, "categories": [ "Mathematics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5333, "doi": "10.1137/17M1123353", "umap_coordinates": { "x": 393.8998107910156, "y": 137.2891387939453, "z": 206.03221130371094 }, "tsne_coordinates": { "x": 0.40087172389030457, "y": 8.314689636230469, "z": 23.957502365112305 }, "pca_coordinates": { "x": -0.1203833818435669, "y": 2.0944793224334717, "z": 0.049464643001556396 }, "axis_scores": { "Quantum imaging": 0.6739535927772522, "Quantum Life Science Sensing": 0.6553836464881897, "Quantum sensing Detection": 0.6730256676673889, "Quantum sensing Metrology": 0.6782830953598022, "Quantum sensing navigation": 0.6988533735275269, "Quantum sensing Position": 0.6674908995628357, "Quantum sensing Timing": 0.6721234321594238, "Quantum sensing": 0.6839170455932617, "Quantum control": 0.6848617196083069 } }, { "id": 5327, "title": "Spectroscopy-based photonic instrumentation for the manufacturing industry: contactless measurement of distance, temperature and chemical composition", "abstract": "The steady progress in photonic components in terms of cost-to-performance ratio, maturity and robustness opens new avenues for the commercial deployment of photonic sensor systems in a wide range of ...", "citations": 1, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5334, "doi": "10.1117/12.2037961", "umap_coordinates": { "x": 394.6947021484375, "y": 133.5822296142578, "z": 206.13934326171875 }, "tsne_coordinates": { "x": -0.9780275225639343, "y": 9.859110832214355, "z": -30.039073944091797 }, "pca_coordinates": { "x": -2.3377156257629395, "y": 0.2503340244293213, "z": 2.955763339996338 }, "axis_scores": { "Quantum imaging": 0.7500892877578735, "Quantum Life Science Sensing": 0.7768228054046631, "Quantum sensing Detection": 0.7728261351585388, "Quantum sensing Metrology": 0.7944790720939636, "Quantum sensing navigation": 0.757979154586792, "Quantum sensing Position": 0.7713715434074402, "Quantum sensing Timing": 0.7521935105323792, "Quantum sensing": 0.7819026112556458, "Quantum control": 0.7167034149169922 } }, { "id": 5328, "title": "Effects of dynamical screening on the BCS-BEC crossover in double bilayer graphene: Density functional theory for exciton bilayers", "abstract": "We derive a gap equation for bilayer excitonic systems based on density functional theory and benchmark our results against quantum Monte Carlo simulations and recent experiments on double bilayer gra...", "citations": 6, "author_count": 3, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5335, "doi": "10.1103/PhysRevMaterials.5.L050801", "umap_coordinates": { "x": 393.7560119628906, "y": 135.45437622070312, "z": 209.07546997070312 }, "tsne_coordinates": { "x": -2.341740131378174, "y": -28.226119995117188, "z": 10.471475601196289 }, "pca_coordinates": { "x": 2.8475775718688965, "y": -3.222566604614258, "z": -1.9396145343780518 }, "axis_scores": { "Quantum imaging": 0.6985364556312561, "Quantum Life Science Sensing": 0.7255455851554871, "Quantum sensing Detection": 0.6989864110946655, "Quantum sensing Metrology": 0.681195080280304, "Quantum sensing navigation": 0.6930692195892334, "Quantum sensing Position": 0.6769066452980042, "Quantum sensing Timing": 0.6616734266281128, "Quantum sensing": 0.7068436741828918, "Quantum control": 0.671570897102356 } }, { "id": 5329, "title": "Quasimolecular J tet=3/2 Moments in the Cluster Mott Insulator GaTa4Se8", "abstract": "Quasimolecular orbitals in cluster Mott insulators provide a route to tailor exchange interactions, which may yield novel quantum phases of matter. We demonstrate the cluster Mott character of the lac...", "citations": 6, "author_count": 12, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5336, "doi": "10.1103/PhysRevLett.133.046501", "umap_coordinates": { "x": 393.8628845214844, "y": 136.72723388671875, "z": 208.3828125 }, "tsne_coordinates": { "x": -4.565959930419922, "y": -26.747278213500977, "z": 21.791810989379883 }, "pca_coordinates": { "x": 4.6034255027771, "y": -0.9188580513000488, "z": -2.7359344959259033 }, "axis_scores": { "Quantum imaging": 0.7024341821670532, "Quantum Life Science Sensing": 0.6954801678657532, "Quantum sensing Detection": 0.6945780515670776, "Quantum sensing Metrology": 0.6902025938034058, "Quantum sensing navigation": 0.6991977095603943, "Quantum sensing Position": 0.6847525835037231, "Quantum sensing Timing": 0.6958821415901184, "Quantum sensing": 0.7073163390159607, "Quantum control": 0.6844788193702698 } }, { "id": 5330, "title": "Influence of imperfections on the dynamical response in model quantum cellular automata", "abstract": "The time-dependent behavior of quantum cellular automata (QCA) with imperfections is examined. We have studied a chain of quantum cells with the imperfections introduced by (i) variations of intercell...", "citations": 14, "author_count": 5, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5337, "doi": "10.1063/1.370163", "umap_coordinates": { "x": 394.01190185546875, "y": 136.43215942382812, "z": 208.34840393066406 }, "tsne_coordinates": { "x": 27.92943000793457, "y": -29.142501831054688, "z": 7.41184663772583 }, "pca_coordinates": { "x": 3.9209275245666504, "y": 0.6913431882858276, "z": -0.9193159341812134 }, "axis_scores": { "Quantum imaging": 0.7630103826522827, "Quantum Life Science Sensing": 0.7613018751144409, "Quantum sensing Detection": 0.7673318386077881, "Quantum sensing Metrology": 0.7551831007003784, "Quantum sensing navigation": 0.769433319568634, "Quantum sensing Position": 0.7440637946128845, "Quantum sensing Timing": 0.7398543357849121, "Quantum sensing": 0.781425416469574, "Quantum control": 0.7820680141448975 } }, { "id": 5331, "title": "Electroluminescent cooling in intracavity light emitters: modeling and experiments", "abstract": "We develop a coupled electronic charge and photon transport simulation model to allow for deeper analysis of our recent experimental studies of intracavity double diode structures (DDSs). The studied ...", "citations": 19, "author_count": 7, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5338, "doi": "10.1007/s11082-017-1285-z", "umap_coordinates": { "x": 394.46295166015625, "y": 134.99862670898438, "z": 205.81988525390625 }, "tsne_coordinates": { "x": -17.100427627563477, "y": 10.627586364746094, "z": 3.4273715019226074 }, "pca_coordinates": { "x": -0.4830535650253296, "y": 0.9359877109527588, "z": 0.5998527407646179 }, "axis_scores": { "Quantum imaging": 0.703420102596283, "Quantum Life Science Sensing": 0.6804223656654358, "Quantum sensing Detection": 0.6734919548034668, "Quantum sensing Metrology": 0.678370475769043, "Quantum sensing navigation": 0.6815900206565857, "Quantum sensing Position": 0.6530730724334717, "Quantum sensing Timing": 0.6549038887023926, "Quantum sensing": 0.6819974780082703, "Quantum control": 0.6826339364051819 } }, { "id": 5332, "title": "Azimuthal anisotropy in S+Au reactions at 200 A GeV", "abstract": "Azimuthal correlations of photons produced at mid-rapidity in 200 A GeV S + Au collisions have been studied using a preshower photon multiplicity detector in the WA93 experiment. The Fourier expansion...", "citations": 36, "author_count": 91, "categories": [ "Astronomy & Astrophysics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5339, "doi": "10.1016/S0370-2693(97)00566-2", "umap_coordinates": { "x": 395.9626159667969, "y": 134.58241271972656, "z": 206.9904327392578 }, "tsne_coordinates": { "x": -34.768028259277344, "y": 0.8926853537559509, "z": -9.876082420349121 }, "pca_coordinates": { "x": -0.6919236779212952, "y": 0.31653738021850586, "z": -0.20777666568756104 }, "axis_scores": { "Quantum imaging": 0.6927987337112427, "Quantum Life Science Sensing": 0.6830006241798401, "Quantum sensing Detection": 0.6819643974304199, "Quantum sensing Metrology": 0.6778561472892761, "Quantum sensing navigation": 0.7098608016967773, "Quantum sensing Position": 0.7118047475814819, "Quantum sensing Timing": 0.6992771029472351, "Quantum sensing": 0.6994171738624573, "Quantum control": 0.6751413941383362 } }, { "id": 5333, "title": "Theory of nuclear motion in RABBITT spectra", "abstract": "Reconstruction of attosecond beating by interference of two-photon transitions (RABBITT) is a powerful photoelectron spectroscopy, offering direct access to internal dynamics of the target. It is bein...", "citations": 10, "author_count": 5, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5340, "doi": "10.1103/PhysRevA.107.043105", "umap_coordinates": { "x": 393.9703063964844, "y": 136.9627227783203, "z": 207.72540283203125 }, "tsne_coordinates": { "x": -22.0667667388916, "y": -12.929961204528809, "z": 15.444741249084473 }, "pca_coordinates": { "x": 3.408273696899414, "y": 2.537252426147461, "z": -0.9743611812591553 }, "axis_scores": { "Quantum imaging": 0.7037721872329712, "Quantum Life Science Sensing": 0.7198441028594971, "Quantum sensing Detection": 0.6883747577667236, "Quantum sensing Metrology": 0.6684097647666931, "Quantum sensing navigation": 0.7122276425361633, "Quantum sensing Position": 0.6792449951171875, "Quantum sensing Timing": 0.6966214776039124, "Quantum sensing": 0.6900007724761963, "Quantum control": 0.683057963848114 } }, { "id": 5334, "title": "Impurity states in coupled quantum wires in magnetic field", "abstract": "The spectrum of impurity states in a system of two parallel quantum wires coupled by tunneling in an external magnetic field is investigated theoretically. The problem of poles of the T matrix of scat...", "citations": 11, "author_count": 3, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5341, "doi": "10.1016/S0375-9601(97)00433-7", "umap_coordinates": { "x": 393.1253662109375, "y": 135.5616912841797, "z": 208.03123474121094 }, "tsne_coordinates": { "x": 9.406547546386719, "y": -18.252059936523438, "z": 14.610652923583984 }, "pca_coordinates": { "x": 2.393742084503174, "y": -1.8830552101135254, "z": -0.7163605690002441 }, "axis_scores": { "Quantum imaging": 0.715465247631073, "Quantum Life Science Sensing": 0.702987790107727, "Quantum sensing Detection": 0.7041867971420288, "Quantum sensing Metrology": 0.6966562271118164, "Quantum sensing navigation": 0.7171328067779541, "Quantum sensing Position": 0.7061764597892761, "Quantum sensing Timing": 0.6894533634185791, "Quantum sensing": 0.716498613357544, "Quantum control": 0.6891002058982849 } }, { "id": 5335, "title": "Electronic g factor in biased quantum wells", "abstract": "A theory of the Zeeman splitting of electronic spin states in biased quantum-well structures has been developed. The g factor tensor has been calculated as a function of the applied electric field and...", "citations": 92, "author_count": 4, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5342, "doi": "10.1016/S0038-1098(97)00009-4", "umap_coordinates": { "x": 393.2657775878906, "y": 135.14794921875, "z": 207.04518127441406 }, "tsne_coordinates": { "x": 14.324275016784668, "y": -10.514742851257324, "z": 23.189199447631836 }, "pca_coordinates": { "x": 1.1020445823669434, "y": -1.0357484817504883, "z": -0.7032736539840698 }, "axis_scores": { "Quantum imaging": 0.7103819847106934, "Quantum Life Science Sensing": 0.7287639379501343, "Quantum sensing Detection": 0.7041072845458984, "Quantum sensing Metrology": 0.6996150016784668, "Quantum sensing navigation": 0.7390446662902832, "Quantum sensing Position": 0.716482400894165, "Quantum sensing Timing": 0.6892179250717163, "Quantum sensing": 0.7189590334892273, "Quantum control": 0.7007384300231934 } }, { "id": 5336, "title": "Electrochemical molecularly imprinted polymer sensors in viral diagnostics: Innovations, challenges and case studies", "abstract": "Molecularly imprinted polymers (MIPs) are synthetic equivalent of antibodies and have been widely used in electrochemical sensing as recognition elements. They offer advantages over traditional recogn...", "citations": 5, "author_count": 5, "categories": [ "Biophysics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5343, "doi": "10.1016/j.bios.2025.117678", "umap_coordinates": { "x": 393.57269287109375, "y": 133.95350646972656, "z": 204.45327758789062 }, "tsne_coordinates": { "x": 23.373876571655273, "y": 22.542430877685547, "z": -9.828287124633789 }, "pca_coordinates": { "x": -4.60575532913208, "y": 0.12955522537231445, "z": 0.24300259351730347 }, "axis_scores": { "Quantum imaging": 0.7064807415008545, "Quantum Life Science Sensing": 0.7424020767211914, "Quantum sensing Detection": 0.7094560861587524, "Quantum sensing Metrology": 0.6937164068222046, "Quantum sensing navigation": 0.684821605682373, "Quantum sensing Position": 0.688409686088562, "Quantum sensing Timing": 0.6641625165939331, "Quantum sensing": 0.7073293924331665, "Quantum control": 0.6752172708511353 } }, { "id": 5337, "title": "Rydberg excitons in Cu2O microcrystals grown on a silicon platform", "abstract": "Cuprous oxide (Cu2O) is a semiconductor with large exciton binding energy and significant technological importance in applications such as photovoltaics and solar water splitting. It is also a superio...", "citations": 53, "author_count": 8, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5344, "doi": "10.1038/s43246-020-0013-6", "umap_coordinates": { "x": 393.4548034667969, "y": 134.53598022460938, "z": 206.48451232910156 }, "tsne_coordinates": { "x": 6.326772212982178, "y": -14.330679893493652, "z": -22.44580078125 }, "pca_coordinates": { "x": -1.535844326019287, "y": -1.7983603477478027, "z": 0.1423986554145813 }, "axis_scores": { "Quantum imaging": 0.7189931869506836, "Quantum Life Science Sensing": 0.7187654376029968, "Quantum sensing Detection": 0.7152550220489502, "Quantum sensing Metrology": 0.7094725370407104, "Quantum sensing navigation": 0.7057925462722778, "Quantum sensing Position": 0.69869065284729, "Quantum sensing Timing": 0.6975200176239014, "Quantum sensing": 0.7220603227615356, "Quantum control": 0.698424756526947 } }, { "id": 5338, "title": "Construction of a Pre-Clinical High Resolution Tomographic Scintillation Camera System", "abstract": "We are constructing a High Resolution Tomographic Scintillation Camera System for small animal imaging. The system consists of a CsI(Tl) scintillator coupled to a military surplus image intensifier wi...", "citations": 1, "author_count": 6, "categories": [ "Engineering" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5345, "doi": "10.1109/NSSMIC.2009.5401853", "umap_coordinates": { "x": 395.29931640625, "y": 132.7859649658203, "z": 205.37506103515625 }, "tsne_coordinates": { "x": -16.126270294189453, "y": 21.125320434570312, "z": -17.749479293823242 }, "pca_coordinates": { "x": -2.174321174621582, "y": 3.780930519104004, "z": 3.4282450675964355 }, "axis_scores": { "Quantum imaging": 0.7298124432563782, "Quantum Life Science Sensing": 0.7359802722930908, "Quantum sensing Detection": 0.7228832244873047, "Quantum sensing Metrology": 0.7229200601577759, "Quantum sensing navigation": 0.714260995388031, "Quantum sensing Position": 0.6948049068450928, "Quantum sensing Timing": 0.7220751047134399, "Quantum sensing": 0.7246565818786621, "Quantum control": 0.6674196720123291 } }, { "id": 5339, "title": "Pyrromethene dyes (BODIPY) can form ground state homo and hetero dimers: Photophysics and spectral properties", "abstract": "Homo and hetero dimerisation of two spectroscopically different BODIPY chromophores was studied, namely, 4,4-difluoro-4-bora-3a,4a-diazas-indacene and its 5-styryl-derivative. These exhibit very simil...", "citations": 42, "author_count": 6, "categories": [ "Spectroscopy" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5346, "doi": "10.1016/j.saa.2005.09.035", "umap_coordinates": { "x": 392.9297180175781, "y": 135.48785400390625, "z": 205.04434204101562 }, "tsne_coordinates": { "x": 5.173892974853516, "y": 12.408982276916504, "z": -1.1595721244812012 }, "pca_coordinates": { "x": -2.5717790126800537, "y": -1.5487656593322754, "z": -1.3698391914367676 }, "axis_scores": { "Quantum imaging": 0.7364514470100403, "Quantum Life Science Sensing": 0.7608699202537537, "Quantum sensing Detection": 0.7268753051757812, "Quantum sensing Metrology": 0.7095063328742981, "Quantum sensing navigation": 0.6901721954345703, "Quantum sensing Position": 0.686457633972168, "Quantum sensing Timing": 0.6667787432670593, "Quantum sensing": 0.7452561259269714, "Quantum control": 0.698096752166748 } }, { "id": 5340, "title": "PROTON DELOCALIZATION AND THERMALLY ACTIVATED QUANTUM CORRELATIONS IN WATER - COMPLEX SCALING AND NEW EXPERIMENTAL RESULTS", "abstract": "Recently we applied, for the first time, the general theory of dilation analyticity (or: Complex Scaling Method, CSM) to quantum statistics of nonequilibrium. A novel kind of (universal) coherence was...", "citations": 23, "author_count": 3, "categories": [ "Chemistry" ], "year": 1991, "topic": [ "all" ], "embedding_index": 5347, "doi": "10.1002/bbpc.19910950309", "umap_coordinates": { "x": 393.5784606933594, "y": 137.08152770996094, "z": 205.5631103515625 }, "tsne_coordinates": { "x": 8.043885231018066, "y": 14.306565284729004, "z": 26.88265609741211 }, "pca_coordinates": { "x": 0.4201064109802246, "y": 2.321841239929199, "z": -2.182284116744995 }, "axis_scores": { "Quantum imaging": 0.698111891746521, "Quantum Life Science Sensing": 0.7311288714408875, "Quantum sensing Detection": 0.698116660118103, "Quantum sensing Metrology": 0.6942183971405029, "Quantum sensing navigation": 0.7112632989883423, "Quantum sensing Position": 0.6861470341682434, "Quantum sensing Timing": 0.6742300987243652, "Quantum sensing": 0.7108361721038818, "Quantum control": 0.6883814334869385 } }, { "id": 5341, "title": "Optical reflectance tomography using TCSPC laser radar", "abstract": "Tomographic signal processing is used to transform multiple one-dimensional range profiles of a target from different angles to a two-dimensional image of the object. The range profiles are measured b...", "citations": 13, "author_count": 6, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5348, "doi": "10.1117/12.974493", "umap_coordinates": { "x": 395.033203125, "y": 133.24179077148438, "z": 206.2356414794922 }, "tsne_coordinates": { "x": -4.0779266357421875, "y": 10.583839416503906, "z": -30.822553634643555 }, "pca_coordinates": { "x": -2.9244160652160645, "y": 0.6044257879257202, "z": 3.3835816383361816 }, "axis_scores": { "Quantum imaging": 0.7144622802734375, "Quantum Life Science Sensing": 0.7085906267166138, "Quantum sensing Detection": 0.7164480090141296, "Quantum sensing Metrology": 0.7081236839294434, "Quantum sensing navigation": 0.6978591680526733, "Quantum sensing Position": 0.684776246547699, "Quantum sensing Timing": 0.7123662829399109, "Quantum sensing": 0.715564489364624, "Quantum control": 0.6708760261535645 } }, { "id": 5342, "title": "Density Functional Theory Analysis of the Impact of Boron Concentration and Surface Oxidation in Boron-Doped Graphene for Sodium and Aluminum Storage", "abstract": "Graphene is thought to be a promising material for many applications. However, pristine graphene is not suitable for most electrochemical devices, where defect engineering is crucial for its performan...", "citations": 2, "author_count": 5, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5349, "doi": "10.3390/c9040092", "umap_coordinates": { "x": 393.7739562988281, "y": 135.39373779296875, "z": 204.98715209960938 }, "tsne_coordinates": { "x": 25.652629852294922, "y": 13.0860595703125, "z": 9.854866027832031 }, "pca_coordinates": { "x": -0.609916627407074, "y": -0.6508469581604004, "z": -2.5979275703430176 }, "axis_scores": { "Quantum imaging": 0.6903793811798096, "Quantum Life Science Sensing": 0.7352856993675232, "Quantum sensing Detection": 0.7025478482246399, "Quantum sensing Metrology": 0.6959232687950134, "Quantum sensing navigation": 0.705522894859314, "Quantum sensing Position": 0.6954631805419922, "Quantum sensing Timing": 0.6562737226486206, "Quantum sensing": 0.7127736806869507, "Quantum control": 0.6890124082565308 } }, { "id": 5343, "title": "Against Identification of Contextuality with Violation of the Bell Inequalities: Lessons from Theory of Randomness", "abstract": "Nowadays, contextuality is the hottest topic of quantum foundations and, especially, foundations of quantum information theory. This notion is characterized by the huge diversity of approaches and int...", "citations": 2, "author_count": 2, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5350, "doi": "10.1007/s10946-022-10022-9", "umap_coordinates": { "x": 395.7525634765625, "y": 137.37625122070312, "z": 206.2445068359375 }, "tsne_coordinates": { "x": -22.1245059967041, "y": 3.0247750282287598, "z": 8.90045166015625 }, "pca_coordinates": { "x": 0.07823574542999268, "y": 5.142035484313965, "z": -0.10652202367782593 }, "axis_scores": { "Quantum imaging": 0.6848489046096802, "Quantum Life Science Sensing": 0.6981962323188782, "Quantum sensing Detection": 0.705147385597229, "Quantum sensing Metrology": 0.6879913210868835, "Quantum sensing navigation": 0.7251389026641846, "Quantum sensing Position": 0.7101175785064697, "Quantum sensing Timing": 0.7258878946304321, "Quantum sensing": 0.7080497741699219, "Quantum control": 0.6942014694213867 } }, { "id": 5344, "title": "Effects of thermal annealing on localization and strain in core/multishell GaAs/GaNAs/GaAs nanowires", "abstract": "Core/shell nanowire (NW) heterostructures based on III-V semiconductors and related alloys are attractive for optoelectronic and photonic applications owing to the ability to modify their electronic s...", "citations": 17, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5351, "doi": "10.1038/s41598-020-64958-6", "umap_coordinates": { "x": 392.4178161621094, "y": 134.08908081054688, "z": 207.78602600097656 }, "tsne_coordinates": { "x": 26.16585922241211, "y": -21.959487915039062, "z": 9.159843444824219 }, "pca_coordinates": { "x": -1.2857565879821777, "y": -3.029232978820801, "z": 1.1573584079742432 }, "axis_scores": { "Quantum imaging": 0.6921085119247437, "Quantum Life Science Sensing": 0.6804442405700684, "Quantum sensing Detection": 0.6778699159622192, "Quantum sensing Metrology": 0.680072009563446, "Quantum sensing navigation": 0.6986856460571289, "Quantum sensing Position": 0.7127842903137207, "Quantum sensing Timing": 0.7000102400779724, "Quantum sensing": 0.6937733888626099, "Quantum control": 0.6627413630485535 } }, { "id": 5345, "title": "Semiclassical analysis of dark-state transient dynamics in waveguide circuit QED", "abstract": "The interaction between superconducting qubits and one-dimensional microwave transmission lines has been studied experimentally and theoretically in the past two decades. In this work, we investigate ...", "citations": 6, "author_count": 4, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5352, "doi": "10.1103/PhysRevA.101.033801", "umap_coordinates": { "x": 394.7591552734375, "y": 136.36070251464844, "z": 207.9320831298828 }, "tsne_coordinates": { "x": -7.878663063049316, "y": -10.809712409973145, "z": 9.579276084899902 }, "pca_coordinates": { "x": 4.687839508056641, "y": 0.2658562660217285, "z": -0.5686360597610474 }, "axis_scores": { "Quantum imaging": 0.7284978032112122, "Quantum Life Science Sensing": 0.7351250052452087, "Quantum sensing Detection": 0.7316508293151855, "Quantum sensing Metrology": 0.6972704529762268, "Quantum sensing navigation": 0.7349528670310974, "Quantum sensing Position": 0.6904688477516174, "Quantum sensing Timing": 0.69888836145401, "Quantum sensing": 0.7219065427780151, "Quantum control": 0.7059369087219238 } }, { "id": 5346, "title": "Dynamically Induced Excitonic Instability in Pumped Dirac Materials", "abstract": "Driven and non-equilibrium quantum states of matter have attracted growing interest in both theoretical and experimental studies in condensed matter physics. Recent progress in realizing transient col...", "citations": 10, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5353, "doi": "10.1002/andp.201900549", "umap_coordinates": { "x": 392.49542236328125, "y": 135.6370086669922, "z": 207.421630859375 }, "tsne_coordinates": { "x": 16.41262435913086, "y": -3.0755231380462646, "z": 15.961593627929688 }, "pca_coordinates": { "x": 0.3617023229598999, "y": -1.8891472816467285, "z": -2.6588261127471924 }, "axis_scores": { "Quantum imaging": 0.6782447099685669, "Quantum Life Science Sensing": 0.6856180429458618, "Quantum sensing Detection": 0.661476731300354, "Quantum sensing Metrology": 0.6363863945007324, "Quantum sensing navigation": 0.6763346195220947, "Quantum sensing Position": 0.6603654026985168, "Quantum sensing Timing": 0.6502463221549988, "Quantum sensing": 0.663223385810852, "Quantum control": 0.6602033376693726 } }, { "id": 5347, "title": "The Monetite Structure Probed by Advanced Solid-State NMR Experimentation at Fast Magic-Angle Spinning", "abstract": "We present a solid-state nuclear magnetic resonance (NMR) spectroscopy study of the local P-31 and H-1 environments in monetite [CaHPO4; dicalcium phosphate anhydrous (DCPA)], as well as their relativ...", "citations": 16, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5354, "doi": "10.3390/ijms20246356", "umap_coordinates": { "x": 392.9968566894531, "y": 136.82861328125, "z": 206.24923706054688 }, "tsne_coordinates": { "x": 7.146603107452393, "y": 7.176692962646484, "z": 34.803001403808594 }, "pca_coordinates": { "x": -0.35833072662353516, "y": 2.9834601879119873, "z": -3.2296090126037598 }, "axis_scores": { "Quantum imaging": 0.710386335849762, "Quantum Life Science Sensing": 0.7362604141235352, "Quantum sensing Detection": 0.6798467040061951, "Quantum sensing Metrology": 0.7083799839019775, "Quantum sensing navigation": 0.7018306851387024, "Quantum sensing Position": 0.6807785034179688, "Quantum sensing Timing": 0.6737509965896606, "Quantum sensing": 0.7104251384735107, "Quantum control": 0.6806887984275818 } }, { "id": 5348, "title": "Microscopic theory for insulator to metal transition in cuprates", "abstract": "Hubbard U is equal to the energy of the insulator to metal transition in Mott insulators. Hubbard U is, therefore, also the excitation energy for metal atom to other metal atom transitions and the key...", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5355, "doi": "10.1002/qua.23207", "umap_coordinates": { "x": 393.9841613769531, "y": 137.52978515625, "z": 207.9761505126953 }, "tsne_coordinates": { "x": -2.048996686935425, "y": -25.01980972290039, "z": 32.43657684326172 }, "pca_coordinates": { "x": 2.6411938667297363, "y": 0.690187931060791, "z": -2.848952293395996 }, "axis_scores": { "Quantum imaging": 0.7236959934234619, "Quantum Life Science Sensing": 0.7122761607170105, "Quantum sensing Detection": 0.712934672832489, "Quantum sensing Metrology": 0.7178611159324646, "Quantum sensing navigation": 0.7218049168586731, "Quantum sensing Position": 0.6708167791366577, "Quantum sensing Timing": 0.6960729360580444, "Quantum sensing": 0.7276015877723694, "Quantum control": 0.7393008470535278 } }, { "id": 5349, "title": "Crystal and magnetic structure of Mn3IrSi -: art. no. 054422", "abstract": "A new ternary Ir-Mn-Si phase with stoichiometry Mn3IrSi has been synthesized and found to crystallize in the cubic AlAu4-type structure, space group P2(1)3 with Z=4, which is an ordered form of the be...", "citations": 28, "author_count": 8, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5356, "doi": "10.1103/PhysRevB.69.054422", "umap_coordinates": { "x": 392.96990966796875, "y": 136.23410034179688, "z": 208.56643676757812 }, "tsne_coordinates": { "x": 3.570624828338623, "y": -34.218345642089844, "z": 19.30160903930664 }, "pca_coordinates": { "x": 2.768036365509033, "y": -0.9120006561279297, "z": -2.7305352687835693 }, "axis_scores": { "Quantum imaging": 0.7180547714233398, "Quantum Life Science Sensing": 0.7255966663360596, "Quantum sensing Detection": 0.6844867467880249, "Quantum sensing Metrology": 0.7107694149017334, "Quantum sensing navigation": 0.7052737474441528, "Quantum sensing Position": 0.6738095879554749, "Quantum sensing Timing": 0.6455263495445251, "Quantum sensing": 0.7024343609809875, "Quantum control": 0.6774193048477173 } }, { "id": 5350, "title": "Giant magnetic enhancement in Fe/Pd films and its influence on the magnetic interlayer coupling - art. no. 184403", "abstract": "The magnetic properties of thin Pd fcc(001) films with embedded monolayers of Fe are investigated by means of first principles density functional theory. The induced spin polarization in Pd is calcula...", "citations": 13, "author_count": 4, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5357, "doi": "10.1103/PhysRevB.67.184403", "umap_coordinates": { "x": 393.0451965332031, "y": 135.9872589111328, "z": 208.7163848876953 }, "tsne_coordinates": { "x": 9.831671714782715, "y": -37.265480041503906, "z": 15.338735580444336 }, "pca_coordinates": { "x": 1.6067142486572266, "y": -1.4952566623687744, "z": -1.0278291702270508 }, "axis_scores": { "Quantum imaging": 0.6873968839645386, "Quantum Life Science Sensing": 0.6932469606399536, "Quantum sensing Detection": 0.6708856821060181, "Quantum sensing Metrology": 0.6653505563735962, "Quantum sensing navigation": 0.6573590040206909, "Quantum sensing Position": 0.6531508564949036, "Quantum sensing Timing": 0.6446417570114136, "Quantum sensing": 0.6804889440536499, "Quantum control": 0.6624624133110046 } }, { "id": 5351, "title": "Development of new dyeing photoinitiators for free radical polymerization based on 1H-pyrazolo[3,4-b]quinoline skeleton.: IV.", "abstract": "Several dyes containing 1H-pyrazolo[3,4-b]quinoline skeleton have been synthesized and evaluated as the novel photoinitiators for free radical polymerization induced in the UV region with the argon-io...", "citations": 6, "author_count": 5, "categories": [ "Polymer Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5358, "doi": "10.1007/s002890070003", "umap_coordinates": { "x": 392.9257507324219, "y": 135.37010192871094, "z": 204.35093688964844 }, "tsne_coordinates": { "x": 4.953531742095947, "y": 16.110509872436523, "z": -4.187236785888672 }, "pca_coordinates": { "x": -5.032411098480225, "y": 0.40598583221435547, "z": -1.7106027603149414 }, "axis_scores": { "Quantum imaging": 0.6912499666213989, "Quantum Life Science Sensing": 0.7036601305007935, "Quantum sensing Detection": 0.6750006675720215, "Quantum sensing Metrology": 0.6617047190666199, "Quantum sensing navigation": 0.6886112689971924, "Quantum sensing Position": 0.6588355302810669, "Quantum sensing Timing": 0.6636658906936646, "Quantum sensing": 0.6863660216331482, "Quantum control": 0.6940445899963379 } }, { "id": 5352, "title": "Combining strong interface recombination with bandgap narrowing and short diffusion length in Cu2ZnSnS4 device modeling", "abstract": "In this work we establish a device model in SCAPS, incorporating bandgap narrowing, short minority carrier diffusion length and interface recombination. The model is based on a reference device with s...", "citations": 61, "author_count": 7, "categories": [ "Energy & Fuels" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5359, "doi": "10.1016/j.solmat.2015.09.019", "umap_coordinates": { "x": 392.6690673828125, "y": 133.5608367919922, "z": 206.15200805664062 }, "tsne_coordinates": { "x": 23.840744018554688, "y": -18.503887176513672, "z": -17.36744499206543 }, "pca_coordinates": { "x": -0.7408105731010437, "y": -2.535007953643799, "z": 1.1305954456329346 }, "axis_scores": { "Quantum imaging": 0.6960992217063904, "Quantum Life Science Sensing": 0.6962631940841675, "Quantum sensing Detection": 0.6867407560348511, "Quantum sensing Metrology": 0.6838451027870178, "Quantum sensing navigation": 0.6927593350410461, "Quantum sensing Position": 0.6655156016349792, "Quantum sensing Timing": 0.6854456067085266, "Quantum sensing": 0.7022684216499329, "Quantum control": 0.6781415939331055 } }, { "id": 5353, "title": "Robust high-resolution quantification of time signals encoded by in vivo magnetic resonance spectroscopy", "abstract": "This paper on molecular imaging emphasizes improving specificity of magnetic resonance spectroscopy (MRS) for early cancer diagnostics by high-resolution data analysis. Sensitivity of magnetic resonan...", "citations": 12, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5360, "doi": "10.1016/j.nima.2017.07.034", "umap_coordinates": { "x": 394.3135070800781, "y": 133.99465942382812, "z": 205.0839080810547 }, "tsne_coordinates": { "x": -16.090709686279297, "y": 21.868104934692383, "z": -3.037935972213745 }, "pca_coordinates": { "x": -2.1972103118896484, "y": 2.321214199066162, "z": 0.4073266386985779 }, "axis_scores": { "Quantum imaging": 0.7287630438804626, "Quantum Life Science Sensing": 0.7122070789337158, "Quantum sensing Detection": 0.6916880011558533, "Quantum sensing Metrology": 0.6921218633651733, "Quantum sensing navigation": 0.7110447287559509, "Quantum sensing Position": 0.6912016272544861, "Quantum sensing Timing": 0.7296196818351746, "Quantum sensing": 0.7104603052139282, "Quantum control": 0.6747326254844666 } }, { "id": 5354, "title": "Optical phonons of strained GaAs/GaP quantum wells studied by Raman spectroscopy", "abstract": "We have studied the optical phonons of GaAs quantum wells strained to GaP. The phonon frequencies have been measured by Raman spectroscopy. The results have been compared with calculations based on th...", "citations": 10, "author_count": 6, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5361, "doi": "10.1063/1.119891", "umap_coordinates": { "x": 393.1344299316406, "y": 134.02252197265625, "z": 208.5284881591797 }, "tsne_coordinates": { "x": 30.155193328857422, "y": -20.593759536743164, "z": 2.1365408897399902 }, "pca_coordinates": { "x": 2.4915456771850586, "y": -3.3768696784973145, "z": 1.676710605621338 }, "axis_scores": { "Quantum imaging": 0.7090620398521423, "Quantum Life Science Sensing": 0.7230107188224792, "Quantum sensing Detection": 0.7240842580795288, "Quantum sensing Metrology": 0.7299795150756836, "Quantum sensing navigation": 0.7218750715255737, "Quantum sensing Position": 0.7117015719413757, "Quantum sensing Timing": 0.6884641051292419, "Quantum sensing": 0.7423962354660034, "Quantum control": 0.683175265789032 } }, { "id": 5355, "title": "The design and performance of CUBES - a CubeSat X-ray detector", "abstract": "CUBES is a X-ray detector payload which will be installed on the KTH 3U CubeSat mission, MIST. The detector comprises cerium-doped Gd3Al2Ga3O12 (GAGG) scintillators read out with silicon photomultipli...", "citations": 3, "author_count": 4, "categories": [ "Instruments & Instrumentation" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5362, "doi": "10.1088/1748-0221/16/08/P08038", "umap_coordinates": { "x": 395.9219665527344, "y": 133.91140747070312, "z": 205.74317932128906 }, "tsne_coordinates": { "x": -28.772367477416992, "y": 21.78819465637207, "z": -10.17114543914795 }, "pca_coordinates": { "x": -1.7602708339691162, "y": 2.6399505138397217, "z": 1.6687731742858887 }, "axis_scores": { "Quantum imaging": 0.7066621780395508, "Quantum Life Science Sensing": 0.717487633228302, "Quantum sensing Detection": 0.6930219531059265, "Quantum sensing Metrology": 0.680129885673523, "Quantum sensing navigation": 0.699733316898346, "Quantum sensing Position": 0.6883072853088379, "Quantum sensing Timing": 0.6847907304763794, "Quantum sensing": 0.7024612426757812, "Quantum control": 0.6949485540390015 } }, { "id": 5356, "title": "Skyrmionic state and stable half-quantum vortices in chiral p-wave superconductors", "abstract": "Observability of half-quantum vortices and skyrmions in p-wave superconductors is an outstanding open question. Under the most common conditions, fractional flux vortices are not thermodynamically sta...", "citations": 61, "author_count": 3, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5363, "doi": "10.1103/PhysRevB.86.060514", "umap_coordinates": { "x": 394.2086486816406, "y": 136.43121337890625, "z": 209.06199645996094 }, "tsne_coordinates": { "x": -6.178430080413818, "y": -18.251497268676758, "z": 24.273601531982422 }, "pca_coordinates": { "x": 4.204396724700928, "y": -1.3050777912139893, "z": -1.212599515914917 }, "axis_scores": { "Quantum imaging": 0.6678856611251831, "Quantum Life Science Sensing": 0.6957623362541199, "Quantum sensing Detection": 0.6605950593948364, "Quantum sensing Metrology": 0.659032940864563, "Quantum sensing navigation": 0.6852520108222961, "Quantum sensing Position": 0.6722596883773804, "Quantum sensing Timing": 0.6506798267364502, "Quantum sensing": 0.6719037890434265, "Quantum control": 0.661994218826294 } }, { "id": 5357, "title": "STATISTICAL MEASURES OF CHAOS IN QUANTUM-SYSTEMS", "abstract": "A simple model, based on random matrix theory, is utilized for the description of energy levels and level dynamics in mixed regular and chaotic quantum systems. We find that different types of level s...", "citations": 21, "author_count": 3, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5364, "doi": "10.1103/PhysRevE.52.148", "umap_coordinates": { "x": 394.9839782714844, "y": 136.3656005859375, "z": 208.42376708984375 }, "tsne_coordinates": { "x": -11.797172546386719, "y": -17.494836807250977, "z": 9.662684440612793 }, "pca_coordinates": { "x": 5.6666131019592285, "y": 0.45465922355651855, "z": -0.42838528752326965 }, "axis_scores": { "Quantum imaging": 0.7633581161499023, "Quantum Life Science Sensing": 0.773531973361969, "Quantum sensing Detection": 0.7792912721633911, "Quantum sensing Metrology": 0.7680628299713135, "Quantum sensing navigation": 0.7726856470108032, "Quantum sensing Position": 0.755407989025116, "Quantum sensing Timing": 0.756668210029602, "Quantum sensing": 0.7884223461151123, "Quantum control": 0.7705764770507812 } }, { "id": 5358, "title": "WDM-PON Monitoring With Tunable Photon Counting OTDR", "abstract": "We explore the performance of a tunable optical time domain reflectometer based on single photon detection for fault location and quantification in wavelength division multiplexing (WDM)-passive optic...", "citations": 33, "author_count": 7, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5365, "doi": "10.1109/LPT.2014.2320871", "umap_coordinates": { "x": 395.1065368652344, "y": 133.68911743164062, "z": 206.8258819580078 }, "tsne_coordinates": { "x": 4.255529403686523, "y": -3.331841230392456, "z": -35.51728820800781 }, "pca_coordinates": { "x": -1.252519130706787, "y": 0.8508195877075195, "z": 5.176484107971191 }, "axis_scores": { "Quantum imaging": 0.7278633117675781, "Quantum Life Science Sensing": 0.7324854135513306, "Quantum sensing Detection": 0.7560607194900513, "Quantum sensing Metrology": 0.7494216561317444, "Quantum sensing navigation": 0.7253954410552979, "Quantum sensing Position": 0.7053064107894897, "Quantum sensing Timing": 0.7358208894729614, "Quantum sensing": 0.7466365694999695, "Quantum control": 0.7069259881973267 } }, { "id": 5359, "title": "Off-axis reflection zone plate for quantitative soft x-ray source characterization", "abstract": "A compact system for high-resolution spectroscopy and quantitative photon flux and brilliance measurements of pulsed soft x-ray sources is described. The calibrated system combines a novel elliptical ...", "citations": 52, "author_count": 7, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5366, "doi": "10.1063/1.119497", "umap_coordinates": { "x": 395.25848388671875, "y": 133.89772033691406, "z": 206.3203125 }, "tsne_coordinates": { "x": -19.317995071411133, "y": 14.471549987792969, "z": -27.00183868408203 }, "pca_coordinates": { "x": -1.8748643398284912, "y": 0.9290196895599365, "z": 1.9005138874053955 }, "axis_scores": { "Quantum imaging": 0.6983222961425781, "Quantum Life Science Sensing": 0.6982111930847168, "Quantum sensing Detection": 0.694082498550415, "Quantum sensing Metrology": 0.7054919600486755, "Quantum sensing navigation": 0.6783919930458069, "Quantum sensing Position": 0.6857614517211914, "Quantum sensing Timing": 0.6775695085525513, "Quantum sensing": 0.7089757323265076, "Quantum control": 0.6431881189346313 } }, { "id": 5360, "title": "Stability of dipolar bosons in a quasiperiodic potential", "abstract": "Quasiperiodic potentials and dipolar interactions each impose long-range order in quantum systems, but their interplay unlocks a rich landscape of unexplored quantum phases. In this work, we investiga...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5367, "doi": "10.1103/PhysRevResearch.7.023237", "umap_coordinates": { "x": 394.15484619140625, "y": 136.47947692871094, "z": 208.94952392578125 }, "tsne_coordinates": { "x": -12.364912033081055, "y": -26.07964515686035, "z": 22.48399543762207 }, "pca_coordinates": { "x": 4.236195087432861, "y": -1.036745548248291, "z": -2.3731820583343506 }, "axis_scores": { "Quantum imaging": 0.6744881272315979, "Quantum Life Science Sensing": 0.7068314552307129, "Quantum sensing Detection": 0.6737656593322754, "Quantum sensing Metrology": 0.6682053208351135, "Quantum sensing navigation": 0.7070851922035217, "Quantum sensing Position": 0.6882270574569702, "Quantum sensing Timing": 0.6671000719070435, "Quantum sensing": 0.6830109357833862, "Quantum control": 0.6789981126785278 } }, { "id": 5361, "title": "Recent Advances in Thermally Activated Delayed Fluorescence-Based Organic Afterglow Materials", "abstract": "Thermally activated delayed fluorescence (TADF)-based materials are attracting widespread attention for different applications owing to their ability of harvesting both singlet and triplet excitons wi...", "citations": 4, "author_count": 7, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5368, "doi": "10.1002/smtd.202400982", "umap_coordinates": { "x": 392.7019958496094, "y": 135.3945770263672, "z": 204.5377197265625 }, "tsne_coordinates": { "x": 6.781337261199951, "y": 8.713912963867188, "z": -19.380277633666992 }, "pca_coordinates": { "x": -3.334697723388672, "y": -0.7864854335784912, "z": -1.6037907600402832 }, "axis_scores": { "Quantum imaging": 0.6728264093399048, "Quantum Life Science Sensing": 0.6841986775398254, "Quantum sensing Detection": 0.6485852003097534, "Quantum sensing Metrology": 0.6435974836349487, "Quantum sensing navigation": 0.6263597011566162, "Quantum sensing Position": 0.6321351528167725, "Quantum sensing Timing": 0.686509907245636, "Quantum sensing": 0.6632096767425537, "Quantum control": 0.6345138549804688 } }, { "id": 5362, "title": "Color-Switchable Nanosilicon Fluorescent Probes", "abstract": "Fluorescent probes are vital to cell imaging by allowing specific parts of cells to be visualized and quantified. Color-switchable probes (CSPs), with tunable emission wavelength upon contact with spe...", "citations": 15, "author_count": 18, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5369, "doi": "10.1021/acsnano.2c07443", "umap_coordinates": { "x": 392.62432861328125, "y": 134.15841674804688, "z": 204.86099243164062 }, "tsne_coordinates": { "x": 12.586420059204102, "y": 9.722254753112793, "z": -19.538463592529297 }, "pca_coordinates": { "x": -3.4778192043304443, "y": -3.480259418487549, "z": -0.9581561088562012 }, "axis_scores": { "Quantum imaging": 0.7431456446647644, "Quantum Life Science Sensing": 0.7670093178749084, "Quantum sensing Detection": 0.7584006786346436, "Quantum sensing Metrology": 0.7142213582992554, "Quantum sensing navigation": 0.7451205253601074, "Quantum sensing Position": 0.7076482772827148, "Quantum sensing Timing": 0.6970575451850891, "Quantum sensing": 0.768052339553833, "Quantum control": 0.7167751789093018 } }, { "id": 5363, "title": "Enhanced Optical Biosensing by Aerotaxy Ga(As)P Nanowire Platforms Suitable for Scalable Production", "abstract": "ABSTRACT: Sensitive detection of low-abundance biomolecules is central for diagnostic applications. Semiconductor nanowires can be designed to enhance the fluorescence signal from surface-bound molecu...", "citations": 9, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5370, "doi": "10.1021/acsanm.2c01372", "umap_coordinates": { "x": 392.5538635253906, "y": 133.82632446289062, "z": 205.36416625976562 }, "tsne_coordinates": { "x": 20.531503677368164, "y": -4.885287284851074, "z": -8.376860618591309 }, "pca_coordinates": { "x": -3.8242437839508057, "y": -3.7002882957458496, "z": 0.7751434445381165 }, "axis_scores": { "Quantum imaging": 0.6971086859703064, "Quantum Life Science Sensing": 0.7055584788322449, "Quantum sensing Detection": 0.697463870048523, "Quantum sensing Metrology": 0.6991512179374695, "Quantum sensing navigation": 0.7038005590438843, "Quantum sensing Position": 0.6848323941230774, "Quantum sensing Timing": 0.6469459533691406, "Quantum sensing": 0.7124469876289368, "Quantum control": 0.6725220084190369 } }, { "id": 5364, "title": "Sulfur embedded on in-situ carbon nanodisc decorated on graphene sheets for efficient photocatalytic activity and capacitive deionization method for heavy metal removal", "abstract": "The present work describes a low cost yet versatile and efficient method for the fabrication of highly robust materials for photodegradation of dyes, removal of heavy metal ions, and capacitive method...", "citations": 6, "author_count": 2, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5371, "doi": "10.1016/j.jmrt.2021.05.094", "umap_coordinates": { "x": 393.0896301269531, "y": 133.81854248046875, "z": 204.94688415527344 }, "tsne_coordinates": { "x": 25.921735763549805, "y": 11.291897773742676, "z": -2.2795355319976807 }, "pca_coordinates": { "x": -3.6021246910095215, "y": -1.6247525215148926, "z": -1.5424821376800537 }, "axis_scores": { "Quantum imaging": 0.6793577075004578, "Quantum Life Science Sensing": 0.7413113117218018, "Quantum sensing Detection": 0.6947678923606873, "Quantum sensing Metrology": 0.6767335534095764, "Quantum sensing navigation": 0.6738584041595459, "Quantum sensing Position": 0.6587591767311096, "Quantum sensing Timing": 0.6446802020072937, "Quantum sensing": 0.7014404535293579, "Quantum control": 0.664462685585022 } }, { "id": 5365, "title": "Probing water with X-ray lasers", "abstract": "Here, we discuss three cases where the X-ray free-electron laser, the Linac Coherent Light Source, has been used to probe water. The ability to cool water very rapidly down to 227 K and to probe it wi...", "citations": 11, "author_count": 5, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5372, "doi": "10.1080/23746149.2016.1165630", "umap_coordinates": { "x": 395.01947021484375, "y": 134.40203857421875, "z": 205.5435791015625 }, "tsne_coordinates": { "x": -1.9110467433929443, "y": 11.121731758117676, "z": -17.94260025024414 }, "pca_coordinates": { "x": -1.6382412910461426, "y": 3.3638124465942383, "z": 1.8939499855041504 }, "axis_scores": { "Quantum imaging": 0.7113381624221802, "Quantum Life Science Sensing": 0.7374132871627808, "Quantum sensing Detection": 0.7049862742424011, "Quantum sensing Metrology": 0.6915010213851929, "Quantum sensing navigation": 0.7183937430381775, "Quantum sensing Position": 0.6830841302871704, "Quantum sensing Timing": 0.6811721324920654, "Quantum sensing": 0.7239840030670166, "Quantum control": 0.688543438911438 } }, { "id": 5366, "title": "EFFECTS OF PH, IONIC-STRENGTH AND A FULVIC-ACID ON SIZE DISTRIBUTION AND SURFACE-CHARGE OF COLLOIDAL QUARTZ AND HEMATITE", "abstract": "Size distribution of colloidal quartz and hematite (initial diameter 140-190 nm and 70-360 nm, respectively) were determined by Photon Correlation Spectroscopy (PCS) in well-defined laboratory systems...", "citations": 35, "author_count": 4, "categories": [ "Geochemistry & Geophysics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5373, "doi": "10.1016/0883-2927(93)90009-6", "umap_coordinates": { "x": 394.06207275390625, "y": 134.83836364746094, "z": 204.61636352539062 }, "tsne_coordinates": { "x": 7.533285617828369, "y": 20.82835578918457, "z": 13.435674667358398 }, "pca_coordinates": { "x": -2.7135157585144043, "y": 1.0390424728393555, "z": -3.0936312675476074 }, "axis_scores": { "Quantum imaging": 0.6860067844390869, "Quantum Life Science Sensing": 0.7464396953582764, "Quantum sensing Detection": 0.6823564171791077, "Quantum sensing Metrology": 0.6879457831382751, "Quantum sensing navigation": 0.6744626760482788, "Quantum sensing Position": 0.6874974966049194, "Quantum sensing Timing": 0.6421048045158386, "Quantum sensing": 0.7091131806373596, "Quantum control": 0.6862735748291016 } }, { "id": 5367, "title": "RELAXATION PROCESSES IN SUPERCOOLED LIQUIDS", "abstract": "The characteristic features of alpha- and beta-relaxation in the supercooled state of non-network forming liquids and polymers are reviewed. Particular emphasis is put on properties observed recently ...", "citations": 2799, "author_count": 3, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5374, "doi": "10.1088/0034-4885/55/3/001", "umap_coordinates": { "x": 393.22845458984375, "y": 136.2582244873047, "z": 206.4814453125 }, "tsne_coordinates": { "x": -5.375183582305908, "y": -5.600377082824707, "z": 27.985130310058594 }, "pca_coordinates": { "x": 1.0360724925994873, "y": 2.9413962364196777, "z": -3.2058982849121094 }, "axis_scores": { "Quantum imaging": 0.6734007000923157, "Quantum Life Science Sensing": 0.6866095662117004, "Quantum sensing Detection": 0.6396583318710327, "Quantum sensing Metrology": 0.6321069002151489, "Quantum sensing navigation": 0.6608626842498779, "Quantum sensing Position": 0.6176353096961975, "Quantum sensing Timing": 0.6508029103279114, "Quantum sensing": 0.6681105494499207, "Quantum control": 0.6665569543838501 } }, { "id": 5368, "title": "The Influence of Many-Body Interactions on the Electron States in Quantum Point Contacs: Persistence of Exchange-Driven Splitting at High External Magnetic Fields", "abstract": "Spontaneous spin polarization of a quasi-1D electron gas in quantum point contacts (QPCs) is an important concept when analyzing conductance anomalies in the quantum limit. As suggested by recent meas...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5375, "doi": "10.1007/s10948-008-0415-z", "umap_coordinates": { "x": 393.44610595703125, "y": 136.27035522460938, "z": 207.86106872558594 }, "tsne_coordinates": { "x": 17.942644119262695, "y": -23.141056060791016, "z": 16.195650100708008 }, "pca_coordinates": { "x": 1.5673792362213135, "y": 1.035672903060913, "z": -2.8249735832214355 }, "axis_scores": { "Quantum imaging": 0.6973278522491455, "Quantum Life Science Sensing": 0.6861189007759094, "Quantum sensing Detection": 0.6606816649436951, "Quantum sensing Metrology": 0.6580905318260193, "Quantum sensing navigation": 0.6650358438491821, "Quantum sensing Position": 0.6683616638183594, "Quantum sensing Timing": 0.6588587760925293, "Quantum sensing": 0.6788811087608337, "Quantum control": 0.7049729824066162 } }, { "id": 5369, "title": "Electromagnetic polarizabilities of nucleons bound in 40Ca, 16O and 4He", "abstract": "Differential cross sections for elastic scattering of photons have been measured for Ca-40 at energies of 58 and 74 MeV and for O-16 and He-4 at 61 MeV, in the angular range from 45 degrees to 150 deg...", "citations": 12, "author_count": 16, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5376, "doi": "10.1016/S0375-9474(99)80002-5", "umap_coordinates": { "x": 393.818603515625, "y": 135.99179077148438, "z": 206.62429809570312 }, "tsne_coordinates": { "x": -6.325504302978516, "y": 17.738731384277344, "z": 12.96642780303955 }, "pca_coordinates": { "x": -0.31812047958374023, "y": 1.1304579973220825, "z": -1.7460005283355713 }, "axis_scores": { "Quantum imaging": 0.7122151255607605, "Quantum Life Science Sensing": 0.708845317363739, "Quantum sensing Detection": 0.6850672960281372, "Quantum sensing Metrology": 0.6665856838226318, "Quantum sensing navigation": 0.703882098197937, "Quantum sensing Position": 0.7029403448104858, "Quantum sensing Timing": 0.6832024455070496, "Quantum sensing": 0.6985096335411072, "Quantum control": 0.6782443523406982 } }, { "id": 5370, "title": "Cryogenic merged-ion-beam experiments in DESIREE: Final-state-resolved mutual neutralization of Li+ and D-", "abstract": "We have developed an experimental technique to study charge-and energy-flow processes in sub-eV collisions between oppositely charged, internally cold, ions of atoms, molecules, and clusters. Two ion ...", "citations": 23, "author_count": 18, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5377, "doi": "10.1103/PhysRevA.102.012823", "umap_coordinates": { "x": 395.5708923339844, "y": 135.69789123535156, "z": 208.2765655517578 }, "tsne_coordinates": { "x": -9.225371360778809, "y": -8.844625473022461, "z": 2.269770383834839 }, "pca_coordinates": { "x": 2.6298601627349854, "y": 0.5881645679473877, "z": -0.14874082803726196 }, "axis_scores": { "Quantum imaging": 0.6931450963020325, "Quantum Life Science Sensing": 0.697170615196228, "Quantum sensing Detection": 0.6886967420578003, "Quantum sensing Metrology": 0.6904394030570984, "Quantum sensing navigation": 0.6787530183792114, "Quantum sensing Position": 0.6693788170814514, "Quantum sensing Timing": 0.6432691216468811, "Quantum sensing": 0.6935192346572876, "Quantum control": 0.6687362194061279 } }, { "id": 5371, "title": "Humidity and CO2 gas sensing properties of double-layer graphene", "abstract": "Graphene has interesting gas sensing properties with strong responses of the graphene resistance when exposed to gases. However, the resistance response of double-layer graphene when exposed to humidi...", "citations": 92, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5378, "doi": "10.1016/j.carbon.2017.11.038", "umap_coordinates": { "x": 392.97998046875, "y": 134.3575897216797, "z": 204.4776153564453 }, "tsne_coordinates": { "x": 26.524173736572266, "y": 14.10566520690918, "z": -1.8114217519760132 }, "pca_coordinates": { "x": -3.1811389923095703, "y": -1.0919914245605469, "z": -2.1356217861175537 }, "axis_scores": { "Quantum imaging": 0.704588770866394, "Quantum Life Science Sensing": 0.7729619741439819, "Quantum sensing Detection": 0.7239059209823608, "Quantum sensing Metrology": 0.7159197330474854, "Quantum sensing navigation": 0.6971330046653748, "Quantum sensing Position": 0.6973070502281189, "Quantum sensing Timing": 0.6636000275611877, "Quantum sensing": 0.749284029006958, "Quantum control": 0.703900933265686 } }, { "id": 5372, "title": "Surface diffusion limited nucleation of Ge dots on the Si(001) surface", "abstract": "The formation of Ge islands during MBE growth is a spontaneous process and these islands, i.e. dots, are usually randomly arranged. In order to implement these nanoscaled islands into device applicati...", "citations": 1, "author_count": 6, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5379, "doi": "10.1016/S0921-5107(01)00822-4", "umap_coordinates": { "x": 392.92401123046875, "y": 133.91188049316406, "z": 206.74827575683594 }, "tsne_coordinates": { "x": 41.391029357910156, "y": -4.090261459350586, "z": 2.5909852981567383 }, "pca_coordinates": { "x": -1.8959438800811768, "y": -1.522810697555542, "z": 0.8751229643821716 }, "axis_scores": { "Quantum imaging": 0.6926616430282593, "Quantum Life Science Sensing": 0.7137551307678223, "Quantum sensing Detection": 0.6989597678184509, "Quantum sensing Metrology": 0.6867577433586121, "Quantum sensing navigation": 0.6926720142364502, "Quantum sensing Position": 0.7011188268661499, "Quantum sensing Timing": 0.6595993041992188, "Quantum sensing": 0.7033531069755554, "Quantum control": 0.6771481037139893 } }, { "id": 5373, "title": "Fluorescence of retinal Schiff base in alcohols", "abstract": "Spectra, quantum yields, and kinetics of the unprotonated n-butyl Schiff base of retinal (SBR) fluorescence are investigated in n-alcohols at room temperature. While the absorption spectra in H-bondin...", "citations": 15, "author_count": 3, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5380, "doi": "10.1021/jp983646a", "umap_coordinates": { "x": 392.90960693359375, "y": 136.06216430664062, "z": 204.76702880859375 }, "tsne_coordinates": { "x": 2.2277908325195312, "y": 14.268863677978516, "z": 0.2620648741722107 }, "pca_coordinates": { "x": -2.140035390853882, "y": -0.2922782897949219, "z": -3.7608041763305664 }, "axis_scores": { "Quantum imaging": 0.7162185311317444, "Quantum Life Science Sensing": 0.7390218377113342, "Quantum sensing Detection": 0.7021951675415039, "Quantum sensing Metrology": 0.6764003038406372, "Quantum sensing navigation": 0.6995841264724731, "Quantum sensing Position": 0.6793758273124695, "Quantum sensing Timing": 0.6560351848602295, "Quantum sensing": 0.7148019671440125, "Quantum control": 0.6922324895858765 } }, { "id": 5374, "title": "Optical properties of two-dimensional negative-phase-velocity-medium photonic crystals", "abstract": "By an extended plane-wave-based transfer-matrix method, the photonic band structure and the corresponding transmission spectrum have been calculated for a two-dimensional photonic crystal composed of ...", "citations": 7, "author_count": 6, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5381, "doi": "10.1103/PhysRevE.73.066625", "umap_coordinates": { "x": 394.3371887207031, "y": 135.8097381591797, "z": 207.3776092529297 }, "tsne_coordinates": { "x": 9.354310989379883, "y": -13.24026870727539, "z": -34.311885833740234 }, "pca_coordinates": { "x": 1.8980062007904053, "y": 0.42956089973449707, "z": 0.13761168718338013 }, "axis_scores": { "Quantum imaging": 0.7256200313568115, "Quantum Life Science Sensing": 0.7020018100738525, "Quantum sensing Detection": 0.7057546377182007, "Quantum sensing Metrology": 0.6881712675094604, "Quantum sensing navigation": 0.7253559231758118, "Quantum sensing Position": 0.707100510597229, "Quantum sensing Timing": 0.681993842124939, "Quantum sensing": 0.7062841057777405, "Quantum control": 0.6891340017318726 } }, { "id": 5375, "title": "Two-photon spectroscopy of 4H-SiC by using laser pulses at below-gap frequencies", "abstract": "Measurement of two-photon absorption (TPA) coefficient beta in epitaxial 4H-SiC is performed over a wide spectral range using time-resolved spectroscopy and tunable wavelength laser pulses. We find th...", "citations": 9, "author_count": 5, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5382, "doi": "10.4028/www.scientific.net/MSF.457-460.605", "umap_coordinates": { "x": 395.33587646484375, "y": 134.83438110351562, "z": 206.59207153320312 }, "tsne_coordinates": { "x": 17.74601936340332, "y": 5.192112445831299, "z": -37.33912658691406 }, "pca_coordinates": { "x": -0.6237252950668335, "y": 1.293849229812622, "z": 1.8836357593536377 }, "axis_scores": { "Quantum imaging": 0.6649343967437744, "Quantum Life Science Sensing": 0.7121576070785522, "Quantum sensing Detection": 0.6537038683891296, "Quantum sensing Metrology": 0.6711856126785278, "Quantum sensing navigation": 0.6462351679801941, "Quantum sensing Position": 0.6406333446502686, "Quantum sensing Timing": 0.6497108936309814, "Quantum sensing": 0.6685777902603149, "Quantum control": 0.6200030446052551 } }, { "id": 5376, "title": "Tunable Nb Superconducting Resonator Based on a Constriction Nano- SQUID Fabricated with a Ne Focused Ion Beam", "abstract": "Hybrid superconducting-spin systems offer the potential to combine highly coherent atomic quantum systems with the scalability of superconducting circuits. To fully exploit this potential requires a h...", "citations": 37, "author_count": 8, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5383, "doi": "10.1103/PhysRevApplied.11.014006", "umap_coordinates": { "x": 394.3873596191406, "y": 135.29225158691406, "z": 208.17955017089844 }, "tsne_coordinates": { "x": -4.614473819732666, "y": -20.805986404418945, "z": 12.185774803161621 }, "pca_coordinates": { "x": 3.0630922317504883, "y": -1.278273344039917, "z": 0.5121236443519592 }, "axis_scores": { "Quantum imaging": 0.6865103244781494, "Quantum Life Science Sensing": 0.7178279757499695, "Quantum sensing Detection": 0.7029178738594055, "Quantum sensing Metrology": 0.6862430572509766, "Quantum sensing navigation": 0.7231249809265137, "Quantum sensing Position": 0.7023454904556274, "Quantum sensing Timing": 0.6884055137634277, "Quantum sensing": 0.7176914811134338, "Quantum control": 0.7012754082679749 } }, { "id": 5377, "title": "Collective States of Interacting Anyons, Edge States, and the Nucleation of Topological Liquids", "abstract": "Quantum mechanical systems, whose degrees of freedom are so-called su(2)(k) anyons, form a bridge between ordinary SU(2) quantum magnets (of arbitrary spin-S) and systems of interacting non-Abelian an...", "citations": 89, "author_count": 7, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5384, "doi": "10.1103/PhysRevLett.103.070401", "umap_coordinates": { "x": 394.7413330078125, "y": 136.56044006347656, "z": 209.0478973388672 }, "tsne_coordinates": { "x": -23.354793548583984, "y": -18.263538360595703, "z": 18.65275001525879 }, "pca_coordinates": { "x": 3.4063801765441895, "y": -0.5171337127685547, "z": -1.4413914680480957 }, "axis_scores": { "Quantum imaging": 0.7133554220199585, "Quantum Life Science Sensing": 0.7005735039710999, "Quantum sensing Detection": 0.6945119500160217, "Quantum sensing Metrology": 0.6690158247947693, "Quantum sensing navigation": 0.6997020840644836, "Quantum sensing Position": 0.6775304675102234, "Quantum sensing Timing": 0.6783920526504517, "Quantum sensing": 0.7040624618530273, "Quantum control": 0.6955181360244751 } }, { "id": 5378, "title": "Pfaffian quantum Hall state made simple: Multiple vacua and domain walls on a thin torus", "abstract": "We analyze the Moore-Read Pfaffian state on a thin torus. The known sixfold degeneracy is realized by two inequivalent crystalline states with a four- and twofold degeneracy, respectively. The fundame...", "citations": 77, "author_count": 6, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5385, "doi": "10.1103/PhysRevB.74.081308", "umap_coordinates": { "x": 394.5726318359375, "y": 137.25021362304688, "z": 208.72320556640625 }, "tsne_coordinates": { "x": -21.19796371459961, "y": -32.67693328857422, "z": 10.097166061401367 }, "pca_coordinates": { "x": 3.4833788871765137, "y": 1.239858627319336, "z": -0.30023401975631714 }, "axis_scores": { "Quantum imaging": 0.7224648594856262, "Quantum Life Science Sensing": 0.7039214968681335, "Quantum sensing Detection": 0.6962149143218994, "Quantum sensing Metrology": 0.6995639801025391, "Quantum sensing navigation": 0.7058117389678955, "Quantum sensing Position": 0.670794665813446, "Quantum sensing Timing": 0.6802399754524231, "Quantum sensing": 0.715920627117157, "Quantum control": 0.6988121271133423 } }, { "id": 5379, "title": "Spectral profiles of two-plioton absorption:: Coherent versus two-step two-photon absorption", "abstract": "We present a theory of two-photon absorption in solutions which addresses the, formation of spectral shapes taking account of the vibrational degrees of freedom. The theory is used to rationalize obse...", "citations": 1, "author_count": 7, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5386, "doi": null, "umap_coordinates": { "x": 391.92999267578125, "y": 139.40931701660156, "z": 209.744384765625 }, "tsne_coordinates": { "x": -5.717023849487305, "y": 41.68428421020508, "z": -6.76371955871582 }, "pca_coordinates": { "x": -2.804511785507202, "y": 1.9506416320800781, "z": -1.1324058771133423 }, "axis_scores": { "Quantum imaging": 0.7389817237854004, "Quantum Life Science Sensing": 0.7378065586090088, "Quantum sensing Detection": 0.7275489568710327, "Quantum sensing Metrology": 0.7085744142532349, "Quantum sensing navigation": 0.7149473428726196, "Quantum sensing Position": 0.6875446438789368, "Quantum sensing Timing": 0.6856011152267456, "Quantum sensing": 0.7367470264434814, "Quantum control": 0.7104662656784058 } }, { "id": 5380, "title": "Designing nanometre silicon-on-insulator MOSFET with buried Si1-xGex quantum well channel", "abstract": "We study the device characterization of Si-on-insulator (SOI) metal-oxide semiconductor field effect transistor (MOSFET) with buried Si1-xGex quantum well (QW) channel. Accurate quantum mechanical des...", "citations": 1, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 5387, "doi": "10.1016/S1386-9477(00)00292-7", "umap_coordinates": { "x": 393.1654357910156, "y": 133.4306182861328, "z": 207.0459747314453 }, "tsne_coordinates": { "x": 43.46304702758789, "y": -4.957054615020752, "z": -2.059154510498047 }, "pca_coordinates": { "x": -0.759560763835907, "y": -1.076267957687378, "z": 2.860344171524048 }, "axis_scores": { "Quantum imaging": 0.7095884084701538, "Quantum Life Science Sensing": 0.6980663537979126, "Quantum sensing Detection": 0.7028543949127197, "Quantum sensing Metrology": 0.7216074466705322, "Quantum sensing navigation": 0.7239842414855957, "Quantum sensing Position": 0.7129209041595459, "Quantum sensing Timing": 0.684095561504364, "Quantum sensing": 0.7225584387779236, "Quantum control": 0.6854011416435242 } }, { "id": 5381, "title": "Efficient near infrared Si/Ge quantum dot photo-detector based on a heterojunction bipolar transistor", "abstract": "Ge dots embedded in Si offer the possibility of Si-based light detection at 1.3-1.55 mum. In this communication, we report a very efficient photo-detector based on a Si/SiGe heterojunction bipolar tra...", "citations": 3, "author_count": 6, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5388, "doi": null, "umap_coordinates": { "x": 391.7516174316406, "y": 139.39895629882812, "z": 209.5884246826172 }, "tsne_coordinates": { "x": -5.637129306793213, "y": 47.521995544433594, "z": -6.778017044067383 }, "pca_coordinates": { "x": -1.7136386632919312, "y": 1.2374310493469238, "z": 0.34729427099227905 }, "axis_scores": { "Quantum imaging": 0.7686086893081665, "Quantum Life Science Sensing": 0.7705872654914856, "Quantum sensing Detection": 0.7772701978683472, "Quantum sensing Metrology": 0.7514190673828125, "Quantum sensing navigation": 0.7468631267547607, "Quantum sensing Position": 0.7376478910446167, "Quantum sensing Timing": 0.7180576324462891, "Quantum sensing": 0.7845429182052612, "Quantum control": 0.7463310360908508 } }, { "id": 5382, "title": "Magnetoresistance of icosahedral Al-Pd-Re:: From weak localization through breakdown to a high-resistivity regime", "abstract": "The magnetoresistance (MR) of icosahedral Al-Pd-Re of nominal composition Al(70.5)Pd(21)Res(8.5), and With resistance ratios R [=rho(4 K)/rho(295 K)] from 2 to 120, has been measured in the range 0.1-...", "citations": 43, "author_count": 9, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5389, "doi": "10.1103/PhysRevB.61.3936", "umap_coordinates": { "x": 393.6047058105469, "y": 136.46737670898438, "z": 208.68185424804688 }, "tsne_coordinates": { "x": 1.858904480934143, "y": -43.88896179199219, "z": 13.690231323242188 }, "pca_coordinates": { "x": 2.152254343032837, "y": -0.6333267688751221, "z": -0.9347940683364868 }, "axis_scores": { "Quantum imaging": 0.7048318982124329, "Quantum Life Science Sensing": 0.7401460409164429, "Quantum sensing Detection": 0.713398814201355, "Quantum sensing Metrology": 0.6974825263023376, "Quantum sensing navigation": 0.7038615345954895, "Quantum sensing Position": 0.6897187232971191, "Quantum sensing Timing": 0.651981770992279, "Quantum sensing": 0.7188056111335754, "Quantum control": 0.6645374894142151 } }, { "id": 5383, "title": "Measurement of the isolated diphoton cross section in pp collisions at √s=7 TeV with the ATLAS detector", "abstract": "The ATLAS experiment has measured the production cross section of events with two isolated photons in the final state, in proton-proton collisions at root s = 7 TeV. The full data set acquired in 2010...", "citations": 17, "author_count": 2671, "categories": [ "Astronomy & Astrophysics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5390, "doi": "10.1103/PhysRevD.85.012003", "umap_coordinates": { "x": 396.8642578125, "y": 134.40765380859375, "z": 207.77871704101562 }, "tsne_coordinates": { "x": -34.13490295410156, "y": 9.535531044006348, "z": -12.887524604797363 }, "pca_coordinates": { "x": 2.28680682182312, "y": 0.08302021026611328, "z": 3.208893299102783 }, "axis_scores": { "Quantum imaging": 0.671333909034729, "Quantum Life Science Sensing": 0.6956992149353027, "Quantum sensing Detection": 0.6890755891799927, "Quantum sensing Metrology": 0.6614164113998413, "Quantum sensing navigation": 0.6651870608329773, "Quantum sensing Position": 0.6767045855522156, "Quantum sensing Timing": 0.6650858521461487, "Quantum sensing": 0.688575029373169, "Quantum control": 0.6314250826835632 } }, { "id": 5384, "title": "The thylakoid- and pyrenoid-localized phosphate transporter PHT4-9 is essential for photosynthesis in Chlamydomonas", "abstract": "Phosphate (Pi) is essential for photosynthesis in the chloroplast of algae and plants. Pi homeostasis in the chloroplast is maintained by transporters from several families, whose identities in algae ...", "citations": 1, "author_count": 11, "categories": [ "Plant Sciences" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5391, "doi": "10.1093/plphys/kiaf158", "umap_coordinates": { "x": 394.0992126464844, "y": 136.3201446533203, "z": 204.1986846923828 }, "tsne_coordinates": { "x": 20.324060440063477, "y": 38.8968505859375, "z": 12.121160507202148 }, "pca_coordinates": { "x": -1.5463943481445312, "y": 2.2908613681793213, "z": -0.7673536539077759 }, "axis_scores": { "Quantum imaging": 0.692401111125946, "Quantum Life Science Sensing": 0.7062383890151978, "Quantum sensing Detection": 0.6657983064651489, "Quantum sensing Metrology": 0.6741076707839966, "Quantum sensing navigation": 0.6803946495056152, "Quantum sensing Position": 0.6627565622329712, "Quantum sensing Timing": 0.655044436454773, "Quantum sensing": 0.6916704177856445, "Quantum control": 0.6580724120140076 } }, { "id": 5385, "title": "Exogenous Metal Cations in the Synthesis of CsPbBr3 Nanocrystals and Their Interplay with Tertiary Amines", "abstract": "Current syntheses of CsPbBr3 halide perovskite nanocrystals (NCs) rely on overstoichiometric amounts of Pb2+ precursors, resulting in unreacted lead ions at the end of the process. In our synthesis sc...", "citations": 9, "author_count": 13, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5392, "doi": "10.1021/jacs.4c03084", "umap_coordinates": { "x": 391.41357421875, "y": 134.44924926757812, "z": 205.45960998535156 }, "tsne_coordinates": { "x": 17.332210540771484, "y": -0.6897099018096924, "z": -15.448389053344727 }, "pca_coordinates": { "x": -2.778359889984131, "y": -1.6052231788635254, "z": -3.694261074066162 }, "axis_scores": { "Quantum imaging": 0.6988471150398254, "Quantum Life Science Sensing": 0.6830397844314575, "Quantum sensing Detection": 0.6825889945030212, "Quantum sensing Metrology": 0.6690513491630554, "Quantum sensing navigation": 0.6854202747344971, "Quantum sensing Position": 0.6720517873764038, "Quantum sensing Timing": 0.6758593320846558, "Quantum sensing": 0.6951498985290527, "Quantum control": 0.6983451247215271 } }, { "id": 5386, "title": "The statistical probability factor in triplet mediated photon upconversion: a case study with perylene", "abstract": "Triplet-triplet annihilation photon upconversion (TTA-UC) is a process where two low-energy photons are converted into one higher-energy photon. A crucial component for an efficient upconversion proce...", "citations": 17, "author_count": 7, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5393, "doi": "10.1039/d3tc03158f", "umap_coordinates": { "x": 395.0758361816406, "y": 135.8916015625, "z": 206.03286743164062 }, "tsne_coordinates": { "x": -1.9989396333694458, "y": -2.9305264949798584, "z": -8.824137687683105 }, "pca_coordinates": { "x": -0.39994412660598755, "y": 1.0164175033569336, "z": 1.2262616157531738 }, "axis_scores": { "Quantum imaging": 0.7008185982704163, "Quantum Life Science Sensing": 0.7089248895645142, "Quantum sensing Detection": 0.7101964950561523, "Quantum sensing Metrology": 0.707689642906189, "Quantum sensing navigation": 0.6831401586532593, "Quantum sensing Position": 0.6782917380332947, "Quantum sensing Timing": 0.7022245526313782, "Quantum sensing": 0.7144058346748352, "Quantum control": 0.6989221572875977 } }, { "id": 5387, "title": "Two-dimensional (2D) MT2 (M = Ba, Hf, Si, Sr and T = F, O) monolayers for possible electronic and optoelectronic applications", "abstract": "The present work shed light on the structural, electronic, dielectric, and optical properties of MT2 (M = Ba, Hf, Si, Sr and T = F, O) two-dimensional (2D) monolayers using density functional theory. ...", "citations": 1, "author_count": 6, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5394, "doi": "10.1007/s11082-023-05121-z", "umap_coordinates": { "x": 392.84088134765625, "y": 134.24632263183594, "z": 204.62525939941406 }, "tsne_coordinates": { "x": 16.405553817749023, "y": 28.194419860839844, "z": -13.20059871673584 }, "pca_coordinates": { "x": -2.238967180252075, "y": -0.8432796001434326, "z": -1.6958091259002686 }, "axis_scores": { "Quantum imaging": 0.6700567603111267, "Quantum Life Science Sensing": 0.6943265199661255, "Quantum sensing Detection": 0.6528763175010681, "Quantum sensing Metrology": 0.6767479181289673, "Quantum sensing navigation": 0.6494935750961304, "Quantum sensing Position": 0.6622307300567627, "Quantum sensing Timing": 0.6561082601547241, "Quantum sensing": 0.6695655584335327, "Quantum control": 0.6398704051971436 } }, { "id": 5388, "title": "The X-ray polarization of the Seyfert 1 galaxy IC 4329A", "abstract": "We present an X-ray spectro-polarimetric analysis of the bright Seyfert galaxy IC 4329A. The Imaging X-ray Polarimetry Explorer (IXPE) observed the source for -500 ks, supported by XMM-Newton ( -60 ks...", "citations": 47, "author_count": 109, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5395, "doi": "10.1093/mnras/stad2625", "umap_coordinates": { "x": 395.83135986328125, "y": 135.26939392089844, "z": 206.10903930664062 }, "tsne_coordinates": { "x": -29.973730087280273, "y": 28.460451126098633, "z": 4.53411865234375 }, "pca_coordinates": { "x": -0.8273822069168091, "y": 1.6193630695343018, "z": -0.4653961658477783 }, "axis_scores": { "Quantum imaging": 0.6985858082771301, "Quantum Life Science Sensing": 0.7103844881057739, "Quantum sensing Detection": 0.6874713897705078, "Quantum sensing Metrology": 0.6799576878547668, "Quantum sensing navigation": 0.7152608036994934, "Quantum sensing Position": 0.7018396258354187, "Quantum sensing Timing": 0.6663727164268494, "Quantum sensing": 0.7025843262672424, "Quantum control": 0.6623703241348267 } }, { "id": 5389, "title": "Photochemical effects on the interaction of enzymes and dissolved organic matter in natural waters", "abstract": "Extracellular enzymes such as phosphatase (Pase) and glucosidase (Gase) can be inactivated in natural waters through photochemical processes. In this study, we examined the mechanisms involved in enzy...", "citations": 35, "author_count": 4, "categories": [ "Marine & Freshwater Biology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5396, "doi": "10.4319/lo.2003.48.5.1818", "umap_coordinates": { "x": 393.3101501464844, "y": 136.02467346191406, "z": 203.82505798339844 }, "tsne_coordinates": { "x": 15.680331230163574, "y": 22.38521957397461, "z": 16.69708251953125 }, "pca_coordinates": { "x": -2.7328128814697266, "y": 1.5035808086395264, "z": -2.306419610977173 }, "axis_scores": { "Quantum imaging": 0.6838866472244263, "Quantum Life Science Sensing": 0.7132644653320312, "Quantum sensing Detection": 0.6626417636871338, "Quantum sensing Metrology": 0.6462755799293518, "Quantum sensing navigation": 0.6685241460800171, "Quantum sensing Position": 0.6516851186752319, "Quantum sensing Timing": 0.6252009272575378, "Quantum sensing": 0.6735782027244568, "Quantum control": 0.6574879884719849 } }, { "id": 5390, "title": "D1 exchange and the Photosystem II repair cycle in the cyanobacterium Synechococcus", "abstract": "Photoinhibition in cyanobacteria results when photodynamic inactivation of the Photosystem II (PS II) D1 protein exceeds new D1 synthesis, largely without the additional down-regulation processes foun...", "citations": 14, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1996, "topic": [ "all" ], "embedding_index": 5397, "doi": "10.1016/0168-9452(96)04344-0", "umap_coordinates": { "x": 393.42596435546875, "y": 136.61923217773438, "z": 204.76443481445312 }, "tsne_coordinates": { "x": 2.0554938316345215, "y": 24.683143615722656, "z": 12.865060806274414 }, "pca_coordinates": { "x": -1.341275691986084, "y": 0.415494441986084, "z": -1.8580563068389893 }, "axis_scores": { "Quantum imaging": 0.668967068195343, "Quantum Life Science Sensing": 0.7000929713249207, "Quantum sensing Detection": 0.6584576368331909, "Quantum sensing Metrology": 0.6531201004981995, "Quantum sensing navigation": 0.6697227358818054, "Quantum sensing Position": 0.645642876625061, "Quantum sensing Timing": 0.6713166236877441, "Quantum sensing": 0.6669583320617676, "Quantum control": 0.662909984588623 } }, { "id": 5391, "title": "DYNAMICS OF THE STRONG POLYMER OF N-LAURYL METHACRYLATE BELOW AND ABOVE THE GLASS-TRANSITION", "abstract": "Dielectric spectroscopy (DS) and dynamic light scattering (DLS) are employed to study the dynamics of poly(n-lauryl methacrylate) (PnLMA) (M(w) 1.1 x 10(5)) at temperatures below and above the glass t...", "citations": 80, "author_count": 7, "categories": [ "Polymer Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5398, "doi": "10.1021/ma00124a015", "umap_coordinates": { "x": 393.3731994628906, "y": 136.333984375, "z": 205.98843383789062 }, "tsne_coordinates": { "x": -3.768256425857544, "y": -0.7575738430023193, "z": 33.03867721557617 }, "pca_coordinates": { "x": -0.16966986656188965, "y": 0.5035271644592285, "z": -2.318817377090454 }, "axis_scores": { "Quantum imaging": 0.6524497270584106, "Quantum Life Science Sensing": 0.6775270700454712, "Quantum sensing Detection": 0.6530751585960388, "Quantum sensing Metrology": 0.645812451839447, "Quantum sensing navigation": 0.6599023938179016, "Quantum sensing Position": 0.6596210598945618, "Quantum sensing Timing": 0.637856125831604, "Quantum sensing": 0.6604665517807007, "Quantum control": 0.65328049659729 } }, { "id": 5392, "title": "On post-processing in the quantum algorithm for computing short discrete logarithms", "abstract": "We revisit the quantum algorithm for computing short discrete logarithms that was recently introduced by Ekera and Hastad. By carefully analyzing the probability distribution induced by the algorithm,...", "citations": 15, "author_count": 2, "categories": [ "Computer Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5399, "doi": "10.1007/s10623-020-00783-2", "umap_coordinates": { "x": 395.4699401855469, "y": 136.7582244873047, "z": 206.75527954101562 }, "tsne_coordinates": { "x": -31.74774932861328, "y": 2.0703036785125732, "z": -0.17655737698078156 }, "pca_coordinates": { "x": 0.6229960918426514, "y": 2.915280342102051, "z": 0.8995699286460876 }, "axis_scores": { "Quantum imaging": 0.7044979333877563, "Quantum Life Science Sensing": 0.7345303297042847, "Quantum sensing Detection": 0.7224616408348083, "Quantum sensing Metrology": 0.7109730839729309, "Quantum sensing navigation": 0.7161996960639954, "Quantum sensing Position": 0.7195730209350586, "Quantum sensing Timing": 0.7372124195098877, "Quantum sensing": 0.7294025421142578, "Quantum control": 0.6933499574661255 } }, { "id": 5393, "title": "Miniaturized superconducting microwave filters", "abstract": "In this paper we present methods for the miniaturization of superconducting filters. We consider two designs of seventh-order bandpass Chebyshev filters based on lumped elements and a novel quasi-lump...", "citations": 13, "author_count": 7, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5400, "doi": "10.1088/0953-2048/21/7/075004", "umap_coordinates": { "x": 395.01019287109375, "y": 134.703369140625, "z": 206.4913330078125 }, "tsne_coordinates": { "x": -18.61673927307129, "y": -2.512718439102173, "z": -26.74277687072754 }, "pca_coordinates": { "x": 0.33796143531799316, "y": 1.0320247411727905, "z": 1.3589725494384766 }, "axis_scores": { "Quantum imaging": 0.6860926747322083, "Quantum Life Science Sensing": 0.6938828229904175, "Quantum sensing Detection": 0.68199622631073, "Quantum sensing Metrology": 0.6753728985786438, "Quantum sensing navigation": 0.6900936961174011, "Quantum sensing Position": 0.6612277626991272, "Quantum sensing Timing": 0.651992917060852, "Quantum sensing": 0.6962836980819702, "Quantum control": 0.663426399230957 } }, { "id": 5394, "title": "A measurement of the photonuclear interactions of 180 GeV muons in iron", "abstract": "The energy spectrum and the cross section of photonuclear interactions of 180 GeV muons in iron were measured at the CERN SPS using prototype modules of the ATLAS hadron calorimeter. The differential ...", "citations": 4, "author_count": 177, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5401, "doi": "10.1140/epjc/s2003-01176-6", "umap_coordinates": { "x": 396.2365417480469, "y": 134.43408203125, "z": 206.6898193359375 }, "tsne_coordinates": { "x": -27.22310447692871, "y": 11.972356796264648, "z": -4.882854461669922 }, "pca_coordinates": { "x": 0.45377349853515625, "y": 2.364854335784912, "z": 2.370394706726074 }, "axis_scores": { "Quantum imaging": 0.7310898303985596, "Quantum Life Science Sensing": 0.7248891592025757, "Quantum sensing Detection": 0.7120714783668518, "Quantum sensing Metrology": 0.7143974304199219, "Quantum sensing navigation": 0.7214853763580322, "Quantum sensing Position": 0.7303997874259949, "Quantum sensing Timing": 0.7155529260635376, "Quantum sensing": 0.7126324772834778, "Quantum control": 0.6815703511238098 } }, { "id": 5395, "title": "Large-area integration of two-dimensional materials and their heterostructures by wafer bonding", "abstract": "Integrating two-dimensional (2D) materials into semiconductor manufacturing lines is essential to exploit their material properties in a wide range of application areas. However, current approaches ar...", "citations": 190, "author_count": 17, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5402, "doi": "10.1038/s41467-021-21136-0", "umap_coordinates": { "x": 393.30706787109375, "y": 134.5091094970703, "z": 206.6806640625 }, "tsne_coordinates": { "x": 23.342056274414062, "y": -10.332134246826172, "z": -11.920266151428223 }, "pca_coordinates": { "x": -1.3623859882354736, "y": -2.8449716567993164, "z": 1.589299201965332 }, "axis_scores": { "Quantum imaging": 0.7103443741798401, "Quantum Life Science Sensing": 0.7198007702827454, "Quantum sensing Detection": 0.7005023956298828, "Quantum sensing Metrology": 0.7105017900466919, "Quantum sensing navigation": 0.6995693445205688, "Quantum sensing Position": 0.7033374905586243, "Quantum sensing Timing": 0.6957153081893921, "Quantum sensing": 0.719969630241394, "Quantum control": 0.6822248697280884 } }, { "id": 5396, "title": "Stone-Wales defects in hexagonal boron nitride as ultraviolet emitters", "abstract": "Many quantum emitters have been measured close or near the grain boundaries of the two-dimensional hexagonal boron nitride where various Stone-Wales defects appear. We show by means of first principle...", "citations": 48, "author_count": 6, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5403, "doi": "10.1038/s41524-020-00451-y", "umap_coordinates": { "x": 393.4156494140625, "y": 135.3120574951172, "z": 206.9894256591797 }, "tsne_coordinates": { "x": 6.880420207977295, "y": -18.96696662902832, "z": -24.78396987915039 }, "pca_coordinates": { "x": -0.9482016563415527, "y": -2.094343662261963, "z": 0.9495452046394348 }, "axis_scores": { "Quantum imaging": 0.6856875419616699, "Quantum Life Science Sensing": 0.7045639157295227, "Quantum sensing Detection": 0.7008486390113831, "Quantum sensing Metrology": 0.677436113357544, "Quantum sensing navigation": 0.6997869610786438, "Quantum sensing Position": 0.6922190189361572, "Quantum sensing Timing": 0.6867470145225525, "Quantum sensing": 0.70716792345047, "Quantum control": 0.6567190289497375 } }, { "id": 5397, "title": "Radiative and Auger decay probabilities, branching ratios and fluorescence yields of the Be-like (1s(2)3/4/') doubly excited states in Ne6+", "abstract": "Radiative and Auger transitions energies, decay rates, Auger branching ratios and fluorescence yields have been calculated for the Be-like (1s(2)3l4l') doubly excited states in Ne6+. The calculations ...", "citations": 3, "author_count": 6, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5404, "doi": "10.1088/0031-8949/1997/T73/006", "umap_coordinates": { "x": 394.88385009765625, "y": 135.2594757080078, "z": 206.13079833984375 }, "tsne_coordinates": { "x": -2.0410757064819336, "y": -1.395878553390503, "z": 15.662836074829102 }, "pca_coordinates": { "x": -1.4634857177734375, "y": 0.6552382707595825, "z": 0.5960411429405212 }, "axis_scores": { "Quantum imaging": 0.6928199529647827, "Quantum Life Science Sensing": 0.7137413620948792, "Quantum sensing Detection": 0.6775575280189514, "Quantum sensing Metrology": 0.661554753780365, "Quantum sensing navigation": 0.6682752370834351, "Quantum sensing Position": 0.6489761471748352, "Quantum sensing Timing": 0.6567197442054749, "Quantum sensing": 0.6790916323661804, "Quantum control": 0.6331333518028259 } }, { "id": 5398, "title": "A primer on eigenvalue problems of non-self-adjoint operators", "abstract": "Non-self adjoint operators describe problems in science and engineering that lack symmetry and unitarity. They have applications in convection-diffusion processes, quantum mechanics, fluid mechanics, ...", "citations": 2, "author_count": 4, "categories": [ "Mathematics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5405, "doi": "10.1007/s13324-024-00881-7", "umap_coordinates": { "x": 394.5484619140625, "y": 136.8094024658203, "z": 206.0808868408203 }, "tsne_coordinates": { "x": -17.2171688079834, "y": 6.990789413452148, "z": 1.8191012144088745 }, "pca_coordinates": { "x": -0.9277960062026978, "y": 1.0386626720428467, "z": 0.4890795350074768 }, "axis_scores": { "Quantum imaging": 0.682280957698822, "Quantum Life Science Sensing": 0.6915619373321533, "Quantum sensing Detection": 0.6930577158927917, "Quantum sensing Metrology": 0.696601927280426, "Quantum sensing navigation": 0.7038376331329346, "Quantum sensing Position": 0.6920610666275024, "Quantum sensing Timing": 0.6629124283790588, "Quantum sensing": 0.6946780681610107, "Quantum control": 0.6688486933708191 } }, { "id": 5399, "title": "Modifications of the exciton lifetime and internal quantum efficiency for organic light-emitting devices with a weak/strong microcavity", "abstract": "A comprehensive analysis is given on the modifications of the exciton lifetime and internal quantum efficiency (eta(int)) for organic light-emitting devices (OLEDs). A linear relation is derived betwe...", "citations": 30, "author_count": 6, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5406, "doi": "10.1063/1.2819610", "umap_coordinates": { "x": 393.3878479003906, "y": 133.6212921142578, "z": 207.44039916992188 }, "tsne_coordinates": { "x": 36.26662826538086, "y": -12.988675117492676, "z": -9.962440490722656 }, "pca_coordinates": { "x": -0.36035406589508057, "y": -1.7640209197998047, "z": 0.6951666474342346 }, "axis_scores": { "Quantum imaging": 0.7177876234054565, "Quantum Life Science Sensing": 0.7343922257423401, "Quantum sensing Detection": 0.7130841612815857, "Quantum sensing Metrology": 0.6961904764175415, "Quantum sensing navigation": 0.6760959625244141, "Quantum sensing Position": 0.6669814586639404, "Quantum sensing Timing": 0.663457453250885, "Quantum sensing": 0.7231831550598145, "Quantum control": 0.6817693710327148 } }, { "id": 5400, "title": "Vanishing Thermal Equilibration for Hole-Conjugate Fractional Quantum Hall States in Graphene", "abstract": "Transport through edge channels is responsible for conduction in quantum Hall (QH) phases. Robust quantized values of charge and thermal conductances dictated by bulk topology appear when equilibratio...", "citations": 45, "author_count": 9, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5407, "doi": "10.1103/PhysRevLett.126.216803", "umap_coordinates": { "x": 394.6080627441406, "y": 137.31463623046875, "z": 208.5703887939453 }, "tsne_coordinates": { "x": -19.650056838989258, "y": -31.23236846923828, "z": 16.479084014892578 }, "pca_coordinates": { "x": 5.140439510345459, "y": 1.2406851053237915, "z": -0.7770048379898071 }, "axis_scores": { "Quantum imaging": 0.6796454191207886, "Quantum Life Science Sensing": 0.6900846362113953, "Quantum sensing Detection": 0.6760042905807495, "Quantum sensing Metrology": 0.6706416606903076, "Quantum sensing navigation": 0.7033911943435669, "Quantum sensing Position": 0.6820263862609863, "Quantum sensing Timing": 0.6970424056053162, "Quantum sensing": 0.6851673722267151, "Quantum control": 0.6675127744674683 } }, { "id": 5401, "title": "Short-range structure of proton-conducting perovskite BaInxZr1-xO3-x/2 (x=0-0.75)", "abstract": "In a systematic study, we investigate the effect of dopant level and hydration on the short-range structure of the proton-conducting perovskite-type oxide BaInxZr1-xO3-x/2 (x = 0 - 0.75), using infrar...", "citations": 81, "author_count": 7, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5408, "doi": "10.1021/cm7025448", "umap_coordinates": { "x": 391.9386901855469, "y": 135.4086151123047, "z": 206.45462036132812 }, "tsne_coordinates": { "x": 13.510191917419434, "y": 7.0025177001953125, "z": 21.507583618164062 }, "pca_coordinates": { "x": -0.6238671541213989, "y": -1.116081714630127, "z": -2.6640565395355225 }, "axis_scores": { "Quantum imaging": 0.7116430997848511, "Quantum Life Science Sensing": 0.7393544912338257, "Quantum sensing Detection": 0.6919883489608765, "Quantum sensing Metrology": 0.6925499439239502, "Quantum sensing navigation": 0.7094725966453552, "Quantum sensing Position": 0.7070891857147217, "Quantum sensing Timing": 0.6923445463180542, "Quantum sensing": 0.7190037369728088, "Quantum control": 0.6884234547615051 } }, { "id": 5402, "title": "Acclimatisation of greenhouse crops to differing light quality", "abstract": "High-intensity discharge (HID) and light-emitting diode (LED) lights have been widely compared for use in greenhouse plant production but the results are contradictory. In order to obtain more data on...", "citations": 38, "author_count": 5, "categories": [ "Agriculture" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5409, "doi": "10.1016/j.scienta.2016.03.035", "umap_coordinates": { "x": 394.2415771484375, "y": 136.25160217285156, "z": 203.4218292236328 }, "tsne_coordinates": { "x": 17.232925415039062, "y": 34.189327239990234, "z": 12.863832473754883 }, "pca_coordinates": { "x": -3.61141037940979, "y": 1.8964519500732422, "z": -2.0567450523376465 }, "axis_scores": { "Quantum imaging": 0.6646226048469543, "Quantum Life Science Sensing": 0.7208259701728821, "Quantum sensing Detection": 0.6751495599746704, "Quantum sensing Metrology": 0.6687892079353333, "Quantum sensing navigation": 0.6597209572792053, "Quantum sensing Position": 0.6560347676277161, "Quantum sensing Timing": 0.6612316966056824, "Quantum sensing": 0.6961392164230347, "Quantum control": 0.680834174156189 } }, { "id": 5403, "title": "Analysis of in-cylinder H2O2 and HO2 distributions in an HCCI engine - Comparison of laser-diagnostic results with CFD and SRM simulations", "abstract": "By applying a novel approach to evaluate photofragmentation laser-induced fluorescence (PFLIF) imaging, experimental quantitative information on the temporal in-cylinder distribution of hydrogen perox...", "citations": 24, "author_count": 11, "categories": [ "Thermodynamics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5410, "doi": "10.1016/j.combustflame.2015.02.002", "umap_coordinates": { "x": 393.4788513183594, "y": 135.1163787841797, "z": 204.619140625 }, "tsne_coordinates": { "x": -15.48647403717041, "y": 5.2708353996276855, "z": -11.211572647094727 }, "pca_coordinates": { "x": -2.8982975482940674, "y": 2.115422010421753, "z": -0.8367085456848145 }, "axis_scores": { "Quantum imaging": 0.6852561831474304, "Quantum Life Science Sensing": 0.6804880499839783, "Quantum sensing Detection": 0.6668668389320374, "Quantum sensing Metrology": 0.6602185964584351, "Quantum sensing navigation": 0.6377688050270081, "Quantum sensing Position": 0.6354546546936035, "Quantum sensing Timing": 0.6342784762382507, "Quantum sensing": 0.6689159274101257, "Quantum control": 0.6518287658691406 } }, { "id": 5404, "title": "Accelerated Monte Carlo based dose calculations for brachytherapy planning using correlated sampling", "abstract": "Current brachytherapy dose calculations ignore applicator attenuation and tissue heterogeneities, assuming isolated sources embedded in unbounded medium. Conventional Monte Carlo (MC) dose calculation...", "citations": 39, "author_count": 4, "categories": [ "Engineering" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5411, "doi": "10.1088/0031-9155/47/3/301", "umap_coordinates": { "x": 396.1667175292969, "y": 133.4846954345703, "z": 205.11123657226562 }, "tsne_coordinates": { "x": -13.580849647521973, "y": 30.12544059753418, "z": -15.859972953796387 }, "pca_coordinates": { "x": -1.46514892578125, "y": 3.710482120513916, "z": 4.0611090660095215 }, "axis_scores": { "Quantum imaging": 0.6587591767311096, "Quantum Life Science Sensing": 0.6438517570495605, "Quantum sensing Detection": 0.6311703324317932, "Quantum sensing Metrology": 0.6381018757820129, "Quantum sensing navigation": 0.6625818014144897, "Quantum sensing Position": 0.645714282989502, "Quantum sensing Timing": 0.6655758619308472, "Quantum sensing": 0.6446706056594849, "Quantum control": 0.6247060298919678 } }, { "id": 5405, "title": "Photon-echo amplification and regeneration for optical data storage and processing", "abstract": "Optical data storage devices and erasable memories with storage densities in the range of terabits/cm(2), all-optical devices for communication like optical bit-rate converters, routers and image proc...", "citations": 1, "author_count": 6, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5412, "doi": "10.1016/S0022-2313(00)00195-2", "umap_coordinates": { "x": 394.2229919433594, "y": 134.7930145263672, "z": 205.93264770507812 }, "tsne_coordinates": { "x": -0.09181390702724457, "y": -0.43228772282600403, "z": -25.994821548461914 }, "pca_coordinates": { "x": -2.2675235271453857, "y": 0.5152463912963867, "z": 1.8305203914642334 }, "axis_scores": { "Quantum imaging": 0.6895087361335754, "Quantum Life Science Sensing": 0.7038103938102722, "Quantum sensing Detection": 0.688709557056427, "Quantum sensing Metrology": 0.6909127831459045, "Quantum sensing navigation": 0.6757253408432007, "Quantum sensing Position": 0.6719977855682373, "Quantum sensing Timing": 0.6629267334938049, "Quantum sensing": 0.6948714256286621, "Quantum control": 0.6543293595314026 } }, { "id": 5406, "title": "Coherent positronium molecule PSn and scanning clustering microscopy", "abstract": "The remarkable coherent features are indicated for the positronium molecules Ps(n), which are the lightest molecular system in the universe. The majority of Ps(n) molecules undergo the coherent annihi...", "citations": 1, "author_count": 2, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5413, "doi": "10.1002/(SICI)1097-461X(1999)71:1<83::AID-QUA9>3.0.CO;2-I", "umap_coordinates": { "x": 393.815185546875, "y": 135.65609741210938, "z": 205.98873901367188 }, "tsne_coordinates": { "x": -10.50265884399414, "y": 20.37286949157715, "z": 9.270465850830078 }, "pca_coordinates": { "x": -0.4533649682998657, "y": 0.4744868278503418, "z": 1.332124948501587 }, "axis_scores": { "Quantum imaging": 0.7632477879524231, "Quantum Life Science Sensing": 0.7343153953552246, "Quantum sensing Detection": 0.7498283982276917, "Quantum sensing Metrology": 0.7295820116996765, "Quantum sensing navigation": 0.7449438571929932, "Quantum sensing Position": 0.7260127663612366, "Quantum sensing Timing": 0.7061495780944824, "Quantum sensing": 0.7511650323867798, "Quantum control": 0.7186990976333618 } }, { "id": 5407, "title": "Entangled dynamos and Joule heating in the Earth's ionosphere", "abstract": "The Earth's neutral atmosphere is the driver of the well-known solar quiet (Sq) and other magnetic variations observed for more than 100 years. Yet the understanding of how the neutral wind can accomp...", "citations": 8, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5414, "doi": "10.5194/angeo-38-1019-2020", "umap_coordinates": { "x": 395.1914367675781, "y": 135.79701232910156, "z": 205.83908081054688 }, "tsne_coordinates": { "x": -11.374146461486816, "y": -6.529270648956299, "z": 16.8609561920166 }, "pca_coordinates": { "x": 0.5438318252563477, "y": 1.1886111497879028, "z": -0.8439280390739441 }, "axis_scores": { "Quantum imaging": 0.7099272608757019, "Quantum Life Science Sensing": 0.7176551222801208, "Quantum sensing Detection": 0.6966291069984436, "Quantum sensing Metrology": 0.6891553401947021, "Quantum sensing navigation": 0.7114962339401245, "Quantum sensing Position": 0.6851771473884583, "Quantum sensing Timing": 0.6918352246284485, "Quantum sensing": 0.7111485004425049, "Quantum control": 0.6901614665985107 } }, { "id": 5408, "title": "Fine Structure and Spin Dynamics of Linearly Polarized Indirect Excitons in Two-Dimensional CdSe/CdTe Colloidal Heterostructures", "abstract": "Heterostructured two-dimensional colloidal nanoplatelets are a class of material that has attracted great interest for optoelectronic applications due to their high photoluminescence yield, atomically...", "citations": 20, "author_count": 19, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5415, "doi": "10.1021/acsnano.9b03252", "umap_coordinates": { "x": 392.1916809082031, "y": 135.27857971191406, "z": 207.31491088867188 }, "tsne_coordinates": { "x": 18.17906379699707, "y": -3.026812791824341, "z": 10.352350234985352 }, "pca_coordinates": { "x": -0.028969883918762207, "y": -4.560218334197998, "z": -2.254035711288452 }, "axis_scores": { "Quantum imaging": 0.7129964828491211, "Quantum Life Science Sensing": 0.6956782937049866, "Quantum sensing Detection": 0.670711874961853, "Quantum sensing Metrology": 0.6438455581665039, "Quantum sensing navigation": 0.6959819197654724, "Quantum sensing Position": 0.6613591313362122, "Quantum sensing Timing": 0.6363230347633362, "Quantum sensing": 0.6851557493209839, "Quantum control": 0.6757643818855286 } }, { "id": 5409, "title": "Odd-frequency superconductivity", "abstract": "This article reviews odd-frequency (odd-omega) pairing with a focus on superconducting systems. Since Berezinskii introduced the concept of odd-frequency order in 1974 it has been viewed as exotic and...", "citations": 199, "author_count": 3, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5416, "doi": "10.1103/RevModPhys.91.045005", "umap_coordinates": { "x": 394.1876220703125, "y": 136.48104858398438, "z": 207.7598419189453 }, "tsne_coordinates": { "x": -8.498534202575684, "y": -23.51982879638672, "z": 16.5100154876709 }, "pca_coordinates": { "x": 3.589224338531494, "y": 0.900885820388794, "z": -1.1976019144058228 }, "axis_scores": { "Quantum imaging": 0.719149112701416, "Quantum Life Science Sensing": 0.7539297342300415, "Quantum sensing Detection": 0.7270690202713013, "Quantum sensing Metrology": 0.7142773866653442, "Quantum sensing navigation": 0.7203160524368286, "Quantum sensing Position": 0.6850401163101196, "Quantum sensing Timing": 0.7079094648361206, "Quantum sensing": 0.7344675660133362, "Quantum control": 0.7206234931945801 } }, { "id": 5410, "title": "Theoretical study of mutual neutralization in He+ + H- collisions", "abstract": "Total and differential cross sections for mutual neutralization in He+ and H- collisions at low to intermediate (0.001 eV to 100 eV) are calculated ab initio and fully quantum mechanically. Atomic fin...", "citations": 18, "author_count": 4, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5417, "doi": "10.1103/PhysRevA.94.022709", "umap_coordinates": { "x": 395.5323181152344, "y": 135.67137145996094, "z": 208.4042510986328 }, "tsne_coordinates": { "x": -7.1092209815979, "y": -8.96452522277832, "z": 0.8233015537261963 }, "pca_coordinates": { "x": 2.952205181121826, "y": 2.632946491241455, "z": -0.755494236946106 }, "axis_scores": { "Quantum imaging": 0.68982994556427, "Quantum Life Science Sensing": 0.6937973499298096, "Quantum sensing Detection": 0.691413164138794, "Quantum sensing Metrology": 0.6754129528999329, "Quantum sensing navigation": 0.6896035075187683, "Quantum sensing Position": 0.6839816570281982, "Quantum sensing Timing": 0.679046630859375, "Quantum sensing": 0.692254900932312, "Quantum control": 0.6863852739334106 } }, { "id": 5411, "title": "Accelerating variational quantum eigensolver convergence using parameter transfer", "abstract": "One impediment to the useful application of variational quantum algorithms in quantum chemistry is slow convergence with large numbers of classical optimization parameters. In this work, we evaluate a...", "citations": 4, "author_count": 5, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5418, "doi": "10.1088/2516-1075/ace86d", "umap_coordinates": { "x": 393.92047119140625, "y": 137.6101531982422, "z": 206.732666015625 }, "tsne_coordinates": { "x": -14.39919376373291, "y": 1.692293405532837, "z": 12.425448417663574 }, "pca_coordinates": { "x": 1.3532421588897705, "y": 1.3468706607818604, "z": 1.197157859802246 }, "axis_scores": { "Quantum imaging": 0.7069908380508423, "Quantum Life Science Sensing": 0.6789801120758057, "Quantum sensing Detection": 0.6780834794044495, "Quantum sensing Metrology": 0.6857441663742065, "Quantum sensing navigation": 0.6944766044616699, "Quantum sensing Position": 0.6746306419372559, "Quantum sensing Timing": 0.6965075731277466, "Quantum sensing": 0.6933488249778748, "Quantum control": 0.6986096501350403 } }, { "id": 5412, "title": "Correlation of Absorption Profile and Fill Factor in Organic Solar Cells: The Role of Mobility Imbalance", "abstract": "We investigate the role of the spatial absorption profile within bulk heterojunction small molecule solar cells comprising a 50 nm ZnPc:C60 active layer. Exploiting interference effects the absorption...", "citations": 53, "author_count": 7, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5419, "doi": "10.1002/aenm.201200835", "umap_coordinates": { "x": 392.8471984863281, "y": 134.13600158691406, "z": 206.17605590820312 }, "tsne_coordinates": { "x": 30.503671646118164, "y": 5.1754679679870605, "z": 19.684938430786133 }, "pca_coordinates": { "x": -0.8492172956466675, "y": -0.6741020679473877, "z": -1.437041997909546 }, "axis_scores": { "Quantum imaging": 0.7018589377403259, "Quantum Life Science Sensing": 0.7133340239524841, "Quantum sensing Detection": 0.6789954900741577, "Quantum sensing Metrology": 0.70489102602005, "Quantum sensing navigation": 0.7172183394432068, "Quantum sensing Position": 0.7001152038574219, "Quantum sensing Timing": 0.6519158482551575, "Quantum sensing": 0.6926434636116028, "Quantum control": 0.6639809608459473 } }, { "id": 5413, "title": "Ultrafast excited-state isomerization dynamics of 1,1′-diethyl-2,2′-cyanine studied by four-wave mixing spectroscopy", "abstract": "Excited-state dynamics and solvent-solute interactions of 1,1'-diethyl-2,2'-cyanine iodine (1122C) in alcoholic solutions are investigated using time-integrated three-pulse photon-echo spectroscopy. 1...", "citations": 28, "author_count": 6, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5420, "doi": "10.1021/jp0685277", "umap_coordinates": { "x": 392.45465087890625, "y": 136.4264373779297, "z": 206.18479919433594 }, "tsne_coordinates": { "x": 5.6824951171875, "y": 1.2755305767059326, "z": 11.301081657409668 }, "pca_coordinates": { "x": -0.815314769744873, "y": -0.7088260650634766, "z": -2.5305263996124268 }, "axis_scores": { "Quantum imaging": 0.7039209604263306, "Quantum Life Science Sensing": 0.707489013671875, "Quantum sensing Detection": 0.6865584850311279, "Quantum sensing Metrology": 0.6478883624076843, "Quantum sensing navigation": 0.680787205696106, "Quantum sensing Position": 0.6604746580123901, "Quantum sensing Timing": 0.6670288443565369, "Quantum sensing": 0.6934168338775635, "Quantum control": 0.6728793382644653 } }, { "id": 5414, "title": "Theoretical investigation of shallow acceptors confined in Si/Si1-xGex quantum well structures", "abstract": "Energy levels of the shallow acceptor states have been calculated for center-doped Si/Si1-xGex/Si quantum wells. The impurity states were calculated using an effective-mass theory that accounts for va...", "citations": 10, "author_count": 3, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5421, "doi": "10.1063/1.371571", "umap_coordinates": { "x": 392.9569091796875, "y": 133.86460876464844, "z": 208.46905517578125 }, "tsne_coordinates": { "x": 33.231353759765625, "y": -22.61588478088379, "z": 2.374453067779541 }, "pca_coordinates": { "x": 2.551553249359131, "y": -1.9916391372680664, "z": 1.9597554206848145 }, "axis_scores": { "Quantum imaging": 0.7071217894554138, "Quantum Life Science Sensing": 0.7080390453338623, "Quantum sensing Detection": 0.702147901058197, "Quantum sensing Metrology": 0.6928749680519104, "Quantum sensing navigation": 0.711402177810669, "Quantum sensing Position": 0.6889442801475525, "Quantum sensing Timing": 0.6645838022232056, "Quantum sensing": 0.7142642140388489, "Quantum control": 0.6691039800643921 } }, { "id": 5415, "title": "Surface-Ligand Liquid to Crystalline Phase Transition Modulates the Solar H2 Production Quantum Efficiency of CdS Nanorod/Mediator/Hydrogenase Assemblies", "abstract": "This study reports how the length of capping ligands on a nanocrystal surface affects its interfacial electron transfer (ET) with surrounding molecular electron acceptors, and consequently, impact the...", "citations": 21, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5422, "doi": "10.1021/acsami.0c07820", "umap_coordinates": { "x": 391.95794677734375, "y": 135.5596923828125, "z": 205.4220428466797 }, "tsne_coordinates": { "x": 16.536998748779297, "y": -5.934939861297607, "z": -10.536678314208984 }, "pca_coordinates": { "x": -1.8647336959838867, "y": -3.0207009315490723, "z": -3.6336729526519775 }, "axis_scores": { "Quantum imaging": 0.712273895740509, "Quantum Life Science Sensing": 0.7457528114318848, "Quantum sensing Detection": 0.6964148879051208, "Quantum sensing Metrology": 0.6803450584411621, "Quantum sensing navigation": 0.6886848211288452, "Quantum sensing Position": 0.6720005869865417, "Quantum sensing Timing": 0.6566128134727478, "Quantum sensing": 0.7119024991989136, "Quantum control": 0.704973578453064 } }, { "id": 5416, "title": "Terahertz radiation induces non-thermal structural changes associated with Frohlich condensation in a protein crystal", "abstract": "Whether long-range quantum coherent states could exist in biological systems, and beyond low-temperature regimes where quantum physics is known to be applicable, has been the subject to debate for dec...", "citations": 77, "author_count": 11, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5423, "doi": "10.1063/1.4931825", "umap_coordinates": { "x": 393.70819091796875, "y": 136.83309936523438, "z": 207.12918090820312 }, "tsne_coordinates": { "x": 12.757526397705078, "y": -11.75674057006836, "z": 39.42371368408203 }, "pca_coordinates": { "x": 0.8606607913970947, "y": 1.6783441305160522, "z": -2.4157650470733643 }, "axis_scores": { "Quantum imaging": 0.7042385935783386, "Quantum Life Science Sensing": 0.7486732006072998, "Quantum sensing Detection": 0.695054829120636, "Quantum sensing Metrology": 0.6988638043403625, "Quantum sensing navigation": 0.6748550534248352, "Quantum sensing Position": 0.658143937587738, "Quantum sensing Timing": 0.6789157390594482, "Quantum sensing": 0.7098385691642761, "Quantum control": 0.6812541484832764 } }, { "id": 5417, "title": "Determinants of activity in glutaredoxins: an in vitro evolved Grx1-like variant of Escherichia coli Grx3", "abstract": "The Escherichia coli glutaredox ins 1 and 3 (Grx 1 and Grx3) are structurally similar (37 % sequence identity), yet have different activities in vivo. Unlike Grx3, Grx 1 efficiently reduces protein di...", "citations": 12, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5424, "doi": "10.1042/BJ20100289", "umap_coordinates": { "x": 393.77117919921875, "y": 136.6292266845703, "z": 204.61575317382812 }, "tsne_coordinates": { "x": 4.701688766479492, "y": 29.295621871948242, "z": 18.981443405151367 }, "pca_coordinates": { "x": -0.3205600380897522, "y": 1.1364893913269043, "z": -2.9330122470855713 }, "axis_scores": { "Quantum imaging": 0.6650102138519287, "Quantum Life Science Sensing": 0.7176691293716431, "Quantum sensing Detection": 0.68644779920578, "Quantum sensing Metrology": 0.6729246377944946, "Quantum sensing navigation": 0.6863826513290405, "Quantum sensing Position": 0.6806886792182922, "Quantum sensing Timing": 0.673699140548706, "Quantum sensing": 0.6959406137466431, "Quantum control": 0.6796122789382935 } }, { "id": 5418, "title": "Quantum entanglement of anharmonic oscillators", "abstract": "We investigate the quantum entanglement dynamics of undriven anharmonic (nonlinear) oscillators with quartic potentials. We first consider the indirect interaction between two such nonlinear oscillato...", "citations": 14, "author_count": 5, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5425, "doi": "10.1088/0953-4075/44/24/245503", "umap_coordinates": { "x": 394.9531555175781, "y": 136.4917755126953, "z": 207.2141571044922 }, "tsne_coordinates": { "x": -34.5840950012207, "y": -6.56293249130249, "z": 1.0973562002182007 }, "pca_coordinates": { "x": 3.7322020530700684, "y": 2.0889744758605957, "z": 1.3756608963012695 }, "axis_scores": { "Quantum imaging": 0.7438240051269531, "Quantum Life Science Sensing": 0.7260735034942627, "Quantum sensing Detection": 0.7290850877761841, "Quantum sensing Metrology": 0.7131866216659546, "Quantum sensing navigation": 0.7388733625411987, "Quantum sensing Position": 0.7068122625350952, "Quantum sensing Timing": 0.7257208824157715, "Quantum sensing": 0.747674822807312, "Quantum control": 0.7263928651809692 } }, { "id": 5419, "title": "Enhanced near-field radiative heat transfer between corrugated metal plates: Role of spoof surface plasmon polaritons", "abstract": "We demonstrate with the finite-difference time-domain method that radiative heat transfer between two parallel gold plates can be significantly enhanced by engraving periodic grooves with a subwavelen...", "citations": 66, "author_count": 4, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5426, "doi": "10.1103/PhysRevB.92.035419", "umap_coordinates": { "x": 393.2124328613281, "y": 134.78158569335938, "z": 206.88824462890625 }, "tsne_coordinates": { "x": 1.859906554222107, "y": -15.56978702545166, "z": -16.24403953552246 }, "pca_coordinates": { "x": 0.42229247093200684, "y": -1.7466259002685547, "z": 0.08043491840362549 }, "axis_scores": { "Quantum imaging": 0.6743177771568298, "Quantum Life Science Sensing": 0.6636939644813538, "Quantum sensing Detection": 0.6667688488960266, "Quantum sensing Metrology": 0.6732252240180969, "Quantum sensing navigation": 0.6544175744056702, "Quantum sensing Position": 0.6659092903137207, "Quantum sensing Timing": 0.6360666751861572, "Quantum sensing": 0.6832466125488281, "Quantum control": 0.6457340717315674 } }, { "id": 5420, "title": "Liquid-nitrogen-jet laser-plasma source for compact soft x-ray microscopy", "abstract": "We describe a liquid-nitrogen-jet laser-plasma source with sufficient brightness, uniformity, stability, and reliability to be suitable for compact water-window soft x-ray transmission microscopy. A c...", "citations": 85, "author_count": 4, "categories": [ "Instruments & Instrumentation" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5427, "doi": "10.1063/1.1884186", "umap_coordinates": { "x": 394.6302795410156, "y": 133.9119110107422, "z": 206.9161376953125 }, "tsne_coordinates": { "x": -21.757835388183594, "y": 15.083168983459473, "z": -27.858501434326172 }, "pca_coordinates": { "x": -1.0568771362304688, "y": -0.520665168762207, "z": 2.003509044647217 }, "axis_scores": { "Quantum imaging": 0.6842807531356812, "Quantum Life Science Sensing": 0.6976551413536072, "Quantum sensing Detection": 0.677735447883606, "Quantum sensing Metrology": 0.6754093766212463, "Quantum sensing navigation": 0.6694024205207825, "Quantum sensing Position": 0.6546146869659424, "Quantum sensing Timing": 0.6317987442016602, "Quantum sensing": 0.6911138296127319, "Quantum control": 0.6438643932342529 } }, { "id": 5421, "title": "On-surface coordination chemistry of planar molecular spin systems: novel magnetochemical effects induced by axial ligands", "abstract": "Paramagnetic transition-metal complexes assembled on surfaces are of great interest for potential applications in organic spintronics. The magnetochemical interactions of the spin of the metal centers...", "citations": 97, "author_count": 12, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5428, "doi": "10.1039/c2sc20828h", "umap_coordinates": { "x": 391.6390075683594, "y": 135.57823181152344, "z": 205.60031127929688 }, "tsne_coordinates": { "x": 7.6831536293029785, "y": 2.400289535522461, "z": -20.47657585144043 }, "pca_coordinates": { "x": -1.1280807256698608, "y": -1.797217845916748, "z": -4.635368347167969 }, "axis_scores": { "Quantum imaging": 0.6797442436218262, "Quantum Life Science Sensing": 0.6848431825637817, "Quantum sensing Detection": 0.6593954563140869, "Quantum sensing Metrology": 0.6553953289985657, "Quantum sensing navigation": 0.6636927127838135, "Quantum sensing Position": 0.637100338935852, "Quantum sensing Timing": 0.6174222826957703, "Quantum sensing": 0.6789116859436035, "Quantum control": 0.6735993027687073 } }, { "id": 5422, "title": "Atomic physics with ions stored in the round", "abstract": "The talk contained examples of recent atomic physics experiments with stored and cooled ion beams from different ion storage-ring facilities. Here, we first introduce the principles of storage rings a...", "citations": 45, "author_count": 3, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5429, "doi": "10.1088/1742-6596/88/1/012002", "umap_coordinates": { "x": 394.6820068359375, "y": 136.29953002929688, "z": 206.60121154785156 }, "tsne_coordinates": { "x": -15.425742149353027, "y": -4.424996376037598, "z": 28.03209686279297 }, "pca_coordinates": { "x": 1.5678751468658447, "y": 2.5278077125549316, "z": 0.06220191717147827 }, "axis_scores": { "Quantum imaging": 0.7236003875732422, "Quantum Life Science Sensing": 0.7346251606941223, "Quantum sensing Detection": 0.711505115032196, "Quantum sensing Metrology": 0.7068844437599182, "Quantum sensing navigation": 0.7251655459403992, "Quantum sensing Position": 0.7117260098457336, "Quantum sensing Timing": 0.717470109462738, "Quantum sensing": 0.7306200861930847, "Quantum control": 0.7064911127090454 } }, { "id": 5423, "title": "TYCHO ASTROMETRY FROM HALF OF THE MISSION", "abstract": "The Hipparcos satellite's star mapper gives photon counts in two spectral channels simultaneously, close to Johnson B and V. The transit times and the signal amplitudes for each star across two groups...", "citations": 7, "author_count": 12, "categories": [ "Astronomy & Astrophysics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5430, "doi": null, "umap_coordinates": { "x": 391.8150329589844, "y": 139.72042846679688, "z": 209.58827209472656 }, "tsne_coordinates": { "x": 4.310802459716797, "y": 47.533504486083984, "z": -3.9531614780426025 }, "pca_coordinates": { "x": -1.505697250366211, "y": 5.672445774078369, "z": -0.2924785017967224 }, "axis_scores": { "Quantum imaging": 0.6609293818473816, "Quantum Life Science Sensing": 0.6908560395240784, "Quantum sensing Detection": 0.6504598259925842, "Quantum sensing Metrology": 0.6690447330474854, "Quantum sensing navigation": 0.6646443009376526, "Quantum sensing Position": 0.6382903456687927, "Quantum sensing Timing": 0.6780288219451904, "Quantum sensing": 0.6663508415222168, "Quantum control": 0.6529956459999084 } }, { "id": 5424, "title": "Quantum Hall physics: Hierarchies and conformal field theory techniques", "abstract": "The fractional quantum Hall effect, being one of the most studied phenomena in condensed matter physics during the past 30 years, has generated many ground-breaking new ideas and concepts. Very early ...", "citations": 156, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5431, "doi": "10.1103/RevModPhys.89.025005", "umap_coordinates": { "x": 394.75921630859375, "y": 137.41456604003906, "z": 207.3970489501953 }, "tsne_coordinates": { "x": -17.25592613220215, "y": -32.324974060058594, "z": 8.234910011291504 }, "pca_coordinates": { "x": 3.2843236923217773, "y": 2.2983462810516357, "z": -1.8841784000396729 }, "axis_scores": { "Quantum imaging": 0.7582547068595886, "Quantum Life Science Sensing": 0.7701787948608398, "Quantum sensing Detection": 0.7502321600914001, "Quantum sensing Metrology": 0.7474774122238159, "Quantum sensing navigation": 0.7640183568000793, "Quantum sensing Position": 0.7168337106704712, "Quantum sensing Timing": 0.7273377776145935, "Quantum sensing": 0.7636711001396179, "Quantum control": 0.7516644597053528 } }, { "id": 5425, "title": "Quantum mechanics and the special and general theory of relativity", "abstract": "The old dilemma of quantum mechanics versus the theory of relativity is reconsidered. A first principles relativistically invariant theory will be provided through a model, which is basically quantum ...", "citations": 7, "author_count": 2, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5432, "doi": "10.1016/S0065-3276(07)00010-X", "umap_coordinates": { "x": 394.7265625, "y": 137.4171142578125, "z": 206.0106964111328 }, "tsne_coordinates": { "x": -19.51807403564453, "y": 0.4324758052825928, "z": 20.623958587646484 }, "pca_coordinates": { "x": 0.3509092330932617, "y": 2.5686049461364746, "z": 0.40768271684646606 }, "axis_scores": { "Quantum imaging": 0.7209731936454773, "Quantum Life Science Sensing": 0.7587864398956299, "Quantum sensing Detection": 0.7230137586593628, "Quantum sensing Metrology": 0.7352609634399414, "Quantum sensing navigation": 0.7371522188186646, "Quantum sensing Position": 0.70930016040802, "Quantum sensing Timing": 0.6767771244049072, "Quantum sensing": 0.7420276403427124, "Quantum control": 0.7105972170829773 } }, { "id": 5426, "title": "Oscillator strengths of sulphur 3s(2) 3p(3) 4s S-3(0)-3s(2) 3p(3) 4p P-3 transitions measured by time resolved two-photon laser spectroscopy", "abstract": "Oscillator strengths for the three 3s(2)3p(3)4s S-3(1)o-3s(2)3p(3)4p P-3(0,1,2) transitions in neutral sulphur have been determined directly from lifetime measurements. Two-photon UV laser excitation ...", "citations": 16, "author_count": 5, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5433, "doi": "10.1088/0031-8949/56/5/009", "umap_coordinates": { "x": 394.2803039550781, "y": 135.4860076904297, "z": 206.12831115722656 }, "tsne_coordinates": { "x": -4.1002726554870605, "y": 5.693239688873291, "z": 6.776547431945801 }, "pca_coordinates": { "x": -0.5669288635253906, "y": 0.590928316116333, "z": 0.5503748059272766 }, "axis_scores": { "Quantum imaging": 0.7062505483627319, "Quantum Life Science Sensing": 0.7419729232788086, "Quantum sensing Detection": 0.7146605253219604, "Quantum sensing Metrology": 0.7085297703742981, "Quantum sensing navigation": 0.699592113494873, "Quantum sensing Position": 0.7018605470657349, "Quantum sensing Timing": 0.691692054271698, "Quantum sensing": 0.7262681722640991, "Quantum control": 0.6675818562507629 } }, { "id": 5427, "title": "WORK FUNCTION OF RYDBERG MATTER SURFACES FROM JELLIUM CALCULATIONS", "abstract": "The theoretical description of Rydberg matter as an electronically excited type of matter was given by Manykin et al. [Sov. Phys. Tech. Phys. 26 (1981) 974; Sov. Phys. JETP 57 (1983) 256]. Experiment ...", "citations": 10, "author_count": 3, "categories": [ "Chemistry" ], "year": 1994, "topic": [ "all" ], "embedding_index": 5434, "doi": "10.1016/0039-6028(94)90533-9", "umap_coordinates": { "x": 393.67193603515625, "y": 136.48304748535156, "z": 206.04132080078125 }, "tsne_coordinates": { "x": 11.538111686706543, "y": 18.225811004638672, "z": 24.061267852783203 }, "pca_coordinates": { "x": -1.0461320877075195, "y": 0.07650017738342285, "z": -2.055812120437622 }, "axis_scores": { "Quantum imaging": 0.6640377044677734, "Quantum Life Science Sensing": 0.7267261743545532, "Quantum sensing Detection": 0.6574273705482483, "Quantum sensing Metrology": 0.6725100874900818, "Quantum sensing navigation": 0.6634336113929749, "Quantum sensing Position": 0.676367461681366, "Quantum sensing Timing": 0.6371061205863953, "Quantum sensing": 0.6732563972473145, "Quantum control": 0.632912814617157 } }, { "id": 5428, "title": "Discrete and Weyl density of states for photonic dispersion relation", "abstract": "The current density of states (DOS) calculations do not take into account the essential discreteness of the state space, since they rely on the unbounded continuum approximation. Recently, discrete DO...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5435, "doi": "10.1088/1402-4896/ab0bc5", "umap_coordinates": { "x": 394.6477966308594, "y": 136.34439086914062, "z": 207.56700134277344 }, "tsne_coordinates": { "x": -31.609886169433594, "y": -12.702240943908691, "z": 0.8263986706733704 }, "pca_coordinates": { "x": 2.131486177444458, "y": 0.2663278579711914, "z": 0.15184813737869263 }, "axis_scores": { "Quantum imaging": 0.7172368764877319, "Quantum Life Science Sensing": 0.7167357206344604, "Quantum sensing Detection": 0.6997180581092834, "Quantum sensing Metrology": 0.7017691135406494, "Quantum sensing navigation": 0.7027038335800171, "Quantum sensing Position": 0.7015845775604248, "Quantum sensing Timing": 0.6919249296188354, "Quantum sensing": 0.7110469937324524, "Quantum control": 0.6950985193252563 } }, { "id": 5429, "title": "High-spatial-resolution nanoparticle X-ray fluorescence tomography", "abstract": "X-ray fluorescence tomography (XFCT) has potential for high-resolution 3D molecular x-ray bio-imaging. In this technique the fluorescence signal from targeted nanoparticles (NPs) is measured, providin...", "citations": 2, "author_count": 7, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5436, "doi": "10.1117/12.2216770", "umap_coordinates": { "x": 394.66925048828125, "y": 133.14720153808594, "z": 205.98336791992188 }, "tsne_coordinates": { "x": -1.462689757347107, "y": 18.261310577392578, "z": -25.487789154052734 }, "pca_coordinates": { "x": -3.237612247467041, "y": -0.6079046726226807, "z": 3.0486087799072266 }, "axis_scores": { "Quantum imaging": 0.7613692283630371, "Quantum Life Science Sensing": 0.7291852235794067, "Quantum sensing Detection": 0.7383125424385071, "Quantum sensing Metrology": 0.7326290607452393, "Quantum sensing navigation": 0.7358734607696533, "Quantum sensing Position": 0.7238729000091553, "Quantum sensing Timing": 0.7009370923042297, "Quantum sensing": 0.7498789429664612, "Quantum control": 0.691307783126831 } }, { "id": 5430, "title": "Poly(2,5-diheptyl-1,4-phenylene-alt-2,5-thienylene): A new material for blue-light-emitting diodes", "abstract": "The electronic and chemical structures of a new polymer, poly(2,5-diheptyl-1,4-phenylene-alt-2,5-thienylene), have been studied experimentally by X-ray and ultraviolet photoelectron spectroscopies, an...", "citations": 42, "author_count": 5, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5437, "doi": "10.1016/0379-6779(96)80012-9", "umap_coordinates": { "x": 392.5798034667969, "y": 135.49005126953125, "z": 204.85560607910156 }, "tsne_coordinates": { "x": -2.4733219146728516, "y": -1.1714130640029907, "z": -17.72203254699707 }, "pca_coordinates": { "x": -3.41935658454895, "y": -1.0210270881652832, "z": 1.4300689697265625 }, "axis_scores": { "Quantum imaging": 0.6710665225982666, "Quantum Life Science Sensing": 0.6760104298591614, "Quantum sensing Detection": 0.6695615649223328, "Quantum sensing Metrology": 0.658802330493927, "Quantum sensing navigation": 0.642282247543335, "Quantum sensing Position": 0.6901987791061401, "Quantum sensing Timing": 0.6791588068008423, "Quantum sensing": 0.6776589751243591, "Quantum control": 0.6375340223312378 } }, { "id": 5431, "title": "Room Temperature Uniaxial Magnetic Anisotropy Induced By Fe-Islands in the InSe Semiconductor Van Der Waals Crystal", "abstract": "The controlled manipulation of the spin and charge of electrons in a semiconductor has the potential to create new routes to digital electronics beyond Moore's law, spintronics, and quantum detection ...", "citations": 9, "author_count": 14, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5438, "doi": "10.1002/advs.201800257", "umap_coordinates": { "x": 392.2002868652344, "y": 135.10528564453125, "z": 207.49322509765625 }, "tsne_coordinates": { "x": 33.510372161865234, "y": -6.516918659210205, "z": -20.742502212524414 }, "pca_coordinates": { "x": -0.43804222345352173, "y": -3.746079921722412, "z": -2.5273728370666504 }, "axis_scores": { "Quantum imaging": 0.7034711837768555, "Quantum Life Science Sensing": 0.6937713027000427, "Quantum sensing Detection": 0.6650282740592957, "Quantum sensing Metrology": 0.6754711270332336, "Quantum sensing navigation": 0.6809965968132019, "Quantum sensing Position": 0.6483736634254456, "Quantum sensing Timing": 0.6402809619903564, "Quantum sensing": 0.6832682490348816, "Quantum control": 0.6772195100784302 } }, { "id": 5432, "title": "High-Capacity Wireless Signal Generation and Demodulation in 75-to 110-GHz Band Employing All-Optical OFDM", "abstract": "We present a radio-frequency (RF) and bit-rate scalable technique for multigigabit wireless signal generation based on all-optical orthogonal frequency-division multiplexing (OFDM) and photonic up-con...", "citations": 106, "author_count": 10, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5439, "doi": "10.1109/LPT.2011.2139201", "umap_coordinates": { "x": 394.7823181152344, "y": 133.92510986328125, "z": 206.72528076171875 }, "tsne_coordinates": { "x": 3.5278658866882324, "y": -2.506256580352783, "z": -36.40031051635742 }, "pca_coordinates": { "x": -0.21145856380462646, "y": 0.29117822647094727, "z": 3.037217140197754 }, "axis_scores": { "Quantum imaging": 0.6948005557060242, "Quantum Life Science Sensing": 0.6841647028923035, "Quantum sensing Detection": 0.6920863389968872, "Quantum sensing Metrology": 0.6857312321662903, "Quantum sensing navigation": 0.6713860630989075, "Quantum sensing Position": 0.6559383869171143, "Quantum sensing Timing": 0.6826358437538147, "Quantum sensing": 0.6988470554351807, "Quantum control": 0.6652041673660278 } }, { "id": 5433, "title": "A variational principle in Wigner phase-space with applications to statistical mechanics", "abstract": "We consider the Dirac-Frenkel variational principle in Wigner phase-space and apply it to the Wigner-Liouville equation for both imaginary and real time dynamical problems. The variational principle a...", "citations": 9, "author_count": 2, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5440, "doi": "10.1063/1.3519637", "umap_coordinates": { "x": 394.0526123046875, "y": 137.77113342285156, "z": 207.19688415527344 }, "tsne_coordinates": { "x": -18.51579475402832, "y": 6.476799488067627, "z": 31.152633666992188 }, "pca_coordinates": { "x": 2.5422468185424805, "y": 1.2036101818084717, "z": 0.342132031917572 }, "axis_scores": { "Quantum imaging": 0.6989160776138306, "Quantum Life Science Sensing": 0.7089443802833557, "Quantum sensing Detection": 0.7077702879905701, "Quantum sensing Metrology": 0.7071428298950195, "Quantum sensing navigation": 0.7298844456672668, "Quantum sensing Position": 0.6949008703231812, "Quantum sensing Timing": 0.6719904541969299, "Quantum sensing": 0.7168488502502441, "Quantum control": 0.6996940970420837 } }, { "id": 5434, "title": "On the effect of image charges and ion-wall dispersion forces on electric double layer interactions", "abstract": "Two effects of interactions between polarizable ions and polarizable walls in electric double layers are investigated: ionic image charge forces and ion-wall dispersion forces. The first must be inclu...", "citations": 42, "author_count": 3, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5441, "doi": "10.1063/1.2357940", "umap_coordinates": { "x": 393.74053955078125, "y": 135.0226287841797, "z": 208.3423614501953 }, "tsne_coordinates": { "x": 19.761499404907227, "y": -34.24685287475586, "z": -3.1655097007751465 }, "pca_coordinates": { "x": 0.4889082908630371, "y": -0.15817046165466309, "z": -0.5393955707550049 }, "axis_scores": { "Quantum imaging": 0.6941901445388794, "Quantum Life Science Sensing": 0.6666256189346313, "Quantum sensing Detection": 0.6600767374038696, "Quantum sensing Metrology": 0.6528424024581909, "Quantum sensing navigation": 0.6590067148208618, "Quantum sensing Position": 0.6582353711128235, "Quantum sensing Timing": 0.6268332600593567, "Quantum sensing": 0.6697002649307251, "Quantum control": 0.6577821969985962 } }, { "id": 5435, "title": "THE INTERACTION OF PYRENE-LABELED DIACYLGLYCEROL WITH PROTEIN-KINASE-C IN MIXED MICELLES", "abstract": "The binding of protein kinase C (PKC) to pyrene-labeled diacylglycerol (pDG) has been studied in a mixed micellar system by monitoring resonance energy transfer from excited tryptophans to pyrene with...", "citations": 5, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5442, "doi": "10.1016/0301-4622(93)85009-7", "umap_coordinates": { "x": 393.30194091796875, "y": 135.8072967529297, "z": 205.23692321777344 }, "tsne_coordinates": { "x": 14.637704849243164, "y": 11.17227554321289, "z": 12.281636238098145 }, "pca_coordinates": { "x": -2.83984375, "y": 0.7616895437240601, "z": -1.4273567199707031 }, "axis_scores": { "Quantum imaging": 0.6603268980979919, "Quantum Life Science Sensing": 0.6774355173110962, "Quantum sensing Detection": 0.6361144781112671, "Quantum sensing Metrology": 0.617691159248352, "Quantum sensing navigation": 0.6365581154823303, "Quantum sensing Position": 0.6528958678245544, "Quantum sensing Timing": 0.621703028678894, "Quantum sensing": 0.6437059640884399, "Quantum control": 0.6265924572944641 } }, { "id": 5436, "title": "New approach of mechanochromic, thermally activated delayed fluorescence' dyes consisting of thioxanthenone derivative as an acceptor unit and two carbazole derivatives as the donor units used as emitting layer in organic light-emitting diodes", "abstract": "Two dyes containing of thioxanthenone derivative as an acceptor unit, were designed and synthesized for thermally activated delayed fluorescence (TADF) organic light emitting diodes (OLEDs). The photo...", "citations": 7, "author_count": 8, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5443, "doi": "10.1016/j.optmat.2022.112320", "umap_coordinates": { "x": 393.0124206542969, "y": 135.73252868652344, "z": 205.04415893554688 }, "tsne_coordinates": { "x": 5.353822231292725, "y": 8.902998924255371, "z": -20.171154022216797 }, "pca_coordinates": { "x": -2.581716537475586, "y": 0.7188670635223389, "z": 0.04185819625854492 }, "axis_scores": { "Quantum imaging": 0.7201120853424072, "Quantum Life Science Sensing": 0.7235313653945923, "Quantum sensing Detection": 0.7243974804878235, "Quantum sensing Metrology": 0.7243003845214844, "Quantum sensing navigation": 0.7146186828613281, "Quantum sensing Position": 0.7015165090560913, "Quantum sensing Timing": 0.7282506227493286, "Quantum sensing": 0.7395081520080566, "Quantum control": 0.7053453922271729 } }, { "id": 5437, "title": "Mechanisms behind species-specific water economy responses to water level drawdown in peat mosses", "abstract": "Background and Aims The ecosystem engineers Sphagnum (peat mosses) are responsible for sequestering a large proportion of carbon in northern peatlands. Species may respond differently to hydrological ...", "citations": 36, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5444, "doi": "10.1093/aob/mcaa033", "umap_coordinates": { "x": 394.14715576171875, "y": 136.72654724121094, "z": 203.6503143310547 }, "tsne_coordinates": { "x": 13.001379013061523, "y": 36.20893096923828, "z": 18.287227630615234 }, "pca_coordinates": { "x": -0.6141833066940308, "y": 2.6406116485595703, "z": -3.5039942264556885 }, "axis_scores": { "Quantum imaging": 0.624703049659729, "Quantum Life Science Sensing": 0.6735930442810059, "Quantum sensing Detection": 0.6391128301620483, "Quantum sensing Metrology": 0.643519937992096, "Quantum sensing navigation": 0.6617352962493896, "Quantum sensing Position": 0.6096241474151611, "Quantum sensing Timing": 0.6189978122711182, "Quantum sensing": 0.6571320295333862, "Quantum control": 0.673814058303833 } }, { "id": 5438, "title": "New Dicarboxylic Acid Bipyridine Ligand for Ruthenium Polypyridyl Sensitization of TiO2", "abstract": "An ambidentate dicarboxylic acid bipyridine ligand, (4,5-diazafluoren-9-ylidene) malonic acid (dfm), was synthesized for coordination to Ru(II) and mesoporous nanocrystalline (anatase) TiO2 thin films...", "citations": 22, "author_count": 10, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5445, "doi": "10.1021/ic201395q", "umap_coordinates": { "x": 392.0862731933594, "y": 135.1224365234375, "z": 204.52517700195312 }, "tsne_coordinates": { "x": 7.220401287078857, "y": 9.602527618408203, "z": -12.50473690032959 }, "pca_coordinates": { "x": -4.918513298034668, "y": -1.9966630935668945, "z": -2.0419974327087402 }, "axis_scores": { "Quantum imaging": 0.6992219686508179, "Quantum Life Science Sensing": 0.7212927937507629, "Quantum sensing Detection": 0.6949196457862854, "Quantum sensing Metrology": 0.6848078966140747, "Quantum sensing navigation": 0.6641085743904114, "Quantum sensing Position": 0.6641559600830078, "Quantum sensing Timing": 0.6760644316673279, "Quantum sensing": 0.7013260126113892, "Quantum control": 0.6862293481826782 } }, { "id": 5439, "title": "Ultrafast energy transfer from a carotenoid to a chlorin in a simple artificial photosynthetic antenna", "abstract": "A model photosynthetic antenna system consisting of a carotenoid moiety covalently linked to a purpurin has been prepared to study singlet-ringlet energy transfer from a carotenoid to a cyclic tetrapy...", "citations": 47, "author_count": 9, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5446, "doi": "10.1021/jp0212343", "umap_coordinates": { "x": 392.8375549316406, "y": 136.13352966308594, "z": 205.0711669921875 }, "tsne_coordinates": { "x": 14.89828872680664, "y": 7.349877834320068, "z": 4.93670654296875 }, "pca_coordinates": { "x": -0.9114748239517212, "y": -1.9433279037475586, "z": -0.8623755574226379 }, "axis_scores": { "Quantum imaging": 0.7148362398147583, "Quantum Life Science Sensing": 0.7474304437637329, "Quantum sensing Detection": 0.7192484736442566, "Quantum sensing Metrology": 0.6867921352386475, "Quantum sensing navigation": 0.6924457550048828, "Quantum sensing Position": 0.666858971118927, "Quantum sensing Timing": 0.6516686081886292, "Quantum sensing": 0.7281110286712646, "Quantum control": 0.6778566837310791 } }, { "id": 5440, "title": "Coupled mode analysis of in-plane channel drop filters with resonant mirrors", "abstract": "A channel drop filter system that consists of two waveguides and three cavities is studied. One cavity couples with both waveguides, while the other two work as resonant mirrors to reflect the selecte...", "citations": 7, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5447, "doi": "10.1016/j.photonics.2005.09.002", "umap_coordinates": { "x": 394.0738525390625, "y": 134.23025512695312, "z": 206.65423583984375 }, "tsne_coordinates": { "x": 2.008110284805298, "y": -13.007452011108398, "z": -33.65310287475586 }, "pca_coordinates": { "x": -1.1167683601379395, "y": 0.23582220077514648, "z": 1.874462604522705 }, "axis_scores": { "Quantum imaging": 0.7285003066062927, "Quantum Life Science Sensing": 0.683217465877533, "Quantum sensing Detection": 0.7071100473403931, "Quantum sensing Metrology": 0.70452481508255, "Quantum sensing navigation": 0.6850654482841492, "Quantum sensing Position": 0.6701231002807617, "Quantum sensing Timing": 0.6428207755088806, "Quantum sensing": 0.7085758447647095, "Quantum control": 0.6792590022087097 } }, { "id": 5441, "title": "Polarization anisotropy and Zeeman splitting in strained quantum wires: Dimensional crossover effect on strain", "abstract": "Strain states in lattice-mismatched quantum wires have been studied by polarization analysis with a high magnetic field. Although biaxial strain should suppress quantum-confinement-induced in-plane li...", "citations": 2, "author_count": 8, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5448, "doi": "10.1016/S0921-4526(98)00092-1", "umap_coordinates": { "x": 393.0690612792969, "y": 135.152099609375, "z": 208.0530242919922 }, "tsne_coordinates": { "x": 10.938467979431152, "y": -22.378498077392578, "z": 15.259753227233887 }, "pca_coordinates": { "x": 0.6612892150878906, "y": -2.3717055320739746, "z": -0.7576940655708313 }, "axis_scores": { "Quantum imaging": 0.7136039733886719, "Quantum Life Science Sensing": 0.7032890915870667, "Quantum sensing Detection": 0.6834533214569092, "Quantum sensing Metrology": 0.6810467839241028, "Quantum sensing navigation": 0.6963789463043213, "Quantum sensing Position": 0.7033632397651672, "Quantum sensing Timing": 0.675936222076416, "Quantum sensing": 0.7064290046691895, "Quantum control": 0.6877131462097168 } }, { "id": 5442, "title": "Quantum Monte Carlo ionization potential and electron affinity for transition metal atoms", "abstract": "Non-relativistic all-electron Quantum Monte Carlo ground state energies of the neutral atoms K to Zn and positive and negative ions are calculated starting from explicitly correlated wave functions. T...", "citations": 14, "author_count": 5, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5449, "doi": "10.1016/j.cplett.2012.12.055", "umap_coordinates": { "x": 393.9627380371094, "y": 137.06796264648438, "z": 205.72515869140625 }, "tsne_coordinates": { "x": -6.4240217208862305, "y": 8.328815460205078, "z": 21.33084487915039 }, "pca_coordinates": { "x": -0.0411677360534668, "y": -0.4527761936187744, "z": -1.462194800376892 }, "axis_scores": { "Quantum imaging": 0.7379777431488037, "Quantum Life Science Sensing": 0.7425891160964966, "Quantum sensing Detection": 0.7364283800125122, "Quantum sensing Metrology": 0.7280490398406982, "Quantum sensing navigation": 0.7189937829971313, "Quantum sensing Position": 0.7145936489105225, "Quantum sensing Timing": 0.7094887495040894, "Quantum sensing": 0.7427868843078613, "Quantum control": 0.7135225534439087 } }, { "id": 5443, "title": "Clinical, neuroimaging and neurophysiological features in addicts with manganese-ephedrone exposure", "abstract": "Objective - To identify biomarkers supporting the clinical diagnosis of manganism in patients several years after exposure to manganese (Mn). Methods - Neurophysiological examinations, magnetic resona...", "citations": 48, "author_count": 15, "categories": [ "Neurosciences & Neurology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5450, "doi": "10.1111/j.1600-0404.2009.01189.x", "umap_coordinates": { "x": 395.0621643066406, "y": 134.5566864013672, "z": 204.53741455078125 }, "tsne_coordinates": { "x": -7.605031967163086, "y": 25.586488723754883, "z": 3.125300645828247 }, "pca_coordinates": { "x": -1.37180495262146, "y": 2.330406427383423, "z": 1.099555492401123 }, "axis_scores": { "Quantum imaging": 0.6949939727783203, "Quantum Life Science Sensing": 0.6623982191085815, "Quantum sensing Detection": 0.6735875010490417, "Quantum sensing Metrology": 0.6681602001190186, "Quantum sensing navigation": 0.6701972484588623, "Quantum sensing Position": 0.6590660810470581, "Quantum sensing Timing": 0.6626209616661072, "Quantum sensing": 0.67153000831604, "Quantum control": 0.6347007751464844 } }, { "id": 5444, "title": "Effective dielectric constant of two-dimensional photonic crystals in optical bands", "abstract": "By using the Fourier expansion method, we have developed an approach to calculate the effective dielectric index of a two-dimensional photonic crystal. The approach is very general: it can take into a...", "citations": 4, "author_count": 5, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5451, "doi": "10.1016/j.ssc.2006.02.019", "umap_coordinates": { "x": 393.4231872558594, "y": 134.6256103515625, "z": 206.06112670898438 }, "tsne_coordinates": { "x": 7.323418617248535, "y": -11.859841346740723, "z": -31.177955627441406 }, "pca_coordinates": { "x": -1.9390695095062256, "y": -2.2669734954833984, "z": -0.5908701419830322 }, "axis_scores": { "Quantum imaging": 0.7290397882461548, "Quantum Life Science Sensing": 0.7412740588188171, "Quantum sensing Detection": 0.7062568068504333, "Quantum sensing Metrology": 0.7013757824897766, "Quantum sensing navigation": 0.6989303827285767, "Quantum sensing Position": 0.6890254020690918, "Quantum sensing Timing": 0.6750087141990662, "Quantum sensing": 0.7229378819465637, "Quantum control": 0.6775851249694824 } }, { "id": 5445, "title": "Photon pathlength determination based on spatially resolved diffuse reflectance", "abstract": "A method for the prediction of the average photon pathlength in turbid media has been developed. The method is based on spatially resolved diffuse reflectance with discrete source detector distances u...", "citations": 21, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5452, "doi": "10.1117/1.1482378", "umap_coordinates": { "x": 394.8599548339844, "y": 133.4207305908203, "z": 206.21405029296875 }, "tsne_coordinates": { "x": -0.7274473309516907, "y": 29.152427673339844, "z": -31.68951416015625 }, "pca_coordinates": { "x": -2.0998692512512207, "y": 1.2252916097640991, "z": 4.135897159576416 }, "axis_scores": { "Quantum imaging": 0.7522656917572021, "Quantum Life Science Sensing": 0.7647817730903625, "Quantum sensing Detection": 0.7478163242340088, "Quantum sensing Metrology": 0.751008927822113, "Quantum sensing navigation": 0.757972002029419, "Quantum sensing Position": 0.737648069858551, "Quantum sensing Timing": 0.693555474281311, "Quantum sensing": 0.7644584774971008, "Quantum control": 0.6744334697723389 } }, { "id": 5446, "title": "Multi-scattering software part II: experimental validation for the light intensity distribution", "abstract": "This article, Part II of an article series on GPU-accelerated Monte Carlo simulation of photon transport through turbid media, focuses on the validation of the online software Multi-Scattering. While ...", "citations": 14, "author_count": 4, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5453, "doi": "10.1364/OE.445394", "umap_coordinates": { "x": 394.62091064453125, "y": 134.4035186767578, "z": 205.66763305664062 }, "tsne_coordinates": { "x": 9.970584869384766, "y": 20.339176177978516, "z": -29.354454040527344 }, "pca_coordinates": { "x": -2.716209888458252, "y": 1.8029589653015137, "z": 2.0442569255828857 }, "axis_scores": { "Quantum imaging": 0.7495226860046387, "Quantum Life Science Sensing": 0.7385881543159485, "Quantum sensing Detection": 0.7187857627868652, "Quantum sensing Metrology": 0.7316944599151611, "Quantum sensing navigation": 0.7202147245407104, "Quantum sensing Position": 0.6981287598609924, "Quantum sensing Timing": 0.6912909746170044, "Quantum sensing": 0.7313852906227112, "Quantum control": 0.6965525150299072 } }, { "id": 5447, "title": "Electrical characterization of InGaAs/InP quantum wells by scanning capacitance microscopy", "abstract": "In this work, cross-sectional scanning capacitance microscopy (SCM) is used to investigate InGaAs/InP quantum wells. It is demonstrated that SCM is indeed capable of detecting the electrons in the qua...", "citations": 25, "author_count": 4, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5454, "doi": "10.1063/1.1625109", "umap_coordinates": { "x": 392.8983459472656, "y": 133.85162353515625, "z": 208.376220703125 }, "tsne_coordinates": { "x": 27.21614646911621, "y": -20.350595474243164, "z": 3.5427041053771973 }, "pca_coordinates": { "x": 0.7346255779266357, "y": -3.993483066558838, "z": 1.7059922218322754 }, "axis_scores": { "Quantum imaging": 0.7479357719421387, "Quantum Life Science Sensing": 0.7558361887931824, "Quantum sensing Detection": 0.753429651260376, "Quantum sensing Metrology": 0.7628353834152222, "Quantum sensing navigation": 0.7337318062782288, "Quantum sensing Position": 0.7197452187538147, "Quantum sensing Timing": 0.7040804028511047, "Quantum sensing": 0.7691148519515991, "Quantum control": 0.7117648720741272 } }, { "id": 5448, "title": "Calculations with spectroscopic accuracy for the ground configuration (3d9) forbidden transition in Co-like ions", "abstract": "We present systematic and large-scale calculations for the fine-structure energy splitting and transition rate between the 3d(9) D-2(3/2,5/2) levels of Co-like ions with 28 <= Z <= 100. Two different ...", "citations": 40, "author_count": 13, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5455, "doi": "10.1103/PhysRevA.93.012513", "umap_coordinates": { "x": 393.9687805175781, "y": 136.82395935058594, "z": 208.0754852294922 }, "tsne_coordinates": { "x": -17.470718383789062, "y": -36.737117767333984, "z": -7.549780368804932 }, "pca_coordinates": { "x": 2.834019660949707, "y": 0.022434711456298828, "z": -0.6909037232398987 }, "axis_scores": { "Quantum imaging": 0.6614897847175598, "Quantum Life Science Sensing": 0.6923941373825073, "Quantum sensing Detection": 0.6789836883544922, "Quantum sensing Metrology": 0.6936113834381104, "Quantum sensing navigation": 0.678687334060669, "Quantum sensing Position": 0.6659539937973022, "Quantum sensing Timing": 0.6417714953422546, "Quantum sensing": 0.6835510730743408, "Quantum control": 0.6387944221496582 } }, { "id": 5449, "title": "Photon Flux and Distance from the Source: Consequences for Quantum Communication", "abstract": "The paper explores the fundamental physical principles of quantum mechanics (in fact, quantum field theory) that limit the bit rate for long distances and examines the assumption used in this explorat...", "citations": 4, "author_count": 5, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5456, "doi": "10.1007/s10701-014-9786-0", "umap_coordinates": { "x": 395.0401306152344, "y": 135.87730407714844, "z": 205.76670837402344 }, "tsne_coordinates": { "x": -29.62393569946289, "y": 1.6933138370513916, "z": 9.979430198669434 }, "pca_coordinates": { "x": -0.9654312133789062, "y": 1.0973721742630005, "z": 2.574657440185547 }, "axis_scores": { "Quantum imaging": 0.7318255305290222, "Quantum Life Science Sensing": 0.7448947429656982, "Quantum sensing Detection": 0.7239205837249756, "Quantum sensing Metrology": 0.7284150123596191, "Quantum sensing navigation": 0.7301508784294128, "Quantum sensing Position": 0.7490428686141968, "Quantum sensing Timing": 0.7187895178794861, "Quantum sensing": 0.7350093722343445, "Quantum control": 0.679053783416748 } }, { "id": 5450, "title": "Photon-tagged nuclear reaction analysis for trace element determination", "abstract": "The new trace element measurement technique ''photon-tagged Nuclear Reaction Analysis'' (pNRA) is introduced and the experimental procedures are described in detail. The pNRA-technique is an ion-beam ...", "citations": 9, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5457, "doi": "10.1016/S0168-583X(97)00412-6", "umap_coordinates": { "x": 395.0136413574219, "y": 133.73989868164062, "z": 205.43704223632812 }, "tsne_coordinates": { "x": -15.451436996459961, "y": 17.584049224853516, "z": -1.0603032112121582 }, "pca_coordinates": { "x": -2.8324949741363525, "y": 0.669959306716919, "z": 2.7167434692382812 }, "axis_scores": { "Quantum imaging": 0.7054764628410339, "Quantum Life Science Sensing": 0.7117358446121216, "Quantum sensing Detection": 0.6998736262321472, "Quantum sensing Metrology": 0.6905677914619446, "Quantum sensing navigation": 0.7114393711090088, "Quantum sensing Position": 0.6907708644866943, "Quantum sensing Timing": 0.6914042830467224, "Quantum sensing": 0.7013188600540161, "Quantum control": 0.6361152529716492 } }, { "id": 5451, "title": "Immobilized Graphene Oxide Nanosheets as Thin but Strong Nanointerfaces in Biocomposites", "abstract": "Graphene oxide (GO) nanosheets featuring high surface activity and large planar dimension may function as robust nanointerfaces in biocomposites, contributing to simultaneous promotion of mechanical a...", "citations": 61, "author_count": 5, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5458, "doi": "10.1021/acssuschemeng.5b01703", "umap_coordinates": { "x": 392.5489196777344, "y": 134.28228759765625, "z": 204.22947692871094 }, "tsne_coordinates": { "x": 28.533613204956055, "y": 25.46485710144043, "z": -1.491899013519287 }, "pca_coordinates": { "x": -2.885806083679199, "y": -3.1754164695739746, "z": -1.7149288654327393 }, "axis_scores": { "Quantum imaging": 0.6648063063621521, "Quantum Life Science Sensing": 0.6949352622032166, "Quantum sensing Detection": 0.658122718334198, "Quantum sensing Metrology": 0.6334443688392639, "Quantum sensing navigation": 0.6506032943725586, "Quantum sensing Position": 0.6521790623664856, "Quantum sensing Timing": 0.6233232617378235, "Quantum sensing": 0.6731544733047485, "Quantum control": 0.6455947160720825 } }, { "id": 5452, "title": "ELECTRONIC-TRANSITION MOMENT DIRECTIONS AND IDENTIFICATION OF LOW-ENERGY N-PI-ASTERISK STATES IN WEAKLY PERTURBED PURINE CHROMOPHORES", "abstract": "Measurements of UV linear dichroism on purine and three methyl derivatives partially oriented in poly(vinyl alcohol) matrix gave direct evidence for the assignment of the first singlet npi* state. Int...", "citations": 24, "author_count": 3, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5459, "doi": "10.1021/ja00054a032", "umap_coordinates": { "x": 392.4177551269531, "y": 136.8183135986328, "z": 205.4746856689453 }, "tsne_coordinates": { "x": 6.872459888458252, "y": 0.33810409903526306, "z": 40.954315185546875 }, "pca_coordinates": { "x": -0.9835779070854187, "y": -0.04790544509887695, "z": -1.9672129154205322 }, "axis_scores": { "Quantum imaging": 0.6725540161132812, "Quantum Life Science Sensing": 0.6678619980812073, "Quantum sensing Detection": 0.6549692153930664, "Quantum sensing Metrology": 0.6376218795776367, "Quantum sensing navigation": 0.6772850155830383, "Quantum sensing Position": 0.6765214204788208, "Quantum sensing Timing": 0.6351165175437927, "Quantum sensing": 0.6588385701179504, "Quantum control": 0.6377946138381958 } }, { "id": 5453, "title": "BACKBONE DYNAMICS OF THE GLUCOCORTICOID RECEPTOR DNA-BINDING DOMAIN", "abstract": "The extent of rapid (picosecond) backbone motions within the glucocorticoid receptor DnA-binding domain (GR DBD) has been investigated using proton-detected heteronuclear NMR spectroscopy on uniformly...", "citations": 48, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5460, "doi": "10.1021/bi00163a007", "umap_coordinates": { "x": 393.1978454589844, "y": 136.9216766357422, "z": 205.9994354248047 }, "tsne_coordinates": { "x": 15.344914436340332, "y": 13.538408279418945, "z": 24.030508041381836 }, "pca_coordinates": { "x": 0.6372718811035156, "y": 1.6503382921218872, "z": -4.236401557922363 }, "axis_scores": { "Quantum imaging": 0.6945592164993286, "Quantum Life Science Sensing": 0.7130956649780273, "Quantum sensing Detection": 0.6756619811058044, "Quantum sensing Metrology": 0.6653841733932495, "Quantum sensing navigation": 0.7163841724395752, "Quantum sensing Position": 0.6912386417388916, "Quantum sensing Timing": 0.6760413646697998, "Quantum sensing": 0.6899398565292358, "Quantum control": 0.7026231288909912 } }, { "id": 5454, "title": "Upconverted lasing based on many-photon absorption: an all dynamic description", "abstract": "A theory is developed for the propagation through a nonlinear medium of strong pump and amplifiedspontaneous-emission pulses. The theory is based on a solution of the density matrix equations that aim...", "citations": 13, "author_count": 6, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5461, "doi": "10.1364/JOSAB.21.000384", "umap_coordinates": { "x": 393.9962158203125, "y": 135.07737731933594, "z": 206.16346740722656 }, "tsne_coordinates": { "x": -10.117742538452148, "y": 3.702841281890869, "z": -12.496049880981445 }, "pca_coordinates": { "x": -0.7484764456748962, "y": 0.9446516036987305, "z": 0.21222186088562012 }, "axis_scores": { "Quantum imaging": 0.6997721791267395, "Quantum Life Science Sensing": 0.706906795501709, "Quantum sensing Detection": 0.6833044290542603, "Quantum sensing Metrology": 0.6856759786605835, "Quantum sensing navigation": 0.6715261936187744, "Quantum sensing Position": 0.6543728113174438, "Quantum sensing Timing": 0.67482990026474, "Quantum sensing": 0.7035725116729736, "Quantum control": 0.6848799586296082 } }, { "id": 5455, "title": "Pretreatment,of anaerobic digester samples by hydrochloric acid for solution-state 1H and 13C NMR spectroscopic characterization of organic matter", "abstract": "Pretreatment of anaerobic digester samples by hydrochloric acid (HCl) resulted in removal of Fe-based mineral and coordination compounds, attenuating their interferences with solution-state nuclear ma...", "citations": 17, "author_count": 7, "categories": [ "Environmental Sciences & Ecology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5462, "doi": "10.1016/j.chemosphere.2018.02.015", "umap_coordinates": { "x": 393.4265441894531, "y": 135.57980346679688, "z": 204.2707061767578 }, "tsne_coordinates": { "x": 22.850078582763672, "y": 25.80828285217285, "z": 17.663516998291016 }, "pca_coordinates": { "x": -2.8923439979553223, "y": 2.8129777908325195, "z": -2.970783233642578 }, "axis_scores": { "Quantum imaging": 0.6494295597076416, "Quantum Life Science Sensing": 0.715930700302124, "Quantum sensing Detection": 0.6606999635696411, "Quantum sensing Metrology": 0.668502688407898, "Quantum sensing navigation": 0.6536803841590881, "Quantum sensing Position": 0.6449370384216309, "Quantum sensing Timing": 0.6176720857620239, "Quantum sensing": 0.6767286062240601, "Quantum control": 0.6396426558494568 } }, { "id": 5456, "title": "STOCHASTIC SIMULATION OF NO2(X2A1)-]O(3PJ)+NO(X2-PI-OMEGA) PHOTODISSOCIATION - ROTATIONAL-EXCITATION OF PRODUCT NO", "abstract": "Photodissociation of ground state NO2(X2A1) --> NO(X upsilon=1)+O(3P) at wavelengths between 348 and 379 nm has been modelled assuming unimolecular decomposition of an excited NO2* intermediate. The r...", "citations": 15, "author_count": 3, "categories": [ "Chemistry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5463, "doi": "10.1016/0301-0104(92)87048-E", "umap_coordinates": { "x": 393.9939880371094, "y": 136.5475616455078, "z": 206.45933532714844 }, "tsne_coordinates": { "x": -8.355371475219727, "y": 16.36421012878418, "z": 17.855791091918945 }, "pca_coordinates": { "x": 0.22775423526763916, "y": 2.5093801021575928, "z": -0.24666452407836914 }, "axis_scores": { "Quantum imaging": 0.7263103723526001, "Quantum Life Science Sensing": 0.7156177163124084, "Quantum sensing Detection": 0.7217006683349609, "Quantum sensing Metrology": 0.7041036486625671, "Quantum sensing navigation": 0.7237035036087036, "Quantum sensing Position": 0.6987885236740112, "Quantum sensing Timing": 0.6971476078033447, "Quantum sensing": 0.7226703763008118, "Quantum control": 0.7201333045959473 } }, { "id": 5457, "title": "All-Optical Switching Based on Sub-Bandgap Photoactivation of Charge Trapping in Metal Halide Perovskites", "abstract": "Controllable optical properties are crucial for the application of light-emitting materials in optical devices. In this work, controllable photoluminescence in metal halide perovskite crystals is real...", "citations": 10, "author_count": 9, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5464, "doi": "10.1002/adma.202209851", "umap_coordinates": { "x": 392.5533142089844, "y": 134.9686279296875, "z": 205.76266479492188 }, "tsne_coordinates": { "x": 28.380504608154297, "y": 5.432600021362305, "z": 25.0892276763916 }, "pca_coordinates": { "x": -1.5314033031463623, "y": -2.524693489074707, "z": -1.1792945861816406 }, "axis_scores": { "Quantum imaging": 0.6782968640327454, "Quantum Life Science Sensing": 0.6831575632095337, "Quantum sensing Detection": 0.6676697134971619, "Quantum sensing Metrology": 0.6605377197265625, "Quantum sensing navigation": 0.6386658549308777, "Quantum sensing Position": 0.6400267481803894, "Quantum sensing Timing": 0.6475592255592346, "Quantum sensing": 0.6800618767738342, "Quantum control": 0.6557607650756836 } }, { "id": 5458, "title": "Water-Gated Proton Transfer Dynamics in Respiratory Complex I", "abstract": "The respiratory complex I transduces redox energy into an electrochemical proton gradient in aerobic respiratory chains, powering energy-requiring processes in the cell. However, despite recently reso...", "citations": 53, "author_count": 7, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5465, "doi": "10.1021/jacs.0c02789", "umap_coordinates": { "x": 392.85455322265625, "y": 136.7530975341797, "z": 205.8206329345703 }, "tsne_coordinates": { "x": 5.553582191467285, "y": 14.834776878356934, "z": 20.508394241333008 }, "pca_coordinates": { "x": -0.1096651554107666, "y": 0.0651402473449707, "z": -4.359087944030762 }, "axis_scores": { "Quantum imaging": 0.7274962067604065, "Quantum Life Science Sensing": 0.7560317516326904, "Quantum sensing Detection": 0.7040311098098755, "Quantum sensing Metrology": 0.6907151341438293, "Quantum sensing navigation": 0.7121462821960449, "Quantum sensing Position": 0.6888247132301331, "Quantum sensing Timing": 0.6885159611701965, "Quantum sensing": 0.7217809557914734, "Quantum control": 0.719365119934082 } }, { "id": 5459, "title": "Quantum Monte Carlo study of the transverse-field quantum Ising model on infinite-dimensional structures", "abstract": "In a number of classical statistical-physical models, there exists a characteristic dimensionality called the upper critical dimension above which one observes the mean-field critical behavior. Instea...", "citations": 8, "author_count": 5, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5466, "doi": "10.1103/PhysRevB.84.174419", "umap_coordinates": { "x": 393.9962158203125, "y": 136.93917846679688, "z": 208.53778076171875 }, "tsne_coordinates": { "x": -16.795183181762695, "y": -28.140579223632812, "z": 28.156959533691406 }, "pca_coordinates": { "x": 3.8360185623168945, "y": 0.3252260684967041, "z": 0.14825576543807983 }, "axis_scores": { "Quantum imaging": 0.7425606846809387, "Quantum Life Science Sensing": 0.7107964754104614, "Quantum sensing Detection": 0.7065892815589905, "Quantum sensing Metrology": 0.7025183439254761, "Quantum sensing navigation": 0.7243419885635376, "Quantum sensing Position": 0.702591061592102, "Quantum sensing Timing": 0.6978340744972229, "Quantum sensing": 0.7225884795188904, "Quantum control": 0.7127453684806824 } }, { "id": 5460, "title": "Recent advances in triplet-triplet annihilation upconversion and singlet fission, towards solar energy applications", "abstract": "Solar energy is an ample renewable energy resource, with photovoltaic (PV) technology enabling a direct route from light to electricity. Currently, PVs are limited in photon conversion efficiency, due...", "citations": 117, "author_count": 4, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5467, "doi": "10.1039/d2ee01600a", "umap_coordinates": { "x": 392.201171875, "y": 135.26316833496094, "z": 205.66268920898438 }, "tsne_coordinates": { "x": 9.343634605407715, "y": -0.9938520789146423, "z": -16.08885383605957 }, "pca_coordinates": { "x": -2.5619678497314453, "y": -2.4500174522399902, "z": -1.3003203868865967 }, "axis_scores": { "Quantum imaging": 0.6637510061264038, "Quantum Life Science Sensing": 0.7010611295700073, "Quantum sensing Detection": 0.6700839996337891, "Quantum sensing Metrology": 0.6573898792266846, "Quantum sensing navigation": 0.6404410600662231, "Quantum sensing Position": 0.642042338848114, "Quantum sensing Timing": 0.6601762771606445, "Quantum sensing": 0.6704779267311096, "Quantum control": 0.6448203325271606 } }, { "id": 5461, "title": "Photochemistry of nabumetone in aqueous solution of sodium dodecyl sulfate (SDS) micelles", "abstract": "The photochemistry, solubility and distribution between two phases of nabumetone (NB) in aqueous solution of sodium dodecyl sulfate (SDS) micelles were studied. The solubility (S-NB) of NB was monitor...", "citations": 2, "author_count": 5, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5468, "doi": "10.1016/j.molliq.2020.114093", "umap_coordinates": { "x": 393.2977600097656, "y": 134.51527404785156, "z": 204.75938415527344 }, "tsne_coordinates": { "x": 18.29450035095215, "y": 20.565841674804688, "z": 13.11841106414795 }, "pca_coordinates": { "x": -3.5792324542999268, "y": -1.0594911575317383, "z": -3.213409900665283 }, "axis_scores": { "Quantum imaging": 0.6951287388801575, "Quantum Life Science Sensing": 0.7463896870613098, "Quantum sensing Detection": 0.6886399984359741, "Quantum sensing Metrology": 0.6810820698738098, "Quantum sensing navigation": 0.7039375305175781, "Quantum sensing Position": 0.6788941621780396, "Quantum sensing Timing": 0.6587307453155518, "Quantum sensing": 0.693352460861206, "Quantum control": 0.6844204664230347 } }, { "id": 5462, "title": "Measurements of the CP-even fractions of D0 → π+ π- π0 and D0 → K+ K- π0 at BESIII", "abstract": "The CP-even fractions (F+) of the decays D-0 -> pi(+) pi(-) pi(0) and D-0 -> K+ K- pi(0) are measured with a quantum-correlated psi(3770) -> D (D) over bar data sample collected by the BESIII experime...", "citations": 2, "author_count": 656, "categories": [ "Astronomy & Astrophysics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5469, "doi": "10.1103/PhysRevD.111.012007", "umap_coordinates": { "x": 396.2454528808594, "y": 135.19358825683594, "z": 207.9960479736328 }, "tsne_coordinates": { "x": -25.928218841552734, "y": 3.458219051361084, "z": -16.40777587890625 }, "pca_coordinates": { "x": 2.437746524810791, "y": 0.009490251541137695, "z": 0.22017711400985718 }, "axis_scores": { "Quantum imaging": 0.6853283047676086, "Quantum Life Science Sensing": 0.7134542465209961, "Quantum sensing Detection": 0.6906663775444031, "Quantum sensing Metrology": 0.6772233247756958, "Quantum sensing navigation": 0.672492504119873, "Quantum sensing Position": 0.6725534200668335, "Quantum sensing Timing": 0.6818632483482361, "Quantum sensing": 0.6975513100624084, "Quantum control": 0.6555278897285461 } }, { "id": 5463, "title": "Enantiospecific photoresponse of sterically hindered diarylethenes for chiroptical switches and photomemories", "abstract": "Light-driven transcription, replication and enzyme catalysis are critically dependent upon a delicate transfer between molecular and supramolecular chirality. Chemists have well realized the impressiv...", "citations": 70, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5470, "doi": "10.1038/srep09186", "umap_coordinates": { "x": 391.8233337402344, "y": 135.6293487548828, "z": 204.90794372558594 }, "tsne_coordinates": { "x": 17.30607032775879, "y": -11.623047828674316, "z": -29.88807487487793 }, "pca_coordinates": { "x": -3.216571569442749, "y": -0.16565966606140137, "z": -0.6300920248031616 }, "axis_scores": { "Quantum imaging": 0.6674336791038513, "Quantum Life Science Sensing": 0.6888167858123779, "Quantum sensing Detection": 0.6491773128509521, "Quantum sensing Metrology": 0.6472668051719666, "Quantum sensing navigation": 0.6363321542739868, "Quantum sensing Position": 0.6403090357780457, "Quantum sensing Timing": 0.6478291749954224, "Quantum sensing": 0.6667414903640747, "Quantum control": 0.6483044028282166 } }, { "id": 5464, "title": "Optical coupling in quantum well infrared photodetector by diffraction grating", "abstract": "Because of the isotropic energy band structure of the Gamma electrons in a GaAs/AlGaAs quantum well infrared photodetector (QWIP), normal incident radiation absorption is not possible so that the opti...", "citations": 43, "author_count": 5, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5471, "doi": "10.1063/1.368840", "umap_coordinates": { "x": 393.7070007324219, "y": 134.1027069091797, "z": 208.2346954345703 }, "tsne_coordinates": { "x": 34.77158737182617, "y": -21.35463523864746, "z": -6.270089149475098 }, "pca_coordinates": { "x": 1.946126937866211, "y": -2.4832863807678223, "z": 2.729675769805908 }, "axis_scores": { "Quantum imaging": 0.7535837888717651, "Quantum Life Science Sensing": 0.7480283379554749, "Quantum sensing Detection": 0.7551113963127136, "Quantum sensing Metrology": 0.7456032037734985, "Quantum sensing navigation": 0.732193648815155, "Quantum sensing Position": 0.7153098583221436, "Quantum sensing Timing": 0.722743570804596, "Quantum sensing": 0.7617875933647156, "Quantum control": 0.7201321125030518 } }, { "id": 5465, "title": "BONE-MINERAL DENSITY DURING LONG-TERM PROPHYLAXIS WITH HEPARIN IN PREGNANCY", "abstract": "OBJECTIVE: We studied the effect of long-term heparin treatment on bone mass during pregnancy. STUDY DESIGN: Thromboprophylaxis with heparin was given to 39 women during pregnancy for a mean of 28 wee...", "citations": 101, "author_count": 4, "categories": [ "Obstetrics & Gynecology" ], "year": 1994, "topic": [ "all" ], "embedding_index": 5472, "doi": null, "umap_coordinates": { "x": 391.5628967285156, "y": 139.6522216796875, "z": 209.54225158691406 }, "tsne_coordinates": { "x": 3.641474962234497, "y": 38.818756103515625, "z": 0.010189292952418327 }, "pca_coordinates": { "x": -1.6076637506484985, "y": 4.961667060852051, "z": -1.6786377429962158 }, "axis_scores": { "Quantum imaging": 0.6618328094482422, "Quantum Life Science Sensing": 0.6772037148475647, "Quantum sensing Detection": 0.6454943418502808, "Quantum sensing Metrology": 0.6409975290298462, "Quantum sensing navigation": 0.6806676387786865, "Quantum sensing Position": 0.6567838191986084, "Quantum sensing Timing": 0.6497935056686401, "Quantum sensing": 0.6541900038719177, "Quantum control": 0.6520876884460449 } }, { "id": 5466, "title": "Optimization of a dual-energy contrast-enhanced technique for a photon-counting digital breast tomosynthesis system: II. An experimental validation", "abstract": "Purpose: Previously, the authors developed a dual-energy (DE) acquisition technique for a photon-counting digital breast tomosynthesis (DBT) imaging system. Low-energy (LE) and high-energy (HE) images...", "citations": 26, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5473, "doi": "10.1118/1.3488889", "umap_coordinates": { "x": 395.82861328125, "y": 132.72500610351562, "z": 205.5252685546875 }, "tsne_coordinates": { "x": -11.672455787658691, "y": 23.957921981811523, "z": -26.930782318115234 }, "pca_coordinates": { "x": -2.7531449794769287, "y": 2.0905377864837646, "z": 3.5719223022460938 }, "axis_scores": { "Quantum imaging": 0.730200469493866, "Quantum Life Science Sensing": 0.6925632953643799, "Quantum sensing Detection": 0.7135089039802551, "Quantum sensing Metrology": 0.6930854320526123, "Quantum sensing navigation": 0.6935944557189941, "Quantum sensing Position": 0.6720636487007141, "Quantum sensing Timing": 0.6827556490898132, "Quantum sensing": 0.7065260410308838, "Quantum control": 0.6697760224342346 } }, { "id": 5467, "title": "Nanofabrication of high quality photonic crystals for integrated optics circuits", "abstract": "In this paper we report on the fabrication and characterization of two-dimensional photonic crystals. They are realized as a hexagonal array of air holes etched in GaAs or InP based slab waveguide het...", "citations": 22, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5474, "doi": "10.1088/0957-4484/13/3/320", "umap_coordinates": { "x": 394.2716369628906, "y": 133.92620849609375, "z": 206.06234741210938 }, "tsne_coordinates": { "x": -11.559475898742676, "y": -6.839155673980713, "z": -21.200403213500977 }, "pca_coordinates": { "x": -0.7081340551376343, "y": 0.09866714477539062, "z": 2.084944725036621 }, "axis_scores": { "Quantum imaging": 0.7430068254470825, "Quantum Life Science Sensing": 0.7358911037445068, "Quantum sensing Detection": 0.7059865593910217, "Quantum sensing Metrology": 0.7219547629356384, "Quantum sensing navigation": 0.7192559242248535, "Quantum sensing Position": 0.6786182522773743, "Quantum sensing Timing": 0.6691240668296814, "Quantum sensing": 0.7238253355026245, "Quantum control": 0.712540864944458 } }, { "id": 5468, "title": "Low-power broadband homonuclear dipolar recoupling without decoupling: Double-quantum 13C NMR correlations at very fast magic-angle spinning", "abstract": "We report novel symmetry-based radio-frequency (rf) pulse sequences for efficient excitation of doublequantum (2Q) coherences under very fast (>60 kHz) magic-angle spinning (MAS) conditions. The recur...", "citations": 36, "author_count": 5, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5475, "doi": "10.1016/j.cplett.2012.07.053", "umap_coordinates": { "x": 393.1279602050781, "y": 136.7886199951172, "z": 206.97824096679688 }, "tsne_coordinates": { "x": 14.697569847106934, "y": -1.0182440280914307, "z": 34.48432159423828 }, "pca_coordinates": { "x": -0.07824301719665527, "y": 1.7574689388275146, "z": -0.0020714402198791504 }, "axis_scores": { "Quantum imaging": 0.7042351961135864, "Quantum Life Science Sensing": 0.7029485106468201, "Quantum sensing Detection": 0.6899769306182861, "Quantum sensing Metrology": 0.6533477902412415, "Quantum sensing navigation": 0.6826761960983276, "Quantum sensing Position": 0.6599918007850647, "Quantum sensing Timing": 0.689436137676239, "Quantum sensing": 0.7024235725402832, "Quantum control": 0.6831561326980591 } }, { "id": 5469, "title": "BONE MASS IN AN URBAN AND A RURAL-POPULATION - A COMPARATIVE, POPULATION-BASED STUDY IN SOUTHERN SWEDEN", "abstract": "Several previous studies have reported regional differences in the incidence of hip fractures. A population-based study was performed in the city of Malmo (urban population) and in the municipality of...", "citations": 75, "author_count": 5, "categories": [ "Endocrinology & Metabolism" ], "year": 1991, "topic": [ "all" ], "embedding_index": 5476, "doi": null, "umap_coordinates": { "x": 391.6515808105469, "y": 139.2375946044922, "z": 209.6851806640625 }, "tsne_coordinates": { "x": 1.251280426979065, "y": 38.56773376464844, "z": -0.7117941975593567 }, "pca_coordinates": { "x": -2.8800415992736816, "y": 4.917960166931152, "z": -1.9864311218261719 }, "axis_scores": { "Quantum imaging": 0.643690824508667, "Quantum Life Science Sensing": 0.6830812692642212, "Quantum sensing Detection": 0.6519918441772461, "Quantum sensing Metrology": 0.6640045046806335, "Quantum sensing navigation": 0.6590532660484314, "Quantum sensing Position": 0.6668884754180908, "Quantum sensing Timing": 0.6147542595863342, "Quantum sensing": 0.6595741510391235, "Quantum control": 0.6439765095710754 } }, { "id": 5470, "title": "The exceptional X-ray evolution of SN 1996cr in high resolution", "abstract": "We present X-ray spectra spanning 18 yr of evolution for SN 1996cr, one of the five nearest SNe detected in the modern era. Chandra HETG exposures in 2000, 2004, and 2009 allow us to resolve spectrall...", "citations": 10, "author_count": 8, "categories": [ "Astronomy & Astrophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5477, "doi": "10.1093/mnras/stz2858", "umap_coordinates": { "x": 396.3647766113281, "y": 135.27023315429688, "z": 205.8388214111328 }, "tsne_coordinates": { "x": -31.45277976989746, "y": 27.488027572631836, "z": 4.013243198394775 }, "pca_coordinates": { "x": -0.7378241419792175, "y": 2.5234522819519043, "z": 0.07639330625534058 }, "axis_scores": { "Quantum imaging": 0.6611281633377075, "Quantum Life Science Sensing": 0.6733904480934143, "Quantum sensing Detection": 0.6545332074165344, "Quantum sensing Metrology": 0.6477981209754944, "Quantum sensing navigation": 0.6743081212043762, "Quantum sensing Position": 0.6587819457054138, "Quantum sensing Timing": 0.6752331256866455, "Quantum sensing": 0.6586240530014038, "Quantum control": 0.6300785541534424 } }, { "id": 5471, "title": "Error characterization of the Gaia astrometric solution II. Validating the covariance expansion model", "abstract": "Context. To use the data in the future Gaia catalogue it is important to have accurate estimates of the statistical uncertainties and correlations of the errors in the astrometric data given in the ca...", "citations": 25, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5478, "doi": "10.1051/0004-6361/201218808", "umap_coordinates": { "x": 395.59033203125, "y": 135.326416015625, "z": 205.6531524658203 }, "tsne_coordinates": { "x": -23.130430221557617, "y": 22.586992263793945, "z": 2.527125835418701 }, "pca_coordinates": { "x": -0.7031592130661011, "y": 3.9392075538635254, "z": 0.7981916069984436 }, "axis_scores": { "Quantum imaging": 0.671163022518158, "Quantum Life Science Sensing": 0.6921370625495911, "Quantum sensing Detection": 0.6733879446983337, "Quantum sensing Metrology": 0.7032354474067688, "Quantum sensing navigation": 0.7208343744277954, "Quantum sensing Position": 0.7003289461135864, "Quantum sensing Timing": 0.6844801902770996, "Quantum sensing": 0.6825082898139954, "Quantum control": 0.6739541888237 } }, { "id": 5472, "title": "Comparison of clinical and physical measures of image quality in chest and pelvis computed radiography at different tube voltages", "abstract": "The aim of this work was to study the dependence of image quality in digital chest and pelvis radiography on tube voltage, and to explore correlations between clinical and physical measures of image q...", "citations": 51, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5479, "doi": "10.1118/1.2362871", "umap_coordinates": { "x": 395.78179931640625, "y": 133.1109161376953, "z": 205.02774047851562 }, "tsne_coordinates": { "x": -3.195200204849243, "y": 23.98101806640625, "z": -23.213016510009766 }, "pca_coordinates": { "x": -1.116644263267517, "y": 4.2040181159973145, "z": 2.587311267852783 }, "axis_scores": { "Quantum imaging": 0.7063547372817993, "Quantum Life Science Sensing": 0.7123275995254517, "Quantum sensing Detection": 0.6978738903999329, "Quantum sensing Metrology": 0.6939074397087097, "Quantum sensing navigation": 0.6772134304046631, "Quantum sensing Position": 0.6843615770339966, "Quantum sensing Timing": 0.692394495010376, "Quantum sensing": 0.702563464641571, "Quantum control": 0.6665436029434204 } }, { "id": 5473, "title": "POLARIZED-LIGHT SPECTROSCOPY OF DIHYDROPYRROLOPYRROLEDIONE IN LIQUIDS AND LIQUID-CRYSTALS - MOLECULAR-CONFORMATION AND INFLUENCE BY AN ANISOTROPIC ENVIRONMENT", "abstract": "Different phenyl derivatives of dihydropyrrolopyrrolediones (DPP) have been examined by means of polarized absorption and fluorescence spectroscopy. The derivatives were 3,6-bis(3,5-di-tert-butylpheny...", "citations": 15, "author_count": 4, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5480, "doi": "10.1021/j100021a009", "umap_coordinates": { "x": 393.0309143066406, "y": 136.1396484375, "z": 205.6975555419922 }, "tsne_coordinates": { "x": 12.585556030273438, "y": 12.940454483032227, "z": 11.347943305969238 }, "pca_coordinates": { "x": -1.9713702201843262, "y": -0.32833099365234375, "z": -2.864367723464966 }, "axis_scores": { "Quantum imaging": 0.6980985999107361, "Quantum Life Science Sensing": 0.7146740555763245, "Quantum sensing Detection": 0.6705026626586914, "Quantum sensing Metrology": 0.6407887935638428, "Quantum sensing navigation": 0.6775886416435242, "Quantum sensing Position": 0.6680973768234253, "Quantum sensing Timing": 0.6268973350524902, "Quantum sensing": 0.6889919638633728, "Quantum control": 0.6706098914146423 } }, { "id": 5474, "title": "A BISTABLE SILICON PHOTONIC MEMS PHASE SWITCH FOR NONVOLATILE PHOTONIC CIRCUITS", "abstract": "Silicon photonic circuits are rapidly growing in complexity and spreading to new applications. However, programmable circuits consume much power and require active electrical interfaces. For the first...", "citations": 20, "author_count": 11, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5481, "doi": "10.1109/MEMS51670.2022.9699739", "umap_coordinates": { "x": 394.17236328125, "y": 134.06309509277344, "z": 206.0369110107422 }, "tsne_coordinates": { "x": 4.963747501373291, "y": 4.1619696617126465, "z": -34.33504867553711 }, "pca_coordinates": { "x": -0.7948720455169678, "y": -1.2122211456298828, "z": 1.2712018489837646 }, "axis_scores": { "Quantum imaging": 0.6799328923225403, "Quantum Life Science Sensing": 0.7165886163711548, "Quantum sensing Detection": 0.6991809606552124, "Quantum sensing Metrology": 0.7082982659339905, "Quantum sensing navigation": 0.6908575296401978, "Quantum sensing Position": 0.6867603063583374, "Quantum sensing Timing": 0.7040438652038574, "Quantum sensing": 0.7084604501724243, "Quantum control": 0.6763533353805542 } }, { "id": 5475, "title": "Ultrabright GeV Photon Source via Controlled Electromagnetic Cascades in Laser-Dipole Waves", "abstract": "Electromagnetic cascades have the potential to act as a high-energy photon source of unprecedented brightness. Such a source would offer new experimental possibilities in fundamental science, but in t...", "citations": 106, "author_count": 11, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5482, "doi": "10.1103/PhysRevX.7.041003", "umap_coordinates": { "x": 395.7392883300781, "y": 135.0975341796875, "z": 207.6329803466797 }, "tsne_coordinates": { "x": -8.31075382232666, "y": -15.723417282104492, "z": -0.030888298526406288 }, "pca_coordinates": { "x": 2.7854104042053223, "y": -0.049093008041381836, "z": 1.2564365863800049 }, "axis_scores": { "Quantum imaging": 0.7039923071861267, "Quantum Life Science Sensing": 0.7134673595428467, "Quantum sensing Detection": 0.7030798196792603, "Quantum sensing Metrology": 0.6727888584136963, "Quantum sensing navigation": 0.6852866411209106, "Quantum sensing Position": 0.6564348936080933, "Quantum sensing Timing": 0.6772608160972595, "Quantum sensing": 0.7059850692749023, "Quantum control": 0.6830464601516724 } }, { "id": 5476, "title": "THEORY OF ATOMIC SPECTRAL EMISSION INTENSITY", "abstract": "The theoretical derivation of a new spectral line intensity formula for atomic radiative emission is presented. The theory is based on first principles of quantum physics, electrodynamics, and statist...", "citations": 8, "author_count": 2, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 5483, "doi": "10.1007/BF00670691", "umap_coordinates": { "x": 394.31292724609375, "y": 136.4691619873047, "z": 205.6787567138672 }, "tsne_coordinates": { "x": -14.121316909790039, "y": 10.303756713867188, "z": 7.293455600738525 }, "pca_coordinates": { "x": -0.06958878040313721, "y": 0.5871182680130005, "z": -0.3091138005256653 }, "axis_scores": { "Quantum imaging": 0.764886736869812, "Quantum Life Science Sensing": 0.766524076461792, "Quantum sensing Detection": 0.7481476068496704, "Quantum sensing Metrology": 0.737894594669342, "Quantum sensing navigation": 0.7269288301467896, "Quantum sensing Position": 0.712588906288147, "Quantum sensing Timing": 0.7029016613960266, "Quantum sensing": 0.7561547756195068, "Quantum control": 0.7222799062728882 } }, { "id": 5477, "title": "Design and development of photoswitchable DFG-Out RET kinase inhibitors", "abstract": "REarranged during Transfection (RET) is a transmembrane receptor tyrosine kinase that is required for development of multiple human tissues, but which is also an important contributor to human cancers...", "citations": 13, "author_count": 10, "categories": [ "Pharmacology & Pharmacy" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5484, "doi": "10.1016/j.ejmech.2022.114226", "umap_coordinates": { "x": 392.6714172363281, "y": 134.92347717285156, "z": 204.36050415039062 }, "tsne_coordinates": { "x": 16.612228393554688, "y": -11.466985702514648, "z": -31.722030639648438 }, "pca_coordinates": { "x": -3.9356470108032227, "y": 1.109546184539795, "z": -2.304750442504883 }, "axis_scores": { "Quantum imaging": 0.6989985704421997, "Quantum Life Science Sensing": 0.7233080267906189, "Quantum sensing Detection": 0.6754125356674194, "Quantum sensing Metrology": 0.664223313331604, "Quantum sensing navigation": 0.671089231967926, "Quantum sensing Position": 0.6435507535934448, "Quantum sensing Timing": 0.6605643630027771, "Quantum sensing": 0.691693902015686, "Quantum control": 0.7001067399978638 } }, { "id": 5478, "title": "Internal conversion of the anionic GFP chromophore: in and out of the I-twisted S1/S0 conical intersection seam", "abstract": "The functional diversity of the green fluorescent protein (GFP) family is intimately connected to the interplay between competing photo-induced transformations of the chromophore motif, anionic p-hydr...", "citations": 49, "author_count": 4, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5485, "doi": "10.1039/d1sc05849e", "umap_coordinates": { "x": 392.2873840332031, "y": 136.47543334960938, "z": 205.48675537109375 }, "tsne_coordinates": { "x": 6.285016059875488, "y": -4.698841094970703, "z": -9.33155632019043 }, "pca_coordinates": { "x": -1.0111747980117798, "y": -0.9721441268920898, "z": -1.0439345836639404 }, "axis_scores": { "Quantum imaging": 0.6734278202056885, "Quantum Life Science Sensing": 0.671290397644043, "Quantum sensing Detection": 0.6515613198280334, "Quantum sensing Metrology": 0.6324783563613892, "Quantum sensing navigation": 0.6412687301635742, "Quantum sensing Position": 0.6448642611503601, "Quantum sensing Timing": 0.6417518258094788, "Quantum sensing": 0.6596176028251648, "Quantum control": 0.6360938549041748 } }, { "id": 5479, "title": "Photophysics of Isolated Rose Bengal Anions", "abstract": "Dye molecules based on the xanthene moiety are widely used as fluorescent probes in bioimaging and technological applications due to their large absorption cross-section for visible light and high flu...", "citations": 11, "author_count": 8, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5486, "doi": "10.1021/acs.jpca.0c07123", "umap_coordinates": { "x": 392.55108642578125, "y": 136.10289001464844, "z": 205.18125915527344 }, "tsne_coordinates": { "x": 9.020203590393066, "y": 11.276658058166504, "z": 14.786531448364258 }, "pca_coordinates": { "x": -3.0531115531921387, "y": -0.8568520545959473, "z": -3.1772847175598145 }, "axis_scores": { "Quantum imaging": 0.7183475494384766, "Quantum Life Science Sensing": 0.7420555353164673, "Quantum sensing Detection": 0.7000110149383545, "Quantum sensing Metrology": 0.660152792930603, "Quantum sensing navigation": 0.6620768308639526, "Quantum sensing Position": 0.6547454595565796, "Quantum sensing Timing": 0.6510668396949768, "Quantum sensing": 0.7152052521705627, "Quantum control": 0.6744382381439209 } }, { "id": 5480, "title": "Assessment of the manganese cluster's oxidation state via photoactivation of photosystem II microcrystals", "abstract": "Knowledge of the manganese oxidation states of the oxygenevolving Mn4CaO5 cluster in photosystem II (PSII) is crucial toward understanding the mechanism of biological water oxidation. There is a 4 dec...", "citations": 43, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5487, "doi": "10.1073/pnas.1915879117", "umap_coordinates": { "x": 392.5750732421875, "y": 136.53611755371094, "z": 204.75926208496094 }, "tsne_coordinates": { "x": 19.037914276123047, "y": 9.737430572509766, "z": 11.979764938354492 }, "pca_coordinates": { "x": -2.3587138652801514, "y": -0.37319159507751465, "z": -0.5498893857002258 }, "axis_scores": { "Quantum imaging": 0.7109358906745911, "Quantum Life Science Sensing": 0.7105525732040405, "Quantum sensing Detection": 0.7067550420761108, "Quantum sensing Metrology": 0.7040476202964783, "Quantum sensing navigation": 0.6883386969566345, "Quantum sensing Position": 0.6871228218078613, "Quantum sensing Timing": 0.660417914390564, "Quantum sensing": 0.7106685638427734, "Quantum control": 0.6611822247505188 } }, { "id": 5481, "title": "Temperature response of litter and soil organic matter decomposition is determined by chemical composition of organic material", "abstract": "The global soil carbon pool is approximately three times larger than the contemporary atmospheric pool, therefore even minor changes to its integrity may have major implications for atmospheric CO2 co...", "citations": 78, "author_count": 9, "categories": [ "Biodiversity & Conservation" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5488, "doi": "10.1111/gcb.12342", "umap_coordinates": { "x": 394.320068359375, "y": 135.87290954589844, "z": 203.5467071533203 }, "tsne_coordinates": { "x": 12.186381340026855, "y": 39.171669006347656, "z": 4.084416389465332 }, "pca_coordinates": { "x": -1.5440208911895752, "y": 1.1443359851837158, "z": -1.7823150157928467 }, "axis_scores": { "Quantum imaging": 0.6695809364318848, "Quantum Life Science Sensing": 0.7124426960945129, "Quantum sensing Detection": 0.7029489874839783, "Quantum sensing Metrology": 0.6902918219566345, "Quantum sensing navigation": 0.6815489530563354, "Quantum sensing Position": 0.6581560969352722, "Quantum sensing Timing": 0.6652872562408447, "Quantum sensing": 0.7134245038032532, "Quantum control": 0.7051112651824951 } }, { "id": 5482, "title": "The photosynthetic light response of Halophila stipulacea growing along a depth gradient in the Gulf of Aqaba, the Red Sea", "abstract": "Photosynthetic responses to irradiance were measured on the seagrass Halophila stipulacea growing along an extensive depth gradient (7-30 m) in the Gulf of Aqaba on three occasions between January and...", "citations": 50, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5489, "doi": "10.1016/S0304-3770(02)00080-3", "umap_coordinates": { "x": 393.8795471191406, "y": 136.02857971191406, "z": 203.66822814941406 }, "tsne_coordinates": { "x": 14.381193161010742, "y": 26.400712966918945, "z": 9.680648803710938 }, "pca_coordinates": { "x": -2.0639538764953613, "y": 0.8293697834014893, "z": -1.375449299812317 }, "axis_scores": { "Quantum imaging": 0.6849761605262756, "Quantum Life Science Sensing": 0.724700391292572, "Quantum sensing Detection": 0.688498854637146, "Quantum sensing Metrology": 0.683135449886322, "Quantum sensing navigation": 0.694830060005188, "Quantum sensing Position": 0.7109771966934204, "Quantum sensing Timing": 0.6779754161834717, "Quantum sensing": 0.7035725116729736, "Quantum control": 0.6649855971336365 } }, { "id": 5483, "title": "Investigation of carbohydrate conformation in solution and in powders by double-quantum NMR", "abstract": "Double-quantum heteronuclear local field NMR was appl icd to two C-13(2)-labeled;ci carbohydrate: samples [1,2-C-13(2)]-glucose and methyl-alpha-D-[1,3-C-13(2)]-glucose. The geometry of the H-C-13-C-1...", "citations": 30, "author_count": 6, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5490, "doi": "10.1021/ja9910863", "umap_coordinates": { "x": 392.7120361328125, "y": 136.3988037109375, "z": 205.76414489746094 }, "tsne_coordinates": { "x": 17.49394416809082, "y": 4.762643337249756, "z": 28.786182403564453 }, "pca_coordinates": { "x": -2.212395668029785, "y": 0.7473783493041992, "z": -3.3837571144104004 }, "axis_scores": { "Quantum imaging": 0.6943028569221497, "Quantum Life Science Sensing": 0.7363013029098511, "Quantum sensing Detection": 0.6698815226554871, "Quantum sensing Metrology": 0.6585631966590881, "Quantum sensing navigation": 0.6770525574684143, "Quantum sensing Position": 0.6679627895355225, "Quantum sensing Timing": 0.6465595960617065, "Quantum sensing": 0.6905195713043213, "Quantum control": 0.6639753580093384 } }, { "id": 5484, "title": "Very fast peroxyoxalate chemiluminescence", "abstract": "Peroxyoxalate chemiluminescence (PO-CL) detection offers an advantage in chromatographic detection, by the virtue of its multiple unique selectivities and high sensitivity. However, many of the analyt...", "citations": 21, "author_count": 3, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5491, "doi": "10.1016/S0003-2670(99)00626-1", "umap_coordinates": { "x": 394.4132995605469, "y": 134.97584533691406, "z": 205.23666381835938 }, "tsne_coordinates": { "x": 3.313286066055298, "y": 21.749876022338867, "z": -8.003233909606934 }, "pca_coordinates": { "x": -2.4704573154449463, "y": 1.5820412635803223, "z": 0.2528647780418396 }, "axis_scores": { "Quantum imaging": 0.7016815543174744, "Quantum Life Science Sensing": 0.7214363217353821, "Quantum sensing Detection": 0.6925254464149475, "Quantum sensing Metrology": 0.6742757558822632, "Quantum sensing navigation": 0.6795517206192017, "Quantum sensing Position": 0.6653725504875183, "Quantum sensing Timing": 0.6688863039016724, "Quantum sensing": 0.7037462592124939, "Quantum control": 0.660931408405304 } }, { "id": 5485, "title": "Optimization of the Cold-Electron Bolometer and a Quasiparticle Cascade Amplifier in the Voltage-Biased Mode", "abstract": "An optimized concept of the Cold-Electron Bolometer (CEB) with Superconductor-Insulator-Normal (SIN) Tunnel Junction and Andreev SN contact for voltage-bias mode has been developed. The responsivity o...", "citations": 2, "author_count": 3, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5492, "doi": "10.1109/TASC.2022.3148683", "umap_coordinates": { "x": 394.82000732421875, "y": 134.18350219726562, "z": 207.0070343017578 }, "tsne_coordinates": { "x": -5.130107402801514, "y": -0.13177020847797394, "z": -41.341392517089844 }, "pca_coordinates": { "x": 1.1493725776672363, "y": -0.42870044708251953, "z": 1.4634809494018555 }, "axis_scores": { "Quantum imaging": 0.682649552822113, "Quantum Life Science Sensing": 0.7028059959411621, "Quantum sensing Detection": 0.7014959454536438, "Quantum sensing Metrology": 0.6951213479042053, "Quantum sensing navigation": 0.7024530172348022, "Quantum sensing Position": 0.6925397515296936, "Quantum sensing Timing": 0.6900204420089722, "Quantum sensing": 0.702564001083374, "Quantum control": 0.7003077268600464 } }, { "id": 5486, "title": "Accelerated aging of bio-oil from lignin conversion in subcritical water", "abstract": "Accelerated aging of bio-oil derived from lignin was investigated at different aging temperatures (50 degrees C and 80 degrees C) and times (1 hour, 1 day, 1 week, and 1 month). The bio-oil used was p...", "citations": 3, "author_count": 7, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5493, "doi": null, "umap_coordinates": { "x": 391.51898193359375, "y": 139.7415771484375, "z": 209.41639709472656 }, "tsne_coordinates": { "x": -2.1096608638763428, "y": 48.92612838745117, "z": -1.9401599168777466 }, "pca_coordinates": { "x": -2.302899122238159, "y": 3.0531601905822754, "z": -4.283907413482666 }, "axis_scores": { "Quantum imaging": 0.6561431288719177, "Quantum Life Science Sensing": 0.6916089057922363, "Quantum sensing Detection": 0.632428765296936, "Quantum sensing Metrology": 0.6181991100311279, "Quantum sensing navigation": 0.6552096605300903, "Quantum sensing Position": 0.6121560335159302, "Quantum sensing Timing": 0.6317226886749268, "Quantum sensing": 0.6456485390663147, "Quantum control": 0.6681649088859558 } }, { "id": 5487, "title": "Ultrafast Twisting of the Indoline Donor Unit Utilized in Solar Cell Dyes: Experimental and Theoretical Studies", "abstract": "Previous time-resolved measurements on D149, the most-studied dye of the indoline family, had shown a fast time-component of 20-40 ps that had tentatively been attributed to structural relaxation. Usi...", "citations": 32, "author_count": 4, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5494, "doi": "10.1021/jp505649s", "umap_coordinates": { "x": 392.3048095703125, "y": 136.1931915283203, "z": 205.20565795898438 }, "tsne_coordinates": { "x": -0.23609498143196106, "y": 1.2111499309539795, "z": -4.400778293609619 }, "pca_coordinates": { "x": -1.1293129920959473, "y": -0.5669903755187988, "z": -1.933638334274292 }, "axis_scores": { "Quantum imaging": 0.7140809297561646, "Quantum Life Science Sensing": 0.7142098546028137, "Quantum sensing Detection": 0.6830131411552429, "Quantum sensing Metrology": 0.6841374635696411, "Quantum sensing navigation": 0.6947182416915894, "Quantum sensing Position": 0.6900194883346558, "Quantum sensing Timing": 0.6831637024879456, "Quantum sensing": 0.7057394981384277, "Quantum control": 0.6962162852287292 } }, { "id": 5488, "title": "Exciton spin manipulation in ZnMnSe-based structures", "abstract": "Strong effect of structural design on spin functionality is observed in quantum structures based on II-VI semiconductors. Spin switching is realized when using a thin layer of Zn0.95Mn0.05Se diluted m...", "citations": 3, "author_count": 7, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5495, "doi": "10.1023/A:1023654528705", "umap_coordinates": { "x": 392.3134460449219, "y": 134.89466857910156, "z": 207.23858642578125 }, "tsne_coordinates": { "x": 14.505033493041992, "y": -13.686944961547852, "z": 17.10508155822754 }, "pca_coordinates": { "x": -0.04608869552612305, "y": -3.3860621452331543, "z": -1.3845343589782715 }, "axis_scores": { "Quantum imaging": 0.7174500823020935, "Quantum Life Science Sensing": 0.6988246440887451, "Quantum sensing Detection": 0.6996086239814758, "Quantum sensing Metrology": 0.7016261219978333, "Quantum sensing navigation": 0.7383748888969421, "Quantum sensing Position": 0.7124404907226562, "Quantum sensing Timing": 0.6777999997138977, "Quantum sensing": 0.7099767923355103, "Quantum control": 0.7085767388343811 } }, { "id": 5489, "title": "Interference of two-photon transitions induced by XUV light", "abstract": "The relative phase of first (omega(1)) and third harmonics (omega(3)) extreme ultraviolet light pulses was varied to control the population of the 2s(2) state in helium through the interference of ome...", "citations": 5, "author_count": 21, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5496, "doi": "10.1364/OPTICA.447436", "umap_coordinates": { "x": 394.8335876464844, "y": 134.6209259033203, "z": 206.77667236328125 }, "tsne_coordinates": { "x": -3.4599664211273193, "y": -12.162450790405273, "z": -22.20792579650879 }, "pca_coordinates": { "x": 0.7270379066467285, "y": 1.0405683517456055, "z": 2.7258191108703613 }, "axis_scores": { "Quantum imaging": 0.7679619789123535, "Quantum Life Science Sensing": 0.7267850637435913, "Quantum sensing Detection": 0.7498887181282043, "Quantum sensing Metrology": 0.7317831516265869, "Quantum sensing navigation": 0.7324446439743042, "Quantum sensing Position": 0.6929004788398743, "Quantum sensing Timing": 0.7132574915885925, "Quantum sensing": 0.7489222884178162, "Quantum control": 0.7269949316978455 } }, { "id": 5490, "title": "On the asymptotic states and the quantum S matrix of the η-deformed AdS5 x S5 superstring", "abstract": "We investigate the worldsheet S matrix of string theory in eta-deformed AdS(5) x S-5. By computing the six-point tree-level S matrix we explicitly show that there is no particle production at this lev...", "citations": 17, "author_count": 3, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5497, "doi": "10.1007/JHEP03(2015)168", "umap_coordinates": { "x": 396.5541687011719, "y": 135.73519897460938, "z": 206.94740295410156 }, "tsne_coordinates": { "x": -37.63216018676758, "y": 11.858187675476074, "z": 2.26724910736084 }, "pca_coordinates": { "x": 2.385629653930664, "y": 2.014418363571167, "z": -0.05165070295333862 }, "axis_scores": { "Quantum imaging": 0.6836835145950317, "Quantum Life Science Sensing": 0.6627160310745239, "Quantum sensing Detection": 0.666944146156311, "Quantum sensing Metrology": 0.654414713382721, "Quantum sensing navigation": 0.7022191882133484, "Quantum sensing Position": 0.6924909949302673, "Quantum sensing Timing": 0.6632355451583862, "Quantum sensing": 0.6783282160758972, "Quantum control": 0.6593973636627197 } }, { "id": 5491, "title": "Monte Carlo simulation of correction factors for IAEA TLD holders", "abstract": "The IAEA standard thermoluminescent dosimeter (TLD) holder has been developed for the IAEA/WHO TLD postal dose program for audits of high-energy photon beams, and it is also employed by the ESTRO-QUAL...", "citations": 11, "author_count": 4, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5498, "doi": "10.1088/0031-9155/55/6/N03", "umap_coordinates": { "x": 396.0127868652344, "y": 133.67372131347656, "z": 204.96885681152344 }, "tsne_coordinates": { "x": -13.663082122802734, "y": 33.15464401245117, "z": -18.669416427612305 }, "pca_coordinates": { "x": -1.8777742385864258, "y": 2.951824426651001, "z": 1.407775640487671 }, "axis_scores": { "Quantum imaging": 0.6448907256126404, "Quantum Life Science Sensing": 0.6275806427001953, "Quantum sensing Detection": 0.6090285778045654, "Quantum sensing Metrology": 0.6310719847679138, "Quantum sensing navigation": 0.6430684328079224, "Quantum sensing Position": 0.64683598279953, "Quantum sensing Timing": 0.681483268737793, "Quantum sensing": 0.6327179670333862, "Quantum control": 0.6319864988327026 } }, { "id": 5492, "title": "The IceCube data acquisition system: Signal capture, digitization, and timestamping", "abstract": "IceCube is a km-scale neutrino observatory under construction at the South Pole with sensors both in the deep ice (InIce) and on the surface (IceTop). The sensors, called Digital Optical Modules (DOMs...", "citations": 368, "author_count": 268, "categories": [ "Instruments & Instrumentation" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5499, "doi": "10.1016/j.nima.2009.01.001", "umap_coordinates": { "x": 394.5549011230469, "y": 133.171630859375, "z": 205.3427276611328 }, "tsne_coordinates": { "x": -18.37118148803711, "y": 19.832416534423828, "z": -6.076282024383545 }, "pca_coordinates": { "x": -1.942657232284546, "y": 2.9595065116882324, "z": 1.2072322368621826 }, "axis_scores": { "Quantum imaging": 0.7279244065284729, "Quantum Life Science Sensing": 0.7445159554481506, "Quantum sensing Detection": 0.7282793521881104, "Quantum sensing Metrology": 0.7201136946678162, "Quantum sensing navigation": 0.712556004524231, "Quantum sensing Position": 0.6988118886947632, "Quantum sensing Timing": 0.7432246208190918, "Quantum sensing": 0.7293696403503418, "Quantum control": 0.7088289856910706 } }, { "id": 5493, "title": "New calibration circuitry and concept for AGIPD", "abstract": "AGIPD (adaptive gain integrating pixel detector) is a detector system developed for the European XFEL (XFEL.EU), which is currently being constructed in Hamburg, Germany. The XFEL.EU will operate with...", "citations": 14, "author_count": 22, "categories": [ "Instruments & Instrumentation" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5500, "doi": "10.1088/1748-0221/11/11/C11019", "umap_coordinates": { "x": 395.1163635253906, "y": 134.15805053710938, "z": 206.1144256591797 }, "tsne_coordinates": { "x": -31.132389068603516, "y": 24.612051010131836, "z": -15.700016021728516 }, "pca_coordinates": { "x": -2.339473247528076, "y": 1.4251686334609985, "z": 2.3117148876190186 }, "axis_scores": { "Quantum imaging": 0.6550593972206116, "Quantum Life Science Sensing": 0.6812639236450195, "Quantum sensing Detection": 0.657603919506073, "Quantum sensing Metrology": 0.6598274111747742, "Quantum sensing navigation": 0.6590730547904968, "Quantum sensing Position": 0.6669989824295044, "Quantum sensing Timing": 0.659010112285614, "Quantum sensing": 0.6565265655517578, "Quantum control": 0.6554791927337646 } }, { "id": 5494, "title": "Chemiluminescence as a tool for polyolefin oxidation studies", "abstract": "The oxidation of polymers such as polypropylene and polyethylene is accompanied by weak chemiluminescence. The development of sensitive photon counting systems has made it comparatively easy to measur...", "citations": 49, "author_count": 5, "categories": [ "Polymer Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5501, "doi": "10.1007/b13522", "umap_coordinates": { "x": 393.6354675292969, "y": 135.08509826660156, "z": 204.26890563964844 }, "tsne_coordinates": { "x": 1.4453564882278442, "y": 16.12727928161621, "z": -8.04305362701416 }, "pca_coordinates": { "x": -3.6228184700012207, "y": 1.2844829559326172, "z": -1.4246957302093506 }, "axis_scores": { "Quantum imaging": 0.678081750869751, "Quantum Life Science Sensing": 0.7119424343109131, "Quantum sensing Detection": 0.6879156231880188, "Quantum sensing Metrology": 0.657699704170227, "Quantum sensing navigation": 0.6577933430671692, "Quantum sensing Position": 0.6540524959564209, "Quantum sensing Timing": 0.6301299929618835, "Quantum sensing": 0.6838722229003906, "Quantum control": 0.671261727809906 } }, { "id": 5495, "title": "A source of entangled photon-pairs: Optimizing emission in two quasi-phasematched crystals", "abstract": "We extend our earlier results [1] of a bright source of non-degenerate polarization entangled photon-pairs by making a thorough theoretical and experimental investigation of its single-mode emission a...", "citations": 1, "author_count": 5, "categories": [ "Computer Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5502, "doi": null, "umap_coordinates": { "x": 391.7344055175781, "y": 139.36431884765625, "z": 209.11898803710938 }, "tsne_coordinates": { "x": -6.662459373474121, "y": 38.47636413574219, "z": -10.131382942199707 }, "pca_coordinates": { "x": -0.13859832286834717, "y": 1.5552127361297607, "z": 1.2291836738586426 }, "axis_scores": { "Quantum imaging": 0.7788823246955872, "Quantum Life Science Sensing": 0.7514287233352661, "Quantum sensing Detection": 0.7713930606842041, "Quantum sensing Metrology": 0.7716345191001892, "Quantum sensing navigation": 0.7695484757423401, "Quantum sensing Position": 0.7468187808990479, "Quantum sensing Timing": 0.7448441386222839, "Quantum sensing": 0.7798967361450195, "Quantum control": 0.7592788934707642 } }, { "id": 5496, "title": "GEANT4-based calibration of an organic liquid scintillator", "abstract": "A light-yield calibration of an NE 213A organic liquid scintillator detector has been performed using both monoenergetic and polyenergetic gamma-ray sources. Scintillation light was detected in a phot...", "citations": 8, "author_count": 12, "categories": [ "Instruments & Instrumentation" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5503, "doi": "10.1016/j.nima.2021.165962", "umap_coordinates": { "x": 394.4820251464844, "y": 133.28823852539062, "z": 205.26702880859375 }, "tsne_coordinates": { "x": -17.678998947143555, "y": 17.955453872680664, "z": -8.38857364654541 }, "pca_coordinates": { "x": -2.5048861503601074, "y": 1.4807933568954468, "z": 1.3364238739013672 }, "axis_scores": { "Quantum imaging": 0.7209274172782898, "Quantum Life Science Sensing": 0.730234682559967, "Quantum sensing Detection": 0.7162470817565918, "Quantum sensing Metrology": 0.7169100046157837, "Quantum sensing navigation": 0.7319326400756836, "Quantum sensing Position": 0.7259441018104553, "Quantum sensing Timing": 0.720242977142334, "Quantum sensing": 0.7263718843460083, "Quantum control": 0.6835070252418518 } }, { "id": 5497, "title": "Power Efficient Communications Employing Phase Sensitive Pre-Amplified Receiver", "abstract": "The receiver sensitivity is a very important metric in optical communication links operating at low received signal powers. Phase sensitive optical amplifiers (PSAs) can amplify optical signals withou...", "citations": 10, "author_count": 5, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5504, "doi": "10.1109/LPT.2021.3130430", "umap_coordinates": { "x": 394.7181396484375, "y": 133.7796173095703, "z": 206.70343017578125 }, "tsne_coordinates": { "x": 3.1915414333343506, "y": -1.7036116123199463, "z": -35.21678161621094 }, "pca_coordinates": { "x": -1.4515143632888794, "y": 0.3919711112976074, "z": 2.846900463104248 }, "axis_scores": { "Quantum imaging": 0.7064985036849976, "Quantum Life Science Sensing": 0.7098992466926575, "Quantum sensing Detection": 0.7114800214767456, "Quantum sensing Metrology": 0.6937063336372375, "Quantum sensing navigation": 0.692173421382904, "Quantum sensing Position": 0.6949223875999451, "Quantum sensing Timing": 0.6867630481719971, "Quantum sensing": 0.7169302105903625, "Quantum control": 0.6892920136451721 } }, { "id": 5498, "title": "Photon statistics and signal to noise ratio for incoherent diffraction imaging", "abstract": "Intensity interferometry is a well known method in astronomy. Recently, a related method called incoherent diffractive imaging (IDI) was proposed to apply intensity correlations of x-ray fluorescence ...", "citations": 13, "author_count": 4, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5505, "doi": "10.1088/1367-2630/aba85c", "umap_coordinates": { "x": 395.3932189941406, "y": 133.95863342285156, "z": 205.98779296875 }, "tsne_coordinates": { "x": -6.7389912605285645, "y": 9.243884086608887, "z": -17.153921127319336 }, "pca_coordinates": { "x": -0.9989961385726929, "y": 0.8958674669265747, "z": 3.963754177093506 }, "axis_scores": { "Quantum imaging": 0.7486935257911682, "Quantum Life Science Sensing": 0.7123021483421326, "Quantum sensing Detection": 0.716071605682373, "Quantum sensing Metrology": 0.7103628516197205, "Quantum sensing navigation": 0.7126579284667969, "Quantum sensing Position": 0.6697618365287781, "Quantum sensing Timing": 0.6862215995788574, "Quantum sensing": 0.7203073501586914, "Quantum control": 0.6718544363975525 } }, { "id": 5499, "title": "Fluorescence depolarization studies of filamentous actin analyzed with a genetic algorithm", "abstract": "A new method, in which a genetic algorithm was combined with Brownian dynamics and Monte Carlo simulations, was developed to analyze fluorescence depolarization data collected by the time-correlated s...", "citations": 11, "author_count": 6, "categories": [ "Biophysics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5506, "doi": "10.1529/biophysj.107.107920", "umap_coordinates": { "x": 393.66436767578125, "y": 136.22573852539062, "z": 204.91943359375 }, "tsne_coordinates": { "x": 15.156373023986816, "y": 15.512730598449707, "z": 10.376765251159668 }, "pca_coordinates": { "x": -0.8792447447776794, "y": 1.6470047235488892, "z": 0.07213300466537476 }, "axis_scores": { "Quantum imaging": 0.6642337441444397, "Quantum Life Science Sensing": 0.6839479207992554, "Quantum sensing Detection": 0.6426538825035095, "Quantum sensing Metrology": 0.6418448090553284, "Quantum sensing navigation": 0.6675558090209961, "Quantum sensing Position": 0.6403786540031433, "Quantum sensing Timing": 0.6355577707290649, "Quantum sensing": 0.649520993232727, "Quantum control": 0.6323564648628235 } }, { "id": 5500, "title": "MEASUREMENT OF THE COLLISION-QUENCHED LIFETIME OF CO MOLECULES IN A FLAME AT ATMOSPHERIC-PRESSURE", "abstract": "Direct measurement of the quenching rate for CO molecules in a flame at atmospheric pressure has been made using laser-induced fluorescence. The CO molecules were excited from the ground X (1)SIGMA+ s...", "citations": 30, "author_count": 3, "categories": [ "Chemistry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5507, "doi": "10.1016/0009-2614(92)85126-U", "umap_coordinates": { "x": 394.134033203125, "y": 136.4446258544922, "z": 205.97381591796875 }, "tsne_coordinates": { "x": -4.635160446166992, "y": 11.283872604370117, "z": 3.620265483856201 }, "pca_coordinates": { "x": -0.0032143592834472656, "y": 2.834794282913208, "z": 0.7957304120063782 }, "axis_scores": { "Quantum imaging": 0.695105791091919, "Quantum Life Science Sensing": 0.7350318431854248, "Quantum sensing Detection": 0.7197161316871643, "Quantum sensing Metrology": 0.7032257914543152, "Quantum sensing navigation": 0.6871628165245056, "Quantum sensing Position": 0.6982642412185669, "Quantum sensing Timing": 0.7149350643157959, "Quantum sensing": 0.7226012349128723, "Quantum control": 0.686370313167572 } }, { "id": 5501, "title": "Accounting for quantum effects in atomistic spin dynamics", "abstract": "Atomistic spin dynamics (ASD) is a standard tool to model the magnetization dynamics of a variety of materials. The fundamental dynamical model underlying ASD is entirely classical. In this paper, we ...", "citations": 3, "author_count": 5, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5508, "doi": "10.1103/PhysRevB.109.174441", "umap_coordinates": { "x": 393.8014831542969, "y": 137.5172882080078, "z": 208.55665588378906 }, "tsne_coordinates": { "x": -4.41255521774292, "y": -29.952903747558594, "z": 29.098058700561523 }, "pca_coordinates": { "x": 5.161924839019775, "y": 0.4921461343765259, "z": -2.2041099071502686 }, "axis_scores": { "Quantum imaging": 0.7370908260345459, "Quantum Life Science Sensing": 0.7241821885108948, "Quantum sensing Detection": 0.7229306697845459, "Quantum sensing Metrology": 0.7121433019638062, "Quantum sensing navigation": 0.7441202402114868, "Quantum sensing Position": 0.6920918226242065, "Quantum sensing Timing": 0.7166252732276917, "Quantum sensing": 0.7387933731079102, "Quantum control": 0.7455055117607117 } }, { "id": 5502, "title": "Biologically inspired enhancement of dim light video", "abstract": "In this chapter a technology for the enhancement of video data obtained at low light levels is presented. The method was inspired by the way in which nocturnal animals adaptively sum intensities, spat...", "citations": 1, "author_count": 4, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5509, "doi": null, "umap_coordinates": { "x": 391.5565185546875, "y": 139.280517578125, "z": 209.40196228027344 }, "tsne_coordinates": { "x": 0.8273856043815613, "y": 35.65262222290039, "z": -5.602870941162109 }, "pca_coordinates": { "x": -2.662076950073242, "y": 3.9231855869293213, "z": -0.5528739094734192 }, "axis_scores": { "Quantum imaging": 0.7378200888633728, "Quantum Life Science Sensing": 0.7102168798446655, "Quantum sensing Detection": 0.7029600739479065, "Quantum sensing Metrology": 0.678418755531311, "Quantum sensing navigation": 0.698997437953949, "Quantum sensing Position": 0.6582746505737305, "Quantum sensing Timing": 0.6607848405838013, "Quantum sensing": 0.7083759307861328, "Quantum control": 0.7199543714523315 } }, { "id": 5503, "title": "On pseudospin symmetry of Dirac states", "abstract": "Some aspects of pseudospin symmetry for bound Dirac particle states of finite potentials vanishing as r -> +infinity are discussed. Energy states showing pseudospin symmetry are of interest in nuclear...", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5510, "doi": "10.1088/0031-8949/87/02/025004", "umap_coordinates": { "x": 394.4873352050781, "y": 136.89425659179688, "z": 207.22793579101562 }, "tsne_coordinates": { "x": -25.377151489257812, "y": -2.1263437271118164, "z": 27.64455795288086 }, "pca_coordinates": { "x": 2.575113296508789, "y": 1.0953705310821533, "z": -0.2192169427871704 }, "axis_scores": { "Quantum imaging": 0.7142285704612732, "Quantum Life Science Sensing": 0.7120680212974548, "Quantum sensing Detection": 0.7072488069534302, "Quantum sensing Metrology": 0.716038167476654, "Quantum sensing navigation": 0.7377067804336548, "Quantum sensing Position": 0.7275131344795227, "Quantum sensing Timing": 0.701404333114624, "Quantum sensing": 0.7220473289489746, "Quantum control": 0.7037045359611511 } }, { "id": 5504, "title": "8.0% Efficient All-Polymer Solar Cells with High Photovoltage of 1.1 V and Internal Quantum Efficiency near Unity", "abstract": "In very recent years, growing efforts have been devoted to the development of all-polymer solar cells (all-PSCs). One of the advantages of all-PSCs over the fullerene-based PSCs is the versatile desig...", "citations": 85, "author_count": 12, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5511, "doi": "10.1002/aenm.201700908", "umap_coordinates": { "x": 392.3961181640625, "y": 133.36700439453125, "z": 205.2024688720703 }, "tsne_coordinates": { "x": 26.377334594726562, "y": 8.157382011413574, "z": -18.0435733795166 }, "pca_coordinates": { "x": -3.2518205642700195, "y": -2.4783339500427246, "z": 1.3882713317871094 }, "axis_scores": { "Quantum imaging": 0.6670236587524414, "Quantum Life Science Sensing": 0.6904411315917969, "Quantum sensing Detection": 0.6487943530082703, "Quantum sensing Metrology": 0.6580095887184143, "Quantum sensing navigation": 0.6456876397132874, "Quantum sensing Position": 0.6228413581848145, "Quantum sensing Timing": 0.6110398769378662, "Quantum sensing": 0.6662966012954712, "Quantum control": 0.6309177279472351 } }, { "id": 5505, "title": "Predictions for the 21 cm-galaxy cross-power spectrum observable with LOFAR and Subaru", "abstract": "The 21 cm-galaxy cross-power spectrum is expected to be one of the promising probes of the Epoch of Reionization (EoR), as it could offer information about the progress of reionization and the typical...", "citations": 30, "author_count": 12, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5512, "doi": "10.1093/mnras/stv2993", "umap_coordinates": { "x": 396.1738586425781, "y": 135.69602966308594, "z": 205.70799255371094 }, "tsne_coordinates": { "x": -31.22441291809082, "y": 28.571931838989258, "z": 6.64298152923584 }, "pca_coordinates": { "x": -0.2970951795578003, "y": 2.973975658416748, "z": 1.1386804580688477 }, "axis_scores": { "Quantum imaging": 0.6657003164291382, "Quantum Life Science Sensing": 0.7026059031486511, "Quantum sensing Detection": 0.6857476234436035, "Quantum sensing Metrology": 0.6938313841819763, "Quantum sensing navigation": 0.7034440636634827, "Quantum sensing Position": 0.6823882460594177, "Quantum sensing Timing": 0.6507065892219543, "Quantum sensing": 0.6909722089767456, "Quantum control": 0.6464012861251831 } }, { "id": 5506, "title": "Influence of dimensionality and interface type on optical and electronic properties of CdS/ZnS core-shell nanocrystals-A first-principles study", "abstract": "Semiconducting nanocrystals (NCs) have become one of the leading materials in a variety of applications, mainly due to their size tunable band gap and high intensity emission. Their photoluminescence ...", "citations": 7, "author_count": 6, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5513, "doi": "10.1063/1.4933058", "umap_coordinates": { "x": 392.58251953125, "y": 133.6188507080078, "z": 207.26873779296875 }, "tsne_coordinates": { "x": 24.054582595825195, "y": -3.1276650428771973, "z": 1.6575148105621338 }, "pca_coordinates": { "x": -0.8132902979850769, "y": -4.159308433532715, "z": -1.1002742052078247 }, "axis_scores": { "Quantum imaging": 0.7324844598770142, "Quantum Life Science Sensing": 0.7605690956115723, "Quantum sensing Detection": 0.7416427731513977, "Quantum sensing Metrology": 0.712411642074585, "Quantum sensing navigation": 0.7045670747756958, "Quantum sensing Position": 0.6870433688163757, "Quantum sensing Timing": 0.6712181568145752, "Quantum sensing": 0.7475497126579285, "Quantum control": 0.7149497866630554 } }, { "id": 5507, "title": "Solubilization of Poly{1,4-phenylene-[9,9-bis(4-phenoxy-butylsulfonate)]fluorene-2,7-diyl} in Water by Nonionic Amphiphiles", "abstract": "In the presence of the nonionic alkyloxyethylene surfactant n-dodecylpentaoxyethylene glycol ether (C12E5), the anionic conjugated polyelectrolyte (CPE) poly{1,4-phenylene-[9,9-bis(4-phenoxy-butylsulf...", "citations": 42, "author_count": 14, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5514, "doi": "10.1021/la8042044", "umap_coordinates": { "x": 393.0535583496094, "y": 135.823486328125, "z": 204.55416870117188 }, "tsne_coordinates": { "x": 27.308609008789062, "y": 30.33547019958496, "z": -10.755622863769531 }, "pca_coordinates": { "x": -2.5962159633636475, "y": -1.459472417831421, "z": -1.9713528156280518 }, "axis_scores": { "Quantum imaging": 0.6591953039169312, "Quantum Life Science Sensing": 0.6956067085266113, "Quantum sensing Detection": 0.6487816572189331, "Quantum sensing Metrology": 0.6375011801719666, "Quantum sensing navigation": 0.6532915234565735, "Quantum sensing Position": 0.6395243406295776, "Quantum sensing Timing": 0.6085630655288696, "Quantum sensing": 0.6645942330360413, "Quantum control": 0.6416017413139343 } }, { "id": 5508, "title": "Extending the Tavis-Cummings model for molecular ensembles-Exploring the effects of dipole self-energies and static dipole moments", "abstract": "Strong coupling of organic molecules to the vacuum field of a nanoscale cavity can be used to modify their chemical and physical properties. We extend the Tavis-Cummings model for molecular ensembles ...", "citations": 9, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5515, "doi": "10.1063/5.0214362", "umap_coordinates": { "x": 393.4527587890625, "y": 137.0875244140625, "z": 206.0654296875 }, "tsne_coordinates": { "x": 0.6671818494796753, "y": 21.665807723999023, "z": 28.044597625732422 }, "pca_coordinates": { "x": -0.22466611862182617, "y": 1.117344856262207, "z": -3.5967979431152344 }, "axis_scores": { "Quantum imaging": 0.6429811120033264, "Quantum Life Science Sensing": 0.6865266561508179, "Quantum sensing Detection": 0.6300415992736816, "Quantum sensing Metrology": 0.6491991877555847, "Quantum sensing navigation": 0.6538287401199341, "Quantum sensing Position": 0.6233452558517456, "Quantum sensing Timing": 0.6273065805435181, "Quantum sensing": 0.6539313793182373, "Quantum control": 0.6486436128616333 } }, { "id": 5509, "title": "2 x 300 Gbit/s Line Rate PS-64QAM-OFDM THz Photonic-Wireless Transmission", "abstract": "The proliferation of wireless broadband services have significantly raised the demand for high data rates. Due to the limited bandwidth of radio frequency (RF) bands that are currently in use for comm...", "citations": 100, "author_count": 13, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5516, "doi": "10.1109/JLT.2020.2995702", "umap_coordinates": { "x": 394.9173889160156, "y": 133.8346405029297, "z": 206.52366638183594 }, "tsne_coordinates": { "x": 3.17581844329834, "y": -0.2422909140586853, "z": -37.39634704589844 }, "pca_coordinates": { "x": -1.290021300315857, "y": -0.017603397369384766, "z": 1.5508918762207031 }, "axis_scores": { "Quantum imaging": 0.6963249444961548, "Quantum Life Science Sensing": 0.7174656987190247, "Quantum sensing Detection": 0.6848498582839966, "Quantum sensing Metrology": 0.6911295652389526, "Quantum sensing navigation": 0.6945273280143738, "Quantum sensing Position": 0.6871046423912048, "Quantum sensing Timing": 0.702559769153595, "Quantum sensing": 0.6983661651611328, "Quantum control": 0.680966854095459 } }, { "id": 5510, "title": "Photodetection probability in quantum systems with arbitrarily strong light-matter interaction", "abstract": "Cavity-QED systems have recently reached a regime where the light-matter interaction strength amounts to a non-negligible fraction of the resonance frequencies of the bare subsystems. In this regime, ...", "citations": 22, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5517, "doi": "10.1038/s41598-018-36056-1", "umap_coordinates": { "x": 395.28839111328125, "y": 136.3995361328125, "z": 206.52487182617188 }, "tsne_coordinates": { "x": -7.658919334411621, "y": -9.614432334899902, "z": -13.054469108581543 }, "pca_coordinates": { "x": 0.7291700839996338, "y": 0.0752403736114502, "z": 2.084398031234741 }, "axis_scores": { "Quantum imaging": 0.7804098129272461, "Quantum Life Science Sensing": 0.7685716152191162, "Quantum sensing Detection": 0.7838545441627502, "Quantum sensing Metrology": 0.7460343241691589, "Quantum sensing navigation": 0.7448168992996216, "Quantum sensing Position": 0.7362280488014221, "Quantum sensing Timing": 0.7179166674613953, "Quantum sensing": 0.7843196988105774, "Quantum control": 0.7198903560638428 } }, { "id": 5511, "title": "BASIS LIGHT-FRONT QUANTIZATION: A NEW APPROACH TO NON-PERTURBATIVE SCATTERING AND TIME-DEPENDENT PRODUCTION PROCESSES", "abstract": "Hamiltonian light-front quantum field theory constitutes a framework for deriving invariant masses, correlated parton amplitudes of self-bound systems and time-dependent scattering amplitudes. By choo...", "citations": 8, "author_count": 7, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5518, "doi": "10.5506/APhysPolBSupp.6.257", "umap_coordinates": { "x": 395.3436584472656, "y": 136.07164001464844, "z": 205.66465759277344 }, "tsne_coordinates": { "x": -23.435998916625977, "y": 26.909990310668945, "z": 14.199204444885254 }, "pca_coordinates": { "x": -0.6086635589599609, "y": 1.9229179620742798, "z": 0.5462948679924011 }, "axis_scores": { "Quantum imaging": 0.7056544423103333, "Quantum Life Science Sensing": 0.7124685645103455, "Quantum sensing Detection": 0.7052713632583618, "Quantum sensing Metrology": 0.6842285394668579, "Quantum sensing navigation": 0.7080687284469604, "Quantum sensing Position": 0.6927956342697144, "Quantum sensing Timing": 0.6890860795974731, "Quantum sensing": 0.7166289687156677, "Quantum control": 0.7129583954811096 } }, { "id": 5512, "title": "Direct observation of Young's double-slit interferences in vibrationally resolved photoionization of diatomic molecules", "abstract": "Vibrationally resolved valence-shell photoionization spectra of H(2), N(2) and CO have been measured in the photon energy range 20-300 eV using third-generation synchrotron radiation. Young's double-s...", "citations": 116, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5519, "doi": "10.1073/pnas.1018534108", "umap_coordinates": { "x": 394.1888427734375, "y": 135.7478485107422, "z": 206.6973876953125 }, "tsne_coordinates": { "x": -4.357493877410889, "y": -19.373090744018555, "z": -18.530744552612305 }, "pca_coordinates": { "x": -0.31542670726776123, "y": -0.39205121994018555, "z": 1.6524438858032227 }, "axis_scores": { "Quantum imaging": 0.7233439683914185, "Quantum Life Science Sensing": 0.7283292412757874, "Quantum sensing Detection": 0.7189348936080933, "Quantum sensing Metrology": 0.6888213753700256, "Quantum sensing navigation": 0.6930763721466064, "Quantum sensing Position": 0.6775040030479431, "Quantum sensing Timing": 0.6964752674102783, "Quantum sensing": 0.7225140333175659, "Quantum control": 0.6628614664077759 } }, { "id": 5513, "title": "Resonant states induced by impurities in heterostructures", "abstract": "A study of the formation of resonant states in the conduction band, induced by impurities outside heterostructure quantum wells, is presented. We derive general expressions for the capture and scatter...", "citations": 21, "author_count": 5, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5520, "doi": "10.1103/PhysRevB.65.155302", "umap_coordinates": { "x": 394.2891845703125, "y": 135.30319213867188, "z": 209.25241088867188 }, "tsne_coordinates": { "x": -1.7333974838256836, "y": -31.917882919311523, "z": -5.876344203948975 }, "pca_coordinates": { "x": 5.4051594734191895, "y": -3.1460490226745605, "z": -0.5279000401496887 }, "axis_scores": { "Quantum imaging": 0.7087664604187012, "Quantum Life Science Sensing": 0.7126075029373169, "Quantum sensing Detection": 0.7203360795974731, "Quantum sensing Metrology": 0.7043617963790894, "Quantum sensing navigation": 0.7175601720809937, "Quantum sensing Position": 0.6801990866661072, "Quantum sensing Timing": 0.6761382818222046, "Quantum sensing": 0.7265885472297668, "Quantum control": 0.7004984617233276 } }, { "id": 5514, "title": "Science and practice of imaging physics through 50 years of SPIE Medical Imaging conferences", "abstract": "Purpose: For 50 years now, SPIE Medical Imaging (MI) conferences have been the premier forum for disseminating and sharing new ideas, technologies, and concepts on the physics of MI. Approach: Our ove...", "citations": 4, "author_count": 14, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5521, "doi": "10.1117/1.JMI.9.S1.012205", "umap_coordinates": { "x": 395.4178771972656, "y": 132.74960327148438, "z": 205.2701873779297 }, "tsne_coordinates": { "x": -8.246580123901367, "y": 16.902040481567383, "z": -19.50589942932129 }, "pca_coordinates": { "x": -1.7659838199615479, "y": 2.1239168643951416, "z": 2.102672576904297 }, "axis_scores": { "Quantum imaging": 0.7645050287246704, "Quantum Life Science Sensing": 0.7484332919120789, "Quantum sensing Detection": 0.7152783274650574, "Quantum sensing Metrology": 0.7262130379676819, "Quantum sensing navigation": 0.7006497979164124, "Quantum sensing Position": 0.6862574219703674, "Quantum sensing Timing": 0.703155517578125, "Quantum sensing": 0.7274945974349976, "Quantum control": 0.6894161701202393 } }, { "id": 5515, "title": "Electrical measurements of a multi-mode hybrid pixel detector ASIC for radiation detection", "abstract": "We present the first electrical measurements of an application-specific integrated circuit (ASIC) to be used in a hybrid pixel detector intended for dosimetry and radiation detection. The dosimeter ha...", "citations": 8, "author_count": 16, "categories": [ "Instruments & Instrumentation" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5522, "doi": "10.1088/1748-0221/7/01/C01056", "umap_coordinates": { "x": 395.748291015625, "y": 133.32681274414062, "z": 206.03221130371094 }, "tsne_coordinates": { "x": -25.302648544311523, "y": 21.574922561645508, "z": -12.178532600402832 }, "pca_coordinates": { "x": -1.3876795768737793, "y": 0.19919729232788086, "z": 4.162601470947266 }, "axis_scores": { "Quantum imaging": 0.7077543139457703, "Quantum Life Science Sensing": 0.7202075123786926, "Quantum sensing Detection": 0.705454409122467, "Quantum sensing Metrology": 0.6990835070610046, "Quantum sensing navigation": 0.6794736981391907, "Quantum sensing Position": 0.6860885620117188, "Quantum sensing Timing": 0.693884015083313, "Quantum sensing": 0.7090246677398682, "Quantum control": 0.6355606913566589 } }, { "id": 5516, "title": "Dependence of the broad Fe Kα line on the physical parameters of AGN", "abstract": "In this paper, the dependence of the broad Fe K alpha line on the physical parameters of AGN, such as the black hole mass M-BH, accretion rate (equivalently represented by Eddington ratio lambda(Edd))...", "citations": 8, "author_count": 7, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5523, "doi": "10.1093/mnras/stw2042", "umap_coordinates": { "x": 396.085205078125, "y": 135.79763793945312, "z": 205.6475067138672 }, "tsne_coordinates": { "x": -31.33246421813965, "y": 27.195823669433594, "z": 6.825071334838867 }, "pca_coordinates": { "x": -0.6472399830818176, "y": 1.1692583560943604, "z": -0.6195164918899536 }, "axis_scores": { "Quantum imaging": 0.6623772978782654, "Quantum Life Science Sensing": 0.6975042819976807, "Quantum sensing Detection": 0.6727728843688965, "Quantum sensing Metrology": 0.6707028150558472, "Quantum sensing navigation": 0.6868589520454407, "Quantum sensing Position": 0.6760295033454895, "Quantum sensing Timing": 0.659717321395874, "Quantum sensing": 0.6808286905288696, "Quantum control": 0.6328360438346863 } }, { "id": 5517, "title": "Strategy for PLIF single-shot HCO imaging in turbulent methane/air flames", "abstract": "Formyl (HCO) has since long been recognized as a common intermediate species and a potential local indicator of the major heat release in hydrocarbon combustion. Consequently, the detection of HCO is ...", "citations": 49, "author_count": 6, "categories": [ "Thermodynamics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5524, "doi": "10.1016/j.combustflame.2013.11.019", "umap_coordinates": { "x": 394.28460693359375, "y": 134.62486267089844, "z": 205.19810485839844 }, "tsne_coordinates": { "x": -16.796371459960938, "y": 4.007906436920166, "z": -12.258060455322266 }, "pca_coordinates": { "x": -3.4309682846069336, "y": 1.9223754405975342, "z": 0.7023705840110779 }, "axis_scores": { "Quantum imaging": 0.6986222267150879, "Quantum Life Science Sensing": 0.6753817796707153, "Quantum sensing Detection": 0.6724019050598145, "Quantum sensing Metrology": 0.6728247404098511, "Quantum sensing navigation": 0.6567632555961609, "Quantum sensing Position": 0.654614269733429, "Quantum sensing Timing": 0.657184362411499, "Quantum sensing": 0.6817927360534668, "Quantum control": 0.6794689297676086 } }, { "id": 5518, "title": "Specific Binding of a β-Cyclodextrin Dimer to the Amyloid β Peptide Modulates the Peptide Aggregation Process", "abstract": "Alzheimer's disease involves progressive neuronal loss. Linked to the disease is the amyloid beta (A beta) peptide, a 38-43-amino acid peptide found in extracellular amyloid plaques in the brain. Cycl...", "citations": 56, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5525, "doi": "10.1021/bi300341j", "umap_coordinates": { "x": 392.72088623046875, "y": 135.5005645751953, "z": 204.27703857421875 }, "tsne_coordinates": { "x": 27.90225601196289, "y": 25.464853286743164, "z": 2.4482219219207764 }, "pca_coordinates": { "x": -1.103123664855957, "y": -1.1320505142211914, "z": -2.3142781257629395 }, "axis_scores": { "Quantum imaging": 0.6791603565216064, "Quantum Life Science Sensing": 0.6927580237388611, "Quantum sensing Detection": 0.6783464550971985, "Quantum sensing Metrology": 0.644942045211792, "Quantum sensing navigation": 0.6657789349555969, "Quantum sensing Position": 0.6423185467720032, "Quantum sensing Timing": 0.6443443894386292, "Quantum sensing": 0.6859139204025269, "Quantum control": 0.6831740736961365 } }, { "id": 5519, "title": "Comparison of two methods for evaluation of image quality of lumbar spine radiographs", "abstract": "Purpose To evaluate the image quality of clinical radiographs with two different methods, and to find correlations between the two methods. Methods Based on fifteen lumbar spine radiographs, two new s...", "citations": 13, "author_count": 8, "categories": [ "Imaging Science & Photographic Technology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5526, "doi": "10.1117/12.534040", "umap_coordinates": { "x": 395.7378845214844, "y": 132.83314514160156, "z": 205.38397216796875 }, "tsne_coordinates": { "x": -3.3113062381744385, "y": 24.651216506958008, "z": -22.4390811920166 }, "pca_coordinates": { "x": -2.4166040420532227, "y": 3.318657636642456, "z": 1.8716115951538086 }, "axis_scores": { "Quantum imaging": 0.7049385905265808, "Quantum Life Science Sensing": 0.6841050386428833, "Quantum sensing Detection": 0.6782780289649963, "Quantum sensing Metrology": 0.6839765310287476, "Quantum sensing navigation": 0.6843594908714294, "Quantum sensing Position": 0.680963397026062, "Quantum sensing Timing": 0.656823992729187, "Quantum sensing": 0.6844112277030945, "Quantum control": 0.655531644821167 } }, { "id": 5520, "title": "CHARACTERIZATION OF THE SUBMICROMETER PHASE IN SURFACE WATERS - A REVIEW", "abstract": "The need for improved knowledge about the composition and behaviour of solid matter in the colloidal size range (1 nm to 1 mu m) in natural waters has been identified by several authors in the literat...", "citations": 24, "author_count": 5, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5527, "doi": "10.1039/an9952000603", "umap_coordinates": { "x": 393.5627746582031, "y": 135.17454528808594, "z": 204.42379760742188 }, "tsne_coordinates": { "x": 9.357549667358398, "y": 21.12813949584961, "z": 9.672922134399414 }, "pca_coordinates": { "x": -2.659417152404785, "y": 0.7806041240692139, "z": -2.63443660736084 }, "axis_scores": { "Quantum imaging": 0.6871250867843628, "Quantum Life Science Sensing": 0.764777421951294, "Quantum sensing Detection": 0.7002853155136108, "Quantum sensing Metrology": 0.719478964805603, "Quantum sensing navigation": 0.7019194960594177, "Quantum sensing Position": 0.685093879699707, "Quantum sensing Timing": 0.6574937105178833, "Quantum sensing": 0.7172787189483643, "Quantum control": 0.6610389947891235 } }, { "id": 5521, "title": "LIGHT AND TEMPERATURE-DEPENDENT INHIBITION OF PHOTOSYNTHESIS IN FROST-HARDENED AND UNHARDENED SEEDLINGS OF PINE", "abstract": "Needles of un-hardened and frost-hardended seedlings of Pinus sylvestris and Pinus contorta were exposed to photoinhibitory photo fluxes densities at temperatures between 0 and 35.degree. C under labo...", "citations": 38, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1989, "topic": [ "all" ], "embedding_index": 5528, "doi": null, "umap_coordinates": { "x": 391.88330078125, "y": 139.3328094482422, "z": 209.7959747314453 }, "tsne_coordinates": { "x": 0.7341018915176392, "y": 45.395328521728516, "z": 1.0618786811828613 }, "pca_coordinates": { "x": -2.853938579559326, "y": 3.2511649131774902, "z": -2.151294231414795 }, "axis_scores": { "Quantum imaging": 0.7168477773666382, "Quantum Life Science Sensing": 0.7365398406982422, "Quantum sensing Detection": 0.7105356454849243, "Quantum sensing Metrology": 0.7014355063438416, "Quantum sensing navigation": 0.6949000358581543, "Quantum sensing Position": 0.6738470792770386, "Quantum sensing Timing": 0.6907077431678772, "Quantum sensing": 0.7243544459342957, "Quantum control": 0.7262553572654724 } }, { "id": 5522, "title": "QM/MM Study of the Formation of the Dioxetanone Ring in Fireflies through a Superoxide Ion", "abstract": "The bioluminescence emission from fireflies is an astounding tool to mark and view cells. However, the bioluminescent mechanism is not completely deciphered, limiting the comprehension of key processe...", "citations": 17, "author_count": 4, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5529, "doi": "10.1021/acs.jpcb.8b00642", "umap_coordinates": { "x": 392.8551025390625, "y": 136.29244995117188, "z": 204.790771484375 }, "tsne_coordinates": { "x": 0.3899557888507843, "y": 6.250314712524414, "z": 4.975837230682373 }, "pca_coordinates": { "x": -2.405280113220215, "y": 0.7548732757568359, "z": -2.1924407482147217 }, "axis_scores": { "Quantum imaging": 0.7198807001113892, "Quantum Life Science Sensing": 0.7205485701560974, "Quantum sensing Detection": 0.7042139172554016, "Quantum sensing Metrology": 0.68006432056427, "Quantum sensing navigation": 0.6995331645011902, "Quantum sensing Position": 0.6930280923843384, "Quantum sensing Timing": 0.6579723358154297, "Quantum sensing": 0.700278639793396, "Quantum control": 0.6816830039024353 } }, { "id": 5523, "title": "Yields and Time-of-Flight Spectra of Neutral High-Rydberg Fragments at the K Edges of the CO2 Molecule", "abstract": "We have studied the production of neutral fragments in high-Rydberg (HR) states at the C is and O is edges of the CO2 molecule by performing two kinds of experiments. First, the yields of neutral HR f...", "citations": 5, "author_count": 6, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5530, "doi": "10.1021/acs.jpca.6b04495", "umap_coordinates": { "x": 392.5360412597656, "y": 136.37875366210938, "z": 205.772216796875 }, "tsne_coordinates": { "x": 4.976403713226318, "y": 8.00791072845459, "z": 16.01202392578125 }, "pca_coordinates": { "x": -1.655975580215454, "y": -0.6383898258209229, "z": -3.311847686767578 }, "axis_scores": { "Quantum imaging": 0.7010018229484558, "Quantum Life Science Sensing": 0.7158284783363342, "Quantum sensing Detection": 0.6817206144332886, "Quantum sensing Metrology": 0.6530253887176514, "Quantum sensing navigation": 0.660779595375061, "Quantum sensing Position": 0.6557270884513855, "Quantum sensing Timing": 0.6820856928825378, "Quantum sensing": 0.7007320523262024, "Quantum control": 0.6878757476806641 } }, { "id": 5524, "title": "Fluorescence emission at core-to-Rydberg excitations in the N2 molecule", "abstract": "Fluorescence emission at the N 1s edge of the N-2 molecule has been studied with synchrotron radiation excitation. The partial fluorescence yields in the ultraviolet (250-320 nm) and visible (300-650 ...", "citations": 2, "author_count": 7, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5531, "doi": "10.1088/0953-4075/42/18/185103", "umap_coordinates": { "x": 393.6666564941406, "y": 135.8799591064453, "z": 206.2156524658203 }, "tsne_coordinates": { "x": 1.3152666091918945, "y": 1.5174670219421387, "z": 18.996076583862305 }, "pca_coordinates": { "x": -0.38839828968048096, "y": -0.2530364990234375, "z": -0.42854487895965576 }, "axis_scores": { "Quantum imaging": 0.7252816557884216, "Quantum Life Science Sensing": 0.728779137134552, "Quantum sensing Detection": 0.7113684415817261, "Quantum sensing Metrology": 0.6961948275566101, "Quantum sensing navigation": 0.711444616317749, "Quantum sensing Position": 0.6822127103805542, "Quantum sensing Timing": 0.6767264008522034, "Quantum sensing": 0.7218713760375977, "Quantum control": 0.6760799884796143 } }, { "id": 5525, "title": "Isolation and structural identification of glycopolymers of Bifidobacterium bifidum BIM B-733D as putative players in pathogenesis of autoimmune thyroid diseases", "abstract": "Bifidobacterium bifidum 791 (commercially available as B. bifidum BIM B-733D) cell-surface biopolymers (BPs) interact selectively with human serum thyroid peroxidase (TPO) and thyroglobulin (Tg) autoa...", "citations": 11, "author_count": 8, "categories": [ "Microbiology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5532, "doi": "10.3920/BM2013.0015", "umap_coordinates": { "x": 394.2813720703125, "y": 135.12135314941406, "z": 204.088623046875 }, "tsne_coordinates": { "x": 12.12193775177002, "y": 18.979999542236328, "z": 4.288609504699707 }, "pca_coordinates": { "x": -2.7600326538085938, "y": 1.4908610582351685, "z": -2.6354551315307617 }, "axis_scores": { "Quantum imaging": 0.6934890151023865, "Quantum Life Science Sensing": 0.7009592056274414, "Quantum sensing Detection": 0.6773542165756226, "Quantum sensing Metrology": 0.6888260245323181, "Quantum sensing navigation": 0.6779274940490723, "Quantum sensing Position": 0.6744139790534973, "Quantum sensing Timing": 0.6637622714042664, "Quantum sensing": 0.6823117733001709, "Quantum control": 0.6754652857780457 } }, { "id": 5526, "title": "Attojoule Superconducting Thermal Logic and Memories", "abstract": "Due to stringent thermal budgets in cryogenic technologies such as superconducting quantum computers and sensors, electronic building blocks that simultaneously offer low energy consumption, fast swit...", "citations": 3, "author_count": 9, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5533, "doi": "10.1021/acs.nanolett.4c06545", "umap_coordinates": { "x": 393.629150390625, "y": 134.4202880859375, "z": 206.57481384277344 }, "tsne_coordinates": { "x": 8.41767692565918, "y": -18.725500106811523, "z": 4.747386932373047 }, "pca_coordinates": { "x": 1.726262092590332, "y": -2.604729175567627, "z": -0.10092729330062866 }, "axis_scores": { "Quantum imaging": 0.7163851857185364, "Quantum Life Science Sensing": 0.738715410232544, "Quantum sensing Detection": 0.72846919298172, "Quantum sensing Metrology": 0.7129225730895996, "Quantum sensing navigation": 0.7159530520439148, "Quantum sensing Position": 0.6915163397789001, "Quantum sensing Timing": 0.7362349629402161, "Quantum sensing": 0.7446150779724121, "Quantum control": 0.7068155407905579 } }, { "id": 5527, "title": "An analogue of the Heisenberg uncertainty relation in prequantum classical field theory", "abstract": "Prequantum classical statistical field theory (PCSFT) is a model that provides the possibility of representing averages of quantum observables, including correlations of observables on subsystems of a...", "citations": 17, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5534, "doi": "10.1088/0031-8949/81/06/065001", "umap_coordinates": { "x": 395.48651123046875, "y": 137.61618041992188, "z": 206.7781524658203 }, "tsne_coordinates": { "x": -34.91152572631836, "y": 1.9991992712020874, "z": 20.485387802124023 }, "pca_coordinates": { "x": 2.5540847778320312, "y": 4.954659461975098, "z": 0.7467491030693054 }, "axis_scores": { "Quantum imaging": 0.7159600853919983, "Quantum Life Science Sensing": 0.7225556969642639, "Quantum sensing Detection": 0.7156384587287903, "Quantum sensing Metrology": 0.7232911586761475, "Quantum sensing navigation": 0.7178758382797241, "Quantum sensing Position": 0.7204946875572205, "Quantum sensing Timing": 0.7115955352783203, "Quantum sensing": 0.724358320236206, "Quantum control": 0.6945613622665405 } }, { "id": 5528, "title": "Photolelectrochemistry of nanostructured WO3 thin film electrodes for water oxidation:: Mechanism of electron transport", "abstract": "Nanostructured WO3 thin films were prepared, and photooxidation of water at such films was studied in a pH 4.68 solution. The cathodic current at potentials below -100 mV versus a saturated Ag/AgCl el...", "citations": 245, "author_count": 6, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5535, "doi": "10.1021/jp0002751", "umap_coordinates": { "x": 392.25091552734375, "y": 134.68759155273438, "z": 205.79359436035156 }, "tsne_coordinates": { "x": 20.686113357543945, "y": 9.13983154296875, "z": 3.2964017391204834 }, "pca_coordinates": { "x": -2.750584840774536, "y": -3.1120662689208984, "z": -1.359116792678833 }, "axis_scores": { "Quantum imaging": 0.6909086108207703, "Quantum Life Science Sensing": 0.7347326874732971, "Quantum sensing Detection": 0.6873502731323242, "Quantum sensing Metrology": 0.6760567426681519, "Quantum sensing navigation": 0.6886274218559265, "Quantum sensing Position": 0.6726709008216858, "Quantum sensing Timing": 0.6534906625747681, "Quantum sensing": 0.7046198844909668, "Quantum control": 0.6741746664047241 } }, { "id": 5529, "title": "Quantum Monte Carlo study of dynamic magnetic properties of nano-graphene", "abstract": "Using the Quantum Monte Carlo simulation (QMCS), the dynamic blocking temperature of a nanographene bilayer has been investigated within the framework of the Transverse Ising Model (TIM) with mixed sp...", "citations": 41, "author_count": 6, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5536, "doi": "10.1016/j.jmmm.2018.04.007", "umap_coordinates": { "x": 393.2326354980469, "y": 136.5038299560547, "z": 207.38243103027344 }, "tsne_coordinates": { "x": -2.138298988342285, "y": 11.27888011932373, "z": 39.6939582824707 }, "pca_coordinates": { "x": 0.6424028873443604, "y": 0.6832994222640991, "z": -3.025589942932129 }, "axis_scores": { "Quantum imaging": 0.7638458013534546, "Quantum Life Science Sensing": 0.7725111246109009, "Quantum sensing Detection": 0.7385433316230774, "Quantum sensing Metrology": 0.7412698864936829, "Quantum sensing navigation": 0.762100100517273, "Quantum sensing Position": 0.7235104441642761, "Quantum sensing Timing": 0.6919341087341309, "Quantum sensing": 0.7611138820648193, "Quantum control": 0.7543251514434814 } }, { "id": 5530, "title": "Ultrafast soft X-ray scattering and reference-enhanced diffractive imaging of weakly scattering nanoparticles", "abstract": "We report the first successful reconstruction of the real space image from coherent X-ray diffraction patterns of membrane-supported nanoparticles using single ultrafast pulses. The particles consiste...", "citations": 19, "author_count": 10, "categories": [ "Spectroscopy" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5537, "doi": "10.1016/j.elspec.2008.06.004", "umap_coordinates": { "x": 394.4743957519531, "y": 133.4322967529297, "z": 205.59335327148438 }, "tsne_coordinates": { "x": -15.468088150024414, "y": 10.016916275024414, "z": -15.4571533203125 }, "pca_coordinates": { "x": -3.769026279449463, "y": -0.2245774269104004, "z": 1.354163646697998 }, "axis_scores": { "Quantum imaging": 0.7377169132232666, "Quantum Life Science Sensing": 0.7247864603996277, "Quantum sensing Detection": 0.7124985456466675, "Quantum sensing Metrology": 0.6942827701568604, "Quantum sensing navigation": 0.6905736327171326, "Quantum sensing Position": 0.6950606107711792, "Quantum sensing Timing": 0.6647312641143799, "Quantum sensing": 0.720545768737793, "Quantum control": 0.6632819175720215 } }, { "id": 5531, "title": "Studies of Zγ production in association with a high-mass dijet system in pp collisions at√s=8 TeV with the ATLAS detector", "abstract": "The production of a Z boson and a photon in association with a high-mass dijet system is studied using 20.2 fb(-1) of proton-proton collision data at a centre-of-mass energy of root s = 8TeV recorded ...", "citations": 33, "author_count": 2665, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5538, "doi": "10.1007/JHEP07(2017)107", "umap_coordinates": { "x": 396.9881896972656, "y": 134.41552734375, "z": 207.39678955078125 }, "tsne_coordinates": { "x": -34.84772872924805, "y": 10.252229690551758, "z": -7.163053035736084 }, "pca_coordinates": { "x": -0.3396616578102112, "y": 2.2749826908111572, "z": 1.5948138236999512 }, "axis_scores": { "Quantum imaging": 0.6912052631378174, "Quantum Life Science Sensing": 0.6741162538528442, "Quantum sensing Detection": 0.6768344640731812, "Quantum sensing Metrology": 0.6416818499565125, "Quantum sensing navigation": 0.6686728596687317, "Quantum sensing Position": 0.6708557605743408, "Quantum sensing Timing": 0.6969425082206726, "Quantum sensing": 0.6722859740257263, "Quantum control": 0.6702011227607727 } }, { "id": 5532, "title": "Analog of Formula of Total Probability for Quantum Observables Represented by Positive Operator Valued Measures", "abstract": "We represent Born's rule as an analog of the formula of total probability (FTP): the classical formula is perturbed by an additive interference term. In this note we consider practically the most gene...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5539, "doi": "10.1007/s10773-016-3015-x", "umap_coordinates": { "x": 395.3447570800781, "y": 137.17259216308594, "z": 205.87356567382812 }, "tsne_coordinates": { "x": -24.051284790039062, "y": 0.5815482139587402, "z": 14.153343200683594 }, "pca_coordinates": { "x": 1.1262433528900146, "y": 2.4556591510772705, "z": 1.6298432350158691 }, "axis_scores": { "Quantum imaging": 0.7413151860237122, "Quantum Life Science Sensing": 0.7462857961654663, "Quantum sensing Detection": 0.7582767009735107, "Quantum sensing Metrology": 0.7569025158882141, "Quantum sensing navigation": 0.7391599416732788, "Quantum sensing Position": 0.7442159056663513, "Quantum sensing Timing": 0.736792802810669, "Quantum sensing": 0.7613606452941895, "Quantum control": 0.7193226218223572 } }, { "id": 5533, "title": "Electronic structure of SnO2(110)-4 x 1 and sputtered SnO2(110) revealed by resonant photoemission", "abstract": "The surface properties of SnO2(1 1 0)-4 x 1 and sputtered SnO2(1 1 0) were studied comparatively by resonant photoemission of the valence band states in a photon energy range of 60-130 eV. Resonating ...", "citations": 26, "author_count": 9, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5540, "doi": "10.1016/S0039-6028(01)01801-5", "umap_coordinates": { "x": 393.0774230957031, "y": 135.19818115234375, "z": 207.5272979736328 }, "tsne_coordinates": { "x": 11.977179527282715, "y": -41.049110412597656, "z": 5.707393169403076 }, "pca_coordinates": { "x": -0.24051350355148315, "y": -2.424468517303467, "z": 0.12941068410873413 }, "axis_scores": { "Quantum imaging": 0.6813226938247681, "Quantum Life Science Sensing": 0.711031973361969, "Quantum sensing Detection": 0.6835957169532776, "Quantum sensing Metrology": 0.6693742871284485, "Quantum sensing navigation": 0.6923737525939941, "Quantum sensing Position": 0.6669735312461853, "Quantum sensing Timing": 0.6573296189308167, "Quantum sensing": 0.6938971281051636, "Quantum control": 0.6592557430267334 } }, { "id": 5534, "title": "Novel detector for portal imaging in radiation therapy", "abstract": "We are developing a novel concept for portal imaging that would allow for on-line control and verification of the radiation treatment of cancer patients both at diagnostic and therapeutic energies. Th...", "citations": 16, "author_count": 8, "categories": [ "Engineering" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5541, "doi": "10.1117/12.384550", "umap_coordinates": { "x": 395.6734924316406, "y": 132.77149963378906, "z": 205.73048400878906 }, "tsne_coordinates": { "x": -7.406064510345459, "y": 24.257383346557617, "z": -23.130491256713867 }, "pca_coordinates": { "x": -2.1327295303344727, "y": 2.2091310024261475, "z": 3.5487895011901855 }, "axis_scores": { "Quantum imaging": 0.7470078468322754, "Quantum Life Science Sensing": 0.7203203439712524, "Quantum sensing Detection": 0.7336362600326538, "Quantum sensing Metrology": 0.7052444219589233, "Quantum sensing navigation": 0.7165442109107971, "Quantum sensing Position": 0.6994050145149231, "Quantum sensing Timing": 0.7034919857978821, "Quantum sensing": 0.7192579507827759, "Quantum control": 0.6768863797187805 } }, { "id": 5535, "title": "RECOVERY OF PHOTOSYNTHESIS IN WINTER-STRESSED SCOTS PINE", "abstract": "Winter-induced inhibition of photosynthesis in Scots pine (Pinus sylvestris L.) is caused by the combined effects of light and freezing temperatures; light causes photoinhibition of photosystem 11 (St...", "citations": 126, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1991, "topic": [ "all" ], "embedding_index": 5542, "doi": "10.1111/j.1365-3040.1991.tb01511.x", "umap_coordinates": { "x": 394.442626953125, "y": 136.08743286132812, "z": 203.6797637939453 }, "tsne_coordinates": { "x": 10.256759643554688, "y": 34.025882720947266, "z": 13.147417068481445 }, "pca_coordinates": { "x": -1.4256891012191772, "y": 0.9850091934204102, "z": -0.6341026425361633 }, "axis_scores": { "Quantum imaging": 0.6523033380508423, "Quantum Life Science Sensing": 0.6914976835250854, "Quantum sensing Detection": 0.6589590311050415, "Quantum sensing Metrology": 0.6566388607025146, "Quantum sensing navigation": 0.6565573215484619, "Quantum sensing Position": 0.6393293142318726, "Quantum sensing Timing": 0.6725381016731262, "Quantum sensing": 0.6733233332633972, "Quantum control": 0.6573476195335388 } }, { "id": 5536, "title": "Electroabsorption spectroscopy of intersubband transitions in multiple-quantum-well superlattices", "abstract": "We apply intersubband electroabsorption spectroscopy to a current-carrying multiple quantum-well structure device, in order to simultaneously measure the steady state carrier density and the average t...", "citations": 3, "author_count": 6, "categories": [ "Materials Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5543, "doi": "10.1103/PhysRevB.61.10972", "umap_coordinates": { "x": 393.3126525878906, "y": 135.19065856933594, "z": 208.92405700683594 }, "tsne_coordinates": { "x": 15.773053169250488, "y": -37.55939483642578, "z": -2.572611093521118 }, "pca_coordinates": { "x": 3.006713390350342, "y": -3.9578208923339844, "z": 1.1924374103546143 }, "axis_scores": { "Quantum imaging": 0.6994712352752686, "Quantum Life Science Sensing": 0.7117993831634521, "Quantum sensing Detection": 0.6945497393608093, "Quantum sensing Metrology": 0.7028247117996216, "Quantum sensing navigation": 0.6813321709632874, "Quantum sensing Position": 0.6698047518730164, "Quantum sensing Timing": 0.6659403443336487, "Quantum sensing": 0.7106308341026306, "Quantum control": 0.6295342445373535 } }, { "id": 5537, "title": "A new imaeing technology based on Compton X-ray scattering", "abstract": "A feasible implementation of a novel X-ray detector for highly energetic X-ray photons with a large solid angle coverage, optimal for the detection of Compton X-ray scattered photons, is described. Th...", "citations": 3, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5544, "doi": "10.1107/S1600577521005919", "umap_coordinates": { "x": 395.43408203125, "y": 134.17120361328125, "z": 205.6565399169922 }, "tsne_coordinates": { "x": -15.677230834960938, "y": 9.00576114654541, "z": -21.015695571899414 }, "pca_coordinates": { "x": -1.9557278156280518, "y": 2.2843806743621826, "z": 2.049475908279419 }, "axis_scores": { "Quantum imaging": 0.7210075855255127, "Quantum Life Science Sensing": 0.7322263717651367, "Quantum sensing Detection": 0.7019223570823669, "Quantum sensing Metrology": 0.7110575437545776, "Quantum sensing navigation": 0.6959348917007446, "Quantum sensing Position": 0.6808558106422424, "Quantum sensing Timing": 0.6746439337730408, "Quantum sensing": 0.7114461064338684, "Quantum control": 0.679596483707428 } }, { "id": 5538, "title": "Colloid dynamics and transport of major elements through a boreal river -: brackish bay mixing zone", "abstract": "A range of biogeochemical methodologies were applied to investigate how aggregation processes affected the phase distribution and mixing of Fe, Si, and organic carbon between the Kalix River and the B...", "citations": 97, "author_count": 7, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5545, "doi": "10.1016/S0304-4203(00)00035-9", "umap_coordinates": { "x": 393.78057861328125, "y": 135.5120086669922, "z": 204.51309204101562 }, "tsne_coordinates": { "x": 9.770384788513184, "y": 22.73406410217285, "z": 14.191670417785645 }, "pca_coordinates": { "x": -1.8437695503234863, "y": 0.7344944477081299, "z": -2.832305669784546 }, "axis_scores": { "Quantum imaging": 0.6822770237922668, "Quantum Life Science Sensing": 0.7123672366142273, "Quantum sensing Detection": 0.6604187488555908, "Quantum sensing Metrology": 0.6667307615280151, "Quantum sensing navigation": 0.7109104990959167, "Quantum sensing Position": 0.6836027503013611, "Quantum sensing Timing": 0.634869396686554, "Quantum sensing": 0.6808210015296936, "Quantum control": 0.6643447279930115 } }, { "id": 5539, "title": "Phase behavior of synthetic amphiphile vesicles investigated by calorimetry and fluorescence methods", "abstract": "The understanding of biological membranes may be improved by investigating physical properties of vesicles from natural or synthetic amphiphiles. The application of vesicles as mimetic agents depends ...", "citations": 37, "author_count": 5, "categories": [ "Thermodynamics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5546, "doi": "10.1016/S0040-6031(98)00634-0", "umap_coordinates": { "x": 393.303466796875, "y": 135.76229858398438, "z": 205.23501586914062 }, "tsne_coordinates": { "x": 29.760639190673828, "y": 16.682846069335938, "z": 7.145520210266113 }, "pca_coordinates": { "x": -2.0684401988983154, "y": 0.5651054382324219, "z": -2.7274210453033447 }, "axis_scores": { "Quantum imaging": 0.6726712584495544, "Quantum Life Science Sensing": 0.7353702187538147, "Quantum sensing Detection": 0.6583526134490967, "Quantum sensing Metrology": 0.6774483323097229, "Quantum sensing navigation": 0.6709301471710205, "Quantum sensing Position": 0.6488566398620605, "Quantum sensing Timing": 0.6377875804901123, "Quantum sensing": 0.6780520081520081, "Quantum control": 0.6677407622337341 } }, { "id": 5540, "title": "Hybrid Imaging for Patient-Specific Dosimetry in Radionuclide Therapy", "abstract": "Radionuclide therapy aims to treat malignant diseases by systemic administration of radiopharmaceuticals, often using carrier molecules such as peptides and antibodies. The radionuclides used emit ele...", "citations": 18, "author_count": 3, "categories": [ "General & Internal Medicine" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5547, "doi": "10.3390/diagnostics5030296", "umap_coordinates": { "x": 395.2093200683594, "y": 133.00794982910156, "z": 204.8608856201172 }, "tsne_coordinates": { "x": 1.7695057392120361, "y": 28.18473243713379, "z": -12.710490226745605 }, "pca_coordinates": { "x": -3.5585007667541504, "y": 2.3002755641937256, "z": 2.111516237258911 }, "axis_scores": { "Quantum imaging": 0.7313178181648254, "Quantum Life Science Sensing": 0.7210826277732849, "Quantum sensing Detection": 0.6904563307762146, "Quantum sensing Metrology": 0.6955521106719971, "Quantum sensing navigation": 0.6935073137283325, "Quantum sensing Position": 0.6671113967895508, "Quantum sensing Timing": 0.6887039542198181, "Quantum sensing": 0.6985727548599243, "Quantum control": 0.6461309790611267 } }, { "id": 5541, "title": "X-ray spectroscopy of highly-charged heavy ions at FAIR", "abstract": "In the current contribution, we give an overview of the envisioned X-ray spectroscopy program within the atomic physics research collaboration SPARC (Stored Particle Atomic Research Collaboration) at ...", "citations": 41, "author_count": 14, "categories": [ "Instruments & Instrumentation" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5548, "doi": "10.1016/j.nimb.2008.10.079", "umap_coordinates": { "x": 394.73095703125, "y": 133.42178344726562, "z": 205.5016632080078 }, "tsne_coordinates": { "x": -15.786711692810059, "y": 11.292266845703125, "z": -13.06362533569336 }, "pca_coordinates": { "x": -1.7733869552612305, "y": 1.2862249612808228, "z": 0.385049045085907 }, "axis_scores": { "Quantum imaging": 0.7130793333053589, "Quantum Life Science Sensing": 0.7095457315444946, "Quantum sensing Detection": 0.6906762719154358, "Quantum sensing Metrology": 0.678931713104248, "Quantum sensing navigation": 0.6744807362556458, "Quantum sensing Position": 0.6787276864051819, "Quantum sensing Timing": 0.6698671579360962, "Quantum sensing": 0.7051578760147095, "Quantum control": 0.6535359621047974 } }, { "id": 5542, "title": "EXPERIMENTAL ESTIMATION OF CONVERSION FACTORS BETWEEN AIR KERMA FREE-IN-AIR AND INDIVIDUAL DOSE EQUIVALENT PENETRATING FOR 4-7 MEV PHOTONS", "abstract": "The conversion factor for 4-7 MeV photons for conversion from the air kerma free-in-air to the ambient dose equivalent is 1.11-1.10 according to ICRP publication 51. For normal incidence the ambient d...", "citations": 1, "author_count": 2, "categories": [ "Environmental Sciences & Ecology" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5549, "doi": null, "umap_coordinates": { "x": 391.8828430175781, "y": 139.3197479248047, "z": 209.34078979492188 }, "tsne_coordinates": { "x": -4.019259929656982, "y": 39.66053009033203, "z": -5.961031913757324 }, "pca_coordinates": { "x": -1.8386781215667725, "y": 4.285569190979004, "z": 0.26249945163726807 }, "axis_scores": { "Quantum imaging": 0.7546536922454834, "Quantum Life Science Sensing": 0.7595210671424866, "Quantum sensing Detection": 0.7326980829238892, "Quantum sensing Metrology": 0.7340748906135559, "Quantum sensing navigation": 0.7389558553695679, "Quantum sensing Position": 0.7136088609695435, "Quantum sensing Timing": 0.7018696069717407, "Quantum sensing": 0.750867486000061, "Quantum control": 0.7187026739120483 } }, { "id": 5543, "title": "New Insight into Ethylenediaminetetraacetic Acid Tetrasodium Salt as a Sacrificing Sodium Ion Source for Sodium-Deficient Cathode Materials for Full Cells", "abstract": "Sacrificing sodium supply sources is needed for sodium-deficient cathode materials to achieve commercialization of sodium-ion full cells using sodium-ion intercalation anode materials. Herein, the pot...", "citations": 45, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5550, "doi": "10.1021/acsami.8b18488", "umap_coordinates": { "x": 391.91064453125, "y": 134.06710815429688, "z": 204.9185791015625 }, "tsne_coordinates": { "x": 15.543333053588867, "y": 6.987086772918701, "z": -17.130861282348633 }, "pca_coordinates": { "x": -2.962420701980591, "y": -1.5061635971069336, "z": -0.9141579866409302 }, "axis_scores": { "Quantum imaging": 0.6534814834594727, "Quantum Life Science Sensing": 0.6678992509841919, "Quantum sensing Detection": 0.6394990086555481, "Quantum sensing Metrology": 0.6333885192871094, "Quantum sensing navigation": 0.6515372395515442, "Quantum sensing Position": 0.6261590123176575, "Quantum sensing Timing": 0.6350276470184326, "Quantum sensing": 0.645482063293457, "Quantum control": 0.608535885810852 } }, { "id": 5544, "title": "Diagnosing and grading heart failure with tomographic perfusion lung scintigraphy: validation with right heart catheterization", "abstract": "AimsPulmonary congestion remains a diagnostic challenge in patients with heart failure (HF). The recommended method, chest X-ray (CXR), lacks in accuracy, whereas quantitative tomographic lung scintig...", "citations": 12, "author_count": 6, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5551, "doi": "10.1002/ehf2.12317", "umap_coordinates": { "x": 395.5303955078125, "y": 134.0272674560547, "z": 204.6848907470703 }, "tsne_coordinates": { "x": -8.747719764709473, "y": 31.934640884399414, "z": -7.436651229858398 }, "pca_coordinates": { "x": -2.961402416229248, "y": 4.472261428833008, "z": 1.4617488384246826 }, "axis_scores": { "Quantum imaging": 0.716681957244873, "Quantum Life Science Sensing": 0.7004202008247375, "Quantum sensing Detection": 0.7000430822372437, "Quantum sensing Metrology": 0.6931836009025574, "Quantum sensing navigation": 0.6961619853973389, "Quantum sensing Position": 0.6734912991523743, "Quantum sensing Timing": 0.678705096244812, "Quantum sensing": 0.7035516500473022, "Quantum control": 0.6799683570861816 } }, { "id": 5545, "title": "REFINED SOLUTION STRUCTURE OF THE GLUCOCORTICOID RECEPTOR DNA-BINDING DOMAIN", "abstract": "A refined solution structure of the glucocorticoid receptor DNA-binding domain (GR DBD) has been determined using two- and three-dimensional nuclear magnetic resonance (NMR) spectroscopy on an N-15-la...", "citations": 104, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5552, "doi": "10.1021/bi00212a011", "umap_coordinates": { "x": 393.24200439453125, "y": 136.62110900878906, "z": 205.73521423339844 }, "tsne_coordinates": { "x": 15.582574844360352, "y": 13.586394309997559, "z": 24.48853302001953 }, "pca_coordinates": { "x": -0.6636379361152649, "y": 0.6621873378753662, "z": -3.622931480407715 }, "axis_scores": { "Quantum imaging": 0.6816806197166443, "Quantum Life Science Sensing": 0.7037763595581055, "Quantum sensing Detection": 0.676436185836792, "Quantum sensing Metrology": 0.6799993515014648, "Quantum sensing navigation": 0.7035735249519348, "Quantum sensing Position": 0.6885843873023987, "Quantum sensing Timing": 0.657429039478302, "Quantum sensing": 0.6946860551834106, "Quantum control": 0.6756160259246826 } }, { "id": 5546, "title": "Event-by-event charged-neutral fluctuations in Pb plus Pb collisions at 158 A GeV", "abstract": "Charged particles and photons have been measured in central Pb + Pb collisions at 158 A GeV in a common (eta-phi)-phase space region in the WA98 experiment at the CERN SPS. The measured distributions ...", "citations": 17, "author_count": 132, "categories": [ "Astronomy & Astrophysics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5553, "doi": "10.1016/j.physletb.2011.06.003", "umap_coordinates": { "x": 396.8859558105469, "y": 134.39268493652344, "z": 207.73963928222656 }, "tsne_coordinates": { "x": -29.805397033691406, "y": 2.1900672912597656, "z": -9.597384452819824 }, "pca_coordinates": { "x": 0.982935905456543, "y": 1.1207278966903687, "z": -0.29064512252807617 }, "axis_scores": { "Quantum imaging": 0.693761944770813, "Quantum Life Science Sensing": 0.6897500157356262, "Quantum sensing Detection": 0.6998716592788696, "Quantum sensing Metrology": 0.6785957217216492, "Quantum sensing navigation": 0.7038394212722778, "Quantum sensing Position": 0.6966984868049622, "Quantum sensing Timing": 0.7087788581848145, "Quantum sensing": 0.6991565823554993, "Quantum control": 0.7077872157096863 } }, { "id": 5547, "title": "Circularly polarized RABBITT applied to a Rabi-cycling atom", "abstract": "We utilize the reconstruction of attosecond beating by interference of two-photon transitions (RABBITT) technique to study the phase of a Rabi-cycling atom using circularly polarized extreme ultraviol...", "citations": 5, "author_count": 7, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5554, "doi": "10.1103/PhysRevA.109.043104", "umap_coordinates": { "x": 394.684814453125, "y": 136.7004852294922, "z": 207.81192016601562 }, "tsne_coordinates": { "x": -23.497976303100586, "y": -13.281939506530762, "z": 16.778059005737305 }, "pca_coordinates": { "x": 2.087198257446289, "y": 0.775932788848877, "z": -1.4405629634857178 }, "axis_scores": { "Quantum imaging": 0.7001157999038696, "Quantum Life Science Sensing": 0.7341289520263672, "Quantum sensing Detection": 0.7037747502326965, "Quantum sensing Metrology": 0.6848275661468506, "Quantum sensing navigation": 0.7016723155975342, "Quantum sensing Position": 0.6798413395881653, "Quantum sensing Timing": 0.6826309561729431, "Quantum sensing": 0.7125123143196106, "Quantum control": 0.713064432144165 } }, { "id": 5548, "title": "PT symmetry-protected exceptional cones and analogue Hawking radiation", "abstract": "Non-Hermitian Hamiltonians, which effectively describe dissipative systems, and analogue gravity models, which simulate properties of gravitational objects, comprise seemingly different areas of curre...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5555, "doi": "10.1088/1367-2630/acc6e5", "umap_coordinates": { "x": 394.64471435546875, "y": 136.38241577148438, "z": 206.27268981933594 }, "tsne_coordinates": { "x": -23.394834518432617, "y": -2.6040542125701904, "z": 32.80325698852539 }, "pca_coordinates": { "x": -0.902459442615509, "y": 2.8217833042144775, "z": 1.1713058948516846 }, "axis_scores": { "Quantum imaging": 0.6892350912094116, "Quantum Life Science Sensing": 0.6897140145301819, "Quantum sensing Detection": 0.6641950011253357, "Quantum sensing Metrology": 0.655742883682251, "Quantum sensing navigation": 0.6805880665779114, "Quantum sensing Position": 0.6459999084472656, "Quantum sensing Timing": 0.6803104281425476, "Quantum sensing": 0.6750726103782654, "Quantum control": 0.677150547504425 } }, { "id": 5549, "title": "On the production of N2+ ions at the N 1s edge of the nitrogen molecule", "abstract": "The N-2(+) ion yield of the N-2 molecule has been measured at the N 1s -> Rydberg excitations. It displays Fano-type line shapes due to interference between direct outer-valence photoionization and pa...", "citations": 2, "author_count": 7, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5556, "doi": "10.1088/0031-8949/87/06/065304", "umap_coordinates": { "x": 394.5020446777344, "y": 135.68878173828125, "z": 206.3684539794922 }, "tsne_coordinates": { "x": -24.772401809692383, "y": 9.340754508972168, "z": -1.7353522777557373 }, "pca_coordinates": { "x": -0.49381518363952637, "y": 1.8667421340942383, "z": 0.24317115545272827 }, "axis_scores": { "Quantum imaging": 0.6901890635490417, "Quantum Life Science Sensing": 0.7083157896995544, "Quantum sensing Detection": 0.6889057159423828, "Quantum sensing Metrology": 0.6672787666320801, "Quantum sensing navigation": 0.6898097991943359, "Quantum sensing Position": 0.6782770156860352, "Quantum sensing Timing": 0.6656944751739502, "Quantum sensing": 0.6952008605003357, "Quantum control": 0.660785973072052 } }, { "id": 5550, "title": "Electrochemical etching of AlGaN for the realization of thin-film devices", "abstract": "Heterogeneously integrated AlGaN epitaxial layers will be essential for future optical and electrical devices like thin-film flip-chip ultraviolet (UV) light-emitting diodes, UV vertical-cavity surfac...", "citations": 29, "author_count": 10, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5557, "doi": "10.1063/1.5120397", "umap_coordinates": { "x": 393.7364807128906, "y": 133.63015747070312, "z": 206.7813262939453 }, "tsne_coordinates": { "x": 32.9704475402832, "y": -29.884056091308594, "z": 1.0561052560806274 }, "pca_coordinates": { "x": -0.7014428377151489, "y": -2.3104453086853027, "z": 0.8210367560386658 }, "axis_scores": { "Quantum imaging": 0.7030500173568726, "Quantum Life Science Sensing": 0.7177750468254089, "Quantum sensing Detection": 0.6976572275161743, "Quantum sensing Metrology": 0.7145262360572815, "Quantum sensing navigation": 0.7010293006896973, "Quantum sensing Position": 0.6752118468284607, "Quantum sensing Timing": 0.6664207577705383, "Quantum sensing": 0.7185311913490295, "Quantum control": 0.6699599623680115 } }, { "id": 5551, "title": "Quantum Molecular Dynamical Calculations of PEDOT 12-Oligomer and its Selenium and Tellurium Derivatives", "abstract": "We present simulation results, computed with the Car-Parrinello molecular dynamics method, at zero and ambient temperature (300 K) for poly(3,4-ethylenedioxythiophene) [PEDOT] and its selenium and tel...", "citations": 3, "author_count": 5, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5558, "doi": "10.1007/s11664-016-5161-6", "umap_coordinates": { "x": 393.68707275390625, "y": 136.34071350097656, "z": 206.18316650390625 }, "tsne_coordinates": { "x": 14.78923225402832, "y": -15.071202278137207, "z": 11.046257972717285 }, "pca_coordinates": { "x": 0.9232001304626465, "y": -0.5606584548950195, "z": -0.7286883592605591 }, "axis_scores": { "Quantum imaging": 0.7063049077987671, "Quantum Life Science Sensing": 0.7207886576652527, "Quantum sensing Detection": 0.7008770704269409, "Quantum sensing Metrology": 0.7069231271743774, "Quantum sensing navigation": 0.7115560173988342, "Quantum sensing Position": 0.7045470476150513, "Quantum sensing Timing": 0.7017943859100342, "Quantum sensing": 0.7109534740447998, "Quantum control": 0.697709321975708 } }, { "id": 5552, "title": "Molecular frame Auger electron energy spectrum from N2", "abstract": "Here we present the first angle-resolved, non-resonant (normal) Auger spectra for impulsively aligned nitrogen molecules. We have measured the angular pattern of Auger electron emission following K-sh...", "citations": 28, "author_count": 34, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5559, "doi": "10.1088/0953-4075/45/5/055601", "umap_coordinates": { "x": 394.6095886230469, "y": 135.72853088378906, "z": 206.30657958984375 }, "tsne_coordinates": { "x": 0.2984507977962494, "y": 1.4459513425827026, "z": 19.72672462463379 }, "pca_coordinates": { "x": 0.3882791996002197, "y": 1.257753849029541, "z": -0.193817138671875 }, "axis_scores": { "Quantum imaging": 0.6687437891960144, "Quantum Life Science Sensing": 0.6778594851493835, "Quantum sensing Detection": 0.6568825244903564, "Quantum sensing Metrology": 0.6314027905464172, "Quantum sensing navigation": 0.6615132093429565, "Quantum sensing Position": 0.6456472277641296, "Quantum sensing Timing": 0.6439942121505737, "Quantum sensing": 0.664995551109314, "Quantum control": 0.6439214944839478 } }, { "id": 5553, "title": "Microwave-photonic frequency multiplication utilizing optical four-wave mixing and fiber Bragg gratings", "abstract": "A novel technique for optical multiplication of a millimeter-wave carrier is presented. It utilizes optical four-wave mixing (FWM) in a highly nonlinear fiber (HNLF) and the filtering properties of ma...", "citations": 97, "author_count": 5, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5560, "doi": "10.1109/JLT.2005.860164", "umap_coordinates": { "x": 394.6344299316406, "y": 133.88412475585938, "z": 206.94522094726562 }, "tsne_coordinates": { "x": 2.607452154159546, "y": -3.697964668273926, "z": -37.49089050292969 }, "pca_coordinates": { "x": 0.24609780311584473, "y": -0.327303409576416, "z": 3.2639710903167725 }, "axis_scores": { "Quantum imaging": 0.7120194435119629, "Quantum Life Science Sensing": 0.6977236270904541, "Quantum sensing Detection": 0.7024350166320801, "Quantum sensing Metrology": 0.7223094701766968, "Quantum sensing navigation": 0.6917616128921509, "Quantum sensing Position": 0.6576135158538818, "Quantum sensing Timing": 0.6935350298881531, "Quantum sensing": 0.7135975956916809, "Quantum control": 0.6933155059814453 } }, { "id": 5554, "title": "Many-body procedure for energy-dependent perturbation: Merging many-body perturbation theory with QED", "abstract": "A formalism for energy-dependent many-body perturbation theory (MBPT), previously indicated in our recent review articles [Lindgren , Phys. Rep. 389, 161 (2004); Can. J. Phys. 83, 183 (2005)], is deve...", "citations": 28, "author_count": 4, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5561, "doi": "10.1103/PhysRevA.73.062502", "umap_coordinates": { "x": 395.50994873046875, "y": 136.0466766357422, "z": 208.197021484375 }, "tsne_coordinates": { "x": -31.37914276123047, "y": -12.51134967803955, "z": 25.99237060546875 }, "pca_coordinates": { "x": 2.4720611572265625, "y": 1.554090142250061, "z": -0.4577072560787201 }, "axis_scores": { "Quantum imaging": 0.6904659867286682, "Quantum Life Science Sensing": 0.7155288457870483, "Quantum sensing Detection": 0.6912776231765747, "Quantum sensing Metrology": 0.6889298558235168, "Quantum sensing navigation": 0.6797441840171814, "Quantum sensing Position": 0.6711719632148743, "Quantum sensing Timing": 0.6802017092704773, "Quantum sensing": 0.6978575587272644, "Quantum control": 0.681533932685852 } }, { "id": 5555, "title": "Quantification of ring artifact visibility in CT", "abstract": "Ring artifacts appear in computed tomography images if there are too large inhomogeneities between different detector elements. The question of how large inhomogeneities are acceptable is gaining in i...", "citations": 3, "author_count": 5, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5562, "doi": "10.1117/12.910537", "umap_coordinates": { "x": 395.684326171875, "y": 133.00668334960938, "z": 205.25881958007812 }, "tsne_coordinates": { "x": -1.5775578022003174, "y": 23.103687286376953, "z": -24.604190826416016 }, "pca_coordinates": { "x": -2.270848274230957, "y": 5.328527450561523, "z": 2.2016172409057617 }, "axis_scores": { "Quantum imaging": 0.7405290007591248, "Quantum Life Science Sensing": 0.6857441663742065, "Quantum sensing Detection": 0.7274399995803833, "Quantum sensing Metrology": 0.7113709449768066, "Quantum sensing navigation": 0.716323733329773, "Quantum sensing Position": 0.72935950756073, "Quantum sensing Timing": 0.74356609582901, "Quantum sensing": 0.7201213836669922, "Quantum control": 0.6943826675415039 } }, { "id": 5556, "title": "Microwave soft x-ray microscopy for nanoscale magnetization dynamics in the 5-10 GHz frequency range", "abstract": "We present a scanning transmission x-ray microscopy setup combined with a novel microwave synchronization scheme for studying high frequency magnetization dynamics at synchrotron light sources. The se...", "citations": 38, "author_count": 15, "categories": [ "Instruments & Instrumentation" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5563, "doi": "10.1063/1.4930007", "umap_coordinates": { "x": 393.4319152832031, "y": 136.17410278320312, "z": 208.0186309814453 }, "tsne_coordinates": { "x": 0.729956328868866, "y": -31.566564559936523, "z": 29.475069046020508 }, "pca_coordinates": { "x": 1.5824618339538574, "y": 0.03492259979248047, "z": -0.6003741025924683 }, "axis_scores": { "Quantum imaging": 0.7044637203216553, "Quantum Life Science Sensing": 0.7362130284309387, "Quantum sensing Detection": 0.6878136396408081, "Quantum sensing Metrology": 0.7006993293762207, "Quantum sensing navigation": 0.691246509552002, "Quantum sensing Position": 0.6703409552574158, "Quantum sensing Timing": 0.6553716063499451, "Quantum sensing": 0.7040622234344482, "Quantum control": 0.6476578712463379 } }, { "id": 5557, "title": "The simultaneous detection of heat flow and chemiluminescence intensity during oxidation of unstabilised polypropylene particles", "abstract": "A new experimental technique combining highly sensitive heat flow measurements (microcalorimetry) with the simultaneous detection of chemiluminescence intensity was developed. A perfusion ampoule was ...", "citations": 4, "author_count": 5, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5564, "doi": "10.1016/S0142-9418(03)00040-0", "umap_coordinates": { "x": 394.4740295410156, "y": 135.158935546875, "z": 205.0000762939453 }, "tsne_coordinates": { "x": 2.166003942489624, "y": 20.575464248657227, "z": -9.971339225769043 }, "pca_coordinates": { "x": -3.6087427139282227, "y": 1.9498474597930908, "z": 0.3546742796897888 }, "axis_scores": { "Quantum imaging": 0.6873566508293152, "Quantum Life Science Sensing": 0.7037370800971985, "Quantum sensing Detection": 0.6791902780532837, "Quantum sensing Metrology": 0.6594223976135254, "Quantum sensing navigation": 0.6514257192611694, "Quantum sensing Position": 0.6648494601249695, "Quantum sensing Timing": 0.654019832611084, "Quantum sensing": 0.6805052161216736, "Quantum control": 0.6706159114837646 } }, { "id": 5558, "title": "Vacuum provides quantum advantage to otherwise simulatable architectures", "abstract": "We consider a computational model composed of ideal Gottesman-Kitaev-Preskill stabilizer states, Gaussian operations including all rational symplectic operations and all real displacements, and homody...", "citations": 9, "author_count": 4, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5565, "doi": "10.1103/PhysRevA.107.062414", "umap_coordinates": { "x": 395.6024475097656, "y": 136.99119567871094, "z": 207.6206512451172 }, "tsne_coordinates": { "x": -23.093185424804688, "y": -21.36631965637207, "z": -0.6556381583213806 }, "pca_coordinates": { "x": 4.069156169891357, "y": 0.47917842864990234, "z": 0.5567930340766907 }, "axis_scores": { "Quantum imaging": 0.7549800276756287, "Quantum Life Science Sensing": 0.7508313059806824, "Quantum sensing Detection": 0.7388004660606384, "Quantum sensing Metrology": 0.7240591049194336, "Quantum sensing navigation": 0.7615230083465576, "Quantum sensing Position": 0.718183159828186, "Quantum sensing Timing": 0.6945456862449646, "Quantum sensing": 0.7538964152336121, "Quantum control": 0.7331126928329468 } }, { "id": 5559, "title": "Dynamics of classical analogs of bosons, fermions, and beyond", "abstract": "We study the classical mechanics and dynamics of particles that retain some memory of quantum statistics. Our work builds on earlier work on the statistical mechanics and thermodynamics of such partic...", "citations": 1, "author_count": 4, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5566, "doi": "10.1103/9rgm-gg5y", "umap_coordinates": { "x": 394.94708251953125, "y": 137.392333984375, "z": 207.92283630371094 }, "tsne_coordinates": { "x": -20.697269439697266, "y": -19.26116371154785, "z": 3.5228166580200195 }, "pca_coordinates": { "x": 4.4243597984313965, "y": 2.163229465484619, "z": -1.7376632690429688 }, "axis_scores": { "Quantum imaging": 0.7178101539611816, "Quantum Life Science Sensing": 0.7282181978225708, "Quantum sensing Detection": 0.7073473334312439, "Quantum sensing Metrology": 0.707420289516449, "Quantum sensing navigation": 0.73829585313797, "Quantum sensing Position": 0.6876980066299438, "Quantum sensing Timing": 0.7032015919685364, "Quantum sensing": 0.7194691300392151, "Quantum control": 0.7276679873466492 } }, { "id": 5560, "title": "Photon limited ptychography of 3D objects via Bayesian reconstruction", "abstract": "We introduce a Bayesian framework for the ptychotomographic imaging of 3D objects under photon-limited conditions. This approach is significantly more robust to measurement noise by incorporating prio...", "citations": 24, "author_count": 8, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5567, "doi": "10.1364/OSAC.2.002948", "umap_coordinates": { "x": 395.0461120605469, "y": 134.02737426757812, "z": 206.1701202392578 }, "tsne_coordinates": { "x": -7.082539081573486, "y": 14.961569786071777, "z": -31.076839447021484 }, "pca_coordinates": { "x": -1.4719698429107666, "y": 2.2729299068450928, "z": 3.4041895866394043 }, "axis_scores": { "Quantum imaging": 0.7580292224884033, "Quantum Life Science Sensing": 0.7138822674751282, "Quantum sensing Detection": 0.7277415990829468, "Quantum sensing Metrology": 0.7317180037498474, "Quantum sensing navigation": 0.7274228930473328, "Quantum sensing Position": 0.7100116014480591, "Quantum sensing Timing": 0.6951804757118225, "Quantum sensing": 0.733940064907074, "Quantum control": 0.6882004737854004 } }, { "id": 5561, "title": "Error Control for Simulations of a Dissociative Quantum System", "abstract": "We present a framework for solving the Schrodinger equation modeling the interaction of a dissociative quantum system with a laser field. A perfectly matched layer (PML) is used to handle non-reflecti...", "citations": 3, "author_count": 3, "categories": [ "Mathematics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5568, "doi": "10.1007/978-3-642-11795-4_56", "umap_coordinates": { "x": 394.2445983886719, "y": 136.76950073242188, "z": 205.9275360107422 }, "tsne_coordinates": { "x": -17.073654174804688, "y": 17.970911026000977, "z": 4.920244216918945 }, "pca_coordinates": { "x": 1.58815598487854, "y": 2.251077890396118, "z": -0.48680782318115234 }, "axis_scores": { "Quantum imaging": 0.720356822013855, "Quantum Life Science Sensing": 0.7109271287918091, "Quantum sensing Detection": 0.7101365327835083, "Quantum sensing Metrology": 0.7013521194458008, "Quantum sensing navigation": 0.720358669757843, "Quantum sensing Position": 0.7007598876953125, "Quantum sensing Timing": 0.7136279344558716, "Quantum sensing": 0.7245307564735413, "Quantum control": 0.7588092088699341 } }, { "id": 5562, "title": "Small-x dipole evolution beyond the large-Nc limit", "abstract": "We present a method to include colour-suppressed effects in the Mueller dipole picture. The model consistently includes saturation effects both in the evolution of dipoles and in the interactions of d...", "citations": 50, "author_count": 4, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5569, "doi": "10.1088/1126-6708/2007/01/012", "umap_coordinates": { "x": 395.02667236328125, "y": 136.1897430419922, "z": 206.19039916992188 }, "tsne_coordinates": { "x": -28.7042179107666, "y": 26.136892318725586, "z": -2.5485382080078125 }, "pca_coordinates": { "x": 0.11193835735321045, "y": 2.425550937652588, "z": -1.1244136095046997 }, "axis_scores": { "Quantum imaging": 0.665810763835907, "Quantum Life Science Sensing": 0.6849139928817749, "Quantum sensing Detection": 0.6550381779670715, "Quantum sensing Metrology": 0.6260242462158203, "Quantum sensing navigation": 0.6787653565406799, "Quantum sensing Position": 0.6518958806991577, "Quantum sensing Timing": 0.6540964841842651, "Quantum sensing": 0.6632518768310547, "Quantum control": 0.6649069786071777 } }, { "id": 5563, "title": "A PASSIVE NEUTRON DOSEMETER FOR MEASUREMENTS IN MIXED NEUTRON-PHOTON RADIATION FIELDS", "abstract": "The project combines the highly sensitive salt (NaCl) dosemeter for photon radiation with a neutron photon converter in the form of thin gadolinium foils enclosing the salt. Using an identical salt do...", "citations": 1, "author_count": 4, "categories": [ "Biophysics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5570, "doi": null, "umap_coordinates": { "x": 391.28558349609375, "y": 139.2624053955078, "z": 209.49725341796875 }, "tsne_coordinates": { "x": -4.324011325836182, "y": 38.05458068847656, "z": -8.912209510803223 }, "pca_coordinates": { "x": -2.7661218643188477, "y": 2.970111608505249, "z": 2.9944589138031006 }, "axis_scores": { "Quantum imaging": 0.6954660415649414, "Quantum Life Science Sensing": 0.7285130023956299, "Quantum sensing Detection": 0.7086889743804932, "Quantum sensing Metrology": 0.7174839377403259, "Quantum sensing navigation": 0.7056961059570312, "Quantum sensing Position": 0.7001093029975891, "Quantum sensing Timing": 0.6762934327125549, "Quantum sensing": 0.7096786499023438, "Quantum control": 0.6418231725692749 } }, { "id": 5564, "title": "Terahertz Fingerprint of Monolayer Wigner Crystals", "abstract": "The strong Coulomb interaction in monolayer semiconductors represents a unique opportunity for the realization of Wigner crystals without external magnetic fields. In this work, we predict that the fo...", "citations": 14, "author_count": 3, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5571, "doi": "10.1021/acs.nanolett.1c04620", "umap_coordinates": { "x": 392.75970458984375, "y": 134.3679962158203, "z": 206.66648864746094 }, "tsne_coordinates": { "x": 18.782297134399414, "y": -12.078857421875, "z": -10.21184253692627 }, "pca_coordinates": { "x": -0.808364987373352, "y": -2.2218785285949707, "z": -0.5526790618896484 }, "axis_scores": { "Quantum imaging": 0.6885772347450256, "Quantum Life Science Sensing": 0.7157617807388306, "Quantum sensing Detection": 0.681975781917572, "Quantum sensing Metrology": 0.6934834122657776, "Quantum sensing navigation": 0.6880519390106201, "Quantum sensing Position": 0.6841245293617249, "Quantum sensing Timing": 0.6929716467857361, "Quantum sensing": 0.6989689469337463, "Quantum control": 0.6585968732833862 } }, { "id": 5565, "title": "Segmentation of medical images using three-dimensional active shape models", "abstract": "In this paper a fully automated segmentation system for the femur in the knee in Magnetic Resonance Images and the brain in Single Photon Emission Computed Tomography images is presented. To do this s...", "citations": 2, "author_count": 4, "categories": [ "Computer Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5572, "doi": null, "umap_coordinates": { "x": 391.3184814453125, "y": 139.56198120117188, "z": 209.5943603515625 }, "tsne_coordinates": { "x": 1.9381767511367798, "y": 40.777034759521484, "z": -5.903655052185059 }, "pca_coordinates": { "x": -2.831723690032959, "y": 4.700847625732422, "z": -0.3262603282928467 }, "axis_scores": { "Quantum imaging": 0.7331224083900452, "Quantum Life Science Sensing": 0.6965306401252747, "Quantum sensing Detection": 0.6878589391708374, "Quantum sensing Metrology": 0.6814766526222229, "Quantum sensing navigation": 0.687890350818634, "Quantum sensing Position": 0.6757794618606567, "Quantum sensing Timing": 0.6680417060852051, "Quantum sensing": 0.7013412714004517, "Quantum control": 0.6863790154457092 } }, { "id": 5566, "title": "Direct determination of a molecular torsional angle in the membrane protein rhodopsin by solid-state NMR", "abstract": "A solid-state NMR method (double-quantum heteronuclear local field NMR) is applied to a C-13(2) labeled sample of the 41 kD integral membrane protein rhodopsin. The technique operates under magic-angl...", "citations": 149, "author_count": 11, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5573, "doi": "10.1021/ja970710d", "umap_coordinates": { "x": 393.05047607421875, "y": 136.44261169433594, "z": 206.31130981445312 }, "tsne_coordinates": { "x": 17.092090606689453, "y": 3.215912342071533, "z": 25.28392219543457 }, "pca_coordinates": { "x": -0.2054603099822998, "y": 0.9479358196258545, "z": -0.8391224145889282 }, "axis_scores": { "Quantum imaging": 0.6961439847946167, "Quantum Life Science Sensing": 0.7271585464477539, "Quantum sensing Detection": 0.699232816696167, "Quantum sensing Metrology": 0.6883111596107483, "Quantum sensing navigation": 0.7062840461730957, "Quantum sensing Position": 0.6969659924507141, "Quantum sensing Timing": 0.687968909740448, "Quantum sensing": 0.7092321515083313, "Quantum control": 0.6711431741714478 } }, { "id": 5567, "title": "Attosecond Electron Spectroscopy Using a Novel Interferometric Pump-Probe Technique", "abstract": "We present an interferometric pump-probe technique for the characterization of attosecond electron wave packets (WPs) that uses a free WP as a reference to measure a bound WP. We demonstrate our metho...", "citations": 199, "author_count": 21, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5574, "doi": "10.1103/PhysRevLett.105.053001", "umap_coordinates": { "x": 395.31884765625, "y": 135.38914489746094, "z": 207.65037536621094 }, "tsne_coordinates": { "x": -13.558732032775879, "y": -9.344353675842285, "z": -6.484325408935547 }, "pca_coordinates": { "x": 3.2913460731506348, "y": -0.9450361728668213, "z": 2.772778034210205 }, "axis_scores": { "Quantum imaging": 0.7122308015823364, "Quantum Life Science Sensing": 0.7227897047996521, "Quantum sensing Detection": 0.7115975618362427, "Quantum sensing Metrology": 0.7002529501914978, "Quantum sensing navigation": 0.6970295906066895, "Quantum sensing Position": 0.671828031539917, "Quantum sensing Timing": 0.6721558570861816, "Quantum sensing": 0.7162183523178101, "Quantum control": 0.6675708293914795 } }, { "id": 5568, "title": "The Rayleigh-Taylor instability in quantum magnetized plasma with para- and ferromagnetic properties", "abstract": "We investigate influence of magnetic field on the Rayleigh-Taylor instability in quantum plasmas with para- and ferromagnetic properties. Magnetization of quantum plasma happens due to the collective ...", "citations": 27, "author_count": 4, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5575, "doi": "10.1063/1.3085796", "umap_coordinates": { "x": 393.6261901855469, "y": 136.24514770507812, "z": 208.2213134765625 }, "tsne_coordinates": { "x": -10.193997383117676, "y": -35.71799087524414, "z": 23.859285354614258 }, "pca_coordinates": { "x": 2.957305431365967, "y": 0.10767459869384766, "z": -1.3413764238357544 }, "axis_scores": { "Quantum imaging": 0.7184854745864868, "Quantum Life Science Sensing": 0.7177178263664246, "Quantum sensing Detection": 0.7073144316673279, "Quantum sensing Metrology": 0.7158937454223633, "Quantum sensing navigation": 0.7067798376083374, "Quantum sensing Position": 0.6951770782470703, "Quantum sensing Timing": 0.6731508374214172, "Quantum sensing": 0.7179014086723328, "Quantum control": 0.673470139503479 } }, { "id": 5569, "title": "A fast time domain solver for the equilibrium Dyson equation", "abstract": "We consider the numerical solution of the real-time equilibrium Dyson equation, which is used in calculations of the dynamical properties of quantum many-body systems. We show that this equation can b...", "citations": 16, "author_count": 3, "categories": [ "Mathematics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5576, "doi": "10.1007/s10444-023-10067-7", "umap_coordinates": { "x": 394.3858642578125, "y": 136.11093139648438, "z": 206.40643310546875 }, "tsne_coordinates": { "x": -15.730107307434082, "y": 26.47018814086914, "z": -2.1559813022613525 }, "pca_coordinates": { "x": 0.11380410194396973, "y": 1.4581325054168701, "z": -1.2122982740402222 }, "axis_scores": { "Quantum imaging": 0.6785088181495667, "Quantum Life Science Sensing": 0.6824796199798584, "Quantum sensing Detection": 0.668784499168396, "Quantum sensing Metrology": 0.6650930047035217, "Quantum sensing navigation": 0.6899073123931885, "Quantum sensing Position": 0.6762093305587769, "Quantum sensing Timing": 0.7037423253059387, "Quantum sensing": 0.6760057806968689, "Quantum control": 0.6682910919189453 } }, { "id": 5570, "title": "Multiple odd-frequency superconducting states in buckled quantum spin Hall insulators with time-reversal symmetry", "abstract": "We consider a buckled quantum spin Hall insulator (QSHI), such as silicene, proximity coupled to a conventional spin-singlet s-wave superconductor. Even limiting the discussion to the disorder-robust ...", "citations": 26, "author_count": 3, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5577, "doi": "10.1103/PhysRevB.96.174509", "umap_coordinates": { "x": 393.52593994140625, "y": 136.58067321777344, "z": 208.6253662109375 }, "tsne_coordinates": { "x": -4.921303749084473, "y": -21.407922744750977, "z": 19.26164436340332 }, "pca_coordinates": { "x": 4.96105432510376, "y": -1.1733663082122803, "z": -0.2822733521461487 }, "axis_scores": { "Quantum imaging": 0.6742393970489502, "Quantum Life Science Sensing": 0.6904392242431641, "Quantum sensing Detection": 0.6722555160522461, "Quantum sensing Metrology": 0.676750123500824, "Quantum sensing navigation": 0.6868499517440796, "Quantum sensing Position": 0.6630039215087891, "Quantum sensing Timing": 0.6994714736938477, "Quantum sensing": 0.6824001669883728, "Quantum control": 0.6505634784698486 } }, { "id": 5571, "title": "Pulse sequence symmetries in the nuclear magnetic resonance of spinning solids:: Application to heteronuclear decoupling", "abstract": "We develop the average Hamiltonian theory of a class of symmetrical radio-frequency pulse sequences in the NMR of rotating solids. Theorems are presented which allow one to predict the elimination of ...", "citations": 161, "author_count": 3, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5578, "doi": "10.1063/1.479410", "umap_coordinates": { "x": 393.05743408203125, "y": 137.01388549804688, "z": 207.58892822265625 }, "tsne_coordinates": { "x": 10.324613571166992, "y": -0.7961379885673523, "z": 34.69633483886719 }, "pca_coordinates": { "x": 1.891636848449707, "y": 1.5755081176757812, "z": -0.9894473552703857 }, "axis_scores": { "Quantum imaging": 0.7066620588302612, "Quantum Life Science Sensing": 0.7002202868461609, "Quantum sensing Detection": 0.6763685941696167, "Quantum sensing Metrology": 0.6889956593513489, "Quantum sensing navigation": 0.6909796595573425, "Quantum sensing Position": 0.6718058586120605, "Quantum sensing Timing": 0.7064042091369629, "Quantum sensing": 0.6960712671279907, "Quantum control": 0.6787219643592834 } }, { "id": 5572, "title": "Photodetachment study of He- quartet resonances below the He (n=3) thresholds", "abstract": "The photodetachment cross section of He- (1s2s2p P-4) has been measured in the photon energy range 2.9-3.3 eV in order to investigate doubly excited states. Measurements were made channel specific by ...", "citations": 18, "author_count": 7, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5579, "doi": "10.1088/0953-4075/31/11/016", "umap_coordinates": { "x": 394.5631103515625, "y": 135.6494903564453, "z": 206.69264221191406 }, "tsne_coordinates": { "x": -1.0307379961013794, "y": 0.949340283870697, "z": 16.150819778442383 }, "pca_coordinates": { "x": 0.5269268751144409, "y": 2.2635250091552734, "z": -0.21007689833641052 }, "axis_scores": { "Quantum imaging": 0.7075159549713135, "Quantum Life Science Sensing": 0.7281773686408997, "Quantum sensing Detection": 0.7062271237373352, "Quantum sensing Metrology": 0.6786996126174927, "Quantum sensing navigation": 0.6837800145149231, "Quantum sensing Position": 0.6945250034332275, "Quantum sensing Timing": 0.6876013875007629, "Quantum sensing": 0.6977120041847229, "Quantum control": 0.6616300940513611 } }, { "id": 5573, "title": "Interplay between Polaritonic and Molecular Trap States", "abstract": "Strong exciton-photon coupling exhibits the possibility to modify the photophysical properties of organic molecules. This is due to the introduction of hybrid light-matter states, called polaritons, w...", "citations": 6, "author_count": 7, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5580, "doi": "10.1021/acs.jpcc.2c01239", "umap_coordinates": { "x": 392.40155029296875, "y": 135.931640625, "z": 206.41380310058594 }, "tsne_coordinates": { "x": 4.193486213684082, "y": -8.576796531677246, "z": -4.998112201690674 }, "pca_coordinates": { "x": 0.35500431060791016, "y": -1.8404169082641602, "z": -2.5579605102539062 }, "axis_scores": { "Quantum imaging": 0.725364625453949, "Quantum Life Science Sensing": 0.7001984119415283, "Quantum sensing Detection": 0.7103702425956726, "Quantum sensing Metrology": 0.6713789105415344, "Quantum sensing navigation": 0.7022066712379456, "Quantum sensing Position": 0.6900069117546082, "Quantum sensing Timing": 0.6902159452438354, "Quantum sensing": 0.7196012139320374, "Quantum control": 0.7228379249572754 } }, { "id": 5574, "title": "GOALS-JWST: Hidden Star Formation and Extended PAH Emission in the Luminous Infrared Galaxy VV 114", "abstract": "James Webb Space Telescope (JWST) Mid-Infrared Instrument (MIRI) images of the luminous infrared (IR) galaxy VV 114 are presented. This redshift similar to 0.020 merger has a western component (VV 114...", "citations": 30, "author_count": 36, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5581, "doi": "10.3847/2041-8213/ac9971", "umap_coordinates": { "x": 396.07647705078125, "y": 134.91610717773438, "z": 206.1155548095703 }, "tsne_coordinates": { "x": -27.77011489868164, "y": 21.540355682373047, "z": -4.815567493438721 }, "pca_coordinates": { "x": -2.4545817375183105, "y": 2.503329277038574, "z": 0.7235843539237976 }, "axis_scores": { "Quantum imaging": 0.6746257543563843, "Quantum Life Science Sensing": 0.6707501411437988, "Quantum sensing Detection": 0.6447619199752808, "Quantum sensing Metrology": 0.6382174491882324, "Quantum sensing navigation": 0.6588782668113708, "Quantum sensing Position": 0.6370540857315063, "Quantum sensing Timing": 0.6500646471977234, "Quantum sensing": 0.6514222621917725, "Quantum control": 0.6479291319847107 } }, { "id": 5575, "title": "Maximizing and stabilizing luminescence from halide perovskites with potassium passivation", "abstract": "Metal halide perovskites are of great interest for various high-performance optoelectronic applications(1). The ability to tune the perovskite bandgap continuously by modifying the chemical compositio...", "citations": 1621, "author_count": 18, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5582, "doi": "10.1038/nature25989", "umap_coordinates": { "x": 391.3971252441406, "y": 133.77294921875, "z": 205.22816467285156 }, "tsne_coordinates": { "x": 19.033828735351562, "y": -4.8936381340026855, "z": -26.45619773864746 }, "pca_coordinates": { "x": -2.3168065547943115, "y": -1.6528434753417969, "z": -0.7256444692611694 }, "axis_scores": { "Quantum imaging": 0.6785721778869629, "Quantum Life Science Sensing": 0.6737614870071411, "Quantum sensing Detection": 0.6536983847618103, "Quantum sensing Metrology": 0.6664547324180603, "Quantum sensing navigation": 0.6650263667106628, "Quantum sensing Position": 0.6573905944824219, "Quantum sensing Timing": 0.650527834892273, "Quantum sensing": 0.6702804565429688, "Quantum control": 0.6564222574234009 } }, { "id": 5576, "title": "Nanosecond and femtosecond probing of the dynamics of the UV-photodissociation of perfluoroethyliodide C2F5I", "abstract": "The ns photodissociation of perfluoroethyliodide C2F5I at 266 nm has been studied by using the resonant two-photon ionization (R2PI) technique. Recoil anisotropy parameters as well as average translat...", "citations": 7, "author_count": 6, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 5583, "doi": "10.1063/1.1418743", "umap_coordinates": { "x": 393.3261413574219, "y": 135.81576538085938, "z": 206.00634765625 }, "tsne_coordinates": { "x": 2.374516487121582, "y": 4.768721103668213, "z": 11.092735290527344 }, "pca_coordinates": { "x": -0.33584314584732056, "y": -0.5767979621887207, "z": -0.40816643834114075 }, "axis_scores": { "Quantum imaging": 0.7372624278068542, "Quantum Life Science Sensing": 0.7643641829490662, "Quantum sensing Detection": 0.7306191325187683, "Quantum sensing Metrology": 0.724841296672821, "Quantum sensing navigation": 0.6947353482246399, "Quantum sensing Position": 0.6724263429641724, "Quantum sensing Timing": 0.7036225199699402, "Quantum sensing": 0.7404431104660034, "Quantum control": 0.7113010883331299 } }, { "id": 5577, "title": "Challenges and Future Perspectives in Photocatalysis: Conclusions from an Interdisciplinary Workshop", "abstract": "Photocatalysis is a versatile and rapidly developing field with applications spanning artificial photosynthesis, photo-biocatalysis, photoredox catalysis in solution or supramolecular structures, util...", "citations": 82, "author_count": 13, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5584, "doi": "10.1021/jacsau.4c00527", "umap_coordinates": { "x": 392.75335693359375, "y": 134.44473266601562, "z": 204.4517364501953 }, "tsne_coordinates": { "x": 11.751270294189453, "y": 4.329980850219727, "z": 4.660824775695801 }, "pca_coordinates": { "x": -3.7898459434509277, "y": -1.5393881797790527, "z": -2.720644474029541 }, "axis_scores": { "Quantum imaging": 0.6646989583969116, "Quantum Life Science Sensing": 0.6976757049560547, "Quantum sensing Detection": 0.6444488167762756, "Quantum sensing Metrology": 0.6373665928840637, "Quantum sensing navigation": 0.6558470129966736, "Quantum sensing Position": 0.6388098001480103, "Quantum sensing Timing": 0.6318345069885254, "Quantum sensing": 0.6602696180343628, "Quantum control": 0.6553781032562256 } }, { "id": 5578, "title": "Nonresonant CARS Imaging of Porous and Solid Silicon Nanoparticles in Human Cells", "abstract": "Coherent anti-Stokes Raman scattering (CARS), a nonlinear optical method for rapid visualization of biological objects, represents a progressive tool in biology and medicine to explore cells and tissu...", "citations": 2, "author_count": 12, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5585, "doi": "10.1021/acsbiomaterials.1c00771", "umap_coordinates": { "x": 394.0321960449219, "y": 133.81295776367188, "z": 204.46409606933594 }, "tsne_coordinates": { "x": 10.387678146362305, "y": 25.76120376586914, "z": -9.402749061584473 }, "pca_coordinates": { "x": -3.9225974082946777, "y": -1.010021686553955, "z": 0.4854232668876648 }, "axis_scores": { "Quantum imaging": 0.7443112134933472, "Quantum Life Science Sensing": 0.752226710319519, "Quantum sensing Detection": 0.72423255443573, "Quantum sensing Metrology": 0.7073979377746582, "Quantum sensing navigation": 0.6977277398109436, "Quantum sensing Position": 0.6736882328987122, "Quantum sensing Timing": 0.6528425216674805, "Quantum sensing": 0.7335320711135864, "Quantum control": 0.6681431531906128 } }, { "id": 5579, "title": "Benzimidazole-based fluorophores for the detection of amyloid fibrils with higher sensitivity than Thioflavin-T", "abstract": "Protein aggregation into amyloid fibrils is a key feature of a multitude of neurodegenerative diseases such as Alzheimer's, Parkinson's, and Prion disease. To detect amyloid fibrils, fluorophores with...", "citations": 12, "author_count": 17, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5586, "doi": "10.1111/jnc.15138", "umap_coordinates": { "x": 393.38983154296875, "y": 134.73184204101562, "z": 204.28688049316406 }, "tsne_coordinates": { "x": 13.755168914794922, "y": 12.830094337463379, "z": -3.61380672454834 }, "pca_coordinates": { "x": -3.2070658206939697, "y": -0.7073662281036377, "z": 0.5434011816978455 }, "axis_scores": { "Quantum imaging": 0.7038035988807678, "Quantum Life Science Sensing": 0.6969565749168396, "Quantum sensing Detection": 0.7004336714744568, "Quantum sensing Metrology": 0.6934704780578613, "Quantum sensing navigation": 0.7035089731216431, "Quantum sensing Position": 0.6607518196105957, "Quantum sensing Timing": 0.6539743542671204, "Quantum sensing": 0.7064003348350525, "Quantum control": 0.678642988204956 } }, { "id": 5580, "title": "Large-scale calculations of gas phase thermochemistry: Enthalpy of formation, standard entropy, and heat capacity", "abstract": "Large scale quantum calculations for molar enthalpy of formation (Delta(f) H-0), standard entropy (S-0), and heat capacity (C-V) are presented. A large data set may help to evaluate quantum thermochem...", "citations": 72, "author_count": 6, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5587, "doi": "10.1063/1.4962627", "umap_coordinates": { "x": 393.4893493652344, "y": 137.3455352783203, "z": 206.17929077148438 }, "tsne_coordinates": { "x": -12.458636283874512, "y": 7.000945091247559, "z": 26.03275489807129 }, "pca_coordinates": { "x": 0.3938722610473633, "y": 0.6431894302368164, "z": -2.382784605026245 }, "axis_scores": { "Quantum imaging": 0.7077309489250183, "Quantum Life Science Sensing": 0.7619504332542419, "Quantum sensing Detection": 0.7265597581863403, "Quantum sensing Metrology": 0.7328850626945496, "Quantum sensing navigation": 0.712087869644165, "Quantum sensing Position": 0.6828356981277466, "Quantum sensing Timing": 0.6936081051826477, "Quantum sensing": 0.7545902729034424, "Quantum control": 0.7393251061439514 } }, { "id": 5581, "title": "Photoinduced electron transfer between a carotenoid and TiO2 nanoparticle", "abstract": "The dynamics of photoinduced electron injection and recombination between all-trans-8'-apo-beta-caroten-8'-oic acid (ACOA) and a TiO2 Colloidal nanoparticle have been studied by means of transient abs...", "citations": 103, "author_count": 8, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5588, "doi": "10.1021/ja0279186", "umap_coordinates": { "x": 392.2013854980469, "y": 135.5241241455078, "z": 205.65724182128906 }, "tsne_coordinates": { "x": 15.463536262512207, "y": 7.387017726898193, "z": 4.624051094055176 }, "pca_coordinates": { "x": -2.7555735111236572, "y": -3.9153289794921875, "z": -1.6990342140197754 }, "axis_scores": { "Quantum imaging": 0.695359468460083, "Quantum Life Science Sensing": 0.7220611572265625, "Quantum sensing Detection": 0.7006351947784424, "Quantum sensing Metrology": 0.6639072895050049, "Quantum sensing navigation": 0.6579809784889221, "Quantum sensing Position": 0.6646015644073486, "Quantum sensing Timing": 0.6436991095542908, "Quantum sensing": 0.7042730450630188, "Quantum control": 0.6672821044921875 } }, { "id": 5582, "title": "Atmospheric fate of carbonyl oxidation products originating from alpha-pinene and Delta(3)-carene: Determination of rate of reaction with OH and NO3 radicals, UV absorption cross sections, and vapor pressures", "abstract": "Large yields of dicarbonyl compounds have been found in the atmospheric oxidation of alpha-pinene and Delta(3)-carene. These terpenes are emitted in large quantities by biogenic sources, and it is imp...", "citations": 115, "author_count": 4, "categories": [ "Engineering" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5589, "doi": "10.1021/es970151a", "umap_coordinates": { "x": 393.5710144042969, "y": 136.2862091064453, "z": 204.45855712890625 }, "tsne_coordinates": { "x": 0.46737751364707947, "y": 21.231603622436523, "z": 17.081205368041992 }, "pca_coordinates": { "x": -3.3193154335021973, "y": 1.307917594909668, "z": -1.676504373550415 }, "axis_scores": { "Quantum imaging": 0.6635717153549194, "Quantum Life Science Sensing": 0.7173684239387512, "Quantum sensing Detection": 0.6625160574913025, "Quantum sensing Metrology": 0.6439082622528076, "Quantum sensing navigation": 0.6636688113212585, "Quantum sensing Position": 0.6385429501533508, "Quantum sensing Timing": 0.6228018999099731, "Quantum sensing": 0.6699315905570984, "Quantum control": 0.6794315576553345 } }, { "id": 5583, "title": "A Theoretical Study of the Recently Suggested MnVII Mechanism for O-O Bond Formation in Photosystem II", "abstract": "The mechanism for water oxidation in photosystem II has been a major topic for several decades. The active catalyst has four manganese atoms connected by bridging oxo bonds, in a complex termed the ox...", "citations": 10, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5590, "doi": "10.1021/acs.jpca.0c05135", "umap_coordinates": { "x": 392.69500732421875, "y": 137.00466918945312, "z": 205.097900390625 }, "tsne_coordinates": { "x": 4.208876609802246, "y": 13.182432174682617, "z": 17.57782745361328 }, "pca_coordinates": { "x": -0.6401744484901428, "y": 1.5296176671981812, "z": -2.5814778804779053 }, "axis_scores": { "Quantum imaging": 0.6638137102127075, "Quantum Life Science Sensing": 0.6906658411026001, "Quantum sensing Detection": 0.6581403613090515, "Quantum sensing Metrology": 0.6452966928482056, "Quantum sensing navigation": 0.6605045199394226, "Quantum sensing Position": 0.6391509771347046, "Quantum sensing Timing": 0.6357979774475098, "Quantum sensing": 0.6677038073539734, "Quantum control": 0.6649929881095886 } }, { "id": 5584, "title": "Precision comparison of the quantum Hall effect in graphene and gallium arsenide", "abstract": "The half-integer quantum Hall effect in epitaxial graphene is compared with high precision to the well-known integer effect in a GaAs/AlGaAs heterostructure. We find no difference between the quantize...", "citations": 68, "author_count": 10, "categories": [ "Instruments & Instrumentation" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5591, "doi": "10.1088/0026-1394/49/3/294", "umap_coordinates": { "x": 395.06744384765625, "y": 135.2950439453125, "z": 207.02548217773438 }, "tsne_coordinates": { "x": -40.82788848876953, "y": -1.0077545642852783, "z": 0.7647281885147095 }, "pca_coordinates": { "x": 1.2258188724517822, "y": 1.4303269386291504, "z": 1.7048616409301758 }, "axis_scores": { "Quantum imaging": 0.7289267182350159, "Quantum Life Science Sensing": 0.7336833477020264, "Quantum sensing Detection": 0.7307374477386475, "Quantum sensing Metrology": 0.7399612665176392, "Quantum sensing navigation": 0.745206356048584, "Quantum sensing Position": 0.750545859336853, "Quantum sensing Timing": 0.7404744625091553, "Quantum sensing": 0.745956540107727, "Quantum control": 0.7296887636184692 } }, { "id": 5585, "title": "BONE-MINERAL CONTENT IN WOMEN - TRENDS OF CHANGE", "abstract": "Altogether 426 women had their forearm bone mineral content (BMC) measured with single photon absorptiometry (SPA): one group in the early 1970s, another about 18 years later. Both groups represented ...", "citations": 11, "author_count": 5, "categories": [ "Endocrinology & Metabolism" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5592, "doi": "10.1007/BF01624153", "umap_coordinates": { "x": 395.12579345703125, "y": 135.0816650390625, "z": 204.2887420654297 }, "tsne_coordinates": { "x": -2.4644880294799805, "y": 35.53828430175781, "z": 8.33076286315918 }, "pca_coordinates": { "x": -2.281378746032715, "y": 2.818371057510376, "z": -1.954622507095337 }, "axis_scores": { "Quantum imaging": 0.6496167182922363, "Quantum Life Science Sensing": 0.6853131651878357, "Quantum sensing Detection": 0.6477682590484619, "Quantum sensing Metrology": 0.6515535116195679, "Quantum sensing navigation": 0.6789668798446655, "Quantum sensing Position": 0.668388307094574, "Quantum sensing Timing": 0.6325698494911194, "Quantum sensing": 0.6552048921585083, "Quantum control": 0.6499001979827881 } }, { "id": 5586, "title": "Laser-driven ultrafast transmission electron microscopy", "abstract": "Recent advances in lasers and electron optics technology have allowed transmission electron microscopes to achieve high spatial and temporal resolution, making them capable of tracking atoms, charges ...", "citations": 2, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5593, "doi": "10.1038/s43586-025-00431-w", "umap_coordinates": { "x": 393.6947937011719, "y": 134.85968017578125, "z": 206.17208862304688 }, "tsne_coordinates": { "x": -9.812967300415039, "y": 4.468191146850586, "z": -2.3277719020843506 }, "pca_coordinates": { "x": -1.5857837200164795, "y": -1.5870938301086426, "z": 0.27218520641326904 }, "axis_scores": { "Quantum imaging": 0.7171934247016907, "Quantum Life Science Sensing": 0.7308609485626221, "Quantum sensing Detection": 0.701910674571991, "Quantum sensing Metrology": 0.7046719789505005, "Quantum sensing navigation": 0.6990346908569336, "Quantum sensing Position": 0.6654186248779297, "Quantum sensing Timing": 0.6513338088989258, "Quantum sensing": 0.7140621542930603, "Quantum control": 0.6916904449462891 } }, { "id": 5587, "title": "Investigation of ergodic character of quantized vibrational motion", "abstract": "The concept of quantum ergodicity and the degree of ergodic behavior reflected by the bound energy eigenstates are studied for some vibrational systems in two and three dimensions. Different approache...", "citations": 11, "author_count": 4, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5594, "doi": "10.1021/jp049113l", "umap_coordinates": { "x": 393.1951599121094, "y": 137.05752563476562, "z": 206.95782470703125 }, "tsne_coordinates": { "x": 17.29550552368164, "y": -7.9882917404174805, "z": 9.929633140563965 }, "pca_coordinates": { "x": 2.1707282066345215, "y": 0.6826332807540894, "z": -2.8967862129211426 }, "axis_scores": { "Quantum imaging": 0.7140518426895142, "Quantum Life Science Sensing": 0.723639190196991, "Quantum sensing Detection": 0.7022060751914978, "Quantum sensing Metrology": 0.6824567317962646, "Quantum sensing navigation": 0.7175856232643127, "Quantum sensing Position": 0.7029894590377808, "Quantum sensing Timing": 0.6731341481208801, "Quantum sensing": 0.7199888229370117, "Quantum control": 0.7287389039993286 } }, { "id": 5588, "title": "Hollow ZnO microspheres self-assembled from rod-like nanostructures: morphology-dependent linear and Kerr-type nonlinear optical properties", "abstract": "Hollow nanostructures have attracted attention because of their unique physiochemical properties and broad potential applications in electronics, optics and photonics. In this study, a facile hydrothe...", "citations": 10, "author_count": 6, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5595, "doi": "10.1007/s10854-021-06827-0", "umap_coordinates": { "x": 392.6112365722656, "y": 134.3448028564453, "z": 206.15663146972656 }, "tsne_coordinates": { "x": 30.51703643798828, "y": -2.8065249919891357, "z": -0.007953125052154064 }, "pca_coordinates": { "x": -2.492750883102417, "y": -1.5932621955871582, "z": -0.6934951543807983 }, "axis_scores": { "Quantum imaging": 0.6945059895515442, "Quantum Life Science Sensing": 0.7518272399902344, "Quantum sensing Detection": 0.6976350545883179, "Quantum sensing Metrology": 0.7038106918334961, "Quantum sensing navigation": 0.7038403749465942, "Quantum sensing Position": 0.6909315586090088, "Quantum sensing Timing": 0.6429027318954468, "Quantum sensing": 0.712319552898407, "Quantum control": 0.6715065240859985 } }, { "id": 5589, "title": "Fractional topological phase in one-dimensional flat bands with nontrivial topology", "abstract": "We consider a topologically nontrivial flat-band structure in one spatial dimension in the presence of nearest-and next-nearest-neighbor Hubbard interaction. The noninteracting band structure is chara...", "citations": 37, "author_count": 3, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5596, "doi": "10.1103/PhysRevB.88.035139", "umap_coordinates": { "x": 394.4422912597656, "y": 136.77569580078125, "z": 209.17291259765625 }, "tsne_coordinates": { "x": -17.083513259887695, "y": -27.711872100830078, "z": 16.760942459106445 }, "pca_coordinates": { "x": 4.586874485015869, "y": -0.02931976318359375, "z": -1.377352237701416 }, "axis_scores": { "Quantum imaging": 0.697927713394165, "Quantum Life Science Sensing": 0.698153555393219, "Quantum sensing Detection": 0.6833564043045044, "Quantum sensing Metrology": 0.6803056597709656, "Quantum sensing navigation": 0.6976964473724365, "Quantum sensing Position": 0.6572519540786743, "Quantum sensing Timing": 0.6525827646255493, "Quantum sensing": 0.6919814944267273, "Quantum control": 0.6709223985671997 } }, { "id": 5590, "title": "Superstrings in AdS2 x S2 x T6", "abstract": "We consider the type IIB Green-Schwarz superstring theory on AdS(2) x S-2 x T-6 supported by homogeneous Ramond-Ramond 5-form flux and its type IIA T-duals. One motivation is to understand the solutio...", "citations": 78, "author_count": 5, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5597, "doi": "10.1088/1751-8113/44/27/275401", "umap_coordinates": { "x": 395.5911865234375, "y": 135.99864196777344, "z": 206.22134399414062 }, "tsne_coordinates": { "x": -24.867101669311523, "y": 7.038411617279053, "z": 29.164344787597656 }, "pca_coordinates": { "x": 0.5812704563140869, "y": 1.2113146781921387, "z": -0.5834267735481262 }, "axis_scores": { "Quantum imaging": 0.6590172052383423, "Quantum Life Science Sensing": 0.6582114696502686, "Quantum sensing Detection": 0.6301438808441162, "Quantum sensing Metrology": 0.6443705558776855, "Quantum sensing navigation": 0.6694480776786804, "Quantum sensing Position": 0.6502012014389038, "Quantum sensing Timing": 0.6805989146232605, "Quantum sensing": 0.6534392833709717, "Quantum control": 0.6580955386161804 } }, { "id": 5591, "title": "OPTICAL-PROPERTIES OF QUANTUM-WIRE ARRAYS IN (AL,GA)AS SERPENTINE-SUPERLATTICE STRUCTURES", "abstract": "Serpentine superlattices with a built-in quantum-wire array have been grown on vicinal (100) GaAs substrates by molecular-beam epitaxy. The quantum wires have parabolic cross sections with confinement...", "citations": 18, "author_count": 8, "categories": [ "Materials Science" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5598, "doi": "10.1103/PhysRevB.48.8047", "umap_coordinates": { "x": 392.969970703125, "y": 134.64561462402344, "z": 208.69053649902344 }, "tsne_coordinates": { "x": 19.352018356323242, "y": -16.03938865661621, "z": 3.8071701526641846 }, "pca_coordinates": { "x": 2.3645119667053223, "y": -3.6219120025634766, "z": 0.4705342650413513 }, "axis_scores": { "Quantum imaging": 0.713645339012146, "Quantum Life Science Sensing": 0.7306907176971436, "Quantum sensing Detection": 0.7011972665786743, "Quantum sensing Metrology": 0.7069186568260193, "Quantum sensing navigation": 0.7124537229537964, "Quantum sensing Position": 0.7163456678390503, "Quantum sensing Timing": 0.6857146620750427, "Quantum sensing": 0.7212108373641968, "Quantum control": 0.6795860528945923 } }, { "id": 5592, "title": "Single-longitudinal mode quadruple wavelength C plus L-band erbium-doped fiber laser based on the pairs of reflective fiber bragg gratings", "abstract": "Flatness of lasing wavelengths of a multi-wavelength fiber laser (MWFL) is an important design constraint that is considered attractive in various applications of photonics and optical communication s...", "citations": 4, "author_count": 10, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5599, "doi": "10.1088/1402-4896/ad96fb", "umap_coordinates": { "x": 394.6867980957031, "y": 133.82904052734375, "z": 207.14620971679688 }, "tsne_coordinates": { "x": -14.00531005859375, "y": -10.994478225708008, "z": -25.513708114624023 }, "pca_coordinates": { "x": -1.2792174816131592, "y": -0.10325384140014648, "z": 2.4240338802337646 }, "axis_scores": { "Quantum imaging": 0.6646278500556946, "Quantum Life Science Sensing": 0.7026371359825134, "Quantum sensing Detection": 0.6840311884880066, "Quantum sensing Metrology": 0.7036734223365784, "Quantum sensing navigation": 0.6634517908096313, "Quantum sensing Position": 0.6834643483161926, "Quantum sensing Timing": 0.6799185276031494, "Quantum sensing": 0.6951830983161926, "Quantum control": 0.6635845303535461 } }, { "id": 5593, "title": "Torsional Bias as a Strategy To Tune Single-triplet Gaps in Organic Diradicals", "abstract": "Quinoidal compounds with proaromatic structures possess differing degrees of diradical character, where the open-shell diradical resonance form has restored aromaticity throughout the compound. Method...", "citations": 9, "author_count": 10, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5600, "doi": "10.1021/acs.jpcc.8b01905", "umap_coordinates": { "x": 392.16546630859375, "y": 136.53952026367188, "z": 205.84915161132812 }, "tsne_coordinates": { "x": 2.000704765319824, "y": -2.082568645477295, "z": -4.327493190765381 }, "pca_coordinates": { "x": -0.10347926616668701, "y": -2.196293354034424, "z": -1.7679691314697266 }, "axis_scores": { "Quantum imaging": 0.6779757142066956, "Quantum Life Science Sensing": 0.6791834831237793, "Quantum sensing Detection": 0.6727889776229858, "Quantum sensing Metrology": 0.6663651466369629, "Quantum sensing navigation": 0.687177300453186, "Quantum sensing Position": 0.670562744140625, "Quantum sensing Timing": 0.7037357687950134, "Quantum sensing": 0.6872157454490662, "Quantum control": 0.6952660083770752 } }, { "id": 5594, "title": "Magnetism of matter and phase-space energy of charged particle systems", "abstract": "The (Daruin) Lagrangian, and energy, valid for systems of charged particles when radiation is negligible, are derived in a new way that avoids the usual v/c-expansion. This shows more clearly their ra...", "citations": 21, "author_count": 2, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5601, "doi": "10.1088/0305-4470/32/12/005", "umap_coordinates": { "x": 393.9742736816406, "y": 136.96401977539062, "z": 207.3223419189453 }, "tsne_coordinates": { "x": -4.0128889083862305, "y": -28.800289154052734, "z": 33.297325134277344 }, "pca_coordinates": { "x": 1.8622145652770996, "y": 2.1948821544647217, "z": -2.6125686168670654 }, "axis_scores": { "Quantum imaging": 0.7216920852661133, "Quantum Life Science Sensing": 0.7523508071899414, "Quantum sensing Detection": 0.7013808488845825, "Quantum sensing Metrology": 0.7094008326530457, "Quantum sensing navigation": 0.7199156284332275, "Quantum sensing Position": 0.6976914405822754, "Quantum sensing Timing": 0.6681354641914368, "Quantum sensing": 0.713446319103241, "Quantum control": 0.6926503777503967 } }, { "id": 5595, "title": "Integration of 150 Gbps/fiber optical engines based on multicore fibers and 6-channel VCSELs and PDs", "abstract": "Multicore fiber enables a parallel optic data link with a single optical fiber, thus providing an attractive way to increase the total throughput and the integration density of the interconnections. W...", "citations": 3, "author_count": 22, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5602, "doi": "10.1117/12.2214555", "umap_coordinates": { "x": 394.5386962890625, "y": 133.97506713867188, "z": 206.49195861816406 }, "tsne_coordinates": { "x": 0.7494466304779053, "y": -7.741470813751221, "z": -30.584177017211914 }, "pca_coordinates": { "x": -1.0367203950881958, "y": -0.13956618309020996, "z": 3.6993422508239746 }, "axis_scores": { "Quantum imaging": 0.6978076696395874, "Quantum Life Science Sensing": 0.6785789132118225, "Quantum sensing Detection": 0.6838445663452148, "Quantum sensing Metrology": 0.6980713605880737, "Quantum sensing navigation": 0.7027392387390137, "Quantum sensing Position": 0.6652848124504089, "Quantum sensing Timing": 0.6727609038352966, "Quantum sensing": 0.6957513689994812, "Quantum control": 0.6817830204963684 } }, { "id": 5596, "title": "Laser Rate Equation-Based Filtering for Carrier Recovery in Characterization and Communication", "abstract": "We formulate a semiconductor laser rate equation-based approach to carrier recovery in a Bayesian filtering framework. Filter stability and the effect of model inaccuracies (unknown or unuseable rate ...", "citations": 10, "author_count": 12, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5603, "doi": "10.1109/JLT.2015.2430373", "umap_coordinates": { "x": 394.8940124511719, "y": 134.08584594726562, "z": 206.7020721435547 }, "tsne_coordinates": { "x": 6.348628044128418, "y": 1.4265191555023193, "z": -39.78812026977539 }, "pca_coordinates": { "x": -0.3756425380706787, "y": 1.8390560150146484, "z": 1.0749626159667969 }, "axis_scores": { "Quantum imaging": 0.7140674591064453, "Quantum Life Science Sensing": 0.7259806990623474, "Quantum sensing Detection": 0.7178620100021362, "Quantum sensing Metrology": 0.7132645845413208, "Quantum sensing navigation": 0.7147409915924072, "Quantum sensing Position": 0.7068341970443726, "Quantum sensing Timing": 0.7093714475631714, "Quantum sensing": 0.7203053832054138, "Quantum control": 0.7092664241790771 } }, { "id": 5597, "title": "Photonic-resonant left-handed medium", "abstract": "A new scheme to realize simultaneously negative permittivity and permeability in a coherent atomic vapor medium (photonic-resonant material) via a coherent driving mechanism is suggested. It is verifi...", "citations": 28, "author_count": 2, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5604, "doi": "10.1016/j.physleta.2006.04.011", "umap_coordinates": { "x": 393.9887390136719, "y": 134.33193969726562, "z": 205.88661193847656 }, "tsne_coordinates": { "x": -16.629859924316406, "y": -0.343174546957016, "z": -10.493459701538086 }, "pca_coordinates": { "x": -0.6222879886627197, "y": 0.01470041275024414, "z": 0.5752834677696228 }, "axis_scores": { "Quantum imaging": 0.7527773380279541, "Quantum Life Science Sensing": 0.7382677793502808, "Quantum sensing Detection": 0.7379240393638611, "Quantum sensing Metrology": 0.7156897187232971, "Quantum sensing navigation": 0.7213120460510254, "Quantum sensing Position": 0.7283446788787842, "Quantum sensing Timing": 0.688139021396637, "Quantum sensing": 0.750351071357727, "Quantum control": 0.7011973261833191 } }, { "id": 5598, "title": "Surface science at the PEARL beamline of the Swiss Light Source", "abstract": "The Photo-Emission and Atomic Resolution Laboratory (PEARL) is a new soft X-ray beamline and surface science laboratory at the Swiss Light Source. PEARL is dedicated to the structural characterization...", "citations": 72, "author_count": 16, "categories": [ "Instruments & Instrumentation" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5605, "doi": "10.1107/S1600577516018646", "umap_coordinates": { "x": 396.1714172363281, "y": 134.7200164794922, "z": 206.30528259277344 }, "tsne_coordinates": { "x": -22.05478858947754, "y": 15.245843887329102, "z": -8.380997657775879 }, "pca_coordinates": { "x": -0.8282409906387329, "y": 0.3726193904876709, "z": 0.8806235194206238 }, "axis_scores": { "Quantum imaging": 0.6988251209259033, "Quantum Life Science Sensing": 0.7516148090362549, "Quantum sensing Detection": 0.698351263999939, "Quantum sensing Metrology": 0.7077727913856506, "Quantum sensing navigation": 0.7137700319290161, "Quantum sensing Position": 0.7259693145751953, "Quantum sensing Timing": 0.6907474994659424, "Quantum sensing": 0.7178348302841187, "Quantum control": 0.6953391432762146 } }, { "id": 5599, "title": "Ethanol in Aqueous Solution Studied by Microjet Photoelectron Spectroscopy and Theory", "abstract": "By combining results and analysis from cylindrical microjet photoelectron spectroscopy (cMJ-PES) and theoretical simulations, we unravel the microscopic properties of ethanol-water solutions with resp...", "citations": 10, "author_count": 6, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5606, "doi": "10.1021/acs.accounts.2c00471", "umap_coordinates": { "x": 392.7804260253906, "y": 134.7849578857422, "z": 204.98300170898438 }, "tsne_coordinates": { "x": 27.154029846191406, "y": 17.75237274169922, "z": 1.341234564781189 }, "pca_coordinates": { "x": -1.5571708679199219, "y": -1.386780023574829, "z": -1.9064266681671143 }, "axis_scores": { "Quantum imaging": 0.6945822238922119, "Quantum Life Science Sensing": 0.7218765616416931, "Quantum sensing Detection": 0.6892292499542236, "Quantum sensing Metrology": 0.6811018586158752, "Quantum sensing navigation": 0.6852802634239197, "Quantum sensing Position": 0.6793232560157776, "Quantum sensing Timing": 0.655125081539154, "Quantum sensing": 0.6963840126991272, "Quantum control": 0.689869225025177 } }, { "id": 5600, "title": "Uncertainty propagation for SPECT/CT-based renal dosimetry in 177Lu peptide receptor radionuclide therapy", "abstract": "A computer model of a patient-specific clinical Lu-177-DOTATATE therapy dosimetry system is constructed and used for investigating the variability of renal absorbed dose and biologically effective dos...", "citations": 44, "author_count": 7, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5607, "doi": "10.1088/0031-9155/60/21/8329", "umap_coordinates": { "x": 395.82916259765625, "y": 133.33370971679688, "z": 204.90496826171875 }, "tsne_coordinates": { "x": -13.647309303283691, "y": 29.34088134765625, "z": -12.707196235656738 }, "pca_coordinates": { "x": -1.5438213348388672, "y": 4.540050506591797, "z": 2.751598834991455 }, "axis_scores": { "Quantum imaging": 0.7096084356307983, "Quantum Life Science Sensing": 0.7078134417533875, "Quantum sensing Detection": 0.6852902173995972, "Quantum sensing Metrology": 0.6955395340919495, "Quantum sensing navigation": 0.7197019457817078, "Quantum sensing Position": 0.6999540328979492, "Quantum sensing Timing": 0.6947767734527588, "Quantum sensing": 0.692707896232605, "Quantum control": 0.6622819900512695 } }, { "id": 5601, "title": "Condensation of Na metal on graphite studied by photoemission - art. no. 235416", "abstract": "Above a submonolayer threshold coverage of around 0.2 monolayer (ML) Na deposited on graphite forms adsorbed islands. Via photoemission from quantum well states (QWS's) the islands are detected down t...", "citations": 27, "author_count": 5, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5608, "doi": "10.1103/PhysRevB.67.235416", "umap_coordinates": { "x": 394.4001159667969, "y": 135.29461669921875, "z": 209.31065368652344 }, "tsne_coordinates": { "x": 7.059238433837891, "y": -38.756996154785156, "z": -2.3520545959472656 }, "pca_coordinates": { "x": 3.1798720359802246, "y": -0.2203211784362793, "z": 0.006701350212097168 }, "axis_scores": { "Quantum imaging": 0.6535474061965942, "Quantum Life Science Sensing": 0.7096636891365051, "Quantum sensing Detection": 0.6829239130020142, "Quantum sensing Metrology": 0.6691641807556152, "Quantum sensing navigation": 0.6846705079078674, "Quantum sensing Position": 0.6577227711677551, "Quantum sensing Timing": 0.630025327205658, "Quantum sensing": 0.6818698644638062, "Quantum control": 0.6497429609298706 } }, { "id": 5602, "title": "Effects of Structural Fluctuations on Two-Photon Absorption Activity of Interacting Dipolar Chromophores", "abstract": "One- and two-photon absorption properties of organic chromophores consisting of interacting dipolar branches have been studied using density functional response theory in combination with molecular dy...", "citations": 25, "author_count": 5, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5609, "doi": "10.1021/jp103791s", "umap_coordinates": { "x": 392.6968078613281, "y": 136.4169158935547, "z": 206.19113159179688 }, "tsne_coordinates": { "x": 0.40907153487205505, "y": -1.6818960905075073, "z": 4.615806579589844 }, "pca_coordinates": { "x": -0.5829063057899475, "y": -1.193638801574707, "z": -1.7631499767303467 }, "axis_scores": { "Quantum imaging": 0.7296750545501709, "Quantum Life Science Sensing": 0.7253623008728027, "Quantum sensing Detection": 0.701502799987793, "Quantum sensing Metrology": 0.6892151832580566, "Quantum sensing navigation": 0.69773930311203, "Quantum sensing Position": 0.6715694665908813, "Quantum sensing Timing": 0.6760865449905396, "Quantum sensing": 0.7196977138519287, "Quantum control": 0.6912150979042053 } }, { "id": 5603, "title": "Local polarization of tightly focused unpolarized light", "abstract": "The polarization of light is important in a great variety of optical phenomena, ranging from transmission, reflection and scattering to polarimetric imaging of scenes and quantum-mechanical selection ...", "citations": 86, "author_count": 7, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5610, "doi": "10.1038/nphoton.2007.30", "umap_coordinates": { "x": 394.266845703125, "y": 134.1875762939453, "z": 205.83209228515625 }, "tsne_coordinates": { "x": -18.358402252197266, "y": -6.273161888122559, "z": -11.43726634979248 }, "pca_coordinates": { "x": -1.7592332363128662, "y": -0.12265467643737793, "z": 1.0515780448913574 }, "axis_scores": { "Quantum imaging": 0.7719447612762451, "Quantum Life Science Sensing": 0.7544927000999451, "Quantum sensing Detection": 0.7531904578208923, "Quantum sensing Metrology": 0.7204573750495911, "Quantum sensing navigation": 0.7476602792739868, "Quantum sensing Position": 0.731846809387207, "Quantum sensing Timing": 0.6839837431907654, "Quantum sensing": 0.7652081251144409, "Quantum control": 0.7286539077758789 } }, { "id": 5604, "title": "Photoluminescence and X-ray characterisation of Si/Si1-xGex multiple quantum wells", "abstract": "We present an experimental approach to correlate optical and structural properties of Si/Si1-xGex multiple quantum wells as determined by photoluminescence (PL) and X-ray diffraction, respectively. Th...", "citations": 4, "author_count": 6, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5611, "doi": "10.1016/S0022-2313(98)00163-X", "umap_coordinates": { "x": 393.5085144042969, "y": 133.25601196289062, "z": 207.01864624023438 }, "tsne_coordinates": { "x": 44.78845977783203, "y": -2.96835994720459, "z": -4.544064521789551 }, "pca_coordinates": { "x": -2.2373595237731934, "y": -1.9153203964233398, "z": 3.2363333702087402 }, "axis_scores": { "Quantum imaging": 0.7057844996452332, "Quantum Life Science Sensing": 0.7073203921318054, "Quantum sensing Detection": 0.6932956576347351, "Quantum sensing Metrology": 0.7087982296943665, "Quantum sensing navigation": 0.6786845326423645, "Quantum sensing Position": 0.7018288373947144, "Quantum sensing Timing": 0.6728411912918091, "Quantum sensing": 0.7048014402389526, "Quantum control": 0.6407232880592346 } }, { "id": 5605, "title": "Introduction to attosecond delays in photoionization", "abstract": "This tutorial presents an introduction to the interaction of light and matter on the attosecond timescale. Our aim is to detail the theoretical description of ultra-short time delays and to relate the...", "citations": 293, "author_count": 4, "categories": [ "Optics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5612, "doi": "10.1088/0953-4075/45/18/183001", "umap_coordinates": { "x": 395.2129821777344, "y": 135.441162109375, "z": 206.82119750976562 }, "tsne_coordinates": { "x": -12.710807800292969, "y": -18.216794967651367, "z": -21.07244110107422 }, "pca_coordinates": { "x": -0.6674187183380127, "y": 2.6374664306640625, "z": 0.5431435704231262 }, "axis_scores": { "Quantum imaging": 0.6935173273086548, "Quantum Life Science Sensing": 0.687666118144989, "Quantum sensing Detection": 0.6815266609191895, "Quantum sensing Metrology": 0.6604764461517334, "Quantum sensing navigation": 0.6716844439506531, "Quantum sensing Position": 0.670728862285614, "Quantum sensing Timing": 0.7383151054382324, "Quantum sensing": 0.6866774559020996, "Quantum control": 0.6609225273132324 } }, { "id": 5606, "title": "Effective hydrodynamic field theory and condensation picture of topological insulators", "abstract": "While many features of topological band insulators are commonly discussed at the level of single-particle electron wave functions, such as the gapless Dirac boundary spectrum, it remains elusive to de...", "citations": 20, "author_count": 5, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5613, "doi": "10.1103/PhysRevB.93.155122", "umap_coordinates": { "x": 395.0139465332031, "y": 137.04319763183594, "z": 208.7476043701172 }, "tsne_coordinates": { "x": -18.012798309326172, "y": -39.0189094543457, "z": 6.574386119842529 }, "pca_coordinates": { "x": 4.855837345123291, "y": 2.096386194229126, "z": -1.5642426013946533 }, "axis_scores": { "Quantum imaging": 0.7109664678573608, "Quantum Life Science Sensing": 0.6875649690628052, "Quantum sensing Detection": 0.6857820749282837, "Quantum sensing Metrology": 0.6623039245605469, "Quantum sensing navigation": 0.7132912278175354, "Quantum sensing Position": 0.6646401286125183, "Quantum sensing Timing": 0.6763551235198975, "Quantum sensing": 0.6935450434684753, "Quantum control": 0.7035701870918274 } }, { "id": 5607, "title": "Dopant Concentration and Short-Range Structure Dependence of Diffusional Proton Dynamics in Hydrated BaInxZr1-xO3-x/2 (x=0.10 and 0.50)", "abstract": "We investigate proton self-dynamics in the acceptor-doped and hydrated proton-conducting perovskite-type oxides BaInxZr1-xO3-x/2 (x = 0.10 and 0.50) on a microscopic length scale for temperatures in t...", "citations": 11, "author_count": 5, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5614, "doi": "10.1021/jp910224s", "umap_coordinates": { "x": 392.399658203125, "y": 136.26829528808594, "z": 206.72576904296875 }, "tsne_coordinates": { "x": 12.925381660461426, "y": 6.785112380981445, "z": 21.5965518951416 }, "pca_coordinates": { "x": 0.02403712272644043, "y": -0.4772298336029053, "z": -3.742732524871826 }, "axis_scores": { "Quantum imaging": 0.7186936140060425, "Quantum Life Science Sensing": 0.7321271896362305, "Quantum sensing Detection": 0.6878954172134399, "Quantum sensing Metrology": 0.6747810244560242, "Quantum sensing navigation": 0.7186775207519531, "Quantum sensing Position": 0.7133411765098572, "Quantum sensing Timing": 0.6959963440895081, "Quantum sensing": 0.7089450359344482, "Quantum control": 0.6980423927307129 } }, { "id": 5608, "title": "Precise Characterization of a Waveguide Fiber Interface in Silicon Carbide", "abstract": "Spin-active optical emitters in silicon carbide are excellent candidates toward the development of scalable quantum technologies. However, efficient photon collection is challenged by undirected emiss...", "citations": 10, "author_count": 17, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5615, "doi": "10.1021/acsphotonics.4c00538", "umap_coordinates": { "x": 393.3208923339844, "y": 133.61485290527344, "z": 206.50096130371094 }, "tsne_coordinates": { "x": 14.449837684631348, "y": -11.114527702331543, "z": -11.9369535446167 }, "pca_coordinates": { "x": -1.8301678895950317, "y": -1.5055909156799316, "z": 2.171400308609009 }, "axis_scores": { "Quantum imaging": 0.715709388256073, "Quantum Life Science Sensing": 0.708957314491272, "Quantum sensing Detection": 0.7077900767326355, "Quantum sensing Metrology": 0.7216610908508301, "Quantum sensing navigation": 0.7004555463790894, "Quantum sensing Position": 0.700958788394928, "Quantum sensing Timing": 0.6690216660499573, "Quantum sensing": 0.7157222032546997, "Quantum control": 0.6890058517456055 } }, { "id": 5609, "title": "Spectral lesion characterization on a photon-counting mammography system", "abstract": "Spectral X-ray imaging(1) allows to differentiate between two given tissue types, provided their spectral absorption characteristics differ measurably. In mammography, this method is used clinically t...", "citations": 2, "author_count": 5, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5616, "doi": "10.1117/12.2043028", "umap_coordinates": { "x": 395.6329650878906, "y": 132.57456970214844, "z": 205.76736450195312 }, "tsne_coordinates": { "x": -8.283202171325684, "y": 21.767900466918945, "z": -26.900074005126953 }, "pca_coordinates": { "x": -2.333460569381714, "y": 0.9400725364685059, "z": 4.504764556884766 }, "axis_scores": { "Quantum imaging": 0.720452070236206, "Quantum Life Science Sensing": 0.7058693766593933, "Quantum sensing Detection": 0.7203778028488159, "Quantum sensing Metrology": 0.7059972286224365, "Quantum sensing navigation": 0.682770311832428, "Quantum sensing Position": 0.691109299659729, "Quantum sensing Timing": 0.6712787747383118, "Quantum sensing": 0.7093568444252014, "Quantum control": 0.6318435668945312 } }, { "id": 5610, "title": "Extended Forster theory for determining intraprotein distances. 1. The κ2-dynamics and fluorophore reorientation", "abstract": "A detailed analysis of the previously developed (J. Chem. Phys. 1996, 105, 10896) extended Forster theory (EFT) is presented for analyzing electronic energy migration within pairs of donors (D). Synth...", "citations": 15, "author_count": 5, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5617, "doi": "10.1021/jp040423d", "umap_coordinates": { "x": 392.8238525390625, "y": 136.29269409179688, "z": 205.6407470703125 }, "tsne_coordinates": { "x": 23.412656784057617, "y": 12.276650428771973, "z": 25.016569137573242 }, "pca_coordinates": { "x": -1.5648424625396729, "y": 1.8572545051574707, "z": -2.800870418548584 }, "axis_scores": { "Quantum imaging": 0.709469199180603, "Quantum Life Science Sensing": 0.7171118259429932, "Quantum sensing Detection": 0.6709334850311279, "Quantum sensing Metrology": 0.6697069406509399, "Quantum sensing navigation": 0.6895528435707092, "Quantum sensing Position": 0.6877909302711487, "Quantum sensing Timing": 0.687097430229187, "Quantum sensing": 0.6883560419082642, "Quantum control": 0.6548151969909668 } }, { "id": 5611, "title": "Tradeoff between mode confinement, loss, and cross-talk, for dielectric and metal slot waveguides", "abstract": "Slot waveguides formed in high-index dielectrics or metals provide strong field enhancement in the slot region. When filled with nonlinear or lasing materials, they have the potential for highly effic...", "citations": 2, "author_count": 4, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5618, "doi": "10.4302/plp.2009.4.10", "umap_coordinates": { "x": 394.22271728515625, "y": 133.70907592773438, "z": 206.75277709960938 }, "tsne_coordinates": { "x": 7.084341526031494, "y": -4.937448501586914, "z": -36.5464973449707 }, "pca_coordinates": { "x": -1.6214032173156738, "y": -0.24729466438293457, "z": 1.0661132335662842 }, "axis_scores": { "Quantum imaging": 0.6679553985595703, "Quantum Life Science Sensing": 0.6808366179466248, "Quantum sensing Detection": 0.6666904091835022, "Quantum sensing Metrology": 0.6826914548873901, "Quantum sensing navigation": 0.6703997254371643, "Quantum sensing Position": 0.65892094373703, "Quantum sensing Timing": 0.6336500644683838, "Quantum sensing": 0.676790714263916, "Quantum control": 0.641124427318573 } }, { "id": 5612, "title": "Photoproduction of dijets with high transverse momenta at HERA", "abstract": "Differential dijet cross sections are measured in photoproduction in the region of photon virtualities Q(2) < 1 GeV2 with the H1 detector at the HERA ep collider using an integrated luminosity of 66.6...", "citations": 28, "author_count": 305, "categories": [ "Astronomy & Astrophysics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5619, "doi": "10.1016/j.physletb.2006.05.060", "umap_coordinates": { "x": 396.9773864746094, "y": 134.19503784179688, "z": 207.626708984375 }, "tsne_coordinates": { "x": -32.45591354370117, "y": 5.939629554748535, "z": -7.765692234039307 }, "pca_coordinates": { "x": -0.32894957065582275, "y": 0.3963589668273926, "z": 1.8308532238006592 }, "axis_scores": { "Quantum imaging": 0.6897888779640198, "Quantum Life Science Sensing": 0.6522281765937805, "Quantum sensing Detection": 0.6747891902923584, "Quantum sensing Metrology": 0.6522893309593201, "Quantum sensing navigation": 0.659797191619873, "Quantum sensing Position": 0.677645742893219, "Quantum sensing Timing": 0.6837024092674255, "Quantum sensing": 0.6795733571052551, "Quantum control": 0.6532105803489685 } }, { "id": 5613, "title": "Megavoltage photon FLASH for preclinical experiments", "abstract": "Background FLASH radiotherapy using megavoltage (MV) photon beams should enable greater therapeutic efficacy, target deep seated tumors, and provide insights into mechanisms within FLASH. Purpose In t...", "citations": 4, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5620, "doi": "10.1002/mp.17891", "umap_coordinates": { "x": 395.6806335449219, "y": 133.3918914794922, "z": 205.0733184814453 }, "tsne_coordinates": { "x": -9.196907043457031, "y": 33.38210678100586, "z": -21.075286865234375 }, "pca_coordinates": { "x": -3.112157106399536, "y": 3.1462175846099854, "z": 1.950683832168579 }, "axis_scores": { "Quantum imaging": 0.7181093096733093, "Quantum Life Science Sensing": 0.7199161052703857, "Quantum sensing Detection": 0.672491192817688, "Quantum sensing Metrology": 0.6791347861289978, "Quantum sensing navigation": 0.6627216935157776, "Quantum sensing Position": 0.6633952856063843, "Quantum sensing Timing": 0.6854762434959412, "Quantum sensing": 0.684756338596344, "Quantum control": 0.642117440700531 } }, { "id": 5614, "title": "Impact of low-energy photons on the characteristics of prompt fission γ-ray spectra", "abstract": "In this paper we report on a new study of prompt gamma-rays from the spontaneous fission of Cf-252. Photons were measured in coincidence with fission fragments by employing four different lanthanide h...", "citations": 45, "author_count": 5, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5621, "doi": "10.1103/PhysRevC.92.014618", "umap_coordinates": { "x": 396.0171813964844, "y": 134.44287109375, "z": 207.4595184326172 }, "tsne_coordinates": { "x": -37.06764602661133, "y": -3.0361921787261963, "z": -17.50856590270996 }, "pca_coordinates": { "x": 0.626941442489624, "y": 0.43390512466430664, "z": 1.5738418102264404 }, "axis_scores": { "Quantum imaging": 0.6780468225479126, "Quantum Life Science Sensing": 0.717946469783783, "Quantum sensing Detection": 0.6878438591957092, "Quantum sensing Metrology": 0.6475774645805359, "Quantum sensing navigation": 0.659912109375, "Quantum sensing Position": 0.656548261642456, "Quantum sensing Timing": 0.6729713678359985, "Quantum sensing": 0.686272144317627, "Quantum control": 0.6312587261199951 } }, { "id": 5615, "title": "Ethyl cellulose as a host material for thermally-activated delayed fluorescence emitters", "abstract": "Thermally-activated delayed fluorescence (TADF) emitters are typically introduced to the OLEDs by doping into a host matrix to prevent emission losses caused by aggregation, concentration quenching, a...", "citations": 1, "author_count": 12, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5622, "doi": "10.1016/j.optmat.2025.117097", "umap_coordinates": { "x": 393.2640380859375, "y": 134.38833618164062, "z": 204.83851623535156 }, "tsne_coordinates": { "x": 6.5293121337890625, "y": 9.185606002807617, "z": -20.625404357910156 }, "pca_coordinates": { "x": -4.351878643035889, "y": -0.0807950496673584, "z": 0.14262306690216064 }, "axis_scores": { "Quantum imaging": 0.6935350298881531, "Quantum Life Science Sensing": 0.6859071254730225, "Quantum sensing Detection": 0.6811373829841614, "Quantum sensing Metrology": 0.6570910215377808, "Quantum sensing navigation": 0.6619890332221985, "Quantum sensing Position": 0.6666769981384277, "Quantum sensing Timing": 0.6806422472000122, "Quantum sensing": 0.6869070529937744, "Quantum control": 0.6541741490364075 } }, { "id": 5616, "title": "A Real-Time Fluorogenic Assay for the Visualization of Glycoside Hydrolase Activity in Planta", "abstract": "There currently exists a diverse array of molecular probes for the in situ localization of polysaccharides, nucleic acids, and proteins in plant cells, including reporter enzyme strategies (e. g. prot...", "citations": 25, "author_count": 8, "categories": [ "Plant Sciences" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5623, "doi": "10.1104/pp.109.147439", "umap_coordinates": { "x": 394.17156982421875, "y": 135.97744750976562, "z": 204.0747833251953 }, "tsne_coordinates": { "x": 8.395771980285645, "y": 32.29419708251953, "z": 3.582571029663086 }, "pca_coordinates": { "x": -2.9222657680511475, "y": 1.9725770950317383, "z": 0.26218539476394653 }, "axis_scores": { "Quantum imaging": 0.7055487632751465, "Quantum Life Science Sensing": 0.7230969071388245, "Quantum sensing Detection": 0.6954654455184937, "Quantum sensing Metrology": 0.6669576168060303, "Quantum sensing navigation": 0.6916253566741943, "Quantum sensing Position": 0.6628380417823792, "Quantum sensing Timing": 0.6937960386276245, "Quantum sensing": 0.6981092691421509, "Quantum control": 0.6836114525794983 } }, { "id": 5617, "title": "Roadmap on optical communications", "abstract": "The Covid-19 pandemic showed forcefully the fundamental importance broadband data communication and the internet has in our society. Optical communications forms the undisputable backbone of this crit...", "citations": 53, "author_count": 23, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5624, "doi": "10.1088/2040-8986/ad261f", "umap_coordinates": { "x": 394.7259521484375, "y": 134.5954132080078, "z": 206.12986755371094 }, "tsne_coordinates": { "x": -13.23156452178955, "y": 1.4488940238952637, "z": -18.30290412902832 }, "pca_coordinates": { "x": -1.4270317554473877, "y": 1.6648671627044678, "z": 1.3514630794525146 }, "axis_scores": { "Quantum imaging": 0.6938735246658325, "Quantum Life Science Sensing": 0.6973971724510193, "Quantum sensing Detection": 0.6734565496444702, "Quantum sensing Metrology": 0.6918824315071106, "Quantum sensing navigation": 0.6905460357666016, "Quantum sensing Position": 0.6695188283920288, "Quantum sensing Timing": 0.6531244516372681, "Quantum sensing": 0.6851322054862976, "Quantum control": 0.669545590877533 } }, { "id": 5618, "title": "Dipole and quadrupole moments of liquid water calculated within the coupled cluster/molecular mechanics method", "abstract": "We present the first study of dipole and quadrupole moments of liquid water calculated using coupled cluster/molecular mechanics (COMM) methods. CUMM methods are used to calculate the total dipole mom...", "citations": 56, "author_count": 5, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5625, "doi": "10.1016/S0009-2614(02)01286-1", "umap_coordinates": { "x": 393.685546875, "y": 136.88966369628906, "z": 205.6671905517578 }, "tsne_coordinates": { "x": -6.637106418609619, "y": 14.086393356323242, "z": 23.224302291870117 }, "pca_coordinates": { "x": -1.336700439453125, "y": 1.5340852737426758, "z": -2.311194658279419 }, "axis_scores": { "Quantum imaging": 0.6765578985214233, "Quantum Life Science Sensing": 0.7107060551643372, "Quantum sensing Detection": 0.669758677482605, "Quantum sensing Metrology": 0.6752567887306213, "Quantum sensing navigation": 0.6708612442016602, "Quantum sensing Position": 0.6656036376953125, "Quantum sensing Timing": 0.6436472535133362, "Quantum sensing": 0.6884348392486572, "Quantum control": 0.6749999523162842 } }, { "id": 5619, "title": "Optimization of photon counting CT for cardiac imaging in patients with left ventricular assist devices: An in-depth assessment of metal artifacts", "abstract": "PurposePhoton counting CT (PCCT) holds promise for mitigating metal artifacts and can produce virtual mono-energetic images (VMI), while maintaining temporal resolution, making it a valuable tool for ...", "citations": 2, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5626, "doi": "10.1002/acm2.14386", "umap_coordinates": { "x": 395.65301513671875, "y": 132.64686584472656, "z": 205.06179809570312 }, "tsne_coordinates": { "x": -5.552358150482178, "y": 20.59336280822754, "z": -16.36914825439453 }, "pca_coordinates": { "x": -3.217578411102295, "y": 2.641305685043335, "z": 2.3227040767669678 }, "axis_scores": { "Quantum imaging": 0.7295893430709839, "Quantum Life Science Sensing": 0.6939931511878967, "Quantum sensing Detection": 0.6962496042251587, "Quantum sensing Metrology": 0.6915745139122009, "Quantum sensing navigation": 0.6899093985557556, "Quantum sensing Position": 0.6903929710388184, "Quantum sensing Timing": 0.698350727558136, "Quantum sensing": 0.6984601616859436, "Quantum control": 0.6728212237358093 } }, { "id": 5620, "title": "Is salt stress tolerance in Casuarina glauca Sieb. ex Spreng. associated with its nitrogen-fixing root-nodule symbiosis? An analysis at the photosynthetic level", "abstract": "Casuarina glauca is an actinorhizal tree which establishes root-nodule symbiosis with N-2-fixing Frankia bacteria. This plant is commonly found in saline zones and is widely used to remediate marginal...", "citations": 33, "author_count": 15, "categories": [ "Plant Sciences" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5627, "doi": "10.1016/j.plaphy.2015.07.021", "umap_coordinates": { "x": 393.9455261230469, "y": 135.6938934326172, "z": 203.89691162109375 }, "tsne_coordinates": { "x": 16.18821144104004, "y": 30.94029998779297, "z": 9.073702812194824 }, "pca_coordinates": { "x": -3.830350160598755, "y": 1.4270083904266357, "z": -1.5338795185089111 }, "axis_scores": { "Quantum imaging": 0.6503914594650269, "Quantum Life Science Sensing": 0.6819471716880798, "Quantum sensing Detection": 0.6472671627998352, "Quantum sensing Metrology": 0.6468360424041748, "Quantum sensing navigation": 0.6603617668151855, "Quantum sensing Position": 0.6637574434280396, "Quantum sensing Timing": 0.6277245283126831, "Quantum sensing": 0.6622598171234131, "Quantum control": 0.6477656960487366 } }, { "id": 5621, "title": "The Thiamine Content of Phytoplankton Cells Is Affected by Abiotic Stress and Growth Rate", "abstract": "Thiamine (vitamin B-1) is produced by many plants, algae and bacteria, but by higher trophic levels, it must be acquired through the diet. We experimentally investigated how the thiamine content of si...", "citations": 50, "author_count": 4, "categories": [ "Environmental Sciences & Ecology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5628, "doi": "10.1007/s00248-012-0156-1", "umap_coordinates": { "x": 393.98431396484375, "y": 135.78268432617188, "z": 203.85794067382812 }, "tsne_coordinates": { "x": 14.890279769897461, "y": 28.787187576293945, "z": 6.8368425369262695 }, "pca_coordinates": { "x": -3.5641028881073, "y": 1.084905743598938, "z": -1.988835334777832 }, "axis_scores": { "Quantum imaging": 0.6605393886566162, "Quantum Life Science Sensing": 0.6993944048881531, "Quantum sensing Detection": 0.6587709784507751, "Quantum sensing Metrology": 0.66224205493927, "Quantum sensing navigation": 0.6624893546104431, "Quantum sensing Position": 0.6578998565673828, "Quantum sensing Timing": 0.6422950029373169, "Quantum sensing": 0.6747167706489563, "Quantum control": 0.6745554804801941 } }, { "id": 5622, "title": "Automatic generation of nonadiabatic conditional geometric phase shift with a noncoplanar fibre system", "abstract": "A new scheme for realizing a nonadiabatic conditional geometric phase shift via a noncoplanar (coiled) fibre system is presented. It is shown that the effective Hamiltonian that describes the interact...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5629, "doi": "10.1088/0031-8949/73/1/011", "umap_coordinates": { "x": 395.4750671386719, "y": 136.68154907226562, "z": 206.94692993164062 }, "tsne_coordinates": { "x": -21.271127700805664, "y": 2.8267781734466553, "z": -8.793545722961426 }, "pca_coordinates": { "x": 1.1439104080200195, "y": 4.521099090576172, "z": 2.3702001571655273 }, "axis_scores": { "Quantum imaging": 0.6872522234916687, "Quantum Life Science Sensing": 0.6548042893409729, "Quantum sensing Detection": 0.6631622314453125, "Quantum sensing Metrology": 0.6675313115119934, "Quantum sensing navigation": 0.6958833932876587, "Quantum sensing Position": 0.662619948387146, "Quantum sensing Timing": 0.6788716316223145, "Quantum sensing": 0.6752896904945374, "Quantum control": 0.6966636180877686 } }, { "id": 5623, "title": "Effects of nitrogen incorporation on the properties of GaInNAs/GaAs quantum well structures - art. no. 073714", "abstract": "We report results from theoretical and experimental investigations of GaInNAs/GaAs quantum well structures. Optical transition energies for samples with different In and N concentrations were determin...", "citations": 11, "author_count": 7, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5630, "doi": "10.1063/1.1873041", "umap_coordinates": { "x": 393.1170654296875, "y": 133.60540771484375, "z": 208.218505859375 }, "tsne_coordinates": { "x": 30.684078216552734, "y": -24.144712448120117, "z": 0.6480906009674072 }, "pca_coordinates": { "x": 1.3533909320831299, "y": -2.2084288597106934, "z": 1.4958384037017822 }, "axis_scores": { "Quantum imaging": 0.7298742532730103, "Quantum Life Science Sensing": 0.7367336750030518, "Quantum sensing Detection": 0.7227432727813721, "Quantum sensing Metrology": 0.7273667454719543, "Quantum sensing navigation": 0.7328888773918152, "Quantum sensing Position": 0.7078533172607422, "Quantum sensing Timing": 0.680515706539154, "Quantum sensing": 0.743297278881073, "Quantum control": 0.7116672396659851 } }, { "id": 5624, "title": "QUANTITATIVE-ANALYSIS OF STEEL SAMPLES WITH LASER IONIZATION MASS-SPECTROMETRY", "abstract": "An analytical method based on sputtering, laser ionization and time-of-flight mass spectrometry is used to determine the composition of stainless-steel samples. Ionization is performed as non-resonant...", "citations": 3, "author_count": 3, "categories": [ "Chemistry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5631, "doi": "10.1039/ja9920700261", "umap_coordinates": { "x": 394.4971618652344, "y": 135.19580078125, "z": 204.78895568847656 }, "tsne_coordinates": { "x": 20.02756118774414, "y": 17.0272216796875, "z": -24.333751678466797 }, "pca_coordinates": { "x": -2.348198175430298, "y": 2.1855971813201904, "z": 0.250232458114624 }, "axis_scores": { "Quantum imaging": 0.6657858490943909, "Quantum Life Science Sensing": 0.6892983913421631, "Quantum sensing Detection": 0.6759932637214661, "Quantum sensing Metrology": 0.681644856929779, "Quantum sensing navigation": 0.6627354621887207, "Quantum sensing Position": 0.6593493223190308, "Quantum sensing Timing": 0.6331034302711487, "Quantum sensing": 0.6819630265235901, "Quantum control": 0.643584132194519 } }, { "id": 5625, "title": "The Potential of Caffeic Acid Lipid Nanoparticulate Systems for Skin Application: In Vitro Assays to Assess Delivery and Antioxidant Effect", "abstract": "The object of this study is a comparison between solid lipid nanoparticles and ethosomes for caffeic acid delivery through the skin. Caffeic acid is a potent antioxidant molecule whose cutaneous admin...", "citations": 42, "author_count": 10, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5632, "doi": "10.3390/nano11010171", "umap_coordinates": { "x": 393.3296203613281, "y": 134.196044921875, "z": 204.34292602539062 }, "tsne_coordinates": { "x": 31.866262435913086, "y": 21.066818237304688, "z": -10.581771850585938 }, "pca_coordinates": { "x": -5.087401866912842, "y": -0.6010570526123047, "z": -2.2715346813201904 }, "axis_scores": { "Quantum imaging": 0.6710273623466492, "Quantum Life Science Sensing": 0.7198705673217773, "Quantum sensing Detection": 0.6607227325439453, "Quantum sensing Metrology": 0.6534924507141113, "Quantum sensing navigation": 0.6699202060699463, "Quantum sensing Position": 0.6448509693145752, "Quantum sensing Timing": 0.6258973479270935, "Quantum sensing": 0.6716326475143433, "Quantum control": 0.6592154502868652 } }, { "id": 5626, "title": "Carbohydrate Free Lignin: A Dissolution-Recovery Cycle of Sodium Lignosulfonate in a Switchable Ionic Liquid System", "abstract": "In this work, carbohydrate free lignin was obtained by treating a technical lignin such as sodium lignosulfonate (SLS) with a switchable ionic liquid (SIL). The SIL was synthesized from molecular moie...", "citations": 25, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5633, "doi": "10.1021/acssuschemeng.6b01927", "umap_coordinates": { "x": 392.8098449707031, "y": 135.55274963378906, "z": 203.89414978027344 }, "tsne_coordinates": { "x": 27.959529876708984, "y": 30.355785369873047, "z": 2.0562117099761963 }, "pca_coordinates": { "x": -2.064915418624878, "y": -0.037668704986572266, "z": -2.9445207118988037 }, "axis_scores": { "Quantum imaging": 0.644256055355072, "Quantum Life Science Sensing": 0.6923680305480957, "Quantum sensing Detection": 0.6370716691017151, "Quantum sensing Metrology": 0.6210567951202393, "Quantum sensing navigation": 0.6638365983963013, "Quantum sensing Position": 0.6139086484909058, "Quantum sensing Timing": 0.6165030002593994, "Quantum sensing": 0.6556597948074341, "Quantum control": 0.6416909694671631 } }, { "id": 5627, "title": "Specification of absorbed dose to water using model-based dose calculation algorithms for treatment planning in brachytherapy", "abstract": "Model-based dose calculation algorithms (MBDCAs), recently introduced in treatment planning systems (TPS) for brachytherapy, calculate tissue absorbed doses. In the TPS framework, doses have hereto be...", "citations": 24, "author_count": 3, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5634, "doi": "10.1088/0031-9155/58/8/2561", "umap_coordinates": { "x": 396.10784912109375, "y": 133.45510864257812, "z": 205.24221801757812 }, "tsne_coordinates": { "x": -14.785562515258789, "y": 30.45490837097168, "z": -17.863067626953125 }, "pca_coordinates": { "x": -1.1516060829162598, "y": 3.6018667221069336, "z": 2.1948697566986084 }, "axis_scores": { "Quantum imaging": 0.6497336626052856, "Quantum Life Science Sensing": 0.6500973701477051, "Quantum sensing Detection": 0.6269019246101379, "Quantum sensing Metrology": 0.6532977223396301, "Quantum sensing navigation": 0.6533266305923462, "Quantum sensing Position": 0.6407464742660522, "Quantum sensing Timing": 0.6611199378967285, "Quantum sensing": 0.6428696513175964, "Quantum control": 0.6256822943687439 } }, { "id": 5628, "title": "Design of a tetra-band MIM plasmonic absorber based on triangular arrays in an ultra-compact MIM waveguide", "abstract": "This paper presents design and numerical investigations of an ultra-compact, and highly-efficient plasmonic absorber based on metal-insulator-metal waveguides. The proposed device offers multiple narr...", "citations": 18, "author_count": 3, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5635, "doi": "10.1007/s11082-023-04756-2", "umap_coordinates": { "x": 393.9488220214844, "y": 133.64585876464844, "z": 206.65809631347656 }, "tsne_coordinates": { "x": 2.1884851455688477, "y": -11.17074966430664, "z": -37.47001647949219 }, "pca_coordinates": { "x": -2.1108827590942383, "y": -1.6407451629638672, "z": 0.6920579075813293 }, "axis_scores": { "Quantum imaging": 0.6806438565254211, "Quantum Life Science Sensing": 0.672806441783905, "Quantum sensing Detection": 0.6669987440109253, "Quantum sensing Metrology": 0.6777079701423645, "Quantum sensing navigation": 0.6645497679710388, "Quantum sensing Position": 0.6593866348266602, "Quantum sensing Timing": 0.6647338271141052, "Quantum sensing": 0.6798263192176819, "Quantum control": 0.6565372943878174 } }, { "id": 5629, "title": "Quasi 1D Structures at the Bi/InAs(100) Surface", "abstract": "Thin Bi films are interesting candidates for spintronic applications due to a large spin-orbit splitting that, combined with the loss of inversion symmetry at the surface, results in a band structure ...", "citations": 2, "author_count": 9, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5636, "doi": "10.1063/1.5048869", "umap_coordinates": { "x": 392.6999206542969, "y": 133.90525817871094, "z": 208.51483154296875 }, "tsne_coordinates": { "x": 23.497394561767578, "y": -18.95673370361328, "z": -0.473236620426178 }, "pca_coordinates": { "x": 2.3808252811431885, "y": -4.297152996063232, "z": -0.5340956449508667 }, "axis_scores": { "Quantum imaging": 0.7320574522018433, "Quantum Life Science Sensing": 0.7408872842788696, "Quantum sensing Detection": 0.7330722212791443, "Quantum sensing Metrology": 0.7319372296333313, "Quantum sensing navigation": 0.7271239757537842, "Quantum sensing Position": 0.7191280126571655, "Quantum sensing Timing": 0.6838866472244263, "Quantum sensing": 0.7432118058204651, "Quantum control": 0.7009871006011963 } }, { "id": 5630, "title": "α-Imaging Confirmed Efficient Targeting of CD45-Positive Cells After 211At-Radioimmunotherapy for Hematopoietic Cell Transplantation", "abstract": "alpha-radioimmunotherapy targeting CD45 may substitute for total-body irradiation in hematopoietic cell transplantation (HCT) preparative regimens for lymphoma. Our goal was to optimize the anti-CD45 ...", "citations": 25, "author_count": 14, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5637, "doi": "10.2967/jnumed.115.162388", "umap_coordinates": { "x": 395.2123107910156, "y": 133.60208129882812, "z": 204.4116668701172 }, "tsne_coordinates": { "x": 2.776353120803833, "y": 33.46868133544922, "z": -12.093066215515137 }, "pca_coordinates": { "x": -3.38179612159729, "y": 1.8700618743896484, "z": 1.4700534343719482 }, "axis_scores": { "Quantum imaging": 0.689165472984314, "Quantum Life Science Sensing": 0.6762658953666687, "Quantum sensing Detection": 0.6571923494338989, "Quantum sensing Metrology": 0.6487678289413452, "Quantum sensing navigation": 0.6533657312393188, "Quantum sensing Position": 0.6415451169013977, "Quantum sensing Timing": 0.6658006906509399, "Quantum sensing": 0.6576125621795654, "Quantum control": 0.6375378370285034 } }, { "id": 5631, "title": "Modulation of the lowest metal-to-ligand charge-transfer state in [Ru(bpy)2(N-N)]2+ systems by changing the N-N from hydrazone to azine:: Photophysical consequences", "abstract": "Two Ru( II) complexes, [ Ru( bpy) L-2]( ClO4) 2 ( 1) and [ Ru( bpy)(2)L']( BF4) 2 ( 2), where bpy is 2,2'-bipyridine, L is diacetyl dihydrazone, and L' 1: 2 is the condensate of L and acetone, are syn...", "citations": 23, "author_count": 6, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5638, "doi": "10.1021/ic061116k", "umap_coordinates": { "x": 392.0706481933594, "y": 136.5425262451172, "z": 204.85540771484375 }, "tsne_coordinates": { "x": 7.704263210296631, "y": 9.404052734375, "z": -3.1051833629608154 }, "pca_coordinates": { "x": -1.5930131673812866, "y": -0.3684885501861572, "z": -3.582111358642578 }, "axis_scores": { "Quantum imaging": 0.6895886659622192, "Quantum Life Science Sensing": 0.6973010897636414, "Quantum sensing Detection": 0.6817099452018738, "Quantum sensing Metrology": 0.6653187274932861, "Quantum sensing navigation": 0.6862062215805054, "Quantum sensing Position": 0.6742551326751709, "Quantum sensing Timing": 0.6553434133529663, "Quantum sensing": 0.6928163766860962, "Quantum control": 0.6850460171699524 } }, { "id": 5632, "title": "Spin-Resolved Spectroscopy of the Yu-Shiba-Rusinov States of Individual Atoms", "abstract": "A magnetic atom in a superconducting host induces so-called Yu-Shiba-Rusinov (YSR) bound states inside the superconducting energy gap. By combining spin-resolved scanning tunneling spectroscopy with s...", "citations": 81, "author_count": 9, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5639, "doi": "10.1103/PhysRevLett.119.197002", "umap_coordinates": { "x": 393.8094177246094, "y": 135.6396942138672, "z": 208.54457092285156 }, "tsne_coordinates": { "x": 1.9039969444274902, "y": -21.981765747070312, "z": -1.452685832977295 }, "pca_coordinates": { "x": 3.85122013092041, "y": -1.1959962844848633, "z": -1.2177366018295288 }, "axis_scores": { "Quantum imaging": 0.7218255996704102, "Quantum Life Science Sensing": 0.7559957504272461, "Quantum sensing Detection": 0.7277251482009888, "Quantum sensing Metrology": 0.7063873410224915, "Quantum sensing navigation": 0.7271904349327087, "Quantum sensing Position": 0.7064083814620972, "Quantum sensing Timing": 0.6921409964561462, "Quantum sensing": 0.749070405960083, "Quantum control": 0.7024186849594116 } }, { "id": 5633, "title": "Second Harmonic Generation in Germanium Quantum Wells for Nonlinear Silicon Photonics", "abstract": "Second-harmonic generation (SHG) is a direct measure of the strength of second-order nonlinear optical effects, which also include frequency mixing and parametric oscillations. Natural and artificial ...", "citations": 14, "author_count": 16, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5640, "doi": "10.1021/acsphotonics.1c01162", "umap_coordinates": { "x": 392.4117431640625, "y": 133.93850708007812, "z": 206.6630859375 }, "tsne_coordinates": { "x": 22.782577514648438, "y": -9.960440635681152, "z": -19.44565200805664 }, "pca_coordinates": { "x": -0.6325413584709167, "y": -3.785458564758301, "z": 0.11928743124008179 }, "axis_scores": { "Quantum imaging": 0.7235696911811829, "Quantum Life Science Sensing": 0.7249539494514465, "Quantum sensing Detection": 0.7229301929473877, "Quantum sensing Metrology": 0.7197078466415405, "Quantum sensing navigation": 0.7146717309951782, "Quantum sensing Position": 0.6911647319793701, "Quantum sensing Timing": 0.6874943971633911, "Quantum sensing": 0.7314532399177551, "Quantum control": 0.6919894218444824 } }, { "id": 5634, "title": "Automaton model of protein: Dynamics of conformational and functional states", "abstract": "In this conceptual paper we propose to explore the analogy between ontic/epistemic description of quantum phenomena and interrelation between dynamics of conformational and functional states of protei...", "citations": 10, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5641, "doi": "10.1016/j.pbiomolbio.2017.02.003", "umap_coordinates": { "x": 394.0007629394531, "y": 136.8762969970703, "z": 205.59976196289062 }, "tsne_coordinates": { "x": -16.944889068603516, "y": 11.168373107910156, "z": 21.844518661499023 }, "pca_coordinates": { "x": 0.35973548889160156, "y": 1.6005452871322632, "z": -3.898303985595703 }, "axis_scores": { "Quantum imaging": 0.7648809552192688, "Quantum Life Science Sensing": 0.7964001297950745, "Quantum sensing Detection": 0.7569663524627686, "Quantum sensing Metrology": 0.743934154510498, "Quantum sensing navigation": 0.7589752674102783, "Quantum sensing Position": 0.7529022693634033, "Quantum sensing Timing": 0.7207704186439514, "Quantum sensing": 0.7735530734062195, "Quantum control": 0.7715137004852295 } }, { "id": 5635, "title": "Symmetry-Supported Magnetic Blocking at 20 K in Pentagonal Bipyramidal Dy(III) Single-Ion Magnets", "abstract": "Single-molecule magnets (SMMs) that can be trapped in one of the bistable magnetic states separated by an energy barrier are among the most promising candidates for high-density information storage, q...", "citations": 849, "author_count": 11, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5642, "doi": "10.1021/jacs.5b13584", "umap_coordinates": { "x": 392.3811950683594, "y": 135.84413146972656, "z": 207.45648193359375 }, "tsne_coordinates": { "x": -1.9934890270233154, "y": -31.576587677001953, "z": 16.87569236755371 }, "pca_coordinates": { "x": 0.6182085275650024, "y": -1.7016072273254395, "z": -2.3142218589782715 }, "axis_scores": { "Quantum imaging": 0.6978384852409363, "Quantum Life Science Sensing": 0.6782766580581665, "Quantum sensing Detection": 0.6683834791183472, "Quantum sensing Metrology": 0.6722310781478882, "Quantum sensing navigation": 0.67215895652771, "Quantum sensing Position": 0.6581571102142334, "Quantum sensing Timing": 0.6780471801757812, "Quantum sensing": 0.6809180974960327, "Quantum control": 0.6713109016418457 } }, { "id": 5636, "title": "Improved values for the characteristics of prompt-fission γ-ray spectra from the reaction 235U(nth, f)", "abstract": "In this paper we present results from measurements of prompt gamma rays from the thermal neutron induced fission of U-235. Photons were measured in coincidence with fission fragments with cerium-doped...", "citations": 79, "author_count": 15, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5643, "doi": "10.1103/PhysRevC.87.051602", "umap_coordinates": { "x": 395.7740478515625, "y": 134.64195251464844, "z": 207.57130432128906 }, "tsne_coordinates": { "x": -36.679100036621094, "y": -3.1254847049713135, "z": -18.1097354888916 }, "pca_coordinates": { "x": -0.1289595365524292, "y": 0.8165774345397949, "z": 2.1367931365966797 }, "axis_scores": { "Quantum imaging": 0.6428817510604858, "Quantum Life Science Sensing": 0.6752662062644958, "Quantum sensing Detection": 0.6394277215003967, "Quantum sensing Metrology": 0.6461076736450195, "Quantum sensing navigation": 0.6395815014839172, "Quantum sensing Position": 0.6308265328407288, "Quantum sensing Timing": 0.648720920085907, "Quantum sensing": 0.649471640586853, "Quantum control": 0.6048233509063721 } }, { "id": 5637, "title": "Experimental Determination of Irreversible Entropy Production in out-of-Equilibrium Mesoscopic Quantum Systems", "abstract": "By making use of a recently proposed framework for the inference of thermodynamic irreversibility in bosonic quantum systems, we experimentally measure and characterize the entropy production rates in...", "citations": 82, "author_count": 13, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5644, "doi": "10.1103/PhysRevLett.121.160604", "umap_coordinates": { "x": 395.3641662597656, "y": 136.9330596923828, "z": 208.2382354736328 }, "tsne_coordinates": { "x": -13.248970985412598, "y": -5.517559051513672, "z": 12.43364143371582 }, "pca_coordinates": { "x": 3.4737353324890137, "y": 0.9340368509292603, "z": -0.7213867902755737 }, "axis_scores": { "Quantum imaging": 0.7303507328033447, "Quantum Life Science Sensing": 0.7662053108215332, "Quantum sensing Detection": 0.7479923963546753, "Quantum sensing Metrology": 0.7281090021133423, "Quantum sensing navigation": 0.7168766260147095, "Quantum sensing Position": 0.7142062783241272, "Quantum sensing Timing": 0.722322404384613, "Quantum sensing": 0.7561765909194946, "Quantum control": 0.7225674986839294 } }, { "id": 5638, "title": "Polarized photoluminescence of exciton-polaritons in free-standing GaN", "abstract": "We report on the polarization properties of the exciton-polariton modes in GaN. The dispersion curves and the expected emission lineshape of polaritons for all polarization configurations are calculat...", "citations": 13, "author_count": 5, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5645, "doi": "10.1002/pssa.200304093", "umap_coordinates": { "x": 392.63140869140625, "y": 134.9523162841797, "z": 206.4941864013672 }, "tsne_coordinates": { "x": 23.735036849975586, "y": -6.70112419128418, "z": 13.656258583068848 }, "pca_coordinates": { "x": -1.330622911453247, "y": -2.980513572692871, "z": 0.36844533681869507 }, "axis_scores": { "Quantum imaging": 0.6850628852844238, "Quantum Life Science Sensing": 0.6907527446746826, "Quantum sensing Detection": 0.6661080718040466, "Quantum sensing Metrology": 0.6515464186668396, "Quantum sensing navigation": 0.6833752393722534, "Quantum sensing Position": 0.6635324954986572, "Quantum sensing Timing": 0.6398594379425049, "Quantum sensing": 0.6778022646903992, "Quantum control": 0.6636151075363159 } }, { "id": 5639, "title": "LONG-TERM EFFECTS AFTER PARTIAL GASTRECTOMY IN ELDERLY MEN - A LONGITUDINAL POPULATION STUDY OF MEN BETWEEN 70 AND 75 YEARS OF AGE", "abstract": "Subjects who have had a partial gastrectomy are today mainly found among the elderly. In the population study of 70-yr-olds in Gothenburg, Sweden, in 1971-72, 449 men were investigated. Of these, 10% ...", "citations": 31, "author_count": 3, "categories": [ "Gastroenterology & Hepatology" ], "year": 1982, "topic": [ "all" ], "embedding_index": 5646, "doi": "10.3109/00365528209182082", "umap_coordinates": { "x": 395.1656494140625, "y": 134.86517333984375, "z": 204.06427001953125 }, "tsne_coordinates": { "x": -1.0633690357208252, "y": 33.53957748413086, "z": 12.547490119934082 }, "pca_coordinates": { "x": -1.9624226093292236, "y": 4.51711893081665, "z": -1.539663314819336 }, "axis_scores": { "Quantum imaging": 0.6176151633262634, "Quantum Life Science Sensing": 0.6599392294883728, "Quantum sensing Detection": 0.596078097820282, "Quantum sensing Metrology": 0.5918055176734924, "Quantum sensing navigation": 0.6214681267738342, "Quantum sensing Position": 0.623794436454773, "Quantum sensing Timing": 0.610913872718811, "Quantum sensing": 0.61838299036026, "Quantum control": 0.6244558095932007 } }, { "id": 5640, "title": "Correlated Cooper pair transport and microwave photon emission in the dynamical Coulomb blockade", "abstract": "We study theoretically electromagnetic radiation emitted by inelastic Cooper-pair tunneling. We consider a dc-voltage-biased superconducting transmission line terminated by a Josephson junction. We sh...", "citations": 26, "author_count": 5, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5647, "doi": "10.1103/PhysRevB.93.014506", "umap_coordinates": { "x": 394.84918212890625, "y": 135.98683166503906, "z": 208.818603515625 }, "tsne_coordinates": { "x": -12.677894592285156, "y": -27.55948829650879, "z": 1.3008317947387695 }, "pca_coordinates": { "x": 4.972574710845947, "y": -0.5921339988708496, "z": 1.1848154067993164 }, "axis_scores": { "Quantum imaging": 0.6924856901168823, "Quantum Life Science Sensing": 0.6776629686355591, "Quantum sensing Detection": 0.6962006092071533, "Quantum sensing Metrology": 0.6699678897857666, "Quantum sensing navigation": 0.7067835330963135, "Quantum sensing Position": 0.6620442271232605, "Quantum sensing Timing": 0.6812796592712402, "Quantum sensing": 0.6901727318763733, "Quantum control": 0.6800049543380737 } }, { "id": 5641, "title": "Contrasting Dependencies of Photosynthetic Capacity on Leaf Nitrogen in Early- and Late-Successional Tropical Montane Tree Species", "abstract": "Differences in photosynthetic capacity among tree species and tree functional types are currently assumed to be largely driven by variation in leaf nutrient content, particularly nitrogen (N). However...", "citations": 15, "author_count": 7, "categories": [ "Plant Sciences" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5648, "doi": "10.3389/fpls.2020.500479", "umap_coordinates": { "x": 394.28082275390625, "y": 136.31549072265625, "z": 203.51766967773438 }, "tsne_coordinates": { "x": 14.039571762084961, "y": 35.044898986816406, "z": 8.309332847595215 }, "pca_coordinates": { "x": -3.6074795722961426, "y": 1.1481508016586304, "z": -1.9330060482025146 }, "axis_scores": { "Quantum imaging": 0.6642782688140869, "Quantum Life Science Sensing": 0.7066932320594788, "Quantum sensing Detection": 0.6615055799484253, "Quantum sensing Metrology": 0.6450062394142151, "Quantum sensing navigation": 0.6485721468925476, "Quantum sensing Position": 0.6519371271133423, "Quantum sensing Timing": 0.6583216786384583, "Quantum sensing": 0.6716371774673462, "Quantum control": 0.6482646465301514 } }, { "id": 5642, "title": "In vivo labeling of epithelial cell-associated antigen passages in the murine intestine", "abstract": "Goblet cell-associated antigen passages can deliver luminal substances to antigen-presenting cells to induce antigen-specific T cell responses. This protocol describes how to identify and quantify int...", "citations": 16, "author_count": 8, "categories": [ "Veterinary Sciences" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5649, "doi": "10.1038/s41684-019-0438-z", "umap_coordinates": { "x": 394.4888610839844, "y": 134.70391845703125, "z": 204.15663146972656 }, "tsne_coordinates": { "x": 0.9985141158103943, "y": 24.886146545410156, "z": 3.0165514945983887 }, "pca_coordinates": { "x": -2.401914596557617, "y": 1.5749274492263794, "z": -0.3261638283729553 }, "axis_scores": { "Quantum imaging": 0.684959888458252, "Quantum Life Science Sensing": 0.6880818605422974, "Quantum sensing Detection": 0.660146176815033, "Quantum sensing Metrology": 0.641312837600708, "Quantum sensing navigation": 0.6802491545677185, "Quantum sensing Position": 0.6765397787094116, "Quantum sensing Timing": 0.6540595293045044, "Quantum sensing": 0.6636220812797546, "Quantum control": 0.6433548331260681 } }, { "id": 5643, "title": "Sensitivity of freshwaters to browning in response to future climate change", "abstract": "Many boreal waters are currently becoming browner with effects on biodiversity, fish production, biogeochemical processes and drinking water quality. The question arises whether and at which speed thi...", "citations": 117, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5650, "doi": "10.1007/s10584-015-1514-z", "umap_coordinates": { "x": 393.94842529296875, "y": 136.369384765625, "z": 203.6560821533203 }, "tsne_coordinates": { "x": 12.233440399169922, "y": 28.193603515625, "z": 10.230548858642578 }, "pca_coordinates": { "x": -2.1117563247680664, "y": 3.0473978519439697, "z": -2.092780828475952 }, "axis_scores": { "Quantum imaging": 0.6533351540565491, "Quantum Life Science Sensing": 0.7132677435874939, "Quantum sensing Detection": 0.6645674109458923, "Quantum sensing Metrology": 0.6583939790725708, "Quantum sensing navigation": 0.677887499332428, "Quantum sensing Position": 0.6654278039932251, "Quantum sensing Timing": 0.6649358868598938, "Quantum sensing": 0.68038010597229, "Quantum control": 0.6823185682296753 } }, { "id": 5644, "title": "High continuous positive airway pressure level induces ventilation/perfusion mismatch in the prone position", "abstract": "Objective: Gas exchange in patients with adult respiratory distress syndrome is influenced by posture, The combined effect of continuous positive airway pressure and posture has not been investigated....", "citations": 22, "author_count": 6, "categories": [ "General & Internal Medicine" ], "year": 2001, "topic": [ "all" ], "embedding_index": 5651, "doi": "10.1097/00003246-200105000-00010", "umap_coordinates": { "x": 395.3913269042969, "y": 134.82777404785156, "z": 204.66925048828125 }, "tsne_coordinates": { "x": 2.2795252799987793, "y": 31.36954689025879, "z": -2.161546468734741 }, "pca_coordinates": { "x": -1.1973927021026611, "y": 4.858037948608398, "z": 0.14518684148788452 }, "axis_scores": { "Quantum imaging": 0.6625015139579773, "Quantum Life Science Sensing": 0.6831806302070618, "Quantum sensing Detection": 0.6668169498443604, "Quantum sensing Metrology": 0.6596465110778809, "Quantum sensing navigation": 0.6683379411697388, "Quantum sensing Position": 0.7097474336624146, "Quantum sensing Timing": 0.6665122509002686, "Quantum sensing": 0.6716150045394897, "Quantum control": 0.6710651516914368 } }, { "id": 5645, "title": "Target, purging magnet and electron collector design for scanned high-energy photon beams", "abstract": "A new method for producing very narrow and intense 50 MV bremsstrahlung beams with a half-width as low as 35 mm at a distance of 1 m from the target is presented. Such a beam is well suited for intens...", "citations": 8, "author_count": 5, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5652, "doi": "10.1088/0031-9155/43/5/004", "umap_coordinates": { "x": 395.7232666015625, "y": 133.84451293945312, "z": 205.7437286376953 }, "tsne_coordinates": { "x": -17.08946418762207, "y": 23.105152130126953, "z": -13.321181297302246 }, "pca_coordinates": { "x": -2.7873964309692383, "y": 0.7032034397125244, "z": 1.3009233474731445 }, "axis_scores": { "Quantum imaging": 0.6637014150619507, "Quantum Life Science Sensing": 0.6760490536689758, "Quantum sensing Detection": 0.6477247476577759, "Quantum sensing Metrology": 0.6640776991844177, "Quantum sensing navigation": 0.6593849658966064, "Quantum sensing Position": 0.659663200378418, "Quantum sensing Timing": 0.6421500444412231, "Quantum sensing": 0.6592686176300049, "Quantum control": 0.6497710943222046 } }, { "id": 5646, "title": "X-Ray Tracing, Design and Construction of an Optimized Optics Scheme for CoSAXS, the Small Angle X-ray Scattering beam line at MAX IV Laboratory", "abstract": "A novel optical design for a flexible SAXS beamline at a modem synchrotron has been implemented for the CoSAXS beamline at the 3GeV ring at the MAX IV Laboratory. The performance of the beamline has b...", "citations": 25, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5653, "doi": "10.1063/1.5084576", "umap_coordinates": { "x": 395.779541015625, "y": 134.4250946044922, "z": 206.02426147460938 }, "tsne_coordinates": { "x": -19.22002410888672, "y": 11.901108741760254, "z": -27.66744041442871 }, "pca_coordinates": { "x": -0.6329195499420166, "y": 2.335367202758789, "z": 1.5069494247436523 }, "axis_scores": { "Quantum imaging": 0.711538553237915, "Quantum Life Science Sensing": 0.7209086418151855, "Quantum sensing Detection": 0.6990549564361572, "Quantum sensing Metrology": 0.7177709937095642, "Quantum sensing navigation": 0.7143651247024536, "Quantum sensing Position": 0.7043517827987671, "Quantum sensing Timing": 0.710266649723053, "Quantum sensing": 0.721220850944519, "Quantum control": 0.6954657435417175 } }, { "id": 5647, "title": "Trains of attosecond electron wave packets", "abstract": "We study temporally localized electron wave packets, generated using a train of extreme ultraviolet (XUV) attosecond pulses to ionize the target atoms. Both the electron wave packets and the attosecon...", "citations": 5, "author_count": 13, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5654, "doi": "10.1080/09500340500228180", "umap_coordinates": { "x": 395.12158203125, "y": 135.5531463623047, "z": 206.66921997070312 }, "tsne_coordinates": { "x": -13.78872299194336, "y": -7.015705108642578, "z": -8.084427833557129 }, "pca_coordinates": { "x": 1.535529375076294, "y": 0.23609495162963867, "z": 0.9814745783805847 }, "axis_scores": { "Quantum imaging": 0.6848141551017761, "Quantum Life Science Sensing": 0.6818853616714478, "Quantum sensing Detection": 0.6717019081115723, "Quantum sensing Metrology": 0.6625469326972961, "Quantum sensing navigation": 0.6770613193511963, "Quantum sensing Position": 0.6581802368164062, "Quantum sensing Timing": 0.6978361010551453, "Quantum sensing": 0.6771478056907654, "Quantum control": 0.6603898406028748 } }, { "id": 5648, "title": "RISK-FACTORS FOR BONE LOSS IN CHRONIC ACTIVE HEPATITIS AND PRIMARY BILIARY-CIRRHOSIS", "abstract": "Background: Data on risk factors for bone loss in chronic active hepatitis (CAH) and primary biliary cirrhosis (PBC) are scanty and/or conflicting. Methods: Bone mineral density (BMD) in the distal fo...", "citations": 37, "author_count": 5, "categories": [ "Gastroenterology & Hepatology" ], "year": 1994, "topic": [ "all" ], "embedding_index": 5655, "doi": "10.3109/00365529409092505", "umap_coordinates": { "x": 394.9234924316406, "y": 134.61585998535156, "z": 204.1238555908203 }, "tsne_coordinates": { "x": -0.2820158004760742, "y": 35.45744323730469, "z": 12.439786911010742 }, "pca_coordinates": { "x": -2.110126495361328, "y": 4.177389144897461, "z": -1.917513132095337 }, "axis_scores": { "Quantum imaging": 0.6630648374557495, "Quantum Life Science Sensing": 0.6962328553199768, "Quantum sensing Detection": 0.664757490158081, "Quantum sensing Metrology": 0.6564703583717346, "Quantum sensing navigation": 0.6556851863861084, "Quantum sensing Position": 0.6462856531143188, "Quantum sensing Timing": 0.626934826374054, "Quantum sensing": 0.6675321459770203, "Quantum control": 0.6639739871025085 } }, { "id": 5649, "title": "Conditional probability framework for entanglement and its decoupling from tensor product structure", "abstract": "Our aim is to make a step toward clarification of foundations for the notion of entanglement (both physical and mathematical) by representing it in the conditional probability framework. In Schrodinge...", "citations": 12, "author_count": 3, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5656, "doi": "10.1088/1751-8121/ac8bb3", "umap_coordinates": { "x": 395.4430847167969, "y": 137.30882263183594, "z": 206.55874633789062 }, "tsne_coordinates": { "x": -26.516141891479492, "y": 0.16042669117450714, "z": 13.934407234191895 }, "pca_coordinates": { "x": 1.5608887672424316, "y": 3.9390878677368164, "z": 0.048473060131073 }, "axis_scores": { "Quantum imaging": 0.7282273173332214, "Quantum Life Science Sensing": 0.6789383888244629, "Quantum sensing Detection": 0.7030529975891113, "Quantum sensing Metrology": 0.6758149862289429, "Quantum sensing navigation": 0.7076882719993591, "Quantum sensing Position": 0.6775128841400146, "Quantum sensing Timing": 0.6826584935188293, "Quantum sensing": 0.7154217958450317, "Quantum control": 0.7242341041564941 } }, { "id": 5650, "title": "3-DIMENSIONAL OCTREOSCAN111 SPECT OF ABDOMINAL MANIFESTATION OF NEUROENDOCRINE TUMORS", "abstract": "In the present study we have investigated the three-dimensional (3D) reconstruction of OctreoScan111 SPECT (single photon emission tomography) images in 20 patients with neuroendocrine tumours. All pa...", "citations": 10, "author_count": 6, "categories": [ "Oncology" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5657, "doi": "10.3109/02841869309083908", "umap_coordinates": { "x": 395.3865661621094, "y": 133.51271057128906, "z": 204.4119415283203 }, "tsne_coordinates": { "x": -4.145742893218994, "y": 30.186254501342773, "z": -9.98928451538086 }, "pca_coordinates": { "x": -2.3296985626220703, "y": 3.405705690383911, "z": 1.8119750022888184 }, "axis_scores": { "Quantum imaging": 0.7005180716514587, "Quantum Life Science Sensing": 0.6694920063018799, "Quantum sensing Detection": 0.6686305403709412, "Quantum sensing Metrology": 0.6589441299438477, "Quantum sensing navigation": 0.691222608089447, "Quantum sensing Position": 0.6629897952079773, "Quantum sensing Timing": 0.659510612487793, "Quantum sensing": 0.6632675528526306, "Quantum control": 0.6339014768600464 } }, { "id": 5651, "title": "Multifragmentation of gold nuclei in the interactions with photoemulsion nuclei at 10.7 GeV/nucleon", "abstract": "Recent results from the EMU-01/12 collaboration are presented for 10.7 GeV/nucleon gold nuclei interactions in emulsion. The distributions of ''bound'' charge (Z(bound;)Z(b3)), multiplicity distributi...", "citations": 18, "author_count": 118, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5658, "doi": "10.1007/s002180050403", "umap_coordinates": { "x": 394.305419921875, "y": 135.08702087402344, "z": 205.86654663085938 }, "tsne_coordinates": { "x": -23.423301696777344, "y": 14.300495147705078, "z": -3.722290515899658 }, "pca_coordinates": { "x": -1.4263226985931396, "y": 0.11822676658630371, "z": 0.06280356645584106 }, "axis_scores": { "Quantum imaging": 0.6960580945014954, "Quantum Life Science Sensing": 0.6978834867477417, "Quantum sensing Detection": 0.6756393909454346, "Quantum sensing Metrology": 0.6688516736030579, "Quantum sensing navigation": 0.6927303075790405, "Quantum sensing Position": 0.6862471103668213, "Quantum sensing Timing": 0.6585682034492493, "Quantum sensing": 0.6710426807403564, "Quantum control": 0.6548060178756714 } }, { "id": 5652, "title": "The effect of calcination temperature on the photophysical and mechanical properties of copper iodide (5 mol%)-doped hydroxyapatite", "abstract": "Nanocomposite consisting of 5 mol% crystalline CuI-doped hydroxyapatite (HA) was prepared for the first time by facile chemical method and calcined at different temperatures such as 300 degrees C, 500...", "citations": 14, "author_count": 6, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5659, "doi": "10.1016/j.optmat.2021.111559", "umap_coordinates": { "x": 393.9969177246094, "y": 134.85374450683594, "z": 204.81764221191406 }, "tsne_coordinates": { "x": 7.175832748413086, "y": 15.756146430969238, "z": -1.3230499029159546 }, "pca_coordinates": { "x": -3.474029779434204, "y": 0.2178659439086914, "z": 0.2713845372200012 }, "axis_scores": { "Quantum imaging": 0.7278739213943481, "Quantum Life Science Sensing": 0.7240766286849976, "Quantum sensing Detection": 0.7080919146537781, "Quantum sensing Metrology": 0.7067937850952148, "Quantum sensing navigation": 0.6847434639930725, "Quantum sensing Position": 0.6905907392501831, "Quantum sensing Timing": 0.6957094669342041, "Quantum sensing": 0.7280616760253906, "Quantum control": 0.7031227350234985 } }, { "id": 5653, "title": "Effective Biomass Fractionation through Oxygen-Enhanced Alkaline-Oxidative Pretreatment", "abstract": "The high recalcitrance of plant cell walls is an obstacle for effective chemical or biological conversion into renewable chemicals and transportation fuels. Here, we investigated the utilization of bo...", "citations": 29, "author_count": 15, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5660, "doi": "10.1021/acssuschemeng.0c06170", "umap_coordinates": { "x": 392.8157043457031, "y": 135.14320373535156, "z": 203.9090118408203 }, "tsne_coordinates": { "x": 27.839725494384766, "y": 31.720258712768555, "z": -2.268825054168701 }, "pca_coordinates": { "x": -2.9959781169891357, "y": -0.5061569213867188, "z": -1.9595448970794678 }, "axis_scores": { "Quantum imaging": 0.6890577673912048, "Quantum Life Science Sensing": 0.7007767558097839, "Quantum sensing Detection": 0.6629924178123474, "Quantum sensing Metrology": 0.651799738407135, "Quantum sensing navigation": 0.6600767374038696, "Quantum sensing Position": 0.638529360294342, "Quantum sensing Timing": 0.6333081126213074, "Quantum sensing": 0.6879891753196716, "Quantum control": 0.6804247498512268 } }, { "id": 5654, "title": "On-scalp MEG sensor localization using magnetic dipole-like coils: A method for highly accurate co-registration", "abstract": "Source modelling in magnetoencephalography (MEG) requires precise co-registration of the sensor array and the anatomical structure of the measured individual's head. In conventional MEG, the positions...", "citations": 19, "author_count": 9, "categories": [ "Neurosciences & Neurology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5661, "doi": "10.1016/j.neuroimage.2020.116686", "umap_coordinates": { "x": 394.2337646484375, "y": 133.77532958984375, "z": 205.1099853515625 }, "tsne_coordinates": { "x": -8.245445251464844, "y": 27.585369110107422, "z": -0.9596768021583557 }, "pca_coordinates": { "x": -2.4902701377868652, "y": 1.0993207693099976, "z": 2.013360023498535 }, "axis_scores": { "Quantum imaging": 0.6706399321556091, "Quantum Life Science Sensing": 0.6768799424171448, "Quantum sensing Detection": 0.6676322221755981, "Quantum sensing Metrology": 0.6863821744918823, "Quantum sensing navigation": 0.6799851655960083, "Quantum sensing Position": 0.6758686304092407, "Quantum sensing Timing": 0.6759636998176575, "Quantum sensing": 0.6807648539543152, "Quantum control": 0.6261224150657654 } }, { "id": 5655, "title": "Phenalen-1-one-Mediated Antimicrobial Photodynamic Therapy: Antimicrobial Efficacy in a Periodontal Biofilm Model and Flow Cytometric Evaluation of Cytoplasmic Membrane Damage", "abstract": "In light of increasing resistance toward conventional antibiotics and antiseptics, antimicrobial photodynamic therapy (aPDT) may be a valuable alternative, especially for use in dentistry. In this reg...", "citations": 20, "author_count": 9, "categories": [ "Microbiology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5662, "doi": "10.3389/fmicb.2018.00688", "umap_coordinates": { "x": 393.54461669921875, "y": 135.19003295898438, "z": 204.2611541748047 }, "tsne_coordinates": { "x": 4.2300896644592285, "y": 18.769405364990234, "z": 0.09824443608522415 }, "pca_coordinates": { "x": -3.9917192459106445, "y": 1.3341113328933716, "z": -1.0221338272094727 }, "axis_scores": { "Quantum imaging": 0.7027978301048279, "Quantum Life Science Sensing": 0.7326241731643677, "Quantum sensing Detection": 0.7035369873046875, "Quantum sensing Metrology": 0.7020536661148071, "Quantum sensing navigation": 0.6880464553833008, "Quantum sensing Position": 0.673409640789032, "Quantum sensing Timing": 0.6518866419792175, "Quantum sensing": 0.7083348035812378, "Quantum control": 0.6804460287094116 } }, { "id": 5656, "title": "PHOTOPHYSICS, MOLECULAR-REORIENTATION IN SOLUTION AND X-RAY STRUCTURE OF A NEW FLUORESCENT-PROBE, 1,7-DIAZAPERYLENE", "abstract": "A new fluorescent molecule 1,7-diazaperylene (DP) has been investigated by means of time-resolved and steady-state polarized fluorescence spectroscopy, as well as X-ray spectroscopy. Absorption and fl...", "citations": 41, "author_count": 7, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5663, "doi": "10.1039/ft9938900049", "umap_coordinates": { "x": 392.7786560058594, "y": 136.19168090820312, "z": 205.25515747070312 }, "tsne_coordinates": { "x": 12.761710166931152, "y": 11.748086929321289, "z": 10.131674766540527 }, "pca_coordinates": { "x": -1.7892591953277588, "y": 0.8372414112091064, "z": -1.8251922130584717 }, "axis_scores": { "Quantum imaging": 0.6996557712554932, "Quantum Life Science Sensing": 0.7355543971061707, "Quantum sensing Detection": 0.677466094493866, "Quantum sensing Metrology": 0.6660011410713196, "Quantum sensing navigation": 0.6933565139770508, "Quantum sensing Position": 0.7013569474220276, "Quantum sensing Timing": 0.6788636445999146, "Quantum sensing": 0.6884924173355103, "Quantum control": 0.6549210548400879 } }, { "id": 5657, "title": "Time-evolution methods for matrix-product states", "abstract": "Matrix-product states have become the de facto standard for the representation of one-dimensional quantum many body states. During the last few years, numerous new methods have been introduced to eval...", "citations": 604, "author_count": 7, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5664, "doi": "10.1016/j.aop.2019.167998", "umap_coordinates": { "x": 394.3490295410156, "y": 136.97178649902344, "z": 206.06558227539062 }, "tsne_coordinates": { "x": -24.747148513793945, "y": -6.849560260772705, "z": 14.121878623962402 }, "pca_coordinates": { "x": -0.2812650203704834, "y": 2.603240966796875, "z": -1.3485267162322998 }, "axis_scores": { "Quantum imaging": 0.7429855465888977, "Quantum Life Science Sensing": 0.7406391501426697, "Quantum sensing Detection": 0.732273280620575, "Quantum sensing Metrology": 0.7354521155357361, "Quantum sensing navigation": 0.7412689924240112, "Quantum sensing Position": 0.7193048596382141, "Quantum sensing Timing": 0.7320007681846619, "Quantum sensing": 0.7402297854423523, "Quantum control": 0.7334479689598083 } }, { "id": 5658, "title": "Designed Er3+-singly doped NaYF4 with double excitation bands for simultaneous deep macroscopic and microscopic upconverting bioimaging", "abstract": "Simultaneous deep macroscopic imaging and microscopic imaging is in urgent demand, but is challenging to achieve experimentally due to the lack of proper fluorescent probes. Herein, we have designed a...", "citations": 3, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5665, "doi": "10.1364/BOE.7.002174", "umap_coordinates": { "x": 393.7047119140625, "y": 133.4661102294922, "z": 205.26341247558594 }, "tsne_coordinates": { "x": 9.250802040100098, "y": 18.770751953125, "z": -22.633970260620117 }, "pca_coordinates": { "x": -4.266031265258789, "y": -0.9694976806640625, "z": 1.8957850933074951 }, "axis_scores": { "Quantum imaging": 0.736678421497345, "Quantum Life Science Sensing": 0.7252137064933777, "Quantum sensing Detection": 0.6997758746147156, "Quantum sensing Metrology": 0.6961622834205627, "Quantum sensing navigation": 0.6870670914649963, "Quantum sensing Position": 0.661622166633606, "Quantum sensing Timing": 0.6630027890205383, "Quantum sensing": 0.7124423980712891, "Quantum control": 0.6603050231933594 } }, { "id": 5659, "title": "Atomic hydrogen concentration mapping in thermal plasma chemical vapour deposition", "abstract": "Two-dimensional maps of atomic hydrogen concentration in reactive gas layers were measured using two-photon laser-induced fluorescence. The measurements were made in conditions of diamond-film chemica...", "citations": 7, "author_count": 4, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 5666, "doi": "10.1007/s003400100500", "umap_coordinates": { "x": 394.1159973144531, "y": 135.2438507080078, "z": 205.62925720214844 }, "tsne_coordinates": { "x": -14.401463508605957, "y": 12.509238243103027, "z": -0.2283226102590561 }, "pca_coordinates": { "x": -1.312473177909851, "y": 0.04285001754760742, "z": -0.3430570065975189 }, "axis_scores": { "Quantum imaging": 0.6954542398452759, "Quantum Life Science Sensing": 0.68524569272995, "Quantum sensing Detection": 0.6811016201972961, "Quantum sensing Metrology": 0.677827775478363, "Quantum sensing navigation": 0.7042273283004761, "Quantum sensing Position": 0.7036023736000061, "Quantum sensing Timing": 0.6761540174484253, "Quantum sensing": 0.6912460327148438, "Quantum control": 0.6836360692977905 } }, { "id": 5660, "title": "STUDY OF SOME CE INTERMETALLICS BY CORE-LEVEL PHOTOEMISSION", "abstract": "Ce intermetallics CeAlNi, CeAlCu and CeNi2Si2 have been studied by core-level photoemission spectroscopy to investigate their electronic structure. The Ce 3d xps data clearly indicate that the final s...", "citations": 13, "author_count": 9, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5667, "doi": "10.1088/0953-8984/5/24/002", "umap_coordinates": { "x": 393.1295166015625, "y": 135.31503295898438, "z": 206.57029724121094 }, "tsne_coordinates": { "x": 1.479323387145996, "y": -2.512611150741577, "z": 18.54534912109375 }, "pca_coordinates": { "x": -1.0670206546783447, "y": 0.02180957794189453, "z": 0.01631087064743042 }, "axis_scores": { "Quantum imaging": 0.6900677680969238, "Quantum Life Science Sensing": 0.6782130599021912, "Quantum sensing Detection": 0.6549179553985596, "Quantum sensing Metrology": 0.6546604633331299, "Quantum sensing navigation": 0.6389426589012146, "Quantum sensing Position": 0.6471035480499268, "Quantum sensing Timing": 0.6420000791549683, "Quantum sensing": 0.6628016233444214, "Quantum control": 0.6259094476699829 } }, { "id": 5661, "title": "Optimization of the barrier height in 1.3 μm InGaAsP multiple-quantum-well active regions for high temperature operation", "abstract": "We present a study of barrier height effects on the high-temperature performance of 1.3 mum strained layer InGaAsP/InP quantum well lasers. Broad-area Fabry-Perot lasers were fabricated and their ligh...", "citations": 2, "author_count": 3, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 5668, "doi": "10.1117/12.432569", "umap_coordinates": { "x": 393.6630554199219, "y": 133.33436584472656, "z": 206.89657592773438 }, "tsne_coordinates": { "x": 45.034156799316406, "y": 1.4961189031600952, "z": -5.0093464851379395 }, "pca_coordinates": { "x": -0.3310452103614807, "y": -1.8467140197753906, "z": 2.1166462898254395 }, "axis_scores": { "Quantum imaging": 0.7092334032058716, "Quantum Life Science Sensing": 0.6958616971969604, "Quantum sensing Detection": 0.6973011493682861, "Quantum sensing Metrology": 0.7177351117134094, "Quantum sensing navigation": 0.6978497505187988, "Quantum sensing Position": 0.69990074634552, "Quantum sensing Timing": 0.6976857781410217, "Quantum sensing": 0.7099564075469971, "Quantum control": 0.6806536316871643 } }, { "id": 5662, "title": "Site- and Energy-Selective Low-Energy Electron Emission by X-rays in the Aqueous Phase", "abstract": "Low-energy-electron emission from resonant Auger final states via intermolecular Coulombic decay (RA-ICD) has previously been described as a promising scenario for controlling radiation damage for med...", "citations": 1, "author_count": 20, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5669, "doi": "10.1021/jacs.5c06436", "umap_coordinates": { "x": 394.5195007324219, "y": 134.80377197265625, "z": 205.9003143310547 }, "tsne_coordinates": { "x": -17.997690200805664, "y": 9.197157859802246, "z": -15.10524845123291 }, "pca_coordinates": { "x": -2.4229371547698975, "y": -1.19569730758667, "z": -1.8555684089660645 }, "axis_scores": { "Quantum imaging": 0.6827515363693237, "Quantum Life Science Sensing": 0.7115366458892822, "Quantum sensing Detection": 0.6779130101203918, "Quantum sensing Metrology": 0.6537039279937744, "Quantum sensing navigation": 0.6774309277534485, "Quantum sensing Position": 0.6654269099235535, "Quantum sensing Timing": 0.6418789029121399, "Quantum sensing": 0.6842460036277771, "Quantum control": 0.6567484736442566 } }, { "id": 5663, "title": "A novel phantom design for emission tomography enabling scatter- and attenuation-free single-photon emission tomography imaging", "abstract": "A newly designed technique for experimental single-photon emission tomography (SPET) and positron emission tomography (PET) data acquisition with minor disturbing effects from scatter and attenuation ...", "citations": 26, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5670, "doi": "10.1007/s002590050018", "umap_coordinates": { "x": 395.0092468261719, "y": 133.16461181640625, "z": 205.1582794189453 }, "tsne_coordinates": { "x": -7.840802192687988, "y": 20.021034240722656, "z": -7.303686141967773 }, "pca_coordinates": { "x": -4.3701558113098145, "y": 0.9932913780212402, "z": 4.3519606590271 }, "axis_scores": { "Quantum imaging": 0.6900554895401001, "Quantum Life Science Sensing": 0.6929330229759216, "Quantum sensing Detection": 0.6741765141487122, "Quantum sensing Metrology": 0.6800588965415955, "Quantum sensing navigation": 0.6838201880455017, "Quantum sensing Position": 0.6391239762306213, "Quantum sensing Timing": 0.650656521320343, "Quantum sensing": 0.6771709322929382, "Quantum control": 0.6308977603912354 } }, { "id": 5664, "title": "Impact of magnetism on Fe phase diagram under extreme conditions", "abstract": "Iron is a major component of the cores of the Earth and inhabited exoplanets. Its phase diagram at extreme pressures (P) and temperatures (T) is the subject of extensive debate. While recent experimen...", "citations": 4, "author_count": 6, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5671, "doi": "10.1103/PhysRevMaterials.9.L040601", "umap_coordinates": { "x": 392.98577880859375, "y": 136.63279724121094, "z": 208.2118377685547 }, "tsne_coordinates": { "x": 6.632065773010254, "y": -33.174503326416016, "z": 20.077173233032227 }, "pca_coordinates": { "x": 1.1627275943756104, "y": 0.20787811279296875, "z": -3.569734573364258 }, "axis_scores": { "Quantum imaging": 0.6977696418762207, "Quantum Life Science Sensing": 0.7444711327552795, "Quantum sensing Detection": 0.6812702417373657, "Quantum sensing Metrology": 0.6907811164855957, "Quantum sensing navigation": 0.6667749285697937, "Quantum sensing Position": 0.6619628071784973, "Quantum sensing Timing": 0.6406607031822205, "Quantum sensing": 0.6943960785865784, "Quantum control": 0.642577052116394 } }, { "id": 5665, "title": "Universality of quantum phase transitions in the integer and fractional quantum Hall regimes", "abstract": "Fractional quantum Hall (FQH) phases emerge due to strong electronic interactions and are characterized by anyonic quasiparticles, each distinguished by unique topological parameters, fractional charg...", "citations": 8, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5672, "doi": "10.1038/s41467-024-52927-w", "umap_coordinates": { "x": 393.7411193847656, "y": 136.8360595703125, "z": 207.27212524414062 }, "tsne_coordinates": { "x": 7.42106819152832, "y": -9.482041358947754, "z": 21.53289794921875 }, "pca_coordinates": { "x": 1.8637425899505615, "y": 0.39412736892700195, "z": -2.211552858352661 }, "axis_scores": { "Quantum imaging": 0.7222628593444824, "Quantum Life Science Sensing": 0.7440664768218994, "Quantum sensing Detection": 0.710766077041626, "Quantum sensing Metrology": 0.7105871438980103, "Quantum sensing navigation": 0.7246541976928711, "Quantum sensing Position": 0.6961771249771118, "Quantum sensing Timing": 0.7257605791091919, "Quantum sensing": 0.7344413995742798, "Quantum control": 0.7113375067710876 } }, { "id": 5666, "title": "Two-Dimensional Quantum Transport in Free-Standing InSb Nanosheets", "abstract": "Low-dimensional narrow band gap III-V compound semiconductors, such as InAs and InSb, have attracted much attention as one of promising platforms for studying Majorana zero modes and non-Abelian stati...", "citations": 33, "author_count": 10, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5673, "doi": "10.1021/acs.nanolett.8b04556", "umap_coordinates": { "x": 392.44818115234375, "y": 134.56570434570312, "z": 207.50733947753906 }, "tsne_coordinates": { "x": 15.335745811462402, "y": -16.49260902404785, "z": -1.0799641609191895 }, "pca_coordinates": { "x": 1.8092355728149414, "y": -4.50233793258667, "z": -0.8657809495925903 }, "axis_scores": { "Quantum imaging": 0.7203039526939392, "Quantum Life Science Sensing": 0.7332155704498291, "Quantum sensing Detection": 0.708267331123352, "Quantum sensing Metrology": 0.7047168016433716, "Quantum sensing navigation": 0.7368464469909668, "Quantum sensing Position": 0.7124882936477661, "Quantum sensing Timing": 0.6840934157371521, "Quantum sensing": 0.7252756953239441, "Quantum control": 0.6885366439819336 } }, { "id": 5667, "title": "Carbon Nanodots with Solvatochromic Photoluminescence for the Electrochemical Determination of Estrogenic Steroids", "abstract": "Herein, we utilized carbon nanodots (R-CNDs) for the electrochemical detection of estrogens in tap and natural water samples and simulated effluents from Swedish waste water treatment plants (WWTPs). ...", "citations": 7, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5674, "doi": "10.1021/acsanm.2c02219", "umap_coordinates": { "x": 392.5372314453125, "y": 133.66934204101562, "z": 204.80506896972656 }, "tsne_coordinates": { "x": 24.76799774169922, "y": 15.54808521270752, "z": -11.073643684387207 }, "pca_coordinates": { "x": -4.569706916809082, "y": -2.788112163543701, "z": -0.29803353548049927 }, "axis_scores": { "Quantum imaging": 0.6905933618545532, "Quantum Life Science Sensing": 0.7359991669654846, "Quantum sensing Detection": 0.7050222158432007, "Quantum sensing Metrology": 0.6990454196929932, "Quantum sensing navigation": 0.6917316317558289, "Quantum sensing Position": 0.6767510771751404, "Quantum sensing Timing": 0.6498202681541443, "Quantum sensing": 0.707003653049469, "Quantum control": 0.6575677394866943 } }, { "id": 5668, "title": "Practice patterns of photon and proton pediatric image guided radiation treatment: Results from an International Pediatric Research Consortium", "abstract": "Purpose: Image guided radiation therapy (IGRT) has become common practice for both photon and proton radiation therapy, but there is little consensus regarding its application in the pediatric populat...", "citations": 23, "author_count": 15, "categories": [ "Oncology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5675, "doi": "10.1016/j.prro.2014.03.014", "umap_coordinates": { "x": 395.662109375, "y": 132.80198669433594, "z": 204.71827697753906 }, "tsne_coordinates": { "x": 2.107063055038452, "y": 26.683576583862305, "z": -17.742910385131836 }, "pca_coordinates": { "x": -3.1567652225494385, "y": 2.668454170227051, "z": 1.6493992805480957 }, "axis_scores": { "Quantum imaging": 0.7176066040992737, "Quantum Life Science Sensing": 0.6976550817489624, "Quantum sensing Detection": 0.6635421514511108, "Quantum sensing Metrology": 0.658046543598175, "Quantum sensing navigation": 0.6851691603660583, "Quantum sensing Position": 0.674338698387146, "Quantum sensing Timing": 0.677578866481781, "Quantum sensing": 0.6754666566848755, "Quantum control": 0.6352657079696655 } }, { "id": 5669, "title": "Simulation and modeling of laser range profiling and imaging of small surface vessels", "abstract": "The detection and classification of small surface targets at long ranges is a growing need for naval security. Simulations of a laser radar at 1.5 mu m aimed for search, detect, and recognition of sma...", "citations": 11, "author_count": 4, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5676, "doi": "10.1117/1.OE.53.1.013109", "umap_coordinates": { "x": 395.1742248535156, "y": 133.6219024658203, "z": 205.8599395751953 }, "tsne_coordinates": { "x": -2.15891170501709, "y": 15.049137115478516, "z": -30.50564956665039 }, "pca_coordinates": { "x": -2.140720844268799, "y": 2.876305341720581, "z": 2.3361995220184326 }, "axis_scores": { "Quantum imaging": 0.7419898509979248, "Quantum Life Science Sensing": 0.7241926193237305, "Quantum sensing Detection": 0.7146667838096619, "Quantum sensing Metrology": 0.7164551019668579, "Quantum sensing navigation": 0.7247135639190674, "Quantum sensing Position": 0.7002161741256714, "Quantum sensing Timing": 0.6924144625663757, "Quantum sensing": 0.7229592800140381, "Quantum control": 0.6901124119758606 } }, { "id": 5670, "title": "Material recognition with the Medipix photon counting colour X-ray system", "abstract": "An energy sensitive imaging system like Medipix1 has proved to be promising in distinguishing different materials in an X-ray image of an object. We propose a general method utilising X-ray energy inf...", "citations": 15, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5677, "doi": "10.1016/j.nima.2004.06.015", "umap_coordinates": { "x": 394.89508056640625, "y": 132.6249237060547, "z": 205.36351013183594 }, "tsne_coordinates": { "x": -12.03359603881836, "y": 13.623940467834473, "z": -14.996233940124512 }, "pca_coordinates": { "x": -4.040809154510498, "y": 1.9911845922470093, "z": 4.334445953369141 }, "axis_scores": { "Quantum imaging": 0.7173033952713013, "Quantum Life Science Sensing": 0.6849748492240906, "Quantum sensing Detection": 0.7026437520980835, "Quantum sensing Metrology": 0.7049970626831055, "Quantum sensing navigation": 0.6815088391304016, "Quantum sensing Position": 0.6987112760543823, "Quantum sensing Timing": 0.6762015223503113, "Quantum sensing": 0.7033483386039734, "Quantum control": 0.6201133728027344 } }, { "id": 5671, "title": "Weyl-point teleportation", "abstract": "In this work we describe the phenomenon of Weyl-point teleportation. Weyl points usually move continuously in the configuration parameter space of a quantum system when the control parameters are vari...", "citations": 4, "author_count": 5, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5678, "doi": "10.1103/PhysRevB.109.205415", "umap_coordinates": { "x": 395.6558532714844, "y": 136.33746337890625, "z": 208.1520233154297 }, "tsne_coordinates": { "x": -14.876312255859375, "y": -12.214224815368652, "z": 1.5209068059921265 }, "pca_coordinates": { "x": 3.9586071968078613, "y": 1.028936505317688, "z": 1.6248118877410889 }, "axis_scores": { "Quantum imaging": 0.7300194501876831, "Quantum Life Science Sensing": 0.7349860668182373, "Quantum sensing Detection": 0.7283483743667603, "Quantum sensing Metrology": 0.7203683853149414, "Quantum sensing navigation": 0.7387939095497131, "Quantum sensing Position": 0.728695809841156, "Quantum sensing Timing": 0.7314414381980896, "Quantum sensing": 0.742767870426178, "Quantum control": 0.7244635224342346 } }, { "id": 5672, "title": "Optically Active Telecom Defects in MoTe2 Fewlayers at Room Temperature", "abstract": "The optical and electrical properties of semiconductors are strongly affected by defect states. The defects in molybdenum ditelluride (MoTe2) show the potential for quantum light emission at optical f...", "citations": 5, "author_count": 6, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5679, "doi": "10.3390/nano13091501", "umap_coordinates": { "x": 392.7967529296875, "y": 135.03167724609375, "z": 206.5608673095703 }, "tsne_coordinates": { "x": 13.662253379821777, "y": -10.412797927856445, "z": 7.317438125610352 }, "pca_coordinates": { "x": -0.20578986406326294, "y": -1.1622772216796875, "z": -0.542231559753418 }, "axis_scores": { "Quantum imaging": 0.7164117097854614, "Quantum Life Science Sensing": 0.746976912021637, "Quantum sensing Detection": 0.7285106778144836, "Quantum sensing Metrology": 0.7366659045219421, "Quantum sensing navigation": 0.7138897776603699, "Quantum sensing Position": 0.6896542310714722, "Quantum sensing Timing": 0.6915014982223511, "Quantum sensing": 0.7383308410644531, "Quantum control": 0.6831300258636475 } }, { "id": 5673, "title": "Plastic scintillator response to low-energy photons", "abstract": "The plastic scintillator (PS) is a promising dosimeter for brachytherapy and other low-energy photon applications because of its high sensitivity and approximate tissue equivalence. As part of our pro...", "citations": 89, "author_count": 7, "categories": [ "Engineering" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5680, "doi": "10.1088/0031-9155/44/4/004", "umap_coordinates": { "x": 395.7042236328125, "y": 133.92018127441406, "z": 205.7232208251953 }, "tsne_coordinates": { "x": -19.530439376831055, "y": 30.551952362060547, "z": -14.278698921203613 }, "pca_coordinates": { "x": -1.7220842838287354, "y": 1.454331398010254, "z": 2.477354049682617 }, "axis_scores": { "Quantum imaging": 0.6860132217407227, "Quantum Life Science Sensing": 0.7042394280433655, "Quantum sensing Detection": 0.6908935308456421, "Quantum sensing Metrology": 0.6499335765838623, "Quantum sensing navigation": 0.6600300669670105, "Quantum sensing Position": 0.6840930581092834, "Quantum sensing Timing": 0.6856769323348999, "Quantum sensing": 0.6870731711387634, "Quantum control": 0.6386708617210388 } }, { "id": 5674, "title": "Electrophoretic separation and confocal laser-induced fluorescence detection at ultralow concentrations in constricted fused-silica capillaries", "abstract": "Laser-induced fluorescence detection of labeled amino acids in a flowing stream at femtomolar (10(-15)M) concentrations was achieved by using a fused-silica capillary flow-cell comprising a constricte...", "citations": 35, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5681, "doi": "10.1002/elps.200305429", "umap_coordinates": { "x": 393.7036437988281, "y": 135.29554748535156, "z": 205.10093688964844 }, "tsne_coordinates": { "x": 3.1797518730163574, "y": 15.708456993103027, "z": -15.289053916931152 }, "pca_coordinates": { "x": -2.611340045928955, "y": -0.23879671096801758, "z": 0.048258423805236816 }, "axis_scores": { "Quantum imaging": 0.713728666305542, "Quantum Life Science Sensing": 0.6961188316345215, "Quantum sensing Detection": 0.6932559609413147, "Quantum sensing Metrology": 0.6713667511940002, "Quantum sensing navigation": 0.6771816611289978, "Quantum sensing Position": 0.6749475598335266, "Quantum sensing Timing": 0.6520540714263916, "Quantum sensing": 0.6970512866973877, "Quantum control": 0.6706844568252563 } }, { "id": 5675, "title": "Validation of Geant4 Pixel Detector Simulation Framework by Measurements With the Medipix Family Detectors", "abstract": "Monte Carlo simulations are an extensively used tool for developing and understanding radiation detector systems. In this work, we used results of several chips and readout modes of the MEDIPIX detect...", "citations": 6, "author_count": 6, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5682, "doi": "10.1109/TNS.2016.2555958", "umap_coordinates": { "x": 394.7703552246094, "y": 132.59625244140625, "z": 205.63320922851562 }, "tsne_coordinates": { "x": -18.834035873413086, "y": 17.131139755249023, "z": -18.035886764526367 }, "pca_coordinates": { "x": -1.9870526790618896, "y": 2.075009346008301, "z": 3.573014736175537 }, "axis_scores": { "Quantum imaging": 0.7206403017044067, "Quantum Life Science Sensing": 0.7302197813987732, "Quantum sensing Detection": 0.7243449091911316, "Quantum sensing Metrology": 0.722873330116272, "Quantum sensing navigation": 0.7113956212997437, "Quantum sensing Position": 0.6914529204368591, "Quantum sensing Timing": 0.7211220860481262, "Quantum sensing": 0.7246772646903992, "Quantum control": 0.6640540957450867 } }, { "id": 5676, "title": "Physiological and thylakoid proteome analyses of Anabaena sp. PCC 7120 for monitoring the photosynthetic responses under cadmium stress", "abstract": "Photosynthetic organisms are highly susceptible to cadmium (Cd) as it interferes with the structural and functional aspects of the photosynthesis. As a major group of photosynthetic prokaryotes, cyano...", "citations": 28, "author_count": 8, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5683, "doi": "10.1016/j.algal.2021.102225", "umap_coordinates": { "x": 393.87603759765625, "y": 135.74342346191406, "z": 203.7101287841797 }, "tsne_coordinates": { "x": 17.8314151763916, "y": 30.42611312866211, "z": 12.190348625183105 }, "pca_coordinates": { "x": -5.360817909240723, "y": -0.8765830993652344, "z": -1.827991247177124 }, "axis_scores": { "Quantum imaging": 0.6818060278892517, "Quantum Life Science Sensing": 0.7312029600143433, "Quantum sensing Detection": 0.6847558617591858, "Quantum sensing Metrology": 0.6835216283798218, "Quantum sensing navigation": 0.6571761965751648, "Quantum sensing Position": 0.662983775138855, "Quantum sensing Timing": 0.669104814529419, "Quantum sensing": 0.6911929845809937, "Quantum control": 0.6616384983062744 } }, { "id": 5677, "title": "Unbounded randomness certification using sequences of measurements", "abstract": "Unpredictability, or randomness, of the outcomes of measurements made on an entangled state can be certified provided that the statistics violate a Bell inequality. In the standard Bell scenario where...", "citations": 106, "author_count": 7, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5684, "doi": "10.1103/PhysRevA.95.020102", "umap_coordinates": { "x": 395.858642578125, "y": 136.92103576660156, "z": 207.1534881591797 }, "tsne_coordinates": { "x": -27.328166961669922, "y": -15.059883117675781, "z": -1.2762244939804077 }, "pca_coordinates": { "x": 2.86342716217041, "y": 2.953299045562744, "z": 1.4415323734283447 }, "axis_scores": { "Quantum imaging": 0.7583436965942383, "Quantum Life Science Sensing": 0.7781604528427124, "Quantum sensing Detection": 0.7776702642440796, "Quantum sensing Metrology": 0.7776936292648315, "Quantum sensing navigation": 0.7808038592338562, "Quantum sensing Position": 0.7522692680358887, "Quantum sensing Timing": 0.7560417652130127, "Quantum sensing": 0.7870951890945435, "Quantum control": 0.7428792715072632 } }, { "id": 5678, "title": "Pade approximation of the S-matrix as a way of locating quantum resonances and bound states", "abstract": "It is shown that the spectral points (bound states and resonances) generated by a central potential of a single-channel problem, can be found using rational parametrization of the S-matrix. To achieve...", "citations": 34, "author_count": 4, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5685, "doi": "10.1088/1751-8113/40/49/017", "umap_coordinates": { "x": 394.446044921875, "y": 136.67282104492188, "z": 206.95989990234375 }, "tsne_coordinates": { "x": -41.25071716308594, "y": -8.275046348571777, "z": 1.1944071054458618 }, "pca_coordinates": { "x": 0.5331977605819702, "y": 1.5510249137878418, "z": 0.6021625399589539 }, "axis_scores": { "Quantum imaging": 0.689529538154602, "Quantum Life Science Sensing": 0.6811010241508484, "Quantum sensing Detection": 0.6825451254844666, "Quantum sensing Metrology": 0.6863161325454712, "Quantum sensing navigation": 0.7089750170707703, "Quantum sensing Position": 0.7430654168128967, "Quantum sensing Timing": 0.7108488082885742, "Quantum sensing": 0.6958774328231812, "Quantum control": 0.6547359228134155 } }, { "id": 5679, "title": "A Novel Memristive-Based Data Reordering Scheme", "abstract": "A novel method is proposed for the implementation of arbitrary reordering schemes using a 2-dimensional array of memristive devices. The key idea is to convert the data reordering algorithm into a mat...", "citations": 16, "author_count": 2, "categories": [ "Computer Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5686, "doi": "10.1109/DSD60849.2023.00091", "umap_coordinates": { "x": 393.8470764160156, "y": 134.94973754882812, "z": 206.2679443359375 }, "tsne_coordinates": { "x": 14.646441459655762, "y": -7.827334880828857, "z": 30.952245712280273 }, "pca_coordinates": { "x": 0.2408146858215332, "y": 0.7754267454147339, "z": -1.0052123069763184 }, "axis_scores": { "Quantum imaging": 0.6656709909439087, "Quantum Life Science Sensing": 0.7008988857269287, "Quantum sensing Detection": 0.6766180396080017, "Quantum sensing Metrology": 0.6759048700332642, "Quantum sensing navigation": 0.6857585310935974, "Quantum sensing Position": 0.6821445822715759, "Quantum sensing Timing": 0.6894493103027344, "Quantum sensing": 0.6867622137069702, "Quantum control": 0.6592131853103638 } }, { "id": 5680, "title": "Intermediate scalings in holographic RG flows and conductivities", "abstract": "We construct numerically finite density domain-wall solutions which interpolate between two AdS(4) fixed points and exhibit an intermediate regime of hyperscaling violation, with or without Lifshitz s...", "citations": 25, "author_count": 4, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5687, "doi": "10.1007/JHEP02(2015)035", "umap_coordinates": { "x": 395.01934814453125, "y": 137.70481872558594, "z": 207.80267333984375 }, "tsne_coordinates": { "x": -21.997865676879883, "y": -37.35161590576172, "z": 8.431188583374023 }, "pca_coordinates": { "x": 3.1140475273132324, "y": 3.0410990715026855, "z": -2.148838758468628 }, "axis_scores": { "Quantum imaging": 0.7153862118721008, "Quantum Life Science Sensing": 0.6969617605209351, "Quantum sensing Detection": 0.6570265889167786, "Quantum sensing Metrology": 0.6560545563697815, "Quantum sensing navigation": 0.7007755637168884, "Quantum sensing Position": 0.6500422954559326, "Quantum sensing Timing": 0.6551256775856018, "Quantum sensing": 0.6860938668251038, "Quantum control": 0.67628413438797 } }, { "id": 5681, "title": "Signal-to-noise criterion for free-propagation imaging techniques at free-electron lasers and synchrotrons", "abstract": "We propose a signal-to-noise criterion which predicts whether a feature of a given size and scattering strength, placed inside a larger object, can be retrieved with two common X-ray imaging technique...", "citations": 14, "author_count": 7, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5688, "doi": "10.1364/OE.24.003189", "umap_coordinates": { "x": 394.8055114746094, "y": 134.06973266601562, "z": 205.85440063476562 }, "tsne_coordinates": { "x": 7.60960578918457, "y": 22.060150146484375, "z": -29.193212509155273 }, "pca_coordinates": { "x": -1.9547617435455322, "y": 2.5709261894226074, "z": 2.9055559635162354 }, "axis_scores": { "Quantum imaging": 0.7229621410369873, "Quantum Life Science Sensing": 0.710517168045044, "Quantum sensing Detection": 0.7155109643936157, "Quantum sensing Metrology": 0.7095268964767456, "Quantum sensing navigation": 0.7224068641662598, "Quantum sensing Position": 0.6917736530303955, "Quantum sensing Timing": 0.6778533458709717, "Quantum sensing": 0.7095096111297607, "Quantum control": 0.6694945693016052 } }, { "id": 5682, "title": "Probability as a conceptual hurdle to understanding one-dimensional quantum scattering and tunnelling", "abstract": "This paper draws on part of a larger project looking at university students' learning difficulties associated with quantum mechanics. Here an unexpected and interesting aspect was brought to the fore ...", "citations": 57, "author_count": 4, "categories": [ "Education & Educational Research" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5689, "doi": "10.1088/0143-0807/26/1/006", "umap_coordinates": { "x": 395.40435791015625, "y": 137.6607208251953, "z": 206.2218780517578 }, "tsne_coordinates": { "x": -17.985544204711914, "y": 4.583680152893066, "z": 14.481557846069336 }, "pca_coordinates": { "x": 1.8959670066833496, "y": 2.5619583129882812, "z": 2.6285629272460938 }, "axis_scores": { "Quantum imaging": 0.7387415766716003, "Quantum Life Science Sensing": 0.7217498421669006, "Quantum sensing Detection": 0.7258312106132507, "Quantum sensing Metrology": 0.7113164663314819, "Quantum sensing navigation": 0.7305629849433899, "Quantum sensing Position": 0.7047274112701416, "Quantum sensing Timing": 0.703424334526062, "Quantum sensing": 0.7316123247146606, "Quantum control": 0.6923642158508301 } }, { "id": 5683, "title": "III-nitride microcrystal cavities with quasi whispering gallery modes grown by molecular beam epitaxy", "abstract": "This paper analyzes current trends in fabrication of III-nitride microresonators exploiting whispering gallery modes. Novel cup-cavities are proposed and their fabrication from GaN and InN by molecula...", "citations": 5, "author_count": 11, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5690, "doi": "10.1002/pssb.201552657", "umap_coordinates": { "x": 393.38427734375, "y": 134.45997619628906, "z": 206.80015563964844 }, "tsne_coordinates": { "x": 26.903776168823242, "y": -5.347562789916992, "z": 15.581354141235352 }, "pca_coordinates": { "x": -0.4025641083717346, "y": -2.28678560256958, "z": 1.206268072128296 }, "axis_scores": { "Quantum imaging": 0.7235870361328125, "Quantum Life Science Sensing": 0.710929811000824, "Quantum sensing Detection": 0.7196649312973022, "Quantum sensing Metrology": 0.7294006943702698, "Quantum sensing navigation": 0.741401195526123, "Quantum sensing Position": 0.6974073648452759, "Quantum sensing Timing": 0.6762211918830872, "Quantum sensing": 0.7285525798797607, "Quantum control": 0.707772433757782 } }, { "id": 5684, "title": "Measuring the temporal coherence of a high harmonic generation setup employing a Fourier transform spectrometer for the VUV/XUV", "abstract": "In this experiment we used an 800 nm laser to generate high-order harmonics in a gas cell filled with Argon. Of those photons, a harmonic with 42 eV was selected by using a time-preserving grating mon...", "citations": 10, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5691, "doi": "10.1016/j.nima.2014.09.040", "umap_coordinates": { "x": 394.43499755859375, "y": 133.28599548339844, "z": 205.62083435058594 }, "tsne_coordinates": { "x": -17.2747802734375, "y": 20.895767211914062, "z": -3.949584484100342 }, "pca_coordinates": { "x": -1.0513790845870972, "y": 2.4729714393615723, "z": 2.220402240753174 }, "axis_scores": { "Quantum imaging": 0.7259506583213806, "Quantum Life Science Sensing": 0.7351090908050537, "Quantum sensing Detection": 0.7142333984375, "Quantum sensing Metrology": 0.7301706671714783, "Quantum sensing navigation": 0.7133536338806152, "Quantum sensing Position": 0.6989229321479797, "Quantum sensing Timing": 0.7419617772102356, "Quantum sensing": 0.7230233550071716, "Quantum control": 0.6862379312515259 } }, { "id": 5685, "title": "Thermodynamics of a gauge-frustrated Kitaev spin liquid", "abstract": "Two- and three-dimensional Kitaev magnets are prototypical frustrated quantum spin systems, in which the original spin degrees of freedom fractionalize into Majorana fermions and a Z(2) gauge field-a ...", "citations": 7, "author_count": 8, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5692, "doi": "10.1103/PhysRevResearch.1.032011", "umap_coordinates": { "x": 394.4986877441406, "y": 136.73426818847656, "z": 208.9490966796875 }, "tsne_coordinates": { "x": -20.587337493896484, "y": -29.643430709838867, "z": 22.531057357788086 }, "pca_coordinates": { "x": 3.872922420501709, "y": 0.7866837978363037, "z": -1.917884349822998 }, "axis_scores": { "Quantum imaging": 0.7201813459396362, "Quantum Life Science Sensing": 0.7376121878623962, "Quantum sensing Detection": 0.7136980891227722, "Quantum sensing Metrology": 0.7150994539260864, "Quantum sensing navigation": 0.7418173551559448, "Quantum sensing Position": 0.697361409664154, "Quantum sensing Timing": 0.6818251013755798, "Quantum sensing": 0.7341715693473816, "Quantum control": 0.708512544631958 } }, { "id": 5686, "title": "Disentangling Transient Charge Density and Metal-Ligand Covalency in Photoexcited Ferricyanide with Femtosecond Resonant Inelastic Soft X-ray Scattering", "abstract": "Soft X-ray spectroscopies are ideal probes of the local valence electronic structure of photocatalytically active metal sites. Here, we apply the selectivity of time resolved resonant inelastic X-ray ...", "citations": 40, "author_count": 25, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5693, "doi": "10.1021/acs.jpclett.8b01429", "umap_coordinates": { "x": 392.2481384277344, "y": 135.48056030273438, "z": 206.3361053466797 }, "tsne_coordinates": { "x": 5.82481575012207, "y": -46.41294860839844, "z": 2.825089454650879 }, "pca_coordinates": { "x": -0.9583719968795776, "y": -1.6886887550354004, "z": -0.20168140530586243 }, "axis_scores": { "Quantum imaging": 0.6970062851905823, "Quantum Life Science Sensing": 0.6819446086883545, "Quantum sensing Detection": 0.6745177507400513, "Quantum sensing Metrology": 0.6525591611862183, "Quantum sensing navigation": 0.6582844853401184, "Quantum sensing Position": 0.6371927261352539, "Quantum sensing Timing": 0.6581100821495056, "Quantum sensing": 0.6831198930740356, "Quantum control": 0.6285969018936157 } }, { "id": 5687, "title": "Measurement and simulation of the neutron response of the Nordball liquid scintillator array", "abstract": "The response of the liquid scintillator array Nordball to neutrons in the energy range 1.5 < T-n < 10 MeV has been measured by time of flight using a Cf-252 fission source. Fission fragments were dete...", "citations": 5, "author_count": 16, "categories": [ "Instruments & Instrumentation" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5694, "doi": "10.1016/j.nima.2006.06.048", "umap_coordinates": { "x": 394.4356384277344, "y": 132.86422729492188, "z": 205.51109313964844 }, "tsne_coordinates": { "x": -18.17740821838379, "y": 17.107118606567383, "z": -8.131912231445312 }, "pca_coordinates": { "x": -1.8852661848068237, "y": 1.2294529676437378, "z": 1.798318862915039 }, "axis_scores": { "Quantum imaging": 0.6923282742500305, "Quantum Life Science Sensing": 0.7014545798301697, "Quantum sensing Detection": 0.6936724781990051, "Quantum sensing Metrology": 0.6850710511207581, "Quantum sensing navigation": 0.6995140910148621, "Quantum sensing Position": 0.6872751116752625, "Quantum sensing Timing": 0.6882826089859009, "Quantum sensing": 0.6918517351150513, "Quantum control": 0.6507850885391235 } }, { "id": 5688, "title": "Ultrashort laser induced spatial redistribution of silver species and nano-patterning of etching selectivity in silver-containing glasses", "abstract": "Femtosecond laser-induced spatial redistribution of silver species (ions, clusters. and hole centers) in a silver-containing phosphate glass is investigated by correlative means of near-field scanning...", "citations": 3, "author_count": 10, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5695, "doi": "10.1364/OE.27.013675", "umap_coordinates": { "x": 393.4407958984375, "y": 134.08981323242188, "z": 205.9669952392578 }, "tsne_coordinates": { "x": 38.114906311035156, "y": -3.938382625579834, "z": -13.74185562133789 }, "pca_coordinates": { "x": -1.277915120124817, "y": -1.7723846435546875, "z": -0.5592061877250671 }, "axis_scores": { "Quantum imaging": 0.6773375868797302, "Quantum Life Science Sensing": 0.6738523244857788, "Quantum sensing Detection": 0.6667429208755493, "Quantum sensing Metrology": 0.6572679281234741, "Quantum sensing navigation": 0.6720686554908752, "Quantum sensing Position": 0.6591109037399292, "Quantum sensing Timing": 0.6515309810638428, "Quantum sensing": 0.6780961751937866, "Quantum control": 0.6533576250076294 } }, { "id": 5689, "title": "Real-Time TD-DFT with Classical Ion Dynamics: Methodology and Applications", "abstract": "We present a method for real-time propagation of electronic wave functions, within time-dependent density functional theory (RT-TDDFT), coupled to ionic motion through mean-field classical dynamics. T...", "citations": 64, "author_count": 6, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5696, "doi": "10.1021/acs.jctc.5b00969", "umap_coordinates": { "x": 393.62109375, "y": 137.51522827148438, "z": 206.0940399169922 }, "tsne_coordinates": { "x": -11.287261009216309, "y": 7.5599684715271, "z": 19.550737380981445 }, "pca_coordinates": { "x": -0.7226487398147583, "y": 1.5983035564422607, "z": -2.2446606159210205 }, "axis_scores": { "Quantum imaging": 0.730457067489624, "Quantum Life Science Sensing": 0.7398070693016052, "Quantum sensing Detection": 0.719252347946167, "Quantum sensing Metrology": 0.7024707198143005, "Quantum sensing navigation": 0.7155132293701172, "Quantum sensing Position": 0.6899083852767944, "Quantum sensing Timing": 0.7445501685142517, "Quantum sensing": 0.7279545068740845, "Quantum control": 0.7269436717033386 } }, { "id": 5690, "title": "FORMATION OF FREE-RADICALS DURING PHACOEMULSIFICATION", "abstract": "During phacoemulsification cavitation bubbles are formed. These bubbles are believed to be one source of damage to corneal endothelium seen after phacoemulsification. Free radicals are induced wheneve...", "citations": 86, "author_count": 6, "categories": [ "Ophthalmology" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5697, "doi": "10.3109/02713689308999460", "umap_coordinates": { "x": 394.13775634765625, "y": 135.695556640625, "z": 204.46124267578125 }, "tsne_coordinates": { "x": 18.35086441040039, "y": 16.036062240600586, "z": 7.215824127197266 }, "pca_coordinates": { "x": -2.2820403575897217, "y": 3.0182559490203857, "z": -3.0923917293548584 }, "axis_scores": { "Quantum imaging": 0.6424509882926941, "Quantum Life Science Sensing": 0.6834845542907715, "Quantum sensing Detection": 0.6424283385276794, "Quantum sensing Metrology": 0.6255824565887451, "Quantum sensing navigation": 0.617901623249054, "Quantum sensing Position": 0.6218786239624023, "Quantum sensing Timing": 0.6438901424407959, "Quantum sensing": 0.6432311534881592, "Quantum control": 0.6485773921012878 } }, { "id": 5691, "title": "The translational paradigm of nanobiomaterials: Biological chemistry to modern applications", "abstract": "Recently nanotechnology has evolved as one of the most revolutionary technologies in the world. It has now become a multi-trillion-dollar business that covers the production of physical, chemical, and...", "citations": 63, "author_count": 14, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5698, "doi": "10.1016/j.mtbio.2022.100463", "umap_coordinates": { "x": 393.5697021484375, "y": 134.32867431640625, "z": 203.95933532714844 }, "tsne_coordinates": { "x": 18.839818954467773, "y": 22.553024291992188, "z": -6.660866737365723 }, "pca_coordinates": { "x": -3.808163642883301, "y": 1.1640377044677734, "z": -2.2252755165100098 }, "axis_scores": { "Quantum imaging": 0.7046908140182495, "Quantum Life Science Sensing": 0.7488226294517517, "Quantum sensing Detection": 0.6934236288070679, "Quantum sensing Metrology": 0.7030805945396423, "Quantum sensing navigation": 0.6851444244384766, "Quantum sensing Position": 0.6811025738716125, "Quantum sensing Timing": 0.6840276718139648, "Quantum sensing": 0.7073250412940979, "Quantum control": 0.6796524524688721 } }, { "id": 5692, "title": "GAS-EXCHANGE IN A 20-YEAR-OLD STAND OF SCOTS PINE .2. VARIATION IN NET PHOTOSYNTHESIS AND TRANSPIRATION WITHIN AND BETWEEN TREES", "abstract": "The rates of net photosynthesis and transpiration of 1-yr-old shoots were measured in situ in 5 different positions within the crown of a young Scotch pine (P. sylvestris L.). Measurements were carrie...", "citations": 48, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1982, "topic": [ "all" ], "embedding_index": 5699, "doi": "10.1111/j.1399-3054.1982.tb00570.x", "umap_coordinates": { "x": 394.6900329589844, "y": 136.21490478515625, "z": 203.66615295410156 }, "tsne_coordinates": { "x": 9.679903984069824, "y": 35.588958740234375, "z": 11.962918281555176 }, "pca_coordinates": { "x": -1.1168358325958252, "y": 1.7519340515136719, "z": -0.8706866502761841 }, "axis_scores": { "Quantum imaging": 0.6718619465827942, "Quantum Life Science Sensing": 0.6988232135772705, "Quantum sensing Detection": 0.6625595688819885, "Quantum sensing Metrology": 0.6634180545806885, "Quantum sensing navigation": 0.6799945831298828, "Quantum sensing Position": 0.6722536683082581, "Quantum sensing Timing": 0.6978874802589417, "Quantum sensing": 0.6828038692474365, "Quantum control": 0.6656133532524109 } }, { "id": 5693, "title": "Electrical and optical control of single spins integrated in scalable semiconductor devices", "abstract": "Spin defects in silicon carbide have the advantage of exceptional electron spin coherence combined with a near-infrared spin-photon interface, all in a material amenable to modern semiconductor fabric...", "citations": 243, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5700, "doi": "10.1126/science.aax9406", "umap_coordinates": { "x": 394.03607177734375, "y": 133.6345977783203, "z": 207.87432861328125 }, "tsne_coordinates": { "x": 3.0987560749053955, "y": -9.529180526733398, "z": 27.97757911682129 }, "pca_coordinates": { "x": 0.5304316282272339, "y": -2.9422669410705566, "z": 1.0619666576385498 }, "axis_scores": { "Quantum imaging": 0.7554316520690918, "Quantum Life Science Sensing": 0.7691220045089722, "Quantum sensing Detection": 0.7377883195877075, "Quantum sensing Metrology": 0.7589057087898254, "Quantum sensing navigation": 0.7473641633987427, "Quantum sensing Position": 0.7178064584732056, "Quantum sensing Timing": 0.7169589400291443, "Quantum sensing": 0.7651015520095825, "Quantum control": 0.7591871619224548 } }, { "id": 5694, "title": "Temperature dependence of radiative lifetimes, optical and electronic properties of silicon nanocrystals capped with various organic ligands", "abstract": "Despite the known temperature effects on the optical and photoluminescence properties of silicon nanocrystals (Si NCs), most of the density functional theory calculations thus far have been carried ou...", "citations": 7, "author_count": 2, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5701, "doi": "10.1063/1.5039281", "umap_coordinates": { "x": 393.0359191894531, "y": 133.33184814453125, "z": 207.5504608154297 }, "tsne_coordinates": { "x": 35.47773742675781, "y": -12.203187942504883, "z": -8.463001251220703 }, "pca_coordinates": { "x": -1.6464579105377197, "y": -3.163661479949951, "z": -0.1050645112991333 }, "axis_scores": { "Quantum imaging": 0.7325076460838318, "Quantum Life Science Sensing": 0.7694312334060669, "Quantum sensing Detection": 0.7183452844619751, "Quantum sensing Metrology": 0.7181047797203064, "Quantum sensing navigation": 0.6868420243263245, "Quantum sensing Position": 0.683392345905304, "Quantum sensing Timing": 0.7093625068664551, "Quantum sensing": 0.7364788055419922, "Quantum control": 0.6953190565109253 } }, { "id": 5695, "title": "Photon-number statistics from resonance fluorescence of a two-level atom near a plasmonic nanoparticle", "abstract": "The photon-number statistics from resonance fluorescence of a two-level atom near a metal nanosphere driven by a laser field with finite bandwidth is studied theoretically. Our analysis shows that all...", "citations": 15, "author_count": 4, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5702, "doi": "10.1103/PhysRevA.90.063831", "umap_coordinates": { "x": 394.8724670410156, "y": 134.84283447265625, "z": 207.8152313232422 }, "tsne_coordinates": { "x": -2.1806607246398926, "y": -14.673572540283203, "z": -10.417006492614746 }, "pca_coordinates": { "x": 1.7761211395263672, "y": -2.4141645431518555, "z": 1.896533489227295 }, "axis_scores": { "Quantum imaging": 0.7101904153823853, "Quantum Life Science Sensing": 0.7306309342384338, "Quantum sensing Detection": 0.7309505343437195, "Quantum sensing Metrology": 0.7129690051078796, "Quantum sensing navigation": 0.7066836953163147, "Quantum sensing Position": 0.7021623849868774, "Quantum sensing Timing": 0.6811880469322205, "Quantum sensing": 0.7271718978881836, "Quantum control": 0.6632844805717468 } }, { "id": 5696, "title": "Limits of validity of trajectory simulation: Correlation of the error with density of scatterers and particle wavelength", "abstract": "To a first approximation, the elastic scattering of long wavelength particles in amorphous matter may be modelled as scattering in a volume filled with a density n of N point scatterers in random posi...", "citations": 8, "author_count": 2, "categories": [ "Instruments & Instrumentation" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5703, "doi": "10.1016/j.nimb.2009.08.013", "umap_coordinates": { "x": 394.58868408203125, "y": 133.4864044189453, "z": 205.22113037109375 }, "tsne_coordinates": { "x": -17.928985595703125, "y": 16.06267738342285, "z": -7.270008563995361 }, "pca_coordinates": { "x": -1.0339187383651733, "y": 2.8543429374694824, "z": 0.8225505948066711 }, "axis_scores": { "Quantum imaging": 0.7061821222305298, "Quantum Life Science Sensing": 0.7090634703636169, "Quantum sensing Detection": 0.7064531445503235, "Quantum sensing Metrology": 0.7020009160041809, "Quantum sensing navigation": 0.7379331588745117, "Quantum sensing Position": 0.74336838722229, "Quantum sensing Timing": 0.7061583399772644, "Quantum sensing": 0.6988424062728882, "Quantum control": 0.6776410341262817 } }, { "id": 5697, "title": "Characteristics of electron transport through vertical double-barrier quantum-dot structures: Effects of symmetric and asymmetric variations of the lateral confinement potentials - art. no. 205317", "abstract": "We report on a theoretical study of the electron transport through laterally-confined, vertical double-barrier resonant-tunneling (DBRT) structures, defined as one-dimensional (1D)-0D-1D systems, with...", "citations": 1, "author_count": 3, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5704, "doi": "10.1103/PhysRevB.66.205317", "umap_coordinates": { "x": 393.697265625, "y": 135.12869262695312, "z": 209.02976989746094 }, "tsne_coordinates": { "x": 2.0846309661865234, "y": -30.501623153686523, "z": -0.9729905724525452 }, "pca_coordinates": { "x": 3.068631172180176, "y": -2.1648807525634766, "z": -0.18091744184494019 }, "axis_scores": { "Quantum imaging": 0.7066164016723633, "Quantum Life Science Sensing": 0.7079998850822449, "Quantum sensing Detection": 0.6915969848632812, "Quantum sensing Metrology": 0.7029842734336853, "Quantum sensing navigation": 0.7244580388069153, "Quantum sensing Position": 0.7008211016654968, "Quantum sensing Timing": 0.6761108636856079, "Quantum sensing": 0.7027490735054016, "Quantum control": 0.6955441236495972 } }, { "id": 5698, "title": "Prospects for statistical tests of strong-field quantum electrodynamics with high-intensity lasers", "abstract": "Exploiting high-energy electron beams colliding into high-intensity laser pulses brings an opportunity to reach high values of the dimensionless rest-frame acceleration $\\chi$ and thereby invoke proce...", "citations": 3, "author_count": 3, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5705, "doi": "10.1017/hpl.2023.64", "umap_coordinates": { "x": 395.6560974121094, "y": 135.8690185546875, "z": 206.56944274902344 }, "tsne_coordinates": { "x": -10.684601783752441, "y": -9.486403465270996, "z": -13.915764808654785 }, "pca_coordinates": { "x": -0.12377643585205078, "y": 1.81658935546875, "z": 0.90647953748703 }, "axis_scores": { "Quantum imaging": 0.7084403038024902, "Quantum Life Science Sensing": 0.7299075722694397, "Quantum sensing Detection": 0.702523946762085, "Quantum sensing Metrology": 0.6874995231628418, "Quantum sensing navigation": 0.6995092630386353, "Quantum sensing Position": 0.6987273097038269, "Quantum sensing Timing": 0.6743601560592651, "Quantum sensing": 0.7119106650352478, "Quantum control": 0.6820979714393616 } }, { "id": 5699, "title": "Modulating TTA efficiency through control of high energy triplet states", "abstract": "An ideal annihilator in triplet-triplet annihilation photon upconversion (TTA-UC) can achieve a maximum of 50% quantum efficiency. This spin statistical limit depends on the energies of the triplet st...", "citations": 15, "author_count": 5, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5706, "doi": "10.1039/d1tc05292f", "umap_coordinates": { "x": 392.1585388183594, "y": 134.92340087890625, "z": 204.9825439453125 }, "tsne_coordinates": { "x": 11.101509094238281, "y": 2.8938679695129395, "z": -15.914674758911133 }, "pca_coordinates": { "x": -1.5287450551986694, "y": -1.0466299057006836, "z": -0.5206665396690369 }, "axis_scores": { "Quantum imaging": 0.7074179649353027, "Quantum Life Science Sensing": 0.7156683206558228, "Quantum sensing Detection": 0.7079866528511047, "Quantum sensing Metrology": 0.6995037198066711, "Quantum sensing navigation": 0.6847164034843445, "Quantum sensing Position": 0.6629313230514526, "Quantum sensing Timing": 0.7174602746963501, "Quantum sensing": 0.7181923389434814, "Quantum control": 0.7409876585006714 } }, { "id": 5700, "title": "Ion-exchanged waveguides in periodically poled Rb-doped KTiOPO4 for efficient second harmonic generation", "abstract": "An ion-exchange process has been developed for periodically poled Rb-doped KTIOPO4(RKTP) which warrants high efficiency and low loss channel waveguides. The domain stability was investigated, and it w...", "citations": 12, "author_count": 7, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5707, "doi": "10.1364/OE.410773", "umap_coordinates": { "x": 393.9163513183594, "y": 134.5018310546875, "z": 206.5477752685547 }, "tsne_coordinates": { "x": -0.15089941024780273, "y": -7.925378799438477, "z": -37.05361557006836 }, "pca_coordinates": { "x": -1.1815733909606934, "y": -1.893968105316162, "z": 0.43460315465927124 }, "axis_scores": { "Quantum imaging": 0.6830331087112427, "Quantum Life Science Sensing": 0.6579364538192749, "Quantum sensing Detection": 0.6416569352149963, "Quantum sensing Metrology": 0.6611798405647278, "Quantum sensing navigation": 0.6726038455963135, "Quantum sensing Position": 0.6444703936576843, "Quantum sensing Timing": 0.669683039188385, "Quantum sensing": 0.6703434586524963, "Quantum control": 0.6331053376197815 } }, { "id": 5701, "title": "Conceptual aspects of geometric quantum computation", "abstract": "Geometric quantum computation is the idea that geometric phases can be used to implement quantum gates, i.e., the basic elements of the Boolean network that forms a quantum computer. Although original...", "citations": 23, "author_count": 4, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5708, "doi": "10.1007/s11128-016-1381-1", "umap_coordinates": { "x": 395.1529846191406, "y": 137.53009033203125, "z": 206.7140655517578 }, "tsne_coordinates": { "x": -31.44822120666504, "y": -3.3815081119537354, "z": 11.569052696228027 }, "pca_coordinates": { "x": 2.253040313720703, "y": 4.042237758636475, "z": 0.16709434986114502 }, "axis_scores": { "Quantum imaging": 0.7714710235595703, "Quantum Life Science Sensing": 0.7386435270309448, "Quantum sensing Detection": 0.7450160384178162, "Quantum sensing Metrology": 0.7548049688339233, "Quantum sensing navigation": 0.7730660438537598, "Quantum sensing Position": 0.7412316203117371, "Quantum sensing Timing": 0.7351850271224976, "Quantum sensing": 0.768832802772522, "Quantum control": 0.7533695697784424 } }, { "id": 5702, "title": "Spectral phase measurement of a Fano resonance using tunable attosecond pulses", "abstract": "Electron dynamics induced by resonant absorption of light is of fundamental importance in nature and has been the subject of countless studies in many scientific areas. Above the ionization threshold ...", "citations": 163, "author_count": 20, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5709, "doi": "10.1038/ncomms10566", "umap_coordinates": { "x": 394.52703857421875, "y": 135.42605590820312, "z": 206.6719970703125 }, "tsne_coordinates": { "x": -7.43109130859375, "y": -6.63279914855957, "z": -8.486699104309082 }, "pca_coordinates": { "x": 0.3419525623321533, "y": 0.4788026809692383, "z": 0.8327783942222595 }, "axis_scores": { "Quantum imaging": 0.7402680516242981, "Quantum Life Science Sensing": 0.7460582256317139, "Quantum sensing Detection": 0.7307668924331665, "Quantum sensing Metrology": 0.7373118996620178, "Quantum sensing navigation": 0.7318578362464905, "Quantum sensing Position": 0.7170796990394592, "Quantum sensing Timing": 0.7361688613891602, "Quantum sensing": 0.7457574605941772, "Quantum control": 0.7170389294624329 } }, { "id": 5703, "title": "Two-particle states in coupled quantum wires in a magnetic field", "abstract": "Spectrum of two charged particles in a system of two parallel quantum wires coupled by tunneling in external perpendicular magnetic field is investigated. Both cases of the same and opposite charge si...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5710, "doi": "10.1016/S0921-4526(97)83085-2", "umap_coordinates": { "x": 393.3470764160156, "y": 135.80215454101562, "z": 208.2159881591797 }, "tsne_coordinates": { "x": 8.997471809387207, "y": -18.402740478515625, "z": 14.527851104736328 }, "pca_coordinates": { "x": 1.9837360382080078, "y": -1.798332691192627, "z": -0.5325038433074951 }, "axis_scores": { "Quantum imaging": 0.727722704410553, "Quantum Life Science Sensing": 0.7197202444076538, "Quantum sensing Detection": 0.7254804372787476, "Quantum sensing Metrology": 0.7149350047111511, "Quantum sensing navigation": 0.7312862873077393, "Quantum sensing Position": 0.7234745025634766, "Quantum sensing Timing": 0.6946718692779541, "Quantum sensing": 0.7348746061325073, "Quantum control": 0.698605477809906 } }, { "id": 5704, "title": "High light-induced photoinhibition is not limiting seedling establishment at abrupt treeline ecotones in New Zealand", "abstract": "Seedlings of New Zealand's treeline-forming Fuscospora cliffortioides (Hook.f.) perform poorly beyond the established canopy, limiting treeline advance. To test the long-standing assumption that photo...", "citations": 7, "author_count": 5, "categories": [ "Forestry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5711, "doi": "10.1093/treephys/tpab061", "umap_coordinates": { "x": 394.2667541503906, "y": 136.42588806152344, "z": 203.76803588867188 }, "tsne_coordinates": { "x": 9.437837600708008, "y": 39.50442123413086, "z": 9.511746406555176 }, "pca_coordinates": { "x": -1.477421760559082, "y": 2.46276593208313, "z": -1.061142921447754 }, "axis_scores": { "Quantum imaging": 0.6337128281593323, "Quantum Life Science Sensing": 0.6505252122879028, "Quantum sensing Detection": 0.6311197876930237, "Quantum sensing Metrology": 0.6007680892944336, "Quantum sensing navigation": 0.6265027523040771, "Quantum sensing Position": 0.6280905604362488, "Quantum sensing Timing": 0.6458286046981812, "Quantum sensing": 0.6326180696487427, "Quantum control": 0.621853232383728 } }, { "id": 5705, "title": "An outflow powers the optical rise of the nearby, fast-evolving tidal disruption event AT2019qiz", "abstract": "At 66 Mpc, AT2019qiz is the closest optical tidal disruption event (TDE) to date, with a luminosity intermediate between the bulk of the population and the faint-and-fast event iPTF16fnl. Its proximit...", "citations": 113, "author_count": 46, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5712, "doi": "10.1093/mnras/staa2824", "umap_coordinates": { "x": 396.1763916015625, "y": 135.6935577392578, "z": 205.843994140625 }, "tsne_coordinates": { "x": -33.55931854248047, "y": 27.326942443847656, "z": 5.710930824279785 }, "pca_coordinates": { "x": 0.7942790985107422, "y": 3.175009250640869, "z": -0.6960198879241943 }, "axis_scores": { "Quantum imaging": 0.637058436870575, "Quantum Life Science Sensing": 0.6540099382400513, "Quantum sensing Detection": 0.6496689915657043, "Quantum sensing Metrology": 0.645545244216919, "Quantum sensing navigation": 0.6716570854187012, "Quantum sensing Position": 0.6522752642631531, "Quantum sensing Timing": 0.6737046837806702, "Quantum sensing": 0.6483219861984253, "Quantum control": 0.6341837048530579 } }, { "id": 5706, "title": "Photoactivation of the p-nucleus 92Mo with bremsstrahlung at ELBE", "abstract": "In nuclear network calculations especially the p-nucleus Mo-92 is frequently under-produced. Since experimental data of the photodisintegration of Mo-92 so far do not exist, it was necessary to measur...", "citations": 1, "author_count": 10, "categories": [ "Astronomy & Astrophysics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5713, "doi": "10.1088/1742-6596/202/1/012014", "umap_coordinates": { "x": 395.7499694824219, "y": 134.627685546875, "z": 206.08563232421875 }, "tsne_coordinates": { "x": -26.52047348022461, "y": 17.87881851196289, "z": -7.008073806762695 }, "pca_coordinates": { "x": -0.21284633874893188, "y": 1.6738667488098145, "z": 0.40106266736984253 }, "axis_scores": { "Quantum imaging": 0.6861697435379028, "Quantum Life Science Sensing": 0.6726360321044922, "Quantum sensing Detection": 0.6643869876861572, "Quantum sensing Metrology": 0.6583757400512695, "Quantum sensing navigation": 0.6701596975326538, "Quantum sensing Position": 0.6730253100395203, "Quantum sensing Timing": 0.6501610279083252, "Quantum sensing": 0.6693713068962097, "Quantum control": 0.6485843062400818 } }, { "id": 5707, "title": "Probing the blue axion with cosmic optical background anisotropies", "abstract": "A radiative decaying big bang relic with a mass ma similar or equal to 5-25 eV, which we dub blue axion, can be probed with direct and indirect observations of the cosmic optical background (COB). The...", "citations": 38, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5714, "doi": "10.1103/PhysRevD.107.083032", "umap_coordinates": { "x": 396.10150146484375, "y": 135.1082000732422, "z": 207.06497192382812 }, "tsne_coordinates": { "x": -32.30928421020508, "y": -6.622073650360107, "z": -21.301342010498047 }, "pca_coordinates": { "x": 2.7326314449310303, "y": 1.0607061386108398, "z": 1.8595473766326904 }, "axis_scores": { "Quantum imaging": 0.7377418279647827, "Quantum Life Science Sensing": 0.7185289859771729, "Quantum sensing Detection": 0.7185500860214233, "Quantum sensing Metrology": 0.7110763788223267, "Quantum sensing navigation": 0.7534378170967102, "Quantum sensing Position": 0.7104520797729492, "Quantum sensing Timing": 0.7101035118103027, "Quantum sensing": 0.7294436693191528, "Quantum control": 0.700378954410553 } }, { "id": 5708, "title": "Single-dose ethanol intoxication causes acute and lasting neuronal changes in the brain", "abstract": "Alcohol intoxication at early ages is a risk factor for the development of addictive behavior. To uncover neuronal molecular correlates of acute ethanol intoxication, we used stable-isotope-labeled mi...", "citations": 23, "author_count": 18, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5715, "doi": "10.1073/pnas.2122477119", "umap_coordinates": { "x": 394.82122802734375, "y": 135.22555541992188, "z": 204.56602478027344 }, "tsne_coordinates": { "x": -1.679276466369629, "y": 24.208768844604492, "z": 9.745577812194824 }, "pca_coordinates": { "x": -1.3424501419067383, "y": -0.1475222110748291, "z": -1.1362035274505615 }, "axis_scores": { "Quantum imaging": 0.6526289582252502, "Quantum Life Science Sensing": 0.6749231815338135, "Quantum sensing Detection": 0.6529035568237305, "Quantum sensing Metrology": 0.6202458739280701, "Quantum sensing navigation": 0.6342148184776306, "Quantum sensing Position": 0.6237608194351196, "Quantum sensing Timing": 0.6178926825523376, "Quantum sensing": 0.6583006978034973, "Quantum control": 0.6368416547775269 } }, { "id": 5709, "title": "Development of MPPC-based detectors for high count rate DT campaigns at JET", "abstract": "The products of fusion reactions at JET are measured using different diagnostic techniques. One of the methods is based on measurements of gamma-rays, originating from reactions between fast ions and ...", "citations": 4, "author_count": 1125, "categories": [ "Nuclear Science & Technology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5716, "doi": "10.1016/j.fusengdes.2017.03.040", "umap_coordinates": { "x": 395.2699890136719, "y": 134.64697265625, "z": 205.37010192871094 }, "tsne_coordinates": { "x": -15.024445533752441, "y": 25.005414962768555, "z": 1.9387422800064087 }, "pca_coordinates": { "x": -3.3541669845581055, "y": 1.8776124715805054, "z": 0.7451228499412537 }, "axis_scores": { "Quantum imaging": 0.6795661449432373, "Quantum Life Science Sensing": 0.6906248331069946, "Quantum sensing Detection": 0.6709706783294678, "Quantum sensing Metrology": 0.6608580946922302, "Quantum sensing navigation": 0.6605787873268127, "Quantum sensing Position": 0.671226978302002, "Quantum sensing Timing": 0.6874744296073914, "Quantum sensing": 0.6668586730957031, "Quantum control": 0.6767923831939697 } }, { "id": 5710, "title": "Robustness of Trion State in Gated Monolayer MoSe2 under Pressure", "abstract": "Quasiparticles consisting of correlated electron(s) and hole(s), such as excitons and trions, play important roles in the optical phenomena of van der Waals semiconductors and serve as unique platform...", "citations": 3, "author_count": 15, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5717, "doi": "10.1021/acs.nanolett.3c02812", "umap_coordinates": { "x": 392.4022216796875, "y": 134.99203491210938, "z": 206.9049835205078 }, "tsne_coordinates": { "x": 13.972597122192383, "y": -10.845145225524902, "z": 11.05433464050293 }, "pca_coordinates": { "x": 0.9110519886016846, "y": -2.205467700958252, "z": -1.5120220184326172 }, "axis_scores": { "Quantum imaging": 0.7255951762199402, "Quantum Life Science Sensing": 0.7566167712211609, "Quantum sensing Detection": 0.727885365486145, "Quantum sensing Metrology": 0.7125837802886963, "Quantum sensing navigation": 0.7205758690834045, "Quantum sensing Position": 0.7126235365867615, "Quantum sensing Timing": 0.7055411338806152, "Quantum sensing": 0.740788996219635, "Quantum control": 0.722745418548584 } }, { "id": 5711, "title": "Tetraphenylethene end-capped diketopyrrolopyrrole fluorogens with AIE and large two-photon absorption cross-sections features and application in bioimaging", "abstract": "In this work, a series of new diketopyrrolopyrrole-based dyes have been synthesized by connecting tetraphenylethene to the diketopyrrolopyrrole core. All the four compounds exhibit good aggregation in...", "citations": 32, "author_count": 11, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5718, "doi": "10.1016/j.dyepig.2016.05.043", "umap_coordinates": { "x": 392.5041198730469, "y": 134.98851013183594, "z": 204.47705078125 }, "tsne_coordinates": { "x": 8.455629348754883, "y": 11.34710693359375, "z": -8.321505546569824 }, "pca_coordinates": { "x": -6.061638832092285, "y": -0.82863450050354, "z": 1.2951691150665283 }, "axis_scores": { "Quantum imaging": 0.7266809940338135, "Quantum Life Science Sensing": 0.6985524296760559, "Quantum sensing Detection": 0.6771121621131897, "Quantum sensing Metrology": 0.655951976776123, "Quantum sensing navigation": 0.6446077823638916, "Quantum sensing Position": 0.6532976031303406, "Quantum sensing Timing": 0.6492149233818054, "Quantum sensing": 0.6846315860748291, "Quantum control": 0.6276629567146301 } }, { "id": 5712, "title": "Photoemission studies of water dissociation on rutile TiO2 (110): Aspects on experimental procedures and the influence of steps", "abstract": "composition of the first water layer on the stoichiometric rutile TiO2 (1 1 0) surface was studied with the use of synchrotron radiation photoelectron spectroscopy. The same H2O-OH balance was reached...", "citations": 12, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5719, "doi": "10.1016/j.apsusc.2014.02.157", "umap_coordinates": { "x": 393.10784912109375, "y": 135.40171813964844, "z": 205.0399169921875 }, "tsne_coordinates": { "x": 21.142742156982422, "y": 12.625300407409668, "z": 0.14530259370803833 }, "pca_coordinates": { "x": -2.500648260116577, "y": -0.221451997756958, "z": -1.4935133457183838 }, "axis_scores": { "Quantum imaging": 0.6848199367523193, "Quantum Life Science Sensing": 0.7295935153961182, "Quantum sensing Detection": 0.6791648864746094, "Quantum sensing Metrology": 0.6608234643936157, "Quantum sensing navigation": 0.6627651453018188, "Quantum sensing Position": 0.6546450853347778, "Quantum sensing Timing": 0.6651383638381958, "Quantum sensing": 0.6933245658874512, "Quantum control": 0.6577004790306091 } }, { "id": 5713, "title": "Single-shot, two-dimensional ballistic imaging through scattering media", "abstract": "Imaging through scattering materials is an important research area that is generally limited to medical diagnostic applications. Published techniques typically use a method of time- or coherence-gatin...", "citations": 80, "author_count": 3, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5720, "doi": "10.1364/AO.43.005100", "umap_coordinates": { "x": 395.032958984375, "y": 133.50167846679688, "z": 206.97055053710938 }, "tsne_coordinates": { "x": -8.3492431640625, "y": 15.469635009765625, "z": -34.6021614074707 }, "pca_coordinates": { "x": -0.4882606267929077, "y": 0.017516374588012695, "z": 3.4442129135131836 }, "axis_scores": { "Quantum imaging": 0.7678794860839844, "Quantum Life Science Sensing": 0.7126541137695312, "Quantum sensing Detection": 0.7366998791694641, "Quantum sensing Metrology": 0.7216849327087402, "Quantum sensing navigation": 0.7293985486030579, "Quantum sensing Position": 0.6743340492248535, "Quantum sensing Timing": 0.6907925009727478, "Quantum sensing": 0.7501242160797119, "Quantum control": 0.7041178941726685 } }, { "id": 5714, "title": "Photofragmentation specificity of photoionized cyclic amino acids (diketopiperazines) as precursors of peptide building blocks", "abstract": "The photoionisation and photofragmentation of the two cyclic dipetides cyclo(alanyl-glycine) cGA and cyclo(glycyl-glycine) cGG, have been studied combining experiments and simulations. State selected ...", "citations": 5, "author_count": 9, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5721, "doi": "10.1039/d3cp00608e", "umap_coordinates": { "x": 392.7388610839844, "y": 136.19241333007812, "z": 204.76382446289062 }, "tsne_coordinates": { "x": 4.535562515258789, "y": 11.114706993103027, "z": 13.31218147277832 }, "pca_coordinates": { "x": -3.5149435997009277, "y": 1.514003872871399, "z": -1.7755954265594482 }, "axis_scores": { "Quantum imaging": 0.6977912783622742, "Quantum Life Science Sensing": 0.7124823927879333, "Quantum sensing Detection": 0.6740596294403076, "Quantum sensing Metrology": 0.6487405896186829, "Quantum sensing navigation": 0.6643846035003662, "Quantum sensing Position": 0.652129054069519, "Quantum sensing Timing": 0.6646302938461304, "Quantum sensing": 0.6833714246749878, "Quantum control": 0.6622328758239746 } }, { "id": 5715, "title": "Measurement of prompt photon production in √sNN=8.16 TeV p Pb collisions with ATLAS", "abstract": "The inclusive production rates of isolated, prompt photons in p Pb collisions at root s(NN) = 8.16 TeV are studied with the ATLAS detector at the Large Hadron Collider using a dataset with an integrat...", "citations": 23, "author_count": 2686, "categories": [ "Astronomy & Astrophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5722, "doi": "10.1016/j.physletb.2019.07.031", "umap_coordinates": { "x": 396.51129150390625, "y": 134.1342010498047, "z": 207.58871459960938 }, "tsne_coordinates": { "x": -31.76611328125, "y": 5.224963665008545, "z": -9.705892562866211 }, "pca_coordinates": { "x": -0.728293776512146, "y": 0.05479717254638672, "z": 4.42081356048584 }, "axis_scores": { "Quantum imaging": 0.7129674553871155, "Quantum Life Science Sensing": 0.7127239108085632, "Quantum sensing Detection": 0.7399654388427734, "Quantum sensing Metrology": 0.7086005806922913, "Quantum sensing navigation": 0.7211588025093079, "Quantum sensing Position": 0.7288967370986938, "Quantum sensing Timing": 0.7333202362060547, "Quantum sensing": 0.7285375595092773, "Quantum control": 0.6615673899650574 } }, { "id": 5716, "title": "Novel postetch process to realize high quality photonic crystals in InP", "abstract": "Thermally driven reflow of material during annealing was positively used to obtain near-vertical sidewall profiles for high-aspect-ratio nanostructures in InP fabricated by dry etching. This is very p...", "citations": 10, "author_count": 6, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5723, "doi": "10.1116/1.3574760", "umap_coordinates": { "x": 394.02691650390625, "y": 133.53184509277344, "z": 206.69178771972656 }, "tsne_coordinates": { "x": -0.9987574219703674, "y": 4.231285572052002, "z": -31.461071014404297 }, "pca_coordinates": { "x": -0.6864346265792847, "y": -1.3137803077697754, "z": 2.138192892074585 }, "axis_scores": { "Quantum imaging": 0.7469183206558228, "Quantum Life Science Sensing": 0.7136314511299133, "Quantum sensing Detection": 0.727729082107544, "Quantum sensing Metrology": 0.731024980545044, "Quantum sensing navigation": 0.7143492698669434, "Quantum sensing Position": 0.7037374973297119, "Quantum sensing Timing": 0.7183784246444702, "Quantum sensing": 0.7379803657531738, "Quantum control": 0.7197707891464233 } }, { "id": 5717, "title": "Mixed quantum-classical scattering dynamics of CF3Br", "abstract": "The vibrational excitation of CF3Br scattering from graphite has been studied using mixed quantum-classical methods. A previously investigated 2D model for the intramolecular degrees of freedom [Back,...", "citations": 3, "author_count": 3, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5724, "doi": "10.1021/jp049138k", "umap_coordinates": { "x": 393.32720947265625, "y": 137.54714965820312, "z": 206.4639434814453 }, "tsne_coordinates": { "x": -10.660722732543945, "y": 1.2045271396636963, "z": 25.856441497802734 }, "pca_coordinates": { "x": 2.173447608947754, "y": 1.2124278545379639, "z": -3.207080364227295 }, "axis_scores": { "Quantum imaging": 0.7328553795814514, "Quantum Life Science Sensing": 0.7449667453765869, "Quantum sensing Detection": 0.7278329133987427, "Quantum sensing Metrology": 0.7026749849319458, "Quantum sensing navigation": 0.7215491533279419, "Quantum sensing Position": 0.6970534920692444, "Quantum sensing Timing": 0.683353841304779, "Quantum sensing": 0.7426127791404724, "Quantum control": 0.7252284288406372 } }, { "id": 5718, "title": "Tilted Dirac superconductor at quantum criticality: restoration of Lorentz symmetry", "abstract": "Lorentz symmetry appears as a quite robust feature of the strongly interacting Dirac materials even though the lattice interactions break such a symmetry. We here demonstrate that the Lorentz symmetry...", "citations": 4, "author_count": 3, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5725, "doi": "10.1007/JHEP02(2024)181", "umap_coordinates": { "x": 396.22198486328125, "y": 135.2397918701172, "z": 206.97998046875 }, "tsne_coordinates": { "x": -41.101871490478516, "y": 10.99593448638916, "z": -2.120701551437378 }, "pca_coordinates": { "x": 1.3463490009307861, "y": 1.2360626459121704, "z": -0.9716510772705078 }, "axis_scores": { "Quantum imaging": 0.6902262568473816, "Quantum Life Science Sensing": 0.6908741593360901, "Quantum sensing Detection": 0.668440580368042, "Quantum sensing Metrology": 0.6721881628036499, "Quantum sensing navigation": 0.7003503441810608, "Quantum sensing Position": 0.7089276313781738, "Quantum sensing Timing": 0.6856985688209534, "Quantum sensing": 0.6825918555259705, "Quantum control": 0.6918925046920776 } }, { "id": 5719, "title": "Self-injection-locked optical parametric oscillator based on microcombs", "abstract": "Narrow-linewidth yet tunable laser oscillators are one of the most important tools for precision metrology, optical atomic clocks, sensing, and quantum computing. Commonly used tunable coherent oscill...", "citations": 6, "author_count": 9, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5726, "doi": "10.1364/OPTICA.509239", "umap_coordinates": { "x": 394.4000549316406, "y": 134.3397979736328, "z": 206.8509979248047 }, "tsne_coordinates": { "x": -3.709739923477173, "y": -8.673608779907227, "z": -33.39517593383789 }, "pca_coordinates": { "x": 0.38634562492370605, "y": 0.2731175422668457, "z": 1.5991625785827637 }, "axis_scores": { "Quantum imaging": 0.7315629124641418, "Quantum Life Science Sensing": 0.7149915099143982, "Quantum sensing Detection": 0.7248605489730835, "Quantum sensing Metrology": 0.7167267203330994, "Quantum sensing navigation": 0.7305437922477722, "Quantum sensing Position": 0.7028838992118835, "Quantum sensing Timing": 0.6952959299087524, "Quantum sensing": 0.7324777245521545, "Quantum control": 0.7194912433624268 } }, { "id": 5720, "title": "Large-energy-shift photon upconversion in degenerately doped InP nanowires by direct excitation into the electron gas", "abstract": "Realizing photon upconversion in nanostructures is important for many next-generation applications such as biological labelling, infrared detectors and solar cells. In particular nanowires are attract...", "citations": 6, "author_count": 9, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5727, "doi": "10.1007/s12274-013-0353-3", "umap_coordinates": { "x": 392.7803649902344, "y": 134.15545654296875, "z": 207.4685821533203 }, "tsne_coordinates": { "x": 14.826960563659668, "y": -11.129565238952637, "z": 1.784184455871582 }, "pca_coordinates": { "x": -1.0942583084106445, "y": -4.098158836364746, "z": 2.226083993911743 }, "axis_scores": { "Quantum imaging": 0.6882739067077637, "Quantum Life Science Sensing": 0.6738749146461487, "Quantum sensing Detection": 0.6842116117477417, "Quantum sensing Metrology": 0.6604957580566406, "Quantum sensing navigation": 0.6809906363487244, "Quantum sensing Position": 0.6663845777511597, "Quantum sensing Timing": 0.6422716379165649, "Quantum sensing": 0.6877757906913757, "Quantum control": 0.659092366695404 } }, { "id": 5721, "title": "A design analysis of a GaInP/GaInAs/GaAs-based 980 nm Al-free pump laser using self-consistent numerical simulation", "abstract": "A theoretical design evaluation of a GaAs/GaInAs/GaInP-based 980 nm pump laser is presented. Using self-consistent two-dimensional numerical simulation, the layer structure of the laser diodes is opti...", "citations": 4, "author_count": 3, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 5728, "doi": "10.1088/0268-1242/16/10/311", "umap_coordinates": { "x": 394.6832275390625, "y": 134.55564880371094, "z": 206.7244873046875 }, "tsne_coordinates": { "x": -3.680922508239746, "y": 2.6035399436950684, "z": -23.51882553100586 }, "pca_coordinates": { "x": -0.7770548462867737, "y": 0.5809305906295776, "z": 1.611337423324585 }, "axis_scores": { "Quantum imaging": 0.671643078327179, "Quantum Life Science Sensing": 0.685258150100708, "Quantum sensing Detection": 0.6676563024520874, "Quantum sensing Metrology": 0.6665208339691162, "Quantum sensing navigation": 0.6839652061462402, "Quantum sensing Position": 0.6684201955795288, "Quantum sensing Timing": 0.6649960875511169, "Quantum sensing": 0.6770774722099304, "Quantum control": 0.6725946068763733 } }, { "id": 5722, "title": "Comparison of spatially and temporally resolved diffuse-reflectance measurement systems for determination of biomedical optical properties", "abstract": "Time-resolved and spatially resolved measurements of the diffuse reflectance from biological tissue are two well-established techniques for extracting the reduced scattering and absorption coefficient...", "citations": 112, "author_count": 4, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5729, "doi": "10.1364/AO.42.004612", "umap_coordinates": { "x": 394.5885009765625, "y": 134.02288818359375, "z": 205.03317260742188 }, "tsne_coordinates": { "x": 0.8984214067459106, "y": 28.040403366088867, "z": -31.80581283569336 }, "pca_coordinates": { "x": -3.591973304748535, "y": 1.5505225658416748, "z": 1.4195325374603271 }, "axis_scores": { "Quantum imaging": 0.7184712886810303, "Quantum Life Science Sensing": 0.7267805337905884, "Quantum sensing Detection": 0.6941869854927063, "Quantum sensing Metrology": 0.7118192315101624, "Quantum sensing navigation": 0.6898037791252136, "Quantum sensing Position": 0.7051994800567627, "Quantum sensing Timing": 0.717402994632721, "Quantum sensing": 0.7163238525390625, "Quantum control": 0.6568723320960999 } }, { "id": 5723, "title": "Experimental and theoretical confirmation of an orthorhombic phase transition in niobium at high pressure and temperature", "abstract": "Compared to other body-centered cubic (bcc) transition metals, Nb has been the subject of fewer compression studies and there are still aspects of its phase diagram which are unclear. Here, we report ...", "citations": 61, "author_count": 12, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5730, "doi": "10.1038/s43246-020-00058-2", "umap_coordinates": { "x": 392.6826171875, "y": 136.1376953125, "z": 207.79818725585938 }, "tsne_coordinates": { "x": 4.100445747375488, "y": -25.363922119140625, "z": 34.546958923339844 }, "pca_coordinates": { "x": 0.8633756637573242, "y": 0.2919321060180664, "z": -0.8922893404960632 }, "axis_scores": { "Quantum imaging": 0.6957305073738098, "Quantum Life Science Sensing": 0.7006949782371521, "Quantum sensing Detection": 0.6819646954536438, "Quantum sensing Metrology": 0.6939857602119446, "Quantum sensing navigation": 0.7011150121688843, "Quantum sensing Position": 0.6979126334190369, "Quantum sensing Timing": 0.6848582029342651, "Quantum sensing": 0.6934401988983154, "Quantum control": 0.6705984473228455 } }, { "id": 5724, "title": "Measurements of integrated and differential cross sections for isolated photon pair production in pp collisions at √s=8 TeV with the ATLAS detector", "abstract": "A measurement of the production cross section for two isolated photons in proton-proton collisions at a center-of-mass energy of root s = 8 TeV is presented. The results are based on an integrated lum...", "citations": 11, "author_count": 2664, "categories": [ "Astronomy & Astrophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5731, "doi": "10.1103/PhysRevD.95.112005", "umap_coordinates": { "x": 396.8052673339844, "y": 134.37106323242188, "z": 207.9200897216797 }, "tsne_coordinates": { "x": -33.242820739746094, "y": 9.022385597229004, "z": -13.433667182922363 }, "pca_coordinates": { "x": 1.8491883277893066, "y": -0.8885502815246582, "z": 3.796694278717041 }, "axis_scores": { "Quantum imaging": 0.6805733442306519, "Quantum Life Science Sensing": 0.6827777624130249, "Quantum sensing Detection": 0.692281186580658, "Quantum sensing Metrology": 0.6687161922454834, "Quantum sensing navigation": 0.6632505059242249, "Quantum sensing Position": 0.6591948866844177, "Quantum sensing Timing": 0.6674764752388, "Quantum sensing": 0.6888494491577148, "Quantum control": 0.6370759010314941 } }, { "id": 5725, "title": "INFLUENCE OF LONG-RANGE COULOMB INTERACTION ON THE METAL-INSULATOR-TRANSITION IN ONE-DIMENSIONAL STRONGLY CORRELATED ELECTRON-SYSTEMS", "abstract": "We study the influence of long-range Coulomb interactions on the properties of one-dimensional (1D) strongly correlated electron systems in the vicinity of the metal-insulator Mott-Hubbard phase trans...", "citations": 7, "author_count": 5, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5732, "doi": "10.1103/PhysRevB.52.10865", "umap_coordinates": { "x": 394.6653747558594, "y": 135.92233276367188, "z": 209.0690460205078 }, "tsne_coordinates": { "x": -7.551573276519775, "y": -41.90412521362305, "z": -2.043038845062256 }, "pca_coordinates": { "x": 4.075068473815918, "y": -1.051213264465332, "z": -0.6240320801734924 }, "axis_scores": { "Quantum imaging": 0.7022682428359985, "Quantum Life Science Sensing": 0.705876886844635, "Quantum sensing Detection": 0.7019544243812561, "Quantum sensing Metrology": 0.677234947681427, "Quantum sensing navigation": 0.6952818632125854, "Quantum sensing Position": 0.6750890612602234, "Quantum sensing Timing": 0.6779612898826599, "Quantum sensing": 0.709896981716156, "Quantum control": 0.6855261325836182 } }, { "id": 5726, "title": "Influence of the average Se-to-metal overpressure during co-evaporation of Cu(InxGa1-x)Se2", "abstract": "The influence of the average Se-to-metal overpressure during three-stage co-evaporation of Cu(InxGa1-x)Se-2 solar absorber layers has been investigated. Solar cell devices were fabricated using a base...", "citations": 16, "author_count": 6, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5733, "doi": "10.1016/j.tsf.2010.12.182", "umap_coordinates": { "x": 393.1307678222656, "y": 133.5740203857422, "z": 205.909423828125 }, "tsne_coordinates": { "x": 37.068424224853516, "y": 11.200835227966309, "z": -0.04624470695853233 }, "pca_coordinates": { "x": -1.5348167419433594, "y": -0.5539379119873047, "z": -1.6179523468017578 }, "axis_scores": { "Quantum imaging": 0.6469536423683167, "Quantum Life Science Sensing": 0.656505286693573, "Quantum sensing Detection": 0.6475302577018738, "Quantum sensing Metrology": 0.6515201330184937, "Quantum sensing navigation": 0.6376473307609558, "Quantum sensing Position": 0.655251681804657, "Quantum sensing Timing": 0.6622994542121887, "Quantum sensing": 0.6609947681427002, "Quantum control": 0.6670190691947937 } }, { "id": 5727, "title": "Unveiling the AGN in IC 883: discovery of a parsec-scale radio jet", "abstract": "IC 883 is a luminous infrared galaxy (LIRG) classified as a starburst- active galactic nucleus (AGN) composite. In a previous study, we detected a low- luminosity AGN (LLAGN) radio candidate. Here, we...", "citations": 10, "author_count": 16, "categories": [ "Astronomy & Astrophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5734, "doi": "10.1093/mnras/stx224", "umap_coordinates": { "x": 396.36163330078125, "y": 135.4728546142578, "z": 205.772216796875 }, "tsne_coordinates": { "x": -32.03269958496094, "y": 27.89497184753418, "z": 5.179885387420654 }, "pca_coordinates": { "x": -0.20477420091629028, "y": 3.314566135406494, "z": 0.6018871665000916 }, "axis_scores": { "Quantum imaging": 0.6624448299407959, "Quantum Life Science Sensing": 0.6578586101531982, "Quantum sensing Detection": 0.6574819087982178, "Quantum sensing Metrology": 0.6628986597061157, "Quantum sensing navigation": 0.6928701400756836, "Quantum sensing Position": 0.6537958979606628, "Quantum sensing Timing": 0.6416429281234741, "Quantum sensing": 0.6637324094772339, "Quantum control": 0.625116229057312 } }, { "id": 5728, "title": "An end-to-end calibration of the Mini-EUSO detector in space", "abstract": "Mini-EUSO is a wide Field-of-View (44 degrees x44 degrees) telescope currently in operation from a nadir-facing Ultra-Violet (UV) transparent window in the Russian Zvezda module on the International S...", "citations": 1, "author_count": 56, "categories": [ "Astronomy & Astrophysics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5735, "doi": "10.1016/j.astropartphys.2024.103057", "umap_coordinates": { "x": 396.08477783203125, "y": 134.2921905517578, "z": 206.22210693359375 }, "tsne_coordinates": { "x": -21.58111000061035, "y": 26.481124877929688, "z": 0.5235283970832825 }, "pca_coordinates": { "x": -1.4966970682144165, "y": 2.4957869052886963, "z": 1.8303604125976562 }, "axis_scores": { "Quantum imaging": 0.6902021765708923, "Quantum Life Science Sensing": 0.7378488183021545, "Quantum sensing Detection": 0.7025258541107178, "Quantum sensing Metrology": 0.7241047620773315, "Quantum sensing navigation": 0.7229174971580505, "Quantum sensing Position": 0.725612461566925, "Quantum sensing Timing": 0.712283730506897, "Quantum sensing": 0.7060574293136597, "Quantum control": 0.6708730459213257 } }, { "id": 5729, "title": "2 FUNCTIONALLY DISTINCT FORMS OF THE PHOTOSYSTEM-II REACTION-CENTER PROTEIN D1 IN THE CYANOBACTERIUM SYNECHOCOCCUS SP PCC 7942", "abstract": "The cyanobacterium Synechococcus sp. PCC 7942 possesses a small psbA multigene family that codes for two distinct forms of the photosystem II reaction-center protein D1 (D1:1 and D1:2). We showed prev...", "citations": 79, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5736, "doi": "10.1073/pnas.90.24.11985", "umap_coordinates": { "x": 393.5108337402344, "y": 136.71693420410156, "z": 204.1992950439453 }, "tsne_coordinates": { "x": 2.061091899871826, "y": 24.849102020263672, "z": 12.848384857177734 }, "pca_coordinates": { "x": -1.2902003526687622, "y": 0.1976613998413086, "z": -1.1015138626098633 }, "axis_scores": { "Quantum imaging": 0.6860162019729614, "Quantum Life Science Sensing": 0.7159566283226013, "Quantum sensing Detection": 0.6993781924247742, "Quantum sensing Metrology": 0.6788749694824219, "Quantum sensing navigation": 0.6703461408615112, "Quantum sensing Position": 0.6569617986679077, "Quantum sensing Timing": 0.6849429607391357, "Quantum sensing": 0.6997023820877075, "Quantum control": 0.6712393760681152 } }, { "id": 5730, "title": "Actin-based molecular motors for cargo transportation in nanotechnology - Potentials and challenges", "abstract": "Here, we review the use of actin-based motors, (myosins; e.g., the molecular motor of muscle) in. nanotechnology. The review starts from the viewpoints of the molecular motors as being important devic...", "citations": 53, "author_count": 10, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5737, "doi": "10.1109/TADVP.2005.858309", "umap_coordinates": { "x": 393.9181213378906, "y": 134.70108032226562, "z": 205.92958068847656 }, "tsne_coordinates": { "x": -1.8969366550445557, "y": 30.097610473632812, "z": 22.72595977783203 }, "pca_coordinates": { "x": -1.2491625547409058, "y": -0.37386512756347656, "z": -0.08993953466415405 }, "axis_scores": { "Quantum imaging": 0.6826555132865906, "Quantum Life Science Sensing": 0.6857312917709351, "Quantum sensing Detection": 0.6701971888542175, "Quantum sensing Metrology": 0.6562178134918213, "Quantum sensing navigation": 0.6997590661048889, "Quantum sensing Position": 0.6585822105407715, "Quantum sensing Timing": 0.6654677987098694, "Quantum sensing": 0.6735400557518005, "Quantum control": 0.6769579648971558 } }, { "id": 5731, "title": "Wetting critical behavior in the quantum Ising model within the framework of Lindblad dissipative dynamics", "abstract": "We investigate the critical behavior, both in space and time, of the wetting interface within the coexistence region around the first-order phase transition of a fully connected quantum Ising model in...", "citations": 3, "author_count": 4, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5738, "doi": "10.1103/PhysRevB.107.104201", "umap_coordinates": { "x": 394.5141296386719, "y": 136.84524536132812, "z": 208.7609405517578 }, "tsne_coordinates": { "x": -9.025544166564941, "y": -28.165830612182617, "z": 10.170551300048828 }, "pca_coordinates": { "x": 4.750679016113281, "y": -0.43765783309936523, "z": -1.5167222023010254 }, "axis_scores": { "Quantum imaging": 0.7217022180557251, "Quantum Life Science Sensing": 0.7366688251495361, "Quantum sensing Detection": 0.7188922762870789, "Quantum sensing Metrology": 0.6980604529380798, "Quantum sensing navigation": 0.7336922287940979, "Quantum sensing Position": 0.692489504814148, "Quantum sensing Timing": 0.7060508728027344, "Quantum sensing": 0.7304614782333374, "Quantum control": 0.7161391973495483 } }, { "id": 5732, "title": "Monolayer CrCl3 as an Ideal Test Bed for the Universality Classes of 2D Magnetism", "abstract": "The monolayer halides CrX3 (X = Cl, Br, I) attract significant attention for realizing 2D magnets with genuine long-range order (LRO), challenging the Mermin-Wagner theorem. Here, we show that monolay...", "citations": 33, "author_count": 7, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5739, "doi": "10.1103/PhysRevLett.127.037204", "umap_coordinates": { "x": 393.5521545410156, "y": 136.92080688476562, "z": 208.40463256835938 }, "tsne_coordinates": { "x": -6.888068199157715, "y": -29.142040252685547, "z": 20.307458877563477 }, "pca_coordinates": { "x": 1.4823627471923828, "y": 0.8455549478530884, "z": -3.0760931968688965 }, "axis_scores": { "Quantum imaging": 0.6827980279922485, "Quantum Life Science Sensing": 0.72012859582901, "Quantum sensing Detection": 0.6792818307876587, "Quantum sensing Metrology": 0.6858586072921753, "Quantum sensing navigation": 0.6664485335350037, "Quantum sensing Position": 0.6440373659133911, "Quantum sensing Timing": 0.6456548571586609, "Quantum sensing": 0.690109372138977, "Quantum control": 0.6713644862174988 } }, { "id": 5733, "title": "Transition from classical to quantum loss of light coherence", "abstract": "Light is a precious tool to probe matter, as it captures microscopic and macroscopic information on the system. However, the measurement will be limited by the coherence of the light, both spatial and...", "citations": 10, "author_count": 11, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5740, "doi": "10.1103/PhysRevA.108.042214", "umap_coordinates": { "x": 395.32696533203125, "y": 137.01251220703125, "z": 207.59385681152344 }, "tsne_coordinates": { "x": -21.454666137695312, "y": -23.217971801757812, "z": 5.8085503578186035 }, "pca_coordinates": { "x": 4.817101001739502, "y": 1.5662288665771484, "z": -0.7074073553085327 }, "axis_scores": { "Quantum imaging": 0.7666304707527161, "Quantum Life Science Sensing": 0.7839924693107605, "Quantum sensing Detection": 0.7721438407897949, "Quantum sensing Metrology": 0.737485408782959, "Quantum sensing navigation": 0.7513601779937744, "Quantum sensing Position": 0.7238303422927856, "Quantum sensing Timing": 0.7215984463691711, "Quantum sensing": 0.777895450592041, "Quantum control": 0.7590038776397705 } }, { "id": 5734, "title": "Experimental extraction of nonlocal weak values for demonstrating the failure of a product rule", "abstract": "We experimentally demonstrate an alternative method for measuring nonlocal weak values in linear optics, avoiding the use of second-order interaction. The method is based on the concept of modular val...", "citations": 1, "author_count": 11, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5741, "doi": "10.1364/OL.375448", "umap_coordinates": { "x": 395.94500732421875, "y": 137.04298400878906, "z": 207.01431274414062 }, "tsne_coordinates": { "x": -24.31744384765625, "y": -3.5780627727508545, "z": 6.597519874572754 }, "pca_coordinates": { "x": -0.1929391622543335, "y": 4.095081806182861, "z": 0.25602251291275024 }, "axis_scores": { "Quantum imaging": 0.6819786429405212, "Quantum Life Science Sensing": 0.6955118775367737, "Quantum sensing Detection": 0.7072906494140625, "Quantum sensing Metrology": 0.6941210627555847, "Quantum sensing navigation": 0.6840025186538696, "Quantum sensing Position": 0.6848838925361633, "Quantum sensing Timing": 0.6532400250434875, "Quantum sensing": 0.7101287841796875, "Quantum control": 0.6775937080383301 } }, { "id": 5735, "title": "Optical non-invasive technique for vessel imaging: II. A simplified photon diffusion analysis", "abstract": "The purpose of this paper is to explain theoretically the origin of previously presented experimental results by an optical non-invasive method using NIR for imaging blood vessels based on a specific ...", "citations": 18, "author_count": 4, "categories": [ "Engineering" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5742, "doi": "10.1088/0031-9155/45/12/319", "umap_coordinates": { "x": 395.297607421875, "y": 134.25816345214844, "z": 204.9473876953125 }, "tsne_coordinates": { "x": 0.312529593706131, "y": 26.501632690429688, "z": -1.459941029548645 }, "pca_coordinates": { "x": -2.7888283729553223, "y": 3.55912709236145, "z": 1.906571865081787 }, "axis_scores": { "Quantum imaging": 0.719560444355011, "Quantum Life Science Sensing": 0.6862016320228577, "Quantum sensing Detection": 0.6745409965515137, "Quantum sensing Metrology": 0.6553816795349121, "Quantum sensing navigation": 0.6788592338562012, "Quantum sensing Position": 0.6410578489303589, "Quantum sensing Timing": 0.6231892108917236, "Quantum sensing": 0.6764500141143799, "Quantum control": 0.6471686959266663 } }, { "id": 5736, "title": "Widely tunable narrow linewidth laser source based on photonic molecule microcombs and optical injection locking", "abstract": "We demonstrate a method to generate a widely and arbitrarily tunable laser source with very narrow linewidth. By seeding a coupled-cavity microcomb with a highly coherent single-frequency laser and us...", "citations": 4, "author_count": 6, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5743, "doi": "10.1364/OE.457937", "umap_coordinates": { "x": 394.21160888671875, "y": 134.01170349121094, "z": 206.83912658691406 }, "tsne_coordinates": { "x": -3.7518844604492188, "y": -9.04715633392334, "z": -33.29452896118164 }, "pca_coordinates": { "x": -0.43274974822998047, "y": -1.4220752716064453, "z": 1.513582468032837 }, "axis_scores": { "Quantum imaging": 0.7313099503517151, "Quantum Life Science Sensing": 0.7124500870704651, "Quantum sensing Detection": 0.718515932559967, "Quantum sensing Metrology": 0.7175208330154419, "Quantum sensing navigation": 0.7203235030174255, "Quantum sensing Position": 0.6949009895324707, "Quantum sensing Timing": 0.7058407068252563, "Quantum sensing": 0.732686460018158, "Quantum control": 0.7212390899658203 } }, { "id": 5737, "title": "Authority-based user authentication in quantum key distribution - art. no. 022305", "abstract": "We propose secure protocols for user authenticated quantum key distribution on jammable public channels between two parties, Alice and Bob. Via an arbitrator, Trent, these protocols provide data integ...", "citations": 100, "author_count": 4, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5744, "doi": "10.1103/PhysRevA.62.022305", "umap_coordinates": { "x": 395.54876708984375, "y": 136.2727813720703, "z": 208.288818359375 }, "tsne_coordinates": { "x": -24.00832176208496, "y": -13.880264282226562, "z": 3.843719720840454 }, "pca_coordinates": { "x": 4.450783729553223, "y": 0.1764829158782959, "z": -0.7581535577774048 }, "axis_scores": { "Quantum imaging": 0.7238055467605591, "Quantum Life Science Sensing": 0.7280744314193726, "Quantum sensing Detection": 0.7278280854225159, "Quantum sensing Metrology": 0.7153730392456055, "Quantum sensing navigation": 0.7478389143943787, "Quantum sensing Position": 0.7352930903434753, "Quantum sensing Timing": 0.6937587261199951, "Quantum sensing": 0.7423398494720459, "Quantum control": 0.7477385997772217 } }, { "id": 5738, "title": "Charging ultrasmall tunnel junctions in an electromagnetic environment", "abstract": "We have investigated the quantum admittance of an ultrasmall tunnel junction with arbitrary tunneling strength under an electromagnetic environment. Using the functional-integral approach a close anal...", "citations": 11, "author_count": 3, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5745, "doi": "10.1103/PhysRevB.56.12404", "umap_coordinates": { "x": 394.4069519042969, "y": 135.86537170410156, "z": 208.7025909423828 }, "tsne_coordinates": { "x": -12.038480758666992, "y": -29.31955909729004, "z": 6.715276718139648 }, "pca_coordinates": { "x": 3.9718613624572754, "y": -1.2826776504516602, "z": -0.5564767718315125 }, "axis_scores": { "Quantum imaging": 0.7228944301605225, "Quantum Life Science Sensing": 0.7523786425590515, "Quantum sensing Detection": 0.7216404676437378, "Quantum sensing Metrology": 0.705252468585968, "Quantum sensing navigation": 0.7381173372268677, "Quantum sensing Position": 0.7075440883636475, "Quantum sensing Timing": 0.7106539011001587, "Quantum sensing": 0.732683539390564, "Quantum control": 0.7060120701789856 } }, { "id": 5739, "title": "Methane emission and sulfide levels increase in tropical seagrass sediments during temperature stress: A mesocosm experiment", "abstract": "Climate change-induced ocean warming is expected to greatly affect carbon dynamics and sequestration in vegetated shallow waters, especially in the upper subtidal where water temperatures may fluctuat...", "citations": 26, "author_count": 6, "categories": [ "Environmental Sciences & Ecology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5746, "doi": "10.1002/ece3.6009", "umap_coordinates": { "x": 393.93548583984375, "y": 135.59463500976562, "z": 204.03042602539062 }, "tsne_coordinates": { "x": 16.38846206665039, "y": 29.732229232788086, "z": 20.32709312438965 }, "pca_coordinates": { "x": -1.9342678785324097, "y": 1.0666117668151855, "z": -2.7527732849121094 }, "axis_scores": { "Quantum imaging": 0.6458837985992432, "Quantum Life Science Sensing": 0.6970357894897461, "Quantum sensing Detection": 0.658012866973877, "Quantum sensing Metrology": 0.6693828105926514, "Quantum sensing navigation": 0.6616126894950867, "Quantum sensing Position": 0.6536424160003662, "Quantum sensing Timing": 0.6614689230918884, "Quantum sensing": 0.6697773337364197, "Quantum control": 0.648802638053894 } }, { "id": 5740, "title": "Classical limit of higher-spin string amplitudes", "abstract": "It has been shown that a special set of three-point amplitudes between two massive spinning states and a graviton reproduces the linearised stress-energy tensor for a Kerr black hole in the classical ...", "citations": 34, "author_count": 3, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5747, "doi": "10.1007/JHEP06(2023)167", "umap_coordinates": { "x": 396.39794921875, "y": 135.7141571044922, "z": 207.103759765625 }, "tsne_coordinates": { "x": -38.576236724853516, "y": 12.63852310180664, "z": 1.3390429019927979 }, "pca_coordinates": { "x": 2.435471534729004, "y": 2.0635464191436768, "z": -1.0495903491973877 }, "axis_scores": { "Quantum imaging": 0.6805899143218994, "Quantum Life Science Sensing": 0.7061553001403809, "Quantum sensing Detection": 0.6790939569473267, "Quantum sensing Metrology": 0.6561911106109619, "Quantum sensing navigation": 0.6790882349014282, "Quantum sensing Position": 0.6902105808258057, "Quantum sensing Timing": 0.6679491400718689, "Quantum sensing": 0.6849765181541443, "Quantum control": 0.671536922454834 } }, { "id": 5741, "title": "Acceleration of Monte Carlo-based scatter compensation for cardiac SPECT", "abstract": "Single proton emission computed tomography (SPECT) images are degraded by photon scatter making scatter compensation essential for accurate reconstruction. Reconstruction-based scatter compensation wi...", "citations": 47, "author_count": 4, "categories": [ "Engineering" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5748, "doi": "10.1088/0031-9155/53/14/N02", "umap_coordinates": { "x": 396.0688171386719, "y": 133.1437530517578, "z": 205.07032775878906 }, "tsne_coordinates": { "x": -12.252572059631348, "y": 30.264131546020508, "z": -14.891778945922852 }, "pca_coordinates": { "x": -1.445315957069397, "y": 4.570816516876221, "z": 3.1215834617614746 }, "axis_scores": { "Quantum imaging": 0.6704657673835754, "Quantum Life Science Sensing": 0.6280387043952942, "Quantum sensing Detection": 0.6302458643913269, "Quantum sensing Metrology": 0.6323620080947876, "Quantum sensing navigation": 0.6669219732284546, "Quantum sensing Position": 0.6501301527023315, "Quantum sensing Timing": 0.6745133399963379, "Quantum sensing": 0.635248601436615, "Quantum control": 0.6235110759735107 } }, { "id": 5742, "title": "Surface morphology and localised states of GaInNAs single quantum wells grown by MOVPE", "abstract": "GaInNAs/GaAs single quantum wells (QWs) have been grown by metalorganic vapour phase epitaxy (MOVPE). The surface morphology has been studied by atomic force microscopy (AFM). The density of pits obse...", "citations": 1, "author_count": 5, "categories": [ "Crystallography" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5749, "doi": "10.1016/S0022-0248(02)01936-X", "umap_coordinates": { "x": 392.64324951171875, "y": 134.16851806640625, "z": 207.2537841796875 }, "tsne_coordinates": { "x": 30.4605770111084, "y": -6.188259601593018, "z": 7.005904197692871 }, "pca_coordinates": { "x": -1.5358927249908447, "y": -2.542233943939209, "z": -0.13734543323516846 }, "axis_scores": { "Quantum imaging": 0.6996979713439941, "Quantum Life Science Sensing": 0.7160760164260864, "Quantum sensing Detection": 0.696662187576294, "Quantum sensing Metrology": 0.7121185660362244, "Quantum sensing navigation": 0.7013005018234253, "Quantum sensing Position": 0.7175524830818176, "Quantum sensing Timing": 0.6502892374992371, "Quantum sensing": 0.7134765386581421, "Quantum control": 0.6720377802848816 } }, { "id": 5743, "title": "Gadolinium-based bimodal probes to enhance T1-Weighted magnetic resonance/optical imaging", "abstract": "Gd3+-based contrast agents have been extensively used for signal enhancement of T-1-weighted magnetic resonance imaging (MRI) due to the large magnetic moment and long electron spin relaxation time of...", "citations": 43, "author_count": 14, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5750, "doi": "10.1016/j.actbio.2020.03.047", "umap_coordinates": { "x": 393.9268493652344, "y": 133.75640869140625, "z": 204.43043518066406 }, "tsne_coordinates": { "x": 11.194705963134766, "y": 18.417898178100586, "z": -12.457398414611816 }, "pca_coordinates": { "x": -4.54859733581543, "y": 0.5488841533660889, "z": -0.6000213623046875 }, "axis_scores": { "Quantum imaging": 0.7271410226821899, "Quantum Life Science Sensing": 0.6967341899871826, "Quantum sensing Detection": 0.6907865405082703, "Quantum sensing Metrology": 0.693047821521759, "Quantum sensing navigation": 0.6921308636665344, "Quantum sensing Position": 0.6711129546165466, "Quantum sensing Timing": 0.6713805198669434, "Quantum sensing": 0.705005407333374, "Quantum control": 0.690800666809082 } }, { "id": 5744, "title": "1,2-Dichloroethane in Haloalkane Dehalogenase Protein and in Water Solvent: A Case Study of the Confinement Effect on Structural and Dynamical Properties", "abstract": "The structural and dynamical properties of an individual molecule is much affected by changes in a surrounding solvent or protein environment. The focus of the present study is to investigate such cha...", "citations": 8, "author_count": 3, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5751, "doi": "10.1021/jp808647c", "umap_coordinates": { "x": 393.1396789550781, "y": 136.34771728515625, "z": 205.41976928710938 }, "tsne_coordinates": { "x": 11.988094329833984, "y": 14.067793846130371, "z": 13.27664566040039 }, "pca_coordinates": { "x": -1.2411333322525024, "y": 0.34546709060668945, "z": -4.129927158355713 }, "axis_scores": { "Quantum imaging": 0.7065362930297852, "Quantum Life Science Sensing": 0.7414066791534424, "Quantum sensing Detection": 0.685234010219574, "Quantum sensing Metrology": 0.6699537038803101, "Quantum sensing navigation": 0.6909733414649963, "Quantum sensing Position": 0.6620235443115234, "Quantum sensing Timing": 0.6438010334968567, "Quantum sensing": 0.7028788924217224, "Quantum control": 0.7092076539993286 } }, { "id": 5745, "title": "High-gain harmonic generation with temporally overlapping seed pulses and application to ultrafast spectroscopy", "abstract": "Collinear double-pulse seeding of the High-Gain Harmonic Generation (HGHG) process in a free-electron laser (FEL) is a promising approach to facilitate various coherent nonlinear spectroscopy schemes ...", "citations": 7, "author_count": 26, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5752, "doi": "10.1364/OE.401249", "umap_coordinates": { "x": 394.8166809082031, "y": 135.0165252685547, "z": 206.2471466064453 }, "tsne_coordinates": { "x": -20.673301696777344, "y": -7.375168323516846, "z": -17.850231170654297 }, "pca_coordinates": { "x": -0.5010649561882019, "y": 0.5119987726211548, "z": 1.7553637027740479 }, "axis_scores": { "Quantum imaging": 0.6971856355667114, "Quantum Life Science Sensing": 0.6829532384872437, "Quantum sensing Detection": 0.6755194067955017, "Quantum sensing Metrology": 0.6733593940734863, "Quantum sensing navigation": 0.6627144813537598, "Quantum sensing Position": 0.66094970703125, "Quantum sensing Timing": 0.7132573127746582, "Quantum sensing": 0.683008074760437, "Quantum control": 0.6566359400749207 } }, { "id": 5746, "title": "Diffractive ρ production at small x in future electron-ion colliders", "abstract": "The future electron-ion (eA) collider is expected to probe the high energy regime of the quantum chromodynamics (QCD), with the exclusive vector meson production cross section being one of the most pr...", "citations": 7, "author_count": 4, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5753, "doi": "10.1088/0954-3899/43/9/095002", "umap_coordinates": { "x": 395.6834716796875, "y": 135.3485565185547, "z": 205.8072967529297 }, "tsne_coordinates": { "x": -28.572378158569336, "y": 27.003053665161133, "z": -2.9634203910827637 }, "pca_coordinates": { "x": 0.9169559478759766, "y": 2.697439432144165, "z": 1.5809087753295898 }, "axis_scores": { "Quantum imaging": 0.6799135208129883, "Quantum Life Science Sensing": 0.6628295183181763, "Quantum sensing Detection": 0.6568266153335571, "Quantum sensing Metrology": 0.6448066234588623, "Quantum sensing navigation": 0.6703201532363892, "Quantum sensing Position": 0.6900248527526855, "Quantum sensing Timing": 0.6649980545043945, "Quantum sensing": 0.6668999791145325, "Quantum control": 0.6531060338020325 } }, { "id": 5747, "title": "Nanoimprint-induced effects on electrical and optical properties of quantum well structures", "abstract": "A study of optical and transport properties of semiconductor quantum well structures subjected to nanoimprint lithography (NIL), with its pressure and temperature cycles, has been undertaken to ascert...", "citations": 7, "author_count": 13, "categories": [ "Engineering" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5754, "doi": "10.1016/S0167-9317(03)00074-1", "umap_coordinates": { "x": 392.5961608886719, "y": 133.95761108398438, "z": 207.20326232910156 }, "tsne_coordinates": { "x": 26.992687225341797, "y": -7.000013828277588, "z": 2.6121366024017334 }, "pca_coordinates": { "x": -0.5807055830955505, "y": -3.650078296661377, "z": 0.7554604411125183 }, "axis_scores": { "Quantum imaging": 0.7367404699325562, "Quantum Life Science Sensing": 0.7387255430221558, "Quantum sensing Detection": 0.7063906788825989, "Quantum sensing Metrology": 0.7083798050880432, "Quantum sensing navigation": 0.6905896663665771, "Quantum sensing Position": 0.6940478682518005, "Quantum sensing Timing": 0.6557222604751587, "Quantum sensing": 0.7245025038719177, "Quantum control": 0.6821547746658325 } }, { "id": 5748, "title": "Photosynthetic response of Nodularia spumigena to UV and photosynthetically active radiation depends on nutrient (N and P) availability", "abstract": "Biomass of N. spumigena is distributed within the dynamic photic zone that changes in both light quantity and quality. This study was designed to determine whether nutrient status can mitigate the neg...", "citations": 17, "author_count": 5, "categories": [ "Microbiology" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5755, "doi": "10.1111/j.1574-6941.2008.00572.x", "umap_coordinates": { "x": 394.3294372558594, "y": 135.96182250976562, "z": 203.64266967773438 }, "tsne_coordinates": { "x": 13.45829963684082, "y": 31.791187286376953, "z": 13.329463005065918 }, "pca_coordinates": { "x": -3.250124454498291, "y": 0.6536233425140381, "z": 1.3307909965515137 }, "axis_scores": { "Quantum imaging": 0.6983827352523804, "Quantum Life Science Sensing": 0.7337591052055359, "Quantum sensing Detection": 0.7122276425361633, "Quantum sensing Metrology": 0.7021923065185547, "Quantum sensing navigation": 0.7040505409240723, "Quantum sensing Position": 0.6815882921218872, "Quantum sensing Timing": 0.6596185564994812, "Quantum sensing": 0.7227041721343994, "Quantum control": 0.6816534996032715 } }, { "id": 5749, "title": "Rotational temperature of N2+ (0,2) ions from spectrographic measurements used to infer the energy of precipitation in different auroral forms and compared with radar measurements", "abstract": "High resolution spectral data are used to estimate neutral temperatures at auroral heights. The data are from the High Throughput Imaging Echelle Spectrograph (HiTIES) which forms part of the Spectrog...", "citations": 13, "author_count": 7, "categories": [ "Astronomy & Astrophysics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5756, "doi": "10.5194/angeo-26-853-2008", "umap_coordinates": { "x": 394.3694763183594, "y": 135.91114807128906, "z": 204.6314239501953 }, "tsne_coordinates": { "x": -12.3330717086792, "y": -5.899578094482422, "z": 17.001508712768555 }, "pca_coordinates": { "x": -1.8869662284851074, "y": 2.1344361305236816, "z": -0.8522984385490417 }, "axis_scores": { "Quantum imaging": 0.6650612354278564, "Quantum Life Science Sensing": 0.7015305757522583, "Quantum sensing Detection": 0.6604777574539185, "Quantum sensing Metrology": 0.6675986647605896, "Quantum sensing navigation": 0.6741531491279602, "Quantum sensing Position": 0.658663809299469, "Quantum sensing Timing": 0.6832749843597412, "Quantum sensing": 0.6725674867630005, "Quantum control": 0.6313877105712891 } }, { "id": 5750, "title": "Zn(O, S) Buffer Layers and Thickness Variations of CdS Buffer for Cu2ZnSnS4 Solar Cells", "abstract": "To improve the conduction band alignment and explore the influence of the buffer-absorber interface, we here investigate an alternative buffer for Cu2ZnSnS4 (CZTS) solar cells. The Zn(O, S) system was...", "citations": 94, "author_count": 8, "categories": [ "Energy & Fuels" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5757, "doi": "10.1109/JPHOTOV.2013.2283058", "umap_coordinates": { "x": 392.9316711425781, "y": 133.39251708984375, "z": 206.1925811767578 }, "tsne_coordinates": { "x": 38.949249267578125, "y": 14.382080078125, "z": 1.8118112087249756 }, "pca_coordinates": { "x": -1.5160677433013916, "y": -1.6337313652038574, "z": 0.966270387172699 }, "axis_scores": { "Quantum imaging": 0.7269109487533569, "Quantum Life Science Sensing": 0.7352637648582458, "Quantum sensing Detection": 0.73338782787323, "Quantum sensing Metrology": 0.7321500182151794, "Quantum sensing navigation": 0.7436954379081726, "Quantum sensing Position": 0.7282441258430481, "Quantum sensing Timing": 0.7357353568077087, "Quantum sensing": 0.7452815771102905, "Quantum control": 0.7290977835655212 } }, { "id": 5751, "title": "Using crop intercepted solar radiation and vegetation index to estimate dry matter yield of Choy Sum", "abstract": "An accurate assessment of vegetable yield is essential for agricultural production and management. One approach to estimate yield with remote sensing is via vegetation indices, which are selected in a...", "citations": 4, "author_count": 12, "categories": [ "Plant Sciences" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5758, "doi": "10.3389/fpls.2023.1208404", "umap_coordinates": { "x": 393.96551513671875, "y": 135.43142700195312, "z": 203.86915588378906 }, "tsne_coordinates": { "x": 18.03006362915039, "y": 34.91128158569336, "z": 6.413706302642822 }, "pca_coordinates": { "x": -3.814086437225342, "y": 1.7403937578201294, "z": -0.21268180012702942 }, "axis_scores": { "Quantum imaging": 0.6693112254142761, "Quantum Life Science Sensing": 0.732222318649292, "Quantum sensing Detection": 0.6732429265975952, "Quantum sensing Metrology": 0.6793261766433716, "Quantum sensing navigation": 0.6671591997146606, "Quantum sensing Position": 0.6523198485374451, "Quantum sensing Timing": 0.6414380073547363, "Quantum sensing": 0.6833973526954651, "Quantum control": 0.6641038060188293 } }, { "id": 5752, "title": "Spectral Composition of Light Affects Sensitivity to UV-B and Photoinhibition in Cucumber", "abstract": "Ultraviolet B (UV-B) (280-315 nm) and ultraviolet A (UV-A) (315-400 nm) radiation comprise small portions of the solar radiation but regulate many aspects of plant development, physiology and metaboli...", "citations": 39, "author_count": 7, "categories": [ "Plant Sciences" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5759, "doi": "10.3389/fpls.2020.610011", "umap_coordinates": { "x": 394.0326843261719, "y": 135.9510040283203, "z": 203.5900115966797 }, "tsne_coordinates": { "x": 14.948952674865723, "y": 33.35439682006836, "z": 10.825546264648438 }, "pca_coordinates": { "x": -3.865957021713257, "y": 0.4896775484085083, "z": -1.971118688583374 }, "axis_scores": { "Quantum imaging": 0.6980427503585815, "Quantum Life Science Sensing": 0.746090829372406, "Quantum sensing Detection": 0.7015829682350159, "Quantum sensing Metrology": 0.6761429309844971, "Quantum sensing navigation": 0.6949636936187744, "Quantum sensing Position": 0.6795994639396667, "Quantum sensing Timing": 0.6552913784980774, "Quantum sensing": 0.7121014595031738, "Quantum control": 0.697902500629425 } }, { "id": 5753, "title": "Light Shock Stress after Outdoor Sunlight Exposure in Seedlings of Picea abies (L.) Karst. and Pinus sylvestris L. Pre-Cultivated under LEDs-Possible Mitigation Treatments and Their Energy Consumption", "abstract": "Year-round cultivation under light emitting diodes (LEDs) has gained interest in boreal forest regions like Fenno-Scandinavia. This concept offers forest nurseries an option to increase seedling produ...", "citations": 12, "author_count": 3, "categories": [ "Forestry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5760, "doi": "10.3390/f11030354", "umap_coordinates": { "x": 394.2183837890625, "y": 136.30990600585938, "z": 203.50856018066406 }, "tsne_coordinates": { "x": 15.32852840423584, "y": 35.296241760253906, "z": 11.792250633239746 }, "pca_coordinates": { "x": -2.622377872467041, "y": 1.4995715618133545, "z": -0.6617830395698547 }, "axis_scores": { "Quantum imaging": 0.6535340547561646, "Quantum Life Science Sensing": 0.7361476421356201, "Quantum sensing Detection": 0.6664072275161743, "Quantum sensing Metrology": 0.6530164480209351, "Quantum sensing navigation": 0.6675727963447571, "Quantum sensing Position": 0.642556369304657, "Quantum sensing Timing": 0.6526688933372498, "Quantum sensing": 0.6787472367286682, "Quantum control": 0.6529298424720764 } }, { "id": 5754, "title": "Does canopy mean nitrogen concentration explain variation in canopy light use efficiency across 14 contrasting forest sites?", "abstract": "The maximum light use efficiency (LUE = gross primary production (GPP)/absorbed photosynthetic photon flux density (aPPFD)) of plant canopies has been reported to vary spatially and some of this varia...", "citations": 20, "author_count": 15, "categories": [ "Forestry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5761, "doi": "10.1093/treephys/tpr140", "umap_coordinates": { "x": 394.49810791015625, "y": 136.2562255859375, "z": 203.83956909179688 }, "tsne_coordinates": { "x": 12.222822189331055, "y": 37.489444732666016, "z": 9.90534782409668 }, "pca_coordinates": { "x": -1.3459075689315796, "y": 2.9658522605895996, "z": 0.4091927409172058 }, "axis_scores": { "Quantum imaging": 0.6706660389900208, "Quantum Life Science Sensing": 0.6882869005203247, "Quantum sensing Detection": 0.6727834939956665, "Quantum sensing Metrology": 0.6640990376472473, "Quantum sensing navigation": 0.6851978302001953, "Quantum sensing Position": 0.6694802641868591, "Quantum sensing Timing": 0.6732852458953857, "Quantum sensing": 0.6811895966529846, "Quantum control": 0.6573301553726196 } }, { "id": 5755, "title": "Partial wave analysis of J/ψ → γηη′", "abstract": "Based on a sample of (10.09 +/- 0.04 )x10(9) J /psi events collected with the BESIII detector operating at the BEPCII storage ring, a partial wave analysis of the decay J/psi -> gamma eta eta ' is per...", "citations": 47, "author_count": 529, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5762, "doi": "10.1103/PhysRevD.106.072012", "umap_coordinates": { "x": 396.4173278808594, "y": 135.5079345703125, "z": 207.5035400390625 }, "tsne_coordinates": { "x": -38.00326156616211, "y": -6.223956108093262, "z": -13.978809356689453 }, "pca_coordinates": { "x": 2.839995861053467, "y": 1.8763954639434814, "z": 0.6210889220237732 }, "axis_scores": { "Quantum imaging": 0.7207534909248352, "Quantum Life Science Sensing": 0.7218512296676636, "Quantum sensing Detection": 0.7110410928726196, "Quantum sensing Metrology": 0.6830514669418335, "Quantum sensing navigation": 0.7118616104125977, "Quantum sensing Position": 0.6800727248191833, "Quantum sensing Timing": 0.6715700030326843, "Quantum sensing": 0.7183466553688049, "Quantum control": 0.679760217666626 } }, { "id": 5756, "title": "Unbiased description of magnetic polarons in a Mott insulator", "abstract": "Polarons are elementary quasi-particles characterizing several interacting many-body quantum systems. The authors present an unbiased Quantum Monte Carlo simulation of a magnetic polaron in a t-J mode...", "citations": 18, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5763, "doi": "10.1038/s42005-020-00408-z", "umap_coordinates": { "x": 392.9485168457031, "y": 135.84466552734375, "z": 206.9507598876953 }, "tsne_coordinates": { "x": 9.43655014038086, "y": -9.989594459533691, "z": 15.38158130645752 }, "pca_coordinates": { "x": -0.24015778303146362, "y": -1.277146816253662, "z": -1.7342112064361572 }, "axis_scores": { "Quantum imaging": 0.6867094039916992, "Quantum Life Science Sensing": 0.6767219305038452, "Quantum sensing Detection": 0.6724546551704407, "Quantum sensing Metrology": 0.688355565071106, "Quantum sensing navigation": 0.7018126845359802, "Quantum sensing Position": 0.6834659576416016, "Quantum sensing Timing": 0.6638520956039429, "Quantum sensing": 0.6910049915313721, "Quantum control": 0.6804889440536499 } }, { "id": 5757, "title": "VUV photon induced fluorescence study of SF5CF3", "abstract": "The interaction of SF5CF3 with vacuum-UV radiation has been investigated by photon induced fluorescence spectroscopy. Total fluorescence yield and dispersed fluorescence spectra of SF5CF3 were recorde...", "citations": 4, "author_count": 12, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5764, "doi": "10.1039/b609314k", "umap_coordinates": { "x": 393.0659484863281, "y": 136.28697204589844, "z": 205.5663299560547 }, "tsne_coordinates": { "x": 5.7364373207092285, "y": 6.335197448730469, "z": 8.462177276611328 }, "pca_coordinates": { "x": -0.7617514729499817, "y": 0.057639122009277344, "z": -1.0410914421081543 }, "axis_scores": { "Quantum imaging": 0.6747192144393921, "Quantum Life Science Sensing": 0.7333452701568604, "Quantum sensing Detection": 0.6824645400047302, "Quantum sensing Metrology": 0.674564003944397, "Quantum sensing navigation": 0.6655656695365906, "Quantum sensing Position": 0.6517943143844604, "Quantum sensing Timing": 0.6172144412994385, "Quantum sensing": 0.6910699009895325, "Quantum control": 0.6437369585037231 } }, { "id": 5758, "title": "Resonant inelastic soft-x-ray scattering from valence-band excitations in 3d(0) compounds", "abstract": "Ti and Mn L(alpha,beta) x-ray fluorescence spectra of FeTiO3 and KMnO4 were measured with monochromatic photon excitation on selected energies across the L(2,3) absorption edges. The resulting inelast...", "citations": 52, "author_count": 5, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5765, "doi": "10.1103/PhysRevB.55.4242", "umap_coordinates": { "x": 394.68023681640625, "y": 135.0550079345703, "z": 208.94613647460938 }, "tsne_coordinates": { "x": 6.800899028778076, "y": -42.573123931884766, "z": 3.9081759452819824 }, "pca_coordinates": { "x": 2.752523422241211, "y": -2.2390475273132324, "z": -0.5905553102493286 }, "axis_scores": { "Quantum imaging": 0.6799535155296326, "Quantum Life Science Sensing": 0.6985840797424316, "Quantum sensing Detection": 0.6821192502975464, "Quantum sensing Metrology": 0.6596357822418213, "Quantum sensing navigation": 0.6766789555549622, "Quantum sensing Position": 0.6478496193885803, "Quantum sensing Timing": 0.6355240345001221, "Quantum sensing": 0.6908239126205444, "Quantum control": 0.6436609029769897 } }, { "id": 5759, "title": "Vacuum ultraviolet photoionization and ionic fragmentation of the isoxazole molecules", "abstract": "The photofragmentation of the isoxazole molecules producing ionized atomic and molecular fragments was investigated in the photon energy range of 9-32 eV, using synchrotron radiation excitation combin...", "citations": 11, "author_count": 5, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5766, "doi": "10.1016/j.ijms.2019.116276", "umap_coordinates": { "x": 393.3769226074219, "y": 135.71014404296875, "z": 205.38198852539062 }, "tsne_coordinates": { "x": 0.32678529620170593, "y": 10.829880714416504, "z": 4.34981107711792 }, "pca_coordinates": { "x": -2.009643077850342, "y": 1.4138083457946777, "z": -2.2517285346984863 }, "axis_scores": { "Quantum imaging": 0.7126310467720032, "Quantum Life Science Sensing": 0.7238904237747192, "Quantum sensing Detection": 0.6853736042976379, "Quantum sensing Metrology": 0.6686263084411621, "Quantum sensing navigation": 0.6700228452682495, "Quantum sensing Position": 0.6516656279563904, "Quantum sensing Timing": 0.6432570219039917, "Quantum sensing": 0.6948537230491638, "Quantum control": 0.6791688203811646 } }, { "id": 5760, "title": "An optical dynamic study of MAPbBr3 single crystals passivated with MAPbCl3/I3-MAPbBr3 heterojunctions", "abstract": "Recently, perovskite based solar cells have attracted lots of research interest, some of which is in the passivation of perovskite surfaces, particularly the heterojunction based surface passivation. ...", "citations": 51, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5767, "doi": "10.1039/c6cp07182a", "umap_coordinates": { "x": 392.11798095703125, "y": 135.2960205078125, "z": 206.1402587890625 }, "tsne_coordinates": { "x": 11.104141235351562, "y": -9.561264991760254, "z": -18.325925827026367 }, "pca_coordinates": { "x": -0.7953460216522217, "y": -1.6108102798461914, "z": -0.7555910348892212 }, "axis_scores": { "Quantum imaging": 0.7109435796737671, "Quantum Life Science Sensing": 0.7125852108001709, "Quantum sensing Detection": 0.6802003383636475, "Quantum sensing Metrology": 0.6908840537071228, "Quantum sensing navigation": 0.6789902448654175, "Quantum sensing Position": 0.6624050140380859, "Quantum sensing Timing": 0.6457448601722717, "Quantum sensing": 0.6932857036590576, "Quantum control": 0.6913676857948303 } }, { "id": 5761, "title": "Panexperiential materialism: A physical exploration of qualitativeness in the brain", "abstract": "It is a century-old view that experiential philosophies are not compatible with materialism. In the contextual inconsistency with the reality, that matter is inertly acquiring only a single physical s...", "citations": 4, "author_count": 3, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5768, "doi": "10.1016/bs.aiq.2020.08.004", "umap_coordinates": { "x": 394.7464599609375, "y": 135.85914611816406, "z": 204.98097229003906 }, "tsne_coordinates": { "x": -19.65836524963379, "y": 16.098773956298828, "z": 22.206356048583984 }, "pca_coordinates": { "x": -1.8212288618087769, "y": 2.960801124572754, "z": -1.6471973657608032 }, "axis_scores": { "Quantum imaging": 0.7325723767280579, "Quantum Life Science Sensing": 0.7253953218460083, "Quantum sensing Detection": 0.7016156911849976, "Quantum sensing Metrology": 0.7020779252052307, "Quantum sensing navigation": 0.7019580006599426, "Quantum sensing Position": 0.7077773809432983, "Quantum sensing Timing": 0.6851410269737244, "Quantum sensing": 0.7275049686431885, "Quantum control": 0.6799030303955078 } }, { "id": 5762, "title": "Surface reconstructions in thin films of magnetic topological insulator MnBi2Te4", "abstract": "Understanding the nature of surface states and their exchange gaps in magnetic topological insulator MnBi2Te4 (MBT) thin films is crucial for achieving robust topological Chern and axion insulating ph...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5769, "doi": "10.1103/PhysRevResearch.7.023024", "umap_coordinates": { "x": 393.0987243652344, "y": 136.21514892578125, "z": 208.79049682617188 }, "tsne_coordinates": { "x": 4.8906402587890625, "y": -32.039947509765625, "z": 18.442935943603516 }, "pca_coordinates": { "x": 3.080110549926758, "y": -1.347287654876709, "z": -1.4532876014709473 }, "axis_scores": { "Quantum imaging": 0.7138026356697083, "Quantum Life Science Sensing": 0.7190669775009155, "Quantum sensing Detection": 0.6993126273155212, "Quantum sensing Metrology": 0.7112452983856201, "Quantum sensing navigation": 0.7116531133651733, "Quantum sensing Position": 0.7048670053482056, "Quantum sensing Timing": 0.6818473935127258, "Quantum sensing": 0.7111599445343018, "Quantum control": 0.6660323739051819 } }, { "id": 5763, "title": "Electron spectroscopy and dynamics of HBr around the Br 1s-1 threshold", "abstract": "A comprehensive electron spectroscopic study combined with partial electron yield measurements around the Br 1s ionization threshold of HBr at approximately equal to 13.482 keV is reported. In detail,...", "citations": 6, "author_count": 17, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5770, "doi": "10.1039/d0cp04787b", "umap_coordinates": { "x": 393.1288146972656, "y": 136.16375732421875, "z": 206.93765258789062 }, "tsne_coordinates": { "x": 11.1853609085083, "y": -2.4128952026367188, "z": 3.0112974643707275 }, "pca_coordinates": { "x": 1.1063783168792725, "y": -0.3213615417480469, "z": -3.4841268062591553 }, "axis_scores": { "Quantum imaging": 0.6753995418548584, "Quantum Life Science Sensing": 0.7300971150398254, "Quantum sensing Detection": 0.6940163373947144, "Quantum sensing Metrology": 0.672113299369812, "Quantum sensing navigation": 0.6726454496383667, "Quantum sensing Position": 0.6801972985267639, "Quantum sensing Timing": 0.6787044405937195, "Quantum sensing": 0.6938148140907288, "Quantum control": 0.6722415089607239 } }, { "id": 5764, "title": "Dopamine and serotonin cotransmission filters striatonigral synaptic activity via 5-HT1B receptor activation", "abstract": "The substantia nigra pars reticulata (SNr), a key basal ganglia output nucleus, is modulated by dopamine (DA) believed to be released locally from midbrain DA neurons. Although DA has been proposed to...", "citations": 1, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5771, "doi": "10.1126/sciadv.adx4577", "umap_coordinates": { "x": 394.813720703125, "y": 135.5001983642578, "z": 204.75526428222656 }, "tsne_coordinates": { "x": -5.840965270996094, "y": 23.79118537902832, "z": 11.858863830566406 }, "pca_coordinates": { "x": -0.014499664306640625, "y": 0.810370922088623, "z": 0.16152805089950562 }, "axis_scores": { "Quantum imaging": 0.7030561566352844, "Quantum Life Science Sensing": 0.6893815398216248, "Quantum sensing Detection": 0.690000593662262, "Quantum sensing Metrology": 0.7015897035598755, "Quantum sensing navigation": 0.7383356690406799, "Quantum sensing Position": 0.7023382782936096, "Quantum sensing Timing": 0.6914933919906616, "Quantum sensing": 0.7055513858795166, "Quantum control": 0.716148316860199 } }, { "id": 5765, "title": "First simultaneous measurement of Ξ0 and (Ξ)over-bar0 asymmetry parameters in ψ(3686) decay", "abstract": "The Xi(0) asymmetry parameters are measured using entangled quantum Xi(0) - (Xi) over bar (0) pairs from a sample of (448.1 +/- 2.9) x 10(6) psi(3686) events collected with the BESIII detector at BEPC...", "citations": 14, "author_count": 617, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5772, "doi": "10.1103/PhysRevD.108.L011101", "umap_coordinates": { "x": 396.2530822753906, "y": 134.9832763671875, "z": 207.42022705078125 }, "tsne_coordinates": { "x": -26.38851547241211, "y": 1.7688658237457275, "z": -14.584505081176758 }, "pca_coordinates": { "x": 1.2007529735565186, "y": 0.8367400169372559, "z": 1.3788976669311523 }, "axis_scores": { "Quantum imaging": 0.6748999357223511, "Quantum Life Science Sensing": 0.7054848074913025, "Quantum sensing Detection": 0.6899339556694031, "Quantum sensing Metrology": 0.6843304634094238, "Quantum sensing navigation": 0.6914169788360596, "Quantum sensing Position": 0.6895359754562378, "Quantum sensing Timing": 0.6890076994895935, "Quantum sensing": 0.6903722882270813, "Quantum control": 0.640690803527832 } }, { "id": 5766, "title": "An Introduction to Relativistic Theory as Implemented in GRASP", "abstract": "Computational atomic physics continues to play a crucial role in both increasing the understanding of fundamental physics (e.g., quantum electrodynamics and correlation) and producing atomic data for ...", "citations": 61, "author_count": 12, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5773, "doi": "10.3390/atoms11010007", "umap_coordinates": { "x": 394.66619873046875, "y": 137.4210205078125, "z": 205.7397918701172 }, "tsne_coordinates": { "x": -20.243799209594727, "y": 17.59560203552246, "z": 19.13349723815918 }, "pca_coordinates": { "x": -0.16742539405822754, "y": 3.573821544647217, "z": -1.5764367580413818 }, "axis_scores": { "Quantum imaging": 0.7049554586410522, "Quantum Life Science Sensing": 0.7114516496658325, "Quantum sensing Detection": 0.6976784467697144, "Quantum sensing Metrology": 0.6859254240989685, "Quantum sensing navigation": 0.7158739566802979, "Quantum sensing Position": 0.6956984400749207, "Quantum sensing Timing": 0.710041880607605, "Quantum sensing": 0.7222300171852112, "Quantum control": 0.7048956751823425 } }, { "id": 5767, "title": "Proton-electron mass ratio from laser spectroscopy of HD+ at the part-per-trillion level", "abstract": "Recent mass measurements of light atomic nuclei in Penning traps have indicated possible inconsistencies in closely related physical constants such as the proton-electron and deuteron-proton mass rati...", "citations": 139, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5774, "doi": "10.1126/science.aba0453", "umap_coordinates": { "x": 395.5369873046875, "y": 135.2344207763672, "z": 207.391357421875 }, "tsne_coordinates": { "x": 4.940843105316162, "y": 5.388784885406494, "z": 29.65726089477539 }, "pca_coordinates": { "x": 0.16326677799224854, "y": 0.5222883224487305, "z": -0.6441130638122559 }, "axis_scores": { "Quantum imaging": 0.7022742629051208, "Quantum Life Science Sensing": 0.7535985112190247, "Quantum sensing Detection": 0.7022117972373962, "Quantum sensing Metrology": 0.7025830745697021, "Quantum sensing navigation": 0.684813380241394, "Quantum sensing Position": 0.6954807639122009, "Quantum sensing Timing": 0.6675201058387756, "Quantum sensing": 0.7127718329429626, "Quantum control": 0.6694484949111938 } }, { "id": 5768, "title": "1 Gb/s chaotic encoded W-band wireless transmission for physical layer data confidentiality in radio-over-fiber systems", "abstract": "Physical layer encryption methods are emerging as effective, low-latency approaches to ensure data confidentiality in wireless networks. The use of chaotic signals for data masking is a potential solu...", "citations": 13, "author_count": 5, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5775, "doi": "10.1364/OE.26.022296", "umap_coordinates": { "x": 394.75927734375, "y": 134.36561584472656, "z": 206.6283416748047 }, "tsne_coordinates": { "x": -1.1675978899002075, "y": -5.400112152099609, "z": -36.502716064453125 }, "pca_coordinates": { "x": 0.9465241432189941, "y": 0.7621612548828125, "z": 2.074997901916504 }, "axis_scores": { "Quantum imaging": 0.6911786794662476, "Quantum Life Science Sensing": 0.6812424659729004, "Quantum sensing Detection": 0.6761586666107178, "Quantum sensing Metrology": 0.6770803332328796, "Quantum sensing navigation": 0.6996273398399353, "Quantum sensing Position": 0.681971549987793, "Quantum sensing Timing": 0.7050727605819702, "Quantum sensing": 0.6936531066894531, "Quantum control": 0.6844084858894348 } }, { "id": 5769, "title": "Cavity-enhanced single artificial atoms in silicon", "abstract": "Artificial atoms in solids are leading candidates for quantum networks, scalable quantum computing, and sensing, as they combine long-lived spins with mobile photonic qubits. Recently, silicon has eme...", "citations": 27, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5776, "doi": "10.1038/s41467-024-49302-0", "umap_coordinates": { "x": 394.0722351074219, "y": 133.8616485595703, "z": 207.48435974121094 }, "tsne_coordinates": { "x": 7.851100921630859, "y": -18.97260856628418, "z": -19.639995574951172 }, "pca_coordinates": { "x": -0.5697689056396484, "y": -1.916243553161621, "z": 1.9579577445983887 }, "axis_scores": { "Quantum imaging": 0.7414721250534058, "Quantum Life Science Sensing": 0.7438046932220459, "Quantum sensing Detection": 0.7410891056060791, "Quantum sensing Metrology": 0.7337808609008789, "Quantum sensing navigation": 0.7311038970947266, "Quantum sensing Position": 0.7153821587562561, "Quantum sensing Timing": 0.7022812962532043, "Quantum sensing": 0.7515106797218323, "Quantum control": 0.7150878310203552 } }, { "id": 5770, "title": "Forward jet production at HERA", "abstract": "Deep inelastic scattering (DIS) of electrons against protons offers unique possibilities to study the partonic structure of matter, especially since the hardness of the interaction can be varied by se...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5777, "doi": null, "umap_coordinates": { "x": 391.5420837402344, "y": 139.5598907470703, "z": 209.18544006347656 }, "tsne_coordinates": { "x": -4.335534572601318, "y": 36.23755645751953, "z": -2.047105550765991 }, "pca_coordinates": { "x": -1.9281792640686035, "y": 4.10500955581665, "z": -1.3308615684509277 }, "axis_scores": { "Quantum imaging": 0.6465435028076172, "Quantum Life Science Sensing": 0.631500244140625, "Quantum sensing Detection": 0.6493860483169556, "Quantum sensing Metrology": 0.6021474003791809, "Quantum sensing navigation": 0.6515481472015381, "Quantum sensing Position": 0.6430330872535706, "Quantum sensing Timing": 0.6534096002578735, "Quantum sensing": 0.6467669606208801, "Quantum control": 0.6620851755142212 } }, { "id": 5771, "title": "Characterizing decoherence rates of a superconducting qubit by direct microwave scattering", "abstract": "We experimentally investigate a superconducting qubit coupled to the end of an open transmission line, in a regime where the qubit decay rates to the transmission line and to its own environment are c...", "citations": 34, "author_count": 12, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5778, "doi": "10.1038/s41534-021-00367-5", "umap_coordinates": { "x": 394.3492431640625, "y": 135.77777099609375, "z": 206.88002014160156 }, "tsne_coordinates": { "x": 2.8315324783325195, "y": -11.288747787475586, "z": 11.338626861572266 }, "pca_coordinates": { "x": 1.3142480850219727, "y": 0.6212834119796753, "z": 0.7877995371818542 }, "axis_scores": { "Quantum imaging": 0.7148803472518921, "Quantum Life Science Sensing": 0.7322200536727905, "Quantum sensing Detection": 0.7282916307449341, "Quantum sensing Metrology": 0.7115420699119568, "Quantum sensing navigation": 0.7153348922729492, "Quantum sensing Position": 0.6922949552536011, "Quantum sensing Timing": 0.7022860050201416, "Quantum sensing": 0.7342492938041687, "Quantum control": 0.6945226192474365 } }, { "id": 5772, "title": "Revealing Spectral Features in Two-Photon Absorption Spectrum of Hoechst 33342: A Combined Experimental and Quantum-Chemical Study", "abstract": "We present the results of wide spectral range Z-scan measurements of the two-photon absorption (2PA) spectrum of the Hoechst 33342 dye. The strongest 2PA of the dye in aqueous solution is found at 575...", "citations": 20, "author_count": 9, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5779, "doi": "10.1021/jp407144k", "umap_coordinates": { "x": 392.3937072753906, "y": 136.14100646972656, "z": 205.5202178955078 }, "tsne_coordinates": { "x": 5.849878311157227, "y": 5.061497211456299, "z": 0.7995086908340454 }, "pca_coordinates": { "x": -2.643972396850586, "y": -1.1335945129394531, "z": -0.3180343210697174 }, "axis_scores": { "Quantum imaging": 0.7051343321800232, "Quantum Life Science Sensing": 0.7049524188041687, "Quantum sensing Detection": 0.6848621964454651, "Quantum sensing Metrology": 0.6692583560943604, "Quantum sensing navigation": 0.6604249477386475, "Quantum sensing Position": 0.6423820853233337, "Quantum sensing Timing": 0.6533010005950928, "Quantum sensing": 0.69969642162323, "Quantum control": 0.6488467454910278 } }, { "id": 5773, "title": "Resonant valence-to-core x-ray fluorescence spectroscopy on PrO2", "abstract": "The results of 4f --> 3d x-ray fluorescence measurements, performed with monochromatic-photon excitation at Pr M-4,M-5 absorption edges of PrO2, are presented and discussed in the framework of an Ande...", "citations": 34, "author_count": 8, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5780, "doi": "10.1088/0953-8984/9/38/019", "umap_coordinates": { "x": 393.725830078125, "y": 135.90084838867188, "z": 206.20176696777344 }, "tsne_coordinates": { "x": 2.0194082260131836, "y": 1.7085033655166626, "z": 18.588397979736328 }, "pca_coordinates": { "x": -1.6508816480636597, "y": -0.17711663246154785, "z": -0.5447678565979004 }, "axis_scores": { "Quantum imaging": 0.7217279672622681, "Quantum Life Science Sensing": 0.733176589012146, "Quantum sensing Detection": 0.7127160429954529, "Quantum sensing Metrology": 0.7038630247116089, "Quantum sensing navigation": 0.6890639066696167, "Quantum sensing Position": 0.6930023431777954, "Quantum sensing Timing": 0.6823936700820923, "Quantum sensing": 0.7269279956817627, "Quantum control": 0.6799349784851074 } }, { "id": 5774, "title": "Experimental demonstration of an ultracompact polarization beamsplitter based on a multimode interference coupler with internal photonic crystals", "abstract": "The fabrication and characterization of a compact InP-based polarization beamsplitter (PBS) is presented. A multimode interference (MMI) coupler with an internal air hole photonic crystal (PhC) sectio...", "citations": 9, "author_count": 7, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5781, "doi": "10.1117/1.3454377", "umap_coordinates": { "x": 394.40338134765625, "y": 133.99945068359375, "z": 207.27650451660156 }, "tsne_coordinates": { "x": 5.002834796905518, "y": -6.900845527648926, "z": -38.916500091552734 }, "pca_coordinates": { "x": 0.48816490173339844, "y": 0.23251104354858398, "z": 4.319918632507324 }, "axis_scores": { "Quantum imaging": 0.7431495785713196, "Quantum Life Science Sensing": 0.7091287970542908, "Quantum sensing Detection": 0.7287808656692505, "Quantum sensing Metrology": 0.7291605472564697, "Quantum sensing navigation": 0.7141211628913879, "Quantum sensing Position": 0.6979967951774597, "Quantum sensing Timing": 0.6682954430580139, "Quantum sensing": 0.7330932021141052, "Quantum control": 0.7050366997718811 } }, { "id": 5775, "title": "Hydrogen atom mobility, kinetic isotope effects and tunneling on interstellar ices (Ih and ASW)", "abstract": "Transitions of a single H atom between local minima on the surfaces of crystalline ice (I-h) and amorphous solid water (ASW) are studied theoretically in the temperature range 4-25 K. Binding energies...", "citations": 48, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5782, "doi": "10.1016/j.molap.2017.01.005", "umap_coordinates": { "x": 393.8704833984375, "y": 137.26516723632812, "z": 205.98529052734375 }, "tsne_coordinates": { "x": -9.060187339782715, "y": 12.909918785095215, "z": 26.744497299194336 }, "pca_coordinates": { "x": 0.7581925392150879, "y": 1.6142085790634155, "z": -2.3036086559295654 }, "axis_scores": { "Quantum imaging": 0.7065606117248535, "Quantum Life Science Sensing": 0.6904114484786987, "Quantum sensing Detection": 0.6551253199577332, "Quantum sensing Metrology": 0.6446152329444885, "Quantum sensing navigation": 0.683217465877533, "Quantum sensing Position": 0.6402485370635986, "Quantum sensing Timing": 0.669836699962616, "Quantum sensing": 0.6810351610183716, "Quantum control": 0.6584770679473877 } }, { "id": 5776, "title": "Comparison of inclusive and photon-tagged jet suppression in 5.02 TeV Pb+Pb collisions with ATLAS", "abstract": "Parton energy loss in the quark-gluon plasma (QGP) is studied with a measurement of photon-tagged jet production in 1.7 nb-1 of Pb+Pb data and 260 pb-1 of pp data, both at root sNN = 5.02 TeV, with th...", "citations": 19, "author_count": 2679, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5783, "doi": "10.1016/j.physletb.2023.138154", "umap_coordinates": { "x": 396.889404296875, "y": 134.23817443847656, "z": 207.53294372558594 }, "tsne_coordinates": { "x": -33.598819732666016, "y": 3.948831796646118, "z": -8.043184280395508 }, "pca_coordinates": { "x": -0.8089466094970703, "y": 0.45464253425598145, "z": 2.603046417236328 }, "axis_scores": { "Quantum imaging": 0.6841291785240173, "Quantum Life Science Sensing": 0.6442790627479553, "Quantum sensing Detection": 0.6753121018409729, "Quantum sensing Metrology": 0.6524912118911743, "Quantum sensing navigation": 0.668231725692749, "Quantum sensing Position": 0.6700222492218018, "Quantum sensing Timing": 0.7001729011535645, "Quantum sensing": 0.6629005074501038, "Quantum control": 0.6443068981170654 } }, { "id": 5777, "title": "Andreev bound states in high-Tc superconducting junctions", "abstract": "The formation of bound states at surfaces of materials with an energy gap in the bulk electron spectrum is a well known physical phenomenon. At superconductor surfaces, quasiparticles with energies in...", "citations": 286, "author_count": 4, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 5784, "doi": "10.1088/0953-2048/14/5/201", "umap_coordinates": { "x": 394.3390197753906, "y": 135.27874755859375, "z": 207.9114990234375 }, "tsne_coordinates": { "x": -2.428873062133789, "y": -21.735239028930664, "z": 9.367877960205078 }, "pca_coordinates": { "x": 3.3591384887695312, "y": -0.8663930892944336, "z": 0.2241748571395874 }, "axis_scores": { "Quantum imaging": 0.6891854405403137, "Quantum Life Science Sensing": 0.6820882558822632, "Quantum sensing Detection": 0.6818157434463501, "Quantum sensing Metrology": 0.6627085208892822, "Quantum sensing navigation": 0.695643961429596, "Quantum sensing Position": 0.7023378014564514, "Quantum sensing Timing": 0.7183983325958252, "Quantum sensing": 0.6856350898742676, "Quantum control": 0.657741367816925 } }, { "id": 5778, "title": "Two-photon fluorescence correlation spectroscopy as a tool for measuring molecular diffusion within human skin", "abstract": "There is a need for tools enabling quantitative imaging of biological tissue for pharmaceutical applications. In this study, two-photon fluorescence microscopy (TPM) has been combined with fluorescenc...", "citations": 13, "author_count": 7, "categories": [ "Pharmacology & Pharmacy" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5785, "doi": "10.1016/j.ejpb.2012.10.001", "umap_coordinates": { "x": 394.2803955078125, "y": 134.1414337158203, "z": 204.74880981445312 }, "tsne_coordinates": { "x": 7.941643714904785, "y": 23.784040451049805, "z": -15.589749336242676 }, "pca_coordinates": { "x": -3.91041898727417, "y": 0.7944729328155518, "z": 0.9748477339744568 }, "axis_scores": { "Quantum imaging": 0.718096137046814, "Quantum Life Science Sensing": 0.7313864827156067, "Quantum sensing Detection": 0.7095825672149658, "Quantum sensing Metrology": 0.6873310804367065, "Quantum sensing navigation": 0.707788348197937, "Quantum sensing Position": 0.7086583375930786, "Quantum sensing Timing": 0.6954725384712219, "Quantum sensing": 0.7166560888290405, "Quantum control": 0.6517537236213684 } }, { "id": 5779, "title": "Extended Foster theory of donor-donor energy migration in bifluorophoric macromolecules -: Part II.: Method for determining intramolecular distances with experimental validation using mono and bifluorophoric systems", "abstract": "Recently an approximate theory was presented and applied for determining intramolecular distances in proteins. The rate of donor-donor energy migration (DDEM) is extracted and analysed from fluorescen...", "citations": 4, "author_count": 4, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5786, "doi": "10.1039/b001560l", "umap_coordinates": { "x": 393.12725830078125, "y": 136.27268981933594, "z": 205.26663208007812 }, "tsne_coordinates": { "x": 25.593170166015625, "y": 11.261076927185059, "z": 23.00843048095703 }, "pca_coordinates": { "x": -0.6573548913002014, "y": 0.580700159072876, "z": -2.0329477787017822 }, "axis_scores": { "Quantum imaging": 0.687487781047821, "Quantum Life Science Sensing": 0.7170732617378235, "Quantum sensing Detection": 0.6630154252052307, "Quantum sensing Metrology": 0.6769956350326538, "Quantum sensing navigation": 0.6770751476287842, "Quantum sensing Position": 0.6722701191902161, "Quantum sensing Timing": 0.6512258052825928, "Quantum sensing": 0.6814706325531006, "Quantum control": 0.6485038995742798 } }, { "id": 5780, "title": "Mixing intensity modulated electron and photon beams: combining a steep dose fall-off at depth with sharp and depth-independent penumbras and fiat beam profiles", "abstract": "For application in radiotherapy, intensity modulated high-energy electron and photon beams were mixed to create dose distributions that feature: (a) a steep dose fall-off at larger depths, similar to ...", "citations": 19, "author_count": 6, "categories": [ "Engineering" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5787, "doi": "10.1088/0031-9155/44/9/305", "umap_coordinates": { "x": 395.80224609375, "y": 133.78811645507812, "z": 205.45330810546875 }, "tsne_coordinates": { "x": -18.657630920410156, "y": 24.65949058532715, "z": -17.868942260742188 }, "pca_coordinates": { "x": -1.975785732269287, "y": 1.6820989847183228, "z": 3.644620418548584 }, "axis_scores": { "Quantum imaging": 0.6986026167869568, "Quantum Life Science Sensing": 0.6621699929237366, "Quantum sensing Detection": 0.6437036395072937, "Quantum sensing Metrology": 0.6518065929412842, "Quantum sensing navigation": 0.6541664004325867, "Quantum sensing Position": 0.6280290484428406, "Quantum sensing Timing": 0.6183788776397705, "Quantum sensing": 0.6564688682556152, "Quantum control": 0.6028609275817871 } }, { "id": 5781, "title": "Ultrafast and Resist-Free Nanopatterning of 2D Materials by Femtosecond Laser Irradiation", "abstract": "The performance of two-dimensional (2D) materials is promising for electronic, photonic, and sensing devices since they possess large surface-to-volume ratios, high mechanical strength, and broadband ...", "citations": 30, "author_count": 9, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5788, "doi": "10.1021/acsnano.2c09501", "umap_coordinates": { "x": 393.6542053222656, "y": 133.98046875, "z": 206.16680908203125 }, "tsne_coordinates": { "x": 25.433135986328125, "y": -11.06812572479248, "z": -8.144691467285156 }, "pca_coordinates": { "x": -2.1048922538757324, "y": -2.6451358795166016, "z": 0.9477153420448303 }, "axis_scores": { "Quantum imaging": 0.6910700798034668, "Quantum Life Science Sensing": 0.6984591484069824, "Quantum sensing Detection": 0.6781366467475891, "Quantum sensing Metrology": 0.690388560295105, "Quantum sensing navigation": 0.6826528906822205, "Quantum sensing Position": 0.6540931463241577, "Quantum sensing Timing": 0.6551254987716675, "Quantum sensing": 0.6955083608627319, "Quantum control": 0.6550155878067017 } }, { "id": 5782, "title": "Extended forster theory for determining intraprotein distances:: 2.: An accurate analysis of fluorescence depolarisation experimentst", "abstract": "The extended Forster theory (EFT) is for the first time applied to the quantitative determination of the intramolecular distances in proteins. It is shown how the EFT (J. Chem. Phys., 1996, 105, 10896...", "citations": 15, "author_count": 6, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5789, "doi": "10.1039/b701591g", "umap_coordinates": { "x": 393.4113464355469, "y": 135.9407958984375, "z": 205.30470275878906 }, "tsne_coordinates": { "x": 24.447919845581055, "y": 12.727888107299805, "z": 24.366846084594727 }, "pca_coordinates": { "x": -1.1101547479629517, "y": 1.4713994264602661, "z": -1.4562242031097412 }, "axis_scores": { "Quantum imaging": 0.6676417589187622, "Quantum Life Science Sensing": 0.7087559700012207, "Quantum sensing Detection": 0.6610691547393799, "Quantum sensing Metrology": 0.6745197176933289, "Quantum sensing navigation": 0.6667236089706421, "Quantum sensing Position": 0.6690412163734436, "Quantum sensing Timing": 0.6669621467590332, "Quantum sensing": 0.6748769879341125, "Quantum control": 0.621124804019928 } }, { "id": 5783, "title": "THYLAKOID PROTEIN-PHOSPHORYLATION, STATE-1-STATE-2 TRANSITIONS, AND PHOTOSYSTEM STOICHIOMETRY ADJUSTMENT - REDOX CONTROL AT MULTIPLE LEVELS OF GENE-EXPRESSION", "abstract": "In photosynthesis in chloroplasts, control of thylakoid protein phosphorylation by redox state of inter-photosystem electron carriers makes distribution of absorbed excitation energy between the two p...", "citations": 140, "author_count": 2, "categories": [ "Plant Sciences" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5790, "doi": "10.1034/j.1399-3054.1995.930128.x", "umap_coordinates": { "x": 394.4915771484375, "y": 136.0958251953125, "z": 203.71327209472656 }, "tsne_coordinates": { "x": 6.374339580535889, "y": 34.65890121459961, "z": 12.860694885253906 }, "pca_coordinates": { "x": -1.45985746383667, "y": 0.41727590560913086, "z": -1.4520792961120605 }, "axis_scores": { "Quantum imaging": 0.7017263770103455, "Quantum Life Science Sensing": 0.7302525639533997, "Quantum sensing Detection": 0.7025761604309082, "Quantum sensing Metrology": 0.6959500908851624, "Quantum sensing navigation": 0.6839128732681274, "Quantum sensing Position": 0.6740729808807373, "Quantum sensing Timing": 0.6908725500106812, "Quantum sensing": 0.7134776711463928, "Quantum control": 0.7078777551651001 } }, { "id": 5784, "title": "Concrete method for recovering the Euler characteristic of quantum graphs", "abstract": "Trace formulas play a central role in the study of spectral geometry and in particular of quantum graphs. The basis of our work is the result by Kurasov which links the Euler characteristic chi of met...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5791, "doi": "10.1088/1751-8121/ab95c1", "umap_coordinates": { "x": 395.0229187011719, "y": 137.48036193847656, "z": 207.0736541748047 }, "tsne_coordinates": { "x": -37.42057800292969, "y": -11.455742835998535, "z": 2.0923750400543213 }, "pca_coordinates": { "x": 1.4216408729553223, "y": 3.130638360977173, "z": 0.500460684299469 }, "axis_scores": { "Quantum imaging": 0.7184873223304749, "Quantum Life Science Sensing": 0.7190999388694763, "Quantum sensing Detection": 0.7062424421310425, "Quantum sensing Metrology": 0.7053741812705994, "Quantum sensing navigation": 0.7147335410118103, "Quantum sensing Position": 0.6942092180252075, "Quantum sensing Timing": 0.6938858032226562, "Quantum sensing": 0.7185572385787964, "Quantum control": 0.6900373101234436 } }, { "id": 5785, "title": "High-Performance Optical Power Limiting Filters at Telecommunication Wavelengths: When Aza-BODIPY Dyes Bond to Sol-Gel Materials", "abstract": "An optical power limiter (OPL) device can change its optical properties depending on the input light intensity: it is ideally transparent at low incident power and presents a decrease in transmission ...", "citations": 20, "author_count": 13, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5792, "doi": "10.1021/acs.jpcc.0c08006", "umap_coordinates": { "x": 393.30035400390625, "y": 135.4957733154297, "z": 205.4955596923828 }, "tsne_coordinates": { "x": -0.47813349962234497, "y": -14.03072738647461, "z": -21.646814346313477 }, "pca_coordinates": { "x": -2.8276472091674805, "y": -1.1649436950683594, "z": -0.06324118375778198 }, "axis_scores": { "Quantum imaging": 0.6979759931564331, "Quantum Life Science Sensing": 0.7111026644706726, "Quantum sensing Detection": 0.6866603493690491, "Quantum sensing Metrology": 0.6745954751968384, "Quantum sensing navigation": 0.671258270740509, "Quantum sensing Position": 0.671694815158844, "Quantum sensing Timing": 0.6519250869750977, "Quantum sensing": 0.6952219009399414, "Quantum control": 0.6837009787559509 } }, { "id": 5786, "title": "Ghost interference with classical partially coherent light pulses", "abstract": "The two-photon temporal coincidence detection amplitude obeys a pair of equations identical to those of classical partially coherent plane-wave pulses propagating in linearly dispersive media. These e...", "citations": 50, "author_count": 5, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5793, "doi": "10.1103/PhysRevA.77.043811", "umap_coordinates": { "x": 395.76544189453125, "y": 135.5756072998047, "z": 207.3401336669922 }, "tsne_coordinates": { "x": -24.910980224609375, "y": -7.745753288269043, "z": -13.386347770690918 }, "pca_coordinates": { "x": 3.7914247512817383, "y": 2.4453165531158447, "z": 3.5828475952148438 }, "axis_scores": { "Quantum imaging": 0.7610995769500732, "Quantum Life Science Sensing": 0.7120540142059326, "Quantum sensing Detection": 0.7352787852287292, "Quantum sensing Metrology": 0.7142523527145386, "Quantum sensing navigation": 0.7269244194030762, "Quantum sensing Position": 0.7124371528625488, "Quantum sensing Timing": 0.7351344227790833, "Quantum sensing": 0.7403237819671631, "Quantum control": 0.7114964723587036 } }, { "id": 5787, "title": "Theoretical Investigation of Transient Species Following Photodissociation of Ironpentacarbonyl in Ethanol Solution", "abstract": "Photodissociation of ironpentacarbonyl [Fe-1(CO)(5)] in solution generates transient species in different electronic states, which we studied theoretically. From ab initio molecular dynamics simulatio...", "citations": 1, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5794, "doi": "10.1021/acs.inorgchem.4c01100", "umap_coordinates": { "x": 391.7652893066406, "y": 136.09739685058594, "z": 205.39353942871094 }, "tsne_coordinates": { "x": 9.525943756103516, "y": -1.0695821046829224, "z": 0.3483488857746124 }, "pca_coordinates": { "x": -0.6744017601013184, "y": -0.9154753684997559, "z": -4.533923625946045 }, "axis_scores": { "Quantum imaging": 0.7009677290916443, "Quantum Life Science Sensing": 0.71468585729599, "Quantum sensing Detection": 0.6886300444602966, "Quantum sensing Metrology": 0.6529460549354553, "Quantum sensing navigation": 0.6600680947303772, "Quantum sensing Position": 0.6622082591056824, "Quantum sensing Timing": 0.6625154614448547, "Quantum sensing": 0.6848328709602356, "Quantum control": 0.6655150055885315 } }, { "id": 5788, "title": "Enhancing self-discharging process with disordered quantum batteries", "abstract": "One of the most important devices emerging from quantum technology are quantum batteries. However, self-discharging, the process of charge wasting of quantum batteries due to decoherence phenomenon, l...", "citations": 45, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5795, "doi": "10.1103/PhysRevE.105.054115", "umap_coordinates": { "x": 394.4876708984375, "y": 136.300537109375, "z": 207.4282684326172 }, "tsne_coordinates": { "x": -5.266738414764404, "y": -29.590778350830078, "z": -6.432187557220459 }, "pca_coordinates": { "x": 2.3807687759399414, "y": -1.4799647331237793, "z": 0.2717260718345642 }, "axis_scores": { "Quantum imaging": 0.718357503414154, "Quantum Life Science Sensing": 0.7229747176170349, "Quantum sensing Detection": 0.710247278213501, "Quantum sensing Metrology": 0.699642539024353, "Quantum sensing navigation": 0.7087897062301636, "Quantum sensing Position": 0.6781324148178101, "Quantum sensing Timing": 0.6920530796051025, "Quantum sensing": 0.7206724882125854, "Quantum control": 0.7110061645507812 } }, { "id": 5789, "title": "Measurement of the photon plus b-jet production differential cross section in p(p)over-bar) collisions at √s=1.96 TeV", "abstract": "We present measurements of the differential cross section d sigma/dp(T)(gamma) for the inclusive production of a photon in association with a b-quark jet for photons with rapidities vertical bar y(gam...", "citations": 31, "author_count": 396, "categories": [ "Astronomy & Astrophysics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5796, "doi": "10.1016/j.physletb.2012.06.056", "umap_coordinates": { "x": 396.79510498046875, "y": 134.22434997558594, "z": 207.5308074951172 }, "tsne_coordinates": { "x": -28.49987030029297, "y": 5.53963041305542, "z": -11.753615379333496 }, "pca_coordinates": { "x": -1.1092647314071655, "y": 0.25254154205322266, "z": 2.8452470302581787 }, "axis_scores": { "Quantum imaging": 0.7136490345001221, "Quantum Life Science Sensing": 0.7056852579116821, "Quantum sensing Detection": 0.7307583689689636, "Quantum sensing Metrology": 0.7042781114578247, "Quantum sensing navigation": 0.6942307949066162, "Quantum sensing Position": 0.7197313904762268, "Quantum sensing Timing": 0.7114384770393372, "Quantum sensing": 0.722200870513916, "Quantum control": 0.6709554195404053 } }, { "id": 5790, "title": "Simple methods for the estimation of dose distributions, organ doses and energy imparted in paediatric radiology", "abstract": "The energy imparted and the effective dose can both be used to describe the risk to the patient in diagnostic radiology. Simple methods must be employed to determine these quantities in clinical situa...", "citations": 8, "author_count": 3, "categories": [ "Engineering" ], "year": 1996, "topic": [ "all" ], "embedding_index": 5797, "doi": "10.1088/0031-9155/41/7/002", "umap_coordinates": { "x": 396.1546630859375, "y": 133.76951599121094, "z": 205.09437561035156 }, "tsne_coordinates": { "x": -17.24483299255371, "y": 28.90059471130371, "z": -13.437278747558594 }, "pca_coordinates": { "x": -2.373424530029297, "y": 3.294811248779297, "z": 2.5971035957336426 }, "axis_scores": { "Quantum imaging": 0.6631188988685608, "Quantum Life Science Sensing": 0.6892685294151306, "Quantum sensing Detection": 0.6426231861114502, "Quantum sensing Metrology": 0.6433544158935547, "Quantum sensing navigation": 0.6380603313446045, "Quantum sensing Position": 0.637965738773346, "Quantum sensing Timing": 0.6460369825363159, "Quantum sensing": 0.6553106307983398, "Quantum control": 0.600945770740509 } }, { "id": 5791, "title": "Red light induces starch accumulation in Chlorella vulgaris without affecting photosynthesis efficiency, unlike abiotic stress", "abstract": "Microalgae show great promise as sources of starch, one of the most widely consumed macromolecules. In this study, we evaluated the impact of three starch -inducing factors, namely nitrogen deprivatio...", "citations": 20, "author_count": 11, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5798, "doi": "10.1016/j.algal.2024.103515", "umap_coordinates": { "x": 394.00103759765625, "y": 135.84471130371094, "z": 203.6757049560547 }, "tsne_coordinates": { "x": 17.550859451293945, "y": 31.216386795043945, "z": 12.030296325683594 }, "pca_coordinates": { "x": -4.086874961853027, "y": 0.338712215423584, "z": -1.6855723857879639 }, "axis_scores": { "Quantum imaging": 0.693222165107727, "Quantum Life Science Sensing": 0.7260650992393494, "Quantum sensing Detection": 0.6884735226631165, "Quantum sensing Metrology": 0.6618742942810059, "Quantum sensing navigation": 0.6704698204994202, "Quantum sensing Position": 0.6465176939964294, "Quantum sensing Timing": 0.6466965079307556, "Quantum sensing": 0.6960341334342957, "Quantum control": 0.6729682683944702 } }, { "id": 5792, "title": "Highly Non-Planar Dendritic Porphyrin for pH Sensing: Observation of Porphyrin Monocation", "abstract": "Metal-free porphyrin-dendrimers provide a convenient platform for the construction of membrane-impermeable ratiometric probes for pH measurements in compartmentalized biological systems. In all previo...", "citations": 77, "author_count": 6, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5799, "doi": "10.1021/ic100968p", "umap_coordinates": { "x": 391.91192626953125, "y": 135.6943817138672, "z": 204.64498901367188 }, "tsne_coordinates": { "x": -2.7001538276672363, "y": 2.9203383922576904, "z": -6.974143028259277 }, "pca_coordinates": { "x": -3.475670576095581, "y": -0.5163283348083496, "z": -0.5469499826431274 }, "axis_scores": { "Quantum imaging": 0.7018714547157288, "Quantum Life Science Sensing": 0.7353962063789368, "Quantum sensing Detection": 0.7125629186630249, "Quantum sensing Metrology": 0.710222601890564, "Quantum sensing navigation": 0.6765730977058411, "Quantum sensing Position": 0.676048994064331, "Quantum sensing Timing": 0.6719683408737183, "Quantum sensing": 0.7159947752952576, "Quantum control": 0.6607248783111572 } }, { "id": 5793, "title": "Energetics of C-H Bonds Formed at Single-Walled Carbon Nanotubes", "abstract": "We have calculated the adsorption energies for different hydrogen dimers adsorbed at the surface of zigzag single-walled carbon nanotubes (SWCNs) (n,0) (for n = 6-28) to identify the range of nanotube...", "citations": 17, "author_count": 4, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5800, "doi": "10.1021/nl802727h", "umap_coordinates": { "x": 393.1422119140625, "y": 137.06959533691406, "z": 206.3323516845703 }, "tsne_coordinates": { "x": 6.850358009338379, "y": -25.212127685546875, "z": -17.089786529541016 }, "pca_coordinates": { "x": -0.14925801753997803, "y": -1.4164323806762695, "z": -2.1581711769104004 }, "axis_scores": { "Quantum imaging": 0.6516947746276855, "Quantum Life Science Sensing": 0.7068285346031189, "Quantum sensing Detection": 0.6524322628974915, "Quantum sensing Metrology": 0.6516591310501099, "Quantum sensing navigation": 0.662298321723938, "Quantum sensing Position": 0.6528923511505127, "Quantum sensing Timing": 0.6479038000106812, "Quantum sensing": 0.6725432276725769, "Quantum control": 0.6605281829833984 } }, { "id": 5794, "title": "Unraveling the Ground State and Excited State Structures and Dynamics of Hydrated Ce3+ Ions by Experiment and Theory", "abstract": "The 4f-5d transition of Ce3+ provides favorable optical spectroscopic properties such as high sensitivity and quantum yield, making it a most important dopant for lanthanide-activated phosphors. A key...", "citations": 20, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5801, "doi": "10.1021/acs.inorgchem.8b01224", "umap_coordinates": { "x": 392.0559997558594, "y": 136.41285705566406, "z": 206.0082550048828 }, "tsne_coordinates": { "x": 9.075557708740234, "y": -0.026797330006957054, "z": 4.066024303436279 }, "pca_coordinates": { "x": -0.016971468925476074, "y": -0.005746364593505859, "z": -4.393648624420166 }, "axis_scores": { "Quantum imaging": 0.7348521947860718, "Quantum Life Science Sensing": 0.7449255585670471, "Quantum sensing Detection": 0.712500274181366, "Quantum sensing Metrology": 0.70732182264328, "Quantum sensing navigation": 0.706498920917511, "Quantum sensing Position": 0.6721916794776917, "Quantum sensing Timing": 0.6712979674339294, "Quantum sensing": 0.7256131172180176, "Quantum control": 0.7125343680381775 } }, { "id": 5795, "title": "Importance of casein micelle size and milk composition for milk gelation", "abstract": "The economic output of the dairy industry is to a great extent dependent on the processing of milk into other milk-based products such as cheese. The yield and quality of cheese are dependent on both ...", "citations": 173, "author_count": 7, "categories": [ "Agriculture" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5802, "doi": "10.3168/jds.2009-2856", "umap_coordinates": { "x": 393.80572509765625, "y": 134.94683837890625, "z": 204.03721618652344 }, "tsne_coordinates": { "x": 23.91361427307129, "y": 23.302522659301758, "z": 9.215283393859863 }, "pca_coordinates": { "x": -4.445039749145508, "y": 0.9444320201873779, "z": -2.562056541442871 }, "axis_scores": { "Quantum imaging": 0.6338132619857788, "Quantum Life Science Sensing": 0.6862519383430481, "Quantum sensing Detection": 0.6194023489952087, "Quantum sensing Metrology": 0.6305761337280273, "Quantum sensing navigation": 0.612511396408081, "Quantum sensing Position": 0.6215537786483765, "Quantum sensing Timing": 0.6108245253562927, "Quantum sensing": 0.6404401063919067, "Quantum control": 0.6192276477813721 } }, { "id": 5796, "title": "Chiral o-phthaldialdehyde reagents for fluorogenic on-column labeling of D- and L-amino acids in micellar electrokinetic chromatography", "abstract": "Following a recent communication from this laboratory (A. Tivesten et al., J. High Resol. Chromatogr. 1996, 19, 229-233) where on-column chiral derivatization of D- and L-amino acids in micellar elect...", "citations": 26, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5803, "doi": "10.1002/elps.1150180619", "umap_coordinates": { "x": 394.0876770019531, "y": 135.05288696289062, "z": 204.37709045410156 }, "tsne_coordinates": { "x": 3.562561273574829, "y": 16.36243438720703, "z": -13.54108715057373 }, "pca_coordinates": { "x": -3.6787734031677246, "y": 0.515929102897644, "z": -0.7575551271438599 }, "axis_scores": { "Quantum imaging": 0.6856557726860046, "Quantum Life Science Sensing": 0.6809829473495483, "Quantum sensing Detection": 0.6583427786827087, "Quantum sensing Metrology": 0.6636828184127808, "Quantum sensing navigation": 0.6777465343475342, "Quantum sensing Position": 0.6643836498260498, "Quantum sensing Timing": 0.6613004803657532, "Quantum sensing": 0.6750021576881409, "Quantum control": 0.6687444448471069 } }, { "id": 5797, "title": "An ab initio approach to the solar coronal heating problem", "abstract": "We present an ab initio approach to the solar coronal heating problem by modeling a small part of the solar corona in a computational box using a three-dimensional MHD code including realistic physics...", "citations": 260, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5804, "doi": "10.1086/426063", "umap_coordinates": { "x": 393.733154296875, "y": 137.278564453125, "z": 207.24183654785156 }, "tsne_coordinates": { "x": -43.99241638183594, "y": 6.78581428527832, "z": 4.244068622589111 }, "pca_coordinates": { "x": 0.028886079788208008, "y": 1.2729992866516113, "z": -1.6568446159362793 }, "axis_scores": { "Quantum imaging": 0.6348638534545898, "Quantum Life Science Sensing": 0.6800951361656189, "Quantum sensing Detection": 0.6347531080245972, "Quantum sensing Metrology": 0.6418988108634949, "Quantum sensing navigation": 0.6470908522605896, "Quantum sensing Position": 0.6241810321807861, "Quantum sensing Timing": 0.6251357197761536, "Quantum sensing": 0.6466168761253357, "Quantum control": 0.6359425187110901 } }, { "id": 5798, "title": "Hitomi observation of radio galaxy NGC 1275: The first X-ray microcalorimeter spectroscopy of Fe-Kα line emission from an active galactic nucleus", "abstract": "The origin of the narrow Fe-K alpha fluorescence line at 6.4 keV from active galactic nuclei has long been under debate; some of the possible sites are the outer accretion disk, the broad line region,...", "citations": 14, "author_count": 194, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5805, "doi": "10.1093/pasj/psx147", "umap_coordinates": { "x": 396.25177001953125, "y": 134.9115753173828, "z": 205.81982421875 }, "tsne_coordinates": { "x": -29.539798736572266, "y": 26.287893295288086, "z": 1.3137750625610352 }, "pca_coordinates": { "x": -0.760045051574707, "y": 2.147796630859375, "z": 2.1950414180755615 }, "axis_scores": { "Quantum imaging": 0.6798279881477356, "Quantum Life Science Sensing": 0.6881340146064758, "Quantum sensing Detection": 0.6729602813720703, "Quantum sensing Metrology": 0.6643747091293335, "Quantum sensing navigation": 0.679680347442627, "Quantum sensing Position": 0.6759322285652161, "Quantum sensing Timing": 0.6636910438537598, "Quantum sensing": 0.6815122365951538, "Quantum control": 0.6476934552192688 } }, { "id": 5799, "title": "Photosynthetic acclimation of the filamentous cyanobacterium, Plectonema boryanum UTEX 485, to temperature and light", "abstract": "Photosynthetic acclimation to temperature and irradiance was studied in the filamentous, non-heterocystous cyanobacterium Plectonema boryanum UTEX 485. Growth rates of this cyanobacterium measured at ...", "citations": 64, "author_count": 7, "categories": [ "Plant Sciences" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5806, "doi": null, "umap_coordinates": { "x": 391.75396728515625, "y": 139.48829650878906, "z": 209.73464965820312 }, "tsne_coordinates": { "x": -2.548370361328125, "y": 45.20713806152344, "z": -1.0105767250061035 }, "pca_coordinates": { "x": -3.3574724197387695, "y": 3.1017837524414062, "z": -3.2652883529663086 }, "axis_scores": { "Quantum imaging": 0.7281434535980225, "Quantum Life Science Sensing": 0.7474702000617981, "Quantum sensing Detection": 0.7261624336242676, "Quantum sensing Metrology": 0.7115514874458313, "Quantum sensing navigation": 0.7153254747390747, "Quantum sensing Position": 0.7011120915412903, "Quantum sensing Timing": 0.6980677843093872, "Quantum sensing": 0.7441503405570984, "Quantum control": 0.7635287046432495 } }, { "id": 5800, "title": "Vibrational scattering anisotropy in O2-dynamics beyond the Born-Oppenheimer approximation", "abstract": "Born-Oppenheimer and Franck-Condon approximations are two major concepts in the interpretation of electronic excitations and modeling of spectroscopic data in the gas and condensed phases. We report l...", "citations": 31, "author_count": 9, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5807, "doi": "10.1088/1367-2630/14/11/113018", "umap_coordinates": { "x": 393.6304931640625, "y": 136.63352966308594, "z": 207.17897033691406 }, "tsne_coordinates": { "x": -1.597341775894165, "y": -11.31485366821289, "z": 32.58491134643555 }, "pca_coordinates": { "x": 0.9913756847381592, "y": 1.7678861618041992, "z": -1.4225444793701172 }, "axis_scores": { "Quantum imaging": 0.724909782409668, "Quantum Life Science Sensing": 0.7167420983314514, "Quantum sensing Detection": 0.6890534162521362, "Quantum sensing Metrology": 0.6757500171661377, "Quantum sensing navigation": 0.7204912304878235, "Quantum sensing Position": 0.6852620244026184, "Quantum sensing Timing": 0.6795136332511902, "Quantum sensing": 0.7080220580101013, "Quantum control": 0.6951594352722168 } }, { "id": 5801, "title": "Investigations and facile synthesis of a series of novel multi-functional two-photon absorption materials", "abstract": "Six centrosymmetric D-(pi-A)(3) structural triphenylamine derivatives that can be used as two- photon photopolymerization and optical data storage chromophores, tris[ 4-( 4- pyridylethenyl) phenyl] am...", "citations": 66, "author_count": 15, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5808, "doi": "10.1039/b703853d", "umap_coordinates": { "x": 392.23138427734375, "y": 135.3613739013672, "z": 205.05723571777344 }, "tsne_coordinates": { "x": 8.282493591308594, "y": 4.024237632751465, "z": 0.047186609357595444 }, "pca_coordinates": { "x": -2.9002368450164795, "y": -2.0247302055358887, "z": -0.22540602087974548 }, "axis_scores": { "Quantum imaging": 0.7043155431747437, "Quantum Life Science Sensing": 0.718084990978241, "Quantum sensing Detection": 0.695608913898468, "Quantum sensing Metrology": 0.6879051923751831, "Quantum sensing navigation": 0.6600632071495056, "Quantum sensing Position": 0.6519029140472412, "Quantum sensing Timing": 0.6498653292655945, "Quantum sensing": 0.7070744037628174, "Quantum control": 0.653748631477356 } }, { "id": 5802, "title": "Quantum and classical dynamics of Langmuir wave packets", "abstract": "The quantum Zakharov system in three spatial dimensions and an associated Lagrangian description, as well as its basic conservation laws, are derived. In the adiabatic and semiclassical cases, the qua...", "citations": 55, "author_count": 3, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5809, "doi": "10.1103/PhysRevE.79.066402", "umap_coordinates": { "x": 394.5882873535156, "y": 137.02085876464844, "z": 208.0158233642578 }, "tsne_coordinates": { "x": -21.6217098236084, "y": -17.865215301513672, "z": 6.445991039276123 }, "pca_coordinates": { "x": 4.209550857543945, "y": -0.4604659080505371, "z": -0.7970488667488098 }, "axis_scores": { "Quantum imaging": 0.7417418956756592, "Quantum Life Science Sensing": 0.7600550055503845, "Quantum sensing Detection": 0.7397904992103577, "Quantum sensing Metrology": 0.7202058434486389, "Quantum sensing navigation": 0.748895525932312, "Quantum sensing Position": 0.7242980003356934, "Quantum sensing Timing": 0.7007502317428589, "Quantum sensing": 0.7506364583969116, "Quantum control": 0.7281970977783203 } }, { "id": 5803, "title": "Quantum Hall hierarchy wave functions: From conformal correlators to Tao-Thouless states", "abstract": "Laughlin's wave functions, which describe the fractional quantum Hall effect at filling factors nu=1/(2k+1), can be obtained as correlation functions in a conformal field theory, and recently, this co...", "citations": 27, "author_count": 6, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5810, "doi": "10.1103/PhysRevB.77.165325", "umap_coordinates": { "x": 394.5848693847656, "y": 137.03939819335938, "z": 208.57955932617188 }, "tsne_coordinates": { "x": -18.388948440551758, "y": -32.287506103515625, "z": 6.752325057983398 }, "pca_coordinates": { "x": 4.800692081451416, "y": 0.6511410474777222, "z": -1.0952752828598022 }, "axis_scores": { "Quantum imaging": 0.7019034624099731, "Quantum Life Science Sensing": 0.7018229961395264, "Quantum sensing Detection": 0.6987860798835754, "Quantum sensing Metrology": 0.6980587840080261, "Quantum sensing navigation": 0.7271894812583923, "Quantum sensing Position": 0.6812940835952759, "Quantum sensing Timing": 0.7100298404693604, "Quantum sensing": 0.7129408121109009, "Quantum control": 0.6991367340087891 } }, { "id": 5804, "title": "Detection wavelength of very long wavelength quantum-well infrared photodetector", "abstract": "Based on a detailed discussion of the energy band structure and optical transitions in very long wavelength (similar to14 mum) GaAs/AlGaAs quantum well infrared photodetectors (QWIPs), we have built a...", "citations": 6, "author_count": 7, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5811, "doi": null, "umap_coordinates": { "x": 391.4898986816406, "y": 139.51185607910156, "z": 209.57769775390625 }, "tsne_coordinates": { "x": -4.869961261749268, "y": 48.785743713378906, "z": -7.923861026763916 }, "pca_coordinates": { "x": -2.339838981628418, "y": 1.4419372081756592, "z": 1.3710858821868896 }, "axis_scores": { "Quantum imaging": 0.7404849529266357, "Quantum Life Science Sensing": 0.7773062586784363, "Quantum sensing Detection": 0.761402428150177, "Quantum sensing Metrology": 0.7334926128387451, "Quantum sensing navigation": 0.7189614772796631, "Quantum sensing Position": 0.7256229519844055, "Quantum sensing Timing": 0.7110716104507446, "Quantum sensing": 0.7550587058067322, "Quantum control": 0.6923482418060303 } }, { "id": 5805, "title": "GRATING-COUPLED QUANTUM-WELL INFRARED DETECTORS - THEORY AND PERFORMANCE", "abstract": "A theory of the grating-coupled quantum-well infrared detector, based on the modal expansion method (MEM) is presented together with numerical simulation results. MEM is a near-exact way of determinin...", "citations": 146, "author_count": 3, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5812, "doi": "10.1063/1.350916", "umap_coordinates": { "x": 393.803466796875, "y": 133.7003631591797, "z": 208.227294921875 }, "tsne_coordinates": { "x": 34.662906646728516, "y": -21.23017692565918, "z": -6.695690631866455 }, "pca_coordinates": { "x": 1.434215784072876, "y": -1.550877332687378, "z": 2.950777530670166 }, "axis_scores": { "Quantum imaging": 0.7741742730140686, "Quantum Life Science Sensing": 0.7776328325271606, "Quantum sensing Detection": 0.7895208597183228, "Quantum sensing Metrology": 0.7720752954483032, "Quantum sensing navigation": 0.7522245645523071, "Quantum sensing Position": 0.7358246445655823, "Quantum sensing Timing": 0.7354508638381958, "Quantum sensing": 0.7921022176742554, "Quantum control": 0.7391197681427002 } }, { "id": 5806, "title": "Subwavelength adiabatic multimode Y-junctions", "abstract": "Adiabatic multimode Y-junctions are extensively used for the design of multimode silicon photonics devices due to their straightforward principle in achieving mode splitting and manipulation. However,...", "citations": 21, "author_count": 5, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5813, "doi": "10.1364/OL.44.004729", "umap_coordinates": { "x": 394.4918518066406, "y": 134.15574645996094, "z": 206.95571899414062 }, "tsne_coordinates": { "x": 1.4290757179260254, "y": -11.878302574157715, "z": -30.6251220703125 }, "pca_coordinates": { "x": 0.8133265972137451, "y": 0.2560572624206543, "z": 2.4420087337493896 }, "axis_scores": { "Quantum imaging": 0.714448094367981, "Quantum Life Science Sensing": 0.6809988617897034, "Quantum sensing Detection": 0.6896618604660034, "Quantum sensing Metrology": 0.7140921950340271, "Quantum sensing navigation": 0.703931987285614, "Quantum sensing Position": 0.681451678276062, "Quantum sensing Timing": 0.6933095455169678, "Quantum sensing": 0.7081717252731323, "Quantum control": 0.6751256585121155 } }, { "id": 5807, "title": "General transition-state force field for cytochrome p450 Hydroxylation", "abstract": "We have developed force-field parameters for the hydrogen-abstraction transition state of aliphatic hydroxylation by cytochrome P450 using the Q2MM approach. The parametrization is based on quantum ch...", "citations": 61, "author_count": 5, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5814, "doi": "10.1021/ct700110f", "umap_coordinates": { "x": 393.1480712890625, "y": 137.15084838867188, "z": 205.0548858642578 }, "tsne_coordinates": { "x": 1.521488070487976, "y": 19.52190589904785, "z": 27.520009994506836 }, "pca_coordinates": { "x": -1.1532648801803589, "y": 1.1737076044082642, "z": -5.103152751922607 }, "axis_scores": { "Quantum imaging": 0.65167236328125, "Quantum Life Science Sensing": 0.6996402740478516, "Quantum sensing Detection": 0.6548383235931396, "Quantum sensing Metrology": 0.6551110744476318, "Quantum sensing navigation": 0.6600960493087769, "Quantum sensing Position": 0.6338250637054443, "Quantum sensing Timing": 0.6347060203552246, "Quantum sensing": 0.6699877381324768, "Quantum control": 0.686884880065918 } }, { "id": 5808, "title": "Performance evaluation of a sub-millimetre spectrally resolved CT system on high- and low-frequency imaging tasks: a simulation", "abstract": "We are developing a photon-counting silicon strip detector with 0.4 x 0.5 mm(2) detector elements for clinical CT applications. Except for the limited detection efficiency of approximately 0.8 for a s...", "citations": 15, "author_count": 4, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5815, "doi": "10.1088/0031-9155/57/8/2373", "umap_coordinates": { "x": 395.5937805175781, "y": 132.88856506347656, "z": 205.17735290527344 }, "tsne_coordinates": { "x": 0.7964007258415222, "y": 23.55029296875, "z": -20.61685562133789 }, "pca_coordinates": { "x": -1.9271903038024902, "y": 4.366396903991699, "z": 2.6255595684051514 }, "axis_scores": { "Quantum imaging": 0.7279569506645203, "Quantum Life Science Sensing": 0.7029227018356323, "Quantum sensing Detection": 0.682067334651947, "Quantum sensing Metrology": 0.6884116530418396, "Quantum sensing navigation": 0.6689273715019226, "Quantum sensing Position": 0.663548469543457, "Quantum sensing Timing": 0.6883594989776611, "Quantum sensing": 0.6930935382843018, "Quantum control": 0.6416686177253723 } }, { "id": 5809, "title": "Radiopaque dyes allow vessel imaging in lung tissue using laboratory phase contrast micro-CT", "abstract": "Phase contrast micro-CT is a powerful technique allowing imaging of soft tissue at synchrotrons or using laboratory sources. The use of contrast agents is a useful approach when imaging vascular struc...", "citations": 2, "author_count": 7, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5816, "doi": "10.1117/12.2632343", "umap_coordinates": { "x": 395.27764892578125, "y": 133.71173095703125, "z": 205.1538543701172 }, "tsne_coordinates": { "x": -1.3631757497787476, "y": 23.027515411376953, "z": -26.75038719177246 }, "pca_coordinates": { "x": -3.389965295791626, "y": 3.5829150676727295, "z": 1.7427294254302979 }, "axis_scores": { "Quantum imaging": 0.7463229298591614, "Quantum Life Science Sensing": 0.7196106910705566, "Quantum sensing Detection": 0.7043582797050476, "Quantum sensing Metrology": 0.6883254051208496, "Quantum sensing navigation": 0.7086201906204224, "Quantum sensing Position": 0.6912035942077637, "Quantum sensing Timing": 0.6822590827941895, "Quantum sensing": 0.7160488367080688, "Quantum control": 0.6918032169342041 } }, { "id": 5810, "title": "Continuous shipboard determination of Fe(II) in polar waters using flow injection analysis with chemiluminescence detection", "abstract": "A method for the continuous underway determination of Fe(II) in polar waters is reported. Surface seawater is pumped into a shipboard clean room container using a towed fish with Teflon diaphragm pump...", "citations": 118, "author_count": 3, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5817, "doi": "10.1016/S0003-2670(02)00596-2", "umap_coordinates": { "x": 394.0022277832031, "y": 135.28668212890625, "z": 204.5150909423828 }, "tsne_coordinates": { "x": -5.411051273345947, "y": 19.289344787597656, "z": 3.624128818511963 }, "pca_coordinates": { "x": -3.18525767326355, "y": 2.395885705947876, "z": -0.3841933608055115 }, "axis_scores": { "Quantum imaging": 0.6905194520950317, "Quantum Life Science Sensing": 0.7034656405448914, "Quantum sensing Detection": 0.6757784485816956, "Quantum sensing Metrology": 0.6611536741256714, "Quantum sensing navigation": 0.6938968300819397, "Quantum sensing Position": 0.657241702079773, "Quantum sensing Timing": 0.6383659243583679, "Quantum sensing": 0.6789263486862183, "Quantum control": 0.6682516932487488 } }, { "id": 5811, "title": "Dual-chirp-based photonic THz-ISAC system with adaptive frequency synchronization", "abstract": "Recent advancements have brought significant attention to photonic terahertz (THz)-integrated sensing and communication (ISAC) systems. In this work, we present an adaptive frequency offset (FO) compe...", "citations": 5, "author_count": 10, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5818, "doi": "10.1364/OL.530911", "umap_coordinates": { "x": 394.642333984375, "y": 133.53050231933594, "z": 206.7728729248047 }, "tsne_coordinates": { "x": 1.5810412168502808, "y": -4.737584114074707, "z": -38.130313873291016 }, "pca_coordinates": { "x": -0.5871780514717102, "y": -0.4577047824859619, "z": 2.7409048080444336 }, "axis_scores": { "Quantum imaging": 0.7128969430923462, "Quantum Life Science Sensing": 0.6903971433639526, "Quantum sensing Detection": 0.6746580004692078, "Quantum sensing Metrology": 0.6866658926010132, "Quantum sensing navigation": 0.6789056062698364, "Quantum sensing Position": 0.664733350276947, "Quantum sensing Timing": 0.7110679745674133, "Quantum sensing": 0.6944344639778137, "Quantum control": 0.6829641461372375 } }, { "id": 5812, "title": "Optical frequency comb technology for ultra-broadband radio-frequency photonics", "abstract": "The outstanding phase-noise performance of optical frequency combs has led to a revolution in optical synthesis and metrology, covering a myriad of applications, from molecular spectroscopy to laser r...", "citations": 437, "author_count": 3, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5819, "doi": "10.1002/lpor.201300126", "umap_coordinates": { "x": 394.2423095703125, "y": 133.92144775390625, "z": 206.3052215576172 }, "tsne_coordinates": { "x": 6.482760906219482, "y": -6.67979621887207, "z": -34.05491638183594 }, "pca_coordinates": { "x": -2.25887393951416, "y": 0.3325819969177246, "z": 1.2213983535766602 }, "axis_scores": { "Quantum imaging": 0.7148085832595825, "Quantum Life Science Sensing": 0.7441688179969788, "Quantum sensing Detection": 0.7052232623100281, "Quantum sensing Metrology": 0.7134142518043518, "Quantum sensing navigation": 0.6982224583625793, "Quantum sensing Position": 0.6875931620597839, "Quantum sensing Timing": 0.6732807159423828, "Quantum sensing": 0.7189295291900635, "Quantum control": 0.6987376809120178 } }, { "id": 5813, "title": "Semi-exclusive production of photons at HERA", "abstract": "We study the feasibility of measuring the semi-exclusive photon production gamma + p --> gamma + Y at HERA. The cross section of photons produced at large transverse momenta, recoiling off an inclusiv...", "citations": 10, "author_count": 4, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 5820, "doi": "10.1007/s100520000467", "umap_coordinates": { "x": 395.7517395019531, "y": 134.45584106445312, "z": 206.70025634765625 }, "tsne_coordinates": { "x": -26.478824615478516, "y": 10.54188346862793, "z": -8.019902229309082 }, "pca_coordinates": { "x": -1.8693742752075195, "y": 1.4090523719787598, "z": 2.4524989128112793 }, "axis_scores": { "Quantum imaging": 0.743828296661377, "Quantum Life Science Sensing": 0.7506001591682434, "Quantum sensing Detection": 0.7590585350990295, "Quantum sensing Metrology": 0.7390028238296509, "Quantum sensing navigation": 0.7204738855361938, "Quantum sensing Position": 0.6866011619567871, "Quantum sensing Timing": 0.7057803869247437, "Quantum sensing": 0.7621585130691528, "Quantum control": 0.6857744455337524 } }, { "id": 5814, "title": "MOTOR IMAGERY ACTIVATES THE CEREBELLUM REGIONALLY - A SPECT RCBF STUDY WITH TC-99M-HMPAO", "abstract": "Our earlier findings of a cerebellar activation during motor imagery (Brain Res., 535 (1990) 313-317) were made with a technique with low regional resolution. Therefore we could not elucidate the dist...", "citations": 124, "author_count": 6, "categories": [ "Computer Science" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5821, "doi": "10.1016/0926-6410(93)90015-W", "umap_coordinates": { "x": 395.3396911621094, "y": 133.89202880859375, "z": 204.42135620117188 }, "tsne_coordinates": { "x": -3.7055418491363525, "y": 31.796628952026367, "z": -2.7784996032714844 }, "pca_coordinates": { "x": -2.5311920642852783, "y": 4.44624662399292, "z": 0.43731218576431274 }, "axis_scores": { "Quantum imaging": 0.674885630607605, "Quantum Life Science Sensing": 0.6232089400291443, "Quantum sensing Detection": 0.6341660618782043, "Quantum sensing Metrology": 0.6352154612541199, "Quantum sensing navigation": 0.6633608937263489, "Quantum sensing Position": 0.6529964208602905, "Quantum sensing Timing": 0.6324456930160522, "Quantum sensing": 0.6386611461639404, "Quantum control": 0.6421588063240051 } }, { "id": 5815, "title": "IMAGE ARTIFACTS AT HIGH PHOTON FLUENCE RATES IN SINGLE-CRYSTAL NAL(TL) SCINTILLATION CAMERAS", "abstract": "A method that simulated a clinically relevant situation was used to measure the amount of pulse pileup in the .gamma. image by distinguishing between correctly and incorrectly positioned events. Compa...", "citations": 21, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1978, "topic": [ "all" ], "embedding_index": 5822, "doi": null, "umap_coordinates": { "x": 391.6050720214844, "y": 139.50733947753906, "z": 209.90200805664062 }, "tsne_coordinates": { "x": -1.6604983806610107, "y": 40.65883255004883, "z": -10.090896606445312 }, "pca_coordinates": { "x": -3.6864824295043945, "y": 2.7644236087799072, "z": 0.915462076663971 }, "axis_scores": { "Quantum imaging": 0.7527143359184265, "Quantum Life Science Sensing": 0.7177685499191284, "Quantum sensing Detection": 0.7138957381248474, "Quantum sensing Metrology": 0.694132924079895, "Quantum sensing navigation": 0.7002109289169312, "Quantum sensing Position": 0.6732235550880432, "Quantum sensing Timing": 0.6987560987472534, "Quantum sensing": 0.7189717888832092, "Quantum control": 0.7014025449752808 } }, { "id": 5816, "title": "Light pulse shape dependence on γ-ray energy in CsI(Tl)", "abstract": "A detailed study of the scintillation light pulse shape in CsI(Tl) at room temperature as a function of incoming photon energy in 6 divided by 662 keV energy range is presented. Three samples of CsI(T...", "citations": 50, "author_count": 6, "categories": [ "Engineering" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5823, "doi": "10.1109/TNS.2008.922805", "umap_coordinates": { "x": 394.5121765136719, "y": 132.93820190429688, "z": 206.0636749267578 }, "tsne_coordinates": { "x": -17.47747039794922, "y": 17.335424423217773, "z": -21.097753524780273 }, "pca_coordinates": { "x": -2.145094633102417, "y": -0.04823470115661621, "z": 2.2067580223083496 }, "axis_scores": { "Quantum imaging": 0.7036386728286743, "Quantum Life Science Sensing": 0.7079153656959534, "Quantum sensing Detection": 0.688388466835022, "Quantum sensing Metrology": 0.6739373207092285, "Quantum sensing navigation": 0.6774320006370544, "Quantum sensing Position": 0.6862553358078003, "Quantum sensing Timing": 0.7221189737319946, "Quantum sensing": 0.6994147896766663, "Quantum control": 0.6516666412353516 } }, { "id": 5817, "title": "Orientation effects in morphology and electronic properties of anatase TiO2 one-dimensional nanostructures. I. Nanowires", "abstract": "By means of ab initio calculations we have revealed the existence of sizable anisotropy in electronic properties of anatase TiO2 nanowires with respect to orientation: nanowires with 001 , 100 and 110...", "citations": 18, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5824, "doi": "10.1039/c3cp54988g", "umap_coordinates": { "x": 392.1825866699219, "y": 134.46926879882812, "z": 207.28871154785156 }, "tsne_coordinates": { "x": 22.426889419555664, "y": -38.62574768066406, "z": -8.32656192779541 }, "pca_coordinates": { "x": -0.7056621313095093, "y": -4.095734119415283, "z": -2.797011375427246 }, "axis_scores": { "Quantum imaging": 0.7005727887153625, "Quantum Life Science Sensing": 0.7066291570663452, "Quantum sensing Detection": 0.6753993630409241, "Quantum sensing Metrology": 0.6583201885223389, "Quantum sensing navigation": 0.6858306527137756, "Quantum sensing Position": 0.6565597653388977, "Quantum sensing Timing": 0.6445088386535645, "Quantum sensing": 0.6916872262954712, "Quantum control": 0.6854668855667114 } }, { "id": 5818, "title": "PPMS-based set-up for Raman and luminescence spectroscopy at high magnetic field, high pressure and low temperature", "abstract": "We present an experimental set-up permitting Raman and luminescence spectroscopy studies in a commercial Physical Properties Measurement System (PPMS) from Quantum Design. Using this experimental set-...", "citations": 3, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5825, "doi": "10.1140/epjti/s40485-015-0014-x", "umap_coordinates": { "x": 394.9703063964844, "y": 135.18910217285156, "z": 206.3466033935547 }, "tsne_coordinates": { "x": -21.551025390625, "y": 9.04658317565918, "z": -3.9702775478363037 }, "pca_coordinates": { "x": -1.3082138299942017, "y": 1.3113338947296143, "z": 0.011218070983886719 }, "axis_scores": { "Quantum imaging": 0.6698624491691589, "Quantum Life Science Sensing": 0.691789448261261, "Quantum sensing Detection": 0.6558225154876709, "Quantum sensing Metrology": 0.6740960478782654, "Quantum sensing navigation": 0.6423570513725281, "Quantum sensing Position": 0.6793208122253418, "Quantum sensing Timing": 0.6796711683273315, "Quantum sensing": 0.6713188886642456, "Quantum control": 0.651134192943573 } }, { "id": 5819, "title": "DISCOVERY OF VERY HIGH ENERGY GAMMA RAYS FROM PKS 1424+240 AND MULTIWAVELENGTH CONSTRAINTS ON ITS REDSHIFT", "abstract": "We report the first detection of very high energy(83) (VHE) gamma-ray emission above 140 GeV from PKS 1424+240, a BL Lac object with an unknown redshift. The photon spectrum above 140 GeV measured by ...", "citations": 72, "author_count": 246, "categories": [ "Astronomy & Astrophysics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5826, "doi": "10.1088/2041-8205/708/2/L100", "umap_coordinates": { "x": 396.08721923828125, "y": 134.3929443359375, "z": 206.14918518066406 }, "tsne_coordinates": { "x": -26.91773223876953, "y": 21.83833122253418, "z": -5.848707675933838 }, "pca_coordinates": { "x": -1.998639464378357, "y": 2.397719144821167, "z": 2.3454389572143555 }, "axis_scores": { "Quantum imaging": 0.6883598566055298, "Quantum Life Science Sensing": 0.7021051645278931, "Quantum sensing Detection": 0.6759324073791504, "Quantum sensing Metrology": 0.6787480711936951, "Quantum sensing navigation": 0.6829895377159119, "Quantum sensing Position": 0.6837742328643799, "Quantum sensing Timing": 0.6935771107673645, "Quantum sensing": 0.6756063103675842, "Quantum control": 0.6357346773147583 } }, { "id": 5820, "title": "Particle and Heavy Ion Transport code System, PHITS, version 2.52", "abstract": "An upgraded version of the Particle and Heavy Ion Transport code System, PHITS2.52, was developed and released to the public. The new version has been greatly improved from the previously released ver...", "citations": 712, "author_count": 16, "categories": [ "Nuclear Science & Technology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5827, "doi": "10.1080/00223131.2013.814553", "umap_coordinates": { "x": 395.47308349609375, "y": 135.2781982421875, "z": 206.0573272705078 }, "tsne_coordinates": { "x": -18.73613929748535, "y": 28.302583694458008, "z": 7.365917682647705 }, "pca_coordinates": { "x": -0.6366931796073914, "y": 1.9805234670639038, "z": 0.04976391792297363 }, "axis_scores": { "Quantum imaging": 0.714099645614624, "Quantum Life Science Sensing": 0.7152748107910156, "Quantum sensing Detection": 0.6984057426452637, "Quantum sensing Metrology": 0.6869875192642212, "Quantum sensing navigation": 0.7154541611671448, "Quantum sensing Position": 0.6999720931053162, "Quantum sensing Timing": 0.7075363397598267, "Quantum sensing": 0.7141191363334656, "Quantum control": 0.6970534324645996 } }, { "id": 5821, "title": "Ground-state phase diagram of ultrasoft bosons", "abstract": "In two-dimensional bosonic systems ultrasoft interactions develop an interesting phenomenology that ultimately leads to the appearance of supersolid phases in free space conditions. While suggested in...", "citations": 6, "author_count": 4, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5828, "doi": "10.1103/PhysRevA.104.013301", "umap_coordinates": { "x": 394.89154052734375, "y": 136.1722869873047, "z": 208.96473693847656 }, "tsne_coordinates": { "x": -7.9634222984313965, "y": -16.815677642822266, "z": 8.047728538513184 }, "pca_coordinates": { "x": 5.974818229675293, "y": -1.7009940147399902, "z": -0.8225784301757812 }, "axis_scores": { "Quantum imaging": 0.7186465263366699, "Quantum Life Science Sensing": 0.7376393675804138, "Quantum sensing Detection": 0.7253867387771606, "Quantum sensing Metrology": 0.7099327445030212, "Quantum sensing navigation": 0.7392726540565491, "Quantum sensing Position": 0.7070578336715698, "Quantum sensing Timing": 0.7075574994087219, "Quantum sensing": 0.7304524183273315, "Quantum control": 0.7021567225456238 } }, { "id": 5822, "title": "Load Balancing for Particle-in-Cell Plasma Simulation on Multicore Systems", "abstract": "Particle-in-cell plasma simulation is an important area of computational physics. The particle-in-cell method naturally allows parallel processing on distributed and shared memory. In this paper we ad...", "citations": 2, "author_count": 8, "categories": [ "Computer Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5829, "doi": "10.1007/978-3-319-78024-5_14", "umap_coordinates": { "x": 394.3105163574219, "y": 135.19544982910156, "z": 205.24583435058594 }, "tsne_coordinates": { "x": -15.687179565429688, "y": 18.955219268798828, "z": 5.7502923011779785 }, "pca_coordinates": { "x": -1.0058379173278809, "y": 0.9953100681304932, "z": -0.8100049495697021 }, "axis_scores": { "Quantum imaging": 0.7015202045440674, "Quantum Life Science Sensing": 0.702969491481781, "Quantum sensing Detection": 0.672288179397583, "Quantum sensing Metrology": 0.7071713209152222, "Quantum sensing navigation": 0.6957932114601135, "Quantum sensing Position": 0.6848798990249634, "Quantum sensing Timing": 0.6750717759132385, "Quantum sensing": 0.6940011978149414, "Quantum control": 0.6960797309875488 } }, { "id": 5823, "title": "An algorithm for real-time dosimetry in intensity-modulated radiation therapy using the radioluminescence signal from Al2O3:C", "abstract": "Although the radioluminescence (RL) signal from optical fibre Al2O3:C dosemeters used in medical applications is essentially proportional to dose rate, the crystals used so far are imperfect in the se...", "citations": 74, "author_count": 7, "categories": [ "Environmental Sciences & Ecology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5830, "doi": "10.1093/rpd/nci600", "umap_coordinates": { "x": 395.7906188964844, "y": 133.06639099121094, "z": 204.7218475341797 }, "tsne_coordinates": { "x": 0.4374094307422638, "y": 30.480670928955078, "z": -11.919598579406738 }, "pca_coordinates": { "x": -2.863339424133301, "y": 2.8329641819000244, "z": 1.203458309173584 }, "axis_scores": { "Quantum imaging": 0.715897798538208, "Quantum Life Science Sensing": 0.7305286526679993, "Quantum sensing Detection": 0.7038835883140564, "Quantum sensing Metrology": 0.6910998821258545, "Quantum sensing navigation": 0.7128444910049438, "Quantum sensing Position": 0.690889298915863, "Quantum sensing Timing": 0.7147290706634521, "Quantum sensing": 0.7037482261657715, "Quantum control": 0.6867850422859192 } }, { "id": 5824, "title": "Soft X-ray undulator beam line I411 at MAX-II for gases, liquids and solid samples", "abstract": "We report on the build-up of the new undulator beam line I411 at the third-generation synchrotron radiation facility MAX II in Lund, Sweden. This beam line is based on an upgraded version of the modif...", "citations": 163, "author_count": 12, "categories": [ "Spectroscopy" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5831, "doi": "10.1016/S0368-2048(98)00379-X", "umap_coordinates": { "x": 395.45257568359375, "y": 134.00631713867188, "z": 205.71646118164062 }, "tsne_coordinates": { "x": -20.47475242614746, "y": 11.210847854614258, "z": -20.840587615966797 }, "pca_coordinates": { "x": -1.4682538509368896, "y": 1.2880432605743408, "z": 1.1301677227020264 }, "axis_scores": { "Quantum imaging": 0.6714889407157898, "Quantum Life Science Sensing": 0.6908870935440063, "Quantum sensing Detection": 0.6576763987541199, "Quantum sensing Metrology": 0.6726503968238831, "Quantum sensing navigation": 0.6559476256370544, "Quantum sensing Position": 0.6741058826446533, "Quantum sensing Timing": 0.6576773524284363, "Quantum sensing": 0.6731442213058472, "Quantum control": 0.6164354681968689 } }, { "id": 5825, "title": "A hybrid quantum mechanical force field molecular dynamics simulation of liquid methanol: Vibrational frequency shifts as a probe of the quantum mechanical molecular mechanical coupling", "abstract": "A hybrid quantum mechanical molecular dynamics method is used to study liquid methanol at room temperature and normal density. Frequencies of the twelve vibrational modes are calculated from the simul...", "citations": 57, "author_count": 4, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 5832, "doi": "10.1063/1.471439", "umap_coordinates": { "x": 393.3619079589844, "y": 137.451416015625, "z": 206.56558227539062 }, "tsne_coordinates": { "x": -1.9376544952392578, "y": 9.489768028259277, "z": 32.9871711730957 }, "pca_coordinates": { "x": 2.0577585697174072, "y": 0.1803145408630371, "z": -2.48110032081604 }, "axis_scores": { "Quantum imaging": 0.7032679319381714, "Quantum Life Science Sensing": 0.7253237366676331, "Quantum sensing Detection": 0.6981924176216125, "Quantum sensing Metrology": 0.7039970755577087, "Quantum sensing navigation": 0.6908015608787537, "Quantum sensing Position": 0.6793107986450195, "Quantum sensing Timing": 0.6577872037887573, "Quantum sensing": 0.7158728837966919, "Quantum control": 0.7107746005058289 } }, { "id": 5826, "title": "Light-front approach to axial-vector quarkonium γ*γ* form factors", "abstract": "In this work, we perform a detailed study of transition form factors for axial-vector meson production via the two-photon fusion process gamma*gamma* -> 1(+)(+), with space-like virtual photons in the...", "citations": 7, "author_count": 5, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5833, "doi": "10.1007/JHEP09(2022)170", "umap_coordinates": { "x": 396.3280029296875, "y": 135.705078125, "z": 206.76229858398438 }, "tsne_coordinates": { "x": -23.47869873046875, "y": 27.753665924072266, "z": 13.281855583190918 }, "pca_coordinates": { "x": -0.5487868785858154, "y": 2.816082000732422, "z": -1.1284133195877075 }, "axis_scores": { "Quantum imaging": 0.696051836013794, "Quantum Life Science Sensing": 0.7029757499694824, "Quantum sensing Detection": 0.6718859076499939, "Quantum sensing Metrology": 0.6483786106109619, "Quantum sensing navigation": 0.7109946012496948, "Quantum sensing Position": 0.6890740394592285, "Quantum sensing Timing": 0.6580537557601929, "Quantum sensing": 0.6801446080207825, "Quantum control": 0.6863465905189514 } }, { "id": 5827, "title": "Controlled generation of luminescent centers in hexagonal boron nitride by irradiation engineering", "abstract": "Luminescent centers in the two-dimensional material hexagonal boron nitride have the potential to enable quantum applications at room temperature. To be used for applications, it is crucial to generat...", "citations": 85, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5834, "doi": "10.1126/sciadv.abe7138", "umap_coordinates": { "x": 393.8538818359375, "y": 135.02220153808594, "z": 206.0386199951172 }, "tsne_coordinates": { "x": -10.43094539642334, "y": -2.6887288093566895, "z": 7.344688892364502 }, "pca_coordinates": { "x": -1.862217664718628, "y": -0.9836318492889404, "z": 0.1346050500869751 }, "axis_scores": { "Quantum imaging": 0.7336625456809998, "Quantum Life Science Sensing": 0.7275006175041199, "Quantum sensing Detection": 0.6990529894828796, "Quantum sensing Metrology": 0.7003262639045715, "Quantum sensing navigation": 0.7208934426307678, "Quantum sensing Position": 0.6754417419433594, "Quantum sensing Timing": 0.6784047484397888, "Quantum sensing": 0.7138105034828186, "Quantum control": 0.7264852523803711 } }, { "id": 5828, "title": "Exact estimate of the α-decay rate and semiclassical approach in deformed nuclei", "abstract": "We compare the quantum mechanical procedures to estimate the total alpha-decay width from deformed nuclei in the laboratory and intrinsic systems of coordinates. Our analysis shows that the total half...", "citations": 43, "author_count": 4, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5835, "doi": "10.1103/PhysRevC.92.051301", "umap_coordinates": { "x": 394.02801513671875, "y": 137.1178741455078, "z": 207.20272827148438 }, "tsne_coordinates": { "x": -3.6575472354888916, "y": -10.724651336669922, "z": -9.670337677001953 }, "pca_coordinates": { "x": 2.5894105434417725, "y": 1.6402394771575928, "z": -0.7301587462425232 }, "axis_scores": { "Quantum imaging": 0.6808268427848816, "Quantum Life Science Sensing": 0.708946168422699, "Quantum sensing Detection": 0.6826844215393066, "Quantum sensing Metrology": 0.6605782508850098, "Quantum sensing navigation": 0.6814591288566589, "Quantum sensing Position": 0.6797411441802979, "Quantum sensing Timing": 0.6809713244438171, "Quantum sensing": 0.6855956315994263, "Quantum control": 0.6688213348388672 } }, { "id": 5829, "title": "Measurement of beauty production at HERA using events with muons and jets", "abstract": "A measurement of the beauty production cross section in ep collisions at a centre-of-mass energy of 319 GeV is presented. The data were collected with the H1 detector at the HERA collider in the years...", "citations": 57, "author_count": 302, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5836, "doi": "10.1140/epjc/s2005-02267-0", "umap_coordinates": { "x": 397.0306091308594, "y": 134.341064453125, "z": 207.056640625 }, "tsne_coordinates": { "x": -31.092561721801758, "y": 14.742100715637207, "z": -5.9601616859436035 }, "pca_coordinates": { "x": -1.3633641004562378, "y": 2.6763811111450195, "z": 2.621457576751709 }, "axis_scores": { "Quantum imaging": 0.6861502528190613, "Quantum Life Science Sensing": 0.6730411052703857, "Quantum sensing Detection": 0.6902365684509277, "Quantum sensing Metrology": 0.6705704927444458, "Quantum sensing navigation": 0.6708896160125732, "Quantum sensing Position": 0.687971830368042, "Quantum sensing Timing": 0.7100014090538025, "Quantum sensing": 0.6907569169998169, "Quantum control": 0.69159334897995 } }, { "id": 5830, "title": "Asymmetric quantum telecloning of d-level systems and broadcasting of entanglement to different locations using the many-to-many communication protocol - art. no. 012323", "abstract": "We propose a generalization of quantum teleportation: the so-called many-to-many quantum communication of the information of a d-level system from N spatially separated senders to M>N receivers situat...", "citations": 81, "author_count": 2, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5837, "doi": "10.1103/PhysRevA.67.012323", "umap_coordinates": { "x": 396.0325012207031, "y": 136.2982940673828, "z": 207.69056701660156 }, "tsne_coordinates": { "x": -28.504423141479492, "y": -10.673099517822266, "z": 0.8143194317817688 }, "pca_coordinates": { "x": 3.654080867767334, "y": 1.3127747774124146, "z": 1.9347517490386963 }, "axis_scores": { "Quantum imaging": 0.712498664855957, "Quantum Life Science Sensing": 0.6933221817016602, "Quantum sensing Detection": 0.703865647315979, "Quantum sensing Metrology": 0.7003206610679626, "Quantum sensing navigation": 0.7146832942962646, "Quantum sensing Position": 0.6921170949935913, "Quantum sensing Timing": 0.6918945908546448, "Quantum sensing": 0.7149152159690857, "Quantum control": 0.7114583253860474 } }, { "id": 5831, "title": "Conformational change as a Franck-Condon electronic process", "abstract": "Conformational changes are described as Franck-Condon electronic processes, thereby providing an alternative perspective for understanding molecular processes. The theory is based on a variant of the ...", "citations": 6, "author_count": 2, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 5838, "doi": "10.1016/S0166-1280(00)00665-5", "umap_coordinates": { "x": 393.5785827636719, "y": 136.42739868164062, "z": 206.3112030029297 }, "tsne_coordinates": { "x": -8.654777526855469, "y": 20.049198150634766, "z": 30.36455726623535 }, "pca_coordinates": { "x": 0.48485279083251953, "y": 0.680689811706543, "z": -3.7467100620269775 }, "axis_scores": { "Quantum imaging": 0.6905952095985413, "Quantum Life Science Sensing": 0.7182650566101074, "Quantum sensing Detection": 0.6858180165290833, "Quantum sensing Metrology": 0.6731566786766052, "Quantum sensing navigation": 0.697066605091095, "Quantum sensing Position": 0.6862130165100098, "Quantum sensing Timing": 0.6533628106117249, "Quantum sensing": 0.7073509693145752, "Quantum control": 0.7085998058319092 } }, { "id": 5832, "title": "Migrating photon avalanche in different emitters at the nanoscale enables 46th-order optical nonlinearity", "abstract": "A photon avalanche (PA) effect that occurs in lanthanide-doped solids gives rise to a giant nonlinear response in the luminescence intensity to the excitation light intensity. As a result, much weaker...", "citations": 146, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5839, "doi": "10.1038/s41565-022-01101-8", "umap_coordinates": { "x": 393.3339538574219, "y": 135.39801025390625, "z": 206.2286834716797 }, "tsne_coordinates": { "x": -14.306916236877441, "y": -1.477280616760254, "z": -2.354320764541626 }, "pca_coordinates": { "x": -0.6155082583427429, "y": -1.58475923538208, "z": 1.2562201023101807 }, "axis_scores": { "Quantum imaging": 0.699683666229248, "Quantum Life Science Sensing": 0.6975914835929871, "Quantum sensing Detection": 0.698167622089386, "Quantum sensing Metrology": 0.6836897730827332, "Quantum sensing navigation": 0.6851189136505127, "Quantum sensing Position": 0.6898869276046753, "Quantum sensing Timing": 0.673427402973175, "Quantum sensing": 0.7004496455192566, "Quantum control": 0.6344839334487915 } }, { "id": 5833, "title": "Experimental study of single- and double-electron transfer in slow Ne8++Hecollisions using photon and electron spectroscopy", "abstract": "Single- and double-electron transfer from He to the Ne8+(ls(2))S-0(1) ion has been studied at 80 keV by extreme ultraviolet (EUV) spectroscopy and zero-degree electron spectroscopy. Signals originatin...", "citations": 14, "author_count": 8, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5840, "doi": "10.1103/PhysRevA.60.2917", "umap_coordinates": { "x": 395.4138488769531, "y": 134.83094787597656, "z": 207.88088989257812 }, "tsne_coordinates": { "x": -3.0936949253082275, "y": -2.982896566390991, "z": 18.68709945678711 }, "pca_coordinates": { "x": 2.1770920753479004, "y": -0.558753490447998, "z": 1.4047973155975342 }, "axis_scores": { "Quantum imaging": 0.698895275592804, "Quantum Life Science Sensing": 0.7249085903167725, "Quantum sensing Detection": 0.6979365348815918, "Quantum sensing Metrology": 0.673759400844574, "Quantum sensing navigation": 0.6924526691436768, "Quantum sensing Position": 0.656019926071167, "Quantum sensing Timing": 0.6607992053031921, "Quantum sensing": 0.702530026435852, "Quantum control": 0.6665077209472656 } }, { "id": 5834, "title": "Restoration of images degraded by signal-dependent noise based on energy minimization: an empirical study", "abstract": "Most energy minimization-based restoration methods are developed for signal-independent Gaussian noise. The assumption of Gaussian noise distribution leads to a quadratic data fidelity term, which is ...", "citations": 6, "author_count": 4, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5841, "doi": "10.1117/1.JEI.25.4.043020", "umap_coordinates": { "x": 395.8280029296875, "y": 132.99832153320312, "z": 205.4618377685547 }, "tsne_coordinates": { "x": -11.247346878051758, "y": 25.698850631713867, "z": -28.602603912353516 }, "pca_coordinates": { "x": -1.5920178890228271, "y": 2.2520246505737305, "z": 1.5057849884033203 }, "axis_scores": { "Quantum imaging": 0.733429491519928, "Quantum Life Science Sensing": 0.7102313041687012, "Quantum sensing Detection": 0.7002848386764526, "Quantum sensing Metrology": 0.6809008717536926, "Quantum sensing navigation": 0.6850135326385498, "Quantum sensing Position": 0.6674203276634216, "Quantum sensing Timing": 0.6436467170715332, "Quantum sensing": 0.7043467164039612, "Quantum control": 0.6703070998191833 } }, { "id": 5835, "title": "Investigation and compensation of the nonlinear response in photomultiplier tubes for quantitative single-shot measurements", "abstract": "A concept for time-sensitive optical detectors is described that shows how to confirm whether the detection device is operating in the linear response regime. By evaluating the recorded time decay of ...", "citations": 20, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5842, "doi": "10.1063/1.3693618", "umap_coordinates": { "x": 394.9042663574219, "y": 133.34584045410156, "z": 206.76060485839844 }, "tsne_coordinates": { "x": -6.865420341491699, "y": 8.384577751159668, "z": -24.252595901489258 }, "pca_coordinates": { "x": -1.1631120443344116, "y": -0.5086638927459717, "z": 3.627987861633301 }, "axis_scores": { "Quantum imaging": 0.7313682436943054, "Quantum Life Science Sensing": 0.7463063597679138, "Quantum sensing Detection": 0.7398195266723633, "Quantum sensing Metrology": 0.7614350318908691, "Quantum sensing navigation": 0.7074000239372253, "Quantum sensing Position": 0.7051834464073181, "Quantum sensing Timing": 0.7069957852363586, "Quantum sensing": 0.7514978051185608, "Quantum control": 0.6894612312316895 } }, { "id": 5836, "title": "Toward Accurate Two-Photon Absorption Spectrum Simulations: Exploring the Landscape beyond the Generalized Gradient Approximation", "abstract": "In this Letter, we present a pioneering analysis of the density functional approximations (DFAs) beyond the generalized gradient approximation (GGA) for predicting two-photon absorption (2PA) strength...", "citations": 21, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5843, "doi": "10.1021/acs.jpclett.3c03513", "umap_coordinates": { "x": 392.5588073730469, "y": 136.26243591308594, "z": 205.86106872558594 }, "tsne_coordinates": { "x": 3.2537460327148438, "y": -5.016349792480469, "z": -3.114470958709717 }, "pca_coordinates": { "x": -2.2691195011138916, "y": -0.4735567569732666, "z": -1.3904953002929688 }, "axis_scores": { "Quantum imaging": 0.7035873532295227, "Quantum Life Science Sensing": 0.7030267119407654, "Quantum sensing Detection": 0.6817142963409424, "Quantum sensing Metrology": 0.6646270155906677, "Quantum sensing navigation": 0.6980154514312744, "Quantum sensing Position": 0.6620067358016968, "Quantum sensing Timing": 0.656650960445404, "Quantum sensing": 0.698262095451355, "Quantum control": 0.6724845767021179 } }, { "id": 5837, "title": "NONLINEAR SUBELLIPTIC SCHRODINGER EQUATIONS WITH EXTERNAL MAGNETIC FIELD", "abstract": "To account for an external magnetic field in a Hamiltonian of a quantum system on a manifold (modelled here by a subelliptic Dirichlet form), one replaces the the momentum operator 1/i d in the subell...", "citations": 1, "author_count": 2, "categories": [ "Mathematics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5844, "doi": null, "umap_coordinates": { "x": 392.00634765625, "y": 139.09669494628906, "z": 209.18231201171875 }, "tsne_coordinates": { "x": -6.86236572265625, "y": 47.29528045654297, "z": 0.8159990906715393 }, "pca_coordinates": { "x": 0.46673858165740967, "y": 2.7343130111694336, "z": -3.0978212356567383 }, "axis_scores": { "Quantum imaging": 0.7226797938346863, "Quantum Life Science Sensing": 0.70843905210495, "Quantum sensing Detection": 0.6809825301170349, "Quantum sensing Metrology": 0.6820725798606873, "Quantum sensing navigation": 0.7103869915008545, "Quantum sensing Position": 0.6556586027145386, "Quantum sensing Timing": 0.6364025473594666, "Quantum sensing": 0.6950008869171143, "Quantum control": 0.6937074065208435 } }, { "id": 5838, "title": "Cyclic superconducting refrigerators using guided fluxon propagation", "abstract": "We propose cyclic refrigeration in solid state, employing a gas of magnetic field vortices in a type-II superconductor-also known as fluxons-as the cooling agent. Refrigeration cycles are realized by ...", "citations": 4, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5845, "doi": "10.1103/PhysRevResearch.6.013085", "umap_coordinates": { "x": 394.7814025878906, "y": 136.08888244628906, "z": 207.57595825195312 }, "tsne_coordinates": { "x": -13.130205154418945, "y": -33.1535758972168, "z": 20.909709930419922 }, "pca_coordinates": { "x": 3.319030284881592, "y": 1.7031701803207397, "z": 0.6076757311820984 }, "axis_scores": { "Quantum imaging": 0.6951147317886353, "Quantum Life Science Sensing": 0.7296114563941956, "Quantum sensing Detection": 0.6985260248184204, "Quantum sensing Metrology": 0.6876692175865173, "Quantum sensing navigation": 0.732540488243103, "Quantum sensing Position": 0.6843160390853882, "Quantum sensing Timing": 0.6805188655853271, "Quantum sensing": 0.7085236310958862, "Quantum control": 0.6858113408088684 } }, { "id": 5839, "title": "Noninvasive cardiac modulation via triplet-sensitized photoswitching in the phototherapeutic window", "abstract": "Red, far red, or near-infrared photoswitchable drugs offer immense photo-pharmacological advantages due to the higher light penetration through the skin. Such photoactivation is achieved using process...", "citations": 1, "author_count": 21, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5846, "doi": "10.1038/s41467-025-61301-3", "umap_coordinates": { "x": 394.32806396484375, "y": 134.51988220214844, "z": 204.7088165283203 }, "tsne_coordinates": { "x": 12.556977272033691, "y": 25.05443572998047, "z": -7.080381393432617 }, "pca_coordinates": { "x": -3.585416555404663, "y": -0.632850170135498, "z": 0.9823549389839172 }, "axis_scores": { "Quantum imaging": 0.6953552961349487, "Quantum Life Science Sensing": 0.7220333814620972, "Quantum sensing Detection": 0.6855823993682861, "Quantum sensing Metrology": 0.6618925929069519, "Quantum sensing navigation": 0.6453506946563721, "Quantum sensing Position": 0.6493948698043823, "Quantum sensing Timing": 0.6926568746566772, "Quantum sensing": 0.6975555419921875, "Quantum control": 0.6672570109367371 } }, { "id": 5840, "title": "First measurement of the |t|-dependence of coherent J/ψ photonuclear production", "abstract": "The first measurement of the cross section for coherent J/Psi photoproduction as a function of vertical bar t vertical bar, the square of the momentum transferred between the incoming and outgoing tar...", "citations": 48, "author_count": 1029, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5847, "doi": "10.1016/j.physletb.2021.136280", "umap_coordinates": { "x": 396.1319885253906, "y": 134.28355407714844, "z": 206.73336791992188 }, "tsne_coordinates": { "x": -32.08736038208008, "y": 5.619136333465576, "z": -3.965632438659668 }, "pca_coordinates": { "x": -1.0528395175933838, "y": 1.3917598724365234, "z": 2.4026546478271484 }, "axis_scores": { "Quantum imaging": 0.7491017580032349, "Quantum Life Science Sensing": 0.7524400353431702, "Quantum sensing Detection": 0.7635694146156311, "Quantum sensing Metrology": 0.73492431640625, "Quantum sensing navigation": 0.7171630859375, "Quantum sensing Position": 0.7262817621231079, "Quantum sensing Timing": 0.7535673975944519, "Quantum sensing": 0.7571958303451538, "Quantum control": 0.7037839889526367 } }, { "id": 5841, "title": "Hearing Euler characteristic of graphs", "abstract": "The Euler characteristic chi = vertical bar V vertical bar - vertical bar E vertical bar and the total length L are the most important topological and geometrical characteristics of a metric graph. He...", "citations": 24, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5848, "doi": "10.1103/PhysRevE.101.052320", "umap_coordinates": { "x": 395.3989562988281, "y": 136.35427856445312, "z": 208.6752471923828 }, "tsne_coordinates": { "x": -13.961411476135254, "y": -16.56964683532715, "z": 2.118129014968872 }, "pca_coordinates": { "x": 3.2452359199523926, "y": 0.2680950164794922, "z": -0.5521370768547058 }, "axis_scores": { "Quantum imaging": 0.7400065064430237, "Quantum Life Science Sensing": 0.7557963132858276, "Quantum sensing Detection": 0.7452415227890015, "Quantum sensing Metrology": 0.7280482053756714, "Quantum sensing navigation": 0.7463665008544922, "Quantum sensing Position": 0.7237778902053833, "Quantum sensing Timing": 0.7155951857566833, "Quantum sensing": 0.7471377849578857, "Quantum control": 0.7214306592941284 } }, { "id": 5842, "title": "Measurement of the Z(→ l+l-)γ production cross-section in pp collisions at √s=13 TeV with the ATLAS detector", "abstract": "The production of a prompt photon in association with a Z boson is studied in proton-proton collisions at a centre-of-mass energy s = 13 TeV. The analysis uses a data sample with an integrated luminos...", "citations": 16, "author_count": 2681, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5849, "doi": "10.1007/JHEP03(2020)054", "umap_coordinates": { "x": 396.98175048828125, "y": 134.495361328125, "z": 207.22950744628906 }, "tsne_coordinates": { "x": -34.97401809692383, "y": 11.34041976928711, "z": -7.000870227813721 }, "pca_coordinates": { "x": -1.0621347427368164, "y": 2.8648693561553955, "z": 2.3557097911834717 }, "axis_scores": { "Quantum imaging": 0.7068302035331726, "Quantum Life Science Sensing": 0.7186427712440491, "Quantum sensing Detection": 0.7115550637245178, "Quantum sensing Metrology": 0.6911545991897583, "Quantum sensing navigation": 0.7050069570541382, "Quantum sensing Position": 0.7286363244056702, "Quantum sensing Timing": 0.7184836864471436, "Quantum sensing": 0.7115312814712524, "Quantum control": 0.6912572383880615 } }, { "id": 5843, "title": "Experimental nonlocal steering of Bohmian trajectories", "abstract": "Interpretations of quantum mechanics (QM), or proposals for underlying theories, that attempt to present a definite realist picture, such as Bohmian mechanics, require strong non-local effects. Naivel...", "citations": 27, "author_count": 6, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5850, "doi": "10.1364/OE.25.014463", "umap_coordinates": { "x": 395.9607238769531, "y": 136.63150024414062, "z": 207.20359802246094 }, "tsne_coordinates": { "x": -19.892044067382812, "y": -3.5277156829833984, "z": -4.041900157928467 }, "pca_coordinates": { "x": 2.4317550659179688, "y": 2.763582706451416, "z": 0.3492233157157898 }, "axis_scores": { "Quantum imaging": 0.7153003215789795, "Quantum Life Science Sensing": 0.676776111125946, "Quantum sensing Detection": 0.69580078125, "Quantum sensing Metrology": 0.6901606321334839, "Quantum sensing navigation": 0.7599027156829834, "Quantum sensing Position": 0.7140025496482849, "Quantum sensing Timing": 0.6916489005088806, "Quantum sensing": 0.7031571865081787, "Quantum control": 0.7240212559700012 } }, { "id": 5844, "title": "Quantum Time Crystals from Hamiltonians with Long-Range Interactions", "abstract": "Time crystals correspond to a phase of matter where time-translational symmetry (TTS) is broken. Up to date, they are well studied in open quantum systems, where an external drive allows us to break d...", "citations": 108, "author_count": 3, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5851, "doi": "10.1103/PhysRevLett.123.210602", "umap_coordinates": { "x": 395.1871643066406, "y": 137.11898803710938, "z": 207.93521118164062 }, "tsne_coordinates": { "x": -17.7125186920166, "y": -16.181163787841797, "z": 3.694359302520752 }, "pca_coordinates": { "x": 3.9092955589294434, "y": 0.7723698616027832, "z": 0.3066573739051819 }, "axis_scores": { "Quantum imaging": 0.7366256713867188, "Quantum Life Science Sensing": 0.7442845702171326, "Quantum sensing Detection": 0.7200011610984802, "Quantum sensing Metrology": 0.7003172636032104, "Quantum sensing navigation": 0.7129496335983276, "Quantum sensing Position": 0.6843538880348206, "Quantum sensing Timing": 0.7528569102287292, "Quantum sensing": 0.7348344326019287, "Quantum control": 0.7129727602005005 } }, { "id": 5845, "title": "Evolution of valence-band alignment with nitrogen content in GaNAs/GaAs single quantum wells", "abstract": "We report on experimental evidence for the transition of valence-band alignment from type I to type II in GaN(x)As(1-x)/GaAs single quantum wells by photoreflectance measurements. The substitutional n...", "citations": 19, "author_count": 8, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5852, "doi": "10.1063/1.2958232", "umap_coordinates": { "x": 392.90716552734375, "y": 133.40093994140625, "z": 208.13832092285156 }, "tsne_coordinates": { "x": 31.678192138671875, "y": -23.263946533203125, "z": -0.5434336066246033 }, "pca_coordinates": { "x": 1.1404495239257812, "y": -3.8812942504882812, "z": 1.212130069732666 }, "axis_scores": { "Quantum imaging": 0.7221397161483765, "Quantum Life Science Sensing": 0.7291003465652466, "Quantum sensing Detection": 0.7196540832519531, "Quantum sensing Metrology": 0.7271941900253296, "Quantum sensing navigation": 0.7398117780685425, "Quantum sensing Position": 0.7292739748954773, "Quantum sensing Timing": 0.7045580744743347, "Quantum sensing": 0.7335070371627808, "Quantum control": 0.7064259648323059 } }, { "id": 5846, "title": "Propagating and annihilating vortex dipoles in the Gross-Pitaevskii equation", "abstract": "Quantum vortex dynamics in Bose-Einstein condensates or superfluid helium can be informatively described by the Gross-Pitaevskii (GP) equation. Various approximate analytical formulas for a single sta...", "citations": 21, "author_count": 4, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5853, "doi": "10.1103/PhysRevB.88.134522", "umap_coordinates": { "x": 394.3738098144531, "y": 136.80116271972656, "z": 208.99378967285156 }, "tsne_coordinates": { "x": -11.702583312988281, "y": -18.552024841308594, "z": 19.516889572143555 }, "pca_coordinates": { "x": 4.577132225036621, "y": 0.7788774967193604, "z": -0.6668667793273926 }, "axis_scores": { "Quantum imaging": 0.6917451620101929, "Quantum Life Science Sensing": 0.6561964154243469, "Quantum sensing Detection": 0.6778894066810608, "Quantum sensing Metrology": 0.6561403870582581, "Quantum sensing navigation": 0.6892133951187134, "Quantum sensing Position": 0.6502227783203125, "Quantum sensing Timing": 0.674532413482666, "Quantum sensing": 0.6704689264297485, "Quantum control": 0.6536323428153992 } }, { "id": 5847, "title": "Nuclear quantum dynamics in Hexamethylenetetramine and its deuterated counterpart: a DFT-augmented neutron study", "abstract": "Despite being one of the most thoroughly characterised molecular crystals, hexamethylenetetramine (HMT) and its deuterated counterpart (DHMT), are still not fully understood, especially regarding anha...", "citations": 5, "author_count": 11, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5854, "doi": "10.1088/1402-4896/acb323", "umap_coordinates": { "x": 393.0274963378906, "y": 137.29449462890625, "z": 206.97030639648438 }, "tsne_coordinates": { "x": 0.08247895538806915, "y": -8.290596961975098, "z": 40.350650787353516 }, "pca_coordinates": { "x": 1.9331555366516113, "y": 1.4514539241790771, "z": -1.374455451965332 }, "axis_scores": { "Quantum imaging": 0.7104427218437195, "Quantum Life Science Sensing": 0.6825995445251465, "Quantum sensing Detection": 0.6731704473495483, "Quantum sensing Metrology": 0.652157723903656, "Quantum sensing navigation": 0.688273549079895, "Quantum sensing Position": 0.6636989712715149, "Quantum sensing Timing": 0.6849662661552429, "Quantum sensing": 0.6866767406463623, "Quantum control": 0.6882404685020447 } }, { "id": 5848, "title": "Metamagnetic transition and a loss of magnetic hysteresis caused by electron trapping in monolayers of single-molecule magnet Tb2@C79N", "abstract": "Realization of stable spin states in surface-supported magnetic molecules is crucial for their applications in molecular spintronics, memory storage or quantum information processing. In this work, we...", "citations": 10, "author_count": 21, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5855, "doi": "10.1039/d1nr08475e", "umap_coordinates": { "x": 391.99932861328125, "y": 135.97113037109375, "z": 207.19029235839844 }, "tsne_coordinates": { "x": 11.72040843963623, "y": -23.590534210205078, "z": 23.925451278686523 }, "pca_coordinates": { "x": 0.5973315238952637, "y": -2.8446903228759766, "z": -2.7600855827331543 }, "axis_scores": { "Quantum imaging": 0.6619372367858887, "Quantum Life Science Sensing": 0.6789085268974304, "Quantum sensing Detection": 0.6679185628890991, "Quantum sensing Metrology": 0.6785711050033569, "Quantum sensing navigation": 0.6536401510238647, "Quantum sensing Position": 0.6445842385292053, "Quantum sensing Timing": 0.6522799134254456, "Quantum sensing": 0.6722010374069214, "Quantum control": 0.6523621082305908 } }, { "id": 5849, "title": "Long-term responses of the green-algal lichen Parmelia caperata to natural CO2 enrichment", "abstract": "Acclimation to elevated CO2 was investigated in Parmelia caperata originating from the vicinity of a natural CO2 spring, where the average daytime CO2 concentration was 729 +/- 39 mu mol mol(-1) dry a...", "citations": 16, "author_count": 8, "categories": [ "Environmental Sciences & Ecology" ], "year": 1999, "topic": [ "all" ], "embedding_index": 5856, "doi": "10.1007/s004420050773", "umap_coordinates": { "x": 394.24102783203125, "y": 135.7256317138672, "z": 203.73069763183594 }, "tsne_coordinates": { "x": 11.158501625061035, "y": 27.222457885742188, "z": 11.09519100189209 }, "pca_coordinates": { "x": -3.8044703006744385, "y": 1.3060718774795532, "z": -3.0714259147644043 }, "axis_scores": { "Quantum imaging": 0.6747857332229614, "Quantum Life Science Sensing": 0.7280868291854858, "Quantum sensing Detection": 0.6692066788673401, "Quantum sensing Metrology": 0.6642022132873535, "Quantum sensing navigation": 0.6799135208129883, "Quantum sensing Position": 0.6864604949951172, "Quantum sensing Timing": 0.6786347031593323, "Quantum sensing": 0.6927642822265625, "Quantum control": 0.6999807357788086 } }, { "id": 5850, "title": "Performance evaluation of a sub-millimeter spectrally resolved CT system on pediatric imaging tasks: a simulation", "abstract": "We are developing a photon counting silicon strip detector with 0.4x0.5 mm(2) square detector elements for clinical CT applications. Except the somewhat limited detection efficiency at higher kVp's th...", "citations": 1, "author_count": 4, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5857, "doi": "10.1117/12.877826", "umap_coordinates": { "x": 395.3822937011719, "y": 132.644775390625, "z": 205.41232299804688 }, "tsne_coordinates": { "x": 0.7750377058982849, "y": 23.697509765625, "z": -20.344772338867188 }, "pca_coordinates": { "x": -3.012876510620117, "y": 3.3276748657226562, "z": 2.9809298515319824 }, "axis_scores": { "Quantum imaging": 0.753742516040802, "Quantum Life Science Sensing": 0.7281366586685181, "Quantum sensing Detection": 0.7144070863723755, "Quantum sensing Metrology": 0.732096791267395, "Quantum sensing navigation": 0.709022581577301, "Quantum sensing Position": 0.7095664143562317, "Quantum sensing Timing": 0.7222533822059631, "Quantum sensing": 0.7264162302017212, "Quantum control": 0.6631084084510803 } }, { "id": 5851, "title": "Unraveling electronic correlations in warm dense quantum plasmas", "abstract": "The study of matter at extreme densities and temperatures has emerged as a highly active frontier at the interface of plasma physics, material science and quantum chemistry with relevance for planetar...", "citations": 14, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5858, "doi": "10.1038/s41467-025-60278-3", "umap_coordinates": { "x": 394.0626220703125, "y": 136.31117248535156, "z": 206.6764678955078 }, "tsne_coordinates": { "x": -0.6218156218528748, "y": -7.454980850219727, "z": 16.327564239501953 }, "pca_coordinates": { "x": 2.1269829273223877, "y": 0.3330376148223877, "z": -0.8760265707969666 }, "axis_scores": { "Quantum imaging": 0.7393865585327148, "Quantum Life Science Sensing": 0.7527995109558105, "Quantum sensing Detection": 0.7242445945739746, "Quantum sensing Metrology": 0.7188552021980286, "Quantum sensing navigation": 0.7331346273422241, "Quantum sensing Position": 0.7097046971321106, "Quantum sensing Timing": 0.7120531797409058, "Quantum sensing": 0.7443787455558777, "Quantum control": 0.7042853236198425 } }, { "id": 5852, "title": "Detecting the dimensionality of genuine multiparticle entanglement", "abstract": "Complex forms of quantum entanglement can arise in two qualitatively different ways: either between many qubits or between two particles with higher-than-qubit dimension. While both the many-qubit fro...", "citations": 8, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5859, "doi": "10.1126/sciadv.adq4467", "umap_coordinates": { "x": 395.6415710449219, "y": 136.1463165283203, "z": 206.5380096435547 }, "tsne_coordinates": { "x": -14.92413330078125, "y": -3.2938857078552246, "z": 2.4600636959075928 }, "pca_coordinates": { "x": 1.6012036800384521, "y": 0.8001542091369629, "z": 1.8288612365722656 }, "axis_scores": { "Quantum imaging": 0.7584953308105469, "Quantum Life Science Sensing": 0.765697717666626, "Quantum sensing Detection": 0.7634937763214111, "Quantum sensing Metrology": 0.7477374076843262, "Quantum sensing navigation": 0.758574903011322, "Quantum sensing Position": 0.7386597394943237, "Quantum sensing Timing": 0.7082138657569885, "Quantum sensing": 0.7616971135139465, "Quantum control": 0.7104054093360901 } }, { "id": 5853, "title": "QSim, a program for NMR simulations", "abstract": "We present QSim, a program for simulation of NMR experiments. Pulse sequences are implemented and analyzed in QSim using a mouse driven interface. QSim can handle almost any modern NMR experiment, usi...", "citations": 27, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5860, "doi": "10.1023/B:JNMR.0000042962.00088.f4", "umap_coordinates": { "x": 393.2136535644531, "y": 136.71641540527344, "z": 206.01048278808594 }, "tsne_coordinates": { "x": 10.533431053161621, "y": 6.709463596343994, "z": 31.620777130126953 }, "pca_coordinates": { "x": -0.2665843963623047, "y": 1.943234920501709, "z": -2.2623214721679688 }, "axis_scores": { "Quantum imaging": 0.7609274387359619, "Quantum Life Science Sensing": 0.7525254487991333, "Quantum sensing Detection": 0.7205852270126343, "Quantum sensing Metrology": 0.7235856056213379, "Quantum sensing navigation": 0.7570960521697998, "Quantum sensing Position": 0.7089195251464844, "Quantum sensing Timing": 0.706945538520813, "Quantum sensing": 0.744701623916626, "Quantum control": 0.7295529842376709 } }, { "id": 5854, "title": "PHOTON-BEAM CHARACTERISTICS ON THE MM50 RACETRACK MICROTRON AND A NEW APPROACH FOR BEAM QUALITY DETERMINATION", "abstract": "The photon beams of the MM50 racetrack microtron have special characteristics which make them more suitable than conventional photon beams for precision radiation therapy with good dosimetric control....", "citations": 54, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5861, "doi": "10.1118/1.597162", "umap_coordinates": { "x": 395.88848876953125, "y": 133.5414276123047, "z": 205.72384643554688 }, "tsne_coordinates": { "x": 0.09883810579776764, "y": 13.901070594787598, "z": -21.592382431030273 }, "pca_coordinates": { "x": -0.7659657597541809, "y": 1.5912957191467285, "z": 2.5358428955078125 }, "axis_scores": { "Quantum imaging": 0.7075673937797546, "Quantum Life Science Sensing": 0.7126366496086121, "Quantum sensing Detection": 0.7113680839538574, "Quantum sensing Metrology": 0.733293890953064, "Quantum sensing navigation": 0.7127639651298523, "Quantum sensing Position": 0.7097256183624268, "Quantum sensing Timing": 0.6852127909660339, "Quantum sensing": 0.7193882465362549, "Quantum control": 0.6591130495071411 } }, { "id": 5855, "title": "Monitoring and data quality assessment of the ATLAS liquid argon calorimeter", "abstract": "The liquid argon calorimeter is a key component of the ATLAS detector installed at the CERN Large Hadron Collider. The primary purpose of this calorimeter is the measurement of electron and photon kin...", "citations": 22, "author_count": 2653, "categories": [ "Instruments & Instrumentation" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5862, "doi": "10.1088/1748-0221/9/07/P07024", "umap_coordinates": { "x": 396.0122985839844, "y": 134.1907958984375, "z": 206.00604248046875 }, "tsne_coordinates": { "x": -29.2443790435791, "y": 19.990612030029297, "z": -10.774125099182129 }, "pca_coordinates": { "x": -1.5163452625274658, "y": 2.762746810913086, "z": 1.7014474868774414 }, "axis_scores": { "Quantum imaging": 0.6674483418464661, "Quantum Life Science Sensing": 0.6975377798080444, "Quantum sensing Detection": 0.671330988407135, "Quantum sensing Metrology": 0.6781233549118042, "Quantum sensing navigation": 0.670993447303772, "Quantum sensing Position": 0.6811599731445312, "Quantum sensing Timing": 0.694948136806488, "Quantum sensing": 0.6814001798629761, "Quantum control": 0.6937007904052734 } }, { "id": 5856, "title": "Measurement and modeling of laser range profiling of small maritime targets", "abstract": "The detection and classification of small surface targets at long ranges is a growing need for naval security. Laser range profiling offers a new capability for detecting and classifying such targets ...", "citations": 7, "author_count": 5, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5863, "doi": "10.1117/12.970271", "umap_coordinates": { "x": 394.8981628417969, "y": 133.5998077392578, "z": 205.9263458251953 }, "tsne_coordinates": { "x": -2.5084400177001953, "y": 14.15263557434082, "z": -29.786483764648438 }, "pca_coordinates": { "x": -2.097710132598877, "y": 3.086923122406006, "z": 1.9809412956237793 }, "axis_scores": { "Quantum imaging": 0.7074326276779175, "Quantum Life Science Sensing": 0.715879499912262, "Quantum sensing Detection": 0.7084713578224182, "Quantum sensing Metrology": 0.7271450161933899, "Quantum sensing navigation": 0.7310347557067871, "Quantum sensing Position": 0.7327648401260376, "Quantum sensing Timing": 0.7150174379348755, "Quantum sensing": 0.7190343141555786, "Quantum control": 0.6738750338554382 } }, { "id": 5857, "title": "Spontaneous dissociation and rovibrational structure of the metastable D2- anion", "abstract": "Long-lived rovibrational states of the metastable D2-molecular anion, with lifetimes of the order of microseconds, were studied by recording the time-of-flight difference between D and D-fragments pro...", "citations": 2, "author_count": 4, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5864, "doi": "10.1103/PhysRevA.96.032512", "umap_coordinates": { "x": 394.294921875, "y": 136.26315307617188, "z": 207.44815063476562 }, "tsne_coordinates": { "x": -3.04712176322937, "y": -6.81680154800415, "z": -0.8132281303405762 }, "pca_coordinates": { "x": 2.2103326320648193, "y": -0.05483841896057129, "z": -4.551498889923096 }, "axis_scores": { "Quantum imaging": 0.632848858833313, "Quantum Life Science Sensing": 0.6867274045944214, "Quantum sensing Detection": 0.6492767930030823, "Quantum sensing Metrology": 0.6293747425079346, "Quantum sensing navigation": 0.6386601328849792, "Quantum sensing Position": 0.6197129487991333, "Quantum sensing Timing": 0.6168473958969116, "Quantum sensing": 0.6509023904800415, "Quantum control": 0.646065354347229 } }, { "id": 5858, "title": "ELECTRONS AND EXCITONS IN AN IMPERFECT SUPERLATTICE IN ELECTRIC-FIELDS", "abstract": "We present variational calculations of excitonic states in a superlattice coupled with a wide quantum well in electric fields. The electronic states in the structure are analyzed by using both exact s...", "citations": 18, "author_count": 6, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5865, "doi": "10.1006/spmi.1995.1020", "umap_coordinates": { "x": 392.9410400390625, "y": 134.8765411376953, "z": 207.71839904785156 }, "tsne_coordinates": { "x": 25.991268157958984, "y": -0.39216065406799316, "z": 16.015748977661133 }, "pca_coordinates": { "x": 0.6569029092788696, "y": -2.276301860809326, "z": 0.4265897870063782 }, "axis_scores": { "Quantum imaging": 0.7196992635726929, "Quantum Life Science Sensing": 0.6859950423240662, "Quantum sensing Detection": 0.6842387914657593, "Quantum sensing Metrology": 0.6962780952453613, "Quantum sensing navigation": 0.6851153373718262, "Quantum sensing Position": 0.6899449825286865, "Quantum sensing Timing": 0.662090003490448, "Quantum sensing": 0.7001533508300781, "Quantum control": 0.6497381329536438 } }, { "id": 5859, "title": "Field-driven geometrical phases in a time-periodic quantum system", "abstract": "We apply Floquet theory to explore the geometry of the Hilbert space under the influence of a time-periodic field. The geometrical phase is found to be induced by field-driven hybridizations when the ...", "citations": 1, "author_count": 3, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5866, "doi": "10.1103/PhysRevB.79.205323", "umap_coordinates": { "x": 394.9508056640625, "y": 137.02293395996094, "z": 208.40084838867188 }, "tsne_coordinates": { "x": -14.30334186553955, "y": -20.283527374267578, "z": 13.756400108337402 }, "pca_coordinates": { "x": 4.885867595672607, "y": 1.334521770477295, "z": -1.5686886310577393 }, "axis_scores": { "Quantum imaging": 0.7301439642906189, "Quantum Life Science Sensing": 0.7362581491470337, "Quantum sensing Detection": 0.7153193950653076, "Quantum sensing Metrology": 0.7238809466362, "Quantum sensing navigation": 0.7489640712738037, "Quantum sensing Position": 0.7140728831291199, "Quantum sensing Timing": 0.745123565196991, "Quantum sensing": 0.7296845316886902, "Quantum control": 0.7332624793052673 } }, { "id": 5860, "title": "An experimental and theoretical investigation of the valence double photoionisation of the IC molecule", "abstract": "The double valence photoelectron spectrum of ICl has been measured at two photon energies,303.78 angstrom and 379.3 angstrom, by the TOF-PEPECO technique. Relativistic molecular electronic structure c...", "citations": 4, "author_count": 5, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5867, "doi": "10.1016/j.chemphys.2006.12.006", "umap_coordinates": { "x": 392.98583984375, "y": 136.7584991455078, "z": 205.514404296875 }, "tsne_coordinates": { "x": -0.18516911566257477, "y": 6.691201210021973, "z": 18.35725975036621 }, "pca_coordinates": { "x": -1.9684429168701172, "y": 0.05551791191101074, "z": -1.482167363166809 }, "axis_scores": { "Quantum imaging": 0.7139772772789001, "Quantum Life Science Sensing": 0.721714198589325, "Quantum sensing Detection": 0.698491096496582, "Quantum sensing Metrology": 0.6725329756736755, "Quantum sensing navigation": 0.6456076502799988, "Quantum sensing Position": 0.6411409378051758, "Quantum sensing Timing": 0.6446376442909241, "Quantum sensing": 0.7043454051017761, "Quantum control": 0.6679924130439758 } }, { "id": 5861, "title": "Postcollision-interaction effects in multistep Auger transitions following Ar 1s photoionization", "abstract": "Postcollision-interaction (PCI) effects involving multistep decay processes following Ar 1s photoionization has been studied by Auger electron spectroscopy. The experiment focused on LMM Auger electro...", "citations": 4, "author_count": 19, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5868, "doi": "10.1103/PhysRevA.106.033114", "umap_coordinates": { "x": 395.6866760253906, "y": 135.64471435546875, "z": 207.72091674804688 }, "tsne_coordinates": { "x": -7.902933597564697, "y": -9.578064918518066, "z": -6.261623859405518 }, "pca_coordinates": { "x": 2.6301519870758057, "y": 0.6985663175582886, "z": 0.24160397052764893 }, "axis_scores": { "Quantum imaging": 0.6531998515129089, "Quantum Life Science Sensing": 0.6627534031867981, "Quantum sensing Detection": 0.6533532738685608, "Quantum sensing Metrology": 0.626878559589386, "Quantum sensing navigation": 0.6234073042869568, "Quantum sensing Position": 0.6112848520278931, "Quantum sensing Timing": 0.6475264430046082, "Quantum sensing": 0.653351366519928, "Quantum control": 0.6166248321533203 } }, { "id": 5862, "title": "Quenching-free fluorescence signal from plastic-fibres in proton dosimetry: understanding the influence of Cerenkov radiation", "abstract": "The origin of photons emitted in optical fibres under proton irradiation has been attributed to either entirely Cerenkov radiation or light consisting of fluorescence with a substantial amount of Cere...", "citations": 12, "author_count": 5, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5869, "doi": "10.1088/1361-6560/aaafad", "umap_coordinates": { "x": 394.1338806152344, "y": 135.75181579589844, "z": 205.00193786621094 }, "tsne_coordinates": { "x": -4.7992377281188965, "y": 12.0376615524292, "z": -13.868171691894531 }, "pca_coordinates": { "x": -1.8970292806625366, "y": 2.2423644065856934, "z": 1.3994343280792236 }, "axis_scores": { "Quantum imaging": 0.686055064201355, "Quantum Life Science Sensing": 0.704052209854126, "Quantum sensing Detection": 0.6742872595787048, "Quantum sensing Metrology": 0.6605197191238403, "Quantum sensing navigation": 0.6744369864463806, "Quantum sensing Position": 0.6497568488121033, "Quantum sensing Timing": 0.6569262146949768, "Quantum sensing": 0.6875815987586975, "Quantum control": 0.6569717526435852 } }, { "id": 5863, "title": "A theoretical study of the role of the hydrogen bond on core ionization of the water dimer", "abstract": "Motivated by the interest in using X-ray spectra for probing of hydrogen bonded networks we developed a quantum model for simulations of the electronic-vibrational profile of the X-ray core photoelect...", "citations": 24, "author_count": 7, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5870, "doi": "10.1016/j.chemphys.2004.12.006", "umap_coordinates": { "x": 393.3988037109375, "y": 137.1666259765625, "z": 205.29714965820312 }, "tsne_coordinates": { "x": -0.45480066537857056, "y": 7.665808200836182, "z": 18.972200393676758 }, "pca_coordinates": { "x": -0.9781449437141418, "y": 1.5184214115142822, "z": -2.901421308517456 }, "axis_scores": { "Quantum imaging": 0.6905437707901001, "Quantum Life Science Sensing": 0.7252102494239807, "Quantum sensing Detection": 0.6818600296974182, "Quantum sensing Metrology": 0.6643924117088318, "Quantum sensing navigation": 0.6629747748374939, "Quantum sensing Position": 0.6513735055923462, "Quantum sensing Timing": 0.6462950706481934, "Quantum sensing": 0.692527711391449, "Quantum control": 0.6630566120147705 } }, { "id": 5864, "title": "Simulating large nuclear quantum mechanical corrections in hydrogen atom transfer reactions in metalloenzymes", "abstract": "The role of nuclear quantum mechanical effects in enzyme catalysis has recently attracted significant interest both from theoretical and experimental points of view. From a theoretical point of view, ...", "citations": 33, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5871, "doi": "10.1007/s00775-003-0503-2", "umap_coordinates": { "x": 393.85528564453125, "y": 136.78762817382812, "z": 205.65692138671875 }, "tsne_coordinates": { "x": -4.218090057373047, "y": 17.08523941040039, "z": 18.680856704711914 }, "pca_coordinates": { "x": 0.29628121852874756, "y": 1.5742440223693848, "z": -2.0465099811553955 }, "axis_scores": { "Quantum imaging": 0.7076332569122314, "Quantum Life Science Sensing": 0.7109724283218384, "Quantum sensing Detection": 0.6919304728507996, "Quantum sensing Metrology": 0.6948068737983704, "Quantum sensing navigation": 0.7087941765785217, "Quantum sensing Position": 0.6900618672370911, "Quantum sensing Timing": 0.6940361857414246, "Quantum sensing": 0.708885908126831, "Quantum control": 0.693777859210968 } }, { "id": 5865, "title": "Frequency analysis of the EPR-Bell argumentation", "abstract": "We perform a frequency analysis of the EPR-Bell argumentation. One of the main consequences of our investigation is that the existence of probability distributions of the Kolmogorov-type which was sup...", "citations": 38, "author_count": 2, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5872, "doi": "10.1023/A:1016590811533", "umap_coordinates": { "x": 394.5839538574219, "y": 136.93177795410156, "z": 206.8812713623047 }, "tsne_coordinates": { "x": -29.408432006835938, "y": 6.732322692871094, "z": 5.5677666664123535 }, "pca_coordinates": { "x": 2.4362332820892334, "y": 2.8502614498138428, "z": -1.7269396781921387 }, "axis_scores": { "Quantum imaging": 0.6955861449241638, "Quantum Life Science Sensing": 0.7071906924247742, "Quantum sensing Detection": 0.699569582939148, "Quantum sensing Metrology": 0.6795422434806824, "Quantum sensing navigation": 0.6940498352050781, "Quantum sensing Position": 0.6856110692024231, "Quantum sensing Timing": 0.6823453903198242, "Quantum sensing": 0.6997520327568054, "Quantum control": 0.6781267523765564 } }, { "id": 5866, "title": "Microfluidics-based self-assembly of peptide-loaded microgels: Effect of three dimensional (3D) printed micromixer design", "abstract": "In an effort to contribute to research in scalable production systems for polymeric delivery systems loaded with antimicrobial peptides (AMPS), we here investigate effects of hydrodynamic flow conditi...", "citations": 29, "author_count": 8, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5873, "doi": "10.1016/j.jcis.2018.12.010", "umap_coordinates": { "x": 393.46173095703125, "y": 134.86354064941406, "z": 203.97023010253906 }, "tsne_coordinates": { "x": 27.078081130981445, "y": 24.385414123535156, "z": 6.3267822265625 }, "pca_coordinates": { "x": -3.8655285835266113, "y": 0.6994428634643555, "z": -1.5915720462799072 }, "axis_scores": { "Quantum imaging": 0.6912868022918701, "Quantum Life Science Sensing": 0.7106924057006836, "Quantum sensing Detection": 0.6757636666297913, "Quantum sensing Metrology": 0.6841120719909668, "Quantum sensing navigation": 0.6796932220458984, "Quantum sensing Position": 0.6909852027893066, "Quantum sensing Timing": 0.6656681299209595, "Quantum sensing": 0.6959285736083984, "Quantum control": 0.6954772472381592 } }, { "id": 5867, "title": "Effective alkaline metal-catalyzed oxidative delignification of hybrid poplar", "abstract": "Background: Strategies to improve copper-catalyzed alkaline hydrogen peroxide (Cu-AHP) pretreatment of hybrid poplar were investigated. These improvements included a combination of increasing hydrolys...", "citations": 46, "author_count": 8, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5874, "doi": "10.1186/s13068-016-0442-0", "umap_coordinates": { "x": 392.7161560058594, "y": 135.2035675048828, "z": 203.8261260986328 }, "tsne_coordinates": { "x": 28.362842559814453, "y": 31.113258361816406, "z": -2.9889187812805176 }, "pca_coordinates": { "x": -2.868460178375244, "y": 1.0628540515899658, "z": -1.232032299041748 }, "axis_scores": { "Quantum imaging": 0.6720454096794128, "Quantum Life Science Sensing": 0.6768830418586731, "Quantum sensing Detection": 0.641669750213623, "Quantum sensing Metrology": 0.6343011856079102, "Quantum sensing navigation": 0.6460528373718262, "Quantum sensing Position": 0.6283103227615356, "Quantum sensing Timing": 0.6193394660949707, "Quantum sensing": 0.6596503257751465, "Quantum control": 0.6570892930030823 } }, { "id": 5868, "title": "Elastic J/ψ production at HERA", "abstract": "Cross sections for elastic production of J/psi mesons in photoproduction and electroproduction are measured in electron proton collisions at HERA using an integrated luminosity of 55 pb(-1). Results a...", "citations": 290, "author_count": 307, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5875, "doi": "10.1140/epjc/s2006-02519-5", "umap_coordinates": { "x": 396.8796081542969, "y": 134.7020263671875, "z": 206.95626831054688 }, "tsne_coordinates": { "x": -29.3642635345459, "y": 13.847485542297363, "z": -4.986142158508301 }, "pca_coordinates": { "x": 0.6435012817382812, "y": 1.9342857599258423, "z": 0.34937959909439087 }, "axis_scores": { "Quantum imaging": 0.7040702104568481, "Quantum Life Science Sensing": 0.6965930461883545, "Quantum sensing Detection": 0.6913782358169556, "Quantum sensing Metrology": 0.671883225440979, "Quantum sensing navigation": 0.6758765578269958, "Quantum sensing Position": 0.6880927681922913, "Quantum sensing Timing": 0.7041264176368713, "Quantum sensing": 0.706991970539093, "Quantum control": 0.6938159465789795 } }, { "id": 5869, "title": "THE OH STRETCHING FREQUENCY IN LIQUID WATER SIMULATIONS - THE CLASSICAL ERROR", "abstract": "OH stretching frequencies of HDO molecules in liquid water have been calculated by molecular dynamics simulation and compared to quantum-corrected OH stretching frequencies. In the MD simulation the M...", "citations": 40, "author_count": 4, "categories": [ "Chemistry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5876, "doi": "10.1016/0009-2614(92)85416-8", "umap_coordinates": { "x": 393.9397888183594, "y": 137.22189331054688, "z": 205.73910522460938 }, "tsne_coordinates": { "x": -5.650169849395752, "y": 17.46605682373047, "z": 25.514789581298828 }, "pca_coordinates": { "x": 0.7249046564102173, "y": 3.081103563308716, "z": -2.281792640686035 }, "axis_scores": { "Quantum imaging": 0.6804765462875366, "Quantum Life Science Sensing": 0.7375372648239136, "Quantum sensing Detection": 0.6921610236167908, "Quantum sensing Metrology": 0.6957728862762451, "Quantum sensing navigation": 0.6930414438247681, "Quantum sensing Position": 0.7092688679695129, "Quantum sensing Timing": 0.6909035444259644, "Quantum sensing": 0.7087106704711914, "Quantum control": 0.6992524266242981 } }, { "id": 5870, "title": "Optical properties of LaNiO3 films tuned from compressive to tensile strain", "abstract": "Materials with strong electronic correlations host remarkable-and technologically relevant-phenomena such as magnetism, superconductivity, and metal-insulator transitions. Harnessing and controlling t...", "citations": 10, "author_count": 15, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5877, "doi": "10.1103/PhysRevB.102.155148", "umap_coordinates": { "x": 393.62567138671875, "y": 134.95703125, "z": 208.02210998535156 }, "tsne_coordinates": { "x": -13.067912101745605, "y": -31.142078399658203, "z": -9.06540298461914 }, "pca_coordinates": { "x": 1.667497158050537, "y": -2.6819634437561035, "z": -0.1750386357307434 }, "axis_scores": { "Quantum imaging": 0.7244146466255188, "Quantum Life Science Sensing": 0.7384911179542542, "Quantum sensing Detection": 0.7120667695999146, "Quantum sensing Metrology": 0.7111368775367737, "Quantum sensing navigation": 0.7097600698471069, "Quantum sensing Position": 0.7025831341743469, "Quantum sensing Timing": 0.6773102283477783, "Quantum sensing": 0.7395328283309937, "Quantum control": 0.7049221992492676 } }, { "id": 5871, "title": "Simulation of Auger decay dynamics in the hard X-ray regime: HCl as a showcase", "abstract": "Auger decay after photoexcitation or photoemission of an electron from a deep inner shell in the hard X-ray regime can be rather complex, implying a multitude of phenomena such as multiple-step cascad...", "citations": 9, "author_count": 10, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5878, "doi": "10.1039/d1cp05662j", "umap_coordinates": { "x": 392.9154968261719, "y": 136.8494415283203, "z": 206.49270629882812 }, "tsne_coordinates": { "x": -1.3392339944839478, "y": 0.5216171741485596, "z": 26.6825008392334 }, "pca_coordinates": { "x": 0.36917853355407715, "y": 2.0420753955841064, "z": -1.7543816566467285 }, "axis_scores": { "Quantum imaging": 0.6701810359954834, "Quantum Life Science Sensing": 0.6937201619148254, "Quantum sensing Detection": 0.6709573268890381, "Quantum sensing Metrology": 0.632591187953949, "Quantum sensing navigation": 0.6519383788108826, "Quantum sensing Position": 0.6410828232765198, "Quantum sensing Timing": 0.6457693576812744, "Quantum sensing": 0.6700097322463989, "Quantum control": 0.6689258813858032 } }, { "id": 5872, "title": "Quantum-like brain: Interference of minds", "abstract": "We present a contextualist statistical realistic model for quantum-like representations in physics, cognitive science, and psychology. We apply this model to describe cognitive experiments to check qu...", "citations": 104, "author_count": 2, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5879, "doi": "10.1016/j.biosystems.2005.11.005", "umap_coordinates": { "x": 394.91650390625, "y": 137.1005096435547, "z": 206.18263244628906 }, "tsne_coordinates": { "x": -19.311466217041016, "y": 9.024397850036621, "z": 17.738048553466797 }, "pca_coordinates": { "x": 1.5170106887817383, "y": 3.0577850341796875, "z": 0.011653780937194824 }, "axis_scores": { "Quantum imaging": 0.7995890378952026, "Quantum Life Science Sensing": 0.7822178602218628, "Quantum sensing Detection": 0.7816952466964722, "Quantum sensing Metrology": 0.7644959092140198, "Quantum sensing navigation": 0.7761796116828918, "Quantum sensing Position": 0.731992244720459, "Quantum sensing Timing": 0.7418084740638733, "Quantum sensing": 0.7933248281478882, "Quantum control": 0.7735165953636169 } }, { "id": 5873, "title": "Peroxy Intermediate Drives Carbon Bond Activation in the Dioxygenase AsqJ", "abstract": "Dioxygenases catalyze stereoselective oxygen atom transfer in metabolic pathways of biological, industrial, and pharmaceutical importance, but their precise chemical principles remain controversial. T...", "citations": 5, "author_count": 9, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5880, "doi": "10.1021/jacs.2c05650", "umap_coordinates": { "x": 392.4093322753906, "y": 137.0391387939453, "z": 205.5465087890625 }, "tsne_coordinates": { "x": 4.717757701873779, "y": 16.611724853515625, "z": 21.967845916748047 }, "pca_coordinates": { "x": 0.5078780651092529, "y": -0.03730654716491699, "z": -3.891953468322754 }, "axis_scores": { "Quantum imaging": 0.7136507630348206, "Quantum Life Science Sensing": 0.7163695693016052, "Quantum sensing Detection": 0.703033447265625, "Quantum sensing Metrology": 0.68520188331604, "Quantum sensing navigation": 0.6989727020263672, "Quantum sensing Position": 0.6781005263328552, "Quantum sensing Timing": 0.6733521223068237, "Quantum sensing": 0.7136021256446838, "Quantum control": 0.7299385070800781 } }, { "id": 5874, "title": "A combined quantum chemical statistical mechanical simulation of the hydration of Li+, Na+, F-, and Cl-", "abstract": "The hydration (or solvation) of the lithium, sodium, fluoride, and chloride ions are investigated using a combined quantum chemical statistical mechanical model. Radial distribution functions and the ...", "citations": 54, "author_count": 3, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5881, "doi": "10.1021/jp049303w", "umap_coordinates": { "x": 393.3388366699219, "y": 137.04025268554688, "z": 205.78506469726562 }, "tsne_coordinates": { "x": -2.748271942138672, "y": 13.443900108337402, "z": 30.203027725219727 }, "pca_coordinates": { "x": -0.5553203225135803, "y": 1.029611349105835, "z": -1.4848933219909668 }, "axis_scores": { "Quantum imaging": 0.7113138437271118, "Quantum Life Science Sensing": 0.7207615375518799, "Quantum sensing Detection": 0.6856439709663391, "Quantum sensing Metrology": 0.6867325901985168, "Quantum sensing navigation": 0.6957047581672668, "Quantum sensing Position": 0.6624811291694641, "Quantum sensing Timing": 0.6571674346923828, "Quantum sensing": 0.7085084319114685, "Quantum control": 0.6836370825767517 } }, { "id": 5875, "title": "TL-201 MYOCARDIAL TOMOGRAPHY WITH A ROTATING SLANT-HOLE COLLIMATOR AND A LARGE NUMBER OF PROJECTIONS", "abstract": "Tomographic imaging of the myocardium was performed using a gamma camera and a 30-degree rotation slant-hole collimator to register 64 projections from a restricted-view angle. Section images were rec...", "citations": 7, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1990, "topic": [ "all" ], "embedding_index": 5882, "doi": null, "umap_coordinates": { "x": 391.6542663574219, "y": 139.37379455566406, "z": 209.79217529296875 }, "tsne_coordinates": { "x": 0.44093844294548035, "y": 43.60300064086914, "z": -3.5484676361083984 }, "pca_coordinates": { "x": -2.4979734420776367, "y": 5.087204933166504, "z": -0.7960768938064575 }, "axis_scores": { "Quantum imaging": 0.7068407535552979, "Quantum Life Science Sensing": 0.7100458741188049, "Quantum sensing Detection": 0.6976408958435059, "Quantum sensing Metrology": 0.6787649393081665, "Quantum sensing navigation": 0.6951889991760254, "Quantum sensing Position": 0.6752442121505737, "Quantum sensing Timing": 0.687777042388916, "Quantum sensing": 0.705669641494751, "Quantum control": 0.690382719039917 } }, { "id": 5876, "title": "Integrating an ex-vivo skin biointerface with electrochemical DNA biosensor for direct measurement of the protective effect of UV blocking agents", "abstract": "Skin cancer is the most frequent kind of cancer in white people in many parts of the world. UV-induced DNA damage and genetic mutation can subsequently lead to skin cancer. Therefore development of ne...", "citations": 12, "author_count": 8, "categories": [ "Biophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5883, "doi": "10.1016/j.bios.2018.12.025", "umap_coordinates": { "x": 393.75115966796875, "y": 133.71176147460938, "z": 204.4335479736328 }, "tsne_coordinates": { "x": 23.498098373413086, "y": 25.60676383972168, "z": -11.611628532409668 }, "pca_coordinates": { "x": -4.6172404289245605, "y": -0.6298072338104248, "z": 1.2072348594665527 }, "axis_scores": { "Quantum imaging": 0.680515468120575, "Quantum Life Science Sensing": 0.7316451668739319, "Quantum sensing Detection": 0.6886069178581238, "Quantum sensing Metrology": 0.6742307543754578, "Quantum sensing navigation": 0.6759663820266724, "Quantum sensing Position": 0.6758012771606445, "Quantum sensing Timing": 0.6360678672790527, "Quantum sensing": 0.6916468143463135, "Quantum control": 0.6325824856758118 } }, { "id": 5877, "title": "Gaia Data Release 2 Observations of solar system objects", "abstract": "Context. The Gaia spacecraft of the European Space Agency (ESA) has been securing observations of solar system objects (SSOs) since the beginning of its operations. Data Release 2 (DR2) contains the o...", "citations": 62, "author_count": 452, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5884, "doi": "10.1051/0004-6361/201832900", "umap_coordinates": { "x": 395.6104736328125, "y": 135.17506408691406, "z": 205.800537109375 }, "tsne_coordinates": { "x": -24.238985061645508, "y": 21.974992752075195, "z": 3.717135190963745 }, "pca_coordinates": { "x": -1.315502643585205, "y": 1.2077553272247314, "z": -0.4153141677379608 }, "axis_scores": { "Quantum imaging": 0.6992689371109009, "Quantum Life Science Sensing": 0.743915319442749, "Quantum sensing Detection": 0.7088249325752258, "Quantum sensing Metrology": 0.7205922603607178, "Quantum sensing navigation": 0.7065170407295227, "Quantum sensing Position": 0.6863488554954529, "Quantum sensing Timing": 0.6749592423439026, "Quantum sensing": 0.7202358245849609, "Quantum control": 0.7010343670845032 } }, { "id": 5878, "title": "Eutrophication and some European waters of restricted exchange", "abstract": "Regions of Restricted Exchange (RREs) are an important feature of the European coastline. They are historically preferred sites for human settlement and aquaculture and their ecosystems, and consequen...", "citations": 165, "author_count": 15, "categories": [ "Oceanography" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5885, "doi": "10.1016/j.csr.2003.06.013", "umap_coordinates": { "x": 393.5257873535156, "y": 135.303466796875, "z": 203.82229614257812 }, "tsne_coordinates": { "x": 22.321239471435547, "y": 16.091876983642578, "z": 1.292732834815979 }, "pca_coordinates": { "x": -3.666271686553955, "y": 2.9352307319641113, "z": -2.4256930351257324 }, "axis_scores": { "Quantum imaging": 0.6510716676712036, "Quantum Life Science Sensing": 0.6869412660598755, "Quantum sensing Detection": 0.6506780385971069, "Quantum sensing Metrology": 0.6515079140663147, "Quantum sensing navigation": 0.6673951745033264, "Quantum sensing Position": 0.640903651714325, "Quantum sensing Timing": 0.6263394951820374, "Quantum sensing": 0.6700896620750427, "Quantum control": 0.6531654000282288 } }, { "id": 5879, "title": "Solid-State NMR Rationalizes the Bone-Adhesive Properties of Serine- and Phosphoserine-Bearing Calcium Phosphate Cements by Unveiling Their Organic/Inorganic Interface", "abstract": "From a multitude of homonuclear and heteronuclear correlation magic-angle-spinning (MAS) NMR experiments, we present thorough structural and phase-quantification analyses of calcium phosphate cements ...", "citations": 12, "author_count": 8, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5886, "doi": "10.1021/acs.jpcc.0c06224", "umap_coordinates": { "x": 392.8392333984375, "y": 136.09812927246094, "z": 205.5083770751953 }, "tsne_coordinates": { "x": 8.338556289672852, "y": 12.547709465026855, "z": 33.47916793823242 }, "pca_coordinates": { "x": -1.7033199071884155, "y": 1.3448301553726196, "z": -2.172189950942993 }, "axis_scores": { "Quantum imaging": 0.697986364364624, "Quantum Life Science Sensing": 0.7088916897773743, "Quantum sensing Detection": 0.6618056297302246, "Quantum sensing Metrology": 0.6584000587463379, "Quantum sensing navigation": 0.6887195706367493, "Quantum sensing Position": 0.6807259321212769, "Quantum sensing Timing": 0.6800614595413208, "Quantum sensing": 0.6939523220062256, "Quantum control": 0.6555653214454651 } }, { "id": 5880, "title": "Increasing water use efficiency along the C3 to C4 evolutionary pathway: a stomatal optimization perspective", "abstract": "C-4 photosynthesis evolved independently numerous times, probably in response to declining atmospheric CO2 concentrations, but also to high temperatures and aridity, which enhance water losses through...", "citations": 117, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5887, "doi": "10.1093/jxb/eru205", "umap_coordinates": { "x": 393.9781188964844, "y": 136.61874389648438, "z": 203.66741943359375 }, "tsne_coordinates": { "x": 10.785954475402832, "y": 34.77919387817383, "z": 19.583593368530273 }, "pca_coordinates": { "x": -1.064389705657959, "y": 2.721447229385376, "z": -2.391427516937256 }, "axis_scores": { "Quantum imaging": 0.6598219871520996, "Quantum Life Science Sensing": 0.6786693334579468, "Quantum sensing Detection": 0.6404637098312378, "Quantum sensing Metrology": 0.6370009183883667, "Quantum sensing navigation": 0.6908619403839111, "Quantum sensing Position": 0.6603569388389587, "Quantum sensing Timing": 0.6341366171836853, "Quantum sensing": 0.662085235118866, "Quantum control": 0.6689026355743408 } }, { "id": 5881, "title": "Photophysical and structural properties of the fluorescent nucleobase analogues of the tricyclic cytosine (tC) family", "abstract": "Fundamental insight into the unique fluorescence and nucleobase-mimicking properties of the fluorescent nucleobase analogues of the tC family is not only vital in explaining the behaviour of these pro...", "citations": 44, "author_count": 5, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5888, "doi": "10.1039/c000625d", "umap_coordinates": { "x": 392.41217041015625, "y": 135.65142822265625, "z": 204.9737548828125 }, "tsne_coordinates": { "x": 5.165320873260498, "y": 9.627267837524414, "z": 3.9037768840789795 }, "pca_coordinates": { "x": -3.4207844734191895, "y": -0.7981781959533691, "z": -2.9720311164855957 }, "axis_scores": { "Quantum imaging": 0.7072405219078064, "Quantum Life Science Sensing": 0.7424646019935608, "Quantum sensing Detection": 0.6849838495254517, "Quantum sensing Metrology": 0.6836487650871277, "Quantum sensing navigation": 0.6739228963851929, "Quantum sensing Position": 0.6604685187339783, "Quantum sensing Timing": 0.6622528433799744, "Quantum sensing": 0.7025206089019775, "Quantum control": 0.6899135112762451 } }, { "id": 5882, "title": "Biological weighting functions as a tool for evaluating two ways to measure UVB radiation inhibition on photosynthesis", "abstract": "To estimate the inhibitory effect of the changing UVB radiation (UVBR, 280-315 nm) on earth's ecosystems, an understanding of its wavelength dependency is needed. The tool used for these estimations i...", "citations": 20, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5889, "doi": "10.1016/j.jphotobiol.2006.02.004", "umap_coordinates": { "x": 394.32916259765625, "y": 135.7478790283203, "z": 204.067138671875 }, "tsne_coordinates": { "x": 18.624082565307617, "y": 33.069122314453125, "z": 15.637962341308594 }, "pca_coordinates": { "x": -4.012471675872803, "y": 1.2112510204315186, "z": 1.1413521766662598 }, "axis_scores": { "Quantum imaging": 0.7067909240722656, "Quantum Life Science Sensing": 0.7192810773849487, "Quantum sensing Detection": 0.6925094127655029, "Quantum sensing Metrology": 0.6861840486526489, "Quantum sensing navigation": 0.6962755918502808, "Quantum sensing Position": 0.679807186126709, "Quantum sensing Timing": 0.6765822768211365, "Quantum sensing": 0.7032375335693359, "Quantum control": 0.6818793416023254 } }, { "id": 5883, "title": "An end-to-end in-flight calibration of Mini-EUSO detector", "abstract": "Mini-EUSO is a wide Field-of-View (FoV, 44 degrees) telescope currently in operation from a nadir-facing UV-transparent window in the Russian Zvezda module on the International Space Station (ISS). It...", "citations": 2, "author_count": 56, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5890, "doi": "10.1051/epjconf/202328306017", "umap_coordinates": { "x": 395.4344787597656, "y": 134.0537872314453, "z": 206.17697143554688 }, "tsne_coordinates": { "x": -21.323110580444336, "y": 25.89071273803711, "z": 0.4741247594356537 }, "pca_coordinates": { "x": -2.1487698554992676, "y": 1.742060899734497, "z": 2.330451726913452 }, "axis_scores": { "Quantum imaging": 0.7153332829475403, "Quantum Life Science Sensing": 0.7439227104187012, "Quantum sensing Detection": 0.7170413136482239, "Quantum sensing Metrology": 0.7324963808059692, "Quantum sensing navigation": 0.7208381295204163, "Quantum sensing Position": 0.7145448923110962, "Quantum sensing Timing": 0.7090187072753906, "Quantum sensing": 0.7167913913726807, "Quantum control": 0.6847866773605347 } }, { "id": 5884, "title": "Observation of ELVES with Mini-EUSO telescope on board the International Space Station", "abstract": "Mini-EUSO is a detector observing the Earth in the ultraviolet band from the International Space Station through a nadir-facing window, transparent to the UV radiation, in the Russian Zvezda module. M...", "citations": 1, "author_count": 31, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5891, "doi": null, "umap_coordinates": { "x": 392.02447509765625, "y": 139.6649627685547, "z": 209.4032745361328 }, "tsne_coordinates": { "x": -1.9162802696228027, "y": 46.71538543701172, "z": -7.039827346801758 }, "pca_coordinates": { "x": -2.2455506324768066, "y": 3.648404836654663, "z": -0.680944561958313 }, "axis_scores": { "Quantum imaging": 0.7106969952583313, "Quantum Life Science Sensing": 0.7379497289657593, "Quantum sensing Detection": 0.704828679561615, "Quantum sensing Metrology": 0.7026996612548828, "Quantum sensing navigation": 0.7150067090988159, "Quantum sensing Position": 0.6747073531150818, "Quantum sensing Timing": 0.6625417470932007, "Quantum sensing": 0.7105555534362793, "Quantum control": 0.699405312538147 } }, { "id": 5885, "title": "Photon momentum transfer in one-photon single ionization of helium: The influence of electron correlation", "abstract": "The photon momentum transfer in the one-photon single ionization (1PSI) of helium is theoretically and experimentally studied. The influence of electron correlations is found to be displayed in the di...", "citations": 1, "author_count": 14, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5892, "doi": "10.1103/PhysRevA.111.023120", "umap_coordinates": { "x": 394.7705993652344, "y": 134.1429443359375, "z": 208.48211669921875 }, "tsne_coordinates": { "x": 4.298830986022949, "y": -25.569324493408203, "z": -12.331276893615723 }, "pca_coordinates": { "x": 3.392446517944336, "y": -1.6931843757629395, "z": 2.3770322799682617 }, "axis_scores": { "Quantum imaging": 0.7174029350280762, "Quantum Life Science Sensing": 0.7150800228118896, "Quantum sensing Detection": 0.7276754379272461, "Quantum sensing Metrology": 0.7071403861045837, "Quantum sensing navigation": 0.7014971971511841, "Quantum sensing Position": 0.6999887824058533, "Quantum sensing Timing": 0.6954287886619568, "Quantum sensing": 0.7246795892715454, "Quantum control": 0.6881484389305115 } }, { "id": 5886, "title": "Vertically Processed GaInP/InP Tandem-Junction Nanowire Solar Cells", "abstract": "We present vertically processed photovoltaic devices based on GaInP/InP tandem-junction III-V nanowires (NWs), contacting approximately 3 million NWs in parallel for each device. The GaInP and InP sub...", "citations": 7, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5893, "doi": "10.1021/acsanm.3c05909", "umap_coordinates": { "x": 392.20721435546875, "y": 133.97926330566406, "z": 207.7279510498047 }, "tsne_coordinates": { "x": 22.027891159057617, "y": -11.406876564025879, "z": -1.351620078086853 }, "pca_coordinates": { "x": -1.1426372528076172, "y": -5.23534631729126, "z": 0.8480084538459778 }, "axis_scores": { "Quantum imaging": 0.7168461084365845, "Quantum Life Science Sensing": 0.7229720950126648, "Quantum sensing Detection": 0.7208070158958435, "Quantum sensing Metrology": 0.7201030254364014, "Quantum sensing navigation": 0.7238805890083313, "Quantum sensing Position": 0.7090590000152588, "Quantum sensing Timing": 0.6796320676803589, "Quantum sensing": 0.7307013273239136, "Quantum control": 0.6850265264511108 } }, { "id": 5887, "title": "Low-loss light transmission in a rectangular-shaped hybrid metal trench at 1550 nm", "abstract": "A hybrid plasmonic waveguide consisting of a high-index dielectric core embedded inside a rectangular-shaped metallic trench is proposed and its guiding properties are investigated at the wavelength o...", "citations": 5, "author_count": 4, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5894, "doi": "10.1364/OE.21.017053", "umap_coordinates": { "x": 394.117431640625, "y": 134.04916381835938, "z": 206.9915008544922 }, "tsne_coordinates": { "x": 0.6487893462181091, "y": -11.285202980041504, "z": -36.0339469909668 }, "pca_coordinates": { "x": -0.8895007967948914, "y": -0.7748723030090332, "z": 2.0262136459350586 }, "axis_scores": { "Quantum imaging": 0.7066398859024048, "Quantum Life Science Sensing": 0.688045084476471, "Quantum sensing Detection": 0.695835530757904, "Quantum sensing Metrology": 0.6947553157806396, "Quantum sensing navigation": 0.6953061819076538, "Quantum sensing Position": 0.6794587969779968, "Quantum sensing Timing": 0.6783125400543213, "Quantum sensing": 0.7036764621734619, "Quantum control": 0.6734154224395752 } }, { "id": 5888, "title": "Resonant tunneling of electrons in quantum wires (Review)", "abstract": "We consider resonant electron tunneling in various nanostructures, including single-wall carbon nanotubes, molecular transistors, and quantum wires, formed in two-dimensional electron gas. The review ...", "citations": 23, "author_count": 5, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5895, "doi": "10.1063/1.3319350", "umap_coordinates": { "x": 393.8173522949219, "y": 134.4320068359375, "z": 208.30421447753906 }, "tsne_coordinates": { "x": 26.074230194091797, "y": -30.756179809570312, "z": -0.6988532543182373 }, "pca_coordinates": { "x": 2.8728885650634766, "y": -2.4412660598754883, "z": -0.18215107917785645 }, "axis_scores": { "Quantum imaging": 0.7239099144935608, "Quantum Life Science Sensing": 0.7447369694709778, "Quantum sensing Detection": 0.7400144338607788, "Quantum sensing Metrology": 0.7305111885070801, "Quantum sensing navigation": 0.7454967498779297, "Quantum sensing Position": 0.6965184211730957, "Quantum sensing Timing": 0.6951568126678467, "Quantum sensing": 0.7520116567611694, "Quantum control": 0.7126743793487549 } }, { "id": 5889, "title": "Luminescence, Singlet Oxygen Production, and Optical Power Limiting of Some Diacetylide Platinum(II) Diphosphine Complexes", "abstract": "A series Of four new trans-diphosphine Pt(II) diacetylide complexes, with a thiophene and two benzenoid rings in each acetylide ligand, have been synthesized and characterized with respect to optical ...", "citations": 44, "author_count": 7, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5896, "doi": "10.1021/jp9091514", "umap_coordinates": { "x": 392.1733703613281, "y": 135.43612670898438, "z": 204.96051025390625 }, "tsne_coordinates": { "x": 0.13991662859916687, "y": 6.648641586303711, "z": -15.417019844055176 }, "pca_coordinates": { "x": -2.7526168823242188, "y": -1.2553904056549072, "z": -1.3971779346466064 }, "axis_scores": { "Quantum imaging": 0.6944350004196167, "Quantum Life Science Sensing": 0.6985747814178467, "Quantum sensing Detection": 0.6738706827163696, "Quantum sensing Metrology": 0.6448715329170227, "Quantum sensing navigation": 0.6401196122169495, "Quantum sensing Position": 0.6580836772918701, "Quantum sensing Timing": 0.6547879576683044, "Quantum sensing": 0.6766848564147949, "Quantum control": 0.6556130051612854 } }, { "id": 5890, "title": "PHOTOSYNTHETIC LIGHT-RESPONSE CURVES .2. GRADIENTS OF LIGHT-ABSORPTION AND PHOTOSYNTHETIC CAPACITY", "abstract": "Gradients in photosynthetic capacity through the leaf affect the shape of the irradiance-response curve. These gradients in photosynthetic capacity were manipulated by restraining leaves in different ...", "citations": 173, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5897, "doi": null, "umap_coordinates": { "x": 391.7298278808594, "y": 139.61245727539062, "z": 209.68434143066406 }, "tsne_coordinates": { "x": -2.117347002029419, "y": 44.00667953491211, "z": 2.03259015083313 }, "pca_coordinates": { "x": -2.635998249053955, "y": 3.1981990337371826, "z": -2.9228756427764893 }, "axis_scores": { "Quantum imaging": 0.7162702679634094, "Quantum Life Science Sensing": 0.7495604753494263, "Quantum sensing Detection": 0.7193298935890198, "Quantum sensing Metrology": 0.7020201683044434, "Quantum sensing navigation": 0.7161442637443542, "Quantum sensing Position": 0.6899908781051636, "Quantum sensing Timing": 0.668400764465332, "Quantum sensing": 0.7277695536613464, "Quantum control": 0.7170630097389221 } }, { "id": 5891, "title": "MICROSPECTROFLUOROMETRIC APPROACH TO THE STUDY OF FREE BOUND NAD(P)H RATIO AS METABOLIC INDICATOR IN VARIOUS CELL-TYPES", "abstract": "Under excitation at 365 nm, cell fluorescence is mainly due to bound and free NAD(P)H, plus a small contribution from flavins. Resolution is first attempted in the simplest case, i.e., the increase sp...", "citations": 102, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1982, "topic": [ "all" ], "embedding_index": 5898, "doi": "10.1111/j.1751-1097.1982.tb04420.x", "umap_coordinates": { "x": 394.44720458984375, "y": 135.46141052246094, "z": 203.88294982910156 }, "tsne_coordinates": { "x": 5.333470344543457, "y": 30.15390396118164, "z": 14.461374282836914 }, "pca_coordinates": { "x": -2.5471320152282715, "y": 3.087876796722412, "z": -2.2252554893493652 }, "axis_scores": { "Quantum imaging": 0.689440131187439, "Quantum Life Science Sensing": 0.7163571119308472, "Quantum sensing Detection": 0.6789625287055969, "Quantum sensing Metrology": 0.6865906715393066, "Quantum sensing navigation": 0.685681939125061, "Quantum sensing Position": 0.6862756609916687, "Quantum sensing Timing": 0.6727704405784607, "Quantum sensing": 0.6883398294448853, "Quantum control": 0.6646416783332825 } }, { "id": 5892, "title": "Dissipation and thermal noise in hybrid quantum systems in the ultrastrong-coupling regime", "abstract": "The interaction among the components of a hybrid quantum system is often neglected when considering the coupling of these components to an environment. However, if the interaction strength is large, t...", "citations": 84, "author_count": 8, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5899, "doi": "10.1103/PhysRevA.98.053834", "umap_coordinates": { "x": 394.587158203125, "y": 136.14649963378906, "z": 208.62557983398438 }, "tsne_coordinates": { "x": -9.710689544677734, "y": -13.061467170715332, "z": 5.732302665710449 }, "pca_coordinates": { "x": 5.389560222625732, "y": -0.9439325332641602, "z": -0.11496680974960327 }, "axis_scores": { "Quantum imaging": 0.7063963413238525, "Quantum Life Science Sensing": 0.7299835681915283, "Quantum sensing Detection": 0.7252218723297119, "Quantum sensing Metrology": 0.6968623399734497, "Quantum sensing navigation": 0.7141461968421936, "Quantum sensing Position": 0.6814022064208984, "Quantum sensing Timing": 0.7094045281410217, "Quantum sensing": 0.7313477396965027, "Quantum control": 0.7034313678741455 } }, { "id": 5893, "title": "Cyclotron maser cooling of particle beams and quantum field action effect on radiation cooling", "abstract": "A new particle beam cooling scheme ''cyclotron maser cooling'' (CMC) was examined, Under a stimulating rf field below the critical value prescribed by an action time of the field, a beam of gyrating e...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 5900, "doi": "10.1143/JPSJ.66.2214", "umap_coordinates": { "x": 395.1636962890625, "y": 135.56390380859375, "z": 206.37840270996094 }, "tsne_coordinates": { "x": -22.155569076538086, "y": -13.358100891113281, "z": 32.34299850463867 }, "pca_coordinates": { "x": 0.9337129592895508, "y": 1.9358253479003906, "z": -0.3015880584716797 }, "axis_scores": { "Quantum imaging": 0.7048325538635254, "Quantum Life Science Sensing": 0.7092577219009399, "Quantum sensing Detection": 0.6820577383041382, "Quantum sensing Metrology": 0.6790195107460022, "Quantum sensing navigation": 0.6992850303649902, "Quantum sensing Position": 0.6901878118515015, "Quantum sensing Timing": 0.6891072392463684, "Quantum sensing": 0.6987388134002686, "Quantum control": 0.7129450440406799 } }, { "id": 5894, "title": "BIOCHEMICAL VARIABLES ASSOCIATED WITH BONE-DENSITY IN PATIENTS WITH PRIMARY HYPERPARATHYROIDISM", "abstract": "Objective-To clarify the association between primary hyperparathyroidism and cortical osteopenia. Design-Open study. Setting-Department of Surgery, University of Lund, Sweden. Subjects-38 patients wit...", "citations": 9, "author_count": 4, "categories": [ "Surgery" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5901, "doi": null, "umap_coordinates": { "x": 391.5211181640625, "y": 139.55690002441406, "z": 209.4239044189453 }, "tsne_coordinates": { "x": 4.38831901550293, "y": 40.99469757080078, "z": -0.34330666065216064 }, "pca_coordinates": { "x": -2.4762814044952393, "y": 4.4586381912231445, "z": -1.419641137123108 }, "axis_scores": { "Quantum imaging": 0.6962457895278931, "Quantum Life Science Sensing": 0.6920325756072998, "Quantum sensing Detection": 0.6806896328926086, "Quantum sensing Metrology": 0.6935198307037354, "Quantum sensing navigation": 0.6919238567352295, "Quantum sensing Position": 0.6951368451118469, "Quantum sensing Timing": 0.6697220206260681, "Quantum sensing": 0.6904990673065186, "Quantum control": 0.6760161519050598 } }, { "id": 5895, "title": "PICOSECOND TRYPTOPHAN FLUORESCENCE OF THIOREDOXIN - EVIDENCE FOR DISCRETE SPECIES IN SLOW EXCHANGE", "abstract": "The study-state tryptophan fluorescence and time-resolved tryptophan fluorescence of Escherichia coli thioredoxin, calf thymus thioredoxin, and yeast thioredoxin have been studied. In all proteins, th...", "citations": 82, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1989, "topic": [ "all" ], "embedding_index": 5902, "doi": "10.1021/bi00434a038", "umap_coordinates": { "x": 392.4771423339844, "y": 136.29141235351562, "z": 206.17466735839844 }, "tsne_coordinates": { "x": 20.574176788330078, "y": 6.113677978515625, "z": 28.61964225769043 }, "pca_coordinates": { "x": 0.09947919845581055, "y": -0.45807647705078125, "z": -3.4244959354400635 }, "axis_scores": { "Quantum imaging": 0.6859704852104187, "Quantum Life Science Sensing": 0.6973967552185059, "Quantum sensing Detection": 0.6594083309173584, "Quantum sensing Metrology": 0.6389894485473633, "Quantum sensing navigation": 0.6578785181045532, "Quantum sensing Position": 0.6469581127166748, "Quantum sensing Timing": 0.6646453142166138, "Quantum sensing": 0.6727263331413269, "Quantum control": 0.6629241704940796 } }, { "id": 5896, "title": "Towards accurate modelling of 1H NMR spectra of ionic liquids: The case of [C4mim][BF4] and its aqueous mixtures", "abstract": "Relative 1H NMR spectra of neat [C4mim][BF4] and its aqueous mixtures have been computed with the near-quantitative accuracy for the first time, with root-mean square deviation of 0.2 ppm with respect...", "citations": 1, "author_count": 9, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5903, "doi": "10.1016/j.cplett.2025.142295", "umap_coordinates": { "x": 393.3101806640625, "y": 136.6033477783203, "z": 205.20233154296875 }, "tsne_coordinates": { "x": 0.17876659333705902, "y": 14.87559700012207, "z": 15.691397666931152 }, "pca_coordinates": { "x": -2.1230032444000244, "y": 2.1261672973632812, "z": -2.8262786865234375 }, "axis_scores": { "Quantum imaging": 0.6968220472335815, "Quantum Life Science Sensing": 0.6984341740608215, "Quantum sensing Detection": 0.6625366806983948, "Quantum sensing Metrology": 0.6790079474449158, "Quantum sensing navigation": 0.6837892532348633, "Quantum sensing Position": 0.6789816617965698, "Quantum sensing Timing": 0.6594751477241516, "Quantum sensing": 0.6883314847946167, "Quantum control": 0.6747422218322754 } }, { "id": 5897, "title": "Mode Sensitivity Analysis of Subwavelength Grating Slot Waveguides", "abstract": "In this paper, we investigate the mode sensitivity (S-mode) of subwavelength grating slot (SWGS) waveguides. S-mode is an important parameter in various waveguide-based photonic circuits such as senso...", "citations": 29, "author_count": 7, "categories": [ "Engineering" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5904, "doi": "10.1109/JPHOT.2019.2939088", "umap_coordinates": { "x": 394.38970947265625, "y": 133.66297912597656, "z": 206.6944122314453 }, "tsne_coordinates": { "x": 7.995797157287598, "y": -2.8437368869781494, "z": -35.74220275878906 }, "pca_coordinates": { "x": -0.9204567670822144, "y": -0.018131017684936523, "z": 3.302544116973877 }, "axis_scores": { "Quantum imaging": 0.7418602705001831, "Quantum Life Science Sensing": 0.7535529732704163, "Quantum sensing Detection": 0.7636796832084656, "Quantum sensing Metrology": 0.7620059251785278, "Quantum sensing navigation": 0.7513829469680786, "Quantum sensing Position": 0.7333061099052429, "Quantum sensing Timing": 0.714026689529419, "Quantum sensing": 0.7693366408348083, "Quantum control": 0.7029287815093994 } }, { "id": 5898, "title": "Pump-probe measurement of lifetime engineering in SiGe quantum wells below the optical phonon energy", "abstract": "We have directly determined with pump/probe spectroscopy the light hole (LH1) excited state lifetime for the lowest heavy hole to light hole intrawell subband transition (HH1-LH1) for three prototype ...", "citations": 12, "author_count": 9, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5905, "doi": "10.1088/0268-1242/20/10/L02", "umap_coordinates": { "x": 394.2992248535156, "y": 135.04884338378906, "z": 206.46302795410156 }, "tsne_coordinates": { "x": 6.98945951461792, "y": 3.0826423168182373, "z": 17.63076400756836 }, "pca_coordinates": { "x": 0.1940861940383911, "y": 0.03162741661071777, "z": 1.0743598937988281 }, "axis_scores": { "Quantum imaging": 0.7069004774093628, "Quantum Life Science Sensing": 0.7471498250961304, "Quantum sensing Detection": 0.7062556147575378, "Quantum sensing Metrology": 0.7037662863731384, "Quantum sensing navigation": 0.7054346203804016, "Quantum sensing Position": 0.7164352536201477, "Quantum sensing Timing": 0.7139946818351746, "Quantum sensing": 0.7131495475769043, "Quantum control": 0.6669228076934814 } }, { "id": 5899, "title": "Theoretical study of intermolecular potential energy surface for HCl dimer: Example of nonspherical atom-atom exchange repulsion interaction", "abstract": "The intermolecular part of the potential energy surface for the HCl dimer has been studied with ab initio quantum chemical methods. An intermolecular potential, based on quantum chemical calculations ...", "citations": 14, "author_count": 4, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 5906, "doi": "10.1002/(SICI)1096-987X(199812)19:16<1816::AID-JCC3>3.0.CO;2-O", "umap_coordinates": { "x": 393.6636657714844, "y": 137.606689453125, "z": 205.70684814453125 }, "tsne_coordinates": { "x": -8.968785285949707, "y": 12.40180778503418, "z": 31.701457977294922 }, "pca_coordinates": { "x": -0.3313511610031128, "y": 1.4172239303588867, "z": -3.0416860580444336 }, "axis_scores": { "Quantum imaging": 0.6477292776107788, "Quantum Life Science Sensing": 0.6748819351196289, "Quantum sensing Detection": 0.6377028226852417, "Quantum sensing Metrology": 0.6341133117675781, "Quantum sensing navigation": 0.6285080313682556, "Quantum sensing Position": 0.6312646865844727, "Quantum sensing Timing": 0.6237978935241699, "Quantum sensing": 0.6486213803291321, "Quantum control": 0.6391673684120178 } }, { "id": 5900, "title": "Understanding and Controlling the Crystallization Process in Reconfigurable Plasmonic Superlattices", "abstract": "The crystallization of nanomaterials is a primary source of solid-state, photonic structures. Thus, a detailed understanding of this process is of paramount importance for the successful application o...", "citations": 12, "author_count": 15, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5907, "doi": "10.1021/acsnano.0c09746", "umap_coordinates": { "x": 392.5555114746094, "y": 134.62757873535156, "z": 206.03460693359375 }, "tsne_coordinates": { "x": 16.779312133789062, "y": -10.094587326049805, "z": -13.673516273498535 }, "pca_coordinates": { "x": -1.3951094150543213, "y": -1.9904603958129883, "z": -1.5702290534973145 }, "axis_scores": { "Quantum imaging": 0.7402958273887634, "Quantum Life Science Sensing": 0.7463785409927368, "Quantum sensing Detection": 0.7382224798202515, "Quantum sensing Metrology": 0.7372611165046692, "Quantum sensing navigation": 0.7450965642929077, "Quantum sensing Position": 0.7128344178199768, "Quantum sensing Timing": 0.7193801999092102, "Quantum sensing": 0.7563350200653076, "Quantum control": 0.733542799949646 } }, { "id": 5901, "title": "SPECTROSCOPIC CHARACTERIZATION OF TYROSINE-Z IN HISTIDINE-190 MUTANTS OF THE D1 PROTEIN IN PHOTOSYSTEM-II (PSII) IN CHLAMYDOMONAS-REINHARDTII - IMPLICATIONS FOR THE STRUCTURAL MODEL OF THE DONOR SIDE OF PSII", "abstract": "EPR spectra attributed to the redox active tyrosine residues on the oxidizing side of photosystem II (Tyr(Z) and Tyr(D)) have almost identical line shapes, although the tyrosyl radicals differ in stab...", "citations": 70, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1994, "topic": [ "all" ], "embedding_index": 5908, "doi": null, "umap_coordinates": { "x": 391.9646301269531, "y": 139.57827758789062, "z": 209.63369750976562 }, "tsne_coordinates": { "x": -4.284741401672363, "y": 42.780818939208984, "z": -1.5359842777252197 }, "pca_coordinates": { "x": -1.9923343658447266, "y": 3.8439605236053467, "z": -3.1024558544158936 }, "axis_scores": { "Quantum imaging": 0.7751004695892334, "Quantum Life Science Sensing": 0.7935003638267517, "Quantum sensing Detection": 0.7770178318023682, "Quantum sensing Metrology": 0.7611485719680786, "Quantum sensing navigation": 0.7666118741035461, "Quantum sensing Position": 0.7368231415748596, "Quantum sensing Timing": 0.7255051732063293, "Quantum sensing": 0.7950674891471863, "Quantum control": 0.803821325302124 } }, { "id": 5902, "title": "Measurement of the production cross section of pairs of isolated photons in pp collisions at 13 TeV with the ATLAS detector", "abstract": "A measurement of prompt photon-pair production in proton-proton collisions at root s = 13 TeV is presented. The data were recorded by the ATLAS detector at the LHC with an integrated luminosity of 139...", "citations": 22, "author_count": 2688, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5909, "doi": "10.1007/JHEP11(2021)169", "umap_coordinates": { "x": 396.84844970703125, "y": 134.40414428710938, "z": 207.3433380126953 }, "tsne_coordinates": { "x": -33.56483840942383, "y": 11.588815689086914, "z": -10.744192123413086 }, "pca_coordinates": { "x": -0.26087141036987305, "y": 1.8270835876464844, "z": 3.484546184539795 }, "axis_scores": { "Quantum imaging": 0.7048940658569336, "Quantum Life Science Sensing": 0.7112360596656799, "Quantum sensing Detection": 0.7180062532424927, "Quantum sensing Metrology": 0.6856989860534668, "Quantum sensing navigation": 0.675899863243103, "Quantum sensing Position": 0.6929303407669067, "Quantum sensing Timing": 0.6893476247787476, "Quantum sensing": 0.7116848230361938, "Quantum control": 0.6542261838912964 } }, { "id": 5903, "title": "Application of Theory of Quantum Instruments to Psychology: Combination of Question Order Effect with Response Replicability Effect", "abstract": "Recently, quantum formalism started to be actively used outside of quantum physics: in psychology, decision-making, economics, finances, and social science. Human psychological behavior is characteriz...", "citations": 30, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5910, "doi": "10.3390/e22010037", "umap_coordinates": { "x": 395.2767028808594, "y": 136.68417358398438, "z": 206.05653381347656 }, "tsne_coordinates": { "x": -23.829851150512695, "y": 6.883170127868652, "z": 5.20849609375 }, "pca_coordinates": { "x": 0.07685494422912598, "y": 2.7092576026916504, "z": 0.47049766778945923 }, "axis_scores": { "Quantum imaging": 0.7574824094772339, "Quantum Life Science Sensing": 0.7941000461578369, "Quantum sensing Detection": 0.7769973278045654, "Quantum sensing Metrology": 0.7667549252510071, "Quantum sensing navigation": 0.7516828179359436, "Quantum sensing Position": 0.7513490319252014, "Quantum sensing Timing": 0.760891318321228, "Quantum sensing": 0.7833265662193298, "Quantum control": 0.7459608912467957 } }, { "id": 5904, "title": "Analytic continuation by averaging Pade approximants", "abstract": "The ill-posed analytic continuation problem for Green's functions and self-energies is investigated by revisiting the Pade approximants technique. We propose to remedy the well-known problems of the P...", "citations": 61, "author_count": 7, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 5911, "doi": "10.1103/PhysRevB.93.075104", "umap_coordinates": { "x": 395.0020446777344, "y": 136.35826110839844, "z": 208.70773315429688 }, "tsne_coordinates": { "x": -15.281755447387695, "y": -23.313276290893555, "z": 0.5787478089332581 }, "pca_coordinates": { "x": 3.942157745361328, "y": -0.0067005157470703125, "z": 0.4145283102989197 }, "axis_scores": { "Quantum imaging": 0.6744763255119324, "Quantum Life Science Sensing": 0.6813957691192627, "Quantum sensing Detection": 0.671545147895813, "Quantum sensing Metrology": 0.6681289672851562, "Quantum sensing navigation": 0.6978188753128052, "Quantum sensing Position": 0.6606888771057129, "Quantum sensing Timing": 0.651642918586731, "Quantum sensing": 0.6823239326477051, "Quantum control": 0.6681046485900879 } }, { "id": 5905, "title": "Timepix3: first measurements and characterization of a hybrid-pixel detector working in event driven mode", "abstract": "Timepix3 is a hybrid pixel detector readout chip. It features a data driven readout mode where the chip sends out a data packet containing pixel coordinate, time over threshold and time of arrival imm...", "citations": 49, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5912, "doi": "10.1088/1748-0221/10/01/C01039", "umap_coordinates": { "x": 395.9596862792969, "y": 133.62557983398438, "z": 206.231201171875 }, "tsne_coordinates": { "x": -23.86336326599121, "y": 20.43069076538086, "z": -15.889487266540527 }, "pca_coordinates": { "x": -2.165693998336792, "y": 2.961282730102539, "z": 3.123042345046997 }, "axis_scores": { "Quantum imaging": 0.6733500957489014, "Quantum Life Science Sensing": 0.6681213974952698, "Quantum sensing Detection": 0.6756886839866638, "Quantum sensing Metrology": 0.656748354434967, "Quantum sensing navigation": 0.6288732290267944, "Quantum sensing Position": 0.6465946435928345, "Quantum sensing Timing": 0.7129886746406555, "Quantum sensing": 0.6744030117988586, "Quantum control": 0.6313266158103943 } }, { "id": 5906, "title": "Topological Zero Modes and Correlation Pumping in an Engineered Kondo Lattice", "abstract": "Topological phases of matter provide a flexible platform to engineer unconventional quantum excitations in quantum materials. Beyond single particle topological matter, in systems with strong quantum ...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5913, "doi": "10.1103/PhysRevLett.134.116605", "umap_coordinates": { "x": 394.533447265625, "y": 136.8095703125, "z": 208.7454071044922 }, "tsne_coordinates": { "x": -17.070648193359375, "y": -20.375818252563477, "z": 17.66347312927246 }, "pca_coordinates": { "x": 5.427881240844727, "y": 0.041326045989990234, "z": -0.591738760471344 }, "axis_scores": { "Quantum imaging": 0.712948203086853, "Quantum Life Science Sensing": 0.6990925669670105, "Quantum sensing Detection": 0.7143468260765076, "Quantum sensing Metrology": 0.6909246444702148, "Quantum sensing navigation": 0.7333776950836182, "Quantum sensing Position": 0.6996729373931885, "Quantum sensing Timing": 0.7142745852470398, "Quantum sensing": 0.7126730680465698, "Quantum control": 0.7023899555206299 } }, { "id": 5907, "title": "Measurement of the production cross section of three isolated photons in pp collisions at √s=8 TeV using the ATLAS detector", "abstract": "A measurement of the production of three isolated photons in proton-proton collisions at a centre-of-mass energy root s = 8 TeV is reported. The results are based on an integrated luminosity of 20.2 f...", "citations": 32, "author_count": 2687, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5914, "doi": "10.1016/j.physletb.2018.03.057", "umap_coordinates": { "x": 396.7130432128906, "y": 134.16964721679688, "z": 207.56118774414062 }, "tsne_coordinates": { "x": -31.454565048217773, "y": 8.645855903625488, "z": -10.433012962341309 }, "pca_coordinates": { "x": -0.7646154165267944, "y": 0.3292534351348877, "z": 3.4886021614074707 }, "axis_scores": { "Quantum imaging": 0.7242681980133057, "Quantum Life Science Sensing": 0.722301185131073, "Quantum sensing Detection": 0.7333652973175049, "Quantum sensing Metrology": 0.6939209699630737, "Quantum sensing navigation": 0.6903308629989624, "Quantum sensing Position": 0.7038217186927795, "Quantum sensing Timing": 0.6928500533103943, "Quantum sensing": 0.7252007722854614, "Quantum control": 0.6562821269035339 } }, { "id": 5908, "title": "Signatures of quantum effects on radiation reaction in laser-electron-beam collisions", "abstract": "Two signatures of quantum effects on radiation reaction in the collision of a similar to GeV electron beam with a high intensity (>3 x 10(20) W cm(-2)) laser pulse have been considered. We show that t...", "citations": 69, "author_count": 12, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5915, "doi": "10.1017/S0022377817000642", "umap_coordinates": { "x": 394.58343505859375, "y": 135.48817443847656, "z": 206.0294647216797 }, "tsne_coordinates": { "x": -4.7466206550598145, "y": 13.188983917236328, "z": 8.956010818481445 }, "pca_coordinates": { "x": -0.2498234510421753, "y": 0.8278067111968994, "z": -0.10215604305267334 }, "axis_scores": { "Quantum imaging": 0.7325475215911865, "Quantum Life Science Sensing": 0.7280280590057373, "Quantum sensing Detection": 0.7327963709831238, "Quantum sensing Metrology": 0.6928595304489136, "Quantum sensing navigation": 0.7158488631248474, "Quantum sensing Position": 0.7091912031173706, "Quantum sensing Timing": 0.7128928303718567, "Quantum sensing": 0.7259971499443054, "Quantum control": 0.702031135559082 } }, { "id": 5909, "title": "High-Resolution Quantum-Mechanical Signal Processing for in vivo NMR Spectroscopy", "abstract": "High-resolution quantitative signal analysis using the fast Pade transform (FPT) is applied to a specific problem (cerebral asphyxia) within magnetic resonance spectroscopy (MRS) for in vivo pediatric...", "citations": 9, "author_count": 3, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5916, "doi": "10.1016/bs.aiq.2016.06.004", "umap_coordinates": { "x": 393.0074462890625, "y": 136.7689971923828, "z": 206.49879455566406 }, "tsne_coordinates": { "x": 12.088330268859863, "y": 5.39639139175415, "z": 33.08586502075195 }, "pca_coordinates": { "x": -1.2088481187820435, "y": 2.1695504188537598, "z": -0.9864548444747925 }, "axis_scores": { "Quantum imaging": 0.7625877261161804, "Quantum Life Science Sensing": 0.7503420114517212, "Quantum sensing Detection": 0.724338710308075, "Quantum sensing Metrology": 0.7285099029541016, "Quantum sensing navigation": 0.7324772477149963, "Quantum sensing Position": 0.7240479588508606, "Quantum sensing Timing": 0.6988288760185242, "Quantum sensing": 0.748479425907135, "Quantum control": 0.7117248773574829 } }, { "id": 5910, "title": "Observation of Direct-Photon Collective Flow in Au plus Au Collisions at √sNN=200 GeV", "abstract": "The second Fourier component v(2) of the azimuthal anisotropy with respect to the reaction plane is measured for direct photons at midrapidity and transverse momentum (p(T)) of 1-12 GeV/c in Au + Au c...", "citations": 207, "author_count": 386, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5917, "doi": "10.1103/PhysRevLett.109.122302", "umap_coordinates": { "x": 396.0767822265625, "y": 134.7028350830078, "z": 208.17306518554688 }, "tsne_coordinates": { "x": -35.07085418701172, "y": 1.8432579040527344, "z": -18.669679641723633 }, "pca_coordinates": { "x": 3.6990957260131836, "y": -1.4084022045135498, "z": 3.0302646160125732 }, "axis_scores": { "Quantum imaging": 0.7123498916625977, "Quantum Life Science Sensing": 0.7214484810829163, "Quantum sensing Detection": 0.7461991310119629, "Quantum sensing Metrology": 0.7092764377593994, "Quantum sensing navigation": 0.7340526580810547, "Quantum sensing Position": 0.7140800356864929, "Quantum sensing Timing": 0.7080177068710327, "Quantum sensing": 0.738531231880188, "Quantum control": 0.7120578289031982 } }, { "id": 5911, "title": "EXCESS OF LOW-ENERGY EXCITATIONS IN GLASSES", "abstract": "Low-frequency Raman spectra of metaphosphate glasses (Sm2O3)(x)(P2O5)(1-x), (Eu2O3)(x)(P2O5)(1-x), (Gd2O3)(x)(P2O5)(1-x), and GeO2 have been measured in a wide temperature range from T approximate to ...", "citations": 69, "author_count": 8, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5918, "doi": "10.1103/PhysRevB.52.9342", "umap_coordinates": { "x": 394.23956298828125, "y": 135.72792053222656, "z": 209.2002716064453 }, "tsne_coordinates": { "x": 5.5304036140441895, "y": -41.523563385009766, "z": 4.145378112792969 }, "pca_coordinates": { "x": 3.463982105255127, "y": -2.0397138595581055, "z": -1.2765703201293945 }, "axis_scores": { "Quantum imaging": 0.6887786984443665, "Quantum Life Science Sensing": 0.6988646984100342, "Quantum sensing Detection": 0.708431601524353, "Quantum sensing Metrology": 0.685742199420929, "Quantum sensing navigation": 0.6948260068893433, "Quantum sensing Position": 0.675724446773529, "Quantum sensing Timing": 0.6714751720428467, "Quantum sensing": 0.7102435827255249, "Quantum control": 0.6641717553138733 } }, { "id": 5912, "title": "Physical activity reduces bone loss in the distal forearm in post-menopausal women - a 25-year prospective study", "abstract": "Intervention studies have shown that high-intensity training programs with duration of 1-3 years can influence bone mass in post-menopausal women. We wanted to investigate whether moderate physical ac...", "citations": 11, "author_count": 4, "categories": [ "Sport Sciences" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5919, "doi": "10.1111/j.1600-0838.2012.01504.x", "umap_coordinates": { "x": 395.0985107421875, "y": 134.32498168945312, "z": 204.418701171875 }, "tsne_coordinates": { "x": -2.854055404663086, "y": 34.121002197265625, "z": 10.966840744018555 }, "pca_coordinates": { "x": -2.6692824363708496, "y": 3.871833562850952, "z": 0.2680721879005432 }, "axis_scores": { "Quantum imaging": 0.6495928764343262, "Quantum Life Science Sensing": 0.6736167073249817, "Quantum sensing Detection": 0.6565882563591003, "Quantum sensing Metrology": 0.6508326530456543, "Quantum sensing navigation": 0.6615591049194336, "Quantum sensing Position": 0.6598421335220337, "Quantum sensing Timing": 0.6551417112350464, "Quantum sensing": 0.6642103791236877, "Quantum control": 0.6567906737327576 } }, { "id": 5913, "title": "Ferromagnetic domains in the large-U Hubbard model with a few holes: A full configuration interaction quantum Monte Carlo study", "abstract": "Two-dimensional Hubbard lattices with two or three holes are investigated as a function of U in the large -U limit. In the so-called Nagaoka limit (one-hole system at infinite U), it is known that the...", "citations": 7, "author_count": 7, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5920, "doi": "10.1103/PhysRevB.107.064405", "umap_coordinates": { "x": 394.4273681640625, "y": 136.6714324951172, "z": 209.02236938476562 }, "tsne_coordinates": { "x": -8.859920501708984, "y": -43.03129577636719, "z": -1.262143850326538 }, "pca_coordinates": { "x": 3.3518667221069336, "y": 0.9345242977142334, "z": -0.5863569974899292 }, "axis_scores": { "Quantum imaging": 0.7135874629020691, "Quantum Life Science Sensing": 0.6996800899505615, "Quantum sensing Detection": 0.7005257606506348, "Quantum sensing Metrology": 0.6994739174842834, "Quantum sensing navigation": 0.7079423666000366, "Quantum sensing Position": 0.686141312122345, "Quantum sensing Timing": 0.679869532585144, "Quantum sensing": 0.7166456580162048, "Quantum control": 0.6865031719207764 } }, { "id": 5914, "title": "Interaction of Mechanical Oscillators Mediated by the Exchange of Virtual Photon Pairs", "abstract": "Two close parallel mirrors attract due to a small force (Casimir effect) originating from the quantum vacuum fluctuations of the electromagnetic field. These vacuum fluctuations can also induce motion...", "citations": 64, "author_count": 9, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5921, "doi": "10.1103/PhysRevLett.122.030402", "umap_coordinates": { "x": 395.13616943359375, "y": 135.85568237304688, "z": 207.57281494140625 }, "tsne_coordinates": { "x": -10.277966499328613, "y": -14.707477569580078, "z": 1.913941502571106 }, "pca_coordinates": { "x": 4.205541133880615, "y": 0.756787896156311, "z": 0.7420935034751892 }, "axis_scores": { "Quantum imaging": 0.7541725039482117, "Quantum Life Science Sensing": 0.7303606271743774, "Quantum sensing Detection": 0.7435353994369507, "Quantum sensing Metrology": 0.7360041737556458, "Quantum sensing navigation": 0.744209349155426, "Quantum sensing Position": 0.7241484522819519, "Quantum sensing Timing": 0.7359737157821655, "Quantum sensing": 0.7510614395141602, "Quantum control": 0.733396053314209 } }, { "id": 5915, "title": "The structural basis of cephalosporin formation in a mononuclear ferrous enzyme", "abstract": "Deacetoxycephalosporin-C synthase (DAOCS) is a mononuclear ferrous enzyme that transforms penicillins into cephalosporins by inserting a carbon atom into the penicillin nucleus. In the first half-reac...", "citations": 92, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5922, "doi": "10.1038/nsmb712", "umap_coordinates": { "x": 393.20538330078125, "y": 137.08253479003906, "z": 204.95387268066406 }, "tsne_coordinates": { "x": -1.6058396100997925, "y": 7.97194242477417, "z": 26.983606338500977 }, "pca_coordinates": { "x": -1.0863299369812012, "y": 1.2934184074401855, "z": -4.481482982635498 }, "axis_scores": { "Quantum imaging": 0.6648168563842773, "Quantum Life Science Sensing": 0.6984800696372986, "Quantum sensing Detection": 0.6739923357963562, "Quantum sensing Metrology": 0.6755842566490173, "Quantum sensing navigation": 0.6790367364883423, "Quantum sensing Position": 0.6674099564552307, "Quantum sensing Timing": 0.6527372598648071, "Quantum sensing": 0.682297945022583, "Quantum control": 0.6544789671897888 } }, { "id": 5916, "title": "Edge-illumination spectral phase-contrast tomography", "abstract": "Following the rapid, but independent, diffusion of x-ray spectral and phase-contrast systems, this work demonstrates the first combination of spectral and phase-contrast computed tomography (CT) obtai...", "citations": 11, "author_count": 12, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5923, "doi": "10.1088/1361-6560/ad3328", "umap_coordinates": { "x": 395.2991943359375, "y": 133.77493286132812, "z": 205.7412109375 }, "tsne_coordinates": { "x": 4.672537326812744, "y": 17.744625091552734, "z": -27.572891235351562 }, "pca_coordinates": { "x": -1.2134485244750977, "y": 1.9133745431900024, "z": 2.7900550365448 }, "axis_scores": { "Quantum imaging": 0.7760602235794067, "Quantum Life Science Sensing": 0.7388832569122314, "Quantum sensing Detection": 0.7304843664169312, "Quantum sensing Metrology": 0.7292958498001099, "Quantum sensing navigation": 0.7314503192901611, "Quantum sensing Position": 0.6991515159606934, "Quantum sensing Timing": 0.705390989780426, "Quantum sensing": 0.7436853051185608, "Quantum control": 0.6846848726272583 } }, { "id": 5917, "title": "Quantum Hall quasielectron operators in conformal field theory", "abstract": "In the conformal field theory (CFT) approach to the quantum Hall effect, the multielectron wave functions are expressed as correlation functions in certain rational CFTs. While this approach has led t...", "citations": 45, "author_count": 4, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5924, "doi": "10.1103/PhysRevB.80.165330", "umap_coordinates": { "x": 394.6769104003906, "y": 136.35409545898438, "z": 209.06861877441406 }, "tsne_coordinates": { "x": -16.391143798828125, "y": -30.993581771850586, "z": 9.438170433044434 }, "pca_coordinates": { "x": 6.3896002769470215, "y": -0.6587848663330078, "z": -1.148547649383545 }, "axis_scores": { "Quantum imaging": 0.7161766290664673, "Quantum Life Science Sensing": 0.7262157797813416, "Quantum sensing Detection": 0.7267364263534546, "Quantum sensing Metrology": 0.7158495783805847, "Quantum sensing navigation": 0.7397767901420593, "Quantum sensing Position": 0.7025263905525208, "Quantum sensing Timing": 0.6908864378929138, "Quantum sensing": 0.7378423810005188, "Quantum control": 0.7048037648200989 } }, { "id": 5918, "title": "Imaging the Function of P-Glycoprotein With Radiotracers: Pharmacokinetics and In Vivo Applications", "abstract": "P-glycoprotein (P-gp), an efflux transporter, controls the pharmacokinetics of various compounds under physiological conditions. P-gp-mediated drug efflux has been suggested as playing a role in vario...", "citations": 166, "author_count": 8, "categories": [ "Pharmacology & Pharmacy" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5925, "doi": "10.1038/clpt.2009.138", "umap_coordinates": { "x": 395.0457458496094, "y": 133.69619750976562, "z": 204.44528198242188 }, "tsne_coordinates": { "x": 0.36502429842948914, "y": 27.393953323364258, "z": -9.1106595993042 }, "pca_coordinates": { "x": -4.280385971069336, "y": 3.166318416595459, "z": 0.5023223757743835 }, "axis_scores": { "Quantum imaging": 0.7416948080062866, "Quantum Life Science Sensing": 0.7021360993385315, "Quantum sensing Detection": 0.6896868348121643, "Quantum sensing Metrology": 0.67355877161026, "Quantum sensing navigation": 0.7001385688781738, "Quantum sensing Position": 0.671821117401123, "Quantum sensing Timing": 0.6796529293060303, "Quantum sensing": 0.6928210258483887, "Quantum control": 0.6689655184745789 } }, { "id": 5919, "title": "Characterization and Efficacy of a Nanomedical Radiopharmaceutical for Cancer Treatment", "abstract": "Although much progress has been made over the last decades, there is still a significant clinical need for novel therapies to manage cancer. Typical problems are that solid tumors are frequently inacc...", "citations": 1, "author_count": 11, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5926, "doi": "10.1021/acsomega.2c06755", "umap_coordinates": { "x": 394.24176025390625, "y": 133.9741973876953, "z": 204.4442596435547 }, "tsne_coordinates": { "x": 3.5417842864990234, "y": 30.363183975219727, "z": -11.861759185791016 }, "pca_coordinates": { "x": -4.084553241729736, "y": 0.4584360122680664, "z": -0.20772463083267212 }, "axis_scores": { "Quantum imaging": 0.7251113653182983, "Quantum Life Science Sensing": 0.751314103603363, "Quantum sensing Detection": 0.7104364633560181, "Quantum sensing Metrology": 0.7172054648399353, "Quantum sensing navigation": 0.7005923986434937, "Quantum sensing Position": 0.6822855472564697, "Quantum sensing Timing": 0.6640520095825195, "Quantum sensing": 0.7190324068069458, "Quantum control": 0.6781686544418335 } }, { "id": 5920, "title": "Imaging XPS and photoemission electron microscopy; surface chemical mapping and blood cell visualization", "abstract": "Combined photoemission electron microscopy (PEEM) and imaging x-ray photoelectron spectroscopy (XPS), i.e., electron spectroscopy for chemical analysis in the nanoregion, has been used for surface cha...", "citations": 20, "author_count": 4, "categories": [ "Biophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5927, "doi": "10.1116/1.4982644", "umap_coordinates": { "x": 394.4757385253906, "y": 134.28846740722656, "z": 205.52101135253906 }, "tsne_coordinates": { "x": -0.13176007568836212, "y": 25.404468536376953, "z": -27.880666732788086 }, "pca_coordinates": { "x": -2.937469482421875, "y": -0.5551490783691406, "z": 0.8502745032310486 }, "axis_scores": { "Quantum imaging": 0.7599942684173584, "Quantum Life Science Sensing": 0.7434086799621582, "Quantum sensing Detection": 0.7295843958854675, "Quantum sensing Metrology": 0.7149499654769897, "Quantum sensing navigation": 0.7135420441627502, "Quantum sensing Position": 0.7047950029373169, "Quantum sensing Timing": 0.6912514567375183, "Quantum sensing": 0.7358348369598389, "Quantum control": 0.6933502554893494 } }, { "id": 5921, "title": "Optical optimization of polyfluorene-fullerene blend photodiodes - art. no. 034503", "abstract": "Blends of polyfluorene-fullerenes are promising materials for polymer-based photovoltaic devices (PPVD). Using spectroscopic ellipsometry we deduce the dielectric function for the blend of the fullere...", "citations": 123, "author_count": 4, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5928, "doi": "10.1063/1.1836005", "umap_coordinates": { "x": 393.7080993652344, "y": 133.8883514404297, "z": 207.24111938476562 }, "tsne_coordinates": { "x": 19.676549911499023, "y": -27.252771377563477, "z": -15.436161041259766 }, "pca_coordinates": { "x": -1.525969386100769, "y": -1.7408604621887207, "z": 2.0092711448669434 }, "axis_scores": { "Quantum imaging": 0.7279910445213318, "Quantum Life Science Sensing": 0.7470897436141968, "Quantum sensing Detection": 0.7240370512008667, "Quantum sensing Metrology": 0.7310768365859985, "Quantum sensing navigation": 0.7044709324836731, "Quantum sensing Position": 0.6791473031044006, "Quantum sensing Timing": 0.6616787314414978, "Quantum sensing": 0.7337936162948608, "Quantum control": 0.7091683149337769 } }, { "id": 5922, "title": "Freezing of an unconventional two-dimensional plasma", "abstract": "We study an unconventional two-dimensional, two-component classical plasma on a sphere, with emphasis on detecting signatures of melting transitions. This system is relevant to Ising-type quantum Hall...", "citations": 5, "author_count": 8, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5929, "doi": "10.1103/PhysRevB.87.075117", "umap_coordinates": { "x": 394.760009765625, "y": 136.94503784179688, "z": 208.2191162109375 }, "tsne_coordinates": { "x": -18.732139587402344, "y": -23.815021514892578, "z": 20.77472686767578 }, "pca_coordinates": { "x": 3.5161800384521484, "y": 0.892301082611084, "z": -1.9224286079406738 }, "axis_scores": { "Quantum imaging": 0.6892626285552979, "Quantum Life Science Sensing": 0.7056722640991211, "Quantum sensing Detection": 0.6885542869567871, "Quantum sensing Metrology": 0.655653715133667, "Quantum sensing navigation": 0.6850016713142395, "Quantum sensing Position": 0.628393828868866, "Quantum sensing Timing": 0.65276700258255, "Quantum sensing": 0.6985120177268982, "Quantum control": 0.701185941696167 } }, { "id": 5923, "title": "The Influence of Adaptogens on Ultraweak Biophoton Emission: a Pilot-Experiment", "abstract": "In the present study, the effect of plant adaptogens; (Rhodiola rosea and ADAPT-232) on human photon emission has been determined. In a randomized double blind placebo-con I rolled study, 30 subjects ...", "citations": 21, "author_count": 7, "categories": [ "Pharmacology & Pharmacy" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5930, "doi": "10.1002/ptr.2753", "umap_coordinates": { "x": 394.0557861328125, "y": 135.9303436279297, "z": 204.10189819335938 }, "tsne_coordinates": { "x": 2.8293802738189697, "y": 30.100427627563477, "z": 25.638872146606445 }, "pca_coordinates": { "x": -2.399381160736084, "y": 2.0287299156188965, "z": -0.20324832201004028 }, "axis_scores": { "Quantum imaging": 0.71126788854599, "Quantum Life Science Sensing": 0.7386109232902527, "Quantum sensing Detection": 0.7121325731277466, "Quantum sensing Metrology": 0.6949055194854736, "Quantum sensing navigation": 0.6862661838531494, "Quantum sensing Position": 0.6880655884742737, "Quantum sensing Timing": 0.6869798302650452, "Quantum sensing": 0.7291444540023804, "Quantum control": 0.7045269012451172 } }, { "id": 5924, "title": "Sensitivity of the SHiP experiment to dark photons decaying to a pair of charged particles", "abstract": "Dark photons are hypothetical massive vector particles that could mix with ordinary photons. The simplest theoretical model is fully characterised by only two parameters: the mass of the dark photon m...", "citations": 36, "author_count": 336, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5931, "doi": "10.1140/epjc/s10052-021-09224-3", "umap_coordinates": { "x": 396.6493835449219, "y": 134.47445678710938, "z": 206.77725219726562 }, "tsne_coordinates": { "x": -29.932167053222656, "y": 14.3731050491333, "z": -1.2298704385757446 }, "pca_coordinates": { "x": -0.8795037865638733, "y": 3.1829674243927, "z": 1.458240032196045 }, "axis_scores": { "Quantum imaging": 0.6942737102508545, "Quantum Life Science Sensing": 0.7099583745002747, "Quantum sensing Detection": 0.7058180570602417, "Quantum sensing Metrology": 0.6646237373352051, "Quantum sensing navigation": 0.7007023096084595, "Quantum sensing Position": 0.6904326677322388, "Quantum sensing Timing": 0.6828556060791016, "Quantum sensing": 0.7002477049827576, "Quantum control": 0.6844173669815063 } }, { "id": 5925, "title": "The Role of Rare-Earth Atoms in the Anisotropy and Antiferromagnetic Exchange Coupling at a Hybrid Metal-Organic Interface", "abstract": "Magnetic anisotropy and magnetic exchange interactions are crucial parameters that characterize the hybrid metal-organic interface, a key component of an organic spintronic device. It is shown that th...", "citations": 2, "author_count": 13, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5932, "doi": "10.1002/smll.202402328", "umap_coordinates": { "x": 392.19586181640625, "y": 136.07232666015625, "z": 206.9699249267578 }, "tsne_coordinates": { "x": 15.090177536010742, "y": -23.255252838134766, "z": 24.48587417602539 }, "pca_coordinates": { "x": -0.5789045691490173, "y": -1.6245079040527344, "z": -3.730832576751709 }, "axis_scores": { "Quantum imaging": 0.7010014653205872, "Quantum Life Science Sensing": 0.6926030516624451, "Quantum sensing Detection": 0.6615229845046997, "Quantum sensing Metrology": 0.6719227433204651, "Quantum sensing navigation": 0.6760342717170715, "Quantum sensing Position": 0.6703661680221558, "Quantum sensing Timing": 0.6551705002784729, "Quantum sensing": 0.6939456462860107, "Quantum control": 0.6717087030410767 } }, { "id": 5926, "title": "Conformational flexibility in DNA nanoconstructs: A time-resolved fluorescence resonance energy transfer study", "abstract": "Time-resolved fluorescence resonance energy transfer has been used to investigate the conformational flexibility of a DNA nanostructure. As the size of DNA nanostructures are becoming increasingly sma...", "citations": 19, "author_count": 4, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5933, "doi": "10.1021/jp801790c", "umap_coordinates": { "x": 392.640869140625, "y": 136.53372192382812, "z": 205.0392303466797 }, "tsne_coordinates": { "x": 9.513421058654785, "y": 11.151183128356934, "z": 7.417629241943359 }, "pca_coordinates": { "x": -1.452700138092041, "y": -1.0409259796142578, "z": -2.998910665512085 }, "axis_scores": { "Quantum imaging": 0.674575686454773, "Quantum Life Science Sensing": 0.7012134194374084, "Quantum sensing Detection": 0.6629141569137573, "Quantum sensing Metrology": 0.6372954249382019, "Quantum sensing navigation": 0.6818510890007019, "Quantum sensing Position": 0.6776463985443115, "Quantum sensing Timing": 0.6670361757278442, "Quantum sensing": 0.6800515055656433, "Quantum control": 0.6703846454620361 } }, { "id": 5927, "title": "Photothermally tunable silicon-microring-based optical add-drop filter through integrated light absorber", "abstract": "An optically pumped thermo-optic (TO) silicon ring add-drop filter with fast thermal response is experimentally demonstrated. We propose that metal-insulator-metal (MIM) light absorber can be integrat...", "citations": 15, "author_count": 8, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5934, "doi": "10.1364/OE.22.025233", "umap_coordinates": { "x": 394.3028259277344, "y": 134.06622314453125, "z": 206.4274139404297 }, "tsne_coordinates": { "x": -2.627580404281616, "y": -10.44447135925293, "z": -36.31637954711914 }, "pca_coordinates": { "x": -2.3535022735595703, "y": -0.7149219512939453, "z": 2.9660110473632812 }, "axis_scores": { "Quantum imaging": 0.7324029803276062, "Quantum Life Science Sensing": 0.6965368986129761, "Quantum sensing Detection": 0.71113520860672, "Quantum sensing Metrology": 0.7174737453460693, "Quantum sensing navigation": 0.705926239490509, "Quantum sensing Position": 0.7020894885063171, "Quantum sensing Timing": 0.7120680212974548, "Quantum sensing": 0.72699373960495, "Quantum control": 0.7091383934020996 } }, { "id": 5928, "title": "Novel Pathways for Enhancing Nonlinearity of Organics Utilizing Metal Clusters", "abstract": "We show that ultrasmall metallic nanoparticles can be combined with large second- and third-order response organic chromophores to enhance the overall third-order response of the system. This approach...", "citations": 19, "author_count": 7, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 5935, "doi": "10.1021/jp102438m", "umap_coordinates": { "x": 392.06072998046875, "y": 135.0736541748047, "z": 205.12637329101562 }, "tsne_coordinates": { "x": -2.987318754196167, "y": 8.19699478149414, "z": -12.317948341369629 }, "pca_coordinates": { "x": -1.6304394006729126, "y": -1.882636547088623, "z": -0.7665848731994629 }, "axis_scores": { "Quantum imaging": 0.6969361901283264, "Quantum Life Science Sensing": 0.6719928979873657, "Quantum sensing Detection": 0.6789113283157349, "Quantum sensing Metrology": 0.6665537357330322, "Quantum sensing navigation": 0.6683851480484009, "Quantum sensing Position": 0.6441954970359802, "Quantum sensing Timing": 0.6396751999855042, "Quantum sensing": 0.6862166523933411, "Quantum control": 0.6521754860877991 } }, { "id": 5929, "title": "Physics at CPLEAR", "abstract": "LEAR offered unique opportunities to study the symmetries which exist between matter and antimatter. At variance with other approaches at this facility, CPLEAR was an experiment devoted to the study o...", "citations": 46, "author_count": 74, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 5936, "doi": "10.1016/S0370-1573(02)00367-8", "umap_coordinates": { "x": 396.1696472167969, "y": 135.01235961914062, "z": 207.0074920654297 }, "tsne_coordinates": { "x": -27.857446670532227, "y": 14.022838592529297, "z": -16.34169578552246 }, "pca_coordinates": { "x": -0.028752565383911133, "y": 2.0366415977478027, "z": 0.2281460165977478 }, "axis_scores": { "Quantum imaging": 0.682888388633728, "Quantum Life Science Sensing": 0.7014777660369873, "Quantum sensing Detection": 0.679684042930603, "Quantum sensing Metrology": 0.6630348563194275, "Quantum sensing navigation": 0.6901499032974243, "Quantum sensing Position": 0.6870037913322449, "Quantum sensing Timing": 0.6799639463424683, "Quantum sensing": 0.6927585005760193, "Quantum control": 0.6742720007896423 } }, { "id": 5930, "title": "High-resolution measurement of the electron affinity of cesium", "abstract": "Negative ions are unique quantum systems where electron correlation plays a decisive role in determining their properties. The lack of optically allowed transitions prevents traditional optical spectr...", "citations": 4, "author_count": 13, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5937, "doi": "10.1103/PhysRevA.109.022812", "umap_coordinates": { "x": 395.3183288574219, "y": 135.2334442138672, "z": 208.01046752929688 }, "tsne_coordinates": { "x": -5.005650043487549, "y": -43.160335540771484, "z": 0.3661770224571228 }, "pca_coordinates": { "x": 2.134399175643921, "y": -1.0796566009521484, "z": 0.4429413676261902 }, "axis_scores": { "Quantum imaging": 0.7436543703079224, "Quantum Life Science Sensing": 0.7698955535888672, "Quantum sensing Detection": 0.7580757737159729, "Quantum sensing Metrology": 0.7398385405540466, "Quantum sensing navigation": 0.7385272979736328, "Quantum sensing Position": 0.7375984191894531, "Quantum sensing Timing": 0.7084813117980957, "Quantum sensing": 0.765869140625, "Quantum control": 0.71015465259552 } }, { "id": 5931, "title": "TRANSIENT PEAKS IN THE DELAYED LUMINESCENCE FROM SCENEDESMUS-OBTUSIUSCULUS INDUCED BY PHOSPHORUS STARVATION AND CARBON-DIOXIDE DEFICIENCY", "abstract": "Cells of the unicellular green alga Senedesmus obtusiusculus (Chod.) were starved of phosphorus for 24, 48, 72 and 96 h, and the decay kinetics of the delayed luminescence from the differently starved...", "citations": 27, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1986, "topic": [ "all" ], "embedding_index": 5938, "doi": "10.1111/j.1399-3054.1986.tb01912.x", "umap_coordinates": { "x": 394.5242004394531, "y": 135.66419982910156, "z": 204.25863647460938 }, "tsne_coordinates": { "x": 5.996895790100098, "y": 32.83510208129883, "z": 15.941570281982422 }, "pca_coordinates": { "x": -2.26216983795166, "y": 1.7765774726867676, "z": -0.4693615734577179 }, "axis_scores": { "Quantum imaging": 0.6856784820556641, "Quantum Life Science Sensing": 0.6960644721984863, "Quantum sensing Detection": 0.6918767690658569, "Quantum sensing Metrology": 0.6770321130752563, "Quantum sensing navigation": 0.6596761345863342, "Quantum sensing Position": 0.6629090309143066, "Quantum sensing Timing": 0.7154054641723633, "Quantum sensing": 0.6889362335205078, "Quantum control": 0.6625565886497498 } }, { "id": 5932, "title": "Two-photon-excited fluorescence of CO: experiments and modeling", "abstract": "A model based on rate-equation analysis has been developed for simulation of two-photon-excited laser-induced fluorescence of carbon monoxide (CO) in the Hopfield-Birge band at 230 nm. The model has b...", "citations": 12, "author_count": 6, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5939, "doi": "10.1364/OE.27.025656", "umap_coordinates": { "x": 394.26495361328125, "y": 135.04840087890625, "z": 205.7686004638672 }, "tsne_coordinates": { "x": 8.055975914001465, "y": 13.844999313354492, "z": -30.21383285522461 }, "pca_coordinates": { "x": -1.3882617950439453, "y": 1.1368108987808228, "z": -0.1914224624633789 }, "axis_scores": { "Quantum imaging": 0.7414529919624329, "Quantum Life Science Sensing": 0.7254143357276917, "Quantum sensing Detection": 0.7214216589927673, "Quantum sensing Metrology": 0.711737871170044, "Quantum sensing navigation": 0.6934675574302673, "Quantum sensing Position": 0.6774054169654846, "Quantum sensing Timing": 0.7009456753730774, "Quantum sensing": 0.7329728603363037, "Quantum control": 0.7139387130737305 } }, { "id": 5933, "title": "PREQUANTUM CLASSICAL STATISTICAL FIELD THEORY: SIMULATION OF PROBABILITIES OF PHOTON DETECTION FROM BROWNIAN MOTION INTERACTING WITH THRESHOLD DETECTORS", "abstract": "Based on the prequantum classical statistical field theory (PCSFT), we present the results of numerical simulations of a model with hidden variables of the field-type reproducing probabilistic predict...", "citations": 3, "author_count": 3, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5940, "doi": "10.1007/s10946-015-9496-x", "umap_coordinates": { "x": 395.2502136230469, "y": 136.79969787597656, "z": 206.43560791015625 }, "tsne_coordinates": { "x": -31.576091766357422, "y": 1.9235742092132568, "z": 17.226856231689453 }, "pca_coordinates": { "x": 1.4620025157928467, "y": 3.4909110069274902, "z": 2.4177446365356445 }, "axis_scores": { "Quantum imaging": 0.773855984210968, "Quantum Life Science Sensing": 0.7590462565422058, "Quantum sensing Detection": 0.7856746315956116, "Quantum sensing Metrology": 0.7624263763427734, "Quantum sensing navigation": 0.7638548016548157, "Quantum sensing Position": 0.7515183687210083, "Quantum sensing Timing": 0.7672752141952515, "Quantum sensing": 0.7785844802856445, "Quantum control": 0.7453035712242126 } }, { "id": 5934, "title": "Pore size assessment based on wall collision broadening of spectral lines of confined gas: experiments on strongly scattering nanoporous ceramics with fine-tuned pore sizes", "abstract": "Wall collision broadening of absorption lines of gases confined in porous media is a recently opened domain of high-resolution spectroscopy. Here, we present an experimental investigation of its appli...", "citations": 36, "author_count": 8, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5941, "doi": "10.1007/s00340-012-5011-z", "umap_coordinates": { "x": 393.2122497558594, "y": 134.57530212402344, "z": 205.770751953125 }, "tsne_coordinates": { "x": 32.970420837402344, "y": -3.4124252796173096, "z": -8.817463874816895 }, "pca_coordinates": { "x": -2.3649353981018066, "y": 1.3085482120513916, "z": 0.4453126788139343 }, "axis_scores": { "Quantum imaging": 0.6975157856941223, "Quantum Life Science Sensing": 0.7173895835876465, "Quantum sensing Detection": 0.6973270177841187, "Quantum sensing Metrology": 0.6833176016807556, "Quantum sensing navigation": 0.6915984749794006, "Quantum sensing Position": 0.6745702028274536, "Quantum sensing Timing": 0.6635116338729858, "Quantum sensing": 0.7134332656860352, "Quantum control": 0.670208215713501 } }, { "id": 5935, "title": "Visible Light Photocatalytic Activity in AACVD-Prepared N-modified TiO2 Thin Films", "abstract": "Nitrogen-modified TiO2 thin films are obtained, for the first time, from aerosol-assisted (AA)CVD-prepared samples via a post-treatment method involving immersion in liquid ammonia to achieve nitrogen...", "citations": 17, "author_count": 7, "categories": [ "Electrochemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5942, "doi": "10.1002/cvde.201307086", "umap_coordinates": { "x": 392.6119384765625, "y": 133.976318359375, "z": 205.06802368164062 }, "tsne_coordinates": { "x": 18.674217224121094, "y": 9.013072967529297, "z": 0.24587655067443848 }, "pca_coordinates": { "x": -3.9126009941101074, "y": -2.340038299560547, "z": -0.1974947154521942 }, "axis_scores": { "Quantum imaging": 0.6815422177314758, "Quantum Life Science Sensing": 0.7097303867340088, "Quantum sensing Detection": 0.6857820749282837, "Quantum sensing Metrology": 0.6660825610160828, "Quantum sensing navigation": 0.6748372316360474, "Quantum sensing Position": 0.6406761407852173, "Quantum sensing Timing": 0.6443387269973755, "Quantum sensing": 0.6939803957939148, "Quantum control": 0.6882556676864624 } }, { "id": 5936, "title": "Transport through single-channel atomic wires: Effects of connected sites on scattering phase and odd-even parity oscillations - art. no. 195346", "abstract": "Theoretical studies of scattering phase and odd-even parity oscillations of the conductance are presented for a finite atomic wire system, which is either connected with two single-channel leads or si...", "citations": 12, "author_count": 3, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5943, "doi": "10.1103/PhysRevB.72.195346", "umap_coordinates": { "x": 394.3017883300781, "y": 134.7397003173828, "z": 208.78677368164062 }, "tsne_coordinates": { "x": 5.748904705047607, "y": -33.923404693603516, "z": -6.870819568634033 }, "pca_coordinates": { "x": 3.276566505432129, "y": -1.6292681694030762, "z": 1.058957576751709 }, "axis_scores": { "Quantum imaging": 0.7075234651565552, "Quantum Life Science Sensing": 0.7084455490112305, "Quantum sensing Detection": 0.7146188616752625, "Quantum sensing Metrology": 0.6957234144210815, "Quantum sensing navigation": 0.7345590591430664, "Quantum sensing Position": 0.7043091654777527, "Quantum sensing Timing": 0.7095624804496765, "Quantum sensing": 0.7276118993759155, "Quantum control": 0.7096921801567078 } }, { "id": 5937, "title": "Limited water availability did not protect poplar saplings from water use efficiency reduction under elevated ozone", "abstract": "Elevated ground-level ozone (O-3) concentrations decrease photosynthetic biochemistry more than stomatal conductance (g(s)), leading to an overall reduction in leaf-scale water use efficiency (WUE). G...", "citations": 13, "author_count": 6, "categories": [ "Forestry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5944, "doi": "10.1016/j.foreco.2020.117999", "umap_coordinates": { "x": 394.04913330078125, "y": 136.3309326171875, "z": 203.5417938232422 }, "tsne_coordinates": { "x": 22.431934356689453, "y": 32.728736877441406, "z": 0.8242321610450745 }, "pca_coordinates": { "x": -3.332648992538452, "y": 2.2603209018707275, "z": -0.4793866276741028 }, "axis_scores": { "Quantum imaging": 0.6428172588348389, "Quantum Life Science Sensing": 0.6855452060699463, "Quantum sensing Detection": 0.6326467990875244, "Quantum sensing Metrology": 0.6207379102706909, "Quantum sensing navigation": 0.6431673765182495, "Quantum sensing Position": 0.6207972764968872, "Quantum sensing Timing": 0.6081841588020325, "Quantum sensing": 0.6484378576278687, "Quantum control": 0.6442278623580933 } }, { "id": 5938, "title": "Fragmentation of Methanol Molecules after Core Excitation and Core Ionization Studied by Negative-Ion/Positive-Ion Coincidence Experiments", "abstract": "We have studied the fragmentation of the methanol molecule after core excitation and core ionization by observing coincidences between negative and positive ions. Five different negative ions (H-,(-) ...", "citations": 3, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5945, "doi": "10.1021/acs.jpca.7b11250", "umap_coordinates": { "x": 392.7998046875, "y": 136.78627014160156, "z": 205.40060424804688 }, "tsne_coordinates": { "x": 3.0246636867523193, "y": 8.211877822875977, "z": 16.70591163635254 }, "pca_coordinates": { "x": -1.8057498931884766, "y": 1.7997329235076904, "z": -1.2573606967926025 }, "axis_scores": { "Quantum imaging": 0.6815356016159058, "Quantum Life Science Sensing": 0.6774566769599915, "Quantum sensing Detection": 0.6676609516143799, "Quantum sensing Metrology": 0.6360918283462524, "Quantum sensing navigation": 0.6343945264816284, "Quantum sensing Position": 0.6243067979812622, "Quantum sensing Timing": 0.6340152025222778, "Quantum sensing": 0.6608092188835144, "Quantum control": 0.6487191319465637 } }, { "id": 5939, "title": "Photocurrent Spectra and Fast Kinetic Studies of P3HT/PCBM Mixed with a Dye for Photoconversion in the Near-IR Region", "abstract": "Photoconversion properties are demonstrated for a device based on a small dye molecule, absorbing light in the near-IR region, mixed with two organic charge transport materials and together forming a ...", "citations": 39, "author_count": 5, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5946, "doi": "10.1021/jp808610f", "umap_coordinates": { "x": 392.08245849609375, "y": 135.73521423339844, "z": 205.0181121826172 }, "tsne_coordinates": { "x": 0.9783182144165039, "y": 4.923755168914795, "z": -4.302052974700928 }, "pca_coordinates": { "x": -3.3479163646698, "y": -0.946342945098877, "z": -0.5401000380516052 }, "axis_scores": { "Quantum imaging": 0.6382878422737122, "Quantum Life Science Sensing": 0.6522106528282166, "Quantum sensing Detection": 0.6219135522842407, "Quantum sensing Metrology": 0.6139376163482666, "Quantum sensing navigation": 0.5955556035041809, "Quantum sensing Position": 0.6075878143310547, "Quantum sensing Timing": 0.6106114983558655, "Quantum sensing": 0.634937584400177, "Quantum control": 0.5854241251945496 } }, { "id": 5940, "title": "LONG-TERM ADJUVANT TAMOXIFEN IN EARLY BREAST-CANCER - EFFECT ON BONE-MINERAL DENSITY IN POSTMENOPAUSAL WOMEN", "abstract": "The decrease in sex steroid hormone levels after the onset of menopause is associated with bone loss and subsequent osteoporosis. Tamoxifen has antiestrogenic properties and may thus theoretically dec...", "citations": 115, "author_count": 7, "categories": [ "Oncology" ], "year": 1990, "topic": [ "all" ], "embedding_index": 5947, "doi": "10.1200/JCO.1990.8.6.1019", "umap_coordinates": { "x": 395.14715576171875, "y": 134.8756103515625, "z": 204.23451232910156 }, "tsne_coordinates": { "x": -1.411837100982666, "y": 33.70186996459961, "z": 9.036297798156738 }, "pca_coordinates": { "x": -2.369630813598633, "y": 2.3144209384918213, "z": -0.9309197664260864 }, "axis_scores": { "Quantum imaging": 0.6598537564277649, "Quantum Life Science Sensing": 0.6767677664756775, "Quantum sensing Detection": 0.6446747183799744, "Quantum sensing Metrology": 0.6278123259544373, "Quantum sensing navigation": 0.6539524793624878, "Quantum sensing Position": 0.6546047329902649, "Quantum sensing Timing": 0.6471689939498901, "Quantum sensing": 0.6478049159049988, "Quantum control": 0.6194730401039124 } }, { "id": 5941, "title": "Real-time single-molecule 3D tracking in E. coli based on cross-entropy minimization", "abstract": "Reaching sub-millisecond 3D tracking of individual molecules in living cells would enable direct measurements of diffusion-limited macromolecular interactions under physiological conditions. Here, we ...", "citations": 11, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5948, "doi": "10.1038/s41467-023-36879-1", "umap_coordinates": { "x": 394.091552734375, "y": 135.1605987548828, "z": 205.48165893554688 }, "tsne_coordinates": { "x": -7.439599514007568, "y": 20.5430908203125, "z": 0.04799530655145645 }, "pca_coordinates": { "x": -1.865901231765747, "y": 0.6923127174377441, "z": -0.5991029739379883 }, "axis_scores": { "Quantum imaging": 0.709954559803009, "Quantum Life Science Sensing": 0.7452547550201416, "Quantum sensing Detection": 0.7197311520576477, "Quantum sensing Metrology": 0.7117272615432739, "Quantum sensing navigation": 0.7337185740470886, "Quantum sensing Position": 0.7216587066650391, "Quantum sensing Timing": 0.7258548140525818, "Quantum sensing": 0.7282339930534363, "Quantum control": 0.7186869382858276 } }, { "id": 5942, "title": "Multivesicular exocytosis in rat pancreatic beta cells", "abstract": "To establish the occurrence, modulation and functional significance of compound exocytosis in insulin-secreting beta cells. Exocytosis was monitored in rat beta cells by electrophysiological, biochemi...", "citations": 38, "author_count": 16, "categories": [ "Endocrinology & Metabolism" ], "year": 2012, "topic": [ "all" ], "embedding_index": 5949, "doi": "10.1007/s00125-011-2400-5", "umap_coordinates": { "x": 394.4228820800781, "y": 135.1121826171875, "z": 204.323486328125 }, "tsne_coordinates": { "x": -4.925462245941162, "y": 18.805225372314453, "z": 6.761343479156494 }, "pca_coordinates": { "x": -2.737697124481201, "y": 2.239103317260742, "z": -0.16655510663986206 }, "axis_scores": { "Quantum imaging": 0.6530823707580566, "Quantum Life Science Sensing": 0.685823917388916, "Quantum sensing Detection": 0.6541082859039307, "Quantum sensing Metrology": 0.6553432941436768, "Quantum sensing navigation": 0.6544643640518188, "Quantum sensing Position": 0.6416493654251099, "Quantum sensing Timing": 0.6377020478248596, "Quantum sensing": 0.6589425206184387, "Quantum control": 0.6471223831176758 } }, { "id": 5943, "title": "Interference in the classical probabilistic model and its representation in complex Hilbert space", "abstract": "The notion of a context (complex of physical conditions, that is to say: specification of the measurement setup) is basic in this paper. We show that the main structures of quantum theory (interferenc...", "citations": 7, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5950, "doi": "10.1016/j.physe.2005.05.019", "umap_coordinates": { "x": 394.8706970214844, "y": 137.4046173095703, "z": 206.03741455078125 }, "tsne_coordinates": { "x": -20.613866806030273, "y": 1.3105077743530273, "z": 14.771322250366211 }, "pca_coordinates": { "x": 2.4286723136901855, "y": 4.167590618133545, "z": -0.13638335466384888 }, "axis_scores": { "Quantum imaging": 0.7758066654205322, "Quantum Life Science Sensing": 0.7520528435707092, "Quantum sensing Detection": 0.7641295194625854, "Quantum sensing Metrology": 0.7332649230957031, "Quantum sensing navigation": 0.7503979802131653, "Quantum sensing Position": 0.7385687828063965, "Quantum sensing Timing": 0.7226200103759766, "Quantum sensing": 0.7680543661117554, "Quantum control": 0.7497118711471558 } }, { "id": 5944, "title": "Electronic structure of americium sesquioxide probed by resonant inelastic x-ray scattering", "abstract": "The Am 5d-5f resonant inelastic x-ray scattering (RIXS) data of americium sesquioxide were measured at incident photon energies throughout the Am O4,5 edges. The experiment was supported by calculatio...", "citations": 5, "author_count": 3, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5951, "doi": "10.1103/PhysRevB.108.195152", "umap_coordinates": { "x": 393.93756103515625, "y": 135.3135528564453, "z": 208.4804229736328 }, "tsne_coordinates": { "x": 9.039392471313477, "y": -41.78547286987305, "z": 5.404130935668945 }, "pca_coordinates": { "x": 4.132357120513916, "y": -1.7982501983642578, "z": -0.24628323316574097 }, "axis_scores": { "Quantum imaging": 0.7020844221115112, "Quantum Life Science Sensing": 0.7400549054145813, "Quantum sensing Detection": 0.6997150778770447, "Quantum sensing Metrology": 0.6820794939994812, "Quantum sensing navigation": 0.7060774564743042, "Quantum sensing Position": 0.6774613857269287, "Quantum sensing Timing": 0.6610291004180908, "Quantum sensing": 0.7146024703979492, "Quantum control": 0.6775257587432861 } }, { "id": 5945, "title": "Characterization of a back -illuminated CMOS Camera for soft x-ray coherent scattering", "abstract": "A commercial scientific camera has been adapted and characterized at the SOLEIL Synchrotron with the aim to improve the acquisition capabilities on the soft X-ray coherent scattering experimental stat...", "citations": 21, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5952, "doi": "10.1063/1.5084697", "umap_coordinates": { "x": 395.3791809082031, "y": 133.3199462890625, "z": 206.23968505859375 }, "tsne_coordinates": { "x": -17.730430603027344, "y": 14.637150764465332, "z": -26.367834091186523 }, "pca_coordinates": { "x": -2.080251693725586, "y": 0.24227023124694824, "z": 4.090498447418213 }, "axis_scores": { "Quantum imaging": 0.7419813871383667, "Quantum Life Science Sensing": 0.7532385587692261, "Quantum sensing Detection": 0.7401366233825684, "Quantum sensing Metrology": 0.7263933420181274, "Quantum sensing navigation": 0.7052632570266724, "Quantum sensing Position": 0.7017780542373657, "Quantum sensing Timing": 0.6791331768035889, "Quantum sensing": 0.7435739040374756, "Quantum control": 0.660207211971283 } }, { "id": 5946, "title": "Laser spectroscopy of the (1s22s2p) 3P0-3P1 level splitting in Be-like krypton", "abstract": "Heavy few-electron ions, such as He-, Li- and Be-like ions, are ideal atomic systems to study the effects of correlation, relativity and quantum electrodynamics. Very recently, theoretical and experim...", "citations": 8, "author_count": 9, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5953, "doi": "10.1088/0031-8949/2011/T144/014013", "umap_coordinates": { "x": 393.7948913574219, "y": 136.00169372558594, "z": 206.52151489257812 }, "tsne_coordinates": { "x": -4.407461643218994, "y": -0.6304006576538086, "z": 14.923849105834961 }, "pca_coordinates": { "x": 1.1959960460662842, "y": 0.9760348796844482, "z": -1.0236659049987793 }, "axis_scores": { "Quantum imaging": 0.6802828311920166, "Quantum Life Science Sensing": 0.7178058624267578, "Quantum sensing Detection": 0.6658087372779846, "Quantum sensing Metrology": 0.6652897000312805, "Quantum sensing navigation": 0.659135103225708, "Quantum sensing Position": 0.6658215522766113, "Quantum sensing Timing": 0.6456727385520935, "Quantum sensing": 0.6783691048622131, "Quantum control": 0.6371915936470032 } }, { "id": 5947, "title": "A quantum-like model of selection behavior", "abstract": "In this paper, we introduce a new model of selection behavior under risk that describes an essential cognitive process for comparing values of objects and making a selection decision. This model is co...", "citations": 36, "author_count": 6, "categories": [ "Mathematics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 5954, "doi": "10.1016/j.jmp.2016.07.006", "umap_coordinates": { "x": 394.7669677734375, "y": 137.52857971191406, "z": 206.19656372070312 }, "tsne_coordinates": { "x": -20.973268508911133, "y": 10.999152183532715, "z": 19.875030517578125 }, "pca_coordinates": { "x": 1.8521056175231934, "y": 2.956489086151123, "z": -1.8362603187561035 }, "axis_scores": { "Quantum imaging": 0.7425328493118286, "Quantum Life Science Sensing": 0.7548181414604187, "Quantum sensing Detection": 0.7503800392150879, "Quantum sensing Metrology": 0.7255990505218506, "Quantum sensing navigation": 0.751532793045044, "Quantum sensing Position": 0.7284526228904724, "Quantum sensing Timing": 0.7172777652740479, "Quantum sensing": 0.7583973407745361, "Quantum control": 0.7600610852241516 } }, { "id": 5948, "title": "Kohn-Sham density functional theory for quantum wires in arbitrary correlation regimes", "abstract": "We use the exact strong-interaction limit of the Hohenberg-Kohn energy density functional to construct an approximation for the exchange-correlation term of the Kohn-Sham approach. The resulting excha...", "citations": 45, "author_count": 6, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5955, "doi": "10.1103/PhysRevB.87.115146", "umap_coordinates": { "x": 394.69952392578125, "y": 136.13475036621094, "z": 209.1221160888672 }, "tsne_coordinates": { "x": 0.18761521577835083, "y": -26.685213088989258, "z": 6.966075420379639 }, "pca_coordinates": { "x": 5.823479175567627, "y": -1.0055365562438965, "z": 0.7241011261940002 }, "axis_scores": { "Quantum imaging": 0.7108603715896606, "Quantum Life Science Sensing": 0.7099308967590332, "Quantum sensing Detection": 0.7138282060623169, "Quantum sensing Metrology": 0.6998878717422485, "Quantum sensing navigation": 0.735517680644989, "Quantum sensing Position": 0.6896194219589233, "Quantum sensing Timing": 0.7023978233337402, "Quantum sensing": 0.72453373670578, "Quantum control": 0.7064023017883301 } }, { "id": 5949, "title": "Coupled resonator optical waveguide structures with highly dispersive media", "abstract": "Analysis of photonic crystal coupled resonator optical waveguide (CROW) structures with a highly dispersive background medium is presented. A finite-difference time-domain algorithm was employed which...", "citations": 6, "author_count": 4, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5956, "doi": "10.1364/OE.15.010362", "umap_coordinates": { "x": 394.17449951171875, "y": 133.99627685546875, "z": 206.92837524414062 }, "tsne_coordinates": { "x": -0.2615157663822174, "y": -11.657510757446289, "z": -34.22391891479492 }, "pca_coordinates": { "x": 0.2037602663040161, "y": -1.1228930950164795, "z": 2.447983741760254 }, "axis_scores": { "Quantum imaging": 0.7394249439239502, "Quantum Life Science Sensing": 0.7090063691139221, "Quantum sensing Detection": 0.7197940945625305, "Quantum sensing Metrology": 0.7264065146446228, "Quantum sensing navigation": 0.7195518612861633, "Quantum sensing Position": 0.6988072395324707, "Quantum sensing Timing": 0.6776522994041443, "Quantum sensing": 0.7320891618728638, "Quantum control": 0.7122422456741333 } }, { "id": 5950, "title": "The photoreceptor UVR8 mediates the perception of both UV-B and UV-A wavelengths up to 350 nm of sunlight with responsivity moderated by cryptochromes", "abstract": "The photoreceptors UV RESISTANCE LOCUS 8 (UVR8) and CRYPTOCHROMES 1 and 2 (CRYs) play major roles in the perception of UV-B (280-315 nm) and UV-A/blue radiation (315-500 nm), respectively. However, it...", "citations": 66, "author_count": 15, "categories": [ "Plant Sciences" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5957, "doi": "10.1111/pce.13752", "umap_coordinates": { "x": 394.2562561035156, "y": 135.32415771484375, "z": 204.7418670654297 }, "tsne_coordinates": { "x": 9.51949691772461, "y": 37.25168991088867, "z": 4.110244274139404 }, "pca_coordinates": { "x": -2.306813955307007, "y": 0.9188334941864014, "z": 0.6856130957603455 }, "axis_scores": { "Quantum imaging": 0.7365124821662903, "Quantum Life Science Sensing": 0.7523952126502991, "Quantum sensing Detection": 0.7487384080886841, "Quantum sensing Metrology": 0.7333558797836304, "Quantum sensing navigation": 0.7310618162155151, "Quantum sensing Position": 0.7021163702011108, "Quantum sensing Timing": 0.703157901763916, "Quantum sensing": 0.7595755457878113, "Quantum control": 0.7338110208511353 } }, { "id": 5951, "title": "Density Functional Theory Calculations Unravel the Structure and Dynamics of NaClO4 and NaPF6 Salts in Sodium-Ion Batteries", "abstract": "Molecular interactions within the electrolyte are important for the ultimate understanding and better design of batteries. Simulation studies can complement experimental findings and give atom-scale d...", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5958, "doi": "10.1021/acs.jpcc.4c06414", "umap_coordinates": { "x": 392.797607421875, "y": 136.96817016601562, "z": 205.76361083984375 }, "tsne_coordinates": { "x": 4.658525466918945, "y": 8.053082466125488, "z": 24.827856063842773 }, "pca_coordinates": { "x": 0.14833414554595947, "y": -1.812586784362793, "z": -3.146348476409912 }, "axis_scores": { "Quantum imaging": 0.6921669840812683, "Quantum Life Science Sensing": 0.723371684551239, "Quantum sensing Detection": 0.6718565821647644, "Quantum sensing Metrology": 0.6581040620803833, "Quantum sensing navigation": 0.7191454172134399, "Quantum sensing Position": 0.6602545380592346, "Quantum sensing Timing": 0.6518476605415344, "Quantum sensing": 0.6900132894515991, "Quantum control": 0.6944297552108765 } }, { "id": 5952, "title": "NLO QCD plus EW predictions for tHj and tZj production at the LHC", "abstract": "In this work we calculate the cross sections for the hadroproduction of a single top quark or antiquark in association with a Higgs (tHj) or Z boson (tZj) at NLO QCD+EW accuracy. In the case of tZj pr...", "citations": 24, "author_count": 4, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 5959, "doi": "10.1007/JHEP08(2020)082", "umap_coordinates": { "x": 396.9638366699219, "y": 134.85047912597656, "z": 207.0225067138672 }, "tsne_coordinates": { "x": -38.37575149536133, "y": 11.943113327026367, "z": -6.517080783843994 }, "pca_coordinates": { "x": -0.6276508569717407, "y": 2.048715829849243, "z": 0.05077129602432251 }, "axis_scores": { "Quantum imaging": 0.6809238791465759, "Quantum Life Science Sensing": 0.6865497827529907, "Quantum sensing Detection": 0.6649627089500427, "Quantum sensing Metrology": 0.6670922636985779, "Quantum sensing navigation": 0.6623943448066711, "Quantum sensing Position": 0.6582249402999878, "Quantum sensing Timing": 0.7047709822654724, "Quantum sensing": 0.6773809194564819, "Quantum control": 0.6748476624488831 } }, { "id": 5953, "title": "BONE-MINERAL NORMATIVE DATA IN MALMO, SWEDEN - COMPARISON WITH REFERENCE DATA AND HIP FRACTURE INCIDENCE IN OTHER ETHNIC-GROUPS", "abstract": "The bone mineral mass was measured in 324 residents of the city of Malmo, Sweden, by dual energy roentgen absorptiometry (DEXA) using the Lunar DPX equipment-total body, hip, and lumbar vertebrae. The...", "citations": 88, "author_count": 7, "categories": [ "Orthopedics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5960, "doi": "10.3109/17453679308994562", "umap_coordinates": { "x": 395.2264709472656, "y": 134.98223876953125, "z": 204.37200927734375 }, "tsne_coordinates": { "x": -2.7500345706939697, "y": 36.97923278808594, "z": 9.81626033782959 }, "pca_coordinates": { "x": -1.9926379919052124, "y": 3.6605734825134277, "z": -0.4222123324871063 }, "axis_scores": { "Quantum imaging": 0.6222141981124878, "Quantum Life Science Sensing": 0.6645567417144775, "Quantum sensing Detection": 0.6132241487503052, "Quantum sensing Metrology": 0.6501860618591309, "Quantum sensing navigation": 0.6569357514381409, "Quantum sensing Position": 0.6470194458961487, "Quantum sensing Timing": 0.6102977395057678, "Quantum sensing": 0.6258198022842407, "Quantum control": 0.61979740858078 } }, { "id": 5954, "title": "REGIONAL CEREBRAL BLOOD-FLOW IN MULTIPLE-SCLEROSIS MEASURED BY SINGLE PHOTON-EMISSION TOMOGRAPHY WITH TC-99M HEXAMETHYL-PROPYLENEAMINE OXIME", "abstract": "The regional cerebral blood flow (rCBF) in 19 patients with multiple sclerosis (MS), 10 with a relapsing remitting course and 9 with a progressive course, was examined by single photon emission comput...", "citations": 69, "author_count": 6, "categories": [ "Neurosciences & Neurology" ], "year": 1993, "topic": [ "all" ], "embedding_index": 5961, "doi": "10.1159/000116926", "umap_coordinates": { "x": 395.2646179199219, "y": 134.17901611328125, "z": 204.70004272460938 }, "tsne_coordinates": { "x": -3.8411855697631836, "y": 30.843856811523438, "z": 0.15520840883255005 }, "pca_coordinates": { "x": -1.044145941734314, "y": 2.222604513168335, "z": 3.6578450202941895 }, "axis_scores": { "Quantum imaging": 0.7051796913146973, "Quantum Life Science Sensing": 0.6787835359573364, "Quantum sensing Detection": 0.6796988844871521, "Quantum sensing Metrology": 0.6858526468276978, "Quantum sensing navigation": 0.6902137994766235, "Quantum sensing Position": 0.6736423969268799, "Quantum sensing Timing": 0.6740584969520569, "Quantum sensing": 0.6827467679977417, "Quantum control": 0.6551527976989746 } }, { "id": 5955, "title": "Measurement of the differential cross sections for isolated direct photon pair production in p(p)over-bar collisions at √s=1.96 TeV", "abstract": "We present measurements of direct photon pair production cross sections using 8.5 fb(-1) of data collected with the D0 detector at the Fermilab Tevatron p (p) over bar collider. The results are presen...", "citations": 20, "author_count": 370, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5962, "doi": "10.1016/j.physletb.2013.06.036", "umap_coordinates": { "x": 396.6943359375, "y": 134.30831909179688, "z": 207.66749572753906 }, "tsne_coordinates": { "x": -30.253028869628906, "y": 6.756715774536133, "z": -12.145919799804688 }, "pca_coordinates": { "x": -0.6160762906074524, "y": 0.01934027671813965, "z": 3.0050647258758545 }, "axis_scores": { "Quantum imaging": 0.6942391395568848, "Quantum Life Science Sensing": 0.6953429579734802, "Quantum sensing Detection": 0.7115091681480408, "Quantum sensing Metrology": 0.6785074472427368, "Quantum sensing navigation": 0.6725640892982483, "Quantum sensing Position": 0.6875125765800476, "Quantum sensing Timing": 0.6820094585418701, "Quantum sensing": 0.7047414183616638, "Quantum control": 0.6476243138313293 } }, { "id": 5956, "title": "Monolithically integrated InP-based photonic chip development for O-CDMA systems", "abstract": "This paper discusses photonic integration efforts toward developing an InP-based inonolithically integrated photonic chip for optical code-division multiple-access (O-CDMA) system applications. The ch...", "citations": 51, "author_count": 13, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5963, "doi": "10.1109/JSTQE.2004.841710", "umap_coordinates": { "x": 394.4502868652344, "y": 133.96542358398438, "z": 206.53749084472656 }, "tsne_coordinates": { "x": 1.612498164176941, "y": 1.3844642639160156, "z": -34.595558166503906 }, "pca_coordinates": { "x": -0.8211009502410889, "y": -1.950169563293457, "z": 2.4360432624816895 }, "axis_scores": { "Quantum imaging": 0.7189272046089172, "Quantum Life Science Sensing": 0.7044474482536316, "Quantum sensing Detection": 0.7075484991073608, "Quantum sensing Metrology": 0.7088441848754883, "Quantum sensing navigation": 0.6942287087440491, "Quantum sensing Position": 0.6804598569869995, "Quantum sensing Timing": 0.6909663677215576, "Quantum sensing": 0.7144833207130432, "Quantum control": 0.6894771456718445 } }, { "id": 5957, "title": "Spectral response of the energy-binning Dosepix ASIC coupled to a 300 μm silicon sensor under high fluxes of synchrotron radiation", "abstract": "The Dosepix hybrid pixel detector was designed for dosimetry and radiation monitoring applications. It has three programmable modes of operation: photon counting mode, energy integration mode, and dos...", "citations": 2, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5964, "doi": "10.1016/j.nima.2015.09.018", "umap_coordinates": { "x": 394.767578125, "y": 132.66111755371094, "z": 205.63169860839844 }, "tsne_coordinates": { "x": -16.071514129638672, "y": 15.178145408630371, "z": -14.087478637695312 }, "pca_coordinates": { "x": -2.525670051574707, "y": -0.547957181930542, "z": 3.705996036529541 }, "axis_scores": { "Quantum imaging": 0.7139830589294434, "Quantum Life Science Sensing": 0.7191886901855469, "Quantum sensing Detection": 0.7073253393173218, "Quantum sensing Metrology": 0.7069368958473206, "Quantum sensing navigation": 0.6916041374206543, "Quantum sensing Position": 0.6955940127372742, "Quantum sensing Timing": 0.7015282511711121, "Quantum sensing": 0.7123955488204956, "Quantum control": 0.6348361968994141 } }, { "id": 5958, "title": "Impulsivity related to brain serotonin transporter binding capacity in suicide attempters", "abstract": "Altered monoaminergic activity has earlier been associated with violent suicidal behaviour. In this study whole brain binding potential of the serotonin transporter (5HTT) and dopamine transporter (DA...", "citations": 54, "author_count": 7, "categories": [ "Neurosciences & Neurology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 5965, "doi": "10.1016/S0924-977X(03)00218-9", "umap_coordinates": { "x": 394.5987854003906, "y": 135.05828857421875, "z": 205.12400817871094 }, "tsne_coordinates": { "x": -9.677286148071289, "y": 30.069000244140625, "z": 12.095483779907227 }, "pca_coordinates": { "x": -1.2979689836502075, "y": 2.0551342964172363, "z": -0.041239261627197266 }, "axis_scores": { "Quantum imaging": 0.6324617862701416, "Quantum Life Science Sensing": 0.6197432279586792, "Quantum sensing Detection": 0.6343932747840881, "Quantum sensing Metrology": 0.6130975484848022, "Quantum sensing navigation": 0.644342303276062, "Quantum sensing Position": 0.6638208031654358, "Quantum sensing Timing": 0.6488267183303833, "Quantum sensing": 0.6352783441543579, "Quantum control": 0.6214541792869568 } }, { "id": 5959, "title": "The influence of shape resonance phenomena on the valence shell photoionization dynamics of silicon tetrafluoride", "abstract": "dThe complete valence shell photoelectron spectrum of silicon tetrafluoride has been studied both experimentally and theoretically. Photoelectron angular distributions and branching ratios have been m...", "citations": 10, "author_count": 6, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5966, "doi": "10.1088/0953-4075/35/7/311", "umap_coordinates": { "x": 393.7953186035156, "y": 135.73992919921875, "z": 205.9390869140625 }, "tsne_coordinates": { "x": -3.931021213531494, "y": 10.174798011779785, "z": 8.066781044006348 }, "pca_coordinates": { "x": -1.4948230981826782, "y": 0.3761630058288574, "z": -1.4963958263397217 }, "axis_scores": { "Quantum imaging": 0.6878176927566528, "Quantum Life Science Sensing": 0.721298098564148, "Quantum sensing Detection": 0.6662222743034363, "Quantum sensing Metrology": 0.648753821849823, "Quantum sensing navigation": 0.6493602991104126, "Quantum sensing Position": 0.6469716429710388, "Quantum sensing Timing": 0.6524429321289062, "Quantum sensing": 0.6774237751960754, "Quantum control": 0.6657328009605408 } }, { "id": 5960, "title": "Building blocks of a flip-chip integrated superconducting quantum processor", "abstract": "We have integrated single and coupled superconducting transmon qubits into flip-chip modules. Each module consists of two chips-one quantum chip and one control chip-that are bump-bonded together. We ...", "citations": 74, "author_count": 28, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 5967, "doi": "10.1088/2058-9565/ac734b", "umap_coordinates": { "x": 395.0858154296875, "y": 135.32302856445312, "z": 206.449951171875 }, "tsne_coordinates": { "x": -35.66704177856445, "y": -11.518756866455078, "z": -10.5391845703125 }, "pca_coordinates": { "x": 1.6449241638183594, "y": 1.4528820514678955, "z": 1.0220682621002197 }, "axis_scores": { "Quantum imaging": 0.7041767239570618, "Quantum Life Science Sensing": 0.6849398016929626, "Quantum sensing Detection": 0.6865367889404297, "Quantum sensing Metrology": 0.6838767528533936, "Quantum sensing navigation": 0.6940975189208984, "Quantum sensing Position": 0.6671165227890015, "Quantum sensing Timing": 0.6886586546897888, "Quantum sensing": 0.7084630727767944, "Quantum control": 0.6935234665870667 } }, { "id": 5961, "title": "Corner states of light in photonic waveguides", "abstract": "The recently established paradigm of higher-order topological states of matter has shown that not only edge and surface states(1,2) but also states localized to corners, can have robust and exotic pro...", "citations": 402, "author_count": 7, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5968, "doi": "10.1038/s41566-019-0519-y", "umap_coordinates": { "x": 393.6815490722656, "y": 135.11248779296875, "z": 206.6373291015625 }, "tsne_coordinates": { "x": -5.073882102966309, "y": 4.634503364562988, "z": -1.0811396837234497 }, "pca_coordinates": { "x": 0.1532604694366455, "y": -0.11364865303039551, "z": 1.6275763511657715 }, "axis_scores": { "Quantum imaging": 0.7274362444877625, "Quantum Life Science Sensing": 0.6972140669822693, "Quantum sensing Detection": 0.7228725552558899, "Quantum sensing Metrology": 0.7122612595558167, "Quantum sensing navigation": 0.7269596457481384, "Quantum sensing Position": 0.7264517545700073, "Quantum sensing Timing": 0.7192932963371277, "Quantum sensing": 0.7260470986366272, "Quantum control": 0.6895520091056824 } }, { "id": 5962, "title": "High-temperature excess current and quantum suppression of electronic backscattering", "abstract": "We consider the electronic current through a one-dimensional conductor in the ballistic transport regime and show that the quantum oscillations of a weakly pinned single-scattering target results in a...", "citations": 4, "author_count": 5, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5969, "doi": "10.1209/0295-5075/84/27002", "umap_coordinates": { "x": 394.3041687011719, "y": 135.3090057373047, "z": 207.728515625 }, "tsne_coordinates": { "x": -7.695101737976074, "y": -43.457950592041016, "z": 5.360214710235596 }, "pca_coordinates": { "x": 0.9230799674987793, "y": 0.03915596008300781, "z": 0.9079427123069763 }, "axis_scores": { "Quantum imaging": 0.7152988314628601, "Quantum Life Science Sensing": 0.6966661214828491, "Quantum sensing Detection": 0.7084401845932007, "Quantum sensing Metrology": 0.6918948292732239, "Quantum sensing navigation": 0.6835966110229492, "Quantum sensing Position": 0.6903069019317627, "Quantum sensing Timing": 0.6917598247528076, "Quantum sensing": 0.7088199257850647, "Quantum control": 0.6925083994865417 } }, { "id": 5963, "title": "Quenching of compressible edge states around antidots", "abstract": "We provide a systematic quantitative description of the edge state structure around a quantum antidot in the integer quantum Hall regime. The calculations for spinless electrons within the Hartree app...", "citations": 13, "author_count": 3, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 5970, "doi": "10.1103/PhysRevB.74.201303", "umap_coordinates": { "x": 394.7023010253906, "y": 136.71035766601562, "z": 208.27674865722656 }, "tsne_coordinates": { "x": -2.3153393268585205, "y": -34.363826751708984, "z": -6.924876689910889 }, "pca_coordinates": { "x": 3.8865623474121094, "y": -0.013409852981567383, "z": -1.0779922008514404 }, "axis_scores": { "Quantum imaging": 0.7474746704101562, "Quantum Life Science Sensing": 0.7221194505691528, "Quantum sensing Detection": 0.7242335081100464, "Quantum sensing Metrology": 0.702174186706543, "Quantum sensing navigation": 0.7256479263305664, "Quantum sensing Position": 0.7121498584747314, "Quantum sensing Timing": 0.714201807975769, "Quantum sensing": 0.7281810641288757, "Quantum control": 0.7130019664764404 } }, { "id": 5964, "title": "Nonheme FeIV=O Complexes Supported by Four Pentadentate Ligands: Reactivity toward H- and O- Atom Transfer Processes", "abstract": "Four new pentadentate N5-donor ligands, [N-(1-methyl-2-imidazolyl)methyl-N-(2-pyridyl)-methyl-N-(bis-2-pyridylmethyl)-amine] (L-1), [N-bis(1-methyl-2imidazolyl)methyl-N-(bis-2-pyridylmethyl)amine] (L-...", "citations": 12, "author_count": 16, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5971, "doi": "10.1021/acs.inorgchem.3c02526", "umap_coordinates": { "x": 391.94757080078125, "y": 136.15725708007812, "z": 205.2406463623047 }, "tsne_coordinates": { "x": 6.266944408416748, "y": -2.227306365966797, "z": -21.52603530883789 }, "pca_coordinates": { "x": -1.7927526235580444, "y": -0.39731812477111816, "z": -3.0560338497161865 }, "axis_scores": { "Quantum imaging": 0.7082679867744446, "Quantum Life Science Sensing": 0.7116064429283142, "Quantum sensing Detection": 0.6836626529693604, "Quantum sensing Metrology": 0.6573292016983032, "Quantum sensing navigation": 0.6657082438468933, "Quantum sensing Position": 0.6456640362739563, "Quantum sensing Timing": 0.6652187705039978, "Quantum sensing": 0.6993618607521057, "Quantum control": 0.6807724237442017 } }, { "id": 5965, "title": "COMPARISON BETWEEN LUCITE AND WATER AS A PHANTOM MATERIAL IN MEDICAL RADIOLOGY", "abstract": "In quality assurance and quality control programs in medical radiology, Lucite (i.e. plexiglas, perspex polymethyl methacrylate (PMMA)) phantoms are often used, for convenience, instead of water to im...", "citations": 3, "author_count": 2, "categories": [ "Nuclear Science & Technology" ], "year": 1990, "topic": [ "all" ], "embedding_index": 5972, "doi": "10.1016/0149-1970(90)90055-A", "umap_coordinates": { "x": 395.2407531738281, "y": 133.6302947998047, "z": 204.54055786132812 }, "tsne_coordinates": { "x": -10.92869758605957, "y": 22.263324737548828, "z": -8.410170555114746 }, "pca_coordinates": { "x": -3.399158000946045, "y": 4.229493141174316, "z": 0.08433759212493896 }, "axis_scores": { "Quantum imaging": 0.6927240490913391, "Quantum Life Science Sensing": 0.7031558752059937, "Quantum sensing Detection": 0.6619840860366821, "Quantum sensing Metrology": 0.6651212573051453, "Quantum sensing navigation": 0.6730592250823975, "Quantum sensing Position": 0.6710507273674011, "Quantum sensing Timing": 0.6446616649627686, "Quantum sensing": 0.6716599464416504, "Quantum control": 0.6306810975074768 } }, { "id": 5966, "title": "An investigation of the photosubstitution reaction between N719-dyed nanocrystalline TiO2 particles and 4-tert-butylpyridine", "abstract": "The effect of high concentrations of the solar cell additive 4-tert-butylpyridine (4-TBP) on the stability and lifetime of the sensitizer [Ru(Hdcbpy)(2)(NCS)(2)](2-), 2(n-C4H9)(4)N+, (H(2)dcbpy = 2,2'...", "citations": 26, "author_count": 5, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5973, "doi": "10.1016/j.jphotochem.2006.11.001", "umap_coordinates": { "x": 392.7310791015625, "y": 134.58526611328125, "z": 204.8656463623047 }, "tsne_coordinates": { "x": 16.002918243408203, "y": 9.076544761657715, "z": 1.9894030094146729 }, "pca_coordinates": { "x": -3.819489002227783, "y": -1.3535575866699219, "z": -0.36499732732772827 }, "axis_scores": { "Quantum imaging": 0.7079570293426514, "Quantum Life Science Sensing": 0.7004505395889282, "Quantum sensing Detection": 0.6890198588371277, "Quantum sensing Metrology": 0.6657671332359314, "Quantum sensing navigation": 0.682013750076294, "Quantum sensing Position": 0.6741910576820374, "Quantum sensing Timing": 0.6723744869232178, "Quantum sensing": 0.7017104625701904, "Quantum control": 0.6552059054374695 } }, { "id": 5967, "title": "Hyperfine structure of the methanol molecule as traced by Class I methanol masers", "abstract": "We present results on simultaneous observations of Class I methanol masers at 25, 36, and 44 GHz towards 22 Galactic targets carried out with the Effelsberg 100-m telescope. The study investigates rel...", "citations": 2, "author_count": 13, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5974, "doi": "10.1093/mnras/stae1815", "umap_coordinates": { "x": 393.33111572265625, "y": 136.8167724609375, "z": 206.63479614257812 }, "tsne_coordinates": { "x": 6.784007549285889, "y": 6.654946804046631, "z": 34.96226501464844 }, "pca_coordinates": { "x": 0.3729788064956665, "y": 2.2823338508605957, "z": -4.108333587646484 }, "axis_scores": { "Quantum imaging": 0.6961355209350586, "Quantum Life Science Sensing": 0.712607204914093, "Quantum sensing Detection": 0.6633699536323547, "Quantum sensing Metrology": 0.6701105833053589, "Quantum sensing navigation": 0.6903145909309387, "Quantum sensing Position": 0.6686638593673706, "Quantum sensing Timing": 0.6409475803375244, "Quantum sensing": 0.6831858158111572, "Quantum control": 0.6603915095329285 } }, { "id": 5968, "title": "THE PRIMARY STRUCTURE OF ESCHERICHIA-COLI GLUTAREDOXIN - DISTANT HOMOLOGY WITH THIOREDOXINS IN A SUPERFAMILY OF SMALL PROTEINS WITH A REDOX-ACTIVE CYSTINE DISULFIDE CYSTEINE DITHIOL", "abstract": "An immunosorbent method using anti-glutaredoxin-Sepharose was developed for purification of glutaredoxin in high yield from a mutant strain of E. coli K12 lacking thioredoxin reductase. The primary st...", "citations": 112, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1983, "topic": [ "all" ], "embedding_index": 5975, "doi": "10.1111/j.1432-1033.1983.tb07730.x", "umap_coordinates": { "x": 394.39398193359375, "y": 136.03488159179688, "z": 203.84495544433594 }, "tsne_coordinates": { "x": 5.380748748779297, "y": 30.987205505371094, "z": 18.800867080688477 }, "pca_coordinates": { "x": -0.7235044836997986, "y": 1.3563097715377808, "z": -1.606888771057129 }, "axis_scores": { "Quantum imaging": 0.6949096918106079, "Quantum Life Science Sensing": 0.7271875143051147, "Quantum sensing Detection": 0.7086886167526245, "Quantum sensing Metrology": 0.7059608697891235, "Quantum sensing navigation": 0.6959450244903564, "Quantum sensing Position": 0.6842862367630005, "Quantum sensing Timing": 0.7004427313804626, "Quantum sensing": 0.7188634872436523, "Quantum control": 0.7072228789329529 } }, { "id": 5969, "title": "Intersubband Quantum Disc-in-Nanowire Photodetectors with Normal-Incidence Response in the Long-Wavelength Infrared", "abstract": "Semiconductor nanowires have great potential for realizing broadband photodetectors monolithically integrated with silicon. However, the spectral range of such detectors has so far been limited to sel...", "citations": 38, "author_count": 13, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 5976, "doi": "10.1021/acs.nanolett.7b04217", "umap_coordinates": { "x": 392.6278076171875, "y": 133.768310546875, "z": 207.3875274658203 }, "tsne_coordinates": { "x": 18.296470642089844, "y": -21.483217239379883, "z": -14.563791275024414 }, "pca_coordinates": { "x": -0.08450627326965332, "y": -4.888082981109619, "z": 2.9113125801086426 }, "axis_scores": { "Quantum imaging": 0.6816266775131226, "Quantum Life Science Sensing": 0.6845989227294922, "Quantum sensing Detection": 0.684044599533081, "Quantum sensing Metrology": 0.6624284982681274, "Quantum sensing navigation": 0.6624777317047119, "Quantum sensing Position": 0.6402868628501892, "Quantum sensing Timing": 0.6502519845962524, "Quantum sensing": 0.6822855472564697, "Quantum control": 0.6224517226219177 } }, { "id": 5970, "title": "QED effects in lithiumlike krypton - art. no. 032505", "abstract": "The (2s(1/2)-2p(1/2)) Lamb shift in lithiumlike krypton was obtained through a recombination measurement. The Lamb shift was extracted from the recombination spectrum by comparison with a calculation ...", "citations": 32, "author_count": 7, "categories": [ "Optics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 5977, "doi": "10.1103/PhysRevA.65.032505", "umap_coordinates": { "x": 395.31439208984375, "y": 136.0918426513672, "z": 208.51475524902344 }, "tsne_coordinates": { "x": -8.13428783416748, "y": -11.999801635742188, "z": -1.0569963455200195 }, "pca_coordinates": { "x": 4.692928791046143, "y": 0.999465823173523, "z": -1.3232789039611816 }, "axis_scores": { "Quantum imaging": 0.7212724089622498, "Quantum Life Science Sensing": 0.7431747913360596, "Quantum sensing Detection": 0.7088136672973633, "Quantum sensing Metrology": 0.6945903301239014, "Quantum sensing navigation": 0.7188213467597961, "Quantum sensing Position": 0.6916158199310303, "Quantum sensing Timing": 0.6722596883773804, "Quantum sensing": 0.7201688885688782, "Quantum control": 0.6965222954750061 } }, { "id": 5971, "title": "Multichromophoric Sensitizers Based on Squaraine for NiO Based Dye-Sensitized Solar Cells", "abstract": "Three sensitizers were synthesized and utilized as panchromatic dyes for nanocrystalline NiO films: an iodosquaraine (SQ), a squaraine-perylene monoimide (SQ-PMI) dyad, and a squaraine-perylene monoim...", "citations": 83, "author_count": 9, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5978, "doi": "10.1021/jp408900x", "umap_coordinates": { "x": 392.0107116699219, "y": 134.90570068359375, "z": 205.51071166992188 }, "tsne_coordinates": { "x": 17.19373893737793, "y": 11.098450660705566, "z": -28.16362762451172 }, "pca_coordinates": { "x": -2.7536189556121826, "y": -2.668940544128418, "z": -0.9592349529266357 }, "axis_scores": { "Quantum imaging": 0.6836823225021362, "Quantum Life Science Sensing": 0.7131288647651672, "Quantum sensing Detection": 0.6675689220428467, "Quantum sensing Metrology": 0.6627486944198608, "Quantum sensing navigation": 0.667488157749176, "Quantum sensing Position": 0.6560419201850891, "Quantum sensing Timing": 0.6444253921508789, "Quantum sensing": 0.6864944696426392, "Quantum control": 0.6472086906433105 } }, { "id": 5972, "title": "Native Lignin Structure of Miscanthus x giganteus and Its Changes during Acetic and Formic Acid Fractionation", "abstract": "Milled wood lignin (MWL) and acetic and formic acid lignin (AL and FL) from Miscanthus x giganteus bark were produced, respectively, before and after organosolv fractionations under optimal conditions...", "citations": 206, "author_count": 6, "categories": [ "Agriculture" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5979, "doi": "10.1021/jf900483t", "umap_coordinates": { "x": 393.1259765625, "y": 136.29153442382812, "z": 204.1106414794922 }, "tsne_coordinates": { "x": 25.752033233642578, "y": 36.91123580932617, "z": -2.848527669906616 }, "pca_coordinates": { "x": -2.5569586753845215, "y": 2.37839412689209, "z": -4.970754146575928 }, "axis_scores": { "Quantum imaging": 0.6205456256866455, "Quantum Life Science Sensing": 0.6615147590637207, "Quantum sensing Detection": 0.6021171808242798, "Quantum sensing Metrology": 0.614719808101654, "Quantum sensing navigation": 0.6091737747192383, "Quantum sensing Position": 0.6130106449127197, "Quantum sensing Timing": 0.5908692479133606, "Quantum sensing": 0.6284725666046143, "Quantum control": 0.6343663334846497 } }, { "id": 5973, "title": "Optical properties of InN - the bandgap question", "abstract": "The recent controversy on the bandgap of InN is addressed, with reference to optical data on single crystalline thin film samples grown on sapphire. The optical absorption spectra deduced from transmi...", "citations": 103, "author_count": 4, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5980, "doi": "10.1016/j.spmi.2005.04.006", "umap_coordinates": { "x": 392.7657165527344, "y": 133.8334503173828, "z": 207.11708068847656 }, "tsne_coordinates": { "x": 34.73488998413086, "y": -4.356984615325928, "z": 12.204830169677734 }, "pca_coordinates": { "x": -1.7815645933151245, "y": -0.8392741680145264, "z": 0.4370693564414978 }, "axis_scores": { "Quantum imaging": 0.7096022963523865, "Quantum Life Science Sensing": 0.7210808396339417, "Quantum sensing Detection": 0.6965382099151611, "Quantum sensing Metrology": 0.706544816493988, "Quantum sensing navigation": 0.6966749429702759, "Quantum sensing Position": 0.6928412914276123, "Quantum sensing Timing": 0.6491942405700684, "Quantum sensing": 0.7083956003189087, "Quantum control": 0.6560996770858765 } }, { "id": 5974, "title": "Performance of calibration standards for antigen quantitation with flow cytometry chronic lymphocytic leukemia", "abstract": "Background: The fluorescence intensities of CD3, CD4 on T cells and CD20, CD22 molecules on B cells were quantitatively measured an lymphocytes from chronic lymphocytic leukemia (CLL) patients and hea...", "citations": 28, "author_count": 6, "categories": [ "Medical Laboratory Technology" ], "year": 2007, "topic": [ "all" ], "embedding_index": 5981, "doi": "10.1002/cyto.b.20359", "umap_coordinates": { "x": 394.0647888183594, "y": 134.84844970703125, "z": 204.0529022216797 }, "tsne_coordinates": { "x": 7.277270317077637, "y": 27.93966293334961, "z": 0.8510770797729492 }, "pca_coordinates": { "x": -2.765855312347412, "y": 1.901850700378418, "z": 0.9376986622810364 }, "axis_scores": { "Quantum imaging": 0.7090103626251221, "Quantum Life Science Sensing": 0.7344090938568115, "Quantum sensing Detection": 0.7102651596069336, "Quantum sensing Metrology": 0.7184692621231079, "Quantum sensing navigation": 0.7019549608230591, "Quantum sensing Position": 0.7020584940910339, "Quantum sensing Timing": 0.6981048583984375, "Quantum sensing": 0.7153983116149902, "Quantum control": 0.7119560837745667 } }, { "id": 5975, "title": "Covariance mapping of two-photon double core hole states in C2H2 and C2H6 produced by an x-ray free electron laser", "abstract": "Few-photon ionization and relaxation processes in acetylene (C2H2) and ethane (C2H6) were investigated at the linac coherent light source x-ray free electron laser (FEL) at SLAC, Stanford using a high...", "citations": 29, "author_count": 34, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5982, "doi": "10.1088/1367-2630/17/7/073002", "umap_coordinates": { "x": 395.12677001953125, "y": 135.4032440185547, "z": 206.10694885253906 }, "tsne_coordinates": { "x": -22.777645111083984, "y": -2.2200214862823486, "z": -15.904937744140625 }, "pca_coordinates": { "x": -0.31170713901519775, "y": 2.6491267681121826, "z": 1.695730209350586 }, "axis_scores": { "Quantum imaging": 0.7403019070625305, "Quantum Life Science Sensing": 0.7160682082176208, "Quantum sensing Detection": 0.724033772945404, "Quantum sensing Metrology": 0.7292433977127075, "Quantum sensing navigation": 0.7362508773803711, "Quantum sensing Position": 0.7191175818443298, "Quantum sensing Timing": 0.703249454498291, "Quantum sensing": 0.7397854924201965, "Quantum control": 0.7260239720344543 } }, { "id": 5976, "title": "HESS J1818-154, a new composite supernova remnant discovered in TeV gamma rays and X-rays", "abstract": "Composite supernova remnants (SNRs) constitute a small subclass of the remnants of massive stellar explosions where non-thermal radiation is observed from both the expanding shell-like shock front and...", "citations": 11, "author_count": 220, "categories": [ "Astronomy & Astrophysics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5983, "doi": "10.1051/0004-6361/201322914", "umap_coordinates": { "x": 396.3530578613281, "y": 134.8478240966797, "z": 206.49530029296875 }, "tsne_coordinates": { "x": -28.32667350769043, "y": 19.87360954284668, "z": 0.46352115273475647 }, "pca_coordinates": { "x": -0.06925344467163086, "y": 3.107882022857666, "z": 1.0180425643920898 }, "axis_scores": { "Quantum imaging": 0.6810550093650818, "Quantum Life Science Sensing": 0.7105410099029541, "Quantum sensing Detection": 0.6812118291854858, "Quantum sensing Metrology": 0.6540374755859375, "Quantum sensing navigation": 0.6891803741455078, "Quantum sensing Position": 0.6518774032592773, "Quantum sensing Timing": 0.675707221031189, "Quantum sensing": 0.6842831969261169, "Quantum control": 0.6696407198905945 } }, { "id": 5977, "title": "Competition for pollen deposition space on pollinators generates last-male advantage", "abstract": "Many plants have precise pollen placement strategies, ensuring that large amounts of pollen are deposited on small and discrete areas of pollinators' bodies. This may lead to male-male competition if ...", "citations": 2, "author_count": 6, "categories": [ "Environmental Sciences & Ecology" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5984, "doi": "10.1111/1365-2435.14736", "umap_coordinates": { "x": 394.7604064941406, "y": 135.6405487060547, "z": 203.84912109375 }, "tsne_coordinates": { "x": 1.5125277042388916, "y": 30.25830078125, "z": 12.425223350524902 }, "pca_coordinates": { "x": -1.9620928764343262, "y": 2.3723244667053223, "z": 0.40471190214157104 }, "axis_scores": { "Quantum imaging": 0.6560555696487427, "Quantum Life Science Sensing": 0.6567065715789795, "Quantum sensing Detection": 0.647255003452301, "Quantum sensing Metrology": 0.6563510298728943, "Quantum sensing navigation": 0.6709352731704712, "Quantum sensing Position": 0.6735945343971252, "Quantum sensing Timing": 0.6708428263664246, "Quantum sensing": 0.6665574908256531, "Quantum control": 0.6710008978843689 } }, { "id": 5978, "title": "Search for boosted low-mass resonances decaying into hadrons produced in association with a photon in pp collisions at √s=13 TeV with the ATLAS detector", "abstract": "Many extensions of the Standard Model, including those with dark matter particles, propose new mediator particles that decay into hadrons. This paper presents a search for such low mass narrow resonan...", "citations": 1, "author_count": 2679, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 5985, "doi": "10.1007/JHEP01(2025)099", "umap_coordinates": { "x": 396.9185485839844, "y": 134.5797119140625, "z": 207.2786865234375 }, "tsne_coordinates": { "x": -35.902706146240234, "y": 9.86417007446289, "z": -4.1963043212890625 }, "pca_coordinates": { "x": -0.9845104217529297, "y": 1.5920878648757935, "z": 1.6123175621032715 }, "axis_scores": { "Quantum imaging": 0.6807627081871033, "Quantum Life Science Sensing": 0.6821157932281494, "Quantum sensing Detection": 0.684430718421936, "Quantum sensing Metrology": 0.6540452241897583, "Quantum sensing navigation": 0.6706883907318115, "Quantum sensing Position": 0.6761630177497864, "Quantum sensing Timing": 0.6806827187538147, "Quantum sensing": 0.6776196956634521, "Quantum control": 0.6584555506706238 } }, { "id": 5979, "title": "Dose-efficient scanning Compton X-ray microscopy", "abstract": "The highest resolution of images of soft matter and biological materials is ultimately limited by modification of the structure, induced by the necessarily high energy of short-wavelength radiation. I...", "citations": 6, "author_count": 14, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 5986, "doi": "10.1038/s41377-023-01176-5", "umap_coordinates": { "x": 395.3801574707031, "y": 133.42279052734375, "z": 205.6657257080078 }, "tsne_coordinates": { "x": -4.707733631134033, "y": 18.963743209838867, "z": -10.967650413513184 }, "pca_coordinates": { "x": -3.4985971450805664, "y": 1.0771743059158325, "z": 2.437485694885254 }, "axis_scores": { "Quantum imaging": 0.7189471125602722, "Quantum Life Science Sensing": 0.7023097276687622, "Quantum sensing Detection": 0.6788151264190674, "Quantum sensing Metrology": 0.6769286394119263, "Quantum sensing navigation": 0.672439455986023, "Quantum sensing Position": 0.6664541959762573, "Quantum sensing Timing": 0.6658840775489807, "Quantum sensing": 0.6946103572845459, "Quantum control": 0.6650277972221375 } }, { "id": 5980, "title": "Speciation and structure of tin(II) in hyper-alkaline aqueous solution", "abstract": "The identity of the predominating tin(II)-hydroxide complex formed in hyper-alkaline aqueous solutions (0.2 <= C-NaOH <= 12 mol dm(-3)) is determined by potentiometric titrations, Raman, Mossbauer and...", "citations": 18, "author_count": 13, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 5987, "doi": "10.1039/c4dt02706j", "umap_coordinates": { "x": 392.13232421875, "y": 135.84034729003906, "z": 205.48692321777344 }, "tsne_coordinates": { "x": 12.521411895751953, "y": -0.8301651477813721, "z": -4.442383289337158 }, "pca_coordinates": { "x": -1.7613308429718018, "y": -1.049771785736084, "z": -4.402185440063477 }, "axis_scores": { "Quantum imaging": 0.6942280530929565, "Quantum Life Science Sensing": 0.7223661541938782, "Quantum sensing Detection": 0.6759747266769409, "Quantum sensing Metrology": 0.6710706949234009, "Quantum sensing navigation": 0.6858172416687012, "Quantum sensing Position": 0.672085165977478, "Quantum sensing Timing": 0.6662898063659668, "Quantum sensing": 0.686495304107666, "Quantum control": 0.6782366037368774 } }, { "id": 5981, "title": "Strong and weak nonlinear dynamics: Models, classification, examples", "abstract": "The difference between strong and weak nonlinear systems is discussed. A classification of strong nonlinearities is given. It is based on the divergence or inanity of series expansions of the equation...", "citations": 17, "author_count": 3, "categories": [ "Acoustics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 5988, "doi": "10.1134/S1063771013060171", "umap_coordinates": { "x": 394.002685546875, "y": 137.00718688964844, "z": 207.49671936035156 }, "tsne_coordinates": { "x": -20.602466583251953, "y": 4.046233177185059, "z": 25.124738693237305 }, "pca_coordinates": { "x": 1.208491325378418, "y": 2.2396955490112305, "z": -2.6831657886505127 }, "axis_scores": { "Quantum imaging": 0.6911994814872742, "Quantum Life Science Sensing": 0.709540843963623, "Quantum sensing Detection": 0.6915186643600464, "Quantum sensing Metrology": 0.6628478169441223, "Quantum sensing navigation": 0.699310839176178, "Quantum sensing Position": 0.6677424907684326, "Quantum sensing Timing": 0.6507331132888794, "Quantum sensing": 0.696968674659729, "Quantum control": 0.7034584283828735 } }, { "id": 5982, "title": "A bimetallic nanoantenna for directional colour routing", "abstract": "Recent progress in nanophotonics includes demonstrations of meta-materials displaying negative refraction at optical frequencies, directional single photon sources, plasmonic analogies of electromagne...", "citations": 355, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 5989, "doi": "10.1038/ncomms1490", "umap_coordinates": { "x": 393.29345703125, "y": 134.42791748046875, "z": 205.64346313476562 }, "tsne_coordinates": { "x": 12.311861038208008, "y": -20.758852005004883, "z": -21.379348754882812 }, "pca_coordinates": { "x": -1.2337712049484253, "y": -1.6041474342346191, "z": 0.5202565789222717 }, "axis_scores": { "Quantum imaging": 0.7022981643676758, "Quantum Life Science Sensing": 0.6952904462814331, "Quantum sensing Detection": 0.7028505802154541, "Quantum sensing Metrology": 0.6966611742973328, "Quantum sensing navigation": 0.7277586460113525, "Quantum sensing Position": 0.6968380212783813, "Quantum sensing Timing": 0.6925621628761292, "Quantum sensing": 0.7136850953102112, "Quantum control": 0.6810044646263123 } }, { "id": 5983, "title": "Born's rule for momentum measurement from prequantum field theory", "abstract": "Recently a new attempt to go beyond quantum mechanics (QM) was done in the form of so called prequantum classical statistical field theory (PCSFT). In this approach QM is considered as incomplete theo...", "citations": 1, "author_count": 2, "categories": [ "Mechanics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 5990, "doi": "10.1088/1742-6596/174/1/012035", "umap_coordinates": { "x": 395.7354431152344, "y": 137.48373413085938, "z": 206.2633056640625 }, "tsne_coordinates": { "x": -34.451881408691406, "y": 4.316598415374756, "z": 17.62403678894043 }, "pca_coordinates": { "x": 1.687089443206787, "y": 4.217403411865234, "z": 0.67070072889328 }, "axis_scores": { "Quantum imaging": 0.6851958632469177, "Quantum Life Science Sensing": 0.7177320122718811, "Quantum sensing Detection": 0.7097125053405762, "Quantum sensing Metrology": 0.7242401242256165, "Quantum sensing navigation": 0.7273630499839783, "Quantum sensing Position": 0.7462077140808105, "Quantum sensing Timing": 0.7101799845695496, "Quantum sensing": 0.7166143655776978, "Quantum control": 0.6844255328178406 } }, { "id": 5984, "title": "Time-coded aperture for x-ray imaging", "abstract": "We describe a computational imaging system for x-ray tomography, where image capture and post-processing are co-designed to improve final image quality when relative motion of an experiment's componen...", "citations": 7, "author_count": 5, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 5991, "doi": "10.1364/OL.44.002803", "umap_coordinates": { "x": 395.3401794433594, "y": 133.65733337402344, "z": 205.5181121826172 }, "tsne_coordinates": { "x": 2.930861711502075, "y": 19.124216079711914, "z": -25.181053161621094 }, "pca_coordinates": { "x": -2.41544246673584, "y": 3.5464119911193848, "z": 2.3938589096069336 }, "axis_scores": { "Quantum imaging": 0.721548855304718, "Quantum Life Science Sensing": 0.6879549622535706, "Quantum sensing Detection": 0.6690033674240112, "Quantum sensing Metrology": 0.6665900349617004, "Quantum sensing navigation": 0.6869940161705017, "Quantum sensing Position": 0.6718847155570984, "Quantum sensing Timing": 0.7263143658638, "Quantum sensing": 0.6883304715156555, "Quantum control": 0.6712054014205933 } }, { "id": 5985, "title": "CARRIER HEATING EFFECTS IN DYNAMIC-SINGLE-FREQUENCY GAINASP-INP LASER-DIODES", "abstract": "The fully self-contained model of a laser diode (LD) under the carrier heating conditions based on the description of a nonequilibrium carrier-phonon-photon system excited by an injection in a P-i-N d...", "citations": 25, "author_count": 3, "categories": [ "Engineering" ], "year": 1995, "topic": [ "all" ], "embedding_index": 5992, "doi": "10.1109/3.375927", "umap_coordinates": { "x": 393.0207214355469, "y": 134.19383239746094, "z": 208.48106384277344 }, "tsne_coordinates": { "x": 29.788557052612305, "y": -15.782587051391602, "z": -1.0120161771774292 }, "pca_coordinates": { "x": 0.704944372177124, "y": -2.5175375938415527, "z": 0.6556347012519836 }, "axis_scores": { "Quantum imaging": 0.6821398138999939, "Quantum Life Science Sensing": 0.6832201480865479, "Quantum sensing Detection": 0.677956223487854, "Quantum sensing Metrology": 0.6716744303703308, "Quantum sensing navigation": 0.6603164672851562, "Quantum sensing Position": 0.655896782875061, "Quantum sensing Timing": 0.6567785739898682, "Quantum sensing": 0.6873986124992371, "Quantum control": 0.6628895401954651 } }, { "id": 5986, "title": "Highly efficient organic light-emitting diodes and light-emitting electrochemical cells employing multiresonant thermally activated delayed fluorescent emitters with bulky donor or acceptor peripheral groups", "abstract": "Multiresonant thermally activated delayed fluorescence (MR-TADF) emitters have been the focus of extensive design efforts as they are recognized to show bright, narrowband emission, which makes them v...", "citations": 27, "author_count": 8, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5993, "doi": "10.1002/agt2.571", "umap_coordinates": { "x": 391.9603576660156, "y": 134.5635223388672, "z": 204.73951721191406 }, "tsne_coordinates": { "x": 8.092190742492676, "y": 7.628133773803711, "z": -17.18764305114746 }, "pca_coordinates": { "x": -3.3944382667541504, "y": -2.2169132232666016, "z": -0.2373945713043213 }, "axis_scores": { "Quantum imaging": 0.6812270283699036, "Quantum Life Science Sensing": 0.6700670719146729, "Quantum sensing Detection": 0.6728619933128357, "Quantum sensing Metrology": 0.6537055969238281, "Quantum sensing navigation": 0.6484090685844421, "Quantum sensing Position": 0.6320566534996033, "Quantum sensing Timing": 0.6714677214622498, "Quantum sensing": 0.685834527015686, "Quantum control": 0.673087477684021 } }, { "id": 5987, "title": "Detection and characterization of aggregates, prefibrillar amyloidogenic oligomers, and protofibrils using fluorescence spectroscopy", "abstract": "Transthyretin (TTR) is a protein linked to a number of different amyloid diseases including senile systemic amyloidosis and familial amyloidotic polyneuropathy. The transient nature of oligomeric inte...", "citations": 347, "author_count": 4, "categories": [ "Biophysics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 5994, "doi": "10.1529/biophysj.104.049700", "umap_coordinates": { "x": 393.6155090332031, "y": 135.78770446777344, "z": 204.89218139648438 }, "tsne_coordinates": { "x": 15.363178253173828, "y": 14.368287086486816, "z": 10.348702430725098 }, "pca_coordinates": { "x": -1.7124032974243164, "y": -0.12340021133422852, "z": -1.5044140815734863 }, "axis_scores": { "Quantum imaging": 0.6953738927841187, "Quantum Life Science Sensing": 0.7428590655326843, "Quantum sensing Detection": 0.689595639705658, "Quantum sensing Metrology": 0.6708033680915833, "Quantum sensing navigation": 0.6840372085571289, "Quantum sensing Position": 0.656507134437561, "Quantum sensing Timing": 0.6490802764892578, "Quantum sensing": 0.6952921748161316, "Quantum control": 0.6569211483001709 } }, { "id": 5988, "title": "Synthetic NAC 71-82 Peptides Designed to Produce Fibrils with Different Protofilament Interface Contacts", "abstract": "Alpha-synucleinopathies are featured by fibrillar inclusions in brain cells. Although alpha-synuclein fibrils display structural diversity, the origin of this diversity is not fully understood. We use...", "citations": 2, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 5995, "doi": "10.3390/ijms22179334", "umap_coordinates": { "x": 393.3734130859375, "y": 134.9859161376953, "z": 204.3763885498047 }, "tsne_coordinates": { "x": 26.172626495361328, "y": 21.931636810302734, "z": 5.064953804016113 }, "pca_coordinates": { "x": -2.2634410858154297, "y": 0.48393821716308594, "z": -2.26714825630188 }, "axis_scores": { "Quantum imaging": 0.6651211380958557, "Quantum Life Science Sensing": 0.7072491645812988, "Quantum sensing Detection": 0.6459236741065979, "Quantum sensing Metrology": 0.6702336072921753, "Quantum sensing navigation": 0.6689844727516174, "Quantum sensing Position": 0.641066312789917, "Quantum sensing Timing": 0.6424168348312378, "Quantum sensing": 0.6717235445976257, "Quantum control": 0.648613452911377 } }, { "id": 5989, "title": "Observation of top-quark pair production in association with a photon and measurement of the t(t)over-barγ production cross section in pp collisions at √s=7 TeV using the ATLAS detector", "abstract": "A search is performed for top-quark pairs (t (t) over bar) produced together with a photon (gamma) with transverse energy greater than 20 GeV using a sample of t (t) over bar candidate events in final...", "citations": 13, "author_count": 2654, "categories": [ "Astronomy & Astrophysics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 5996, "doi": "10.1103/PhysRevD.91.072007", "umap_coordinates": { "x": 396.87591552734375, "y": 134.40455627441406, "z": 207.6394500732422 }, "tsne_coordinates": { "x": -37.526885986328125, "y": 9.569256782531738, "z": -10.392923355102539 }, "pca_coordinates": { "x": 1.7882976531982422, "y": 0.12721037864685059, "z": 3.154374837875366 }, "axis_scores": { "Quantum imaging": 0.6707558035850525, "Quantum Life Science Sensing": 0.6859227418899536, "Quantum sensing Detection": 0.691177487373352, "Quantum sensing Metrology": 0.6729514002799988, "Quantum sensing navigation": 0.6798155307769775, "Quantum sensing Position": 0.6850610375404358, "Quantum sensing Timing": 0.7157959938049316, "Quantum sensing": 0.6851449012756348, "Quantum control": 0.6445249915122986 } }, { "id": 5990, "title": "A Comprehensive Study of Laboratory-Based Micro-CT for 3D Virtual Histology of Human FFPE Tissue Blocks", "abstract": "Advances in laboratory-based X-ray computed tomography (CT) have enabled X-ray 3D virtual histology. This method shows a great potential as a complementary technique to conventional 2D histology where...", "citations": 3, "author_count": 8, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 5997, "doi": "10.1109/ACCESS.2024.3407733", "umap_coordinates": { "x": 395.1863098144531, "y": 133.7257080078125, "z": 204.8642120361328 }, "tsne_coordinates": { "x": 2.323219060897827, "y": 21.35202980041504, "z": -15.926715850830078 }, "pca_coordinates": { "x": -3.259748697280884, "y": 4.362240791320801, "z": 0.8648795485496521 }, "axis_scores": { "Quantum imaging": 0.7096719145774841, "Quantum Life Science Sensing": 0.7235046625137329, "Quantum sensing Detection": 0.6829898357391357, "Quantum sensing Metrology": 0.693143367767334, "Quantum sensing navigation": 0.684823751449585, "Quantum sensing Position": 0.6689649224281311, "Quantum sensing Timing": 0.6686615347862244, "Quantum sensing": 0.7011101841926575, "Quantum control": 0.6832233667373657 } }, { "id": 5991, "title": "Extended Forster theory for determining intraprotein distances Part III. Partial donor-donor energy migration among reorienting fluorophores", "abstract": "An extended Forster theory (EFT) is derived and outlined for electronic energy migration between two fluorescent molecules which are chemically identical, but photophysically non-identical. These mole...", "citations": 7, "author_count": 5, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 5998, "doi": "10.1039/b810661d", "umap_coordinates": { "x": 392.9536437988281, "y": 136.17108154296875, "z": 205.65997314453125 }, "tsne_coordinates": { "x": 24.031105041503906, "y": 12.258450508117676, "z": 23.943689346313477 }, "pca_coordinates": { "x": -1.0829700231552124, "y": 1.3019731044769287, "z": -2.316196918487549 }, "axis_scores": { "Quantum imaging": 0.6540802717208862, "Quantum Life Science Sensing": 0.6682636737823486, "Quantum sensing Detection": 0.6208153367042542, "Quantum sensing Metrology": 0.6380503177642822, "Quantum sensing navigation": 0.6469845175743103, "Quantum sensing Position": 0.6513606309890747, "Quantum sensing Timing": 0.6366294622421265, "Quantum sensing": 0.6443963050842285, "Quantum control": 0.5932413935661316 } }, { "id": 5992, "title": "RECOVERY OF PHOTOSYNTHESIS AND PHOTOSYSTEM-II FLUORESCENCE IN CHLAMYDOMONAS-REINHARDTII AFTER EXPOSURE TO 3 LEVELS OF HIGH LIGHT", "abstract": "Recovery from 60 min of photoinhibitory treatment at photosynthetic photon flux densities of 500, 1400 and 2200-mu-mol m-2 s-1 was followed in cells of the green alga Chlamydomonas reinhardtii grown a...", "citations": 23, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1992, "topic": [ "all" ], "embedding_index": 5999, "doi": null, "umap_coordinates": { "x": 391.8990173339844, "y": 139.57420349121094, "z": 209.71351623535156 }, "tsne_coordinates": { "x": -2.269458532333374, "y": 44.8851432800293, "z": 0.9728863835334778 }, "pca_coordinates": { "x": -2.4137916564941406, "y": 3.4347012042999268, "z": -3.2362518310546875 }, "axis_scores": { "Quantum imaging": 0.7285204529762268, "Quantum Life Science Sensing": 0.7548776268959045, "Quantum sensing Detection": 0.7203665971755981, "Quantum sensing Metrology": 0.7060256600379944, "Quantum sensing navigation": 0.7070387005805969, "Quantum sensing Position": 0.6751902103424072, "Quantum sensing Timing": 0.6784478425979614, "Quantum sensing": 0.7369153499603271, "Quantum control": 0.737659215927124 } }, { "id": 5993, "title": "Optical properties of wine pigments: theoretical guidelines with new methodological perspectives", "abstract": "Wine pigmentation results from the complex chemistry of anthocyanins. Their flavylium cation form is stabilized either by chemical transformation occurring during wine aging (e.g., pyranoanthocyanin f...", "citations": 30, "author_count": 7, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6000, "doi": "10.1016/j.tet.2014.10.046", "umap_coordinates": { "x": 393.3098449707031, "y": 135.3267364501953, "z": 204.39462280273438 }, "tsne_coordinates": { "x": 8.592227935791016, "y": 12.977716445922852, "z": -2.3238961696624756 }, "pca_coordinates": { "x": -3.9208970069885254, "y": 0.7070531845092773, "z": -1.0842664241790771 }, "axis_scores": { "Quantum imaging": 0.6879332065582275, "Quantum Life Science Sensing": 0.7278094291687012, "Quantum sensing Detection": 0.6839281916618347, "Quantum sensing Metrology": 0.6823636889457703, "Quantum sensing navigation": 0.6747468709945679, "Quantum sensing Position": 0.6708138585090637, "Quantum sensing Timing": 0.6691907644271851, "Quantum sensing": 0.6952813267707825, "Quantum control": 0.6696839928627014 } }, { "id": 5994, "title": "Water optical properties in Scandinavian waters and airborne optical sensing", "abstract": "Water optical properties are crucial for airborne ocean optical sensing. Laser depth sounding has been used for many decades and is now a well-developed commercial technique for bottom depth charting....", "citations": 3, "author_count": 3, "categories": [ "Remote Sensing" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6001, "doi": "10.1117/12.2571124", "umap_coordinates": { "x": 394.4687805175781, "y": 133.9955596923828, "z": 205.45970153808594 }, "tsne_coordinates": { "x": 0.7683901190757751, "y": 10.9725341796875, "z": -26.494714736938477 }, "pca_coordinates": { "x": -1.3777650594711304, "y": 0.5237827301025391, "z": 1.2248120307922363 }, "axis_scores": { "Quantum imaging": 0.7250874638557434, "Quantum Life Science Sensing": 0.7510238289833069, "Quantum sensing Detection": 0.7301397919654846, "Quantum sensing Metrology": 0.7370473742485046, "Quantum sensing navigation": 0.7361873984336853, "Quantum sensing Position": 0.7024167776107788, "Quantum sensing Timing": 0.6663315892219543, "Quantum sensing": 0.7487640380859375, "Quantum control": 0.687105655670166 } }, { "id": 5995, "title": "Developments in optics and performance at BL13-XALOC, the macromolecular crystallography beamline at the Alba Synchrotron", "abstract": "BL13-XALOC is currently the only macromolecular crystallography beamline at the 3 GeV ALBA synchrotron near Barcelona, Spain. The optics design is based on an in-vacuum undulator, a Si(111) channel-cu...", "citations": 184, "author_count": 11, "categories": [ "Instruments & Instrumentation" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6002, "doi": "10.1107/S160057751400825X", "umap_coordinates": { "x": 395.2262268066406, "y": 134.60122680664062, "z": 205.46688842773438 }, "tsne_coordinates": { "x": -21.0061092376709, "y": 8.05678653717041, "z": -19.66282844543457 }, "pca_coordinates": { "x": -1.6276707649230957, "y": 0.49491190910339355, "z": 0.5528485178947449 }, "axis_scores": { "Quantum imaging": 0.6962390542030334, "Quantum Life Science Sensing": 0.6915974617004395, "Quantum sensing Detection": 0.6616941094398499, "Quantum sensing Metrology": 0.6850857138633728, "Quantum sensing navigation": 0.6765202283859253, "Quantum sensing Position": 0.6936051845550537, "Quantum sensing Timing": 0.6580261588096619, "Quantum sensing": 0.6863448023796082, "Quantum control": 0.6732224822044373 } }, { "id": 5996, "title": "Measurement of isolated photon production in deep-inelastic scattering at HERA", "abstract": "The production of isolated photons in deep-inelastic scattering ep -> e gamma X is measured with the H1 detector at HERA. The measurement is performed in the kinematic range of negative four-momentum ...", "citations": 23, "author_count": 290, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6003, "doi": "10.1140/epjc/s10052-008-0541-6", "umap_coordinates": { "x": 396.24591064453125, "y": 134.39369201660156, "z": 207.4174346923828 }, "tsne_coordinates": { "x": -29.225854873657227, "y": 11.127982139587402, "z": -9.568638801574707 }, "pca_coordinates": { "x": 0.04811263084411621, "y": 0.674062967300415, "z": 3.1831626892089844 }, "axis_scores": { "Quantum imaging": 0.723243772983551, "Quantum Life Science Sensing": 0.7291648983955383, "Quantum sensing Detection": 0.7245453000068665, "Quantum sensing Metrology": 0.6925274133682251, "Quantum sensing navigation": 0.6885693669319153, "Quantum sensing Position": 0.6826164722442627, "Quantum sensing Timing": 0.687628984451294, "Quantum sensing": 0.7276589870452881, "Quantum control": 0.6750848293304443 } }, { "id": 5997, "title": "Making ab initio QED functional(s): Nonperturbative and photon-free effective frameworks for strong light-matter coupling", "abstract": "Strong light-matter coupling provides a promising path for the control of quantum matter where the latter is routinely described from first principles. However, combining the quantized nature of light...", "citations": 64, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6004, "doi": "10.1073/pnas.2110464118|1of12", "umap_coordinates": { "x": 393.5677490234375, "y": 136.39642333984375, "z": 205.38970947265625 }, "tsne_coordinates": { "x": -17.45697784423828, "y": -13.17946720123291, "z": -19.733530044555664 }, "pca_coordinates": { "x": -0.36833804845809937, "y": -0.02967524528503418, "z": -0.7350692749023438 }, "axis_scores": { "Quantum imaging": 0.7400221228599548, "Quantum Life Science Sensing": 0.7344151735305786, "Quantum sensing Detection": 0.7139257192611694, "Quantum sensing Metrology": 0.7100728750228882, "Quantum sensing navigation": 0.7172393202781677, "Quantum sensing Position": 0.67930668592453, "Quantum sensing Timing": 0.6830267906188965, "Quantum sensing": 0.7359476089477539, "Quantum control": 0.7085993885993958 } }, { "id": 5998, "title": "Report on recent results of the PERCIVAL soft X-ray imager", "abstract": "The PERCIVAL (Pixelated Energy Resolving CMOS Imager, Versatile And Large) soft X-ray 2D imaging detector is based on stitched, wafer-scale sensors possessing a thick epi-layer, which together with ba...", "citations": 10, "author_count": 36, "categories": [ "Instruments & Instrumentation" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6005, "doi": "10.1088/1748-0221/11/11/C11020", "umap_coordinates": { "x": 395.787353515625, "y": 133.86253356933594, "z": 205.7213134765625 }, "tsne_coordinates": { "x": -27.84496307373047, "y": 26.533401489257812, "z": -8.64035415649414 }, "pca_coordinates": { "x": -2.6650562286376953, "y": 3.586974620819092, "z": 2.4787449836730957 }, "axis_scores": { "Quantum imaging": 0.6478147506713867, "Quantum Life Science Sensing": 0.6549822688102722, "Quantum sensing Detection": 0.6304140090942383, "Quantum sensing Metrology": 0.6130796670913696, "Quantum sensing navigation": 0.6123425364494324, "Quantum sensing Position": 0.6344504952430725, "Quantum sensing Timing": 0.6198026537895203, "Quantum sensing": 0.6309298872947693, "Quantum control": 0.5940017700195312 } }, { "id": 5999, "title": "Technological and economical aspects on the influence of reduced Cu(In,Ga)Se2 thickness and Ga grading for co-evaporated Cu(In,Ga)Se2 modules", "abstract": "Reducing the Cu(In,Ga)Se-2 (CIGS) thickness is one way of improving the throughput and capacity in existing production, provided that the efficiency can be kept at a high level. Our experimental resul...", "citations": 29, "author_count": 5, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6006, "doi": "10.1016/j.tsf.2011.01.369", "umap_coordinates": { "x": 393.1338806152344, "y": 133.67872619628906, "z": 205.5164031982422 }, "tsne_coordinates": { "x": 37.55719757080078, "y": 10.72161865234375, "z": 0.14204750955104828 }, "pca_coordinates": { "x": -3.138028621673584, "y": -0.718043327331543, "z": -1.5788953304290771 }, "axis_scores": { "Quantum imaging": 0.6536828875541687, "Quantum Life Science Sensing": 0.6664607524871826, "Quantum sensing Detection": 0.6463347673416138, "Quantum sensing Metrology": 0.6559911966323853, "Quantum sensing navigation": 0.640199601650238, "Quantum sensing Position": 0.6387004852294922, "Quantum sensing Timing": 0.6410068869590759, "Quantum sensing": 0.660068690776825, "Quantum control": 0.6702989935874939 } }, { "id": 6000, "title": "The X-ray view of giga-hertz peaked spectrum radio galaxies", "abstract": "Context. This paper presents the X-ray properties of a flux- and volume-limited complete sample of 16 giga-hertz peaked spectrum (GPS) galaxies. Aims. This study addresses three basic questions in our...", "citations": 54, "author_count": 9, "categories": [ "Astronomy & Astrophysics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6007, "doi": "10.1051/0004-6361/200811284", "umap_coordinates": { "x": 396.34332275390625, "y": 134.959228515625, "z": 206.2009735107422 }, "tsne_coordinates": { "x": -26.921497344970703, "y": 20.50619125366211, "z": 3.0540010929107666 }, "pca_coordinates": { "x": -0.6678510904312134, "y": 1.7444789409637451, "z": 0.8203330636024475 }, "axis_scores": { "Quantum imaging": 0.6850990056991577, "Quantum Life Science Sensing": 0.6805229783058167, "Quantum sensing Detection": 0.6579529047012329, "Quantum sensing Metrology": 0.6579474806785583, "Quantum sensing navigation": 0.682511568069458, "Quantum sensing Position": 0.6665244698524475, "Quantum sensing Timing": 0.6446828842163086, "Quantum sensing": 0.6772654056549072, "Quantum control": 0.6646309494972229 } }, { "id": 6001, "title": "Computational Investigations of the Detailed Mechanism of Reverse Intersystem Crossing in Inverted Singlet-Triplet Gap Molecules", "abstract": "Inverted singlet-triplet gap (INVEST) materials have promising photophysical properties for optoelectronic applications due to an inversion of their lowest singlet (S-1) and triplet (T-1) excited stat...", "citations": 29, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6008, "doi": "10.1021/acsami.4c04347", "umap_coordinates": { "x": 392.1176452636719, "y": 136.13084411621094, "z": 205.86428833007812 }, "tsne_coordinates": { "x": 2.4933247566223145, "y": -3.4616587162017822, "z": -9.582773208618164 }, "pca_coordinates": { "x": -0.04476165771484375, "y": -0.9411280155181885, "z": -1.9177374839782715 }, "axis_scores": { "Quantum imaging": 0.7017068266868591, "Quantum Life Science Sensing": 0.7091212868690491, "Quantum sensing Detection": 0.6658185124397278, "Quantum sensing Metrology": 0.6551826596260071, "Quantum sensing navigation": 0.6661372184753418, "Quantum sensing Position": 0.6237493753433228, "Quantum sensing Timing": 0.6585363745689392, "Quantum sensing": 0.6851876378059387, "Quantum control": 0.6533881425857544 } }, { "id": 6002, "title": "Optical quantum confinement in low dimensional hematite", "abstract": "Hematite is considered to be a promising material for various applications, including for example photoelectrochemical cells for solar hydrogen production. Due to limitations in the charge transport p...", "citations": 54, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6009, "doi": "10.1039/c3ta14846g", "umap_coordinates": { "x": 391.85235595703125, "y": 135.4875030517578, "z": 206.41278076171875 }, "tsne_coordinates": { "x": 10.193614959716797, "y": -3.001127004623413, "z": -1.7586759328842163 }, "pca_coordinates": { "x": 1.4003005027770996, "y": -1.3035707473754883, "z": -2.6305105686187744 }, "axis_scores": { "Quantum imaging": 0.7377659678459167, "Quantum Life Science Sensing": 0.7387914061546326, "Quantum sensing Detection": 0.7260813117027283, "Quantum sensing Metrology": 0.7171844244003296, "Quantum sensing navigation": 0.7315006256103516, "Quantum sensing Position": 0.6815122961997986, "Quantum sensing Timing": 0.6793742775917053, "Quantum sensing": 0.7361651062965393, "Quantum control": 0.7319302558898926 } }, { "id": 6003, "title": "Reverse-Taper Mid-Infrared Quantum Cascade Lasers for Coherent Power Scaling", "abstract": "We present a reverse-taper quantum cascade laser (QCL) emitting at 4.6 mu m, a novel-geometry device that can scale the output power while maintaining good beam quality. Buried-ridge waveguides with t...", "citations": 4, "author_count": 14, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6010, "doi": "10.1109/JPHOT.2022.3163409", "umap_coordinates": { "x": 394.8713073730469, "y": 134.04373168945312, "z": 206.2483673095703 }, "tsne_coordinates": { "x": 5.146644115447998, "y": 0.2802676558494568, "z": -36.582794189453125 }, "pca_coordinates": { "x": -1.3484406471252441, "y": 0.4896681308746338, "z": 1.4406929016113281 }, "axis_scores": { "Quantum imaging": 0.7235757112503052, "Quantum Life Science Sensing": 0.746286928653717, "Quantum sensing Detection": 0.7137441635131836, "Quantum sensing Metrology": 0.7105070352554321, "Quantum sensing navigation": 0.7043565511703491, "Quantum sensing Position": 0.695583701133728, "Quantum sensing Timing": 0.6934540271759033, "Quantum sensing": 0.7247020602226257, "Quantum control": 0.7071059942245483 } }, { "id": 6004, "title": "Readout cross-talk for alpha-particle measurements in a pixelated sensor system", "abstract": "Simulations in Medici are performed to quantify crosstalk and charge sharing in a hybrid pixelated silicon detector. Crosstalk and charge sharing degrades the spatial and spectral resolution of single...", "citations": 5, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6011, "doi": "10.1088/1748-0221/10/05/C05025", "umap_coordinates": { "x": 395.7249755859375, "y": 133.46588134765625, "z": 206.0630340576172 }, "tsne_coordinates": { "x": -24.724809646606445, "y": 21.124923706054688, "z": -12.41988468170166 }, "pca_coordinates": { "x": -1.8940173387527466, "y": 1.2939732074737549, "z": 3.3192248344421387 }, "axis_scores": { "Quantum imaging": 0.6847478747367859, "Quantum Life Science Sensing": 0.6898906826972961, "Quantum sensing Detection": 0.6829941272735596, "Quantum sensing Metrology": 0.6778104901313782, "Quantum sensing navigation": 0.6829390525817871, "Quantum sensing Position": 0.6981691718101501, "Quantum sensing Timing": 0.6920706033706665, "Quantum sensing": 0.6832621693611145, "Quantum control": 0.648978054523468 } }, { "id": 6005, "title": "Stimulated Rayleigh-Bragg Scattering From a Two-Photon Absorbing CdSe-CdS-ZnS Quantum-Rods System: Optical Power Limiting and Phase-Conjugation", "abstract": "This work reports the properties of stimulated Rayleigh-Bragg scattering (SRBS) from a two-photon absorbing CdSe-Cds-ZnS quantum-rods (QRs) solution in chloroform, excited by 1064-nm and similar to 13...", "citations": 2, "author_count": 8, "categories": [ "Engineering" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6012, "doi": "10.1109/JQE.2008.924432", "umap_coordinates": { "x": 393.843994140625, "y": 134.35760498046875, "z": 207.00228881835938 }, "tsne_coordinates": { "x": -0.06073173135519028, "y": -19.99742889404297, "z": -21.07624626159668 }, "pca_coordinates": { "x": -0.1611555814743042, "y": -1.5986180305480957, "z": 1.5581722259521484 }, "axis_scores": { "Quantum imaging": 0.7498871088027954, "Quantum Life Science Sensing": 0.7585057616233826, "Quantum sensing Detection": 0.7590702772140503, "Quantum sensing Metrology": 0.7476111054420471, "Quantum sensing navigation": 0.7409099340438843, "Quantum sensing Position": 0.7164499163627625, "Quantum sensing Timing": 0.7026171684265137, "Quantum sensing": 0.7628703713417053, "Quantum control": 0.7378206849098206 } }, { "id": 6006, "title": "Neural network informed photon filtering reduces fluorescence correlation spectroscopy artifacts", "abstract": "Fluorescence correlation spectroscopy (FCS) techniques are well-established tools to investigate molecular dynamics in confocal and super-resolution microscopy. In practice, users often need to handle...", "citations": 7, "author_count": 6, "categories": [ "Biophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6013, "doi": "10.1016/j.bpj.2024.02.012", "umap_coordinates": { "x": 394.5981750488281, "y": 134.40599060058594, "z": 205.20899963378906 }, "tsne_coordinates": { "x": -2.4176604747772217, "y": 21.351459503173828, "z": -2.5838470458984375 }, "pca_coordinates": { "x": -2.1500871181488037, "y": 0.6835038661956787, "z": 1.7125849723815918 }, "axis_scores": { "Quantum imaging": 0.7423280477523804, "Quantum Life Science Sensing": 0.6930109858512878, "Quantum sensing Detection": 0.7169579267501831, "Quantum sensing Metrology": 0.7056936025619507, "Quantum sensing navigation": 0.7347922921180725, "Quantum sensing Position": 0.7145466208457947, "Quantum sensing Timing": 0.7098249197006226, "Quantum sensing": 0.734581708908081, "Quantum control": 0.7118679881095886 } }, { "id": 6007, "title": "On the quantum phase operator for coherent states", "abstract": "In papers by Lynch [Phys. Rev. A41, 2841 (1990)] and Gerry and Urbanski [Phys. Rev. A42, 662 (1990)] it has been argued that the phase-fluctuation laser experiments of Gerhardt, Buchler and Lifkin [Ph...", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6014, "doi": "10.1238/Physica.Regular.070a00026", "umap_coordinates": { "x": 395.0252990722656, "y": 137.05397033691406, "z": 206.9591827392578 }, "tsne_coordinates": { "x": -19.024248123168945, "y": -4.230759620666504, "z": 18.23262596130371 }, "pca_coordinates": { "x": 3.727503776550293, "y": 2.374897003173828, "z": -0.1591845154762268 }, "axis_scores": { "Quantum imaging": 0.7456715106964111, "Quantum Life Science Sensing": 0.7379862070083618, "Quantum sensing Detection": 0.7363129258155823, "Quantum sensing Metrology": 0.7197386026382446, "Quantum sensing navigation": 0.7537257075309753, "Quantum sensing Position": 0.7237789630889893, "Quantum sensing Timing": 0.7201967239379883, "Quantum sensing": 0.7456403970718384, "Quantum control": 0.7349761724472046 } }, { "id": 6008, "title": "Two local minima for structures of [4Fe-4S] clusters obtained with density functional theory methods", "abstract": "[4Fe-4S] clusters are essential cofactors in many proteins involved in biological redox-active processes. Density functional theory (DFT) methods are widely used to study these clusters. Previous inve...", "citations": 6, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6015, "doi": "10.1038/s41598-023-37755-0", "umap_coordinates": { "x": 392.2149353027344, "y": 136.87869262695312, "z": 205.89913940429688 }, "tsne_coordinates": { "x": 6.471876621246338, "y": -2.4716074466705322, "z": 2.1301400661468506 }, "pca_coordinates": { "x": -0.5571807026863098, "y": -0.05475282669067383, "z": -3.282768964767456 }, "axis_scores": { "Quantum imaging": 0.6676281690597534, "Quantum Life Science Sensing": 0.6747377514839172, "Quantum sensing Detection": 0.6461175680160522, "Quantum sensing Metrology": 0.6429634690284729, "Quantum sensing navigation": 0.6480730772018433, "Quantum sensing Position": 0.6618537902832031, "Quantum sensing Timing": 0.6442224979400635, "Quantum sensing": 0.6508702039718628, "Quantum control": 0.6240074634552002 } }, { "id": 6009, "title": "Nuclear structure far off stability -: Rising campaigns", "abstract": "Nuclear structure studies at CST attracted recently increased interest for the results of present activities as well as for the future project FAIR. A broad range of physics phenomena can be addressed...", "citations": 11, "author_count": 26, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6016, "doi": null, "umap_coordinates": { "x": 391.5614013671875, "y": 139.6813201904297, "z": 209.14431762695312 }, "tsne_coordinates": { "x": -3.840907096862793, "y": 39.43817901611328, "z": -0.018891330808401108 }, "pca_coordinates": { "x": 0.14078223705291748, "y": 4.792193412780762, "z": -3.3130650520324707 }, "axis_scores": { "Quantum imaging": 0.6657997369766235, "Quantum Life Science Sensing": 0.6954776644706726, "Quantum sensing Detection": 0.6573441624641418, "Quantum sensing Metrology": 0.6421266198158264, "Quantum sensing navigation": 0.6960542798042297, "Quantum sensing Position": 0.6734656095504761, "Quantum sensing Timing": 0.6486695408821106, "Quantum sensing": 0.653205156326294, "Quantum control": 0.6773079633712769 } }, { "id": 6010, "title": "Long term effects of oestrogen therapy on bone loss in postmenopausal women: a 23 year prospective study", "abstract": "Objective To determine the long term effect of oestrogen therapy on bone loss after menopause. Design Prospective observational study over 23 years. Setting Malmo, Sweden. Subjects Twenty-eight women ...", "citations": 12, "author_count": 4, "categories": [ "Obstetrics & Gynecology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6017, "doi": "10.1111/j.1471-0528.2004.00068.x", "umap_coordinates": { "x": 394.8086242675781, "y": 134.91030883789062, "z": 204.1160125732422 }, "tsne_coordinates": { "x": -2.098689079284668, "y": 33.14253616333008, "z": 10.721643447875977 }, "pca_coordinates": { "x": -2.9603512287139893, "y": 3.612518310546875, "z": -0.20165711641311646 }, "axis_scores": { "Quantum imaging": 0.6696196794509888, "Quantum Life Science Sensing": 0.6933409571647644, "Quantum sensing Detection": 0.6588131189346313, "Quantum sensing Metrology": 0.6556640863418579, "Quantum sensing navigation": 0.6630573868751526, "Quantum sensing Position": 0.6547917127609253, "Quantum sensing Timing": 0.6642663478851318, "Quantum sensing": 0.67387855052948, "Quantum control": 0.6710779666900635 } }, { "id": 6011, "title": "PANCHROMATIC OBSERVATIONS OF SN 2011dh POINT TO A COMPACT PROGENITOR STAR", "abstract": "We report the discovery and detailed monitoring of X-ray emission associated with the Type IIb SN 2011dh using data from the Swift and Chandra satellites, placing it among the best-studied X-ray super...", "citations": 117, "author_count": 36, "categories": [ "Astronomy & Astrophysics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6018, "doi": "10.1088/0004-637X/752/2/78", "umap_coordinates": { "x": 396.214111328125, "y": 134.88858032226562, "z": 206.06597900390625 }, "tsne_coordinates": { "x": -30.03883934020996, "y": 22.852752685546875, "z": -0.4708745777606964 }, "pca_coordinates": { "x": -0.5781258940696716, "y": 2.445951461791992, "z": 1.0687370300292969 }, "axis_scores": { "Quantum imaging": 0.6596170663833618, "Quantum Life Science Sensing": 0.6750434637069702, "Quantum sensing Detection": 0.6519001126289368, "Quantum sensing Metrology": 0.6275443434715271, "Quantum sensing navigation": 0.6640821099281311, "Quantum sensing Position": 0.6705617308616638, "Quantum sensing Timing": 0.6509590744972229, "Quantum sensing": 0.654758095741272, "Quantum control": 0.6124880313873291 } }, { "id": 6012, "title": "Spectral and photophysical properties of ethylene-bridged side-to-side porphyrin dimers .1. Ground-state absorption and fluorescence study and calculation of electronic structure of trans-1,2-bis(meso-octaethylporphyrinyl)ethene", "abstract": "We have studied a double-bond bridged porphyrin dimer, trans-1,2-bis(meso-octaethylporphyrin)ethene (tbis=OEP), which in solutions exhibits new spectral properties: (i) pronounced absorption bands in ...", "citations": 50, "author_count": 7, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6019, "doi": "10.1021/jp9607374", "umap_coordinates": { "x": 392.1665954589844, "y": 136.0465087890625, "z": 205.568359375 }, "tsne_coordinates": { "x": -2.787691593170166, "y": 4.049213409423828, "z": -16.112470626831055 }, "pca_coordinates": { "x": -2.247075319290161, "y": -1.6773347854614258, "z": -1.349217176437378 }, "axis_scores": { "Quantum imaging": 0.6649581789970398, "Quantum Life Science Sensing": 0.6999090909957886, "Quantum sensing Detection": 0.6529183983802795, "Quantum sensing Metrology": 0.6442245244979858, "Quantum sensing navigation": 0.6225062608718872, "Quantum sensing Position": 0.6327679753303528, "Quantum sensing Timing": 0.6295998692512512, "Quantum sensing": 0.6663851141929626, "Quantum control": 0.6228064298629761 } }, { "id": 6013, "title": "Quantifying and monitoring functional photosystem II and the stoichiometry of the two photosystems in leaf segments: approaches and approximations", "abstract": "Given its unique function in light-induced water oxidation and its susceptibility to photoinactivation during photosynthesis, photosystem II (PS II) is often the focus of studies of photosynthetic str...", "citations": 30, "author_count": 11, "categories": [ "Plant Sciences" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6020, "doi": "10.1007/s11120-012-9740-y", "umap_coordinates": { "x": 394.1877746582031, "y": 136.3042449951172, "z": 203.97994995117188 }, "tsne_coordinates": { "x": 18.314727783203125, "y": 35.7293586730957, "z": 15.721844673156738 }, "pca_coordinates": { "x": -2.9513444900512695, "y": 1.0778405666351318, "z": -0.5031733512878418 }, "axis_scores": { "Quantum imaging": 0.6774468421936035, "Quantum Life Science Sensing": 0.7113398313522339, "Quantum sensing Detection": 0.6777977347373962, "Quantum sensing Metrology": 0.6923702359199524, "Quantum sensing navigation": 0.6588837504386902, "Quantum sensing Position": 0.6721895933151245, "Quantum sensing Timing": 0.6856343746185303, "Quantum sensing": 0.6944025158882141, "Quantum control": 0.6568084955215454 } }, { "id": 6014, "title": "Quantitative analysis of conformational exchange contributions to 1H-15N multiple-quantum relaxation using field-dependent measurements. Time scale and structural characterization of exchange in a calmodulin C-terminal domain mutant", "abstract": "Multiple-quantum spin relaxation is a sensitive probe for correlated conformational exchange dynamics on microsecond to millisecond time scales in biomolecules. We measured differential H-1-N-15 multi...", "citations": 23, "author_count": 3, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6021, "doi": "10.1021/ja037529r", "umap_coordinates": { "x": 392.45709228515625, "y": 137.1173858642578, "z": 206.4003143310547 }, "tsne_coordinates": { "x": 19.940160751342773, "y": 3.6411826610565186, "z": 30.135723114013672 }, "pca_coordinates": { "x": 0.03403306007385254, "y": 1.576491117477417, "z": -3.077773094177246 }, "axis_scores": { "Quantum imaging": 0.6862517595291138, "Quantum Life Science Sensing": 0.706615149974823, "Quantum sensing Detection": 0.659644365310669, "Quantum sensing Metrology": 0.684760332107544, "Quantum sensing navigation": 0.6660279035568237, "Quantum sensing Position": 0.6488974690437317, "Quantum sensing Timing": 0.6685661673545837, "Quantum sensing": 0.6874627470970154, "Quantum control": 0.6715934872627258 } }, { "id": 6015, "title": "Calorimetric measurement of nuclear spin-lattice relaxation rate in metals", "abstract": "The quasiparticle density of states in correlated and quantum-critical metals directly probes the effect of electronic correlations on the Fermi surface. Measurements of the nuclear spin-lattice relax...", "citations": 3, "author_count": 7, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6022, "doi": "10.1103/PhysRevB.107.195145", "umap_coordinates": { "x": 393.7355651855469, "y": 136.59536743164062, "z": 207.80857849121094 }, "tsne_coordinates": { "x": -8.42898941040039, "y": -26.839462280273438, "z": 4.743165016174316 }, "pca_coordinates": { "x": 3.5239901542663574, "y": 0.6956679821014404, "z": -0.5180282592773438 }, "axis_scores": { "Quantum imaging": 0.7117441296577454, "Quantum Life Science Sensing": 0.7447450160980225, "Quantum sensing Detection": 0.7224351763725281, "Quantum sensing Metrology": 0.7124195098876953, "Quantum sensing navigation": 0.7174216508865356, "Quantum sensing Position": 0.6979247331619263, "Quantum sensing Timing": 0.7163621783256531, "Quantum sensing": 0.7299869656562805, "Quantum control": 0.6915321350097656 } }, { "id": 6016, "title": "Magnetic-field-controlled spin fluctuations and quantum critically in Sr3Ru2O7", "abstract": "When the transition temperature of a continuous phase transition is tuned to absolute zero, new ordered phases and physical behaviour emerge in the vicinity of the resulting quantum critical point. Sr...", "citations": 14, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6023, "doi": "10.1038/s41467-021-26068-3", "umap_coordinates": { "x": 392.6592102050781, "y": 136.38299560546875, "z": 207.3553924560547 }, "tsne_coordinates": { "x": 11.49621295928955, "y": -12.829619407653809, "z": 22.130146026611328 }, "pca_coordinates": { "x": 0.6515817642211914, "y": 0.5042544603347778, "z": -2.977654457092285 }, "axis_scores": { "Quantum imaging": 0.7167916297912598, "Quantum Life Science Sensing": 0.7425552010536194, "Quantum sensing Detection": 0.7034345865249634, "Quantum sensing Metrology": 0.7152203321456909, "Quantum sensing navigation": 0.725942850112915, "Quantum sensing Position": 0.6919029355049133, "Quantum sensing Timing": 0.6857926249504089, "Quantum sensing": 0.736699640750885, "Quantum control": 0.7519861459732056 } }, { "id": 6017, "title": "Photon upconversion with directed emission", "abstract": "Photon upconversion has the potential to increase the efficiency of single bandgap solar cells beyond the Shockley Queisser limit. Efficient light management is an important point in this context. Her...", "citations": 47, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6024, "doi": "10.1038/ncomms12689", "umap_coordinates": { "x": 393.853759765625, "y": 134.02932739257812, "z": 206.4263153076172 }, "tsne_coordinates": { "x": -21.10630226135254, "y": -11.817628860473633, "z": -12.934805870056152 }, "pca_coordinates": { "x": -1.0098015069961548, "y": -1.634352207183838, "z": 3.4927797317504883 }, "axis_scores": { "Quantum imaging": 0.7528543472290039, "Quantum Life Science Sensing": 0.717831015586853, "Quantum sensing Detection": 0.7416686415672302, "Quantum sensing Metrology": 0.7179447412490845, "Quantum sensing navigation": 0.7435951232910156, "Quantum sensing Position": 0.6973462104797363, "Quantum sensing Timing": 0.6917582750320435, "Quantum sensing": 0.738197386264801, "Quantum control": 0.7067749500274658 } }, { "id": 6018, "title": "Optimization of Low-Contrast Detectability in Abdominal Imaging: A Comparative Analysis of PCCT, DECT, and SECT Systems", "abstract": "Background: Clear representation of anatomy is essential in the assessment of pathology in computed tomography (CT). With the introduction of photon-counting CT (PCCT) and more advanced iterative reco...", "citations": 3, "author_count": 12, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6025, "doi": "10.1002/mp.17717", "umap_coordinates": { "x": 395.73199462890625, "y": 132.68992614746094, "z": 204.9650115966797 }, "tsne_coordinates": { "x": 0.9547041654586792, "y": 25.121671676635742, "z": -21.741689682006836 }, "pca_coordinates": { "x": -3.3354554176330566, "y": 4.507912635803223, "z": 0.537200391292572 }, "axis_scores": { "Quantum imaging": 0.7034304141998291, "Quantum Life Science Sensing": 0.666706383228302, "Quantum sensing Detection": 0.674942135810852, "Quantum sensing Metrology": 0.6604845523834229, "Quantum sensing navigation": 0.6676901578903198, "Quantum sensing Position": 0.6634915471076965, "Quantum sensing Timing": 0.6800746917724609, "Quantum sensing": 0.6638932824134827, "Quantum control": 0.6807662844657898 } }, { "id": 6019, "title": "Quantum-Like Model for Decision Making Process in Two Players Game", "abstract": "In experiments of games, players frequently make choices which are regarded as irrational in game theory. In papers of Khrennikov (Information Dynamics in Cognitive, Psychological and Anomalous Phenom...", "citations": 45, "author_count": 4, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6026, "doi": "10.1007/s10701-010-9454-y", "umap_coordinates": { "x": 394.9042663574219, "y": 137.56759643554688, "z": 206.11280822753906 }, "tsne_coordinates": { "x": -23.634431838989258, "y": 11.251890182495117, "z": 19.286943435668945 }, "pca_coordinates": { "x": 1.6886868476867676, "y": 3.5736007690429688, "z": -0.7137383222579956 }, "axis_scores": { "Quantum imaging": 0.7514612674713135, "Quantum Life Science Sensing": 0.7559334635734558, "Quantum sensing Detection": 0.7571215033531189, "Quantum sensing Metrology": 0.7340837121009827, "Quantum sensing navigation": 0.7728780508041382, "Quantum sensing Position": 0.7364015579223633, "Quantum sensing Timing": 0.7398490309715271, "Quantum sensing": 0.7664135098457336, "Quantum control": 0.7640477418899536 } }, { "id": 6020, "title": "Quantum Efficiency of Cold Electron Bolometer Optical Response", "abstract": "In this paper, we present the measurements of optical response dependence on power load of a Cold Electron Bolometer integrated in a twin slot antenna. These measurements are also compared to the mode...", "citations": 10, "author_count": 6, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6027, "doi": "10.1109/TTHZ.2014.2379331", "umap_coordinates": { "x": 395.00982666015625, "y": 134.84523010253906, "z": 207.6263885498047 }, "tsne_coordinates": { "x": -1.5601884126663208, "y": -0.9395906329154968, "z": -43.76383590698242 }, "pca_coordinates": { "x": 1.7273004055023193, "y": 1.0387650728225708, "z": 1.4923381805419922 }, "axis_scores": { "Quantum imaging": 0.7261946201324463, "Quantum Life Science Sensing": 0.7347310781478882, "Quantum sensing Detection": 0.7358216047286987, "Quantum sensing Metrology": 0.7310886979103088, "Quantum sensing navigation": 0.7061173319816589, "Quantum sensing Position": 0.6962404251098633, "Quantum sensing Timing": 0.7448844909667969, "Quantum sensing": 0.7393535375595093, "Quantum control": 0.7210487723350525 } }, { "id": 6021, "title": "Collective lattice resonances in arrays of dielectric nanoparticles: a matter of size", "abstract": "Collective lattice resonances (CLRs) in finite-sized 2D arrays of dielectric nanospheres have been studied via the coupled dipole approximation. We show that even for sufficiently large arrays, up to ...", "citations": 55, "author_count": 7, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6028, "doi": "10.1364/OL.44.005743", "umap_coordinates": { "x": 392.8564453125, "y": 134.41514587402344, "z": 206.63905334472656 }, "tsne_coordinates": { "x": 7.739251136779785, "y": -14.011955261230469, "z": -7.586045742034912 }, "pca_coordinates": { "x": 0.04688155651092529, "y": -2.303316116333008, "z": -0.6107088327407837 }, "axis_scores": { "Quantum imaging": 0.7326209545135498, "Quantum Life Science Sensing": 0.7458596229553223, "Quantum sensing Detection": 0.7266712784767151, "Quantum sensing Metrology": 0.7181860208511353, "Quantum sensing navigation": 0.7257081270217896, "Quantum sensing Position": 0.7353718876838684, "Quantum sensing Timing": 0.712149441242218, "Quantum sensing": 0.7459596395492554, "Quantum control": 0.7112667560577393 } }, { "id": 6022, "title": "Search for charginos nearly mass-degenerate with the lightest neutralino", "abstract": "A search for charginos with masses close to the mass of the lightest neutralino is reported, based on the data collected with the DELPHI detector at LEP from 1995 to 1997 at centre-of-mass energies be...", "citations": 25, "author_count": 524, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 6029, "doi": "10.1007/s100520050610", "umap_coordinates": { "x": 396.30328369140625, "y": 135.2866973876953, "z": 206.35691833496094 }, "tsne_coordinates": { "x": -34.0394401550293, "y": 13.451904296875, "z": -0.9110215902328491 }, "pca_coordinates": { "x": -1.8379507064819336, "y": 2.45302677154541, "z": 0.007906734943389893 }, "axis_scores": { "Quantum imaging": 0.6352291703224182, "Quantum Life Science Sensing": 0.6858965754508972, "Quantum sensing Detection": 0.6625476479530334, "Quantum sensing Metrology": 0.6663125157356262, "Quantum sensing navigation": 0.6727327108383179, "Quantum sensing Position": 0.6513309478759766, "Quantum sensing Timing": 0.6270260810852051, "Quantum sensing": 0.6588618159294128, "Quantum control": 0.6317218542098999 } }, { "id": 6023, "title": "Measurement of Higgs boson production in the diphoton decay channel in pp collisions at center-of-mass energies of 7 and 8 TeV with the ATLAS detector", "abstract": "A measurement of the production processes of the recently discovered Higgs boson is performed in the two-photon final state using 4.5 fb(-1) of proton-proton collisions data at root s = 7 TeV and 20.3...", "citations": 225, "author_count": 2653, "categories": [ "Astronomy & Astrophysics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6030, "doi": "10.1103/PhysRevD.90.112015", "umap_coordinates": { "x": 396.75286865234375, "y": 134.51100158691406, "z": 207.69496154785156 }, "tsne_coordinates": { "x": -37.47243118286133, "y": 8.435102462768555, "z": -12.802478790283203 }, "pca_coordinates": { "x": 3.0614919662475586, "y": 0.3800036907196045, "z": 3.437645435333252 }, "axis_scores": { "Quantum imaging": 0.6848800182342529, "Quantum Life Science Sensing": 0.6904476881027222, "Quantum sensing Detection": 0.7048926949501038, "Quantum sensing Metrology": 0.6866309642791748, "Quantum sensing navigation": 0.6956595778465271, "Quantum sensing Position": 0.6987596750259399, "Quantum sensing Timing": 0.700121283531189, "Quantum sensing": 0.6992150545120239, "Quantum control": 0.660359263420105 } }, { "id": 6024, "title": "Low temperature aqueous chemical growth, structural, and optical properties of Mn-doped ZnO nanowires", "abstract": "Mn-doped ZnO nanowires were successfully synthesized by using the low temperature aqueous chemical growth (ACG) method. Field emission scanning electron microscopy (FESEM), energy dispersive X-ray (ED...", "citations": 23, "author_count": 4, "categories": [ "Crystallography" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6031, "doi": "10.1016/j.jcrysgro.2013.04.015", "umap_coordinates": { "x": 393.1536560058594, "y": 134.37525939941406, "z": 205.59547424316406 }, "tsne_coordinates": { "x": 30.031679153442383, "y": 3.861788034439087, "z": 2.1047353744506836 }, "pca_coordinates": { "x": -2.614865779876709, "y": -2.1160778999328613, "z": -1.5241676568984985 }, "axis_scores": { "Quantum imaging": 0.72539222240448, "Quantum Life Science Sensing": 0.767551064491272, "Quantum sensing Detection": 0.7253721952438354, "Quantum sensing Metrology": 0.7245340943336487, "Quantum sensing navigation": 0.7288436889648438, "Quantum sensing Position": 0.7146990895271301, "Quantum sensing Timing": 0.6867974996566772, "Quantum sensing": 0.7376704812049866, "Quantum control": 0.7053698301315308 } }, { "id": 6025, "title": "Wave-packet dynamics and edge transport in anomalous Floquet topological phases", "abstract": "The possibility of attaining chiral edge modes under periodic driving has spurred tremendous attention both theoretically and experimentally, especially in light of anomalous Floquet topological phase...", "citations": 8, "author_count": 3, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6032, "doi": "10.1103/PhysRevA.108.063314", "umap_coordinates": { "x": 394.6298828125, "y": 136.87631225585938, "z": 209.00132751464844 }, "tsne_coordinates": { "x": -17.017017364501953, "y": -18.6706600189209, "z": 16.496322631835938 }, "pca_coordinates": { "x": 5.0784783363342285, "y": 0.19985413551330566, "z": -0.43787458539009094 }, "axis_scores": { "Quantum imaging": 0.7101231813430786, "Quantum Life Science Sensing": 0.6954390406608582, "Quantum sensing Detection": 0.6945631504058838, "Quantum sensing Metrology": 0.6724359393119812, "Quantum sensing navigation": 0.7176002264022827, "Quantum sensing Position": 0.6902727484703064, "Quantum sensing Timing": 0.6898000836372375, "Quantum sensing": 0.6937207579612732, "Quantum control": 0.6742550730705261 } }, { "id": 6026, "title": "Donor-donor energy migration (DDEM) as a tool for studying aggregation in lipid phases", "abstract": "A BODIPY(R)-labelled sulfatide (N-(BODIPY(R)- FL-pentanoyl) -galactosylcerebroside-sulfate, hereafter abbreviated as BD-Sulfatide) was solubilised at different concentrations in lipid vesicles of 1,2-...", "citations": 12, "author_count": 4, "categories": [ "Spectroscopy" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6033, "doi": "10.1016/S1386-1425(01)00411-5", "umap_coordinates": { "x": 393.0966796875, "y": 135.5824737548828, "z": 205.924072265625 }, "tsne_coordinates": { "x": 24.134206771850586, "y": 11.612791061401367, "z": 20.31765365600586 }, "pca_coordinates": { "x": -1.2759580612182617, "y": -0.4992866516113281, "z": -2.538220167160034 }, "axis_scores": { "Quantum imaging": 0.6667730808258057, "Quantum Life Science Sensing": 0.7045826315879822, "Quantum sensing Detection": 0.6585341095924377, "Quantum sensing Metrology": 0.6544590592384338, "Quantum sensing navigation": 0.6508651375770569, "Quantum sensing Position": 0.6485179662704468, "Quantum sensing Timing": 0.6515040993690491, "Quantum sensing": 0.6633204221725464, "Quantum control": 0.6282404065132141 } }, { "id": 6027, "title": "In-plane resonant cavities with photonic crystal boundaries etched in InP-based heterostructure", "abstract": "The optical properties of in-plane cavities with photonic crystal boundaries fabricated into an InP/GaInAsP/InP slab waveguide structure are presented. The investigated cavities are realized as segmen...", "citations": 24, "author_count": 7, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6034, "doi": "10.1063/1.1594824", "umap_coordinates": { "x": 392.941162109375, "y": 133.88665771484375, "z": 208.15570068359375 }, "tsne_coordinates": { "x": 33.56882858276367, "y": -19.041807174682617, "z": 5.125118732452393 }, "pca_coordinates": { "x": 1.5526123046875, "y": -2.795138359069824, "z": 1.4784369468688965 }, "axis_scores": { "Quantum imaging": 0.7360923886299133, "Quantum Life Science Sensing": 0.7025647163391113, "Quantum sensing Detection": 0.7067826390266418, "Quantum sensing Metrology": 0.7200831174850464, "Quantum sensing navigation": 0.7114838361740112, "Quantum sensing Position": 0.6899247765541077, "Quantum sensing Timing": 0.6814504265785217, "Quantum sensing": 0.7210693955421448, "Quantum control": 0.6915838122367859 } }, { "id": 6028, "title": "Chemical engineering of methylammonium lead iodide/bromide perovskites: tuning of opto-electronic properties and photovoltaic performance", "abstract": "Hybrid (organic-inorganic) lead trihalide perovskites have attracted much attention in recent years due to their exceptionally promising potential for application in solar cells. Here a controlled one...", "citations": 114, "author_count": 9, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6035, "doi": "10.1039/c5ta05470b", "umap_coordinates": { "x": 391.8914794921875, "y": 134.8404083251953, "z": 205.2925567626953 }, "tsne_coordinates": { "x": 15.416847229003906, "y": -3.111283302307129, "z": -16.824731826782227 }, "pca_coordinates": { "x": -3.0185282230377197, "y": -3.2116541862487793, "z": -2.794826030731201 }, "axis_scores": { "Quantum imaging": 0.7045214176177979, "Quantum Life Science Sensing": 0.7108411192893982, "Quantum sensing Detection": 0.6811584234237671, "Quantum sensing Metrology": 0.6866337060928345, "Quantum sensing navigation": 0.678771436214447, "Quantum sensing Position": 0.6725154519081116, "Quantum sensing Timing": 0.6503923535346985, "Quantum sensing": 0.7011265754699707, "Quantum control": 0.6977702379226685 } }, { "id": 6029, "title": "REDUCED BONE-MINERAL CONTENT IN ADULT PATIENTS WITH GROWTH-HORMONE DEFICIENCY", "abstract": "Bone mineral content was measured in a follow-up study of adult patients with hypopituitarism and growth hormone deficiency. There were 95 patients (59 males. mean age 54.0 years, range 21-74 years; 3...", "citations": 189, "author_count": 6, "categories": [ "Endocrinology & Metabolism" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6036, "doi": "10.1530/acta.0.1290201", "umap_coordinates": { "x": 395.1646728515625, "y": 134.83058166503906, "z": 204.70811462402344 }, "tsne_coordinates": { "x": -1.1325788497924805, "y": 38.633907318115234, "z": 11.472860336303711 }, "pca_coordinates": { "x": -0.9582902193069458, "y": 3.9557313919067383, "z": -0.633240818977356 }, "axis_scores": { "Quantum imaging": 0.6463936567306519, "Quantum Life Science Sensing": 0.6535933017730713, "Quantum sensing Detection": 0.6283814311027527, "Quantum sensing Metrology": 0.6507002711296082, "Quantum sensing navigation": 0.6559652090072632, "Quantum sensing Position": 0.6596211791038513, "Quantum sensing Timing": 0.6307405233383179, "Quantum sensing": 0.639785885810852, "Quantum control": 0.6363491415977478 } }, { "id": 6030, "title": "Using the Disease State Fingerprint Tool for Differential Diagnosis of Frontotemporal Dementia and Alzheimer's Disease", "abstract": "Background: Disease State Index (DSI) and its visualization, Disease State Fingerprint (DSF), form a computer-assisted clinical decision making tool that combines patient data and compares them with c...", "citations": 9, "author_count": 16, "categories": [ "Neurosciences & Neurology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6037, "doi": "10.1159/000447122", "umap_coordinates": { "x": 394.8629455566406, "y": 134.609619140625, "z": 204.32015991210938 }, "tsne_coordinates": { "x": -3.39461088180542, "y": 29.91767120361328, "z": 4.833652496337891 }, "pca_coordinates": { "x": -2.7360527515411377, "y": 2.3485653400421143, "z": 0.9653386473655701 }, "axis_scores": { "Quantum imaging": 0.6554221510887146, "Quantum Life Science Sensing": 0.6782191395759583, "Quantum sensing Detection": 0.6685628890991211, "Quantum sensing Metrology": 0.6581922769546509, "Quantum sensing navigation": 0.665510892868042, "Quantum sensing Position": 0.6796911954879761, "Quantum sensing Timing": 0.653099000453949, "Quantum sensing": 0.6629701256752014, "Quantum control": 0.6344442367553711 } }, { "id": 6031, "title": "FERMI DISCOVERY OF GAMMA-RAY EMISSION FROM NGC 1275", "abstract": "We report the discovery of high-energy (E > 100 MeV) gamma-ray emission from NGC 1275, a giant elliptical galaxy lying at the center of the Perseus cluster of galaxies, based on observations made with...", "citations": 184, "author_count": 171, "categories": [ "Astronomy & Astrophysics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6038, "doi": "10.1088/0004-637X/699/1/31", "umap_coordinates": { "x": 396.2485046386719, "y": 134.8470458984375, "z": 206.0987548828125 }, "tsne_coordinates": { "x": -28.96930503845215, "y": 24.85272789001465, "z": 0.8688344955444336 }, "pca_coordinates": { "x": -0.25544846057891846, "y": 2.3202481269836426, "z": 2.838484764099121 }, "axis_scores": { "Quantum imaging": 0.6812316179275513, "Quantum Life Science Sensing": 0.6701626777648926, "Quantum sensing Detection": 0.6663832664489746, "Quantum sensing Metrology": 0.6386163830757141, "Quantum sensing navigation": 0.677169144153595, "Quantum sensing Position": 0.6428794264793396, "Quantum sensing Timing": 0.6486726403236389, "Quantum sensing": 0.6635700464248657, "Quantum control": 0.6410687565803528 } }, { "id": 6032, "title": "DNA damage induced by radiation of different linear energy transfer:: initial fragmentation", "abstract": "Purpose: To investigate DNA fragmentation as a function of linear energy transfer (LET) after exposure to accelerated ions in the LET range 40-225 keV/mu m. Materials and methods: Fragmentation patter...", "citations": 129, "author_count": 5, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6039, "doi": "10.1080/095530000138556", "umap_coordinates": { "x": 394.38677978515625, "y": 136.52947998046875, "z": 205.18931579589844 }, "tsne_coordinates": { "x": 8.021970748901367, "y": 33.419437408447266, "z": -24.90682029724121 }, "pca_coordinates": { "x": -0.3007470965385437, "y": 3.4267570972442627, "z": -1.29204261302948 }, "axis_scores": { "Quantum imaging": 0.6478344202041626, "Quantum Life Science Sensing": 0.6785561442375183, "Quantum sensing Detection": 0.6436139345169067, "Quantum sensing Metrology": 0.6023318767547607, "Quantum sensing navigation": 0.6328086853027344, "Quantum sensing Position": 0.6232722401618958, "Quantum sensing Timing": 0.6210858225822449, "Quantum sensing": 0.636589527130127, "Quantum control": 0.6120234131813049 } }, { "id": 6033, "title": "Fragmentation Dynamics of Fluorene Explored Using Ultrafast XUV-Vis Pump-Probe Spectroscopy", "abstract": "We report on the use of extreme ultraviolet (XUV, 30.3 nm) radiation from the Free-electron LASer in Hamburg (FLASH) and visible (Vis, 405 nm) photons from an optical laser to investigate the relaxati...", "citations": 7, "author_count": 43, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6040, "doi": "10.3389/fphy.2022.880793", "umap_coordinates": { "x": 393.19757080078125, "y": 136.307861328125, "z": 205.826904296875 }, "tsne_coordinates": { "x": 4.2404303550720215, "y": 2.8784477710723877, "z": 9.201242446899414 }, "pca_coordinates": { "x": -0.7086236476898193, "y": 1.849228858947754, "z": -1.9472732543945312 }, "axis_scores": { "Quantum imaging": 0.6953157186508179, "Quantum Life Science Sensing": 0.7259098291397095, "Quantum sensing Detection": 0.6818861961364746, "Quantum sensing Metrology": 0.6485841274261475, "Quantum sensing navigation": 0.6732323169708252, "Quantum sensing Position": 0.6473667025566101, "Quantum sensing Timing": 0.6391408443450928, "Quantum sensing": 0.6837179660797119, "Quantum control": 0.6666738390922546 } }, { "id": 6034, "title": "SILICON PHOTOMULTIPLIERS FOR MEDICAL IMAGING AND DOSIMETRY-AN OVERVIEW", "abstract": "Silicon photomultipliers (SiPMs) are an enabling solid-state technology for low light sensing, with single photon sensitivity and photon number resolving capability. They feature an extremely high int...", "citations": 2, "author_count": 4, "categories": [ "Environmental Sciences & Ecology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6041, "doi": "10.1093/rpd/ncw101", "umap_coordinates": { "x": 395.3097839355469, "y": 132.98394775390625, "z": 205.2187042236328 }, "tsne_coordinates": { "x": -7.907425403594971, "y": 33.955177307128906, "z": -20.084630966186523 }, "pca_coordinates": { "x": -3.4785404205322266, "y": 1.1478303670883179, "z": 2.6878676414489746 }, "axis_scores": { "Quantum imaging": 0.7383195161819458, "Quantum Life Science Sensing": 0.7512404918670654, "Quantum sensing Detection": 0.725916862487793, "Quantum sensing Metrology": 0.7337279319763184, "Quantum sensing navigation": 0.712165355682373, "Quantum sensing Position": 0.706366240978241, "Quantum sensing Timing": 0.6898412108421326, "Quantum sensing": 0.7356598973274231, "Quantum control": 0.6918434500694275 } }, { "id": 6035, "title": "Spin-singlet Gaffnian wave function for fractional quantum Hall systems", "abstract": "We characterize in detail a wave function conceivable in fractional quantum Hall systems where a spin or equivalent degree of freedom is present. This wave function combines the properties of two prev...", "citations": 4, "author_count": 5, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6042, "doi": "10.1103/PhysRevB.87.045310", "umap_coordinates": { "x": 394.16876220703125, "y": 136.76695251464844, "z": 208.8245086669922 }, "tsne_coordinates": { "x": -19.186702728271484, "y": -32.9335823059082, "z": 14.065937042236328 }, "pca_coordinates": { "x": 5.0204949378967285, "y": -0.5288782119750977, "z": -1.4632904529571533 }, "axis_scores": { "Quantum imaging": 0.6958736181259155, "Quantum Life Science Sensing": 0.712809145450592, "Quantum sensing Detection": 0.6939961910247803, "Quantum sensing Metrology": 0.6998016834259033, "Quantum sensing navigation": 0.7271779775619507, "Quantum sensing Position": 0.6796206831932068, "Quantum sensing Timing": 0.6857526898384094, "Quantum sensing": 0.7143767476081848, "Quantum control": 0.6862101554870605 } }, { "id": 6036, "title": "The Role of Grain Boundaries on Ion Migration and Charge Recombination in Halide Perovskites", "abstract": "Grain boundaries (GBs) have a significant role in polycrystalline perovskite solar cells (PSCs). However, there is ongoing debate regarding the impact of GBs on the performance and long-term stability...", "citations": 11, "author_count": 11, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6043, "doi": "10.1002/smll.202310368", "umap_coordinates": { "x": 391.7435607910156, "y": 134.55609130859375, "z": 205.78057861328125 }, "tsne_coordinates": { "x": 28.865650177001953, "y": -2.103130578994751, "z": -20.21717643737793 }, "pca_coordinates": { "x": -1.6258506774902344, "y": -1.182394027709961, "z": -3.820589065551758 }, "axis_scores": { "Quantum imaging": 0.6571603417396545, "Quantum Life Science Sensing": 0.6657440066337585, "Quantum sensing Detection": 0.6323419213294983, "Quantum sensing Metrology": 0.6441853046417236, "Quantum sensing navigation": 0.6527540683746338, "Quantum sensing Position": 0.6603690385818481, "Quantum sensing Timing": 0.6507085561752319, "Quantum sensing": 0.6507173776626587, "Quantum control": 0.6480616331100464 } }, { "id": 6037, "title": "One-dimensional itinerant interacting non-Abelian anyons", "abstract": "We construct models of interacting itinerant non-Abelian anyons moving along one-dimensional chains. We focus on itinerant Ising (Majorana) and Fibonacci anyons, which are, respectively, related to SU...", "citations": 13, "author_count": 6, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6044, "doi": "10.1103/PhysRevB.87.085106", "umap_coordinates": { "x": 394.94622802734375, "y": 136.78945922851562, "z": 208.94227600097656 }, "tsne_coordinates": { "x": -24.869600296020508, "y": -18.257736206054688, "z": 19.847732543945312 }, "pca_coordinates": { "x": 4.616068363189697, "y": -0.37293100357055664, "z": 0.33620184659957886 }, "axis_scores": { "Quantum imaging": 0.7088578939437866, "Quantum Life Science Sensing": 0.6856567859649658, "Quantum sensing Detection": 0.6870617270469666, "Quantum sensing Metrology": 0.6623386144638062, "Quantum sensing navigation": 0.6879925727844238, "Quantum sensing Position": 0.6415629982948303, "Quantum sensing Timing": 0.660372257232666, "Quantum sensing": 0.6955814361572266, "Quantum control": 0.6787434220314026 } }, { "id": 6038, "title": "Automated EW corrections with isolated photons: t(t)over-barγ, t(t)over-barγγ and tγj as case studies", "abstract": "In this work we compute for the first time the so-called Complete-NLO predictions for top-quark pair hadroproduction in association with at least one isolated photon (t (t) over bar gamma). We also co...", "citations": 24, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6045, "doi": "10.1007/JHEP09(2021)155", "umap_coordinates": { "x": 396.8359680175781, "y": 134.38577270507812, "z": 207.27322387695312 }, "tsne_coordinates": { "x": -38.21934127807617, "y": 13.304773330688477, "z": -9.071128845214844 }, "pca_coordinates": { "x": -1.6356221437454224, "y": 2.0412750244140625, "z": 2.4651036262512207 }, "axis_scores": { "Quantum imaging": 0.7089977264404297, "Quantum Life Science Sensing": 0.6951603889465332, "Quantum sensing Detection": 0.6891472935676575, "Quantum sensing Metrology": 0.6866061687469482, "Quantum sensing navigation": 0.6797336935997009, "Quantum sensing Position": 0.6505307555198669, "Quantum sensing Timing": 0.6993535161018372, "Quantum sensing": 0.6980111002922058, "Quantum control": 0.6678793430328369 } }, { "id": 6039, "title": "Roadmap for network-based biocomputation", "abstract": "Network-based biocomputation (NBC) is an alternative, parallel computation approach that can potentially solve technologically important, combinatorial problems with much lower energy consumption than...", "citations": 11, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6046, "doi": "10.1088/2399-1984/ac7d81", "umap_coordinates": { "x": 394.7441101074219, "y": 134.92774963378906, "z": 205.4637451171875 }, "tsne_coordinates": { "x": -16.187841415405273, "y": 3.230733871459961, "z": -17.644664764404297 }, "pca_coordinates": { "x": -1.8364020586013794, "y": 3.810421943664551, "z": -1.639885425567627 }, "axis_scores": { "Quantum imaging": 0.6658987402915955, "Quantum Life Science Sensing": 0.6807600259780884, "Quantum sensing Detection": 0.6469802260398865, "Quantum sensing Metrology": 0.6455313563346863, "Quantum sensing navigation": 0.6910582184791565, "Quantum sensing Position": 0.6592605710029602, "Quantum sensing Timing": 0.6350242495536804, "Quantum sensing": 0.6515164375305176, "Quantum control": 0.6613593697547913 } }, { "id": 6040, "title": "Characterization of a Set of Small Planets with TESS and CHEOPS and an Analysis of Photometric Performance", "abstract": "The radius valley carries implications for how the atmospheres of small planets form and evolve, but this feature is visible only with highly precise characterizations of many small planets. We presen...", "citations": 14, "author_count": 45, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6047, "doi": "10.3847/1538-3881/acb4e3", "umap_coordinates": { "x": 394.6849670410156, "y": 135.40419006347656, "z": 205.4234619140625 }, "tsne_coordinates": { "x": -21.640911102294922, "y": 24.95244789123535, "z": -2.7823195457458496 }, "pca_coordinates": { "x": -2.5261611938476562, "y": 1.948828935623169, "z": 0.1263921856880188 }, "axis_scores": { "Quantum imaging": 0.658012866973877, "Quantum Life Science Sensing": 0.6744890213012695, "Quantum sensing Detection": 0.6496716737747192, "Quantum sensing Metrology": 0.6483612060546875, "Quantum sensing navigation": 0.6359570622444153, "Quantum sensing Position": 0.6403460502624512, "Quantum sensing Timing": 0.6552626490592957, "Quantum sensing": 0.6615087389945984, "Quantum control": 0.6464500427246094 } }, { "id": 6041, "title": "Measurement and QCD analysis of the diffractive deep-inelastic scattering cross section at HERA", "abstract": "A detailed analysis is presented of the diffractive deep-inelastic scattering process ep -> eXY, where Y is a proton or a low mass proton excitation carrying a fraction 1 - x(IP) > 0.95 of the inciden...", "citations": 264, "author_count": 295, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6048, "doi": "10.1140/epjc/s10052-006-0035-3", "umap_coordinates": { "x": 396.4820861816406, "y": 134.47091674804688, "z": 206.8425750732422 }, "tsne_coordinates": { "x": -28.575668334960938, "y": 12.936101913452148, "z": -6.955483913421631 }, "pca_coordinates": { "x": 0.19809865951538086, "y": 1.6855082511901855, "z": 1.169342279434204 }, "axis_scores": { "Quantum imaging": 0.705539882183075, "Quantum Life Science Sensing": 0.7198895812034607, "Quantum sensing Detection": 0.7153337001800537, "Quantum sensing Metrology": 0.7010470032691956, "Quantum sensing navigation": 0.7058432102203369, "Quantum sensing Position": 0.6991683840751648, "Quantum sensing Timing": 0.708054780960083, "Quantum sensing": 0.7232702970504761, "Quantum control": 0.7013000845909119 } }, { "id": 6042, "title": "Hydrophobic and Hydrophilic Conjugated Polymer Dots as Binary Photocatalysts for Enhanced Visible-Light-Driven Hydrogen Evolution through Forster Resonance Energy Transfer", "abstract": "Organic semiconducting polymers exhibited promising photocatalytic behavior for hydrogen (H-2) evolution, especially when prepared in the form of polymer dots (Pdots). However, the Pdot structures wer...", "citations": 31, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6049, "doi": "10.1021/acsami.1c15812", "umap_coordinates": { "x": 392.1984558105469, "y": 134.02659606933594, "z": 204.9708251953125 }, "tsne_coordinates": { "x": 21.14052391052246, "y": 5.709980487823486, "z": -8.892006874084473 }, "pca_coordinates": { "x": -2.3178913593292236, "y": -3.804084300994873, "z": -1.1309807300567627 }, "axis_scores": { "Quantum imaging": 0.7143443822860718, "Quantum Life Science Sensing": 0.725640058517456, "Quantum sensing Detection": 0.6900045871734619, "Quantum sensing Metrology": 0.6800569295883179, "Quantum sensing navigation": 0.6724663376808167, "Quantum sensing Position": 0.6477227210998535, "Quantum sensing Timing": 0.6531389951705933, "Quantum sensing": 0.7052444219589233, "Quantum control": 0.6756569147109985 } }, { "id": 6043, "title": "Photon Walk in Transparent Wood: Scattering and Absorption in Hierarchically Structured Materials", "abstract": "The optical response of hierarchical materials is convoluted, which hinders their direct study and property control. Transparent wood (TW) is an emerging biocomposite in this category, which adds opti...", "citations": 35, "author_count": 7, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6050, "doi": "10.1002/adom.202102732", "umap_coordinates": { "x": 394.0122985839844, "y": 136.25099182128906, "z": 204.10861206054688 }, "tsne_coordinates": { "x": 19.116058349609375, "y": 35.24592590332031, "z": -4.003360748291016 }, "pca_coordinates": { "x": -0.7650260925292969, "y": -0.6415355205535889, "z": -0.5900599360466003 }, "axis_scores": { "Quantum imaging": 0.716606080532074, "Quantum Life Science Sensing": 0.7283816337585449, "Quantum sensing Detection": 0.6888018846511841, "Quantum sensing Metrology": 0.6973541975021362, "Quantum sensing navigation": 0.7212794423103333, "Quantum sensing Position": 0.6740955114364624, "Quantum sensing Timing": 0.6533817648887634, "Quantum sensing": 0.714400053024292, "Quantum control": 0.6665792465209961 } }, { "id": 6044, "title": "A FACILITY FOR BIOMEDICAL EXPERIMENTS WITH THERMAL-NEUTRONS", "abstract": "The Studsvik thermal-neutron facility was originally designed for neutron capture radiography (NCR) at high thermal-neutron fluence and low fast-neutron contamination. It has now been modified to perm...", "citations": 3, "author_count": 5, "categories": [ "Engineering" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6051, "doi": "10.1088/0031-9155/38/8/006", "umap_coordinates": { "x": 395.7609558105469, "y": 133.99476623535156, "z": 205.15895080566406 }, "tsne_coordinates": { "x": 3.87853741645813, "y": 22.728286743164062, "z": -26.0720157623291 }, "pca_coordinates": { "x": -1.100511908531189, "y": 3.546355962753296, "z": 2.22818660736084 }, "axis_scores": { "Quantum imaging": 0.686217188835144, "Quantum Life Science Sensing": 0.6945509910583496, "Quantum sensing Detection": 0.6670689582824707, "Quantum sensing Metrology": 0.6667219996452332, "Quantum sensing navigation": 0.6664349436759949, "Quantum sensing Position": 0.6755111217498779, "Quantum sensing Timing": 0.6814587116241455, "Quantum sensing": 0.681090235710144, "Quantum control": 0.6351137161254883 } }, { "id": 6045, "title": "Systematic study on size and temporal dependence of micro-LED arrays for display applications", "abstract": "Micro-LEDs are one of the most promising candidates for next-generation displays, yet they are inconvenienced by the efficiency reduction induced by the sidewall defects when pursuing further scaled-d...", "citations": 14, "author_count": 12, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6052, "doi": "10.1364/PRJ.479593", "umap_coordinates": { "x": 392.9024963378906, "y": 134.00247192382812, "z": 206.3921661376953 }, "tsne_coordinates": { "x": 33.15385437011719, "y": -6.8780293464660645, "z": -6.621617317199707 }, "pca_coordinates": { "x": -3.5524911880493164, "y": -0.5710642337799072, "z": 1.3959434032440186 }, "axis_scores": { "Quantum imaging": 0.7154247760772705, "Quantum Life Science Sensing": 0.7256404757499695, "Quantum sensing Detection": 0.692021369934082, "Quantum sensing Metrology": 0.6898975372314453, "Quantum sensing navigation": 0.6727560758590698, "Quantum sensing Position": 0.7040096521377563, "Quantum sensing Timing": 0.7050353288650513, "Quantum sensing": 0.710162341594696, "Quantum control": 0.6947963237762451 } }, { "id": 6046, "title": "Collisional interferometry of levitons in quantum Hall edge channels at ν=2", "abstract": "We consider a Hong-Ou-Mandel interferometer for Lorentzian voltage pulses applied to quantum Hall edge channels at filling factor nu = 2. Due to interedge interactions, the injected electronic wave pa...", "citations": 18, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6053, "doi": "10.1103/PhysRevB.101.245310", "umap_coordinates": { "x": 395.1285705566406, "y": 135.7745819091797, "z": 208.81362915039062 }, "tsne_coordinates": { "x": -11.375787734985352, "y": -34.400569915771484, "z": 8.300533294677734 }, "pca_coordinates": { "x": 5.442293643951416, "y": 0.4000213146209717, "z": 0.5374283194541931 }, "axis_scores": { "Quantum imaging": 0.7228630781173706, "Quantum Life Science Sensing": 0.7076627016067505, "Quantum sensing Detection": 0.7350309491157532, "Quantum sensing Metrology": 0.7149186134338379, "Quantum sensing navigation": 0.7148281335830688, "Quantum sensing Position": 0.7090922594070435, "Quantum sensing Timing": 0.7078731656074524, "Quantum sensing": 0.7269651889801025, "Quantum control": 0.6946907639503479 } }, { "id": 6047, "title": "Unveiling and controlling the electronic structure of oxidized semiconductor surfaces: Crystalline oxidized InSb(100)(1 x 2)-O", "abstract": "The exothermic nature of oxidation causes nearly all semiconductor applications in various fields like electronics, medicine, photonics, and sensor technology to acquire an oxidized semiconductor surf...", "citations": 12, "author_count": 15, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6054, "doi": "10.1103/PhysRevB.90.045312", "umap_coordinates": { "x": 393.3233947753906, "y": 135.46055603027344, "z": 208.124267578125 }, "tsne_coordinates": { "x": 12.58854866027832, "y": -40.92551803588867, "z": 5.646245956420898 }, "pca_coordinates": { "x": 1.7588529586791992, "y": -2.396284580230713, "z": -1.7356724739074707 }, "axis_scores": { "Quantum imaging": 0.71675044298172, "Quantum Life Science Sensing": 0.744656503200531, "Quantum sensing Detection": 0.7057915925979614, "Quantum sensing Metrology": 0.7027167677879333, "Quantum sensing navigation": 0.7050504088401794, "Quantum sensing Position": 0.6692456603050232, "Quantum sensing Timing": 0.647171676158905, "Quantum sensing": 0.7225187420845032, "Quantum control": 0.6986657977104187 } }, { "id": 6048, "title": "Synthesis and structural characterization of perovskite type proton conducting BaZr1-xInxO3-δ (0.0≤x≤0.75)", "abstract": "Solid state sintering has been used to prepare the cubic perovskite structured compounds BaZr1-xInxO3-delta (0.0 <= x <= 0.75). Analysis of X-ray powder diffraction (XRPD) data reveals that the unit c...", "citations": 75, "author_count": 12, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6055, "doi": "10.1016/j.ssi.2006.07.009", "umap_coordinates": { "x": 394.1679382324219, "y": 135.4951934814453, "z": 204.62646484375 }, "tsne_coordinates": { "x": 16.006488800048828, "y": 7.182161808013916, "z": 20.863985061645508 }, "pca_coordinates": { "x": -2.355499744415283, "y": -0.35976672172546387, "z": -1.112736463546753 }, "axis_scores": { "Quantum imaging": 0.7096356749534607, "Quantum Life Science Sensing": 0.7282291650772095, "Quantum sensing Detection": 0.6982712745666504, "Quantum sensing Metrology": 0.6927900910377502, "Quantum sensing navigation": 0.6935907006263733, "Quantum sensing Position": 0.7095648050308228, "Quantum sensing Timing": 0.698106586933136, "Quantum sensing": 0.7218674421310425, "Quantum control": 0.6808487176895142 } }, { "id": 6049, "title": "SPECT Molecular Imaging in Familial Parkinson's Disease", "abstract": "Dopamine transporter (DAT) imaging with single-photon emission computed tomography (SPECT) is a diagnostic tool to study the integrity of the dopaminergic system in patients with parkinsonism and unce...", "citations": 3, "author_count": 3, "categories": [ "Neurosciences & Neurology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6056, "doi": "10.1016/bs.irn.2018.09.004", "umap_coordinates": { "x": 394.8848571777344, "y": 134.13201904296875, "z": 204.55810546875 }, "tsne_coordinates": { "x": -3.3356850147247314, "y": 26.068225860595703, "z": 3.0738351345062256 }, "pca_coordinates": { "x": -3.803548812866211, "y": 0.5728907585144043, "z": -0.4095902442932129 }, "axis_scores": { "Quantum imaging": 0.736850917339325, "Quantum Life Science Sensing": 0.7006470561027527, "Quantum sensing Detection": 0.6954120397567749, "Quantum sensing Metrology": 0.6714165806770325, "Quantum sensing navigation": 0.7093932628631592, "Quantum sensing Position": 0.7039454579353333, "Quantum sensing Timing": 0.676861047744751, "Quantum sensing": 0.6974512934684753, "Quantum control": 0.6775606870651245 } }, { "id": 6050, "title": "Quantum Bayesian perspective for intelligence reservoir characterization, monitoring and management", "abstract": "The paper starts with a brief review of the literature about uncertainty in geological, geophysical and petrophysical data. In particular, we present the viewpoints of experts in geophysics on the app...", "citations": 6, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6057, "doi": "10.1098/rsta.2016.0398", "umap_coordinates": { "x": 395.1175842285156, "y": 136.96624755859375, "z": 205.82940673828125 }, "tsne_coordinates": { "x": -29.0146427154541, "y": 12.833778381347656, "z": 13.169212341308594 }, "pca_coordinates": { "x": -0.41154688596725464, "y": 3.085569381713867, "z": -0.4214377999305725 }, "axis_scores": { "Quantum imaging": 0.7865154147148132, "Quantum Life Science Sensing": 0.7943458557128906, "Quantum sensing Detection": 0.7798761129379272, "Quantum sensing Metrology": 0.7765988111495972, "Quantum sensing navigation": 0.791637122631073, "Quantum sensing Position": 0.7669928073883057, "Quantum sensing Timing": 0.7531219720840454, "Quantum sensing": 0.791720986366272, "Quantum control": 0.7568356394767761 } }, { "id": 6051, "title": "Impact of the Epoch of Reionization sources on the 21-cm bispectrum", "abstract": "The morphology of the 21-cm signal emitted by the neutral hydrogen present in the intergalactic medium (IGM) during the Epoch of Reionization (EoR) depends both on the properties of the sources of ion...", "citations": 6, "author_count": 9, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6058, "doi": "10.1088/1475-7516/2024/10/003", "umap_coordinates": { "x": 395.63482666015625, "y": 135.36830139160156, "z": 205.34547424316406 }, "tsne_coordinates": { "x": -31.807113647460938, "y": 22.074535369873047, "z": 6.364772796630859 }, "pca_coordinates": { "x": -2.639958381652832, "y": 3.452681541442871, "z": -0.9626280665397644 }, "axis_scores": { "Quantum imaging": 0.6520982384681702, "Quantum Life Science Sensing": 0.6923064589500427, "Quantum sensing Detection": 0.6488355994224548, "Quantum sensing Metrology": 0.6420697569847107, "Quantum sensing navigation": 0.643215537071228, "Quantum sensing Position": 0.6583665609359741, "Quantum sensing Timing": 0.6853451728820801, "Quantum sensing": 0.6577685475349426, "Quantum control": 0.6391859650611877 } }, { "id": 6052, "title": "Nanofiber-Structured TiO2 Nanocrystals as a Scattering Layer in Dye-Sensitized Solar Cells", "abstract": "We developed a scattering layer composed of TiO2 nanocrystals assembled into a densely packed three-dimensional network of nanofibers to localize light within a photoanode used in dye sensitized solar...", "citations": 9, "author_count": 9, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6059, "doi": "10.1149/2.0181704jss", "umap_coordinates": { "x": 392.8024597167969, "y": 133.84449768066406, "z": 206.24232482910156 }, "tsne_coordinates": { "x": 33.448036193847656, "y": 6.074944496154785, "z": -5.267621040344238 }, "pca_coordinates": { "x": -2.442866802215576, "y": -3.412602424621582, "z": 0.10800302028656006 }, "axis_scores": { "Quantum imaging": 0.7070623636245728, "Quantum Life Science Sensing": 0.7343307137489319, "Quantum sensing Detection": 0.7039419412612915, "Quantum sensing Metrology": 0.699921727180481, "Quantum sensing navigation": 0.6950475573539734, "Quantum sensing Position": 0.6806076765060425, "Quantum sensing Timing": 0.6656039357185364, "Quantum sensing": 0.7212259769439697, "Quantum control": 0.6984606385231018 } }, { "id": 6053, "title": "Vacuum-sealed silicon photonic MEMS tunable ring resonator with an independent control over coupling and phase", "abstract": "Ring resonators are a vital element for filters, optical delay lines, or sensors in silicon photonics. However, reconfigurable ring resonators with low-power consumption are not available in foundries...", "citations": 11, "author_count": 15, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6060, "doi": "10.1364/OE.480219", "umap_coordinates": { "x": 394.3031921386719, "y": 134.32955932617188, "z": 206.4784698486328 }, "tsne_coordinates": { "x": -3.102839231491089, "y": -12.268583297729492, "z": -36.53696823120117 }, "pca_coordinates": { "x": -0.7231633067131042, "y": 0.35332250595092773, "z": 2.648158550262451 }, "axis_scores": { "Quantum imaging": 0.7019264698028564, "Quantum Life Science Sensing": 0.7122477293014526, "Quantum sensing Detection": 0.6967692971229553, "Quantum sensing Metrology": 0.712190568447113, "Quantum sensing navigation": 0.697107195854187, "Quantum sensing Position": 0.6826282143592834, "Quantum sensing Timing": 0.6795397400856018, "Quantum sensing": 0.7154026031494141, "Quantum control": 0.691042423248291 } }, { "id": 6054, "title": "ReaxFF Simulations of Lignin Fragmentation on a Palladium-Based Heterogeneous Catalyst in Methanol-Water Solution", "abstract": "The interaction of fragments derived from lignin depolymerization with a heterogeneous palladium catalyst in methanol-water solution is studied by means of experimental and theoretical methodologies. ...", "citations": 17, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6061, "doi": "10.1021/acs.jpclett.8b02275", "umap_coordinates": { "x": 392.9800720214844, "y": 136.9772491455078, "z": 205.22132873535156 }, "tsne_coordinates": { "x": 1.5151196718215942, "y": 10.194679260253906, "z": 22.39739227294922 }, "pca_coordinates": { "x": -1.544335126876831, "y": 1.429724931716919, "z": -3.2328364849090576 }, "axis_scores": { "Quantum imaging": 0.6712929010391235, "Quantum Life Science Sensing": 0.675178587436676, "Quantum sensing Detection": 0.6309170126914978, "Quantum sensing Metrology": 0.6093161702156067, "Quantum sensing navigation": 0.6305738687515259, "Quantum sensing Position": 0.6139546036720276, "Quantum sensing Timing": 0.6056685447692871, "Quantum sensing": 0.6457382440567017, "Quantum control": 0.6559106707572937 } }, { "id": 6055, "title": "High resolution X-ray photoelectron spectroscopy on nitrogen molecules", "abstract": "This paper summarizes recent developments for experimental and theoretical studies on core-level photoelectron spectroscopy of N-2. Analysis of experimental spectra reveals that the 1 sigma(g) and 1 s...", "citations": 19, "author_count": 6, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6062, "doi": "10.1140/epjst/e2009-00978-7", "umap_coordinates": { "x": 395.6546325683594, "y": 134.9034423828125, "z": 206.75030517578125 }, "tsne_coordinates": { "x": -25.40233039855957, "y": 9.707396507263184, "z": -1.4905728101730347 }, "pca_coordinates": { "x": -0.4477710723876953, "y": -0.23388981819152832, "z": 0.7411252856254578 }, "axis_scores": { "Quantum imaging": 0.7055180072784424, "Quantum Life Science Sensing": 0.7085179686546326, "Quantum sensing Detection": 0.6887273788452148, "Quantum sensing Metrology": 0.6620358824729919, "Quantum sensing navigation": 0.6899088025093079, "Quantum sensing Position": 0.6876852512359619, "Quantum sensing Timing": 0.6873513460159302, "Quantum sensing": 0.7016318440437317, "Quantum control": 0.6747696399688721 } }, { "id": 6056, "title": "Paradoxical redistribution of pulmonary blood flow in prone and supine humans exposed to hypergravity", "abstract": "Paradoxical redistribution of pulmonary blood flow in prone and supine humans exposed to hypergravity. J Appl Physiol 100: 240-248, 2006. First published September 8, 2005; doi:10.1152/japplphysiol.01...", "citations": 30, "author_count": 11, "categories": [ "Physiology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6063, "doi": "10.1152/japplphysiol.01430.2004", "umap_coordinates": { "x": 394.8822937011719, "y": 135.41415405273438, "z": 204.70762634277344 }, "tsne_coordinates": { "x": 2.5526442527770996, "y": 31.794103622436523, "z": -1.7264628410339355 }, "pca_coordinates": { "x": -0.281524658203125, "y": 3.96518611907959, "z": -0.9461355209350586 }, "axis_scores": { "Quantum imaging": 0.651800811290741, "Quantum Life Science Sensing": 0.6578810811042786, "Quantum sensing Detection": 0.6350008249282837, "Quantum sensing Metrology": 0.6330684423446655, "Quantum sensing navigation": 0.6383187174797058, "Quantum sensing Position": 0.6590359807014465, "Quantum sensing Timing": 0.6589357852935791, "Quantum sensing": 0.6472726464271545, "Quantum control": 0.6522631049156189 } }, { "id": 6057, "title": "Mini-EUSO Mission to Study Earth UV Emissions on board the ISS", "abstract": "Mini-EUSO is a telescope observing the Earth in the ultraviolet band from the International Space Station. It is a part of the JEM-EUSO program, paving the way to future larger missions, such as K-EUS...", "citations": 72, "author_count": 62, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6064, "doi": "10.3847/1538-4365/abd93d", "umap_coordinates": { "x": 395.3843994140625, "y": 134.5880126953125, "z": 206.0608367919922 }, "tsne_coordinates": { "x": -21.799074172973633, "y": 26.802064895629883, "z": -1.6589183807373047 }, "pca_coordinates": { "x": -2.0697202682495117, "y": 1.4003839492797852, "z": 1.3056159019470215 }, "axis_scores": { "Quantum imaging": 0.680926501750946, "Quantum Life Science Sensing": 0.7128910422325134, "Quantum sensing Detection": 0.6730863451957703, "Quantum sensing Metrology": 0.687881588935852, "Quantum sensing navigation": 0.6820929050445557, "Quantum sensing Position": 0.6490989923477173, "Quantum sensing Timing": 0.6371154189109802, "Quantum sensing": 0.6767750978469849, "Quantum control": 0.6530150175094604 } }, { "id": 6058, "title": "Novel laser-processed CsI:Tl detector for SPECT", "abstract": "Purpose: The aim of this work is to demonstrate the feasibility of a novel technique for fabrication of high spatial resolution CsI:Tl scintillation detectors for single photon emission computed tomog...", "citations": 32, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6065, "doi": "10.1118/1.4947294", "umap_coordinates": { "x": 395.23016357421875, "y": 132.64126586914062, "z": 205.87583923339844 }, "tsne_coordinates": { "x": -13.154419898986816, "y": 17.256967544555664, "z": -23.704307556152344 }, "pca_coordinates": { "x": -3.068057060241699, "y": 0.9839165210723877, "z": 4.24541711807251 }, "axis_scores": { "Quantum imaging": 0.729756772518158, "Quantum Life Science Sensing": 0.6953707337379456, "Quantum sensing Detection": 0.7156757116317749, "Quantum sensing Metrology": 0.7018933296203613, "Quantum sensing navigation": 0.6926192045211792, "Quantum sensing Position": 0.6778359413146973, "Quantum sensing Timing": 0.6964631676673889, "Quantum sensing": 0.7142494916915894, "Quantum control": 0.6604775190353394 } }, { "id": 6059, "title": "The XMM Cluster Survey: X-ray analysis methodology", "abstract": "The XMM Cluster Survey (XCS) is a serendipitous search for galaxy clusters using all publicly available data in the XMMNewton Science Archive. Its main aims are to measure cosmological parameters and ...", "citations": 71, "author_count": 24, "categories": [ "Astronomy & Astrophysics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6066, "doi": "10.1111/j.1365-2966.2011.19117.x", "umap_coordinates": { "x": 395.5960693359375, "y": 134.68141174316406, "z": 204.99961853027344 }, "tsne_coordinates": { "x": -16.911720275878906, "y": 27.16534996032715, "z": -7.365012168884277 }, "pca_coordinates": { "x": -2.347663640975952, "y": 3.147873878479004, "z": 0.20526909828186035 }, "axis_scores": { "Quantum imaging": 0.6789424419403076, "Quantum Life Science Sensing": 0.6947162747383118, "Quantum sensing Detection": 0.6822915077209473, "Quantum sensing Metrology": 0.6970432996749878, "Quantum sensing navigation": 0.6774666905403137, "Quantum sensing Position": 0.6713478565216064, "Quantum sensing Timing": 0.6761369109153748, "Quantum sensing": 0.6950994729995728, "Quantum control": 0.6741828918457031 } }, { "id": 6060, "title": "Nonlinear optical properties of polycrystalline silicon core fibers from telecom wavelengths into the mid-infrared spectral region", "abstract": "Polycrystalline silicon core fibers (SCFs) fabricated via the molten core drawing (MCD) method are emerging as a flexible optoelectronic platform. Here, the optical transmission properties of MCD SCFs...", "citations": 31, "author_count": 9, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6067, "doi": "10.1364/OME.9.001271", "umap_coordinates": { "x": 393.904541015625, "y": 134.10968017578125, "z": 206.30062866210938 }, "tsne_coordinates": { "x": -0.9276795387268066, "y": -10.697725296020508, "z": -29.67363739013672 }, "pca_coordinates": { "x": -0.796363115310669, "y": -0.14890456199645996, "z": 1.7701997756958008 }, "axis_scores": { "Quantum imaging": 0.7340553402900696, "Quantum Life Science Sensing": 0.7445216774940491, "Quantum sensing Detection": 0.7107864618301392, "Quantum sensing Metrology": 0.7223201394081116, "Quantum sensing navigation": 0.6987695693969727, "Quantum sensing Position": 0.6857797503471375, "Quantum sensing Timing": 0.6727408766746521, "Quantum sensing": 0.7277351021766663, "Quantum control": 0.6723619699478149 } }, { "id": 6061, "title": "Ks0Ks0 correlations in pp collisions at √s=7 TeV from the LHC ALICE experiment", "abstract": "Identical neutral kaon pair correlations are measured in root s = 7 TeV pp collisions in the ALICE experiment. One-dimensional (KsKs0)-K-0 correlation functions in terms of the invariant momentum diff...", "citations": 29, "author_count": 990, "categories": [ "Astronomy & Astrophysics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6068, "doi": "10.1016/j.physletb.2012.09.013", "umap_coordinates": { "x": 396.9823913574219, "y": 134.52281188964844, "z": 207.6280975341797 }, "tsne_coordinates": { "x": -34.92544937133789, "y": 5.090764999389648, "z": -10.079562187194824 }, "pca_coordinates": { "x": 2.1161975860595703, "y": 1.6256365776062012, "z": 0.8830072283744812 }, "axis_scores": { "Quantum imaging": 0.6783742904663086, "Quantum Life Science Sensing": 0.6786350011825562, "Quantum sensing Detection": 0.6851642727851868, "Quantum sensing Metrology": 0.658607006072998, "Quantum sensing navigation": 0.6919698119163513, "Quantum sensing Position": 0.7055427432060242, "Quantum sensing Timing": 0.7172243595123291, "Quantum sensing": 0.6911467909812927, "Quantum control": 0.639533281326294 } }, { "id": 6062, "title": "Interface core-level shifts as a probe of embedded thin-film quality", "abstract": "We use first-principles calculations of layer-resolved core-level binding energy shifts (CLSs) within density functional theory as away to characterize the interface quality and thickness in embedded ...", "citations": 3, "author_count": 6, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6069, "doi": "10.1103/PhysRevB.84.085431", "umap_coordinates": { "x": 393.8505859375, "y": 135.78636169433594, "z": 208.65135192871094 }, "tsne_coordinates": { "x": 0.40787944197654724, "y": -43.46620178222656, "z": -2.207005500793457 }, "pca_coordinates": { "x": 2.5056228637695312, "y": -1.6129364967346191, "z": -1.1257964372634888 }, "axis_scores": { "Quantum imaging": 0.7327423095703125, "Quantum Life Science Sensing": 0.7372017502784729, "Quantum sensing Detection": 0.7209573984146118, "Quantum sensing Metrology": 0.699988067150116, "Quantum sensing navigation": 0.7143874764442444, "Quantum sensing Position": 0.7259095907211304, "Quantum sensing Timing": 0.6784738302230835, "Quantum sensing": 0.729496419429779, "Quantum control": 0.6935795545578003 } }, { "id": 6063, "title": "Test of Lepton Universality and Measurement of the Form Factors of D0 → K*(892)- μ+νμ", "abstract": "One of the main goals of studying semileptonic decays in flavor physics is to gain a better understanding of hadronic transitions in the nonperturbative region of Quantum Chromodynamics. This involves...", "citations": 8, "author_count": 664, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6070, "doi": "10.1103/PhysRevLett.134.011803", "umap_coordinates": { "x": 396.015869140625, "y": 136.05845642089844, "z": 207.68507385253906 }, "tsne_coordinates": { "x": -30.464046478271484, "y": -12.17828369140625, "z": 3.124056816101074 }, "pca_coordinates": { "x": 2.9484567642211914, "y": 2.886359691619873, "z": 0.6752752661705017 }, "axis_scores": { "Quantum imaging": 0.6757000088691711, "Quantum Life Science Sensing": 0.7102605104446411, "Quantum sensing Detection": 0.6929462552070618, "Quantum sensing Metrology": 0.6952120065689087, "Quantum sensing navigation": 0.682554304599762, "Quantum sensing Position": 0.6535518765449524, "Quantum sensing Timing": 0.6563899517059326, "Quantum sensing": 0.6899429559707642, "Quantum control": 0.6619765162467957 } }, { "id": 6064, "title": "High-resolution spectroscopic techniques for studying rare-earth ions in nanoparticles", "abstract": "Rare-earth doped nanoparticles can exhibit narrow optical and spin linewidths at low temperatures. These outstanding properties for nanomaterials make them attractive for quantum technologies based on...", "citations": 2, "author_count": 11, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6071, "doi": "10.1016/j.jlumin.2023.119743", "umap_coordinates": { "x": 393.7087707519531, "y": 133.9171905517578, "z": 205.2261962890625 }, "tsne_coordinates": { "x": 16.625097274780273, "y": 15.4358549118042, "z": -14.909112930297852 }, "pca_coordinates": { "x": -3.671175718307495, "y": -1.7203240394592285, "z": -1.2820205688476562 }, "axis_scores": { "Quantum imaging": 0.7250735759735107, "Quantum Life Science Sensing": 0.7600516080856323, "Quantum sensing Detection": 0.7119945287704468, "Quantum sensing Metrology": 0.7125320434570312, "Quantum sensing navigation": 0.7028031349182129, "Quantum sensing Position": 0.6942893266677856, "Quantum sensing Timing": 0.6741456985473633, "Quantum sensing": 0.7237794399261475, "Quantum control": 0.6562055349349976 } }, { "id": 6065, "title": "Ultrafast Processes in Graphene: From Fundamental Manybody Interactions to Device Applications", "abstract": "A joint experiment-theory investigation of the carrier dynamics in graphene, in particular in the energetic vicinity of the Dirac point, is reviewed. Radiation of low photon energy is employed in orde...", "citations": 13, "author_count": 9, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6072, "doi": "10.1002/andp.201700022", "umap_coordinates": { "x": 393.4841613769531, "y": 135.28643798828125, "z": 206.61338806152344 }, "tsne_coordinates": { "x": 8.054193496704102, "y": -6.164587497711182, "z": 2.2354576587677 }, "pca_coordinates": { "x": 1.273989200592041, "y": -1.3311443328857422, "z": -0.4051526188850403 }, "axis_scores": { "Quantum imaging": 0.7519471049308777, "Quantum Life Science Sensing": 0.772678792476654, "Quantum sensing Detection": 0.7462400794029236, "Quantum sensing Metrology": 0.7332228422164917, "Quantum sensing navigation": 0.7316598296165466, "Quantum sensing Position": 0.7078500390052795, "Quantum sensing Timing": 0.7140552401542664, "Quantum sensing": 0.7612295150756836, "Quantum control": 0.7324538230895996 } }, { "id": 6066, "title": "High speed optical modulation in Ge quantum wells using quantum confined stark effect", "abstract": "We focus on the optimization of SiGe material deposition, the minimization of the parasitic capacitance of the probe pads for high speed, low voltage and high contrast ratio operation. The device fabr...", "citations": 3, "author_count": 12, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6073, "doi": "10.1007/s12200-012-0194-9", "umap_coordinates": { "x": 393.6564636230469, "y": 135.1665496826172, "z": 206.89520263671875 }, "tsne_coordinates": { "x": 17.150646209716797, "y": 2.417980670928955, "z": 17.347063064575195 }, "pca_coordinates": { "x": 0.6450772285461426, "y": -0.5394642353057861, "z": 1.053288459777832 }, "axis_scores": { "Quantum imaging": 0.7138772010803223, "Quantum Life Science Sensing": 0.7038825750350952, "Quantum sensing Detection": 0.7059146761894226, "Quantum sensing Metrology": 0.7010741829872131, "Quantum sensing navigation": 0.7314726710319519, "Quantum sensing Position": 0.7048758864402771, "Quantum sensing Timing": 0.7079991102218628, "Quantum sensing": 0.7140634059906006, "Quantum control": 0.704352855682373 } }, { "id": 6067, "title": "Probing quantum criticality using nonlinear Hall effect in a metallic Dirac system", "abstract": "Interaction-driven symmetry breaking in a metallic (doped) Dirac system can manifest in the spontaneous gap generation at the nodal point buried below the Fermi level. Across this transition linear co...", "citations": 50, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6074, "doi": "10.1103/PhysRevResearch.2.013069", "umap_coordinates": { "x": 394.8475341796875, "y": 135.99098205566406, "z": 208.80596923828125 }, "tsne_coordinates": { "x": -13.191303253173828, "y": -30.634685516357422, "z": 10.61551284790039 }, "pca_coordinates": { "x": 3.8965506553649902, "y": 0.11523675918579102, "z": 0.07306116819381714 }, "axis_scores": { "Quantum imaging": 0.7329709529876709, "Quantum Life Science Sensing": 0.7693378925323486, "Quantum sensing Detection": 0.7434986233711243, "Quantum sensing Metrology": 0.7306939363479614, "Quantum sensing navigation": 0.7568525671958923, "Quantum sensing Position": 0.7246807813644409, "Quantum sensing Timing": 0.6970128417015076, "Quantum sensing": 0.7476747632026672, "Quantum control": 0.6975143551826477 } }, { "id": 6068, "title": "Assessments of the physical performance of 2 generations of 2 direct digital intraoral sensors", "abstract": "Objective. To evaluate the performance of 4 intraoral direct digital sensors regarding their fundamental physical characteristics. The sensors are made by Schick Technologies Inc (Long Island City, NY...", "citations": 15, "author_count": 4, "categories": [ "Dentistry", "Oral Surgery & Medicine" ], "year": 1999, "topic": [ "all" ], "embedding_index": 6075, "doi": "10.1016/S1079-2104(99)70073-9", "umap_coordinates": { "x": 394.8058166503906, "y": 133.5857391357422, "z": 205.01498413085938 }, "tsne_coordinates": { "x": 0.8556183576583862, "y": 29.682559967041016, "z": -21.749290466308594 }, "pca_coordinates": { "x": -3.396379232406616, "y": 2.5445969104766846, "z": 1.8794727325439453 }, "axis_scores": { "Quantum imaging": 0.6611682772636414, "Quantum Life Science Sensing": 0.6972750425338745, "Quantum sensing Detection": 0.6629761457443237, "Quantum sensing Metrology": 0.6769707202911377, "Quantum sensing navigation": 0.6512250900268555, "Quantum sensing Position": 0.6802710294723511, "Quantum sensing Timing": 0.6457929611206055, "Quantum sensing": 0.677910327911377, "Quantum control": 0.6104167699813843 } }, { "id": 6069, "title": "A MONTE-CARLO PROGRAM FOR THE CALCULATION OF CONTRAST, NOISE AND ABSORBED DOSE IN DIAGNOSTIC-RADIOLOGY", "abstract": "A Monte Carlo computer program has been developed for the simulation of X-ray photon transport in diagnostic X-ray examinations. The simulation takes account of the incident photon energy spectrum and...", "citations": 55, "author_count": 5, "categories": [ "Computer Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6076, "doi": "10.1016/0169-2607(94)90127-9", "umap_coordinates": { "x": 395.33575439453125, "y": 132.72235107421875, "z": 205.02786254882812 }, "tsne_coordinates": { "x": -11.763850212097168, "y": 22.609603881835938, "z": -10.680957794189453 }, "pca_coordinates": { "x": -2.658137798309326, "y": 3.9079384803771973, "z": 3.0042808055877686 }, "axis_scores": { "Quantum imaging": 0.7135629057884216, "Quantum Life Science Sensing": 0.6933366060256958, "Quantum sensing Detection": 0.6965281963348389, "Quantum sensing Metrology": 0.6813248991966248, "Quantum sensing navigation": 0.690504252910614, "Quantum sensing Position": 0.6589796543121338, "Quantum sensing Timing": 0.6723370552062988, "Quantum sensing": 0.6889044642448425, "Quantum control": 0.6522971391677856 } }, { "id": 6070, "title": "Inclusive photon production at forward rapidities in proton-proton collisions at √s=0.9, 2.76 and 7 TeV", "abstract": "The multiplicity and pseudorapidity distributions of inclusive photons have been measured at forward rapidities (2.3 < eta < 3.9) in proton-proton collisions at three center-of-mass energies, root s =...", "citations": 16, "author_count": 963, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6077, "doi": "10.1140/epjc/s10052-015-3356-2", "umap_coordinates": { "x": 396.4876708984375, "y": 134.4855194091797, "z": 207.0987548828125 }, "tsne_coordinates": { "x": -29.37828254699707, "y": 10.571205139160156, "z": -4.463387489318848 }, "pca_coordinates": { "x": -0.668741762638092, "y": 0.960512638092041, "z": 2.3553051948547363 }, "axis_scores": { "Quantum imaging": 0.6892508864402771, "Quantum Life Science Sensing": 0.6776212453842163, "Quantum sensing Detection": 0.6782035827636719, "Quantum sensing Metrology": 0.6655539870262146, "Quantum sensing navigation": 0.6782852411270142, "Quantum sensing Position": 0.6834639310836792, "Quantum sensing Timing": 0.7054226398468018, "Quantum sensing": 0.6809937953948975, "Quantum control": 0.6535117626190186 } }, { "id": 6071, "title": "Measurement of the differential cross section for the two-body photodisintegration of 3He at θLAB=90° using tagged photons in the energy range 14-31 MeV", "abstract": "The two-body photodisintegration of He-3 has been investigated using tagged photons with energies from 14-31 MeV at MAX-lab in Lund, Sweden. The two-body breakup channel was unambiguously identified b...", "citations": 1, "author_count": 26, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6078, "doi": "10.1103/PhysRevC.80.044001", "umap_coordinates": { "x": 396.3308410644531, "y": 134.72128295898438, "z": 207.5599365234375 }, "tsne_coordinates": { "x": -26.62272834777832, "y": 6.185610294342041, "z": -17.239824295043945 }, "pca_coordinates": { "x": 1.589026927947998, "y": 0.5222342014312744, "z": 1.9185895919799805 }, "axis_scores": { "Quantum imaging": 0.7026727199554443, "Quantum Life Science Sensing": 0.7280676960945129, "Quantum sensing Detection": 0.7125419974327087, "Quantum sensing Metrology": 0.6942185759544373, "Quantum sensing navigation": 0.6981588006019592, "Quantum sensing Position": 0.7001291513442993, "Quantum sensing Timing": 0.6939376592636108, "Quantum sensing": 0.711547315120697, "Quantum control": 0.6644176840782166 } }, { "id": 6072, "title": "Enhancing Cybersecurity for LDACS: a Secure and Lightweight Mutual Authentication and Key Agreement Protocol", "abstract": "The aviation industry faces significant challenges due to rising global air travel demand. Frequency saturation in Air Traffic Management (ATM) leads to communication problems, necessitating the enhan...", "citations": 6, "author_count": 7, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6079, "doi": "10.1109/DASC58513.2023.10311307", "umap_coordinates": { "x": 394.9020690917969, "y": 134.71621704101562, "z": 206.0643310546875 }, "tsne_coordinates": { "x": -0.5285980701446533, "y": 4.609954357147217, "z": -40.93323516845703 }, "pca_coordinates": { "x": -0.7060917615890503, "y": 1.1066067218780518, "z": 0.6250805258750916 }, "axis_scores": { "Quantum imaging": 0.6581661105155945, "Quantum Life Science Sensing": 0.6694931387901306, "Quantum sensing Detection": 0.6538580656051636, "Quantum sensing Metrology": 0.6575635671615601, "Quantum sensing navigation": 0.6455071568489075, "Quantum sensing Position": 0.6259948015213013, "Quantum sensing Timing": 0.6409510374069214, "Quantum sensing": 0.6705726981163025, "Quantum control": 0.6818814277648926 } }, { "id": 6073, "title": "Dual-Wavelength Pumped Highly Birefringent Microstructured Silica Fiber for Widely Tunable Soliton Self-Frequency Shift", "abstract": "We report the design of a microstructured silica-based fiber for widely tunable soliton self-frequency shift, suitable for pumping with two most common fiber laser wavelengths: 1.04 and 1.55 mu m. Dep...", "citations": 10, "author_count": 12, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6080, "doi": "10.1109/JLT.2021.3057657", "umap_coordinates": { "x": 394.25335693359375, "y": 133.82034301757812, "z": 206.55679321289062 }, "tsne_coordinates": { "x": 0.8770532011985779, "y": -0.9754566550254822, "z": -37.86650848388672 }, "pca_coordinates": { "x": -1.5056010484695435, "y": -1.448258399963379, "z": 1.024207353591919 }, "axis_scores": { "Quantum imaging": 0.6788610816001892, "Quantum Life Science Sensing": 0.7120349407196045, "Quantum sensing Detection": 0.6829509735107422, "Quantum sensing Metrology": 0.6992281675338745, "Quantum sensing navigation": 0.6831676959991455, "Quantum sensing Position": 0.6690581440925598, "Quantum sensing Timing": 0.6781121492385864, "Quantum sensing": 0.6997407078742981, "Quantum control": 0.6779428124427795 } }, { "id": 6074, "title": "Fluorescent high-density labeling of DNA:: error-free substitution for a normal nucleotide", "abstract": "The enzymatic incorporation of deoxyribonucleoside triphosphates by a thermostable, 3' --> 5' exonuclease deficient mutant of the Tgo DNA polymerase was studied for PCR-based high-density labeling of ...", "citations": 52, "author_count": 5, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6081, "doi": "10.1016/S0168-1656(00)00416-8", "umap_coordinates": { "x": 393.5819396972656, "y": 136.0735626220703, "z": 204.74754333496094 }, "tsne_coordinates": { "x": -10.276036262512207, "y": 20.131574630737305, "z": 1.299232006072998 }, "pca_coordinates": { "x": -1.8120505809783936, "y": 0.6284551620483398, "z": 0.9003698229789734 }, "axis_scores": { "Quantum imaging": 0.7089488506317139, "Quantum Life Science Sensing": 0.7096483707427979, "Quantum sensing Detection": 0.701906681060791, "Quantum sensing Metrology": 0.702084481716156, "Quantum sensing navigation": 0.734395444393158, "Quantum sensing Position": 0.7143654227256775, "Quantum sensing Timing": 0.687581479549408, "Quantum sensing": 0.7082244157791138, "Quantum control": 0.6858780980110168 } }, { "id": 6075, "title": "Spectroscopic time-resolved diffuse reflectance and transmittance measurements of the female breast at different interfiber distances", "abstract": "The first, to our knowledge, in-vivo broadband spectro-scopic characterization of breast tissue using different interfiber distances as well as transmittance measurements is presented. Absorption and ...", "citations": 98, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6082, "doi": "10.1117/1.1802171", "umap_coordinates": { "x": 395.06121826171875, "y": 133.79010009765625, "z": 205.23464965820312 }, "tsne_coordinates": { "x": 0.5683980584144592, "y": 26.266645431518555, "z": -33.37902069091797 }, "pca_coordinates": { "x": -2.518629550933838, "y": 0.24245977401733398, "z": 2.1212897300720215 }, "axis_scores": { "Quantum imaging": 0.6640039086341858, "Quantum Life Science Sensing": 0.6863573789596558, "Quantum sensing Detection": 0.649354875087738, "Quantum sensing Metrology": 0.6697011590003967, "Quantum sensing navigation": 0.6317300796508789, "Quantum sensing Position": 0.6466646194458008, "Quantum sensing Timing": 0.6625128388404846, "Quantum sensing": 0.6690297722816467, "Quantum control": 0.5923630595207214 } }, { "id": 6076, "title": "Development of a Timepix based detector for the NanoXCT project", "abstract": "The NanoXCT EU FP7 project [1] aims at developing a laboratory, i.e. bench top sized X-ray nano-CT system with a large field-of-view (FOV) for non-destructive testing needs in the micro- and nano-tech...", "citations": 10, "author_count": 12, "categories": [ "Instruments & Instrumentation" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6083, "doi": "10.1088/1748-0221/10/11/C11009", "umap_coordinates": { "x": 395.5858459472656, "y": 133.9350128173828, "z": 205.79513549804688 }, "tsne_coordinates": { "x": -24.638612747192383, "y": 20.395767211914062, "z": -16.35640525817871 }, "pca_coordinates": { "x": -2.572122097015381, "y": 2.4136059284210205, "z": 2.2238306999206543 }, "axis_scores": { "Quantum imaging": 0.6801586151123047, "Quantum Life Science Sensing": 0.6798862814903259, "Quantum sensing Detection": 0.6727935671806335, "Quantum sensing Metrology": 0.6590079069137573, "Quantum sensing navigation": 0.6723220348358154, "Quantum sensing Position": 0.6809996366500854, "Quantum sensing Timing": 0.7434208989143372, "Quantum sensing": 0.6745689511299133, "Quantum control": 0.6753412485122681 } }, { "id": 6077, "title": "Review of radiation dose estimates in digital breast tomosynthesis relative to those in two-view full-field digital mammography", "abstract": "We examined how radiation dose levels in digital breast tomosynthesis (DBT) differ from those used in 2-view full-field digital mammography (FFDM). Acquisition parameter settings and information on th...", "citations": 207, "author_count": 5, "categories": [ "Oncology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6084, "doi": "10.1016/j.breast.2014.12.002", "umap_coordinates": { "x": 395.3720703125, "y": 132.6531219482422, "z": 204.90904235839844 }, "tsne_coordinates": { "x": -4.639979839324951, "y": 29.82427215576172, "z": -24.807750701904297 }, "pca_coordinates": { "x": -4.294192314147949, "y": 2.2442898750305176, "z": 1.4058759212493896 }, "axis_scores": { "Quantum imaging": 0.6769765019416809, "Quantum Life Science Sensing": 0.6674319505691528, "Quantum sensing Detection": 0.6580358743667603, "Quantum sensing Metrology": 0.6536819338798523, "Quantum sensing navigation": 0.6293818950653076, "Quantum sensing Position": 0.6497521996498108, "Quantum sensing Timing": 0.6503325700759888, "Quantum sensing": 0.6604580283164978, "Quantum control": 0.6033402681350708 } }, { "id": 6078, "title": "Cold atoms in space: community workshop summary and proposed road-map", "abstract": "We summarise the discussions at a virtual Community Workshop on Cold Atoms in Space concerning the status of cold atom technologies, the prospective scientific and societal opportunities offered by th...", "citations": 59, "author_count": 251, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6085, "doi": "10.1140/epjqt/s40507-022-00147-w", "umap_coordinates": { "x": 395.220458984375, "y": 135.91018676757812, "z": 206.1797332763672 }, "tsne_coordinates": { "x": -31.315202713012695, "y": 10.8252592086792, "z": 2.702883243560791 }, "pca_coordinates": { "x": 0.4777805805206299, "y": 2.557054281234741, "z": -1.4260194301605225 }, "axis_scores": { "Quantum imaging": 0.6970430612564087, "Quantum Life Science Sensing": 0.693193256855011, "Quantum sensing Detection": 0.6757779717445374, "Quantum sensing Metrology": 0.6782371997833252, "Quantum sensing navigation": 0.7181386351585388, "Quantum sensing Position": 0.7103143334388733, "Quantum sensing Timing": 0.6946446895599365, "Quantum sensing": 0.6841312050819397, "Quantum control": 0.7078967690467834 } }, { "id": 6079, "title": "A review of the current situation and prospects for nanofluids to improve solar still performance", "abstract": "Drinking water production has been thrust to the forefront of global issues as a direct result of the critical need for access to clean water and the expanding environmental difficulties. Solar stills...", "citations": 13, "author_count": 7, "categories": [ "Thermodynamics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6086, "doi": "10.1007/s10973-024-13465-1", "umap_coordinates": { "x": 393.659912109375, "y": 134.4168701171875, "z": 205.1869354248047 }, "tsne_coordinates": { "x": 29.59192657470703, "y": 12.66126823425293, "z": -9.675044059753418 }, "pca_coordinates": { "x": -2.8149142265319824, "y": 0.06653141975402832, "z": -1.3252012729644775 }, "axis_scores": { "Quantum imaging": 0.6568615436553955, "Quantum Life Science Sensing": 0.7086182832717896, "Quantum sensing Detection": 0.6273152232170105, "Quantum sensing Metrology": 0.65080726146698, "Quantum sensing navigation": 0.6718677282333374, "Quantum sensing Position": 0.6531791090965271, "Quantum sensing Timing": 0.6127845048904419, "Quantum sensing": 0.6481239795684814, "Quantum control": 0.6500822901725769 } }, { "id": 6080, "title": "Role of Electronic Curve Crossing of Benzene S1 State in the Photodissociation of Aryl Halides, Effect of Fluorination: RASSI-SO MS-CASPT2 Study", "abstract": "An ab initio study of the role of electronic curve crossing of benzene S-1 state in the photo dissociation dynamics of the iodobenzene and effect of fluorination is presented. Two dissociative life ti...", "citations": 11, "author_count": 5, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6087, "doi": "10.1002/qua.22033", "umap_coordinates": { "x": 392.79364013671875, "y": 135.88018798828125, "z": 205.07415771484375 }, "tsne_coordinates": { "x": 3.7830731868743896, "y": 12.185861587524414, "z": -10.862720489501953 }, "pca_coordinates": { "x": -1.9285928010940552, "y": 0.9293044805526733, "z": -1.9491910934448242 }, "axis_scores": { "Quantum imaging": 0.6958230137825012, "Quantum Life Science Sensing": 0.7386388778686523, "Quantum sensing Detection": 0.6995453834533691, "Quantum sensing Metrology": 0.6950912475585938, "Quantum sensing navigation": 0.6950454711914062, "Quantum sensing Position": 0.7105093598365784, "Quantum sensing Timing": 0.6935172080993652, "Quantum sensing": 0.7050994038581848, "Quantum control": 0.6938037276268005 } }, { "id": 6081, "title": "Correlated Photon Mapping for Interactive Global Illumination of Time-Varying Volumetric Data", "abstract": "We present a method for interactive global illumination of both static and time-varying volumetric data based on reduction of the overhead associated with re-computation of photon maps. Our method use...", "citations": 20, "author_count": 3, "categories": [ "Computer Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6088, "doi": "10.1109/TVCG.2016.2598430", "umap_coordinates": { "x": 395.2579040527344, "y": 133.25738525390625, "z": 205.83119201660156 }, "tsne_coordinates": { "x": -14.190084457397461, "y": 13.709650039672852, "z": -20.56416130065918 }, "pca_coordinates": { "x": -2.312326431274414, "y": 2.885284423828125, "z": 3.090338706970215 }, "axis_scores": { "Quantum imaging": 0.7556847929954529, "Quantum Life Science Sensing": 0.7021796703338623, "Quantum sensing Detection": 0.7107120156288147, "Quantum sensing Metrology": 0.7028449177742004, "Quantum sensing navigation": 0.7117910385131836, "Quantum sensing Position": 0.6755034327507019, "Quantum sensing Timing": 0.7399564981460571, "Quantum sensing": 0.7217618227005005, "Quantum control": 0.7007182836532593 } }, { "id": 6082, "title": "Measurement of the inclusive isolated prompt photon cross section in pp collisions at √s=8 TeV with the ATLAS detector", "abstract": "A measurement of the cross section for the inclusive production of isolated prompt photons in proton-proton collisions at a centre-of-mass energy of root s = 8 TeV is presented. The measurement covers...", "citations": 73, "author_count": 2664, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6089, "doi": "10.1007/JHEP08(2016)005", "umap_coordinates": { "x": 396.92352294921875, "y": 134.3013916015625, "z": 207.49913024902344 }, "tsne_coordinates": { "x": -32.35144805908203, "y": 10.177946090698242, "z": -11.153419494628906 }, "pca_coordinates": { "x": -1.0145041942596436, "y": 0.9539082050323486, "z": 3.8885583877563477 }, "axis_scores": { "Quantum imaging": 0.6856542229652405, "Quantum Life Science Sensing": 0.685128390789032, "Quantum sensing Detection": 0.6939271092414856, "Quantum sensing Metrology": 0.6584994196891785, "Quantum sensing navigation": 0.6525483131408691, "Quantum sensing Position": 0.6708723902702332, "Quantum sensing Timing": 0.6775194406509399, "Quantum sensing": 0.6894727945327759, "Quantum control": 0.6328606605529785 } }, { "id": 6083, "title": "Visualizations of transition dipoles, charge transfer, and electron-hole coherence on electronic state transitions between excited states for two-photon absorption", "abstract": "The one-photon absorption (OPA) properties of donor-pi-bridge-acceptor-pi-bridge-donor (D-pi-A-pi-D)-type 2,1,3-benzothiadiazoles (BTD) were studied with two dimensional (2D) site and three dimensiona...", "citations": 91, "author_count": 4, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6090, "doi": "10.1063/1.2829407", "umap_coordinates": { "x": 392.9231262207031, "y": 136.04534912109375, "z": 206.9129180908203 }, "tsne_coordinates": { "x": 1.6711128950119019, "y": -6.474537372589111, "z": 2.6125102043151855 }, "pca_coordinates": { "x": 0.6136884689331055, "y": -1.9446783065795898, "z": -0.8374435901641846 }, "axis_scores": { "Quantum imaging": 0.7187873125076294, "Quantum Life Science Sensing": 0.7169947624206543, "Quantum sensing Detection": 0.7048696279525757, "Quantum sensing Metrology": 0.6880586743354797, "Quantum sensing navigation": 0.6752901077270508, "Quantum sensing Position": 0.6484746336936951, "Quantum sensing Timing": 0.6737903356552124, "Quantum sensing": 0.7103757262229919, "Quantum control": 0.6837053298950195 } }, { "id": 6084, "title": "Rear Optical Reflection and Passivation Using a Nanopatterned Metal/Dielectric Structure in Thin-Film Solar Cells", "abstract": "Currently, one of the main limitations in ultrathin Cu(In,Ga)Se-2 (CIGS) solar cells are the optical losses, since the absorber layer is thinner than the light optical path. Hence, light management, i...", "citations": 28, "author_count": 15, "categories": [ "Energy & Fuels" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6091, "doi": "10.1109/JPHOTOV.2019.2922323", "umap_coordinates": { "x": 393.94183349609375, "y": 133.52032470703125, "z": 206.42579650878906 }, "tsne_coordinates": { "x": 9.834674835205078, "y": -2.1689960956573486, "z": -35.33454132080078 }, "pca_coordinates": { "x": -0.7380051016807556, "y": -1.6501460075378418, "z": 2.4294662475585938 }, "axis_scores": { "Quantum imaging": 0.7072583436965942, "Quantum Life Science Sensing": 0.735074520111084, "Quantum sensing Detection": 0.7084053158760071, "Quantum sensing Metrology": 0.7027122378349304, "Quantum sensing navigation": 0.706866979598999, "Quantum sensing Position": 0.6910969018936157, "Quantum sensing Timing": 0.6685680747032166, "Quantum sensing": 0.7115427255630493, "Quantum control": 0.6656114459037781 } }, { "id": 6085, "title": "HelioScan: A software framework for controlling in vivo microscopy setups with high hardware flexibility, functional diversity and extendibility", "abstract": "Intravital microscopy such as in vivo imaging of brain dynamics is often performed with custom-built microscope setups controlled by custom-written software to meet specific requirements. Continuous t...", "citations": 47, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6092, "doi": "10.1016/j.jneumeth.2013.02.006", "umap_coordinates": { "x": 394.4621276855469, "y": 134.34278869628906, "z": 204.65589904785156 }, "tsne_coordinates": { "x": 4.201656341552734, "y": 25.271469116210938, "z": 4.198013782501221 }, "pca_coordinates": { "x": -3.921907424926758, "y": 2.3926470279693604, "z": -0.1287277340888977 }, "axis_scores": { "Quantum imaging": 0.7241228222846985, "Quantum Life Science Sensing": 0.7266308665275574, "Quantum sensing Detection": 0.6774783730506897, "Quantum sensing Metrology": 0.6916995644569397, "Quantum sensing navigation": 0.7019972801208496, "Quantum sensing Position": 0.667073130607605, "Quantum sensing Timing": 0.6649924516677856, "Quantum sensing": 0.7098379135131836, "Quantum control": 0.6988877058029175 } }, { "id": 6086, "title": "Temperature-Dependent Diffusion of H2SO4 in Air at Atmospherically Relevant Conditions: Laboratory Measurements Using Laminar Flow Technique", "abstract": "We report flow tube measurements of the effective sulfuric acid diffusion coefficient at ranges of different relative humidities (from similar to 4 to 70%), temperatures (278, 288 and 298 K) and initi...", "citations": 7, "author_count": 8, "categories": [ "Environmental Sciences & Ecology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6093, "doi": "10.3390/atmos8070132", "umap_coordinates": { "x": 394.4501953125, "y": 135.8355712890625, "z": 204.4423370361328 }, "tsne_coordinates": { "x": -14.38411808013916, "y": 25.687358856201172, "z": 13.21206283569336 }, "pca_coordinates": { "x": -1.3691730499267578, "y": 2.025367498397827, "z": -3.1844329833984375 }, "axis_scores": { "Quantum imaging": 0.6673919558525085, "Quantum Life Science Sensing": 0.731917679309845, "Quantum sensing Detection": 0.6680136919021606, "Quantum sensing Metrology": 0.6723038554191589, "Quantum sensing navigation": 0.6856881380081177, "Quantum sensing Position": 0.6699109077453613, "Quantum sensing Timing": 0.6675967574119568, "Quantum sensing": 0.6964111328125, "Quantum control": 0.6714284420013428 } }, { "id": 6087, "title": "Comparing C60 and C70 as acceptor in organic solar cells: Influence of the electronic structure and aggregation size on the photovoltaic characteristics", "abstract": "The difference in aggregation size of the C-60 and C-70 fullerenes affect the photovoltaic performance of devices assembled in the so-called bilayer architecture with poly [2,7-(9,9- dioctyl- dibenzos...", "citations": 41, "author_count": 9, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6094, "doi": "10.1016/j.tsf.2020.137827", "umap_coordinates": { "x": 393.2767028808594, "y": 134.38467407226562, "z": 205.08535766601562 }, "tsne_coordinates": { "x": 10.95416259765625, "y": 14.613073348999023, "z": -2.171590805053711 }, "pca_coordinates": { "x": -2.6657681465148926, "y": -1.1161119937896729, "z": -2.6189982891082764 }, "axis_scores": { "Quantum imaging": 0.6583712100982666, "Quantum Life Science Sensing": 0.721959114074707, "Quantum sensing Detection": 0.656960129737854, "Quantum sensing Metrology": 0.6612719297409058, "Quantum sensing navigation": 0.6550572514533997, "Quantum sensing Position": 0.6610504388809204, "Quantum sensing Timing": 0.6648464202880859, "Quantum sensing": 0.6751585006713867, "Quantum control": 0.6634438037872314 } }, { "id": 6088, "title": "Study of molecular events in cells by fluorescence correlation spectroscopy", "abstract": "To understand processes in a living cell, sophisticated and creative approaches are required that can be used for gathering quantitative information about large number of components interacting across...", "citations": 89, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6095, "doi": "10.1007/s00018-004-4305-7", "umap_coordinates": { "x": 394.0587158203125, "y": 135.48023986816406, "z": 205.44082641601562 }, "tsne_coordinates": { "x": -3.986600160598755, "y": 17.9542179107666, "z": 0.23785679042339325 }, "pca_coordinates": { "x": -0.9754988551139832, "y": 2.299553394317627, "z": -0.2381400167942047 }, "axis_scores": { "Quantum imaging": 0.7170604467391968, "Quantum Life Science Sensing": 0.748313307762146, "Quantum sensing Detection": 0.7165285348892212, "Quantum sensing Metrology": 0.6971506476402283, "Quantum sensing navigation": 0.7065855860710144, "Quantum sensing Position": 0.6828046441078186, "Quantum sensing Timing": 0.7000130414962769, "Quantum sensing": 0.7155874967575073, "Quantum control": 0.6820715069770813 } }, { "id": 6089, "title": "How Rigidity and Conjugation of Bidentate Ligands Affect the Geometry and Photophysics of Iron N-Heterocyclic Complexes: A Comparative Study", "abstract": "Two iron complexes featuring the bidentate, nonconjugated N-heterocyclic carbene (NHC) 1,1 '-methylenebis(3-methylimidazol-2-ylidene) (mbmi) ligand, where the two NHC moieties are separated by a methy...", "citations": 12, "author_count": 18, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6096, "doi": "10.1021/acs.inorgchem.3c03972", "umap_coordinates": { "x": 392.4330749511719, "y": 136.5450897216797, "z": 204.98622131347656 }, "tsne_coordinates": { "x": 9.727449417114258, "y": 9.659823417663574, "z": -3.7518510818481445 }, "pca_coordinates": { "x": -2.1904568672180176, "y": -0.07566642761230469, "z": -3.745075225830078 }, "axis_scores": { "Quantum imaging": 0.7407463788986206, "Quantum Life Science Sensing": 0.7164489030838013, "Quantum sensing Detection": 0.7068347930908203, "Quantum sensing Metrology": 0.6932770013809204, "Quantum sensing navigation": 0.7023428082466125, "Quantum sensing Position": 0.6890704035758972, "Quantum sensing Timing": 0.6861743927001953, "Quantum sensing": 0.723022997379303, "Quantum control": 0.7069075703620911 } }, { "id": 6090, "title": "Kapitza Stabilization of Quantum Critical Order", "abstract": "Dynamical perturbations modify the states of classical systems in surprising ways and give rise to important applications in science and technology. For example, Floquet engineering exploits the possi...", "citations": 4, "author_count": 7, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6097, "doi": "10.1103/PhysRevX.14.021016", "umap_coordinates": { "x": 395.00091552734375, "y": 136.6824493408203, "z": 208.62924194335938 }, "tsne_coordinates": { "x": -21.219879150390625, "y": -19.681360244750977, "z": 8.48707103729248 }, "pca_coordinates": { "x": 5.121114730834961, "y": 0.42726898193359375, "z": -2.127326488494873 }, "axis_scores": { "Quantum imaging": 0.7245428562164307, "Quantum Life Science Sensing": 0.7331849336624146, "Quantum sensing Detection": 0.728050708770752, "Quantum sensing Metrology": 0.7213565111160278, "Quantum sensing navigation": 0.7393189668655396, "Quantum sensing Position": 0.7253289222717285, "Quantum sensing Timing": 0.7154305577278137, "Quantum sensing": 0.7402788996696472, "Quantum control": 0.7724321484565735 } }, { "id": 6091, "title": "Search for Higgs boson pair production in the two bottom quarks plus two photons final state in pp collisions at √s=13 TeV with the ATLAS detector", "abstract": "Searches are performed for nonresonant and resonant di-Higgs boson production in the b (b) over bar gamma gamma final state. The dataset used corresponds to an integrated luminosity of 139 fb(-1) of p...", "citations": 27, "author_count": 2701, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6098, "doi": "10.1103/PhysRevD.106.052001", "umap_coordinates": { "x": 396.78118896484375, "y": 134.5166778564453, "z": 207.77969360351562 }, "tsne_coordinates": { "x": -36.70064926147461, "y": 6.858967304229736, "z": -12.576051712036133 }, "pca_coordinates": { "x": 3.2077178955078125, "y": -0.6247286796569824, "z": 2.528670310974121 }, "axis_scores": { "Quantum imaging": 0.6771715879440308, "Quantum Life Science Sensing": 0.6907339096069336, "Quantum sensing Detection": 0.7087485194206238, "Quantum sensing Metrology": 0.681398332118988, "Quantum sensing navigation": 0.6897639632225037, "Quantum sensing Position": 0.6927170753479004, "Quantum sensing Timing": 0.7050996422767639, "Quantum sensing": 0.6953224539756775, "Quantum control": 0.6666545271873474 } }, { "id": 6092, "title": "Advances in the study of drug metabolism - symposium report of the 12th Meeting of the International Society for the Study of Xenobiotics (ISSX)", "abstract": "The 12th International Society for the Study of Xenobiotics (ISSX) meeting, held in Portland, OR, USA from July 28 to 31, 2019, was attended by diverse members of the pharmaceutical sciences community...", "citations": 9, "author_count": 17, "categories": [ "Pharmacology & Pharmacy" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6099, "doi": "10.1080/03602532.2020.1765793", "umap_coordinates": { "x": 394.30242919921875, "y": 134.75498962402344, "z": 204.4556427001953 }, "tsne_coordinates": { "x": 13.77946662902832, "y": 29.62165069580078, "z": -7.52916955947876 }, "pca_coordinates": { "x": -2.4975991249084473, "y": 2.768003463745117, "z": -1.426079273223877 }, "axis_scores": { "Quantum imaging": 0.6704451441764832, "Quantum Life Science Sensing": 0.6995449066162109, "Quantum sensing Detection": 0.6504065990447998, "Quantum sensing Metrology": 0.6573134064674377, "Quantum sensing navigation": 0.6636120080947876, "Quantum sensing Position": 0.6579424738883972, "Quantum sensing Timing": 0.650099515914917, "Quantum sensing": 0.6674115061759949, "Quantum control": 0.6647694706916809 } }, { "id": 6093, "title": "Black hole remnants and the information loss paradox", "abstract": "Forty years after the discovery of Hawking radiation, its exact nature remains elusive. If Hawking radiation does not carry any information out from the ever shrinking black hole, it seems that unitar...", "citations": 257, "author_count": 4, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6100, "doi": "10.1016/j.physrep.2015.10.007", "umap_coordinates": { "x": 395.68048095703125, "y": 136.29563903808594, "z": 205.8717041015625 }, "tsne_coordinates": { "x": -42.318172454833984, "y": -1.127207636833191, "z": 9.600727081298828 }, "pca_coordinates": { "x": 1.3054687976837158, "y": 4.163524150848389, "z": 0.004192173480987549 }, "axis_scores": { "Quantum imaging": 0.7553237080574036, "Quantum Life Science Sensing": 0.7493873238563538, "Quantum sensing Detection": 0.749523401260376, "Quantum sensing Metrology": 0.7168270349502563, "Quantum sensing navigation": 0.748746931552887, "Quantum sensing Position": 0.7383404970169067, "Quantum sensing Timing": 0.7059530019760132, "Quantum sensing": 0.7472338080406189, "Quantum control": 0.708206832408905 } }, { "id": 6094, "title": "The effect of water on the Fe3+/Fe2+ reduction potential of heme", "abstract": "Hemeproteins can act as catalysts, oxygen carriers or electron conductors. The ferric/ferrous reduction potential E-m7 of iron in the center of the prosthetic group ranges from negative values for per...", "citations": 14, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6101, "doi": "10.1006/bbrc.2000.2201", "umap_coordinates": { "x": 393.73455810546875, "y": 135.97882080078125, "z": 204.49404907226562 }, "tsne_coordinates": { "x": 6.95207405090332, "y": 20.817428588867188, "z": 18.077327728271484 }, "pca_coordinates": { "x": -2.6148552894592285, "y": 0.6693723201751709, "z": -3.7826035022735596 }, "axis_scores": { "Quantum imaging": 0.7235008478164673, "Quantum Life Science Sensing": 0.7633706331253052, "Quantum sensing Detection": 0.720052182674408, "Quantum sensing Metrology": 0.7034257650375366, "Quantum sensing navigation": 0.7062841653823853, "Quantum sensing Position": 0.6975322365760803, "Quantum sensing Timing": 0.6751663684844971, "Quantum sensing": 0.735416829586029, "Quantum control": 0.7179136276245117 } }, { "id": 6095, "title": "Breaking and resurgence of symmetry in the non-Hermitian Su-Schrieffer-Heeger model in photonic waveguides", "abstract": "Symmetry is one of the cornerstones of modern physics and has profound implications in different areas. In symmetry-protected topological systems, symmetries are responsible for protecting surface sta...", "citations": 15, "author_count": 8, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6102, "doi": "10.1103/PhysRevResearch.6.023140", "umap_coordinates": { "x": 395.2893981933594, "y": 136.9159393310547, "z": 208.3401641845703 }, "tsne_coordinates": { "x": -18.401105880737305, "y": -20.613100051879883, "z": 5.924270153045654 }, "pca_coordinates": { "x": 3.493152141571045, "y": 1.0394046306610107, "z": 0.44404155015945435 }, "axis_scores": { "Quantum imaging": 0.6959941983222961, "Quantum Life Science Sensing": 0.7098886966705322, "Quantum sensing Detection": 0.7000985145568848, "Quantum sensing Metrology": 0.707446813583374, "Quantum sensing navigation": 0.7153167724609375, "Quantum sensing Position": 0.6928746104240417, "Quantum sensing Timing": 0.6627867221832275, "Quantum sensing": 0.7038291096687317, "Quantum control": 0.6695145964622498 } }, { "id": 6096, "title": "Electronic structure of 6H-SiC(0001)", "abstract": "An electronic structure investigation of Si-terminated 6H-SiC(0001) is reported. The valence-band structure is investigated using photoemission and synchrotron radiation. Recorded valence-band spectra...", "citations": 68, "author_count": 6, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6103, "doi": "10.1103/PhysRevB.53.13803", "umap_coordinates": { "x": 394.0323181152344, "y": 135.84213256835938, "z": 208.4202117919922 }, "tsne_coordinates": { "x": 2.566612720489502, "y": -16.235843658447266, "z": -2.5007317066192627 }, "pca_coordinates": { "x": 4.117647171020508, "y": -0.7520232200622559, "z": -1.3019893169403076 }, "axis_scores": { "Quantum imaging": 0.6793473958969116, "Quantum Life Science Sensing": 0.7288709878921509, "Quantum sensing Detection": 0.6733719706535339, "Quantum sensing Metrology": 0.6771830320358276, "Quantum sensing navigation": 0.6984787583351135, "Quantum sensing Position": 0.6625012755393982, "Quantum sensing Timing": 0.632552981376648, "Quantum sensing": 0.6925198435783386, "Quantum control": 0.681984007358551 } }, { "id": 6097, "title": "Neutron scattering and thermodynamic evidence for emergent photons and fractionalization in a pyrochlore spin ice", "abstract": "The three-dimensional pyrochlore lattice of corner-sharing tetrahedra can host a quantum spin ice, a quantum analogue of the classical spin ice found in other pyrochlore compounds. This state can mani...", "citations": 2, "author_count": 13, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6104, "doi": "10.1038/s41567-025-02922-9", "umap_coordinates": { "x": 393.42559814453125, "y": 136.84886169433594, "z": 206.8857879638672 }, "tsne_coordinates": { "x": -16.894760131835938, "y": -14.994297981262207, "z": 26.847366333007812 }, "pca_coordinates": { "x": -0.6994587182998657, "y": 0.38489389419555664, "z": -1.0146830081939697 }, "axis_scores": { "Quantum imaging": 0.7063928842544556, "Quantum Life Science Sensing": 0.7247750163078308, "Quantum sensing Detection": 0.6864422559738159, "Quantum sensing Metrology": 0.6711926460266113, "Quantum sensing navigation": 0.6861088275909424, "Quantum sensing Position": 0.64874666929245, "Quantum sensing Timing": 0.6517447829246521, "Quantum sensing": 0.7014989256858826, "Quantum control": 0.6471148729324341 } }, { "id": 6098, "title": "STED microscopy: increased resolution for medical research?", "abstract": "Optical imaging is crucial for addressing fundamental problems in all areas of life science. With the use of confocal and two-photon fluorescence microscopy, complex dynamic structures and functions i...", "citations": 32, "author_count": 3, "categories": [ "General & Internal Medicine" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6105, "doi": "10.1111/joim.12278", "umap_coordinates": { "x": 395.1436767578125, "y": 133.64161682128906, "z": 204.81301879882812 }, "tsne_coordinates": { "x": 10.649805068969727, "y": 34.54682540893555, "z": -15.317535400390625 }, "pca_coordinates": { "x": -3.0064334869384766, "y": 1.448391318321228, "z": 0.8968660235404968 }, "axis_scores": { "Quantum imaging": 0.7482402920722961, "Quantum Life Science Sensing": 0.7144144177436829, "Quantum sensing Detection": 0.7068012952804565, "Quantum sensing Metrology": 0.7171191573143005, "Quantum sensing navigation": 0.6783319115638733, "Quantum sensing Position": 0.6697173118591309, "Quantum sensing Timing": 0.6584754586219788, "Quantum sensing": 0.7177064418792725, "Quantum control": 0.6787793040275574 } }, { "id": 6099, "title": "Enhanced analog-optical link performance with noiseless phase-sensitive fiber optical parametric amplifiers", "abstract": "In this paper, we investigate the enhancement of analog optical link performance with noiseless phase-sensitive fiber optical parametric amplifiers. The influence of different noise sources in the lin...", "citations": 13, "author_count": 5, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6106, "doi": "10.1364/OE.397999", "umap_coordinates": { "x": 394.8588562011719, "y": 134.498291015625, "z": 206.7110595703125 }, "tsne_coordinates": { "x": -1.5792019367218018, "y": -4.686718940734863, "z": -31.095064163208008 }, "pca_coordinates": { "x": -0.8161362409591675, "y": 0.5956158638000488, "z": 4.554291248321533 }, "axis_scores": { "Quantum imaging": 0.6972262263298035, "Quantum Life Science Sensing": 0.6665197610855103, "Quantum sensing Detection": 0.6866945624351501, "Quantum sensing Metrology": 0.6950434446334839, "Quantum sensing navigation": 0.6849956512451172, "Quantum sensing Position": 0.6778457164764404, "Quantum sensing Timing": 0.6834948658943176, "Quantum sensing": 0.6944273710250854, "Quantum control": 0.6633797287940979 } }, { "id": 6100, "title": "Catalytic-site conformational equilibrium in nerve-agent adducts of acetylcholinesterase: Possible implications for the HI-6 antidote substrate specificity", "abstract": "Nerve agents such as tabun, cyclosarin and Russian VX inhibit the essential enzyme acetylcholinesterase (AChE) by organophosphorylating the catalytic serine residue. Nucleophiles, such as oximes, are ...", "citations": 37, "author_count": 7, "categories": [ "Pharmacology & Pharmacy" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6107, "doi": "10.1016/j.bcp.2013.01.016", "umap_coordinates": { "x": 393.4651184082031, "y": 135.89463806152344, "z": 204.8457794189453 }, "tsne_coordinates": { "x": 27.666780471801758, "y": 26.993886947631836, "z": 5.97832727432251 }, "pca_coordinates": { "x": -1.5952059030532837, "y": 1.7149758338928223, "z": -2.3359718322753906 }, "axis_scores": { "Quantum imaging": 0.6561037302017212, "Quantum Life Science Sensing": 0.6430978775024414, "Quantum sensing Detection": 0.6335411667823792, "Quantum sensing Metrology": 0.6114745736122131, "Quantum sensing navigation": 0.6646626591682434, "Quantum sensing Position": 0.6851158142089844, "Quantum sensing Timing": 0.641607403755188, "Quantum sensing": 0.6340115070343018, "Quantum control": 0.6288719773292542 } }, { "id": 6101, "title": "Gauge-independent description of the Aharonov-Bohm effect", "abstract": "The Aharonov-Bohm (AB) effect is a pure quantum effect that implies a measurable phase shift in the wave function for a charged particle that encircles a magnetic flux located in a region inaccessible...", "citations": 7, "author_count": 4, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6108, "doi": "10.1103/PhysRevA.106.032217", "umap_coordinates": { "x": 394.8482971191406, "y": 137.35299682617188, "z": 208.28990173339844 }, "tsne_coordinates": { "x": -19.00234603881836, "y": -42.312599182128906, "z": -0.2435339391231537 }, "pca_coordinates": { "x": 4.100092887878418, "y": 1.8041503429412842, "z": -0.1671212911605835 }, "axis_scores": { "Quantum imaging": 0.7099682092666626, "Quantum Life Science Sensing": 0.7155141830444336, "Quantum sensing Detection": 0.6903978586196899, "Quantum sensing Metrology": 0.690022349357605, "Quantum sensing navigation": 0.7118535041809082, "Quantum sensing Position": 0.6506408452987671, "Quantum sensing Timing": 0.6550413370132446, "Quantum sensing": 0.7154634594917297, "Quantum control": 0.717395544052124 } }, { "id": 6102, "title": "Computational methods to study the formation of small molecules by radiative association", "abstract": "To form a stable molecule by association of two colliding fragments, energy must be removed or else the fragments will eventually dissociate again. Energy can be removed by a third body and by emissio...", "citations": 32, "author_count": 4, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6109, "doi": "10.1080/0144235X.2015.1072365", "umap_coordinates": { "x": 393.57818603515625, "y": 136.56980895996094, "z": 206.01272583007812 }, "tsne_coordinates": { "x": -4.75551176071167, "y": 0.720014214515686, "z": 22.501789093017578 }, "pca_coordinates": { "x": -0.6375388503074646, "y": 1.3637001514434814, "z": -1.380911946296692 }, "axis_scores": { "Quantum imaging": 0.717460572719574, "Quantum Life Science Sensing": 0.7398430705070496, "Quantum sensing Detection": 0.7061834931373596, "Quantum sensing Metrology": 0.6857175827026367, "Quantum sensing navigation": 0.684542715549469, "Quantum sensing Position": 0.6614017486572266, "Quantum sensing Timing": 0.6866958141326904, "Quantum sensing": 0.7161659598350525, "Quantum control": 0.6935438513755798 } }, { "id": 6103, "title": "The XYZ2 hexagonal stabilizer code", "abstract": "We consider a topological stabilizer code on a honeycomb grid, the XYZ(2) code. The code is inspired by the Kitaev honeycomb model and is a simple realization of a matching code discussed by Wootton ...", "citations": 16, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6110, "doi": null, "umap_coordinates": { "x": 391.872314453125, "y": 139.65423583984375, "z": 209.23406982421875 }, "tsne_coordinates": { "x": -12.676616668701172, "y": 41.60551834106445, "z": 4.931441307067871 }, "pca_coordinates": { "x": 0.5761630535125732, "y": 3.3618197441101074, "z": -3.4466493129730225 }, "axis_scores": { "Quantum imaging": 0.6931726932525635, "Quantum Life Science Sensing": 0.7080336213111877, "Quantum sensing Detection": 0.6973037719726562, "Quantum sensing Metrology": 0.7010927200317383, "Quantum sensing navigation": 0.7344608902931213, "Quantum sensing Position": 0.7043288350105286, "Quantum sensing Timing": 0.6819751858711243, "Quantum sensing": 0.7123631238937378, "Quantum control": 0.7350963354110718 } }, { "id": 6104, "title": "Scenarios for Optical Encryption Using Quantum Keys", "abstract": "Optical communications providing huge capacity and low latency remain vulnerable to a range of attacks. In consequence, encryption at the optical layer is needed to ensure secure data transmission. In...", "citations": 1, "author_count": 11, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6111, "doi": "10.3390/s24206631", "umap_coordinates": { "x": 395.23583984375, "y": 137.49517822265625, "z": 205.60145568847656 }, "tsne_coordinates": { "x": -24.823104858398438, "y": 13.909143447875977, "z": 14.4000883102417 }, "pca_coordinates": { "x": -0.023446321487426758, "y": 1.9807300567626953, "z": -0.1480947732925415 }, "axis_scores": { "Quantum imaging": 0.7186233997344971, "Quantum Life Science Sensing": 0.7347160577774048, "Quantum sensing Detection": 0.7113046646118164, "Quantum sensing Metrology": 0.7065975666046143, "Quantum sensing navigation": 0.703883707523346, "Quantum sensing Position": 0.6752264499664307, "Quantum sensing Timing": 0.6783643364906311, "Quantum sensing": 0.7227408289909363, "Quantum control": 0.6797486543655396 } }, { "id": 6105, "title": "Biogenic Fraction Determination in Fuel Blends by Laser-Based 14CO2 Detection", "abstract": "A widespread use of biofuels is a key recommendation of the Paris Agreement and leading international organizations. It is an important step to mitigate the global warming effects due to greenhouse-ga...", "citations": 23, "author_count": 10, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6112, "doi": "10.1002/adpr.202000069", "umap_coordinates": { "x": 393.8603820800781, "y": 135.21771240234375, "z": 204.90463256835938 }, "tsne_coordinates": { "x": 8.96935749053955, "y": 23.615079879760742, "z": 1.0300747156143188 }, "pca_coordinates": { "x": -3.042532205581665, "y": 1.5137825012207031, "z": -0.9256561994552612 }, "axis_scores": { "Quantum imaging": 0.6921898126602173, "Quantum Life Science Sensing": 0.7100902795791626, "Quantum sensing Detection": 0.6937142014503479, "Quantum sensing Metrology": 0.6747580170631409, "Quantum sensing navigation": 0.6995962262153625, "Quantum sensing Position": 0.6967654824256897, "Quantum sensing Timing": 0.6815213561058044, "Quantum sensing": 0.6952857375144958, "Quantum control": 0.6873113512992859 } }, { "id": 6106, "title": "Baseline symptom severity predicts serotonin transporter change during psychotherapy in patients with major depression", "abstract": "Aims: The role of the serotonin transporter (SERT) in the pathophysiology of depression is unclear and only a few follow-up studies exist. Our aim was to measure changes in SERT availability during ps...", "citations": 6, "author_count": 14, "categories": [ "Neurosciences & Neurology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6113, "doi": "10.1111/pcn.12335", "umap_coordinates": { "x": 394.7764587402344, "y": 134.9722137451172, "z": 204.26473999023438 }, "tsne_coordinates": { "x": -7.315802574157715, "y": 28.645404815673828, "z": 10.367810249328613 }, "pca_coordinates": { "x": -1.165358543395996, "y": 2.158460855484009, "z": -0.45793092250823975 }, "axis_scores": { "Quantum imaging": 0.6859908103942871, "Quantum Life Science Sensing": 0.6714192628860474, "Quantum sensing Detection": 0.6847250461578369, "Quantum sensing Metrology": 0.6748592257499695, "Quantum sensing navigation": 0.6793460845947266, "Quantum sensing Position": 0.6777411103248596, "Quantum sensing Timing": 0.6875314116477966, "Quantum sensing": 0.6916671395301819, "Quantum control": 0.6814599633216858 } }, { "id": 6107, "title": "The detection statistics of neutrons and photons emitted from a fissile sample", "abstract": "The purpose of this paper is to present new analytical derivations to describe the statistical properties of the emission and detection of neutrons and photons generated in and emitted from fissile sa...", "citations": 9, "author_count": 4, "categories": [ "Instruments & Instrumentation" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6114, "doi": "10.1016/j.nima.2009.05.131", "umap_coordinates": { "x": 394.4105224609375, "y": 132.7890625, "z": 205.38650512695312 }, "tsne_coordinates": { "x": -16.251569747924805, "y": 15.422033309936523, "z": -10.34110164642334 }, "pca_coordinates": { "x": -0.8944810032844543, "y": 1.8429125547409058, "z": 2.2847189903259277 }, "axis_scores": { "Quantum imaging": 0.7098912000656128, "Quantum Life Science Sensing": 0.7194731831550598, "Quantum sensing Detection": 0.7241001129150391, "Quantum sensing Metrology": 0.7015842795372009, "Quantum sensing navigation": 0.7090579867362976, "Quantum sensing Position": 0.6713791489601135, "Quantum sensing Timing": 0.6655468344688416, "Quantum sensing": 0.7138569951057434, "Quantum control": 0.6284366846084595 } }, { "id": 6108, "title": "Interplay between Charge Injection, Electron Transport, and Quantum Efficiency in Ambipolar Trilayer Organic Light-Emitting Transistors", "abstract": "The fascinating characteristic of organic light-emitting transistors (OLETs) of being electrical switches with an intrinsic light-emitting capability makes them attractive candidates for a wide variet...", "citations": 10, "author_count": 9, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6115, "doi": "10.1002/admi.202101926", "umap_coordinates": { "x": 392.1336364746094, "y": 134.50079345703125, "z": 206.14752197265625 }, "tsne_coordinates": { "x": 25.33149528503418, "y": 2.9420664310455322, "z": 19.60091209411621 }, "pca_coordinates": { "x": -1.1925734281539917, "y": -4.109768390655518, "z": -0.3358062505722046 }, "axis_scores": { "Quantum imaging": 0.7073814272880554, "Quantum Life Science Sensing": 0.682688295841217, "Quantum sensing Detection": 0.6680193543434143, "Quantum sensing Metrology": 0.6635875701904297, "Quantum sensing navigation": 0.6665377020835876, "Quantum sensing Position": 0.65465247631073, "Quantum sensing Timing": 0.6397902369499207, "Quantum sensing": 0.6915459036827087, "Quantum control": 0.6726586818695068 } }, { "id": 6109, "title": "Concentration and Solvent Effects on the Excited State Dynamics of the Solar Cell Dye D149: The Special Role of Protons", "abstract": "D149 is one of the best-performing metal-free, organic dyes for dye-sensitized solar cells. Excited state lifetimes strongly depend on the solvent used and have previously been reported to be between ...", "citations": 22, "author_count": 3, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6116, "doi": "10.1021/jp400782g", "umap_coordinates": { "x": 392.5019226074219, "y": 136.5021209716797, "z": 205.4495086669922 }, "tsne_coordinates": { "x": 9.390483856201172, "y": 10.683194160461426, "z": 17.95196533203125 }, "pca_coordinates": { "x": -2.9787120819091797, "y": -0.7699851989746094, "z": -4.126156330108643 }, "axis_scores": { "Quantum imaging": 0.6653655171394348, "Quantum Life Science Sensing": 0.7145442366600037, "Quantum sensing Detection": 0.6551437377929688, "Quantum sensing Metrology": 0.641913115978241, "Quantum sensing navigation": 0.6579479575157166, "Quantum sensing Position": 0.6719081997871399, "Quantum sensing Timing": 0.6484166383743286, "Quantum sensing": 0.66885906457901, "Quantum control": 0.6646795868873596 } }, { "id": 6110, "title": "Low-Strip Dorsal Preservation Rhinoplasty Opens the Internal Nasal Valve in Tension Nose Deformity", "abstract": "BackgroundDorsal preservation is a recently popularized technique to lower the nasal dorsum without opening the cartilaginous vault. Improved nasal breathing has been reported after lowering an intact...", "citations": 1, "author_count": 8, "categories": [ "Research & Experimental Medicine" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6117, "doi": "10.1002/lary.32048", "umap_coordinates": { "x": 394.7059631347656, "y": 135.5863800048828, "z": 204.49395751953125 }, "tsne_coordinates": { "x": -5.296319484710693, "y": 35.275306701660156, "z": 21.146045684814453 }, "pca_coordinates": { "x": -1.8081742525100708, "y": 2.439706325531006, "z": 0.03391772508621216 }, "axis_scores": { "Quantum imaging": 0.6612380146980286, "Quantum Life Science Sensing": 0.6549463868141174, "Quantum sensing Detection": 0.6375632882118225, "Quantum sensing Metrology": 0.6253029704093933, "Quantum sensing navigation": 0.6544901132583618, "Quantum sensing Position": 0.6569117307662964, "Quantum sensing Timing": 0.6439495086669922, "Quantum sensing": 0.6507503390312195, "Quantum control": 0.6595919728279114 } }, { "id": 6111, "title": "Dipolar spin relaxation of divacancy qubits in silicon carbide", "abstract": "Divacancy spins implement qubits with outstanding characteristics and capabilities in an industrial semiconductor host. On the other hand, there are still numerous open questions about the physics of ...", "citations": 19, "author_count": 5, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6118, "doi": "10.1038/s41524-021-00673-8", "umap_coordinates": { "x": 392.6767578125, "y": 136.11541748046875, "z": 207.1605682373047 }, "tsne_coordinates": { "x": 6.035895824432373, "y": -13.491575241088867, "z": 3.017632007598877 }, "pca_coordinates": { "x": 0.7555627822875977, "y": -0.728384256362915, "z": -1.8418583869934082 }, "axis_scores": { "Quantum imaging": 0.7413243055343628, "Quantum Life Science Sensing": 0.756110668182373, "Quantum sensing Detection": 0.7251489758491516, "Quantum sensing Metrology": 0.7131630778312683, "Quantum sensing navigation": 0.7335695624351501, "Quantum sensing Position": 0.6941767930984497, "Quantum sensing Timing": 0.6956050992012024, "Quantum sensing": 0.736762523651123, "Quantum control": 0.726028561592102 } }, { "id": 6112, "title": "An optical-optical double-resonance study of the Rydberg states of O2.: II.: The np and nf (ungerade) states excited via single-rotational levels of the b 1Σ0g+ valence state", "abstract": "The np (n=3-10) and nf (n=4-9) Rydberg states of O-2 converging on O-2+ X (2)Pi(1/2,g) and X (2)Pi(3/2g) have been studied between 75 000 and 99 900 cm-1 using optical-optical double resonance with mu...", "citations": 2, "author_count": 5, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6119, "doi": "10.1063/1.1566949", "umap_coordinates": { "x": 393.58367919921875, "y": 135.65447998046875, "z": 207.20738220214844 }, "tsne_coordinates": { "x": -2.222764253616333, "y": -5.378564834594727, "z": 4.418449401855469 }, "pca_coordinates": { "x": 0.4400808811187744, "y": -0.09255576133728027, "z": -0.3551982641220093 }, "axis_scores": { "Quantum imaging": 0.7252137064933777, "Quantum Life Science Sensing": 0.7423197627067566, "Quantum sensing Detection": 0.7254052758216858, "Quantum sensing Metrology": 0.7167747020721436, "Quantum sensing navigation": 0.7143030166625977, "Quantum sensing Position": 0.6754024624824524, "Quantum sensing Timing": 0.676735520362854, "Quantum sensing": 0.741075873374939, "Quantum control": 0.6946117281913757 } }, { "id": 6113, "title": "Measurement of the charge asymmetry in top-quark pair production in association with a photon with the ATLAS experiment", "abstract": "A measurement of the charge asymmetry in top-quark pair (t (t) over bar) production in association with a photon is presented. The measurement is performed in the single-lepton t (t) over bar decay ch...", "citations": 4, "author_count": 2685, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6120, "doi": "10.1016/j.physletb.2023.137848", "umap_coordinates": { "x": 396.7214050292969, "y": 134.11932373046875, "z": 207.2583465576172 }, "tsne_coordinates": { "x": -35.77511215209961, "y": 4.4484734535217285, "z": -7.24668025970459 }, "pca_coordinates": { "x": 0.33571553230285645, "y": 0.8178790807723999, "z": 3.1438403129577637 }, "axis_scores": { "Quantum imaging": 0.7030019164085388, "Quantum Life Science Sensing": 0.6937543749809265, "Quantum sensing Detection": 0.7161223888397217, "Quantum sensing Metrology": 0.7032907605171204, "Quantum sensing navigation": 0.7038446068763733, "Quantum sensing Position": 0.7184149026870728, "Quantum sensing Timing": 0.7194627523422241, "Quantum sensing": 0.708339512348175, "Quantum control": 0.6746333837509155 } }, { "id": 6114, "title": "PHOTOCONDUCTANCE OF 2-DIMENSIONAL BALLISTIC MICROSTRUCTURES", "abstract": "We calculate the photoconductance of two-dimensional ballistic microstructures subject to a high-frequency electromagnetic field. First, we study a simple quantum point contact. Absorption of photons ...", "citations": 5, "author_count": 6, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6121, "doi": "10.1016/0921-4526(94)01133-L", "umap_coordinates": { "x": 393.5697326660156, "y": 135.66709899902344, "z": 207.1885986328125 }, "tsne_coordinates": { "x": -1.2038874626159668, "y": -27.38222312927246, "z": -5.696676731109619 }, "pca_coordinates": { "x": 0.4325612783432007, "y": -1.1313748359680176, "z": -0.14012551307678223 }, "axis_scores": { "Quantum imaging": 0.7474339604377747, "Quantum Life Science Sensing": 0.7515271902084351, "Quantum sensing Detection": 0.7361134886741638, "Quantum sensing Metrology": 0.7313538789749146, "Quantum sensing navigation": 0.7388829588890076, "Quantum sensing Position": 0.72065669298172, "Quantum sensing Timing": 0.6890726089477539, "Quantum sensing": 0.7450175285339355, "Quantum control": 0.7187640070915222 } }, { "id": 6115, "title": "Comparison of the IAEA TRS-398 and AAPM TG-51 absorbed dose to water protocols in the dosimetry of high-energy photon and electron beams", "abstract": "The International Atomic Energy Agency (IAEA TRS-398) and the American Association of Physicists in Medicine (AAPM TG-51) have published new protocols for the calibration of radiotherapy beams. These ...", "citations": 53, "author_count": 4, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6122, "doi": "10.1088/0031-9155/46/11/315", "umap_coordinates": { "x": 396.126220703125, "y": 133.7133026123047, "z": 205.25877380371094 }, "tsne_coordinates": { "x": -15.453791618347168, "y": 31.75936508178711, "z": -18.912160873413086 }, "pca_coordinates": { "x": -1.2909032106399536, "y": 2.3788034915924072, "z": 2.8996334075927734 }, "axis_scores": { "Quantum imaging": 0.662760317325592, "Quantum Life Science Sensing": 0.673147439956665, "Quantum sensing Detection": 0.6378557085990906, "Quantum sensing Metrology": 0.652508020401001, "Quantum sensing navigation": 0.6621308326721191, "Quantum sensing Position": 0.6424065828323364, "Quantum sensing Timing": 0.6748783588409424, "Quantum sensing": 0.6517783403396606, "Quantum control": 0.6220555901527405 } }, { "id": 6116, "title": "A Molecular Tetrad That Generates a High-Energy Charge-Separated State by Mimicking the Photosynthetic Z-Scheme", "abstract": "The oxygenic photosynthesis of green plants, green algae, and cyanobacteria is the major provider of energy rich compounds in the biosphere. The so-called Z-scheme is at the heart of this engine of li...", "citations": 69, "author_count": 9, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6123, "doi": "10.1021/jacs.5b12650", "umap_coordinates": { "x": 392.4821472167969, "y": 136.44174194335938, "z": 205.39305114746094 }, "tsne_coordinates": { "x": 21.71247673034668, "y": 18.994569778442383, "z": 18.7423152923584 }, "pca_coordinates": { "x": -0.3580443263053894, "y": -1.221992015838623, "z": -2.9086313247680664 }, "axis_scores": { "Quantum imaging": 0.7138806581497192, "Quantum Life Science Sensing": 0.7436673045158386, "Quantum sensing Detection": 0.699056088924408, "Quantum sensing Metrology": 0.6925879120826721, "Quantum sensing navigation": 0.6927968859672546, "Quantum sensing Position": 0.6805977821350098, "Quantum sensing Timing": 0.6889602541923523, "Quantum sensing": 0.7203471064567566, "Quantum control": 0.7041785717010498 } }, { "id": 6117, "title": "Fundamental Physics and the Mind - Is There a Connection?", "abstract": "Recent advances in the field of quantum cognition (Pothos and Busemeyer 2013; Wang et al. 2013) suggest a puzzling connection between fundamental physics and the mind. Many researchers see quantum ide...", "citations": 3, "author_count": 2, "categories": [ "Computer Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6124, "doi": "10.1007/978-3-319-15931-7_1", "umap_coordinates": { "x": 395.1226806640625, "y": 136.87261962890625, "z": 205.52310180664062 }, "tsne_coordinates": { "x": -15.508810043334961, "y": 15.91643238067627, "z": 7.059437274932861 }, "pca_coordinates": { "x": 0.6155461072921753, "y": 3.5309736728668213, "z": -0.6232569217681885 }, "axis_scores": { "Quantum imaging": 0.7178270816802979, "Quantum Life Science Sensing": 0.757243275642395, "Quantum sensing Detection": 0.7163655161857605, "Quantum sensing Metrology": 0.7242494225502014, "Quantum sensing navigation": 0.7263390421867371, "Quantum sensing Position": 0.7032471895217896, "Quantum sensing Timing": 0.6735107898712158, "Quantum sensing": 0.7300404906272888, "Quantum control": 0.7028713226318359 } }, { "id": 6118, "title": "Deciphering the contribution of microbial biomass to the properties of dissolved and particulate organic matter in anaerobic digestates", "abstract": "The recalcitrant structures either from substrate or microbial biomass contained in digestates after anaerobic digestion (AD) highly influence digestate valorization. To properly assess the microbial ...", "citations": 14, "author_count": 6, "categories": [ "Environmental Sciences & Ecology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6125, "doi": "10.1016/j.scitotenv.2023.162882", "umap_coordinates": { "x": 393.5253601074219, "y": 134.98023986816406, "z": 203.9982147216797 }, "tsne_coordinates": { "x": 21.53687858581543, "y": 25.482025146484375, "z": 16.71011734008789 }, "pca_coordinates": { "x": -3.9294652938842773, "y": 1.1257047653198242, "z": -2.9931442737579346 }, "axis_scores": { "Quantum imaging": 0.6200500130653381, "Quantum Life Science Sensing": 0.6856569051742554, "Quantum sensing Detection": 0.6298736333847046, "Quantum sensing Metrology": 0.6434135437011719, "Quantum sensing navigation": 0.6296963691711426, "Quantum sensing Position": 0.6161645650863647, "Quantum sensing Timing": 0.5855534076690674, "Quantum sensing": 0.645624041557312, "Quantum control": 0.6141384840011597 } }, { "id": 6119, "title": "Influence of UV-B radiation and Cd2+ on chlorophyll fluorescence, growth and nutrient content in Brassica napus", "abstract": "The possible interaction of two stresses, UV-B radiation and cadmium, applied simultaneously, was investigated in Brassica napus L. cv. Paroll with respect to chlorophyll fluorescence, growth and upta...", "citations": 184, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1998, "topic": [ "all" ], "embedding_index": 6126, "doi": "10.1093/jexbot/49.323.1031", "umap_coordinates": { "x": 394.152587890625, "y": 135.9489288330078, "z": 203.87457275390625 }, "tsne_coordinates": { "x": 11.708089828491211, "y": 27.991291046142578, "z": 16.24235725402832 }, "pca_coordinates": { "x": -2.539062023162842, "y": 0.4114508628845215, "z": -1.6988093852996826 }, "axis_scores": { "Quantum imaging": 0.6886538863182068, "Quantum Life Science Sensing": 0.7336733937263489, "Quantum sensing Detection": 0.6896742582321167, "Quantum sensing Metrology": 0.6748305559158325, "Quantum sensing navigation": 0.6785734295845032, "Quantum sensing Position": 0.6800153851509094, "Quantum sensing Timing": 0.6419154405593872, "Quantum sensing": 0.7022225260734558, "Quantum control": 0.6899052858352661 } }, { "id": 6120, "title": "A COMMUNITY-BASED POPULATION STUDY OF VERTEBRAL FRACTURES IN 85-YEAR-OLD MEN AND WOMEN", "abstract": "Radiographic examinations for the presence of vertebral fracture between T4 and L5 were performed in a random sample of 85-year-old women (n = 304) and men (n = 158) who participated in a longitudinal...", "citations": 17, "author_count": 5, "categories": [ "Geriatrics & Gerontology" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6127, "doi": "10.1093/ageing/23.5.388", "umap_coordinates": { "x": 395.3143310546875, "y": 134.7892303466797, "z": 204.68460083007812 }, "tsne_coordinates": { "x": -5.01846981048584, "y": 33.516902923583984, "z": 7.626613616943359 }, "pca_coordinates": { "x": -1.2843058109283447, "y": 3.1211962699890137, "z": -0.41499096155166626 }, "axis_scores": { "Quantum imaging": 0.645447850227356, "Quantum Life Science Sensing": 0.6885456442832947, "Quantum sensing Detection": 0.6391850113868713, "Quantum sensing Metrology": 0.6414589285850525, "Quantum sensing navigation": 0.6723992824554443, "Quantum sensing Position": 0.648923397064209, "Quantum sensing Timing": 0.6160193681716919, "Quantum sensing": 0.65440434217453, "Quantum control": 0.6418811678886414 } }, { "id": 6121, "title": "BREAKDOWN OF CONDUCTANCE QUANTIZATION IN QUANTUM POINT CONTACTS WITH REALISTIC IMPURITY POTENTIALS", "abstract": "The breakdown of conductance quantization in a quantum point contact in the presence of a random long-range impurity potential is discussed. It is shown that in the linear response regime a decisive r...", "citations": 14, "author_count": 5, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6128, "doi": "10.1088/0953-8984/7/31/009", "umap_coordinates": { "x": 394.27001953125, "y": 135.47706604003906, "z": 208.30178833007812 }, "tsne_coordinates": { "x": -2.0440728664398193, "y": -38.315067291259766, "z": -4.221796035766602 }, "pca_coordinates": { "x": 3.4064526557922363, "y": 0.15789341926574707, "z": 0.8284403681755066 }, "axis_scores": { "Quantum imaging": 0.6922548413276672, "Quantum Life Science Sensing": 0.708992600440979, "Quantum sensing Detection": 0.6886123418807983, "Quantum sensing Metrology": 0.6908876895904541, "Quantum sensing navigation": 0.6919140219688416, "Quantum sensing Position": 0.6920732259750366, "Quantum sensing Timing": 0.6700525879859924, "Quantum sensing": 0.7019124627113342, "Quantum control": 0.6765298247337341 } }, { "id": 6122, "title": "Estimation of boreal forest biomass from ICESat-2 data using hierarchical hybrid inference", "abstract": "The ICESat-2, launched in 2018, carries the ATLAS instrument, which is a photon-counting spaceborne lidar that provides profile samples over the terrain. While primarily designed for snow and ice moni...", "citations": 13, "author_count": 9, "categories": [ "Environmental Sciences & Ecology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6129, "doi": "10.1016/j.rse.2024.114249", "umap_coordinates": { "x": 394.0376281738281, "y": 135.41790771484375, "z": 204.3624267578125 }, "tsne_coordinates": { "x": 18.66240119934082, "y": 38.16379928588867, "z": 4.163582801818848 }, "pca_coordinates": { "x": -2.166480302810669, "y": 1.974684238433838, "z": -1.0855363607406616 }, "axis_scores": { "Quantum imaging": 0.6913905143737793, "Quantum Life Science Sensing": 0.7148823738098145, "Quantum sensing Detection": 0.6828192472457886, "Quantum sensing Metrology": 0.6788163781166077, "Quantum sensing navigation": 0.6856615543365479, "Quantum sensing Position": 0.6703288555145264, "Quantum sensing Timing": 0.6466169357299805, "Quantum sensing": 0.7014076113700867, "Quantum control": 0.6709594130516052 } }, { "id": 6123, "title": "Pre-flight qualification tests of the Mini-EUSO telescope engineering model", "abstract": "Mini-EUSO is part of the JEM-EUSO program and operates on board the International Space Station (ISS). It is a UV-telescope with single-photon counting capability looking at nighttime downwards to the...", "citations": 14, "author_count": 36, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6130, "doi": "10.1007/s10686-021-09805-w", "umap_coordinates": { "x": 395.05792236328125, "y": 134.91949462890625, "z": 205.7223358154297 }, "tsne_coordinates": { "x": -21.61627769470215, "y": 24.765647888183594, "z": 0.05864570662379265 }, "pca_coordinates": { "x": -2.0880320072174072, "y": 3.966783046722412, "z": 0.1349068284034729 }, "axis_scores": { "Quantum imaging": 0.6839721202850342, "Quantum Life Science Sensing": 0.7270019054412842, "Quantum sensing Detection": 0.6687440872192383, "Quantum sensing Metrology": 0.711371123790741, "Quantum sensing navigation": 0.691015362739563, "Quantum sensing Position": 0.6835886836051941, "Quantum sensing Timing": 0.6650095582008362, "Quantum sensing": 0.6870051026344299, "Quantum control": 0.6619744300842285 } }, { "id": 6124, "title": "Measurement of dijet production at low Q2 at HERA", "abstract": "Triple differential dijet cross sections in e(+/-)p interactions are presented in the region of photon virtualities 2 < Q(2) < 80 GeV2, inelasticities 0.1 < y < 0.85, jet transverse energies E*(T1) > ...", "citations": 21, "author_count": 314, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6131, "doi": "10.1140/epjc/s2004-01989-7", "umap_coordinates": { "x": 396.747802734375, "y": 134.45997619628906, "z": 207.04161071777344 }, "tsne_coordinates": { "x": -30.089584350585938, "y": 13.337350845336914, "z": -6.446238994598389 }, "pca_coordinates": { "x": 0.9593439102172852, "y": 2.990086078643799, "z": 1.917773962020874 }, "axis_scores": { "Quantum imaging": 0.7128390073776245, "Quantum Life Science Sensing": 0.7142736911773682, "Quantum sensing Detection": 0.7211633920669556, "Quantum sensing Metrology": 0.7061058282852173, "Quantum sensing navigation": 0.7137768268585205, "Quantum sensing Position": 0.7315179705619812, "Quantum sensing Timing": 0.730927050113678, "Quantum sensing": 0.7219197750091553, "Quantum control": 0.70902419090271 } }, { "id": 6125, "title": "Understanding the Influence of Guest-Host Interactions on the Conformation of Short Peptides in a Hydrophobic Cavity: A Computational Study", "abstract": "We performed a computational investigation to understand the conformational preferences of four short peptides in a self-assembled cage based on the experimental work by Y. Hatakeyama et al. (Angew. C...", "citations": 2, "author_count": 5, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6132, "doi": "10.1002/cphc.201001081", "umap_coordinates": { "x": 393.3567199707031, "y": 136.21282958984375, "z": 204.6411590576172 }, "tsne_coordinates": { "x": 25.83907127380371, "y": 19.501728057861328, "z": 7.117924213409424 }, "pca_coordinates": { "x": -1.6674071550369263, "y": 2.205613851547241, "z": -2.3465259075164795 }, "axis_scores": { "Quantum imaging": 0.6961830258369446, "Quantum Life Science Sensing": 0.7247823476791382, "Quantum sensing Detection": 0.6900346279144287, "Quantum sensing Metrology": 0.6748688220977783, "Quantum sensing navigation": 0.6802976131439209, "Quantum sensing Position": 0.66021728515625, "Quantum sensing Timing": 0.670581579208374, "Quantum sensing": 0.7080978155136108, "Quantum control": 0.6951010227203369 } }, { "id": 6126, "title": "Evaporation and deposition of alkyl-capped silicon nanocrystals in ultrahigh vacuum", "abstract": "Nanocrystals are under active investigation because of their interesting size- dependent properties(1,2) and potential applications(3-5). Silicon nanocrystals have been studied for possible uses in op...", "citations": 67, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6133, "doi": "10.1038/nnano.2007.224", "umap_coordinates": { "x": 392.7636413574219, "y": 133.5207977294922, "z": 206.9057159423828 }, "tsne_coordinates": { "x": 37.703643798828125, "y": -13.479118347167969, "z": -3.937645673751831 }, "pca_coordinates": { "x": -1.2880938053131104, "y": -2.3204684257507324, "z": 1.103376865386963 }, "axis_scores": { "Quantum imaging": 0.7229791283607483, "Quantum Life Science Sensing": 0.7242766618728638, "Quantum sensing Detection": 0.7212857007980347, "Quantum sensing Metrology": 0.6992985010147095, "Quantum sensing navigation": 0.713924765586853, "Quantum sensing Position": 0.6825248599052429, "Quantum sensing Timing": 0.6726973652839661, "Quantum sensing": 0.7327498197555542, "Quantum control": 0.7135923504829407 } }, { "id": 6127, "title": "New Multi-Flux-Quantum Logic family", "abstract": "We report on a voltage-state logic family based an shunted Josephson junctions and on the Rapid Single Flux Quantum (RSFQ) concept, Storing information in a voltage-state form makes this Multi-Flux-Qu...", "citations": 1, "author_count": 3, "categories": [ "Engineering" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6134, "doi": "10.1109/77.621695", "umap_coordinates": { "x": 394.48223876953125, "y": 136.34803771972656, "z": 206.25875854492188 }, "tsne_coordinates": { "x": -27.892635345458984, "y": -14.756293296813965, "z": 29.53886604309082 }, "pca_coordinates": { "x": 0.23089468479156494, "y": 0.6510353088378906, "z": 0.012993574142456055 }, "axis_scores": { "Quantum imaging": 0.7210097908973694, "Quantum Life Science Sensing": 0.7414891719818115, "Quantum sensing Detection": 0.7234530448913574, "Quantum sensing Metrology": 0.7228224873542786, "Quantum sensing navigation": 0.7310382127761841, "Quantum sensing Position": 0.6897132992744446, "Quantum sensing Timing": 0.671950101852417, "Quantum sensing": 0.7319321036338806, "Quantum control": 0.713958203792572 } }, { "id": 6128, "title": "Average glandular dose in routine mammography screening using a Sectra MicroDose Mammography unit", "abstract": "The Sectra MicroDose Mammography system is based on direct photon counting (with a solid-state detector), and a substantially lower dose to the breast than when using conventional systems can he expec...", "citations": 17, "author_count": 7, "categories": [ "Environmental Sciences & Ecology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6135, "doi": "10.1093/rpd/nch556", "umap_coordinates": { "x": 395.7050476074219, "y": 132.8125457763672, "z": 204.82315063476562 }, "tsne_coordinates": { "x": -6.347697734832764, "y": 32.1353874206543, "z": -20.189714431762695 }, "pca_coordinates": { "x": -2.9742324352264404, "y": 2.697537899017334, "z": 2.472252368927002 }, "axis_scores": { "Quantum imaging": 0.6519378423690796, "Quantum Life Science Sensing": 0.6761482954025269, "Quantum sensing Detection": 0.6596554517745972, "Quantum sensing Metrology": 0.6567306518554688, "Quantum sensing navigation": 0.6336607933044434, "Quantum sensing Position": 0.6402372121810913, "Quantum sensing Timing": 0.6110295057296753, "Quantum sensing": 0.6628468036651611, "Quantum control": 0.6179178953170776 } }, { "id": 6129, "title": "Temporally resolved refractive index structure parameter measurement", "abstract": "The refractive index structure parameter is the most common measure of optical turbulence. It is defined as a statistical quantity for the Kolmogorov spectrum energy cascade of turbulent eddies of dif...", "citations": 1, "author_count": 3, "categories": [ "Meteorology & Atmospheric Sciences" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6136, "doi": "10.1117/12.2278315", "umap_coordinates": { "x": 394.9180603027344, "y": 133.33267211914062, "z": 206.35914611816406 }, "tsne_coordinates": { "x": -2.0971412658691406, "y": 10.105278968811035, "z": -31.950008392333984 }, "pca_coordinates": { "x": -1.620719075202942, "y": 0.7557171583175659, "z": 2.6706039905548096 }, "axis_scores": { "Quantum imaging": 0.7399150133132935, "Quantum Life Science Sensing": 0.7445776462554932, "Quantum sensing Detection": 0.7208776473999023, "Quantum sensing Metrology": 0.7393835186958313, "Quantum sensing navigation": 0.7308881878852844, "Quantum sensing Position": 0.7280310392379761, "Quantum sensing Timing": 0.724502444267273, "Quantum sensing": 0.734620988368988, "Quantum control": 0.6882391571998596 } }, { "id": 6130, "title": "Topological holography: Towards a unification of Landau and beyond-Landau physics", "abstract": "We outline a holographic1 framework that attempts to unify Landau and beyond-Landau paradigms of quantum phases and phase transitions. Leveraging a modern understanding of symmetries as topological de...", "citations": 48, "author_count": 4, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6137, "doi": "10.21468/SciPostPhysCore.6.4.066", "umap_coordinates": { "x": 395.2413635253906, "y": 137.0279998779297, "z": 207.76345825195312 }, "tsne_coordinates": { "x": -29.530189514160156, "y": -15.470046043395996, "z": 15.13829517364502 }, "pca_coordinates": { "x": 1.9000372886657715, "y": 3.2469284534454346, "z": -0.023784756660461426 }, "axis_scores": { "Quantum imaging": 0.7360934019088745, "Quantum Life Science Sensing": 0.7545424699783325, "Quantum sensing Detection": 0.7238847613334656, "Quantum sensing Metrology": 0.7294949293136597, "Quantum sensing navigation": 0.743270993232727, "Quantum sensing Position": 0.7255423069000244, "Quantum sensing Timing": 0.7310758829116821, "Quantum sensing": 0.7372317910194397, "Quantum control": 0.712961733341217 } }, { "id": 6131, "title": "Photofragmentation of 2-deoxy-D-ribose molecules in the gas phase", "abstract": "We have measured the synchrotron-induced photofragmentation of isolated 2-deoxy-D-ribose molecules (C5H10O4) at four photon energies, namely, 23.0, 15.7, 14.6, and 13.8 eV At all photon energies above...", "citations": 31, "author_count": 8, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6138, "doi": "10.1002/cphc.200700635", "umap_coordinates": { "x": 392.8394470214844, "y": 136.71519470214844, "z": 205.7028045654297 }, "tsne_coordinates": { "x": 5.232253074645996, "y": 7.8955535888671875, "z": 13.28887939453125 }, "pca_coordinates": { "x": -1.1214616298675537, "y": 2.024467706680298, "z": -2.712550401687622 }, "axis_scores": { "Quantum imaging": 0.7178001403808594, "Quantum Life Science Sensing": 0.7407501935958862, "Quantum sensing Detection": 0.7138137221336365, "Quantum sensing Metrology": 0.6727604866027832, "Quantum sensing navigation": 0.6825905442237854, "Quantum sensing Position": 0.6775537133216858, "Quantum sensing Timing": 0.6723689436912537, "Quantum sensing": 0.7193133234977722, "Quantum control": 0.7050394415855408 } }, { "id": 6132, "title": "X-ray follow-up observations of the two γ-ray pulsars PSR J1459-6053 and PSR J1614-2230", "abstract": "Aims. We have observed two newly detected gamma-ray pulsars, PSR J1459-6053 and PSR J1614-2230, in the X-ray domain with XMM-Newton to try to enlarge the sample of pulsars for which multi-wavelength d...", "citations": 11, "author_count": 10, "categories": [ "Astronomy & Astrophysics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6139, "doi": "10.1051/0004-6361/201117888", "umap_coordinates": { "x": 396.48370361328125, "y": 134.69374084472656, "z": 206.31983947753906 }, "tsne_coordinates": { "x": -28.452714920043945, "y": 22.49079704284668, "z": 1.0733416080474854 }, "pca_coordinates": { "x": -0.3631768226623535, "y": 1.679359793663025, "z": 2.1789817810058594 }, "axis_scores": { "Quantum imaging": 0.6765296459197998, "Quantum Life Science Sensing": 0.7155346274375916, "Quantum sensing Detection": 0.6757507920265198, "Quantum sensing Metrology": 0.6705358624458313, "Quantum sensing navigation": 0.6918963193893433, "Quantum sensing Position": 0.6854838132858276, "Quantum sensing Timing": 0.6880061626434326, "Quantum sensing": 0.6856383681297302, "Quantum control": 0.6657445430755615 } }, { "id": 6133, "title": "Measurement of differential cross sections of isolated-photon plus heavy-flavour jet production in pp collisions at √s=8 TeV using the ATLAS detector", "abstract": "This Letter presents the measurement of differential cross sections of isolated prompt photons produced in association with a b-jet or a c-jet. These final states provide sensitivity to the heavy-flav...", "citations": 18, "author_count": 2666, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6140, "doi": "10.1016/j.physletb.2017.11.054", "umap_coordinates": { "x": 396.8544006347656, "y": 134.2406768798828, "z": 207.57632446289062 }, "tsne_coordinates": { "x": -31.63485336303711, "y": 7.525648593902588, "z": -10.745304107666016 }, "pca_coordinates": { "x": -1.3147233724594116, "y": 0.0804605484008789, "z": 2.78429913520813 }, "axis_scores": { "Quantum imaging": 0.7046659588813782, "Quantum Life Science Sensing": 0.6955692768096924, "Quantum sensing Detection": 0.7057188153266907, "Quantum sensing Metrology": 0.6645072102546692, "Quantum sensing navigation": 0.6683451533317566, "Quantum sensing Position": 0.6732889413833618, "Quantum sensing Timing": 0.676836371421814, "Quantum sensing": 0.7017298340797424, "Quantum control": 0.6547093391418457 } }, { "id": 6134, "title": "Fluorescence emission from photo-fragments after resonant S 2p excitations in H2S", "abstract": "Visible-UV fluorescence emission of gas-phase hydrogen sulfide, H2S, has been studied at the S 2p edge with synchrotron radiation excitation. Dispersed fluorescence measurements in the wavelength rang...", "citations": 14, "author_count": 9, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6141, "doi": "10.1039/b610199b", "umap_coordinates": { "x": 392.8005676269531, "y": 136.21966552734375, "z": 206.06585693359375 }, "tsne_coordinates": { "x": 7.633219242095947, "y": 2.0370211601257324, "z": 6.754062175750732 }, "pca_coordinates": { "x": 0.08130311965942383, "y": -1.1064233779907227, "z": -3.120253562927246 }, "axis_scores": { "Quantum imaging": 0.6829260587692261, "Quantum Life Science Sensing": 0.707656979560852, "Quantum sensing Detection": 0.6885231137275696, "Quantum sensing Metrology": 0.6537850499153137, "Quantum sensing navigation": 0.6554800868034363, "Quantum sensing Position": 0.6583823561668396, "Quantum sensing Timing": 0.6437582969665527, "Quantum sensing": 0.6974653005599976, "Quantum control": 0.6508262753486633 } }, { "id": 6135, "title": "Role of the ancillary ligand N,N-dimethylaminoethanol in the sensitization of EuIII and TbIII luminescence in dimeric β-diketonates", "abstract": "Two types of dimeric complexes [Ln(2)(hfa)(6)(mu(2)-O(CH2)(2)NHMe2)(2)] and [Ln(thd)(2)(mu(2),eta(2)-O(CH2)(2)NMe2)](2) (Ln = Y-III, Eu-III, Gd-III Th-III, Tm-III, Lu-III; hfa(-) = hexafluoroacetylace...", "citations": 101, "author_count": 9, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6142, "doi": "10.1021/jp711305u", "umap_coordinates": { "x": 391.9172668457031, "y": 135.63136291503906, "z": 204.70140075683594 }, "tsne_coordinates": { "x": 8.162813186645508, "y": -3.9812488555908203, "z": -24.93074607849121 }, "pca_coordinates": { "x": -2.3606157302856445, "y": -0.7594046592712402, "z": -1.6502583026885986 }, "axis_scores": { "Quantum imaging": 0.68790602684021, "Quantum Life Science Sensing": 0.6513076424598694, "Quantum sensing Detection": 0.6568478345870972, "Quantum sensing Metrology": 0.647651731967926, "Quantum sensing navigation": 0.6584699749946594, "Quantum sensing Position": 0.6432408094406128, "Quantum sensing Timing": 0.6702844500541687, "Quantum sensing": 0.6631439328193665, "Quantum control": 0.6417590975761414 } }, { "id": 6136, "title": "Aharonov-Bohm oscillations in a one-dimensional Wigner crystal ring", "abstract": "We calculate the magnetic moment (''persistent current'') in a strongly correlated electron system - a Wigner crystal - in a one-dimensional ballistic ring, for screened and for long-range Coulomb int...", "citations": 41, "author_count": 6, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6143, "doi": "10.1103/PhysRevB.52.16451", "umap_coordinates": { "x": 394.76788330078125, "y": 135.91949462890625, "z": 208.9654541015625 }, "tsne_coordinates": { "x": -4.690424919128418, "y": -21.143102645874023, "z": -4.201806545257568 }, "pca_coordinates": { "x": 4.911905288696289, "y": -0.6777629852294922, "z": -0.6183120012283325 }, "axis_scores": { "Quantum imaging": 0.703998327255249, "Quantum Life Science Sensing": 0.7167717814445496, "Quantum sensing Detection": 0.7025316953659058, "Quantum sensing Metrology": 0.7021253108978271, "Quantum sensing navigation": 0.7202790379524231, "Quantum sensing Position": 0.6788811683654785, "Quantum sensing Timing": 0.6770119071006775, "Quantum sensing": 0.7157518863677979, "Quantum control": 0.7190762758255005 } }, { "id": 6137, "title": "Predictors of seizure outcome after temporal lobectomy for intractable epilepsy", "abstract": "Objectives - To assess predictors of outcome of temporal lobectomy for intractable epilepsy. Material and methods - In 63 adult patients operated with anterior temporal lobectomy during 1988-92, we us...", "citations": 35, "author_count": 4, "categories": [ "Neurosciences & Neurology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6144, "doi": "10.1046/j.1600-0404.2003.00249.x", "umap_coordinates": { "x": 394.94598388671875, "y": 134.85028076171875, "z": 204.03512573242188 }, "tsne_coordinates": { "x": -9.008770942687988, "y": 28.063827514648438, "z": 4.350465297698975 }, "pca_coordinates": { "x": -1.0974429845809937, "y": 3.5700631141662598, "z": -0.2879074215888977 }, "axis_scores": { "Quantum imaging": 0.623098611831665, "Quantum Life Science Sensing": 0.6353973746299744, "Quantum sensing Detection": 0.6034003496170044, "Quantum sensing Metrology": 0.597971498966217, "Quantum sensing navigation": 0.6151067018508911, "Quantum sensing Position": 0.615547239780426, "Quantum sensing Timing": 0.6568387150764465, "Quantum sensing": 0.6113184690475464, "Quantum control": 0.623290479183197 } }, { "id": 6138, "title": "2-PHOTON LASER-INDUCED FLUORESCENCE AND STIMULATED-EMISSION MEASUREMENTS FROM OXYGEN-ATOMS IN A HYDROGEN/OXYGEN FLAME WITH PICOSECOND RESOLUTION", "abstract": "Oxygen atoms in a hydrogen/oxygen flame were excited from the ground 2p P-3 state to the 3p P-3 state by two photons at 226 nm using 10 ps laser pulses. The subsequent deexcitation to the 3s S-3 state...", "citations": 19, "author_count": 3, "categories": [ "Optics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6145, "doi": "10.1016/0030-4018(94)90618-1", "umap_coordinates": { "x": 394.4634704589844, "y": 134.82957458496094, "z": 205.8163299560547 }, "tsne_coordinates": { "x": 8.204414367675781, "y": 15.992653846740723, "z": -33.92736053466797 }, "pca_coordinates": { "x": -1.7122540473937988, "y": -1.32297945022583, "z": 1.606001615524292 }, "axis_scores": { "Quantum imaging": 0.7184582948684692, "Quantum Life Science Sensing": 0.7348140478134155, "Quantum sensing Detection": 0.7149184942245483, "Quantum sensing Metrology": 0.7040744423866272, "Quantum sensing navigation": 0.6940273642539978, "Quantum sensing Position": 0.6820290088653564, "Quantum sensing Timing": 0.6691878437995911, "Quantum sensing": 0.727246105670929, "Quantum control": 0.6685154438018799 } }, { "id": 6139, "title": "Structural Balance and Random Walks on Complex Networks with Complex Weights", "abstract": "Complex numbers define the relationship between entities in many situations. A canonical example would be the off-diagonal terms in a Hamiltonian matrix in quantum physics. Recent years have seen an i...", "citations": 4, "author_count": 3, "categories": [ "Mathematics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6146, "doi": "10.1137/23M1584265", "umap_coordinates": { "x": 394.69183349609375, "y": 136.04847717285156, "z": 205.38009643554688 }, "tsne_coordinates": { "x": -20.097116470336914, "y": -16.35285758972168, "z": 18.055875778198242 }, "pca_coordinates": { "x": 1.4789388179779053, "y": 1.9051282405853271, "z": -2.245389223098755 }, "axis_scores": { "Quantum imaging": 0.6979483962059021, "Quantum Life Science Sensing": 0.7203792333602905, "Quantum sensing Detection": 0.6893628239631653, "Quantum sensing Metrology": 0.7030671834945679, "Quantum sensing navigation": 0.7352555990219116, "Quantum sensing Position": 0.6870638728141785, "Quantum sensing Timing": 0.6499803066253662, "Quantum sensing": 0.7039291262626648, "Quantum control": 0.7318839430809021 } }, { "id": 6140, "title": "Broadband Enhanced Chirality with Tunable Response in Hybrid Plasmonic Helical Metamaterials", "abstract": "Designing broadband enhanced chirality is of strong interest to the emerging fields of chiral chemistry and sensing, or to control the spin orbital momentum of photons in recently introduced nanophoto...", "citations": 56, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6147, "doi": "10.1002/adfm.202010329", "umap_coordinates": { "x": 392.6986999511719, "y": 134.4203338623047, "z": 206.13601684570312 }, "tsne_coordinates": { "x": 30.808143615722656, "y": -10.11766529083252, "z": -21.647289276123047 }, "pca_coordinates": { "x": -1.153377890586853, "y": -2.1634654998779297, "z": -0.9339910745620728 }, "axis_scores": { "Quantum imaging": 0.6904191374778748, "Quantum Life Science Sensing": 0.6667747497558594, "Quantum sensing Detection": 0.6716444492340088, "Quantum sensing Metrology": 0.6766345500946045, "Quantum sensing navigation": 0.6717864871025085, "Quantum sensing Position": 0.646393895149231, "Quantum sensing Timing": 0.639898419380188, "Quantum sensing": 0.6866023540496826, "Quantum control": 0.6675227880477905 } }, { "id": 6141, "title": "Demonstration and analysis of a 40-gigasample/s interferometric analog-to-digital converter", "abstract": "A novel interferometric scheme for photonic analog-to-digital conversion is for the first time experimentally demonstrated at a real-time sample rate of 40 gigasamples/s. The scheme includes sampling ...", "citations": 64, "author_count": 3, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6148, "doi": "10.1109/JLT.2005.863262", "umap_coordinates": { "x": 394.7787170410156, "y": 133.68356323242188, "z": 206.81735229492188 }, "tsne_coordinates": { "x": 0.17367109656333923, "y": -2.403477430343628, "z": -39.499149322509766 }, "pca_coordinates": { "x": 0.16701292991638184, "y": 0.9576261043548584, "z": 2.581681966781616 }, "axis_scores": { "Quantum imaging": 0.7014947533607483, "Quantum Life Science Sensing": 0.7195728421211243, "Quantum sensing Detection": 0.6968405842781067, "Quantum sensing Metrology": 0.7031047344207764, "Quantum sensing navigation": 0.6809225082397461, "Quantum sensing Position": 0.6648869514465332, "Quantum sensing Timing": 0.688155472278595, "Quantum sensing": 0.7126543521881104, "Quantum control": 0.6742897033691406 } }, { "id": 6142, "title": "Reconstruction of quantum theory on the basis of the formula of total probability", "abstract": "The notion of context (complex of physical conditions) is basic in this paper. We show that the main structures of quantum theory (interference of probabilities, Born's rule, complex probabilistic amp...", "citations": 15, "author_count": 2, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6149, "doi": null, "umap_coordinates": { "x": 392.1311340332031, "y": 139.42347717285156, "z": 209.22872924804688 }, "tsne_coordinates": { "x": -12.318344116210938, "y": 40.616539001464844, "z": 0.049213238060474396 }, "pca_coordinates": { "x": 1.632972240447998, "y": 5.328050136566162, "z": -1.2815229892730713 }, "axis_scores": { "Quantum imaging": 0.7705273628234863, "Quantum Life Science Sensing": 0.7698702812194824, "Quantum sensing Detection": 0.7760763168334961, "Quantum sensing Metrology": 0.7673118710517883, "Quantum sensing navigation": 0.7770423889160156, "Quantum sensing Position": 0.7465518116950989, "Quantum sensing Timing": 0.7333512902259827, "Quantum sensing": 0.7840807437896729, "Quantum control": 0.759101927280426 } }, { "id": 6143, "title": "Temperature dependence of the bulk energy gap in underdoped Bi2Sr2CaCu2O8+δ: Evidence for the mean-field superconducting transition", "abstract": "Understanding of the puzzling phenomenon of high-temperature superconductivity requires reliable spectroscopic information about temperature dependence of the bulk electronic density of states. Here I...", "citations": 47, "author_count": 2, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6150, "doi": "10.1103/PhysRevB.79.214510", "umap_coordinates": { "x": 393.3746337890625, "y": 135.53216552734375, "z": 208.2989959716797 }, "tsne_coordinates": { "x": -1.1670819520950317, "y": -25.406021118164062, "z": 15.769355773925781 }, "pca_coordinates": { "x": 2.795018434524536, "y": -1.6840453147888184, "z": -1.2705668210983276 }, "axis_scores": { "Quantum imaging": 0.6761077046394348, "Quantum Life Science Sensing": 0.7087162733078003, "Quantum sensing Detection": 0.6877996921539307, "Quantum sensing Metrology": 0.6952463388442993, "Quantum sensing navigation": 0.6884577870368958, "Quantum sensing Position": 0.6829044818878174, "Quantum sensing Timing": 0.6800139546394348, "Quantum sensing": 0.6979293823242188, "Quantum control": 0.667709469795227 } }, { "id": 6144, "title": "Photovoltaic Energy Conversion", "abstract": "This chapter provides an introduction to the basic principles of solar energy conversion including its thermodynamic limits. We discuss the optical and electrical requirements for an ideal photovoltai...", "citations": 5, "author_count": 2, "categories": [ "Energy & Fuels" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6151, "doi": "10.1007/978-3-319-10097-5_2", "umap_coordinates": { "x": 393.5483703613281, "y": 134.2574920654297, "z": 205.45477294921875 }, "tsne_coordinates": { "x": -14.582467079162598, "y": 17.73145294189453, "z": 5.506711006164551 }, "pca_coordinates": { "x": -2.09818696975708, "y": -0.264542818069458, "z": 0.01123577356338501 }, "axis_scores": { "Quantum imaging": 0.6845529079437256, "Quantum Life Science Sensing": 0.7052079439163208, "Quantum sensing Detection": 0.6802387237548828, "Quantum sensing Metrology": 0.6913294792175293, "Quantum sensing navigation": 0.6742873787879944, "Quantum sensing Position": 0.6648808121681213, "Quantum sensing Timing": 0.650102972984314, "Quantum sensing": 0.6936771869659424, "Quantum control": 0.6810247302055359 } }, { "id": 6145, "title": "Why is Ulva intestinalis the only macroalga inhabiting isolated rockpools along the Swedish Atlantic coast?", "abstract": "Ulva intestinalis (previously called Enteromorpha intestinalis) is the principal marine macroalga growing in isolated rockpools along the Swedish west coast. Given that this alga can take up HCO3- und...", "citations": 71, "author_count": 4, "categories": [ "Environmental Sciences & Ecology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6152, "doi": "10.3354/meps284109", "umap_coordinates": { "x": 393.5926208496094, "y": 136.04759216308594, "z": 203.5681610107422 }, "tsne_coordinates": { "x": 19.36208724975586, "y": 28.171762466430664, "z": 18.080242156982422 }, "pca_coordinates": { "x": -3.231562852859497, "y": 3.4508633613586426, "z": -3.6608691215515137 }, "axis_scores": { "Quantum imaging": 0.6190148591995239, "Quantum Life Science Sensing": 0.6666221618652344, "Quantum sensing Detection": 0.5987918376922607, "Quantum sensing Metrology": 0.6233609914779663, "Quantum sensing navigation": 0.6272881627082825, "Quantum sensing Position": 0.6095063090324402, "Quantum sensing Timing": 0.5597178936004639, "Quantum sensing": 0.625828206539154, "Quantum control": 0.615597128868103 } }, { "id": 6146, "title": "Photon upconversion crystals doped bacterial cellulose composite films as recyclable photonic bioplastics", "abstract": "Biopolymers currently utilized as substitutes for synthetic polymers in photonics applications are predominantly confined to linear optical color responses. Herein we expand their applications in non-...", "citations": 2, "author_count": 13, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6153, "doi": "10.1038/s43246-024-00638-6", "umap_coordinates": { "x": 393.1171569824219, "y": 134.61692810058594, "z": 204.5037841796875 }, "tsne_coordinates": { "x": 7.454051494598389, "y": 20.92851448059082, "z": -9.502224922180176 }, "pca_coordinates": { "x": -4.741185188293457, "y": -2.103882312774658, "z": -0.10955697298049927 }, "axis_scores": { "Quantum imaging": 0.6926489472389221, "Quantum Life Science Sensing": 0.7283056974411011, "Quantum sensing Detection": 0.679878294467926, "Quantum sensing Metrology": 0.6542784571647644, "Quantum sensing navigation": 0.6736288666725159, "Quantum sensing Position": 0.6587136387825012, "Quantum sensing Timing": 0.6335286498069763, "Quantum sensing": 0.6934008002281189, "Quantum control": 0.6584910750389099 } }, { "id": 6147, "title": "Neutralino annihilation into a photon and a Z boson", "abstract": "A full one-loop calculation of neutralino S-wave annihilation into the Z gamma final state is performed in the minimal supersymmetric extension of the standard model. This process, like the similar on...", "citations": 159, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 6154, "doi": "10.1103/PhysRevD.57.1962", "umap_coordinates": { "x": 395.6888732910156, "y": 135.146728515625, "z": 208.45236206054688 }, "tsne_coordinates": { "x": -5.762907028198242, "y": -15.176728248596191, "z": 6.170132160186768 }, "pca_coordinates": { "x": 3.9205164909362793, "y": 0.16757583618164062, "z": 1.3935980796813965 }, "axis_scores": { "Quantum imaging": 0.7154573202133179, "Quantum Life Science Sensing": 0.730337917804718, "Quantum sensing Detection": 0.7339001893997192, "Quantum sensing Metrology": 0.6932156085968018, "Quantum sensing navigation": 0.7292214035987854, "Quantum sensing Position": 0.6957820653915405, "Quantum sensing Timing": 0.6904826760292053, "Quantum sensing": 0.7288994789123535, "Quantum control": 0.7135966420173645 } }, { "id": 6148, "title": "Copper Phenanthroline as a Fast and High-Performance Redox Mediator for Dye-Sensitized Solar Cells", "abstract": "The most commonly used redox mediators in dye-sensitized solar cells (DSCs), iodide/triiodide and cobalt trisbipyridine ([Co(bpy)(3)](2+/3+)), were successfully replaced by bis (2,9-dimethy1-1,10-phen...", "citations": 146, "author_count": 10, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6155, "doi": "10.1021/acs.jpcc.6b01658", "umap_coordinates": { "x": 391.8213195800781, "y": 134.4930419921875, "z": 204.68128967285156 }, "tsne_coordinates": { "x": 17.66730308532715, "y": 4.129931449890137, "z": -22.79339599609375 }, "pca_coordinates": { "x": -3.0384914875030518, "y": -3.8087315559387207, "z": -1.0031400918960571 }, "axis_scores": { "Quantum imaging": 0.6804310083389282, "Quantum Life Science Sensing": 0.6997271776199341, "Quantum sensing Detection": 0.6897327899932861, "Quantum sensing Metrology": 0.657329261302948, "Quantum sensing navigation": 0.6620324850082397, "Quantum sensing Position": 0.6612697243690491, "Quantum sensing Timing": 0.6617493033409119, "Quantum sensing": 0.6946607828140259, "Quantum control": 0.6722221374511719 } }, { "id": 6149, "title": "Qudit-Based Spectroscopy for Measurement and Control of Nuclear-Spin Qubits in Silicon Carbide", "abstract": "Nuclear spins with hyperfine coupling to single electron spins are highly valuable quantum bits. Here we probe and characterize the particularly rich nuclear-spin environment around single silicon vac...", "citations": 6, "author_count": 13, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6156, "doi": "10.1103/PhysRevLett.132.090601", "umap_coordinates": { "x": 394.70098876953125, "y": 135.60548400878906, "z": 208.092041015625 }, "tsne_coordinates": { "x": 5.926181793212891, "y": -15.177255630493164, "z": 0.8793888092041016 }, "pca_coordinates": { "x": 2.6808481216430664, "y": -1.0366747379302979, "z": 0.7344420552253723 }, "axis_scores": { "Quantum imaging": 0.7546954154968262, "Quantum Life Science Sensing": 0.7751389741897583, "Quantum sensing Detection": 0.7665590047836304, "Quantum sensing Metrology": 0.7558931112289429, "Quantum sensing navigation": 0.7567687630653381, "Quantum sensing Position": 0.731408953666687, "Quantum sensing Timing": 0.7210193276405334, "Quantum sensing": 0.7711892127990723, "Quantum control": 0.7477254867553711 } }, { "id": 6150, "title": "Studying the biology of cytotoxic T lymphocytes in vivo with a fluorescent granzyme B-mTFP knock-in mouse", "abstract": "Understanding T cell function in vivo is of key importance for basic and translational immunology alike. To study T cells in vivo, we developed a new knock-in mouse line, which expresses a fusion prot...", "citations": 13, "author_count": 14, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6157, "doi": "10.7554/eLife.58065", "umap_coordinates": { "x": 394.58465576171875, "y": 134.7817840576172, "z": 204.1487274169922 }, "tsne_coordinates": { "x": 2.298755645751953, "y": 23.03953742980957, "z": 4.899008274078369 }, "pca_coordinates": { "x": -3.4590091705322266, "y": 2.9860458374023438, "z": -1.166365385055542 }, "axis_scores": { "Quantum imaging": 0.666930079460144, "Quantum Life Science Sensing": 0.6624160408973694, "Quantum sensing Detection": 0.6259572505950928, "Quantum sensing Metrology": 0.6202806830406189, "Quantum sensing navigation": 0.6425997018814087, "Quantum sensing Position": 0.6184529662132263, "Quantum sensing Timing": 0.6263793706893921, "Quantum sensing": 0.6405232548713684, "Quantum control": 0.6329177021980286 } }, { "id": 6151, "title": "UV to NIR optical properties of IP-Dip, IP-L, and IP-S after two-photon polymerization determined by spectroscopic ellipsometry", "abstract": "The polymers IP-Dip, IP-L, and IP-S are among the most commonly used photo-resists employed for the rapid prototyping of optical components using two-photon polymerization. Despite the widespread use ...", "citations": 40, "author_count": 11, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6158, "doi": "10.1364/OME.9.004318", "umap_coordinates": { "x": 393.81878662109375, "y": 135.09786987304688, "z": 205.3647918701172 }, "tsne_coordinates": { "x": 13.455445289611816, "y": 11.77559757232666, "z": -35.20948028564453 }, "pca_coordinates": { "x": -3.5377309322357178, "y": 0.273024320602417, "z": 0.671598494052887 }, "axis_scores": { "Quantum imaging": 0.7303197383880615, "Quantum Life Science Sensing": 0.7247471213340759, "Quantum sensing Detection": 0.6916609406471252, "Quantum sensing Metrology": 0.6948099732398987, "Quantum sensing navigation": 0.6756341457366943, "Quantum sensing Position": 0.6733591556549072, "Quantum sensing Timing": 0.671826958656311, "Quantum sensing": 0.7146708965301514, "Quantum control": 0.6696277260780334 } }, { "id": 6152, "title": "Intravital imaging-based analysis tools for vessel identification and assessment of concurrent dynamic vascular events", "abstract": "The vasculature undergoes changes in diameter, permeability and blood flow in response to specific stimuli. The dynamics and interdependence of these responses in different vessels are largely unknown...", "citations": 66, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6159, "doi": "10.1038/s41467-018-04929-8", "umap_coordinates": { "x": 394.8907775878906, "y": 134.04995727539062, "z": 204.7266845703125 }, "tsne_coordinates": { "x": 0.2737239897251129, "y": 26.833385467529297, "z": 0.9784193634986877 }, "pca_coordinates": { "x": -3.290530204772949, "y": 3.8348586559295654, "z": 1.299473524093628 }, "axis_scores": { "Quantum imaging": 0.7164053320884705, "Quantum Life Science Sensing": 0.6733585000038147, "Quantum sensing Detection": 0.6775792241096497, "Quantum sensing Metrology": 0.649527907371521, "Quantum sensing navigation": 0.683652400970459, "Quantum sensing Position": 0.6718428730964661, "Quantum sensing Timing": 0.6881664395332336, "Quantum sensing": 0.6663687825202942, "Quantum control": 0.6612007021903992 } }, { "id": 6153, "title": "Double- and zero-quantum NMR relaxation dispersion experiments sampling millisecond time scale dynamics in proteins", "abstract": "TROSY-based NMR relaxation dispersion experiments that measure the decay of double- and zero-quantum H-1-N-15 coherences as a function of applied H-1 and N-15 radio frequency (rf) fields are presented...", "citations": 91, "author_count": 4, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6160, "doi": "10.1021/ja038620y", "umap_coordinates": { "x": 392.62274169921875, "y": 136.7412567138672, "z": 206.396484375 }, "tsne_coordinates": { "x": 19.084617614746094, "y": 4.999592304229736, "z": 29.001707077026367 }, "pca_coordinates": { "x": 0.3840402364730835, "y": 0.18429160118103027, "z": -3.4195306301116943 }, "axis_scores": { "Quantum imaging": 0.708078920841217, "Quantum Life Science Sensing": 0.7472044825553894, "Quantum sensing Detection": 0.6840128302574158, "Quantum sensing Metrology": 0.6844130754470825, "Quantum sensing navigation": 0.6987185478210449, "Quantum sensing Position": 0.6831328272819519, "Quantum sensing Timing": 0.7166920900344849, "Quantum sensing": 0.7035667300224304, "Quantum control": 0.6846166253089905 } }, { "id": 6154, "title": "HEAT-GENERATION IN SEMICONDUCTOR-DEVICES", "abstract": "A general and practical model for heat generation that can be used in the heat conduction equation for nonisothermal semiconductor device simulations is presented. The model is developed for cubic sem...", "citations": 81, "author_count": 2, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6161, "doi": "10.1063/1.356450", "umap_coordinates": { "x": 393.3954772949219, "y": 134.14630126953125, "z": 208.38194274902344 }, "tsne_coordinates": { "x": 28.523996353149414, "y": -16.84944725036621, "z": -1.549056053161621 }, "pca_coordinates": { "x": 2.576172113418579, "y": -3.0429463386535645, "z": 0.14329415559768677 }, "axis_scores": { "Quantum imaging": 0.7111889719963074, "Quantum Life Science Sensing": 0.7445895075798035, "Quantum sensing Detection": 0.73062664270401, "Quantum sensing Metrology": 0.7199492454528809, "Quantum sensing navigation": 0.7063014507293701, "Quantum sensing Position": 0.6901811957359314, "Quantum sensing Timing": 0.6884015798568726, "Quantum sensing": 0.7428925037384033, "Quantum control": 0.711051881313324 } }, { "id": 6155, "title": "Molecular dynamics effects on luminescence properties of oligothiophene derivatives: a molecular mechanics-response theory study based on the CHARMM force field and density functional theory", "abstract": "CHARMM force field parameter values for a class of oligothiophene derivatives have been derived with reference to density functional theory/B3LYP potential energy surfaces. The force field parametriza...", "citations": 25, "author_count": 5, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6162, "doi": "10.1039/c1cp21252d", "umap_coordinates": { "x": 392.3973083496094, "y": 136.32000732421875, "z": 205.35548400878906 }, "tsne_coordinates": { "x": -0.5018411874771118, "y": 3.428881883621216, "z": 1.3076963424682617 }, "pca_coordinates": { "x": -1.0445544719696045, "y": -0.858231782913208, "z": -3.027301788330078 }, "axis_scores": { "Quantum imaging": 0.7162342667579651, "Quantum Life Science Sensing": 0.7193506956100464, "Quantum sensing Detection": 0.7060199975967407, "Quantum sensing Metrology": 0.6815237998962402, "Quantum sensing navigation": 0.699817419052124, "Quantum sensing Position": 0.681220293045044, "Quantum sensing Timing": 0.687839150428772, "Quantum sensing": 0.7114448547363281, "Quantum control": 0.716124415397644 } }, { "id": 6156, "title": "Shake-up transitions in S 2p, S 2s and F 1s photoionization of the SF6 molecule", "abstract": "Shake-up transitions occurring upon core photoionization in the SF6 molecule have been studied experimentally and theoretically. The S 2p, S 2s and F 1s shake-up satellite photoelectron spectra were m...", "citations": 17, "author_count": 6, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6163, "doi": "10.1088/0953-4075/42/5/055102", "umap_coordinates": { "x": 394.22332763671875, "y": 135.68556213378906, "z": 205.73501586914062 }, "tsne_coordinates": { "x": -3.566519021987915, "y": 7.808604717254639, "z": 7.517284393310547 }, "pca_coordinates": { "x": -0.24123609066009521, "y": 1.497133493423462, "z": -1.0634253025054932 }, "axis_scores": { "Quantum imaging": 0.6732009053230286, "Quantum Life Science Sensing": 0.7134597301483154, "Quantum sensing Detection": 0.6619207859039307, "Quantum sensing Metrology": 0.6574052572250366, "Quantum sensing navigation": 0.6679709553718567, "Quantum sensing Position": 0.6631833910942078, "Quantum sensing Timing": 0.6400920748710632, "Quantum sensing": 0.6842241883277893, "Quantum control": 0.6451835036277771 } }, { "id": 6157, "title": "Polyene-lipids: A new tool to image lipids", "abstract": "Microscopy of lipids in living cells is currently hampered by a lack of adequate fluorescent tags. The most frequently used tags, NBD and BODIPY, strongly influence the properties of lipids, yielding ...", "citations": 164, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6164, "doi": "10.1038/NMETH728", "umap_coordinates": { "x": 392.8795471191406, "y": 135.179443359375, "z": 204.5222625732422 }, "tsne_coordinates": { "x": 8.04218864440918, "y": 14.097859382629395, "z": -19.510934829711914 }, "pca_coordinates": { "x": -3.9122793674468994, "y": 0.5984065532684326, "z": -0.5379188656806946 }, "axis_scores": { "Quantum imaging": 0.708538830280304, "Quantum Life Science Sensing": 0.6988850235939026, "Quantum sensing Detection": 0.6714673042297363, "Quantum sensing Metrology": 0.6650307774543762, "Quantum sensing navigation": 0.6720985174179077, "Quantum sensing Position": 0.6630129218101501, "Quantum sensing Timing": 0.6301655769348145, "Quantum sensing": 0.6800280213356018, "Quantum control": 0.6480912566184998 } }, { "id": 6158, "title": "Reflection asymmetric states in Nd-146", "abstract": "High-spin states in Nd-146 up to an excitation energy of 7.4 MeV were studied via the Xe-136(C-13,3n gamma) reaction. A quasi-rotational band consisting of alternating parity levels connected by fast ...", "citations": 15, "author_count": 8, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6165, "doi": "10.1016/0375-9474(95)00383-5", "umap_coordinates": { "x": 393.3661193847656, "y": 135.82904052734375, "z": 207.02423095703125 }, "tsne_coordinates": { "x": 29.643186569213867, "y": -6.3356733322143555, "z": 20.10111427307129 }, "pca_coordinates": { "x": 0.3646206855773926, "y": -0.11114335060119629, "z": 0.5630471110343933 }, "axis_scores": { "Quantum imaging": 0.706567645072937, "Quantum Life Science Sensing": 0.6841000318527222, "Quantum sensing Detection": 0.696548581123352, "Quantum sensing Metrology": 0.6882360577583313, "Quantum sensing navigation": 0.6999320387840271, "Quantum sensing Position": 0.6931756138801575, "Quantum sensing Timing": 0.6759027242660522, "Quantum sensing": 0.6971005201339722, "Quantum control": 0.6557058095932007 } }, { "id": 6159, "title": "Atomic Hydrogen Annealing of Graphene on InAs Surfaces and Nanowires: Interface and Morphology Control for Optoelectronics and Quantum Technologies", "abstract": "Folding two-dimensional graphene around one-dimensional III-V nanowires yields a new class of hybrid nanomaterials combining their excellent complementary properties. However, important for high-quali...", "citations": 2, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6166, "doi": "10.1021/acsanm.2c03891", "umap_coordinates": { "x": 392.1709899902344, "y": 134.0373077392578, "z": 206.92947387695312 }, "tsne_coordinates": { "x": 23.132177352905273, "y": -11.889391899108887, "z": -5.977790355682373 }, "pca_coordinates": { "x": -0.06618654727935791, "y": -4.4319586753845215, "z": -0.6300472617149353 }, "axis_scores": { "Quantum imaging": 0.7236476540565491, "Quantum Life Science Sensing": 0.7385697364807129, "Quantum sensing Detection": 0.7186944484710693, "Quantum sensing Metrology": 0.7213786244392395, "Quantum sensing navigation": 0.7292890548706055, "Quantum sensing Position": 0.7006672024726868, "Quantum sensing Timing": 0.6831715703010559, "Quantum sensing": 0.7361972332000732, "Quantum control": 0.7136455774307251 } }, { "id": 6160, "title": "Time-optimal quantum transformations with bounded bandwidth", "abstract": "In this paper, we derive sharp lower bounds, also known as quantum speed limits, for the time it takes to transform a quantum system into a state such that an observable assumes its lowest average val...", "citations": 5, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6167, "doi": "10.22331/q-2021-05-27-462", "umap_coordinates": { "x": 395.48077392578125, "y": 136.33982849121094, "z": 206.46876525878906 }, "tsne_coordinates": { "x": -25.24782943725586, "y": 3.069225549697876, "z": -0.5592231750488281 }, "pca_coordinates": { "x": 1.521688461303711, "y": 3.2054977416992188, "z": 0.531337320804596 }, "axis_scores": { "Quantum imaging": 0.7651795148849487, "Quantum Life Science Sensing": 0.7331343293190002, "Quantum sensing Detection": 0.734849214553833, "Quantum sensing Metrology": 0.7429590821266174, "Quantum sensing navigation": 0.7545673847198486, "Quantum sensing Position": 0.7097094058990479, "Quantum sensing Timing": 0.7624391317367554, "Quantum sensing": 0.7535313963890076, "Quantum control": 0.7644320726394653 } }, { "id": 6161, "title": "Polarizabilities and van der Waals C6 coefficients of fullerenes from an atomistic electrodynamics model: Anomalous scaling with number of carbon atoms", "abstract": "The van der Waals C-6 coefficients of fullerenes are shown to exhibit an anomalous dependence on the number of carbon atoms N such that C-6 proportional to N-2.2 as predicted using state-of-the-art qu...", "citations": 6, "author_count": 3, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6168, "doi": "10.1063/1.4955193", "umap_coordinates": { "x": 393.62921142578125, "y": 137.01368713378906, "z": 206.74658203125 }, "tsne_coordinates": { "x": 26.114810943603516, "y": -26.968280792236328, "z": -12.43824291229248 }, "pca_coordinates": { "x": 1.1333494186401367, "y": -0.4290781021118164, "z": -0.969281792640686 }, "axis_scores": { "Quantum imaging": 0.7040729522705078, "Quantum Life Science Sensing": 0.7335288524627686, "Quantum sensing Detection": 0.6965718269348145, "Quantum sensing Metrology": 0.6938992738723755, "Quantum sensing navigation": 0.7080212235450745, "Quantum sensing Position": 0.6791115999221802, "Quantum sensing Timing": 0.6535564064979553, "Quantum sensing": 0.7147406935691833, "Quantum control": 0.7006453275680542 } }, { "id": 6162, "title": "Investigation of two-photon-induced polarization spectroscopy of the a-X (1,0) transition in molecular nitrogen at elevated pressures", "abstract": "Two-photon-induced polarization spectroscopy of molecular nitrogen in the a (1)Pi(g)(v' = 10) <-- X (1)Sigma g(+) (v = 0) system near 283 nm was performed, and its signal dependence investigated over...", "citations": 13, "author_count": 3, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6169, "doi": "10.1364/AO.39.001042", "umap_coordinates": { "x": 393.6008605957031, "y": 135.9722900390625, "z": 206.39866638183594 }, "tsne_coordinates": { "x": -2.5127370357513428, "y": -3.4159817695617676, "z": 11.513043403625488 }, "pca_coordinates": { "x": 0.020111680030822754, "y": 0.13018345832824707, "z": 0.5889108777046204 }, "axis_scores": { "Quantum imaging": 0.7149960994720459, "Quantum Life Science Sensing": 0.7060158252716064, "Quantum sensing Detection": 0.7046332359313965, "Quantum sensing Metrology": 0.6709003448486328, "Quantum sensing navigation": 0.683678925037384, "Quantum sensing Position": 0.67695152759552, "Quantum sensing Timing": 0.6731752157211304, "Quantum sensing": 0.7075753808021545, "Quantum control": 0.6694009900093079 } }, { "id": 6163, "title": "High-energy characteristics of the accretion-powered millisecond pulsar IGR J17591-2342 during its 2018 outburst: XMM-Newton, NICER, NuSTAR, and INTEGRAL view of the 0.3-300 keV X-ray band", "abstract": "IGR J17591-2342 is an accreting millisecond X-ray pulsar, discovered with INTEGRAL, which went into outburst around July 21, 2018. To better understand the physics acting in these systems during the o...", "citations": 14, "author_count": 8, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6170, "doi": "10.1051/0004-6361/202037812", "umap_coordinates": { "x": 395.8983459472656, "y": 134.8907012939453, "z": 206.01878356933594 }, "tsne_coordinates": { "x": -28.744489669799805, "y": 21.68789291381836, "z": 3.185788869857788 }, "pca_coordinates": { "x": -1.6793735027313232, "y": 1.2311527729034424, "z": 0.4726871848106384 }, "axis_scores": { "Quantum imaging": 0.6616511344909668, "Quantum Life Science Sensing": 0.6885013580322266, "Quantum sensing Detection": 0.6430813670158386, "Quantum sensing Metrology": 0.6416888236999512, "Quantum sensing navigation": 0.6451083421707153, "Quantum sensing Position": 0.6302939057350159, "Quantum sensing Timing": 0.6531239748001099, "Quantum sensing": 0.6518260836601257, "Quantum control": 0.6260285973548889 } }, { "id": 6164, "title": "DETERMINATION OF INTERNUCLEAR DISTANCES AND THE ORIENTATION OF FUNCTIONAL-GROUPS BY SOLID-STATE NMR - ROTATIONAL RESONANCE STUDY OF THE CONFORMATION OF RETINAL IN BACTERIORHODOPSIN", "abstract": "We have used a new solid-state NMR technique-rotational resonance-to determine both internuclear distances and the relative orientations of chemical groups (dihedral angles) in retinal bound to bacter...", "citations": 68, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6171, "doi": "10.1021/bi00186a012", "umap_coordinates": { "x": 392.6588439941406, "y": 136.81497192382812, "z": 205.9146270751953 }, "tsne_coordinates": { "x": 18.155424118041992, "y": 1.6991543769836426, "z": 24.356643676757812 }, "pca_coordinates": { "x": 0.012901663780212402, "y": 0.3538675308227539, "z": -2.465345621109009 }, "axis_scores": { "Quantum imaging": 0.6807753443717957, "Quantum Life Science Sensing": 0.6993502974510193, "Quantum sensing Detection": 0.6639432907104492, "Quantum sensing Metrology": 0.6720695495605469, "Quantum sensing navigation": 0.6918975710868835, "Quantum sensing Position": 0.6946470737457275, "Quantum sensing Timing": 0.6637202501296997, "Quantum sensing": 0.6837300062179565, "Quantum control": 0.6412131190299988 } }, { "id": 6165, "title": "Hydrogen bond effects in multimode nuclear dynamics of acetic acid observed via resonant x-ray scattering", "abstract": "A theoretical and experimental study of the gas phase and liquid acetic acid based on resonant inelastic x-ray scattering (RIXS) spectroscopy is presented. We combine and compare different levels of t...", "citations": 7, "author_count": 20, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6172, "doi": "10.1063/5.0049966", "umap_coordinates": { "x": 392.9069519042969, "y": 136.9329833984375, "z": 206.53282165527344 }, "tsne_coordinates": { "x": 2.1655936241149902, "y": 2.0065650939941406, "z": 27.835241317749023 }, "pca_coordinates": { "x": 1.304966926574707, "y": 1.8488446474075317, "z": -2.117480516433716 }, "axis_scores": { "Quantum imaging": 0.6914202570915222, "Quantum Life Science Sensing": 0.7032050490379333, "Quantum sensing Detection": 0.6756317019462585, "Quantum sensing Metrology": 0.6629014611244202, "Quantum sensing navigation": 0.686461329460144, "Quantum sensing Position": 0.6711140871047974, "Quantum sensing Timing": 0.6682029962539673, "Quantum sensing": 0.6887595653533936, "Quantum control": 0.6766576170921326 } }, { "id": 6166, "title": "Coherence of resonant light-matter interaction in the strong-coupling limit", "abstract": "We explore the role of quantum fluctuations in the strong-coupling limit of the dissipative Jaynes-Cummings oscillator driven on resonance. For weak excitation, we derive analytical expressions for th...", "citations": 1, "author_count": 2, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6173, "doi": "10.1016/j.optcom.2021.127142", "umap_coordinates": { "x": 394.1814880371094, "y": 135.46749877929688, "z": 206.1818389892578 }, "tsne_coordinates": { "x": -10.127617835998535, "y": -11.554908752441406, "z": -13.95937442779541 }, "pca_coordinates": { "x": -0.39059531688690186, "y": 0.8945096731185913, "z": 1.0592539310455322 }, "axis_scores": { "Quantum imaging": 0.7511919736862183, "Quantum Life Science Sensing": 0.754511833190918, "Quantum sensing Detection": 0.749394416809082, "Quantum sensing Metrology": 0.738223671913147, "Quantum sensing navigation": 0.7237584590911865, "Quantum sensing Position": 0.7090513110160828, "Quantum sensing Timing": 0.6849040985107422, "Quantum sensing": 0.7493817210197449, "Quantum control": 0.7200124263763428 } }, { "id": 6167, "title": "NO EFFECTS OF PIROXICAM ON OSTEOPENIA AND RECOVERY AFTER COLLES FRACTURE - A RANDOMIZED, DOUBLE-BLIND, PLACEBO-CONTROLLED, PROSPECTIVE TRIAL", "abstract": "In a randomized double-blind study involving 42 postmenopausal women with a displaced Colles' fracture, we investigated whether piroxicam, a nonsteroid anti-inflammatory drug, can reduce posttraumatic...", "citations": 81, "author_count": 7, "categories": [ "Orthopedics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6174, "doi": "10.1007/BF00449987", "umap_coordinates": { "x": 395.0733947753906, "y": 134.72598266601562, "z": 204.447021484375 }, "tsne_coordinates": { "x": -0.9883795380592346, "y": 38.16575622558594, "z": 7.881270408630371 }, "pca_coordinates": { "x": -2.0226447582244873, "y": 5.1434326171875, "z": -1.2869188785552979 }, "axis_scores": { "Quantum imaging": 0.6508328914642334, "Quantum Life Science Sensing": 0.6738556027412415, "Quantum sensing Detection": 0.6340612173080444, "Quantum sensing Metrology": 0.6360368728637695, "Quantum sensing navigation": 0.6587725877761841, "Quantum sensing Position": 0.6592938899993896, "Quantum sensing Timing": 0.6355274319648743, "Quantum sensing": 0.6498044729232788, "Quantum control": 0.6716746091842651 } }, { "id": 6168, "title": "Optimized AEC for scanning digital mammography based on local variation of scan velocity", "abstract": "In mammography, there is an optimal photon energy and current time product that produce the required image quality at the minimal dose. The task of an automatic exposure control (AEC), in full field d...", "citations": 4, "author_count": 5, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6175, "doi": "10.1117/12.596667", "umap_coordinates": { "x": 395.66094970703125, "y": 132.9181671142578, "z": 205.7224884033203 }, "tsne_coordinates": { "x": -8.052018165588379, "y": 26.21053695678711, "z": -28.296527862548828 }, "pca_coordinates": { "x": -1.3147456645965576, "y": 2.8641343116760254, "z": 1.25465989112854 }, "axis_scores": { "Quantum imaging": 0.7054385542869568, "Quantum Life Science Sensing": 0.6695712804794312, "Quantum sensing Detection": 0.6820446252822876, "Quantum sensing Metrology": 0.6757514476776123, "Quantum sensing navigation": 0.706186830997467, "Quantum sensing Position": 0.6994542479515076, "Quantum sensing Timing": 0.6828268766403198, "Quantum sensing": 0.6882031559944153, "Quantum control": 0.6988486051559448 } }, { "id": 6169, "title": "Young's double-slit experiment using two-center core-level photoemission: Photoelectron scattering effects", "abstract": "Core-level photoemission from N-2 can be considered as an analogue of Young's double-slit experiment (YDSE) in which the double-slit is replaced by a pair of N 1s orbitals. N 1s photoelectron spectra ...", "citations": 16, "author_count": 7, "categories": [ "Spectroscopy" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6176, "doi": "10.1016/j.elspec.2006.11.014", "umap_coordinates": { "x": 394.3259582519531, "y": 133.94668579101562, "z": 205.63568115234375 }, "tsne_coordinates": { "x": -17.464229583740234, "y": 11.488716125488281, "z": -16.761987686157227 }, "pca_coordinates": { "x": -3.628575086593628, "y": -0.4748818874359131, "z": 2.2074170112609863 }, "axis_scores": { "Quantum imaging": 0.7175496816635132, "Quantum Life Science Sensing": 0.7068939805030823, "Quantum sensing Detection": 0.7156595587730408, "Quantum sensing Metrology": 0.6917696595191956, "Quantum sensing navigation": 0.6817874312400818, "Quantum sensing Position": 0.6877822875976562, "Quantum sensing Timing": 0.6917978525161743, "Quantum sensing": 0.7191526889801025, "Quantum control": 0.6587797403335571 } }, { "id": 6170, "title": "Relativistic Two-Photon Matrix Elements for Attosecond Delays", "abstract": "The theory of one-photon ionization and two-photon above-threshold ionization is formulated for applications to heavy atoms in attosecond science by using Dirac-Fock formalism. A direct comparison of ...", "citations": 7, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6177, "doi": "10.3390/atoms10030080", "umap_coordinates": { "x": 394.8367919921875, "y": 135.56011962890625, "z": 206.89752197265625 }, "tsne_coordinates": { "x": -11.458479881286621, "y": -17.550487518310547, "z": -19.86465072631836 }, "pca_coordinates": { "x": -0.13157665729522705, "y": 1.1095843315124512, "z": 0.3333258032798767 }, "axis_scores": { "Quantum imaging": 0.726747989654541, "Quantum Life Science Sensing": 0.6986254453659058, "Quantum sensing Detection": 0.7035472393035889, "Quantum sensing Metrology": 0.6935689449310303, "Quantum sensing navigation": 0.7128180861473083, "Quantum sensing Position": 0.6840808987617493, "Quantum sensing Timing": 0.754326343536377, "Quantum sensing": 0.7152692079544067, "Quantum control": 0.6898914575576782 } }, { "id": 6171, "title": "Finite-Time Convergent Gossiping", "abstract": "Gossip algorithms are widely used in modern distributed systems, with applications ranging from sensor networks and peer-to-peer networks to mobile vehicle networks and social networks. A tremendous r...", "citations": 22, "author_count": 5, "categories": [ "Computer Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6178, "doi": "10.1109/TNET.2015.2484345", "umap_coordinates": { "x": 394.9639587402344, "y": 134.2845916748047, "z": 206.38270568847656 }, "tsne_coordinates": { "x": 4.415140628814697, "y": -3.374185562133789, "z": -42.054664611816406 }, "pca_coordinates": { "x": 1.1368799209594727, "y": 2.218873977661133, "z": 0.5853434205055237 }, "axis_scores": { "Quantum imaging": 0.7018812894821167, "Quantum Life Science Sensing": 0.6974175572395325, "Quantum sensing Detection": 0.7113954424858093, "Quantum sensing Metrology": 0.6960594654083252, "Quantum sensing navigation": 0.7280928492546082, "Quantum sensing Position": 0.6895009279251099, "Quantum sensing Timing": 0.7526070475578308, "Quantum sensing": 0.7268090844154358, "Quantum control": 0.7182684540748596 } }, { "id": 6172, "title": "γ*γ* → ηc(1S,2S) transition form factors for spacelike photons", "abstract": "We derive the light-front wave function (LFWF) representation of the gamma*gamma* -> eta(c)(1S), eta(c)(2S) transition form factor F(Q(1)(2),Q(2)(2)) for two virtual photons in the initial state. For ...", "citations": 22, "author_count": 6, "categories": [ "Astronomy & Astrophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6179, "doi": "10.1103/PhysRevD.100.054018", "umap_coordinates": { "x": 396.1469421386719, "y": 135.61766052246094, "z": 207.76597595214844 }, "tsne_coordinates": { "x": -38.29780197143555, "y": -2.684055805206299, "z": -15.932975769042969 }, "pca_coordinates": { "x": 2.6697003841400146, "y": 0.382291316986084, "z": 0.4332943558692932 }, "axis_scores": { "Quantum imaging": 0.7097209692001343, "Quantum Life Science Sensing": 0.7402418851852417, "Quantum sensing Detection": 0.713205873966217, "Quantum sensing Metrology": 0.6920868158340454, "Quantum sensing navigation": 0.7253248691558838, "Quantum sensing Position": 0.6709393262863159, "Quantum sensing Timing": 0.6909091472625732, "Quantum sensing": 0.7183906435966492, "Quantum control": 0.6915881633758545 } }, { "id": 6173, "title": "Collective lattice resonances in disordered and quasi-random all-dielectric metasurfaces", "abstract": "Collective lattice resonances in disordered 2D arrays of spherical Si nanoparticles (NPs) have been thoroughly studied within the framework of the coupled dipole approximation. Three types of defects ...", "citations": 37, "author_count": 5, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6180, "doi": "10.1364/JOSAB.36.000E21", "umap_coordinates": { "x": 393.30572509765625, "y": 135.59310913085938, "z": 207.65528869628906 }, "tsne_coordinates": { "x": 7.532376766204834, "y": -14.092578887939453, "z": -7.3777031898498535 }, "pca_coordinates": { "x": 1.6963860988616943, "y": -1.5096759796142578, "z": -2.3716228008270264 }, "axis_scores": { "Quantum imaging": 0.6737381815910339, "Quantum Life Science Sensing": 0.688434362411499, "Quantum sensing Detection": 0.6584930419921875, "Quantum sensing Metrology": 0.6660739183425903, "Quantum sensing navigation": 0.6742531657218933, "Quantum sensing Position": 0.6620477437973022, "Quantum sensing Timing": 0.659122884273529, "Quantum sensing": 0.6845595240592957, "Quantum control": 0.665324330329895 } }, { "id": 6174, "title": "Origin of multiple peak photoluminescence in InGaN/GaN multiple quantum wells", "abstract": "Optical spectroscopy has been performed for a set of In0.12Ga0.88N/GaN multiple quantum wells (MQW) grown by metalorganic vapor phase epitaxy at 820 degrees C. Time-resolved, temperature- and power-de...", "citations": 68, "author_count": 7, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6181, "doi": "10.1063/1.1287124", "umap_coordinates": { "x": 393.5274353027344, "y": 133.40130615234375, "z": 207.8232421875 }, "tsne_coordinates": { "x": 45.354000091552734, "y": -1.829501748085022, "z": -5.899196624755859 }, "pca_coordinates": { "x": 0.07327055931091309, "y": -3.1028871536254883, "z": 3.0452778339385986 }, "axis_scores": { "Quantum imaging": 0.7187623977661133, "Quantum Life Science Sensing": 0.6963191628456116, "Quantum sensing Detection": 0.7098420858383179, "Quantum sensing Metrology": 0.7116360068321228, "Quantum sensing navigation": 0.6861788630485535, "Quantum sensing Position": 0.6835983991622925, "Quantum sensing Timing": 0.6844464540481567, "Quantum sensing": 0.7155547738075256, "Quantum control": 0.6664353013038635 } }, { "id": 6175, "title": "Assessment of VCSEL thermal rollover mechanisms from measurements and empirical modeling", "abstract": "We use an empirical model together with experimental measurements for studying mechanisms contributing to thermal rollover in vertical-cavity surface-emitting lasers (VCSELs). The model is based on ex...", "citations": 71, "author_count": 9, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6182, "doi": "10.1364/OE.19.015490", "umap_coordinates": { "x": 394.5245056152344, "y": 135.16749572753906, "z": 205.88015747070312 }, "tsne_coordinates": { "x": 7.593881607055664, "y": 2.5328567028045654, "z": -39.444454193115234 }, "pca_coordinates": { "x": -0.38380926847457886, "y": 1.84334135055542, "z": 0.12936168909072876 }, "axis_scores": { "Quantum imaging": 0.6726955771446228, "Quantum Life Science Sensing": 0.7062305808067322, "Quantum sensing Detection": 0.6750600337982178, "Quantum sensing Metrology": 0.687040388584137, "Quantum sensing navigation": 0.6807870864868164, "Quantum sensing Position": 0.6589653491973877, "Quantum sensing Timing": 0.6689014434814453, "Quantum sensing": 0.6862543225288391, "Quantum control": 0.6844954490661621 } }, { "id": 6176, "title": "Nuclear and electron spin relaxation in paramagnetic complexes in solution: Effects of the quantum nature of molecular vibrations", "abstract": "A model of the paramagnetic relaxation enhancement is developed in terms of electron-spin relaxation caused by the zero-field splitting (ZFS) fluctuating in time due to a coupling between the electron...", "citations": 25, "author_count": 4, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6183, "doi": "10.1063/1.1768168", "umap_coordinates": { "x": 393.0155334472656, "y": 136.37794494628906, "z": 207.7507781982422 }, "tsne_coordinates": { "x": 6.965672492980957, "y": -3.720937967300415, "z": 36.766822814941406 }, "pca_coordinates": { "x": 1.92295241355896, "y": -0.2684440612792969, "z": -4.32765531539917 }, "axis_scores": { "Quantum imaging": 0.7286880612373352, "Quantum Life Science Sensing": 0.7450169324874878, "Quantum sensing Detection": 0.7037678956985474, "Quantum sensing Metrology": 0.689260721206665, "Quantum sensing navigation": 0.7012668251991272, "Quantum sensing Position": 0.684395432472229, "Quantum sensing Timing": 0.6742229461669922, "Quantum sensing": 0.7205764651298523, "Quantum control": 0.7022306323051453 } }, { "id": 6177, "title": "Exploring the catalytic cascade of cembranoid biosynthesis by combination of genetic engineering and molecular simulations", "abstract": "While chemical steps involved in bioactive cembranoid biosynthesis have been examined, the corresponding enzymatic mechanisms leading to their formation remain elusive. In the tobacco plant, Nicotiana...", "citations": 11, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6184, "doi": "10.1016/j.csbj.2020.06.030", "umap_coordinates": { "x": 393.27728271484375, "y": 137.06483459472656, "z": 204.89321899414062 }, "tsne_coordinates": { "x": -3.4375224113464355, "y": 10.055092811584473, "z": 24.558168411254883 }, "pca_coordinates": { "x": -2.021042823791504, "y": 3.70382022857666, "z": -2.7490806579589844 }, "axis_scores": { "Quantum imaging": 0.6782498359680176, "Quantum Life Science Sensing": 0.6832862496376038, "Quantum sensing Detection": 0.652975857257843, "Quantum sensing Metrology": 0.6406987905502319, "Quantum sensing navigation": 0.6720287799835205, "Quantum sensing Position": 0.6272560358047485, "Quantum sensing Timing": 0.642200231552124, "Quantum sensing": 0.6675523519515991, "Quantum control": 0.669926643371582 } }, { "id": 6178, "title": "REGIONAL CEREBRAL BLOOD-FLOW IN NORMAL-PRESSURE HYDROCEPHALUS - DIAGNOSTIC AND PROGNOSTIC ASPECTS", "abstract": "Relative regional cerebral blood flow (rrCBF) was measured by single-photon emission tomography (SPET), using technetium-99m-d,l-hexamethylpropylene amine oxime (HMPAO) as flow tracer, in 23 patients ...", "citations": 102, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6185, "doi": null, "umap_coordinates": { "x": 391.3265686035156, "y": 139.48883056640625, "z": 209.4082489013672 }, "tsne_coordinates": { "x": 2.9792799949645996, "y": 41.564815521240234, "z": -3.2022225856781006 }, "pca_coordinates": { "x": -1.7329436540603638, "y": 5.857690811157227, "z": -1.4943888187408447 }, "axis_scores": { "Quantum imaging": 0.6902022957801819, "Quantum Life Science Sensing": 0.6840619444847107, "Quantum sensing Detection": 0.6587252020835876, "Quantum sensing Metrology": 0.6525373458862305, "Quantum sensing navigation": 0.6987662315368652, "Quantum sensing Position": 0.6695235967636108, "Quantum sensing Timing": 0.6474886536598206, "Quantum sensing": 0.6694778203964233, "Quantum control": 0.6786497831344604 } }, { "id": 6179, "title": "Quantum chemical and molecular dynamics modelling of hydroxylated polybrominated diphenyl ethers", "abstract": "A series of 19 hydroxylated polybrominated diphenyl ethers (OH-PBDEs) have been studied using density functional theory (DFT) and molecular dynamics simulations with the purpose of investigating event...", "citations": 7, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6186, "doi": "10.1039/c7cp03471g", "umap_coordinates": { "x": 393.0422668457031, "y": 137.18289184570312, "z": 205.9276885986328 }, "tsne_coordinates": { "x": -5.455810070037842, "y": 3.4543001651763916, "z": 30.026615142822266 }, "pca_coordinates": { "x": 0.4952206611633301, "y": 1.1889193058013916, "z": -3.4361572265625 }, "axis_scores": { "Quantum imaging": 0.7235656976699829, "Quantum Life Science Sensing": 0.730083167552948, "Quantum sensing Detection": 0.696231484413147, "Quantum sensing Metrology": 0.6739336252212524, "Quantum sensing navigation": 0.7138813138008118, "Quantum sensing Position": 0.681624710559845, "Quantum sensing Timing": 0.6754651069641113, "Quantum sensing": 0.7073717713356018, "Quantum control": 0.7252469658851624 } }, { "id": 6180, "title": "Epitaxial growth of three dimensionally structured III-V photonic crystal via hydride vapor phase epitaxy", "abstract": "Three-dimensional (3D) photonic crystals are one class of materials where epitaxy, and the resultant attractive electronic properties, would enable new functionalities for optoelectronic devices. Here...", "citations": 12, "author_count": 10, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6187, "doi": "10.1063/1.4937273", "umap_coordinates": { "x": 393.51153564453125, "y": 133.92108154296875, "z": 207.45645141601562 }, "tsne_coordinates": { "x": 21.798227310180664, "y": -23.35265350341797, "z": -20.77358055114746 }, "pca_coordinates": { "x": 1.368455410003662, "y": -1.5294651985168457, "z": 0.9006637930870056 }, "axis_scores": { "Quantum imaging": 0.7485724091529846, "Quantum Life Science Sensing": 0.7235600352287292, "Quantum sensing Detection": 0.7118542194366455, "Quantum sensing Metrology": 0.7268213033676147, "Quantum sensing navigation": 0.7207428812980652, "Quantum sensing Position": 0.6698271036148071, "Quantum sensing Timing": 0.6517221927642822, "Quantum sensing": 0.7355313897132874, "Quantum control": 0.716346025466919 } }, { "id": 6181, "title": "Properties of GaAsN/GaAs quantum wells studied by optical detection of cyclotron resonance", "abstract": "Effective masses and carrier recombination in GaNAs/GaAs quantum wells (QWs) with nitrogen composition up to 4.5%, have been studied by optical detection of cyclotron resonance (ODCR). When monitoring...", "citations": 5, "author_count": 7, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6188, "doi": "10.1016/S0921-5107(00)00681-4", "umap_coordinates": { "x": 393.27105712890625, "y": 134.3119659423828, "z": 206.8020782470703 }, "tsne_coordinates": { "x": 34.971343994140625, "y": 3.5557937622070312, "z": 7.8155670166015625 }, "pca_coordinates": { "x": -0.8670310378074646, "y": -1.9768800735473633, "z": 1.169074535369873 }, "axis_scores": { "Quantum imaging": 0.7064234018325806, "Quantum Life Science Sensing": 0.7390241026878357, "Quantum sensing Detection": 0.7244819402694702, "Quantum sensing Metrology": 0.7183278799057007, "Quantum sensing navigation": 0.7184774875640869, "Quantum sensing Position": 0.7099422812461853, "Quantum sensing Timing": 0.6816614270210266, "Quantum sensing": 0.7381234765052795, "Quantum control": 0.6858384609222412 } }, { "id": 6182, "title": "INTERNAL MOTION AND THE TUNNELING RATES OF CH4+ AND CD4+", "abstract": "The thermal motion of CD4+ in the gas phase at 4 and 40 K is studied by means of a molecular dynamics method using the MP2/6-31G(d,p) force field. The thermal motion of CD4+ in the temperature range f...", "citations": 6, "author_count": 5, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6189, "doi": "10.1063/1.470180", "umap_coordinates": { "x": 393.4889831542969, "y": 137.4348907470703, "z": 206.76393127441406 }, "tsne_coordinates": { "x": -10.16015338897705, "y": 5.805635929107666, "z": 35.06865692138672 }, "pca_coordinates": { "x": 1.8707051277160645, "y": 1.1716117858886719, "z": -1.8659965991973877 }, "axis_scores": { "Quantum imaging": 0.7013499736785889, "Quantum Life Science Sensing": 0.7128744721412659, "Quantum sensing Detection": 0.694736897945404, "Quantum sensing Metrology": 0.6902204751968384, "Quantum sensing navigation": 0.6979337334632874, "Quantum sensing Position": 0.6718549132347107, "Quantum sensing Timing": 0.6830841898918152, "Quantum sensing": 0.7115283608436584, "Quantum control": 0.7002482414245605 } }, { "id": 6183, "title": "Electron localization following attosecond molecular photoionization", "abstract": "For the past several decades, we have been able to directly probe the motion of atoms that is associated with chemical transformations and which occurs on the femtosecond (10(-15)-s) timescale. Howeve...", "citations": 694, "author_count": 21, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6190, "doi": "10.1038/nature09084", "umap_coordinates": { "x": 393.8044738769531, "y": 135.73605346679688, "z": 206.6179656982422 }, "tsne_coordinates": { "x": 2.6039843559265137, "y": 0.4100504517555237, "z": 12.775079727172852 }, "pca_coordinates": { "x": 0.062487125396728516, "y": -0.3919544219970703, "z": -0.6248108148574829 }, "axis_scores": { "Quantum imaging": 0.7346539497375488, "Quantum Life Science Sensing": 0.722414493560791, "Quantum sensing Detection": 0.7164928913116455, "Quantum sensing Metrology": 0.6769623756408691, "Quantum sensing navigation": 0.7098809480667114, "Quantum sensing Position": 0.702213704586029, "Quantum sensing Timing": 0.6892214417457581, "Quantum sensing": 0.7147056460380554, "Quantum control": 0.6743776202201843 } }, { "id": 6184, "title": "Matrix product state representation of quasielectron wave functions", "abstract": "Matrix product state techniques provide a very efficient way to numerically evaluate certain classes of quantum Hall wave functions that can be written as correlators in two-dimensional conformal fiel...", "citations": 13, "author_count": 6, "categories": [ "Mechanics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6191, "doi": "10.1088/1742-5468/aab679", "umap_coordinates": { "x": 394.2962646484375, "y": 136.83367919921875, "z": 206.72824096679688 }, "tsne_coordinates": { "x": -24.982458114624023, "y": -6.507116317749023, "z": 14.812019348144531 }, "pca_coordinates": { "x": 1.6863455772399902, "y": 0.7561030387878418, "z": -0.9751876592636108 }, "axis_scores": { "Quantum imaging": 0.7375723123550415, "Quantum Life Science Sensing": 0.7278400659561157, "Quantum sensing Detection": 0.7263345122337341, "Quantum sensing Metrology": 0.7209216952323914, "Quantum sensing navigation": 0.7241887450218201, "Quantum sensing Position": 0.7161486148834229, "Quantum sensing Timing": 0.6831132769584656, "Quantum sensing": 0.7350766062736511, "Quantum control": 0.7078794836997986 } }, { "id": 6185, "title": "O-H wag vibrations in hydrated BaInxZr1-xO3-xO2 investigated with inelastic neutron scattering", "abstract": "The nature of O-H wag vibrations in the cubic proton conducting perovskite-type oxides, BaInxZr1-xO3-x/2 (x=0.20-0.75) have been investigated by means of inelastic neutron scattering. Our spectroscopi...", "citations": 29, "author_count": 7, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6192, "doi": "10.1103/PhysRevB.77.104302", "umap_coordinates": { "x": 393.82745361328125, "y": 135.535400390625, "z": 208.80203247070312 }, "tsne_coordinates": { "x": 11.940939903259277, "y": 5.212494850158691, "z": 21.079938888549805 }, "pca_coordinates": { "x": 2.655550479888916, "y": -0.5020890235900879, "z": -1.1173670291900635 }, "axis_scores": { "Quantum imaging": 0.7077905535697937, "Quantum Life Science Sensing": 0.7088257074356079, "Quantum sensing Detection": 0.6898277997970581, "Quantum sensing Metrology": 0.6921205520629883, "Quantum sensing navigation": 0.7161614894866943, "Quantum sensing Position": 0.6749899387359619, "Quantum sensing Timing": 0.6760075688362122, "Quantum sensing": 0.7148427963256836, "Quantum control": 0.6970095038414001 } }, { "id": 6186, "title": "BONE-MINERAL DENSITY IN PATIENTS WITH FAMILIAL HYPOCALCIURIC HYPERCALCEMIA (FHH)", "abstract": "Objective-To find out whether chronic hypercalcaemia and excessive secretion of parathyroid hormone (PTH) is associated with skeletal demineralisation in familial hypocalciuric hypercalcaemia (FHH). D...", "citations": 26, "author_count": 4, "categories": [ "Surgery" ], "year": 1992, "topic": [ "all" ], "embedding_index": 6193, "doi": null, "umap_coordinates": { "x": 391.4323425292969, "y": 139.18556213378906, "z": 209.16050720214844 }, "tsne_coordinates": { "x": 4.282687664031982, "y": 39.711952209472656, "z": -0.7094002962112427 }, "pca_coordinates": { "x": -1.417515754699707, "y": 4.222072124481201, "z": -1.8231494426727295 }, "axis_scores": { "Quantum imaging": 0.7069334983825684, "Quantum Life Science Sensing": 0.7111693024635315, "Quantum sensing Detection": 0.6970311403274536, "Quantum sensing Metrology": 0.71173495054245, "Quantum sensing navigation": 0.7009114027023315, "Quantum sensing Position": 0.6822267174720764, "Quantum sensing Timing": 0.6641422510147095, "Quantum sensing": 0.7055744528770447, "Quantum control": 0.6932772397994995 } }, { "id": 6187, "title": "Multiband Effects in the Superconducting Phase Diagram of Oxide Interfaces", "abstract": "A dome-shaped phase diagram of superconducting critical temperature upon doping is often considered as a hallmark of unconventional superconductors. This behavior, observed in SrTiO3-based interfaces,...", "citations": 7, "author_count": 12, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6194, "doi": "10.1002/admi.202201392", "umap_coordinates": { "x": 392.7752990722656, "y": 135.34005737304688, "z": 207.83990478515625 }, "tsne_coordinates": { "x": 16.477415084838867, "y": -24.22168731689453, "z": 23.543359756469727 }, "pca_coordinates": { "x": 1.4908323287963867, "y": -2.5757155418395996, "z": -1.9310107231140137 }, "axis_scores": { "Quantum imaging": 0.7021679878234863, "Quantum Life Science Sensing": 0.7045199871063232, "Quantum sensing Detection": 0.675846517086029, "Quantum sensing Metrology": 0.6896905899047852, "Quantum sensing navigation": 0.6773584485054016, "Quantum sensing Position": 0.6645233631134033, "Quantum sensing Timing": 0.6719238758087158, "Quantum sensing": 0.6868377327919006, "Quantum control": 0.6625189781188965 } }, { "id": 6188, "title": "Hermiticity of Hamiltonian Matrix using the Fourier Basis Sets in Bond-Bond-Angle and Radau Coordinates", "abstract": "In quantum calculations a transformed Hamiltonian is often used to avoid singularities in a certain basis set or to reduce computation time. We demonstrate for the Fourier basis set that the Hamiltoni...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6195, "doi": "10.1063/1674-0068/29/cjcp1507141", "umap_coordinates": { "x": 393.6033020019531, "y": 137.20082092285156, "z": 206.54847717285156 }, "tsne_coordinates": { "x": -24.684478759765625, "y": -4.657138824462891, "z": 14.899477005004883 }, "pca_coordinates": { "x": 1.9433958530426025, "y": 2.5742087364196777, "z": -0.7215134501457214 }, "axis_scores": { "Quantum imaging": 0.7158081531524658, "Quantum Life Science Sensing": 0.7034690380096436, "Quantum sensing Detection": 0.6822600960731506, "Quantum sensing Metrology": 0.6995216012001038, "Quantum sensing navigation": 0.7224624752998352, "Quantum sensing Position": 0.7056366801261902, "Quantum sensing Timing": 0.7067859172821045, "Quantum sensing": 0.703998863697052, "Quantum control": 0.7065642476081848 } }, { "id": 6189, "title": "Localized modes in nonlinear binary kagome ribbons", "abstract": "The localized mode propagation in binary nonlinear kagome ribbons is investigated with the premise to ensure controlled light propagation through photonic lattice media. Particularity of the linear sy...", "citations": 17, "author_count": 8, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6196, "doi": "10.1103/PhysRevE.92.052916", "umap_coordinates": { "x": 394.5242919921875, "y": 136.39102172851562, "z": 208.9502716064453 }, "tsne_coordinates": { "x": -6.667109966278076, "y": -13.446335792541504, "z": 9.339244842529297 }, "pca_coordinates": { "x": 4.747659206390381, "y": -1.2305288314819336, "z": -1.5077390670776367 }, "axis_scores": { "Quantum imaging": 0.6860160231590271, "Quantum Life Science Sensing": 0.7080720663070679, "Quantum sensing Detection": 0.6932220458984375, "Quantum sensing Metrology": 0.6864432692527771, "Quantum sensing navigation": 0.7067433595657349, "Quantum sensing Position": 0.6859132051467896, "Quantum sensing Timing": 0.643134593963623, "Quantum sensing": 0.7001791000366211, "Quantum control": 0.6525904536247253 } }, { "id": 6190, "title": "Calculation of Canonical Properties and Excited States by Path Integral Numerical Methods", "abstract": "Path integral Monte Carlo method in the expanded ensemble is used for calculation of the ratio of partition functions for different classes of permutations treating the problem of several interacting ...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6197, "doi": "10.1002/ctpp.201010112", "umap_coordinates": { "x": 394.3609924316406, "y": 137.1476287841797, "z": 206.64389038085938 }, "tsne_coordinates": { "x": -12.387758255004883, "y": 6.03147029876709, "z": 22.473207473754883 }, "pca_coordinates": { "x": 1.0274779796600342, "y": 1.2539973258972168, "z": -0.08530396223068237 }, "axis_scores": { "Quantum imaging": 0.7416703104972839, "Quantum Life Science Sensing": 0.7405324578285217, "Quantum sensing Detection": 0.7338967323303223, "Quantum sensing Metrology": 0.7109801769256592, "Quantum sensing navigation": 0.7502709627151489, "Quantum sensing Position": 0.6995339393615723, "Quantum sensing Timing": 0.7059932351112366, "Quantum sensing": 0.745133638381958, "Quantum control": 0.7446191310882568 } }, { "id": 6191, "title": "2025 photonics for agrifood roadmap: towards a sustainable and healthier planet", "abstract": "Photonics technologies play a crucial role in driving technological advancements within the agrifood industry, aiming to deliver a sustainable food and agriculture, and offering healthy, nutritious an...", "citations": 5, "author_count": 80, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6198, "doi": "10.1088/2515-7647/adbea9", "umap_coordinates": { "x": 394.2165832519531, "y": 134.69515991210938, "z": 205.2401580810547 }, "tsne_coordinates": { "x": -13.04306697845459, "y": 4.194342613220215, "z": -16.724164962768555 }, "pca_coordinates": { "x": -3.7572240829467773, "y": 0.688233494758606, "z": 0.30127519369125366 }, "axis_scores": { "Quantum imaging": 0.68712317943573, "Quantum Life Science Sensing": 0.7191785573959351, "Quantum sensing Detection": 0.6566338539123535, "Quantum sensing Metrology": 0.6828224658966064, "Quantum sensing navigation": 0.6843332052230835, "Quantum sensing Position": 0.6449286341667175, "Quantum sensing Timing": 0.6372439861297607, "Quantum sensing": 0.6866175532341003, "Quantum control": 0.6597254276275635 } }, { "id": 6192, "title": "Luminescence and Two-Photon Absorption Cross Section of Novel Oligomeric Luminescent Conjugated Polythiophenes for Diagnostics of Amyloid Fibrils", "abstract": "Here we present the TPA cross section and quantum efficiencies of a series of novel oligomeric luminescent conjugated polythiophenes used for detection and spectral diagnostics of amyloid protein aggr...", "citations": 4, "author_count": 7, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6199, "doi": null, "umap_coordinates": { "x": 391.8456115722656, "y": 139.34890747070312, "z": 209.7125701904297 }, "tsne_coordinates": { "x": -4.769981861114502, "y": 42.7490119934082, "z": -5.806349277496338 }, "pca_coordinates": { "x": -3.242405414581299, "y": 2.017454147338867, "z": -1.4436103105545044 }, "axis_scores": { "Quantum imaging": 0.7488495707511902, "Quantum Life Science Sensing": 0.771804690361023, "Quantum sensing Detection": 0.7503460049629211, "Quantum sensing Metrology": 0.7341063022613525, "Quantum sensing navigation": 0.7332534193992615, "Quantum sensing Position": 0.7012550830841064, "Quantum sensing Timing": 0.695304811000824, "Quantum sensing": 0.757064700126648, "Quantum control": 0.7343363761901855 } }, { "id": 6193, "title": "The 2019 surface acoustic waves roadmap", "abstract": "Today, surface acoustic waves (SAWs) and bulk acoustic waves are already two of the very few phononic technologies of industrial relevance and can been found in a myriad of devices employing these nan...", "citations": 346, "author_count": 40, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6200, "doi": "10.1088/1361-6463/ab1b04", "umap_coordinates": { "x": 395.07574462890625, "y": 134.75918579101562, "z": 205.7843780517578 }, "tsne_coordinates": { "x": -15.831653594970703, "y": 0.6804122924804688, "z": -18.619993209838867 }, "pca_coordinates": { "x": -0.646919846534729, "y": 2.7501144409179688, "z": 0.8886637091636658 }, "axis_scores": { "Quantum imaging": 0.6729961633682251, "Quantum Life Science Sensing": 0.6950932741165161, "Quantum sensing Detection": 0.6766753196716309, "Quantum sensing Metrology": 0.6820498704910278, "Quantum sensing navigation": 0.7046294212341309, "Quantum sensing Position": 0.6702650785446167, "Quantum sensing Timing": 0.6718869209289551, "Quantum sensing": 0.6906575560569763, "Quantum control": 0.6630443930625916 } }, { "id": 6194, "title": "Composite biasing in Monte Carlo radiative transfer", "abstract": "Biasing or importance sampling is a powerful technique in Monte Carlo radiative transfer, and can be applied in different forms to increase the accuracy and efficiency of simulations. One of the drawb...", "citations": 33, "author_count": 8, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6201, "doi": "10.1051/0004-6361/201528063", "umap_coordinates": { "x": 394.7402038574219, "y": 134.93894958496094, "z": 205.5420684814453 }, "tsne_coordinates": { "x": -20.2271785736084, "y": 23.440690994262695, "z": 7.453546524047852 }, "pca_coordinates": { "x": -1.0861483812332153, "y": 1.1580939292907715, "z": 1.065622329711914 }, "axis_scores": { "Quantum imaging": 0.7367091774940491, "Quantum Life Science Sensing": 0.7378750443458557, "Quantum sensing Detection": 0.7257855534553528, "Quantum sensing Metrology": 0.7310112118721008, "Quantum sensing navigation": 0.7338624000549316, "Quantum sensing Position": 0.7027722001075745, "Quantum sensing Timing": 0.7133291959762573, "Quantum sensing": 0.7375348210334778, "Quantum control": 0.7348951101303101 } }, { "id": 6195, "title": "Proposal of a broadband, polarization-insensitive and high-efficiency hot-carrier schottky photodetector integrated with a plasmonic silicon ridge waveguide", "abstract": "We propose a broadband, polarization-insensitive and high-efficiency plasmonic Schottky diode for detection of sub-bandgap photons in the optical communication wavelength range through internal photoe...", "citations": 14, "author_count": 6, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6202, "doi": "10.1088/2040-8978/17/12/125010", "umap_coordinates": { "x": 394.3702392578125, "y": 133.78746032714844, "z": 206.7897491455078 }, "tsne_coordinates": { "x": -14.450519561767578, "y": -2.3856327533721924, "z": -30.891206741333008 }, "pca_coordinates": { "x": -1.3204550743103027, "y": -1.529581069946289, "z": 4.184723854064941 }, "axis_scores": { "Quantum imaging": 0.6884788274765015, "Quantum Life Science Sensing": 0.6782501935958862, "Quantum sensing Detection": 0.682740330696106, "Quantum sensing Metrology": 0.6660147905349731, "Quantum sensing navigation": 0.6892911195755005, "Quantum sensing Position": 0.6659505367279053, "Quantum sensing Timing": 0.6684961915016174, "Quantum sensing": 0.6848552823066711, "Quantum control": 0.637385368347168 } }, { "id": 6196, "title": "Signal Crosstalk in a Flip-Chip Quantum Processor", "abstract": "Quantum processors require a signal-delivery architecture with high addressability (low crosstalk) to ensure high performance already at the scale of dozens of qubits. Signal crosstalk causes inadvert...", "citations": 14, "author_count": 19, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6203, "doi": "10.1103/PRXQuantum.5.030350", "umap_coordinates": { "x": 395.6421813964844, "y": 137.0738983154297, "z": 207.20245361328125 }, "tsne_coordinates": { "x": -32.603004455566406, "y": -20.874773025512695, "z": -2.4721479415893555 }, "pca_coordinates": { "x": 2.4914674758911133, "y": 1.0264294147491455, "z": 2.035104990005493 }, "axis_scores": { "Quantum imaging": 0.7598689794540405, "Quantum Life Science Sensing": 0.7260833978652954, "Quantum sensing Detection": 0.7662994861602783, "Quantum sensing Metrology": 0.7521155476570129, "Quantum sensing navigation": 0.735105574131012, "Quantum sensing Position": 0.7472317218780518, "Quantum sensing Timing": 0.7457402944564819, "Quantum sensing": 0.7677687406539917, "Quantum control": 0.7485711574554443 } }, { "id": 6197, "title": "Measurement of inclusive jet cross-sections in deep-inelastic ep scattering at HERA", "abstract": "A measurement of inclusive jet cross-sections in deep-inelastic ep scattering at HERA is presented based on data with an integrated luminosity of 21.1 pb(-1). The measurement is performed for photon v...", "citations": 45, "author_count": 324, "categories": [ "Astronomy & Astrophysics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6204, "doi": "10.1016/S0370-2693(02)02375-4", "umap_coordinates": { "x": 396.6924743652344, "y": 134.20204162597656, "z": 207.14089965820312 }, "tsne_coordinates": { "x": -29.152809143066406, "y": 12.688772201538086, "z": -8.0431489944458 }, "pca_coordinates": { "x": -1.1024527549743652, "y": 1.2756425142288208, "z": 1.9911816120147705 }, "axis_scores": { "Quantum imaging": 0.6814420819282532, "Quantum Life Science Sensing": 0.681799590587616, "Quantum sensing Detection": 0.6915837526321411, "Quantum sensing Metrology": 0.6822372674942017, "Quantum sensing navigation": 0.6873230338096619, "Quantum sensing Position": 0.7001308798789978, "Quantum sensing Timing": 0.6957360506057739, "Quantum sensing": 0.6956996321678162, "Quantum control": 0.6591692566871643 } }, { "id": 6198, "title": "Regional brain serotonin and dopamine transporter binding capacity in suicide attempters relate to impulsiveness and mental energy", "abstract": "To study different aspects of regional pre-synaptic brain I-123-beta-CIT uptake on serotonin and dopamine re-uptake sites in drug-free suicide attempters; in comparison with age- and sex matched contr...", "citations": 58, "author_count": 6, "categories": [ "Neurosciences & Neurology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6205, "doi": "10.1016/j.pscychresns.2006.06.001", "umap_coordinates": { "x": 394.6904602050781, "y": 134.15206909179688, "z": 205.01417541503906 }, "tsne_coordinates": { "x": -9.551445007324219, "y": 30.02865982055664, "z": 11.749641418457031 }, "pca_coordinates": { "x": -1.7668739557266235, "y": 1.9595527648925781, "z": -0.4329369068145752 }, "axis_scores": { "Quantum imaging": 0.6660417318344116, "Quantum Life Science Sensing": 0.6437299847602844, "Quantum sensing Detection": 0.6540952324867249, "Quantum sensing Metrology": 0.6322184205055237, "Quantum sensing navigation": 0.6539646983146667, "Quantum sensing Position": 0.6730736494064331, "Quantum sensing Timing": 0.6668804883956909, "Quantum sensing": 0.6595182418823242, "Quantum control": 0.6380445957183838 } }, { "id": 6199, "title": "A Valleytronic Diamond Transistor: Electrostatic Control of Valley Currents and Charge-State Manipulation of NV Centers", "abstract": "The valley degree of freedom in many-valley semiconductors provides a new paradigm for storing and processing information in valleytronic and quantum-computing applications. Achieving practical device...", "citations": 17, "author_count": 9, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6206, "doi": "10.1021/acs.nanolett.0c04712", "umap_coordinates": { "x": 392.4986267089844, "y": 134.5207061767578, "z": 206.7407989501953 }, "tsne_coordinates": { "x": 11.0819673538208, "y": -23.920129776000977, "z": -16.65825653076172 }, "pca_coordinates": { "x": -0.53014075756073, "y": -3.314415454864502, "z": -0.3692089021205902 }, "axis_scores": { "Quantum imaging": 0.7089061737060547, "Quantum Life Science Sensing": 0.7280357480049133, "Quantum sensing Detection": 0.724276602268219, "Quantum sensing Metrology": 0.6982053518295288, "Quantum sensing navigation": 0.7277840375900269, "Quantum sensing Position": 0.7054881453514099, "Quantum sensing Timing": 0.6962124705314636, "Quantum sensing": 0.7244114875793457, "Quantum control": 0.7320481538772583 } }, { "id": 6200, "title": "Using graphics processing units to accelerate perturbation Monte Carlo simulation in a turbid medium", "abstract": "We report a fast perturbation Monte Carlo (PMC) algorithm accelerated by graphics processing units (CPU). The two-step PMC simulation [Opt. Lett. 36, 2095 (2011)] is performed by storing the seeds ins...", "citations": 29, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6207, "doi": "10.1117/1.JBO.17.4.040502", "umap_coordinates": { "x": 394.8540344238281, "y": 135.374755859375, "z": 204.86985778808594 }, "tsne_coordinates": { "x": -15.031209945678711, "y": 17.071367263793945, "z": -33.421756744384766 }, "pca_coordinates": { "x": -0.657636284828186, "y": 2.3171210289001465, "z": 0.375871479511261 }, "axis_scores": { "Quantum imaging": 0.724282443523407, "Quantum Life Science Sensing": 0.7033248543739319, "Quantum sensing Detection": 0.7043688297271729, "Quantum sensing Metrology": 0.6885896921157837, "Quantum sensing navigation": 0.720429539680481, "Quantum sensing Position": 0.6772956252098083, "Quantum sensing Timing": 0.6885894536972046, "Quantum sensing": 0.7095222473144531, "Quantum control": 0.7180135846138 } }, { "id": 6201, "title": "Deep-UV Photonic Crystal Surface-Emitting Lasers", "abstract": "Today's ultraviolet lasers are bulky, expensive, have low power-conversion efficiency, and usually suffer from poor beam quality. Semiconductor lasers have addressed these issues in the visible and in...", "citations": 1, "author_count": 13, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6208, "doi": "10.1002/lpor.202500271", "umap_coordinates": { "x": 393.8472900390625, "y": 133.94610595703125, "z": 205.8614959716797 }, "tsne_coordinates": { "x": 6.818673610687256, "y": -7.400210857391357, "z": -33.99359893798828 }, "pca_coordinates": { "x": -2.5016112327575684, "y": -0.7385497093200684, "z": -0.0556260347366333 }, "axis_scores": { "Quantum imaging": 0.7384899854660034, "Quantum Life Science Sensing": 0.7561956644058228, "Quantum sensing Detection": 0.7294315695762634, "Quantum sensing Metrology": 0.7226600646972656, "Quantum sensing navigation": 0.7189337015151978, "Quantum sensing Position": 0.7100601196289062, "Quantum sensing Timing": 0.6858808398246765, "Quantum sensing": 0.7450090646743774, "Quantum control": 0.7342987060546875 } }, { "id": 6202, "title": "The Elusive 5′-Deoxyadenosyl Radical in Coenzyme-B12-Mediated Reactions", "abstract": "Vitamin B-12 and its biologically active counterparts possess the only examples of carbon-cobalt bonds in living systems. The role of such motifs as radical reservoirs has potential application in fut...", "citations": 61, "author_count": 6, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6209, "doi": "10.1021/ja207809b", "umap_coordinates": { "x": 392.71905517578125, "y": 136.8629608154297, "z": 205.29737854003906 }, "tsne_coordinates": { "x": -0.5075232982635498, "y": 4.588263988494873, "z": -9.35555362701416 }, "pca_coordinates": { "x": -0.663021981716156, "y": 1.7210139036178589, "z": -3.037367820739746 }, "axis_scores": { "Quantum imaging": 0.6849086880683899, "Quantum Life Science Sensing": 0.6994566321372986, "Quantum sensing Detection": 0.682159960269928, "Quantum sensing Metrology": 0.6540040373802185, "Quantum sensing navigation": 0.6865204572677612, "Quantum sensing Position": 0.6613380908966064, "Quantum sensing Timing": 0.6508163809776306, "Quantum sensing": 0.6884186267852783, "Quantum control": 0.6910353899002075 } }, { "id": 6203, "title": "Water sensitivity of heteroepitaxial Cu-MOF films: dissolution and re-crystallization of 3D-oriented MOF superstructures", "abstract": "3D-oriented metal-organic framework (MOF) films and patterns have recently emerged as promising platforms for sensing and photonic applications. These oriented polycrystalline materials are typically ...", "citations": 15, "author_count": 9, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6210, "doi": "10.1039/d3sc04135b", "umap_coordinates": { "x": 391.92071533203125, "y": 135.84207153320312, "z": 206.18116760253906 }, "tsne_coordinates": { "x": 14.237936973571777, "y": -6.304023265838623, "z": 3.524608612060547 }, "pca_coordinates": { "x": -1.5911176204681396, "y": -1.336334466934204, "z": -3.5093517303466797 }, "axis_scores": { "Quantum imaging": 0.7038663625717163, "Quantum Life Science Sensing": 0.7350562810897827, "Quantum sensing Detection": 0.6852455139160156, "Quantum sensing Metrology": 0.6869624257087708, "Quantum sensing navigation": 0.6914916634559631, "Quantum sensing Position": 0.6464947462081909, "Quantum sensing Timing": 0.6156864762306213, "Quantum sensing": 0.700092613697052, "Quantum control": 0.6875584721565247 } }, { "id": 6204, "title": "Can dynamic susceptibility contrast magnetic resonance imaging replace single-photon emission computed tomography in the diagnosis of patients with Alzheimer's disease?: A pilot study", "abstract": "Purpose: To compare single-photon emission computed tomography (SPECT) and magnetic resonance imaging (MRI) in a cohort of patients examined for suspected dementia, including patients with no objectiv...", "citations": 9, "author_count": 10, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6211, "doi": "10.1080/02841850600965070", "umap_coordinates": { "x": 395.02923583984375, "y": 133.7847137451172, "z": 204.95361328125 }, "tsne_coordinates": { "x": -6.623524188995361, "y": 30.758501052856445, "z": 1.788879156112671 }, "pca_coordinates": { "x": -2.819471836090088, "y": 1.9920073747634888, "z": 1.959937572479248 }, "axis_scores": { "Quantum imaging": 0.6767728328704834, "Quantum Life Science Sensing": 0.6730058193206787, "Quantum sensing Detection": 0.6381775736808777, "Quantum sensing Metrology": 0.6309906244277954, "Quantum sensing navigation": 0.6658733487129211, "Quantum sensing Position": 0.6460407376289368, "Quantum sensing Timing": 0.6477944254875183, "Quantum sensing": 0.6435237526893616, "Quantum control": 0.6173681616783142 } }, { "id": 6205, "title": "Fast voxel-level dosimetry for 177Lu labelled peptide treatments", "abstract": "In peptide receptor radionuclide therapy (PRRT), voxel-level radiation absorbed dose calculations can be performed using several different methods. Each method has it strengths and weaknesses; however...", "citations": 34, "author_count": 4, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6212, "doi": "10.1088/0031-9155/60/17/6685", "umap_coordinates": { "x": 395.827880859375, "y": 133.44895935058594, "z": 205.0637664794922 }, "tsne_coordinates": { "x": -14.19666576385498, "y": 28.794536590576172, "z": -12.426680564880371 }, "pca_coordinates": { "x": -1.9636342525482178, "y": 3.00291109085083, "z": 2.852001667022705 }, "axis_scores": { "Quantum imaging": 0.7021269798278809, "Quantum Life Science Sensing": 0.6840965747833252, "Quantum sensing Detection": 0.6481773257255554, "Quantum sensing Metrology": 0.6573957204818726, "Quantum sensing navigation": 0.670138955116272, "Quantum sensing Position": 0.6639947295188904, "Quantum sensing Timing": 0.6791148781776428, "Quantum sensing": 0.6659159064292908, "Quantum control": 0.6317142844200134 } }, { "id": 6206, "title": "Judd-Ofelt (J-O) Parameterization: Tuning optical and luminescent features of Dy3+-doped phosphate glasses for W-LEDs and laser applications", "abstract": "Rare-earth doped phosphate glasses have emerged as promising materials for LED-based lighting applications due to their excellent thermal stability, high optical transparency, and efficient luminescen...", "citations": 2, "author_count": 15, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6213, "doi": "10.1016/j.optmat.2025.117311", "umap_coordinates": { "x": 393.5829772949219, "y": 134.81307983398438, "z": 205.02316284179688 }, "tsne_coordinates": { "x": 7.31118106842041, "y": 15.863931655883789, "z": -2.103591203689575 }, "pca_coordinates": { "x": -4.5351738929748535, "y": -0.703798770904541, "z": 0.6916493773460388 }, "axis_scores": { "Quantum imaging": 0.7195032238960266, "Quantum Life Science Sensing": 0.7233376502990723, "Quantum sensing Detection": 0.6937268972396851, "Quantum sensing Metrology": 0.7157042622566223, "Quantum sensing navigation": 0.6876906752586365, "Quantum sensing Position": 0.6876058578491211, "Quantum sensing Timing": 0.6946755051612854, "Quantum sensing": 0.7161422967910767, "Quantum control": 0.6955495476722717 } }, { "id": 6207, "title": "Superfluid drag in the two-component Bose-Hubbard model", "abstract": "In multicomponent superfluids and superconductors, co- and counterflows of components have, in general, different properties. A. F. Andreev and E. P. Bashkin [Sov. Phys. JETP 42, 164 (1975)] discussed...", "citations": 24, "author_count": 3, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6214, "doi": "10.1103/PhysRevB.97.094517", "umap_coordinates": { "x": 394.0133972167969, "y": 136.93614196777344, "z": 208.65997314453125 }, "tsne_coordinates": { "x": -15.572630882263184, "y": -23.716716766357422, "z": 20.69281005859375 }, "pca_coordinates": { "x": 4.105818271636963, "y": -0.25322771072387695, "z": -1.756798505783081 }, "axis_scores": { "Quantum imaging": 0.6738297343254089, "Quantum Life Science Sensing": 0.6641747951507568, "Quantum sensing Detection": 0.6765803694725037, "Quantum sensing Metrology": 0.6558054089546204, "Quantum sensing navigation": 0.6751640439033508, "Quantum sensing Position": 0.6571124792098999, "Quantum sensing Timing": 0.6740771532058716, "Quantum sensing": 0.6823662519454956, "Quantum control": 0.6717391014099121 } }, { "id": 6208, "title": "High-energy x-ray diffraction from surfaces and nanoparticles", "abstract": "High-energy surface-sensitive x-ray diffraction (HESXRD) is a powerful high-energy photon technique (E > 70 keV) that has in recent years proven to allow a fast data acquisition for the 3D structure d...", "citations": 26, "author_count": 13, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6215, "doi": "10.1103/PhysRevB.96.195433", "umap_coordinates": { "x": 395.083984375, "y": 134.7892303466797, "z": 208.5537567138672 }, "tsne_coordinates": { "x": 8.78079605102539, "y": -41.52532958984375, "z": 3.56693959236145 }, "pca_coordinates": { "x": 2.438398838043213, "y": -2.2404699325561523, "z": 0.1735450029373169 }, "axis_scores": { "Quantum imaging": 0.6877615451812744, "Quantum Life Science Sensing": 0.7246678471565247, "Quantum sensing Detection": 0.701513946056366, "Quantum sensing Metrology": 0.6805813908576965, "Quantum sensing navigation": 0.6839792728424072, "Quantum sensing Position": 0.6792646050453186, "Quantum sensing Timing": 0.6539746522903442, "Quantum sensing": 0.7096957564353943, "Quantum control": 0.668062150478363 } }, { "id": 6209, "title": "Modeling Solvatochromism of a Quinolinium Betaine Dye in Water Solvent Using Sequential Hybrid QM/MM and Semicontinuum Approach", "abstract": "We have investigated the ambient temperature structure of 1-methyl-8-oxyquinolinium betaine (MOQB) in water solvent and compared to its gas-phase structure. We have employed Car-Parrinello molecular d...", "citations": 18, "author_count": 2, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6216, "doi": "10.1021/jp1049342", "umap_coordinates": { "x": 393.290771484375, "y": 136.28407287597656, "z": 205.4873809814453 }, "tsne_coordinates": { "x": -6.534279823303223, "y": 4.759943008422852, "z": -14.866055488586426 }, "pca_coordinates": { "x": -1.2871239185333252, "y": 0.22953128814697266, "z": -2.0528366565704346 }, "axis_scores": { "Quantum imaging": 0.6948633193969727, "Quantum Life Science Sensing": 0.713388979434967, "Quantum sensing Detection": 0.6750994920730591, "Quantum sensing Metrology": 0.6776329278945923, "Quantum sensing navigation": 0.688045859336853, "Quantum sensing Position": 0.657360851764679, "Quantum sensing Timing": 0.6571013927459717, "Quantum sensing": 0.687451958656311, "Quantum control": 0.668097734451294 } }, { "id": 6210, "title": "Novel algorithm for simulation of 3D quantum reactive atom-diatom scattering", "abstract": "A new approach is described to the evaluation of the quantum scattering S-matrix in 3D atom-diatom reactive collision. The theory is developed in terms of natural collision coordinates where the coord...", "citations": 1, "author_count": 4, "categories": [ "Computer Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6217, "doi": "10.1016/j.procs.2010.04.133", "umap_coordinates": { "x": 393.81304931640625, "y": 137.0685577392578, "z": 206.53646850585938 }, "tsne_coordinates": { "x": -10.63056468963623, "y": 9.851198196411133, "z": 21.699705123901367 }, "pca_coordinates": { "x": 0.20047497749328613, "y": 1.666825294494629, "z": -0.6523100733757019 }, "axis_scores": { "Quantum imaging": 0.7630828022956848, "Quantum Life Science Sensing": 0.7564519643783569, "Quantum sensing Detection": 0.7532361149787903, "Quantum sensing Metrology": 0.7263433337211609, "Quantum sensing navigation": 0.74493408203125, "Quantum sensing Position": 0.7193577885627747, "Quantum sensing Timing": 0.7263926267623901, "Quantum sensing": 0.7614055275917053, "Quantum control": 0.7386277914047241 } }, { "id": 6211, "title": "Imaging-based dynamic liver testing - A computerized simulation", "abstract": "Background/Aims:' The mechanisms for maintaining liver function are complex and currently used liver function tests give limited and often nonspecific and insensitive results. The aim of the study was...", "citations": 2, "author_count": 4, "categories": [ "Gastroenterology & Hepatology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6218, "doi": null, "umap_coordinates": { "x": 391.1859130859375, "y": 139.4000701904297, "z": 209.53598022460938 }, "tsne_coordinates": { "x": 1.0782339572906494, "y": 39.45063018798828, "z": -5.227434158325195 }, "pca_coordinates": { "x": -2.557896375656128, "y": 6.669068813323975, "z": -1.5621235370635986 }, "axis_scores": { "Quantum imaging": 0.7198343276977539, "Quantum Life Science Sensing": 0.6897609829902649, "Quantum sensing Detection": 0.6667343378067017, "Quantum sensing Metrology": 0.6466175317764282, "Quantum sensing navigation": 0.6720252633094788, "Quantum sensing Position": 0.6426681876182556, "Quantum sensing Timing": 0.6415603756904602, "Quantum sensing": 0.6666006445884705, "Quantum control": 0.6708406805992126 } }, { "id": 6212, "title": "Contributions of climate, leaf area index and leaf physiology to variation in gross primary production of six coniferous forests across Europe: a model-based analysis", "abstract": "Gross primary production (GPP) is the primary source of all carbon fluxes in the ecosystem. Understanding, variation in this flux is vital to understanding variation in the carbon sink of forest ecosy...", "citations": 51, "author_count": 16, "categories": [ "Forestry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6219, "doi": "10.1093/treephys/tpp010", "umap_coordinates": { "x": 394.46173095703125, "y": 136.3824920654297, "z": 203.63491821289062 }, "tsne_coordinates": { "x": 12.262812614440918, "y": 38.476200103759766, "z": 9.234521865844727 }, "pca_coordinates": { "x": -1.8633428812026978, "y": 1.7823959589004517, "z": -0.4736587703227997 }, "axis_scores": { "Quantum imaging": 0.6541855335235596, "Quantum Life Science Sensing": 0.6910099387168884, "Quantum sensing Detection": 0.6479454636573792, "Quantum sensing Metrology": 0.6569790244102478, "Quantum sensing navigation": 0.6444077491760254, "Quantum sensing Position": 0.6487787961959839, "Quantum sensing Timing": 0.6592751145362854, "Quantum sensing": 0.6631147861480713, "Quantum control": 0.6577869653701782 } }, { "id": 6213, "title": "New Nonlinear Optical Crystal of Rhodamine 590 Acid Phthalate", "abstract": "The synthesis and crystal structure of rhodamine 590 acid phthalate RhAP have been reported. This novel solid-state rhodamine derivative not only has a longer fluorescence lifetime compared to rhodami...", "citations": 4, "author_count": 14, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6220, "doi": "10.1021/acsomega.0c02303", "umap_coordinates": { "x": 392.0365295410156, "y": 134.8275146484375, "z": 204.79856872558594 }, "tsne_coordinates": { "x": 20.960914611816406, "y": 7.599015712738037, "z": -20.861597061157227 }, "pca_coordinates": { "x": -3.0595273971557617, "y": -1.605135440826416, "z": -0.7837793231010437 }, "axis_scores": { "Quantum imaging": 0.6982417702674866, "Quantum Life Science Sensing": 0.7253420948982239, "Quantum sensing Detection": 0.6886845827102661, "Quantum sensing Metrology": 0.6778542995452881, "Quantum sensing navigation": 0.6791196465492249, "Quantum sensing Position": 0.6679279804229736, "Quantum sensing Timing": 0.6387875080108643, "Quantum sensing": 0.6957797408103943, "Quantum control": 0.6622909307479858 } }, { "id": 6214, "title": "Broadband X-ray spectra and timing of the accreting millisecond pulsar Swift J1756.9-2508 during its 2018 and 2019 outbursts", "abstract": "The accreting millisecond X-ray pulsar Swift J1756.9-2508 launched into an outburst in April 2018 and June 2019 - 8.7 years after the previous period of activity. We investigated the temporal, timing,...", "citations": 9, "author_count": 12, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6221, "doi": "10.1051/0004-6361/202140360", "umap_coordinates": { "x": 396.10595703125, "y": 134.8258514404297, "z": 206.1729278564453 }, "tsne_coordinates": { "x": -29.298187255859375, "y": 21.453933715820312, "z": 3.1514222621917725 }, "pca_coordinates": { "x": -1.114824652671814, "y": 0.942486047744751, "z": 0.8447603583335876 }, "axis_scores": { "Quantum imaging": 0.6633782982826233, "Quantum Life Science Sensing": 0.6902939081192017, "Quantum sensing Detection": 0.6563538312911987, "Quantum sensing Metrology": 0.6575099229812622, "Quantum sensing navigation": 0.6638439893722534, "Quantum sensing Position": 0.6602587699890137, "Quantum sensing Timing": 0.7095152735710144, "Quantum sensing": 0.6668964624404907, "Quantum control": 0.6359517574310303 } }, { "id": 6215, "title": "Measurement of Compton Scattering from the Deuteron and an Improved Extraction of the Neutron Electromagnetic Polarizabilities", "abstract": "The electromagnetic polarizabilities of the nucleon are fundamental properties that describe its response to external electric and magnetic fields. They can be extracted from Compton-scattering data-a...", "citations": 44, "author_count": 19, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6222, "doi": "10.1103/PhysRevLett.113.262506", "umap_coordinates": { "x": 395.7880554199219, "y": 135.2440185546875, "z": 207.94491577148438 }, "tsne_coordinates": { "x": -33.5225715637207, "y": -13.998391151428223, "z": -18.439327239990234 }, "pca_coordinates": { "x": 1.9839677810668945, "y": -0.08542656898498535, "z": 1.392773151397705 }, "axis_scores": { "Quantum imaging": 0.6847347617149353, "Quantum Life Science Sensing": 0.7113021612167358, "Quantum sensing Detection": 0.700300395488739, "Quantum sensing Metrology": 0.6836845874786377, "Quantum sensing navigation": 0.693973183631897, "Quantum sensing Position": 0.6758552193641663, "Quantum sensing Timing": 0.6681790947914124, "Quantum sensing": 0.7082906365394592, "Quantum control": 0.6727351546287537 } }, { "id": 6216, "title": "A novel free-space retrocommunication link", "abstract": "Retrocommunication is a new technique for asymmetric free-space optical communication that has attracted interest during recent years. Novel technologies such as multiple quantum well (MQW) optical mo...", "citations": 5, "author_count": 11, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6223, "doi": "10.1117/12.578267", "umap_coordinates": { "x": 394.9480285644531, "y": 133.97940063476562, "z": 206.4676513671875 }, "tsne_coordinates": { "x": -2.493290662765503, "y": 8.826311111450195, "z": -23.814090728759766 }, "pca_coordinates": { "x": -0.45287442207336426, "y": 2.794300079345703, "z": 1.7321419715881348 }, "axis_scores": { "Quantum imaging": 0.6670891642570496, "Quantum Life Science Sensing": 0.6845585703849792, "Quantum sensing Detection": 0.6869789361953735, "Quantum sensing Metrology": 0.6723559498786926, "Quantum sensing navigation": 0.7128006815910339, "Quantum sensing Position": 0.703555703163147, "Quantum sensing Timing": 0.6799893975257874, "Quantum sensing": 0.6862172484397888, "Quantum control": 0.6697666049003601 } }, { "id": 6217, "title": "Quantum Fuzzy Neural Network for multimodal sentiment and sarcasm detection", "abstract": "Sentiment and sarcasm detection in social media contribute to assessing social opinion trends. Over years, most artificial intelligence (AI) methods have relied on real values to characterize the sent...", "citations": 49, "author_count": 5, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6224, "doi": "10.1016/j.inffus.2023.102085", "umap_coordinates": { "x": 394.5360412597656, "y": 135.7916717529297, "z": 205.44580078125 }, "tsne_coordinates": { "x": -25.22715950012207, "y": 19.53949737548828, "z": 15.061322212219238 }, "pca_coordinates": { "x": -1.5585826635360718, "y": 1.537105917930603, "z": -0.029833734035491943 }, "axis_scores": { "Quantum imaging": 0.7765316367149353, "Quantum Life Science Sensing": 0.7715532779693604, "Quantum sensing Detection": 0.7671462297439575, "Quantum sensing Metrology": 0.7587445378303528, "Quantum sensing navigation": 0.7645759582519531, "Quantum sensing Position": 0.7326254844665527, "Quantum sensing Timing": 0.7099494934082031, "Quantum sensing": 0.7752288579940796, "Quantum control": 0.747827410697937 } }, { "id": 6218, "title": "CYTOFLUOROMETRIC QUANTITATION OF 5-HYDROXYTRYPTAMINE AND HEPARIN IN INDIVIDUAL MAST-CELL GRANULES", "abstract": "Cytofluorometric quantitation of 5-hydroxytryptamine (5-HT) and heparin in individual mast cell granules [rat] is described. The technique is based on micromanipulation of intact mast cells reacted wi...", "citations": 8, "author_count": 3, "categories": [ "Cell Biology" ], "year": 1978, "topic": [ "all" ], "embedding_index": 6225, "doi": "10.1177/26.1.304456", "umap_coordinates": { "x": 394.3971862792969, "y": 135.29598999023438, "z": 204.43199157714844 }, "tsne_coordinates": { "x": 8.754030227661133, "y": 31.903907775878906, "z": -0.17243064939975739 }, "pca_coordinates": { "x": -1.9356820583343506, "y": 3.1616251468658447, "z": -0.12836140394210815 }, "axis_scores": { "Quantum imaging": 0.7012647986412048, "Quantum Life Science Sensing": 0.7175853252410889, "Quantum sensing Detection": 0.6877239942550659, "Quantum sensing Metrology": 0.6847870945930481, "Quantum sensing navigation": 0.6711693406105042, "Quantum sensing Position": 0.6723261475563049, "Quantum sensing Timing": 0.682548463344574, "Quantum sensing": 0.7045194506645203, "Quantum control": 0.6964605450630188 } }, { "id": 6219, "title": "Coherent supercontinuum generation in all-normal dispersion Si3N4 waveguides", "abstract": "Spectral broadening of optical frequency combs with high repetition rate is of significant interest in optical communications, radio-frequency photonics and spectroscopy. Silicon nitride waveguides (S...", "citations": 25, "author_count": 9, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6226, "doi": "10.1364/OE.450987", "umap_coordinates": { "x": 394.29278564453125, "y": 134.1891326904297, "z": 206.7079620361328 }, "tsne_coordinates": { "x": -1.4047080278396606, "y": -9.298315048217773, "z": -29.90008544921875 }, "pca_coordinates": { "x": 0.6840970516204834, "y": -0.9467554092407227, "z": 3.204094886779785 }, "axis_scores": { "Quantum imaging": 0.7217181921005249, "Quantum Life Science Sensing": 0.7018804550170898, "Quantum sensing Detection": 0.7037729620933533, "Quantum sensing Metrology": 0.706249475479126, "Quantum sensing navigation": 0.7245196104049683, "Quantum sensing Position": 0.6853768229484558, "Quantum sensing Timing": 0.6922013759613037, "Quantum sensing": 0.7128974199295044, "Quantum control": 0.7002880573272705 } }, { "id": 6220, "title": "Adsorption and solar light decomposition of acetone on anatase TiO2 and niobium doped TiO2 thin films", "abstract": "Adsorption and solar light decomposition of acetone was studied on nanostructured anatase TiO2 and Nb-doped TiO2 films made by sol-gel methods (10 and 20 mol % NbO2.5). A detailed characterization of ...", "citations": 176, "author_count": 6, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6227, "doi": "10.1021/jp055656z", "umap_coordinates": { "x": 392.46148681640625, "y": 134.57476806640625, "z": 205.6513214111328 }, "tsne_coordinates": { "x": 16.93526268005371, "y": 5.80845832824707, "z": 0.5732568502426147 }, "pca_coordinates": { "x": -2.2315845489501953, "y": -2.750838279724121, "z": -1.8192760944366455 }, "axis_scores": { "Quantum imaging": 0.7028011083602905, "Quantum Life Science Sensing": 0.7164367437362671, "Quantum sensing Detection": 0.6940019130706787, "Quantum sensing Metrology": 0.6746591925621033, "Quantum sensing navigation": 0.667785108089447, "Quantum sensing Position": 0.6622412800788879, "Quantum sensing Timing": 0.6505112051963806, "Quantum sensing": 0.7109896540641785, "Quantum control": 0.6802666187286377 } }, { "id": 6221, "title": "Evaluation of Pearson correlation coefficient and Parisi parameter of replica symmetry breaking in a hybrid electronically addressable random fiber laser", "abstract": "The hybrid electronically addressable random (HEAR) laser is a novel type of random fiber laser that presents the remarkable property of selection of the fiber section with lasing emission. Here we pr...", "citations": 24, "author_count": 8, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6228, "doi": "10.1364/OE.431981", "umap_coordinates": { "x": 394.9468688964844, "y": 134.96348571777344, "z": 206.54376220703125 }, "tsne_coordinates": { "x": 6.981747627258301, "y": 0.8050597310066223, "z": -41.36088943481445 }, "pca_coordinates": { "x": 0.5834108591079712, "y": 1.9583442211151123, "z": 1.7141709327697754 }, "axis_scores": { "Quantum imaging": 0.6957639455795288, "Quantum Life Science Sensing": 0.7007823586463928, "Quantum sensing Detection": 0.6958770751953125, "Quantum sensing Metrology": 0.7066065669059753, "Quantum sensing navigation": 0.6905143857002258, "Quantum sensing Position": 0.716741681098938, "Quantum sensing Timing": 0.6905399560928345, "Quantum sensing": 0.7111856937408447, "Quantum control": 0.6846122741699219 } }, { "id": 6222, "title": "Photoionization of metastable heliumlike C4+ (1s2s 3S1) ions: Precision study of intermediate doubly excited states", "abstract": "In a joint experimental and theoretical endeavor, photoionization of metastable C4+ (1s2s S-3(1)) ions via intermediate levels with hollow, double-K-vacancy configurations 2s2p, 2s3p, 2p3s, 2p3d, 2s4p...", "citations": 38, "author_count": 14, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6229, "doi": "10.1103/PhysRevA.98.033416", "umap_coordinates": { "x": 394.2330322265625, "y": 135.7811279296875, "z": 207.11878967285156 }, "tsne_coordinates": { "x": -0.8256890177726746, "y": -7.181976318359375, "z": -1.2688874006271362 }, "pca_coordinates": { "x": 1.7607669830322266, "y": -0.4269280433654785, "z": -0.4031734764575958 }, "axis_scores": { "Quantum imaging": 0.7125217914581299, "Quantum Life Science Sensing": 0.7452079653739929, "Quantum sensing Detection": 0.7237666845321655, "Quantum sensing Metrology": 0.6958791017532349, "Quantum sensing navigation": 0.69011390209198, "Quantum sensing Position": 0.6968460083007812, "Quantum sensing Timing": 0.6963199377059937, "Quantum sensing": 0.7275893092155457, "Quantum control": 0.6869244575500488 } }, { "id": 6223, "title": "Attosecond inner-shell lasing at angstrom wavelengths", "abstract": "Since the invention of the laser, nonlinear effects such as filamentation(1), Rabi cycling(2,3) and collective emission(4) have been explored in the optical regime, leading to a wide range of scientif...", "citations": 4, "author_count": 38, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6230, "doi": "10.1038/s41586-025-09105-9", "umap_coordinates": { "x": 394.2782287597656, "y": 135.23406982421875, "z": 206.19593811035156 }, "tsne_coordinates": { "x": -8.341379165649414, "y": 1.1242785453796387, "z": -7.052176475524902 }, "pca_coordinates": { "x": -0.8602975606918335, "y": -0.5943427085876465, "z": 2.1273064613342285 }, "axis_scores": { "Quantum imaging": 0.7024286985397339, "Quantum Life Science Sensing": 0.7019306421279907, "Quantum sensing Detection": 0.6942619681358337, "Quantum sensing Metrology": 0.6889359951019287, "Quantum sensing navigation": 0.6727115511894226, "Quantum sensing Position": 0.6724762320518494, "Quantum sensing Timing": 0.6898666620254517, "Quantum sensing": 0.7022270560264587, "Quantum control": 0.6242760419845581 } }, { "id": 6224, "title": "On the biological basis for competing macroscopic dose descriptors for kilovoltage dosimetry: cellular dosimetry for brachytherapy and diagnostic radiology", "abstract": "The purpose of this work is to investigate how alternative macroscopic dose descriptors track absorbed dose to biologically relevant subcellular targets via Monte Carlo (MC) analysis of cellular model...", "citations": 33, "author_count": 4, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6231, "doi": "10.1088/0031-9155/58/4/1123", "umap_coordinates": { "x": 395.7083435058594, "y": 133.94766235351562, "z": 204.6947479248047 }, "tsne_coordinates": { "x": -17.15477752685547, "y": 29.98025894165039, "z": -18.4617977142334 }, "pca_coordinates": { "x": -1.3455027341842651, "y": 2.8748419284820557, "z": -0.3465898931026459 }, "axis_scores": { "Quantum imaging": 0.6724509000778198, "Quantum Life Science Sensing": 0.6852913498878479, "Quantum sensing Detection": 0.6567535400390625, "Quantum sensing Metrology": 0.6639684438705444, "Quantum sensing navigation": 0.6478523015975952, "Quantum sensing Position": 0.6477068662643433, "Quantum sensing Timing": 0.6721241474151611, "Quantum sensing": 0.6676144599914551, "Quantum control": 0.6426268815994263 } }, { "id": 6225, "title": "A practical superconducting-microcalorimeter X-ray spectrometer for beamline and laboratory science", "abstract": "We describe a series of microcalorimeter X-ray spectrometers designed for a broad suite of measurement applications. The chief advantage of this type of spectrometer is that it can be orders of magnit...", "citations": 120, "author_count": 27, "categories": [ "Instruments & Instrumentation" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6232, "doi": "10.1063/1.4983316", "umap_coordinates": { "x": 395.2891540527344, "y": 134.37240600585938, "z": 206.78782653808594 }, "tsne_coordinates": { "x": -20.197864532470703, "y": 12.255875587463379, "z": -27.30518341064453 }, "pca_coordinates": { "x": 0.986229419708252, "y": 0.8582926988601685, "z": 1.4837985038757324 }, "axis_scores": { "Quantum imaging": 0.700507640838623, "Quantum Life Science Sensing": 0.733509361743927, "Quantum sensing Detection": 0.7148264646530151, "Quantum sensing Metrology": 0.7348793148994446, "Quantum sensing navigation": 0.7049963474273682, "Quantum sensing Position": 0.7146080732345581, "Quantum sensing Timing": 0.691634476184845, "Quantum sensing": 0.7325748801231384, "Quantum control": 0.6847991943359375 } }, { "id": 6226, "title": "Transformation Optics Approach for Goos-Hanchen Shift Enhancement at Metamaterial Interfaces", "abstract": "Since its first observation in 1947, the Goos-Hanchen effect an electromagnetic wave phenomenon where a totally reflected beam with finite cross section undergoes a lateral displacement from its posit...", "citations": 2, "author_count": 5, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6233, "doi": "10.1117/12.2227519", "umap_coordinates": { "x": 394.9045715332031, "y": 133.78887939453125, "z": 206.8380889892578 }, "tsne_coordinates": { "x": 2.685396194458008, "y": 9.106115341186523, "z": -29.550750732421875 }, "pca_coordinates": { "x": -0.9003477692604065, "y": 0.7549000978469849, "z": 0.1885564923286438 }, "axis_scores": { "Quantum imaging": 0.719292402267456, "Quantum Life Science Sensing": 0.7117565274238586, "Quantum sensing Detection": 0.7071844935417175, "Quantum sensing Metrology": 0.7345893383026123, "Quantum sensing navigation": 0.7218000888824463, "Quantum sensing Position": 0.6932064890861511, "Quantum sensing Timing": 0.701528012752533, "Quantum sensing": 0.7266051173210144, "Quantum control": 0.6967748999595642 } }, { "id": 6227, "title": "Engineering of Norbornadiene/Quadricyclane Photoswitches for Molecular Solar Thermal Energy Storage Applications", "abstract": "Renewable energy resources are mostly intermittent and not evenly distributed geographically; for this reason, the development of new technologies for energy storage is in high demand. Molecules that ...", "citations": 177, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6234, "doi": "10.1021/acs.accounts.0c00235", "umap_coordinates": { "x": 392.08953857421875, "y": 135.4227752685547, "z": 205.48980712890625 }, "tsne_coordinates": { "x": 5.058363914489746, "y": -1.161877989768982, "z": -4.602672100067139 }, "pca_coordinates": { "x": -1.5853667259216309, "y": -3.1641669273376465, "z": -2.5365889072418213 }, "axis_scores": { "Quantum imaging": 0.7382978200912476, "Quantum Life Science Sensing": 0.7713222503662109, "Quantum sensing Detection": 0.7400098443031311, "Quantum sensing Metrology": 0.7279312610626221, "Quantum sensing navigation": 0.7113220691680908, "Quantum sensing Position": 0.6901511549949646, "Quantum sensing Timing": 0.7105052471160889, "Quantum sensing": 0.7544869184494019, "Quantum control": 0.7503721117973328 } }, { "id": 6228, "title": "Explanation of the hints for a 95 GeV Higgs boson within a 2-Higgs Doublet Model", "abstract": "We suggest an explanation for and explore the consequences of the excess around 95 GeV in the di-photon and di-tau invariant mass distributions recently reported by the CMS collaboration at the Large ...", "citations": 20, "author_count": 7, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6235, "doi": "10.1007/JHEP05(2024)209", "umap_coordinates": { "x": 396.7235107421875, "y": 135.3375244140625, "z": 206.9759521484375 }, "tsne_coordinates": { "x": -38.908931732177734, "y": 14.614310264587402, "z": -3.2783114910125732 }, "pca_coordinates": { "x": 0.9900825023651123, "y": 3.637991189956665, "z": -0.9691606163978577 }, "axis_scores": { "Quantum imaging": 0.630660355091095, "Quantum Life Science Sensing": 0.6197163462638855, "Quantum sensing Detection": 0.6200933456420898, "Quantum sensing Metrology": 0.6192504167556763, "Quantum sensing navigation": 0.6391125917434692, "Quantum sensing Position": 0.6318709254264832, "Quantum sensing Timing": 0.6593896746635437, "Quantum sensing": 0.6204383969306946, "Quantum control": 0.6191427111625671 } }, { "id": 6229, "title": "The hydrogen abstraction reaction H+CH4. II. Theoretical investigation of the kinetics and dynamics", "abstract": "On a new potential energy surface (PES-2008) developed by our group (preceding paper), we performed an extensive kinetics study using variational transition-state theory with semiclassical transmissio...", "citations": 22, "author_count": 4, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6236, "doi": "10.1063/1.3132594", "umap_coordinates": { "x": 393.43438720703125, "y": 137.1976318359375, "z": 206.70321655273438 }, "tsne_coordinates": { "x": -9.106148719787598, "y": 6.622420310974121, "z": 34.5827751159668 }, "pca_coordinates": { "x": 2.6884095668792725, "y": 2.3675639629364014, "z": -4.094607830047607 }, "axis_scores": { "Quantum imaging": 0.6997234225273132, "Quantum Life Science Sensing": 0.7157620191574097, "Quantum sensing Detection": 0.6964809894561768, "Quantum sensing Metrology": 0.6548107266426086, "Quantum sensing navigation": 0.6767519116401672, "Quantum sensing Position": 0.6446267366409302, "Quantum sensing Timing": 0.6687991619110107, "Quantum sensing": 0.704838752746582, "Quantum control": 0.7128476500511169 } }, { "id": 6230, "title": "Enhanced electrochemical catalysis and sensing applications: fabrication process optimization and electrocatalytic characterization of polymeric matrix composite for one-step synthesis of Pd nanoparticle-decorated laser-induced graphene electrodes", "abstract": "In this study, we present a novel hybrid nanomaterial, nano-palladium anchored on laser-induced graphene (nanoPd@LIG), which was synthesized using a one-step laser irradiation process. Various Pd(ii)-...", "citations": 1, "author_count": 10, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6237, "doi": "10.1039/d4ta08876j", "umap_coordinates": { "x": 392.4291687011719, "y": 134.3462371826172, "z": 204.91275024414062 }, "tsne_coordinates": { "x": 15.866439819335938, "y": 7.969210624694824, "z": -9.912236213684082 }, "pca_coordinates": { "x": -4.448263645172119, "y": -2.526289939880371, "z": 0.17960971593856812 }, "axis_scores": { "Quantum imaging": 0.6615946292877197, "Quantum Life Science Sensing": 0.6849268078804016, "Quantum sensing Detection": 0.6600661873817444, "Quantum sensing Metrology": 0.6556203961372375, "Quantum sensing navigation": 0.6313621997833252, "Quantum sensing Position": 0.6423285007476807, "Quantum sensing Timing": 0.6246123313903809, "Quantum sensing": 0.664291501045227, "Quantum control": 0.6375840306282043 } }, { "id": 6231, "title": "SPECT/CT: an update on technological developments and clinical applications", "abstract": "Functional nuclear medicine imaging with single-photon emission CT (SPECT) in combination with anatomical CT has been commercially available since the beginning of this century. The combination of the...", "citations": 100, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6238, "doi": "10.1259/bjr.20160402", "umap_coordinates": { "x": 395.16949462890625, "y": 133.16213989257812, "z": 204.98193359375 }, "tsne_coordinates": { "x": -4.051483631134033, "y": 28.143360137939453, "z": -12.617493629455566 }, "pca_coordinates": { "x": -4.135353088378906, "y": 4.009115695953369, "z": 2.2960641384124756 }, "axis_scores": { "Quantum imaging": 0.7461708188056946, "Quantum Life Science Sensing": 0.719412088394165, "Quantum sensing Detection": 0.7144243121147156, "Quantum sensing Metrology": 0.696605384349823, "Quantum sensing navigation": 0.7095736265182495, "Quantum sensing Position": 0.6938307881355286, "Quantum sensing Timing": 0.7041704654693604, "Quantum sensing": 0.7139625549316406, "Quantum control": 0.6869661808013916 } }, { "id": 6232, "title": "Assessment of DFT functionals for a minimal nitrogenase [Fe(SH)4H]- model employing state-of-the-art ab initio methods", "abstract": "We have designed a [Fe(SH)(4)H](-) model with the fifth proton binding either to Fe or S. We show that the energy difference between these two isomers (?E) is hard to estimate with quantum-mechanical ...", "citations": 8, "author_count": 10, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6239, "doi": "10.1063/5.0152611", "umap_coordinates": { "x": 393.1358337402344, "y": 136.38792419433594, "z": 206.05361938476562 }, "tsne_coordinates": { "x": -0.20903654396533966, "y": 18.496734619140625, "z": 34.18323516845703 }, "pca_coordinates": { "x": -0.5984035730361938, "y": 0.383603572845459, "z": -2.1797268390655518 }, "axis_scores": { "Quantum imaging": 0.6828176975250244, "Quantum Life Science Sensing": 0.7186158299446106, "Quantum sensing Detection": 0.6645680665969849, "Quantum sensing Metrology": 0.6881245970726013, "Quantum sensing navigation": 0.6775133013725281, "Quantum sensing Position": 0.653891384601593, "Quantum sensing Timing": 0.6257280707359314, "Quantum sensing": 0.6950371861457825, "Quantum control": 0.6636579632759094 } }, { "id": 6233, "title": "NON-LINEAR PULSE PROPAGATION IN MANY-PHOTON ACTIVE ISOTROPIC MEDIA", "abstract": "It is an experimental fact that light propagation in a medium is sensitively dependent on the shape and intensity of the optical pulse as well as on the electronic and vibrational structure of the bas...", "citations": 2, "author_count": 6, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6240, "doi": null, "umap_coordinates": { "x": 391.5707092285156, "y": 139.2847137451172, "z": 209.0796356201172 }, "tsne_coordinates": { "x": -10.519841194152832, "y": 38.99383544921875, "z": -9.938884735107422 }, "pca_coordinates": { "x": -0.5863820314407349, "y": 2.7647621631622314, "z": 1.4932546615600586 }, "axis_scores": { "Quantum imaging": 0.7423017024993896, "Quantum Life Science Sensing": 0.7010239958763123, "Quantum sensing Detection": 0.7009724378585815, "Quantum sensing Metrology": 0.6823388338088989, "Quantum sensing navigation": 0.707440972328186, "Quantum sensing Position": 0.6778859496116638, "Quantum sensing Timing": 0.6621912717819214, "Quantum sensing": 0.7077940106391907, "Quantum control": 0.6685563325881958 } }, { "id": 6234, "title": "Electroweak probes of small and large systems with the ATLAS detector", "abstract": "Measurements of isolated prompt photon and massive electroweak (W and Z) boson production in different collision systems are of great interest to understand the partonic structure of heavy nuclei, and...", "citations": 1, "author_count": 2685, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6241, "doi": "10.1016/j.nuclphysa.2018.09.029", "umap_coordinates": { "x": 396.7354431152344, "y": 134.17250061035156, "z": 207.02879333496094 }, "tsne_coordinates": { "x": -32.03087615966797, "y": 8.498316764831543, "z": -8.360432624816895 }, "pca_coordinates": { "x": -0.2572476267814636, "y": 1.6591708660125732, "z": 1.1910820007324219 }, "axis_scores": { "Quantum imaging": 0.7127875685691833, "Quantum Life Science Sensing": 0.7386209964752197, "Quantum sensing Detection": 0.7279965281486511, "Quantum sensing Metrology": 0.7073909640312195, "Quantum sensing navigation": 0.7075576186180115, "Quantum sensing Position": 0.7057338953018188, "Quantum sensing Timing": 0.7056790590286255, "Quantum sensing": 0.7331028580665588, "Quantum control": 0.682881772518158 } }, { "id": 6235, "title": "Orientation effects in morphology and electronic properties of anatase TiO2 one-dimensional nanostructures. II. Nanotubes", "abstract": "In the first part [D. B. Migas et al., Phys. Chem. Chem. Phys., 2014, DOI: 10.1039/C3CP54988G] by means of ab initio calculations we have analyzed and discussed anisotropy effects on electronic proper...", "citations": 16, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6242, "doi": "10.1039/c3cp54906b", "umap_coordinates": { "x": 392.3576965332031, "y": 134.74781799316406, "z": 206.7411346435547 }, "tsne_coordinates": { "x": 22.42645263671875, "y": -38.63075256347656, "z": -8.327139854431152 }, "pca_coordinates": { "x": -0.8000841736793518, "y": -3.2116012573242188, "z": -2.8097991943359375 }, "axis_scores": { "Quantum imaging": 0.6966985464096069, "Quantum Life Science Sensing": 0.7125734686851501, "Quantum sensing Detection": 0.6720844507217407, "Quantum sensing Metrology": 0.6547233462333679, "Quantum sensing navigation": 0.6767116189002991, "Quantum sensing Position": 0.6588950753211975, "Quantum sensing Timing": 0.6439352631568909, "Quantum sensing": 0.6886723637580872, "Quantum control": 0.6746600866317749 } }, { "id": 6236, "title": "Fluorescence Correlation Spectroscopy Combined with Multiphoton Laser Scanning Microscopy-A Practical Guideline", "abstract": "Multiphoton laser scanning microscopy (MPM) has opened up an optical window into biological tissues; however, imaging is primarily qualitative. Cell morphology and tissue architectures can be clearly ...", "citations": 1, "author_count": 4, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6243, "doi": "10.3390/app11052122", "umap_coordinates": { "x": 394.521728515625, "y": 134.65188598632812, "z": 205.00091552734375 }, "tsne_coordinates": { "x": -4.8867106437683105, "y": 6.433346748352051, "z": -19.51586151123047 }, "pca_coordinates": { "x": -3.60029673576355, "y": 1.7499279975891113, "z": 1.8666059970855713 }, "axis_scores": { "Quantum imaging": 0.6896231174468994, "Quantum Life Science Sensing": 0.7151271104812622, "Quantum sensing Detection": 0.6999967098236084, "Quantum sensing Metrology": 0.7068157196044922, "Quantum sensing navigation": 0.688315212726593, "Quantum sensing Position": 0.6705583333969116, "Quantum sensing Timing": 0.6726897358894348, "Quantum sensing": 0.7088693380355835, "Quantum control": 0.6575798988342285 } }, { "id": 6237, "title": "Valence Level Character in a Mixed Perovskite Material and Determination of the Valence Band Maximum from Photoelectron Spectroscopy: Variation with Photon Energy", "abstract": "A better understanding of the electronic structure of perovskite materials used in photovoltaic devices is essential for their development and optimization. In this investigation, synchrotron-based ph...", "citations": 118, "author_count": 12, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6244, "doi": "10.1021/acs.jpcc.7b08948", "umap_coordinates": { "x": 391.5545349121094, "y": 134.55348205566406, "z": 205.61399841308594 }, "tsne_coordinates": { "x": 14.629530906677246, "y": -8.953145980834961, "z": -19.061349868774414 }, "pca_coordinates": { "x": -2.860691547393799, "y": -3.2829489707946777, "z": -0.6961762309074402 }, "axis_scores": { "Quantum imaging": 0.6906959414482117, "Quantum Life Science Sensing": 0.7008380889892578, "Quantum sensing Detection": 0.6797199845314026, "Quantum sensing Metrology": 0.6694193482398987, "Quantum sensing navigation": 0.6511620283126831, "Quantum sensing Position": 0.6605405807495117, "Quantum sensing Timing": 0.6342402100563049, "Quantum sensing": 0.6848999261856079, "Quantum control": 0.6433146595954895 } }, { "id": 6238, "title": "SNOC:: A Monte-Carlo simulation package for high-z supernova observations", "abstract": "We present a Monte-Carlo package for simulation of high-redshift supernova data, SNOC. Optical and near-infrared photons from supernovae are ray-traced over cosmological distances from the simulated h...", "citations": 41, "author_count": 7, "categories": [ "Astronomy & Astrophysics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6245, "doi": "10.1051/0004-6361:20020930", "umap_coordinates": { "x": 396.3780212402344, "y": 134.84007263183594, "z": 206.13575744628906 }, "tsne_coordinates": { "x": -26.355331420898438, "y": 20.231231689453125, "z": 0.19820909202098846 }, "pca_coordinates": { "x": 0.036512136459350586, "y": 1.8428306579589844, "z": 2.67402720451355 }, "axis_scores": { "Quantum imaging": 0.6978871822357178, "Quantum Life Science Sensing": 0.7042466402053833, "Quantum sensing Detection": 0.6943022608757019, "Quantum sensing Metrology": 0.6882768273353577, "Quantum sensing navigation": 0.7257174849510193, "Quantum sensing Position": 0.6664784550666809, "Quantum sensing Timing": 0.6962471604347229, "Quantum sensing": 0.7037571668624878, "Quantum control": 0.6925638318061829 } }, { "id": 6239, "title": "Nearly Monochromatic Bremsstrahlung of High Intensity via Microparticle Targets: A Novel Concept", "abstract": "As an alternative to rigid anodes, a novel concept of X-ray targets consisting of a stream or a multitude of streams of fast tungsten microparticles has recently been proposed. Low-density micropartic...", "citations": 2, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6246, "doi": "10.3390/instruments8030042", "umap_coordinates": { "x": 394.74542236328125, "y": 135.33021545410156, "z": 205.42465209960938 }, "tsne_coordinates": { "x": -0.2444322556257248, "y": 11.086978912353516, "z": -30.18194007873535 }, "pca_coordinates": { "x": -2.4347314834594727, "y": 1.852402925491333, "z": 0.754158079624176 }, "axis_scores": { "Quantum imaging": 0.7547171115875244, "Quantum Life Science Sensing": 0.7546875476837158, "Quantum sensing Detection": 0.753097414970398, "Quantum sensing Metrology": 0.757145345211029, "Quantum sensing navigation": 0.7165126800537109, "Quantum sensing Position": 0.7184075117111206, "Quantum sensing Timing": 0.7055821418762207, "Quantum sensing": 0.7565938830375671, "Quantum control": 0.7142941355705261 } }, { "id": 6240, "title": "Quantitative imaging and correction for cascade gamma radiation of 76Br with 2D and 3D PET", "abstract": "Several positron emitting nuclides with applications in PET, such as Br-76, I-124, In-110m and Y-86, also emit gamma radiation in their decays. Measured coincidences between annihilation photons and t...", "citations": 59, "author_count": 5, "categories": [ "Engineering" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6247, "doi": "10.1088/0031-9155/47/19/306", "umap_coordinates": { "x": 395.9642639160156, "y": 133.28448486328125, "z": 204.95921325683594 }, "tsne_coordinates": { "x": -11.083617210388184, "y": 27.919309616088867, "z": -14.711546897888184 }, "pca_coordinates": { "x": -2.364720582962036, "y": 4.052394866943359, "z": 2.9574742317199707 }, "axis_scores": { "Quantum imaging": 0.7256143093109131, "Quantum Life Science Sensing": 0.6844930052757263, "Quantum sensing Detection": 0.6821704506874084, "Quantum sensing Metrology": 0.6729018092155457, "Quantum sensing navigation": 0.6860925555229187, "Quantum sensing Position": 0.6638734340667725, "Quantum sensing Timing": 0.67635178565979, "Quantum sensing": 0.688400387763977, "Quantum control": 0.6482922434806824 } }, { "id": 6241, "title": "A Monte Carlo-based model for simulation of digital chest tomosynthesis", "abstract": "The aim of this work was to calculate synthetic digital chest tomosynthesis projections using a computer simulation model based on the Monte Carlo method. An anthropomorphic chest phantom was scanned ...", "citations": 14, "author_count": 7, "categories": [ "Environmental Sciences & Ecology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6248, "doi": "10.1093/rpd/ncq079", "umap_coordinates": { "x": 395.6510009765625, "y": 133.24044799804688, "z": 205.2725372314453 }, "tsne_coordinates": { "x": -4.828599452972412, "y": 34.79076385498047, "z": -20.705944061279297 }, "pca_coordinates": { "x": -1.2923836708068848, "y": 5.2578558921813965, "z": 0.9028082489967346 }, "axis_scores": { "Quantum imaging": 0.663015604019165, "Quantum Life Science Sensing": 0.6905125975608826, "Quantum sensing Detection": 0.6600738167762756, "Quantum sensing Metrology": 0.6442918181419373, "Quantum sensing navigation": 0.65545654296875, "Quantum sensing Position": 0.6488974094390869, "Quantum sensing Timing": 0.6535637378692627, "Quantum sensing": 0.6637389063835144, "Quantum control": 0.6455579400062561 } }, { "id": 6242, "title": "Heteroepitaxial Indium Phosphide on Silicon", "abstract": "There is an intense interest on integration of III-V materials on silicon and silicon-on-insulator for realisation of optical interconnects, optical networking, imaging and disposable photonics for me...", "citations": 2, "author_count": 9, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6249, "doi": "10.1117/12.858122", "umap_coordinates": { "x": 394.5669860839844, "y": 133.03411865234375, "z": 206.4984130859375 }, "tsne_coordinates": { "x": 0.10202718526124954, "y": 4.633014678955078, "z": -29.559444427490234 }, "pca_coordinates": { "x": -0.24026453495025635, "y": -1.5160832405090332, "z": 2.554459571838379 }, "axis_scores": { "Quantum imaging": 0.7208982706069946, "Quantum Life Science Sensing": 0.7009907960891724, "Quantum sensing Detection": 0.7217398881912231, "Quantum sensing Metrology": 0.7233636379241943, "Quantum sensing navigation": 0.7081900238990784, "Quantum sensing Position": 0.7094220519065857, "Quantum sensing Timing": 0.694034993648529, "Quantum sensing": 0.7311314940452576, "Quantum control": 0.6984379291534424 } }, { "id": 6243, "title": "A Monte Carlo method for calculating the energy response of plastic scintillators to polarized photons below 100 keV", "abstract": "The energy response of plastic scintillators (Eljen Technology EJ-204) to polarized soft gamma-ray photons below 100 keV has been studied, primarily for the balloon-borne polarimeter, PoGOLite. The re...", "citations": 11, "author_count": 34, "categories": [ "Instruments & Instrumentation" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6250, "doi": "10.1016/j.nima.2008.11.148", "umap_coordinates": { "x": 394.76971435546875, "y": 132.7620849609375, "z": 205.3874969482422 }, "tsne_coordinates": { "x": -16.86460304260254, "y": 18.260332107543945, "z": -11.087065696716309 }, "pca_coordinates": { "x": -3.185568332672119, "y": 0.6655305624008179, "z": 2.467806577682495 }, "axis_scores": { "Quantum imaging": 0.7021010518074036, "Quantum Life Science Sensing": 0.6975604295730591, "Quantum sensing Detection": 0.6905217170715332, "Quantum sensing Metrology": 0.6732027530670166, "Quantum sensing navigation": 0.6765834093093872, "Quantum sensing Position": 0.6663134098052979, "Quantum sensing Timing": 0.6769474744796753, "Quantum sensing": 0.6876389980316162, "Quantum control": 0.624970018863678 } }, { "id": 6244, "title": "Quantum Yang-Mills Dark Energy", "abstract": "In this short review, I discuss basic qualitative characteristics of quantum non-Abelian gauge dynamics in the non-stationary background of the expanding Universe in the framework of the standard Eins...", "citations": 11, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6251, "doi": "10.3390/universe2010004", "umap_coordinates": { "x": 395.28216552734375, "y": 136.8855743408203, "z": 206.0014190673828 }, "tsne_coordinates": { "x": -34.052520751953125, "y": 16.61655044555664, "z": 9.66594123840332 }, "pca_coordinates": { "x": 0.33019888401031494, "y": 2.0745208263397217, "z": -1.1410720348358154 }, "axis_scores": { "Quantum imaging": 0.7575541138648987, "Quantum Life Science Sensing": 0.7757326364517212, "Quantum sensing Detection": 0.7499145269393921, "Quantum sensing Metrology": 0.73542320728302, "Quantum sensing navigation": 0.7532768845558167, "Quantum sensing Position": 0.7074039578437805, "Quantum sensing Timing": 0.7137251496315002, "Quantum sensing": 0.7591315507888794, "Quantum control": 0.7337239384651184 } }, { "id": 6245, "title": "1100 days in the life of the supernova 2018ibb The best pair-instability supernova candidate, to date", "abstract": "Stars with zero-age main sequence masses between 140 and 260 M-circle dot are thought to explode as pair-instability supernovae (PISNe). During their thermonuclear runaway, PISNe can produce up to sev...", "citations": 31, "author_count": 67, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6252, "doi": "10.1051/0004-6361/202346855", "umap_coordinates": { "x": 396.4345397949219, "y": 135.12918090820312, "z": 206.2381134033203 }, "tsne_coordinates": { "x": -29.717144012451172, "y": 19.887964248657227, "z": 3.7993273735046387 }, "pca_coordinates": { "x": -0.08377134799957275, "y": 2.028071165084839, "z": 0.436553418636322 }, "axis_scores": { "Quantum imaging": 0.6429093480110168, "Quantum Life Science Sensing": 0.7001556158065796, "Quantum sensing Detection": 0.6520646214485168, "Quantum sensing Metrology": 0.6425684690475464, "Quantum sensing navigation": 0.6738224029541016, "Quantum sensing Position": 0.6660154461860657, "Quantum sensing Timing": 0.6944437623023987, "Quantum sensing": 0.6501507759094238, "Quantum control": 0.6393250226974487 } }, { "id": 6246, "title": "Search for dark matter in association with an energetic photon in pp collisions at √s=13 TeV with the ATLAS detector", "abstract": "A search for dark matter is conducted in final states containing a photon and missing transverse momentum in proton-proton collisions at root s = 13 TeV. The data, collected during 2015-2018 by the AT...", "citations": 40, "author_count": 2679, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6253, "doi": "10.1007/JHEP02(2021)226", "umap_coordinates": { "x": 396.8714599609375, "y": 134.37001037597656, "z": 207.3030242919922 }, "tsne_coordinates": { "x": -35.3577766418457, "y": 10.493980407714844, "z": -4.320793628692627 }, "pca_coordinates": { "x": -0.9195246696472168, "y": 1.8511836528778076, "z": 2.738771915435791 }, "axis_scores": { "Quantum imaging": 0.697346031665802, "Quantum Life Science Sensing": 0.6916227340698242, "Quantum sensing Detection": 0.6978625655174255, "Quantum sensing Metrology": 0.6642868518829346, "Quantum sensing navigation": 0.6839122772216797, "Quantum sensing Position": 0.6871030330657959, "Quantum sensing Timing": 0.696588397026062, "Quantum sensing": 0.6863143444061279, "Quantum control": 0.6527633666992188 } }, { "id": 6247, "title": "Dataset of night-time emissions of the Earth in the near UV range (290-430 nm), with 6.3 km resolution in the latitude range-51.6 < L <+ 51.6 degrees, acquired on board the International Space Station with the Mini-EUSO detector", "abstract": "The data have been acquired with the Mini-EUSO detector, an UV telescope operating in the range 290-430 nm and located inside the International Space Station. The detector was launched in August 2019,...", "citations": 1, "author_count": 52, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6254, "doi": "10.1016/j.dib.2023.109105", "umap_coordinates": { "x": 393.7660827636719, "y": 133.53341674804688, "z": 205.28744506835938 }, "tsne_coordinates": { "x": -21.276174545288086, "y": 28.420330047607422, "z": -1.132630467414856 }, "pca_coordinates": { "x": -3.4085936546325684, "y": 1.0896353721618652, "z": 1.3668711185455322 }, "axis_scores": { "Quantum imaging": 0.7358917593955994, "Quantum Life Science Sensing": 0.772086501121521, "Quantum sensing Detection": 0.7330930829048157, "Quantum sensing Metrology": 0.7413935661315918, "Quantum sensing navigation": 0.7224557399749756, "Quantum sensing Position": 0.710647463798523, "Quantum sensing Timing": 0.7002590298652649, "Quantum sensing": 0.739949107170105, "Quantum control": 0.6913700699806213 } }, { "id": 6248, "title": "Measurement of the electronic transition dipole moment by Autler-Townes splitting: Comparison of three- and four-level excitation schemes for the Na2 A 1Σu+-X 1Σg+ system - art. no. 084308", "abstract": "We present a fundamentally new approach for measuring the transition dipole moment of molecular transitions, which combines the benefits of quantum interference effects, such as the Autler-Townes spli...", "citations": 46, "author_count": 11, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6255, "doi": "10.1063/1.2164454", "umap_coordinates": { "x": 393.24334716796875, "y": 135.6972198486328, "z": 207.68478393554688 }, "tsne_coordinates": { "x": 2.3977773189544678, "y": -6.030021667480469, "z": 6.629505157470703 }, "pca_coordinates": { "x": 1.5143845081329346, "y": -0.26441192626953125, "z": -0.235641747713089 }, "axis_scores": { "Quantum imaging": 0.7018728256225586, "Quantum Life Science Sensing": 0.719085693359375, "Quantum sensing Detection": 0.7160557508468628, "Quantum sensing Metrology": 0.7239104509353638, "Quantum sensing navigation": 0.7176010012626648, "Quantum sensing Position": 0.6917509436607361, "Quantum sensing Timing": 0.6831159591674805, "Quantum sensing": 0.7291313409805298, "Quantum control": 0.6965377330780029 } }, { "id": 6249, "title": "One-dimensional pion, kaon, and proton femtoscopy in Pb-Pb collisions at √SNN=2.76 TeV", "abstract": "The size of the particle emission region in high-energy collisions can be deduced using the femtoscopic correlations of particle pairs at low relative momentum. Such correlations arise due to quantum ...", "citations": 76, "author_count": 983, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6256, "doi": "10.1103/PhysRevC.92.054908", "umap_coordinates": { "x": 396.47186279296875, "y": 134.5028076171875, "z": 207.98402404785156 }, "tsne_coordinates": { "x": -36.75253677368164, "y": 4.653225421905518, "z": -16.118854522705078 }, "pca_coordinates": { "x": 2.2710647583007812, "y": -0.3607478141784668, "z": 1.7714405059814453 }, "axis_scores": { "Quantum imaging": 0.6932826638221741, "Quantum Life Science Sensing": 0.7042314410209656, "Quantum sensing Detection": 0.6890084743499756, "Quantum sensing Metrology": 0.6900098323822021, "Quantum sensing navigation": 0.6990402936935425, "Quantum sensing Position": 0.6895415782928467, "Quantum sensing Timing": 0.6810043454170227, "Quantum sensing": 0.6973155736923218, "Quantum control": 0.657819926738739 } }, { "id": 6250, "title": "DEVELOPMENT OF TREATMENT TECHNIQUES FOR RADIOTHERAPY OPTIMIZATION", "abstract": "Over the last decade a large number of new treatment techniques have been developed to allow a true optimization of the delivered dose distribution in radiation therapy. The most important clinical re...", "citations": 14, "author_count": 3, "categories": [ "Engineering" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6257, "doi": "10.1002/ima.1850060106", "umap_coordinates": { "x": 395.56585693359375, "y": 132.91668701171875, "z": 204.82627868652344 }, "tsne_coordinates": { "x": 1.833691120147705, "y": 28.839954376220703, "z": -15.82298469543457 }, "pca_coordinates": { "x": -3.11906099319458, "y": 3.6735808849334717, "z": 1.4641194343566895 }, "axis_scores": { "Quantum imaging": 0.7123750448226929, "Quantum Life Science Sensing": 0.6903521418571472, "Quantum sensing Detection": 0.6510828733444214, "Quantum sensing Metrology": 0.681017279624939, "Quantum sensing navigation": 0.6884292364120483, "Quantum sensing Position": 0.6523692607879639, "Quantum sensing Timing": 0.6642475128173828, "Quantum sensing": 0.6654001474380493, "Quantum control": 0.6720743775367737 } }, { "id": 6251, "title": "Refined modelling of the short-T2 signal component and ensuing detection of glutamate and glutamine in short-TE, localised, 1H MR spectra of human glioma measured at 3T", "abstract": "Short-TE H-1 MRS has great potential for brain cancer diagnostics. A major difficulty in the analysis of the spectra is the contribution from short-T-2 signal components, mainly coming from mobile lip...", "citations": 8, "author_count": 7, "categories": [ "Biophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6258, "doi": "10.1002/nbm.3548", "umap_coordinates": { "x": 394.9600830078125, "y": 134.26295471191406, "z": 204.74334716796875 }, "tsne_coordinates": { "x": -2.8077659606933594, "y": 26.008947372436523, "z": -3.790680408477783 }, "pca_coordinates": { "x": -1.6583971977233887, "y": 2.6881158351898193, "z": -0.39367586374282837 }, "axis_scores": { "Quantum imaging": 0.6940937042236328, "Quantum Life Science Sensing": 0.6995401382446289, "Quantum sensing Detection": 0.6669508814811707, "Quantum sensing Metrology": 0.6899794340133667, "Quantum sensing navigation": 0.7051637172698975, "Quantum sensing Position": 0.6799520254135132, "Quantum sensing Timing": 0.684127151966095, "Quantum sensing": 0.6857060790061951, "Quantum control": 0.6419672966003418 } }, { "id": 6252, "title": "Photobiological characteristics and photosynthetic UV responses in two Ulva species (Chlorophyta) from southern Spain", "abstract": "The effect of different wavebands of artificial UV (UVB and UVA) and photosynthetically active radiation (PAR) was assessed in two species of the genus Ova, U. olivascens and U rotundata, from souther...", "citations": 54, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6259, "doi": "10.1016/j.jphotobiol.2003.09.002", "umap_coordinates": { "x": 393.80206298828125, "y": 135.8042755126953, "z": 203.67445373535156 }, "tsne_coordinates": { "x": 18.24190902709961, "y": 32.54055404663086, "z": 15.116494178771973 }, "pca_coordinates": { "x": -4.573880672454834, "y": 0.8821302652359009, "z": -0.7940647602081299 }, "axis_scores": { "Quantum imaging": 0.679218053817749, "Quantum Life Science Sensing": 0.7319616079330444, "Quantum sensing Detection": 0.6699431538581848, "Quantum sensing Metrology": 0.6762576699256897, "Quantum sensing navigation": 0.6602158546447754, "Quantum sensing Position": 0.6615282893180847, "Quantum sensing Timing": 0.62369704246521, "Quantum sensing": 0.6857457756996155, "Quantum control": 0.6410812139511108 } }, { "id": 6253, "title": "Probing Quantum and Dynamic Effects in Concerted Proton-Electron Transfer Reactions of Phenol-Base Compounds", "abstract": "The oxidation of three phenols, which contain an intramolecular hydrogen bond to a pendent pyridine or amine group, has been shown, in a previous experimental study, to undergo concerted proton electr...", "citations": 42, "author_count": 4, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6260, "doi": "10.1021/jp2091736", "umap_coordinates": { "x": 392.4198913574219, "y": 136.9215087890625, "z": 205.37252807617188 }, "tsne_coordinates": { "x": 9.429259300231934, "y": 11.63492202758789, "z": 20.123167037963867 }, "pca_coordinates": { "x": -1.0518202781677246, "y": 0.2093033790588379, "z": -3.055109977722168 }, "axis_scores": { "Quantum imaging": 0.7201777696609497, "Quantum Life Science Sensing": 0.720899224281311, "Quantum sensing Detection": 0.7124789357185364, "Quantum sensing Metrology": 0.6809670329093933, "Quantum sensing navigation": 0.6986407041549683, "Quantum sensing Position": 0.706845223903656, "Quantum sensing Timing": 0.7070657014846802, "Quantum sensing": 0.7241203188896179, "Quantum control": 0.7047433257102966 } }, { "id": 6254, "title": "1/J corrections to semiclassical AdS/CFT states from quantum Landau-Lifshitz model", "abstract": "One way to relate semiclassical string states and dual gauge theory states is to show the equivalence between their low-energy effective 2d actions. The gauge theory effective action, which is represe...", "citations": 34, "author_count": 4, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6261, "doi": "10.1016/j.nuclphysb.2005.12.003", "umap_coordinates": { "x": 394.7075500488281, "y": 137.49388122558594, "z": 207.69081115722656 }, "tsne_coordinates": { "x": -24.408418655395508, "y": -23.246065139770508, "z": 3.5467939376831055 }, "pca_coordinates": { "x": 2.2699484825134277, "y": 0.791693925857544, "z": -1.3943758010864258 }, "axis_scores": { "Quantum imaging": 0.7018342614173889, "Quantum Life Science Sensing": 0.7357089519500732, "Quantum sensing Detection": 0.7098080515861511, "Quantum sensing Metrology": 0.696345329284668, "Quantum sensing navigation": 0.7049401998519897, "Quantum sensing Position": 0.6918476819992065, "Quantum sensing Timing": 0.6912247538566589, "Quantum sensing": 0.7203429341316223, "Quantum control": 0.7013091444969177 } }, { "id": 6255, "title": "Coherent proton and deuteron states in neutron scattering", "abstract": "Neutron Compton scattering has been used for a long time as a method to obtain information about proton momentum distributions in organic molecules, metal hydrides, etc. However, in a number of recent...", "citations": 6, "author_count": 2, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6262, "doi": "10.1088/0031-8949/77/06/065301", "umap_coordinates": { "x": 394.0964660644531, "y": 136.59371948242188, "z": 206.65956115722656 }, "tsne_coordinates": { "x": -37.9434814453125, "y": 7.270985126495361, "z": 6.417936325073242 }, "pca_coordinates": { "x": 2.186908721923828, "y": 1.6581127643585205, "z": 1.5490434169769287 }, "axis_scores": { "Quantum imaging": 0.7318572998046875, "Quantum Life Science Sensing": 0.7292309999465942, "Quantum sensing Detection": 0.726394534111023, "Quantum sensing Metrology": 0.6954824924468994, "Quantum sensing navigation": 0.7315633296966553, "Quantum sensing Position": 0.7120756506919861, "Quantum sensing Timing": 0.7089024186134338, "Quantum sensing": 0.7244378328323364, "Quantum control": 0.6851685047149658 } }, { "id": 6256, "title": "Instantaneous one-dimensional ammonia measurements with femtosecond two-photon laser-induced fluorescence (fs-TPLIF)", "abstract": "Ammonia (NH3) has been identified as a potential hydrogen-carrier fuel with no carbon emissions. Non-intrusive in-situ NH3 diagnostic technique is of great interest. In this work, femtosecond two-phot...", "citations": 7, "author_count": 6, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6263, "doi": "10.1016/j.ijhydene.2019.08.012", "umap_coordinates": { "x": 394.4368591308594, "y": 135.01458740234375, "z": 205.50120544433594 }, "tsne_coordinates": { "x": 8.235570907592773, "y": 13.754271507263184, "z": -35.518211364746094 }, "pca_coordinates": { "x": -1.6751843690872192, "y": 1.5140445232391357, "z": 1.287949800491333 }, "axis_scores": { "Quantum imaging": 0.7457236647605896, "Quantum Life Science Sensing": 0.7206823825836182, "Quantum sensing Detection": 0.7144302725791931, "Quantum sensing Metrology": 0.721310555934906, "Quantum sensing navigation": 0.7102009057998657, "Quantum sensing Position": 0.7101988792419434, "Quantum sensing Timing": 0.7217909097671509, "Quantum sensing": 0.7384037971496582, "Quantum control": 0.6874804496765137 } }, { "id": 6257, "title": "Chemical bond breaking/forming as a Franck-Condon electronic process", "abstract": "We describe chemical bond changes as Franck-Condon electronic processes within a new theoretical ansatz that we call `rigged' Born-Oppenheimer (R-BO) approach. The notion of the separability of nuclea...", "citations": 18, "author_count": 3, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6264, "doi": "10.1016/S0166-1280(01)00590-5", "umap_coordinates": { "x": 393.9078674316406, "y": 136.74041748046875, "z": 206.55735778808594 }, "tsne_coordinates": { "x": -8.664092063903809, "y": 20.038434982299805, "z": 30.351829528808594 }, "pca_coordinates": { "x": 1.5693345069885254, "y": 0.9379427433013916, "z": -2.3155877590179443 }, "axis_scores": { "Quantum imaging": 0.6974502801895142, "Quantum Life Science Sensing": 0.7237762212753296, "Quantum sensing Detection": 0.7085282206535339, "Quantum sensing Metrology": 0.6968699097633362, "Quantum sensing navigation": 0.7111533284187317, "Quantum sensing Position": 0.6915237307548523, "Quantum sensing Timing": 0.675266683101654, "Quantum sensing": 0.7233232855796814, "Quantum control": 0.7110644578933716 } }, { "id": 6258, "title": "Improved Magnetization Transfers among Quadrupolar Nuclei in Two-Dimensional Homonuclear Correlation NMR Experiments Applied to Inorganic Network Structures", "abstract": "We demonstrate that supercycles of previously introduced two-fold symmetry dipolar recoupling schemes may be utilized successfully in homonuclear correlation nuclear magnetic resonance (NMR) spectrosc...", "citations": 8, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6265, "doi": "10.3390/molecules25020337", "umap_coordinates": { "x": 392.6325378417969, "y": 137.12704467773438, "z": 207.00579833984375 }, "tsne_coordinates": { "x": 12.48877239227295, "y": -1.134507179260254, "z": 29.4255313873291 }, "pca_coordinates": { "x": -0.1780843734741211, "y": 0.3992767333984375, "z": -3.032121181488037 }, "axis_scores": { "Quantum imaging": 0.7296013832092285, "Quantum Life Science Sensing": 0.7110808491706848, "Quantum sensing Detection": 0.6763898134231567, "Quantum sensing Metrology": 0.6835958361625671, "Quantum sensing navigation": 0.7093804478645325, "Quantum sensing Position": 0.6683437824249268, "Quantum sensing Timing": 0.6671915054321289, "Quantum sensing": 0.7038931846618652, "Quantum control": 0.7045890688896179 } }, { "id": 6259, "title": "Highly-Miniaturized Nano-Plasmonic Filters Based on Stepped Impedance Resonators with Tunable Cut-Off Wavelengths", "abstract": "This paper presents the design and numerical investigation of tunable, ultra-compact, and highly-efficient plasmonic filters based on stepped impedance resonators (SIRs). The proposed devices are real...", "citations": 17, "author_count": 3, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6266, "doi": "10.1007/s11468-023-01878-x", "umap_coordinates": { "x": 393.3901062011719, "y": 133.88233947753906, "z": 206.16517639160156 }, "tsne_coordinates": { "x": 33.570735931396484, "y": 1.8396469354629517, "z": -19.863725662231445 }, "pca_coordinates": { "x": -2.6053242683410645, "y": -1.7489466667175293, "z": 1.53633451461792 }, "axis_scores": { "Quantum imaging": 0.6762250065803528, "Quantum Life Science Sensing": 0.6895672678947449, "Quantum sensing Detection": 0.6776816844940186, "Quantum sensing Metrology": 0.6898869872093201, "Quantum sensing navigation": 0.6822789907455444, "Quantum sensing Position": 0.6633055210113525, "Quantum sensing Timing": 0.6350528001785278, "Quantum sensing": 0.6988919973373413, "Quantum control": 0.6609702706336975 } }, { "id": 6260, "title": "Molecular integrals by numerical quadrature.: I.: Radial integration", "abstract": "This article presents a numerical quadrature intended primarily for evaluating integrals in quantum chemistry programs based on molecular orbital theory, in particular density functional methods. Typi...", "citations": 72, "author_count": 4, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6267, "doi": "10.1007/s002140100263", "umap_coordinates": { "x": 394.15875244140625, "y": 136.52345275878906, "z": 205.38595581054688 }, "tsne_coordinates": { "x": -4.317264080047607, "y": 13.331864356994629, "z": 21.520864486694336 }, "pca_coordinates": { "x": -1.5463588237762451, "y": 1.3325603008270264, "z": -1.1524865627288818 }, "axis_scores": { "Quantum imaging": 0.7096897959709167, "Quantum Life Science Sensing": 0.7092685699462891, "Quantum sensing Detection": 0.6948257684707642, "Quantum sensing Metrology": 0.6867427229881287, "Quantum sensing navigation": 0.7197355628013611, "Quantum sensing Position": 0.6849284172058105, "Quantum sensing Timing": 0.6583596467971802, "Quantum sensing": 0.706900954246521, "Quantum control": 0.6926953196525574 } }, { "id": 6261, "title": "LAMBDA 2M GaAs - A multi-megapixel hard X-ray detector for synchrotrons", "abstract": "Synchrotrons can provide very intense and focused X-ray beams, which can be used to study the structure of matter down to the atomic scale. In many experiments, the quality of the results depends stro...", "citations": 36, "author_count": 14, "categories": [ "Instruments & Instrumentation" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6268, "doi": "10.1088/1748-0221/13/01/C01026", "umap_coordinates": { "x": 395.56866455078125, "y": 134.0107879638672, "z": 206.37913513183594 }, "tsne_coordinates": { "x": -26.4892578125, "y": 22.35502815246582, "z": -6.7594451904296875 }, "pca_coordinates": { "x": -2.2188949584960938, "y": 0.04606318473815918, "z": 3.100400447845459 }, "axis_scores": { "Quantum imaging": 0.6954141855239868, "Quantum Life Science Sensing": 0.6827526688575745, "Quantum sensing Detection": 0.6901454329490662, "Quantum sensing Metrology": 0.6956869959831238, "Quantum sensing navigation": 0.6797910928726196, "Quantum sensing Position": 0.6844167709350586, "Quantum sensing Timing": 0.690449059009552, "Quantum sensing": 0.6986751556396484, "Quantum control": 0.6553680896759033 } }, { "id": 6262, "title": "Photophysics of a butadiyne-linked porphyrin dimer:: Influence of conformational flexibility in the ground and first singlet excited state", "abstract": "The photophysics of a butadiyne-linked porphyrin dimer has been investigated by spectroscopy and quantum mechanical calculations. Primarily, the influence of conformation on the ground and first singl...", "citations": 149, "author_count": 7, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6269, "doi": "10.1021/jp0683519", "umap_coordinates": { "x": 392.4557189941406, "y": 136.30755615234375, "z": 205.46963500976562 }, "tsne_coordinates": { "x": 2.9151949882507324, "y": 4.971811294555664, "z": 0.14718949794769287 }, "pca_coordinates": { "x": -1.3111119270324707, "y": -1.5824666023254395, "z": -2.487281560897827 }, "axis_scores": { "Quantum imaging": 0.6721590161323547, "Quantum Life Science Sensing": 0.6939916014671326, "Quantum sensing Detection": 0.6679087281227112, "Quantum sensing Metrology": 0.6473031640052795, "Quantum sensing navigation": 0.6355188488960266, "Quantum sensing Position": 0.6628023982048035, "Quantum sensing Timing": 0.6565110683441162, "Quantum sensing": 0.6833498477935791, "Quantum control": 0.6565343737602234 } }, { "id": 6263, "title": "Direct photon production in Pb-Pb collisions at √sNN=2.76 TeV", "abstract": "Direct photon production at mid-rapidity in Pb-Pb collisions at root s(NN) = 2.76 TeV was studied in the transverse momentum range 0.9 < p(T) < 14 GeV/c. Photons were detected with the highly segmente...", "citations": 234, "author_count": 984, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6270, "doi": "10.1016/j.physletb.2016.01.020", "umap_coordinates": { "x": 396.716796875, "y": 134.23306274414062, "z": 207.79957580566406 }, "tsne_coordinates": { "x": -31.260377883911133, "y": 3.624171495437622, "z": -10.700934410095215 }, "pca_coordinates": { "x": -0.5891247391700745, "y": -0.987269401550293, "z": 2.423386573791504 }, "axis_scores": { "Quantum imaging": 0.7248875498771667, "Quantum Life Science Sensing": 0.711844265460968, "Quantum sensing Detection": 0.7379690408706665, "Quantum sensing Metrology": 0.6930636763572693, "Quantum sensing navigation": 0.7184227705001831, "Quantum sensing Position": 0.7135790586471558, "Quantum sensing Timing": 0.7020763158798218, "Quantum sensing": 0.7271828055381775, "Quantum control": 0.6753146052360535 } }, { "id": 6264, "title": "Monolithic integration of lasers and passive elements using selective QW disordering by rapid thermal annealing with SiO2 caps of different thicknesses", "abstract": "We have investigated the use of rapid thermal annealing of InGaAs strained quantum well structures through SiO2 caps with two different thicknesses to selectively disorder the quantum well, as a way t...", "citations": 2, "author_count": 7, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6271, "doi": "10.1002/ecjb.10039", "umap_coordinates": { "x": 394.1373291015625, "y": 134.12916564941406, "z": 206.62557983398438 }, "tsne_coordinates": { "x": 15.540905952453613, "y": -13.464256286621094, "z": -24.45612907409668 }, "pca_coordinates": { "x": -1.8199372291564941, "y": -0.6979122161865234, "z": 0.3164641261100769 }, "axis_scores": { "Quantum imaging": 0.6804079413414001, "Quantum Life Science Sensing": 0.6843578815460205, "Quantum sensing Detection": 0.6721473932266235, "Quantum sensing Metrology": 0.6790139675140381, "Quantum sensing navigation": 0.6777327656745911, "Quantum sensing Position": 0.664249837398529, "Quantum sensing Timing": 0.6770889759063721, "Quantum sensing": 0.6853569149971008, "Quantum control": 0.6827502846717834 } }, { "id": 6265, "title": "Formation spectra of the EPR split signals from the S0, S1, and S3 states in photosystem II induced by monochromatic light at 5 K", "abstract": "The interaction EPR split signals from photosystem 11 (PSII) have been reported from the S-0, S-1, and S-3 states. The signals are induced by illumination at cryogenic temperatures and are proposed to...", "citations": 29, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6272, "doi": "10.1021/bi7004174", "umap_coordinates": { "x": 392.2485656738281, "y": 135.9767608642578, "z": 206.08319091796875 }, "tsne_coordinates": { "x": 16.56479835510254, "y": 8.973873138427734, "z": 8.705755233764648 }, "pca_coordinates": { "x": -0.08340179920196533, "y": -1.8810458183288574, "z": -2.409184217453003 }, "axis_scores": { "Quantum imaging": 0.6928590536117554, "Quantum Life Science Sensing": 0.7239161133766174, "Quantum sensing Detection": 0.6858867406845093, "Quantum sensing Metrology": 0.6759395003318787, "Quantum sensing navigation": 0.660078227519989, "Quantum sensing Position": 0.6535715460777283, "Quantum sensing Timing": 0.6422751545906067, "Quantum sensing": 0.693524181842804, "Quantum control": 0.6403052806854248 } }, { "id": 6266, "title": "PREDICTION OF CHANGES IN BONE-DENSITY AFTER OPERATION FOR PRIMARY HYPERPARATHYROIDISM", "abstract": "Primary hyperparathyroidism (pHPT) is associated with osteopenia. However, the individual variation in recovery in bone mass after surgery is large. Therefore, modes of prediction of the increase in b...", "citations": 5, "author_count": 4, "categories": [ "Obstetrics & Gynecology" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6273, "doi": null, "umap_coordinates": { "x": 391.7574462890625, "y": 139.3782196044922, "z": 209.83172607421875 }, "tsne_coordinates": { "x": 3.8227620124816895, "y": 40.96920394897461, "z": -0.9256815910339355 }, "pca_coordinates": { "x": -1.636526346206665, "y": 5.577634811401367, "z": -1.0302605628967285 }, "axis_scores": { "Quantum imaging": 0.7138216495513916, "Quantum Life Science Sensing": 0.7192463874816895, "Quantum sensing Detection": 0.721068263053894, "Quantum sensing Metrology": 0.7080764770507812, "Quantum sensing navigation": 0.7314788103103638, "Quantum sensing Position": 0.7261857986450195, "Quantum sensing Timing": 0.7000513076782227, "Quantum sensing": 0.7193408608436584, "Quantum control": 0.7187367677688599 } }, { "id": 6267, "title": "Ultra-violet imaging of the night-time earth by EUSO-Balloon towards space-based ultra-high energy cosmic ray observations", "abstract": "The JEM-EUSO (Joint Experiment Missions for the Extreme Universe Space Observatory) program aims at developing Ultra-Violet (UV) fluorescence telescopes for efficient detections of Extensive Air Showe...", "citations": 30, "author_count": 316, "categories": [ "Astronomy & Astrophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6274, "doi": "10.1016/j.astropartphys.2018.10.008", "umap_coordinates": { "x": 395.1681823730469, "y": 134.44520568847656, "z": 205.52455139160156 }, "tsne_coordinates": { "x": -22.41900062561035, "y": 28.093990325927734, "z": 1.0469183921813965 }, "pca_coordinates": { "x": -2.2321510314941406, "y": 1.2873995304107666, "z": 1.2051095962524414 }, "axis_scores": { "Quantum imaging": 0.7286797165870667, "Quantum Life Science Sensing": 0.7440726161003113, "Quantum sensing Detection": 0.7104517221450806, "Quantum sensing Metrology": 0.6884579062461853, "Quantum sensing navigation": 0.7251968383789062, "Quantum sensing Position": 0.701759397983551, "Quantum sensing Timing": 0.7083678245544434, "Quantum sensing": 0.714743435382843, "Quantum control": 0.6683522462844849 } }, { "id": 6268, "title": "Associations between cerebral blood-flow measured by single photon emission computed tomography (SPECT), electro-encephalogram (EEG), behaviour symptoms, cognition and neurological soft signs in children with attention-deficit hyperactivity disorder (ADHD)", "abstract": "Twenty-eight children with attention-deficit hyperactivity disorder (ADHD) were examined with SPECT (single photon emission computed tomography). Seven of the children had abnormal distribution of the...", "citations": 78, "author_count": 6, "categories": [ "Pediatrics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6275, "doi": "10.1080/080352500750043747", "umap_coordinates": { "x": 395.3885498046875, "y": 134.1188201904297, "z": 204.6454315185547 }, "tsne_coordinates": { "x": -4.447084426879883, "y": 30.765878677368164, "z": 0.7274368405342102 }, "pca_coordinates": { "x": -1.3278095722198486, "y": 2.315061092376709, "z": 1.606640338897705 }, "axis_scores": { "Quantum imaging": 0.7064517140388489, "Quantum Life Science Sensing": 0.6887260675430298, "Quantum sensing Detection": 0.67587810754776, "Quantum sensing Metrology": 0.6573716402053833, "Quantum sensing navigation": 0.706353485584259, "Quantum sensing Position": 0.6794787645339966, "Quantum sensing Timing": 0.6748493909835815, "Quantum sensing": 0.6837579607963562, "Quantum control": 0.6674312949180603 } }, { "id": 6269, "title": "APPLICATION OF THE CONVOLUTION METHOD FOR CALCULATION OF OUTPUT FACTORS FOR THERAPY PHOTON BEAMS", "abstract": "The output factor for a therapy photon beam is defined as the dose per monitor unit relative to the dose per monitor unit in a reference field. Convolution models for photon dose calculations yield th...", "citations": 75, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1992, "topic": [ "all" ], "embedding_index": 6276, "doi": "10.1118/1.596859", "umap_coordinates": { "x": 395.9892578125, "y": 133.01043701171875, "z": 205.48953247070312 }, "tsne_coordinates": { "x": -13.599696159362793, "y": 27.4079647064209, "z": -21.230152130126953 }, "pca_coordinates": { "x": -2.5146915912628174, "y": 1.8592413663864136, "z": 4.0713887214660645 }, "axis_scores": { "Quantum imaging": 0.712238609790802, "Quantum Life Science Sensing": 0.69179368019104, "Quantum sensing Detection": 0.696348249912262, "Quantum sensing Metrology": 0.7080777883529663, "Quantum sensing navigation": 0.6878706216812134, "Quantum sensing Position": 0.6595073938369751, "Quantum sensing Timing": 0.677934467792511, "Quantum sensing": 0.7010136246681213, "Quantum control": 0.6601191163063049 } }, { "id": 6270, "title": "The effects of width variation on the quasi-bound states in a ballistic quantum channel with bends", "abstract": "A quantum mechanical calculation has been carried out to investigate the effects of width variation of a finite, open double-bend quantum channel on the quasi-bound states, which are localized on the ...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6277, "doi": "10.1016/S0921-4526(96)00521-2", "umap_coordinates": { "x": 393.9559020996094, "y": 135.57591247558594, "z": 207.95372009277344 }, "tsne_coordinates": { "x": -8.593846321105957, "y": -40.35834884643555, "z": -14.623806953430176 }, "pca_coordinates": { "x": 1.4677767753601074, "y": 0.3939652442932129, "z": 0.1059618592262268 }, "axis_scores": { "Quantum imaging": 0.7240297794342041, "Quantum Life Science Sensing": 0.7029480338096619, "Quantum sensing Detection": 0.7190216183662415, "Quantum sensing Metrology": 0.7156089544296265, "Quantum sensing navigation": 0.7322798371315002, "Quantum sensing Position": 0.7336363792419434, "Quantum sensing Timing": 0.7180747985839844, "Quantum sensing": 0.7349006533622742, "Quantum control": 0.712613046169281 } }, { "id": 6271, "title": "Photonics of Hydrothermally Treated β-Lactoglobulin Amyloids", "abstract": "Increased temperature and high pressure are applied to beta-lactoglobulin fibrils in the autoclave, resulting in the acquisition of a composite material comprised of partially disassembled amyloid fib...", "citations": 1, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6278, "doi": "10.1002/smsc.202400054", "umap_coordinates": { "x": 393.38201904296875, "y": 134.99951171875, "z": 205.14561462402344 }, "tsne_coordinates": { "x": 5.521468639373779, "y": 21.252973556518555, "z": -6.397192001342773 }, "pca_coordinates": { "x": -2.600053310394287, "y": -1.2462501525878906, "z": -0.10844069719314575 }, "axis_scores": { "Quantum imaging": 0.7130553722381592, "Quantum Life Science Sensing": 0.7428564429283142, "Quantum sensing Detection": 0.7031495571136475, "Quantum sensing Metrology": 0.7019335031509399, "Quantum sensing navigation": 0.7131066918373108, "Quantum sensing Position": 0.6741880774497986, "Quantum sensing Timing": 0.6749501824378967, "Quantum sensing": 0.7189563512802124, "Quantum control": 0.6877288818359375 } }, { "id": 6272, "title": "Can Baird's and Clar's Rules Combined Explain Triplet State Energies of Polycyclic Conjugated Hydrocarbons with Fused 4nπ- and (4n+2)π-Rings?", "abstract": "Compounds that can be labeled as aromatic chameleons are pi-conjugated compounds that are able to adjust their pi-electron distributions so as to comply with the different rules of aromaticity in diff...", "citations": 77, "author_count": 6, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6279, "doi": "10.1021/acs.joc.7b00906", "umap_coordinates": { "x": 391.8848571777344, "y": 135.8684539794922, "z": 205.40267944335938 }, "tsne_coordinates": { "x": 4.263728618621826, "y": -2.355999708175659, "z": -7.0307207107543945 }, "pca_coordinates": { "x": -0.17337656021118164, "y": -0.0479588508605957, "z": -1.4784421920776367 }, "axis_scores": { "Quantum imaging": 0.6738675832748413, "Quantum Life Science Sensing": 0.701106607913971, "Quantum sensing Detection": 0.6839532852172852, "Quantum sensing Metrology": 0.6755748391151428, "Quantum sensing navigation": 0.6759011745452881, "Quantum sensing Position": 0.6536785960197449, "Quantum sensing Timing": 0.6753407716751099, "Quantum sensing": 0.6975101828575134, "Quantum control": 0.6726261377334595 } }, { "id": 6273, "title": "Optimization of the method for assessment of brain perfusion in humans using contrast-enhanced reflectometry: multidistance time-resolved measurements", "abstract": "The aim of the study was to determine optimal measurement conditions for assessment of brain perfusion with the use of optical contrast agent and time-resolved diffuse reflectometry in the near-infrar...", "citations": 24, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6280, "doi": "10.1117/1.JBO.20.10.106013", "umap_coordinates": { "x": 395.29937744140625, "y": 133.96878051757812, "z": 204.76365661621094 }, "tsne_coordinates": { "x": -2.9374661445617676, "y": 29.68820571899414, "z": -3.9146463871002197 }, "pca_coordinates": { "x": -2.517003297805786, "y": 4.015106201171875, "z": 1.8913037776947021 }, "axis_scores": { "Quantum imaging": 0.7296580076217651, "Quantum Life Science Sensing": 0.7100186944007874, "Quantum sensing Detection": 0.6987043023109436, "Quantum sensing Metrology": 0.7072547078132629, "Quantum sensing navigation": 0.7234368920326233, "Quantum sensing Position": 0.7162495255470276, "Quantum sensing Timing": 0.714561939239502, "Quantum sensing": 0.7059374451637268, "Quantum control": 0.6626574397087097 } }, { "id": 6274, "title": "A comprehensive overview of diffuse correlation spectroscopy: Theoretical framework, recent advances in hardware, analysis, and applications", "abstract": "Diffuse correlation spectroscopy (DCS) is a powerful tool for assessing microvascular hemodynamic in deep tissues. Recent advances in sensors, lasers, and deep learning have further boosted the develo...", "citations": 21, "author_count": 12, "categories": [ "Neurosciences & Neurology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6281, "doi": "10.1016/j.neuroimage.2024.120793", "umap_coordinates": { "x": 394.706298828125, "y": 134.07794189453125, "z": 204.92770385742188 }, "tsne_coordinates": { "x": -3.6866705417633057, "y": 26.069719314575195, "z": -2.528362512588501 }, "pca_coordinates": { "x": -2.278395175933838, "y": 2.080747365951538, "z": 0.16519218683242798 }, "axis_scores": { "Quantum imaging": 0.7514695525169373, "Quantum Life Science Sensing": 0.7263495326042175, "Quantum sensing Detection": 0.7133801579475403, "Quantum sensing Metrology": 0.6952440142631531, "Quantum sensing navigation": 0.7237539887428284, "Quantum sensing Position": 0.7078556418418884, "Quantum sensing Timing": 0.7049124240875244, "Quantum sensing": 0.7238368988037109, "Quantum control": 0.6790624856948853 } }, { "id": 6275, "title": "Conceptual design of a beam line for post-collision extraction and diagnostics at the multi-TeV Compact Linear Collider", "abstract": "Strong beam-beam effects at the interaction point of a high-energy e(+)e(-) linear collider such as the Compact Linear Collider (CLIC) lead to an emittance growth for the outgoing beams, as well as to...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6282, "doi": "10.1103/PhysRevSTAB.12.021001", "umap_coordinates": { "x": 395.8106384277344, "y": 134.37704467773438, "z": 206.75559997558594 }, "tsne_coordinates": { "x": -26.49518394470215, "y": 5.7652435302734375, "z": -18.499296188354492 }, "pca_coordinates": { "x": 1.8046767711639404, "y": 1.8288650512695312, "z": 1.5505256652832031 }, "axis_scores": { "Quantum imaging": 0.6678577065467834, "Quantum Life Science Sensing": 0.6922895312309265, "Quantum sensing Detection": 0.6798139810562134, "Quantum sensing Metrology": 0.6729134321212769, "Quantum sensing navigation": 0.6853001713752747, "Quantum sensing Position": 0.6917166113853455, "Quantum sensing Timing": 0.6853966116905212, "Quantum sensing": 0.672123908996582, "Quantum control": 0.6496268510818481 } }, { "id": 6276, "title": "A LENA Instrument onboard BepiColombo and Chandrayaan-1", "abstract": "Low-energy neutral atom (LENA) observations bring us important information on particle environments around planetary objects such as Mercury and the Moon. In this paper, we report on a new development...", "citations": 3, "author_count": 6, "categories": [ "Astronomy & Astrophysics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6283, "doi": null, "umap_coordinates": { "x": 391.9264831542969, "y": 139.77581787109375, "z": 209.48092651367188 }, "tsne_coordinates": { "x": -1.9288363456726074, "y": 40.442237854003906, "z": -1.4612396955490112 }, "pca_coordinates": { "x": -2.717094898223877, "y": 3.183439254760742, "z": -0.537582516670227 }, "axis_scores": { "Quantum imaging": 0.7053580284118652, "Quantum Life Science Sensing": 0.713115930557251, "Quantum sensing Detection": 0.7071651816368103, "Quantum sensing Metrology": 0.6925370693206787, "Quantum sensing navigation": 0.6967658400535583, "Quantum sensing Position": 0.6729399561882019, "Quantum sensing Timing": 0.6597306728363037, "Quantum sensing": 0.7206793427467346, "Quantum control": 0.7189428806304932 } }, { "id": 6277, "title": "A new pairwise boost quantum number from celestial states", "abstract": "Infrared effects in the scattering of particles in gravity and electrodynamics entail an exchange of relativistic angular momentum between pairs of particles and the gauge field. Due to this exchange ...", "citations": 1, "author_count": 3, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6284, "doi": "10.1007/JHEP07(2024)173", "umap_coordinates": { "x": 396.2672424316406, "y": 136.01638793945312, "z": 206.75338745117188 }, "tsne_coordinates": { "x": -38.056114196777344, "y": 7.3985514640808105, "z": -2.8260228633880615 }, "pca_coordinates": { "x": 1.439561367034912, "y": 2.55513596534729, "z": 0.17738574743270874 }, "axis_scores": { "Quantum imaging": 0.698142409324646, "Quantum Life Science Sensing": 0.699349582195282, "Quantum sensing Detection": 0.6862061023712158, "Quantum sensing Metrology": 0.6835423707962036, "Quantum sensing navigation": 0.7169285416603088, "Quantum sensing Position": 0.7129533290863037, "Quantum sensing Timing": 0.7045365571975708, "Quantum sensing": 0.6945174932479858, "Quantum control": 0.6753067374229431 } }, { "id": 6278, "title": "Energy Resolved X-ray Imaging as a Tool for Characterization of Paper Coating Quality", "abstract": "Energy resolved X-ray imaging can be used as a tool to analyze the variation in the chemical content of an object. In this work we have used energy resolved X-ray imaging to measure the variation in t...", "citations": 2, "author_count": 7, "categories": [ "Engineering" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6285, "doi": "10.1109/NSSMIC.2009.5402223", "umap_coordinates": { "x": 395.3968200683594, "y": 133.6426239013672, "z": 206.02862548828125 }, "tsne_coordinates": { "x": -17.235790252685547, "y": 9.58130931854248, "z": -22.25215721130371 }, "pca_coordinates": { "x": -2.3671340942382812, "y": 0.2828097343444824, "z": 1.7198810577392578 }, "axis_scores": { "Quantum imaging": 0.7297589182853699, "Quantum Life Science Sensing": 0.7408753633499146, "Quantum sensing Detection": 0.7088570594787598, "Quantum sensing Metrology": 0.703249454498291, "Quantum sensing navigation": 0.7022496461868286, "Quantum sensing Position": 0.7055705785751343, "Quantum sensing Timing": 0.681181013584137, "Quantum sensing": 0.7207624316215515, "Quantum control": 0.6698651909828186 } }, { "id": 6279, "title": "Electron and photon energy calibration with the ATLAS detector using LHC Run 2 data", "abstract": "This paper presents the electron and photon energy calibration obtained with the ATLAS detector using 140 fb-1 of LHC proton -proton collision data recorded at -Js = 13 TeV between 2015 and 2018. Meth...", "citations": 1, "author_count": 2688, "categories": [ "Instruments & Instrumentation" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6286, "doi": "10.1088/1748-0221/19/02/P02009", "umap_coordinates": { "x": 396.4756774902344, "y": 134.19940185546875, "z": 206.84725952148438 }, "tsne_coordinates": { "x": -30.127155303955078, "y": 17.829740524291992, "z": -9.71895980834961 }, "pca_coordinates": { "x": -0.9147309064865112, "y": 1.977067232131958, "z": 3.2556779384613037 }, "axis_scores": { "Quantum imaging": 0.6688629388809204, "Quantum Life Science Sensing": 0.6644255518913269, "Quantum sensing Detection": 0.6590129733085632, "Quantum sensing Metrology": 0.6447743773460388, "Quantum sensing navigation": 0.663067102432251, "Quantum sensing Position": 0.666635274887085, "Quantum sensing Timing": 0.6976251006126404, "Quantum sensing": 0.6565215587615967, "Quantum control": 0.6381846070289612 } }, { "id": 6280, "title": "Photocurrents of 14 μm quantum-well infrared photodetectors", "abstract": "We study the factors that determine photogenerated carriers and response wavelengths of photocurrents of long wavelength (similar to14 mum) quantum well (QW) infrared photodetectors (QWIPs). The mater...", "citations": 20, "author_count": 7, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6287, "doi": "10.1063/1.1573342", "umap_coordinates": { "x": 393.6694641113281, "y": 133.30453491210938, "z": 207.35885620117188 }, "tsne_coordinates": { "x": 31.77423667907715, "y": -21.646711349487305, "z": -10.834961891174316 }, "pca_coordinates": { "x": -0.1846923828125, "y": -2.0205769538879395, "z": 3.756308078765869 }, "axis_scores": { "Quantum imaging": 0.7455504536628723, "Quantum Life Science Sensing": 0.7535868287086487, "Quantum sensing Detection": 0.7456567287445068, "Quantum sensing Metrology": 0.7327650785446167, "Quantum sensing navigation": 0.7154711484909058, "Quantum sensing Position": 0.6940253973007202, "Quantum sensing Timing": 0.6893952488899231, "Quantum sensing": 0.7503932118415833, "Quantum control": 0.6907308101654053 } }, { "id": 6281, "title": "New achievements on relaxation dynamics of atoms and molecules photoexcited in the tender x-ray domain at synchrotron SOLEIL", "abstract": "The so-called 'tender' x-ray domain, from 2 to 13 keV, has recently become available for atomic and molecular studies at the French synchrotron SOLEIL with state-of-the-art photon and electron energy ...", "citations": 10, "author_count": 11, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6288, "doi": "10.1088/1361-6455/aa52e8", "umap_coordinates": { "x": 393.5007629394531, "y": 136.14178466796875, "z": 206.27810668945312 }, "tsne_coordinates": { "x": 1.9115726947784424, "y": -2.4034194946289062, "z": 14.624029159545898 }, "pca_coordinates": { "x": -0.5885158777236938, "y": 1.4507728815078735, "z": -1.5940500497817993 }, "axis_scores": { "Quantum imaging": 0.7104055881500244, "Quantum Life Science Sensing": 0.7063906788825989, "Quantum sensing Detection": 0.6799312233924866, "Quantum sensing Metrology": 0.6613873243331909, "Quantum sensing navigation": 0.6716647148132324, "Quantum sensing Position": 0.6679196953773499, "Quantum sensing Timing": 0.6954291462898254, "Quantum sensing": 0.7002270221710205, "Quantum control": 0.6872415542602539 } }, { "id": 6282, "title": "Tuning the Fano Resonance with an Intruder Continuum", "abstract": "Through a combination of experiment and theory we establish the possibility of achieving strong tuning of Fano resonances (FRs), by allowing their usual two-path geometry to interfere with an addition...", "citations": 18, "author_count": 9, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6289, "doi": "10.1021/nl404133d", "umap_coordinates": { "x": 393.0437927246094, "y": 135.10289001464844, "z": 206.30712890625 }, "tsne_coordinates": { "x": -2.221709966659546, "y": -14.841485977172852, "z": 2.6950552463531494 }, "pca_coordinates": { "x": -0.9928512573242188, "y": 0.387096643447876, "z": -1.220696210861206 }, "axis_scores": { "Quantum imaging": 0.6827352046966553, "Quantum Life Science Sensing": 0.7004886269569397, "Quantum sensing Detection": 0.6914900541305542, "Quantum sensing Metrology": 0.6743960380554199, "Quantum sensing navigation": 0.6944807171821594, "Quantum sensing Position": 0.6604923605918884, "Quantum sensing Timing": 0.6368247270584106, "Quantum sensing": 0.6972753405570984, "Quantum control": 0.7017360925674438 } }, { "id": 6283, "title": "Correlations of components of prequantum field corresponding to biparticle quantum system", "abstract": "In a series of previous papers we developed a purely wave model of microphenomena, the so-called prequantum classical statistical field theory (PCSFT). Important probabilistic predictions of QM includ...", "citations": 28, "author_count": 2, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6290, "doi": "10.1209/0295-5075/90/40004", "umap_coordinates": { "x": 395.6634826660156, "y": 137.3726043701172, "z": 206.553466796875 }, "tsne_coordinates": { "x": -33.964115142822266, "y": 1.0013432502746582, "z": 20.73158836364746 }, "pca_coordinates": { "x": 2.040809154510498, "y": 3.2619595527648926, "z": -1.0984963178634644 }, "axis_scores": { "Quantum imaging": 0.7379112839698792, "Quantum Life Science Sensing": 0.7442104816436768, "Quantum sensing Detection": 0.7308312654495239, "Quantum sensing Metrology": 0.7363518476486206, "Quantum sensing navigation": 0.725028395652771, "Quantum sensing Position": 0.7384936809539795, "Quantum sensing Timing": 0.7310249209403992, "Quantum sensing": 0.7413284778594971, "Quantum control": 0.7130945920944214 } }, { "id": 6284, "title": "On the Anomalous Decomposition and Reactivity of Ammonium and Potassium Dinitramide", "abstract": "Mechanistic pathways for the thermal decomposition of the solid-state energetic oxidizers ammonium dinitramide (ADN) and potassium dinitramide (KDN) have been deciphered by carefully considering previ...", "citations": 35, "author_count": 3, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6291, "doi": "10.1021/jp911277r", "umap_coordinates": { "x": 392.24334716796875, "y": 135.7626953125, "z": 205.29931640625 }, "tsne_coordinates": { "x": -3.234440326690674, "y": -16.880430221557617, "z": -23.32236099243164 }, "pca_coordinates": { "x": -1.136319637298584, "y": 0.32336950302124023, "z": -2.5564284324645996 }, "axis_scores": { "Quantum imaging": 0.6668984889984131, "Quantum Life Science Sensing": 0.6617448329925537, "Quantum sensing Detection": 0.6583148241043091, "Quantum sensing Metrology": 0.6186978816986084, "Quantum sensing navigation": 0.6541085839271545, "Quantum sensing Position": 0.6116271615028381, "Quantum sensing Timing": 0.6269508600234985, "Quantum sensing": 0.6610205769538879, "Quantum control": 0.6571831703186035 } }, { "id": 6285, "title": "Structured scintillators for X-ray imaging with micrometre resolution", "abstract": "A 3D X-ray detector for imaging of 30-200keV photons is described. It comprises a stack of semitransparent structured scintillators, where each scintillator is a regular array of waveguides in silicon...", "citations": 13, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6292, "doi": "10.1016/j.nima.2009.03.139", "umap_coordinates": { "x": 394.6692810058594, "y": 133.0348358154297, "z": 205.41114807128906 }, "tsne_coordinates": { "x": -11.80512523651123, "y": 12.135379791259766, "z": -11.52970027923584 }, "pca_coordinates": { "x": -3.052522659301758, "y": 0.5509096384048462, "z": 3.1638145446777344 }, "axis_scores": { "Quantum imaging": 0.7444725036621094, "Quantum Life Science Sensing": 0.717911958694458, "Quantum sensing Detection": 0.6956629753112793, "Quantum sensing Metrology": 0.7188379168510437, "Quantum sensing navigation": 0.7199187874794006, "Quantum sensing Position": 0.6991961002349854, "Quantum sensing Timing": 0.6729646921157837, "Quantum sensing": 0.7140272259712219, "Quantum control": 0.6479930877685547 } }, { "id": 6286, "title": "Simulation of the detective quantum efficiency for a hybrid pixel detector", "abstract": "A simulation tool has been developed for the analysis of the performance of an X-ray imaging hybrid pixel detector. The photon transport and charge collection were simulated with the aid of the Monte ...", "citations": 2, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6293, "doi": "10.1016/j.nima.2005.01.125", "umap_coordinates": { "x": 394.6328430175781, "y": 132.72552490234375, "z": 205.581787109375 }, "tsne_coordinates": { "x": -14.36849594116211, "y": 16.2080078125, "z": -11.261076927185059 }, "pca_coordinates": { "x": -1.3925673961639404, "y": 0.7584226131439209, "z": 3.9800987243652344 }, "axis_scores": { "Quantum imaging": 0.7622842192649841, "Quantum Life Science Sensing": 0.7342058420181274, "Quantum sensing Detection": 0.7563757300376892, "Quantum sensing Metrology": 0.7255196571350098, "Quantum sensing navigation": 0.7152376174926758, "Quantum sensing Position": 0.6977201104164124, "Quantum sensing Timing": 0.6973949670791626, "Quantum sensing": 0.7442304491996765, "Quantum control": 0.6765755414962769 } }, { "id": 6287, "title": "Photonics in advanced process control applications", "abstract": "A measurement system optimized for process control in the industrial environment has been developed and successfully commercialized. The system comprises a central unit that contains all sensitive ele...", "citations": 1, "author_count": 4, "categories": [ "Engineering" ], "year": 1999, "topic": [ "all" ], "embedding_index": 6294, "doi": "10.1117/12.341043", "umap_coordinates": { "x": 394.76300048828125, "y": 133.5579833984375, "z": 206.39566040039062 }, "tsne_coordinates": { "x": -1.3557982444763184, "y": 6.622716903686523, "z": -30.28080177307129 }, "pca_coordinates": { "x": -1.7545478343963623, "y": -0.39942288398742676, "z": 1.9441823959350586 }, "axis_scores": { "Quantum imaging": 0.7314409613609314, "Quantum Life Science Sensing": 0.7130524516105652, "Quantum sensing Detection": 0.7324421405792236, "Quantum sensing Metrology": 0.725196361541748, "Quantum sensing navigation": 0.7232778668403625, "Quantum sensing Position": 0.7124767899513245, "Quantum sensing Timing": 0.7126256823539734, "Quantum sensing": 0.7422457337379456, "Quantum control": 0.7555605173110962 } }, { "id": 6288, "title": "High-connectivity quantum processor nodes using single-ion qubits in rare-earth-ion-doped crystals", "abstract": "We present two protocols for constructing quantum processor nodes in randomly doped rare-earth-ion crystals and analyze their properties. By varying the doping concentration and the accessible laser t...", "citations": 16, "author_count": 6, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6295, "doi": "10.1103/PhysRevA.105.032603", "umap_coordinates": { "x": 395.04913330078125, "y": 134.43663024902344, "z": 208.2289276123047 }, "tsne_coordinates": { "x": 2.401273488998413, "y": -23.37060546875, "z": -16.98308753967285 }, "pca_coordinates": { "x": 3.300915241241455, "y": -1.852696418762207, "z": 2.1792831420898438 }, "axis_scores": { "Quantum imaging": 0.7483659982681274, "Quantum Life Science Sensing": 0.7465867400169373, "Quantum sensing Detection": 0.7451706528663635, "Quantum sensing Metrology": 0.7331685423851013, "Quantum sensing navigation": 0.7400965690612793, "Quantum sensing Position": 0.7050325274467468, "Quantum sensing Timing": 0.7032062411308289, "Quantum sensing": 0.7525435090065002, "Quantum control": 0.7037116289138794 } }, { "id": 6289, "title": "ESASky SSOSS: Solar System Object Search Service and the case of Psyche", "abstract": "Context. The store of data collected in public astronomical archives across the world is continuously expanding and, thus, providing a convenient interface for accessing this information is a major co...", "citations": 8, "author_count": 22, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6296, "doi": "10.1051/0004-6361/202140899", "umap_coordinates": { "x": 395.8134460449219, "y": 135.16268920898438, "z": 205.67674255371094 }, "tsne_coordinates": { "x": -23.932279586791992, "y": 20.87655258178711, "z": 3.998270034790039 }, "pca_coordinates": { "x": -1.559356927871704, "y": 1.2130098342895508, "z": -0.6117507219314575 }, "axis_scores": { "Quantum imaging": 0.6826282143592834, "Quantum Life Science Sensing": 0.7253146171569824, "Quantum sensing Detection": 0.6850845813751221, "Quantum sensing Metrology": 0.6837544441223145, "Quantum sensing navigation": 0.6926717758178711, "Quantum sensing Position": 0.6802912354469299, "Quantum sensing Timing": 0.662161648273468, "Quantum sensing": 0.6969875693321228, "Quantum control": 0.6772415637969971 } }, { "id": 6290, "title": "Mesocrystals in Biominerals and Colloidal Arrays", "abstract": "Mesocrystals, which originally was a term to designate superstructures of nanocrystals with a common crystallographic orientation, have now evolved to a materials concept. The discovery that many biom...", "citations": 172, "author_count": 5, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6297, "doi": "10.1021/ar500440b", "umap_coordinates": { "x": 392.30303955078125, "y": 135.420166015625, "z": 205.8875732421875 }, "tsne_coordinates": { "x": 4.183924674987793, "y": 9.079947471618652, "z": 20.771404266357422 }, "pca_coordinates": { "x": -1.3478037118911743, "y": -2.3997673988342285, "z": -3.7593674659729004 }, "axis_scores": { "Quantum imaging": 0.7097925543785095, "Quantum Life Science Sensing": 0.7344244122505188, "Quantum sensing Detection": 0.687767505645752, "Quantum sensing Metrology": 0.7090240120887756, "Quantum sensing navigation": 0.7096121907234192, "Quantum sensing Position": 0.6878707408905029, "Quantum sensing Timing": 0.6650235056877136, "Quantum sensing": 0.7130848169326782, "Quantum control": 0.6806349754333496 } }, { "id": 6291, "title": "Circular dichroism measurements at an x-ray free-electron laser with polarization control", "abstract": "A non-destructive diagnostic method for the characterization of circularly polarized, ultraintense, short wavelength free-electron laser (FEL) light is presented. The recently installed Delta undulato...", "citations": 35, "author_count": 25, "categories": [ "Instruments & Instrumentation" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6298, "doi": "10.1063/1.4961470", "umap_coordinates": { "x": 394.03961181640625, "y": 134.39016723632812, "z": 207.47242736816406 }, "tsne_coordinates": { "x": 17.43260955810547, "y": -26.49228858947754, "z": -1.9822434186935425 }, "pca_coordinates": { "x": -0.40435272455215454, "y": -0.5884151458740234, "z": 0.8363080620765686 }, "axis_scores": { "Quantum imaging": 0.7317421436309814, "Quantum Life Science Sensing": 0.7518548965454102, "Quantum sensing Detection": 0.7303919196128845, "Quantum sensing Metrology": 0.7283610105514526, "Quantum sensing navigation": 0.7158374786376953, "Quantum sensing Position": 0.7085272669792175, "Quantum sensing Timing": 0.6723419427871704, "Quantum sensing": 0.7449862360954285, "Quantum control": 0.7236061692237854 } }, { "id": 6292, "title": "CTmod - A toolkit for Monte Carlo simulation of projections including scatter in computed tomography", "abstract": "The CTmod toolkit is a set of C++ class libraries based on the CERN's application development framework ROOT. It uses the Monte Carlo method to simulate energy imparted to a CT-scanner detector array ...", "citations": 21, "author_count": 4, "categories": [ "Computer Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6299, "doi": "10.1016/j.cmpb.2007.12.005", "umap_coordinates": { "x": 395.41094970703125, "y": 132.56825256347656, "z": 205.38726806640625 }, "tsne_coordinates": { "x": -11.322981834411621, "y": 23.528656005859375, "z": -13.450240135192871 }, "pca_coordinates": { "x": -2.916137456893921, "y": 4.403071403503418, "z": 2.3213064670562744 }, "axis_scores": { "Quantum imaging": 0.7154353857040405, "Quantum Life Science Sensing": 0.6870745420455933, "Quantum sensing Detection": 0.6883960962295532, "Quantum sensing Metrology": 0.7039099335670471, "Quantum sensing navigation": 0.6842089295387268, "Quantum sensing Position": 0.6641741991043091, "Quantum sensing Timing": 0.6793432235717773, "Quantum sensing": 0.701219379901886, "Quantum control": 0.6639963984489441 } }, { "id": 6293, "title": "A parallel Monte Carlo code for planar and SPECT imaging: implementation, verification and applications in 131I SPECT", "abstract": "This paper reports the implementation of the SIMIND Monte Carlo code on an IBM SP2 distributed memory parallel computer. Basic aspects of running Monte Carlo particle transport calculations on paralle...", "citations": 22, "author_count": 6, "categories": [ "Computer Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6300, "doi": "10.1016/S0169-2607(01)00121-3", "umap_coordinates": { "x": 395.1973876953125, "y": 132.8996124267578, "z": 205.1274871826172 }, "tsne_coordinates": { "x": -11.192111015319824, "y": 23.91673469543457, "z": -10.840226173400879 }, "pca_coordinates": { "x": -2.4895036220550537, "y": 2.995999574661255, "z": 3.211503505706787 }, "axis_scores": { "Quantum imaging": 0.728954553604126, "Quantum Life Science Sensing": 0.6811871528625488, "Quantum sensing Detection": 0.681573212146759, "Quantum sensing Metrology": 0.6844918727874756, "Quantum sensing navigation": 0.7025254964828491, "Quantum sensing Position": 0.678010106086731, "Quantum sensing Timing": 0.688076913356781, "Quantum sensing": 0.6909111142158508, "Quantum control": 0.6596922874450684 } }, { "id": 6294, "title": "Partial donor-donor energy migration (PDDEM) as a fluorescence spectroscopic tool for measuring distances in biomacromolecules", "abstract": "A theoretical model is presented, tested and applied for determining the rates of energy migration and distances within pairs of chemically identical fluorophores, so-called donors (D), which are expo...", "citations": 17, "author_count": 4, "categories": [ "Spectroscopy" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6301, "doi": "10.1016/S1386-1425(01)00613-8", "umap_coordinates": { "x": 393.5283508300781, "y": 135.3213348388672, "z": 205.5966796875 }, "tsne_coordinates": { "x": 23.725419998168945, "y": 11.304340362548828, "z": 20.954835891723633 }, "pca_coordinates": { "x": -1.4522902965545654, "y": 0.2288990020751953, "z": 0.049570322036743164 }, "axis_scores": { "Quantum imaging": 0.7013123631477356, "Quantum Life Science Sensing": 0.7222702503204346, "Quantum sensing Detection": 0.6937483549118042, "Quantum sensing Metrology": 0.7095605134963989, "Quantum sensing navigation": 0.6914405822753906, "Quantum sensing Position": 0.7165776491165161, "Quantum sensing Timing": 0.6873018145561218, "Quantum sensing": 0.70582515001297, "Quantum control": 0.6349937915802002 } }, { "id": 6295, "title": "Influence of the Cu2ZnSnS4 absorber thickness on thin film solar cells", "abstract": "In this study, we investigate the influence of absorber thickness on Cu2ZnSnS4 (CZTS) solar cells, ranging from 500 to 2000 nm, with nearly constant metallic composition. Despite the observed ZnS and ...", "citations": 41, "author_count": 7, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6302, "doi": "10.1002/pssa.201532311", "umap_coordinates": { "x": 392.7675476074219, "y": 133.38221740722656, "z": 206.03131103515625 }, "tsne_coordinates": { "x": 38.391197204589844, "y": 12.8434419631958, "z": 1.180137276649475 }, "pca_coordinates": { "x": -3.2603530883789062, "y": -2.7999396324157715, "z": -0.7501828074455261 }, "axis_scores": { "Quantum imaging": 0.6578887701034546, "Quantum Life Science Sensing": 0.692789614200592, "Quantum sensing Detection": 0.666911780834198, "Quantum sensing Metrology": 0.6618918180465698, "Quantum sensing navigation": 0.6574797630310059, "Quantum sensing Position": 0.6630889773368835, "Quantum sensing Timing": 0.6574707627296448, "Quantum sensing": 0.6823187470436096, "Quantum control": 0.6878910660743713 } }, { "id": 6296, "title": "Photoabsorption of Acridine Yellow and Proflavin Bound to Human Serum Albumin Studied by Means of Quantum Mechanics/Molecular Dynamics", "abstract": "Attempting to unravel mechanisms in optical probing of proteins, we have performed pilot calculations of two cationic chromophores-acridine yellow and proflavin-located at different binding sites with...", "citations": 19, "author_count": 5, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6303, "doi": "10.1021/jp311863x", "umap_coordinates": { "x": 392.69024658203125, "y": 136.89967346191406, "z": 205.64688110351562 }, "tsne_coordinates": { "x": 3.6691722869873047, "y": 3.6948602199554443, "z": 23.094741821289062 }, "pca_coordinates": { "x": 0.10144567489624023, "y": 0.6344726085662842, "z": -1.2262647151947021 }, "axis_scores": { "Quantum imaging": 0.7434957027435303, "Quantum Life Science Sensing": 0.7688497304916382, "Quantum sensing Detection": 0.7331940531730652, "Quantum sensing Metrology": 0.7285279035568237, "Quantum sensing navigation": 0.7295756340026855, "Quantum sensing Position": 0.7198280692100525, "Quantum sensing Timing": 0.6940504908561707, "Quantum sensing": 0.7490086555480957, "Quantum control": 0.722138524055481 } }, { "id": 6297, "title": "Ischemia-induced repolarization response in relation to the size and location of the ischemic myocardium during short-lasting coronary occlusion in humans", "abstract": "Background: The ventricular repolarization (VR) response to short-lasting coronary occlusion has been characterized by 3-dimensional vectorcardiography (VCG) in humans; the T vector loop becomes disto...", "citations": 8, "author_count": 7, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6304, "doi": "10.1016/j.jelectrocard.2009.10.004", "umap_coordinates": { "x": 395.1921081542969, "y": 134.3685302734375, "z": 204.35536193847656 }, "tsne_coordinates": { "x": -10.962122917175293, "y": 31.287250518798828, "z": 7.945150375366211 }, "pca_coordinates": { "x": -2.667327404022217, "y": 4.084609508514404, "z": -1.020632266998291 }, "axis_scores": { "Quantum imaging": 0.6489997506141663, "Quantum Life Science Sensing": 0.6549302339553833, "Quantum sensing Detection": 0.6272915601730347, "Quantum sensing Metrology": 0.5928774476051331, "Quantum sensing navigation": 0.6099884510040283, "Quantum sensing Position": 0.6503880620002747, "Quantum sensing Timing": 0.6740350723266602, "Quantum sensing": 0.6410937309265137, "Quantum control": 0.6083477139472961 } }, { "id": 6298, "title": "X-ray emission associated with radiative recombination for Pb82+ions at threshold energies", "abstract": "For decelerated bare lead ions at a low beam energy of 10 MeV/u, the x-ray emission associated with radiative recombination (RR) at threshold energies has been studied at the electron cooler of CRYRIN...", "citations": 14, "author_count": 32, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6305, "doi": "10.1103/PhysRevA.105.052804", "umap_coordinates": { "x": 395.816162109375, "y": 135.06874084472656, "z": 208.1259765625 }, "tsne_coordinates": { "x": -4.0277886390686035, "y": -9.288269996643066, "z": -2.58543062210083 }, "pca_coordinates": { "x": 2.2706186771392822, "y": -1.0776071548461914, "z": 0.5296415686607361 }, "axis_scores": { "Quantum imaging": 0.674957275390625, "Quantum Life Science Sensing": 0.6810558438301086, "Quantum sensing Detection": 0.670688807964325, "Quantum sensing Metrology": 0.6512587070465088, "Quantum sensing navigation": 0.6483423709869385, "Quantum sensing Position": 0.6599557995796204, "Quantum sensing Timing": 0.6620613932609558, "Quantum sensing": 0.6663742661476135, "Quantum control": 0.6285258531570435 } }, { "id": 6299, "title": "CSF biomarkers for mild cognitive impairment", "abstract": "A correct clinical diagnosis of Alzheimer's disease (AD) early in the course of the disease is of importance to initiate symptomatic treatment with acetylcholine esterase inhibitors, and will be even ...", "citations": 143, "author_count": 2, "categories": [ "General & Internal Medicine" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6306, "doi": "10.1111/j.1365-2796.2004.01368.x", "umap_coordinates": { "x": 394.964599609375, "y": 134.7264862060547, "z": 204.07174682617188 }, "tsne_coordinates": { "x": -7.158146858215332, "y": 27.567461013793945, "z": 4.634553909301758 }, "pca_coordinates": { "x": -3.3991215229034424, "y": 3.2606618404388428, "z": 0.32356566190719604 }, "axis_scores": { "Quantum imaging": 0.689475953578949, "Quantum Life Science Sensing": 0.6888061165809631, "Quantum sensing Detection": 0.6850056648254395, "Quantum sensing Metrology": 0.6837996244430542, "Quantum sensing navigation": 0.6779889464378357, "Quantum sensing Position": 0.6562705039978027, "Quantum sensing Timing": 0.6697458028793335, "Quantum sensing": 0.6896308660507202, "Quantum control": 0.654277503490448 } }, { "id": 6300, "title": "Depth of interaction and bias voltage depenence of the spectral response in a pixellated CdTe detector operating in time-over-threshold mode subjected to monochromatic X-rays", "abstract": "High stopping power is one of the most important figures of merit for X-ray detectors. CdTe is a promising material but suffers from: material defects, non-ideal charge transport and long range X-ray ...", "citations": 3, "author_count": 12, "categories": [ "Instruments & Instrumentation" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6307, "doi": "10.1088/1748-0221/7/03/C03002", "umap_coordinates": { "x": 395.84722900390625, "y": 133.39149475097656, "z": 205.9502410888672 }, "tsne_coordinates": { "x": -22.82309341430664, "y": 21.63136100769043, "z": -13.009269714355469 }, "pca_coordinates": { "x": -1.8381646871566772, "y": 1.8138755559921265, "z": 2.3391306400299072 }, "axis_scores": { "Quantum imaging": 0.7059637904167175, "Quantum Life Science Sensing": 0.6924516558647156, "Quantum sensing Detection": 0.6940017938613892, "Quantum sensing Metrology": 0.6771090626716614, "Quantum sensing navigation": 0.6624985337257385, "Quantum sensing Position": 0.6879196166992188, "Quantum sensing Timing": 0.7076899409294128, "Quantum sensing": 0.6854467391967773, "Quantum control": 0.652936577796936 } }, { "id": 6301, "title": "Properties of dianionic oxyphosphorane intermediates from hybrid QM/MM simulation: implications for ribozyme reactions", "abstract": "Dianionic oxyphosphorane intermediates have been suggested as good models for studying the mechanisms of self-cleavage reactions undergone by some RNA molecules (the so-called RNA enzymes or ribozymes...", "citations": 3, "author_count": 3, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6308, "doi": "10.1016/S0166-1280(97)00180-2", "umap_coordinates": { "x": 393.49517822265625, "y": 136.83030700683594, "z": 205.44085693359375 }, "tsne_coordinates": { "x": -9.790501594543457, "y": 15.620238304138184, "z": 25.982385635375977 }, "pca_coordinates": { "x": -0.47731393575668335, "y": 0.669274091720581, "z": -2.2196693420410156 }, "axis_scores": { "Quantum imaging": 0.7058384418487549, "Quantum Life Science Sensing": 0.7167357206344604, "Quantum sensing Detection": 0.6709684133529663, "Quantum sensing Metrology": 0.6694904565811157, "Quantum sensing navigation": 0.6874990463256836, "Quantum sensing Position": 0.6762387752532959, "Quantum sensing Timing": 0.66871178150177, "Quantum sensing": 0.6901683211326599, "Quantum control": 0.6637312769889832 } }, { "id": 6302, "title": "Simulations of an accelerator-based shielding experiment using the particle and heavy-ion transport code system PHITS", "abstract": "In order to estimate the biological effects of HZE particles, an accurate knowledge of the physics of interaction of HZE particles is necessary. Since the heavy ion transport problem is a complex one,...", "citations": 28, "author_count": 6, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6309, "doi": "10.1016/j.asr.2005.01.041", "umap_coordinates": { "x": 396.0064392089844, "y": 133.72618103027344, "z": 206.42709350585938 }, "tsne_coordinates": { "x": -17.374500274658203, "y": 28.691484451293945, "z": 6.456050395965576 }, "pca_coordinates": { "x": -1.1283634901046753, "y": 2.30361008644104, "z": 1.4699947834014893 }, "axis_scores": { "Quantum imaging": 0.6871281862258911, "Quantum Life Science Sensing": 0.6676312685012817, "Quantum sensing Detection": 0.657167911529541, "Quantum sensing Metrology": 0.6487287282943726, "Quantum sensing navigation": 0.6825446486473083, "Quantum sensing Position": 0.6670745611190796, "Quantum sensing Timing": 0.692364513874054, "Quantum sensing": 0.6706290245056152, "Quantum control": 0.6526170372962952 } }, { "id": 6303, "title": "Scale Invariance in the Lowest Landau Level", "abstract": "We show that the discrete set of pair amplitudes Am m introduced by Haldane are an angular- momentum resolved generalization of the Tan two-body contact, which parametrizes universal short-range corre...", "citations": 1, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6310, "doi": "10.5802/crphys.137", "umap_coordinates": { "x": 394.6951904296875, "y": 137.4365692138672, "z": 207.54324340820312 }, "tsne_coordinates": { "x": -19.227657318115234, "y": -10.217333793640137, "z": 28.32747459411621 }, "pca_coordinates": { "x": 1.5961580276489258, "y": 2.705070734024048, "z": -1.7633590698242188 }, "axis_scores": { "Quantum imaging": 0.7162802815437317, "Quantum Life Science Sensing": 0.7441555261611938, "Quantum sensing Detection": 0.7241398096084595, "Quantum sensing Metrology": 0.7082638740539551, "Quantum sensing navigation": 0.7301449775695801, "Quantum sensing Position": 0.7289806604385376, "Quantum sensing Timing": 0.7132539749145508, "Quantum sensing": 0.7344319820404053, "Quantum control": 0.7227897644042969 } }, { "id": 6304, "title": "A Compton polarimeter using scintillators read out with MPPCs through Citiroc ASIC", "abstract": "In recent years, a number of purpose-built scintillator-based polarimeters have studied bright astronomical sources for the first time in the hard X-ray band (tens to hundreds of keV). The addition of...", "citations": 4, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6311, "doi": "10.1016/j.nima.2019.162376", "umap_coordinates": { "x": 394.7033386230469, "y": 132.8888397216797, "z": 205.43124389648438 }, "tsne_coordinates": { "x": -15.739991188049316, "y": 20.258808135986328, "z": -8.509857177734375 }, "pca_coordinates": { "x": -3.317232370376587, "y": 0.9409115314483643, "z": 2.6623659133911133 }, "axis_scores": { "Quantum imaging": 0.712081789970398, "Quantum Life Science Sensing": 0.696376621723175, "Quantum sensing Detection": 0.6985509395599365, "Quantum sensing Metrology": 0.6871283054351807, "Quantum sensing navigation": 0.7095783948898315, "Quantum sensing Position": 0.6960030794143677, "Quantum sensing Timing": 0.7003425359725952, "Quantum sensing": 0.7036791443824768, "Quantum control": 0.6785499453544617 } }, { "id": 6305, "title": "NUMERICAL ANALYSIS OF BALLISTIC IMAGING FOR REVEALING LIQUID BREAKUP IN DENSE SPRAYS", "abstract": "This work demonstrates the capacity of a ballistic imaging instrument to suppress diffuse photons and improve image contrast, making it possible to view fluid structure in a spray where a fog of dropl...", "citations": 2, "author_count": 4, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6312, "doi": "10.1615/AtomizSpr.v20.i5.30", "umap_coordinates": { "x": 394.53387451171875, "y": 136.0419464111328, "z": 207.37110900878906 }, "tsne_coordinates": { "x": 1.4747511148452759, "y": 13.13296890258789, "z": -35.70736312866211 }, "pca_coordinates": { "x": 0.7929205894470215, "y": 2.287506580352783, "z": 0.15526682138442993 }, "axis_scores": { "Quantum imaging": 0.7466481924057007, "Quantum Life Science Sensing": 0.7145833969116211, "Quantum sensing Detection": 0.7086970806121826, "Quantum sensing Metrology": 0.7000079154968262, "Quantum sensing navigation": 0.7094612121582031, "Quantum sensing Position": 0.6890528202056885, "Quantum sensing Timing": 0.6743625402450562, "Quantum sensing": 0.7151743769645691, "Quantum control": 0.6870443820953369 } }, { "id": 6306, "title": "Investigation of quantum effects on vibrational excitation of CF3Br scattering from graphite", "abstract": "Mixed quantum-classical molecular dynamics simulations of vibrational excitation of CF3Br in collisions with graphite have been carried out. The quantum problem is made numerically manageable by a red...", "citations": 5, "author_count": 3, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6313, "doi": "10.1016/S0301-0104(02)00821-2", "umap_coordinates": { "x": 393.5519104003906, "y": 135.58987426757812, "z": 206.19558715820312 }, "tsne_coordinates": { "x": -4.561746597290039, "y": 11.77524185180664, "z": 8.219810485839844 }, "pca_coordinates": { "x": -0.678369402885437, "y": -0.3942131996154785, "z": -1.1258728504180908 }, "axis_scores": { "Quantum imaging": 0.709494948387146, "Quantum Life Science Sensing": 0.7364529371261597, "Quantum sensing Detection": 0.7132865786552429, "Quantum sensing Metrology": 0.6977466344833374, "Quantum sensing navigation": 0.6871550679206848, "Quantum sensing Position": 0.6983601450920105, "Quantum sensing Timing": 0.6663647890090942, "Quantum sensing": 0.7241954207420349, "Quantum control": 0.6931377649307251 } }, { "id": 6307, "title": "Transverse collective modes in interacting holographic plasmas", "abstract": "We study in detail the transverse collective modes of simple holographic models in presence of electromagnetic Coulomb interactions. We render the Maxwell gauge field dynamical via mixed boundary cond...", "citations": 13, "author_count": 4, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6314, "doi": "10.1007/JHEP04(2020)106", "umap_coordinates": { "x": 396.78717041015625, "y": 135.0771484375, "z": 207.29541015625 }, "tsne_coordinates": { "x": -37.33409881591797, "y": 11.8011474609375, "z": -4.186807632446289 }, "pca_coordinates": { "x": 2.208115339279175, "y": 1.786772608757019, "z": -0.45249035954475403 }, "axis_scores": { "Quantum imaging": 0.7158455848693848, "Quantum Life Science Sensing": 0.6895275115966797, "Quantum sensing Detection": 0.6752787828445435, "Quantum sensing Metrology": 0.6643312573432922, "Quantum sensing navigation": 0.6910449862480164, "Quantum sensing Position": 0.6844100952148438, "Quantum sensing Timing": 0.6931684017181396, "Quantum sensing": 0.6873857975006104, "Quantum control": 0.6883041858673096 } }, { "id": 6308, "title": "Coherent Charge Transport in Ballistic InSb Nanowire Josephson Junctions", "abstract": "Hybrid InSb nanowire-superconductor devices are promising for investigating Majorana modes and topological quantum computation in solid-state devices. An experimental realisation of ballistic, phase-c...", "citations": 29, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6315, "doi": "10.1038/srep24822", "umap_coordinates": { "x": 392.8440856933594, "y": 134.83255004882812, "z": 207.93524169921875 }, "tsne_coordinates": { "x": 14.126590728759766, "y": -16.82763671875, "z": 0.3678148686885834 }, "pca_coordinates": { "x": 2.4810006618499756, "y": -3.8589038848876953, "z": 0.3294145464897156 }, "axis_scores": { "Quantum imaging": 0.7338303923606873, "Quantum Life Science Sensing": 0.721393346786499, "Quantum sensing Detection": 0.7236106395721436, "Quantum sensing Metrology": 0.7088449001312256, "Quantum sensing navigation": 0.7509722709655762, "Quantum sensing Position": 0.7114831209182739, "Quantum sensing Timing": 0.7094045281410217, "Quantum sensing": 0.7299978733062744, "Quantum control": 0.7028095722198486 } }, { "id": 6309, "title": "Cingulate cortex hypoperfusion predicts Alzheimer's disease in mild cognitive impairment", "abstract": "Background: Mild cognitive impairment (MCI) was recently described as a heterogeneous group with a variety of clinical outcomes and high risk to develop Alzheimer's disease (AD). Regional cerebral blo...", "citations": 181, "author_count": 6, "categories": [ "Neurosciences & Neurology" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6316, "doi": "10.1186/1471-2377-2-9", "umap_coordinates": { "x": 395.1107177734375, "y": 134.6138458251953, "z": 204.35659790039062 }, "tsne_coordinates": { "x": -5.67564582824707, "y": 27.769027709960938, "z": 5.130633354187012 }, "pca_coordinates": { "x": -2.582612991333008, "y": 3.7932138442993164, "z": -0.722451388835907 }, "axis_scores": { "Quantum imaging": 0.6785404682159424, "Quantum Life Science Sensing": 0.6686309576034546, "Quantum sensing Detection": 0.6666351556777954, "Quantum sensing Metrology": 0.6477501392364502, "Quantum sensing navigation": 0.6815689206123352, "Quantum sensing Position": 0.65109783411026, "Quantum sensing Timing": 0.652320921421051, "Quantum sensing": 0.666996955871582, "Quantum control": 0.6592705249786377 } }, { "id": 6310, "title": "Thermoexcited and photoexcited carrier transports in a GaAs/AlGaAs quantum well infrared photodetector", "abstract": "A study of the carrier transport performance of our quantum well infrared photodetector (QWIP) is carried out in this work. AlGaAs/GaAs QWIP devices were fabricated and characterized. Carrier transpor...", "citations": 24, "author_count": 9, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6317, "doi": "10.1063/1.371891", "umap_coordinates": { "x": 392.652587890625, "y": 134.01100158691406, "z": 208.25074768066406 }, "tsne_coordinates": { "x": 31.016319274902344, "y": -18.836570739746094, "z": -0.12508946657180786 }, "pca_coordinates": { "x": 0.7086324691772461, "y": -4.397424697875977, "z": 1.5571203231811523 }, "axis_scores": { "Quantum imaging": 0.7006182074546814, "Quantum Life Science Sensing": 0.6810492277145386, "Quantum sensing Detection": 0.6945621371269226, "Quantum sensing Metrology": 0.6735451817512512, "Quantum sensing navigation": 0.6781920194625854, "Quantum sensing Position": 0.6743971705436707, "Quantum sensing Timing": 0.687766432762146, "Quantum sensing": 0.7068173289299011, "Quantum control": 0.6590065360069275 } }, { "id": 6311, "title": "η-Secretase processing of APP inhibits neuronal activity in the hippocampus", "abstract": "Alzheimer disease (AD) is characterized by the accumulation of amyloid plaques, which are predominantly composed of amyloid-beta peptide(1). Two principal physiological pathways either prevent or prom...", "citations": 349, "author_count": 28, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6318, "doi": "10.1038/nature14864", "umap_coordinates": { "x": 394.985595703125, "y": 135.0511932373047, "z": 204.5055694580078 }, "tsne_coordinates": { "x": -2.193798065185547, "y": 27.035139083862305, "z": 7.459626197814941 }, "pca_coordinates": { "x": -1.4632617235183716, "y": 1.1570378541946411, "z": -0.28612276911735535 }, "axis_scores": { "Quantum imaging": 0.7107851505279541, "Quantum Life Science Sensing": 0.6928114891052246, "Quantum sensing Detection": 0.6860824227333069, "Quantum sensing Metrology": 0.6484203934669495, "Quantum sensing navigation": 0.7166457176208496, "Quantum sensing Position": 0.6731139421463013, "Quantum sensing Timing": 0.6822184324264526, "Quantum sensing": 0.6930254697799683, "Quantum control": 0.6762072443962097 } }, { "id": 6312, "title": "DIQUARKS", "abstract": "It is becoming increasingly clear that the concept of a diquark (a two-quark system) is important for understanding hadron structure and high-energy particle reactions. According to our present knowle...", "citations": 418, "author_count": 6, "categories": [ "Physics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6319, "doi": "10.1103/RevModPhys.65.1199", "umap_coordinates": { "x": 394.930908203125, "y": 136.69607543945312, "z": 206.86868286132812 }, "tsne_coordinates": { "x": -18.11097526550293, "y": -16.332883834838867, "z": 6.82764196395874 }, "pca_coordinates": { "x": 2.295259952545166, "y": 1.580726981163025, "z": -1.5441781282424927 }, "axis_scores": { "Quantum imaging": 0.7419963479042053, "Quantum Life Science Sensing": 0.7706112861633301, "Quantum sensing Detection": 0.7514310479164124, "Quantum sensing Metrology": 0.746990442276001, "Quantum sensing navigation": 0.7409622073173523, "Quantum sensing Position": 0.712490439414978, "Quantum sensing Timing": 0.7219487428665161, "Quantum sensing": 0.7625667452812195, "Quantum control": 0.747210681438446 } }, { "id": 6313, "title": "Chip-based multimodal super-resolution microscopy for histological investigations of cryopreserved tissue sections", "abstract": "Histology involves the observation of structural features in tissues using a microscope. While diffraction-limited optical microscopes are commonly used in histological investigations, their resolving...", "citations": 23, "author_count": 19, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6320, "doi": "10.1038/s41377-022-00731-w", "umap_coordinates": { "x": 394.2061767578125, "y": 134.3321075439453, "z": 204.7378387451172 }, "tsne_coordinates": { "x": 1.562878131866455, "y": 19.734050750732422, "z": 2.9207749366760254 }, "pca_coordinates": { "x": -3.6794989109039307, "y": 0.8074464797973633, "z": 0.9108514189720154 }, "axis_scores": { "Quantum imaging": 0.7010231018066406, "Quantum Life Science Sensing": 0.6952870488166809, "Quantum sensing Detection": 0.6712436676025391, "Quantum sensing Metrology": 0.6716514229774475, "Quantum sensing navigation": 0.6610239148139954, "Quantum sensing Position": 0.661535382270813, "Quantum sensing Timing": 0.6469293832778931, "Quantum sensing": 0.6849237084388733, "Quantum control": 0.6357445120811462 } }, { "id": 6314, "title": "Hot-Carrier Extraction in Nanowire-Nanoantenna Photovoltaic Devices", "abstract": "Nanowires bring new possibilities to the field of hot-carrier photovoltaics by providing flexibility in combining materials for band engineering and using nanophotonic effects to control light absorpt...", "citations": 33, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6321, "doi": "10.1021/acs.nanolett.9b04873", "umap_coordinates": { "x": 392.4604797363281, "y": 133.86093139648438, "z": 206.9857177734375 }, "tsne_coordinates": { "x": 15.218521118164062, "y": -14.434412956237793, "z": -7.465670585632324 }, "pca_coordinates": { "x": -0.18382859230041504, "y": -5.42525577545166, "z": 0.9040277600288391 }, "axis_scores": { "Quantum imaging": 0.6794731020927429, "Quantum Life Science Sensing": 0.696057915687561, "Quantum sensing Detection": 0.6925481557846069, "Quantum sensing Metrology": 0.674592912197113, "Quantum sensing navigation": 0.690098226070404, "Quantum sensing Position": 0.6783759593963623, "Quantum sensing Timing": 0.6745942234992981, "Quantum sensing": 0.6948006749153137, "Quantum control": 0.6596119403839111 } }, { "id": 6315, "title": "Light Localization and Magneto-Optic Enhancement in Ni Antidot Arrays", "abstract": "We reveal an explicit strategy to design the magneto-optic response of a magneto-plasmonic crystal by correlating near- and far-fields effects. We use photoemission electron microscopy to map the spat...", "citations": 38, "author_count": 11, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6322, "doi": "10.1021/acs.nanolett.5b05279", "umap_coordinates": { "x": 392.2852783203125, "y": 134.2032012939453, "z": 206.9332733154297 }, "tsne_coordinates": { "x": 11.212262153625488, "y": -17.828163146972656, "z": -5.5906982421875 }, "pca_coordinates": { "x": -1.0351793766021729, "y": -3.7691054344177246, "z": 1.1541576385498047 }, "axis_scores": { "Quantum imaging": 0.7598340511322021, "Quantum Life Science Sensing": 0.7029253840446472, "Quantum sensing Detection": 0.7219304442405701, "Quantum sensing Metrology": 0.721928060054779, "Quantum sensing navigation": 0.7349271774291992, "Quantum sensing Position": 0.7318274974822998, "Quantum sensing Timing": 0.698369562625885, "Quantum sensing": 0.7254895567893982, "Quantum control": 0.6916821599006653 } }, { "id": 6316, "title": "Control of spontaneous spin splitting in an asymmetric quantum well with the use of strain and/or magnetic field", "abstract": "Spin-orbit coupling combined with inversion asymmetry gives rise to spin splitting even in the absence of an applied magnetic field. The size of this spin splitting can be controlled by changing the d...", "citations": 1, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6323, "doi": "10.1016/S1386-9477(01)00058-3", "umap_coordinates": { "x": 392.61175537109375, "y": 135.30239868164062, "z": 207.65927124023438 }, "tsne_coordinates": { "x": 11.519647598266602, "y": -22.317615509033203, "z": 16.411527633666992 }, "pca_coordinates": { "x": 0.18837130069732666, "y": -0.5366437435150146, "z": -0.7428213953971863 }, "axis_scores": { "Quantum imaging": 0.7067901492118835, "Quantum Life Science Sensing": 0.6935132741928101, "Quantum sensing Detection": 0.6806339025497437, "Quantum sensing Metrology": 0.6932970285415649, "Quantum sensing navigation": 0.6989864110946655, "Quantum sensing Position": 0.673311173915863, "Quantum sensing Timing": 0.6675517559051514, "Quantum sensing": 0.7044329643249512, "Quantum control": 0.7256067395210266 } }, { "id": 6317, "title": "Two-dimensional ESEEM spectroscopy of nitrogen hyperfine couplings in methemerythrin and azidomethemerythrin", "abstract": "The application of a two-dimensional ESEEM spectroscopy, known as HYSCORE, to the study of the hyperfine couplings from the nitrogens of histidine and azide ligands in mixed-valent states of methemery...", "citations": 20, "author_count": 5, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 6324, "doi": "10.1021/ja9742343", "umap_coordinates": { "x": 392.2961730957031, "y": 136.21954345703125, "z": 206.3227996826172 }, "tsne_coordinates": { "x": 7.468169212341309, "y": -3.612593650817871, "z": 6.42160701751709 }, "pca_coordinates": { "x": -2.1081180572509766, "y": -0.6532702445983887, "z": -1.9622399806976318 }, "axis_scores": { "Quantum imaging": 0.6775588989257812, "Quantum Life Science Sensing": 0.6749587655067444, "Quantum sensing Detection": 0.6390616297721863, "Quantum sensing Metrology": 0.659834623336792, "Quantum sensing navigation": 0.6452646255493164, "Quantum sensing Position": 0.6271628141403198, "Quantum sensing Timing": 0.6350561380386353, "Quantum sensing": 0.6570835113525391, "Quantum control": 0.639575719833374 } }, { "id": 6318, "title": "Directional Light Extinction and Emission in a Metasurface of Tilted Plasmonic Nanopillars", "abstract": "Plasmonic optical antennas and metamaterials with an ability to boost light-matter interactions for particular incidence or emission angles could find widespread use in solar harvesting, biophotonics,...", "citations": 36, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6325, "doi": "10.1021/acs.nanolett.5b03026", "umap_coordinates": { "x": 392.9441833496094, "y": 134.0860595703125, "z": 206.4460906982422 }, "tsne_coordinates": { "x": 12.706392288208008, "y": -14.964231491088867, "z": -10.796927452087402 }, "pca_coordinates": { "x": -1.6299173831939697, "y": -3.627506732940674, "z": 0.5145302414894104 }, "axis_scores": { "Quantum imaging": 0.7154508233070374, "Quantum Life Science Sensing": 0.6939330101013184, "Quantum sensing Detection": 0.704206645488739, "Quantum sensing Metrology": 0.6991903781890869, "Quantum sensing navigation": 0.7191022634506226, "Quantum sensing Position": 0.7136611938476562, "Quantum sensing Timing": 0.6757579445838928, "Quantum sensing": 0.7112646698951721, "Quantum control": 0.6840651631355286 } }, { "id": 6319, "title": "The influence of strained ZnTe islands on excitonic recombination and the self-organizing effects of ZnTe islands in a wide CdTe-based quantum well", "abstract": "Structures consisting of ZnTe fractional monolayers embedded coherently in a CdTe quantum well are investigated by means of optical measurements. This study is designed to study the influence of the s...", "citations": 4, "author_count": 4, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 6326, "doi": "10.1088/0953-8984/10/8/016", "umap_coordinates": { "x": 392.74151611328125, "y": 134.67312622070312, "z": 207.10797119140625 }, "tsne_coordinates": { "x": 31.465251922607422, "y": -0.6454746127128601, "z": 7.556304931640625 }, "pca_coordinates": { "x": -1.0810174942016602, "y": -1.859262466430664, "z": -0.5951336622238159 }, "axis_scores": { "Quantum imaging": 0.6818005442619324, "Quantum Life Science Sensing": 0.6709864139556885, "Quantum sensing Detection": 0.6583253145217896, "Quantum sensing Metrology": 0.6502973437309265, "Quantum sensing navigation": 0.6756231784820557, "Quantum sensing Position": 0.6579338908195496, "Quantum sensing Timing": 0.6587402820587158, "Quantum sensing": 0.6699962019920349, "Quantum control": 0.6708038449287415 } }, { "id": 6320, "title": "Evaluation of optimally designed planar-concave collimators in single-photon emission tomography", "abstract": "The imaging properties of optimally designed planar-concave (PC) collimators were evaluated by means of Monte Carlo simulations, The evaluation was done with respect to total system spatial resolution...", "citations": 5, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6327, "doi": "10.1007/s002590050166", "umap_coordinates": { "x": 395.1310119628906, "y": 133.29299926757812, "z": 205.2644805908203 }, "tsne_coordinates": { "x": -7.161316394805908, "y": 21.194162368774414, "z": -6.855082988739014 }, "pca_coordinates": { "x": -4.255423069000244, "y": 0.7343804836273193, "z": 2.7353787422180176 }, "axis_scores": { "Quantum imaging": 0.712802529335022, "Quantum Life Science Sensing": 0.7072374820709229, "Quantum sensing Detection": 0.6774575114250183, "Quantum sensing Metrology": 0.692941427230835, "Quantum sensing navigation": 0.7013225555419922, "Quantum sensing Position": 0.6928393840789795, "Quantum sensing Timing": 0.6688351035118103, "Quantum sensing": 0.6922869682312012, "Quantum control": 0.6654409170150757 } }, { "id": 6321, "title": "Quantum efficiency, purity and stability of a tunable, narrowband microwave single-photon source", "abstract": "We demonstrate an on-demand source of microwave single photons with 71-99% intrinsic quantum efficiency. The source is narrowband (300 kHz) and tuneable over a 600 MHz range around 5.2 GHz. Such a dev...", "citations": 17, "author_count": 11, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6328, "doi": "10.1038/s41534-021-00480-5", "umap_coordinates": { "x": 394.3807067871094, "y": 133.51458740234375, "z": 207.65139770507812 }, "tsne_coordinates": { "x": -10.95494270324707, "y": -2.7324836254119873, "z": -25.793418884277344 }, "pca_coordinates": { "x": -1.8099071979522705, "y": -2.4508962631225586, "z": 1.5890398025512695 }, "axis_scores": { "Quantum imaging": 0.6996885538101196, "Quantum Life Science Sensing": 0.7310150861740112, "Quantum sensing Detection": 0.7054558992385864, "Quantum sensing Metrology": 0.7077667117118835, "Quantum sensing navigation": 0.6944544315338135, "Quantum sensing Position": 0.6781927347183228, "Quantum sensing Timing": 0.6765469312667847, "Quantum sensing": 0.7185786366462708, "Quantum control": 0.683150589466095 } }, { "id": 6322, "title": "Hybridization of electron, light-hole, and heavy-hole states in InAs/GaSb quantum wells - art. no. 235332", "abstract": "We have investigated the hybridization of the electron states. the light-hole states and the heavy-hole states in InAs/GaSb broken-gap quantum wells. This effect is profound Mien the InAs layer and th...", "citations": 41, "author_count": 4, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6329, "doi": "10.1103/PhysRevB.64.235332", "umap_coordinates": { "x": 394.22808837890625, "y": 135.30154418945312, "z": 209.35133361816406 }, "tsne_coordinates": { "x": 6.998262405395508, "y": -36.90252685546875, "z": -1.111764907836914 }, "pca_coordinates": { "x": 4.999955654144287, "y": -1.1096739768981934, "z": -0.06146562099456787 }, "axis_scores": { "Quantum imaging": 0.700615406036377, "Quantum Life Science Sensing": 0.7073410749435425, "Quantum sensing Detection": 0.7120453715324402, "Quantum sensing Metrology": 0.6903043985366821, "Quantum sensing navigation": 0.7166784405708313, "Quantum sensing Position": 0.6784631609916687, "Quantum sensing Timing": 0.6704695224761963, "Quantum sensing": 0.7194938063621521, "Quantum control": 0.6959963440895081 } }, { "id": 6323, "title": "Investigations of Anisotropic Flow Using Multiparticle Azimuthal Correlations in pp, p-Pb, Xe-Xe, and Pb-Pb Collisions at the LHC", "abstract": "Measurements of anisotropic flow coefficients (v(n)) and their cross-correlations using two- and multiparticle cumulant methods are reported in collisions of pp at root S = 13 TeV, p-Pb at a center-of...", "citations": 100, "author_count": 1021, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6330, "doi": "10.1103/PhysRevLett.123.142301", "umap_coordinates": { "x": 396.7491149902344, "y": 134.6146240234375, "z": 207.77639770507812 }, "tsne_coordinates": { "x": -35.551753997802734, "y": 2.8032922744750977, "z": -11.67746639251709 }, "pca_coordinates": { "x": 1.857515811920166, "y": -0.01765751838684082, "z": 1.8573074340820312 }, "axis_scores": { "Quantum imaging": 0.7177094221115112, "Quantum Life Science Sensing": 0.6784437894821167, "Quantum sensing Detection": 0.68314129114151, "Quantum sensing Metrology": 0.6731873154640198, "Quantum sensing navigation": 0.7042229771614075, "Quantum sensing Position": 0.6902174353599548, "Quantum sensing Timing": 0.6990004777908325, "Quantum sensing": 0.6983309984207153, "Quantum control": 0.6786555051803589 } }, { "id": 6324, "title": "Composite-fermion wave functions as correlators in conformal field theory", "abstract": "It is known that a subset of fractional quantum Hall wave functions has been expressed as conformal field theory (CFT) correlators, notably the Laughlin wave function [Phys. Rev. Lett. 50, 1395 (1983)...", "citations": 56, "author_count": 5, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6331, "doi": "10.1103/PhysRevB.76.075347", "umap_coordinates": { "x": 394.95111083984375, "y": 137.02394104003906, "z": 208.63214111328125 }, "tsne_coordinates": { "x": -18.58694839477539, "y": -30.190937042236328, "z": 5.672346115112305 }, "pca_coordinates": { "x": 3.1958723068237305, "y": -0.3239431381225586, "z": 0.3981873393058777 }, "axis_scores": { "Quantum imaging": 0.7162591218948364, "Quantum Life Science Sensing": 0.7124675512313843, "Quantum sensing Detection": 0.6982983946800232, "Quantum sensing Metrology": 0.687861979007721, "Quantum sensing navigation": 0.7201583385467529, "Quantum sensing Position": 0.6787726879119873, "Quantum sensing Timing": 0.6944454312324524, "Quantum sensing": 0.7166464924812317, "Quantum control": 0.6877882480621338 } }, { "id": 6325, "title": "Liquid ionization chamber measurements of dose distributions in small 6 MV photon beams", "abstract": "A new liquid ionization chamber (LIC) design optimized for high spatial resolution was used for measurements of dose distributions in radiation fields intended for stereotactic radiosurgery (SRS). Thi...", "citations": 22, "author_count": 4, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 6332, "doi": "10.1088/0031-9155/43/1/002", "umap_coordinates": { "x": 395.91351318359375, "y": 133.53515625, "z": 205.33261108398438 }, "tsne_coordinates": { "x": -16.726099014282227, "y": 30.53293800354004, "z": -15.240690231323242 }, "pca_coordinates": { "x": -1.6457757949829102, "y": 2.230527400970459, "z": 3.3317856788635254 }, "axis_scores": { "Quantum imaging": 0.6946597099304199, "Quantum Life Science Sensing": 0.7244930863380432, "Quantum sensing Detection": 0.6771706938743591, "Quantum sensing Metrology": 0.6791601777076721, "Quantum sensing navigation": 0.6807875037193298, "Quantum sensing Position": 0.6921433210372925, "Quantum sensing Timing": 0.6539053916931152, "Quantum sensing": 0.689929187297821, "Quantum control": 0.6195206046104431 } }, { "id": 6326, "title": "All-photonic kinase inhibitors: light-controlled release-and-report inhibition", "abstract": "Light-responsive molecular tools targeting kinases affords one the opportunity to study the underlying cellular function of selected kinases. In efforts to externally control lymphocyte-specific prote...", "citations": 5, "author_count": 11, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6333, "doi": "10.1039/d4sc00390j", "umap_coordinates": { "x": 392.5415954589844, "y": 135.3413848876953, "z": 204.60142517089844 }, "tsne_coordinates": { "x": 15.186056137084961, "y": -10.660524368286133, "z": -30.6748046875 }, "pca_coordinates": { "x": -2.4420247077941895, "y": 0.27701234817504883, "z": -0.5281223058700562 }, "axis_scores": { "Quantum imaging": 0.7203754186630249, "Quantum Life Science Sensing": 0.702832818031311, "Quantum sensing Detection": 0.6972227096557617, "Quantum sensing Metrology": 0.6698850989341736, "Quantum sensing navigation": 0.6774413585662842, "Quantum sensing Position": 0.6487650275230408, "Quantum sensing Timing": 0.6635730862617493, "Quantum sensing": 0.7091850638389587, "Quantum control": 0.7195851802825928 } }, { "id": 6327, "title": "Two-View and Single-View Tomosynthesis versus Full-Field Digital Mammography: High-Resolution X-Ray Imaging Observer Study", "abstract": "Purpose: To compare the diagnostic accuracy of two-dimensional (2D) full-field digital mammography with that of two-view (mediolateral and craniocaudal) and single-view (mediolateral oblique) tomosynt...", "citations": 174, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6334, "doi": "10.1148/radiol.11103514", "umap_coordinates": { "x": 395.75457763671875, "y": 132.88275146484375, "z": 205.1243438720703 }, "tsne_coordinates": { "x": -5.498495101928711, "y": 29.655656814575195, "z": -25.170087814331055 }, "pca_coordinates": { "x": -2.430634021759033, "y": 4.115922927856445, "z": 2.3564453125 }, "axis_scores": { "Quantum imaging": 0.7030751705169678, "Quantum Life Science Sensing": 0.6752609610557556, "Quantum sensing Detection": 0.6812058687210083, "Quantum sensing Metrology": 0.663591742515564, "Quantum sensing navigation": 0.660750150680542, "Quantum sensing Position": 0.6587093472480774, "Quantum sensing Timing": 0.6766453385353088, "Quantum sensing": 0.6865414381027222, "Quantum control": 0.6486836671829224 } }, { "id": 6328, "title": "Bacteriochlorophyll organization and energy transfer kinetics in chlorosomes from Chloroflexus aurantiacus depend on the light regime during growth", "abstract": "We have used measurements of fluorescence and circular dichroism (CD) to compare chlorosome-membrane preparations derived from the green filamentous bacterium Chloroflexus aurantiacus grown in continu...", "citations": 38, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6335, "doi": "10.1007/BF00016178", "umap_coordinates": { "x": 393.5543518066406, "y": 136.18165588378906, "z": 204.36024475097656 }, "tsne_coordinates": { "x": 9.65001392364502, "y": 27.482358932495117, "z": 8.14437484741211 }, "pca_coordinates": { "x": -1.9638408422470093, "y": -0.0773782730102539, "z": -2.8087098598480225 }, "axis_scores": { "Quantum imaging": 0.6933836340904236, "Quantum Life Science Sensing": 0.7399656772613525, "Quantum sensing Detection": 0.6707155704498291, "Quantum sensing Metrology": 0.6717091202735901, "Quantum sensing navigation": 0.681321382522583, "Quantum sensing Position": 0.6515313386917114, "Quantum sensing Timing": 0.646490752696991, "Quantum sensing": 0.6917980909347534, "Quantum control": 0.6774382591247559 } }, { "id": 6329, "title": "Effect of Solvent Additives on the Morphology and Device Performance of Printed Nonfullerene Acceptor Based Organic Solar Cells", "abstract": "Printing of active layers of high-efficiency organic solar cells and morphology control by processing with varying solvent additive concentrations are important to realize real-world use of bulk-heter...", "citations": 47, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6336, "doi": "10.1021/acsami.9b16784", "umap_coordinates": { "x": 392.20947265625, "y": 134.23805236816406, "z": 204.8968505859375 }, "tsne_coordinates": { "x": 26.686609268188477, "y": 15.489213943481445, "z": -8.361053466796875 }, "pca_coordinates": { "x": -3.6664257049560547, "y": -2.7398552894592285, "z": -1.7311506271362305 }, "axis_scores": { "Quantum imaging": 0.6494377255439758, "Quantum Life Science Sensing": 0.6745296716690063, "Quantum sensing Detection": 0.6266191005706787, "Quantum sensing Metrology": 0.6342981457710266, "Quantum sensing navigation": 0.6194987893104553, "Quantum sensing Position": 0.6379300951957703, "Quantum sensing Timing": 0.6044883728027344, "Quantum sensing": 0.6414697766304016, "Quantum control": 0.6266088485717773 } }, { "id": 6330, "title": "Dominance of the first excitation step for magnetic circular dichroism in near-threshold two-photon photoemission", "abstract": "Magnetic circular dichroism (MCD) in near-threshold photoemission is measured for a perpendicularly magnetized Cs/Co/Pt(111) film with work function adjusted by Cs adsorption. For one-photon photoemis...", "citations": 3, "author_count": 8, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6337, "doi": "10.1103/PhysRevB.85.014426", "umap_coordinates": { "x": 393.37530517578125, "y": 135.9482421875, "z": 208.0714569091797 }, "tsne_coordinates": { "x": 18.063112258911133, "y": -19.205787658691406, "z": 33.98058319091797 }, "pca_coordinates": { "x": 1.5035579204559326, "y": -2.011880397796631, "z": -1.248558759689331 }, "axis_scores": { "Quantum imaging": 0.6793032884597778, "Quantum Life Science Sensing": 0.6787108182907104, "Quantum sensing Detection": 0.6873766183853149, "Quantum sensing Metrology": 0.6734141111373901, "Quantum sensing navigation": 0.6531863212585449, "Quantum sensing Position": 0.6453748941421509, "Quantum sensing Timing": 0.6517533659934998, "Quantum sensing": 0.6838260293006897, "Quantum control": 0.6361172795295715 } }, { "id": 6331, "title": "Bilateral common carotid artery occlusion with minimal neurological deficit: Long term follow up in 3 patients", "abstract": "Three patients, two women and one man, aged 56-70 year (mean 59 years) with modest neurological deficits and bilateral occlusion of the common carotid arteries initially identified by duplex scanning ...", "citations": 5, "author_count": 4, "categories": [ "Neurosciences & Neurology" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6338, "doi": null, "umap_coordinates": { "x": 391.2848205566406, "y": 139.65994262695312, "z": 209.59918212890625 }, "tsne_coordinates": { "x": 2.501155376434326, "y": 43.21672439575195, "z": -3.468498945236206 }, "pca_coordinates": { "x": -1.7070491313934326, "y": 5.434055328369141, "z": -1.0798921585083008 }, "axis_scores": { "Quantum imaging": 0.673653244972229, "Quantum Life Science Sensing": 0.6655688285827637, "Quantum sensing Detection": 0.6568854451179504, "Quantum sensing Metrology": 0.639418363571167, "Quantum sensing navigation": 0.6795440912246704, "Quantum sensing Position": 0.6353169679641724, "Quantum sensing Timing": 0.6335410475730896, "Quantum sensing": 0.6597591638565063, "Quantum control": 0.6746973991394043 } }, { "id": 6332, "title": "Trion-phonon interaction in atomically thin semiconductors", "abstract": "May August accepted August published September Optical and transport properties of doped monolayer semiconductors are dominated by trions, which are three -particle compounds formed by two electrons a...", "citations": 13, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6339, "doi": "10.1103/PhysRevB.106.115407", "umap_coordinates": { "x": 393.91094970703125, "y": 135.2578582763672, "z": 209.3794708251953 }, "tsne_coordinates": { "x": -1.8190075159072876, "y": -29.211515426635742, "z": -0.061976175755262375 }, "pca_coordinates": { "x": 4.25290584564209, "y": -2.915374279022217, "z": 1.4031786918640137 }, "axis_scores": { "Quantum imaging": 0.7077504992485046, "Quantum Life Science Sensing": 0.6989848613739014, "Quantum sensing Detection": 0.704470694065094, "Quantum sensing Metrology": 0.6889652013778687, "Quantum sensing navigation": 0.6942168474197388, "Quantum sensing Position": 0.6765700578689575, "Quantum sensing Timing": 0.6972500681877136, "Quantum sensing": 0.7146152853965759, "Quantum control": 0.6625595092773438 } }, { "id": 6333, "title": "Compton scattering from the deuteron below pion-production threshold", "abstract": "Differential cross sections for elastic scattering of photons from the deuteron have recently been measured at the Tagged-Photon Facility at the MAX IV Laboratory in Lund, Sweden. These first new meas...", "citations": 18, "author_count": 17, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6340, "doi": "10.1103/PhysRevC.92.025203", "umap_coordinates": { "x": 395.8470153808594, "y": 134.9768524169922, "z": 208.4265594482422 }, "tsne_coordinates": { "x": -1.4615023136138916, "y": -45.288082122802734, "z": -10.357542037963867 }, "pca_coordinates": { "x": 3.5571045875549316, "y": 0.556469202041626, "z": -0.7564699649810791 }, "axis_scores": { "Quantum imaging": 0.6584663987159729, "Quantum Life Science Sensing": 0.6838206052780151, "Quantum sensing Detection": 0.6820405721664429, "Quantum sensing Metrology": 0.6561791300773621, "Quantum sensing navigation": 0.6674844622612, "Quantum sensing Position": 0.6574973464012146, "Quantum sensing Timing": 0.6614882349967957, "Quantum sensing": 0.6765509843826294, "Quantum control": 0.6695846915245056 } }, { "id": 6334, "title": "Anti-Stokes fluorescence from endogenously formed protoporphyrin IX Implications for clinical multiphoton diagnostics", "abstract": "Multiphoton imaging based on two-photon excitation is making its way into the clinics, particularly for skin cancer diagnostics. It has been suggested that endogenously formed protoporphyrin IX (PpIX)...", "citations": 8, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6341, "doi": "10.1002/jbio.201200119", "umap_coordinates": { "x": 394.3394775390625, "y": 134.82196044921875, "z": 204.61196899414062 }, "tsne_coordinates": { "x": 7.49710750579834, "y": 26.491607666015625, "z": -5.1704583168029785 }, "pca_coordinates": { "x": -2.7988033294677734, "y": 0.4889538288116455, "z": 0.9015483260154724 }, "axis_scores": { "Quantum imaging": 0.7411548495292664, "Quantum Life Science Sensing": 0.7412030696868896, "Quantum sensing Detection": 0.7182879447937012, "Quantum sensing Metrology": 0.6982851624488831, "Quantum sensing navigation": 0.6763168573379517, "Quantum sensing Position": 0.6843212842941284, "Quantum sensing Timing": 0.6777859330177307, "Quantum sensing": 0.7202560305595398, "Quantum control": 0.6819339394569397 } }, { "id": 6335, "title": "Quantum-refinement studies of the bidentate ligand of V-nitrogenase and the protonation state of CO-inhibited Mo-nitrogenase", "abstract": "Nitrogenase is the only enzyme that can cleave the triple bond in N2, making nitrogen available to plants (although the enzyme itself is strictly microbial). It has been studied extensively with both ...", "citations": 11, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6342, "doi": "10.1016/j.jinorgbio.2021.111426", "umap_coordinates": { "x": 393.1369323730469, "y": 137.08714294433594, "z": 205.37281799316406 }, "tsne_coordinates": { "x": 3.6408824920654297, "y": 15.571877479553223, "z": 31.043548583984375 }, "pca_coordinates": { "x": -0.49330782890319824, "y": 1.4378972053527832, "z": -2.4145774841308594 }, "axis_scores": { "Quantum imaging": 0.7376216650009155, "Quantum Life Science Sensing": 0.7270326018333435, "Quantum sensing Detection": 0.715638279914856, "Quantum sensing Metrology": 0.7222155332565308, "Quantum sensing navigation": 0.7382490634918213, "Quantum sensing Position": 0.714716374874115, "Quantum sensing Timing": 0.6804405450820923, "Quantum sensing": 0.727739155292511, "Quantum control": 0.7210341691970825 } }, { "id": 6336, "title": "Shadows of language in physics and cybernetics", "abstract": "In a large variety of disciplines, fundamental studies often straddle in self referential situations, in need of relativization to-language and complementaristic resolution. In such attempts, the lang...", "citations": 2, "author_count": 2, "categories": [ "Engineering" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6343, "doi": "10.1002/(SICI)1099-1735(199609)13:3<329::AID-SRES98>3.0.CO;2-2", "umap_coordinates": { "x": 395.24664306640625, "y": 137.59356689453125, "z": 206.31430053710938 }, "tsne_coordinates": { "x": -24.900951385498047, "y": 4.236198425292969, "z": 8.448729515075684 }, "pca_coordinates": { "x": 1.3525352478027344, "y": 2.7223682403564453, "z": -1.1001428365707397 }, "axis_scores": { "Quantum imaging": 0.7639132738113403, "Quantum Life Science Sensing": 0.7641899585723877, "Quantum sensing Detection": 0.7495726346969604, "Quantum sensing Metrology": 0.7318294644355774, "Quantum sensing navigation": 0.7524371147155762, "Quantum sensing Position": 0.7034429311752319, "Quantum sensing Timing": 0.7088711261749268, "Quantum sensing": 0.7643491625785828, "Quantum control": 0.7470878958702087 } }, { "id": 6337, "title": "Deep Transfer Learning-Based Multi-Modal Digital Twins for Enhancement and Diagnostic Analysis of Brain MRI Image", "abstract": "Objective: it aims to adopt deep transfer learning combined with Digital Twins (DTs) in Magnetic Resonance Imaging (MRI) medical image enhancement. Methods: MRI image enhancement method based on metam...", "citations": 20, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6344, "doi": "10.1109/TCBB.2022.3168189", "umap_coordinates": { "x": 394.8741760253906, "y": 133.5106658935547, "z": 205.5221710205078 }, "tsne_coordinates": { "x": 1.3870731592178345, "y": 19.668474197387695, "z": -18.98438835144043 }, "pca_coordinates": { "x": -2.240222215652466, "y": 1.7339818477630615, "z": 2.1500039100646973 }, "axis_scores": { "Quantum imaging": 0.7214901447296143, "Quantum Life Science Sensing": 0.6774648427963257, "Quantum sensing Detection": 0.6911826133728027, "Quantum sensing Metrology": 0.6932321786880493, "Quantum sensing navigation": 0.6667468547821045, "Quantum sensing Position": 0.646388053894043, "Quantum sensing Timing": 0.6864898204803467, "Quantum sensing": 0.6963508725166321, "Quantum control": 0.673141598701477 } }, { "id": 6338, "title": "Scalable WDM access network architecture based on photonic slot routing", "abstract": "This paper introduces an approach to solving the fundamental scalability problem of all-optical packet switching wavelength-division multiplexing (WDM) access networks. Current optical networks cannot...", "citations": 60, "author_count": 5, "categories": [ "Computer Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 6345, "doi": "10.1109/90.759310", "umap_coordinates": { "x": 394.62353515625, "y": 134.06283569335938, "z": 206.70306396484375 }, "tsne_coordinates": { "x": 5.979006290435791, "y": 0.9112185835838318, "z": -33.59867858886719 }, "pca_coordinates": { "x": 0.9673159122467041, "y": -0.18799424171447754, "z": 2.6179099082946777 }, "axis_scores": { "Quantum imaging": 0.7022625207901001, "Quantum Life Science Sensing": 0.6810324788093567, "Quantum sensing Detection": 0.6985366940498352, "Quantum sensing Metrology": 0.7145217061042786, "Quantum sensing navigation": 0.7297978401184082, "Quantum sensing Position": 0.686863899230957, "Quantum sensing Timing": 0.6815360188484192, "Quantum sensing": 0.7200353145599365, "Quantum control": 0.7077447175979614 } }, { "id": 6339, "title": "Replacement of Trp(28) in Escherichia coli thioredoxin by site-directed mutagenesis affects thermodynamic stability but not function", "abstract": "Escherichia coli thioredoxin contains two tryptophan residues (Trp(28) and Trp(31)) situated close to the active site disulfide/dithiol. In order to probe the structural and functional roles of trypto...", "citations": 30, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6346, "doi": "10.1074/jbc.271.6.3091", "umap_coordinates": { "x": 394.00830078125, "y": 136.41175842285156, "z": 204.21507263183594 }, "tsne_coordinates": { "x": 4.663912296295166, "y": 26.589447021484375, "z": 19.612384796142578 }, "pca_coordinates": { "x": -0.2538188099861145, "y": 1.513630986213684, "z": -2.3686254024505615 }, "axis_scores": { "Quantum imaging": 0.6615749597549438, "Quantum Life Science Sensing": 0.7126470804214478, "Quantum sensing Detection": 0.6720647811889648, "Quantum sensing Metrology": 0.6773767471313477, "Quantum sensing navigation": 0.6796719431877136, "Quantum sensing Position": 0.6808276772499084, "Quantum sensing Timing": 0.6812318563461304, "Quantum sensing": 0.6850901246070862, "Quantum control": 0.67605060338974 } }, { "id": 6340, "title": "Perspective: multi-configurational methods in bio-inorganic chemistry", "abstract": "Transition metal ions play crucial roles in the structure and function of numerous proteins, contributing to essential biological processes such as catalysis, electron transfer, and oxygen binding. Ho...", "citations": 4, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6347, "doi": "10.1039/d4cp01297f", "umap_coordinates": { "x": 392.8763122558594, "y": 136.7897186279297, "z": 205.4608917236328 }, "tsne_coordinates": { "x": -3.133526086807251, "y": 5.432621002197266, "z": 24.425561904907227 }, "pca_coordinates": { "x": -2.5189366340637207, "y": 1.7115839719772339, "z": -3.1337735652923584 }, "axis_scores": { "Quantum imaging": 0.7097861170768738, "Quantum Life Science Sensing": 0.7260785698890686, "Quantum sensing Detection": 0.6864297389984131, "Quantum sensing Metrology": 0.6916084289550781, "Quantum sensing navigation": 0.6939229369163513, "Quantum sensing Position": 0.7008898258209229, "Quantum sensing Timing": 0.6863715052604675, "Quantum sensing": 0.7057659029960632, "Quantum control": 0.6974796056747437 } }, { "id": 6341, "title": "Cationization increases brain distribution of an amyloid-beta protofibril selective F(ab')2 fragment", "abstract": "Antibodies and fragments thereof are, because of high selectivity for their targets, considered as potential therapeutics and biomarkers for several neurological disorders. However, due to their large...", "citations": 33, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6348, "doi": "10.1016/j.bbrc.2017.09.065", "umap_coordinates": { "x": 394.40557861328125, "y": 134.82269287109375, "z": 204.12062072753906 }, "tsne_coordinates": { "x": 3.645540952682495, "y": 25.881839752197266, "z": -3.6998424530029297 }, "pca_coordinates": { "x": -4.110985279083252, "y": 1.6454823017120361, "z": -3.64839243888855 }, "axis_scores": { "Quantum imaging": 0.6584433317184448, "Quantum Life Science Sensing": 0.643912672996521, "Quantum sensing Detection": 0.6339876055717468, "Quantum sensing Metrology": 0.621821939945221, "Quantum sensing navigation": 0.6347625851631165, "Quantum sensing Position": 0.6147692203521729, "Quantum sensing Timing": 0.5914748907089233, "Quantum sensing": 0.6463255286216736, "Quantum control": 0.6322685480117798 } }, { "id": 6342, "title": "Measurement of the inclusive isolated-photon production cross section in pp and Pb-Pb collisions at √sNN=5.02 TeV", "abstract": "The ALICE Collaboration at the CERN LHC has measured the inclusive production cross section of isolated photons at midrapidity as a function of the photon transverse momentum (p(T)(gamma)), in Pb-Pb c...", "citations": 3, "author_count": 1053, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6349, "doi": "10.1140/epjc/s10052-025-13971-y", "umap_coordinates": { "x": 396.7474060058594, "y": 134.3643341064453, "z": 207.34536743164062 }, "tsne_coordinates": { "x": -30.9366512298584, "y": 12.143701553344727, "z": -10.231247901916504 }, "pca_coordinates": { "x": -1.1185760498046875, "y": 0.9878537654876709, "z": 3.42515230178833 }, "axis_scores": { "Quantum imaging": 0.6918296813964844, "Quantum Life Science Sensing": 0.6926738023757935, "Quantum sensing Detection": 0.7044718861579895, "Quantum sensing Metrology": 0.6737152338027954, "Quantum sensing navigation": 0.6817793250083923, "Quantum sensing Position": 0.6882268786430359, "Quantum sensing Timing": 0.690569281578064, "Quantum sensing": 0.6969672441482544, "Quantum control": 0.6549248099327087 } }, { "id": 6343, "title": "Two-dimensional heavy fermions in the van der Waals metal CeSiI", "abstract": "Heavy-fermion metals are prototype systems for observing emergent quantum phases driven by electronic interactions1-6. A long-standing aspiration is the dimensional reduction of these materials to exe...", "citations": 22, "author_count": 34, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6350, "doi": "10.1038/s41586-023-06868-x", "umap_coordinates": { "x": 392.4998779296875, "y": 135.91261291503906, "z": 207.0894775390625 }, "tsne_coordinates": { "x": 8.677264213562012, "y": -7.531917572021484, "z": 10.874920845031738 }, "pca_coordinates": { "x": 0.3239603042602539, "y": -1.4869074821472168, "z": -2.1678054332733154 }, "axis_scores": { "Quantum imaging": 0.6982263326644897, "Quantum Life Science Sensing": 0.6856383085250854, "Quantum sensing Detection": 0.6743077039718628, "Quantum sensing Metrology": 0.6593751311302185, "Quantum sensing navigation": 0.6748279929161072, "Quantum sensing Position": 0.6466060280799866, "Quantum sensing Timing": 0.649116039276123, "Quantum sensing": 0.6854405999183655, "Quantum control": 0.670146107673645 } }, { "id": 6344, "title": "SN 2022oqm-A Ca-rich Explosion of a Compact Progenitor Embedded in C/O Circumstellar Material", "abstract": "We present the discovery and analysis of SN 2022oqm, a Type Ic supernova (SN) detected <1 day after the explosion. The SN rises to a blue and short-lived (2 days) initial peak. Early-time spectral obs...", "citations": 13, "author_count": 31, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6351, "doi": "10.3847/1538-4357/ad04d7", "umap_coordinates": { "x": 396.20660400390625, "y": 134.94883728027344, "z": 205.84559631347656 }, "tsne_coordinates": { "x": -32.250675201416016, "y": 22.3250789642334, "z": -1.3488068580627441 }, "pca_coordinates": { "x": -1.646747350692749, "y": 2.2444751262664795, "z": -1.0967286825180054 }, "axis_scores": { "Quantum imaging": 0.637453556060791, "Quantum Life Science Sensing": 0.649135947227478, "Quantum sensing Detection": 0.6302033066749573, "Quantum sensing Metrology": 0.6086935997009277, "Quantum sensing navigation": 0.6509920358657837, "Quantum sensing Position": 0.6233806610107422, "Quantum sensing Timing": 0.6243388056755066, "Quantum sensing": 0.6307976245880127, "Quantum control": 0.6335916519165039 } }, { "id": 6345, "title": "Extensive characterization and implementation of a family of three-qubit gates at the coherence limit", "abstract": "While all quantum algorithms can be expressed in terms of single-qubit and two-qubit gates, more expressive gate sets can help reduce the algorithmic depth. This is important in the presence of gate e...", "citations": 30, "author_count": 17, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6352, "doi": "10.1038/s41534-023-00711-x", "umap_coordinates": { "x": 395.24139404296875, "y": 136.5697784423828, "z": 206.81509399414062 }, "tsne_coordinates": { "x": -4.526271343231201, "y": -6.412720203399658, "z": 14.024907112121582 }, "pca_coordinates": { "x": 1.1220779418945312, "y": 1.4333969354629517, "z": 0.8987051844596863 }, "axis_scores": { "Quantum imaging": 0.7257684469223022, "Quantum Life Science Sensing": 0.7171268463134766, "Quantum sensing Detection": 0.7189149856567383, "Quantum sensing Metrology": 0.7049391269683838, "Quantum sensing navigation": 0.7156234979629517, "Quantum sensing Position": 0.6848509907722473, "Quantum sensing Timing": 0.6933438777923584, "Quantum sensing": 0.7307997941970825, "Quantum control": 0.7176196575164795 } }, { "id": 6346, "title": "A Stable Homoleptic Organometallic Iron(IV) Complex", "abstract": "A homoleptic organometallic Fe(IV)complex that is stable in both solution and in the solid state at ambient conditions has been synthesized and isolated as [Fe(phtmeimb)(2)](PF6)(2)(phtmeimb=[phenyl(t...", "citations": 31, "author_count": 12, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6353, "doi": "10.1002/chem.202002158", "umap_coordinates": { "x": 391.8857421875, "y": 135.02862548828125, "z": 204.78463745117188 }, "tsne_coordinates": { "x": 13.888591766357422, "y": 10.1476411819458, "z": -6.253206253051758 }, "pca_coordinates": { "x": -1.0393688678741455, "y": -1.230149745941162, "z": -4.181419849395752 }, "axis_scores": { "Quantum imaging": 0.6924886107444763, "Quantum Life Science Sensing": 0.7255522012710571, "Quantum sensing Detection": 0.6872272491455078, "Quantum sensing Metrology": 0.6790761947631836, "Quantum sensing navigation": 0.6850566864013672, "Quantum sensing Position": 0.6512093544006348, "Quantum sensing Timing": 0.6445870995521545, "Quantum sensing": 0.7012291550636292, "Quantum control": 0.700325608253479 } }, { "id": 6347, "title": "Contactless electroreflectance, photoluminescence and time-resolved photoluminescence of GaInNAs quantum wells obtained by the MBE method with N-irradiation", "abstract": "The optical properties of GaInNAs quantum wells (QW) grown by molecular beam epitaxy with and without N-irradiation (i.e. grown by the classical method) were investigated by the contactless electroref...", "citations": 5, "author_count": 8, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6354, "doi": "10.1088/0268-1242/26/4/045012", "umap_coordinates": { "x": 394.58099365234375, "y": 134.75709533691406, "z": 206.585205078125 }, "tsne_coordinates": { "x": 28.761985778808594, "y": -15.222285270690918, "z": 17.59410858154297 }, "pca_coordinates": { "x": -1.196710467338562, "y": -0.22957825660705566, "z": 2.1749267578125 }, "axis_scores": { "Quantum imaging": 0.6908159852027893, "Quantum Life Science Sensing": 0.6986265182495117, "Quantum sensing Detection": 0.6780619025230408, "Quantum sensing Metrology": 0.683049738407135, "Quantum sensing navigation": 0.6870900392532349, "Quantum sensing Position": 0.6711093187332153, "Quantum sensing Timing": 0.6732791066169739, "Quantum sensing": 0.6894069314002991, "Quantum control": 0.6577646732330322 } }, { "id": 6348, "title": "Frontotemporal dementia can be distinguished from Alzheimer's disease and subcortical white matter dementia by an anterior-to-posterior rCBF-SPET ratio", "abstract": "Sixteen patients with frontotemporal dementia (FTD), 27 with early-onset Alzheimer's disease, 25 with late-onset Alzheimer's disease, 19 with subcortical white matter dementia (SWD) and 28 normal cont...", "citations": 47, "author_count": 5, "categories": [ "Geriatrics & Gerontology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6355, "doi": "10.1159/000017250", "umap_coordinates": { "x": 395.1562805175781, "y": 134.4690399169922, "z": 204.35252380371094 }, "tsne_coordinates": { "x": -4.784980773925781, "y": 29.222087860107422, "z": 4.068642616271973 }, "pca_coordinates": { "x": -2.8895254135131836, "y": 2.2910807132720947, "z": 0.6358117461204529 }, "axis_scores": { "Quantum imaging": 0.6573406457901001, "Quantum Life Science Sensing": 0.6526723504066467, "Quantum sensing Detection": 0.6424155235290527, "Quantum sensing Metrology": 0.6410689949989319, "Quantum sensing navigation": 0.6521317958831787, "Quantum sensing Position": 0.6503208875656128, "Quantum sensing Timing": 0.6427227258682251, "Quantum sensing": 0.6494433879852295, "Quantum control": 0.6296131610870361 } }, { "id": 6349, "title": "In-Pile 4He Source for UCN Production at the ESS", "abstract": "ESS will be a premier neutron source facility. Unprecedented neutron beam intensities are ensured by spallation reactions of a 5 MW, 2.0 GeV proton beam impinging on a tungsten target equipped with ad...", "citations": 2, "author_count": 8, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6356, "doi": "10.1155/2014/241639", "umap_coordinates": { "x": 396.46343994140625, "y": 134.58865356445312, "z": 206.56552124023438 }, "tsne_coordinates": { "x": -28.571195602416992, "y": 15.158074378967285, "z": -4.390190124511719 }, "pca_coordinates": { "x": -1.123737096786499, "y": 2.2278144359588623, "z": 0.5428710579872131 }, "axis_scores": { "Quantum imaging": 0.6434155702590942, "Quantum Life Science Sensing": 0.6705110669136047, "Quantum sensing Detection": 0.6514421105384827, "Quantum sensing Metrology": 0.6494300961494446, "Quantum sensing navigation": 0.6498790383338928, "Quantum sensing Position": 0.6485635638237, "Quantum sensing Timing": 0.6560142636299133, "Quantum sensing": 0.6628111004829407, "Quantum control": 0.6645041704177856 } }, { "id": 6350, "title": "Altered cerebral blood flow in chronic neck pain patients but not in whiplash patients:: a 99mTc-HMPAO rCBF study", "abstract": "A cross-sectional study to investigate regional cerebral blood flow (rCBF) in patients with chronic whiplash syndrome and chronic neck pain patients without previous history of trauma along with a hea...", "citations": 19, "author_count": 7, "categories": [ "Neurosciences & Neurology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6357, "doi": "10.1007/s00586-005-0040-5", "umap_coordinates": { "x": 395.2989501953125, "y": 134.70460510253906, "z": 204.41647338867188 }, "tsne_coordinates": { "x": -2.420590400695801, "y": 31.53129005432129, "z": -1.9721653461456299 }, "pca_coordinates": { "x": -2.199124813079834, "y": 5.043848991394043, "z": -0.6881041526794434 }, "axis_scores": { "Quantum imaging": 0.6667455434799194, "Quantum Life Science Sensing": 0.6529675722122192, "Quantum sensing Detection": 0.643095076084137, "Quantum sensing Metrology": 0.6349835991859436, "Quantum sensing navigation": 0.6745142340660095, "Quantum sensing Position": 0.6511553525924683, "Quantum sensing Timing": 0.6379681825637817, "Quantum sensing": 0.6484812498092651, "Quantum control": 0.6583722233772278 } }, { "id": 6351, "title": "Chemical Shielding Anisotropies for Chloroform Exchanging between a Free Site and a Complex with Cryptophane-D: A Cross-Correlated NMR Relaxation Study", "abstract": "The case of C-13-labeled chloroform exchanging between a free site in solution and the encaged site within the cryptophane-D cavity is investigated using the measurements of longitudinal cross-correla...", "citations": 2, "author_count": 5, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6358, "doi": "10.1021/acs.jpcb.5b05218", "umap_coordinates": { "x": 392.5144958496094, "y": 136.8205108642578, "z": 205.67237854003906 }, "tsne_coordinates": { "x": 9.492382049560547, "y": 13.106199264526367, "z": 32.44778823852539 }, "pca_coordinates": { "x": -1.9036788940429688, "y": 1.51101815700531, "z": -2.821927785873413 }, "axis_scores": { "Quantum imaging": 0.6793888211250305, "Quantum Life Science Sensing": 0.680172860622406, "Quantum sensing Detection": 0.644299328327179, "Quantum sensing Metrology": 0.6470357775688171, "Quantum sensing navigation": 0.6676418781280518, "Quantum sensing Position": 0.6668357849121094, "Quantum sensing Timing": 0.6750883460044861, "Quantum sensing": 0.6703445315361023, "Quantum control": 0.6567685604095459 } }, { "id": 6352, "title": "η-ensemble path integral Monte Carlo approach to the free energy of the warm dense electron gas and the uniform electron liquid", "abstract": "We explore the recently introduced ii-ensemble approach to compute the free energy directly from ab initio path integral Monte Carlo (PIMC) simulations [T. Dornheim et al., Phys. Rev. B 111, L041114 (...", "citations": 4, "author_count": 5, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6359, "doi": "10.1103/4n7x-78fs", "umap_coordinates": { "x": 394.122802734375, "y": 137.48658752441406, "z": 207.5638885498047 }, "tsne_coordinates": { "x": -3.732428550720215, "y": -7.069112777709961, "z": 19.042455673217773 }, "pca_coordinates": { "x": 1.424027442932129, "y": 0.6549249887466431, "z": 0.47810643911361694 }, "axis_scores": { "Quantum imaging": 0.6730958819389343, "Quantum Life Science Sensing": 0.6815676689147949, "Quantum sensing Detection": 0.6507532000541687, "Quantum sensing Metrology": 0.6498867273330688, "Quantum sensing navigation": 0.6957297921180725, "Quantum sensing Position": 0.6512156128883362, "Quantum sensing Timing": 0.641562283039093, "Quantum sensing": 0.673435389995575, "Quantum control": 0.6484565138816833 } }, { "id": 6353, "title": "Quantum-Based Molecular Dynamics Simulations Using Tensor Cores", "abstract": "Tensor cores, along with tensor processing units, represent a new form of hardware acceleration specifically designed for deep neural network calculations in artificial intelligence applications. Tens...", "citations": 23, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6360, "doi": "10.1021/acs.jctc.1c00726", "umap_coordinates": { "x": 393.5928039550781, "y": 137.5755157470703, "z": 205.80496215820312 }, "tsne_coordinates": { "x": -10.51778793334961, "y": 6.040035724639893, "z": 19.933971405029297 }, "pca_coordinates": { "x": 0.9771215915679932, "y": 0.8019552230834961, "z": -1.7156891822814941 }, "axis_scores": { "Quantum imaging": 0.7427576184272766, "Quantum Life Science Sensing": 0.717375636100769, "Quantum sensing Detection": 0.7184665203094482, "Quantum sensing Metrology": 0.7001820802688599, "Quantum sensing navigation": 0.7233012914657593, "Quantum sensing Position": 0.6798732280731201, "Quantum sensing Timing": 0.7169476747512817, "Quantum sensing": 0.730376660823822, "Quantum control": 0.7260164618492126 } }, { "id": 6354, "title": "Formic Acid on TiO2-x (110): Dissociation, Motion, and Vacancy Healing", "abstract": "The adsorption and dissociation of a formic acid molecule (HCOOH) on a partially reduced rutile TiO2-x (110) surface and the subsequent transformations of the adsorbed fragments are studied via quantu...", "citations": 14, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6361, "doi": "10.1021/jp500771d", "umap_coordinates": { "x": 392.4685363769531, "y": 136.6994171142578, "z": 205.87860107421875 }, "tsne_coordinates": { "x": 5.422400951385498, "y": 7.088302135467529, "z": 16.84532356262207 }, "pca_coordinates": { "x": -1.0984433889389038, "y": 0.8165957927703857, "z": -4.6890549659729 }, "axis_scores": { "Quantum imaging": 0.6623944640159607, "Quantum Life Science Sensing": 0.6961485147476196, "Quantum sensing Detection": 0.6584755182266235, "Quantum sensing Metrology": 0.6407404541969299, "Quantum sensing navigation": 0.6534259915351868, "Quantum sensing Position": 0.6413087844848633, "Quantum sensing Timing": 0.6446076035499573, "Quantum sensing": 0.669576108455658, "Quantum control": 0.6731171011924744 } }, { "id": 6355, "title": "Search for CP violation in D(s)+ → h+ π0 and decays D(s)+ → h+ η decays", "abstract": "Searches for CP violation in the two-body decays D-(s)(+) -> h(+)pi(0) and D-(s)(+) -> h(+)eta (where h(+) denotes a pi(+) or K+ meson) are performed using pp collision data collected by the LHCb expe...", "citations": 13, "author_count": 956, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6362, "doi": "10.1007/JHEP06(2021)019", "umap_coordinates": { "x": 396.7140197753906, "y": 134.7616424560547, "z": 207.11868286132812 }, "tsne_coordinates": { "x": -35.15797424316406, "y": 9.062270164489746, "z": -3.067713737487793 }, "pca_coordinates": { "x": -0.9445269107818604, "y": 2.4139130115509033, "z": -0.4328922629356384 }, "axis_scores": { "Quantum imaging": 0.6785996556282043, "Quantum Life Science Sensing": 0.6895782947540283, "Quantum sensing Detection": 0.6822261214256287, "Quantum sensing Metrology": 0.6487873196601868, "Quantum sensing navigation": 0.6798238158226013, "Quantum sensing Position": 0.6709068417549133, "Quantum sensing Timing": 0.6749773025512695, "Quantum sensing": 0.6765991449356079, "Quantum control": 0.6699429154396057 } }, { "id": 6356, "title": "Comparative in vivo evaluation of technetium and iodine labels on an anti-HER2 Affibody for single-photon imaging of HER2 expression in tumors", "abstract": "In vivo diagnosis with cancer-specific targeting agents that have optimal characteristics for imaging is an important development in treatment planning for cancer patients. Overexpression of the HER2 ...", "citations": 96, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6363, "doi": null, "umap_coordinates": { "x": 391.73809814453125, "y": 139.41534423828125, "z": 209.78125 }, "tsne_coordinates": { "x": -1.5272635221481323, "y": 41.38355255126953, "z": -5.697819709777832 }, "pca_coordinates": { "x": -3.342660665512085, "y": 2.712231159210205, "z": -0.4488174319267273 }, "axis_scores": { "Quantum imaging": 0.7770495414733887, "Quantum Life Science Sensing": 0.752312421798706, "Quantum sensing Detection": 0.7416080832481384, "Quantum sensing Metrology": 0.7375389933586121, "Quantum sensing navigation": 0.7367610931396484, "Quantum sensing Position": 0.7153224349021912, "Quantum sensing Timing": 0.7230433225631714, "Quantum sensing": 0.7542115449905396, "Quantum control": 0.7462621927261353 } }, { "id": 6357, "title": "Quantum oscillation signatures of the Bloch-Grüneisen temperature in the Dirac semimetal ZrTe5", "abstract": "The electron-phonon interaction is in many ways a solid state equivalent of quantum electrodynamics. Being always present, the e-p coupling is responsible for the intrinsic resistance of metals at fin...", "citations": 3, "author_count": 33, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6364, "doi": "10.1103/PhysRevB.110.L121103", "umap_coordinates": { "x": 394.1773376464844, "y": 135.9195556640625, "z": 208.99647521972656 }, "tsne_coordinates": { "x": -5.405831336975098, "y": -26.54195213317871, "z": 14.887277603149414 }, "pca_coordinates": { "x": 4.632286071777344, "y": -1.7183661460876465, "z": -0.9422203302383423 }, "axis_scores": { "Quantum imaging": 0.7164167165756226, "Quantum Life Science Sensing": 0.7483121156692505, "Quantum sensing Detection": 0.744023323059082, "Quantum sensing Metrology": 0.7407139539718628, "Quantum sensing navigation": 0.7468382120132446, "Quantum sensing Position": 0.7270255088806152, "Quantum sensing Timing": 0.7460383772850037, "Quantum sensing": 0.7480778694152832, "Quantum control": 0.7027285099029541 } }, { "id": 6358, "title": "Margolus-Levitin quantum speed limit for an arbitrary fidelity", "abstract": "The Mandelstam-Tamm and Margolus-Levitin quantum speed limits are two well-known evolution time estimates for isolated quantum systems. These bounds are usually formulated for fully distinguishable in...", "citations": 9, "author_count": 3, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6365, "doi": "10.1103/PhysRevResearch.5.043234", "umap_coordinates": { "x": 395.50830078125, "y": 137.0478973388672, "z": 207.59828186035156 }, "tsne_coordinates": { "x": -22.244916915893555, "y": -19.753738403320312, "z": -3.3128976821899414 }, "pca_coordinates": { "x": 4.410464286804199, "y": 2.746335506439209, "z": 0.17458796501159668 }, "axis_scores": { "Quantum imaging": 0.7219110131263733, "Quantum Life Science Sensing": 0.7359479069709778, "Quantum sensing Detection": 0.7313568592071533, "Quantum sensing Metrology": 0.7214309573173523, "Quantum sensing navigation": 0.7299386262893677, "Quantum sensing Position": 0.7199749946594238, "Quantum sensing Timing": 0.7006140351295471, "Quantum sensing": 0.7336838245391846, "Quantum control": 0.7231590151786804 } }, { "id": 6359, "title": "Ultrasensitive Photonic Crystal Fiber Sensor for Identifying Various Explosives", "abstract": "The present work has been performed with an intent of designing a robust, profound, and highly sensitive sensor for numerous explosive detections. The main objective of the present study is to design ...", "citations": 9, "author_count": 8, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6366, "doi": "10.1007/s11468-023-01944-4", "umap_coordinates": { "x": 394.1852111816406, "y": 134.50099182128906, "z": 205.57327270507812 }, "tsne_coordinates": { "x": -7.590414047241211, "y": 13.97928524017334, "z": 4.706536293029785 }, "pca_coordinates": { "x": -2.5548975467681885, "y": -0.7215425968170166, "z": 1.748781681060791 }, "axis_scores": { "Quantum imaging": 0.737606406211853, "Quantum Life Science Sensing": 0.7449815273284912, "Quantum sensing Detection": 0.7504705190658569, "Quantum sensing Metrology": 0.7255241274833679, "Quantum sensing navigation": 0.7306286096572876, "Quantum sensing Position": 0.7338289618492126, "Quantum sensing Timing": 0.7149593830108643, "Quantum sensing": 0.7475641965866089, "Quantum control": 0.7018667459487915 } }, { "id": 6360, "title": "Genetic Variation in Brain-Derived Neurotrophic Factor Is Associated with Serotonin Transporter but Not Serotonin-1A Receptor Availability in Men", "abstract": "Background: The serotonergic system, including the serotonin transporter (5-HTT), which is the target of many antidepressants, seems to be influenced by brain-derived neurotrophic factor (BDNF). Metho...", "citations": 49, "author_count": 14, "categories": [ "Neurosciences & Neurology" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6367, "doi": "10.1016/j.biopsych.2009.04.009", "umap_coordinates": { "x": 395.05828857421875, "y": 135.18341064453125, "z": 204.28221130371094 }, "tsne_coordinates": { "x": -9.39722728729248, "y": 30.056447982788086, "z": 10.394575119018555 }, "pca_coordinates": { "x": -1.2712446451187134, "y": 2.7877297401428223, "z": 0.032591164112091064 }, "axis_scores": { "Quantum imaging": 0.6595572233200073, "Quantum Life Science Sensing": 0.6475183963775635, "Quantum sensing Detection": 0.6549139618873596, "Quantum sensing Metrology": 0.6568613648414612, "Quantum sensing navigation": 0.6861231327056885, "Quantum sensing Position": 0.6826174259185791, "Quantum sensing Timing": 0.6512830257415771, "Quantum sensing": 0.6683809757232666, "Quantum control": 0.6605862975120544 } }, { "id": 6361, "title": "Electronic structures of [001]- and [111]-oriented InSb and GaSb free-standing nanowires", "abstract": "We report on a theoretical study of the electronic structures of InSb and GaSb nanowires oriented along the [001] and [111] crystallographic directions. The nanowires are described by atomistic, tight...", "citations": 14, "author_count": 6, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6368, "doi": "10.1063/1.4929412", "umap_coordinates": { "x": 392.7694091796875, "y": 134.00999450683594, "z": 208.35328674316406 }, "tsne_coordinates": { "x": 22.79155158996582, "y": -19.53347396850586, "z": 0.19575124979019165 }, "pca_coordinates": { "x": 2.2486412525177, "y": -3.7620511054992676, "z": -0.6029894351959229 }, "axis_scores": { "Quantum imaging": 0.7112753987312317, "Quantum Life Science Sensing": 0.7296568751335144, "Quantum sensing Detection": 0.7082071304321289, "Quantum sensing Metrology": 0.7108397483825684, "Quantum sensing navigation": 0.731296956539154, "Quantum sensing Position": 0.7002120018005371, "Quantum sensing Timing": 0.6696656346321106, "Quantum sensing": 0.7267953157424927, "Quantum control": 0.689031720161438 } }, { "id": 6362, "title": "Possible candidate for the realization of the floating phase in the S=5/2 frustrated spin-chain model: K3Fe(MoO4)2(Mo2O7)", "abstract": "The frustrated spin-chain (FSC) systems exhibit exotic ground states and distinct quantum phase transitions. The S = 1/2 FSC is known to exhibit the Kosterlitz-Thouless transition from a commensurate ...", "citations": 2, "author_count": 12, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6369, "doi": "10.1103/PhysRevB.109.155130", "umap_coordinates": { "x": 393.83154296875, "y": 137.2841033935547, "z": 208.57833862304688 }, "tsne_coordinates": { "x": -5.549228668212891, "y": -30.980335235595703, "z": 22.346893310546875 }, "pca_coordinates": { "x": 2.65604567527771, "y": 1.832543969154358, "z": -2.617713451385498 }, "axis_scores": { "Quantum imaging": 0.6456701755523682, "Quantum Life Science Sensing": 0.6746208667755127, "Quantum sensing Detection": 0.64974445104599, "Quantum sensing Metrology": 0.6485099196434021, "Quantum sensing navigation": 0.6701669692993164, "Quantum sensing Position": 0.6545864343643188, "Quantum sensing Timing": 0.6408831477165222, "Quantum sensing": 0.6558303833007812, "Quantum control": 0.6419627666473389 } }, { "id": 6363, "title": "Dark photon limits: A handbook", "abstract": "The dark photon is a massive hypothetical particle that interacts with the Standard Model by kinetically mixing with the visible photon. For small values of the mixing parameter, dark photons can evad...", "citations": 214, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6370, "doi": "10.1103/PhysRevD.104.095029", "umap_coordinates": { "x": 395.423828125, "y": 135.5598602294922, "z": 206.82366943359375 }, "tsne_coordinates": { "x": -13.976282119750977, "y": -13.92526912689209, "z": -14.974157333374023 }, "pca_coordinates": { "x": 0.9848403930664062, "y": 0.9326289892196655, "z": 1.2893702983856201 }, "axis_scores": { "Quantum imaging": 0.7493610382080078, "Quantum Life Science Sensing": 0.768782377243042, "Quantum sensing Detection": 0.7562063932418823, "Quantum sensing Metrology": 0.7293348908424377, "Quantum sensing navigation": 0.7309592962265015, "Quantum sensing Position": 0.7154566645622253, "Quantum sensing Timing": 0.7113715410232544, "Quantum sensing": 0.7503930926322937, "Quantum control": 0.7166833281517029 } }, { "id": 6364, "title": "OpenMolcas: From Source Code to Insight", "abstract": "In this Article we describe the OpenMolcas environment and invite the computational chemistry community to collaborate. The open-source project already includes a large number of new developments real...", "citations": 942, "author_count": 64, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6371, "doi": "10.1021/acs.jctc.9b00532", "umap_coordinates": { "x": 393.856689453125, "y": 136.7321319580078, "z": 205.26858520507812 }, "tsne_coordinates": { "x": -10.142871856689453, "y": 11.62704086303711, "z": 15.500442504882812 }, "pca_coordinates": { "x": -1.0206273794174194, "y": 1.1734933853149414, "z": -1.3360018730163574 }, "axis_scores": { "Quantum imaging": 0.7556451559066772, "Quantum Life Science Sensing": 0.755742073059082, "Quantum sensing Detection": 0.7443422079086304, "Quantum sensing Metrology": 0.7270671725273132, "Quantum sensing navigation": 0.7493517994880676, "Quantum sensing Position": 0.7031925916671753, "Quantum sensing Timing": 0.7242090106010437, "Quantum sensing": 0.7604357004165649, "Quantum control": 0.7411507964134216 } }, { "id": 6365, "title": "Scalar Relativistic All-Electron and Pseudopotential Ab Initio Study of a Minimal Nitrogenase [Fe(SH)4H]- Model Employing Coupled-Cluster and Auxiliary-Field Quantum Monte Carlo Many-Body Methods", "abstract": "Nitrogenase is the only enzyme that can cleave the triple bond in N-2, making nitrogen available to organisms. The detailed mechanism of this enzyme is currently not known, and computational studies a...", "citations": 4, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6372, "doi": "10.1021/acs.jpca.3c05808", "umap_coordinates": { "x": 393.0633239746094, "y": 136.7823486328125, "z": 205.71295166015625 }, "tsne_coordinates": { "x": -0.18476907908916473, "y": 18.48756980895996, "z": 34.17580795288086 }, "pca_coordinates": { "x": -1.1195495128631592, "y": 0.6456670761108398, "z": -2.2630765438079834 }, "axis_scores": { "Quantum imaging": 0.687445878982544, "Quantum Life Science Sensing": 0.6880397796630859, "Quantum sensing Detection": 0.6639217734336853, "Quantum sensing Metrology": 0.6639094352722168, "Quantum sensing navigation": 0.6775418519973755, "Quantum sensing Position": 0.6328922510147095, "Quantum sensing Timing": 0.6168962717056274, "Quantum sensing": 0.6914150714874268, "Quantum control": 0.6760417819023132 } }, { "id": 6366, "title": "Discovery of VHE emission towards the Carina arm region with the HESS telescope array: HESSJ1018-589", "abstract": "The Carina arm region, containing the supernova remnant SNRG284.3-1.8, the high-energy (HE; E > 100 MeV) binary 1FGL J1018.6-5856 and the energetic pulsar PSRJ1016-5857 and its nebula, has been observ...", "citations": 28, "author_count": 194, "categories": [ "Astronomy & Astrophysics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6373, "doi": "10.1051/0004-6361/201218843", "umap_coordinates": { "x": 396.28265380859375, "y": 134.8105010986328, "z": 206.59576416015625 }, "tsne_coordinates": { "x": -29.260940551757812, "y": 18.38458251953125, "z": -0.5353517532348633 }, "pca_coordinates": { "x": -0.5241929292678833, "y": 1.878954529762268, "z": 0.7746497988700867 }, "axis_scores": { "Quantum imaging": 0.6760827302932739, "Quantum Life Science Sensing": 0.6830956339836121, "Quantum sensing Detection": 0.6704380512237549, "Quantum sensing Metrology": 0.654855489730835, "Quantum sensing navigation": 0.6849992275238037, "Quantum sensing Position": 0.6457674503326416, "Quantum sensing Timing": 0.6413416862487793, "Quantum sensing": 0.6713264584541321, "Quantum control": 0.6642971634864807 } }, { "id": 6367, "title": "EANM practice guideline/SNMMI procedure standard for dopaminergic imaging in Parkinsonian syndromes 1.0", "abstract": "Purpose This joint practice guideline or procedure standard was developed collaboratively by the European Association of Nuclear Medicine (EANM) and the Society of Nuclear Medicine and Molecular Imagi...", "citations": 182, "author_count": 29, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6374, "doi": "10.1007/s00259-020-04817-8", "umap_coordinates": { "x": 394.8756103515625, "y": 134.22113037109375, "z": 204.6425018310547 }, "tsne_coordinates": { "x": -3.9782774448394775, "y": 24.290084838867188, "z": 2.150742769241333 }, "pca_coordinates": { "x": -3.730128288269043, "y": 1.9845868349075317, "z": 1.8874053955078125 }, "axis_scores": { "Quantum imaging": 0.6787201166152954, "Quantum Life Science Sensing": 0.6737480163574219, "Quantum sensing Detection": 0.6496813297271729, "Quantum sensing Metrology": 0.672433614730835, "Quantum sensing navigation": 0.6873013973236084, "Quantum sensing Position": 0.6846333146095276, "Quantum sensing Timing": 0.6632982492446899, "Quantum sensing": 0.6538035869598389, "Quantum control": 0.6409306526184082 } }, { "id": 6368, "title": "Advances in ultrafast plasmonics", "abstract": "In the past twenty years, we have reached a broad understanding of many light-driven phenomena in nanoscale systems. The temporal dynamics of the excited states are instead quite challenging to explor...", "citations": 47, "author_count": 26, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6375, "doi": "10.1063/5.0134993", "umap_coordinates": { "x": 393.8428955078125, "y": 134.80230712890625, "z": 206.7513885498047 }, "tsne_coordinates": { "x": 9.906540870666504, "y": -12.45880126953125, "z": -18.87226104736328 }, "pca_coordinates": { "x": 0.7201564311981201, "y": -2.6573715209960938, "z": 0.5676552653312683 }, "axis_scores": { "Quantum imaging": 0.7358719110488892, "Quantum Life Science Sensing": 0.7502176761627197, "Quantum sensing Detection": 0.7232179641723633, "Quantum sensing Metrology": 0.7306278347969055, "Quantum sensing navigation": 0.7119566202163696, "Quantum sensing Position": 0.7081025838851929, "Quantum sensing Timing": 0.6928818225860596, "Quantum sensing": 0.7408615946769714, "Quantum control": 0.6925436854362488 } }, { "id": 6369, "title": "Electrical noise spectroscopy of magnons in a quantum Hall ferromagnet", "abstract": "Collective spin-wave excitations, magnons, are promising quasi-particles for next-generation spintronics devices, including platforms for information transfer. In a quantum Hall ferromagnets, detectio...", "citations": 3, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6376, "doi": "10.1038/s41467-024-49446-z", "umap_coordinates": { "x": 393.79486083984375, "y": 135.75352478027344, "z": 206.9866485595703 }, "tsne_coordinates": { "x": 9.771504402160645, "y": -9.379015922546387, "z": 21.405803680419922 }, "pca_coordinates": { "x": 1.2616922855377197, "y": 0.2060229778289795, "z": -0.5234023332595825 }, "axis_scores": { "Quantum imaging": 0.7351332902908325, "Quantum Life Science Sensing": 0.762317955493927, "Quantum sensing Detection": 0.748153567314148, "Quantum sensing Metrology": 0.7466412782669067, "Quantum sensing navigation": 0.753561794757843, "Quantum sensing Position": 0.7278473377227783, "Quantum sensing Timing": 0.7118796110153198, "Quantum sensing": 0.7567212581634521, "Quantum control": 0.7199759483337402 } }, { "id": 6370, "title": "Ion Binding and Selectivity of the Na+/H+ Antiporter MjNhaP1 from Experiment and Simulation", "abstract": "Cells employ membrane-embedded antiporter proteins to control their pH, salt concentration, and volume. The large family of cation/proton antiporters is dominated by Na+/H+ antiporters that exchange s...", "citations": 11, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6377, "doi": "10.1021/acs.jpcb.9b08552", "umap_coordinates": { "x": 392.95367431640625, "y": 137.3168487548828, "z": 205.7048797607422 }, "tsne_coordinates": { "x": 4.921677112579346, "y": 6.435751914978027, "z": 28.8310604095459 }, "pca_coordinates": { "x": -0.35482388734817505, "y": 0.37685608863830566, "z": -2.134279251098633 }, "axis_scores": { "Quantum imaging": 0.6946610808372498, "Quantum Life Science Sensing": 0.7098383903503418, "Quantum sensing Detection": 0.6889110803604126, "Quantum sensing Metrology": 0.6846418380737305, "Quantum sensing navigation": 0.7119770050048828, "Quantum sensing Position": 0.6759458184242249, "Quantum sensing Timing": 0.6495093703269958, "Quantum sensing": 0.7074597477912903, "Quantum control": 0.6815012693405151 } }, { "id": 6371, "title": "Proton and Hydride Affinities in Excited States: Magnitude Reversals in Proton and Hydride Affinities between the Lowest Singlet and Triplet States of Annulenyl and Benzannulenyl Anions and Cations", "abstract": "Aromaticity has importance for proton and hydride affinities in the singlet ground state (S-0) of annulenyl anions and cations so that, e.g., cyclopentadiene is an acidic hydrocarbon. For the lowest p...", "citations": 7, "author_count": 4, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6378, "doi": "10.1021/jo9025868", "umap_coordinates": { "x": 392.26690673828125, "y": 136.85345458984375, "z": 205.85018920898438 }, "tsne_coordinates": { "x": 9.582813262939453, "y": 7.396355628967285, "z": 21.185361862182617 }, "pca_coordinates": { "x": -0.5063309669494629, "y": -0.3483257293701172, "z": -3.137298583984375 }, "axis_scores": { "Quantum imaging": 0.6901919841766357, "Quantum Life Science Sensing": 0.703251838684082, "Quantum sensing Detection": 0.6763883233070374, "Quantum sensing Metrology": 0.6778585314750671, "Quantum sensing navigation": 0.6847525835037231, "Quantum sensing Position": 0.6955943703651428, "Quantum sensing Timing": 0.6713953614234924, "Quantum sensing": 0.6893852949142456, "Quantum control": 0.6500949263572693 } }, { "id": 6372, "title": "Photoelectron spectroscopy of thin films of PEDOT-PSS conjugated polymer blend: a mini-review and some new results", "abstract": "We present an overview of the photoelectron spectroscopy studies of thin films of the commercially important, electrically conducting polymer blend poly(3,4-ethylenedioxythiophene) oxidized with poly(...", "citations": 460, "author_count": 7, "categories": [ "Spectroscopy" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6379, "doi": "10.1016/S0368-2048(01)00323-1", "umap_coordinates": { "x": 393.2232971191406, "y": 135.02784729003906, "z": 205.44744873046875 }, "tsne_coordinates": { "x": 20.108585357666016, "y": 13.382929801940918, "z": 2.7647817134857178 }, "pca_coordinates": { "x": -2.8424642086029053, "y": -1.6536951065063477, "z": 0.6666222214698792 }, "axis_scores": { "Quantum imaging": 0.6629924178123474, "Quantum Life Science Sensing": 0.7035945653915405, "Quantum sensing Detection": 0.660282552242279, "Quantum sensing Metrology": 0.6619948744773865, "Quantum sensing navigation": 0.6469457149505615, "Quantum sensing Position": 0.6659659147262573, "Quantum sensing Timing": 0.636810839176178, "Quantum sensing": 0.6671597361564636, "Quantum control": 0.6096023321151733 } }, { "id": 6373, "title": "Calcium-dependent cyto- and genotoxicity of nickel metal and nickel oxide nanoparticles in human lung cells", "abstract": "Background: Genotoxicity is an important toxicological endpoint due to the link to diseases such as cancer. Therefore, an increased understanding regarding genotoxicity and underlying mechanisms is ne...", "citations": 89, "author_count": 8, "categories": [ "Toxicology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6380, "doi": "10.1186/s12989-018-0268-y", "umap_coordinates": { "x": 393.7501525878906, "y": 134.32814025878906, "z": 204.48060607910156 }, "tsne_coordinates": { "x": 14.634708404541016, "y": 25.79237174987793, "z": -0.22002920508384705 }, "pca_coordinates": { "x": -4.039372444152832, "y": 0.5623995065689087, "z": -1.7804696559906006 }, "axis_scores": { "Quantum imaging": 0.6795644164085388, "Quantum Life Science Sensing": 0.7002668976783752, "Quantum sensing Detection": 0.6644049286842346, "Quantum sensing Metrology": 0.6368525624275208, "Quantum sensing navigation": 0.646355390548706, "Quantum sensing Position": 0.6395705938339233, "Quantum sensing Timing": 0.6297663450241089, "Quantum sensing": 0.6719843149185181, "Quantum control": 0.6629965305328369 } }, { "id": 6374, "title": "Quantitative imaging of 223Ra-chloride (Alpharadin) for targeted alpha-emitting radionuclide therapy of bone metastases", "abstract": "Objective Ra-223 is an alpha particle emitter that targets areas of increased bone turnover in bone metastases. Alpha particles account for 95% of the 27.8 MeV emitted per decay. Less than 2% of the e...", "citations": 90, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6381, "doi": "10.1097/MNM.0b013e328353bb6e", "umap_coordinates": { "x": 395.48583984375, "y": 133.30030822753906, "z": 204.68881225585938 }, "tsne_coordinates": { "x": 2.5108680725097656, "y": 31.962745666503906, "z": -11.538675308227539 }, "pca_coordinates": { "x": -3.978703260421753, "y": 2.771677017211914, "z": 1.333366870880127 }, "axis_scores": { "Quantum imaging": 0.7004680037498474, "Quantum Life Science Sensing": 0.6848358511924744, "Quantum sensing Detection": 0.679193377494812, "Quantum sensing Metrology": 0.6793110966682434, "Quantum sensing navigation": 0.7013543844223022, "Quantum sensing Position": 0.6648141145706177, "Quantum sensing Timing": 0.6379858255386353, "Quantum sensing": 0.6790674924850464, "Quantum control": 0.6425711512565613 } }, { "id": 6375, "title": "Electro-nuclear quantum mechanics beyond the Born-Oppenheimer approximation. Towards a quantum electronic theory of chemical reaction mechanisms", "abstract": "An electro-nuclear quantum theory is introduced where electronic states are represented with wave functions that are independent from the instantaneous nuclear configurations. The set of continuous an...", "citations": 13, "author_count": 2, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6382, "doi": null, "umap_coordinates": { "x": 391.94525146484375, "y": 139.6328887939453, "z": 209.46424865722656 }, "tsne_coordinates": { "x": -6.004240989685059, "y": 42.876827239990234, "z": -1.0946273803710938 }, "pca_coordinates": { "x": -0.988685131072998, "y": 4.005329132080078, "z": -3.1137430667877197 }, "axis_scores": { "Quantum imaging": 0.7717435359954834, "Quantum Life Science Sensing": 0.7868229746818542, "Quantum sensing Detection": 0.7730919718742371, "Quantum sensing Metrology": 0.7490761876106262, "Quantum sensing navigation": 0.770167350769043, "Quantum sensing Position": 0.7250126600265503, "Quantum sensing Timing": 0.7158856391906738, "Quantum sensing": 0.7907018065452576, "Quantum control": 0.7991516590118408 } }, { "id": 6376, "title": "Observation of night-time emissions of the Earth in the near UV range from the International Space Station with the Mini-EUSO detector", "abstract": "Mini-EUSO (Multiwavelength Imaging New Instrument for the Extreme Universe Space Observatory) is a telescope observing the Earth from the International Space Station since 2019. The instrument employs...", "citations": 20, "author_count": 51, "categories": [ "Environmental Sciences & Ecology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6383, "doi": "10.1016/j.rse.2022.113336", "umap_coordinates": { "x": 394.16888427734375, "y": 133.85873413085938, "z": 205.48858642578125 }, "tsne_coordinates": { "x": -21.47257423400879, "y": 28.020132064819336, "z": -1.1151511669158936 }, "pca_coordinates": { "x": -3.0172693729400635, "y": 1.3264594078063965, "z": 1.700366497039795 }, "axis_scores": { "Quantum imaging": 0.7183358073234558, "Quantum Life Science Sensing": 0.7685699462890625, "Quantum sensing Detection": 0.7235531210899353, "Quantum sensing Metrology": 0.7356329560279846, "Quantum sensing navigation": 0.7212255001068115, "Quantum sensing Position": 0.7011148929595947, "Quantum sensing Timing": 0.693358302116394, "Quantum sensing": 0.7282116413116455, "Quantum control": 0.6759774684906006 } }, { "id": 6377, "title": "Shell-dependent photofragmentation dynamics of a heavy-atom-containing bifunctional nitroimidazole radiosensitizer", "abstract": "Radiation therapy uses ionizing radiation to break chemical bonds in cancer cells, thereby causing DNA damage and leading to cell death. The therapeutic effectiveness can be further increased by makin...", "citations": 2, "author_count": 15, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6384, "doi": "10.1039/d4cp00367e", "umap_coordinates": { "x": 392.25274658203125, "y": 136.37904357910156, "z": 206.0384063720703 }, "tsne_coordinates": { "x": 7.359656810760498, "y": 2.7815871238708496, "z": 8.937339782714844 }, "pca_coordinates": { "x": -1.2309036254882812, "y": 0.6145570278167725, "z": -3.279447317123413 }, "axis_scores": { "Quantum imaging": 0.7291722893714905, "Quantum Life Science Sensing": 0.7152274250984192, "Quantum sensing Detection": 0.6812039613723755, "Quantum sensing Metrology": 0.6463378071784973, "Quantum sensing navigation": 0.6770095229148865, "Quantum sensing Position": 0.6485078930854797, "Quantum sensing Timing": 0.639676570892334, "Quantum sensing": 0.6913021802902222, "Quantum control": 0.6947202682495117 } }, { "id": 6378, "title": "Enhanced production of multi-strange hadrons in high-multiplicity proton-proton collisions", "abstract": "At sufficiently high temperature and energy density, nuclear matter undergoes a transition to a phase in which quarks and gluons are not confined: the quark-gluon plasma (QGP)(1). Such an exotic state...", "citations": 550, "author_count": 1003, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6385, "doi": "10.1038/NPHYS4111", "umap_coordinates": { "x": 396.596923828125, "y": 134.62774658203125, "z": 207.3918914794922 }, "tsne_coordinates": { "x": -39.297935485839844, "y": 6.802464008331299, "z": -6.790444850921631 }, "pca_coordinates": { "x": -1.1146442890167236, "y": -0.2856411933898926, "z": 0.8834511637687683 }, "axis_scores": { "Quantum imaging": 0.6482151746749878, "Quantum Life Science Sensing": 0.6420683860778809, "Quantum sensing Detection": 0.6491119861602783, "Quantum sensing Metrology": 0.6157266497612, "Quantum sensing navigation": 0.6286560893058777, "Quantum sensing Position": 0.6251650452613831, "Quantum sensing Timing": 0.629128634929657, "Quantum sensing": 0.6459341049194336, "Quantum control": 0.618143618106842 } }, { "id": 6379, "title": "Bronchopulmonary Dysplasia: Clinical Grading in Relation to Ventilation/Perfusion Mismatch Measured by Single Photon Emission Computed Tomography", "abstract": "Bronchopulmonary dysplasia (BPD) is a significant cause of morbidity in the preterm population. Clinical severity grading based on the need for supplemental oxygen and/or need for positive airway pres...", "citations": 22, "author_count": 6, "categories": [ "Pediatrics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6386, "doi": "10.1002/ppul.22751", "umap_coordinates": { "x": 395.3714599609375, "y": 133.9853515625, "z": 204.68955993652344 }, "tsne_coordinates": { "x": 4.353476524353027, "y": 30.878522872924805, "z": -2.6051528453826904 }, "pca_coordinates": { "x": -2.7832911014556885, "y": 2.095404624938965, "z": 1.9088311195373535 }, "axis_scores": { "Quantum imaging": 0.6892284154891968, "Quantum Life Science Sensing": 0.700279712677002, "Quantum sensing Detection": 0.6822839975357056, "Quantum sensing Metrology": 0.6909266710281372, "Quantum sensing navigation": 0.6690647006034851, "Quantum sensing Position": 0.6941341161727905, "Quantum sensing Timing": 0.6672551035881042, "Quantum sensing": 0.6940853595733643, "Quantum control": 0.6755801439285278 } }, { "id": 6380, "title": "BONE-MINERAL DENSITY IN PROFESSIONAL BALLET DANCERS", "abstract": "We studied the effect of physical training on the bone mineral content and soft tissue composition in 42 professional ballet dancers (17 men and 25 women). Twenty-eight of them were still actively per...", "citations": 49, "author_count": 4, "categories": [ "Endocrinology & Metabolism" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6387, "doi": "10.1016/S0169-6009(08)80227-9", "umap_coordinates": { "x": 394.8083190917969, "y": 134.42755126953125, "z": 204.6510467529297 }, "tsne_coordinates": { "x": -2.4947097301483154, "y": 35.758140563964844, "z": 6.739184379577637 }, "pca_coordinates": { "x": -2.1040778160095215, "y": 1.645524501800537, "z": -0.3535023033618927 }, "axis_scores": { "Quantum imaging": 0.6528717279434204, "Quantum Life Science Sensing": 0.6685658693313599, "Quantum sensing Detection": 0.6425207257270813, "Quantum sensing Metrology": 0.6616293787956238, "Quantum sensing navigation": 0.6711469292640686, "Quantum sensing Position": 0.6802837252616882, "Quantum sensing Timing": 0.6221705675125122, "Quantum sensing": 0.6566706299781799, "Quantum control": 0.6186516880989075 } }, { "id": 6381, "title": "Microstructured photonic crystal for singlemode long wavelength VCSELs", "abstract": "In this article, we report on long wavelength (1.27 mu m) single-mode micro-structured photonic crystal strained InGaAs quantum wells VCSELs for optical interconnection applications. Single fundamenta...", "citations": 1, "author_count": 13, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6388, "doi": "10.1117/12.783317", "umap_coordinates": { "x": 394.4069519042969, "y": 133.47398376464844, "z": 207.09043884277344 }, "tsne_coordinates": { "x": -3.458164930343628, "y": 5.656203269958496, "z": -28.981088638305664 }, "pca_coordinates": { "x": -1.3028894662857056, "y": -1.669835090637207, "z": 2.224862813949585 }, "axis_scores": { "Quantum imaging": 0.7010647654533386, "Quantum Life Science Sensing": 0.699674129486084, "Quantum sensing Detection": 0.6947219967842102, "Quantum sensing Metrology": 0.7190113067626953, "Quantum sensing navigation": 0.7059634923934937, "Quantum sensing Position": 0.6747804880142212, "Quantum sensing Timing": 0.668933629989624, "Quantum sensing": 0.7110003232955933, "Quantum control": 0.6909641623497009 } }, { "id": 6382, "title": "THE PSII-S PROTEIN OF HIGHER-PLANTS - A NEW-TYPE OF PIGMENT-BINDING PROTEIN", "abstract": "An intrinsic 22 kDa protein of photosystem II has been shown to possess high sequence homology with the CAB gene products, but differs from these proteins by an additional putative fourth transmembran...", "citations": 128, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6389, "doi": "10.1021/bi00035a019", "umap_coordinates": { "x": 393.592529296875, "y": 136.43186950683594, "z": 203.96548461914062 }, "tsne_coordinates": { "x": 21.471210479736328, "y": 19.478822708129883, "z": 18.462684631347656 }, "pca_coordinates": { "x": -2.603083372116089, "y": -0.8924450874328613, "z": -1.2905809879302979 }, "axis_scores": { "Quantum imaging": 0.6884693503379822, "Quantum Life Science Sensing": 0.7399095296859741, "Quantum sensing Detection": 0.6952608823776245, "Quantum sensing Metrology": 0.6769447922706604, "Quantum sensing navigation": 0.6716264486312866, "Quantum sensing Position": 0.677879810333252, "Quantum sensing Timing": 0.6530729532241821, "Quantum sensing": 0.7079685926437378, "Quantum control": 0.6514312624931335 } }, { "id": 6383, "title": "Influence of CdS and ZnSnO Buffer Layers on the Photoluminescence of Cu(In,Ga)Se2 Thin Films", "abstract": "The search for alternatives to the CdS buffer layer in Cu(In,Ga)Se-2 (CIGS) solar cells has turned out to be quite promising in terms of power conversion efficiency. In this paper, the typically used ...", "citations": 23, "author_count": 7, "categories": [ "Energy & Fuels" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6390, "doi": "10.1109/JPHOTOV.2016.2639347", "umap_coordinates": { "x": 392.9804992675781, "y": 133.56539916992188, "z": 206.53250122070312 }, "tsne_coordinates": { "x": 38.85194778442383, "y": 14.099074363708496, "z": 1.7072670459747314 }, "pca_coordinates": { "x": -1.3553048372268677, "y": -2.263347625732422, "z": 1.1387948989868164 }, "axis_scores": { "Quantum imaging": 0.7464975118637085, "Quantum Life Science Sensing": 0.7313342094421387, "Quantum sensing Detection": 0.747406005859375, "Quantum sensing Metrology": 0.7197279334068298, "Quantum sensing navigation": 0.7405479550361633, "Quantum sensing Position": 0.7242095470428467, "Quantum sensing Timing": 0.7108563184738159, "Quantum sensing": 0.7545105218887329, "Quantum control": 0.7390913963317871 } }, { "id": 6384, "title": "Second order average Hamiltonian theory of symmetry-based pulse schemes in the nuclear magnetic resonance of rotating solids: Application to triple-quantum dipolar recoupling", "abstract": "The average Hamiltonian theory (AHT) of several classes of symmetry-based radio-frequency pulse sequences is developed to second order, allowing quantitative analyses of a wide range of recoupling and...", "citations": 63, "author_count": 3, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6391, "doi": "10.1063/1.1738102", "umap_coordinates": { "x": 393.06622314453125, "y": 136.9374542236328, "z": 207.6506805419922 }, "tsne_coordinates": { "x": 10.748712539672852, "y": -0.8531083464622498, "z": 33.736717224121094 }, "pca_coordinates": { "x": 2.3747568130493164, "y": 0.6723833084106445, "z": -1.1337306499481201 }, "axis_scores": { "Quantum imaging": 0.7081193923950195, "Quantum Life Science Sensing": 0.6975915431976318, "Quantum sensing Detection": 0.6802870035171509, "Quantum sensing Metrology": 0.6871721148490906, "Quantum sensing navigation": 0.6906161904335022, "Quantum sensing Position": 0.6728073358535767, "Quantum sensing Timing": 0.7145227789878845, "Quantum sensing": 0.7009300589561462, "Quantum control": 0.6864746809005737 } }, { "id": 6385, "title": "Effects of π centers and symmetry on two-photon absorption cross sections of organic chromophores", "abstract": "We have theoretically examined a series of organic molecules that exhibit large two-photon absorption cross sections in the visible region and that have been synthesized in different laboratories. One...", "citations": 242, "author_count": 5, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6392, "doi": "10.1063/1.1371258", "umap_coordinates": { "x": 393.3539733886719, "y": 135.27032470703125, "z": 206.7825469970703 }, "tsne_coordinates": { "x": 1.308027744293213, "y": -4.208012104034424, "z": 2.6894922256469727 }, "pca_coordinates": { "x": 0.20845377445220947, "y": -1.3107285499572754, "z": 0.8504707217216492 }, "axis_scores": { "Quantum imaging": 0.7586959600448608, "Quantum Life Science Sensing": 0.7351138591766357, "Quantum sensing Detection": 0.7481111288070679, "Quantum sensing Metrology": 0.742769181728363, "Quantum sensing navigation": 0.7253484129905701, "Quantum sensing Position": 0.7015203237533569, "Quantum sensing Timing": 0.703456461429596, "Quantum sensing": 0.761641263961792, "Quantum control": 0.7206063270568848 } }, { "id": 6386, "title": "A high-repetition rate attosecond light source for time-resolved coincidence spectroscopy", "abstract": "Attosecond pulses, produced through highorder harmonic generation in gases, have been successfully used for observing ultrafast, subfemtosecond electron dynamics in atoms, molecules and solid state sy...", "citations": 42, "author_count": 16, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6393, "doi": "10.1515/nanoph-2020-0424", "umap_coordinates": { "x": 395.1776123046875, "y": 134.0397186279297, "z": 206.39671325683594 }, "tsne_coordinates": { "x": -25.276897430419922, "y": -4.0287184715271, "z": -26.024892807006836 }, "pca_coordinates": { "x": -1.2626925706863403, "y": 1.1398372650146484, "z": 3.0363924503326416 }, "axis_scores": { "Quantum imaging": 0.6944150924682617, "Quantum Life Science Sensing": 0.7183442115783691, "Quantum sensing Detection": 0.6976225972175598, "Quantum sensing Metrology": 0.6956163644790649, "Quantum sensing navigation": 0.6862768530845642, "Quantum sensing Position": 0.6738273501396179, "Quantum sensing Timing": 0.7414575815200806, "Quantum sensing": 0.7021070718765259, "Quantum control": 0.6663411259651184 } }, { "id": 6387, "title": "Determination of rate constants for the uptake process involving SO2 and an aerosol particle.: A quantum mechanics/molecular mechanics and quantum statistical investigation", "abstract": "We present a combined quantum mechanics/molecular mechanics and quantum statistical investigation of the interactions between a Molecule (SO2) and an aerosol particle including rate constants for the ...", "citations": 8, "author_count": 8, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6394, "doi": "10.1016/j.chemphys.2008.02.008", "umap_coordinates": { "x": 393.5488586425781, "y": 137.18179321289062, "z": 205.79823303222656 }, "tsne_coordinates": { "x": -4.1910810470581055, "y": 7.225800037384033, "z": 21.527315139770508 }, "pca_coordinates": { "x": -0.8357970118522644, "y": 0.4046509265899658, "z": -1.0429221391677856 }, "axis_scores": { "Quantum imaging": 0.7271367907524109, "Quantum Life Science Sensing": 0.7702775597572327, "Quantum sensing Detection": 0.742595911026001, "Quantum sensing Metrology": 0.7321032881736755, "Quantum sensing navigation": 0.7244722843170166, "Quantum sensing Position": 0.707985520362854, "Quantum sensing Timing": 0.6821027398109436, "Quantum sensing": 0.7520853281021118, "Quantum control": 0.71258544921875 } }, { "id": 6388, "title": "Manipulating ultrafast magnetization dynamics of ferromagnets using the odd-even layer dependence of two-dimensional transition metal di-chalcogenides", "abstract": "Two-dimensional transition metal dichalcogenides (TMDs) have drawn immense interest due to their strong spin-orbit coupling and unique layer number dependence in response to spin-valley coupling. This...", "citations": 3, "author_count": 8, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6395, "doi": "10.1039/d3nr06197c", "umap_coordinates": { "x": 392.4209899902344, "y": 136.21934509277344, "z": 207.49647521972656 }, "tsne_coordinates": { "x": 7.978800296783447, "y": -24.891725540161133, "z": 27.39988136291504 }, "pca_coordinates": { "x": 0.857658863067627, "y": -1.252384901046753, "z": -2.7769241333007812 }, "axis_scores": { "Quantum imaging": 0.7237847447395325, "Quantum Life Science Sensing": 0.7185330986976624, "Quantum sensing Detection": 0.694762647151947, "Quantum sensing Metrology": 0.6870402693748474, "Quantum sensing navigation": 0.6949653029441833, "Quantum sensing Position": 0.654690146446228, "Quantum sensing Timing": 0.6873029470443726, "Quantum sensing": 0.7051233649253845, "Quantum control": 0.7085590362548828 } }, { "id": 6389, "title": "Electrochemical surface oxide characteristics of metal nanoparticles (Mn, Cu and Al) and the relation to toxicity", "abstract": "Most metal nanoparticles (NPs), except noble metal NPs, rapidly form a thin surface oxide in ambient conditions. The protective properties of these oxides improve or worsen depending on the environmen...", "citations": 32, "author_count": 9, "categories": [ "Electrochemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6396, "doi": "10.1016/j.electacta.2016.07.017", "umap_coordinates": { "x": 393.4331359863281, "y": 134.05517578125, "z": 204.71998596191406 }, "tsne_coordinates": { "x": 29.253000259399414, "y": 7.584537982940674, "z": 4.377819538116455 }, "pca_coordinates": { "x": -3.4411301612854004, "y": -0.7535898685455322, "z": -1.7620799541473389 }, "axis_scores": { "Quantum imaging": 0.667902946472168, "Quantum Life Science Sensing": 0.7249640822410583, "Quantum sensing Detection": 0.6956884860992432, "Quantum sensing Metrology": 0.6909301280975342, "Quantum sensing navigation": 0.6799107193946838, "Quantum sensing Position": 0.6859225034713745, "Quantum sensing Timing": 0.6424991488456726, "Quantum sensing": 0.692277193069458, "Quantum control": 0.6633203625679016 } }, { "id": 6390, "title": "VUV photoionisation of free azabenzenes:: Pyridine, pyrazine, pyrimidine, pyridazine and s-triazine", "abstract": "Photoionisation Mass spectrometry was used to obtain the fragmentation pathways of pyridine, pyridazine, pyrimidine, pyrazine and s-triazine molecules upon absorption of 23.0, 15.7 and 13.8eV synchrot...", "citations": 39, "author_count": 9, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6397, "doi": "10.1016/j.ijms.2008.05.019", "umap_coordinates": { "x": 393.8499755859375, "y": 134.94778442382812, "z": 204.94137573242188 }, "tsne_coordinates": { "x": 0.8417686820030212, "y": 11.596424102783203, "z": 4.9625725746154785 }, "pca_coordinates": { "x": -2.7040576934814453, "y": 1.1304502487182617, "z": 0.25243228673934937 }, "axis_scores": { "Quantum imaging": 0.7274687886238098, "Quantum Life Science Sensing": 0.7396641969680786, "Quantum sensing Detection": 0.7216278314590454, "Quantum sensing Metrology": 0.7206181883811951, "Quantum sensing navigation": 0.7113626599311829, "Quantum sensing Position": 0.6937150955200195, "Quantum sensing Timing": 0.6795107126235962, "Quantum sensing": 0.7339958548545837, "Quantum control": 0.7116319537162781 } }, { "id": 6391, "title": "THEORETICAL SIMULATION OF OH AND OD STRETCHING BANDS OF ISOTOPICALLY DILUTED HDO MOLECULES IN AQUEOUS-SOLUTION", "abstract": "Uncoupled OH and OD stretching bands of HDO molecules have been calculated for an ionic aqueous solution, based on the trajectories from a classical statistical-mechanical computer simulation and subs...", "citations": 21, "author_count": 5, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6398, "doi": "10.1016/0301-0104(93)85143-V", "umap_coordinates": { "x": 393.81561279296875, "y": 137.04827880859375, "z": 205.59024047851562 }, "tsne_coordinates": { "x": -5.320267200469971, "y": 17.001462936401367, "z": 25.382341384887695 }, "pca_coordinates": { "x": 0.4657900333404541, "y": 1.8199632167816162, "z": -2.557812213897705 }, "axis_scores": { "Quantum imaging": 0.6840316653251648, "Quantum Life Science Sensing": 0.721211850643158, "Quantum sensing Detection": 0.6597946882247925, "Quantum sensing Metrology": 0.658731997013092, "Quantum sensing navigation": 0.672538697719574, "Quantum sensing Position": 0.6595714688301086, "Quantum sensing Timing": 0.6486828923225403, "Quantum sensing": 0.6762959361076355, "Quantum control": 0.6657636761665344 } }, { "id": 6392, "title": "Measurement of transverse energy-energy correlations in multi-jet events in pp collisions at √s=7 TeV using the ATLAS detector and determination of the strong coupling constant αs(mZ)", "abstract": "High transverse momentum jets produced in pp collisions at a centre of mass energy of 7 TeV are used to measure the transverse energy-energy correlation function and its associated azimuthal asymmetry...", "citations": 49, "author_count": 2657, "categories": [ "Astronomy & Astrophysics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6399, "doi": "10.1016/j.physletb.2015.09.050", "umap_coordinates": { "x": 397.06036376953125, "y": 134.29437255859375, "z": 207.4781494140625 }, "tsne_coordinates": { "x": -34.59548568725586, "y": 6.019577503204346, "z": -9.194838523864746 }, "pca_coordinates": { "x": -0.22632044553756714, "y": 1.2523126602172852, "z": 2.65250301361084 }, "axis_scores": { "Quantum imaging": 0.667873740196228, "Quantum Life Science Sensing": 0.6824672222137451, "Quantum sensing Detection": 0.6788769960403442, "Quantum sensing Metrology": 0.6629895567893982, "Quantum sensing navigation": 0.6685523390769958, "Quantum sensing Position": 0.6960601806640625, "Quantum sensing Timing": 0.7137612104415894, "Quantum sensing": 0.6781510710716248, "Quantum control": 0.6356827616691589 } }, { "id": 6393, "title": "Quantum-like generalization of the Bayesian updating scheme for objective and subjective mental uncertainties", "abstract": "In this paper we develop a general quantum-like model of decision making. Here updating of probability is based on linear algebra, the von Neumann-Luders projection postulate, Born's rule, and the qua...", "citations": 37, "author_count": 6, "categories": [ "Mathematics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6400, "doi": "10.1016/j.jmp.2012.02.003", "umap_coordinates": { "x": 395.0741882324219, "y": 137.27926635742188, "z": 205.75511169433594 }, "tsne_coordinates": { "x": -22.12192726135254, "y": 10.073493957519531, "z": 16.861059188842773 }, "pca_coordinates": { "x": 0.25498056411743164, "y": 3.5120201110839844, "z": -0.3835734724998474 }, "axis_scores": { "Quantum imaging": 0.7539795637130737, "Quantum Life Science Sensing": 0.7557061314582825, "Quantum sensing Detection": 0.7459753155708313, "Quantum sensing Metrology": 0.7526318430900574, "Quantum sensing navigation": 0.7745625376701355, "Quantum sensing Position": 0.7476201057434082, "Quantum sensing Timing": 0.7262757420539856, "Quantum sensing": 0.7624804377555847, "Quantum control": 0.7382619380950928 } }, { "id": 6394, "title": "Guanidine: A Highly Efficient Stabilizer in Atmospheric New-Particle Formation", "abstract": "The role of a strong organobase, guanidine, in sulfuric acid-driven new-particle formation is studied using state-of-the-art quantum chemical methods and molecular cluster formation simulations. Clust...", "citations": 36, "author_count": 7, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6401, "doi": "10.1021/acs.jpca.8b02507", "umap_coordinates": { "x": 391.84930419921875, "y": 135.03219604492188, "z": 205.0911407470703 }, "tsne_coordinates": { "x": 5.09285831451416, "y": 4.609123229980469, "z": 4.478795528411865 }, "pca_coordinates": { "x": -2.054945468902588, "y": -1.3358526229858398, "z": -2.7457213401794434 }, "axis_scores": { "Quantum imaging": 0.6730496883392334, "Quantum Life Science Sensing": 0.7151642441749573, "Quantum sensing Detection": 0.6743312478065491, "Quantum sensing Metrology": 0.6631038188934326, "Quantum sensing navigation": 0.6885217428207397, "Quantum sensing Position": 0.6630011796951294, "Quantum sensing Timing": 0.6484214067459106, "Quantum sensing": 0.694992184638977, "Quantum control": 0.7143268585205078 } }, { "id": 6395, "title": "Scattering and polarization properties of the scarab beetle Cyphochilus insulanus cuticle", "abstract": "Optical properties of natural photonic structures can inspire material developments in diversified areas, such as the spectral design of surfaces for camouflage. Here, reflectance, scattering, and pol...", "citations": 12, "author_count": 8, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6402, "doi": "10.1364/AO.54.006037", "umap_coordinates": { "x": 394.1622314453125, "y": 134.84617614746094, "z": 205.97584533691406 }, "tsne_coordinates": { "x": 10.41746711730957, "y": 4.945832252502441, "z": -39.60298156738281 }, "pca_coordinates": { "x": -1.9725747108459473, "y": 0.7321302890777588, "z": 0.06698715686798096 }, "axis_scores": { "Quantum imaging": 0.7070873975753784, "Quantum Life Science Sensing": 0.7148356437683105, "Quantum sensing Detection": 0.6887592077255249, "Quantum sensing Metrology": 0.6760939359664917, "Quantum sensing navigation": 0.6812070608139038, "Quantum sensing Position": 0.6580692529678345, "Quantum sensing Timing": 0.6536447405815125, "Quantum sensing": 0.7122378945350647, "Quantum control": 0.6846160292625427 } }, { "id": 6396, "title": "Computer-assisted calculation of myocardial infarct size shortens the evaluation time of contrast-enhanced cardiac MRI", "abstract": "Background: Delayed enhancement magnetic resonance imaging depicts scar in the left ventricle which can be quantitatively measured. Manual segmentation and scar determination is time consuming. The pu...", "citations": 13, "author_count": 8, "categories": [ "Physiology" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6403, "doi": "10.1111/j.1475-097X.2007.00765.x", "umap_coordinates": { "x": 395.6015930175781, "y": 133.71897888183594, "z": 204.5156707763672 }, "tsne_coordinates": { "x": -11.62731647491455, "y": 28.534141540527344, "z": -7.527183532714844 }, "pca_coordinates": { "x": -2.9484448432922363, "y": 4.891101360321045, "z": 2.314596176147461 }, "axis_scores": { "Quantum imaging": 0.6842143535614014, "Quantum Life Science Sensing": 0.6355842351913452, "Quantum sensing Detection": 0.6454434990882874, "Quantum sensing Metrology": 0.6349890232086182, "Quantum sensing navigation": 0.6274954080581665, "Quantum sensing Position": 0.6299768686294556, "Quantum sensing Timing": 0.6694831252098083, "Quantum sensing": 0.6577416658401489, "Quantum control": 0.6440054774284363 } }, { "id": 6397, "title": "FLUORESCENCE AND ABSORPTION SPECTROSCOPIC PROPERTIES OF DIPYRROMETHENEBORON DIFLUORIDE (BODIPY) DERIVATIVES IN LIQUIDS, LIPID-MEMBRANES, AND PROTEINS", "abstract": "Light spectroscopic properties of a recently developed fluorophore, 4,4-difluoro-4-borata-3a-azonia-4a-aza-s-indacene (BODIPY) and its derivatives, have been studied in different solvents, lipid membr...", "citations": 654, "author_count": 5, "categories": [ "Chemistry" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6404, "doi": "10.1021/ja00096a042", "umap_coordinates": { "x": 393.1065979003906, "y": 135.88140869140625, "z": 204.95123291015625 }, "tsne_coordinates": { "x": 13.62414836883545, "y": 13.117790222167969, "z": 11.63843059539795 }, "pca_coordinates": { "x": -2.5489275455474854, "y": -1.470205545425415, "z": -3.5237393379211426 }, "axis_scores": { "Quantum imaging": 0.7070349454879761, "Quantum Life Science Sensing": 0.7519060969352722, "Quantum sensing Detection": 0.6801204681396484, "Quantum sensing Metrology": 0.6642031073570251, "Quantum sensing navigation": 0.6606787443161011, "Quantum sensing Position": 0.6452381014823914, "Quantum sensing Timing": 0.6335251927375793, "Quantum sensing": 0.696429431438446, "Quantum control": 0.6606515049934387 } }, { "id": 6398, "title": "Computational Insight Into Vitamin K1 ω-Hydroxylation by Cytochrome P450 4F2", "abstract": "Vitamin K-1 (VK1) plays an important role in the modulation of bleeding disorders. It has been reported that omega-hydroxylation on the VK1 aliphatic chain is catalyzed by cytochrome P450 4F2 (CYP4F2)...", "citations": 7, "author_count": 7, "categories": [ "Pharmacology & Pharmacy" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6405, "doi": "10.3389/fphar.2018.01065", "umap_coordinates": { "x": 394.1608581542969, "y": 136.669189453125, "z": 204.7476348876953 }, "tsne_coordinates": { "x": -16.850114822387695, "y": 21.12154769897461, "z": 18.488988876342773 }, "pca_coordinates": { "x": -1.0149918794631958, "y": 2.8506932258605957, "z": -3.644505500793457 }, "axis_scores": { "Quantum imaging": 0.7330195307731628, "Quantum Life Science Sensing": 0.7484113574028015, "Quantum sensing Detection": 0.708173394203186, "Quantum sensing Metrology": 0.694592297077179, "Quantum sensing navigation": 0.723572313785553, "Quantum sensing Position": 0.6709092855453491, "Quantum sensing Timing": 0.6608275771141052, "Quantum sensing": 0.7321071624755859, "Quantum control": 0.7134605646133423 } }, { "id": 6399, "title": "Clinical and neuropathological features of the Arctic APP gene mutation causing early-onset Alzheimer disease", "abstract": "Background: A majority of mutations within the beta-amyloid region of the amyloid precursor protein (APP) gene cause inherited forms of intracerebral hemorrhage. Most of these mutations may also cause...", "citations": 113, "author_count": 12, "categories": [ "Neurosciences & Neurology" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6406, "doi": "10.1001/archneur.65.4.499", "umap_coordinates": { "x": 395.00006103515625, "y": 135.0279083251953, "z": 204.16806030273438 }, "tsne_coordinates": { "x": -6.677349090576172, "y": 25.128633499145508, "z": 5.100127220153809 }, "pca_coordinates": { "x": -2.2606358528137207, "y": 0.7225663661956787, "z": 0.13535553216934204 }, "axis_scores": { "Quantum imaging": 0.6368359327316284, "Quantum Life Science Sensing": 0.6262272000312805, "Quantum sensing Detection": 0.6200224757194519, "Quantum sensing Metrology": 0.5993187427520752, "Quantum sensing navigation": 0.6437867283821106, "Quantum sensing Position": 0.6269768476486206, "Quantum sensing Timing": 0.6223519444465637, "Quantum sensing": 0.6227775812149048, "Quantum control": 0.5987274050712585 } }, { "id": 6400, "title": "Kidney dosimetry during 177Lu-DOTATATE therapy in patients with neuroendocrine tumors: aspects on calculation and tolerance", "abstract": "Background: Fractionated therapy with Lu-177-DOTATATE has been reported to be an effective treatment for patients with metastasized neuroendocrine tumors. To optimize the treatment, absorbed doses to ...", "citations": 30, "author_count": 7, "categories": [ "Oncology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6407, "doi": "10.1080/0284186X.2017.1378431", "umap_coordinates": { "x": 395.4433898925781, "y": 133.5572967529297, "z": 204.6170196533203 }, "tsne_coordinates": { "x": -4.948240756988525, "y": 29.22743034362793, "z": -9.261041641235352 }, "pca_coordinates": { "x": -2.553515911102295, "y": 2.5734810829162598, "z": 1.3980774879455566 }, "axis_scores": { "Quantum imaging": 0.684807538986206, "Quantum Life Science Sensing": 0.68537837266922, "Quantum sensing Detection": 0.6675646305084229, "Quantum sensing Metrology": 0.6780571937561035, "Quantum sensing navigation": 0.6907027959823608, "Quantum sensing Position": 0.6848182082176208, "Quantum sensing Timing": 0.7171129584312439, "Quantum sensing": 0.671747088432312, "Quantum control": 0.6661450266838074 } }, { "id": 6401, "title": "Direct comparison of atomic layer deposition and sputtering of In2O3:H used as transparent conductive oxide layer in CuIn1-xGaxSe2 thin film solar cells", "abstract": "In this study thin films of hydrogenated In2O3 (IOH) were fabricated by physical vapor deposition (PVD) with and without a post-annealing step, and by atomic layer deposition (ALD). The electro-optica...", "citations": 31, "author_count": 8, "categories": [ "Energy & Fuels" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6408, "doi": "10.1016/j.solmat.2016.07.012", "umap_coordinates": { "x": 392.8517761230469, "y": 133.3181610107422, "z": 205.65879821777344 }, "tsne_coordinates": { "x": 38.05418014526367, "y": 10.464279174804688, "z": 2.290039539337158 }, "pca_coordinates": { "x": -2.3250491619110107, "y": -1.8822612762451172, "z": -1.3861546516418457 }, "axis_scores": { "Quantum imaging": 0.6653510332107544, "Quantum Life Science Sensing": 0.709217369556427, "Quantum sensing Detection": 0.6745494604110718, "Quantum sensing Metrology": 0.679436445236206, "Quantum sensing navigation": 0.6702348589897156, "Quantum sensing Position": 0.6633275747299194, "Quantum sensing Timing": 0.6603659391403198, "Quantum sensing": 0.6893778443336487, "Quantum control": 0.6673355102539062 } }, { "id": 6402, "title": "Anomalous circularly polarized light emission in organic light-emitting diodes caused by orbital-momentum locking", "abstract": "Chiral circularly polarized (CP) light is central to many photonic technologies, from the optical communication of spin information to novel display and imaging technologies. As such, there has been s...", "citations": 106, "author_count": 5, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6409, "doi": "10.1038/s41566-022-01113-9", "umap_coordinates": { "x": 393.17620849609375, "y": 135.34963989257812, "z": 206.513427734375 }, "tsne_coordinates": { "x": 1.9315569400787354, "y": -12.478455543518066, "z": -22.32501983642578 }, "pca_coordinates": { "x": -0.5415245294570923, "y": -1.7615418434143066, "z": 0.09188848733901978 }, "axis_scores": { "Quantum imaging": 0.6809008717536926, "Quantum Life Science Sensing": 0.6632310152053833, "Quantum sensing Detection": 0.6774083375930786, "Quantum sensing Metrology": 0.645977795124054, "Quantum sensing navigation": 0.6782875657081604, "Quantum sensing Position": 0.6633760929107666, "Quantum sensing Timing": 0.6500834226608276, "Quantum sensing": 0.6749505996704102, "Quantum control": 0.659461259841919 } }, { "id": 6403, "title": "Monitoring real-time hormone release kinetics via high-content 3-D imaging of compensatory endocytosis", "abstract": "High-content real-time imaging of hormone secretion in tissues or cell populations is a challenging task, which is unlikely to be resolved directly, despite immense translational value. We approach th...", "citations": 20, "author_count": 10, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6410, "doi": "10.1039/c8lc00417j", "umap_coordinates": { "x": 394.2993469238281, "y": 134.64755249023438, "z": 204.8218536376953 }, "tsne_coordinates": { "x": -1.7371513843536377, "y": 32.0300407409668, "z": -8.630090713500977 }, "pca_coordinates": { "x": -3.6118528842926025, "y": 2.052363634109497, "z": 0.5160483717918396 }, "axis_scores": { "Quantum imaging": 0.7053915858268738, "Quantum Life Science Sensing": 0.7095448970794678, "Quantum sensing Detection": 0.6819179654121399, "Quantum sensing Metrology": 0.6621968746185303, "Quantum sensing navigation": 0.6800469756126404, "Quantum sensing Position": 0.6623214483261108, "Quantum sensing Timing": 0.6867547035217285, "Quantum sensing": 0.6843507289886475, "Quantum control": 0.6680868268013 } }, { "id": 6404, "title": "Phenomenological Review on Quark-Gluon Plasma: Concepts vs. Observations", "abstract": "In this review, we present an up-to-date phenomenological summary of research developments in the physics of the Quark-Gluon Plasma (QGP). A short historical perspective and theoretical motivation for...", "citations": 124, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6411, "doi": "10.3390/universe3010007", "umap_coordinates": { "x": 395.30206298828125, "y": 137.17269897460938, "z": 205.64151000976562 }, "tsne_coordinates": { "x": -33.313720703125, "y": 17.191810607910156, "z": 8.957038879394531 }, "pca_coordinates": { "x": -0.2946678400039673, "y": 2.9541616439819336, "z": -2.5050854682922363 }, "axis_scores": { "Quantum imaging": 0.694283664226532, "Quantum Life Science Sensing": 0.7510198950767517, "Quantum sensing Detection": 0.7049670815467834, "Quantum sensing Metrology": 0.6861149668693542, "Quantum sensing navigation": 0.7146666646003723, "Quantum sensing Position": 0.6784655451774597, "Quantum sensing Timing": 0.6735035181045532, "Quantum sensing": 0.712796151638031, "Quantum control": 0.6987158060073853 } }, { "id": 6405, "title": "Accuracy and Precision of Radioactivity Quantification in Nuclear Medicine Images", "abstract": "The ability to reliably quantify activity in nuclear medicine has a number of increasingly important applications. Dosimetry for targeted therapy treatment planning or for approval of new imaging agen...", "citations": 79, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6412, "doi": "10.1053/j.semnuclmed.2011.11.003", "umap_coordinates": { "x": 395.15380859375, "y": 132.95518493652344, "z": 204.809326171875 }, "tsne_coordinates": { "x": 2.0685954093933105, "y": 35.69331741333008, "z": -10.882673263549805 }, "pca_coordinates": { "x": -3.3547661304473877, "y": 3.182337522506714, "z": 2.396357297897339 }, "axis_scores": { "Quantum imaging": 0.7280210852622986, "Quantum Life Science Sensing": 0.7097632884979248, "Quantum sensing Detection": 0.7010867595672607, "Quantum sensing Metrology": 0.7132849097251892, "Quantum sensing navigation": 0.7130705714225769, "Quantum sensing Position": 0.7177428007125854, "Quantum sensing Timing": 0.6957755088806152, "Quantum sensing": 0.7046209573745728, "Quantum control": 0.6681370735168457 } }, { "id": 6406, "title": "Measurement of electrons from beauty-hadron decays in pp and Pb-Pb collisions at √sNN=5.02 TeV", "abstract": "The production of electrons from beauty-hadron decays was measured at midrapidity in proton-proton (pp) and central Pb-Pb collisions at center-of-mass energy per nucleon-nucleon pair root sNN = 5.02 T...", "citations": 3, "author_count": 1038, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6413, "doi": "10.1103/PhysRevC.108.034906", "umap_coordinates": { "x": 396.8022766113281, "y": 134.4205322265625, "z": 207.7487030029297 }, "tsne_coordinates": { "x": -35.67599105834961, "y": 6.535549163818359, "z": -15.413200378417969 }, "pca_coordinates": { "x": 2.266181707382202, "y": -0.5852341651916504, "z": 2.596255302429199 }, "axis_scores": { "Quantum imaging": 0.6730634570121765, "Quantum Life Science Sensing": 0.695182740688324, "Quantum sensing Detection": 0.6959525346755981, "Quantum sensing Metrology": 0.6716523766517639, "Quantum sensing navigation": 0.6961891651153564, "Quantum sensing Position": 0.6900990009307861, "Quantum sensing Timing": 0.6821780800819397, "Quantum sensing": 0.6906299591064453, "Quantum control": 0.6496032476425171 } }, { "id": 6407, "title": "Optical manifestations and bounds of topological Euler class", "abstract": "We analyze quantum-geometric bounds on optical weights in topological phases with pairs of bands hosting nontrivial Euler class, a multigap invariant characterizing non-Abelian band topology. We show ...", "citations": 20, "author_count": 6, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6414, "doi": "10.1103/PhysRevB.111.L081103", "umap_coordinates": { "x": 395.443359375, "y": 136.948974609375, "z": 208.27259826660156 }, "tsne_coordinates": { "x": -13.909082412719727, "y": -15.580921173095703, "z": 2.5717029571533203 }, "pca_coordinates": { "x": 2.5594308376312256, "y": 0.9684981107711792, "z": -0.2781144976615906 }, "axis_scores": { "Quantum imaging": 0.7510147094726562, "Quantum Life Science Sensing": 0.7316867709159851, "Quantum sensing Detection": 0.7382374405860901, "Quantum sensing Metrology": 0.7248642444610596, "Quantum sensing navigation": 0.740001380443573, "Quantum sensing Position": 0.7243490815162659, "Quantum sensing Timing": 0.7189081907272339, "Quantum sensing": 0.7395262122154236, "Quantum control": 0.7087149024009705 } }, { "id": 6408, "title": "Impacts of long-term enhanced UV-B radiation on bryophytes in two sub-Arctic heathland sites of contrasting water availability", "abstract": "Background and Aims Anthropogenic depletion of stratospheric ozone in Arctic latitudes has resulted in an increase of ultraviolet-B radiation (UV-B) reaching the biosphere. UV-B exposure is known to r...", "citations": 32, "author_count": 8, "categories": [ "Plant Sciences" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6415, "doi": "10.1093/aob/mcr178", "umap_coordinates": { "x": 394.0638427734375, "y": 136.25189208984375, "z": 203.84866333007812 }, "tsne_coordinates": { "x": 12.311105728149414, "y": 35.101806640625, "z": 17.594812393188477 }, "pca_coordinates": { "x": -2.257199287414551, "y": 1.9965949058532715, "z": -1.998455286026001 }, "axis_scores": { "Quantum imaging": 0.6595891714096069, "Quantum Life Science Sensing": 0.7013068199157715, "Quantum sensing Detection": 0.6494858264923096, "Quantum sensing Metrology": 0.6512222290039062, "Quantum sensing navigation": 0.6600175499916077, "Quantum sensing Position": 0.6505824327468872, "Quantum sensing Timing": 0.6595958471298218, "Quantum sensing": 0.6686168313026428, "Quantum control": 0.6469485759735107 } }, { "id": 6409, "title": "Photonic crystals with rainbow colors by centrifugation-assisted assembly of colloidal lignin nanoparticles", "abstract": "Photonic crystals are optical materials that are often fabricated by assembly of particles into periodically arranged structures. However, assembly of lignin nanoparticles has been limited due to lack...", "citations": 72, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6416, "doi": "10.1038/s41467-023-38819-5", "umap_coordinates": { "x": 392.95098876953125, "y": 134.636962890625, "z": 205.22088623046875 }, "tsne_coordinates": { "x": -12.866913795471191, "y": 4.794841289520264, "z": -6.679328918457031 }, "pca_coordinates": { "x": -2.8462729454040527, "y": -1.533538818359375, "z": 0.7373088002204895 }, "axis_scores": { "Quantum imaging": 0.6876131296157837, "Quantum Life Science Sensing": 0.6701552271842957, "Quantum sensing Detection": 0.6623663306236267, "Quantum sensing Metrology": 0.6526979804039001, "Quantum sensing navigation": 0.6766262650489807, "Quantum sensing Position": 0.6529836654663086, "Quantum sensing Timing": 0.6393729448318481, "Quantum sensing": 0.6742501258850098, "Quantum control": 0.6698806285858154 } }, { "id": 6410, "title": "Wave packet theory for non-resonant x-ray emission and non-resonant Auger electron emission in molecules", "abstract": "We present a time-dependent theory for non-resonant x-ray emission spectrum (XES) and normal Auger spectrum (NAS) calculation, based on a fully quantum description of nuclear dynamics using the vibrat...", "citations": 1, "author_count": 8, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6417, "doi": "10.1063/5.0159474", "umap_coordinates": { "x": 393.7259521484375, "y": 136.03135681152344, "z": 206.7928009033203 }, "tsne_coordinates": { "x": -9.086780548095703, "y": -0.4895617663860321, "z": 11.26195240020752 }, "pca_coordinates": { "x": 1.307654857635498, "y": -0.2463369369506836, "z": 0.58213871717453 }, "axis_scores": { "Quantum imaging": 0.6880382895469666, "Quantum Life Science Sensing": 0.6900949478149414, "Quantum sensing Detection": 0.6812798976898193, "Quantum sensing Metrology": 0.6596186757087708, "Quantum sensing navigation": 0.6612161993980408, "Quantum sensing Position": 0.6378651261329651, "Quantum sensing Timing": 0.6488941311836243, "Quantum sensing": 0.6818390488624573, "Quantum control": 0.6455610394477844 } }, { "id": 6411, "title": "Suppression of the quantum-confined Stark effect in AlxGa1-xN/AlyGa1-yN corrugated quantum wells", "abstract": "We report comparative studies of 6-nm-thick AlxGa1-xN/AlyGa1-yN pyroelectric quantum wells (QWs) grown by plasma-assisted molecular beam epitaxy on c-sapphire substrates with a thick AlN buffer deposi...", "citations": 14, "author_count": 12, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6418, "doi": "10.1063/1.4822155", "umap_coordinates": { "x": 393.0752258300781, "y": 134.18453979492188, "z": 208.41168212890625 }, "tsne_coordinates": { "x": 34.374366760253906, "y": -24.011804580688477, "z": 1.458088994026184 }, "pca_coordinates": { "x": 2.1030869483947754, "y": -1.6494746208190918, "z": 1.7584447860717773 }, "axis_scores": { "Quantum imaging": 0.7127810716629028, "Quantum Life Science Sensing": 0.6790977120399475, "Quantum sensing Detection": 0.7193869352340698, "Quantum sensing Metrology": 0.721854031085968, "Quantum sensing navigation": 0.7331830859184265, "Quantum sensing Position": 0.697277307510376, "Quantum sensing Timing": 0.6924193501472473, "Quantum sensing": 0.7312140464782715, "Quantum control": 0.717496395111084 } }, { "id": 6412, "title": "Quantum Superpositions of the Speed of Light", "abstract": "While it has often been proposed that, fundamentally, Lorentz-invariance is not respected in a quantum theory of gravity, it has been difficult to reconcile deviations from Lorentz-invariance with qua...", "citations": 4, "author_count": 2, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6419, "doi": "10.1007/s10701-012-9678-0", "umap_coordinates": { "x": 395.0271911621094, "y": 136.8253631591797, "z": 206.2777099609375 }, "tsne_coordinates": { "x": -30.184925079345703, "y": 0.8729516267776489, "z": 9.53223705291748 }, "pca_coordinates": { "x": 1.486616849899292, "y": 2.3827273845672607, "z": 2.1583898067474365 }, "axis_scores": { "Quantum imaging": 0.7480170726776123, "Quantum Life Science Sensing": 0.7389285564422607, "Quantum sensing Detection": 0.746635377407074, "Quantum sensing Metrology": 0.7429732084274292, "Quantum sensing navigation": 0.7531080842018127, "Quantum sensing Position": 0.7478523254394531, "Quantum sensing Timing": 0.7563399076461792, "Quantum sensing": 0.7615126967430115, "Quantum control": 0.7336249947547913 } }, { "id": 6413, "title": "Kaon femtoscopy in Pb-Pb collisions at √sNN=2.76 TeV", "abstract": "We present the results of three-dimensional femtoscopic analyses for charged and neutral kaons recorded by ALICE in Pb-Pb collisions at root s(NN) = 2.76 TeV. Femtoscopy is used to measure the space-t...", "citations": 36, "author_count": 1032, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6420, "doi": "10.1103/PhysRevC.96.064613", "umap_coordinates": { "x": 396.3030090332031, "y": 134.63250732421875, "z": 208.1460418701172 }, "tsne_coordinates": { "x": -36.43537902832031, "y": 4.96813440322876, "z": -16.22188377380371 }, "pca_coordinates": { "x": 2.5979743003845215, "y": -0.8927245140075684, "z": 1.5876965522766113 }, "axis_scores": { "Quantum imaging": 0.6863919496536255, "Quantum Life Science Sensing": 0.6997547149658203, "Quantum sensing Detection": 0.6958971619606018, "Quantum sensing Metrology": 0.6834456324577332, "Quantum sensing navigation": 0.7013674378395081, "Quantum sensing Position": 0.6975111961364746, "Quantum sensing Timing": 0.6984869837760925, "Quantum sensing": 0.7005587816238403, "Quantum control": 0.6593315005302429 } }, { "id": 6414, "title": "A theoretical study of the 21Ag←11Ag two-photon transition and its vibronic band in trans-stilbene", "abstract": "The two-photon spectrum of the 2(1)A(g)-->1(1)A(g) transition in trans-stilbene has been calculated at the complete active space self-consistent field (CASSCF) level of theory. Energies were obtained ...", "citations": 3, "author_count": 5, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6421, "doi": "10.1080/00268970110112327", "umap_coordinates": { "x": 392.9676513671875, "y": 135.5276641845703, "z": 205.8575897216797 }, "tsne_coordinates": { "x": -3.736381769180298, "y": 1.1417369842529297, "z": -13.500021934509277 }, "pca_coordinates": { "x": -0.47953683137893677, "y": -0.22187209129333496, "z": 0.9314834475517273 }, "axis_scores": { "Quantum imaging": 0.6584466099739075, "Quantum Life Science Sensing": 0.6798930168151855, "Quantum sensing Detection": 0.6651535630226135, "Quantum sensing Metrology": 0.6469981074333191, "Quantum sensing navigation": 0.6498022675514221, "Quantum sensing Position": 0.6423025131225586, "Quantum sensing Timing": 0.6655293703079224, "Quantum sensing": 0.6700038313865662, "Quantum control": 0.6260399222373962 } }, { "id": 6415, "title": "EXPERIMENTAL AND THEORETICAL INVESTIGATION OF PULSED STEP-WISE LASER EXCITATIONS OF ATOMS IN FLAMES - THE ROLE OF 2-STEP VS 2-PHOTON EXCITATIONS AND DYNAMIC STARK EFFECTS", "abstract": "Anomalous lineshapes and signal strengths in two-colour Laser-Enhanced Ionization (LEI) spectrometry in flames have been studied both experimentally and theoretically. Experimentally, we have found th...", "citations": 13, "author_count": 3, "categories": [ "Spectroscopy" ], "year": 1992, "topic": [ "all" ], "embedding_index": 6422, "doi": "10.1016/0584-8547(92)80024-B", "umap_coordinates": { "x": 393.0386657714844, "y": 136.15843200683594, "z": 205.79434204101562 }, "tsne_coordinates": { "x": -0.6649287939071655, "y": 1.2256499528884888, "z": 6.060687065124512 }, "pca_coordinates": { "x": -0.8178014755249023, "y": 0.32979393005371094, "z": -0.5997962355613708 }, "axis_scores": { "Quantum imaging": 0.6828998327255249, "Quantum Life Science Sensing": 0.6728708148002625, "Quantum sensing Detection": 0.6752699017524719, "Quantum sensing Metrology": 0.6575501561164856, "Quantum sensing navigation": 0.6637812852859497, "Quantum sensing Position": 0.6756232976913452, "Quantum sensing Timing": 0.6695101261138916, "Quantum sensing": 0.683512806892395, "Quantum control": 0.6510201096534729 } }, { "id": 6416, "title": "Roadmap of optical communications", "abstract": "Lightwave communications is a necessity for the information age. Optical links provide enormous bandwidth, and the optical fiber is the only medium that can meet the modern society's needs for transpo...", "citations": 539, "author_count": 20, "categories": [ "Optics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6423, "doi": "10.1088/2040-8978/18/6/063002", "umap_coordinates": { "x": 394.984130859375, "y": 134.8529815673828, "z": 206.13662719726562 }, "tsne_coordinates": { "x": -13.614402770996094, "y": 0.7353368997573853, "z": -18.373437881469727 }, "pca_coordinates": { "x": -1.0795037746429443, "y": 2.3197858333587646, "z": 1.4330518245697021 }, "axis_scores": { "Quantum imaging": 0.7198727130889893, "Quantum Life Science Sensing": 0.7210075855255127, "Quantum sensing Detection": 0.6874376535415649, "Quantum sensing Metrology": 0.7065471410751343, "Quantum sensing navigation": 0.7135723829269409, "Quantum sensing Position": 0.6962823867797852, "Quantum sensing Timing": 0.6808789968490601, "Quantum sensing": 0.698815107345581, "Quantum control": 0.6785959601402283 } }, { "id": 6417, "title": "Evidence for a spin-aligned neutron-proton paired phase from the level structure of 92Pd", "abstract": "Shell structure and magic numbers in atomic nuclei were generally explained by pioneering work(1) that introduced a strong spin-orbit interaction to the nuclear shell model potential. However, knowled...", "citations": 162, "author_count": 58, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6424, "doi": "10.1038/nature09644", "umap_coordinates": { "x": 393.045166015625, "y": 136.35043334960938, "z": 207.0546112060547 }, "tsne_coordinates": { "x": 4.3054046630859375, "y": -25.482582092285156, "z": 34.95917892456055 }, "pca_coordinates": { "x": 0.8774845600128174, "y": -0.3007543087005615, "z": -0.6318447589874268 }, "axis_scores": { "Quantum imaging": 0.6963754296302795, "Quantum Life Science Sensing": 0.7108731865882874, "Quantum sensing Detection": 0.6829627156257629, "Quantum sensing Metrology": 0.674353301525116, "Quantum sensing navigation": 0.7193039655685425, "Quantum sensing Position": 0.723454475402832, "Quantum sensing Timing": 0.6989338397979736, "Quantum sensing": 0.6877344250679016, "Quantum control": 0.6468576192855835 } }, { "id": 6418, "title": "SITES AquaNet: An open infrastructure for mesocosm experiments with high frequency sensor monitoring across lakes", "abstract": "For aquatic scientists mesocosm experiments are important tools for hypothesis testing as they offer a compromise between experimental control and realism. Here we present a new mesocosm infrastructur...", "citations": 14, "author_count": 22, "categories": [ "Marine & Freshwater Biology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6425, "doi": "10.1002/lom3.10432", "umap_coordinates": { "x": 394.4751892089844, "y": 135.80038452148438, "z": 204.29527282714844 }, "tsne_coordinates": { "x": 5.651180267333984, "y": 25.83791160583496, "z": 4.703805446624756 }, "pca_coordinates": { "x": -1.8473279476165771, "y": 1.9740471839904785, "z": 0.7328479886054993 }, "axis_scores": { "Quantum imaging": 0.6980701088905334, "Quantum Life Science Sensing": 0.7401683926582336, "Quantum sensing Detection": 0.7104901075363159, "Quantum sensing Metrology": 0.7372588515281677, "Quantum sensing navigation": 0.7159404754638672, "Quantum sensing Position": 0.6924091577529907, "Quantum sensing Timing": 0.6877593398094177, "Quantum sensing": 0.7330127358436584, "Quantum control": 0.7029770016670227 } }, { "id": 6419, "title": "Experimental studies of fast fragments of H Rydberg matter", "abstract": "A comprehensive pulsed-laser time-of-flight (TOF) study of H Rydberg matter (RM) fragments is presented. The nature of the fragments released with well-defined kinetic energies of 9-24 eV is investiga...", "citations": 42, "author_count": 3, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6426, "doi": "10.1088/0953-4075/39/20/017", "umap_coordinates": { "x": 394.6695251464844, "y": 135.7862091064453, "z": 206.59400939941406 }, "tsne_coordinates": { "x": -2.208951473236084, "y": 1.559664249420166, "z": 17.60077476501465 }, "pca_coordinates": { "x": 0.903792142868042, "y": 4.939245223999023, "z": -1.5114469528198242 }, "axis_scores": { "Quantum imaging": 0.6684801578521729, "Quantum Life Science Sensing": 0.6821730136871338, "Quantum sensing Detection": 0.6392145752906799, "Quantum sensing Metrology": 0.611859917640686, "Quantum sensing navigation": 0.6263397932052612, "Quantum sensing Position": 0.6226078867912292, "Quantum sensing Timing": 0.6300463676452637, "Quantum sensing": 0.6562927961349487, "Quantum control": 0.6247833371162415 } }, { "id": 6420, "title": "Long-term stability of laser-induced defects in (fluoride-)phosphate glasses doped with W, Mo, Ta, Nb and Zr ions", "abstract": "Laser-induced defects in glasses are of considerable interest for many applications from optics to photonics. The importance of low-level impurities of polyvalent ions in aiding defect formation has b...", "citations": 15, "author_count": 5, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6427, "doi": "10.1016/j.jnoncrysol.2018.03.004", "umap_coordinates": { "x": 393.8626403808594, "y": 135.00926208496094, "z": 205.21974182128906 }, "tsne_coordinates": { "x": 25.01874542236328, "y": 13.514806747436523, "z": -25.37740135192871 }, "pca_coordinates": { "x": -2.8983349800109863, "y": 0.1470177173614502, "z": -1.5068292617797852 }, "axis_scores": { "Quantum imaging": 0.7033951282501221, "Quantum Life Science Sensing": 0.7348790764808655, "Quantum sensing Detection": 0.6888105869293213, "Quantum sensing Metrology": 0.6831690073013306, "Quantum sensing navigation": 0.7112776041030884, "Quantum sensing Position": 0.6999571919441223, "Quantum sensing Timing": 0.6913653612136841, "Quantum sensing": 0.7029387950897217, "Quantum control": 0.6895958781242371 } }, { "id": 6421, "title": "Quantum efficiency and two-photon absorption cross-section of conjugated polyelectrolytes used for protein conformation measurements with applications on amyloid structures", "abstract": "Amyloid diseases such as Alzheimer's and spongiform encephalopathies evolve from aggregation of proteins due to misfolding of the protein structure. Early disease handling require sophisticated but ye...", "citations": 37, "author_count": 6, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6428, "doi": "10.1016/j.chemphys.2007.06.020", "umap_coordinates": { "x": 393.1252136230469, "y": 135.38963317871094, "z": 205.4873046875 }, "tsne_coordinates": { "x": -4.267046928405762, "y": -5.328884124755859, "z": -19.072097778320312 }, "pca_coordinates": { "x": -2.2805747985839844, "y": -2.0231857299804688, "z": 0.730503261089325 }, "axis_scores": { "Quantum imaging": 0.7014715075492859, "Quantum Life Science Sensing": 0.750740110874176, "Quantum sensing Detection": 0.7068312764167786, "Quantum sensing Metrology": 0.6977158784866333, "Quantum sensing navigation": 0.6831258535385132, "Quantum sensing Position": 0.6935186982154846, "Quantum sensing Timing": 0.6626660227775574, "Quantum sensing": 0.7080812454223633, "Quantum control": 0.6562950015068054 } }, { "id": 6422, "title": "The active-site metal coordination geometry of cadmium-substituted alcohol dehydrogenase - A theoretical interpretation of perturbed angular correlation of gamma-ray measurements", "abstract": "The structure of eleven complexes of cadmium-substituted alcohol dehydrogenase with or without coenzyme and with different non-protein cadmium ligands has been estimated by combined quantum chemical a...", "citations": 22, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6429, "doi": "10.1007/s007750050171", "umap_coordinates": { "x": 393.79364013671875, "y": 136.7157440185547, "z": 205.43553161621094 }, "tsne_coordinates": { "x": -1.2235519886016846, "y": 25.826242446899414, "z": 16.586956024169922 }, "pca_coordinates": { "x": -1.2354713678359985, "y": 1.9749557971954346, "z": -0.9522085785865784 }, "axis_scores": { "Quantum imaging": 0.6825129985809326, "Quantum Life Science Sensing": 0.6868423223495483, "Quantum sensing Detection": 0.6775800585746765, "Quantum sensing Metrology": 0.665817379951477, "Quantum sensing navigation": 0.6993840336799622, "Quantum sensing Position": 0.6970201730728149, "Quantum sensing Timing": 0.6842988133430481, "Quantum sensing": 0.6829137206077576, "Quantum control": 0.6737431883811951 } }, { "id": 6423, "title": "Relation between Nonlinear Optical Properties of Push-Pull Molecules and Metric of Charge Transfer Excitations", "abstract": "We establish the relationships between the metric of charge transfer excitation (Delta r) for the bright pi pi* state and the two-photon absorption probability as well as the first hyperpolarizability...", "citations": 45, "author_count": 7, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6430, "doi": "10.1021/acs.jctc.5b00538", "umap_coordinates": { "x": 392.4134826660156, "y": 135.84580993652344, "z": 205.29393005371094 }, "tsne_coordinates": { "x": -9.769939422607422, "y": 6.312691688537598, "z": 11.009553909301758 }, "pca_coordinates": { "x": -0.09159183502197266, "y": -1.4301178455352783, "z": -1.4645276069641113 }, "axis_scores": { "Quantum imaging": 0.7348089814186096, "Quantum Life Science Sensing": 0.7320350408554077, "Quantum sensing Detection": 0.719550609588623, "Quantum sensing Metrology": 0.7177573442459106, "Quantum sensing navigation": 0.72465980052948, "Quantum sensing Position": 0.7243952751159668, "Quantum sensing Timing": 0.6945261359214783, "Quantum sensing": 0.7315713763237, "Quantum control": 0.7008442878723145 } }, { "id": 6424, "title": "Cladding-free efficiently tunable nanobeam cavity with nanotentacles", "abstract": "We propose a cladding-free, efficiently tunable, high-quality factor (Q) nanobeam cavity with subwavelength-period nanotentacles (NT), adequately investigate the performance of the cavity, and study t...", "citations": 14, "author_count": 3, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6431, "doi": "10.1364/OE.25.012541", "umap_coordinates": { "x": 394.07757568359375, "y": 133.9679718017578, "z": 206.69741821289062 }, "tsne_coordinates": { "x": -1.5580819845199585, "y": -12.882308006286621, "z": -34.139163970947266 }, "pca_coordinates": { "x": -1.4845147132873535, "y": -1.204854965209961, "z": 2.54854679107666 }, "axis_scores": { "Quantum imaging": 0.7158865332603455, "Quantum Life Science Sensing": 0.6974610090255737, "Quantum sensing Detection": 0.7102647423744202, "Quantum sensing Metrology": 0.7147725820541382, "Quantum sensing navigation": 0.7051762938499451, "Quantum sensing Position": 0.6625339984893799, "Quantum sensing Timing": 0.6809587478637695, "Quantum sensing": 0.7213800549507141, "Quantum control": 0.7107341885566711 } }, { "id": 6425, "title": "Microscopic treatment of instantaneous spectral diffusion and its effect on quantum gate fidelities in rare-earth-ion-doped crystals", "abstract": "The effect of instantaneous spectral diffusion (ISD) on gate operations in rare-earth-ion-doped crystals is an important question to answer for the future of rare-earth quantum computing. Here we pres...", "citations": 8, "author_count": 5, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6432, "doi": "10.1103/PhysRevA.105.032608", "umap_coordinates": { "x": 394.7315979003906, "y": 136.97691345214844, "z": 207.97332763671875 }, "tsne_coordinates": { "x": -11.634185791015625, "y": -37.2169303894043, "z": 1.1459122896194458 }, "pca_coordinates": { "x": 2.7279391288757324, "y": 0.6787065267562866, "z": -0.28386110067367554 }, "axis_scores": { "Quantum imaging": 0.7617585062980652, "Quantum Life Science Sensing": 0.7367560863494873, "Quantum sensing Detection": 0.7339011430740356, "Quantum sensing Metrology": 0.7334674000740051, "Quantum sensing navigation": 0.725278913974762, "Quantum sensing Position": 0.6985565423965454, "Quantum sensing Timing": 0.7240574359893799, "Quantum sensing": 0.7541086673736572, "Quantum control": 0.7184150815010071 } }, { "id": 6426, "title": "Transverse extension of partons in the proton probed in the sea-quark range by measuring the DVCS cross section", "abstract": "We report on the first measurement of exclusive single-photon muoproduction on the proton by COMPASS using 160 GeV/c polarised mu(+) and mu(-) beams of the CERN SPS impinging on a liquid hydrogen targ...", "citations": 33, "author_count": 226, "categories": [ "Astronomy & Astrophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6433, "doi": "10.1016/j.physletb.2019.04.038", "umap_coordinates": { "x": 396.68878173828125, "y": 134.18141174316406, "z": 207.14439392089844 }, "tsne_coordinates": { "x": -34.666481018066406, "y": 7.035233020782471, "z": -7.872223854064941 }, "pca_coordinates": { "x": -0.557927668094635, "y": 2.3998074531555176, "z": -0.19563829898834229 }, "axis_scores": { "Quantum imaging": 0.6733794808387756, "Quantum Life Science Sensing": 0.7019730806350708, "Quantum sensing Detection": 0.6756711006164551, "Quantum sensing Metrology": 0.659479558467865, "Quantum sensing navigation": 0.7004138231277466, "Quantum sensing Position": 0.6979787945747375, "Quantum sensing Timing": 0.675262451171875, "Quantum sensing": 0.6828181743621826, "Quantum control": 0.6515827178955078 } }, { "id": 6427, "title": "Total variation norm for three-dimensional iterative reconstruction in limited view angle tomography", "abstract": "An iterative Bayesian reconstruction algorithm for limited view angle tomography, or ectomography, based on the three-dimensional total variation (TV) norm has been developed. The TV norm has been des...", "citations": 169, "author_count": 4, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6434, "doi": "10.1088/0031-9155/46/3/318", "umap_coordinates": { "x": 395.5553894042969, "y": 134.09715270996094, "z": 205.2137908935547 }, "tsne_coordinates": { "x": -15.0883207321167, "y": 31.64394760131836, "z": -9.096207618713379 }, "pca_coordinates": { "x": -0.5786112546920776, "y": 4.959908485412598, "z": 2.7687978744506836 }, "axis_scores": { "Quantum imaging": 0.6792888045310974, "Quantum Life Science Sensing": 0.6537326574325562, "Quantum sensing Detection": 0.6460043787956238, "Quantum sensing Metrology": 0.6651222109794617, "Quantum sensing navigation": 0.6819643378257751, "Quantum sensing Position": 0.6527798771858215, "Quantum sensing Timing": 0.6518794298171997, "Quantum sensing": 0.6573232412338257, "Quantum control": 0.6584328413009644 } }, { "id": 6428, "title": "Altered Sensory Experience Exacerbates Stable Dendritic Spine and Synapse Loss in a Mouse Model of Huntington's Disease", "abstract": "A key question in Huntington's disease (HD) is what underlies the early cognitive deficits that precede the motor symptoms and the characteristic neuronal death observed in HD. The mechanisms underlyi...", "citations": 34, "author_count": 5, "categories": [ "Neurosciences & Neurology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6435, "doi": "10.1523/JNEUROSCI.0244-14.2015", "umap_coordinates": { "x": 394.8432312011719, "y": 134.92840576171875, "z": 204.59141540527344 }, "tsne_coordinates": { "x": -3.1706392765045166, "y": 24.443567276000977, "z": 8.156474113464355 }, "pca_coordinates": { "x": -0.9524873495101929, "y": 1.7359915971755981, "z": -0.5607149600982666 }, "axis_scores": { "Quantum imaging": 0.6861606240272522, "Quantum Life Science Sensing": 0.6907143592834473, "Quantum sensing Detection": 0.6709700226783752, "Quantum sensing Metrology": 0.6538925170898438, "Quantum sensing navigation": 0.7060247659683228, "Quantum sensing Position": 0.6727372407913208, "Quantum sensing Timing": 0.6590370535850525, "Quantum sensing": 0.6827254891395569, "Quantum control": 0.684022068977356 } }, { "id": 6429, "title": "Differences in attenuation pattern in myocardial SPECT between CZT and conventional gamma cameras", "abstract": "Background In myocardial perfusion imaging (MPI), single-photon emission tomography (SPECT) soft-tissue attenuation by the abdomen, breasts, and lateral chest wall may create artifacts that mimic true...", "citations": 18, "author_count": 6, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6436, "doi": "10.1007/s12350-018-1296-6", "umap_coordinates": { "x": 395.3497619628906, "y": 133.20118713378906, "z": 204.72308349609375 }, "tsne_coordinates": { "x": -7.747890472412109, "y": 25.156461715698242, "z": -11.008581161499023 }, "pca_coordinates": { "x": -2.59873366355896, "y": 4.210721492767334, "z": 0.9772482514381409 }, "axis_scores": { "Quantum imaging": 0.6948072910308838, "Quantum Life Science Sensing": 0.662610650062561, "Quantum sensing Detection": 0.6534348726272583, "Quantum sensing Metrology": 0.6382449269294739, "Quantum sensing navigation": 0.6757852435112, "Quantum sensing Position": 0.650342583656311, "Quantum sensing Timing": 0.6733013987541199, "Quantum sensing": 0.6596868634223938, "Quantum control": 0.6503455638885498 } }, { "id": 6430, "title": "Improved measurements of two-photon widths of the χcJ states and helicity analysis for χc2 → γγ", "abstract": "Based on 448.1 x 10(6) Psi(3686) events collected with the BESIII detector, the decays Psi(3686) -> gamma chi(cJ), chi(cJ) -> gamma gamma(J = 0, 1, 2) are studied. The decay branching fractions of chi...", "citations": 7, "author_count": 443, "categories": [ "Astronomy & Astrophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6437, "doi": "10.1103/PhysRevD.96.092007", "umap_coordinates": { "x": 395.94500732421875, "y": 135.18910217285156, "z": 207.5609893798828 }, "tsne_coordinates": { "x": -33.71727752685547, "y": -13.640972137451172, "z": -18.614774703979492 }, "pca_coordinates": { "x": 0.8193888664245605, "y": 0.37259721755981445, "z": 1.2785379886627197 }, "axis_scores": { "Quantum imaging": 0.6789533495903015, "Quantum Life Science Sensing": 0.6786503195762634, "Quantum sensing Detection": 0.6803253293037415, "Quantum sensing Metrology": 0.6582750082015991, "Quantum sensing navigation": 0.6649300456047058, "Quantum sensing Position": 0.6413962841033936, "Quantum sensing Timing": 0.6659671068191528, "Quantum sensing": 0.6836875677108765, "Quantum control": 0.6547443270683289 } }, { "id": 6431, "title": "Multispectral snapshot imaging of skin microcirculatory hemoglobin oxygen saturation using artificial neural networks trained on in vivo data", "abstract": "Significance: Developing algorithms for estimating blood oxygenation from snapshot multi-spectral imaging (MSI) data is challenging due to the complexity of sensor characteristics and photon transport...", "citations": 13, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6438, "doi": "10.1117/1.JBO.27.3.036004", "umap_coordinates": { "x": 395.118408203125, "y": 133.37942504882812, "z": 205.45584106445312 }, "tsne_coordinates": { "x": -2.0240161418914795, "y": 23.30324363708496, "z": -29.25473976135254 }, "pca_coordinates": { "x": -1.9733842611312866, "y": -0.40619468688964844, "z": 2.0515832901000977 }, "axis_scores": { "Quantum imaging": 0.7202610969543457, "Quantum Life Science Sensing": 0.7355629801750183, "Quantum sensing Detection": 0.7119436860084534, "Quantum sensing Metrology": 0.7061060070991516, "Quantum sensing navigation": 0.7139920592308044, "Quantum sensing Position": 0.7014943957328796, "Quantum sensing Timing": 0.6818729043006897, "Quantum sensing": 0.7250720858573914, "Quantum control": 0.6560953855514526 } }, { "id": 6432, "title": "Mathematical Modeling of Rogue Waves: A Survey of Recent and Emerging Mathematical Methods and Solutions", "abstract": "Anomalous waves and rogue events are closely associated with irregularities and unexpected events occurring at various levels of physics, such as in optics, in oceans and in the atmosphere. Mathematic...", "citations": 12, "author_count": 2, "categories": [ "Mathematics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6439, "doi": "10.3390/axioms7020042", "umap_coordinates": { "x": 394.4070739746094, "y": 136.43701171875, "z": 205.4091796875 }, "tsne_coordinates": { "x": -20.23036003112793, "y": 23.33133888244629, "z": 25.573204040527344 }, "pca_coordinates": { "x": -1.5539287328720093, "y": 3.019040107727051, "z": -2.4062435626983643 }, "axis_scores": { "Quantum imaging": 0.6872973442077637, "Quantum Life Science Sensing": 0.730666995048523, "Quantum sensing Detection": 0.6805147528648376, "Quantum sensing Metrology": 0.6924254298210144, "Quantum sensing navigation": 0.6860721707344055, "Quantum sensing Position": 0.6618996262550354, "Quantum sensing Timing": 0.658532977104187, "Quantum sensing": 0.6896321177482605, "Quantum control": 0.6694486141204834 } }, { "id": 6433, "title": "Fluid-solid transitions in photonic crystals of soft, thermoresponsive microgels", "abstract": "Microgels are often discussed as well-suited model system for soft colloids. In contrast to rigid spheres, the microgel volume and, coupled to this, the volume fraction in dispersion can be manipulate...", "citations": 9, "author_count": 8, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6440, "doi": "10.1039/d3sm01062g", "umap_coordinates": { "x": 392.55731201171875, "y": 135.59732055664062, "z": 205.4207000732422 }, "tsne_coordinates": { "x": 23.467580795288086, "y": 6.908204555511475, "z": -31.939380645751953 }, "pca_coordinates": { "x": -0.2219417691230774, "y": -2.0525383949279785, "z": -1.8804543018341064 }, "axis_scores": { "Quantum imaging": 0.6748816967010498, "Quantum Life Science Sensing": 0.7130029797554016, "Quantum sensing Detection": 0.6779671311378479, "Quantum sensing Metrology": 0.6867278814315796, "Quantum sensing navigation": 0.6767879724502563, "Quantum sensing Position": 0.6512253284454346, "Quantum sensing Timing": 0.6480591297149658, "Quantum sensing": 0.6948524117469788, "Quantum control": 0.6643107533454895 } }, { "id": 6434, "title": "Molecular Principles of Redox-Coupled Protonation Dynamics in Photosystem II", "abstract": "Photosystem II (PSII) catalyzes light-driven water oxidization, releasing O-2 into the atmosphere and transferring the electrons for the synthesis of biomass. However, despite decades of structural an...", "citations": 65, "author_count": 5, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6441, "doi": "10.1021/jacs.1c13041", "umap_coordinates": { "x": 392.60015869140625, "y": 136.64193725585938, "z": 206.05612182617188 }, "tsne_coordinates": { "x": 4.434401988983154, "y": 14.608534812927246, "z": 19.490516662597656 }, "pca_coordinates": { "x": 0.8828752040863037, "y": -0.6600484848022461, "z": -4.862301349639893 }, "axis_scores": { "Quantum imaging": 0.6965680718421936, "Quantum Life Science Sensing": 0.736735999584198, "Quantum sensing Detection": 0.6905535459518433, "Quantum sensing Metrology": 0.6789645552635193, "Quantum sensing navigation": 0.6951811909675598, "Quantum sensing Position": 0.6692928075790405, "Quantum sensing Timing": 0.6798906326293945, "Quantum sensing": 0.7042971253395081, "Quantum control": 0.6989787220954895 } }, { "id": 6435, "title": "Quantum-mechanical four-body versus semi-classical three-body theories for double charge exchange in collisions of fast alpha particles with helium targets", "abstract": "Within the two-channel distorted wave second-order perturbative theoretical formalism, we study capture of both electrons from helium-like targets by heavy nuclei as projectiles at intermediate and hi...", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6442, "doi": "10.1007/s10910-023-01564-7", "umap_coordinates": { "x": 394.4717102050781, "y": 136.08299255371094, "z": 206.55332946777344 }, "tsne_coordinates": { "x": -11.22581958770752, "y": -0.9374165534973145, "z": 28.058874130249023 }, "pca_coordinates": { "x": 1.3976562023162842, "y": 1.8061546087265015, "z": -1.0256671905517578 }, "axis_scores": { "Quantum imaging": 0.6867111921310425, "Quantum Life Science Sensing": 0.6929081678390503, "Quantum sensing Detection": 0.6776005029678345, "Quantum sensing Metrology": 0.6674473285675049, "Quantum sensing navigation": 0.6814095377922058, "Quantum sensing Position": 0.6806071400642395, "Quantum sensing Timing": 0.6985505819320679, "Quantum sensing": 0.6843979358673096, "Quantum control": 0.6740225553512573 } }, { "id": 6436, "title": "Study of pure NaI at room and liquid nitrogen temperatures", "abstract": "Three pure NaI crystals grown in different batches by Scionix (The Netherlands) were studied at room and liquid nitrogen temperatures. The room temperature studies performed with photomultiplier reado...", "citations": 51, "author_count": 9, "categories": [ "Engineering" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6443, "doi": "10.1109/TNS.2003.815176", "umap_coordinates": { "x": 394.20367431640625, "y": 133.67098999023438, "z": 206.26231384277344 }, "tsne_coordinates": { "x": 1.1171315908432007, "y": -5.0591816902160645, "z": -43.724647521972656 }, "pca_coordinates": { "x": -0.5726594924926758, "y": 0.22278261184692383, "z": -0.771399974822998 }, "axis_scores": { "Quantum imaging": 0.7098404169082642, "Quantum Life Science Sensing": 0.7254483103752136, "Quantum sensing Detection": 0.7017409801483154, "Quantum sensing Metrology": 0.6902890801429749, "Quantum sensing navigation": 0.7081769108772278, "Quantum sensing Position": 0.6839645504951477, "Quantum sensing Timing": 0.6852561235427856, "Quantum sensing": 0.7222854495048523, "Quantum control": 0.6924165487289429 } }, { "id": 6437, "title": "Estimating skin blood saturation by selecting a subset of hyperspectral imaging data", "abstract": "Skin blood haemoglobin saturation (s(b)) can be estimated with hyperspectral imaging using the wavelength (lambda) range of 450-700 nm where haemoglobin absorption displays distinct spectral character...", "citations": 3, "author_count": 5, "categories": [ "Cell Biology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6444, "doi": "10.1117/12.2075292", "umap_coordinates": { "x": 395.3938293457031, "y": 132.8298797607422, "z": 206.0174102783203 }, "tsne_coordinates": { "x": -4.084108352661133, "y": 22.665102005004883, "z": -29.142024993896484 }, "pca_coordinates": { "x": -3.672409772872925, "y": 1.5234630107879639, "z": 2.0039172172546387 }, "axis_scores": { "Quantum imaging": 0.699760913848877, "Quantum Life Science Sensing": 0.6974866390228271, "Quantum sensing Detection": 0.700864851474762, "Quantum sensing Metrology": 0.688559353351593, "Quantum sensing navigation": 0.682615339756012, "Quantum sensing Position": 0.6830372214317322, "Quantum sensing Timing": 0.6723353862762451, "Quantum sensing": 0.7095409631729126, "Quantum control": 0.6525459289550781 } }, { "id": 6438, "title": "Exact results on finite size corrections for surface codes tailored to biased noise", "abstract": "The code-capacity threshold of a scalable quantum error correcting stabilizer code can be expressed as a thermodynamic phase transition of a corresponding random-bond Ising model. Here we study the XY...", "citations": 2, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6445, "doi": null, "umap_coordinates": { "x": 391.6690979003906, "y": 139.40846252441406, "z": 208.97605895996094 }, "tsne_coordinates": { "x": -10.089828491210938, "y": 45.73331069946289, "z": -11.230377197265625 }, "pca_coordinates": { "x": 0.3192429542541504, "y": 1.821441411972046, "z": -0.44298413395881653 }, "axis_scores": { "Quantum imaging": 0.6879459023475647, "Quantum Life Science Sensing": 0.7027618885040283, "Quantum sensing Detection": 0.6925169229507446, "Quantum sensing Metrology": 0.6932799816131592, "Quantum sensing navigation": 0.7123156189918518, "Quantum sensing Position": 0.6984307169914246, "Quantum sensing Timing": 0.6812968850135803, "Quantum sensing": 0.7079083323478699, "Quantum control": 0.6886489987373352 } }, { "id": 6439, "title": "The thermal state of molecular clouds in the Galactic center: evidence for non-photon-driven heating", "abstract": "We used the Atacama Pathfinder Experiment (APEX) 12 m telescope to observe the J(KAKc) = 3(03) -> 2(02), 3(22) -> 2(21), and 3(21) -> 2(20) transitions of para-H2CO at 218 GHz simultaneously to determ...", "citations": 140, "author_count": 10, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6446, "doi": "10.1051/0004-6361/201220096", "umap_coordinates": { "x": 395.2584533691406, "y": 135.59713745117188, "z": 205.92898559570312 }, "tsne_coordinates": { "x": -21.913698196411133, "y": 22.674264907836914, "z": 6.0929341316223145 }, "pca_coordinates": { "x": -0.6110101938247681, "y": 1.0682200193405151, "z": -0.3918816149234772 }, "axis_scores": { "Quantum imaging": 0.6934430003166199, "Quantum Life Science Sensing": 0.712232232093811, "Quantum sensing Detection": 0.6872804760932922, "Quantum sensing Metrology": 0.6643993854522705, "Quantum sensing navigation": 0.6760163307189941, "Quantum sensing Position": 0.6560293436050415, "Quantum sensing Timing": 0.6735857129096985, "Quantum sensing": 0.6923649311065674, "Quantum control": 0.6890080571174622 } }, { "id": 6440, "title": "Subendocardial versus transmural ischaemia in myocardial perfusion SPECT -: a Monte Carlo study", "abstract": "Myocardial perfusion imaging with single-photon emission computed tomography (SPECT) is useful for the evaluation of patients with known or suspected coronary artery disease. Parameters of interest ar...", "citations": 4, "author_count": 7, "categories": [ "Physiology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6447, "doi": "10.1111/j.1475-097X.2006.00705.x", "umap_coordinates": { "x": 395.5891418457031, "y": 133.69114685058594, "z": 204.5541534423828 }, "tsne_coordinates": { "x": -11.415865898132324, "y": 28.735811233520508, "z": -6.775142669677734 }, "pca_coordinates": { "x": -2.5321884155273438, "y": 4.292026996612549, "z": 1.4969849586486816 }, "axis_scores": { "Quantum imaging": 0.6955588459968567, "Quantum Life Science Sensing": 0.6599622964859009, "Quantum sensing Detection": 0.6653245687484741, "Quantum sensing Metrology": 0.6411646604537964, "Quantum sensing navigation": 0.6624705195426941, "Quantum sensing Position": 0.6482815146446228, "Quantum sensing Timing": 0.6555256247520447, "Quantum sensing": 0.667155385017395, "Quantum control": 0.6369135975837708 } }, { "id": 6441, "title": "Round-robin testing of commercial two-photon polymerization 3D printers", "abstract": "Since its introduction in the 1980s, 3D printing has advanced as a versatile and reliable tool with applications in different fields. Among the available 3D printing techniques, two-photon polymerizat...", "citations": 37, "author_count": 11, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6448, "doi": "10.1016/j.addma.2023.103761", "umap_coordinates": { "x": 394.44903564453125, "y": 133.56967163085938, "z": 204.6457977294922 }, "tsne_coordinates": { "x": 11.41820240020752, "y": 11.311613082885742, "z": -0.27624744176864624 }, "pca_coordinates": { "x": -5.386163234710693, "y": 1.320241093635559, "z": 1.0939035415649414 }, "axis_scores": { "Quantum imaging": 0.6891669631004333, "Quantum Life Science Sensing": 0.6989287734031677, "Quantum sensing Detection": 0.6845706701278687, "Quantum sensing Metrology": 0.6888350248336792, "Quantum sensing navigation": 0.6705296039581299, "Quantum sensing Position": 0.6720429062843323, "Quantum sensing Timing": 0.6780105829238892, "Quantum sensing": 0.6965680718421936, "Quantum control": 0.6669188737869263 } }, { "id": 6442, "title": "Heisenberg and anisotropic exchange interactions in magnetic materials with correlated electronic structure and significant spin-orbit coupling", "abstract": "The Dzyaloshinskii-Moriya (DM) interaction, as well as symmetric anisotropic exchange, are important ingredients for stabilizing topologically nontrivial magnetic textures, such as, e.g., skyrmions, m...", "citations": 43, "author_count": 12, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6449, "doi": "10.1103/PhysRevB.103.174422", "umap_coordinates": { "x": 393.09185791015625, "y": 136.48841857910156, "z": 208.49905395507812 }, "tsne_coordinates": { "x": -4.232107639312744, "y": -38.598026275634766, "z": 17.773822784423828 }, "pca_coordinates": { "x": 3.6827664375305176, "y": -1.299140453338623, "z": -1.7137525081634521 }, "axis_scores": { "Quantum imaging": 0.705177903175354, "Quantum Life Science Sensing": 0.6614598035812378, "Quantum sensing Detection": 0.6589509844779968, "Quantum sensing Metrology": 0.6497412323951721, "Quantum sensing navigation": 0.6752445101737976, "Quantum sensing Position": 0.645006537437439, "Quantum sensing Timing": 0.6402438879013062, "Quantum sensing": 0.6837273836135864, "Quantum control": 0.6683052778244019 } }, { "id": 6443, "title": "PET and SPECT Imaging of the EGFR Family (RTK Class I) in Oncology", "abstract": "The human epidermal growth factor receptor family (EGFR-family, other designations: HER family, RTK Class I) is strongly linked to oncogenic transformation. Its members are frequently overexpressed in...", "citations": 28, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6450, "doi": "10.3390/ijms22073663", "umap_coordinates": { "x": 394.86749267578125, "y": 133.48402404785156, "z": 204.4364013671875 }, "tsne_coordinates": { "x": 1.656042456626892, "y": 28.597930908203125, "z": -10.740843772888184 }, "pca_coordinates": { "x": -4.047460556030273, "y": 2.0963940620422363, "z": -0.8291754722595215 }, "axis_scores": { "Quantum imaging": 0.7498463988304138, "Quantum Life Science Sensing": 0.7438334226608276, "Quantum sensing Detection": 0.707450807094574, "Quantum sensing Metrology": 0.7067850828170776, "Quantum sensing navigation": 0.7101354002952576, "Quantum sensing Position": 0.672042727470398, "Quantum sensing Timing": 0.6842154264450073, "Quantum sensing": 0.719072699546814, "Quantum control": 0.6754588484764099 } }, { "id": 6444, "title": "A focused very high energy electron beam for fractionated stereotactic radiotherapy", "abstract": "An electron beam of very high energy (50-250 MeV) can potentially produce a more favourable radiotherapy dose distribution compared to a state-of-the-art photon based radiotherapy technique. To produc...", "citations": 30, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6451, "doi": "10.1038/s41598-021-85451-8", "umap_coordinates": { "x": 395.0325012207031, "y": 133.88900756835938, "z": 205.04464721679688 }, "tsne_coordinates": { "x": -2.9966397285461426, "y": 18.057109832763672, "z": -11.043445587158203 }, "pca_coordinates": { "x": -2.831005811691284, "y": -0.13453125953674316, "z": 1.8213472366333008 }, "axis_scores": { "Quantum imaging": 0.6631985306739807, "Quantum Life Science Sensing": 0.6713969707489014, "Quantum sensing Detection": 0.6278438568115234, "Quantum sensing Metrology": 0.6327444911003113, "Quantum sensing navigation": 0.6503282189369202, "Quantum sensing Position": 0.6338993310928345, "Quantum sensing Timing": 0.6206827759742737, "Quantum sensing": 0.6491664052009583, "Quantum control": 0.6240174770355225 } }, { "id": 6445, "title": "Measuring the α-particle charge radius with muonic helium-4 ions", "abstract": "The energy levels of hydrogen-like atomic systems can be calculated with great precision. Starting from their quantum mechanical solution, they have been refined over the years to include the electron...", "citations": 107, "author_count": 42, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6452, "doi": "10.1038/s41586-021-03183-1", "umap_coordinates": { "x": 396.1078186035156, "y": 134.92990112304688, "z": 206.9275665283203 }, "tsne_coordinates": { "x": -31.74042510986328, "y": 18.07706642150879, "z": -6.7927422523498535 }, "pca_coordinates": { "x": -0.29342222213745117, "y": 1.7360420227050781, "z": 1.7015538215637207 }, "axis_scores": { "Quantum imaging": 0.7066904306411743, "Quantum Life Science Sensing": 0.7314064502716064, "Quantum sensing Detection": 0.7162614464759827, "Quantum sensing Metrology": 0.7153838872909546, "Quantum sensing navigation": 0.7112711668014526, "Quantum sensing Position": 0.7366601228713989, "Quantum sensing Timing": 0.6998060345649719, "Quantum sensing": 0.7202911376953125, "Quantum control": 0.6709215044975281 } }, { "id": 6446, "title": "ENERGY-DEPOSITION DISTRIBUTIONS IN MATERIALS IRRADIATED BY PLANE-PARALLEL ELECTRON-BEAMS WITH ENERGIES BETWEEN 0.1 AND 100 MEV", "abstract": "Tables of energy-deposition distributions in absorbers irradiated by plane-parallel electron beams with incident energies between 0.1 and 100 MeV are presented. The absorbers considered are elemental ...", "citations": 28, "author_count": 4, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6453, "doi": "10.1006/adnd.1994.1003", "umap_coordinates": { "x": 394.95770263671875, "y": 133.4585418701172, "z": 205.4864501953125 }, "tsne_coordinates": { "x": -18.473581314086914, "y": 16.020708084106445, "z": -2.9265284538269043 }, "pca_coordinates": { "x": -2.0678558349609375, "y": -0.666567325592041, "z": 2.2683920860290527 }, "axis_scores": { "Quantum imaging": 0.6809892654418945, "Quantum Life Science Sensing": 0.679436206817627, "Quantum sensing Detection": 0.6536098718643188, "Quantum sensing Metrology": 0.6535390615463257, "Quantum sensing navigation": 0.6561543345451355, "Quantum sensing Position": 0.6625831127166748, "Quantum sensing Timing": 0.6395717859268188, "Quantum sensing": 0.6610881686210632, "Quantum control": 0.6190016865730286 } }, { "id": 6447, "title": "Spectral detection of ultraviolet laser induced fluorescence from individual bioaerosol particles", "abstract": "We present results of a measurement system designed for detecting the fluorescence spectrum of individual aerosol particles of biological warfare agents excited with laser pulses at wavelengths around...", "citations": 5, "author_count": 9, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6454, "doi": "10.1117/12.689666", "umap_coordinates": { "x": 394.3206481933594, "y": 133.8165740966797, "z": 205.80934143066406 }, "tsne_coordinates": { "x": 1.7585437297821045, "y": 13.064523696899414, "z": -26.994882583618164 }, "pca_coordinates": { "x": -2.9028496742248535, "y": -1.062544822692871, "z": 1.2256207466125488 }, "axis_scores": { "Quantum imaging": 0.7190672755241394, "Quantum Life Science Sensing": 0.7556776404380798, "Quantum sensing Detection": 0.719985842704773, "Quantum sensing Metrology": 0.717512309551239, "Quantum sensing navigation": 0.6929208040237427, "Quantum sensing Position": 0.6915894746780396, "Quantum sensing Timing": 0.6518268585205078, "Quantum sensing": 0.7312585115432739, "Quantum control": 0.6619723439216614 } }, { "id": 6448, "title": "An Exploration of Substituent Effects on the Photophysical Properties of Monobenzopentalenes", "abstract": "Monobenzopentalenes have received moderate attention compared to dibenzopentalenes, yet their accessibility as stable, non-symmetric structures with diverse substituents could be interesting for mater...", "citations": 3, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6455, "doi": "10.1002/cphc.202300737", "umap_coordinates": { "x": 392.6136779785156, "y": 135.67759704589844, "z": 204.5446319580078 }, "tsne_coordinates": { "x": 3.3577706813812256, "y": 9.431490898132324, "z": -3.991694450378418 }, "pca_coordinates": { "x": -3.3217339515686035, "y": 0.22739100456237793, "z": -2.13565993309021 }, "axis_scores": { "Quantum imaging": 0.7110686898231506, "Quantum Life Science Sensing": 0.7259927988052368, "Quantum sensing Detection": 0.6934794187545776, "Quantum sensing Metrology": 0.6992769241333008, "Quantum sensing navigation": 0.6710888147354126, "Quantum sensing Position": 0.687400221824646, "Quantum sensing Timing": 0.6579190492630005, "Quantum sensing": 0.7138351202011108, "Quantum control": 0.6958282589912415 } }, { "id": 6449, "title": "The SRG/eROSITA All-Sky Survey Dark Energy Survey year 3 weak gravitational lensing by eRASS1 selected galaxy clusters", "abstract": "Context. Number counts of galaxy clusters across redshift are a powerful cosmological probe if a precise and accurate reconstruction of the underlying mass distribution is performed - a challenge call...", "citations": 36, "author_count": 123, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6456, "doi": "10.1051/0004-6361/202348615", "umap_coordinates": { "x": 396.2768249511719, "y": 135.3627471923828, "z": 205.8775634765625 }, "tsne_coordinates": { "x": -25.888629913330078, "y": 23.489410400390625, "z": 3.5916502475738525 }, "pca_coordinates": { "x": -1.0953863859176636, "y": 1.8850014209747314, "z": -0.7080627679824829 }, "axis_scores": { "Quantum imaging": 0.6671256422996521, "Quantum Life Science Sensing": 0.6989004015922546, "Quantum sensing Detection": 0.6607460975646973, "Quantum sensing Metrology": 0.6493058204650879, "Quantum sensing navigation": 0.677379310131073, "Quantum sensing Position": 0.646579384803772, "Quantum sensing Timing": 0.6510241031646729, "Quantum sensing": 0.6729187965393066, "Quantum control": 0.665260374546051 } }, { "id": 6450, "title": "Towards Experiments to Test Violation of the Original Bell Inequality", "abstract": "The aim of this paper is to attract the attention of experimenters to the original Bell (OB) inequality that was shadowed by the common consideration of the Clauser-Horne-Shimony-Holt (CHSH) inequalit...", "citations": 7, "author_count": 3, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6457, "doi": "10.3390/e20040280", "umap_coordinates": { "x": 395.64141845703125, "y": 136.32421875, "z": 206.04302978515625 }, "tsne_coordinates": { "x": -25.51535987854004, "y": 14.710166931152344, "z": 8.26026725769043 }, "pca_coordinates": { "x": -0.551819920539856, "y": 3.688091993331909, "z": -1.265031099319458 }, "axis_scores": { "Quantum imaging": 0.6977459192276001, "Quantum Life Science Sensing": 0.7267876267433167, "Quantum sensing Detection": 0.7048680186271667, "Quantum sensing Metrology": 0.696764349937439, "Quantum sensing navigation": 0.7199004888534546, "Quantum sensing Position": 0.7096477746963501, "Quantum sensing Timing": 0.680092990398407, "Quantum sensing": 0.7163308262825012, "Quantum control": 0.709976077079773 } }, { "id": 6451, "title": "On the parabolic Cauchy problem for quantum graphs with vertex noise", "abstract": "We investigate the parabolic Cauchy problem associated with quantum graphs includ-ing Lipschitz or polynomial type nonlinearities and additive Gaussian noise perturbed vertex conditions. The vertex co...", "citations": 1, "author_count": 3, "categories": [ "Mathematics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6458, "doi": "10.1214/23-EJP962", "umap_coordinates": { "x": 395.1865234375, "y": 136.64874267578125, "z": 206.9732666015625 }, "tsne_coordinates": { "x": -22.55803871154785, "y": -0.3908514678478241, "z": -4.722395420074463 }, "pca_coordinates": { "x": 1.3876209259033203, "y": 2.0951693058013916, "z": 1.582934856414795 }, "axis_scores": { "Quantum imaging": 0.6958050727844238, "Quantum Life Science Sensing": 0.6919234395027161, "Quantum sensing Detection": 0.6977688670158386, "Quantum sensing Metrology": 0.6760587096214294, "Quantum sensing navigation": 0.7168634533882141, "Quantum sensing Position": 0.695275068283081, "Quantum sensing Timing": 0.6736295223236084, "Quantum sensing": 0.6990072131156921, "Quantum control": 0.7026157379150391 } }, { "id": 6452, "title": "Examining the Limits of Physical Theory: Analytical Principles and Logical Implications", "abstract": "Owing to the remarkable agreement between precise quantum chemical predictions and the most accurate experiments including sophisticated advanced instrumentation, it is usually concluded that the many...", "citations": 13, "author_count": 2, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6459, "doi": "10.1016/B978-0-12-397009-1.00002-3", "umap_coordinates": { "x": 394.6824035644531, "y": 135.98486328125, "z": 205.6460418701172 }, "tsne_coordinates": { "x": -28.98070526123047, "y": 5.531794548034668, "z": 8.982192993164062 }, "pca_coordinates": { "x": -0.35682570934295654, "y": 2.9694650173187256, "z": -1.5610203742980957 }, "axis_scores": { "Quantum imaging": 0.7096037864685059, "Quantum Life Science Sensing": 0.7376436591148376, "Quantum sensing Detection": 0.7192927002906799, "Quantum sensing Metrology": 0.705549955368042, "Quantum sensing navigation": 0.7075601816177368, "Quantum sensing Position": 0.7135135531425476, "Quantum sensing Timing": 0.6953844428062439, "Quantum sensing": 0.7251091599464417, "Quantum control": 0.6933917999267578 } }, { "id": 6453, "title": "Exhibiting environment sensitive optical properties through multiscale modelling: A study of photoactivatable probes", "abstract": "To assess a tumor biomarker like the cyclooxygenase-2 enzyme (COX-2), non-invasive imaging techniques are powerful tools. The (non-) linear optical properties of activatable fluorescent probes which a...", "citations": 3, "author_count": 5, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6460, "doi": "10.1016/j.jphotochem.2021.113672", "umap_coordinates": { "x": 393.27410888671875, "y": 135.62156677246094, "z": 204.65777587890625 }, "tsne_coordinates": { "x": 3.991279363632202, "y": 20.44580078125, "z": 1.2356098890304565 }, "pca_coordinates": { "x": -3.814284086227417, "y": 0.4958329200744629, "z": -0.5314705967903137 }, "axis_scores": { "Quantum imaging": 0.7554621696472168, "Quantum Life Science Sensing": 0.7545475959777832, "Quantum sensing Detection": 0.724853515625, "Quantum sensing Metrology": 0.7183797955513, "Quantum sensing navigation": 0.7210685610771179, "Quantum sensing Position": 0.6922565698623657, "Quantum sensing Timing": 0.6799277067184448, "Quantum sensing": 0.7462924718856812, "Quantum control": 0.7094794511795044 } }, { "id": 6454, "title": "Collision-kerma conversion between dose-to-tissue and dose-to-water by photon energy-fluence corrections in low-energy brachytherapy", "abstract": "The AAPM TG-43 brachytherapy dosimetry formalism, introduced in 1995, has become a standard for brachytherapy dosimetry worldwide; it implicitly assumes that charged-particle equilibrium (CPE) exists ...", "citations": 5, "author_count": 7, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6461, "doi": "10.1088/1361-6560/aa4f6a", "umap_coordinates": { "x": 396.0675048828125, "y": 133.6785125732422, "z": 205.3235321044922 }, "tsne_coordinates": { "x": -15.4690580368042, "y": 28.449277877807617, "z": -19.112892150878906 }, "pca_coordinates": { "x": 0.16300654411315918, "y": 2.9159860610961914, "z": 2.258577823638916 }, "axis_scores": { "Quantum imaging": 0.6608836650848389, "Quantum Life Science Sensing": 0.6511973142623901, "Quantum sensing Detection": 0.645500898361206, "Quantum sensing Metrology": 0.6211625933647156, "Quantum sensing navigation": 0.6466015577316284, "Quantum sensing Position": 0.6170619130134583, "Quantum sensing Timing": 0.6503486037254333, "Quantum sensing": 0.6500365734100342, "Quantum control": 0.6204735636711121 } }, { "id": 6455, "title": "On-chip fabrication of tailored 3D hydrogel scaffolds to model cancer cell invasion and interaction with endothelial cells", "abstract": "The high mortality associated with certain cancers can be attributed to the invasive nature of the tumor cells. Yet, the complexity of studying invasion hinders our understanding of how the tumor spre...", "citations": 2, "author_count": 8, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6462, "doi": "10.1063/5.0227135", "umap_coordinates": { "x": 394.8362121582031, "y": 133.94061279296875, "z": 204.41018676757812 }, "tsne_coordinates": { "x": 3.7529709339141846, "y": 23.087692260742188, "z": -15.362377166748047 }, "pca_coordinates": { "x": -1.8536195755004883, "y": 0.564471960067749, "z": 0.6194633841514587 }, "axis_scores": { "Quantum imaging": 0.7166945338249207, "Quantum Life Science Sensing": 0.6954979300498962, "Quantum sensing Detection": 0.6872204542160034, "Quantum sensing Metrology": 0.6781929731369019, "Quantum sensing navigation": 0.6914212107658386, "Quantum sensing Position": 0.6685134172439575, "Quantum sensing Timing": 0.6521613597869873, "Quantum sensing": 0.7033013105392456, "Quantum control": 0.6971349716186523 } }, { "id": 6456, "title": "Periodogram-Based Detection of Unknown Frequencies in Time-Resolved Scanning Transmission X-ray Microscopy", "abstract": "Pump-probe time-resolved imaging is a powerful technique that enables the investigation of dynamical processes. Signal-to-noise and sampling rate restrictions normally require that cycles of an excita...", "citations": 1, "author_count": 5, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6463, "doi": "10.1021/acsnano.2c08874", "umap_coordinates": { "x": 394.6781921386719, "y": 134.59205627441406, "z": 205.86892700195312 }, "tsne_coordinates": { "x": 3.8946175575256348, "y": 20.852476119995117, "z": -35.02549362182617 }, "pca_coordinates": { "x": -1.260018229484558, "y": 1.0680369138717651, "z": 0.7581812739372253 }, "axis_scores": { "Quantum imaging": 0.7181248664855957, "Quantum Life Science Sensing": 0.7360864281654358, "Quantum sensing Detection": 0.7074505090713501, "Quantum sensing Metrology": 0.7020975351333618, "Quantum sensing navigation": 0.7001761794090271, "Quantum sensing Position": 0.715099036693573, "Quantum sensing Timing": 0.7452392578125, "Quantum sensing": 0.7128507494926453, "Quantum control": 0.6543182134628296 } }, { "id": 6457, "title": "Strong spin-orbit interaction and magnetotransport in semiconductor Bi2O2Se nanoplates", "abstract": "Semiconductor Bi2O2Se nanolayers of high crystal quality have been realized via epitaxial growth. These two-dimensional (2D) materials possess excellent electron transport properties with potential ap...", "citations": 59, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6464, "doi": "10.1039/c7nr08874d", "umap_coordinates": { "x": 392.4554138183594, "y": 135.4785919189453, "z": 207.88327026367188 }, "tsne_coordinates": { "x": 15.614471435546875, "y": -21.846731185913086, "z": 2.2345259189605713 }, "pca_coordinates": { "x": 0.4031960964202881, "y": -3.7114782333374023, "z": -0.9657716155052185 }, "axis_scores": { "Quantum imaging": 0.7112729549407959, "Quantum Life Science Sensing": 0.722102165222168, "Quantum sensing Detection": 0.7068406939506531, "Quantum sensing Metrology": 0.7083876729011536, "Quantum sensing navigation": 0.695726215839386, "Quantum sensing Position": 0.6846110820770264, "Quantum sensing Timing": 0.6679550409317017, "Quantum sensing": 0.7194992899894714, "Quantum control": 0.6731592416763306 } }, { "id": 6458, "title": "Quantum Models for Psychological Measurements: An Unsolved Problem", "abstract": "There has been a strong recent interest in applying quantum theory (QT) outside physics, including in cognitive science. We analyze the applicability of QT to two basic properties in opinion polling. ...", "citations": 79, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6465, "doi": "10.1371/journal.pone.0110909", "umap_coordinates": { "x": 395.3013000488281, "y": 137.4100799560547, "z": 205.7650604248047 }, "tsne_coordinates": { "x": -20.575027465820312, "y": 8.343704223632812, "z": 14.276190757751465 }, "pca_coordinates": { "x": 2.001410484313965, "y": 3.786515951156616, "z": 0.5687952637672424 }, "axis_scores": { "Quantum imaging": 0.7720246315002441, "Quantum Life Science Sensing": 0.7704305648803711, "Quantum sensing Detection": 0.7756844758987427, "Quantum sensing Metrology": 0.7861844897270203, "Quantum sensing navigation": 0.7811554074287415, "Quantum sensing Position": 0.761949896812439, "Quantum sensing Timing": 0.7641234993934631, "Quantum sensing": 0.7864094376564026, "Quantum control": 0.747897207736969 } }, { "id": 6459, "title": "Ionic fluids with r-6 pair interactions have power-law electrostatic screening", "abstract": "The decay behaviour of radial distribution functions for large distances r is investigated for classical Coulomb fluids where the ions interact with an r(-6) potential (e.g. a dispersion interaction) ...", "citations": 16, "author_count": 3, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6466, "doi": "10.1088/0305-4470/38/24/002", "umap_coordinates": { "x": 394.2445373535156, "y": 136.33706665039062, "z": 206.3521270751953 }, "tsne_coordinates": { "x": -17.20050048828125, "y": -4.599621772766113, "z": 29.416719436645508 }, "pca_coordinates": { "x": -0.34664446115493774, "y": 1.1314467191696167, "z": -0.3294401466846466 }, "axis_scores": { "Quantum imaging": 0.6470848917961121, "Quantum Life Science Sensing": 0.6759737133979797, "Quantum sensing Detection": 0.6317824125289917, "Quantum sensing Metrology": 0.6149242520332336, "Quantum sensing navigation": 0.6539427638053894, "Quantum sensing Position": 0.6349117159843445, "Quantum sensing Timing": 0.6106324195861816, "Quantum sensing": 0.6443917751312256, "Quantum control": 0.6256548166275024 } }, { "id": 6460, "title": "Locating Functionalized Gold Nanoparticles Using Electrical Impedance Tomography", "abstract": "Objective: An imaging device to locate functionalised nanoparticles, whereby therapeutic agents are transported from the site of administration specifically to diseased tissues, remains a challenge fo...", "citations": 1, "author_count": 13, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6467, "doi": "10.1109/TBME.2021.3100256", "umap_coordinates": { "x": 394.1918640136719, "y": 133.7449951171875, "z": 205.51084899902344 }, "tsne_coordinates": { "x": 22.031513214111328, "y": 19.549829483032227, "z": -16.90016746520996 }, "pca_coordinates": { "x": -2.657388687133789, "y": -0.5769548416137695, "z": 1.1512510776519775 }, "axis_scores": { "Quantum imaging": 0.7252645492553711, "Quantum Life Science Sensing": 0.7470607161521912, "Quantum sensing Detection": 0.7360290288925171, "Quantum sensing Metrology": 0.7482482194900513, "Quantum sensing navigation": 0.7400522828102112, "Quantum sensing Position": 0.751960277557373, "Quantum sensing Timing": 0.7324925065040588, "Quantum sensing": 0.7373249530792236, "Quantum control": 0.6803234219551086 } }, { "id": 6461, "title": "Inhalation Anesthesia Increases V/Q Regional Heterogeneity during Spontaneous Breathing in Healthy Subjects", "abstract": "Background The underlying mechanism for the increased alveolar-arterial oxygen tension difference resulting from almost all forms of general anesthesia is unknown We hypothesized that inhalation anest...", "citations": 12, "author_count": 8, "categories": [ "Anesthesiology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6468, "doi": "10.1097/ALN.0b013e3181fc5788", "umap_coordinates": { "x": 394.7615661621094, "y": 134.66891479492188, "z": 204.70603942871094 }, "tsne_coordinates": { "x": 0.23827345669269562, "y": 30.912687301635742, "z": -2.4051265716552734 }, "pca_coordinates": { "x": -1.8358080387115479, "y": 2.204493761062622, "z": -1.534102439880371 }, "axis_scores": { "Quantum imaging": 0.6677875518798828, "Quantum Life Science Sensing": 0.6725584268569946, "Quantum sensing Detection": 0.6431990265846252, "Quantum sensing Metrology": 0.6438229084014893, "Quantum sensing navigation": 0.6548183560371399, "Quantum sensing Position": 0.6443048119544983, "Quantum sensing Timing": 0.626797080039978, "Quantum sensing": 0.664246141910553, "Quantum control": 0.6529764533042908 } }, { "id": 6462, "title": "CEREBRAL BLOOD-FLOW IN PATIENTS WITH SEVERE HYPERTENSION, AND ACUTE AND CHRONIC EFFECTS OF FELODIPINE", "abstract": "Objectives: To evaluate whether a spontaneous increase in cerebral blood flow (CBF) could be observed in subjects with severe hypertension and to study the effect of a calcium antagonist, felodipine, ...", "citations": 30, "author_count": 7, "categories": [ "Cardiovascular System & Cardiology" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6469, "doi": "10.1097/00004872-199301000-00012", "umap_coordinates": { "x": 395.4314880371094, "y": 134.66610717773438, "z": 204.42434692382812 }, "tsne_coordinates": { "x": -1.7585084438323975, "y": 30.753583908081055, "z": -0.03087986260652542 }, "pca_coordinates": { "x": -0.7405319213867188, "y": 4.369834899902344, "z": -1.0830509662628174 }, "axis_scores": { "Quantum imaging": 0.6855981349945068, "Quantum Life Science Sensing": 0.6608276963233948, "Quantum sensing Detection": 0.6452988982200623, "Quantum sensing Metrology": 0.6305335760116577, "Quantum sensing navigation": 0.6583552360534668, "Quantum sensing Position": 0.6251593232154846, "Quantum sensing Timing": 0.6350687742233276, "Quantum sensing": 0.6566025614738464, "Quantum control": 0.6636578440666199 } }, { "id": 6463, "title": "Electrostatics and polarization determine the strength of the halogen bond: a red card for charge transfer", "abstract": "A series of 20 halogen bonded complexes of the types R-Br center dot center dot center dot Br- (R is a substituted methyl group) and R '-CC-Br center dot center dot center dot Br- are investigated at ...", "citations": 47, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6470, "doi": "10.1007/s00894-019-4014-7", "umap_coordinates": { "x": 394.68304443359375, "y": 135.50485229492188, "z": 205.4761962890625 }, "tsne_coordinates": { "x": -5.925876617431641, "y": 17.871395111083984, "z": 10.986591339111328 }, "pca_coordinates": { "x": -2.5368363857269287, "y": 0.8824882507324219, "z": -2.128523826599121 }, "axis_scores": { "Quantum imaging": 0.6823402643203735, "Quantum Life Science Sensing": 0.7028346061706543, "Quantum sensing Detection": 0.6738536953926086, "Quantum sensing Metrology": 0.6578121185302734, "Quantum sensing navigation": 0.6807066798210144, "Quantum sensing Position": 0.6908935904502869, "Quantum sensing Timing": 0.6636950373649597, "Quantum sensing": 0.6887073516845703, "Quantum control": 0.6800771951675415 } }, { "id": 6464, "title": "Belt-Shaped π-Systems: Relating Geometry to Electronic Structure in a Six-Porphyrin Nanoring", "abstract": "Linear pi-conjugated oligomers have been widely investigated, but the behavior of the corresponding cyclic oligomers is poorly understood, despite the recent synthesis of pi-conjugated macrocycles suc...", "citations": 206, "author_count": 18, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6471, "doi": "10.1021/ja2045919", "umap_coordinates": { "x": 392.546630859375, "y": 136.68324279785156, "z": 206.07577514648438 }, "tsne_coordinates": { "x": 31.28167152404785, "y": -7.8625102043151855, "z": 22.310815811157227 }, "pca_coordinates": { "x": -0.40894615650177, "y": -0.8697628974914551, "z": -2.6662542819976807 }, "axis_scores": { "Quantum imaging": 0.6817436218261719, "Quantum Life Science Sensing": 0.7228120565414429, "Quantum sensing Detection": 0.673133909702301, "Quantum sensing Metrology": 0.6860471963882446, "Quantum sensing navigation": 0.688825786113739, "Quantum sensing Position": 0.7019171714782715, "Quantum sensing Timing": 0.680022656917572, "Quantum sensing": 0.6925007104873657, "Quantum control": 0.6501317620277405 } }, { "id": 6465, "title": "Mn-Rich MnSb2Te4: A Topological Insulator with Magnetic Gap Closing at High Curie Temperatures of 45-50 K", "abstract": "Ferromagnetic topological insulators exhibit the quantum anomalous Hall effect, which is potentially useful for high-precision metrology, edge channel spintronics, and topological qubits. The stable 2...", "citations": 118, "author_count": 22, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6472, "doi": "10.1002/adma.202102935", "umap_coordinates": { "x": 392.22808837890625, "y": 135.50917053222656, "z": 206.60671997070312 }, "tsne_coordinates": { "x": 20.137004852294922, "y": -23.253602981567383, "z": 27.11899185180664 }, "pca_coordinates": { "x": -0.36849749088287354, "y": -1.3587045669555664, "z": -1.6612073183059692 }, "axis_scores": { "Quantum imaging": 0.672042965888977, "Quantum Life Science Sensing": 0.6751506328582764, "Quantum sensing Detection": 0.6703916788101196, "Quantum sensing Metrology": 0.6968706250190735, "Quantum sensing navigation": 0.6809983849525452, "Quantum sensing Position": 0.6595373749732971, "Quantum sensing Timing": 0.6651027798652649, "Quantum sensing": 0.6840096116065979, "Quantum control": 0.6482693552970886 } }, { "id": 6466, "title": "Use of 113Cd NMR to Probe the Native Metal Binding Sites in Metalloproteins: An Overview", "abstract": "Our laboratories have actively published in this area for several years and the objective of this chapter is to present as comprehensive an overview as possible. Following a brief review of the basic ...", "citations": 32, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6473, "doi": "10.1007/978-94-007-5179-8_6", "umap_coordinates": { "x": 394.1114196777344, "y": 135.24879455566406, "z": 204.8073272705078 }, "tsne_coordinates": { "x": -14.734691619873047, "y": 20.18869972229004, "z": 2.813070058822632 }, "pca_coordinates": { "x": -2.450897216796875, "y": 2.440429449081421, "z": -1.6983776092529297 }, "axis_scores": { "Quantum imaging": 0.7209040522575378, "Quantum Life Science Sensing": 0.7256951332092285, "Quantum sensing Detection": 0.7085641622543335, "Quantum sensing Metrology": 0.7071808576583862, "Quantum sensing navigation": 0.7066076397895813, "Quantum sensing Position": 0.6970704197883606, "Quantum sensing Timing": 0.6774522066116333, "Quantum sensing": 0.7189182043075562, "Quantum control": 0.6821064949035645 } }, { "id": 6467, "title": "From the adiabatic theorem of quantum mechanics to topological states of matter", "abstract": "Owing to the enormous interest the rapidly growing field of topological states of matter (TSM) has attracted in recent years, the main focus of this review is on the theoretical foundations of TSM. St...", "citations": 67, "author_count": 3, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6474, "doi": "10.1002/pssr.201206416", "umap_coordinates": { "x": 394.60101318359375, "y": 137.45510864257812, "z": 206.64198303222656 }, "tsne_coordinates": { "x": -30.89692497253418, "y": 12.830962181091309, "z": 15.744397163391113 }, "pca_coordinates": { "x": 2.2967581748962402, "y": 2.083040952682495, "z": -1.5448839664459229 }, "axis_scores": { "Quantum imaging": 0.7117419838905334, "Quantum Life Science Sensing": 0.7372631430625916, "Quantum sensing Detection": 0.7224970459938049, "Quantum sensing Metrology": 0.7344114780426025, "Quantum sensing navigation": 0.7433485984802246, "Quantum sensing Position": 0.7261113524436951, "Quantum sensing Timing": 0.711136519908905, "Quantum sensing": 0.7331849336624146, "Quantum control": 0.7145068645477295 } }, { "id": 6468, "title": "Bioaerosol detection and classification using dual excitation wavelength laser-induced fluorescence", "abstract": "We present results obtained by a detection system designed to measure laser-induced fluorescence from individual aerosol particles using dual excitation wavelengths. The aerosol is sampled from ambien...", "citations": 4, "author_count": 7, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6475, "doi": "10.1117/12.2176744", "umap_coordinates": { "x": 394.2038879394531, "y": 133.91981506347656, "z": 205.5393524169922 }, "tsne_coordinates": { "x": 1.852480173110962, "y": 13.319620132446289, "z": -27.1307315826416 }, "pca_coordinates": { "x": -4.628584384918213, "y": -0.26361608505249023, "z": 0.8829819560050964 }, "axis_scores": { "Quantum imaging": 0.7322614192962646, "Quantum Life Science Sensing": 0.768430769443512, "Quantum sensing Detection": 0.7430639266967773, "Quantum sensing Metrology": 0.726800799369812, "Quantum sensing navigation": 0.7090285420417786, "Quantum sensing Position": 0.6873658895492554, "Quantum sensing Timing": 0.6647003889083862, "Quantum sensing": 0.7448810338973999, "Quantum control": 0.6730515956878662 } }, { "id": 6469, "title": "Molecular-dynamics simulation of structural and conformational properties of poly(propylene oxide)", "abstract": "Molecular-dynamics simulations of poly(propylene oxide) (PPO) have been performed in the temperature range 300 K less than or equal to T less than or equal to 450 K using a newly developed atomistic f...", "citations": 17, "author_count": 7, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6476, "doi": "10.1063/1.481700", "umap_coordinates": { "x": 393.21337890625, "y": 136.62368774414062, "z": 206.29014587402344 }, "tsne_coordinates": { "x": -4.1631083488464355, "y": 2.433284044265747, "z": 31.566699981689453 }, "pca_coordinates": { "x": 1.6358447074890137, "y": 0.4073343276977539, "z": -2.0825819969177246 }, "axis_scores": { "Quantum imaging": 0.7373552322387695, "Quantum Life Science Sensing": 0.7561693787574768, "Quantum sensing Detection": 0.7245545387268066, "Quantum sensing Metrology": 0.7084872722625732, "Quantum sensing navigation": 0.7101670503616333, "Quantum sensing Position": 0.7147207260131836, "Quantum sensing Timing": 0.7065319418907166, "Quantum sensing": 0.7422322630882263, "Quantum control": 0.7357468008995056 } }, { "id": 6470, "title": "The dual rod system of amphibians supports colour discrimination at the absolute visual threshold", "abstract": "The presence of two spectrally different kinds of rod photoreceptors in amphibians has been hypothesized to enable purely rod-based colour vision at very low light levels. The hypothesis has never bee...", "citations": 87, "author_count": 7, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6477, "doi": "10.1098/rstb.2016.0066", "umap_coordinates": { "x": 394.69537353515625, "y": 136.39962768554688, "z": 204.5428466796875 }, "tsne_coordinates": { "x": -10.839245796203613, "y": 30.411727905273438, "z": 20.276309967041016 }, "pca_coordinates": { "x": -1.4818540811538696, "y": 2.048535108566284, "z": 0.22223299741744995 }, "axis_scores": { "Quantum imaging": 0.7086496949195862, "Quantum Life Science Sensing": 0.722009539604187, "Quantum sensing Detection": 0.70796799659729, "Quantum sensing Metrology": 0.6863340735435486, "Quantum sensing navigation": 0.7052521109580994, "Quantum sensing Position": 0.6973214149475098, "Quantum sensing Timing": 0.7024505734443665, "Quantum sensing": 0.714564859867096, "Quantum control": 0.6726751923561096 } }, { "id": 6471, "title": "Quantum-mechanical study of vibrational relaxation of HF in collisions with Ar atoms", "abstract": "Vibrational relaxation cross sections and rate constants of HF(v=1) by Ar are calculated on a recent semiempirical potential energy surface (PES) [J. Chem. Phys. 111, 2470 (1999)] using the quantum-me...", "citations": 30, "author_count": 5, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6478, "doi": "10.1063/1.1333704", "umap_coordinates": { "x": 393.3294372558594, "y": 136.59254455566406, "z": 207.26641845703125 }, "tsne_coordinates": { "x": -7.624245643615723, "y": 7.175615310668945, "z": 35.126197814941406 }, "pca_coordinates": { "x": 3.2635951042175293, "y": 1.7103625535964966, "z": -1.9730043411254883 }, "axis_scores": { "Quantum imaging": 0.7165321111679077, "Quantum Life Science Sensing": 0.7372937202453613, "Quantum sensing Detection": 0.7114433646202087, "Quantum sensing Metrology": 0.7054270505905151, "Quantum sensing navigation": 0.6973749995231628, "Quantum sensing Position": 0.6806318759918213, "Quantum sensing Timing": 0.6842584609985352, "Quantum sensing": 0.7295767068862915, "Quantum control": 0.7066253423690796 } }, { "id": 6472, "title": "Comparative proton and photon treatment plans in children treated for neuroblastoma", "abstract": "Background and purpose: Neuroblastoma is the most common extracranial solid tumour in children. Radiotherapy is commonly part of the multimodal treatment for high-risk patients. The aim of this study ...", "citations": 2, "author_count": 11, "categories": [ "Oncology" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6479, "doi": "10.2340/1651-226X.2025.43865", "umap_coordinates": { "x": 395.9336242675781, "y": 133.47384643554688, "z": 204.890625 }, "tsne_coordinates": { "x": -7.848703861236572, "y": 26.643709182739258, "z": -5.649661540985107 }, "pca_coordinates": { "x": -1.25290048122406, "y": 2.282339572906494, "z": 1.85481595993042 }, "axis_scores": { "Quantum imaging": 0.6608115434646606, "Quantum Life Science Sensing": 0.6738799214363098, "Quantum sensing Detection": 0.6342214345932007, "Quantum sensing Metrology": 0.6525253653526306, "Quantum sensing navigation": 0.6728760004043579, "Quantum sensing Position": 0.6547693610191345, "Quantum sensing Timing": 0.6555044651031494, "Quantum sensing": 0.6506279110908508, "Quantum control": 0.6342468857765198 } }, { "id": 6473, "title": "Is calcaneal stiffness more sensitive to physical activity than forearm bone mineral density? A population-based study of persons aged 20-79 years", "abstract": "Aims: The aim of this study was to investigate the associations between forearm bone mineral density (BMD), calcaneal stiffness, and physical activity levels in a normal population using different non...", "citations": 7, "author_count": 7, "categories": [ "Public", "Environmental & Occupational Health" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6480, "doi": "10.1080/14034940410026273", "umap_coordinates": { "x": 395.26873779296875, "y": 134.7920684814453, "z": 204.3644256591797 }, "tsne_coordinates": { "x": -3.484192132949829, "y": 35.834022521972656, "z": 11.95307445526123 }, "pca_coordinates": { "x": -2.6371121406555176, "y": 3.078911542892456, "z": -0.5035808086395264 }, "axis_scores": { "Quantum imaging": 0.6526818871498108, "Quantum Life Science Sensing": 0.6932836771011353, "Quantum sensing Detection": 0.6532024145126343, "Quantum sensing Metrology": 0.6531180143356323, "Quantum sensing navigation": 0.6592424511909485, "Quantum sensing Position": 0.6801832318305969, "Quantum sensing Timing": 0.6482021808624268, "Quantum sensing": 0.6712837815284729, "Quantum control": 0.6431353688240051 } }, { "id": 6474, "title": "Memory functions and rCBF 99mTc-HMPAO SPET: developing diagnostics in Alzheimer's disease", "abstract": "Alzheimer's disease (AD) is a primary degenerative disease of the brain. The prevalence increases with age, with devastating consequences for the individual and society. The aim of this study was to e...", "citations": 31, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6481, "doi": "10.1007/s00259-002-0829-y", "umap_coordinates": { "x": 395.09796142578125, "y": 134.39016723632812, "z": 204.3478240966797 }, "tsne_coordinates": { "x": -4.116055965423584, "y": 28.456619262695312, "z": 4.216882705688477 }, "pca_coordinates": { "x": -4.705357551574707, "y": 2.0400502681732178, "z": -1.1473028659820557 }, "axis_scores": { "Quantum imaging": 0.671951174736023, "Quantum Life Science Sensing": 0.6883509159088135, "Quantum sensing Detection": 0.6398930549621582, "Quantum sensing Metrology": 0.6392812728881836, "Quantum sensing navigation": 0.6688580513000488, "Quantum sensing Position": 0.6516960263252258, "Quantum sensing Timing": 0.640231192111969, "Quantum sensing": 0.6496703624725342, "Quantum control": 0.6283420324325562 } }, { "id": 6475, "title": "Feasibility of 177Lu activity quantification using a small portable CZT-based gamma-camera", "abstract": "Background: In image processing for activity quantification, the end goal is to produce a metric that is independent of the measurement geometry. Photon attenuation needs to be accounted for and can b...", "citations": 2, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6482, "doi": "10.1186/s40658-023-00602-2", "umap_coordinates": { "x": 395.0103759765625, "y": 133.54229736328125, "z": 204.7211151123047 }, "tsne_coordinates": { "x": -7.5681891441345215, "y": 26.50567054748535, "z": -9.513957977294922 }, "pca_coordinates": { "x": -4.344693183898926, "y": 4.019279479980469, "z": 1.1726291179656982 }, "axis_scores": { "Quantum imaging": 0.669086217880249, "Quantum Life Science Sensing": 0.694603443145752, "Quantum sensing Detection": 0.6495127081871033, "Quantum sensing Metrology": 0.6388084888458252, "Quantum sensing navigation": 0.6734296083450317, "Quantum sensing Position": 0.6529810428619385, "Quantum sensing Timing": 0.6575365662574768, "Quantum sensing": 0.6581525802612305, "Quantum control": 0.6295459270477295 } }, { "id": 6476, "title": "Spin-gapless semiconductors: Fundamental and applied aspects", "abstract": "Spin-gapless semiconductors (SGSs) are new states of quantum matter, which are characterized by a unique spin-polarized band structure. Unlike conventional semiconductors or half-metallic ferromagnets...", "citations": 45, "author_count": 5, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6483, "doi": "10.1063/5.0028918", "umap_coordinates": { "x": 394.0045166015625, "y": 134.71568298339844, "z": 207.5047149658203 }, "tsne_coordinates": { "x": 13.550909996032715, "y": -36.09486389160156, "z": 7.306853294372559 }, "pca_coordinates": { "x": 1.5549628734588623, "y": -1.8196449279785156, "z": -0.3619314730167389 }, "axis_scores": { "Quantum imaging": 0.7265119552612305, "Quantum Life Science Sensing": 0.7676601409912109, "Quantum sensing Detection": 0.7221434712409973, "Quantum sensing Metrology": 0.7416026592254639, "Quantum sensing navigation": 0.7279646992683411, "Quantum sensing Position": 0.7097625732421875, "Quantum sensing Timing": 0.6858329772949219, "Quantum sensing": 0.7472004890441895, "Quantum control": 0.7051060795783997 } }, { "id": 6477, "title": "Integrated peripheral boost in preoperative radiotherapy for the locally most advanced non-resectable rectal cancer patients", "abstract": "Background and Purpose. Few studies have explored the potential clinical advantages of dose escalation and integrated boosts for patients with non-resectable locally advanced rectal cancer. The possib...", "citations": 26, "author_count": 7, "categories": [ "Oncology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6484, "doi": "10.3109/0284186X.2012.737022", "umap_coordinates": { "x": 395.40283203125, "y": 133.7921905517578, "z": 204.51878356933594 }, "tsne_coordinates": { "x": 2.672057867050171, "y": 29.670278549194336, "z": -17.591455459594727 }, "pca_coordinates": { "x": -1.7077019214630127, "y": 3.514533519744873, "z": 2.1078498363494873 }, "axis_scores": { "Quantum imaging": 0.6895496845245361, "Quantum Life Science Sensing": 0.6575527191162109, "Quantum sensing Detection": 0.6654537916183472, "Quantum sensing Metrology": 0.6738120317459106, "Quantum sensing navigation": 0.6944369077682495, "Quantum sensing Position": 0.6947587132453918, "Quantum sensing Timing": 0.67240971326828, "Quantum sensing": 0.6773514151573181, "Quantum control": 0.6472058296203613 } }, { "id": 6478, "title": "Size-dependent cytotoxicity of silver nanoparticles in human lung cells: the role of cellular uptake, agglomeration and Ag release", "abstract": "Background: Silver nanoparticles (AgNPs) are currently one of the most manufactured nanomaterials. A wide range of toxicity studies have been performed on various AgNPs, but these studies report a hig...", "citations": 958, "author_count": 6, "categories": [ "Toxicology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6485, "doi": "10.1186/1743-8977-11-11", "umap_coordinates": { "x": 393.4512634277344, "y": 134.16139221191406, "z": 204.76168823242188 }, "tsne_coordinates": { "x": 14.612418174743652, "y": 26.20550537109375, "z": 0.16831016540527344 }, "pca_coordinates": { "x": -4.39885950088501, "y": 0.46038663387298584, "z": -1.486616611480713 }, "axis_scores": { "Quantum imaging": 0.6579487919807434, "Quantum Life Science Sensing": 0.7061089277267456, "Quantum sensing Detection": 0.6621401309967041, "Quantum sensing Metrology": 0.638621985912323, "Quantum sensing navigation": 0.6416599750518799, "Quantum sensing Position": 0.6594303250312805, "Quantum sensing Timing": 0.6300968527793884, "Quantum sensing": 0.6689918041229248, "Quantum control": 0.6410723328590393 } }, { "id": 6479, "title": "Newton's First Law and the Grand Unification", "abstract": "This paper is devoted to the study of stationary trajectories of free particles. From a classical point of view, this appears to be an almost trivial problem: Free particles should follow straight lin...", "citations": 2, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6486, "doi": "10.3390/sym16121694", "umap_coordinates": { "x": 395.0632019042969, "y": 137.50657653808594, "z": 205.78091430664062 }, "tsne_coordinates": { "x": -18.599084854125977, "y": 0.9441860318183899, "z": 20.19245147705078 }, "pca_coordinates": { "x": 0.5148944854736328, "y": 2.9094769954681396, "z": -0.989997923374176 }, "axis_scores": { "Quantum imaging": 0.6525784730911255, "Quantum Life Science Sensing": 0.7027339339256287, "Quantum sensing Detection": 0.6807807683944702, "Quantum sensing Metrology": 0.6962225437164307, "Quantum sensing navigation": 0.7075966000556946, "Quantum sensing Position": 0.6655817031860352, "Quantum sensing Timing": 0.6665757298469543, "Quantum sensing": 0.6909964084625244, "Quantum control": 0.6853752732276917 } }, { "id": 6480, "title": "In vitro imaging techniques in Neurodegenerative diseases", "abstract": "Neurodegeneration induces various changes in the brain, changes that may be investigated using neuroimaging techniques. The in vivo techniques are useful for the visualization of major changes, and th...", "citations": 24, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6487, "doi": "10.1007/s11307-007-0088-1", "umap_coordinates": { "x": 394.8778381347656, "y": 134.13125610351562, "z": 204.43714904785156 }, "tsne_coordinates": { "x": -3.3694231510162354, "y": 25.505128860473633, "z": 2.949983835220337 }, "pca_coordinates": { "x": -3.7290520668029785, "y": 1.386620044708252, "z": 0.8338677287101746 }, "axis_scores": { "Quantum imaging": 0.7376202344894409, "Quantum Life Science Sensing": 0.7163548469543457, "Quantum sensing Detection": 0.6813374161720276, "Quantum sensing Metrology": 0.6744723320007324, "Quantum sensing navigation": 0.7041462063789368, "Quantum sensing Position": 0.6741601228713989, "Quantum sensing Timing": 0.6617200970649719, "Quantum sensing": 0.6884626150131226, "Quantum control": 0.65227210521698 } }, { "id": 6481, "title": "Lyman α line and continuum radiative transfer in a clumpy interstellar medium", "abstract": "Aims. We study the effects of an inhomogeneous interstellar medium (ISM) on the strength and the shape of the Lyman alpha (Ly alpha) line in starburst galaxies. Methods. Using our 3D Monte Carlo Ly al...", "citations": 81, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6488, "doi": "10.1051/0004-6361/201220455", "umap_coordinates": { "x": 395.6697692871094, "y": 135.56216430664062, "z": 206.1003875732422 }, "tsne_coordinates": { "x": -3.5163729190826416, "y": 21.92608642578125, "z": 20.80618667602539 }, "pca_coordinates": { "x": -0.14876019954681396, "y": 0.5568859577178955, "z": -0.4077013432979584 }, "axis_scores": { "Quantum imaging": 0.6919364929199219, "Quantum Life Science Sensing": 0.7073479890823364, "Quantum sensing Detection": 0.6723394393920898, "Quantum sensing Metrology": 0.6533347368240356, "Quantum sensing navigation": 0.651790201663971, "Quantum sensing Position": 0.644935667514801, "Quantum sensing Timing": 0.6445022821426392, "Quantum sensing": 0.6782149076461792, "Quantum control": 0.6568424701690674 } }, { "id": 6482, "title": "Speed-resolved perfusion imaging using multi-exposure laser speckle contrast imaging and machine learning", "abstract": "Significance: Laser speckle contrast imaging (LSCI) gives a relative measure of microcirculatory perfusion. However, due to the limited information in single-exposure LSCI, models are inaccurate for s...", "citations": 8, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6489, "doi": "10.1117/1.JBO.28.3.036007", "umap_coordinates": { "x": 395.3354187011719, "y": 133.45286560058594, "z": 205.41708374023438 }, "tsne_coordinates": { "x": -1.311641812324524, "y": 23.359325408935547, "z": -28.2021541595459 }, "pca_coordinates": { "x": -2.1779067516326904, "y": 2.3878071308135986, "z": 3.5328125953674316 }, "axis_scores": { "Quantum imaging": 0.756250262260437, "Quantum Life Science Sensing": 0.7207578420639038, "Quantum sensing Detection": 0.7158805131912231, "Quantum sensing Metrology": 0.7061722278594971, "Quantum sensing navigation": 0.7223347425460815, "Quantum sensing Position": 0.6888629794120789, "Quantum sensing Timing": 0.6950121521949768, "Quantum sensing": 0.721920907497406, "Quantum control": 0.6891400218009949 } }, { "id": 6483, "title": "Numerical study of photonic crystal fiber-based optical biosensor for detection of cervical cancer", "abstract": "The present study has been performed with the purpose of designing a highly sensitive biosensor for cervical cancer cell detection. The structure of the proposed design for biosensor includes a hollow...", "citations": 14, "author_count": 7, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6490, "doi": "10.1007/s12596-023-01254-2", "umap_coordinates": { "x": 394.0302429199219, "y": 134.70245361328125, "z": 205.4231414794922 }, "tsne_coordinates": { "x": -8.170404434204102, "y": 14.473590850830078, "z": 3.1527798175811768 }, "pca_coordinates": { "x": -2.4566779136657715, "y": 0.2825601100921631, "z": 2.00516939163208 }, "axis_scores": { "Quantum imaging": 0.6807451844215393, "Quantum Life Science Sensing": 0.7001821398735046, "Quantum sensing Detection": 0.7033427953720093, "Quantum sensing Metrology": 0.7019914388656616, "Quantum sensing navigation": 0.7036603689193726, "Quantum sensing Position": 0.6892340183258057, "Quantum sensing Timing": 0.6539780497550964, "Quantum sensing": 0.7002845406532288, "Quantum control": 0.673888623714447 } }, { "id": 6484, "title": "Two-photon fluorescence laser sheet imaging for high contrast visualization of atomizing sprays", "abstract": "Two-photon excitation laser induced fluorescence (2p-LIF) is used here for imaging an optically dense atomizing spray. The main advantage of the approach is that very little fluorescence interference ...", "citations": 22, "author_count": 8, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6491, "doi": "10.1364/OSAC.2.000983", "umap_coordinates": { "x": 394.4833679199219, "y": 134.19784545898438, "z": 205.91287231445312 }, "tsne_coordinates": { "x": 4.695624828338623, "y": 14.264739036560059, "z": -32.665443420410156 }, "pca_coordinates": { "x": -2.9462013244628906, "y": 0.16065287590026855, "z": 1.350252628326416 }, "axis_scores": { "Quantum imaging": 0.708053469657898, "Quantum Life Science Sensing": 0.6723107099533081, "Quantum sensing Detection": 0.6609619855880737, "Quantum sensing Metrology": 0.6650125980377197, "Quantum sensing navigation": 0.6582874655723572, "Quantum sensing Position": 0.6356397867202759, "Quantum sensing Timing": 0.6432243585586548, "Quantum sensing": 0.6796682476997375, "Quantum control": 0.6687803864479065 } }, { "id": 6485, "title": "The spin-dependent structure function g(1)(x) of the proton from polarized deep-inelastic muon scattering", "abstract": "We present a new measurement of the virtual photon proton asymmetry A(1)(P) from deep inelastic scattering of polarized muons on polarized protons in the kinematic range 0.0008 < x < 0.7 and 0.2 < Q(2...", "citations": 114, "author_count": 128, "categories": [ "Astronomy & Astrophysics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6492, "doi": "10.1016/S0370-2693(97)01106-4", "umap_coordinates": { "x": 396.0231628417969, "y": 135.49954223632812, "z": 206.54405212402344 }, "tsne_coordinates": { "x": -35.19634246826172, "y": 15.023527145385742, "z": -19.155109405517578 }, "pca_coordinates": { "x": -0.20614278316497803, "y": 1.8868708610534668, "z": -1.0444271564483643 }, "axis_scores": { "Quantum imaging": 0.6861914992332458, "Quantum Life Science Sensing": 0.7131776809692383, "Quantum sensing Detection": 0.6585872769355774, "Quantum sensing Metrology": 0.6541580557823181, "Quantum sensing navigation": 0.6783694624900818, "Quantum sensing Position": 0.673109769821167, "Quantum sensing Timing": 0.6258633732795715, "Quantum sensing": 0.6806062459945679, "Quantum control": 0.6552343964576721 } }, { "id": 6486, "title": "Determination of topological edge quantum numbers of fractional quantum Hall phases by thermal conductance measurements", "abstract": "To determine the topological quantum numbers of fractional quantum Hall (FQH) states hosting counter-propagating (CP) downstream (N-d) and upstream (N-u) edge modes, it is pivotal to study quantized t...", "citations": 29, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6493, "doi": "10.1038/s41467-022-32956-z", "umap_coordinates": { "x": 393.3050231933594, "y": 136.5973358154297, "z": 207.29205322265625 }, "tsne_coordinates": { "x": 8.060636520385742, "y": -9.20140266418457, "z": 22.80345916748047 }, "pca_coordinates": { "x": 0.9024789333343506, "y": 0.29799795150756836, "z": -1.2101001739501953 }, "axis_scores": { "Quantum imaging": 0.7195250988006592, "Quantum Life Science Sensing": 0.7449631690979004, "Quantum sensing Detection": 0.7192723155021667, "Quantum sensing Metrology": 0.7375413179397583, "Quantum sensing navigation": 0.7363889217376709, "Quantum sensing Position": 0.7192485928535461, "Quantum sensing Timing": 0.7201290130615234, "Quantum sensing": 0.7373269200325012, "Quantum control": 0.6918452978134155 } }, { "id": 6487, "title": "Towards the cold atom analog false vacuum", "abstract": "Analog condensed matter systems present an exciting opportunity to simulate early Universe models in table-top experiments. We consider a recent proposal for an analog condensed matter experiment to s...", "citations": 910, "author_count": 5, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6494, "doi": "10.1007/JHEP07(2018)014", "umap_coordinates": { "x": 395.7198181152344, "y": 136.19757080078125, "z": 206.831298828125 }, "tsne_coordinates": { "x": -20.13581657409668, "y": 29.734943389892578, "z": 20.880842208862305 }, "pca_coordinates": { "x": 1.6790425777435303, "y": 3.233822822570801, "z": -1.4399125576019287 }, "axis_scores": { "Quantum imaging": 0.7028743028640747, "Quantum Life Science Sensing": 0.7265030145645142, "Quantum sensing Detection": 0.7129454612731934, "Quantum sensing Metrology": 0.6830905675888062, "Quantum sensing navigation": 0.7079905867576599, "Quantum sensing Position": 0.7093862891197205, "Quantum sensing Timing": 0.6845342516899109, "Quantum sensing": 0.7096386551856995, "Quantum control": 0.6954358220100403 } }, { "id": 6488, "title": "Dynamic 99mTc-MAG3 renography: images for quality control obtained by combining pharmacokinetic modelling, an anthropomorphic computer phantom and Monte Carlo simulated scintillation camera imaging", "abstract": "In dynamic renal scintigraphy, the main interest is the radiopharmaceutical redistribution as a function of time. Quality control (QC) of renal procedures often relies on phantom experiments to compar...", "citations": 15, "author_count": 4, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6495, "doi": "10.1088/0031-9155/58/10/3145", "umap_coordinates": { "x": 395.81475830078125, "y": 133.49559020996094, "z": 204.90859985351562 }, "tsne_coordinates": { "x": -9.431475639343262, "y": 29.61098861694336, "z": -15.345134735107422 }, "pca_coordinates": { "x": -2.8289122581481934, "y": 5.125645637512207, "z": 2.3902621269226074 }, "axis_scores": { "Quantum imaging": 0.7125347256660461, "Quantum Life Science Sensing": 0.680364191532135, "Quantum sensing Detection": 0.6552306413650513, "Quantum sensing Metrology": 0.6665103435516357, "Quantum sensing navigation": 0.6921367645263672, "Quantum sensing Position": 0.6474881768226624, "Quantum sensing Timing": 0.6624212265014648, "Quantum sensing": 0.6657675504684448, "Quantum control": 0.6653725504875183 } }, { "id": 6489, "title": "Exciton Condensation Under High Magnetic Field", "abstract": "The new results in the theory of Bose-Einstein condensation (BEC) of the two-dimensional (2D) magnetoexcitons formed by the high-density electron-hole (e-h) pairs created on the semiconductor mono-lay...", "citations": 5, "author_count": 4, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6496, "doi": "10.1166/jno.2011.1191", "umap_coordinates": { "x": 393.01165771484375, "y": 136.11619567871094, "z": 207.6340789794922 }, "tsne_coordinates": { "x": 15.842040061950684, "y": -27.393156051635742, "z": 9.022571563720703 }, "pca_coordinates": { "x": 0.9174997806549072, "y": 0.7229621410369873, "z": -2.321971893310547 }, "axis_scores": { "Quantum imaging": 0.726768434047699, "Quantum Life Science Sensing": 0.7116830945014954, "Quantum sensing Detection": 0.7118503451347351, "Quantum sensing Metrology": 0.6843634843826294, "Quantum sensing navigation": 0.7129402756690979, "Quantum sensing Position": 0.6798194646835327, "Quantum sensing Timing": 0.7068299055099487, "Quantum sensing": 0.7189816236495972, "Quantum control": 0.7218133807182312 } }, { "id": 6490, "title": "Astrochemical model to study the abundances of branched carbon-chain molecules in a hot molecular core with realistic binding energies", "abstract": "Straight-chain (normal-propyl cyanide, n - C3H7CN) and branched-chain (iso-propyl cyanide, i - C3H7CN) alkyl cyanides are recently identified in the massive star-forming regions (Sgr B2(N) and Orion)....", "citations": 11, "author_count": 7, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6497, "doi": "10.1093/mnras/stac1904", "umap_coordinates": { "x": 393.3738098144531, "y": 137.37501525878906, "z": 205.8617706298828 }, "tsne_coordinates": { "x": -6.765881538391113, "y": -1.3696216344833374, "z": 25.12301254272461 }, "pca_coordinates": { "x": -0.2999289035797119, "y": 2.573986530303955, "z": -1.724689245223999 }, "axis_scores": { "Quantum imaging": 0.6689051389694214, "Quantum Life Science Sensing": 0.7154884338378906, "Quantum sensing Detection": 0.6766036152839661, "Quantum sensing Metrology": 0.6701094508171082, "Quantum sensing navigation": 0.6938973069190979, "Quantum sensing Position": 0.6655341982841492, "Quantum sensing Timing": 0.6657760739326477, "Quantum sensing": 0.6870342493057251, "Quantum control": 0.6579575538635254 } }, { "id": 6491, "title": "A study of the photoionisation dynamics of the cyanogen halides", "abstract": "The valence shell photoelectron spectra of BrCN and ICN have been studied using synchrotron radiation. In addition to the main bands associated with the single-hole states, complex satellite structure...", "citations": 17, "author_count": 7, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6498, "doi": "10.1016/j.chemphys.2003.09.027", "umap_coordinates": { "x": 393.41656494140625, "y": 136.52029418945312, "z": 205.4172821044922 }, "tsne_coordinates": { "x": -0.7665970921516418, "y": 6.631566524505615, "z": 17.647302627563477 }, "pca_coordinates": { "x": -1.9014700651168823, "y": 0.42841482162475586, "z": -2.2391891479492188 }, "axis_scores": { "Quantum imaging": 0.7025426626205444, "Quantum Life Science Sensing": 0.7033693790435791, "Quantum sensing Detection": 0.6913483142852783, "Quantum sensing Metrology": 0.6494047045707703, "Quantum sensing navigation": 0.6719962954521179, "Quantum sensing Position": 0.6607511043548584, "Quantum sensing Timing": 0.658152163028717, "Quantum sensing": 0.6917473673820496, "Quantum control": 0.6848514080047607 } }, { "id": 6492, "title": "Modelling the molecular Zeeman-effect in M-dwarfs: methods and first results", "abstract": "Aims. We present first quantitative results of the surface magnetic field measurements in selected M-dwarfs based on detailed spectra synthesis conducted simultaneously in atomic and molecular lines o...", "citations": 37, "author_count": 7, "categories": [ "Astronomy & Astrophysics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6499, "doi": "10.1051/0004-6361/201015229", "umap_coordinates": { "x": 394.10882568359375, "y": 136.37998962402344, "z": 206.0004119873047 }, "tsne_coordinates": { "x": -6.563469886779785, "y": 20.04979133605957, "z": 20.345111846923828 }, "pca_coordinates": { "x": 1.283905029296875, "y": 2.020143985748291, "z": -1.182364583015442 }, "axis_scores": { "Quantum imaging": 0.7028851509094238, "Quantum Life Science Sensing": 0.7261024713516235, "Quantum sensing Detection": 0.690376341342926, "Quantum sensing Metrology": 0.7165008187294006, "Quantum sensing navigation": 0.7129520773887634, "Quantum sensing Position": 0.6866188645362854, "Quantum sensing Timing": 0.6786218881607056, "Quantum sensing": 0.7051472067832947, "Quantum control": 0.6817934513092041 } }, { "id": 6493, "title": "Investigating survival, quality of life and cognition in PROton versus photon therapy for IDH-mutated diffuse grade 2 and 3 GLIOmas (PRO-GLIO): a randomised controlled trial in Norway and Sweden", "abstract": "IntroductionThe use of proton therapy increases globally despite a lack of randomised controlled trials demonstrating its efficacy and safety. Proton therapy enables sparing of non-neoplastic tissue f...", "citations": 7, "author_count": 45, "categories": [ "General & Internal Medicine" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6500, "doi": "10.1136/bmjopen-2022-070071", "umap_coordinates": { "x": 395.4671936035156, "y": 133.94261169433594, "z": 204.6138916015625 }, "tsne_coordinates": { "x": -6.8866658210754395, "y": 26.96076774597168, "z": -6.102418422698975 }, "pca_coordinates": { "x": -2.694183349609375, "y": 2.7849133014678955, "z": 0.12469518184661865 }, "axis_scores": { "Quantum imaging": 0.7036629915237427, "Quantum Life Science Sensing": 0.7179597020149231, "Quantum sensing Detection": 0.6712512969970703, "Quantum sensing Metrology": 0.6638721227645874, "Quantum sensing navigation": 0.7107203006744385, "Quantum sensing Position": 0.6711698770523071, "Quantum sensing Timing": 0.6417973041534424, "Quantum sensing": 0.6815066933631897, "Quantum control": 0.6561890840530396 } }, { "id": 6494, "title": "Laser range profiling for small target recognition", "abstract": "Long range identification (ID) or ID at closer range of small targets has its limitations in imaging due to the demand for very high-transverse sensor resolution. This is, therefore, a motivation to l...", "citations": 26, "author_count": 3, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6501, "doi": "10.1117/1.OE.56.3.031206", "umap_coordinates": { "x": 394.6893310546875, "y": 133.42282104492188, "z": 206.20375061035156 }, "tsne_coordinates": { "x": -2.2196011543273926, "y": 14.319534301757812, "z": -30.480852127075195 }, "pca_coordinates": { "x": -2.3706471920013428, "y": 0.7918435335159302, "z": 2.201871633529663 }, "axis_scores": { "Quantum imaging": 0.7096884846687317, "Quantum Life Science Sensing": 0.7303668260574341, "Quantum sensing Detection": 0.7164714336395264, "Quantum sensing Metrology": 0.7237790822982788, "Quantum sensing navigation": 0.7188329696655273, "Quantum sensing Position": 0.7123193144798279, "Quantum sensing Timing": 0.682754635810852, "Quantum sensing": 0.7254254817962646, "Quantum control": 0.676144540309906 } }, { "id": 6495, "title": "Individualized evaluation of the total dose received by radiotherapy patients: Integrating in-field, out-of-field, and imaging doses", "abstract": "Purpose: To propose a methodology for integrating the out-of-field and imaging doses to the in-field dose received by radiotherapy (RT) patients. In addition, the impact of considering the total dose ...", "citations": 5, "author_count": 18, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6502, "doi": "10.1016/j.ejmp.2024.104879", "umap_coordinates": { "x": 395.3751220703125, "y": 132.92274475097656, "z": 204.5432586669922 }, "tsne_coordinates": { "x": 1.9899325370788574, "y": 28.66571617126465, "z": -16.741561889648438 }, "pca_coordinates": { "x": -4.383944511413574, "y": 3.726774215698242, "z": 2.314650297164917 }, "axis_scores": { "Quantum imaging": 0.7281824946403503, "Quantum Life Science Sensing": 0.6807436347007751, "Quantum sensing Detection": 0.655363142490387, "Quantum sensing Metrology": 0.6731904149055481, "Quantum sensing navigation": 0.6679860949516296, "Quantum sensing Position": 0.6695703864097595, "Quantum sensing Timing": 0.6674410104751587, "Quantum sensing": 0.6740764379501343, "Quantum control": 0.6426056027412415 } }, { "id": 6496, "title": "Life years lost-comparing potentially fatal late complications after radiotherapy for pediatric medulloblastoma on a common scale", "abstract": "BACKGROUND: The authors developed a framework for estimating and comparing the risks of various long-term complications on a common scale and applied it to 3 different techniques for craniospinal irra...", "citations": 63, "author_count": 11, "categories": [ "Oncology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6503, "doi": "10.1002/cncr.27536", "umap_coordinates": { "x": 395.3675231933594, "y": 134.11660766601562, "z": 204.18905639648438 }, "tsne_coordinates": { "x": -4.460248947143555, "y": 25.95104217529297, "z": -6.78139066696167 }, "pca_coordinates": { "x": -2.6709671020507812, "y": 4.785543441772461, "z": -0.1261255145072937 }, "axis_scores": { "Quantum imaging": 0.6318060755729675, "Quantum Life Science Sensing": 0.6880460977554321, "Quantum sensing Detection": 0.6225482225418091, "Quantum sensing Metrology": 0.6143901944160461, "Quantum sensing navigation": 0.633597195148468, "Quantum sensing Position": 0.6238113045692444, "Quantum sensing Timing": 0.651356041431427, "Quantum sensing": 0.6254326105117798, "Quantum control": 0.6305185556411743 } }, { "id": 6497, "title": "Search for dark matter at √s=13 TeV in final states containing an energetic photon and large missing transverse momentum with the ATLAS detector", "abstract": "Results of a search for physics beyond the Standard Model in events containing an energetic photon and large missing transverse momentum with the ATLAS detector at the Large Hadron Collider are report...", "citations": 115, "author_count": 2664, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6504, "doi": "10.1140/epjc/s10052-017-4965-8", "umap_coordinates": { "x": 396.7046203613281, "y": 134.5079345703125, "z": 206.97918701171875 }, "tsne_coordinates": { "x": -33.15248489379883, "y": 12.55136775970459, "z": -2.3838746547698975 }, "pca_coordinates": { "x": -0.17486631870269775, "y": 2.1786181926727295, "z": 3.1737236976623535 }, "axis_scores": { "Quantum imaging": 0.6906038522720337, "Quantum Life Science Sensing": 0.6784352660179138, "Quantum sensing Detection": 0.6957775950431824, "Quantum sensing Metrology": 0.6770055294036865, "Quantum sensing navigation": 0.6909120082855225, "Quantum sensing Position": 0.6877437829971313, "Quantum sensing Timing": 0.6993170380592346, "Quantum sensing": 0.6869751811027527, "Quantum control": 0.6584051847457886 } }, { "id": 6498, "title": "High-resolution X-ray imaging using the signal time dependence on a double-sided silicon detector", "abstract": "The possibility of using drift times for electrons and holes in an edge-on double-sided silicon strip detector to achieve a high resolution X-ray image has been investigated with help of computer simu...", "citations": 6, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 1999, "topic": [ "all" ], "embedding_index": 6505, "doi": "10.1016/S0168-9002(98)01206-6", "umap_coordinates": { "x": 395.21661376953125, "y": 133.11013793945312, "z": 205.760986328125 }, "tsne_coordinates": { "x": -9.489354133605957, "y": 19.155765533447266, "z": -12.276750564575195 }, "pca_coordinates": { "x": -3.099365234375, "y": 1.406427025794983, "z": 3.302511692047119 }, "axis_scores": { "Quantum imaging": 0.6990907788276672, "Quantum Life Science Sensing": 0.7050501108169556, "Quantum sensing Detection": 0.6831610202789307, "Quantum sensing Metrology": 0.6657273769378662, "Quantum sensing navigation": 0.6617308855056763, "Quantum sensing Position": 0.6793674230575562, "Quantum sensing Timing": 0.7057220339775085, "Quantum sensing": 0.6836497783660889, "Quantum control": 0.6195535659790039 } }, { "id": 6499, "title": "Cuticle structure of the scarab beetle Cetonia aurata analyzed by regression analysis of Mueller-matrix ellipsometric data", "abstract": "Since one hundred years it is known that some scarab beetles reflect elliptically and near-circular polarized light as demonstrated by Michelson for the beetle Chrysina resplendens. The handedness of ...", "citations": 54, "author_count": 5, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6506, "doi": "10.1364/OE.21.022645", "umap_coordinates": { "x": 394.037109375, "y": 134.95399475097656, "z": 205.6614532470703 }, "tsne_coordinates": { "x": 10.288551330566406, "y": 4.831408500671387, "z": -39.5970458984375 }, "pca_coordinates": { "x": -1.9645859003067017, "y": 1.826562523841858, "z": -1.036255121231079 }, "axis_scores": { "Quantum imaging": 0.6842997670173645, "Quantum Life Science Sensing": 0.7102550268173218, "Quantum sensing Detection": 0.6703412532806396, "Quantum sensing Metrology": 0.6874715685844421, "Quantum sensing navigation": 0.6786734461784363, "Quantum sensing Position": 0.6657125949859619, "Quantum sensing Timing": 0.6410437226295471, "Quantum sensing": 0.6876916885375977, "Quantum control": 0.6766714453697205 } }, { "id": 6500, "title": "Optical, charge transport and magnetic properties of palladium retrieved from photometric measurements: approaching the quantum mechanics background", "abstract": "A parametric Drude-Lorentz (DL) model is used to describe the spectral variation of the dielectric functions of bulk palladium samples at low and room temperature. In addition to the contribution of c...", "citations": 4, "author_count": 6, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6507, "doi": "10.1088/1402-4896/ab07ee", "umap_coordinates": { "x": 395.04473876953125, "y": 135.0586700439453, "z": 206.2387237548828 }, "tsne_coordinates": { "x": -12.460369110107422, "y": -5.337888240814209, "z": -17.821090698242188 }, "pca_coordinates": { "x": -0.5904395580291748, "y": 0.8306409120559692, "z": -0.6293419003486633 }, "axis_scores": { "Quantum imaging": 0.7344656586647034, "Quantum Life Science Sensing": 0.739319384098053, "Quantum sensing Detection": 0.7089265584945679, "Quantum sensing Metrology": 0.7163200378417969, "Quantum sensing navigation": 0.7203848361968994, "Quantum sensing Position": 0.71271151304245, "Quantum sensing Timing": 0.6852261424064636, "Quantum sensing": 0.7212392091751099, "Quantum control": 0.7001413702964783 } }, { "id": 6501, "title": "LABELING OF HIGH-MOLECULAR-WEIGHT HYALURONAN WITH I-125 TYROSINE - STUDIES IN-VITRO AND IN-VIVO IN THE RAT", "abstract": "Studies on the metabolism of the polysaccharide hyaluronan has previously been hampered by the lack of radioactive hyaluronan of high molecular weight (MW) and high specific activity. In the present s...", "citations": 26, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6508, "doi": "10.1007/BF00731313", "umap_coordinates": { "x": 394.7237854003906, "y": 134.83509826660156, "z": 204.2749481201172 }, "tsne_coordinates": { "x": -0.5782458186149597, "y": 33.511966705322266, "z": 5.4824090003967285 }, "pca_coordinates": { "x": -2.7694358825683594, "y": 3.829770565032959, "z": -0.33147361874580383 }, "axis_scores": { "Quantum imaging": 0.6755062937736511, "Quantum Life Science Sensing": 0.6359109282493591, "Quantum sensing Detection": 0.6137201189994812, "Quantum sensing Metrology": 0.627442479133606, "Quantum sensing navigation": 0.6492437720298767, "Quantum sensing Position": 0.6342355608940125, "Quantum sensing Timing": 0.648574948310852, "Quantum sensing": 0.6349307298660278, "Quantum control": 0.6381993293762207 } }, { "id": 6502, "title": "Development of dose delivery verification by PET imaging of photonuclear reactions following high energy photon therapy", "abstract": "A method for dose delivery monitoring after high energy photon therapy has been investigated based on positron emission tomography ( PET). The technique is based on the activation of body tissues by h...", "citations": 38, "author_count": 5, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6509, "doi": "10.1088/0031-9155/51/22/004", "umap_coordinates": { "x": 395.93438720703125, "y": 133.19845581054688, "z": 205.4432830810547 }, "tsne_coordinates": { "x": -13.311214447021484, "y": 27.59058952331543, "z": -16.53826332092285 }, "pca_coordinates": { "x": -2.498579502105713, "y": 3.000627279281616, "z": 4.218376159667969 }, "axis_scores": { "Quantum imaging": 0.7262136936187744, "Quantum Life Science Sensing": 0.6920481324195862, "Quantum sensing Detection": 0.6924660205841064, "Quantum sensing Metrology": 0.6797472238540649, "Quantum sensing navigation": 0.6974908709526062, "Quantum sensing Position": 0.6956781148910522, "Quantum sensing Timing": 0.7043753862380981, "Quantum sensing": 0.6884209513664246, "Quantum control": 0.6549312472343445 } }, { "id": 6503, "title": "Spontaneous Symmetry Breaking and Coherence in Two-Dimensional Electron-Hole and Exciton Systems", "abstract": "The spontaneous breaking of the continuous symmetries of the two-dimensional (2D) electron-hole systems in a strong perpendicular magnetic field leads to the formation of new ground states and determi...", "citations": 3, "author_count": 5, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6510, "doi": "10.1166/jno.2012.1407", "umap_coordinates": { "x": 393.4572448730469, "y": 135.9517059326172, "z": 207.9446563720703 }, "tsne_coordinates": { "x": 0.043866194784641266, "y": -10.432585716247559, "z": 7.840281009674072 }, "pca_coordinates": { "x": 2.7001686096191406, "y": -0.8079547882080078, "z": -1.3151271343231201 }, "axis_scores": { "Quantum imaging": 0.7322118282318115, "Quantum Life Science Sensing": 0.7185628414154053, "Quantum sensing Detection": 0.7286102771759033, "Quantum sensing Metrology": 0.7017195224761963, "Quantum sensing navigation": 0.7341709136962891, "Quantum sensing Position": 0.6810033321380615, "Quantum sensing Timing": 0.7047536969184875, "Quantum sensing": 0.7303087115287781, "Quantum control": 0.7372660636901855 } }, { "id": 6504, "title": "Modulation of pyrene fluorescence in DNA probes depends upon the nature of the conformationally restricted nucleotide", "abstract": "The DNA probes (ODNs) containing a 2'-N-(pyren-1-yl)-group on the conformationally locked nucleosides [2'-N-(pyren-1-yl)carbonyl-azetidine thymidine, Aze-pyr (X), and 2'-N-(pyren-1-yl)carbonyl-aza-ENA...", "citations": 47, "author_count": 4, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6511, "doi": "10.1021/jo702747w", "umap_coordinates": { "x": 392.586181640625, "y": 136.45306396484375, "z": 204.7403564453125 }, "tsne_coordinates": { "x": 8.819643020629883, "y": 11.574287414550781, "z": 8.141607284545898 }, "pca_coordinates": { "x": -1.3063433170318604, "y": -0.5691773891448975, "z": -1.6174315214157104 }, "axis_scores": { "Quantum imaging": 0.7084621787071228, "Quantum Life Science Sensing": 0.7343937754631042, "Quantum sensing Detection": 0.7086023688316345, "Quantum sensing Metrology": 0.6749616861343384, "Quantum sensing navigation": 0.7178624868392944, "Quantum sensing Position": 0.7121134996414185, "Quantum sensing Timing": 0.6806118488311768, "Quantum sensing": 0.71795654296875, "Quantum control": 0.7098615765571594 } }, { "id": 6505, "title": "Dichotic-listening performance and intracarotid injections of amobarbital in children and adolescents - Preoperative and postoperative comparisons", "abstract": "Background: Dichotic listening (DL) to consonant-vowel syllables is frequently used in clinical and experimental studies of brain laterality. However, the paradigm of consonant-vowel syllables has not...", "citations": 118, "author_count": 5, "categories": [ "Neurosciences & Neurology" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6512, "doi": "10.1001/archneur.1997.00550240046011", "umap_coordinates": { "x": 395.0801696777344, "y": 134.08441162109375, "z": 204.5104522705078 }, "tsne_coordinates": { "x": -6.292983055114746, "y": 28.69246482849121, "z": -2.2973556518554688 }, "pca_coordinates": { "x": -1.0158932209014893, "y": 3.5377683639526367, "z": 2.2486605644226074 }, "axis_scores": { "Quantum imaging": 0.6721919775009155, "Quantum Life Science Sensing": 0.6513993144035339, "Quantum sensing Detection": 0.6453884243965149, "Quantum sensing Metrology": 0.6653885841369629, "Quantum sensing navigation": 0.6846842765808105, "Quantum sensing Position": 0.6539275050163269, "Quantum sensing Timing": 0.6596784591674805, "Quantum sensing": 0.6589099168777466, "Quantum control": 0.6283866167068481 } }, { "id": 6506, "title": "Time-of-flight photoelectron momentum microscopy with 80-500 MHz photon sources: electron-optical pulse picker or bandpass pre-filter", "abstract": "The small time gaps of synchrotron radiation in conventional multi-bunch mode (100-500MHz) or laser-based sources with high pulse rate (similar to 80MHz) are prohibitive for time-of-flight (ToF) based...", "citations": 19, "author_count": 19, "categories": [ "Instruments & Instrumentation" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6513, "doi": "10.1107/S1600577521010511", "umap_coordinates": { "x": 395.5186462402344, "y": 134.4532012939453, "z": 206.4251708984375 }, "tsne_coordinates": { "x": -23.024309158325195, "y": 7.650649547576904, "z": -28.129093170166016 }, "pca_coordinates": { "x": -0.9537225365638733, "y": 0.22247076034545898, "z": 2.8661210536956787 }, "axis_scores": { "Quantum imaging": 0.7090809941291809, "Quantum Life Science Sensing": 0.7009126543998718, "Quantum sensing Detection": 0.6861537098884583, "Quantum sensing Metrology": 0.6883702278137207, "Quantum sensing navigation": 0.6836782097816467, "Quantum sensing Position": 0.6887831091880798, "Quantum sensing Timing": 0.7007033824920654, "Quantum sensing": 0.6956863403320312, "Quantum control": 0.6494452953338623 } }, { "id": 6507, "title": "Theoretical modeling of surface and tip-enhanced Raman spectroscopies", "abstract": "Raman spectroscopy is a powerful technique in molecular science because of the ability of providing vibrational 'finger-print'. The developments of the surfaceenhanced Raman spectroscopy (SERS) and ti...", "citations": 21, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6514, "doi": "10.1002/wcms.1293", "umap_coordinates": { "x": 394.27203369140625, "y": 135.35047912597656, "z": 205.6559600830078 }, "tsne_coordinates": { "x": -15.257194519042969, "y": 9.033551216125488, "z": 5.395172119140625 }, "pca_coordinates": { "x": -1.4671876430511475, "y": 0.5009129047393799, "z": -0.9399266839027405 }, "axis_scores": { "Quantum imaging": 0.70723557472229, "Quantum Life Science Sensing": 0.7272308468818665, "Quantum sensing Detection": 0.7086916565895081, "Quantum sensing Metrology": 0.7265437841415405, "Quantum sensing navigation": 0.6958223581314087, "Quantum sensing Position": 0.6955031752586365, "Quantum sensing Timing": 0.6912107467651367, "Quantum sensing": 0.7209448218345642, "Quantum control": 0.6951731443405151 } }, { "id": 6508, "title": "A population-based study on the association between dementia and hip fractures in 85-year olds", "abstract": "The association between dementia and hip fracture was studied in a representative sample of 85-year olds (N=485). The diagnosis of dementia was made according to the DSM-III-R. The prevalence of hip f...", "citations": 78, "author_count": 3, "categories": [ "Geriatrics & Gerontology" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6515, "doi": "10.1007/BF03339676", "umap_coordinates": { "x": 395.03765869140625, "y": 135.0507354736328, "z": 204.5455780029297 }, "tsne_coordinates": { "x": -5.1381449699401855, "y": 33.537696838378906, "z": 7.087566375732422 }, "pca_coordinates": { "x": -1.8890069723129272, "y": 2.896329164505005, "z": -0.9899033308029175 }, "axis_scores": { "Quantum imaging": 0.6331120133399963, "Quantum Life Science Sensing": 0.6521869897842407, "Quantum sensing Detection": 0.6213163137435913, "Quantum sensing Metrology": 0.6234540939331055, "Quantum sensing navigation": 0.6497909426689148, "Quantum sensing Position": 0.6394330263137817, "Quantum sensing Timing": 0.6134300827980042, "Quantum sensing": 0.6334236860275269, "Quantum control": 0.6229584217071533 } }, { "id": 6509, "title": "Absorbed dose distribution in glioma tumors in rat brain after therapeutic intratumoral injection of 201Tl-chloride", "abstract": "Studies on animals with gliomas inoculated in the brain and treated with intratumoral injections of Tl-201-chloride have previously shown very promising results, with a survival several weeks longer t...", "citations": 8, "author_count": 7, "categories": [ "Oncology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6516, "doi": "10.1089/cbr.2004.19.562", "umap_coordinates": { "x": 395.4016418457031, "y": 133.78060913085938, "z": 204.4660186767578 }, "tsne_coordinates": { "x": -1.2557377815246582, "y": 27.712305068969727, "z": -9.427328109741211 }, "pca_coordinates": { "x": -2.423114538192749, "y": 2.213679552078247, "z": 0.7574264407157898 }, "axis_scores": { "Quantum imaging": 0.6709772944450378, "Quantum Life Science Sensing": 0.6516087055206299, "Quantum sensing Detection": 0.6269386410713196, "Quantum sensing Metrology": 0.6183319687843323, "Quantum sensing navigation": 0.6610276699066162, "Quantum sensing Position": 0.6426582932472229, "Quantum sensing Timing": 0.6478116512298584, "Quantum sensing": 0.6366793513298035, "Quantum control": 0.6117264032363892 } }, { "id": 6510, "title": "A solar-responsive zinc oxide photoanode for solar-photon-harvester photoelectrochemical (PEC) cells", "abstract": "A highly efficient, nanostructured, solar-responsive zinc-oxide (SRZO) photoanode has been achieved by utilization of a versatile solution precursor plasma spray (SPPS) deposition technique. For the f...", "citations": 14, "author_count": 5, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6517, "doi": "10.1039/d0na00139b", "umap_coordinates": { "x": 392.0634765625, "y": 134.37939453125, "z": 205.14285278320312 }, "tsne_coordinates": { "x": 15.331663131713867, "y": 4.0027241706848145, "z": -7.820827007293701 }, "pca_coordinates": { "x": -3.214165687561035, "y": -3.5931296348571777, "z": -0.7556130886077881 }, "axis_scores": { "Quantum imaging": 0.6672898530960083, "Quantum Life Science Sensing": 0.7146531343460083, "Quantum sensing Detection": 0.6813021898269653, "Quantum sensing Metrology": 0.6615933775901794, "Quantum sensing navigation": 0.6732556223869324, "Quantum sensing Position": 0.6544923186302185, "Quantum sensing Timing": 0.6363621950149536, "Quantum sensing": 0.6892178654670715, "Quantum control": 0.6682255864143372 } }, { "id": 6511, "title": "Ammonia Measurements with Femtosecond Two-Photon Laser-Induced Fluorescence in Premixed NH3/Air Flames", "abstract": "Ammonia (NH3), which can be a hydrogen carrier, is a promising alternative to fossil fuels in the future carbon free economy. In situ techniques feasible for the remote and non-intrusive detection of ...", "citations": 11, "author_count": 7, "categories": [ "Energy & Fuels" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6518, "doi": "10.1021/acs.energyfuels.9b02121", "umap_coordinates": { "x": 394.2835998535156, "y": 135.30845642089844, "z": 205.3311309814453 }, "tsne_coordinates": { "x": 8.4410982131958, "y": 15.23016357421875, "z": -35.719146728515625 }, "pca_coordinates": { "x": -1.9881013631820679, "y": -0.4519939422607422, "z": 0.4451870322227478 }, "axis_scores": { "Quantum imaging": 0.6667993068695068, "Quantum Life Science Sensing": 0.6840384602546692, "Quantum sensing Detection": 0.679905354976654, "Quantum sensing Metrology": 0.6881209015846252, "Quantum sensing navigation": 0.6613673567771912, "Quantum sensing Position": 0.65724116563797, "Quantum sensing Timing": 0.6369386911392212, "Quantum sensing": 0.689797043800354, "Quantum control": 0.6407807469367981 } }, { "id": 6512, "title": "Fluorescence Resonance Energy Transfer, Small-Angle Neutron Scattering, and Dynamic Light Scattering Study on Interactions of Gemini Surfactants Having Different Spacer Groups with Protein at Various Regions of Binding Isotherms", "abstract": "The binding interactions of three gemini surfactants having different spacer groups (12-4-12, 12-8-12, and 12-4(OH)-12)with a high concentration (150 mu M)of bovine serum albumin (BSA)at various regio...", "citations": 10, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6519, "doi": "10.1021/acsomega.8b01471", "umap_coordinates": { "x": 393.3591003417969, "y": 135.8438262939453, "z": 204.78350830078125 }, "tsne_coordinates": { "x": 14.441823959350586, "y": 13.758467674255371, "z": 12.813830375671387 }, "pca_coordinates": { "x": -2.897632122039795, "y": -0.9215223789215088, "z": -4.166409969329834 }, "axis_scores": { "Quantum imaging": 0.6455540657043457, "Quantum Life Science Sensing": 0.7011265158653259, "Quantum sensing Detection": 0.6243249773979187, "Quantum sensing Metrology": 0.6286535263061523, "Quantum sensing navigation": 0.6475351452827454, "Quantum sensing Position": 0.6323459148406982, "Quantum sensing Timing": 0.6243737936019897, "Quantum sensing": 0.6444620490074158, "Quantum control": 0.6179431080818176 } }, { "id": 6513, "title": "Coherence of two-dimensional electron-hole systems: Spontaneous breaking of continuous symmetries: A review", "abstract": "The spontaneous breaking of the continuous symmetries of a two-dimensional electron-hole system in a strong magnetic field perpendicular to the plane leads to the formation of new ground states and de...", "citations": 6, "author_count": 6, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6520, "doi": "10.1134/S1063783413080210", "umap_coordinates": { "x": 393.71771240234375, "y": 136.5570831298828, "z": 207.60757446289062 }, "tsne_coordinates": { "x": 0.2642847001552582, "y": -10.599228858947754, "z": 7.772957801818848 }, "pca_coordinates": { "x": 2.4288766384124756, "y": 0.21145296096801758, "z": -2.233665704727173 }, "axis_scores": { "Quantum imaging": 0.7149032354354858, "Quantum Life Science Sensing": 0.7301621437072754, "Quantum sensing Detection": 0.7119846343994141, "Quantum sensing Metrology": 0.7028989791870117, "Quantum sensing navigation": 0.7164998054504395, "Quantum sensing Position": 0.6770161390304565, "Quantum sensing Timing": 0.6787353754043579, "Quantum sensing": 0.7187900543212891, "Quantum control": 0.7255268692970276 } }, { "id": 6514, "title": "Comparison of QM/MM Methods To Obtain Ligand-Binding Free Energies", "abstract": "We have compared two approaches to calculate relative binding free energies employing molecular dynamics simulations at the combined quantum-mechanical/molecular mechanics (QM/MM) level. As a test cas...", "citations": 53, "author_count": 3, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6521, "doi": "10.1021/acs.jctc.6b01217", "umap_coordinates": { "x": 392.86993408203125, "y": 137.14065551757812, "z": 205.0289764404297 }, "tsne_coordinates": { "x": -5.58676815032959, "y": 10.198668479919434, "z": 17.84054946899414 }, "pca_coordinates": { "x": -2.0383172035217285, "y": 0.3990139961242676, "z": -2.6799235343933105 }, "axis_scores": { "Quantum imaging": 0.671588122844696, "Quantum Life Science Sensing": 0.6835377812385559, "Quantum sensing Detection": 0.6617962718009949, "Quantum sensing Metrology": 0.6830146312713623, "Quantum sensing navigation": 0.6762581467628479, "Quantum sensing Position": 0.6536630988121033, "Quantum sensing Timing": 0.6554521322250366, "Quantum sensing": 0.6713500022888184, "Quantum control": 0.6569527387619019 } }, { "id": 6515, "title": "Influence of conduction-band nonparabolicity on electron confinement and effective mass in GaNxAs1-x/GaAs quantum wells - art. no. 245305", "abstract": "We derive an analytical model to describe the conduction-band states of GaNAs-based quantum well structures, including the band anticrossing effect between N resonant states and the conduction-band ed...", "citations": 101, "author_count": 8, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6522, "doi": "10.1103/PhysRevB.69.245305", "umap_coordinates": { "x": 393.9564514160156, "y": 134.9792938232422, "z": 209.34042358398438 }, "tsne_coordinates": { "x": 7.331540584564209, "y": -35.63642120361328, "z": 0.7616677284240723 }, "pca_coordinates": { "x": 3.026728630065918, "y": -0.524705171585083, "z": 1.3583307266235352 }, "axis_scores": { "Quantum imaging": 0.6703219413757324, "Quantum Life Science Sensing": 0.6690872311592102, "Quantum sensing Detection": 0.6756054759025574, "Quantum sensing Metrology": 0.6914219856262207, "Quantum sensing navigation": 0.6767606139183044, "Quantum sensing Position": 0.6729890704154968, "Quantum sensing Timing": 0.6463678479194641, "Quantum sensing": 0.6830865740776062, "Quantum control": 0.677855908870697 } }, { "id": 6516, "title": "Quinone Catalysis Modulates Proton Transfer Reactions in the Membrane Domain of Respiratory Complex I", "abstract": "Complex I is a redox-drivenproton pump that drives electron transportchains and powers oxidative phosphorylation across all domains oflife. Yet, despite recently resolved structures from multiple orga...", "citations": 27, "author_count": 6, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6523, "doi": "10.1021/jacs.3c03086", "umap_coordinates": { "x": 393.0659484863281, "y": 136.5279541015625, "z": 205.04635620117188 }, "tsne_coordinates": { "x": 5.799580097198486, "y": 15.542410850524902, "z": 20.488292694091797 }, "pca_coordinates": { "x": -1.4050407409667969, "y": -0.18491458892822266, "z": -4.194226264953613 }, "axis_scores": { "Quantum imaging": 0.7168839573860168, "Quantum Life Science Sensing": 0.7355231642723083, "Quantum sensing Detection": 0.6926745176315308, "Quantum sensing Metrology": 0.6937775611877441, "Quantum sensing navigation": 0.6978465914726257, "Quantum sensing Position": 0.6767682433128357, "Quantum sensing Timing": 0.6605196595191956, "Quantum sensing": 0.720825731754303, "Quantum control": 0.7271182537078857 } }, { "id": 6517, "title": "Early menopause and risk of osteoporosis, fracture and mortality: a 34-year prospective observational study in 390 women", "abstract": "Please cite this paper as: Svejme O, Ahlborg H, Nilsson J, Karlsson M. Early menopause and risk of osteoporosis, fracture and mortality: a 34-year prospective observational study in 390 women. BJOG 20...", "citations": 151, "author_count": 5, "categories": [ "Obstetrics & Gynecology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6524, "doi": "10.1111/j.1471-0528.2012.03324.x", "umap_coordinates": { "x": 395.0001220703125, "y": 134.705078125, "z": 204.19705200195312 }, "tsne_coordinates": { "x": -2.4922101497650146, "y": 32.477317810058594, "z": 10.83630657196045 }, "pca_coordinates": { "x": -2.2403817176818848, "y": 3.6596384048461914, "z": -0.004060029983520508 }, "axis_scores": { "Quantum imaging": 0.6849469542503357, "Quantum Life Science Sensing": 0.7025398015975952, "Quantum sensing Detection": 0.6896998286247253, "Quantum sensing Metrology": 0.67899090051651, "Quantum sensing navigation": 0.6852321028709412, "Quantum sensing Position": 0.673603355884552, "Quantum sensing Timing": 0.6924824714660645, "Quantum sensing": 0.6952254176139832, "Quantum control": 0.6695501804351807 } }, { "id": 6518, "title": "Forearm bone mineral density and incidence of hip fractures in Swedish urban and rural men 1987-2002", "abstract": "Background: It is not known whether the recently described break in the trend in hip fracture incidence in many settings applies in both women and men, depends on changes in bone mineral density (BMD)...", "citations": 12, "author_count": 8, "categories": [ "Public", "Environmental & Occupational Health" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6525, "doi": "10.1177/1403494811425604", "umap_coordinates": { "x": 395.2743835449219, "y": 134.5611572265625, "z": 204.35092163085938 }, "tsne_coordinates": { "x": -3.5342955589294434, "y": 36.2404899597168, "z": 10.335102081298828 }, "pca_coordinates": { "x": -2.0133769512176514, "y": 4.017643451690674, "z": 0.9857774376869202 }, "axis_scores": { "Quantum imaging": 0.6694350838661194, "Quantum Life Science Sensing": 0.6741812229156494, "Quantum sensing Detection": 0.6612428426742554, "Quantum sensing Metrology": 0.6609499454498291, "Quantum sensing navigation": 0.6659761667251587, "Quantum sensing Position": 0.664707362651825, "Quantum sensing Timing": 0.6449430584907532, "Quantum sensing": 0.6647763252258301, "Quantum control": 0.6460252404212952 } }, { "id": 6519, "title": "Bremsstrahlung production at 50 MeV in different target materials and configurations", "abstract": "A combination of Monte Carlo, convolution, and experimental techniques have been used to investigate bremsstrahlung production at 50 MeV in full-range targets to produce narrow elementary photon beams...", "citations": 11, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6526, "doi": null, "umap_coordinates": { "x": 391.867919921875, "y": 139.2558135986328, "z": 209.50608825683594 }, "tsne_coordinates": { "x": -4.960452079772949, "y": 38.24702835083008, "z": -2.8382747173309326 }, "pca_coordinates": { "x": -1.936755895614624, "y": 4.030588150024414, "z": -2.5440332889556885 }, "axis_scores": { "Quantum imaging": 0.705863893032074, "Quantum Life Science Sensing": 0.7130274772644043, "Quantum sensing Detection": 0.6998779773712158, "Quantum sensing Metrology": 0.6967408061027527, "Quantum sensing navigation": 0.6854785680770874, "Quantum sensing Position": 0.679000735282898, "Quantum sensing Timing": 0.6637934446334839, "Quantum sensing": 0.7053841352462769, "Quantum control": 0.6997175812721252 } }, { "id": 6520, "title": "Violation of contextual generalization of the Leggett-Garg inequality for recognition of ambiguous figures", "abstract": "We interpret the Leggett-Garg (LG) inequality as a kind of contextual probabilistic inequality in which one combines data collected in experiments performed for three different contexts. In the origin...", "citations": 56, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6527, "doi": "10.1088/0031-8949/2014/T163/014006", "umap_coordinates": { "x": 395.5799865722656, "y": 137.16629028320312, "z": 205.90475463867188 }, "tsne_coordinates": { "x": -36.53369903564453, "y": -2.52156138420105, "z": 6.193863391876221 }, "pca_coordinates": { "x": 0.10332298278808594, "y": 4.799741744995117, "z": -0.4312095642089844 }, "axis_scores": { "Quantum imaging": 0.6552732586860657, "Quantum Life Science Sensing": 0.660162627696991, "Quantum sensing Detection": 0.6554866433143616, "Quantum sensing Metrology": 0.6492557525634766, "Quantum sensing navigation": 0.6832314729690552, "Quantum sensing Position": 0.663712203502655, "Quantum sensing Timing": 0.6653350591659546, "Quantum sensing": 0.6641523838043213, "Quantum control": 0.6446502208709717 } }, { "id": 6521, "title": "On the characterization of ultra-precise X-ray optical components: advances and challenges in ex situ metrology", "abstract": "To fully exploit the ultimate source properties of the next-generation light sources, such as free-electron lasers (FELs) and diffraction-limited storage rings (DLSRs), the quality requirements for gr...", "citations": 73, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6528, "doi": "10.1107/S1600577514016221", "umap_coordinates": { "x": 395.4226379394531, "y": 134.25050354003906, "z": 205.73365783691406 }, "tsne_coordinates": { "x": -19.68922233581543, "y": 8.575645446777344, "z": -20.642009735107422 }, "pca_coordinates": { "x": -2.055652141571045, "y": 0.8734930753707886, "z": 1.704469919204712 }, "axis_scores": { "Quantum imaging": 0.7071282863616943, "Quantum Life Science Sensing": 0.7358854413032532, "Quantum sensing Detection": 0.7018741369247437, "Quantum sensing Metrology": 0.7459831237792969, "Quantum sensing navigation": 0.7072980999946594, "Quantum sensing Position": 0.7181501984596252, "Quantum sensing Timing": 0.686841607093811, "Quantum sensing": 0.7232980728149414, "Quantum control": 0.6695334315299988 } }, { "id": 6522, "title": "POTENT EFFECT OF RECOMBINANT GROWTH-HORMONE ON BONE-MINERAL DENSITY AND BODY-COMPOSITION IN ADULTS WITH PANHYPOPITUITARISM", "abstract": "Six patients (21-50 years) with growth hormone deficiency and panhypopituitarism were given recombinant growth hormone, somatropin, 0.04-0.1 U.kg.body wt-1.day-1, for 12 months. All patients reported ...", "citations": 162, "author_count": 6, "categories": [ "Endocrinology & Metabolism" ], "year": 1992, "topic": [ "all" ], "embedding_index": 6529, "doi": "10.1530/acta.0.1260387", "umap_coordinates": { "x": 395.23992919921875, "y": 134.7278594970703, "z": 204.70156860351562 }, "tsne_coordinates": { "x": -0.6912344098091125, "y": 38.634918212890625, "z": 11.663249969482422 }, "pca_coordinates": { "x": -1.7524670362472534, "y": 2.850796699523926, "z": 0.6887757182121277 }, "axis_scores": { "Quantum imaging": 0.6751816272735596, "Quantum Life Science Sensing": 0.6730332970619202, "Quantum sensing Detection": 0.649154782295227, "Quantum sensing Metrology": 0.6735127568244934, "Quantum sensing navigation": 0.6674960851669312, "Quantum sensing Position": 0.6792394518852234, "Quantum sensing Timing": 0.6547057032585144, "Quantum sensing": 0.6710633039474487, "Quantum control": 0.668432891368866 } }, { "id": 6523, "title": "LumaCam: a novel class of position-sensitive event mode particle detectors using scintillator screens", "abstract": "A new type of position-sensitive detectors is gaining attention in the neutron community. They are scintillator based detectors that detect the scintillation light on an individual photon basis via an...", "citations": 4, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6530, "doi": "10.1038/s41598-024-82095-2", "umap_coordinates": { "x": 395.2483215332031, "y": 134.0586700439453, "z": 205.20504760742188 }, "tsne_coordinates": { "x": -14.42165470123291, "y": 24.890506744384766, "z": -7.46601676940918 }, "pca_coordinates": { "x": -2.4501843452453613, "y": 1.2035337686538696, "z": 1.3292906284332275 }, "axis_scores": { "Quantum imaging": 0.6997069716453552, "Quantum Life Science Sensing": 0.7081636190414429, "Quantum sensing Detection": 0.711875855922699, "Quantum sensing Metrology": 0.6967171430587769, "Quantum sensing navigation": 0.7082250118255615, "Quantum sensing Position": 0.7022351622581482, "Quantum sensing Timing": 0.6804829239845276, "Quantum sensing": 0.7036997675895691, "Quantum control": 0.658756673336029 } }, { "id": 6524, "title": "Quantum Depth in the Random Oracle Model", "abstract": "We give a comprehensive characterisation of the computational power of shallow quantum circuits combined with classical computation. Specifically, for classes of search problems, we show that the foll...", "citations": 6, "author_count": 7, "categories": [ "Computer Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6531, "doi": "10.1145/3564246.3585153", "umap_coordinates": { "x": 395.2940979003906, "y": 137.83294677734375, "z": 206.2607421875 }, "tsne_coordinates": { "x": -21.192960739135742, "y": 15.137308120727539, "z": 14.02489948272705 }, "pca_coordinates": { "x": 3.1377501487731934, "y": 4.596263885498047, "z": 0.040058434009552 }, "axis_scores": { "Quantum imaging": 0.7687564492225647, "Quantum Life Science Sensing": 0.7535781264305115, "Quantum sensing Detection": 0.7626386880874634, "Quantum sensing Metrology": 0.7584353685379028, "Quantum sensing navigation": 0.7873347997665405, "Quantum sensing Position": 0.7528747320175171, "Quantum sensing Timing": 0.7405970096588135, "Quantum sensing": 0.7829553484916687, "Quantum control": 0.758280873298645 } }, { "id": 6525, "title": "Undergraduate quantum mechanics: lost opportunities for engaging motivated students?", "abstract": "Quantum mechanics is widely recognised as an important and difficult subject, and many studies have been published focusing on students' conceptual difficulties. However, the sociocultural aspects of ...", "citations": 28, "author_count": 2, "categories": [ "Education & Educational Research" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6532, "doi": "10.1088/1361-6404/aa9b42", "umap_coordinates": { "x": 395.175537109375, "y": 136.67495727539062, "z": 206.49331665039062 }, "tsne_coordinates": { "x": -37.061370849609375, "y": -7.578335762023926, "z": -6.46256685256958 }, "pca_coordinates": { "x": 0.7886254787445068, "y": 3.301705837249756, "z": -0.2305724024772644 }, "axis_scores": { "Quantum imaging": 0.6708202362060547, "Quantum Life Science Sensing": 0.6643874645233154, "Quantum sensing Detection": 0.6586405038833618, "Quantum sensing Metrology": 0.6463602185249329, "Quantum sensing navigation": 0.6684038639068604, "Quantum sensing Position": 0.6315523982048035, "Quantum sensing Timing": 0.6673796772956848, "Quantum sensing": 0.6676801443099976, "Quantum control": 0.6625434160232544 } }, { "id": 6526, "title": "Optical and electrical characterization of (Ga,Mn)N/InGaN multiquantum well light-emitting diodes", "abstract": "(Ga,Mn)N/lnGaN multiquantum well (MQW) diodes were grown by molecular beam epitaxy (MBE). The current-voltage characteristics of the diodes show the presence of a parasitic junction between the (Ga,Mn...", "citations": 9, "author_count": 14, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6533, "doi": "10.1007/s11664-004-0204-9", "umap_coordinates": { "x": 393.3927001953125, "y": 133.76022338867188, "z": 206.69284057617188 }, "tsne_coordinates": { "x": 33.56967544555664, "y": 3.6356289386749268, "z": 6.381186008453369 }, "pca_coordinates": { "x": -2.2807884216308594, "y": -1.9968442916870117, "z": 2.1838762760162354 }, "axis_scores": { "Quantum imaging": 0.710577666759491, "Quantum Life Science Sensing": 0.7173764705657959, "Quantum sensing Detection": 0.709632158279419, "Quantum sensing Metrology": 0.7185531854629517, "Quantum sensing navigation": 0.7059311270713806, "Quantum sensing Position": 0.6915377974510193, "Quantum sensing Timing": 0.6799484491348267, "Quantum sensing": 0.7203280925750732, "Quantum control": 0.6794384717941284 } }, { "id": 6527, "title": "Clinical findings in nondemented mutation carriers predisposed to Alzheimer's disease: a model of mild cognitive impairment", "abstract": "Individuals carrying a mutation associated with Alzheimer's disease (AD) may serve as a model of mild cognitive impairment (MCI). Nondemented individuals from these families can be subdivided into asy...", "citations": 20, "author_count": 8, "categories": [ "Neurosciences & Neurology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6534, "doi": "10.1034/j.1600-0404.107.s179.11.x", "umap_coordinates": { "x": 395.2644348144531, "y": 134.79661560058594, "z": 204.4347381591797 }, "tsne_coordinates": { "x": -7.18718957901001, "y": 26.003686904907227, "z": 4.0219645500183105 }, "pca_coordinates": { "x": -1.9682947397232056, "y": 3.1349124908447266, "z": -0.738210916519165 }, "axis_scores": { "Quantum imaging": 0.6374039649963379, "Quantum Life Science Sensing": 0.6457265615463257, "Quantum sensing Detection": 0.6265106201171875, "Quantum sensing Metrology": 0.6109089851379395, "Quantum sensing navigation": 0.6320942640304565, "Quantum sensing Position": 0.6318575739860535, "Quantum sensing Timing": 0.6229939460754395, "Quantum sensing": 0.6218855381011963, "Quantum control": 0.6110531091690063 } }, { "id": 6528, "title": "Structure of the oxygen-evolving complex of photosystem II: information on the S2 state through quantum chemical calculation of its magnetic properties", "abstract": "Twelve structural models for the S-2 state of the oxygen-evolving complex (OEC) of photosystem II are evaluated in terms of their magnetic properties. The set includes ten models based on the 'fused t...", "citations": 126, "author_count": 8, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6535, "doi": "10.1039/b907038a", "umap_coordinates": { "x": 392.35009765625, "y": 136.4604949951172, "z": 206.3015899658203 }, "tsne_coordinates": { "x": 17.35932159423828, "y": 9.087300300598145, "z": 9.421199798583984 }, "pca_coordinates": { "x": 0.1496068239212036, "y": -0.574270486831665, "z": -4.2048258781433105 }, "axis_scores": { "Quantum imaging": 0.7271782755851746, "Quantum Life Science Sensing": 0.7669103741645813, "Quantum sensing Detection": 0.7085888981819153, "Quantum sensing Metrology": 0.7076548337936401, "Quantum sensing navigation": 0.717676043510437, "Quantum sensing Position": 0.6958096027374268, "Quantum sensing Timing": 0.6605628132820129, "Quantum sensing": 0.731437623500824, "Quantum control": 0.7061582803726196 } }, { "id": 6529, "title": "PDRs4All XI. Detection of infrared CH+ and CH3+ rovibrational emission in the Orion Bar and disk d203-506: Evidence of chemical pumping", "abstract": "Aims. Our goal is to use the first detection of CH+ and CH3+ infrared rovibrational emission in the Orion Bar and in the protoplanetary disk d203-506 to probe their formation and excitation mechanisms...", "citations": 13, "author_count": 24, "categories": [ "Astronomy & Astrophysics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6536, "doi": "10.1051/0004-6361/202453441", "umap_coordinates": { "x": 395.8810729980469, "y": 135.31451416015625, "z": 206.35845947265625 }, "tsne_coordinates": { "x": -0.47998473048210144, "y": 12.518766403198242, "z": 10.351212501525879 }, "pca_coordinates": { "x": -0.23131787776947021, "y": 1.4868834018707275, "z": -1.5342293977737427 }, "axis_scores": { "Quantum imaging": 0.6776120662689209, "Quantum Life Science Sensing": 0.7069483399391174, "Quantum sensing Detection": 0.6807913184165955, "Quantum sensing Metrology": 0.661647617816925, "Quantum sensing navigation": 0.6747111082077026, "Quantum sensing Position": 0.6675834059715271, "Quantum sensing Timing": 0.6578956842422485, "Quantum sensing": 0.6845959424972534, "Quantum control": 0.6861054301261902 } }, { "id": 6530, "title": "Complex DNA binding kinetics resolved-by combined circular dichroism and luminescence analysis", "abstract": "We recently reported that ruthenium complexes, with general structure [mu-bidppz(bipy)(4)Ru-2](4+) (B) or [mu-bidppz(phen)(4)Ru-2](4+) (p) (bidppz = 11,11'-bi(dipyrido[3,2-a:2',3'-c]phenazinyl)), show...", "citations": 28, "author_count": 7, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6537, "doi": "10.1021/jp711116z", "umap_coordinates": { "x": 392.63201904296875, "y": 136.73779296875, "z": 205.21493530273438 }, "tsne_coordinates": { "x": 6.611669540405273, "y": 14.340276718139648, "z": 11.02045726776123 }, "pca_coordinates": { "x": -1.8438940048217773, "y": -0.9132575988769531, "z": -1.3254926204681396 }, "axis_scores": { "Quantum imaging": 0.6995605826377869, "Quantum Life Science Sensing": 0.7256333827972412, "Quantum sensing Detection": 0.7073158025741577, "Quantum sensing Metrology": 0.6740700006484985, "Quantum sensing navigation": 0.6910557746887207, "Quantum sensing Position": 0.6675518751144409, "Quantum sensing Timing": 0.6588256359100342, "Quantum sensing": 0.7039235234260559, "Quantum control": 0.6688799262046814 } }, { "id": 6531, "title": "Inhomogeneous spin excitations in weakly coupled spin-1/2 chains", "abstract": "We present a systematic inelastic neutron scattering and neutron diffraction study on the magnetic structure of the quasi-one-dimensional spin-1/2 magnet SrCo2V2O8, where the interchain coupling in th...", "citations": 3, "author_count": 12, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6538, "doi": "10.1103/PhysRevResearch.4.013111", "umap_coordinates": { "x": 393.7802734375, "y": 136.3468780517578, "z": 208.50711059570312 }, "tsne_coordinates": { "x": -7.599310874938965, "y": -39.502201080322266, "z": 9.624881744384766 }, "pca_coordinates": { "x": 3.853031635284424, "y": -1.1846911907196045, "z": -1.8271219730377197 }, "axis_scores": { "Quantum imaging": 0.7188014984130859, "Quantum Life Science Sensing": 0.7168661952018738, "Quantum sensing Detection": 0.7071241736412048, "Quantum sensing Metrology": 0.6856285929679871, "Quantum sensing navigation": 0.7132168412208557, "Quantum sensing Position": 0.6781314611434937, "Quantum sensing Timing": 0.6584817171096802, "Quantum sensing": 0.7247908711433411, "Quantum control": 0.6958421468734741 } }, { "id": 6532, "title": "The impact of the heteroatom in a five-membered ring on the photophysical properties of difluoroborates", "abstract": "A series of novel BF2 complexes, bearing a five-membered heterocyclic ring (with X = NMe, O, and S), were synthesized and characterized with a focus on the influence of atom exchange on the photophysi...", "citations": 13, "author_count": 9, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6539, "doi": "10.1016/j.dyepig.2019.04.026", "umap_coordinates": { "x": 392.7169494628906, "y": 135.321533203125, "z": 204.5539093017578 }, "tsne_coordinates": { "x": 3.120954751968384, "y": 12.55836296081543, "z": -3.1006999015808105 }, "pca_coordinates": { "x": -3.984732151031494, "y": -0.5153453350067139, "z": -3.2329516410827637 }, "axis_scores": { "Quantum imaging": 0.7334960699081421, "Quantum Life Science Sensing": 0.7354564070701599, "Quantum sensing Detection": 0.6990761160850525, "Quantum sensing Metrology": 0.6860781908035278, "Quantum sensing navigation": 0.682485818862915, "Quantum sensing Position": 0.6926975250244141, "Quantum sensing Timing": 0.66357421875, "Quantum sensing": 0.7286091446876526, "Quantum control": 0.7063275575637817 } }, { "id": 6533, "title": "More Causes Less Effect: Destructive Interference in Decision Making", "abstract": "We present a new experiment demonstrating destructive interference in customers' estimates of conditional probabilities of product failure. We take the perspective of a manufacturer of consumer produc...", "citations": 7, "author_count": 4, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6540, "doi": "10.3390/e24050725", "umap_coordinates": { "x": 394.9820861816406, "y": 137.88494873046875, "z": 205.60047912597656 }, "tsne_coordinates": { "x": -27.180233001708984, "y": 12.082315444946289, "z": 20.332490921020508 }, "pca_coordinates": { "x": -1.4293882846832275, "y": 4.484560012817383, "z": -1.487705945968628 }, "axis_scores": { "Quantum imaging": 0.6761043667793274, "Quantum Life Science Sensing": 0.6859039664268494, "Quantum sensing Detection": 0.6855948567390442, "Quantum sensing Metrology": 0.6655988693237305, "Quantum sensing navigation": 0.6683521270751953, "Quantum sensing Position": 0.6583027839660645, "Quantum sensing Timing": 0.6585303544998169, "Quantum sensing": 0.6977428197860718, "Quantum control": 0.7071831822395325 } }, { "id": 6534, "title": "A morphological and electronic study of ultrathin rear passivated Cu(In,Ga)Se2 solar cells", "abstract": "The effects of introducing a passivation layer at the rear of ultrathin Copper Indium Gallium di-Selenide Cu(In,Ga)Se-2 (CIGS) solar cells is studied. Point contact structures have been created on 25 ...", "citations": 27, "author_count": 12, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6541, "doi": "10.1016/j.tsf.2018.12.028", "umap_coordinates": { "x": 393.0997009277344, "y": 133.51390075683594, "z": 205.55101013183594 }, "tsne_coordinates": { "x": 37.62885665893555, "y": 9.303668022155762, "z": 0.5722519755363464 }, "pca_coordinates": { "x": -3.410749912261963, "y": -2.2561144828796387, "z": -0.9924691915512085 }, "axis_scores": { "Quantum imaging": 0.6653823256492615, "Quantum Life Science Sensing": 0.7067337036132812, "Quantum sensing Detection": 0.6640017628669739, "Quantum sensing Metrology": 0.6581896543502808, "Quantum sensing navigation": 0.6487307548522949, "Quantum sensing Position": 0.6513515114784241, "Quantum sensing Timing": 0.6416690349578857, "Quantum sensing": 0.6773212552070618, "Quantum control": 0.6551455855369568 } }, { "id": 6535, "title": "Closure of the Mott gap and formation of a superthermal metal in the Frohlich-type nonequilibrium polaron Bose-Einstein condensate in UO2+x", "abstract": "Mixed valence O-doped UO2+x. and photoexcited UO2 containing transitory U3+ and U5+ host a coherent polaronic quantum phase (CPQP) that exhibits the characteristics of a Frohlich-type, nonequilibrium,...", "citations": 9, "author_count": 28, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6542, "doi": "10.1103/PhysRevB.96.125114", "umap_coordinates": { "x": 394.2029113769531, "y": 136.23451232910156, "z": 208.7236785888672 }, "tsne_coordinates": { "x": 1.809869647026062, "y": -40.575782775878906, "z": 1.6220961809158325 }, "pca_coordinates": { "x": 3.4151272773742676, "y": 0.060968637466430664, "z": -1.5609893798828125 }, "axis_scores": { "Quantum imaging": 0.6737346649169922, "Quantum Life Science Sensing": 0.7018578052520752, "Quantum sensing Detection": 0.6909757852554321, "Quantum sensing Metrology": 0.6920665502548218, "Quantum sensing navigation": 0.6789763569831848, "Quantum sensing Position": 0.6745550036430359, "Quantum sensing Timing": 0.6840996146202087, "Quantum sensing": 0.69189453125, "Quantum control": 0.6696076989173889 } }, { "id": 6536, "title": "Follicle-stimulating hormone stimulates free radical generation without inducing substantial oxidative stress in human granulosa cells", "abstract": "STUDY QUESTION Does FSH induce free radical generation with substantial oxidative damage in human cumulus granulosa cells (cGCs) and mural granulosa cells (mGCs)? SUMMARY ANSWER FSH of both physiologi...", "citations": 1, "author_count": 14, "categories": [ "Obstetrics & Gynecology" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6543, "doi": "10.1093/hropen/hoaf007", "umap_coordinates": { "x": 394.8043518066406, "y": 135.79429626464844, "z": 204.92449951171875 }, "tsne_coordinates": { "x": 9.344685554504395, "y": 27.818294525146484, "z": 27.11393928527832 }, "pca_coordinates": { "x": -1.4286003112792969, "y": 4.422160625457764, "z": -2.282564878463745 }, "axis_scores": { "Quantum imaging": 0.6549609899520874, "Quantum Life Science Sensing": 0.7066346406936646, "Quantum sensing Detection": 0.6617122292518616, "Quantum sensing Metrology": 0.6482431888580322, "Quantum sensing navigation": 0.6463339328765869, "Quantum sensing Position": 0.614798367023468, "Quantum sensing Timing": 0.6278894543647766, "Quantum sensing": 0.6792933940887451, "Quantum control": 0.6553964614868164 } }, { "id": 6537, "title": "Personalized Dosimetry for Radionuclide Therapy Using Molecular Imaging Tools", "abstract": "For treatment of systemic malignancies, when external radiation therapy is not applicable, radionuclide therapy can be an alternative. In this form of therapy, radionuclides are administered to the pa...", "citations": 38, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6544, "doi": "10.3390/biomedicines4040025", "umap_coordinates": { "x": 394.8885498046875, "y": 133.3236083984375, "z": 204.67494201660156 }, "tsne_coordinates": { "x": 2.008101463317871, "y": 28.50119972229004, "z": -12.274747848510742 }, "pca_coordinates": { "x": -4.143186569213867, "y": 2.6601638793945312, "z": 0.6149234175682068 }, "axis_scores": { "Quantum imaging": 0.7541396617889404, "Quantum Life Science Sensing": 0.7570464611053467, "Quantum sensing Detection": 0.7096009254455566, "Quantum sensing Metrology": 0.7229663729667664, "Quantum sensing navigation": 0.7181187868118286, "Quantum sensing Position": 0.6958704590797424, "Quantum sensing Timing": 0.7061195373535156, "Quantum sensing": 0.7220200300216675, "Quantum control": 0.6782622933387756 } }, { "id": 6538, "title": "Energy-time entanglement, elements of reality, and local realism", "abstract": "The Franson interferometer, proposed in 1989 (Franson 1989 Phys. Rev. Lett. 62 2205-08), beautifully shows the counter-intuitive nature of light. The quantum description predicts sinusoidal interferen...", "citations": 19, "author_count": 3, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6545, "doi": "10.1088/1751-8113/47/42/424032", "umap_coordinates": { "x": 395.27880859375, "y": 137.6990509033203, "z": 206.4785919189453 }, "tsne_coordinates": { "x": -27.867021560668945, "y": -4.9285569190979, "z": 11.809344291687012 }, "pca_coordinates": { "x": 2.0402021408081055, "y": 3.7483668327331543, "z": -0.0356786847114563 }, "axis_scores": { "Quantum imaging": 0.7381663918495178, "Quantum Life Science Sensing": 0.7273660898208618, "Quantum sensing Detection": 0.6993102431297302, "Quantum sensing Metrology": 0.7019609212875366, "Quantum sensing navigation": 0.7241351008415222, "Quantum sensing Position": 0.7034699320793152, "Quantum sensing Timing": 0.7136192917823792, "Quantum sensing": 0.7277966141700745, "Quantum control": 0.7048958539962769 } }, { "id": 6539, "title": "Rydberg matter - A long-lived excited state of matter", "abstract": "The theory of condensed excited matter, the so-called Rydberg matter (RM), is examined briefly. Explicit results are given for several physical quantities, notably, the work function and the resistivi...", "citations": 23, "author_count": 3, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6546, "doi": "10.1134/1.558225", "umap_coordinates": { "x": 394.0353698730469, "y": 135.7074737548828, "z": 207.20550537109375 }, "tsne_coordinates": { "x": -5.714552879333496, "y": -6.614458084106445, "z": 5.954885482788086 }, "pca_coordinates": { "x": 1.4536833763122559, "y": 1.1250338554382324, "z": -0.8587620258331299 }, "axis_scores": { "Quantum imaging": 0.7258356809616089, "Quantum Life Science Sensing": 0.7716746926307678, "Quantum sensing Detection": 0.7333133816719055, "Quantum sensing Metrology": 0.725506067276001, "Quantum sensing navigation": 0.7235013842582703, "Quantum sensing Position": 0.6973236203193665, "Quantum sensing Timing": 0.6857138276100159, "Quantum sensing": 0.7502769231796265, "Quantum control": 0.7043299078941345 } }, { "id": 6540, "title": "Measurement of magnitude and sign of heteronuclear coupling constants in transition metal complexes", "abstract": "Sets of specifically tailored E.COSY-type correlation experiments and double-quantum/zero-quantum (DQ/ZQ) experiments are presented which enable the determination of sign and size of small heteronucle...", "citations": 20, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1999, "topic": [ "all" ], "embedding_index": 6547, "doi": "10.1006/jmre.1998.1693", "umap_coordinates": { "x": 392.51947021484375, "y": 137.19932556152344, "z": 206.81153869628906 }, "tsne_coordinates": { "x": 18.18079376220703, "y": 3.257272481918335, "z": 33.66701889038086 }, "pca_coordinates": { "x": -0.2943107485771179, "y": 1.4078949689865112, "z": -2.303039073944092 }, "axis_scores": { "Quantum imaging": 0.736046552658081, "Quantum Life Science Sensing": 0.7510843276977539, "Quantum sensing Detection": 0.7344739437103271, "Quantum sensing Metrology": 0.7357156276702881, "Quantum sensing navigation": 0.7210718393325806, "Quantum sensing Position": 0.7165977358818054, "Quantum sensing Timing": 0.7184624075889587, "Quantum sensing": 0.7438849210739136, "Quantum control": 0.7016913294792175 } }, { "id": 6541, "title": "Theoretical study of the electronic spectrum of trans-stilbene", "abstract": "The electronic spectrum of trans-stilbene in the energy range up to 6 eV has been studied using multiconfigurational second-order perturbation theory (CASPT2). The study includes a geometry determinat...", "citations": 141, "author_count": 4, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6548, "doi": "10.1021/jp9624109", "umap_coordinates": { "x": 392.75311279296875, "y": 135.6855010986328, "z": 205.70669555664062 }, "tsne_coordinates": { "x": -3.6768832206726074, "y": 1.3362147808074951, "z": -13.661674499511719 }, "pca_coordinates": { "x": -0.4309351444244385, "y": -0.533740758895874, "z": -1.1909997463226318 }, "axis_scores": { "Quantum imaging": 0.6786020398139954, "Quantum Life Science Sensing": 0.6998761892318726, "Quantum sensing Detection": 0.6780297756195068, "Quantum sensing Metrology": 0.655592143535614, "Quantum sensing navigation": 0.6484853029251099, "Quantum sensing Position": 0.66303950548172, "Quantum sensing Timing": 0.6757338047027588, "Quantum sensing": 0.6875432133674622, "Quantum control": 0.6456631422042847 } }, { "id": 6542, "title": "Growth and Physiological Responses of Norway Spruce (Picea abies (L.) H. Karst) Supplemented with Monochromatic Red, Blue and Far-Red Light", "abstract": "Monochromatic red light (R) supplementation is more efficient than blue light (B) in promoting Norway spruce (Picea abies (L.) H. Karst) growth. Transcriptome analysis has revealed that R and B may re...", "citations": 11, "author_count": 11, "categories": [ "Forestry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6549, "doi": "10.3390/f12020164", "umap_coordinates": { "x": 394.2104797363281, "y": 135.97402954101562, "z": 203.56678771972656 }, "tsne_coordinates": { "x": 14.043526649475098, "y": 33.31085968017578, "z": 11.80441665649414 }, "pca_coordinates": { "x": -3.6106133460998535, "y": 1.4292625188827515, "z": -0.5734493136405945 }, "axis_scores": { "Quantum imaging": 0.6862742900848389, "Quantum Life Science Sensing": 0.7433191537857056, "Quantum sensing Detection": 0.7002295255661011, "Quantum sensing Metrology": 0.7068434357643127, "Quantum sensing navigation": 0.6961131691932678, "Quantum sensing Position": 0.6706880331039429, "Quantum sensing Timing": 0.6676763892173767, "Quantum sensing": 0.7166358232498169, "Quantum control": 0.6878862380981445 } }, { "id": 6543, "title": "How Monoamine Oxidase A Decomposes Serotonin: An Empirical Valence Bond Simulation of the Reactive Step", "abstract": "The enzyme-catalyzed degradation of the biogenic amine serotonin is an essential regulatory mechanism of its level in the human organism. In particular, monoamine oxidase A (MAO A) is an important fla...", "citations": 65, "author_count": 6, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6550, "doi": "10.1021/acs.jpcb.0c06502", "umap_coordinates": { "x": 393.57281494140625, "y": 137.049072265625, "z": 205.41348266601562 }, "tsne_coordinates": { "x": 0.43029695749282837, "y": 15.702524185180664, "z": 21.389001846313477 }, "pca_coordinates": { "x": -0.002299070358276367, "y": 0.7653379440307617, "z": -2.8384060859680176 }, "axis_scores": { "Quantum imaging": 0.7207071185112, "Quantum Life Science Sensing": 0.7230569124221802, "Quantum sensing Detection": 0.7008818984031677, "Quantum sensing Metrology": 0.6784927845001221, "Quantum sensing navigation": 0.7093985080718994, "Quantum sensing Position": 0.6814164519309998, "Quantum sensing Timing": 0.6770899891853333, "Quantum sensing": 0.7197887301445007, "Quantum control": 0.7032657861709595 } }, { "id": 6544, "title": "3-D Image-Based Dosimetry in Radionuclide Therapy", "abstract": "Radionuclide therapy is the use of radioactive drugs for internal radiotherapy, mainly for the treatment of metastatic disease. As opposed to systemic cancer therapies in general, the use of radioacti...", "citations": 31, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6551, "doi": "10.1109/TRPMS.2018.2860563", "umap_coordinates": { "x": 395.4794006347656, "y": 132.7494659423828, "z": 205.1761474609375 }, "tsne_coordinates": { "x": 0.05787389352917671, "y": 28.834516525268555, "z": -12.27512264251709 }, "pca_coordinates": { "x": -1.8382946252822876, "y": 2.6705729961395264, "z": 2.679168701171875 }, "axis_scores": { "Quantum imaging": 0.7777625918388367, "Quantum Life Science Sensing": 0.7456501722335815, "Quantum sensing Detection": 0.7326879501342773, "Quantum sensing Metrology": 0.7383467555046082, "Quantum sensing navigation": 0.7428516149520874, "Quantum sensing Position": 0.731660008430481, "Quantum sensing Timing": 0.7372808456420898, "Quantum sensing": 0.7446651458740234, "Quantum control": 0.6980472803115845 } }, { "id": 6545, "title": "Precisely nanostructured HfO2 rear passivation layers for ultra-thin Cu(In,Ga)Se2", "abstract": "The quest for material-efficient Cu(In,Ga)Se-2 (CIGS) solar cells encourages the development of ultra-thin absorbers. Their use reduces material consumption and energy usage during production by incre...", "citations": 6, "author_count": 8, "categories": [ "Energy & Fuels" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6552, "doi": "10.1002/pip.3576", "umap_coordinates": { "x": 392.7248840332031, "y": 133.4279327392578, "z": 206.0818634033203 }, "tsne_coordinates": { "x": 37.714210510253906, "y": 8.314502716064453, "z": 0.2896162271499634 }, "pca_coordinates": { "x": -2.61806058883667, "y": -0.9810552597045898, "z": -0.2420794665813446 }, "axis_scores": { "Quantum imaging": 0.695902407169342, "Quantum Life Science Sensing": 0.7045166492462158, "Quantum sensing Detection": 0.6722036004066467, "Quantum sensing Metrology": 0.6904240846633911, "Quantum sensing navigation": 0.6907445788383484, "Quantum sensing Position": 0.6752800941467285, "Quantum sensing Timing": 0.6766470670700073, "Quantum sensing": 0.6998409032821655, "Quantum control": 0.6915169954299927 } }, { "id": 6546, "title": "Spectral Variability in Phycocyanin Cryptophyte Antenna Complexes is Controlled by Changes in the α-Polypeptide Chains", "abstract": "Quantitative models of light harvesting in photosynthetic antenna complexes depend sensitively on the challenging determination of the relative site energies of the pigments. Herein we analyze the bas...", "citations": 19, "author_count": 6, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6553, "doi": "10.1002/cptc.201900045", "umap_coordinates": { "x": 394.06597900390625, "y": 136.4064483642578, "z": 203.6824493408203 }, "tsne_coordinates": { "x": 16.350290298461914, "y": 38.4044189453125, "z": 14.159856796264648 }, "pca_coordinates": { "x": -1.9821221828460693, "y": 0.8252842426300049, "z": -1.659946084022522 }, "axis_scores": { "Quantum imaging": 0.6891157627105713, "Quantum Life Science Sensing": 0.7248730659484863, "Quantum sensing Detection": 0.6902044415473938, "Quantum sensing Metrology": 0.6616501212120056, "Quantum sensing navigation": 0.6788143515586853, "Quantum sensing Position": 0.6688356399536133, "Quantum sensing Timing": 0.6905738115310669, "Quantum sensing": 0.7014303803443909, "Quantum control": 0.6989613175392151 } }, { "id": 6547, "title": "Femtosecond two-photon laser-induced fluorescence imaging of atomic hydrogen in a laminar methane-air flame assisted by nanosecond repetitively pulsed discharges", "abstract": "Sustainable and low-emission combustion is in need of novel schemes to enhance combustion efficiency and control to meet up with new emission standards and comply with varying quality of renewable fue...", "citations": 23, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6554, "doi": "10.1088/1361-6595/ab9234", "umap_coordinates": { "x": 394.7464599609375, "y": 134.67498779296875, "z": 205.83346557617188 }, "tsne_coordinates": { "x": 6.582833290100098, "y": 15.322460174560547, "z": -33.93291091918945 }, "pca_coordinates": { "x": -1.350101113319397, "y": 0.6856447458267212, "z": 1.7621064186096191 }, "axis_scores": { "Quantum imaging": 0.6871613264083862, "Quantum Life Science Sensing": 0.6716519594192505, "Quantum sensing Detection": 0.6565186381340027, "Quantum sensing Metrology": 0.6459357142448425, "Quantum sensing navigation": 0.6444661617279053, "Quantum sensing Position": 0.6254043579101562, "Quantum sensing Timing": 0.6462439894676208, "Quantum sensing": 0.6697183847427368, "Quantum control": 0.636709451675415 } }, { "id": 6548, "title": "Towards Universal Wavelength-Specific Photodegradation Rate Constants for Methyl Mercury in Humic Waters, Exemplified by a Boreal Lake-Wetland Gradient", "abstract": "We report experimentally determined first-order rate constants of MeHg photolysis in three waters along a Boreal lake-wetland gradient covering a range of pH (3.8-6.6), concentrations of total organic...", "citations": 70, "author_count": 9, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6555, "doi": "10.1021/es400373s", "umap_coordinates": { "x": 393.1884460449219, "y": 136.98458862304688, "z": 205.2392120361328 }, "tsne_coordinates": { "x": -7.639530181884766, "y": 1.5067219734191895, "z": 18.18267250061035 }, "pca_coordinates": { "x": -2.4154839515686035, "y": 0.6899964809417725, "z": -1.8233323097229004 }, "axis_scores": { "Quantum imaging": 0.6519732475280762, "Quantum Life Science Sensing": 0.6906799077987671, "Quantum sensing Detection": 0.6525519490242004, "Quantum sensing Metrology": 0.6655053496360779, "Quantum sensing navigation": 0.6714674234390259, "Quantum sensing Position": 0.638788104057312, "Quantum sensing Timing": 0.6260340809822083, "Quantum sensing": 0.6646282076835632, "Quantum control": 0.6188589334487915 } }, { "id": 6549, "title": "Modified chlorophyll pigment at ChlD1 tunes photosystem II beyond the red-light limit", "abstract": "Photosystem II (PSII) is powered by the light-capturing properties of chlorophyll a pigments that define the spectral range of oxygenic photosynthesis. Some photosynthetic cyanobacteria can acclimate ...", "citations": 1, "author_count": 8, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6556, "doi": "10.1039/d4sc07473d", "umap_coordinates": { "x": 393.0254821777344, "y": 136.25364685058594, "z": 204.29061889648438 }, "tsne_coordinates": { "x": 10.043451309204102, "y": 0.7431187629699707, "z": -9.259307861328125 }, "pca_coordinates": { "x": -2.4490764141082764, "y": -0.990609884262085, "z": -1.8379559516906738 }, "axis_scores": { "Quantum imaging": 0.7061913013458252, "Quantum Life Science Sensing": 0.7524195909500122, "Quantum sensing Detection": 0.7102296352386475, "Quantum sensing Metrology": 0.7039600014686584, "Quantum sensing navigation": 0.6902105808258057, "Quantum sensing Position": 0.6751418113708496, "Quantum sensing Timing": 0.6582755446434021, "Quantum sensing": 0.724410891532898, "Quantum control": 0.7047228217124939 } }, { "id": 6550, "title": "Sustained Release of Proteins Using Region-Specific Tunable Degradability in Hydrogels through 3D Photopatterning and Complimentary Labile Bond Chemistry", "abstract": "Light-triggered chemical reactions have demonstrated great potential for advanced cell guidance, on-demand release of therapeutics, and complex patterning in four dimensions. Current strategies rely o...", "citations": 1, "author_count": 8, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6557, "doi": "10.1002/adfm.202419935", "umap_coordinates": { "x": 392.9208679199219, "y": 135.9339599609375, "z": 204.7447052001953 }, "tsne_coordinates": { "x": 5.842868328094482, "y": 20.89011001586914, "z": 1.6322741508483887 }, "pca_coordinates": { "x": -3.892507314682007, "y": 0.2745208740234375, "z": -1.5974853038787842 }, "axis_scores": { "Quantum imaging": 0.6662893295288086, "Quantum Life Science Sensing": 0.7003680467605591, "Quantum sensing Detection": 0.6551242470741272, "Quantum sensing Metrology": 0.6546541452407837, "Quantum sensing navigation": 0.6478836536407471, "Quantum sensing Position": 0.6380883455276489, "Quantum sensing Timing": 0.634387731552124, "Quantum sensing": 0.6742554306983948, "Quantum control": 0.6615613102912903 } }, { "id": 6551, "title": "Radiation-mediated Shocks in Gamma-Ray Bursts: Subshock Photon Production", "abstract": "Internal shocks provide a plausible heating mechanism in the jets of gamma-ray bursts (GRBs). Shocks occurring below the jet photosphere are mediated by radiation. It was previously found that radiati...", "citations": 13, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6558, "doi": "10.3847/1538-4357/ab229f", "umap_coordinates": { "x": 396.42047119140625, "y": 134.99801635742188, "z": 206.29779052734375 }, "tsne_coordinates": { "x": -33.494422912597656, "y": 19.000802993774414, "z": 1.6423394680023193 }, "pca_coordinates": { "x": 0.0558018684387207, "y": 2.072927713394165, "z": 1.2197239398956299 }, "axis_scores": { "Quantum imaging": 0.6658642292022705, "Quantum Life Science Sensing": 0.6559977531433105, "Quantum sensing Detection": 0.6509723663330078, "Quantum sensing Metrology": 0.6191271543502808, "Quantum sensing navigation": 0.6670414209365845, "Quantum sensing Position": 0.6102398633956909, "Quantum sensing Timing": 0.634990394115448, "Quantum sensing": 0.6547625064849854, "Quantum control": 0.6188490986824036 } }, { "id": 6552, "title": "In vivo subcellular imaging of tumors in mouse models using a fluorophore-conjugated anti-carcinoembryonic antigen antibody in two-photon excitation microscopy", "abstract": "Recently, there has been growing interest in applying fluorescence imaging techniques to the study of various disease processes and complex biological phenomena in vivo. To apply these methods to clin...", "citations": 21, "author_count": 12, "categories": [ "Oncology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6559, "doi": "10.1111/cas.12500", "umap_coordinates": { "x": 394.8898010253906, "y": 133.9963836669922, "z": 204.54396057128906 }, "tsne_coordinates": { "x": 1.262514591217041, "y": 24.663806915283203, "z": 4.610512733459473 }, "pca_coordinates": { "x": -3.4088189601898193, "y": 0.5000162124633789, "z": 1.6628448963165283 }, "axis_scores": { "Quantum imaging": 0.7389972805976868, "Quantum Life Science Sensing": 0.6833508014678955, "Quantum sensing Detection": 0.6917411088943481, "Quantum sensing Metrology": 0.6756702065467834, "Quantum sensing navigation": 0.6854076385498047, "Quantum sensing Position": 0.656758725643158, "Quantum sensing Timing": 0.6591355800628662, "Quantum sensing": 0.6899423599243164, "Quantum control": 0.662372887134552 } }, { "id": 6553, "title": "H2 formation from the E2-E4 states of nitrogenase", "abstract": "Nitrogenase is the only enzyme that can cleave the strong triple bond in N-2, making nitrogen available for biological lifeforms. The active site is a MoFe7S9C cluster (the FeMo cluster) that binds ei...", "citations": 2, "author_count": 3, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6560, "doi": "10.1039/d3cp05181a", "umap_coordinates": { "x": 392.39739990234375, "y": 136.35012817382812, "z": 205.43212890625 }, "tsne_coordinates": { "x": 8.037972450256348, "y": 4.886460781097412, "z": 13.06975269317627 }, "pca_coordinates": { "x": -0.38906562328338623, "y": 0.9769887924194336, "z": -4.456442832946777 }, "axis_scores": { "Quantum imaging": 0.6876310706138611, "Quantum Life Science Sensing": 0.7153410315513611, "Quantum sensing Detection": 0.6903971433639526, "Quantum sensing Metrology": 0.6564100384712219, "Quantum sensing navigation": 0.6861981749534607, "Quantum sensing Position": 0.6619803309440613, "Quantum sensing Timing": 0.6452684998512268, "Quantum sensing": 0.6953505277633667, "Quantum control": 0.688607931137085 } }, { "id": 6554, "title": "Experimental and Theoretical Study of Photoionization of Cl III", "abstract": "Photoionization of Cl III ions into Cl IV was studied theoretically using the ab initio relativistic Breit-Pauli R-matrix (BPRM) method and experimentally at the Advanced Light Source (ALS) synchrotro...", "citations": 5, "author_count": 14, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6561, "doi": "10.3390/atoms11020028", "umap_coordinates": { "x": 393.5556640625, "y": 136.5210418701172, "z": 205.6240234375 }, "tsne_coordinates": { "x": 0.055485520511865616, "y": 4.937502384185791, "z": 18.61417007446289 }, "pca_coordinates": { "x": -1.8801190853118896, "y": 1.5342462062835693, "z": -2.4362306594848633 }, "axis_scores": { "Quantum imaging": 0.6983300447463989, "Quantum Life Science Sensing": 0.7358492016792297, "Quantum sensing Detection": 0.7017485499382019, "Quantum sensing Metrology": 0.6787571310997009, "Quantum sensing navigation": 0.6580263376235962, "Quantum sensing Position": 0.6621240973472595, "Quantum sensing Timing": 0.6514314413070679, "Quantum sensing": 0.7075870037078857, "Quantum control": 0.6927697658538818 } }, { "id": 6555, "title": "Laser-induced thermal grating spectroscopy based on femtosecond laser multi-photon absorption", "abstract": "Laser-induced grating spectroscopy (LIGS) is for the first time explored in a configuration based on the crossing of two focused femtosecond (fs) laser pulses (800-nm wavelength) and a focused continu...", "citations": 15, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6562, "doi": "10.1038/s41598-021-89269-2", "umap_coordinates": { "x": 393.94573974609375, "y": 134.42108154296875, "z": 205.9425811767578 }, "tsne_coordinates": { "x": 6.67129373550415, "y": 12.192989349365234, "z": -34.951934814453125 }, "pca_coordinates": { "x": -2.0612995624542236, "y": -1.522155523300171, "z": 0.8205631375312805 }, "axis_scores": { "Quantum imaging": 0.6977523565292358, "Quantum Life Science Sensing": 0.7216699123382568, "Quantum sensing Detection": 0.7011688947677612, "Quantum sensing Metrology": 0.7081515789031982, "Quantum sensing navigation": 0.6670865416526794, "Quantum sensing Position": 0.6820681691169739, "Quantum sensing Timing": 0.6909494996070862, "Quantum sensing": 0.7116730809211731, "Quantum control": 0.6477319002151489 } }, { "id": 6556, "title": "Chelation-Induced Quenching of Two-Photon Absorption of Azacrown Ether Substituted Distyryl Benzene for Metal Ion Sensing", "abstract": "Imaging of metal ion concentration, distribution, and dynamics can pave the way to diagnose a number of diseases and to identify the normal functioning of the human body. Recently, two-photon microsco...", "citations": 14, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6563, "doi": "10.1021/ct400924u", "umap_coordinates": { "x": 392.2605895996094, "y": 135.7209930419922, "z": 204.66673278808594 }, "tsne_coordinates": { "x": 5.74222993850708, "y": 11.372396469116211, "z": -12.672109603881836 }, "pca_coordinates": { "x": -3.1659603118896484, "y": -1.722944736480713, "z": -1.6288487911224365 }, "axis_scores": { "Quantum imaging": 0.7099766135215759, "Quantum Life Science Sensing": 0.7407192587852478, "Quantum sensing Detection": 0.7223784327507019, "Quantum sensing Metrology": 0.7066985368728638, "Quantum sensing navigation": 0.694365382194519, "Quantum sensing Position": 0.6858558654785156, "Quantum sensing Timing": 0.6707205772399902, "Quantum sensing": 0.7216699123382568, "Quantum control": 0.675622820854187 } }, { "id": 6557, "title": "123I-FP-Cit and 123I-IBZM SPECT uptake in a prospective normal material analysed with two different semiquantitative image evaluation tools", "abstract": "Objective The need for age-adjusted and/or sex-adjusted reference values in dopamine transporter (DAT) and dopamine D2 receptor (D2R) imaging with single-photon emission computed tomography (SPECT) in...", "citations": 20, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6564, "doi": "10.1097/MNM.0b013e328364aa2e", "umap_coordinates": { "x": 395.4212951660156, "y": 133.5008087158203, "z": 204.5339813232422 }, "tsne_coordinates": { "x": -5.128551483154297, "y": 30.15602684020996, "z": -4.55634069442749 }, "pca_coordinates": { "x": -2.98016357421875, "y": 4.340582847595215, "z": 1.9897315502166748 }, "axis_scores": { "Quantum imaging": 0.6897736191749573, "Quantum Life Science Sensing": 0.6293110251426697, "Quantum sensing Detection": 0.6505950093269348, "Quantum sensing Metrology": 0.6471071243286133, "Quantum sensing navigation": 0.6605250835418701, "Quantum sensing Position": 0.6401388645172119, "Quantum sensing Timing": 0.6212871074676514, "Quantum sensing": 0.6469118595123291, "Quantum control": 0.6180636882781982 } }, { "id": 6558, "title": "Distinct spatiotemporal patterns for disease duration and stage in Parkinson's disease", "abstract": "Purpose To assess correlations between the degree of dopaminergic depletion measured using single-photon emission computed tomography (SPECT) and different clinical parameters of disease progression i...", "citations": 8, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6565, "doi": "10.1007/s00259-015-3176-5", "umap_coordinates": { "x": 394.7288818359375, "y": 134.97628784179688, "z": 204.46826171875 }, "tsne_coordinates": { "x": -3.365030527114868, "y": 23.250574111938477, "z": 3.3624939918518066 }, "pca_coordinates": { "x": -2.314075469970703, "y": 2.1049880981445312, "z": -1.133857250213623 }, "axis_scores": { "Quantum imaging": 0.6614015698432922, "Quantum Life Science Sensing": 0.6705326437950134, "Quantum sensing Detection": 0.6339395046234131, "Quantum sensing Metrology": 0.6265318393707275, "Quantum sensing navigation": 0.6635702848434448, "Quantum sensing Position": 0.6639811396598816, "Quantum sensing Timing": 0.6887331008911133, "Quantum sensing": 0.6402488350868225, "Quantum control": 0.6270574927330017 } }, { "id": 6559, "title": "LOW-MASS AND HIGH-MASS COMPONENTS OF THE PHOTON DISTRIBUTION-FUNCTIONS", "abstract": "The structure of the general solution of the inhomogeneous evolution equations allows the separation of a photon structure,function into perturbative (''anomalous'') and non-perturbative contributions...", "citations": 190, "author_count": 3, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6566, "doi": "10.1007/BF01565260", "umap_coordinates": { "x": 396.01458740234375, "y": 134.77667236328125, "z": 206.11642456054688 }, "tsne_coordinates": { "x": -25.412818908691406, "y": 6.6164326667785645, "z": -8.43641471862793 }, "pca_coordinates": { "x": -0.5841700434684753, "y": 2.0334975719451904, "z": 0.6728524565696716 }, "axis_scores": { "Quantum imaging": 0.692501962184906, "Quantum Life Science Sensing": 0.6864092350006104, "Quantum sensing Detection": 0.685763955116272, "Quantum sensing Metrology": 0.6778814196586609, "Quantum sensing navigation": 0.6766621470451355, "Quantum sensing Position": 0.6726570129394531, "Quantum sensing Timing": 0.6424010396003723, "Quantum sensing": 0.6800697445869446, "Quantum control": 0.6474358439445496 } }, { "id": 6560, "title": "Anisotropic Beer-Lambert law in β3-Ga2O3 : Polarization-dependent absorption and photoresponsivity spectra", "abstract": "Due to its low symmetry, beta 3- Ga2O3 exhibits a strongly anisotropic optical response. As a result, the absorption spectra change with the polarization state of the incoming photons. To understand t...", "citations": 4, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6567, "doi": "10.1103/PhysRevApplied.21.054059", "umap_coordinates": { "x": 393.7799377441406, "y": 135.41188049316406, "z": 206.6785430908203 }, "tsne_coordinates": { "x": -5.728105068206787, "y": -25.214113235473633, "z": -23.594274520874023 }, "pca_coordinates": { "x": 0.3209214210510254, "y": -1.840620994567871, "z": -0.07813036441802979 }, "axis_scores": { "Quantum imaging": 0.7209131717681885, "Quantum Life Science Sensing": 0.739658534526825, "Quantum sensing Detection": 0.7113291621208191, "Quantum sensing Metrology": 0.690170168876648, "Quantum sensing navigation": 0.7216207981109619, "Quantum sensing Position": 0.6771739721298218, "Quantum sensing Timing": 0.6567041873931885, "Quantum sensing": 0.7236729264259338, "Quantum control": 0.6848713159561157 } }, { "id": 6561, "title": "Accelerator beam data commissioning equipment and procedures: Report of the TG-106 of the Therapy Physics Committee of the AAPM", "abstract": "For commissioning a linear accelerator for clinical use, medical physicists are faced with many challenges including the need for precision, a variety of testing methods, data validation, the lack of ...", "citations": 465, "author_count": 11, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6568, "doi": "10.1118/1.2969070", "umap_coordinates": { "x": 395.8896179199219, "y": 133.2467498779297, "z": 205.44007873535156 }, "tsne_coordinates": { "x": -12.236701011657715, "y": 27.359779357910156, "z": -19.84748077392578 }, "pca_coordinates": { "x": -1.1642957925796509, "y": 2.651315927505493, "z": 3.0668838024139404 }, "axis_scores": { "Quantum imaging": 0.6732460260391235, "Quantum Life Science Sensing": 0.6844274997711182, "Quantum sensing Detection": 0.6620445251464844, "Quantum sensing Metrology": 0.6772006750106812, "Quantum sensing navigation": 0.6678616404533386, "Quantum sensing Position": 0.6618636846542358, "Quantum sensing Timing": 0.6907360553741455, "Quantum sensing": 0.6735628247261047, "Quantum control": 0.651099443435669 } }, { "id": 6562, "title": "VERTEBRAL BONE-MINERAL MEASUREMENT USING DUAL PHOTON-ABSORPTIOMETRY AND COMPUTED-TOMOGRAPHY", "abstract": "The lumbar spine of 14 cadavers was studied both by 153Gd dual photon absorptiometry (DPA) and quantitative computed tomography (QCT) at 96 and 125 kVp. The intact spine and the individual vertebrae w...", "citations": 24, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1988, "topic": [ "all" ], "embedding_index": 6569, "doi": null, "umap_coordinates": { "x": 391.46429443359375, "y": 139.44969177246094, "z": 209.69549560546875 }, "tsne_coordinates": { "x": 3.014639377593994, "y": 38.20265579223633, "z": -2.4260764122009277 }, "pca_coordinates": { "x": -2.983049154281616, "y": 4.352334499359131, "z": 1.454909086227417 }, "axis_scores": { "Quantum imaging": 0.7041633725166321, "Quantum Life Science Sensing": 0.7147701382637024, "Quantum sensing Detection": 0.7023463845252991, "Quantum sensing Metrology": 0.7055517435073853, "Quantum sensing navigation": 0.7171040177345276, "Quantum sensing Position": 0.6951722502708435, "Quantum sensing Timing": 0.6658991575241089, "Quantum sensing": 0.703808605670929, "Quantum control": 0.6566263437271118 } }, { "id": 6563, "title": "HESS discovery of VHE γ-rays from the quasar PKS 1510-089", "abstract": "The quasar PKS 1510-089 (z = 0.361) was observed with the H.E.S.S. array of imaging atmospheric Cherenkov telescopes during high states in the optical and GeV bands, to search for very high energy (VH...", "citations": 81, "author_count": 206, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6570, "doi": "10.1051/0004-6361/201321135", "umap_coordinates": { "x": 396.4707336425781, "y": 134.94602966308594, "z": 206.6387481689453 }, "tsne_coordinates": { "x": -28.87783432006836, "y": 19.403228759765625, "z": -0.20748554170131683 }, "pca_coordinates": { "x": 0.24299097061157227, "y": 2.7466559410095215, "z": 1.0510807037353516 }, "axis_scores": { "Quantum imaging": 0.7005442976951599, "Quantum Life Science Sensing": 0.719315767288208, "Quantum sensing Detection": 0.6906700134277344, "Quantum sensing Metrology": 0.6619247198104858, "Quantum sensing navigation": 0.7012923955917358, "Quantum sensing Position": 0.6664119362831116, "Quantum sensing Timing": 0.6663942337036133, "Quantum sensing": 0.6907399296760559, "Quantum control": 0.6698451638221741 } }, { "id": 6564, "title": "Mechanism-based genotoxicity screening of metal oxide nanoparticles using the ToxTracker panel of reporter cell lines", "abstract": "Background: The rapid expansion of manufacturing and use of nano-sized materials fuels the demand for fast and reliable assays to identify their potential hazardous properties and underlying mechanism...", "citations": 90, "author_count": 9, "categories": [ "Toxicology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6571, "doi": "10.1186/s12989-014-0041-9", "umap_coordinates": { "x": 393.8030090332031, "y": 134.30596923828125, "z": 204.45606994628906 }, "tsne_coordinates": { "x": 13.120243072509766, "y": 22.2700138092041, "z": 0.34874796867370605 }, "pca_coordinates": { "x": -3.5399515628814697, "y": 0.7341809272766113, "z": -0.7510524392127991 }, "axis_scores": { "Quantum imaging": 0.6763029098510742, "Quantum Life Science Sensing": 0.7153153419494629, "Quantum sensing Detection": 0.6883944869041443, "Quantum sensing Metrology": 0.6779401898384094, "Quantum sensing navigation": 0.6866139769554138, "Quantum sensing Position": 0.6556769609451294, "Quantum sensing Timing": 0.6690304279327393, "Quantum sensing": 0.6820598840713501, "Quantum control": 0.6536663174629211 } }, { "id": 6565, "title": "Quantum refinement in real and reciprocal space using the Phenix and ORCA software", "abstract": "X-ray and neutron crystallography, as well as cryogenic electron microscopy (cryo-EM), are the most common methods to obtain atomic structures of biological macromolecules. A feature they all have in ...", "citations": 4, "author_count": 5, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6572, "doi": "10.1107/S2052252524008406", "umap_coordinates": { "x": 394.26513671875, "y": 136.73204040527344, "z": 205.84307861328125 }, "tsne_coordinates": { "x": -38.22337341308594, "y": 9.341544151306152, "z": 10.368844985961914 }, "pca_coordinates": { "x": 0.8213849067687988, "y": 1.2647535800933838, "z": -0.6150656938552856 }, "axis_scores": { "Quantum imaging": 0.7384011149406433, "Quantum Life Science Sensing": 0.7528480291366577, "Quantum sensing Detection": 0.7303060293197632, "Quantum sensing Metrology": 0.7482739090919495, "Quantum sensing navigation": 0.7587698698043823, "Quantum sensing Position": 0.7420411705970764, "Quantum sensing Timing": 0.7194637060165405, "Quantum sensing": 0.7631140947341919, "Quantum control": 0.7483624219894409 } }, { "id": 6566, "title": "The kinetic Sunyaev-Zel'dovich effect from radiative transfer simulations of patchy reionization", "abstract": "We present the first calculation of the kinetic Sunyaev-Zel'dovich ( kSZ) effect due to the inhomogeneous reionization of the universe based on detailed large-scale radiative transfer simulations of r...", "citations": 72, "author_count": 6, "categories": [ "Astronomy & Astrophysics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6573, "doi": "10.1086/513687", "umap_coordinates": { "x": 394.10394287109375, "y": 137.39430236816406, "z": 206.1016845703125 }, "tsne_coordinates": { "x": 10.924142837524414, "y": 19.070844650268555, "z": 25.377544403076172 }, "pca_coordinates": { "x": -0.5041313767433167, "y": 2.6327109336853027, "z": -1.8945515155792236 }, "axis_scores": { "Quantum imaging": 0.6576148271560669, "Quantum Life Science Sensing": 0.6910874843597412, "Quantum sensing Detection": 0.6310508251190186, "Quantum sensing Metrology": 0.6306186318397522, "Quantum sensing navigation": 0.6397641897201538, "Quantum sensing Position": 0.6183937788009644, "Quantum sensing Timing": 0.6315453052520752, "Quantum sensing": 0.6542245745658875, "Quantum control": 0.6286191940307617 } }, { "id": 6567, "title": "A novel model for the interpretation of the unidentified infrared (UIR) bands from interstellar space: deexcitation of Rydberg Matter", "abstract": "The so called unidentified infrared (UIR) emission bands, observed front interstellar space for more than 25 years, are presently believed to be due to carbonaceous material in some form, for example ...", "citations": 36, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6574, "doi": null, "umap_coordinates": { "x": 392.061279296875, "y": 139.49607849121094, "z": 209.7013397216797 }, "tsne_coordinates": { "x": -3.4168272018432617, "y": 42.50379180908203, "z": -2.300868272781372 }, "pca_coordinates": { "x": -1.664880633354187, "y": 3.9933223724365234, "z": -3.355640172958374 }, "axis_scores": { "Quantum imaging": 0.7602030634880066, "Quantum Life Science Sensing": 0.7788519263267517, "Quantum sensing Detection": 0.7587669491767883, "Quantum sensing Metrology": 0.735884964466095, "Quantum sensing navigation": 0.749250590801239, "Quantum sensing Position": 0.7125084400177002, "Quantum sensing Timing": 0.7113814949989319, "Quantum sensing": 0.775333821773529, "Quantum control": 0.7828288078308105 } }, { "id": 6568, "title": "Low-energy spectrum of N=4 super-Yang-Mills on T3:: flat connections, bound states at threshold, and S-duality", "abstract": "We study (3+1)-dimensional N = 4 supersymmetric Yang-Mills theory on a spatial three-torus. The low energy spectrum consists of a number of continua of states of arbitrarily low energies. Although the...", "citations": 17, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6575, "doi": "10.1088/1126-6708/2007/06/001", "umap_coordinates": { "x": 394.4143371582031, "y": 136.55796813964844, "z": 206.9552459716797 }, "tsne_coordinates": { "x": -24.781089782714844, "y": 7.985719680786133, "z": 32.11997985839844 }, "pca_coordinates": { "x": 0.8283429145812988, "y": 0.9809508323669434, "z": 0.4227713942527771 }, "axis_scores": { "Quantum imaging": 0.6901569366455078, "Quantum Life Science Sensing": 0.6843504905700684, "Quantum sensing Detection": 0.6724677085876465, "Quantum sensing Metrology": 0.664717435836792, "Quantum sensing navigation": 0.6829979419708252, "Quantum sensing Position": 0.6557366847991943, "Quantum sensing Timing": 0.6704351902008057, "Quantum sensing": 0.6863458752632141, "Quantum control": 0.6530046463012695 } }, { "id": 6569, "title": "SIMIND Monte Carlo simulation of a single photon emission CT", "abstract": "In this study, we simulated a Siemens E.CAM SPECT system using SIMIND Monte Carlo program to acquire its experimental characterization in terms of energy resolution, sensitivity, spatial resolution an...", "citations": 57, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6576, "doi": "10.4103/0971-6203.55967", "umap_coordinates": { "x": 395.2449035644531, "y": 132.51060485839844, "z": 205.72109985351562 }, "tsne_coordinates": { "x": -11.634559631347656, "y": 23.033388137817383, "z": -14.53919792175293 }, "pca_coordinates": { "x": -2.0544075965881348, "y": 2.1502320766448975, "z": 4.35235071182251 }, "axis_scores": { "Quantum imaging": 0.7176077365875244, "Quantum Life Science Sensing": 0.7155721783638, "Quantum sensing Detection": 0.7067796587944031, "Quantum sensing Metrology": 0.7052879929542542, "Quantum sensing navigation": 0.6950633525848389, "Quantum sensing Position": 0.6682050824165344, "Quantum sensing Timing": 0.691642165184021, "Quantum sensing": 0.7100898623466492, "Quantum control": 0.6702221632003784 } }, { "id": 6570, "title": "Characterization of damage in InP dry etched using nitrogen containing chemistries", "abstract": "Etching of InP by different ion beam etching processes using chemistries containing nitrogen, such as nitrogen milling, N(CH3)(3) and Ar/N(CH3)(3) based reactive ion beam etching (RIBS), and N-2/CH4/H...", "citations": 3, "author_count": 3, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6577, "doi": "10.1116/1.1403440", "umap_coordinates": { "x": 393.3829650878906, "y": 133.8431854248047, "z": 207.3255615234375 }, "tsne_coordinates": { "x": 34.60307693481445, "y": -17.43815040588379, "z": 3.2328927516937256 }, "pca_coordinates": { "x": -1.0372875928878784, "y": 0.21845245361328125, "z": 0.7836112380027771 }, "axis_scores": { "Quantum imaging": 0.7122787237167358, "Quantum Life Science Sensing": 0.7236490845680237, "Quantum sensing Detection": 0.7024773359298706, "Quantum sensing Metrology": 0.7075161933898926, "Quantum sensing navigation": 0.6896807551383972, "Quantum sensing Position": 0.6851106286048889, "Quantum sensing Timing": 0.6758027672767639, "Quantum sensing": 0.7115491032600403, "Quantum control": 0.6927752494812012 } }, { "id": 6571, "title": "Influence of Serotonin Transporter Gene Polymorphism (5-HTTLPR Polymorphism) on the Relation between Brain 5-HT Transporter Binding and Heart Rate Corrected Cardiac Repolarization Interval", "abstract": "Objective: Serotonin transporter gene polymorphism (5-HTTLPR polymorphism) predicts the degree of structural and functional connectivity in the brain, and less consistently the degree of vulnerability...", "citations": 8, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6578, "doi": "10.1371/journal.pone.0050303", "umap_coordinates": { "x": 395.1016540527344, "y": 135.1719512939453, "z": 204.35301208496094 }, "tsne_coordinates": { "x": -10.6895112991333, "y": 30.34557342529297, "z": 8.89278507232666 }, "pca_coordinates": { "x": 0.08597302436828613, "y": 3.3819966316223145, "z": -1.8978335857391357 }, "axis_scores": { "Quantum imaging": 0.6742115020751953, "Quantum Life Science Sensing": 0.6732782125473022, "Quantum sensing Detection": 0.6478797793388367, "Quantum sensing Metrology": 0.6391831636428833, "Quantum sensing navigation": 0.6599677801132202, "Quantum sensing Position": 0.6645907163619995, "Quantum sensing Timing": 0.7195718884468079, "Quantum sensing": 0.6648964881896973, "Quantum control": 0.6734657287597656 } }, { "id": 6572, "title": "BONE-MINERAL DENSITY IN WEIGHT LIFTERS", "abstract": "The effect of intense physical training on the bone mineral content (BMC) and soft tissue composition, and the development of these values after cessation of the active career, was studied in 40 natio...", "citations": 133, "author_count": 4, "categories": [ "Endocrinology & Metabolism" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6579, "doi": "10.1007/BF00298721", "umap_coordinates": { "x": 395.01934814453125, "y": 135.16769409179688, "z": 204.80479431152344 }, "tsne_coordinates": { "x": -2.3857994079589844, "y": 35.38536834716797, "z": 7.264026641845703 }, "pca_coordinates": { "x": -1.1498991250991821, "y": 2.281097412109375, "z": -1.2073554992675781 }, "axis_scores": { "Quantum imaging": 0.6352081894874573, "Quantum Life Science Sensing": 0.6545630097389221, "Quantum sensing Detection": 0.6272248029708862, "Quantum sensing Metrology": 0.6499321460723877, "Quantum sensing navigation": 0.6618262529373169, "Quantum sensing Position": 0.6615411043167114, "Quantum sensing Timing": 0.6030492782592773, "Quantum sensing": 0.6424343585968018, "Quantum control": 0.639362633228302 } }, { "id": 6573, "title": "Myocardial infarction in rats: High-resolution single-photon emission tomographic imaging with a pinhole collimator", "abstract": "The purpose of this study was to evaluate the accuracy of myocardial imaging by means of high-resolution single-photon emission tomography (SPET) with a pinhole collimator in rats with experimental in...", "citations": 31, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6580, "doi": "10.1007/BF01084362", "umap_coordinates": { "x": 395.1862487792969, "y": 133.5454559326172, "z": 205.25570678710938 }, "tsne_coordinates": { "x": -10.095626831054688, "y": 22.751283645629883, "z": -4.587261199951172 }, "pca_coordinates": { "x": -2.4508023262023926, "y": 2.1843154430389404, "z": 3.060490131378174 }, "axis_scores": { "Quantum imaging": 0.7313858866691589, "Quantum Life Science Sensing": 0.6946468949317932, "Quantum sensing Detection": 0.68808513879776, "Quantum sensing Metrology": 0.6741732954978943, "Quantum sensing navigation": 0.7048357725143433, "Quantum sensing Position": 0.6788588166236877, "Quantum sensing Timing": 0.6802816987037659, "Quantum sensing": 0.701278567314148, "Quantum control": 0.6812185645103455 } }, { "id": 6574, "title": "A follow-up study of the family with the Swedish APP 670/671 Alzheimer's disease mutation", "abstract": "Objective: To study the progression of Alzheimer's disease (AD) at a very early stage and to evaluate clinical markers of presymptomatic AD. Setting: Longitudinal study at a university hospital. Subje...", "citations": 34, "author_count": 10, "categories": [ "Geriatrics & Gerontology" ], "year": 1999, "topic": [ "all" ], "embedding_index": 6581, "doi": "10.1159/000017200", "umap_coordinates": { "x": 395.34735107421875, "y": 134.73837280273438, "z": 204.5455322265625 }, "tsne_coordinates": { "x": -5.930257320404053, "y": 32.50967788696289, "z": 5.540553092956543 }, "pca_coordinates": { "x": -0.9356315732002258, "y": 2.0211873054504395, "z": 1.1369621753692627 }, "axis_scores": { "Quantum imaging": 0.5875617265701294, "Quantum Life Science Sensing": 0.622623860836029, "Quantum sensing Detection": 0.5962478518486023, "Quantum sensing Metrology": 0.5897682309150696, "Quantum sensing navigation": 0.6264904737472534, "Quantum sensing Position": 0.6131070256233215, "Quantum sensing Timing": 0.5960891246795654, "Quantum sensing": 0.5942965149879456, "Quantum control": 0.5973209142684937 } }, { "id": 6575, "title": "Rapid Convergence of Energy and Free Energy Profiles with Quantum Mechanical Size in Quantum Mechanical-Molecular Mechanical Simulations of Proton Transfer in DNA", "abstract": "In recent years, a number of quantum mechanical-molecular mechanical (QM/MM) enzyme studies have investigated the dependence of reaction energetics on the size of the QM region using energy and free e...", "citations": 42, "author_count": 4, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6582, "doi": "10.1021/acs.jctc.7b00964", "umap_coordinates": { "x": 393.0400695800781, "y": 136.98117065429688, "z": 205.5801239013672 }, "tsne_coordinates": { "x": 9.300420761108398, "y": 13.321162223815918, "z": 23.291183471679688 }, "pca_coordinates": { "x": 0.6131110191345215, "y": -0.42426538467407227, "z": -1.8978135585784912 }, "axis_scores": { "Quantum imaging": 0.7170189023017883, "Quantum Life Science Sensing": 0.7430492639541626, "Quantum sensing Detection": 0.7074926495552063, "Quantum sensing Metrology": 0.699766218662262, "Quantum sensing navigation": 0.7183473110198975, "Quantum sensing Position": 0.7217152118682861, "Quantum sensing Timing": 0.7082605957984924, "Quantum sensing": 0.717007040977478, "Quantum control": 0.6863370537757874 } }, { "id": 6576, "title": "The structure of CO2 and CH4 at the interface of a poly(urethane urea) oligomer model from the microscopic point of view", "abstract": "The world desperately needs new technologies and solutions for gas capture and separation. To make this possible, molecular modeling is applied here to investigate the structural, thermodynamic, and d...", "citations": 6, "author_count": 7, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6583, "doi": "10.1063/5.0049007", "umap_coordinates": { "x": 393.4551696777344, "y": 137.29481506347656, "z": 206.0261688232422 }, "tsne_coordinates": { "x": -3.529733896255493, "y": 4.286654949188232, "z": 32.823246002197266 }, "pca_coordinates": { "x": 0.8824620246887207, "y": 2.1488680839538574, "z": -2.0182013511657715 }, "axis_scores": { "Quantum imaging": 0.7039174437522888, "Quantum Life Science Sensing": 0.7261066436767578, "Quantum sensing Detection": 0.6833862066268921, "Quantum sensing Metrology": 0.7006213665008545, "Quantum sensing navigation": 0.6916537284851074, "Quantum sensing Position": 0.6946465373039246, "Quantum sensing Timing": 0.6637957692146301, "Quantum sensing": 0.7072455286979675, "Quantum control": 0.6983793377876282 } }, { "id": 6577, "title": "Experimental certification of more than one bit of quantum randomness in the two inputs and two outputs scenario", "abstract": "One of the striking properties of quantum mechanics is the occurrence of the Bell-type non-locality. They are a fundamental feature of the theory that allows two parties that share an entangled quantu...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6584, "doi": "10.1088/1367-2630/ad05a6", "umap_coordinates": { "x": 395.8598327636719, "y": 136.79127502441406, "z": 206.41629028320312 }, "tsne_coordinates": { "x": -28.99378204345703, "y": -5.795607566833496, "z": -2.1680116653442383 }, "pca_coordinates": { "x": 0.8160300254821777, "y": 3.859090566635132, "z": 1.5941252708435059 }, "axis_scores": { "Quantum imaging": 0.7290709018707275, "Quantum Life Science Sensing": 0.72377610206604, "Quantum sensing Detection": 0.7346643805503845, "Quantum sensing Metrology": 0.7302868962287903, "Quantum sensing navigation": 0.7163518667221069, "Quantum sensing Position": 0.6987525820732117, "Quantum sensing Timing": 0.7234516739845276, "Quantum sensing": 0.7443221807479858, "Quantum control": 0.7192493677139282 } }, { "id": 6578, "title": "Proton-coupled electron transfer dynamics in the alternative oxidase", "abstract": "The alternative oxidase (AOX) is a membrane-bound di-iron enzyme that catalyzes O2-driven quinol oxidation in the respiratory chains of plants, fungi, and several pathogenic protists of biomedical and...", "citations": 3, "author_count": 7, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6585, "doi": "10.1039/d4sc05060f", "umap_coordinates": { "x": 392.5823669433594, "y": 136.877197265625, "z": 205.88095092773438 }, "tsne_coordinates": { "x": 4.978936195373535, "y": 14.786832809448242, "z": 21.9727840423584 }, "pca_coordinates": { "x": 0.9730119705200195, "y": -0.06475687026977539, "z": -3.7406041622161865 }, "axis_scores": { "Quantum imaging": 0.6913914084434509, "Quantum Life Science Sensing": 0.7156819105148315, "Quantum sensing Detection": 0.6833379864692688, "Quantum sensing Metrology": 0.6504479646682739, "Quantum sensing navigation": 0.6852610111236572, "Quantum sensing Position": 0.6600871682167053, "Quantum sensing Timing": 0.6484847664833069, "Quantum sensing": 0.6890676021575928, "Quantum control": 0.6968086957931519 } }, { "id": 6579, "title": "Electronic structure of carbon nitride thin films studied by X-ray spectroscopy techniques", "abstract": "Magnetron-sputtered carbon nitride thin films with different structures and compositions were analyzed by X-ray and ultraviolet photoelectron spectroscopy (XPS and UPS), near-edge X-ray absorption fin...", "citations": 150, "author_count": 10, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6586, "doi": "10.1016/j.tsf.2004.03.027", "umap_coordinates": { "x": 393.6205139160156, "y": 134.21226501464844, "z": 205.68898010253906 }, "tsne_coordinates": { "x": 36.78271484375, "y": 8.365650177001953, "z": 3.708753824234009 }, "pca_coordinates": { "x": -1.2275341749191284, "y": -1.0435881614685059, "z": -2.060558557510376 }, "axis_scores": { "Quantum imaging": 0.708927571773529, "Quantum Life Science Sensing": 0.7464965581893921, "Quantum sensing Detection": 0.6973543763160706, "Quantum sensing Metrology": 0.6940661072731018, "Quantum sensing navigation": 0.6918817758560181, "Quantum sensing Position": 0.6971518397331238, "Quantum sensing Timing": 0.6729487180709839, "Quantum sensing": 0.7154248356819153, "Quantum control": 0.689906656742096 } }, { "id": 6580, "title": "Single-qubit rotation algorithm with logarithmic Toffoli count and gate depth", "abstract": "Building generic gates from a restricted gate set is a difficult but important problem, especially in the noisy regime where only a limited set of noise-resistant gates are available, e.g., fault-tole...", "citations": 2, "author_count": 3, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6587, "doi": "10.1103/PhysRevResearch.6.L042027", "umap_coordinates": { "x": 395.3288269042969, "y": 135.33067321777344, "z": 208.367919921875 }, "tsne_coordinates": { "x": -2.1194210052490234, "y": -28.915945053100586, "z": -12.282824516296387 }, "pca_coordinates": { "x": 2.9710144996643066, "y": 1.446088194847107, "z": 1.657749891281128 }, "axis_scores": { "Quantum imaging": 0.7422191500663757, "Quantum Life Science Sensing": 0.7754964232444763, "Quantum sensing Detection": 0.7482112646102905, "Quantum sensing Metrology": 0.7663706541061401, "Quantum sensing navigation": 0.7654656171798706, "Quantum sensing Position": 0.7384093999862671, "Quantum sensing Timing": 0.7370277047157288, "Quantum sensing": 0.7595459818840027, "Quantum control": 0.720607578754425 } }, { "id": 6581, "title": "Central-transition double-quantum sideband NMR spectroscopy of half-integer quadrupolar nuclei: estimating internuclear distances and probing clusters within multi-spin networks", "abstract": "We introduce a strategy to estimate the size of clusters of recoupled homonuclear half-integer quadrupolar nuclei under magic-angle spinning (MAS) conditions, by combining double-quantum (2Q) sideband...", "citations": 13, "author_count": 3, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6588, "doi": "10.1039/c4cp00029c", "umap_coordinates": { "x": 392.50006103515625, "y": 136.6943817138672, "z": 206.4958953857422 }, "tsne_coordinates": { "x": 16.647417068481445, "y": -0.5987951159477234, "z": 26.159814834594727 }, "pca_coordinates": { "x": -0.2934213876724243, "y": 0.28810882568359375, "z": -1.798097848892212 }, "axis_scores": { "Quantum imaging": 0.7259286642074585, "Quantum Life Science Sensing": 0.7337848544120789, "Quantum sensing Detection": 0.7023821473121643, "Quantum sensing Metrology": 0.7056851387023926, "Quantum sensing navigation": 0.7091602087020874, "Quantum sensing Position": 0.7044537663459778, "Quantum sensing Timing": 0.6927209496498108, "Quantum sensing": 0.7207308411598206, "Quantum control": 0.6689223647117615 } }, { "id": 6582, "title": "ON THE GEOMETRY OF THE X-RAY-EMITTING REGION IN SEYFERT-GALAXIES", "abstract": "For the first time, detailed radiative transfer calculations of Comptonized X-ray and gamma-ray radiation in a hot pair plasma above a cold accretion disk are performed using two independent codes and...", "citations": 223, "author_count": 6, "categories": [ "Astronomy & Astrophysics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6589, "doi": "10.1086/309617", "umap_coordinates": { "x": 396.1492614746094, "y": 135.2755889892578, "z": 205.6629638671875 }, "tsne_coordinates": { "x": -30.646957397460938, "y": 29.66624641418457, "z": 2.4872050285339355 }, "pca_coordinates": { "x": -0.9044480323791504, "y": 3.6750617027282715, "z": 0.9808518290519714 }, "axis_scores": { "Quantum imaging": 0.6594514846801758, "Quantum Life Science Sensing": 0.6745150089263916, "Quantum sensing Detection": 0.6447982788085938, "Quantum sensing Metrology": 0.6518676280975342, "Quantum sensing navigation": 0.6715573668479919, "Quantum sensing Position": 0.6835550665855408, "Quantum sensing Timing": 0.644508421421051, "Quantum sensing": 0.6536022424697876, "Quantum control": 0.6161035299301147 } }, { "id": 6583, "title": "Assessment of new symmetry-based dipolar recoupling schemes for homonuclear magnetization exchange between quadrupolar nuclei in two-dimensional correlation MAS NMR", "abstract": "We provide an extensive experimental and numerical evaluation of MQ-phase (S)M supercycles with M = {3,4} of three groups of symmetry-based homonuclear dipolar recoupling rf-pulse sequences, S = ISR4,...", "citations": 5, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6590, "doi": "10.1016/j.jmr.2020.106734", "umap_coordinates": { "x": 392.49609375, "y": 137.31198120117188, "z": 206.8314971923828 }, "tsne_coordinates": { "x": 12.555376052856445, "y": -1.1221789121627808, "z": 31.200345993041992 }, "pca_coordinates": { "x": -1.266218662261963, "y": 2.7606611251831055, "z": -2.4088168144226074 }, "axis_scores": { "Quantum imaging": 0.6750850677490234, "Quantum Life Science Sensing": 0.6865823268890381, "Quantum sensing Detection": 0.6401882171630859, "Quantum sensing Metrology": 0.6679185628890991, "Quantum sensing navigation": 0.6779751777648926, "Quantum sensing Position": 0.6557363271713257, "Quantum sensing Timing": 0.6666824221611023, "Quantum sensing": 0.6569465398788452, "Quantum control": 0.6458791494369507 } }, { "id": 6584, "title": "Modulated Rashba interaction in a quantum wire: Spin and charge dynamics", "abstract": "It was recently shown that a spatially modulated Rashba spin-orbit coupling in a quantum wire drives a transition from a metallic to an insulating state when the wave number of the modulation becomes ...", "citations": 41, "author_count": 5, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6591, "doi": "10.1103/PhysRevB.84.075466", "umap_coordinates": { "x": 393.4715576171875, "y": 135.6321258544922, "z": 208.81466674804688 }, "tsne_coordinates": { "x": 3.5819692611694336, "y": -28.510438919067383, "z": 12.19686508178711 }, "pca_coordinates": { "x": 4.199060916900635, "y": -2.2813262939453125, "z": -1.3059967756271362 }, "axis_scores": { "Quantum imaging": 0.7298300862312317, "Quantum Life Science Sensing": 0.7137295007705688, "Quantum sensing Detection": 0.7158892750740051, "Quantum sensing Metrology": 0.7070297598838806, "Quantum sensing navigation": 0.7387427091598511, "Quantum sensing Position": 0.708367645740509, "Quantum sensing Timing": 0.6894546151161194, "Quantum sensing": 0.7321802377700806, "Quantum control": 0.7349259853363037 } }, { "id": 6585, "title": "The 15-country collaborative study of cancer risk among radiation workers in the nuclear industry: Study of errors in dosimetry", "abstract": "To provide direct estimates of cancer risk after low-dose protracted exposure to ionizing radiation, a large-scale epidemiological study of nuclear industry workers was conducted in 15 countries. As p...", "citations": 76, "author_count": 22, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6592, "doi": "10.1667/RR0552.1", "umap_coordinates": { "x": 395.6619873046875, "y": 133.66140747070312, "z": 204.93568420410156 }, "tsne_coordinates": { "x": -10.579253196716309, "y": 30.0488338470459, "z": -24.217510223388672 }, "pca_coordinates": { "x": -1.5494710206985474, "y": 3.064511299133301, "z": 1.94757080078125 }, "axis_scores": { "Quantum imaging": 0.6670419573783875, "Quantum Life Science Sensing": 0.6766457557678223, "Quantum sensing Detection": 0.6662098169326782, "Quantum sensing Metrology": 0.6795722246170044, "Quantum sensing navigation": 0.6882740259170532, "Quantum sensing Position": 0.6802573800086975, "Quantum sensing Timing": 0.6662329435348511, "Quantum sensing": 0.6790180206298828, "Quantum control": 0.646643877029419 } }, { "id": 6586, "title": "Low dopamine transporter binding in the nucleus accumbens in geriatric patients with severe depression", "abstract": "Aim Dysfunction of dopaminergic neurons in the central nervous system is considered to be related to major depressive disorder (MDD). Especially, MDD in geriatric patients is characterized by anhedoni...", "citations": 30, "author_count": 9, "categories": [ "Neurosciences & Neurology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6593, "doi": "10.1111/pcn.13020", "umap_coordinates": { "x": 394.7692565917969, "y": 134.96263122558594, "z": 204.53451538085938 }, "tsne_coordinates": { "x": -7.038266181945801, "y": 28.56661605834961, "z": 10.414982795715332 }, "pca_coordinates": { "x": -1.5450727939605713, "y": 1.7368606328964233, "z": -0.1787431836128235 }, "axis_scores": { "Quantum imaging": 0.6868667602539062, "Quantum Life Science Sensing": 0.685905396938324, "Quantum sensing Detection": 0.7027750015258789, "Quantum sensing Metrology": 0.6780807971954346, "Quantum sensing navigation": 0.7006241083145142, "Quantum sensing Position": 0.6946079134941101, "Quantum sensing Timing": 0.6744131445884705, "Quantum sensing": 0.6975546479225159, "Quantum control": 0.6835220456123352 } }, { "id": 6587, "title": "Recent developments and benchmarking of the PHITS code", "abstract": "Many new options have recently been included in PHITS, e.g., to calculate LET distributions of particles in matter or energy-deposition distributions event by event and correlations between energy dep...", "citations": 47, "author_count": 10, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6594, "doi": "10.1016/j.asr.2007.02.056", "umap_coordinates": { "x": 394.3447265625, "y": 134.9730682373047, "z": 205.4678955078125 }, "tsne_coordinates": { "x": -16.034130096435547, "y": 27.105762481689453, "z": 5.6873579025268555 }, "pca_coordinates": { "x": -1.6042855978012085, "y": 2.181150197982788, "z": -0.19331789016723633 }, "axis_scores": { "Quantum imaging": 0.7081652283668518, "Quantum Life Science Sensing": 0.71250319480896, "Quantum sensing Detection": 0.6934234499931335, "Quantum sensing Metrology": 0.691636323928833, "Quantum sensing navigation": 0.7006929516792297, "Quantum sensing Position": 0.7133626341819763, "Quantum sensing Timing": 0.7302534580230713, "Quantum sensing": 0.7114124894142151, "Quantum control": 0.6968493461608887 } }, { "id": 6588, "title": "Mirror symmetry of quantum Yang-Mills vacua and cosmological implications", "abstract": "We find an argument related to the existence of a Z2-symmetry for the renormalization group flow derived from the bare Yang-Mills Lagrangian, and show that the cancellation of the vacuum energy may ar...", "citations": 12, "author_count": 5, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6595, "doi": "10.1140/epjc/s10052-019-6780-x", "umap_coordinates": { "x": 396.12677001953125, "y": 135.72637939453125, "z": 206.37916564941406 }, "tsne_coordinates": { "x": -36.23295974731445, "y": 11.138772010803223, "z": 6.818634033203125 }, "pca_coordinates": { "x": 1.1733195781707764, "y": 2.67859148979187, "z": -0.6445009112358093 }, "axis_scores": { "Quantum imaging": 0.6927396059036255, "Quantum Life Science Sensing": 0.6768594980239868, "Quantum sensing Detection": 0.6603460311889648, "Quantum sensing Metrology": 0.6754626631736755, "Quantum sensing navigation": 0.6967601180076599, "Quantum sensing Position": 0.6801367402076721, "Quantum sensing Timing": 0.661160409450531, "Quantum sensing": 0.6744769811630249, "Quantum control": 0.6898778676986694 } }, { "id": 6589, "title": "Urinary incontinence: A minor risk factor for hip fractures in elderly women", "abstract": "Objective: The aim of the study was to study the influence of urinary disorders as urinary incontinence on the prevalence of hip fracture in 85-year-old women. Method's: A representative community-bas...", "citations": 20, "author_count": 5, "categories": [ "Geriatrics & Gerontology" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6596, "doi": null, "umap_coordinates": { "x": 391.62469482421875, "y": 139.77249145507812, "z": 209.6945343017578 }, "tsne_coordinates": { "x": 0.18892136216163635, "y": 40.048465728759766, "z": 0.9937471747398376 }, "pca_coordinates": { "x": -2.4823622703552246, "y": 5.264196872711182, "z": -3.25724720954895 }, "axis_scores": { "Quantum imaging": 0.6567562222480774, "Quantum Life Science Sensing": 0.6879433393478394, "Quantum sensing Detection": 0.655938446521759, "Quantum sensing Metrology": 0.6464943885803223, "Quantum sensing navigation": 0.6690285205841064, "Quantum sensing Position": 0.6308087110519409, "Quantum sensing Timing": 0.6192549467086792, "Quantum sensing": 0.6645858883857727, "Quantum control": 0.6549113988876343 } }, { "id": 6590, "title": "A unique iridium(III) complex-based chemosensor for multi-signal detection and multi-channel imaging of hypochlorous acid in liver injury", "abstract": "Although hypochlorous acid (HOCl) has long been associated with a number of inflammatory diseases in mammalian bodies, the functions of HOCl in specific organs at abnormal conditions, such as liver in...", "citations": 130, "author_count": 10, "categories": [ "Biophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6597, "doi": "10.1016/j.bios.2016.09.067", "umap_coordinates": { "x": 393.6180725097656, "y": 133.90003967285156, "z": 204.5098419189453 }, "tsne_coordinates": { "x": 17.85514259338379, "y": 18.63861656188965, "z": -14.75121021270752 }, "pca_coordinates": { "x": -5.193655014038086, "y": 0.6230349540710449, "z": -0.37404385209083557 }, "axis_scores": { "Quantum imaging": 0.7571402788162231, "Quantum Life Science Sensing": 0.7748745083808899, "Quantum sensing Detection": 0.7581261396408081, "Quantum sensing Metrology": 0.724130392074585, "Quantum sensing navigation": 0.7010436058044434, "Quantum sensing Position": 0.690617024898529, "Quantum sensing Timing": 0.6755055785179138, "Quantum sensing": 0.7496773600578308, "Quantum control": 0.694897472858429 } }, { "id": 6591, "title": "Exchange Interaction of Strongly Anisotropic Tripodal Erbium Single-Ion Magnets with Metallic Surfaces", "abstract": "We present a comprehensive study of Er(trensal) single-ion magnets deposited in ultrahigh vacuum onto metallic surfaces. X-ray photoelectron spectroscopy reveals that the molecular structure is preser...", "citations": 41, "author_count": 13, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6598, "doi": "10.1021/nn500409u", "umap_coordinates": { "x": 392.29644775390625, "y": 135.62669372558594, "z": 207.6508026123047 }, "tsne_coordinates": { "x": 18.22687339782715, "y": -28.175216674804688, "z": 23.682600021362305 }, "pca_coordinates": { "x": -0.18667864799499512, "y": -3.1095352172851562, "z": -0.8914873600006104 }, "axis_scores": { "Quantum imaging": 0.6918285489082336, "Quantum Life Science Sensing": 0.6796061396598816, "Quantum sensing Detection": 0.6755227446556091, "Quantum sensing Metrology": 0.675031840801239, "Quantum sensing navigation": 0.6741425395011902, "Quantum sensing Position": 0.6654462218284607, "Quantum sensing Timing": 0.6463131904602051, "Quantum sensing": 0.692192792892456, "Quantum control": 0.6379918456077576 } }, { "id": 6592, "title": "Monitoring of TiO2 and ZnO Nanoparticle Penetration Into Fnamel and Dentine of Human Tooth IN VITRO and Assessment of Their Photocatalytic Ability", "abstract": "Penetration of nanoparticles into tooth enamel and dentine is of significant interest upon solving problems related to reduction of tooth sensitivity, enamel strengthening, disinfection, restoration a...", "citations": 5, "author_count": 11, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6599, "doi": "10.1109/JSTQE.2013.2276082", "umap_coordinates": { "x": 393.7969665527344, "y": 133.5381317138672, "z": 205.14866638183594 }, "tsne_coordinates": { "x": 12.525858879089355, "y": 26.889732360839844, "z": -18.415613174438477 }, "pca_coordinates": { "x": -3.9058971405029297, "y": -0.8803801536560059, "z": 0.7842760682106018 }, "axis_scores": { "Quantum imaging": 0.7178418636322021, "Quantum Life Science Sensing": 0.7624531984329224, "Quantum sensing Detection": 0.7275099754333496, "Quantum sensing Metrology": 0.7263928651809692, "Quantum sensing navigation": 0.7194895148277283, "Quantum sensing Position": 0.6863837242126465, "Quantum sensing Timing": 0.6745441555976868, "Quantum sensing": 0.7394284009933472, "Quantum control": 0.681104302406311 } }, { "id": 6593, "title": "OSTEOPOROSIS, METABOLIC ABERRATIONS, AND INCREASED RISK FOR VERTEBRAL FRACTURES AFTER PARTIAL GASTRECTOMY", "abstract": "A case-control study compared 129 men with earlier partial gastrectomy (operation during the period 1952-1961) with 216 men from a community-based population study. All were born 1910-1915 and the mea...", "citations": 109, "author_count": 10, "categories": [ "Endocrinology & Metabolism" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6600, "doi": null, "umap_coordinates": { "x": 391.3386535644531, "y": 139.5517120361328, "z": 209.40139770507812 }, "tsne_coordinates": { "x": 2.4231131076812744, "y": 41.135597229003906, "z": 0.560602605342865 }, "pca_coordinates": { "x": -2.640842914581299, "y": 5.618591785430908, "z": -2.655000925064087 }, "axis_scores": { "Quantum imaging": 0.6570723652839661, "Quantum Life Science Sensing": 0.6663732528686523, "Quantum sensing Detection": 0.6370877027511597, "Quantum sensing Metrology": 0.65203458070755, "Quantum sensing navigation": 0.66417396068573, "Quantum sensing Position": 0.6427047252655029, "Quantum sensing Timing": 0.624239444732666, "Quantum sensing": 0.6531343460083008, "Quantum control": 0.6408094167709351 } }, { "id": 6594, "title": "Benchmarking Geant4 hadronic models for prompt-γ monitoring in carbon ion therapy", "abstract": "Purpose: The real-time monitoring of the spread-out Bragg peak would allow the planned dose delivered during treatment to be directly verified, but this poses a major challenge in modern ion beam ther...", "citations": 13, "author_count": 22, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6601, "doi": "10.1002/mp.12348", "umap_coordinates": { "x": 395.54150390625, "y": 132.96824645996094, "z": 205.19189453125 }, "tsne_coordinates": { "x": 1.3886090517044067, "y": 26.28693389892578, "z": -13.805936813354492 }, "pca_coordinates": { "x": -1.9587184190750122, "y": 3.4097516536712646, "z": 1.2119722366333008 }, "axis_scores": { "Quantum imaging": 0.6865471601486206, "Quantum Life Science Sensing": 0.6896257996559143, "Quantum sensing Detection": 0.6780977845191956, "Quantum sensing Metrology": 0.6778392791748047, "Quantum sensing navigation": 0.6783477663993835, "Quantum sensing Position": 0.6768335700035095, "Quantum sensing Timing": 0.7121785879135132, "Quantum sensing": 0.6823174357414246, "Quantum control": 0.6653658151626587 } }, { "id": 6595, "title": "Cuckoo-PC: An Evolutionary Synchronization-Aware Placement of SDN Controllers for Optimizing the Network Performance in WSNs", "abstract": "Due to reliability and performance considerations, employing multiple software-defined networking (SDN) controllers is known as a promising technique in Wireless Sensor Networks (WSNs). Nevertheless, ...", "citations": 16, "author_count": 7, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6602, "doi": "10.3390/s20113231", "umap_coordinates": { "x": 393.4738464355469, "y": 133.52383422851562, "z": 205.7920379638672 }, "tsne_coordinates": { "x": -13.00912094116211, "y": 20.485124588012695, "z": 14.219527244567871 }, "pca_coordinates": { "x": -2.113089084625244, "y": 0.3038649559020996, "z": -0.3581858277320862 }, "axis_scores": { "Quantum imaging": 0.665378212928772, "Quantum Life Science Sensing": 0.6972520351409912, "Quantum sensing Detection": 0.6782395839691162, "Quantum sensing Metrology": 0.6976072192192078, "Quantum sensing navigation": 0.7159032821655273, "Quantum sensing Position": 0.708867609500885, "Quantum sensing Timing": 0.7226247787475586, "Quantum sensing": 0.6925436854362488, "Quantum control": 0.7252545952796936 } }, { "id": 6596, "title": "Chromosomal aberrations in peripheral blood lymphocytes exposed to a mixed beam of low energy neutrons and gamma radiation", "abstract": "Cells exposed to thermal neutrons are simultaneously damaged by radiations with high and low linear energy transfer (LET). A question relevant for the assessment of risk of exposure to a mixed beam is...", "citations": 24, "author_count": 9, "categories": [ "Environmental Sciences & Ecology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6603, "doi": "10.1088/0952-4746/32/3/261", "umap_coordinates": { "x": 395.9005432128906, "y": 134.28091430664062, "z": 205.26882934570312 }, "tsne_coordinates": { "x": -20.046092987060547, "y": 28.13136100769043, "z": -16.604785919189453 }, "pca_coordinates": { "x": -1.37715482711792, "y": 2.4416539669036865, "z": 0.5682682394981384 }, "axis_scores": { "Quantum imaging": 0.6632400751113892, "Quantum Life Science Sensing": 0.6942660212516785, "Quantum sensing Detection": 0.651006281375885, "Quantum sensing Metrology": 0.638963520526886, "Quantum sensing navigation": 0.6561368107795715, "Quantum sensing Position": 0.648593008518219, "Quantum sensing Timing": 0.6379450559616089, "Quantum sensing": 0.6646658778190613, "Quantum control": 0.6354729533195496 } }, { "id": 6597, "title": "Monte Carlo dosimetry for a EURADOS WG 10 and RENEB field test of retrospective dosimetry techniques in realistic exposure scenarios", "abstract": "Computational dosimetry using Monte Carlo radiation transport simulations was applied for the 2019 European Radiation Dosimetry Group (EURADOS) and Running the European Network of Biological and retro...", "citations": 1, "author_count": 16, "categories": [ "Nuclear Science & Technology" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6604, "doi": "10.1016/j.radmeas.2024.107329", "umap_coordinates": { "x": 395.2274169921875, "y": 133.16282653808594, "z": 204.99911499023438 }, "tsne_coordinates": { "x": -1.5914822816848755, "y": 28.725486755371094, "z": -17.638935089111328 }, "pca_coordinates": { "x": -3.8816933631896973, "y": 3.6309542655944824, "z": 1.3472661972045898 }, "axis_scores": { "Quantum imaging": 0.66628098487854, "Quantum Life Science Sensing": 0.7030933499336243, "Quantum sensing Detection": 0.6469561457633972, "Quantum sensing Metrology": 0.6714385747909546, "Quantum sensing navigation": 0.6733500957489014, "Quantum sensing Position": 0.6571646928787231, "Quantum sensing Timing": 0.6645834445953369, "Quantum sensing": 0.6597034931182861, "Quantum control": 0.6261581182479858 } }, { "id": 6598, "title": "Measurement of dielectron production in central Pb-Pb collisions at √SNN=2.76 TeV", "abstract": "The first measurement of dielectron (e(+)e(-)) production in central (0-10%) Pb-Pb collisions at root S-NN = 2.76 TeV at the LHC is presented. The dielectron invariant-mass spectrum is compared to the...", "citations": 24, "author_count": 1017, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6605, "doi": "10.1103/PhysRevC.99.024002", "umap_coordinates": { "x": 396.8422546386719, "y": 134.30142211914062, "z": 207.89593505859375 }, "tsne_coordinates": { "x": -34.764991760253906, "y": 6.300593376159668, "z": -15.90843391418457 }, "pca_coordinates": { "x": 1.1290526390075684, "y": -0.21757841110229492, "z": 2.15252685546875 }, "axis_scores": { "Quantum imaging": 0.6616853475570679, "Quantum Life Science Sensing": 0.6997148990631104, "Quantum sensing Detection": 0.7075563669204712, "Quantum sensing Metrology": 0.6902641654014587, "Quantum sensing navigation": 0.683519721031189, "Quantum sensing Position": 0.7013230323791504, "Quantum sensing Timing": 0.6853885650634766, "Quantum sensing": 0.695246160030365, "Quantum control": 0.6617907881736755 } }, { "id": 6599, "title": "Multivariate regression (MVR) and different artificial neural network (ANN) models developed for optical transparency of conductive polymer nanocomposite films", "abstract": "The present study addresses a comparative performance assessment of multivariate regression (MVR) and well-optimized feed-forward, generalized regression and radial basis function neural network model...", "citations": 23, "author_count": 4, "categories": [ "Computer Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6606, "doi": "10.1016/j.eswa.2022.117937", "umap_coordinates": { "x": 393.521728515625, "y": 134.04150390625, "z": 204.55662536621094 }, "tsne_coordinates": { "x": 24.880422592163086, "y": 16.390037536621094, "z": -3.4643537998199463 }, "pca_coordinates": { "x": -4.763973712921143, "y": 0.27147340774536133, "z": 0.14874988794326782 }, "axis_scores": { "Quantum imaging": 0.6705796718597412, "Quantum Life Science Sensing": 0.6943345069885254, "Quantum sensing Detection": 0.6637258529663086, "Quantum sensing Metrology": 0.664759635925293, "Quantum sensing navigation": 0.6656417846679688, "Quantum sensing Position": 0.6464086174964905, "Quantum sensing Timing": 0.6379286646842957, "Quantum sensing": 0.6746982932090759, "Quantum control": 0.6443557143211365 } }, { "id": 6600, "title": "Metal release from stainless steel 316L in whey protein - And simulated milk solutions under static and stirring conditions", "abstract": "Stainless steel is an important transport and processing contact material for bovine milk and dairy products. Release (migration) of metals, ions, complexes or wear debris/particles, and metal-induced...", "citations": 30, "author_count": 7, "categories": [ "Food Science & Technology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6607, "doi": "10.1016/j.foodcont.2019.02.031", "umap_coordinates": { "x": 393.50103759765625, "y": 134.6298370361328, "z": 203.93072509765625 }, "tsne_coordinates": { "x": 20.585941314697266, "y": 19.549564361572266, "z": 0.37939226627349854 }, "pca_coordinates": { "x": -4.40179443359375, "y": 0.7838484048843384, "z": -2.8656880855560303 }, "axis_scores": { "Quantum imaging": 0.629733681678772, "Quantum Life Science Sensing": 0.6970629692077637, "Quantum sensing Detection": 0.647365391254425, "Quantum sensing Metrology": 0.6418569684028625, "Quantum sensing navigation": 0.639213502407074, "Quantum sensing Position": 0.6461664438247681, "Quantum sensing Timing": 0.6200114488601685, "Quantum sensing": 0.6592258214950562, "Quantum control": 0.6307690739631653 } }, { "id": 6601, "title": "Spectral perturbations from silicon diode detector encapsulation and shielding in photon fields", "abstract": "Purpose: Silicon diodes are widely used as detectors for relative dose measurements in radiotherapy. The common manufacturing practice is to encapsulate the diodes in plastic for protection and to fac...", "citations": 29, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6608, "doi": "10.1118/1.3501316", "umap_coordinates": { "x": 394.3255310058594, "y": 133.53330993652344, "z": 207.02230834960938 }, "tsne_coordinates": { "x": -12.679984092712402, "y": 28.182764053344727, "z": -24.53370475769043 }, "pca_coordinates": { "x": -1.3284854888916016, "y": -1.2830262184143066, "z": 2.3013041019439697 }, "axis_scores": { "Quantum imaging": 0.7224978804588318, "Quantum Life Science Sensing": 0.7200345396995544, "Quantum sensing Detection": 0.7128756046295166, "Quantum sensing Metrology": 0.7140510082244873, "Quantum sensing navigation": 0.6979575157165527, "Quantum sensing Position": 0.6801391243934631, "Quantum sensing Timing": 0.6787379384040833, "Quantum sensing": 0.7142869234085083, "Quantum control": 0.6709036827087402 } }, { "id": 6602, "title": "On the Impossibility of Key Agreements from Quantum Random Oracles", "abstract": "We study the following question, first publicly posed by Hosoyamada and Yamakawa in 2018. Can parties A, B with quantum computing power and classical communication rely only on a random oracle (that c...", "citations": 14, "author_count": 7, "categories": [ "Computer Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6609, "doi": "10.1007/978-3-031-15979-4_6", "umap_coordinates": { "x": 395.379638671875, "y": 136.82757568359375, "z": 205.65286254882812 }, "tsne_coordinates": { "x": -16.461002349853516, "y": 15.50156307220459, "z": 5.051604270935059 }, "pca_coordinates": { "x": 1.9739327430725098, "y": 3.423926830291748, "z": 0.5774874091148376 }, "axis_scores": { "Quantum imaging": 0.7229459285736084, "Quantum Life Science Sensing": 0.7244796752929688, "Quantum sensing Detection": 0.7205931544303894, "Quantum sensing Metrology": 0.7316229939460754, "Quantum sensing navigation": 0.7240927219390869, "Quantum sensing Position": 0.7137355208396912, "Quantum sensing Timing": 0.6971617341041565, "Quantum sensing": 0.7391406297683716, "Quantum control": 0.7074356079101562 } }, { "id": 6603, "title": "Kit formulation for 99mTc-labeling of recombinant anti-HER2 Affibody molecules with a C-terminally engineered cysteine", "abstract": "Introduction: Molecular imaging of human epidermal growth factor receptor type 2 (HER2)-expression in malignant tumors provides potentially important information for patient management. Affibody molec...", "citations": 38, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6610, "doi": "10.1016/j.nucmedbio.2010.02.009", "umap_coordinates": { "x": 394.1092834472656, "y": 133.81146240234375, "z": 204.51808166503906 }, "tsne_coordinates": { "x": 17.509626388549805, "y": 22.843591690063477, "z": -11.745206832885742 }, "pca_coordinates": { "x": -5.145439624786377, "y": 1.6548612117767334, "z": -1.2028236389160156 }, "axis_scores": { "Quantum imaging": 0.7127445340156555, "Quantum Life Science Sensing": 0.733498215675354, "Quantum sensing Detection": 0.7097484469413757, "Quantum sensing Metrology": 0.7145696878433228, "Quantum sensing navigation": 0.6906228065490723, "Quantum sensing Position": 0.7004303932189941, "Quantum sensing Timing": 0.696685791015625, "Quantum sensing": 0.7188819646835327, "Quantum control": 0.6977915167808533 } }, { "id": 6604, "title": "Interacting fermions in one-dimensional disordered lattices: Exploring localization and transport properties with lattice density-functional theories", "abstract": "We investigate the static and dynamical behavior of one-dimensional interacting fermions in disordered Hubbard chains contacted to semi-infinite leads. The chains are described via the repulsive Ander...", "citations": 23, "author_count": 5, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6611, "doi": "10.1103/PhysRevB.87.115117", "umap_coordinates": { "x": 394.90631103515625, "y": 136.3972930908203, "z": 209.19650268554688 }, "tsne_coordinates": { "x": -22.926437377929688, "y": -20.99399757385254, "z": 20.751665115356445 }, "pca_coordinates": { "x": 4.414035320281982, "y": -0.8812100887298584, "z": 1.4609999656677246 }, "axis_scores": { "Quantum imaging": 0.7119487524032593, "Quantum Life Science Sensing": 0.6812876462936401, "Quantum sensing Detection": 0.6917873024940491, "Quantum sensing Metrology": 0.6792346835136414, "Quantum sensing navigation": 0.7195610404014587, "Quantum sensing Position": 0.6668858528137207, "Quantum sensing Timing": 0.6555219292640686, "Quantum sensing": 0.7001752257347107, "Quantum control": 0.6746790409088135 } }, { "id": 6605, "title": "Protonation of the binuclear active site in cytochrome c oxidase decreases the reduction potential of CuB", "abstract": "One of the remaining mysteries regarding the respiratory enzyme cytochrome c oxidase is how proton pumping can occur in all reduction steps in spite of the low reduction potentials observed in equilib...", "citations": 31, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6612, "doi": "10.1016/j.bbabio.2015.06.008", "umap_coordinates": { "x": 393.1256408691406, "y": 136.69436645507812, "z": 204.72535705566406 }, "tsne_coordinates": { "x": 6.865072250366211, "y": 20.471248626708984, "z": 18.316434860229492 }, "pca_coordinates": { "x": -1.1495249271392822, "y": 0.5171586275100708, "z": -4.247021198272705 }, "axis_scores": { "Quantum imaging": 0.7167396545410156, "Quantum Life Science Sensing": 0.7165519595146179, "Quantum sensing Detection": 0.7170876264572144, "Quantum sensing Metrology": 0.6980575919151306, "Quantum sensing navigation": 0.7054253220558167, "Quantum sensing Position": 0.6889065504074097, "Quantum sensing Timing": 0.662180483341217, "Quantum sensing": 0.7249587774276733, "Quantum control": 0.7211441993713379 } }, { "id": 6606, "title": "Observation of ultrafast interfacial Meitner-Auger energy transfer in a Van der Waals heterostructure", "abstract": "Atomically thin layered van der Waals heterostructures feature exotic and emergent optoelectronic properties. With growing interest in these novel quantum materials, the microscopic understanding of f...", "citations": 15, "author_count": 27, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6613, "doi": "10.1038/s41467-023-40815-8", "umap_coordinates": { "x": 393.4811706542969, "y": 135.48387145996094, "z": 206.69671630859375 }, "tsne_coordinates": { "x": 11.791680335998535, "y": -7.3330159187316895, "z": 17.52280044555664 }, "pca_coordinates": { "x": 0.4863269329071045, "y": -2.3972830772399902, "z": -0.2700048089027405 }, "axis_scores": { "Quantum imaging": 0.6770314574241638, "Quantum Life Science Sensing": 0.696216344833374, "Quantum sensing Detection": 0.6607288718223572, "Quantum sensing Metrology": 0.6551907062530518, "Quantum sensing navigation": 0.6501624584197998, "Quantum sensing Position": 0.6435231566429138, "Quantum sensing Timing": 0.6434640288352966, "Quantum sensing": 0.6719641089439392, "Quantum control": 0.6274152994155884 } }, { "id": 6607, "title": "An update about recent developments of the PHITS code", "abstract": "PHITS (Particle and Heavy-Ion Transport code System) is a general-purpose three-dimensional Monte Carlo code, developed and maintained by RIST, JAEA and KEK in Japan together with Sihver et al. at Cha...", "citations": 30, "author_count": 11, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6614, "doi": "10.1016/j.asr.2010.01.002", "umap_coordinates": { "x": 394.3140563964844, "y": 134.77322387695312, "z": 205.39051818847656 }, "tsne_coordinates": { "x": -15.920450210571289, "y": 26.925140380859375, "z": 5.47271728515625 }, "pca_coordinates": { "x": -2.046645164489746, "y": 2.857778787612915, "z": -0.5802523493766785 }, "axis_scores": { "Quantum imaging": 0.7047417759895325, "Quantum Life Science Sensing": 0.7333163022994995, "Quantum sensing Detection": 0.7052968740463257, "Quantum sensing Metrology": 0.6993697881698608, "Quantum sensing navigation": 0.7128171920776367, "Quantum sensing Position": 0.7221764326095581, "Quantum sensing Timing": 0.7249647974967957, "Quantum sensing": 0.718635618686676, "Quantum control": 0.6991782784461975 } }, { "id": 6608, "title": "Delta-T noise for weak tunneling in one-dimensional systems: Interactions versus quantum statistics", "abstract": "We study delta-T noise???excess charge noise at zero voltage but finite temperature bias???for weak tunneling in one-dimensional interacting systems. We show that the sign of the delta-T noise is gene...", "citations": 14, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6615, "doi": "10.1103/PhysRevB.105.195423", "umap_coordinates": { "x": 394.62957763671875, "y": 135.51840209960938, "z": 209.21583557128906 }, "tsne_coordinates": { "x": 1.926198959350586, "y": -32.779876708984375, "z": -10.073781967163086 }, "pca_coordinates": { "x": 4.348824977874756, "y": -0.4696931838989258, "z": 0.8358559012413025 }, "axis_scores": { "Quantum imaging": 0.6991872787475586, "Quantum Life Science Sensing": 0.7038554549217224, "Quantum sensing Detection": 0.7081379294395447, "Quantum sensing Metrology": 0.6879394054412842, "Quantum sensing navigation": 0.7230326533317566, "Quantum sensing Position": 0.6709318161010742, "Quantum sensing Timing": 0.6932700276374817, "Quantum sensing": 0.7105004787445068, "Quantum control": 0.6955435276031494 } }, { "id": 6609, "title": "Deep Learning Enabled Transmission of Full-Stokes Polarization Images Through Complex Media", "abstract": "Polarization images offer crucial functionalities across multiple scientific domains, providing access to physical information beyond conventional measures such as intensity, phase, and spectrum of li...", "citations": 8, "author_count": 4, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6616, "doi": "10.1002/lpor.202400626", "umap_coordinates": { "x": 394.38323974609375, "y": 134.23370361328125, "z": 206.15829467773438 }, "tsne_coordinates": { "x": 8.014493942260742, "y": -6.280872344970703, "z": -31.867490768432617 }, "pca_coordinates": { "x": -2.6240642070770264, "y": 0.6499119997024536, "z": 2.481792449951172 }, "axis_scores": { "Quantum imaging": 0.7639971971511841, "Quantum Life Science Sensing": 0.7172878384590149, "Quantum sensing Detection": 0.7195529937744141, "Quantum sensing Metrology": 0.7004339098930359, "Quantum sensing navigation": 0.7206026315689087, "Quantum sensing Position": 0.6802562475204468, "Quantum sensing Timing": 0.6524147391319275, "Quantum sensing": 0.7324597239494324, "Quantum control": 0.6949499845504761 } }, { "id": 6610, "title": "Optical Properties of Gold Nanoclusters Functionalized with a Small Organic Compound: Modeling by an Integrated Quantum-Classical Approach", "abstract": "Motivated by the growing importance of organometallic nanostructured materials and nanoparticles as microscopic devices for diagnostic and sensing applications, and by the recent considerable developm...", "citations": 8, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6617, "doi": "10.1021/acs.jctc.6b00283", "umap_coordinates": { "x": 393.1801452636719, "y": 135.78440856933594, "z": 205.59803771972656 }, "tsne_coordinates": { "x": 24.327157974243164, "y": -5.124536037445068, "z": -2.2094430923461914 }, "pca_coordinates": { "x": -1.8377292156219482, "y": -2.439089298248291, "z": -0.3296602964401245 }, "axis_scores": { "Quantum imaging": 0.7466639876365662, "Quantum Life Science Sensing": 0.7614570260047913, "Quantum sensing Detection": 0.7471640110015869, "Quantum sensing Metrology": 0.7299078106880188, "Quantum sensing navigation": 0.7311878204345703, "Quantum sensing Position": 0.7085941433906555, "Quantum sensing Timing": 0.6867471933364868, "Quantum sensing": 0.7590198516845703, "Quantum control": 0.725719690322876 } }, { "id": 6611, "title": "Exposure to cadmium and persistent organochlorine pollutants and its association with bone mineral density and markers of bone metabolism on postmenopausal women", "abstract": "Environmental contaminants such as cadmium and persistent organochlorine pollutants have been proposed as risk factors of osteoporosis, and women may be at an increased risk. To assess associations be...", "citations": 45, "author_count": 10, "categories": [ "Environmental Sciences & Ecology" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6618, "doi": "10.1016/j.envres.2009.08.008", "umap_coordinates": { "x": 394.4551696777344, "y": 134.65499877929688, "z": 204.1058807373047 }, "tsne_coordinates": { "x": -5.207841396331787, "y": 32.90925979614258, "z": 11.989601135253906 }, "pca_coordinates": { "x": -4.2098798751831055, "y": 1.077134609222412, "z": -0.5921568870544434 }, "axis_scores": { "Quantum imaging": 0.7013100981712341, "Quantum Life Science Sensing": 0.7206187844276428, "Quantum sensing Detection": 0.7123289108276367, "Quantum sensing Metrology": 0.7000453472137451, "Quantum sensing navigation": 0.6998032331466675, "Quantum sensing Position": 0.7084341049194336, "Quantum sensing Timing": 0.6643284559249878, "Quantum sensing": 0.7122895121574402, "Quantum control": 0.6709851026535034 } }, { "id": 6612, "title": "Cosmological dark matter annihilations into γ rays: A closer look - art. no. 123502", "abstract": "We investigate the prospects of detecting weakly interacting massive particle (WIMP) dark matter by measuring the contribution to the extragalactic gamma-ray radiation induced, in any dark matter halo...", "citations": 295, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6619, "doi": "10.1103/PhysRevD.66.123502", "umap_coordinates": { "x": 396.2608947753906, "y": 135.36276245117188, "z": 207.43597412109375 }, "tsne_coordinates": { "x": -39.36214065551758, "y": -1.6999669075012207, "z": -14.883695602416992 }, "pca_coordinates": { "x": 2.7489824295043945, "y": 1.5796977281570435, "z": 1.3606758117675781 }, "axis_scores": { "Quantum imaging": 0.6935946345329285, "Quantum Life Science Sensing": 0.6921265125274658, "Quantum sensing Detection": 0.6837563514709473, "Quantum sensing Metrology": 0.6547574400901794, "Quantum sensing navigation": 0.7038324475288391, "Quantum sensing Position": 0.6558197140693665, "Quantum sensing Timing": 0.6553307771682739, "Quantum sensing": 0.680624783039093, "Quantum control": 0.6512743234634399 } }, { "id": 6613, "title": "MIDIS: Unveiling the Role of Strong Hα Emitters During the Epoch of Reionization with JWST", "abstract": "By using an ultradeep JWST/MIRI image at 5.6 mu m in the Hubble eXtreme Deep Field, we constrain the role of strong H alpha emitters (HAEs) during cosmic reionization at z similar or equal to 7-8. Our...", "citations": 35, "author_count": 45, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6620, "doi": "10.3847/1538-4357/ad4147", "umap_coordinates": { "x": 396.1064147949219, "y": 135.10487365722656, "z": 206.00924682617188 }, "tsne_coordinates": { "x": -32.82990264892578, "y": 23.18178939819336, "z": 5.418267250061035 }, "pca_coordinates": { "x": -2.804264545440674, "y": 0.9455076456069946, "z": 0.3354029059410095 }, "axis_scores": { "Quantum imaging": 0.6679376363754272, "Quantum Life Science Sensing": 0.6836667656898499, "Quantum sensing Detection": 0.6483747959136963, "Quantum sensing Metrology": 0.6390416026115417, "Quantum sensing navigation": 0.6523204445838928, "Quantum sensing Position": 0.6368572115898132, "Quantum sensing Timing": 0.6519399285316467, "Quantum sensing": 0.6499813199043274, "Quantum control": 0.6159525513648987 } }, { "id": 6614, "title": "Downturn in Childhood Bone Mass: A Cross-Sectional Study Over Four Decades", "abstract": "Screen time and physical inactivity have increased among children. As physical activity is a determinant of bone mass, there is a concern that children today have lower bone mass than earlier. If this...", "citations": 4, "author_count": 7, "categories": [ "Endocrinology & Metabolism" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6621, "doi": "10.1002/jbm4.10564", "umap_coordinates": { "x": 395.19158935546875, "y": 135.1304931640625, "z": 204.63294982910156 }, "tsne_coordinates": { "x": 0.34704822301864624, "y": 35.88383102416992, "z": 9.236475944519043 }, "pca_coordinates": { "x": -1.1154552698135376, "y": 3.3043346405029297, "z": -1.865159034729004 }, "axis_scores": { "Quantum imaging": 0.652233362197876, "Quantum Life Science Sensing": 0.6869622468948364, "Quantum sensing Detection": 0.6563087701797485, "Quantum sensing Metrology": 0.6673743724822998, "Quantum sensing navigation": 0.6638328433036804, "Quantum sensing Position": 0.6699348092079163, "Quantum sensing Timing": 0.6533633470535278, "Quantum sensing": 0.6649927496910095, "Quantum control": 0.6605764031410217 } }, { "id": 6615, "title": "Neurocognition and mean radiotherapy dose to vulnerable brain structures: new organs at risk?", "abstract": "BackgroundChildren with brain tumors are at high risk of neurocognitive decline after radiotherapy (RT). However, there is a lack of studies on how RT doses to organs at risk (OARs) impacts neurocogni...", "citations": 7, "author_count": 8, "categories": [ "Oncology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6622, "doi": "10.1186/s13014-023-02324-2", "umap_coordinates": { "x": 395.2496032714844, "y": 134.03799438476562, "z": 204.4629669189453 }, "tsne_coordinates": { "x": -5.788727283477783, "y": 27.38172149658203, "z": -7.312431335449219 }, "pca_coordinates": { "x": -2.9820520877838135, "y": 4.434439659118652, "z": 0.27742713689804077 }, "axis_scores": { "Quantum imaging": 0.6715183258056641, "Quantum Life Science Sensing": 0.6833972334861755, "Quantum sensing Detection": 0.6514604687690735, "Quantum sensing Metrology": 0.6442721486091614, "Quantum sensing navigation": 0.6740404367446899, "Quantum sensing Position": 0.6574478149414062, "Quantum sensing Timing": 0.6393885612487793, "Quantum sensing": 0.6522775888442993, "Quantum control": 0.6508263349533081 } }, { "id": 6616, "title": "Realization of the Chern-insulator and axion-insulator phases in antiferromagnetic MnTe/Bi2(Se, Te)3/MnTe heterostructures", "abstract": "Breaking time-reversal symmetry in three-dimensional topological insulator thin films can lead to different topological quantum phases, such as the Chern insulator (CI) phase and the axion insulator (...", "citations": 17, "author_count": 7, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6623, "doi": "10.1103/PhysRevB.103.195308", "umap_coordinates": { "x": 393.29302978515625, "y": 135.94223022460938, "z": 209.0286102294922 }, "tsne_coordinates": { "x": 9.40023422241211, "y": -30.334197998046875, "z": 16.052465438842773 }, "pca_coordinates": { "x": 4.189370632171631, "y": -2.041430950164795, "z": -0.20823699235916138 }, "axis_scores": { "Quantum imaging": 0.6930853128433228, "Quantum Life Science Sensing": 0.6785626411437988, "Quantum sensing Detection": 0.6844190359115601, "Quantum sensing Metrology": 0.6869786381721497, "Quantum sensing navigation": 0.6942976713180542, "Quantum sensing Position": 0.6804646253585815, "Quantum sensing Timing": 0.6779166460037231, "Quantum sensing": 0.6903244256973267, "Quantum control": 0.658299446105957 } }, { "id": 6617, "title": "Analysis of Bonding by Quantum Chemistry-Resolving Delocalization Stabilization in a Mechanistic Basis and New Huckel Model", "abstract": "No general and unique understanding of the mechanism of covalent bonding in physical terms is provided by current computational methods or by a consensus among experts. Bonding is studied by energy de...", "citations": 2, "author_count": 2, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6624, "doi": "10.1021/acs.jpca.2c08497", "umap_coordinates": { "x": 393.36395263671875, "y": 137.33506774902344, "z": 205.62698364257812 }, "tsne_coordinates": { "x": 7.324462413787842, "y": 13.304609298706055, "z": 26.95650291442871 }, "pca_coordinates": { "x": 0.6902568340301514, "y": 1.7882039546966553, "z": -3.342200756072998 }, "axis_scores": { "Quantum imaging": 0.7224098443984985, "Quantum Life Science Sensing": 0.7312139272689819, "Quantum sensing Detection": 0.7061070203781128, "Quantum sensing Metrology": 0.6980245113372803, "Quantum sensing navigation": 0.723695695400238, "Quantum sensing Position": 0.680827796459198, "Quantum sensing Timing": 0.673849880695343, "Quantum sensing": 0.724570095539093, "Quantum control": 0.742094874382019 } }, { "id": 6618, "title": "Cascaded systems analysis of shift-variant image quality in slit-scanning breast tomosynthesis", "abstract": "PurposeDigital breast tomosynthesis (DBT) is becoming an important part of breast cancer screening and diagnosis. Compared to two-dimensional mammography, tomosynthesis introduces limited three-dimens...", "citations": 2, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6625, "doi": "10.1002/mp.13116", "umap_coordinates": { "x": 395.8363952636719, "y": 133.05723571777344, "z": 205.16632080078125 }, "tsne_coordinates": { "x": -12.233418464660645, "y": 19.124187469482422, "z": -29.110836029052734 }, "pca_coordinates": { "x": -1.4110937118530273, "y": 2.621290922164917, "z": 1.4425020217895508 }, "axis_scores": { "Quantum imaging": 0.7253562808036804, "Quantum Life Science Sensing": 0.688076913356781, "Quantum sensing Detection": 0.703481912612915, "Quantum sensing Metrology": 0.6989895105361938, "Quantum sensing navigation": 0.6977366209030151, "Quantum sensing Position": 0.7038567662239075, "Quantum sensing Timing": 0.6914352178573608, "Quantum sensing": 0.7116000652313232, "Quantum control": 0.690766453742981 } }, { "id": 6619, "title": "OH mid-infrared emission as a diagnostic of H2O UV photodissociation", "abstract": "Context. The Mid-InfraRed Instrument (MIRI) on board the James Webb Space Telescope (JWST) gives unique access to the physical and chemical structure of inner disks (<10 au), where the majority of the...", "citations": 12, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6626, "doi": "10.1051/0004-6361/202348487", "umap_coordinates": { "x": 395.64678955078125, "y": 135.1793975830078, "z": 205.75791931152344 }, "tsne_coordinates": { "x": 1.2426013946533203, "y": 12.202608108520508, "z": 9.888703346252441 }, "pca_coordinates": { "x": -1.487478256225586, "y": 0.6837003231048584, "z": -0.4089716672897339 }, "axis_scores": { "Quantum imaging": 0.7034242153167725, "Quantum Life Science Sensing": 0.759276270866394, "Quantum sensing Detection": 0.7149882316589355, "Quantum sensing Metrology": 0.7004519104957581, "Quantum sensing navigation": 0.6863657832145691, "Quantum sensing Position": 0.6745877265930176, "Quantum sensing Timing": 0.667421817779541, "Quantum sensing": 0.7204610109329224, "Quantum control": 0.6699228286743164 } }, { "id": 6620, "title": "An optical pascal in Sweden", "abstract": "By measuring the refractivity and the temperature of a gas, its pressure can be assessed from fundamental principles. The highest performing instruments are based on Fabry-Perot cavities where a laser...", "citations": 6, "author_count": 6, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6627, "doi": "10.1088/2040-8986/ac4ea2", "umap_coordinates": { "x": 394.9482727050781, "y": 134.9111785888672, "z": 205.91696166992188 }, "tsne_coordinates": { "x": -12.257413864135742, "y": -0.3886483311653137, "z": -16.946645736694336 }, "pca_coordinates": { "x": -2.022045135498047, "y": 1.8269169330596924, "z": 1.1570279598236084 }, "axis_scores": { "Quantum imaging": 0.6594498753547668, "Quantum Life Science Sensing": 0.6550999879837036, "Quantum sensing Detection": 0.6400030255317688, "Quantum sensing Metrology": 0.6473633050918579, "Quantum sensing navigation": 0.6556862592697144, "Quantum sensing Position": 0.6485616564750671, "Quantum sensing Timing": 0.6204896569252014, "Quantum sensing": 0.644367516040802, "Quantum control": 0.6233681440353394 } }, { "id": 6621, "title": "The diamond NV-center transition energies in the vicinity of an intrinsic stacking fault", "abstract": "The negatively charged nitrogen vacancy (NV-) center in a diamond is a nanometer-sized defect with very sensitive properties that can be manipulated, for example, for single-molecule photoluminescence...", "citations": 6, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6628, "doi": "10.1063/5.0080096", "umap_coordinates": { "x": 392.384521484375, "y": 136.8605499267578, "z": 206.48944091796875 }, "tsne_coordinates": { "x": 11.589579582214355, "y": -5.518582820892334, "z": 6.94847297668457 }, "pca_coordinates": { "x": 1.017333745956421, "y": -1.353153944015503, "z": -0.5166165232658386 }, "axis_scores": { "Quantum imaging": 0.6630218029022217, "Quantum Life Science Sensing": 0.6775944828987122, "Quantum sensing Detection": 0.6546123623847961, "Quantum sensing Metrology": 0.6516433954238892, "Quantum sensing navigation": 0.6550366878509521, "Quantum sensing Position": 0.6669614315032959, "Quantum sensing Timing": 0.6792399883270264, "Quantum sensing": 0.6555823087692261, "Quantum control": 0.623576283454895 } }, { "id": 6622, "title": "Analysis of photobleaching in single-molecule multicolor excitation and forster resonance energy transfer measurement", "abstract": "we investigated the influence of photobleaching in fluorescence experiments applying multicolor laser as well as Forster resonance energy transfer (FRET) mediated excitation using several red-emitting...", "citations": 155, "author_count": 7, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6629, "doi": "10.1021/jp054581w", "umap_coordinates": { "x": 393.818115234375, "y": 134.67347717285156, "z": 205.80841064453125 }, "tsne_coordinates": { "x": -7.406303882598877, "y": 13.926440238952637, "z": -4.920539379119873 }, "pca_coordinates": { "x": -2.8142175674438477, "y": -1.7348322868347168, "z": 0.6243062615394592 }, "axis_scores": { "Quantum imaging": 0.6931408643722534, "Quantum Life Science Sensing": 0.7036450505256653, "Quantum sensing Detection": 0.675715982913971, "Quantum sensing Metrology": 0.6846096515655518, "Quantum sensing navigation": 0.6413440704345703, "Quantum sensing Position": 0.6583009362220764, "Quantum sensing Timing": 0.6623762845993042, "Quantum sensing": 0.684249758720398, "Quantum control": 0.6358397603034973 } }, { "id": 6623, "title": "The influence of photon depth of interaction and non-collinear spread of annihilation photons on PET image spatial resolution", "abstract": "Purpose: The quality of PET imaging is impaired by parallax errors. These errors produce misalignment between the projected location of the true origin of the annihilation event and the line of respon...", "citations": 19, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6630, "doi": "10.1007/s00259-005-0024-z", "umap_coordinates": { "x": 395.3166198730469, "y": 133.17037963867188, "z": 205.07785034179688 }, "tsne_coordinates": { "x": -2.9023852348327637, "y": 22.202852249145508, "z": -12.47671127319336 }, "pca_coordinates": { "x": -2.9690754413604736, "y": 2.8127384185791016, "z": 3.3055601119995117 }, "axis_scores": { "Quantum imaging": 0.7330506443977356, "Quantum Life Science Sensing": 0.6997073888778687, "Quantum sensing Detection": 0.7065094709396362, "Quantum sensing Metrology": 0.7005966901779175, "Quantum sensing navigation": 0.7009841203689575, "Quantum sensing Position": 0.713042676448822, "Quantum sensing Timing": 0.71189945936203, "Quantum sensing": 0.7047535181045532, "Quantum control": 0.6693331599235535 } }, { "id": 6624, "title": "Absorbed Doses and Risk Estimates of 211At-MX35 F(ab′)2 in Intraperitoneal Therapy of Ovarian Cancer Patients", "abstract": "Purpose: Ovarian cancer is often diagnosed at an advanced stage with dissemination in the peritoneal cavity. Most patients achieve clinical remission after surgery and chemotherapy, but approximately ...", "citations": 47, "author_count": 13, "categories": [ "Oncology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6631, "doi": "10.1016/j.ijrobp.2015.07.005", "umap_coordinates": { "x": 394.86334228515625, "y": 133.64524841308594, "z": 204.2622833251953 }, "tsne_coordinates": { "x": 3.6412320137023926, "y": 30.545188903808594, "z": -14.034988403320312 }, "pca_coordinates": { "x": -3.5764517784118652, "y": 2.6598925590515137, "z": 0.337576687335968 }, "axis_scores": { "Quantum imaging": 0.702373206615448, "Quantum Life Science Sensing": 0.7015433311462402, "Quantum sensing Detection": 0.6804931163787842, "Quantum sensing Metrology": 0.6872561573982239, "Quantum sensing navigation": 0.6713225245475769, "Quantum sensing Position": 0.671055793762207, "Quantum sensing Timing": 0.6572597622871399, "Quantum sensing": 0.6827281713485718, "Quantum control": 0.646613597869873 } }, { "id": 6625, "title": "Quantum Model for Psychological Measurements: From the Projection Postulate to Interference of Mental Observables Represented As Positive Operator Valued Measures", "abstract": "Recently foundational issues of applicability of the formalism of quantum mechanics (QM) to cognitive psychology, decision making, and psychophysics attracted a lot of interest. In particular, in (Khr...", "citations": 22, "author_count": 3, "categories": [ "Neurosciences & Neurology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6632, "doi": null, "umap_coordinates": { "x": 392.2098693847656, "y": 139.28634643554688, "z": 209.08340454101562 }, "tsne_coordinates": { "x": -12.429089546203613, "y": 39.94227981567383, "z": -1.5535985231399536 }, "pca_coordinates": { "x": 0.8735713958740234, "y": 5.612961769104004, "z": 0.39418667554855347 }, "axis_scores": { "Quantum imaging": 0.7771787643432617, "Quantum Life Science Sensing": 0.7640072107315063, "Quantum sensing Detection": 0.7786429524421692, "Quantum sensing Metrology": 0.7804650664329529, "Quantum sensing navigation": 0.773830235004425, "Quantum sensing Position": 0.7708604335784912, "Quantum sensing Timing": 0.7305376529693604, "Quantum sensing": 0.7830029726028442, "Quantum control": 0.7549868822097778 } }, { "id": 6626, "title": "Effect of an external magnetic field on the determination of E1M1 two-photon decay rates in Be-like ions", "abstract": "In this work we report on ab initio theoretical results for the magnetic-field-induced 2s 2p P-3(0) -> 2s(2) S-1(0) E1 transition for ions in the beryllium isoelectronic sequence between Z = 5 and 92....", "citations": 20, "author_count": 10, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6633, "doi": "10.1103/PhysRevA.88.022513", "umap_coordinates": { "x": 393.6318054199219, "y": 135.79815673828125, "z": 207.47390747070312 }, "tsne_coordinates": { "x": 9.367551803588867, "y": -30.533945083618164, "z": 28.96763801574707 }, "pca_coordinates": { "x": 1.3725829124450684, "y": 0.21473217010498047, "z": -0.7975001335144043 }, "axis_scores": { "Quantum imaging": 0.7192294001579285, "Quantum Life Science Sensing": 0.7383219003677368, "Quantum sensing Detection": 0.7133470177650452, "Quantum sensing Metrology": 0.7072343826293945, "Quantum sensing navigation": 0.6895380020141602, "Quantum sensing Position": 0.6792477965354919, "Quantum sensing Timing": 0.6745240092277527, "Quantum sensing": 0.7096093893051147, "Quantum control": 0.6810173392295837 } }, { "id": 6627, "title": "Photodissociation of protonated amino acids and peptides in an ion storage ring. Determination of Arrhenius parameters in the high-temperature limit", "abstract": "We have measured the time dependence of the fragmentation of protonated amino acids and peptides upon UV excitation in an electrostatic ion storage ring. After absorption of a 266 nm photon, protonate...", "citations": 49, "author_count": 16, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6634, "doi": "10.1039/b316845j", "umap_coordinates": { "x": 392.9349060058594, "y": 136.67166137695312, "z": 205.8123779296875 }, "tsne_coordinates": { "x": 4.413888931274414, "y": 11.451332092285156, "z": 13.539335250854492 }, "pca_coordinates": { "x": -0.6266835927963257, "y": 0.8096277713775635, "z": -2.3559553623199463 }, "axis_scores": { "Quantum imaging": 0.6946642994880676, "Quantum Life Science Sensing": 0.7355073690414429, "Quantum sensing Detection": 0.699239194393158, "Quantum sensing Metrology": 0.6784370541572571, "Quantum sensing navigation": 0.6701317429542542, "Quantum sensing Position": 0.7021902203559875, "Quantum sensing Timing": 0.6905267834663391, "Quantum sensing": 0.7056697010993958, "Quantum control": 0.6593174338340759 } }, { "id": 6628, "title": "THE DINOFLAGELLATE DINOPHYSIS-NORVEGICA - BIOLOGICAL AND ECOLOGICAL OBSERVATIONS IN THE BALTIC SEA", "abstract": "Observations of the dinoflagellate Dinophysis norvegica in the Baltic Sea during the summers of 1991-1993 indicate that maximal abundances (c.40-150 x 10(3) cells l-1) were found at the thermocline, t...", "citations": 87, "author_count": 6, "categories": [ "Plant Sciences" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6635, "doi": "10.1080/09670269500650751", "umap_coordinates": { "x": 393.697509765625, "y": 136.14352416992188, "z": 204.10031127929688 }, "tsne_coordinates": { "x": 12.648354530334473, "y": 26.361759185791016, "z": 16.971660614013672 }, "pca_coordinates": { "x": -1.3155499696731567, "y": 1.492417812347412, "z": -0.692900538444519 }, "axis_scores": { "Quantum imaging": 0.6759834289550781, "Quantum Life Science Sensing": 0.7160208821296692, "Quantum sensing Detection": 0.6764545440673828, "Quantum sensing Metrology": 0.6756198406219482, "Quantum sensing navigation": 0.6942273378372192, "Quantum sensing Position": 0.6700501441955566, "Quantum sensing Timing": 0.6358717083930969, "Quantum sensing": 0.6835876107215881, "Quantum control": 0.6736741662025452 } }, { "id": 6629, "title": "Dose uncertainties in photon pencil kernel calculations at off-axis positions", "abstract": "The purpose of this study was to investigate the specific problems associated with photon dose calculations in points located at a distance from the central beam axis. These problems are related to la...", "citations": 4, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6636, "doi": "10.1118/1.2335488", "umap_coordinates": { "x": 395.9609375, "y": 132.9563446044922, "z": 205.7046661376953 }, "tsne_coordinates": { "x": -12.465450286865234, "y": 26.125913619995117, "z": -23.160924911499023 }, "pca_coordinates": { "x": -0.6755499243736267, "y": 1.764953374862671, "z": 3.8848471641540527 }, "axis_scores": { "Quantum imaging": 0.7232286334037781, "Quantum Life Science Sensing": 0.6789661645889282, "Quantum sensing Detection": 0.7000476717948914, "Quantum sensing Metrology": 0.7095654010772705, "Quantum sensing navigation": 0.7230775952339172, "Quantum sensing Position": 0.7313380241394043, "Quantum sensing Timing": 0.713151216506958, "Quantum sensing": 0.7083073854446411, "Quantum control": 0.6688587069511414 } }, { "id": 6630, "title": "Experimentally determined and Monte Carlo-calculated energy dependence of NaCl pellets read by optically stimulated luminescence for photon beams in the energy range 30 keV to 1.25 MeV", "abstract": "Ordinary salt, NaCl, has many properties suitable for dosimetry and has been suggested for both retrospective and prospective optically stimulated luminescence (OSL) dosimetry. Lately, the focus has b...", "citations": 9, "author_count": 6, "categories": [ "Environmental Sciences & Ecology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6637, "doi": "10.1088/1361-6498/abc052", "umap_coordinates": { "x": 395.931884765625, "y": 133.8712921142578, "z": 205.57984924316406 }, "tsne_coordinates": { "x": -15.963544845581055, "y": 12.228592872619629, "z": -2.857863187789917 }, "pca_coordinates": { "x": -1.4024490118026733, "y": 0.9558255672454834, "z": 2.350167751312256 }, "axis_scores": { "Quantum imaging": 0.6762017607688904, "Quantum Life Science Sensing": 0.714266300201416, "Quantum sensing Detection": 0.6729230880737305, "Quantum sensing Metrology": 0.6822690963745117, "Quantum sensing navigation": 0.6885708570480347, "Quantum sensing Position": 0.6795752048492432, "Quantum sensing Timing": 0.6542405486106873, "Quantum sensing": 0.6828077435493469, "Quantum control": 0.6300110816955566 } }, { "id": 6631, "title": "Cilostazol-imprinted polymer film-coated electrode as an electrochemical chemosensor for selective determination of cilostazol and its active primary metabolite", "abstract": "An electrochemical chemosensor for cilostazol (CIL) determination was devised, engineered, and tested. For that, a unique conducting film of the functionalized thiophene-appended carbazole-based polym...", "citations": 4, "author_count": 9, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6638, "doi": "10.1039/d1tb02186a", "umap_coordinates": { "x": 393.2015380859375, "y": 134.8158721923828, "z": 203.99098205566406 }, "tsne_coordinates": { "x": 23.399951934814453, "y": 22.307706832885742, "z": -12.980875015258789 }, "pca_coordinates": { "x": -3.9737308025360107, "y": 0.29540276527404785, "z": -1.0286352634429932 }, "axis_scores": { "Quantum imaging": 0.6806074976921082, "Quantum Life Science Sensing": 0.6913389563560486, "Quantum sensing Detection": 0.6900398135185242, "Quantum sensing Metrology": 0.668449342250824, "Quantum sensing navigation": 0.6614787578582764, "Quantum sensing Position": 0.6775553226470947, "Quantum sensing Timing": 0.6655679941177368, "Quantum sensing": 0.6917974948883057, "Quantum control": 0.665027916431427 } }, { "id": 6632, "title": "The Clinical Dilemma of Quantifying Mechanical Left Ventricular Dyssynchrony for Cardiac Resynchronization Therapy: Segmental or Global?", "abstract": "Heart failure (HF) represents a serious clinical and public cause of mortality, morbidity, as well as healthcare expenditures. Guidelines for treatment of HF join in recommending multimedical regimen ...", "citations": 6, "author_count": 3, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6639, "doi": "10.1111/echo.12775", "umap_coordinates": { "x": 395.4114074707031, "y": 134.2880096435547, "z": 204.3677978515625 }, "tsne_coordinates": { "x": -10.402159690856934, "y": 30.603891372680664, "z": -5.711939334869385 }, "pca_coordinates": { "x": -1.197724461555481, "y": 4.582791328430176, "z": 0.8383250832557678 }, "axis_scores": { "Quantum imaging": 0.7032074928283691, "Quantum Life Science Sensing": 0.6979240775108337, "Quantum sensing Detection": 0.6958744525909424, "Quantum sensing Metrology": 0.7108189463615417, "Quantum sensing navigation": 0.678647518157959, "Quantum sensing Position": 0.6962986588478088, "Quantum sensing Timing": 0.7145320177078247, "Quantum sensing": 0.7053736448287964, "Quantum control": 0.6721541881561279 } }, { "id": 6633, "title": "AGIPD: A multi Megapixel, multi Megahertz X-Ray Camera for the European XFEL", "abstract": "AGIPD is a hybrid pixel detector developed by DESY, PSI, and the Universities of Bonn and Hamburg. It is targeted for use at the European XFEL, a source with unique properties: a train of up to 2700 p...", "citations": 3, "author_count": 27, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6640, "doi": "10.1117/12.2269153", "umap_coordinates": { "x": 395.3941345214844, "y": 133.4817352294922, "z": 206.08082580566406 }, "tsne_coordinates": { "x": -1.5706840753555298, "y": 16.963254928588867, "z": -25.646514892578125 }, "pca_coordinates": { "x": -3.4542479515075684, "y": 1.568690299987793, "z": 2.7190117835998535 }, "axis_scores": { "Quantum imaging": 0.7108747959136963, "Quantum Life Science Sensing": 0.6911237239837646, "Quantum sensing Detection": 0.6890547871589661, "Quantum sensing Metrology": 0.7039413452148438, "Quantum sensing navigation": 0.6801880598068237, "Quantum sensing Position": 0.6871024370193481, "Quantum sensing Timing": 0.6898204684257507, "Quantum sensing": 0.7028667330741882, "Quantum control": 0.6699486374855042 } }, { "id": 6634, "title": "Noninvasive functional optical spectroscopy of human breast tissue", "abstract": "Near infrared diffuse optical spectroscopy and diffuse optical imaging are promising methods that eventually may enhance or replace existing technologies for breast cancer screening and diagnosis. The...", "citations": 307, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6641, "doi": "10.1073/pnas.071511098", "umap_coordinates": { "x": 395.1774597167969, "y": 133.41505432128906, "z": 205.2017364501953 }, "tsne_coordinates": { "x": -2.427474021911621, "y": 23.104944229125977, "z": -30.837646484375 }, "pca_coordinates": { "x": -2.190021514892578, "y": 0.09837222099304199, "z": 1.6203670501708984 }, "axis_scores": { "Quantum imaging": 0.7074112892150879, "Quantum Life Science Sensing": 0.7368624210357666, "Quantum sensing Detection": 0.7077775597572327, "Quantum sensing Metrology": 0.7012413144111633, "Quantum sensing navigation": 0.6798462271690369, "Quantum sensing Position": 0.6715400815010071, "Quantum sensing Timing": 0.6512812376022339, "Quantum sensing": 0.7127752304077148, "Quantum control": 0.6280627250671387 } }, { "id": 6635, "title": "Monte Carlo modelling of a compact CZT-based gamma camera with application to 177Lu imaging", "abstract": "Background: Semiconductor gamma-camera systems based on cadmium zinc telluride (CZT) detectors present new challenges due to an energy-response that includes effects of low-energy tailing. In particul...", "citations": 5, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6642, "doi": "10.1186/s40658-022-00463-1", "umap_coordinates": { "x": 395.44915771484375, "y": 133.14730834960938, "z": 205.12774658203125 }, "tsne_coordinates": { "x": -7.6736650466918945, "y": 26.549877166748047, "z": -9.956350326538086 }, "pca_coordinates": { "x": -2.7646987438201904, "y": 3.8758444786071777, "z": 1.7810883522033691 }, "axis_scores": { "Quantum imaging": 0.6985532641410828, "Quantum Life Science Sensing": 0.6883885264396667, "Quantum sensing Detection": 0.6651193499565125, "Quantum sensing Metrology": 0.6690502166748047, "Quantum sensing navigation": 0.6953201293945312, "Quantum sensing Position": 0.6662943959236145, "Quantum sensing Timing": 0.696616530418396, "Quantum sensing": 0.6739741563796997, "Quantum control": 0.6647549867630005 } }, { "id": 6636, "title": "Monte Carlo kilovoltage X-ray tube simulation: A statistical analysis and compact simulation method", "abstract": "Introduction: Monte Carlo (MC) simulations are a powerful tool for improving image quality in X-ray based imaging modalities. An accurate X-ray source model is essential to MC modeling for CBCT but ca...", "citations": 5, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6643, "doi": "10.1016/j.ejmp.2020.03.015", "umap_coordinates": { "x": 395.1015930175781, "y": 133.35394287109375, "z": 205.13302612304688 }, "tsne_coordinates": { "x": -14.252908706665039, "y": 25.95357322692871, "z": -8.139425277709961 }, "pca_coordinates": { "x": -3.1365694999694824, "y": 3.596113920211792, "z": 0.8431004881858826 }, "axis_scores": { "Quantum imaging": 0.7110196352005005, "Quantum Life Science Sensing": 0.7302672863006592, "Quantum sensing Detection": 0.7046831250190735, "Quantum sensing Metrology": 0.691104531288147, "Quantum sensing navigation": 0.6996338367462158, "Quantum sensing Position": 0.6866747140884399, "Quantum sensing Timing": 0.6943385601043701, "Quantum sensing": 0.7092128992080688, "Quantum control": 0.6820349097251892 } }, { "id": 6637, "title": "Using RGB displays to portray color realistic imagery to animal eyes", "abstract": "RGB displays effectively simulate millions of colors in the eyes of humans by modulating the relative amount of light emitted by 3 differently colored juxtaposed lights ( red, green, and blue). The re...", "citations": 19, "author_count": 3, "categories": [ "Zoology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6644, "doi": "10.1093/cz/zow076", "umap_coordinates": { "x": 394.815673828125, "y": 136.5021209716797, "z": 204.85781860351562 }, "tsne_coordinates": { "x": -10.253962516784668, "y": 27.247892379760742, "z": 19.250446319580078 }, "pca_coordinates": { "x": -1.1429122686386108, "y": 3.53859806060791, "z": 0.29963308572769165 }, "axis_scores": { "Quantum imaging": 0.739741325378418, "Quantum Life Science Sensing": 0.7221741676330566, "Quantum sensing Detection": 0.7020731568336487, "Quantum sensing Metrology": 0.6829341650009155, "Quantum sensing navigation": 0.7358995676040649, "Quantum sensing Position": 0.6869518160820007, "Quantum sensing Timing": 0.6846691370010376, "Quantum sensing": 0.7207305431365967, "Quantum control": 0.7117451429367065 } }, { "id": 6638, "title": "THE INFLUENCE OF OZONE ON THE STOMATAL AND NONSTOMATAL LIMITATION OF PHOTOSYNTHESIS IN NORWAY SPRUCE, PICEA-ABIES (L) KARST, EXPOSED TO SOIL-MOISTURE DEFICIT", "abstract": "Norway spruce, Picea abies (L.) Karst., was exposed to charcoal-filtered air (CF) and non-filtered air + ozone (NF+) and periods of soil moisture deficit from 1985 to 1988 in open-top chambers. Net ph...", "citations": 43, "author_count": 3, "categories": [ "Forestry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 6645, "doi": null, "umap_coordinates": { "x": 391.9655456542969, "y": 139.5142059326172, "z": 209.72064208984375 }, "tsne_coordinates": { "x": -2.2457118034362793, "y": 42.710697174072266, "z": -0.8048040866851807 }, "pca_coordinates": { "x": -2.1768293380737305, "y": 3.334341287612915, "z": -2.5237717628479004 }, "axis_scores": { "Quantum imaging": 0.7582663893699646, "Quantum Life Science Sensing": 0.792690634727478, "Quantum sensing Detection": 0.7620909214019775, "Quantum sensing Metrology": 0.7473019361495972, "Quantum sensing navigation": 0.7680156230926514, "Quantum sensing Position": 0.7192628979682922, "Quantum sensing Timing": 0.7155206203460693, "Quantum sensing": 0.7781185507774353, "Quantum control": 0.7720708847045898 } }, { "id": 6639, "title": "Preclinical Evaluation of 99mTc-ZHER2:41071, a Second-Generation Affibody-Based HER2-Visualizing Imaging Probe with a Low Renal Uptake", "abstract": "Radionuclide imaging of HER2 expression in tumours may enable stratification of patients with breast, ovarian, and gastroesophageal cancers for HER2-targeting therapies. A first-generation HER2-bindin...", "citations": 27, "author_count": 11, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6646, "doi": "10.3390/ijms22052770", "umap_coordinates": { "x": 394.56427001953125, "y": 133.72286987304688, "z": 204.3583221435547 }, "tsne_coordinates": { "x": 5.234922409057617, "y": 28.78502655029297, "z": -12.972818374633789 }, "pca_coordinates": { "x": -4.324673652648926, "y": 2.32383394241333, "z": -0.0543668270111084 }, "axis_scores": { "Quantum imaging": 0.7084601521492004, "Quantum Life Science Sensing": 0.6991715431213379, "Quantum sensing Detection": 0.6754356622695923, "Quantum sensing Metrology": 0.6862733960151672, "Quantum sensing navigation": 0.6860457062721252, "Quantum sensing Position": 0.6722084879875183, "Quantum sensing Timing": 0.670292317867279, "Quantum sensing": 0.6874873638153076, "Quantum control": 0.6559475660324097 } }, { "id": 6640, "title": "Numerical simulation and optimization of a silicon clathrate-based solar cell n-Si136/p-Si2 using SCAPS-1D program", "abstract": "The aim of this work is to optimize a prototype solar cell based on a real model with type-II silicon clathrate Si-136 active layer. For that purpose, a simulation of a ITO/Ag/n-Si-136/p-Si/Al solar c...", "citations": 24, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6647, "doi": "10.1016/j.optmat.2020.110043", "umap_coordinates": { "x": 393.9993896484375, "y": 133.3690185546875, "z": 205.7934112548828 }, "tsne_coordinates": { "x": 31.959396362304688, "y": 9.930932998657227, "z": -15.048416137695312 }, "pca_coordinates": { "x": -2.8819761276245117, "y": -0.48041725158691406, "z": 1.6458559036254883 }, "axis_scores": { "Quantum imaging": 0.7202233672142029, "Quantum Life Science Sensing": 0.7326238751411438, "Quantum sensing Detection": 0.7047200798988342, "Quantum sensing Metrology": 0.7147220969200134, "Quantum sensing navigation": 0.7262131571769714, "Quantum sensing Position": 0.6873444318771362, "Quantum sensing Timing": 0.6847075819969177, "Quantum sensing": 0.7204246520996094, "Quantum control": 0.6904059052467346 } }, { "id": 6641, "title": "Effect of Binding Energies on the Encounter Desorption", "abstract": "The abundance of interstellar ice constituents is usually expressed with respect to the water ice because, in denser regions, a significant portion of the interstellar grain surface would be covered b...", "citations": 14, "author_count": 8, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6648, "doi": "10.3389/fspas.2021.671622", "umap_coordinates": { "x": 393.6094055175781, "y": 136.2943572998047, "z": 205.15797424316406 }, "tsne_coordinates": { "x": 13.73365306854248, "y": 23.020774841308594, "z": 28.196285247802734 }, "pca_coordinates": { "x": -0.3278847336769104, "y": 1.522864580154419, "z": -2.287271499633789 }, "axis_scores": { "Quantum imaging": 0.6650233268737793, "Quantum Life Science Sensing": 0.723228931427002, "Quantum sensing Detection": 0.6971095204353333, "Quantum sensing Metrology": 0.6800096035003662, "Quantum sensing navigation": 0.6833652257919312, "Quantum sensing Position": 0.682219386100769, "Quantum sensing Timing": 0.6859936118125916, "Quantum sensing": 0.6917034387588501, "Quantum control": 0.6528834104537964 } }, { "id": 6642, "title": "Robust treatment planning of dose painting for prostate cancer based on ADC-to-Gleason score mappings - what is the potential to increase the tumor control probability?", "abstract": "Background and purpose The aim of this study was to evaluate the potential to increase the tumor control probability (TCP) with 'dose painting by numbers' (DPBN) plans optimized in a treatment plannin...", "citations": 10, "author_count": 8, "categories": [ "Oncology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6649, "doi": "10.1080/0284186X.2020.1817547", "umap_coordinates": { "x": 394.87847900390625, "y": 133.74090576171875, "z": 204.348388671875 }, "tsne_coordinates": { "x": 3.66670298576355, "y": 24.569215774536133, "z": -11.806156158447266 }, "pca_coordinates": { "x": -2.9822330474853516, "y": 2.592423677444458, "z": 1.0690960884094238 }, "axis_scores": { "Quantum imaging": 0.6710792779922485, "Quantum Life Science Sensing": 0.6544930934906006, "Quantum sensing Detection": 0.6305358409881592, "Quantum sensing Metrology": 0.6436772346496582, "Quantum sensing navigation": 0.6659523248672485, "Quantum sensing Position": 0.6659941673278809, "Quantum sensing Timing": 0.6526146531105042, "Quantum sensing": 0.651235044002533, "Quantum control": 0.6908594965934753 } }, { "id": 6643, "title": "Electrode level Monte Carlo model of radiation damage effects on astronomical CCDs", "abstract": "Current optical space telescopes rely upon silicon charge-coupled devices (CCDs) to detect and image the incoming photons. The performance of a CCD detector depends on its ability to transfer electron...", "citations": 17, "author_count": 6, "categories": [ "Astronomy & Astrophysics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6650, "doi": "10.1111/j.1365-2966.2011.18537.x", "umap_coordinates": { "x": 395.2550354003906, "y": 133.54527282714844, "z": 205.6118621826172 }, "tsne_coordinates": { "x": -17.90018081665039, "y": 27.696537017822266, "z": -7.3128743171691895 }, "pca_coordinates": { "x": -1.4152634143829346, "y": 1.9385943412780762, "z": 0.6074079871177673 }, "axis_scores": { "Quantum imaging": 0.7138538956642151, "Quantum Life Science Sensing": 0.740260124206543, "Quantum sensing Detection": 0.7091082334518433, "Quantum sensing Metrology": 0.6991877555847168, "Quantum sensing navigation": 0.7004647850990295, "Quantum sensing Position": 0.7077003121376038, "Quantum sensing Timing": 0.7191219329833984, "Quantum sensing": 0.7133075594902039, "Quantum control": 0.6970131993293762 } }, { "id": 6644, "title": "Hydride vapour phase epitaxy assisted buried heterostructure quantum cascade lasers for sensing applications", "abstract": "Buried heterostructure (BH) lasers are routinely fabricated for telecom applications. Development of quantum cascade lasers (QCL) for sensing applications has largely benefited from the technological ...", "citations": 3, "author_count": 12, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6651, "doi": "10.1117/12.2078763", "umap_coordinates": { "x": 394.74078369140625, "y": 133.3162078857422, "z": 206.40785217285156 }, "tsne_coordinates": { "x": 0.796234667301178, "y": 6.07918643951416, "z": -28.38739776611328 }, "pca_coordinates": { "x": -0.6518083214759827, "y": -1.2801189422607422, "z": 1.6519904136657715 }, "axis_scores": { "Quantum imaging": 0.7162960767745972, "Quantum Life Science Sensing": 0.7295069694519043, "Quantum sensing Detection": 0.7252134680747986, "Quantum sensing Metrology": 0.7284506559371948, "Quantum sensing navigation": 0.719176173210144, "Quantum sensing Position": 0.7059599161148071, "Quantum sensing Timing": 0.6837934851646423, "Quantum sensing": 0.7349730134010315, "Quantum control": 0.6861492991447449 } }, { "id": 6645, "title": "Cubic response functions in the multiconfiguration self-consistent field approximation", "abstract": "Cubic response functions and various related residues are derived for multiconfigurational self-consistent field reference states. Compact computable expressions are given which render the possibility...", "citations": 104, "author_count": 4, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6652, "doi": "10.1063/1.472493", "umap_coordinates": { "x": 393.4597473144531, "y": 136.83197021484375, "z": 207.73255920410156 }, "tsne_coordinates": { "x": 14.442121505737305, "y": -12.432779312133789, "z": 36.39672088623047 }, "pca_coordinates": { "x": 1.1314232349395752, "y": 0.12549257278442383, "z": -1.5580511093139648 }, "axis_scores": { "Quantum imaging": 0.7020778059959412, "Quantum Life Science Sensing": 0.7183793783187866, "Quantum sensing Detection": 0.6983107924461365, "Quantum sensing Metrology": 0.7101371884346008, "Quantum sensing navigation": 0.6960209608078003, "Quantum sensing Position": 0.6669521927833557, "Quantum sensing Timing": 0.6753987073898315, "Quantum sensing": 0.7144807577133179, "Quantum control": 0.6964502334594727 } }, { "id": 6646, "title": "Mechanism of proton release during water oxidation in Photosystem II", "abstract": "Photosystem II (PSII) catalyzes light- driven water oxidation that releases dioxygen into our atmosphere and provides the electrons needed for the synthesis of biomass. The catalysis occurs in the oxy...", "citations": 11, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6653, "doi": "10.1073/pnas.2413396121", "umap_coordinates": { "x": 393.3431091308594, "y": 136.86618041992188, "z": 204.84780883789062 }, "tsne_coordinates": { "x": 5.109904766082764, "y": 15.805517196655273, "z": 18.060625076293945 }, "pca_coordinates": { "x": -0.04546082019805908, "y": 0.5836124420166016, "z": -2.7238192558288574 }, "axis_scores": { "Quantum imaging": 0.6678289771080017, "Quantum Life Science Sensing": 0.7281343340873718, "Quantum sensing Detection": 0.6774325370788574, "Quantum sensing Metrology": 0.6658810377120972, "Quantum sensing navigation": 0.6649643182754517, "Quantum sensing Position": 0.6488320231437683, "Quantum sensing Timing": 0.662848711013794, "Quantum sensing": 0.6908230781555176, "Quantum control": 0.6587857007980347 } }, { "id": 6647, "title": "Description and performance of an electron-ion coincidence TOF spectrometer used at the Brazilian synchrotron facility LNLS", "abstract": "This paper reports the characteristics and performance of a Time-of-Flight Mass Spectrometer (TOF-MS) for coincidence measurements between electrons and ions that has been developed jointly in Sweden ...", "citations": 49, "author_count": 12, "categories": [ "Spectroscopy" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6654, "doi": "10.1016/j.elspec.2010.02.007", "umap_coordinates": { "x": 394.7154846191406, "y": 133.32423400878906, "z": 205.6288299560547 }, "tsne_coordinates": { "x": -18.14498519897461, "y": 11.948587417602539, "z": -15.09607982635498 }, "pca_coordinates": { "x": -3.774667739868164, "y": 1.436586856842041, "z": 1.8005924224853516 }, "axis_scores": { "Quantum imaging": 0.7028368711471558, "Quantum Life Science Sensing": 0.7120494842529297, "Quantum sensing Detection": 0.7064324021339417, "Quantum sensing Metrology": 0.7034503221511841, "Quantum sensing navigation": 0.6845678687095642, "Quantum sensing Position": 0.7015789151191711, "Quantum sensing Timing": 0.7020922899246216, "Quantum sensing": 0.7110819220542908, "Quantum control": 0.6581839323043823 } }, { "id": 6648, "title": "Nitrogenation studies of Nd2Fe17 alloys", "abstract": "In the present investigation, the kinetics of nitrogenation of Nd2Fe17 alloys were studied in order to optimize the magnetic properties of the pure Nd2Fe17 alloy by the introduction of nitrogen inters...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6655, "doi": "10.1016/S0921-4526(02)01760-X", "umap_coordinates": { "x": 392.9707946777344, "y": 135.38082885742188, "z": 205.77723693847656 }, "tsne_coordinates": { "x": 36.74001693725586, "y": 6.352950096130371, "z": 4.291862964630127 }, "pca_coordinates": { "x": -2.7525105476379395, "y": 0.19645905494689941, "z": -1.894751787185669 }, "axis_scores": { "Quantum imaging": 0.6670731902122498, "Quantum Life Science Sensing": 0.687775194644928, "Quantum sensing Detection": 0.6699313521385193, "Quantum sensing Metrology": 0.6544226408004761, "Quantum sensing navigation": 0.67751145362854, "Quantum sensing Position": 0.6596183180809021, "Quantum sensing Timing": 0.6413578987121582, "Quantum sensing": 0.6739109754562378, "Quantum control": 0.6617949604988098 } }, { "id": 6649, "title": "Detection of very-high-energy γ-ray emission from the colliding wind binary η Car with HESS", "abstract": "Aims. Colliding wind binary systems have long been suspected to be high-energy (HE; 100 MeV < E < 100 GeV) gamma-ray emitters. eta Car is the most prominent member of this object class and is confirme...", "citations": 18, "author_count": 235, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6656, "doi": "10.1051/0004-6361/201936761", "umap_coordinates": { "x": 396.5385437011719, "y": 134.58563232421875, "z": 207.01756286621094 }, "tsne_coordinates": { "x": -28.736928939819336, "y": 19.036380767822266, "z": -1.21245539188385 }, "pca_coordinates": { "x": 0.9046697616577148, "y": 2.903181791305542, "z": 2.528294563293457 }, "axis_scores": { "Quantum imaging": 0.6915223598480225, "Quantum Life Science Sensing": 0.6942089200019836, "Quantum sensing Detection": 0.6942027807235718, "Quantum sensing Metrology": 0.6643301248550415, "Quantum sensing navigation": 0.7028819918632507, "Quantum sensing Position": 0.6636934280395508, "Quantum sensing Timing": 0.6718539595603943, "Quantum sensing": 0.6915163397789001, "Quantum control": 0.6641879081726074 } }, { "id": 6650, "title": "High-Dimensional Feature Based Non-Coherent Detection for Multi-Intensity Modulated Ultraviolet Communications", "abstract": "Ultraviolet communication (UVC) has been regarded as a promising supplement for overloaded conventional wireless communications. One challenge lies in the communication deterioration caused by the UV-...", "citations": 10, "author_count": 7, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6657, "doi": "10.1109/JLT.2021.3130101", "umap_coordinates": { "x": 394.89996337890625, "y": 133.72914123535156, "z": 206.4212188720703 }, "tsne_coordinates": { "x": 3.6030683517456055, "y": -0.194951131939888, "z": -39.686336517333984 }, "pca_coordinates": { "x": -0.9205231070518494, "y": 0.3639836311340332, "z": 3.031147003173828 }, "axis_scores": { "Quantum imaging": 0.7182013392448425, "Quantum Life Science Sensing": 0.7268614768981934, "Quantum sensing Detection": 0.7228682637214661, "Quantum sensing Metrology": 0.7134801149368286, "Quantum sensing navigation": 0.6980414986610413, "Quantum sensing Position": 0.6860413551330566, "Quantum sensing Timing": 0.6687498688697815, "Quantum sensing": 0.7084921598434448, "Quantum control": 0.6866783499717712 } }, { "id": 6651, "title": "Evaluation of reconstruction techniques in regional cerebral blood flow SPECT using trade-off plots:: A monte carlo study", "abstract": "Background and aim The image quality of single photon emission computed tomography (SPECT) depends on the reconstruction algorithm used. The purpose of the present study was to evaluate parameters in ...", "citations": 6, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6658, "doi": "10.1097/MNM.0b013e328274204d", "umap_coordinates": { "x": 395.66827392578125, "y": 133.43569946289062, "z": 204.53363037109375 }, "tsne_coordinates": { "x": -4.157241344451904, "y": 29.973987579345703, "z": -4.0523600578308105 }, "pca_coordinates": { "x": -2.5593597888946533, "y": 5.086670875549316, "z": 0.761812150478363 }, "axis_scores": { "Quantum imaging": 0.6954982280731201, "Quantum Life Science Sensing": 0.6488125920295715, "Quantum sensing Detection": 0.6479337811470032, "Quantum sensing Metrology": 0.6519713401794434, "Quantum sensing navigation": 0.6981350183486938, "Quantum sensing Position": 0.6490492224693298, "Quantum sensing Timing": 0.6509091854095459, "Quantum sensing": 0.6544592380523682, "Quantum control": 0.6410534381866455 } }, { "id": 6652, "title": "Hybrid SPECT-CT:: An additional technique for sentinel node detection of patients with invasive bladder cancer", "abstract": "Objectives: To explore the feasibility of performing lymphoscintigraphy combined with computed tomography (CT) for preoperative detection of sentinel lymph nodes in patients with invasive bladder canc...", "citations": 79, "author_count": 5, "categories": [ "Urology & Nephrology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6659, "doi": "10.1016/j.eururo.2006.03.002", "umap_coordinates": { "x": 395.1314697265625, "y": 133.11431884765625, "z": 204.58631896972656 }, "tsne_coordinates": { "x": -5.254638195037842, "y": 28.138843536376953, "z": -12.36177921295166 }, "pca_coordinates": { "x": -3.5227785110473633, "y": 2.9765524864196777, "z": 3.261967897415161 }, "axis_scores": { "Quantum imaging": 0.6893761157989502, "Quantum Life Science Sensing": 0.6490236520767212, "Quantum sensing Detection": 0.6649631261825562, "Quantum sensing Metrology": 0.657319962978363, "Quantum sensing navigation": 0.669826865196228, "Quantum sensing Position": 0.6565735340118408, "Quantum sensing Timing": 0.6535146832466125, "Quantum sensing": 0.6689121723175049, "Quantum control": 0.6275678277015686 } }, { "id": 6653, "title": "Ultraluminous X-ray sources as neutrino pulsars", "abstract": "The classical limit on the accretion luminosity of a neutron star is given by the Eddington luminosity. The advanced models of accretion on to magnetized neutron stars account for the appearance of ma...", "citations": 19, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6660, "doi": "10.1093/mnras/sty379", "umap_coordinates": { "x": 396.3688659667969, "y": 135.3135986328125, "z": 205.81924438476562 }, "tsne_coordinates": { "x": -30.55010223388672, "y": 26.63809585571289, "z": 5.233887195587158 }, "pca_coordinates": { "x": -0.6527032256126404, "y": 1.2960375547409058, "z": 1.037398099899292 }, "axis_scores": { "Quantum imaging": 0.671887993812561, "Quantum Life Science Sensing": 0.705592155456543, "Quantum sensing Detection": 0.6911659836769104, "Quantum sensing Metrology": 0.676455020904541, "Quantum sensing navigation": 0.7042105197906494, "Quantum sensing Position": 0.6882807612419128, "Quantum sensing Timing": 0.698859453201294, "Quantum sensing": 0.690048336982727, "Quantum control": 0.6400028467178345 } }, { "id": 6654, "title": "A computerized human reference brain for rCBF/SPET technetium-99m exametazime (HMPAO) investigation of elderly", "abstract": "Using the bull's eye approach, a reference brain from the single photon emission tomography (SPET) images of 10 subjects aged 62-81 years with excellent mental and physical health was constructed. SPE...", "citations": 3, "author_count": 6, "categories": [ "Physiology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6661, "doi": null, "umap_coordinates": { "x": 391.6205749511719, "y": 139.4591827392578, "z": 209.84109497070312 }, "tsne_coordinates": { "x": -0.32108694314956665, "y": 41.471317291259766, "z": -2.7879412174224854 }, "pca_coordinates": { "x": -2.663071632385254, "y": 4.979421615600586, "z": -2.1763200759887695 }, "axis_scores": { "Quantum imaging": 0.7021244764328003, "Quantum Life Science Sensing": 0.718776285648346, "Quantum sensing Detection": 0.689714789390564, "Quantum sensing Metrology": 0.6819757223129272, "Quantum sensing navigation": 0.7026433944702148, "Quantum sensing Position": 0.6827510595321655, "Quantum sensing Timing": 0.67862868309021, "Quantum sensing": 0.702165961265564, "Quantum control": 0.71550452709198 } }, { "id": 6655, "title": "Does a Childhood Fracture Predict Low Bone Mass In Young Adulthood?-A 27-Year Prospective Controlled Study", "abstract": "A fracture in childhood is associated with low bone mineral density (BMD), but it is debated whether a fracture at growth also predicts low BMD in young adulthood. The purpose of this work was to gend...", "citations": 26, "author_count": 7, "categories": [ "Endocrinology & Metabolism" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6662, "doi": "10.1002/jbmr.1743", "umap_coordinates": { "x": 395.45269775390625, "y": 134.52847290039062, "z": 204.53256225585938 }, "tsne_coordinates": { "x": -0.02057558484375477, "y": 36.00792694091797, "z": 9.36985969543457 }, "pca_coordinates": { "x": -1.1189446449279785, "y": 4.8064961433410645, "z": -0.542148232460022 }, "axis_scores": { "Quantum imaging": 0.6816399097442627, "Quantum Life Science Sensing": 0.7184134125709534, "Quantum sensing Detection": 0.6949688792228699, "Quantum sensing Metrology": 0.6787095069885254, "Quantum sensing navigation": 0.6944872140884399, "Quantum sensing Position": 0.6971016526222229, "Quantum sensing Timing": 0.6801660656929016, "Quantum sensing": 0.6956117749214172, "Quantum control": 0.6790943741798401 } }, { "id": 6656, "title": "X-ray resonant scattering involving dissociative states", "abstract": "Time-independent and time-dependent theory of radiative and nonradiative resonant x-ray scattering (RXS) involving dissociative molecular states is presented. A strong space correlation between excita...", "citations": 103, "author_count": 3, "categories": [ "Optics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6663, "doi": "10.1103/PhysRevA.54.379", "umap_coordinates": { "x": 395.3980407714844, "y": 135.4710693359375, "z": 208.3346710205078 }, "tsne_coordinates": { "x": 6.834295272827148, "y": -43.509010314941406, "z": 3.722142219543457 }, "pca_coordinates": { "x": 3.6040854454040527, "y": 0.7683669328689575, "z": -0.33756089210510254 }, "axis_scores": { "Quantum imaging": 0.6804729700088501, "Quantum Life Science Sensing": 0.6939951777458191, "Quantum sensing Detection": 0.6893231868743896, "Quantum sensing Metrology": 0.6476337313652039, "Quantum sensing navigation": 0.6681191325187683, "Quantum sensing Position": 0.6492880582809448, "Quantum sensing Timing": 0.6434032320976257, "Quantum sensing": 0.6949188113212585, "Quantum control": 0.6514536142349243 } }, { "id": 6657, "title": "Highly efficient path-integral molecular dynamics simulations with GPUMD using neuroevolution potentials: Case studies on thermal properties of materials", "abstract": "Path-integral molecular dynamics (PIMD) simulations are crucial for accurately capturing nuclear quantum effects in materials. However, their computational intensity often makes it challenging to addr...", "citations": 12, "author_count": 14, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6664, "doi": "10.1063/5.0241006", "umap_coordinates": { "x": 394.1106262207031, "y": 137.4799346923828, "z": 206.25877380371094 }, "tsne_coordinates": { "x": -14.360910415649414, "y": 3.428941011428833, "z": 21.97123146057129 }, "pca_coordinates": { "x": -0.2817929983139038, "y": 0.33742761611938477, "z": 0.6950667500495911 }, "axis_scores": { "Quantum imaging": 0.7131878137588501, "Quantum Life Science Sensing": 0.6918256282806396, "Quantum sensing Detection": 0.6565748453140259, "Quantum sensing Metrology": 0.6596668362617493, "Quantum sensing navigation": 0.7016560435295105, "Quantum sensing Position": 0.6589364409446716, "Quantum sensing Timing": 0.6686349511146545, "Quantum sensing": 0.6795988082885742, "Quantum control": 0.6572995185852051 } }, { "id": 6658, "title": "GLP-1 and estrogen conjugate acts in the supramammillary nucleus to reduce food-reward and body weight", "abstract": "The obesity epidemic continues unabated and currently available pharmacological treatments are not sufficiently effective. Combining gut/brain peptide, GLP-1, with estrogen into a conjugate may repres...", "citations": 81, "author_count": 14, "categories": [ "Neurosciences & Neurology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6665, "doi": "10.1016/j.neuropharm.2016.07.039", "umap_coordinates": { "x": 394.8967590332031, "y": 134.84259033203125, "z": 204.14840698242188 }, "tsne_coordinates": { "x": -4.097228050231934, "y": 28.844816207885742, "z": 11.988503456115723 }, "pca_coordinates": { "x": -2.232252597808838, "y": 2.7805776596069336, "z": 0.11248940229415894 }, "axis_scores": { "Quantum imaging": 0.6940473318099976, "Quantum Life Science Sensing": 0.6974861025810242, "Quantum sensing Detection": 0.7014952301979065, "Quantum sensing Metrology": 0.6892930865287781, "Quantum sensing navigation": 0.7129417657852173, "Quantum sensing Position": 0.6997498273849487, "Quantum sensing Timing": 0.6824084520339966, "Quantum sensing": 0.707351565361023, "Quantum control": 0.6917521357536316 } }, { "id": 6659, "title": "Preservation of rat skeletal muscle energy metabolism by illumination", "abstract": "Skeletal muscle viability is crucially dependent on the tissue levels of its high energy phosphates. In this study we investigated the effect of the preservation medium Perfadex and illumination with ...", "citations": 10, "author_count": 6, "categories": [ "Research & Experimental Medicine" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6666, "doi": "10.1016/S0024-3205(03)00176-0", "umap_coordinates": { "x": 394.5033264160156, "y": 135.55445861816406, "z": 204.1024932861328 }, "tsne_coordinates": { "x": 11.913627624511719, "y": 30.229900360107422, "z": 6.13685941696167 }, "pca_coordinates": { "x": -4.520994186401367, "y": 2.407223701477051, "z": -0.20228543877601624 }, "axis_scores": { "Quantum imaging": 0.6556718349456787, "Quantum Life Science Sensing": 0.6762291193008423, "Quantum sensing Detection": 0.625011682510376, "Quantum sensing Metrology": 0.6296384334564209, "Quantum sensing navigation": 0.6313502192497253, "Quantum sensing Position": 0.6419497728347778, "Quantum sensing Timing": 0.615830659866333, "Quantum sensing": 0.6354460120201111, "Quantum control": 0.6311326026916504 } }, { "id": 6660, "title": "Exclusive dimuon production in ultraperipheral Pb plus Pb collisions at √SNN=5.02 TeV with ATLAS", "abstract": "Exclusive dimuon production in ultraperipheral collisions (UPC), resulting from photon-photon interactions in the strong electromagnetic fields of colliding high-energy lead nuclei, PbPb(gamma gamma) ...", "citations": 49, "author_count": 2691, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6667, "doi": "10.1103/PhysRevC.104.024906", "umap_coordinates": { "x": 396.843017578125, "y": 134.37564086914062, "z": 207.89511108398438 }, "tsne_coordinates": { "x": -34.26962661743164, "y": 4.618156909942627, "z": -13.369833946228027 }, "pca_coordinates": { "x": 1.9707958698272705, "y": -0.1246652603149414, "z": 2.227734088897705 }, "axis_scores": { "Quantum imaging": 0.6784814596176147, "Quantum Life Science Sensing": 0.6738899946212769, "Quantum sensing Detection": 0.6928507089614868, "Quantum sensing Metrology": 0.6688744425773621, "Quantum sensing navigation": 0.6809852123260498, "Quantum sensing Position": 0.6690009236335754, "Quantum sensing Timing": 0.6756764650344849, "Quantum sensing": 0.6846792697906494, "Quantum control": 0.6624012589454651 } }, { "id": 6661, "title": "Near-UV-to-Near-IR Hyperbolic Photonic Dispersion in Epitaxial (Hf,Zr)N/ScN Metal/Dielectric Superlattices", "abstract": "Hyperbolic metamaterials (HMMs) with extreme dielectric anisotropy have shown great promise in nanophotonic applications such as superlensing, enhancement of spontaneous emission, negative refraction,...", "citations": 16, "author_count": 6, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6668, "doi": "10.1021/acsaem.1c03467", "umap_coordinates": { "x": 392.4852294921875, "y": 134.25086975097656, "z": 206.37318420410156 }, "tsne_coordinates": { "x": 9.79470443725586, "y": -11.627439498901367, "z": -14.698898315429688 }, "pca_coordinates": { "x": -0.6990951299667358, "y": -3.071840763092041, "z": -0.5091598033905029 }, "axis_scores": { "Quantum imaging": 0.6944109201431274, "Quantum Life Science Sensing": 0.7046394944190979, "Quantum sensing Detection": 0.687521755695343, "Quantum sensing Metrology": 0.6949362754821777, "Quantum sensing navigation": 0.6946112513542175, "Quantum sensing Position": 0.684391975402832, "Quantum sensing Timing": 0.6755030155181885, "Quantum sensing": 0.6975979208946228, "Quantum control": 0.6451598405838013 } }, { "id": 6662, "title": "Modeling silicon diode dose response factors for small photon fields", "abstract": "The dosimetry of small fields is important for the use of high resolution photon radiotherapy. Silicon diodes yield a high signal from a small detecting volume which makes them suitable for use in sma...", "citations": 35, "author_count": 3, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6669, "doi": "10.1088/0031-9155/55/24/002", "umap_coordinates": { "x": 395.9324645996094, "y": 133.71524047851562, "z": 205.33595275878906 }, "tsne_coordinates": { "x": -16.85971450805664, "y": 31.37807846069336, "z": -14.721423149108887 }, "pca_coordinates": { "x": -2.1181390285491943, "y": 1.9384655952453613, "z": 3.385493755340576 }, "axis_scores": { "Quantum imaging": 0.695502758026123, "Quantum Life Science Sensing": 0.7189083099365234, "Quantum sensing Detection": 0.6800775527954102, "Quantum sensing Metrology": 0.6844557523727417, "Quantum sensing navigation": 0.6763640642166138, "Quantum sensing Position": 0.6610553860664368, "Quantum sensing Timing": 0.6654437184333801, "Quantum sensing": 0.6921554207801819, "Quantum control": 0.64090895652771 } }, { "id": 6663, "title": "Deep learning approach for identification of H II regions during reionization in 21-cm observations - II. Foreground contamination", "abstract": "The upcoming Square Kilometre Array Observatory will produce images of neutral hydrogen distribution during the epoch of reionization by observing the corresponding 21-cm signal. However, the 21-cm si...", "citations": 18, "author_count": 9, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6670, "doi": "10.1093/mnras/stae257", "umap_coordinates": { "x": 395.88812255859375, "y": 135.78565979003906, "z": 205.51895141601562 }, "tsne_coordinates": { "x": -32.948673248291016, "y": 24.427474975585938, "z": 6.3947343826293945 }, "pca_coordinates": { "x": -2.294936180114746, "y": 3.040370225906372, "z": -1.0433683395385742 }, "axis_scores": { "Quantum imaging": 0.6658707857131958, "Quantum Life Science Sensing": 0.6853613257408142, "Quantum sensing Detection": 0.6695963144302368, "Quantum sensing Metrology": 0.6476530432701111, "Quantum sensing navigation": 0.6760982275009155, "Quantum sensing Position": 0.6561638116836548, "Quantum sensing Timing": 0.6704715490341187, "Quantum sensing": 0.6653398275375366, "Quantum control": 0.6293824315071106 } }, { "id": 6664, "title": "On the thermal electron balance in Titan's sunlit upper atmosphere", "abstract": "The Cassini mission has investigated Titan's upper atmosphere in detail and found that, under solar irradiation, it has a well-developed ionosphere, which peaks between 1000 and 1200 km. In this paper...", "citations": 36, "author_count": 12, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6671, "doi": "10.1016/j.icarus.2012.12.010", "umap_coordinates": { "x": 393.8086853027344, "y": 134.65463256835938, "z": 205.13999938964844 }, "tsne_coordinates": { "x": -21.48676300048828, "y": 29.453224182128906, "z": 2.0380897521972656 }, "pca_coordinates": { "x": -1.615617275238037, "y": 0.8546379804611206, "z": -2.4354615211486816 }, "axis_scores": { "Quantum imaging": 0.6787267923355103, "Quantum Life Science Sensing": 0.7118039727210999, "Quantum sensing Detection": 0.6701997518539429, "Quantum sensing Metrology": 0.6755914092063904, "Quantum sensing navigation": 0.6839946508407593, "Quantum sensing Position": 0.6698611974716187, "Quantum sensing Timing": 0.6636901497840881, "Quantum sensing": 0.6891210675239563, "Quantum control": 0.6785643696784973 } }, { "id": 6665, "title": "Regional lung perfusion estimated by electrical impedance tomography in a piglet model of lung collapse", "abstract": "Borges JB, Suarez-Sipmann F, Bohm SH, Tusman G, Melo A, Maripuu E, Sandstrom M, Park M, Costa EL, Hedenstierna G, Amato M. Regional lung perfusion estimated by electrical impedance tomography in a pig...", "citations": 168, "author_count": 12, "categories": [ "Physiology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6672, "doi": "10.1152/japplphysiol.01090.2010", "umap_coordinates": { "x": 395.2150573730469, "y": 134.15048217773438, "z": 204.84329223632812 }, "tsne_coordinates": { "x": 3.4774646759033203, "y": 32.081878662109375, "z": -1.4405736923217773 }, "pca_coordinates": { "x": -1.3091254234313965, "y": 3.5158886909484863, "z": 0.9451000094413757 }, "axis_scores": { "Quantum imaging": 0.6551172137260437, "Quantum Life Science Sensing": 0.6818791031837463, "Quantum sensing Detection": 0.6496183276176453, "Quantum sensing Metrology": 0.6480088233947754, "Quantum sensing navigation": 0.6316923499107361, "Quantum sensing Position": 0.6540725231170654, "Quantum sensing Timing": 0.6306161880493164, "Quantum sensing": 0.6599999666213989, "Quantum control": 0.632286787033081 } }, { "id": 6666, "title": "A STUDY OF THE SENSITIVITY AND DECOMPOSITION OF 1,3,5-TRINITRO-2-OXO-1,3,5-TRIAZACYCLO-HEXANE", "abstract": "The thermal decomposition and thermal stability of 1,3,5-trinitro- 2-oxo-1,3,5-triazacyclohexane (keto-RDX or K-6) was studied. The keto-RDX synthesis is described, mass spectra (electron impact (70 e...", "citations": 13, "author_count": 5, "categories": [ "Thermodynamics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6673, "doi": "10.1016/0040-6031(95)02308-O", "umap_coordinates": { "x": 393.4329528808594, "y": 136.14303588867188, "z": 204.6444091796875 }, "tsne_coordinates": { "x": 13.29848575592041, "y": 20.0150089263916, "z": 12.05100154876709 }, "pca_coordinates": { "x": -3.2840442657470703, "y": 1.6183570623397827, "z": -1.0717310905456543 }, "axis_scores": { "Quantum imaging": 0.6591416597366333, "Quantum Life Science Sensing": 0.7043211460113525, "Quantum sensing Detection": 0.6812317371368408, "Quantum sensing Metrology": 0.6526135206222534, "Quantum sensing navigation": 0.6571633815765381, "Quantum sensing Position": 0.6380612850189209, "Quantum sensing Timing": 0.6295485496520996, "Quantum sensing": 0.6813883781433105, "Quantum control": 0.649797260761261 } }, { "id": 6667, "title": "Development and evaluation of an improved quantitative 90Y bremsstrahlung SPECT method", "abstract": "Purpose: Yttrium-90 (Y-90) is one of the most commonly used radionuclides in targeted radionuclide therapy (TRT). Since it decays with essentially no gamma photon emissions, surrogate radionuclides (e...", "citations": 117, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6674, "doi": "10.1118/1.3700174", "umap_coordinates": { "x": 395.7342224121094, "y": 133.06492614746094, "z": 205.19737243652344 }, "tsne_coordinates": { "x": -9.495437622070312, "y": 29.42856216430664, "z": -11.071693420410156 }, "pca_coordinates": { "x": -3.5297844409942627, "y": 3.4110169410705566, "z": 3.237654685974121 }, "axis_scores": { "Quantum imaging": 0.7126144766807556, "Quantum Life Science Sensing": 0.6599361300468445, "Quantum sensing Detection": 0.6742296814918518, "Quantum sensing Metrology": 0.6830098032951355, "Quantum sensing navigation": 0.6837836503982544, "Quantum sensing Position": 0.666712760925293, "Quantum sensing Timing": 0.6712551712989807, "Quantum sensing": 0.6823153495788574, "Quantum control": 0.6448245644569397 } }, { "id": 6668, "title": "Molecular understanding of sulphuric acid-amine particle nucleation in the atmosphere", "abstract": "Nucleation of aerosol particles from trace atmospheric vapours is thought to provide up to half of global cloud condensation nuclei(1). Aerosols can cause a net cooling of climate by scattering sunlig...", "citations": 856, "author_count": 80, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6675, "doi": "10.1038/nature12663", "umap_coordinates": { "x": 393.1009216308594, "y": 136.29995727539062, "z": 205.4063262939453 }, "tsne_coordinates": { "x": 6.838919639587402, "y": 5.022956848144531, "z": 4.3369550704956055 }, "pca_coordinates": { "x": -1.4292938709259033, "y": 0.11833024024963379, "z": -1.8218870162963867 }, "axis_scores": { "Quantum imaging": 0.7065272927284241, "Quantum Life Science Sensing": 0.7435014247894287, "Quantum sensing Detection": 0.701156735420227, "Quantum sensing Metrology": 0.6873453855514526, "Quantum sensing navigation": 0.718277633190155, "Quantum sensing Position": 0.686278760433197, "Quantum sensing Timing": 0.6730974912643433, "Quantum sensing": 0.7179030776023865, "Quantum control": 0.6960375905036926 } }, { "id": 6669, "title": "Quantum Speedup and Mathematical Solutions of Implementing Bio-Molecular Solutions for the Independent Set Problem on IBM Quantum Computers", "abstract": "In this paper, we propose a bio-molecular algorithm with O(n(2) + m) biological operations, O(2(n)) DNA strands, O(n) tubes and the longest DNA strand, O(n), for solving the independent-set problem fo...", "citations": 24, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6676, "doi": "10.1109/TNB.2021.3075733", "umap_coordinates": { "x": 395.2097473144531, "y": 135.57272338867188, "z": 205.88137817382812 }, "tsne_coordinates": { "x": -34.89609146118164, "y": 0.9072163701057434, "z": -0.2318953275680542 }, "pca_coordinates": { "x": 0.8276889324188232, "y": 1.096608281135559, "z": 0.9649459719657898 }, "axis_scores": { "Quantum imaging": 0.7475844025611877, "Quantum Life Science Sensing": 0.7286468148231506, "Quantum sensing Detection": 0.7236357927322388, "Quantum sensing Metrology": 0.7238328456878662, "Quantum sensing navigation": 0.7368042469024658, "Quantum sensing Position": 0.7041558027267456, "Quantum sensing Timing": 0.7392492294311523, "Quantum sensing": 0.736790657043457, "Quantum control": 0.7111567854881287 } }, { "id": 6670, "title": "Fast GPU-based Monte Carlo code for SPECT/CT reconstructions generates improved 177Lu images", "abstract": "Background: Full Monte Carlo (MC)-based SPECT reconstructions have a strong potential for correcting for image degrading factors, but the reconstruction times are long. The objective of this study was...", "citations": 33, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6677, "doi": "10.1186/s40658-017-0201-8", "umap_coordinates": { "x": 395.7735595703125, "y": 133.15843200683594, "z": 204.783935546875 }, "tsne_coordinates": { "x": -8.184516906738281, "y": 28.790647506713867, "z": -10.693350791931152 }, "pca_coordinates": { "x": -2.696218967437744, "y": 3.0109901428222656, "z": 2.599419593811035 }, "axis_scores": { "Quantum imaging": 0.6998577117919922, "Quantum Life Science Sensing": 0.6504930257797241, "Quantum sensing Detection": 0.6366297006607056, "Quantum sensing Metrology": 0.6323196291923523, "Quantum sensing navigation": 0.673046886920929, "Quantum sensing Position": 0.6355980038642883, "Quantum sensing Timing": 0.6681639552116394, "Quantum sensing": 0.6477356553077698, "Quantum control": 0.6405951380729675 } }, { "id": 6671, "title": "Bone loss in relation to menopause: A prospective study during 16 years", "abstract": "This prospective study evaluated bone loss in the peri- and postmenopausal period in 156 women followed from age 48 to 64 years. All women were premenopausal at the start of the study. Areal hone mine...", "citations": 128, "author_count": 7, "categories": [ "Endocrinology & Metabolism" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6678, "doi": "10.1016/S8756-3282(00)00451-8", "umap_coordinates": { "x": 395.16839599609375, "y": 134.87657165527344, "z": 204.21116638183594 }, "tsne_coordinates": { "x": -3.4389960765838623, "y": 33.666526794433594, "z": 9.770572662353516 }, "pca_coordinates": { "x": -3.113431453704834, "y": 3.6687021255493164, "z": -0.4696671664714813 }, "axis_scores": { "Quantum imaging": 0.6214491724967957, "Quantum Life Science Sensing": 0.6793531179428101, "Quantum sensing Detection": 0.6306736469268799, "Quantum sensing Metrology": 0.641943633556366, "Quantum sensing navigation": 0.6499184966087341, "Quantum sensing Position": 0.6487725973129272, "Quantum sensing Timing": 0.6309515833854675, "Quantum sensing": 0.6399272680282593, "Quantum control": 0.6190087795257568 } }, { "id": 6672, "title": "Two-photon fluorescence lifetime imaging applied to the mixing of two non-isothermal sprays: temperature and mixing fraction measurements", "abstract": "Droplets temperature is a key parameter for the study of heat and mass transfers in many spray applications. Time correlated single photons counting (TCSPC) is applied to monitor the fluorescence deca...", "citations": 9, "author_count": 8, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6679, "doi": "10.1007/s00348-022-03515-5", "umap_coordinates": { "x": 394.58831787109375, "y": 134.29373168945312, "z": 205.1961212158203 }, "tsne_coordinates": { "x": 8.548527717590332, "y": 11.22964096069336, "z": -33.520263671875 }, "pca_coordinates": { "x": -3.910975694656372, "y": 1.507781982421875, "z": 0.836798369884491 }, "axis_scores": { "Quantum imaging": 0.7058566212654114, "Quantum Life Science Sensing": 0.7065416574478149, "Quantum sensing Detection": 0.6736276149749756, "Quantum sensing Metrology": 0.6923953294754028, "Quantum sensing navigation": 0.6691784858703613, "Quantum sensing Position": 0.6536677479743958, "Quantum sensing Timing": 0.6689528822898865, "Quantum sensing": 0.6845094561576843, "Quantum control": 0.6519626379013062 } }, { "id": 6673, "title": "Dose to tissue medium or water cavities as surrogate for the dose to cell nuclei at brachytherapy photon energies", "abstract": "It has been suggested that modern dose calculation algorithms should be able to report absorbed dose both as dose to the local medium, D-m,D-m, and as dose to a water cavity embedded in the medium, D-...", "citations": 26, "author_count": 5, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6680, "doi": "10.1088/0031-9155/57/14/4489", "umap_coordinates": { "x": 396.0472106933594, "y": 133.5872344970703, "z": 205.08541870117188 }, "tsne_coordinates": { "x": -15.902310371398926, "y": 29.814138412475586, "z": -17.913677215576172 }, "pca_coordinates": { "x": -1.381614089012146, "y": 2.862971782684326, "z": 2.325990915298462 }, "axis_scores": { "Quantum imaging": 0.7054932117462158, "Quantum Life Science Sensing": 0.7166051864624023, "Quantum sensing Detection": 0.6865003108978271, "Quantum sensing Metrology": 0.6782099008560181, "Quantum sensing navigation": 0.690888524055481, "Quantum sensing Position": 0.6869107484817505, "Quantum sensing Timing": 0.690322756767273, "Quantum sensing": 0.6978548765182495, "Quantum control": 0.6595785617828369 } }, { "id": 6674, "title": "Functionalization of Radiolabeled Antibodies to Enhance Peripheral Clearance for High Contrast Brain Imaging", "abstract": "Small molecule imaging agents such as [C-11]PiB, which bind to the core of insoluble amyloid-beta (A beta) fibrils, are useful tools in Alzheimer's disease (AD) research, diagnostics, and drug develop...", "citations": 12, "author_count": 9, "categories": [ "Research & Experimental Medicine" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6681, "doi": "10.1021/acs.molpharmaceut.2c00536", "umap_coordinates": { "x": 394.3875732421875, "y": 134.37327575683594, "z": 204.16737365722656 }, "tsne_coordinates": { "x": 2.7986812591552734, "y": 26.044822692871094, "z": -5.035689830780029 }, "pca_coordinates": { "x": -4.031284332275391, "y": 1.3531261682510376, "z": -0.9715259671211243 }, "axis_scores": { "Quantum imaging": 0.7160506844520569, "Quantum Life Science Sensing": 0.6742061972618103, "Quantum sensing Detection": 0.6681921482086182, "Quantum sensing Metrology": 0.6686861515045166, "Quantum sensing navigation": 0.6858784556388855, "Quantum sensing Position": 0.6596241593360901, "Quantum sensing Timing": 0.654202401638031, "Quantum sensing": 0.6725932359695435, "Quantum control": 0.67179936170578 } }, { "id": 6675, "title": "Feasibility and diagnostic power of transthoracic coronary Doppler for coronary flow velocity reserve in patients referred for myocardial perfusion imaging", "abstract": "Background: Myocardial perfusion imaging (MPI), using single photon emission computed tomography (SPECT) is a validated method for detecting coronary artery disease. Transthoracic Doppler echocardiogr...", "citations": 7, "author_count": 5, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6682, "doi": "10.1186/1476-7120-6-12", "umap_coordinates": { "x": 395.2866516113281, "y": 133.81288146972656, "z": 204.44442749023438 }, "tsne_coordinates": { "x": -4.208815097808838, "y": 24.549936294555664, "z": -10.57845401763916 }, "pca_coordinates": { "x": -3.273311138153076, "y": 4.458352088928223, "z": 1.057358741760254 }, "axis_scores": { "Quantum imaging": 0.6721947193145752, "Quantum Life Science Sensing": 0.6614388823509216, "Quantum sensing Detection": 0.6354222893714905, "Quantum sensing Metrology": 0.6213176250457764, "Quantum sensing navigation": 0.6391546726226807, "Quantum sensing Position": 0.6343973278999329, "Quantum sensing Timing": 0.6487123966217041, "Quantum sensing": 0.6434949040412903, "Quantum control": 0.6248708963394165 } }, { "id": 6676, "title": "SYNCOP: An evolutionary multi-objective placement of SDN controllers for optimizing cost and network performance in WSNs", "abstract": "Due to the highly dynamic nature of Wireless Sensor Networks (WSN), Software-Defined Network (SDN) is a promising technology to ease network management by providing a logically centralized control pla...", "citations": 26, "author_count": 6, "categories": [ "Computer Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6683, "doi": "10.1016/j.comnet.2020.107727", "umap_coordinates": { "x": 393.32061767578125, "y": 133.30224609375, "z": 205.5899658203125 }, "tsne_coordinates": { "x": -12.976381301879883, "y": 20.42194938659668, "z": 14.22247314453125 }, "pca_coordinates": { "x": -3.1259682178497314, "y": -0.08407258987426758, "z": 1.217012643814087 }, "axis_scores": { "Quantum imaging": 0.6763567328453064, "Quantum Life Science Sensing": 0.7022572159767151, "Quantum sensing Detection": 0.6823253035545349, "Quantum sensing Metrology": 0.7021833658218384, "Quantum sensing navigation": 0.7148009538650513, "Quantum sensing Position": 0.6949214339256287, "Quantum sensing Timing": 0.6977574825286865, "Quantum sensing": 0.6955413818359375, "Quantum control": 0.7119930386543274 } }, { "id": 6677, "title": "Effect of phase formation on valence band photoemission and photoresonance study of Ti/Ni multilayers using synchrotron radiation", "abstract": "This paper presents investigation of Ti-Ni alloy phase formation and its effect on valence band (VB) photoemission and photoresonance study of as-deposited as well as annealed Ti/Ni multilayers (MLs) ...", "citations": 5, "author_count": 3, "categories": [ "Spectroscopy" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6684, "doi": "10.1016/j.elspec.2006.03.006", "umap_coordinates": { "x": 393.9272766113281, "y": 133.18067932128906, "z": 205.67576599121094 }, "tsne_coordinates": { "x": 36.63078308105469, "y": 9.062250137329102, "z": 4.524216651916504 }, "pca_coordinates": { "x": -2.842961311340332, "y": -0.8780708312988281, "z": -0.06651628017425537 }, "axis_scores": { "Quantum imaging": 0.7424771189689636, "Quantum Life Science Sensing": 0.7342444658279419, "Quantum sensing Detection": 0.7100394368171692, "Quantum sensing Metrology": 0.6925302743911743, "Quantum sensing navigation": 0.6978135108947754, "Quantum sensing Position": 0.7059134840965271, "Quantum sensing Timing": 0.6999063491821289, "Quantum sensing": 0.7190887928009033, "Quantum control": 0.6713278293609619 } }, { "id": 6678, "title": "Recombination rate coefficients of Be-like neon", "abstract": "Aims. Merged-beam and plasma recombination rate coefficients for Be-likeNe VII were extracted from results of a merged-beam type experiment. Methods. The cryring heavy-ion storage ring was used to det...", "citations": 15, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6685, "doi": "10.1051/0004-6361:200810295", "umap_coordinates": { "x": 394.1166687011719, "y": 136.54562377929688, "z": 206.73048400878906 }, "tsne_coordinates": { "x": -5.1084747314453125, "y": -2.24381422996521, "z": 14.837841033935547 }, "pca_coordinates": { "x": -0.19324636459350586, "y": -0.28560924530029297, "z": -0.47509968280792236 }, "axis_scores": { "Quantum imaging": 0.6690780520439148, "Quantum Life Science Sensing": 0.7187044620513916, "Quantum sensing Detection": 0.6616201996803284, "Quantum sensing Metrology": 0.6562008857727051, "Quantum sensing navigation": 0.6485428810119629, "Quantum sensing Position": 0.6445465087890625, "Quantum sensing Timing": 0.6523627042770386, "Quantum sensing": 0.6679402589797974, "Quantum control": 0.6347843408584595 } }, { "id": 6679, "title": "Compact Ionized Gas Region Surrounded by Porous Neutral Gas in a Dusty Lyman Break Galaxy at Redshift z=8.312", "abstract": "Porous interstellar medium (ISM) structure in galaxies at the epoch of reionization gives us a hint to understand what types of galaxies contribute to reionization. Although recent studies have pointe...", "citations": 2, "author_count": 13, "categories": [ "Astronomy & Astrophysics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6686, "doi": "10.3847/1538-4357/ade87e", "umap_coordinates": { "x": 396.0268249511719, "y": 135.2758331298828, "z": 205.87786865234375 }, "tsne_coordinates": { "x": -32.66624450683594, "y": 22.19539451599121, "z": -1.831031084060669 }, "pca_coordinates": { "x": -0.762737512588501, "y": 1.7788476943969727, "z": -0.40101921558380127 }, "axis_scores": { "Quantum imaging": 0.6715797185897827, "Quantum Life Science Sensing": 0.6688261032104492, "Quantum sensing Detection": 0.6439824104309082, "Quantum sensing Metrology": 0.630791187286377, "Quantum sensing navigation": 0.6788782477378845, "Quantum sensing Position": 0.6300781965255737, "Quantum sensing Timing": 0.5895454287528992, "Quantum sensing": 0.6572545766830444, "Quantum control": 0.6381980776786804 } }, { "id": 6680, "title": "Bayesian electron density inference from JET lithium beam emission spectra using Gaussian processes", "abstract": "A Bayesian model to infer edge electron density profiles is developed for the JET lithium beam emission spectroscopy (Li-BES) system, measuring Li I (2p-2s) line radiation using 26 channels with simil...", "citations": 20, "author_count": 1110, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6687, "doi": "10.1088/1741-4326/aa5072", "umap_coordinates": { "x": 395.56573486328125, "y": 135.34677124023438, "z": 205.88839721679688 }, "tsne_coordinates": { "x": -12.063802719116211, "y": -5.901043891906738, "z": -16.233354568481445 }, "pca_coordinates": { "x": -0.7289836406707764, "y": 1.753753423690796, "z": 1.2862493991851807 }, "axis_scores": { "Quantum imaging": 0.7003685235977173, "Quantum Life Science Sensing": 0.672606348991394, "Quantum sensing Detection": 0.6625796556472778, "Quantum sensing Metrology": 0.646276593208313, "Quantum sensing navigation": 0.7077446579933167, "Quantum sensing Position": 0.662987232208252, "Quantum sensing Timing": 0.6325593590736389, "Quantum sensing": 0.6720533967018127, "Quantum control": 0.6734241247177124 } }, { "id": 6681, "title": "Functional and molecular neuroimaging of menopause and hormone replacement therapy", "abstract": "The level of gonadal hormones to which the female brain is exposed considerably changes across the menopausal transition, which in turn, is likely to be of great relevance for neurodegenerative diseas...", "citations": 61, "author_count": 4, "categories": [ "Neurosciences & Neurology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6688, "doi": "10.3389/fnins.2014.00388", "umap_coordinates": { "x": 394.9386291503906, "y": 134.90809631347656, "z": 204.23434448242188 }, "tsne_coordinates": { "x": -2.787630558013916, "y": 30.944185256958008, "z": 11.00433349609375 }, "pca_coordinates": { "x": -2.0571372509002686, "y": 4.0977325439453125, "z": -1.1556540727615356 }, "axis_scores": { "Quantum imaging": 0.7252763509750366, "Quantum Life Science Sensing": 0.7253061532974243, "Quantum sensing Detection": 0.7086779475212097, "Quantum sensing Metrology": 0.7026748061180115, "Quantum sensing navigation": 0.7202216982841492, "Quantum sensing Position": 0.6699936389923096, "Quantum sensing Timing": 0.6970878839492798, "Quantum sensing": 0.7175147533416748, "Quantum control": 0.6924094557762146 } }, { "id": 6682, "title": "Structure and dynamics of sulfate ion in aqueous solution -: An ab initio QMCF MD simulation and large angle X-ray scattering study", "abstract": "The hydrated sulfate ion has been characterized in aqueous solution in structural and dynamic aspects using ab initio quantum mechanical charge field (QMCF) molecular dynamics (MD) simulation and larg...", "citations": 131, "author_count": 4, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6689, "doi": "10.1021/jp0702402", "umap_coordinates": { "x": 393.05615234375, "y": 136.69602966308594, "z": 205.3838348388672 }, "tsne_coordinates": { "x": 1.1426445245742798, "y": 11.91342830657959, "z": 26.23233413696289 }, "pca_coordinates": { "x": -1.3180795907974243, "y": 0.4547833204269409, "z": -4.095167636871338 }, "axis_scores": { "Quantum imaging": 0.6946961283683777, "Quantum Life Science Sensing": 0.735052764415741, "Quantum sensing Detection": 0.6736675500869751, "Quantum sensing Metrology": 0.6617748737335205, "Quantum sensing navigation": 0.7045050263404846, "Quantum sensing Position": 0.6825574040412903, "Quantum sensing Timing": 0.6515942811965942, "Quantum sensing": 0.686580240726471, "Quantum control": 0.6941187381744385 } }, { "id": 6683, "title": "Nodule detection in digital chest radiography:: Effect of system noise", "abstract": "Apart from the image content that is the reproduction of anatomy and possible lesions, an X-ray image also contains system noise due to the limited number of photons and other internal noise sources i...", "citations": 45, "author_count": 7, "categories": [ "Environmental Sciences & Ecology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6690, "doi": "10.1093/rpd/nch525", "umap_coordinates": { "x": 395.5305480957031, "y": 132.91673278808594, "z": 205.04965209960938 }, "tsne_coordinates": { "x": -5.123804092407227, "y": 34.63980484008789, "z": -18.84558868408203 }, "pca_coordinates": { "x": -1.8106775283813477, "y": 3.3218557834625244, "z": 1.3688380718231201 }, "axis_scores": { "Quantum imaging": 0.7005382776260376, "Quantum Life Science Sensing": 0.702409029006958, "Quantum sensing Detection": 0.7291972637176514, "Quantum sensing Metrology": 0.6850093603134155, "Quantum sensing navigation": 0.6972361207008362, "Quantum sensing Position": 0.6981024742126465, "Quantum sensing Timing": 0.6803787350654602, "Quantum sensing": 0.7109196186065674, "Quantum control": 0.690545380115509 } }, { "id": 6684, "title": "Optimal focusing for maximal collection of entangled narrow-band photon pairs into single-mode fibers - art. no. 062301", "abstract": "We present a theoretical and experimental investigation of the emission characteristics and the flux of photon pairs generated by spontaneous parametric downconversion in quasi-phase matched bulk crys...", "citations": 92, "author_count": 3, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6691, "doi": "10.1103/PhysRevA.72.062301", "umap_coordinates": { "x": 395.3107604980469, "y": 135.11282348632812, "z": 207.7666015625 }, "tsne_coordinates": { "x": -19.024669647216797, "y": -20.577829360961914, "z": -5.674677848815918 }, "pca_coordinates": { "x": 1.408263921737671, "y": 0.22306108474731445, "z": 2.6881308555603027 }, "axis_scores": { "Quantum imaging": 0.7210894823074341, "Quantum Life Science Sensing": 0.7151694893836975, "Quantum sensing Detection": 0.7060732841491699, "Quantum sensing Metrology": 0.7232460379600525, "Quantum sensing navigation": 0.7135233879089355, "Quantum sensing Position": 0.7004662752151489, "Quantum sensing Timing": 0.6818876266479492, "Quantum sensing": 0.7205176949501038, "Quantum control": 0.6850240230560303 } }, { "id": 6685, "title": "Improved scatter correction with factor analysis for planar and SPECT imaging", "abstract": "Quantitative nuclear medicine imaging is an increasingly important frontier. In order to achieve quantitative imaging, various interactions of photons with matter have to be modeled and compensated. A...", "citations": 8, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6692, "doi": "10.1063/1.5001024", "umap_coordinates": { "x": 395.7077331542969, "y": 133.161376953125, "z": 205.12271118164062 }, "tsne_coordinates": { "x": -10.605806350708008, "y": 30.712688446044922, "z": -10.939526557922363 }, "pca_coordinates": { "x": -2.18804669380188, "y": 2.393670082092285, "z": 3.136951446533203 }, "axis_scores": { "Quantum imaging": 0.6874151825904846, "Quantum Life Science Sensing": 0.6407586336135864, "Quantum sensing Detection": 0.6329131722450256, "Quantum sensing Metrology": 0.6577951908111572, "Quantum sensing navigation": 0.6702947616577148, "Quantum sensing Position": 0.6196155548095703, "Quantum sensing Timing": 0.6158290505409241, "Quantum sensing": 0.6576792001724243, "Quantum control": 0.6215074062347412 } }, { "id": 6686, "title": "Threshold voltage and charge control considerations in double quantum well Si/Si1-xGex p-type MOSFETs", "abstract": "A double quantum well Si/Si1-xGex p-channel MOSFET (DQW-PMOS) is proposed and analyzed. Different Si/Si1 - xGex DQW designs both on bulk silicon and on silicon-on-insulator (SOI) substrates have been ...", "citations": 12, "author_count": 6, "categories": [ "Engineering" ], "year": 1998, "topic": [ "all" ], "embedding_index": 6693, "doi": "10.1016/S0038-1101(98)00115-4", "umap_coordinates": { "x": 393.1177673339844, "y": 133.57568359375, "z": 206.96104431152344 }, "tsne_coordinates": { "x": 44.339439392089844, "y": -3.9812028408050537, "z": -3.28743314743042 }, "pca_coordinates": { "x": -1.0105481147766113, "y": -1.6634125709533691, "z": 0.9861088395118713 }, "axis_scores": { "Quantum imaging": 0.6657540798187256, "Quantum Life Science Sensing": 0.6812595129013062, "Quantum sensing Detection": 0.6646279096603394, "Quantum sensing Metrology": 0.6620190739631653, "Quantum sensing navigation": 0.6565619707107544, "Quantum sensing Position": 0.6764809489250183, "Quantum sensing Timing": 0.6628597974777222, "Quantum sensing": 0.6760441660881042, "Quantum control": 0.6915802359580994 } }, { "id": 6687, "title": "Iterative averaging of spectra as a powerful way of suppressing spurious resonances in signal processing", "abstract": "The fast Pad, transform (FPT) was applied to magnetic resonance spectroscopic (MRS) time signals encoded in vivo on a 1.5 T scanner from the parietal-temporal brain region of a pediatric patient who h...", "citations": 13, "author_count": 3, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6694, "doi": "10.1007/s10910-016-0693-9", "umap_coordinates": { "x": 392.5678405761719, "y": 137.05764770507812, "z": 206.68209838867188 }, "tsne_coordinates": { "x": 15.694457054138184, "y": 2.682845115661621, "z": 36.79240798950195 }, "pca_coordinates": { "x": -1.5682761669158936, "y": 1.0950641632080078, "z": 1.2329974174499512 }, "axis_scores": { "Quantum imaging": 0.6865414977073669, "Quantum Life Science Sensing": 0.682413637638092, "Quantum sensing Detection": 0.680754542350769, "Quantum sensing Metrology": 0.6765367984771729, "Quantum sensing navigation": 0.6692783832550049, "Quantum sensing Position": 0.6519117951393127, "Quantum sensing Timing": 0.6694599986076355, "Quantum sensing": 0.687621533870697, "Quantum control": 0.6487424969673157 } }, { "id": 6688, "title": "Effect of platelet-derived growth factor receptor-β inhibition with STI571 on radioimmunotherapy", "abstract": "Whereas radioimmunotherapy of hematologic malignancies has evolved into a viable treatment option, the responses of solid tumors to radioinummotherapy are discouraging. The likely cause of this proble...", "citations": 58, "author_count": 11, "categories": [ "Oncology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6695, "doi": "10.1158/0008-5472.CAN-04-3991", "umap_coordinates": { "x": 395.3160705566406, "y": 133.974853515625, "z": 204.2071990966797 }, "tsne_coordinates": { "x": 0.858877420425415, "y": 27.795310974121094, "z": -7.962844371795654 }, "pca_coordinates": { "x": -3.1349852085113525, "y": 4.131412506103516, "z": 1.4885036945343018 }, "axis_scores": { "Quantum imaging": 0.6680957674980164, "Quantum Life Science Sensing": 0.6597838401794434, "Quantum sensing Detection": 0.6383756995201111, "Quantum sensing Metrology": 0.6202185153961182, "Quantum sensing navigation": 0.6397818922996521, "Quantum sensing Position": 0.6261782050132751, "Quantum sensing Timing": 0.6646984815597534, "Quantum sensing": 0.6424782872200012, "Quantum control": 0.6504660844802856 } }, { "id": 6689, "title": "EEG p-adic quantum potential accurately identifies depression, schizophrenia and cognitive decline", "abstract": "No diagnostic or predictive instruments to help with early diagnosis and timely therapeutic intervention are available as yet for most neuro-psychiatric disorders. A quantum potential mean and variabi...", "citations": 23, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6696, "doi": "10.1371/journal.pone.0255529", "umap_coordinates": { "x": 394.9926452636719, "y": 135.1326446533203, "z": 204.6077117919922 }, "tsne_coordinates": { "x": -5.900518417358398, "y": 28.211414337158203, "z": 6.409970283508301 }, "pca_coordinates": { "x": -0.4198960065841675, "y": 0.7731271982192993, "z": -0.009502947330474854 }, "axis_scores": { "Quantum imaging": 0.7526606321334839, "Quantum Life Science Sensing": 0.7381945848464966, "Quantum sensing Detection": 0.7429603338241577, "Quantum sensing Metrology": 0.7248965501785278, "Quantum sensing navigation": 0.7359968423843384, "Quantum sensing Position": 0.7231629490852356, "Quantum sensing Timing": 0.7192541360855103, "Quantum sensing": 0.7436898946762085, "Quantum control": 0.7249115705490112 } }, { "id": 6690, "title": "Elucidating an Amorphous Form Stabilization Mechanism for Tenapanor Hydrochloride: Crystal Structure Analysis Using X-ray Diffraction, NMR Crystallography, and Molecular Modeling", "abstract": "By the combined use of powder and single-crystal X-ray diffraction, solid-state NMR, and molecular modeling, the crystal structures of two systems containing the unusually large tenapanor drug molecul...", "citations": 37, "author_count": 12, "categories": [ "Research & Experimental Medicine" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6697, "doi": "10.1021/acs.molpharmaceut.7b01047", "umap_coordinates": { "x": 392.84075927734375, "y": 136.7225341796875, "z": 204.5608673095703 }, "tsne_coordinates": { "x": 0.47706782817840576, "y": 18.938844680786133, "z": 22.967853546142578 }, "pca_coordinates": { "x": -2.0876898765563965, "y": 1.5675915479660034, "z": -2.703946590423584 }, "axis_scores": { "Quantum imaging": 0.6679361462593079, "Quantum Life Science Sensing": 0.6818685531616211, "Quantum sensing Detection": 0.6501381993293762, "Quantum sensing Metrology": 0.6460070610046387, "Quantum sensing navigation": 0.6567970514297485, "Quantum sensing Position": 0.6284189820289612, "Quantum sensing Timing": 0.6583808660507202, "Quantum sensing": 0.663081705570221, "Quantum control": 0.6724963784217834 } }, { "id": 6691, "title": "Graphene synthesis, characterization and its applications in nanophotonics, nanoelectronics, and nanosensing", "abstract": "In the last decade, as semiconductor industry was approaching the end of the exponential Moore's roadmap for device downscaling, the necessity of finding new candidate materials has forced many resear...", "citations": 164, "author_count": 6, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6698, "doi": "10.1007/s10854-015-2725-9", "umap_coordinates": { "x": 393.9530334472656, "y": 134.70338439941406, "z": 205.29627990722656 }, "tsne_coordinates": { "x": -7.5349297523498535, "y": 15.902192115783691, "z": 5.608766555786133 }, "pca_coordinates": { "x": -2.5848960876464844, "y": -0.8923006057739258, "z": 1.4171786308288574 }, "axis_scores": { "Quantum imaging": 0.7008988857269287, "Quantum Life Science Sensing": 0.742497980594635, "Quantum sensing Detection": 0.7146070599555969, "Quantum sensing Metrology": 0.723274827003479, "Quantum sensing navigation": 0.7108691930770874, "Quantum sensing Position": 0.7137073278427124, "Quantum sensing Timing": 0.687229573726654, "Quantum sensing": 0.73366779088974, "Quantum control": 0.6996142268180847 } }, { "id": 6692, "title": "Three-dimensional modeling of the Ca II H and K lines in the solar atmosphere", "abstract": "Context. CHROMIS, a new imaging spectrometer at the Swedish 1-m Solar Telescope (SST), can observe the chromosphere in the H and K lines of Ca II at high spatial and spectral resolution. Accurate mode...", "citations": 72, "author_count": 8, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6699, "doi": "10.1051/0004-6361/201731926", "umap_coordinates": { "x": 394.1502685546875, "y": 136.59194946289062, "z": 205.8122100830078 }, "tsne_coordinates": { "x": -5.3558783531188965, "y": 20.836057662963867, "z": 21.053781509399414 }, "pca_coordinates": { "x": -0.25102174282073975, "y": 1.5376499891281128, "z": -2.0907673835754395 }, "axis_scores": { "Quantum imaging": 0.7091726064682007, "Quantum Life Science Sensing": 0.7330397367477417, "Quantum sensing Detection": 0.6771196126937866, "Quantum sensing Metrology": 0.6825606822967529, "Quantum sensing navigation": 0.7017130851745605, "Quantum sensing Position": 0.6658079624176025, "Quantum sensing Timing": 0.670315682888031, "Quantum sensing": 0.7028059363365173, "Quantum control": 0.7017523646354675 } }, { "id": 6693, "title": "Comparative evaluation of 111In-labeled NOTA-conjugated affibody molecules for visualization of HER3 expression in malignant tumors", "abstract": "Expression of human epidermal growth factor receptor type 3 (HER3) in malignant tumors has been associated with resistance to a variety of anticancer therapies. Several anti-HER3 monoclonal antibodies...", "citations": 30, "author_count": 10, "categories": [ "Oncology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6700, "doi": "10.3892/or.2015.4046", "umap_coordinates": { "x": 394.6894836425781, "y": 133.7534942626953, "z": 204.2503204345703 }, "tsne_coordinates": { "x": 7.8106560707092285, "y": 29.757030487060547, "z": -17.42133903503418 }, "pca_coordinates": { "x": -3.328118085861206, "y": 2.1958463191986084, "z": 0.8248143792152405 }, "axis_scores": { "Quantum imaging": 0.712249755859375, "Quantum Life Science Sensing": 0.6964864730834961, "Quantum sensing Detection": 0.6864485740661621, "Quantum sensing Metrology": 0.6773558855056763, "Quantum sensing navigation": 0.6779217720031738, "Quantum sensing Position": 0.6635897755622864, "Quantum sensing Timing": 0.6564593315124512, "Quantum sensing": 0.6837629079818726, "Quantum control": 0.6492353081703186 } }, { "id": 6694, "title": "SMALL ANIMAL IMAGING WITH PINHOLE SINGLE-PHOTON EMISSION COMPUTED-TOMOGRAPHY", "abstract": "Background. High resolution spatial details of the distribution of activity in three dimensions is required to evaluate the localization and dosimetric properties of radiolabelled monoclonal antibodie...", "citations": 64, "author_count": 8, "categories": [ "Oncology" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6701, "doi": "10.1002/1097-0142(19940201)73:3+<981::AID-CNCR2820731334>3.0.CO;2-N", "umap_coordinates": { "x": 395.32958984375, "y": 133.49330139160156, "z": 205.25302124023438 }, "tsne_coordinates": { "x": -9.95279312133789, "y": 22.903409957885742, "z": -3.9649457931518555 }, "pca_coordinates": { "x": -2.312331438064575, "y": 2.3206698894500732, "z": 4.381598949432373 }, "axis_scores": { "Quantum imaging": 0.7312110662460327, "Quantum Life Science Sensing": 0.7005254030227661, "Quantum sensing Detection": 0.709001898765564, "Quantum sensing Metrology": 0.6956177949905396, "Quantum sensing navigation": 0.716874361038208, "Quantum sensing Position": 0.6730251908302307, "Quantum sensing Timing": 0.68360435962677, "Quantum sensing": 0.7177242636680603, "Quantum control": 0.6827602982521057 } }, { "id": 6695, "title": "Chelate effect and thermodynamics of metal complex formation in solution: A quantum chemical study", "abstract": "The accuracy of quantum chemical predictions of structures and thermodynamic data for metal complexes depends both on the quantum chemical methods and the chemical models used. A thermodynamic analogu...", "citations": 90, "author_count": 4, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6702, "doi": "10.1021/ja036646j", "umap_coordinates": { "x": 392.80303955078125, "y": 136.74703979492188, "z": 205.23023986816406 }, "tsne_coordinates": { "x": 0.41565972566604614, "y": 11.901751518249512, "z": 28.905323028564453 }, "pca_coordinates": { "x": -0.9456040263175964, "y": -0.5465831756591797, "z": -4.626954078674316 }, "axis_scores": { "Quantum imaging": 0.7346103191375732, "Quantum Life Science Sensing": 0.7753353118896484, "Quantum sensing Detection": 0.7378617525100708, "Quantum sensing Metrology": 0.7300488948822021, "Quantum sensing navigation": 0.7284700870513916, "Quantum sensing Position": 0.713277280330658, "Quantum sensing Timing": 0.6918560862541199, "Quantum sensing": 0.751711368560791, "Quantum control": 0.7241852283477783 } }, { "id": 6696, "title": "Cyclotron masses and g-factors of hybridized electron-hole states in InAs/GaSb quantum wells", "abstract": "Using the eight-band k center dot p model and the Burt-Foreman envelope function theory to perform self-consistent calculations, we have studied the effect of electron-hole hybridization on the cyclot...", "citations": 16, "author_count": 6, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6703, "doi": "10.1103/PhysRevB.74.075308", "umap_coordinates": { "x": 393.9927673339844, "y": 135.55572509765625, "z": 208.8102569580078 }, "tsne_coordinates": { "x": 12.584606170654297, "y": -23.617197036743164, "z": -1.7181700468063354 }, "pca_coordinates": { "x": 4.282351970672607, "y": -1.7007288932800293, "z": -0.11208027601242065 }, "axis_scores": { "Quantum imaging": 0.6952298283576965, "Quantum Life Science Sensing": 0.7034562826156616, "Quantum sensing Detection": 0.6932508945465088, "Quantum sensing Metrology": 0.6896159052848816, "Quantum sensing navigation": 0.7102264165878296, "Quantum sensing Position": 0.6860295534133911, "Quantum sensing Timing": 0.6657923460006714, "Quantum sensing": 0.7068134546279907, "Quantum control": 0.6772695779800415 } }, { "id": 6697, "title": "Structure of diethyl phosphate bound to the binuclear metal center of phosphotriesterase", "abstract": "The bacterial phosphotriesterase (PTE) from Pseudomonas diminuta catalyzes the hydrolysis of organophosphate esters at rates close to the diffusion limit. X-ray diffraction studies have shown that a b...", "citations": 78, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6704, "doi": "10.1021/bi800971v", "umap_coordinates": { "x": 392.417724609375, "y": 136.76010131835938, "z": 205.14796447753906 }, "tsne_coordinates": { "x": 11.42614459991455, "y": -1.561864972114563, "z": -4.952142715454102 }, "pca_coordinates": { "x": -1.7906262874603271, "y": -0.42009544372558594, "z": -3.100010871887207 }, "axis_scores": { "Quantum imaging": 0.6965938210487366, "Quantum Life Science Sensing": 0.6966103315353394, "Quantum sensing Detection": 0.680053174495697, "Quantum sensing Metrology": 0.6713874936103821, "Quantum sensing navigation": 0.6746973991394043, "Quantum sensing Position": 0.69256192445755, "Quantum sensing Timing": 0.6831192970275879, "Quantum sensing": 0.6834520697593689, "Quantum control": 0.6622462868690491 } }, { "id": 6698, "title": "Effect of reversible hypoperfusion on left ventricular volumes measured with gated SPECT at rest and after adenosine infusion", "abstract": "Background. The aims of this study were to assess the degree of postischemic left ventricular (LV) dilatation after adenosine stress and to determine the extent to which LV volumes measured with gated...", "citations": 13, "author_count": 3, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6705, "doi": "10.1067/mnc.2000.109776", "umap_coordinates": { "x": 395.71112060546875, "y": 133.55093383789062, "z": 204.5640106201172 }, "tsne_coordinates": { "x": -8.31103801727295, "y": 32.33720016479492, "z": -13.856977462768555 }, "pca_coordinates": { "x": -0.7896139025688171, "y": 4.718760013580322, "z": 1.5559639930725098 }, "axis_scores": { "Quantum imaging": 0.6878665685653687, "Quantum Life Science Sensing": 0.6496970057487488, "Quantum sensing Detection": 0.6549451351165771, "Quantum sensing Metrology": 0.6426282525062561, "Quantum sensing navigation": 0.6608060002326965, "Quantum sensing Position": 0.6592476963996887, "Quantum sensing Timing": 0.6625828146934509, "Quantum sensing": 0.66163569688797, "Quantum control": 0.6478796005249023 } }, { "id": 6699, "title": "Modeling Solvatochromism of Nile Red in Water", "abstract": "Spurred by the pioneering modeling studies of Sylvio Canuto on absorption spectra and solvatochromic shifts of organic molecules in polar and nonpolar solvents, we report in this work a computational ...", "citations": 24, "author_count": 4, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6706, "doi": "10.1002/qua.22655", "umap_coordinates": { "x": 393.8076171875, "y": 137.07740783691406, "z": 205.4912872314453 }, "tsne_coordinates": { "x": 0.3381239175796509, "y": 17.006990432739258, "z": 11.908341407775879 }, "pca_coordinates": { "x": -0.5342550873756409, "y": 0.672788143157959, "z": -2.9212067127227783 }, "axis_scores": { "Quantum imaging": 0.7704274654388428, "Quantum Life Science Sensing": 0.7866543531417847, "Quantum sensing Detection": 0.7446702718734741, "Quantum sensing Metrology": 0.7534177899360657, "Quantum sensing navigation": 0.7694683074951172, "Quantum sensing Position": 0.7232826948165894, "Quantum sensing Timing": 0.727044939994812, "Quantum sensing": 0.7676938772201538, "Quantum control": 0.7512120604515076 } }, { "id": 6700, "title": "ASSESSMENT OF BIOCHEMICAL MARKERS OF BONE METABOLISM IN RELATION TO THE OCCURRENCE OF FRACTURE - A RETROSPECTIVE AND PROSPECTIVE POPULATION-BASED STUDY OF WOMEN", "abstract": "We have in a population-based setting evaluated biochemical markers of bone metabolism in 328 women, aged 40-80 years, and related it to contents of bone mineral measurements and the retrospective and...", "citations": 103, "author_count": 8, "categories": [ "Endocrinology & Metabolism" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6707, "doi": null, "umap_coordinates": { "x": 391.8752136230469, "y": 139.25848388671875, "z": 209.6995849609375 }, "tsne_coordinates": { "x": 1.3343287706375122, "y": 40.045265197753906, "z": -0.3645540177822113 }, "pca_coordinates": { "x": -3.201632499694824, "y": 4.634719371795654, "z": -2.1313507556915283 }, "axis_scores": { "Quantum imaging": 0.7287236452102661, "Quantum Life Science Sensing": 0.7484999299049377, "Quantum sensing Detection": 0.7333174347877502, "Quantum sensing Metrology": 0.7289459109306335, "Quantum sensing navigation": 0.7375797033309937, "Quantum sensing Position": 0.7307621240615845, "Quantum sensing Timing": 0.7219407558441162, "Quantum sensing": 0.7403296828269958, "Quantum control": 0.7281321287155151 } }, { "id": 6701, "title": "Fermi and Swift Observations of GRB 190114C: Tracing the Evolution of High-energy Emission from Prompt to Afterglow", "abstract": "We report on the observations of gamma-ray burst (GRB) 190114C by the Fermi Gamma -ray Space Telescope and the Neil Gehrels Swift Observatory. The prompt gamma-ray emission was detected by the Fermi G...", "citations": 68, "author_count": 154, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6708, "doi": "10.3847/1538-4357/ab5b05", "umap_coordinates": { "x": 396.4223327636719, "y": 134.9482421875, "z": 206.08262634277344 }, "tsne_coordinates": { "x": -31.304594039916992, "y": 21.290624618530273, "z": 2.6444296836853027 }, "pca_coordinates": { "x": -0.0340348482131958, "y": 1.8333075046539307, "z": 1.0169181823730469 }, "axis_scores": { "Quantum imaging": 0.666574239730835, "Quantum Life Science Sensing": 0.6724845767021179, "Quantum sensing Detection": 0.6567640900611877, "Quantum sensing Metrology": 0.6372474431991577, "Quantum sensing navigation": 0.6779703497886658, "Quantum sensing Position": 0.6432722210884094, "Quantum sensing Timing": 0.6894533038139343, "Quantum sensing": 0.6613291501998901, "Quantum control": 0.635778546333313 } }, { "id": 6702, "title": "Bilateral temporal lobe volume reduction parallels cognitive impairment in progressive aphasia", "abstract": "Background: Patients with isolated aphasia in the absence of other cognitive abnormalities have been the focus of several studies during the past decade. It has been called primary progressive aphasia...", "citations": 14, "author_count": 7, "categories": [ "Neurosciences & Neurology" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6709, "doi": "10.1001/archneur.1997.00550220092020", "umap_coordinates": { "x": 395.0667724609375, "y": 134.99668884277344, "z": 204.26885986328125 }, "tsne_coordinates": { "x": -4.586854457855225, "y": 24.895036697387695, "z": 6.20134162902832 }, "pca_coordinates": { "x": -1.0491845607757568, "y": 2.3857367038726807, "z": 0.4212419390678406 }, "axis_scores": { "Quantum imaging": 0.672042965888977, "Quantum Life Science Sensing": 0.6278367638587952, "Quantum sensing Detection": 0.6267682909965515, "Quantum sensing Metrology": 0.6235302090644836, "Quantum sensing navigation": 0.665309488773346, "Quantum sensing Position": 0.6373465657234192, "Quantum sensing Timing": 0.6399766206741333, "Quantum sensing": 0.6368628144264221, "Quantum control": 0.650634765625 } }, { "id": 6703, "title": "Hubble Space Telescope observations of high-velocity Lyα and Hα emission from supernova remnant 1987A:: The structure and development of the reverse shock", "abstract": "We present two-dimensional line profiles of high-velocity (similar to+/-12,000 km s(-1)) Lyalpha and Halpha emission from supernova remnant 1987A obtained with the Space Telescope Imaging Spectrograph...", "citations": 54, "author_count": 22, "categories": [ "Astronomy & Astrophysics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6710, "doi": "10.1086/376725", "umap_coordinates": { "x": 396.4494934082031, "y": 135.29708862304688, "z": 206.04054260253906 }, "tsne_coordinates": { "x": -26.930326461791992, "y": 18.274316787719727, "z": 2.014432668685913 }, "pca_coordinates": { "x": -1.009101152420044, "y": 3.8211236000061035, "z": 0.06397515535354614 }, "axis_scores": { "Quantum imaging": 0.6610764861106873, "Quantum Life Science Sensing": 0.6804046630859375, "Quantum sensing Detection": 0.6411077380180359, "Quantum sensing Metrology": 0.6083822846412659, "Quantum sensing navigation": 0.6692827939987183, "Quantum sensing Position": 0.6398724317550659, "Quantum sensing Timing": 0.6692094802856445, "Quantum sensing": 0.6489484906196594, "Quantum control": 0.637669563293457 } }, { "id": 6704, "title": "Magnetism of Pd1-xNix alloys near the critical concentration for ferromagnetism", "abstract": "We report results of a muon spin rotation and relaxation (mu SR) study of dilute Pd1-xNix alloys, with emphasis on Ni concentrations x = 0.0243 and 0.025. These are close to the critical value x(cr) f...", "citations": 3, "author_count": 15, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6711, "doi": "10.1103/PhysRevB.89.064418", "umap_coordinates": { "x": 393.0399169921875, "y": 136.40689086914062, "z": 209.11033630371094 }, "tsne_coordinates": { "x": 3.8417768478393555, "y": -38.794254302978516, "z": 20.153669357299805 }, "pca_coordinates": { "x": 2.667834997177124, "y": -1.2151312828063965, "z": -0.7676438093185425 }, "axis_scores": { "Quantum imaging": 0.6862068176269531, "Quantum Life Science Sensing": 0.704976499080658, "Quantum sensing Detection": 0.7019359469413757, "Quantum sensing Metrology": 0.7130594253540039, "Quantum sensing navigation": 0.6870131492614746, "Quantum sensing Position": 0.6984699368476868, "Quantum sensing Timing": 0.6766690611839294, "Quantum sensing": 0.7029489278793335, "Quantum control": 0.6661195755004883 } }, { "id": 6705, "title": "177Lu-PSMA-617 Therapy in Mice, with or without the Antioxidant α1-Microglobulin (A1M), Including Kidney Damage Assessment Using 99mTc-MAG3 Imaging", "abstract": "Anti-prostate specific membrane antigen (PSMA) radioligand therapy is promising but not curative in castration resistant prostate cancer. One way to broaden the therapeutic index could be to administe...", "citations": 21, "author_count": 12, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6712, "doi": "10.3390/biom11020263", "umap_coordinates": { "x": 394.86456298828125, "y": 134.03594970703125, "z": 204.3812255859375 }, "tsne_coordinates": { "x": 3.67651629447937, "y": 27.215621948242188, "z": -11.510247230529785 }, "pca_coordinates": { "x": -4.311205863952637, "y": 1.7345809936523438, "z": 1.2720234394073486 }, "axis_scores": { "Quantum imaging": 0.6982451677322388, "Quantum Life Science Sensing": 0.7145018577575684, "Quantum sensing Detection": 0.6666235327720642, "Quantum sensing Metrology": 0.6859079599380493, "Quantum sensing navigation": 0.6873985528945923, "Quantum sensing Position": 0.663628101348877, "Quantum sensing Timing": 0.6555683612823486, "Quantum sensing": 0.6764619946479797, "Quantum control": 0.6558778882026672 } }, { "id": 6706, "title": "Program for quantum wave-packet dynamics with time-dependent potentials", "abstract": "We present a program to simulate the dynamics of a wave packet interacting with a time-dependent potential. The time-dependent Schrodinger equation is solved on a one-, two-, or three-dimensional spat...", "citations": 21, "author_count": 4, "categories": [ "Computer Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6713, "doi": "10.1016/j.cpc.2013.09.012", "umap_coordinates": { "x": 394.2320861816406, "y": 137.30690002441406, "z": 206.24822998046875 }, "tsne_coordinates": { "x": -13.268017768859863, "y": 5.755105018615723, "z": 19.38344383239746 }, "pca_coordinates": { "x": 1.1559252738952637, "y": 1.6931946277618408, "z": -0.17426800727844238 }, "axis_scores": { "Quantum imaging": 0.7494227886199951, "Quantum Life Science Sensing": 0.7369319200515747, "Quantum sensing Detection": 0.7283653020858765, "Quantum sensing Metrology": 0.7061786651611328, "Quantum sensing navigation": 0.7442898750305176, "Quantum sensing Position": 0.7194716930389404, "Quantum sensing Timing": 0.7476125955581665, "Quantum sensing": 0.7397173643112183, "Quantum control": 0.7539454102516174 } }, { "id": 6707, "title": "DISTRIBUTION OF CEREBRAL BLOOD MOW DURING ANESTHESIA WITH ISOFLURANE OR HALOTHANE IN HUMANS", "abstract": "Background: Halothane and isoflurane have been shown to induce disparate effects on different brain structures in animals. In humans, various methods for measuring cerebral blood flow (CBF) have produ...", "citations": 56, "author_count": 7, "categories": [ "Anesthesiology" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6714, "doi": "10.1097/00000542-199502000-00006", "umap_coordinates": { "x": 395.31866455078125, "y": 134.55406188964844, "z": 204.4404754638672 }, "tsne_coordinates": { "x": -0.5749459266662598, "y": 30.59123992919922, "z": -2.3153433799743652 }, "pca_coordinates": { "x": -0.8956888914108276, "y": 4.4025726318359375, "z": -1.3450589179992676 }, "axis_scores": { "Quantum imaging": 0.6783556938171387, "Quantum Life Science Sensing": 0.6755437850952148, "Quantum sensing Detection": 0.647476851940155, "Quantum sensing Metrology": 0.6490427255630493, "Quantum sensing navigation": 0.6920479536056519, "Quantum sensing Position": 0.663222074508667, "Quantum sensing Timing": 0.6586079001426697, "Quantum sensing": 0.6620556712150574, "Quantum control": 0.6656093001365662 } }, { "id": 6708, "title": "Photoelectron spectra of N2+: Rotational line profiles studied with HeI-excited angle-resolved spectroscopy and with synchrotron radiation", "abstract": "We have recorded angle-resolved He I photoelectron spectra of the three outermost valence states in Nz with high enough resolution to observe rotational lime profiles. For the two Sigma states, the X ...", "citations": 19, "author_count": 4, "categories": [ "Optics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 6715, "doi": "10.1103/PhysRevA.59.1903", "umap_coordinates": { "x": 394.6099853515625, "y": 135.5778045654297, "z": 207.56455993652344 }, "tsne_coordinates": { "x": -3.98787522315979, "y": -11.223624229431152, "z": 0.7189154028892517 }, "pca_coordinates": { "x": 2.051069736480713, "y": -0.14081478118896484, "z": -0.7158437967300415 }, "axis_scores": { "Quantum imaging": 0.7057159543037415, "Quantum Life Science Sensing": 0.7100731730461121, "Quantum sensing Detection": 0.6778182983398438, "Quantum sensing Metrology": 0.6621633172035217, "Quantum sensing navigation": 0.7038228511810303, "Quantum sensing Position": 0.672696053981781, "Quantum sensing Timing": 0.6569449305534363, "Quantum sensing": 0.6900098323822021, "Quantum control": 0.6608147621154785 } }, { "id": 6709, "title": "Studies of molecular structure, hydrogen bonding and chemical activity of a nitrofurantoin-L-proline cocrystal: a combined spectroscopic and quantum chemical approach", "abstract": "Nitrofurantoin (NTF) has been used as an antibacterial drug to treat bacterial infections of the urinary tract. The purpose of this work is to predict the hydrogen bonds (potential synthons) present i...", "citations": 51, "author_count": 8, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6716, "doi": "10.1039/c6ra13035f", "umap_coordinates": { "x": 393.0205993652344, "y": 136.9099884033203, "z": 205.5178985595703 }, "tsne_coordinates": { "x": 0.36955592036247253, "y": 10.151887893676758, "z": 30.413185119628906 }, "pca_coordinates": { "x": -1.500990867614746, "y": 1.3730113506317139, "z": -2.4635140895843506 }, "axis_scores": { "Quantum imaging": 0.7125215530395508, "Quantum Life Science Sensing": 0.7390537261962891, "Quantum sensing Detection": 0.6905583739280701, "Quantum sensing Metrology": 0.6999573111534119, "Quantum sensing navigation": 0.7049519419670105, "Quantum sensing Position": 0.6841571927070618, "Quantum sensing Timing": 0.6562619805335999, "Quantum sensing": 0.713858962059021, "Quantum control": 0.6937598586082458 } }, { "id": 6710, "title": "Charge transfer, electronic quantum processes, and dissociation dynamics in molecule-surface collisions", "abstract": "In this paper some fundamental processes in molecule-surface dynamics are addressed; charge transfer from a metal surface to an incident or adsorbed particle, non-adiabatic electronic processes, and b...", "citations": 25, "author_count": 2, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6717, "doi": "10.1016/0039-6028(96)00088-X", "umap_coordinates": { "x": 393.6946105957031, "y": 136.80001831054688, "z": 206.44297790527344 }, "tsne_coordinates": { "x": -7.1963791847229, "y": -6.0554518699646, "z": -0.9320645928382874 }, "pca_coordinates": { "x": 1.4441170692443848, "y": -0.17196369171142578, "z": -3.2004175186157227 }, "axis_scores": { "Quantum imaging": 0.6899775862693787, "Quantum Life Science Sensing": 0.7117921710014343, "Quantum sensing Detection": 0.682070791721344, "Quantum sensing Metrology": 0.6581946611404419, "Quantum sensing navigation": 0.665239691734314, "Quantum sensing Position": 0.6621144413948059, "Quantum sensing Timing": 0.6600062847137451, "Quantum sensing": 0.6873751878738403, "Quantum control": 0.6872251629829407 } }, { "id": 6711, "title": "Single-Photon Emission Computer Tomography Imaging of Prostate-Specific Membrane Antigen (PSMA) Expression in Prostate Cancer Patients Using a Novel Peptide-Based Probe [99mTc]Tc-BQ0413 with Picomolar Affinity to PSMA: A Phase I/II Clinical Study", "abstract": "Radionuclide imaging of prostate-specific membrane antigen (PSMA) expression can be used for staging prostate cancer. The pseudo-peptide [99mTc]Tc-BQ0413 demonstrated high affinity and specificity to ...", "citations": 4, "author_count": 12, "categories": [ "Pharmacology & Pharmacy" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6718, "doi": "10.1021/acsptsci.4c00637", "umap_coordinates": { "x": 394.91461181640625, "y": 133.36123657226562, "z": 204.79322814941406 }, "tsne_coordinates": { "x": 4.538599967956543, "y": 27.5443115234375, "z": -9.179779052734375 }, "pca_coordinates": { "x": -4.245478630065918, "y": -0.2883009910583496, "z": 2.877209186553955 }, "axis_scores": { "Quantum imaging": 0.7177776098251343, "Quantum Life Science Sensing": 0.7253199815750122, "Quantum sensing Detection": 0.7082846164703369, "Quantum sensing Metrology": 0.6959227323532104, "Quantum sensing navigation": 0.6929773688316345, "Quantum sensing Position": 0.6924232840538025, "Quantum sensing Timing": 0.6879746317863464, "Quantum sensing": 0.703944981098175, "Quantum control": 0.6496636867523193 } }, { "id": 6712, "title": "Quantification of mean energy and photon contamination for accurate dosimetry of high-energy electron beams", "abstract": "The scientific background of the standard procedure for determination of the mean electron energy at the phantom surface ((E) over bar(0)) from the half-value depth (R-50) has been studied. The influe...", "citations": 15, "author_count": 4, "categories": [ "Engineering" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6719, "doi": "10.1088/0031-9155/42/10/001", "umap_coordinates": { "x": 395.9956970214844, "y": 133.5706024169922, "z": 205.68099975585938 }, "tsne_coordinates": { "x": -17.299150466918945, "y": 26.58908462524414, "z": -14.984772682189941 }, "pca_coordinates": { "x": -2.0492238998413086, "y": 1.2510344982147217, "z": 3.6862335205078125 }, "axis_scores": { "Quantum imaging": 0.6844072937965393, "Quantum Life Science Sensing": 0.6940214037895203, "Quantum sensing Detection": 0.6749612092971802, "Quantum sensing Metrology": 0.6811709403991699, "Quantum sensing navigation": 0.6696972250938416, "Quantum sensing Position": 0.6742367744445801, "Quantum sensing Timing": 0.6606501340866089, "Quantum sensing": 0.6812344789505005, "Quantum control": 0.626603364944458 } }, { "id": 6713, "title": "Fractal superconducting nanowire single-photon detectors and their applications in polarimetric imaging", "abstract": "In this paper, we review the research and development of the fractal superconducting nanowire single-photon detectors (SNSPDs), including our demonstrations of high-performance devices and systems wit...", "citations": 1, "author_count": 19, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6720, "doi": "10.1117/12.3014568", "umap_coordinates": { "x": 394.8607482910156, "y": 132.9271240234375, "z": 206.8000030517578 }, "tsne_coordinates": { "x": -11.485384941101074, "y": 3.2088985443115234, "z": -29.56574821472168 }, "pca_coordinates": { "x": -0.8459654450416565, "y": -2.3912625312805176, "z": 3.975144863128662 }, "axis_scores": { "Quantum imaging": 0.7428880333900452, "Quantum Life Science Sensing": 0.7432679533958435, "Quantum sensing Detection": 0.7383097410202026, "Quantum sensing Metrology": 0.721183717250824, "Quantum sensing navigation": 0.7420836687088013, "Quantum sensing Position": 0.7111722230911255, "Quantum sensing Timing": 0.7090246677398682, "Quantum sensing": 0.7419330477714539, "Quantum control": 0.6733776330947876 } }, { "id": 6714, "title": "SPECT image segmentation for estimation of tumour volume and activity concentration in 177Lu-DOTATATE radionuclide therapy", "abstract": "Background: Dosimetry in radionuclide therapy has the potential to allow for a treatment tailored to the individual patient. One therapeutic radiopharmaceutical where patient-specific dosimetry is fea...", "citations": 34, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6721, "doi": "10.1186/s13550-017-0262-7", "umap_coordinates": { "x": 395.4114074707031, "y": 133.41607666015625, "z": 204.61317443847656 }, "tsne_coordinates": { "x": -5.960574150085449, "y": 28.52918243408203, "z": -9.072738647460938 }, "pca_coordinates": { "x": -3.859067678451538, "y": 2.447118043899536, "z": 1.3944649696350098 }, "axis_scores": { "Quantum imaging": 0.684015154838562, "Quantum Life Science Sensing": 0.6637577414512634, "Quantum sensing Detection": 0.6546655893325806, "Quantum sensing Metrology": 0.660036027431488, "Quantum sensing navigation": 0.6765389442443848, "Quantum sensing Position": 0.6629185080528259, "Quantum sensing Timing": 0.6660259962081909, "Quantum sensing": 0.6503044962882996, "Quantum control": 0.6478777527809143 } }, { "id": 6715, "title": "A search for optimal x-ray spectra in iodine contrast media mammography", "abstract": "The aim of this work was to search for the optimal x-ray tube voltage and anode-filter combination in digital iodine contrast media mammography. In the optimization, two entities were of interest: the...", "citations": 34, "author_count": 6, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6722, "doi": "10.1088/0031-9155/50/13/012", "umap_coordinates": { "x": 396.01239013671875, "y": 133.47821044921875, "z": 205.37417602539062 }, "tsne_coordinates": { "x": -9.98747730255127, "y": 31.15224838256836, "z": -18.149768829345703 }, "pca_coordinates": { "x": -1.6983625888824463, "y": 3.162609338760376, "z": 1.9296784400939941 }, "axis_scores": { "Quantum imaging": 0.7004259824752808, "Quantum Life Science Sensing": 0.6652156114578247, "Quantum sensing Detection": 0.6657568216323853, "Quantum sensing Metrology": 0.6526204347610474, "Quantum sensing navigation": 0.666352391242981, "Quantum sensing Position": 0.6587950587272644, "Quantum sensing Timing": 0.6397653818130493, "Quantum sensing": 0.6676415801048279, "Quantum control": 0.6295077800750732 } }, { "id": 6716, "title": "Clinical Outcomes in Patients With ST-Segment Elevation MI and No Standard Modifiable Cardiovascular Risk Factors", "abstract": "BACKGROUND The author recently reported similar to 50% excess early mortality in patients with first-presentation ST-segment elevation myocardial infarction (STEMI) without standard modifiable cardiov...", "citations": 37, "author_count": 19, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6723, "doi": "10.1016/j.jcin.2022.03.036", "umap_coordinates": { "x": 395.22552490234375, "y": 134.39405822753906, "z": 204.14816284179688 }, "tsne_coordinates": { "x": -11.245162963867188, "y": 30.657867431640625, "z": -3.7768194675445557 }, "pca_coordinates": { "x": -2.3161606788635254, "y": 3.4919967651367188, "z": -0.37241438031196594 }, "axis_scores": { "Quantum imaging": 0.6715396046638489, "Quantum Life Science Sensing": 0.6742640733718872, "Quantum sensing Detection": 0.6591353416442871, "Quantum sensing Metrology": 0.6467878818511963, "Quantum sensing navigation": 0.6491770148277283, "Quantum sensing Position": 0.6451975107192993, "Quantum sensing Timing": 0.652483344078064, "Quantum sensing": 0.6640198230743408, "Quantum control": 0.6602870225906372 } }, { "id": 6717, "title": "Experimental investigation of the role of shell structure in quasifission mass distributions", "abstract": "Background: To understand superheavy element synthesis reactions, quantifying the role of quantum shells in quasifission dynamics is important. In reactions with actinide nuclides, a wide peak in the ...", "citations": 12, "author_count": 15, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6724, "doi": "10.1103/PhysRevC.106.064614", "umap_coordinates": { "x": 394.08905029296875, "y": 136.34072875976562, "z": 207.8726043701172 }, "tsne_coordinates": { "x": -11.992870330810547, "y": -43.82504653930664, "z": 14.567342758178711 }, "pca_coordinates": { "x": 1.9024367332458496, "y": 0.4572643041610718, "z": -1.559974193572998 }, "axis_scores": { "Quantum imaging": 0.6844881176948547, "Quantum Life Science Sensing": 0.7115051746368408, "Quantum sensing Detection": 0.6745016574859619, "Quantum sensing Metrology": 0.6702879667282104, "Quantum sensing navigation": 0.6741654872894287, "Quantum sensing Position": 0.6784155964851379, "Quantum sensing Timing": 0.6242983341217041, "Quantum sensing": 0.6829285621643066, "Quantum control": 0.6581598520278931 } }, { "id": 6718, "title": "Investigation of the fine structure of antihydrogen", "abstract": "At the historic Shelter Island Conference on the Foundations of Quantum Mechanics in 1947, Willis Lamb reported an unexpected feature in the fine structure of atomic hydrogen: a separation of the 2S(1...", "citations": 56, "author_count": 54, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6725, "doi": "10.1038/s41586-020-2006-5", "umap_coordinates": { "x": 394.13543701171875, "y": 135.89707946777344, "z": 206.9956512451172 }, "tsne_coordinates": { "x": -22.46177864074707, "y": -20.6997127532959, "z": -20.700334548950195 }, "pca_coordinates": { "x": 0.18271291255950928, "y": 1.0961374044418335, "z": -1.9859352111816406 }, "axis_scores": { "Quantum imaging": 0.7209128737449646, "Quantum Life Science Sensing": 0.7350305318832397, "Quantum sensing Detection": 0.6786807775497437, "Quantum sensing Metrology": 0.6849386692047119, "Quantum sensing navigation": 0.6985571384429932, "Quantum sensing Position": 0.7011834383010864, "Quantum sensing Timing": 0.6705560684204102, "Quantum sensing": 0.7082154750823975, "Quantum control": 0.6720209121704102 } }, { "id": 6719, "title": "Resolving Chemical Dynamics in Biological Energy Conversion: Long-Range Proton-Coupled Electron Transfer in Respiratory Complex I", "abstract": "Biological energy conversion is catalyzed by membrane-bound proteins that transduce chemical or light energy into energy forms that power endergonic processes in the cell. At a molecular level, these ...", "citations": 62, "author_count": 2, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6726, "doi": "10.1021/acs.accounts.1c00524", "umap_coordinates": { "x": 392.76202392578125, "y": 136.66017150878906, "z": 205.73568725585938 }, "tsne_coordinates": { "x": 6.2994561195373535, "y": 13.932554244995117, "z": 20.419801712036133 }, "pca_coordinates": { "x": -1.3433414697647095, "y": -0.1752910614013672, "z": -3.7844772338867188 }, "axis_scores": { "Quantum imaging": 0.6976428031921387, "Quantum Life Science Sensing": 0.7428332567214966, "Quantum sensing Detection": 0.6761532425880432, "Quantum sensing Metrology": 0.6696901917457581, "Quantum sensing navigation": 0.6822524666786194, "Quantum sensing Position": 0.6636764407157898, "Quantum sensing Timing": 0.6569545269012451, "Quantum sensing": 0.6950926184654236, "Quantum control": 0.670804500579834 } }, { "id": 6720, "title": "EFFECTS OF NITROUS-OXIDE ON HUMAN REGIONAL CEREBRAL BLOOD-FLOW AND ISOLATED PIAL-ARTERIES", "abstract": "Background: Results from previous studies on the effect of nitrous oxide (N2O) on the cerebral circulation are conflicting. Early reports claim N2O to have no effect whereas recent findings demonstrat...", "citations": 53, "author_count": 6, "categories": [ "Anesthesiology" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6727, "doi": "10.1097/00000542-199408000-00018", "umap_coordinates": { "x": 395.269287109375, "y": 134.28659057617188, "z": 204.7133026123047 }, "tsne_coordinates": { "x": -1.171789288520813, "y": 30.535917282104492, "z": 0.6531535983085632 }, "pca_coordinates": { "x": -1.5198802947998047, "y": 3.9610233306884766, "z": 0.37706810235977173 }, "axis_scores": { "Quantum imaging": 0.6956251263618469, "Quantum Life Science Sensing": 0.6785703301429749, "Quantum sensing Detection": 0.6581887006759644, "Quantum sensing Metrology": 0.6336735486984253, "Quantum sensing navigation": 0.6884092688560486, "Quantum sensing Position": 0.6567680239677429, "Quantum sensing Timing": 0.638915479183197, "Quantum sensing": 0.6714584231376648, "Quantum control": 0.6828950643539429 } }, { "id": 6721, "title": "Revisiting H2O Nucleation around Au+ and Hg2+: The Peculiar Pseudo-Soft Character of the Gold Cation", "abstract": "In this contribution, we propose a deeper understanding of the electronic effects affecting the nucleation of water around the Au+ and Hg2+ metal cations using quantum chemistry. To do so, and in orde...", "citations": 8, "author_count": 7, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6728, "doi": "10.1021/ct4006135", "umap_coordinates": { "x": 392.1795959472656, "y": 135.4641571044922, "z": 204.89407348632812 }, "tsne_coordinates": { "x": 29.44277000427246, "y": 16.11237907409668, "z": 15.013937950134277 }, "pca_coordinates": { "x": -2.04321551322937, "y": 0.47908997535705566, "z": -3.7032535076141357 }, "axis_scores": { "Quantum imaging": 0.6518060564994812, "Quantum Life Science Sensing": 0.6998926997184753, "Quantum sensing Detection": 0.6805118322372437, "Quantum sensing Metrology": 0.6529486775398254, "Quantum sensing navigation": 0.6667723655700684, "Quantum sensing Position": 0.6686782240867615, "Quantum sensing Timing": 0.6687883734703064, "Quantum sensing": 0.6904060244560242, "Quantum control": 0.665143609046936 } }, { "id": 6722, "title": "Sustained elevation of cerebral blood flow after hypoglycaemia in normal man", "abstract": "During hypoglycaemia, counter-regulatory hormones are released, cognitive function is impaired and cerebral blood flow is increased. In the immediate period after normalisation of blood glucose only c...", "citations": 15, "author_count": 4, "categories": [ "Endocrinology & Metabolism" ], "year": 1998, "topic": [ "all" ], "embedding_index": 6729, "doi": "10.1016/S0168-8227(98)00031-X", "umap_coordinates": { "x": 395.03936767578125, "y": 134.82586669921875, "z": 204.4259796142578 }, "tsne_coordinates": { "x": -1.2288713455200195, "y": 32.37397003173828, "z": -0.497226357460022 }, "pca_coordinates": { "x": -1.944759726524353, "y": 2.6200268268585205, "z": -0.8616664409637451 }, "axis_scores": { "Quantum imaging": 0.6396315097808838, "Quantum Life Science Sensing": 0.6510623693466187, "Quantum sensing Detection": 0.6264386177062988, "Quantum sensing Metrology": 0.6255459189414978, "Quantum sensing navigation": 0.6497663855552673, "Quantum sensing Position": 0.6337133646011353, "Quantum sensing Timing": 0.6274726390838623, "Quantum sensing": 0.633726179599762, "Quantum control": 0.6415820717811584 } }, { "id": 6723, "title": "Reactive oxygen species mediated DNA damage in human lung alveolar epithelial (A549) cells from exposure to non-cytotoxic MFI-type zeolite nanoparticles", "abstract": "Increasing utilization of engineered nanoparticles in the field of electronics and biomedical applications demands an assessment of risk associated with deliberate or accidental exposure. Metal based ...", "citations": 41, "author_count": 6, "categories": [ "Toxicology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6730, "doi": "10.1016/j.toxlet.2012.10.007", "umap_coordinates": { "x": 393.4950866699219, "y": 134.56576538085938, "z": 204.04168701171875 }, "tsne_coordinates": { "x": 15.006447792053223, "y": 23.558061599731445, "z": -0.8460370898246765 }, "pca_coordinates": { "x": -4.115815162658691, "y": 0.4559192657470703, "z": -2.102212429046631 }, "axis_scores": { "Quantum imaging": 0.694460928440094, "Quantum Life Science Sensing": 0.7342540621757507, "Quantum sensing Detection": 0.6851193904876709, "Quantum sensing Metrology": 0.6735551953315735, "Quantum sensing navigation": 0.6639235615730286, "Quantum sensing Position": 0.6385308504104614, "Quantum sensing Timing": 0.6216015815734863, "Quantum sensing": 0.6940667033195496, "Quantum control": 0.6714956164360046 } }, { "id": 6724, "title": "High-resolution at 3T for in vivo derivative NMR spectroscopy in medical diagnostics of ovarian tumor: exact quantification by shape estimations", "abstract": "Time signals are measured experimentally throughout sciences, technologies and industries. Of particular interest here is the focus on time signals encoded by means of magnetic resonance spectroscopy ...", "citations": 8, "author_count": 3, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6731, "doi": "10.1007/s10910-021-01283-x", "umap_coordinates": { "x": 394.8170471191406, "y": 133.53915405273438, "z": 204.5957489013672 }, "tsne_coordinates": { "x": -2.084763765335083, "y": 30.825868606567383, "z": -8.011425018310547 }, "pca_coordinates": { "x": -3.1852264404296875, "y": 2.047541618347168, "z": -0.06678217649459839 }, "axis_scores": { "Quantum imaging": 0.7055279016494751, "Quantum Life Science Sensing": 0.7083394527435303, "Quantum sensing Detection": 0.680343508720398, "Quantum sensing Metrology": 0.6911009550094604, "Quantum sensing navigation": 0.6873002052307129, "Quantum sensing Position": 0.690830647945404, "Quantum sensing Timing": 0.6710719466209412, "Quantum sensing": 0.6887602806091309, "Quantum control": 0.6521137356758118 } }, { "id": 6725, "title": "Dielectron production in proton-proton collisions at √s=7 TeV", "abstract": "The first measurement of e(+)e(-) pair production at mid-rapidity (vertical bar eta vertical bar(e) < 0.8) in pp collisions at root s = 7TeV with ALICE at the LHC is presented. The dielectron producti...", "citations": 20, "author_count": 1017, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6732, "doi": "10.1007/JHEP09(2018)064", "umap_coordinates": { "x": 397.0532531738281, "y": 134.37356567382812, "z": 207.4133758544922 }, "tsne_coordinates": { "x": -36.88749694824219, "y": 9.503046035766602, "z": -7.177230358123779 }, "pca_coordinates": { "x": -0.3527163863182068, "y": 1.358697533607483, "z": 0.636267364025116 }, "axis_scores": { "Quantum imaging": 0.6795011758804321, "Quantum Life Science Sensing": 0.6917735934257507, "Quantum sensing Detection": 0.6700875759124756, "Quantum sensing Metrology": 0.651337206363678, "Quantum sensing navigation": 0.6663668155670166, "Quantum sensing Position": 0.6778441667556763, "Quantum sensing Timing": 0.6771167516708374, "Quantum sensing": 0.6737164258956909, "Quantum control": 0.6605300307273865 } }, { "id": 6726, "title": "Photon emission from gas phase fullerenes excited by 193 nm laser radiation", "abstract": "Continuous, black-body-type light emission is observed upon irradiation of gas phase C-60 and C-70 by 193 nm ArF excimer laser at fluences from 3 to 80 mJ/cm(2) in Ar and He ambient. Cluster temperatu...", "citations": 18, "author_count": 4, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6733, "doi": "10.1063/1.474208", "umap_coordinates": { "x": 393.64874267578125, "y": 134.9800567626953, "z": 207.27175903320312 }, "tsne_coordinates": { "x": 25.873668670654297, "y": -26.083280563354492, "z": -11.187604904174805 }, "pca_coordinates": { "x": 0.7272663116455078, "y": -0.7969331741333008, "z": 1.0902745723724365 }, "axis_scores": { "Quantum imaging": 0.7336726188659668, "Quantum Life Science Sensing": 0.7497766613960266, "Quantum sensing Detection": 0.7292624711990356, "Quantum sensing Metrology": 0.7018744945526123, "Quantum sensing navigation": 0.7005712389945984, "Quantum sensing Position": 0.6690860986709595, "Quantum sensing Timing": 0.6486009359359741, "Quantum sensing": 0.7368672490119934, "Quantum control": 0.6946386098861694 } }, { "id": 6727, "title": "Feasibility of Thorium-227/Radium-223 Gamma-Camera Imaging During Radionuclide Therapy", "abstract": "Thorium-227 (Th-227) is a long-lived (T-1/2 = 18.7 d) alpha-emitter that has emerged as candidate for radioimmunotherapy. Imaging of patients treated with thorium-227 conjugates is challenging due to ...", "citations": 16, "author_count": 7, "categories": [ "Oncology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6734, "doi": "10.1089/cbr.2019.3516", "umap_coordinates": { "x": 395.55712890625, "y": 133.12149047851562, "z": 204.60897827148438 }, "tsne_coordinates": { "x": -2.9755523204803467, "y": 27.83055877685547, "z": -11.451630592346191 }, "pca_coordinates": { "x": -3.4139418601989746, "y": 5.06268310546875, "z": 2.3553781509399414 }, "axis_scores": { "Quantum imaging": 0.6826034188270569, "Quantum Life Science Sensing": 0.6741352677345276, "Quantum sensing Detection": 0.6395246982574463, "Quantum sensing Metrology": 0.6205371022224426, "Quantum sensing navigation": 0.656200647354126, "Quantum sensing Position": 0.619114339351654, "Quantum sensing Timing": 0.6682994961738586, "Quantum sensing": 0.6402910947799683, "Quantum control": 0.6121692657470703 } }, { "id": 6728, "title": "Multi-atlas attenuation correction supports full quantification of static and dynamic brain PET data in PET-MR", "abstract": "In simultaneous PET-MR, attenuation maps are not directly available. Essential for absolute radioactivity quantification, they need to be derived from MR or PET data to correct for gamma photon attenu...", "citations": 40, "author_count": 7, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6735, "doi": "10.1088/1361-6560/aa5f6c", "umap_coordinates": { "x": 395.58221435546875, "y": 133.72705078125, "z": 204.81854248046875 }, "tsne_coordinates": { "x": -8.387678146362305, "y": 31.36419677734375, "z": 1.2004730701446533 }, "pca_coordinates": { "x": -2.301368236541748, "y": 3.853243827819824, "z": 1.4285516738891602 }, "axis_scores": { "Quantum imaging": 0.6782308220863342, "Quantum Life Science Sensing": 0.646372377872467, "Quantum sensing Detection": 0.6189975142478943, "Quantum sensing Metrology": 0.6373596787452698, "Quantum sensing navigation": 0.6539986729621887, "Quantum sensing Position": 0.6165056824684143, "Quantum sensing Timing": 0.6518858075141907, "Quantum sensing": 0.6408278942108154, "Quantum control": 0.6233895421028137 } }, { "id": 6729, "title": "Host-Guest Relative Binding Affinities at Density-Functional Theory Level from Semiempirical Molecular Dynamics Simulations", "abstract": "Relative free energies for the binding of nine cyclic carboxylate ligands to the octa-acid deep-cavity host were calculated at the combined density-functional theory and molecular mechanics (DFT/MM) l...", "citations": 26, "author_count": 4, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6736, "doi": "10.1021/acs.jctc.8b01280", "umap_coordinates": { "x": 392.88665771484375, "y": 137.12423706054688, "z": 205.46974182128906 }, "tsne_coordinates": { "x": -3.31463885307312, "y": 10.836090087890625, "z": 18.01036262512207 }, "pca_coordinates": { "x": -0.08598017692565918, "y": -0.47708892822265625, "z": -3.3310725688934326 }, "axis_scores": { "Quantum imaging": 0.6826703548431396, "Quantum Life Science Sensing": 0.7011451125144958, "Quantum sensing Detection": 0.6711300611495972, "Quantum sensing Metrology": 0.6606091856956482, "Quantum sensing navigation": 0.6729087233543396, "Quantum sensing Position": 0.6666722893714905, "Quantum sensing Timing": 0.6645958423614502, "Quantum sensing": 0.6856615543365479, "Quantum control": 0.6643408536911011 } }, { "id": 6730, "title": "Nuclear-modification factor for open-heavy-flavor production at forward rapidity in Cu plus Cu collisions at √sNN=200 GeV", "abstract": "Background: Heavy-flavor production in p + p collisions is a good test of perturbative-quantum-chromodynamics (pQCD) calculations. Modification of heavy-flavor production in heavy-ion collisions relat...", "citations": 36, "author_count": 378, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6737, "doi": "10.1103/PhysRevC.86.024909", "umap_coordinates": { "x": 396.23553466796875, "y": 134.99496459960938, "z": 208.0836944580078 }, "tsne_coordinates": { "x": -36.2518310546875, "y": 4.416297435760498, "z": -19.90982437133789 }, "pca_coordinates": { "x": 1.1557979583740234, "y": 1.175905704498291, "z": 0.031753718852996826 }, "axis_scores": { "Quantum imaging": 0.6624125242233276, "Quantum Life Science Sensing": 0.6734692454338074, "Quantum sensing Detection": 0.6725486516952515, "Quantum sensing Metrology": 0.6471473574638367, "Quantum sensing navigation": 0.6892166137695312, "Quantum sensing Position": 0.6421480774879456, "Quantum sensing Timing": 0.6598192453384399, "Quantum sensing": 0.6759843826293945, "Quantum control": 0.6877483129501343 } }, { "id": 6731, "title": "Long-term monitoring of PKS 0537-441 with Fermi-LAT and multiwavelength observations", "abstract": "We report on multiwavelength observations of the blazar PKS 0537-441 (z = 0.896) obtained from microwaves through gamma-rays by Submillimeter Array, Rapid Eye Mounting, Automatic Telescope for Optical...", "citations": 36, "author_count": 25, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6738, "doi": "10.1093/mnras/stt344", "umap_coordinates": { "x": 396.0994567871094, "y": 135.15658569335938, "z": 205.8096466064453 }, "tsne_coordinates": { "x": -32.30618667602539, "y": 24.675926208496094, "z": 3.015005588531494 }, "pca_coordinates": { "x": -1.616619348526001, "y": 1.1056137084960938, "z": 2.566267251968384 }, "axis_scores": { "Quantum imaging": 0.6663275361061096, "Quantum Life Science Sensing": 0.7046756744384766, "Quantum sensing Detection": 0.6680276989936829, "Quantum sensing Metrology": 0.6803668737411499, "Quantum sensing navigation": 0.6851114630699158, "Quantum sensing Position": 0.6777372360229492, "Quantum sensing Timing": 0.6798566579818726, "Quantum sensing": 0.6764371395111084, "Quantum control": 0.6218239068984985 } }, { "id": 6732, "title": "Impact of Wolfmet Tungsten Alloys as Parallel-Hole Collimator Material on Single-Photon Emission Computed Tomography Image Quality and Functional Parameters: A Simulating Medical Imaging Nuclear Detectors Monte Carlo Study", "abstract": "Objectives Collimators have a significant role in image quality and detectability in single-photon emission computed tomography (SPECT) imaging. Using an appropriate alloy that effectively absorbs sca...", "citations": 2, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6739, "doi": "10.1055/s-0043-1771287", "umap_coordinates": { "x": 395.5416564941406, "y": 132.9237518310547, "z": 205.22158813476562 }, "tsne_coordinates": { "x": -7.118397235870361, "y": 21.804092407226562, "z": -6.943316459655762 }, "pca_coordinates": { "x": -2.953547239303589, "y": 1.4262884855270386, "z": 4.080087661743164 }, "axis_scores": { "Quantum imaging": 0.7176522016525269, "Quantum Life Science Sensing": 0.6948871612548828, "Quantum sensing Detection": 0.6752451658248901, "Quantum sensing Metrology": 0.6863448619842529, "Quantum sensing navigation": 0.6841958165168762, "Quantum sensing Position": 0.691612958908081, "Quantum sensing Timing": 0.6888026595115662, "Quantum sensing": 0.6869397163391113, "Quantum control": 0.6500949263572693 } }, { "id": 6733, "title": "Does quantitative lung SPECT detect lung abnormalities earlier than lung function tests? Results of a pilot study", "abstract": "Background: Heterogeneous ventilation in lungs of individuals with allergies, cigarette smokers, asthmatics and chronic obstructive pulmonary disease (COPD) patients has been demonstrated using imagin...", "citations": 10, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6740, "doi": "10.1186/s13550-014-0039-1", "umap_coordinates": { "x": 395.476806640625, "y": 133.8992919921875, "z": 204.6266326904297 }, "tsne_coordinates": { "x": -8.006000518798828, "y": 31.592872619628906, "z": -9.40876579284668 }, "pca_coordinates": { "x": -2.9482040405273438, "y": 4.015593528747559, "z": 0.841448962688446 }, "axis_scores": { "Quantum imaging": 0.6881827712059021, "Quantum Life Science Sensing": 0.685297429561615, "Quantum sensing Detection": 0.6649913787841797, "Quantum sensing Metrology": 0.6552884578704834, "Quantum sensing navigation": 0.6560001373291016, "Quantum sensing Position": 0.6534750461578369, "Quantum sensing Timing": 0.6565266251564026, "Quantum sensing": 0.6733841300010681, "Quantum control": 0.6474506258964539 } }, { "id": 6734, "title": "Estimating northern peatland CO2 exchange from MODIS time series data", "abstract": "Studies using satellite sensor-derived data as input to models for CO2 exchange show promising results for closed forest stands. There is a need for extending this approach to other land cover types, ...", "citations": 82, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6741, "doi": "10.1016/j.rse.2010.01.005", "umap_coordinates": { "x": 393.6212158203125, "y": 133.83824157714844, "z": 204.8680877685547 }, "tsne_coordinates": { "x": 18.719316482543945, "y": 37.606163024902344, "z": 4.509772777557373 }, "pca_coordinates": { "x": -3.4159374237060547, "y": 1.1967285871505737, "z": 0.08136576414108276 }, "axis_scores": { "Quantum imaging": 0.671113133430481, "Quantum Life Science Sensing": 0.703559935092926, "Quantum sensing Detection": 0.6836117506027222, "Quantum sensing Metrology": 0.7010801434516907, "Quantum sensing navigation": 0.6979718208312988, "Quantum sensing Position": 0.6724141240119934, "Quantum sensing Timing": 0.6808958053588867, "Quantum sensing": 0.7044158577919006, "Quantum control": 0.6546502113342285 } }, { "id": 6735, "title": "SOME PHYSICAL FACTORS INFLUENCING THE ACCURACY OF CONVOLUTION SCATTER CORRECTION IN SPECT", "abstract": "Some important physical factors influencing the accuracy of convolution scatter correction techniques in SPECT are presented. In these techniques scatter correction in the projection relies on filter ...", "citations": 31, "author_count": 4, "categories": [ "Engineering" ], "year": 1989, "topic": [ "all" ], "embedding_index": 6742, "doi": "10.1088/0031-9155/34/3/002", "umap_coordinates": { "x": 396.0803527832031, "y": 133.22190856933594, "z": 205.205078125 }, "tsne_coordinates": { "x": -12.031704902648926, "y": 31.446956634521484, "z": -13.59028148651123 }, "pca_coordinates": { "x": -1.603136420249939, "y": 3.600057601928711, "z": 2.3228328227996826 }, "axis_scores": { "Quantum imaging": 0.6778491139411926, "Quantum Life Science Sensing": 0.6561115980148315, "Quantum sensing Detection": 0.6514982581138611, "Quantum sensing Metrology": 0.6596657037734985, "Quantum sensing navigation": 0.6738893985748291, "Quantum sensing Position": 0.6758112907409668, "Quantum sensing Timing": 0.6684865355491638, "Quantum sensing": 0.6659219861030579, "Quantum control": 0.6326932311058044 } }, { "id": 6736, "title": "The IAEA remote audit of small field dosimetry for testing the implementation of the TRS-483 code of practice", "abstract": "BackgroundThe TRS-483, an IAEA/AAPM International Code of Practice on dosimetry of small static photon fields, underwent testing via an IAEA coordinated research project (CRP). Alongside small field o...", "citations": 5, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6743, "doi": "10.1002/mp.17109", "umap_coordinates": { "x": 395.6042175292969, "y": 133.9532012939453, "z": 204.97023010253906 }, "tsne_coordinates": { "x": -15.252771377563477, "y": 32.986061096191406, "z": -19.49703025817871 }, "pca_coordinates": { "x": -2.4647340774536133, "y": 4.330289363861084, "z": 1.8158495426177979 }, "axis_scores": { "Quantum imaging": 0.695032000541687, "Quantum Life Science Sensing": 0.7133397459983826, "Quantum sensing Detection": 0.6837571859359741, "Quantum sensing Metrology": 0.710608184337616, "Quantum sensing navigation": 0.6931220889091492, "Quantum sensing Position": 0.6947217583656311, "Quantum sensing Timing": 0.6921421885490417, "Quantum sensing": 0.7050590515136719, "Quantum control": 0.6644840836524963 } }, { "id": 6737, "title": "Decisive role of mathematical methods in early cancer diagnostics: optimized Pade-based magnetic resonance spectroscopy", "abstract": "Key to cancer treatment and overall tumor control is early diagnostics. Remarkably, Magnetic Resonance (MR) physics with the underlying mathematics for the reconstruction problems plays a pivotal role...", "citations": 9, "author_count": 3, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6744, "doi": "10.1007/s10910-007-9227-9", "umap_coordinates": { "x": 394.7743225097656, "y": 133.88552856445312, "z": 204.464111328125 }, "tsne_coordinates": { "x": -2.136904001235962, "y": 30.167585372924805, "z": -5.954547882080078 }, "pca_coordinates": { "x": -2.381166458129883, "y": 2.5073392391204834, "z": -0.659233570098877 }, "axis_scores": { "Quantum imaging": 0.7087980508804321, "Quantum Life Science Sensing": 0.698946475982666, "Quantum sensing Detection": 0.6799464821815491, "Quantum sensing Metrology": 0.6759546995162964, "Quantum sensing navigation": 0.6856005191802979, "Quantum sensing Position": 0.6889835596084595, "Quantum sensing Timing": 0.6688817143440247, "Quantum sensing": 0.681891679763794, "Quantum control": 0.6513129472732544 } }, { "id": 6738, "title": "Structure and spectrum of the hydrated electron. A combined quantum chemical statistical mechanical simulation", "abstract": "In the current work, in order to model a free electron solvated in water, we have implemented a method to represent the molecular charge distribution as a set of Slater-type functions within the frame...", "citations": 4, "author_count": 4, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6745, "doi": "10.1016/j.molliq.2019.111300", "umap_coordinates": { "x": 393.7612609863281, "y": 137.0760498046875, "z": 206.00668334960938 }, "tsne_coordinates": { "x": -3.8847367763519287, "y": 14.303254127502441, "z": 31.577926635742188 }, "pca_coordinates": { "x": 0.5947350263595581, "y": 1.2817702293395996, "z": -1.6528904438018799 }, "axis_scores": { "Quantum imaging": 0.7564749121665955, "Quantum Life Science Sensing": 0.7660638093948364, "Quantum sensing Detection": 0.7358904480934143, "Quantum sensing Metrology": 0.7406874299049377, "Quantum sensing navigation": 0.7299957275390625, "Quantum sensing Position": 0.7114720344543457, "Quantum sensing Timing": 0.6821562647819519, "Quantum sensing": 0.7550563812255859, "Quantum control": 0.7204104661941528 } }, { "id": 6739, "title": "Timing properties of superconducting nanowire single-photon detectors", "abstract": "In this paper, we review theoretical and experimental research progress on timing properties of superconducting nanowire single-photon detectors, including six possible mechanisms that induce timing j...", "citations": 1, "author_count": 14, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6746, "doi": "10.1117/12.2520271", "umap_coordinates": { "x": 394.6026306152344, "y": 133.24591064453125, "z": 207.51797485351562 }, "tsne_coordinates": { "x": -9.687597274780273, "y": 5.850611686706543, "z": -29.77082061767578 }, "pca_coordinates": { "x": 0.41047239303588867, "y": -1.4741497039794922, "z": 4.18710470199585 }, "axis_scores": { "Quantum imaging": 0.7178881168365479, "Quantum Life Science Sensing": 0.717690110206604, "Quantum sensing Detection": 0.7407041788101196, "Quantum sensing Metrology": 0.7219088673591614, "Quantum sensing navigation": 0.7473469376564026, "Quantum sensing Position": 0.7433887124061584, "Quantum sensing Timing": 0.8292524814605713, "Quantum sensing": 0.7393025159835815, "Quantum control": 0.6946339011192322 } }, { "id": 6740, "title": "Modeling continuum polarization levels of tidal disruption events based on the collision-induced outflow model", "abstract": "Tidal disruption events (TDEs) have been observed in the optical and ultraviolet (UV) for more than a decade, but the underlying emission mechanism still remains a puzzle. It has been suggested that v...", "citations": 6, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6747, "doi": "10.1051/0004-6361/202245014", "umap_coordinates": { "x": 395.38848876953125, "y": 135.9844207763672, "z": 205.46104431152344 }, "tsne_coordinates": { "x": -5.048012733459473, "y": 21.606338500976562, "z": 21.930648803710938 }, "pca_coordinates": { "x": 0.6308631896972656, "y": 2.8377909660339355, "z": -0.8024143576622009 }, "axis_scores": { "Quantum imaging": 0.6776110529899597, "Quantum Life Science Sensing": 0.6790851950645447, "Quantum sensing Detection": 0.6629592180252075, "Quantum sensing Metrology": 0.6379280090332031, "Quantum sensing navigation": 0.6558663249015808, "Quantum sensing Position": 0.63739413022995, "Quantum sensing Timing": 0.6719110012054443, "Quantum sensing": 0.6568750739097595, "Quantum control": 0.6712049245834351 } }, { "id": 6741, "title": "An MR-only acquisition and artificial intelligence based image-processing protocol for photon and proton therapy using a low field MR", "abstract": "Objective: Recent developments on synthetically generated CTs (sCT), hybrid MRI linacs and MR-only simulations underlined the clinical feasibility and acceptance of MR guided radiation therapy. Howeve...", "citations": 11, "author_count": 10, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6748, "doi": "10.1016/j.zemedi.2020.10.004", "umap_coordinates": { "x": 395.5426025390625, "y": 132.9038543701172, "z": 204.84902954101562 }, "tsne_coordinates": { "x": 3.3061320781707764, "y": 25.160648345947266, "z": -19.45949935913086 }, "pca_coordinates": { "x": -2.58292293548584, "y": 5.319032669067383, "z": 2.292454481124878 }, "axis_scores": { "Quantum imaging": 0.7154301404953003, "Quantum Life Science Sensing": 0.6961647272109985, "Quantum sensing Detection": 0.6598819494247437, "Quantum sensing Metrology": 0.6619561910629272, "Quantum sensing navigation": 0.6654546856880188, "Quantum sensing Position": 0.6426502466201782, "Quantum sensing Timing": 0.647774875164032, "Quantum sensing": 0.6726044416427612, "Quantum control": 0.6452171802520752 } }, { "id": 6742, "title": "D-wave effects in diffractive electroproduction of heavy quarkonia from the photon-like V → Q(Q)over-bar transition", "abstract": "We analyse the validity of a commonly used identification between structures of the virtual photon gamma*-> Q (Q) over bar over bar and vector meson V -> Q (Q) over bar over bartransitions. In the exi...", "citations": 12, "author_count": 4, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6749, "doi": "10.1140/epjc/s10052-020-7678-3", "umap_coordinates": { "x": 396.42718505859375, "y": 134.8513641357422, "z": 207.32443237304688 }, "tsne_coordinates": { "x": -26.756309509277344, "y": 13.599152565002441, "z": -7.125157356262207 }, "pca_coordinates": { "x": 0.7173042297363281, "y": 0.7173459529876709, "z": 0.6593700051307678 }, "axis_scores": { "Quantum imaging": 0.6759374141693115, "Quantum Life Science Sensing": 0.6682922840118408, "Quantum sensing Detection": 0.6639299392700195, "Quantum sensing Metrology": 0.6523537039756775, "Quantum sensing navigation": 0.6596463322639465, "Quantum sensing Position": 0.6541383862495422, "Quantum sensing Timing": 0.6615335941314697, "Quantum sensing": 0.6723220944404602, "Quantum control": 0.6668820977210999 } }, { "id": 6743, "title": "Clinical application of in vivo treatment delivery verification based on PET/CT imaging of positron activity induced at high energy photon therapy", "abstract": "The purpose of this study was to investigate in vivo verification of radiation treatment with high energy photon beams using PET/CT to image the induced positron activity. The measurements of the posi...", "citations": 4, "author_count": 10, "categories": [ "Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6750, "doi": "10.1088/0031-9155/58/16/5541", "umap_coordinates": { "x": 395.7970886230469, "y": 133.18560791015625, "z": 204.9867401123047 }, "tsne_coordinates": { "x": -13.180377960205078, "y": 27.359622955322266, "z": -16.804027557373047 }, "pca_coordinates": { "x": -2.3600924015045166, "y": 3.368683338165283, "z": 3.6072893142700195 }, "axis_scores": { "Quantum imaging": 0.7146832942962646, "Quantum Life Science Sensing": 0.6883060336112976, "Quantum sensing Detection": 0.6883602142333984, "Quantum sensing Metrology": 0.6670281291007996, "Quantum sensing navigation": 0.672206699848175, "Quantum sensing Position": 0.6803062558174133, "Quantum sensing Timing": 0.6974682211875916, "Quantum sensing": 0.6806550025939941, "Quantum control": 0.6492844223976135 } }, { "id": 6744, "title": "Development of an efficient scanning and purging magnet system for IMRT with narrow high energy photon beams", "abstract": "Due to the clinical advantages of intensity Modulated Radiation Therapy (IMRT) high flexibility and accuracy in intensity modulated dose delivery is desirable to really maximize treatment outcome. Alt...", "citations": 1, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6751, "doi": "10.1016/j.nima.2009.10.062", "umap_coordinates": { "x": 394.62847900390625, "y": 132.752197265625, "z": 205.35752868652344 }, "tsne_coordinates": { "x": -16.728168487548828, "y": 21.438690185546875, "z": -12.732538223266602 }, "pca_coordinates": { "x": -3.1803693771362305, "y": 0.8756587505340576, "z": 2.780817985534668 }, "axis_scores": { "Quantum imaging": 0.7343119978904724, "Quantum Life Science Sensing": 0.7140963673591614, "Quantum sensing Detection": 0.6986555457115173, "Quantum sensing Metrology": 0.7120600938796997, "Quantum sensing navigation": 0.7070463299751282, "Quantum sensing Position": 0.6673169732093811, "Quantum sensing Timing": 0.6606168746948242, "Quantum sensing": 0.7051048874855042, "Quantum control": 0.6605232357978821 } }, { "id": 6745, "title": "Tissue-derived mesenchymal stromal cells used as vehicles for anti-tumor therapy exert different in vivo effects on migration capacity and tumor growth", "abstract": "Background: Mesenchymal stem cells (MSCs) have been promoted as an attractive option to use as cellular delivery vehicles to carry anti-tumor agents, owing to their ability to home into tumor sites an...", "citations": 70, "author_count": 12, "categories": [ "General & Internal Medicine" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6752, "doi": "10.1186/1741-7015-11-139", "umap_coordinates": { "x": 394.4676208496094, "y": 134.19813537597656, "z": 204.04884338378906 }, "tsne_coordinates": { "x": 14.766593933105469, "y": 27.40764045715332, "z": -5.952898979187012 }, "pca_coordinates": { "x": -3.073382616043091, "y": 3.537888765335083, "z": -1.222685694694519 }, "axis_scores": { "Quantum imaging": 0.6369502544403076, "Quantum Life Science Sensing": 0.651451051235199, "Quantum sensing Detection": 0.6113511323928833, "Quantum sensing Metrology": 0.6134718060493469, "Quantum sensing navigation": 0.6357906460762024, "Quantum sensing Position": 0.6143365502357483, "Quantum sensing Timing": 0.6290026903152466, "Quantum sensing": 0.6209659576416016, "Quantum control": 0.6197692155838013 } }, { "id": 6746, "title": "Investigation of dark count rate in NbRe microstrips for single photon detection", "abstract": "Superconducting microstrip single photon detectors (SMSPDs) received great interest since they are expected to combine the excellent performance of superconducting nanostrip single photon detectors wi...", "citations": 10, "author_count": 12, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6753, "doi": "10.1088/1361-6668/acf24a", "umap_coordinates": { "x": 394.95355224609375, "y": 133.63658142089844, "z": 207.14715576171875 }, "tsne_coordinates": { "x": -13.303378105163574, "y": 5.965587615966797, "z": -27.534465789794922 }, "pca_coordinates": { "x": -0.4715542197227478, "y": -0.3624532222747803, "z": 3.3006703853607178 }, "axis_scores": { "Quantum imaging": 0.6929803490638733, "Quantum Life Science Sensing": 0.7098645567893982, "Quantum sensing Detection": 0.6934566497802734, "Quantum sensing Metrology": 0.6868098974227905, "Quantum sensing navigation": 0.6767919659614563, "Quantum sensing Position": 0.6614843010902405, "Quantum sensing Timing": 0.6812220215797424, "Quantum sensing": 0.6888761520385742, "Quantum control": 0.6498132348060608 } }, { "id": 6747, "title": "Effects of boundaries and density inhomogeneity on states of vortex matter in Bose-Einstein condensates at finite temperature", "abstract": "Most of the literature on quantum vortices predicting various states of vortex matter in three dimensions at finite temperatures in quantum fluids is based on the assumption of an extended and homogen...", "citations": 7, "author_count": 4, "categories": [ "Optics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6754, "doi": "10.1103/PhysRevA.77.043605", "umap_coordinates": { "x": 394.73150634765625, "y": 136.60887145996094, "z": 209.17803955078125 }, "tsne_coordinates": { "x": -14.142769813537598, "y": -19.588314056396484, "z": 27.561962127685547 }, "pca_coordinates": { "x": 4.470690727233887, "y": 0.7623131275177002, "z": -1.9880306720733643 }, "axis_scores": { "Quantum imaging": 0.70648193359375, "Quantum Life Science Sensing": 0.7031328678131104, "Quantum sensing Detection": 0.6906363368034363, "Quantum sensing Metrology": 0.6827951073646545, "Quantum sensing navigation": 0.689635157585144, "Quantum sensing Position": 0.6948568820953369, "Quantum sensing Timing": 0.7017486095428467, "Quantum sensing": 0.7003044486045837, "Quantum control": 0.7069746255874634 } }, { "id": 6748, "title": "A novel statistical analysis method to improve the detection of hepatic foci of 111In-octreotide in SPECT/CT imaging", "abstract": "Background: Low uptake ratios, high noise, poor resolution, and low contrast all combine to make the detection of neuroendocrine liver tumours by In-111-octreotide single photon emission tomography (S...", "citations": 13, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6755, "doi": "10.1186/s40658-016-0137-4", "umap_coordinates": { "x": 395.55145263671875, "y": 133.39198303222656, "z": 204.6764678955078 }, "tsne_coordinates": { "x": -7.531869411468506, "y": 29.68527603149414, "z": -11.081949234008789 }, "pca_coordinates": { "x": -2.854053020477295, "y": 4.021061897277832, "z": 2.0066967010498047 }, "axis_scores": { "Quantum imaging": 0.6992283463478088, "Quantum Life Science Sensing": 0.6659598350524902, "Quantum sensing Detection": 0.6783239245414734, "Quantum sensing Metrology": 0.6611853837966919, "Quantum sensing navigation": 0.6771714091300964, "Quantum sensing Position": 0.6632189750671387, "Quantum sensing Timing": 0.6731956601142883, "Quantum sensing": 0.6759213805198669, "Quantum control": 0.6657066345214844 } }, { "id": 6749, "title": "PHOTOSYSTEM-II REACTION CENTERS STAY INTACT DURING LOW-TEMPERATURE PHOTOINHIBITION", "abstract": "Photoinhibition of photosynthesis was studied in intact barley leaves at 5 and 20-degrees-C, to reveal if Photosystem II becomes predisposed to photoinhibition at low temperature by 1) creation of exc...", "citations": 65, "author_count": 6, "categories": [ "Plant Sciences" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6756, "doi": "10.1007/BF00014750", "umap_coordinates": { "x": 394.0212707519531, "y": 136.29273986816406, "z": 204.2117919921875 }, "tsne_coordinates": { "x": 9.288846015930176, "y": 29.257463455200195, "z": 8.031285285949707 }, "pca_coordinates": { "x": -1.4294838905334473, "y": 0.8274128437042236, "z": -2.88066029548645 }, "axis_scores": { "Quantum imaging": 0.6759809851646423, "Quantum Life Science Sensing": 0.7252574563026428, "Quantum sensing Detection": 0.6612792015075684, "Quantum sensing Metrology": 0.6587547659873962, "Quantum sensing navigation": 0.6648645997047424, "Quantum sensing Position": 0.6456700563430786, "Quantum sensing Timing": 0.6580603122711182, "Quantum sensing": 0.6802583932876587, "Quantum control": 0.678810179233551 } }, { "id": 6750, "title": "Quantum advantage based on photonics", "abstract": "Recent quantum advantage demonstration is a major step in the development of quantum technologies. Key enabling technology is single photon detection....", "citations": 1, "author_count": 2, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6757, "doi": "10.1117/1.AP.3.1.010501", "umap_coordinates": { "x": 394.7890625, "y": 135.02987670898438, "z": 206.40219116210938 }, "tsne_coordinates": { "x": 0.4021502435207367, "y": -7.765789985656738, "z": -23.04768943786621 }, "pca_coordinates": { "x": 0.4231436252593994, "y": -0.611283540725708, "z": 2.07110857963562 }, "axis_scores": { "Quantum imaging": 0.7693104147911072, "Quantum Life Science Sensing": 0.7326951622962952, "Quantum sensing Detection": 0.7569015026092529, "Quantum sensing Metrology": 0.7381376028060913, "Quantum sensing navigation": 0.7509564757347107, "Quantum sensing Position": 0.7459407448768616, "Quantum sensing Timing": 0.7155892848968506, "Quantum sensing": 0.772897481918335, "Quantum control": 0.7426799535751343 } }, { "id": 6751, "title": "Absorbed dose in AgBr in direct film for photon energies (<150keV): Relation to optical density - Theoretical calculation and experimental evaluation", "abstract": "In the radiological process it is necessary to develop tools so as to explore how X-rays can be used in the most effective way. Evaluation of models to derive measures of image quality and risk-relate...", "citations": 1, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6758, "doi": null, "umap_coordinates": { "x": 391.9043273925781, "y": 139.38417053222656, "z": 209.63490295410156 }, "tsne_coordinates": { "x": -3.9594783782958984, "y": 40.605865478515625, "z": -3.043144464492798 }, "pca_coordinates": { "x": -2.175039052963257, "y": 2.954528331756592, "z": -1.7553389072418213 }, "axis_scores": { "Quantum imaging": 0.7374908924102783, "Quantum Life Science Sensing": 0.7613287568092346, "Quantum sensing Detection": 0.7333858609199524, "Quantum sensing Metrology": 0.7149392366409302, "Quantum sensing navigation": 0.7231118083000183, "Quantum sensing Position": 0.6944983005523682, "Quantum sensing Timing": 0.6652208566665649, "Quantum sensing": 0.7409524917602539, "Quantum control": 0.7355703711509705 } }, { "id": 6752, "title": "Evaluation of quantitative 90Y SPECT based on experimental phantom studies", "abstract": "In SPECT imaging of pure beta emitters, such as Y-90, the acquired spectrum is very complex, which increases the demands on the imaging protocol and the reconstruction. In this work, we have evaluated...", "citations": 106, "author_count": 4, "categories": [ "Engineering" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6759, "doi": "10.1088/0031-9155/53/20/008", "umap_coordinates": { "x": 395.8619079589844, "y": 133.21249389648438, "z": 205.1106414794922 }, "tsne_coordinates": { "x": -10.873183250427246, "y": 29.78188705444336, "z": -13.614943504333496 }, "pca_coordinates": { "x": -2.4564449787139893, "y": 5.473433017730713, "z": 2.2122621536254883 }, "axis_scores": { "Quantum imaging": 0.7033781409263611, "Quantum Life Science Sensing": 0.6816269159317017, "Quantum sensing Detection": 0.6636484265327454, "Quantum sensing Metrology": 0.6719971895217896, "Quantum sensing navigation": 0.681914210319519, "Quantum sensing Position": 0.6726689338684082, "Quantum sensing Timing": 0.6588788032531738, "Quantum sensing": 0.6757348775863647, "Quantum control": 0.6390271782875061 } }, { "id": 6753, "title": "Structure, Cohesion Energetics, and Hydrogen Bonding Cooperativity in Fumaric Acid and Alkyl Fumarates: Insights from Experiment and Theory", "abstract": "Fumaric acid and alkyl fumarates are a family of structurally related compounds with a wide spectrum of potential or effective therapeutic applications. The series consisting of fumaric acid (FA), mon...", "citations": 1, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6760, "doi": "10.1021/acs.cgd.4c00894", "umap_coordinates": { "x": 393.1223449707031, "y": 136.96585083007812, "z": 205.15130615234375 }, "tsne_coordinates": { "x": 5.734640121459961, "y": 11.559229850769043, "z": 24.497983932495117 }, "pca_coordinates": { "x": -0.35091787576675415, "y": 0.9130833148956299, "z": -4.7470383644104 }, "axis_scores": { "Quantum imaging": 0.6841631531715393, "Quantum Life Science Sensing": 0.7248814105987549, "Quantum sensing Detection": 0.6666955351829529, "Quantum sensing Metrology": 0.6631966829299927, "Quantum sensing navigation": 0.6848621368408203, "Quantum sensing Position": 0.6637853980064392, "Quantum sensing Timing": 0.6455222368240356, "Quantum sensing": 0.6914318203926086, "Quantum control": 0.7048323154449463 } }, { "id": 6754, "title": "Role of the density, density effect and mean excitation energy in solid-state detectors for small photon fields", "abstract": "A number of recent publications on small photon beam dosimetry aim at contributing to the understanding of the response of solid-state detectors in small fields. Some of them assign the difference in ...", "citations": 27, "author_count": 3, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6761, "doi": "10.1088/1361-6560/aa562e", "umap_coordinates": { "x": 395.2016906738281, "y": 134.50167846679688, "z": 206.00314331054688 }, "tsne_coordinates": { "x": -17.631418228149414, "y": 32.82746887207031, "z": -14.830021858215332 }, "pca_coordinates": { "x": 0.29102349281311035, "y": 0.2883949279785156, "z": 2.375978946685791 }, "axis_scores": { "Quantum imaging": 0.714964747428894, "Quantum Life Science Sensing": 0.7160516977310181, "Quantum sensing Detection": 0.7110403180122375, "Quantum sensing Metrology": 0.6964488625526428, "Quantum sensing navigation": 0.6948385238647461, "Quantum sensing Position": 0.6924515962600708, "Quantum sensing Timing": 0.6767842173576355, "Quantum sensing": 0.7199355363845825, "Quantum control": 0.676115095615387 } }, { "id": 6755, "title": "Dose-mean lineal energy values for electrons by different Monte Carlo codes: Consequences for estimates of radiation quality in photon beams", "abstract": "Background The microdosimetric quantity lineal energy and its mean values have proven useful for quantifying radiation quality in many situations. The ratio of dose-mean lineal energies is perhaps the...", "citations": 11, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6762, "doi": "10.1002/mp.15412", "umap_coordinates": { "x": 395.8769226074219, "y": 133.50474548339844, "z": 205.4020233154297 }, "tsne_coordinates": { "x": -15.681028366088867, "y": 27.619083404541016, "z": -15.308364868164062 }, "pca_coordinates": { "x": -0.8527789115905762, "y": 1.4819647073745728, "z": 1.711176872253418 }, "axis_scores": { "Quantum imaging": 0.6831129193305969, "Quantum Life Science Sensing": 0.6839510202407837, "Quantum sensing Detection": 0.6593950390815735, "Quantum sensing Metrology": 0.6571910381317139, "Quantum sensing navigation": 0.6731911301612854, "Quantum sensing Position": 0.6695252060890198, "Quantum sensing Timing": 0.657159149646759, "Quantum sensing": 0.6655110120773315, "Quantum control": 0.6344578862190247 } }, { "id": 6756, "title": "Experimental and simulated M-shell nickel spectra in the 14.4-18.0 nm region from magnetic fusion devices", "abstract": "Experimental M-shell nickel spectra in the 14.4-16.5 nm region from the JET tokamak (from both divertor and limiter configurations) and from the reversed field pinch RFX have been simulated. These spe...", "citations": 17, "author_count": 7, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6763, "doi": "10.1088/0953-4075/37/1/002", "umap_coordinates": { "x": 395.4580383300781, "y": 135.06594848632812, "z": 206.13555908203125 }, "tsne_coordinates": { "x": -10.252120971679688, "y": -4.779539108276367, "z": -16.4674129486084 }, "pca_coordinates": { "x": -0.3466838598251343, "y": 1.887624979019165, "z": 1.0139117240905762 }, "axis_scores": { "Quantum imaging": 0.6926119327545166, "Quantum Life Science Sensing": 0.7008853554725647, "Quantum sensing Detection": 0.660560131072998, "Quantum sensing Metrology": 0.6711440682411194, "Quantum sensing navigation": 0.6593108177185059, "Quantum sensing Position": 0.6476453542709351, "Quantum sensing Timing": 0.6314718723297119, "Quantum sensing": 0.6698900461196899, "Quantum control": 0.6274739503860474 } }, { "id": 6757, "title": "Reaction Center Excitation in Photosystem II: From Multiscale Modeling to Functional Principles", "abstract": "Oxygenic photosynthesis is the fundamental energy-converting process that utilizes sunlight to generate molecular oxygen and the organic compounds that sustain life. Protein-pigment complexes harvest ...", "citations": 24, "author_count": 3, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6764, "doi": "10.1021/acs.accounts.3c00392", "umap_coordinates": { "x": 392.99725341796875, "y": 136.79966735839844, "z": 205.18252563476562 }, "tsne_coordinates": { "x": 3.4135491847991943, "y": 13.910507202148438, "z": 19.350467681884766 }, "pca_coordinates": { "x": -0.9616280198097229, "y": -1.0450341701507568, "z": -3.382075071334839 }, "axis_scores": { "Quantum imaging": 0.734355628490448, "Quantum Life Science Sensing": 0.749718964099884, "Quantum sensing Detection": 0.7223504781723022, "Quantum sensing Metrology": 0.7210900187492371, "Quantum sensing navigation": 0.7110482454299927, "Quantum sensing Position": 0.6790605187416077, "Quantum sensing Timing": 0.6934189200401306, "Quantum sensing": 0.7431105375289917, "Quantum control": 0.7210763692855835 } }, { "id": 6758, "title": "Biologically optimized 3-dimensional in vivo predictive assay-based radiation therapy using positron emission tomography-computerized tomography Imaging", "abstract": "PET-CT is probably the ultimate tool for accurate tumor imaging and 3-dimensional in vivo Predictive assay of radiation sensitivity By imaging the tumor twice during the early course of therapy, it sh...", "citations": 91, "author_count": 2, "categories": [ "Oncology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6765, "doi": "10.1080/02841860310004986", "umap_coordinates": { "x": 395.7178649902344, "y": 133.34654235839844, "z": 204.6425018310547 }, "tsne_coordinates": { "x": -0.07714460045099258, "y": 29.275131225585938, "z": -13.680426597595215 }, "pca_coordinates": { "x": -3.0439577102661133, "y": 3.6058082580566406, "z": 2.3621606826782227 }, "axis_scores": { "Quantum imaging": 0.7019882202148438, "Quantum Life Science Sensing": 0.6721432209014893, "Quantum sensing Detection": 0.653511643409729, "Quantum sensing Metrology": 0.6409631371498108, "Quantum sensing navigation": 0.6859069466590881, "Quantum sensing Position": 0.6714097857475281, "Quantum sensing Timing": 0.6696122884750366, "Quantum sensing": 0.6585118770599365, "Quantum control": 0.6499866843223572 } }, { "id": 6759, "title": "Single-photon detectors combining high efficiency, high detection rates, and ultra-high timing resolution", "abstract": "Single-photon detection with high efficiency, high time resolution, low dark counts, and high photon detection rates is crucial for a wide range of optical measurements. Although efficient detectors h...", "citations": 162, "author_count": 9, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6766, "doi": "10.1063/1.5000001", "umap_coordinates": { "x": 394.60906982421875, "y": 133.18563842773438, "z": 207.6162567138672 }, "tsne_coordinates": { "x": -11.727494239807129, "y": 6.004246711730957, "z": -35.561466217041016 }, "pca_coordinates": { "x": -0.5166800022125244, "y": -2.391435146331787, "z": 5.912109851837158 }, "axis_scores": { "Quantum imaging": 0.7236373424530029, "Quantum Life Science Sensing": 0.708366870880127, "Quantum sensing Detection": 0.7284075021743774, "Quantum sensing Metrology": 0.70664381980896, "Quantum sensing navigation": 0.6929416656494141, "Quantum sensing Position": 0.6744217276573181, "Quantum sensing Timing": 0.741941511631012, "Quantum sensing": 0.7270732522010803, "Quantum control": 0.6607969403266907 } }, { "id": 6760, "title": "A POSITION-SENSITIVE PHOTON DETECTOR USED AS A CHARGED-PARTICLE DETECTOR", "abstract": "A commercially available photon detector has been tested for simultaneous measurement of energy and position of charged particles. The results obtained are a 16.2 keV FWHM energy resolution for 5.8 Me...", "citations": 21, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 1991, "topic": [ "all" ], "embedding_index": 6767, "doi": "10.1016/0168-9002(91)90325-K", "umap_coordinates": { "x": 395.32421875, "y": 133.9012908935547, "z": 205.59181213378906 }, "tsne_coordinates": { "x": -14.064902305603027, "y": 15.259469985961914, "z": -3.744065761566162 }, "pca_coordinates": { "x": -1.6355739831924438, "y": 0.6031796932220459, "z": 2.7493767738342285 }, "axis_scores": { "Quantum imaging": 0.6927449703216553, "Quantum Life Science Sensing": 0.7150877714157104, "Quantum sensing Detection": 0.7115321159362793, "Quantum sensing Metrology": 0.7020086646080017, "Quantum sensing navigation": 0.7237789034843445, "Quantum sensing Position": 0.7550316452980042, "Quantum sensing Timing": 0.6944715976715088, "Quantum sensing": 0.7096191644668579, "Quantum control": 0.6447237730026245 } }, { "id": 6761, "title": "EPR and UV investigation of sucrose irradiated with nitrogen ions and gamma-rays", "abstract": "Sucrose irradiated with N-ions and gamma-rays is investigated by EPR and UV spectroscopy. Irradiation doses are in the range of 20-380 Gy and linear energy transfer (LET) for N-ions of 90, 125 and 160...", "citations": 24, "author_count": 4, "categories": [ "Nuclear Science & Technology" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6768, "doi": "10.1016/j.radmeas.2007.10.048", "umap_coordinates": { "x": 393.7842712402344, "y": 135.48764038085938, "z": 204.74305725097656 }, "tsne_coordinates": { "x": 2.5280978679656982, "y": 34.24241256713867, "z": -18.60654640197754 }, "pca_coordinates": { "x": -1.952858567237854, "y": 2.470548391342163, "z": 0.47012847661972046 }, "axis_scores": { "Quantum imaging": 0.7204471230506897, "Quantum Life Science Sensing": 0.7556111216545105, "Quantum sensing Detection": 0.6991490125656128, "Quantum sensing Metrology": 0.6934710741043091, "Quantum sensing navigation": 0.7136454582214355, "Quantum sensing Position": 0.6857361197471619, "Quantum sensing Timing": 0.6549654006958008, "Quantum sensing": 0.7136532068252563, "Quantum control": 0.6614949107170105 } }, { "id": 6762, "title": "Design of polarization-insensitive superconducting single photon detectors with high-index dielectrics", "abstract": "In this paper, the design of superconducting-nanowire single-photon detectors which are insensitive to the polarization of the incident light is investigated. By using high-refractive-index dielectric...", "citations": 19, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6769, "doi": "10.1088/1361-6668/30/3/035005", "umap_coordinates": { "x": 394.8677978515625, "y": 133.40280151367188, "z": 207.44664001464844 }, "tsne_coordinates": { "x": -13.6165132522583, "y": -1.3806579113006592, "z": -31.227577209472656 }, "pca_coordinates": { "x": -1.062432885169983, "y": -1.2422285079956055, "z": 4.160861015319824 }, "axis_scores": { "Quantum imaging": 0.7179075479507446, "Quantum Life Science Sensing": 0.7304176688194275, "Quantum sensing Detection": 0.7142951488494873, "Quantum sensing Metrology": 0.6902354955673218, "Quantum sensing navigation": 0.7027618885040283, "Quantum sensing Position": 0.6694784164428711, "Quantum sensing Timing": 0.6826444864273071, "Quantum sensing": 0.7153180241584778, "Quantum control": 0.661485493183136 } }, { "id": 6763, "title": "Design of broadband high-efficiency superconducting-nanowire single photon detectors", "abstract": "In this paper several designs to maximize the absorption efficiency of superconducting-nanowire single-photon detectors are investigated. Using a simple optical cavity consisting of a gold mirror and ...", "citations": 48, "author_count": 8, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6770, "doi": "10.1088/0953-2048/29/6/065016", "umap_coordinates": { "x": 394.8076171875, "y": 133.4241180419922, "z": 207.46543884277344 }, "tsne_coordinates": { "x": -15.872528076171875, "y": -0.10391296446323395, "z": -29.9090633392334 }, "pca_coordinates": { "x": -0.3289651870727539, "y": -2.402071952819824, "z": 4.536529064178467 }, "axis_scores": { "Quantum imaging": 0.7114443182945251, "Quantum Life Science Sensing": 0.7310159206390381, "Quantum sensing Detection": 0.7300266027450562, "Quantum sensing Metrology": 0.7063041925430298, "Quantum sensing navigation": 0.7286261916160583, "Quantum sensing Position": 0.7088145017623901, "Quantum sensing Timing": 0.7091657519340515, "Quantum sensing": 0.7277358770370483, "Quantum control": 0.6681291460990906 } }, { "id": 6764, "title": "High-temperature superconducting nanowires for photon detection", "abstract": "The possible use of high-temperature superconductors (HTS) for realizing superconducting nanowire single-photon detectors is a challenging, but also promising, aim because of their ultrafast electron ...", "citations": 43, "author_count": 11, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6771, "doi": "10.1016/j.physc.2014.09.017", "umap_coordinates": { "x": 394.0299072265625, "y": 133.23294067382812, "z": 206.04412841796875 }, "tsne_coordinates": { "x": 23.471139907836914, "y": 8.361688613891602, "z": 13.271871566772461 }, "pca_coordinates": { "x": -0.7259041666984558, "y": -2.9132914543151855, "z": 2.725830554962158 }, "axis_scores": { "Quantum imaging": 0.7401512861251831, "Quantum Life Science Sensing": 0.7556332349777222, "Quantum sensing Detection": 0.7616435289382935, "Quantum sensing Metrology": 0.7324237823486328, "Quantum sensing navigation": 0.7461197972297668, "Quantum sensing Position": 0.7264691591262817, "Quantum sensing Timing": 0.7253288626670837, "Quantum sensing": 0.7546074986457825, "Quantum control": 0.6922894716262817 } }, { "id": 6765, "title": "Investigation of dark counts in innovative materials for superconducting nanostripe single-photon detector applications", "abstract": "The phenomenon of dark counts in nanostripes of different superconductor systems such as high-temperature superconducting YBa2Cu3O7-x and superconductor/ferromagnet hybrids consisting of either NbN/Ni...", "citations": 2, "author_count": 13, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6772, "doi": "10.1117/12.2267647", "umap_coordinates": { "x": 395.109130859375, "y": 132.94224548339844, "z": 206.61123657226562 }, "tsne_coordinates": { "x": -12.248833656311035, "y": 4.9106316566467285, "z": -28.330503463745117 }, "pca_coordinates": { "x": -1.619969129562378, "y": -1.310107707977295, "z": 3.2724084854125977 }, "axis_scores": { "Quantum imaging": 0.730018138885498, "Quantum Life Science Sensing": 0.7461947202682495, "Quantum sensing Detection": 0.7289645075798035, "Quantum sensing Metrology": 0.7155922651290894, "Quantum sensing navigation": 0.7093077898025513, "Quantum sensing Position": 0.6918907761573792, "Quantum sensing Timing": 0.71312016248703, "Quantum sensing": 0.7275130748748779, "Quantum control": 0.67583829164505 } }, { "id": 6766, "title": "Fractal superconducting nanowire single-photon detectors working in dual bands and their applications in free-space and underwater hybrid LIDAR", "abstract": "We demonstrate a fiber-coupled fractal superconducting nanowire single-photon detector (SNSPD) system with minimum polarization dependence of detection efficiency. Its system detection efficiency (SDE...", "citations": 14, "author_count": 10, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6773, "doi": "10.1364/OL.481226", "umap_coordinates": { "x": 394.4391784667969, "y": 133.18954467773438, "z": 207.29078674316406 }, "tsne_coordinates": { "x": -11.562381744384766, "y": 2.372976779937744, "z": -28.93743896484375 }, "pca_coordinates": { "x": -0.5780807137489319, "y": -2.123457908630371, "z": 3.634420871734619 }, "axis_scores": { "Quantum imaging": 0.7369314432144165, "Quantum Life Science Sensing": 0.7592804431915283, "Quantum sensing Detection": 0.7448485493659973, "Quantum sensing Metrology": 0.7325928211212158, "Quantum sensing navigation": 0.7460330724716187, "Quantum sensing Position": 0.7115668654441833, "Quantum sensing Timing": 0.7088238596916199, "Quantum sensing": 0.7524642944335938, "Quantum control": 0.6807591319084167 } }, { "id": 6767, "title": "DRIFT OPTIMIZATION FOR THE PHOTON DETECTORS OF THE DELPHI FORWARD RING IMAGING CHERENKOV DETECTOR", "abstract": "The forward regions of the DELPHI experiment at LEP are equipped with ring imaging Cherenkov detectors, divided into 12 units in both end caps. Electrons are created through photoionization in the pho...", "citations": 1, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 1992, "topic": [ "all" ], "embedding_index": 6774, "doi": "10.1016/0168-9002(92)90316-V", "umap_coordinates": { "x": 394.8282165527344, "y": 134.08042907714844, "z": 205.70303344726562 }, "tsne_coordinates": { "x": -27.109399795532227, "y": 14.145039558410645, "z": -19.313608169555664 }, "pca_coordinates": { "x": -2.165811538696289, "y": 1.7881405353546143, "z": 1.089728832244873 }, "axis_scores": { "Quantum imaging": 0.7145200371742249, "Quantum Life Science Sensing": 0.7137928605079651, "Quantum sensing Detection": 0.6959909796714783, "Quantum sensing Metrology": 0.7007026672363281, "Quantum sensing navigation": 0.7225313782691956, "Quantum sensing Position": 0.7188690900802612, "Quantum sensing Timing": 0.6998439431190491, "Quantum sensing": 0.6950562596321106, "Quantum control": 0.6793829798698425 } }, { "id": 6768, "title": "Parallel single molecule detection with a fully integrated single-photon 2X2 CMOS detector array", "abstract": "We present parallel single molecule detection (SMD) and fluorescence correlation spectroscopy (FCS) experiments with a fully integrated complementary metal oxide semiconductor (CMOS) single-photon 2 X...", "citations": 68, "author_count": 10, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6775, "doi": "10.1117/1.1781668", "umap_coordinates": { "x": 394.78240966796875, "y": 132.9067840576172, "z": 207.15708923339844 }, "tsne_coordinates": { "x": -11.948427200317383, "y": 9.170257568359375, "z": -30.331409454345703 }, "pca_coordinates": { "x": -1.2406253814697266, "y": -1.8729729652404785, "z": 5.25397253036499 }, "axis_scores": { "Quantum imaging": 0.7671224474906921, "Quantum Life Science Sensing": 0.7437143325805664, "Quantum sensing Detection": 0.7771115303039551, "Quantum sensing Metrology": 0.7686562538146973, "Quantum sensing navigation": 0.7454943656921387, "Quantum sensing Position": 0.733146607875824, "Quantum sensing Timing": 0.7289150953292847, "Quantum sensing": 0.7765312194824219, "Quantum control": 0.7001267075538635 } }, { "id": 6769, "title": "Polarization-insensitive fiber-coupled superconducting-nanowire single photon detector using a high-index dielectric capping layer", "abstract": "Superconducting-nanowire single photon detectors (SNSPDs) are able to reach near-unity detection efficiency in the infrared spectral range. However, due to the intrinsic asymmetry of nanowires, SNSPDs...", "citations": 18, "author_count": 13, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6776, "doi": "10.1364/OE.26.017697", "umap_coordinates": { "x": 394.68634033203125, "y": 133.23622131347656, "z": 207.2779541015625 }, "tsne_coordinates": { "x": -11.927934646606445, "y": -0.8159996271133423, "z": -31.95343780517578 }, "pca_coordinates": { "x": -1.1743055582046509, "y": -3.1702799797058105, "z": 4.941483020782471 }, "axis_scores": { "Quantum imaging": 0.7091893553733826, "Quantum Life Science Sensing": 0.7144348621368408, "Quantum sensing Detection": 0.7342154383659363, "Quantum sensing Metrology": 0.695777177810669, "Quantum sensing navigation": 0.7121461033821106, "Quantum sensing Position": 0.6919285655021667, "Quantum sensing Timing": 0.689690113067627, "Quantum sensing": 0.7276498675346375, "Quantum control": 0.6718995571136475 } }, { "id": 6770, "title": "Single photon detection performance of highly disordered NbTiN thin films", "abstract": "We experimentally investigated the detection performance of highly disordered NbxTi1-xN based superconducting nanowire single photon detectors (SNSPDs). The dependence on the composition of the transi...", "citations": 14, "author_count": 13, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6777, "doi": "10.1088/2399-6528/acd747", "umap_coordinates": { "x": 394.63433837890625, "y": 133.18658447265625, "z": 207.31808471679688 }, "tsne_coordinates": { "x": -14.136682510375977, "y": 6.752167701721191, "z": -27.005115509033203 }, "pca_coordinates": { "x": -1.016542911529541, "y": -2.010788917541504, "z": 2.9947774410247803 }, "axis_scores": { "Quantum imaging": 0.7201245427131653, "Quantum Life Science Sensing": 0.7276270389556885, "Quantum sensing Detection": 0.7239840626716614, "Quantum sensing Metrology": 0.6957534551620483, "Quantum sensing navigation": 0.6878293752670288, "Quantum sensing Position": 0.679909348487854, "Quantum sensing Timing": 0.678616464138031, "Quantum sensing": 0.7187087535858154, "Quantum control": 0.6726263761520386 } }, { "id": 6771, "title": "Effects of Rashba spin-orbit coupling, Zeeman splitting and gyrotropy in two-dimensional cavity polaritons under the influence of the Landau quantization", "abstract": "We consider the energy spectrum of the two-dimensional cavity polaritons under the influence of a strong magnetic and electric fields perpendicular to the surface of the GaAs-type quantum wells (QWs) ...", "citations": 6, "author_count": 5, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6778, "doi": "10.1140/epjb/e2015-60335-7", "umap_coordinates": { "x": 393.75732421875, "y": 135.70770263671875, "z": 206.9760284423828 }, "tsne_coordinates": { "x": 15.90812873840332, "y": -23.034154891967773, "z": 12.053816795349121 }, "pca_coordinates": { "x": 1.5961830615997314, "y": -0.6378281116485596, "z": -1.850647211074829 }, "axis_scores": { "Quantum imaging": 0.7268129587173462, "Quantum Life Science Sensing": 0.7282786965370178, "Quantum sensing Detection": 0.7049305438995361, "Quantum sensing Metrology": 0.7069073915481567, "Quantum sensing navigation": 0.7213010787963867, "Quantum sensing Position": 0.7032073140144348, "Quantum sensing Timing": 0.6833050847053528, "Quantum sensing": 0.7250106334686279, "Quantum control": 0.7303734421730042 } }, { "id": 6772, "title": "Low kinetic inductance superconducting MgB2 nanowires with a 130 ps relaxation time for single-photon detection applications", "abstract": "Properties of superconducting nanowires set the performance level for superconducting nanowire single photon detectors (SNSPDs). Reset time in commonly employed large area SNSPDs, 1-10 ns, is known to...", "citations": 35, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6779, "doi": "10.1088/1361-6668/abdeda", "umap_coordinates": { "x": 394.8661804199219, "y": 134.19740295410156, "z": 206.97923278808594 }, "tsne_coordinates": { "x": -17.201475143432617, "y": -0.3917616307735443, "z": -30.82339096069336 }, "pca_coordinates": { "x": 0.03050386905670166, "y": -0.6580650806427002, "z": 2.017397403717041 }, "axis_scores": { "Quantum imaging": 0.6905222535133362, "Quantum Life Science Sensing": 0.7131003737449646, "Quantum sensing Detection": 0.6872740387916565, "Quantum sensing Metrology": 0.6781566143035889, "Quantum sensing navigation": 0.7027457356452942, "Quantum sensing Position": 0.6812026500701904, "Quantum sensing Timing": 0.7164914608001709, "Quantum sensing": 0.6935436129570007, "Quantum control": 0.6437407732009888 } }, { "id": 6773, "title": "Progress on large-scale superconducting nanowire single-photon detectors", "abstract": "Superconducting nanowires have emerged as a powerful tool for detecting single photons in the visible and near-infrared range with excellent device performance metrics. We outline challenges and futur...", "citations": 60, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6780, "doi": "10.1063/5.0044057", "umap_coordinates": { "x": 394.2058410644531, "y": 133.61190795898438, "z": 207.99923706054688 }, "tsne_coordinates": { "x": -15.318281173706055, "y": 2.2538070678710938, "z": -28.333248138427734 }, "pca_coordinates": { "x": 1.4309301376342773, "y": -2.883204460144043, "z": 3.8137168884277344 }, "axis_scores": { "Quantum imaging": 0.7171761989593506, "Quantum Life Science Sensing": 0.7276418805122375, "Quantum sensing Detection": 0.7319066524505615, "Quantum sensing Metrology": 0.7266380786895752, "Quantum sensing navigation": 0.7334796786308289, "Quantum sensing Position": 0.7289021015167236, "Quantum sensing Timing": 0.7075755596160889, "Quantum sensing": 0.7406591773033142, "Quantum control": 0.6902970671653748 } }, { "id": 6774, "title": "Kilometer-range, full-Stokes polarimetric imaging LiDAR using fractal superconducting nanowire single-photon detectors", "abstract": "Full-Stokes polarimetric imaging light detection and ranging (LiDAR) provides rich information about distance, materials, texture, surface orientations, and profiles of objects, and it is an important...", "citations": 5, "author_count": 9, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6781, "doi": "10.1063/5.0218531", "umap_coordinates": { "x": 394.540771484375, "y": 133.28436279296875, "z": 207.66282653808594 }, "tsne_coordinates": { "x": -10.23804759979248, "y": 2.0502407550811768, "z": -28.917293548583984 }, "pca_coordinates": { "x": 0.05198097229003906, "y": -2.3824801445007324, "z": 5.011058807373047 }, "axis_scores": { "Quantum imaging": 0.7328019142150879, "Quantum Life Science Sensing": 0.747811496257782, "Quantum sensing Detection": 0.7355424165725708, "Quantum sensing Metrology": 0.7389376163482666, "Quantum sensing navigation": 0.7416850328445435, "Quantum sensing Position": 0.7124866843223572, "Quantum sensing Timing": 0.6913594007492065, "Quantum sensing": 0.744221568107605, "Quantum control": 0.657001793384552 } }, { "id": 6775, "title": "Single-Photon Detection with a Josephson Junction Coupled to a Resonator", "abstract": "We use a semiclassical formalism to optimize a microwave single-photon detector based on switching events of a current-biased Josephson junction coupled to a resonator. To detect very rare events, the...", "citations": 19, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6782, "doi": "10.1103/PhysRevApplied.16.014025", "umap_coordinates": { "x": 394.8523864746094, "y": 133.86021423339844, "z": 208.25445556640625 }, "tsne_coordinates": { "x": -1.64243483543396, "y": -24.145105361938477, "z": -13.988080024719238 }, "pca_coordinates": { "x": 3.902742862701416, "y": -1.9215178489685059, "z": 4.450367450714111 }, "axis_scores": { "Quantum imaging": 0.7344278693199158, "Quantum Life Science Sensing": 0.7614656090736389, "Quantum sensing Detection": 0.7758211493492126, "Quantum sensing Metrology": 0.7488135695457458, "Quantum sensing navigation": 0.748489499092102, "Quantum sensing Position": 0.7262454032897949, "Quantum sensing Timing": 0.7197085618972778, "Quantum sensing": 0.7683700919151306, "Quantum control": 0.7016055583953857 } }, { "id": 6776, "title": "Full-Stokes polarimetric measurements and imaging using a fractal superconducting nanowire single-photon detector", "abstract": "Measuring the states of polarization (SoP) of light is fundamentally important for applications ranging from communication, sensing, spectroscopy, imaging, to navigation. Superconducting nanowire sing...", "citations": 33, "author_count": 10, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6783, "doi": "10.1364/OPTICA.451737", "umap_coordinates": { "x": 394.76171875, "y": 133.27008056640625, "z": 207.31935119628906 }, "tsne_coordinates": { "x": -10.279597282409668, "y": 1.3729184865951538, "z": -29.46516227722168 }, "pca_coordinates": { "x": -0.6277627348899841, "y": -1.4709947109222412, "z": 5.419494152069092 }, "axis_scores": { "Quantum imaging": 0.7434399127960205, "Quantum Life Science Sensing": 0.7290677428245544, "Quantum sensing Detection": 0.7369961738586426, "Quantum sensing Metrology": 0.7294723987579346, "Quantum sensing navigation": 0.7461252808570862, "Quantum sensing Position": 0.7049357295036316, "Quantum sensing Timing": 0.6950289607048035, "Quantum sensing": 0.7455902099609375, "Quantum control": 0.6719392538070679 } }, { "id": 6777, "title": "Compex: a cubic germanium detector", "abstract": "The Compex detector is an electrically cooled, composite germanium detector that uses four coaxial, cubic-shaped, single-encapsulated germanium crystals. This novel detector allows for new heights in ...", "citations": 8, "author_count": 11, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6784, "doi": "10.1140/epja/s10050-020-00155-3", "umap_coordinates": { "x": 395.6453552246094, "y": 135.08204650878906, "z": 206.27658081054688 }, "tsne_coordinates": { "x": -32.02421569824219, "y": 11.163376808166504, "z": 4.865367412567139 }, "pca_coordinates": { "x": -1.0356422662734985, "y": 1.818874478340149, "z": 0.38666313886642456 }, "axis_scores": { "Quantum imaging": 0.7186360359191895, "Quantum Life Science Sensing": 0.7216649055480957, "Quantum sensing Detection": 0.7274670600891113, "Quantum sensing Metrology": 0.7261790037155151, "Quantum sensing navigation": 0.7284993529319763, "Quantum sensing Position": 0.7221226096153259, "Quantum sensing Timing": 0.712547779083252, "Quantum sensing": 0.7347594499588013, "Quantum control": 0.7268642783164978 } }, { "id": 6778, "title": "Fractal superconducting nanowire single-photon detectors with reduced polarization sensitivity", "abstract": "We demonstrate superconducting nanowire single-photon detectors (SNSPDs) based on a fractal design of the nanowires to reduce the polarization sensitivity of detection efficiency. We patterned niobium...", "citations": 37, "author_count": 12, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6785, "doi": "10.1364/OL.43.005017", "umap_coordinates": { "x": 394.5513916015625, "y": 133.4225616455078, "z": 207.7418670654297 }, "tsne_coordinates": { "x": -11.378536224365234, "y": 1.677525281906128, "z": -30.579204559326172 }, "pca_coordinates": { "x": 0.4073662757873535, "y": -1.4882164001464844, "z": 3.752958297729492 }, "axis_scores": { "Quantum imaging": 0.7363021373748779, "Quantum Life Science Sensing": 0.7298811078071594, "Quantum sensing Detection": 0.7469298839569092, "Quantum sensing Metrology": 0.7162261009216309, "Quantum sensing navigation": 0.7399610877037048, "Quantum sensing Position": 0.7079146504402161, "Quantum sensing Timing": 0.7042259573936462, "Quantum sensing": 0.747861385345459, "Quantum control": 0.7001463770866394 } }, { "id": 6779, "title": "Fractal superconducting nanowire avalanche photodetector at 1550 nm with 60% system detection efficiency and 1.05 polarization sensitivity", "abstract": "Superconducting nanowire (nanostrip) single-photon detectors (SNSPDs) have shown unprecedented detection efficiency and timing properties, but simultaneously achieving polarization-insensitive high de...", "citations": 20, "author_count": 10, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6786, "doi": "10.1364/OL.377228", "umap_coordinates": { "x": 394.4255676269531, "y": 133.3532257080078, "z": 206.8631591796875 }, "tsne_coordinates": { "x": -12.001534461975098, "y": 0.8157239556312561, "z": -30.248212814331055 }, "pca_coordinates": { "x": 0.015240669250488281, "y": -1.5407037734985352, "z": 4.1362080574035645 }, "axis_scores": { "Quantum imaging": 0.7334173917770386, "Quantum Life Science Sensing": 0.7455705404281616, "Quantum sensing Detection": 0.7495788335800171, "Quantum sensing Metrology": 0.7291116714477539, "Quantum sensing navigation": 0.7571201324462891, "Quantum sensing Position": 0.7149245142936707, "Quantum sensing Timing": 0.7112016677856445, "Quantum sensing": 0.7491356134414673, "Quantum control": 0.699286699295044 } }, { "id": 6780, "title": "Contrast resolution of few-photon detectors", "abstract": "We investigate the minimum acquisition time, expressed as the number of image frames, and the minimum number of absorbed photons per pixel required to achieve a predefined contrast resolution in a mon...", "citations": 1, "author_count": 3, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6787, "doi": "10.1088/2515-7647/ababf6", "umap_coordinates": { "x": 395.151123046875, "y": 134.00930786132812, "z": 205.7208251953125 }, "tsne_coordinates": { "x": -7.9851274490356445, "y": 9.627685546875, "z": -18.177934646606445 }, "pca_coordinates": { "x": -1.5741835832595825, "y": 1.5344103574752808, "z": 3.200467586517334 }, "axis_scores": { "Quantum imaging": 0.7508459687232971, "Quantum Life Science Sensing": 0.7187789678573608, "Quantum sensing Detection": 0.7406047582626343, "Quantum sensing Metrology": 0.7277868390083313, "Quantum sensing navigation": 0.7217018604278564, "Quantum sensing Position": 0.7079669833183289, "Quantum sensing Timing": 0.708808183670044, "Quantum sensing": 0.7409330010414124, "Quantum control": 0.6865893006324768 } }, { "id": 6781, "title": "Visualizing Local Superconductivity of NbTiN Nanowires to Probe Inhomogeneity in Single-Photon Detectors", "abstract": "NbTiN has a high critical temperature (T c) of up to 17 K, making it a great candidate for superconducting nanowire single-photon detectors (SNSPDs) and other applications requiring a bias current clo...", "citations": 2, "author_count": 12, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6788, "doi": "10.1021/acsaom.3c00326", "umap_coordinates": { "x": 394.0645751953125, "y": 133.11866760253906, "z": 207.24063110351562 }, "tsne_coordinates": { "x": -15.55064868927002, "y": 4.15200662612915, "z": -32.51222610473633 }, "pca_coordinates": { "x": -1.1648226976394653, "y": -3.1504836082458496, "z": 2.017362117767334 }, "axis_scores": { "Quantum imaging": 0.7236957550048828, "Quantum Life Science Sensing": 0.7072957754135132, "Quantum sensing Detection": 0.7233567833900452, "Quantum sensing Metrology": 0.7074036002159119, "Quantum sensing navigation": 0.7248461246490479, "Quantum sensing Position": 0.7026835083961487, "Quantum sensing Timing": 0.6888526082038879, "Quantum sensing": 0.7202560305595398, "Quantum control": 0.6634864807128906 } }, { "id": 6782, "title": "Controlling an actively-quenched single photon detector with bright light", "abstract": "We control using bright light an actively-quenched avalanche single-photon detector. Actively-quenched detectors are commonly used for quantum key distribution (QKD) in the visible and near-infrared r...", "citations": 61, "author_count": 6, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6789, "doi": "10.1364/OE.19.023590", "umap_coordinates": { "x": 395.03692626953125, "y": 133.48223876953125, "z": 207.15667724609375 }, "tsne_coordinates": { "x": -8.564323425292969, "y": -0.24862948060035706, "z": -28.49209213256836 }, "pca_coordinates": { "x": -1.1602399349212646, "y": -0.9486992359161377, "z": 4.8266119956970215 }, "axis_scores": { "Quantum imaging": 0.7458302974700928, "Quantum Life Science Sensing": 0.7172748446464539, "Quantum sensing Detection": 0.7442931532859802, "Quantum sensing Metrology": 0.7234154343605042, "Quantum sensing navigation": 0.7335806488990784, "Quantum sensing Position": 0.7037319540977478, "Quantum sensing Timing": 0.7186652421951294, "Quantum sensing": 0.7501780390739441, "Quantum control": 0.7424786686897278 } }, { "id": 6783, "title": "NbN thin films grown on silicon by molecular beam epitaxy for superconducting detectors", "abstract": "Superconducting nanowire single photon detectors (SNSPDs) made with thin NbN films can reach high performances. While sputtering has been the deposition method of choice, here, we show that ammonia-mo...", "citations": 9, "author_count": 8, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6790, "doi": "10.1063/5.0175699", "umap_coordinates": { "x": 393.6894226074219, "y": 134.3900909423828, "z": 208.3014373779297 }, "tsne_coordinates": { "x": 18.492467880249023, "y": -33.82647705078125, "z": -11.647069931030273 }, "pca_coordinates": { "x": 1.9457530975341797, "y": -1.8604192733764648, "z": 1.685159683227539 }, "axis_scores": { "Quantum imaging": 0.7018735408782959, "Quantum Life Science Sensing": 0.719620943069458, "Quantum sensing Detection": 0.7147383689880371, "Quantum sensing Metrology": 0.7116405963897705, "Quantum sensing navigation": 0.7230193018913269, "Quantum sensing Position": 0.6996011137962341, "Quantum sensing Timing": 0.6791029572486877, "Quantum sensing": 0.724723756313324, "Quantum control": 0.6848609447479248 } }, { "id": 6784, "title": "Vortex nucleation barrier in superconductors beyond the Bean-Livingston approximation: A numerical approach for the sphaleron problem in a gauge theory", "abstract": "The knowledge of vortex nucleation barriers is crucial for applications of superconductors, such as single-photon detectors and superconductor-based qubits. Contrarily to the problem of finding energy...", "citations": 20, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6791, "doi": "10.1103/PhysRevB.101.220505", "umap_coordinates": { "x": 394.02685546875, "y": 137.10739135742188, "z": 208.56143188476562 }, "tsne_coordinates": { "x": -12.360846519470215, "y": -20.901260375976562, "z": 28.082904815673828 }, "pca_coordinates": { "x": 3.380283832550049, "y": -0.14902234077453613, "z": -1.3755240440368652 }, "axis_scores": { "Quantum imaging": 0.6455212235450745, "Quantum Life Science Sensing": 0.6683630347251892, "Quantum sensing Detection": 0.6554694771766663, "Quantum sensing Metrology": 0.6386255621910095, "Quantum sensing navigation": 0.6782386302947998, "Quantum sensing Position": 0.6475723385810852, "Quantum sensing Timing": 0.6615346670150757, "Quantum sensing": 0.6560056805610657, "Quantum control": 0.668215811252594 } }, { "id": 6785, "title": "Speckle-Insensitive Fractal Superconducting Nanowire Single-Photon Detector Coupled with Multimode Optical Fiber", "abstract": "Speckles are ubiquitous phenomena associated with multi-spatial-mode optics, which may reduce detection efficiency and induce modal noise if the photoresponse of the detector is polarization-dependent...", "citations": 9, "author_count": 9, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6792, "doi": "10.1002/lpor.202400342", "umap_coordinates": { "x": 394.6845397949219, "y": 133.10838317871094, "z": 207.1391143798828 }, "tsne_coordinates": { "x": -10.179100036621094, "y": 3.556671142578125, "z": -31.24626350402832 }, "pca_coordinates": { "x": -1.3734601736068726, "y": -1.596606731414795, "z": 4.100640773773193 }, "axis_scores": { "Quantum imaging": 0.7569984197616577, "Quantum Life Science Sensing": 0.7547808885574341, "Quantum sensing Detection": 0.7737447023391724, "Quantum sensing Metrology": 0.7439051866531372, "Quantum sensing navigation": 0.7476091980934143, "Quantum sensing Position": 0.7375811338424683, "Quantum sensing Timing": 0.7157514691352844, "Quantum sensing": 0.7713825702667236, "Quantum control": 0.7068620920181274 } }, { "id": 6786, "title": "Improvement of the critical temperature of NbTiN films on III-nitride substrates", "abstract": "In this paper, we study the impact of using III-nitride semiconductors (GaN, AlN) as substrates for ultrathin (11 nm) superconducting films of NbTiN deposited by reactive magnetron sputtering. The res...", "citations": 15, "author_count": 11, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6793, "doi": "10.1088/1361-6668/aaf99d", "umap_coordinates": { "x": 394.2012023925781, "y": 134.6116180419922, "z": 206.44737243652344 }, "tsne_coordinates": { "x": -20.59309196472168, "y": -1.7023080587387085, "z": -21.612611770629883 }, "pca_coordinates": { "x": -1.3066725730895996, "y": -0.10338497161865234, "z": 0.0692099928855896 }, "axis_scores": { "Quantum imaging": 0.6469270586967468, "Quantum Life Science Sensing": 0.6491687297821045, "Quantum sensing Detection": 0.6229085922241211, "Quantum sensing Metrology": 0.6311795711517334, "Quantum sensing navigation": 0.6310939192771912, "Quantum sensing Position": 0.6164926290512085, "Quantum sensing Timing": 0.649288535118103, "Quantum sensing": 0.638068437576294, "Quantum control": 0.6362110376358032 } }, { "id": 6787, "title": "Transient Motion Classification Through Turbid Volumes via Parallelized Single-Photon Detection and Deep Contrastive Embedding", "abstract": "Fast noninvasive probing of spatially varying decorrelating events, such as cerebral blood flow beneath the human skull, is an essential task in various scientific and clinical settings. One of the pr...", "citations": 4, "author_count": 15, "categories": [ "Neurosciences & Neurology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6794, "doi": "10.3389/fnins.2022.908770", "umap_coordinates": { "x": 394.7516784667969, "y": 134.12364196777344, "z": 205.68057250976562 }, "tsne_coordinates": { "x": -6.276799201965332, "y": 15.598804473876953, "z": -34.09095764160156 }, "pca_coordinates": { "x": -1.7274322509765625, "y": 2.3290419578552246, "z": 0.9368109107017517 }, "axis_scores": { "Quantum imaging": 0.764733612537384, "Quantum Life Science Sensing": 0.7308934926986694, "Quantum sensing Detection": 0.722453236579895, "Quantum sensing Metrology": 0.6996845602989197, "Quantum sensing navigation": 0.7428935766220093, "Quantum sensing Position": 0.6724485158920288, "Quantum sensing Timing": 0.6887506246566772, "Quantum sensing": 0.7272335290908813, "Quantum control": 0.709471583366394 } }, { "id": 6788, "title": "PERFORMANCE OF THE FORWARD RICH DETECTOR SYSTEM AT DELPHI", "abstract": "One quarter of the Forward Ring Imaging Cherenkov detector is installed and has been operated in the DELPHI experiment. The detector covers the forward-backward regions (15-degrees < theta < 35-degree...", "citations": 6, "author_count": 76, "categories": [ "Engineering" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6795, "doi": "10.1109/23.256621", "umap_coordinates": { "x": 395.7325134277344, "y": 134.25521850585938, "z": 206.28294372558594 }, "tsne_coordinates": { "x": -28.519794464111328, "y": 14.480742454528809, "z": -21.994592666625977 }, "pca_coordinates": { "x": 0.6476471424102783, "y": 1.5971894264221191, "z": 2.896852493286133 }, "axis_scores": { "Quantum imaging": 0.7231735587120056, "Quantum Life Science Sensing": 0.7035168409347534, "Quantum sensing Detection": 0.7249603867530823, "Quantum sensing Metrology": 0.6990503072738647, "Quantum sensing navigation": 0.7075697779655457, "Quantum sensing Position": 0.6927354335784912, "Quantum sensing Timing": 0.690155565738678, "Quantum sensing": 0.728217363357544, "Quantum control": 0.7012245059013367 } }, { "id": 6789, "title": "First fully integrated 2-D array of single-photon detectors in standard CMOS technology", "abstract": "A two-dimensional (2-D) array (4 by 8) of single-photon avalanche diodes integrated in an industrial complementary metal-oxide-semiconductor (CMOS) process is presented. Each pixel combines a photodio...", "citations": 140, "author_count": 8, "categories": [ "Engineering" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6796, "doi": "10.1109/LPT.2003.813387", "umap_coordinates": { "x": 395.01019287109375, "y": 133.08384704589844, "z": 206.75221252441406 }, "tsne_coordinates": { "x": -11.950180053710938, "y": 9.191254615783691, "z": -29.5943546295166 }, "pca_coordinates": { "x": -2.009291887283325, "y": -1.3364601135253906, "z": 4.766974449157715 }, "axis_scores": { "Quantum imaging": 0.7413968443870544, "Quantum Life Science Sensing": 0.7460694313049316, "Quantum sensing Detection": 0.7552342414855957, "Quantum sensing Metrology": 0.7394862771034241, "Quantum sensing navigation": 0.7203565239906311, "Quantum sensing Position": 0.7235830426216125, "Quantum sensing Timing": 0.738441526889801, "Quantum sensing": 0.7498588562011719, "Quantum control": 0.6786901950836182 } }, { "id": 6790, "title": "Dispersion engineering of superconducting waveguides for multi-pixel integration of single-photon detectors", "abstract": "We use dispersion engineering to control the signal propagation speed in the feed lines of superconducting single-photon detectors. Using this technique, we demonstrate time-division-multiplexing of t...", "citations": 4, "author_count": 9, "categories": [ "Optics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6797, "doi": "10.1063/5.0019734", "umap_coordinates": { "x": 394.4581298828125, "y": 133.24710083007812, "z": 207.59690856933594 }, "tsne_coordinates": { "x": -14.933238983154297, "y": 0.2845757007598877, "z": -28.563695907592773 }, "pca_coordinates": { "x": 0.09429752826690674, "y": -2.8693952560424805, "z": 4.6659369468688965 }, "axis_scores": { "Quantum imaging": 0.7430027723312378, "Quantum Life Science Sensing": 0.7365565896034241, "Quantum sensing Detection": 0.7305352091789246, "Quantum sensing Metrology": 0.7454584240913391, "Quantum sensing navigation": 0.7418342232704163, "Quantum sensing Position": 0.7309861183166504, "Quantum sensing Timing": 0.7195209860801697, "Quantum sensing": 0.7344434261322021, "Quantum control": 0.6813212037086487 } }, { "id": 6791, "title": "A CCD detector system for beam-foil spectroscopy", "abstract": "A thin back-illuminated CCD based photon detector system has been installed on the Rowland circle of a 2.2 meter grazing incidence spectrometer, replacing the previously used Ceratron single channel d...", "citations": 9, "author_count": 10, "categories": [ "Physics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 6798, "doi": "10.1238/Physica.Topical.080a00532", "umap_coordinates": { "x": 395.1617126464844, "y": 134.98387145996094, "z": 206.0758514404297 }, "tsne_coordinates": { "x": 6.035032272338867, "y": -2.6581954956054688, "z": 25.314987182617188 }, "pca_coordinates": { "x": -0.8745344281196594, "y": 0.396486759185791, "z": 0.8057944178581238 }, "axis_scores": { "Quantum imaging": 0.6831839680671692, "Quantum Life Science Sensing": 0.7055533528327942, "Quantum sensing Detection": 0.6781316995620728, "Quantum sensing Metrology": 0.6646212935447693, "Quantum sensing navigation": 0.6794962882995605, "Quantum sensing Position": 0.667370080947876, "Quantum sensing Timing": 0.6634674072265625, "Quantum sensing": 0.6747524738311768, "Quantum control": 0.6570366621017456 } }, { "id": 6792, "title": "Effects of Helium Ion Exposure on the Single-Photon Sensitivity of MgB2 and NbN Detectors", "abstract": "Improving the scalability, reproducibility, and operating temperature of superconducting nanowire single photon detectors (SNSPDs) has been a major research goal since the devices were first proposed....", "citations": 3, "author_count": 9, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6799, "doi": "10.1109/TASC.2024.3425158", "umap_coordinates": { "x": 394.3070068359375, "y": 133.0056610107422, "z": 206.4996337890625 }, "tsne_coordinates": { "x": -14.82647705078125, "y": 7.615685939788818, "z": -26.27935791015625 }, "pca_coordinates": { "x": -0.38820409774780273, "y": -0.8230161666870117, "z": 1.788893699645996 }, "axis_scores": { "Quantum imaging": 0.7097713351249695, "Quantum Life Science Sensing": 0.7396257519721985, "Quantum sensing Detection": 0.7299113273620605, "Quantum sensing Metrology": 0.7166717052459717, "Quantum sensing navigation": 0.712763249874115, "Quantum sensing Position": 0.698996365070343, "Quantum sensing Timing": 0.718287467956543, "Quantum sensing": 0.7287814617156982, "Quantum control": 0.6970103979110718 } }, { "id": 6793, "title": "Cascade switching current detectors based on arrays of Josephson junctions", "abstract": "Cascade multiplication is widely used to enhance photon detector sensitivity. While vacuum tube and semiconductor photomultipliers achieve high gains in the optical range, their performance at lower f...", "citations": 2, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6800, "doi": "10.1038/s41467-025-63360-y", "umap_coordinates": { "x": 394.3656311035156, "y": 134.0511016845703, "z": 207.20779418945312 }, "tsne_coordinates": { "x": -7.3754777908325195, "y": 5.665295124053955, "z": -6.3097381591796875 }, "pca_coordinates": { "x": -0.5023924112319946, "y": -0.7609903812408447, "z": 2.159860610961914 }, "axis_scores": { "Quantum imaging": 0.7164822816848755, "Quantum Life Science Sensing": 0.7237403988838196, "Quantum sensing Detection": 0.7149227261543274, "Quantum sensing Metrology": 0.6876015663146973, "Quantum sensing navigation": 0.7062930464744568, "Quantum sensing Position": 0.6899119019508362, "Quantum sensing Timing": 0.6909497380256653, "Quantum sensing": 0.7211449146270752, "Quantum control": 0.6943578720092773 } }, { "id": 6794, "title": "Transport properties of ultrathin YBa2Cu3O7-δ nanowires: A route to single-photon detection", "abstract": "We report on the growth and characterization of ultrathin YBa2Cu3O7-delta (YBCO) films on MgO (110) substrates, which exhibit superconducting properties at thicknesses down to 3 nm. YBCO nanowires, wi...", "citations": 49, "author_count": 10, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6801, "doi": "10.1103/PhysRevB.96.064525", "umap_coordinates": { "x": 394.429931640625, "y": 133.87510681152344, "z": 208.47723388671875 }, "tsne_coordinates": { "x": 8.106355667114258, "y": -23.688383102416992, "z": -7.738104343414307 }, "pca_coordinates": { "x": 2.003544569015503, "y": -3.336212635040283, "z": 2.323470115661621 }, "axis_scores": { "Quantum imaging": 0.7141845226287842, "Quantum Life Science Sensing": 0.7298507690429688, "Quantum sensing Detection": 0.7333571314811707, "Quantum sensing Metrology": 0.7138996720314026, "Quantum sensing navigation": 0.7352778315544128, "Quantum sensing Position": 0.6968453526496887, "Quantum sensing Timing": 0.6974464654922485, "Quantum sensing": 0.7390459179878235, "Quantum control": 0.6908341646194458 } }, { "id": 6795, "title": "Quantum Radar - What is it good for?", "abstract": "We consider the implications for the practical usefulness of a quantum enhanced radar system in the scenario where it is able to outperform any classical counterpart. In this context, we analyze the s...", "citations": 12, "author_count": 3, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6802, "doi": "10.1109/RadarConf2147009.2021.9455162", "umap_coordinates": { "x": 395.3773498535156, "y": 136.04823303222656, "z": 206.42572021484375 }, "tsne_coordinates": { "x": -46.3650016784668, "y": -7.580989837646484, "z": 7.12664270401001 }, "pca_coordinates": { "x": 0.4179422855377197, "y": 2.872959613800049, "z": 1.2555761337280273 }, "axis_scores": { "Quantum imaging": 0.7617359757423401, "Quantum Life Science Sensing": 0.7859078645706177, "Quantum sensing Detection": 0.7687727808952332, "Quantum sensing Metrology": 0.7635965943336487, "Quantum sensing navigation": 0.7630533576011658, "Quantum sensing Position": 0.731884241104126, "Quantum sensing Timing": 0.7584339380264282, "Quantum sensing": 0.7778486609458923, "Quantum control": 0.7520521879196167 } }, { "id": 6796, "title": "Dynamics of the relativistic electron spin in an electromagnetic field", "abstract": "A relativistic spin operator cannot be uniquely defined within relativistic quantum mechanics. Previously, different proper relativistic spin operators have been proposed, such as spin operators of th...", "citations": 9, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6803, "doi": "10.1088/1361-648X/aba675", "umap_coordinates": { "x": 393.6316833496094, "y": 136.65342712402344, "z": 207.478759765625 }, "tsne_coordinates": { "x": 2.101793050765991, "y": -16.307575225830078, "z": 31.843181610107422 }, "pca_coordinates": { "x": 2.6187431812286377, "y": 2.0336310863494873, "z": -1.2682840824127197 }, "axis_scores": { "Quantum imaging": 0.7296368479728699, "Quantum Life Science Sensing": 0.6945534944534302, "Quantum sensing Detection": 0.6889218688011169, "Quantum sensing Metrology": 0.6676343679428101, "Quantum sensing navigation": 0.7329137921333313, "Quantum sensing Position": 0.691066563129425, "Quantum sensing Timing": 0.683946430683136, "Quantum sensing": 0.7069876194000244, "Quantum control": 0.7134358286857605 } }, { "id": 6797, "title": "The Atomistic Spin Dynamics Equation of Motion", "abstract": "", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6804, "doi": null, "umap_coordinates": { "x": 392.3103332519531, "y": 139.19117736816406, "z": 209.31993103027344 }, "tsne_coordinates": { "x": -15.278995513916016, "y": 40.36699295043945, "z": 3.1677939891815186 }, "pca_coordinates": { "x": 2.2194650173187256, "y": 3.809180974960327, "z": -4.982156276702881 }, "axis_scores": { "Quantum imaging": 0.7317132949829102, "Quantum Life Science Sensing": 0.7340047359466553, "Quantum sensing Detection": 0.7119277119636536, "Quantum sensing Metrology": 0.701153039932251, "Quantum sensing navigation": 0.7547520995140076, "Quantum sensing Position": 0.7002934813499451, "Quantum sensing Timing": 0.6753936409950256, "Quantum sensing": 0.7216412425041199, "Quantum control": 0.7321332097053528 } }, { "id": 6798, "title": "Coherent and incoherent ultrafast magnetization dynamics in 3d ferromagnets driven by extreme terahertz fields", "abstract": "Ultrafast spin dynamics in magnetic materials is generally associated with ultrafast heating of the electronic system by a near infrared femtosecond laser pulse, thus offering only an indirect and non...", "citations": 34, "author_count": 8, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6805, "doi": "10.1103/PhysRevB.98.014405", "umap_coordinates": { "x": 393.352783203125, "y": 136.4406280517578, "z": 208.25994873046875 }, "tsne_coordinates": { "x": 2.1142454147338867, "y": -26.134950637817383, "z": 21.932838439941406 }, "pca_coordinates": { "x": 4.272165775299072, "y": -1.0538692474365234, "z": -1.331497073173523 }, "axis_scores": { "Quantum imaging": 0.7371086478233337, "Quantum Life Science Sensing": 0.7302585244178772, "Quantum sensing Detection": 0.7083046436309814, "Quantum sensing Metrology": 0.7065941095352173, "Quantum sensing navigation": 0.7011922597885132, "Quantum sensing Position": 0.6663050651550293, "Quantum sensing Timing": 0.6913833618164062, "Quantum sensing": 0.7124772071838379, "Quantum control": 0.6897428035736084 } }, { "id": 6799, "title": "Choice and characterization of photomultipliers for the new ATLAS LUCID detector", "abstract": "The luminosity monitor LUCID (LUminosity Cherenkov Integrating Detector) employed in the ATLAS experiment at the LHC had to be upgraded for the second run of LHC (Run 2) that started in spring 2015. T...", "citations": 10, "author_count": 23, "categories": [ "Instruments & Instrumentation" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6806, "doi": "10.1088/1748-0221/11/05/P05014", "umap_coordinates": { "x": 395.71630859375, "y": 133.95941162109375, "z": 206.18649291992188 }, "tsne_coordinates": { "x": -30.344482421875, "y": 18.487110137939453, "z": -13.918310165405273 }, "pca_coordinates": { "x": -3.125546455383301, "y": 1.9334118366241455, "z": 2.009350061416626 }, "axis_scores": { "Quantum imaging": 0.6777739524841309, "Quantum Life Science Sensing": 0.6967692375183105, "Quantum sensing Detection": 0.6801139712333679, "Quantum sensing Metrology": 0.6723698377609253, "Quantum sensing navigation": 0.6685892939567566, "Quantum sensing Position": 0.6891237497329712, "Quantum sensing Timing": 0.673546552658081, "Quantum sensing": 0.6792161464691162, "Quantum control": 0.6620099544525146 } }, { "id": 6800, "title": "Field-induced spin dynamics in i-MAX Tb compound", "abstract": "We report a comprehensive study of spin dynamics in the (Mo2/3Tb1/3)2AlC i-MAX compound using ac susceptibility measurements across a range of magnetic fields. Unique behaviors were observed, includin...", "citations": 1, "author_count": 10, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6807, "doi": "10.1103/PhysRevResearch.7.023106", "umap_coordinates": { "x": 393.06732177734375, "y": 136.46653747558594, "z": 208.71267700195312 }, "tsne_coordinates": { "x": 5.080489635467529, "y": -29.415327072143555, "z": 19.5010986328125 }, "pca_coordinates": { "x": 1.8559722900390625, "y": -0.40701889991760254, "z": -3.541661500930786 }, "axis_scores": { "Quantum imaging": 0.7073156237602234, "Quantum Life Science Sensing": 0.6915745139122009, "Quantum sensing Detection": 0.6634244322776794, "Quantum sensing Metrology": 0.6605559587478638, "Quantum sensing navigation": 0.6621100306510925, "Quantum sensing Position": 0.6495649814605713, "Quantum sensing Timing": 0.6597668528556824, "Quantum sensing": 0.6760561466217041, "Quantum control": 0.6792435646057129 } }, { "id": 6801, "title": "What Is the Role of a Magnetic Mo Antisite Defect on Carrier Relaxation and Spin Dynamics in 2-D MoS2?", "abstract": "Antisite defects significantly influence the dynamic properties of monolayer MoS2, yet the carrier relaxation and spin dynamics in spin-polarized Mo antisite-defective MoS2 remain unclear. Understandi...", "citations": 3, "author_count": 5, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6808, "doi": "10.1021/acs.nanolett.5c00628", "umap_coordinates": { "x": 392.275146484375, "y": 135.76278686523438, "z": 207.26686096191406 }, "tsne_coordinates": { "x": 11.524677276611328, "y": -8.437849044799805, "z": 9.672736167907715 }, "pca_coordinates": { "x": 0.02355194091796875, "y": -1.6862998008728027, "z": -3.1108765602111816 }, "axis_scores": { "Quantum imaging": 0.6928986310958862, "Quantum Life Science Sensing": 0.7074726819992065, "Quantum sensing Detection": 0.686072587966919, "Quantum sensing Metrology": 0.6859506368637085, "Quantum sensing navigation": 0.7078667283058167, "Quantum sensing Position": 0.6870896816253662, "Quantum sensing Timing": 0.6804916858673096, "Quantum sensing": 0.6957029700279236, "Quantum control": 0.6823407411575317 } }, { "id": 6802, "title": "Spin dynamics of exchanging quadrupolar nuclei in locally anisotropic systems", "abstract": "", "citations": 41, "author_count": 2, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6809, "doi": "10.1016/0079-6565(95)01022-X", "umap_coordinates": { "x": 392.91522216796875, "y": 136.66455078125, "z": 207.21749877929688 }, "tsne_coordinates": { "x": 5.384887218475342, "y": -16.969226837158203, "z": 25.859264373779297 }, "pca_coordinates": { "x": 1.2687339782714844, "y": 1.0316224098205566, "z": -3.005734443664551 }, "axis_scores": { "Quantum imaging": 0.6989493370056152, "Quantum Life Science Sensing": 0.6694245338439941, "Quantum sensing Detection": 0.6499086022377014, "Quantum sensing Metrology": 0.6547291874885559, "Quantum sensing navigation": 0.7039177417755127, "Quantum sensing Position": 0.6859339475631714, "Quantum sensing Timing": 0.6713442802429199, "Quantum sensing": 0.6795384883880615, "Quantum control": 0.6785528659820557 } }, { "id": 6803, "title": "Optical and extreme UV studies of spin dynamics in metallic and insulating ferrimagnets", "abstract": "We present all-optical studies of spin dynamics in two classes of ferrimagnets. Both sets of experiments use table-top laser-based pump-probe techniques to examine the ultrafast and longer timescale s...", "citations": 4, "author_count": 16, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6810, "doi": "10.1063/5.0073606", "umap_coordinates": { "x": 392.7452697753906, "y": 136.76083374023438, "z": 207.82899475097656 }, "tsne_coordinates": { "x": 3.6368470191955566, "y": -22.86565399169922, "z": 23.67679786682129 }, "pca_coordinates": { "x": 1.3933672904968262, "y": -0.8285093307495117, "z": -2.3468363285064697 }, "axis_scores": { "Quantum imaging": 0.7241549491882324, "Quantum Life Science Sensing": 0.7450947761535645, "Quantum sensing Detection": 0.6918810606002808, "Quantum sensing Metrology": 0.6946874856948853, "Quantum sensing navigation": 0.698881983757019, "Quantum sensing Position": 0.6700788736343384, "Quantum sensing Timing": 0.6565279364585876, "Quantum sensing": 0.7010030746459961, "Quantum control": 0.6777988076210022 } }, { "id": 6804, "title": "Approach to estimation of infrared point-target range", "abstract": "The detection range for a blackbody point target is considered. An integrating photon detector is assumed, and the signal-to-noise ratio is expressed by use of photon-flux quantities. An equation for ...", "citations": 13, "author_count": 2, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6811, "doi": "10.1364/AO.39.003495", "umap_coordinates": { "x": 394.9735107421875, "y": 134.110107421875, "z": 205.8817596435547 }, "tsne_coordinates": { "x": -4.755837917327881, "y": 1.3653843402862549, "z": -30.69782829284668 }, "pca_coordinates": { "x": -2.51265287399292, "y": 3.6307849884033203, "z": 2.118220806121826 }, "axis_scores": { "Quantum imaging": 0.6945109367370605, "Quantum Life Science Sensing": 0.6896274089813232, "Quantum sensing Detection": 0.6865912675857544, "Quantum sensing Metrology": 0.6849722862243652, "Quantum sensing navigation": 0.68776535987854, "Quantum sensing Position": 0.716555655002594, "Quantum sensing Timing": 0.6928752660751343, "Quantum sensing": 0.6964389681816101, "Quantum control": 0.668480634689331 } }, { "id": 6805, "title": "Arbitrarily high super-resolving phase measurements at telecommunication wavelengths", "abstract": "We present two experiments that achieve phase super-resolution at telecommunication wavelengths. One of the experiments is realized in the space domain and the other is realized in the time domain. Bo...", "citations": 14, "author_count": 4, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6812, "doi": "10.1103/PhysRevA.81.063836", "umap_coordinates": { "x": 395.0472106933594, "y": 135.28411865234375, "z": 207.38003540039062 }, "tsne_coordinates": { "x": -7.386660575866699, "y": -9.39167308807373, "z": -9.474349021911621 }, "pca_coordinates": { "x": 1.2529699802398682, "y": -0.23740172386169434, "z": 2.123619556427002 }, "axis_scores": { "Quantum imaging": 0.730297327041626, "Quantum Life Science Sensing": 0.7336944937705994, "Quantum sensing Detection": 0.720068633556366, "Quantum sensing Metrology": 0.7218047976493835, "Quantum sensing navigation": 0.7073118090629578, "Quantum sensing Position": 0.7149498462677002, "Quantum sensing Timing": 0.7115148901939392, "Quantum sensing": 0.7362988591194153, "Quantum control": 0.6628559827804565 } }, { "id": 6806, "title": "Atomistic spin dynamics and surface magnons", "abstract": "Atomistic spin dynamics simulations have evolved to become a powerful and versatile tool for simulating dynamic properties of magnetic materials. It has a wide range of applications, for instance swit...", "citations": 51, "author_count": 6, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6813, "doi": "10.1088/0953-8984/27/24/243202", "umap_coordinates": { "x": 393.3203430175781, "y": 137.265869140625, "z": 207.609130859375 }, "tsne_coordinates": { "x": -4.186724662780762, "y": -29.19219207763672, "z": 31.750864028930664 }, "pca_coordinates": { "x": 2.7093682289123535, "y": 1.2729220390319824, "z": -3.0981335639953613 }, "axis_scores": { "Quantum imaging": 0.735508382320404, "Quantum Life Science Sensing": 0.7327478528022766, "Quantum sensing Detection": 0.6993500590324402, "Quantum sensing Metrology": 0.7059705257415771, "Quantum sensing navigation": 0.7258095145225525, "Quantum sensing Position": 0.6853228211402893, "Quantum sensing Timing": 0.6688945293426514, "Quantum sensing": 0.7206791043281555, "Quantum control": 0.7195863127708435 } }, { "id": 6807, "title": "Loophole-Free Bell Test Based on Local Precertification of Photon's Presence", "abstract": "A loophole-free violation of Bell inequalities is of fundamental importance for demonstrating quantum nonlocality and long-distance device-independent secure communication. However, transmission losse...", "citations": 42, "author_count": 3, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6814, "doi": "10.1103/PhysRevX.2.021010", "umap_coordinates": { "x": 396.03424072265625, "y": 136.64793395996094, "z": 207.63011169433594 }, "tsne_coordinates": { "x": -24.367752075195312, "y": -6.510530948638916, "z": -0.2808353304862976 }, "pca_coordinates": { "x": 2.7119083404541016, "y": 2.9825828075408936, "z": 1.5182878971099854 }, "axis_scores": { "Quantum imaging": 0.7313882112503052, "Quantum Life Science Sensing": 0.7524826526641846, "Quantum sensing Detection": 0.7535369396209717, "Quantum sensing Metrology": 0.7287946343421936, "Quantum sensing navigation": 0.743394136428833, "Quantum sensing Position": 0.7371047735214233, "Quantum sensing Timing": 0.7173134684562683, "Quantum sensing": 0.7541741728782654, "Quantum control": 0.7178252339363098 } }, { "id": 6808, "title": "Self-Calibrating Superconducting Pair-Breaking Detector", "abstract": "We propose and experimentally demonstrate a self-calibrating detector of Cooper pair depairing in a superconductor based on a mesoscopic superconducting island coupled to normal metal leads. On averag...", "citations": 6, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6815, "doi": "10.1103/PhysRevLett.127.147001", "umap_coordinates": { "x": 395.55328369140625, "y": 134.9434814453125, "z": 207.84713745117188 }, "tsne_coordinates": { "x": -11.978450775146484, "y": -26.281723022460938, "z": -4.184138774871826 }, "pca_coordinates": { "x": 3.594656467437744, "y": 0.20662689208984375, "z": 3.638695240020752 }, "axis_scores": { "Quantum imaging": 0.7097160220146179, "Quantum Life Science Sensing": 0.7423798441886902, "Quantum sensing Detection": 0.7466294169425964, "Quantum sensing Metrology": 0.7329891324043274, "Quantum sensing navigation": 0.7406753301620483, "Quantum sensing Position": 0.7292446494102478, "Quantum sensing Timing": 0.7539592981338501, "Quantum sensing": 0.7434274554252625, "Quantum control": 0.6950725317001343 } }, { "id": 6809, "title": "Inertial spin dynamics in ferromagnets", "abstract": "The understanding of how spins move and can be manipulated at pico- and femtosecond timescales has implications for ultrafast and energy-efficient data-processing and storage applications. However, th...", "citations": 127, "author_count": 21, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6816, "doi": "10.1038/s41567-020-01040-y", "umap_coordinates": { "x": 392.93701171875, "y": 136.4823760986328, "z": 207.59060668945312 }, "tsne_coordinates": { "x": 2.648864269256592, "y": -18.441621780395508, "z": 26.77407455444336 }, "pca_coordinates": { "x": 1.1159491539001465, "y": 0.2709207534790039, "z": -2.8589141368865967 }, "axis_scores": { "Quantum imaging": 0.7257949113845825, "Quantum Life Science Sensing": 0.743369996547699, "Quantum sensing Detection": 0.6986398696899414, "Quantum sensing Metrology": 0.7013229727745056, "Quantum sensing navigation": 0.7316175699234009, "Quantum sensing Position": 0.7221364378929138, "Quantum sensing Timing": 0.7145901322364807, "Quantum sensing": 0.7186410427093506, "Quantum control": 0.6982628107070923 } }, { "id": 6810, "title": "Magnon softening in a ferromagnetic monolayer: A first-principles spin dynamics study", "abstract": "We study the Fe/W(110) monolayer system through a combination of first-principles calculations and atomistic spin dynamics simulations. We focus on the dispersion of the spin-waves parallel to the [00...", "citations": 46, "author_count": 7, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6817, "doi": "10.1103/PhysRevB.81.144416", "umap_coordinates": { "x": 393.4449157714844, "y": 136.3927764892578, "z": 209.13526916503906 }, "tsne_coordinates": { "x": 7.94126558303833, "y": -24.991409301757812, "z": 21.995098114013672 }, "pca_coordinates": { "x": 3.561616897583008, "y": -1.2509498596191406, "z": -2.709681272506714 }, "axis_scores": { "Quantum imaging": 0.6726351976394653, "Quantum Life Science Sensing": 0.6829321980476379, "Quantum sensing Detection": 0.6675739884376526, "Quantum sensing Metrology": 0.6706528067588806, "Quantum sensing navigation": 0.6673139929771423, "Quantum sensing Position": 0.6578131318092346, "Quantum sensing Timing": 0.6371690034866333, "Quantum sensing": 0.6808276772499084, "Quantum control": 0.6524319052696228 } }, { "id": 6811, "title": "STM NMR and nuclear spin noise", "abstract": "Fluctuations of an electronic spin can be revealed in the tunneling current fluctuations of a scanning tunneling microscope (STM). We consider fluctuations of the electronic spin due to coupling to nu...", "citations": 14, "author_count": 5, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6818, "doi": "10.1103/PhysRevB.73.184429", "umap_coordinates": { "x": 393.2568054199219, "y": 136.4546661376953, "z": 207.9356689453125 }, "tsne_coordinates": { "x": -4.700089931488037, "y": -23.731801986694336, "z": 5.946807861328125 }, "pca_coordinates": { "x": 3.6253981590270996, "y": 0.4384385347366333, "z": -1.05078125 }, "axis_scores": { "Quantum imaging": 0.7230151891708374, "Quantum Life Science Sensing": 0.739962637424469, "Quantum sensing Detection": 0.7221319675445557, "Quantum sensing Metrology": 0.7128801941871643, "Quantum sensing navigation": 0.7560825347900391, "Quantum sensing Position": 0.7070044875144958, "Quantum sensing Timing": 0.6936121582984924, "Quantum sensing": 0.7347477078437805, "Quantum control": 0.7125029563903809 } }, { "id": 6812, "title": "Atomistic Spin-Dynamics Foundations and Applications Preface", "abstract": "", "citations": 144, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6819, "doi": null, "umap_coordinates": { "x": 392.38262939453125, "y": 139.0088348388672, "z": 209.16502380371094 }, "tsne_coordinates": { "x": -15.355866432189941, "y": 40.479164123535156, "z": 2.817664861679077 }, "pca_coordinates": { "x": 1.5063209533691406, "y": 3.1193580627441406, "z": -4.597606182098389 }, "axis_scores": { "Quantum imaging": 0.7506551742553711, "Quantum Life Science Sensing": 0.7523379325866699, "Quantum sensing Detection": 0.718639075756073, "Quantum sensing Metrology": 0.7089000344276428, "Quantum sensing navigation": 0.7549130320549011, "Quantum sensing Position": 0.7107006907463074, "Quantum sensing Timing": 0.6890411376953125, "Quantum sensing": 0.7339342832565308, "Quantum control": 0.7429394721984863 } }, { "id": 6813, "title": "Geometric scaling of two-level-system loss in superconducting resonators", "abstract": "We perform an experimental and numerical study of dielectric loss in superconducting microwave resonators at low temperature. Dielectric loss, due to two-level systems, is a limiting factor in several...", "citations": 48, "author_count": 5, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6820, "doi": "10.1088/1361-6668/ab6179", "umap_coordinates": { "x": 394.57489013671875, "y": 137.1868438720703, "z": 207.59556579589844 }, "tsne_coordinates": { "x": 2.730401039123535, "y": -18.884687423706055, "z": 37.04115676879883 }, "pca_coordinates": { "x": 2.4775772094726562, "y": 0.7206442356109619, "z": 0.4543308615684509 }, "axis_scores": { "Quantum imaging": 0.713974118232727, "Quantum Life Science Sensing": 0.7222727537155151, "Quantum sensing Detection": 0.7110485434532166, "Quantum sensing Metrology": 0.7264171838760376, "Quantum sensing navigation": 0.7282575368881226, "Quantum sensing Position": 0.7340013980865479, "Quantum sensing Timing": 0.7191749215126038, "Quantum sensing": 0.7205455303192139, "Quantum control": 0.6988133192062378 } }, { "id": 6814, "title": "Dependence of the number-weighted angular distribution of Compton-scattered photon beams on the laser intensity", "abstract": "Inverse Compton scattering of ultra-relativistic electron beams in the field of a high-intensity laser produces photon beams with angular and spectral distributions that are strongly dependent on the ...", "citations": 1, "author_count": 8, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6821, "doi": "10.1103/PhysRevA.110.023510", "umap_coordinates": { "x": 395.7267150878906, "y": 134.43360900878906, "z": 207.62962341308594 }, "tsne_coordinates": { "x": -7.916561126708984, "y": -22.2054386138916, "z": -10.546308517456055 }, "pca_coordinates": { "x": 1.2374436855316162, "y": -0.3661003112792969, "z": 3.1334004402160645 }, "axis_scores": { "Quantum imaging": 0.728999137878418, "Quantum Life Science Sensing": 0.7222580909729004, "Quantum sensing Detection": 0.7240067720413208, "Quantum sensing Metrology": 0.7223343849182129, "Quantum sensing navigation": 0.7173100113868713, "Quantum sensing Position": 0.7159132361412048, "Quantum sensing Timing": 0.7109464406967163, "Quantum sensing": 0.7315781712532043, "Quantum control": 0.7069380283355713 } }, { "id": 6815, "title": "Light sensors selection for the Cherenkov Telescope Array: PMT and SiPM", "abstract": "The Cherenkov Telescope Array (CIA) is planned as the next generation ground-based instrument (after VERITAS, H.E.S.S. and MAGIC) for astrophysics by means of very high energy gamma-rays. The CIA coll...", "citations": 3, "author_count": 12, "categories": [ "Instruments & Instrumentation" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6822, "doi": "10.1016/j.nima.2011.12.010", "umap_coordinates": { "x": 394.3827819824219, "y": 132.78872680664062, "z": 205.39784240722656 }, "tsne_coordinates": { "x": -19.894227981567383, "y": 20.37968635559082, "z": -8.381569862365723 }, "pca_coordinates": { "x": -4.604189872741699, "y": 0.06181526184082031, "z": 2.471553325653076 }, "axis_scores": { "Quantum imaging": 0.6937072277069092, "Quantum Life Science Sensing": 0.7213534116744995, "Quantum sensing Detection": 0.7160622477531433, "Quantum sensing Metrology": 0.7250142693519592, "Quantum sensing navigation": 0.6828343868255615, "Quantum sensing Position": 0.6928862929344177, "Quantum sensing Timing": 0.6834196448326111, "Quantum sensing": 0.7131686806678772, "Quantum control": 0.6491624116897583 } }, { "id": 6816, "title": "SPIN DYNAMICS IN CRYSTALLINE AND AMORPHOUS DYAG", "abstract": "", "citations": 13, "author_count": 16, "categories": [ "Physics" ], "year": 1986, "topic": [ "all" ], "embedding_index": 6823, "doi": "10.1007/BF02401572", "umap_coordinates": { "x": 392.57568359375, "y": 136.679443359375, "z": 207.22052001953125 }, "tsne_coordinates": { "x": -22.798431396484375, "y": 37.21821212768555, "z": 3.0351438522338867 }, "pca_coordinates": { "x": 2.2180140018463135, "y": -0.6533160209655762, "z": -3.656858205795288 }, "axis_scores": { "Quantum imaging": 0.6924519538879395, "Quantum Life Science Sensing": 0.707241952419281, "Quantum sensing Detection": 0.6622197031974792, "Quantum sensing Metrology": 0.6558104157447815, "Quantum sensing navigation": 0.6945297718048096, "Quantum sensing Position": 0.6655247211456299, "Quantum sensing Timing": 0.669073224067688, "Quantum sensing": 0.676476776599884, "Quantum control": 0.6976184248924255 } }, { "id": 6817, "title": "Search for inelastic scattering of WIMP dark matter in XENON1T", "abstract": "We report the results of a search for the inelastic scattering of weakly interacting massive particles (WIMPs) in the XENON1T dark matter experiment. Scattering off Xe-129 is the most sensitive probe ...", "citations": 30, "author_count": 140, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6824, "doi": "10.1103/PhysRevD.103.063028", "umap_coordinates": { "x": 396.3074035644531, "y": 134.989990234375, "z": 207.53973388671875 }, "tsne_coordinates": { "x": -39.04060745239258, "y": -0.8857377767562866, "z": -12.825902938842773 }, "pca_coordinates": { "x": 2.457425832748413, "y": 0.5700877904891968, "z": 1.2960078716278076 }, "axis_scores": { "Quantum imaging": 0.6899242997169495, "Quantum Life Science Sensing": 0.6910550594329834, "Quantum sensing Detection": 0.6859117150306702, "Quantum sensing Metrology": 0.6585838794708252, "Quantum sensing navigation": 0.6850661635398865, "Quantum sensing Position": 0.6544144749641418, "Quantum sensing Timing": 0.6674457788467407, "Quantum sensing": 0.6811497211456299, "Quantum control": 0.6493550539016724 } }, { "id": 6818, "title": "Theory of inertial spin dynamics in anisotropic ferromagnets", "abstract": "Recent experimental observation of inertial spin dynamics calls upon holistic reevaluation of the theoretical framework of magnetic resonance in ferromagnets. Here, we derive the secular equation of a...", "citations": 20, "author_count": 6, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6825, "doi": "10.1103/PhysRevB.106.054428", "umap_coordinates": { "x": 393.82525634765625, "y": 136.7873077392578, "z": 208.79660034179688 }, "tsne_coordinates": { "x": -3.1102561950683594, "y": -27.554210662841797, "z": 26.790298461914062 }, "pca_coordinates": { "x": 4.8685688972473145, "y": 0.44593310356140137, "z": -1.6131596565246582 }, "axis_scores": { "Quantum imaging": 0.7436795234680176, "Quantum Life Science Sensing": 0.75455641746521, "Quantum sensing Detection": 0.7194123268127441, "Quantum sensing Metrology": 0.7221611142158508, "Quantum sensing navigation": 0.7526391744613647, "Quantum sensing Position": 0.7169337272644043, "Quantum sensing Timing": 0.7239486575126648, "Quantum sensing": 0.7392191886901855, "Quantum control": 0.7261850833892822 } }, { "id": 6819, "title": "Noise performance of the radio-frequency single-electron transistor", "abstract": "We have analyzed a radio-frequency single-electron-transistor (RF-SET) circuit that includes a high-electron-mobility-transistor (HEMT) amplifier, coupled to the single-electron-transistor (SET) via a...", "citations": 58, "author_count": 8, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6826, "doi": "10.1063/1.1635972", "umap_coordinates": { "x": 394.15673828125, "y": 133.7208709716797, "z": 208.56710815429688 }, "tsne_coordinates": { "x": 3.5477001667022705, "y": -31.141929626464844, "z": -13.82878589630127 }, "pca_coordinates": { "x": 0.8119778633117676, "y": -1.4226608276367188, "z": 2.2575106620788574 }, "axis_scores": { "Quantum imaging": 0.6966565251350403, "Quantum Life Science Sensing": 0.7254088521003723, "Quantum sensing Detection": 0.7166098952293396, "Quantum sensing Metrology": 0.7187986373901367, "Quantum sensing navigation": 0.7080956697463989, "Quantum sensing Position": 0.6958577036857605, "Quantum sensing Timing": 0.6851245164871216, "Quantum sensing": 0.7272219657897949, "Quantum control": 0.6933613419532776 } }, { "id": 6820, "title": "Ultrafast Spin Dynamics in Multisublattice Magnets", "abstract": "We propose a general theoretical framework for ultrafast laser-induced spin dynamics in multisublattice magnets. We distinguish relaxation of relativistic and exchange origin and show that when the fo...", "citations": 258, "author_count": 10, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6827, "doi": "10.1103/PhysRevLett.108.057202", "umap_coordinates": { "x": 393.244384765625, "y": 136.5885467529297, "z": 208.52874755859375 }, "tsne_coordinates": { "x": 0.3574514091014862, "y": -25.30086898803711, "z": 22.92682456970215 }, "pca_coordinates": { "x": 4.866488456726074, "y": -2.2273473739624023, "z": -1.4146111011505127 }, "axis_scores": { "Quantum imaging": 0.7232317328453064, "Quantum Life Science Sensing": 0.7308057546615601, "Quantum sensing Detection": 0.7139662504196167, "Quantum sensing Metrology": 0.7069239020347595, "Quantum sensing navigation": 0.7193664312362671, "Quantum sensing Position": 0.6946173310279846, "Quantum sensing Timing": 0.6947951316833496, "Quantum sensing": 0.7206605672836304, "Quantum control": 0.6863728761672974 } }, { "id": 6821, "title": "Experimental long wavelength quantum cryptography: from single-photon transmission to key extraction protocols", "abstract": "We present experiments on long wavelength (lambda = 1.55 mu m) 'plug and play' quantum cryptography systems. We discuss the performance of single-photon detectors at lambda = 1.55 mu m. Furthermore, w...", "citations": 36, "author_count": 7, "categories": [ "Optics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 6828, "doi": "10.1080/09500340008244060", "umap_coordinates": { "x": 395.49517822265625, "y": 134.62806701660156, "z": 207.26849365234375 }, "tsne_coordinates": { "x": -10.387382507324219, "y": 5.080272674560547, "z": -24.32990074157715 }, "pca_coordinates": { "x": 0.5131219625473022, "y": 0.3320741653442383, "z": 2.1293206214904785 }, "axis_scores": { "Quantum imaging": 0.7180989384651184, "Quantum Life Science Sensing": 0.7370966672897339, "Quantum sensing Detection": 0.7107529640197754, "Quantum sensing Metrology": 0.7031975388526917, "Quantum sensing navigation": 0.7053915858268738, "Quantum sensing Position": 0.6972020268440247, "Quantum sensing Timing": 0.6984461545944214, "Quantum sensing": 0.728223979473114, "Quantum control": 0.6967630386352539 } }, { "id": 6822, "title": "Element-selective investigation of femtosecond spin dynamics in NiPd magnetic alloys using extreme ultraviolet radiation", "abstract": "We studied femtosecond spin dynamics in NixPd1-x magnetic thin films by optically pumping the system with infrared (1.55 eV) laser pulses and subsequently recording the reflectivity of extreme ultravi...", "citations": 15, "author_count": 12, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6829, "doi": "10.1103/PhysRevB.97.064412", "umap_coordinates": { "x": 393.0025634765625, "y": 136.186767578125, "z": 207.82623291015625 }, "tsne_coordinates": { "x": 3.0118870735168457, "y": -25.000926971435547, "z": 23.77992820739746 }, "pca_coordinates": { "x": 1.3769617080688477, "y": -2.104440689086914, "z": 0.4094018340110779 }, "axis_scores": { "Quantum imaging": 0.7096405625343323, "Quantum Life Science Sensing": 0.7161697745323181, "Quantum sensing Detection": 0.6862640380859375, "Quantum sensing Metrology": 0.6852190494537354, "Quantum sensing navigation": 0.6855752468109131, "Quantum sensing Position": 0.6804680228233337, "Quantum sensing Timing": 0.681433379650116, "Quantum sensing": 0.6954869627952576, "Quantum control": 0.6481084823608398 } }, { "id": 6823, "title": "Comparative study of PP0275C hybrid photodetector and XP2020Q photomultiplier in scintillation detection", "abstract": "The properties of a hybrid photodetector (HPD), type PP0275C, produced by Delft Electronic Products B.V., for scintillation detection and spectrometry were studied and compared to a standard XP2020Q p...", "citations": 4, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6830, "doi": "10.1088/1748-0221/1/05/P05001", "umap_coordinates": { "x": 396.1734313964844, "y": 133.92880249023438, "z": 206.46176147460938 }, "tsne_coordinates": { "x": -25.040481567382812, "y": 22.153783798217773, "z": -10.601707458496094 }, "pca_coordinates": { "x": -2.723845958709717, "y": 0.8519439697265625, "z": 2.342416524887085 }, "axis_scores": { "Quantum imaging": 0.6695749759674072, "Quantum Life Science Sensing": 0.6744065880775452, "Quantum sensing Detection": 0.6681081652641296, "Quantum sensing Metrology": 0.6468912363052368, "Quantum sensing navigation": 0.6535434126853943, "Quantum sensing Position": 0.6726099848747253, "Quantum sensing Timing": 0.6725654006004333, "Quantum sensing": 0.6604915857315063, "Quantum control": 0.6347890496253967 } }, { "id": 6824, "title": "Ultrafast magnetization enhancement in metallic multilayers driven by superdiffusive spin current", "abstract": "Uncovering the physical mechanisms that govern ultrafast charge and spin dynamics is crucial for understanding correlated matter as well as the fundamental limits of ultrafast spin-based electronics. ...", "citations": 376, "author_count": 17, "categories": [ "Science & Technology - Other Topics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6831, "doi": "10.1038/ncomms2029", "umap_coordinates": { "x": 392.8183288574219, "y": 136.09764099121094, "z": 208.18011474609375 }, "tsne_coordinates": { "x": 5.545266628265381, "y": -25.149934768676758, "z": 27.026592254638672 }, "pca_coordinates": { "x": 0.18042945861816406, "y": -2.3327107429504395, "z": -1.5668323040008545 }, "axis_scores": { "Quantum imaging": 0.6989547610282898, "Quantum Life Science Sensing": 0.7004550695419312, "Quantum sensing Detection": 0.6762113571166992, "Quantum sensing Metrology": 0.6838447451591492, "Quantum sensing navigation": 0.673517107963562, "Quantum sensing Position": 0.6441075801849365, "Quantum sensing Timing": 0.6343324184417725, "Quantum sensing": 0.6867005228996277, "Quantum control": 0.6517692804336548 } }, { "id": 6825, "title": "Hot spot formation in electron-doped PCCO nanobridges", "abstract": "We have investigated the transport properties of optimally doped Pr2-xCexCuO4-delta (PCCO) nanobridges with width down to 100 nm. The critical current density of the nanobridges approaches the Ginzbur...", "citations": 24, "author_count": 11, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6832, "doi": "10.1103/PhysRevB.94.060503", "umap_coordinates": { "x": 394.65240478515625, "y": 135.0144805908203, "z": 208.22406005859375 }, "tsne_coordinates": { "x": 0.6901755928993225, "y": -38.84097671508789, "z": -0.19753403961658478 }, "pca_coordinates": { "x": 1.8656573295593262, "y": -1.8696236610412598, "z": -0.9874986410140991 }, "axis_scores": { "Quantum imaging": 0.7152761220932007, "Quantum Life Science Sensing": 0.7204813957214355, "Quantum sensing Detection": 0.7043349146842957, "Quantum sensing Metrology": 0.6814481019973755, "Quantum sensing navigation": 0.702977180480957, "Quantum sensing Position": 0.7050968408584595, "Quantum sensing Timing": 0.6912437677383423, "Quantum sensing": 0.7056875824928284, "Quantum control": 0.7179484367370605 } }, { "id": 6826, "title": "In-situ calibration of the single-photoelectron charge response of the IceCube photomultiplier tubes", "abstract": "We describe an improved in-situ calibration of the single-photoelectron charge distributions for each of the in-ice Hamamatsu Photonics R7081-02[MOD] photomultiplier tubes in the IceCube Neutrino Obse...", "citations": 20, "author_count": 359, "categories": [ "Instruments & Instrumentation" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6833, "doi": "10.1088/1748-0221/15/06/P06032", "umap_coordinates": { "x": 395.708251953125, "y": 133.89370727539062, "z": 206.4927978515625 }, "tsne_coordinates": { "x": -25.52275276184082, "y": 18.30994415283203, "z": -12.347702026367188 }, "pca_coordinates": { "x": -2.4299392700195312, "y": 0.03662371635437012, "z": 2.551011562347412 }, "axis_scores": { "Quantum imaging": 0.6891078352928162, "Quantum Life Science Sensing": 0.7330286502838135, "Quantum sensing Detection": 0.6951416730880737, "Quantum sensing Metrology": 0.6842893362045288, "Quantum sensing navigation": 0.6730785369873047, "Quantum sensing Position": 0.6853431463241577, "Quantum sensing Timing": 0.6874247789382935, "Quantum sensing": 0.6938484311103821, "Quantum control": 0.6662546396255493 } }, { "id": 6827, "title": "Spin dynamics of two-coupled nanomagnets in spin-flop tunnel junctions", "abstract": "Collective spin dynamics of two dipole-coupled nanomagnets in spin-flop tunnel junctions are studied experimentally and theoretically. The measured GHz magnetization oscillations reveal several collec...", "citations": 33, "author_count": 6, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6834, "doi": "10.1103/PhysRevB.80.144425", "umap_coordinates": { "x": 393.80743408203125, "y": 135.81118774414062, "z": 208.7521514892578 }, "tsne_coordinates": { "x": -5.087388038635254, "y": -21.295310974121094, "z": 5.68065071105957 }, "pca_coordinates": { "x": 5.131619453430176, "y": -1.8963828086853027, "z": -0.9282530546188354 }, "axis_scores": { "Quantum imaging": 0.7375454902648926, "Quantum Life Science Sensing": 0.7303909659385681, "Quantum sensing Detection": 0.7311564683914185, "Quantum sensing Metrology": 0.7239568829536438, "Quantum sensing navigation": 0.7444812655448914, "Quantum sensing Position": 0.7050253748893738, "Quantum sensing Timing": 0.6940053701400757, "Quantum sensing": 0.738199770450592, "Quantum control": 0.7283801436424255 } }, { "id": 6828, "title": "GASTRO-INTESTINAL MAGNESIUM ABSORPTION - KINETIC STUDIES WITH MG-28 AND A SIMPLE METHOD FOR DETERMINATION OF FRACTIONAL ABSORPTION", "abstract": "Gastrointestinal fractional absorption of Mg was studied with 28Mg. External photon detectors were used to measure the uptake in the forearm as a function of time after i.v. and oral administrations, ...", "citations": 22, "author_count": 7, "categories": [ "Endocrinology & Metabolism" ], "year": 1979, "topic": [ "all" ], "embedding_index": 6835, "doi": null, "umap_coordinates": { "x": 391.8604736328125, "y": 139.520751953125, "z": 209.92666625976562 }, "tsne_coordinates": { "x": -0.09695836901664734, "y": 41.908447265625, "z": 0.16785384714603424 }, "pca_coordinates": { "x": -2.5471906661987305, "y": 5.5611491203308105, "z": -3.126289129257202 }, "axis_scores": { "Quantum imaging": 0.6867596507072449, "Quantum Life Science Sensing": 0.719589352607727, "Quantum sensing Detection": 0.680609941482544, "Quantum sensing Metrology": 0.6754007339477539, "Quantum sensing navigation": 0.6930428743362427, "Quantum sensing Position": 0.651979923248291, "Quantum sensing Timing": 0.6408417820930481, "Quantum sensing": 0.6943803429603577, "Quantum control": 0.6927763223648071 } }, { "id": 6829, "title": "SPIN DYNAMICS OF THE TRIANGULAR HEISENBERG-ANTIFERROMAGNET - A SCHWINGER-BOSON APPROACH", "abstract": "", "citations": 7, "author_count": 2, "categories": [ "Materials Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6836, "doi": "10.1103/PhysRevB.51.11574", "umap_coordinates": { "x": 393.6248474121094, "y": 137.2893524169922, "z": 208.21795654296875 }, "tsne_coordinates": { "x": -8.222278594970703, "y": -26.98428726196289, "z": 29.93080711364746 }, "pca_coordinates": { "x": 3.8420634269714355, "y": -0.18831729888916016, "z": -2.0621273517608643 }, "axis_scores": { "Quantum imaging": 0.7171003222465515, "Quantum Life Science Sensing": 0.7087226510047913, "Quantum sensing Detection": 0.7003118395805359, "Quantum sensing Metrology": 0.69102942943573, "Quantum sensing navigation": 0.7277162671089172, "Quantum sensing Position": 0.6941261291503906, "Quantum sensing Timing": 0.6943116188049316, "Quantum sensing": 0.7169268131256104, "Quantum control": 0.718511700630188 } }, { "id": 6830, "title": "Spin dynamics of isoelectronic bound excitons in ZnO", "abstract": "Time-resolved optical spin orientation is employed to study spin dynamics of I * and I-1* excitons bound to isoelectronic centers in bulk ZnO. It is found that spin orientation at the exciton ground s...", "citations": 6, "author_count": 4, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6837, "doi": "10.1103/PhysRevB.89.235202", "umap_coordinates": { "x": 393.5479431152344, "y": 135.82217407226562, "z": 209.21485900878906 }, "tsne_coordinates": { "x": 9.642157554626465, "y": -27.92449951171875, "z": 13.883667945861816 }, "pca_coordinates": { "x": 4.571084499359131, "y": -2.66593599319458, "z": -2.8661391735076904 }, "axis_scores": { "Quantum imaging": 0.70307457447052, "Quantum Life Science Sensing": 0.7203474640846252, "Quantum sensing Detection": 0.6994908452033997, "Quantum sensing Metrology": 0.6863040328025818, "Quantum sensing navigation": 0.7248499989509583, "Quantum sensing Position": 0.699799656867981, "Quantum sensing Timing": 0.6872379779815674, "Quantum sensing": 0.7043753862380981, "Quantum control": 0.6810471415519714 } }, { "id": 6831, "title": "Anisotropic ultrafast spin dynamics in epitaxial cobalt", "abstract": "We investigate the ultrafast spin dynamics in an epitaxial hcp(1 1 00) cobalt thin film. By performing pump-probe magneto-optical measurements with the magnetization along either the easy or hard magn...", "citations": 20, "author_count": 7, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6838, "doi": "10.1063/5.0049692", "umap_coordinates": { "x": 392.7489318847656, "y": 136.54791259765625, "z": 207.7752227783203 }, "tsne_coordinates": { "x": 2.268481969833374, "y": -21.472639083862305, "z": 24.680885314941406 }, "pca_coordinates": { "x": 2.4433579444885254, "y": -1.6793789863586426, "z": -2.0540964603424072 }, "axis_scores": { "Quantum imaging": 0.7579115033149719, "Quantum Life Science Sensing": 0.72673100233078, "Quantum sensing Detection": 0.7182479500770569, "Quantum sensing Metrology": 0.6993014812469482, "Quantum sensing navigation": 0.7388277053833008, "Quantum sensing Position": 0.7042190432548523, "Quantum sensing Timing": 0.6972091197967529, "Quantum sensing": 0.7325234413146973, "Quantum control": 0.7216359972953796 } }, { "id": 6832, "title": "Current developmental status of thermoelectric (QVD) detectors", "abstract": "Practical implementation of thermoelectric (QVD) detectors requires cryogenic thermoelectric sensors with a high figure of merit. For this requirement there can be different solutions: thin films, bul...", "citations": 21, "author_count": 22, "categories": [ "Instruments & Instrumentation" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6839, "doi": "10.1016/j.nima.2003.11.214", "umap_coordinates": { "x": 394.1244201660156, "y": 133.1845245361328, "z": 205.25997924804688 }, "tsne_coordinates": { "x": -17.23378562927246, "y": 12.000389099121094, "z": -6.5881781578063965 }, "pca_coordinates": { "x": -2.504279136657715, "y": 0.9907671213150024, "z": 0.7902016043663025 }, "axis_scores": { "Quantum imaging": 0.6838780045509338, "Quantum Life Science Sensing": 0.7181066870689392, "Quantum sensing Detection": 0.6977859735488892, "Quantum sensing Metrology": 0.6821171045303345, "Quantum sensing navigation": 0.6838984489440918, "Quantum sensing Position": 0.7048607468605042, "Quantum sensing Timing": 0.6866997480392456, "Quantum sensing": 0.6887310743331909, "Quantum control": 0.6412459015846252 } }, { "id": 6833, "title": "Inertial effects in ultrafast spin dynamics", "abstract": "The dynamics of magnetic moments consists of a precession around the magnetic field direction and a relaxation towards the field to minimize the energy. While the magnetic moment and the angular momen...", "citations": 23, "author_count": 7, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6840, "doi": "10.1016/j.jmmm.2023.170830", "umap_coordinates": { "x": 393.12591552734375, "y": 136.84788513183594, "z": 207.5011749267578 }, "tsne_coordinates": { "x": 2.8662569522857666, "y": -19.187768936157227, "z": 26.768232345581055 }, "pca_coordinates": { "x": 1.113332986831665, "y": 2.386460781097412, "z": -3.1779913902282715 }, "axis_scores": { "Quantum imaging": 0.7479457855224609, "Quantum Life Science Sensing": 0.7575685977935791, "Quantum sensing Detection": 0.7145864963531494, "Quantum sensing Metrology": 0.7215085029602051, "Quantum sensing navigation": 0.7436628341674805, "Quantum sensing Position": 0.7354407906532288, "Quantum sensing Timing": 0.7119566202163696, "Quantum sensing": 0.7331947684288025, "Quantum control": 0.7153511047363281 } }, { "id": 6834, "title": "ON AN EXPERIMENTAL TEST OF PREQUANTUM THEORY OF CLASSICAL RANDOM FIELDS: AN ESTIMATE FROM ABOVE OF THE COEFFICIENT OF SECOND-ORDER COHERENCE", "abstract": "We show that quantum probabilities for photon detection can be reproduced by a model in which classical random fields interact with detectors of the threshold type. This approach is applied to the old...", "citations": 9, "author_count": 4, "categories": [ "Computer Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6841, "doi": "10.1142/S0219749912410146", "umap_coordinates": { "x": 395.7501220703125, "y": 137.01809692382812, "z": 206.33111572265625 }, "tsne_coordinates": { "x": -31.91176414489746, "y": 1.0593576431274414, "z": 19.306137084960938 }, "pca_coordinates": { "x": 1.1015920639038086, "y": 3.9026670455932617, "z": 0.011526703834533691 }, "axis_scores": { "Quantum imaging": 0.7219212055206299, "Quantum Life Science Sensing": 0.7336642146110535, "Quantum sensing Detection": 0.7313702702522278, "Quantum sensing Metrology": 0.7376742959022522, "Quantum sensing navigation": 0.7183516621589661, "Quantum sensing Position": 0.7123968601226807, "Quantum sensing Timing": 0.704163134098053, "Quantum sensing": 0.7397130727767944, "Quantum control": 0.7179878950119019 } }, { "id": 6835, "title": "Adiabatic spin dynamics and effective exchange interactions from constrained tight-binding electronic structure theory: Beyond the Heisenberg regime", "abstract": "We consider an implementation of the adiabatic spin dynamics approach in a tight-binding description of the electronic structure. The adiabatic approximation for spin degrees of freedom assumes that t...", "citations": 7, "author_count": 10, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6842, "doi": "10.1103/PhysRevB.105.224408", "umap_coordinates": { "x": 394.00091552734375, "y": 137.5602264404297, "z": 207.84857177734375 }, "tsne_coordinates": { "x": -4.783402919769287, "y": -39.84880828857422, "z": 17.333274841308594 }, "pca_coordinates": { "x": 4.535763740539551, "y": 0.8932185173034668, "z": -3.083279609680176 }, "axis_scores": { "Quantum imaging": 0.708797812461853, "Quantum Life Science Sensing": 0.6927098035812378, "Quantum sensing Detection": 0.6789306402206421, "Quantum sensing Metrology": 0.6550759077072144, "Quantum sensing navigation": 0.7035467028617859, "Quantum sensing Position": 0.6639754772186279, "Quantum sensing Timing": 0.6790225505828857, "Quantum sensing": 0.7008231282234192, "Quantum control": 0.716060996055603 } }, { "id": 6836, "title": "MAGNETIC PHASES AND SPIN DYNAMICS IN DYAG", "abstract": "", "citations": 2, "author_count": 12, "categories": [ "Physics" ], "year": 1990, "topic": [ "all" ], "embedding_index": 6843, "doi": null, "umap_coordinates": { "x": 392.26727294921875, "y": 138.66262817382812, "z": 209.0678253173828 }, "tsne_coordinates": { "x": -22.2557315826416, "y": 37.53902053833008, "z": 2.8409841060638428 }, "pca_coordinates": { "x": 2.4382505416870117, "y": 2.0427536964416504, "z": -5.256247043609619 }, "axis_scores": { "Quantum imaging": 0.6949369311332703, "Quantum Life Science Sensing": 0.6856620907783508, "Quantum sensing Detection": 0.6573834419250488, "Quantum sensing Metrology": 0.658979058265686, "Quantum sensing navigation": 0.7041385769844055, "Quantum sensing Position": 0.663514256477356, "Quantum sensing Timing": 0.6692029237747192, "Quantum sensing": 0.6651293039321899, "Quantum control": 0.6861461997032166 } }, { "id": 6837, "title": "High-resolution macromolecular crystallography at the FemtoMAX beamline with time-over-threshold photon detection", "abstract": "Protein dynamics contribute to protein function on different time scales. Ultrafast X-ray diffraction snapshots can visualize the location and amplitude of atom displacements after perturbation. Since...", "citations": 1, "author_count": 20, "categories": [ "Instruments & Instrumentation" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6844, "doi": "10.1107/S1600577520014599", "umap_coordinates": { "x": 395.29595947265625, "y": 133.95416259765625, "z": 206.0773162841797 }, "tsne_coordinates": { "x": -23.096271514892578, "y": 7.722421169281006, "z": -27.800079345703125 }, "pca_coordinates": { "x": -0.8793696165084839, "y": 0.45033717155456543, "z": 2.740253448486328 }, "axis_scores": { "Quantum imaging": 0.7281565070152283, "Quantum Life Science Sensing": 0.7354174852371216, "Quantum sensing Detection": 0.7142446637153625, "Quantum sensing Metrology": 0.734434187412262, "Quantum sensing navigation": 0.7055418491363525, "Quantum sensing Position": 0.6919903755187988, "Quantum sensing Timing": 0.7365231513977051, "Quantum sensing": 0.7213551998138428, "Quantum control": 0.6710525751113892 } }, { "id": 6838, "title": "Proximity-enhanced magnetocaloric effect in ferromagnetic trilayers", "abstract": "The demagnetization and associated magnetocaloric effect (MCE) in strong-weak-strong ferromagnetic trilayers, upon a reorientation of the strong ferromagnets from parallel to antiparallel (AP) magneti...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6845, "doi": "10.1088/1361-648X/ac9f95", "umap_coordinates": { "x": 393.142578125, "y": 135.79835510253906, "z": 207.95062255859375 }, "tsne_coordinates": { "x": 4.513545036315918, "y": -18.974924087524414, "z": 33.8409309387207 }, "pca_coordinates": { "x": 0.46632957458496094, "y": 0.09462738037109375, "z": -0.43410444259643555 }, "axis_scores": { "Quantum imaging": 0.6863247156143188, "Quantum Life Science Sensing": 0.6795684695243835, "Quantum sensing Detection": 0.6694880723953247, "Quantum sensing Metrology": 0.6831732392311096, "Quantum sensing navigation": 0.657860279083252, "Quantum sensing Position": 0.665874183177948, "Quantum sensing Timing": 0.668677568435669, "Quantum sensing": 0.6871616840362549, "Quantum control": 0.6488102078437805 } }, { "id": 6839, "title": "Low-temperature anomalies in muon spin relaxation of solid and hollow γ-Fe2O3 nanoparticles: A pathway to detect unusual local spin dynamics", "abstract": "By means of muon spin relaxation measurements we unraveled the temperature spin dynamics in monodisperse maghemite spherical nanoparticles with different surface to volume ratio, in two samples with a...", "citations": 6, "author_count": 17, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6846, "doi": "10.1103/PhysRevB.102.195424", "umap_coordinates": { "x": 393.12396240234375, "y": 136.766357421875, "z": 208.30117797851562 }, "tsne_coordinates": { "x": 0.46814319491386414, "y": -23.759521484375, "z": 22.638193130493164 }, "pca_coordinates": { "x": 2.6017348766326904, "y": 0.19356060028076172, "z": -1.9642939567565918 }, "axis_scores": { "Quantum imaging": 0.7068586945533752, "Quantum Life Science Sensing": 0.7321518063545227, "Quantum sensing Detection": 0.7139161229133606, "Quantum sensing Metrology": 0.6826758980751038, "Quantum sensing navigation": 0.7156649231910706, "Quantum sensing Position": 0.6718735694885254, "Quantum sensing Timing": 0.6787123680114746, "Quantum sensing": 0.7139572501182556, "Quantum control": 0.6785919666290283 } }, { "id": 6840, "title": "Narrowband polarization-entangled photon pairs distributed over a WDM link for qubit networks", "abstract": "We present a bright, narrowband, portable, quasi-phase- matched two-crystal source generating polarization- entangled photon pairs at 809 nm and 1555 nm at a maximum rate of 1.2 x 10(6) s(-1) THz(-1) ...", "citations": 40, "author_count": 9, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6847, "doi": "10.1364/OE.15.006926", "umap_coordinates": { "x": 394.6588439941406, "y": 134.56973266601562, "z": 206.94882202148438 }, "tsne_coordinates": { "x": -4.197709560394287, "y": -6.579905033111572, "z": -29.47513198852539 }, "pca_coordinates": { "x": 1.1481959819793701, "y": -0.8770170211791992, "z": 2.998857021331787 }, "axis_scores": { "Quantum imaging": 0.7412165403366089, "Quantum Life Science Sensing": 0.7099625468254089, "Quantum sensing Detection": 0.7285414338111877, "Quantum sensing Metrology": 0.7205654978752136, "Quantum sensing navigation": 0.7387876510620117, "Quantum sensing Position": 0.7078282237052917, "Quantum sensing Timing": 0.7078719735145569, "Quantum sensing": 0.7376313209533691, "Quantum control": 0.7101449370384216 } }, { "id": 6841, "title": "THE RING IMAGING CHERENKOV DETECTOR OF DELPHI", "abstract": "The ring imaging Cherenkov detector system in the DELPHI experiment at the Large Electron-Positron storage ring at CERN, is designed to do particle identification over most of the solid angle in the m...", "citations": 33, "author_count": 133, "categories": [ "Instruments & Instrumentation" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6848, "doi": "10.1016/0168-9002(94)90535-5", "umap_coordinates": { "x": 395.1357116699219, "y": 134.7492218017578, "z": 205.860595703125 }, "tsne_coordinates": { "x": -27.109371185302734, "y": 14.469644546508789, "z": -18.615259170532227 }, "pca_coordinates": { "x": -1.0607670545578003, "y": 2.489840269088745, "z": 0.786167323589325 }, "axis_scores": { "Quantum imaging": 0.7311390042304993, "Quantum Life Science Sensing": 0.7208802700042725, "Quantum sensing Detection": 0.715580403804779, "Quantum sensing Metrology": 0.7091148495674133, "Quantum sensing navigation": 0.7107359766960144, "Quantum sensing Position": 0.720099687576294, "Quantum sensing Timing": 0.7029158473014832, "Quantum sensing": 0.7165054082870483, "Quantum control": 0.674939751625061 } }, { "id": 6842, "title": "Real-time observation of non-equilibrium phonon-electron energy and angular momentum flow in laser-heated nickel", "abstract": "Identifying the microscopic nature of non-equilibrium energy transfer mechanisms among electronic, spin, and lattice degrees of freedom is central to understanding ultrafast phenomena such as manipula...", "citations": 8, "author_count": 20, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6849, "doi": "10.1126/sciadv.adj2407", "umap_coordinates": { "x": 394.2810363769531, "y": 135.23410034179688, "z": 206.63160705566406 }, "tsne_coordinates": { "x": -11.127235412597656, "y": -2.470656394958496, "z": 8.511687278747559 }, "pca_coordinates": { "x": -0.13268828392028809, "y": 0.5228376388549805, "z": 0.9310185313224792 }, "axis_scores": { "Quantum imaging": 0.7194778323173523, "Quantum Life Science Sensing": 0.7115034461021423, "Quantum sensing Detection": 0.688776969909668, "Quantum sensing Metrology": 0.6871930360794067, "Quantum sensing navigation": 0.721571147441864, "Quantum sensing Position": 0.7008951306343079, "Quantum sensing Timing": 0.7025040984153748, "Quantum sensing": 0.6990012526512146, "Quantum control": 0.6907636523246765 } }, { "id": 6843, "title": "Current-induced switching of antiferromagnetic order in Mn2Au from first principles", "abstract": "It is well established that it is possible to switch certain antiferromagnets electrically, yet the interplay of Neel-spin-orbit torques and thermal activation is only poorly understood. Combining ab ...", "citations": 17, "author_count": 8, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6850, "doi": "10.1103/PhysRevB.105.174416", "umap_coordinates": { "x": 392.773681640625, "y": 136.39830017089844, "z": 208.59056091308594 }, "tsne_coordinates": { "x": 3.987443685531616, "y": -31.324125289916992, "z": 24.242773056030273 }, "pca_coordinates": { "x": 3.744142532348633, "y": -2.733710765838623, "z": -2.1806716918945312 }, "axis_scores": { "Quantum imaging": 0.6808499097824097, "Quantum Life Science Sensing": 0.6983184218406677, "Quantum sensing Detection": 0.6882543563842773, "Quantum sensing Metrology": 0.682064950466156, "Quantum sensing navigation": 0.7054603099822998, "Quantum sensing Position": 0.6733225584030151, "Quantum sensing Timing": 0.6568956971168518, "Quantum sensing": 0.6950225830078125, "Quantum control": 0.6916491985321045 } }, { "id": 6844, "title": "MEMS-Based uncooled infrared bolometer Arrays - A review", "abstract": "Uncooled infrared bolometer arrays have become the technology of choice for low-cost infrared imaging systems used in applications such as thermography, firefighting, driver night vision, security and...", "citations": 163, "author_count": 4, "categories": [ "Engineering" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6851, "doi": "10.1117/12.755128", "umap_coordinates": { "x": 394.7308044433594, "y": 133.7657470703125, "z": 206.53219604492188 }, "tsne_coordinates": { "x": 3.055441379547119, "y": 8.758362770080566, "z": -26.86639976501465 }, "pca_coordinates": { "x": -1.1761243343353271, "y": -0.14734935760498047, "z": 2.3313121795654297 }, "axis_scores": { "Quantum imaging": 0.6890397071838379, "Quantum Life Science Sensing": 0.7167349457740784, "Quantum sensing Detection": 0.7066512703895569, "Quantum sensing Metrology": 0.7237523794174194, "Quantum sensing navigation": 0.692306637763977, "Quantum sensing Position": 0.698016881942749, "Quantum sensing Timing": 0.6757524013519287, "Quantum sensing": 0.7142894268035889, "Quantum control": 0.6669565439224243 } }, { "id": 6845, "title": "Probing Charge Density Wave Effects in 1T-TaS2 Monolayer/Ni81Fe19 Heterostructure: A Spin Dynamics Approach", "abstract": "The transition metal dichalcogenide 1T-TaS2 is known to exhibit a number of collective electronic states known as charge density wave (CDW) instabilities. Intriguing phenomena such as a large damping-...", "citations": 5, "author_count": 9, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6852, "doi": "10.1021/acsaelm.1c00214", "umap_coordinates": { "x": 392.070556640625, "y": 135.90013122558594, "z": 207.1409912109375 }, "tsne_coordinates": { "x": 20.035202026367188, "y": -2.180633306503296, "z": 9.10909652709961 }, "pca_coordinates": { "x": 0.500279426574707, "y": -3.588963508605957, "z": -1.7169814109802246 }, "axis_scores": { "Quantum imaging": 0.71080482006073, "Quantum Life Science Sensing": 0.7067093849182129, "Quantum sensing Detection": 0.6873303651809692, "Quantum sensing Metrology": 0.6844905614852905, "Quantum sensing navigation": 0.702641487121582, "Quantum sensing Position": 0.680343508720398, "Quantum sensing Timing": 0.6758764386177063, "Quantum sensing": 0.7002832889556885, "Quantum control": 0.678986668586731 } }, { "id": 6846, "title": "Microscopic Model for Ultrafast Remagnetization Dynamics", "abstract": "In this Letter, we provide a microscopic model for the ultrafast remagnetization of atomic moments already quenched above the Stoner-Curie temperature by a strong laser fluence. Combining first-princi...", "citations": 40, "author_count": 6, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6853, "doi": "10.1103/PhysRevLett.109.157201", "umap_coordinates": { "x": 393.5929870605469, "y": 137.05624389648438, "z": 208.30308532714844 }, "tsne_coordinates": { "x": 0.6670143604278564, "y": -28.240882873535156, "z": 28.82865333557129 }, "pca_coordinates": { "x": 3.9852848052978516, "y": 1.7791098356246948, "z": -1.9348194599151611 }, "axis_scores": { "Quantum imaging": 0.7295322418212891, "Quantum Life Science Sensing": 0.7366352081298828, "Quantum sensing Detection": 0.704831600189209, "Quantum sensing Metrology": 0.7102314829826355, "Quantum sensing navigation": 0.7054533958435059, "Quantum sensing Position": 0.6677096486091614, "Quantum sensing Timing": 0.6977065205574036, "Quantum sensing": 0.7178649306297302, "Quantum control": 0.7021428942680359 } }, { "id": 6847, "title": "Is the controversy over femtosecond magneto-optics really solved?", "abstract": "", "citations": 57, "author_count": 4, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6854, "doi": "10.1038/nphys2067", "umap_coordinates": { "x": 395.1039123535156, "y": 135.85894775390625, "z": 205.82357788085938 }, "tsne_coordinates": { "x": -20.10333824157715, "y": -6.703622817993164, "z": -12.924431800842285 }, "pca_coordinates": { "x": -0.49384522438049316, "y": 2.214810609817505, "z": -2.071333646774292 }, "axis_scores": { "Quantum imaging": 0.7348299622535706, "Quantum Life Science Sensing": 0.760482907295227, "Quantum sensing Detection": 0.7113748788833618, "Quantum sensing Metrology": 0.7216188907623291, "Quantum sensing navigation": 0.7304980158805847, "Quantum sensing Position": 0.7070892453193665, "Quantum sensing Timing": 0.7030920386314392, "Quantum sensing": 0.7301371097564697, "Quantum control": 0.6968572735786438 } }, { "id": 6848, "title": "Simulation of a spin-wave instability from atomistic spin dynamics", "abstract": "We study the spin dynamics of a Heisenberg model at finite temperature in the presence of an external field or a uniaxial anisotropy. For the case of the uniaxial anisotropy, our simulations show that...", "citations": 8, "author_count": 5, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6855, "doi": "10.1103/PhysRevB.79.184426", "umap_coordinates": { "x": 393.6749267578125, "y": 137.1692657470703, "z": 208.503662109375 }, "tsne_coordinates": { "x": -4.683874130249023, "y": -33.39210891723633, "z": 30.88434600830078 }, "pca_coordinates": { "x": 4.51759147644043, "y": 0.35503697395324707, "z": -1.7422881126403809 }, "axis_scores": { "Quantum imaging": 0.6935179829597473, "Quantum Life Science Sensing": 0.7170603275299072, "Quantum sensing Detection": 0.695107102394104, "Quantum sensing Metrology": 0.6737701892852783, "Quantum sensing navigation": 0.7068648338317871, "Quantum sensing Position": 0.6628450751304626, "Quantum sensing Timing": 0.6593922972679138, "Quantum sensing": 0.6974634528160095, "Quantum control": 0.6857742667198181 } }, { "id": 6849, "title": "SYNCHROTRON-RADIATION-INDUCED PHOTOIONIZATION AND PHOTODISSOCIATION OF CARBON-MONOXIDE IN THE 14-35 EV REGION", "abstract": "Carbon monoxide has been excited with monochromatic synchrotron radiation in the 14-35 eV range using the Swedish, synchrotron facility MAX in Lund. The decay products were studied in various detectio...", "citations": 30, "author_count": 4, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 6856, "doi": "10.1007/BF01426396", "umap_coordinates": { "x": 394.63299560546875, "y": 135.91554260253906, "z": 205.4430694580078 }, "tsne_coordinates": { "x": -21.908658981323242, "y": 10.575081825256348, "z": -7.32015323638916 }, "pca_coordinates": { "x": -0.9549710154533386, "y": 1.060867190361023, "z": -0.34319812059402466 }, "axis_scores": { "Quantum imaging": 0.6927668452262878, "Quantum Life Science Sensing": 0.7048593163490295, "Quantum sensing Detection": 0.6862612962722778, "Quantum sensing Metrology": 0.6558761596679688, "Quantum sensing navigation": 0.6638774275779724, "Quantum sensing Position": 0.6507931351661682, "Quantum sensing Timing": 0.6489466428756714, "Quantum sensing": 0.6849676370620728, "Quantum control": 0.6664328575134277 } }, { "id": 6850, "title": "Spin tune mapping as a novel tool to probe the spin dynamics in storage rings", "abstract": "Precision experiments, such as the search for electric dipole moments of charged particles using storage rings, demand for an understanding of the spin dynamics with unprecedented accuracy. The ultima...", "citations": 35, "author_count": 69, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6857, "doi": "10.1103/PhysRevAccelBeams.20.072801", "umap_coordinates": { "x": 393.8700256347656, "y": 136.33534240722656, "z": 207.53689575195312 }, "tsne_coordinates": { "x": -8.43443775177002, "y": -19.695127487182617, "z": 15.157857894897461 }, "pca_coordinates": { "x": 2.6842002868652344, "y": -0.2441396713256836, "z": -0.43482935428619385 }, "axis_scores": { "Quantum imaging": 0.7252552509307861, "Quantum Life Science Sensing": 0.7469636797904968, "Quantum sensing Detection": 0.7156638503074646, "Quantum sensing Metrology": 0.7245023846626282, "Quantum sensing navigation": 0.7381461262702942, "Quantum sensing Position": 0.7262631058692932, "Quantum sensing Timing": 0.7025379538536072, "Quantum sensing": 0.738065242767334, "Quantum control": 0.7137444615364075 } }, { "id": 6851, "title": "Fabrication and electrical transport characterization of high quality underdoped YBa2Cu3O7-δ nanowires", "abstract": "We present the fabrication and electrical transport characterization of underdoped YBa2Cu3O7-delta nanowires. The nanowires have been realized without any protective capping layer and they show transp...", "citations": 18, "author_count": 6, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6858, "doi": "10.1088/1361-6668/ab807e", "umap_coordinates": { "x": 393.8406677246094, "y": 134.2255859375, "z": 207.48536682128906 }, "tsne_coordinates": { "x": 4.168395519256592, "y": -24.50442123413086, "z": -26.03019142150879 }, "pca_coordinates": { "x": -0.4452558755874634, "y": -2.017545223236084, "z": 2.026859760284424 }, "axis_scores": { "Quantum imaging": 0.6932793855667114, "Quantum Life Science Sensing": 0.6764848828315735, "Quantum sensing Detection": 0.6726757287979126, "Quantum sensing Metrology": 0.6778895854949951, "Quantum sensing navigation": 0.6895166635513306, "Quantum sensing Position": 0.6590396761894226, "Quantum sensing Timing": 0.6733400821685791, "Quantum sensing": 0.6929810047149658, "Quantum control": 0.6718278527259827 } }, { "id": 6852, "title": "Frequency modulated continuous wave and time of flight LIDAR with single photons: a comparison", "abstract": "In this study, we compare the two prominent Light Detection and Ranging (LIDAR) technologies: Frequency Modulated Continuous Wave (FMCW) and Time of Flight (ToF). By constructing a setup capable of pe...", "citations": 12, "author_count": 4, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6859, "doi": "10.1364/OE.508004", "umap_coordinates": { "x": 395.18182373046875, "y": 133.3477325439453, "z": 206.994873046875 }, "tsne_coordinates": { "x": -7.4478535652160645, "y": 7.168628692626953, "z": -35.03628158569336 }, "pca_coordinates": { "x": -1.0480420589447021, "y": 1.4871550798416138, "z": 2.8901052474975586 }, "axis_scores": { "Quantum imaging": 0.7038691639900208, "Quantum Life Science Sensing": 0.7247954607009888, "Quantum sensing Detection": 0.7013529539108276, "Quantum sensing Metrology": 0.7203523516654968, "Quantum sensing navigation": 0.688896894454956, "Quantum sensing Position": 0.6683969497680664, "Quantum sensing Timing": 0.7037566900253296, "Quantum sensing": 0.7049167156219482, "Quantum control": 0.6783262491226196 } }, { "id": 6853, "title": "X-ray absorption spectroscopy measurements of liquid water", "abstract": "Recent studies, based on X-ray absorption spectroscopy (XAS) and X-ray Raman scattering (XRS), have shown that the hydrogen bond network in liquid water consists mainly of water molecules with only tw...", "citations": 136, "author_count": 9, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 6860, "doi": "10.1021/jp052046q", "umap_coordinates": { "x": 393.72772216796875, "y": 135.70982360839844, "z": 205.42880249023438 }, "tsne_coordinates": { "x": -1.399304747581482, "y": 12.123868942260742, "z": -17.470361709594727 }, "pca_coordinates": { "x": -1.456709384918213, "y": 0.6893136501312256, "z": -0.9862911105155945 }, "axis_scores": { "Quantum imaging": 0.7171114683151245, "Quantum Life Science Sensing": 0.756195068359375, "Quantum sensing Detection": 0.706206738948822, "Quantum sensing Metrology": 0.6985751986503601, "Quantum sensing navigation": 0.7084907293319702, "Quantum sensing Position": 0.7162131667137146, "Quantum sensing Timing": 0.6770905256271362, "Quantum sensing": 0.726182222366333, "Quantum control": 0.6800748705863953 } }, { "id": 6854, "title": "Spin dynamics and freezing in magnetic rare-earth quasicrystals", "abstract": "Muon spin relaxation measurements of RE8Mg42Zn50 (RE = Gd, Tb) quasicrystals have revealed slower spin dynamics and more prompt spin freezing for Tb than Gd, due to crystalline electric field splittin...", "citations": 27, "author_count": 8, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 6861, "doi": "10.1016/S0375-9601(97)00888-8", "umap_coordinates": { "x": 392.7297668457031, "y": 136.73252868652344, "z": 207.93136596679688 }, "tsne_coordinates": { "x": 6.550443649291992, "y": -16.758798599243164, "z": 25.30047035217285 }, "pca_coordinates": { "x": 1.4891197681427002, "y": 1.0984179973602295, "z": -4.973441123962402 }, "axis_scores": { "Quantum imaging": 0.6775364875793457, "Quantum Life Science Sensing": 0.6928535103797913, "Quantum sensing Detection": 0.639644205570221, "Quantum sensing Metrology": 0.641160249710083, "Quantum sensing navigation": 0.6733653545379639, "Quantum sensing Position": 0.6439945697784424, "Quantum sensing Timing": 0.6497639417648315, "Quantum sensing": 0.6606597304344177, "Quantum control": 0.6705251932144165 } }, { "id": 6855, "title": "Excitation and recombination studies with silicon and sulphur ions at an EBIT", "abstract": "Measurements of electron-impact excitation and recombination rate coefficients of highly charged Si and S ions at the Stockholm electron beam ion trap are reported. The experimental method was a combi...", "citations": 1, "author_count": 9, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6862, "doi": "10.1088/1361-6455/ad31ad", "umap_coordinates": { "x": 393.2887878417969, "y": 134.47239685058594, "z": 207.15682983398438 }, "tsne_coordinates": { "x": 34.03705978393555, "y": -17.397632598876953, "z": 12.858294486999512 }, "pca_coordinates": { "x": -1.558341145515442, "y": -0.008968830108642578, "z": 0.9853901267051697 }, "axis_scores": { "Quantum imaging": 0.6786316633224487, "Quantum Life Science Sensing": 0.6618067026138306, "Quantum sensing Detection": 0.6472265720367432, "Quantum sensing Metrology": 0.629892885684967, "Quantum sensing navigation": 0.6367650032043457, "Quantum sensing Position": 0.6295758485794067, "Quantum sensing Timing": 0.6420267224311829, "Quantum sensing": 0.655608594417572, "Quantum control": 0.6263800263404846 } }, { "id": 6856, "title": "Computer simulations in solid-state NMR. I. Spin dynamics theory", "abstract": "This article is the first in a series of publications that discuss the basics of the writing of computer programs for simulating solid-state NMR experiments with static and rotating samples. The prese...", "citations": 83, "author_count": 2, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6863, "doi": "10.1002/cmr.a.10061", "umap_coordinates": { "x": 392.85760498046875, "y": 137.14718627929688, "z": 206.59226989746094 }, "tsne_coordinates": { "x": 10.150114059448242, "y": 5.742109775543213, "z": 30.9383602142334 }, "pca_coordinates": { "x": 1.0696170330047607, "y": 2.5021300315856934, "z": -2.976379632949829 }, "axis_scores": { "Quantum imaging": 0.737118661403656, "Quantum Life Science Sensing": 0.7503946423530579, "Quantum sensing Detection": 0.7164168357849121, "Quantum sensing Metrology": 0.7103433609008789, "Quantum sensing navigation": 0.7248722314834595, "Quantum sensing Position": 0.691379725933075, "Quantum sensing Timing": 0.708454430103302, "Quantum sensing": 0.7322353720664978, "Quantum control": 0.7272095680236816 } }, { "id": 6857, "title": "Resonant switching current detector based on underdamped Josephson junctions", "abstract": "Current-biased Josephson junctions can act as detectors of electromagnetic radiation. At optimal conditions, their sensitivity is limited by fluctuations causing stochastic switching from the supercon...", "citations": 5, "author_count": 2, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6864, "doi": "10.1103/PhysRevApplied.22.024015", "umap_coordinates": { "x": 394.65673828125, "y": 134.90560913085938, "z": 208.04620361328125 }, "tsne_coordinates": { "x": -10.696059226989746, "y": -30.7085018157959, "z": -2.9109301567077637 }, "pca_coordinates": { "x": 2.8816699981689453, "y": -1.2946650981903076, "z": 1.6849918365478516 }, "axis_scores": { "Quantum imaging": 0.723909854888916, "Quantum Life Science Sensing": 0.7397581338882446, "Quantum sensing Detection": 0.7350712418556213, "Quantum sensing Metrology": 0.7133346796035767, "Quantum sensing navigation": 0.7088032960891724, "Quantum sensing Position": 0.6903467774391174, "Quantum sensing Timing": 0.6986573338508606, "Quantum sensing": 0.7369409203529358, "Quantum control": 0.6954304575920105 } }, { "id": 6858, "title": "Advances in capillary-based gaseous UV imaging detectors", "abstract": "We studied gain and position resolution of gaseous UV-photon detectors combining single- and cascaded-glass capillary-plate multipliers and CsI photocathodes. Two modes of operation were investigated:...", "citations": 8, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6865, "doi": "10.1016/j.nima.2004.03.022", "umap_coordinates": { "x": 394.0381164550781, "y": 133.564453125, "z": 204.87611389160156 }, "tsne_coordinates": { "x": -14.22947883605957, "y": 12.540121078491211, "z": -6.544670104980469 }, "pca_coordinates": { "x": -3.3984603881835938, "y": 1.3550485372543335, "z": 1.1476852893829346 }, "axis_scores": { "Quantum imaging": 0.7248712778091431, "Quantum Life Science Sensing": 0.7105528712272644, "Quantum sensing Detection": 0.7112569808959961, "Quantum sensing Metrology": 0.6929731369018555, "Quantum sensing navigation": 0.7063960433006287, "Quantum sensing Position": 0.6975674033164978, "Quantum sensing Timing": 0.6748953461647034, "Quantum sensing": 0.7081319093704224, "Quantum control": 0.6615473628044128 } }, { "id": 6859, "title": "Bi2Te3 photoconductive detectors on Si", "abstract": "The peculiar properties of the gapless surface states with a Dirac cone shaped energy dispersion in topological insulators (TIs) enable promising applications in photodetection with an ultra-broad ban...", "citations": 90, "author_count": 9, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6866, "doi": "10.1063/1.4979839", "umap_coordinates": { "x": 393.48486328125, "y": 133.37533569335938, "z": 207.98226928710938 }, "tsne_coordinates": { "x": 31.790355682373047, "y": -14.03130054473877, "z": -7.996283054351807 }, "pca_coordinates": { "x": 0.29886817932128906, "y": -3.6340370178222656, "z": 2.3677172660827637 }, "axis_scores": { "Quantum imaging": 0.7569153308868408, "Quantum Life Science Sensing": 0.7617706656455994, "Quantum sensing Detection": 0.7753159999847412, "Quantum sensing Metrology": 0.7579792737960815, "Quantum sensing navigation": 0.7272101640701294, "Quantum sensing Position": 0.7261145710945129, "Quantum sensing Timing": 0.7025181651115417, "Quantum sensing": 0.7777577042579651, "Quantum control": 0.717711865901947 } }, { "id": 6860, "title": "1H-NMR Relaxation of Ferrite Core-Shell Nanoparticles: Evaluation of the Coating Effect", "abstract": "We investigated the effect of different organic coatings on the H-1-NMR relaxation properties of ultra-small iron-oxide-based magnetic nanoparticles. The first set of nanoparticles, with a magnetic co...", "citations": 6, "author_count": 12, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6867, "doi": "10.3390/nano13050804", "umap_coordinates": { "x": 393.24713134765625, "y": 135.14605712890625, "z": 205.37576293945312 }, "tsne_coordinates": { "x": 30.596342086791992, "y": 19.891185760498047, "z": -8.101295471191406 }, "pca_coordinates": { "x": -3.367056131362915, "y": 1.0810644626617432, "z": -3.406266212463379 }, "axis_scores": { "Quantum imaging": 0.7109431028366089, "Quantum Life Science Sensing": 0.7456527948379517, "Quantum sensing Detection": 0.6828208565711975, "Quantum sensing Metrology": 0.6917027235031128, "Quantum sensing navigation": 0.686748206615448, "Quantum sensing Position": 0.6560184359550476, "Quantum sensing Timing": 0.649288535118103, "Quantum sensing": 0.701285183429718, "Quantum control": 0.6868311166763306 } }, { "id": 6861, "title": "Tomonaga-Luttinger Liquid Spin Dynamics in the Quasi-One-Dimensional Ising-Like Antiferromagnet BaCo2V2O8", "abstract": "Combining inelastic neutron scattering and numerical simulations, we study the quasi-one-dimensional Ising anisotropic quantum antiferromagnet BaCo2V2O8 in a longitudinal magnetic field. This material...", "citations": 22, "author_count": 12, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6868, "doi": "10.1103/PhysRevLett.123.027204", "umap_coordinates": { "x": 393.5618896484375, "y": 136.4579620361328, "z": 208.68077087402344 }, "tsne_coordinates": { "x": -5.243154048919678, "y": -24.87358283996582, "z": 20.751338958740234 }, "pca_coordinates": { "x": 4.261123180389404, "y": -1.3963494300842285, "z": -2.073929786682129 }, "axis_scores": { "Quantum imaging": 0.7000981569290161, "Quantum Life Science Sensing": 0.6947827935218811, "Quantum sensing Detection": 0.6866135597229004, "Quantum sensing Metrology": 0.6799949407577515, "Quantum sensing navigation": 0.7136004567146301, "Quantum sensing Position": 0.6753300428390503, "Quantum sensing Timing": 0.6918013691902161, "Quantum sensing": 0.6988446712493896, "Quantum control": 0.7105302214622498 } }, { "id": 6862, "title": "The new LUCID-2 detector for luminosity measurement and monitoring in ATLAS", "abstract": "The ATLAS luminosity monitor, LUCID (LUminosity Cherenkov Integrating Detector), had to be upgraded for the second run of the LHC accelerator that started in spring 2015. The increased energy of the p...", "citations": 517, "author_count": 27, "categories": [ "Instruments & Instrumentation" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6869, "doi": "10.1088/1748-0221/13/07/P07017", "umap_coordinates": { "x": 395.9931335449219, "y": 133.92587280273438, "z": 206.0466766357422 }, "tsne_coordinates": { "x": -30.352611541748047, "y": 18.746417999267578, "z": -13.556693077087402 }, "pca_coordinates": { "x": -2.7957963943481445, "y": 2.4948649406433105, "z": 2.446021318435669 }, "axis_scores": { "Quantum imaging": 0.6792814135551453, "Quantum Life Science Sensing": 0.6960333585739136, "Quantum sensing Detection": 0.67584228515625, "Quantum sensing Metrology": 0.6743907332420349, "Quantum sensing navigation": 0.6657087802886963, "Quantum sensing Position": 0.6771297454833984, "Quantum sensing Timing": 0.6769329905509949, "Quantum sensing": 0.6702757477760315, "Quantum control": 0.6456142067909241 } }, { "id": 6863, "title": "Terahertz spin dynamics driven by a field-derivative torque", "abstract": "Efficient manipulation of magnetization at ultrashort timescales is of particular interest for future technology. Here, we numerically investigate the influence of the so-called field-derivative torqu...", "citations": 14, "author_count": 6, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6870, "doi": "10.1103/PhysRevB.100.060409", "umap_coordinates": { "x": 393.7109375, "y": 136.2691192626953, "z": 208.77760314941406 }, "tsne_coordinates": { "x": 3.4673166275024414, "y": -28.156190872192383, "z": 20.756317138671875 }, "pca_coordinates": { "x": 4.3255534172058105, "y": -0.8482632637023926, "z": -1.6550164222717285 }, "axis_scores": { "Quantum imaging": 0.7183090448379517, "Quantum Life Science Sensing": 0.7353875041007996, "Quantum sensing Detection": 0.7148747444152832, "Quantum sensing Metrology": 0.702756941318512, "Quantum sensing navigation": 0.7261234521865845, "Quantum sensing Position": 0.700059175491333, "Quantum sensing Timing": 0.7003893256187439, "Quantum sensing": 0.724144697189331, "Quantum control": 0.7251487374305725 } }, { "id": 6864, "title": "Spin dynamics of Mn impurities and their bound acceptors in GaAs", "abstract": "We present results of tight-binding spin-dynamics simulations of individual and pairs of substitutional Mn impurities in GaAs. Our approach is based on the mixed quantum-classical scheme for spin dyna...", "citations": 3, "author_count": 4, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6871, "doi": "10.1103/PhysRevB.90.245406", "umap_coordinates": { "x": 393.6153259277344, "y": 135.5499267578125, "z": 209.45387268066406 }, "tsne_coordinates": { "x": 9.17651081085205, "y": -28.217588424682617, "z": 13.626516342163086 }, "pca_coordinates": { "x": 5.143604755401611, "y": -2.256899833679199, "z": -1.1634482145309448 }, "axis_scores": { "Quantum imaging": 0.6932365298271179, "Quantum Life Science Sensing": 0.7000225782394409, "Quantum sensing Detection": 0.7036657333374023, "Quantum sensing Metrology": 0.6944474577903748, "Quantum sensing navigation": 0.7258141040802002, "Quantum sensing Position": 0.7064871788024902, "Quantum sensing Timing": 0.6781585216522217, "Quantum sensing": 0.7068049907684326, "Quantum control": 0.6851729154586792 } }, { "id": 6865, "title": "Ultrafast magnetization dynamics in the half-metallic Heusler alloy Co2FeAl", "abstract": "We report on optically induced, ultrafast magnetization dynamics in the Heusler alloy Co2FeAl, probed by time-resolved magneto-optical Kerr effect. Experimental results are compared to results from el...", "citations": 15, "author_count": 17, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6872, "doi": "10.1103/PhysRevB.104.L100408", "umap_coordinates": { "x": 393.1025695800781, "y": 136.63037109375, "z": 208.46875 }, "tsne_coordinates": { "x": -0.13827379047870636, "y": -25.199533462524414, "z": 24.647682189941406 }, "pca_coordinates": { "x": 4.129565715789795, "y": -0.41028881072998047, "z": -3.0637102127075195 }, "axis_scores": { "Quantum imaging": 0.7111029624938965, "Quantum Life Science Sensing": 0.7346500158309937, "Quantum sensing Detection": 0.6924877166748047, "Quantum sensing Metrology": 0.6879711151123047, "Quantum sensing navigation": 0.7009515762329102, "Quantum sensing Position": 0.6816861033439636, "Quantum sensing Timing": 0.6717674136161804, "Quantum sensing": 0.703264594078064, "Quantum control": 0.6863313913345337 } }, { "id": 6866, "title": "Theoretical Analysis of Inertia-like Switching in Magnets: Applications to a Synthetic Antiferromagnet", "abstract": "The magnetization dynamics of a synthetic antiferromagnet subjected to a short-magnetic-field pulse has been studied by using a combination of first principles calculations and atomistic spin-dynamics...", "citations": 14, "author_count": 7, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6873, "doi": "10.1103/PhysRevX.2.011013", "umap_coordinates": { "x": 393.33258056640625, "y": 137.11236572265625, "z": 208.14947509765625 }, "tsne_coordinates": { "x": -3.911060333251953, "y": -27.803415298461914, "z": 24.90349006652832 }, "pca_coordinates": { "x": 3.5152153968811035, "y": 1.902980923652649, "z": -2.0535686016082764 }, "axis_scores": { "Quantum imaging": 0.6910673975944519, "Quantum Life Science Sensing": 0.6974219679832458, "Quantum sensing Detection": 0.6734452843666077, "Quantum sensing Metrology": 0.6667709946632385, "Quantum sensing navigation": 0.6780105829238892, "Quantum sensing Position": 0.6644279956817627, "Quantum sensing Timing": 0.6842842102050781, "Quantum sensing": 0.6843148469924927, "Quantum control": 0.6761151552200317 } }, { "id": 6867, "title": "The signs of frequencies and phases in NMR", "abstract": "The signs of radiofrequency phases and frequencies used in NMR are examined carefully. Some fundamental problems with current usage are exposed by simple examples. The entire chain of events leading t...", "citations": 153, "author_count": 2, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6874, "doi": "10.1006/jmre.1997.1161", "umap_coordinates": { "x": 393.03125, "y": 137.1301727294922, "z": 206.9158477783203 }, "tsne_coordinates": { "x": 17.177810668945312, "y": 2.9484732151031494, "z": 33.5545539855957 }, "pca_coordinates": { "x": -0.2714066505432129, "y": 3.1938350200653076, "z": -2.2871294021606445 }, "axis_scores": { "Quantum imaging": 0.7058465480804443, "Quantum Life Science Sensing": 0.7024278044700623, "Quantum sensing Detection": 0.6742295622825623, "Quantum sensing Metrology": 0.6814212203025818, "Quantum sensing navigation": 0.6958060264587402, "Quantum sensing Position": 0.6840299367904663, "Quantum sensing Timing": 0.6959666013717651, "Quantum sensing": 0.6859908103942871, "Quantum control": 0.6710293292999268 } }, { "id": 6868, "title": "Quantization of the superconducting energy gap in an intense microwave field", "abstract": "We study experimentally photon-assisted tunneling in Nb/AlOx/Nb Josephson junctions. We perform a quantitative calibration of the microwave field inside the junction. This allows direct verification o...", "citations": 4, "author_count": 3, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6875, "doi": "10.1103/PhysRevB.92.174506", "umap_coordinates": { "x": 394.3514404296875, "y": 136.01551818847656, "z": 208.584228515625 }, "tsne_coordinates": { "x": -13.132887840270996, "y": -29.276504516601562, "z": 5.7011399269104 }, "pca_coordinates": { "x": 5.289143085479736, "y": -0.6067016124725342, "z": -0.7153146266937256 }, "axis_scores": { "Quantum imaging": 0.7197072505950928, "Quantum Life Science Sensing": 0.7323180437088013, "Quantum sensing Detection": 0.7226462960243225, "Quantum sensing Metrology": 0.7136802673339844, "Quantum sensing navigation": 0.7285321950912476, "Quantum sensing Position": 0.7014579176902771, "Quantum sensing Timing": 0.6896307468414307, "Quantum sensing": 0.7317562103271484, "Quantum control": 0.6964016556739807 } }, { "id": 6869, "title": "X-ray-emission-threshold-electron coincidence spectroscopy", "abstract": "Using a penetration-field threshold photoelectron (TPE) analyzer and efficient photon detectors X-ray-emission-threshold-electron coincidence (XETECO) spectroscopy has been developed to a point where ...", "citations": 9, "author_count": 9, "categories": [ "Spectroscopy" ], "year": 2004, "topic": [ "all" ], "embedding_index": 6876, "doi": "10.1016/j.elspec.2004.06.006", "umap_coordinates": { "x": 394.5637512207031, "y": 133.0329132080078, "z": 205.5996551513672 }, "tsne_coordinates": { "x": -17.386810302734375, "y": 11.589044570922852, "z": -15.576208114624023 }, "pca_coordinates": { "x": -2.2687153816223145, "y": 0.9641766548156738, "z": 2.720334529876709 }, "axis_scores": { "Quantum imaging": 0.7417204976081848, "Quantum Life Science Sensing": 0.7381026148796082, "Quantum sensing Detection": 0.7497657537460327, "Quantum sensing Metrology": 0.7202556133270264, "Quantum sensing navigation": 0.7053918838500977, "Quantum sensing Position": 0.7210535407066345, "Quantum sensing Timing": 0.7331980466842651, "Quantum sensing": 0.7400374412536621, "Quantum control": 0.6688258647918701 } }, { "id": 6870, "title": "Atomistic spin dynamics of the Cu-Mn spin-glass alloy", "abstract": "We demonstrate the use of Langevin spin dynamics for studying dynamical properties of an archetypical spin-glass system. Simulations are performed on CuMn (20% Mn) where we study the relaxation that f...", "citations": 13, "author_count": 7, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6877, "doi": "10.1103/PhysRevB.79.024411", "umap_coordinates": { "x": 393.51312255859375, "y": 136.81497192382812, "z": 209.07395935058594 }, "tsne_coordinates": { "x": -6.253594398498535, "y": -28.57843017578125, "z": 29.910202026367188 }, "pca_coordinates": { "x": 4.573625087738037, "y": -0.4076542854309082, "z": -2.107085704803467 }, "axis_scores": { "Quantum imaging": 0.6987861394882202, "Quantum Life Science Sensing": 0.6971216201782227, "Quantum sensing Detection": 0.7061634063720703, "Quantum sensing Metrology": 0.6911741495132446, "Quantum sensing navigation": 0.7370128035545349, "Quantum sensing Position": 0.6917915940284729, "Quantum sensing Timing": 0.682538628578186, "Quantum sensing": 0.7122791409492493, "Quantum control": 0.7166990637779236 } }, { "id": 6871, "title": "SPIN DYNAMICS IN ANTIFERROMAGNETS WITH DOMAIN WALLS AND DISCLINATIONS", "abstract": "The spin dynamics in antiferromagnets with atomic dislocations and dislocation-induced spin disclinations has been discussed. It is shown how the usual sigma-model equation can be used to describe it....", "citations": 3, "author_count": 6, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6878, "doi": "10.15407/ujpe65.10.924", "umap_coordinates": { "x": 393.2092590332031, "y": 137.03570556640625, "z": 207.8671875 }, "tsne_coordinates": { "x": -7.248403072357178, "y": -19.595733642578125, "z": 30.83541488647461 }, "pca_coordinates": { "x": 2.0582809448242188, "y": 0.6862649917602539, "z": -1.439978837966919 }, "axis_scores": { "Quantum imaging": 0.722568154335022, "Quantum Life Science Sensing": 0.6936261653900146, "Quantum sensing Detection": 0.6707762479782104, "Quantum sensing Metrology": 0.6769765019416809, "Quantum sensing navigation": 0.7190289497375488, "Quantum sensing Position": 0.677498459815979, "Quantum sensing Timing": 0.6779708862304688, "Quantum sensing": 0.6812010407447815, "Quantum control": 0.6973308324813843 } }, { "id": 6872, "title": "Plasmon-driven surface catalysis in hybridized plasmonic gap modes", "abstract": "Plasmon-driven surface catalytic (PDSC) reaction in Ag/Au nanoparticle monomer or dimer-film gaps are experimentally and theoretically investigated, using surface enhanced Raman scattering (SERS) and ...", "citations": 60, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6879, "doi": "10.1038/srep07087", "umap_coordinates": { "x": 392.2947082519531, "y": 134.5369110107422, "z": 206.3934326171875 }, "tsne_coordinates": { "x": 11.594178199768066, "y": -12.781126976013184, "z": -8.366996765136719 }, "pca_coordinates": { "x": -0.8801352381706238, "y": -3.2845048904418945, "z": 0.015109837055206299 }, "axis_scores": { "Quantum imaging": 0.6845101118087769, "Quantum Life Science Sensing": 0.6994563341140747, "Quantum sensing Detection": 0.6841859817504883, "Quantum sensing Metrology": 0.6775394082069397, "Quantum sensing navigation": 0.6757940053939819, "Quantum sensing Position": 0.6442758440971375, "Quantum sensing Timing": 0.6309146285057068, "Quantum sensing": 0.6875826716423035, "Quantum control": 0.6471148729324341 } }, { "id": 6873, "title": "Observation of dark pulses in 10nm thick YBCO nanostrips presenting hysteretic current voltage characteristics", "abstract": "We have fabricated several 10 nm thick and 65 nm wide YBa2Cu3O7-delta (YBCO) nanostrips. The nanostrips with the highest critical current densities are characterized by hysteretic current voltage char...", "citations": 38, "author_count": 9, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6880, "doi": "10.1088/1361-6668/aa94b9", "umap_coordinates": { "x": 394.67803955078125, "y": 134.90582275390625, "z": 206.73406982421875 }, "tsne_coordinates": { "x": 3.612703561782837, "y": -23.320877075195312, "z": -25.44646644592285 }, "pca_coordinates": { "x": 0.10042810440063477, "y": 0.401017427444458, "z": 0.7088562846183777 }, "axis_scores": { "Quantum imaging": 0.6796204447746277, "Quantum Life Science Sensing": 0.7051297426223755, "Quantum sensing Detection": 0.6616777181625366, "Quantum sensing Metrology": 0.6466101408004761, "Quantum sensing navigation": 0.6453090310096741, "Quantum sensing Position": 0.6376751661300659, "Quantum sensing Timing": 0.676647424697876, "Quantum sensing": 0.6694478988647461, "Quantum control": 0.6387962102890015 } }, { "id": 6874, "title": "Gold-coated capillary based 2,4-dichlorophenoxyacetic acid chemi-lumincscent assays: possibilities towards multianalysis", "abstract": "The application of gold-coated glass capillaries for the design of a sensitive chemiluminescent immunoassay for 2,4-dichlorophenoxyacetic acid (2,4-D) is reported. The gold coating on the glass capill...", "citations": 11, "author_count": 6, "categories": [ "Biophysics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 6881, "doi": "10.1016/S0956-5663(01)00296-2", "umap_coordinates": { "x": 393.880126953125, "y": 134.2321014404297, "z": 204.36793518066406 }, "tsne_coordinates": { "x": 18.980438232421875, "y": 23.35245704650879, "z": -17.05885887145996 }, "pca_coordinates": { "x": -4.298102378845215, "y": 0.6454207897186279, "z": 0.45496922731399536 }, "axis_scores": { "Quantum imaging": 0.6746975183486938, "Quantum Life Science Sensing": 0.6923643350601196, "Quantum sensing Detection": 0.694303035736084, "Quantum sensing Metrology": 0.6805545091629028, "Quantum sensing navigation": 0.6880011558532715, "Quantum sensing Position": 0.6900573968887329, "Quantum sensing Timing": 0.6563910245895386, "Quantum sensing": 0.6983853578567505, "Quantum control": 0.6668586730957031 } }, { "id": 6875, "title": "The Percival 2-Megapixel monolithic active pixel imager", "abstract": "The peak brilliance reached by today's Free-Electron Laser and Synchrotron light sources requires photon detectors matching their output intensity and other characteristics in order to fully realize t...", "citations": 11, "author_count": 31, "categories": [ "Instruments & Instrumentation" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6882, "doi": "10.1088/1748-0221/14/01/C01006", "umap_coordinates": { "x": 395.5599670410156, "y": 134.04283142089844, "z": 206.14443969726562 }, "tsne_coordinates": { "x": -25.8153076171875, "y": 24.409517288208008, "z": -8.776618003845215 }, "pca_coordinates": { "x": -3.1512460708618164, "y": 2.2152040004730225, "z": 2.3395731449127197 }, "axis_scores": { "Quantum imaging": 0.6773213744163513, "Quantum Life Science Sensing": 0.6481435894966125, "Quantum sensing Detection": 0.6478925347328186, "Quantum sensing Metrology": 0.6376277208328247, "Quantum sensing navigation": 0.6359779834747314, "Quantum sensing Position": 0.6388509273529053, "Quantum sensing Timing": 0.6336414813995361, "Quantum sensing": 0.6460071802139282, "Quantum control": 0.6183315515518188 } }, { "id": 6876, "title": "Effect of magnetic order on longitudinal Tomonaga-Luttinger liquid spin dynamics in weakly coupled spin-21 chains", "abstract": "The quantum many-body interactions in one-dimensional spin -21 systems are subject to Tomonaga-Luttinger liquid (TLL) physics, which predict an array of multiparticle excitations that form continua in...", "citations": 1, "author_count": 9, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6883, "doi": "10.1103/PhysRevB.107.134425", "umap_coordinates": { "x": 393.609375, "y": 136.5004425048828, "z": 209.07460021972656 }, "tsne_coordinates": { "x": -2.63077712059021, "y": -28.9129638671875, "z": 19.031267166137695 }, "pca_coordinates": { "x": 4.44484281539917, "y": -0.27556514739990234, "z": -1.893810749053955 }, "axis_scores": { "Quantum imaging": 0.674147367477417, "Quantum Life Science Sensing": 0.6831105947494507, "Quantum sensing Detection": 0.6633470058441162, "Quantum sensing Metrology": 0.6465120911598206, "Quantum sensing navigation": 0.6715070605278015, "Quantum sensing Position": 0.6530886292457581, "Quantum sensing Timing": 0.649228036403656, "Quantum sensing": 0.6701010465621948, "Quantum control": 0.6661942601203918 } }, { "id": 6877, "title": "First-principles approach to noncollinear magnetism:: Towards spin dynamics", "abstract": "A description of noncollinear magnetism in the framework of spin-density functional theory is presented for the exact exchange energy functional which depends explicitly on two-component spinor orbita...", "citations": 95, "author_count": 10, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6884, "doi": "10.1103/PhysRevLett.98.196405", "umap_coordinates": { "x": 393.2550964355469, "y": 136.7531280517578, "z": 208.72682189941406 }, "tsne_coordinates": { "x": -3.1394145488739014, "y": -34.142860412597656, "z": 14.760725021362305 }, "pca_coordinates": { "x": 3.9965853691101074, "y": 0.16840553283691406, "z": -2.0195212364196777 }, "axis_scores": { "Quantum imaging": 0.6862761974334717, "Quantum Life Science Sensing": 0.7198706269264221, "Quantum sensing Detection": 0.7017609477043152, "Quantum sensing Metrology": 0.6862037181854248, "Quantum sensing navigation": 0.717806339263916, "Quantum sensing Position": 0.6872667074203491, "Quantum sensing Timing": 0.6837910413742065, "Quantum sensing": 0.7025128602981567, "Quantum control": 0.6916807293891907 } }, { "id": 6878, "title": "The ABALONE photosensor", "abstract": "The ABALONE is a new type of photosensor produced by PhotonLab, Inc. with cost effective mass production, robustness and high performance. This modern technology provides sensitivity to visible and UV...", "citations": 5, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6885, "doi": "10.1088/1748-0221/17/01/C01038", "umap_coordinates": { "x": 395.6852111816406, "y": 134.83984375, "z": 205.73121643066406 }, "tsne_coordinates": { "x": -31.578815460205078, "y": 22.70748519897461, "z": -11.26372241973877 }, "pca_coordinates": { "x": -1.8563811779022217, "y": 0.6853735446929932, "z": 0.06276124715805054 }, "axis_scores": { "Quantum imaging": 0.6933315992355347, "Quantum Life Science Sensing": 0.7007454633712769, "Quantum sensing Detection": 0.6995304226875305, "Quantum sensing Metrology": 0.6686577200889587, "Quantum sensing navigation": 0.7043792009353638, "Quantum sensing Position": 0.6899420619010925, "Quantum sensing Timing": 0.6874606609344482, "Quantum sensing": 0.7021577954292297, "Quantum control": 0.6937714219093323 } }, { "id": 6879, "title": "Near-Infrared Super-Absorbing All-Dielectric Metasurface Based on Single-Layer Germanium Nanostructures", "abstract": "Strong near-infrared absorption in ultrathin semiconductor layers is essential for increasing the speed and efficiency of photocarrier extraction in optoelectronic devices. However, the absorption of ...", "citations": 117, "author_count": 7, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6886, "doi": "10.1002/lpor.201800076", "umap_coordinates": { "x": 393.3321533203125, "y": 133.4262237548828, "z": 206.52615356445312 }, "tsne_coordinates": { "x": 9.897634506225586, "y": -14.741447448730469, "z": -8.350842475891113 }, "pca_coordinates": { "x": -1.9271047115325928, "y": -2.857417583465576, "z": 1.0768964290618896 }, "axis_scores": { "Quantum imaging": 0.7081308364868164, "Quantum Life Science Sensing": 0.7369863390922546, "Quantum sensing Detection": 0.7049666047096252, "Quantum sensing Metrology": 0.7027643322944641, "Quantum sensing navigation": 0.6787959933280945, "Quantum sensing Position": 0.6763270497322083, "Quantum sensing Timing": 0.6510495543479919, "Quantum sensing": 0.7185645699501038, "Quantum control": 0.6561806201934814 } }, { "id": 6880, "title": "Photon-activated electron hopping in a single-electron trap enhanced by Josephson radiation", "abstract": "Using a Josephson junction interferometer (DC SQUID) as a microwave source for irradiating a single-electron trap, both devices fabricated on the same chip, we study the process of photon-assisted tun...", "citations": 3, "author_count": 4, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6887, "doi": "10.1063/1.4948258", "umap_coordinates": { "x": 394.218505859375, "y": 134.07794189453125, "z": 208.50413513183594 }, "tsne_coordinates": { "x": 20.4892520904541, "y": -29.199411392211914, "z": -3.341585159301758 }, "pca_coordinates": { "x": 2.270249605178833, "y": -3.657547950744629, "z": 2.559262752532959 }, "axis_scores": { "Quantum imaging": 0.7006486654281616, "Quantum Life Science Sensing": 0.6794144511222839, "Quantum sensing Detection": 0.6873669624328613, "Quantum sensing Metrology": 0.6706381440162659, "Quantum sensing navigation": 0.6963152289390564, "Quantum sensing Position": 0.6621018648147583, "Quantum sensing Timing": 0.6778221130371094, "Quantum sensing": 0.7016162872314453, "Quantum control": 0.6607603430747986 } }, { "id": 6881, "title": "Fast and sensitive diffuse correlation spectroscopy with highly parallelized single photon detection", "abstract": "Diffuse correlation spectroscopy (DCS) is a well-established method that measures rapid changes in scattered coherent light to identify blood flow and functional dynamics within a tissue. While its se...", "citations": 55, "author_count": 13, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6888, "doi": "10.1063/5.0031225", "umap_coordinates": { "x": 395.0154724121094, "y": 133.06661987304688, "z": 207.1242218017578 }, "tsne_coordinates": { "x": -12.042885780334473, "y": 7.6886749267578125, "z": -33.043636322021484 }, "pca_coordinates": { "x": 0.020540237426757812, "y": -1.13828444480896, "z": 4.85398006439209 }, "axis_scores": { "Quantum imaging": 0.7433013319969177, "Quantum Life Science Sensing": 0.7372474670410156, "Quantum sensing Detection": 0.747120201587677, "Quantum sensing Metrology": 0.7247785925865173, "Quantum sensing navigation": 0.7190646529197693, "Quantum sensing Position": 0.6979900598526001, "Quantum sensing Timing": 0.7058918476104736, "Quantum sensing": 0.7531706690788269, "Quantum control": 0.6861071586608887 } }, { "id": 6882, "title": "Spin dynamics in point contacts to single ferromagnetic films", "abstract": "Excitation of magnons or spin waves driven by nominally unpolarized transport currents in point contacts of normal and ferromagnetic metals is probed by irradiating the contacts with microwaves. Two c...", "citations": 19, "author_count": 7, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6889, "doi": "10.1103/PhysRevB.79.092419", "umap_coordinates": { "x": 393.6222229003906, "y": 135.3398895263672, "z": 209.2679901123047 }, "tsne_coordinates": { "x": 7.191267013549805, "y": -23.10314178466797, "z": 20.610244750976562 }, "pca_coordinates": { "x": 4.1783552169799805, "y": -2.303532600402832, "z": -1.3085699081420898 }, "axis_scores": { "Quantum imaging": 0.6960967183113098, "Quantum Life Science Sensing": 0.7209855914115906, "Quantum sensing Detection": 0.6959114670753479, "Quantum sensing Metrology": 0.6912205219268799, "Quantum sensing navigation": 0.6962254047393799, "Quantum sensing Position": 0.7089018225669861, "Quantum sensing Timing": 0.6774623394012451, "Quantum sensing": 0.7071160674095154, "Quantum control": 0.6933726072311401 } }, { "id": 6883, "title": "Distinctive Picosecond Spin Polarization Dynamics in Bulk Half Metals", "abstract": "Femtosecond laser excitations in half-metal (HM) compounds are theoretically predicted to induce an exotic picosecond spin dynamics. In particular, conversely to what is observed in conventional metal...", "citations": 11, "author_count": 11, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6890, "doi": "10.1103/PhysRevLett.121.077205", "umap_coordinates": { "x": 393.0303955078125, "y": 136.58950805664062, "z": 208.0514373779297 }, "tsne_coordinates": { "x": -1.3835923671722412, "y": -24.814655303955078, "z": 21.14194679260254 }, "pca_coordinates": { "x": 2.88645601272583, "y": -1.2248039245605469, "z": -2.4436755180358887 }, "axis_scores": { "Quantum imaging": 0.7226076722145081, "Quantum Life Science Sensing": 0.7224435210227966, "Quantum sensing Detection": 0.6959174275398254, "Quantum sensing Metrology": 0.6739767789840698, "Quantum sensing navigation": 0.6816827058792114, "Quantum sensing Position": 0.6718190908432007, "Quantum sensing Timing": 0.6825549006462097, "Quantum sensing": 0.7093638181686401, "Quantum control": 0.6866629123687744 } }, { "id": 6884, "title": "Zero-field magnetic skyrmions in exchange-biased ferromagnetic-antiferromagnetic bilayers", "abstract": "We report on the stabilization of ferromagnetic skyrmions in zero external magnetic fields, in exchange-biased systems composed of ferromagnetic-antiferromagnetic (FM-AFM) bilayers. By performing atom...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6891, "doi": "10.1088/1361-648X/ad5598", "umap_coordinates": { "x": 393.27398681640625, "y": 136.5232696533203, "z": 207.64871215820312 }, "tsne_coordinates": { "x": 3.4089436531066895, "y": -16.58393669128418, "z": 34.23746871948242 }, "pca_coordinates": { "x": 1.3298957347869873, "y": 0.005512237548828125, "z": -2.1148250102996826 }, "axis_scores": { "Quantum imaging": 0.6563276052474976, "Quantum Life Science Sensing": 0.6474944353103638, "Quantum sensing Detection": 0.6169745922088623, "Quantum sensing Metrology": 0.635053277015686, "Quantum sensing navigation": 0.6553499102592468, "Quantum sensing Position": 0.633114755153656, "Quantum sensing Timing": 0.6210259199142456, "Quantum sensing": 0.6388663053512573, "Quantum control": 0.6369306445121765 } }, { "id": 6885, "title": "Phase stability of Fe from first principles: Atomistic spin dynamics coupled with ab initio molecular dynamics simulations and thermodynamic integration", "abstract": "The calculation of free energies from first principles enables the prediction of phase stability of materials with high accuracy; these calculations are complicated in magnetic materials by the interp...", "citations": 6, "author_count": 4, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6892, "doi": "10.1103/PhysRevB.107.014102", "umap_coordinates": { "x": 393.2259216308594, "y": 136.94268798828125, "z": 208.6946563720703 }, "tsne_coordinates": { "x": -4.514362335205078, "y": -33.16265869140625, "z": 28.320070266723633 }, "pca_coordinates": { "x": 3.3646249771118164, "y": -1.2415623664855957, "z": -3.5485219955444336 }, "axis_scores": { "Quantum imaging": 0.6991620659828186, "Quantum Life Science Sensing": 0.7402369379997253, "Quantum sensing Detection": 0.6977187395095825, "Quantum sensing Metrology": 0.6847757697105408, "Quantum sensing navigation": 0.7107006311416626, "Quantum sensing Position": 0.6621106863021851, "Quantum sensing Timing": 0.6555396318435669, "Quantum sensing": 0.7057316899299622, "Quantum control": 0.7017232179641724 } }, { "id": 6886, "title": "Axion quasiparticles for axion dark matter detection", "abstract": "It has been suggested that certain antiferromagnetic topological insulators contain axion quasiparticles (AQs), and that such materials could be used to detect axion dark matter (DM). The AQ is a long...", "citations": 83, "author_count": 11, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6893, "doi": "10.1088/1475-7516/2021/08/066", "umap_coordinates": { "x": 396.36102294921875, "y": 135.16519165039062, "z": 206.7108612060547 }, "tsne_coordinates": { "x": -31.401107788085938, "y": -5.237938404083252, "z": -20.80188751220703 }, "pca_coordinates": { "x": -0.048845529556274414, "y": 2.087395668029785, "z": 2.610255718231201 }, "axis_scores": { "Quantum imaging": 0.7321455478668213, "Quantum Life Science Sensing": 0.6940925121307373, "Quantum sensing Detection": 0.7190592885017395, "Quantum sensing Metrology": 0.702502965927124, "Quantum sensing navigation": 0.7331143021583557, "Quantum sensing Position": 0.7149480581283569, "Quantum sensing Timing": 0.7016419172286987, "Quantum sensing": 0.7177301049232483, "Quantum control": 0.6868337392807007 } }, { "id": 6887, "title": "Ab-initio study of the electronic structure and magnetic properties of Ce2Fe17", "abstract": "The Ce2Fe17 intermetallic compound has been studied intensely for several decades; its low-temperature state is reported experimentally either as ferromagnetic or antiferromagnetic by different author...", "citations": 10, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6894, "doi": "10.1016/j.jallcom.2021.161521", "umap_coordinates": { "x": 392.4781799316406, "y": 135.99249267578125, "z": 207.3960723876953 }, "tsne_coordinates": { "x": 14.657846450805664, "y": -20.20036506652832, "z": 27.82393455505371 }, "pca_coordinates": { "x": -0.8564894199371338, "y": -1.0750758647918701, "z": -3.3655734062194824 }, "axis_scores": { "Quantum imaging": 0.6946700811386108, "Quantum Life Science Sensing": 0.7123345732688904, "Quantum sensing Detection": 0.6733627319335938, "Quantum sensing Metrology": 0.6830741167068481, "Quantum sensing navigation": 0.6712613105773926, "Quantum sensing Position": 0.6601966619491577, "Quantum sensing Timing": 0.632672131061554, "Quantum sensing": 0.6904047727584839, "Quantum control": 0.690215528011322 } }, { "id": 6888, "title": "Atomistic spin dynamics simulations of magnonic spin Seebeck and spin Nernst effects in altermagnets", "abstract": "Magnon band structures in altermagnets are characterized by an energy splitting of modes with opposite chirality, even in the absence of applied external fields and relativistic effects, because of an...", "citations": 12, "author_count": 3, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6895, "doi": "10.1103/PhysRevB.110.094427", "umap_coordinates": { "x": 393.3748474121094, "y": 137.2726287841797, "z": 208.8435821533203 }, "tsne_coordinates": { "x": -3.862513303756714, "y": -29.66929054260254, "z": 30.99336814880371 }, "pca_coordinates": { "x": 4.733618259429932, "y": -0.47129034996032715, "z": -2.358096122741699 }, "axis_scores": { "Quantum imaging": 0.702032208442688, "Quantum Life Science Sensing": 0.7060132026672363, "Quantum sensing Detection": 0.6758944988250732, "Quantum sensing Metrology": 0.6928503513336182, "Quantum sensing navigation": 0.7151315808296204, "Quantum sensing Position": 0.6653956174850464, "Quantum sensing Timing": 0.6688293218612671, "Quantum sensing": 0.6965358853340149, "Quantum control": 0.6935996413230896 } }, { "id": 6889, "title": "Theory of laser-induced ultrafast superdiffusive spin transport in layered heterostructures", "abstract": "Femtosecond laser excitation of a ferromagnetic material creates energetic spin-polarized electrons that have anomalous transport characteristics. We develop a semiclassical theory that is specificall...", "citations": 272, "author_count": 4, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6896, "doi": "10.1103/PhysRevB.86.024404", "umap_coordinates": { "x": 393.7783203125, "y": 136.05564880371094, "z": 209.13592529296875 }, "tsne_coordinates": { "x": 0.2982886731624603, "y": -27.95018768310547, "z": 19.003826141357422 }, "pca_coordinates": { "x": 3.34755277633667, "y": -2.8179540634155273, "z": -0.8406608700752258 }, "axis_scores": { "Quantum imaging": 0.7016395330429077, "Quantum Life Science Sensing": 0.7082706093788147, "Quantum sensing Detection": 0.6854681372642517, "Quantum sensing Metrology": 0.6797206401824951, "Quantum sensing navigation": 0.6803795099258423, "Quantum sensing Position": 0.6592897176742554, "Quantum sensing Timing": 0.650905191898346, "Quantum sensing": 0.6984246373176575, "Quantum control": 0.6648287177085876 } }, { "id": 6890, "title": "A Closer Look Into Magnetism: Opportunities With Synchrotron Radiation", "abstract": "The unique properties of synchrotron radiation, such as broad energy spectrum, variable light polarization, and flexible time structure, have made it an enormously powerful tool in the study of magnet...", "citations": 59, "author_count": 16, "categories": [ "Engineering" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6897, "doi": "10.1109/TMAG.2008.2006667", "umap_coordinates": { "x": 393.7672119140625, "y": 136.50543212890625, "z": 207.58837890625 }, "tsne_coordinates": { "x": -0.5004011988639832, "y": -31.931396484375, "z": 35.07558059692383 }, "pca_coordinates": { "x": 0.22677171230316162, "y": 2.1040382385253906, "z": -0.08000558614730835 }, "axis_scores": { "Quantum imaging": 0.6859241724014282, "Quantum Life Science Sensing": 0.6997430324554443, "Quantum sensing Detection": 0.6726604700088501, "Quantum sensing Metrology": 0.693253755569458, "Quantum sensing navigation": 0.6868444681167603, "Quantum sensing Position": 0.6589339375495911, "Quantum sensing Timing": 0.6775226593017578, "Quantum sensing": 0.6809663772583008, "Quantum control": 0.6334209442138672 } }, { "id": 6891, "title": "Charge and Spin Dynamics and Enantioselectivity in Chiral Molecules", "abstract": "Charge and spin dynamics are addressed in chiral molecules immediately after their instantaneous coupling to an external metallic reservoir. This work describes how a spin polarization is induced in t...", "citations": 45, "author_count": 2, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6898, "doi": "10.1021/acs.jpclett.1c03925", "umap_coordinates": { "x": 392.2614440917969, "y": 136.40174865722656, "z": 206.43801879882812 }, "tsne_coordinates": { "x": 4.074399948120117, "y": -9.857179641723633, "z": -4.912956237792969 }, "pca_coordinates": { "x": 0.001783609390258789, "y": -1.393507480621338, "z": -4.503050327301025 }, "axis_scores": { "Quantum imaging": 0.7150728702545166, "Quantum Life Science Sensing": 0.7085624933242798, "Quantum sensing Detection": 0.6766871809959412, "Quantum sensing Metrology": 0.6539145708084106, "Quantum sensing navigation": 0.6994583606719971, "Quantum sensing Position": 0.679943859577179, "Quantum sensing Timing": 0.6676548719406128, "Quantum sensing": 0.699409544467926, "Quantum control": 0.7314845323562622 } }, { "id": 6892, "title": "Spin relaxation signature of colossal magnetic anisotropy in platinum atomic chains", "abstract": "Recent experimental data demonstrate emerging magnetic order in platinum atomically thin nanowires. Furthermore, an unusual form of magnetic anisotropy-colossal magnetic anisotropy (CMA)-was earlier p...", "citations": 5, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6899, "doi": "10.1038/srep36872", "umap_coordinates": { "x": 392.5525207519531, "y": 136.8003692626953, "z": 207.23532104492188 }, "tsne_coordinates": { "x": 3.5592663288116455, "y": -18.453392028808594, "z": 21.46110725402832 }, "pca_coordinates": { "x": -0.1106642484664917, "y": -0.3651912212371826, "z": -3.532492160797119 }, "axis_scores": { "Quantum imaging": 0.691981315612793, "Quantum Life Science Sensing": 0.7131683826446533, "Quantum sensing Detection": 0.664680004119873, "Quantum sensing Metrology": 0.6506649851799011, "Quantum sensing navigation": 0.6733672022819519, "Quantum sensing Position": 0.657926619052887, "Quantum sensing Timing": 0.6947358250617981, "Quantum sensing": 0.684024453163147, "Quantum control": 0.6607237458229065 } }, { "id": 6893, "title": "Equation of motion and the constraining field in ab initio spin dynamics", "abstract": "It is generally accepted that the effective magnetic field acting on a magnetic moment is given by the gradient of the energy with respect to the magnetization. However, in ab initio spin dynamics wit...", "citations": 11, "author_count": 9, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6900, "doi": "10.1103/PhysRevB.102.214407", "umap_coordinates": { "x": 393.5713806152344, "y": 137.49642944335938, "z": 208.3168487548828 }, "tsne_coordinates": { "x": -7.553561687469482, "y": -33.65993118286133, "z": 29.89516258239746 }, "pca_coordinates": { "x": 3.516724109649658, "y": 1.0575551986694336, "z": -3.2190234661102295 }, "axis_scores": { "Quantum imaging": 0.6862003207206726, "Quantum Life Science Sensing": 0.7100327610969543, "Quantum sensing Detection": 0.6824004054069519, "Quantum sensing Metrology": 0.6749656200408936, "Quantum sensing navigation": 0.7174062728881836, "Quantum sensing Position": 0.6918514966964722, "Quantum sensing Timing": 0.6833513975143433, "Quantum sensing": 0.687981903553009, "Quantum control": 0.7040126919746399 } }, { "id": 6894, "title": "New multi-cell imaging chemiluminescence (ICL) instrument to evaluate the stability of polymers", "abstract": "Developments of position-sensitive photon detectors and charged coupled device (CCD) cameras, have made it possible to measure thermo-oxidative degradation of polymers in real-time with high precision...", "citations": 13, "author_count": 6, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6901, "doi": "10.1016/S0142-9418(02)00114-9", "umap_coordinates": { "x": 393.72259521484375, "y": 134.2571563720703, "z": 204.42848205566406 }, "tsne_coordinates": { "x": 3.4462063312530518, "y": 19.340486526489258, "z": -10.717378616333008 }, "pca_coordinates": { "x": -5.819462776184082, "y": 1.2949914932250977, "z": 0.22361713647842407 }, "axis_scores": { "Quantum imaging": 0.6820619702339172, "Quantum Life Science Sensing": 0.7186905145645142, "Quantum sensing Detection": 0.6634037494659424, "Quantum sensing Metrology": 0.6476147174835205, "Quantum sensing navigation": 0.6457056999206543, "Quantum sensing Position": 0.6568759679794312, "Quantum sensing Timing": 0.6276483535766602, "Quantum sensing": 0.6624767184257507, "Quantum control": 0.6441279649734497 } }, { "id": 6895, "title": "RECENT RESULTS FROM THE DELPHI BARREL RING IMAGING CHERENKOV COUNTER", "abstract": "The DELPHI detector, installed at LEP, is equipped with RICH (Ring Imaging CHerenkov) counters. The Barrel part incorporates a liquid (C6F14) and a gaseous (C5F12) radiator providing particle identifi...", "citations": 6, "author_count": 91, "categories": [ "Engineering" ], "year": 1991, "topic": [ "all" ], "embedding_index": 6902, "doi": "10.1109/23.289268", "umap_coordinates": { "x": 395.56689453125, "y": 134.81887817382812, "z": 206.1748504638672 }, "tsne_coordinates": { "x": -28.364137649536133, "y": 14.493977546691895, "z": -21.497604370117188 }, "pca_coordinates": { "x": -0.08009934425354004, "y": 3.0849061012268066, "z": 1.386641502380371 }, "axis_scores": { "Quantum imaging": 0.7219643592834473, "Quantum Life Science Sensing": 0.7096193432807922, "Quantum sensing Detection": 0.7013774514198303, "Quantum sensing Metrology": 0.6855381727218628, "Quantum sensing navigation": 0.7115198373794556, "Quantum sensing Position": 0.6920307874679565, "Quantum sensing Timing": 0.6981161832809448, "Quantum sensing": 0.7078751921653748, "Quantum control": 0.6838117837905884 } }, { "id": 6896, "title": "Inertial Spin Dynamics in Epitaxial Cobalt Films", "abstract": "We investigate the spin dynamics driven by terahertz magnetic fields in epitaxial thin films of cobalt in its three crystalline phases. The terahertz magnetic field generates a torque on the magnetiza...", "citations": 46, "author_count": 9, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6903, "doi": "10.1103/PhysRevLett.129.237201", "umap_coordinates": { "x": 393.6387634277344, "y": 136.83631896972656, "z": 208.2599334716797 }, "tsne_coordinates": { "x": 1.4194626808166504, "y": -20.46695899963379, "z": 24.81063461303711 }, "pca_coordinates": { "x": 4.32112979888916, "y": 0.1901688575744629, "z": -1.507253885269165 }, "axis_scores": { "Quantum imaging": 0.7363359332084656, "Quantum Life Science Sensing": 0.7443843483924866, "Quantum sensing Detection": 0.7177785634994507, "Quantum sensing Metrology": 0.7006117701530457, "Quantum sensing navigation": 0.7392374873161316, "Quantum sensing Position": 0.7228339314460754, "Quantum sensing Timing": 0.7191595435142517, "Quantum sensing": 0.7306796312332153, "Quantum control": 0.711341142654419 } }, { "id": 6897, "title": "Ultrafast cooling and heating scenarios for the laser-induced phase transition in CuO", "abstract": "The multiferroic compound CuO exhibits low-temperature magnetic properties similar to antiferromagnetic iron oxides, while the electronic properties have much more in common with the high-T-c cuprate ...", "citations": 10, "author_count": 4, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6904, "doi": "10.1103/PhysRevB.94.144435", "umap_coordinates": { "x": 393.9451599121094, "y": 136.73507690429688, "z": 207.98085021972656 }, "tsne_coordinates": { "x": 2.379824161529541, "y": -40.861995697021484, "z": 4.54512357711792 }, "pca_coordinates": { "x": 3.20896577835083, "y": 0.9646114110946655, "z": -1.5651328563690186 }, "axis_scores": { "Quantum imaging": 0.6714476943016052, "Quantum Life Science Sensing": 0.6782639026641846, "Quantum sensing Detection": 0.670775294303894, "Quantum sensing Metrology": 0.6534565687179565, "Quantum sensing navigation": 0.6614400744438171, "Quantum sensing Position": 0.6289681792259216, "Quantum sensing Timing": 0.6615322232246399, "Quantum sensing": 0.6683544516563416, "Quantum control": 0.6772410869598389 } }, { "id": 6898, "title": "Improved quality tests of R11410-21 photomultiplier tubes for the XENONnT experiment", "abstract": "Photomultiplier tubes (PMTs) are often used in low-background particle physics experiments, which rely on an excellent response to single-photon signals and stable long-term operation. In particular, ...", "citations": 21, "author_count": 21, "categories": [ "Instruments & Instrumentation" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6905, "doi": "10.1088/1748-0221/16/08/P08033", "umap_coordinates": { "x": 395.84368896484375, "y": 134.2344207763672, "z": 205.90127563476562 }, "tsne_coordinates": { "x": -26.92184829711914, "y": 23.602645874023438, "z": -14.089971542358398 }, "pca_coordinates": { "x": -2.526766777038574, "y": 3.260460615158081, "z": 1.762826681137085 }, "axis_scores": { "Quantum imaging": 0.6522268652915955, "Quantum Life Science Sensing": 0.6571422219276428, "Quantum sensing Detection": 0.6366371512413025, "Quantum sensing Metrology": 0.6412104964256287, "Quantum sensing navigation": 0.6402971744537354, "Quantum sensing Position": 0.6417674422264099, "Quantum sensing Timing": 0.6418021321296692, "Quantum sensing": 0.6465017199516296, "Quantum control": 0.63717120885849 } }, { "id": 6899, "title": "Current Crowding in Nanoscale Superconductors within the Ginzburg-Landau Model", "abstract": "The current density in a superconductor with turnarounds or constrictions is nonuniform due to a geometrical current-crowding effect. This effect reduces the critical current in the superconducting st...", "citations": 23, "author_count": 9, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6906, "doi": "10.1103/PhysRevApplied.17.064046", "umap_coordinates": { "x": 394.204833984375, "y": 136.0923309326172, "z": 208.2536163330078 }, "tsne_coordinates": { "x": -9.691545486450195, "y": -25.36507797241211, "z": 12.916539192199707 }, "pca_coordinates": { "x": 2.7877273559570312, "y": -0.6978261470794678, "z": -0.7738115787506104 }, "axis_scores": { "Quantum imaging": 0.7067306041717529, "Quantum Life Science Sensing": 0.7191222906112671, "Quantum sensing Detection": 0.6910619735717773, "Quantum sensing Metrology": 0.7071357369422913, "Quantum sensing navigation": 0.7307152152061462, "Quantum sensing Position": 0.709333598613739, "Quantum sensing Timing": 0.7019389867782593, "Quantum sensing": 0.7091643214225769, "Quantum control": 0.7067413330078125 } }, { "id": 6900, "title": "Practical Guidelines for Optimization and Characterization of the Beckman Coulter CytoFLEX™ Platform", "abstract": "Cytometer characterization is critical to define operational bounds within which the data generated are reliable and reproducible. Existing instrument optimization and characterization protocols were ...", "citations": 10, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6907, "doi": "10.1002/cyto.a.23998", "umap_coordinates": { "x": 393.96063232421875, "y": 135.03619384765625, "z": 204.29165649414062 }, "tsne_coordinates": { "x": 7.4795989990234375, "y": 28.100358963012695, "z": 0.8712337613105774 }, "pca_coordinates": { "x": -4.35740852355957, "y": 3.1106996536254883, "z": -0.4474849998950958 }, "axis_scores": { "Quantum imaging": 0.6937013268470764, "Quantum Life Science Sensing": 0.7125265598297119, "Quantum sensing Detection": 0.6840493679046631, "Quantum sensing Metrology": 0.7010114192962646, "Quantum sensing navigation": 0.6882781982421875, "Quantum sensing Position": 0.6932737827301025, "Quantum sensing Timing": 0.6798992156982422, "Quantum sensing": 0.6997931599617004, "Quantum control": 0.7032503485679626 } }, { "id": 6901, "title": "A method for atomistic spin dynamics simulations:: implementation and examples", "abstract": "We present a method for performing atomistic spin dynamic simulations. A comprehensive summary of all pertinent details for performing the simulations such as equations of motions, models for includin...", "citations": 338, "author_count": 5, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6908, "doi": "10.1088/0953-8984/20/31/315203", "umap_coordinates": { "x": 393.7948303222656, "y": 137.6765899658203, "z": 206.95852661132812 }, "tsne_coordinates": { "x": -17.795015335083008, "y": 0.7980868816375732, "z": 29.517200469970703 }, "pca_coordinates": { "x": 1.547098159790039, "y": 2.671649932861328, "z": -1.5176022052764893 }, "axis_scores": { "Quantum imaging": 0.6950690746307373, "Quantum Life Science Sensing": 0.6963726878166199, "Quantum sensing Detection": 0.6755735874176025, "Quantum sensing Metrology": 0.6755319833755493, "Quantum sensing navigation": 0.6982811689376831, "Quantum sensing Position": 0.6636004447937012, "Quantum sensing Timing": 0.674649178981781, "Quantum sensing": 0.6836798191070557, "Quantum control": 0.6756559610366821 } }, { "id": 6902, "title": "Suppression of Standing Spin Waves in Low-Dimensional Ferromagnets", "abstract": "We examine the experimental absence of standing spin wave modes in thin magnetic films, by means of atomistic spin dynamics simulations. Using Co on Cu(001) as a model system, we demonstrate that by i...", "citations": 25, "author_count": 6, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6909, "doi": "10.1103/PhysRevLett.107.037202", "umap_coordinates": { "x": 393.7006530761719, "y": 136.52761840820312, "z": 208.65037536621094 }, "tsne_coordinates": { "x": -4.497451305389404, "y": -20.511425018310547, "z": 24.823211669921875 }, "pca_coordinates": { "x": 3.9780964851379395, "y": -1.6739387512207031, "z": -0.6716408729553223 }, "axis_scores": { "Quantum imaging": 0.677736759185791, "Quantum Life Science Sensing": 0.6924141645431519, "Quantum sensing Detection": 0.6731424927711487, "Quantum sensing Metrology": 0.6751148104667664, "Quantum sensing navigation": 0.6956250667572021, "Quantum sensing Position": 0.6668702960014343, "Quantum sensing Timing": 0.6528453826904297, "Quantum sensing": 0.6773754358291626, "Quantum control": 0.6633618474006653 } }, { "id": 6903, "title": "Design of 2D skyrmionic metamaterials through controlled assembly", "abstract": "Despite extensive research on magnetic skyrmions and antiskyrmions, a significant challenge remains in crafting nontrivial high-order skyrmionic textures with varying, or even tailor-made, topologies....", "citations": 1, "author_count": 11, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6910, "doi": "10.1038/s41524-025-01534-4", "umap_coordinates": { "x": 392.2748107910156, "y": 134.60653686523438, "z": 206.6915740966797 }, "tsne_coordinates": { "x": 22.51717758178711, "y": -12.565540313720703, "z": -12.143680572509766 }, "pca_coordinates": { "x": -2.2273645401000977, "y": -1.0533452033996582, "z": -0.9349632263183594 }, "axis_scores": { "Quantum imaging": 0.6961454153060913, "Quantum Life Science Sensing": 0.6971004009246826, "Quantum sensing Detection": 0.6735233664512634, "Quantum sensing Metrology": 0.6912186741828918, "Quantum sensing navigation": 0.7046387791633606, "Quantum sensing Position": 0.6613368391990662, "Quantum sensing Timing": 0.6606740355491638, "Quantum sensing": 0.6944794058799744, "Quantum control": 0.7166279554367065 } }, { "id": 6904, "title": "Orbital-resolved spin model for thermal magnetization switching in rare-earth-based ferrimagnets", "abstract": "The switching of rare-earth-based ferrimagnets triggered by thermal excitation is investigated on the basis of an atomistic spin model beyond the rigid-spin approximation, distinguishing magnetic mome...", "citations": 112, "author_count": 6, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6911, "doi": "10.1103/PhysRevB.88.020406", "umap_coordinates": { "x": 393.3590393066406, "y": 136.9330596923828, "z": 208.632080078125 }, "tsne_coordinates": { "x": -1.9780915975570679, "y": -30.505067825317383, "z": 24.79483413696289 }, "pca_coordinates": { "x": 3.1336522102355957, "y": -0.2729659080505371, "z": -2.4302711486816406 }, "axis_scores": { "Quantum imaging": 0.6905364394187927, "Quantum Life Science Sensing": 0.7072548866271973, "Quantum sensing Detection": 0.6723157167434692, "Quantum sensing Metrology": 0.6825238466262817, "Quantum sensing navigation": 0.6911565065383911, "Quantum sensing Position": 0.6585400700569153, "Quantum sensing Timing": 0.6806086897850037, "Quantum sensing": 0.6883865594863892, "Quantum control": 0.6733893156051636 } }, { "id": 6905, "title": "Atomistic spin dynamics of low-dimensional magnets", "abstract": "We investigate the magnetic properties of a range of low-dimensional ferromagnets using a combination of first-principles calculations and atomistic spin dynamics simulations. This approach allows us ...", "citations": 56, "author_count": 6, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6912, "doi": "10.1103/PhysRevB.87.144401", "umap_coordinates": { "x": 393.4938659667969, "y": 137.0509490966797, "z": 208.82810974121094 }, "tsne_coordinates": { "x": -5.41696834564209, "y": -29.682491302490234, "z": 30.354516983032227 }, "pca_coordinates": { "x": 6.056623935699463, "y": -0.22600936889648438, "z": -2.758274555206299 }, "axis_scores": { "Quantum imaging": 0.724125862121582, "Quantum Life Science Sensing": 0.7241484522819519, "Quantum sensing Detection": 0.7105527520179749, "Quantum sensing Metrology": 0.693124532699585, "Quantum sensing navigation": 0.7333492040634155, "Quantum sensing Position": 0.6910443305969238, "Quantum sensing Timing": 0.6729562282562256, "Quantum sensing": 0.7183764576911926, "Quantum control": 0.7180632948875427 } }, { "id": 6906, "title": "On the dynamic range of different X-ray photon detectors in intra-oral radiography. A comparison of image quality in film, charge-coupled device and storage phosphor systems", "abstract": "Objectives. To compare film for intra-oral radiography with two charge-coupled device (CCD) and one storage phosphor system for digital imaging in respect of subj ective image quality, detectability o...", "citations": 61, "author_count": 3, "categories": [ "Dentistry", "Oral Surgery & Medicine" ], "year": 1996, "topic": [ "all" ], "embedding_index": 6913, "doi": "10.1259/dmfr.25.2.9446978", "umap_coordinates": { "x": 395.3440246582031, "y": 133.1182403564453, "z": 204.9739990234375 }, "tsne_coordinates": { "x": 1.4884085655212402, "y": 31.601716995239258, "z": -23.57192611694336 }, "pca_coordinates": { "x": -3.661837577819824, "y": 2.9833950996398926, "z": 1.7360825538635254 }, "axis_scores": { "Quantum imaging": 0.6975890398025513, "Quantum Life Science Sensing": 0.6934501528739929, "Quantum sensing Detection": 0.6656503677368164, "Quantum sensing Metrology": 0.6594544053077698, "Quantum sensing navigation": 0.6509988903999329, "Quantum sensing Position": 0.659450113773346, "Quantum sensing Timing": 0.6477563381195068, "Quantum sensing": 0.6753792762756348, "Quantum control": 0.6295304298400879 } }, { "id": 6907, "title": "Non-equilibrium spin dynamics of the frustrated trication spinel ZnMnCoO4 in the hierarchical free-energy framework", "abstract": "Short-range spin correlations, memory and rejuvenation effects have been reported in the trication oxispinel ZnMnCoO4 whose low-temperature spin dynamics, triggered by magnetic frustration ( f(r)simil...", "citations": 1, "author_count": 7, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6914, "doi": "10.1088/1361-648X/adb194", "umap_coordinates": { "x": 392.7998352050781, "y": 136.83216857910156, "z": 207.76577758789062 }, "tsne_coordinates": { "x": 6.446651935577393, "y": -17.454795837402344, "z": 30.03346061706543 }, "pca_coordinates": { "x": 2.0787854194641113, "y": 1.552130103111267, "z": -4.129267692565918 }, "axis_scores": { "Quantum imaging": 0.6959021091461182, "Quantum Life Science Sensing": 0.6779593229293823, "Quantum sensing Detection": 0.6585917472839355, "Quantum sensing Metrology": 0.6468035578727722, "Quantum sensing navigation": 0.7028008699417114, "Quantum sensing Position": 0.6573745012283325, "Quantum sensing Timing": 0.6620924472808838, "Quantum sensing": 0.6671561598777771, "Quantum control": 0.7023438215255737 } }, { "id": 6908, "title": "Detection of spin reversal and nutations through current measurements", "abstract": "The dynamics of a single spin embedded in a tunnel junction between ferromagnetic contacts is strongly affected by the exchange coupling to the tunneling electrons. Moment reversal of the local spin i...", "citations": 23, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6915, "doi": "10.1088/0957-4484/19/28/285714", "umap_coordinates": { "x": 393.41656494140625, "y": 135.8402099609375, "z": 207.54823303222656 }, "tsne_coordinates": { "x": 22.814950942993164, "y": -15.012563705444336, "z": 22.548095703125 }, "pca_coordinates": { "x": 0.7547829151153564, "y": 2.425050973892212, "z": 1.5006051063537598 }, "axis_scores": { "Quantum imaging": 0.7347260117530823, "Quantum Life Science Sensing": 0.7435274124145508, "Quantum sensing Detection": 0.7333493828773499, "Quantum sensing Metrology": 0.7277750968933105, "Quantum sensing navigation": 0.760112464427948, "Quantum sensing Position": 0.7365598678588867, "Quantum sensing Timing": 0.7118090391159058, "Quantum sensing": 0.7385590672492981, "Quantum control": 0.7020339965820312 } }, { "id": 6909, "title": "Spin dynamics in granular CoxCu1-x by μSR", "abstract": "CoxCu1-x, samples with x = 0.01,0.02,0.05 produced by melt spinning were probed with zero-field and longitudinal field muSR. For x = 0.05, freezing into a spin glass state below 15 K is seen. Spectra ...", "citations": 2, "author_count": 10, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6916, "doi": "10.1016/S0921-4526(02)01674-5", "umap_coordinates": { "x": 392.7030944824219, "y": 136.59483337402344, "z": 207.37570190429688 }, "tsne_coordinates": { "x": 8.162199974060059, "y": -16.72081184387207, "z": 28.054296493530273 }, "pca_coordinates": { "x": 1.6459720134735107, "y": 1.0938366651535034, "z": -2.605787992477417 }, "axis_scores": { "Quantum imaging": 0.7179101705551147, "Quantum Life Science Sensing": 0.7189098000526428, "Quantum sensing Detection": 0.7076595425605774, "Quantum sensing Metrology": 0.6859517097473145, "Quantum sensing navigation": 0.7305650115013123, "Quantum sensing Position": 0.704389214515686, "Quantum sensing Timing": 0.7029909491539001, "Quantum sensing": 0.7184893488883972, "Quantum control": 0.7217728495597839 } }, { "id": 6910, "title": "Dual disorder-driven magnetic dynamics in GdCu2 superantiferromagnetic nanoparticles", "abstract": "The spin dynamics in magnetically disordered GdCu2 nanoparticles, varying the nanoparticle size in the range 53 to 7 nm, has been scrutinized. Dynamic chi(AC) susceptibility measurements have revealed...", "citations": 2, "author_count": 4, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6917, "doi": "10.1007/s11051-022-05574-5", "umap_coordinates": { "x": 392.5579528808594, "y": 136.08206176757812, "z": 208.09884643554688 }, "tsne_coordinates": { "x": 11.448272705078125, "y": -23.992979049682617, "z": 30.361066818237305 }, "pca_coordinates": { "x": 0.3612542152404785, "y": -2.2889151573181152, "z": -2.3446576595306396 }, "axis_scores": { "Quantum imaging": 0.7043949365615845, "Quantum Life Science Sensing": 0.6949048042297363, "Quantum sensing Detection": 0.684820294380188, "Quantum sensing Metrology": 0.6750270128250122, "Quantum sensing navigation": 0.6982629299163818, "Quantum sensing Position": 0.6576856970787048, "Quantum sensing Timing": 0.6795775890350342, "Quantum sensing": 0.6878947615623474, "Quantum control": 0.7006651759147644 } }, { "id": 6911, "title": "Designing a Spin-Seebeck Diode", "abstract": "Using micromagnetic simulations, we have investigated spin dynamics in a spin-valve bilayer in the presence of a thermal gradient. The direction and the intensity of the gradient allow us to excite th...", "citations": 57, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6918, "doi": "10.1103/PhysRevLett.112.047203", "umap_coordinates": { "x": 394.55426025390625, "y": 135.39305114746094, "z": 208.64659118652344 }, "tsne_coordinates": { "x": -24.836437225341797, "y": -20.3482666015625, "z": 14.958073616027832 }, "pca_coordinates": { "x": 2.7786879539489746, "y": -1.5624032020568848, "z": 0.3904659152030945 }, "axis_scores": { "Quantum imaging": 0.6969343423843384, "Quantum Life Science Sensing": 0.7219967246055603, "Quantum sensing Detection": 0.7053929567337036, "Quantum sensing Metrology": 0.7002430558204651, "Quantum sensing navigation": 0.7280990481376648, "Quantum sensing Position": 0.6965027451515198, "Quantum sensing Timing": 0.6948217153549194, "Quantum sensing": 0.7270575761795044, "Quantum control": 0.7087560296058655 } }, { "id": 6912, "title": "Ultrafast Amplification and Nonlinear Magnetoelastic Coupling of Coherent Magnon Modes in an Antiferromagnet", "abstract": "We investigate the role of domain walls in the ultrafast magnon dynamics of an antiferromagnetic NiO single crystal in a pump-probe experiment with variable pump photon energy. Analyzing the amplitude...", "citations": 28, "author_count": 10, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6919, "doi": "10.1103/PhysRevLett.127.077202", "umap_coordinates": { "x": 394.4264831542969, "y": 135.99871826171875, "z": 207.86618041992188 }, "tsne_coordinates": { "x": 3.0619006156921387, "y": -34.38572311401367, "z": 26.841432571411133 }, "pca_coordinates": { "x": 4.084766864776611, "y": -0.6760673522949219, "z": 1.4699740409851074 }, "axis_scores": { "Quantum imaging": 0.706356406211853, "Quantum Life Science Sensing": 0.6905788779258728, "Quantum sensing Detection": 0.7002145051956177, "Quantum sensing Metrology": 0.6941995620727539, "Quantum sensing navigation": 0.6834039688110352, "Quantum sensing Position": 0.6528352499008179, "Quantum sensing Timing": 0.6614609360694885, "Quantum sensing": 0.6958580613136292, "Quantum control": 0.67390376329422 } }, { "id": 6913, "title": "Magnetoconductance and photoresponse properties of disordered NbTiN films", "abstract": "We report on the experimental study of phonon properties and electron-phonon scattering in thin superconducting NbTiN films, which are intensively exploited in various applications. Studied NbTiN film...", "citations": 26, "author_count": 8, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6920, "doi": "10.1103/PhysRevB.104.184514", "umap_coordinates": { "x": 393.4432678222656, "y": 135.7754669189453, "z": 209.27899169921875 }, "tsne_coordinates": { "x": -2.581899404525757, "y": -30.579378128051758, "z": 12.897717475891113 }, "pca_coordinates": { "x": 2.942307472229004, "y": -2.3155646324157715, "z": -1.7518503665924072 }, "axis_scores": { "Quantum imaging": 0.6967358589172363, "Quantum Life Science Sensing": 0.7220956683158875, "Quantum sensing Detection": 0.690427303314209, "Quantum sensing Metrology": 0.6783302426338196, "Quantum sensing navigation": 0.6862404346466064, "Quantum sensing Position": 0.6551402807235718, "Quantum sensing Timing": 0.6484293341636658, "Quantum sensing": 0.7033485174179077, "Quantum control": 0.6808795928955078 } }, { "id": 6914, "title": "Recent advances of QWIP development in Sweden", "abstract": "The ongoing development of QWIP focal plane arrays at IRnova (formerly Acreo) has resulted in the launch of several new formats up to 640 by 512 pixels and the introduction of major improvements to al...", "citations": 2, "author_count": 8, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6921, "doi": "10.1117/12.721700", "umap_coordinates": { "x": 394.68963623046875, "y": 134.342041015625, "z": 205.14242553710938 }, "tsne_coordinates": { "x": 1.13802170753479, "y": 7.879263877868652, "z": -32.40869140625 }, "pca_coordinates": { "x": -3.0226714611053467, "y": 0.9940298795700073, "z": -0.4398467242717743 }, "axis_scores": { "Quantum imaging": 0.6610426902770996, "Quantum Life Science Sensing": 0.6864244341850281, "Quantum sensing Detection": 0.6559792757034302, "Quantum sensing Metrology": 0.6556248068809509, "Quantum sensing navigation": 0.6742414236068726, "Quantum sensing Position": 0.6737387180328369, "Quantum sensing Timing": 0.6368032097816467, "Quantum sensing": 0.6686714291572571, "Quantum control": 0.6564927697181702 } }, { "id": 6915, "title": "Femtosecond diffractive imaging with a soft-X-ray free-electron laser", "abstract": "Theory predicts(1-4) that, with an ultrashort and extremely bright coherent X-ray pulse, a single diffraction pattern may be recorded from a large macromolecule, a virus or a cell before the sample ex...", "citations": 947, "author_count": 35, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6922, "doi": "10.1038/nphys461", "umap_coordinates": { "x": 394.67462158203125, "y": 133.6197509765625, "z": 206.00096130371094 }, "tsne_coordinates": { "x": 4.3025360107421875, "y": 19.015125274658203, "z": -30.596384048461914 }, "pca_coordinates": { "x": -1.9630227088928223, "y": -0.32621312141418457, "z": 2.9430932998657227 }, "axis_scores": { "Quantum imaging": 0.7220509052276611, "Quantum Life Science Sensing": 0.7156595587730408, "Quantum sensing Detection": 0.6921637058258057, "Quantum sensing Metrology": 0.6868412494659424, "Quantum sensing navigation": 0.6839360594749451, "Quantum sensing Position": 0.6717799305915833, "Quantum sensing Timing": 0.6666319966316223, "Quantum sensing": 0.7066076993942261, "Quantum control": 0.6463004350662231 } }, { "id": 6916, "title": "Unified theory of magnetization dynamics with relativistic and nonrelativistic spin torques", "abstract": "Spin torques play a crucial role in operative properties of modern spintronic devices. To study current-driven magnetization dynamics, spin-torque terms providing the action of spin-polarized currents...", "citations": 21, "author_count": 4, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6923, "doi": "10.1103/PhysRevB.98.214429", "umap_coordinates": { "x": 393.7264404296875, "y": 136.6977996826172, "z": 208.9398651123047 }, "tsne_coordinates": { "x": -4.608155727386475, "y": -26.258935928344727, "z": 27.145566940307617 }, "pca_coordinates": { "x": 3.9445791244506836, "y": 0.8203762769699097, "z": -0.06741344928741455 }, "axis_scores": { "Quantum imaging": 0.7232192754745483, "Quantum Life Science Sensing": 0.7126391530036926, "Quantum sensing Detection": 0.7138303518295288, "Quantum sensing Metrology": 0.7200230956077576, "Quantum sensing navigation": 0.7349227666854858, "Quantum sensing Position": 0.6779764890670776, "Quantum sensing Timing": 0.6991235017776489, "Quantum sensing": 0.7173766493797302, "Quantum control": 0.7218108773231506 } }, { "id": 6917, "title": "Observation of coherently coupled cation spin dynamics in an insulating ferrimagnetic oxide", "abstract": "Many technologically useful magnetic oxides are ferrimagnetic insulators, which consist of chemically distinct cations. Here, we examine the spin dynamics of different magnetic cations in ferrimagneti...", "citations": 3, "author_count": 15, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6924, "doi": "10.1063/5.0141869", "umap_coordinates": { "x": 392.9379577636719, "y": 136.56744384765625, "z": 208.2036590576172 }, "tsne_coordinates": { "x": 3.6234829425811768, "y": -21.643413543701172, "z": 24.06374168395996 }, "pca_coordinates": { "x": 2.63101863861084, "y": -0.8714065551757812, "z": -0.3694026470184326 }, "axis_scores": { "Quantum imaging": 0.7217676639556885, "Quantum Life Science Sensing": 0.7171425819396973, "Quantum sensing Detection": 0.7121201753616333, "Quantum sensing Metrology": 0.6889263987541199, "Quantum sensing navigation": 0.7047867774963379, "Quantum sensing Position": 0.6805118322372437, "Quantum sensing Timing": 0.6814066171646118, "Quantum sensing": 0.7081828117370605, "Quantum control": 0.6782854795455933 } }, { "id": 6918, "title": "Ultrafast Demagnetization Through Femtosecond Generation of Non-Thermal Magnons", "abstract": "Ultrafast laser excitation of ferromagnetic metals gives rise to correlated, highly non-equilibrium dynamics of electrons, spins and lattice, which are, however, poorly described by the widely-used th...", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6925, "doi": "10.1002/apxr.202300103", "umap_coordinates": { "x": 392.9339294433594, "y": 136.4595489501953, "z": 207.4473114013672 }, "tsne_coordinates": { "x": 6.477681636810303, "y": -27.731128692626953, "z": 29.262191772460938 }, "pca_coordinates": { "x": 0.10715889930725098, "y": 1.1388722658157349, "z": -1.594391107559204 }, "axis_scores": { "Quantum imaging": 0.7194520235061646, "Quantum Life Science Sensing": 0.71745365858078, "Quantum sensing Detection": 0.6905860900878906, "Quantum sensing Metrology": 0.7102146744728088, "Quantum sensing navigation": 0.6762061715126038, "Quantum sensing Position": 0.6518535614013672, "Quantum sensing Timing": 0.6746454238891602, "Quantum sensing": 0.7112839221954346, "Quantum control": 0.6927592158317566 } }, { "id": 6919, "title": "111In-benzyl-DTPA-ZHER2:342, an affibody-based conjugate for in vivo imaging of HER2 expression in malignant tumors", "abstract": "Data on expression of the HER2 (erbB-2) receptor in breast carcinoma make it possible to select the most efficient treatment. There are strong indications that HER2 expression possesses prognostic and...", "citations": 112, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6926, "doi": null, "umap_coordinates": { "x": 391.8478088378906, "y": 139.35299682617188, "z": 209.64141845703125 }, "tsne_coordinates": { "x": -2.214045763015747, "y": 42.107330322265625, "z": -4.134369373321533 }, "pca_coordinates": { "x": -3.0020596981048584, "y": 3.221937656402588, "z": -2.4288458824157715 }, "axis_scores": { "Quantum imaging": 0.758042573928833, "Quantum Life Science Sensing": 0.7593644261360168, "Quantum sensing Detection": 0.7463054060935974, "Quantum sensing Metrology": 0.7331540584564209, "Quantum sensing navigation": 0.7464393377304077, "Quantum sensing Position": 0.7122533917427063, "Quantum sensing Timing": 0.7041441202163696, "Quantum sensing": 0.7575879693031311, "Quantum control": 0.7592491507530212 } }, { "id": 6920, "title": "Exploiting 13C/14N solid-state NMR distance measurements to assign dihedral angles and locate neighboring molecules", "abstract": "The RESPDOR NMR method rapidly provides multiple C-13/N-14 distance measurements in natural abundance solids. In this study, C-13/N-14 RESPDOR information is shown, for the first time, to provide accu...", "citations": 6, "author_count": 7, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6927, "doi": "10.1039/c8cc02597e", "umap_coordinates": { "x": 392.5458068847656, "y": 137.0105438232422, "z": 206.40826416015625 }, "tsne_coordinates": { "x": 17.078535079956055, "y": 1.4230877161026, "z": 27.663984298706055 }, "pca_coordinates": { "x": -0.5490407943725586, "y": 1.580724835395813, "z": -1.2753398418426514 }, "axis_scores": { "Quantum imaging": 0.6923703551292419, "Quantum Life Science Sensing": 0.7058436870574951, "Quantum sensing Detection": 0.6826558113098145, "Quantum sensing Metrology": 0.6735268831253052, "Quantum sensing navigation": 0.7037067413330078, "Quantum sensing Position": 0.6961174607276917, "Quantum sensing Timing": 0.6678944826126099, "Quantum sensing": 0.6950759887695312, "Quantum control": 0.661526620388031 } }, { "id": 6921, "title": "Transient spin dynamics in a single-molecule magnet", "abstract": "We explore the limitations and validity of semiclassically formulated spin equations of motion. Using a single-molecule magnet as a test model, we employ three qualitatively different approximation sc...", "citations": 18, "author_count": 3, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6928, "doi": "10.1103/PhysRevB.96.214401", "umap_coordinates": { "x": 393.6193542480469, "y": 136.19256591796875, "z": 209.09735107421875 }, "tsne_coordinates": { "x": 9.721464157104492, "y": -24.014537811279297, "z": 21.619646072387695 }, "pca_coordinates": { "x": 4.344259738922119, "y": -1.8762249946594238, "z": -2.3080835342407227 }, "axis_scores": { "Quantum imaging": 0.6840957403182983, "Quantum Life Science Sensing": 0.707046389579773, "Quantum sensing Detection": 0.6900802254676819, "Quantum sensing Metrology": 0.6657634377479553, "Quantum sensing navigation": 0.6783975958824158, "Quantum sensing Position": 0.6558960676193237, "Quantum sensing Timing": 0.6737583875656128, "Quantum sensing": 0.6970564723014832, "Quantum control": 0.6637486219406128 } }, { "id": 6922, "title": "Measuring the Intra-Atomic Exchange Energy in Rare-Earth Adatoms", "abstract": "We present the first experimental determination of the intra-atomic exchange energy between the inner 4f and the outer 6s5d shells in rare-earth elements. Inelastic electron tunneling spectroscopy on ...", "citations": 29, "author_count": 8, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6929, "doi": "10.1103/PhysRevX.10.031054", "umap_coordinates": { "x": 395.3342590332031, "y": 135.50559997558594, "z": 208.07666015625 }, "tsne_coordinates": { "x": -3.886145830154419, "y": -44.37327194213867, "z": 0.9231868386268616 }, "pca_coordinates": { "x": 3.577648639678955, "y": 0.4915645122528076, "z": 0.6253646016120911 }, "axis_scores": { "Quantum imaging": 0.70977783203125, "Quantum Life Science Sensing": 0.7237968444824219, "Quantum sensing Detection": 0.7039052844047546, "Quantum sensing Metrology": 0.7217573523521423, "Quantum sensing navigation": 0.7039696574211121, "Quantum sensing Position": 0.709166944026947, "Quantum sensing Timing": 0.7062717080116272, "Quantum sensing": 0.7188196182250977, "Quantum control": 0.6510359048843384 } }, { "id": 6923, "title": "ELECTRON BEAM POLARIMETRY AT LOW ENERGIES AND ITS APPLICATIONS", "abstract": "Low energy (E-k similar to 100 keV) Mott scattering polarimetry is a widely established technique to measure the polarization of an electron beam. We analyze the feasibility of Mott scattering at ener...", "citations": 1, "author_count": 13, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6930, "doi": null, "umap_coordinates": { "x": 391.59600830078125, "y": 139.60174560546875, "z": 209.35305786132812 }, "tsne_coordinates": { "x": -6.81798791885376, "y": 37.77327346801758, "z": -3.7151200771331787 }, "pca_coordinates": { "x": -1.505429983139038, "y": 2.4854860305786133, "z": -0.8758439421653748 }, "axis_scores": { "Quantum imaging": 0.7088801264762878, "Quantum Life Science Sensing": 0.7135465145111084, "Quantum sensing Detection": 0.6968344449996948, "Quantum sensing Metrology": 0.680465579032898, "Quantum sensing navigation": 0.7065617442131042, "Quantum sensing Position": 0.7098114490509033, "Quantum sensing Timing": 0.6664898991584778, "Quantum sensing": 0.7008064389228821, "Quantum control": 0.6828696727752686 } }, { "id": 6924, "title": "Evolution of magnetic Dirac bosons in a honeycomb lattice", "abstract": "We examine the presence and evolution of magnetic Dirac nodes in the Heisenberg honeycomb lattice. Using linear spin theory, we evaluate the collinear phase diagram as well as the change in the spin d...", "citations": 26, "author_count": 4, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6931, "doi": "10.1103/PhysRevB.97.014433", "umap_coordinates": { "x": 393.7497863769531, "y": 136.298095703125, "z": 209.31219482421875 }, "tsne_coordinates": { "x": 2.542083978652954, "y": -28.92641830444336, "z": 11.336112022399902 }, "pca_coordinates": { "x": 4.838789939880371, "y": -1.7007126808166504, "z": -1.0721971988677979 }, "axis_scores": { "Quantum imaging": 0.7043429613113403, "Quantum Life Science Sensing": 0.6968192458152771, "Quantum sensing Detection": 0.6965880393981934, "Quantum sensing Metrology": 0.6853946447372437, "Quantum sensing navigation": 0.7207023501396179, "Quantum sensing Position": 0.6972368359565735, "Quantum sensing Timing": 0.6741333603858948, "Quantum sensing": 0.7045963406562805, "Quantum control": 0.6894892454147339 } }, { "id": 6925, "title": "Competing anisotropies in bcc Fe81Ni19/Co(001) superlattices", "abstract": "A magnetization reorientation transition has been observed in Fe81Ni19/Co(001) superlattices by means of magneto-optical Kerr effect and magnetic force microscopy measurements. The transition is drive...", "citations": 5, "author_count": 9, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6932, "doi": "10.1063/1.3081107", "umap_coordinates": { "x": 392.50048828125, "y": 136.19288635253906, "z": 208.42010498046875 }, "tsne_coordinates": { "x": -1.2481099367141724, "y": -39.38172912597656, "z": 22.442157745361328 }, "pca_coordinates": { "x": 0.7599146366119385, "y": -1.5387742519378662, "z": -1.1439828872680664 }, "axis_scores": { "Quantum imaging": 0.7011509537696838, "Quantum Life Science Sensing": 0.6679553389549255, "Quantum sensing Detection": 0.6730409264564514, "Quantum sensing Metrology": 0.6946881413459778, "Quantum sensing navigation": 0.6629231572151184, "Quantum sensing Position": 0.6639119386672974, "Quantum sensing Timing": 0.6607475280761719, "Quantum sensing": 0.6868810653686523, "Quantum control": 0.6500758528709412 } }, { "id": 6926, "title": "Atomistic Spin Dynamic Method with both Damping and Moment of Inertia Effects Included from First Principles", "abstract": "We consider spin dynamics for implementation in an atomistic framework and we address the feasibility of capturing processes in the femtosecond regime by inclusion of moment of inertia. In the spirit ...", "citations": 131, "author_count": 4, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6933, "doi": "10.1103/PhysRevLett.108.057204", "umap_coordinates": { "x": 393.4024963378906, "y": 137.18113708496094, "z": 208.36965942382812 }, "tsne_coordinates": { "x": -5.824270725250244, "y": -30.92435073852539, "z": 27.324777603149414 }, "pca_coordinates": { "x": 3.7009644508361816, "y": 0.7975070476531982, "z": -1.220898151397705 }, "axis_scores": { "Quantum imaging": 0.7020056843757629, "Quantum Life Science Sensing": 0.707284152507782, "Quantum sensing Detection": 0.6791959404945374, "Quantum sensing Metrology": 0.680573046207428, "Quantum sensing navigation": 0.7020248770713806, "Quantum sensing Position": 0.6743096113204956, "Quantum sensing Timing": 0.671078622341156, "Quantum sensing": 0.6981558799743652, "Quantum control": 0.6938575506210327 } }, { "id": 6927, "title": "Ionization Activity Detected During Dark Periods in Long Air Positive Sparks", "abstract": "The dark period in long air gap discharges has been assumed in the literature as the time between consecutive streamer current pulses when ionization and luminosity are absent. These dark periods are ...", "citations": 2, "author_count": 7, "categories": [ "Meteorology & Atmospheric Sciences" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6934, "doi": "10.1029/2023JD038732", "umap_coordinates": { "x": 394.6686706542969, "y": 135.57200622558594, "z": 205.625244140625 }, "tsne_coordinates": { "x": -6.2930192947387695, "y": 5.96556282043457, "z": 2.407785654067993 }, "pca_coordinates": { "x": -2.0294835567474365, "y": 0.1641988754272461, "z": -0.9206603169441223 }, "axis_scores": { "Quantum imaging": 0.6475203633308411, "Quantum Life Science Sensing": 0.7032927870750427, "Quantum sensing Detection": 0.6651946902275085, "Quantum sensing Metrology": 0.6280182003974915, "Quantum sensing navigation": 0.6312285661697388, "Quantum sensing Position": 0.632744550704956, "Quantum sensing Timing": 0.6453134417533875, "Quantum sensing": 0.6482686996459961, "Quantum control": 0.6001466512680054 } }, { "id": 6928, "title": "LONGITUDINAL SPIN DYNAMICS IN FERROMAGNETS INCLUDING DIPOLAR FORCES", "abstract": "The influence of dipolar forces on longitudinal spin fluctuations in a ferromagnet is explored within the framework of spin-wave theory for a Heisenberg magnet. Explicit results are provided for long-...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 6935, "doi": "10.1209/0295-5075/15/1/011", "umap_coordinates": { "x": 392.7891845703125, "y": 137.06700134277344, "z": 208.0980682373047 }, "tsne_coordinates": { "x": 2.246101140975952, "y": -17.571853637695312, "z": 25.491470336914062 }, "pca_coordinates": { "x": 1.6352639198303223, "y": 0.5748510360717773, "z": -2.2705330848693848 }, "axis_scores": { "Quantum imaging": 0.676456868648529, "Quantum Life Science Sensing": 0.6676875948905945, "Quantum sensing Detection": 0.6432810425758362, "Quantum sensing Metrology": 0.6547511219978333, "Quantum sensing navigation": 0.671634316444397, "Quantum sensing Position": 0.6619536876678467, "Quantum sensing Timing": 0.6618270874023438, "Quantum sensing": 0.6593136787414551, "Quantum control": 0.6778563261032104 } }, { "id": 6929, "title": "Fluorescence correlation spectroscopy in surface plasmon coupled emission microscope", "abstract": "Study of dynamics of single molecules by Fluorescence Correlation Spectroscopy (FCS) requires that the rate of photon detection per molecule be high, that the background be low, and that there be a la...", "citations": 44, "author_count": 5, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6936, "doi": "10.1364/OE.14.007878", "umap_coordinates": { "x": 394.3052978515625, "y": 134.24058532714844, "z": 206.00772094726562 }, "tsne_coordinates": { "x": 8.209473609924316, "y": 14.859881401062012, "z": -27.763092041015625 }, "pca_coordinates": { "x": -0.89753657579422, "y": -0.3097677230834961, "z": 1.6149687767028809 }, "axis_scores": { "Quantum imaging": 0.7757229804992676, "Quantum Life Science Sensing": 0.7672882080078125, "Quantum sensing Detection": 0.7677680253982544, "Quantum sensing Metrology": 0.7625594735145569, "Quantum sensing navigation": 0.7578651309013367, "Quantum sensing Position": 0.7403736114501953, "Quantum sensing Timing": 0.7325356006622314, "Quantum sensing": 0.7707030177116394, "Quantum control": 0.7228766679763794 } }, { "id": 6930, "title": "Dynamics of diluted magnetic semiconductors from atomistic spin-dynamics simulations: Mn-doped GaAs", "abstract": "The dynamical behavior of the magnetism of diluted magnetic semiconductors (DMSs) has been investigated by means of atomistic spin-dynamics simulations. The conclusions drawn from the study are argued...", "citations": 23, "author_count": 8, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 6937, "doi": "10.1103/PhysRevB.78.144419", "umap_coordinates": { "x": 393.2368469238281, "y": 136.61993408203125, "z": 209.03990173339844 }, "tsne_coordinates": { "x": -5.229960918426514, "y": -32.7432746887207, "z": 31.04876136779785 }, "pca_coordinates": { "x": 3.9590024948120117, "y": -1.6360974311828613, "z": -1.9605951309204102 }, "axis_scores": { "Quantum imaging": 0.6845155954360962, "Quantum Life Science Sensing": 0.6982686519622803, "Quantum sensing Detection": 0.6764261722564697, "Quantum sensing Metrology": 0.6764893531799316, "Quantum sensing navigation": 0.7050201296806335, "Quantum sensing Position": 0.6660987734794617, "Quantum sensing Timing": 0.6484140157699585, "Quantum sensing": 0.6861155033111572, "Quantum control": 0.6685134172439575 } }, { "id": 6931, "title": "Density functional description of spin, lattice, and spin-lattice dynamics in antiferromagnetic and paramagnetic phases at finite temperatures", "abstract": "Describing the (a) electronic and magnetic properties (EMPs) of compounds generally requires the specification of (b) the type of spin configurations one is considering [e.g., antiferromagnetic (AFM) ...", "citations": 13, "author_count": 6, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6938, "doi": "10.1103/PhysRevB.106.134406", "umap_coordinates": { "x": 393.6535339355469, "y": 136.90756225585938, "z": 209.16380310058594 }, "tsne_coordinates": { "x": -2.91037654876709, "y": -30.280864715576172, "z": 27.365297317504883 }, "pca_coordinates": { "x": 4.893438816070557, "y": -0.7900195121765137, "z": -2.562788963317871 }, "axis_scores": { "Quantum imaging": 0.716851532459259, "Quantum Life Science Sensing": 0.7258597016334534, "Quantum sensing Detection": 0.6920595765113831, "Quantum sensing Metrology": 0.6972863078117371, "Quantum sensing navigation": 0.7200455665588379, "Quantum sensing Position": 0.6855677366256714, "Quantum sensing Timing": 0.6882368326187134, "Quantum sensing": 0.7120417952537537, "Quantum control": 0.7056496143341064 } }, { "id": 6932, "title": "Quantitative Magnetic Characterization of Synthetic Ferrimagnets for Predictive Spin-Dynamic Behavior", "abstract": "Geometric or magnetic asymmetries in synthetic antiferromagnetic particles give rise to ferrimagnetic-like magnetization behavior, both quasi-static and dynamic. Such asymmetries in synthetic ferrimag...", "citations": 2, "author_count": 4, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6939, "doi": "10.1109/TMAG.2014.2316596", "umap_coordinates": { "x": 393.19964599609375, "y": 136.16746520996094, "z": 207.3053436279297 }, "tsne_coordinates": { "x": -2.9195663928985596, "y": -30.93913459777832, "z": 24.222187042236328 }, "pca_coordinates": { "x": -0.2562706470489502, "y": 1.24452805519104, "z": -1.3945343494415283 }, "axis_scores": { "Quantum imaging": 0.7208682298660278, "Quantum Life Science Sensing": 0.7314556837081909, "Quantum sensing Detection": 0.7015976309776306, "Quantum sensing Metrology": 0.7378700971603394, "Quantum sensing navigation": 0.7159509658813477, "Quantum sensing Position": 0.6781721711158752, "Quantum sensing Timing": 0.7086951732635498, "Quantum sensing": 0.7218907475471497, "Quantum control": 0.7072862982749939 } }, { "id": 6933, "title": "Theroy of magnetic inertial dynamics in two-sublattice ferromagnets", "abstract": "The magnetic inertial dynamics have previously been investigated for one sublattice ferromagnets. Here, we develop the magnetization dynamics in two-sublattice ferromagnets including the intra- and in...", "citations": 16, "author_count": 2, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6940, "doi": "10.1088/1361-648X/abfc6d", "umap_coordinates": { "x": 392.7843017578125, "y": 136.88577270507812, "z": 207.79605102539062 }, "tsne_coordinates": { "x": 3.140324115753174, "y": -17.651058197021484, "z": 27.824445724487305 }, "pca_coordinates": { "x": 2.4689900875091553, "y": 2.0759682655334473, "z": -3.1424479484558105 }, "axis_scores": { "Quantum imaging": 0.7071057558059692, "Quantum Life Science Sensing": 0.7106798887252808, "Quantum sensing Detection": 0.6739665865898132, "Quantum sensing Metrology": 0.6826270222663879, "Quantum sensing navigation": 0.7064275741577148, "Quantum sensing Position": 0.69280606508255, "Quantum sensing Timing": 0.7064739465713501, "Quantum sensing": 0.6944999098777771, "Quantum control": 0.70759117603302 } }, { "id": 6934, "title": "D-Egg: a dual PMT optical module for IceCube", "abstract": "The D-Egg, an acronym for Dual optical sensors in an Ellipsoid Glass for Gen2, is one of the optical modules designed for future extensions of the IceCube experiment at the South Pole. The D-Egg has a...", "citations": 5, "author_count": 395, "categories": [ "Instruments & Instrumentation" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6941, "doi": "10.1088/1748-0221/18/04/P04014", "umap_coordinates": { "x": 395.4603576660156, "y": 134.18763732910156, "z": 206.12765502929688 }, "tsne_coordinates": { "x": -25.298870086669922, "y": 17.086305618286133, "z": -13.258613586425781 }, "pca_coordinates": { "x": -2.6858229637145996, "y": 1.933628797531128, "z": 1.3649511337280273 }, "axis_scores": { "Quantum imaging": 0.6852512359619141, "Quantum Life Science Sensing": 0.6977023482322693, "Quantum sensing Detection": 0.6638439893722534, "Quantum sensing Metrology": 0.6672238111495972, "Quantum sensing navigation": 0.65095055103302, "Quantum sensing Position": 0.639740526676178, "Quantum sensing Timing": 0.6493575572967529, "Quantum sensing": 0.6597686409950256, "Quantum control": 0.660376250743866 } }, { "id": 6935, "title": "Attosecond electron-spin dynamics in Xe 4d photoionization", "abstract": "The photoionization of xenon atoms in the 70-100 eV range reveals several fascinating physical phenomena such as a giant resonance induced by the dynamic rearrangement of the electron cloud after phot...", "citations": 40, "author_count": 16, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6942, "doi": "10.1038/s41467-020-18847-1", "umap_coordinates": { "x": 392.9646911621094, "y": 136.0017547607422, "z": 206.63372802734375 }, "tsne_coordinates": { "x": 1.5933421850204468, "y": 0.745977520942688, "z": 12.546238899230957 }, "pca_coordinates": { "x": 0.7166235446929932, "y": -0.5256063938140869, "z": -1.3740828037261963 }, "axis_scores": { "Quantum imaging": 0.7149399518966675, "Quantum Life Science Sensing": 0.7035121917724609, "Quantum sensing Detection": 0.6829749345779419, "Quantum sensing Metrology": 0.6472130417823792, "Quantum sensing navigation": 0.6749861836433411, "Quantum sensing Position": 0.670947253704071, "Quantum sensing Timing": 0.6783525943756104, "Quantum sensing": 0.6886641383171082, "Quantum control": 0.6835134029388428 } }, { "id": 6936, "title": "Ultrafast switching in a synthetic antiferromagnetic magnetic random-access memory device", "abstract": "The dynamics of a synthetic antiferromagnet (a metallic trilayer) have been explored and are shown to exhibit ultrafast switching on a time scale of tens of ps. This conclusion is based on first-princ...", "citations": 33, "author_count": 7, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6943, "doi": "10.1103/PhysRevB.83.224429", "umap_coordinates": { "x": 393.3897705078125, "y": 136.4561309814453, "z": 208.73004150390625 }, "tsne_coordinates": { "x": 0.3210752308368683, "y": -30.54848289489746, "z": 23.11198616027832 }, "pca_coordinates": { "x": 3.722402572631836, "y": -1.7807812690734863, "z": -1.9158251285552979 }, "axis_scores": { "Quantum imaging": 0.7115619778633118, "Quantum Life Science Sensing": 0.7361727356910706, "Quantum sensing Detection": 0.7048870921134949, "Quantum sensing Metrology": 0.6999833583831787, "Quantum sensing navigation": 0.7132213115692139, "Quantum sensing Position": 0.6644855737686157, "Quantum sensing Timing": 0.6779821515083313, "Quantum sensing": 0.723350465297699, "Quantum control": 0.6938600540161133 } }, { "id": 6937, "title": "GRB 221009A: The BOAT Burst that Shines in Gamma Rays", "abstract": "We present a complete analysis of Fermi Large Area Telescope (LAT) data of GRB 221009A, the brightest gamma-ray burst (GRB) ever detected. The burst emission above 30 MeV detected by the LAT preceded,...", "citations": 11, "author_count": 155, "categories": [ "Astronomy & Astrophysics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 6944, "doi": "10.3847/1538-4365/ada272", "umap_coordinates": { "x": 396.27349853515625, "y": 134.83168029785156, "z": 205.82044982910156 }, "tsne_coordinates": { "x": -32.211570739746094, "y": 20.836200714111328, "z": 1.4620018005371094 }, "pca_coordinates": { "x": -1.9022165536880493, "y": 2.556034564971924, "z": 0.6794317364692688 }, "axis_scores": { "Quantum imaging": 0.6786623001098633, "Quantum Life Science Sensing": 0.688058614730835, "Quantum sensing Detection": 0.677452027797699, "Quantum sensing Metrology": 0.6580876111984253, "Quantum sensing navigation": 0.7067310810089111, "Quantum sensing Position": 0.6584945917129517, "Quantum sensing Timing": 0.6720215678215027, "Quantum sensing": 0.6807538270950317, "Quantum control": 0.6577939391136169 } }, { "id": 6938, "title": "THE LARGE HADRON COLLIDER AND THE EXPERIMENTS FOR RUN 3-ACCELERATOR AND EXPERIMENTS FOR LHC RUN 3 The LHCb Upgrade I", "abstract": "The LHCb upgrade represents a major change of the experiment. The detectors have been almost completely renewed to allow running at an instantaneous luminosity five times larger than that of the previ...", "citations": 40, "author_count": 1326, "categories": [ "Instruments & Instrumentation" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6945, "doi": "10.1088/1748-0221/19/05/P05065", "umap_coordinates": { "x": 396.1898193359375, "y": 134.73947143554688, "z": 206.73924255371094 }, "tsne_coordinates": { "x": -30.994964599609375, "y": 20.53417205810547, "z": -12.334299087524414 }, "pca_coordinates": { "x": 0.17641127109527588, "y": 3.778264045715332, "z": -0.15335804224014282 }, "axis_scores": { "Quantum imaging": 0.658052921295166, "Quantum Life Science Sensing": 0.6603540778160095, "Quantum sensing Detection": 0.6374268531799316, "Quantum sensing Metrology": 0.6266071200370789, "Quantum sensing navigation": 0.6519103050231934, "Quantum sensing Position": 0.6370663642883301, "Quantum sensing Timing": 0.6438313722610474, "Quantum sensing": 0.646742045879364, "Quantum control": 0.6501399278640747 } }, { "id": 6939, "title": "The interplay of local electron correlations and ultrafast spin dynamics in fcc Ni", "abstract": "The complex electronic structure of metallic ferromagnets is determined by a balance between exchange interaction, electron hopping leading to band formation, and local Coulomb repulsion. By combining...", "citations": 17, "author_count": 52, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6946, "doi": "10.1080/21663831.2023.2210606", "umap_coordinates": { "x": 392.7545471191406, "y": 136.70254516601562, "z": 208.20211791992188 }, "tsne_coordinates": { "x": 0.5868983864784241, "y": -23.236188888549805, "z": 25.22395896911621 }, "pca_coordinates": { "x": 2.0960025787353516, "y": -0.19679021835327148, "z": -2.249157428741455 }, "axis_scores": { "Quantum imaging": 0.7066470384597778, "Quantum Life Science Sensing": 0.6991801261901855, "Quantum sensing Detection": 0.6743205189704895, "Quantum sensing Metrology": 0.6631274819374084, "Quantum sensing navigation": 0.6959183216094971, "Quantum sensing Position": 0.6711096167564392, "Quantum sensing Timing": 0.6681966781616211, "Quantum sensing": 0.6916732788085938, "Quantum control": 0.6788193583488464 } }, { "id": 6940, "title": "Atom-specific magnon-driven ultrafast spin dynamics in Fe1-xNix alloys", "abstract": "By employing element-specific spectroscopy in the ultrafast time scale in Fe1-xNix alloys, we find a composition-dependent effect in the demagnetization that we relate to electron-magnon scattering an...", "citations": 6, "author_count": 18, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6947, "doi": "10.1103/PhysRevB.107.L180301", "umap_coordinates": { "x": 392.80987548828125, "y": 136.47035217285156, "z": 208.5464324951172 }, "tsne_coordinates": { "x": 2.337315082550049, "y": -27.219993591308594, "z": 25.618412017822266 }, "pca_coordinates": { "x": 3.2905306816101074, "y": -2.101151943206787, "z": -1.4270961284637451 }, "axis_scores": { "Quantum imaging": 0.6867092847824097, "Quantum Life Science Sensing": 0.6870976090431213, "Quantum sensing Detection": 0.6692032814025879, "Quantum sensing Metrology": 0.6700631380081177, "Quantum sensing navigation": 0.6899693012237549, "Quantum sensing Position": 0.6371225714683533, "Quantum sensing Timing": 0.6396557092666626, "Quantum sensing": 0.6831417083740234, "Quantum control": 0.6759127378463745 } }, { "id": 6941, "title": "Ultrafast coherent all-optical switching of an antiferromagnet with the inverse Faraday effect", "abstract": "We explore the possibility of ultrafast, coherent all-optical magnetization switching in antiferromagnets by studying the action of the inverse Faraday effect in CrPt, an easy-plane antiferromagnet. U...", "citations": 25, "author_count": 8, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6948, "doi": "10.1103/PhysRevB.104.L060413", "umap_coordinates": { "x": 394.593994140625, "y": 136.062255859375, "z": 208.39205932617188 }, "tsne_coordinates": { "x": 0.9035789966583252, "y": -30.407846450805664, "z": 24.14742088317871 }, "pca_coordinates": { "x": 3.3052144050598145, "y": -0.4183971881866455, "z": 1.6126413345336914 }, "axis_scores": { "Quantum imaging": 0.7333669662475586, "Quantum Life Science Sensing": 0.7301128506660461, "Quantum sensing Detection": 0.7151353359222412, "Quantum sensing Metrology": 0.705586850643158, "Quantum sensing navigation": 0.7136276960372925, "Quantum sensing Position": 0.6639615893363953, "Quantum sensing Timing": 0.6797910332679749, "Quantum sensing": 0.7227683067321777, "Quantum control": 0.6878854036331177 } }, { "id": 6942, "title": "Short-range magnetic correlations and spin dynamics in the paramagnetic regime of (Mn,Fe)2(P,Si)", "abstract": "The spatial and temporal correlations of magnetic moments in the paramagnetic regime of (Mn,Fe)(2)(P,Si) have been investigated by means of polarized neutron diffraction and muon-spin relaxation techn...", "citations": 28, "author_count": 13, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6949, "doi": "10.1103/PhysRevB.94.014426", "umap_coordinates": { "x": 392.8982849121094, "y": 136.87020874023438, "z": 208.3001708984375 }, "tsne_coordinates": { "x": 6.120234966278076, "y": -21.788986206054688, "z": 20.4990177154541 }, "pca_coordinates": { "x": 3.4377665519714355, "y": -0.11171865463256836, "z": -1.4688589572906494 }, "axis_scores": { "Quantum imaging": 0.7128388285636902, "Quantum Life Science Sensing": 0.7225395441055298, "Quantum sensing Detection": 0.697252631187439, "Quantum sensing Metrology": 0.6872147917747498, "Quantum sensing navigation": 0.7162582874298096, "Quantum sensing Position": 0.6977393627166748, "Quantum sensing Timing": 0.6781874895095825, "Quantum sensing": 0.7132290601730347, "Quantum control": 0.6749522686004639 } }, { "id": 6943, "title": "From electronic structure to magnetism and skyrmions", "abstract": "Solid state theory, density functional theory and its generalizations for correlated systems together with numerical simulations on supercomputers allow nowadays to model magnetic systems realisticall...", "citations": 1, "author_count": 2, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6950, "doi": "10.1088/2516-1075/ad43d0", "umap_coordinates": { "x": 393.3792419433594, "y": 137.08749389648438, "z": 207.1836700439453 }, "tsne_coordinates": { "x": 2.8541667461395264, "y": -14.996511459350586, "z": 35.61559295654297 }, "pca_coordinates": { "x": 1.3905909061431885, "y": 0.17825984954833984, "z": -3.1621246337890625 }, "axis_scores": { "Quantum imaging": 0.6838816404342651, "Quantum Life Science Sensing": 0.7236875295639038, "Quantum sensing Detection": 0.6610921621322632, "Quantum sensing Metrology": 0.6762338280677795, "Quantum sensing navigation": 0.6806216835975647, "Quantum sensing Position": 0.6513862609863281, "Quantum sensing Timing": 0.6308887600898743, "Quantum sensing": 0.6855220794677734, "Quantum control": 0.6753605604171753 } }, { "id": 6944, "title": "Resonant Activation of a Synthetic Antiferromagnet", "abstract": "The magnetic decay time of a synthetic antiferromagnet comprised of two closely spaced magnetic dipoles is measured in the presence of microwave excitation. The system is known to be highly stable wit...", "citations": 17, "author_count": 6, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 6951, "doi": "10.1103/PhysRevLett.107.077202", "umap_coordinates": { "x": 394.40252685546875, "y": 136.1240692138672, "z": 207.50286865234375 }, "tsne_coordinates": { "x": 1.177235722541809, "y": -31.423606872558594, "z": 22.602806091308594 }, "pca_coordinates": { "x": 2.3709628582000732, "y": -1.3022420406341553, "z": -0.0746338963508606 }, "axis_scores": { "Quantum imaging": 0.7093334197998047, "Quantum Life Science Sensing": 0.717372715473175, "Quantum sensing Detection": 0.7077876329421997, "Quantum sensing Metrology": 0.6899425983428955, "Quantum sensing navigation": 0.6894031763076782, "Quantum sensing Position": 0.6652116179466248, "Quantum sensing Timing": 0.6934484839439392, "Quantum sensing": 0.7134643793106079, "Quantum control": 0.6803940534591675 } }, { "id": 6945, "title": "Demonstration of bi-directional microwave-assisted magnetic reversal in synthetic ferrimagnets", "abstract": "We study spin dynamics in synthetic ferrimagnets, in which two dipole-coupled magnetic nanoparticles are different in thickness or biased asymmetrically with an external field. We observe a splitting ...", "citations": 5, "author_count": 7, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 6952, "doi": "10.1063/1.4824016", "umap_coordinates": { "x": 392.8246765136719, "y": 136.0677947998047, "z": 207.66819763183594 }, "tsne_coordinates": { "x": 2.2458908557891846, "y": -20.663034439086914, "z": 33.919795989990234 }, "pca_coordinates": { "x": 0.48046767711639404, "y": -1.4365167617797852, "z": 0.04113191366195679 }, "axis_scores": { "Quantum imaging": 0.7038465142250061, "Quantum Life Science Sensing": 0.6869390606880188, "Quantum sensing Detection": 0.673973798751831, "Quantum sensing Metrology": 0.6970424056053162, "Quantum sensing navigation": 0.688859760761261, "Quantum sensing Position": 0.6375104784965515, "Quantum sensing Timing": 0.6426345705986023, "Quantum sensing": 0.6901775598526001, "Quantum control": 0.660955011844635 } }, { "id": 6946, "title": "Spin-dependent heat signatures of single-molecule spin dynamics", "abstract": "We investigate transient spin-dependent thermoelectric signatures in a single-molecule magnet under the effect of a time-dependent voltage pulse. We model the system using nonequilibrium Green's funct...", "citations": 11, "author_count": 4, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6953, "doi": "10.1103/PhysRevB.99.115416", "umap_coordinates": { "x": 393.58892822265625, "y": 136.0360565185547, "z": 208.31011962890625 }, "tsne_coordinates": { "x": 10.231616020202637, "y": -23.045978546142578, "z": 20.940584182739258 }, "pca_coordinates": { "x": 3.5782384872436523, "y": -1.4965524673461914, "z": -1.2854490280151367 }, "axis_scores": { "Quantum imaging": 0.7040709257125854, "Quantum Life Science Sensing": 0.7355411052703857, "Quantum sensing Detection": 0.7209736704826355, "Quantum sensing Metrology": 0.6933480501174927, "Quantum sensing navigation": 0.7057703733444214, "Quantum sensing Position": 0.6856972575187683, "Quantum sensing Timing": 0.7012168765068054, "Quantum sensing": 0.7279725074768066, "Quantum control": 0.696011483669281 } }, { "id": 6947, "title": "Robust Spin Interconnect with Isotropic Spin Dynamics in Chemical Vapor Deposited Graphene Layers and Boundaries", "abstract": "The utilization of large-area graphene grown by chemical vapor deposition (CVD) is crucial for the development of scalable spin interconnects in all-spin-based memory and logic circuits. However, the ...", "citations": 16, "author_count": 7, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6954, "doi": "10.1021/acsnano.0c07163", "umap_coordinates": { "x": 392.4188537597656, "y": 134.9235076904297, "z": 207.63218688964844 }, "tsne_coordinates": { "x": 15.414414405822754, "y": -18.77627944946289, "z": 1.1500157117843628 }, "pca_coordinates": { "x": 0.859816312789917, "y": -2.359189033508301, "z": -0.10991352796554565 }, "axis_scores": { "Quantum imaging": 0.7141641974449158, "Quantum Life Science Sensing": 0.6913533210754395, "Quantum sensing Detection": 0.6843323707580566, "Quantum sensing Metrology": 0.6832229495048523, "Quantum sensing navigation": 0.7249786257743835, "Quantum sensing Position": 0.6871391534805298, "Quantum sensing Timing": 0.6800409555435181, "Quantum sensing": 0.7015270590782166, "Quantum control": 0.6994801163673401 } }, { "id": 6948, "title": "Broadband MAS NMR spectroscopy in the low-power limit", "abstract": "We investigate the performance of broadband adiabatic inversion pulses in the high-power (short high-powered adiabatic pulse, SHAP) and low-power (single-sideband-selective adiabatic pulse, S(3)AP) RF...", "citations": 12, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6955, "doi": "10.1016/j.cplett.2018.01.028", "umap_coordinates": { "x": 393.8373107910156, "y": 135.95799255371094, "z": 206.81063842773438 }, "tsne_coordinates": { "x": 15.054463386535645, "y": -2.1038382053375244, "z": 36.434898376464844 }, "pca_coordinates": { "x": -0.18523168563842773, "y": 1.9110325574874878, "z": -1.357123851776123 }, "axis_scores": { "Quantum imaging": 0.7030429840087891, "Quantum Life Science Sensing": 0.7234727740287781, "Quantum sensing Detection": 0.704745352268219, "Quantum sensing Metrology": 0.6763588190078735, "Quantum sensing navigation": 0.6899087429046631, "Quantum sensing Position": 0.7134649753570557, "Quantum sensing Timing": 0.6702311635017395, "Quantum sensing": 0.7046344876289368, "Quantum control": 0.6884645223617554 } }, { "id": 6949, "title": "A Quantum Description of the Stern-Gerlach Experiment", "abstract": "A detailed analysis of the classic Stern-Gerlach experiment is presented. An analytical simple solution is presented for the quantum description of the translational and spin dynamics of a silver atom...", "citations": 10, "author_count": 3, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6956, "doi": "10.3390/e19050186", "umap_coordinates": { "x": 394.858642578125, "y": 137.5596923828125, "z": 205.86973571777344 }, "tsne_coordinates": { "x": -23.662906646728516, "y": 10.249268531799316, "z": 11.823878288269043 }, "pca_coordinates": { "x": 1.4078035354614258, "y": 3.951429843902588, "z": -1.4000197649002075 }, "axis_scores": { "Quantum imaging": 0.7274349927902222, "Quantum Life Science Sensing": 0.7624853849411011, "Quantum sensing Detection": 0.7355791330337524, "Quantum sensing Metrology": 0.7332889437675476, "Quantum sensing navigation": 0.7338781356811523, "Quantum sensing Position": 0.7122964859008789, "Quantum sensing Timing": 0.7126389741897583, "Quantum sensing": 0.7526801228523254, "Quantum control": 0.7168468236923218 } }, { "id": 6950, "title": "Determination of the universality class of gadolinium", "abstract": "We resolve a long-standing puzzle for the static and dynamic critical behavior of gadolinium by a combined theoretical and experimental investigation, It is shown that the spin dynamics of a ferromagn...", "citations": 16, "author_count": 8, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 6957, "doi": "10.1103/PhysRevLett.79.5142", "umap_coordinates": { "x": 394.87664794921875, "y": 137.0575408935547, "z": 207.6936492919922 }, "tsne_coordinates": { "x": -30.134355545043945, "y": -13.672905921936035, "z": 5.260555267333984 }, "pca_coordinates": { "x": 2.0458321571350098, "y": 0.45730531215667725, "z": -0.9352990388870239 }, "axis_scores": { "Quantum imaging": 0.7278368473052979, "Quantum Life Science Sensing": 0.7822219133377075, "Quantum sensing Detection": 0.760098934173584, "Quantum sensing Metrology": 0.7359493970870972, "Quantum sensing navigation": 0.7472019195556641, "Quantum sensing Position": 0.7180049419403076, "Quantum sensing Timing": 0.7069140672683716, "Quantum sensing": 0.7552155256271362, "Quantum control": 0.7199331521987915 } }, { "id": 6951, "title": "Theoretical investigation of the magnetic and structural transitions of Ni-Co-Mn-Sn metamagnetic shape-memory alloys", "abstract": "The composition-dependent crystal structure, elastic modulus, phase stability, and magnetic property of Ni2-xCoxMn1.60Sn0.40 (0 <= x <= 0.50) are studied by using first-principles calculations in comb...", "citations": 31, "author_count": 6, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6958, "doi": "10.1103/PhysRevB.92.024105", "umap_coordinates": { "x": 393.10833740234375, "y": 136.494140625, "z": 209.0114288330078 }, "tsne_coordinates": { "x": 2.4988577365875244, "y": -35.27237319946289, "z": 20.815122604370117 }, "pca_coordinates": { "x": 2.5223920345306396, "y": -1.0496034622192383, "z": -1.7595763206481934 }, "axis_scores": { "Quantum imaging": 0.6653741598129272, "Quantum Life Science Sensing": 0.6764017939567566, "Quantum sensing Detection": 0.6559103727340698, "Quantum sensing Metrology": 0.6707329750061035, "Quantum sensing navigation": 0.6732817888259888, "Quantum sensing Position": 0.6495885252952576, "Quantum sensing Timing": 0.6526890397071838, "Quantum sensing": 0.6706290245056152, "Quantum control": 0.6361585259437561 } }, { "id": 6952, "title": "High Responsivity of InP/InAsP Nanowire Array Broadband Photodetectors Enhanced by Optical Gating", "abstract": "High-performance photodetectors operating in the near-infrared (0.75-1.4 mu m) and short-wave infrared (1.4-3.0 mu m) portion of the electromagnetic spectrum are key components in many optical systems...", "citations": 24, "author_count": 7, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6959, "doi": "10.1021/acs.nanolett.9b02494", "umap_coordinates": { "x": 392.0860290527344, "y": 133.93519592285156, "z": 207.79493713378906 }, "tsne_coordinates": { "x": 21.18964195251465, "y": -12.484969139099121, "z": -0.11350617557764053 }, "pca_coordinates": { "x": -1.5769133567810059, "y": -6.252206325531006, "z": 3.2774927616119385 }, "axis_scores": { "Quantum imaging": 0.6813591122627258, "Quantum Life Science Sensing": 0.6653939485549927, "Quantum sensing Detection": 0.6813289523124695, "Quantum sensing Metrology": 0.654627799987793, "Quantum sensing navigation": 0.6700187921524048, "Quantum sensing Position": 0.6512953042984009, "Quantum sensing Timing": 0.6542115807533264, "Quantum sensing": 0.6829288601875305, "Quantum control": 0.6279851198196411 } }, { "id": 6953, "title": "PARAMAGNETIC ENHANCED PROTON SPIN-LATTICE RELAXATION IN THE NI-2+ HEXA-AQUO COMPLEX - A THEORETICAL AND MOLECULAR-DYNAMICS SIMULATION STUDY OF THE BLOEMBERGEN-MORGAN DECOMPOSITION APPROACH", "abstract": "A reinterpretation of the experimental NMR proton spin-lattice dispersion curve of the Ni2+(H2O)6 complex is presented within a general slow-motion theory. The extended pseudo rotation (PR) model deve...", "citations": 24, "author_count": 4, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 6960, "doi": "10.1080/00268979300100911", "umap_coordinates": { "x": 393.0813293457031, "y": 137.2530975341797, "z": 207.52963256835938 }, "tsne_coordinates": { "x": 0.2010558545589447, "y": -9.017937660217285, "z": 40.18756103515625 }, "pca_coordinates": { "x": 0.9634485244750977, "y": 1.9247045516967773, "z": -3.0679826736450195 }, "axis_scores": { "Quantum imaging": 0.6783539652824402, "Quantum Life Science Sensing": 0.6547026038169861, "Quantum sensing Detection": 0.637749433517456, "Quantum sensing Metrology": 0.6250719428062439, "Quantum sensing navigation": 0.6616009473800659, "Quantum sensing Position": 0.6291095018386841, "Quantum sensing Timing": 0.6376788020133972, "Quantum sensing": 0.6514080762863159, "Quantum control": 0.6363053321838379 } }, { "id": 6954, "title": "Ultrafast generation and dynamics of isolated skyrmions in antiferromagnetic insulators", "abstract": "Based on atomistic spin dynamics simulations, we report the ultrafast generation of single antiferromagnetic (AFM) skyrmions in a confined geometry. This process is achieved through an effective magne...", "citations": 56, "author_count": 5, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6961, "doi": "10.1103/PhysRevB.99.054423", "umap_coordinates": { "x": 393.5730285644531, "y": 136.48536682128906, "z": 208.61878967285156 }, "tsne_coordinates": { "x": 0.6347531676292419, "y": -28.077043533325195, "z": 23.068153381347656 }, "pca_coordinates": { "x": 4.676080226898193, "y": -2.0551657676696777, "z": -1.6834269762039185 }, "axis_scores": { "Quantum imaging": 0.7069095373153687, "Quantum Life Science Sensing": 0.7304497957229614, "Quantum sensing Detection": 0.6889314651489258, "Quantum sensing Metrology": 0.6761636137962341, "Quantum sensing navigation": 0.6942499876022339, "Quantum sensing Position": 0.6529095768928528, "Quantum sensing Timing": 0.653766930103302, "Quantum sensing": 0.6972376108169556, "Quantum control": 0.6624995470046997 } }, { "id": 6955, "title": "Magnetization Dynamics in FexCo1-x in Presence of Chemical Disorder", "abstract": "In this paper, we present a theoretical formulation of magnetization dynamics in disordered binary alloys, based on the Kubo linear response theory, interfaced with a seamless combination of three app...", "citations": 3, "author_count": 5, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6962, "doi": "10.3390/magnetochemistry9020044", "umap_coordinates": { "x": 392.4792175292969, "y": 136.97918701171875, "z": 207.96388244628906 }, "tsne_coordinates": { "x": 7.741297245025635, "y": -34.12113952636719, "z": 22.95440101623535 }, "pca_coordinates": { "x": 0.2543044090270996, "y": -0.1799163818359375, "z": -5.619321823120117 }, "axis_scores": { "Quantum imaging": 0.7014605402946472, "Quantum Life Science Sensing": 0.7245040535926819, "Quantum sensing Detection": 0.6840531229972839, "Quantum sensing Metrology": 0.6813335418701172, "Quantum sensing navigation": 0.6848087906837463, "Quantum sensing Position": 0.6499160528182983, "Quantum sensing Timing": 0.6454474925994873, "Quantum sensing": 0.6953781843185425, "Quantum control": 0.6977947354316711 } }, { "id": 6956, "title": "Local terahertz field enhancement for time-resolved x-ray diffraction", "abstract": "We report local field strength enhancement of single-cycle terahertz (THz) pulses in an ultrafast time-resolved x-ray diffraction experiment. We show that patterning the sample with gold microstructur...", "citations": 24, "author_count": 13, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6963, "doi": "10.1063/1.4977088", "umap_coordinates": { "x": 394.3380126953125, "y": 134.33615112304688, "z": 207.2363739013672 }, "tsne_coordinates": { "x": -20.950204849243164, "y": 15.892779350280762, "z": -30.17683982849121 }, "pca_coordinates": { "x": -0.5591700673103333, "y": -0.09593725204467773, "z": 0.6100541949272156 }, "axis_scores": { "Quantum imaging": 0.706917941570282, "Quantum Life Science Sensing": 0.6941065788269043, "Quantum sensing Detection": 0.6759514212608337, "Quantum sensing Metrology": 0.6885490417480469, "Quantum sensing navigation": 0.6630021929740906, "Quantum sensing Position": 0.6588927507400513, "Quantum sensing Timing": 0.6762255430221558, "Quantum sensing": 0.6946883797645569, "Quantum control": 0.6549288034439087 } }, { "id": 6957, "title": "Strong Spin Pumping in Permalloy-Iridium Heterostructures", "abstract": "We report a study of spin pumping in Permalloy/iridium (Py/Ir) and Py/Cu/Ir heterostructures as a function of Ir thickness. Ir is shown to be a strong spin sink, leading to enhancements of the Gilbert...", "citations": 7, "author_count": 5, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6964, "doi": "10.1109/LMAG.2017.2737964", "umap_coordinates": { "x": 393.1451721191406, "y": 135.5170135498047, "z": 208.33746337890625 }, "tsne_coordinates": { "x": 3.927438497543335, "y": -25.8680419921875, "z": 19.353057861328125 }, "pca_coordinates": { "x": 0.4556396007537842, "y": -1.812267780303955, "z": 0.30333006381988525 }, "axis_scores": { "Quantum imaging": 0.7229025363922119, "Quantum Life Science Sensing": 0.7018119692802429, "Quantum sensing Detection": 0.700429379940033, "Quantum sensing Metrology": 0.7031744122505188, "Quantum sensing navigation": 0.6876166462898254, "Quantum sensing Position": 0.6864307522773743, "Quantum sensing Timing": 0.6708263754844666, "Quantum sensing": 0.7137776613235474, "Quantum control": 0.6758226752281189 } }, { "id": 6958, "title": "Large easy-axis anisotropy in the one-dimensional magnet BaMo(PO4)2", "abstract": "We present an extensive experimental and theoretical study on the low-temperature magnetic properties of the monoclinic anhydrous alum compound BaMo(PO4)(2). The magnetic susceptibility reveals strong...", "citations": 16, "author_count": 13, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6965, "doi": "10.1103/PhysRevB.100.214427", "umap_coordinates": { "x": 393.1391296386719, "y": 135.5115966796875, "z": 208.64144897460938 }, "tsne_coordinates": { "x": 1.7036124467849731, "y": -34.85035705566406, "z": 6.096697807312012 }, "pca_coordinates": { "x": 2.3477492332458496, "y": -1.7896013259887695, "z": -0.8729221820831299 }, "axis_scores": { "Quantum imaging": 0.6921098828315735, "Quantum Life Science Sensing": 0.6907600164413452, "Quantum sensing Detection": 0.6695616245269775, "Quantum sensing Metrology": 0.6700972318649292, "Quantum sensing navigation": 0.6751256585121155, "Quantum sensing Position": 0.6657867431640625, "Quantum sensing Timing": 0.6469796895980835, "Quantum sensing": 0.6883404850959778, "Quantum control": 0.6606224775314331 } }, { "id": 6959, "title": "Thermal generation of droplet soliton in chiral magnet", "abstract": "Controlled creation of localized magnetic textures beyond conventional ??-skyrmions is an important problem in the field of magnetism. Here, by means of spin dynamics simulations, Monte Carlo simulati...", "citations": 5, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6966, "doi": "10.1103/PhysRevB.105.184403", "umap_coordinates": { "x": 394.1219177246094, "y": 136.66162109375, "z": 209.17355346679688 }, "tsne_coordinates": { "x": -9.908111572265625, "y": -20.461322784423828, "z": 24.419160842895508 }, "pca_coordinates": { "x": 3.906498908996582, "y": -1.880533218383789, "z": -2.4421753883361816 }, "axis_scores": { "Quantum imaging": 0.6726135611534119, "Quantum Life Science Sensing": 0.6940245032310486, "Quantum sensing Detection": 0.6846497058868408, "Quantum sensing Metrology": 0.6810915470123291, "Quantum sensing navigation": 0.6652805805206299, "Quantum sensing Position": 0.6524600982666016, "Quantum sensing Timing": 0.6719414591789246, "Quantum sensing": 0.6894959807395935, "Quantum control": 0.6771047115325928 } }, { "id": 6960, "title": "Tailoring the magnetodynamic properties of nanomagnets using magnetocrystalline and shape anisotropies", "abstract": "Magnetodynamical properties of nanomagnets are affected by the demagnetizing fields created by the same nanoelements. In addition, magnetocrystalline anisotropy produces an effective field that also c...", "citations": 16, "author_count": 7, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6967, "doi": "10.1103/PhysRevB.92.104406", "umap_coordinates": { "x": 393.07025146484375, "y": 136.0752716064453, "z": 208.09304809570312 }, "tsne_coordinates": { "x": 0.1174032911658287, "y": -34.79672622680664, "z": 19.591331481933594 }, "pca_coordinates": { "x": 1.2466959953308105, "y": -0.9664244651794434, "z": -1.311658263206482 }, "axis_scores": { "Quantum imaging": 0.7136353254318237, "Quantum Life Science Sensing": 0.7130171656608582, "Quantum sensing Detection": 0.6884927749633789, "Quantum sensing Metrology": 0.7195124626159668, "Quantum sensing navigation": 0.7146760821342468, "Quantum sensing Position": 0.6926157474517822, "Quantum sensing Timing": 0.6725121736526489, "Quantum sensing": 0.7192328572273254, "Quantum control": 0.686612606048584 } }, { "id": 6961, "title": "Electrical and Thermal Control of Magnetic Exchange Interactions", "abstract": "We investigate the far-from-equilibrium nature of magnetic anisotropy and exchange interactions between molecular magnets embedded in a tunnel junction. By mapping to an effective spin model, these ma...", "citations": 34, "author_count": 4, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6968, "doi": "10.1103/PhysRevLett.113.257201", "umap_coordinates": { "x": 393.3272705078125, "y": 136.18692016601562, "z": 209.0309600830078 }, "tsne_coordinates": { "x": -4.4800920486450195, "y": -35.683799743652344, "z": 17.48078727722168 }, "pca_coordinates": { "x": 4.173520088195801, "y": -0.6659796237945557, "z": -1.6800510883331299 }, "axis_scores": { "Quantum imaging": 0.7215989232063293, "Quantum Life Science Sensing": 0.7051590085029602, "Quantum sensing Detection": 0.6973613500595093, "Quantum sensing Metrology": 0.7017014622688293, "Quantum sensing navigation": 0.6996240019798279, "Quantum sensing Position": 0.6751117706298828, "Quantum sensing Timing": 0.7000765204429626, "Quantum sensing": 0.7249656915664673, "Quantum control": 0.7431614995002747 } }, { "id": 6962, "title": "Exchange Coupling and Exchange Bias in FM/AFM Bilayers for a Fully Compensated AFM Interface", "abstract": "We address the interlayer coupling in a ferromagnet/antiferromagnet bilayer where the interface of the antiferromagnet is fully compensated. We discuss the role of different types of exchange interact...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6969, "doi": "10.12693/APhysPolA.115.25", "umap_coordinates": { "x": 393.59619140625, "y": 135.20755004882812, "z": 206.58778381347656 }, "tsne_coordinates": { "x": 34.95232009887695, "y": -12.640217781066895, "z": 15.657576560974121 }, "pca_coordinates": { "x": 0.28982293605804443, "y": 0.7188737392425537, "z": -0.8925755023956299 }, "axis_scores": { "Quantum imaging": 0.6598905324935913, "Quantum Life Science Sensing": 0.6599214673042297, "Quantum sensing Detection": 0.6380308270454407, "Quantum sensing Metrology": 0.6779496669769287, "Quantum sensing navigation": 0.6513972282409668, "Quantum sensing Position": 0.6540849804878235, "Quantum sensing Timing": 0.6387571692466736, "Quantum sensing": 0.6661131381988525, "Quantum control": 0.6574194431304932 } }, { "id": 6963, "title": "Spin dynamics of La0.85Sr0.15CoO3 perovskite", "abstract": "Dynamic magnetic properties of La0.85Sr0.15CoO3 have been experimentally studied by AC-susceptibiIity and time-dependent zero-field-cooled magnetisation experiments. The onset of ferromagnetic order a...", "citations": 24, "author_count": 7, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 6970, "doi": "10.1016/S0304-8853(98)00826-9", "umap_coordinates": { "x": 392.5211486816406, "y": 136.13290405273438, "z": 207.23760986328125 }, "tsne_coordinates": { "x": 7.072936534881592, "y": -16.912927627563477, "z": 24.762311935424805 }, "pca_coordinates": { "x": -0.044542908668518066, "y": -0.7785491943359375, "z": -3.0876240730285645 }, "axis_scores": { "Quantum imaging": 0.6980853080749512, "Quantum Life Science Sensing": 0.7106139659881592, "Quantum sensing Detection": 0.6705610752105713, "Quantum sensing Metrology": 0.6611394882202148, "Quantum sensing navigation": 0.6977033615112305, "Quantum sensing Position": 0.6780646443367004, "Quantum sensing Timing": 0.6630791425704956, "Quantum sensing": 0.6857349872589111, "Quantum control": 0.6909041404724121 } }, { "id": 6964, "title": "Nonadiabatic Charge Transfer within Photoexcited Nickel Porphyrins", "abstract": "Metalloporphyrins with open d-shell ions can drive biochemical energy cycles. However, their utilization in photoconversion is hampered by rapid deactivation. Mapping the relaxation pathways is essent...", "citations": 4, "author_count": 29, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 6971, "doi": "10.1021/acs.jpclett.4c00375", "umap_coordinates": { "x": 391.89862060546875, "y": 135.7998504638672, "z": 205.98460388183594 }, "tsne_coordinates": { "x": 5.271636486053467, "y": -6.49851655960083, "z": -14.761719703674316 }, "pca_coordinates": { "x": -1.3255093097686768, "y": -2.345137119293213, "z": -1.442427396774292 }, "axis_scores": { "Quantum imaging": 0.7180988192558289, "Quantum Life Science Sensing": 0.6991176605224609, "Quantum sensing Detection": 0.6943402290344238, "Quantum sensing Metrology": 0.6660851836204529, "Quantum sensing navigation": 0.6803833246231079, "Quantum sensing Position": 0.6723411083221436, "Quantum sensing Timing": 0.6831091642379761, "Quantum sensing": 0.7044474482536316, "Quantum control": 0.6903677582740784 } }, { "id": 6965, "title": "General method for atomistic spin-lattice dynamics with first-principles accuracy", "abstract": "We present a computationally efficient and general first-principles based method for spin-lattice simulations for solids and clusters. The method is based on a coupling of atomistic spin dynamics and ...", "citations": 62, "author_count": 9, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6972, "doi": "10.1103/PhysRevB.99.104302", "umap_coordinates": { "x": 393.6067199707031, "y": 137.26380920410156, "z": 208.58782958984375 }, "tsne_coordinates": { "x": -5.1933417320251465, "y": -31.153133392333984, "z": 27.98820686340332 }, "pca_coordinates": { "x": 3.9117746353149414, "y": -0.9091129302978516, "z": -1.3588505983352661 }, "axis_scores": { "Quantum imaging": 0.6853098273277283, "Quantum Life Science Sensing": 0.7114948630332947, "Quantum sensing Detection": 0.6967223882675171, "Quantum sensing Metrology": 0.6860124468803406, "Quantum sensing navigation": 0.7106937766075134, "Quantum sensing Position": 0.6766655445098877, "Quantum sensing Timing": 0.6689899563789368, "Quantum sensing": 0.7051584124565125, "Quantum control": 0.6922248601913452 } }, { "id": 6966, "title": "Optical detection of pesticides and drugs based on chemiluminescence-fluorescence assays", "abstract": "The paper illustrates two different concepts for monitoring pesticides and drugs. In the first approach double stranded deoxyribonucleic acid (dsDNA) was used as the sensing material, which intercalat...", "citations": 28, "author_count": 6, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 6973, "doi": "10.1016/S0003-2670(00)01014-X", "umap_coordinates": { "x": 393.9024353027344, "y": 135.08993530273438, "z": 204.5406036376953 }, "tsne_coordinates": { "x": 4.223723888397217, "y": 18.596975326538086, "z": -7.20462703704834 }, "pca_coordinates": { "x": -4.592745304107666, "y": 1.2002534866333008, "z": 0.6281707882881165 }, "axis_scores": { "Quantum imaging": 0.6911150813102722, "Quantum Life Science Sensing": 0.7164500951766968, "Quantum sensing Detection": 0.7033356428146362, "Quantum sensing Metrology": 0.6887935996055603, "Quantum sensing navigation": 0.6734335422515869, "Quantum sensing Position": 0.6743892431259155, "Quantum sensing Timing": 0.64217609167099, "Quantum sensing": 0.6994379162788391, "Quantum control": 0.6640636324882507 } }, { "id": 6967, "title": "Magnetic order and disorder environments in superantiferromagnetic NdCu2 nanoparticles", "abstract": "Magnetic nanoparticles exhibit two different local symmetry environments, one ascribed to the core and one corresponding to the nanoparticle surface. This implies the existence of a dual spin dynamics...", "citations": 3, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6974, "doi": "10.1038/s41598-022-13817-7", "umap_coordinates": { "x": 392.14495849609375, "y": 135.7909698486328, "z": 207.6143798828125 }, "tsne_coordinates": { "x": 11.49028205871582, "y": -23.94789695739746, "z": 30.326194763183594 }, "pca_coordinates": { "x": -1.2271085977554321, "y": -2.706838607788086, "z": -3.423400640487671 }, "axis_scores": { "Quantum imaging": 0.6966506838798523, "Quantum Life Science Sensing": 0.6995368599891663, "Quantum sensing Detection": 0.6737039089202881, "Quantum sensing Metrology": 0.6808708906173706, "Quantum sensing navigation": 0.6856414079666138, "Quantum sensing Position": 0.672187328338623, "Quantum sensing Timing": 0.6619775295257568, "Quantum sensing": 0.6837978959083557, "Quantum control": 0.6536240577697754 } }, { "id": 6968, "title": "Anomalous Phonon Lifetime Shortening in Paramagnetic CrN Caused by Spin-Lattice Coupling: A Combined Spin and Ab Initio Molecular Dynamics Study", "abstract": "We study the mutual coupling of spin fluctuations and lattice vibrations in paramagnetic CrN by combining atomistic spin dynamics and ab initio molecular dynamics. The two degrees of freedom are dynam...", "citations": 74, "author_count": 9, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 6975, "doi": "10.1103/PhysRevLett.121.125902", "umap_coordinates": { "x": 393.230224609375, "y": 136.78164672851562, "z": 207.6485595703125 }, "tsne_coordinates": { "x": -4.362287521362305, "y": -18.262218475341797, "z": 7.521302700042725 }, "pca_coordinates": { "x": 2.7981109619140625, "y": -0.15295004844665527, "z": -1.2393847703933716 }, "axis_scores": { "Quantum imaging": 0.7073420286178589, "Quantum Life Science Sensing": 0.7284553647041321, "Quantum sensing Detection": 0.7086734771728516, "Quantum sensing Metrology": 0.6909319758415222, "Quantum sensing navigation": 0.7191277742385864, "Quantum sensing Position": 0.6865643858909607, "Quantum sensing Timing": 0.7107040882110596, "Quantum sensing": 0.7204146385192871, "Quantum control": 0.7077207565307617 } }, { "id": 6969, "title": "Magnetic L-edge EXAFS of 3d elements:: multiple-scattering analysis and spin dynamics", "abstract": "Magnetic EXAFS (MEXAFS) adds magnetic selectivity to the well established EXAFS technique opening the door to the exploration of local magnetic structure and disorder. Of particular interest is the be...", "citations": 16, "author_count": 11, "categories": [ "Instruments & Instrumentation" ], "year": 1999, "topic": [ "all" ], "embedding_index": 6976, "doi": "10.1107/S0909049598017488", "umap_coordinates": { "x": 392.49725341796875, "y": 136.5618896484375, "z": 207.6850128173828 }, "tsne_coordinates": { "x": 12.228994369506836, "y": -28.854022979736328, "z": 26.640148162841797 }, "pca_coordinates": { "x": -0.21323704719543457, "y": 0.40422511100769043, "z": -2.3385605812072754 }, "axis_scores": { "Quantum imaging": 0.6986334919929504, "Quantum Life Science Sensing": 0.7178497314453125, "Quantum sensing Detection": 0.6721826791763306, "Quantum sensing Metrology": 0.6746726036071777, "Quantum sensing navigation": 0.6897188425064087, "Quantum sensing Position": 0.6710730195045471, "Quantum sensing Timing": 0.6433210372924805, "Quantum sensing": 0.6851349472999573, "Quantum control": 0.6483727097511292 } }, { "id": 6970, "title": "FOURIER CORRECTION FOR SPATIALLY VARIANT COLLIMATOR BLURRING IN SPECT", "abstract": "In single-photon emission computed tomography (SPECT), projection data are acquired by rotating the photon detector around a patient, either in a circular orbit or in a noncircular orbit. The projecti...", "citations": 92, "author_count": 4, "categories": [ "Computer Science" ], "year": 1995, "topic": [ "all" ], "embedding_index": 6977, "doi": "10.1109/42.370406", "umap_coordinates": { "x": 395.8254089355469, "y": 133.02130126953125, "z": 205.19236755371094 }, "tsne_coordinates": { "x": -11.92422866821289, "y": 32.252159118652344, "z": -12.279053688049316 }, "pca_coordinates": { "x": -1.7333568334579468, "y": 3.1186883449554443, "z": 1.8300974369049072 }, "axis_scores": { "Quantum imaging": 0.7061181664466858, "Quantum Life Science Sensing": 0.6495540142059326, "Quantum sensing Detection": 0.6420304179191589, "Quantum sensing Metrology": 0.6441949605941772, "Quantum sensing navigation": 0.6847032308578491, "Quantum sensing Position": 0.6627896428108215, "Quantum sensing Timing": 0.6637081503868103, "Quantum sensing": 0.6585913896560669, "Quantum control": 0.6481885313987732 } }, { "id": 6971, "title": "Femtosecond X-ray induced changes of the electronic and magnetic response of solids from electron redistribution", "abstract": "Resonant X-ray absorption, where an X-ray photon excites a core electron into an unoccupied valence state, is an essential process in many standard X-ray spectroscopies. With increasing X-ray intensit...", "citations": 28, "author_count": 17, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6978, "doi": "10.1038/s41467-019-13272-5", "umap_coordinates": { "x": 392.5888977050781, "y": 136.36508178710938, "z": 207.62887573242188 }, "tsne_coordinates": { "x": 8.08895492553711, "y": -31.845287322998047, "z": 25.198532104492188 }, "pca_coordinates": { "x": 0.08626759052276611, "y": -1.0363445281982422, "z": -2.936591148376465 }, "axis_scores": { "Quantum imaging": 0.6774207949638367, "Quantum Life Science Sensing": 0.695956289768219, "Quantum sensing Detection": 0.6552247405052185, "Quantum sensing Metrology": 0.6573145389556885, "Quantum sensing navigation": 0.6406915783882141, "Quantum sensing Position": 0.6490646004676819, "Quantum sensing Timing": 0.6524671316146851, "Quantum sensing": 0.6748115420341492, "Quantum control": 0.649042546749115 } }, { "id": 6972, "title": "Ultrafast magnetization dynamics: Microscopic electronic configurations and ultrafast spectroscopy", "abstract": "We provide an approach for the identification of the electronic and magnetic configurations of ferromagnetic Fe after an ultrafast decrease or increase of the magnetization. The model is based on the ...", "citations": 8, "author_count": 6, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6979, "doi": "10.1103/PhysRevB.92.064403", "umap_coordinates": { "x": 393.0782165527344, "y": 136.83843994140625, "z": 208.0499725341797 }, "tsne_coordinates": { "x": 0.7631872892379761, "y": -25.48805809020996, "z": 23.703041076660156 }, "pca_coordinates": { "x": 4.001562118530273, "y": -0.1824040412902832, "z": -3.0510339736938477 }, "axis_scores": { "Quantum imaging": 0.7352374792098999, "Quantum Life Science Sensing": 0.7544129490852356, "Quantum sensing Detection": 0.7169048190116882, "Quantum sensing Metrology": 0.7164374589920044, "Quantum sensing navigation": 0.7257577776908875, "Quantum sensing Position": 0.7031477093696594, "Quantum sensing Timing": 0.6749452352523804, "Quantum sensing": 0.728653609752655, "Quantum control": 0.7010059952735901 } }, { "id": 6973, "title": "Spin dynamics of the director state in frustrated hyperkagome systems", "abstract": "We present an experimental study of the magnetic structure and dynamics of two frustrated hyperkagome compounds, Gd3Ga5O12 and Gd3Al5O12. It has previously been shown that Gd3Ga5O12 exhibits long-rang...", "citations": 4, "author_count": 14, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6980, "doi": "10.1103/PhysRevB.104.054440", "umap_coordinates": { "x": 393.42852783203125, "y": 137.05752563476562, "z": 208.50830078125 }, "tsne_coordinates": { "x": -6.5304999351501465, "y": -32.82451248168945, "z": 17.4571590423584 }, "pca_coordinates": { "x": 4.957113742828369, "y": 0.022240638732910156, "z": -3.3870630264282227 }, "axis_scores": { "Quantum imaging": 0.7198097705841064, "Quantum Life Science Sensing": 0.6928156614303589, "Quantum sensing Detection": 0.6796170473098755, "Quantum sensing Metrology": 0.6733080744743347, "Quantum sensing navigation": 0.710133969783783, "Quantum sensing Position": 0.6848536729812622, "Quantum sensing Timing": 0.6524350643157959, "Quantum sensing": 0.6953579187393188, "Quantum control": 0.713823139667511 } }, { "id": 6974, "title": "Nonlinear Magnetization Dynamics Driven by Strong Terahertz Fields", "abstract": "We present a comprehensive experimental and numerical study of magnetization dynamics in a thin metallic film triggered by single-cycle terahertz pulses of similar to 20 MV/m electric field amplitude ...", "citations": 33, "author_count": 11, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 6981, "doi": "10.1103/PhysRevLett.123.197204", "umap_coordinates": { "x": 393.25689697265625, "y": 136.28538513183594, "z": 208.7547149658203 }, "tsne_coordinates": { "x": 2.9552876949310303, "y": -26.573381423950195, "z": 20.9435977935791 }, "pca_coordinates": { "x": 4.304850101470947, "y": -1.2877907752990723, "z": -1.2426767349243164 }, "axis_scores": { "Quantum imaging": 0.7190463542938232, "Quantum Life Science Sensing": 0.718774139881134, "Quantum sensing Detection": 0.6980326175689697, "Quantum sensing Metrology": 0.6883509755134583, "Quantum sensing navigation": 0.6998703479766846, "Quantum sensing Position": 0.6603244543075562, "Quantum sensing Timing": 0.6638727784156799, "Quantum sensing": 0.7068198919296265, "Quantum control": 0.6959150433540344 } }, { "id": 6975, "title": "Theoretical investigation of magnons in Fe-Ga alloys", "abstract": "Fe-Ga alloys show an unusually large increase in magnetostriction compared to pure Fe and are one of the most interesting Fe-based alloys for this reason. However, the origin of the large magnetostric...", "citations": 3, "author_count": 4, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6982, "doi": "10.1103/PhysRevB.108.184410", "umap_coordinates": { "x": 393.5035095214844, "y": 136.20777893066406, "z": 208.80516052246094 }, "tsne_coordinates": { "x": 2.4511935710906982, "y": -37.281150817871094, "z": 11.234994888305664 }, "pca_coordinates": { "x": 3.9850363731384277, "y": -0.03179478645324707, "z": -1.1571941375732422 }, "axis_scores": { "Quantum imaging": 0.6933257579803467, "Quantum Life Science Sensing": 0.6927494406700134, "Quantum sensing Detection": 0.6784848570823669, "Quantum sensing Metrology": 0.6815704703330994, "Quantum sensing navigation": 0.6945140361785889, "Quantum sensing Position": 0.6680846810340881, "Quantum sensing Timing": 0.6563081741333008, "Quantum sensing": 0.6890190839767456, "Quantum control": 0.6654928922653198 } }, { "id": 6976, "title": "Stoner versus Heisenberg: Ultrafast exchange reduction and magnon generation during laser-induced demagnetization", "abstract": "Understanding how the electronic band structure of a ferromagnetic material is modified during laser-induced demagnetization on femtosecond time scales has been a long-standing question in condensed m...", "citations": 94, "author_count": 17, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6983, "doi": "10.1103/PhysRevB.94.220408", "umap_coordinates": { "x": 393.0986328125, "y": 136.54415893554688, "z": 208.2029266357422 }, "tsne_coordinates": { "x": 6.852392673492432, "y": -29.98261070251465, "z": 29.78753662109375 }, "pca_coordinates": { "x": 2.458415985107422, "y": 1.1935075521469116, "z": -3.206455707550049 }, "axis_scores": { "Quantum imaging": 0.6746101975440979, "Quantum Life Science Sensing": 0.6702681183815002, "Quantum sensing Detection": 0.643470823764801, "Quantum sensing Metrology": 0.6602342128753662, "Quantum sensing navigation": 0.6384740471839905, "Quantum sensing Position": 0.628745436668396, "Quantum sensing Timing": 0.6465412378311157, "Quantum sensing": 0.6639441251754761, "Quantum control": 0.6597931385040283 } }, { "id": 6977, "title": "Understanding the martensitic phase transition of Ni2(Mn1-xFex)Ga magnetic shape-memory alloys from theoretical calculations", "abstract": "By using first principles in combination with atomistic spin dynamics calculational methods, we determine the temperature-dependent free energies of the L2(1)-and L1(0)-Ni-2(Mn1-xFex) Ga (0 <= x <= 1)...", "citations": 16, "author_count": 6, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 6984, "doi": "10.1103/PhysRevB.91.174112", "umap_coordinates": { "x": 393.0965881347656, "y": 136.58517456054688, "z": 208.86309814453125 }, "tsne_coordinates": { "x": 2.3184194564819336, "y": -35.56006622314453, "z": 21.389291763305664 }, "pca_coordinates": { "x": 1.9542388916015625, "y": -0.11453390121459961, "z": -1.8937809467315674 }, "axis_scores": { "Quantum imaging": 0.6640852689743042, "Quantum Life Science Sensing": 0.672758162021637, "Quantum sensing Detection": 0.6492990851402283, "Quantum sensing Metrology": 0.6720837354660034, "Quantum sensing navigation": 0.6817020177841187, "Quantum sensing Position": 0.6502234935760498, "Quantum sensing Timing": 0.6367841362953186, "Quantum sensing": 0.668939471244812, "Quantum control": 0.6481229066848755 } }, { "id": 6978, "title": "Fe2C- and Mn2(W/Mo)B4-based rare-earth-free permanent magnets as a result of the high-throughput and data-mining search", "abstract": "A high-throughput and data-mining search for rare-earth-free permanent magnets is reported for materials containing a 3d and p-element of the Periodic Table. Three of the most promising compounds, Fe ...", "citations": 7, "author_count": 4, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6985, "doi": "10.1080/21663831.2022.2117576", "umap_coordinates": { "x": 392.3896484375, "y": 135.471435546875, "z": 205.89964294433594 }, "tsne_coordinates": { "x": 19.67840576171875, "y": -23.9995059967041, "z": 28.242565155029297 }, "pca_coordinates": { "x": -1.431441068649292, "y": 1.2375649213790894, "z": -1.020930290222168 }, "axis_scores": { "Quantum imaging": 0.6430941820144653, "Quantum Life Science Sensing": 0.6579825282096863, "Quantum sensing Detection": 0.6479312777519226, "Quantum sensing Metrology": 0.6441565752029419, "Quantum sensing navigation": 0.6453325748443604, "Quantum sensing Position": 0.6194919943809509, "Quantum sensing Timing": 0.6361231207847595, "Quantum sensing": 0.6531561613082886, "Quantum control": 0.6270853281021118 } }, { "id": 6979, "title": "Core-Core Dynamics in Spin Vortex Pairs", "abstract": "We investigate nanopillars in which two thin ferromagnetic particles are separated by a nanometer thin nonmagnetic spacer and can be set into stable spin vortex-pair configurations. We find that the p...", "citations": 60, "author_count": 8, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 6986, "doi": "10.1103/PhysRevLett.109.097204", "umap_coordinates": { "x": 394.4278564453125, "y": 136.7287139892578, "z": 208.93524169921875 }, "tsne_coordinates": { "x": -9.631787300109863, "y": -18.1717586517334, "z": 20.74163818359375 }, "pca_coordinates": { "x": 5.108923435211182, "y": -0.23766279220581055, "z": -0.8654555678367615 }, "axis_scores": { "Quantum imaging": 0.699729859828949, "Quantum Life Science Sensing": 0.7083894610404968, "Quantum sensing Detection": 0.7081422209739685, "Quantum sensing Metrology": 0.6868466138839722, "Quantum sensing navigation": 0.7137409448623657, "Quantum sensing Position": 0.7044427394866943, "Quantum sensing Timing": 0.7086924910545349, "Quantum sensing": 0.7037541270256042, "Quantum control": 0.69984370470047 } }, { "id": 6980, "title": "The 2021 ultrafast spectroscopic probes of condensed matter roadmap", "abstract": "In the 60 years since the invention of the laser, the scientific community has developed numerous fields of research based on these bright, coherent light sources, including the areas of imaging, spec...", "citations": 96, "author_count": 23, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 6987, "doi": "10.1088/1361-648X/abfe21", "umap_coordinates": { "x": 394.8856506347656, "y": 135.36380004882812, "z": 205.80503845214844 }, "tsne_coordinates": { "x": -15.84547233581543, "y": -0.4217326045036316, "z": -18.98812484741211 }, "pca_coordinates": { "x": -0.4050676226615906, "y": 1.5263726711273193, "z": -1.0815500020980835 }, "axis_scores": { "Quantum imaging": 0.731486439704895, "Quantum Life Science Sensing": 0.7665735483169556, "Quantum sensing Detection": 0.7220951914787292, "Quantum sensing Metrology": 0.7261947393417358, "Quantum sensing navigation": 0.7238620519638062, "Quantum sensing Position": 0.705366313457489, "Quantum sensing Timing": 0.6949626207351685, "Quantum sensing": 0.7326285243034363, "Quantum control": 0.6882858872413635 } }, { "id": 6981, "title": "Two-component heat diffusion observed in LaMnO3 and La0.7Ca0.3MnO3", "abstract": "We investigate the low-temperature electron, lattice, and spin dynamics of LaMnO3 (LMO) and La0.7Ca0.3MnO3 (LCMO) by resonant pump-probe reflectance spectroscopy. Probing the high-spin d-d transition ...", "citations": 21, "author_count": 7, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 6988, "doi": "10.1103/PhysRevB.81.064434", "umap_coordinates": { "x": 394.64892578125, "y": 135.55613708496094, "z": 208.45909118652344 }, "tsne_coordinates": { "x": -10.1187162399292, "y": -26.448623657226562, "z": 18.648813247680664 }, "pca_coordinates": { "x": 2.14154052734375, "y": 0.29667019844055176, "z": -1.4388725757598877 }, "axis_scores": { "Quantum imaging": 0.6990056037902832, "Quantum Life Science Sensing": 0.714099109172821, "Quantum sensing Detection": 0.7011944055557251, "Quantum sensing Metrology": 0.682482898235321, "Quantum sensing navigation": 0.7070304155349731, "Quantum sensing Position": 0.6829432249069214, "Quantum sensing Timing": 0.6825057864189148, "Quantum sensing": 0.7055972814559937, "Quantum control": 0.6785213947296143 } }, { "id": 6982, "title": "Theory of fast time evolution of nonequilibrium spin states in magnetic heterostructures", "abstract": "The temporal evolution of highly nonequilibrium and spatially nonuniform spin states is analyzed on the basis of a general, phenomenological spin dynamics theory, employing the concept of both local (...", "citations": 18, "author_count": 4, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 6989, "doi": "10.1103/PhysRevB.90.024409", "umap_coordinates": { "x": 393.4053649902344, "y": 136.8102264404297, "z": 208.9281005859375 }, "tsne_coordinates": { "x": 0.4203041195869446, "y": -26.693918228149414, "z": 21.133214950561523 }, "pca_coordinates": { "x": 4.5110859870910645, "y": -0.5894722938537598, "z": -2.048051118850708 }, "axis_scores": { "Quantum imaging": 0.7275198698043823, "Quantum Life Science Sensing": 0.7244052290916443, "Quantum sensing Detection": 0.7045274376869202, "Quantum sensing Metrology": 0.6967129111289978, "Quantum sensing navigation": 0.7180623412132263, "Quantum sensing Position": 0.6882383227348328, "Quantum sensing Timing": 0.711721658706665, "Quantum sensing": 0.7162339091300964, "Quantum control": 0.6968183517456055 } }, { "id": 6983, "title": "Magnetic properties of geometrically frustrated ZnxLi1-xV2O4", "abstract": "muSR spectroscopy on ZnV2O4 shows paramagnetism for T > 40K. For 12K less than or equal to T less than or equal to 40K, the paramagnetic state coexists with a dynamically correlated spin-glass-like st...", "citations": 4, "author_count": 9, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6990, "doi": "10.1016/S0921-4526(02)01670-8", "umap_coordinates": { "x": 392.5997619628906, "y": 136.29725646972656, "z": 207.59405517578125 }, "tsne_coordinates": { "x": 11.179794311523438, "y": -15.336431503295898, "z": 28.66314125061035 }, "pca_coordinates": { "x": -0.15732908248901367, "y": -0.2638664245605469, "z": -2.4173743724823 }, "axis_scores": { "Quantum imaging": 0.7234330177307129, "Quantum Life Science Sensing": 0.7017191052436829, "Quantum sensing Detection": 0.6808329820632935, "Quantum sensing Metrology": 0.7028727531433105, "Quantum sensing navigation": 0.7084537148475647, "Quantum sensing Position": 0.702646017074585, "Quantum sensing Timing": 0.6761396527290344, "Quantum sensing": 0.7057127952575684, "Quantum control": 0.7019644975662231 } }, { "id": 6984, "title": "Theory of noncollinear interactions beyond Heisenberg exchange: Applications to bcc Fe", "abstract": "We show for a simple noncollinear configuration of the atomistic spins (in particular, where one spin is rotated by a finite angle in a ferromagnetic background) that the pairwise energy variation com...", "citations": 23, "author_count": 12, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 6991, "doi": "10.1103/PhysRevB.96.144413", "umap_coordinates": { "x": 394.0422668457031, "y": 136.4499969482422, "z": 209.08578491210938 }, "tsne_coordinates": { "x": -3.014922857284546, "y": -38.13859558105469, "z": 16.420175552368164 }, "pca_coordinates": { "x": 3.7051401138305664, "y": 0.5438446998596191, "z": -1.6719458103179932 }, "axis_scores": { "Quantum imaging": 0.705661416053772, "Quantum Life Science Sensing": 0.6988487839698792, "Quantum sensing Detection": 0.6941456198692322, "Quantum sensing Metrology": 0.6842576861381531, "Quantum sensing navigation": 0.6924222111701965, "Quantum sensing Position": 0.6759177446365356, "Quantum sensing Timing": 0.6869068145751953, "Quantum sensing": 0.7034416794776917, "Quantum control": 0.6887619495391846 } }, { "id": 6985, "title": "Spin dynamics and spin disorder in frustrated TbCoxNi1-xC2", "abstract": "The orthogonal dicarbides RTC2 (R = rare earth, T = transition metal) show ferromagnetic (fm) order of the R ions below T-C approximate to 30 K for T = Co with a being the easy axis and antiferromagne...", "citations": 3, "author_count": 9, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 6992, "doi": "10.1016/S0921-4526(02)01667-8", "umap_coordinates": { "x": 392.4578552246094, "y": 136.6254119873047, "z": 207.8462371826172 }, "tsne_coordinates": { "x": 8.759868621826172, "y": -16.522680282592773, "z": 28.03055763244629 }, "pca_coordinates": { "x": 0.7874151468276978, "y": -0.08329534530639648, "z": -3.6726903915405273 }, "axis_scores": { "Quantum imaging": 0.7054132223129272, "Quantum Life Science Sensing": 0.6630736589431763, "Quantum sensing Detection": 0.6698551774024963, "Quantum sensing Metrology": 0.6504384279251099, "Quantum sensing navigation": 0.6844063401222229, "Quantum sensing Position": 0.6774291396141052, "Quantum sensing Timing": 0.690595805644989, "Quantum sensing": 0.6796464920043945, "Quantum control": 0.7082157731056213 } }, { "id": 6986, "title": "Spin wave excitations of magnetic metalorganic materials", "abstract": "The Organic Materials Database (OMDB) is an open database hosting about 22 000 electronic band structures, density of states, and other properties for stable and previously synthesized three-dimension...", "citations": 6, "author_count": 6, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 6993, "doi": "10.1103/PhysRevMaterials.4.024409", "umap_coordinates": { "x": 393.2199401855469, "y": 136.10873413085938, "z": 208.94879150390625 }, "tsne_coordinates": { "x": 5.2582221031188965, "y": -32.658084869384766, "z": 18.752286911010742 }, "pca_coordinates": { "x": 3.599874973297119, "y": -2.531797409057617, "z": -1.852809190750122 }, "axis_scores": { "Quantum imaging": 0.7370322346687317, "Quantum Life Science Sensing": 0.7383853197097778, "Quantum sensing Detection": 0.7253152132034302, "Quantum sensing Metrology": 0.7292804718017578, "Quantum sensing navigation": 0.7219671607017517, "Quantum sensing Position": 0.7011563181877136, "Quantum sensing Timing": 0.678297221660614, "Quantum sensing": 0.7441964149475098, "Quantum control": 0.6907963752746582 } }, { "id": 6987, "title": "Influence of laser-excited electron distributions on the X-ray magnetic circular dichroism spectra: Implications for femtosecond demagnetization in Ni", "abstract": "In pump-probe experiments an intensive laser pulse creates non-equilibrium excited-electron distributions in the first few hundred femtoseconds after the pulse. The influence of nonequilibrium electro...", "citations": 66, "author_count": 4, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 6994, "doi": "10.1209/0295-5075/86/57002", "umap_coordinates": { "x": 392.77197265625, "y": 136.030029296875, "z": 207.78770446777344 }, "tsne_coordinates": { "x": 4.248918533325195, "y": -29.052568435668945, "z": 29.39938735961914 }, "pca_coordinates": { "x": -1.1374197006225586, "y": 0.49776697158813477, "z": -2.343248128890991 }, "axis_scores": { "Quantum imaging": 0.690026044845581, "Quantum Life Science Sensing": 0.6812534332275391, "Quantum sensing Detection": 0.6475211381912231, "Quantum sensing Metrology": 0.6509971022605896, "Quantum sensing navigation": 0.6453977823257446, "Quantum sensing Position": 0.6507899761199951, "Quantum sensing Timing": 0.6407076120376587, "Quantum sensing": 0.6657112836837769, "Quantum control": 0.6521928310394287 } }, { "id": 6988, "title": "Exchange interactions and Curie temperatures in Ni2-xMnSb alloys:: First-principles study", "abstract": "We present a first-principles study of the physical properties of the disordered Ni2-xMnSb alloys which form a continuous series connecting two typical members of the Heusler alloy family: namely, the...", "citations": 131, "author_count": 5, "categories": [ "Materials Science" ], "year": 2006, "topic": [ "all" ], "embedding_index": 6995, "doi": "10.1103/PhysRevB.73.214412", "umap_coordinates": { "x": 392.93609619140625, "y": 136.5244598388672, "z": 209.0583953857422 }, "tsne_coordinates": { "x": 4.032754898071289, "y": -39.81990432739258, "z": 22.908931732177734 }, "pca_coordinates": { "x": 2.278339385986328, "y": -1.8127942085266113, "z": -2.9000561237335205 }, "axis_scores": { "Quantum imaging": 0.659845232963562, "Quantum Life Science Sensing": 0.6642144322395325, "Quantum sensing Detection": 0.6532419323921204, "Quantum sensing Metrology": 0.6619648337364197, "Quantum sensing navigation": 0.6775106191635132, "Quantum sensing Position": 0.6549723744392395, "Quantum sensing Timing": 0.6610191464424133, "Quantum sensing": 0.671486496925354, "Quantum control": 0.6539173126220703 } }, { "id": 6989, "title": "Magnetism in AV3Sb5 (A = Cs, Rb, K): Complex landscape of dynamical magnetic textures", "abstract": "We have investigated the dynamical magnetic properties of the V-based kagome stibnite compounds by combining the ab initio-extracted magnetic parameters of a spin-Hamiltonian, like inter-site exchange...", "citations": 5, "author_count": 14, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 6996, "doi": "10.1103/PhysRevB.108.174413", "umap_coordinates": { "x": 393.62628173828125, "y": 136.85060119628906, "z": 208.98252868652344 }, "tsne_coordinates": { "x": -8.101080894470215, "y": -33.97541809082031, "z": 19.645526885986328 }, "pca_coordinates": { "x": 3.4825286865234375, "y": -0.1530301570892334, "z": -3.489417552947998 }, "axis_scores": { "Quantum imaging": 0.7031636238098145, "Quantum Life Science Sensing": 0.6956154704093933, "Quantum sensing Detection": 0.6783028244972229, "Quantum sensing Metrology": 0.685198187828064, "Quantum sensing navigation": 0.7063736915588379, "Quantum sensing Position": 0.6446245908737183, "Quantum sensing Timing": 0.6593679189682007, "Quantum sensing": 0.698582112789154, "Quantum control": 0.6854660511016846 } }, { "id": 6990, "title": "Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz-Gilbert equation of spin dynamics", "abstract": "Starting from the Dirac-Kohn-Sham equation, we derive the relativistic equation of motion of spin angular momentum in a magnetic solid under an external electromagnetic field. This equation of motion ...", "citations": 56, "author_count": 4, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 6997, "doi": "10.1103/PhysRevB.94.144419", "umap_coordinates": { "x": 393.695068359375, "y": 136.80975341796875, "z": 208.9176483154297 }, "tsne_coordinates": { "x": -4.777365684509277, "y": -27.854068756103516, "z": 26.883560180664062 }, "pca_coordinates": { "x": 4.496000289916992, "y": 1.275634765625, "z": -2.097876787185669 }, "axis_scores": { "Quantum imaging": 0.7105802297592163, "Quantum Life Science Sensing": 0.7164458632469177, "Quantum sensing Detection": 0.7024312019348145, "Quantum sensing Metrology": 0.6823348999023438, "Quantum sensing navigation": 0.7273737192153931, "Quantum sensing Position": 0.6819057464599609, "Quantum sensing Timing": 0.6927574276924133, "Quantum sensing": 0.7140786647796631, "Quantum control": 0.7123231887817383 } }, { "id": 6991, "title": "Experimental confirmation of the delayed Ni demagnetization in FeNi alloy", "abstract": "Element-selective techniques are central for the understanding of ultrafast spin dynamics in multi-element materials, such as magnetic alloys. Recently, however, it turned out that the commonly used t...", "citations": 13, "author_count": 10, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 6998, "doi": "10.1063/5.0080331", "umap_coordinates": { "x": 392.85125732421875, "y": 136.27029418945312, "z": 208.06040954589844 }, "tsne_coordinates": { "x": 3.789567470550537, "y": -29.30217742919922, "z": 32.138607025146484 }, "pca_coordinates": { "x": 0.7552956342697144, "y": 1.284468173980713, "z": -1.0629440546035767 }, "axis_scores": { "Quantum imaging": 0.671648383140564, "Quantum Life Science Sensing": 0.6579505801200867, "Quantum sensing Detection": 0.6436745524406433, "Quantum sensing Metrology": 0.6545833349227905, "Quantum sensing navigation": 0.6624784469604492, "Quantum sensing Position": 0.6602314710617065, "Quantum sensing Timing": 0.6648532748222351, "Quantum sensing": 0.6494404077529907, "Quantum control": 0.6355345845222473 } }, { "id": 6992, "title": "Dynamics of spin-1/2quantum plasmas", "abstract": "The fully nonlinear governing equations for spin-(1)/(2) quantum plasmas are presented. Starting from the Pauli equation, the relevant plasma equations are derived, and it is shown that nontrivial qua...", "citations": 438, "author_count": 3, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 6999, "doi": "10.1103/PhysRevLett.98.025001", "umap_coordinates": { "x": 393.56182861328125, "y": 136.73956298828125, "z": 208.29359436035156 }, "tsne_coordinates": { "x": -3.5878472328186035, "y": -25.226001739501953, "z": 21.520780563354492 }, "pca_coordinates": { "x": 4.5250349044799805, "y": -0.8716034889221191, "z": -2.661243200302124 }, "axis_scores": { "Quantum imaging": 0.7361178398132324, "Quantum Life Science Sensing": 0.753519594669342, "Quantum sensing Detection": 0.7328668832778931, "Quantum sensing Metrology": 0.7205792665481567, "Quantum sensing navigation": 0.7420508861541748, "Quantum sensing Position": 0.7093089818954468, "Quantum sensing Timing": 0.7069507241249084, "Quantum sensing": 0.7395440340042114, "Quantum control": 0.7432730197906494 } }, { "id": 6993, "title": "Magnetoplasmonics in confined geometries: Current challenges and future opportunities", "abstract": "Plasmonics represents a unique approach to confine and enhance electromagnetic radiation well below the diffraction limit, bringing a huge potential for novel applications, for instance, in energy har...", "citations": 34, "author_count": 7, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7000, "doi": "10.1063/5.0136941", "umap_coordinates": { "x": 393.63836669921875, "y": 136.58566284179688, "z": 207.34796142578125 }, "tsne_coordinates": { "x": 9.609580993652344, "y": -13.889538764953613, "z": 33.93357467651367 }, "pca_coordinates": { "x": 1.769249439239502, "y": 1.0169408321380615, "z": -1.2349750995635986 }, "axis_scores": { "Quantum imaging": 0.7166658639907837, "Quantum Life Science Sensing": 0.7209458351135254, "Quantum sensing Detection": 0.6850994825363159, "Quantum sensing Metrology": 0.7051851749420166, "Quantum sensing navigation": 0.7099979519844055, "Quantum sensing Position": 0.6825266480445862, "Quantum sensing Timing": 0.6586525440216064, "Quantum sensing": 0.7001569867134094, "Quantum control": 0.6720420122146606 } }, { "id": 6994, "title": "Heat-conserving three-temperature model for ultrafast demagnetization in nickel", "abstract": "Multireservoir models are widely used for modeling and interpreting ultrafast magnetization dynamics. Here we introduce an alternative formulation to existing three-temperature models for the treatmen...", "citations": 19, "author_count": 9, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7001, "doi": "10.1103/PhysRevB.106.174407", "umap_coordinates": { "x": 393.1128845214844, "y": 137.00973510742188, "z": 208.05728149414062 }, "tsne_coordinates": { "x": 2.053091049194336, "y": -28.182710647583008, "z": 29.642242431640625 }, "pca_coordinates": { "x": 2.928699493408203, "y": 0.49310731887817383, "z": -2.0314338207244873 }, "axis_scores": { "Quantum imaging": 0.6849138140678406, "Quantum Life Science Sensing": 0.6848039627075195, "Quantum sensing Detection": 0.6617109179496765, "Quantum sensing Metrology": 0.6706788539886475, "Quantum sensing navigation": 0.6673393249511719, "Quantum sensing Position": 0.636001706123352, "Quantum sensing Timing": 0.6641705632209778, "Quantum sensing": 0.6773353219032288, "Quantum control": 0.6608611941337585 } }, { "id": 6995, "title": "Thermally driven domain-wall motion in Fe on W(110)", "abstract": "It has recently been shown that domain walls (DWs) in ferromagnets can be moved in the presence of thermal gradients. In this work we study the motion of narrow domain walls in low-dimensional systems...", "citations": 26, "author_count": 8, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7002, "doi": "10.1103/PhysRevB.90.014434", "umap_coordinates": { "x": 393.5793151855469, "y": 136.26174926757812, "z": 209.2671661376953 }, "tsne_coordinates": { "x": 3.069174289703369, "y": -30.596790313720703, "z": 14.721282958984375 }, "pca_coordinates": { "x": 4.256244659423828, "y": -1.213536262512207, "z": -0.9865735173225403 }, "axis_scores": { "Quantum imaging": 0.679716169834137, "Quantum Life Science Sensing": 0.695024311542511, "Quantum sensing Detection": 0.6768507361412048, "Quantum sensing Metrology": 0.6691781282424927, "Quantum sensing navigation": 0.6927648782730103, "Quantum sensing Position": 0.6461329460144043, "Quantum sensing Timing": 0.6604067087173462, "Quantum sensing": 0.6843972206115723, "Quantum control": 0.6762280464172363 } }, { "id": 6996, "title": "Tuning the Curie temperature of FeCo compounds by tetragonal distortion", "abstract": "Combining density-functional theory calculations with a classical Monte Carlo method, we show that for B2-type FeCo compounds, tetragonal distortion gives rise to a strong reduction of the Curie tempe...", "citations": 19, "author_count": 8, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7003, "doi": "10.1063/1.4819773", "umap_coordinates": { "x": 393.0528869628906, "y": 136.0039520263672, "z": 207.7267303466797 }, "tsne_coordinates": { "x": 13.79150676727295, "y": -12.233919143676758, "z": 37.6305046081543 }, "pca_coordinates": { "x": -0.045546531677246094, "y": -0.8300509452819824, "z": -2.9849822521209717 }, "axis_scores": { "Quantum imaging": 0.7166631817817688, "Quantum Life Science Sensing": 0.7369228601455688, "Quantum sensing Detection": 0.7012295722961426, "Quantum sensing Metrology": 0.7152569890022278, "Quantum sensing navigation": 0.696093738079071, "Quantum sensing Position": 0.6775376200675964, "Quantum sensing Timing": 0.694208025932312, "Quantum sensing": 0.7282950282096863, "Quantum control": 0.728669285774231 } }, { "id": 6997, "title": "Overcoming magnetic frustration and promoting half-metallicity in spinel CoCr2O4 by doping with Fe", "abstract": "In this paper, we present a systematic study of the effects of Fe doping on the electronic and magnetic structures of spinel CoCr2O4 by ab initio density functional theory and atomistic spin dynamics ...", "citations": 26, "author_count": 4, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7004, "doi": "10.1103/PhysRevB.92.224417", "umap_coordinates": { "x": 393.0320739746094, "y": 136.58815002441406, "z": 208.68560791015625 }, "tsne_coordinates": { "x": 0.8231056332588196, "y": -41.42265701293945, "z": 18.841175079345703 }, "pca_coordinates": { "x": 2.0561952590942383, "y": -0.09993743896484375, "z": -2.5394937992095947 }, "axis_scores": { "Quantum imaging": 0.6969245672225952, "Quantum Life Science Sensing": 0.6915789842605591, "Quantum sensing Detection": 0.67043536901474, "Quantum sensing Metrology": 0.674354612827301, "Quantum sensing navigation": 0.6848655939102173, "Quantum sensing Position": 0.6463659405708313, "Quantum sensing Timing": 0.6525281071662903, "Quantum sensing": 0.6879181265830994, "Quantum control": 0.6853011250495911 } }, { "id": 6998, "title": "Interatomic Exchange Interactions for Finite-Temperature Magnetism and Nonequilibrium Spin Dynamics", "abstract": "We derive ab inito exchange parameters for general noncollinear magnetic configurations, in terms of a multiple scattering formalism. We show that the general exchange formula has an anisotropiclike t...", "citations": 94, "author_count": 7, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7005, "doi": "10.1103/PhysRevLett.111.127204", "umap_coordinates": { "x": 393.6377868652344, "y": 136.90371704101562, "z": 209.08447265625 }, "tsne_coordinates": { "x": -3.7641115188598633, "y": -36.34372329711914, "z": 19.680606842041016 }, "pca_coordinates": { "x": 5.002965450286865, "y": -1.1178703308105469, "z": -0.921480655670166 }, "axis_scores": { "Quantum imaging": 0.6719300150871277, "Quantum Life Science Sensing": 0.6655558347702026, "Quantum sensing Detection": 0.6488528847694397, "Quantum sensing Metrology": 0.6549392342567444, "Quantum sensing navigation": 0.6707150936126709, "Quantum sensing Position": 0.628980278968811, "Quantum sensing Timing": 0.6778095960617065, "Quantum sensing": 0.6661657691001892, "Quantum control": 0.6497662663459778 } }, { "id": 6999, "title": "Relaxational dynamics study of the classical Heisenberg spin XY model in spherical coordinate representation - art. no. 024406", "abstract": "The two- and three-dimensional classical Heisenberg spin XY (CHSXY) models, with the spherical coordinates of spins taken as dynamic variables, are numerically investigated. We allow the polar theta a...", "citations": 5, "author_count": 5, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7006, "doi": "10.1103/PhysRevB.64.024406", "umap_coordinates": { "x": 393.5002746582031, "y": 137.08172607421875, "z": 207.74111938476562 }, "tsne_coordinates": { "x": -7.264241695404053, "y": -26.46624755859375, "z": 25.13728904724121 }, "pca_coordinates": { "x": 3.7600626945495605, "y": 2.0881235599517822, "z": -3.6346704959869385 }, "axis_scores": { "Quantum imaging": 0.7186136245727539, "Quantum Life Science Sensing": 0.7275215983390808, "Quantum sensing Detection": 0.6890325546264648, "Quantum sensing Metrology": 0.6777733564376831, "Quantum sensing navigation": 0.7286636233329773, "Quantum sensing Position": 0.7055097222328186, "Quantum sensing Timing": 0.6900426149368286, "Quantum sensing": 0.7070005536079407, "Quantum control": 0.7260434627532959 } }, { "id": 7000, "title": "Optical Frequency Up-Conversion of the Ferromagnetic Resonance in an Ultrathin Garnet Mediated by Magnetoelastic Coupling", "abstract": "We perform ultrafast pump-probe measurements on a nanometer-thick crystalline Bi-doped yttrium iron garnet film with perpendicular magnetic anisotropy. Tuning the photon energy of the pump laser pulse...", "citations": 12, "author_count": 5, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7007, "doi": "10.1103/PhysRevLett.127.077203", "umap_coordinates": { "x": 394.1211853027344, "y": 135.64642333984375, "z": 207.94227600097656 }, "tsne_coordinates": { "x": 3.3213980197906494, "y": -33.95764923095703, "z": 27.13630485534668 }, "pca_coordinates": { "x": 3.2686619758605957, "y": -0.6811532974243164, "z": 0.9073569178581238 }, "axis_scores": { "Quantum imaging": 0.7109612822532654, "Quantum Life Science Sensing": 0.7226297855377197, "Quantum sensing Detection": 0.7025330066680908, "Quantum sensing Metrology": 0.7077032327651978, "Quantum sensing navigation": 0.6971555948257446, "Quantum sensing Position": 0.660711944103241, "Quantum sensing Timing": 0.6844335198402405, "Quantum sensing": 0.7169874906539917, "Quantum control": 0.6813930869102478 } }, { "id": 7001, "title": "Search for a spin glass state in PrAU2Si2 by μSR", "abstract": "muSR spectroscopy down to 40 mK was carried out on PrAu2Si2. This compound and heavy fermion URh2Ge2 are the only stoichiometric spin glasses reported among the tetragonal FT,X, (F = rare earth or act...", "citations": 2, "author_count": 8, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7008, "doi": "10.1016/j.ssc.2004.04.045", "umap_coordinates": { "x": 393.6156921386719, "y": 136.45159912109375, "z": 205.46751403808594 }, "tsne_coordinates": { "x": 18.461483001708984, "y": -15.987288475036621, "z": 25.997543334960938 }, "pca_coordinates": { "x": -0.7631149888038635, "y": 1.1233850717544556, "z": -1.3800240755081177 }, "axis_scores": { "Quantum imaging": 0.6743254065513611, "Quantum Life Science Sensing": 0.6993443965911865, "Quantum sensing Detection": 0.687630832195282, "Quantum sensing Metrology": 0.6848495006561279, "Quantum sensing navigation": 0.6949079036712646, "Quantum sensing Position": 0.6879067420959473, "Quantum sensing Timing": 0.6529440879821777, "Quantum sensing": 0.6931346654891968, "Quantum control": 0.6673694252967834 } }, { "id": 7002, "title": "Observation of magnetic droplets in magnetic tunnel junctions", "abstract": "Magnetic droplets, a class of highly nonlinear magnetodynamic solitons, can be nucleated and stabilized in nanocontact spin-torque nano-oscillators. Here we experimentally demonstrate magnetic droplet...", "citations": 16, "author_count": 14, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7009, "doi": "10.1007/s11433-021-1794-4", "umap_coordinates": { "x": 393.3181457519531, "y": 135.75030517578125, "z": 207.12557983398438 }, "tsne_coordinates": { "x": 5.236138820648193, "y": -14.26731014251709, "z": 18.254323959350586 }, "pca_coordinates": { "x": 0.332616925239563, "y": 0.2639188766479492, "z": -1.2346704006195068 }, "axis_scores": { "Quantum imaging": 0.7216967344284058, "Quantum Life Science Sensing": 0.7226650714874268, "Quantum sensing Detection": 0.7118566036224365, "Quantum sensing Metrology": 0.7159891128540039, "Quantum sensing navigation": 0.7116377353668213, "Quantum sensing Position": 0.7113618850708008, "Quantum sensing Timing": 0.6972315907478333, "Quantum sensing": 0.717992901802063, "Quantum control": 0.7121552228927612 } }, { "id": 7003, "title": "Static and dynamic properties of vortex pairs in asymmetric nanomagnets", "abstract": "Stacked spin-vortex pairs in magnetic multilayered nanopillars, with vertical separation between the vortices small compared to the vortex core size and pure magnetostatic coupling, exhibit spin dynam...", "citations": 3, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7010, "doi": "10.1063/1.4944515", "umap_coordinates": { "x": 393.2303161621094, "y": 136.6107940673828, "z": 208.0405731201172 }, "tsne_coordinates": { "x": -6.620964527130127, "y": -17.706634521484375, "z": 21.77440643310547 }, "pca_coordinates": { "x": 2.7727036476135254, "y": -1.227621078491211, "z": -1.198791742324829 }, "axis_scores": { "Quantum imaging": 0.7104742527008057, "Quantum Life Science Sensing": 0.7085984349250793, "Quantum sensing Detection": 0.6933020949363708, "Quantum sensing Metrology": 0.7140051126480103, "Quantum sensing navigation": 0.707343578338623, "Quantum sensing Position": 0.7049890160560608, "Quantum sensing Timing": 0.6837825179100037, "Quantum sensing": 0.7069534063339233, "Quantum control": 0.6835832595825195 } }, { "id": 7004, "title": "How quantum selection rules influence the magneto-optical effects of driven ultrafast magnetization dynamics", "abstract": "Ultrafast magnetization dynamics driven by ultrashort pump lasers is typically explained by changes in the electronic populations and scattering pathways of excited conduction electrons. This conventi...", "citations": 3, "author_count": 5, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7011, "doi": "10.1103/PhysRevB.111.144410", "umap_coordinates": { "x": 393.4229736328125, "y": 136.73196411132812, "z": 208.50872802734375 }, "tsne_coordinates": { "x": 4.672239303588867, "y": -27.816844940185547, "z": 23.88965606689453 }, "pca_coordinates": { "x": 3.8914127349853516, "y": -0.7175230979919434, "z": -1.680118441581726 }, "axis_scores": { "Quantum imaging": 0.7466478943824768, "Quantum Life Science Sensing": 0.7529332637786865, "Quantum sensing Detection": 0.7437214255332947, "Quantum sensing Metrology": 0.7384592890739441, "Quantum sensing navigation": 0.7465837597846985, "Quantum sensing Position": 0.6884412169456482, "Quantum sensing Timing": 0.7059961557388306, "Quantum sensing": 0.7550467252731323, "Quantum control": 0.7624058723449707 } }, { "id": 7005, "title": "Spin-lattice instability in the chromium sulfur spinel Fe0.5Cu0.5Cr2S4", "abstract": "Zero field mu SR spectroscopy was applied to a polycrystalline sample of the ferrimagnetic sulfur spinel Fe(0.5)Cu(0.5)Cr(2)S(4) between 5 and 315 K. The temperature dependence of the interstitial mag...", "citations": 8, "author_count": 9, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7012, "doi": "10.1088/0953-8984/20/25/252204", "umap_coordinates": { "x": 392.5950927734375, "y": 136.47650146484375, "z": 207.4460906982422 }, "tsne_coordinates": { "x": 14.61898422241211, "y": -18.178491592407227, "z": 24.153432846069336 }, "pca_coordinates": { "x": 0.0896155834197998, "y": -0.04952859878540039, "z": -3.4647891521453857 }, "axis_scores": { "Quantum imaging": 0.653120219707489, "Quantum Life Science Sensing": 0.7033454179763794, "Quantum sensing Detection": 0.661952555179596, "Quantum sensing Metrology": 0.6438454985618591, "Quantum sensing navigation": 0.6682855486869812, "Quantum sensing Position": 0.6533788442611694, "Quantum sensing Timing": 0.6445028185844421, "Quantum sensing": 0.6666032075881958, "Quantum control": 0.6612732410430908 } }, { "id": 7006, "title": "Signature of superconductivity in UBe13 as seen by neutron scattering: Superconducting and magnetic energy scales", "abstract": "We here present inelastic neutron scattering results on the strongly correlated cubic superconductor UBe13 (T-c = 0.85 K) obtained on a large single crystal by high-resolution cold neutron three-axis ...", "citations": 8, "author_count": 5, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7013, "doi": "10.1103/PhysRevB.89.235118", "umap_coordinates": { "x": 394.0132751464844, "y": 136.17271423339844, "z": 209.34837341308594 }, "tsne_coordinates": { "x": -3.8824453353881836, "y": -27.07967758178711, "z": 15.089839935302734 }, "pca_coordinates": { "x": 3.8263864517211914, "y": -1.4192144870758057, "z": -0.8731753826141357 }, "axis_scores": { "Quantum imaging": 0.6901246309280396, "Quantum Life Science Sensing": 0.7228734493255615, "Quantum sensing Detection": 0.708087146282196, "Quantum sensing Metrology": 0.6940736770629883, "Quantum sensing navigation": 0.7097522020339966, "Quantum sensing Position": 0.6912270188331604, "Quantum sensing Timing": 0.680782675743103, "Quantum sensing": 0.711107611656189, "Quantum control": 0.6677963733673096 } }, { "id": 7007, "title": "Calculation of Chern number spin Hamiltonians for magnetic nano-clusters by DFT methods", "abstract": "By combining field-theoretical methods and ab initio calculations, we construct an effective Hamiltonian with a single giant-spin degree of freedom, which is capable of describing the low-energy spin ...", "citations": 24, "author_count": 4, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7014, "doi": "10.1103/PhysRevB.77.174416", "umap_coordinates": { "x": 393.5450134277344, "y": 136.7732696533203, "z": 208.75653076171875 }, "tsne_coordinates": { "x": 8.092317581176758, "y": -30.99583625793457, "z": 13.778379440307617 }, "pca_coordinates": { "x": 3.615182399749756, "y": -0.3983471393585205, "z": -2.342392683029175 }, "axis_scores": { "Quantum imaging": 0.709152340888977, "Quantum Life Science Sensing": 0.7309274673461914, "Quantum sensing Detection": 0.7066542506217957, "Quantum sensing Metrology": 0.7001332640647888, "Quantum sensing navigation": 0.7159453630447388, "Quantum sensing Position": 0.6927403211593628, "Quantum sensing Timing": 0.675083577632904, "Quantum sensing": 0.7183687686920166, "Quantum control": 0.6994239091873169 } }, { "id": 7008, "title": "μSR magnetic response of CeCuSn", "abstract": "mu SR studies in zero, longitudinal and transverse fields were carried out in the temperature range between 2 and 150 K on a polycrystalline powder sample. The data confirm the presence of two magneti...", "citations": 9, "author_count": 7, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7015, "doi": "10.1016/S0921-4526(00)00386-0", "umap_coordinates": { "x": 392.4560546875, "y": 136.55499267578125, "z": 207.0765380859375 }, "tsne_coordinates": { "x": 14.879779815673828, "y": -14.651700973510742, "z": 24.998977661132812 }, "pca_coordinates": { "x": -1.4244531393051147, "y": 2.3000259399414062, "z": -1.8815085887908936 }, "axis_scores": { "Quantum imaging": 0.6939547061920166, "Quantum Life Science Sensing": 0.7462864518165588, "Quantum sensing Detection": 0.7082724571228027, "Quantum sensing Metrology": 0.7172584533691406, "Quantum sensing navigation": 0.7193383574485779, "Quantum sensing Position": 0.7040630578994751, "Quantum sensing Timing": 0.668032169342041, "Quantum sensing": 0.7137678265571594, "Quantum control": 0.6769787073135376 } }, { "id": 7009, "title": "State-resolved ultrafast charge and spin dynamics in [Co/Pd] multilayers", "abstract": "We use transient absorption spectroscopy with circularly polarized x rays to detect laser-excited hole states below the Fermi level and compare their dynamics with that of unoccupied states above the ...", "citations": 10, "author_count": 21, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7016, "doi": "10.1063/5.0076953", "umap_coordinates": { "x": 392.5923767089844, "y": 136.37571716308594, "z": 207.3453369140625 }, "tsne_coordinates": { "x": 15.952180862426758, "y": -1.0086361169815063, "z": 19.874679565429688 }, "pca_coordinates": { "x": 1.6874744892120361, "y": -2.219176769256592, "z": -1.914231538772583 }, "axis_scores": { "Quantum imaging": 0.7432824373245239, "Quantum Life Science Sensing": 0.7507977485656738, "Quantum sensing Detection": 0.7245505452156067, "Quantum sensing Metrology": 0.7060269713401794, "Quantum sensing navigation": 0.7132845520973206, "Quantum sensing Position": 0.7118565440177917, "Quantum sensing Timing": 0.6849929094314575, "Quantum sensing": 0.734257698059082, "Quantum control": 0.7128649950027466 } }, { "id": 7010, "title": "Electronic spectral function in the fractionalized pair density wave scenario", "abstract": "Studies of the electronic spectral function in cuprates by angle-resolved photoemission spectroscopy (ARPES) reveal unusual features in the pseudogap phase that persist in the superconducting phase. H...", "citations": 6, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7017, "doi": "10.1103/PhysRevB.102.121104", "umap_coordinates": { "x": 394.3345642089844, "y": 137.1958465576172, "z": 207.93179321289062 }, "tsne_coordinates": { "x": -21.5897274017334, "y": -33.19609069824219, "z": -4.68921422958374 }, "pca_coordinates": { "x": 3.424509048461914, "y": -0.7246925830841064, "z": -1.6340093612670898 }, "axis_scores": { "Quantum imaging": 0.6805076003074646, "Quantum Life Science Sensing": 0.6960229277610779, "Quantum sensing Detection": 0.6719698905944824, "Quantum sensing Metrology": 0.6617932319641113, "Quantum sensing navigation": 0.6624276638031006, "Quantum sensing Position": 0.6541465520858765, "Quantum sensing Timing": 0.6527788043022156, "Quantum sensing": 0.6832990050315857, "Quantum control": 0.6611593961715698 } }, { "id": 7011, "title": "Calculated magnetic properties of binary alloys between Fe, Co, Ni, and Cu", "abstract": "We present a detailed theoretical investigation of the magnetic properties of all the binary alloys between the 3d elements Fe, Co, Ni, and Cu, in the fee, bcc, and hcp structures using the coherent-p...", "citations": 149, "author_count": 5, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7018, "doi": "10.1103/PhysRevB.59.419", "umap_coordinates": { "x": 393.5292053222656, "y": 136.0509033203125, "z": 209.17137145996094 }, "tsne_coordinates": { "x": 3.545901298522949, "y": -38.210025787353516, "z": 17.9759464263916 }, "pca_coordinates": { "x": 3.6755924224853516, "y": -1.1394140720367432, "z": -1.9468083381652832 }, "axis_scores": { "Quantum imaging": 0.6890028119087219, "Quantum Life Science Sensing": 0.7014017105102539, "Quantum sensing Detection": 0.6848499178886414, "Quantum sensing Metrology": 0.6896132230758667, "Quantum sensing navigation": 0.6889151930809021, "Quantum sensing Position": 0.6754579544067383, "Quantum sensing Timing": 0.657202959060669, "Quantum sensing": 0.6995731592178345, "Quantum control": 0.6759851574897766 } }, { "id": 7012, "title": "Anatomy of spin-orbit-torque-assisted magnetization dynamics in Co/Pt bilayers: Importance of the orbital torque", "abstract": "Understanding the mechanism driving magnetization switching in spin-orbit-torque-assisted devices remains a subject of debate. While originally attributed to the spin Hall effect and spin Rashba-Edels...", "citations": 2, "author_count": 8, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7019, "doi": "10.1103/5k5n-4hr7", "umap_coordinates": { "x": 392.8684997558594, "y": 136.64222717285156, "z": 208.43014526367188 }, "tsne_coordinates": { "x": 8.377872467041016, "y": -14.696106910705566, "z": 16.337732315063477 }, "pca_coordinates": { "x": 1.0262129306793213, "y": 0.5326519012451172, "z": -2.214681386947632 }, "axis_scores": { "Quantum imaging": 0.6959543228149414, "Quantum Life Science Sensing": 0.6670473217964172, "Quantum sensing Detection": 0.6456242203712463, "Quantum sensing Metrology": 0.6645379066467285, "Quantum sensing navigation": 0.6707797050476074, "Quantum sensing Position": 0.6574182510375977, "Quantum sensing Timing": 0.6624162793159485, "Quantum sensing": 0.670949399471283, "Quantum control": 0.673951268196106 } }, { "id": 7013, "title": "Exchange scaling of ultrafast angular momentum transfer in 4f antiferromagnets", "abstract": "Ultrafast manipulation of magnetism bears great potential for future information technologies. While demagnetization in ferromagnets is governed by the dissipation of angular momentum(1-3), materials ...", "citations": 25, "author_count": 15, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7020, "doi": "10.1038/s41563-022-01206-4", "umap_coordinates": { "x": 393.42193603515625, "y": 136.1137237548828, "z": 207.21766662597656 }, "tsne_coordinates": { "x": 9.236827850341797, "y": -13.84151840209961, "z": 19.818424224853516 }, "pca_coordinates": { "x": 1.3752601146697998, "y": -0.6492345333099365, "z": -1.0004873275756836 }, "axis_scores": { "Quantum imaging": 0.7100176215171814, "Quantum Life Science Sensing": 0.6911550164222717, "Quantum sensing Detection": 0.6673241257667542, "Quantum sensing Metrology": 0.6880872249603271, "Quantum sensing navigation": 0.7000947594642639, "Quantum sensing Position": 0.692989706993103, "Quantum sensing Timing": 0.686135470867157, "Quantum sensing": 0.6941502094268799, "Quantum control": 0.6832687854766846 } }, { "id": 7014, "title": "Magnetic moment of inertia within the torque-torque correlation model", "abstract": "An essential property of magnetic devices is the relaxation rate in magnetic switching which strongly depends on the energy dissipation. This is described by the Landau-Lifshitz-Gilbert equation and t...", "citations": 55, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7021, "doi": "10.1038/s41598-017-01081-z", "umap_coordinates": { "x": 393.2845153808594, "y": 137.30389404296875, "z": 207.78582763671875 }, "tsne_coordinates": { "x": -4.7631120681762695, "y": -24.010099411010742, "z": 27.952102661132812 }, "pca_coordinates": { "x": -0.2003495693206787, "y": 3.303133726119995, "z": -0.7843884825706482 }, "axis_scores": { "Quantum imaging": 0.6690295934677124, "Quantum Life Science Sensing": 0.6488228440284729, "Quantum sensing Detection": 0.6370705366134644, "Quantum sensing Metrology": 0.6595891118049622, "Quantum sensing navigation": 0.6659833192825317, "Quantum sensing Position": 0.659416139125824, "Quantum sensing Timing": 0.6669576168060303, "Quantum sensing": 0.6528732776641846, "Quantum control": 0.6408749222755432 } }, { "id": 7015, "title": "Dimensionality crossover and frustrated spin dynamics on a triangular lattice", "abstract": "Investigations of the magnetic behavior of the layered oxide, LiNi0.65Co0.25Mn0.10O2, through ac and time-dependent susceptibility, dc linear and nonlinear susceptibility as well as neutron-diffractio...", "citations": 6, "author_count": 7, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7022, "doi": "10.1103/PhysRevB.81.224411", "umap_coordinates": { "x": 393.7286376953125, "y": 136.58154296875, "z": 208.6590576171875 }, "tsne_coordinates": { "x": -5.836954116821289, "y": -31.653287887573242, "z": 16.907817840576172 }, "pca_coordinates": { "x": 4.7163405418396, "y": -0.824427604675293, "z": -3.1423392295837402 }, "axis_scores": { "Quantum imaging": 0.7258844375610352, "Quantum Life Science Sensing": 0.7304621338844299, "Quantum sensing Detection": 0.7176978588104248, "Quantum sensing Metrology": 0.686572790145874, "Quantum sensing navigation": 0.72432941198349, "Quantum sensing Position": 0.6904012560844421, "Quantum sensing Timing": 0.6776800751686096, "Quantum sensing": 0.7243755459785461, "Quantum control": 0.7196525931358337 } }, { "id": 7016, "title": "MORE ON EQUATIONS OF MOTION FOR INTERACTING MASSLESS FIELDS OF ALL SPINS IN 3 + 1 DIMENSIONS", "abstract": "We establish the simple link between the recently proposed equations of motion for interacting massless fields of all spins 0 less-than-or-equal-to s < infinity in 3 + 1 dimensions and conventional fo...", "citations": 370, "author_count": 2, "categories": [ "Astronomy & Astrophysics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7023, "doi": "10.1016/0370-2693(92)91457-K", "umap_coordinates": { "x": 393.6737060546875, "y": 137.49465942382812, "z": 207.801513671875 }, "tsne_coordinates": { "x": -27.91286277770996, "y": -17.433629989624023, "z": 22.81171989440918 }, "pca_coordinates": { "x": 2.4851508140563965, "y": 2.6954519748687744, "z": -2.5897741317749023 }, "axis_scores": { "Quantum imaging": 0.6417056918144226, "Quantum Life Science Sensing": 0.6380841135978699, "Quantum sensing Detection": 0.6109560132026672, "Quantum sensing Metrology": 0.6336861848831177, "Quantum sensing navigation": 0.6453034281730652, "Quantum sensing Position": 0.6237149834632874, "Quantum sensing Timing": 0.6130352020263672, "Quantum sensing": 0.6323080062866211, "Quantum control": 0.6265960931777954 } }, { "id": 7017, "title": "First-principles based thermodynamic model of phase equilibria in bcc Fe-Cr alloys", "abstract": "A first-principles based thermodynamic model for magnetic alloys is applied to the calculation of the Fe-Cr phase diagram restricted by the bcc structure. The model includes magnetic, electronic, phon...", "citations": 53, "author_count": 3, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7024, "doi": "10.1103/PhysRevB.86.174111", "umap_coordinates": { "x": 393.169921875, "y": 136.8179168701172, "z": 208.93455505371094 }, "tsne_coordinates": { "x": -4.100511074066162, "y": -34.54362106323242, "z": 27.829191207885742 }, "pca_coordinates": { "x": 2.8508739471435547, "y": 0.14098572731018066, "z": -3.064185857772827 }, "axis_scores": { "Quantum imaging": 0.6589522361755371, "Quantum Life Science Sensing": 0.6993796825408936, "Quantum sensing Detection": 0.6836059093475342, "Quantum sensing Metrology": 0.6723183393478394, "Quantum sensing navigation": 0.6854501962661743, "Quantum sensing Position": 0.6761452555656433, "Quantum sensing Timing": 0.65790194272995, "Quantum sensing": 0.688469409942627, "Quantum control": 0.6695995330810547 } }, { "id": 7018, "title": "Direct Observation of a Nuclear Spin Excitation in Ho2Ti2O7", "abstract": "A single nondispersive excitation is observed by means of neutron backscattering, at E-0=26.3 mu eV in the spin ice Ho2Ti2O7 but not in the isotopically enriched (Dy2Ti2O7)-Dy-162 analogue. The intens...", "citations": 25, "author_count": 6, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7025, "doi": "10.1103/PhysRevLett.102.016405", "umap_coordinates": { "x": 394.1280822753906, "y": 136.05894470214844, "z": 207.56802368164062 }, "tsne_coordinates": { "x": 7.975046634674072, "y": -17.011199951171875, "z": -1.3990179300308228 }, "pca_coordinates": { "x": 2.6576735973358154, "y": 0.3038661479949951, "z": 0.1922582983970642 }, "axis_scores": { "Quantum imaging": 0.727219820022583, "Quantum Life Science Sensing": 0.7403054237365723, "Quantum sensing Detection": 0.735338568687439, "Quantum sensing Metrology": 0.6964844465255737, "Quantum sensing navigation": 0.7052773237228394, "Quantum sensing Position": 0.6953016519546509, "Quantum sensing Timing": 0.7100024223327637, "Quantum sensing": 0.7348514795303345, "Quantum control": 0.6902041435241699 } }, { "id": 7019, "title": "Asymmetries of spin-flip electronic Raman scattering in a III-V semiconductor quantum well", "abstract": "We have calculated the angular and the polarization dependence of spin-flip electronic Raman scattering from a III-V semiconductor quantum well with its conduction band spin split due to broken invers...", "citations": 8, "author_count": 4, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7026, "doi": "10.1103/PhysRevB.55.R1918", "umap_coordinates": { "x": 393.9131774902344, "y": 135.21070861816406, "z": 209.15870666503906 }, "tsne_coordinates": { "x": 2.0099754333496094, "y": -25.47454833984375, "z": -2.649277448654175 }, "pca_coordinates": { "x": 4.123449802398682, "y": -2.1078147888183594, "z": -0.24875962734222412 }, "axis_scores": { "Quantum imaging": 0.7340928316116333, "Quantum Life Science Sensing": 0.7223411798477173, "Quantum sensing Detection": 0.7181875705718994, "Quantum sensing Metrology": 0.7146530747413635, "Quantum sensing navigation": 0.7428843379020691, "Quantum sensing Position": 0.7053705453872681, "Quantum sensing Timing": 0.6835213303565979, "Quantum sensing": 0.7399211525917053, "Quantum control": 0.703591525554657 } }, { "id": 7020, "title": "Influence of antiphase boundary of the MnAl τ-phase on the energy product", "abstract": "In this paper, we use a multiscale approach to describe a realistic model of a permanent magnet based on MnAl tau-phase and elucidate how the antiphase boundary defects present in this material affect...", "citations": 6, "author_count": 10, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7027, "doi": "10.1103/PhysRevMaterials.3.064412", "umap_coordinates": { "x": 393.45623779296875, "y": 136.6223907470703, "z": 208.40736389160156 }, "tsne_coordinates": { "x": 7.270544052124023, "y": -32.101173400878906, "z": 19.11305046081543 }, "pca_coordinates": { "x": 1.9023973941802979, "y": 0.7912579774856567, "z": -2.0482749938964844 }, "axis_scores": { "Quantum imaging": 0.7028770446777344, "Quantum Life Science Sensing": 0.714637041091919, "Quantum sensing Detection": 0.690386176109314, "Quantum sensing Metrology": 0.6982752084732056, "Quantum sensing navigation": 0.7086806893348694, "Quantum sensing Position": 0.705858588218689, "Quantum sensing Timing": 0.690686821937561, "Quantum sensing": 0.7049302458763123, "Quantum control": 0.6709086298942566 } }, { "id": 7021, "title": "Titanium incorporation into hematite photoelectrodes: theoretical considerations and experimental observations", "abstract": "A theoretical and experimental perspective on the role of titanium impurities in hematite (alpha-Fe2O3) nanostructured photoelectrodes for solar fuel synthesis devices is provided. Titanium incorporat...", "citations": 135, "author_count": 18, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7028, "doi": "10.1039/c4ee01066c", "umap_coordinates": { "x": 391.8457946777344, "y": 135.34840393066406, "z": 205.430908203125 }, "tsne_coordinates": { "x": 9.996896743774414, "y": -1.8591903448104858, "z": -0.8667601346969604 }, "pca_coordinates": { "x": -2.6554524898529053, "y": -0.7967231273651123, "z": -2.748109817504883 }, "axis_scores": { "Quantum imaging": 0.6681733131408691, "Quantum Life Science Sensing": 0.6943649649620056, "Quantum sensing Detection": 0.6602318286895752, "Quantum sensing Metrology": 0.6513808965682983, "Quantum sensing navigation": 0.660519540309906, "Quantum sensing Position": 0.6532430648803711, "Quantum sensing Timing": 0.6604763865470886, "Quantum sensing": 0.6685172319412231, "Quantum control": 0.644800066947937 } }, { "id": 7022, "title": "Ultrafast opto-magnetic effects in the extreme ultraviolet spectral range", "abstract": "Coherent light-matter interactions mediated by opto-magnetic phenomena like the inverse Faraday effect (IFE) are expected to provide a non-thermal pathway for ultrafast manipulation of magnetism on ti...", "citations": 6, "author_count": 24, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7029, "doi": "10.1038/s42005-024-01686-7", "umap_coordinates": { "x": 393.92181396484375, "y": 135.24905395507812, "z": 206.30372619628906 }, "tsne_coordinates": { "x": -10.720582008361816, "y": 0.15767651796340942, "z": -3.1884243488311768 }, "pca_coordinates": { "x": -1.4874013662338257, "y": -1.0394787788391113, "z": -1.0003234148025513 }, "axis_scores": { "Quantum imaging": 0.7209576964378357, "Quantum Life Science Sensing": 0.7323869466781616, "Quantum sensing Detection": 0.6930610537528992, "Quantum sensing Metrology": 0.7018086314201355, "Quantum sensing navigation": 0.6902304291725159, "Quantum sensing Position": 0.6756961345672607, "Quantum sensing Timing": 0.6608532667160034, "Quantum sensing": 0.7107018232345581, "Quantum control": 0.6733301281929016 } }, { "id": 7023, "title": "Spin transport across antiferromagnets induced by the spin Seebeck effect", "abstract": "For prospective spintronics devices based on the propagation of pure spin currents, antiferromagnets are an interesting class of materials that potentially entail a number of advantages as compared to...", "citations": 38, "author_count": 9, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7030, "doi": "10.1088/1361-6463/aab223", "umap_coordinates": { "x": 393.7609558105469, "y": 135.61187744140625, "z": 207.42515563964844 }, "tsne_coordinates": { "x": 1.9565783739089966, "y": -17.25359344482422, "z": 32.711612701416016 }, "pca_coordinates": { "x": 1.2781918048858643, "y": -0.3181300163269043, "z": -0.09701067209243774 }, "axis_scores": { "Quantum imaging": 0.6956247091293335, "Quantum Life Science Sensing": 0.6814897060394287, "Quantum sensing Detection": 0.6622908115386963, "Quantum sensing Metrology": 0.6734497547149658, "Quantum sensing navigation": 0.703211784362793, "Quantum sensing Position": 0.6634698510169983, "Quantum sensing Timing": 0.6618462800979614, "Quantum sensing": 0.6882479190826416, "Quantum control": 0.6737053990364075 } }, { "id": 7024, "title": "Algebraic quantum gravity (AQG): IV. Reduced phase space quantization of loop quantum gravity", "abstract": "We perform a canonical, reduced phase space quantization of general relativity by loop quantum gravity (LQG) methods. The explicit construction of the reduced phase space is made possible by the combi...", "citations": 115, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7031, "doi": "10.1088/0264-9381/27/17/175009", "umap_coordinates": { "x": 395.19195556640625, "y": 137.52342224121094, "z": 207.3778839111328 }, "tsne_coordinates": { "x": -37.659690856933594, "y": -7.389193058013916, "z": 4.791934967041016 }, "pca_coordinates": { "x": 3.3338136672973633, "y": 3.8494491577148438, "z": -1.8311002254486084 }, "axis_scores": { "Quantum imaging": 0.7050832509994507, "Quantum Life Science Sensing": 0.6967442631721497, "Quantum sensing Detection": 0.6860466599464417, "Quantum sensing Metrology": 0.6813771724700928, "Quantum sensing navigation": 0.725540816783905, "Quantum sensing Position": 0.6729342937469482, "Quantum sensing Timing": 0.6694700121879578, "Quantum sensing": 0.7023539543151855, "Quantum control": 0.7421156764030457 } }, { "id": 7025, "title": "Ultrafast demagnetization in Ni: theory of magneto-optics for non-equilibrium electron distributions", "abstract": "The sensitivity of the magneto-optical Kerr response to electronic thermalization processes in ultrafast pump-probe experiments is studied by OF evaluating the complex conductivity tensor of Ni for no...", "citations": 82, "author_count": 3, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7032, "doi": "10.1088/0953-8984/16/30/013", "umap_coordinates": { "x": 393.2140197753906, "y": 136.3068389892578, "z": 208.1762237548828 }, "tsne_coordinates": { "x": 3.7439870834350586, "y": -28.61237144470215, "z": 29.812284469604492 }, "pca_coordinates": { "x": 1.3631856441497803, "y": 1.2899062633514404, "z": -0.4130147099494934 }, "axis_scores": { "Quantum imaging": 0.7267581224441528, "Quantum Life Science Sensing": 0.7143428325653076, "Quantum sensing Detection": 0.6901538372039795, "Quantum sensing Metrology": 0.7012999653816223, "Quantum sensing navigation": 0.6968403458595276, "Quantum sensing Position": 0.6710845828056335, "Quantum sensing Timing": 0.6549434065818787, "Quantum sensing": 0.6955868005752563, "Quantum control": 0.6541304588317871 } }, { "id": 7026, "title": "Spin dynamics in CeNiSn and Ce0.85La0.15NiSn at very low temperatures", "abstract": "We performed muon spin rotation/relaxation (mu SR) studies on polycrystalline and single crystalline samples of CeNiSn. The system appears to be a dense system of weak magnetic moments with no evidenc...", "citations": 24, "author_count": 9, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7033, "doi": "10.1016/0921-4526(94)00591-I", "umap_coordinates": { "x": 393.0187072753906, "y": 136.9833984375, "z": 207.50802612304688 }, "tsne_coordinates": { "x": 6.977814197540283, "y": -15.521217346191406, "z": 24.93535614013672 }, "pca_coordinates": { "x": 0.6660799980163574, "y": 0.4435241222381592, "z": -2.699742078781128 }, "axis_scores": { "Quantum imaging": 0.6917137503623962, "Quantum Life Science Sensing": 0.7051433324813843, "Quantum sensing Detection": 0.6626090407371521, "Quantum sensing Metrology": 0.6530698537826538, "Quantum sensing navigation": 0.6840512752532959, "Quantum sensing Position": 0.6621034145355225, "Quantum sensing Timing": 0.6584309935569763, "Quantum sensing": 0.6726925373077393, "Quantum control": 0.6759701371192932 } }, { "id": 7027, "title": "Influence of intersublattice coupling on the terahertz nutation spin dynamics in antiferromagnets", "abstract": "Spin-nutation resonance has been well explored in one-sublattice ferromagnets. Here, we investigate the spin nutation in two-sublattice antiferromagnets as well as, for comparison, ferrimagnets with i...", "citations": 16, "author_count": 3, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7034, "doi": "10.1103/PhysRevB.104.104405", "umap_coordinates": { "x": 393.4364013671875, "y": 135.9530029296875, "z": 208.88333129882812 }, "tsne_coordinates": { "x": 11.16276741027832, "y": -28.22784423828125, "z": 15.137836456298828 }, "pca_coordinates": { "x": 4.36798620223999, "y": -1.706286907196045, "z": -1.186316728591919 }, "axis_scores": { "Quantum imaging": 0.7032058835029602, "Quantum Life Science Sensing": 0.7028332352638245, "Quantum sensing Detection": 0.6883679032325745, "Quantum sensing Metrology": 0.6860260367393494, "Quantum sensing navigation": 0.7054287791252136, "Quantum sensing Position": 0.6950377821922302, "Quantum sensing Timing": 0.7113978862762451, "Quantum sensing": 0.6981726884841919, "Quantum control": 0.6927483081817627 } }, { "id": 7028, "title": "Metaheuristic conditional neural network for harvesting skyrmionic metastable states", "abstract": "We present a metaheuristic conditional neural-network-based method aimed at identifying physically interest-ing metastable states in a potential energy surface of high rugosity. To demonstrate how thi...", "citations": 3, "author_count": 12, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7035, "doi": "10.1103/PhysRevResearch.5.043199", "umap_coordinates": { "x": 394.6264953613281, "y": 136.92303466796875, "z": 207.80203247070312 }, "tsne_coordinates": { "x": -25.78142738342285, "y": -24.133787155151367, "z": -9.297505378723145 }, "pca_coordinates": { "x": 1.5146727561950684, "y": 0.31064343452453613, "z": -0.8418163061141968 }, "axis_scores": { "Quantum imaging": 0.6754715442657471, "Quantum Life Science Sensing": 0.7197406888008118, "Quantum sensing Detection": 0.6865946054458618, "Quantum sensing Metrology": 0.678430438041687, "Quantum sensing navigation": 0.7107024192810059, "Quantum sensing Position": 0.6708964705467224, "Quantum sensing Timing": 0.6651577353477478, "Quantum sensing": 0.6978331804275513, "Quantum control": 0.669542670249939 } }, { "id": 7029, "title": "Absence of exponential sensitivity to small perturbations in nonintegrable systems of spins 1/2", "abstract": "We show that macroscopic nonintegrable lattices of spins 1/2, which are often considered to be chaotic, do not exhibit the basic property of classical chaotic systems, namely, exponential sensitivity ...", "citations": 51, "author_count": 5, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7036, "doi": "10.1103/PhysRevE.89.012923", "umap_coordinates": { "x": 394.2379455566406, "y": 136.810546875, "z": 208.4969024658203 }, "tsne_coordinates": { "x": -6.543027877807617, "y": -39.87581253051758, "z": 10.014338493347168 }, "pca_coordinates": { "x": 3.3259177207946777, "y": 0.37485837936401367, "z": -1.8970668315887451 }, "axis_scores": { "Quantum imaging": 0.7005724906921387, "Quantum Life Science Sensing": 0.7314274311065674, "Quantum sensing Detection": 0.7103732228279114, "Quantum sensing Metrology": 0.689218282699585, "Quantum sensing navigation": 0.6939877867698669, "Quantum sensing Position": 0.668279230594635, "Quantum sensing Timing": 0.6627079248428345, "Quantum sensing": 0.7137506604194641, "Quantum control": 0.690242350101471 } }, { "id": 7030, "title": "NMR and susceptibility characterization of two oxocuprates with antiferromagnetic Cu-chains:: LiCuO2 and LiCu2O2", "abstract": "The CuO2 compounds LiCuO2 and LiCu2O2 both contain CuO4 squares knit together in linear chains. These chains are all equivalent in LiCuO2 and grouped in pairs in LiCu2O2 From susceptibility measuremen...", "citations": 20, "author_count": 4, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7037, "doi": "10.1016/S0038-1098(98)00295-6", "umap_coordinates": { "x": 392.2576599121094, "y": 136.1634521484375, "z": 207.48390197753906 }, "tsne_coordinates": { "x": 13.493102073669434, "y": -20.24441146850586, "z": 29.543447494506836 }, "pca_coordinates": { "x": -1.2841848134994507, "y": 0.7594873905181885, "z": -2.2322142124176025 }, "axis_scores": { "Quantum imaging": 0.7042335867881775, "Quantum Life Science Sensing": 0.6989952325820923, "Quantum sensing Detection": 0.6768217086791992, "Quantum sensing Metrology": 0.6740211844444275, "Quantum sensing navigation": 0.6822761297225952, "Quantum sensing Position": 0.6560748815536499, "Quantum sensing Timing": 0.669467568397522, "Quantum sensing": 0.6873908042907715, "Quantum control": 0.6949734091758728 } }, { "id": 7031, "title": "Transition-metal dimers and physical limits on magnetic anisotropy", "abstract": "Recent advances in nanoscience have raised interest in the minimum bit size required for classical information storage. This bit size is determined by the necessity for bistability with suppressed qua...", "citations": 80, "author_count": 4, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7038, "doi": "10.1038/nmat1968", "umap_coordinates": { "x": 392.6861877441406, "y": 136.3341064453125, "z": 208.364501953125 }, "tsne_coordinates": { "x": 5.747278213500977, "y": -36.487022399902344, "z": 18.72100830078125 }, "pca_coordinates": { "x": 0.44103801250457764, "y": 0.017355680465698242, "z": -3.0109853744506836 }, "axis_scores": { "Quantum imaging": 0.6868287920951843, "Quantum Life Science Sensing": 0.6780111193656921, "Quantum sensing Detection": 0.6739356517791748, "Quantum sensing Metrology": 0.6808032989501953, "Quantum sensing navigation": 0.6674226522445679, "Quantum sensing Position": 0.6640732288360596, "Quantum sensing Timing": 0.6508800387382507, "Quantum sensing": 0.6855860948562622, "Quantum control": 0.6640055775642395 } }, { "id": 7032, "title": "On the realization of artificial XY spin chains", "abstract": "Spin chains are the most elementary entities in the study of magnetic ordering behaviour. In this letter, we describe a route toward the realization of artificial XY spin chains. Using thin-film depos...", "citations": 16, "author_count": 13, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7039, "doi": "10.1088/0953-8984/17/2/L04", "umap_coordinates": { "x": 394.41693115234375, "y": 137.03509521484375, "z": 207.0909423828125 }, "tsne_coordinates": { "x": -25.046123504638672, "y": -1.4364192485809326, "z": 28.92983627319336 }, "pca_coordinates": { "x": 1.5692341327667236, "y": 2.636734962463379, "z": -0.3728514015674591 }, "axis_scores": { "Quantum imaging": 0.7210242748260498, "Quantum Life Science Sensing": 0.7291598320007324, "Quantum sensing Detection": 0.6996312141418457, "Quantum sensing Metrology": 0.6911691427230835, "Quantum sensing navigation": 0.7265340089797974, "Quantum sensing Position": 0.6914744973182678, "Quantum sensing Timing": 0.6909024119377136, "Quantum sensing": 0.7171156406402588, "Quantum control": 0.7120153307914734 } }, { "id": 7033, "title": "Geometry mediated spin relaxation in ZnFe2O4 spinel ferrite nanostructures", "abstract": "Spin-glass and superparamagnetic behavior of different spinel ferrites is well-studied by the researchers in basic as well as applied science domains. However, this study investigates how geometry var...", "citations": 2, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7040, "doi": "10.1063/5.0241959", "umap_coordinates": { "x": 392.38409423828125, "y": 135.9281463623047, "z": 207.5690460205078 }, "tsne_coordinates": { "x": 15.1869478225708, "y": -13.389519691467285, "z": 17.984880447387695 }, "pca_coordinates": { "x": 0.6060404777526855, "y": -1.3257982730865479, "z": -2.1176443099975586 }, "axis_scores": { "Quantum imaging": 0.7358846068382263, "Quantum Life Science Sensing": 0.7421535849571228, "Quantum sensing Detection": 0.7105178833007812, "Quantum sensing Metrology": 0.7119467258453369, "Quantum sensing navigation": 0.745404839515686, "Quantum sensing Position": 0.7124590277671814, "Quantum sensing Timing": 0.7025244832038879, "Quantum sensing": 0.7282041311264038, "Quantum control": 0.7219641208648682 } }, { "id": 7034, "title": "Magnetism and ultrafast magnetization dynamics of Co and CoMn alloys at finite temperature", "abstract": "Temperature-dependent magnetic experiments such as pump-probe measurements generated by a pulsed laser have become a crucial technique for switching the magnetization in the picosecond time scale. Apa...", "citations": 17, "author_count": 13, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7041, "doi": "10.1103/PhysRevB.95.214417", "umap_coordinates": { "x": 393.44793701171875, "y": 136.51780700683594, "z": 208.82594299316406 }, "tsne_coordinates": { "x": -0.648545503616333, "y": -25.448163986206055, "z": 25.18777847290039 }, "pca_coordinates": { "x": 4.178199291229248, "y": -0.40306568145751953, "z": -1.8053128719329834 }, "axis_scores": { "Quantum imaging": 0.6921916007995605, "Quantum Life Science Sensing": 0.712098240852356, "Quantum sensing Detection": 0.6971795558929443, "Quantum sensing Metrology": 0.6976884603500366, "Quantum sensing navigation": 0.6925879716873169, "Quantum sensing Position": 0.6750528216362, "Quantum sensing Timing": 0.6805093884468079, "Quantum sensing": 0.6979076862335205, "Quantum control": 0.6823869347572327 } }, { "id": 7035, "title": "Magnetic properties of the multiferroic chromium thio-spinels CdCr2S4 and HgCr2S4", "abstract": "Powder samples of CdCr2S4 and HgCr2S4 were investigated with respect to their magnetic behavior using muon spin rotation/relaxation spectroscopy (mu SR). In CdCr2S4, a second order magnetic transition...", "citations": 14, "author_count": 8, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7042, "doi": "10.1140/epjb/e2013-31094-4", "umap_coordinates": { "x": 392.48321533203125, "y": 136.23696899414062, "z": 207.27769470214844 }, "tsne_coordinates": { "x": 14.363012313842773, "y": -18.424354553222656, "z": 25.00124740600586 }, "pca_coordinates": { "x": -0.2878822088241577, "y": -0.06710267066955566, "z": -4.126071453094482 }, "axis_scores": { "Quantum imaging": 0.6905695199966431, "Quantum Life Science Sensing": 0.712844967842102, "Quantum sensing Detection": 0.6645449995994568, "Quantum sensing Metrology": 0.6767566800117493, "Quantum sensing navigation": 0.6733978986740112, "Quantum sensing Position": 0.6684128642082214, "Quantum sensing Timing": 0.6780319809913635, "Quantum sensing": 0.690232515335083, "Quantum control": 0.6941073536872864 } }, { "id": 7036, "title": "Neutron spin echo determination of spin dynamics in the quasiferromagnetic regime of a Au-15at.%Fe alloy", "abstract": "Neutron spin echo (NSE) measurements have been carried out on the Au-15 at.% Fe alloy within the temperature range of 52.6 K less than or equal to T less than or equal to 73.5 K and for a Q value of 0...", "citations": 4, "author_count": 2, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7043, "doi": "10.1080/01418639608240337", "umap_coordinates": { "x": 392.6193542480469, "y": 136.73431396484375, "z": 207.76304626464844 }, "tsne_coordinates": { "x": -0.6919704079627991, "y": -22.322010040283203, "z": 27.77496910095215 }, "pca_coordinates": { "x": 1.5612974166870117, "y": 0.05158400535583496, "z": -0.26808851957321167 }, "axis_scores": { "Quantum imaging": 0.7031837105751038, "Quantum Life Science Sensing": 0.7284953594207764, "Quantum sensing Detection": 0.710834264755249, "Quantum sensing Metrology": 0.7028605937957764, "Quantum sensing navigation": 0.7380267381668091, "Quantum sensing Position": 0.7219122648239136, "Quantum sensing Timing": 0.7013696432113647, "Quantum sensing": 0.7154644131660461, "Quantum control": 0.6782342791557312 } }, { "id": 7037, "title": "Broadband cross-polarization-based heteronuclear dipolar recoupling for structural and dynamic NMR studies of rigid and soft solids", "abstract": "Dipolar recoupling is an essential part of current solid-state NMR methodology for probing atomic-resolution structure and dynamics in solids and soft matter. Recently described magic-echo amplitude-a...", "citations": 7, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7044, "doi": "10.1063/1.4939798", "umap_coordinates": { "x": 392.80755615234375, "y": 136.79246520996094, "z": 206.79298400878906 }, "tsne_coordinates": { "x": 12.820419311523438, "y": 0.30119675397872925, "z": 35.58357238769531 }, "pca_coordinates": { "x": 0.04840981960296631, "y": 0.15173912048339844, "z": -1.653712272644043 }, "axis_scores": { "Quantum imaging": 0.7085175514221191, "Quantum Life Science Sensing": 0.7214443683624268, "Quantum sensing Detection": 0.6780945658683777, "Quantum sensing Metrology": 0.6662791967391968, "Quantum sensing navigation": 0.6734553575515747, "Quantum sensing Position": 0.6494513154029846, "Quantum sensing Timing": 0.6531331539154053, "Quantum sensing": 0.7020384073257446, "Quantum control": 0.6621457934379578 } }, { "id": 7038, "title": "Zero-field splitting in the isoelectronic aqueous Gd(III) and Eu(II) complexes from a first principles analysis", "abstract": "The zero-field splitting (ZFS) of the ground state octet in aqueous Eu(II) and Gd(III) solutions was investigated through multi-configurational quantum chemical calculations and ab initio molecular dy...", "citations": 2, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7045, "doi": "10.1016/j.chemphys.2018.02.002", "umap_coordinates": { "x": 393.29559326171875, "y": 137.0335693359375, "z": 206.3959503173828 }, "tsne_coordinates": { "x": -19.900714874267578, "y": 2.1280224323272705, "z": 38.494140625 }, "pca_coordinates": { "x": -0.36019355058670044, "y": -0.17334890365600586, "z": -4.280796051025391 }, "axis_scores": { "Quantum imaging": 0.6804986000061035, "Quantum Life Science Sensing": 0.7186598181724548, "Quantum sensing Detection": 0.6679447293281555, "Quantum sensing Metrology": 0.6650810241699219, "Quantum sensing navigation": 0.6795243620872498, "Quantum sensing Position": 0.658218502998352, "Quantum sensing Timing": 0.6352055072784424, "Quantum sensing": 0.6715686917304993, "Quantum control": 0.6483650803565979 } }, { "id": 7039, "title": "Spin polaronics: Static and dynamic properties of spin polarons in La-doped CaMnO4", "abstract": "The static and dynamic properties of spin polarons in La-doped CaMnO3 are explored theoretically, by means of an effective low-energy Hamiltonian. All parameters of the effective Hamiltonian are evalu...", "citations": 6, "author_count": 7, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7046, "doi": "10.1103/PhysRevB.100.134443", "umap_coordinates": { "x": 392.71661376953125, "y": 136.49717712402344, "z": 207.2286376953125 }, "tsne_coordinates": { "x": 7.526180744171143, "y": -17.855567932128906, "z": 23.070018768310547 }, "pca_coordinates": { "x": 1.956977367401123, "y": -0.4303131103515625, "z": -3.186927080154419 }, "axis_scores": { "Quantum imaging": 0.6893273591995239, "Quantum Life Science Sensing": 0.7027660608291626, "Quantum sensing Detection": 0.6663061380386353, "Quantum sensing Metrology": 0.6530373096466064, "Quantum sensing navigation": 0.7083132863044739, "Quantum sensing Position": 0.6762005090713501, "Quantum sensing Timing": 0.6564454436302185, "Quantum sensing": 0.6890373229980469, "Quantum control": 0.6947461366653442 } }, { "id": 7040, "title": "Ab initio formation energies of Fe-Cr alloys", "abstract": "We have calculated ab initio lattice parameters, formation energies, bulk moduli and magnetic moments of Fe-Cr alloys. The results agree well with available experimental data. In addition to body cent...", "citations": 249, "author_count": 5, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7047, "doi": "10.1016/S0022-3115(03)00207-1", "umap_coordinates": { "x": 392.8281555175781, "y": 136.6556854248047, "z": 207.93948364257812 }, "tsne_coordinates": { "x": -3.596270799636841, "y": -36.0714111328125, "z": 28.569272994995117 }, "pca_coordinates": { "x": -0.6709457039833069, "y": -0.9536075592041016, "z": -2.821376323699951 }, "axis_scores": { "Quantum imaging": 0.664374589920044, "Quantum Life Science Sensing": 0.7088047862052917, "Quantum sensing Detection": 0.6813111305236816, "Quantum sensing Metrology": 0.6956850290298462, "Quantum sensing navigation": 0.6685871481895447, "Quantum sensing Position": 0.6733783483505249, "Quantum sensing Timing": 0.6433053612709045, "Quantum sensing": 0.6867985725402832, "Quantum control": 0.6450978517532349 } }, { "id": 7041, "title": "Higher-order ferromagnetic resonances in periodic arrays of synthetic-antiferromagnet nanodisks", "abstract": "We investigate spin dynamics in nanodisk arrays of synthetic-antiferromagnets (SAF) made of Py/NiCu/Py trilayers, where the NiCu spacer undergoes a Curie transition at about 200 K. The observed ferrom...", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7048, "doi": "10.1063/5.0068111", "umap_coordinates": { "x": 392.596435546875, "y": 135.598388671875, "z": 207.6878204345703 }, "tsne_coordinates": { "x": 14.489551544189453, "y": -27.134902954101562, "z": 17.311540603637695 }, "pca_coordinates": { "x": 1.339299201965332, "y": -3.102881908416748, "z": -0.5145419239997864 }, "axis_scores": { "Quantum imaging": 0.6863662004470825, "Quantum Life Science Sensing": 0.6924130916595459, "Quantum sensing Detection": 0.6629668474197388, "Quantum sensing Metrology": 0.6979569792747498, "Quantum sensing navigation": 0.6784376502037048, "Quantum sensing Position": 0.6761136054992676, "Quantum sensing Timing": 0.660723865032196, "Quantum sensing": 0.6869463920593262, "Quantum control": 0.6412950754165649 } }, { "id": 7042, "title": "Adiabatic potential-energy surface of O2/Al(111): rare entrance-channel barriers but molecularly chemisorbed state apt for abstraction", "abstract": "Extensive density-functional calculations of the adiabatic potential-energy hypersurface for O-2 adsorption on the Al(111) surface present (i) an entrance-channel barrier only under some very rare con...", "citations": 49, "author_count": 4, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7049, "doi": "10.1016/S0038-1098(00)00509-3", "umap_coordinates": { "x": 393.78350830078125, "y": 136.01055908203125, "z": 206.62991333007812 }, "tsne_coordinates": { "x": -3.1686224937438965, "y": -8.5779447555542, "z": 5.512078285217285 }, "pca_coordinates": { "x": 0.04235553741455078, "y": 0.31351804733276367, "z": -0.5852712392807007 }, "axis_scores": { "Quantum imaging": 0.6832864880561829, "Quantum Life Science Sensing": 0.7003905773162842, "Quantum sensing Detection": 0.6969054937362671, "Quantum sensing Metrology": 0.6727694869041443, "Quantum sensing navigation": 0.6809239387512207, "Quantum sensing Position": 0.6657944917678833, "Quantum sensing Timing": 0.6664137244224548, "Quantum sensing": 0.7042828798294067, "Quantum control": 0.6675610542297363 } }, { "id": 7043, "title": "A Room-Temperature Spin-Valve with van der Waals Ferromagnet Fe5GeTe2/Graphene Heterostructure", "abstract": "The discovery of van der Waals (vdW) magnets opened a new paradigm for condensed matter physics and spintronic technologies. However, the operations of active spintronic devices with vdW ferromagnets ...", "citations": 78, "author_count": 16, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7050, "doi": "10.1002/adma.202209113", "umap_coordinates": { "x": 392.2222900390625, "y": 135.73812866210938, "z": 206.4851531982422 }, "tsne_coordinates": { "x": 21.222074508666992, "y": -22.397397994995117, "z": 26.216638565063477 }, "pca_coordinates": { "x": -0.2954193353652954, "y": -2.1622891426086426, "z": -1.2457773685455322 }, "axis_scores": { "Quantum imaging": 0.6707726120948792, "Quantum Life Science Sensing": 0.6853804588317871, "Quantum sensing Detection": 0.661434531211853, "Quantum sensing Metrology": 0.6761766672134399, "Quantum sensing navigation": 0.670024573802948, "Quantum sensing Position": 0.6498346924781799, "Quantum sensing Timing": 0.6589741706848145, "Quantum sensing": 0.6805707216262817, "Quantum control": 0.6738147139549255 } }, { "id": 7044, "title": "Nonlinear Dynamics in Spin Vortex Pairs With Strong Core-Core Coupling", "abstract": "We investigate the dynamics of spin vortex pairs in magnetic multilayer particles, with the vortices closely spaced vertically and therefore with strong core-core coupling. We focus on the spin-dynami...", "citations": 1, "author_count": 4, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7051, "doi": "10.1109/TMAG.2014.2327157", "umap_coordinates": { "x": 394.0411682128906, "y": 136.16937255859375, "z": 208.47975158691406 }, "tsne_coordinates": { "x": -9.147860527038574, "y": -17.96087074279785, "z": 20.724130630493164 }, "pca_coordinates": { "x": 2.747066020965576, "y": -0.11450338363647461, "z": 0.29931122064590454 }, "axis_scores": { "Quantum imaging": 0.7123284339904785, "Quantum Life Science Sensing": 0.7029755115509033, "Quantum sensing Detection": 0.7127468585968018, "Quantum sensing Metrology": 0.7108985781669617, "Quantum sensing navigation": 0.7115364074707031, "Quantum sensing Position": 0.6863388419151306, "Quantum sensing Timing": 0.687494158744812, "Quantum sensing": 0.709169864654541, "Quantum control": 0.7020690441131592 } }, { "id": 7045, "title": "Slow spin dynamics of cluster spin-glass spinel Zn(Fe1-xRu x)2O4: role of Jahn-Teller active spin-1/2 Cu2+ ions at B-sites", "abstract": "We report the slow spin dynamics of cluster spin-glass (SG) spinel Zn(Fe1-xRux)(2)O-4 by means of detailed dc-magnetization and ac-susceptibility studies combined with the heat capacity analysis. Two ...", "citations": 5, "author_count": 7, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7052, "doi": "10.1088/1361-648X/ac8329", "umap_coordinates": { "x": 392.5213928222656, "y": 136.66648864746094, "z": 207.46197509765625 }, "tsne_coordinates": { "x": 6.8038201332092285, "y": -17.304122924804688, "z": 29.367172241210938 }, "pca_coordinates": { "x": 0.6579211950302124, "y": 0.5473606586456299, "z": -3.6423025131225586 }, "axis_scores": { "Quantum imaging": 0.6872909069061279, "Quantum Life Science Sensing": 0.692788302898407, "Quantum sensing Detection": 0.6706087589263916, "Quantum sensing Metrology": 0.6415984034538269, "Quantum sensing navigation": 0.6884871125221252, "Quantum sensing Position": 0.6714038848876953, "Quantum sensing Timing": 0.673236072063446, "Quantum sensing": 0.6869249939918518, "Quantum control": 0.7083129286766052 } }, { "id": 7046, "title": "Probing the Neel-Type Antiferromagnetic Order and Coherent Magnon-Exciton Coupling in Van Der Waals VPS3", "abstract": "2D van der Waals (vdW) antiferromagnets have received intensive attention due to their terahertz resonance, multilevel magnetic-order states, and ultrafast spin dynamics. However, accurately identifyi...", "citations": 30, "author_count": 18, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7053, "doi": "10.1002/adma.202300247", "umap_coordinates": { "x": 392.5081787109375, "y": 135.73741149902344, "z": 207.15476989746094 }, "tsne_coordinates": { "x": 14.421866416931152, "y": -9.079695701599121, "z": 16.15627670288086 }, "pca_coordinates": { "x": 0.48361778259277344, "y": -1.3907802104949951, "z": -0.4340437948703766 }, "axis_scores": { "Quantum imaging": 0.6920549273490906, "Quantum Life Science Sensing": 0.7071102261543274, "Quantum sensing Detection": 0.6802664399147034, "Quantum sensing Metrology": 0.6997734308242798, "Quantum sensing navigation": 0.704034686088562, "Quantum sensing Position": 0.6874417066574097, "Quantum sensing Timing": 0.6723775863647461, "Quantum sensing": 0.6933523416519165, "Quantum control": 0.6680724024772644 } }, { "id": 7047, "title": "μSR spectroscopy of the Kondo insulators Lu1-xYbxB12", "abstract": "Single crystals of Yb1-xLuxB12= (x = 0, 0.125, 0.5, 1) were measured between 1.8 and 300 K. We found similar spectral shapes in all compounds studied over the whole temperature range scanned. In zero ...", "citations": 8, "author_count": 9, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7054, "doi": "10.1016/S0921-4526(01)01197-8", "umap_coordinates": { "x": 392.69342041015625, "y": 135.656005859375, "z": 206.6226806640625 }, "tsne_coordinates": { "x": 18.192546844482422, "y": -13.917880058288574, "z": 25.882064819335938 }, "pca_coordinates": { "x": -0.08861279487609863, "y": -0.7687830924987793, "z": -0.29115766286849976 }, "axis_scores": { "Quantum imaging": 0.734308660030365, "Quantum Life Science Sensing": 0.7608681321144104, "Quantum sensing Detection": 0.7339639067649841, "Quantum sensing Metrology": 0.7373614311218262, "Quantum sensing navigation": 0.7337102293968201, "Quantum sensing Position": 0.7298005819320679, "Quantum sensing Timing": 0.6902754306793213, "Quantum sensing": 0.7511845231056213, "Quantum control": 0.6893758773803711 } }, { "id": 7048, "title": "Behavior of Two Almost Identical Spins during the CPMG Pulse Sequence", "abstract": "Multiple-spin-echo experiments have found wide use in nuclear magnetic resonance spectroscopy. In particular, the Carr-Purcell-Meiboom-Gill (CPMG) pulse sequence is used to determine transverse relaxa...", "citations": 6, "author_count": 4, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7055, "doi": "10.1002/cphc.200900699", "umap_coordinates": { "x": 392.9497985839844, "y": 137.20079040527344, "z": 207.13841247558594 }, "tsne_coordinates": { "x": -8.36569595336914, "y": -4.47279691696167, "z": 11.280747413635254 }, "pca_coordinates": { "x": 1.2720541954040527, "y": 3.6560380458831787, "z": -1.5019586086273193 }, "axis_scores": { "Quantum imaging": 0.6843456625938416, "Quantum Life Science Sensing": 0.6881383061408997, "Quantum sensing Detection": 0.660295307636261, "Quantum sensing Metrology": 0.6618548631668091, "Quantum sensing navigation": 0.6620491743087769, "Quantum sensing Position": 0.6626660227775574, "Quantum sensing Timing": 0.7060282826423645, "Quantum sensing": 0.6678873300552368, "Quantum control": 0.6689552664756775 } }, { "id": 7049, "title": "Noncollinear Edge Magnetism in Nanoribbons of Fe3GeTe2 and Fe3GaTe2", "abstract": "Fe3GeTe2 and Fe3GaTe2 are ferromagnetic conducting materials of van der Waals type with unique magnetic properties that are highly promising for the development of new spintronic, orbitronic, and magn...", "citations": 1, "author_count": 6, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7056, "doi": "10.1021/acs.nanolett.5c01890", "umap_coordinates": { "x": 392.7121276855469, "y": 136.0860595703125, "z": 208.39413452148438 }, "tsne_coordinates": { "x": -2.2553799152374268, "y": -34.53842544555664, "z": 12.014774322509766 }, "pca_coordinates": { "x": -0.2898608446121216, "y": -2.241133689880371, "z": -2.19600772857666 }, "axis_scores": { "Quantum imaging": 0.6799644231796265, "Quantum Life Science Sensing": 0.7040194869041443, "Quantum sensing Detection": 0.6858598589897156, "Quantum sensing Metrology": 0.6935092210769653, "Quantum sensing navigation": 0.6905583143234253, "Quantum sensing Position": 0.6658331155776978, "Quantum sensing Timing": 0.6624285578727722, "Quantum sensing": 0.6879339218139648, "Quantum control": 0.6471073627471924 } }, { "id": 7050, "title": "Chiral standing spin waves in skyrmion lattice", "abstract": "This work studies the resonance excitations of the three-dimensional skyrmions lattice in the finite thickness plate of an isotropic chiral magnet using spin dynamics simulations. We found that the ab...", "citations": 12, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7057, "doi": "10.1063/5.0097651", "umap_coordinates": { "x": 393.6346740722656, "y": 136.67601013183594, "z": 208.1346893310547 }, "tsne_coordinates": { "x": -4.825402736663818, "y": -20.018741607666016, "z": 24.876514434814453 }, "pca_coordinates": { "x": 2.313732624053955, "y": -1.4187538623809814, "z": -0.49667030572891235 }, "axis_scores": { "Quantum imaging": 0.6853781938552856, "Quantum Life Science Sensing": 0.7045701146125793, "Quantum sensing Detection": 0.6679762601852417, "Quantum sensing Metrology": 0.6856650114059448, "Quantum sensing navigation": 0.7175704836845398, "Quantum sensing Position": 0.6947168707847595, "Quantum sensing Timing": 0.6602676510810852, "Quantum sensing": 0.6884378790855408, "Quantum control": 0.6590659618377686 } }, { "id": 7051, "title": "An Overview of the Director State in Gadolinium Gallate Garnet", "abstract": "In recent years the topic of frustrated magnetism has attracted significant scientific interest that shows little sign of abating. Within the field of frustrated magnetism, the compound Gd3Ga5O12 was,...", "citations": 5, "author_count": 2, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7058, "doi": "10.3389/fphy.2022.868339", "umap_coordinates": { "x": 394.1709899902344, "y": 135.109375, "z": 205.71653747558594 }, "tsne_coordinates": { "x": 22.65118408203125, "y": 19.048480987548828, "z": -5.9096832275390625 }, "pca_coordinates": { "x": -1.5361964702606201, "y": 2.2102675437927246, "z": -2.108480215072632 }, "axis_scores": { "Quantum imaging": 0.700186014175415, "Quantum Life Science Sensing": 0.688578188419342, "Quantum sensing Detection": 0.67341548204422, "Quantum sensing Metrology": 0.6724768280982971, "Quantum sensing navigation": 0.6991569399833679, "Quantum sensing Position": 0.6845526695251465, "Quantum sensing Timing": 0.6820781230926514, "Quantum sensing": 0.6869255304336548, "Quantum control": 0.700953483581543 } }, { "id": 7052, "title": "Origin of magnetic frustrations in Fe-Ni Invar alloys", "abstract": "Pair exchange parameters J(ij) of the classical Heisenberg Hamiltonian for magnetic interactions in the archetypical Invar system, face centered cubic (fcc) Fe-Ni alloys, are calculated from the first...", "citations": 79, "author_count": 6, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7059, "doi": "10.1103/PhysRevB.71.054402", "umap_coordinates": { "x": 392.9938659667969, "y": 136.55416870117188, "z": 208.981201171875 }, "tsne_coordinates": { "x": 0.28207382559776306, "y": -40.2969970703125, "z": 20.9121036529541 }, "pca_coordinates": { "x": 3.9817094802856445, "y": -0.7151336669921875, "z": -2.222740411758423 }, "axis_scores": { "Quantum imaging": 0.7040348649024963, "Quantum Life Science Sensing": 0.6839320659637451, "Quantum sensing Detection": 0.6804980039596558, "Quantum sensing Metrology": 0.6802598237991333, "Quantum sensing navigation": 0.7017093300819397, "Quantum sensing Position": 0.6718915700912476, "Quantum sensing Timing": 0.6603019833564758, "Quantum sensing": 0.6870822310447693, "Quantum control": 0.6585145592689514 } }, { "id": 7053, "title": "Density Functional Theory description of the order-disorder transformation in Fe-Ni", "abstract": "The thermodynamic ordering transformation of tetragonal FeNi system is investigated by the Exact Muffin-Tin Orbitals (EMTO) method. The tetragonal distortion of the unit cell is taken into account and...", "citations": 32, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7060, "doi": "10.1038/s41598-019-44506-7", "umap_coordinates": { "x": 392.89404296875, "y": 136.78814697265625, "z": 208.2814483642578 }, "tsne_coordinates": { "x": 2.459892511367798, "y": -27.200960159301758, "z": 31.151260375976562 }, "pca_coordinates": { "x": 0.983849048614502, "y": 0.052637577056884766, "z": -2.71736741065979 }, "axis_scores": { "Quantum imaging": 0.721534788608551, "Quantum Life Science Sensing": 0.7152975797653198, "Quantum sensing Detection": 0.6858389377593994, "Quantum sensing Metrology": 0.6833611726760864, "Quantum sensing navigation": 0.6972367167472839, "Quantum sensing Position": 0.6675978899002075, "Quantum sensing Timing": 0.6542325019836426, "Quantum sensing": 0.7033854126930237, "Quantum control": 0.687056303024292 } }, { "id": 7054, "title": "First experiments with ultrashort, circularly polarized soft x-ray pulses at FLASH2", "abstract": "Time-resolved absorption spectroscopy and magnetic circular dichroism with circularly polarized soft x-rays (XAS and XMCD) are powerful tools to probe electronic and magnetic dynamics in magnetic mate...", "citations": 1, "author_count": 27, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7061, "doi": "10.1063/4.0000298", "umap_coordinates": { "x": 395.68597412109375, "y": 135.3353729248047, "z": 207.17739868164062 }, "tsne_coordinates": { "x": -10.814309120178223, "y": -7.161292552947998, "z": -11.60926342010498 }, "pca_coordinates": { "x": 0.06273150444030762, "y": -0.24322724342346191, "z": 1.697249412536621 }, "axis_scores": { "Quantum imaging": 0.6455581188201904, "Quantum Life Science Sensing": 0.6609923243522644, "Quantum sensing Detection": 0.638856828212738, "Quantum sensing Metrology": 0.600730299949646, "Quantum sensing navigation": 0.5999636650085449, "Quantum sensing Position": 0.6157994270324707, "Quantum sensing Timing": 0.633091151714325, "Quantum sensing": 0.648971676826477, "Quantum control": 0.5949681997299194 } }, { "id": 7055, "title": "Characterizing the diffuse continuum excitations in the classical spin liquid h-YMnO3", "abstract": "We extend previous inelastic neutron scattering results on the geometrically frustrated antiferromagnet hexagonal-YMnO3, 3 , which has been suggested to belong to the class of classical spin liquids. ...", "citations": 1, "author_count": 9, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7062, "doi": "10.1103/PhysRevB.110.144429", "umap_coordinates": { "x": 393.9613952636719, "y": 137.18357849121094, "z": 208.09104919433594 }, "tsne_coordinates": { "x": -19.124162673950195, "y": -37.954647064208984, "z": -2.8496861457824707 }, "pca_coordinates": { "x": 3.205470561981201, "y": 0.10286259651184082, "z": -2.049088478088379 }, "axis_scores": { "Quantum imaging": 0.730425238609314, "Quantum Life Science Sensing": 0.7365130186080933, "Quantum sensing Detection": 0.7201511859893799, "Quantum sensing Metrology": 0.7116309404373169, "Quantum sensing navigation": 0.7263554334640503, "Quantum sensing Position": 0.6979742646217346, "Quantum sensing Timing": 0.6802353858947754, "Quantum sensing": 0.7380287647247314, "Quantum control": 0.6974731683731079 } }, { "id": 7056, "title": "Ab initio investigation of laser-induced ultrafast demagnetization of L 1 0 FePt: Intensity dependence and importance of electron coherence", "abstract": "We theoretically investigate the optically induced demagnetization of ferromagnetic FePt using the timedependent density functional theory (TDDFT). We compare the demagnetization mechanism in the pert...", "citations": 10, "author_count": 3, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7063, "doi": "10.1103/PhysRevB.109.144418", "umap_coordinates": { "x": 393.13909912109375, "y": 136.3234405517578, "z": 207.8422393798828 }, "tsne_coordinates": { "x": 7.048128128051758, "y": -29.553176879882812, "z": 28.385028839111328 }, "pca_coordinates": { "x": 1.6595325469970703, "y": -0.8443233966827393, "z": -1.5528799295425415 }, "axis_scores": { "Quantum imaging": 0.7332658171653748, "Quantum Life Science Sensing": 0.7404820322990417, "Quantum sensing Detection": 0.7086433172225952, "Quantum sensing Metrology": 0.7043850421905518, "Quantum sensing navigation": 0.680224597454071, "Quantum sensing Position": 0.6746715307235718, "Quantum sensing Timing": 0.6555801630020142, "Quantum sensing": 0.7128570079803467, "Quantum control": 0.6892893314361572 } }, { "id": 7057, "title": "Microscopic theory for coupled atomistic magnetization and lattice dynamics", "abstract": "A coupled atomistic spin and lattice dynamics approach is developed which merges the dynamics of these two degrees of freedom into a single set of coupled equations of motion. The underlying microscop...", "citations": 37, "author_count": 7, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7064, "doi": "10.1103/PhysRevMaterials.1.074404", "umap_coordinates": { "x": 393.7338562011719, "y": 136.96409606933594, "z": 208.81924438476562 }, "tsne_coordinates": { "x": -1.4773691892623901, "y": -29.53352165222168, "z": 29.076133728027344 }, "pca_coordinates": { "x": 3.746756076812744, "y": -0.9686152935028076, "z": -1.4727535247802734 }, "axis_scores": { "Quantum imaging": 0.7362555265426636, "Quantum Life Science Sensing": 0.7518244981765747, "Quantum sensing Detection": 0.725000262260437, "Quantum sensing Metrology": 0.7351019382476807, "Quantum sensing navigation": 0.7250911593437195, "Quantum sensing Position": 0.6904597282409668, "Quantum sensing Timing": 0.6833654046058655, "Quantum sensing": 0.7400586009025574, "Quantum control": 0.7051810622215271 } }, { "id": 7058, "title": "Multiscale modeling of ultrafast element-specific magnetization dynamics of ferromagnetic alloys", "abstract": "A hierarchical multiscale approach to model the magnetization dynamics of ferromagnetic random alloys is presented. First-principles calculations of the Heisenberg exchange integrals are linked to ato...", "citations": 44, "author_count": 8, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7065, "doi": "10.1103/PhysRevB.92.054412", "umap_coordinates": { "x": 393.0169372558594, "y": 136.8060302734375, "z": 208.56988525390625 }, "tsne_coordinates": { "x": 1.5995714664459229, "y": -26.513845443725586, "z": 25.369462966918945 }, "pca_coordinates": { "x": 3.4310078620910645, "y": -0.6260097026824951, "z": -1.7030982971191406 }, "axis_scores": { "Quantum imaging": 0.7147955894470215, "Quantum Life Science Sensing": 0.7115315794944763, "Quantum sensing Detection": 0.6876341700553894, "Quantum sensing Metrology": 0.7054395079612732, "Quantum sensing navigation": 0.7114044427871704, "Quantum sensing Position": 0.6749556064605713, "Quantum sensing Timing": 0.6705064177513123, "Quantum sensing": 0.7019131183624268, "Quantum control": 0.6712779998779297 } }, { "id": 7059, "title": "The Bethe-Slater curve revisited; new insights from electronic structure theory", "abstract": "The Bethe-Slater (BS) curve describes the relation between the exchange coupling and interatomic distance. Based on a simple argument of orbital overlaps, it successfully predicts the transition from ...", "citations": 60, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7066, "doi": "10.1038/s41598-017-04427-9", "umap_coordinates": { "x": 393.3624267578125, "y": 135.95558166503906, "z": 206.08815002441406 }, "tsne_coordinates": { "x": 4.30891227722168, "y": -6.489604473114014, "z": 11.35306453704834 }, "pca_coordinates": { "x": -0.4547088146209717, "y": -0.1743793487548828, "z": -1.8754258155822754 }, "axis_scores": { "Quantum imaging": 0.6671913266181946, "Quantum Life Science Sensing": 0.7218160629272461, "Quantum sensing Detection": 0.6676729321479797, "Quantum sensing Metrology": 0.6618770360946655, "Quantum sensing navigation": 0.6715719699859619, "Quantum sensing Position": 0.6706708073616028, "Quantum sensing Timing": 0.6572116613388062, "Quantum sensing": 0.6745811104774475, "Quantum control": 0.6447888016700745 } }, { "id": 7060, "title": "Noncollinear full-potential studies of γ-Fe -: art. no. 014447", "abstract": "Accurate density functional calculations have been performed for the fcc-based frustrated antiferromagnet gamma-Fe. Several competing collinear as well as noncollinear magnetic structures have been co...", "citations": 122, "author_count": 3, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7067, "doi": "10.1103/PhysRevB.66.014447", "umap_coordinates": { "x": 395.17718505859375, "y": 136.62364196777344, "z": 208.48851013183594 }, "tsne_coordinates": { "x": -3.136793375015259, "y": -38.05222702026367, "z": 14.901750564575195 }, "pca_coordinates": { "x": 2.623070240020752, "y": 1.4558297395706177, "z": 0.020347654819488525 }, "axis_scores": { "Quantum imaging": 0.7004022598266602, "Quantum Life Science Sensing": 0.6988855004310608, "Quantum sensing Detection": 0.6778343915939331, "Quantum sensing Metrology": 0.6737870573997498, "Quantum sensing navigation": 0.6873553395271301, "Quantum sensing Position": 0.6599314212799072, "Quantum sensing Timing": 0.646169900894165, "Quantum sensing": 0.6909089684486389, "Quantum control": 0.6591870188713074 } }, { "id": 7061, "title": "Origin of the magnetostructural coupling in FeMnP0.75Si0.25", "abstract": "The strong coupling between the crystal structure and magnetic state (ferromagnetic or helical antiferromagnetic) of FeMnP0.75Si0.25 is investigated using density functional theory in combination with...", "citations": 19, "author_count": 9, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7068, "doi": "10.1103/PhysRevB.90.214436", "umap_coordinates": { "x": 393.0333251953125, "y": 136.23690795898438, "z": 208.89688110351562 }, "tsne_coordinates": { "x": 1.617035150527954, "y": -39.177215576171875, "z": 20.667510986328125 }, "pca_coordinates": { "x": 3.4783244132995605, "y": -0.25946640968322754, "z": -1.3056011199951172 }, "axis_scores": { "Quantum imaging": 0.6826326847076416, "Quantum Life Science Sensing": 0.7216550707817078, "Quantum sensing Detection": 0.6946575045585632, "Quantum sensing Metrology": 0.6971687078475952, "Quantum sensing navigation": 0.700756847858429, "Quantum sensing Position": 0.6911583542823792, "Quantum sensing Timing": 0.6740378141403198, "Quantum sensing": 0.6995777487754822, "Quantum control": 0.664955198764801 } }, { "id": 7062, "title": "Topological surface state induced spin pumping in sputtered topological insulator (Bi2Te3)-ferromagnet (Co60Fe20B20) heterostructures", "abstract": "Topological insulators with high spin-orbit coupling and helically spin-momentum-locked topological surface states (TSSs) can serve as efficient spin current generators for modern spintronics applicat...", "citations": 5, "author_count": 11, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7069, "doi": "10.1063/5.0156982", "umap_coordinates": { "x": 393.194580078125, "y": 135.9807891845703, "z": 208.61692810058594 }, "tsne_coordinates": { "x": 8.237391471862793, "y": -13.692009925842285, "z": 14.670821189880371 }, "pca_coordinates": { "x": 2.0947957038879395, "y": -2.879164695739746, "z": -1.2084965705871582 }, "axis_scores": { "Quantum imaging": 0.7018194198608398, "Quantum Life Science Sensing": 0.7026211023330688, "Quantum sensing Detection": 0.6992037296295166, "Quantum sensing Metrology": 0.6994566917419434, "Quantum sensing navigation": 0.6964452862739563, "Quantum sensing Position": 0.6927223205566406, "Quantum sensing Timing": 0.6869473457336426, "Quantum sensing": 0.7078455686569214, "Quantum control": 0.68492192029953 } }, { "id": 7063, "title": "Relativistic theory of magnetic inertia in ultrafast spin dynamics", "abstract": "The influence of possible magnetic inertia effects has recently drawn attention in ultrafast magnetization dynamics and switching. Here we derive rigorously a description of inertia in the Landau-Lifs...", "citations": 77, "author_count": 5, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7070, "doi": "10.1103/PhysRevB.96.024425", "umap_coordinates": { "x": 393.69293212890625, "y": 136.7527618408203, "z": 208.54208374023438 }, "tsne_coordinates": { "x": -4.200158596038818, "y": -27.493789672851562, "z": 26.53661346435547 }, "pca_coordinates": { "x": 4.816652297973633, "y": 1.1698920726776123, "z": -1.8229405879974365 }, "axis_scores": { "Quantum imaging": 0.7335603833198547, "Quantum Life Science Sensing": 0.7327922582626343, "Quantum sensing Detection": 0.725936770439148, "Quantum sensing Metrology": 0.7023735046386719, "Quantum sensing navigation": 0.7390616536140442, "Quantum sensing Position": 0.703843891620636, "Quantum sensing Timing": 0.7093836665153503, "Quantum sensing": 0.7340773344039917, "Quantum control": 0.7177476286888123 } }, { "id": 7064, "title": "Slow-motion theory of nuclear spin relaxation in paramagnetic low-symmetry complexes: A generalization to high electron spin", "abstract": "The slow-motion theory of nuclear spin relaxation in paramagnetic low-symmetry complexes is generalized to comprise arbitrary values of S. We describe the effects of rhombic symmetry in the static zer...", "citations": 51, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7071, "doi": "10.1006/jmre.2000.2125", "umap_coordinates": { "x": 392.776611328125, "y": 137.2112579345703, "z": 207.53054809570312 }, "tsne_coordinates": { "x": 6.757328510284424, "y": -2.414048910140991, "z": 38.77503967285156 }, "pca_coordinates": { "x": 0.8792500495910645, "y": 2.5924298763275146, "z": -3.9643425941467285 }, "axis_scores": { "Quantum imaging": 0.7115434408187866, "Quantum Life Science Sensing": 0.7149621844291687, "Quantum sensing Detection": 0.6822332143783569, "Quantum sensing Metrology": 0.6649724841117859, "Quantum sensing navigation": 0.703206479549408, "Quantum sensing Position": 0.6709297299385071, "Quantum sensing Timing": 0.6678730249404907, "Quantum sensing": 0.6919840574264526, "Quantum control": 0.6972113847732544 } }, { "id": 7065, "title": "Finite-temperature interatomic exchange and magnon softening in Fe overlayers on Ir(001)", "abstract": "We evaluate how thermal effects soften the magnon dispersion in 6 layers of Fe(001) on top of Ir(001). We perform a systematic study considering noncollinear spin arrangement and calculate configurati...", "citations": 14, "author_count": 7, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7072, "doi": "10.1103/PhysRevB.94.014413", "umap_coordinates": { "x": 393.1676940917969, "y": 136.4073028564453, "z": 209.00607299804688 }, "tsne_coordinates": { "x": 9.766999244689941, "y": -37.16872024536133, "z": 18.574312210083008 }, "pca_coordinates": { "x": 2.552136182785034, "y": -1.7140774726867676, "z": -0.7277792096138 }, "axis_scores": { "Quantum imaging": 0.6842566728591919, "Quantum Life Science Sensing": 0.669234573841095, "Quantum sensing Detection": 0.6560892462730408, "Quantum sensing Metrology": 0.673704206943512, "Quantum sensing navigation": 0.6326796412467957, "Quantum sensing Position": 0.6351079940795898, "Quantum sensing Timing": 0.6543884873390198, "Quantum sensing": 0.6773808002471924, "Quantum control": 0.628615140914917 } }, { "id": 7066, "title": "A spin dynamics approach to solitonics", "abstract": "In magnetic materials a variety of non-collinear ground state configurations may emerge as a result of competition among exchange, anisotropy, and dipole-dipole interaction, yielding magnetic states f...", "citations": 21, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7073, "doi": "10.1038/srep25685", "umap_coordinates": { "x": 393.8563537597656, "y": 137.44715881347656, "z": 207.80172729492188 }, "tsne_coordinates": { "x": -9.82983684539795, "y": -26.38190269470215, "z": 31.12425422668457 }, "pca_coordinates": { "x": 1.6459786891937256, "y": 0.18201255798339844, "z": -2.41821026802063 }, "axis_scores": { "Quantum imaging": 0.701181173324585, "Quantum Life Science Sensing": 0.7166103720664978, "Quantum sensing Detection": 0.6934933066368103, "Quantum sensing Metrology": 0.6780303120613098, "Quantum sensing navigation": 0.7082127928733826, "Quantum sensing Position": 0.6812766194343567, "Quantum sensing Timing": 0.6783902049064636, "Quantum sensing": 0.7047321796417236, "Quantum control": 0.7134069800376892 } }, { "id": 7067, "title": "Neutron diffraction study of crystal structure and antiferromagnetic order in Sr2CoO2X2 (X=Cl,Br) - art. no. 144406", "abstract": "The crystal and magnetic structures of polycrystalline samples of the cobalt oxyhalides Sr2CoO2X2, X=Cl and Br, have been studied using variable temperature neutron diffraction. The materials are isos...", "citations": 24, "author_count": 3, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7074, "doi": "10.1103/PhysRevB.70.144406", "umap_coordinates": { "x": 393.4120788574219, "y": 136.19647216796875, "z": 208.4315643310547 }, "tsne_coordinates": { "x": 8.823546409606934, "y": -41.170799255371094, "z": 7.13938045501709 }, "pca_coordinates": { "x": 2.599222421646118, "y": -0.33819103240966797, "z": -1.8926126956939697 }, "axis_scores": { "Quantum imaging": 0.6798378229141235, "Quantum Life Science Sensing": 0.728399395942688, "Quantum sensing Detection": 0.6777151226997375, "Quantum sensing Metrology": 0.6828081607818604, "Quantum sensing navigation": 0.6971534490585327, "Quantum sensing Position": 0.6845126152038574, "Quantum sensing Timing": 0.6762351989746094, "Quantum sensing": 0.6979855895042419, "Quantum control": 0.6900515556335449 } }, { "id": 7068, "title": "Aging and memory in a superspin glass - art. no. 214422", "abstract": "Magnetization relaxation measurements show that aging occurs in a discontinuous metal-insulator multilayer (DMIM) [Co80Fe20(0.9 nm)/Al2O3(3 nm)](10) below the spin-glass transition temperature, T(g)ap...", "citations": 106, "author_count": 7, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7075, "doi": "10.1103/PhysRevB.67.214422", "umap_coordinates": { "x": 394.4418640136719, "y": 136.07736206054688, "z": 209.12767028808594 }, "tsne_coordinates": { "x": -4.0354838371276855, "y": -44.160945892333984, "z": 8.279802322387695 }, "pca_coordinates": { "x": 3.006021022796631, "y": -0.1153411865234375, "z": -1.4499621391296387 }, "axis_scores": { "Quantum imaging": 0.6671964526176453, "Quantum Life Science Sensing": 0.7067118287086487, "Quantum sensing Detection": 0.6632483005523682, "Quantum sensing Metrology": 0.6562888026237488, "Quantum sensing navigation": 0.687796413898468, "Quantum sensing Position": 0.6474770903587341, "Quantum sensing Timing": 0.6519044041633606, "Quantum sensing": 0.6824124455451965, "Quantum control": 0.6737133860588074 } }, { "id": 7069, "title": "Tunable unconventional spin orbit torque magnetization dynamics in van der Waals heterostructures", "abstract": "Two-dimensional quantum material heterostructures can offer a promising platform for energy-efficient non-volatile spin-based technologies. However, spin dynamics experiments to understand the basic s...", "citations": 2, "author_count": 16, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7076, "doi": "10.1038/s41467-025-64109-3", "umap_coordinates": { "x": 392.55816650390625, "y": 136.013916015625, "z": 207.45111083984375 }, "tsne_coordinates": { "x": 11.686107635498047, "y": -11.362648963928223, "z": 17.52460289001465 }, "pca_coordinates": { "x": 0.6495882272720337, "y": -1.957019329071045, "z": -1.7944657802581787 }, "axis_scores": { "Quantum imaging": 0.6903679966926575, "Quantum Life Science Sensing": 0.6852343678474426, "Quantum sensing Detection": 0.6615840196609497, "Quantum sensing Metrology": 0.6700354218482971, "Quantum sensing navigation": 0.6926990151405334, "Quantum sensing Position": 0.6557358503341675, "Quantum sensing Timing": 0.664509654045105, "Quantum sensing": 0.6876501441001892, "Quantum control": 0.709682285785675 } }, { "id": 7070, "title": "The methyl-rotor electron-spin dynamics in the Smoluchowski drift-diffusional framework", "abstract": "The EPR behavior of the internal motion of the methyl fragment in radicals is simulated using the Smoluchowski drift diffusion model. EPR stochastic Liouville lineshape calculations using this model a...", "citations": 8, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7077, "doi": "10.1006/jmre.1996.1085", "umap_coordinates": { "x": 392.90386962890625, "y": 137.11260986328125, "z": 207.16763305664062 }, "tsne_coordinates": { "x": 3.9372410774230957, "y": -14.8237943649292, "z": 31.064725875854492 }, "pca_coordinates": { "x": -0.09983110427856445, "y": 1.930873155593872, "z": -3.666351795196533 }, "axis_scores": { "Quantum imaging": 0.7024311423301697, "Quantum Life Science Sensing": 0.7081506252288818, "Quantum sensing Detection": 0.6663751602172852, "Quantum sensing Metrology": 0.6695763468742371, "Quantum sensing navigation": 0.7157622575759888, "Quantum sensing Position": 0.6885440349578857, "Quantum sensing Timing": 0.6515849828720093, "Quantum sensing": 0.6858909130096436, "Quantum control": 0.6865513324737549 } }, { "id": 7071, "title": "Origin of correlated diffuse scattering in the hexagonal manganites", "abstract": "We use a combination of first-principles density-functional calculations and spin-dynamics simulations to explain the unusual diffuse inelastic neutron scattering in the hexagonal multiferroic yttrium...", "citations": 1, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7078, "doi": "10.1103/PhysRevResearch.6.L042037", "umap_coordinates": { "x": 394.484130859375, "y": 136.34486389160156, "z": 208.39248657226562 }, "tsne_coordinates": { "x": -17.549835205078125, "y": -37.41482162475586, "z": -2.6070914268493652 }, "pca_coordinates": { "x": 2.842581272125244, "y": -0.41863441467285156, "z": -0.8475837707519531 }, "axis_scores": { "Quantum imaging": 0.7267020344734192, "Quantum Life Science Sensing": 0.756525456905365, "Quantum sensing Detection": 0.726815938949585, "Quantum sensing Metrology": 0.7101106643676758, "Quantum sensing navigation": 0.740278422832489, "Quantum sensing Position": 0.7125340104103088, "Quantum sensing Timing": 0.6947391033172607, "Quantum sensing": 0.7367888689041138, "Quantum control": 0.6915132999420166 } }, { "id": 7072, "title": "Relativistic time-dependent configuration-interaction singles method", "abstract": "In this work, a derivation and implementation of the relativistic time-dependent configuration-interaction singles (RTDCIS) method is presented. Various observables for krypton and xenon atoms obtaine...", "citations": 9, "author_count": 6, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7079, "doi": "10.1103/PhysRevA.105.012802", "umap_coordinates": { "x": 393.8335876464844, "y": 136.6386260986328, "z": 208.129638671875 }, "tsne_coordinates": { "x": 11.335562705993652, "y": -21.457603454589844, "z": 20.8631591796875 }, "pca_coordinates": { "x": 2.2945303916931152, "y": 1.538251280784607, "z": 0.11499279737472534 }, "axis_scores": { "Quantum imaging": 0.6978963017463684, "Quantum Life Science Sensing": 0.710186779499054, "Quantum sensing Detection": 0.7001950740814209, "Quantum sensing Metrology": 0.6770668029785156, "Quantum sensing navigation": 0.7007594108581543, "Quantum sensing Position": 0.6888653635978699, "Quantum sensing Timing": 0.719093382358551, "Quantum sensing": 0.7098840475082397, "Quantum control": 0.7035927772521973 } }, { "id": 7073, "title": "Colloquium: Spin-orbit effects in superconducting hybrid structures", "abstract": "Spin-orbit coupling (SOC) relates to the interaction between an electron's motion and its spin and is ubiquitous in solid -state systems. Although the effect of SOC in normal -state phenomena has been...", "citations": 50, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7080, "doi": "10.1103/RevModPhys.96.021003", "umap_coordinates": { "x": 394.0923156738281, "y": 136.42747497558594, "z": 208.22254943847656 }, "tsne_coordinates": { "x": -8.504509925842285, "y": -23.31043815612793, "z": 16.09485626220703 }, "pca_coordinates": { "x": 3.8756632804870605, "y": -0.8784289360046387, "z": -1.5191476345062256 }, "axis_scores": { "Quantum imaging": 0.6920765042304993, "Quantum Life Science Sensing": 0.7179085612297058, "Quantum sensing Detection": 0.684458315372467, "Quantum sensing Metrology": 0.6838270425796509, "Quantum sensing navigation": 0.6985160112380981, "Quantum sensing Position": 0.6848071813583374, "Quantum sensing Timing": 0.688928484916687, "Quantum sensing": 0.7037310004234314, "Quantum control": 0.699310302734375 } }, { "id": 7074, "title": "Complex magnetic textures in Ni/Irn/Pt(111) ultrathin films", "abstract": "A combined approach using first-principles calculations and spin dynamics simulations is applied to study Ni/Ir-n/Pt(111) (n = 0, 1, 2) films. The lowest-energy states are predicted to be spin spirals...", "citations": 10, "author_count": 6, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7081, "doi": "10.1103/PhysRevMaterials.5.124406", "umap_coordinates": { "x": 392.8605651855469, "y": 136.3286895751953, "z": 208.8689727783203 }, "tsne_coordinates": { "x": 7.577361106872559, "y": -36.813724517822266, "z": 20.156301498413086 }, "pca_coordinates": { "x": 1.6529428958892822, "y": -1.289334774017334, "z": -1.129713535308838 }, "axis_scores": { "Quantum imaging": 0.7204405069351196, "Quantum Life Science Sensing": 0.7219364047050476, "Quantum sensing Detection": 0.6887021660804749, "Quantum sensing Metrology": 0.6820605397224426, "Quantum sensing navigation": 0.6830426454544067, "Quantum sensing Position": 0.6500504016876221, "Quantum sensing Timing": 0.6680772304534912, "Quantum sensing": 0.7070814967155457, "Quantum control": 0.6562923789024353 } }, { "id": 7075, "title": "The ALICE experiment at the CERN LHC", "abstract": "ALICE (A Large Ion Collider Experiment) is a general-purpose, heavy-ion detector at the CERN LHC which focuses on QCD, the strong-interaction sector of the Standard Model. It is designed to address th...", "citations": 2095, "author_count": 1162, "categories": [ "Instruments & Instrumentation" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7082, "doi": "10.1088/1748-0221/3/08/S08002", "umap_coordinates": { "x": 396.1016845703125, "y": 134.39450073242188, "z": 206.20242309570312 }, "tsne_coordinates": { "x": -30.40008544921875, "y": 21.39502716064453, "z": -11.374791145324707 }, "pca_coordinates": { "x": -0.20916950702667236, "y": 2.9029769897460938, "z": 1.9910321235656738 }, "axis_scores": { "Quantum imaging": 0.6694762706756592, "Quantum Life Science Sensing": 0.6575404405593872, "Quantum sensing Detection": 0.6671671867370605, "Quantum sensing Metrology": 0.6531984210014343, "Quantum sensing navigation": 0.6694687604904175, "Quantum sensing Position": 0.6756289005279541, "Quantum sensing Timing": 0.677400529384613, "Quantum sensing": 0.6738747954368591, "Quantum control": 0.6648049354553223 } }, { "id": 7076, "title": "Refined Structures of O-Phospho-L-serine and Its Calcium Salt by New Multinuclear Solid-State NMR Crystallography Methods", "abstract": "O-phospho-L-serine (Pser) and its Ca salt, Ca[O-phospho-L-serine]center dot H2O (CaPser), play important roles for bone mineralization and were recently also proposed to account for the markedly impro...", "citations": 6, "author_count": 4, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7083, "doi": "10.1021/acs.jpcb.1c05587", "umap_coordinates": { "x": 392.7200012207031, "y": 136.86595153808594, "z": 205.3251495361328 }, "tsne_coordinates": { "x": 7.0951433181762695, "y": 12.841095924377441, "z": 33.08705520629883 }, "pca_coordinates": { "x": -2.5634946823120117, "y": 1.4256688356399536, "z": -1.1871376037597656 }, "axis_scores": { "Quantum imaging": 0.7090646028518677, "Quantum Life Science Sensing": 0.7139915227890015, "Quantum sensing Detection": 0.6807256937026978, "Quantum sensing Metrology": 0.6862749457359314, "Quantum sensing navigation": 0.7157304883003235, "Quantum sensing Position": 0.6957560181617737, "Quantum sensing Timing": 0.6850640177726746, "Quantum sensing": 0.7053607106208801, "Quantum control": 0.6725740432739258 } }, { "id": 7077, "title": "The role of ultrafast magnon generation in the magnetization dynamics of rare-earth metals", "abstract": "Ultrafast demagnetization of rare-earth metals is distinct from that of 3d ferromagnets, as rare-earth magnetism is dominated by localized 4f electrons that cannot be directly excited by an optical la...", "citations": 61, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7084, "doi": "10.1126/sciadv.abb1601", "umap_coordinates": { "x": 393.01007080078125, "y": 136.5857696533203, "z": 207.97821044921875 }, "tsne_coordinates": { "x": 2.616150379180908, "y": -24.556182861328125, "z": 26.800657272338867 }, "pca_coordinates": { "x": 1.2644274234771729, "y": 0.12453222274780273, "z": -2.415400505065918 }, "axis_scores": { "Quantum imaging": 0.7164515256881714, "Quantum Life Science Sensing": 0.7394881844520569, "Quantum sensing Detection": 0.6913913488388062, "Quantum sensing Metrology": 0.7062556147575378, "Quantum sensing navigation": 0.7157042026519775, "Quantum sensing Position": 0.6836217045783997, "Quantum sensing Timing": 0.6695243120193481, "Quantum sensing": 0.7025010585784912, "Quantum control": 0.6924538612365723 } }, { "id": 7078, "title": "Accelerating the switching of magnetic nanoclusters by anisotropy-driven magnetization dynamics", "abstract": "In this work, the magnetization dynamics of clusters supported on nonmagnetic substrates is shown to exhibit a complex response when subjected to external magnetic fields. The field-driven magnetizati...", "citations": 9, "author_count": 5, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7085, "doi": "10.1103/PhysRevB.86.224401", "umap_coordinates": { "x": 393.0039978027344, "y": 136.51962280273438, "z": 208.4833526611328 }, "tsne_coordinates": { "x": 5.838438034057617, "y": -27.873735427856445, "z": 24.356061935424805 }, "pca_coordinates": { "x": 2.500664234161377, "y": -1.9093575477600098, "z": -2.036344528198242 }, "axis_scores": { "Quantum imaging": 0.700925350189209, "Quantum Life Science Sensing": 0.6975280046463013, "Quantum sensing Detection": 0.6794530749320984, "Quantum sensing Metrology": 0.6677533984184265, "Quantum sensing navigation": 0.6879141926765442, "Quantum sensing Position": 0.6413153409957886, "Quantum sensing Timing": 0.6587358713150024, "Quantum sensing": 0.6951935291290283, "Quantum control": 0.7038754224777222 } }, { "id": 7079, "title": "Quantum kinetic theory of plasmas", "abstract": "As is well known, for plasmas of high density and modest temperature, the classical kinetic theory needs to be extended. Such extensions can be based on the Schrodinger Hamiltonian, applying a Wigner ...", "citations": 29, "author_count": 3, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7086, "doi": "10.1007/s41614-022-00065-5", "umap_coordinates": { "x": 394.5173034667969, "y": 137.04766845703125, "z": 206.41421508789062 }, "tsne_coordinates": { "x": -24.1700382232666, "y": 0.8371201753616333, "z": 22.65378189086914 }, "pca_coordinates": { "x": 1.751103401184082, "y": 1.6484756469726562, "z": -1.41465425491333 }, "axis_scores": { "Quantum imaging": 0.7610340714454651, "Quantum Life Science Sensing": 0.7701699733734131, "Quantum sensing Detection": 0.7511175274848938, "Quantum sensing Metrology": 0.7398266792297363, "Quantum sensing navigation": 0.7674354314804077, "Quantum sensing Position": 0.7354148626327515, "Quantum sensing Timing": 0.7387737035751343, "Quantum sensing": 0.7685838341712952, "Quantum control": 0.7674013376235962 } }, { "id": 7080, "title": "The instrument suite of the European Spallation Source", "abstract": "An overview is provided of the 15 neutron beam instruments making up the initial instrument suite of the European Spallation Source (ESS), and being made available to the neutron user community. The E...", "citations": 125, "author_count": 180, "categories": [ "Instruments & Instrumentation" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7087, "doi": "10.1016/j.nima.2020.163402", "umap_coordinates": { "x": 394.58856201171875, "y": 133.5265655517578, "z": 205.519775390625 }, "tsne_coordinates": { "x": -20.487293243408203, "y": 17.673606872558594, "z": -8.619906425476074 }, "pca_coordinates": { "x": -3.612487316131592, "y": 1.436884880065918, "z": 1.668055534362793 }, "axis_scores": { "Quantum imaging": 0.6980760097503662, "Quantum Life Science Sensing": 0.7096710205078125, "Quantum sensing Detection": 0.6886729001998901, "Quantum sensing Metrology": 0.6912641525268555, "Quantum sensing navigation": 0.7017133831977844, "Quantum sensing Position": 0.6771283149719238, "Quantum sensing Timing": 0.6813409328460693, "Quantum sensing": 0.6939154863357544, "Quantum control": 0.6551392078399658 } }, { "id": 7081, "title": "Disparate ultrafast dynamics of itinerant and localized magnetic moments in gadolinium metal", "abstract": "The Heisenberg-Dirac intra-atomic exchange coupling is responsible for the formation of the atomic spin moment and thus the strongest interaction in magnetism. Therefore, it is generally assumed that ...", "citations": 91, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7088, "doi": "10.1038/ncomms9262", "umap_coordinates": { "x": 393.0682678222656, "y": 136.98898315429688, "z": 208.27108764648438 }, "tsne_coordinates": { "x": 2.2153818607330322, "y": -24.323320388793945, "z": 21.2341365814209 }, "pca_coordinates": { "x": 2.2146377563476562, "y": 0.3262641429901123, "z": -2.7846357822418213 }, "axis_scores": { "Quantum imaging": 0.6942330002784729, "Quantum Life Science Sensing": 0.6651423573493958, "Quantum sensing Detection": 0.6693212985992432, "Quantum sensing Metrology": 0.6586811542510986, "Quantum sensing navigation": 0.6647734045982361, "Quantum sensing Position": 0.6399180889129639, "Quantum sensing Timing": 0.6922571659088135, "Quantum sensing": 0.6729072332382202, "Quantum control": 0.6472457647323608 } }, { "id": 7082, "title": "Spin Dynamics in ZnO-Based Materials", "abstract": "In this work, we address the issue of spin relaxation and its relevance to spin detection in ZnO-based materials, by spin-polarized, time-resolved magneto-optical spectroscopy. We have found that spin...", "citations": 9, "author_count": 11, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7089, "doi": "10.1007/s10948-009-0551-0", "umap_coordinates": { "x": 392.593017578125, "y": 135.68246459960938, "z": 207.55772399902344 }, "tsne_coordinates": { "x": 13.708902359008789, "y": -14.474587440490723, "z": 16.263656616210938 }, "pca_coordinates": { "x": 0.8747506141662598, "y": -1.5694622993469238, "z": -2.2548141479492188 }, "axis_scores": { "Quantum imaging": 0.7187069654464722, "Quantum Life Science Sensing": 0.7397870421409607, "Quantum sensing Detection": 0.7045972347259521, "Quantum sensing Metrology": 0.6966480612754822, "Quantum sensing navigation": 0.7428590655326843, "Quantum sensing Position": 0.7147592902183533, "Quantum sensing Timing": 0.698307454586029, "Quantum sensing": 0.7157303094863892, "Quantum control": 0.7140883207321167 } }, { "id": 7083, "title": "Neel vector switching and terahertz spin-wave excitation in Mn2Au due to femtosecond spin-transfer torques", "abstract": "Efficient and fast manipulation of antiferromagnets has to date remained a challenging task, hindering their application in spintronic devices. For ultrafast operation of such devices, it is highly de...", "citations": 8, "author_count": 5, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7090, "doi": "10.1103/PhysRevB.107.174424", "umap_coordinates": { "x": 393.09893798828125, "y": 136.04640197753906, "z": 208.57162475585938 }, "tsne_coordinates": { "x": 4.475583553314209, "y": -31.842823028564453, "z": 25.49076271057129 }, "pca_coordinates": { "x": 2.5895557403564453, "y": -2.1399264335632324, "z": -1.3327043056488037 }, "axis_scores": { "Quantum imaging": 0.6852522492408752, "Quantum Life Science Sensing": 0.6901194453239441, "Quantum sensing Detection": 0.6807825565338135, "Quantum sensing Metrology": 0.6890852451324463, "Quantum sensing navigation": 0.6996058225631714, "Quantum sensing Position": 0.6595557332038879, "Quantum sensing Timing": 0.683746874332428, "Quantum sensing": 0.692125141620636, "Quantum control": 0.6895986199378967 } }, { "id": 7084, "title": "Competition between magnetic structures in the Fe rich fcc FeNi alloys", "abstract": "We report on the results of a systematic ab initio study of the magnetic structure of Fe rich fcc FeNi binary alloys for Ni concentrations up to 50 at. %. Calculations are carried out within density-f...", "citations": 136, "author_count": 8, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7091, "doi": "10.1103/PhysRevB.76.014434", "umap_coordinates": { "x": 392.96453857421875, "y": 136.54510498046875, "z": 208.8880615234375 }, "tsne_coordinates": { "x": -0.5786402821540833, "y": -39.84003448486328, "z": 21.069652557373047 }, "pca_coordinates": { "x": 2.4591574668884277, "y": -0.5186469554901123, "z": -2.1957216262817383 }, "axis_scores": { "Quantum imaging": 0.7047151923179626, "Quantum Life Science Sensing": 0.6771842837333679, "Quantum sensing Detection": 0.6706060767173767, "Quantum sensing Metrology": 0.6782420873641968, "Quantum sensing navigation": 0.6827538013458252, "Quantum sensing Position": 0.6588806509971619, "Quantum sensing Timing": 0.647490382194519, "Quantum sensing": 0.6801629066467285, "Quantum control": 0.6715208888053894 } }, { "id": 7085, "title": "eNORA2 Exact NOE Analysis Program", "abstract": "We have recently developed an NMR protocol to extract exact distances between nuclei in proteins from an exact interpretation of NOESY buildup intensities (eNOEs). This enabled us to calculate multist...", "citations": 28, "author_count": 6, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7092, "doi": "10.1021/acs.jctc.7b00436", "umap_coordinates": { "x": 393.55218505859375, "y": 136.35299682617188, "z": 205.49319458007812 }, "tsne_coordinates": { "x": -10.26912784576416, "y": 13.662186622619629, "z": 14.740256309509277 }, "pca_coordinates": { "x": -1.1772598028182983, "y": 1.1276695728302002, "z": -2.04152250289917 }, "axis_scores": { "Quantum imaging": 0.7220845222473145, "Quantum Life Science Sensing": 0.723511278629303, "Quantum sensing Detection": 0.7080162763595581, "Quantum sensing Metrology": 0.7076918482780457, "Quantum sensing navigation": 0.72813880443573, "Quantum sensing Position": 0.6959177255630493, "Quantum sensing Timing": 0.7289171814918518, "Quantum sensing": 0.7238366007804871, "Quantum control": 0.7220020294189453 } }, { "id": 7086, "title": "Equation of state of paramagnetic CrN from ab initio molecular dynamics", "abstract": "The equation of state for chromium nitride has been debated in the literature in connection with a proposed collapse of its bulk modulus following the pressure-induced transition from the paramagnetic...", "citations": 74, "author_count": 4, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7093, "doi": "10.1103/PhysRevB.85.144404", "umap_coordinates": { "x": 393.48388671875, "y": 137.07382202148438, "z": 208.71861267089844 }, "tsne_coordinates": { "x": -6.153451442718506, "y": -33.738975524902344, "z": 30.52794075012207 }, "pca_coordinates": { "x": 4.1368727684021, "y": 0.752652645111084, "z": -3.0967531204223633 }, "axis_scores": { "Quantum imaging": 0.6916267275810242, "Quantum Life Science Sensing": 0.7262824177742004, "Quantum sensing Detection": 0.6961565017700195, "Quantum sensing Metrology": 0.6841922998428345, "Quantum sensing navigation": 0.7111406922340393, "Quantum sensing Position": 0.6781433820724487, "Quantum sensing Timing": 0.664565920829773, "Quantum sensing": 0.7007836699485779, "Quantum control": 0.6930449604988098 } }, { "id": 7087, "title": "Direct measurement of the static and transient magneto-optical permittivity of cobalt across the entire M-edge in reflection geometry by use of polarization scanning", "abstract": "The microscopic state of amagnetic material is characterized by its resonant magneto-optical response through the off-diagonal dielectric tensor component epsilon(xy). However, the measurement of the ...", "citations": 23, "author_count": 14, "categories": [ "Materials Science" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7094, "doi": "10.1103/PhysRevB.97.024433", "umap_coordinates": { "x": 393.31134033203125, "y": 136.55345153808594, "z": 208.5558319091797 }, "tsne_coordinates": { "x": 5.974973678588867, "y": -38.359580993652344, "z": 15.176944732666016 }, "pca_coordinates": { "x": 1.0704193115234375, "y": 0.15693092346191406, "z": -0.11087137460708618 }, "axis_scores": { "Quantum imaging": 0.6939983367919922, "Quantum Life Science Sensing": 0.7178629636764526, "Quantum sensing Detection": 0.7020846009254456, "Quantum sensing Metrology": 0.7007983922958374, "Quantum sensing navigation": 0.6950784921646118, "Quantum sensing Position": 0.6882328391075134, "Quantum sensing Timing": 0.6753040552139282, "Quantum sensing": 0.7087925672531128, "Quantum control": 0.6393237709999084 } }, { "id": 7088, "title": "Magnetic properties of a Co/Cu/Ni trilayer on the Cu(100) surface - art. no. 024435", "abstract": "Magnetic moments, total energies, and exchange interactions have been calculated for Co-3 /Cu-N/Ni-5 trilayer and Cu-N /Ni-5 bilayer on the Cu(100) substrate by means of the, interface Green's-functio...", "citations": 6, "author_count": 7, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7095, "doi": "10.1103/PhysRevB.65.024435", "umap_coordinates": { "x": 393.57952880859375, "y": 135.94534301757812, "z": 209.22511291503906 }, "tsne_coordinates": { "x": 5.733880043029785, "y": -38.521728515625, "z": 16.90724754333496 }, "pca_coordinates": { "x": 3.0553054809570312, "y": -1.2905476093292236, "z": -1.3999440670013428 }, "axis_scores": { "Quantum imaging": 0.6900436282157898, "Quantum Life Science Sensing": 0.7087332010269165, "Quantum sensing Detection": 0.6845331192016602, "Quantum sensing Metrology": 0.6819430589675903, "Quantum sensing navigation": 0.6776761412620544, "Quantum sensing Position": 0.6618432998657227, "Quantum sensing Timing": 0.6554579734802246, "Quantum sensing": 0.6992684006690979, "Quantum control": 0.6921640038490295 } }, { "id": 7089, "title": "Tunable topological magnetism in superlattices of nonmagnetic B20 systems", "abstract": "We predict topological magnetic properties of B20 systems, that are organized in atomically thin multilayers. In particular, we focus on FeSi/CoSi / CoSi and FeSi/FeGe / FeGe superlattices with differ...", "citations": 1, "author_count": 4, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7096, "doi": "10.1103/PhysRevB.110.L060407", "umap_coordinates": { "x": 393.1737365722656, "y": 136.13525390625, "z": 208.89785766601562 }, "tsne_coordinates": { "x": 1.4473791122436523, "y": -30.161632537841797, "z": 18.347728729248047 }, "pca_coordinates": { "x": 3.1612091064453125, "y": -1.6604537963867188, "z": -2.4307408332824707 }, "axis_scores": { "Quantum imaging": 0.6880649328231812, "Quantum Life Science Sensing": 0.7162878513336182, "Quantum sensing Detection": 0.6889054775238037, "Quantum sensing Metrology": 0.700455904006958, "Quantum sensing navigation": 0.6885106563568115, "Quantum sensing Position": 0.6763377785682678, "Quantum sensing Timing": 0.6778275966644287, "Quantum sensing": 0.7046323418617249, "Quantum control": 0.6761881709098816 } }, { "id": 7090, "title": "All-thermal switching of amorphous Gd-Fe alloys: Analysis of structural properties and magnetization dynamics", "abstract": "In recent years there has been an intense interest in understanding the microscopic mechanism of thermally induced magnetization switching driven by a femtosecond laser pulse. Most of the effort has b...", "citations": 59, "author_count": 13, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7097, "doi": "10.1103/PhysRevB.92.094411", "umap_coordinates": { "x": 392.90545654296875, "y": 137.0216522216797, "z": 208.3364715576172 }, "tsne_coordinates": { "x": -0.3960146903991699, "y": -32.58458709716797, "z": 25.397329330444336 }, "pca_coordinates": { "x": 2.55906343460083, "y": -0.22051572799682617, "z": -3.3350369930267334 }, "axis_scores": { "Quantum imaging": 0.6802957057952881, "Quantum Life Science Sensing": 0.6944321990013123, "Quantum sensing Detection": 0.661263108253479, "Quantum sensing Metrology": 0.6626540422439575, "Quantum sensing navigation": 0.6675223112106323, "Quantum sensing Position": 0.6376295685768127, "Quantum sensing Timing": 0.66440349817276, "Quantum sensing": 0.6794703006744385, "Quantum control": 0.6637661457061768 } }, { "id": 7091, "title": "Odd-frequency pair density wave correlations in underdoped cuprates", "abstract": "Pair density waves, identified by Cooper pairs with finite center-of-mass momentum, have recently been observed in copper oxide based high T-c superconductors (cuprates). A charge density modulation o...", "citations": 11, "author_count": 3, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7098, "doi": "10.1088/1367-2630/abe15d", "umap_coordinates": { "x": 393.890380859375, "y": 136.08445739746094, "z": 207.58973693847656 }, "tsne_coordinates": { "x": -2.6845877170562744, "y": -15.918661117553711, "z": 24.990047454833984 }, "pca_coordinates": { "x": 2.7078871726989746, "y": 1.1130101680755615, "z": 0.17894726991653442 }, "axis_scores": { "Quantum imaging": 0.7200998067855835, "Quantum Life Science Sensing": 0.6811339855194092, "Quantum sensing Detection": 0.6891586780548096, "Quantum sensing Metrology": 0.6745917797088623, "Quantum sensing navigation": 0.7013520002365112, "Quantum sensing Position": 0.675764262676239, "Quantum sensing Timing": 0.6986862421035767, "Quantum sensing": 0.698661208152771, "Quantum control": 0.6911680102348328 } }, { "id": 7092, "title": "THz-driven demagnetization with perpendicular magnetic anisotropy: towards ultrafast ballistic switching", "abstract": "We study THz-driven spin dynamics in thin CoPt films with perpendicular magnetic anisotropy. Femtosecond magneto-optical Kerr effect measurements show that demagnetization amplitude of about 1% can be...", "citations": 25, "author_count": 7, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7099, "doi": "10.1088/1361-6463/aaa863", "umap_coordinates": { "x": 393.3627014160156, "y": 135.8804931640625, "z": 207.71951293945312 }, "tsne_coordinates": { "x": 6.370203018188477, "y": -27.6497745513916, "z": 25.80110740661621 }, "pca_coordinates": { "x": 1.31184720993042, "y": 0.017913818359375, "z": -0.3390796184539795 }, "axis_scores": { "Quantum imaging": 0.6892728805541992, "Quantum Life Science Sensing": 0.6900135278701782, "Quantum sensing Detection": 0.6707468628883362, "Quantum sensing Metrology": 0.6772943735122681, "Quantum sensing navigation": 0.6798876523971558, "Quantum sensing Position": 0.6312845945358276, "Quantum sensing Timing": 0.667850136756897, "Quantum sensing": 0.6846776008605957, "Quantum control": 0.6749892830848694 } }, { "id": 7093, "title": "Exploration of all-3d Heusler alloys for permanent magnets: An ab initio based high-throughput study", "abstract": "Heusler alloys have attracted interest in various fields of functional materials since their properties can quite easily be tuned by composition. Here, we have investigated the relatively new class of...", "citations": 17, "author_count": 3, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7100, "doi": "10.1103/PhysRevB.107.174402", "umap_coordinates": { "x": 393.4952087402344, "y": 136.89410400390625, "z": 208.26275634765625 }, "tsne_coordinates": { "x": -0.31449568271636963, "y": -38.2945671081543, "z": 13.992172241210938 }, "pca_coordinates": { "x": 2.1829891204833984, "y": 0.3594069480895996, "z": -0.966103196144104 }, "axis_scores": { "Quantum imaging": 0.6783318519592285, "Quantum Life Science Sensing": 0.6763571500778198, "Quantum sensing Detection": 0.6548169851303101, "Quantum sensing Metrology": 0.6604962944984436, "Quantum sensing navigation": 0.6711083054542542, "Quantum sensing Position": 0.6575502157211304, "Quantum sensing Timing": 0.6365728378295898, "Quantum sensing": 0.6737098693847656, "Quantum control": 0.6426268815994263 } }, { "id": 7094, "title": "Ab initio treatment of noncollinear magnets with the full-potential linearized augmented plane wave method - art. no. 024415", "abstract": "The massively parallelized full-potential linearized augmented plane-wave bulk and film program FLEUR for first-principles calculations in the context of density functional theory was adapted to allow...", "citations": 215, "author_count": 6, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7101, "doi": "10.1103/PhysRevB.69.024415", "umap_coordinates": { "x": 394.1853332519531, "y": 136.85098266601562, "z": 208.45973205566406 }, "tsne_coordinates": { "x": -2.510776996612549, "y": -37.141700744628906, "z": 13.238550186157227 }, "pca_coordinates": { "x": 3.695716381072998, "y": 0.4076046943664551, "z": 0.0032126307487487793 }, "axis_scores": { "Quantum imaging": 0.6820899844169617, "Quantum Life Science Sensing": 0.6775535345077515, "Quantum sensing Detection": 0.6701396703720093, "Quantum sensing Metrology": 0.6892504096031189, "Quantum sensing navigation": 0.6945012211799622, "Quantum sensing Position": 0.672744631767273, "Quantum sensing Timing": 0.6483027338981628, "Quantum sensing": 0.6853244304656982, "Quantum control": 0.6546677350997925 } }, { "id": 7095, "title": "Electron population dynamics in resonant non-linear x-ray absorption in nickel at a free-electron laser", "abstract": "Free-electron lasers provide bright, ultrashort, and monochromatic x-ray pulses, enabling novel spectroscopic measurements not only with femtosecond temporal resolution: The high fluence of their x-ra...", "citations": 9, "author_count": 44, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7102, "doi": "10.1063/4.0000206", "umap_coordinates": { "x": 392.6637268066406, "y": 136.1387176513672, "z": 207.26358032226562 }, "tsne_coordinates": { "x": -10.956269264221191, "y": -1.6756887435913086, "z": 10.745467185974121 }, "pca_coordinates": { "x": 1.120790719985962, "y": -1.617748737335205, "z": -1.0439062118530273 }, "axis_scores": { "Quantum imaging": 0.6916642189025879, "Quantum Life Science Sensing": 0.6978766322135925, "Quantum sensing Detection": 0.6702969670295715, "Quantum sensing Metrology": 0.6445402503013611, "Quantum sensing navigation": 0.671405553817749, "Quantum sensing Position": 0.6628784537315369, "Quantum sensing Timing": 0.6324563026428223, "Quantum sensing": 0.6732770204544067, "Quantum control": 0.6618743538856506 } }, { "id": 7096, "title": "Light-Induced Metastable Hidden Skyrmion Phase in the Mott Insulator Cu2OSeO3", "abstract": "The discovery of a novel long-lived metastable skyrmion phase in the multiferroic insulator Cu2OSeO3 visualized with Lorentz transmission electron microscopy for magnetic fields below the equilibrium ...", "citations": 13, "author_count": 14, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7103, "doi": "10.1002/adma.202304197", "umap_coordinates": { "x": 392.76513671875, "y": 135.9020233154297, "z": 207.44229125976562 }, "tsne_coordinates": { "x": 17.84727668762207, "y": -3.9935479164123535, "z": 16.26592445373535 }, "pca_coordinates": { "x": 0.43881773948669434, "y": -0.36392760276794434, "z": -2.663639783859253 }, "axis_scores": { "Quantum imaging": 0.694709300994873, "Quantum Life Science Sensing": 0.7145348191261292, "Quantum sensing Detection": 0.6893148422241211, "Quantum sensing Metrology": 0.6754769086837769, "Quantum sensing navigation": 0.6874825358390808, "Quantum sensing Position": 0.6552074551582336, "Quantum sensing Timing": 0.6539899110794067, "Quantum sensing": 0.6923019886016846, "Quantum control": 0.6729881167411804 } }, { "id": 7097, "title": "Spin dynamics in a Curie-switch", "abstract": "Ferromagnetic resonance properties of F-1/f/F-2/AF multilayers, where weakly ferromagnetic spacer f is sandwiched between strongly ferromagnetic layers F-1 and F-2, with F-1 being magnetically soft an...", "citations": 20, "author_count": 7, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7104, "doi": "10.1088/0953-8984/27/44/446003", "umap_coordinates": { "x": 393.2615661621094, "y": 136.71807861328125, "z": 207.80345153808594 }, "tsne_coordinates": { "x": 1.3209197521209717, "y": -15.648898124694824, "z": 31.00313949584961 }, "pca_coordinates": { "x": 2.2443718910217285, "y": 1.8172622919082642, "z": -2.874258518218994 }, "axis_scores": { "Quantum imaging": 0.7003390789031982, "Quantum Life Science Sensing": 0.7170570492744446, "Quantum sensing Detection": 0.696265459060669, "Quantum sensing Metrology": 0.6725834012031555, "Quantum sensing navigation": 0.7193325757980347, "Quantum sensing Position": 0.6806327104568481, "Quantum sensing Timing": 0.6784675121307373, "Quantum sensing": 0.7132375240325928, "Quantum control": 0.7178479433059692 } }, { "id": 7098, "title": "Anisotropy of the (π, π) dynamic susceptibility in magnetically ordered (x=0.05) and superconducting (x=0.40) Fe1.02Te1-xSex", "abstract": "Polarized inelastic neutron scattering on magnetically ordered Fe1.02Te0.95Se0.05 and superconducting Fe1.02Te0.60Se0.40 has been used to elucidate the anisotropy of the magnetic dynamical susceptibil...", "citations": 11, "author_count": 7, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7105, "doi": "10.1103/PhysRevB.86.064503", "umap_coordinates": { "x": 392.654052734375, "y": 136.61801147460938, "z": 208.0685577392578 }, "tsne_coordinates": { "x": 7.956093788146973, "y": -33.033836364746094, "z": 24.865819931030273 }, "pca_coordinates": { "x": 2.717646837234497, "y": -0.4090151786804199, "z": -2.974700450897217 }, "axis_scores": { "Quantum imaging": 0.7064310908317566, "Quantum Life Science Sensing": 0.698940098285675, "Quantum sensing Detection": 0.6659501791000366, "Quantum sensing Metrology": 0.6644840836524963, "Quantum sensing navigation": 0.6862118244171143, "Quantum sensing Position": 0.6688350439071655, "Quantum sensing Timing": 0.6741043329238892, "Quantum sensing": 0.6904952526092529, "Quantum control": 0.6880077719688416 } }, { "id": 7099, "title": "Magnetoelectrics and multiferroics: theory, synthesis, characterisation, preliminary results and perspectives for all-optical manipulations", "abstract": "Solid state compounds exhibiting multiple and coupled macroscopic orders, named multiferroics, represent a challenge for both theoretical and experimental modern condensed-matter physics. Spins and th...", "citations": 17, "author_count": 18, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7106, "doi": "10.1088/1361-6463/acc8e1", "umap_coordinates": { "x": 394.8342590332031, "y": 135.0462646484375, "z": 205.95590209960938 }, "tsne_coordinates": { "x": -16.581218719482422, "y": -2.507474660873413, "z": -19.607099533081055 }, "pca_coordinates": { "x": -0.9264674186706543, "y": 2.1204750537872314, "z": -0.3499833345413208 }, "axis_scores": { "Quantum imaging": 0.698128342628479, "Quantum Life Science Sensing": 0.6797904968261719, "Quantum sensing Detection": 0.6661266088485718, "Quantum sensing Metrology": 0.6780860424041748, "Quantum sensing navigation": 0.6628086566925049, "Quantum sensing Position": 0.6343511343002319, "Quantum sensing Timing": 0.6450986266136169, "Quantum sensing": 0.682917594909668, "Quantum control": 0.6631473302841187 } }, { "id": 7100, "title": "Effect of momentum relaxation on exciton spin dynamics in diluted magnetic semiconductor ZnMnSe/CdSe superlattices - art. no. 165203", "abstract": "cw hot photoluminescence (PL) complemented by transient PL measurements is employed to evaluate momentum and spin relaxation of heavy hole (HH) excitons in ZnMnSe/CdSe superlattices. The rate of acous...", "citations": 15, "author_count": 10, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7107, "doi": "10.1103/PhysRevB.71.165203", "umap_coordinates": { "x": 393.27679443359375, "y": 135.55809020996094, "z": 209.0882568359375 }, "tsne_coordinates": { "x": 8.843575477600098, "y": -26.72164535522461, "z": 11.524067878723145 }, "pca_coordinates": { "x": 3.8393731117248535, "y": -2.2990050315856934, "z": -1.6464221477508545 }, "axis_scores": { "Quantum imaging": 0.6857960224151611, "Quantum Life Science Sensing": 0.7002100348472595, "Quantum sensing Detection": 0.6803560853004456, "Quantum sensing Metrology": 0.688941478729248, "Quantum sensing navigation": 0.7129780054092407, "Quantum sensing Position": 0.6985359191894531, "Quantum sensing Timing": 0.6720262765884399, "Quantum sensing": 0.6943323612213135, "Quantum control": 0.6825971603393555 } }, { "id": 7101, "title": "Magnetic ordering in Ni-rich NiMn alloys around the multicritical point: Experiment and theory", "abstract": "We have carried out an experimental study of Ni-rich NiMn alloys in a series of compositions across the multicritical point and determined the phase diagram within that range. We have observed ferroma...", "citations": 13, "author_count": 12, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7108, "doi": "10.1103/PhysRevB.85.174405", "umap_coordinates": { "x": 392.912109375, "y": 136.4393310546875, "z": 208.8143310546875 }, "tsne_coordinates": { "x": 4.104503631591797, "y": -39.1597785949707, "z": 21.390287399291992 }, "pca_coordinates": { "x": 3.4282917976379395, "y": -0.37995338439941406, "z": -1.0534604787826538 }, "axis_scores": { "Quantum imaging": 0.6842873096466064, "Quantum Life Science Sensing": 0.6850629448890686, "Quantum sensing Detection": 0.6680089235305786, "Quantum sensing Metrology": 0.6833248138427734, "Quantum sensing navigation": 0.6964114904403687, "Quantum sensing Position": 0.6789563298225403, "Quantum sensing Timing": 0.6646694540977478, "Quantum sensing": 0.6767014861106873, "Quantum control": 0.6490578651428223 } }, { "id": 7102, "title": "Tuning skyrmions in B20 compounds by 4d and 5d doping", "abstract": "Skyrmion stabilization in novel magnetic systems with the B20 crystal structure is reported here, primarily based on theoretical results. The focus is on the effect of alloying on the 3d sublattice of...", "citations": 12, "author_count": 14, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7109, "doi": "10.1103/PhysRevMaterials.6.084401", "umap_coordinates": { "x": 393.1434631347656, "y": 135.63722229003906, "z": 208.49313354492188 }, "tsne_coordinates": { "x": 2.7930662631988525, "y": -31.13445472717285, "z": 18.40900993347168 }, "pca_coordinates": { "x": 1.5789275169372559, "y": -2.2193045616149902, "z": -1.547010064125061 }, "axis_scores": { "Quantum imaging": 0.7072405815124512, "Quantum Life Science Sensing": 0.7311862707138062, "Quantum sensing Detection": 0.6849104762077332, "Quantum sensing Metrology": 0.7011921405792236, "Quantum sensing navigation": 0.7187104225158691, "Quantum sensing Position": 0.6882712244987488, "Quantum sensing Timing": 0.6708441972732544, "Quantum sensing": 0.7103143930435181, "Quantum control": 0.681587278842926 } }, { "id": 7103, "title": "Band filling effects on the emergence of magnetic skyrmions: Pd/Fe and Pd/Co bilayers on Ir(111)", "abstract": "Structurally similar transition metal systems can have widely differing magnetic properties. A prime example of this is found for bilayers on Ir(111), where the Pd/Fe/Ir(111) ground state has a well-e...", "citations": 10, "author_count": 5, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7110, "doi": "10.1103/PhysRevB.105.224413", "umap_coordinates": { "x": 392.98236083984375, "y": 136.24099731445312, "z": 208.9604949951172 }, "tsne_coordinates": { "x": 9.623123168945312, "y": -38.626033782958984, "z": 17.619197845458984 }, "pca_coordinates": { "x": 1.8391492366790771, "y": -2.2941999435424805, "z": -1.9195997714996338 }, "axis_scores": { "Quantum imaging": 0.7125744819641113, "Quantum Life Science Sensing": 0.7188677191734314, "Quantum sensing Detection": 0.6828033924102783, "Quantum sensing Metrology": 0.6804713606834412, "Quantum sensing navigation": 0.6740527153015137, "Quantum sensing Position": 0.6584720015525818, "Quantum sensing Timing": 0.6557860970497131, "Quantum sensing": 0.6913231611251831, "Quantum control": 0.6717165112495422 } }, { "id": 7104, "title": "Coexistence of Two Components in Magnetic Excitations of La2-xSrxCuO4 (x=0.10 and 0.16)", "abstract": "To elucidate the spin dynamics of La2-xSrxCuO4, which couples with the charge degree of freedom, the spin excitations spanning the characteristic energy (E-cross similar to 35-40 meV) are investigated...", "citations": 9, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7111, "doi": "10.7566/JPSJ.89.114703", "umap_coordinates": { "x": 393.4572448730469, "y": 136.55062866210938, "z": 208.17245483398438 }, "tsne_coordinates": { "x": -9.661553382873535, "y": -39.1867790222168, "z": 16.5101375579834 }, "pca_coordinates": { "x": 1.413830280303955, "y": 0.3256850242614746, "z": -1.5851383209228516 }, "axis_scores": { "Quantum imaging": 0.6540086269378662, "Quantum Life Science Sensing": 0.6594464182853699, "Quantum sensing Detection": 0.6439309120178223, "Quantum sensing Metrology": 0.6265931129455566, "Quantum sensing navigation": 0.6332932114601135, "Quantum sensing Position": 0.6555482149124146, "Quantum sensing Timing": 0.6640777587890625, "Quantum sensing": 0.6518293023109436, "Quantum control": 0.6219078898429871 } }, { "id": 7105, "title": "Suppression of intervalley exchange coupling in the presence of momentum-dark states in transition metal dichalcogenides", "abstract": "Monolayers of transition metal dichalcogenides (TMDCs) are promising materials for valleytronic applications, since they possess two individually addressable excitonic transitions at the nonequivalent...", "citations": 28, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7112, "doi": "10.1103/PhysRevResearch.2.023322", "umap_coordinates": { "x": 393.1366882324219, "y": 135.97247314453125, "z": 208.29373168945312 }, "tsne_coordinates": { "x": 11.835083961486816, "y": -33.379825592041016, "z": 19.58718490600586 }, "pca_coordinates": { "x": 2.854936122894287, "y": -0.5963003635406494, "z": -0.9732290506362915 }, "axis_scores": { "Quantum imaging": 0.7199474573135376, "Quantum Life Science Sensing": 0.6915875673294067, "Quantum sensing Detection": 0.6913365125656128, "Quantum sensing Metrology": 0.6978022456169128, "Quantum sensing navigation": 0.6972516775131226, "Quantum sensing Position": 0.6926152110099792, "Quantum sensing Timing": 0.6947377920150757, "Quantum sensing": 0.6989234089851379, "Quantum control": 0.6790616512298584 } }, { "id": 7106, "title": "μSR magnetic properties of stoichiometric and under-stoichiometric PrP", "abstract": "Stoichiometric PrP has a crystal electric field (CEF) singlet ground state and no magnetic ordering down to 1 K. In contrast, non-stoichiometric PrP1-x (0.05 < x < 0.15) has been called an induced-mom...", "citations": 1, "author_count": 8, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7113, "doi": "10.1016/S0921-4526(00)00398-7", "umap_coordinates": { "x": 392.52911376953125, "y": 136.6934051513672, "z": 207.3084259033203 }, "tsne_coordinates": { "x": 14.73062515258789, "y": -15.364522933959961, "z": 25.698993682861328 }, "pca_coordinates": { "x": -1.346197247505188, "y": 1.5476481914520264, "z": -0.7147467732429504 }, "axis_scores": { "Quantum imaging": 0.7164403200149536, "Quantum Life Science Sensing": 0.7243432402610779, "Quantum sensing Detection": 0.6800030469894409, "Quantum sensing Metrology": 0.7200985550880432, "Quantum sensing navigation": 0.6861397624015808, "Quantum sensing Position": 0.6965947151184082, "Quantum sensing Timing": 0.6765995025634766, "Quantum sensing": 0.7054457068443298, "Quantum control": 0.6754390001296997 } }, { "id": 7107, "title": "Relativistic exchange interactions in CrX3 (X = Cl, Br, I) monolayers", "abstract": "It has been predicted theoretically and indirectly confirmed experimentally that single-layer CrX3 (X = Cl, Br, I) might be the prototypes of topological magnetic insulators (TMI). In this work, by us...", "citations": 86, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7114, "doi": "10.1103/PhysRevB.102.115162", "umap_coordinates": { "x": 393.7235412597656, "y": 136.3706817626953, "z": 208.76026916503906 }, "tsne_coordinates": { "x": 7.295599460601807, "y": -43.539039611816406, "z": 11.129961967468262 }, "pca_coordinates": { "x": 3.408370018005371, "y": -1.0684218406677246, "z": -2.553166389465332 }, "axis_scores": { "Quantum imaging": 0.6843725442886353, "Quantum Life Science Sensing": 0.6688432097434998, "Quantum sensing Detection": 0.6675236821174622, "Quantum sensing Metrology": 0.660953164100647, "Quantum sensing navigation": 0.6762751340866089, "Quantum sensing Position": 0.6588874459266663, "Quantum sensing Timing": 0.6573135852813721, "Quantum sensing": 0.68610680103302, "Quantum control": 0.6789762377738953 } }, { "id": 7108, "title": "Instability in domain wall dynamics in almost-compensated ferrimagnets", "abstract": "Nanoscale self-localized topological spin textures, such as domain walls and skyrmions, are of interest for the fundamental physics of magnets and spintronics applications. Ferrimagnets (FiMs), in the...", "citations": 2, "author_count": 6, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7115, "doi": "10.1103/m5zv-lbgl", "umap_coordinates": { "x": 393.4514465332031, "y": 137.11880493164062, "z": 208.30397033691406 }, "tsne_coordinates": { "x": -7.460788249969482, "y": -20.784618377685547, "z": 29.706207275390625 }, "pca_coordinates": { "x": 1.908724069595337, "y": 1.1196091175079346, "z": -2.6991875171661377 }, "axis_scores": { "Quantum imaging": 0.6571714878082275, "Quantum Life Science Sensing": 0.663804292678833, "Quantum sensing Detection": 0.6351577043533325, "Quantum sensing Metrology": 0.653437077999115, "Quantum sensing navigation": 0.6639158725738525, "Quantum sensing Position": 0.6295377016067505, "Quantum sensing Timing": 0.6202580332756042, "Quantum sensing": 0.6353465914726257, "Quantum control": 0.650498628616333 } }, { "id": 7109, "title": "Vibrational motions and nuclear spin relaxation in paramagnetic complexes: Hexaaquonickel(II) as an example", "abstract": "The proton paramagnetic relaxation enhancement (PRE) in an aqueous solution of nickel(II) is described in terms of electron spin relaxation caused by damped vibrational motions of E-g and T-2g symmetr...", "citations": 19, "author_count": 3, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7116, "doi": "10.1063/1.1446848", "umap_coordinates": { "x": 393.01806640625, "y": 136.64016723632812, "z": 207.8721160888672 }, "tsne_coordinates": { "x": 5.99586820602417, "y": -4.2556471824646, "z": 36.66672897338867 }, "pca_coordinates": { "x": 2.7416088581085205, "y": -0.8969402313232422, "z": -4.532577037811279 }, "axis_scores": { "Quantum imaging": 0.7194098234176636, "Quantum Life Science Sensing": 0.7092645168304443, "Quantum sensing Detection": 0.6843429207801819, "Quantum sensing Metrology": 0.6840305924415588, "Quantum sensing navigation": 0.6939794421195984, "Quantum sensing Position": 0.6608577966690063, "Quantum sensing Timing": 0.6581947207450867, "Quantum sensing": 0.7068450450897217, "Quantum control": 0.6949892640113831 } }, { "id": 7110, "title": "Heliknoton in a film of cubic chiral magnet", "abstract": "Cubic chiral magnets exhibit a remarkable diversity of two-dimensional topological magnetic textures, including skyrmions. However, the experimental confirmation of topological states localized in all...", "citations": 9, "author_count": 7, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7117, "doi": "10.3389/fphy.2023.1201018", "umap_coordinates": { "x": 393.1387634277344, "y": 136.3777618408203, "z": 207.2578887939453 }, "tsne_coordinates": { "x": -3.03444766998291, "y": -23.422868728637695, "z": 33.06620788574219 }, "pca_coordinates": { "x": 0.06167757511138916, "y": 0.6827559471130371, "z": -3.3379735946655273 }, "axis_scores": { "Quantum imaging": 0.7053306102752686, "Quantum Life Science Sensing": 0.7093591094017029, "Quantum sensing Detection": 0.6796008944511414, "Quantum sensing Metrology": 0.6780729293823242, "Quantum sensing navigation": 0.6893072724342346, "Quantum sensing Position": 0.6656554937362671, "Quantum sensing Timing": 0.6585181951522827, "Quantum sensing": 0.6919500827789307, "Quantum control": 0.6727374792098999 } }, { "id": 7111, "title": "A μSR study of the magnetic properties of Tb2CuIn3", "abstract": "Tb2CuIn3 shows exceptional magnetic behavior within the series of R2CuIn3 intermetallics (R denoting one of the rare earth elements), where long-range magnetic order is absent in favor of spin liquid ...", "citations": 2, "author_count": 6, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7118, "doi": "10.1088/0031-8949/87/05/055702", "umap_coordinates": { "x": 392.4700927734375, "y": 136.30332946777344, "z": 207.06422424316406 }, "tsne_coordinates": { "x": 16.656085968017578, "y": -15.626144409179688, "z": 26.467689514160156 }, "pca_coordinates": { "x": -0.7715446949005127, "y": 1.1271165609359741, "z": -0.945460855960846 }, "axis_scores": { "Quantum imaging": 0.6929100751876831, "Quantum Life Science Sensing": 0.6845417022705078, "Quantum sensing Detection": 0.6692740321159363, "Quantum sensing Metrology": 0.6829150915145874, "Quantum sensing navigation": 0.6763477325439453, "Quantum sensing Position": 0.6682937741279602, "Quantum sensing Timing": 0.6682870388031006, "Quantum sensing": 0.6860597729682922, "Quantum control": 0.6675761342048645 } }, { "id": 7112, "title": "A method for simulation of NOESY, ROESY, and off-resonance ROESY spectra", "abstract": "A formalism is proposed for simulation of NOESY, ROESY, and, more specifically, off-resonance ROESY nuclear magnetic resonance spectra. The off-resonance ROESY experiment has several advantages compar...", "citations": 30, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7119, "doi": "10.1006/jmre.1997.1252", "umap_coordinates": { "x": 392.90240478515625, "y": 137.1894073486328, "z": 206.37664794921875 }, "tsne_coordinates": { "x": 15.18074893951416, "y": 4.6015520095825195, "z": 34.433738708496094 }, "pca_coordinates": { "x": -1.3519208431243896, "y": 3.2144815921783447, "z": -0.3038961887359619 }, "axis_scores": { "Quantum imaging": 0.7289920449256897, "Quantum Life Science Sensing": 0.7459942102432251, "Quantum sensing Detection": 0.7066798806190491, "Quantum sensing Metrology": 0.7120218873023987, "Quantum sensing navigation": 0.6942110657691956, "Quantum sensing Position": 0.6629981994628906, "Quantum sensing Timing": 0.6901345252990723, "Quantum sensing": 0.7213909029960632, "Quantum control": 0.6892319321632385 } }, { "id": 7113, "title": "Thermally induced magnetic order from glassiness in elemental neodymium", "abstract": "At finite temperatures, fluctuations invariably introduce disorder and are responsible for ultimately destroying ordered phases. Here we present an unusual magnetic transition in elemental neodymium w...", "citations": 12, "author_count": 12, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7120, "doi": "10.1038/s41567-022-01633-9", "umap_coordinates": { "x": 392.643798828125, "y": 136.40280151367188, "z": 208.0052490234375 }, "tsne_coordinates": { "x": 8.735368728637695, "y": -30.790620803833008, "z": 24.943193435668945 }, "pca_coordinates": { "x": -0.32502198219299316, "y": -0.2922089099884033, "z": -3.7079696655273438 }, "axis_scores": { "Quantum imaging": 0.6701579689979553, "Quantum Life Science Sensing": 0.690794825553894, "Quantum sensing Detection": 0.6553567051887512, "Quantum sensing Metrology": 0.6553208827972412, "Quantum sensing navigation": 0.653484582901001, "Quantum sensing Position": 0.6348608732223511, "Quantum sensing Timing": 0.6560755968093872, "Quantum sensing": 0.6711339354515076, "Quantum control": 0.642841637134552 } }, { "id": 7114, "title": "Terahertz magnetic field enhancement in an asymmetric spiral metamaterial", "abstract": "We use finite element simulations in both the frequency and the time-domain to study the terahertz resonance characteristics of a metamaterial (MM) comprising a spiral connected to a straight arm. The...", "citations": 15, "author_count": 6, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7121, "doi": "10.1088/1361-6455/aae579", "umap_coordinates": { "x": 393.6146240234375, "y": 135.4293670654297, "z": 207.018798828125 }, "tsne_coordinates": { "x": 2.4041240215301514, "y": -18.423938751220703, "z": 34.58709716796875 }, "pca_coordinates": { "x": 0.0747683048248291, "y": 0.08458662033081055, "z": -0.04664546251296997 }, "axis_scores": { "Quantum imaging": 0.6780018210411072, "Quantum Life Science Sensing": 0.6562833189964294, "Quantum sensing Detection": 0.6461237668991089, "Quantum sensing Metrology": 0.6533948183059692, "Quantum sensing navigation": 0.6565271615982056, "Quantum sensing Position": 0.6273524165153503, "Quantum sensing Timing": 0.6423790454864502, "Quantum sensing": 0.6643723249435425, "Quantum control": 0.6436887979507446 } }, { "id": 7115, "title": "Spin-lattice couplings and effect of displacements on magnetic interactions of a skyrmion system PdFe/Ir(111)", "abstract": "PdFe/Ir(111) has attracted tremendous attention for next-generation spintronics devices due to existence of magnetic skyrmions with the external magnetic field. Our density functional theoretical calc...", "citations": 1, "author_count": 6, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7122, "doi": "10.21468/SciPostPhys.18.2.064", "umap_coordinates": { "x": 393.02984619140625, "y": 136.7005615234375, "z": 207.51336669921875 }, "tsne_coordinates": { "x": 10.052688598632812, "y": -39.50257873535156, "z": 17.579214096069336 }, "pca_coordinates": { "x": 0.7117236852645874, "y": 1.4384207725524902, "z": -1.2180941104888916 }, "axis_scores": { "Quantum imaging": 0.7156251668930054, "Quantum Life Science Sensing": 0.7178381681442261, "Quantum sensing Detection": 0.6852266788482666, "Quantum sensing Metrology": 0.6920751929283142, "Quantum sensing navigation": 0.702512800693512, "Quantum sensing Position": 0.7087417244911194, "Quantum sensing Timing": 0.7020462155342102, "Quantum sensing": 0.7016236782073975, "Quantum control": 0.699739396572113 } }, { "id": 7116, "title": "Calculated magnetic properties of an Fe1-xNix monolayer on Cu(001)", "abstract": "We present a detailed investigation of the magnetic properties of a single monolayer of Fe-Ni alloy film on Cu(001) substrate by means of the spin-polarized linear muffin-tin orbitals Green's-function...", "citations": 14, "author_count": 9, "categories": [ "Materials Science" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7123, "doi": "10.1103/PhysRevB.59.14417", "umap_coordinates": { "x": 393.4601745605469, "y": 136.05577087402344, "z": 209.15292358398438 }, "tsne_coordinates": { "x": 3.962165594100952, "y": -38.277103424072266, "z": 18.556148529052734 }, "pca_coordinates": { "x": 3.3439502716064453, "y": -1.6398897171020508, "z": -1.3455393314361572 }, "axis_scores": { "Quantum imaging": 0.6854969263076782, "Quantum Life Science Sensing": 0.6937113404273987, "Quantum sensing Detection": 0.6858858466148376, "Quantum sensing Metrology": 0.6903557777404785, "Quantum sensing navigation": 0.6837360858917236, "Quantum sensing Position": 0.6687935590744019, "Quantum sensing Timing": 0.6488496661186218, "Quantum sensing": 0.69624263048172, "Quantum control": 0.6820374131202698 } }, { "id": 7117, "title": "Microscopic Origin of Heisenberg and Non-Heisenberg Exchange Interactions in Ferromagnetic bcc Fe", "abstract": "By means of first principles calculations, we investigate the nature of exchange coupling in ferromagnetic bcc Fe on a microscopic level. Analyzing the basic electronic structure reveals a drastic dif...", "citations": 88, "author_count": 10, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7124, "doi": "10.1103/PhysRevLett.116.217202", "umap_coordinates": { "x": 393.44195556640625, "y": 136.4389190673828, "z": 209.03575134277344 }, "tsne_coordinates": { "x": -3.1255242824554443, "y": -38.0267448425293, "z": 17.121070861816406 }, "pca_coordinates": { "x": 3.4836831092834473, "y": -0.3980906009674072, "z": -2.9280128479003906 }, "axis_scores": { "Quantum imaging": 0.6996462941169739, "Quantum Life Science Sensing": 0.6944233179092407, "Quantum sensing Detection": 0.6777175068855286, "Quantum sensing Metrology": 0.6690772771835327, "Quantum sensing navigation": 0.6742300987243652, "Quantum sensing Position": 0.6532149314880371, "Quantum sensing Timing": 0.6684180498123169, "Quantum sensing": 0.692481279373169, "Quantum control": 0.6692212820053101 } }, { "id": 7118, "title": "Tuning Nuclear Quadrupole Resonance: A Novel Approach for the Design of Frequency-Selective MRI Contrast Agents", "abstract": "The interaction between water protons and suitable quadrupolar nuclei (QN) can lead to quadrupole relaxation enhancement (QRE) of proton spins, provided the resonance condition between both spin trans...", "citations": 19, "author_count": 12, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7125, "doi": "10.1103/PhysRevX.8.021076", "umap_coordinates": { "x": 393.3577575683594, "y": 136.55665588378906, "z": 207.59178161621094 }, "tsne_coordinates": { "x": -7.512575149536133, "y": -19.807451248168945, "z": 16.287723541259766 }, "pca_coordinates": { "x": 0.3494739532470703, "y": 1.012249231338501, "z": -0.8586718440055847 }, "axis_scores": { "Quantum imaging": 0.7198362350463867, "Quantum Life Science Sensing": 0.7243613004684448, "Quantum sensing Detection": 0.6879662275314331, "Quantum sensing Metrology": 0.6868977546691895, "Quantum sensing navigation": 0.7115901708602905, "Quantum sensing Position": 0.6653033494949341, "Quantum sensing Timing": 0.6754648685455322, "Quantum sensing": 0.7044776678085327, "Quantum control": 0.6956946849822998 } }, { "id": 7119, "title": "Ultrafast demagnetization of Pt magnetic moment in L10-FePt probed by magnetic circular dichroism at a hard x-ray free electron laser", "abstract": "Unraveling the origin of ultrafast demagnetization in multisublattice ferromagnetic materials requires femtosecond x-ray techniques to trace the magnetic moment dynamics on individual elements, but th...", "citations": 29, "author_count": 22, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7126, "doi": "10.1088/1367-2630/ab5ac2", "umap_coordinates": { "x": 393.0776672363281, "y": 136.12405395507812, "z": 207.33566284179688 }, "tsne_coordinates": { "x": 6.7299933433532715, "y": -28.9915714263916, "z": 28.048965454101562 }, "pca_coordinates": { "x": -0.3852270841598511, "y": 0.5047842264175415, "z": -1.7422547340393066 }, "axis_scores": { "Quantum imaging": 0.6963266134262085, "Quantum Life Science Sensing": 0.7190000414848328, "Quantum sensing Detection": 0.6810466647148132, "Quantum sensing Metrology": 0.6832536458969116, "Quantum sensing navigation": 0.65683913230896, "Quantum sensing Position": 0.6592956781387329, "Quantum sensing Timing": 0.6498662233352661, "Quantum sensing": 0.6967875957489014, "Quantum control": 0.6677732467651367 } }, { "id": 7120, "title": "Influence of nonlocal damping on magnon properties of ferromagnets", "abstract": "We study the influence of nonlocal damping on the magnon properties of Fe, Co, Ni, and Fe1-xCox (x = 30%, 50%) alloys. The Gilbert damping parameter is typically considered as a local scalar both in e...", "citations": 11, "author_count": 10, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7127, "doi": "10.1103/PhysRevB.108.014433", "umap_coordinates": { "x": 393.5530700683594, "y": 136.44175720214844, "z": 208.74705505371094 }, "tsne_coordinates": { "x": -4.705977916717529, "y": -29.796201705932617, "z": 8.075821876525879 }, "pca_coordinates": { "x": 3.422928810119629, "y": -0.14504456520080566, "z": -1.4477570056915283 }, "axis_scores": { "Quantum imaging": 0.7000073194503784, "Quantum Life Science Sensing": 0.7144429087638855, "Quantum sensing Detection": 0.6928272247314453, "Quantum sensing Metrology": 0.7033089399337769, "Quantum sensing navigation": 0.6838324069976807, "Quantum sensing Position": 0.6694148778915405, "Quantum sensing Timing": 0.651033341884613, "Quantum sensing": 0.7079514861106873, "Quantum control": 0.6853917837142944 } }, { "id": 7121, "title": "Dzyaloshinskii-Moriya interactions, Néel skyrmions and V4 magnetic clusters in multiferroic lacunar spinel GaV4S8", "abstract": "Using ab initio density functional theory with static mean-field correlations, we calculate the Heisenberg and Dzyaloshinskii-Moriya interactions (DMI) for an atomistic spin Hamiltonian for the lacuna...", "citations": 8, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7128, "doi": "10.1038/s41524-024-01232-7", "umap_coordinates": { "x": 392.3628234863281, "y": 136.05862426757812, "z": 207.20550537109375 }, "tsne_coordinates": { "x": 15.928892135620117, "y": -12.975647926330566, "z": 19.090259552001953 }, "pca_coordinates": { "x": -1.0399707555770874, "y": -0.3886599540710449, "z": -3.244419574737549 }, "axis_scores": { "Quantum imaging": 0.6688969135284424, "Quantum Life Science Sensing": 0.6767305731773376, "Quantum sensing Detection": 0.6253935694694519, "Quantum sensing Metrology": 0.6332448124885559, "Quantum sensing navigation": 0.6710247993469238, "Quantum sensing Position": 0.6365203857421875, "Quantum sensing Timing": 0.6123867034912109, "Quantum sensing": 0.6455810070037842, "Quantum control": 0.6463890075683594 } }, { "id": 7122, "title": "Spin and diamagnetism in linear and nonlinear optics - art. no. 043806", "abstract": "We present a local-field theory for spin and diamagnetism in linear and nonlinear optics. We examine all the processes contained in the Pauli Hamiltonian and its corresponding microscopic current dens...", "citations": 5, "author_count": 5, "categories": [ "Optics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7129, "doi": "10.1103/PhysRevA.70.043806", "umap_coordinates": { "x": 393.7772216796875, "y": 136.4712677001953, "z": 208.27366638183594 }, "tsne_coordinates": { "x": 3.745213747024536, "y": -33.430908203125, "z": 9.82181453704834 }, "pca_coordinates": { "x": 3.5761170387268066, "y": -0.2114107608795166, "z": -0.46258214116096497 }, "axis_scores": { "Quantum imaging": 0.7343968152999878, "Quantum Life Science Sensing": 0.7272219061851501, "Quantum sensing Detection": 0.7142874598503113, "Quantum sensing Metrology": 0.7096171975135803, "Quantum sensing navigation": 0.720122754573822, "Quantum sensing Position": 0.7044509053230286, "Quantum sensing Timing": 0.675957202911377, "Quantum sensing": 0.7232620120048523, "Quantum control": 0.6847397685050964 } }, { "id": 7123, "title": "Evolution of spin excitations from bulk to monolayer FeSe", "abstract": "In ultrathin films of FeSe grown on SrTiO3 (FeSe/STO), the superconducting transition temperature T-c is increased by almost an order of magnitude, raising questions on the pairing mechanism. As in ot...", "citations": 42, "author_count": 21, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7130, "doi": "10.1038/s41467-021-23317-3", "umap_coordinates": { "x": 392.52093505859375, "y": 135.9626007080078, "z": 207.42864990234375 }, "tsne_coordinates": { "x": 12.5318021774292, "y": -11.460914611816406, "z": 12.738554000854492 }, "pca_coordinates": { "x": 0.3681725263595581, "y": -1.9810481071472168, "z": -3.7907702922821045 }, "axis_scores": { "Quantum imaging": 0.7030414938926697, "Quantum Life Science Sensing": 0.7253202199935913, "Quantum sensing Detection": 0.6811535358428955, "Quantum sensing Metrology": 0.686074435710907, "Quantum sensing navigation": 0.6956813335418701, "Quantum sensing Position": 0.6838409900665283, "Quantum sensing Timing": 0.6322845220565796, "Quantum sensing": 0.7039597630500793, "Quantum control": 0.6780681610107422 } }, { "id": 7124, "title": "Random anisotropy causes wide distributions of relaxation rates in Tb-Mg-Zn quasicrystals and amorphous DyAg - art. no. 132413", "abstract": "Power-exponential zero-field (ZF) muon spin relaxation (muSR), where the power varies with temperature, as observed in icosahedral Tb8Mg42Zn50 and in amorphous (am-)DyAg, is shown to be consistent wit...", "citations": 11, "author_count": 4, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7131, "doi": "10.1103/PhysRevB.65.132413", "umap_coordinates": { "x": 393.1539306640625, "y": 136.03408813476562, "z": 208.68304443359375 }, "tsne_coordinates": { "x": -22.969711303710938, "y": 36.207950592041016, "z": 4.871279716491699 }, "pca_coordinates": { "x": 2.864659309387207, "y": -1.2110819816589355, "z": -1.4292453527450562 }, "axis_scores": { "Quantum imaging": 0.6842069625854492, "Quantum Life Science Sensing": 0.682169497013092, "Quantum sensing Detection": 0.67738276720047, "Quantum sensing Metrology": 0.6834710240364075, "Quantum sensing navigation": 0.6887964010238647, "Quantum sensing Position": 0.6422833800315857, "Quantum sensing Timing": 0.6864593625068665, "Quantum sensing": 0.6928989291191101, "Quantum control": 0.6832756400108337 } }, { "id": 7125, "title": "Stability and dynamics of magnetic skyrmions in FM/AFM heterostructures", "abstract": "Magnetic skyrmions have garnered attention for their potential roles in spintronic applications, such as information carriers in computation, data storage, and nano-oscillators due to their small size...", "citations": 2, "author_count": 6, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7132, "doi": "10.1103/PhysRevB.110.104430", "umap_coordinates": { "x": 393.124267578125, "y": 136.42709350585938, "z": 208.5712127685547 }, "tsne_coordinates": { "x": -0.44571083784103394, "y": -27.732192993164062, "z": 23.013479232788086 }, "pca_coordinates": { "x": 3.974790096282959, "y": -2.6841845512390137, "z": -3.4275169372558594 }, "axis_scores": { "Quantum imaging": 0.6852096915245056, "Quantum Life Science Sensing": 0.7196923494338989, "Quantum sensing Detection": 0.6668727993965149, "Quantum sensing Metrology": 0.6864877939224243, "Quantum sensing navigation": 0.7003801465034485, "Quantum sensing Position": 0.6729885935783386, "Quantum sensing Timing": 0.6482064723968506, "Quantum sensing": 0.6835007667541504, "Quantum control": 0.6829478740692139 } }, { "id": 7126, "title": "All-optical study of tunable ultrafast spin dynamics in [Co/Pd]/NiFe systems: the role of spin-twist structure on Gilbert damping", "abstract": "We investigate optically induced ultrafast magnetization dynamics in [Co(0.5 nm)/Pd(1 nm)](5)/NiFe(t) exchange-spring samples with tilted perpendicular magnetic anisotropy using a time-resolved magnet...", "citations": 11, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7133, "doi": "10.1039/c6ra12227b", "umap_coordinates": { "x": 392.2085876464844, "y": 136.34957885742188, "z": 206.83383178710938 }, "tsne_coordinates": { "x": 14.90222454071045, "y": -2.3222923278808594, "z": 19.924983978271484 }, "pca_coordinates": { "x": -0.1632375717163086, "y": -0.043480634689331055, "z": -2.687460422515869 }, "axis_scores": { "Quantum imaging": 0.7264091968536377, "Quantum Life Science Sensing": 0.7218268513679504, "Quantum sensing Detection": 0.6936907768249512, "Quantum sensing Metrology": 0.6876363754272461, "Quantum sensing navigation": 0.7001281976699829, "Quantum sensing Position": 0.6794651746749878, "Quantum sensing Timing": 0.6779573559761047, "Quantum sensing": 0.7094446420669556, "Quantum control": 0.72389155626297 } }, { "id": 7127, "title": "Tuning ultrafast demagnetization with ultrashort spin polarized currents in multi-sublattice ferrimagnets", "abstract": "Femtosecond laser pulses can be used to induce ultrafast changes of the magnetization in magnetic materials. Several microscopic mechanisms have been proposed to explain these observations, including ...", "citations": 3, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7134, "doi": "10.1038/s41467-025-58411-3", "umap_coordinates": { "x": 392.61700439453125, "y": 135.8688201904297, "z": 207.46426391601562 }, "tsne_coordinates": { "x": 6.260288715362549, "y": -25.47618293762207, "z": 27.177125930786133 }, "pca_coordinates": { "x": -1.0410969257354736, "y": -2.3932108879089355, "z": -1.063482403755188 }, "axis_scores": { "Quantum imaging": 0.7180416584014893, "Quantum Life Science Sensing": 0.7296603918075562, "Quantum sensing Detection": 0.6878356337547302, "Quantum sensing Metrology": 0.7148624062538147, "Quantum sensing navigation": 0.6988049149513245, "Quantum sensing Position": 0.6638402938842773, "Quantum sensing Timing": 0.6640869379043579, "Quantum sensing": 0.7108874320983887, "Quantum control": 0.6913437247276306 } }, { "id": 7128, "title": "Experimental NMRD profiles for some low-symmetry Ni(II) complexes (S=1) in solution and their interpretation using slow-motion theory", "abstract": "Experimental NMRD profiles for four Ni(II) complexes (S = 1) in solution have been interpreted using slow-motion theory. Rhombicity in the zero-field splitting (ZFS) and noncoinciding static ZFS and d...", "citations": 30, "author_count": 4, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7135, "doi": "10.1021/jp014010d", "umap_coordinates": { "x": 392.30767822265625, "y": 137.1085205078125, "z": 206.2944793701172 }, "tsne_coordinates": { "x": 7.510705471038818, "y": -0.5192118883132935, "z": 39.37173843383789 }, "pca_coordinates": { "x": -0.5559583902359009, "y": 1.2595319747924805, "z": -3.201669931411743 }, "axis_scores": { "Quantum imaging": 0.6601346731185913, "Quantum Life Science Sensing": 0.6701111197471619, "Quantum sensing Detection": 0.6220163702964783, "Quantum sensing Metrology": 0.6200641989707947, "Quantum sensing navigation": 0.67608243227005, "Quantum sensing Position": 0.6546624302864075, "Quantum sensing Timing": 0.6322092413902283, "Quantum sensing": 0.6337531805038452, "Quantum control": 0.6205888390541077 } }, { "id": 7129, "title": "Extraordinary two-dimensionality in the S=1/2 spatially anisotropic triangular quantum magnet Cu(1,3-diaminopropane)Cl2 with modulated structure", "abstract": "The growth of sufficiently large single crystals of Cu(tn)Cl2 (tn=1,3-diaminopropane) enabled specific heat and susceptibility studies in various field orientations. The nearly invisible broad hump in...", "citations": 2, "author_count": 13, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7136, "doi": "10.1103/PhysRevB.108.214432", "umap_coordinates": { "x": 393.1647033691406, "y": 136.09701538085938, "z": 208.11647033691406 }, "tsne_coordinates": { "x": -6.279175281524658, "y": -28.923185348510742, "z": 19.343400955200195 }, "pca_coordinates": { "x": 2.1581645011901855, "y": -1.9569993019104004, "z": -0.9770777225494385 }, "axis_scores": { "Quantum imaging": 0.7280392050743103, "Quantum Life Science Sensing": 0.7198085188865662, "Quantum sensing Detection": 0.716225802898407, "Quantum sensing Metrology": 0.7153705954551697, "Quantum sensing navigation": 0.7126239538192749, "Quantum sensing Position": 0.68784099817276, "Quantum sensing Timing": 0.679063081741333, "Quantum sensing": 0.7272630929946899, "Quantum control": 0.7289599776268005 } }, { "id": 7130, "title": "Additive interfacial Dzyaloshinskii-Moriya interaction in the monolayer-MoS2/Co/Pt asymmetric trilayer system", "abstract": "The observation of a substantial interfacial Dzyaloshinskii-Moriya interaction (IDMI) in twodimensional (2D) transition-metal dichalcogenide (TMD)/ferromagnet (FM) interfaces has opened up the possibi...", "citations": 1, "author_count": 8, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7137, "doi": "10.1103/PhysRevApplied.22.064088", "umap_coordinates": { "x": 393.392822265625, "y": 135.73992919921875, "z": 208.91082763671875 }, "tsne_coordinates": { "x": 14.816978454589844, "y": -41.833744049072266, "z": 11.666365623474121 }, "pca_coordinates": { "x": 1.417633295059204, "y": -1.8151288032531738, "z": -1.005983591079712 }, "axis_scores": { "Quantum imaging": 0.6894155144691467, "Quantum Life Science Sensing": 0.6715936064720154, "Quantum sensing Detection": 0.6626380681991577, "Quantum sensing Metrology": 0.6623767614364624, "Quantum sensing navigation": 0.6443033814430237, "Quantum sensing Position": 0.6457692980766296, "Quantum sensing Timing": 0.6579458713531494, "Quantum sensing": 0.6772332787513733, "Quantum control": 0.6591790914535522 } }, { "id": 7131, "title": "High-frequency magnon excitation due to femtosecond spin-transfer torques", "abstract": "Femtosecond laser pulses can induce ultrafast demagnetization as well as generate bursts of hot-electron spin currents. In trilayer spin valves consisting of two metallic ferromagnetic layers separate...", "citations": 19, "author_count": 6, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7138, "doi": "10.1103/PhysRevB.101.174427", "umap_coordinates": { "x": 393.31414794921875, "y": 136.4155731201172, "z": 208.38357543945312 }, "tsne_coordinates": { "x": 4.582311153411865, "y": -32.2180061340332, "z": 26.115644454956055 }, "pca_coordinates": { "x": 2.9086313247680664, "y": -1.1537489891052246, "z": -0.59764564037323 }, "axis_scores": { "Quantum imaging": 0.6780277490615845, "Quantum Life Science Sensing": 0.6792659163475037, "Quantum sensing Detection": 0.6685275435447693, "Quantum sensing Metrology": 0.6834176778793335, "Quantum sensing navigation": 0.649275541305542, "Quantum sensing Position": 0.6420382261276245, "Quantum sensing Timing": 0.6634053587913513, "Quantum sensing": 0.682336688041687, "Quantum control": 0.6628538370132446 } }, { "id": 7132, "title": "Charge-state dependent spin-orbit coupling and quantum phase transitions in Ir-Ru oxides", "abstract": "The competition between kinematic, relativistic, and Coulomb interactions has spurred intense experimental and theoretical investigations in iridium-based oxides. Their electronic structure is mostly ...", "citations": 2, "author_count": 8, "categories": [ "Materials Science" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7139, "doi": "10.1103/PhysRevB.111.195148", "umap_coordinates": { "x": 393.6282043457031, "y": 136.2451629638672, "z": 208.89852905273438 }, "tsne_coordinates": { "x": 11.172541618347168, "y": -37.828731536865234, "z": 19.31548500061035 }, "pca_coordinates": { "x": 3.952882766723633, "y": -1.470689296722412, "z": -1.3861596584320068 }, "axis_scores": { "Quantum imaging": 0.716023325920105, "Quantum Life Science Sensing": 0.7433238625526428, "Quantum sensing Detection": 0.7201230525970459, "Quantum sensing Metrology": 0.6993148922920227, "Quantum sensing navigation": 0.7085008025169373, "Quantum sensing Position": 0.6757254600524902, "Quantum sensing Timing": 0.681343674659729, "Quantum sensing": 0.7329223155975342, "Quantum control": 0.7150394320487976 } }, { "id": 7133, "title": "Joint analysis of ESR lineshapes and 1H NMRD profiles of DOTA-Gd derivatives by means of the slow motion theory", "abstract": "The Swedish slow motion theory [Nilsson and Kowalewski, J. Magn. Reson. 146, 345 (2000)] applied so far to Nuclear Magnetic Relaxation Dispersion (NMRD) profiles for solutions of transition metal ion ...", "citations": 30, "author_count": 8, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7140, "doi": "10.1063/1.3516590", "umap_coordinates": { "x": 392.76312255859375, "y": 136.85760498046875, "z": 207.29331970214844 }, "tsne_coordinates": { "x": 8.343225479125977, "y": -0.2611329257488251, "z": 38.34599685668945 }, "pca_coordinates": { "x": 1.3993196487426758, "y": 0.24890947341918945, "z": -0.9885305166244507 }, "axis_scores": { "Quantum imaging": 0.723663330078125, "Quantum Life Science Sensing": 0.72301185131073, "Quantum sensing Detection": 0.7006339430809021, "Quantum sensing Metrology": 0.697822093963623, "Quantum sensing navigation": 0.7336241006851196, "Quantum sensing Position": 0.6952877640724182, "Quantum sensing Timing": 0.6934996247291565, "Quantum sensing": 0.7086910009384155, "Quantum control": 0.6954763531684875 } }, { "id": 7134, "title": "Origin of the Invar effect in iron-nickel alloys", "abstract": "In 1897 Guillaume(1) discovered that face-centred cubic alloys of iron and nickel with a nickel concentration of around 35 atomic per cent exhibit anomalously low (almost zero) thermal expansion over ...", "citations": 570, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7141, "doi": "10.1038/21848", "umap_coordinates": { "x": 392.8194885253906, "y": 135.58969116210938, "z": 207.79989624023438 }, "tsne_coordinates": { "x": 0.68892902135849, "y": -41.42978286743164, "z": 21.5250186920166 }, "pca_coordinates": { "x": -0.5756776332855225, "y": 0.8696550130844116, "z": -1.1943120956420898 }, "axis_scores": { "Quantum imaging": 0.7015847563743591, "Quantum Life Science Sensing": 0.6884838342666626, "Quantum sensing Detection": 0.6728231906890869, "Quantum sensing Metrology": 0.6621523499488831, "Quantum sensing navigation": 0.6815442442893982, "Quantum sensing Position": 0.6622356176376343, "Quantum sensing Timing": 0.6458434462547302, "Quantum sensing": 0.6808359026908875, "Quantum control": 0.6545431017875671 } }, { "id": 7135, "title": "Strongly anharmonic collective modes in a coupled electron-phonon-spin problem", "abstract": "We solve for the finite temperature collective mode dynamics in the Holstein-double-exchange problem, using coupled Langevin equations for the phonon and spin variables. We present results in a strong...", "citations": 3, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7142, "doi": "10.1103/PhysRevB.101.125130", "umap_coordinates": { "x": 394.08551025390625, "y": 135.89083862304688, "z": 208.50392150878906 }, "tsne_coordinates": { "x": -4.218987464904785, "y": -19.23900032043457, "z": 6.507579803466797 }, "pca_coordinates": { "x": 4.327168941497803, "y": -2.2224555015563965, "z": -0.09170138835906982 }, "axis_scores": { "Quantum imaging": 0.707800567150116, "Quantum Life Science Sensing": 0.7038495540618896, "Quantum sensing Detection": 0.7158612608909607, "Quantum sensing Metrology": 0.6966176629066467, "Quantum sensing navigation": 0.7056757211685181, "Quantum sensing Position": 0.6846878528594971, "Quantum sensing Timing": 0.6628196239471436, "Quantum sensing": 0.7261934280395508, "Quantum control": 0.7010937929153442 } }, { "id": 7136, "title": "1H relaxation dispersion in solutions of nitroxide radicals: Effects of hyperfine interactions with 14N and 15N nuclei", "abstract": "H-1 relaxation dispersion of decalin and glycerol solutions of nitroxide radicals, 4-oxo-TEMPO-d(16)-N-15 and 4-oxo-TEMPO-d(16)-N-14 was measured in the frequency range of 10 kHz-20 MHz (for H-1) usin...", "citations": 15, "author_count": 6, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7143, "doi": "10.1063/1.4736854", "umap_coordinates": { "x": 393.1777038574219, "y": 136.3465118408203, "z": 207.3313446044922 }, "tsne_coordinates": { "x": 8.016561508178711, "y": -4.3582682609558105, "z": 36.32401657104492 }, "pca_coordinates": { "x": 0.956249475479126, "y": 0.5169996023178101, "z": -2.3666880130767822 }, "axis_scores": { "Quantum imaging": 0.6889193058013916, "Quantum Life Science Sensing": 0.6930045485496521, "Quantum sensing Detection": 0.6605628728866577, "Quantum sensing Metrology": 0.6491079330444336, "Quantum sensing navigation": 0.675456702709198, "Quantum sensing Position": 0.6640157103538513, "Quantum sensing Timing": 0.6487963795661926, "Quantum sensing": 0.6767193078994751, "Quantum control": 0.6689270734786987 } }, { "id": 7137, "title": "Microscopic theory of current-induced skyrmion transport and its application in disordered spin textures", "abstract": "Introduction: Magnetic skyrmions hold great promise for realizing compact and stable memory devices that can be manipulated at very low energy costs via electronic current densities.Methods: In this w...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7144, "doi": "10.3389/fphy.2023.1340288", "umap_coordinates": { "x": 393.5791015625, "y": 137.2586669921875, "z": 207.53085327148438 }, "tsne_coordinates": { "x": -2.381826400756836, "y": -23.991880416870117, "z": 32.97248840332031 }, "pca_coordinates": { "x": 0.4570862054824829, "y": 1.1202943325042725, "z": -2.5431787967681885 }, "axis_scores": { "Quantum imaging": 0.7232890129089355, "Quantum Life Science Sensing": 0.7035722136497498, "Quantum sensing Detection": 0.6810141801834106, "Quantum sensing Metrology": 0.6749429702758789, "Quantum sensing navigation": 0.708123505115509, "Quantum sensing Position": 0.6643884181976318, "Quantum sensing Timing": 0.6763510704040527, "Quantum sensing": 0.702643096446991, "Quantum control": 0.6939603090286255 } }, { "id": 7138, "title": "The Stern-Gerlach experiment and the effects of spin relaxation", "abstract": "The classical Stern-Gerlach experiment is analyzed with an emphasis on the spin dynamics. The central question asked is whether there occurs a relaxation of the spin angular momentum during the time t...", "citations": 13, "author_count": 3, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7145, "doi": "10.1039/c2cp22173j", "umap_coordinates": { "x": 392.3658142089844, "y": 136.6874237060547, "z": 206.16619873046875 }, "tsne_coordinates": { "x": 2.802548408508301, "y": -8.480191230773926, "z": 21.08489418029785 }, "pca_coordinates": { "x": -0.7062854170799255, "y": 2.3166396617889404, "z": -3.702878952026367 }, "axis_scores": { "Quantum imaging": 0.6695534586906433, "Quantum Life Science Sensing": 0.7117355465888977, "Quantum sensing Detection": 0.6728720664978027, "Quantum sensing Metrology": 0.6612411737442017, "Quantum sensing navigation": 0.666481614112854, "Quantum sensing Position": 0.6511972546577454, "Quantum sensing Timing": 0.6597367525100708, "Quantum sensing": 0.6885061860084534, "Quantum control": 0.6769527196884155 } }, { "id": 7139, "title": "Theory of superdiffusive spin transport in noncollinear magnetic multilayers", "abstract": "Ultrafast demagnetization induced by femtosecond laser pulses in thin metallic layers is caused by the outflow of spin-polarized hot-electron currents describable by the superdiffusive transport model...", "citations": 6, "author_count": 7, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7146, "doi": "10.1103/PhysRevB.107.174418", "umap_coordinates": { "x": 393.5993347167969, "y": 136.0803985595703, "z": 209.19419860839844 }, "tsne_coordinates": { "x": 0.3172496259212494, "y": -28.3236083984375, "z": 18.76665496826172 }, "pca_coordinates": { "x": 4.00109338760376, "y": -1.1246516704559326, "z": -0.56302410364151 }, "axis_scores": { "Quantum imaging": 0.7040064334869385, "Quantum Life Science Sensing": 0.7079905271530151, "Quantum sensing Detection": 0.6939211487770081, "Quantum sensing Metrology": 0.6963400840759277, "Quantum sensing navigation": 0.6993784308433533, "Quantum sensing Position": 0.6696326732635498, "Quantum sensing Timing": 0.6699339151382446, "Quantum sensing": 0.7029901742935181, "Quantum control": 0.6693801879882812 } }, { "id": 7140, "title": "Machine learning approach for longitudinal spin fluctuation effects in bcc Fe at Tc and under Earth-core conditions", "abstract": "We propose a machine learning approach to predict the shapes of the longitudinal spin fluctuation (LSF) energy landscapes for each local magnetic moment. This approach allows the inclusion of the effe...", "citations": 7, "author_count": 5, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7147, "doi": "10.1103/PhysRevB.105.144417", "umap_coordinates": { "x": 393.5874328613281, "y": 136.9662628173828, "z": 208.5347900390625 }, "tsne_coordinates": { "x": 1.5942753553390503, "y": -38.740718841552734, "z": 6.820338249206543 }, "pca_coordinates": { "x": 2.7789275646209717, "y": 0.26812171936035156, "z": -1.7673187255859375 }, "axis_scores": { "Quantum imaging": 0.707169234752655, "Quantum Life Science Sensing": 0.7294092774391174, "Quantum sensing Detection": 0.7065840363502502, "Quantum sensing Metrology": 0.7093638777732849, "Quantum sensing navigation": 0.7166330218315125, "Quantum sensing Position": 0.6979221105575562, "Quantum sensing Timing": 0.6929351091384888, "Quantum sensing": 0.7143130302429199, "Quantum control": 0.714009165763855 } }, { "id": 7141, "title": "Structure and magneto-transport parameters of partially relaxed and coherently grown La0.67Ba0.33MnO3 films", "abstract": "X-ray diffraction (XRD) and medium-energy ion scattering (MEIS) have been used to reveal distortions in the crystal lattice of La0.67Ba0.33MnO3 (LBMO) films formed in relaxation of mechanical stresses...", "citations": 4, "author_count": 7, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7148, "doi": "10.1134/S1063783413100065", "umap_coordinates": { "x": 392.2502746582031, "y": 136.10415649414062, "z": 207.2128448486328 }, "tsne_coordinates": { "x": 10.252922058105469, "y": -16.988759994506836, "z": 23.98876953125 }, "pca_coordinates": { "x": 0.7409467697143555, "y": -0.25757837295532227, "z": -0.7349826097488403 }, "axis_scores": { "Quantum imaging": 0.6776254177093506, "Quantum Life Science Sensing": 0.6902425289154053, "Quantum sensing Detection": 0.6438589096069336, "Quantum sensing Metrology": 0.686193585395813, "Quantum sensing navigation": 0.677526593208313, "Quantum sensing Position": 0.6754984259605408, "Quantum sensing Timing": 0.6429318189620972, "Quantum sensing": 0.6754371523857117, "Quantum control": 0.6477065086364746 } }, { "id": 7142, "title": "Nuclear spin relaxation in paramagnetic systems with zero-field splitting and arbitrary electron spin", "abstract": "A complete theory for paramagnetic relaxation enhancement (PRE) and its dependence on the magnetic field is developed for systems with electron spin S = 1, 3/2, 2, 5/2, 3 and 7/2, characterised by the...", "citations": 91, "author_count": 4, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7149, "doi": "10.1039/b106659p", "umap_coordinates": { "x": 392.92437744140625, "y": 137.1311492919922, "z": 207.79949951171875 }, "tsne_coordinates": { "x": -0.8767368197441101, "y": -40.95016098022461, "z": 10.349910736083984 }, "pca_coordinates": { "x": 2.8628458976745605, "y": 0.3025670051574707, "z": -3.420088291168213 }, "axis_scores": { "Quantum imaging": 0.6945685744285583, "Quantum Life Science Sensing": 0.7024738788604736, "Quantum sensing Detection": 0.6662445068359375, "Quantum sensing Metrology": 0.6600754857063293, "Quantum sensing navigation": 0.6806028485298157, "Quantum sensing Position": 0.649520754814148, "Quantum sensing Timing": 0.6464197635650635, "Quantum sensing": 0.6838423013687134, "Quantum control": 0.6783471703529358 } }, { "id": 7143, "title": "Computer-intensive simulation of solid-state NMR experiments using SIMPSON", "abstract": "Conducting large-scale solid-state NMR simulations requires fast computer software potentially in combination with efficient computational resources to complete within a reasonable time frame. Such si...", "citations": 174, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7150, "doi": "10.1016/j.jmr.2014.07.002", "umap_coordinates": { "x": 392.548828125, "y": 137.27308654785156, "z": 206.29908752441406 }, "tsne_coordinates": { "x": 9.807666778564453, "y": 4.904008388519287, "z": 30.439456939697266 }, "pca_coordinates": { "x": -0.7282097339630127, "y": 3.313192129135132, "z": -0.29772719740867615 }, "axis_scores": { "Quantum imaging": 0.6849594116210938, "Quantum Life Science Sensing": 0.697566568851471, "Quantum sensing Detection": 0.667055070400238, "Quantum sensing Metrology": 0.6666202545166016, "Quantum sensing navigation": 0.6646483540534973, "Quantum sensing Position": 0.6439530849456787, "Quantum sensing Timing": 0.6584030389785767, "Quantum sensing": 0.6823921799659729, "Quantum control": 0.6435821652412415 } }, { "id": 7144, "title": "Single-Molecule Magnets DyM2N@C80 and Dy2MN@C80 (M=Sc, Lu): The Impact of Diamagnetic Metals on Dy3+ Magnetic Anisotropy, Dy••Dy Coupling, and Mixing of Molecular and Lattice Vibrations", "abstract": "The substitution of scandium in fullerene single-molecule magnets (SMMs) DySc2N@C-80 and Dy2ScN@C-80 by lutetium has been studied to explore the influence of the diamagnetic metal on the SMM performan...", "citations": 32, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7151, "doi": "10.1002/chem.201904879", "umap_coordinates": { "x": 392.0447998046875, "y": 136.01597595214844, "z": 206.86773681640625 }, "tsne_coordinates": { "x": 18.294082641601562, "y": -30.745922088623047, "z": 21.370054244995117 }, "pca_coordinates": { "x": -1.4439724683761597, "y": -1.478442668914795, "z": -3.8793370723724365 }, "axis_scores": { "Quantum imaging": 0.6889400482177734, "Quantum Life Science Sensing": 0.6926242709159851, "Quantum sensing Detection": 0.6743850708007812, "Quantum sensing Metrology": 0.6802984476089478, "Quantum sensing navigation": 0.6673616170883179, "Quantum sensing Position": 0.6458896994590759, "Quantum sensing Timing": 0.6451815366744995, "Quantum sensing": 0.6915735006332397, "Quantum control": 0.6845159530639648 } }, { "id": 7145, "title": "Engineering skyrmion from spin spiral in transition metal multilayers", "abstract": "Skyrmions having topologically protected field configurations with particle-like properties play an important role in various fields of science. Our present study focus on the generation of skyrmion f...", "citations": 3, "author_count": 2, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7152, "doi": "10.1088/1361-648X/ad9da8", "umap_coordinates": { "x": 393.8831481933594, "y": 136.22946166992188, "z": 207.00643920898438 }, "tsne_coordinates": { "x": 2.9497761726379395, "y": -15.982084274291992, "z": 34.90191650390625 }, "pca_coordinates": { "x": 0.6170656681060791, "y": -0.1716170310974121, "z": -1.673691987991333 }, "axis_scores": { "Quantum imaging": 0.6836156845092773, "Quantum Life Science Sensing": 0.6918804049491882, "Quantum sensing Detection": 0.6572886109352112, "Quantum sensing Metrology": 0.6561384797096252, "Quantum sensing navigation": 0.6852047443389893, "Quantum sensing Position": 0.6495685577392578, "Quantum sensing Timing": 0.6412904262542725, "Quantum sensing": 0.6757465600967407, "Quantum control": 0.6706881523132324 } }, { "id": 7146, "title": "Nuclear spin relaxation in paramagnetic complexes of S=1:: Electron spin relaxation effects", "abstract": "Electron spin relaxation for an S=1 system and its field dependence in the presence of static zero-field splitting (ZFS) has been described and incorporated in a model for nuclear spin-lattice relaxat...", "citations": 102, "author_count": 6, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7153, "doi": "10.1063/1.479876", "umap_coordinates": { "x": 392.78265380859375, "y": 136.28717041015625, "z": 207.8387451171875 }, "tsne_coordinates": { "x": 7.17991304397583, "y": -3.0853984355926514, "z": 36.87945556640625 }, "pca_coordinates": { "x": 1.3405940532684326, "y": -0.5168757438659668, "z": -3.314873218536377 }, "axis_scores": { "Quantum imaging": 0.7013229131698608, "Quantum Life Science Sensing": 0.7148751020431519, "Quantum sensing Detection": 0.6757515072822571, "Quantum sensing Metrology": 0.6617698669433594, "Quantum sensing navigation": 0.6801964044570923, "Quantum sensing Position": 0.6536476016044617, "Quantum sensing Timing": 0.6541508436203003, "Quantum sensing": 0.6918191909790039, "Quantum control": 0.6647961139678955 } }, { "id": 7147, "title": "Carbon-chain chemistry in the interstellar medium", "abstract": "The presence of carbon-chain molecules in the interstellar medium (ISM) has been known since the early 1970s and \\(>130\\) such species have been identified to date, making up similar to 43\\)% of the t...", "citations": 30, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7154, "doi": "10.1007/s10509-024-04292-9", "umap_coordinates": { "x": 393.4403076171875, "y": 137.05520629882812, "z": 205.2089080810547 }, "tsne_coordinates": { "x": -2.0743346214294434, "y": 22.19634246826172, "z": 20.117197036743164 }, "pca_coordinates": { "x": -1.174082636833191, "y": 2.1106343269348145, "z": -1.8660292625427246 }, "axis_scores": { "Quantum imaging": 0.6703931093215942, "Quantum Life Science Sensing": 0.7003301382064819, "Quantum sensing Detection": 0.6451424956321716, "Quantum sensing Metrology": 0.6300046443939209, "Quantum sensing navigation": 0.6514179110527039, "Quantum sensing Position": 0.6403384804725647, "Quantum sensing Timing": 0.6446071267127991, "Quantum sensing": 0.6601568460464478, "Quantum control": 0.6412624716758728 } }, { "id": 7148, "title": "Aggregation-induced emission: An illuminator in the brain", "abstract": "The brain is the central control hub of the whole body. Hence, the consequences of brain diseases can be lethal. Despite the progress in fundamental and clinical research, several key obstacles remain...", "citations": 36, "author_count": 8, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7155, "doi": "10.1016/j.ccr.2023.215070", "umap_coordinates": { "x": 394.6007080078125, "y": 134.42433166503906, "z": 204.80819702148438 }, "tsne_coordinates": { "x": 4.374156475067139, "y": 25.63320541381836, "z": -2.1984946727752686 }, "pca_coordinates": { "x": -2.554414987564087, "y": 0.398195743560791, "z": -0.30839625000953674 }, "axis_scores": { "Quantum imaging": 0.7151170372962952, "Quantum Life Science Sensing": 0.7000696063041687, "Quantum sensing Detection": 0.6973787546157837, "Quantum sensing Metrology": 0.67596036195755, "Quantum sensing navigation": 0.68813556432724, "Quantum sensing Position": 0.6673288345336914, "Quantum sensing Timing": 0.6567630767822266, "Quantum sensing": 0.6968976259231567, "Quantum control": 0.6735910773277283 } }, { "id": 7149, "title": "An Insight into the Excitation States of Small Molecular Semiconductor Y6", "abstract": "Y6 is a new type of non-fullerene acceptor, which has led to power conversion efficiencies of single-junction polymer solar cells over 17% when combined with a careful choice of polymeric donors. Howe...", "citations": 47, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7156, "doi": "10.3390/molecules25184118", "umap_coordinates": { "x": 393.0364990234375, "y": 135.68630981445312, "z": 205.1822052001953 }, "tsne_coordinates": { "x": 33.79819107055664, "y": 23.114093780517578, "z": -9.490851402282715 }, "pca_coordinates": { "x": -0.7121267318725586, "y": -1.4781279563903809, "z": -2.3974499702453613 }, "axis_scores": { "Quantum imaging": 0.6991315484046936, "Quantum Life Science Sensing": 0.7318891882896423, "Quantum sensing Detection": 0.6930616497993469, "Quantum sensing Metrology": 0.6730815172195435, "Quantum sensing navigation": 0.6852685213088989, "Quantum sensing Position": 0.6540883779525757, "Quantum sensing Timing": 0.6592329740524292, "Quantum sensing": 0.710794985294342, "Quantum control": 0.6722115874290466 } }, { "id": 7150, "title": "Protein-Protein Interactions in Reversibly Assembled Nanopatterns", "abstract": "We describe herein a platform to study protein-protein interactions and to form functional protein complexes in nanoscopic surface domains. For this purpose, we employed multivalent chelator (MCh) tem...", "citations": 36, "author_count": 7, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7157, "doi": "10.1021/nl801892m", "umap_coordinates": { "x": 393.21142578125, "y": 135.57569885253906, "z": 204.83836364746094 }, "tsne_coordinates": { "x": 21.197879791259766, "y": 15.242673873901367, "z": 13.37205982208252 }, "pca_coordinates": { "x": -0.34297120571136475, "y": -1.482478380203247, "z": -2.375147819519043 }, "axis_scores": { "Quantum imaging": 0.7058230042457581, "Quantum Life Science Sensing": 0.741757333278656, "Quantum sensing Detection": 0.6982809901237488, "Quantum sensing Metrology": 0.7048165798187256, "Quantum sensing navigation": 0.723444402217865, "Quantum sensing Position": 0.7004615068435669, "Quantum sensing Timing": 0.6760871410369873, "Quantum sensing": 0.719773530960083, "Quantum control": 0.6778491735458374 } }, { "id": 7151, "title": "Carbon nanotube-containing photorefractive polymer composites operating at telecommunication wavelengths", "abstract": "The field dependences of photocurrent, the two-beam coupling gain coefficient, and the grating formation time constant in polymer composites made from polyvinylcarbazole (PVK) and single-wall carbon n...", "citations": 11, "author_count": 8, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7158, "doi": "10.1134/S0018143907040091", "umap_coordinates": { "x": 393.4123840332031, "y": 134.8859100341797, "z": 205.29937744140625 }, "tsne_coordinates": { "x": 7.88944673538208, "y": 18.438203811645508, "z": -8.599959373474121 }, "pca_coordinates": { "x": -2.6022772789001465, "y": -1.090263843536377, "z": 1.4084320068359375 }, "axis_scores": { "Quantum imaging": 0.656722366809845, "Quantum Life Science Sensing": 0.6925002932548523, "Quantum sensing Detection": 0.6596666574478149, "Quantum sensing Metrology": 0.6570233702659607, "Quantum sensing navigation": 0.6557245850563049, "Quantum sensing Position": 0.6589174270629883, "Quantum sensing Timing": 0.6532983183860779, "Quantum sensing": 0.6736759543418884, "Quantum control": 0.6314334869384766 } }, { "id": 7152, "title": "Quantitative digital microscopy with deep learning", "abstract": "Video microscopy has a long history of providing insight and breakthroughs for a broad range of disciplines, from physics to biology. Image analysis to extract quantitative information from video micr...", "citations": 100, "author_count": 7, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7159, "doi": "10.1063/5.0034891", "umap_coordinates": { "x": 395.0706481933594, "y": 135.19784545898438, "z": 206.48252868652344 }, "tsne_coordinates": { "x": -24.04056167602539, "y": -15.556042671203613, "z": -11.68799114227295 }, "pca_coordinates": { "x": 0.5307009220123291, "y": 0.8206799030303955, "z": 2.981008768081665 }, "axis_scores": { "Quantum imaging": 0.7838689088821411, "Quantum Life Science Sensing": 0.7524087429046631, "Quantum sensing Detection": 0.7509527802467346, "Quantum sensing Metrology": 0.762840986251831, "Quantum sensing navigation": 0.7425744533538818, "Quantum sensing Position": 0.7101107239723206, "Quantum sensing Timing": 0.6950457692146301, "Quantum sensing": 0.7645756602287292, "Quantum control": 0.7172523140907288 } }, { "id": 7153, "title": "Static and dynamic magnetic properties of bcc Fe49Co49V2 thin films on Si(100) substrates", "abstract": "Thin films of Fe49Co49V2 have been grown on Si(1 0 0) substrates by dc magnetron sputtering varying the substrate temperature in the range from room temperature (RT) to 600 degrees C. The static magne...", "citations": 13, "author_count": 7, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7160, "doi": "10.1088/0022-3727/46/49/495002", "umap_coordinates": { "x": 392.7281188964844, "y": 136.9188690185547, "z": 207.75621032714844 }, "tsne_coordinates": { "x": 6.965417861938477, "y": -19.698884963989258, "z": 21.290882110595703 }, "pca_coordinates": { "x": -0.6422367691993713, "y": 0.4346003532409668, "z": -2.6829121112823486 }, "axis_scores": { "Quantum imaging": 0.6665471792221069, "Quantum Life Science Sensing": 0.6767235398292542, "Quantum sensing Detection": 0.6285117864608765, "Quantum sensing Metrology": 0.6396417617797852, "Quantum sensing navigation": 0.6448919177055359, "Quantum sensing Position": 0.6401535272598267, "Quantum sensing Timing": 0.6250166296958923, "Quantum sensing": 0.6572446227073669, "Quantum control": 0.6563664078712463 } }, { "id": 7154, "title": "Effect of Lithium Salt on the Stability of Dispersions of Fumed Silica in the Ionic Liquid BMImBF4", "abstract": "We have investigated the stability and interactions in dispersions of colloidal fumed silica, Aerosil 200, and the ionic liquid 1-butyl-3-methylimidazolium tetraflouroborate (BMImBF(4)) as a function ...", "citations": 56, "author_count": 4, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7161, "doi": "10.1021/la204555g", "umap_coordinates": { "x": 392.86614990234375, "y": 135.51683044433594, "z": 204.53445434570312 }, "tsne_coordinates": { "x": 17.46341896057129, "y": 18.379060745239258, "z": 29.345664978027344 }, "pca_coordinates": { "x": -1.6044981479644775, "y": -0.05324745178222656, "z": -3.770637035369873 }, "axis_scores": { "Quantum imaging": 0.6464606523513794, "Quantum Life Science Sensing": 0.6724733710289001, "Quantum sensing Detection": 0.6291001439094543, "Quantum sensing Metrology": 0.6277309060096741, "Quantum sensing navigation": 0.6428727507591248, "Quantum sensing Position": 0.6469775438308716, "Quantum sensing Timing": 0.5841568112373352, "Quantum sensing": 0.6463508009910583, "Quantum control": 0.6510768532752991 } }, { "id": 7155, "title": "Michler's Hydrol Blue: A Sensitive Probe for Amyloid Fibril Detection", "abstract": "Michlers hydrol blue (MHB) is investigated with respect to photophysical properties in varied solvent environment and when bound to insulin and lysozyme fibrils. The MHB chromophore is shown to act li...", "citations": 48, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7162, "doi": "10.1021/bi102016p", "umap_coordinates": { "x": 392.7409973144531, "y": 135.68275451660156, "z": 204.1667938232422 }, "tsne_coordinates": { "x": 6.67472505569458, "y": 14.7428560256958, "z": -17.421823501586914 }, "pca_coordinates": { "x": -3.3487749099731445, "y": -0.7782902717590332, "z": -1.1613729000091553 }, "axis_scores": { "Quantum imaging": 0.6906762719154358, "Quantum Life Science Sensing": 0.7304538488388062, "Quantum sensing Detection": 0.6991174221038818, "Quantum sensing Metrology": 0.6749282479286194, "Quantum sensing navigation": 0.6822168231010437, "Quantum sensing Position": 0.6685882806777954, "Quantum sensing Timing": 0.6416779160499573, "Quantum sensing": 0.7100103497505188, "Quantum control": 0.6455817222595215 } }, { "id": 7156, "title": "Towards a quantum resistance standard based on epitaxial graphene", "abstract": "The quantum Hall effect(1) allows the international standard for resistance to be defined in terms of the electron charge and Planck's constant alone. The effect comprises the quantization of the Hall...", "citations": 431, "author_count": 11, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7163, "doi": "10.1038/NNANO.2009.474", "umap_coordinates": { "x": 393.7373962402344, "y": 134.66603088378906, "z": 206.12779235839844 }, "tsne_coordinates": { "x": -8.271369934082031, "y": 9.355890274047852, "z": -3.8444273471832275 }, "pca_coordinates": { "x": 0.048807382583618164, "y": -0.8996767997741699, "z": 0.9429319500923157 }, "axis_scores": { "Quantum imaging": 0.7143170833587646, "Quantum Life Science Sensing": 0.734386682510376, "Quantum sensing Detection": 0.7303826808929443, "Quantum sensing Metrology": 0.7218418121337891, "Quantum sensing navigation": 0.7499829530715942, "Quantum sensing Position": 0.7251190543174744, "Quantum sensing Timing": 0.6924793124198914, "Quantum sensing": 0.748323917388916, "Quantum control": 0.722050130367279 } }, { "id": 7157, "title": "Intensity dependence of laser-assisted attosecond photoionization spectra", "abstract": "We study experimentally the influence of the intensity of the infrared (IR) probe field on attosecond pulse train (APT) phase measurements performed with the RABITT method (Reconstruction of Attosecon...", "citations": 37, "author_count": 8, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7164, "doi": "10.1134/S1054660X09150390", "umap_coordinates": { "x": 394.2437438964844, "y": 135.7977294921875, "z": 206.1245574951172 }, "tsne_coordinates": { "x": -8.773024559020996, "y": -3.329026937484741, "z": 0.20162376761436462 }, "pca_coordinates": { "x": -1.106632113456726, "y": -0.015311956405639648, "z": 1.064185619354248 }, "axis_scores": { "Quantum imaging": 0.7042136192321777, "Quantum Life Science Sensing": 0.6973140835762024, "Quantum sensing Detection": 0.6816912889480591, "Quantum sensing Metrology": 0.6628358960151672, "Quantum sensing navigation": 0.6302428245544434, "Quantum sensing Position": 0.6392987370491028, "Quantum sensing Timing": 0.6450242400169373, "Quantum sensing": 0.6918361186981201, "Quantum control": 0.6640218496322632 } }, { "id": 7158, "title": "Strong Light-Matter Coupling between Plasmons in Individual Gold Bi-pyramids and Excitons in Mono- and Multilayer WSe2", "abstract": "Monolayer transition-metal dichalcogenides (TMDCs) have attracted a lot of research attention recently, motivated by their remarkable optical properties and potential for strong light-matter interacti...", "citations": 175, "author_count": 9, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7165, "doi": "10.1021/acs.nanolett.8b02652", "umap_coordinates": { "x": 392.1312255859375, "y": 134.32777404785156, "z": 207.00572204589844 }, "tsne_coordinates": { "x": 10.679720878601074, "y": -16.669649124145508, "z": -11.356313705444336 }, "pca_coordinates": { "x": -1.1122125387191772, "y": -6.122290134429932, "z": 0.3691660761833191 }, "axis_scores": { "Quantum imaging": 0.6904444098472595, "Quantum Life Science Sensing": 0.6690189838409424, "Quantum sensing Detection": 0.6814426779747009, "Quantum sensing Metrology": 0.6755816340446472, "Quantum sensing navigation": 0.6637099981307983, "Quantum sensing Position": 0.6596816182136536, "Quantum sensing Timing": 0.6425832509994507, "Quantum sensing": 0.6912391185760498, "Quantum control": 0.6407896280288696 } }, { "id": 7159, "title": "Pesticide Mixtures Cause Short-Term, Reversible Effects on the Function of Autotrophic Periphyton Assemblages", "abstract": "In a laboratory experiment we investigated the effects of pesticide mixtures on the structure and function of freshwater biofilms, with focus on their photoautotrophic component. We identified 6 herbi...", "citations": 11, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7166, "doi": "10.1002/etc.4722", "umap_coordinates": { "x": 393.6651916503906, "y": 135.75088500976562, "z": 203.70291137695312 }, "tsne_coordinates": { "x": 12.21430492401123, "y": 24.277938842773438, "z": 12.379378318786621 }, "pca_coordinates": { "x": -3.3291256427764893, "y": 0.7854737043380737, "z": -1.5722086429595947 }, "axis_scores": { "Quantum imaging": 0.6809055805206299, "Quantum Life Science Sensing": 0.7152092456817627, "Quantum sensing Detection": 0.6778644323348999, "Quantum sensing Metrology": 0.6724934577941895, "Quantum sensing navigation": 0.6678556203842163, "Quantum sensing Position": 0.6614437699317932, "Quantum sensing Timing": 0.6692512035369873, "Quantum sensing": 0.693429172039032, "Quantum control": 0.6853008270263672 } }, { "id": 7160, "title": "The Sensitized Bioluminescence Mechanism of Bacterial Luciferase", "abstract": "After more than one-half century of investigations, the mechanism of bioluminescence from the FMNH2 assisted oxygen oxidation of an aliphatic aldehyde on bacterial luciferase continues to resist eluci...", "citations": 36, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7167, "doi": "10.1111/php.13063", "umap_coordinates": { "x": 394.2232971191406, "y": 135.88027954101562, "z": 203.8491973876953 }, "tsne_coordinates": { "x": 7.923391819000244, "y": 34.79743194580078, "z": 3.229828357696533 }, "pca_coordinates": { "x": -1.9338507652282715, "y": 0.5338797569274902, "z": 1.2668275833129883 }, "axis_scores": { "Quantum imaging": 0.7204914689064026, "Quantum Life Science Sensing": 0.7429541945457458, "Quantum sensing Detection": 0.7450249791145325, "Quantum sensing Metrology": 0.7209314107894897, "Quantum sensing navigation": 0.715508222579956, "Quantum sensing Position": 0.7022706270217896, "Quantum sensing Timing": 0.7031774520874023, "Quantum sensing": 0.7415927648544312, "Quantum control": 0.7000146508216858 } }, { "id": 7161, "title": "A near-field scanning microwave microscope based on a superconducting resonator for low power measurements", "abstract": "We report on the design and performance of a cryogenic (300 mK) near-field scanning microwave microscope. It uses a microwave resonator as the near-field sensor, operating at a frequency of 6 GHz and ...", "citations": 33, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7168, "doi": "10.1063/1.4792381", "umap_coordinates": { "x": 394.4744873046875, "y": 134.81764221191406, "z": 207.7180938720703 }, "tsne_coordinates": { "x": -16.783550262451172, "y": -35.22971725463867, "z": 25.786746978759766 }, "pca_coordinates": { "x": 0.7503619194030762, "y": -0.7300515174865723, "z": 1.952019214630127 }, "axis_scores": { "Quantum imaging": 0.6845647692680359, "Quantum Life Science Sensing": 0.7342209815979004, "Quantum sensing Detection": 0.7081350684165955, "Quantum sensing Metrology": 0.721171498298645, "Quantum sensing navigation": 0.689913272857666, "Quantum sensing Position": 0.6877501606941223, "Quantum sensing Timing": 0.6488478779792786, "Quantum sensing": 0.7227380275726318, "Quantum control": 0.651771068572998 } }, { "id": 7162, "title": "Theory of STM-induced light emission from Na overlayers on Cu", "abstract": "We present experimental and theoretical results for light emission from a scanning tunneling microscope probing the metallic quantum well system consisting of a Na overlayer on Cu(111). The experiment...", "citations": 1, "author_count": 4, "categories": [ "Microscopy" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7169, "doi": null, "umap_coordinates": { "x": 391.96783447265625, "y": 139.31666564941406, "z": 209.58602905273438 }, "tsne_coordinates": { "x": -6.48124361038208, "y": 47.148128509521484, "z": -12.746514320373535 }, "pca_coordinates": { "x": 0.001738905906677246, "y": 1.492678165435791, "z": -0.7554209232330322 }, "axis_scores": { "Quantum imaging": 0.7338947057723999, "Quantum Life Science Sensing": 0.7292271852493286, "Quantum sensing Detection": 0.736464262008667, "Quantum sensing Metrology": 0.7169452905654907, "Quantum sensing navigation": 0.7330814599990845, "Quantum sensing Position": 0.70284503698349, "Quantum sensing Timing": 0.693571925163269, "Quantum sensing": 0.7323295474052429, "Quantum control": 0.7242801189422607 } }, { "id": 7163, "title": "Neurofibrillary tangle-bearing neurons have reduced risk of cell death in mice with Alzheimer's pathology", "abstract": "A prevailing hypothesis is that neurofibrillary tangles play a causal role in driving cognitive decline in Alzheimer's disease (AD) because tangles correlate anatomically with areas that undergo neuro...", "citations": 17, "author_count": 14, "categories": [ "Cell Biology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7170, "doi": "10.1016/j.celrep.2024.114574", "umap_coordinates": { "x": 394.9209289550781, "y": 134.6167449951172, "z": 204.2780303955078 }, "tsne_coordinates": { "x": -5.034268379211426, "y": 26.37434959411621, "z": 4.737287521362305 }, "pca_coordinates": { "x": -3.1382784843444824, "y": 1.086297869682312, "z": -0.5755723714828491 }, "axis_scores": { "Quantum imaging": 0.6603483557701111, "Quantum Life Science Sensing": 0.6708394289016724, "Quantum sensing Detection": 0.6390397548675537, "Quantum sensing Metrology": 0.6263753175735474, "Quantum sensing navigation": 0.6693679690361023, "Quantum sensing Position": 0.6333067417144775, "Quantum sensing Timing": 0.6224376559257507, "Quantum sensing": 0.6429224014282227, "Quantum control": 0.6632773280143738 } }, { "id": 7164, "title": "Optical control of the complex phase of a quantum ground-state amplitude", "abstract": "We discuss how coherent driving of a two-level quantum system can be used to induce a complex phase on the ground state and we discuss its geometric and dynamic contributions. While the global phase o...", "citations": 2, "author_count": 4, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7171, "doi": "10.1103/PhysRevA.105.062441", "umap_coordinates": { "x": 395.1111145019531, "y": 136.6649627685547, "z": 207.87879943847656 }, "tsne_coordinates": { "x": -18.756635665893555, "y": -16.699726104736328, "z": -4.077996730804443 }, "pca_coordinates": { "x": 4.538679599761963, "y": 0.3066082000732422, "z": 0.2440028190612793 }, "axis_scores": { "Quantum imaging": 0.765328586101532, "Quantum Life Science Sensing": 0.7664309740066528, "Quantum sensing Detection": 0.766889214515686, "Quantum sensing Metrology": 0.7514867782592773, "Quantum sensing navigation": 0.7547630071640015, "Quantum sensing Position": 0.7489832639694214, "Quantum sensing Timing": 0.7294231057167053, "Quantum sensing": 0.7779896855354309, "Quantum control": 0.7863869667053223 } }, { "id": 7165, "title": "MEASUREMENT OF THE TOTAL PHOTON PROTON CROSS-SECTION AND ITS DECOMPOSITION AT 200 GEV CENTER-OF-MASS ENERGY", "abstract": "We present a new measurement of the total photoproduction cross section performed with the H1 detector at HERA. For an average centre of mass energy of 200 GeV a value of sigma(tot)(gamma p) - 165 +/-...", "citations": 139, "author_count": 420, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7172, "doi": null, "umap_coordinates": { "x": 391.78155517578125, "y": 139.43377685546875, "z": 209.639404296875 }, "tsne_coordinates": { "x": -5.72700834274292, "y": 39.09560012817383, "z": -5.411374092102051 }, "pca_coordinates": { "x": -1.5372986793518066, "y": 4.620142936706543, "z": 0.6918675303459167 }, "axis_scores": { "Quantum imaging": 0.7656611800193787, "Quantum Life Science Sensing": 0.7734353542327881, "Quantum sensing Detection": 0.7806872725486755, "Quantum sensing Metrology": 0.766731858253479, "Quantum sensing navigation": 0.7607779502868652, "Quantum sensing Position": 0.7432001233100891, "Quantum sensing Timing": 0.7320417165756226, "Quantum sensing": 0.7794584631919861, "Quantum control": 0.7379537224769592 } }, { "id": 7166, "title": "TYCHO ASTROMETRY CALIBRATION", "abstract": "The Hipparcos satellite's star mapper gives photon counts in two spectral channels simultaneously. The transit times and the signal amplitudes for each star across two groups of four slits are derived...", "citations": 5, "author_count": 10, "categories": [ "Astronomy & Astrophysics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7173, "doi": null, "umap_coordinates": { "x": 391.7997741699219, "y": 139.48526000976562, "z": 209.61817932128906 }, "tsne_coordinates": { "x": 4.282711505889893, "y": 47.52963638305664, "z": -3.9785776138305664 }, "pca_coordinates": { "x": -2.0587992668151855, "y": 5.6126251220703125, "z": -0.5564364194869995 }, "axis_scores": { "Quantum imaging": 0.6880308985710144, "Quantum Life Science Sensing": 0.7045465707778931, "Quantum sensing Detection": 0.6835492849349976, "Quantum sensing Metrology": 0.7039236426353455, "Quantum sensing navigation": 0.7142005562782288, "Quantum sensing Position": 0.7005934119224548, "Quantum sensing Timing": 0.7347952723503113, "Quantum sensing": 0.7010148763656616, "Quantum control": 0.7162731289863586 } }, { "id": 7167, "title": "The use of high frequency microwaves in absolute palaeomagnetic intensity experiments", "abstract": "The Microwave Palaeointensity System at the University of Liverpool has developed, over 30 years, into the current third generation version; a combined 14 GHz microwave resonant cavity and superconduc...", "citations": 1, "author_count": 9, "categories": [ "Geology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7174, "doi": "10.3389/feart.2023.1188528", "umap_coordinates": { "x": 394.7980651855469, "y": 136.36767578125, "z": 205.26646423339844 }, "tsne_coordinates": { "x": -19.137977600097656, "y": 23.552949905395508, "z": 19.38992691040039 }, "pca_coordinates": { "x": -1.4616668224334717, "y": 3.702540159225464, "z": -0.4123615026473999 }, "axis_scores": { "Quantum imaging": 0.696187436580658, "Quantum Life Science Sensing": 0.7037073373794556, "Quantum sensing Detection": 0.6825169920921326, "Quantum sensing Metrology": 0.6780572533607483, "Quantum sensing navigation": 0.6839748620986938, "Quantum sensing Position": 0.6740958094596863, "Quantum sensing Timing": 0.6815993785858154, "Quantum sensing": 0.6916479468345642, "Quantum control": 0.6724457740783691 } }, { "id": 7168, "title": "Derivation and Numerical analysis of an Attenuation Operator for non-relativistic waves", "abstract": "Quantum mechanical models for particles are strictly dependent on the Schrodinger equation, where the solutions and the Hermitian polynomials form a mathematical foundation to derive expectation value...", "citations": 3, "author_count": 2, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7175, "doi": "10.1038/s41598-018-34836-3", "umap_coordinates": { "x": 394.36480712890625, "y": 137.1748046875, "z": 206.7009735107422 }, "tsne_coordinates": { "x": -16.8013858795166, "y": -4.69171667098999, "z": 20.6895751953125 }, "pca_coordinates": { "x": -0.34081530570983887, "y": 2.4096639156341553, "z": 1.4165143966674805 }, "axis_scores": { "Quantum imaging": 0.7035492658615112, "Quantum Life Science Sensing": 0.6825923323631287, "Quantum sensing Detection": 0.6884890794754028, "Quantum sensing Metrology": 0.6601333618164062, "Quantum sensing navigation": 0.6948407888412476, "Quantum sensing Position": 0.6374181509017944, "Quantum sensing Timing": 0.6373099088668823, "Quantum sensing": 0.6878708600997925, "Quantum control": 0.6374408602714539 } }, { "id": 7169, "title": "PHYSICOCHEMICAL CHARACTERIZATION OF A MODEL INTRAVENOUS OIL-IN-WATER EMULSION", "abstract": "Photon correlation spectroscopy, nuclear magnetic resonance spectroscopy, electron microscopy, and small-angle X-ray scattering were used for the structural characterization of a model oil-in-water em...", "citations": 64, "author_count": 3, "categories": [ "Pharmacology & Pharmacy" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7176, "doi": "10.1002/jps.2600810812", "umap_coordinates": { "x": 393.8567199707031, "y": 135.01803588867188, "z": 204.75778198242188 }, "tsne_coordinates": { "x": 10.496671676635742, "y": 23.605440139770508, "z": 5.348098278045654 }, "pca_coordinates": { "x": -2.3197922706604004, "y": 2.76298451423645, "z": -1.2461227178573608 }, "axis_scores": { "Quantum imaging": 0.6866464614868164, "Quantum Life Science Sensing": 0.6889393329620361, "Quantum sensing Detection": 0.6523488759994507, "Quantum sensing Metrology": 0.6450602412223816, "Quantum sensing navigation": 0.6568090915679932, "Quantum sensing Position": 0.6533210873603821, "Quantum sensing Timing": 0.6448827981948853, "Quantum sensing": 0.669360876083374, "Quantum control": 0.6645539402961731 } }, { "id": 7170, "title": "PDGFRα inhibition reduces myofibroblast expansion in the fibrotic rim and enhances recovery after ischemic stroke", "abstract": "Ischemic stroke is a major cause of disability in adults. Early treatment with thrombolytics and/or thrombectomy can significantly improve outcomes; however, following these acute interventions, treat...", "citations": 2, "author_count": 15, "categories": [ "Research & Experimental Medicine" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7177, "doi": "10.1172/JCI171077", "umap_coordinates": { "x": 395.08404541015625, "y": 134.86875915527344, "z": 204.18235778808594 }, "tsne_coordinates": { "x": -0.7194198966026306, "y": 28.412626266479492, "z": 3.843879222869873 }, "pca_coordinates": { "x": -2.4308223724365234, "y": 3.1056721210479736, "z": -0.5478190779685974 }, "axis_scores": { "Quantum imaging": 0.6565997004508972, "Quantum Life Science Sensing": 0.6100184917449951, "Quantum sensing Detection": 0.5974135994911194, "Quantum sensing Metrology": 0.580496072769165, "Quantum sensing navigation": 0.5965818762779236, "Quantum sensing Position": 0.5869481563568115, "Quantum sensing Timing": 0.6211459040641785, "Quantum sensing": 0.6086581349372864, "Quantum control": 0.6254039406776428 } }, { "id": 7171, "title": "Astrocytic engagement of the corticostriatal synaptic cleft is disrupted in a mouse model of Huntington's disease", "abstract": "Astroglial dysfunction contributes to the pathogenesis of Huntington's disease (HD), and glial replacement can ameliorate the disease course. To establish the topographic relationship of diseased astr...", "citations": 13, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7178, "doi": "10.1073/pnas.2210719120", "umap_coordinates": { "x": 394.9397888183594, "y": 135.03077697753906, "z": 204.89007568359375 }, "tsne_coordinates": { "x": -2.5460124015808105, "y": 23.637149810791016, "z": 6.942323207855225 }, "pca_coordinates": { "x": -0.0759955644607544, "y": 1.1497156620025635, "z": -0.0030521154403686523 }, "axis_scores": { "Quantum imaging": 0.6738590002059937, "Quantum Life Science Sensing": 0.6504215598106384, "Quantum sensing Detection": 0.6411719918251038, "Quantum sensing Metrology": 0.647825300693512, "Quantum sensing navigation": 0.6685183644294739, "Quantum sensing Position": 0.6349902749061584, "Quantum sensing Timing": 0.6545182466506958, "Quantum sensing": 0.6514242887496948, "Quantum control": 0.6529957056045532 } }, { "id": 7172, "title": "Single-Crystalline Perovskite Nanowire Arrays for Stable X-ray Scintillators with Micrometer Spatial Resolution", "abstract": "X-ray scintillation detectors based on metal halide perovskites have shown excellent light yield, but they mostly target applications with spatial resolution at the tens of micrometers level. Here, we...", "citations": 54, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7179, "doi": "10.1021/acsanm.1c03575", "umap_coordinates": { "x": 391.8307800292969, "y": 133.5095672607422, "z": 205.68923950195312 }, "tsne_coordinates": { "x": 17.500099182128906, "y": 2.008394241333008, "z": -20.0135555267334 }, "pca_coordinates": { "x": -2.1413071155548096, "y": -4.915672779083252, "z": 1.865279197692871 }, "axis_scores": { "Quantum imaging": 0.678234338760376, "Quantum Life Science Sensing": 0.675305187702179, "Quantum sensing Detection": 0.6656876802444458, "Quantum sensing Metrology": 0.6762590408325195, "Quantum sensing navigation": 0.6895702481269836, "Quantum sensing Position": 0.6719346046447754, "Quantum sensing Timing": 0.6578823924064636, "Quantum sensing": 0.6809589266777039, "Quantum control": 0.6453017592430115 } }, { "id": 7173, "title": "Moisture tolerant solar cells by encapsulating 3D perovskite with long-chain alkylammonium cation-based 2D perovskite", "abstract": "Long-term stability is an essential requirement for perovskite solar cells to be commercially viable. Encapsulating 3D perovskites with 2D perovskite structures is an effective strategy for improving ...", "citations": 37, "author_count": 6, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7180, "doi": "10.1038/s43246-021-00200-8", "umap_coordinates": { "x": 391.9013671875, "y": 134.0323028564453, "z": 205.39297485351562 }, "tsne_coordinates": { "x": 16.734228134155273, "y": -3.5259695053100586, "z": -25.174074172973633 }, "pca_coordinates": { "x": -3.382561445236206, "y": -2.5915756225585938, "z": -1.9688916206359863 }, "axis_scores": { "Quantum imaging": 0.6672210693359375, "Quantum Life Science Sensing": 0.7163111567497253, "Quantum sensing Detection": 0.6496026515960693, "Quantum sensing Metrology": 0.6469296813011169, "Quantum sensing navigation": 0.6603226065635681, "Quantum sensing Position": 0.6307975053787231, "Quantum sensing Timing": 0.6200072765350342, "Quantum sensing": 0.671875, "Quantum control": 0.6522654294967651 } }, { "id": 7174, "title": "Band structure and end states in InAs/GaSb core-shell-shell nanowires", "abstract": "Quantum wells in InAs/GaSb heterostructures can be tuned to a topological regime associated with the quantum spin Hall effect, which arises due to an inverted band gap and hybridized electron and hole...", "citations": 4, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7181, "doi": "10.1103/PhysRevB.102.195434", "umap_coordinates": { "x": 392.9446716308594, "y": 134.50900268554688, "z": 208.6204071044922 }, "tsne_coordinates": { "x": 10.632828712463379, "y": -24.071979522705078, "z": -0.255121648311615 }, "pca_coordinates": { "x": 2.70800518989563, "y": -3.4415082931518555, "z": -0.179460346698761 }, "axis_scores": { "Quantum imaging": 0.6785085201263428, "Quantum Life Science Sensing": 0.7089868187904358, "Quantum sensing Detection": 0.6882889270782471, "Quantum sensing Metrology": 0.6714833974838257, "Quantum sensing navigation": 0.7063068747520447, "Quantum sensing Position": 0.6849667429924011, "Quantum sensing Timing": 0.6611416935920715, "Quantum sensing": 0.694632887840271, "Quantum control": 0.6603121161460876 } }, { "id": 7175, "title": "Mechanistic Similarities between 3D Human Bronchial Epithelium and Mice Lung, Exposed to Copper Oxide Nanoparticles, Support Non-Animal Methods for Hazard Assessment", "abstract": "The diversity and increasing prevalence of products derived from engineered nanomaterials (ENM), warrants implementation of non-animal approaches to health hazard assessment for ethical and practical ...", "citations": 10, "author_count": 12, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7182, "doi": "10.1002/smll.202000527", "umap_coordinates": { "x": 393.7633361816406, "y": 134.4664764404297, "z": 204.1084747314453 }, "tsne_coordinates": { "x": 12.018404006958008, "y": 25.937467575073242, "z": -2.239379405975342 }, "pca_coordinates": { "x": -4.365357398986816, "y": 1.2326549291610718, "z": -1.534599781036377 }, "axis_scores": { "Quantum imaging": 0.6749458312988281, "Quantum Life Science Sensing": 0.7163710594177246, "Quantum sensing Detection": 0.6643852591514587, "Quantum sensing Metrology": 0.6568613648414612, "Quantum sensing navigation": 0.6436349749565125, "Quantum sensing Position": 0.6241886615753174, "Quantum sensing Timing": 0.6162307858467102, "Quantum sensing": 0.6748138666152954, "Quantum control": 0.6613103747367859 } }, { "id": 7176, "title": "Spray-Coating Magnetic Thin Hybrid Films of PS-b-PNIPAM and Magnetite Nanoparticles", "abstract": "Spray coating is employed to fabricate magnetic thin films composed of the diblock copolymer polystyrene-block-poly(N-isopropylacrylamide) and Fe3O4 magnetic nanoparticles (MNPs) functionalized with h...", "citations": 20, "author_count": 10, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7183, "doi": "10.1002/adfm.201808427", "umap_coordinates": { "x": 393.0643005371094, "y": 134.11766052246094, "z": 205.06304931640625 }, "tsne_coordinates": { "x": 34.01651382446289, "y": 18.700809478759766, "z": -3.0167248249053955 }, "pca_coordinates": { "x": -2.696767807006836, "y": -1.447805404663086, "z": -0.9709494709968567 }, "axis_scores": { "Quantum imaging": 0.7154314517974854, "Quantum Life Science Sensing": 0.7235374450683594, "Quantum sensing Detection": 0.6987372040748596, "Quantum sensing Metrology": 0.7181259393692017, "Quantum sensing navigation": 0.698619544506073, "Quantum sensing Position": 0.6855149269104004, "Quantum sensing Timing": 0.6595277786254883, "Quantum sensing": 0.7143633365631104, "Quantum control": 0.6907619833946228 } }, { "id": 7177, "title": "Green Strategy to Reduced Nanographene Oxide through Microwave Assisted Transformation of Cellulose", "abstract": "A green strategy for fabrication of biobased reduced nanographene oxide (r-nGO) was developed. Cellulose derived nanographene oxide (nGO) type carbon nanodots were reduced by microwave assisted hydrot...", "citations": 35, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7184, "doi": "10.1021/acssuschemeng.7b03566", "umap_coordinates": { "x": 392.5247497558594, "y": 134.95982360839844, "z": 204.1470489501953 }, "tsne_coordinates": { "x": 23.894371032714844, "y": 14.18231201171875, "z": -15.811305046081543 }, "pca_coordinates": { "x": -2.97611403465271, "y": -0.9290006160736084, "z": -1.59194016456604 }, "axis_scores": { "Quantum imaging": 0.6694355010986328, "Quantum Life Science Sensing": 0.6963630318641663, "Quantum sensing Detection": 0.6645309329032898, "Quantum sensing Metrology": 0.6448861360549927, "Quantum sensing navigation": 0.6598644852638245, "Quantum sensing Position": 0.6191971302032471, "Quantum sensing Timing": 0.614412248134613, "Quantum sensing": 0.6735199093818665, "Quantum control": 0.6732696890830994 } }, { "id": 7178, "title": "Statistical and subjective interpretations of probability in quantum-like models of cognition and decision making", "abstract": "The paper starts with an introduction to the basic mathematical model of classical probability (CP), i.e. the Kolmogorov (1933) measure-theoretic model. Its two basic interpretations are discussed: st...", "citations": 28, "author_count": 3, "categories": [ "Mathematics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7185, "doi": "10.1016/j.jmp.2016.02.005", "umap_coordinates": { "x": 395.0078125, "y": 137.42758178710938, "z": 205.97865295410156 }, "tsne_coordinates": { "x": -22.531490325927734, "y": 10.854959487915039, "z": 17.31292724609375 }, "pca_coordinates": { "x": 1.206235647201538, "y": 3.506124258041382, "z": -0.3624098002910614 }, "axis_scores": { "Quantum imaging": 0.7635704874992371, "Quantum Life Science Sensing": 0.7669392824172974, "Quantum sensing Detection": 0.769655704498291, "Quantum sensing Metrology": 0.7538138031959534, "Quantum sensing navigation": 0.7684609889984131, "Quantum sensing Position": 0.7422046661376953, "Quantum sensing Timing": 0.7333257794380188, "Quantum sensing": 0.7819833755493164, "Quantum control": 0.7425915002822876 } }, { "id": 7179, "title": "Ultrafast excited state dynamics of [Cr(CO)4(bpy)]: revealing the relaxation between triplet charge-transfer states", "abstract": "Ultrafast excited state dynamics of [Cr(CO)4(bpy)] upon metal-to-ligand charge-transfer ((MLCT)-M-1) transition have been studied by pump-probe absorption spectroscopy in CH3CN, pyridine and CH2Cl2 so...", "citations": 12, "author_count": 7, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7186, "doi": "10.1039/c5ra25670d", "umap_coordinates": { "x": 392.4039306640625, "y": 136.39404296875, "z": 206.3992919921875 }, "tsne_coordinates": { "x": 12.314865112304688, "y": 3.5783703327178955, "z": 8.57151985168457 }, "pca_coordinates": { "x": 0.02077353000640869, "y": 0.14932632446289062, "z": -3.4835758209228516 }, "axis_scores": { "Quantum imaging": 0.7209928035736084, "Quantum Life Science Sensing": 0.7325775623321533, "Quantum sensing Detection": 0.7151545882225037, "Quantum sensing Metrology": 0.6851401925086975, "Quantum sensing navigation": 0.6912378072738647, "Quantum sensing Position": 0.6787713170051575, "Quantum sensing Timing": 0.6984900832176208, "Quantum sensing": 0.7239282131195068, "Quantum control": 0.7019086480140686 } }, { "id": 7180, "title": "Automated identification and classification of single particle serial femtosecond X-ray diffraction data", "abstract": "The first hard X-ray laser, the Linac Coherent Light Source (LCLS), produces 120 shots per second. Particles injected into the X-ray beam are hit randomly and in unknown orientations by the extremely ...", "citations": 33, "author_count": 21, "categories": [ "Optics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7187, "doi": "10.1364/OE.22.002497", "umap_coordinates": { "x": 395.1014404296875, "y": 133.84152221679688, "z": 206.31134033203125 }, "tsne_coordinates": { "x": 1.2183672189712524, "y": 16.83233070373535, "z": -34.517860412597656 }, "pca_coordinates": { "x": -1.307665228843689, "y": 0.4626588821411133, "z": 1.5570740699768066 }, "axis_scores": { "Quantum imaging": 0.7282506823539734, "Quantum Life Science Sensing": 0.7183332443237305, "Quantum sensing Detection": 0.7109231352806091, "Quantum sensing Metrology": 0.7135651111602783, "Quantum sensing navigation": 0.7183864116668701, "Quantum sensing Position": 0.7201930284500122, "Quantum sensing Timing": 0.7273486852645874, "Quantum sensing": 0.7214929461479187, "Quantum control": 0.6928423643112183 } }, { "id": 7181, "title": "Fluorescence quenching in Zn2+-bis-terpyridine coordination polymers: a single molecule study", "abstract": "A Zn2+-bis-terpyridine coordination polymer is investigated by single-molecule fluorescence spectroscopy (SMS). The bis-terpyridine ligands of the coordination polymers bear conjugated chromophores co...", "citations": 29, "author_count": 11, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7188, "doi": "10.1039/c2jm31237a", "umap_coordinates": { "x": 392.03076171875, "y": 135.92198181152344, "z": 205.0151824951172 }, "tsne_coordinates": { "x": 7.310022354125977, "y": 12.200543403625488, "z": -11.904084205627441 }, "pca_coordinates": { "x": -2.335634708404541, "y": -2.1014280319213867, "z": -3.2028534412384033 }, "axis_scores": { "Quantum imaging": 0.7166668176651001, "Quantum Life Science Sensing": 0.7259538173675537, "Quantum sensing Detection": 0.7125104665756226, "Quantum sensing Metrology": 0.7077961564064026, "Quantum sensing navigation": 0.6915155053138733, "Quantum sensing Position": 0.6804038882255554, "Quantum sensing Timing": 0.6789723634719849, "Quantum sensing": 0.7219550609588623, "Quantum control": 0.7037379145622253 } }, { "id": 7182, "title": "Light-up probes: Thiazole orange-conjugated peptide nucleic acid for detection of target nucleic acid in homogeneous solution", "abstract": "We have constructed Light-up probes for nucleic acid detection. The Light-up probe is a peptide nucleic acid (PNA) oligonucleotide to which the asymmetric cyanine dye thiazole orange (TO) is tethered....", "citations": 278, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7189, "doi": "10.1006/abio.2000.4534", "umap_coordinates": { "x": 393.1899108886719, "y": 135.73898315429688, "z": 204.2739715576172 }, "tsne_coordinates": { "x": 7.025520324707031, "y": 15.626784324645996, "z": 2.2439723014831543 }, "pca_coordinates": { "x": -3.380626678466797, "y": -0.24804019927978516, "z": 0.6161240935325623 }, "axis_scores": { "Quantum imaging": 0.7363302707672119, "Quantum Life Science Sensing": 0.7456904053688049, "Quantum sensing Detection": 0.7414597868919373, "Quantum sensing Metrology": 0.7232469320297241, "Quantum sensing navigation": 0.7355509996414185, "Quantum sensing Position": 0.7179227471351624, "Quantum sensing Timing": 0.711513340473175, "Quantum sensing": 0.7456982731819153, "Quantum control": 0.7111247777938843 } }, { "id": 7183, "title": "The Rayleigh-Taylor instability and internal waves in quantum plasmas", "abstract": "Influence of quantum effects on the internal waves and the Rayleigh-Taylor instability in plasma is investigated. It is shown that quantum pressure always stabilizes the RT instability. The problem is...", "citations": 32, "author_count": 4, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7190, "doi": "10.1016/j.physleta.2007.12.065", "umap_coordinates": { "x": 394.348876953125, "y": 136.85073852539062, "z": 206.33584594726562 }, "tsne_coordinates": { "x": -17.868803024291992, "y": 0.8490304946899414, "z": 15.81167221069336 }, "pca_coordinates": { "x": 2.500927448272705, "y": 0.8161358833312988, "z": -1.2385964393615723 }, "axis_scores": { "Quantum imaging": 0.7383639812469482, "Quantum Life Science Sensing": 0.7439923882484436, "Quantum sensing Detection": 0.7282967567443848, "Quantum sensing Metrology": 0.6997655630111694, "Quantum sensing navigation": 0.7194501161575317, "Quantum sensing Position": 0.6985207796096802, "Quantum sensing Timing": 0.6886655688285828, "Quantum sensing": 0.7331759333610535, "Quantum control": 0.6962254643440247 } }, { "id": 7184, "title": "Doppler effect in resonant photoemission from SF6:: Correlation between doppler profile and auger emission anisotropy -: art. no. 213003", "abstract": "Fragmentation of the SF6 molecule upon F 1s excitation has been studied by resonant photoemission. The F atomiclike Auger line exhibits the characteristic Doppler profile that depends on the direction...", "citations": 44, "author_count": 13, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7191, "doi": "10.1103/PhysRevLett.91.213003", "umap_coordinates": { "x": 394.9272155761719, "y": 135.42532348632812, "z": 207.16552734375 }, "tsne_coordinates": { "x": -10.487622261047363, "y": -14.338533401489258, "z": -6.898016452789307 }, "pca_coordinates": { "x": 2.0856549739837646, "y": -0.23705530166625977, "z": 0.10708850622177124 }, "axis_scores": { "Quantum imaging": 0.6992372274398804, "Quantum Life Science Sensing": 0.712622880935669, "Quantum sensing Detection": 0.6947793960571289, "Quantum sensing Metrology": 0.689917802810669, "Quantum sensing navigation": 0.71755450963974, "Quantum sensing Position": 0.69454026222229, "Quantum sensing Timing": 0.6780670285224915, "Quantum sensing": 0.7039673328399658, "Quantum control": 0.6605713367462158 } }, { "id": 7185, "title": "Structures, electronic states, photoluminescence, and carrier transport properties of 1,1-disubstituted 2,3,4,5-tetraphenylsiloles", "abstract": "The excellent electroluminescent (EL) properties of 1,1-disubstituted 2,3,4,5-tetraphenylsiloles, 1-methyl-1,2,3,4,5-pentaphenylsilole (MPPS), and 1,1,2,3,4,5-hexaphenylsilole (HPS) have been found. D...", "citations": 540, "author_count": 15, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7192, "doi": "10.1021/ja044628b", "umap_coordinates": { "x": 391.9412536621094, "y": 135.70184326171875, "z": 205.21502685546875 }, "tsne_coordinates": { "x": 14.018559455871582, "y": 11.19396686553955, "z": -26.142410278320312 }, "pca_coordinates": { "x": -0.9623091816902161, "y": -3.3993349075317383, "z": -2.993924617767334 }, "axis_scores": { "Quantum imaging": 0.6902449131011963, "Quantum Life Science Sensing": 0.7228168249130249, "Quantum sensing Detection": 0.6695713400840759, "Quantum sensing Metrology": 0.6657056212425232, "Quantum sensing navigation": 0.6746589541435242, "Quantum sensing Position": 0.6665422916412354, "Quantum sensing Timing": 0.6421480774879456, "Quantum sensing": 0.6916072368621826, "Quantum control": 0.6738961338996887 } }, { "id": 7186, "title": "Halide Double Perovskite Nanocrystals Doped with Rare-Earth Ions for Multifunctional Applications", "abstract": "Most lead-free halide double perovskite materials display low photoluminescence quantum yield (PLQY) due to the indirect bandgap or forbidden transition. Doping is an effective strategy to tailor the ...", "citations": 143, "author_count": 15, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7193, "doi": "10.1002/advs.202207571", "umap_coordinates": { "x": 392.1706237792969, "y": 133.57177734375, "z": 205.46176147460938 }, "tsne_coordinates": { "x": 25.04348373413086, "y": 2.306384325027466, "z": -20.896413803100586 }, "pca_coordinates": { "x": -4.070981979370117, "y": -3.1169981956481934, "z": -1.5167120695114136 }, "axis_scores": { "Quantum imaging": 0.7115358114242554, "Quantum Life Science Sensing": 0.7151226997375488, "Quantum sensing Detection": 0.6834115386009216, "Quantum sensing Metrology": 0.6956521272659302, "Quantum sensing navigation": 0.6783751249313354, "Quantum sensing Position": 0.6552072763442993, "Quantum sensing Timing": 0.6428537368774414, "Quantum sensing": 0.7065517902374268, "Quantum control": 0.6997230052947998 } }, { "id": 7187, "title": "Realization of Wurtzite GaSb Using InAs Nanowire Templates", "abstract": "The crystal structure of a material has a large impact on the electronic and material properties such as band alignment, bandgap energy, and surface energies. Au-seeded III-V nanowires are promising s...", "citations": 20, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7194, "doi": "10.1002/adfm.201800512", "umap_coordinates": { "x": 392.3643493652344, "y": 133.9100799560547, "z": 207.2071075439453 }, "tsne_coordinates": { "x": 21.003829956054688, "y": -11.164098739624023, "z": -6.193516731262207 }, "pca_coordinates": { "x": -0.9658238887786865, "y": -2.5279040336608887, "z": 0.7061795592308044 }, "axis_scores": { "Quantum imaging": 0.7152315378189087, "Quantum Life Science Sensing": 0.7135907411575317, "Quantum sensing Detection": 0.7097308039665222, "Quantum sensing Metrology": 0.7202096581459045, "Quantum sensing navigation": 0.7294144034385681, "Quantum sensing Position": 0.6941209435462952, "Quantum sensing Timing": 0.7043365836143494, "Quantum sensing": 0.7222412824630737, "Quantum control": 0.7010817527770996 } }, { "id": 7188, "title": "Detrimental effects of disorder in two-dimensional time-reversal invariant topological superconductors", "abstract": "The robustness against local perturbations, as long as the symmetry of the system is preserved, is a distinctive feature of topological quantum states. Magnetic impurities and defects break time-rever...", "citations": 3, "author_count": 5, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7195, "doi": "10.1103/PhysRevB.107.014512", "umap_coordinates": { "x": 394.2936706542969, "y": 136.8979949951172, "z": 208.6981964111328 }, "tsne_coordinates": { "x": -15.43905258178711, "y": -25.61612319946289, "z": 16.19278335571289 }, "pca_coordinates": { "x": 4.262229919433594, "y": 0.03872346878051758, "z": -1.2423242330551147 }, "axis_scores": { "Quantum imaging": 0.7008670568466187, "Quantum Life Science Sensing": 0.6818332672119141, "Quantum sensing Detection": 0.6836230158805847, "Quantum sensing Metrology": 0.6632380485534668, "Quantum sensing navigation": 0.6905099153518677, "Quantum sensing Position": 0.6752098798751831, "Quantum sensing Timing": 0.7161572575569153, "Quantum sensing": 0.6910543441772461, "Quantum control": 0.6937873363494873 } }, { "id": 7189, "title": "Mechanically induced thermal breakdown in magnetic shuttle structures", "abstract": "A theory of a thermally induced single-electron 'shuttling' instability in a magnetic nano-mechanical device subject to an external magnetic field is presented in the Coulomb blockade regime of electr...", "citations": 10, "author_count": 7, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7196, "doi": "10.1088/1367-2630/aac750", "umap_coordinates": { "x": 393.2805480957031, "y": 136.00521850585938, "z": 208.03257751464844 }, "tsne_coordinates": { "x": 8.617847442626953, "y": -29.262544631958008, "z": 22.34575843811035 }, "pca_coordinates": { "x": 1.6957893371582031, "y": 2.3285281658172607, "z": -2.1290500164031982 }, "axis_scores": { "Quantum imaging": 0.682204008102417, "Quantum Life Science Sensing": 0.699485182762146, "Quantum sensing Detection": 0.6562966704368591, "Quantum sensing Metrology": 0.6801554560661316, "Quantum sensing navigation": 0.6752675175666809, "Quantum sensing Position": 0.6583115458488464, "Quantum sensing Timing": 0.6472682356834412, "Quantum sensing": 0.6783202886581421, "Quantum control": 0.6706815958023071 } }, { "id": 7190, "title": "Aβ plaque-selective NIR fluorescence probe to differentiate Alzheimer's disease from tauopathies", "abstract": "Selective detection and staining of toxic amyloid plaques, a potential biomarker present in the Alzheimer's disease (AD) brain is crucial for both clinical diagnosis and monitoring AD disease progress...", "citations": 95, "author_count": 8, "categories": [ "Biophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7197, "doi": "10.1016/j.bios.2017.06.030", "umap_coordinates": { "x": 394.35162353515625, "y": 133.89683532714844, "z": 204.5252685546875 }, "tsne_coordinates": { "x": 5.014663219451904, "y": 23.298837661743164, "z": -3.4093639850616455 }, "pca_coordinates": { "x": -5.818986892700195, "y": -1.201606273651123, "z": 0.5938959717750549 }, "axis_scores": { "Quantum imaging": 0.6991318464279175, "Quantum Life Science Sensing": 0.7188871502876282, "Quantum sensing Detection": 0.6996315121650696, "Quantum sensing Metrology": 0.6670292019844055, "Quantum sensing navigation": 0.6879175901412964, "Quantum sensing Position": 0.6615453958511353, "Quantum sensing Timing": 0.62945556640625, "Quantum sensing": 0.697792112827301, "Quantum control": 0.6346723437309265 } }, { "id": 7191, "title": "XMM-Newton and Canadian Galactic Plane Survey observations of the supernova remnant G107.5-1.5", "abstract": "We present an XMM-Newton observation of the highly polarized low-surface-brightness supernova remnant (SNR) G107.5-1.5, discovered with the Canadian Galactic Plane Survey. We do not detect diffuse X-r...", "citations": 2, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7198, "doi": "10.1093/mnras/stu1515", "umap_coordinates": { "x": 396.2193908691406, "y": 135.37899780273438, "z": 205.7131805419922 }, "tsne_coordinates": { "x": -28.499258041381836, "y": 28.0476131439209, "z": 5.570034980773926 }, "pca_coordinates": { "x": -0.34359991550445557, "y": 3.7348623275756836, "z": 1.0674972534179688 }, "axis_scores": { "Quantum imaging": 0.6679103970527649, "Quantum Life Science Sensing": 0.6678769588470459, "Quantum sensing Detection": 0.664327085018158, "Quantum sensing Metrology": 0.6720650792121887, "Quantum sensing navigation": 0.7162315845489502, "Quantum sensing Position": 0.6755590438842773, "Quantum sensing Timing": 0.661920428276062, "Quantum sensing": 0.6716379523277283, "Quantum control": 0.6424232125282288 } }, { "id": 7192, "title": "Dynamic light-scattering study of 3-indolbutyric acid polymeric derivative", "abstract": "This paper describes the dynamics of new slow release formulations of plant growth regulator (PGR) 3-indolbutyric acid (IBA) in aqueous solution. The new PGR formulations are water-soluble copolymers ...", "citations": 8, "author_count": 5, "categories": [ "Polymer Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7199, "doi": "10.1016/S0032-3861(97)00512-0", "umap_coordinates": { "x": 393.46124267578125, "y": 135.43899536132812, "z": 205.1798553466797 }, "tsne_coordinates": { "x": 13.361681938171387, "y": 16.030105590820312, "z": 16.350173950195312 }, "pca_coordinates": { "x": -3.4195613861083984, "y": 1.2762629985809326, "z": -1.603171944618225 }, "axis_scores": { "Quantum imaging": 0.6800088286399841, "Quantum Life Science Sensing": 0.6950454115867615, "Quantum sensing Detection": 0.6556307673454285, "Quantum sensing Metrology": 0.6406141519546509, "Quantum sensing navigation": 0.6745820045471191, "Quantum sensing Position": 0.6720312833786011, "Quantum sensing Timing": 0.6234958171844482, "Quantum sensing": 0.6705184578895569, "Quantum control": 0.6644878387451172 } }, { "id": 7193, "title": "Slow Noncollinear Coulomb Scattering in the Vicinity of the Dirac Point in Graphene", "abstract": "The Coulomb scattering dynamics in graphene in energetic proximity to the Dirac point is investigated by polarization resolved pump-probe spectroscopy and microscopic theory. Collinear Coulomb scatter...", "citations": 44, "author_count": 13, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7200, "doi": "10.1103/PhysRevLett.117.087401", "umap_coordinates": { "x": 395.31500244140625, "y": 135.33326721191406, "z": 208.5375518798828 }, "tsne_coordinates": { "x": -8.395547866821289, "y": -38.766666412353516, "z": 5.114119052886963 }, "pca_coordinates": { "x": 3.67417049407959, "y": -0.7330536842346191, "z": 0.6844605803489685 }, "axis_scores": { "Quantum imaging": 0.6666461229324341, "Quantum Life Science Sensing": 0.7016100883483887, "Quantum sensing Detection": 0.6904116272926331, "Quantum sensing Metrology": 0.6577857136726379, "Quantum sensing navigation": 0.7042255997657776, "Quantum sensing Position": 0.6910620331764221, "Quantum sensing Timing": 0.6793097257614136, "Quantum sensing": 0.6910766959190369, "Quantum control": 0.6688231825828552 } }, { "id": 7194, "title": "Self-Assembly of Quantum-Confined CsPbBr3 Perovskite Nanocrystals into Rhombic, Frame, and Rectangular Superlattices", "abstract": "Superlattices of quantum-confined perovskite nanocrystals (5-6 nm) present an interesting example of colloidal crystals because of the interplay between nanoscopic parameters (nanocrystal sizes, shape...", "citations": 2, "author_count": 12, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7201, "doi": "10.1002/sstr.202500133", "umap_coordinates": { "x": 391.5608825683594, "y": 134.00924682617188, "z": 205.62057495117188 }, "tsne_coordinates": { "x": 25.100040435791016, "y": -4.498150825500488, "z": -21.137128829956055 }, "pca_coordinates": { "x": -1.987898588180542, "y": -1.7111449241638184, "z": -1.6711726188659668 }, "axis_scores": { "Quantum imaging": 0.7119110822677612, "Quantum Life Science Sensing": 0.7049576044082642, "Quantum sensing Detection": 0.6795827746391296, "Quantum sensing Metrology": 0.6870182752609253, "Quantum sensing navigation": 0.7049044370651245, "Quantum sensing Position": 0.6825589537620544, "Quantum sensing Timing": 0.702707827091217, "Quantum sensing": 0.7063995599746704, "Quantum control": 0.7040489912033081 } }, { "id": 7195, "title": "Color tuning of multi-resonant thermally activated delayed fluorescence emitters based on fully fused polycyclic amine/carbonyl frameworks", "abstract": "Two novel p-extended amine/carbonyl-based multi-resonance thermally activated delayed fluorescence (MR-TADF) emitters have been designed and synthesized. The two emitters are isomeric, composed of nin...", "citations": 43, "author_count": 13, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7202, "doi": "10.1039/d3tc00641g", "umap_coordinates": { "x": 391.8901672363281, "y": 135.40701293945312, "z": 204.81280517578125 }, "tsne_coordinates": { "x": 7.817264556884766, "y": 5.917688369750977, "z": -14.117743492126465 }, "pca_coordinates": { "x": -3.09070086479187, "y": -0.6866085529327393, "z": -0.9609423875808716 }, "axis_scores": { "Quantum imaging": 0.6915700435638428, "Quantum Life Science Sensing": 0.6886438131332397, "Quantum sensing Detection": 0.6856256723403931, "Quantum sensing Metrology": 0.6655147671699524, "Quantum sensing navigation": 0.6612708568572998, "Quantum sensing Position": 0.6559497714042664, "Quantum sensing Timing": 0.6971296668052673, "Quantum sensing": 0.6957389712333679, "Quantum control": 0.6865726709365845 } }, { "id": 7196, "title": "Electron transfer pathways in photoexcited lanthanide(iii) complexes of picolinate ligands", "abstract": "A series of luminescent lanthanide(iii) complexes consisting of 1,4,7-triazacyclononane frameworks and three secondary amide-linked carbostyril antennae were synthesised. The metal binding sites were ...", "citations": 10, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7203, "doi": "10.1039/d1dt00616a", "umap_coordinates": { "x": 391.8363342285156, "y": 135.47506713867188, "z": 205.6248321533203 }, "tsne_coordinates": { "x": 6.026829242706299, "y": -5.471445083618164, "z": -16.718290328979492 }, "pca_coordinates": { "x": -1.8953653573989868, "y": -2.8471388816833496, "z": -1.2772459983825684 }, "axis_scores": { "Quantum imaging": 0.7058402895927429, "Quantum Life Science Sensing": 0.690645158290863, "Quantum sensing Detection": 0.6845502853393555, "Quantum sensing Metrology": 0.6611140370368958, "Quantum sensing navigation": 0.6710427403450012, "Quantum sensing Position": 0.6441534757614136, "Quantum sensing Timing": 0.6618492603302002, "Quantum sensing": 0.6864877939224243, "Quantum control": 0.6688532829284668 } }, { "id": 7197, "title": "Effects of nanoparticles in fresh waters: risks, mechanisms and interactions", "abstract": "Ecotoxicology is often criticised for its simplistic approach, which does not normally consider the complexity of field conditions. Simple laboratory experiments can still be useful, however, especial...", "citations": 88, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7204, "doi": "10.1111/fwb.12701", "umap_coordinates": { "x": 394.1169738769531, "y": 134.71536254882812, "z": 204.44149780273438 }, "tsne_coordinates": { "x": 19.889455795288086, "y": 25.453710556030273, "z": 4.915769100189209 }, "pca_coordinates": { "x": -2.5971741676330566, "y": 0.28717589378356934, "z": -0.566453218460083 }, "axis_scores": { "Quantum imaging": 0.7019471526145935, "Quantum Life Science Sensing": 0.7197539210319519, "Quantum sensing Detection": 0.7133249640464783, "Quantum sensing Metrology": 0.700113832950592, "Quantum sensing navigation": 0.7033108472824097, "Quantum sensing Position": 0.6685758829116821, "Quantum sensing Timing": 0.6608905792236328, "Quantum sensing": 0.7173592448234558, "Quantum control": 0.6997565627098083 } }, { "id": 7198, "title": "Improved visualization of the bone-implant interface and osseointegration in ex vivo acetabular cup implants using photon-counting detector CT", "abstract": "BackgroundSuccessful osseointegration of joint replacement implants is required for long-term implant survival. Accurate assessment of osseointegration could enable clinical discrimination of failed i...", "citations": 10, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7205, "doi": "10.1186/s41747-023-00335-y", "umap_coordinates": { "x": 395.52374267578125, "y": 133.0340118408203, "z": 205.0798797607422 }, "tsne_coordinates": { "x": -7.292344570159912, "y": 25.192970275878906, "z": -15.159855842590332 }, "pca_coordinates": { "x": -3.4822494983673096, "y": 3.2663683891296387, "z": 2.4924354553222656 }, "axis_scores": { "Quantum imaging": 0.6753548383712769, "Quantum Life Science Sensing": 0.6329213380813599, "Quantum sensing Detection": 0.6366415619850159, "Quantum sensing Metrology": 0.6324890851974487, "Quantum sensing navigation": 0.6495992541313171, "Quantum sensing Position": 0.636698842048645, "Quantum sensing Timing": 0.6399204730987549, "Quantum sensing": 0.6400344967842102, "Quantum control": 0.6242635846138 } }, { "id": 7199, "title": "Classical and quantum particle dynamics in univariate background fields", "abstract": "We investigate deviations from the plane wave model in the interaction of charged particles with strong electromagnetic fields. A general result is that integrability of the dynamics is lost when goin...", "citations": 33, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7206, "doi": "10.1103/PhysRevD.94.065039", "umap_coordinates": { "x": 395.2529602050781, "y": 137.814697265625, "z": 207.1844940185547 }, "tsne_coordinates": { "x": -31.817235946655273, "y": 0.1721290647983551, "z": 22.402957916259766 }, "pca_coordinates": { "x": 3.57318115234375, "y": 2.014371871948242, "z": -2.404972553253174 }, "axis_scores": { "Quantum imaging": 0.7108833193778992, "Quantum Life Science Sensing": 0.6825590133666992, "Quantum sensing Detection": 0.6806603074073792, "Quantum sensing Metrology": 0.6562958359718323, "Quantum sensing navigation": 0.7094600796699524, "Quantum sensing Position": 0.6915847063064575, "Quantum sensing Timing": 0.6841451525688171, "Quantum sensing": 0.6925857663154602, "Quantum control": 0.7208842039108276 } }, { "id": 7200, "title": "Intermethod comparison of the particle size distributions of colloidal silica nanoparticles", "abstract": "There can be a large variation in the measured diameter of nanoparticles depending on which method is used. In this work, we have strived to accurately determine the mean particle diameter of 3040 nm ...", "citations": 116, "author_count": 9, "categories": [ "Materials Science" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7207, "doi": "10.1088/1468-6996/15/3/035009", "umap_coordinates": { "x": 393.6784362792969, "y": 134.6983642578125, "z": 204.76528930664062 }, "tsne_coordinates": { "x": 6.651153564453125, "y": 22.882061004638672, "z": 9.891736030578613 }, "pca_coordinates": { "x": -2.4502358436584473, "y": 1.2528553009033203, "z": 1.1741652488708496 }, "axis_scores": { "Quantum imaging": 0.6620126962661743, "Quantum Life Science Sensing": 0.6697355508804321, "Quantum sensing Detection": 0.6423180103302002, "Quantum sensing Metrology": 0.6708136796951294, "Quantum sensing navigation": 0.6498330235481262, "Quantum sensing Position": 0.6565048098564148, "Quantum sensing Timing": 0.6486064195632935, "Quantum sensing": 0.6635329723358154, "Quantum control": 0.616753101348877 } }, { "id": 7201, "title": "Interaction between lysozyme and colloidal poly(NIPAM-co-acrylic acid) microgels", "abstract": "The interaction between lysozyme and colloidal poly(NIPAM-co-acrylic acid) microgels is investigated in aqueous solutions at neutral pH. Lysozyme binding isotherms, obtained within the ionic strength ...", "citations": 69, "author_count": 6, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7208, "doi": "10.1016/j.jcis.2010.03.072", "umap_coordinates": { "x": 393.14208984375, "y": 134.61341857910156, "z": 204.2697296142578 }, "tsne_coordinates": { "x": 22.86474609375, "y": 23.376893997192383, "z": 6.513087749481201 }, "pca_coordinates": { "x": -4.098816394805908, "y": -0.5305047035217285, "z": -1.4071593284606934 }, "axis_scores": { "Quantum imaging": 0.693159282207489, "Quantum Life Science Sensing": 0.7094902396202087, "Quantum sensing Detection": 0.6814053058624268, "Quantum sensing Metrology": 0.676804780960083, "Quantum sensing navigation": 0.6698172092437744, "Quantum sensing Position": 0.6857370734214783, "Quantum sensing Timing": 0.6499298810958862, "Quantum sensing": 0.6983855366706848, "Quantum control": 0.6817460060119629 } }, { "id": 7202, "title": "Detection and characterization of engineered nanoparticles in food and the environment", "abstract": "Nanotechnology is developing rapidly and, in the future, it is expected that increasingly more products will contain some sort of nanomaterial. However, to date, little is known about the occurrence, ...", "citations": 579, "author_count": 7, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7209, "doi": "10.1080/02652030802007553", "umap_coordinates": { "x": 393.8350830078125, "y": 134.5822296142578, "z": 204.60411071777344 }, "tsne_coordinates": { "x": 17.92377281188965, "y": 21.267120361328125, "z": 1.7985644340515137 }, "pca_coordinates": { "x": -4.132727146148682, "y": -0.035553693771362305, "z": -0.5583539009094238 }, "axis_scores": { "Quantum imaging": 0.6816945672035217, "Quantum Life Science Sensing": 0.7428856492042542, "Quantum sensing Detection": 0.7064096927642822, "Quantum sensing Metrology": 0.6863839030265808, "Quantum sensing navigation": 0.698859691619873, "Quantum sensing Position": 0.6746271252632141, "Quantum sensing Timing": 0.6512126326560974, "Quantum sensing": 0.6994627714157104, "Quantum control": 0.6642691493034363 } }, { "id": 7203, "title": "SHADE SHOOT STRUCTURE OF CONIFERS AND THE PHOTOSYNTHETIC RESPONSE TO LIGHT AT 2 CO2 PARTIAL PRESSURES", "abstract": "1. The response of net photosynthesis to irradiance was measured for shade-adapted shoots of different conifer species. Shoots were illuminated unidirectionally or in a light integrating sphere to stu...", "citations": 36, "author_count": 2, "categories": [ "Environmental Sciences & Ecology" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7210, "doi": "10.2307/2390004", "umap_coordinates": { "x": 394.3321533203125, "y": 136.50588989257812, "z": 203.63377380371094 }, "tsne_coordinates": { "x": 10.036946296691895, "y": 39.65372848510742, "z": 12.880440711975098 }, "pca_coordinates": { "x": -1.0950487852096558, "y": 2.7625844478607178, "z": -2.080294132232666 }, "axis_scores": { "Quantum imaging": 0.6539812684059143, "Quantum Life Science Sensing": 0.6991853713989258, "Quantum sensing Detection": 0.644413948059082, "Quantum sensing Metrology": 0.6597875952720642, "Quantum sensing navigation": 0.6493812799453735, "Quantum sensing Position": 0.6608593463897705, "Quantum sensing Timing": 0.6284906268119812, "Quantum sensing": 0.6565825939178467, "Quantum control": 0.6537400484085083 } }, { "id": 7204, "title": "DYNAMIC BEHAVIOR IN CONCENTRATED POLYSTYRENE CYCLOHEXANE SOLUTIONS CLOSE TO THE THETA-POINT - RELAXATION-TIME DISTRIBUTIONS AS A FUNCTION OF CONCENTRATION AND TEMPERATURE", "abstract": "Dynamic light scattering measurements are reported on concentrated solutions (C < 0.8 g/mL) of polystyrene (M(w) = 9.3 x 10(5)) in cyclohexane over a range of temperature 30-70-degrees-C. At the THETA...", "citations": 18, "author_count": 3, "categories": [ "Polymer Science" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7211, "doi": "10.1021/ma00043a018", "umap_coordinates": { "x": 393.3377380371094, "y": 136.1726531982422, "z": 205.60855102539062 }, "tsne_coordinates": { "x": -4.011050224304199, "y": -2.966158390045166, "z": 33.32980728149414 }, "pca_coordinates": { "x": -1.2193890810012817, "y": 1.9782731533050537, "z": -2.514749050140381 }, "axis_scores": { "Quantum imaging": 0.640709638595581, "Quantum Life Science Sensing": 0.6885368227958679, "Quantum sensing Detection": 0.6322826147079468, "Quantum sensing Metrology": 0.6254538297653198, "Quantum sensing navigation": 0.6437295079231262, "Quantum sensing Position": 0.6762129664421082, "Quantum sensing Timing": 0.6799707412719727, "Quantum sensing": 0.6468364000320435, "Quantum control": 0.6380377411842346 } }, { "id": 7205, "title": "Fluctuation-driven topological Hund insulators", "abstract": "We investigate the role of electron-electron interaction in a two-band Hubbard model based on the Bernevig-Hughes-Zhang Hamiltonian exhibiting the quantum spin Hall (QSH) effect. By means of dynamical...", "citations": 80, "author_count": 4, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7212, "doi": "10.1103/PhysRevB.87.235104", "umap_coordinates": { "x": 394.4842834472656, "y": 136.38673400878906, "z": 209.2096710205078 }, "tsne_coordinates": { "x": -5.214942932128906, "y": -33.7358283996582, "z": 2.270719051361084 }, "pca_coordinates": { "x": 5.922417163848877, "y": -0.8380398750305176, "z": -1.3808107376098633 }, "axis_scores": { "Quantum imaging": 0.6855202317237854, "Quantum Life Science Sensing": 0.7129301428794861, "Quantum sensing Detection": 0.7106778025627136, "Quantum sensing Metrology": 0.6932766437530518, "Quantum sensing navigation": 0.7286455035209656, "Quantum sensing Position": 0.6710216403007507, "Quantum sensing Timing": 0.6870126724243164, "Quantum sensing": 0.7180338501930237, "Quantum control": 0.7175604104995728 } }, { "id": 7206, "title": "Coherence and decoherence of positive particle states in solids", "abstract": "Some recent works on the tunneling of light interstitial particles (protons and positive muons) in metals are reviewed. They provide examples of simple quantum systems coupled to baths consisting of p...", "citations": 5, "author_count": 2, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7213, "doi": "10.1238/Physica.Topical.076a00179", "umap_coordinates": { "x": 394.8028259277344, "y": 136.81639099121094, "z": 207.18992614746094 }, "tsne_coordinates": { "x": -19.604520797729492, "y": -5.220441818237305, "z": 18.271780014038086 }, "pca_coordinates": { "x": 2.9827370643615723, "y": 0.3603794574737549, "z": -0.7300006151199341 }, "axis_scores": { "Quantum imaging": 0.735978901386261, "Quantum Life Science Sensing": 0.7383638024330139, "Quantum sensing Detection": 0.7285522222518921, "Quantum sensing Metrology": 0.7077010869979858, "Quantum sensing navigation": 0.7240415215492249, "Quantum sensing Position": 0.7236530780792236, "Quantum sensing Timing": 0.6923226118087769, "Quantum sensing": 0.72788006067276, "Quantum control": 0.7042112946510315 } }, { "id": 7207, "title": "Extraction of the frequency moments of spectral densities from imaginary-time correlation function data", "abstract": "We introduce an exact framework to compute the positive frequency moments M(alpha)(q) = (omega alpha) of different dynamic properties from imaginary-time quantum Monte Carlo data. As a practical examp...", "citations": 29, "author_count": 9, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7214, "doi": "10.1103/PhysRevB.107.155148", "umap_coordinates": { "x": 394.9498596191406, "y": 136.21409606933594, "z": 208.613525390625 }, "tsne_coordinates": { "x": -19.975696563720703, "y": -32.22279739379883, "z": 0.17241431772708893 }, "pca_coordinates": { "x": 3.8883090019226074, "y": 1.187097191810608, "z": 0.19630342721939087 }, "axis_scores": { "Quantum imaging": 0.7242773771286011, "Quantum Life Science Sensing": 0.7418481707572937, "Quantum sensing Detection": 0.7237220406532288, "Quantum sensing Metrology": 0.7083389759063721, "Quantum sensing navigation": 0.7139284610748291, "Quantum sensing Position": 0.6805027723312378, "Quantum sensing Timing": 0.7045528888702393, "Quantum sensing": 0.7266668677330017, "Quantum control": 0.6995872259140015 } }, { "id": 7208, "title": "Neutron Scattering of Proton-Conducting Ceramics", "abstract": "This chapter aims to demonstrate the important role that neutron scattering now plays in advancing the current understanding of the basic properties of proton-conducting ceramic separator-materials fo...", "citations": 2, "author_count": 2, "categories": [ "Energy & Fuels" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7215, "doi": "10.1007/978-3-319-06656-1_9", "umap_coordinates": { "x": 394.2421875, "y": 134.8296356201172, "z": 205.1294403076172 }, "tsne_coordinates": { "x": -14.140968322753906, "y": 18.564023971557617, "z": 3.4633214473724365 }, "pca_coordinates": { "x": -1.6791170835494995, "y": 0.8205140829086304, "z": -0.09383976459503174 }, "axis_scores": { "Quantum imaging": 0.6931459307670593, "Quantum Life Science Sensing": 0.7241069674491882, "Quantum sensing Detection": 0.6815059185028076, "Quantum sensing Metrology": 0.6892415285110474, "Quantum sensing navigation": 0.6896976828575134, "Quantum sensing Position": 0.659227728843689, "Quantum sensing Timing": 0.6557543873786926, "Quantum sensing": 0.707883358001709, "Quantum control": 0.6572638750076294 } }, { "id": 7209, "title": "ABSOLUTE CROSS-SECTIONS FOR DISSOCIATIVE RECOMBINATION OF HD+ - COMPARISON OF EXPERIMENT AND THEORY", "abstract": "Absolute cross sections for dissociative recombination of HD+ were measured in the ion storage CRYRING for incident electron energies in the range 0.01-20 eV. The ions were stored for about 25 s befor...", "citations": 53, "author_count": 14, "categories": [ "Optics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7216, "doi": "10.1103/PhysRevA.52.R4320", "umap_coordinates": { "x": 395.72216796875, "y": 135.3810272216797, "z": 208.20533752441406 }, "tsne_coordinates": { "x": -3.740054130554199, "y": -5.7479166984558105, "z": -3.8912415504455566 }, "pca_coordinates": { "x": 2.589043140411377, "y": 0.5234346389770508, "z": -0.3419814109802246 }, "axis_scores": { "Quantum imaging": 0.6825483441352844, "Quantum Life Science Sensing": 0.714167058467865, "Quantum sensing Detection": 0.6926319003105164, "Quantum sensing Metrology": 0.6815168261528015, "Quantum sensing navigation": 0.676059365272522, "Quantum sensing Position": 0.6844952702522278, "Quantum sensing Timing": 0.684023916721344, "Quantum sensing": 0.6942955851554871, "Quantum control": 0.6580554246902466 } }, { "id": 7210, "title": "Calculation of the Molecular and Atomic Properties of Selected Anions in Water", "abstract": "The polarizability and other properties have been studied for F-, Cl-, Br-, and HCOO- in water using a combined quantum chemical statistical mechanics simulation model that explicitly takes into accou...", "citations": 1, "author_count": 4, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7217, "doi": "10.1021/jp1107763", "umap_coordinates": { "x": 392.9405517578125, "y": 136.84934997558594, "z": 205.2931671142578 }, "tsne_coordinates": { "x": 1.3887580633163452, "y": 13.346002578735352, "z": 26.397052764892578 }, "pca_coordinates": { "x": -1.7188997268676758, "y": -0.3003828525543213, "z": -2.980476140975952 }, "axis_scores": { "Quantum imaging": 0.6942592859268188, "Quantum Life Science Sensing": 0.716399610042572, "Quantum sensing Detection": 0.6853249073028564, "Quantum sensing Metrology": 0.6713135838508606, "Quantum sensing navigation": 0.6920003890991211, "Quantum sensing Position": 0.6566649675369263, "Quantum sensing Timing": 0.6524471640586853, "Quantum sensing": 0.7031923532485962, "Quantum control": 0.6884177923202515 } }, { "id": 7211, "title": "High-Fidelity Bidirectional Nuclear Qubit Initialization in SiC", "abstract": "Dynamic nuclear polarization (DNP) is an attractive method for initializing nuclear spins that are strongly coupled to optically active electron spins because it functions at room temperature and does...", "citations": 19, "author_count": 10, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7218, "doi": "10.1103/PhysRevLett.117.220503", "umap_coordinates": { "x": 394.98046875, "y": 135.90452575683594, "z": 208.25936889648438 }, "tsne_coordinates": { "x": 6.139534950256348, "y": -17.09687614440918, "z": 1.0834237337112427 }, "pca_coordinates": { "x": 3.9073071479797363, "y": -0.4414787292480469, "z": 0.9501379132270813 }, "axis_scores": { "Quantum imaging": 0.7238421440124512, "Quantum Life Science Sensing": 0.688452959060669, "Quantum sensing Detection": 0.6973000168800354, "Quantum sensing Metrology": 0.6718286871910095, "Quantum sensing navigation": 0.7220820188522339, "Quantum sensing Position": 0.673669159412384, "Quantum sensing Timing": 0.6912681460380554, "Quantum sensing": 0.7103926539421082, "Quantum control": 0.7018057107925415 } }, { "id": 7212, "title": "Digital count summing vs analog charge summing for photon counting detectors: A performance simulation study", "abstract": "PurposeCharge sharing is a significant problem for CdTe-based photon counting detectors (PCDs) and can cause high-energy photons to be misclassified as one or more low-energy events. Charge sharing is...", "citations": 24, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7219, "doi": "10.1002/mp.13098", "umap_coordinates": { "x": 395.17095947265625, "y": 132.77732849121094, "z": 205.55747985839844 }, "tsne_coordinates": { "x": -9.160589218139648, "y": 20.76907730102539, "z": -18.84050941467285 }, "pca_coordinates": { "x": -1.9674609899520874, "y": 2.6804661750793457, "z": 2.9198827743530273 }, "axis_scores": { "Quantum imaging": 0.7159886360168457, "Quantum Life Science Sensing": 0.725457489490509, "Quantum sensing Detection": 0.7289356589317322, "Quantum sensing Metrology": 0.7246536612510681, "Quantum sensing navigation": 0.6944810152053833, "Quantum sensing Position": 0.7040280103683472, "Quantum sensing Timing": 0.7076571583747864, "Quantum sensing": 0.7221856117248535, "Quantum control": 0.6855589151382446 } }, { "id": 7213, "title": "SIMLA: Simulating particle dynamics in intense laser and other electromagnetic fields via classical and quantum electrodynamics", "abstract": "We present the Fortran program SIMLA, which is designed for the study of charged particle dynamics in laser and other background fields. The dynamics can be determined classically via the Lorentz forc...", "citations": 45, "author_count": 3, "categories": [ "Computer Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7220, "doi": "10.1016/j.cpc.2015.02.030", "umap_coordinates": { "x": 394.5621032714844, "y": 136.51889038085938, "z": 205.94216918945312 }, "tsne_coordinates": { "x": -16.188817977905273, "y": 5.903018951416016, "z": 18.092844009399414 }, "pca_coordinates": { "x": 0.21266484260559082, "y": 1.3441489934921265, "z": 0.21255499124526978 }, "axis_scores": { "Quantum imaging": 0.7743680477142334, "Quantum Life Science Sensing": 0.7533088326454163, "Quantum sensing Detection": 0.7297021746635437, "Quantum sensing Metrology": 0.722838282585144, "Quantum sensing navigation": 0.7335882782936096, "Quantum sensing Position": 0.7046283483505249, "Quantum sensing Timing": 0.7143687009811401, "Quantum sensing": 0.7468344569206238, "Quantum control": 0.7345792055130005 } }, { "id": 7214, "title": "European roadmap on superconductive electronics - status and perspectives", "abstract": "For four decades semiconductor electronics has followed Moore's law: with each generation of integration the circuit features became smaller, more complex and faster. This development is now reaching ...", "citations": 131, "author_count": 25, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7221, "doi": "10.1016/j.physc.2010.07.005", "umap_coordinates": { "x": 393.95574951171875, "y": 134.22268676757812, "z": 205.73658752441406 }, "tsne_coordinates": { "x": -8.657003402709961, "y": 8.450955390930176, "z": 5.095156192779541 }, "pca_coordinates": { "x": 0.14684879779815674, "y": -0.6053576469421387, "z": -0.9395546913146973 }, "axis_scores": { "Quantum imaging": 0.6904456615447998, "Quantum Life Science Sensing": 0.7223625779151917, "Quantum sensing Detection": 0.6843622922897339, "Quantum sensing Metrology": 0.678722083568573, "Quantum sensing navigation": 0.7006014585494995, "Quantum sensing Position": 0.7001152634620667, "Quantum sensing Timing": 0.6747134923934937, "Quantum sensing": 0.6936258673667908, "Quantum control": 0.6761288046836853 } }, { "id": 7215, "title": "Detection wavelengths and photocurrents of very long wavelength quantum-well infrared photodetectors", "abstract": "Based on detailed studies of the energy band structure and the optical transitions in very long wavelength (> 14 pm) GaAs/AlGaAs quantum-well (QW) infrared photodetectors (QWIPs), we have built a prac...", "citations": 11, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7222, "doi": "10.1016/j.infrared.2005.02.008", "umap_coordinates": { "x": 393.4745788574219, "y": 133.62904357910156, "z": 205.81661987304688 }, "tsne_coordinates": { "x": 7.3485212326049805, "y": 4.796274662017822, "z": -25.933555603027344 }, "pca_coordinates": { "x": -3.298759937286377, "y": -1.493575096130371, "z": 2.562589645385742 }, "axis_scores": { "Quantum imaging": 0.7395626306533813, "Quantum Life Science Sensing": 0.7704503536224365, "Quantum sensing Detection": 0.7399283647537231, "Quantum sensing Metrology": 0.7119020819664001, "Quantum sensing navigation": 0.6934076547622681, "Quantum sensing Position": 0.7004553079605103, "Quantum sensing Timing": 0.6901360154151917, "Quantum sensing": 0.7448910474777222, "Quantum control": 0.6589503288269043 } }, { "id": 7216, "title": "Efficient UV emission from carbon dots derived from a green-tea extract", "abstract": "Emissive carbon dots (CDs) that are synthesized from biomass can be highly sustainable, but the number of reported biomass-derived CDs that emit in the ultraviolet (UV) range is small. Moreover, curre...", "citations": 3, "author_count": 9, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7223, "doi": "10.26599/NR.2025.94907321", "umap_coordinates": { "x": 392.7915954589844, "y": 134.36668395996094, "z": 204.79652404785156 }, "tsne_coordinates": { "x": 27.025875091552734, "y": 11.849591255187988, "z": -10.618513107299805 }, "pca_coordinates": { "x": -3.6088743209838867, "y": 0.10110712051391602, "z": -0.6119349598884583 }, "axis_scores": { "Quantum imaging": 0.7032524943351746, "Quantum Life Science Sensing": 0.7273504734039307, "Quantum sensing Detection": 0.7024074196815491, "Quantum sensing Metrology": 0.6864054203033447, "Quantum sensing navigation": 0.6934286952018738, "Quantum sensing Position": 0.6681453585624695, "Quantum sensing Timing": 0.6831393241882324, "Quantum sensing": 0.7123326063156128, "Quantum control": 0.7088600397109985 } }, { "id": 7217, "title": "Simultaneously Efficient Solar Light Harvesting and Charge Transfer of Hollow Octahedral Cu2S/CdS p-n Heterostructures for Remarkable Photocatalytic Hydrogen Generation", "abstract": "Solar-driven water splitting is a promising alternative to industrial hydrogen production. This study reports an elaborate design and synthesis of the integration of cadmium sulfide (CdS) quantum dots...", "citations": 62, "author_count": 11, "categories": [ "Energy & Fuels" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7224, "doi": "10.1007/s12209-021-00291-x", "umap_coordinates": { "x": 392.0865783691406, "y": 133.57289123535156, "z": 205.1450958251953 }, "tsne_coordinates": { "x": 24.91826629638672, "y": 3.7196238040924072, "z": -4.9159440994262695 }, "pca_coordinates": { "x": -2.1581945419311523, "y": -3.883030891418457, "z": -0.0715796947479248 }, "axis_scores": { "Quantum imaging": 0.6744008660316467, "Quantum Life Science Sensing": 0.6893687844276428, "Quantum sensing Detection": 0.6695336103439331, "Quantum sensing Metrology": 0.6469582319259644, "Quantum sensing navigation": 0.6567904949188232, "Quantum sensing Position": 0.6284952759742737, "Quantum sensing Timing": 0.6405497193336487, "Quantum sensing": 0.682563841342926, "Quantum control": 0.6688951849937439 } }, { "id": 7218, "title": "Roadmap and roadblocks for the band gap tunability of metal halide perovskites", "abstract": "Solar cells based on metal-halide perovskite semiconductors inspire high hopes for efficient low cost solar cell technology. This material class exhibits a facile tunability of the band gap making the...", "citations": 406, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7225, "doi": "10.1039/c7ta00404d", "umap_coordinates": { "x": 391.84735107421875, "y": 134.4757537841797, "z": 205.4722442626953 }, "tsne_coordinates": { "x": 13.685627937316895, "y": -3.097194194793701, "z": -19.90730094909668 }, "pca_coordinates": { "x": -2.3876893520355225, "y": -1.163743495941162, "z": -2.845029592514038 }, "axis_scores": { "Quantum imaging": 0.664977490901947, "Quantum Life Science Sensing": 0.6852527260780334, "Quantum sensing Detection": 0.6404263377189636, "Quantum sensing Metrology": 0.6573607325553894, "Quantum sensing navigation": 0.6620668172836304, "Quantum sensing Position": 0.6409870386123657, "Quantum sensing Timing": 0.644694447517395, "Quantum sensing": 0.6572734117507935, "Quantum control": 0.6644513607025146 } }, { "id": 7219, "title": "TICT based fluorescence turn-on hydrazine probes", "abstract": "Fluorescence turn-on probes PC3 and C3 with weak background emissions were developed for hydrazine sensing. The aldehyde and dicyanovinyl groups were used as the recognition units for PD and C3, respe...", "citations": 87, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7226, "doi": "10.1016/j.snb.2014.03.087", "umap_coordinates": { "x": 393.6311340332031, "y": 134.2853546142578, "z": 204.97598266601562 }, "tsne_coordinates": { "x": 11.759870529174805, "y": 13.968366622924805, "z": -8.82996940612793 }, "pca_coordinates": { "x": -3.629481315612793, "y": 0.5198724269866943, "z": -1.6075828075408936 }, "axis_scores": { "Quantum imaging": 0.7268919944763184, "Quantum Life Science Sensing": 0.7347131371498108, "Quantum sensing Detection": 0.7221269011497498, "Quantum sensing Metrology": 0.6996771097183228, "Quantum sensing navigation": 0.7151015400886536, "Quantum sensing Position": 0.6907145977020264, "Quantum sensing Timing": 0.6940363645553589, "Quantum sensing": 0.7288314700126648, "Quantum control": 0.7079195976257324 } }, { "id": 7220, "title": "Power laws in polymer solution dynamics - art. no. 051803", "abstract": "The dynamical screening length xi(h) in semidilute to highly concentrated polymer solutions of poly(methyl methacrylate) in propylene carbonate has been examined using photon correlation spectroscopy ...", "citations": 19, "author_count": 5, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7227, "doi": "10.1103/PhysRevE.68.051803", "umap_coordinates": { "x": 393.6584167480469, "y": 136.7591552734375, "z": 206.9981689453125 }, "tsne_coordinates": { "x": -7.391887187957764, "y": -5.3487982749938965, "z": 29.9752197265625 }, "pca_coordinates": { "x": 3.53672456741333, "y": 0.5650508403778076, "z": -1.422516107559204 }, "axis_scores": { "Quantum imaging": 0.6742311120033264, "Quantum Life Science Sensing": 0.7263262271881104, "Quantum sensing Detection": 0.6715893745422363, "Quantum sensing Metrology": 0.6641517877578735, "Quantum sensing navigation": 0.7014469504356384, "Quantum sensing Position": 0.6744276881217957, "Quantum sensing Timing": 0.6574692726135254, "Quantum sensing": 0.6747812032699585, "Quantum control": 0.6829172372817993 } }, { "id": 7221, "title": "Photon-counting detector CT and energy-integrating detector CT for trabecular bone microstructure analysis of cubic specimens from human radius", "abstract": "Background As bone microstructure is known to impact bone strength, the aim of this in vitro study was to evaluate if the emerging photon-counting detector computed tomography (PCD-CT) technique may b...", "citations": 28, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7228, "doi": "10.1186/s41747-022-00286-w", "umap_coordinates": { "x": 395.4662170410156, "y": 133.44711303710938, "z": 204.83493041992188 }, "tsne_coordinates": { "x": -5.792851448059082, "y": 26.458370208740234, "z": -16.97570037841797 }, "pca_coordinates": { "x": -3.1018154621124268, "y": 3.666393280029297, "z": 1.7430191040039062 }, "axis_scores": { "Quantum imaging": 0.7086483836174011, "Quantum Life Science Sensing": 0.7171794772148132, "Quantum sensing Detection": 0.6844861507415771, "Quantum sensing Metrology": 0.6946939826011658, "Quantum sensing navigation": 0.6866438984870911, "Quantum sensing Position": 0.6768878698348999, "Quantum sensing Timing": 0.6949378848075867, "Quantum sensing": 0.6933961510658264, "Quantum control": 0.6527218222618103 } }, { "id": 7222, "title": "Two-photon absorption in the relativistic four-component Hartree-Fock approximation - art. no. 114106", "abstract": "A first implementation of the single residue of the quadratic response function in the four-component Hartree-Fock approximation is presented. The implementation is based on-a Kramers paired molecular...", "citations": 16, "author_count": 4, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7229, "doi": "10.1063/1.1869469", "umap_coordinates": { "x": 394.1711120605469, "y": 135.26527404785156, "z": 207.43374633789062 }, "tsne_coordinates": { "x": -4.206486225128174, "y": -3.8995158672332764, "z": 5.7476019859313965 }, "pca_coordinates": { "x": 1.7955760955810547, "y": -0.3726158142089844, "z": 0.7677969336509705 }, "axis_scores": { "Quantum imaging": 0.7230057716369629, "Quantum Life Science Sensing": 0.7089452743530273, "Quantum sensing Detection": 0.7206057906150818, "Quantum sensing Metrology": 0.6940910816192627, "Quantum sensing navigation": 0.6961408853530884, "Quantum sensing Position": 0.6736770868301392, "Quantum sensing Timing": 0.6767086386680603, "Quantum sensing": 0.7324053049087524, "Quantum control": 0.6928240060806274 } }, { "id": 7223, "title": "Numerical Modeling of Vortex-Based Superconducting Memory Cells: Dynamics and Geometrical Optimization", "abstract": "The lack of dense random-access memory is one of the main obstacles to the development of digital superconducting computers. It has been suggested that AVRAM cells, based on the storage of a single Ab...", "citations": 1, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7230, "doi": "10.3390/nano14201634", "umap_coordinates": { "x": 393.7813720703125, "y": 136.314697265625, "z": 207.09901428222656 }, "tsne_coordinates": { "x": -13.765847206115723, "y": -12.073063850402832, "z": 25.77084732055664 }, "pca_coordinates": { "x": 1.1993250846862793, "y": 0.3676776885986328, "z": -2.742330312728882 }, "axis_scores": { "Quantum imaging": 0.7185618877410889, "Quantum Life Science Sensing": 0.7405810952186584, "Quantum sensing Detection": 0.7060549855232239, "Quantum sensing Metrology": 0.703223705291748, "Quantum sensing navigation": 0.7443119287490845, "Quantum sensing Position": 0.7063052654266357, "Quantum sensing Timing": 0.7028517127037048, "Quantum sensing": 0.7150953412055969, "Quantum control": 0.7289904952049255 } }, { "id": 7224, "title": "Giant emitters in a structured bath with non-Hermitian skin effect", "abstract": "Giant emitters derive their name from nonlocal field-emitter interactions and feature diverse self-interference effects. Authors of most of the existing works on giant emitters have considered Hermiti...", "citations": 18, "author_count": 5, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7231, "doi": "10.1103/PhysRevResearch.5.L042040", "umap_coordinates": { "x": 395.2635498046875, "y": 136.4779052734375, "z": 208.553466796875 }, "tsne_coordinates": { "x": -20.34218978881836, "y": -24.386913299560547, "z": -14.01110553741455 }, "pca_coordinates": { "x": 2.091092348098755, "y": -0.747614860534668, "z": 0.33287471532821655 }, "axis_scores": { "Quantum imaging": 0.7128228545188904, "Quantum Life Science Sensing": 0.7438259720802307, "Quantum sensing Detection": 0.711337685585022, "Quantum sensing Metrology": 0.7133820652961731, "Quantum sensing navigation": 0.7263146638870239, "Quantum sensing Position": 0.6921154260635376, "Quantum sensing Timing": 0.6596238613128662, "Quantum sensing": 0.7252237796783447, "Quantum control": 0.6689320206642151 } }, { "id": 7225, "title": "Recent Advances in Optical Sensing for the Detection of Microbial Contaminants", "abstract": "Microbial contaminants are responsible for several infectious diseases, and they have been introduced as important potential food- and water-borne risk factors. They become a global burden due to thei...", "citations": 12, "author_count": 5, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7232, "doi": "10.3390/mi14091668", "umap_coordinates": { "x": 393.7145080566406, "y": 134.73707580566406, "z": 204.1231231689453 }, "tsne_coordinates": { "x": 26.544538497924805, "y": 21.28111457824707, "z": -8.047810554504395 }, "pca_coordinates": { "x": -4.0272674560546875, "y": 0.5290004014968872, "z": -1.1178942918777466 }, "axis_scores": { "Quantum imaging": 0.7087696194648743, "Quantum Life Science Sensing": 0.7573881149291992, "Quantum sensing Detection": 0.7211641073226929, "Quantum sensing Metrology": 0.7300362586975098, "Quantum sensing navigation": 0.6963039636611938, "Quantum sensing Position": 0.6889389157295227, "Quantum sensing Timing": 0.6558099985122681, "Quantum sensing": 0.7257916331291199, "Quantum control": 0.6702226996421814 } }, { "id": 7226, "title": "Dissipative Floquet dynamical quantum phase transition", "abstract": "Non-Hermitian Hamiltonians provide a simple picture for inspecting dissipative systems with natural or induced gain and loss. We investigate the Floquet dynamical phase transition in the dissipative p...", "citations": 45, "author_count": 5, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7233, "doi": "10.1103/PhysRevA.105.022220", "umap_coordinates": { "x": 394.8812255859375, "y": 136.39804077148438, "z": 208.6285858154297 }, "tsne_coordinates": { "x": -16.326499938964844, "y": -19.196094512939453, "z": 11.902704238891602 }, "pca_coordinates": { "x": 5.651758193969727, "y": -0.22492671012878418, "z": -2.1315317153930664 }, "axis_scores": { "Quantum imaging": 0.761057436466217, "Quantum Life Science Sensing": 0.7801870703697205, "Quantum sensing Detection": 0.7813701629638672, "Quantum sensing Metrology": 0.7464858889579773, "Quantum sensing navigation": 0.7705507874488831, "Quantum sensing Position": 0.7324967384338379, "Quantum sensing Timing": 0.7340433597564697, "Quantum sensing": 0.7836517691612244, "Quantum control": 0.783335268497467 } }, { "id": 7227, "title": "Floquet spin states in OLEDs", "abstract": "Electron and hole spins in organic light-emitting diodes constitute prototypical two-level systems for the exploration of the ultrastrong-drive regime of light-matter interactions. Floquet solutions t...", "citations": 18, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7234, "doi": "10.1038/s41467-020-20148-6", "umap_coordinates": { "x": 392.7984313964844, "y": 135.91641235351562, "z": 206.9502716064453 }, "tsne_coordinates": { "x": 11.286803245544434, "y": -10.201478958129883, "z": 12.523885726928711 }, "pca_coordinates": { "x": -0.4193568229675293, "y": -1.1472790241241455, "z": -2.669281482696533 }, "axis_scores": { "Quantum imaging": 0.7213771939277649, "Quantum Life Science Sensing": 0.7432312369346619, "Quantum sensing Detection": 0.7053081393241882, "Quantum sensing Metrology": 0.6978442072868347, "Quantum sensing navigation": 0.7169493436813354, "Quantum sensing Position": 0.7074993848800659, "Quantum sensing Timing": 0.6823844313621521, "Quantum sensing": 0.7243087887763977, "Quantum control": 0.7249457836151123 } }, { "id": 7228, "title": "Differences in extractability under subcritical water reveal interconnected hemicellulose and lignin recalcitrance in birch hardwoods", "abstract": "Hardwoods constitute an essential renewable resource for the production of platform chemicals and bio-based materials. A method for the sequential extraction of hemicelluloses and lignin from hardwood...", "citations": 95, "author_count": 5, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7235, "doi": "10.1039/c8gc00385h", "umap_coordinates": { "x": 393.091064453125, "y": 136.16567993164062, "z": 204.56430053710938 }, "tsne_coordinates": { "x": 26.19500732421875, "y": 35.69651794433594, "z": -0.35718318819999695 }, "pca_coordinates": { "x": -1.1154866218566895, "y": 1.2756457328796387, "z": -4.318018436431885 }, "axis_scores": { "Quantum imaging": 0.6284446716308594, "Quantum Life Science Sensing": 0.6684606075286865, "Quantum sensing Detection": 0.6017513275146484, "Quantum sensing Metrology": 0.5896698236465454, "Quantum sensing navigation": 0.6103560924530029, "Quantum sensing Position": 0.5816775560379028, "Quantum sensing Timing": 0.5685137510299683, "Quantum sensing": 0.6230514049530029, "Quantum control": 0.6067160964012146 } }, { "id": 7229, "title": "Membrane interactions and antimicrobial effects of inorganic nanoparticles", "abstract": "Interactions between nanoparticles and biological membranes are attracting increasing attention in current nanomedicine, and play a key role both for nanotoxicology and for utilizing nanomaterials in ...", "citations": 70, "author_count": 3, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7236, "doi": "10.1016/j.cis.2017.07.029", "umap_coordinates": { "x": 393.4697265625, "y": 134.36183166503906, "z": 204.43551635742188 }, "tsne_coordinates": { "x": 22.18077850341797, "y": 21.450403213500977, "z": 5.903354644775391 }, "pca_coordinates": { "x": -4.262503623962402, "y": -1.071300745010376, "z": -2.6423041820526123 }, "axis_scores": { "Quantum imaging": 0.7257969379425049, "Quantum Life Science Sensing": 0.7561294436454773, "Quantum sensing Detection": 0.70693039894104, "Quantum sensing Metrology": 0.7025082111358643, "Quantum sensing navigation": 0.6876408457756042, "Quantum sensing Position": 0.6739937663078308, "Quantum sensing Timing": 0.6458365321159363, "Quantum sensing": 0.7218387126922607, "Quantum control": 0.691520631313324 } }, { "id": 7230, "title": "Properties of inductance and magnetic penetration depth in (103)-oriented YBa2Cu3O7-δ thin films", "abstract": "We present a study of the anisotropy of the inductance in (103) YBa2Cu3O7-delta (YBCO) films. YBCO superconducting quantum interference devices (SQUIDs) were fabricated by the biepitaxial technique. S...", "citations": 33, "author_count": 5, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7237, "doi": "10.1103/PhysRevB.79.214513", "umap_coordinates": { "x": 393.7228088378906, "y": 135.3571319580078, "z": 208.45809936523438 }, "tsne_coordinates": { "x": 1.9758144617080688, "y": -22.26929473876953, "z": 16.008399963378906 }, "pca_coordinates": { "x": 2.216856002807617, "y": -1.3333830833435059, "z": -0.7252789735794067 }, "axis_scores": { "Quantum imaging": 0.6992666721343994, "Quantum Life Science Sensing": 0.7145633101463318, "Quantum sensing Detection": 0.6858566999435425, "Quantum sensing Metrology": 0.6748808026313782, "Quantum sensing navigation": 0.7084527611732483, "Quantum sensing Position": 0.6952243447303772, "Quantum sensing Timing": 0.6682324409484863, "Quantum sensing": 0.6996856927871704, "Quantum control": 0.658073365688324 } }, { "id": 7231, "title": "Dihydroxy-terminated poly(L-lactide) obtained by controlled ring-opening polymerization: Investigation of the polymerization mechanism", "abstract": "Hydroxy telechelic poly(L-lactide)s of different molecular weight have been synthesized by controlled ring-opening polymerization using cyclic tin alkoxides. NMR analysis showed that the propagation p...", "citations": 91, "author_count": 4, "categories": [ "Polymer Science" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7238, "doi": "10.1021/ma991811u", "umap_coordinates": { "x": 392.9132080078125, "y": 135.66355895996094, "z": 204.2633056640625 }, "tsne_coordinates": { "x": 8.34809398651123, "y": 19.829544067382812, "z": -0.1352112740278244 }, "pca_coordinates": { "x": -2.760739803314209, "y": 1.1084778308868408, "z": -1.2812848091125488 }, "axis_scores": { "Quantum imaging": 0.6325859427452087, "Quantum Life Science Sensing": 0.6795883178710938, "Quantum sensing Detection": 0.6475642919540405, "Quantum sensing Metrology": 0.6212314367294312, "Quantum sensing navigation": 0.6321532130241394, "Quantum sensing Position": 0.6198043823242188, "Quantum sensing Timing": 0.6107971668243408, "Quantum sensing": 0.6524136066436768, "Quantum control": 0.6626360416412354 } }, { "id": 7232, "title": "Thermosetting microemulsions and mixed micellar solutions as drug delivery systems for periodontal anesthesia", "abstract": "In the present study, thermosetting microemulsions and mixed micellar solutions were investigated as drug delivery systems for anesthetizing the periodontal pocket. The structure of the systems, consi...", "citations": 72, "author_count": 5, "categories": [ "Pharmacology & Pharmacy" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7239, "doi": "10.1016/S0378-5173(99)00366-X", "umap_coordinates": { "x": 393.515869140625, "y": 134.54708862304688, "z": 204.37306213378906 }, "tsne_coordinates": { "x": 11.689900398254395, "y": 21.096698760986328, "z": -10.177999496459961 }, "pca_coordinates": { "x": -4.478889465332031, "y": 0.8335785865783691, "z": -0.9852619171142578 }, "axis_scores": { "Quantum imaging": 0.6403313875198364, "Quantum Life Science Sensing": 0.6674265265464783, "Quantum sensing Detection": 0.6208495497703552, "Quantum sensing Metrology": 0.6535967588424683, "Quantum sensing navigation": 0.624782919883728, "Quantum sensing Position": 0.6420251727104187, "Quantum sensing Timing": 0.6529958248138428, "Quantum sensing": 0.6498576402664185, "Quantum control": 0.619864821434021 } }, { "id": 7233, "title": "Spray-Deposited Anisotropic Ferromagnetic Hybrid Polymer Films of PS-b-PMMA and Strontium Hexaferrite Magnetic Nanoplatelets", "abstract": "Spray deposition is a scalable and cost-effective technique for the fabrication of magnetic hybrid films containing diblock copolymers (DBCs) and magnetic nanoparticles. However, it is challenging to ...", "citations": 15, "author_count": 17, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7240, "doi": "10.1021/acsami.0c19595", "umap_coordinates": { "x": 392.7095642089844, "y": 134.86111450195312, "z": 206.2838897705078 }, "tsne_coordinates": { "x": 34.2293815612793, "y": 19.066802978515625, "z": -3.189818859100342 }, "pca_coordinates": { "x": -1.409306526184082, "y": -2.456084728240967, "z": -0.6970920562744141 }, "axis_scores": { "Quantum imaging": 0.7165320515632629, "Quantum Life Science Sensing": 0.7306065559387207, "Quantum sensing Detection": 0.6956051588058472, "Quantum sensing Metrology": 0.7075402140617371, "Quantum sensing navigation": 0.6973556876182556, "Quantum sensing Position": 0.7013020515441895, "Quantum sensing Timing": 0.6715680956840515, "Quantum sensing": 0.7199496030807495, "Quantum control": 0.6761048436164856 } }, { "id": 7234, "title": "Deciphering the unusual fluorescence in weakly coupled bis-nitro-pyrrolo[3,2-b]pyrroles", "abstract": "Electron-deficient pi-conjugated functional dyes lie at the heart of organic optoelectronics. Adding nitro groups to aromatic compounds usually quenches their fluorescence via inter-system crossing (I...", "citations": 63, "author_count": 9, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7241, "doi": "10.1038/s42004-020-00434-6", "umap_coordinates": { "x": 392.7135009765625, "y": 136.23866271972656, "z": 204.78488159179688 }, "tsne_coordinates": { "x": -0.7135991454124451, "y": 15.810310363769531, "z": 4.305941581726074 }, "pca_coordinates": { "x": -2.402949571609497, "y": -0.47430944442749023, "z": -1.0768389701843262 }, "axis_scores": { "Quantum imaging": 0.7230597138404846, "Quantum Life Science Sensing": 0.7344487905502319, "Quantum sensing Detection": 0.7216107249259949, "Quantum sensing Metrology": 0.6917667984962463, "Quantum sensing navigation": 0.708690345287323, "Quantum sensing Position": 0.6897037625312805, "Quantum sensing Timing": 0.668605625629425, "Quantum sensing": 0.7266861200332642, "Quantum control": 0.6785352230072021 } }, { "id": 7235, "title": "Near-Infrared Lasing at 1 μm from a Dilute-Nitride-Based Multishell Nanowire", "abstract": "A coherent photon source emitting at near-infrared (NIR) wavelengths is at the heart of a wide variety of applications ranging from telecommunications and optical gas sensing to biological imaging and...", "citations": 37, "author_count": 7, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7242, "doi": "10.1021/acs.nanolett.8b04103", "umap_coordinates": { "x": 392.7002868652344, "y": 133.80789184570312, "z": 207.1244354248047 }, "tsne_coordinates": { "x": 16.40488624572754, "y": -16.07196807861328, "z": -8.647932052612305 }, "pca_coordinates": { "x": -0.8744571805000305, "y": -4.543567180633545, "z": 1.6972126960754395 }, "axis_scores": { "Quantum imaging": 0.6647689938545227, "Quantum Life Science Sensing": 0.6842324137687683, "Quantum sensing Detection": 0.6771026849746704, "Quantum sensing Metrology": 0.6678856015205383, "Quantum sensing navigation": 0.6584600806236267, "Quantum sensing Position": 0.6555691957473755, "Quantum sensing Timing": 0.6169098019599915, "Quantum sensing": 0.6767092347145081, "Quantum control": 0.6230658888816833 } }, { "id": 7236, "title": "Light tracking through ice and water - Scattering and absorption in heterogeneous media with PHOTONICS", "abstract": "In the field of neutrino astronomy, large volumes of optically transparent matter like glacial ice, lake water, or deep ocean water are used as detector media. Elementary particle interactions are stu...", "citations": 81, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7243, "doi": "10.1016/j.nima.2007.07.143", "umap_coordinates": { "x": 394.322509765625, "y": 133.4032745361328, "z": 205.44383239746094 }, "tsne_coordinates": { "x": -15.060157775878906, "y": 18.521455764770508, "z": -7.771858215332031 }, "pca_coordinates": { "x": -2.9006497859954834, "y": 1.23167085647583, "z": 2.4676194190979004 }, "axis_scores": { "Quantum imaging": 0.7547340393066406, "Quantum Life Science Sensing": 0.7225684523582458, "Quantum sensing Detection": 0.7128075361251831, "Quantum sensing Metrology": 0.6991809606552124, "Quantum sensing navigation": 0.7249049544334412, "Quantum sensing Position": 0.6699286103248596, "Quantum sensing Timing": 0.6752503514289856, "Quantum sensing": 0.7180342078208923, "Quantum control": 0.6812818646430969 } }, { "id": 7237, "title": "Perilous paradigm of graphene oxide and its derivatives in biomedical applications: Insight to immunocompatibility", "abstract": "With advancements in nanotechnology and innovative materials, Graphene Oxide nanoparticles (GONP) have attracted lots of attention among the diverse types of nanomaterials owing to their distinctive p...", "citations": 20, "author_count": 17, "categories": [ "Research & Experimental Medicine" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7244, "doi": "10.1016/j.biopha.2024.116842", "umap_coordinates": { "x": 393.8094787597656, "y": 134.5506134033203, "z": 204.27931213378906 }, "tsne_coordinates": { "x": 21.277191162109375, "y": 25.068870544433594, "z": -7.282861709594727 }, "pca_coordinates": { "x": -2.572981119155884, "y": 1.5236411094665527, "z": -1.831679344177246 }, "axis_scores": { "Quantum imaging": 0.7200100421905518, "Quantum Life Science Sensing": 0.7586081624031067, "Quantum sensing Detection": 0.7171388268470764, "Quantum sensing Metrology": 0.6990033388137817, "Quantum sensing navigation": 0.6929523944854736, "Quantum sensing Position": 0.7139801383018494, "Quantum sensing Timing": 0.692421555519104, "Quantum sensing": 0.7281302809715271, "Quantum control": 0.6942028403282166 } }, { "id": 7238, "title": "Design of Nanosystems for the Delivery of Quorum Sensing Inhibitors: A Preliminary Study", "abstract": "Biofilm production is regulated by the Quorum Sensing system. Nowadays, Quorum Sensing represents an appealing target to design new compounds to increase antibiotics effects and avoid development of a...", "citations": 25, "author_count": 10, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7245, "doi": "10.3390/molecules25235655", "umap_coordinates": { "x": 393.0274963378906, "y": 135.17747497558594, "z": 204.02806091308594 }, "tsne_coordinates": { "x": 33.035091400146484, "y": 22.476970672607422, "z": -9.859964370727539 }, "pca_coordinates": { "x": -2.640249490737915, "y": 0.5499014854431152, "z": -3.231795310974121 }, "axis_scores": { "Quantum imaging": 0.698518693447113, "Quantum Life Science Sensing": 0.7313161492347717, "Quantum sensing Detection": 0.6967336535453796, "Quantum sensing Metrology": 0.685571551322937, "Quantum sensing navigation": 0.6928697228431702, "Quantum sensing Position": 0.6502024531364441, "Quantum sensing Timing": 0.6549115777015686, "Quantum sensing": 0.7085391283035278, "Quantum control": 0.7135327458381653 } }, { "id": 7239, "title": "Telecommunication Compatibility Evaluation for Co-existing Quantum Key Distribution in Homogenous Multicore Fiber", "abstract": "Quantum key distribution (QKD) is regarded as an alternative to traditional cryptography methods for securing data communication by quantum mechanics rather than computational complexity. Towards the ...", "citations": 19, "author_count": 12, "categories": [ "Computer Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7246, "doi": "10.1109/ACCESS.2020.2990186", "umap_coordinates": { "x": 395.1566162109375, "y": 134.64154052734375, "z": 206.28280639648438 }, "tsne_coordinates": { "x": 2.771430253982544, "y": 3.4405453205108643, "z": -39.698585510253906 }, "pca_coordinates": { "x": -0.6293525695800781, "y": 1.5139167308807373, "z": 1.8460841178894043 }, "axis_scores": { "Quantum imaging": 0.728594183921814, "Quantum Life Science Sensing": 0.7375118732452393, "Quantum sensing Detection": 0.7237668633460999, "Quantum sensing Metrology": 0.7434280514717102, "Quantum sensing navigation": 0.7325831651687622, "Quantum sensing Position": 0.7245389223098755, "Quantum sensing Timing": 0.7074875831604004, "Quantum sensing": 0.7321155071258545, "Quantum control": 0.7035741806030273 } }, { "id": 7240, "title": "3,5-diaryl-4,4-difluoro-4-bora-3a,4a-diaza-s-indacene (BODIPY) dyes:: Synthesis, spectroscopic, electrochemical, and structural properties", "abstract": "This research was undertaken to obtain new BODIPY dyes that fluoresce at relatively long wavelengths. The title compounds 1a-e were prepared via a divergent route involving Suzuki couplings of arylbor...", "citations": 393, "author_count": 9, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7247, "doi": "10.1021/jo990796o", "umap_coordinates": { "x": 392.3855285644531, "y": 135.5666961669922, "z": 204.75559997558594 }, "tsne_coordinates": { "x": 3.1895205974578857, "y": 12.629959106445312, "z": -6.133553504943848 }, "pca_coordinates": { "x": -3.062588930130005, "y": -2.096874237060547, "z": -1.9570722579956055 }, "axis_scores": { "Quantum imaging": 0.7334164977073669, "Quantum Life Science Sensing": 0.7597781419754028, "Quantum sensing Detection": 0.716474175453186, "Quantum sensing Metrology": 0.7107415795326233, "Quantum sensing navigation": 0.7071720361709595, "Quantum sensing Position": 0.6855373978614807, "Quantum sensing Timing": 0.6722314357757568, "Quantum sensing": 0.7373184561729431, "Quantum control": 0.7077086567878723 } }, { "id": 7241, "title": "THE CONSEQUENCES OF FREEZING TEMPERATURES FOLLOWED BY HIGH IRRADIANCE ON IN-VIVO CHLOROPHYLL FLUORESCENCE AND GROWTH IN PICEA-ABIES", "abstract": "Picea abies (L.) Karst. plants, propagated by cuttings, were subjected to one night of freezing temperatures (-5 degrees C), high irradiance (1200 or 1800 mu mol m(-2) s(-1)), or freezing temperatures...", "citations": 10, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 1994, "topic": [ "all" ], "embedding_index": 7248, "doi": "10.1111/j.1399-3054.1994.tb00667.x", "umap_coordinates": { "x": 394.58709716796875, "y": 135.97021484375, "z": 203.7008514404297 }, "tsne_coordinates": { "x": 10.44760799407959, "y": 33.714134216308594, "z": 15.613903045654297 }, "pca_coordinates": { "x": -1.8698415756225586, "y": 1.7290384769439697, "z": -0.8194873332977295 }, "axis_scores": { "Quantum imaging": 0.6944979429244995, "Quantum Life Science Sensing": 0.7101990580558777, "Quantum sensing Detection": 0.6815366744995117, "Quantum sensing Metrology": 0.6793473958969116, "Quantum sensing navigation": 0.6633219122886658, "Quantum sensing Position": 0.6508226990699768, "Quantum sensing Timing": 0.6948398947715759, "Quantum sensing": 0.6910060048103333, "Quantum control": 0.6793696284294128 } }, { "id": 7242, "title": "Simulation of gain in quantum cascade lasers", "abstract": "The gain profile of a quantum cascade laser is strongly influenced by the lifetime of the carriers in the upper and lower laser state. The quantitative description of gain within the concept of nonequ...", "citations": 10, "author_count": 4, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7249, "doi": "10.1117/12.808882", "umap_coordinates": { "x": 395.0464172363281, "y": 134.0741729736328, "z": 206.57965087890625 }, "tsne_coordinates": { "x": -1.1358493566513062, "y": 4.019819736480713, "z": -26.080970764160156 }, "pca_coordinates": { "x": 1.9699833393096924, "y": 0.6985485553741455, "z": 1.423696756362915 }, "axis_scores": { "Quantum imaging": 0.7500889897346497, "Quantum Life Science Sensing": 0.7382813096046448, "Quantum sensing Detection": 0.7555243968963623, "Quantum sensing Metrology": 0.7467970252037048, "Quantum sensing navigation": 0.7528027892112732, "Quantum sensing Position": 0.7263263463973999, "Quantum sensing Timing": 0.7238650918006897, "Quantum sensing": 0.7617582082748413, "Quantum control": 0.7436507940292358 } }, { "id": 7243, "title": "Advancement in Biopolymer Assisted Cancer Theranostics", "abstract": "Applications of nanotechnology have increased the importance of research and nanocarriers, which have revolutionized the method of drug delivery to treat several diseases, including cancer, in the pas...", "citations": 31, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7250, "doi": "10.1021/acsabm.3c00458", "umap_coordinates": { "x": 393.4328918457031, "y": 134.07786560058594, "z": 204.1248779296875 }, "tsne_coordinates": { "x": 16.738359451293945, "y": 24.66428565979004, "z": -7.676480770111084 }, "pca_coordinates": { "x": -4.396706581115723, "y": -0.8836429119110107, "z": -1.2445297241210938 }, "axis_scores": { "Quantum imaging": 0.7052971124649048, "Quantum Life Science Sensing": 0.706405758857727, "Quantum sensing Detection": 0.6748473048210144, "Quantum sensing Metrology": 0.6692953109741211, "Quantum sensing navigation": 0.6810872554779053, "Quantum sensing Position": 0.6725388169288635, "Quantum sensing Timing": 0.6515718698501587, "Quantum sensing": 0.689476728439331, "Quantum control": 0.6874769330024719 } }, { "id": 7244, "title": "Are Shockley-Read-Hall and ABC models valid for lead halide perovskites?", "abstract": "Metal halide perovskites are an important class of emerging semiconductors. Their charge carrier dynamics is poorly understood due to limited knowledge of defect physics and charge carrier recombinati...", "citations": 72, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7251, "doi": "10.1038/s41467-021-23275-w", "umap_coordinates": { "x": 391.7023010253906, "y": 134.4532012939453, "z": 205.36878967285156 }, "tsne_coordinates": { "x": 16.30657196044922, "y": -4.052155017852783, "z": -22.95364761352539 }, "pca_coordinates": { "x": -1.1781617403030396, "y": 1.6244850158691406, "z": -1.979602336883545 }, "axis_scores": { "Quantum imaging": 0.6466912031173706, "Quantum Life Science Sensing": 0.6833378672599792, "Quantum sensing Detection": 0.6356549859046936, "Quantum sensing Metrology": 0.6470739841461182, "Quantum sensing navigation": 0.6667446494102478, "Quantum sensing Position": 0.6501452922821045, "Quantum sensing Timing": 0.6357061266899109, "Quantum sensing": 0.6590607166290283, "Quantum control": 0.6536682844161987 } }, { "id": 7245, "title": "Nativity of lignin carbohydrate bonds substantiated by biomimetic synthesis", "abstract": "The question of whether lignin is covalently linked to carbohydrates in native wood, forming what is referred to as lignin-carbohydrate complexes (LCCs), still lacks unequivocal proof. This is mainly ...", "citations": 29, "author_count": 6, "categories": [ "Plant Sciences" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7252, "doi": "10.1093/jxb/erz324", "umap_coordinates": { "x": 392.9219665527344, "y": 135.84925842285156, "z": 203.85899353027344 }, "tsne_coordinates": { "x": 23.310775756835938, "y": 29.705211639404297, "z": -0.8867809772491455 }, "pca_coordinates": { "x": -1.7186696529388428, "y": 1.969605803489685, "z": -2.386427164077759 }, "axis_scores": { "Quantum imaging": 0.682919442653656, "Quantum Life Science Sensing": 0.689803421497345, "Quantum sensing Detection": 0.6601464748382568, "Quantum sensing Metrology": 0.6531269550323486, "Quantum sensing navigation": 0.6815630197525024, "Quantum sensing Position": 0.6580290198326111, "Quantum sensing Timing": 0.6384211778640747, "Quantum sensing": 0.6744486093521118, "Quantum control": 0.6656134724617004 } }, { "id": 7246, "title": "Covalent Bonding in the Hydrogen Molecule", "abstract": "This work addresses the continuing disagreement between two schools of thought concerning the mechanism of covalent bonding. According to Hellmann, Ruedenberg, and Kutzelnigg, covalent bonding is a qu...", "citations": 15, "author_count": 3, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7253, "doi": "10.1021/acs.jpca.7b08963", "umap_coordinates": { "x": 392.82257080078125, "y": 137.09202575683594, "z": 205.63082885742188 }, "tsne_coordinates": { "x": 6.870985984802246, "y": 12.586097717285156, "z": 27.07893180847168 }, "pca_coordinates": { "x": 0.4962538480758667, "y": 0.11295700073242188, "z": -3.3662004470825195 }, "axis_scores": { "Quantum imaging": 0.6994959712028503, "Quantum Life Science Sensing": 0.7000128030776978, "Quantum sensing Detection": 0.6800985336303711, "Quantum sensing Metrology": 0.6543408632278442, "Quantum sensing navigation": 0.693044126033783, "Quantum sensing Position": 0.6820135116577148, "Quantum sensing Timing": 0.6667605042457581, "Quantum sensing": 0.7026635408401489, "Quantum control": 0.7041624784469604 } }, { "id": 7247, "title": "A novel competitive capacitive glucose biosensor based on concanavalin A-labeled nanogold colloids assembled on a polytyramine-modified gold electrode", "abstract": "A highly sensitive competitive capacitive glucose biosensor was constructed based on gold nanoparticles. which were employed as a platform to immobilize concanavalin A (Con A). Cold nanoparticles were...", "citations": 57, "author_count": 5, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7254, "doi": "10.1016/j.aca.2009.11.028", "umap_coordinates": { "x": 393.3788146972656, "y": 133.83425903320312, "z": 204.37913513183594 }, "tsne_coordinates": { "x": 20.646404266357422, "y": 20.093984603881836, "z": -13.289605140686035 }, "pca_coordinates": { "x": -3.9023404121398926, "y": -0.40445375442504883, "z": 0.13252794742584229 }, "axis_scores": { "Quantum imaging": 0.6890377402305603, "Quantum Life Science Sensing": 0.7018069624900818, "Quantum sensing Detection": 0.7103866338729858, "Quantum sensing Metrology": 0.6890327334403992, "Quantum sensing navigation": 0.7114126086235046, "Quantum sensing Position": 0.6905331611633301, "Quantum sensing Timing": 0.6709374189376831, "Quantum sensing": 0.7098162770271301, "Quantum control": 0.698763906955719 } }, { "id": 7248, "title": "Search for anomalous production of single photons at root s=130 and 136 GeV", "abstract": "This letter reports the results of the measurement of single photon production in the reaction e(+)e(-) --> gamma+ invisible particles at centre-of-mass energies root s = 130 and 136 GeV and an integr...", "citations": 13, "author_count": 553, "categories": [ "Astronomy & Astrophysics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7255, "doi": "10.1016/0370-2693(96)00671-5", "umap_coordinates": { "x": 395.3158264160156, "y": 134.02603149414062, "z": 207.56533813476562 }, "tsne_coordinates": { "x": -21.94468879699707, "y": -5.469184875488281, "z": -32.53708267211914 }, "pca_coordinates": { "x": -0.37413454055786133, "y": 1.3724706172943115, "z": 4.028697967529297 }, "axis_scores": { "Quantum imaging": 0.6793395280838013, "Quantum Life Science Sensing": 0.6939709782600403, "Quantum sensing Detection": 0.6968910694122314, "Quantum sensing Metrology": 0.6900385022163391, "Quantum sensing navigation": 0.6842240691184998, "Quantum sensing Position": 0.6821325421333313, "Quantum sensing Timing": 0.6823068857192993, "Quantum sensing": 0.6920420527458191, "Quantum control": 0.635331928730011 } }, { "id": 7249, "title": "Aggregation-Enhanced-Emission Polymer Donor Improves the Efficiency of Organic Solar Cells by Suppressing Nonradiative Recombination", "abstract": "Nonradiative voltage loss (Delta V nr) is a critical factor that limits the efficiency of organic solar cells (OSCs). Introducing highly luminescent materials is a promising approach to reduce Delta V...", "citations": 3, "author_count": 15, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7256, "doi": "10.1002/anie.202516421", "umap_coordinates": { "x": 392.2059326171875, "y": 133.52786254882812, "z": 205.41281127929688 }, "tsne_coordinates": { "x": 26.87834358215332, "y": 7.803041458129883, "z": -21.608137130737305 }, "pca_coordinates": { "x": -2.8671512603759766, "y": -3.5986337661743164, "z": 0.1313830018043518 }, "axis_scores": { "Quantum imaging": 0.6805658936500549, "Quantum Life Science Sensing": 0.6737160682678223, "Quantum sensing Detection": 0.6732908487319946, "Quantum sensing Metrology": 0.6532629132270813, "Quantum sensing navigation": 0.6514118909835815, "Quantum sensing Position": 0.6360137462615967, "Quantum sensing Timing": 0.631810188293457, "Quantum sensing": 0.6817357540130615, "Quantum control": 0.6612659096717834 } }, { "id": 7250, "title": "Improved emission of Yb(iii) ions in triazacyclononane-based macrocyclic ligands compared to cyclen-based ones", "abstract": "Yb(iii) complexes based on ligands with a 1,4,7-triazacyclononane (tacn) macrocyclic core were synthesised. The complexes carry a 4-methoxymethyl-substituted carbostyril chromophore that serves as a l...", "citations": 5, "author_count": 8, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7257, "doi": "10.1039/d2dt02266d", "umap_coordinates": { "x": 391.669189453125, "y": 135.25949096679688, "z": 205.233642578125 }, "tsne_coordinates": { "x": 9.013049125671387, "y": -6.055636405944824, "z": -20.843467712402344 }, "pca_coordinates": { "x": -3.7475736141204834, "y": -1.8935637474060059, "z": -1.7650489807128906 }, "axis_scores": { "Quantum imaging": 0.6973966360092163, "Quantum Life Science Sensing": 0.6900386810302734, "Quantum sensing Detection": 0.6763668060302734, "Quantum sensing Metrology": 0.6665728688240051, "Quantum sensing navigation": 0.6833469867706299, "Quantum sensing Position": 0.6499068737030029, "Quantum sensing Timing": 0.6517977118492126, "Quantum sensing": 0.6857701539993286, "Quantum control": 0.6783780455589294 } }, { "id": 7251, "title": "The effects of phosphate on physiological responses and carbohydrate production in Ulva fasciata (Chlorophyta) from upwelling and nonupwelling sites", "abstract": "Phosphorus is a key macronutrient inmacroalgal physiology, including carbohydrate anabolism. To determine the effects of phosphorus on different physiological parameters, we cultivated Ulva fasciata s...", "citations": 8, "author_count": 7, "categories": [ "Plant Sciences" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7258, "doi": "10.1515/bot-2020-0051", "umap_coordinates": { "x": 393.9917907714844, "y": 135.9156951904297, "z": 203.56529235839844 }, "tsne_coordinates": { "x": 15.873210906982422, "y": 29.58292579650879, "z": 15.781893730163574 }, "pca_coordinates": { "x": -4.614396572113037, "y": 3.063141107559204, "z": -1.7985382080078125 }, "axis_scores": { "Quantum imaging": 0.6647911071777344, "Quantum Life Science Sensing": 0.69624263048172, "Quantum sensing Detection": 0.6436643004417419, "Quantum sensing Metrology": 0.6500307321548462, "Quantum sensing navigation": 0.6528321504592896, "Quantum sensing Position": 0.6442014575004578, "Quantum sensing Timing": 0.633179783821106, "Quantum sensing": 0.662092387676239, "Quantum control": 0.6649051308631897 } }, { "id": 7252, "title": "Self-Assembly of Large Magnetic Nanoparticles in Ultrahigh Molecular Weight Linear Diblock Copolymer Films", "abstract": "The development of diblock copolymer (DBC) nanocomposite films containing magnetic nanoparticles (NPs) with diameters (D) over 20 nm is a challenging task. To host large iron oxide NPs (Fe3O4, D = 27 ...", "citations": 14, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7259, "doi": "10.1021/acsami.9b20905", "umap_coordinates": { "x": 391.93328857421875, "y": 134.77691650390625, "z": 206.86428833007812 }, "tsne_coordinates": { "x": 17.375396728515625, "y": -19.60843849182129, "z": -31.598175048828125 }, "pca_coordinates": { "x": -1.656691074371338, "y": -3.8550286293029785, "z": -1.849844217300415 }, "axis_scores": { "Quantum imaging": 0.6788371801376343, "Quantum Life Science Sensing": 0.7046175003051758, "Quantum sensing Detection": 0.668663501739502, "Quantum sensing Metrology": 0.6578083634376526, "Quantum sensing navigation": 0.6417650580406189, "Quantum sensing Position": 0.6439225077629089, "Quantum sensing Timing": 0.6185707449913025, "Quantum sensing": 0.6759048700332642, "Quantum control": 0.6394962072372437 } }, { "id": 7253, "title": "Fabrication and characterization of Si1-xGex nanocrystals in as-grown and annealed structures: a comparative study", "abstract": "Multilayer structures comprising of SiO2/SiGe/SiO2 and containing SiGe nanoparticles were obtained by depositing SiO2 layers using reactive direct current magnetron sputtering (dcMS), whereas, Si and ...", "citations": 6, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7260, "doi": "10.3762/bjnano.10.182", "umap_coordinates": { "x": 392.6253662109375, "y": 133.74940490722656, "z": 207.57725524902344 }, "tsne_coordinates": { "x": 36.00652313232422, "y": -10.617325782775879, "z": -4.0687689781188965 }, "pca_coordinates": { "x": -0.76971435546875, "y": -3.1596217155456543, "z": 1.5809893608093262 }, "axis_scores": { "Quantum imaging": 0.6898891925811768, "Quantum Life Science Sensing": 0.685324490070343, "Quantum sensing Detection": 0.6754342913627625, "Quantum sensing Metrology": 0.6828457117080688, "Quantum sensing navigation": 0.6835224628448486, "Quantum sensing Position": 0.6887128353118896, "Quantum sensing Timing": 0.6553658246994019, "Quantum sensing": 0.6892776489257812, "Quantum control": 0.6560279130935669 } }, { "id": 7254, "title": "A Record Chromophore Density in High-Entropy Liquids of Two Low-Melting Perylenes: A New Strategy for Liquid Chromophores", "abstract": "Liquid chromophores constitute a rare but intriguing class of molecules that are in high demand for the design of luminescent inks, liquid semiconductors, and solar energy storage materials. The most ...", "citations": 20, "author_count": 12, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7261, "doi": "10.1002/advs.201801650", "umap_coordinates": { "x": 392.1476745605469, "y": 136.22389221191406, "z": 205.1625213623047 }, "tsne_coordinates": { "x": 7.2942705154418945, "y": 2.919036865234375, "z": -6.256528377532959 }, "pca_coordinates": { "x": -1.2844005823135376, "y": -0.15396809577941895, "z": 0.2480730414390564 }, "axis_scores": { "Quantum imaging": 0.7088452577590942, "Quantum Life Science Sensing": 0.7087677717208862, "Quantum sensing Detection": 0.6974927186965942, "Quantum sensing Metrology": 0.684615969657898, "Quantum sensing navigation": 0.6775190830230713, "Quantum sensing Position": 0.6792453527450562, "Quantum sensing Timing": 0.6633760929107666, "Quantum sensing": 0.7017732858657837, "Quantum control": 0.6753305792808533 } }, { "id": 7255, "title": "Porous One-Dimensional Photonic Crystals Improve the Power-Conversion Efficiency of Dye-Sensitized Solar Cells", "abstract": "The solar-to-electric power-conversion efficiency (71) of dye-sensitized solar cells can be greatly enhanced by integrating a mesoporous, nanoparticle-based, 1D photonic crystal as a coherent scatteri...", "citations": 261, "author_count": 8, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7262, "doi": "10.1002/adma.200703115", "umap_coordinates": { "x": 392.95135498046875, "y": 133.61190795898438, "z": 206.09524536132812 }, "tsne_coordinates": { "x": 18.243183135986328, "y": -20.77640724182129, "z": -21.608654022216797 }, "pca_coordinates": { "x": -1.418954610824585, "y": -2.820565700531006, "z": 1.1955595016479492 }, "axis_scores": { "Quantum imaging": 0.7129309177398682, "Quantum Life Science Sensing": 0.6877874135971069, "Quantum sensing Detection": 0.6727268099784851, "Quantum sensing Metrology": 0.6749602556228638, "Quantum sensing navigation": 0.6728003025054932, "Quantum sensing Position": 0.6390893459320068, "Quantum sensing Timing": 0.6202784776687622, "Quantum sensing": 0.7001186013221741, "Quantum control": 0.6844276785850525 } }, { "id": 7256, "title": "Femtosecond dynamics of electron-vibrational heating and desorption", "abstract": "The dynamics of vibrational heating and desorption induced by multiple inelastic hot electron scatterings is investigated by a microscopic quantum mechanical approach. Numerical simulations are found ...", "citations": 34, "author_count": 4, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7263, "doi": "10.1016/0039-6028(95)00927-2", "umap_coordinates": { "x": 393.2196350097656, "y": 135.91835021972656, "z": 206.50686645507812 }, "tsne_coordinates": { "x": 2.3878135681152344, "y": 3.33034086227417, "z": 12.2774019241333 }, "pca_coordinates": { "x": 0.039321184158325195, "y": -0.40194106101989746, "z": -1.9567158222198486 }, "axis_scores": { "Quantum imaging": 0.6921151280403137, "Quantum Life Science Sensing": 0.7346843481063843, "Quantum sensing Detection": 0.6874803304672241, "Quantum sensing Metrology": 0.6801822185516357, "Quantum sensing navigation": 0.6636574864387512, "Quantum sensing Position": 0.6620175838470459, "Quantum sensing Timing": 0.6785203218460083, "Quantum sensing": 0.6984755992889404, "Quantum control": 0.6769019961357117 } }, { "id": 7257, "title": "Electromagnetic radiation detectors based on Josephson junctions: Effective Hamiltonian", "abstract": "We theoretically analyze two setups of low-energy single-photon counters based on Josephson junctions (JJs). For this, we propose two simple and general models based on the macroscopic quantum tunneli...", "citations": 12, "author_count": 5, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7264, "doi": "10.1103/PhysRevB.101.024511", "umap_coordinates": { "x": 394.65863037109375, "y": 135.4136962890625, "z": 208.6133270263672 }, "tsne_coordinates": { "x": -10.819003105163574, "y": -30.447628021240234, "z": -2.662896156311035 }, "pca_coordinates": { "x": 3.5199313163757324, "y": -0.8941454887390137, "z": 1.1611907482147217 }, "axis_scores": { "Quantum imaging": 0.7545059323310852, "Quantum Life Science Sensing": 0.7486321926116943, "Quantum sensing Detection": 0.7520081400871277, "Quantum sensing Metrology": 0.719499945640564, "Quantum sensing navigation": 0.7424238920211792, "Quantum sensing Position": 0.703882098197937, "Quantum sensing Timing": 0.7157059907913208, "Quantum sensing": 0.7526290416717529, "Quantum control": 0.7123489379882812 } }, { "id": 7258, "title": "Time-Resolved Measurement of Interatomic Coulombic Decay Induced by Two-Photon Double Excitation of Ne2", "abstract": "The hitherto unexplored two-photon doubly excited states [Ne* (2p(-1)3s)](2) were experimentally identified using the seeded, fully coherent, intense extreme ultraviolet free-electron laser FERMI. The...", "citations": 33, "author_count": 50, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7265, "doi": "10.1103/PhysRevLett.118.033202", "umap_coordinates": { "x": 394.9491271972656, "y": 135.2850799560547, "z": 207.90032958984375 }, "tsne_coordinates": { "x": 7.105222702026367, "y": -17.28466033935547, "z": -3.6381797790527344 }, "pca_coordinates": { "x": 2.0714099407196045, "y": -1.0588901042938232, "z": 1.0845143795013428 }, "axis_scores": { "Quantum imaging": 0.7281766533851624, "Quantum Life Science Sensing": 0.7382720708847046, "Quantum sensing Detection": 0.7260874509811401, "Quantum sensing Metrology": 0.6990164518356323, "Quantum sensing navigation": 0.7128692865371704, "Quantum sensing Position": 0.6793262958526611, "Quantum sensing Timing": 0.7160126566886902, "Quantum sensing": 0.7278017997741699, "Quantum control": 0.6867096424102783 } }, { "id": 7259, "title": "Graph-based linear scaling electronic structure theory", "abstract": "We show how graph theory can be combined with quantum theory to calculate the electronic structure of large complex systems. The graph formalism is general and applicable to a broad range of electroni...", "citations": 35, "author_count": 12, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7266, "doi": "10.1063/1.4952650", "umap_coordinates": { "x": 394.3332824707031, "y": 137.04861450195312, "z": 207.80819702148438 }, "tsne_coordinates": { "x": -17.427175521850586, "y": -10.185652732849121, "z": 29.50935173034668 }, "pca_coordinates": { "x": 2.536316394805908, "y": 0.23666858673095703, "z": -1.320117473602295 }, "axis_scores": { "Quantum imaging": 0.7353739142417908, "Quantum Life Science Sensing": 0.771156370639801, "Quantum sensing Detection": 0.7371993064880371, "Quantum sensing Metrology": 0.7270203828811646, "Quantum sensing navigation": 0.7440003156661987, "Quantum sensing Position": 0.7277303338050842, "Quantum sensing Timing": 0.6936655640602112, "Quantum sensing": 0.750950038433075, "Quantum control": 0.7465280890464783 } }, { "id": 7260, "title": "Reducing energy loss by developing luminescent triphenylamine functionalized electron acceptor for high performance organic solar cells", "abstract": "The persistent challenge of high non-radiative recombination energy loss (Delta Enr) remains a critical bottleneck in advancing the power conversion efficiency (PCE) of organic solar cells (OSCs). Her...", "citations": 14, "author_count": 15, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7267, "doi": "10.1039/d5ee01525a", "umap_coordinates": { "x": 391.9869689941406, "y": 134.04437255859375, "z": 205.23715209960938 }, "tsne_coordinates": { "x": 11.917638778686523, "y": 4.00442361831665, "z": -17.9326171875 }, "pca_coordinates": { "x": -3.090620517730713, "y": -3.308255195617676, "z": -0.2272997796535492 }, "axis_scores": { "Quantum imaging": 0.6925188899040222, "Quantum Life Science Sensing": 0.7027168273925781, "Quantum sensing Detection": 0.680427074432373, "Quantum sensing Metrology": 0.6665968894958496, "Quantum sensing navigation": 0.6587218046188354, "Quantum sensing Position": 0.6456919312477112, "Quantum sensing Timing": 0.6446846723556519, "Quantum sensing": 0.687892735004425, "Quantum control": 0.676145076751709 } }, { "id": 7261, "title": "Two-dimensional Janus heterostructures for superior Z-scheme photocatalytic water splitting", "abstract": "Developing robust water splitting photocatalyst remains a pivot challenge for solar-to-fuel conversion. Herein, two-dimensional (2D) Janus bilayer heterostructures are reported by sulfur-vacancy-confi...", "citations": 134, "author_count": 9, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7268, "doi": "10.1016/j.nanoen.2019.03.004", "umap_coordinates": { "x": 392.2922668457031, "y": 133.53451538085938, "z": 205.7423858642578 }, "tsne_coordinates": { "x": 22.9838924407959, "y": 3.658120632171631, "z": -5.104493618011475 }, "pca_coordinates": { "x": -1.483262062072754, "y": -3.619675636291504, "z": -0.9860917925834656 }, "axis_scores": { "Quantum imaging": 0.6934017539024353, "Quantum Life Science Sensing": 0.7119135856628418, "Quantum sensing Detection": 0.6774947643280029, "Quantum sensing Metrology": 0.6906126141548157, "Quantum sensing navigation": 0.7047895193099976, "Quantum sensing Position": 0.6747926473617554, "Quantum sensing Timing": 0.6475666165351868, "Quantum sensing": 0.7009268999099731, "Quantum control": 0.6897194385528564 } }, { "id": 7262, "title": "Metal nanoparticles amplify photodynamic effect on skin cells in vitro", "abstract": "We report on an investigation aimed to increase the efficiency of photodynamic therapy (PDT) through the influence of localized surface plasmon resonances (LSPR's) in metal nanoparticles. PDT is based...", "citations": 4, "author_count": 6, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7269, "doi": "10.1117/12.873525", "umap_coordinates": { "x": 394.3233947753906, "y": 133.52066040039062, "z": 205.0954132080078 }, "tsne_coordinates": { "x": -4.744989395141602, "y": 19.25153923034668, "z": -27.683860778808594 }, "pca_coordinates": { "x": -3.7641139030456543, "y": -1.851616382598877, "z": 0.5607520937919617 }, "axis_scores": { "Quantum imaging": 0.7172272205352783, "Quantum Life Science Sensing": 0.7339889407157898, "Quantum sensing Detection": 0.7252224087715149, "Quantum sensing Metrology": 0.7008439302444458, "Quantum sensing navigation": 0.6866233348846436, "Quantum sensing Position": 0.6838977336883545, "Quantum sensing Timing": 0.6574004888534546, "Quantum sensing": 0.7246134281158447, "Quantum control": 0.6751566529273987 } }, { "id": 7263, "title": "Prequantum classical statistical field theory: background field as a source of everything?", "abstract": "Prequantum classical statistical field theory (PCSFT) is a new attempt to consider quantum mechanics (QM) as an emergent phenomenon, cf. with De Broglie's double solution approach, Bohmian mechanics, ...", "citations": 6, "author_count": 2, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7270, "doi": "10.1088/1742-6596/306/1/012021", "umap_coordinates": { "x": 395.61761474609375, "y": 137.4603729248047, "z": 206.4958953857422 }, "tsne_coordinates": { "x": -32.440738677978516, "y": 1.3746438026428223, "z": 21.358312606811523 }, "pca_coordinates": { "x": 1.222909688949585, "y": 4.508514404296875, "z": -1.62508225440979 }, "axis_scores": { "Quantum imaging": 0.7210981845855713, "Quantum Life Science Sensing": 0.7242145538330078, "Quantum sensing Detection": 0.7151169180870056, "Quantum sensing Metrology": 0.7044228315353394, "Quantum sensing navigation": 0.7283412218093872, "Quantum sensing Position": 0.7105006575584412, "Quantum sensing Timing": 0.7083572149276733, "Quantum sensing": 0.7271969318389893, "Quantum control": 0.7259125113487244 } }, { "id": 7264, "title": "High-loading of organosilane-grafted carbon dots in high-performance luminescent solar concentrators with ultrahigh transparency", "abstract": "Carbon dots (CDs) generally suffer from aggregation-induced fluorescence quenching effect in solid-state, which significantly limits their application in photoelectric devices. Due to this effect, it ...", "citations": 59, "author_count": 6, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7271, "doi": "10.1016/j.nanoen.2023.108674", "umap_coordinates": { "x": 392.748291015625, "y": 133.44558715820312, "z": 205.2940673828125 }, "tsne_coordinates": { "x": 27.510541915893555, "y": 9.044127464294434, "z": -12.314167976379395 }, "pca_coordinates": { "x": -4.006170272827148, "y": -3.267759323120117, "z": 1.9105024337768555 }, "axis_scores": { "Quantum imaging": 0.7128055095672607, "Quantum Life Science Sensing": 0.7205838561058044, "Quantum sensing Detection": 0.7054885029792786, "Quantum sensing Metrology": 0.6901841759681702, "Quantum sensing navigation": 0.6771151423454285, "Quantum sensing Position": 0.6784184575080872, "Quantum sensing Timing": 0.6639605760574341, "Quantum sensing": 0.7110320925712585, "Quantum control": 0.6771177053451538 } }, { "id": 7265, "title": "Facile one-step synthesis and enhanced photocatalytic activity of a WC/ferroelectric nanocomposite", "abstract": "The development of noble-metal-free co-catalysts is seen as a viable strategy for improving the performance of semiconductor photocatalysts. Although the photocatalytic efficiency of ferroelectrics is...", "citations": 8, "author_count": 17, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7272, "doi": "10.1039/d1ta04131b", "umap_coordinates": { "x": 391.7934875488281, "y": 134.18368530273438, "z": 205.30189514160156 }, "tsne_coordinates": { "x": 15.127575874328613, "y": 6.254128932952881, "z": -9.741338729858398 }, "pca_coordinates": { "x": -2.9773149490356445, "y": -3.6623592376708984, "z": -0.7197020649909973 }, "axis_scores": { "Quantum imaging": 0.6531121730804443, "Quantum Life Science Sensing": 0.6632380485534668, "Quantum sensing Detection": 0.6531238555908203, "Quantum sensing Metrology": 0.6363518238067627, "Quantum sensing navigation": 0.6267768740653992, "Quantum sensing Position": 0.607972264289856, "Quantum sensing Timing": 0.6301367282867432, "Quantum sensing": 0.6643997430801392, "Quantum control": 0.6445524096488953 } }, { "id": 7266, "title": "Strong coupling as an interplay of quantum emitter hybridization with plasmonic dark and bright modes", "abstract": "Strong coupling between a single quantum emitter and an electromagnetic mode is one of the key effects in quantum optics. In the cavity QED approach to plasmonics, strongly coupled systems are usually...", "citations": 18, "author_count": 6, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7273, "doi": "10.1103/PhysRevResearch.2.033056", "umap_coordinates": { "x": 394.5006408691406, "y": 135.62789916992188, "z": 207.673095703125 }, "tsne_coordinates": { "x": -9.1907958984375, "y": -11.330229759216309, "z": -11.792215347290039 }, "pca_coordinates": { "x": 2.267688512802124, "y": -1.9495620727539062, "z": 0.7948821187019348 }, "axis_scores": { "Quantum imaging": 0.7514793276786804, "Quantum Life Science Sensing": 0.7465396523475647, "Quantum sensing Detection": 0.7471846342086792, "Quantum sensing Metrology": 0.7249018549919128, "Quantum sensing navigation": 0.727901041507721, "Quantum sensing Position": 0.7091462016105652, "Quantum sensing Timing": 0.6902223825454712, "Quantum sensing": 0.7527457475662231, "Quantum control": 0.7010812759399414 } }, { "id": 7267, "title": "Spatial distribution of core monomers in acrylamide-based core-shell microgels with linear swelling behaviour", "abstract": "The peculiar linear temperature-dependent swelling of core-shell microgels has been conjectured to be linked to the core-shell architecture combining materials of different transition temperatures. He...", "citations": 16, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7274, "doi": "10.1038/s41598-019-50164-6", "umap_coordinates": { "x": 393.0617980957031, "y": 135.46435546875, "z": 205.55343627929688 }, "tsne_coordinates": { "x": 28.45394515991211, "y": 21.722078323364258, "z": 13.47107982635498 }, "pca_coordinates": { "x": -2.7849278450012207, "y": -0.5097990036010742, "z": -0.5181820392608643 }, "axis_scores": { "Quantum imaging": 0.6707940697669983, "Quantum Life Science Sensing": 0.6753309369087219, "Quantum sensing Detection": 0.6452645063400269, "Quantum sensing Metrology": 0.6473524570465088, "Quantum sensing navigation": 0.662334680557251, "Quantum sensing Position": 0.6673641204833984, "Quantum sensing Timing": 0.632030189037323, "Quantum sensing": 0.6606911420822144, "Quantum control": 0.6272647976875305 } }, { "id": 7268, "title": "Design of Carbon Dots for Metal-free Photoredox Catalysis", "abstract": "The photoreduction potential of a set of four different carbon dots (CDs) was investigated. The CDs were synthesized by using two different preparation methods hydrothermal and pyrolytic and two sets ...", "citations": 104, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7275, "doi": "10.1021/acsami.8b14188", "umap_coordinates": { "x": 391.87945556640625, "y": 134.1508331298828, "z": 204.82789611816406 }, "tsne_coordinates": { "x": 19.56915855407715, "y": 5.743583679199219, "z": -11.549850463867188 }, "pca_coordinates": { "x": -4.124337196350098, "y": -3.3894314765930176, "z": -1.9667563438415527 }, "axis_scores": { "Quantum imaging": 0.7064837217330933, "Quantum Life Science Sensing": 0.7374392747879028, "Quantum sensing Detection": 0.7151690125465393, "Quantum sensing Metrology": 0.6981230974197388, "Quantum sensing navigation": 0.6958132386207581, "Quantum sensing Position": 0.6852837800979614, "Quantum sensing Timing": 0.68071448802948, "Quantum sensing": 0.7203840017318726, "Quantum control": 0.7176386713981628 } }, { "id": 7269, "title": "The role of photoinduced electron transfer in the quenching of sensitized Europium emission", "abstract": "Lanthanide (Ln) complexes equipped with a light-harvesting antenna can undergo numerous processes upon light excitation of the chromophore. Some of these, e.g., energy transfer to the Ln are beneficia...", "citations": 59, "author_count": 3, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7276, "doi": "10.1016/j.ccr.2018.03.004", "umap_coordinates": { "x": 393.0880432128906, "y": 134.76141357421875, "z": 205.70236206054688 }, "tsne_coordinates": { "x": 27.707658767700195, "y": 4.282965660095215, "z": 12.722468376159668 }, "pca_coordinates": { "x": -2.887117862701416, "y": -0.8093957901000977, "z": -1.312583565711975 }, "axis_scores": { "Quantum imaging": 0.7376289367675781, "Quantum Life Science Sensing": 0.7221686840057373, "Quantum sensing Detection": 0.7251973152160645, "Quantum sensing Metrology": 0.6941741108894348, "Quantum sensing navigation": 0.7004814147949219, "Quantum sensing Position": 0.6985124349594116, "Quantum sensing Timing": 0.6983626484870911, "Quantum sensing": 0.7318153977394104, "Quantum control": 0.7164872288703918 } }, { "id": 7270, "title": "Practical evaluation of condensed phase quantum correlation functions: A Feynman-Kleinert variational linearized path integral method", "abstract": "We report a new method for calculating the Wigner transform of the Boltzmann operator in the canonical ensemble. The transform is accomplished by writing the Boltzmann operator in a semiharmonic form,...", "citations": 247, "author_count": 4, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7277, "doi": "10.1063/1.1626631", "umap_coordinates": { "x": 393.7476806640625, "y": 137.19561767578125, "z": 206.19235229492188 }, "tsne_coordinates": { "x": -13.140731811523438, "y": 5.951630115509033, "z": 24.979711532592773 }, "pca_coordinates": { "x": 1.2810025215148926, "y": 1.6874710321426392, "z": 0.2543177008628845 }, "axis_scores": { "Quantum imaging": 0.7647508382797241, "Quantum Life Science Sensing": 0.7742569446563721, "Quantum sensing Detection": 0.7563011646270752, "Quantum sensing Metrology": 0.7588347792625427, "Quantum sensing navigation": 0.7741702198982239, "Quantum sensing Position": 0.7422764301300049, "Quantum sensing Timing": 0.7221869826316833, "Quantum sensing": 0.7773964405059814, "Quantum control": 0.7387730479240417 } }, { "id": 7271, "title": "Superstructure formation and magnetism of synthetic selenian pyrrhotites of Fe-7(S1-ySey)(8), y<=1 composition", "abstract": "Synthetic pyrrhotites of composition Fe-7(S1-ySey)(8) were synthesized at 423 and 873 K and then quenched in cold water. It is shown from X-ray diffraction and indirectly from Superconducting Quantum ...", "citations": 19, "author_count": 4, "categories": [ "Mineralogy" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7278, "doi": null, "umap_coordinates": { "x": 392.0331115722656, "y": 139.56027221679688, "z": 209.62359619140625 }, "tsne_coordinates": { "x": -4.996530532836914, "y": 43.98118209838867, "z": -1.1455100774765015 }, "pca_coordinates": { "x": -2.233184337615967, "y": 3.350125551223755, "z": -3.6490917205810547 }, "axis_scores": { "Quantum imaging": 0.747874915599823, "Quantum Life Science Sensing": 0.7686970233917236, "Quantum sensing Detection": 0.7367718815803528, "Quantum sensing Metrology": 0.7290483713150024, "Quantum sensing navigation": 0.740545928478241, "Quantum sensing Position": 0.7076390385627747, "Quantum sensing Timing": 0.6905568838119507, "Quantum sensing": 0.759360134601593, "Quantum control": 0.7645053267478943 } }, { "id": 7272, "title": "The XXL Survey I. Scientific motivations - XMM-Newton observing plan - Follow-up observations and simulation programme", "abstract": "Context. The quest for the cosmological parameters that describe our universe continues to motivate the scientific community to undertake very large survey initiatives across the electromagnetic spect...", "citations": 206, "author_count": 93, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7279, "doi": "10.1051/0004-6361/201526766", "umap_coordinates": { "x": 396.2473449707031, "y": 135.1986083984375, "z": 205.89346313476562 }, "tsne_coordinates": { "x": -26.54352569580078, "y": 22.21617889404297, "z": 1.5453239679336548 }, "pca_coordinates": { "x": -1.1801961660385132, "y": 3.1749045848846436, "z": 1.1976163387298584 }, "axis_scores": { "Quantum imaging": 0.6881598830223083, "Quantum Life Science Sensing": 0.7150388956069946, "Quantum sensing Detection": 0.6765978932380676, "Quantum sensing Metrology": 0.6876358985900879, "Quantum sensing navigation": 0.7037954330444336, "Quantum sensing Position": 0.6710137724876404, "Quantum sensing Timing": 0.6750096082687378, "Quantum sensing": 0.6892037391662598, "Quantum control": 0.6920964121818542 } }, { "id": 7273, "title": "Water Molecules Allow the Intramolecular Activation of the Thiamine Di-Phosphate Cofactor in Human Transketolase: Mechanistic Insights into a Famous Proposal", "abstract": "Thiamine diphosphate-dependent enzymes are central to a wide range of technological areas and fields of science. The activity of these enzymes is closely related to the presence of the thiamine diphos...", "citations": 9, "author_count": 3, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7280, "doi": "10.1021/acscatal.0c05414", "umap_coordinates": { "x": 393.20904541015625, "y": 137.01849365234375, "z": 205.0893096923828 }, "tsne_coordinates": { "x": 0.17735393345355988, "y": 17.16897201538086, "z": 21.679101943969727 }, "pca_coordinates": { "x": -1.3581140041351318, "y": 1.800058126449585, "z": -2.7682762145996094 }, "axis_scores": { "Quantum imaging": 0.7099871039390564, "Quantum Life Science Sensing": 0.6928364038467407, "Quantum sensing Detection": 0.6691137552261353, "Quantum sensing Metrology": 0.6516143083572388, "Quantum sensing navigation": 0.6857297420501709, "Quantum sensing Position": 0.6355363130569458, "Quantum sensing Timing": 0.6718876361846924, "Quantum sensing": 0.6811147332191467, "Quantum control": 0.677712082862854 } }, { "id": 7274, "title": "Improved resolution in x-ray tomography by super-resolution", "abstract": "In this paper, super-resolution imaging is described and evaluated for x-ray tomography and is compared with standard tomography and upscaling during reconstruction. Blurring is minimized due to the n...", "citations": 18, "author_count": 5, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7281, "doi": "10.1364/AO.427934", "umap_coordinates": { "x": 394.9820251464844, "y": 133.62152099609375, "z": 205.19174194335938 }, "tsne_coordinates": { "x": -9.177329063415527, "y": 10.313807487487793, "z": -13.133695602416992 }, "pca_coordinates": { "x": -1.5102932453155518, "y": 1.5502609014511108, "z": 1.9828133583068848 }, "axis_scores": { "Quantum imaging": 0.7307340502738953, "Quantum Life Science Sensing": 0.6793609261512756, "Quantum sensing Detection": 0.6871561408042908, "Quantum sensing Metrology": 0.6935228705406189, "Quantum sensing navigation": 0.686297595500946, "Quantum sensing Position": 0.6761900782585144, "Quantum sensing Timing": 0.6723454594612122, "Quantum sensing": 0.7102935910224915, "Quantum control": 0.6700596809387207 } }, { "id": 7275, "title": "Interacting local topological markers: A one-particle density matrix approach for characterizing the topology of interacting and disordered states", "abstract": "While topology is a property of a quantum state itself, most existing methods for characterizing the topology of interacting phases of matter require direct knowledge of the underlying Hamiltonian. We...", "citations": 4, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7282, "doi": "10.1103/PhysRevResearch.6.L032045", "umap_coordinates": { "x": 394.945068359375, "y": 136.8754425048828, "z": 209.01873779296875 }, "tsne_coordinates": { "x": -22.334800720214844, "y": -20.70865249633789, "z": 20.094003677368164 }, "pca_coordinates": { "x": 2.5729339122772217, "y": 1.1028231382369995, "z": -0.5074337720870972 }, "axis_scores": { "Quantum imaging": 0.7207728028297424, "Quantum Life Science Sensing": 0.6979348063468933, "Quantum sensing Detection": 0.6861919164657593, "Quantum sensing Metrology": 0.6898156404495239, "Quantum sensing navigation": 0.7070521116256714, "Quantum sensing Position": 0.6982055902481079, "Quantum sensing Timing": 0.6669976115226746, "Quantum sensing": 0.6970320343971252, "Quantum control": 0.6650829315185547 } }, { "id": 7276, "title": "Effect of Synthesis Method on Reaction Mechanism for Hydrogen Evolution over CuxOy/TiO2 Photocatalysts: A Kinetic Analysis", "abstract": "The existing literature survey reports rare and conflicting studies on the effect of the preparation method of metal-based semiconductor photocatalysts on structural/morphological features, electronic...", "citations": 11, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7283, "doi": "10.3390/ijms24032004", "umap_coordinates": { "x": 392.9061584472656, "y": 134.90806579589844, "z": 204.99356079101562 }, "tsne_coordinates": { "x": 25.337112426757812, "y": 14.274423599243164, "z": 3.316243886947632 }, "pca_coordinates": { "x": -2.31227970123291, "y": 0.9902130365371704, "z": -3.513765335083008 }, "axis_scores": { "Quantum imaging": 0.6829359531402588, "Quantum Life Science Sensing": 0.7104789018630981, "Quantum sensing Detection": 0.6786245703697205, "Quantum sensing Metrology": 0.6671854257583618, "Quantum sensing navigation": 0.6713506579399109, "Quantum sensing Position": 0.6407357454299927, "Quantum sensing Timing": 0.6670301556587219, "Quantum sensing": 0.6943170428276062, "Quantum control": 0.7120725512504578 } }, { "id": 7277, "title": "Exploiting ionization dynamics in the nitrogen vacancy center for rapid, high-contrast spin, and charge state initialization", "abstract": "We propose and experimentally demonstrate a method to strongly increase the sensitivity of spin measure-ments on nitrogen vacancy (NV) centers in diamond, which can be readily implemented in existing ...", "citations": 29, "author_count": 10, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7284, "doi": "10.1103/PhysRevResearch.5.013014", "umap_coordinates": { "x": 394.0693664550781, "y": 136.45860290527344, "z": 206.96090698242188 }, "tsne_coordinates": { "x": -25.81301498413086, "y": -24.914670944213867, "z": -10.296222686767578 }, "pca_coordinates": { "x": 0.5945717096328735, "y": 0.6330006122589111, "z": -1.0089857578277588 }, "axis_scores": { "Quantum imaging": 0.7095769047737122, "Quantum Life Science Sensing": 0.7067294120788574, "Quantum sensing Detection": 0.6880186796188354, "Quantum sensing Metrology": 0.6666955351829529, "Quantum sensing navigation": 0.7098046541213989, "Quantum sensing Position": 0.675856351852417, "Quantum sensing Timing": 0.6847745776176453, "Quantum sensing": 0.6937137246131897, "Quantum control": 0.6767668724060059 } }, { "id": 7278, "title": "Measurement of the higher-order anisotropic flow coefficients for identified hadrons in Au plus Au collisions at √sNN=200 GeV", "abstract": "Measurements of the anisotropic flow coefficients v(2){Psi(2)}, v(3){Psi(3)}, v(4){Psi(4)}, and v(4){Psi(2)} for identified particles (pi(+/-), K-+/-, and p + (p) over bar) at midrapidity, obtained re...", "citations": 48, "author_count": 390, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7285, "doi": "10.1103/PhysRevC.93.051902", "umap_coordinates": { "x": 396.23065185546875, "y": 134.7709197998047, "z": 208.24407958984375 }, "tsne_coordinates": { "x": -36.89580535888672, "y": 1.4805192947387695, "z": -18.70882797241211 }, "pca_coordinates": { "x": 2.1111321449279785, "y": 0.16460251808166504, "z": 1.6999168395996094 }, "axis_scores": { "Quantum imaging": 0.6931411623954773, "Quantum Life Science Sensing": 0.6831108927726746, "Quantum sensing Detection": 0.6937881112098694, "Quantum sensing Metrology": 0.6822652816772461, "Quantum sensing navigation": 0.704085648059845, "Quantum sensing Position": 0.6831336617469788, "Quantum sensing Timing": 0.6726071834564209, "Quantum sensing": 0.6989762187004089, "Quantum control": 0.6649376749992371 } }, { "id": 7279, "title": "DIRECT AND INDIRECT EFFECTS OF CD2+ ON PHOTOSYNTHESIS IN SUGAR-BEET (BETA-VULGARIS)", "abstract": "Sugar-beet plants (Beta vulgaris L. cv. Monohill) were cultivated for 4 weeks in a complete nutrient solution. Indirect effects of cadmium were studied by adding 5, 10 or 20-mu-M CdCl2 to the culture ...", "citations": 134, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1991, "topic": [ "all" ], "embedding_index": 7286, "doi": "10.1111/j.1399-3054.1991.tb01291.x", "umap_coordinates": { "x": 394.5972900390625, "y": 136.06813049316406, "z": 203.5303192138672 }, "tsne_coordinates": { "x": 7.377358436584473, "y": 31.880813598632812, "z": 13.675787925720215 }, "pca_coordinates": { "x": -3.181689739227295, "y": 0.3659505844116211, "z": -0.6031873226165771 }, "axis_scores": { "Quantum imaging": 0.6967920064926147, "Quantum Life Science Sensing": 0.7082089781761169, "Quantum sensing Detection": 0.7029653787612915, "Quantum sensing Metrology": 0.6779337525367737, "Quantum sensing navigation": 0.6729569435119629, "Quantum sensing Position": 0.6520444750785828, "Quantum sensing Timing": 0.6625006794929504, "Quantum sensing": 0.7091695666313171, "Quantum control": 0.6904050707817078 } }, { "id": 7280, "title": "Smartphone-based clinical diagnostics: towards democratization of evidence-based health care", "abstract": "Recent advancements in bioanalytical techniques have led to the development of novel and robust diagnostic approaches that hold promise for providing optimal patient treatment, guiding prevention prog...", "citations": 166, "author_count": 9, "categories": [ "General & Internal Medicine" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7287, "doi": "10.1111/joim.12820", "umap_coordinates": { "x": 394.8039855957031, "y": 134.31822204589844, "z": 204.50489807128906 }, "tsne_coordinates": { "x": 10.86221694946289, "y": 34.502628326416016, "z": -15.086882591247559 }, "pca_coordinates": { "x": -2.1008846759796143, "y": 2.475842237472534, "z": 0.9084486365318298 }, "axis_scores": { "Quantum imaging": 0.7235199213027954, "Quantum Life Science Sensing": 0.7422846555709839, "Quantum sensing Detection": 0.7346256971359253, "Quantum sensing Metrology": 0.728437066078186, "Quantum sensing navigation": 0.7085548639297485, "Quantum sensing Position": 0.6949670910835266, "Quantum sensing Timing": 0.6888387799263, "Quantum sensing": 0.7374917268753052, "Quantum control": 0.6762966513633728 } }, { "id": 7281, "title": "First-principles study of the influence of different interfaces and core types on the properties of CdSe/CdS core-shell nanocrystals", "abstract": "With the expanding field of nanoengineering and the production of nanocrystals (NCs) with higher quality and tunable size, having reliable theoretical calculations to complement the experimental resul...", "citations": 22, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7288, "doi": "10.1038/srep10865", "umap_coordinates": { "x": 392.39617919921875, "y": 134.20050048828125, "z": 206.36981201171875 }, "tsne_coordinates": { "x": 23.699125289916992, "y": -2.725356101989746, "z": 1.8978359699249268 }, "pca_coordinates": { "x": -2.219167709350586, "y": -2.845567226409912, "z": -1.9029440879821777 }, "axis_scores": { "Quantum imaging": 0.6983644962310791, "Quantum Life Science Sensing": 0.7324466705322266, "Quantum sensing Detection": 0.6950048208236694, "Quantum sensing Metrology": 0.6738179326057434, "Quantum sensing navigation": 0.6675145626068115, "Quantum sensing Position": 0.6548425555229187, "Quantum sensing Timing": 0.6537967920303345, "Quantum sensing": 0.704928457736969, "Quantum control": 0.671172022819519 } }, { "id": 7282, "title": "Probing Majorana modes via local spin dynamics", "abstract": "We investigate Majorana modes in a quantum spin chain with bond-dependent exchange interactions by studying its dynamics. Specifically, we consider two-time correlations for the anisotropic Kitaev-Hei...", "citations": 3, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7289, "doi": "10.1103/PhysRevB.106.035414", "umap_coordinates": { "x": 394.2633361816406, "y": 137.17857360839844, "z": 208.1909942626953 }, "tsne_coordinates": { "x": -30.470287322998047, "y": -25.96307373046875, "z": 4.957973480224609 }, "pca_coordinates": { "x": 3.9461169242858887, "y": 0.4748530387878418, "z": -0.5922085046768188 }, "axis_scores": { "Quantum imaging": 0.7282871007919312, "Quantum Life Science Sensing": 0.739411473274231, "Quantum sensing Detection": 0.7313298583030701, "Quantum sensing Metrology": 0.7212300300598145, "Quantum sensing navigation": 0.7452490329742432, "Quantum sensing Position": 0.7073526978492737, "Quantum sensing Timing": 0.6588435769081116, "Quantum sensing": 0.7413417100906372, "Quantum control": 0.7029078006744385 } }, { "id": 7283, "title": "The effect of lattice dynamics on electron localization in poly-(para-phenylenevinylene)", "abstract": "The lattice dynamics in poly-(para-phenylenevinylene) and its effect on the electron localization properties have been investigated. The simulations were performed using a hybrid quantum mechanical/mo...", "citations": 5, "author_count": 4, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7290, "doi": "10.1016/j.synthmet.2009.08.035", "umap_coordinates": { "x": 392.7851257324219, "y": 135.2156524658203, "z": 206.5710906982422 }, "tsne_coordinates": { "x": 23.737934112548828, "y": 0.8605473041534424, "z": 14.001904487609863 }, "pca_coordinates": { "x": -0.869952917098999, "y": -1.1448085308074951, "z": -2.101105213165283 }, "axis_scores": { "Quantum imaging": 0.7356637716293335, "Quantum Life Science Sensing": 0.721677839756012, "Quantum sensing Detection": 0.7163735032081604, "Quantum sensing Metrology": 0.6987797617912292, "Quantum sensing navigation": 0.7248430252075195, "Quantum sensing Position": 0.7547047138214111, "Quantum sensing Timing": 0.7021547555923462, "Quantum sensing": 0.7251726984977722, "Quantum control": 0.7228221893310547 } }, { "id": 7284, "title": "Measurement of the Electron Charge Asymmetry in p(p)over-bar → W plus X → eν plus X Events at √s=1.96 TeV", "abstract": "We present a measurement of the electron charge asymmetry in p (p) over bar -> W + X -> e nu + X events at a center of mass energy of 1.96 TeV using 0.75 fb(-1) of data collected with the D0 detector ...", "citations": 59, "author_count": 526, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7291, "doi": "10.1103/PhysRevLett.101.211801", "umap_coordinates": { "x": 396.6804504394531, "y": 134.57391357421875, "z": 207.4164581298828 }, "tsne_coordinates": { "x": -28.44236946105957, "y": 5.592074871063232, "z": -13.910661697387695 }, "pca_coordinates": { "x": 2.282423973083496, "y": -0.5308380126953125, "z": 2.182666063308716 }, "axis_scores": { "Quantum imaging": 0.6685981154441833, "Quantum Life Science Sensing": 0.6754882335662842, "Quantum sensing Detection": 0.6829226613044739, "Quantum sensing Metrology": 0.6702984571456909, "Quantum sensing navigation": 0.6730221509933472, "Quantum sensing Position": 0.6992055177688599, "Quantum sensing Timing": 0.6933483481407166, "Quantum sensing": 0.6861962080001831, "Quantum control": 0.6564203500747681 } }, { "id": 7285, "title": "INFLUENCE OF UV-B RADIATION ON PHOTOSYNTHETIC LIGHT-RESPONSE CURVES, ABSORPTION-SPECTRA AND MOTILITY OF 4 PHYTOPLANKTON SPECIES", "abstract": "Several unicellular algae were exposed to artificial UV-B (280-320 nm) radiation after adaptation to high (43 W m(-2)) and low (19 W m(-2)) visible light. W-B radiation had different effects on rates ...", "citations": 26, "author_count": 2, "categories": [ "Plant Sciences" ], "year": 1994, "topic": [ "all" ], "embedding_index": 7292, "doi": null, "umap_coordinates": { "x": 391.6202392578125, "y": 139.6874237060547, "z": 209.748046875 }, "tsne_coordinates": { "x": -1.3099271059036255, "y": 43.5107536315918, "z": 2.729095697402954 }, "pca_coordinates": { "x": -2.841275930404663, "y": 3.666110038757324, "z": -3.4894399642944336 }, "axis_scores": { "Quantum imaging": 0.6957213878631592, "Quantum Life Science Sensing": 0.7352743148803711, "Quantum sensing Detection": 0.6958069801330566, "Quantum sensing Metrology": 0.684306263923645, "Quantum sensing navigation": 0.6954814195632935, "Quantum sensing Position": 0.680239200592041, "Quantum sensing Timing": 0.6460575461387634, "Quantum sensing": 0.7051132321357727, "Quantum control": 0.7012085914611816 } }, { "id": 7286, "title": "Raman Spectroscopy of Conical Intersections Using Entangled Photons", "abstract": "Ultrafast Raman spectroscopy with attosecond pulses in the extreme ultraviolet and X-ray regime has been proposed theoretically for tracking the non-adiabatic dynamics of molecules in great detail. Th...", "citations": 6, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7293, "doi": "10.1021/acs.jpclett.3c02852", "umap_coordinates": { "x": 393.0479736328125, "y": 136.1230926513672, "z": 206.5748748779297 }, "tsne_coordinates": { "x": 2.3528048992156982, "y": -11.6530179977417, "z": -9.844897270202637 }, "pca_coordinates": { "x": 0.05769515037536621, "y": 0.03628396987915039, "z": 2.7699217796325684 }, "axis_scores": { "Quantum imaging": 0.7444223165512085, "Quantum Life Science Sensing": 0.7147788405418396, "Quantum sensing Detection": 0.7388030290603638, "Quantum sensing Metrology": 0.7123373746871948, "Quantum sensing navigation": 0.7161147594451904, "Quantum sensing Position": 0.70412677526474, "Quantum sensing Timing": 0.6882715225219727, "Quantum sensing": 0.7374957203865051, "Quantum control": 0.6947018504142761 } }, { "id": 7287, "title": "Laser Damage Helps the Eavesdropper in Quantum Cryptography", "abstract": "We propose a class of attacks on quantum key distribution (QKD) systems where an eavesdropper actively engineers new loopholes by using damaging laser illumination to permanently change properties of ...", "citations": 112, "author_count": 7, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7294, "doi": "10.1103/PhysRevLett.112.070503", "umap_coordinates": { "x": 395.5609436035156, "y": 135.896728515625, "z": 208.1548614501953 }, "tsne_coordinates": { "x": -12.276660919189453, "y": -16.473400115966797, "z": -7.9185638427734375 }, "pca_coordinates": { "x": 3.7910523414611816, "y": 0.2197580337524414, "z": 1.172156572341919 }, "axis_scores": { "Quantum imaging": 0.7336305379867554, "Quantum Life Science Sensing": 0.7364019155502319, "Quantum sensing Detection": 0.7415702939033508, "Quantum sensing Metrology": 0.7051082849502563, "Quantum sensing navigation": 0.7140562534332275, "Quantum sensing Position": 0.7208747863769531, "Quantum sensing Timing": 0.7155530452728271, "Quantum sensing": 0.7417121529579163, "Quantum control": 0.7145670652389526 } }, { "id": 7288, "title": "APPLICATIONS OF CHEMILUMINESCENCE IN RUBBER RESEARCH", "abstract": "The oxidation of most organic materials is accompanied by the emission of weak light, so called chemiluminescence (CL). This emission has previously often been designated oxyluminescence. CL has been ...", "citations": 12, "author_count": 7, "categories": [ "Polymer Science" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7295, "doi": "10.5254/1.3538638", "umap_coordinates": { "x": 393.64715576171875, "y": 134.92767333984375, "z": 204.28353881835938 }, "tsne_coordinates": { "x": 1.3113269805908203, "y": 16.41535186767578, "z": -7.1497416496276855 }, "pca_coordinates": { "x": -2.846891403198242, "y": 1.2855526208877563, "z": -0.05846607685089111 }, "axis_scores": { "Quantum imaging": 0.699027419090271, "Quantum Life Science Sensing": 0.7127771973609924, "Quantum sensing Detection": 0.7039011120796204, "Quantum sensing Metrology": 0.694951057434082, "Quantum sensing navigation": 0.6790240406990051, "Quantum sensing Position": 0.6706613898277283, "Quantum sensing Timing": 0.6655915379524231, "Quantum sensing": 0.7107169032096863, "Quantum control": 0.6749889254570007 } }, { "id": 7289, "title": "Probing the structure of?c1(3872) with photon transition form factors", "abstract": "We propose studying the structure of the chi c1(3872) axial vector meson through its gamma*L gamma -> chi c1(3872) transition form factor. We derive a light-front wave function representation of the f...", "citations": 4, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7296, "doi": "10.1103/PhysRevD.107.L071503", "umap_coordinates": { "x": 395.6741027832031, "y": 136.05279541015625, "z": 207.62823486328125 }, "tsne_coordinates": { "x": -26.370695114135742, "y": -16.046058654785156, "z": -11.688589096069336 }, "pca_coordinates": { "x": 1.9421577453613281, "y": 1.2121962308883667, "z": 1.4984571933746338 }, "axis_scores": { "Quantum imaging": 0.7046521306037903, "Quantum Life Science Sensing": 0.7114874124526978, "Quantum sensing Detection": 0.7001187801361084, "Quantum sensing Metrology": 0.6932263970375061, "Quantum sensing navigation": 0.7037637233734131, "Quantum sensing Position": 0.6649278998374939, "Quantum sensing Timing": 0.6680393218994141, "Quantum sensing": 0.7043271064758301, "Quantum control": 0.680840253829956 } }, { "id": 7290, "title": "High-resolution spectroscopy of laser-produced plasmas in the photon energy range above 10 keV", "abstract": "X-rays from a laser-produced plasma were analysed using single-photon counting germanium detectors. Special attention was given to the extremely high photon flux, requiring either a long source-detect...", "citations": 14, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7297, "doi": "10.1016/S0168-9002(97)00476-2", "umap_coordinates": { "x": 394.8170166015625, "y": 134.6004638671875, "z": 205.8016815185547 }, "tsne_coordinates": { "x": -14.096918106079102, "y": 13.440958976745605, "z": -1.638427495956421 }, "pca_coordinates": { "x": -2.3865861892700195, "y": -0.8342511653900146, "z": 1.5168497562408447 }, "axis_scores": { "Quantum imaging": 0.6792587041854858, "Quantum Life Science Sensing": 0.7132036685943604, "Quantum sensing Detection": 0.6798540353775024, "Quantum sensing Metrology": 0.6711916923522949, "Quantum sensing navigation": 0.6658481955528259, "Quantum sensing Position": 0.6698467135429382, "Quantum sensing Timing": 0.6537119746208191, "Quantum sensing": 0.684133768081665, "Quantum control": 0.6114447712898254 } }, { "id": 7291, "title": "Modeling tools for design of type-II superlattice photodetectors", "abstract": "In this paper, we present a range of modeling tools that are used in the design and performance evaluation of type-II superlattice detectors. Among these is an optical and photo carrier transport mode...", "citations": 18, "author_count": 4, "categories": [ "Instruments & Instrumentation" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7298, "doi": "10.1016/j.infrared.2017.03.006", "umap_coordinates": { "x": 394.0028381347656, "y": 132.96353149414062, "z": 205.8365020751953 }, "tsne_coordinates": { "x": 8.849267959594727, "y": 3.1936614513397217, "z": -27.90930938720703 }, "pca_coordinates": { "x": -3.5693304538726807, "y": -1.2280168533325195, "z": 0.6947681307792664 }, "axis_scores": { "Quantum imaging": 0.725676953792572, "Quantum Life Science Sensing": 0.7293727397918701, "Quantum sensing Detection": 0.7055528163909912, "Quantum sensing Metrology": 0.6970191597938538, "Quantum sensing navigation": 0.6770061254501343, "Quantum sensing Position": 0.6774952411651611, "Quantum sensing Timing": 0.6869493126869202, "Quantum sensing": 0.7105761170387268, "Quantum control": 0.6503362059593201 } }, { "id": 7292, "title": "On the particle entanglement spectrum of the Laughlin states", "abstract": "The study of the entanglement entropy and entanglement spectrum has proven to be very fruitful in identifying topological phases of matter. Typically, one performs numerical studies of finite-size sys...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7299, "doi": "10.1088/1751-8113/48/28/285205", "umap_coordinates": { "x": 395.0713195800781, "y": 137.55604553222656, "z": 207.14736938476562 }, "tsne_coordinates": { "x": -36.22489547729492, "y": -6.178170680999756, "z": 1.2110027074813843 }, "pca_coordinates": { "x": 2.152009963989258, "y": 2.8912839889526367, "z": 0.8845695853233337 }, "axis_scores": { "Quantum imaging": 0.6950416564941406, "Quantum Life Science Sensing": 0.6767115592956543, "Quantum sensing Detection": 0.6660807132720947, "Quantum sensing Metrology": 0.6616004705429077, "Quantum sensing navigation": 0.6737502813339233, "Quantum sensing Position": 0.685888946056366, "Quantum sensing Timing": 0.666944146156311, "Quantum sensing": 0.6822043061256409, "Quantum control": 0.6656029224395752 } }, { "id": 7293, "title": "ON STATISTICAL-MECHANICAL EQUATIONS OF STATE FOR SIMPLE FLUIDS - EFFECTIVE HARD-SPHERES AND QUANTUM CORRECTIONS", "abstract": "A comparison is made of the mean field generalised van der Waals theory, based on a variationally determined hard sphere diameter, with the recent equation of state proposed by Song and Mason incorpor...", "citations": 11, "author_count": 4, "categories": [ "Thermodynamics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 7300, "doi": "10.1016/0378-3812(93)85070-3", "umap_coordinates": { "x": 394.4524230957031, "y": 137.06581115722656, "z": 206.6519012451172 }, "tsne_coordinates": { "x": -19.36124038696289, "y": -4.501545429229736, "z": 28.973491668701172 }, "pca_coordinates": { "x": 0.764724850654602, "y": 1.9267909526824951, "z": -1.3595069646835327 }, "axis_scores": { "Quantum imaging": 0.682603657245636, "Quantum Life Science Sensing": 0.7102559208869934, "Quantum sensing Detection": 0.6689547896385193, "Quantum sensing Metrology": 0.6743852496147156, "Quantum sensing navigation": 0.6856276988983154, "Quantum sensing Position": 0.6568430662155151, "Quantum sensing Timing": 0.6407433152198792, "Quantum sensing": 0.6872860193252563, "Quantum control": 0.6616150736808777 } }, { "id": 7294, "title": "General theory for pulse propagation in two-photon active media", "abstract": "The propagation of laser pulses of different lengths in nonlinear media of organic absorbers is described starting out from a recently suggested dynamical theory for two-photon absorption (TPA) of mol...", "citations": 38, "author_count": 6, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7301, "doi": "10.1063/1.1499719", "umap_coordinates": { "x": 394.726806640625, "y": 134.38153076171875, "z": 207.15907287597656 }, "tsne_coordinates": { "x": -5.383996963500977, "y": -2.3541393280029297, "z": 6.67097806930542 }, "pca_coordinates": { "x": 1.1644012928009033, "y": 0.303668737411499, "z": 1.9169445037841797 }, "axis_scores": { "Quantum imaging": 0.7294572591781616, "Quantum Life Science Sensing": 0.7237470149993896, "Quantum sensing Detection": 0.7297523021697998, "Quantum sensing Metrology": 0.7149642109870911, "Quantum sensing navigation": 0.7091960310935974, "Quantum sensing Position": 0.6863989233970642, "Quantum sensing Timing": 0.7053086757659912, "Quantum sensing": 0.7314636707305908, "Quantum control": 0.6930192708969116 } }, { "id": 7295, "title": "Stochastic wave-function unravelling of the generalized Lindblad equation using correlated states", "abstract": "We perform a stochastic wave-function unravelling of the generalized Lindblad master equation using correlated states, a combination of the system state vectors and the environment population. The tim...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7302, "doi": "10.1088/0031-8949/85/04/045002", "umap_coordinates": { "x": 395.2842102050781, "y": 136.6519775390625, "z": 207.3167266845703 }, "tsne_coordinates": { "x": -31.52474594116211, "y": 1.287196159362793, "z": 3.4479310512542725 }, "pca_coordinates": { "x": 1.663830041885376, "y": 2.222144603729248, "z": 1.8793377876281738 }, "axis_scores": { "Quantum imaging": 0.7162305116653442, "Quantum Life Science Sensing": 0.7266268134117126, "Quantum sensing Detection": 0.7193967700004578, "Quantum sensing Metrology": 0.7185258269309998, "Quantum sensing navigation": 0.743105947971344, "Quantum sensing Position": 0.7003058195114136, "Quantum sensing Timing": 0.6849969029426575, "Quantum sensing": 0.7281043529510498, "Quantum control": 0.6913038492202759 } }, { "id": 7296, "title": "Recent progress in the use of graphene/polymer composites to remove oil contaminants from water", "abstract": "Frequent oil spill accidents and the massive discharge of industrial oily sewage have destroyed the ecological balance and threatened marine life. Graphene (G) and graphene oxide (GO) have emerged as ...", "citations": 18, "author_count": 6, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7303, "doi": "10.1016/S1872-5805(21)60018-5", "umap_coordinates": { "x": 393.45257568359375, "y": 134.67178344726562, "z": 204.59402465820312 }, "tsne_coordinates": { "x": 30.508163452148438, "y": 14.937524795532227, "z": -4.209267616271973 }, "pca_coordinates": { "x": -3.2938098907470703, "y": -0.020081758499145508, "z": -0.519644021987915 }, "axis_scores": { "Quantum imaging": 0.6313066482543945, "Quantum Life Science Sensing": 0.6778619885444641, "Quantum sensing Detection": 0.62161785364151, "Quantum sensing Metrology": 0.6135199069976807, "Quantum sensing navigation": 0.6389670968055725, "Quantum sensing Position": 0.638508677482605, "Quantum sensing Timing": 0.599025309085846, "Quantum sensing": 0.6372723579406738, "Quantum control": 0.6228828430175781 } }, { "id": 7297, "title": "Correlated frequency noise in a multimode acoustic resonator", "abstract": "Frequency instabilities are a major source of errors in quantum devices. This Letter investigates frequency fluctuations in a surface acoustic wave (SAW) resonator, where reflection coefficients of 14...", "citations": 2, "author_count": 5, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7304, "doi": "10.1103/PhysRevB.109.L241301", "umap_coordinates": { "x": 395.0271911621094, "y": 135.4199981689453, "z": 208.45480346679688 }, "tsne_coordinates": { "x": -14.404654502868652, "y": -23.316314697265625, "z": -3.3387396335601807 }, "pca_coordinates": { "x": 4.838496685028076, "y": 0.8494564294815063, "z": 1.8737030029296875 }, "axis_scores": { "Quantum imaging": 0.6952020525932312, "Quantum Life Science Sensing": 0.731465756893158, "Quantum sensing Detection": 0.7342686057090759, "Quantum sensing Metrology": 0.7229527235031128, "Quantum sensing navigation": 0.7284511923789978, "Quantum sensing Position": 0.7100855112075806, "Quantum sensing Timing": 0.702083170413971, "Quantum sensing": 0.7315390706062317, "Quantum control": 0.6938714385032654 } }, { "id": 7298, "title": "DOUBLE-QUANTUM HOMONUCLEAR ROTARY RESONANCE - EFFICIENT DIPOLAR RECOVERY IN MAGIC-ANGLE-SPINNING NUCLEAR-MAGNETIC-RESONANCE", "abstract": "We describe an efficient method for the recovery of homonuclear dipole-dipole interactions in magic-angle spinning NMR. Double-quantum homonuclear rotary resonance (2Q-HORROR) is established by fulfil...", "citations": 421, "author_count": 5, "categories": [ "Chemistry" ], "year": 1994, "topic": [ "all" ], "embedding_index": 7305, "doi": "10.1063/1.467759", "umap_coordinates": { "x": 392.8367004394531, "y": 136.530517578125, "z": 207.39134216308594 }, "tsne_coordinates": { "x": 12.30394172668457, "y": 2.4585659503936768, "z": 34.618995666503906 }, "pca_coordinates": { "x": 1.5505788326263428, "y": -0.3244590759277344, "z": -1.0017271041870117 }, "axis_scores": { "Quantum imaging": 0.7468941807746887, "Quantum Life Science Sensing": 0.73236083984375, "Quantum sensing Detection": 0.717830240726471, "Quantum sensing Metrology": 0.7154117226600647, "Quantum sensing navigation": 0.7130081057548523, "Quantum sensing Position": 0.6739689111709595, "Quantum sensing Timing": 0.6941933631896973, "Quantum sensing": 0.7490041255950928, "Quantum control": 0.7214360237121582 } }, { "id": 7299, "title": "Molecular dynamics and control following excitation with an ultra-short intense laser pulse", "abstract": "Vibronic excitations of the tri-atomic molecule OClO (A(2)A(2)(nu(1), nu(2), nu(3)) <-- (XB1)-B-2 (0, 0, 0)) with weak and strong ultra-short laser fields are studied within full quantum wavepacket dy...", "citations": 10, "author_count": 4, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7306, "doi": "10.1016/j.chemphys.2003.12.024", "umap_coordinates": { "x": 393.2196350097656, "y": 136.4007110595703, "z": 206.5030975341797 }, "tsne_coordinates": { "x": 0.9877802729606628, "y": 4.641139507293701, "z": 13.79173755645752 }, "pca_coordinates": { "x": -0.02791595458984375, "y": -0.4190826416015625, "z": -1.5246810913085938 }, "axis_scores": { "Quantum imaging": 0.7425392866134644, "Quantum Life Science Sensing": 0.7477834224700928, "Quantum sensing Detection": 0.7267611026763916, "Quantum sensing Metrology": 0.6924322247505188, "Quantum sensing navigation": 0.7015507817268372, "Quantum sensing Position": 0.6941683292388916, "Quantum sensing Timing": 0.7105782628059387, "Quantum sensing": 0.7398557066917419, "Quantum control": 0.7472288012504578 } }, { "id": 7300, "title": "Anomalous Radiative Trapping in Laser Fields of Extreme Intensity", "abstract": "We demonstrate that charged particles in a sufficiently intense standing wave are compressed toward, and oscillate synchronously at, the antinodes of the electric field. We call this unusual behavior ...", "citations": 146, "author_count": 10, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7307, "doi": "10.1103/PhysRevLett.113.014801", "umap_coordinates": { "x": 395.0720520019531, "y": 135.5794219970703, "z": 207.96435546875 }, "tsne_coordinates": { "x": -11.154413223266602, "y": -15.830486297607422, "z": -8.548964500427246 }, "pca_coordinates": { "x": 3.5828752517700195, "y": -0.7751784324645996, "z": 0.3880639672279358 }, "axis_scores": { "Quantum imaging": 0.7195998430252075, "Quantum Life Science Sensing": 0.716803789138794, "Quantum sensing Detection": 0.7134939432144165, "Quantum sensing Metrology": 0.6965881586074829, "Quantum sensing navigation": 0.6883836388587952, "Quantum sensing Position": 0.6822787523269653, "Quantum sensing Timing": 0.6870725750923157, "Quantum sensing": 0.7197653651237488, "Quantum control": 0.6964536905288696 } }, { "id": 7301, "title": "A reversible and highly selective two-photon fluorescent on-off-on probe for biological Cu2+ detection", "abstract": "A two-photon active probe for physiological copper (Cu2+) detection is expected to play an important role in monitoring biological metabolism. Herein, a novel Schiff base derivative (E)-2,2-((4-((4-(d...", "citations": 23, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7308, "doi": "10.1039/c8ob00257f", "umap_coordinates": { "x": 392.3357849121094, "y": 135.28990173339844, "z": 204.52354431152344 }, "tsne_coordinates": { "x": 9.795514106750488, "y": 6.405359745025635, "z": -5.750936031341553 }, "pca_coordinates": { "x": -3.9972951412200928, "y": -1.2991681098937988, "z": -1.150388479232788 }, "axis_scores": { "Quantum imaging": 0.7095357179641724, "Quantum Life Science Sensing": 0.7274488210678101, "Quantum sensing Detection": 0.7154079079627991, "Quantum sensing Metrology": 0.6727389097213745, "Quantum sensing navigation": 0.6715470552444458, "Quantum sensing Position": 0.6455978751182556, "Quantum sensing Timing": 0.6474094986915588, "Quantum sensing": 0.7136209607124329, "Quantum control": 0.6874684691429138 } }, { "id": 7302, "title": "Calibration and characterization of the IceCube photomultiplier tube", "abstract": "Over 5000 PMTs are being deployed at the South Pole to compose the IceCube neutrino observatory. Many are placed deep in the ice to detect Cherenkov light emitted by the products of high-energy neutri...", "citations": 271, "author_count": 259, "categories": [ "Instruments & Instrumentation" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7309, "doi": "10.1016/j.nima.2010.03.102", "umap_coordinates": { "x": 394.5765075683594, "y": 132.97647094726562, "z": 205.36473083496094 }, "tsne_coordinates": { "x": -18.489458084106445, "y": 19.6966552734375, "z": -6.5022292137146 }, "pca_coordinates": { "x": -3.78391695022583, "y": 2.1756222248077393, "z": 2.159379005432129 }, "axis_scores": { "Quantum imaging": 0.7009344100952148, "Quantum Life Science Sensing": 0.7373953461647034, "Quantum sensing Detection": 0.7018857002258301, "Quantum sensing Metrology": 0.7098120450973511, "Quantum sensing navigation": 0.686467707157135, "Quantum sensing Position": 0.6695438623428345, "Quantum sensing Timing": 0.6729145646095276, "Quantum sensing": 0.7007871270179749, "Quantum control": 0.6651167273521423 } }, { "id": 7303, "title": "Non-Bonded Radii of the Atoms Under Compression", "abstract": ": We present quantum mechanical estimates for non-bonded, van der Waals-like, radii of 93 atoms in a pressure range from 0 to 300 gigapascal. Trends in radii are largely maintained under pressure, but...", "citations": 29, "author_count": 6, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7310, "doi": "10.1002/cphc.202000624", "umap_coordinates": { "x": 394.5124816894531, "y": 136.5975341796875, "z": 205.26840209960938 }, "tsne_coordinates": { "x": 6.131241321563721, "y": 11.759088516235352, "z": 28.162200927734375 }, "pca_coordinates": { "x": 0.9170053005218506, "y": 3.522869348526001, "z": -2.9390170574188232 }, "axis_scores": { "Quantum imaging": 0.7016016840934753, "Quantum Life Science Sensing": 0.7247164249420166, "Quantum sensing Detection": 0.6941308975219727, "Quantum sensing Metrology": 0.6948896646499634, "Quantum sensing navigation": 0.6917629837989807, "Quantum sensing Position": 0.7082434892654419, "Quantum sensing Timing": 0.691095769405365, "Quantum sensing": 0.7161340117454529, "Quantum control": 0.7102318406105042 } }, { "id": 7304, "title": "SPECTRAL CHARACTERISTICS OF VISIBLE RADIATION PENETRATING INTO THE BRAIN AND STIMULATING EXTRARETINAL PHOTORECEPTORS - TRANSMISSION RECORDINGS IN VERTEBRATES", "abstract": "Supravital recordings of spectral transmission in the brains of 2 spp. of teleosts (Anguilla anguilla, Ictalurus nebulosus), an amphibian (Rana temporaria), a reptile (Lacerta muralis), 2 spp. of bird...", "citations": 127, "author_count": 3, "categories": [ "Physiology" ], "year": 1979, "topic": [ "all" ], "embedding_index": 7311, "doi": "10.1007/BF00614615", "umap_coordinates": { "x": 394.170166015625, "y": 135.35006713867188, "z": 204.79798889160156 }, "tsne_coordinates": { "x": 16.727066040039062, "y": 35.04245376586914, "z": -1.5108710527420044 }, "pca_coordinates": { "x": -2.135295867919922, "y": 1.6474530696868896, "z": 1.3624000549316406 }, "axis_scores": { "Quantum imaging": 0.7150134444236755, "Quantum Life Science Sensing": 0.7375577092170715, "Quantum sensing Detection": 0.6880302429199219, "Quantum sensing Metrology": 0.6882127523422241, "Quantum sensing navigation": 0.6931304931640625, "Quantum sensing Position": 0.6667643785476685, "Quantum sensing Timing": 0.6754373908042908, "Quantum sensing": 0.7038571834564209, "Quantum control": 0.6309830546379089 } }, { "id": 7305, "title": "Two-Photon Absorption Circular Dichroism: A New Twist in Nonlinear Spectroscopy", "abstract": "Herein we report on the full experimental measurement of the two-photon absorption circular dichroism spectra of (S)-(-)-1,1'-bi(2-naphthol) and (R)-(+)-1,1'-bi(2-naphthol), their analysis, and theore...", "citations": 68, "author_count": 7, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7312, "doi": "10.1002/chem.200902286", "umap_coordinates": { "x": 392.9059753417969, "y": 136.21990966796875, "z": 206.0501251220703 }, "tsne_coordinates": { "x": 7.259969711303711, "y": 3.2074127197265625, "z": -2.209690570831299 }, "pca_coordinates": { "x": -1.0879042148590088, "y": -0.6051621437072754, "z": -1.487986445426941 }, "axis_scores": { "Quantum imaging": 0.73478102684021, "Quantum Life Science Sensing": 0.7613576650619507, "Quantum sensing Detection": 0.7401375770568848, "Quantum sensing Metrology": 0.7224922776222229, "Quantum sensing navigation": 0.7222005128860474, "Quantum sensing Position": 0.7026673555374146, "Quantum sensing Timing": 0.6876165866851807, "Quantum sensing": 0.7455454468727112, "Quantum control": 0.7060951590538025 } }, { "id": 7306, "title": "Soft x-ray and Auger electron spectroscopy of single and double electron capture processes in slow Ne8++He collisions", "abstract": "We have performed high resolution extreme ultraviolet (EUV) photon and Auger electron measurements to elucidate single and double capture processes in Ne8++He single collisions at 80 keV impact energy...", "citations": 10, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7313, "doi": "10.1063/1.1147792", "umap_coordinates": { "x": 394.61541748046875, "y": 134.57005310058594, "z": 207.68565368652344 }, "tsne_coordinates": { "x": -2.3904409408569336, "y": -2.6525914669036865, "z": 18.849943161010742 }, "pca_coordinates": { "x": 0.9628496170043945, "y": -0.5392560958862305, "z": 1.3330950736999512 }, "axis_scores": { "Quantum imaging": 0.6708744168281555, "Quantum Life Science Sensing": 0.678744375705719, "Quantum sensing Detection": 0.6822850704193115, "Quantum sensing Metrology": 0.6472554206848145, "Quantum sensing navigation": 0.6463339328765869, "Quantum sensing Position": 0.6330523490905762, "Quantum sensing Timing": 0.6499264240264893, "Quantum sensing": 0.6820782423019409, "Quantum control": 0.6359187960624695 } }, { "id": 7307, "title": "Ozawa's Intersubjectivity Theorem as Objection to QBism Individual Agent Perspective", "abstract": "QBism's foundational statement that the outcome of a measurement of an observable is personal is in the straight contraversion with Ozawa's Intersubjectivity Theorem (OIT). The latter (proven within t...", "citations": 6, "author_count": 2, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7314, "doi": "10.1007/s10773-024-05552-8", "umap_coordinates": { "x": 395.1894226074219, "y": 136.7970733642578, "z": 206.02809143066406 }, "tsne_coordinates": { "x": -31.625173568725586, "y": 16.6176700592041, "z": 19.55521011352539 }, "pca_coordinates": { "x": 0.32842206954956055, "y": 2.6698620319366455, "z": -0.6196632385253906 }, "axis_scores": { "Quantum imaging": 0.7067646384239197, "Quantum Life Science Sensing": 0.6898902654647827, "Quantum sensing Detection": 0.6784131526947021, "Quantum sensing Metrology": 0.6806756854057312, "Quantum sensing navigation": 0.6903213262557983, "Quantum sensing Position": 0.6674842238426208, "Quantum sensing Timing": 0.6645055413246155, "Quantum sensing": 0.696548581123352, "Quantum control": 0.6877062320709229 } }, { "id": 7308, "title": "Clamped and sideband-resolved silicon optomechanical crystals", "abstract": "Optomechanical crystals (OMCs) are a promising and versatile platform for transduction between mechanical and optical fields. However, the release from the substrate used in conventional suspended OMC...", "citations": 11, "author_count": 5, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7315, "doi": "10.1364/OPTICA.492143", "umap_coordinates": { "x": 394.2991943359375, "y": 134.12130737304688, "z": 206.53282165527344 }, "tsne_coordinates": { "x": -2.3282053470611572, "y": -14.078490257263184, "z": -30.406757354736328 }, "pca_coordinates": { "x": -0.7011375427246094, "y": -0.20288848876953125, "z": 2.500581741333008 }, "axis_scores": { "Quantum imaging": 0.6874533891677856, "Quantum Life Science Sensing": 0.6809269785881042, "Quantum sensing Detection": 0.6656944155693054, "Quantum sensing Metrology": 0.6910635232925415, "Quantum sensing navigation": 0.6835474967956543, "Quantum sensing Position": 0.6611253619194031, "Quantum sensing Timing": 0.6739016771316528, "Quantum sensing": 0.687862753868103, "Quantum control": 0.6652341485023499 } }, { "id": 7309, "title": "A gravitational wave observatory operating beyond the quantum shot-noise limit", "abstract": "Around the globe several observatories are seeking the first direct detection of gravitational waves (GWs). These waves are predicted by Einstein's general theory of relativity(1) and are generated, f...", "citations": 872, "author_count": 616, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7316, "doi": "10.1038/NPHYS2083", "umap_coordinates": { "x": 395.519775390625, "y": 136.36041259765625, "z": 206.44020080566406 }, "tsne_coordinates": { "x": -19.377534866333008, "y": -8.743302345275879, "z": -11.846325874328613 }, "pca_coordinates": { "x": 1.8700332641601562, "y": 2.586036205291748, "z": 1.3822004795074463 }, "axis_scores": { "Quantum imaging": 0.7310099005699158, "Quantum Life Science Sensing": 0.7452883124351501, "Quantum sensing Detection": 0.7474291920661926, "Quantum sensing Metrology": 0.72199946641922, "Quantum sensing navigation": 0.7591724395751953, "Quantum sensing Position": 0.7205440998077393, "Quantum sensing Timing": 0.7058119177818298, "Quantum sensing": 0.7467523217201233, "Quantum control": 0.7121789455413818 } }, { "id": 7310, "title": "High-fidelity feedback-assisted parity measurement in circuit QED", "abstract": "We analyze a two-qubit parity measurement based on dispersive readout in circuit quantum electrodynamics. The back action on the qubits has two qualitatively different contributions. One is an unavoid...", "citations": 39, "author_count": 3, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7317, "doi": "10.1103/PhysRevA.82.012329", "umap_coordinates": { "x": 395.6688537597656, "y": 136.1902313232422, "z": 208.06114196777344 }, "tsne_coordinates": { "x": -24.55013084411621, "y": -17.136680603027344, "z": -3.476743459701538 }, "pca_coordinates": { "x": 4.679968357086182, "y": -0.6087064743041992, "z": 1.9855575561523438 }, "axis_scores": { "Quantum imaging": 0.7552659511566162, "Quantum Life Science Sensing": 0.7487751245498657, "Quantum sensing Detection": 0.774548351764679, "Quantum sensing Metrology": 0.7536793351173401, "Quantum sensing navigation": 0.7645562291145325, "Quantum sensing Position": 0.7347501516342163, "Quantum sensing Timing": 0.7241812944412231, "Quantum sensing": 0.7790654301643372, "Quantum control": 0.7431078553199768 } }, { "id": 7311, "title": "Chemiluminescence analysis and computed X-ray tomography of oxidative degradation in polymers", "abstract": "Chemiluminescence analysis (CL), which measures the emission of photons during oxidative aging, and computed X-ray tomography (CT), which estimates densities, have been used to follow the oxidative ag...", "citations": 6, "author_count": 3, "categories": [ "Engineering" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7318, "doi": null, "umap_coordinates": { "x": 391.3781433105469, "y": 139.33238220214844, "z": 209.540283203125 }, "tsne_coordinates": { "x": 2.323920726776123, "y": 43.37601089477539, "z": -9.079026222229004 }, "pca_coordinates": { "x": -3.2452330589294434, "y": 5.1842732429504395, "z": -0.9370548725128174 }, "axis_scores": { "Quantum imaging": 0.7291021347045898, "Quantum Life Science Sensing": 0.7319661378860474, "Quantum sensing Detection": 0.7138429284095764, "Quantum sensing Metrology": 0.6849738955497742, "Quantum sensing navigation": 0.690971851348877, "Quantum sensing Position": 0.6830889582633972, "Quantum sensing Timing": 0.6659300923347473, "Quantum sensing": 0.7070435285568237, "Quantum control": 0.6815808415412903 } }, { "id": 7312, "title": "Photon and neutron dose discrimination using low pressure proportional counters with graphite and A150 walls", "abstract": "A graphite-walled proportional counter with low neutron sensitivity was used in combination with a tissue equivalent proportional counter (TEPC) to separate the photon and neutron components in mixed ...", "citations": 5, "author_count": 3, "categories": [ "Environmental Sciences & Ecology" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7319, "doi": "10.1093/rpd/ncm162", "umap_coordinates": { "x": 395.7389831542969, "y": 133.4976043701172, "z": 205.2527618408203 }, "tsne_coordinates": { "x": -6.992892742156982, "y": 34.84954071044922, "z": -23.188583374023438 }, "pca_coordinates": { "x": -0.9697118401527405, "y": 2.9522852897644043, "z": 3.751274585723877 }, "axis_scores": { "Quantum imaging": 0.6819462776184082, "Quantum Life Science Sensing": 0.703609049320221, "Quantum sensing Detection": 0.6983696222305298, "Quantum sensing Metrology": 0.6740391254425049, "Quantum sensing navigation": 0.70587158203125, "Quantum sensing Position": 0.6749528050422668, "Quantum sensing Timing": 0.6706443428993225, "Quantum sensing": 0.6916869878768921, "Quantum control": 0.6566046476364136 } }, { "id": 7313, "title": "Comparison of Post-Growth Carrier Lifetime Improvement Methods for 4H-SiC Epilayers", "abstract": "We compare two methods for post-growth improvement of bulk carrier lifetime in 4H-SiC: dry oxidations and implantations with either C-12 or N-14, followed by high temperature anneals in Ar atmosphere....", "citations": 2, "author_count": 7, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7320, "doi": "10.4028/www.scientific.net/MSF.717-720.285", "umap_coordinates": { "x": 394.1050720214844, "y": 134.43557739257812, "z": 206.0723114013672 }, "tsne_coordinates": { "x": 19.060758590698242, "y": 5.320800304412842, "z": -37.28862380981445 }, "pca_coordinates": { "x": -1.8596231937408447, "y": 1.0138565301895142, "z": -0.07962602376937866 }, "axis_scores": { "Quantum imaging": 0.6419587135314941, "Quantum Life Science Sensing": 0.6888131499290466, "Quantum sensing Detection": 0.6178877353668213, "Quantum sensing Metrology": 0.6586556434631348, "Quantum sensing navigation": 0.6384537816047668, "Quantum sensing Position": 0.6390278339385986, "Quantum sensing Timing": 0.6489092111587524, "Quantum sensing": 0.6379860639572144, "Quantum control": 0.6162394285202026 } }, { "id": 7314, "title": "Finite-size corrections to anomalous dimensions in N=4 SYM theory - art. no. 049", "abstract": "The scaling dimensions of large operators in N = 4 supersymmetric Yang-Mills theory are dual to energies of semiclassical strings in AdS(5) X S-5. At one loop, the dimensions of large operators can be...", "citations": 36, "author_count": 3, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7321, "doi": null, "umap_coordinates": { "x": 391.984375, "y": 139.4406280517578, "z": 209.54193115234375 }, "tsne_coordinates": { "x": -6.114057540893555, "y": 41.57710266113281, "z": -1.5234407186508179 }, "pca_coordinates": { "x": -0.12691164016723633, "y": 3.989513635635376, "z": -1.9590022563934326 }, "axis_scores": { "Quantum imaging": 0.7442775964736938, "Quantum Life Science Sensing": 0.7506018280982971, "Quantum sensing Detection": 0.7463257312774658, "Quantum sensing Metrology": 0.7249074578285217, "Quantum sensing navigation": 0.7453862428665161, "Quantum sensing Position": 0.7131050825119019, "Quantum sensing Timing": 0.7125867605209351, "Quantum sensing": 0.7660198211669922, "Quantum control": 0.768089771270752 } }, { "id": 7315, "title": "Photon-counting spectral computed tomography using silicon strip detectors: a feasibility study", "abstract": "We show how the spectral imaging framework should be modified to account for a high fraction of Compton interactions in low Z detector materials such as silicon. Using this framework, where deposited ...", "citations": 182, "author_count": 3, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7322, "doi": "10.1088/0031-9155/55/7/014", "umap_coordinates": { "x": 395.4197998046875, "y": 133.251708984375, "z": 205.68508911132812 }, "tsne_coordinates": { "x": -12.413102149963379, "y": 21.101022720336914, "z": -18.979331970214844 }, "pca_coordinates": { "x": -2.334355115890503, "y": 1.9845167398452759, "z": 5.2264180183410645 }, "axis_scores": { "Quantum imaging": 0.7138608694076538, "Quantum Life Science Sensing": 0.7130962014198303, "Quantum sensing Detection": 0.7093510627746582, "Quantum sensing Metrology": 0.6963940262794495, "Quantum sensing navigation": 0.6934199929237366, "Quantum sensing Position": 0.6844861507415771, "Quantum sensing Timing": 0.6943447589874268, "Quantum sensing": 0.7092801332473755, "Quantum control": 0.6403565406799316 } }, { "id": 7316, "title": "Attosecond spectroscopy reveals spontaneous symmetry breaking in molecular photoionization", "abstract": "Spontaneous symmetry breaking, driven by nonadiabatic electron-nuclear coupling, can lead to geometric complexity in molecules and solids. While structural distortion from symmetry breaking occurs in ...", "citations": 1, "author_count": 18, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7323, "doi": "10.1126/sciadv.adw5415", "umap_coordinates": { "x": 394.1371154785156, "y": 136.0279998779297, "z": 206.17239379882812 }, "tsne_coordinates": { "x": -9.80817699432373, "y": -3.4455525875091553, "z": 2.2271077632904053 }, "pca_coordinates": { "x": 1.0174577236175537, "y": -0.330782413482666, "z": -0.41628724336624146 }, "axis_scores": { "Quantum imaging": 0.6943381428718567, "Quantum Life Science Sensing": 0.7212156653404236, "Quantum sensing Detection": 0.6986631155014038, "Quantum sensing Metrology": 0.6825532913208008, "Quantum sensing navigation": 0.6828591823577881, "Quantum sensing Position": 0.6495231986045837, "Quantum sensing Timing": 0.6636861562728882, "Quantum sensing": 0.7026781439781189, "Quantum control": 0.6774006485939026 } }, { "id": 7317, "title": "Transparent Conductive Two-Dimensional Titanium Carbide Epitaxial Thin Films", "abstract": "Since the discovery of graphene, the quest for two-dimensional (2D) materials has intensified greatly. Recently, a new family of 2D transition metal carbides and carbonitrides (MXenes) was discovered ...", "citations": 1546, "author_count": 12, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7324, "doi": "10.1021/cm500641a", "umap_coordinates": { "x": 392.29730224609375, "y": 135.14549255371094, "z": 205.89292907714844 }, "tsne_coordinates": { "x": 25.53400230407715, "y": -13.005545616149902, "z": -16.63692283630371 }, "pca_coordinates": { "x": -2.558619976043701, "y": -2.97493314743042, "z": -1.0451232194900513 }, "axis_scores": { "Quantum imaging": 0.6985021829605103, "Quantum Life Science Sensing": 0.7009249329566956, "Quantum sensing Detection": 0.6925134062767029, "Quantum sensing Metrology": 0.6811052560806274, "Quantum sensing navigation": 0.6662555932998657, "Quantum sensing Position": 0.6561882495880127, "Quantum sensing Timing": 0.6632596254348755, "Quantum sensing": 0.7076753973960876, "Quantum control": 0.6773523092269897 } }, { "id": 7318, "title": "Deciphering the photophysical properties of naphthalimide derivatives using ultrafast spectroscopy", "abstract": "Naphthalimide derivatives composed of donor-acceptor type structures hold significant promise across a wide range of applications. Here, the solvent polarity and viscosity controlled excited-state dyn...", "citations": 10, "author_count": 7, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7325, "doi": "10.1039/d3cp05654f", "umap_coordinates": { "x": 392.3581237792969, "y": 135.99514770507812, "z": 204.68661499023438 }, "tsne_coordinates": { "x": 3.094904899597168, "y": 3.6653530597686768, "z": -3.0003771781921387 }, "pca_coordinates": { "x": -3.0534005165100098, "y": -0.9228508472442627, "z": -0.5170669555664062 }, "axis_scores": { "Quantum imaging": 0.722069501876831, "Quantum Life Science Sensing": 0.7250819802284241, "Quantum sensing Detection": 0.7007237076759338, "Quantum sensing Metrology": 0.6731461882591248, "Quantum sensing navigation": 0.6889028549194336, "Quantum sensing Position": 0.6734035015106201, "Quantum sensing Timing": 0.6453858613967896, "Quantum sensing": 0.7127560377120972, "Quantum control": 0.6760808825492859 } }, { "id": 7319, "title": "Photophysiological response of Symbiodiniaceae single cells to temperature stress", "abstract": "Photosynthetic dinoflagellates in the family Symbiodiniaceae engage in symbiosis with scleractinian corals. As coral 'bleaching' is partly governed by the thermal sensitivity of different Symbiodiniac...", "citations": 13, "author_count": 8, "categories": [ "Environmental Sciences & Ecology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7326, "doi": "10.1038/s41396-022-01243-6", "umap_coordinates": { "x": 394.0300598144531, "y": 136.21441650390625, "z": 203.8636932373047 }, "tsne_coordinates": { "x": 15.627740859985352, "y": 27.443845748901367, "z": 7.912068843841553 }, "pca_coordinates": { "x": -2.4904122352600098, "y": -0.8529865741729736, "z": -1.1676654815673828 }, "axis_scores": { "Quantum imaging": 0.6733779907226562, "Quantum Life Science Sensing": 0.7418201565742493, "Quantum sensing Detection": 0.6899284720420837, "Quantum sensing Metrology": 0.6864796280860901, "Quantum sensing navigation": 0.65589439868927, "Quantum sensing Position": 0.6826168298721313, "Quantum sensing Timing": 0.6868610382080078, "Quantum sensing": 0.6993532776832581, "Quantum control": 0.6698042750358582 } }, { "id": 7320, "title": "Luminescent film: Biofouling investigation of tetraphenylethylene blended polyethersulfone ultrafiltration membrane", "abstract": "Despite the huge contribution of membrane-based brine and wastewater purification systems in today's life, biofouling still affects sustainability of membrane engineering. Aimed at reducing membrane m...", "citations": 33, "author_count": 10, "categories": [ "Environmental Sciences & Ecology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7327, "doi": "10.1016/j.chemosphere.2020.128871", "umap_coordinates": { "x": 393.427734375, "y": 134.9792022705078, "z": 204.39434814453125 }, "tsne_coordinates": { "x": 15.978660583496094, "y": 20.879201889038086, "z": 8.299236297607422 }, "pca_coordinates": { "x": -4.559236526489258, "y": -0.8310120105743408, "z": -1.3348212242126465 }, "axis_scores": { "Quantum imaging": 0.6943919658660889, "Quantum Life Science Sensing": 0.7601966261863708, "Quantum sensing Detection": 0.6982176899909973, "Quantum sensing Metrology": 0.6947900652885437, "Quantum sensing navigation": 0.6829056143760681, "Quantum sensing Position": 0.6804937720298767, "Quantum sensing Timing": 0.6493760347366333, "Quantum sensing": 0.7051241993904114, "Quantum control": 0.6652688384056091 } }, { "id": 7321, "title": "Anti-Kasha's Rule Emissive Switching Induced by Intermolecular H-Bonding", "abstract": "The exploration of emission pathways from high-excited states in organic luminogens has recently become prosperous owing to improved possibilities to study so-called anti-Kasha's rule emission with th...", "citations": 83, "author_count": 7, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7328, "doi": "10.1021/acs.chemmater.8b03699", "umap_coordinates": { "x": 392.21343994140625, "y": 136.35475158691406, "z": 206.08737182617188 }, "tsne_coordinates": { "x": -12.060040473937988, "y": -4.952629566192627, "z": -3.2146239280700684 }, "pca_coordinates": { "x": 0.5158240795135498, "y": -0.17618989944458008, "z": -3.407644748687744 }, "axis_scores": { "Quantum imaging": 0.6738829016685486, "Quantum Life Science Sensing": 0.6946888566017151, "Quantum sensing Detection": 0.6706783175468445, "Quantum sensing Metrology": 0.6634789109230042, "Quantum sensing navigation": 0.6700178384780884, "Quantum sensing Position": 0.646944522857666, "Quantum sensing Timing": 0.6533466577529907, "Quantum sensing": 0.688558042049408, "Quantum control": 0.6746125817298889 } }, { "id": 7322, "title": "Energy-Cascaded Upconversion in an Organic Dye-Sensitized Core/Shell Fluoride Nanocrystal", "abstract": "Lanthanide-doped upconversion nanoparticles hold promises for bioimaging, solar cells, and volumetric displays. However, their emission brightness and excitation wavelength range are limited by the we...", "citations": 387, "author_count": 13, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7329, "doi": "10.1021/acs.nanolett.5b02830", "umap_coordinates": { "x": 391.9970397949219, "y": 134.71824645996094, "z": 206.13369750976562 }, "tsne_coordinates": { "x": 17.25185775756836, "y": -17.69370460510254, "z": -15.459149360656738 }, "pca_coordinates": { "x": -1.5369200706481934, "y": -4.182439804077148, "z": -0.4645008444786072 }, "axis_scores": { "Quantum imaging": 0.7122105360031128, "Quantum Life Science Sensing": 0.7126002311706543, "Quantum sensing Detection": 0.7116181254386902, "Quantum sensing Metrology": 0.6685563325881958, "Quantum sensing navigation": 0.6688072085380554, "Quantum sensing Position": 0.6534383296966553, "Quantum sensing Timing": 0.6431233286857605, "Quantum sensing": 0.7089398503303528, "Quantum control": 0.6752097606658936 } }, { "id": 7323, "title": "Metal-insulator transition and superconductivity in boron-doped diamond", "abstract": "We report on a detailed analysis of the transport properties and superconducting critical temperatures of boron-doped diamond films grown along the {100} direction. The system presents a metal-insulat...", "citations": 180, "author_count": 14, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7330, "doi": "10.1103/PhysRevB.75.165313", "umap_coordinates": { "x": 393.9698486328125, "y": 135.79257202148438, "z": 209.4299774169922 }, "tsne_coordinates": { "x": -3.0473368167877197, "y": -27.40536880493164, "z": 11.995248794555664 }, "pca_coordinates": { "x": 5.717292308807373, "y": -2.787421226501465, "z": -1.1791541576385498 }, "axis_scores": { "Quantum imaging": 0.682929277420044, "Quantum Life Science Sensing": 0.701209545135498, "Quantum sensing Detection": 0.7026408910751343, "Quantum sensing Metrology": 0.6873420476913452, "Quantum sensing navigation": 0.6995035409927368, "Quantum sensing Position": 0.6703813672065735, "Quantum sensing Timing": 0.6685561537742615, "Quantum sensing": 0.703771710395813, "Quantum control": 0.6763454675674438 } }, { "id": 7324, "title": "Apoflavodoxin (un)folding followed at the residue level by NMR", "abstract": "The denaturant-induced (un) folding of apoflavodoxin from Azotobacter vinelandii has been followed at the residue level by NMR spectroscopy. NH groups of 21 residues of the protein could be followed i...", "citations": 43, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7331, "doi": null, "umap_coordinates": { "x": 391.91448974609375, "y": 139.40652465820312, "z": 209.4023895263672 }, "tsne_coordinates": { "x": -3.573566436767578, "y": 41.27146530151367, "z": 1.9744600057601929 }, "pca_coordinates": { "x": -1.276620864868164, "y": 3.2415316104888916, "z": -4.281218528747559 }, "axis_scores": { "Quantum imaging": 0.7340392470359802, "Quantum Life Science Sensing": 0.7682971954345703, "Quantum sensing Detection": 0.7254567742347717, "Quantum sensing Metrology": 0.7207958698272705, "Quantum sensing navigation": 0.7307521104812622, "Quantum sensing Position": 0.6994063258171082, "Quantum sensing Timing": 0.6828212738037109, "Quantum sensing": 0.7345741987228394, "Quantum control": 0.7378445267677307 } }, { "id": 7325, "title": "Time-Resolved Optical Response of the Dicke's Model via the Nonequilibrium Green's Function Approach", "abstract": "Due to their conceptual appeal and computational convenience, two-level systems (TLSs) and generalizations are used to investigate nonlinear behavior in quantum optics and assess the applicability of ...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7332, "doi": "10.1002/pssb.202300576", "umap_coordinates": { "x": 394.0058898925781, "y": 135.906982421875, "z": 205.97972106933594 }, "tsne_coordinates": { "x": -15.061783790588379, "y": 5.978952407836914, "z": 5.2252984046936035 }, "pca_coordinates": { "x": -0.2392737865447998, "y": 1.0992565155029297, "z": -1.994997501373291 }, "axis_scores": { "Quantum imaging": 0.6904915571212769, "Quantum Life Science Sensing": 0.7317750453948975, "Quantum sensing Detection": 0.6957250833511353, "Quantum sensing Metrology": 0.6844772100448608, "Quantum sensing navigation": 0.716962456703186, "Quantum sensing Position": 0.6933079957962036, "Quantum sensing Timing": 0.6977224946022034, "Quantum sensing": 0.7046799063682556, "Quantum control": 0.6926974058151245 } }, { "id": 7326, "title": "Probing the Multiexcitonic Dynamics in CsPbI3 Nanocrystals across the Temperature-Induced Reversible Phase Transitions", "abstract": "CsPbI3 nanocrystals (CPI NCs) have become a trending research topic due to their impressive potential in functional optoelectronic devices and optical gain applications. Their optical responses are go...", "citations": 4, "author_count": 11, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7333, "doi": "10.1002/aenm.202301097", "umap_coordinates": { "x": 392.0389404296875, "y": 135.1306610107422, "z": 206.5643768310547 }, "tsne_coordinates": { "x": 16.716140747070312, "y": -5.6746602058410645, "z": 14.367547035217285 }, "pca_coordinates": { "x": -0.698074460029602, "y": -2.748833656311035, "z": -0.9619460701942444 }, "axis_scores": { "Quantum imaging": 0.7125217914581299, "Quantum Life Science Sensing": 0.7174060344696045, "Quantum sensing Detection": 0.7046471834182739, "Quantum sensing Metrology": 0.6990262269973755, "Quantum sensing navigation": 0.6982884407043457, "Quantum sensing Position": 0.6817734837532043, "Quantum sensing Timing": 0.7088090777397156, "Quantum sensing": 0.7098332643508911, "Quantum control": 0.6911724805831909 } }, { "id": 7327, "title": "Carbon defect qubit in two-dimensional WS2", "abstract": "Identifying and fabricating defect qubits in two-dimensional semiconductors are of great interest in exploring candidates for quantum information and sensing applications. A milestone has been recentl...", "citations": 45, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7334, "doi": "10.1038/s41467-022-28876-7", "umap_coordinates": { "x": 392.9009094238281, "y": 135.7039031982422, "z": 207.3529052734375 }, "tsne_coordinates": { "x": 9.766916275024414, "y": -8.21259593963623, "z": 10.105271339416504 }, "pca_coordinates": { "x": 0.5361490249633789, "y": -2.0466246604919434, "z": 0.04468899965286255 }, "axis_scores": { "Quantum imaging": 0.7328769564628601, "Quantum Life Science Sensing": 0.7363824844360352, "Quantum sensing Detection": 0.7406345009803772, "Quantum sensing Metrology": 0.7234441637992859, "Quantum sensing navigation": 0.7437403202056885, "Quantum sensing Position": 0.7301480770111084, "Quantum sensing Timing": 0.7260274291038513, "Quantum sensing": 0.7505351305007935, "Quantum control": 0.7259296178817749 } }, { "id": 7328, "title": "State with spontaneously broken time-reversal symmetry above the superconducting phase transition", "abstract": "The most well-known example of an ordered quantum state-superconductivity-is caused by the formation and condensation of pairs of electrons. Fundamentally, what distinguishes a superconducting state f...", "citations": 75, "author_count": 23, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7335, "doi": "10.1038/s41567-021-01350-9", "umap_coordinates": { "x": 393.3658447265625, "y": 136.025146484375, "z": 207.51995849609375 }, "tsne_coordinates": { "x": 5.532591342926025, "y": -12.433355331420898, "z": 12.675516128540039 }, "pca_coordinates": { "x": 2.5615687370300293, "y": 0.6254403591156006, "z": -0.8194568753242493 }, "axis_scores": { "Quantum imaging": 0.6435731053352356, "Quantum Life Science Sensing": 0.677156925201416, "Quantum sensing Detection": 0.657027542591095, "Quantum sensing Metrology": 0.6611823439598083, "Quantum sensing navigation": 0.6638248562812805, "Quantum sensing Position": 0.6543171405792236, "Quantum sensing Timing": 0.6868577003479004, "Quantum sensing": 0.6587678790092468, "Quantum control": 0.6386739611625671 } }, { "id": 7329, "title": "Carbon Dots for Photocatalytic Degradation of Aqueous Pollutants: Recent Advancements", "abstract": "The immense progress of humanity on the technological, domestic, and industrial fronts comes at the cost of polluting the planet. Aquatic pollution is particularly dangerous since all life forms are d...", "citations": 157, "author_count": 4, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7336, "doi": "10.1002/adom.202100532", "umap_coordinates": { "x": 392.60284423828125, "y": 133.921142578125, "z": 204.841552734375 }, "tsne_coordinates": { "x": 19.774444580078125, "y": 15.185133934020996, "z": -6.713143348693848 }, "pca_coordinates": { "x": -4.895700454711914, "y": -2.526815414428711, "z": -1.8924567699432373 }, "axis_scores": { "Quantum imaging": 0.6924892663955688, "Quantum Life Science Sensing": 0.7294920086860657, "Quantum sensing Detection": 0.7030346989631653, "Quantum sensing Metrology": 0.6966009736061096, "Quantum sensing navigation": 0.6861295104026794, "Quantum sensing Position": 0.6692625284194946, "Quantum sensing Timing": 0.652832567691803, "Quantum sensing": 0.7076482772827148, "Quantum control": 0.6963512301445007 } }, { "id": 7330, "title": "Selective Dual-Channel Imaging on Cyanostyryl-Modified Azulene Systems with Unimolecularly Tunable Visible-Near Infrared Luminescence", "abstract": "Although organic light-emitting molecules have received a growing attention and applicability in modern bioimaging science, the design and control of complex photoluminescent properties in unimolecula...", "citations": 95, "author_count": 8, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7337, "doi": "10.1002/chem.201700947", "umap_coordinates": { "x": 392.68798828125, "y": 135.22872924804688, "z": 204.62890625 }, "tsne_coordinates": { "x": 11.166337966918945, "y": 10.013351440429688, "z": -18.0197811126709 }, "pca_coordinates": { "x": -3.706106662750244, "y": -1.1952133178710938, "z": 0.8266684412956238 }, "axis_scores": { "Quantum imaging": 0.7499829530715942, "Quantum Life Science Sensing": 0.7215283513069153, "Quantum sensing Detection": 0.7290599346160889, "Quantum sensing Metrology": 0.7039904594421387, "Quantum sensing navigation": 0.7127720713615417, "Quantum sensing Position": 0.6602439284324646, "Quantum sensing Timing": 0.6750919222831726, "Quantum sensing": 0.7323987483978271, "Quantum control": 0.7103082537651062 } }, { "id": 7331, "title": "Upper limits for mass and radius of objects around Proxima Cen from SPHERE/VLT", "abstract": "The recent discovery of an earth-like planet around Proxima Centauri has drawn much attention to this star and its environment. We performed a series of observations of Proxima Centauri using Spectro-...", "citations": 15, "author_count": 40, "categories": [ "Astronomy & Astrophysics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7338, "doi": "10.1093/mnrasl/slw241", "umap_coordinates": { "x": 396.0830078125, "y": 135.8121337890625, "z": 205.56788635253906 }, "tsne_coordinates": { "x": -30.124011993408203, "y": 28.186412811279297, "z": 7.8994269371032715 }, "pca_coordinates": { "x": -1.2973557710647583, "y": 3.5698752403259277, "z": -0.6900371313095093 }, "axis_scores": { "Quantum imaging": 0.6042540669441223, "Quantum Life Science Sensing": 0.667263388633728, "Quantum sensing Detection": 0.6329413652420044, "Quantum sensing Metrology": 0.6515753269195557, "Quantum sensing navigation": 0.6489495038986206, "Quantum sensing Position": 0.6718940734863281, "Quantum sensing Timing": 0.6131578683853149, "Quantum sensing": 0.6362088918685913, "Quantum control": 0.5992066264152527 } }, { "id": 7332, "title": "Towards new Grangier type experiments", "abstract": "The experiment on coincidence detection which was done by Grangier in 1986 [18] played a crucial role in rejection of (semi-) classical field models in favour of quantum mechanics (QM). QM predicts th...", "citations": 9, "author_count": 2, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7339, "doi": "10.1016/j.aop.2012.04.011", "umap_coordinates": { "x": 394.7359924316406, "y": 135.84503173828125, "z": 205.3092041015625 }, "tsne_coordinates": { "x": -25.504413604736328, "y": 15.549480438232422, "z": 7.712406635284424 }, "pca_coordinates": { "x": -1.9918709993362427, "y": 3.7044901847839355, "z": -1.0738393068313599 }, "axis_scores": { "Quantum imaging": 0.6587685346603394, "Quantum Life Science Sensing": 0.6980642676353455, "Quantum sensing Detection": 0.6652539968490601, "Quantum sensing Metrology": 0.6481338143348694, "Quantum sensing navigation": 0.6834694147109985, "Quantum sensing Position": 0.6623498797416687, "Quantum sensing Timing": 0.6669553518295288, "Quantum sensing": 0.6788734793663025, "Quantum control": 0.6718947291374207 } }, { "id": 7333, "title": "Temporal changes in concentration, composition and size distribution of the colloidal phase in Lake Risten, Sweden", "abstract": "The concentration and size distribution of colloidal matter (< 1.2 mu m) at different depths in the oligotrophic Lake Risten, Sweden, as well as in its main tributary were studied with light scatterin...", "citations": 2, "author_count": 6, "categories": [ "Environmental Sciences & Ecology" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7340, "doi": "10.1016/0048-9697(96)05161-3", "umap_coordinates": { "x": 393.5578308105469, "y": 134.96026611328125, "z": 204.97402954101562 }, "tsne_coordinates": { "x": 8.494476318359375, "y": 21.315773010253906, "z": 12.361879348754883 }, "pca_coordinates": { "x": -2.4438884258270264, "y": 0.5830644369125366, "z": -2.396949529647827 }, "axis_scores": { "Quantum imaging": 0.659558117389679, "Quantum Life Science Sensing": 0.6990558505058289, "Quantum sensing Detection": 0.6578112840652466, "Quantum sensing Metrology": 0.6589482426643372, "Quantum sensing navigation": 0.6596055626869202, "Quantum sensing Position": 0.6877158880233765, "Quantum sensing Timing": 0.6629788875579834, "Quantum sensing": 0.6701317429542542, "Quantum control": 0.6516194939613342 } }, { "id": 7334, "title": "CONTINUOUSLY TUNABLE SILICON PHOTONIC MEMS 2 x 2 POWER COUPLER", "abstract": "The integration of MEMS transducers in photonic integrated circuits provides opportunities for high efficiency photonic modulation and dynamic routing on-chip. We here present an electrostatically act...", "citations": 3, "author_count": 8, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7341, "doi": "10.1109/TRANSDUCERS50396.2021.9495551", "umap_coordinates": { "x": 394.47607421875, "y": 133.95523071289062, "z": 206.33078002929688 }, "tsne_coordinates": { "x": 4.805070400238037, "y": 3.4317455291748047, "z": -35.08307647705078 }, "pca_coordinates": { "x": -1.2757604122161865, "y": -0.5615921020507812, "z": 1.9204397201538086 }, "axis_scores": { "Quantum imaging": 0.6844882369041443, "Quantum Life Science Sensing": 0.7161363959312439, "Quantum sensing Detection": 0.7108014822006226, "Quantum sensing Metrology": 0.7106400728225708, "Quantum sensing navigation": 0.6924717426300049, "Quantum sensing Position": 0.7066934108734131, "Quantum sensing Timing": 0.709648847579956, "Quantum sensing": 0.7222745418548584, "Quantum control": 0.7017098069190979 } }, { "id": 7335, "title": "Measurement of breast-tissue x-ray attenuation by spectral mammography: solid lesions", "abstract": "Knowledge of x-ray attenuation is essential for developing and evaluating x-ray imaging technologies. For instance, techniques to distinguish between cysts and solid tumours at mammography screening w...", "citations": 24, "author_count": 9, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7342, "doi": "10.1088/0031-9155/61/7/2595", "umap_coordinates": { "x": 395.74322509765625, "y": 133.01072692871094, "z": 205.59181213378906 }, "tsne_coordinates": { "x": -7.84909200668335, "y": 22.37314224243164, "z": -31.82467269897461 }, "pca_coordinates": { "x": -1.3808872699737549, "y": 3.0437614917755127, "z": 3.5871853828430176 }, "axis_scores": { "Quantum imaging": 0.6817773580551147, "Quantum Life Science Sensing": 0.694695770740509, "Quantum sensing Detection": 0.6845178008079529, "Quantum sensing Metrology": 0.6857367753982544, "Quantum sensing navigation": 0.6530245542526245, "Quantum sensing Position": 0.6660130620002747, "Quantum sensing Timing": 0.6370913982391357, "Quantum sensing": 0.6834272742271423, "Quantum control": 0.600231409072876 } }, { "id": 7336, "title": "Phase diagram of vortices in double-layer quantum Hall systems", "abstract": "We consider the finite-temperature phase diagram of a classical effective model of charged collective vortex excitations in incompressible states with spontaneous interlayer coherence in double layer ...", "citations": 6, "author_count": 4, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7343, "doi": "10.1103/PhysRevB.53.R7614", "umap_coordinates": { "x": 394.3283386230469, "y": 136.48989868164062, "z": 209.36276245117188 }, "tsne_coordinates": { "x": -10.032657623291016, "y": -30.97755241394043, "z": 12.981782913208008 }, "pca_coordinates": { "x": 5.619826316833496, "y": -1.2024798393249512, "z": -2.3865246772766113 }, "axis_scores": { "Quantum imaging": 0.7163389325141907, "Quantum Life Science Sensing": 0.7283783555030823, "Quantum sensing Detection": 0.7222261428833008, "Quantum sensing Metrology": 0.7048529982566833, "Quantum sensing navigation": 0.7360227704048157, "Quantum sensing Position": 0.7054689526557922, "Quantum sensing Timing": 0.6992747187614441, "Quantum sensing": 0.7280789613723755, "Quantum control": 0.717083215713501 } }, { "id": 7337, "title": "Sub-30 nm 2D Perovskites Patterns via Block Copolymer Guided Self-Assembly for Color Conversion Optical Polarizer", "abstract": "Despite the remarkable advances made in the development of 2D perovskites suitable for various high-performance devices, the development of sub-30 nm nanopatterns of 2D perovskites with anisotropic ph...", "citations": 5, "author_count": 15, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7344, "doi": "10.1002/smll.202300568", "umap_coordinates": { "x": 393.0071105957031, "y": 133.86534118652344, "z": 205.73590087890625 }, "tsne_coordinates": { "x": 28.560317993164062, "y": -0.16188159584999084, "z": -22.008275985717773 }, "pca_coordinates": { "x": -2.978501558303833, "y": -2.0312914848327637, "z": -0.23116153478622437 }, "axis_scores": { "Quantum imaging": 0.6909573078155518, "Quantum Life Science Sensing": 0.6884226202964783, "Quantum sensing Detection": 0.6671631336212158, "Quantum sensing Metrology": 0.6870351433753967, "Quantum sensing navigation": 0.6839848160743713, "Quantum sensing Position": 0.669326901435852, "Quantum sensing Timing": 0.6498790383338928, "Quantum sensing": 0.6815879940986633, "Quantum control": 0.6660022139549255 } }, { "id": 7338, "title": "The triple-store experiment: a first simultaneous test of classical and quantum probabilities in choice over menus", "abstract": "Recently quantum probability theory started to be actively used in studies of human decision-making, in particular for the resolution of paradoxes (such as the Allais, Ellsberg, and Machina paradoxes)...", "citations": 3, "author_count": 6, "categories": [ "Business & Economics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7345, "doi": "10.1007/s11238-021-09823-2", "umap_coordinates": { "x": 395.5820007324219, "y": 136.5034637451172, "z": 205.9732666015625 }, "tsne_coordinates": { "x": -31.564571380615234, "y": 6.097397804260254, "z": 6.763742923736572 }, "pca_coordinates": { "x": -0.17392051219940186, "y": 2.8854832649230957, "z": 0.5137202143669128 }, "axis_scores": { "Quantum imaging": 0.6997205018997192, "Quantum Life Science Sensing": 0.7084102034568787, "Quantum sensing Detection": 0.7245938181877136, "Quantum sensing Metrology": 0.7045518755912781, "Quantum sensing navigation": 0.7252916693687439, "Quantum sensing Position": 0.7120069265365601, "Quantum sensing Timing": 0.7072527408599854, "Quantum sensing": 0.7295581102371216, "Quantum control": 0.6980088353157043 } }, { "id": 7339, "title": "Wideband Double-Polarized Array of Cold-Electron Bolometers for OLIMPO Balloon Telescope", "abstract": "In this article, we propose a novel type of a wideband 2-D array of cold-electron bolometers (CEBs) sensitive to both polarizations of the incoming optical signal. This array was developed for osserva...", "citations": 5, "author_count": 4, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7346, "doi": "10.1109/TAP.2020.3026874", "umap_coordinates": { "x": 394.9786682128906, "y": 133.91795349121094, "z": 206.63790893554688 }, "tsne_coordinates": { "x": -10.551918983459473, "y": -5.838490962982178, "z": -37.96564483642578 }, "pca_coordinates": { "x": -1.6438711881637573, "y": -0.39932894706726074, "z": 1.883842945098877 }, "axis_scores": { "Quantum imaging": 0.6937457919120789, "Quantum Life Science Sensing": 0.7084131240844727, "Quantum sensing Detection": 0.6795769333839417, "Quantum sensing Metrology": 0.680644154548645, "Quantum sensing navigation": 0.6909967064857483, "Quantum sensing Position": 0.6696112155914307, "Quantum sensing Timing": 0.6850542426109314, "Quantum sensing": 0.6882213950157166, "Quantum control": 0.6583362817764282 } }, { "id": 7340, "title": "How to detect a dwarf: in vivo imaging of nanoparticles in the lung", "abstract": "Nanotechnology is a rapidly developing field in science and industry. The exposure to nanoparticles (NPs) will steadily grow in the future and there is thus an urgent need to study potential impacts o...", "citations": 22, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7347, "doi": "10.1016/j.nano.2011.02.010", "umap_coordinates": { "x": 394.01715087890625, "y": 133.80360412597656, "z": 204.82460021972656 }, "tsne_coordinates": { "x": 14.936759948730469, "y": 23.999608993530273, "z": -4.053280830383301 }, "pca_coordinates": { "x": -4.583776950836182, "y": -0.29384636878967285, "z": 0.3331391215324402 }, "axis_scores": { "Quantum imaging": 0.7453713417053223, "Quantum Life Science Sensing": 0.7438247799873352, "Quantum sensing Detection": 0.7219783663749695, "Quantum sensing Metrology": 0.7135506868362427, "Quantum sensing navigation": 0.7079092860221863, "Quantum sensing Position": 0.7127302289009094, "Quantum sensing Timing": 0.6806307435035706, "Quantum sensing": 0.7271889448165894, "Quantum control": 0.679948627948761 } }, { "id": 7341, "title": "Nanoparticle analysis and characterization methodologies in environmental risk assessment of engineered nanoparticles", "abstract": "Environmental risk assessments of engineered nanoparticles require thorough characterization of nanoparticles and their aggregates. Furthermore, quantitative analytical methods are required to determi...", "citations": 574, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7348, "doi": "10.1007/s10646-008-0225-x", "umap_coordinates": { "x": 393.66705322265625, "y": 134.45748901367188, "z": 204.66714477539062 }, "tsne_coordinates": { "x": 17.476655960083008, "y": 21.752151489257812, "z": 1.4037938117980957 }, "pca_coordinates": { "x": -4.861726760864258, "y": -0.38693833351135254, "z": -0.6368017196655273 }, "axis_scores": { "Quantum imaging": 0.689067006111145, "Quantum Life Science Sensing": 0.7374207377433777, "Quantum sensing Detection": 0.691728949546814, "Quantum sensing Metrology": 0.6898176670074463, "Quantum sensing navigation": 0.6903656721115112, "Quantum sensing Position": 0.6673747301101685, "Quantum sensing Timing": 0.64287930727005, "Quantum sensing": 0.695650041103363, "Quantum control": 0.6744893193244934 } }, { "id": 7342, "title": "LIGHT-PULSES TO PHOTOMULTIPLIER TUBES FROM EXTENDED SCINTILLATORS", "abstract": "Light pulses seen by photomultiplier tubes (PMTs) after propagation within long scintillator slats or rods, or large disc-shaped scintillators are investigated and compared with those from point-like ...", "citations": 7, "author_count": 13, "categories": [ "Instruments & Instrumentation" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7349, "doi": "10.1016/0168-9002(95)00292-8", "umap_coordinates": { "x": 393.8916931152344, "y": 135.42027282714844, "z": 205.49252319335938 }, "tsne_coordinates": { "x": -1.437042474746704, "y": 1.6286109685897827, "z": -19.192792892456055 }, "pca_coordinates": { "x": -1.8845090866088867, "y": 1.350644588470459, "z": 1.6554460525512695 }, "axis_scores": { "Quantum imaging": 0.684746503829956, "Quantum Life Science Sensing": 0.7065503597259521, "Quantum sensing Detection": 0.6754505634307861, "Quantum sensing Metrology": 0.671488881111145, "Quantum sensing navigation": 0.6665377616882324, "Quantum sensing Position": 0.6718591451644897, "Quantum sensing Timing": 0.6760152578353882, "Quantum sensing": 0.6827266812324524, "Quantum control": 0.6379189491271973 } }, { "id": 7343, "title": "Photon Upconversion Kinetic Nanosystems and Their Optical Response", "abstract": "Lanthanide-doped photon upconversion nanoparticles (UCNPs) are capable of converting low-intensity near-infrared light to UV and visible emission through the synergistic effects of light excitation an...", "citations": 50, "author_count": 7, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7350, "doi": "10.1002/lpor.201700144", "umap_coordinates": { "x": 393.5311584472656, "y": 134.57847595214844, "z": 205.9661865234375 }, "tsne_coordinates": { "x": 10.61165714263916, "y": 8.435844421386719, "z": 0.8454733490943909 }, "pca_coordinates": { "x": -1.6483746767044067, "y": -0.7207183837890625, "z": 0.430062472820282 }, "axis_scores": { "Quantum imaging": 0.7567898631095886, "Quantum Life Science Sensing": 0.7598085999488831, "Quantum sensing Detection": 0.7382698655128479, "Quantum sensing Metrology": 0.7256123423576355, "Quantum sensing navigation": 0.7199675440788269, "Quantum sensing Position": 0.7111335396766663, "Quantum sensing Timing": 0.7190644145011902, "Quantum sensing": 0.7493663430213928, "Quantum control": 0.7110950350761414 } }, { "id": 7344, "title": "Growth responses of 15 Salix genotypes to temporary water stress are different from the responses to permanent water shortage", "abstract": "Hybrids of willow (Salix spp.) are today grown as biomass crops for energy in several cool-temperate regions including Sweden. These trees have great growth potential also under warmer climates, but m...", "citations": 26, "author_count": 4, "categories": [ "Forestry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7351, "doi": "10.1007/s00468-010-0454-5", "umap_coordinates": { "x": 394.2348937988281, "y": 136.14097595214844, "z": 203.4771728515625 }, "tsne_coordinates": { "x": 12.797032356262207, "y": 29.906692504882812, "z": 10.729959487915039 }, "pca_coordinates": { "x": -1.614248275756836, "y": 2.7032246589660645, "z": -2.1274399757385254 }, "axis_scores": { "Quantum imaging": 0.6209702491760254, "Quantum Life Science Sensing": 0.6756614446640015, "Quantum sensing Detection": 0.6307382583618164, "Quantum sensing Metrology": 0.6322662234306335, "Quantum sensing navigation": 0.6519228219985962, "Quantum sensing Position": 0.6488306522369385, "Quantum sensing Timing": 0.6408448219299316, "Quantum sensing": 0.6527624726295471, "Quantum control": 0.6396269798278809 } }, { "id": 7345, "title": "Aqueous Solution Behavior of Anionic Fluorene-co-thiophene-Based Conjugated Polyelectrolytes", "abstract": "Two anionic fluorene-thiophene alternating copolymers, poly[9,9-bis(4-sulfonylbutoxyphenyl)fluorene-2,7-diyl-2,5-thienylene] (PBS-PFT) and poly [9,9-bis(4-sulfonylbutoxyphenyl)fluorene-2,7-diyl-2,2'-b...", "citations": 43, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7352, "doi": "10.1021/am800267n", "umap_coordinates": { "x": 392.54290771484375, "y": 135.834716796875, "z": 205.30699157714844 }, "tsne_coordinates": { "x": 0.031674209982156754, "y": 0.9020301103591919, "z": -16.793344497680664 }, "pca_coordinates": { "x": -2.2844977378845215, "y": -2.061401844024658, "z": -2.7850773334503174 }, "axis_scores": { "Quantum imaging": 0.6649503707885742, "Quantum Life Science Sensing": 0.7083714604377747, "Quantum sensing Detection": 0.654233992099762, "Quantum sensing Metrology": 0.6320067644119263, "Quantum sensing navigation": 0.6622864603996277, "Quantum sensing Position": 0.6600466966629028, "Quantum sensing Timing": 0.6510084867477417, "Quantum sensing": 0.6680376529693604, "Quantum control": 0.6562174558639526 } }, { "id": 7346, "title": "Effect of lipid headgroup composition on the interaction between melittin and lipid bilayers", "abstract": "The effect of the lipid polar headgroup on melittin-phospholipid interaction was investigated by cryo-TEM, fluorescence spectroscopy, ellipsometry, circular dichroism, electrophoresis and photon corre...", "citations": 69, "author_count": 6, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7353, "doi": "10.1016/j.jcis.2007.02.070", "umap_coordinates": { "x": 393.2780456542969, "y": 134.78256225585938, "z": 204.20257568359375 }, "tsne_coordinates": { "x": 22.624557495117188, "y": 22.365346908569336, "z": 7.929699420928955 }, "pca_coordinates": { "x": -2.573603630065918, "y": 1.2755992412567139, "z": -4.038663864135742 }, "axis_scores": { "Quantum imaging": 0.6779234409332275, "Quantum Life Science Sensing": 0.6874338388442993, "Quantum sensing Detection": 0.6506263017654419, "Quantum sensing Metrology": 0.6441344022750854, "Quantum sensing navigation": 0.6413826942443848, "Quantum sensing Position": 0.652240514755249, "Quantum sensing Timing": 0.6365647315979004, "Quantum sensing": 0.6675765514373779, "Quantum control": 0.6876787543296814 } }, { "id": 7347, "title": "Quantum Heat Fluctuations of Single-Particle Sources", "abstract": "Optimal single electron sources emit regular streams of particles, displaying no low-frequency charge current noise. Because of the wave packet nature of the emitted particles, the energy is, however,...", "citations": 48, "author_count": 5, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7354, "doi": "10.1103/PhysRevLett.110.126602", "umap_coordinates": { "x": 394.7143249511719, "y": 134.22047424316406, "z": 208.38758850097656 }, "tsne_coordinates": { "x": 7.873974800109863, "y": -24.093280792236328, "z": -11.304805755615234 }, "pca_coordinates": { "x": 4.0161943435668945, "y": -1.2426764965057373, "z": 1.2128839492797852 }, "axis_scores": { "Quantum imaging": 0.7171257734298706, "Quantum Life Science Sensing": 0.7461654543876648, "Quantum sensing Detection": 0.7411697506904602, "Quantum sensing Metrology": 0.7228359580039978, "Quantum sensing navigation": 0.7378486394882202, "Quantum sensing Position": 0.7186522483825684, "Quantum sensing Timing": 0.7212349772453308, "Quantum sensing": 0.7546287178993225, "Quantum control": 0.7362073063850403 } }, { "id": 7348, "title": "Evaluating an image restoration pipeline for digital mammography across varied radiation exposures and microcalcification sizes using model observer analysis", "abstract": "In this study, we assess the impact of an image restoration pipeline, designed for digital mammography, on the detectability of microcalcifications of different sizes across varied radiation exposures...", "citations": 1, "author_count": 7, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7355, "doi": "10.1117/12.3026930", "umap_coordinates": { "x": 395.8466796875, "y": 132.6539764404297, "z": 205.5183868408203 }, "tsne_coordinates": { "x": -5.792759418487549, "y": 23.887157440185547, "z": -26.473112106323242 }, "pca_coordinates": { "x": -3.986396312713623, "y": 3.9386017322540283, "z": 3.213834285736084 }, "axis_scores": { "Quantum imaging": 0.6916853785514832, "Quantum Life Science Sensing": 0.664452314376831, "Quantum sensing Detection": 0.6590119004249573, "Quantum sensing Metrology": 0.6582967042922974, "Quantum sensing navigation": 0.6529946327209473, "Quantum sensing Position": 0.6336802244186401, "Quantum sensing Timing": 0.6338995099067688, "Quantum sensing": 0.6640446782112122, "Quantum control": 0.6208789348602295 } }, { "id": 7349, "title": "Causal signal transmission by quantum fields. III: Coherent response of fermions", "abstract": "Structural response properties of fermionic fields are investigated. in the presence of fermions the key technical concept becomes response combination, or R-normal product, of field operators. It gen...", "citations": 12, "author_count": 3, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7356, "doi": "10.1016/j.aop.2008.08.006", "umap_coordinates": { "x": 394.8131408691406, "y": 136.35369873046875, "z": 207.12213134765625 }, "tsne_coordinates": { "x": -18.872329711914062, "y": 10.080557823181152, "z": 8.250404357910156 }, "pca_coordinates": { "x": 1.4730756282806396, "y": 1.3117496967315674, "z": 0.945518434047699 }, "axis_scores": { "Quantum imaging": 0.7813929319381714, "Quantum Life Science Sensing": 0.7447544932365417, "Quantum sensing Detection": 0.7758155465126038, "Quantum sensing Metrology": 0.7411249876022339, "Quantum sensing navigation": 0.7655577063560486, "Quantum sensing Position": 0.7308422327041626, "Quantum sensing Timing": 0.743278980255127, "Quantum sensing": 0.776704728603363, "Quantum control": 0.7726745009422302 } }, { "id": 7350, "title": "Controlled synthesis of highly stable lead-free bismuth halide perovskite nanocrystals: Structures and photophysics", "abstract": "Recently, cesium bismuth halide perovskites have emerged as potential substitutes to their counterparts, cesium lead halide perovskites, owing to their low toxicity. However, the photophysics of cesiu...", "citations": 13, "author_count": 20, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7357, "doi": "10.1007/s40843-022-2299-6", "umap_coordinates": { "x": 391.6080627441406, "y": 133.8626251220703, "z": 205.2492218017578 }, "tsne_coordinates": { "x": 22.25129508972168, "y": -2.2376413345336914, "z": -21.602598190307617 }, "pca_coordinates": { "x": -2.79849910736084, "y": -2.36466646194458, "z": -1.973742961883545 }, "axis_scores": { "Quantum imaging": 0.6892906427383423, "Quantum Life Science Sensing": 0.7300413250923157, "Quantum sensing Detection": 0.6793855428695679, "Quantum sensing Metrology": 0.6815185546875, "Quantum sensing navigation": 0.6785211563110352, "Quantum sensing Position": 0.6616988778114319, "Quantum sensing Timing": 0.6502571105957031, "Quantum sensing": 0.6978163123130798, "Quantum control": 0.7046077251434326 } }, { "id": 7351, "title": "X-ray phase contrast for CO2 microangiography", "abstract": "We demonstrate a laboratory method for imaging small blood vessels using x-ray propagation-based phase-contrast imaging and carbon dioxide (CO2) gas as a contrast agent. The limited radiation dose in ...", "citations": 39, "author_count": 8, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7358, "doi": "10.1088/0031-9155/57/9/2603", "umap_coordinates": { "x": 395.78497314453125, "y": 134.02651977539062, "z": 205.14674377441406 }, "tsne_coordinates": { "x": -10.239015579223633, "y": 29.636308670043945, "z": -19.059343338012695 }, "pca_coordinates": { "x": -2.7389798164367676, "y": 4.264010906219482, "z": 1.1311290264129639 }, "axis_scores": { "Quantum imaging": 0.7221482396125793, "Quantum Life Science Sensing": 0.7093417644500732, "Quantum sensing Detection": 0.6792998313903809, "Quantum sensing Metrology": 0.6791090965270996, "Quantum sensing navigation": 0.6990585923194885, "Quantum sensing Position": 0.6885375380516052, "Quantum sensing Timing": 0.6809511184692383, "Quantum sensing": 0.6924412250518799, "Quantum control": 0.6728442907333374 } }, { "id": 7352, "title": "Effect of glycation on the structure and dynamics of DNA: A critical spectroscopic approach", "abstract": "Glycated DNA is considered to be a pathogenic factor for diabetes mellitus. Here we present a novel and preliminary study on normal and glycated (with fructose and glucose-6-phosphate as reducing suga...", "citations": 8, "author_count": 5, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7359, "doi": "10.1021/jp063206g", "umap_coordinates": { "x": 393.0845642089844, "y": 136.49197387695312, "z": 205.03353881835938 }, "tsne_coordinates": { "x": 11.4832124710083, "y": 16.33308982849121, "z": 5.735774517059326 }, "pca_coordinates": { "x": -0.8322952389717102, "y": 0.8065568208694458, "z": -3.006453514099121 }, "axis_scores": { "Quantum imaging": 0.700326144695282, "Quantum Life Science Sensing": 0.7477587461471558, "Quantum sensing Detection": 0.695920467376709, "Quantum sensing Metrology": 0.6856619715690613, "Quantum sensing navigation": 0.7119054794311523, "Quantum sensing Position": 0.6986772418022156, "Quantum sensing Timing": 0.6740322113037109, "Quantum sensing": 0.7024515867233276, "Quantum control": 0.694570779800415 } }, { "id": 7353, "title": "Composition effect on peptide interaction with lipids and bacteria: Variants of C3a peptide CNY21", "abstract": "The effect of peptide hydrophobicity and charge on peptide interaction with model lipid bilayers was investigated for the C3a-derived peptide CNY21 by fluorescence spectroscopy, circular dichroism, el...", "citations": 56, "author_count": 5, "categories": [ "Biophysics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7360, "doi": "10.1529/biophysj.106.088161", "umap_coordinates": { "x": 393.6245422363281, "y": 135.4352569580078, "z": 204.43365478515625 }, "tsne_coordinates": { "x": 25.977006912231445, "y": 21.07195281982422, "z": 7.117217540740967 }, "pca_coordinates": { "x": -2.1240439414978027, "y": 2.25480318069458, "z": -3.3080530166625977 }, "axis_scores": { "Quantum imaging": 0.6795589327812195, "Quantum Life Science Sensing": 0.7165141105651855, "Quantum sensing Detection": 0.6653448939323425, "Quantum sensing Metrology": 0.6598427295684814, "Quantum sensing navigation": 0.6819337010383606, "Quantum sensing Position": 0.6618918180465698, "Quantum sensing Timing": 0.6492789387702942, "Quantum sensing": 0.6817388534545898, "Quantum control": 0.6982434988021851 } }, { "id": 7354, "title": "STUDY OF FINAL-STATE PHOTONS IN HADRONIC Z0 DECAY AND LIMITS ON NEW PHENOMENA", "abstract": "The differential cross section for final state radiation from primary quarks is obtained from a study of isolated energetic photons produced in the reaction e+ e- --> Z0 --> hadrons + gamma, as measur...", "citations": 26, "author_count": 532, "categories": [ "Physics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7361, "doi": null, "umap_coordinates": { "x": 391.7579650878906, "y": 139.2199249267578, "z": 209.45660400390625 }, "tsne_coordinates": { "x": -6.931433200836182, "y": 37.581729888916016, "z": 2.5191006660461426 }, "pca_coordinates": { "x": -0.8596855401992798, "y": 4.700965404510498, "z": -1.0440342426300049 }, "axis_scores": { "Quantum imaging": 0.7020667791366577, "Quantum Life Science Sensing": 0.7299540638923645, "Quantum sensing Detection": 0.7096307277679443, "Quantum sensing Metrology": 0.6912961006164551, "Quantum sensing navigation": 0.7040662169456482, "Quantum sensing Position": 0.6804713010787964, "Quantum sensing Timing": 0.6747763156890869, "Quantum sensing": 0.7038723230361938, "Quantum control": 0.6926394701004028 } }, { "id": 7355, "title": "Single-photon multiple ionization forming double vacancies in the 2p subshell of argon", "abstract": "Single-photon ionization leading to two vacancies in the 2p subshell of argon is investigated experimentally using the photoelectron time-of-flight magnetic bottle coincidence technique. Three peaks c...", "citations": 12, "author_count": 6, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7362, "doi": "10.1103/PhysRevA.87.043409", "umap_coordinates": { "x": 394.968017578125, "y": 134.99073791503906, "z": 207.8289337158203 }, "tsne_coordinates": { "x": -1.2072092294692993, "y": -9.17840576171875, "z": -1.311728835105896 }, "pca_coordinates": { "x": 1.652632236480713, "y": -2.3081555366516113, "z": 1.3333971500396729 }, "axis_scores": { "Quantum imaging": 0.6900789141654968, "Quantum Life Science Sensing": 0.7286819815635681, "Quantum sensing Detection": 0.7114954590797424, "Quantum sensing Metrology": 0.7074403166770935, "Quantum sensing navigation": 0.6873148679733276, "Quantum sensing Position": 0.6699239015579224, "Quantum sensing Timing": 0.668035626411438, "Quantum sensing": 0.7124337553977966, "Quantum control": 0.649445652961731 } }, { "id": 7356, "title": "ASPECTS OF DENSITY-FUNCTIONAL THEORY IN AB-INITIO QUANTUM-CHEMISTRY - EXTERNAL CORRELATION FOR FREE", "abstract": "The restricted Hartree-Fock method is subject to a first-order perturbation theory regularization of the electron repulsion integrals representation, to mimic the electron-electron correlation hole ef...", "citations": 36, "author_count": 2, "categories": [ "Chemistry" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7363, "doi": "10.1016/0009-2614(95)01013-Y", "umap_coordinates": { "x": 393.9352111816406, "y": 137.28424072265625, "z": 206.6348419189453 }, "tsne_coordinates": { "x": -12.708244323730469, "y": 16.929790496826172, "z": 27.211864471435547 }, "pca_coordinates": { "x": 0.39733386039733887, "y": 1.423445701599121, "z": -2.1194345951080322 }, "axis_scores": { "Quantum imaging": 0.6938209533691406, "Quantum Life Science Sensing": 0.7120323181152344, "Quantum sensing Detection": 0.6748151779174805, "Quantum sensing Metrology": 0.6750788688659668, "Quantum sensing navigation": 0.693074643611908, "Quantum sensing Position": 0.6542124152183533, "Quantum sensing Timing": 0.6436478495597839, "Quantum sensing": 0.6983813643455505, "Quantum control": 0.7037740349769592 } }, { "id": 7357, "title": "Spectral response of pixellated semiconductor X-ray detectors", "abstract": "X-ray imaging with energy resolution can be performed using a detector matrix bonded to a photon counting CMOS readout circuit as the MEDIPIX2 chip [1]. In previous experiments it has been shown that ...", "citations": 7, "author_count": 4, "categories": [ "Instruments & Instrumentation" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7364, "doi": null, "umap_coordinates": { "x": 391.7089538574219, "y": 138.82662963867188, "z": 209.39137268066406 }, "tsne_coordinates": { "x": -1.3191661834716797, "y": 38.63643264770508, "z": -13.354759216308594 }, "pca_coordinates": { "x": -2.58388090133667, "y": 1.6813563108444214, "z": 2.1798818111419678 }, "axis_scores": { "Quantum imaging": 0.7425970435142517, "Quantum Life Science Sensing": 0.7354544997215271, "Quantum sensing Detection": 0.7411985397338867, "Quantum sensing Metrology": 0.731975257396698, "Quantum sensing navigation": 0.7152941226959229, "Quantum sensing Position": 0.7341200709342957, "Quantum sensing Timing": 0.711667537689209, "Quantum sensing": 0.7381333112716675, "Quantum control": 0.6799684166908264 } }, { "id": 7358, "title": "Spectral and dual-energy X-ray imaging for medical applications", "abstract": "Spectral imaging is an umbrella term for energy-resolved X-ray imaging in medicine. The technique makes use of the energy dependence of X-ray attenuation to either increase the contrast-to-noise ratio...", "citations": 76, "author_count": 2, "categories": [ "Instruments & Instrumentation" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7365, "doi": "10.1016/j.nima.2017.07.044", "umap_coordinates": { "x": 394.8968200683594, "y": 132.9711151123047, "z": 205.2297821044922 }, "tsne_coordinates": { "x": -14.09352970123291, "y": 13.419995307922363, "z": -13.980307579040527 }, "pca_coordinates": { "x": -4.6499924659729, "y": 1.5275084972381592, "z": 2.685319185256958 }, "axis_scores": { "Quantum imaging": 0.7578849792480469, "Quantum Life Science Sensing": 0.7389002442359924, "Quantum sensing Detection": 0.7164122462272644, "Quantum sensing Metrology": 0.7112841010093689, "Quantum sensing navigation": 0.6910494565963745, "Quantum sensing Position": 0.686782717704773, "Quantum sensing Timing": 0.6807301640510559, "Quantum sensing": 0.7221229076385498, "Quantum control": 0.6405836939811707 } }, { "id": 7359, "title": "Home-made low-cost dosemeter for photon dose measurements in radiobiological experiments and for education in the field of radiation sciences", "abstract": "Reliable dosimetry systems are crucial for radiobiological experiments either to quantify the biological consequences of ionizing radiation or to reproduce results by other laboratories. Also, they ar...", "citations": 1, "author_count": 7, "categories": [ "Life Sciences & Biomedicine - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7366, "doi": "10.1007/s00411-024-01076-1", "umap_coordinates": { "x": 395.6472473144531, "y": 133.99327087402344, "z": 205.2001190185547 }, "tsne_coordinates": { "x": -4.3013811111450195, "y": 18.840984344482422, "z": -8.612348556518555 }, "pca_coordinates": { "x": -2.8530566692352295, "y": 1.7631597518920898, "z": 2.9856605529785156 }, "axis_scores": { "Quantum imaging": 0.6865912079811096, "Quantum Life Science Sensing": 0.7333947420120239, "Quantum sensing Detection": 0.6751378178596497, "Quantum sensing Metrology": 0.6809263229370117, "Quantum sensing navigation": 0.6872414350509644, "Quantum sensing Position": 0.6685954928398132, "Quantum sensing Timing": 0.6494580507278442, "Quantum sensing": 0.692372739315033, "Quantum control": 0.642680287361145 } }, { "id": 7360, "title": "Characterization of nuclear sources from neutron-neutron, proton-proton and neutron-proton correlation functions", "abstract": "Two-neutron, two-proton and neutron-proton correlation functions have been measured simultaneously for the E/A = 45 MeV Ni-58 + Al-27 reaction. Calculations from a statistical model have been compared...", "citations": 38, "author_count": 29, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7367, "doi": "10.1016/S0375-9474(00)00156-1", "umap_coordinates": { "x": 395.7713317871094, "y": 135.2718048095703, "z": 206.3779296875 }, "tsne_coordinates": { "x": -34.715816497802734, "y": 15.954524993896484, "z": -19.608577728271484 }, "pca_coordinates": { "x": -1.66835618019104, "y": 2.792929172515869, "z": 0.7122271656990051 }, "axis_scores": { "Quantum imaging": 0.7027629613876343, "Quantum Life Science Sensing": 0.7228828072547913, "Quantum sensing Detection": 0.6966152191162109, "Quantum sensing Metrology": 0.6825237274169922, "Quantum sensing navigation": 0.7179839015007019, "Quantum sensing Position": 0.7013190984725952, "Quantum sensing Timing": 0.6794767379760742, "Quantum sensing": 0.7053565979003906, "Quantum control": 0.6618431806564331 } }, { "id": 7361, "title": "Efficacy of annealing and fabrication parameters on photo-response of SiGe in TiO2 matrix", "abstract": "SiGe nanoparticles dispersed in a dielectric matrix exhibit properties different from those of bulk and have shown great potential in devices for application in advanced optoelectronics. Annealing is ...", "citations": 9, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7368, "doi": "10.1088/1361-6528/ab260e", "umap_coordinates": { "x": 393.1645202636719, "y": 133.57936096191406, "z": 206.27444458007812 }, "tsne_coordinates": { "x": 38.09716796875, "y": -1.7945374250411987, "z": 7.016099452972412 }, "pca_coordinates": { "x": -2.284114360809326, "y": -1.4227924346923828, "z": 1.2910208702087402 }, "axis_scores": { "Quantum imaging": 0.697993814945221, "Quantum Life Science Sensing": 0.7156684398651123, "Quantum sensing Detection": 0.6877117156982422, "Quantum sensing Metrology": 0.6977200508117676, "Quantum sensing navigation": 0.6749282479286194, "Quantum sensing Position": 0.6851273775100708, "Quantum sensing Timing": 0.6871974468231201, "Quantum sensing": 0.7061361074447632, "Quantum control": 0.6762426495552063 } }, { "id": 7362, "title": "Microlens array enhanced upconversion luminescence at low excitation irradiance", "abstract": "The dearth of high upconversion luminescence (UCL) intensity at low excitation irradiance hinders the prevalent application of lanthanide-doped upconversion nanoparticles (UCNPs) in many fields rangin...", "citations": 48, "author_count": 7, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7369, "doi": "10.1039/c9nr03105g", "umap_coordinates": { "x": 392.92852783203125, "y": 133.81288146972656, "z": 206.11215209960938 }, "tsne_coordinates": { "x": 20.876846313476562, "y": -16.48931312561035, "z": -23.419330596923828 }, "pca_coordinates": { "x": -2.5380051136016846, "y": -2.334683895111084, "z": 0.8132315278053284 }, "axis_scores": { "Quantum imaging": 0.7035025358200073, "Quantum Life Science Sensing": 0.7173131108283997, "Quantum sensing Detection": 0.6957765221595764, "Quantum sensing Metrology": 0.6923578977584839, "Quantum sensing navigation": 0.6711246371269226, "Quantum sensing Position": 0.6684412956237793, "Quantum sensing Timing": 0.6324675679206848, "Quantum sensing": 0.6973967552185059, "Quantum control": 0.6574918031692505 } }, { "id": 7363, "title": "Polystyrenesulfonate-coated nanoparticles with low cytotoxicity for determination of copper(II) via the luminescence of Tb(III) complexes with new calix[4]arene derivatives", "abstract": "The authors describe new ligands with two 1,3-diketone groups and two heteroaromatic (pyridyl or quinolyl) moieties embedded to the upper and lower rims of dibromo-substituted calix[4]arene scaffold. ...", "citations": 15, "author_count": 14, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7370, "doi": "10.1007/s00604-018-2923-2", "umap_coordinates": { "x": 393.2160339355469, "y": 134.15969848632812, "z": 204.6113739013672 }, "tsne_coordinates": { "x": 8.95583724975586, "y": 22.51038932800293, "z": -8.780699729919434 }, "pca_coordinates": { "x": -4.63240385055542, "y": -1.040658950805664, "z": 1.4896070957183838 }, "axis_scores": { "Quantum imaging": 0.6817455887794495, "Quantum Life Science Sensing": 0.7127712368965149, "Quantum sensing Detection": 0.6970219612121582, "Quantum sensing Metrology": 0.6891082525253296, "Quantum sensing navigation": 0.6823298931121826, "Quantum sensing Position": 0.6827411651611328, "Quantum sensing Timing": 0.6663689613342285, "Quantum sensing": 0.6984161734580994, "Quantum control": 0.6726729273796082 } }, { "id": 7364, "title": "Diffuse Surface Scattering and Quantum Size Effects in the Surface Plasmon Resonances of Low-Carrier-Density Nanocrystals", "abstract": "The detailed understanding of the physical parameters that determine localized surface plasmon resonances (LSPRs) is essential to develop new applications for plasmonics. A relatively new area of rese...", "citations": 18, "author_count": 4, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7371, "doi": "10.1021/acs.jpcc.5b10059", "umap_coordinates": { "x": 392.2674865722656, "y": 134.23251342773438, "z": 206.3955841064453 }, "tsne_coordinates": { "x": 7.094263076782227, "y": -9.51186752319336, "z": -10.61698055267334 }, "pca_coordinates": { "x": -1.605037808418274, "y": -3.5526785850524902, "z": -1.447805643081665 }, "axis_scores": { "Quantum imaging": 0.7135913968086243, "Quantum Life Science Sensing": 0.7241400480270386, "Quantum sensing Detection": 0.7137895226478577, "Quantum sensing Metrology": 0.691012978553772, "Quantum sensing navigation": 0.6925473213195801, "Quantum sensing Position": 0.6816231608390808, "Quantum sensing Timing": 0.6587972640991211, "Quantum sensing": 0.7290470600128174, "Quantum control": 0.7037144303321838 } }, { "id": 7365, "title": "Effect of low-temperature annealing on the electronic- and band-structures of (Ga,Mn) As epitaxial layers", "abstract": "The effect of outdiffusion of Mn interstitials from (Ga,Mn) As epitaxial layers, caused by post-growth low-temperature annealing, on their electronic- and band-structure properties has been investigat...", "citations": 13, "author_count": 8, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7372, "doi": "10.1063/1.4838036", "umap_coordinates": { "x": 392.72607421875, "y": 134.07936096191406, "z": 208.4458770751953 }, "tsne_coordinates": { "x": 30.92984390258789, "y": -25.42001724243164, "z": 1.7731189727783203 }, "pca_coordinates": { "x": 1.3785338401794434, "y": -2.1569743156433105, "z": -0.623835563659668 }, "axis_scores": { "Quantum imaging": 0.6953104138374329, "Quantum Life Science Sensing": 0.7067847847938538, "Quantum sensing Detection": 0.6884279847145081, "Quantum sensing Metrology": 0.6940262317657471, "Quantum sensing navigation": 0.7042536735534668, "Quantum sensing Position": 0.6997183561325073, "Quantum sensing Timing": 0.6799825429916382, "Quantum sensing": 0.7073070406913757, "Quantum control": 0.6669089198112488 } }, { "id": 7366, "title": "Binding geometry and photophysical properties of DNA-threading binuclear ruthenium complexes", "abstract": "The DNA binding conformation and the photophysical properties of the semiflexible binuclear ruthenium complex [mu-bidppz(phen)(4)Ru-2](4+) (2) were studied with optical spectroscopy and compared to th...", "citations": 36, "author_count": 5, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7373, "doi": "10.1021/jp065871v", "umap_coordinates": { "x": 392.43975830078125, "y": 136.3489532470703, "z": 205.0609588623047 }, "tsne_coordinates": { "x": 9.536175727844238, "y": 15.148628234863281, "z": 9.06754207611084 }, "pca_coordinates": { "x": -0.6364784240722656, "y": -0.8052539825439453, "z": -1.1758601665496826 }, "axis_scores": { "Quantum imaging": 0.7070211172103882, "Quantum Life Science Sensing": 0.7085824012756348, "Quantum sensing Detection": 0.6973139047622681, "Quantum sensing Metrology": 0.6808652877807617, "Quantum sensing navigation": 0.7205175757408142, "Quantum sensing Position": 0.7025702595710754, "Quantum sensing Timing": 0.7149864435195923, "Quantum sensing": 0.7048037052154541, "Quantum control": 0.6819580793380737 } }, { "id": 7367, "title": "Density-functional bridge between surfaces and interfaces", "abstract": "Interfaces are brought into foe-us by many materials phenomena, e.g., contacting, materials strength.. and wetting. The class of interfaces includes ultra-high-vacuum surfaces, which provide a meeting...", "citations": 35, "author_count": 19, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7374, "doi": "10.1016/S0039-6028(01)01225-0", "umap_coordinates": { "x": 393.56561279296875, "y": 135.9987335205078, "z": 206.03379821777344 }, "tsne_coordinates": { "x": 11.851540565490723, "y": 17.2950439453125, "z": 22.394775390625 }, "pca_coordinates": { "x": -0.1657419204711914, "y": -0.1041722297668457, "z": -2.017845630645752 }, "axis_scores": { "Quantum imaging": 0.7149690985679626, "Quantum Life Science Sensing": 0.7522701025009155, "Quantum sensing Detection": 0.7023434638977051, "Quantum sensing Metrology": 0.7119618654251099, "Quantum sensing navigation": 0.7151299715042114, "Quantum sensing Position": 0.7064291834831238, "Quantum sensing Timing": 0.6516261696815491, "Quantum sensing": 0.7212629914283752, "Quantum control": 0.6953994631767273 } }, { "id": 7368, "title": "BONE-MINERAL LOSS AFTER COLLES FRACTURE - PLASTER CAST AND EXTERNAL FIXATION EQUIVALENT", "abstract": "The bone mineral content of the radius and ulna was analyzed in 31 postmenopausal women with displaced Colles' fractures. Sixteen fractures were treated with a below-the-elbow plaster cast and 15 with...", "citations": 14, "author_count": 7, "categories": [ "Orthopedics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 7375, "doi": "10.3109/17453679108999246", "umap_coordinates": { "x": 395.33929443359375, "y": 134.7476043701172, "z": 204.2283172607422 }, "tsne_coordinates": { "x": -1.540380835533142, "y": 38.052886962890625, "z": 8.323972702026367 }, "pca_coordinates": { "x": -1.8288902044296265, "y": 5.012700080871582, "z": -1.0941128730773926 }, "axis_scores": { "Quantum imaging": 0.626262903213501, "Quantum Life Science Sensing": 0.6549169421195984, "Quantum sensing Detection": 0.6120096445083618, "Quantum sensing Metrology": 0.6300880312919617, "Quantum sensing navigation": 0.630588710308075, "Quantum sensing Position": 0.6253587007522583, "Quantum sensing Timing": 0.6257949471473694, "Quantum sensing": 0.6261431574821472, "Quantum control": 0.6228183507919312 } }, { "id": 7369, "title": "Correlation-induced non-Abelian quantum holonomies", "abstract": "In the context of two-particle interferometry, we construct a parallel transport condition that is based on the maximization of coincidence intensity with respect to local unitary operations on one of...", "citations": 2, "author_count": 6, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7376, "doi": "10.1088/1751-8113/44/14/145301", "umap_coordinates": { "x": 395.06597900390625, "y": 137.4025115966797, "z": 208.04066467285156 }, "tsne_coordinates": { "x": -35.549049377441406, "y": -12.940452575683594, "z": 15.655407905578613 }, "pca_coordinates": { "x": 3.5123844146728516, "y": 3.0633718967437744, "z": -0.373525470495224 }, "axis_scores": { "Quantum imaging": 0.7128617763519287, "Quantum Life Science Sensing": 0.6826320290565491, "Quantum sensing Detection": 0.6842023730278015, "Quantum sensing Metrology": 0.6717981696128845, "Quantum sensing navigation": 0.7032900452613831, "Quantum sensing Position": 0.656341552734375, "Quantum sensing Timing": 0.6719537973403931, "Quantum sensing": 0.6939584016799927, "Quantum control": 0.6956976652145386 } }, { "id": 7370, "title": "1D photonic band formation and photon localization in finite-size photonic-crystal waveguides", "abstract": "A transition from discrete optical modes to 1D photonic bands is experimentally observed and numerically studied in planar photonic-crystal (PhC) L-N microcavities of length N. For increasing N the co...", "citations": 20, "author_count": 8, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7377, "doi": "10.1364/OE.18.000117", "umap_coordinates": { "x": 394.039794921875, "y": 133.8466339111328, "z": 207.07801818847656 }, "tsne_coordinates": { "x": 5.545557022094727, "y": -15.898760795593262, "z": -28.75387191772461 }, "pca_coordinates": { "x": 1.350252628326416, "y": -1.87046480178833, "z": 2.6376638412475586 }, "axis_scores": { "Quantum imaging": 0.7596830129623413, "Quantum Life Science Sensing": 0.7337698936462402, "Quantum sensing Detection": 0.7495418787002563, "Quantum sensing Metrology": 0.7432035803794861, "Quantum sensing navigation": 0.7551475763320923, "Quantum sensing Position": 0.7324156165122986, "Quantum sensing Timing": 0.721499502658844, "Quantum sensing": 0.7570072412490845, "Quantum control": 0.7148360013961792 } }, { "id": 7371, "title": "Multiparticle integral and differential correlation functions", "abstract": "This paper formalizes the use of integral and differential cumulants for measurements of multiparticle event-by-event transverse momentum fluctuations, rapidity fluctuations, as well as net-charge flu...", "citations": 5, "author_count": 5, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7378, "doi": "10.1103/PhysRevC.109.044904", "umap_coordinates": { "x": 395.2196044921875, "y": 136.73495483398438, "z": 208.53887939453125 }, "tsne_coordinates": { "x": -18.649890899658203, "y": -30.07297706604004, "z": 2.3863115310668945 }, "pca_coordinates": { "x": 3.1406092643737793, "y": -0.33144474029541016, "z": 0.7899016737937927 }, "axis_scores": { "Quantum imaging": 0.7390210628509521, "Quantum Life Science Sensing": 0.7370527386665344, "Quantum sensing Detection": 0.7274308204650879, "Quantum sensing Metrology": 0.7014636397361755, "Quantum sensing navigation": 0.7154542207717896, "Quantum sensing Position": 0.683955192565918, "Quantum sensing Timing": 0.6900956630706787, "Quantum sensing": 0.7310084104537964, "Quantum control": 0.7178353071212769 } }, { "id": 7372, "title": "Quantum-like model of partially directed evolution", "abstract": "The background of this study is that models of the evolution of living systems are based mainly on the evolution of replicators and cannot explain many of the properties of biological systems such as ...", "citations": 14, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7379, "doi": "10.1016/j.pbiomolbio.2016.12.005", "umap_coordinates": { "x": 394.6437683105469, "y": 137.40444946289062, "z": 206.22711181640625 }, "tsne_coordinates": { "x": -19.702634811401367, "y": 11.774147987365723, "z": 20.93977928161621 }, "pca_coordinates": { "x": 1.344517707824707, "y": 2.3501245975494385, "z": -1.0838978290557861 }, "axis_scores": { "Quantum imaging": 0.7979084253311157, "Quantum Life Science Sensing": 0.7787088751792908, "Quantum sensing Detection": 0.7695037722587585, "Quantum sensing Metrology": 0.7573344111442566, "Quantum sensing navigation": 0.7884499430656433, "Quantum sensing Position": 0.7573716044425964, "Quantum sensing Timing": 0.7254422903060913, "Quantum sensing": 0.7824699878692627, "Quantum control": 0.7794390916824341 } }, { "id": 7373, "title": "In Situ Optical Studies on Morphology Formation in Organic Photovoltaic Blends", "abstract": "The efficiency of bulk heterojunction (BHJ) based organic solar cells is highly dependent on the morphology of the blend film, which is a result of a fine interplay between donor, acceptor, and solven...", "citations": 34, "author_count": 10, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7380, "doi": "10.1002/smtd.202100585", "umap_coordinates": { "x": 392.16070556640625, "y": 134.53541564941406, "z": 206.645263671875 }, "tsne_coordinates": { "x": 26.579044342041016, "y": -6.265583515167236, "z": 7.250328540802002 }, "pca_coordinates": { "x": -3.1756062507629395, "y": -2.2438244819641113, "z": -0.8558574914932251 }, "axis_scores": { "Quantum imaging": 0.6700220704078674, "Quantum Life Science Sensing": 0.6926169395446777, "Quantum sensing Detection": 0.654026210308075, "Quantum sensing Metrology": 0.6612399816513062, "Quantum sensing navigation": 0.6315083503723145, "Quantum sensing Position": 0.6399027109146118, "Quantum sensing Timing": 0.6322335004806519, "Quantum sensing": 0.6581392884254456, "Quantum control": 0.622998833656311 } }, { "id": 7374, "title": "Role of scaling dimensions in generalized noises in fractional quantum Hall tunneling due to a temperature bias", "abstract": "Continued improvement of heat control in mesoscopic conductors brings novel tools for probing strongly correlated electron phenomena. Motivated by these advances, we comprehensively study transport du...", "citations": 4, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7381, "doi": "10.21468/SciPostPhys.18.2.058", "umap_coordinates": { "x": 394.7356872558594, "y": 136.55796813964844, "z": 207.47372436523438 }, "tsne_coordinates": { "x": -29.961891174316406, "y": -16.96075439453125, "z": 16.638595581054688 }, "pca_coordinates": { "x": 2.1464076042175293, "y": 1.4415957927703857, "z": 0.3843476176261902 }, "axis_scores": { "Quantum imaging": 0.6999596953392029, "Quantum Life Science Sensing": 0.7245978713035583, "Quantum sensing Detection": 0.7093484401702881, "Quantum sensing Metrology": 0.7061908841133118, "Quantum sensing navigation": 0.7385328412055969, "Quantum sensing Position": 0.7217719554901123, "Quantum sensing Timing": 0.7300868034362793, "Quantum sensing": 0.7223894000053406, "Quantum control": 0.7145386934280396 } }, { "id": 7375, "title": "A demonstration of contextuality using quantum computers", "abstract": "Open-access, online quantum computers have shown significant improvements in the past decade. Although they still suffer from noise and scalability limitations, they do offer the possibility of experi...", "citations": 2, "author_count": 5, "categories": [ "Education & Educational Research" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7382, "doi": "10.1088/1361-6404/ac79e0", "umap_coordinates": { "x": 395.6587829589844, "y": 137.2582550048828, "z": 206.64413452148438 }, "tsne_coordinates": { "x": -19.588552474975586, "y": 4.046604156494141, "z": 7.726518154144287 }, "pca_coordinates": { "x": 0.720815896987915, "y": 3.9435482025146484, "z": 0.955078661441803 }, "axis_scores": { "Quantum imaging": 0.7691915035247803, "Quantum Life Science Sensing": 0.7443163394927979, "Quantum sensing Detection": 0.7554146647453308, "Quantum sensing Metrology": 0.7201909422874451, "Quantum sensing navigation": 0.7629044651985168, "Quantum sensing Position": 0.7251818776130676, "Quantum sensing Timing": 0.7404406070709229, "Quantum sensing": 0.7701407670974731, "Quantum control": 0.7574226260185242 } }, { "id": 7376, "title": "Proposal for an ultracompact polarization-beam splitter based on a photonic-crystal-assisted multimode interference coupler", "abstract": "An ultracompact polarization-beam splitter (PBS) combining a multimode interference (MMI) coupler and some photonic crystal (PC) structures is presented. The MMI coupler is designed to collect polariz...", "citations": 76, "author_count": 4, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7383, "doi": "10.1109/LPT.2007.897297", "umap_coordinates": { "x": 394.4131164550781, "y": 133.8436737060547, "z": 206.91952514648438 }, "tsne_coordinates": { "x": 4.854942321777344, "y": -6.183009147644043, "z": -38.113037109375 }, "pca_coordinates": { "x": 0.2566099166870117, "y": 0.06589508056640625, "z": 3.589216709136963 }, "axis_scores": { "Quantum imaging": 0.7012791037559509, "Quantum Life Science Sensing": 0.685546875, "Quantum sensing Detection": 0.7024238705635071, "Quantum sensing Metrology": 0.7001972198486328, "Quantum sensing navigation": 0.6797038316726685, "Quantum sensing Position": 0.6735240817070007, "Quantum sensing Timing": 0.6647095680236816, "Quantum sensing": 0.7075933218002319, "Quantum control": 0.6859346628189087 } }, { "id": 7377, "title": "Invited Paper: Design and modeling of a transistor vertical-cavity surface-emitting laser", "abstract": "A multiple quantum well (MQW) transistor vertical-cavity surface-emitting laser (T-VCSEL) is designed and numerically modeled. The important physical models and parameters are discussed and validated ...", "citations": 9, "author_count": 11, "categories": [ "Engineering" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7384, "doi": "10.1007/s11082-011-9444-0", "umap_coordinates": { "x": 394.3564758300781, "y": 134.80679321289062, "z": 206.18698120117188 }, "tsne_coordinates": { "x": -16.917539596557617, "y": 10.365520477294922, "z": 3.585516929626465 }, "pca_coordinates": { "x": -1.107780933380127, "y": 1.0036730766296387, "z": 0.2495916485786438 }, "axis_scores": { "Quantum imaging": 0.6803573966026306, "Quantum Life Science Sensing": 0.6991820931434631, "Quantum sensing Detection": 0.6889762282371521, "Quantum sensing Metrology": 0.6978837847709656, "Quantum sensing navigation": 0.698459267616272, "Quantum sensing Position": 0.6756410002708435, "Quantum sensing Timing": 0.679979145526886, "Quantum sensing": 0.7007290124893188, "Quantum control": 0.6988637447357178 } }, { "id": 7378, "title": "Measurement of Z γ γ production in pp collisions at √s=13 TeV with the ATLAS detector", "abstract": "Cross-sections for the production of a Z boson in association with two photons are measured in proton-proton collisions at a centre-of-mass energy of 13 TeV. The data used correspond to an integrated ...", "citations": 11, "author_count": 2687, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7385, "doi": "10.1140/epjc/s10052-023-11579-8", "umap_coordinates": { "x": 396.9450988769531, "y": 134.47035217285156, "z": 207.17576599121094 }, "tsne_coordinates": { "x": -33.32607650756836, "y": 12.703972816467285, "z": -6.974727153778076 }, "pca_coordinates": { "x": -0.14575612545013428, "y": 2.7187414169311523, "z": 3.1476376056671143 }, "axis_scores": { "Quantum imaging": 0.7007375955581665, "Quantum Life Science Sensing": 0.6947576403617859, "Quantum sensing Detection": 0.7104342579841614, "Quantum sensing Metrology": 0.6904593706130981, "Quantum sensing navigation": 0.7125369310379028, "Quantum sensing Position": 0.7270733118057251, "Quantum sensing Timing": 0.7364385724067688, "Quantum sensing": 0.7067604064941406, "Quantum control": 0.6937825679779053 } }, { "id": 7379, "title": "Relationship between the electronic structure of embedded single to triple atomic monolayers and bulk alloys -: art. no. 155419", "abstract": "The relation between the electronic structure of thin film nanosandwiches and bulk alloys has been investigated by means of first-principles electronic structure theory. The spin magnetization, layere...", "citations": 7, "author_count": 7, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7386, "doi": "10.1103/PhysRevB.72.155419", "umap_coordinates": { "x": 393.9104919433594, "y": 134.82688903808594, "z": 209.25242614746094 }, "tsne_coordinates": { "x": 8.574294090270996, "y": -30.14336395263672, "z": -7.153703212738037 }, "pca_coordinates": { "x": 3.5586514472961426, "y": -2.770693778991699, "z": -0.7687467336654663 }, "axis_scores": { "Quantum imaging": 0.6912533044815063, "Quantum Life Science Sensing": 0.7039965987205505, "Quantum sensing Detection": 0.6822420358657837, "Quantum sensing Metrology": 0.6977123618125916, "Quantum sensing navigation": 0.6960968971252441, "Quantum sensing Position": 0.7052308320999146, "Quantum sensing Timing": 0.6696892976760864, "Quantum sensing": 0.6978631019592285, "Quantum control": 0.6621323823928833 } }, { "id": 7380, "title": "Towards a microwave single-photon counter for searching axions", "abstract": "The major task of detecting axions or axion-like particles has two challenges. On the one hand, the ultimate sensitivity is required, down to the energy of a single microwave photon of the yoctojoule ...", "citations": 35, "author_count": 7, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7387, "doi": "10.1038/s41534-022-00569-5", "umap_coordinates": { "x": 395.1649475097656, "y": 133.72181701660156, "z": 207.3846893310547 }, "tsne_coordinates": { "x": -12.410941123962402, "y": 0.5176041126251221, "z": -24.739133834838867 }, "pca_coordinates": { "x": -1.0959887504577637, "y": 0.6309762001037598, "z": 2.809727191925049 }, "axis_scores": { "Quantum imaging": 0.6823149919509888, "Quantum Life Science Sensing": 0.6786316633224487, "Quantum sensing Detection": 0.6961624622344971, "Quantum sensing Metrology": 0.6866522431373596, "Quantum sensing navigation": 0.7080318331718445, "Quantum sensing Position": 0.6859970092773438, "Quantum sensing Timing": 0.6833938956260681, "Quantum sensing": 0.6968539953231812, "Quantum control": 0.6493569016456604 } }, { "id": 7381, "title": "Simulation of beam propagation with time-dependent nonlinear processes in optical limiting applications", "abstract": "A scheme based on the Cranck-Nicholson model has been realized in Matlab code and used to simulate the intensity propagation of various temporal pulse shapes through optically nonlinear materials. The...", "citations": 27, "author_count": 4, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7388, "doi": "10.1016/S0379-6779(01)00608-7", "umap_coordinates": { "x": 394.7112731933594, "y": 134.82569885253906, "z": 205.70652770996094 }, "tsne_coordinates": { "x": -11.305193901062012, "y": 12.189886093139648, "z": 4.502106189727783 }, "pca_coordinates": { "x": -1.098459005355835, "y": 2.7834508419036865, "z": 2.716489791870117 }, "axis_scores": { "Quantum imaging": 0.7177940011024475, "Quantum Life Science Sensing": 0.6976957321166992, "Quantum sensing Detection": 0.6836214661598206, "Quantum sensing Metrology": 0.680814802646637, "Quantum sensing navigation": 0.7015420198440552, "Quantum sensing Position": 0.6825569272041321, "Quantum sensing Timing": 0.684872567653656, "Quantum sensing": 0.683124303817749, "Quantum control": 0.6705490946769714 } }, { "id": 7382, "title": "GENERATION OF INTENSITY-CORRELATED TWIN BEAMS USING SERIES-COUPLED SEMICONDUCTOR-LASERS", "abstract": "The low-frequency intensity noise of high-quantum-efficiency lasers or light-emitting diodes (LED's) is dominated by the pump noise. By coupling two or more semiconductor lasers (or LED's) in series w...", "citations": 16, "author_count": 2, "categories": [ "Optics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7389, "doi": "10.1103/PhysRevA.45.8259", "umap_coordinates": { "x": 394.8695068359375, "y": 134.79769897460938, "z": 208.09469604492188 }, "tsne_coordinates": { "x": 1.7637882232666016, "y": -20.65902328491211, "z": -5.026398658752441 }, "pca_coordinates": { "x": 2.678864002227783, "y": -1.8405327796936035, "z": 3.0673766136169434 }, "axis_scores": { "Quantum imaging": 0.7453913688659668, "Quantum Life Science Sensing": 0.734783411026001, "Quantum sensing Detection": 0.7437756061553955, "Quantum sensing Metrology": 0.7282952666282654, "Quantum sensing navigation": 0.7258890867233276, "Quantum sensing Position": 0.7101657390594482, "Quantum sensing Timing": 0.7322111129760742, "Quantum sensing": 0.7495551705360413, "Quantum control": 0.7159964442253113 } }, { "id": 7383, "title": "Fast Settling Phase-Locked Loops: A Comprehensive Survey of Applications and Techniques", "abstract": "Fast settling phase locked loops (PLLs) play a pivotal role in many applications requiring rapid attainment of a stable frequency and phase. In modern communication standards, these PLLs are extensive...", "citations": 2, "author_count": 6, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7390, "doi": "10.1109/MCAS.2024.3383809", "umap_coordinates": { "x": 394.66455078125, "y": 134.4430694580078, "z": 205.9407501220703 }, "tsne_coordinates": { "x": -7.999141216278076, "y": 4.1034836769104, "z": -20.130496978759766 }, "pca_coordinates": { "x": -1.5064705610275269, "y": 2.5052552223205566, "z": -0.385732501745224 }, "axis_scores": { "Quantum imaging": 0.6873641610145569, "Quantum Life Science Sensing": 0.7141103744506836, "Quantum sensing Detection": 0.697040319442749, "Quantum sensing Metrology": 0.7151663899421692, "Quantum sensing navigation": 0.7070345878601074, "Quantum sensing Position": 0.6847676038742065, "Quantum sensing Timing": 0.7287561893463135, "Quantum sensing": 0.7096977233886719, "Quantum control": 0.702744722366333 } }, { "id": 7384, "title": "Collision-induced absorption in Ar-Kr gas mixtures: A molecular dynamics study with new potential and dipole data", "abstract": "We have implemented a scheme for classical molecular dynamics simulations of collision-induced absorption. The program has been applied to a gas mixture of argon (Ar) and krypton (Kr). The simulations...", "citations": 7, "author_count": 7, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7391, "doi": "10.1063/1.5099700", "umap_coordinates": { "x": 393.603271484375, "y": 136.4988555908203, "z": 206.6865997314453 }, "tsne_coordinates": { "x": -6.6550517082214355, "y": 6.548663139343262, "z": 37.73189926147461 }, "pca_coordinates": { "x": 0.7368927001953125, "y": 1.689925193786621, "z": -1.359940767288208 }, "axis_scores": { "Quantum imaging": 0.6574971079826355, "Quantum Life Science Sensing": 0.6820527911186218, "Quantum sensing Detection": 0.6505513191223145, "Quantum sensing Metrology": 0.6185240149497986, "Quantum sensing navigation": 0.6347421407699585, "Quantum sensing Position": 0.6081323027610779, "Quantum sensing Timing": 0.6201887726783752, "Quantum sensing": 0.6525671482086182, "Quantum control": 0.6182003021240234 } }, { "id": 7385, "title": "Three-dimensional molecularly imprinted electrochemical sensor based on Au NPs@Ti-based metal-organic frameworks for ultra-trace detection of bovine serum albumin", "abstract": "A novel three-dimensional molecularly imprinted electrochemical sensor (MIECS) was fabricated for ultra-trace detection of biomacromolecules bovine serum albumin (BSA), which was based on 3D porous el...", "citations": 72, "author_count": 7, "categories": [ "Electrochemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7392, "doi": "10.1016/j.electacta.2017.12.146", "umap_coordinates": { "x": 393.535888671875, "y": 133.6438751220703, "z": 205.12477111816406 }, "tsne_coordinates": { "x": 21.981477737426758, "y": 19.154943466186523, "z": -15.311720848083496 }, "pca_coordinates": { "x": -2.8329315185546875, "y": -1.6199183464050293, "z": -0.05847454071044922 }, "axis_scores": { "Quantum imaging": 0.7310284376144409, "Quantum Life Science Sensing": 0.7499821782112122, "Quantum sensing Detection": 0.7474179267883301, "Quantum sensing Metrology": 0.7354456186294556, "Quantum sensing navigation": 0.7238368391990662, "Quantum sensing Position": 0.7218156456947327, "Quantum sensing Timing": 0.7114275693893433, "Quantum sensing": 0.7500049471855164, "Quantum control": 0.7047960758209229 } }, { "id": 7386, "title": "Structural Insights on Recalcitrance during Hydrothermal Hemicellulose Extraction from Wood", "abstract": "Hydrothermal extraction of hemicelluloses from lignocellulosic biomass for conversion to renewable materials or fuels has captured attention. The extraction is however partial and some lignin is codis...", "citations": 97, "author_count": 3, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7393, "doi": "10.1021/acssuschemeng.7b00511", "umap_coordinates": { "x": 392.7621765136719, "y": 135.61102294921875, "z": 204.53236389160156 }, "tsne_coordinates": { "x": 26.029342651367188, "y": 36.05887222290039, "z": -0.6734426617622375 }, "pca_coordinates": { "x": -2.2530291080474854, "y": 0.04257011413574219, "z": -4.193993091583252 }, "axis_scores": { "Quantum imaging": 0.6588955521583557, "Quantum Life Science Sensing": 0.7051255106925964, "Quantum sensing Detection": 0.6306436061859131, "Quantum sensing Metrology": 0.626322329044342, "Quantum sensing navigation": 0.6386154890060425, "Quantum sensing Position": 0.6186968684196472, "Quantum sensing Timing": 0.6373828053474426, "Quantum sensing": 0.6540955305099487, "Quantum control": 0.6362453699111938 } }, { "id": 7387, "title": "On the Origin of Broadening of Single-Molecule FRET Efficiency Distributions beyond Shot Noise Limits", "abstract": "Single-molecule FRET experiments on freely diffusing rigid molecules frequently show FRET efficiency (E) distributions broader than those defined by photon statistics. It is often unclear whether the ...", "citations": 93, "author_count": 6, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7394, "doi": "10.1021/jp100025v", "umap_coordinates": { "x": 392.5723571777344, "y": 135.79908752441406, "z": 205.69602966308594 }, "tsne_coordinates": { "x": -8.330702781677246, "y": 13.351083755493164, "z": -5.30187463760376 }, "pca_coordinates": { "x": -1.2548125982284546, "y": -0.9291527271270752, "z": -0.16691023111343384 }, "axis_scores": { "Quantum imaging": 0.6987635493278503, "Quantum Life Science Sensing": 0.7096105217933655, "Quantum sensing Detection": 0.6818548440933228, "Quantum sensing Metrology": 0.6745249629020691, "Quantum sensing navigation": 0.6899177432060242, "Quantum sensing Position": 0.6815913915634155, "Quantum sensing Timing": 0.6811435222625732, "Quantum sensing": 0.6933255195617676, "Quantum control": 0.6826266050338745 } }, { "id": 7388, "title": "A comparison of the physiology, anatomy and ribosomal DNA in alpine and subalpine populations of the lichen Nephroma arcticum- : the effects of an eight-year transplant experiment", "abstract": "Thalli of Nephroma arcticum were transplanted between and within a high-elevation alpine heath (1100 m) and a low-elevation subalpine mountain birch forest (380 m) in northern Swedish Lapland and harv...", "citations": 8, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7395, "doi": "10.1639/0007-2745(2007)110[244:ACOTPA]2.0.CO;2", "umap_coordinates": { "x": 394.69598388671875, "y": 135.66822814941406, "z": 203.93829345703125 }, "tsne_coordinates": { "x": 13.201728820800781, "y": 33.646522521972656, "z": 17.666275024414062 }, "pca_coordinates": { "x": -1.7452411651611328, "y": 2.9948270320892334, "z": -0.23051244020462036 }, "axis_scores": { "Quantum imaging": 0.6767568588256836, "Quantum Life Science Sensing": 0.7033792734146118, "Quantum sensing Detection": 0.6613917946815491, "Quantum sensing Metrology": 0.6650216579437256, "Quantum sensing navigation": 0.6833899617195129, "Quantum sensing Position": 0.6587136387825012, "Quantum sensing Timing": 0.661251962184906, "Quantum sensing": 0.6777077913284302, "Quantum control": 0.6768722534179688 } }, { "id": 7389, "title": "The constant proportion of grana and stroma lamellae in plant chloroplasts", "abstract": "The relative proportion of stroma lamellae and grana end membranes was determined from electron micrographs of 58 chloroplasts from 21 different plant species. The percentage of grana end membranes va...", "citations": 37, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7396, "doi": "10.1111/j.0031-9317.2004.00315.x", "umap_coordinates": { "x": 394.23809814453125, "y": 136.45013427734375, "z": 203.47886657714844 }, "tsne_coordinates": { "x": 9.176597595214844, "y": 29.20302391052246, "z": 14.790685653686523 }, "pca_coordinates": { "x": -2.3789896965026855, "y": 1.9145351648330688, "z": -2.250044822692871 }, "axis_scores": { "Quantum imaging": 0.6199313402175903, "Quantum Life Science Sensing": 0.654670000076294, "Quantum sensing Detection": 0.6172707080841064, "Quantum sensing Metrology": 0.6106391549110413, "Quantum sensing navigation": 0.6226991415023804, "Quantum sensing Position": 0.6069398522377014, "Quantum sensing Timing": 0.6112117171287537, "Quantum sensing": 0.6283473372459412, "Quantum control": 0.6190007925033569 } }, { "id": 7390, "title": "Spectral hole-burning spectroscopy in Nd3+: YVO4", "abstract": "We present spectral hole-burning measurements on the 879 nm, (4)I(9/2) -> (4)F(3/2) transition in Nd(3+) : YVO(4). We observe antiholes in the spectrum along with long lived spectral holes, which demo...", "citations": 40, "author_count": 13, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7397, "doi": "10.1103/PhysRevB.77.125111", "umap_coordinates": { "x": 394.7115478515625, "y": 135.1938934326172, "z": 208.5519256591797 }, "tsne_coordinates": { "x": -4.638033866882324, "y": -15.471063613891602, "z": -3.4954519271850586 }, "pca_coordinates": { "x": 2.89492130279541, "y": -1.3267667293548584, "z": 1.0980432033538818 }, "axis_scores": { "Quantum imaging": 0.7286635041236877, "Quantum Life Science Sensing": 0.7311204671859741, "Quantum sensing Detection": 0.7419052124023438, "Quantum sensing Metrology": 0.7172753810882568, "Quantum sensing navigation": 0.7336822748184204, "Quantum sensing Position": 0.6989983916282654, "Quantum sensing Timing": 0.694377601146698, "Quantum sensing": 0.7395031452178955, "Quantum control": 0.6924726963043213 } }, { "id": 7391, "title": "Knight shifts around vacancies in the 2D Heisenberg model - art. no. 017204", "abstract": "The local response to a uniform field around vacancies in the two-dimensional spin-1/2 Heisenberg antiferromagnet is determined by numerical quantum Monte Carlo simulations as a function of temperatur...", "citations": 19, "author_count": 3, "categories": [ "Physics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7398, "doi": "10.1103/PhysRevLett.96.017204", "umap_coordinates": { "x": 394.0685729980469, "y": 136.6919708251953, "z": 207.8864288330078 }, "tsne_coordinates": { "x": -7.856165885925293, "y": -26.210939407348633, "z": 23.937828063964844 }, "pca_coordinates": { "x": 2.708773136138916, "y": 0.7459053993225098, "z": -2.7028415203094482 }, "axis_scores": { "Quantum imaging": 0.681022584438324, "Quantum Life Science Sensing": 0.6934784650802612, "Quantum sensing Detection": 0.6786445379257202, "Quantum sensing Metrology": 0.6828997135162354, "Quantum sensing navigation": 0.7135181427001953, "Quantum sensing Position": 0.7081463932991028, "Quantum sensing Timing": 0.7020541429519653, "Quantum sensing": 0.6933730244636536, "Quantum control": 0.680853009223938 } }, { "id": 7392, "title": "Saddle point approaches in strong field physics and generation of attosecond pulses", "abstract": "Attoscience is the emerging field that accesses the fastest electronic processes occurring at the atomic and molecular length scales with attosecond (1 as = 10(-18) s) time resolution having wide rang...", "citations": 68, "author_count": 24, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7399, "doi": "10.1016/j.physrep.2019.10.002", "umap_coordinates": { "x": 395.5885925292969, "y": 135.72982788085938, "z": 207.1118927001953 }, "tsne_coordinates": { "x": -9.982950210571289, "y": -9.04368782043457, "z": -11.457907676696777 }, "pca_coordinates": { "x": 1.0588831901550293, "y": 0.9268642663955688, "z": -0.8974679708480835 }, "axis_scores": { "Quantum imaging": 0.7137579917907715, "Quantum Life Science Sensing": 0.7280286550521851, "Quantum sensing Detection": 0.6997309923171997, "Quantum sensing Metrology": 0.6909533739089966, "Quantum sensing navigation": 0.6927840709686279, "Quantum sensing Position": 0.6967113614082336, "Quantum sensing Timing": 0.6977657675743103, "Quantum sensing": 0.7086526155471802, "Quantum control": 0.6996939778327942 } }, { "id": 7393, "title": "Tests of the Monte Carlo simulation of the photon-tagger focal-plane electronics at the MAX IV Laboratory", "abstract": "Rate-dependent effects in the electronics used to instrument the tagger focal plane at the MAX IV Laboratory were recently investigated using the novel approach of Monte Carlo simulation to allow for ...", "citations": 5, "author_count": 9, "categories": [ "Instruments & Instrumentation" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7400, "doi": "10.1016/j.nima.2014.01.040", "umap_coordinates": { "x": 394.90521240234375, "y": 132.90066528320312, "z": 205.61387634277344 }, "tsne_coordinates": { "x": -18.56869888305664, "y": 14.987337112426758, "z": -11.537477493286133 }, "pca_coordinates": { "x": -1.8099604845046997, "y": 3.1006765365600586, "z": 3.9281625747680664 }, "axis_scores": { "Quantum imaging": 0.6965125203132629, "Quantum Life Science Sensing": 0.6819229125976562, "Quantum sensing Detection": 0.6784470081329346, "Quantum sensing Metrology": 0.6967843770980835, "Quantum sensing navigation": 0.6851599812507629, "Quantum sensing Position": 0.6726280450820923, "Quantum sensing Timing": 0.6920181512832642, "Quantum sensing": 0.6784793734550476, "Quantum control": 0.6297175884246826 } }, { "id": 7394, "title": "Extremely confined quantum-well states for (2 x 2)-K and (√3 x √3)-K on graphite: First-principles calculations", "abstract": "We report on the atomic and electronic structure obtained by first-principles density functional theory calculations for a (2 x 2)-K monolayer as well as a (root 3 x root 3)-K monolayer on graphite re...", "citations": 2, "author_count": 3, "categories": [ "Materials Science" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7401, "doi": "10.1103/PhysRevB.84.165449", "umap_coordinates": { "x": 395.1857604980469, "y": 135.86575317382812, "z": 208.65744018554688 }, "tsne_coordinates": { "x": 5.006770610809326, "y": -41.29468536376953, "z": -1.997536540031433 }, "pca_coordinates": { "x": 3.1571741104125977, "y": -1.4509706497192383, "z": -0.6400446891784668 }, "axis_scores": { "Quantum imaging": 0.6897293925285339, "Quantum Life Science Sensing": 0.7099423408508301, "Quantum sensing Detection": 0.6901957988739014, "Quantum sensing Metrology": 0.6777933239936829, "Quantum sensing navigation": 0.6965346932411194, "Quantum sensing Position": 0.6693407297134399, "Quantum sensing Timing": 0.6507389545440674, "Quantum sensing": 0.7039342522621155, "Quantum control": 0.6556079983711243 } }, { "id": 7395, "title": "A new bacterial consortia for management of Fusarium head blight in wheat", "abstract": "Fusarium head blight (FHB) is a significantly important disease in cereals primarily caused by Fusarium species. FHB control is largely executed through chemical strategies, which are costlier to sust...", "citations": 5, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7402, "doi": "10.1038/s41598-024-60356-4", "umap_coordinates": { "x": 392.943115234375, "y": 135.54656982421875, "z": 203.9288330078125 }, "tsne_coordinates": { "x": 22.466651916503906, "y": 32.33209228515625, "z": -6.141849517822266 }, "pca_coordinates": { "x": -3.7285447120666504, "y": 0.022989273071289062, "z": -2.4609756469726562 }, "axis_scores": { "Quantum imaging": 0.6234931349754333, "Quantum Life Science Sensing": 0.6937947273254395, "Quantum sensing Detection": 0.6161357760429382, "Quantum sensing Metrology": 0.6366089582443237, "Quantum sensing navigation": 0.641893208026886, "Quantum sensing Position": 0.6371059417724609, "Quantum sensing Timing": 0.6233488321304321, "Quantum sensing": 0.6364113092422485, "Quantum control": 0.6445510983467102 } }, { "id": 7396, "title": "OH as a probe of the warm-water cycle in planet-forming disks", "abstract": "Water is a key ingredient for the emergence of life as we know it. Yet, its destruction and reformation in space remain unprobed in warm gas (T > 300 K). Here we detect with the James Webb Space Teles...", "citations": 19, "author_count": 55, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7403, "doi": "10.1038/s41550-024-02203-0", "umap_coordinates": { "x": 394.09234619140625, "y": 136.1326904296875, "z": 205.02867126464844 }, "tsne_coordinates": { "x": 1.8347578048706055, "y": 11.903351783752441, "z": 9.540118217468262 }, "pca_coordinates": { "x": -1.634743332862854, "y": 1.143393874168396, "z": -2.716493844985962 }, "axis_scores": { "Quantum imaging": 0.6581616401672363, "Quantum Life Science Sensing": 0.743112325668335, "Quantum sensing Detection": 0.6654674410820007, "Quantum sensing Metrology": 0.6510940790176392, "Quantum sensing navigation": 0.6618232727050781, "Quantum sensing Position": 0.634124755859375, "Quantum sensing Timing": 0.6424692273139954, "Quantum sensing": 0.6815105080604553, "Quantum control": 0.6470763683319092 } }, { "id": 7397, "title": "Polarization constraints on the X-ray corona in Seyfert Galaxies: MCG-05-23-16", "abstract": "We report on the first observation of a radio-quiet active galactic nucleus (AGN) in polarized X-rays: the Seyfert 1.9 galaxy MCG-05-23-16. This source was pointed at with the Imaging X-ray Polarimetr...", "citations": 48, "author_count": 101, "categories": [ "Astronomy & Astrophysics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7404, "doi": "10.1093/mnras/stac2634", "umap_coordinates": { "x": 395.8787536621094, "y": 135.3648681640625, "z": 205.9097442626953 }, "tsne_coordinates": { "x": -29.554582595825195, "y": 28.29217529296875, "z": 4.88358211517334 }, "pca_coordinates": { "x": -1.3550615310668945, "y": 2.5595970153808594, "z": -0.670717179775238 }, "axis_scores": { "Quantum imaging": 0.6684533357620239, "Quantum Life Science Sensing": 0.6839718222618103, "Quantum sensing Detection": 0.6714870929718018, "Quantum sensing Metrology": 0.6622821688652039, "Quantum sensing navigation": 0.69973224401474, "Quantum sensing Position": 0.679848849773407, "Quantum sensing Timing": 0.6588757038116455, "Quantum sensing": 0.6775895357131958, "Quantum control": 0.658492922782898 } }, { "id": 7398, "title": "A hybrid molecular sensitizer for triplet fusion upconversion", "abstract": "Triplet fusion upconversion is useful for a broad spectrum of applications ranging from solar cells, photoredox catalysis, to biophotonics applications, especially in the near-infrared (NIR, >700 nm) ...", "citations": 9, "author_count": 9, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7405, "doi": "10.1016/j.cej.2021.131282", "umap_coordinates": { "x": 392.7584533691406, "y": 134.72378540039062, "z": 205.26345825195312 }, "tsne_coordinates": { "x": 23.136445999145508, "y": 6.542290687561035, "z": -6.553834915161133 }, "pca_coordinates": { "x": -2.853097915649414, "y": -1.4053213596343994, "z": -0.6445922255516052 }, "axis_scores": { "Quantum imaging": 0.723095178604126, "Quantum Life Science Sensing": 0.7409225106239319, "Quantum sensing Detection": 0.7143897414207458, "Quantum sensing Metrology": 0.7023231387138367, "Quantum sensing navigation": 0.6757857799530029, "Quantum sensing Position": 0.6617067456245422, "Quantum sensing Timing": 0.6772862076759338, "Quantum sensing": 0.7299512028694153, "Quantum control": 0.6983966827392578 } }, { "id": 7399, "title": "Synthesis, Optical, Magnetic and Thermodynamic Properties of Rocksalt Li1.3Nb0.3Mn0.4O2 Cathode Material for Li-Ion Batteries", "abstract": "Since the discovery of the reversible intercalation of lithium-ion materials associated with promising electrochemical properties, lithium-containing materials have attracted attention in the research...", "citations": 4, "author_count": 11, "categories": [ "Crystallography" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7406, "doi": "10.3390/cryst11070825", "umap_coordinates": { "x": 391.93804931640625, "y": 134.49160766601562, "z": 206.20217895507812 }, "tsne_coordinates": { "x": 11.11373233795166, "y": -8.149775505065918, "z": -23.948163986206055 }, "pca_coordinates": { "x": -2.352639675140381, "y": -1.3930301666259766, "z": -3.510380744934082 }, "axis_scores": { "Quantum imaging": 0.7028207778930664, "Quantum Life Science Sensing": 0.7293143272399902, "Quantum sensing Detection": 0.6763907670974731, "Quantum sensing Metrology": 0.6967283487319946, "Quantum sensing navigation": 0.6838648915290833, "Quantum sensing Position": 0.6456265449523926, "Quantum sensing Timing": 0.6412703990936279, "Quantum sensing": 0.7004473209381104, "Quantum control": 0.6821601986885071 } }, { "id": 7400, "title": "Emission State Structure and Linewidth Broadening Mechanisms in Type-II CdSe/CdTe Core-Crown Nanoplatelets: A Combined Theoretical-Single Nanocrystal Optical Study", "abstract": "Type-II heterostructures are key elementary components in optoelectronic, photovoltaic, and quantum devices. The staggered band alignment of materials leads to the stabilization of indirect excitons (...", "citations": 13, "author_count": 18, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7407, "doi": "10.1021/acs.jpcc.0c04547", "umap_coordinates": { "x": 392.03350830078125, "y": 135.0183868408203, "z": 206.4840850830078 }, "tsne_coordinates": { "x": 21.097265243530273, "y": -2.3849759101867676, "z": 3.6625146865844727 }, "pca_coordinates": { "x": -1.592775821685791, "y": -2.6893253326416016, "z": -0.15820664167404175 }, "axis_scores": { "Quantum imaging": 0.7104945182800293, "Quantum Life Science Sensing": 0.718590259552002, "Quantum sensing Detection": 0.692572832107544, "Quantum sensing Metrology": 0.6767578125, "Quantum sensing navigation": 0.6851127743721008, "Quantum sensing Position": 0.6685744524002075, "Quantum sensing Timing": 0.6797103881835938, "Quantum sensing": 0.6966994404792786, "Quantum control": 0.6817877292633057 } }, { "id": 7401, "title": "Detection of interictal epileptiform discharges: A comparison of on-scalp MEG and conventional MEG measurements", "abstract": "Objective: Conventional MEG provides an unsurpassed ability to, non-invasively, detect epileptic activity. However, highly resolved information on small neuronal populations required in epilepsy diagn...", "citations": 8, "author_count": 11, "categories": [ "Neurosciences & Neurology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7408, "doi": "10.1016/j.clinph.2020.03.041", "umap_coordinates": { "x": 394.5473937988281, "y": 133.8674774169922, "z": 204.96676635742188 }, "tsne_coordinates": { "x": -7.978572845458984, "y": 27.90753173828125, "z": -1.135758399963379 }, "pca_coordinates": { "x": -2.3109755516052246, "y": 2.477273464202881, "z": 1.3287708759307861 }, "axis_scores": { "Quantum imaging": 0.6859615445137024, "Quantum Life Science Sensing": 0.7008295059204102, "Quantum sensing Detection": 0.6875442266464233, "Quantum sensing Metrology": 0.6846575140953064, "Quantum sensing navigation": 0.6625810861587524, "Quantum sensing Position": 0.6668506264686584, "Quantum sensing Timing": 0.6812171339988708, "Quantum sensing": 0.6892990469932556, "Quantum control": 0.6332848072052002 } }, { "id": 7402, "title": "2D Assignment and quantitative analysis of cellulose and oxidized celluloses using solution-state NMR spectroscopy", "abstract": "The limited access to fast and facile general analytical methods for cellulosic and/or biocomposite materials currently stands as one of the main barriers for the progress of these disciplines. To tha...", "citations": 56, "author_count": 14, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7409, "doi": "10.1007/s10570-020-03317-0", "umap_coordinates": { "x": 393.033935546875, "y": 136.46597290039062, "z": 205.40524291992188 }, "tsne_coordinates": { "x": 14.90060043334961, "y": 6.135002613067627, "z": 28.33733367919922 }, "pca_coordinates": { "x": -3.0495898723602295, "y": 0.9461536407470703, "z": -2.3083128929138184 }, "axis_scores": { "Quantum imaging": 0.7032381892204285, "Quantum Life Science Sensing": 0.7314369678497314, "Quantum sensing Detection": 0.689238965511322, "Quantum sensing Metrology": 0.6916311979293823, "Quantum sensing navigation": 0.7012813091278076, "Quantum sensing Position": 0.6859400272369385, "Quantum sensing Timing": 0.6532015204429626, "Quantum sensing": 0.7004287838935852, "Quantum control": 0.6832547187805176 } }, { "id": 7403, "title": "Determination of the light-induced degradation rate of the solar cell sensitizer N719 on TiO2 nanocrystalline particles", "abstract": "The oxidative degradation rate, k(deg), of the solar cell dye (Bu4N+)(2)[Ru(dcbpyH)(2)(NCS)(2)](2-), referred to as N719 or [RuL2(NCS)(2)], was obtained by applying a simple model system. Colloidal so...", "citations": 59, "author_count": 6, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7410, "doi": "10.1021/jp052792v", "umap_coordinates": { "x": 392.5554504394531, "y": 134.72686767578125, "z": 205.42782592773438 }, "tsne_coordinates": { "x": 16.09864616394043, "y": 8.662798881530762, "z": 2.3910865783691406 }, "pca_coordinates": { "x": -3.698115825653076, "y": -2.53690767288208, "z": -0.4735109210014343 }, "axis_scores": { "Quantum imaging": 0.6601787209510803, "Quantum Life Science Sensing": 0.7166511416435242, "Quantum sensing Detection": 0.6702209115028381, "Quantum sensing Metrology": 0.6470908522605896, "Quantum sensing navigation": 0.6550582647323608, "Quantum sensing Position": 0.6498541235923767, "Quantum sensing Timing": 0.6317847371101379, "Quantum sensing": 0.6772058010101318, "Quantum control": 0.6392663717269897 } }, { "id": 7404, "title": "Nonlinear bandgap opening behavior of BN co-doped graphene", "abstract": "We have demonstrated a nonlinear behavior for the bandgap opening of doped graphene by controlling the concentration of B and N co-dopants. X-ray absorption and emission spectra reveal that the bandga...", "citations": 27, "author_count": 17, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7411, "doi": "10.1016/j.carbon.2016.06.091", "umap_coordinates": { "x": 392.9550476074219, "y": 134.2186279296875, "z": 205.02728271484375 }, "tsne_coordinates": { "x": 27.639108657836914, "y": 14.5880126953125, "z": -1.9871323108673096 }, "pca_coordinates": { "x": -1.2007129192352295, "y": -2.0582704544067383, "z": -0.4284859299659729 }, "axis_scores": { "Quantum imaging": 0.7117060422897339, "Quantum Life Science Sensing": 0.7198279500007629, "Quantum sensing Detection": 0.7068566679954529, "Quantum sensing Metrology": 0.6759530305862427, "Quantum sensing navigation": 0.6976576447486877, "Quantum sensing Position": 0.68111652135849, "Quantum sensing Timing": 0.6518503427505493, "Quantum sensing": 0.7104994654655457, "Quantum control": 0.682137668132782 } }, { "id": 7405, "title": "Constructing quantum mechanical models from diabatic schemes: external field modulation of effective energy barriers for bond breaking/formation processes", "abstract": "We have recently proposed an approach where chemical transformations can be described as quantum processes involving the modulation of entangled states by an applied external field (Arteca and Tapia i...", "citations": 1, "author_count": 4, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7412, "doi": "10.1007/s10910-014-0377-2", "umap_coordinates": { "x": 394.2130432128906, "y": 137.26248168945312, "z": 206.63681030273438 }, "tsne_coordinates": { "x": -14.852051734924316, "y": 16.859729766845703, "z": 26.371458053588867 }, "pca_coordinates": { "x": 1.4079363346099854, "y": 1.6192457675933838, "z": -2.615219831466675 }, "axis_scores": { "Quantum imaging": 0.7146927118301392, "Quantum Life Science Sensing": 0.7152410745620728, "Quantum sensing Detection": 0.6866220235824585, "Quantum sensing Metrology": 0.6850737929344177, "Quantum sensing navigation": 0.7056502103805542, "Quantum sensing Position": 0.6642168760299683, "Quantum sensing Timing": 0.6851229071617126, "Quantum sensing": 0.703661322593689, "Quantum control": 0.7193492650985718 } }, { "id": 7406, "title": "Tuning electron transport through a single molecular junction by bridge modification", "abstract": "The possibility of controlling electron transport in a single molecular junction represents the ultimate goal of molecular electronics. Here, we report that the modification of bridging group makes it...", "citations": 5, "author_count": 4, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7413, "doi": "10.1063/1.4885878", "umap_coordinates": { "x": 394.0758972167969, "y": 134.1177215576172, "z": 208.7108154296875 }, "tsne_coordinates": { "x": 22.752946853637695, "y": -29.7652587890625, "z": -3.8771822452545166 }, "pca_coordinates": { "x": 1.4238860607147217, "y": -2.6557259559631348, "z": 0.8239936232566833 }, "axis_scores": { "Quantum imaging": 0.7162092328071594, "Quantum Life Science Sensing": 0.7225005626678467, "Quantum sensing Detection": 0.7109025716781616, "Quantum sensing Metrology": 0.7187575101852417, "Quantum sensing navigation": 0.7165799736976624, "Quantum sensing Position": 0.6820124983787537, "Quantum sensing Timing": 0.6663488745689392, "Quantum sensing": 0.7335874438285828, "Quantum control": 0.711570143699646 } }, { "id": 7407, "title": "Room-temperature quantum optomechanics using an ultralow noise cavity", "abstract": "At room temperature, mechanical motion driven by the quantum backaction of light has been observed only in pioneering experiments in which an optical restoring force controls the oscillator stiffness1...", "citations": 48, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7414, "doi": "10.1038/s41586-023-06997-3", "umap_coordinates": { "x": 394.42327880859375, "y": 134.80015563964844, "z": 206.99365234375 }, "tsne_coordinates": { "x": -7.4907097816467285, "y": 0.4174072742462158, "z": -10.1096773147583 }, "pca_coordinates": { "x": -0.19999301433563232, "y": -0.7938423156738281, "z": 2.5735630989074707 }, "axis_scores": { "Quantum imaging": 0.7080572843551636, "Quantum Life Science Sensing": 0.7377661466598511, "Quantum sensing Detection": 0.7323138117790222, "Quantum sensing Metrology": 0.7275205850601196, "Quantum sensing navigation": 0.7171872854232788, "Quantum sensing Position": 0.6993045210838318, "Quantum sensing Timing": 0.7118107676506042, "Quantum sensing": 0.740353524684906, "Quantum control": 0.6810652613639832 } }, { "id": 7408, "title": "Ultrabright and Stable Luminescent Labels for Correlative Cathodoluminescence Electron Microscopy Bioimaging", "abstract": "The mechanistic understanding of structure-function relationships in biological systems heavily relies on imaging. While fluorescence microscopy allows the study of specific proteins following their l...", "citations": 22, "author_count": 12, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7415, "doi": "10.1021/acs.nanolett.9b01819", "umap_coordinates": { "x": 392.13848876953125, "y": 133.9368896484375, "z": 204.95994567871094 }, "tsne_coordinates": { "x": 18.596179962158203, "y": 4.547675132751465, "z": -19.467445373535156 }, "pca_coordinates": { "x": -2.878845453262329, "y": -1.5390715599060059, "z": -0.16201502084732056 }, "axis_scores": { "Quantum imaging": 0.6936048269271851, "Quantum Life Science Sensing": 0.706372082233429, "Quantum sensing Detection": 0.6791129112243652, "Quantum sensing Metrology": 0.6640093326568604, "Quantum sensing navigation": 0.6714988350868225, "Quantum sensing Position": 0.6648768782615662, "Quantum sensing Timing": 0.6572495698928833, "Quantum sensing": 0.6825888156890869, "Quantum control": 0.6599792242050171 } }, { "id": 7409, "title": "Classical signal model reproducing quantum probabilities for single and coincidence detections", "abstract": "We present a simple classical (random) signal model reproducing Born's rule. The crucial point of our approach is that the presence of detector's threshold and calibration procedure have to be treated...", "citations": 14, "author_count": 4, "categories": [ "Mechanics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7416, "doi": "10.1088/1742-6596/361/1/012030", "umap_coordinates": { "x": 395.6250305175781, "y": 136.8683624267578, "z": 206.10643005371094 }, "tsne_coordinates": { "x": -22.82697296142578, "y": 4.5138044357299805, "z": 16.12995147705078 }, "pca_coordinates": { "x": 1.842634677886963, "y": 3.3103244304656982, "z": 3.7345728874206543 }, "axis_scores": { "Quantum imaging": 0.7459996938705444, "Quantum Life Science Sensing": 0.7501288652420044, "Quantum sensing Detection": 0.7754777669906616, "Quantum sensing Metrology": 0.7476263046264648, "Quantum sensing navigation": 0.7475191354751587, "Quantum sensing Position": 0.7326398491859436, "Quantum sensing Timing": 0.7616462707519531, "Quantum sensing": 0.7658335566520691, "Quantum control": 0.71454918384552 } }, { "id": 7410, "title": "Characterization of a new fluorogenic substrate for microsomal glutathione transferase 1", "abstract": "A new thiol-reactive electrophilic, disubstituted rhodamine-based fluorogenic probe (bis-2,4-dinitrobenzenesulfonyl rhodamine [BDR]) with very high quantum yield was synthesized and described recently...", "citations": 24, "author_count": 11, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7417, "doi": "10.1016/j.ab.2009.03.046", "umap_coordinates": { "x": 393.3499755859375, "y": 135.17393493652344, "z": 204.17398071289062 }, "tsne_coordinates": { "x": 9.621317863464355, "y": 22.336223602294922, "z": -2.927793025970459 }, "pca_coordinates": { "x": -4.82426118850708, "y": 1.4261113405227661, "z": -0.9604892134666443 }, "axis_scores": { "Quantum imaging": 0.6734185218811035, "Quantum Life Science Sensing": 0.7011814117431641, "Quantum sensing Detection": 0.6614978909492493, "Quantum sensing Metrology": 0.6731082797050476, "Quantum sensing navigation": 0.6558544635772705, "Quantum sensing Position": 0.6486536264419556, "Quantum sensing Timing": 0.6335031390190125, "Quantum sensing": 0.6669194102287292, "Quantum control": 0.6335639953613281 } }, { "id": 7411, "title": "Physiological responses to copper in giant clams: a comparison of two methods in revealing effects on photosynthesis in zooxanthellae", "abstract": "In the present work physiological responses to a short term, sub-lethal exposure to copper (5 mug Cu-2 l(-1)) were studied on two species of giant clams, Tridacna gigas and Hippopus hippopus. All gian...", "citations": 13, "author_count": 4, "categories": [ "Environmental Sciences & Ecology" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7418, "doi": "10.1016/S0141-1136(02)00100-9", "umap_coordinates": { "x": 393.986572265625, "y": 135.93199157714844, "z": 203.4523162841797 }, "tsne_coordinates": { "x": 18.113611221313477, "y": 28.516544342041016, "z": 13.364279747009277 }, "pca_coordinates": { "x": -3.6982812881469727, "y": 1.3309085369110107, "z": -0.9908273220062256 }, "axis_scores": { "Quantum imaging": 0.6712101697921753, "Quantum Life Science Sensing": 0.7067043781280518, "Quantum sensing Detection": 0.686229407787323, "Quantum sensing Metrology": 0.6852685809135437, "Quantum sensing navigation": 0.6712965965270996, "Quantum sensing Position": 0.6727418303489685, "Quantum sensing Timing": 0.6666479110717773, "Quantum sensing": 0.6931344270706177, "Quantum control": 0.6533956527709961 } }, { "id": 7412, "title": "X-ray attenuation of adipose breast tissue: In-vitro and in-vivo measurements using spectral imaging", "abstract": "The development of new x-ray imaging techniques often requires prior knowledge of tissue attenuation, but the sources of such information are sparse. We have measured the attenuation of adipose breast...", "citations": 1, "author_count": 14, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7419, "doi": "10.1117/12.2081747", "umap_coordinates": { "x": 395.8223876953125, "y": 133.08067321777344, "z": 205.50765991210938 }, "tsne_coordinates": { "x": -6.19326639175415, "y": 21.55168342590332, "z": -31.449752807617188 }, "pca_coordinates": { "x": -2.4979732036590576, "y": 1.7776844501495361, "z": 2.9099578857421875 }, "axis_scores": { "Quantum imaging": 0.689619243144989, "Quantum Life Science Sensing": 0.6695969104766846, "Quantum sensing Detection": 0.6616435050964355, "Quantum sensing Metrology": 0.6459962129592896, "Quantum sensing navigation": 0.6464999914169312, "Quantum sensing Position": 0.6516448259353638, "Quantum sensing Timing": 0.6468324661254883, "Quantum sensing": 0.6656841039657593, "Quantum control": 0.5993838906288147 } }, { "id": 7413, "title": "Norbornadiene Quadricyclane as Multimode Photoswitches: Synergistic Light and Protonation-Controlled Heat Release", "abstract": "Two low molecular weight acceptor-acceptor norbornadiene (NBD) photoswitches functionalized with meta- and ortho-substituted pyridine and cyano groups are presented. These molecular systems can be con...", "citations": 1, "author_count": 6, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7420, "doi": "10.1002/cssc.202501005", "umap_coordinates": { "x": 392.7203063964844, "y": 135.9053955078125, "z": 205.4310302734375 }, "tsne_coordinates": { "x": 5.646734714508057, "y": 0.09593773633241653, "z": -4.554840087890625 }, "pca_coordinates": { "x": -2.0438146591186523, "y": -1.0334444046020508, "z": -0.451497882604599 }, "axis_scores": { "Quantum imaging": 0.7339207530021667, "Quantum Life Science Sensing": 0.7524529695510864, "Quantum sensing Detection": 0.7432563900947571, "Quantum sensing Metrology": 0.7346727848052979, "Quantum sensing navigation": 0.7121370434761047, "Quantum sensing Position": 0.7044912576675415, "Quantum sensing Timing": 0.7173354625701904, "Quantum sensing": 0.7572937607765198, "Quantum control": 0.73235023021698 } }, { "id": 7414, "title": "Simulating nonadiabatic dynamics in benzophenone: Tracing internal conversion through photoelectron spectra", "abstract": "Benzophenone serves as a prototype chromophore for studying the photochemistry of aromatic ketones, with applications ranging from biochemistry to organic light-emitting diodes. In particular, its int...", "citations": 1, "author_count": 4, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7421, "doi": "10.1063/5.0250153", "umap_coordinates": { "x": 392.7873229980469, "y": 136.46669006347656, "z": 206.5045166015625 }, "tsne_coordinates": { "x": -5.39724588394165, "y": 2.221351146697998, "z": 10.602521896362305 }, "pca_coordinates": { "x": 1.4062395095825195, "y": 0.4329991340637207, "z": -0.08434116840362549 }, "axis_scores": { "Quantum imaging": 0.7282630801200867, "Quantum Life Science Sensing": 0.711429238319397, "Quantum sensing Detection": 0.7026244401931763, "Quantum sensing Metrology": 0.6714551448822021, "Quantum sensing navigation": 0.7043440341949463, "Quantum sensing Position": 0.6806231737136841, "Quantum sensing Timing": 0.698900580406189, "Quantum sensing": 0.7079640030860901, "Quantum control": 0.7056676745414734 } }, { "id": 7415, "title": "HSQC Spectra Simulation and Matching for Molecular Identification", "abstract": "In the pursuit of improved compound identification and database search tasks, this study explores heteronuclear single quantum coherence (HSQC) spectra simulation and matching methodologies. HSQC spec...", "citations": 4, "author_count": 7, "categories": [ "Pharmacology & Pharmacy" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7422, "doi": "10.1021/acs.jcim.3c01735", "umap_coordinates": { "x": 393.09735107421875, "y": 137.09556579589844, "z": 205.26583862304688 }, "tsne_coordinates": { "x": 10.849146842956543, "y": 7.704813480377197, "z": 31.630889892578125 }, "pca_coordinates": { "x": -1.5171196460723877, "y": 1.4673418998718262, "z": -2.3265380859375 }, "axis_scores": { "Quantum imaging": 0.7247895002365112, "Quantum Life Science Sensing": 0.7492731213569641, "Quantum sensing Detection": 0.7112560272216797, "Quantum sensing Metrology": 0.713353157043457, "Quantum sensing navigation": 0.7042065858840942, "Quantum sensing Position": 0.6782084107398987, "Quantum sensing Timing": 0.6969000101089478, "Quantum sensing": 0.720883309841156, "Quantum control": 0.6958210468292236 } }, { "id": 7416, "title": "Sensing protein antigen and microvesicle analytes using high-capacity biopolymer nano-carriers", "abstract": "Lab-on-a-chip systems with molecular motor driven transport of analytes attached to cytoskeletal filament shuttles (actin filaments, microtubules) circumvent challenges with nanoscale liquid transport...", "citations": 19, "author_count": 9, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7423, "doi": "10.1039/c5an02377g", "umap_coordinates": { "x": 393.3379821777344, "y": 134.80747985839844, "z": 204.3223876953125 }, "tsne_coordinates": { "x": 18.459890365600586, "y": 24.99707794189453, "z": -9.768136024475098 }, "pca_coordinates": { "x": -3.0617470741271973, "y": -0.9341740608215332, "z": 0.0859573483467102 }, "axis_scores": { "Quantum imaging": 0.6817716360092163, "Quantum Life Science Sensing": 0.7165431976318359, "Quantum sensing Detection": 0.699287474155426, "Quantum sensing Metrology": 0.6876453161239624, "Quantum sensing navigation": 0.6935543417930603, "Quantum sensing Position": 0.675745964050293, "Quantum sensing Timing": 0.6424406170845032, "Quantum sensing": 0.6998854875564575, "Quantum control": 0.669251024723053 } }, { "id": 7417, "title": "A series of Zn(II) terpyridine complexes with enhanced two-photon-excited fluorescence for in vitro and in vivo bioimaging", "abstract": "It is still a challenge to obtain two-photon excited fluorescent bioimaging probes with intense emission, high photo-stability and low cytotoxicity. In the present work, four Zn(II)-coordinated comple...", "citations": 36, "author_count": 12, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7424, "doi": "10.1039/c5tb01185j", "umap_coordinates": { "x": 392.458740234375, "y": 134.9671630859375, "z": 204.6148681640625 }, "tsne_coordinates": { "x": 7.003509044647217, "y": 11.329803466796875, "z": -12.922327041625977 }, "pca_coordinates": { "x": -4.8014678955078125, "y": -1.8680634498596191, "z": -0.7471638917922974 }, "axis_scores": { "Quantum imaging": 0.7351648211479187, "Quantum Life Science Sensing": 0.7034849524497986, "Quantum sensing Detection": 0.6933983564376831, "Quantum sensing Metrology": 0.6806068420410156, "Quantum sensing navigation": 0.6810043454170227, "Quantum sensing Position": 0.6615832448005676, "Quantum sensing Timing": 0.6803231835365295, "Quantum sensing": 0.699860155582428, "Quantum control": 0.666637659072876 } }, { "id": 7418, "title": "Gain enhancement in a hybrid plasmonic nano-waveguide with a low-index or high-index gain medium", "abstract": "A theoretical investigation of a nano-scale hybrid plasmonic waveguide with a low-index as well as high-index gain medium is presented. The present hybrid plasmonic waveguide structure consists of a S...", "citations": 94, "author_count": 6, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7425, "doi": "10.1364/OE.19.012925", "umap_coordinates": { "x": 393.93707275390625, "y": 133.88551330566406, "z": 206.6503143310547 }, "tsne_coordinates": { "x": -0.16632764041423798, "y": -10.818321228027344, "z": -34.75521469116211 }, "pca_coordinates": { "x": -0.43060386180877686, "y": -1.0107049942016602, "z": 2.4920363426208496 }, "axis_scores": { "Quantum imaging": 0.7134835124015808, "Quantum Life Science Sensing": 0.6773146986961365, "Quantum sensing Detection": 0.6927497386932373, "Quantum sensing Metrology": 0.6844871640205383, "Quantum sensing navigation": 0.6832443475723267, "Quantum sensing Position": 0.661248505115509, "Quantum sensing Timing": 0.6332089900970459, "Quantum sensing": 0.7029714584350586, "Quantum control": 0.6638960838317871 } }, { "id": 7419, "title": "Bell-Boole Inequality: Nonlocality or Probabilistic Incompatibility of Random Variables?", "abstract": "The main aim of this report is to inform the quantum information community about investigations on the problem of probabilistic compatibility of a family of random variables: a possibility to realize ...", "citations": 55, "author_count": 2, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7426, "doi": "10.3390/entropy-e10020019", "umap_coordinates": { "x": 395.553466796875, "y": 137.47848510742188, "z": 206.02342224121094 }, "tsne_coordinates": { "x": -22.349008560180664, "y": -0.4159577190876007, "z": 10.17570972442627 }, "pca_coordinates": { "x": 2.0430824756622314, "y": 4.18993616104126, "z": -1.9533493518829346 }, "axis_scores": { "Quantum imaging": 0.733759880065918, "Quantum Life Science Sensing": 0.7513927221298218, "Quantum sensing Detection": 0.7462970018386841, "Quantum sensing Metrology": 0.7311863899230957, "Quantum sensing navigation": 0.7419798970222473, "Quantum sensing Position": 0.7310687303543091, "Quantum sensing Timing": 0.6968873739242554, "Quantum sensing": 0.7544674873352051, "Quantum control": 0.7180566191673279 } }, { "id": 7420, "title": "ANOMALOUS-H MOBILITY IN NBHXDY AND OTHER METAL-HYDROGEN SYSTEMS - PROTONIC COHERENT-DISSIPATIVE STRUCTURES", "abstract": "The possibility of protonic quantum effects in metal-hydrogen systems is discussed, in connection with current theoretical (Complex Scaling Method (CSM), Einstein-Podolsky-Rosen (EPR) correlations, co...", "citations": 1, "author_count": 2, "categories": [ "Chemistry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7427, "doi": "10.1002/bbpc.19920961144", "umap_coordinates": { "x": 393.1766052246094, "y": 136.6121368408203, "z": 207.7683563232422 }, "tsne_coordinates": { "x": 10.211461067199707, "y": 6.3317413330078125, "z": 23.486860275268555 }, "pca_coordinates": { "x": 2.2084217071533203, "y": 0.676823616027832, "z": -2.1446051597595215 }, "axis_scores": { "Quantum imaging": 0.7059001922607422, "Quantum Life Science Sensing": 0.6851420402526855, "Quantum sensing Detection": 0.6771303415298462, "Quantum sensing Metrology": 0.6590927243232727, "Quantum sensing navigation": 0.7062561511993408, "Quantum sensing Position": 0.6813404560089111, "Quantum sensing Timing": 0.6634407043457031, "Quantum sensing": 0.67976975440979, "Quantum control": 0.667844295501709 } }, { "id": 7421, "title": "Roadmap for optofluidics", "abstract": "Optofluidics, nominally the research area where optics and fluidics merge, is a relatively new research field and it is only in the last decade that there has been a large increase in the number of op...", "citations": 86, "author_count": 26, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7428, "doi": "10.1088/2040-8986/aa783b", "umap_coordinates": { "x": 394.67822265625, "y": 134.65480041503906, "z": 205.9210662841797 }, "tsne_coordinates": { "x": -14.388498306274414, "y": 1.3782528638839722, "z": -17.610870361328125 }, "pca_coordinates": { "x": -2.1873512268066406, "y": 1.6879855394363403, "z": 0.6596835255622864 }, "axis_scores": { "Quantum imaging": 0.700137734413147, "Quantum Life Science Sensing": 0.7199935913085938, "Quantum sensing Detection": 0.6767018437385559, "Quantum sensing Metrology": 0.7115553617477417, "Quantum sensing navigation": 0.706110417842865, "Quantum sensing Position": 0.6838346719741821, "Quantum sensing Timing": 0.6682624220848083, "Quantum sensing": 0.695106565952301, "Quantum control": 0.6647472381591797 } }, { "id": 7422, "title": "Loss channels in triplet-triplet annihilation photon upconversion: importance of annihilator singlet and triplet surface shapes", "abstract": "Triplet-triplet annihilation photon upconversion (TTA-UC) can, through a number of energy transfer processes, efficiently combine two low frequency photons into one photon of higher frequency. TTA-UC ...", "citations": 128, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7429, "doi": "10.1039/c7cp01368j", "umap_coordinates": { "x": 392.5539245605469, "y": 135.5345916748047, "z": 205.7207489013672 }, "tsne_coordinates": { "x": 0.6174038648605347, "y": -2.007103443145752, "z": -9.9555025100708 }, "pca_coordinates": { "x": -2.0453383922576904, "y": -1.3785338401794434, "z": 0.3642684817314148 }, "axis_scores": { "Quantum imaging": 0.6858715415000916, "Quantum Life Science Sensing": 0.6903453469276428, "Quantum sensing Detection": 0.6790217161178589, "Quantum sensing Metrology": 0.6572872996330261, "Quantum sensing navigation": 0.6348193287849426, "Quantum sensing Position": 0.629451334476471, "Quantum sensing Timing": 0.6473062038421631, "Quantum sensing": 0.6732961535453796, "Quantum control": 0.6395953893661499 } }, { "id": 7423, "title": "High-Tc SQUID vs. Low-Tc SQUID-Based Recordings on a Head Phantom: Benchmarking for Magnetoencephalography", "abstract": "We explore the potential that high critical-temperature (high-T-c) superconducting quantum interference device (SQUID) technology has for magnetic recordings of brain activity, i.e., magnetoencephalog...", "citations": 14, "author_count": 8, "categories": [ "Engineering" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7430, "doi": "10.1109/TASC.2014.2366420", "umap_coordinates": { "x": 394.5021057128906, "y": 134.1716766357422, "z": 206.0145263671875 }, "tsne_coordinates": { "x": -22.975879669189453, "y": 1.8658660650253296, "z": -20.99900245666504 }, "pca_coordinates": { "x": -0.819852888584137, "y": 1.691171407699585, "z": -0.24345561861991882 }, "axis_scores": { "Quantum imaging": 0.6842591166496277, "Quantum Life Science Sensing": 0.6929998397827148, "Quantum sensing Detection": 0.6694195866584778, "Quantum sensing Metrology": 0.6742209196090698, "Quantum sensing navigation": 0.6881830096244812, "Quantum sensing Position": 0.675875186920166, "Quantum sensing Timing": 0.7020885944366455, "Quantum sensing": 0.6873868703842163, "Quantum control": 0.6663232445716858 } }, { "id": 7424, "title": "A Potentiometric Biosensor for the Detection of Notch 3 Using Functionalized ZnO Nanorods", "abstract": "The notch signalling plays a vital and radical role for the activity of cellular proliferation, differentiation and apoptosis. In this study, for the first time a particular biosensor is developed for...", "citations": 4, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7431, "doi": "10.1166/jnn.2014.9374", "umap_coordinates": { "x": 393.6690979003906, "y": 134.10121154785156, "z": 205.3831329345703 }, "tsne_coordinates": { "x": 31.116558074951172, "y": 15.281232833862305, "z": -20.536216735839844 }, "pca_coordinates": { "x": -2.416454315185547, "y": 0.2877388000488281, "z": 1.629560947418213 }, "axis_scores": { "Quantum imaging": 0.6933562159538269, "Quantum Life Science Sensing": 0.7324011325836182, "Quantum sensing Detection": 0.7102081179618835, "Quantum sensing Metrology": 0.7003740668296814, "Quantum sensing navigation": 0.7429877519607544, "Quantum sensing Position": 0.6931681632995605, "Quantum sensing Timing": 0.6678943037986755, "Quantum sensing": 0.7214276194572449, "Quantum control": 0.6761068105697632 } }, { "id": 7425, "title": "Molecular engineering of fluorescent penicillins for molecularly imprinted polymer assays", "abstract": "The interaction of seven novel fluorescent labeled beta-lactams with a library of six polymer materials molecularly imprinted (MI) with penicillin G (PenG) has been evaluated using both radioactive an...", "citations": 62, "author_count": 7, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7432, "doi": "10.1021/ac051939b", "umap_coordinates": { "x": 393.05511474609375, "y": 134.69940185546875, "z": 203.97628784179688 }, "tsne_coordinates": { "x": 25.891359329223633, "y": 23.275428771972656, "z": -11.26950454711914 }, "pca_coordinates": { "x": -4.578307151794434, "y": 0.17052698135375977, "z": -0.49326401948928833 }, "axis_scores": { "Quantum imaging": 0.704613208770752, "Quantum Life Science Sensing": 0.7108288407325745, "Quantum sensing Detection": 0.6983437538146973, "Quantum sensing Metrology": 0.6952196955680847, "Quantum sensing navigation": 0.6834685802459717, "Quantum sensing Position": 0.6867259740829468, "Quantum sensing Timing": 0.6619612574577332, "Quantum sensing": 0.708680272102356, "Quantum control": 0.675447404384613 } }, { "id": 7426, "title": "Groove-binding unsymmetrical cyanine dyes for staining of DNA:: syntheses and characterization of the DNA-binding", "abstract": "Two new crescent-shaped unsymmetrical cyanine dyes have been synthesised and their interactions with DNA have been investigated by different spectroscopic methods. These dyes are analogues to a minor ...", "citations": 106, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7433, "doi": "10.1093/nar/gkg821", "umap_coordinates": { "x": 393.06842041015625, "y": 136.094482421875, "z": 204.79225158691406 }, "tsne_coordinates": { "x": 7.22440242767334, "y": 14.919429779052734, "z": 5.898272514343262 }, "pca_coordinates": { "x": -2.019505262374878, "y": 1.6175060272216797, "z": -1.5624663829803467 }, "axis_scores": { "Quantum imaging": 0.6900364756584167, "Quantum Life Science Sensing": 0.6880811452865601, "Quantum sensing Detection": 0.6787318587303162, "Quantum sensing Metrology": 0.6656659841537476, "Quantum sensing navigation": 0.7178574800491333, "Quantum sensing Position": 0.6715906262397766, "Quantum sensing Timing": 0.6420766115188599, "Quantum sensing": 0.6894600987434387, "Quantum control": 0.6613994240760803 } }, { "id": 7427, "title": "Magnetocardiographic localization of arrhythmia substrates: A methodology study with accessory pathway ablation as reference", "abstract": "In magnetocardiographic (MCG) localization of arrhythmia substrates, a model of the thorax as volume conductor is a crucial component of the calculations. In this study, we investigated different mode...", "citations": 9, "author_count": 8, "categories": [ "Computer Science" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7434, "doi": "10.1109/42.712138", "umap_coordinates": { "x": 394.9725646972656, "y": 134.43252563476562, "z": 205.12701416015625 }, "tsne_coordinates": { "x": -5.6500468254089355, "y": 23.86747169494629, "z": -2.5974009037017822 }, "pca_coordinates": { "x": -1.4060343503952026, "y": 2.6945695877075195, "z": -0.03670614957809448 }, "axis_scores": { "Quantum imaging": 0.6324677467346191, "Quantum Life Science Sensing": 0.64124995470047, "Quantum sensing Detection": 0.6251927018165588, "Quantum sensing Metrology": 0.6344170570373535, "Quantum sensing navigation": 0.636715829372406, "Quantum sensing Position": 0.6530807614326477, "Quantum sensing Timing": 0.6411498188972473, "Quantum sensing": 0.6365190744400024, "Quantum control": 0.6228402853012085 } }, { "id": 7428, "title": "Biosensors for the detection of protein kinases: Recent progress and challenges", "abstract": "Protein kinases act as a trigger for regulating a wide range of cellular processes including development, survival, apoptosis, control of metabolism, transcription signals, and beyond. These molecules...", "citations": 9, "author_count": 8, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7435, "doi": "10.1016/j.microc.2022.107961", "umap_coordinates": { "x": 393.56170654296875, "y": 134.3777618408203, "z": 204.1782684326172 }, "tsne_coordinates": { "x": 23.87855339050293, "y": 21.178932189941406, "z": -10.086870193481445 }, "pca_coordinates": { "x": -3.968510150909424, "y": 0.8222837448120117, "z": -1.017724871635437 }, "axis_scores": { "Quantum imaging": 0.6817126274108887, "Quantum Life Science Sensing": 0.727088212966919, "Quantum sensing Detection": 0.697371244430542, "Quantum sensing Metrology": 0.6926218271255493, "Quantum sensing navigation": 0.6816169023513794, "Quantum sensing Position": 0.674143373966217, "Quantum sensing Timing": 0.6680026650428772, "Quantum sensing": 0.7015427947044373, "Quantum control": 0.6618529558181763 } }, { "id": 7429, "title": "Engineering Single-Atom Active Sites on Covalent Organic Frameworks for Boosting CO2 Photoreduction", "abstract": "Solar carbon dioxide (CO2) conversion is an emerging solution to meet the challenges of sustainable energy systems and environmental/climate concerns. However, the construction of isolated active site...", "citations": 417, "author_count": 11, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7436, "doi": "10.1021/jacs.2c06920", "umap_coordinates": { "x": 391.8089599609375, "y": 134.25596618652344, "z": 205.2539825439453 }, "tsne_coordinates": { "x": 8.63664436340332, "y": 1.7008057832717896, "z": -22.063472747802734 }, "pca_coordinates": { "x": -2.725062608718872, "y": -3.02549409866333, "z": -2.0827035903930664 }, "axis_scores": { "Quantum imaging": 0.71682208776474, "Quantum Life Science Sensing": 0.7203153967857361, "Quantum sensing Detection": 0.7085559964179993, "Quantum sensing Metrology": 0.7016739249229431, "Quantum sensing navigation": 0.6986554861068726, "Quantum sensing Position": 0.6783591508865356, "Quantum sensing Timing": 0.686805784702301, "Quantum sensing": 0.7302722930908203, "Quantum control": 0.7320610880851746 } }, { "id": 7430, "title": "The role of kinetic inductance on the performance of YBCO SQUID magnetometers", "abstract": "Inductance is a key parameter when optimizing the performance of superconducting quantum interference device (SQUID) magnetometers made from the high temperature superconductor YBa2Cu3O7-x (YBCO) beca...", "citations": 19, "author_count": 9, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7437, "doi": "10.1088/1361-6668/ab6014", "umap_coordinates": { "x": 394.3474426269531, "y": 134.97752380371094, "z": 206.9916229248047 }, "tsne_coordinates": { "x": 9.160347938537598, "y": -18.780607223510742, "z": 35.265560150146484 }, "pca_coordinates": { "x": 0.4938054084777832, "y": 0.8401303291320801, "z": -1.0568329095840454 }, "axis_scores": { "Quantum imaging": 0.6650791764259338, "Quantum Life Science Sensing": 0.673430323600769, "Quantum sensing Detection": 0.6454600691795349, "Quantum sensing Metrology": 0.6509196758270264, "Quantum sensing navigation": 0.6727873682975769, "Quantum sensing Position": 0.6691230535507202, "Quantum sensing Timing": 0.6616991758346558, "Quantum sensing": 0.669395923614502, "Quantum control": 0.6482686996459961 } }, { "id": 7431, "title": "Revival of the Magnetar PSR J1622-4950: Observations with MeerKAT, Parkes, XMM-Newton, Swift, Chandra, and NuSTAR", "abstract": "New radio (MeerKAT and Parkes) and X-ray (XMM-Newton, Swift, Chandra, and NuSTAR) observations of PSR J1622-4950 indicate that the magnetar, in a quiescent state since at least early 2015, reactivated...", "citations": 131, "author_count": 209, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7438, "doi": "10.3847/1538-4357/aab35a", "umap_coordinates": { "x": 396.2107849121094, "y": 134.83892822265625, "z": 206.05081176757812 }, "tsne_coordinates": { "x": -32.9247932434082, "y": 22.996164321899414, "z": 2.7112021446228027 }, "pca_coordinates": { "x": -0.936996579170227, "y": 2.2033374309539795, "z": 1.5631742477416992 }, "axis_scores": { "Quantum imaging": 0.6669797897338867, "Quantum Life Science Sensing": 0.7012403607368469, "Quantum sensing Detection": 0.664113461971283, "Quantum sensing Metrology": 0.6806561946868896, "Quantum sensing navigation": 0.6879298686981201, "Quantum sensing Position": 0.6551463603973389, "Quantum sensing Timing": 0.6588287353515625, "Quantum sensing": 0.6675675511360168, "Quantum control": 0.6268109083175659 } }, { "id": 7432, "title": "Structure and photoluminescent features of di-amide cross-linked alkylene siloxane hybrids", "abstract": "Novel amide cross-linked alkylene-siloxane hybrid materials (di-amidosils) synthesized by the sol-gel process have been investigated. Two samples identified by the notation d-A(x) with x 5 4 and 8 (wh...", "citations": 46, "author_count": 11, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7439, "doi": "10.1039/b505372m", "umap_coordinates": { "x": 392.3406982421875, "y": 135.62686157226562, "z": 204.7621307373047 }, "tsne_coordinates": { "x": 13.705707550048828, "y": 11.249458312988281, "z": -25.42433738708496 }, "pca_coordinates": { "x": -2.1879513263702393, "y": -2.3048477172851562, "z": -1.597303867340088 }, "axis_scores": { "Quantum imaging": 0.6779690980911255, "Quantum Life Science Sensing": 0.7142776250839233, "Quantum sensing Detection": 0.6464454531669617, "Quantum sensing Metrology": 0.6417783498764038, "Quantum sensing navigation": 0.6362805366516113, "Quantum sensing Position": 0.6503331661224365, "Quantum sensing Timing": 0.5968986749649048, "Quantum sensing": 0.668380081653595, "Quantum control": 0.6338722109794617 } }, { "id": 7433, "title": "HYDRODYNAMIC PROPERTIES OF HUMAN CERVICAL-MUCUS GLYCOPROTEINS IN 6M-GUANIDINIUM CHLORIDE", "abstract": "Cervical mucins and fragments thereof were studied by sedimentation-velocity, rotatory viscometry and laser light-scattering performed as photon-correlation spectroscopy as well as low-angle total-int...", "citations": 83, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1984, "topic": [ "all" ], "embedding_index": 7440, "doi": "10.1042/bj2170093", "umap_coordinates": { "x": 393.873779296875, "y": 135.39735412597656, "z": 204.95956420898438 }, "tsne_coordinates": { "x": 20.31970977783203, "y": 21.541656494140625, "z": 24.667678833007812 }, "pca_coordinates": { "x": -1.649587631225586, "y": 1.8831301927566528, "z": -2.0477712154388428 }, "axis_scores": { "Quantum imaging": 0.6525514125823975, "Quantum Life Science Sensing": 0.6905002593994141, "Quantum sensing Detection": 0.6359824538230896, "Quantum sensing Metrology": 0.6359471678733826, "Quantum sensing navigation": 0.6769255995750427, "Quantum sensing Position": 0.6544560194015503, "Quantum sensing Timing": 0.6129904985427856, "Quantum sensing": 0.655340313911438, "Quantum control": 0.6504188179969788 } }, { "id": 7434, "title": "Intermodulation spectroscopy and the nonlinear response of two-level systems in superconducting coplanar-waveguide resonators", "abstract": "Two-level system (TLS) loss typically limits the coherence of superconducting quantum circuits. The loss induced by TLS defects is nonlinear, resulting in quality factors with a strong dependence on t...", "citations": 2, "author_count": 7, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7441, "doi": "10.1103/PhysRevApplied.22.014063", "umap_coordinates": { "x": 393.5223388671875, "y": 135.7609405517578, "z": 208.07357788085938 }, "tsne_coordinates": { "x": -7.126772403717041, "y": -19.6461238861084, "z": 4.166702747344971 }, "pca_coordinates": { "x": 3.6772236824035645, "y": -1.0062859058380127, "z": 1.128190040588379 }, "axis_scores": { "Quantum imaging": 0.7216096520423889, "Quantum Life Science Sensing": 0.7368102073669434, "Quantum sensing Detection": 0.7202268242835999, "Quantum sensing Metrology": 0.7174102663993835, "Quantum sensing navigation": 0.7132525444030762, "Quantum sensing Position": 0.7046142816543579, "Quantum sensing Timing": 0.7003287076950073, "Quantum sensing": 0.7234868407249451, "Quantum control": 0.6710701584815979 } }, { "id": 7435, "title": "Non-exponential decay kinetics: correct assessment and description illustrated by slow luminescence of Si nanostructures", "abstract": "The treatment of time-resolved (TR) photoluminescence (PL) decay kinetics is analysed in details and illustrated by experiments on semiconductor quantum dots, namely silicon nanocrystals (Si NCs). We ...", "citations": 34, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7442, "doi": "10.1080/05704928.2018.1517263", "umap_coordinates": { "x": 392.82501220703125, "y": 134.40081787109375, "z": 206.88784790039062 }, "tsne_coordinates": { "x": 26.472423553466797, "y": -9.596770286560059, "z": 20.021648406982422 }, "pca_coordinates": { "x": -2.3572187423706055, "y": -0.16629815101623535, "z": 0.13292264938354492 }, "axis_scores": { "Quantum imaging": 0.711161732673645, "Quantum Life Science Sensing": 0.7496627569198608, "Quantum sensing Detection": 0.7051404118537903, "Quantum sensing Metrology": 0.6807876229286194, "Quantum sensing navigation": 0.6983006596565247, "Quantum sensing Position": 0.6775059700012207, "Quantum sensing Timing": 0.6771833300590515, "Quantum sensing": 0.7061054110527039, "Quantum control": 0.6670778393745422 } }, { "id": 7436, "title": "LIGHT-SCATTERING-STUDIES OF THE GELATION PROCESS IN AN AQUEOUS SYSTEM OF A NONIONIC POLYMER AND A CATIONIC SURFACTANT", "abstract": "Static and dynamic light scattering studies are presented on the temperature induced sol-gel transition of an aqueous system of the non-ionic cellulose derivative ethyl hydroxyethyl cellulose in the p...", "citations": 52, "author_count": 5, "categories": [ "Polymer Science" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7443, "doi": "10.1016/0032-3861(92)90071-4", "umap_coordinates": { "x": 393.6645202636719, "y": 135.5547332763672, "z": 205.09002685546875 }, "tsne_coordinates": { "x": 14.567500114440918, "y": 16.327789306640625, "z": 16.904258728027344 }, "pca_coordinates": { "x": -2.5425009727478027, "y": 1.4351110458374023, "z": -1.2278878688812256 }, "axis_scores": { "Quantum imaging": 0.6426283717155457, "Quantum Life Science Sensing": 0.691137969493866, "Quantum sensing Detection": 0.6420960426330566, "Quantum sensing Metrology": 0.6290158629417419, "Quantum sensing navigation": 0.6489936113357544, "Quantum sensing Position": 0.6388267874717712, "Quantum sensing Timing": 0.6129344701766968, "Quantum sensing": 0.6533216238021851, "Quantum control": 0.6294437646865845 } }, { "id": 7437, "title": "A Glance at Novel Ionanofluids Incorporating Silk-Derived Carbon Dots", "abstract": "One of the hallmarks of the current efforts in the field of thermal energy is heat transfer enhancement. Ionanofluids (INFs), a combination of nanomaterials and ionic liquids (ILs), are an appealing c...", "citations": 5, "author_count": 11, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7444, "doi": "10.1021/acs.chemmater.3c01370", "umap_coordinates": { "x": 392.4224853515625, "y": 134.66024780273438, "z": 204.31878662109375 }, "tsne_coordinates": { "x": 21.37156105041504, "y": 12.589484214782715, "z": 8.885190963745117 }, "pca_coordinates": { "x": -2.405596971511841, "y": -2.3446550369262695, "z": -2.1978392601013184 }, "axis_scores": { "Quantum imaging": 0.7152571678161621, "Quantum Life Science Sensing": 0.7265657186508179, "Quantum sensing Detection": 0.7000571489334106, "Quantum sensing Metrology": 0.6704625487327576, "Quantum sensing navigation": 0.6892902851104736, "Quantum sensing Position": 0.6646680235862732, "Quantum sensing Timing": 0.6538383364677429, "Quantum sensing": 0.7112875580787659, "Quantum control": 0.692150890827179 } }, { "id": 7438, "title": "Implementing an Insect Brain Computational Circuit Using III-V Nanowire Components in a Single Shared Waveguide Optical Network", "abstract": "Recent developments in photonics include efficient nanoscale optoelectronic components and novel methods for subwavelength light manipulation. Here, we explore the potential offered by such devices as...", "citations": 15, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7445, "doi": "10.1021/acsphotonics.0c01003", "umap_coordinates": { "x": 393.8915100097656, "y": 133.19029235839844, "z": 206.96527099609375 }, "tsne_coordinates": { "x": 14.978166580200195, "y": -16.21544647216797, "z": -21.611900329589844 }, "pca_coordinates": { "x": -0.9939693212509155, "y": -1.9451618194580078, "z": 3.6552481651306152 }, "axis_scores": { "Quantum imaging": 0.7315072417259216, "Quantum Life Science Sensing": 0.6952394247055054, "Quantum sensing Detection": 0.708529531955719, "Quantum sensing Metrology": 0.7037346959114075, "Quantum sensing navigation": 0.7201058864593506, "Quantum sensing Position": 0.6715706586837769, "Quantum sensing Timing": 0.6727724671363831, "Quantum sensing": 0.718475341796875, "Quantum control": 0.6863480806350708 } }, { "id": 7439, "title": "The Low Molecular Mass Photosystem II Protein PsbTn Is Important for Light Acclimation", "abstract": "Photosystem II (PSII) is a supramolecular complex containing over 30 protein subunits and a large set of cofactors, including various pigments and quinones as well as Mn, Ca, Cl, and Fe ions. Eukaryot...", "citations": 20, "author_count": 8, "categories": [ "Plant Sciences" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7446, "doi": "10.1104/pp.18.01251", "umap_coordinates": { "x": 394.434326171875, "y": 136.3600616455078, "z": 204.035888671875 }, "tsne_coordinates": { "x": 8.92724323272705, "y": 33.99280548095703, "z": 6.562220573425293 }, "pca_coordinates": { "x": -0.41561180353164673, "y": 0.27014923095703125, "z": -0.5174304246902466 }, "axis_scores": { "Quantum imaging": 0.6900599598884583, "Quantum Life Science Sensing": 0.7278214693069458, "Quantum sensing Detection": 0.700142502784729, "Quantum sensing Metrology": 0.6896364688873291, "Quantum sensing navigation": 0.6942031383514404, "Quantum sensing Position": 0.6908549070358276, "Quantum sensing Timing": 0.6821572780609131, "Quantum sensing": 0.709311842918396, "Quantum control": 0.6887539625167847 } }, { "id": 7440, "title": "Triplet versus singlet chemiexcitation mechanism in dioxetanone: a CASSCF/CASPT2 study", "abstract": "Chemiluminescence is a fundamental process of chemistry consisting in the conversion of chemical energy stored in chemical bonds into light. It is used by nature and by man-made technology, being espe...", "citations": 6, "author_count": 5, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7447, "doi": "10.1007/s00214-017-2095-x", "umap_coordinates": { "x": 392.287353515625, "y": 136.36965942382812, "z": 205.5426025390625 }, "tsne_coordinates": { "x": -0.7668294310569763, "y": 6.506769180297852, "z": 3.9758360385894775 }, "pca_coordinates": { "x": -1.0012731552124023, "y": -0.760216236114502, "z": -2.6974079608917236 }, "axis_scores": { "Quantum imaging": 0.6685060262680054, "Quantum Life Science Sensing": 0.6751635074615479, "Quantum sensing Detection": 0.6736790537834167, "Quantum sensing Metrology": 0.6322241425514221, "Quantum sensing navigation": 0.6447036266326904, "Quantum sensing Position": 0.6293983459472656, "Quantum sensing Timing": 0.6580028533935547, "Quantum sensing": 0.6644515991210938, "Quantum control": 0.68268221616745 } }, { "id": 7441, "title": "Surface Properties of Nanocrystalline PbS Films Deposited at the Water-Oil Interface: A Study of Atmospheric Aging", "abstract": "Nanocrystalline thin films of PbS are obtained in a straightforward reaction by precipitation at the interface between toluene (containing a Pb precursor) and water (containing Na2S). Lead thiobiuret ...", "citations": 90, "author_count": 14, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7448, "doi": "10.1021/la504779h", "umap_coordinates": { "x": 392.8081970214844, "y": 135.22906494140625, "z": 204.60995483398438 }, "tsne_coordinates": { "x": 19.693368911743164, "y": 16.861797332763672, "z": 29.4150390625 }, "pca_coordinates": { "x": -2.091366767883301, "y": -1.7079200744628906, "z": -2.7074153423309326 }, "axis_scores": { "Quantum imaging": 0.6530513167381287, "Quantum Life Science Sensing": 0.7115087509155273, "Quantum sensing Detection": 0.6404945254325867, "Quantum sensing Metrology": 0.6282090544700623, "Quantum sensing navigation": 0.6664364337921143, "Quantum sensing Position": 0.6592046618461609, "Quantum sensing Timing": 0.6112467646598816, "Quantum sensing": 0.6620295643806458, "Quantum control": 0.6475613117218018 } }, { "id": 7442, "title": "Cosmic background radiation in the vicinity of a Schwarzschild black hole: No classic firewall", "abstract": "The cosmic blackbody background radiation pervades the entire Universe, and so falls into every astrophysical black hole. The blueshift of the infalling photons, measured by a static observer, is infi...", "citations": 7, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7449, "doi": "10.1103/PhysRevD.90.124024", "umap_coordinates": { "x": 395.8047180175781, "y": 136.4500732421875, "z": 206.6920623779297 }, "tsne_coordinates": { "x": -23.133394241333008, "y": -26.24578094482422, "z": 5.881799221038818 }, "pca_coordinates": { "x": 2.4916300773620605, "y": 2.6532504558563232, "z": -0.48440247774124146 }, "axis_scores": { "Quantum imaging": 0.6779012084007263, "Quantum Life Science Sensing": 0.7152109146118164, "Quantum sensing Detection": 0.6960589289665222, "Quantum sensing Metrology": 0.663360595703125, "Quantum sensing navigation": 0.7032294273376465, "Quantum sensing Position": 0.6914661526679993, "Quantum sensing Timing": 0.6892808079719543, "Quantum sensing": 0.6925386190414429, "Quantum control": 0.6692500710487366 } }, { "id": 7443, "title": "Activity assays of mammalian thioredoxin and thioredoxin reductase: Fluorescent disulfide substrates, mechanisms, and use with tissue samples", "abstract": "Thioredoxin (Trx) is a protein disulfide reductase that, together with nicotinamide adenine dinucleotide phosphate (NADPH) and thioredoxin reductase (TrxR), controls oxidative stress or redox signalin...", "citations": 50, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7450, "doi": "10.1016/j.ab.2013.12.025", "umap_coordinates": { "x": 393.8858642578125, "y": 134.62193298339844, "z": 204.1146240234375 }, "tsne_coordinates": { "x": 9.704527854919434, "y": 21.55123519897461, "z": -3.75726056098938 }, "pca_coordinates": { "x": -5.458983898162842, "y": 1.2456344366073608, "z": -0.9410783052444458 }, "axis_scores": { "Quantum imaging": 0.7031083703041077, "Quantum Life Science Sensing": 0.733829915523529, "Quantum sensing Detection": 0.6903437376022339, "Quantum sensing Metrology": 0.6831963062286377, "Quantum sensing navigation": 0.6729956269264221, "Quantum sensing Position": 0.6661345958709717, "Quantum sensing Timing": 0.6765744686126709, "Quantum sensing": 0.6960545182228088, "Quantum control": 0.6715151071548462 } }, { "id": 7444, "title": "Variation in responses to temperature treatments ex situ of the moss Pleurozium schreberi (Willd. ex Brid.) Mitt. originating from eight altitude sites in Hokkaido, Japan", "abstract": "Thermal acclimatisations are important for the survival and growth of individuals and populations but seldom studied for different populations of bryophytes. The aims of this study were to (I) investi...", "citations": 14, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7451, "doi": "10.1179/1743282014Y.0000000095", "umap_coordinates": { "x": 394.35693359375, "y": 136.00633239746094, "z": 204.06285095214844 }, "tsne_coordinates": { "x": 12.728167533874512, "y": 37.16104507446289, "z": 13.815412521362305 }, "pca_coordinates": { "x": -0.9361919164657593, "y": 2.3586411476135254, "z": -2.217886447906494 }, "axis_scores": { "Quantum imaging": 0.6470250487327576, "Quantum Life Science Sensing": 0.6789753437042236, "Quantum sensing Detection": 0.6292568445205688, "Quantum sensing Metrology": 0.6308386921882629, "Quantum sensing navigation": 0.6531236171722412, "Quantum sensing Position": 0.6616026163101196, "Quantum sensing Timing": 0.6774503588676453, "Quantum sensing": 0.6511912941932678, "Quantum control": 0.6588140726089478 } }, { "id": 7445, "title": "COLD-HARDENING-INDUCED RESISTANCE TO PHOTOINHIBITION OF PHOTOSYNTHESIS IN WINTER RYE IS DEPENDENT UPON AN INCREASED CAPACITY FOR PHOTOSYNTHESIS", "abstract": "Analyses of chlorophyll fluorescence and photosynthetic oxygen evolution were conducted to understand why cold-hardened winter rye (Secale cereale L.) is more resistant to photoinhibition of photosynt...", "citations": 139, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1993, "topic": [ "all" ], "embedding_index": 7452, "doi": null, "umap_coordinates": { "x": 391.80279541015625, "y": 139.6041717529297, "z": 209.7669219970703 }, "tsne_coordinates": { "x": -0.9545804858207703, "y": 45.09405517578125, "z": -0.9658545851707458 }, "pca_coordinates": { "x": -2.4442920684814453, "y": 3.2247209548950195, "z": -3.1755104064941406 }, "axis_scores": { "Quantum imaging": 0.7095192074775696, "Quantum Life Science Sensing": 0.7369141578674316, "Quantum sensing Detection": 0.7131441235542297, "Quantum sensing Metrology": 0.6944900751113892, "Quantum sensing navigation": 0.7071610689163208, "Quantum sensing Position": 0.6693586111068726, "Quantum sensing Timing": 0.6837162971496582, "Quantum sensing": 0.7295828461647034, "Quantum control": 0.7356710433959961 } }, { "id": 7446, "title": "Stent appearance in a novel silicon-based photon-counting CT prototype: ex vivo phantom study in head-to-head comparison with conventional energy-integrating CT", "abstract": "BackgroundIn this study, stent appearance in a novel silicon-based photon-counting computed tomography (Si-PCCT) prototype was compared with a conventional energy-integrating detector CT (EIDCT) syste...", "citations": 14, "author_count": 13, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7453, "doi": "10.1186/s41747-023-00333-0", "umap_coordinates": { "x": 395.41168212890625, "y": 132.8858184814453, "z": 205.04689025878906 }, "tsne_coordinates": { "x": -7.198548793792725, "y": 23.861059188842773, "z": -12.857373237609863 }, "pca_coordinates": { "x": -3.2887914180755615, "y": 3.075235366821289, "z": 2.5486528873443604 }, "axis_scores": { "Quantum imaging": 0.6876718997955322, "Quantum Life Science Sensing": 0.6779710054397583, "Quantum sensing Detection": 0.6579342484474182, "Quantum sensing Metrology": 0.6319299340248108, "Quantum sensing navigation": 0.6577226519584656, "Quantum sensing Position": 0.6511209011077881, "Quantum sensing Timing": 0.6544535160064697, "Quantum sensing": 0.6543537378311157, "Quantum control": 0.6152157783508301 } }, { "id": 7447, "title": "Probing strain in wurtzite InP-InAs core-shell nanowires with Raman spectroscopy", "abstract": "We used Raman spectroscopy to investigate phonon modes of single InP-InAs core-shell nanowire with a pure wurtzite phase to reveal the embedded strained state. Raman spectra show that the InP core exh...", "citations": 4, "author_count": 7, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7454, "doi": "10.1103/PhysRevB.104.235309", "umap_coordinates": { "x": 392.4308776855469, "y": 134.42369079589844, "z": 208.51712036132812 }, "tsne_coordinates": { "x": 23.037857055664062, "y": -15.97313404083252, "z": 6.041869163513184 }, "pca_coordinates": { "x": 2.474822998046875, "y": -4.045832633972168, "z": 2.967749834060669 }, "axis_scores": { "Quantum imaging": 0.698363184928894, "Quantum Life Science Sensing": 0.6971715092658997, "Quantum sensing Detection": 0.7003670334815979, "Quantum sensing Metrology": 0.7013306617736816, "Quantum sensing navigation": 0.7114578485488892, "Quantum sensing Position": 0.6935864686965942, "Quantum sensing Timing": 0.6682339906692505, "Quantum sensing": 0.7095876336097717, "Quantum control": 0.6630659699440002 } }, { "id": 7448, "title": "Turn-off mode fluorescent norbornadiene-based photoswitches", "abstract": "Single-molecule fluorescence emission of certain positive photochromic systems such as diarylethenes have been exploited for biological imaging and optical memory storage applications. However, there ...", "citations": 26, "author_count": 6, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7455, "doi": "10.1039/c8cp04329a", "umap_coordinates": { "x": 392.0484619140625, "y": 135.79486083984375, "z": 205.43836975097656 }, "tsne_coordinates": { "x": 2.980246067047119, "y": 2.9815216064453125, "z": -5.819511413574219 }, "pca_coordinates": { "x": -1.9379949569702148, "y": -1.7490315437316895, "z": -1.9342765808105469 }, "axis_scores": { "Quantum imaging": 0.7138413786888123, "Quantum Life Science Sensing": 0.7366260290145874, "Quantum sensing Detection": 0.7286840677261353, "Quantum sensing Metrology": 0.6817842125892639, "Quantum sensing navigation": 0.6957705616950989, "Quantum sensing Position": 0.6797740459442139, "Quantum sensing Timing": 0.6704211831092834, "Quantum sensing": 0.7239184379577637, "Quantum control": 0.7144103646278381 } }, { "id": 7449, "title": "Ultrafast relaxation dynamics of charge carriers relaxation in ZnO nanocrystalline thin films", "abstract": "Ultrafast spectroscopy has been used to study the relaxation processes of charge carriers in ZnO nanocrystalline thin films. A broad red-IR absorption band linked to shallowly trapped electrons was ob...", "citations": 124, "author_count": 5, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7456, "doi": "10.1016/j.cplett.2004.01.106", "umap_coordinates": { "x": 392.6580505371094, "y": 135.97457885742188, "z": 206.70840454101562 }, "tsne_coordinates": { "x": 13.676286697387695, "y": 2.1056747436523438, "z": 6.696926593780518 }, "pca_coordinates": { "x": 0.10229873657226562, "y": -1.3387908935546875, "z": -2.922513961791992 }, "axis_scores": { "Quantum imaging": 0.7159357070922852, "Quantum Life Science Sensing": 0.7486713528633118, "Quantum sensing Detection": 0.7053273916244507, "Quantum sensing Metrology": 0.6780846118927002, "Quantum sensing navigation": 0.7078699469566345, "Quantum sensing Position": 0.6859210729598999, "Quantum sensing Timing": 0.695678174495697, "Quantum sensing": 0.7196096777915955, "Quantum control": 0.7004883885383606 } }, { "id": 7450, "title": "Hearing the Shape of the Ising Model with a Programmable Superconducting-Flux Annealer", "abstract": "Two objects can be distinguished if they have different measurable properties. Thus, distinguishability depends on the Physics of the objects. In considering graphs, we revisit the Ising model as a fr...", "citations": 26, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7457, "doi": "10.1038/srep05703", "umap_coordinates": { "x": 394.7729187011719, "y": 137.09523010253906, "z": 205.50033569335938 }, "tsne_coordinates": { "x": -20.72883415222168, "y": 6.330831050872803, "z": 21.7065372467041 }, "pca_coordinates": { "x": -0.4956929683685303, "y": 1.817853331565857, "z": 0.9590346217155457 }, "axis_scores": { "Quantum imaging": 0.7014678716659546, "Quantum Life Science Sensing": 0.7050611972808838, "Quantum sensing Detection": 0.6894217133522034, "Quantum sensing Metrology": 0.6917634606361389, "Quantum sensing navigation": 0.714555025100708, "Quantum sensing Position": 0.7005924582481384, "Quantum sensing Timing": 0.7051193714141846, "Quantum sensing": 0.7136533856391907, "Quantum control": 0.6732730269432068 } }, { "id": 7451, "title": "Vibrational relaxation in CO plus He collisions: Sensitivity to interaction potential and details of quantum calculations", "abstract": "The present work investigates the sensitivity of cross sections for vibrational relaxation in He+CO collisions to details of quantum coupled-states calculations and the choice of vibrational wave func...", "citations": 23, "author_count": 2, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7458, "doi": "10.1063/1.1451062", "umap_coordinates": { "x": 393.33538818359375, "y": 137.15797424316406, "z": 207.0028076171875 }, "tsne_coordinates": { "x": -7.043952465057373, "y": 7.5052642822265625, "z": 35.10966491699219 }, "pca_coordinates": { "x": 2.661919593811035, "y": 0.5280841588973999, "z": -1.8464345932006836 }, "axis_scores": { "Quantum imaging": 0.7259694337844849, "Quantum Life Science Sensing": 0.7264645099639893, "Quantum sensing Detection": 0.726959228515625, "Quantum sensing Metrology": 0.7018237709999084, "Quantum sensing navigation": 0.6983018517494202, "Quantum sensing Position": 0.6928961277008057, "Quantum sensing Timing": 0.7107225060462952, "Quantum sensing": 0.7373214364051819, "Quantum control": 0.729995846748352 } }, { "id": 7452, "title": "TEMPERATURE-DEPENDENCE OF THE APPARENT SIZES OF MONOLAYER FLAT ISLANDS IN CATHODOLUMINESCENCE IMAGES OF QUANTUM-WELLS", "abstract": "The sample temperature influences the resolution in cathodoluminescence images and, thereby, the apparent island size in monolayer-flat (ML-flat) areas in quantum wells (QWS). Two peaks originate in t...", "citations": 1, "author_count": 3, "categories": [ "Engineering" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7459, "doi": "10.1088/0268-1242/10/4/008", "umap_coordinates": { "x": 392.965576171875, "y": 134.65309143066406, "z": 207.13674926757812 }, "tsne_coordinates": { "x": 35.07715606689453, "y": -4.585616588592529, "z": -1.532723307609558 }, "pca_coordinates": { "x": -0.6358224153518677, "y": -0.07557797431945801, "z": -0.2595328092575073 }, "axis_scores": { "Quantum imaging": 0.7244142889976501, "Quantum Life Science Sensing": 0.7080839276313782, "Quantum sensing Detection": 0.6880794167518616, "Quantum sensing Metrology": 0.6848332285881042, "Quantum sensing navigation": 0.6794525384902954, "Quantum sensing Position": 0.6912010312080383, "Quantum sensing Timing": 0.6801343560218811, "Quantum sensing": 0.7021149396896362, "Quantum control": 0.6728229522705078 } }, { "id": 7453, "title": "Resonant states in doped quantum wells", "abstract": "Resonant states can have an important influence on the electronic transport, noise and optical properties of heterostructure devices. We have used a non-variational method to study the resonant states...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7460, "doi": "10.1002/pssb.200301528", "umap_coordinates": { "x": 392.7760009765625, "y": 135.20179748535156, "z": 207.88156127929688 }, "tsne_coordinates": { "x": 27.78520965576172, "y": -5.302015781402588, "z": 17.895275115966797 }, "pca_coordinates": { "x": 1.6629242897033691, "y": -2.840653419494629, "z": 0.17652636766433716 }, "axis_scores": { "Quantum imaging": 0.7454855442047119, "Quantum Life Science Sensing": 0.7426847219467163, "Quantum sensing Detection": 0.7561906576156616, "Quantum sensing Metrology": 0.7423240542411804, "Quantum sensing navigation": 0.7557389736175537, "Quantum sensing Position": 0.7377763390541077, "Quantum sensing Timing": 0.718917965888977, "Quantum sensing": 0.762496292591095, "Quantum control": 0.7178323268890381 } }, { "id": 7454, "title": "Search for disoriented chiral condensates in 158 AGeV Pb+Pb collisions", "abstract": "The restoration of chiral symmetry and its subsequent breaking through a phase transition has been predicted to create regions of Disoriented Chiral Condensates (DCC). This phenomenon has been predict...", "citations": 66, "author_count": 164, "categories": [ "Astronomy & Astrophysics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7461, "doi": "10.1016/S0370-2693(97)01528-1", "umap_coordinates": { "x": 396.80828857421875, "y": 134.8682098388672, "z": 207.1908721923828 }, "tsne_coordinates": { "x": -36.00304412841797, "y": 0.5530648827552795, "z": -8.518045425415039 }, "pca_coordinates": { "x": -0.5360103845596313, "y": 2.3135712146759033, "z": -0.2344958782196045 }, "axis_scores": { "Quantum imaging": 0.6332157254219055, "Quantum Life Science Sensing": 0.6116330027580261, "Quantum sensing Detection": 0.6171890497207642, "Quantum sensing Metrology": 0.605008602142334, "Quantum sensing navigation": 0.6572838425636292, "Quantum sensing Position": 0.6536699533462524, "Quantum sensing Timing": 0.6319788098335266, "Quantum sensing": 0.611848771572113, "Quantum control": 0.6141241788864136 } }, { "id": 7455, "title": "High-frequency capacitance of bipolar resonant tunneling diodes", "abstract": "The high-frequency characteristics of bipolar resonant tunneling diodes are experimentally investigated at room temperature. The electron accumulation and discharging in these resonant tunneling light...", "citations": 2, "author_count": 7, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7462, "doi": "10.1063/1.360870", "umap_coordinates": { "x": 393.7992248535156, "y": 134.2960968017578, "z": 208.3961181640625 }, "tsne_coordinates": { "x": 27.969921112060547, "y": -30.669837951660156, "z": 0.1682879775762558 }, "pca_coordinates": { "x": 1.6110360622406006, "y": -1.939307689666748, "z": -0.759192705154419 }, "axis_scores": { "Quantum imaging": 0.695885419845581, "Quantum Life Science Sensing": 0.7338676452636719, "Quantum sensing Detection": 0.7133982181549072, "Quantum sensing Metrology": 0.7072547078132629, "Quantum sensing navigation": 0.6850292086601257, "Quantum sensing Position": 0.6802706718444824, "Quantum sensing Timing": 0.6963620781898499, "Quantum sensing": 0.728668749332428, "Quantum control": 0.6963673830032349 } }, { "id": 7456, "title": "High internal quantum efficiency of long wavelength InGaN quantum wells", "abstract": "Time-resolved and quasi-cw photoluminescence (PL) spectroscopy was applied to measure the internal quantum efficiency (IQE) of c-plane InGaN single quantum wells (QWs) grown on sapphire substrates usi...", "citations": 16, "author_count": 8, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7463, "doi": "10.1063/5.0063237", "umap_coordinates": { "x": 393.15667724609375, "y": 133.27078247070312, "z": 206.98065185546875 }, "tsne_coordinates": { "x": 31.250967025756836, "y": -23.753154754638672, "z": -6.0060553550720215 }, "pca_coordinates": { "x": 0.02383744716644287, "y": -3.8513903617858887, "z": 3.711784839630127 }, "axis_scores": { "Quantum imaging": 0.7282114028930664, "Quantum Life Science Sensing": 0.7203491926193237, "Quantum sensing Detection": 0.7092558145523071, "Quantum sensing Metrology": 0.7075832486152649, "Quantum sensing navigation": 0.6976553201675415, "Quantum sensing Position": 0.6754263043403625, "Quantum sensing Timing": 0.6691550612449646, "Quantum sensing": 0.725887656211853, "Quantum control": 0.6701133251190186 } }, { "id": 7457, "title": "Search for entanglement in the decay dynamics and anisotropic emission of a pair of H(2p) atoms produced by XUV photodissociation of H2", "abstract": "The production of pairs of correlated Lyman-alpha photons upon XUV excitation of molecular hydrogen is studied using coincidence measurements to evaluate at which level the entanglement is transferred...", "citations": 2, "author_count": 5, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7464, "doi": "10.1103/PhysRevA.107.013109", "umap_coordinates": { "x": 395.874755859375, "y": 135.32830810546875, "z": 207.84738159179688 }, "tsne_coordinates": { "x": -11.958922386169434, "y": -8.752215385437012, "z": -0.5310873985290527 }, "pca_coordinates": { "x": 2.9540343284606934, "y": 0.3724477291107178, "z": 0.5496200919151306 }, "axis_scores": { "Quantum imaging": 0.7291171550750732, "Quantum Life Science Sensing": 0.7192946672439575, "Quantum sensing Detection": 0.7167299389839172, "Quantum sensing Metrology": 0.6844522953033447, "Quantum sensing navigation": 0.7132412195205688, "Quantum sensing Position": 0.6940395832061768, "Quantum sensing Timing": 0.6846266984939575, "Quantum sensing": 0.7195349335670471, "Quantum control": 0.7018470764160156 } }, { "id": 7458, "title": "Accuracy and precision of the RABBIT technique", "abstract": "One of the most ubiquitous techniques within attosecond science is the so-called reconstruction of attosecond beating by interference of two-photon transitions (RABBIT). Originally proposed for the ch...", "citations": 38, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7465, "doi": "10.1098/rsta.2017.0475", "umap_coordinates": { "x": 394.9287414550781, "y": 135.15733337402344, "z": 204.91587829589844 }, "tsne_coordinates": { "x": -11.067866325378418, "y": 31.74535369873047, "z": 19.336421966552734 }, "pca_coordinates": { "x": -2.8562397956848145, "y": 4.083459854125977, "z": 1.6755151748657227 }, "axis_scores": { "Quantum imaging": 0.6824427247047424, "Quantum Life Science Sensing": 0.6964203715324402, "Quantum sensing Detection": 0.6871260404586792, "Quantum sensing Metrology": 0.6851762533187866, "Quantum sensing navigation": 0.6965890526771545, "Quantum sensing Position": 0.7187067270278931, "Quantum sensing Timing": 0.7127271890640259, "Quantum sensing": 0.6982320547103882, "Quantum control": 0.6677808165550232 } }, { "id": 7459, "title": "Regional V(over-dot)A/Q(over-dot) ratios in man using 133Xe and single photon emission computed tomography (SPECT) corrected for attenuation", "abstract": "We describe a technique to obtain non-invasively regional pulmonary ventilation-perfusion ratios ((V)over dot(A)/(Q)over dot) using single photon emission computed tomography (SPECT) and continuous in...", "citations": 14, "author_count": 6, "categories": [ "Physiology" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7466, "doi": null, "umap_coordinates": { "x": 391.9652404785156, "y": 139.32562255859375, "z": 209.5561065673828 }, "tsne_coordinates": { "x": -3.8734748363494873, "y": 41.02603530883789, "z": -0.7249634265899658 }, "pca_coordinates": { "x": -2.1450514793395996, "y": 3.698629140853882, "z": -1.6583342552185059 }, "axis_scores": { "Quantum imaging": 0.7818732857704163, "Quantum Life Science Sensing": 0.7782362103462219, "Quantum sensing Detection": 0.7760260105133057, "Quantum sensing Metrology": 0.7650924324989319, "Quantum sensing navigation": 0.7787157893180847, "Quantum sensing Position": 0.7405691146850586, "Quantum sensing Timing": 0.7277836203575134, "Quantum sensing": 0.7889910936355591, "Quantum control": 0.786507785320282 } }, { "id": 7460, "title": "Full optoelectronic simulation of nanowire LEDs: Effects of temperature", "abstract": "Nanowires (NWs) have potential to enable new types of light-emitting diodes (LEDs), which also entail challenges for the development of improved full device simulation models. In this work we calculat...", "citations": 1, "author_count": 5, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7467, "doi": null, "umap_coordinates": { "x": 391.6969299316406, "y": 139.31103515625, "z": 209.73484802246094 }, "tsne_coordinates": { "x": -6.348455905914307, "y": 47.292205810546875, "z": -8.954933166503906 }, "pca_coordinates": { "x": -2.3074917793273926, "y": 1.003226637840271, "z": -0.17596161365509033 }, "axis_scores": { "Quantum imaging": 0.727670431137085, "Quantum Life Science Sensing": 0.7328113913536072, "Quantum sensing Detection": 0.7150623798370361, "Quantum sensing Metrology": 0.7167618274688721, "Quantum sensing navigation": 0.7157174944877625, "Quantum sensing Position": 0.6919404864311218, "Quantum sensing Timing": 0.6941137909889221, "Quantum sensing": 0.7304190397262573, "Quantum control": 0.7111924290657043 } }, { "id": 7461, "title": "Ionization Branching Ratio Control with a Resonance Attosecond Clock", "abstract": "We investigate the possibility to monitor the dynamics of autoionizing states in real-time and control the yields of different ionization channels in helium by simulating extreme ultraviolet (XUV) pum...", "citations": 59, "author_count": 3, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7468, "doi": "10.1103/PhysRevLett.105.053002", "umap_coordinates": { "x": 395.1463928222656, "y": 135.70693969726562, "z": 207.52392578125 }, "tsne_coordinates": { "x": -11.19086742401123, "y": -9.966301918029785, "z": -3.615095615386963 }, "pca_coordinates": { "x": 2.4910407066345215, "y": 1.370645523071289, "z": 0.8952519297599792 }, "axis_scores": { "Quantum imaging": 0.6988382339477539, "Quantum Life Science Sensing": 0.7186912298202515, "Quantum sensing Detection": 0.7117160558700562, "Quantum sensing Metrology": 0.6903712153434753, "Quantum sensing navigation": 0.7031992673873901, "Quantum sensing Position": 0.6771198511123657, "Quantum sensing Timing": 0.731123149394989, "Quantum sensing": 0.7103680968284607, "Quantum control": 0.7355904579162598 } }, { "id": 7462, "title": "Quantum chemical study of coherent electron transport in oligophenylene molecular junctions of different lengths", "abstract": "The coherent electron transportation properties of the gold-oligophenylene-gold junctions of different lengths have been studied by means of a generalized quantum chemical approach. The experimentally...", "citations": 21, "author_count": 4, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7469, "doi": "10.1016/j.cplett.2005.07.021", "umap_coordinates": { "x": 392.8926086425781, "y": 135.51414489746094, "z": 206.82412719726562 }, "tsne_coordinates": { "x": -10.545943260192871, "y": 6.3102288246154785, "z": 14.15939712524414 }, "pca_coordinates": { "x": 0.6507933139801025, "y": -1.7126612663269043, "z": 0.9547720551490784 }, "axis_scores": { "Quantum imaging": 0.7585052251815796, "Quantum Life Science Sensing": 0.7409531474113464, "Quantum sensing Detection": 0.7413008213043213, "Quantum sensing Metrology": 0.7024294137954712, "Quantum sensing navigation": 0.7443335652351379, "Quantum sensing Position": 0.7363451719284058, "Quantum sensing Timing": 0.7241185903549194, "Quantum sensing": 0.7465146780014038, "Quantum control": 0.7277998328208923 } }, { "id": 7463, "title": "Boosting Membrane Interactions and Antimicrobial Effects of Photocatalytic Titanium Dioxide Nanoparticles by Peptide Coating", "abstract": "Photocatalytic nanoparticles offer antimicrobial effects under illumination due to the formation of reactive oxygen species (ROS), capable of degrading bacterial membranes. ROS may, however, also degr...", "citations": 35, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7470, "doi": "10.1002/smll.202309496", "umap_coordinates": { "x": 393.2457580566406, "y": 134.31216430664062, "z": 204.28656005859375 }, "tsne_coordinates": { "x": 23.718120574951172, "y": 20.54999542236328, "z": 5.146460056304932 }, "pca_coordinates": { "x": -5.091207504272461, "y": -1.0378365516662598, "z": -1.4474009275436401 }, "axis_scores": { "Quantum imaging": 0.6742273569107056, "Quantum Life Science Sensing": 0.6974955797195435, "Quantum sensing Detection": 0.6547433137893677, "Quantum sensing Metrology": 0.6627101898193359, "Quantum sensing navigation": 0.6497741937637329, "Quantum sensing Position": 0.6481181383132935, "Quantum sensing Timing": 0.6313921213150024, "Quantum sensing": 0.6696701049804688, "Quantum control": 0.6538323163986206 } }, { "id": 7464, "title": "Developing Insoluble Polyoxometalate Clusters to Bridge Homogeneous and Heterogeneous Water Oxidation Photocatalysis", "abstract": "Cluster catalysts are attractive for their atomically precise structures, defined compositions, tunable coordination environments, uniform active sites, and their ability to transfer multiple electron...", "citations": 31, "author_count": 11, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7471, "doi": "10.1002/anie.202303290", "umap_coordinates": { "x": 392.20263671875, "y": 134.1708984375, "z": 204.78164672851562 }, "tsne_coordinates": { "x": 21.785001754760742, "y": 6.5991387367248535, "z": -0.7586612701416016 }, "pca_coordinates": { "x": -1.8539668321609497, "y": -1.234147548675537, "z": -2.7840700149536133 }, "axis_scores": { "Quantum imaging": 0.6972158551216125, "Quantum Life Science Sensing": 0.7004070281982422, "Quantum sensing Detection": 0.6685777306556702, "Quantum sensing Metrology": 0.6629552245140076, "Quantum sensing navigation": 0.6722519993782043, "Quantum sensing Position": 0.6377343535423279, "Quantum sensing Timing": 0.6326256990432739, "Quantum sensing": 0.6889766454696655, "Quantum control": 0.6808502674102783 } }, { "id": 7465, "title": "Salt Stress Induces Paramylon Accumulation and Fine-Tuning of the Macro-Organization of Thylakoid Membranes in Euglena gracilis Cells", "abstract": "The effects of salt stress condition on the growth, morphology, photosynthetic performance, and paramylon content were examined in the mixotrophic, unicellular, flagellate Euglena gracilis. We found t...", "citations": 7, "author_count": 15, "categories": [ "Plant Sciences" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7472, "doi": "10.3389/fpls.2021.725699", "umap_coordinates": { "x": 393.9662780761719, "y": 136.10923767089844, "z": 203.62838745117188 }, "tsne_coordinates": { "x": 16.091310501098633, "y": 34.88408279418945, "z": 9.049549102783203 }, "pca_coordinates": { "x": -3.0273194313049316, "y": 1.2912908792495728, "z": -3.3636972904205322 }, "axis_scores": { "Quantum imaging": 0.6783488988876343, "Quantum Life Science Sensing": 0.7349064946174622, "Quantum sensing Detection": 0.681891679763794, "Quantum sensing Metrology": 0.6892072558403015, "Quantum sensing navigation": 0.6750556230545044, "Quantum sensing Position": 0.6612581014633179, "Quantum sensing Timing": 0.6475340723991394, "Quantum sensing": 0.6978175044059753, "Quantum control": 0.6668550968170166 } }, { "id": 7466, "title": "Operating a triple stack microchannel plate-phosphor assembly for single particle counting in the 12-300 K temperature range", "abstract": "An assembly consisting of a stack of three microchannel plates (MCPs) and a phosphor screen anode has been operated over the temperature range from 300 to 12 K. We report on measurements at 6.4 kHz (u...", "citations": 36, "author_count": 11, "categories": [ "Instruments & Instrumentation" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7473, "doi": "10.1063/1.2814030", "umap_coordinates": { "x": 394.52734375, "y": 133.6997528076172, "z": 207.7713623046875 }, "tsne_coordinates": { "x": 7.746750354766846, "y": -19.548784255981445, "z": -16.7073917388916 }, "pca_coordinates": { "x": -1.148206353187561, "y": -1.1353604793548584, "z": 2.12528133392334 }, "axis_scores": { "Quantum imaging": 0.6942042708396912, "Quantum Life Science Sensing": 0.7131667733192444, "Quantum sensing Detection": 0.6920573711395264, "Quantum sensing Metrology": 0.7140163779258728, "Quantum sensing navigation": 0.6754690408706665, "Quantum sensing Position": 0.6789719462394714, "Quantum sensing Timing": 0.6757456064224243, "Quantum sensing": 0.7072731256484985, "Quantum control": 0.6639307737350464 } }, { "id": 7467, "title": "Disease-causing mutations in the cellular retinaldehyde binding protein tighten and abolish ligand interactions", "abstract": "Mutations in the human cellular retinaldehyde binding Protein (CRALBP) gene cause retinal pathology. To understand the molecular basis of impaired CRALBP function, we have characterized human recombin...", "citations": 63, "author_count": 15, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7474, "doi": "10.1074/jbc.M207300200", "umap_coordinates": { "x": 394.75848388671875, "y": 135.54762268066406, "z": 204.3358154296875 }, "tsne_coordinates": { "x": 4.725991725921631, "y": 25.134164810180664, "z": 20.224340438842773 }, "pca_coordinates": { "x": -0.5479236245155334, "y": 1.4557840824127197, "z": -2.145707607269287 }, "axis_scores": { "Quantum imaging": 0.7039024233818054, "Quantum Life Science Sensing": 0.7062634229660034, "Quantum sensing Detection": 0.6922493577003479, "Quantum sensing Metrology": 0.686144232749939, "Quantum sensing navigation": 0.6974838972091675, "Quantum sensing Position": 0.6892366409301758, "Quantum sensing Timing": 0.6686177849769592, "Quantum sensing": 0.7000170946121216, "Quantum control": 0.6854751110076904 } }, { "id": 7468, "title": "X-ray imaging performance of scintillator-filled silicon pore arrays", "abstract": "The need for fine detail visibility in various applications such as dental imaging, mammography, but also neurology and cardiology, is the driver for intensive efforts in the development of new x-ray ...", "citations": 51, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7475, "doi": "10.1118/1.2839441", "umap_coordinates": { "x": 395.2016906738281, "y": 132.78402709960938, "z": 205.76034545898438 }, "tsne_coordinates": { "x": -15.146065711975098, "y": 15.698502540588379, "z": -25.57648468017578 }, "pca_coordinates": { "x": -1.7928545475006104, "y": -0.4632234573364258, "z": 3.9806742668151855 }, "axis_scores": { "Quantum imaging": 0.7771703600883484, "Quantum Life Science Sensing": 0.7353951930999756, "Quantum sensing Detection": 0.7369399070739746, "Quantum sensing Metrology": 0.7413304448127747, "Quantum sensing navigation": 0.7325590252876282, "Quantum sensing Position": 0.7304509878158569, "Quantum sensing Timing": 0.7030693888664246, "Quantum sensing": 0.7523331642150879, "Quantum control": 0.683580756187439 } }, { "id": 7469, "title": "ABSORBED DOSE PLANNING IN RADIONUCLIDE THERAPY BASED ON QUANTITATIVE SPECT", "abstract": "The absorbed dose per unit administered activity (Gy/MBq) can be obtained by estimating the specific activity uptake (MBq/g) from a SPECT study. To calculate the specific activity, the following targe...", "citations": 10, "author_count": 3, "categories": [ "Immunology" ], "year": 1991, "topic": [ "all" ], "embedding_index": 7476, "doi": null, "umap_coordinates": { "x": 391.2295227050781, "y": 139.1461639404297, "z": 209.4676971435547 }, "tsne_coordinates": { "x": 3.025939702987671, "y": 38.688392639160156, "z": -10.283696174621582 }, "pca_coordinates": { "x": -3.019163131713867, "y": 4.463662624359131, "z": 1.7929565906524658 }, "axis_scores": { "Quantum imaging": 0.7144305109977722, "Quantum Life Science Sensing": 0.6825880408287048, "Quantum sensing Detection": 0.6743254065513611, "Quantum sensing Metrology": 0.6797671914100647, "Quantum sensing navigation": 0.6999048590660095, "Quantum sensing Position": 0.6794615983963013, "Quantum sensing Timing": 0.6756923794746399, "Quantum sensing": 0.6825061440467834, "Quantum control": 0.667033314704895 } }, { "id": 7470, "title": "Ligand hyperfine interactions at silicon vacancies in 4H-SiC", "abstract": "The negative silicon vacancy (V-Si(-)) in SiC has recently emerged as a promising defect for quantum communication and room-temperature quantum sensing. However, its electronic structure is still not ...", "citations": 19, "author_count": 7, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7477, "doi": "10.1088/1361-648X/ab072b", "umap_coordinates": { "x": 393.3777770996094, "y": 136.30123901367188, "z": 207.6624755859375 }, "tsne_coordinates": { "x": 11.894686698913574, "y": -43.56974792480469, "z": 16.98298454284668 }, "pca_coordinates": { "x": 1.3645532131195068, "y": 1.2243754863739014, "z": -1.189258098602295 }, "axis_scores": { "Quantum imaging": 0.6921206116676331, "Quantum Life Science Sensing": 0.6572534441947937, "Quantum sensing Detection": 0.6432824730873108, "Quantum sensing Metrology": 0.6494517922401428, "Quantum sensing navigation": 0.6673426628112793, "Quantum sensing Position": 0.6478874683380127, "Quantum sensing Timing": 0.6372147798538208, "Quantum sensing": 0.6638349294662476, "Quantum control": 0.6593136191368103 } }, { "id": 7471, "title": "Performance of coincidence imaging with long-lived positron emitters as an alternative to dedicated PET and SPECT", "abstract": "An important application of quantitative imaging in nuclear medicine is the estimation of absorbed doses in radionuclide therapy. Depending on the radionuclide used for therapy, quantitative imaging o...", "citations": 7, "author_count": 6, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7478, "doi": "10.1088/0031-9155/49/24/002", "umap_coordinates": { "x": 395.7992858886719, "y": 133.52821350097656, "z": 205.45794677734375 }, "tsne_coordinates": { "x": -10.986316680908203, "y": 27.43958282470703, "z": -12.111042022705078 }, "pca_coordinates": { "x": -2.366570472717285, "y": 3.3033180236816406, "z": 4.2265944480896 }, "axis_scores": { "Quantum imaging": 0.6899709105491638, "Quantum Life Science Sensing": 0.6773075461387634, "Quantum sensing Detection": 0.6674486994743347, "Quantum sensing Metrology": 0.637510359287262, "Quantum sensing navigation": 0.6577668786048889, "Quantum sensing Position": 0.6523758769035339, "Quantum sensing Timing": 0.6943121552467346, "Quantum sensing": 0.6641838550567627, "Quantum control": 0.6286407709121704 } }, { "id": 7472, "title": "Symplectic geometry on an infinite-dimensional phase space and an asymptotic representation of quantum averages by Gaussian functional integrals", "abstract": "We study the relation between the mathematical structures of statistical mechanics on an infinite-dimensional phase space (denoted by Omega) and quantum mechanics. It is shown that quantum averages (g...", "citations": 11, "author_count": 2, "categories": [ "Mathematics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7479, "doi": "10.1070/IM2008v072n01ABEH002395", "umap_coordinates": { "x": 394.6365661621094, "y": 137.73629760742188, "z": 207.10498046875 }, "tsne_coordinates": { "x": -26.66469383239746, "y": -2.135772705078125, "z": 20.009864807128906 }, "pca_coordinates": { "x": 2.8118228912353516, "y": 0.5962803363800049, "z": 0.11075568199157715 }, "axis_scores": { "Quantum imaging": 0.7301390171051025, "Quantum Life Science Sensing": 0.7121741771697998, "Quantum sensing Detection": 0.6931313276290894, "Quantum sensing Metrology": 0.6979424357414246, "Quantum sensing navigation": 0.7280350923538208, "Quantum sensing Position": 0.678441047668457, "Quantum sensing Timing": 0.6563884019851685, "Quantum sensing": 0.7000154852867126, "Quantum control": 0.6917044520378113 } }, { "id": 7473, "title": "Role of Ev+0.98 eV trap in light soaking-induced short circuit current instability in CIGS solar cells", "abstract": "Light-induced instabilities/degradation in Cu(In,Ga)Se2 (CIGS) solar cells are a prevalent and urgent issue to resolve to improve performance, uniformity, and reliability. Here, mechanisms contributin...", "citations": 8, "author_count": 6, "categories": [ "Energy & Fuels" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7480, "doi": null, "umap_coordinates": { "x": 391.9453125, "y": 139.40432739257812, "z": 209.65492248535156 }, "tsne_coordinates": { "x": -3.0910019874572754, "y": 44.87149429321289, "z": -3.287729024887085 }, "pca_coordinates": { "x": -2.1653409004211426, "y": 1.7645576000213623, "z": -3.4574007987976074 }, "axis_scores": { "Quantum imaging": 0.7120029926300049, "Quantum Life Science Sensing": 0.7501871585845947, "Quantum sensing Detection": 0.7219296097755432, "Quantum sensing Metrology": 0.6992877721786499, "Quantum sensing navigation": 0.722703754901886, "Quantum sensing Position": 0.6879147291183472, "Quantum sensing Timing": 0.6827475428581238, "Quantum sensing": 0.728087842464447, "Quantum control": 0.7387527823448181 } }, { "id": 7474, "title": "Facile synthesis, optical properties and theoretical calculation of two novel two-photon absorption chromophores", "abstract": "Two heterocycle-based derivatives that can be used as two-photon absorption chromophore, 9-butyl-3-(2,6-diphenylpyridin-4-yl)-9H-carbazole (BDPYC) and 9-butyl-3-(4-(2, 6-diphenylpyridin-4-yl)styryl)-9...", "citations": 3, "author_count": 12, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7481, "doi": "10.1016/j.jlumin.2009.11.011", "umap_coordinates": { "x": 392.8240661621094, "y": 135.5786590576172, "z": 205.5266876220703 }, "tsne_coordinates": { "x": 7.475947856903076, "y": 3.951171875, "z": -0.6122400164604187 }, "pca_coordinates": { "x": -3.365213632583618, "y": -1.2150678634643555, "z": -0.032733142375946045 }, "axis_scores": { "Quantum imaging": 0.7264856100082397, "Quantum Life Science Sensing": 0.7224545478820801, "Quantum sensing Detection": 0.7174960374832153, "Quantum sensing Metrology": 0.6885821223258972, "Quantum sensing navigation": 0.676062822341919, "Quantum sensing Position": 0.6588999032974243, "Quantum sensing Timing": 0.6686564683914185, "Quantum sensing": 0.7218537330627441, "Quantum control": 0.6754575967788696 } }, { "id": 7475, "title": "Single-shot dual-energy subtraction mammography with electronic spectrum splitting: Feasibility", "abstract": "We present a single-shot dual-energy subtraction mammography technique using an energy sensitive photon counting detector. An electronic threshold near the middle of the X-ray spectrum discriminates b...", "citations": 43, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7482, "doi": "10.1016/j.ejrad.2006.08.004", "umap_coordinates": { "x": 395.4541015625, "y": 132.85081481933594, "z": 205.79244995117188 }, "tsne_coordinates": { "x": -14.98151969909668, "y": 22.458742141723633, "z": -29.112760543823242 }, "pca_coordinates": { "x": -2.662449359893799, "y": 1.0529046058654785, "z": 3.022151470184326 }, "axis_scores": { "Quantum imaging": 0.6887352466583252, "Quantum Life Science Sensing": 0.6809698939323425, "Quantum sensing Detection": 0.6788487434387207, "Quantum sensing Metrology": 0.6591469049453735, "Quantum sensing navigation": 0.6446746587753296, "Quantum sensing Position": 0.6369075179100037, "Quantum sensing Timing": 0.6457462310791016, "Quantum sensing": 0.6720487475395203, "Quantum control": 0.6129237413406372 } }, { "id": 7476, "title": "Insect diversity estimation in polarimetric lidar", "abstract": "Identifying flying insects is a significant challenge for biologists. Entomological lidar offers a unique solution, enabling rapid identification and classification in field settings. No other method ...", "citations": 5, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7483, "doi": "10.1371/journal.pone.0312770", "umap_coordinates": { "x": 394.6060791015625, "y": 135.012451171875, "z": 205.5248565673828 }, "tsne_coordinates": { "x": -5.4581804275512695, "y": 28.4217472076416, "z": 18.89183235168457 }, "pca_coordinates": { "x": -1.561903476715088, "y": 1.1568511724472046, "z": 0.5774090886116028 }, "axis_scores": { "Quantum imaging": 0.7110235691070557, "Quantum Life Science Sensing": 0.7292841076850891, "Quantum sensing Detection": 0.7087160348892212, "Quantum sensing Metrology": 0.710532009601593, "Quantum sensing navigation": 0.725032389163971, "Quantum sensing Position": 0.7051006555557251, "Quantum sensing Timing": 0.6661149263381958, "Quantum sensing": 0.7120959162712097, "Quantum control": 0.6937209963798523 } }, { "id": 7477, "title": "Oxygen-Driven Growth Regulation and Defect Passivation in Chemical Vapor Deposited MoS2 Monolayers", "abstract": "Due to the lowest formation energies, sulfur vacancies are inevitable in the vapor-phase chemical vapor deposition (CVD) of MoS2, which act as deep donors and induce midgap defect states, making the m...", "citations": 13, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7484, "doi": "10.1021/acs.cgd.1c00688", "umap_coordinates": { "x": 392.1012878417969, "y": 134.7945556640625, "z": 206.5594024658203 }, "tsne_coordinates": { "x": 14.87295150756836, "y": -7.680550575256348, "z": 5.1110405921936035 }, "pca_coordinates": { "x": -0.8834277987480164, "y": -2.7175607681274414, "z": -2.0529868602752686 }, "axis_scores": { "Quantum imaging": 0.6991058588027954, "Quantum Life Science Sensing": 0.7414029836654663, "Quantum sensing Detection": 0.7124764323234558, "Quantum sensing Metrology": 0.7128541469573975, "Quantum sensing navigation": 0.7135910987854004, "Quantum sensing Position": 0.6763941049575806, "Quantum sensing Timing": 0.6704462766647339, "Quantum sensing": 0.7212669849395752, "Quantum control": 0.742814838886261 } }, { "id": 7478, "title": "Osteoconductive and Antibacterial Poly(lactic acid) Fibrous Membranes Impregnated with Biobased Nanocarbons for Biodegradable Bone Regenerative Scaffolds", "abstract": "Carbonaceous nanostructures featuring unique structural characteristics and high cytocompatibility offer a wealth of possibilities to impart enhancements of mechanical properties and biological activi...", "citations": 34, "author_count": 9, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7485, "doi": "10.1021/acs.iecr.1c02165", "umap_coordinates": { "x": 392.9351501464844, "y": 134.3365478515625, "z": 204.05203247070312 }, "tsne_coordinates": { "x": 26.5600643157959, "y": 22.862817764282227, "z": -1.494606614112854 }, "pca_coordinates": { "x": -4.501702308654785, "y": -1.318927526473999, "z": -1.5338945388793945 }, "axis_scores": { "Quantum imaging": 0.6708378791809082, "Quantum Life Science Sensing": 0.7089388966560364, "Quantum sensing Detection": 0.6579997539520264, "Quantum sensing Metrology": 0.6589318513870239, "Quantum sensing navigation": 0.6564126014709473, "Quantum sensing Position": 0.6277301907539368, "Quantum sensing Timing": 0.6140407919883728, "Quantum sensing": 0.6755863428115845, "Quantum control": 0.6413429975509644 } }, { "id": 7479, "title": "Towards optimization in digital chest radiography using Monte Carlo modelling", "abstract": "A Monte Carlo based computer model of the x-ray imaging system was used to investigate how various image quality parameters of interest in chest PA radiography and the effective dose E vary with tube ...", "citations": 37, "author_count": 6, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7486, "doi": "10.1088/0031-9155/51/11/003", "umap_coordinates": { "x": 395.92706298828125, "y": 133.12298583984375, "z": 205.0154571533203 }, "tsne_coordinates": { "x": -10.478988647460938, "y": 30.78522300720215, "z": -15.9719877243042 }, "pca_coordinates": { "x": -1.7661126852035522, "y": 4.185489654541016, "z": 2.06750750541687 }, "axis_scores": { "Quantum imaging": 0.6945633292198181, "Quantum Life Science Sensing": 0.6740330457687378, "Quantum sensing Detection": 0.6585545539855957, "Quantum sensing Metrology": 0.6648591160774231, "Quantum sensing navigation": 0.6870994567871094, "Quantum sensing Position": 0.6696876883506775, "Quantum sensing Timing": 0.6544744968414307, "Quantum sensing": 0.6694493293762207, "Quantum control": 0.6600109338760376 } }, { "id": 7480, "title": "Inclusive photon production at forward rapidities in pp and p-Pb collisions at √sNN=5.02 TeV", "abstract": "A study of multiplicity and pseudorapidity distributions of inclusive photons measured in pp and p-Pb collisions at a center-of-mass energy per nucleon-nucleon collision of root s(NN) = 5.02 TeV using...", "citations": 1, "author_count": 1033, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7487, "doi": "10.1140/epjc/s10052-023-11729-y", "umap_coordinates": { "x": 396.7294006347656, "y": 134.44273376464844, "z": 207.42994689941406 }, "tsne_coordinates": { "x": -30.049903869628906, "y": 10.265296936035156, "z": -4.635570049285889 }, "pca_coordinates": { "x": -0.7340688109397888, "y": 0.5257081985473633, "z": 3.080176591873169 }, "axis_scores": { "Quantum imaging": 0.6740332245826721, "Quantum Life Science Sensing": 0.6583974361419678, "Quantum sensing Detection": 0.6744627356529236, "Quantum sensing Metrology": 0.642414927482605, "Quantum sensing navigation": 0.675129771232605, "Quantum sensing Position": 0.6768598556518555, "Quantum sensing Timing": 0.7045602798461914, "Quantum sensing": 0.671386182308197, "Quantum control": 0.6498193144798279 } }, { "id": 7481, "title": "When size is important - Accommodation of magnesium in a calcium binding regulatory domain", "abstract": "The accommodation of Mg2+ in the N-terminal domain of calmodulin was followed through amide H-1 and N-15 chemical shifts and line widths in heteronuclear single-quantum coherence spectroscopy NMR spec...", "citations": 56, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7488, "doi": "10.1074/jbc.273.44.28994", "umap_coordinates": { "x": 395.1541442871094, "y": 135.20884704589844, "z": 204.1825408935547 }, "tsne_coordinates": { "x": -4.079577922821045, "y": 36.82054138183594, "z": 14.147221565246582 }, "pca_coordinates": { "x": -1.0725746154785156, "y": 3.291517734527588, "z": -2.3136138916015625 }, "axis_scores": { "Quantum imaging": 0.677003800868988, "Quantum Life Science Sensing": 0.7010338306427002, "Quantum sensing Detection": 0.6744590401649475, "Quantum sensing Metrology": 0.6769863367080688, "Quantum sensing navigation": 0.6639275550842285, "Quantum sensing Position": 0.6837860345840454, "Quantum sensing Timing": 0.6928918361663818, "Quantum sensing": 0.6931558847427368, "Quantum control": 0.6766009330749512 } }, { "id": 7482, "title": "Rigorous characterization of time-resolved diffuse spectroscopy systems for measurements of absorption and scattering properties using solid phantoms", "abstract": "Two systems for measurements of absorption and scattering properties, based on picosecond-pulse lasers and single-photon counting detection, were characterized using a detailed protocol. The first sys...", "citations": 5, "author_count": 10, "categories": [ "Engineering" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7489, "doi": "10.1117/12.500580", "umap_coordinates": { "x": 395.219482421875, "y": 133.3556365966797, "z": 205.6536865234375 }, "tsne_coordinates": { "x": 0.6888812184333801, "y": 25.316171646118164, "z": -32.429115295410156 }, "pca_coordinates": { "x": -2.4202802181243896, "y": 1.2665613889694214, "z": 1.340996265411377 }, "axis_scores": { "Quantum imaging": 0.7059295177459717, "Quantum Life Science Sensing": 0.7391133904457092, "Quantum sensing Detection": 0.6995362639427185, "Quantum sensing Metrology": 0.7032968997955322, "Quantum sensing navigation": 0.6945064067840576, "Quantum sensing Position": 0.6709592342376709, "Quantum sensing Timing": 0.6860397458076477, "Quantum sensing": 0.7170764803886414, "Quantum control": 0.6564282178878784 } }, { "id": 7483, "title": "Light-ion Production from a Thin Silicon Target Bombarded by 175 MeV Quasi Mono-energetic Neutrons", "abstract": "Double-differential production yields of light ions (p, d, t, He-3, and alpha) from a thin silicon target induced by 175 MeV quasi mono-energetic neutrons were measured using the MEDLEY setup at the T...", "citations": 1, "author_count": 15, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7490, "doi": "10.3938/jkps.59.1447", "umap_coordinates": { "x": 395.4535217285156, "y": 135.01356506347656, "z": 205.8334503173828 }, "tsne_coordinates": { "x": -19.646360397338867, "y": 8.459312438964844, "z": -10.360831260681152 }, "pca_coordinates": { "x": -1.0358715057373047, "y": 0.7347960472106934, "z": 1.6382968425750732 }, "axis_scores": { "Quantum imaging": 0.7047972679138184, "Quantum Life Science Sensing": 0.7131322622299194, "Quantum sensing Detection": 0.6922531127929688, "Quantum sensing Metrology": 0.6782354116439819, "Quantum sensing navigation": 0.6939274668693542, "Quantum sensing Position": 0.6730191707611084, "Quantum sensing Timing": 0.6696052551269531, "Quantum sensing": 0.7003659009933472, "Quantum control": 0.6690018773078918 } }, { "id": 7484, "title": "Bloch mode excitation in two-dimensional photonic crystals imaged by Fourier optics", "abstract": "Coupling into the Bloch modes of a two-dimensional photonic crystal (PhC) field is investigated by Fourier optics. The PhC was designed to operate in the second band above the air-light line, close to...", "citations": 5, "author_count": 6, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7491, "doi": "10.1103/PhysRevB.79.165116", "umap_coordinates": { "x": 394.334228515625, "y": 135.24923706054688, "z": 208.24114990234375 }, "tsne_coordinates": { "x": -6.051188945770264, "y": -16.929019927978516, "z": -6.182364463806152 }, "pca_coordinates": { "x": 3.689464569091797, "y": -1.8608498573303223, "z": 1.1812207698822021 }, "axis_scores": { "Quantum imaging": 0.7540953755378723, "Quantum Life Science Sensing": 0.7278116345405579, "Quantum sensing Detection": 0.7384803295135498, "Quantum sensing Metrology": 0.7244715690612793, "Quantum sensing navigation": 0.7388784885406494, "Quantum sensing Position": 0.7097773551940918, "Quantum sensing Timing": 0.6869341135025024, "Quantum sensing": 0.7391822934150696, "Quantum control": 0.6952701210975647 } }, { "id": 7485, "title": "COMPTON-SCATTERING OF 87 MEV PHOTONS BY HE-4", "abstract": "Differential cross sections for Compton scattering by He-4 have been measured at photon energies ranging from 83.7 to 93.8 MeV with a weighted average of 87 MeV using the bremsstrahlung beam of the MA...", "citations": 16, "author_count": 13, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7492, "doi": "10.1016/0375-9474(95)00177-3", "umap_coordinates": { "x": 395.8651428222656, "y": 134.4620819091797, "z": 206.44529724121094 }, "tsne_coordinates": { "x": -17.171369552612305, "y": 14.805736541748047, "z": -1.0643341541290283 }, "pca_coordinates": { "x": -0.4723030924797058, "y": 1.7058320045471191, "z": 1.9388117790222168 }, "axis_scores": { "Quantum imaging": 0.7121524810791016, "Quantum Life Science Sensing": 0.7032343149185181, "Quantum sensing Detection": 0.6934079527854919, "Quantum sensing Metrology": 0.6778871417045593, "Quantum sensing navigation": 0.6950072646141052, "Quantum sensing Position": 0.6882935762405396, "Quantum sensing Timing": 0.6719772815704346, "Quantum sensing": 0.697268009185791, "Quantum control": 0.6575928926467896 } }, { "id": 7486, "title": "RADIATIVE-LIFETIME AND LANDE-FACTOR MEASUREMENTS OF THE SE-I 4P(3)5S (5)S(2) LEVEL USING PULSED LASER SPECTROSCOPY", "abstract": "First laser spectroscopic investigations on atomic selenium are reported. Natural selenium was thermally dissociated in a quartz resonance cell keeping the background pressure of abundant selenium mol...", "citations": 4, "author_count": 6, "categories": [ "Mechanics" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7493, "doi": "10.1051/jp2:1992165", "umap_coordinates": { "x": 394.4786682128906, "y": 135.13327026367188, "z": 206.2892608642578 }, "tsne_coordinates": { "x": -4.403423309326172, "y": 5.01591157913208, "z": 6.347684383392334 }, "pca_coordinates": { "x": -1.0430445671081543, "y": -0.11684894561767578, "z": 0.811646044254303 }, "axis_scores": { "Quantum imaging": 0.713098406791687, "Quantum Life Science Sensing": 0.7450191974639893, "Quantum sensing Detection": 0.6910953521728516, "Quantum sensing Metrology": 0.692746102809906, "Quantum sensing navigation": 0.6857373714447021, "Quantum sensing Position": 0.6938564777374268, "Quantum sensing Timing": 0.6769624352455139, "Quantum sensing": 0.7087103128433228, "Quantum control": 0.6582548022270203 } }, { "id": 7487, "title": "Lighting Up DNA with the Environment-Sensitive Bright Adenine Analogue qAN4", "abstract": "The fluorescent adenine analogue qAN4 was recently shown to possess promising photophysical properties, including a high brightness as a monomer. Here we report the synthesis of the phosphoramidite of...", "citations": 6, "author_count": 10, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7494, "doi": "10.1002/cplu.201900712", "umap_coordinates": { "x": 392.9127502441406, "y": 136.2737579345703, "z": 204.4163818359375 }, "tsne_coordinates": { "x": 8.541293144226074, "y": 14.222251892089844, "z": 2.8881783485412598 }, "pca_coordinates": { "x": -2.1290624141693115, "y": 0.1669774055480957, "z": 0.8665812611579895 }, "axis_scores": { "Quantum imaging": 0.7540128231048584, "Quantum Life Science Sensing": 0.7650290727615356, "Quantum sensing Detection": 0.7533062100410461, "Quantum sensing Metrology": 0.7275434732437134, "Quantum sensing navigation": 0.7543943524360657, "Quantum sensing Position": 0.7323448061943054, "Quantum sensing Timing": 0.7153406143188477, "Quantum sensing": 0.7642868757247925, "Quantum control": 0.7366635799407959 } }, { "id": 7488, "title": "Molecularly Imprinted Polymer-Based Hybrid Materials for the Development of Optical Sensors", "abstract": "We report on the development of new optical sensors using molecularly imprinted polymers (MIPs) combined with different materials and explore the novel strategies followed in order to overcome some of...", "citations": 73, "author_count": 3, "categories": [ "Polymer Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7495, "doi": "10.3390/polym11071173", "umap_coordinates": { "x": 393.4381408691406, "y": 134.2338409423828, "z": 203.9734344482422 }, "tsne_coordinates": { "x": 27.300704956054688, "y": 22.38886070251465, "z": -10.358901023864746 }, "pca_coordinates": { "x": -3.7532029151916504, "y": -0.07035684585571289, "z": 0.6336210370063782 }, "axis_scores": { "Quantum imaging": 0.6903718113899231, "Quantum Life Science Sensing": 0.7137944102287292, "Quantum sensing Detection": 0.6987500190734863, "Quantum sensing Metrology": 0.6933144330978394, "Quantum sensing navigation": 0.6638657450675964, "Quantum sensing Position": 0.6627786159515381, "Quantum sensing Timing": 0.6400129795074463, "Quantum sensing": 0.7103906869888306, "Quantum control": 0.6454395651817322 } }, { "id": 7489, "title": "Excited state kinetics of anthracene-bridge-aniline intramolecular exciplexes", "abstract": "We report on the synthesis and characterization of fluorescent halogen substituted anthracene-bridge-aniline (ABA) supermolecules that undergo structural reorganization on photoexcitation to form tran...", "citations": 2, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7496, "doi": "10.1039/c4pp00073k", "umap_coordinates": { "x": 392.3160705566406, "y": 135.95077514648438, "z": 206.17478942871094 }, "tsne_coordinates": { "x": 0.3704219162464142, "y": -2.996212959289551, "z": -13.831548690795898 }, "pca_coordinates": { "x": 0.15496349334716797, "y": -1.896313190460205, "z": -1.734022617340088 }, "axis_scores": { "Quantum imaging": 0.7020664215087891, "Quantum Life Science Sensing": 0.6959392428398132, "Quantum sensing Detection": 0.6790198087692261, "Quantum sensing Metrology": 0.6471753120422363, "Quantum sensing navigation": 0.6694321036338806, "Quantum sensing Position": 0.6596662998199463, "Quantum sensing Timing": 0.6803401708602905, "Quantum sensing": 0.6849032640457153, "Quantum control": 0.6740506291389465 } }, { "id": 7490, "title": "Using a reaction-diffusion model to estimate day respiration and reassimilation of (photo)respired CO2 in leaves", "abstract": "Methods using gas exchange measurements to estimate respiration in the light (day respiration Rd) make implicit assumptions about reassimilation of (photo)respired CO2; however, this reassimilation de...", "citations": 14, "author_count": 7, "categories": [ "Plant Sciences" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7497, "doi": "10.1111/nph.15857", "umap_coordinates": { "x": 394.4017639160156, "y": 136.357177734375, "z": 203.6988525390625 }, "tsne_coordinates": { "x": 10.751388549804688, "y": 34.10492706298828, "z": 3.9024031162261963 }, "pca_coordinates": { "x": -2.3732504844665527, "y": 1.9585968255996704, "z": 0.3412836194038391 }, "axis_scores": { "Quantum imaging": 0.6694257855415344, "Quantum Life Science Sensing": 0.7238099575042725, "Quantum sensing Detection": 0.6849297285079956, "Quantum sensing Metrology": 0.6734997034072876, "Quantum sensing navigation": 0.6808589100837708, "Quantum sensing Position": 0.6645053625106812, "Quantum sensing Timing": 0.669428825378418, "Quantum sensing": 0.6907655596733093, "Quantum control": 0.6617380976676941 } }, { "id": 7491, "title": "Effects of domain size on x-ray absorption spectra of boron nitride doped graphenes", "abstract": "Doping is an efficient way to open the zero band gap of graphene. The control of the dopant domain size allows us to tailor the electronic structure and the properties of the graphene. We have studied...", "citations": 13, "author_count": 8, "categories": [ "Physics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7498, "doi": "10.1063/1.4961628", "umap_coordinates": { "x": 392.5574951171875, "y": 133.63218688964844, "z": 207.6011199951172 }, "tsne_coordinates": { "x": 30.743738174438477, "y": -10.19482135772705, "z": -4.291430950164795 }, "pca_coordinates": { "x": 0.03598141670227051, "y": -2.06569766998291, "z": 0.09585875272750854 }, "axis_scores": { "Quantum imaging": 0.7398695349693298, "Quantum Life Science Sensing": 0.7471574544906616, "Quantum sensing Detection": 0.7312167882919312, "Quantum sensing Metrology": 0.7320745587348938, "Quantum sensing navigation": 0.7197837233543396, "Quantum sensing Position": 0.7154965400695801, "Quantum sensing Timing": 0.6788999438285828, "Quantum sensing": 0.7554455399513245, "Quantum control": 0.7107138633728027 } }, { "id": 7492, "title": "Anisotropies in the diffuse gamma-ray background measured by the Fermi LAT", "abstract": "The contribution of unresolved sources to the diffuse gamma-ray background could induce anisotropies in this emission on small angular scales. We analyze the angular power spectrum of the diffuse emis...", "citations": 120, "author_count": 138, "categories": [ "Astronomy & Astrophysics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7499, "doi": "10.1103/PhysRevD.85.083007", "umap_coordinates": { "x": 395.0165710449219, "y": 135.30044555664062, "z": 208.57025146484375 }, "tsne_coordinates": { "x": -32.578773498535156, "y": -7.202360153198242, "z": -23.349956512451172 }, "pca_coordinates": { "x": 1.5084168910980225, "y": 0.04830503463745117, "z": 0.5027347207069397 }, "axis_scores": { "Quantum imaging": 0.7052881717681885, "Quantum Life Science Sensing": 0.7002549171447754, "Quantum sensing Detection": 0.6715472340583801, "Quantum sensing Metrology": 0.6793707609176636, "Quantum sensing navigation": 0.7019667029380798, "Quantum sensing Position": 0.6811969876289368, "Quantum sensing Timing": 0.6741080284118652, "Quantum sensing": 0.695738673210144, "Quantum control": 0.6626835465431213 } }, { "id": 7493, "title": "Adsorption of cationized barley husk xylan on kraft pulp fibres: influence of degree of cationization on adsorption characteristics", "abstract": "A water-soluble (glucurono)arabinoxylan (GAX) was isolated from barley husk using chlorite delignification followed by alkaline extraction and enzymatic purification of the extract. The isolated xylan...", "citations": 36, "author_count": 4, "categories": [ "Materials Science" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7500, "doi": "10.1007/s10570-009-9341-x", "umap_coordinates": { "x": 393.2835998535156, "y": 135.93240356445312, "z": 203.93101501464844 }, "tsne_coordinates": { "x": 26.611431121826172, "y": 36.156585693359375, "z": 2.504913330078125 }, "pca_coordinates": { "x": -2.8182997703552246, "y": 1.4210646152496338, "z": -3.0268476009368896 }, "axis_scores": { "Quantum imaging": 0.6483040452003479, "Quantum Life Science Sensing": 0.6627153158187866, "Quantum sensing Detection": 0.6342958807945251, "Quantum sensing Metrology": 0.6276360154151917, "Quantum sensing navigation": 0.6387903690338135, "Quantum sensing Position": 0.6522698998451233, "Quantum sensing Timing": 0.6116709113121033, "Quantum sensing": 0.6632817983627319, "Quantum control": 0.6486884355545044 } }, { "id": 7494, "title": "Interaction of octaethylene glycol n-dodecyl monoether with dioctadecyldimethylammonium bromide and chloride vesicles", "abstract": "Several different methods were used to investigate the vesicle-to-micelle transition induced by the addition of the nonionic surfactant octaethylene glycol n-dodecyl monoether (C12E8) to spontaneously...", "citations": 50, "author_count": 7, "categories": [ "Chemistry" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7501, "doi": "10.1021/la010876z", "umap_coordinates": { "x": 393.1411437988281, "y": 134.87425231933594, "z": 204.3541259765625 }, "tsne_coordinates": { "x": 20.113317489624023, "y": 19.55491065979004, "z": 12.196321487426758 }, "pca_coordinates": { "x": -1.8496570587158203, "y": -1.8634448051452637, "z": -2.5509331226348877 }, "axis_scores": { "Quantum imaging": 0.6539933681488037, "Quantum Life Science Sensing": 0.6860266327857971, "Quantum sensing Detection": 0.6440846920013428, "Quantum sensing Metrology": 0.630315899848938, "Quantum sensing navigation": 0.6648392677307129, "Quantum sensing Position": 0.6309026479721069, "Quantum sensing Timing": 0.6040573716163635, "Quantum sensing": 0.6497018337249756, "Quantum control": 0.6523489952087402 } }, { "id": 7495, "title": "Realizing increased sub-pixel spatial resolution in X-ray imaging using displaced multiple images", "abstract": "A method, generally called oversampling, to reach sub-pixel resolution by taking slightly displaced images of an object is investigated for X-ray applications. By mounting the sensor on a high precisi...", "citations": 6, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7502, "doi": "10.1016/j.nima.2010.06.179", "umap_coordinates": { "x": 394.8473205566406, "y": 132.76075744628906, "z": 205.129150390625 }, "tsne_coordinates": { "x": -9.87649154663086, "y": 11.525718688964844, "z": -12.646860122680664 }, "pca_coordinates": { "x": -2.6637892723083496, "y": 1.4411678314208984, "z": 3.4571480751037598 }, "axis_scores": { "Quantum imaging": 0.7299119830131531, "Quantum Life Science Sensing": 0.663845956325531, "Quantum sensing Detection": 0.6759684681892395, "Quantum sensing Metrology": 0.6904312968254089, "Quantum sensing navigation": 0.6900849938392639, "Quantum sensing Position": 0.7087218761444092, "Quantum sensing Timing": 0.6816601157188416, "Quantum sensing": 0.6898739337921143, "Quantum control": 0.6370331048965454 } }, { "id": 7496, "title": "Facile Synthesis of Organic-Inorganic Hybrid Heterojunctions of Glycolated Conjugated Polymer-TiO2-X for Efficient Photocatalytic Hydrogen Evolution", "abstract": "The utilization of the organic-inorganic hybrid photocatalysts for water splitting has gained significant attention due to their ability to combine the advantages of both materials and generate synerg...", "citations": 14, "author_count": 11, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7503, "doi": "10.1002/smll.202402649", "umap_coordinates": { "x": 392.3576354980469, "y": 134.3883056640625, "z": 204.4322052001953 }, "tsne_coordinates": { "x": 21.8585147857666, "y": 8.98544692993164, "z": -8.97018051147461 }, "pca_coordinates": { "x": -3.0767664909362793, "y": -0.8820066452026367, "z": -1.264661431312561 }, "axis_scores": { "Quantum imaging": 0.6893457770347595, "Quantum Life Science Sensing": 0.7100452184677124, "Quantum sensing Detection": 0.6624898314476013, "Quantum sensing Metrology": 0.6543166637420654, "Quantum sensing navigation": 0.6636314392089844, "Quantum sensing Position": 0.6414124965667725, "Quantum sensing Timing": 0.6408122181892395, "Quantum sensing": 0.6865832209587097, "Quantum control": 0.6717860698699951 } }, { "id": 7497, "title": "Photodegradation of Azo Dyes in Sunlight Promoted by Nitrogen- Sulfur-Phosphorus Codoped Carbon Dots", "abstract": "Removal of organic contaminants such as azo dyes is highly desirable because of their toxicity, stability, and mutagenic properties. Herein an efficient method for the photodegradation of two well-kno...", "citations": 61, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7504, "doi": "10.1021/acsanm.1c01810", "umap_coordinates": { "x": 392.2894592285156, "y": 134.12503051757812, "z": 205.662353515625 }, "tsne_coordinates": { "x": 17.736454010009766, "y": 9.372051239013672, "z": -9.506397247314453 }, "pca_coordinates": { "x": -3.1048831939697266, "y": -4.749913215637207, "z": 0.11612385511398315 }, "axis_scores": { "Quantum imaging": 0.6997668743133545, "Quantum Life Science Sensing": 0.7128331065177917, "Quantum sensing Detection": 0.7066943645477295, "Quantum sensing Metrology": 0.6918518543243408, "Quantum sensing navigation": 0.6966016292572021, "Quantum sensing Position": 0.662531316280365, "Quantum sensing Timing": 0.6508917808532715, "Quantum sensing": 0.7129362225532532, "Quantum control": 0.694571852684021 } }, { "id": 7498, "title": "Some remarks on 'superradiant' phase transitions in light-matter systems", "abstract": "In this paper we analyze properties of the phase transition that appears in a set of quantum optical models; Dicke, Tavis-Cummings, quantum Rabi, and finally the Jaynes-Cummings model. As the light-ma...", "citations": 103, "author_count": 3, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7505, "doi": "10.1088/1751-8121/aa65dc", "umap_coordinates": { "x": 395.1363525390625, "y": 136.3424835205078, "z": 206.22274780273438 }, "tsne_coordinates": { "x": -38.78953552246094, "y": -6.583247661590576, "z": -4.020487308502197 }, "pca_coordinates": { "x": 0.5070399045944214, "y": 2.3302624225616455, "z": -2.2121191024780273 }, "axis_scores": { "Quantum imaging": 0.6648105382919312, "Quantum Life Science Sensing": 0.6946519613265991, "Quantum sensing Detection": 0.6483432054519653, "Quantum sensing Metrology": 0.6402981281280518, "Quantum sensing navigation": 0.6603252291679382, "Quantum sensing Position": 0.6300736665725708, "Quantum sensing Timing": 0.6465473175048828, "Quantum sensing": 0.6642161011695862, "Quantum control": 0.6418545246124268 } }, { "id": 7499, "title": "The low-energy spectrum of (2,0) theory on T5 x R", "abstract": "We consider the ADE-series of (2, 0) supersymmetric quantum theories on T-5 x R, where the first factor is a flat spatial five-torus, and the second factor denotes time. The quantum states of such a t...", "citations": 2, "author_count": 2, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7506, "doi": "10.1088/1126-6708/2008/11/028", "umap_coordinates": { "x": 394.4892883300781, "y": 136.20472717285156, "z": 206.64974975585938 }, "tsne_coordinates": { "x": -24.845426559448242, "y": 7.616073131561279, "z": 31.015716552734375 }, "pca_coordinates": { "x": 1.1412789821624756, "y": 2.63041615486145, "z": -0.3691297769546509 }, "axis_scores": { "Quantum imaging": 0.710089921951294, "Quantum Life Science Sensing": 0.716644287109375, "Quantum sensing Detection": 0.6928704380989075, "Quantum sensing Metrology": 0.6821303367614746, "Quantum sensing navigation": 0.6841874718666077, "Quantum sensing Position": 0.6829915642738342, "Quantum sensing Timing": 0.6981767416000366, "Quantum sensing": 0.6985963582992554, "Quantum control": 0.6774879693984985 } }, { "id": 7500, "title": "Efficient Microwave Irradiation-Assisted Synthesis of Benzodioxinoquinoxaline and Its Donor-Variegated Derivatives Enabling Long-Lived Emission and Efficient Bipolar Charge Carrier Transport", "abstract": "To enhance the usually low-charge carrier mobilities of highly twisted donor-acceptor-type compounds that exhibit thermally activated delayed fluorescence, we designed a rodlike acceptor benzodioxinoq...", "citations": 1, "author_count": 12, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7507, "doi": "10.1021/acsmaterialsau.4c00050", "umap_coordinates": { "x": 392.1520080566406, "y": 134.49032592773438, "z": 205.0364990234375 }, "tsne_coordinates": { "x": 18.023609161376953, "y": 3.6245522499084473, "z": -26.735692977905273 }, "pca_coordinates": { "x": -2.991837501525879, "y": -2.4123759269714355, "z": -0.17195534706115723 }, "axis_scores": { "Quantum imaging": 0.6891488432884216, "Quantum Life Science Sensing": 0.6965332627296448, "Quantum sensing Detection": 0.6638308167457581, "Quantum sensing Metrology": 0.6604121327400208, "Quantum sensing navigation": 0.6564333438873291, "Quantum sensing Position": 0.6276266574859619, "Quantum sensing Timing": 0.6281996965408325, "Quantum sensing": 0.678207516670227, "Quantum control": 0.6520082354545593 } }, { "id": 7501, "title": "Photochemical reactivity of dissolved organic carbon in subarctic lakes along a color gradient", "abstract": "Lake-atmosphere carbon exchanges can be significantly affected by photochemical dissolved organic matter (DOM) mineralization. However, our understanding of how increasing allochthonous organic carbon...", "citations": 2, "author_count": 3, "categories": [ "Marine & Freshwater Biology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7508, "doi": "10.1080/20442041.2024.2331957", "umap_coordinates": { "x": 393.3753662109375, "y": 135.7100830078125, "z": 203.82455444335938 }, "tsne_coordinates": { "x": 14.472115516662598, "y": 21.12649154663086, "z": 16.478023529052734 }, "pca_coordinates": { "x": -2.0704078674316406, "y": 0.1577003002166748, "z": -2.113746404647827 }, "axis_scores": { "Quantum imaging": 0.6685013175010681, "Quantum Life Science Sensing": 0.7068853974342346, "Quantum sensing Detection": 0.6643045544624329, "Quantum sensing Metrology": 0.6389567255973816, "Quantum sensing navigation": 0.6809771060943604, "Quantum sensing Position": 0.6625523567199707, "Quantum sensing Timing": 0.6423384547233582, "Quantum sensing": 0.6669074892997742, "Quantum control": 0.6507046818733215 } }, { "id": 7502, "title": "Fluorescent silica MCM-41 nanoparticles based on flavonoids: Direct post-doping encapsulation and spectral characterization", "abstract": "Flavones and flavonols are naturally-occurring organic molecules with interesting biological, chemical and photophysical properties. In recent years their interaction with silica surfaces has received...", "citations": 4, "author_count": 9, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7509, "doi": "10.1016/j.dyepig.2020.108870", "umap_coordinates": { "x": 393.26104736328125, "y": 135.05555725097656, "z": 204.44979858398438 }, "tsne_coordinates": { "x": 3.6305179595947266, "y": 14.832737922668457, "z": -2.9004931449890137 }, "pca_coordinates": { "x": -6.15816068649292, "y": -0.31852269172668457, "z": -0.010454177856445312 }, "axis_scores": { "Quantum imaging": 0.719244658946991, "Quantum Life Science Sensing": 0.7333918213844299, "Quantum sensing Detection": 0.6973205804824829, "Quantum sensing Metrology": 0.6936642527580261, "Quantum sensing navigation": 0.6912112236022949, "Quantum sensing Position": 0.6710290312767029, "Quantum sensing Timing": 0.6397449374198914, "Quantum sensing": 0.711571991443634, "Quantum control": 0.6844875812530518 } }, { "id": 7503, "title": "Disordered Kitaev chain with long-range pairing: Loschmidt echo revivals and dynamical phase transitions", "abstract": "We explore the dynamics of long-range Kitaev chain by varying pairing interaction exponent. It is well known that the distinctive features of the nonequilibrium dynamics of a closed quantum system are...", "citations": 38, "author_count": 4, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7510, "doi": "10.1088/1751-8121/ab97de", "umap_coordinates": { "x": 395.22698974609375, "y": 137.04322814941406, "z": 208.42666625976562 }, "tsne_coordinates": { "x": -18.6722469329834, "y": -12.375431060791016, "z": 21.135318756103516 }, "pca_coordinates": { "x": 3.923759937286377, "y": 1.681619644165039, "z": -0.4858788251876831 }, "axis_scores": { "Quantum imaging": 0.6631791591644287, "Quantum Life Science Sensing": 0.6677383184432983, "Quantum sensing Detection": 0.6588045954704285, "Quantum sensing Metrology": 0.6527250409126282, "Quantum sensing navigation": 0.6912035942077637, "Quantum sensing Position": 0.6578051447868347, "Quantum sensing Timing": 0.6794612407684326, "Quantum sensing": 0.6644185781478882, "Quantum control": 0.6509993672370911 } }, { "id": 7504, "title": "Implementation of state-of-the-art ternary new-particle formation scheme to the regional chemical transport model PMCAMx-UF in Europe", "abstract": "The particle formation scheme within PMCAMx-UF, a three-dimensional chemical transport model, was updated with particle formation rates for the ternary H2SO4-NH3-H2O pathway simulated by the Atmospher...", "citations": 16, "author_count": 18, "categories": [ "Geology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7511, "doi": "10.5194/gmd-9-2741-2016", "umap_coordinates": { "x": 394.4899597167969, "y": 135.7737274169922, "z": 205.1424102783203 }, "tsne_coordinates": { "x": -10.0628080368042, "y": 21.245365142822266, "z": 19.1302433013916 }, "pca_coordinates": { "x": -2.2999215126037598, "y": 3.3027470111846924, "z": -1.1507091522216797 }, "axis_scores": { "Quantum imaging": 0.661270260810852, "Quantum Life Science Sensing": 0.692910373210907, "Quantum sensing Detection": 0.6646077036857605, "Quantum sensing Metrology": 0.6974911689758301, "Quantum sensing navigation": 0.6950336694717407, "Quantum sensing Position": 0.6771665811538696, "Quantum sensing Timing": 0.6680825352668762, "Quantum sensing": 0.6752752065658569, "Quantum control": 0.6836052536964417 } }, { "id": 7505, "title": "A four dimensional quantum scattering study of the Cl+CH4⇆HCl+CH3 reaction via spectral transform iteration", "abstract": "We present a quantum dynamics study of the Cl+CH(4)reversible arrow HCl+CH3 reaction using a four-dimensional rotating bond umbrella (RBU) model. A semiempirical potential energy surface is employed, ...", "citations": 90, "author_count": 3, "categories": [ "Chemistry" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7512, "doi": "10.1063/1.478627", "umap_coordinates": { "x": 393.6529541015625, "y": 137.4836883544922, "z": 206.43836975097656 }, "tsne_coordinates": { "x": -12.228994369506836, "y": 7.3351731300354, "z": 31.570613861083984 }, "pca_coordinates": { "x": 0.8472776412963867, "y": 1.4544851779937744, "z": 0.9932374358177185 }, "axis_scores": { "Quantum imaging": 0.7307306528091431, "Quantum Life Science Sensing": 0.7095910310745239, "Quantum sensing Detection": 0.7178546786308289, "Quantum sensing Metrology": 0.7069709300994873, "Quantum sensing navigation": 0.6966025829315186, "Quantum sensing Position": 0.6809144020080566, "Quantum sensing Timing": 0.6786819696426392, "Quantum sensing": 0.7274291515350342, "Quantum control": 0.7137385010719299 } }, { "id": 7506, "title": "Confinement induced frustration in a one-dimensional Z2 lattice gauge theory", "abstract": "Coupling dynamical charges to gauge fields can result in highly non-local interactions with a linear confining potential. As a consequence, individual particles bind into mesons which, in one dimensio...", "citations": 7, "author_count": 7, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7513, "doi": "10.1088/1367-2630/acb45c", "umap_coordinates": { "x": 394.3183898925781, "y": 136.72789001464844, "z": 208.515625 }, "tsne_coordinates": { "x": -16.47148323059082, "y": -27.831289291381836, "z": 21.338973999023438 }, "pca_coordinates": { "x": 2.8903121948242188, "y": 1.4147148132324219, "z": -1.793886661529541 }, "axis_scores": { "Quantum imaging": 0.7004839777946472, "Quantum Life Science Sensing": 0.6744740605354309, "Quantum sensing Detection": 0.6840152740478516, "Quantum sensing Metrology": 0.66965651512146, "Quantum sensing navigation": 0.7090861797332764, "Quantum sensing Position": 0.6617513298988342, "Quantum sensing Timing": 0.6678041815757751, "Quantum sensing": 0.6965717077255249, "Quantum control": 0.7284749150276184 } }, { "id": 7507, "title": "X-ray-absorption spectrum of O+2", "abstract": "The x-ray absorption spectrum of the O+2 molecular cation is measured. The ions are stored in a cryogenically cooled radiofrequency ion trap and probed by tunable synchrotron radiation. The spectrum e...", "citations": 1, "author_count": 16, "categories": [ "Optics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7514, "doi": "10.1103/PhysRevA.111.022808", "umap_coordinates": { "x": 394.9058532714844, "y": 135.2388916015625, "z": 206.97561645507812 }, "tsne_coordinates": { "x": -3.140799045562744, "y": -7.304243564605713, "z": 3.316849946975708 }, "pca_coordinates": { "x": 1.4459450244903564, "y": 0.6786963939666748, "z": -0.6175951957702637 }, "axis_scores": { "Quantum imaging": 0.7245389223098755, "Quantum Life Science Sensing": 0.743076741695404, "Quantum sensing Detection": 0.725163459777832, "Quantum sensing Metrology": 0.7053816914558411, "Quantum sensing navigation": 0.7059041261672974, "Quantum sensing Position": 0.7019703984260559, "Quantum sensing Timing": 0.7035993337631226, "Quantum sensing": 0.7330232262611389, "Quantum control": 0.6928530931472778 } }, { "id": 7508, "title": "A study of the operation of especially designed photosensitive gaseous detectors at cryogenic temperatures", "abstract": "In some experiments and applications there is need for large-area photosensitive detectors to operate at cryogenic temperatures. Nowadays, vacuum PMs are usually used for this purpose. We have develop...", "citations": 18, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7515, "doi": "10.1016/j.nima.2006.05.149", "umap_coordinates": { "x": 394.1546325683594, "y": 133.16122436523438, "z": 205.4569854736328 }, "tsne_coordinates": { "x": -14.629515647888184, "y": 13.769448280334473, "z": -7.605776786804199 }, "pca_coordinates": { "x": -2.4369239807128906, "y": 1.2204052209854126, "z": 1.5141444206237793 }, "axis_scores": { "Quantum imaging": 0.6914052963256836, "Quantum Life Science Sensing": 0.7195826172828674, "Quantum sensing Detection": 0.7002349495887756, "Quantum sensing Metrology": 0.6789270043373108, "Quantum sensing navigation": 0.6653265953063965, "Quantum sensing Position": 0.667593777179718, "Quantum sensing Timing": 0.6766427755355835, "Quantum sensing": 0.7023065090179443, "Quantum control": 0.6449915766716003 } }, { "id": 7509, "title": "Synthesis and photophysical characterization of a pH-sensitive quadracyclic uridine (qU) analogue", "abstract": "Fluorescent base analogues (FBAs) have become useful tools for applications in biophysical chemistry, chemical biology, live-cell imaging, and RNA therapeutics. Herein, two synthetic routes towards a ...", "citations": 1, "author_count": 7, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7516, "doi": "10.1002/chem.202303539", "umap_coordinates": { "x": 392.4850158691406, "y": 136.14979553222656, "z": 204.53207397460938 }, "tsne_coordinates": { "x": 6.902227878570557, "y": 10.124335289001465, "z": 1.4812437295913696 }, "pca_coordinates": { "x": -1.818183183670044, "y": -0.591219425201416, "z": -2.0637428760528564 }, "axis_scores": { "Quantum imaging": 0.7520115375518799, "Quantum Life Science Sensing": 0.8010314106941223, "Quantum sensing Detection": 0.7592381834983826, "Quantum sensing Metrology": 0.7567151784896851, "Quantum sensing navigation": 0.7479938268661499, "Quantum sensing Position": 0.7413474917411804, "Quantum sensing Timing": 0.7125054001808167, "Quantum sensing": 0.7796257138252258, "Quantum control": 0.7479717135429382 } }, { "id": 7510, "title": "Spectral Tuning, Stabilities under External Exposures, and Spontaneous Enhancement of Emission Intensity in Grown-into-Glass All-Inorganic Metal Halide Perovskite Nanocrystals", "abstract": "Herein, the grown-into-glass (GIG) CsPbBr3:Ln(3+) (Ln = La, Lu) nanocrystals (NCs) are designed and fabrictaed using an in situ nanocrystallization method. It is shown that a substitution of Pb2+ site...", "citations": 9, "author_count": 14, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7517, "doi": "10.1002/lpor.202200166", "umap_coordinates": { "x": 391.62725830078125, "y": 133.636474609375, "z": 205.22378540039062 }, "tsne_coordinates": { "x": 25.49669647216797, "y": -2.6284728050231934, "z": -23.850568771362305 }, "pca_coordinates": { "x": -3.8909897804260254, "y": -1.9496402740478516, "z": -0.8032242655754089 }, "axis_scores": { "Quantum imaging": 0.6856186389923096, "Quantum Life Science Sensing": 0.7009355425834656, "Quantum sensing Detection": 0.6567510366439819, "Quantum sensing Metrology": 0.6619353890419006, "Quantum sensing navigation": 0.6488491892814636, "Quantum sensing Position": 0.6344034075737, "Quantum sensing Timing": 0.6456539630889893, "Quantum sensing": 0.6758539080619812, "Quantum control": 0.6683850884437561 } }, { "id": 7511, "title": "Two-Dimensional Electronic Spectroscopy of β-Carotene", "abstract": "Two-dimensional electronic spectroscopy (2D) has been applied to beta-carotene in Solution to shine new light on the ultrafast energy dissipation network in carotenoids. The ability of 2D to relieve s...", "citations": 79, "author_count": 8, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7518, "doi": "10.1021/jp906604j", "umap_coordinates": { "x": 392.5793762207031, "y": 135.81072998046875, "z": 206.17752075195312 }, "tsne_coordinates": { "x": 5.792529106140137, "y": -3.1652679443359375, "z": 7.789366245269775 }, "pca_coordinates": { "x": -1.2465193271636963, "y": -1.4812407493591309, "z": -1.8652143478393555 }, "axis_scores": { "Quantum imaging": 0.7165862321853638, "Quantum Life Science Sensing": 0.7516939640045166, "Quantum sensing Detection": 0.7071086168289185, "Quantum sensing Metrology": 0.6769883632659912, "Quantum sensing navigation": 0.6876477003097534, "Quantum sensing Position": 0.6885119676589966, "Quantum sensing Timing": 0.6618656516075134, "Quantum sensing": 0.7129996418952942, "Quantum control": 0.6639490127563477 } }, { "id": 7512, "title": "Photosynthesis rates in cyanobacteria-dominated sub-tidal biofilms near Zanzibar, Tanzania", "abstract": "The surface cover (during 1998) and photosynthesis rates (measured intermittently between 1998 and 2000) of submerged cyanobacteria-dominated biofilms near a patchy reef in Zanzibar were determined us...", "citations": 10, "author_count": 4, "categories": [ "Marine & Freshwater Biology" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7519, "doi": "10.1016/j.ecss.2004.11.012", "umap_coordinates": { "x": 393.79193115234375, "y": 135.91473388671875, "z": 203.6997528076172 }, "tsne_coordinates": { "x": 18.589590072631836, "y": 28.80224609375, "z": 12.015787124633789 }, "pca_coordinates": { "x": -3.4538087844848633, "y": 0.19928216934204102, "z": -2.334258556365967 }, "axis_scores": { "Quantum imaging": 0.6900923252105713, "Quantum Life Science Sensing": 0.7227897644042969, "Quantum sensing Detection": 0.6780975461006165, "Quantum sensing Metrology": 0.6923198699951172, "Quantum sensing navigation": 0.6823167204856873, "Quantum sensing Position": 0.6695621609687805, "Quantum sensing Timing": 0.6636372804641724, "Quantum sensing": 0.6976042985916138, "Quantum control": 0.6560899019241333 } }, { "id": 7513, "title": "Accumulation effects in modulation spectroscopy with high-repetition-rate pulses: Recursive solution of optical Bloch equations", "abstract": "Application of the phase-modulated pulsed light for advance spectroscopic measurements is the area of growing interest. The phase modulation of the light causes modulation of the signal. Separation of...", "citations": 1, "author_count": 3, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7520, "doi": "10.1103/PhysRevA.96.043841", "umap_coordinates": { "x": 393.4100646972656, "y": 136.68592834472656, "z": 207.74916076660156 }, "tsne_coordinates": { "x": -12.529991149902344, "y": -21.612743377685547, "z": -16.495817184448242 }, "pca_coordinates": { "x": 1.882093906402588, "y": 0.9425125122070312, "z": 0.5841076970100403 }, "axis_scores": { "Quantum imaging": 0.7133411169052124, "Quantum Life Science Sensing": 0.7048946619033813, "Quantum sensing Detection": 0.7012759447097778, "Quantum sensing Metrology": 0.6849501729011536, "Quantum sensing navigation": 0.7014502286911011, "Quantum sensing Position": 0.6856780648231506, "Quantum sensing Timing": 0.6895609498023987, "Quantum sensing": 0.6991642117500305, "Quantum control": 0.6640815734863281 } }, { "id": 7514, "title": "Er-doped edge emitting devices with a SiGe waveguide", "abstract": "Er-doped Si edge emitting devices have been fabricated using layer structures grown by molecular beam epitaxy (MBE). Both oxygen and carbon were used as co-dopant in the Er-doped layer. In order to ac...", "citations": 4, "author_count": 6, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7521, "doi": "10.1016/S0022-2313(98)00120-3", "umap_coordinates": { "x": 394.1438903808594, "y": 134.33074951171875, "z": 206.3090362548828 }, "tsne_coordinates": { "x": -17.450267791748047, "y": -21.920621871948242, "z": -15.25786304473877 }, "pca_coordinates": { "x": -1.4415414333343506, "y": -0.9904379844665527, "z": 2.9018702507019043 }, "axis_scores": { "Quantum imaging": 0.6741557121276855, "Quantum Life Science Sensing": 0.6779430508613586, "Quantum sensing Detection": 0.6749809980392456, "Quantum sensing Metrology": 0.6841943860054016, "Quantum sensing navigation": 0.6787301301956177, "Quantum sensing Position": 0.6666051149368286, "Quantum sensing Timing": 0.6425023078918457, "Quantum sensing": 0.6779271364212036, "Quantum control": 0.6269537210464478 } }, { "id": 7515, "title": "The CPLEAR detector at CERN", "abstract": "The CPLEAR collaboration has constructed a detector at CERN for an extensive programme of CP-, T- and CPT-symmetry studies using K-0 and <(K)over bar (0)> produced by the annihilation of <(p)over bar ...", "citations": 54, "author_count": 175, "categories": [ "Instruments & Instrumentation" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7522, "doi": "10.1016/0168-9002(96)00542-6", "umap_coordinates": { "x": 395.76263427734375, "y": 134.8223114013672, "z": 206.2532958984375 }, "tsne_coordinates": { "x": -27.504913330078125, "y": 13.960489273071289, "z": -17.16473960876465 }, "pca_coordinates": { "x": -1.4443259239196777, "y": 2.7062296867370605, "z": 0.3538063168525696 }, "axis_scores": { "Quantum imaging": 0.6755329370498657, "Quantum Life Science Sensing": 0.7007070779800415, "Quantum sensing Detection": 0.687932014465332, "Quantum sensing Metrology": 0.6817275285720825, "Quantum sensing navigation": 0.7020391225814819, "Quantum sensing Position": 0.7035589218139648, "Quantum sensing Timing": 0.6811134815216064, "Quantum sensing": 0.6930275559425354, "Quantum control": 0.6792324781417847 } }, { "id": 7516, "title": "Quantum Hall edge states in topological insulator nanoribbons", "abstract": "We present a microscopic theory of the chiral one-dimensional electron gas system localized on the sidewalls of magnetically doped Bi2Se3-family topological insulator nanoribbons in the quantum anomal...", "citations": 19, "author_count": 4, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7523, "doi": "10.1103/PhysRevB.94.121409", "umap_coordinates": { "x": 394.06524658203125, "y": 136.29730224609375, "z": 209.36810302734375 }, "tsne_coordinates": { "x": -14.904033660888672, "y": -30.927852630615234, "z": 13.279465675354004 }, "pca_coordinates": { "x": 5.826945781707764, "y": -1.9495506286621094, "z": -1.3526911735534668 }, "axis_scores": { "Quantum imaging": 0.7212690114974976, "Quantum Life Science Sensing": 0.7264108061790466, "Quantum sensing Detection": 0.7297518253326416, "Quantum sensing Metrology": 0.7083971500396729, "Quantum sensing navigation": 0.7439830899238586, "Quantum sensing Position": 0.7170950174331665, "Quantum sensing Timing": 0.7162178158760071, "Quantum sensing": 0.7390102744102478, "Quantum control": 0.6993828415870667 } }, { "id": 7517, "title": "Energy landscape inside the cage of neutral and charged N@C60", "abstract": "Potential energy surfaces along different escaping paths of the nitrogen atom inside the neutral and charged endohedral fullerene N@C-60 have been constructed at the density functional theory level. I...", "citations": 6, "author_count": 5, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7524, "doi": "10.1016/j.cplett.2011.10.045", "umap_coordinates": { "x": 393.354248046875, "y": 135.98135375976562, "z": 205.97340393066406 }, "tsne_coordinates": { "x": 30.250944137573242, "y": 2.300004482269287, "z": 10.758048057556152 }, "pca_coordinates": { "x": -1.1504719257354736, "y": -0.14451885223388672, "z": -3.0813677310943604 }, "axis_scores": { "Quantum imaging": 0.7089803218841553, "Quantum Life Science Sensing": 0.7447587847709656, "Quantum sensing Detection": 0.6951730251312256, "Quantum sensing Metrology": 0.6764147877693176, "Quantum sensing navigation": 0.7137274742126465, "Quantum sensing Position": 0.6998679637908936, "Quantum sensing Timing": 0.6714069247245789, "Quantum sensing": 0.712104856967926, "Quantum control": 0.7059515714645386 } }, { "id": 7518, "title": "High-yield production of lignin nanoparticle photonic glasses", "abstract": "Lignin has emerged as a sustainable alternative to fossil-based polymers in advanced materials such as photonics. However, current methods for preparing photonic lignin materials are limited by non-be...", "citations": 5, "author_count": 5, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7525, "doi": "10.1039/d4gc05797j", "umap_coordinates": { "x": 392.1960144042969, "y": 135.0370635986328, "z": 204.72947692871094 }, "tsne_coordinates": { "x": 10.831962585449219, "y": -0.8530280590057373, "z": -11.819605827331543 }, "pca_coordinates": { "x": -2.6641244888305664, "y": -1.6399922370910645, "z": -0.7925419807434082 }, "axis_scores": { "Quantum imaging": 0.6912423968315125, "Quantum Life Science Sensing": 0.7027721405029297, "Quantum sensing Detection": 0.6803420186042786, "Quantum sensing Metrology": 0.6548832058906555, "Quantum sensing navigation": 0.6659700870513916, "Quantum sensing Position": 0.6451880931854248, "Quantum sensing Timing": 0.6325741410255432, "Quantum sensing": 0.6889973282814026, "Quantum control": 0.685873806476593 } }, { "id": 7519, "title": "High-Repetition-Rate Attosecond Extreme Ultraviolet Beamlines at ELI ALPS for Studying Ultrafast Phenomena", "abstract": "Advancements in light engineering have led to the creation of pulsed laser sources capable of delivering high-repetition-rate, high-power few-cycle laser pulses across a wide spectral range, enabling ...", "citations": 19, "author_count": 28, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7526, "doi": "10.34133/ultrafastscience.0067", "umap_coordinates": { "x": 395.0360412597656, "y": 134.9720916748047, "z": 206.11647033691406 }, "tsne_coordinates": { "x": -24.076234817504883, "y": -5.233861446380615, "z": -23.96181297302246 }, "pca_coordinates": { "x": -0.5174633860588074, "y": 0.7856099605560303, "z": 0.6728457808494568 }, "axis_scores": { "Quantum imaging": 0.6903603672981262, "Quantum Life Science Sensing": 0.7148343920707703, "Quantum sensing Detection": 0.6587389707565308, "Quantum sensing Metrology": 0.6736320853233337, "Quantum sensing navigation": 0.6675375699996948, "Quantum sensing Position": 0.6474337577819824, "Quantum sensing Timing": 0.6598239541053772, "Quantum sensing": 0.6785924434661865, "Quantum control": 0.6555328369140625 } }, { "id": 7520, "title": "OPTICAL-ABSORPTION IN A 2-DIMENSIONAL QUANTUM POINT-CONTACT", "abstract": "We calculate the optical absorption of a quantum point contact. We find that the absorption in the very center of the microconstriction is clearly separated in frequency from the absorption in the wid...", "citations": 11, "author_count": 4, "categories": [ "Materials Science" ], "year": 1994, "topic": [ "all" ], "embedding_index": 7527, "doi": "10.1103/PhysRevB.49.7557", "umap_coordinates": { "x": 394.3343200683594, "y": 135.20176696777344, "z": 208.5658721923828 }, "tsne_coordinates": { "x": 0.3526515066623688, "y": -39.880367279052734, "z": -2.706190586090088 }, "pca_coordinates": { "x": 2.0134873390197754, "y": -1.4275214672088623, "z": 1.0363545417785645 }, "axis_scores": { "Quantum imaging": 0.7230160236358643, "Quantum Life Science Sensing": 0.7222437858581543, "Quantum sensing Detection": 0.7221103310585022, "Quantum sensing Metrology": 0.7165178060531616, "Quantum sensing navigation": 0.7032266855239868, "Quantum sensing Position": 0.7268540859222412, "Quantum sensing Timing": 0.6811010241508484, "Quantum sensing": 0.7309242486953735, "Quantum control": 0.6940110325813293 } }, { "id": 7521, "title": "A CHEMILUMINISCENCE DETECTOR FOR TRACE DETERMINATION OF FLUORESCENT COMPOUNDS", "abstract": "A detector making full use of the advantages offered by chemiluminescence was constructed. Light measurement was performed with modern electronic equipment using photon counting and the system was tes...", "citations": 40, "author_count": 2, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1983, "topic": [ "all" ], "embedding_index": 7528, "doi": "10.1080/01483918308064878", "umap_coordinates": { "x": 394.2121887207031, "y": 134.99337768554688, "z": 204.51206970214844 }, "tsne_coordinates": { "x": 1.1403635740280151, "y": 15.967835426330566, "z": -9.342626571655273 }, "pca_coordinates": { "x": -3.725541114807129, "y": 2.0618295669555664, "z": 0.551651656627655 }, "axis_scores": { "Quantum imaging": 0.667682409286499, "Quantum Life Science Sensing": 0.7062780261039734, "Quantum sensing Detection": 0.6770570874214172, "Quantum sensing Metrology": 0.6653341054916382, "Quantum sensing navigation": 0.6589433550834656, "Quantum sensing Position": 0.6448329091072083, "Quantum sensing Timing": 0.643267035484314, "Quantum sensing": 0.6696606278419495, "Quantum control": 0.6383291482925415 } }, { "id": 7522, "title": "Super-resolution fluorescence imaging and correlation spectroscopy: principles and examples of application", "abstract": "Self-organization of cell-surface receptors in structurally distinct domains in the plasma membrane is of vital importance for correct cellular signaling. However, this dynamic process is difficult to...", "citations": 1, "author_count": 3, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7529, "doi": "10.2298/JSC130815102J", "umap_coordinates": { "x": 394.5469970703125, "y": 134.5122528076172, "z": 205.47496032714844 }, "tsne_coordinates": { "x": -4.8476104736328125, "y": 6.6947479248046875, "z": -19.327356338500977 }, "pca_coordinates": { "x": -2.2702455520629883, "y": 1.3408188819885254, "z": 0.8431448340415955 }, "axis_scores": { "Quantum imaging": 0.7404702305793762, "Quantum Life Science Sensing": 0.7425132393836975, "Quantum sensing Detection": 0.7182879447937012, "Quantum sensing Metrology": 0.7161722183227539, "Quantum sensing navigation": 0.7120572328567505, "Quantum sensing Position": 0.6820730566978455, "Quantum sensing Timing": 0.6805977821350098, "Quantum sensing": 0.7288519740104675, "Quantum control": 0.6815040111541748 } }, { "id": 7523, "title": "Microscopic models of interacting Yang-Lee anyons", "abstract": "Collective states of interacting non-Abelian anyons have recently been studied mostly in the context of certain fractional quantum Hall states, such as the Moore-Read state proposed to describe the ph...", "citations": 47, "author_count": 6, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7530, "doi": "10.1088/1367-2630/13/4/045006", "umap_coordinates": { "x": 394.61138916015625, "y": 137.49725341796875, "z": 207.3878173828125 }, "tsne_coordinates": { "x": -25.79929542541504, "y": -17.99137306213379, "z": 20.450658798217773 }, "pca_coordinates": { "x": 2.777700424194336, "y": 3.302372932434082, "z": -1.1241052150726318 }, "axis_scores": { "Quantum imaging": 0.7157579064369202, "Quantum Life Science Sensing": 0.6693195700645447, "Quantum sensing Detection": 0.6578131914138794, "Quantum sensing Metrology": 0.6554020643234253, "Quantum sensing navigation": 0.6756734848022461, "Quantum sensing Position": 0.6307010054588318, "Quantum sensing Timing": 0.6582762598991394, "Quantum sensing": 0.6888534426689148, "Quantum control": 0.692204475402832 } }, { "id": 7524, "title": "Degree of electron-nuclear entanglement in molecular states", "abstract": "The degree of electron-nuclear entanglement in molecular states is analyzed. This entanglement has, generally, two sources: delocalization of the electronic and nuclear wave functions and vibronic cou...", "citations": 3, "author_count": 2, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7531, "doi": null, "umap_coordinates": { "x": 391.9482421875, "y": 139.4059295654297, "z": 208.63063049316406 }, "tsne_coordinates": { "x": -16.47159767150879, "y": 37.57619094848633, "z": -0.742643415927887 }, "pca_coordinates": { "x": 3.4012837409973145, "y": 2.8316023349761963, "z": -2.175098419189453 }, "axis_scores": { "Quantum imaging": 0.7463915944099426, "Quantum Life Science Sensing": 0.7257438898086548, "Quantum sensing Detection": 0.7314759492874146, "Quantum sensing Metrology": 0.7122220993041992, "Quantum sensing navigation": 0.7230421900749207, "Quantum sensing Position": 0.7126010060310364, "Quantum sensing Timing": 0.6822126507759094, "Quantum sensing": 0.7377064824104309, "Quantum control": 0.7106873393058777 } }, { "id": 7525, "title": "Bolometric receivers for terahertz applications", "abstract": "Bolometric receivers serve as direct detectors, photon counters and as heterodyne receivers in astronomical instruments. Heterodyne hot-electron bolometric mixers show record sensitivity for observati...", "citations": 1, "author_count": 7, "categories": [ "Astronomy & Astrophysics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7532, "doi": "10.1117/12.459709", "umap_coordinates": { "x": 394.90936279296875, "y": 133.33648681640625, "z": 206.4275360107422 }, "tsne_coordinates": { "x": 1.6561869382858276, "y": 8.11901569366455, "z": -28.064929962158203 }, "pca_coordinates": { "x": -1.024013638496399, "y": 0.40332508087158203, "z": 2.9477994441986084 }, "axis_scores": { "Quantum imaging": 0.69352787733078, "Quantum Life Science Sensing": 0.6955896615982056, "Quantum sensing Detection": 0.7026005983352661, "Quantum sensing Metrology": 0.7123247385025024, "Quantum sensing navigation": 0.6973408460617065, "Quantum sensing Position": 0.6836288571357727, "Quantum sensing Timing": 0.6965712308883667, "Quantum sensing": 0.7030614018440247, "Quantum control": 0.6554863452911377 } }, { "id": 7526, "title": "Signal-to-noise ratio optimization in X-ray fluorescence spectrometry for chromium contamination analysis", "abstract": "In most cases, direct X-ray fluorescence (XRF) analysis of solutions entails technical difficulties due to a high Xray scattering background resulting in a spectrum with a poor signal-to-noise ratio (...", "citations": 22, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7534, "doi": "10.1016/j.talanta.2021.122236", "umap_coordinates": { "x": 394.28509521484375, "y": 133.63302612304688, "z": 204.98574829101562 }, "tsne_coordinates": { "x": 16.846086502075195, "y": 15.339301109313965, "z": -15.393150329589844 }, "pca_coordinates": { "x": -5.157054901123047, "y": 0.5888382196426392, "z": -0.8988357186317444 }, "axis_scores": { "Quantum imaging": 0.7046582698822021, "Quantum Life Science Sensing": 0.7278017997741699, "Quantum sensing Detection": 0.71271151304245, "Quantum sensing Metrology": 0.7130578756332397, "Quantum sensing navigation": 0.6989505290985107, "Quantum sensing Position": 0.6873878836631775, "Quantum sensing Timing": 0.6729182600975037, "Quantum sensing": 0.7177253365516663, "Quantum control": 0.6943429708480835 } }, { "id": 7527, "title": "Effective holographic theory of charge density waves", "abstract": "We use gauge/gravity duality to write down an effective low energy holographic theory of charge density waves. We consider a simple gravity model which breaks translations spontaneously in the dual fi...", "citations": 70, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7535, "doi": "10.1103/PhysRevD.97.086017", "umap_coordinates": { "x": 395.1054992675781, "y": 136.71653747558594, "z": 208.64511108398438 }, "tsne_coordinates": { "x": -17.491701126098633, "y": -38.154685974121094, "z": 5.845290660858154 }, "pca_coordinates": { "x": 4.125239849090576, "y": 1.1416970491409302, "z": -0.08609753847122192 }, "axis_scores": { "Quantum imaging": 0.7523009181022644, "Quantum Life Science Sensing": 0.7401344776153564, "Quantum sensing Detection": 0.7194516062736511, "Quantum sensing Metrology": 0.7115004062652588, "Quantum sensing navigation": 0.7304685711860657, "Quantum sensing Position": 0.7039514183998108, "Quantum sensing Timing": 0.7019939422607422, "Quantum sensing": 0.7369894981384277, "Quantum control": 0.7235110402107239 } }, { "id": 7528, "title": "MONOLAYER COVERAGE DEPENDENCE FOR THE SURFACE PHOTOVOLTAGE OF SI(100)/NA", "abstract": "Via photoemission, a strong coverage dependence is observed for the surface photovoltage (SPV) of Si(100) (n-doped, 2-OMEGA-cm) held at low temperature (approximately 70 K) upon adsorption of monolaye...", "citations": 6, "author_count": 3, "categories": [ "Engineering" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7536, "doi": "10.1116/1.586157", "umap_coordinates": { "x": 393.10565185546875, "y": 133.4156036376953, "z": 207.13076782226562 }, "tsne_coordinates": { "x": 33.282379150390625, "y": -29.7386474609375, "z": -1.662678837776184 }, "pca_coordinates": { "x": -0.663077712059021, "y": -1.678980827331543, "z": 0.9190568327903748 }, "axis_scores": { "Quantum imaging": 0.6747300624847412, "Quantum Life Science Sensing": 0.7407333850860596, "Quantum sensing Detection": 0.6915654540061951, "Quantum sensing Metrology": 0.6996201872825623, "Quantum sensing navigation": 0.6860642433166504, "Quantum sensing Position": 0.6705322265625, "Quantum sensing Timing": 0.6415483951568604, "Quantum sensing": 0.7009512782096863, "Quantum control": 0.6619914770126343 } }, { "id": 7529, "title": "Progress on the modeling of the collisional energy transfer mechanism in unimolecular reactions", "abstract": "The RRKM theory of unimolecular reaction rates is a statistical mechanical theory based on an assumption of microcanonical equilibrium in the reactant phase space. The energy transfer in reactant medi...", "citations": 18, "author_count": 5, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7537, "doi": "10.1002/bbpc.19971010333", "umap_coordinates": { "x": 393.6857604980469, "y": 137.17738342285156, "z": 206.2244873046875 }, "tsne_coordinates": { "x": -12.1005277633667, "y": -1.3329969644546509, "z": 21.71944236755371 }, "pca_coordinates": { "x": 0.04257524013519287, "y": 2.1995677947998047, "z": -1.891556739807129 }, "axis_scores": { "Quantum imaging": 0.6832659840583801, "Quantum Life Science Sensing": 0.6767141819000244, "Quantum sensing Detection": 0.6823844909667969, "Quantum sensing Metrology": 0.6642729043960571, "Quantum sensing navigation": 0.6737371683120728, "Quantum sensing Position": 0.6515142917633057, "Quantum sensing Timing": 0.6699233055114746, "Quantum sensing": 0.680298388004303, "Quantum control": 0.6833050847053528 } }, { "id": 7530, "title": "Quantum detectable Byzantine agreement for distributed data trust management in blockchain", "abstract": "No system entity within a contemporary distributed cyber system can be entirely trusted. Hence, the classic centralized trust management method cannot be directly applied to it. Blockchain technology ...", "citations": 40, "author_count": 7, "categories": [ "Computer Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7538, "doi": "10.1016/j.ins.2023.03.134", "umap_coordinates": { "x": 395.3110656738281, "y": 136.7564239501953, "z": 205.8723602294922 }, "tsne_coordinates": { "x": -21.304092407226562, "y": 13.145099639892578, "z": 5.272426605224609 }, "pca_coordinates": { "x": 0.7593181133270264, "y": 1.4326577186584473, "z": 0.8270123600959778 }, "axis_scores": { "Quantum imaging": 0.7673714756965637, "Quantum Life Science Sensing": 0.7627530097961426, "Quantum sensing Detection": 0.7867622971534729, "Quantum sensing Metrology": 0.7753918766975403, "Quantum sensing navigation": 0.761030912399292, "Quantum sensing Position": 0.7694438695907593, "Quantum sensing Timing": 0.7624934911727905, "Quantum sensing": 0.7846763730049133, "Quantum control": 0.7600165009498596 } }, { "id": 7531, "title": "Alkali Metal Cations as Charge-Transfer Bridge for Polarization Promoted Solar-to-H2 Conversion", "abstract": "Utilization of spontaneous polarization electric field of ferroelectric materials to realize the spatial separation and fast transfer of photogenerated charges has been regarded as a promising strateg...", "citations": 68, "author_count": 10, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7539, "doi": "10.1002/adfm.202211565", "umap_coordinates": { "x": 392.21173095703125, "y": 134.19798278808594, "z": 205.00204467773438 }, "tsne_coordinates": { "x": 19.79152488708496, "y": 6.643073081970215, "z": -2.400740623474121 }, "pca_coordinates": { "x": -2.569561004638672, "y": -1.5862116813659668, "z": -3.244880199432373 }, "axis_scores": { "Quantum imaging": 0.6672543287277222, "Quantum Life Science Sensing": 0.691047191619873, "Quantum sensing Detection": 0.6621952056884766, "Quantum sensing Metrology": 0.6679520606994629, "Quantum sensing navigation": 0.6571584343910217, "Quantum sensing Position": 0.6430723071098328, "Quantum sensing Timing": 0.6306098699569702, "Quantum sensing": 0.6848607659339905, "Quantum control": 0.6774977445602417 } }, { "id": 7532, "title": "Inorganic Ions Assisted the Anisotropic Growth of CsPbCl3 Nanowires with Surface Passivation Effect", "abstract": "All-inorganic halide perovskite nanowires (NWs) exhibit improved thermal and hydrolysis stability and could thus play a vital role in nanoscale optoelectronics. Among them, blue-light-based devices ar...", "citations": 21, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7540, "doi": "10.1021/acsami.8b09113", "umap_coordinates": { "x": 391.6886291503906, "y": 133.8578643798828, "z": 205.87149047851562 }, "tsne_coordinates": { "x": 17.61517333984375, "y": 0.8395610451698303, "z": -15.987992286682129 }, "pca_coordinates": { "x": -2.7316863536834717, "y": -4.567224979400635, "z": -1.0144524574279785 }, "axis_scores": { "Quantum imaging": 0.731534481048584, "Quantum Life Science Sensing": 0.7105318903923035, "Quantum sensing Detection": 0.7096356749534607, "Quantum sensing Metrology": 0.6942952275276184, "Quantum sensing navigation": 0.7113173007965088, "Quantum sensing Position": 0.6812158823013306, "Quantum sensing Timing": 0.6571411490440369, "Quantum sensing": 0.7240996360778809, "Quantum control": 0.7085309028625488 } }, { "id": 7533, "title": "Observation of the dynamical Casimir effect in a superconducting circuit", "abstract": "One of the most surprising predictions of modern quantum theory is that the vacuum of space is not empty. In fact, quantum theory predicts that it teems with virtual particles flitting in and out of e...", "citations": 833, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7541, "doi": "10.1038/nature10561", "umap_coordinates": { "x": 394.5681457519531, "y": 136.31033325195312, "z": 207.8278350830078 }, "tsne_coordinates": { "x": -11.66835880279541, "y": -22.578685760498047, "z": 10.970870971679688 }, "pca_coordinates": { "x": 3.1079277992248535, "y": 0.2147841453552246, "z": -0.7641924023628235 }, "axis_scores": { "Quantum imaging": 0.7238214015960693, "Quantum Life Science Sensing": 0.7519285678863525, "Quantum sensing Detection": 0.741287112236023, "Quantum sensing Metrology": 0.7151094079017639, "Quantum sensing navigation": 0.7529080510139465, "Quantum sensing Position": 0.7233101725578308, "Quantum sensing Timing": 0.7418242692947388, "Quantum sensing": 0.74344801902771, "Quantum control": 0.7275248765945435 } }, { "id": 7534, "title": "H-1-detected multinuclear NMR experiments for the measurement of small heteronuclear coupling constants in transition metal complexes", "abstract": "The scalar coupling constants between protons, nitrogens, and phosphorus in the metal complex chloro(triphenylphosphine)bis[bis(1-pyrazolyl)methane]ruthenium(II) chloride, [RuCl(PPh3)(BPM)(2)]Cl-+(-) ...", "citations": 26, "author_count": 4, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7542, "doi": "10.1021/ja963346b", "umap_coordinates": { "x": 392.43353271484375, "y": 137.2913055419922, "z": 206.66567993164062 }, "tsne_coordinates": { "x": 19.44181251525879, "y": 3.2817342281341553, "z": 33.9783821105957 }, "pca_coordinates": { "x": -0.36452698707580566, "y": 0.9519246816635132, "z": -2.258035898208618 }, "axis_scores": { "Quantum imaging": 0.6717868447303772, "Quantum Life Science Sensing": 0.6942524909973145, "Quantum sensing Detection": 0.6707195043563843, "Quantum sensing Metrology": 0.6555980443954468, "Quantum sensing navigation": 0.6638105511665344, "Quantum sensing Position": 0.6334273815155029, "Quantum sensing Timing": 0.6405298709869385, "Quantum sensing": 0.6853305697441101, "Quantum control": 0.6451084017753601 } }, { "id": 7535, "title": "Simulations of Light Absorption of Carbon Particles in Nanoaerosol Clusters", "abstract": "Black carbon soot (BS) is considered to be the second most contributing organic matter next to carbon dioxide for the global warming effect. There is, however, so far no consensus on the quantitative ...", "citations": 8, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7543, "doi": "10.1021/jp412384j", "umap_coordinates": { "x": 392.99664306640625, "y": 136.37158203125, "z": 205.7447509765625 }, "tsne_coordinates": { "x": 3.288388967514038, "y": 10.689220428466797, "z": 21.661266326904297 }, "pca_coordinates": { "x": -1.365516185760498, "y": -0.6230120658874512, "z": -2.0377633571624756 }, "axis_scores": { "Quantum imaging": 0.7081787586212158, "Quantum Life Science Sensing": 0.7538776993751526, "Quantum sensing Detection": 0.6949607729911804, "Quantum sensing Metrology": 0.6792739033699036, "Quantum sensing navigation": 0.6932708024978638, "Quantum sensing Position": 0.6773402690887451, "Quantum sensing Timing": 0.6582883596420288, "Quantum sensing": 0.7148541212081909, "Quantum control": 0.6862407326698303 } }, { "id": 7536, "title": "Tunable phonon-driven magnon-magnon entanglement at room temperature", "abstract": "We report the existence of entangled steady-states in bipartite quantum magnonic systems at elevated temperatures. We consider dissipative dynamics of two magnon modes in a bipartite antiferromagnet, ...", "citations": 3, "author_count": 11, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7544, "doi": "10.1088/1367-2630/ad0b20", "umap_coordinates": { "x": 394.58056640625, "y": 136.32421875, "z": 206.98562622070312 }, "tsne_coordinates": { "x": -24.2691593170166, "y": -12.08280086517334, "z": -18.55746078491211 }, "pca_coordinates": { "x": 1.4434959888458252, "y": 0.7234289646148682, "z": 0.9895810484886169 }, "axis_scores": { "Quantum imaging": 0.7143484950065613, "Quantum Life Science Sensing": 0.6972101330757141, "Quantum sensing Detection": 0.6940533518791199, "Quantum sensing Metrology": 0.7066766023635864, "Quantum sensing navigation": 0.7033530473709106, "Quantum sensing Position": 0.6788530945777893, "Quantum sensing Timing": 0.7047375440597534, "Quantum sensing": 0.7241935133934021, "Quantum control": 0.7322365641593933 } }, { "id": 7537, "title": "Impact of feature-size dependent etching on the optical properties of photonic crystal devices", "abstract": "Feature size dependence in Ar/Cl(2) chemically assisted ion beam etching of InP-based photonic crystals (PhCs) and its influence on the optical properties of PhC devices operating in the band gap are ...", "citations": 5, "author_count": 6, "categories": [ "Physics" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7545, "doi": "10.1063/1.2913168", "umap_coordinates": { "x": 392.76690673828125, "y": 133.58335876464844, "z": 206.9540557861328 }, "tsne_coordinates": { "x": 33.41220474243164, "y": -9.633992195129395, "z": -6.895256996154785 }, "pca_coordinates": { "x": -1.1848697662353516, "y": -1.3030176162719727, "z": 1.306957483291626 }, "axis_scores": { "Quantum imaging": 0.7535378336906433, "Quantum Life Science Sensing": 0.7428691387176514, "Quantum sensing Detection": 0.7349964380264282, "Quantum sensing Metrology": 0.7401823997497559, "Quantum sensing navigation": 0.7085179090499878, "Quantum sensing Position": 0.7013391852378845, "Quantum sensing Timing": 0.6884223222732544, "Quantum sensing": 0.7550032734870911, "Quantum control": 0.7267634272575378 } }, { "id": 7538, "title": "Spatial structure in mode population induced by coherent pumping in a ballistic quantum channel", "abstract": "We predict a spatially varying mode population to appear in a ballistic quantum channel formed in the two-dimensional electron gas of a gated GaAs/AlGaAs heterostructure due to pumping by a THz held. ...", "citations": 13, "author_count": 5, "categories": [ "Physics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7546, "doi": "10.1063/1.364106", "umap_coordinates": { "x": 394.1949462890625, "y": 135.25225830078125, "z": 207.86273193359375 }, "tsne_coordinates": { "x": -7.353146076202393, "y": -14.687566757202148, "z": 14.418405532836914 }, "pca_coordinates": { "x": 3.705254077911377, "y": -0.8536808490753174, "z": 0.3113482594490051 }, "axis_scores": { "Quantum imaging": 0.750145673751831, "Quantum Life Science Sensing": 0.712516188621521, "Quantum sensing Detection": 0.7392454147338867, "Quantum sensing Metrology": 0.7150405645370483, "Quantum sensing navigation": 0.7453770637512207, "Quantum sensing Position": 0.7327331900596619, "Quantum sensing Timing": 0.6979005336761475, "Quantum sensing": 0.7444231510162354, "Quantum control": 0.7221410870552063 } }, { "id": 7539, "title": "Experimental and theoretical study of the Kr L-shell Auger decay", "abstract": "The LMM Auger spectra of krypton are measured using the photon energies hv = 1709 eV, 1792 eV, 1950 eV, and 13 keV. This approach allows separating the contributions from the various core holes L-1 , ...", "citations": 6, "author_count": 10, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7547, "doi": "10.1103/PhysRevA.104.012804", "umap_coordinates": { "x": 394.4510498046875, "y": 136.15206909179688, "z": 207.1084442138672 }, "tsne_coordinates": { "x": -2.530146360397339, "y": -11.784951210021973, "z": -5.342025279998779 }, "pca_coordinates": { "x": 3.3180432319641113, "y": 2.0629818439483643, "z": -0.12090057134628296 }, "axis_scores": { "Quantum imaging": 0.6817761659622192, "Quantum Life Science Sensing": 0.7157304286956787, "Quantum sensing Detection": 0.6870371103286743, "Quantum sensing Metrology": 0.6630994081497192, "Quantum sensing navigation": 0.6710599064826965, "Quantum sensing Position": 0.6561264991760254, "Quantum sensing Timing": 0.6397177577018738, "Quantum sensing": 0.6914457082748413, "Quantum control": 0.6466637849807739 } }, { "id": 7540, "title": "Control of Electron Localization in Deuterium Molecular Ions using an Attosecond Pulse Train and a Many-Cycle Infrared Pulse", "abstract": "We demonstrate an experimental control of electron localization in deuterium molecular ions created and dissociated by the combined action of an attosecond pulse train and a many-cycle infrared (IR) p...", "citations": 152, "author_count": 14, "categories": [ "Physics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7548, "doi": "10.1103/PhysRevLett.104.023001", "umap_coordinates": { "x": 395.2461242675781, "y": 135.4922332763672, "z": 207.5164794921875 }, "tsne_coordinates": { "x": -11.553942680358887, "y": -8.578645706176758, "z": -6.02303409576416 }, "pca_coordinates": { "x": 2.326902151107788, "y": -0.516808032989502, "z": 0.689950168132782 }, "axis_scores": { "Quantum imaging": 0.7140200138092041, "Quantum Life Science Sensing": 0.7094637751579285, "Quantum sensing Detection": 0.6912765502929688, "Quantum sensing Metrology": 0.6696851849555969, "Quantum sensing navigation": 0.6835625767707825, "Quantum sensing Position": 0.668929934501648, "Quantum sensing Timing": 0.701690673828125, "Quantum sensing": 0.6999848484992981, "Quantum control": 0.7014263272285461 } }, { "id": 7541, "title": "Resonance Effects in Photoemission Time Delays", "abstract": "We present measurements of single-photon ionization time delays between the outermost valence electrons of argon and neon using a coincidence detection technique that allows for the simultaneous measu...", "citations": 100, "author_count": 10, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7549, "doi": "10.1103/PhysRevLett.115.133001", "umap_coordinates": { "x": 394.9071960449219, "y": 135.10226440429688, "z": 207.52879333496094 }, "tsne_coordinates": { "x": -10.237293243408203, "y": -18.541059494018555, "z": -20.48998260498047 }, "pca_coordinates": { "x": 2.546234130859375, "y": -0.8706398010253906, "z": 0.8077854514122009 }, "axis_scores": { "Quantum imaging": 0.713001549243927, "Quantum Life Science Sensing": 0.7137592434883118, "Quantum sensing Detection": 0.7141388654708862, "Quantum sensing Metrology": 0.6957246661186218, "Quantum sensing navigation": 0.7112454175949097, "Quantum sensing Position": 0.7168044447898865, "Quantum sensing Timing": 0.7729054689407349, "Quantum sensing": 0.7153825163841248, "Quantum control": 0.6784667372703552 } }, { "id": 7542, "title": "Ellipsometric and AES investigation of thin polycrystalline In/Cu and In/Ag couples", "abstract": "Interdiffusion of metals from group Ib (Ag, Cu) and group IIIb (In) was detected at room temperature by means of spectroscopic ellipsometry (SE) and Auger electron spectroscopy (AES). Thin In films an...", "citations": 6, "author_count": 7, "categories": [ "Materials Science" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7550, "doi": "10.1016/j.vacuum.2003.12.115", "umap_coordinates": { "x": 392.9987487792969, "y": 133.35122680664062, "z": 205.999755859375 }, "tsne_coordinates": { "x": 39.6475830078125, "y": 9.579292297363281, "z": 2.0309605598449707 }, "pca_coordinates": { "x": -0.5706626772880554, "y": -2.1970772743225098, "z": 1.1706836223602295 }, "axis_scores": { "Quantum imaging": 0.700346827507019, "Quantum Life Science Sensing": 0.7060565948486328, "Quantum sensing Detection": 0.689691960811615, "Quantum sensing Metrology": 0.6953418850898743, "Quantum sensing navigation": 0.6752659678459167, "Quantum sensing Position": 0.6783193945884705, "Quantum sensing Timing": 0.6588830351829529, "Quantum sensing": 0.7022792100906372, "Quantum control": 0.6707479953765869 } }, { "id": 7543, "title": "Microwave photon detection by an Al Josephson junction", "abstract": "An aluminium Josephson junction (JJ), with a critical current suppressed by a factor of three compared with the maximal value calculated from the gap, is experimentally investigated for application as...", "citations": 48, "author_count": 8, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7551, "doi": "10.3762/bjnano.11.80", "umap_coordinates": { "x": 394.7964782714844, "y": 134.61770629882812, "z": 207.64505004882812 }, "tsne_coordinates": { "x": -16.545257568359375, "y": -7.750783443450928, "z": -29.930437088012695 }, "pca_coordinates": { "x": 0.715831995010376, "y": -1.4121403694152832, "z": 3.5051774978637695 }, "axis_scores": { "Quantum imaging": 0.7213160395622253, "Quantum Life Science Sensing": 0.7191636562347412, "Quantum sensing Detection": 0.7395986914634705, "Quantum sensing Metrology": 0.7105979323387146, "Quantum sensing navigation": 0.7355372905731201, "Quantum sensing Position": 0.7085236310958862, "Quantum sensing Timing": 0.6936397552490234, "Quantum sensing": 0.7278032302856445, "Quantum control": 0.6614232063293457 } }, { "id": 7544, "title": "Assessment of photon migration in scattering media using heterodyning techniques with a frequency modulated diode laser", "abstract": "A novel technique for studying photon propagation in scattering media is proposed and demonstrated, as is believed, for the first time. Photons propagating through the medium, from a frequency-ramped ...", "citations": 11, "author_count": 4, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7552, "doi": "10.1364/OE.17.016291", "umap_coordinates": { "x": 394.8358154296875, "y": 134.535888671875, "z": 205.82504272460938 }, "tsne_coordinates": { "x": -4.815925121307373, "y": -8.172802925109863, "z": -25.40854263305664 }, "pca_coordinates": { "x": -1.6945598125457764, "y": 1.255293607711792, "z": 2.3717551231384277 }, "axis_scores": { "Quantum imaging": 0.713012158870697, "Quantum Life Science Sensing": 0.7085198760032654, "Quantum sensing Detection": 0.6946989297866821, "Quantum sensing Metrology": 0.700049102306366, "Quantum sensing navigation": 0.7052382826805115, "Quantum sensing Position": 0.6868195533752441, "Quantum sensing Timing": 0.681656539440155, "Quantum sensing": 0.695116400718689, "Quantum control": 0.6532977223396301 } }, { "id": 7545, "title": "Comprehensive chemical kinetic modeling of toluene reference fuels oxidation", "abstract": "Important reactions in the toluene sub-mechanism of a chemical kinetic model for toluene reference fuels oxidation have been revised based on recent measurements and quantum chemical calculations. The...", "citations": 95, "author_count": 2, "categories": [ "Energy & Fuels" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7553, "doi": "10.1016/j.fuel.2013.01.070", "umap_coordinates": { "x": 393.5314025878906, "y": 135.4734649658203, "z": 204.4771270751953 }, "tsne_coordinates": { "x": -12.426029205322266, "y": 18.591997146606445, "z": 19.610153198242188 }, "pca_coordinates": { "x": -3.0219311714172363, "y": 1.0380038022994995, "z": -2.5445570945739746 }, "axis_scores": { "Quantum imaging": 0.6838010549545288, "Quantum Life Science Sensing": 0.693684458732605, "Quantum sensing Detection": 0.6734369993209839, "Quantum sensing Metrology": 0.6762670874595642, "Quantum sensing navigation": 0.6748862862586975, "Quantum sensing Position": 0.6547373533248901, "Quantum sensing Timing": 0.6652418375015259, "Quantum sensing": 0.6889304518699646, "Quantum control": 0.696884036064148 } }, { "id": 7546, "title": "Suspended polarization beam splitter on silicon-on-insulator", "abstract": "Polarization handling in suspended silicon photonics has the potential to enable new applications in fields such as optomechanics, photonic microelectromechanical systems, and mid-infrared photonics. ...", "citations": 22, "author_count": 4, "categories": [ "Optics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7554, "doi": "10.1364/OE.26.002675", "umap_coordinates": { "x": 394.2540588378906, "y": 134.10394287109375, "z": 206.84042358398438 }, "tsne_coordinates": { "x": -3.2384722232818604, "y": -12.949499130249023, "z": -29.325313568115234 }, "pca_coordinates": { "x": 0.010323047637939453, "y": -1.7692570686340332, "z": 2.504781723022461 }, "axis_scores": { "Quantum imaging": 0.6990014314651489, "Quantum Life Science Sensing": 0.6925258040428162, "Quantum sensing Detection": 0.6794082522392273, "Quantum sensing Metrology": 0.6818765997886658, "Quantum sensing navigation": 0.6835984587669373, "Quantum sensing Position": 0.683237612247467, "Quantum sensing Timing": 0.6496718525886536, "Quantum sensing": 0.695594072341919, "Quantum control": 0.6663535237312317 } }, { "id": 7547, "title": "Dressed relaxation and dephasing in a strongly driven two-level system", "abstract": "We study relaxation and dephasing in a strongly driven two-level system interacting with its environment. We develop a theory which gives a straightforward physical picture of the complex dynamics of ...", "citations": 67, "author_count": 7, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7555, "doi": "10.1103/PhysRevB.81.024520", "umap_coordinates": { "x": 394.377197265625, "y": 136.58062744140625, "z": 208.4596405029297 }, "tsne_coordinates": { "x": -12.518876075744629, "y": -14.187189102172852, "z": 15.897943496704102 }, "pca_coordinates": { "x": 3.0940752029418945, "y": -0.4012289047241211, "z": -1.9272172451019287 }, "axis_scores": { "Quantum imaging": 0.6748253107070923, "Quantum Life Science Sensing": 0.6878576874732971, "Quantum sensing Detection": 0.6861516237258911, "Quantum sensing Metrology": 0.6491090655326843, "Quantum sensing navigation": 0.6634319424629211, "Quantum sensing Position": 0.6368060111999512, "Quantum sensing Timing": 0.6514071226119995, "Quantum sensing": 0.6817397475242615, "Quantum control": 0.6605402231216431 } }, { "id": 7548, "title": "DETERMINATION OF EFFECTIVE BREMSSTRAHLUNG SPECTRA AND ELECTRON CONTAMINATION FOR PHOTON DOSE CALCULATIONS", "abstract": "A method is described for determing an effective, depth dose consistent bremsstrahlung spectra for high-energy photon beams using depth dose curves measured in water. A simple analytical model with th...", "citations": 80, "author_count": 3, "categories": [ "Engineering" ], "year": 1989, "topic": [ "all" ], "embedding_index": 7556, "doi": "10.1088/0031-9155/34/10/008", "umap_coordinates": { "x": 395.8324890136719, "y": 133.64622497558594, "z": 205.70565795898438 }, "tsne_coordinates": { "x": -17.767227172851562, "y": 26.873083114624023, "z": -15.299066543579102 }, "pca_coordinates": { "x": -2.362945556640625, "y": 1.1759309768676758, "z": 2.6084036827087402 }, "axis_scores": { "Quantum imaging": 0.693301796913147, "Quantum Life Science Sensing": 0.7045701146125793, "Quantum sensing Detection": 0.6685464382171631, "Quantum sensing Metrology": 0.6719223260879517, "Quantum sensing navigation": 0.6557754874229431, "Quantum sensing Position": 0.6552017331123352, "Quantum sensing Timing": 0.6322069764137268, "Quantum sensing": 0.6714480519294739, "Quantum control": 0.6255176663398743 } }, { "id": 7549, "title": "Achieving 20% efficiency in binary organic solar cells with suppressed non-radiative recombination via triphenylamine halides", "abstract": "Minimizing energy loss has been identified as an effective approach to achieve further efficiency breakthroughs in organic solar cells (OSCs), and the main loss channel can be attributed to non-radiat...", "citations": 12, "author_count": 18, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7557, "doi": "10.1039/d5ee01165e", "umap_coordinates": { "x": 391.9228210449219, "y": 134.11793518066406, "z": 205.4305419921875 }, "tsne_coordinates": { "x": 12.368043899536133, "y": 3.489142656326294, "z": -17.898780822753906 }, "pca_coordinates": { "x": -1.6648402214050293, "y": -2.4311413764953613, "z": -0.009579241275787354 }, "axis_scores": { "Quantum imaging": 0.7079992294311523, "Quantum Life Science Sensing": 0.7044687271118164, "Quantum sensing Detection": 0.7006693482398987, "Quantum sensing Metrology": 0.6831599473953247, "Quantum sensing navigation": 0.6739745140075684, "Quantum sensing Position": 0.6542583107948303, "Quantum sensing Timing": 0.6728439331054688, "Quantum sensing": 0.6991947293281555, "Quantum control": 0.6886506676673889 } }, { "id": 7550, "title": "Breaking the Boundaries of the Goldschmidt Tolerance Factor with Ethylammonium Lead Iodide Perovskite Nanocrystals", "abstract": "We report the synthesis of ethylammonium lead iodide (EAPbI3) colloidal nanocrystals as another member of the lead halide perovskites family. The insertion of an unusually large A-cation (274 pm in di...", "citations": 7, "author_count": 8, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7558, "doi": "10.1021/acsnano.4c14536", "umap_coordinates": { "x": 391.8329162597656, "y": 134.0897979736328, "z": 205.81719970703125 }, "tsne_coordinates": { "x": 21.384675979614258, "y": -5.270993232727051, "z": -24.11945915222168 }, "pca_coordinates": { "x": -1.6995232105255127, "y": -1.5483675003051758, "z": -1.0948114395141602 }, "axis_scores": { "Quantum imaging": 0.7035719752311707, "Quantum Life Science Sensing": 0.6922779679298401, "Quantum sensing Detection": 0.6890712380409241, "Quantum sensing Metrology": 0.6990045309066772, "Quantum sensing navigation": 0.7141916751861572, "Quantum sensing Position": 0.7067977786064148, "Quantum sensing Timing": 0.6915833950042725, "Quantum sensing": 0.7041956186294556, "Quantum control": 0.6838412284851074 } }, { "id": 7551, "title": "Eco-evolutionary optimality as a means to improve vegetation and land-surface models", "abstract": "Global vegetation and land-surface models embody interdisciplinary scientific understanding of the behaviour of plants and ecosystems, and are indispensable to project the impacts of environmental cha...", "citations": 127, "author_count": 22, "categories": [ "Plant Sciences" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7559, "doi": "10.1111/nph.17558", "umap_coordinates": { "x": 394.677734375, "y": 135.80479431152344, "z": 204.03057861328125 }, "tsne_coordinates": { "x": 12.557623863220215, "y": 36.802337646484375, "z": 3.1135518550872803 }, "pca_coordinates": { "x": -1.0972539186477661, "y": 1.4481770992279053, "z": -0.20961347222328186 }, "axis_scores": { "Quantum imaging": 0.6958097815513611, "Quantum Life Science Sensing": 0.7017617225646973, "Quantum sensing Detection": 0.6884968280792236, "Quantum sensing Metrology": 0.6865847706794739, "Quantum sensing navigation": 0.7155736684799194, "Quantum sensing Position": 0.6902003288269043, "Quantum sensing Timing": 0.6635069847106934, "Quantum sensing": 0.7050349712371826, "Quantum control": 0.6916071176528931 } }, { "id": 7552, "title": "Fiber-based optical parametric amplifiers and their applications", "abstract": "An applications-oriented review of optical parametric amplifiers in fiber communications is presented. The emphasis is on parametric amplifiers in general and single pumped parametric amplifiers in pa...", "citations": 859, "author_count": 6, "categories": [ "Engineering" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7560, "doi": "10.1109/JSTQE.2002.1016354", "umap_coordinates": { "x": 394.1452331542969, "y": 134.09201049804688, "z": 206.55438232421875 }, "tsne_coordinates": { "x": -0.81393963098526, "y": -1.6811143159866333, "z": -33.88392639160156 }, "pca_coordinates": { "x": -0.7930542230606079, "y": -1.030106782913208, "z": 1.5461444854736328 }, "axis_scores": { "Quantum imaging": 0.6987394094467163, "Quantum Life Science Sensing": 0.7032206654548645, "Quantum sensing Detection": 0.701950192451477, "Quantum sensing Metrology": 0.7004936337471008, "Quantum sensing navigation": 0.68816739320755, "Quantum sensing Position": 0.6860427856445312, "Quantum sensing Timing": 0.6791145205497742, "Quantum sensing": 0.7134417295455933, "Quantum control": 0.6805367469787598 } }, { "id": 7553, "title": "Search for new phenomena in final states with photons, jets and missing transverse momentum in pp collisions at √s=13 TeV with the ATLAS detector", "abstract": "A search for new phenomena has been performed in final states with at least one isolated high-momentum photon, jets and missing transverse momentum in proton-proton collisions at a centre-of-mass ener...", "citations": 17, "author_count": 2695, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7561, "doi": "10.1007/JHEP07(2023)021", "umap_coordinates": { "x": 396.889892578125, "y": 134.6220703125, "z": 207.30059814453125 }, "tsne_coordinates": { "x": -35.69814682006836, "y": 11.513700485229492, "z": -3.465315580368042 }, "pca_coordinates": { "x": -0.48290038108825684, "y": 2.29115629196167, "z": 1.9776415824890137 }, "axis_scores": { "Quantum imaging": 0.6962511539459229, "Quantum Life Science Sensing": 0.7036249041557312, "Quantum sensing Detection": 0.6947799324989319, "Quantum sensing Metrology": 0.6775935292243958, "Quantum sensing navigation": 0.6806248426437378, "Quantum sensing Position": 0.6804010272026062, "Quantum sensing Timing": 0.6993201971054077, "Quantum sensing": 0.6910239458084106, "Quantum control": 0.6624594330787659 } }, { "id": 7554, "title": "Effect of magnetism on the solubility of 3d elements in BCC iron: Results of first-principle investigations", "abstract": "The methods of quantum-mechanical simulation have been used to study alloys of bcc iron with 3d transition metals in the ferromagnetic and paramagnetic states. It has been shown that the main factor t...", "citations": 27, "author_count": 6, "categories": [ "Metallurgy & Metallurgical Engineering" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7562, "doi": "10.1134/S0031918X13080036", "umap_coordinates": { "x": 392.7008056640625, "y": 136.94522094726562, "z": 207.98703002929688 }, "tsne_coordinates": { "x": 13.372225761413574, "y": -29.85552215576172, "z": 27.229448318481445 }, "pca_coordinates": { "x": -0.588028609752655, "y": 0.681291937828064, "z": -3.695189952850342 }, "axis_scores": { "Quantum imaging": 0.6626336574554443, "Quantum Life Science Sensing": 0.68681401014328, "Quantum sensing Detection": 0.6525462865829468, "Quantum sensing Metrology": 0.6709844470024109, "Quantum sensing navigation": 0.6562559008598328, "Quantum sensing Position": 0.6410650014877319, "Quantum sensing Timing": 0.6013504862785339, "Quantum sensing": 0.6655116677284241, "Quantum control": 0.630519688129425 } }, { "id": 7555, "title": "Optimal Frequency-Based Weighting for Spectral X-Ray Projection Imaging", "abstract": "The purpose of this work is to derive a weighting scheme that maximizes the frequency-dependent ideal observer signal-difference-to-noise ratio, commonly referred to as detectability index or Hotellin...", "citations": 11, "author_count": 4, "categories": [ "Computer Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7563, "doi": "10.1109/TMI.2014.2360932", "umap_coordinates": { "x": 395.6258850097656, "y": 132.65859985351562, "z": 205.46817016601562 }, "tsne_coordinates": { "x": 1.761199712753296, "y": 19.212970733642578, "z": -22.56158447265625 }, "pca_coordinates": { "x": -2.195605754852295, "y": 2.8098247051239014, "z": 2.680742025375366 }, "axis_scores": { "Quantum imaging": 0.7551607489585876, "Quantum Life Science Sensing": 0.7181994915008545, "Quantum sensing Detection": 0.7024981379508972, "Quantum sensing Metrology": 0.7137104272842407, "Quantum sensing navigation": 0.7057034969329834, "Quantum sensing Position": 0.7020493745803833, "Quantum sensing Timing": 0.7088766098022461, "Quantum sensing": 0.7182915210723877, "Quantum control": 0.6805161833763123 } }, { "id": 7556, "title": "Cellulose-Derived Carbon Dots for Inner Filter Effect-Based Selective Sensing of Ofloxacin Antibiotics", "abstract": "A two-step viable synthetic approach for quick and energy-efficient acid-based charring is described here to fabricate self-passivated fluorescent water-soluble CD (wsCD) from sustainable microcrystal...", "citations": 33, "author_count": 10, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7564, "doi": "10.1021/acsanm.2c05526", "umap_coordinates": { "x": 392.6434631347656, "y": 134.38739013671875, "z": 204.2798614501953 }, "tsne_coordinates": { "x": 25.470867156982422, "y": 21.354339599609375, "z": -1.0112205743789673 }, "pca_coordinates": { "x": -5.074657440185547, "y": -2.3895936012268066, "z": -0.5412284731864929 }, "axis_scores": { "Quantum imaging": 0.7015132904052734, "Quantum Life Science Sensing": 0.7241126894950867, "Quantum sensing Detection": 0.7177410125732422, "Quantum sensing Metrology": 0.7041348814964294, "Quantum sensing navigation": 0.6898636817932129, "Quantum sensing Position": 0.6684473752975464, "Quantum sensing Timing": 0.6538199186325073, "Quantum sensing": 0.7244837284088135, "Quantum control": 0.6858612298965454 } }, { "id": 7557, "title": "Non-Hermitian Hamiltonians for linear and nonlinear optical response: A model for plexcitons", "abstract": "In polaritons, the properties of matter are modified by mixing the molecular transitions with light modes inside a cavity. Resultant hybrid light-matter states exhibit energy level shifts, are delocal...", "citations": 9, "author_count": 6, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7565, "doi": "10.1063/5.0130287", "umap_coordinates": { "x": 394.6580505371094, "y": 136.8414764404297, "z": 207.0097198486328 }, "tsne_coordinates": { "x": -10.146374702453613, "y": 2.0443363189697266, "z": 8.403788566589355 }, "pca_coordinates": { "x": 1.8307664394378662, "y": 0.9939969778060913, "z": 0.31503409147262573 }, "axis_scores": { "Quantum imaging": 0.7296183109283447, "Quantum Life Science Sensing": 0.7210682034492493, "Quantum sensing Detection": 0.7227060198783875, "Quantum sensing Metrology": 0.7101932764053345, "Quantum sensing navigation": 0.707128643989563, "Quantum sensing Position": 0.6880975961685181, "Quantum sensing Timing": 0.6826854348182678, "Quantum sensing": 0.7273439764976501, "Quantum control": 0.7039123177528381 } }, { "id": 7558, "title": "Graphene Dots Embedded Phosphide Nanosheet-Assembled Tubular Arrays for Efficient and Stable Overall Water Splitting", "abstract": "Bifunctional electrocatalysts are highly desired for overall water splitting. Herein, the design and fabrication of three-dimensional (3D) hierarchical earth-abundant transition bimetallic phosphide a...", "citations": 52, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7566, "doi": "10.1021/acsami.7b06231", "umap_coordinates": { "x": 391.7288818359375, "y": 134.0947723388672, "z": 205.71327209472656 }, "tsne_coordinates": { "x": 19.5301456451416, "y": 9.363072395324707, "z": -15.079606056213379 }, "pca_coordinates": { "x": -2.5099759101867676, "y": -4.443923473358154, "z": -1.1838456392288208 }, "axis_scores": { "Quantum imaging": 0.7006403803825378, "Quantum Life Science Sensing": 0.7133775353431702, "Quantum sensing Detection": 0.6759995222091675, "Quantum sensing Metrology": 0.670447826385498, "Quantum sensing navigation": 0.6833711862564087, "Quantum sensing Position": 0.6680527925491333, "Quantum sensing Timing": 0.6470879316329956, "Quantum sensing": 0.6905653476715088, "Quantum control": 0.6742286682128906 } }, { "id": 7559, "title": "Highly Luminous Sky-Blue Organic Light-Emitting Diodes Based on the Bis[(1,2)(5,6)]indoloanthracene Emissive Layer", "abstract": "An in-depth analysis of the electro-optical and light-emissive properties was carried out with a new fused heteroacene, the bis[(1,2)(5,6)]indoloanthracene. The compound was synthesized in a straightf...", "citations": 54, "author_count": 18, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7567, "doi": "10.1021/acs.jpcc.6b00696", "umap_coordinates": { "x": 391.75506591796875, "y": 134.49090576171875, "z": 204.89675903320312 }, "tsne_coordinates": { "x": 15.367032051086426, "y": 2.07123064994812, "z": -22.85914421081543 }, "pca_coordinates": { "x": -2.7695555686950684, "y": -2.7998881340026855, "z": -0.8854719996452332 }, "axis_scores": { "Quantum imaging": 0.7262474298477173, "Quantum Life Science Sensing": 0.7141076326370239, "Quantum sensing Detection": 0.6977134943008423, "Quantum sensing Metrology": 0.6967169642448425, "Quantum sensing navigation": 0.6813212037086487, "Quantum sensing Position": 0.6764122247695923, "Quantum sensing Timing": 0.6556881666183472, "Quantum sensing": 0.7133738398551941, "Quantum control": 0.6771683692932129 } }, { "id": 7560, "title": "Highly Water-Dispersible Surface-Modified Gd2O3 Nanoparticles for Potential Dual-Modal Bioimaging", "abstract": "Water-dispersible and luminescent gadolinium oxide (GO) nanoparticles (NPs) were designed and synthesized for potential dual-modal biological imaging. They were obtained by capping gadolinium oxide na...", "citations": 42, "author_count": 9, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7568, "doi": "10.1002/chem.201301687", "umap_coordinates": { "x": 393.4315185546875, "y": 133.49932861328125, "z": 204.62881469726562 }, "tsne_coordinates": { "x": 12.190214157104492, "y": 20.321533203125, "z": -14.58510684967041 }, "pca_coordinates": { "x": -5.081806659698486, "y": -2.059664249420166, "z": -0.27558958530426025 }, "axis_scores": { "Quantum imaging": 0.7406904697418213, "Quantum Life Science Sensing": 0.7353118658065796, "Quantum sensing Detection": 0.7086702585220337, "Quantum sensing Metrology": 0.7005157470703125, "Quantum sensing navigation": 0.6988334059715271, "Quantum sensing Position": 0.6568936705589294, "Quantum sensing Timing": 0.6356837749481201, "Quantum sensing": 0.7162935733795166, "Quantum control": 0.6790695190429688 } }, { "id": 7561, "title": "Size and settling velocities of phosphorus-containing particles in water from agricultural drains", "abstract": "Sedimentation and filtering of suspended solid particles are commonly suggested as removal mechanisms for particle-borne nutrients such as phosphorus, but little information on the particles themselve...", "citations": 38, "author_count": 2, "categories": [ "Environmental Sciences & Ecology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7569, "doi": "10.1023/B:WATE.0000038906.18517.e2", "umap_coordinates": { "x": 394.01959228515625, "y": 135.1697998046875, "z": 204.7391357421875 }, "tsne_coordinates": { "x": 8.13543701171875, "y": 21.91924285888672, "z": 12.908989906311035 }, "pca_coordinates": { "x": -1.6491583585739136, "y": 0.010419607162475586, "z": -0.9230635166168213 }, "axis_scores": { "Quantum imaging": 0.6693073511123657, "Quantum Life Science Sensing": 0.6990612745285034, "Quantum sensing Detection": 0.6679829955101013, "Quantum sensing Metrology": 0.6728726029396057, "Quantum sensing navigation": 0.6925755143165588, "Quantum sensing Position": 0.6907477378845215, "Quantum sensing Timing": 0.6556699872016907, "Quantum sensing": 0.6811932325363159, "Quantum control": 0.6620412468910217 } }, { "id": 7562, "title": "Superparamagnetism of magnetite nanoparticles: Dependence on surface modification", "abstract": "Superparamagnetic iron oxide nanoparticles (SPION) with an average particle diameter of 6 nm are prepared by controlled chemical coprecipitations. Colloidal suspensions of noninteracting SPION, where ...", "citations": 491, "author_count": 8, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7570, "doi": "10.1021/la035648e", "umap_coordinates": { "x": 391.98321533203125, "y": 134.86679077148438, "z": 206.02584838867188 }, "tsne_coordinates": { "x": 13.692159652709961, "y": -5.166749000549316, "z": -14.666248321533203 }, "pca_coordinates": { "x": -3.0347297191619873, "y": -2.477114677429199, "z": -2.4574737548828125 }, "axis_scores": { "Quantum imaging": 0.6902003884315491, "Quantum Life Science Sensing": 0.7156926393508911, "Quantum sensing Detection": 0.695452094078064, "Quantum sensing Metrology": 0.6923588514328003, "Quantum sensing navigation": 0.6635103225708008, "Quantum sensing Position": 0.6654961109161377, "Quantum sensing Timing": 0.6413189172744751, "Quantum sensing": 0.7048978209495544, "Quantum control": 0.6666192412376404 } }, { "id": 7563, "title": "Time dependence of laser cooling in optical lattices", "abstract": "We study the dynamics of the cooling of a gas of caesium atoms in an optical lattice, both experimentally and with 1D full-quantum Monte Carlo simulations. We find that, contrary to the standard inter...", "citations": 10, "author_count": 6, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7571, "doi": "10.1209/epl/i2005-10244-6", "umap_coordinates": { "x": 394.1832580566406, "y": 135.86672973632812, "z": 206.29624938964844 }, "tsne_coordinates": { "x": -8.667561531066895, "y": -18.670602798461914, "z": -23.635034561157227 }, "pca_coordinates": { "x": 0.28305649757385254, "y": 1.5723562240600586, "z": -0.7243036031723022 }, "axis_scores": { "Quantum imaging": 0.728629469871521, "Quantum Life Science Sensing": 0.715616762638092, "Quantum sensing Detection": 0.6914576888084412, "Quantum sensing Metrology": 0.6825523972511292, "Quantum sensing navigation": 0.684659481048584, "Quantum sensing Position": 0.7147083282470703, "Quantum sensing Timing": 0.7512201070785522, "Quantum sensing": 0.7037686705589294, "Quantum control": 0.7069115042686462 } }, { "id": 7564, "title": "Amplifying X-ray-Induced Charge Transfer Facilitates Direct Sensitization of Photosensitizers in Radiotherapy", "abstract": "X-ray-induced photodynamic therapy offers substantial promise for treating deep-seated tumors, but it is still limited by highly inefficient energy transfer processes and the stringent requirements fo...", "citations": 1, "author_count": 12, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7572, "doi": "10.1021/acsnano.5c01506", "umap_coordinates": { "x": 394.0730285644531, "y": 133.80274963378906, "z": 205.21189880371094 }, "tsne_coordinates": { "x": 7.903751850128174, "y": 24.633840560913086, "z": -21.941221237182617 }, "pca_coordinates": { "x": -2.395613670349121, "y": 0.3826718330383301, "z": 2.3573033809661865 }, "axis_scores": { "Quantum imaging": 0.6806129217147827, "Quantum Life Science Sensing": 0.6529234647750854, "Quantum sensing Detection": 0.6566711068153381, "Quantum sensing Metrology": 0.6359319090843201, "Quantum sensing navigation": 0.6409508585929871, "Quantum sensing Position": 0.63552325963974, "Quantum sensing Timing": 0.6470568776130676, "Quantum sensing": 0.667415201663971, "Quantum control": 0.6306263208389282 } }, { "id": 7565, "title": "Microwave-assisted fractionation and functionalization of technical lignin toward thermoset resins", "abstract": "Lignin is the most abundant aromatic biopolymer, with a potential to serve as a building block of rigid and thermally stable bio-based materials. However, it is still underutilized because of the hete...", "citations": 5, "author_count": 6, "categories": [ "Polymer Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7573, "doi": "10.1002/app.54645", "umap_coordinates": { "x": 392.8849182128906, "y": 135.6792755126953, "z": 203.75453186035156 }, "tsne_coordinates": { "x": 24.48114585876465, "y": 32.776695251464844, "z": -2.0562214851379395 }, "pca_coordinates": { "x": -3.3906798362731934, "y": 2.2163569927215576, "z": -0.665599524974823 }, "axis_scores": { "Quantum imaging": 0.6292964220046997, "Quantum Life Science Sensing": 0.6368147730827332, "Quantum sensing Detection": 0.6076042652130127, "Quantum sensing Metrology": 0.617867648601532, "Quantum sensing navigation": 0.6190482974052429, "Quantum sensing Position": 0.599015474319458, "Quantum sensing Timing": 0.6085599660873413, "Quantum sensing": 0.6369367241859436, "Quantum control": 0.6383451223373413 } }, { "id": 7566, "title": "How to GIWAXS: Grazing Incidence Wide Angle X-Ray Scattering Applied to Metal Halide Perovskite Thin Films", "abstract": "The frequency of reports utilizing synchrotron-based grazing incident wide angle X-ray scattering (GIWAXS) to study metal halide perovskite thin films has exploded recently, as this technique has prov...", "citations": 144, "author_count": 17, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7574, "doi": "10.1002/aenm.202300760", "umap_coordinates": { "x": 392.353515625, "y": 133.98226928710938, "z": 205.3826141357422 }, "tsne_coordinates": { "x": 26.927095413208008, "y": -0.04626140370965004, "z": -27.166030883789062 }, "pca_coordinates": { "x": -1.9591319561004639, "y": -0.06504106521606445, "z": -0.7039411067962646 }, "axis_scores": { "Quantum imaging": 0.6797921657562256, "Quantum Life Science Sensing": 0.691608190536499, "Quantum sensing Detection": 0.6690170168876648, "Quantum sensing Metrology": 0.6831278204917908, "Quantum sensing navigation": 0.6873682141304016, "Quantum sensing Position": 0.6710959672927856, "Quantum sensing Timing": 0.656302273273468, "Quantum sensing": 0.6862075924873352, "Quantum control": 0.6686156392097473 } }, { "id": 7567, "title": "Blasts from the Past: Supernova Shock Breakouts among X-Ray Transients in the XMM-Newton Archive", "abstract": "The first electromagnetic signal from a supernova (SN) is released when the shock crosses the progenitor surface. This shock breakout (SBO) emission provides constraints on progenitor and explosion pr...", "citations": 51, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7575, "doi": "10.3847/1538-4357/ab91ba", "umap_coordinates": { "x": 396.4186706542969, "y": 134.83985900878906, "z": 206.44215393066406 }, "tsne_coordinates": { "x": -34.4296875, "y": 20.522790908813477, "z": 2.146723747253418 }, "pca_coordinates": { "x": -0.14995694160461426, "y": 3.200230121612549, "z": 0.6649346947669983 }, "axis_scores": { "Quantum imaging": 0.6073552370071411, "Quantum Life Science Sensing": 0.5942255854606628, "Quantum sensing Detection": 0.5955410599708557, "Quantum sensing Metrology": 0.5827217698097229, "Quantum sensing navigation": 0.6350194811820984, "Quantum sensing Position": 0.6203519105911255, "Quantum sensing Timing": 0.6485825181007385, "Quantum sensing": 0.5932715535163879, "Quantum control": 0.5865880250930786 } }, { "id": 7568, "title": "Antibody immobilization strategy for the development of a capacitive immunosensor detecting zearalenone", "abstract": "A highly sensitive flow-injection capacitive immunosensor was developed for detection of the mycotoxin zearalenone (ZEN). Different strategies for immobilization of an anti-ZEN antibody on the surface...", "citations": 41, "author_count": 5, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7576, "doi": "10.1016/j.talanta.2018.08.062", "umap_coordinates": { "x": 393.4618835449219, "y": 134.20071411132812, "z": 203.9458770751953 }, "tsne_coordinates": { "x": 20.272993087768555, "y": 21.958274841308594, "z": -12.439501762390137 }, "pca_coordinates": { "x": -4.2042622566223145, "y": 0.05985832214355469, "z": -0.9889728426933289 }, "axis_scores": { "Quantum imaging": 0.6781527996063232, "Quantum Life Science Sensing": 0.7083802819252014, "Quantum sensing Detection": 0.6924166083335876, "Quantum sensing Metrology": 0.6829884052276611, "Quantum sensing navigation": 0.7002490162849426, "Quantum sensing Position": 0.6905591487884521, "Quantum sensing Timing": 0.6589682698249817, "Quantum sensing": 0.6942657232284546, "Quantum control": 0.6844056248664856 } }, { "id": 7569, "title": "CHANGES IN PHOTOSYSTEM-II FLUORESCENCE IN CHLAMYDOMONAS-REINHARDTII EXPOSED TO INCREASING LEVELS OF IRRADIANCE IN RELATIONSHIP TO THE PHOTOSYNTHETIC RESPONSE TO LIGHT", "abstract": "The effects of a 60 min exposure to photosynthetic photon flux densities ranging from 300 to 2200-mu-mol m-2 s-1 on the photosynthetic light response curve and on PS II heterogeneity as reflected in c...", "citations": 24, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7577, "doi": "10.1007/BF00049534", "umap_coordinates": { "x": 394.00701904296875, "y": 136.3938751220703, "z": 204.0792999267578 }, "tsne_coordinates": { "x": 7.294586658477783, "y": 29.466045379638672, "z": 7.0958757400512695 }, "pca_coordinates": { "x": -2.2047154903411865, "y": 1.3202643394470215, "z": -2.5366768836975098 }, "axis_scores": { "Quantum imaging": 0.6924010515213013, "Quantum Life Science Sensing": 0.7186992764472961, "Quantum sensing Detection": 0.6672888398170471, "Quantum sensing Metrology": 0.666350245475769, "Quantum sensing navigation": 0.6771273612976074, "Quantum sensing Position": 0.6672250032424927, "Quantum sensing Timing": 0.6463336944580078, "Quantum sensing": 0.6840104460716248, "Quantum control": 0.6668581962585449 } }, { "id": 7570, "title": "Off-diagonal generalization of the mixed-state geometric phase - art. no. 042112", "abstract": "The concept of off-diagonal geometric phases for mixed quantal states in unitary evolution is developed. We show that these phases arise, from three basic ideas: (1) fulfillment of quantum parallel tr...", "citations": 28, "author_count": 3, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7578, "doi": "10.1103/PhysRevA.68.042112", "umap_coordinates": { "x": 395.1612243652344, "y": 136.90609741210938, "z": 208.12217712402344 }, "tsne_coordinates": { "x": -22.33054542541504, "y": -23.823720932006836, "z": 15.52829647064209 }, "pca_coordinates": { "x": 4.656781196594238, "y": 1.8864662647247314, "z": -0.8971050977706909 }, "axis_scores": { "Quantum imaging": 0.7176194787025452, "Quantum Life Science Sensing": 0.7036773562431335, "Quantum sensing Detection": 0.6948517560958862, "Quantum sensing Metrology": 0.7074589729309082, "Quantum sensing navigation": 0.7210046648979187, "Quantum sensing Position": 0.6858617067337036, "Quantum sensing Timing": 0.6803942322731018, "Quantum sensing": 0.7099058628082275, "Quantum control": 0.7060393691062927 } }, { "id": 7571, "title": "Search for short- and long-lived axion-like particles in H → aa → 4γ decays with the ATLAS experiment at the LHC", "abstract": "Presented is the search for anomalous Higgs boson decays into two axion-like particles (ALPs) using the full Run 2 data set of 140 fb(-1) of proton-proton collisions at a centre-of-mass energy of 13 T...", "citations": 15, "author_count": 2681, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7579, "doi": "10.1140/epjc/s10052-024-12979-0", "umap_coordinates": { "x": 396.8214416503906, "y": 134.51780700683594, "z": 206.95103454589844 }, "tsne_coordinates": { "x": -33.04240798950195, "y": 11.811594009399414, "z": -4.6765851974487305 }, "pca_coordinates": { "x": 0.5054929256439209, "y": 2.4906563758850098, "z": 1.9614014625549316 }, "axis_scores": { "Quantum imaging": 0.6767621636390686, "Quantum Life Science Sensing": 0.6772016286849976, "Quantum sensing Detection": 0.6655951738357544, "Quantum sensing Metrology": 0.6310908198356628, "Quantum sensing navigation": 0.6753821969032288, "Quantum sensing Position": 0.6691578030586243, "Quantum sensing Timing": 0.7029898166656494, "Quantum sensing": 0.6712393164634705, "Quantum control": 0.6583558917045593 } }, { "id": 7572, "title": "Fast timing study of a CeBr3 crystal: Time resolution below 120 ps at 60Co energies", "abstract": "We report on the time response of a novel inorganic scintillator, CeBr3. The measurements were performed using a cylindrical crystal of 1-in, in height and 1-in, in diameter at Na-22 and Co-60 photon ...", "citations": 53, "author_count": 8, "categories": [ "Instruments & Instrumentation" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7580, "doi": "10.1016/j.nima.2012.11.009", "umap_coordinates": { "x": 395.1064147949219, "y": 133.9366912841797, "z": 205.20440673828125 }, "tsne_coordinates": { "x": -15.876421928405762, "y": 24.269248962402344, "z": -2.387953042984009 }, "pca_coordinates": { "x": -1.4026232957839966, "y": 2.0042519569396973, "z": -0.31014585494995117 }, "axis_scores": { "Quantum imaging": 0.7147690057754517, "Quantum Life Science Sensing": 0.717578113079071, "Quantum sensing Detection": 0.6969043612480164, "Quantum sensing Metrology": 0.689534068107605, "Quantum sensing navigation": 0.7056182622909546, "Quantum sensing Position": 0.702164351940155, "Quantum sensing Timing": 0.7679839134216309, "Quantum sensing": 0.7049931287765503, "Quantum control": 0.6787407398223877 } }, { "id": 7573, "title": "Structure and thermodynamic stability of hydrogen interstitials in BaZrO3 perovskite oxide from density functional calculations", "abstract": "Density functional calculations have been used to study the electronic structure, preferred sites in the lattice, formation energies and vibrational frequencies for hydrogen interstitials in different...", "citations": 125, "author_count": 4, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7581, "doi": "10.1039/b602081j", "umap_coordinates": { "x": 392.7314147949219, "y": 137.0170135498047, "z": 206.0347900390625 }, "tsne_coordinates": { "x": 7.856215953826904, "y": -24.572538375854492, "z": 37.92361068725586 }, "pca_coordinates": { "x": 1.1560144424438477, "y": -0.5073552131652832, "z": -4.410078048706055 }, "axis_scores": { "Quantum imaging": 0.6902483105659485, "Quantum Life Science Sensing": 0.725299596786499, "Quantum sensing Detection": 0.6597198843955994, "Quantum sensing Metrology": 0.6661584973335266, "Quantum sensing navigation": 0.6867549419403076, "Quantum sensing Position": 0.6664378643035889, "Quantum sensing Timing": 0.6399672031402588, "Quantum sensing": 0.6839122772216797, "Quantum control": 0.6742360591888428 } }, { "id": 7574, "title": "A five-dimensional quantum scattering model for the type AB+XCD3⇆ABX+CD3 reaction in hyperspherical coordinates:: Application to OH+CH4⇆H2O+CH3", "abstract": "A reduced dimensionality (RD) reactive quantum scattering model has been presented for the general type AB+XCD(3)reversible arrow ABX+CD3 reaction, where the CD3 fragment has C-3V symmetry. The model ...", "citations": 23, "author_count": 2, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7582, "doi": "10.1063/1.1342218", "umap_coordinates": { "x": 394.0199890136719, "y": 137.2233123779297, "z": 206.33973693847656 }, "tsne_coordinates": { "x": -11.944503784179688, "y": 9.275979995727539, "z": 32.699100494384766 }, "pca_coordinates": { "x": 0.5710164308547974, "y": 1.199215292930603, "z": -1.4901115894317627 }, "axis_scores": { "Quantum imaging": 0.7208463549613953, "Quantum Life Science Sensing": 0.7272562980651855, "Quantum sensing Detection": 0.7226130962371826, "Quantum sensing Metrology": 0.7165579199790955, "Quantum sensing navigation": 0.7229515910148621, "Quantum sensing Position": 0.707447350025177, "Quantum sensing Timing": 0.6939767599105835, "Quantum sensing": 0.7350963354110718, "Quantum control": 0.7250310182571411 } }, { "id": 7575, "title": "Near- and far-field optical characterization of InGaN photonic crystal light emitting diodesy", "abstract": "Light extraction from InGaN photonic crystal (PhC) light emitting diodes (LEDs) has been studied by scanning near-field optical microscopy and time-resolved photoluminescence. The observed patterns of...", "citations": 4, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7583, "doi": "10.1002/pssc.201100571", "umap_coordinates": { "x": 393.5198669433594, "y": 134.13494873046875, "z": 206.0686798095703 }, "tsne_coordinates": { "x": 33.99053192138672, "y": 3.159672260284424, "z": 2.185241460800171 }, "pca_coordinates": { "x": -2.490126132965088, "y": -2.0084586143493652, "z": 2.2224228382110596 }, "axis_scores": { "Quantum imaging": 0.7219564914703369, "Quantum Life Science Sensing": 0.7272197008132935, "Quantum sensing Detection": 0.7066662907600403, "Quantum sensing Metrology": 0.7256428003311157, "Quantum sensing navigation": 0.7060322761535645, "Quantum sensing Position": 0.6942925453186035, "Quantum sensing Timing": 0.6739802360534668, "Quantum sensing": 0.7248880863189697, "Quantum control": 0.6906294822692871 } }, { "id": 7576, "title": "ATTENUATION AND SCATTER CORRECTION IN SPECT FOR SOURCES IN A NONHOMOGENEOUS OBJECT - A MONTE-CARLO STUDY", "abstract": "Single-photon emission computed tomography (SPECT) is important for imaging radioactivity distributions in vivo. Quantitative SPECT is limited due to attenuation and scatter contribution. Approximatio...", "citations": 75, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1991, "topic": [ "all" ], "embedding_index": 7584, "doi": null, "umap_coordinates": { "x": 391.59820556640625, "y": 139.37811279296875, "z": 209.75546264648438 }, "tsne_coordinates": { "x": 2.292884349822998, "y": 39.06397247314453, "z": -8.893782615661621 }, "pca_coordinates": { "x": -2.749134063720703, "y": 4.3725361824035645, "z": -0.09301644563674927 }, "axis_scores": { "Quantum imaging": 0.7060472369194031, "Quantum Life Science Sensing": 0.6836585998535156, "Quantum sensing Detection": 0.684406042098999, "Quantum sensing Metrology": 0.6715613603591919, "Quantum sensing navigation": 0.6911649703979492, "Quantum sensing Position": 0.6529080867767334, "Quantum sensing Timing": 0.6455597877502441, "Quantum sensing": 0.6839033961296082, "Quantum control": 0.6643296480178833 } }, { "id": 7577, "title": "Lifshitz transition and Van Hove singularity in a three-dimensional topological Dirac semimetal", "abstract": "A three-dimensional (3D) Dirac semimetal is a novel state of quantum matter which has recently attracted much attention as an apparent 3D version of graphene. In this paper, we report results on the e...", "citations": 37, "author_count": 24, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7585, "doi": "10.1103/PhysRevB.92.075115", "umap_coordinates": { "x": 394.2215881347656, "y": 136.36196899414062, "z": 209.35293579101562 }, "tsne_coordinates": { "x": -4.410372257232666, "y": -27.789560317993164, "z": 12.278541564941406 }, "pca_coordinates": { "x": 4.578004360198975, "y": -0.3204052448272705, "z": -0.7839177846908569 }, "axis_scores": { "Quantum imaging": 0.691173255443573, "Quantum Life Science Sensing": 0.7140647768974304, "Quantum sensing Detection": 0.7066670656204224, "Quantum sensing Metrology": 0.6951270699501038, "Quantum sensing navigation": 0.706027626991272, "Quantum sensing Position": 0.6761402487754822, "Quantum sensing Timing": 0.6530661582946777, "Quantum sensing": 0.7023165225982666, "Quantum control": 0.6571037769317627 } }, { "id": 7578, "title": "Search for Quantum Black Hole Production in High-Invariant-Mass Lepton plus Jet Final States Using pp Collisions at √s=8 TeV and the ATLAS Detector", "abstract": "This Letter presents a search for quantum black-hole production using 20.3 fb(-1) of data collected with the ATLAS detector in pp collisions at the LHC at root s = 8 TeV. The quantum black holes are a...", "citations": 36, "author_count": 2652, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7586, "doi": "10.1103/PhysRevLett.112.091804", "umap_coordinates": { "x": 396.6516418457031, "y": 134.6416473388672, "z": 207.65830993652344 }, "tsne_coordinates": { "x": -37.81325149536133, "y": 5.834863185882568, "z": -11.938825607299805 }, "pca_coordinates": { "x": 3.290311813354492, "y": 0.18162250518798828, "z": 2.6533055305480957 }, "axis_scores": { "Quantum imaging": 0.6788640022277832, "Quantum Life Science Sensing": 0.6830778121948242, "Quantum sensing Detection": 0.6975414156913757, "Quantum sensing Metrology": 0.6737920641899109, "Quantum sensing navigation": 0.6935874223709106, "Quantum sensing Position": 0.690462589263916, "Quantum sensing Timing": 0.7076097130775452, "Quantum sensing": 0.6927171945571899, "Quantum control": 0.6608636975288391 } }, { "id": 7579, "title": "Substituent effects on the photophysical properties of fluorescent 2-benzoylmethylenequinoline difluoroboranes: A combined experimental and quantum chemical study", "abstract": "In this study, we demonstrate a successful synergy between theory and experiment and report on the photophysical properties of a recently synthesized series of substituted 2-benzoylmethylenequinoline ...", "citations": 51, "author_count": 8, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7587, "doi": "10.1016/j.dyepig.2013.08.002", "umap_coordinates": { "x": 392.87274169921875, "y": 135.29629516601562, "z": 204.50709533691406 }, "tsne_coordinates": { "x": 3.3414864540100098, "y": 13.196993827819824, "z": -3.485823392868042 }, "pca_coordinates": { "x": -4.450299263000488, "y": -0.4009244441986084, "z": -2.29412841796875 }, "axis_scores": { "Quantum imaging": 0.7452877759933472, "Quantum Life Science Sensing": 0.7403059005737305, "Quantum sensing Detection": 0.708024799823761, "Quantum sensing Metrology": 0.7122997045516968, "Quantum sensing navigation": 0.700809121131897, "Quantum sensing Position": 0.7062002420425415, "Quantum sensing Timing": 0.6602646112442017, "Quantum sensing": 0.7371094226837158, "Quantum control": 0.7179582715034485 } }, { "id": 7580, "title": "A 0.8 mm heterodyne facility receiver for the APEX telescope", "abstract": "Aims. The new APEX telescope, located on Llano Chajnantor in Northern Chile, will have high resolution spectroscopic instruments covering the wavelength region from 0.20 to 1.30 mm (210-1500 GHz). Met...", "citations": 36, "author_count": 21, "categories": [ "Astronomy & Astrophysics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7588, "doi": "10.1051/0004-6361:20065373", "umap_coordinates": { "x": 395.8554992675781, "y": 134.70822143554688, "z": 205.9581298828125 }, "tsne_coordinates": { "x": -24.858257293701172, "y": 18.73041343688965, "z": 0.5534118413925171 }, "pca_coordinates": { "x": -0.9402897357940674, "y": 1.9700143337249756, "z": 2.8852109909057617 }, "axis_scores": { "Quantum imaging": 0.6906387209892273, "Quantum Life Science Sensing": 0.6790921688079834, "Quantum sensing Detection": 0.6835312247276306, "Quantum sensing Metrology": 0.6884435415267944, "Quantum sensing navigation": 0.6838752031326294, "Quantum sensing Position": 0.6901065707206726, "Quantum sensing Timing": 0.6999576091766357, "Quantum sensing": 0.6870813965797424, "Quantum control": 0.6718424558639526 } }, { "id": 7581, "title": "PATIENT DOSE MEASUREMENTS IN PHOTON FIELDS BY MEANS OF SILICON SEMICONDUCTOR-DETECTORS", "abstract": "Semiconductor detectors based on p-type silicon and designed for in vivo measurement of entrance dose at the reference point from photon radiation fields, are described. To estimate the absorbed dose ...", "citations": 39, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 1987, "topic": [ "all" ], "embedding_index": 7589, "doi": "10.1118/1.596015", "umap_coordinates": { "x": 395.9302978515625, "y": 132.92794799804688, "z": 205.4335479736328 }, "tsne_coordinates": { "x": -12.265913963317871, "y": 28.840776443481445, "z": -23.238929748535156 }, "pca_coordinates": { "x": -0.6692886352539062, "y": 0.6222589015960693, "z": 6.141434192657471 }, "axis_scores": { "Quantum imaging": 0.7359315156936646, "Quantum Life Science Sensing": 0.7397489547729492, "Quantum sensing Detection": 0.7392671704292297, "Quantum sensing Metrology": 0.7467760443687439, "Quantum sensing navigation": 0.7265675663948059, "Quantum sensing Position": 0.7273716330528259, "Quantum sensing Timing": 0.7101747989654541, "Quantum sensing": 0.7408713698387146, "Quantum control": 0.6462591290473938 } }, { "id": 7582, "title": "Testing Super-Deterministic Hidden Variables Theories", "abstract": "We propose to experimentally test non-deterministic time evolution in quantum mechanics by consecutive measurements of non-commuting observables on the same prepared state. While in the standard theor...", "citations": 19, "author_count": 2, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7590, "doi": "10.1007/s10701-011-9565-0", "umap_coordinates": { "x": 395.4602355957031, "y": 136.87109375, "z": 205.96035766601562 }, "tsne_coordinates": { "x": -32.505859375, "y": 2.8565421104431152, "z": 8.874475479125977 }, "pca_coordinates": { "x": 1.0673370361328125, "y": 3.7252132892608643, "z": 1.9811983108520508 }, "axis_scores": { "Quantum imaging": 0.7016558647155762, "Quantum Life Science Sensing": 0.7187654376029968, "Quantum sensing Detection": 0.7203727960586548, "Quantum sensing Metrology": 0.711954653263092, "Quantum sensing navigation": 0.7271672487258911, "Quantum sensing Position": 0.6895169019699097, "Quantum sensing Timing": 0.7084202170372009, "Quantum sensing": 0.7257195711135864, "Quantum control": 0.6906775236129761 } }, { "id": 7583, "title": "Statistics of Fractionalized Excitations through Threshold Spectroscopy", "abstract": "We show that neutral anyonic excitations have a signature in spectroscopic measurements of materials: The low-energy onset of spectral functions near the threshold follows universal power laws with an...", "citations": 49, "author_count": 5, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7591, "doi": "10.1103/PhysRevLett.118.227201", "umap_coordinates": { "x": 394.8038330078125, "y": 136.38015747070312, "z": 207.95108032226562 }, "tsne_coordinates": { "x": -20.840213775634766, "y": -31.883403778076172, "z": -2.449585437774658 }, "pca_coordinates": { "x": 3.3487696647644043, "y": -0.0274658203125, "z": 0.9182360768318176 }, "axis_scores": { "Quantum imaging": 0.7447493672370911, "Quantum Life Science Sensing": 0.7503154873847961, "Quantum sensing Detection": 0.747369110584259, "Quantum sensing Metrology": 0.7329268455505371, "Quantum sensing navigation": 0.7333148121833801, "Quantum sensing Position": 0.6945571899414062, "Quantum sensing Timing": 0.7236436605453491, "Quantum sensing": 0.7556355595588684, "Quantum control": 0.703562319278717 } }, { "id": 7584, "title": "Fabrication of two-dimensional InP-based photonic crystals by chlorine based chemically assisted ion beam etching", "abstract": "Two-dimensional photonic crystals (PhCs) were etched into InP/(Ga,In)(As,P) planar waveguides using chlorine-based chemical assisted ion beam etching (CAIBE). The processed PhCs were optically charact...", "citations": 38, "author_count": 8, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7592, "doi": "10.1116/1.1688353", "umap_coordinates": { "x": 393.8978576660156, "y": 133.62901306152344, "z": 207.09413146972656 }, "tsne_coordinates": { "x": 34.201942443847656, "y": -18.146228790283203, "z": 3.897865056991577 }, "pca_coordinates": { "x": -1.248566746711731, "y": -1.8524317741394043, "z": 1.7153468132019043 }, "axis_scores": { "Quantum imaging": 0.7372114658355713, "Quantum Life Science Sensing": 0.7023939490318298, "Quantum sensing Detection": 0.7169352769851685, "Quantum sensing Metrology": 0.7164137363433838, "Quantum sensing navigation": 0.7215666174888611, "Quantum sensing Position": 0.6991565227508545, "Quantum sensing Timing": 0.6833502054214478, "Quantum sensing": 0.7276943922042847, "Quantum control": 0.7123461961746216 } }, { "id": 7585, "title": "Higher-order ghost imaging with partially polarized classical light", "abstract": "Visibility, signal-to-noise ratio (SNR), and contrast-to-noise ratio (CNR) are quantities that characterize the quality of the image in ghost (or correlation) imaging. The visibility in quantum and cl...", "citations": 8, "author_count": 5, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7593, "doi": "10.1117/12.896826", "umap_coordinates": { "x": 395.36590576171875, "y": 134.09405517578125, "z": 206.60882568359375 }, "tsne_coordinates": { "x": -24.47393226623535, "y": -7.434138774871826, "z": -13.203203201293945 }, "pca_coordinates": { "x": 0.5817239284515381, "y": 2.7749886512756348, "z": 2.8845715522766113 }, "axis_scores": { "Quantum imaging": 0.7778686881065369, "Quantum Life Science Sensing": 0.6961522698402405, "Quantum sensing Detection": 0.7282476425170898, "Quantum sensing Metrology": 0.7132426500320435, "Quantum sensing navigation": 0.7291671633720398, "Quantum sensing Position": 0.7082799077033997, "Quantum sensing Timing": 0.7016733288764954, "Quantum sensing": 0.7331461906433105, "Quantum control": 0.6912055015563965 } }, { "id": 7586, "title": "Assessment of Photon-Counting Computed Tomography for Quantitative Imaging in Radiation Therapy", "abstract": "Purpose: To test a first-generation clinical photon-counting computed tomography (PCCT) scanner's capabilities to characterize materials in an anthropomorphic head phantom for radiation therapy purpos...", "citations": 5, "author_count": 3, "categories": [ "Oncology" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7594, "doi": "10.1016/j.ijrobp.2024.11.069", "umap_coordinates": { "x": 395.4151611328125, "y": 132.72402954101562, "z": 205.08335876464844 }, "tsne_coordinates": { "x": -1.5349732637405396, "y": 26.52131462097168, "z": -17.24773597717285 }, "pca_coordinates": { "x": -4.253632545471191, "y": 2.4752755165100098, "z": 2.9792027473449707 }, "axis_scores": { "Quantum imaging": 0.7410151958465576, "Quantum Life Science Sensing": 0.7226970195770264, "Quantum sensing Detection": 0.7024340629577637, "Quantum sensing Metrology": 0.7025870680809021, "Quantum sensing navigation": 0.6946506500244141, "Quantum sensing Position": 0.691195011138916, "Quantum sensing Timing": 0.6979995369911194, "Quantum sensing": 0.7081148028373718, "Quantum control": 0.6570680737495422 } }, { "id": 7587, "title": "Tuning of spin-transfer torque in VSe2-based vdW magnetic tunnel junctions by electrode polytypes", "abstract": "Inspired by the promising properties of monolayer 1T-VSe2, known for its ferromagnetic ordering and room-temperature Curie point, we developed a 2D van der Waals heterostructure featuring 1T-VSe2 as t...", "citations": 3, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7595, "doi": "10.1038/s41699-025-00560-6", "umap_coordinates": { "x": 392.48419189453125, "y": 135.44422912597656, "z": 207.02455139160156 }, "tsne_coordinates": { "x": 11.92487621307373, "y": -11.443836212158203, "z": 17.050413131713867 }, "pca_coordinates": { "x": -1.413124918937683, "y": -2.167818069458008, "z": -1.5249931812286377 }, "axis_scores": { "Quantum imaging": 0.655982255935669, "Quantum Life Science Sensing": 0.6750085949897766, "Quantum sensing Detection": 0.6488816738128662, "Quantum sensing Metrology": 0.664551317691803, "Quantum sensing navigation": 0.6717252731323242, "Quantum sensing Position": 0.6744232177734375, "Quantum sensing Timing": 0.6678016185760498, "Quantum sensing": 0.6699529886245728, "Quantum control": 0.6704128980636597 } }, { "id": 7588, "title": "Exact analytical solution for fields in a lossy cylindrical structure with hyperbolic tangent gradient index metamaterials", "abstract": "The advent of metamaterials with tailorable frequency dispersion ensured the emergence of transformation optics with proposed applications that include cloaking devices, superconcentrators, superabsor...", "citations": 4, "author_count": 3, "categories": [ "Engineering" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7596, "doi": "10.1007/s11082-016-0483-4", "umap_coordinates": { "x": 394.1890869140625, "y": 135.4003448486328, "z": 206.98858642578125 }, "tsne_coordinates": { "x": -22.23400115966797, "y": 16.695144653320312, "z": 0.96539705991745 }, "pca_coordinates": { "x": -0.18645012378692627, "y": 1.2493523359298706, "z": 0.1362033486366272 }, "axis_scores": { "Quantum imaging": 0.6908015608787537, "Quantum Life Science Sensing": 0.6968755722045898, "Quantum sensing Detection": 0.6669389009475708, "Quantum sensing Metrology": 0.6834997534751892, "Quantum sensing navigation": 0.6951833367347717, "Quantum sensing Position": 0.681581974029541, "Quantum sensing Timing": 0.6584712266921997, "Quantum sensing": 0.6765894889831543, "Quantum control": 0.6504442691802979 } }, { "id": 7589, "title": "Metal-like heat conduction in laser-excited InSb probed by picosecond time-resolved x-ray diffraction", "abstract": "A semiconductor (InSb) showed transient metal- like heat conduction after excitation of a dense electron- hole plasma via short and intense light pulses. A related ultrafast strain relaxation was dete...", "citations": 9, "author_count": 8, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7597, "doi": "10.1103/PhysRevB.78.115202", "umap_coordinates": { "x": 393.8334045410156, "y": 135.80386352539062, "z": 208.39520263671875 }, "tsne_coordinates": { "x": 1.052230715751648, "y": -41.19367218017578, "z": 1.8915245532989502 }, "pca_coordinates": { "x": 2.935434341430664, "y": -2.1102147102355957, "z": -0.2818228304386139 }, "axis_scores": { "Quantum imaging": 0.7002639770507812, "Quantum Life Science Sensing": 0.7225998044013977, "Quantum sensing Detection": 0.6973167657852173, "Quantum sensing Metrology": 0.6878199577331543, "Quantum sensing navigation": 0.6834511756896973, "Quantum sensing Position": 0.6811141967773438, "Quantum sensing Timing": 0.6848946213722229, "Quantum sensing": 0.7068417072296143, "Quantum control": 0.6586349010467529 } }, { "id": 7590, "title": "'One-dimensional' theory of the quantum Hall system", "abstract": "We consider the lowest Landau level on a torus as a function of its circumference L-1. When L-1 -> 0, the ground state at general rational filling fraction is a crystal with a gap-a Tao-Thouless state...", "citations": 90, "author_count": 3, "categories": [ "Mechanics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7598, "doi": "10.1088/1742-5468/2006/04/L04001", "umap_coordinates": { "x": 395.0302429199219, "y": 137.65882873535156, "z": 207.21348571777344 }, "tsne_coordinates": { "x": -40.449066162109375, "y": -3.2030513286590576, "z": 2.484415292739868 }, "pca_coordinates": { "x": 3.1825389862060547, "y": 3.1753580570220947, "z": -0.4502929151058197 }, "axis_scores": { "Quantum imaging": 0.7379988431930542, "Quantum Life Science Sensing": 0.7393227219581604, "Quantum sensing Detection": 0.7221871018409729, "Quantum sensing Metrology": 0.7076206207275391, "Quantum sensing navigation": 0.7328691482543945, "Quantum sensing Position": 0.7012458443641663, "Quantum sensing Timing": 0.7148770689964294, "Quantum sensing": 0.7418216466903687, "Quantum control": 0.7352225184440613 } }, { "id": 7591, "title": "Quantum phase transitions in disordered dimerized quantum spin models and the Harris criterion", "abstract": "We use quantum Monte Carlo simulations to study effects of disorder on the quantum phase transition occurring versus the ratio g = J/J' in square-lattice dimerized S = 1/2 Heisenberg antiferromagnets ...", "citations": 23, "author_count": 5, "categories": [ "Materials Science" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7599, "doi": "10.1103/PhysRevB.82.172409", "umap_coordinates": { "x": 394.4480895996094, "y": 136.838134765625, "z": 209.06607055664062 }, "tsne_coordinates": { "x": -8.97986888885498, "y": -29.355453491210938, "z": 13.635735511779785 }, "pca_coordinates": { "x": 5.461021900177002, "y": 0.1665201187133789, "z": -2.68146014213562 }, "axis_scores": { "Quantum imaging": 0.7268641591072083, "Quantum Life Science Sensing": 0.7294614315032959, "Quantum sensing Detection": 0.7350103855133057, "Quantum sensing Metrology": 0.725513219833374, "Quantum sensing navigation": 0.7362114191055298, "Quantum sensing Position": 0.7006979584693909, "Quantum sensing Timing": 0.709932804107666, "Quantum sensing": 0.7355529069900513, "Quantum control": 0.7132496237754822 } }, { "id": 7592, "title": "Relative rate study of the kinetic isotope effect in the 13CH3D + Cl reaction", "abstract": "The (CH3D)-C-13/(CH4)-C-12 kinetic isotope effect, alpha((CH3D)-C-13), of CH4 + Cl is determined for the first time, using the relative rate technique and Fourier transform infrared (FTIR) spectroscop...", "citations": 12, "author_count": 8, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7600, "doi": "10.1016/j.cplett.2014.05.022", "umap_coordinates": { "x": 393.52044677734375, "y": 137.3713836669922, "z": 206.14315795898438 }, "tsne_coordinates": { "x": -13.798108100891113, "y": 5.403034210205078, "z": 35.90894317626953 }, "pca_coordinates": { "x": -1.6141700744628906, "y": 2.8731513023376465, "z": -2.6775007247924805 }, "axis_scores": { "Quantum imaging": 0.6616606712341309, "Quantum Life Science Sensing": 0.6693713665008545, "Quantum sensing Detection": 0.6686623096466064, "Quantum sensing Metrology": 0.6349362134933472, "Quantum sensing navigation": 0.6524181962013245, "Quantum sensing Position": 0.6769033670425415, "Quantum sensing Timing": 0.6834802627563477, "Quantum sensing": 0.6695631742477417, "Quantum control": 0.6819621324539185 } }, { "id": 7593, "title": "LONG-TERM STUDIES ON BONE-MINERAL CHANGES DURING DIFFERENT LACTATIONS IN SWEDISH DAIRY-CATTLE", "abstract": "Changes in the bone mineral content (BMC) during the first 4 lactations were continuously studied between July 1977 and Feb. 1982 in a total of 103 dairy cows of different breeds and rearing intensiti...", "citations": 2, "author_count": 5, "categories": [ "Veterinary Sciences" ], "year": 1985, "topic": [ "all" ], "embedding_index": 7601, "doi": null, "umap_coordinates": { "x": 391.2882080078125, "y": 139.5272674560547, "z": 209.30369567871094 }, "tsne_coordinates": { "x": 2.168252468109131, "y": 37.69321060180664, "z": 0.3680703341960907 }, "pca_coordinates": { "x": -2.8097915649414062, "y": 3.7582948207855225, "z": -2.529719114303589 }, "axis_scores": { "Quantum imaging": 0.6126765012741089, "Quantum Life Science Sensing": 0.6697150468826294, "Quantum sensing Detection": 0.6129088401794434, "Quantum sensing Metrology": 0.615455150604248, "Quantum sensing navigation": 0.6301442980766296, "Quantum sensing Position": 0.622232973575592, "Quantum sensing Timing": 0.6132461428642273, "Quantum sensing": 0.6245825886726379, "Quantum control": 0.6044607162475586 } }, { "id": 7594, "title": "Inequivalent Solvation Effects on the N 1s Levels of Self-Associated Melamine Molecules in Aqueous Solution", "abstract": "This work shows how the N 1s photoemission (PE) spectrum of self-associated melamine molecules in aqueous solution has been successfully rationalized using an integrated computational approach encompa...", "citations": 3, "author_count": 12, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7602, "doi": "10.1021/acs.jpcb.3c00327", "umap_coordinates": { "x": 392.3657531738281, "y": 135.968994140625, "z": 206.95550537109375 }, "tsne_coordinates": { "x": 22.451976776123047, "y": -2.6283373832702637, "z": 12.029468536376953 }, "pca_coordinates": { "x": -0.27706968784332275, "y": -1.4853949546813965, "z": -3.3262739181518555 }, "axis_scores": { "Quantum imaging": 0.7164108753204346, "Quantum Life Science Sensing": 0.7110505104064941, "Quantum sensing Detection": 0.6739881038665771, "Quantum sensing Metrology": 0.6744537949562073, "Quantum sensing navigation": 0.709692120552063, "Quantum sensing Position": 0.6884356737136841, "Quantum sensing Timing": 0.6626090407371521, "Quantum sensing": 0.6871651411056519, "Quantum control": 0.6607157588005066 } }, { "id": 7595, "title": "THE LI-6(GAMMA,P) REACTION AT INTERMEDIATE PHOTON ENERGIES", "abstract": "The Li-6(gamma,p) reaction was measured at average tagged photon energies of [E(gamma)] = 59 and 75 MeV. Protons were detected at 5 different angles between 30 degrees and 150 degrees. Most of the obs...", "citations": 5, "author_count": 12, "categories": [ "Physics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7603, "doi": "10.1016/0375-9474(95)00033-W", "umap_coordinates": { "x": 395.61151123046875, "y": 134.50498962402344, "z": 205.8431854248047 }, "tsne_coordinates": { "x": -26.439958572387695, "y": 10.409835815429688, "z": -15.565653800964355 }, "pca_coordinates": { "x": -1.5844935178756714, "y": 1.991899847984314, "z": 2.0695581436157227 }, "axis_scores": { "Quantum imaging": 0.6894397735595703, "Quantum Life Science Sensing": 0.678114652633667, "Quantum sensing Detection": 0.655862033367157, "Quantum sensing Metrology": 0.6288173794746399, "Quantum sensing navigation": 0.6594090461730957, "Quantum sensing Position": 0.6652840971946716, "Quantum sensing Timing": 0.6459050178527832, "Quantum sensing": 0.6640235781669617, "Quantum control": 0.6100637912750244 } }, { "id": 7596, "title": "Directional emissions from perovskite nanocrystals thin film enabled by metasurface integration through one step spin-coating process", "abstract": "Advances in thin film light-emitting devices have fueled the rapid growth of a new class of solid-state lighting devices, featuring low fabrication cost, high quantum efficiency, and broadband spectru...", "citations": 6, "author_count": 12, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7604, "doi": "10.1007/s12274-023-5439-y", "umap_coordinates": { "x": 392.5049743652344, "y": 133.87767028808594, "z": 205.6629638671875 }, "tsne_coordinates": { "x": 20.20832633972168, "y": -10.189164161682129, "z": -13.958600044250488 }, "pca_coordinates": { "x": -3.475661039352417, "y": -3.135033130645752, "z": 1.1128032207489014 }, "axis_scores": { "Quantum imaging": 0.7114482522010803, "Quantum Life Science Sensing": 0.6851011514663696, "Quantum sensing Detection": 0.6801807284355164, "Quantum sensing Metrology": 0.6838008165359497, "Quantum sensing navigation": 0.6991074681282043, "Quantum sensing Position": 0.6669440269470215, "Quantum sensing Timing": 0.6538434028625488, "Quantum sensing": 0.7000312209129333, "Quantum control": 0.6844398975372314 } }, { "id": 7597, "title": "Luminescent organic materials based on donor-acceptor-donor compounds containing carbazole donors and acceptors of varying strength: Spectroscopy, redox properties and application in organic light emitting diodes", "abstract": "Three D-pi-A-pi-D organic luminophores of tunable donor-acceptor interactions were synthesized by combining carbazole D-units with two different A units, namely 2,5-dithiophen-2-yl-[1,3,4]-thiadiazole...", "citations": 10, "author_count": 10, "categories": [ "Materials Science" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7605, "doi": "10.1016/j.optmat.2020.110428", "umap_coordinates": { "x": 393.521728515625, "y": 134.66049194335938, "z": 204.9379119873047 }, "tsne_coordinates": { "x": 8.984145164489746, "y": 15.123111724853516, "z": -3.956299304962158 }, "pca_coordinates": { "x": -3.1046879291534424, "y": -0.7242498397827148, "z": -0.5142995715141296 }, "axis_scores": { "Quantum imaging": 0.737641453742981, "Quantum Life Science Sensing": 0.7532638311386108, "Quantum sensing Detection": 0.7303695678710938, "Quantum sensing Metrology": 0.7297598123550415, "Quantum sensing navigation": 0.7195131182670593, "Quantum sensing Position": 0.7141726613044739, "Quantum sensing Timing": 0.6876509785652161, "Quantum sensing": 0.7423720359802246, "Quantum control": 0.705933153629303 } }, { "id": 7598, "title": "Engineered PMMA-ZnO nanocomposites for improving the electric arc interruption capability in electrical switching applications: Unprecedented experimental insights", "abstract": "Polymer inorganic nanocomposites (PINCs) have been engineered for controlling the electrical arc and to improve the arc interruption capability of the electrical switching applications, like circuit b...", "citations": 18, "author_count": 6, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7606, "doi": "10.1016/j.compscitech.2017.01.017", "umap_coordinates": { "x": 393.3966979980469, "y": 133.77793884277344, "z": 204.87037658691406 }, "tsne_coordinates": { "x": 26.09019660949707, "y": 18.046878814697266, "z": -3.526221513748169 }, "pca_coordinates": { "x": -3.2260942459106445, "y": -1.1384530067443848, "z": 0.8475925326347351 }, "axis_scores": { "Quantum imaging": 0.7207971811294556, "Quantum Life Science Sensing": 0.7329074144363403, "Quantum sensing Detection": 0.6972800493240356, "Quantum sensing Metrology": 0.7104246020317078, "Quantum sensing navigation": 0.6986381411552429, "Quantum sensing Position": 0.6745773553848267, "Quantum sensing Timing": 0.6663910150527954, "Quantum sensing": 0.7162449359893799, "Quantum control": 0.6785780191421509 } }, { "id": 7599, "title": "Nanocomposites of polymer and inorganic nanoparticles for optical and magnetic applications", "abstract": "This article provides an up-to-date review on nanocomposites composed of inorganic nanoparticles and the polymer matrix for optical and magnetic applications. Optical or magnetic characteristics can c...", "citations": 394, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7607, "doi": "10.3402/nano.v1i0.5214", "umap_coordinates": { "x": 393.1747741699219, "y": 134.0060272216797, "z": 204.53640747070312 }, "tsne_coordinates": { "x": 30.08712387084961, "y": 19.230266571044922, "z": -9.447029113769531 }, "pca_coordinates": { "x": -3.6933891773223877, "y": -2.273555278778076, "z": -1.1973545551300049 }, "axis_scores": { "Quantum imaging": 0.7234350442886353, "Quantum Life Science Sensing": 0.7365926504135132, "Quantum sensing Detection": 0.696063220500946, "Quantum sensing Metrology": 0.7060183882713318, "Quantum sensing navigation": 0.6880885362625122, "Quantum sensing Position": 0.6642155647277832, "Quantum sensing Timing": 0.6402740478515625, "Quantum sensing": 0.713516116142273, "Quantum control": 0.6936126351356506 } }, { "id": 7600, "title": "Structural, photophysical, and nonlinear absorption properties of trans-Di-arylalkynyl platinum(II) complexes with phenyl and thiophenyl groups", "abstract": "Optical power limiting and luminescence properties of two Pt(II) complexes with thiophenyl and phenyl groups in the ligands, trans-Pt(P(n-Bu)(3))(2)(CCAr)(2), where Ar = C4H2SCC-p-C6H4-n-C5H11 (1) and...", "citations": 38, "author_count": 8, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7608, "doi": "10.1021/jp066569p", "umap_coordinates": { "x": 392.2755432128906, "y": 135.48410034179688, "z": 205.09027099609375 }, "tsne_coordinates": { "x": -0.20591583847999573, "y": 4.964391708374023, "z": -15.036952018737793 }, "pca_coordinates": { "x": -2.405210018157959, "y": -2.9647603034973145, "z": -0.7717613577842712 }, "axis_scores": { "Quantum imaging": 0.6870681643486023, "Quantum Life Science Sensing": 0.6769333481788635, "Quantum sensing Detection": 0.658463716506958, "Quantum sensing Metrology": 0.6355725526809692, "Quantum sensing navigation": 0.6495049595832825, "Quantum sensing Position": 0.6562561392784119, "Quantum sensing Timing": 0.6607887744903564, "Quantum sensing": 0.6721020936965942, "Quantum control": 0.6414647102355957 } }, { "id": 7601, "title": "Two-dimensional emission quenching and charge separation using a Ru(II)-photosensitizer assembled with membrane-bound acceptors", "abstract": "Novel syntheses of the bipyridine ligand 1, dcHb (dcHb = 4,4'-dicarboxy-2,2'-bipyridine), by anionic oxidation of 4,4'-dimethyl-2',2-bipyridine (dmb) using molecular oxygen (4 atm), and of the sensiti...", "citations": 49, "author_count": 7, "categories": [ "Chemistry" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7609, "doi": "10.1021/jp9710805", "umap_coordinates": { "x": 392.38812255859375, "y": 135.7170867919922, "z": 205.7833251953125 }, "tsne_coordinates": { "x": 1.7403875589370728, "y": -8.420863151550293, "z": -15.02526569366455 }, "pca_coordinates": { "x": -1.4223304986953735, "y": -2.128146171569824, "z": -1.2033896446228027 }, "axis_scores": { "Quantum imaging": 0.7168393135070801, "Quantum Life Science Sensing": 0.7250686883926392, "Quantum sensing Detection": 0.6911093592643738, "Quantum sensing Metrology": 0.6794648170471191, "Quantum sensing navigation": 0.6769295334815979, "Quantum sensing Position": 0.6565526127815247, "Quantum sensing Timing": 0.6365212798118591, "Quantum sensing": 0.6977266073226929, "Quantum control": 0.6748923659324646 } }, { "id": 7602, "title": "Representation of the Universe as a Dendrogramic Hologram Endowed with Relational Interpretation", "abstract": "A proposal for a fundamental theory is described in which classical and quantum physics as a representation of the universe as a gigantic dendrogram are unified. The latter is the explicate order stru...", "citations": 18, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7610, "doi": "10.3390/e23050584", "umap_coordinates": { "x": 394.70074462890625, "y": 137.92132568359375, "z": 206.4727783203125 }, "tsne_coordinates": { "x": -34.1605110168457, "y": -18.819204330444336, "z": 15.119616508483887 }, "pca_coordinates": { "x": 0.8394978046417236, "y": 3.057077169418335, "z": -2.1376757621765137 }, "axis_scores": { "Quantum imaging": 0.7273393869400024, "Quantum Life Science Sensing": 0.7331131100654602, "Quantum sensing Detection": 0.695554256439209, "Quantum sensing Metrology": 0.7039459347724915, "Quantum sensing navigation": 0.7183683514595032, "Quantum sensing Position": 0.7011253237724304, "Quantum sensing Timing": 0.6919687390327454, "Quantum sensing": 0.7198039293289185, "Quantum control": 0.6982752084732056 } }, { "id": 7603, "title": "Green and Sustainable Membranes: A review", "abstract": "Membranes are ubiquitous tools for modern water treatment technology that critically eliminate hazardous materials such as organic, inorganic, heavy metals, and biomedical pollutants. Nowadays, nano-m...", "citations": 85, "author_count": 15, "categories": [ "Environmental Sciences & Ecology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7611, "doi": "10.1016/j.envres.2023.116133", "umap_coordinates": { "x": 393.3197021484375, "y": 134.31045532226562, "z": 204.369140625 }, "tsne_coordinates": { "x": 22.299457550048828, "y": 14.899417877197266, "z": -0.2564464211463928 }, "pca_coordinates": { "x": -3.888988494873047, "y": 0.27248311042785645, "z": -2.973252058029175 }, "axis_scores": { "Quantum imaging": 0.7085767388343811, "Quantum Life Science Sensing": 0.7702847719192505, "Quantum sensing Detection": 0.7100940942764282, "Quantum sensing Metrology": 0.7159606218338013, "Quantum sensing navigation": 0.7029855251312256, "Quantum sensing Position": 0.6670511364936829, "Quantum sensing Timing": 0.6511686444282532, "Quantum sensing": 0.7317793965339661, "Quantum control": 0.7075107097625732 } }, { "id": 7604, "title": "Molecularly-imprinted polymer sensors: realising their potential", "abstract": "In parallel with recent developments in communications, nanotechnology and materials sciences, there has been extraordinary growth in the area of biosensors, with almost half of the total number of pa...", "citations": 473, "author_count": 3, "categories": [ "Biophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7612, "doi": "10.1016/j.bios.2015.07.013", "umap_coordinates": { "x": 393.5583801269531, "y": 133.9757843017578, "z": 204.29307556152344 }, "tsne_coordinates": { "x": 23.19712257385254, "y": 23.15411376953125, "z": -10.348580360412598 }, "pca_coordinates": { "x": -4.2639570236206055, "y": 0.5422701835632324, "z": 0.33142656087875366 }, "axis_scores": { "Quantum imaging": 0.7077082395553589, "Quantum Life Science Sensing": 0.7353734970092773, "Quantum sensing Detection": 0.7174365520477295, "Quantum sensing Metrology": 0.6981790065765381, "Quantum sensing navigation": 0.6862860321998596, "Quantum sensing Position": 0.7027248740196228, "Quantum sensing Timing": 0.6664526462554932, "Quantum sensing": 0.7249940633773804, "Quantum control": 0.6667433977127075 } }, { "id": 7605, "title": "Spectroscopic studies of luminescent and ionically conducting Eu[N(CF3SO2)2]3-PPG4000 complexes", "abstract": "Alternating current impedance, Fourier transform Raman/infrared (IR), and luminescence excitation (continuous and time-resolved) measurements have been conducted on solutions of poly(propylene glycol)...", "citations": 28, "author_count": 6, "categories": [ "Chemistry" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7613, "doi": "10.1063/1.476844", "umap_coordinates": { "x": 392.9861755371094, "y": 135.8287353515625, "z": 206.08529663085938 }, "tsne_coordinates": { "x": 15.002089500427246, "y": 10.517224311828613, "z": 16.097957611083984 }, "pca_coordinates": { "x": -1.0814905166625977, "y": -1.3403639793395996, "z": -0.9810891151428223 }, "axis_scores": { "Quantum imaging": 0.6994207501411438, "Quantum Life Science Sensing": 0.7377263903617859, "Quantum sensing Detection": 0.6940691471099854, "Quantum sensing Metrology": 0.6839377284049988, "Quantum sensing navigation": 0.6839513182640076, "Quantum sensing Position": 0.6688547134399414, "Quantum sensing Timing": 0.656672477722168, "Quantum sensing": 0.710724413394928, "Quantum control": 0.6575725674629211 } }, { "id": 7606, "title": "Representation of Complex Mammary Parenchyma Texture in Tomosynthesis Using Simplex Noise Simulations", "abstract": "The mammary parenchyma is a complex arrangement of tissues that can greatly vary among individuals, potentially masking cancers in breast screening images. In this work, we propose a Simplex-based met...", "citations": 1, "author_count": 12, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7614, "doi": "10.1117/12.3006839", "umap_coordinates": { "x": 395.89129638671875, "y": 132.76724243164062, "z": 205.4956512451172 }, "tsne_coordinates": { "x": -5.095880508422852, "y": 26.22553253173828, "z": -27.31334686279297 }, "pca_coordinates": { "x": -2.3794660568237305, "y": 2.717893362045288, "z": 1.284754753112793 }, "axis_scores": { "Quantum imaging": 0.7126548886299133, "Quantum Life Science Sensing": 0.69468754529953, "Quantum sensing Detection": 0.6866289377212524, "Quantum sensing Metrology": 0.683035671710968, "Quantum sensing navigation": 0.7065932154655457, "Quantum sensing Position": 0.6707358360290527, "Quantum sensing Timing": 0.6766517758369446, "Quantum sensing": 0.6955370903015137, "Quantum control": 0.6758773922920227 } }, { "id": 7607, "title": "Experimental results using a three-layer skin model for diffuse reflectance spectroscopy", "abstract": "We have previously presented an inverse Monte Carlo algorithm based on a three-layer semi-infinite skin model for analyzing diffuse reflectance spectroscopy (DRS) data. The algorithm includes pre-simu...", "citations": 1, "author_count": 5, "categories": [ "Biophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7615, "doi": "10.1117/12.2014323", "umap_coordinates": { "x": 395.2837219238281, "y": 132.96624755859375, "z": 205.9947967529297 }, "tsne_coordinates": { "x": 0.28552737832069397, "y": 24.719478607177734, "z": -31.781431198120117 }, "pca_coordinates": { "x": -2.4094254970550537, "y": 0.9203505516052246, "z": 0.8510980010032654 }, "axis_scores": { "Quantum imaging": 0.675713837146759, "Quantum Life Science Sensing": 0.7023000717163086, "Quantum sensing Detection": 0.6796450614929199, "Quantum sensing Metrology": 0.6800452470779419, "Quantum sensing navigation": 0.6686423420906067, "Quantum sensing Position": 0.6640450954437256, "Quantum sensing Timing": 0.6344350576400757, "Quantum sensing": 0.6904546618461609, "Quantum control": 0.6364408731460571 } }, { "id": 7608, "title": "Photochemical mineralization of dissolved organic carbon in lakes of differing pH and humic content", "abstract": "Photochemical mineralization of dissolved organic carbon (DOC) to dissolved inorganic carbon (DIC) was studied in surface water from 10 oligotrophic lakes in Southern Sweden differing in DOC, pH, and ...", "citations": 25, "author_count": 3, "categories": [ "Marine & Freshwater Biology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7616, "doi": "10.1127/0003-9136/2004/0160-0105", "umap_coordinates": { "x": 393.77166748046875, "y": 135.8246612548828, "z": 203.80438232421875 }, "tsne_coordinates": { "x": 15.160395622253418, "y": 22.544239044189453, "z": 16.79677963256836 }, "pca_coordinates": { "x": -1.3224682807922363, "y": 1.9607000350952148, "z": -0.8815956115722656 }, "axis_scores": { "Quantum imaging": 0.6836528778076172, "Quantum Life Science Sensing": 0.7261197566986084, "Quantum sensing Detection": 0.6818030476570129, "Quantum sensing Metrology": 0.6842688322067261, "Quantum sensing navigation": 0.6892279386520386, "Quantum sensing Position": 0.6651431918144226, "Quantum sensing Timing": 0.6508850455284119, "Quantum sensing": 0.6947569847106934, "Quantum control": 0.6691805124282837 } }, { "id": 7609, "title": "CHLOROPHYLL CONTENT AND THE LIGHT RESPONSE CURVE OF SHADE-ADAPTED CONIFER NEEDLES", "abstract": "Rates of photosynthesis were measured for shade-adapted conifer needles [Picea abies (L.) Karst., Picea glauca (Moench) Voss, Picea mariana (Mill.) B.S.P., Picea sitchensis (Bong.) Carr., Pinus sylves...", "citations": 110, "author_count": 2, "categories": [ "Plant Sciences" ], "year": 1987, "topic": [ "all" ], "embedding_index": 7617, "doi": "10.1111/j.1399-3054.1987.tb04611.x", "umap_coordinates": { "x": 394.5325622558594, "y": 136.08567810058594, "z": 203.60179138183594 }, "tsne_coordinates": { "x": 9.11130428314209, "y": 33.16618728637695, "z": 14.805874824523926 }, "pca_coordinates": { "x": -1.6350922584533691, "y": 1.790462851524353, "z": -0.16563564538955688 }, "axis_scores": { "Quantum imaging": 0.694972574710846, "Quantum Life Science Sensing": 0.725178062915802, "Quantum sensing Detection": 0.6970201730728149, "Quantum sensing Metrology": 0.7021251916885376, "Quantum sensing navigation": 0.6800075173377991, "Quantum sensing Position": 0.6734725832939148, "Quantum sensing Timing": 0.6814475655555725, "Quantum sensing": 0.7058258652687073, "Quantum control": 0.690388023853302 } }, { "id": 7610, "title": "Certainty relations between local and nonlocal observables - art. no. 256", "abstract": "We point out that for an arbitrary number of identical particles, each defined on a Hilbert space of arbitrary dimension, there exists a whole ladder of relations of complementarity between certain lo...", "citations": 7, "author_count": 5, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7618, "doi": "10.1088/1367-2630/7/1/256", "umap_coordinates": { "x": 395.719970703125, "y": 137.31268310546875, "z": 206.9229278564453 }, "tsne_coordinates": { "x": -28.58037567138672, "y": -10.185616493225098, "z": 6.303404808044434 }, "pca_coordinates": { "x": 1.7919502258300781, "y": 5.42914342880249, "z": 0.9327549338340759 }, "axis_scores": { "Quantum imaging": 0.7188981771469116, "Quantum Life Science Sensing": 0.7267169952392578, "Quantum sensing Detection": 0.7257357835769653, "Quantum sensing Metrology": 0.7272421717643738, "Quantum sensing navigation": 0.732079803943634, "Quantum sensing Position": 0.7107212543487549, "Quantum sensing Timing": 0.6929450631141663, "Quantum sensing": 0.7417617440223694, "Quantum control": 0.714155375957489 } }, { "id": 7611, "title": "Prediction of a new spin-forbidden transition in the N 2 molecule- C⠂⠂5πu → B3πg", "abstract": "A new spin-forbidden quintet-triplet C ⠂ ⠂ 5 & pi;u & RARR; B 3 & pi;g transition is predicted in the N 2 molecule on the ground of MRCI calculations with account of spin-obit coupling (SOC) by pertur...", "citations": 5, "author_count": 5, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7619, "doi": "10.1016/j.jqsrt.2023.108701", "umap_coordinates": { "x": 393.8346252441406, "y": 136.609619140625, "z": 205.34158325195312 }, "tsne_coordinates": { "x": -12.03500747680664, "y": 12.229570388793945, "z": 9.559344291687012 }, "pca_coordinates": { "x": -0.08067882061004639, "y": 1.7679247856140137, "z": -2.631592273712158 }, "axis_scores": { "Quantum imaging": 0.6796457171440125, "Quantum Life Science Sensing": 0.7205150127410889, "Quantum sensing Detection": 0.6958286762237549, "Quantum sensing Metrology": 0.6833525896072388, "Quantum sensing navigation": 0.7113870978355408, "Quantum sensing Position": 0.6769944429397583, "Quantum sensing Timing": 0.6655345559120178, "Quantum sensing": 0.6970884799957275, "Quantum control": 0.683007001876831 } }, { "id": 7612, "title": "Transient energy trapping as a size-conserving surface passivation strategy for producing bright ultrasmall upconversion nanoprobes", "abstract": "Lanthanide-doped upconversion nanoparticles (UCNPs) have been widely exploited as nanoprobes or energy transducers in traditional as well as emerging biological applications, such as bioimaging, photo...", "citations": 14, "author_count": 10, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7620, "doi": "10.1016/j.nanoen.2022.108015", "umap_coordinates": { "x": 392.84356689453125, "y": 133.53334045410156, "z": 205.6073455810547 }, "tsne_coordinates": { "x": 27.655384063720703, "y": 7.394841194152832, "z": -10.302457809448242 }, "pca_coordinates": { "x": -3.606142997741699, "y": -2.2413554191589355, "z": 0.09369087219238281 }, "axis_scores": { "Quantum imaging": 0.6942899227142334, "Quantum Life Science Sensing": 0.7252987027168274, "Quantum sensing Detection": 0.6893709897994995, "Quantum sensing Metrology": 0.6748387813568115, "Quantum sensing navigation": 0.6720486879348755, "Quantum sensing Position": 0.6723230481147766, "Quantum sensing Timing": 0.6817144155502319, "Quantum sensing": 0.6998959183692932, "Quantum control": 0.6594772934913635 } }, { "id": 7613, "title": "Oxygen Reduction Reactions on Single- or Few-Atom Discrete Active Sites for Heterogeneous Catalysis", "abstract": "The oxygen reduction reaction (ORR) is of great importance in energy-converting processes such as fuel cells and in metal-air batteries and is vital to facilitate the transition toward a nonfossil dep...", "citations": 113, "author_count": 6, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7621, "doi": "10.1002/aenm.201902084", "umap_coordinates": { "x": 392.13922119140625, "y": 135.18040466308594, "z": 205.27645874023438 }, "tsne_coordinates": { "x": 8.042621612548828, "y": 0.5429258942604065, "z": -22.59256362915039 }, "pca_coordinates": { "x": -2.0971412658691406, "y": -0.975909948348999, "z": -0.9349269866943359 }, "axis_scores": { "Quantum imaging": 0.7117371559143066, "Quantum Life Science Sensing": 0.715836763381958, "Quantum sensing Detection": 0.7074787020683289, "Quantum sensing Metrology": 0.7009379267692566, "Quantum sensing navigation": 0.6910832524299622, "Quantum sensing Position": 0.6688211560249329, "Quantum sensing Timing": 0.6776095628738403, "Quantum sensing": 0.7236970663070679, "Quantum control": 0.6940565705299377 } }, { "id": 7614, "title": "FRET enhancement close to gold nanoparticles positioned in DNA origami constructs", "abstract": "Here we investigate the energy transfer rates of a Forster resonance energy transfer (FRET) pair positioned in close proximity to a 5 nm gold nanoparticle (AuNP) on a DNA origami construct. We study t...", "citations": 73, "author_count": 7, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7622, "doi": "10.1039/c6nr04852h", "umap_coordinates": { "x": 392.76605224609375, "y": 135.60360717773438, "z": 205.38995361328125 }, "tsne_coordinates": { "x": 14.00300407409668, "y": -10.439422607421875, "z": -3.277292013168335 }, "pca_coordinates": { "x": -1.630548119544983, "y": -1.7593460083007812, "z": -1.2361743450164795 }, "axis_scores": { "Quantum imaging": 0.7027570009231567, "Quantum Life Science Sensing": 0.7290405035018921, "Quantum sensing Detection": 0.6997998952865601, "Quantum sensing Metrology": 0.6893559694290161, "Quantum sensing navigation": 0.7187115550041199, "Quantum sensing Position": 0.7404091954231262, "Quantum sensing Timing": 0.685386061668396, "Quantum sensing": 0.7026890516281128, "Quantum control": 0.6595876216888428 } }, { "id": 7615, "title": "EMERGENCE OF QUANTUM MECHANICS FROM THEORY OF RANDOM FIELDS", "abstract": "Our aim in this paper is to enlighten the possibility to treat quantum mechanics as emergent from a kind of classical physical model, in spite of recent remarkable experiments demonstrating a violatio...", "citations": 2, "author_count": 2, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7623, "doi": "10.1007/s10946-017-9616-x", "umap_coordinates": { "x": 394.9546813964844, "y": 137.44876098632812, "z": 206.3367462158203 }, "tsne_coordinates": { "x": -29.752378463745117, "y": 4.6986846923828125, "z": 16.642202377319336 }, "pca_coordinates": { "x": 1.7739615440368652, "y": 2.9646358489990234, "z": -1.0370762348175049 }, "axis_scores": { "Quantum imaging": 0.7342102527618408, "Quantum Life Science Sensing": 0.7638733983039856, "Quantum sensing Detection": 0.7446727156639099, "Quantum sensing Metrology": 0.7252436876296997, "Quantum sensing navigation": 0.7435131072998047, "Quantum sensing Position": 0.716617226600647, "Quantum sensing Timing": 0.7131596207618713, "Quantum sensing": 0.7514533996582031, "Quantum control": 0.7342451810836792 } }, { "id": 7616, "title": "Charge transfer through cross-hyperconjugated versus cross-π-conjugated bridges: an intervalence charge transfer study", "abstract": "Recently there has been much interest in electron transfer and transport through cross-conjugated molecules as interesting test cases for the interplay between molecular and electronic structure as we...", "citations": 53, "author_count": 7, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7624, "doi": "10.1039/c3sc50844g", "umap_coordinates": { "x": 391.9619140625, "y": 136.32760620117188, "z": 205.60763549804688 }, "tsne_coordinates": { "x": 5.481324672698975, "y": -4.920717716217041, "z": -11.232868194580078 }, "pca_coordinates": { "x": -0.8565699458122253, "y": -1.0244226455688477, "z": -2.643186569213867 }, "axis_scores": { "Quantum imaging": 0.6619139909744263, "Quantum Life Science Sensing": 0.6952713131904602, "Quantum sensing Detection": 0.6450672745704651, "Quantum sensing Metrology": 0.647641658782959, "Quantum sensing navigation": 0.6549949049949646, "Quantum sensing Position": 0.6471509337425232, "Quantum sensing Timing": 0.6268511414527893, "Quantum sensing": 0.6685818433761597, "Quantum control": 0.670586109161377 } }, { "id": 7617, "title": "Protein-functionalized magnetic iron oxide nanoparticles: time efficient potential-water treatment", "abstract": "Recent advances in nanoscience suggest that the existing issues involving water quality could be resolved or greatly improved using nanomaterials, especially magnetic iron oxide nanoparticles. Magneti...", "citations": 36, "author_count": 5, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7625, "doi": "10.1007/s11051-012-1194-9", "umap_coordinates": { "x": 393.7294616699219, "y": 134.65052795410156, "z": 204.53988647460938 }, "tsne_coordinates": { "x": 11.947220802307129, "y": 28.043550491333008, "z": -10.887883186340332 }, "pca_coordinates": { "x": -3.459899425506592, "y": -0.36548829078674316, "z": -1.2603545188903809 }, "axis_scores": { "Quantum imaging": 0.7058550119400024, "Quantum Life Science Sensing": 0.7425432801246643, "Quantum sensing Detection": 0.7022682428359985, "Quantum sensing Metrology": 0.6928698420524597, "Quantum sensing navigation": 0.6938608884811401, "Quantum sensing Position": 0.6723350882530212, "Quantum sensing Timing": 0.674313485622406, "Quantum sensing": 0.7134581208229065, "Quantum control": 0.6877185702323914 } }, { "id": 7618, "title": "Synthesis of poly(N-[tris(hydroxymethyl)methyl]acrylamide) functionalized porous silica for application in hydrophilic interaction chromatography", "abstract": "Porous silica coated by a highly hydrophilic and nonionic tentacle-type polymeric layer was synthesized by free radical grafting from polymerization of N-[2-hydroxy-1,1-bis(hydroxymethyl)ethyl]-2-prop...", "citations": 10, "author_count": 5, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7626, "doi": "10.1002/jssc.201200195", "umap_coordinates": { "x": 392.8603820800781, "y": 134.66622924804688, "z": 204.22042846679688 }, "tsne_coordinates": { "x": 27.78594398498535, "y": 27.62058448791504, "z": -7.862513065338135 }, "pca_coordinates": { "x": -4.228943824768066, "y": 0.5033512115478516, "z": -0.8831153512001038 }, "axis_scores": { "Quantum imaging": 0.6980527639389038, "Quantum Life Science Sensing": 0.7210413217544556, "Quantum sensing Detection": 0.6796696782112122, "Quantum sensing Metrology": 0.6866961717605591, "Quantum sensing navigation": 0.6855031251907349, "Quantum sensing Position": 0.6585543751716614, "Quantum sensing Timing": 0.6453061699867249, "Quantum sensing": 0.7064414620399475, "Quantum control": 0.6950189471244812 } }, { "id": 7619, "title": "Nuclear Physics Multimessenger Astrophysics Constraints on the Neutron Star Equation of State: Adding NICER's PSR J0740+6620 Measurement", "abstract": "In the past few years, new observations of neutron stars (NSs) and NS mergers have provided a wealth of data that allow one to constrain the equation of state (EOS) of nuclear matter at densities abov...", "citations": 121, "author_count": 7, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7627, "doi": "10.3847/1538-4357/ac19ab", "umap_coordinates": { "x": 396.0623474121094, "y": 135.3190460205078, "z": 206.28929138183594 }, "tsne_coordinates": { "x": -34.126220703125, "y": 23.280763626098633, "z": 3.012091875076294 }, "pca_coordinates": { "x": -0.8860154151916504, "y": 3.198617935180664, "z": 1.3155393600463867 }, "axis_scores": { "Quantum imaging": 0.6790085434913635, "Quantum Life Science Sensing": 0.7214286923408508, "Quantum sensing Detection": 0.6842820644378662, "Quantum sensing Metrology": 0.7011477947235107, "Quantum sensing navigation": 0.6967339515686035, "Quantum sensing Position": 0.689160943031311, "Quantum sensing Timing": 0.6804085373878479, "Quantum sensing": 0.6906499862670898, "Quantum control": 0.637178361415863 } }, { "id": 7620, "title": "Efficient and stable planar all-inorganic perovskite solar cells based on high-quality CsPbBr3 films with controllable morphology", "abstract": "All-inorganic cesium lead bromide (CsPbBr3) perovskite is attracting growing interest as functional materials in photovoltaics and other optoelectronic devices due to its superb stability. However, th...", "citations": 116, "author_count": 10, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7628, "doi": "10.1016/j.jechem.2019.10.017", "umap_coordinates": { "x": 391.7674865722656, "y": 133.49136352539062, "z": 205.16741943359375 }, "tsne_coordinates": { "x": 23.28341293334961, "y": -2.166409730911255, "z": -24.22318458557129 }, "pca_coordinates": { "x": -4.045652389526367, "y": -2.537057399749756, "z": -1.8270041942596436 }, "axis_scores": { "Quantum imaging": 0.6823078393936157, "Quantum Life Science Sensing": 0.7093695402145386, "Quantum sensing Detection": 0.6562924385070801, "Quantum sensing Metrology": 0.6647378206253052, "Quantum sensing navigation": 0.6645697951316833, "Quantum sensing Position": 0.6541394591331482, "Quantum sensing Timing": 0.6324689388275146, "Quantum sensing": 0.6863530278205872, "Quantum control": 0.6707297563552856 } }, { "id": 7621, "title": "Strong Electron Self-Cooling in the Cold-Electron Bolometers Designed for CMB Measurements", "abstract": "We have realized cold-electron bolometers (CEB) with direct electron self-cooling of the nanoabsorber by SIN (Superconductor-Insulator-Normal metal) tunnel junctions. This electron self-cooling acts a...", "citations": 1, "author_count": 9, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7629, "doi": "10.1088/1742-6596/969/1/012069", "umap_coordinates": { "x": 394.9808349609375, "y": 134.58355712890625, "z": 207.36688232421875 }, "tsne_coordinates": { "x": -12.641578674316406, "y": -9.173863410949707, "z": -38.27589416503906 }, "pca_coordinates": { "x": 0.4836440086364746, "y": 0.0759575366973877, "z": 1.0059921741485596 }, "axis_scores": { "Quantum imaging": 0.6330922245979309, "Quantum Life Science Sensing": 0.6709603071212769, "Quantum sensing Detection": 0.6503002643585205, "Quantum sensing Metrology": 0.6544439792633057, "Quantum sensing navigation": 0.6470323801040649, "Quantum sensing Position": 0.6489352583885193, "Quantum sensing Timing": 0.6420451998710632, "Quantum sensing": 0.6533441543579102, "Quantum control": 0.6226818561553955 } }, { "id": 7622, "title": "Diffraction imaging of single particles and biomolecules", "abstract": "Theory predicts that with a very short and very intense X-ray pulse, the image of a single diffraction pattern may be recorded from a large macromolecule, a virus, or a nanocluster of proteins without...", "citations": 135, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7630, "doi": "10.1016/j.jsb.2003.09.025", "umap_coordinates": { "x": 393.9515380859375, "y": 133.91554260253906, "z": 205.5762481689453 }, "tsne_coordinates": { "x": 8.855618476867676, "y": 32.20824432373047, "z": -6.113380432128906 }, "pca_coordinates": { "x": -2.537210702896118, "y": -1.79197359085083, "z": 0.5950039029121399 }, "axis_scores": { "Quantum imaging": 0.776502251625061, "Quantum Life Science Sensing": 0.7666152715682983, "Quantum sensing Detection": 0.7468368411064148, "Quantum sensing Metrology": 0.7342337369918823, "Quantum sensing navigation": 0.7414509654045105, "Quantum sensing Position": 0.7361994385719299, "Quantum sensing Timing": 0.6999152898788452, "Quantum sensing": 0.7570325136184692, "Quantum control": 0.703026533126831 } }, { "id": 7623, "title": "Dynamics around the liquid-glass transition in poly(propylene-glycol) investigated by wide-frequency-range light-scattering techniques", "abstract": "The structural dynamics of poly(propylene-glycol) of molecular weight M-W=4000 have been investigated over a large temperature range 10-375 K and ina wide dynamical window, corresponding to 10(-3)-10(...", "citations": 68, "author_count": 5, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7631, "doi": "10.1103/PhysRevB.56.11619", "umap_coordinates": { "x": 394.1460266113281, "y": 136.34034729003906, "z": 208.46395874023438 }, "tsne_coordinates": { "x": -6.876407146453857, "y": -3.5932791233062744, "z": 32.117496490478516 }, "pca_coordinates": { "x": 1.8128230571746826, "y": 1.2090855836868286, "z": -2.0108416080474854 }, "axis_scores": { "Quantum imaging": 0.6470133662223816, "Quantum Life Science Sensing": 0.6975380778312683, "Quantum sensing Detection": 0.6461282968521118, "Quantum sensing Metrology": 0.6276467442512512, "Quantum sensing navigation": 0.6641837358474731, "Quantum sensing Position": 0.6586450338363647, "Quantum sensing Timing": 0.6581850647926331, "Quantum sensing": 0.6649261713027954, "Quantum control": 0.6703979969024658 } }, { "id": 7624, "title": "Phenylpropanoid compounds in primary leaf tissues of rye (Secale cereale). Light response of their metabolism and the possible role in UV-B protection", "abstract": "The present study was undertaken in order to investigate the suitability of certain markers for UV plant response. In addition, we attempted to link the internal tissue distribution of specific UV-abs...", "citations": 100, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7632, "doi": null, "umap_coordinates": { "x": 391.900634765625, "y": 139.57748413085938, "z": 209.77272033691406 }, "tsne_coordinates": { "x": -3.809476613998413, "y": 43.972225189208984, "z": -1.4421069622039795 }, "pca_coordinates": { "x": -2.470313787460327, "y": 3.503035545349121, "z": -3.5866172313690186 }, "axis_scores": { "Quantum imaging": 0.7517025470733643, "Quantum Life Science Sensing": 0.7717560529708862, "Quantum sensing Detection": 0.7523717880249023, "Quantum sensing Metrology": 0.7315439581871033, "Quantum sensing navigation": 0.7505965828895569, "Quantum sensing Position": 0.7232555150985718, "Quantum sensing Timing": 0.702114462852478, "Quantum sensing": 0.7686224579811096, "Quantum control": 0.7811239957809448 } }, { "id": 7625, "title": "Using light transmission to watch hydrogen diffuse", "abstract": "Because of its light weight and small size, hydrogen exhibits one of the fastest diffusion rates in solid materials, comparable to the diffusion rate of liquid water molecules at room temperature. The...", "citations": 38, "author_count": 6, "categories": [ "Science & Technology - Other Topics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7633, "doi": "10.1038/ncomms1897", "umap_coordinates": { "x": 394.1063537597656, "y": 135.91505432128906, "z": 206.18600463867188 }, "tsne_coordinates": { "x": -9.250231742858887, "y": -2.888248920440674, "z": -8.027838706970215 }, "pca_coordinates": { "x": -1.4618834257125854, "y": 1.054325819015503, "z": 0.5655116438865662 }, "axis_scores": { "Quantum imaging": 0.7214006781578064, "Quantum Life Science Sensing": 0.7244325280189514, "Quantum sensing Detection": 0.698119044303894, "Quantum sensing Metrology": 0.6697103977203369, "Quantum sensing navigation": 0.7044165134429932, "Quantum sensing Position": 0.6758259534835815, "Quantum sensing Timing": 0.7050064206123352, "Quantum sensing": 0.7158256769180298, "Quantum control": 0.696659505367279 } }, { "id": 7626, "title": "Interplay of quantum and thermal fluctuations in a frustrated magnet", "abstract": "We demonstrate the presence of an extended critical phase in the transverse field Ising magnet on the triangular lattice, in a regime where both thermal and quantum fluctuations are important. We map ...", "citations": 130, "author_count": 3, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7634, "doi": "10.1103/PhysRevB.68.104409", "umap_coordinates": { "x": 394.1859436035156, "y": 136.44107055664062, "z": 209.08546447753906 }, "tsne_coordinates": { "x": -8.787675857543945, "y": -36.6463508605957, "z": 17.02490234375 }, "pca_coordinates": { "x": 5.5849223136901855, "y": 0.3718709945678711, "z": -2.232762336730957 }, "axis_scores": { "Quantum imaging": 0.7371461391448975, "Quantum Life Science Sensing": 0.7092820405960083, "Quantum sensing Detection": 0.7197864651679993, "Quantum sensing Metrology": 0.7180364727973938, "Quantum sensing navigation": 0.7312605977058411, "Quantum sensing Position": 0.6971444487571716, "Quantum sensing Timing": 0.7091174125671387, "Quantum sensing": 0.7436758875846863, "Quantum control": 0.7359174489974976 } }, { "id": 7627, "title": "Investigating the Effect of Syringe Infiltration on Nicotiana tabacum (Tobacco)", "abstract": "Plant infiltration techniques, particularly agroinfiltration, have transformed plant science and biotechnology by enabling transient gene expression for genetic engineering of plants or genomic studie...", "citations": 1, "author_count": 4, "categories": [ "Agriculture" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7635, "doi": "10.1021/acsagscitech.4c00170", "umap_coordinates": { "x": 393.3489990234375, "y": 134.85848999023438, "z": 205.59654235839844 }, "tsne_coordinates": { "x": 17.558551788330078, "y": -18.330852508544922, "z": 11.269893646240234 }, "pca_coordinates": { "x": -2.1409049034118652, "y": -0.5677809715270996, "z": 0.6166679263114929 }, "axis_scores": { "Quantum imaging": 0.6876821517944336, "Quantum Life Science Sensing": 0.6795799732208252, "Quantum sensing Detection": 0.6677894592285156, "Quantum sensing Metrology": 0.6656144857406616, "Quantum sensing navigation": 0.6841114163398743, "Quantum sensing Position": 0.673383355140686, "Quantum sensing Timing": 0.6851844191551208, "Quantum sensing": 0.6882479786872864, "Quantum control": 0.6875120401382446 } }, { "id": 7628, "title": "A nanostructured NiO/cubic SiC p-n heterojunction photoanode for enhanced solar water splitting", "abstract": "Photoelectrochemical (PEC) water-splitting offers a promising method to convert the intermittent solar energy into renewable and storable chemical energy. However, the most studied semiconductors gene...", "citations": 69, "author_count": 9, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7636, "doi": "10.1039/c9ta00020h", "umap_coordinates": { "x": 391.98822021484375, "y": 134.08724975585938, "z": 204.99546813964844 }, "tsne_coordinates": { "x": 14.892822265625, "y": 4.604977607727051, "z": -6.34395694732666 }, "pca_coordinates": { "x": -2.397737979888916, "y": -3.5391879081726074, "z": -0.4381750226020813 }, "axis_scores": { "Quantum imaging": 0.6710591316223145, "Quantum Life Science Sensing": 0.7019175291061401, "Quantum sensing Detection": 0.6574482321739197, "Quantum sensing Metrology": 0.6512356996536255, "Quantum sensing navigation": 0.6527796983718872, "Quantum sensing Position": 0.6213374137878418, "Quantum sensing Timing": 0.6053730845451355, "Quantum sensing": 0.6769880056381226, "Quantum control": 0.652418851852417 } }, { "id": 7629, "title": "Investigation of Charge-Transfer Interaction in Mixed Stack Donor-Acceptor Cocrystals Toward Tunable Solid-State Emission Characteristics", "abstract": "The formation of three mixed binary charge transfer (CT) cocrystals with tunable photoluminescence behavior featuring both CT interaction and directional hydrogen bonding is presented. Our strategy co...", "citations": 46, "author_count": 9, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7637, "doi": "10.1021/acs.cgd.8b00852", "umap_coordinates": { "x": 391.6965026855469, "y": 135.0850372314453, "z": 205.97950744628906 }, "tsne_coordinates": { "x": 7.741464614868164, "y": -4.738994121551514, "z": -12.120401382446289 }, "pca_coordinates": { "x": -2.3663809299468994, "y": -3.211423873901367, "z": -1.7050597667694092 }, "axis_scores": { "Quantum imaging": 0.6764299273490906, "Quantum Life Science Sensing": 0.6757040619850159, "Quantum sensing Detection": 0.6483266949653625, "Quantum sensing Metrology": 0.6441496014595032, "Quantum sensing navigation": 0.6488415598869324, "Quantum sensing Position": 0.6471671462059021, "Quantum sensing Timing": 0.6211199760437012, "Quantum sensing": 0.6587241888046265, "Quantum control": 0.6511932015419006 } }, { "id": 7630, "title": "Comparison of gamma ( Anger) camera systems in terms of detective quantum efficiency using Monte Carlo simulation", "abstract": "AimThe aim of the present study was to perform an extensive evaluation of available gamma camera systems in terms of their detective quantum efficiency (DQE) and determine their dependency on relevant...", "citations": 1, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7638, "doi": "10.1097/MNM.0000000000000053", "umap_coordinates": { "x": 395.2329406738281, "y": 132.74732971191406, "z": 205.09884643554688 }, "tsne_coordinates": { "x": -6.057394504547119, "y": 37.767662048339844, "z": -20.92107391357422 }, "pca_coordinates": { "x": -1.3078815937042236, "y": 3.564343214035034, "z": 3.0406320095062256 }, "axis_scores": { "Quantum imaging": 0.7276177406311035, "Quantum Life Science Sensing": 0.6957522630691528, "Quantum sensing Detection": 0.718558669090271, "Quantum sensing Metrology": 0.6980686187744141, "Quantum sensing navigation": 0.7124844789505005, "Quantum sensing Position": 0.6897836923599243, "Quantum sensing Timing": 0.6855612993240356, "Quantum sensing": 0.7008531093597412, "Quantum control": 0.664759635925293 } }, { "id": 7631, "title": "Effect of peptide length on the interaction between consensus peptides and DOPC/DOPA bilayers", "abstract": "The effect of peptide length and electrostatics on the interaction between Cardin motif peptides and lipid membranes was investigated for ( AKKARA)(n) ( n = 1-4) and ( ARKAAKKA)(n) ( n = 1-3) peptides...", "citations": 102, "author_count": 4, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7639, "doi": "10.1021/la060317y", "umap_coordinates": { "x": 392.93817138671875, "y": 135.87149047851562, "z": 204.34774780273438 }, "tsne_coordinates": { "x": 26.724815368652344, "y": 21.170976638793945, "z": 7.797320365905762 }, "pca_coordinates": { "x": -1.0997744798660278, "y": -0.16550421714782715, "z": -1.1204808950424194 }, "axis_scores": { "Quantum imaging": 0.6845882534980774, "Quantum Life Science Sensing": 0.707712709903717, "Quantum sensing Detection": 0.6850205063819885, "Quantum sensing Metrology": 0.6741448044776917, "Quantum sensing navigation": 0.6862888336181641, "Quantum sensing Position": 0.6995063424110413, "Quantum sensing Timing": 0.6862804889678955, "Quantum sensing": 0.6944341063499451, "Quantum control": 0.67411208152771 } }, { "id": 7632, "title": "Groove-binding unsymmetrical cyanine dyes for staining of DNA:: dissociation rates in free solution and electrophoresis gels", "abstract": "The rates of dissociation of three non-intercalative unsymmetrical cyanine dyes, BEBO, BETO and BOXTO from mixed-sequence DNA have been studied with the DNA either free in solution or in confining por...", "citations": 38, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7640, "doi": "10.1093/nar/gkg822", "umap_coordinates": { "x": 393.2076110839844, "y": 136.37521362304688, "z": 205.17137145996094 }, "tsne_coordinates": { "x": 7.115309715270996, "y": 14.603172302246094, "z": 5.912757873535156 }, "pca_coordinates": { "x": -0.7517954111099243, "y": 1.2359426021575928, "z": -1.7676150798797607 }, "axis_scores": { "Quantum imaging": 0.6745204925537109, "Quantum Life Science Sensing": 0.6754302382469177, "Quantum sensing Detection": 0.6644081473350525, "Quantum sensing Metrology": 0.6426398158073425, "Quantum sensing navigation": 0.7076444029808044, "Quantum sensing Position": 0.6591196060180664, "Quantum sensing Timing": 0.6365444660186768, "Quantum sensing": 0.6719173789024353, "Quantum control": 0.64427649974823 } }, { "id": 7633, "title": "EARLIER WRIST FRACTURE - A CONFOUNDING FACTOR IN DISTAL FOREARM BONE SCREENING", "abstract": "Thirty-six women aged 60, 70 or 80 years who had fractured one of their distal radii (Colles' fracture) 0 to 35 (median 10) years earlier were examined in this population-based study. Single photon me...", "citations": 28, "author_count": 6, "categories": [ "Endocrinology & Metabolism" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7641, "doi": "10.1007/BF01623927", "umap_coordinates": { "x": 395.2494201660156, "y": 134.8715057373047, "z": 204.24562072753906 }, "tsne_coordinates": { "x": -5.312881946563721, "y": 37.06293487548828, "z": 7.5891194343566895 }, "pca_coordinates": { "x": -2.453136920928955, "y": 3.2803690433502197, "z": 0.6625437140464783 }, "axis_scores": { "Quantum imaging": 0.6061050295829773, "Quantum Life Science Sensing": 0.6044638752937317, "Quantum sensing Detection": 0.6192334890365601, "Quantum sensing Metrology": 0.5915486812591553, "Quantum sensing navigation": 0.6358067393302917, "Quantum sensing Position": 0.6513864994049072, "Quantum sensing Timing": 0.6487237215042114, "Quantum sensing": 0.6189141273498535, "Quantum control": 0.6096212267875671 } }, { "id": 7634, "title": "Kerr Black Holes from Massive Higher-Spin Gauge Symmetry", "abstract": "We propose that the dynamics of Kerr black holes is strongly constrained by the principle of gauge symmetry. We initiate the construction of effective field theories for Kerr black holes of any intege...", "citations": 43, "author_count": 7, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7642, "doi": "10.1103/PhysRevLett.131.221401", "umap_coordinates": { "x": 395.2502136230469, "y": 137.44927978515625, "z": 207.76174926757812 }, "tsne_coordinates": { "x": -24.93528175354004, "y": -30.658672332763672, "z": 2.5082688331604004 }, "pca_coordinates": { "x": 4.817370891571045, "y": 1.1705483198165894, "z": -0.5829305648803711 }, "axis_scores": { "Quantum imaging": 0.6887387633323669, "Quantum Life Science Sensing": 0.7126373648643494, "Quantum sensing Detection": 0.7047972083091736, "Quantum sensing Metrology": 0.6977400183677673, "Quantum sensing navigation": 0.6997710466384888, "Quantum sensing Position": 0.6784108281135559, "Quantum sensing Timing": 0.6729525923728943, "Quantum sensing": 0.7145516872406006, "Quantum control": 0.6814256310462952 } }, { "id": 7635, "title": "Auger decay of core-excited higher Rydberg states of carbon monoxide", "abstract": "The de-excitation of higher core-excited C 1s(-1)np Rydberg states of carbon monoxide has been studied. It is found that already with a main quantum number of 4 or higher, Rydberg states of p-symmetry...", "citations": 13, "author_count": 12, "categories": [ "Optics" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7643, "doi": "10.1088/0953-4075/30/19/016", "umap_coordinates": { "x": 394.3521423339844, "y": 135.88137817382812, "z": 206.3645477294922 }, "tsne_coordinates": { "x": -0.21422216296195984, "y": 0.2966948449611664, "z": 17.135313034057617 }, "pca_coordinates": { "x": 0.49512529373168945, "y": 1.5705084800720215, "z": -0.5936923027038574 }, "axis_scores": { "Quantum imaging": 0.6899263858795166, "Quantum Life Science Sensing": 0.7169791460037231, "Quantum sensing Detection": 0.6866182684898376, "Quantum sensing Metrology": 0.6600592136383057, "Quantum sensing navigation": 0.65526282787323, "Quantum sensing Position": 0.6512360572814941, "Quantum sensing Timing": 0.6512486934661865, "Quantum sensing": 0.6886559128761292, "Quantum control": 0.6537379622459412 } }, { "id": 7636, "title": "Uncovering the geometry of the hot X-ray corona in the Seyfert galaxy NGC 4151 with IXPE", "abstract": "We present an X-ray spectropolarimetric analysis of the bright Seyfert galaxy NGC 4151. The source has been observed with the Imaging X-ray Polarimetry Explorer (IXPE) for 700 ks, complemented with si...", "citations": 63, "author_count": 110, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7644, "doi": "10.1093/mnras/stad1697", "umap_coordinates": { "x": 396.1338806152344, "y": 135.060791015625, "z": 206.1103057861328 }, "tsne_coordinates": { "x": -30.812774658203125, "y": 28.709321975708008, "z": 3.585184097290039 }, "pca_coordinates": { "x": -0.5725829601287842, "y": 2.927110433578491, "z": 1.1807973384857178 }, "axis_scores": { "Quantum imaging": 0.6971060633659363, "Quantum Life Science Sensing": 0.6768969893455505, "Quantum sensing Detection": 0.6625064015388489, "Quantum sensing Metrology": 0.6789687871932983, "Quantum sensing navigation": 0.7036741375923157, "Quantum sensing Position": 0.6916617155075073, "Quantum sensing Timing": 0.6944654583930969, "Quantum sensing": 0.6767852306365967, "Quantum control": 0.6422170996665955 } }, { "id": 7637, "title": "Nonlinear dynamics of the cold atom analog false vacuum", "abstract": "We investigate the nonlinear dynamics of cold atom systems that can in principle serve as quantum simulators of false vacuum decay. The analog false vacuum manifests as a metastable vacuum state for t...", "citations": 34, "author_count": 6, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7645, "doi": "10.1007/JHEP10(2019)174", "umap_coordinates": { "x": 394.6595764160156, "y": 136.47486877441406, "z": 207.41978454589844 }, "tsne_coordinates": { "x": -20.025724411010742, "y": 29.7590274810791, "z": 20.774080276489258 }, "pca_coordinates": { "x": 3.1020989418029785, "y": 2.9336607456207275, "z": -1.8580060005187988 }, "axis_scores": { "Quantum imaging": 0.7123377323150635, "Quantum Life Science Sensing": 0.7263888120651245, "Quantum sensing Detection": 0.7099712491035461, "Quantum sensing Metrology": 0.6675125360488892, "Quantum sensing navigation": 0.7160980701446533, "Quantum sensing Position": 0.6955291032791138, "Quantum sensing Timing": 0.6790902018547058, "Quantum sensing": 0.7030231356620789, "Quantum control": 0.6975988745689392 } }, { "id": 7638, "title": "REDUCTIVE METHYLATION AND PKA DETERMINATION OF THE LYSINE SIDE-CHAINS IN CALBINDIN D-9K", "abstract": "The Lys residues in the 75-residue Ca2+-binding protein calbindin D-9k were reductively methylated with C-13-enriched formaldehyde. The possible structural effects resulting from the chemical modifica...", "citations": 25, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1994, "topic": [ "all" ], "embedding_index": 7646, "doi": "10.1007/BF01901534", "umap_coordinates": { "x": 393.39654541015625, "y": 136.6827392578125, "z": 204.8287353515625 }, "tsne_coordinates": { "x": 9.73281478881836, "y": 18.996612548828125, "z": 31.678207397460938 }, "pca_coordinates": { "x": -2.460129976272583, "y": 3.353644609451294, "z": -3.157806158065796 }, "axis_scores": { "Quantum imaging": 0.6586410403251648, "Quantum Life Science Sensing": 0.6997566223144531, "Quantum sensing Detection": 0.651911199092865, "Quantum sensing Metrology": 0.6715126633644104, "Quantum sensing navigation": 0.6718530654907227, "Quantum sensing Position": 0.6685468554496765, "Quantum sensing Timing": 0.6430407166481018, "Quantum sensing": 0.6692607402801514, "Quantum control": 0.6466302275657654 } }, { "id": 7639, "title": "Comparison of Fragmentation Functions for Jets Dominated by Light Quarks and Gluons from pp and Pb plus Pb Collisions in ATLAS", "abstract": "Charged-particle fragmentation functions for jets azimuthally balanced by a high-transverse-momentum, prompt, isolated photon are measured in 25 pb(-1) of pp and 0.49 nb(-1) of Pb + Pb collision data ...", "citations": 63, "author_count": 2675, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7647, "doi": "10.1103/PhysRevLett.123.042001", "umap_coordinates": { "x": 396.7957763671875, "y": 134.4816436767578, "z": 207.8500213623047 }, "tsne_coordinates": { "x": -38.133079528808594, "y": 4.147195339202881, "z": -11.017265319824219 }, "pca_coordinates": { "x": 2.0001635551452637, "y": 0.19587182998657227, "z": 0.46745795011520386 }, "axis_scores": { "Quantum imaging": 0.6738308072090149, "Quantum Life Science Sensing": 0.6703357696533203, "Quantum sensing Detection": 0.6614044308662415, "Quantum sensing Metrology": 0.6317592859268188, "Quantum sensing navigation": 0.6651844382286072, "Quantum sensing Position": 0.6528239250183105, "Quantum sensing Timing": 0.6728569865226746, "Quantum sensing": 0.6642404198646545, "Quantum control": 0.663690984249115 } }, { "id": 7640, "title": "The Silacyclobutene Ring: An Indicator of Triplet State Baird-Aromaticity", "abstract": "Baird's rule tells that the electron counts for aromaticity and antiaromaticity in the first pi pi* triplet and singlet excited states (T-1 and S-1) are opposite to those in the ground state (S-0). Ou...", "citations": 3, "author_count": 4, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7648, "doi": "10.3390/inorganics5040091", "umap_coordinates": { "x": 392.14013671875, "y": 135.65618896484375, "z": 204.79656982421875 }, "tsne_coordinates": { "x": 1.8711997270584106, "y": 11.656986236572266, "z": -7.647502422332764 }, "pca_coordinates": { "x": -2.988530158996582, "y": -1.1723566055297852, "z": -1.9929020404815674 }, "axis_scores": { "Quantum imaging": 0.7139574289321899, "Quantum Life Science Sensing": 0.7605148553848267, "Quantum sensing Detection": 0.741256833076477, "Quantum sensing Metrology": 0.7303788661956787, "Quantum sensing navigation": 0.696336567401886, "Quantum sensing Position": 0.7185900211334229, "Quantum sensing Timing": 0.6953103542327881, "Quantum sensing": 0.745659351348877, "Quantum control": 0.6897477507591248 } }, { "id": 7641, "title": "Fingerprint of Dipole Moment Orientation of Water Molecules in Cu2+ Aqueous Solution Probed by X-ray Photoelectron Spectroscopy", "abstract": "The electronic structure and geometrical organization of aqueous Cu2+ have been investigated by using X-ray photoelectron spectroscopy (XPS) at the Cu L-edge combined with state-of-the-art ab initio m...", "citations": 15, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7649, "doi": "10.1021/jacs.3c14570", "umap_coordinates": { "x": 392.4005126953125, "y": 136.62220764160156, "z": 205.55027770996094 }, "tsne_coordinates": { "x": 2.5848820209503174, "y": 14.186773300170898, "z": 26.029983520507812 }, "pca_coordinates": { "x": -1.3923711776733398, "y": -1.103076457977295, "z": -3.569484233856201 }, "axis_scores": { "Quantum imaging": 0.7121304273605347, "Quantum Life Science Sensing": 0.7301658987998962, "Quantum sensing Detection": 0.7029293775558472, "Quantum sensing Metrology": 0.6785959005355835, "Quantum sensing navigation": 0.7106267213821411, "Quantum sensing Position": 0.7042217254638672, "Quantum sensing Timing": 0.6764180064201355, "Quantum sensing": 0.7141216993331909, "Quantum control": 0.7047048211097717 } }, { "id": 7642, "title": "Measurement of the H→γγ and H→ZZ→4l cross-sections in pp collisions at s=13.6 TeV with the ATLAS detector", "abstract": "The inclusive Higgs boson production cross-section is measured in the di-photon and the ZZ -> 4l decay channels using 31.4 and 29.0 fb-1 of pp collision data respectively, collected with the ATLAS det...", "citations": 16, "author_count": 2682, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7650, "doi": "10.1140/epjc/s10052-023-12130-5", "umap_coordinates": { "x": 397.01348876953125, "y": 134.55642700195312, "z": 207.31954956054688 }, "tsne_coordinates": { "x": -33.54929733276367, "y": 12.060477256774902, "z": -6.615020751953125 }, "pca_coordinates": { "x": -0.044541001319885254, "y": 2.6038577556610107, "z": 2.0330328941345215 }, "axis_scores": { "Quantum imaging": 0.6785934567451477, "Quantum Life Science Sensing": 0.6919540762901306, "Quantum sensing Detection": 0.679999053478241, "Quantum sensing Metrology": 0.6577644944190979, "Quantum sensing navigation": 0.6864797472953796, "Quantum sensing Position": 0.6909340023994446, "Quantum sensing Timing": 0.6983453631401062, "Quantum sensing": 0.6866031885147095, "Quantum control": 0.6721280813217163 } }, { "id": 7643, "title": "Exogenous Ca2+ priming can improve peanut photosynthetic carbon fixation and pod yield under early sowing scenarios in the field", "abstract": "Harnessing cold-resilient and calcium-enriched peanut production technology are crucial for high-yielding peanut cultivation in high-latitude areas. However, there is limited field data about how exog...", "citations": 8, "author_count": 10, "categories": [ "Plant Sciences" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7651, "doi": "10.3389/fpls.2022.1004721", "umap_coordinates": { "x": 394.0141906738281, "y": 136.34542846679688, "z": 203.4500274658203 }, "tsne_coordinates": { "x": 14.410903930664062, "y": 33.474449157714844, "z": 8.144173622131348 }, "pca_coordinates": { "x": -4.015780448913574, "y": 1.3968971967697144, "z": -2.3160507678985596 }, "axis_scores": { "Quantum imaging": 0.6493901014328003, "Quantum Life Science Sensing": 0.6613082885742188, "Quantum sensing Detection": 0.6410388350486755, "Quantum sensing Metrology": 0.6192808747291565, "Quantum sensing navigation": 0.6550947427749634, "Quantum sensing Position": 0.6304706931114197, "Quantum sensing Timing": 0.6797506809234619, "Quantum sensing": 0.6551909446716309, "Quantum control": 0.6752378940582275 } }, { "id": 7644, "title": "Ground- and excited-state characteristics in photovoltaic polymer N2200", "abstract": "As a classical polymer acceptor material, N2200 has received extensive attention and research in the field of polymer solar cells (PSCs). However, the intrinsic properties of ground- and excited-state...", "citations": 27, "author_count": 9, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7652, "doi": "10.1039/d1ra01474a", "umap_coordinates": { "x": 391.9718017578125, "y": 135.72726440429688, "z": 205.6198272705078 }, "tsne_coordinates": { "x": -0.7925367951393127, "y": -5.937728404998779, "z": -14.788413047790527 }, "pca_coordinates": { "x": -1.4380853176116943, "y": -2.3813958168029785, "z": -1.0358657836914062 }, "axis_scores": { "Quantum imaging": 0.6365082859992981, "Quantum Life Science Sensing": 0.6925270557403564, "Quantum sensing Detection": 0.64813232421875, "Quantum sensing Metrology": 0.6312732100486755, "Quantum sensing navigation": 0.636240541934967, "Quantum sensing Position": 0.6375958919525146, "Quantum sensing Timing": 0.6191542148590088, "Quantum sensing": 0.6512382626533508, "Quantum control": 0.6089386343955994 } }, { "id": 7645, "title": "Absence of the Lhcb1 and Lhcb2 proteins of the light-harvesting complex of photosystem II - effects on photosynthesis, grana stacking and fitness", "abstract": "We have constructed Arabidopsis thaliana plants that are virtually devoid of the major light-harvesting complex, LHC II. This was accomplished by introducing the Lhcb2.1 coding region in the antisense...", "citations": 256, "author_count": 8, "categories": [ "Plant Sciences" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7653, "doi": "10.1046/j.1365-313X.2003.01811.x", "umap_coordinates": { "x": 394.47210693359375, "y": 136.2470245361328, "z": 203.46356201171875 }, "tsne_coordinates": { "x": 9.805102348327637, "y": 29.951892852783203, "z": 14.94980525970459 }, "pca_coordinates": { "x": -1.3851289749145508, "y": 1.381497859954834, "z": -1.8805935382843018 }, "axis_scores": { "Quantum imaging": 0.654529869556427, "Quantum Life Science Sensing": 0.6842564344406128, "Quantum sensing Detection": 0.6434367895126343, "Quantum sensing Metrology": 0.6387474536895752, "Quantum sensing navigation": 0.6471566557884216, "Quantum sensing Position": 0.6448847651481628, "Quantum sensing Timing": 0.6304326057434082, "Quantum sensing": 0.6550397872924805, "Quantum control": 0.6489661335945129 } }, { "id": 7646, "title": "Growth of self-assembled InAs and InAsxP1-x dots on InP by metalorganic vapour phase epitaxy", "abstract": "The formation of self-assembled InAs and InAs(x)P(1-x) dots on InP has been studied, in particular with deposition conditions under which mainly coherent dots are developed. The samples were grown by ...", "citations": 93, "author_count": 7, "categories": [ "Crystallography" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7654, "doi": "10.1016/S0022-0248(98)00143-2", "umap_coordinates": { "x": 392.2367858886719, "y": 134.1943359375, "z": 207.86544799804688 }, "tsne_coordinates": { "x": 29.233972549438477, "y": -10.000744819641113, "z": 6.384397029876709 }, "pca_coordinates": { "x": -1.3901089429855347, "y": -4.026330471038818, "z": 0.8052653670310974 }, "axis_scores": { "Quantum imaging": 0.6896068453788757, "Quantum Life Science Sensing": 0.6772745847702026, "Quantum sensing Detection": 0.6756005883216858, "Quantum sensing Metrology": 0.6772713661193848, "Quantum sensing navigation": 0.6760305762290955, "Quantum sensing Position": 0.6915582418441772, "Quantum sensing Timing": 0.6481351852416992, "Quantum sensing": 0.6848816871643066, "Quantum control": 0.6639294624328613 } }, { "id": 7647, "title": "Inner-shell photofragmentation of Cl2", "abstract": "We report an extensive study on partial-ion-yield spectroscopy around the Cl 1s and 2p ionization thresholds for Cl-2. All positive ion channels, several with the same mass/charge ratio, which could b...", "citations": 4, "author_count": 11, "categories": [ "Optics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7655, "doi": "10.1088/0953-4075/43/15/155202", "umap_coordinates": { "x": 393.9278564453125, "y": 136.41212463378906, "z": 205.9976806640625 }, "tsne_coordinates": { "x": 0.36358705163002014, "y": 3.8038973808288574, "z": 18.644882202148438 }, "pca_coordinates": { "x": -1.408630132675171, "y": 1.6352548599243164, "z": -1.2759208679199219 }, "axis_scores": { "Quantum imaging": 0.7038866877555847, "Quantum Life Science Sensing": 0.7115845084190369, "Quantum sensing Detection": 0.7045448422431946, "Quantum sensing Metrology": 0.670250654220581, "Quantum sensing navigation": 0.6638460159301758, "Quantum sensing Position": 0.6601046323776245, "Quantum sensing Timing": 0.6548322439193726, "Quantum sensing": 0.7036768198013306, "Quantum control": 0.6798262000083923 } }, { "id": 7648, "title": "Search for boosted diphoton resonances in the 10 to 70 GeV mass range using 138 fb-1 of 13TeV pp collisions with the ATLAS detector", "abstract": "A search for diphoton resonances in the mass range between 10 and 70 GeV with the ATLAS experiment at the Large Hadron Collider (LHC) is presented. The analysis is based on pp collision data correspon...", "citations": 29, "author_count": 2607, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7656, "doi": "10.1007/JHEP07(2023)155", "umap_coordinates": { "x": 396.8067932128906, "y": 134.6678009033203, "z": 207.14804077148438 }, "tsne_coordinates": { "x": -36.732757568359375, "y": 8.979092597961426, "z": -4.336538314819336 }, "pca_coordinates": { "x": -1.2709898948669434, "y": 2.6340696811676025, "z": 1.469430923461914 }, "axis_scores": { "Quantum imaging": 0.6556693315505981, "Quantum Life Science Sensing": 0.6629968881607056, "Quantum sensing Detection": 0.6578357219696045, "Quantum sensing Metrology": 0.6505696773529053, "Quantum sensing navigation": 0.6665034890174866, "Quantum sensing Position": 0.661348819732666, "Quantum sensing Timing": 0.6643892526626587, "Quantum sensing": 0.6563630104064941, "Quantum control": 0.6338009238243103 } }, { "id": 7649, "title": "Optical Gaps of Organic Solar Cells as a Reference for Comparing Voltage Losses", "abstract": "The voltage loss, determined by the difference between the optical gap (E-g) and the open-circuit voltage (V-OC), is one of the most important parameters determining the performance of organic solar c...", "citations": 436, "author_count": 9, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7657, "doi": "10.1002/aenm.201801352", "umap_coordinates": { "x": 393.3719787597656, "y": 134.23777770996094, "z": 205.72283935546875 }, "tsne_coordinates": { "x": 30.82807731628418, "y": 5.347108840942383, "z": 19.690000534057617 }, "pca_coordinates": { "x": -1.4891997575759888, "y": -1.0679686069488525, "z": 0.5410885214805603 }, "axis_scores": { "Quantum imaging": 0.6912425756454468, "Quantum Life Science Sensing": 0.7250604033470154, "Quantum sensing Detection": 0.6833423972129822, "Quantum sensing Metrology": 0.7099622488021851, "Quantum sensing navigation": 0.6839207410812378, "Quantum sensing Position": 0.6836351752281189, "Quantum sensing Timing": 0.6721080541610718, "Quantum sensing": 0.69464111328125, "Quantum control": 0.65313720703125 } }, { "id": 7650, "title": "A slit grating spectrograph for quantitative soft x-ray spectroscopy", "abstract": "In this article we describe a new slit grating spectrograph which is based on an e-beam written 10 000 linepairs/mm freestanding transmission diffraction grating. In combination with a thinned, back-i...", "citations": 113, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7658, "doi": "10.1063/1.1149653", "umap_coordinates": { "x": 395.2603759765625, "y": 133.74575805664062, "z": 206.72959899902344 }, "tsne_coordinates": { "x": -19.468549728393555, "y": 13.686054229736328, "z": -27.13534927368164 }, "pca_coordinates": { "x": -0.16429424285888672, "y": -0.905095100402832, "z": 2.7807629108428955 }, "axis_scores": { "Quantum imaging": 0.7039971947669983, "Quantum Life Science Sensing": 0.7216765880584717, "Quantum sensing Detection": 0.7151880264282227, "Quantum sensing Metrology": 0.7226321697235107, "Quantum sensing navigation": 0.6985695362091064, "Quantum sensing Position": 0.6857443451881409, "Quantum sensing Timing": 0.6950611472129822, "Quantum sensing": 0.733750581741333, "Quantum control": 0.6583094596862793 } }, { "id": 7651, "title": "Dipole and nondipole angular-distribution effects in valence photoemission from neon", "abstract": "Nondipole angular-distribution parameters gamma and delta for neon 2s and 2p photoelectrons have been measured and are compared to all available theoretical data. The agreement is very good throughout...", "citations": 17, "author_count": 10, "categories": [ "Spectroscopy" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7659, "doi": "10.1016/S0368-2048(02)00025-7", "umap_coordinates": { "x": 393.3740539550781, "y": 135.82823181152344, "z": 207.2364501953125 }, "tsne_coordinates": { "x": 20.810977935791016, "y": -18.114702224731445, "z": 33.07712173461914 }, "pca_coordinates": { "x": -1.2241429090499878, "y": -0.862515926361084, "z": -0.6824029088020325 }, "axis_scores": { "Quantum imaging": 0.6418667435646057, "Quantum Life Science Sensing": 0.6290996074676514, "Quantum sensing Detection": 0.6174999475479126, "Quantum sensing Metrology": 0.6005164384841919, "Quantum sensing navigation": 0.6201258301734924, "Quantum sensing Position": 0.6285699009895325, "Quantum sensing Timing": 0.6261999607086182, "Quantum sensing": 0.6222944259643555, "Quantum control": 0.5983925461769104 } }, { "id": 7652, "title": "Multiplicity and pseudorapidity distribution of photons in S+Au reaction at 200A GeV", "abstract": "The photon multiplicity has been measured for the first time in S+Au collisions at 200A GeV over a wide pseudorapidity range (2.8 less than or equal to eta less than or equal to 5.2) employing a fine ...", "citations": 14, "author_count": 89, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7660, "doi": "10.1103/PhysRevC.58.1146", "umap_coordinates": { "x": 396.52191162109375, "y": 134.59539794921875, "z": 207.9206085205078 }, "tsne_coordinates": { "x": -34.65750503540039, "y": 0.636459469795227, "z": -16.009300231933594 }, "pca_coordinates": { "x": 2.328528881072998, "y": -0.28429555892944336, "z": 1.986788272857666 }, "axis_scores": { "Quantum imaging": 0.7098776698112488, "Quantum Life Science Sensing": 0.7390432357788086, "Quantum sensing Detection": 0.7330257892608643, "Quantum sensing Metrology": 0.7134414911270142, "Quantum sensing navigation": 0.7258914113044739, "Quantum sensing Position": 0.7258313894271851, "Quantum sensing Timing": 0.7146737575531006, "Quantum sensing": 0.7263698577880859, "Quantum control": 0.6899627447128296 } }, { "id": 7653, "title": "Measurement of the t(t)over-barγ production cross section in proton-proton collisions at √s=8 TeV with the ATLAS detector", "abstract": "The cross section of a top-quark pair produced in association with a photon is measured in proton-proton collisions at a centre-of-mass energy of root s = 8 TeV with 20.2 fb(-1) of data collected by t...", "citations": 3, "author_count": 2665, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7661, "doi": "10.1007/JHEP11(2017)086", "umap_coordinates": { "x": 396.992431640625, "y": 134.242431640625, "z": 207.33535766601562 }, "tsne_coordinates": { "x": -37.031158447265625, "y": 11.127689361572266, "z": -8.88839054107666 }, "pca_coordinates": { "x": -0.9794735908508301, "y": 2.363922595977783, "z": 1.957747459411621 }, "axis_scores": { "Quantum imaging": 0.6851491928100586, "Quantum Life Science Sensing": 0.6826101541519165, "Quantum sensing Detection": 0.6792546510696411, "Quantum sensing Metrology": 0.6757512092590332, "Quantum sensing navigation": 0.6861693859100342, "Quantum sensing Position": 0.69237220287323, "Quantum sensing Timing": 0.7193266749382019, "Quantum sensing": 0.6874083280563354, "Quantum control": 0.667001485824585 } }, { "id": 7654, "title": "Vibrational properties of protons in hydrated BaInxZr1-xO3-x/2 - art. no. 094303", "abstract": "We investigate the local proton dynamics in the proton conducting hydrated perovskite system BaInxZr1-xO3-x/2 (x=0.25-0.75) using infrared spectroscopy and first-principles calculations. We show that ...", "citations": 83, "author_count": 11, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7662, "doi": "10.1103/PhysRevB.72.094303", "umap_coordinates": { "x": 393.8641662597656, "y": 136.1620330810547, "z": 208.24087524414062 }, "tsne_coordinates": { "x": 12.03711223602295, "y": 5.799921989440918, "z": 21.273611068725586 }, "pca_coordinates": { "x": 2.689605712890625, "y": 0.20204377174377441, "z": -3.0079071521759033 }, "axis_scores": { "Quantum imaging": 0.713327944278717, "Quantum Life Science Sensing": 0.7206525802612305, "Quantum sensing Detection": 0.6948001980781555, "Quantum sensing Metrology": 0.6982406377792358, "Quantum sensing navigation": 0.7195983529090881, "Quantum sensing Position": 0.7079907655715942, "Quantum sensing Timing": 0.6824118494987488, "Quantum sensing": 0.7185405492782593, "Quantum control": 0.6975310444831848 } }, { "id": 7655, "title": "A circularly polarized X-ray study of the temperature-dependent spin-reorientation transition of thin Co films", "abstract": "Utilizing vector magnetometry by means of X-ray circular dichroism, the temperature-driven spin reorientation from an in-plane to out-of-plane orientation in thin Co films is studied in an epitaxially...", "citations": 4, "author_count": 8, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7663, "doi": "10.1016/S0304-8853(00)01017-9", "umap_coordinates": { "x": 392.89825439453125, "y": 136.00955200195312, "z": 206.24913024902344 }, "tsne_coordinates": { "x": 17.53390121459961, "y": 12.128539085388184, "z": 5.128115177154541 }, "pca_coordinates": { "x": -1.7225205898284912, "y": 0.4581258296966553, "z": -1.577645182609558 }, "axis_scores": { "Quantum imaging": 0.6690435409545898, "Quantum Life Science Sensing": 0.6762546896934509, "Quantum sensing Detection": 0.6423512101173401, "Quantum sensing Metrology": 0.6305514574050903, "Quantum sensing navigation": 0.644631028175354, "Quantum sensing Position": 0.6594482064247131, "Quantum sensing Timing": 0.6388784646987915, "Quantum sensing": 0.6599889993667603, "Quantum control": 0.6297609806060791 } }, { "id": 7656, "title": "Observation of electroweak production of two jets in association with an isolated photon and missing transverse momentum, and search for a Higgs boson decaying into invisible particles at 13 TeV with the ATLAS detector", "abstract": "This paper presents a measurement of the electroweak production of two jets in association with a Z gamma pair, with the Z boson decaying into two neutrinos. It also presents a search for invisible or...", "citations": 23, "author_count": 2690, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7664, "doi": "10.1140/epjc/s10052-021-09878-z", "umap_coordinates": { "x": 396.8096008300781, "y": 134.43504333496094, "z": 207.19606018066406 }, "tsne_coordinates": { "x": -32.123565673828125, "y": 13.656050682067871, "z": -2.9064886569976807 }, "pca_coordinates": { "x": 0.031252503395080566, "y": 1.6676363945007324, "z": 3.3595876693725586 }, "axis_scores": { "Quantum imaging": 0.6808590888977051, "Quantum Life Science Sensing": 0.6618770956993103, "Quantum sensing Detection": 0.6764427423477173, "Quantum sensing Metrology": 0.6441366672515869, "Quantum sensing navigation": 0.6625890135765076, "Quantum sensing Position": 0.6482812762260437, "Quantum sensing Timing": 0.6659916639328003, "Quantum sensing": 0.6685712337493896, "Quantum control": 0.6499965786933899 } }, { "id": 7657, "title": "Development of an irradiation and kinetic model for UV processes in volatile organic compounds abatement applications", "abstract": "Air pollution from volatile organic compounds (VOCs) is one of the most important environmental hazards. Advanced oxidation processes (AOPs) with UV systems have been showing high potential for the ab...", "citations": 12, "author_count": 4, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7665, "doi": "10.1016/j.cej.2018.05.009", "umap_coordinates": { "x": 393.9628601074219, "y": 135.2167205810547, "z": 204.6886444091797 }, "tsne_coordinates": { "x": 0.20414237678050995, "y": 20.35040283203125, "z": 15.854162216186523 }, "pca_coordinates": { "x": -3.3130898475646973, "y": 1.6983972787857056, "z": -1.3561499118804932 }, "axis_scores": { "Quantum imaging": 0.7014111876487732, "Quantum Life Science Sensing": 0.7324772477149963, "Quantum sensing Detection": 0.6886094808578491, "Quantum sensing Metrology": 0.676140308380127, "Quantum sensing navigation": 0.685234546661377, "Quantum sensing Position": 0.6540749669075012, "Quantum sensing Timing": 0.6608377695083618, "Quantum sensing": 0.6931504607200623, "Quantum control": 0.6918554902076721 } }, { "id": 7658, "title": "O-Acetylation of glucuronoxylan in Arabidopsis thaliana wild type and its change in xylan biosynthesis mutants", "abstract": "O-Acetylglucuronoxylans (AcGX) in Arabidopsis thaliana carry acetyl residues on the 2-O and/or 3-O positions of the xylopyranosyl (Xylp) units, but the distribution of different O-acetylated Xylp unit...", "citations": 52, "author_count": 12, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7666, "doi": "10.1093/glycob/cwu017", "umap_coordinates": { "x": 393.6947937011719, "y": 136.19923400878906, "z": 203.7415771484375 }, "tsne_coordinates": { "x": 10.059332847595215, "y": 37.712520599365234, "z": 17.989107131958008 }, "pca_coordinates": { "x": -1.1747180223464966, "y": 2.6068575382232666, "z": -2.8075952529907227 }, "axis_scores": { "Quantum imaging": 0.6565396189689636, "Quantum Life Science Sensing": 0.6699085235595703, "Quantum sensing Detection": 0.6429169178009033, "Quantum sensing Metrology": 0.6368995904922485, "Quantum sensing navigation": 0.6839420199394226, "Quantum sensing Position": 0.6632530689239502, "Quantum sensing Timing": 0.6428804397583008, "Quantum sensing": 0.6566904783248901, "Quantum control": 0.6720004081726074 } }, { "id": 7659, "title": "QM/MM-MD Simulations of Conjugated Polyelectrolytes: A Study of Luminescent Conjugated Oligothiophenes for Use as Biophysical Probes", "abstract": "A methodological development is reported for the study of luminescence properties of conjugated polyelectrolytes, encompassing systems in which dihedral rotational barriers are easily overcome at room...", "citations": 27, "author_count": 5, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7667, "doi": "10.1021/jp5009835", "umap_coordinates": { "x": 392.7726135253906, "y": 136.71275329589844, "z": 205.25888061523438 }, "tsne_coordinates": { "x": -0.9395418167114258, "y": 3.3163561820983887, "z": 1.2767090797424316 }, "pca_coordinates": { "x": -1.066031813621521, "y": -0.9662919044494629, "z": -1.2858519554138184 }, "axis_scores": { "Quantum imaging": 0.7250494360923767, "Quantum Life Science Sensing": 0.7405274510383606, "Quantum sensing Detection": 0.7143221497535706, "Quantum sensing Metrology": 0.7093098759651184, "Quantum sensing navigation": 0.7191847562789917, "Quantum sensing Position": 0.7101558446884155, "Quantum sensing Timing": 0.7041469812393188, "Quantum sensing": 0.722645103931427, "Quantum control": 0.6898440718650818 } }, { "id": 7660, "title": "Stimulated Raman spectroscopy of a K-Promoted catalyst surface: Spectroscopic evidence of K* Rydberg state formation", "abstract": "The direct spectroscopic observation of K* Rydberg states with principal quantum number n = 5 and 6 by anti-Stokes stimulated Raman spectroscopy at a K-promoted iron oxide surface (commercial catalyst...", "citations": 19, "author_count": 2, "categories": [ "Chemistry" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7668, "doi": "10.1021/la000951q", "umap_coordinates": { "x": 393.0527038574219, "y": 135.27027893066406, "z": 205.9665985107422 }, "tsne_coordinates": { "x": 3.9765748977661133, "y": -13.069957733154297, "z": -17.823747634887695 }, "pca_coordinates": { "x": -0.588516891002655, "y": -1.8209638595581055, "z": -1.5642573833465576 }, "axis_scores": { "Quantum imaging": 0.6418750286102295, "Quantum Life Science Sensing": 0.6763531565666199, "Quantum sensing Detection": 0.6602334380149841, "Quantum sensing Metrology": 0.6416072249412537, "Quantum sensing navigation": 0.6442211270332336, "Quantum sensing Position": 0.6411024332046509, "Quantum sensing Timing": 0.5986404418945312, "Quantum sensing": 0.6679912805557251, "Quantum control": 0.6159029603004456 } }, { "id": 7661, "title": "Quantum stability of an ion in a Paul trap revisited", "abstract": "We study the quantum stability of the dynamics of ions in a Paul trap. We revisit previous results that showed that quantum trajectories did not have the same region of stability as their classical co...", "citations": 1, "author_count": 3, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7669, "doi": "10.1080/00268976.2017.1313464", "umap_coordinates": { "x": 394.47003173828125, "y": 136.4785614013672, "z": 207.16555786132812 }, "tsne_coordinates": { "x": -14.482769012451172, "y": -3.7608160972595215, "z": 26.280017852783203 }, "pca_coordinates": { "x": 1.8677477836608887, "y": 1.8942829370498657, "z": -1.2949901819229126 }, "axis_scores": { "Quantum imaging": 0.7110266089439392, "Quantum Life Science Sensing": 0.7320744395256042, "Quantum sensing Detection": 0.7183520793914795, "Quantum sensing Metrology": 0.6994086503982544, "Quantum sensing navigation": 0.7351949214935303, "Quantum sensing Position": 0.7399179935455322, "Quantum sensing Timing": 0.71749347448349, "Quantum sensing": 0.7281904816627502, "Quantum control": 0.7106755375862122 } }, { "id": 7662, "title": "Realising single-shot measurements of quantum radiation reaction in high-intensity lasers", "abstract": "Modern laser technology is now sufficiently advanced that collisions between high-intensity laser pulses and laser-wakefield-accelerated (LWFA) electron beams can reach the strong-field regime, so tha...", "citations": 12, "author_count": 8, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7670, "doi": "10.1088/1367-2630/ab1baf", "umap_coordinates": { "x": 394.9457702636719, "y": 133.66844177246094, "z": 207.397705078125 }, "tsne_coordinates": { "x": -13.051034927368164, "y": -12.228314399719238, "z": -23.652626037597656 }, "pca_coordinates": { "x": -0.5019576549530029, "y": 0.8645025491714478, "z": 2.5069870948791504 }, "axis_scores": { "Quantum imaging": 0.7374364733695984, "Quantum Life Science Sensing": 0.754637598991394, "Quantum sensing Detection": 0.7423987984657288, "Quantum sensing Metrology": 0.7321050763130188, "Quantum sensing navigation": 0.7204893827438354, "Quantum sensing Position": 0.6958323121070862, "Quantum sensing Timing": 0.7138356566429138, "Quantum sensing": 0.7570303082466125, "Quantum control": 0.7032097578048706 } }, { "id": 7663, "title": "Quasielastic neutron scattering of hydrated BaZr0.90A0.10O2.95 (A = Y and Sc)", "abstract": "Proton motions in hydrated proton conducting perovskites BaZr(0.90)A(0.10)O(2.95) (A = Y and Sc) have been investigated using quasielastic neutron scattering. The results reveal a localized motion on ...", "citations": 35, "author_count": 10, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7671, "doi": "10.1016/j.ssi.2008.11.004", "umap_coordinates": { "x": 393.7784423828125, "y": 135.64096069335938, "z": 205.27880859375 }, "tsne_coordinates": { "x": 16.29987907409668, "y": 7.440132141113281, "z": 21.448368072509766 }, "pca_coordinates": { "x": -0.8921841382980347, "y": 0.3511924743652344, "z": -2.226482629776001 }, "axis_scores": { "Quantum imaging": 0.7382857203483582, "Quantum Life Science Sensing": 0.7452617287635803, "Quantum sensing Detection": 0.7141149640083313, "Quantum sensing Metrology": 0.7125427722930908, "Quantum sensing navigation": 0.7273969650268555, "Quantum sensing Position": 0.7021234631538391, "Quantum sensing Timing": 0.6935670375823975, "Quantum sensing": 0.7417994737625122, "Quantum control": 0.7103713750839233 } }, { "id": 7664, "title": "Detection of strongly and weakly ionizing radiation by triode structure based on SiC films", "abstract": "Device structures based on thick and thin SiC epitaxial films have been studied as detectors of alpha particles and weak ionization radiation (x ray and UV quanta), respectively. In the first case rel...", "citations": 8, "author_count": 8, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7672, "doi": "10.1063/1.1564284", "umap_coordinates": { "x": 393.87261962890625, "y": 133.52191162109375, "z": 207.73025512695312 }, "tsne_coordinates": { "x": 29.599205017089844, "y": -18.699527740478516, "z": -12.840157508850098 }, "pca_coordinates": { "x": -0.009848594665527344, "y": -0.01453542709350586, "z": 2.807101249694824 }, "axis_scores": { "Quantum imaging": 0.6949180364608765, "Quantum Life Science Sensing": 0.7438870072364807, "Quantum sensing Detection": 0.7153813242912292, "Quantum sensing Metrology": 0.6819407939910889, "Quantum sensing navigation": 0.6745998859405518, "Quantum sensing Position": 0.6675559282302856, "Quantum sensing Timing": 0.6521745920181274, "Quantum sensing": 0.7080893516540527, "Quantum control": 0.6369967460632324 } }, { "id": 7665, "title": "Comparison of Radiologist Performance with Photon-Counting Full-Field Digital Mammography to Conventional Full-Field Digital Mammography", "abstract": "Rationale and Objectives: The purpose of this study was to assess the performance of a Micro Dose photon-counting full-field digital mammography (PCM) system in comparison to full-field digital mammog...", "citations": 21, "author_count": 5, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7673, "doi": "10.1016/j.acra.2012.03.005", "umap_coordinates": { "x": 395.199462890625, "y": 132.61282348632812, "z": 205.1839141845703 }, "tsne_coordinates": { "x": -4.903316974639893, "y": 30.439491271972656, "z": -22.40181541442871 }, "pca_coordinates": { "x": -4.264387130737305, "y": 3.098010540008545, "z": 2.714111566543579 }, "axis_scores": { "Quantum imaging": 0.73598313331604, "Quantum Life Science Sensing": 0.7101824283599854, "Quantum sensing Detection": 0.7114495038986206, "Quantum sensing Metrology": 0.71502685546875, "Quantum sensing navigation": 0.6915854215621948, "Quantum sensing Position": 0.6861039400100708, "Quantum sensing Timing": 0.676265299320221, "Quantum sensing": 0.7166697382926941, "Quantum control": 0.665065348148346 } }, { "id": 7666, "title": "RECORDING DENSITY LIMIT OF PHOTON-ECHO OPTICAL STORAGE WITH HIGH-SPEED WRITING AND READING", "abstract": "The first analysis to our knowledge of the optical data storage density of photon-echo storage is presented. Mainly considering signal-to-noise ratio performance, we calculate the obtainable storage d...", "citations": 21, "author_count": 3, "categories": [ "Optics" ], "year": 1993, "topic": [ "all" ], "embedding_index": 7674, "doi": null, "umap_coordinates": { "x": 391.4423828125, "y": 139.60134887695312, "z": 209.53746032714844 }, "tsne_coordinates": { "x": -2.109754800796509, "y": 45.97301483154297, "z": -10.20290470123291 }, "pca_coordinates": { "x": -0.35714584589004517, "y": 3.509627342224121, "z": 0.7616491913795471 }, "axis_scores": { "Quantum imaging": 0.7159853577613831, "Quantum Life Science Sensing": 0.7144209146499634, "Quantum sensing Detection": 0.7099165916442871, "Quantum sensing Metrology": 0.7022445201873779, "Quantum sensing navigation": 0.7084778547286987, "Quantum sensing Position": 0.7088109850883484, "Quantum sensing Timing": 0.6783204078674316, "Quantum sensing": 0.703587532043457, "Quantum control": 0.6847270131111145 } }, { "id": 7667, "title": "Azadioxatriangulenium: exploring the effect of a 20 ns fluorescence lifetime in fluorescence anisotropy measurements", "abstract": "Azaoxatriangulenium (ADOTA) has been shown to be highly emissive despite a moderate molar absorption coefficient of the primary electronic transition. As a result, the fluorescence lifetime is similar...", "citations": 17, "author_count": 7, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7675, "doi": "10.1088/2050-6120/3/4/045001", "umap_coordinates": { "x": 393.60174560546875, "y": 135.72105407714844, "z": 204.80294799804688 }, "tsne_coordinates": { "x": -3.1330909729003906, "y": 13.177022933959961, "z": -1.6129010915756226 }, "pca_coordinates": { "x": -2.150484561920166, "y": 1.0854628086090088, "z": -0.2600378394126892 }, "axis_scores": { "Quantum imaging": 0.7087202072143555, "Quantum Life Science Sensing": 0.7369349598884583, "Quantum sensing Detection": 0.6832936406135559, "Quantum sensing Metrology": 0.6721839308738708, "Quantum sensing navigation": 0.6910330653190613, "Quantum sensing Position": 0.6771288514137268, "Quantum sensing Timing": 0.6968852281570435, "Quantum sensing": 0.7030535340309143, "Quantum control": 0.661544144153595 } }, { "id": 7668, "title": "Biomimetic Synthesis of Hierarchically Porous Nanostructured Metal Oxide Microparticles-Potential Scaffolds for Drug Delivery and Catalysis", "abstract": "Hierarchically porous hybrid microparticles, strikingly reminscent in their structure of the silica skeletons of single-cell algae, diatoms, but composed of titanium dioxide, and the chemically bound ...", "citations": 58, "author_count": 8, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7676, "doi": "10.1021/la1000683", "umap_coordinates": { "x": 392.8540344238281, "y": 134.5805206298828, "z": 204.36769104003906 }, "tsne_coordinates": { "x": 28.00499153137207, "y": 21.943435668945312, "z": -0.9964577555656433 }, "pca_coordinates": { "x": -3.4301624298095703, "y": -2.1064772605895996, "z": -3.006582021713257 }, "axis_scores": { "Quantum imaging": 0.6935462951660156, "Quantum Life Science Sensing": 0.7162219285964966, "Quantum sensing Detection": 0.6642546653747559, "Quantum sensing Metrology": 0.6594630479812622, "Quantum sensing navigation": 0.6660165190696716, "Quantum sensing Position": 0.6363364458084106, "Quantum sensing Timing": 0.6032730340957642, "Quantum sensing": 0.684536337852478, "Quantum control": 0.6673933863639832 } }, { "id": 7669, "title": "A MODEL CALCULATION ON STRUCTURES AND EXCITATION-ENERGIES OF THE HYDRATED ELECTRON", "abstract": "Model calculations were made on the hydrated electron by using the ab initio MO method combined with the MR-SD-CI method and the coupled cluster theory. The models used in the calculations were water ...", "citations": 23, "author_count": 4, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 7677, "doi": "10.1139/v93-017", "umap_coordinates": { "x": 393.5365295410156, "y": 137.40625, "z": 206.3140411376953 }, "tsne_coordinates": { "x": -4.316887378692627, "y": 14.775208473205566, "z": 32.02915954589844 }, "pca_coordinates": { "x": 1.8698656558990479, "y": 2.3743910789489746, "z": -1.6366398334503174 }, "axis_scores": { "Quantum imaging": 0.6762797236442566, "Quantum Life Science Sensing": 0.6856992244720459, "Quantum sensing Detection": 0.665398895740509, "Quantum sensing Metrology": 0.6684179306030273, "Quantum sensing navigation": 0.6613799929618835, "Quantum sensing Position": 0.656181812286377, "Quantum sensing Timing": 0.6331685781478882, "Quantum sensing": 0.6724406480789185, "Quantum control": 0.6556194424629211 } }, { "id": 7670, "title": "Lab-based X-ray nanoCT imaging", "abstract": "Due to the recent development of transmission X-ray tubes with very small focal spot sizes, laboratory-based CT imaging with sub-micron resolutions is nowadays possible. We recently developed a novel ...", "citations": 1, "author_count": 7, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7678, "doi": "10.1117/12.2254785", "umap_coordinates": { "x": 395.1682434082031, "y": 133.1921844482422, "z": 205.48011779785156 }, "tsne_coordinates": { "x": -1.4807062149047852, "y": 19.262088775634766, "z": -25.07843017578125 }, "pca_coordinates": { "x": -3.2952795028686523, "y": 2.619920015335083, "z": 1.7246804237365723 }, "axis_scores": { "Quantum imaging": 0.7726286053657532, "Quantum Life Science Sensing": 0.7352685928344727, "Quantum sensing Detection": 0.7320696115493774, "Quantum sensing Metrology": 0.7213818430900574, "Quantum sensing navigation": 0.7359564900398254, "Quantum sensing Position": 0.7233232855796814, "Quantum sensing Timing": 0.7114388942718506, "Quantum sensing": 0.7456989288330078, "Quantum control": 0.7164027690887451 } }, { "id": 7671, "title": "Emergent properties and the multiscale characterization challenge in condensed matter, from crystals to complex materials: a review", "abstract": "The complexity of condensed matter arises from emergent behaviors that cannot be understood by investigating individual constituents in isolation. While traditional condensed-matter approaches, develo...", "citations": 1, "author_count": 2, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7679, "doi": "10.1088/1361-6463/ae0344", "umap_coordinates": { "x": 394.7734680175781, "y": 137.6308135986328, "z": 206.57977294921875 }, "tsne_coordinates": { "x": 21.5762996673584, "y": 6.066649436950684, "z": 18.94085121154785 }, "pca_coordinates": { "x": 0.7366127967834473, "y": 1.4673744440078735, "z": -2.8573522567749023 }, "axis_scores": { "Quantum imaging": 0.7519508600234985, "Quantum Life Science Sensing": 0.7845062613487244, "Quantum sensing Detection": 0.7348871231079102, "Quantum sensing Metrology": 0.7292553186416626, "Quantum sensing navigation": 0.7212267518043518, "Quantum sensing Position": 0.690207839012146, "Quantum sensing Timing": 0.6697138547897339, "Quantum sensing": 0.7576999068260193, "Quantum control": 0.7243440747261047 } }, { "id": 7672, "title": "Technical note: SpekPy Web-online x-ray spectrum calculations using an interface to the SpekPy toolkit", "abstract": "Knowledge of the photon spectrum emitted from an x-ray tube is frequently needed in imaging and dosimetry contexts. As the spectrum characteristics are influenced by several parameters and routine mea...", "citations": 11, "author_count": 3, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7680, "doi": "10.1002/acm2.14301", "umap_coordinates": { "x": 395.8427429199219, "y": 134.561767578125, "z": 205.8666534423828 }, "tsne_coordinates": { "x": -0.9400091767311096, "y": 18.77728271484375, "z": -35.05959701538086 }, "pca_coordinates": { "x": -2.5000429153442383, "y": 1.1840927600860596, "z": -0.5345675945281982 }, "axis_scores": { "Quantum imaging": 0.6976757049560547, "Quantum Life Science Sensing": 0.6993635892868042, "Quantum sensing Detection": 0.6812835931777954, "Quantum sensing Metrology": 0.6781949996948242, "Quantum sensing navigation": 0.6807653307914734, "Quantum sensing Position": 0.6877221465110779, "Quantum sensing Timing": 0.6879739761352539, "Quantum sensing": 0.6949589848518372, "Quantum control": 0.6619548797607422 } }, { "id": 7673, "title": "Analysis of industrial X-ray computed tomography data with deep neural networks", "abstract": "X-ray computed tomography (XCT) is increasingly utilized industrially at material- and process development as well as in non-destructive quality control; XCT is important to many emerging manufacturin...", "citations": 2, "author_count": 3, "categories": [ "Optics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7681, "doi": "10.1117/12.2594714", "umap_coordinates": { "x": 395.5008544921875, "y": 132.90020751953125, "z": 205.62155151367188 }, "tsne_coordinates": { "x": -2.649329900741577, "y": 19.089824676513672, "z": -23.653554916381836 }, "pca_coordinates": { "x": -1.6235302686691284, "y": 3.310023069381714, "z": 4.021221160888672 }, "axis_scores": { "Quantum imaging": 0.7760322093963623, "Quantum Life Science Sensing": 0.7267451882362366, "Quantum sensing Detection": 0.7584991455078125, "Quantum sensing Metrology": 0.7453867197036743, "Quantum sensing navigation": 0.7402632236480713, "Quantum sensing Position": 0.714600145816803, "Quantum sensing Timing": 0.7230972647666931, "Quantum sensing": 0.7628201246261597, "Quantum control": 0.7196536064147949 } }, { "id": 7674, "title": "Correlating Local Compositions and Structures with the Macroscopic Optical Properties of Ce3+-Doped CaSc2O4, an Efficient Green-Emitting Phosphor", "abstract": "Calcium scandate (CaSc2O4) substituted with small amounts (<1%) of Ce3+ is a recently discovered bright-green-emitting phosphor with favorable light absorption and emission properties and robust tempe...", "citations": 79, "author_count": 11, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7682, "doi": "10.1021/acs.chemmater.6b05394", "umap_coordinates": { "x": 391.6622619628906, "y": 135.0189971923828, "z": 205.5265655517578 }, "tsne_coordinates": { "x": 14.71481704711914, "y": -8.00428295135498, "z": -22.72701072692871 }, "pca_coordinates": { "x": -2.266099691390991, "y": -1.6945385932922363, "z": -2.108776569366455 }, "axis_scores": { "Quantum imaging": 0.7204343676567078, "Quantum Life Science Sensing": 0.7242712378501892, "Quantum sensing Detection": 0.6965228319168091, "Quantum sensing Metrology": 0.7058326005935669, "Quantum sensing navigation": 0.6887145042419434, "Quantum sensing Position": 0.6748917698860168, "Quantum sensing Timing": 0.6576230525970459, "Quantum sensing": 0.7230968475341797, "Quantum control": 0.695295512676239 } }, { "id": 7675, "title": "Two-Photon Absorption of Metal-Assisted Chromophores", "abstract": "Aiming to understand the effect of a metal surface on nonlinear optical properties and the combined effects of surface and solvent environments on such properties, we present a multiscale response the...", "citations": 14, "author_count": 4, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7683, "doi": "10.1021/ct500579n", "umap_coordinates": { "x": 391.9162292480469, "y": 135.31817626953125, "z": 205.43260192871094 }, "tsne_coordinates": { "x": 8.843205451965332, "y": 5.380405902862549, "z": -2.9810242652893066 }, "pca_coordinates": { "x": -2.650498390197754, "y": -2.7936606407165527, "z": -0.22681570053100586 }, "axis_scores": { "Quantum imaging": 0.7296550869941711, "Quantum Life Science Sensing": 0.7225040197372437, "Quantum sensing Detection": 0.7387815117835999, "Quantum sensing Metrology": 0.7113419771194458, "Quantum sensing navigation": 0.688372015953064, "Quantum sensing Position": 0.6654212474822998, "Quantum sensing Timing": 0.6761109828948975, "Quantum sensing": 0.73769211769104, "Quantum control": 0.678744912147522 } }, { "id": 7676, "title": "THE USE OF TIME-RESOLVED FLUORESCENCE FOR DIAGNOSIS OF ATHEROSCLEROTIC PLAQUE AND MALIGNANT-TUMORS", "abstract": "Time-resolved fluorescence was studied for two different applications: demarcation of malignant tumours from normal tissue and atherosclerotic plaque of different degrees from normal vessel wall. The ...", "citations": 38, "author_count": 4, "categories": [ "Spectroscopy" ], "year": 1990, "topic": [ "all" ], "embedding_index": 7684, "doi": "10.1016/0584-8539(90)80196-6", "umap_coordinates": { "x": 394.49420166015625, "y": 133.8788604736328, "z": 204.6319122314453 }, "tsne_coordinates": { "x": -1.3254737854003906, "y": 22.324968338012695, "z": -7.8026838302612305 }, "pca_coordinates": { "x": -4.629620552062988, "y": 2.150588035583496, "z": 1.5840044021606445 }, "axis_scores": { "Quantum imaging": 0.6760109663009644, "Quantum Life Science Sensing": 0.6760304570198059, "Quantum sensing Detection": 0.6554858684539795, "Quantum sensing Metrology": 0.6357542872428894, "Quantum sensing navigation": 0.6332822442054749, "Quantum sensing Position": 0.6409761309623718, "Quantum sensing Timing": 0.6626669764518738, "Quantum sensing": 0.6470680236816406, "Quantum control": 0.6000268459320068 } }, { "id": 7677, "title": "Emergence of spin-orbit torques in 2D transition metal dichalcogenides: A status update", "abstract": "Spin-orbit coupling (SOC) in two-dimensional (2D) materials has emerged as a powerful tool for designing spintronic devices. On the one hand, the interest in this respect for graphene, the most popula...", "citations": 65, "author_count": 9, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7685, "doi": "10.1063/5.0025318", "umap_coordinates": { "x": 392.5032043457031, "y": 136.3214111328125, "z": 208.27760314941406 }, "tsne_coordinates": { "x": 11.296666145324707, "y": -32.59856414794922, "z": 19.93016815185547 }, "pca_coordinates": { "x": 0.9106020927429199, "y": -1.4778735637664795, "z": -2.9892923831939697 }, "axis_scores": { "Quantum imaging": 0.6911937594413757, "Quantum Life Science Sensing": 0.6967222690582275, "Quantum sensing Detection": 0.6830102801322937, "Quantum sensing Metrology": 0.691910445690155, "Quantum sensing navigation": 0.6743370890617371, "Quantum sensing Position": 0.6693052053451538, "Quantum sensing Timing": 0.6749600768089294, "Quantum sensing": 0.6842219233512878, "Quantum control": 0.6679974794387817 } }, { "id": 7678, "title": "dNTP-dependent Conformational Transitions in the Fingers Subdomain of Klentaq1 DNA Polymerase INSIGHTS INTO THE ROLE OF THE NUCLEOTIDE-BINDING STATE", "abstract": "DNA polymerases are responsible for the accurate replication of DNA. Kinetic, single-molecule, and x-ray studies show that multiple conformational states are important for DNA polymerase fidelity. Usi...", "citations": 34, "author_count": 9, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7686, "doi": "10.1074/jbc.M112.432690", "umap_coordinates": { "x": 392.6109619140625, "y": 136.85411071777344, "z": 204.90269470214844 }, "tsne_coordinates": { "x": 9.02188491821289, "y": 10.888642311096191, "z": 9.304069519042969 }, "pca_coordinates": { "x": -0.3964507579803467, "y": -0.41710376739501953, "z": -2.610167980194092 }, "axis_scores": { "Quantum imaging": 0.6441918611526489, "Quantum Life Science Sensing": 0.6887667179107666, "Quantum sensing Detection": 0.6670144200325012, "Quantum sensing Metrology": 0.659980833530426, "Quantum sensing navigation": 0.6794757843017578, "Quantum sensing Position": 0.6713206768035889, "Quantum sensing Timing": 0.6748538017272949, "Quantum sensing": 0.6737917065620422, "Quantum control": 0.6511410474777222 } }, { "id": 7679, "title": "Neutral vs Charged Luminescent Radicals: Anti-Kasha Emission and the Impact of Molecular Surrounding", "abstract": "Organic luminescent materials attract growing interest as an elegant solution for sustainable and inexpensive light-emitting devices. Most of them are neutral-emitting molecules with an implicit restr...", "citations": 10, "author_count": 5, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7687, "doi": "10.1021/acs.jpca.4c02779", "umap_coordinates": { "x": 392.5351867675781, "y": 136.12721252441406, "z": 204.95974731445312 }, "tsne_coordinates": { "x": 7.053751468658447, "y": 9.64462661743164, "z": 16.491296768188477 }, "pca_coordinates": { "x": -2.07353138923645, "y": 1.14613938331604, "z": -3.7089626789093018 }, "axis_scores": { "Quantum imaging": 0.7015116810798645, "Quantum Life Science Sensing": 0.7048287987709045, "Quantum sensing Detection": 0.6725589036941528, "Quantum sensing Metrology": 0.6371052861213684, "Quantum sensing navigation": 0.67484450340271, "Quantum sensing Position": 0.6672697067260742, "Quantum sensing Timing": 0.6558089852333069, "Quantum sensing": 0.6899993419647217, "Quantum control": 0.6946410536766052 } }, { "id": 7680, "title": "Diphenylanthracene Dimers for Triplet-Triplet Annihilation Photon Upconversion: Mechanistic Insights for Intramolecular Pathways and the Importance of Molecular Geometry", "abstract": "Novel approaches to modify the spectral output of the sun have seen a surge in interest recently, with triplet-triplet annihilation driven photon upconversion (TTA-UC) gaining widespread recognition d...", "citations": 101, "author_count": 5, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7688, "doi": "10.1021/jacs.1c00331", "umap_coordinates": { "x": 392.2560729980469, "y": 136.10153198242188, "z": 205.7104034423828 }, "tsne_coordinates": { "x": 1.2972277402877808, "y": -1.968289852142334, "z": -9.65085220336914 }, "pca_coordinates": { "x": -1.4639086723327637, "y": -0.4336421489715576, "z": -0.7124449014663696 }, "axis_scores": { "Quantum imaging": 0.704698920249939, "Quantum Life Science Sensing": 0.6949726343154907, "Quantum sensing Detection": 0.6875993013381958, "Quantum sensing Metrology": 0.6571915745735168, "Quantum sensing navigation": 0.6583187580108643, "Quantum sensing Position": 0.6461954712867737, "Quantum sensing Timing": 0.6887532472610474, "Quantum sensing": 0.6868463754653931, "Quantum control": 0.6529785990715027 } }, { "id": 7681, "title": "Kinetic Uncertainty Relations for Quantum Transport", "abstract": "We analyze the precision of generic currents in a multiterminal quantum-transport setting. Employing scattering theory, we show that the precision of such currents is limited by a function of the part...", "citations": 1, "author_count": 4, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7689, "doi": "10.1103/kvdn-skn1", "umap_coordinates": { "x": 394.96258544921875, "y": 137.6486358642578, "z": 207.69696044921875 }, "tsne_coordinates": { "x": -18.180036544799805, "y": -10.503052711486816, "z": 14.186626434326172 }, "pca_coordinates": { "x": 2.8194313049316406, "y": 1.1144471168518066, "z": -0.03917974233627319 }, "axis_scores": { "Quantum imaging": 0.7071838974952698, "Quantum Life Science Sensing": 0.7195948958396912, "Quantum sensing Detection": 0.719407320022583, "Quantum sensing Metrology": 0.7242246270179749, "Quantum sensing navigation": 0.7711598873138428, "Quantum sensing Position": 0.7193425893783569, "Quantum sensing Timing": 0.7119545340538025, "Quantum sensing": 0.7334672212600708, "Quantum control": 0.7059548497200012 } }, { "id": 7682, "title": "PTB7 as an Ink-Additive for Spin-Coated Versus Inkjet-Printed Perovskite Solar Cells", "abstract": "We report on the fabrication and optimization of Cs(0.05)FA(0.79)MA(0.16)Pb-20 (Br0.17I0.83)(3) perovskite solar cells from inks containing the polymer PTB7 as an additive, comparing spin-coating and ...", "citations": 20, "author_count": 11, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7690, "doi": "10.1021/acsaem.1c03262", "umap_coordinates": { "x": 391.62982177734375, "y": 134.61492919921875, "z": 205.54638671875 }, "tsne_coordinates": { "x": 15.79789924621582, "y": -1.710614800453186, "z": -18.190977096557617 }, "pca_coordinates": { "x": -3.7264211177825928, "y": -3.5087718963623047, "z": -1.4839961528778076 }, "axis_scores": { "Quantum imaging": 0.6487287282943726, "Quantum Life Science Sensing": 0.6479126214981079, "Quantum sensing Detection": 0.6268096566200256, "Quantum sensing Metrology": 0.6298642754554749, "Quantum sensing navigation": 0.6318296194076538, "Quantum sensing Position": 0.6591106057167053, "Quantum sensing Timing": 0.6441116333007812, "Quantum sensing": 0.6471154689788818, "Quantum control": 0.6264031529426575 } }, { "id": 7683, "title": "A Blue-Light-Emitting BODIPY Probe for Lipid Membranes", "abstract": "Here we describe a new BODIPY-based membrane probe (1) that provides an alternative to dialkylcarbocyanine dyes, such as DiI-C,8, that can be excited in the blue spectral region. Compound 1 has unbran...", "citations": 40, "author_count": 15, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7691, "doi": "10.1021/acs.langmuir.6b00478", "umap_coordinates": { "x": 392.3881530761719, "y": 135.27120971679688, "z": 204.39695739746094 }, "tsne_coordinates": { "x": 7.647102355957031, "y": 14.835199356079102, "z": -17.418840408325195 }, "pca_coordinates": { "x": -3.4510016441345215, "y": -2.2801547050476074, "z": -2.1281113624572754 }, "axis_scores": { "Quantum imaging": 0.6906298995018005, "Quantum Life Science Sensing": 0.7262912392616272, "Quantum sensing Detection": 0.6831344366073608, "Quantum sensing Metrology": 0.6659412980079651, "Quantum sensing navigation": 0.6639422178268433, "Quantum sensing Position": 0.6595728397369385, "Quantum sensing Timing": 0.6284639239311218, "Quantum sensing": 0.6948699951171875, "Quantum control": 0.6594462394714355 } }, { "id": 7684, "title": "Quantitative confocal fluorescence microscopy of dynamic processes by multifocal fluorescence correlation spectroscopy", "abstract": "Quantitative confocal fluorescence microscopy imaging without scanning is developed for the study of fast dynamical processes. The method relies on the use of massively parallel Fluorescence Correlati...", "citations": 4, "author_count": 14, "categories": [ "Microscopy" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7692, "doi": "10.1117/12.2183935", "umap_coordinates": { "x": 394.6376953125, "y": 134.16139221191406, "z": 205.7487335205078 }, "tsne_coordinates": { "x": -4.811853408813477, "y": 17.236309051513672, "z": -0.993868350982666 }, "pca_coordinates": { "x": -1.08572256565094, "y": 2.5705132484436035, "z": 0.5676959156990051 }, "axis_scores": { "Quantum imaging": 0.7608020305633545, "Quantum Life Science Sensing": 0.7484173774719238, "Quantum sensing Detection": 0.7472743391990662, "Quantum sensing Metrology": 0.7511212229728699, "Quantum sensing navigation": 0.7465385794639587, "Quantum sensing Position": 0.7111427187919617, "Quantum sensing Timing": 0.727995753288269, "Quantum sensing": 0.7557286024093628, "Quantum control": 0.7526147365570068 } }, { "id": 7685, "title": "CONVEXITY OF THE PHOTOSYNTHETIC LIGHT-RESPONSE CURVE IN RELATION TO INTENSITY AND DIRECTION OF LIGHT DURING GROWTH", "abstract": "Photosynthesis in the intermediate light range is most efficient when the convexity of the photosynthetic light-response curve is high. Factors determining the convexity were examined for intact leave...", "citations": 119, "author_count": 2, "categories": [ "Plant Sciences" ], "year": 1993, "topic": [ "all" ], "embedding_index": 7693, "doi": "10.1104/pp.101.3.1013", "umap_coordinates": { "x": 394.51312255859375, "y": 136.32113647460938, "z": 203.72166442871094 }, "tsne_coordinates": { "x": 6.272889137268066, "y": 32.949951171875, "z": 8.399038314819336 }, "pca_coordinates": { "x": -1.802858829498291, "y": 1.4517123699188232, "z": 0.5455471873283386 }, "axis_scores": { "Quantum imaging": 0.6993623375892639, "Quantum Life Science Sensing": 0.6961638927459717, "Quantum sensing Detection": 0.6867839694023132, "Quantum sensing Metrology": 0.6693061590194702, "Quantum sensing navigation": 0.6762849688529968, "Quantum sensing Position": 0.6964693069458008, "Quantum sensing Timing": 0.6795146465301514, "Quantum sensing": 0.6910650730133057, "Quantum control": 0.667473554611206 } }, { "id": 7686, "title": "Gold-iron oxide (Au/Fe3O4) magnetic nanoparticles as the nanoplatform for binding of bioactive molecules through self-assembly", "abstract": "Nanomedicine plays a crucial role in the development of next-generation therapies. The use of nanoparticles as drug delivery platforms has become a major area of research in nanotechnology. To be effe...", "citations": 10, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7694, "doi": "10.3389/fmolb.2023.1143190", "umap_coordinates": { "x": 393.7647705078125, "y": 134.67111206054688, "z": 204.1254425048828 }, "tsne_coordinates": { "x": 25.34493064880371, "y": 22.68776512145996, "z": -4.685142993927002 }, "pca_coordinates": { "x": -2.7905359268188477, "y": -0.15662670135498047, "z": -2.2180979251861572 }, "axis_scores": { "Quantum imaging": 0.7068057060241699, "Quantum Life Science Sensing": 0.7494089603424072, "Quantum sensing Detection": 0.7177303433418274, "Quantum sensing Metrology": 0.7121558785438538, "Quantum sensing navigation": 0.7103580236434937, "Quantum sensing Position": 0.6797363758087158, "Quantum sensing Timing": 0.6504033803939819, "Quantum sensing": 0.7257978320121765, "Quantum control": 0.7091317772865295 } }, { "id": 7687, "title": "Similarities between single charge and Josephson effects and devices. A fast and sensitive radio frequency single electron transistor", "abstract": "There are several dualities between Josephson and single charge tunneling. being conjugate phenomena, where either the phase (flux) or the number (charge) states are well determined while the compleme...", "citations": 1, "author_count": 6, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7695, "doi": "10.1016/S0928-4931(01)00412-X", "umap_coordinates": { "x": 394.4432373046875, "y": 133.59951782226562, "z": 208.17225646972656 }, "tsne_coordinates": { "x": 3.631520986557007, "y": -29.740903854370117, "z": -16.70916175842285 }, "pca_coordinates": { "x": -0.46217262744903564, "y": -0.9727716445922852, "z": 1.7353503704071045 }, "axis_scores": { "Quantum imaging": 0.6828091144561768, "Quantum Life Science Sensing": 0.7239602208137512, "Quantum sensing Detection": 0.6969692707061768, "Quantum sensing Metrology": 0.6952592730522156, "Quantum sensing navigation": 0.6740589737892151, "Quantum sensing Position": 0.6780194044113159, "Quantum sensing Timing": 0.6924567222595215, "Quantum sensing": 0.714137077331543, "Quantum control": 0.6681815385818481 } }, { "id": 7688, "title": "Biomolecular Adsorprion at ZnS Nanomaterials: A Molecular Dynamics Simulation Study of the Adsorption Preferences, Effects of the Surface Curvature and Coating", "abstract": "The understanding of interactions between nanomaterials and biological molecules is of primary importance for biomedical applications of nanomaterials, as well as for the evaluation of their possible ...", "citations": 11, "author_count": 3, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7696, "doi": "10.3390/nano13152239", "umap_coordinates": { "x": 393.3443908691406, "y": 135.90774536132812, "z": 205.3112335205078 }, "tsne_coordinates": { "x": 25.244525909423828, "y": 14.23478889465332, "z": 8.430608749389648 }, "pca_coordinates": { "x": -1.4777412414550781, "y": -1.4817743301391602, "z": -2.948948621749878 }, "axis_scores": { "Quantum imaging": 0.7040848135948181, "Quantum Life Science Sensing": 0.7473753094673157, "Quantum sensing Detection": 0.7176316380500793, "Quantum sensing Metrology": 0.7077273726463318, "Quantum sensing navigation": 0.7392155528068542, "Quantum sensing Position": 0.7087375521659851, "Quantum sensing Timing": 0.6790773868560791, "Quantum sensing": 0.7312146425247192, "Quantum control": 0.7178963422775269 } }, { "id": 7689, "title": "Site-selected thionated benzothioxanthene chromophores as heavy-atom-free small-molecule photosensitizers for photodynamic therapy", "abstract": "Photodynamic therapy is a clinically approved anticancer modality that employs a light-activated agent (photosensitizer) to generate cytotoxic reactive oxygen species (ROS). There is therefore a growi...", "citations": 37, "author_count": 17, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7697, "doi": "10.1038/s42004-022-00752-x", "umap_coordinates": { "x": 392.13262939453125, "y": 135.4661407470703, "z": 204.4939422607422 }, "tsne_coordinates": { "x": 5.7295403480529785, "y": 9.332143783569336, "z": -16.16187286376953 }, "pca_coordinates": { "x": -3.8796496391296387, "y": -1.1013078689575195, "z": -0.8225582838058472 }, "axis_scores": { "Quantum imaging": 0.6596283912658691, "Quantum Life Science Sensing": 0.6552520394325256, "Quantum sensing Detection": 0.6451865434646606, "Quantum sensing Metrology": 0.62361079454422, "Quantum sensing navigation": 0.6425321698188782, "Quantum sensing Position": 0.6374221444129944, "Quantum sensing Timing": 0.6627958416938782, "Quantum sensing": 0.6609839200973511, "Quantum control": 0.6514711380004883 } }, { "id": 7690, "title": "Synthesis of α,β-unsaturated aldehydes as potential substrates for bacterial luciferases", "abstract": "Bacterial luciferase catalyzes the monooxygenation of long-chain aldehydes such as tetradecanal to the corresponding acid accompanied by light emission with a maximum at 490 nm. In this study even num...", "citations": 9, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7698, "doi": "10.1016/j.bmc.2017.01.013", "umap_coordinates": { "x": 393.1342468261719, "y": 135.20474243164062, "z": 204.10284423828125 }, "tsne_coordinates": { "x": 8.635858535766602, "y": 19.077411651611328, "z": 4.009642124176025 }, "pca_coordinates": { "x": -4.833183765411377, "y": 1.3802160024642944, "z": -2.4161932468414307 }, "axis_scores": { "Quantum imaging": 0.6917577981948853, "Quantum Life Science Sensing": 0.7036073207855225, "Quantum sensing Detection": 0.6719483733177185, "Quantum sensing Metrology": 0.6505237221717834, "Quantum sensing navigation": 0.6757768988609314, "Quantum sensing Position": 0.6592850685119629, "Quantum sensing Timing": 0.6417803764343262, "Quantum sensing": 0.6797534823417664, "Quantum control": 0.6712504029273987 } }, { "id": 7691, "title": "Interbead interactions within oligonucleotide functionalized ferrofluids suitable for magnetic biosensor applications", "abstract": "Interactions in oligonucleotide functionalized ferrofluids were investigated by measurements of frequency dependent complex magnetization in a superconducting quantum interference device. The ferroflu...", "citations": 12, "author_count": 7, "categories": [ "Physics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7699, "doi": "10.1088/0022-3727/40/5/002", "umap_coordinates": { "x": 393.69903564453125, "y": 135.38314819335938, "z": 206.57545471191406 }, "tsne_coordinates": { "x": 11.823465347290039, "y": -34.53117752075195, "z": 14.490976333618164 }, "pca_coordinates": { "x": -0.7001720666885376, "y": -0.20722675323486328, "z": -0.4137033522129059 }, "axis_scores": { "Quantum imaging": 0.6738422513008118, "Quantum Life Science Sensing": 0.6925694942474365, "Quantum sensing Detection": 0.6573750972747803, "Quantum sensing Metrology": 0.672909140586853, "Quantum sensing navigation": 0.6809790134429932, "Quantum sensing Position": 0.666981041431427, "Quantum sensing Timing": 0.651117205619812, "Quantum sensing": 0.6748356819152832, "Quantum control": 0.6298990249633789 } }, { "id": 7692, "title": "Amphiphilic Photoluminescent Porous Silicon Nanoparticles as Effective Agents for Ultrasound-Amplified Cancer Therapy", "abstract": "This study investigates the use of photoluminescent amphiphilic porous silicon nanoparticles (alpha phi-pSiNPs) as effective ultrasound (US) amplifiers for cancer sonodynamic theranostics. alpha phi-p...", "citations": 4, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7700, "doi": "10.1021/acsami.4c15725", "umap_coordinates": { "x": 393.5365295410156, "y": 133.8716278076172, "z": 204.17127990722656 }, "tsne_coordinates": { "x": 10.382200241088867, "y": 25.056365966796875, "z": -10.33906078338623 }, "pca_coordinates": { "x": -3.5164546966552734, "y": -2.725815773010254, "z": 1.6837286949157715 }, "axis_scores": { "Quantum imaging": 0.7237709760665894, "Quantum Life Science Sensing": 0.7237812876701355, "Quantum sensing Detection": 0.6998140811920166, "Quantum sensing Metrology": 0.6814024448394775, "Quantum sensing navigation": 0.6773136258125305, "Quantum sensing Position": 0.6584648489952087, "Quantum sensing Timing": 0.6365591883659363, "Quantum sensing": 0.7129234075546265, "Quantum control": 0.6642629504203796 } }, { "id": 7693, "title": "Cavity-Modified Chemiluminescent Reaction of Dioxetane", "abstract": "Chemiluminescence is a thermally activated chemical process that emits a photon of light by forming a fraction of products in the electronic excited state. A well-known example of this spectacular phe...", "citations": 2, "author_count": 3, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7701, "doi": "10.1021/acs.jpca.3c05664", "umap_coordinates": { "x": 392.8699035644531, "y": 135.6633758544922, "z": 204.7331085205078 }, "tsne_coordinates": { "x": 1.7735621929168701, "y": 5.318028450012207, "z": 4.582345962524414 }, "pca_coordinates": { "x": -2.7437331676483154, "y": 0.4428122043609619, "z": -0.6775021553039551 }, "axis_scores": { "Quantum imaging": 0.7505208849906921, "Quantum Life Science Sensing": 0.7393971085548401, "Quantum sensing Detection": 0.7514511346817017, "Quantum sensing Metrology": 0.7059755325317383, "Quantum sensing navigation": 0.7171407341957092, "Quantum sensing Position": 0.6882318258285522, "Quantum sensing Timing": 0.6870846748352051, "Quantum sensing": 0.7422630786895752, "Quantum control": 0.7252776026725769 } }, { "id": 7694, "title": "Solving independent set problems with photonic quantum circuits", "abstract": "An independent set (IS) is a set of vertices in a graph such that no edge connects any two vertices. In adiabatic quantum computation [E. Farhi, et al., Science 292, 472-475 (2001); A. Das, B. K. Chak...", "citations": 6, "author_count": 14, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7702, "doi": "10.1073/pnas.2212323120", "umap_coordinates": { "x": 395.5712585449219, "y": 135.89991760253906, "z": 206.6331024169922 }, "tsne_coordinates": { "x": -35.39836883544922, "y": 1.4942314624786377, "z": -1.5761258602142334 }, "pca_coordinates": { "x": 0.32354044914245605, "y": 0.11078286170959473, "z": 3.5538926124572754 }, "axis_scores": { "Quantum imaging": 0.7583960294723511, "Quantum Life Science Sensing": 0.7247855067253113, "Quantum sensing Detection": 0.7342634201049805, "Quantum sensing Metrology": 0.7343153953552246, "Quantum sensing navigation": 0.7331928610801697, "Quantum sensing Position": 0.6886835098266602, "Quantum sensing Timing": 0.6957825422286987, "Quantum sensing": 0.7474205493927002, "Quantum control": 0.713186502456665 } }, { "id": 7695, "title": "Ultrafast nonadiabatic dynamics probed by nitrogen K-edge absorption spectroscopy", "abstract": "The emergence of X-ray free electron lasers (X-FELs) has made it possible to probe structural dynamics on the femtosecond timescale. This extension of experimental capabilities also calls for a simult...", "citations": 37, "author_count": 7, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7703, "doi": "10.1039/c9cp03019k", "umap_coordinates": { "x": 392.52203369140625, "y": 136.31019592285156, "z": 206.66683959960938 }, "tsne_coordinates": { "x": 7.6754937171936035, "y": 3.370511531829834, "z": 11.697169303894043 }, "pca_coordinates": { "x": 1.2890796661376953, "y": -1.209474802017212, "z": -3.1462504863739014 }, "axis_scores": { "Quantum imaging": 0.7051279544830322, "Quantum Life Science Sensing": 0.7238377332687378, "Quantum sensing Detection": 0.6991276741027832, "Quantum sensing Metrology": 0.6560243964195251, "Quantum sensing navigation": 0.710282027721405, "Quantum sensing Position": 0.6675357818603516, "Quantum sensing Timing": 0.6531311273574829, "Quantum sensing": 0.7008594870567322, "Quantum control": 0.6946622729301453 } }, { "id": 7696, "title": "Anthracene-BODIPY cassettes: Syntheses and energy transfer", "abstract": "Compounds based on the 4,4-difluoro-1,3,5,7-tetramethyl-4-bora- 3a,4a-diaza-s-indacene (BODIPY) framework are excellent fluorescent markers. When BODIPY dyes of this type are conjugated to functionali...", "citations": 303, "author_count": 11, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7704, "doi": "10.1002/chem.200304754", "umap_coordinates": { "x": 392.5899353027344, "y": 136.16790771484375, "z": 204.98663330078125 }, "tsne_coordinates": { "x": 4.754030704498291, "y": 9.43585205078125, "z": -8.439071655273438 }, "pca_coordinates": { "x": -1.891003966331482, "y": -0.3607621192932129, "z": -2.00840163230896 }, "axis_scores": { "Quantum imaging": 0.7316194176673889, "Quantum Life Science Sensing": 0.7416213154792786, "Quantum sensing Detection": 0.7129180431365967, "Quantum sensing Metrology": 0.6967112421989441, "Quantum sensing navigation": 0.6992394924163818, "Quantum sensing Position": 0.6884605884552002, "Quantum sensing Timing": 0.6864779591560364, "Quantum sensing": 0.7327523827552795, "Quantum control": 0.7378575205802917 } }, { "id": 7697, "title": "Anomalous neutron Compton scattering cross sections in niobium and palladium hydrides - art. no. 184108", "abstract": "The neutron scattering cross sections for hydrogen (H) and deuterium (D) in two metal hydrides have been studied in the Compton (or deep inelastic) scattering regime. Strongly reduced H cross sections...", "citations": 53, "author_count": 7, "categories": [ "Materials Science" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7705, "doi": "10.1103/PhysRevB.67.184108", "umap_coordinates": { "x": 395.7580261230469, "y": 134.9394073486328, "z": 208.5292510986328 }, "tsne_coordinates": { "x": 1.3258004188537598, "y": -36.010005950927734, "z": 9.982081413269043 }, "pca_coordinates": { "x": 4.288717746734619, "y": -0.18432950973510742, "z": 1.2966182231903076 }, "axis_scores": { "Quantum imaging": 0.6894254088401794, "Quantum Life Science Sensing": 0.6902221441268921, "Quantum sensing Detection": 0.6847778558731079, "Quantum sensing Metrology": 0.6741610765457153, "Quantum sensing navigation": 0.7098521590232849, "Quantum sensing Position": 0.6753883957862854, "Quantum sensing Timing": 0.6722370386123657, "Quantum sensing": 0.6942195892333984, "Quantum control": 0.6684970855712891 } }, { "id": 7698, "title": "Magnetoconductance fluctuations and weak localization in quantum dots: Reliability of the semiclassical approach - art. no. 195301", "abstract": "We utilize a semiclassical (SC) approach to calculate the conductance and weak-locatization (WL) corrections in a triangular billiard of a given shape in the presence of nonzero magnetic field. The se...", "citations": 12, "author_count": 3, "categories": [ "Materials Science" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7706, "doi": "10.1103/PhysRevB.64.195301", "umap_coordinates": { "x": 394.21112060546875, "y": 135.6372833251953, "z": 209.2282257080078 }, "tsne_coordinates": { "x": -3.405327558517456, "y": -36.84923553466797, "z": 6.56018590927124 }, "pca_coordinates": { "x": 3.4091811180114746, "y": -0.8534119129180908, "z": -0.34418535232543945 }, "axis_scores": { "Quantum imaging": 0.7125937342643738, "Quantum Life Science Sensing": 0.7520104646682739, "Quantum sensing Detection": 0.7365990877151489, "Quantum sensing Metrology": 0.7247476577758789, "Quantum sensing navigation": 0.7363935708999634, "Quantum sensing Position": 0.7212436199188232, "Quantum sensing Timing": 0.6877390742301941, "Quantum sensing": 0.7414071559906006, "Quantum control": 0.7198074460029602 } }, { "id": 7699, "title": "Analysis of photon count data from single-molecule fluorescence experiments", "abstract": "We consider single-molecule fluorescence experiments with data in the form of counts of photons registered over multiple time-intervals. Based on the observation schemes, linking back to works by Dehm...", "citations": 20, "author_count": 4, "categories": [ "Chemistry" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7707, "doi": "10.1016/S0301-0104(03)00034-X", "umap_coordinates": { "x": 394.82733154296875, "y": 133.617431640625, "z": 207.13365173339844 }, "tsne_coordinates": { "x": -6.8000335693359375, "y": 13.893916130065918, "z": -2.7744805812835693 }, "pca_coordinates": { "x": -1.8717902898788452, "y": -0.3547844886779785, "z": 2.250645160675049 }, "axis_scores": { "Quantum imaging": 0.7300313711166382, "Quantum Life Science Sensing": 0.7495260238647461, "Quantum sensing Detection": 0.728380024433136, "Quantum sensing Metrology": 0.7158764004707336, "Quantum sensing navigation": 0.699162483215332, "Quantum sensing Position": 0.6968218088150024, "Quantum sensing Timing": 0.6825850009918213, "Quantum sensing": 0.727451503276825, "Quantum control": 0.6825770735740662 } }, { "id": 7700, "title": "Computer simulations and performance measurements on a silicon strip detector for edge-on imaging", "abstract": "Silicon strip detectors to be used edge-on for imaging in a scanned slit geometry have been simulated. A software program was developed which can simulate the motion of free charges in the bulk detect...", "citations": 23, "author_count": 6, "categories": [ "Engineering" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7708, "doi": null, "umap_coordinates": { "x": 395.49298095703125, "y": 133.3297882080078, "z": 205.95028686523438 }, "tsne_coordinates": { "x": -13.72726821899414, "y": 19.61940574645996, "z": -21.51974105834961 }, "pca_coordinates": { "x": -1.1428606510162354, "y": 2.253114700317383, "z": 2.377750873565674 }, "axis_scores": { "Quantum imaging": 0.7590435743331909, "Quantum Life Science Sensing": 0.7348203659057617, "Quantum sensing Detection": 0.7329344749450684, "Quantum sensing Metrology": 0.7228487730026245, "Quantum sensing navigation": 0.7211489081382751, "Quantum sensing Position": 0.7061077356338501, "Quantum sensing Timing": 0.7122893333435059, "Quantum sensing": 0.73619544506073, "Quantum control": 0.7039950489997864 } }, { "id": 7701, "title": "A small interferometer in space for global astrometry: The GAIA concept", "abstract": "We present a concept for a scanning interferometer for global (wide-angle) astrometry from space. The GAIA concept has been proposed for the European Space Agency's long-term scientific programme. It ...", "citations": 1, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7709, "doi": null, "umap_coordinates": { "x": 391.9732666015625, "y": 139.62168884277344, "z": 209.51736450195312 }, "tsne_coordinates": { "x": 2.095426321029663, "y": 49.84953308105469, "z": -6.5867204666137695 }, "pca_coordinates": { "x": -0.47097110748291016, "y": 5.199808120727539, "z": -0.2197759449481964 }, "axis_scores": { "Quantum imaging": 0.6992747783660889, "Quantum Life Science Sensing": 0.7372270822525024, "Quantum sensing Detection": 0.7134875059127808, "Quantum sensing Metrology": 0.7255043387413025, "Quantum sensing navigation": 0.7452894449234009, "Quantum sensing Position": 0.7118322849273682, "Quantum sensing Timing": 0.6905646324157715, "Quantum sensing": 0.7292638421058655, "Quantum control": 0.7092492580413818 } }, { "id": 7702, "title": "Nanoparticle-Based Bioaffinity Assays: From the Research Laboratory to the Market", "abstract": "Advances in the development of new biorecognition elements, nanoparticle-based labels as well as instrumentation have inspired the design of new bioaffinity assays. This review critically discusses th...", "citations": 36, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7710, "doi": "10.1002/adma.202307653", "umap_coordinates": { "x": 393.5556640625, "y": 134.36151123046875, "z": 204.1132354736328 }, "tsne_coordinates": { "x": 19.866727828979492, "y": 22.416669845581055, "z": -8.101166725158691 }, "pca_coordinates": { "x": -4.3224406242370605, "y": 0.8508116006851196, "z": -1.675504207611084 }, "axis_scores": { "Quantum imaging": 0.7179383039474487, "Quantum Life Science Sensing": 0.7376585006713867, "Quantum sensing Detection": 0.7178076505661011, "Quantum sensing Metrology": 0.7251050472259521, "Quantum sensing navigation": 0.721416175365448, "Quantum sensing Position": 0.7164613008499146, "Quantum sensing Timing": 0.6802161931991577, "Quantum sensing": 0.7325284481048584, "Quantum control": 0.704802393913269 } }, { "id": 7703, "title": "Microscopic morphology independence in linear absorption cross-section of CsPbBr3 nanocrystals", "abstract": "Multiple morphologies of colloidal perovskite nanocrystals (NCs) diversify their optical and electronic properties. Among them, the linear absorption cross-section (sigma) is a primary parameter to de...", "citations": 11, "author_count": 9, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7711, "doi": "10.1007/s40843-020-1555-1", "umap_coordinates": { "x": 392.36834716796875, "y": 134.36318969726562, "z": 206.09510803222656 }, "tsne_coordinates": { "x": 27.867624282836914, "y": -7.035435199737549, "z": -7.993725776672363 }, "pca_coordinates": { "x": -2.4791502952575684, "y": -0.706120491027832, "z": -0.5438450574874878 }, "axis_scores": { "Quantum imaging": 0.7043355703353882, "Quantum Life Science Sensing": 0.7160593867301941, "Quantum sensing Detection": 0.6829893589019775, "Quantum sensing Metrology": 0.6822369694709778, "Quantum sensing navigation": 0.6748740673065186, "Quantum sensing Position": 0.6706510782241821, "Quantum sensing Timing": 0.6308395862579346, "Quantum sensing": 0.6966110467910767, "Quantum control": 0.6567685604095459 } }, { "id": 7704, "title": "Polarization and broken symmetry due to anisotropic triaxial strain states in lattice-mismatched quantum wires", "abstract": "Strain states in buried lattice-mismatched quantum wires are studied by polarization analysis with high magnetic fields. Remarkably large in-plane polarization anisotropy is observed, which remains ev...", "citations": 29, "author_count": 7, "categories": [ "Physics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7712, "doi": "10.1103/PhysRevLett.80.3125", "umap_coordinates": { "x": 393.4560852050781, "y": 135.26773071289062, "z": 208.913818359375 }, "tsne_coordinates": { "x": 10.651089668273926, "y": -22.458675384521484, "z": 14.7113037109375 }, "pca_coordinates": { "x": 3.136237621307373, "y": -2.7731127738952637, "z": 0.430825412273407 }, "axis_scores": { "Quantum imaging": 0.7096266746520996, "Quantum Life Science Sensing": 0.6966044306755066, "Quantum sensing Detection": 0.6952804923057556, "Quantum sensing Metrology": 0.6907527446746826, "Quantum sensing navigation": 0.6984813809394836, "Quantum sensing Position": 0.6936114430427551, "Quantum sensing Timing": 0.6846382021903992, "Quantum sensing": 0.7101455926895142, "Quantum control": 0.6726362705230713 } }, { "id": 7705, "title": "Lande gJ factor measurements in the 6snd(1),D-3(2) sequences of Yb I", "abstract": "The Lande g(J) factors in the 6snd(1,3)D(2) sequences as well as states from the perturbing configurations of neutral Ytterbium have been measured by time-resolved fluorescence spectroscopy. Strong si...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7713, "doi": "10.1007/s004600050036", "umap_coordinates": { "x": 394.3489990234375, "y": 135.66183471679688, "z": 206.96876525878906 }, "tsne_coordinates": { "x": -0.11804093420505524, "y": -26.159957885742188, "z": -30.028852462768555 }, "pca_coordinates": { "x": -0.09244894981384277, "y": 2.3049349784851074, "z": 0.21293753385543823 }, "axis_scores": { "Quantum imaging": 0.6648671627044678, "Quantum Life Science Sensing": 0.6902279257774353, "Quantum sensing Detection": 0.6463755965232849, "Quantum sensing Metrology": 0.6739550232887268, "Quantum sensing navigation": 0.7155290842056274, "Quantum sensing Position": 0.6781439185142517, "Quantum sensing Timing": 0.6530680060386658, "Quantum sensing": 0.6656444072723389, "Quantum control": 0.6479887366294861 } }, { "id": 7706, "title": "Epitaxial Graphene Sensors Combined with 3D-Printed Microfluidic Chip for Heavy Metals Detection", "abstract": "In this work, we investigated the sensing performance of epitaxial graphene on Si-face 4H-SiC (EG/SiC) for liquid-phase detection of heavy metals (e.g., Pb and Cd), showing fast and stable response an...", "citations": 33, "author_count": 8, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7714, "doi": "10.3390/s19102393", "umap_coordinates": { "x": 393.16259765625, "y": 134.55215454101562, "z": 204.32081604003906 }, "tsne_coordinates": { "x": 25.922582626342773, "y": 18.189289093017578, "z": -11.28478717803955 }, "pca_coordinates": { "x": -3.113009214401245, "y": -0.7605574131011963, "z": -0.0959121584892273 }, "axis_scores": { "Quantum imaging": 0.6985247731208801, "Quantum Life Science Sensing": 0.7246220111846924, "Quantum sensing Detection": 0.717972457408905, "Quantum sensing Metrology": 0.7112300395965576, "Quantum sensing navigation": 0.6957033276557922, "Quantum sensing Position": 0.6865323781967163, "Quantum sensing Timing": 0.6665710806846619, "Quantum sensing": 0.7240390777587891, "Quantum control": 0.6620171070098877 } }, { "id": 7707, "title": "Improved Texturing and Photocatalytic Efficiency in TiO2 Films Grown Using Aerosol-Assisted CVD and Atmospheric Pressure CVD", "abstract": "Four different TiO2 films are formed on glass at 500 degrees C by aerosol-assisted (AA)CVD, atmospheric pressure (AP)CVD, AACVD followed by APCVD, and APCVD followed by AACVD. The APCVD films are form...", "citations": 9, "author_count": 4, "categories": [ "Electrochemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7715, "doi": "10.1002/cvde.201307067", "umap_coordinates": { "x": 392.2735595703125, "y": 133.9446258544922, "z": 205.23207092285156 }, "tsne_coordinates": { "x": 19.106800079345703, "y": 8.898845672607422, "z": 0.38021916151046753 }, "pca_coordinates": { "x": -3.617523193359375, "y": -1.9542546272277832, "z": 0.7901288866996765 }, "axis_scores": { "Quantum imaging": 0.6588224172592163, "Quantum Life Science Sensing": 0.6548339128494263, "Quantum sensing Detection": 0.6358975172042847, "Quantum sensing Metrology": 0.6379237174987793, "Quantum sensing navigation": 0.6161707043647766, "Quantum sensing Position": 0.6122714281082153, "Quantum sensing Timing": 0.6229759454727173, "Quantum sensing": 0.6487529277801514, "Quantum control": 0.6626191735267639 } }, { "id": 7708, "title": "Bioconjugates of photon-upconversion nanoparticles for cancer biomarker detection and imaging", "abstract": "Gorris et al. present the synthesis, biofunctionalization and purification of lanthanide-doped photon-upconversion nanoparticles and describe their application in both immunoassays for sensitive detec...", "citations": 138, "author_count": 10, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7716, "doi": "10.1038/s41596-021-00670-7", "umap_coordinates": { "x": 394.0475769042969, "y": 133.48806762695312, "z": 204.89244079589844 }, "tsne_coordinates": { "x": 7.7976460456848145, "y": 21.978940963745117, "z": -10.064982414245605 }, "pca_coordinates": { "x": -5.397200107574463, "y": -1.5625882148742676, "z": 2.0969085693359375 }, "axis_scores": { "Quantum imaging": 0.7293843626976013, "Quantum Life Science Sensing": 0.7318223118782043, "Quantum sensing Detection": 0.71947181224823, "Quantum sensing Metrology": 0.6968843340873718, "Quantum sensing navigation": 0.7013615369796753, "Quantum sensing Position": 0.6914487481117249, "Quantum sensing Timing": 0.6884704828262329, "Quantum sensing": 0.716519296169281, "Quantum control": 0.6609031558036804 } }, { "id": 7709, "title": "Patient-Specific Whole-Body Attenuation Correction Maps from a CT System for Conjugate-View-Based Activity Quantification: Method Development and Evaluation", "abstract": "For activity quantification based on planar scintillation camera measurements, photon attenuation is an important factor that needs to be corrected for in a patient-and organ-specific manner. One poss...", "citations": 12, "author_count": 3, "categories": [ "Oncology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7717, "doi": "10.1089/cbr.2011.1082", "umap_coordinates": { "x": 395.7951965332031, "y": 133.0988006591797, "z": 204.7657470703125 }, "tsne_coordinates": { "x": -9.516670227050781, "y": 28.024511337280273, "z": -16.859342575073242 }, "pca_coordinates": { "x": -3.598205327987671, "y": 4.540175914764404, "z": 1.515265941619873 }, "axis_scores": { "Quantum imaging": 0.6705417037010193, "Quantum Life Science Sensing": 0.6606868505477905, "Quantum sensing Detection": 0.6365965604782104, "Quantum sensing Metrology": 0.6279288530349731, "Quantum sensing navigation": 0.6597740054130554, "Quantum sensing Position": 0.6366032958030701, "Quantum sensing Timing": 0.6449557542800903, "Quantum sensing": 0.6401640176773071, "Quantum control": 0.6236213445663452 } }, { "id": 7710, "title": "Photosynthetic tolerances to desiccation of tropical intertidal seagrasses", "abstract": "The aim of the present study was to investigate whether tropical intertidal seagrasses were better adapted to tolerate desiccation than subtidally growing seagrasses. To do this, the photosynthetic pe...", "citations": 93, "author_count": 5, "categories": [ "Environmental Sciences & Ecology" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7718, "doi": "10.3354/meps191121", "umap_coordinates": { "x": 393.9496154785156, "y": 136.24603271484375, "z": 203.36181640625 }, "tsne_coordinates": { "x": 17.962627410888672, "y": 29.272064208984375, "z": 18.071775436401367 }, "pca_coordinates": { "x": -2.4040684700012207, "y": 0.4280552864074707, "z": -3.468752384185791 }, "axis_scores": { "Quantum imaging": 0.644850492477417, "Quantum Life Science Sensing": 0.6958808898925781, "Quantum sensing Detection": 0.6251255869865417, "Quantum sensing Metrology": 0.6542773842811584, "Quantum sensing navigation": 0.6424176096916199, "Quantum sensing Position": 0.6127227544784546, "Quantum sensing Timing": 0.6220966577529907, "Quantum sensing": 0.6534245014190674, "Quantum control": 0.630143404006958 } }, { "id": 7711, "title": "A compact start time counter using plastic scintillators readout with MPPC arrays for the WASA-FRS HypHI experiment", "abstract": "We have developed a compact detector for measuring beam particles using plastic scintillators readout through Multi-Pixel Photon Counters, which is employed for hypernuclear measurements in the WASA-F...", "citations": 2, "author_count": 80, "categories": [ "Instruments & Instrumentation" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7719, "doi": "10.1016/j.nima.2024.169384", "umap_coordinates": { "x": 395.95947265625, "y": 133.66139221191406, "z": 205.79434204101562 }, "tsne_coordinates": { "x": -15.604597091674805, "y": 21.233692169189453, "z": -8.225116729736328 }, "pca_coordinates": { "x": -3.5260121822357178, "y": 3.4570584297180176, "z": 1.620962142944336 }, "axis_scores": { "Quantum imaging": 0.6551293134689331, "Quantum Life Science Sensing": 0.6789438128471375, "Quantum sensing Detection": 0.6532137393951416, "Quantum sensing Metrology": 0.6502898335456848, "Quantum sensing navigation": 0.648308277130127, "Quantum sensing Position": 0.6715205311775208, "Quantum sensing Timing": 0.7100533246994019, "Quantum sensing": 0.6580751538276672, "Quantum control": 0.620256781578064 } }, { "id": 7712, "title": "Measurement of Direct-Photon Cross Section and Double-Helicity Asymmetry at p=510 GeV in p ⃗+p ⃗Collisions ffiffi s", "abstract": "We present measurements of the cross section and double-helicity asymmetry ALL of direct-photon production in p ⃗ + p ⃗ collisions at ffis ffi p = 510 GeV. The measurements have been performed at midr...", "citations": 10, "author_count": 361, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7720, "doi": "10.1103/PhysRevLett.130.251901", "umap_coordinates": { "x": 396.46649169921875, "y": 134.61573791503906, "z": 207.8168182373047 }, "tsne_coordinates": { "x": -30.425235748291016, "y": 3.018800735473633, "z": -15.345648765563965 }, "pca_coordinates": { "x": 2.2656991481781006, "y": 0.34894347190856934, "z": 2.220914363861084 }, "axis_scores": { "Quantum imaging": 0.7290361523628235, "Quantum Life Science Sensing": 0.738528311252594, "Quantum sensing Detection": 0.7457391619682312, "Quantum sensing Metrology": 0.7248268723487854, "Quantum sensing navigation": 0.7256426811218262, "Quantum sensing Position": 0.71821528673172, "Quantum sensing Timing": 0.7102861404418945, "Quantum sensing": 0.7478092908859253, "Quantum control": 0.7079033255577087 } }, { "id": 7713, "title": "Development of Graphene Quantum Hall Effect AC Metrology at RISE", "abstract": "We present the first steps taken towards a graphene quantum Hall effect ac resistance standard at RISE. A new measurement setup has been developed including a graphene quantum Hall effect device suita...", "citations": 1, "author_count": 6, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7721, "doi": "10.1109/CPEM61406.2024.10646073", "umap_coordinates": { "x": 394.9947814941406, "y": 135.0648651123047, "z": 206.66697692871094 }, "tsne_coordinates": { "x": -42.55044937133789, "y": -0.6596608757972717, "z": 0.5821400284767151 }, "pca_coordinates": { "x": 1.0574607849121094, "y": 0.6524196863174438, "z": -0.2530943751335144 }, "axis_scores": { "Quantum imaging": 0.6974424719810486, "Quantum Life Science Sensing": 0.7420928478240967, "Quantum sensing Detection": 0.7126158475875854, "Quantum sensing Metrology": 0.7262347340583801, "Quantum sensing navigation": 0.7176874279975891, "Quantum sensing Position": 0.7131442427635193, "Quantum sensing Timing": 0.7142247557640076, "Quantum sensing": 0.7249387502670288, "Quantum control": 0.7127295136451721 } }, { "id": 7714, "title": "On the efficiency of quantum lithography", "abstract": "Quantum lithography promises, in principle, unlimited feature resolution, independent of wavelength. However, in the literature, at least two different theoretical descriptions of quantum lithography ...", "citations": 10, "author_count": 5, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7722, "doi": "10.1088/1367-2630/13/4/043028", "umap_coordinates": { "x": 394.9968566894531, "y": 134.75160217285156, "z": 206.235107421875 }, "tsne_coordinates": { "x": -36.37725830078125, "y": -1.4956610202789307, "z": 1.3274083137512207 }, "pca_coordinates": { "x": 0.39024174213409424, "y": 2.0751781463623047, "z": 3.0986180305480957 }, "axis_scores": { "Quantum imaging": 0.7653013467788696, "Quantum Life Science Sensing": 0.724949300289154, "Quantum sensing Detection": 0.7302199006080627, "Quantum sensing Metrology": 0.7336459159851074, "Quantum sensing navigation": 0.7232075333595276, "Quantum sensing Position": 0.7298323512077332, "Quantum sensing Timing": 0.7179248929023743, "Quantum sensing": 0.7541609406471252, "Quantum control": 0.7325043082237244 } }, { "id": 7715, "title": "Non-Thermal Absorption and Quantum Efficiency of SINIS Bolometer", "abstract": "We study mechanisms of absorption in two essentially different types of superconductor-insulator-normal metal-insulator-superconductor (SINIS) bolometers with absorber directly placed on Si wafer and ...", "citations": 3, "author_count": 11, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7723, "doi": "10.1109/TASC.2021.3057327", "umap_coordinates": { "x": 394.30047607421875, "y": 133.19740295410156, "z": 206.27859497070312 }, "tsne_coordinates": { "x": -4.052302360534668, "y": -0.3371892273426056, "z": -42.89548873901367 }, "pca_coordinates": { "x": -0.4022480845451355, "y": -0.7964315414428711, "z": 2.693434238433838 }, "axis_scores": { "Quantum imaging": 0.7120873928070068, "Quantum Life Science Sensing": 0.7407349944114685, "Quantum sensing Detection": 0.7234536409378052, "Quantum sensing Metrology": 0.7284697890281677, "Quantum sensing navigation": 0.7087070345878601, "Quantum sensing Position": 0.6874358057975769, "Quantum sensing Timing": 0.7118256688117981, "Quantum sensing": 0.7323687672615051, "Quantum control": 0.6996748447418213 } }, { "id": 7716, "title": "Observation of an Isoscalar Resonance with Exotic JPC=1-+ Quantum Numbers in J/ψ → γηη′", "abstract": "Using a sample of (10.09 +/- 0.04) x 10(9) J/psi events collected with the BESIII detector operating at the BEPCII storage ring, a partial wave analysis of the decay J/psi -> gamma eta eta ' is perfor...", "citations": 65, "author_count": 542, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7724, "doi": "10.1103/PhysRevLett.129.192002", "umap_coordinates": { "x": 396.6395568847656, "y": 134.84349060058594, "z": 207.30711364746094 }, "tsne_coordinates": { "x": -34.561676025390625, "y": 14.974310874938965, "z": -3.4014456272125244 }, "pca_coordinates": { "x": 2.8219223022460938, "y": 0.3694276809692383, "z": 1.4964606761932373 }, "axis_scores": { "Quantum imaging": 0.7235574722290039, "Quantum Life Science Sensing": 0.7276407480239868, "Quantum sensing Detection": 0.724699854850769, "Quantum sensing Metrology": 0.6979185938835144, "Quantum sensing navigation": 0.7287611961364746, "Quantum sensing Position": 0.6947387456893921, "Quantum sensing Timing": 0.7031317949295044, "Quantum sensing": 0.7268855571746826, "Quantum control": 0.6950633525848389 } }, { "id": 7717, "title": "Disordered doubleWeyl node: Comparison of transport and density of states calculations", "abstract": "Double Weyl nodes are topologically protected band crossing points which carry chiral charge +/- 2. They are stabilized by C-4 point-group symmetry and are predicted to occur in SrSi2 or HgCr2Se4. We ...", "citations": 23, "author_count": 5, "categories": [ "Materials Science" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7725, "doi": "10.1103/PhysRevB.95.115104", "umap_coordinates": { "x": 394.3223571777344, "y": 135.3156280517578, "z": 209.02142333984375 }, "tsne_coordinates": { "x": -1.0004435777664185, "y": -23.71153450012207, "z": 5.057148456573486 }, "pca_coordinates": { "x": 3.6496996879577637, "y": -1.0337471961975098, "z": 0.23387068510055542 }, "axis_scores": { "Quantum imaging": 0.6875165104866028, "Quantum Life Science Sensing": 0.6821407675743103, "Quantum sensing Detection": 0.6858950257301331, "Quantum sensing Metrology": 0.6737831234931946, "Quantum sensing navigation": 0.7093192934989929, "Quantum sensing Position": 0.6915282011032104, "Quantum sensing Timing": 0.6791114211082458, "Quantum sensing": 0.6924399137496948, "Quantum control": 0.6770256161689758 } }, { "id": 7718, "title": "Kahler quantization of vortex moduli", "abstract": "We discuss the Kahler quantization of moduli spaces of vortices in line bundles over compact surfaces Sigma. This furnishes a semiclassical framework for the study of quantum vortex dynamics in the Sc...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7726, "doi": "10.1007/s11005-019-01235-2", "umap_coordinates": { "x": 394.31854248046875, "y": 137.0613555908203, "z": 206.32391357421875 }, "tsne_coordinates": { "x": -31.55727767944336, "y": -1.4563145637512207, "z": 9.464630126953125 }, "pca_coordinates": { "x": 1.6406283378601074, "y": 1.374505877494812, "z": -0.8215963244438171 }, "axis_scores": { "Quantum imaging": 0.6710540056228638, "Quantum Life Science Sensing": 0.6863004565238953, "Quantum sensing Detection": 0.6711791157722473, "Quantum sensing Metrology": 0.6702026128768921, "Quantum sensing navigation": 0.700442910194397, "Quantum sensing Position": 0.6824683547019958, "Quantum sensing Timing": 0.6638984084129333, "Quantum sensing": 0.6748843193054199, "Quantum control": 0.6652145981788635 } }, { "id": 7719, "title": "Effect of nanosectioning on surface features and stiffness of an amorphous glassy polymer", "abstract": "Sectioning of a glassy polymer, poly(methyl methacrylate), at nanoscale was carried out by means of an ultramicrotome. The effects of sectioning thickness and speed on the morphology and stiffness ove...", "citations": 3, "author_count": 5, "categories": [ "Engineering" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7727, "doi": "10.1002/pen.24793", "umap_coordinates": { "x": 393.59423828125, "y": 135.90277099609375, "z": 205.24819946289062 }, "tsne_coordinates": { "x": 38.11170959472656, "y": 13.523327827453613, "z": 9.512275695800781 }, "pca_coordinates": { "x": -1.4544785022735596, "y": 0.8944597244262695, "z": -0.8416975140571594 }, "axis_scores": { "Quantum imaging": 0.6855140924453735, "Quantum Life Science Sensing": 0.6972180604934692, "Quantum sensing Detection": 0.6726966500282288, "Quantum sensing Metrology": 0.6797505617141724, "Quantum sensing navigation": 0.6799728274345398, "Quantum sensing Position": 0.6955086588859558, "Quantum sensing Timing": 0.6770530939102173, "Quantum sensing": 0.700650691986084, "Quantum control": 0.6850159168243408 } }, { "id": 7720, "title": "Theoretical aspects of tunneling-current-induced bond excitation and breaking at surfaces", "abstract": "We have performed a density functional study of the electronic structure, images and vibrationally inelastic tunneling in the scanning tunneling microscope and vibrational damping by excitation of ele...", "citations": 106, "author_count": 3, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7728, "doi": "10.1039/b002826f", "umap_coordinates": { "x": 393.2415771484375, "y": 136.4597625732422, "z": 206.90586853027344 }, "tsne_coordinates": { "x": -3.206408739089966, "y": -12.026618003845215, "z": 6.102318286895752 }, "pca_coordinates": { "x": 1.8392646312713623, "y": -0.8429579734802246, "z": -1.8895387649536133 }, "axis_scores": { "Quantum imaging": 0.6788281798362732, "Quantum Life Science Sensing": 0.6915584802627563, "Quantum sensing Detection": 0.6669795513153076, "Quantum sensing Metrology": 0.6730690598487854, "Quantum sensing navigation": 0.6718471050262451, "Quantum sensing Position": 0.653090238571167, "Quantum sensing Timing": 0.6502854824066162, "Quantum sensing": 0.6819062232971191, "Quantum control": 0.6636202335357666 } }, { "id": 7721, "title": "Fourier-Matsubara series expansion for imaginary-time correlation functions", "abstract": "A Fourier-Matsubara series expansion is derived for imaginary-time correlation functions that constitutes the imaginary-time generalization of the infinite Matsubara series for equal-time correlation ...", "citations": 12, "author_count": 4, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7729, "doi": "10.1063/5.0211814", "umap_coordinates": { "x": 394.58526611328125, "y": 136.87965393066406, "z": 207.622314453125 }, "tsne_coordinates": { "x": -18.641942977905273, "y": -32.787906646728516, "z": -0.06946416199207306 }, "pca_coordinates": { "x": 1.5210065841674805, "y": 0.7064566612243652, "z": -0.30134671926498413 }, "axis_scores": { "Quantum imaging": 0.6943398714065552, "Quantum Life Science Sensing": 0.7077893614768982, "Quantum sensing Detection": 0.6828330755233765, "Quantum sensing Metrology": 0.6739904284477234, "Quantum sensing navigation": 0.6809364557266235, "Quantum sensing Position": 0.6665555834770203, "Quantum sensing Timing": 0.7119258642196655, "Quantum sensing": 0.693082869052887, "Quantum control": 0.675983726978302 } }, { "id": 7722, "title": "QUANTUM-LIKE MODELS FOR DECISION MAKING IN PSYCHOLOGY AND COGNITIVE SCIENCE", "abstract": "We show that (in contrast to rather common opinion) the domain of applications of the mathematical formalism of quantum mechanics is not restricted to physics. This formalism can be applied to the des...", "citations": 2, "author_count": 2, "categories": [ "Mathematics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7730, "doi": "10.1142/9789814273756_0010", "umap_coordinates": { "x": 395.00653076171875, "y": 137.592041015625, "z": 205.98915100097656 }, "tsne_coordinates": { "x": -23.668325424194336, "y": 10.461407661437988, "z": 18.28327751159668 }, "pca_coordinates": { "x": 1.5801982879638672, "y": 3.834012031555176, "z": -0.41723328828811646 }, "axis_scores": { "Quantum imaging": 0.7510127425193787, "Quantum Life Science Sensing": 0.762569010257721, "Quantum sensing Detection": 0.7545275688171387, "Quantum sensing Metrology": 0.7538663148880005, "Quantum sensing navigation": 0.7722492218017578, "Quantum sensing Position": 0.7376775145530701, "Quantum sensing Timing": 0.745309591293335, "Quantum sensing": 0.7735279202461243, "Quantum control": 0.7620109915733337 } }, { "id": 7723, "title": "X-ray imaging detectors for synchrotron and XFEL sources", "abstract": "Current trends for X-ray imaging detectors based on hybrid and monolithic detector technologies are reviewed. Hybrid detectors with photon-counting pixels have proven to be very powerful tools at sync...", "citations": 101, "author_count": 3, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7731, "doi": "10.1107/S205225251500010X", "umap_coordinates": { "x": 395.7024230957031, "y": 134.1819305419922, "z": 205.85147094726562 }, "tsne_coordinates": { "x": -19.663726806640625, "y": 9.495460510253906, "z": -22.481399536132812 }, "pca_coordinates": { "x": -2.4132306575775146, "y": 0.24884462356567383, "z": 1.995316982269287 }, "axis_scores": { "Quantum imaging": 0.679914116859436, "Quantum Life Science Sensing": 0.672674834728241, "Quantum sensing Detection": 0.6647768616676331, "Quantum sensing Metrology": 0.6691924333572388, "Quantum sensing navigation": 0.6775187253952026, "Quantum sensing Position": 0.6608427166938782, "Quantum sensing Timing": 0.6583689451217651, "Quantum sensing": 0.6682692170143127, "Quantum control": 0.6321094632148743 } }, { "id": 7724, "title": "SURFACE DOSE MEASUREMENTS IN CLINICAL PHOTON BEAMS", "abstract": "Surface dose measurements have been made with different dosemeters routinely used in clinical practice such as thermoluminescence (TL) dosemeters of different thicknesses or Si-diodes. The results obt...", "citations": 30, "author_count": 3, "categories": [ "Oncology" ], "year": 1989, "topic": [ "all" ], "embedding_index": 7732, "doi": "10.3109/02841868909092265", "umap_coordinates": { "x": 395.9702453613281, "y": 133.35850524902344, "z": 205.57020568847656 }, "tsne_coordinates": { "x": -12.431170463562012, "y": 29.312118530273438, "z": -22.783084869384766 }, "pca_coordinates": { "x": -1.403414249420166, "y": 2.2484726905822754, "z": 3.6134815216064453 }, "axis_scores": { "Quantum imaging": 0.7108726501464844, "Quantum Life Science Sensing": 0.7350327372550964, "Quantum sensing Detection": 0.7070649862289429, "Quantum sensing Metrology": 0.7188416719436646, "Quantum sensing navigation": 0.7085891962051392, "Quantum sensing Position": 0.7254646420478821, "Quantum sensing Timing": 0.6836646199226379, "Quantum sensing": 0.7106916308403015, "Quantum control": 0.6435558199882507 } }, { "id": 7725, "title": "Classical Wigner method with an effective quantum force: Application to reaction rates", "abstract": "We construct an effective quantum force to be used in the classical molecular dynamics part of the classical Wigner method when determining correlation functions. The quantum force is obtained by esti...", "citations": 15, "author_count": 4, "categories": [ "Chemistry" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7733, "doi": "10.1063/1.3167299", "umap_coordinates": { "x": 393.7544860839844, "y": 137.71563720703125, "z": 206.6052703857422 }, "tsne_coordinates": { "x": -17.928495407104492, "y": 7.015983581542969, "z": 30.387588500976562 }, "pca_coordinates": { "x": 1.10361647605896, "y": 1.3608667850494385, "z": 0.7589561343193054 }, "axis_scores": { "Quantum imaging": 0.7282073497772217, "Quantum Life Science Sensing": 0.7187227606773376, "Quantum sensing Detection": 0.7302031517028809, "Quantum sensing Metrology": 0.7159306406974792, "Quantum sensing navigation": 0.7167567014694214, "Quantum sensing Position": 0.6814433932304382, "Quantum sensing Timing": 0.7023080587387085, "Quantum sensing": 0.7445681691169739, "Quantum control": 0.737076997756958 } }, { "id": 7726, "title": "Manipulation with Andreev states in spin active mesoscopic Josephson junctions", "abstract": "We investigate manipulation with Andreev bound states in Josephson quantum point contacts with magnetic scattering. The Rabi oscillations in the two-level Andreev subsystems are excited by resonant dr...", "citations": 34, "author_count": 4, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7734, "doi": "10.1103/PhysRevB.77.184506", "umap_coordinates": { "x": 393.7393798828125, "y": 135.41305541992188, "z": 208.0510711669922 }, "tsne_coordinates": { "x": -1.6763027906417847, "y": -15.907909393310547, "z": 12.237508773803711 }, "pca_coordinates": { "x": 4.045055389404297, "y": -1.824873447418213, "z": 1.6516542434692383 }, "axis_scores": { "Quantum imaging": 0.7390867471694946, "Quantum Life Science Sensing": 0.7225850224494934, "Quantum sensing Detection": 0.7205851674079895, "Quantum sensing Metrology": 0.7188417315483093, "Quantum sensing navigation": 0.7497738003730774, "Quantum sensing Position": 0.7169003486633301, "Quantum sensing Timing": 0.7090146541595459, "Quantum sensing": 0.7369686961174011, "Quantum control": 0.7216278314590454 } }, { "id": 7727, "title": "Resonant Auger spectroscopy of argon clusters at the 2p threshold - art. no. 033204", "abstract": "Resonant Auger spectra of large argon clusters have been measured at the Ar 2p edge. The decay spectra can give some information on the states reached in photon absorption. For example, the observatio...", "citations": 10, "author_count": 10, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7735, "doi": "10.1103/PhysRevA.71.033204", "umap_coordinates": { "x": 395.5802307128906, "y": 135.19552612304688, "z": 208.21722412109375 }, "tsne_coordinates": { "x": -2.1498141288757324, "y": -10.006749153137207, "z": -1.8139466047286987 }, "pca_coordinates": { "x": 2.8412022590637207, "y": -1.267134666442871, "z": -0.4815945327281952 }, "axis_scores": { "Quantum imaging": 0.673332154750824, "Quantum Life Science Sensing": 0.7011897563934326, "Quantum sensing Detection": 0.7015942335128784, "Quantum sensing Metrology": 0.6817746758460999, "Quantum sensing navigation": 0.6755231022834778, "Quantum sensing Position": 0.6739699840545654, "Quantum sensing Timing": 0.6664108037948608, "Quantum sensing": 0.7019710540771484, "Quantum control": 0.6636600494384766 } }, { "id": 7728, "title": "Quantum signaling in relativistic motion and across acceleration horizons", "abstract": "The quantum channel between two particle detectors provides a prototype framework for the study of wireless quantum communication via relativistic quantum fields. In this article we calculate the clas...", "citations": 27, "author_count": 2, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7736, "doi": "10.1088/1751-8121/aa7d3c", "umap_coordinates": { "x": 395.645263671875, "y": 135.8592987060547, "z": 206.2792510986328 }, "tsne_coordinates": { "x": -39.84092330932617, "y": -4.560066223144531, "z": -3.9251370429992676 }, "pca_coordinates": { "x": 2.045142650604248, "y": 3.3212532997131348, "z": 0.4402253031730652 }, "axis_scores": { "Quantum imaging": 0.7337095737457275, "Quantum Life Science Sensing": 0.7012900710105896, "Quantum sensing Detection": 0.6974040865898132, "Quantum sensing Metrology": 0.6855778098106384, "Quantum sensing navigation": 0.7633540630340576, "Quantum sensing Position": 0.7089507579803467, "Quantum sensing Timing": 0.7368775606155396, "Quantum sensing": 0.7153419256210327, "Quantum control": 0.7153471112251282 } }, { "id": 7729, "title": "Photoelectron-recoil-induced rotational excitation of the B 2Σu+ state in N2+", "abstract": "In the photoelectron spectrum of N-2 the apparent ionization energy to form the B (2)Sigma(+)(u) state increases linearly with the photon energy. Rotationally resolved measurements of the fluorescent ...", "citations": 31, "author_count": 22, "categories": [ "Optics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7737, "doi": "10.1103/PhysRevA.79.022506", "umap_coordinates": { "x": 395.09478759765625, "y": 135.45944213867188, "z": 207.73410034179688 }, "tsne_coordinates": { "x": -3.1482455730438232, "y": -10.756996154785156, "z": 0.10685613751411438 }, "pca_coordinates": { "x": 2.7717788219451904, "y": -0.6688277721405029, "z": -1.2296147346496582 }, "axis_scores": { "Quantum imaging": 0.671841025352478, "Quantum Life Science Sensing": 0.6873089671134949, "Quantum sensing Detection": 0.6926639676094055, "Quantum sensing Metrology": 0.6644567251205444, "Quantum sensing navigation": 0.6910405158996582, "Quantum sensing Position": 0.6641659140586853, "Quantum sensing Timing": 0.6547234654426575, "Quantum sensing": 0.6886781454086304, "Quantum control": 0.6575263142585754 } }, { "id": 7730, "title": "Photoemission from surface-localized structures on vicinal surfaces: Initial- or final-state superlattice effect?", "abstract": "Strong superlattice effects are reported on E(k(vertical bar vertical bar)) band dispersions measured by angle-resolved photoemission on W(3 3 1) and W(5 5 1), and graphene nanostripes on Ni(7 7 1). A...", "citations": 2, "author_count": 9, "categories": [ "Spectroscopy" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7738, "doi": "10.1016/j.elspec.2005.01.027", "umap_coordinates": { "x": 393.3584899902344, "y": 134.3612518310547, "z": 205.93167114257812 }, "tsne_coordinates": { "x": 26.18987274169922, "y": 0.7948785424232483, "z": 12.272765159606934 }, "pca_coordinates": { "x": -2.2639529705047607, "y": -0.999375581741333, "z": -1.0320981740951538 }, "axis_scores": { "Quantum imaging": 0.705730676651001, "Quantum Life Science Sensing": 0.7128716707229614, "Quantum sensing Detection": 0.697477400302887, "Quantum sensing Metrology": 0.6817466616630554, "Quantum sensing navigation": 0.656833291053772, "Quantum sensing Position": 0.6903248429298401, "Quantum sensing Timing": 0.6451854109764099, "Quantum sensing": 0.7015224099159241, "Quantum control": 0.6455370187759399 } }, { "id": 7731, "title": "Rare ISotopes INvestigation at GSI (RISING) using gamma-ray spectroscopy at relativistic energies", "abstract": "The Rare ISotopes INvestigation at GSI project combines the former EUROBALL Ge-Cluster detectors, the MINIBALL Ge detectors, BaF2--HECTOR detectors, and the fragment separator at GSI for high-resoluti...", "citations": 154, "author_count": 73, "categories": [ "Instruments & Instrumentation" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7739, "doi": "10.1016/j.nima.2004.08.072", "umap_coordinates": { "x": 394.4136047363281, "y": 133.35269165039062, "z": 205.14520263671875 }, "tsne_coordinates": { "x": -15.533978462219238, "y": 10.806832313537598, "z": -11.661722183227539 }, "pca_coordinates": { "x": -0.7037091255187988, "y": 2.5491771697998047, "z": 0.24441486597061157 }, "axis_scores": { "Quantum imaging": 0.6723012924194336, "Quantum Life Science Sensing": 0.6805899739265442, "Quantum sensing Detection": 0.6538093686103821, "Quantum sensing Metrology": 0.6377791166305542, "Quantum sensing navigation": 0.674292266368866, "Quantum sensing Position": 0.6553344130516052, "Quantum sensing Timing": 0.6646586656570435, "Quantum sensing": 0.6609703898429871, "Quantum control": 0.6137241721153259 } }, { "id": 7732, "title": "On the Strong Binding Affinity of Gold-Graphene Heterostructures with Heavy Metal Ions in Water: A Theoretical and Experimental Investigation", "abstract": "Minimum energy configurations in 2D material-based heterostructures can enable interactions with external chemical species that are not observable for their monolithic counterparts. Density functional...", "citations": 5, "author_count": 13, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7740, "doi": "10.1021/acs.langmuir.4c02568", "umap_coordinates": { "x": 392.4834899902344, "y": 135.88783264160156, "z": 204.98916625976562 }, "tsne_coordinates": { "x": 28.337581634521484, "y": 16.257963180541992, "z": 14.842803001403809 }, "pca_coordinates": { "x": -1.7820494174957275, "y": -2.151998996734619, "z": -1.9909675121307373 }, "axis_scores": { "Quantum imaging": 0.6820085048675537, "Quantum Life Science Sensing": 0.7042570114135742, "Quantum sensing Detection": 0.6859702467918396, "Quantum sensing Metrology": 0.6670284271240234, "Quantum sensing navigation": 0.6796014308929443, "Quantum sensing Position": 0.6663393974304199, "Quantum sensing Timing": 0.6255544424057007, "Quantum sensing": 0.6990354061126709, "Quantum control": 0.6518160104751587 } }, { "id": 7733, "title": "Direct Determination of the Rate of Intersystem Crossing in a Near-IR Luminescent Cr(III) Triazolyl Complex", "abstract": "A detailed understanding of the dynamics of photoinducedprocessesoccurring in the electronic excited state is essential in informingthe rational design of photoactive transition-metal complexes. Here,...", "citations": 21, "author_count": 11, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7741, "doi": "10.1021/jacs.3c01543", "umap_coordinates": { "x": 393.0887756347656, "y": 136.7755584716797, "z": 205.9060516357422 }, "tsne_coordinates": { "x": -8.591225624084473, "y": 2.189547538757324, "z": 14.803177833557129 }, "pca_coordinates": { "x": -1.2800372838974, "y": -0.10655546188354492, "z": -1.2670423984527588 }, "axis_scores": { "Quantum imaging": 0.6973807215690613, "Quantum Life Science Sensing": 0.726033627986908, "Quantum sensing Detection": 0.7056376338005066, "Quantum sensing Metrology": 0.7035459280014038, "Quantum sensing navigation": 0.6887664198875427, "Quantum sensing Position": 0.6791312098503113, "Quantum sensing Timing": 0.6968677639961243, "Quantum sensing": 0.7148648500442505, "Quantum control": 0.6837553381919861 } }, { "id": 7734, "title": "The role of photomineralization forCO2emissions in boreal lakes along a gradient of dissolved organic matter", "abstract": "Many boreal lakes are experiencing an increase in concentrations of terrestrially derived dissolved organic matter (DOM)-a process commonly labeled browning. Browning affects microbial and photochemic...", "citations": 42, "author_count": 6, "categories": [ "Marine & Freshwater Biology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7742, "doi": "10.1002/lno.11594", "umap_coordinates": { "x": 393.3905029296875, "y": 135.74522399902344, "z": 204.25428771972656 }, "tsne_coordinates": { "x": 12.158134460449219, "y": 21.89646339416504, "z": 17.239459991455078 }, "pca_coordinates": { "x": -2.2165355682373047, "y": 0.38582730293273926, "z": -2.4424211978912354 }, "axis_scores": { "Quantum imaging": 0.721311628818512, "Quantum Life Science Sensing": 0.7291496992111206, "Quantum sensing Detection": 0.7060018181800842, "Quantum sensing Metrology": 0.702063798904419, "Quantum sensing navigation": 0.7211283445358276, "Quantum sensing Position": 0.707402229309082, "Quantum sensing Timing": 0.6808944940567017, "Quantum sensing": 0.7160054445266724, "Quantum control": 0.6925961375236511 } }, { "id": 7735, "title": "Molecular Signature of Asthma-Enhanced Sensitivity to CuO Nanoparticle Aerosols from 3D Cell Model", "abstract": "More than 5% of any population suffers from asthma, and there are indications that these individuals are more sensitive to nanoparticle aerosols than the healthy population. We used an air-liquid inte...", "citations": 41, "author_count": 13, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7743, "doi": "10.1021/acsnano.9b01823", "umap_coordinates": { "x": 393.79766845703125, "y": 134.6546630859375, "z": 204.06898498535156 }, "tsne_coordinates": { "x": 11.80160903930664, "y": 26.145126342773438, "z": -1.5347763299942017 }, "pca_coordinates": { "x": -3.8266074657440186, "y": -1.5505592823028564, "z": -1.3071062564849854 }, "axis_scores": { "Quantum imaging": 0.7022075057029724, "Quantum Life Science Sensing": 0.7371706366539001, "Quantum sensing Detection": 0.712763786315918, "Quantum sensing Metrology": 0.6801239252090454, "Quantum sensing navigation": 0.6745151877403259, "Quantum sensing Position": 0.6664299368858337, "Quantum sensing Timing": 0.6374967098236084, "Quantum sensing": 0.7098437547683716, "Quantum control": 0.6864233613014221 } }, { "id": 7736, "title": "Acetate-Induced Disassembly of Spherical Iron Oxide Nanoparticle Clusters into Monodispersed Core-Shell Structures upon Nanoemulsion Fusion", "abstract": "It has been long known that the physical encapsulation of oleic acid-capped iron oxide nanoparticles (OA-IONPs) with the cetyltrimethylammonium (CTA(+)) surfactant induces the formation of spherical i...", "citations": 21, "author_count": 14, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7744, "doi": "10.1021/acs.langmuir.7b02743", "umap_coordinates": { "x": 392.6996765136719, "y": 134.60752868652344, "z": 204.29708862304688 }, "tsne_coordinates": { "x": 22.367511749267578, "y": 24.30732536315918, "z": 0.4137236177921295 }, "pca_coordinates": { "x": -3.099141836166382, "y": -1.658973217010498, "z": -4.505763530731201 }, "axis_scores": { "Quantum imaging": 0.6452053785324097, "Quantum Life Science Sensing": 0.6771315932273865, "Quantum sensing Detection": 0.6329473257064819, "Quantum sensing Metrology": 0.6116761565208435, "Quantum sensing navigation": 0.6164925694465637, "Quantum sensing Position": 0.6218884587287903, "Quantum sensing Timing": 0.5862350463867188, "Quantum sensing": 0.6369032859802246, "Quantum control": 0.6314440369606018 } }, { "id": 7737, "title": "Multicentre analysis of incidental findings on low-resolution CT attenuation correction images: an extended study", "abstract": "Objective: To review new incidental findings detected on low-resolution CT attenuation correction (CTAC) images acquired during single-photon emission CT-CT myocardial perfusion imaging as an extensio...", "citations": 16, "author_count": 8, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7745, "doi": "10.1259/bjr.20150555", "umap_coordinates": { "x": 395.5750427246094, "y": 133.48666381835938, "z": 204.57431030273438 }, "tsne_coordinates": { "x": -3.93825364112854, "y": 29.702539443969727, "z": -13.397957801818848 }, "pca_coordinates": { "x": -2.7465710639953613, "y": 5.461748123168945, "z": 1.651935338973999 }, "axis_scores": { "Quantum imaging": 0.6672647595405579, "Quantum Life Science Sensing": 0.6347992420196533, "Quantum sensing Detection": 0.6507018208503723, "Quantum sensing Metrology": 0.6175858378410339, "Quantum sensing navigation": 0.639244556427002, "Quantum sensing Position": 0.6234521269798279, "Quantum sensing Timing": 0.6270644664764404, "Quantum sensing": 0.6403005719184875, "Quantum control": 0.6224567890167236 } }, { "id": 7738, "title": "Spectral Response in a Pixellated X-ray Imaging CdTe Detector with Single Photon Processing Readout", "abstract": "The image forming process in a CdTe detector is both a function of the X-ray interaction in the material, including scattering and fluorescence, and the charge transport in the material [2]-[4]. The r...", "citations": 1, "author_count": 5, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7746, "doi": null, "umap_coordinates": { "x": 391.5608215332031, "y": 139.0181884765625, "z": 209.4864044189453 }, "tsne_coordinates": { "x": -1.3258010149002075, "y": 38.79515075683594, "z": -13.207247734069824 }, "pca_coordinates": { "x": -2.5860683917999268, "y": 1.4778518676757812, "z": 2.408233642578125 }, "axis_scores": { "Quantum imaging": 0.7613282203674316, "Quantum Life Science Sensing": 0.7397430539131165, "Quantum sensing Detection": 0.7563362121582031, "Quantum sensing Metrology": 0.7372249364852905, "Quantum sensing navigation": 0.7215452194213867, "Quantum sensing Position": 0.7206087112426758, "Quantum sensing Timing": 0.7178884744644165, "Quantum sensing": 0.7472583055496216, "Quantum control": 0.7105095982551575 } }, { "id": 7739, "title": "Monitoring the Distribution of Warfarin in Blood Plasma", "abstract": "Warfarin is an anticoagulant drug extensively used in the treatment and prevention of thrombotic disorders. Previous studies have shown that warfarin binds extensively to blood plasma proteins and tha...", "citations": 17, "author_count": 4, "categories": [ "Pharmacology & Pharmacy" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7747, "doi": "10.1021/ml300112e", "umap_coordinates": { "x": 393.6199951171875, "y": 135.2118377685547, "z": 204.40158081054688 }, "tsne_coordinates": { "x": 8.326623916625977, "y": 29.025983810424805, "z": -3.4683094024658203 }, "pca_coordinates": { "x": -2.1821837425231934, "y": 0.632205605506897, "z": -2.4895617961883545 }, "axis_scores": { "Quantum imaging": 0.6630297899246216, "Quantum Life Science Sensing": 0.7103981375694275, "Quantum sensing Detection": 0.669359028339386, "Quantum sensing Metrology": 0.6691359281539917, "Quantum sensing navigation": 0.6743201613426208, "Quantum sensing Position": 0.6856672763824463, "Quantum sensing Timing": 0.6482831835746765, "Quantum sensing": 0.6790543794631958, "Quantum control": 0.6611103415489197 } }, { "id": 7740, "title": "Measurement of the inclusive isolated photon production cross section in pp collisions at √s=7 TeV", "abstract": "The production cross section of inclusive isolated photons has been measured by the ALICE experiment at the CERN LHC in pp collisions at a centre-of-momentum energy of root s = 7 TeV. The measurement ...", "citations": 23, "author_count": 1027, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7748, "doi": "10.1140/epjc/s10052-019-7389-9", "umap_coordinates": { "x": 396.89190673828125, "y": 134.32907104492188, "z": 207.22000122070312 }, "tsne_coordinates": { "x": -30.544965744018555, "y": 11.204588890075684, "z": -10.50739574432373 }, "pca_coordinates": { "x": -0.7772279381752014, "y": 1.0027774572372437, "z": 3.436943531036377 }, "axis_scores": { "Quantum imaging": 0.6977657675743103, "Quantum Life Science Sensing": 0.7043070793151855, "Quantum sensing Detection": 0.7087782621383667, "Quantum sensing Metrology": 0.6771951913833618, "Quantum sensing navigation": 0.6789838671684265, "Quantum sensing Position": 0.6918880343437195, "Quantum sensing Timing": 0.6857249736785889, "Quantum sensing": 0.7032482624053955, "Quantum control": 0.6527332663536072 } }, { "id": 7741, "title": "Evaluation of a GEM and CAT-based detector for radiation therapy beam monitoring", "abstract": "We are developing a radiation therapy beam monitor for the Karolinska Institute. This monitor will consist of two consecutive detectors confined in one gas chamber: a keV-photon detector, which will a...", "citations": 14, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7749, "doi": "10.1016/S0168-9002(00)00815-9", "umap_coordinates": { "x": 395.2413635253906, "y": 132.71115112304688, "z": 205.02809143066406 }, "tsne_coordinates": { "x": -12.522547721862793, "y": 20.04134178161621, "z": -14.141623497009277 }, "pca_coordinates": { "x": -3.7455461025238037, "y": 2.024198293685913, "z": 1.8094120025634766 }, "axis_scores": { "Quantum imaging": 0.659461498260498, "Quantum Life Science Sensing": 0.6935973763465881, "Quantum sensing Detection": 0.6611701250076294, "Quantum sensing Metrology": 0.6764530539512634, "Quantum sensing navigation": 0.652035653591156, "Quantum sensing Position": 0.646740198135376, "Quantum sensing Timing": 0.6455355882644653, "Quantum sensing": 0.6588593125343323, "Quantum control": 0.6193867921829224 } }, { "id": 7742, "title": "Upper limits of the photon fluence rate on CT detectors: Case study on a commercial scanner", "abstract": "Purpose: The highest photon fluence rate that a computed tomography (CT) detector must be able to measure is an important parameter. The authors calculate the maximum transmitted fluence rate in a com...", "citations": 41, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7750, "doi": "10.1118/1.4954008", "umap_coordinates": { "x": 395.7703552246094, "y": 132.85096740722656, "z": 205.43296813964844 }, "tsne_coordinates": { "x": -11.93835163116455, "y": 25.461355209350586, "z": -20.70801544189453 }, "pca_coordinates": { "x": -2.22678279876709, "y": 3.1931891441345215, "z": 3.429126262664795 }, "axis_scores": { "Quantum imaging": 0.7210927605628967, "Quantum Life Science Sensing": 0.7053422331809998, "Quantum sensing Detection": 0.7201921939849854, "Quantum sensing Metrology": 0.6992087960243225, "Quantum sensing navigation": 0.6827008724212646, "Quantum sensing Position": 0.6839309334754944, "Quantum sensing Timing": 0.7004536986351013, "Quantum sensing": 0.7110074758529663, "Quantum control": 0.6717345714569092 } }, { "id": 7743, "title": "Hybrid Trusted/Untrusted Relay-Based Quantum Key Distribution Over Optical Backbone Networks", "abstract": "Quantum key distribution (QKD) has demonstrated a great potential to provide future-proofed security, especially for 5G and beyond communications. As the critical infrastructure for 5G and beyond comm...", "citations": 54, "author_count": 7, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7751, "doi": "10.1109/JSAC.2021.3064662", "umap_coordinates": { "x": 394.9826965332031, "y": 134.46133422851562, "z": 206.4506072998047 }, "tsne_coordinates": { "x": 0.546249270439148, "y": 2.439453363418579, "z": -38.75257110595703 }, "pca_coordinates": { "x": 0.21130776405334473, "y": 0.7804586887359619, "z": 0.8922376036643982 }, "axis_scores": { "Quantum imaging": 0.7393677830696106, "Quantum Life Science Sensing": 0.7392735481262207, "Quantum sensing Detection": 0.7281842231750488, "Quantum sensing Metrology": 0.7189577221870422, "Quantum sensing navigation": 0.7440595030784607, "Quantum sensing Position": 0.707160472869873, "Quantum sensing Timing": 0.717759370803833, "Quantum sensing": 0.7497944831848145, "Quantum control": 0.7407512664794922 } }, { "id": 7744, "title": "Visible Light Photocatalytic Degradation of Methylene Blue Dye and Pharmaceutical Wastes over Ternary NiO/Ag/TiO2 Heterojunction", "abstract": "Ternary NiO/Ag/TiO2 heterojunction photocatalyst was prepared by deposition coprecipitation for visible light photocatalytic applications. Physicochemical properties of the synthesized NiO/Ag/TiO2 com...", "citations": 54, "author_count": 6, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7752, "doi": "10.1021/acsomega.3c01766", "umap_coordinates": { "x": 392.37774658203125, "y": 134.15345764160156, "z": 204.755126953125 }, "tsne_coordinates": { "x": 17.56793785095215, "y": 5.34859037399292, "z": -0.582866907119751 }, "pca_coordinates": { "x": -2.550084114074707, "y": -3.2959537506103516, "z": -0.8550899028778076 }, "axis_scores": { "Quantum imaging": 0.7277407050132751, "Quantum Life Science Sensing": 0.7297358512878418, "Quantum sensing Detection": 0.7138106822967529, "Quantum sensing Metrology": 0.7012864947319031, "Quantum sensing navigation": 0.7019530534744263, "Quantum sensing Position": 0.6761621832847595, "Quantum sensing Timing": 0.6605598330497742, "Quantum sensing": 0.7261897325515747, "Quantum control": 0.7035996317863464 } }, { "id": 7745, "title": "Fluoro substitution effect on 2,1,3-benzothiadiazole-based hybridized local and charge transfer state fluorophores for high-performance organic light-emitting diodes", "abstract": "Fluoro substitution of organic semiconductors is an effective way to improve some related performance of the materials, such as the carrier mobility in organic photovoltaics (OPVs) and organic field-e...", "citations": 11, "author_count": 6, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7753, "doi": "10.1016/j.dyepig.2023.111184", "umap_coordinates": { "x": 392.6302490234375, "y": 135.0160675048828, "z": 204.83950805664062 }, "tsne_coordinates": { "x": 7.4437994956970215, "y": 14.243819236755371, "z": -4.354213714599609 }, "pca_coordinates": { "x": -3.9551749229431152, "y": -2.084202766418457, "z": -0.4319705367088318 }, "axis_scores": { "Quantum imaging": 0.7219305038452148, "Quantum Life Science Sensing": 0.7118715643882751, "Quantum sensing Detection": 0.7019274830818176, "Quantum sensing Metrology": 0.6867077350616455, "Quantum sensing navigation": 0.691062331199646, "Quantum sensing Position": 0.708227276802063, "Quantum sensing Timing": 0.6750006079673767, "Quantum sensing": 0.7186289429664612, "Quantum control": 0.6898368000984192 } }, { "id": 7746, "title": "Coumarin as a Quantitative Probe for Hydroxyl Radical Formation in Heterogeneous Photocatalysis", "abstract": "In this work, we have assessed coumarin as a quantitative probe for hydroxyl radical formation in heterogeneous photocatalysis. Upon reaction with the hydroxyl radical, coumarin produces several hydro...", "citations": 125, "author_count": 4, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7754, "doi": "10.1021/acs.jpcc.9b00337", "umap_coordinates": { "x": 392.9854736328125, "y": 135.73390197753906, "z": 204.2871551513672 }, "tsne_coordinates": { "x": 2.721681594848633, "y": 10.828076362609863, "z": 8.592460632324219 }, "pca_coordinates": { "x": -2.9843499660491943, "y": 0.009569644927978516, "z": -3.1549580097198486 }, "axis_scores": { "Quantum imaging": 0.7000742554664612, "Quantum Life Science Sensing": 0.7398403882980347, "Quantum sensing Detection": 0.7018074989318848, "Quantum sensing Metrology": 0.6740074157714844, "Quantum sensing navigation": 0.676183819770813, "Quantum sensing Position": 0.6689572930335999, "Quantum sensing Timing": 0.6524001359939575, "Quantum sensing": 0.7136827707290649, "Quantum control": 0.694007933139801 } }, { "id": 7747, "title": "A 3D co-culture microtissue model of the human placenta for nanotoxicity assessment", "abstract": "There is increasing evidence that certain nanoparticles (NPs) can overcome the placental barrier, raising concerns on potential adverse effects on the growing fetus. But even in the absence of placent...", "citations": 70, "author_count": 14, "categories": [ "Chemistry" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7755, "doi": "10.1039/c6nr06749b", "umap_coordinates": { "x": 394.32159423828125, "y": 134.3691864013672, "z": 204.531494140625 }, "tsne_coordinates": { "x": 3.3483378887176514, "y": 21.201990127563477, "z": -15.709124565124512 }, "pca_coordinates": { "x": -3.944861650466919, "y": 1.128282904624939, "z": -0.34070873260498047 }, "axis_scores": { "Quantum imaging": 0.6950588226318359, "Quantum Life Science Sensing": 0.720204770565033, "Quantum sensing Detection": 0.6945477724075317, "Quantum sensing Metrology": 0.6951390504837036, "Quantum sensing navigation": 0.682852029800415, "Quantum sensing Position": 0.6726998090744019, "Quantum sensing Timing": 0.6605748534202576, "Quantum sensing": 0.7007810473442078, "Quantum control": 0.6629098653793335 } }, { "id": 7748, "title": "Generalized electronic diabatic scheme: Diagonalizing the electronic Hamiltonian for artificial molecular systems. How do molecular meccanos move?", "abstract": "A quantum-classic model is presented and used to describe systems ranging from normal molecules up to electronic systems sensed in real space. The quantum system is a set of n-electrons; a positive ba...", "citations": 6, "author_count": 2, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7756, "doi": "10.1002/qua.10713", "umap_coordinates": { "x": 393.6562194824219, "y": 137.6038818359375, "z": 206.6049041748047 }, "tsne_coordinates": { "x": -15.05587100982666, "y": 14.989121437072754, "z": 30.466617584228516 }, "pca_coordinates": { "x": 2.1514792442321777, "y": 0.8509218692779541, "z": -3.717451333999634 }, "axis_scores": { "Quantum imaging": 0.7260332703590393, "Quantum Life Science Sensing": 0.7074652910232544, "Quantum sensing Detection": 0.6915901899337769, "Quantum sensing Metrology": 0.6938857436180115, "Quantum sensing navigation": 0.7361173629760742, "Quantum sensing Position": 0.6894263625144958, "Quantum sensing Timing": 0.6706806421279907, "Quantum sensing": 0.7168821692466736, "Quantum control": 0.7338008880615234 } }, { "id": 7749, "title": "Coherent quantum phenomena in a normal cylindrical conductor with a superconducting coating", "abstract": "The thermodynamic properties of a mesoscopic-size, simply connected cylindrical normal metal in good metallic contact with superconducting banks are studied theoretically. It is commonly accepted that...", "citations": 5, "author_count": 4, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7757, "doi": "10.1063/1.1421456", "umap_coordinates": { "x": 393.82110595703125, "y": 135.40167236328125, "z": 208.21319580078125 }, "tsne_coordinates": { "x": -3.55448055267334, "y": -12.926346778869629, "z": 14.905599594116211 }, "pca_coordinates": { "x": 3.3066134452819824, "y": -0.6315343379974365, "z": 1.3280298709869385 }, "axis_scores": { "Quantum imaging": 0.7474575638771057, "Quantum Life Science Sensing": 0.738119900226593, "Quantum sensing Detection": 0.7516825199127197, "Quantum sensing Metrology": 0.7394528388977051, "Quantum sensing navigation": 0.7462818026542664, "Quantum sensing Position": 0.7153695821762085, "Quantum sensing Timing": 0.7166228890419006, "Quantum sensing": 0.7541947364807129, "Quantum control": 0.7347193956375122 } }, { "id": 7750, "title": "Short-term effects of UVB radiation on chlorophyll fluorescence, biomass, pigments, and carbohydrate fractions in a benthic diatom mat", "abstract": "The effects on UVB radiation on a subtidal, cohesive-sediment biofilm dominated by the diatom Gyrosigma balticum (Ehrenberg) Rabenhorst were investigated, Chlorophyll fluorescence parameters (F-v/F-m,...", "citations": 62, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7758, "doi": "10.1046/j.1529-8817.1999.3540656.x", "umap_coordinates": { "x": 393.8969421386719, "y": 135.6898651123047, "z": 203.853271484375 }, "tsne_coordinates": { "x": 12.750502586364746, "y": 28.392742156982422, "z": 15.00285816192627 }, "pca_coordinates": { "x": -3.6083569526672363, "y": 1.3120335340499878, "z": -1.751943826675415 }, "axis_scores": { "Quantum imaging": 0.6761924624443054, "Quantum Life Science Sensing": 0.7139545679092407, "Quantum sensing Detection": 0.6592421531677246, "Quantum sensing Metrology": 0.6458953619003296, "Quantum sensing navigation": 0.6568796634674072, "Quantum sensing Position": 0.649296224117279, "Quantum sensing Timing": 0.6368095278739929, "Quantum sensing": 0.6781784892082214, "Quantum control": 0.6516401171684265 } }, { "id": 7751, "title": "Two-layer reconstruction of Raman spectra in diffusive media based on an analytical model in the time domain", "abstract": "We derive and validate an analytical model that describes the migration of Raman scattered photons in two-layer diffusive media, based on the diffusion equation in the time domain. The model is derive...", "citations": 3, "author_count": 9, "categories": [ "Optics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7759, "doi": "10.1364/OE.504105", "umap_coordinates": { "x": 394.33026123046875, "y": 135.01377868652344, "z": 205.63319396972656 }, "tsne_coordinates": { "x": 8.422069549560547, "y": 12.134393692016602, "z": -30.110729217529297 }, "pca_coordinates": { "x": -0.622413158416748, "y": 0.5635702610015869, "z": 0.48186200857162476 }, "axis_scores": { "Quantum imaging": 0.6902385354042053, "Quantum Life Science Sensing": 0.6885162591934204, "Quantum sensing Detection": 0.6741825342178345, "Quantum sensing Metrology": 0.6663879752159119, "Quantum sensing navigation": 0.6766452789306641, "Quantum sensing Position": 0.6580679416656494, "Quantum sensing Timing": 0.6650195717811584, "Quantum sensing": 0.6812304854393005, "Quantum control": 0.6325905323028564 } }, { "id": 7752, "title": "Noise Performance of Single-Mode VCSELs: Dependence on Current Confinement and Optical Loss", "abstract": "We investigate the intensity and phase noise properties of GaAs-based 1060 nm oxide-confined single-mode vertical-cavity surface-emitting lasers (VCSELs) and their dependence on slope efficiency and c...", "citations": 1, "author_count": 8, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7760, "doi": "10.1109/JQE.2020.3005380", "umap_coordinates": { "x": 394.47503662109375, "y": 133.72216796875, "z": 207.34666442871094 }, "tsne_coordinates": { "x": 2.691419839859009, "y": -2.9800431728363037, "z": -30.970478057861328 }, "pca_coordinates": { "x": -0.533740758895874, "y": -1.3561062812805176, "z": 1.250638723373413 }, "axis_scores": { "Quantum imaging": 0.7186189293861389, "Quantum Life Science Sensing": 0.7438646554946899, "Quantum sensing Detection": 0.7294803857803345, "Quantum sensing Metrology": 0.7217024564743042, "Quantum sensing navigation": 0.7297894358634949, "Quantum sensing Position": 0.6875067353248596, "Quantum sensing Timing": 0.6680533289909363, "Quantum sensing": 0.7308268547058105, "Quantum control": 0.731629490852356 } }, { "id": 7753, "title": "A multiferroic molecular magnetic qubit", "abstract": "The chiral Fe3O(NC5H5)3(O2CC6H5)6 molecular cation, with C-3 symmetry, is composed of three six-fold coordinated spin-carrying Fe3+ cations that form a perfect equilateral triangle. Experimental repor...", "citations": 13, "author_count": 5, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7761, "doi": "10.1063/1.5127956", "umap_coordinates": { "x": 393.5316467285156, "y": 135.196044921875, "z": 208.26617431640625 }, "tsne_coordinates": { "x": 20.069549560546875, "y": -29.88581085205078, "z": 8.048575401306152 }, "pca_coordinates": { "x": 2.992124080657959, "y": -1.5875296592712402, "z": -1.0394779443740845 }, "axis_scores": { "Quantum imaging": 0.765390157699585, "Quantum Life Science Sensing": 0.7463958859443665, "Quantum sensing Detection": 0.7531074285507202, "Quantum sensing Metrology": 0.7524418234825134, "Quantum sensing navigation": 0.7313728332519531, "Quantum sensing Position": 0.6936101317405701, "Quantum sensing Timing": 0.6818574070930481, "Quantum sensing": 0.7756633162498474, "Quantum control": 0.7310975193977356 } }, { "id": 7754, "title": "Robust Surface Doping of Bi2Se3 by Rubidium Intercalation", "abstract": "Rubidium adsorption on the surface of the topological insulator Bi2Se3 is found to induce a strong downward band bending, leading to the appearance of a quantum-confined two-dimensional electron gas s...", "citations": 75, "author_count": 15, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7762, "doi": "10.1021/nn3021822", "umap_coordinates": { "x": 391.70745849609375, "y": 133.69943237304688, "z": 205.59239196777344 }, "tsne_coordinates": { "x": 20.74148178100586, "y": 0.95670086145401, "z": -10.992169380187988 }, "pca_coordinates": { "x": -2.217397451400757, "y": -3.8707947731018066, "z": -1.674159288406372 }, "axis_scores": { "Quantum imaging": 0.7086901664733887, "Quantum Life Science Sensing": 0.735576868057251, "Quantum sensing Detection": 0.7170289754867554, "Quantum sensing Metrology": 0.705131471157074, "Quantum sensing navigation": 0.7180641889572144, "Quantum sensing Position": 0.6865649223327637, "Quantum sensing Timing": 0.6745764017105103, "Quantum sensing": 0.7317053079605103, "Quantum control": 0.7061659693717957 } }, { "id": 7755, "title": "Anionic photofragmentation of CO: A selective probe of core-level resonances", "abstract": "Anion-yield spectroscopy using x rays is shown to be a selective probe of molecular core-level processes, providing unique experimental verification of shape resonances. For CO, partial anion and cati...", "citations": 52, "author_count": 11, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7763, "doi": "10.1103/PhysRevLett.86.4504", "umap_coordinates": { "x": 393.8230895996094, "y": 136.35580444335938, "z": 206.78688049316406 }, "tsne_coordinates": { "x": -1.2949076890945435, "y": -11.425177574157715, "z": -1.8120689392089844 }, "pca_coordinates": { "x": 1.1042230129241943, "y": -1.4258582592010498, "z": -0.732089102268219 }, "axis_scores": { "Quantum imaging": 0.6998022198677063, "Quantum Life Science Sensing": 0.7171028256416321, "Quantum sensing Detection": 0.7148838043212891, "Quantum sensing Metrology": 0.675285816192627, "Quantum sensing navigation": 0.6790443062782288, "Quantum sensing Position": 0.6811051964759827, "Quantum sensing Timing": 0.6621890664100647, "Quantum sensing": 0.717180609703064, "Quantum control": 0.6806941032409668 } }, { "id": 7756, "title": "Direct evidence of real-space pairing in BaBiO3", "abstract": "The parent compound BaBiO3 of bismuthate high-temperature superconductors (HTSCs) BaBi(Pb)O3 and Ba(K)BiO3 with perovskitelike structure exhibits unusual electronic and structural properties, which ca...", "citations": 8, "author_count": 26, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7764, "doi": "10.1103/PhysRevResearch.6.023307", "umap_coordinates": { "x": 395.4380798339844, "y": 136.0461883544922, "z": 208.6443328857422 }, "tsne_coordinates": { "x": -22.23182487487793, "y": -33.86416244506836, "z": -10.7925443649292 }, "pca_coordinates": { "x": 3.479987621307373, "y": 0.6644973754882812, "z": 0.27502089738845825 }, "axis_scores": { "Quantum imaging": 0.7249481081962585, "Quantum Life Science Sensing": 0.7494603395462036, "Quantum sensing Detection": 0.7338583469390869, "Quantum sensing Metrology": 0.7163883447647095, "Quantum sensing navigation": 0.7360212802886963, "Quantum sensing Position": 0.7265079021453857, "Quantum sensing Timing": 0.7190967202186584, "Quantum sensing": 0.7400844097137451, "Quantum control": 0.6903490424156189 } }, { "id": 7757, "title": "The XMM deep survey in the CDFS: XI. X-ray spectral properties of 185 bright sources", "abstract": "We present the X-ray spectra of 185 bright sources detected in the XMM-Newton deep survey of the Chandra Deep Field South with the three EPIC cameras combined. The 2-10 keV flux limit of the sample is...", "citations": 15, "author_count": 15, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7765, "doi": "10.1051/0004-6361/201937246", "umap_coordinates": { "x": 396.3763427734375, "y": 134.77301025390625, "z": 205.89297485351562 }, "tsne_coordinates": { "x": -27.6009578704834, "y": 21.991708755493164, "z": 4.410382270812988 }, "pca_coordinates": { "x": -1.405582308769226, "y": 1.1882479190826416, "z": 0.6167826056480408 }, "axis_scores": { "Quantum imaging": 0.6796569228172302, "Quantum Life Science Sensing": 0.6879227757453918, "Quantum sensing Detection": 0.6641923785209656, "Quantum sensing Metrology": 0.6695441007614136, "Quantum sensing navigation": 0.6685929894447327, "Quantum sensing Position": 0.659294605255127, "Quantum sensing Timing": 0.6527618765830994, "Quantum sensing": 0.6715999841690063, "Quantum control": 0.6372314095497131 } }, { "id": 7758, "title": "Temperature-dependent radiative and non-radiative dynamics of photo-excited carriers in extremely high-density and small InGaN nanodisks fabricated by neutral-beam etching using bio-nano-templates", "abstract": "Temperature-dependent radiative and non-radiative dynamics of photoexcited carriers were studied in In0.3Ga0.7N nanodisks (NDs) fabricated from quantum wells (QWs) by neutral-beam etching using bio-na...", "citations": 2, "author_count": 9, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7766, "doi": "10.1063/1.5027627", "umap_coordinates": { "x": 393.2074279785156, "y": 134.33299255371094, "z": 207.47311401367188 }, "tsne_coordinates": { "x": 32.188392639160156, "y": -17.295106887817383, "z": -1.3549859523773193 }, "pca_coordinates": { "x": -0.5635284185409546, "y": -2.8437905311584473, "z": 0.4530455470085144 }, "axis_scores": { "Quantum imaging": 0.7005525231361389, "Quantum Life Science Sensing": 0.7083173394203186, "Quantum sensing Detection": 0.6841639280319214, "Quantum sensing Metrology": 0.6655313968658447, "Quantum sensing navigation": 0.6763288974761963, "Quantum sensing Position": 0.6504243612289429, "Quantum sensing Timing": 0.6707882881164551, "Quantum sensing": 0.6914293766021729, "Quantum control": 0.6659634113311768 } }, { "id": 7759, "title": "The role of dephasing for dark state coupling in a molecular Tavis-Cummings model", "abstract": "The collective coupling of an ensemble of molecules to a light field is commonly described by the Tavis-Cummings model. This model includes numerous eigenstates that are optically decoupled from the o...", "citations": 14, "author_count": 3, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7767, "doi": "10.1063/5.0155302", "umap_coordinates": { "x": 394.2330627441406, "y": 137.4725799560547, "z": 207.3817138671875 }, "tsne_coordinates": { "x": -10.065582275390625, "y": -11.729095458984375, "z": 10.831649780273438 }, "pca_coordinates": { "x": 2.5990238189697266, "y": 3.0191051959991455, "z": -2.3748533725738525 }, "axis_scores": { "Quantum imaging": 0.6745994091033936, "Quantum Life Science Sensing": 0.6865331530570984, "Quantum sensing Detection": 0.6714304089546204, "Quantum sensing Metrology": 0.6555282473564148, "Quantum sensing navigation": 0.6561726331710815, "Quantum sensing Position": 0.6485797762870789, "Quantum sensing Timing": 0.6910572052001953, "Quantum sensing": 0.6777111291885376, "Quantum control": 0.6900871396064758 } }, { "id": 7760, "title": "Deterministic Integration of hBN Emitter in Silicon Nitride Photonic Waveguide", "abstract": "Hybrid integration provides an important avenue for incorporating atom-like solid-state single-photon emitters into photonic platforms that possess no optically-active transitions. Hexagonal boron nit...", "citations": 47, "author_count": 10, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7768, "doi": "10.1002/qute.202100032", "umap_coordinates": { "x": 393.6720886230469, "y": 133.51515197753906, "z": 206.4076385498047 }, "tsne_coordinates": { "x": 15.316855430603027, "y": -14.02819538116455, "z": -22.541606903076172 }, "pca_coordinates": { "x": -0.21814346313476562, "y": -1.267254114151001, "z": 1.6907596588134766 }, "axis_scores": { "Quantum imaging": 0.7521249055862427, "Quantum Life Science Sensing": 0.7358300089836121, "Quantum sensing Detection": 0.7516075372695923, "Quantum sensing Metrology": 0.7571096420288086, "Quantum sensing navigation": 0.7774124145507812, "Quantum sensing Position": 0.7415527105331421, "Quantum sensing Timing": 0.7394833564758301, "Quantum sensing": 0.7570010423660278, "Quantum control": 0.7434954643249512 } }, { "id": 7761, "title": "Signatures for Berezinskii-Kosterlitz-Thouless critical behavior in the planar antiferromagnet BaNi2V2O8", "abstract": "We investigate the critical properties of the spin-1 honeycomb antiferromagnet BaNi2V2O8, both below and above the ordering temperature T-N using neutron diffraction and muon spin rotation measurement...", "citations": 10, "author_count": 10, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7769, "doi": "10.1103/PhysRevB.104.064402", "umap_coordinates": { "x": 393.86138916015625, "y": 136.6272430419922, "z": 209.02923583984375 }, "tsne_coordinates": { "x": -6.724908828735352, "y": -23.895967483520508, "z": 20.854389190673828 }, "pca_coordinates": { "x": 3.005518913269043, "y": -1.0867586135864258, "z": -1.5613436698913574 }, "axis_scores": { "Quantum imaging": 0.688721239566803, "Quantum Life Science Sensing": 0.6842845678329468, "Quantum sensing Detection": 0.6705922484397888, "Quantum sensing Metrology": 0.6685865521430969, "Quantum sensing navigation": 0.6862452030181885, "Quantum sensing Position": 0.6595887541770935, "Quantum sensing Timing": 0.6857390403747559, "Quantum sensing": 0.6771242618560791, "Quantum control": 0.664482831954956 } }, { "id": 7762, "title": "A classical field theory comeback? The classical field viewpoint on triparticle entanglement", "abstract": "We present the fundamentals of a prequantum model with hidden variables of classical field type-prequantum classical statistical field theory (PCSFT). In some sense, this is the comeback of classical ...", "citations": 6, "author_count": 2, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7770, "doi": "10.1088/0031-8949/2011/T143/014013", "umap_coordinates": { "x": 395.64886474609375, "y": 137.6837921142578, "z": 206.2181854248047 }, "tsne_coordinates": { "x": -29.835674285888672, "y": 9.381386756896973, "z": 12.710441589355469 }, "pca_coordinates": { "x": 2.401172161102295, "y": 5.4779839515686035, "z": -1.133908987045288 }, "axis_scores": { "Quantum imaging": 0.7158985137939453, "Quantum Life Science Sensing": 0.7054214477539062, "Quantum sensing Detection": 0.7007701992988586, "Quantum sensing Metrology": 0.6745098233222961, "Quantum sensing navigation": 0.6986764669418335, "Quantum sensing Position": 0.6929261684417725, "Quantum sensing Timing": 0.6866714954376221, "Quantum sensing": 0.7093580961227417, "Quantum control": 0.7133060097694397 } }, { "id": 7763, "title": "Quantum Monte Carlo simulation of thin magnetic films - art. no. 094407", "abstract": "The stochastic series expansion quantum Monte Carlo method is used to study thin ferromagnetic films, described by a Heisenberg model including local anisotropies. The magnetization curve is calculate...", "citations": 69, "author_count": 6, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7771, "doi": "10.1103/PhysRevB.66.094407", "umap_coordinates": { "x": 393.83221435546875, "y": 136.2613525390625, "z": 209.17010498046875 }, "tsne_coordinates": { "x": 4.60464334487915, "y": -32.63854217529297, "z": 14.223183631896973 }, "pca_coordinates": { "x": 4.938745021820068, "y": -0.15430879592895508, "z": -0.4726479649543762 }, "axis_scores": { "Quantum imaging": 0.7540502548217773, "Quantum Life Science Sensing": 0.758764386177063, "Quantum sensing Detection": 0.7404395341873169, "Quantum sensing Metrology": 0.7423279285430908, "Quantum sensing navigation": 0.7449995875358582, "Quantum sensing Position": 0.7140385508537292, "Quantum sensing Timing": 0.7029247283935547, "Quantum sensing": 0.7584306597709656, "Quantum control": 0.7269638776779175 } }, { "id": 7764, "title": "Jungfraujoch: hardware-accelerated dataacquisition system for kilohertz pixel-array X-ray detectors", "abstract": "The JUNGFRAU 4-megapixel (4M) charge-integrating pixel-array detector, when operated at a full 2 kHz frame rate, streams data at a rate of 17 GB s(-1). To operate this detector for macromolecular crys...", "citations": 13, "author_count": 12, "categories": [ "Instruments & Instrumentation" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7772, "doi": "10.1107/S1600577522010268", "umap_coordinates": { "x": 395.6703186035156, "y": 134.24900817871094, "z": 205.89236450195312 }, "tsne_coordinates": { "x": -20.82865333557129, "y": 8.916252136230469, "z": -23.800209045410156 }, "pca_coordinates": { "x": -1.543670415878296, "y": 1.6044448614120483, "z": 1.340470314025879 }, "axis_scores": { "Quantum imaging": 0.7036665678024292, "Quantum Life Science Sensing": 0.6984092593193054, "Quantum sensing Detection": 0.6690338850021362, "Quantum sensing Metrology": 0.6764076948165894, "Quantum sensing navigation": 0.6846119165420532, "Quantum sensing Position": 0.674391508102417, "Quantum sensing Timing": 0.6876303553581238, "Quantum sensing": 0.6896081566810608, "Quantum control": 0.6572232842445374 } }, { "id": 7765, "title": "Electronic structure of antidot superlattices in commensurate magnetic fields", "abstract": "We present a treatment of an interacting two-dimensional electron system moving in a bidirectionally periodic potential and a perpendicular magnetic field. Employing symmetry considerations based on t...", "citations": 3, "author_count": 3, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7773, "doi": "10.1088/0953-8984/13/14/310", "umap_coordinates": { "x": 392.93890380859375, "y": 135.9220428466797, "z": 208.19796752929688 }, "tsne_coordinates": { "x": 12.496585845947266, "y": -28.491230010986328, "z": 16.82830238342285 }, "pca_coordinates": { "x": 2.2786738872528076, "y": -1.7863335609436035, "z": -1.576765775680542 }, "axis_scores": { "Quantum imaging": 0.7092137336730957, "Quantum Life Science Sensing": 0.7042742967605591, "Quantum sensing Detection": 0.6801936626434326, "Quantum sensing Metrology": 0.6981637477874756, "Quantum sensing navigation": 0.6950221061706543, "Quantum sensing Position": 0.7028411626815796, "Quantum sensing Timing": 0.6849696636199951, "Quantum sensing": 0.6918877363204956, "Quantum control": 0.6595892906188965 } }, { "id": 7766, "title": "Ultrafast Ising Machines using spin torque nano-oscillators", "abstract": "Combinatorial optimization problems are known for being particularly hard to solve on traditional von Neumann architectures. This has led to the development of Ising Machines (IMs) based on quantum an...", "citations": 68, "author_count": 7, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7774, "doi": "10.1063/5.0041575", "umap_coordinates": { "x": 394.12042236328125, "y": 134.9237518310547, "z": 207.60223388671875 }, "tsne_coordinates": { "x": 5.558643341064453, "y": -22.474342346191406, "z": 27.72209930419922 }, "pca_coordinates": { "x": 2.445676326751709, "y": -1.9522428512573242, "z": 1.2961971759796143 }, "axis_scores": { "Quantum imaging": 0.7586055994033813, "Quantum Life Science Sensing": 0.7582773566246033, "Quantum sensing Detection": 0.7513575553894043, "Quantum sensing Metrology": 0.7587686777114868, "Quantum sensing navigation": 0.7650437951087952, "Quantum sensing Position": 0.716603696346283, "Quantum sensing Timing": 0.7355960011482239, "Quantum sensing": 0.7701228260993958, "Quantum control": 0.7242680788040161 } }, { "id": 7767, "title": "Measurement of the electron structure function F2e at LEP energies", "abstract": "The hadronic part of the electron structure function F-2(e) has been measured for the first time, using e(+)e(-) data collected by the DELPHI experiment at LEP, at centre-of-mass energies of root s = ...", "citations": 1, "author_count": 344, "categories": [ "Astronomy & Astrophysics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7775, "doi": "10.1016/j.physletb.2014.08.012", "umap_coordinates": { "x": 396.03082275390625, "y": 134.11660766601562, "z": 206.4285125732422 }, "tsne_coordinates": { "x": -24.586423873901367, "y": 10.50327205657959, "z": -11.000359535217285 }, "pca_coordinates": { "x": -0.7285830974578857, "y": 0.11309552192687988, "z": 0.03322380781173706 }, "axis_scores": { "Quantum imaging": 0.720892608165741, "Quantum Life Science Sensing": 0.7530264258384705, "Quantum sensing Detection": 0.7244470119476318, "Quantum sensing Metrology": 0.7353705763816833, "Quantum sensing navigation": 0.7116401195526123, "Quantum sensing Position": 0.7319982647895813, "Quantum sensing Timing": 0.6804433465003967, "Quantum sensing": 0.7295657396316528, "Quantum control": 0.6843828558921814 } }, { "id": 7768, "title": "Classical and quantum kinetics of the Zakharov system - art. no. 082110", "abstract": "A kinetic theory for quantum Langmuir waves interacting nonlinearly with quantum ion-acoustic waves is derived. The formulation allows for a statistical analysis of the quantum correction to the Zakha...", "citations": 104, "author_count": 2, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7776, "doi": "10.1063/1.2012147", "umap_coordinates": { "x": 394.23052978515625, "y": 137.4965057373047, "z": 206.81143188476562 }, "tsne_coordinates": { "x": -13.068052291870117, "y": -16.118677139282227, "z": 32.555763244628906 }, "pca_coordinates": { "x": 3.5270590782165527, "y": 0.6645214557647705, "z": -2.2633137702941895 }, "axis_scores": { "Quantum imaging": 0.7605518102645874, "Quantum Life Science Sensing": 0.7659009695053101, "Quantum sensing Detection": 0.7484784126281738, "Quantum sensing Metrology": 0.7513107061386108, "Quantum sensing navigation": 0.7575358152389526, "Quantum sensing Position": 0.7219166159629822, "Quantum sensing Timing": 0.7330603003501892, "Quantum sensing": 0.7635172605514526, "Quantum control": 0.7714105844497681 } }, { "id": 7769, "title": "Physics of attosecond pulses produced via high harmonic generation", "abstract": "The physics of extreme ultraviolet attosecond pulse trains generated during the interaction between an intense laser pulse and a gas medium is presented, including a simple model based on the solution...", "citations": 20, "author_count": 6, "categories": [ "Education & Educational Research" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7777, "doi": "10.1119/1.3086028", "umap_coordinates": { "x": 395.1070556640625, "y": 134.96148681640625, "z": 207.1424560546875 }, "tsne_coordinates": { "x": -10.445225715637207, "y": -7.552428722381592, "z": -7.474418640136719 }, "pca_coordinates": { "x": 2.344531536102295, "y": 0.24997448921203613, "z": 1.769904613494873 }, "axis_scores": { "Quantum imaging": 0.7200497388839722, "Quantum Life Science Sensing": 0.7238301634788513, "Quantum sensing Detection": 0.7085080742835999, "Quantum sensing Metrology": 0.6992328763008118, "Quantum sensing navigation": 0.6742503046989441, "Quantum sensing Position": 0.6518017053604126, "Quantum sensing Timing": 0.6943378448486328, "Quantum sensing": 0.7179238200187683, "Quantum control": 0.6824833154678345 } }, { "id": 7770, "title": "Energy dependence in dental imaging with Medipix2", "abstract": "The possibility of achieving better contrast in dental images by selecting specific X-ray energies is investigated. By applying both the low- and the high-photon counting energy threshold of the Medip...", "citations": 6, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7778, "doi": "10.1016/j.nima.2005.03.035", "umap_coordinates": { "x": 394.78363037109375, "y": 132.6107635498047, "z": 205.1999969482422 }, "tsne_coordinates": { "x": -12.178269386291504, "y": 12.49632740020752, "z": -15.040111541748047 }, "pca_coordinates": { "x": -3.530651092529297, "y": 1.9059689044952393, "z": 2.101792812347412 }, "axis_scores": { "Quantum imaging": 0.7304799556732178, "Quantum Life Science Sensing": 0.7091418504714966, "Quantum sensing Detection": 0.6920655965805054, "Quantum sensing Metrology": 0.6897347569465637, "Quantum sensing navigation": 0.669521152973175, "Quantum sensing Position": 0.677811324596405, "Quantum sensing Timing": 0.6730035543441772, "Quantum sensing": 0.6986846923828125, "Quantum control": 0.634616494178772 } }, { "id": 7771, "title": "Angular distributions for the C-12(gamma,p)B-11 reaction", "abstract": "Absolute differential cross sections for the C-12(gamma p)B-11 reaction have been measured for low-lying regions of residual excitation energy in B-11. Cross sections with low systematic uncertainties...", "citations": 21, "author_count": 11, "categories": [ "Physics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7780, "doi": "10.1103/PhysRevC.54.3076", "umap_coordinates": { "x": 395.979736328125, "y": 135.2096405029297, "z": 208.2147979736328 }, "tsne_coordinates": { "x": 20.05518341064453, "y": -16.14838218688965, "z": 34.40229797363281 }, "pca_coordinates": { "x": 2.1304266452789307, "y": 1.4035736322402954, "z": 0.5073958039283752 }, "axis_scores": { "Quantum imaging": 0.6794317960739136, "Quantum Life Science Sensing": 0.6860141158103943, "Quantum sensing Detection": 0.6807962656021118, "Quantum sensing Metrology": 0.6619017124176025, "Quantum sensing navigation": 0.6950145363807678, "Quantum sensing Position": 0.6712531447410583, "Quantum sensing Timing": 0.6660088300704956, "Quantum sensing": 0.6876369714736938, "Quantum control": 0.674012303352356 } }, { "id": 7772, "title": "Semiclassical aspects and supersymmetry of bound Dirac states for central pseudo-scalar potentials", "abstract": "Relativistic bound states for a linear, radial pseudo-scalar potential model are discussed. The two radial Dirac components are known to have a close connection to partner states in super-symmetric qu...", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7781, "doi": "10.1088/0031-8949/84/02/025006", "umap_coordinates": { "x": 394.48046875, "y": 137.59461975097656, "z": 207.54591369628906 }, "tsne_coordinates": { "x": -25.51799964904785, "y": -2.4352095127105713, "z": 27.15951156616211 }, "pca_coordinates": { "x": 2.0042879581451416, "y": 1.0797703266143799, "z": -1.0526143312454224 }, "axis_scores": { "Quantum imaging": 0.67522132396698, "Quantum Life Science Sensing": 0.6969559192657471, "Quantum sensing Detection": 0.6637942790985107, "Quantum sensing Metrology": 0.6711233854293823, "Quantum sensing navigation": 0.6907146573066711, "Quantum sensing Position": 0.6808228492736816, "Quantum sensing Timing": 0.6472299695014954, "Quantum sensing": 0.6740759611129761, "Quantum control": 0.6619839668273926 } }, { "id": 7773, "title": "Two-photon excited fluorescence depolarisation experiments: II. The proper response function for analysing TCSPC data", "abstract": "The instrumental response function (IRF) needed for the analyses of fluorescence time-correlated single-photon counting (TCSPC) experiments is usually determined by measuring the Rayleigh scattering (...", "citations": 6, "author_count": 4, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7782, "doi": "10.1016/j.cplett.2005.05.121", "umap_coordinates": { "x": 393.15411376953125, "y": 135.47853088378906, "z": 205.3821258544922 }, "tsne_coordinates": { "x": 13.624831199645996, "y": 5.320568561553955, "z": -32.427459716796875 }, "pca_coordinates": { "x": -2.896146297454834, "y": 0.9141527414321899, "z": -0.6713504791259766 }, "axis_scores": { "Quantum imaging": 0.6863732933998108, "Quantum Life Science Sensing": 0.7142894864082336, "Quantum sensing Detection": 0.6877067685127258, "Quantum sensing Metrology": 0.6651470065116882, "Quantum sensing navigation": 0.6645991206169128, "Quantum sensing Position": 0.6653308272361755, "Quantum sensing Timing": 0.6888288259506226, "Quantum sensing": 0.695495069026947, "Quantum control": 0.6769737601280212 } }, { "id": 7774, "title": "Optical coherence properties of Kramers' rare-earth ions at the nanoscale for quantum applications", "abstract": "Rare Earth (RE) ion doped nanomaterials are promising candidates for a range of quantum technology applications. Among RE ions, the so-called Kramers' ions possess spin transitions in the GHz range at...", "citations": 11, "author_count": 16, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7783, "doi": "10.1103/PhysRevB.108.075107", "umap_coordinates": { "x": 394.7287292480469, "y": 135.62127685546875, "z": 207.53282165527344 }, "tsne_coordinates": { "x": -14.953546524047852, "y": -31.590002059936523, "z": -8.658807754516602 }, "pca_coordinates": { "x": 2.1397287845611572, "y": -0.8835697174072266, "z": -0.5143024921417236 }, "axis_scores": { "Quantum imaging": 0.7659167647361755, "Quantum Life Science Sensing": 0.7790358066558838, "Quantum sensing Detection": 0.7403049468994141, "Quantum sensing Metrology": 0.7361927628517151, "Quantum sensing navigation": 0.7444790005683899, "Quantum sensing Position": 0.7229607105255127, "Quantum sensing Timing": 0.6983881592750549, "Quantum sensing": 0.7567868828773499, "Quantum control": 0.7040771842002869 } }, { "id": 7775, "title": "Electrophoretic transport of latex particles in lipid nanotubes", "abstract": "Lipid vesicles can be connected by membrane nanotubes to build networks with promising bioanalytical properties. Here we characterize electrophoretic transport in such membrane tubes, with a particula...", "citations": 18, "author_count": 6, "categories": [ "Chemistry" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7784, "doi": "10.1021/la700336u", "umap_coordinates": { "x": 393.4300231933594, "y": 134.98580932617188, "z": 205.03558349609375 }, "tsne_coordinates": { "x": 20.973445892333984, "y": 18.737064361572266, "z": 11.426421165466309 }, "pca_coordinates": { "x": -1.2582461833953857, "y": -3.1740851402282715, "z": -1.4427882432937622 }, "axis_scores": { "Quantum imaging": 0.6500840187072754, "Quantum Life Science Sensing": 0.6782171726226807, "Quantum sensing Detection": 0.6455941796302795, "Quantum sensing Metrology": 0.6334099769592285, "Quantum sensing navigation": 0.6750767230987549, "Quantum sensing Position": 0.671502947807312, "Quantum sensing Timing": 0.6217038035392761, "Quantum sensing": 0.6565634608268738, "Quantum control": 0.6388148665428162 } }, { "id": 7776, "title": "Photon wave and particle concepts of an extended electromagnetic theory", "abstract": "Several important questions regarding the photon wave and particle concepts have so far not been fully settled by means of conventional theory which is based on Maxwell's equations. This concerns the ...", "citations": 4, "author_count": 2, "categories": [ "Physics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7785, "doi": "10.1238/Physica.Regular.066a00105", "umap_coordinates": { "x": 395.04791259765625, "y": 136.67474365234375, "z": 206.5127716064453 }, "tsne_coordinates": { "x": -18.445371627807617, "y": -4.420654296875, "z": 19.989763259887695 }, "pca_coordinates": { "x": 1.1604697704315186, "y": 1.8871347904205322, "z": 0.8050976395606995 }, "axis_scores": { "Quantum imaging": 0.7320056557655334, "Quantum Life Science Sensing": 0.7435857653617859, "Quantum sensing Detection": 0.7253596782684326, "Quantum sensing Metrology": 0.7119592428207397, "Quantum sensing navigation": 0.7309392690658569, "Quantum sensing Position": 0.6952358484268188, "Quantum sensing Timing": 0.687544584274292, "Quantum sensing": 0.7290899157524109, "Quantum control": 0.6982129216194153 } }, { "id": 7777, "title": "PHOTOINHIBITION OF PHOTOSYNTHESIS IN INTACT WILLOW LEAVES IN RESPONSE TO MODERATE CHANGES IN LIGHT AND TEMPERATURE", "abstract": "When willow leaves were transferred from 270 to 650-mu-mol m-2 s-1 photosynthetic photon flux density (PPFD), partial photoinhibition developed over the next hours. This was manifested as roughly para...", "citations": 29, "author_count": 4, "categories": [ "Plant Sciences" ], "year": 1991, "topic": [ "all" ], "embedding_index": 7786, "doi": "10.1111/j.1399-3054.1991.tb00110.x", "umap_coordinates": { "x": 394.53985595703125, "y": 136.21237182617188, "z": 203.549072265625 }, "tsne_coordinates": { "x": 8.371819496154785, "y": 34.737548828125, "z": 14.985630989074707 }, "pca_coordinates": { "x": -1.6322693824768066, "y": 1.3328514099121094, "z": -0.5628225803375244 }, "axis_scores": { "Quantum imaging": 0.6842145919799805, "Quantum Life Science Sensing": 0.7144307494163513, "Quantum sensing Detection": 0.6855303645133972, "Quantum sensing Metrology": 0.6816785931587219, "Quantum sensing navigation": 0.6469641923904419, "Quantum sensing Position": 0.6398043036460876, "Quantum sensing Timing": 0.6704589128494263, "Quantum sensing": 0.6979213953018188, "Quantum control": 0.6782462000846863 } }, { "id": 7778, "title": "Frequency shifting of light via multiple ultrasound waves in scattering media", "abstract": "We derive analytical expressions to describe how light is frequency-shifted when interacting with ultrasound within scattering media, due to the modulation of the refractive index induced by the ultra...", "citations": 1, "author_count": 2, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7787, "doi": "10.1364/BOE.541721", "umap_coordinates": { "x": 394.4954528808594, "y": 134.69898986816406, "z": 206.20326232910156 }, "tsne_coordinates": { "x": -3.1457643508911133, "y": -9.92758560180664, "z": -25.156946182250977 }, "pca_coordinates": { "x": -1.1869810819625854, "y": 0.9535181522369385, "z": 1.4320526123046875 }, "axis_scores": { "Quantum imaging": 0.7219421863555908, "Quantum Life Science Sensing": 0.7009616494178772, "Quantum sensing Detection": 0.7005112171173096, "Quantum sensing Metrology": 0.6908884048461914, "Quantum sensing navigation": 0.6950096487998962, "Quantum sensing Position": 0.6879799365997314, "Quantum sensing Timing": 0.6943700909614563, "Quantum sensing": 0.7115961909294128, "Quantum control": 0.6836179494857788 } }, { "id": 7779, "title": "Imaging the influence of oxides on the electrostatic potential of photovoltaic InP nanowires", "abstract": "Nanowires require surface passivation due to their inherent large surface to volume ratio. We investigate the effect of embedding InP nanowires in different oxides with respect to surface passivation ...", "citations": 7, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7788, "doi": "10.1007/s12274-021-3344-9", "umap_coordinates": { "x": 392.0191650390625, "y": 134.15460205078125, "z": 207.4805450439453 }, "tsne_coordinates": { "x": 26.940813064575195, "y": -8.439201354980469, "z": 8.226840019226074 }, "pca_coordinates": { "x": -2.9338197708129883, "y": -3.112091541290283, "z": 0.4485674500465393 }, "axis_scores": { "Quantum imaging": 0.7220693826675415, "Quantum Life Science Sensing": 0.7075990438461304, "Quantum sensing Detection": 0.6876406073570251, "Quantum sensing Metrology": 0.6788603067398071, "Quantum sensing navigation": 0.6933887004852295, "Quantum sensing Position": 0.6909483075141907, "Quantum sensing Timing": 0.6525107622146606, "Quantum sensing": 0.6942343711853027, "Quantum control": 0.6660137176513672 } }, { "id": 7780, "title": "Photophysics of BODIPY Dyes as Readily-Designable Photosensitisers in Light-Driven Proton Reduction", "abstract": "A series of boron dipyrromethene (BODIPY) dyes was tested as photosensitisers for light-driven hydrogen evolution in combination with the complex [Pd(PPh3)Cl-2](2) as a source for catalytically-active...", "citations": 33, "author_count": 10, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7789, "doi": "10.3390/inorganics5020021", "umap_coordinates": { "x": 392.50885009765625, "y": 135.9061279296875, "z": 204.40670776367188 }, "tsne_coordinates": { "x": -3.0496761798858643, "y": 5.32658576965332, "z": -5.043307781219482 }, "pca_coordinates": { "x": -3.4438529014587402, "y": -1.389627456665039, "z": -2.8696703910827637 }, "axis_scores": { "Quantum imaging": 0.6897132396697998, "Quantum Life Science Sensing": 0.7451134920120239, "Quantum sensing Detection": 0.6887040138244629, "Quantum sensing Metrology": 0.6750826239585876, "Quantum sensing navigation": 0.6626499891281128, "Quantum sensing Position": 0.6516961455345154, "Quantum sensing Timing": 0.6382693648338318, "Quantum sensing": 0.7099295854568481, "Quantum control": 0.6653391122817993 } }, { "id": 7781, "title": "Current-voltage analysis of a tunneling emitter-undoped single quantum well infrared photodetector", "abstract": "The electrical behavior of a tunneling emitter-undoped single quantum well infrared photodetector structure was studied theoretically and compared with experimental results. In order to understand the...", "citations": 2, "author_count": 5, "categories": [ "Physics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7790, "doi": "10.1063/1.373581", "umap_coordinates": { "x": 393.9664306640625, "y": 133.56040954589844, "z": 208.29725646972656 }, "tsne_coordinates": { "x": 29.98638916015625, "y": -21.326087951660156, "z": -11.1095552444458 }, "pca_coordinates": { "x": 0.40024304389953613, "y": -3.1077542304992676, "z": 3.686058521270752 }, "axis_scores": { "Quantum imaging": 0.711042046546936, "Quantum Life Science Sensing": 0.7297043800354004, "Quantum sensing Detection": 0.718599796295166, "Quantum sensing Metrology": 0.7031877636909485, "Quantum sensing navigation": 0.6850479245185852, "Quantum sensing Position": 0.6698453426361084, "Quantum sensing Timing": 0.6580889821052551, "Quantum sensing": 0.7239174842834473, "Quantum control": 0.6630807518959045 } }, { "id": 7782, "title": "Some silicon-based heterostructures for optical applications", "abstract": "In this paper, we will present our recent research on the growth and characterization of some Si-based heterostructures for optical and photonic devices. The heterostructures to be discussed are ZnO n...", "citations": 5, "author_count": 5, "categories": [ "Engineering" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7791, "doi": "10.1007/s11664-005-0059-8", "umap_coordinates": { "x": 393.7774353027344, "y": 134.2714385986328, "z": 206.01406860351562 }, "tsne_coordinates": { "x": -16.395061492919922, "y": -5.09293794631958, "z": -24.250333786010742 }, "pca_coordinates": { "x": -2.4327454566955566, "y": -1.0516924858093262, "z": 1.66340970993042 }, "axis_scores": { "Quantum imaging": 0.6599183082580566, "Quantum Life Science Sensing": 0.6570554971694946, "Quantum sensing Detection": 0.6302139759063721, "Quantum sensing Metrology": 0.6432428359985352, "Quantum sensing navigation": 0.6403515338897705, "Quantum sensing Position": 0.6425409317016602, "Quantum sensing Timing": 0.6465948820114136, "Quantum sensing": 0.6467745304107666, "Quantum control": 0.6177003383636475 } }, { "id": 7783, "title": "Waveguide quantum electrodynamics with superconducting artificial giant atoms", "abstract": "Models of light-matter interactions in quantum electrodynamics typically invoke the dipole approximation(1,2), in which atoms are treated as point-like objects when compared to the wavelength of the e...", "citations": 291, "author_count": 18, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7792, "doi": "10.1038/s41586-020-2529-9", "umap_coordinates": { "x": 394.52825927734375, "y": 135.20977783203125, "z": 207.4330596923828 }, "tsne_coordinates": { "x": -17.224369049072266, "y": -21.531518936157227, "z": -13.961065292358398 }, "pca_coordinates": { "x": 2.130110740661621, "y": -1.4964518547058105, "z": 2.089996814727783 }, "axis_scores": { "Quantum imaging": 0.7274466753005981, "Quantum Life Science Sensing": 0.7165800333023071, "Quantum sensing Detection": 0.7291288375854492, "Quantum sensing Metrology": 0.7169994115829468, "Quantum sensing navigation": 0.7542980313301086, "Quantum sensing Position": 0.7055022120475769, "Quantum sensing Timing": 0.7026655077934265, "Quantum sensing": 0.7381604313850403, "Quantum control": 0.7054416537284851 } }, { "id": 7784, "title": "Understanding the impact of steam pretreatment severity on cellulose ultrastructure, recalcitrance, and hydrolyzability of Norway spruce", "abstract": "The efficient use of softwood in biorefineries requires harsh pretreatment conditions to overcome biomass recalcitrance. Following harsh pretreatments, the hemicellulose is solubilized. Here, we studi...", "citations": 13, "author_count": 7, "categories": [ "Energy & Fuels" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7793, "doi": "10.1007/s13399-022-03405-0", "umap_coordinates": { "x": 393.529541015625, "y": 136.31088256835938, "z": 203.87176513671875 }, "tsne_coordinates": { "x": 25.82847785949707, "y": 35.547935485839844, "z": 1.378428339958191 }, "pca_coordinates": { "x": -3.279142379760742, "y": 2.798417329788208, "z": -1.4275074005126953 }, "axis_scores": { "Quantum imaging": 0.669593870639801, "Quantum Life Science Sensing": 0.7071495652198792, "Quantum sensing Detection": 0.6471365094184875, "Quantum sensing Metrology": 0.6344119906425476, "Quantum sensing navigation": 0.6562742590904236, "Quantum sensing Position": 0.641511082649231, "Quantum sensing Timing": 0.6270887851715088, "Quantum sensing": 0.6668597459793091, "Quantum control": 0.6445299983024597 } }, { "id": 7785, "title": "Towards a Field Model of Prequantum Reality", "abstract": "We start with an extended review of classical field approaches to quantum mechanics (QM). In particular, we present Einstein's dream to exclude particles totally from quantum physics. We also describe...", "citations": 6, "author_count": 2, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7794, "doi": "10.1007/s10701-011-9611-y", "umap_coordinates": { "x": 395.447509765625, "y": 137.0975799560547, "z": 205.7270050048828 }, "tsne_coordinates": { "x": -31.402278900146484, "y": 1.812049150466919, "z": 14.146994590759277 }, "pca_coordinates": { "x": -0.6870577335357666, "y": 4.844206809997559, "z": -0.5809875726699829 }, "axis_scores": { "Quantum imaging": 0.6851357221603394, "Quantum Life Science Sensing": 0.7053356766700745, "Quantum sensing Detection": 0.6825913190841675, "Quantum sensing Metrology": 0.6933798789978027, "Quantum sensing navigation": 0.6936840415000916, "Quantum sensing Position": 0.697322428226471, "Quantum sensing Timing": 0.6758066415786743, "Quantum sensing": 0.6964728832244873, "Quantum control": 0.6828838586807251 } }, { "id": 7786, "title": "Breaking the mold: Rethinking defects in Pb-free vacancy ordered perovskite for enhanced CO2 reduction and supercapacitor functionality", "abstract": "The growth of hybrid halide perovskite single crystals has gathered significant attention due to their low trap density and fewer defects, which make them promising candidates for enhancing the perfor...", "citations": 4, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7795, "doi": "10.1016/j.mtchem.2024.101949", "umap_coordinates": { "x": 391.9254455566406, "y": 134.35874938964844, "z": 205.14227294921875 }, "tsne_coordinates": { "x": 14.172435760498047, "y": -2.4517874717712402, "z": -21.934646606445312 }, "pca_coordinates": { "x": -2.51420259475708, "y": -0.33290576934814453, "z": -2.8969831466674805 }, "axis_scores": { "Quantum imaging": 0.6753051280975342, "Quantum Life Science Sensing": 0.6957375407218933, "Quantum sensing Detection": 0.6698448657989502, "Quantum sensing Metrology": 0.6779198050498962, "Quantum sensing navigation": 0.6779850125312805, "Quantum sensing Position": 0.6675353050231934, "Quantum sensing Timing": 0.6752697229385376, "Quantum sensing": 0.6874088048934937, "Quantum control": 0.6802995800971985 } }, { "id": 7787, "title": "Low turn-on voltage of doped organic light emitting diodes based on food dyes", "abstract": "Three derivatives of food azo dye were investigated (Dyes 1, 2 and 4) by theoretical and experimental tools. Photophysical properties, based on theoretical estimations, experimental evaluations, elect...", "citations": 6, "author_count": 5, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7796, "doi": "10.1016/j.rineng.2020.100099", "umap_coordinates": { "x": 393.0927429199219, "y": 134.12841796875, "z": 204.35060119628906 }, "tsne_coordinates": { "x": 18.290834426879883, "y": 17.61130142211914, "z": -1.3494648933410645 }, "pca_coordinates": { "x": -4.075229644775391, "y": -0.430661678314209, "z": -0.5747513771057129 }, "axis_scores": { "Quantum imaging": 0.6642402410507202, "Quantum Life Science Sensing": 0.7160786986351013, "Quantum sensing Detection": 0.6776584386825562, "Quantum sensing Metrology": 0.6391820311546326, "Quantum sensing navigation": 0.6516607999801636, "Quantum sensing Position": 0.642064094543457, "Quantum sensing Timing": 0.6189767122268677, "Quantum sensing": 0.6791414618492126, "Quantum control": 0.6569453477859497 } }, { "id": 7788, "title": "Supramolecularly Caged Green-Emitting Ionic Ir(III)-Based Complex with Fluorinated CN Ligands and Its Application in Light-Emitting Electrochemical Cells", "abstract": "Ionic Ir(III) complexes are the most promising emitters in light emitting electrochemical cells (LECs), especially in the high energy emission range for which it is difficult to find emitters with suf...", "citations": 18, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7797, "doi": "10.1021/acsami.7b18159", "umap_coordinates": { "x": 391.9547119140625, "y": 134.71102905273438, "z": 204.47145080566406 }, "tsne_coordinates": { "x": 17.417137145996094, "y": 6.4757232666015625, "z": -24.7568359375 }, "pca_coordinates": { "x": -3.7223598957061768, "y": -1.8414616584777832, "z": -1.7875797748565674 }, "axis_scores": { "Quantum imaging": 0.6849080324172974, "Quantum Life Science Sensing": 0.7078496813774109, "Quantum sensing Detection": 0.6807093620300293, "Quantum sensing Metrology": 0.6537891626358032, "Quantum sensing navigation": 0.669791042804718, "Quantum sensing Position": 0.6422734260559082, "Quantum sensing Timing": 0.615705132484436, "Quantum sensing": 0.6857594847679138, "Quantum control": 0.6475169062614441 } }, { "id": 7789, "title": "Toward Complete Sequence Flexibility of Nucleic Acid Base Analogue FRET", "abstract": "Forster resonance energy transfer (FRET) using fluorescent base analogues is a powerful means of obtaining high-resolution nucleic acid structure and dynamics information that favorably complements te...", "citations": 53, "author_count": 10, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7798, "doi": "10.1021/jacs.7b04517", "umap_coordinates": { "x": 392.5542297363281, "y": 136.47764587402344, "z": 204.67979431152344 }, "tsne_coordinates": { "x": 8.659832000732422, "y": 10.49710464477539, "z": 6.694760799407959 }, "pca_coordinates": { "x": -1.4747904539108276, "y": 0.35317087173461914, "z": -2.6008596420288086 }, "axis_scores": { "Quantum imaging": 0.677935004234314, "Quantum Life Science Sensing": 0.7048404216766357, "Quantum sensing Detection": 0.6671411991119385, "Quantum sensing Metrology": 0.6704655885696411, "Quantum sensing navigation": 0.6921036243438721, "Quantum sensing Position": 0.683454155921936, "Quantum sensing Timing": 0.6754823327064514, "Quantum sensing": 0.6897493600845337, "Quantum control": 0.6912611126899719 } }, { "id": 7790, "title": "Anisotropic non-gaussianity from rotational symmetry breaking excited initial states", "abstract": "If the initial quantum state of the primordial perturbations broke rotational invariance, that would be seen as a statistical anisotropy in the angular correlations of the cosmic microwave background ...", "citations": 14, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7799, "doi": "10.1088/1475-7516/2016/12/002", "umap_coordinates": { "x": 394.1203308105469, "y": 136.73495483398438, "z": 206.99913024902344 }, "tsne_coordinates": { "x": -1.8949297666549683, "y": -10.667230606079102, "z": 33.72391891479492 }, "pca_coordinates": { "x": 1.2498459815979004, "y": 2.8663759231567383, "z": -1.1373969316482544 }, "axis_scores": { "Quantum imaging": 0.7184786200523376, "Quantum Life Science Sensing": 0.6755697131156921, "Quantum sensing Detection": 0.6783722639083862, "Quantum sensing Metrology": 0.6602832078933716, "Quantum sensing navigation": 0.707838773727417, "Quantum sensing Position": 0.6574057340621948, "Quantum sensing Timing": 0.6376969814300537, "Quantum sensing": 0.6890652179718018, "Quantum control": 0.6893956661224365 } }, { "id": 7791, "title": "Silicon nanocrystals in SiNx/SiO2 hetero-superlattices: The loss of size control after thermal annealing", "abstract": "Superlattices containing 3 nm thick silicon rich silicon nitride sublayers and 3 nm and 10 nm thick SiO2 barriers were prepared by plasma enhanced chemical vapor deposition. Despite the as-prepared sa...", "citations": 21, "author_count": 12, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7800, "doi": "10.1063/1.4884839", "umap_coordinates": { "x": 392.7493896484375, "y": 133.4413604736328, "z": 207.66339111328125 }, "tsne_coordinates": { "x": 35.145328521728516, "y": -10.633570671081543, "z": -5.411152362823486 }, "pca_coordinates": { "x": 0.034224867820739746, "y": -3.1506662368774414, "z": 0.5078577399253845 }, "axis_scores": { "Quantum imaging": 0.7257789373397827, "Quantum Life Science Sensing": 0.7387335896492004, "Quantum sensing Detection": 0.725723922252655, "Quantum sensing Metrology": 0.7406685948371887, "Quantum sensing navigation": 0.7011538743972778, "Quantum sensing Position": 0.7082619071006775, "Quantum sensing Timing": 0.6989123225212097, "Quantum sensing": 0.7489507794380188, "Quantum control": 0.7275787591934204 } }, { "id": 7792, "title": "A high constitutive catalase activity confers resistance to methyl viologen-promoted oxidative stress in a mutant of the cyanobacterium Nostoc punctiforme ATCC 29133", "abstract": "A spontaneous methyl viologen (MV)-resistant mutant of the nitrogen-fixing cyanobacterium Nostoc punctiforme ATCC 29133 was isolated and the major enzymatic antioxidants involved in combating MV-induc...", "citations": 13, "author_count": 6, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7801, "doi": "10.1007/s00253-013-5443-3", "umap_coordinates": { "x": 393.7776794433594, "y": 135.57217407226562, "z": 203.9150390625 }, "tsne_coordinates": { "x": 15.266498565673828, "y": 30.084020614624023, "z": 5.057971954345703 }, "pca_coordinates": { "x": -3.2350282669067383, "y": 0.12866783142089844, "z": -1.9307360649108887 }, "axis_scores": { "Quantum imaging": 0.668937623500824, "Quantum Life Science Sensing": 0.6859260201454163, "Quantum sensing Detection": 0.6808654069900513, "Quantum sensing Metrology": 0.6672291159629822, "Quantum sensing navigation": 0.6695553064346313, "Quantum sensing Position": 0.6621106266975403, "Quantum sensing Timing": 0.6484572887420654, "Quantum sensing": 0.6846427321434021, "Quantum control": 0.6900717616081238 } }, { "id": 7793, "title": "Dendritic Spine Instability Leads to Progressive Neocortical Spine Loss in a Mouse Model of Huntington's Disease", "abstract": "In Huntington's disease (HD), cognitive symptoms and cellular dysfunction precede the onset of classical motor symptoms and neuronal death in the striatum and cortex by almost a decade. This suggests ...", "citations": 90, "author_count": 5, "categories": [ "Neurosciences & Neurology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7802, "doi": "10.1523/JNEUROSCI.5284-12.2013", "umap_coordinates": { "x": 394.7586975097656, "y": 135.17486572265625, "z": 204.87998962402344 }, "tsne_coordinates": { "x": -3.401228666305542, "y": 24.435638427734375, "z": 7.6645188331604 }, "pca_coordinates": { "x": -0.4187889099121094, "y": 1.1621079444885254, "z": -1.2849774360656738 }, "axis_scores": { "Quantum imaging": 0.6871325373649597, "Quantum Life Science Sensing": 0.6743189692497253, "Quantum sensing Detection": 0.6579391360282898, "Quantum sensing Metrology": 0.6440852880477905, "Quantum sensing navigation": 0.7071447968482971, "Quantum sensing Position": 0.6450839042663574, "Quantum sensing Timing": 0.6241415143013, "Quantum sensing": 0.6661044955253601, "Quantum control": 0.673677384853363 } }, { "id": 7794, "title": "Determination of the detective quantum efficiency of gamma camera systems: a Monte Carlo study", "abstract": "The purpose of the present work was to investigate the validity of using the Monte Carlo technique for determining the detective quantum efficiency (DQE) of a gamma camera system and to use this techn...", "citations": 2, "author_count": 4, "categories": [ "Environmental Sciences & Ecology" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7803, "doi": "10.1093/rpd/ncq055", "umap_coordinates": { "x": 395.4192810058594, "y": 132.9048309326172, "z": 205.12191772460938 }, "tsne_coordinates": { "x": -5.989451885223389, "y": 36.37660598754883, "z": -20.768741607666016 }, "pca_coordinates": { "x": -2.128075122833252, "y": 3.241175651550293, "z": 2.353217601776123 }, "axis_scores": { "Quantum imaging": 0.7414602637290955, "Quantum Life Science Sensing": 0.7665186524391174, "Quantum sensing Detection": 0.7593797445297241, "Quantum sensing Metrology": 0.721683919429779, "Quantum sensing navigation": 0.7385320663452148, "Quantum sensing Position": 0.71733158826828, "Quantum sensing Timing": 0.7005377411842346, "Quantum sensing": 0.7449579238891602, "Quantum control": 0.7034428119659424 } }, { "id": 7795, "title": "Effect of tube current on diagnostic image quality in paediatric cerebral multidetector CT images", "abstract": "The aim of this study was to investigate the effect of tube current on diagnostic image quality in paediatric cerebral multidetector CT (MDCT) images in order to identify the minimum radiation dose re...", "citations": 19, "author_count": 7, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7804, "doi": "10.1259/bjr/24404354", "umap_coordinates": { "x": 395.8030090332031, "y": 133.12120056152344, "z": 204.92787170410156 }, "tsne_coordinates": { "x": -3.786386251449585, "y": 31.811573028564453, "z": -14.145368576049805 }, "pca_coordinates": { "x": -1.6029809713363647, "y": 3.52498197555542, "z": 1.9104511737823486 }, "axis_scores": { "Quantum imaging": 0.7209221124649048, "Quantum Life Science Sensing": 0.6853475570678711, "Quantum sensing Detection": 0.6700409650802612, "Quantum sensing Metrology": 0.6505337357521057, "Quantum sensing navigation": 0.6783599257469177, "Quantum sensing Position": 0.6613470315933228, "Quantum sensing Timing": 0.6740860342979431, "Quantum sensing": 0.6752579808235168, "Quantum control": 0.6768956184387207 } }, { "id": 7796, "title": "Ballistic weak localization in regular and chaotic quantum-electron billiards", "abstract": "We report systematic numerical studies of the weak localization (WL) effect in ballistic quantum dots with nominally square geometry similar to that studied in the recent experiments of Bird et al. [P...", "citations": 18, "author_count": 3, "categories": [ "Materials Science" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7805, "doi": "10.1103/PhysRevB.54.5823", "umap_coordinates": { "x": 394.41217041015625, "y": 136.19891357421875, "z": 209.03927612304688 }, "tsne_coordinates": { "x": -4.453853607177734, "y": -37.757598876953125, "z": 3.684950828552246 }, "pca_coordinates": { "x": 5.06868314743042, "y": -0.559577226638794, "z": -1.5896234512329102 }, "axis_scores": { "Quantum imaging": 0.7215451002120972, "Quantum Life Science Sensing": 0.7200098037719727, "Quantum sensing Detection": 0.723108172416687, "Quantum sensing Metrology": 0.6922666430473328, "Quantum sensing navigation": 0.739632248878479, "Quantum sensing Position": 0.7070912718772888, "Quantum sensing Timing": 0.6808615922927856, "Quantum sensing": 0.7273083925247192, "Quantum control": 0.7159639596939087 } }, { "id": 7797, "title": "TRIPLET-STATE 1-FOLD AND 2-FOLD CIS TRANS ISOMERIZATION OF BISSTYRYLARENES - BALANCE BETWEEN DIABATIC AND ADIABATIC MECHANISMS", "abstract": "The mechanism for triplet-sensitized cis-trans photoisomerization of three bisstyrylarenes, 1-3, has been studied by quantum yield measurements and laser flash photolysis. The triplet-state lifetimes ...", "citations": 33, "author_count": 7, "categories": [ "Chemistry" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7806, "doi": "10.1021/j100196a034", "umap_coordinates": { "x": 392.166259765625, "y": 136.15635681152344, "z": 206.02365112304688 }, "tsne_coordinates": { "x": -5.712812423706055, "y": -3.3626630306243896, "z": -13.020468711853027 }, "pca_coordinates": { "x": -0.20398497581481934, "y": -0.08248710632324219, "z": -3.3692851066589355 }, "axis_scores": { "Quantum imaging": 0.6398715972900391, "Quantum Life Science Sensing": 0.6679431796073914, "Quantum sensing Detection": 0.6356402635574341, "Quantum sensing Metrology": 0.6396080255508423, "Quantum sensing navigation": 0.6383543014526367, "Quantum sensing Position": 0.6224191188812256, "Quantum sensing Timing": 0.6531438827514648, "Quantum sensing": 0.6472490429878235, "Quantum control": 0.6378065943717957 } }, { "id": 7798, "title": "Linearly polarized RABBIT beyond the dipole approximation", "abstract": "We theoretically investigate nondipole effects in the reconstruction of attosecond beating by interference of two-photon transitions (RABBIT) of helium using linearly polarized extreme ultraviolet and...", "citations": 3, "author_count": 7, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7807, "doi": "10.1103/PhysRevA.110.023109", "umap_coordinates": { "x": 394.5381164550781, "y": 136.83433532714844, "z": 207.50523376464844 }, "tsne_coordinates": { "x": -24.03782081604004, "y": -13.327778816223145, "z": 17.282384872436523 }, "pca_coordinates": { "x": 1.6456146240234375, "y": 1.0154237747192383, "z": 0.1014968752861023 }, "axis_scores": { "Quantum imaging": 0.6968778967857361, "Quantum Life Science Sensing": 0.7172118425369263, "Quantum sensing Detection": 0.6915459036827087, "Quantum sensing Metrology": 0.6651811003684998, "Quantum sensing navigation": 0.6967358589172363, "Quantum sensing Position": 0.671960175037384, "Quantum sensing Timing": 0.644476056098938, "Quantum sensing": 0.6992563009262085, "Quantum control": 0.66592937707901 } }, { "id": 7799, "title": "Structural properties of the condensate in two-dimensional mesoscopic systems of strongly correlated excitons", "abstract": "A two-dimensional mesoscopic Bose system of dipoles in a 2D trap is considered using computer simulation by the quantum path-integral Monte Carlo method. The model describes a rarefied system of spati...", "citations": 26, "author_count": 4, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7808, "doi": "10.1134/1.1780555", "umap_coordinates": { "x": 393.2835388183594, "y": 136.70553588867188, "z": 207.63369750976562 }, "tsne_coordinates": { "x": 1.3177162408828735, "y": -9.82374095916748, "z": 4.770946979522705 }, "pca_coordinates": { "x": 2.610326051712036, "y": -1.3367254734039307, "z": -2.4487550258636475 }, "axis_scores": { "Quantum imaging": 0.7282143235206604, "Quantum Life Science Sensing": 0.7284478545188904, "Quantum sensing Detection": 0.715862512588501, "Quantum sensing Metrology": 0.7118768692016602, "Quantum sensing navigation": 0.7116079330444336, "Quantum sensing Position": 0.6991063356399536, "Quantum sensing Timing": 0.6957220435142517, "Quantum sensing": 0.7314509153366089, "Quantum control": 0.7148453593254089 } }, { "id": 7800, "title": "Printed Thin Magnetic Films via Ternary Hybrid Diblock Copolymer Films Containing Magnetic Iron Oxide and Nickel Nanoparticles", "abstract": "Ternary hybrid thin films composed of a diblock copolymer templating two types of nanoparticles (NPs) expand the functionality of binary systems, which renders them interesting for magnetic sensing or...", "citations": 1, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7809, "doi": "10.1021/acsami.4c18920", "umap_coordinates": { "x": 392.463134765625, "y": 134.41622924804688, "z": 205.6279754638672 }, "tsne_coordinates": { "x": 16.87311553955078, "y": -19.704198837280273, "z": -31.918636322021484 }, "pca_coordinates": { "x": -1.9168035984039307, "y": -3.1426820755004883, "z": -0.6816893815994263 }, "axis_scores": { "Quantum imaging": 0.7182058691978455, "Quantum Life Science Sensing": 0.6950942277908325, "Quantum sensing Detection": 0.6820573806762695, "Quantum sensing Metrology": 0.6778319478034973, "Quantum sensing navigation": 0.6764609217643738, "Quantum sensing Position": 0.6728377342224121, "Quantum sensing Timing": 0.6510761976242065, "Quantum sensing": 0.7028496861457825, "Quantum control": 0.6685491800308228 } }, { "id": 7801, "title": "VE-cadherin in arachnoid and pia mater cells serves as a suitable landmark for in vivo imaging of CNS immune surveillance and inflammation", "abstract": "Meninges cover the surface of the brain and spinal cord and contribute to protection and immune surveillance of the central nervous system (CNS). How the meningeal layers establish CNS compartments wi...", "citations": 44, "author_count": 15, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7810, "doi": "10.1038/s41467-023-41580-4", "umap_coordinates": { "x": 395.01116943359375, "y": 134.40414428710938, "z": 204.4155731201172 }, "tsne_coordinates": { "x": 0.2697746753692627, "y": 25.95003318786621, "z": 1.825215458869934 }, "pca_coordinates": { "x": -3.5183911323547363, "y": 2.084745407104492, "z": 0.5098766684532166 }, "axis_scores": { "Quantum imaging": 0.7357450723648071, "Quantum Life Science Sensing": 0.7046886086463928, "Quantum sensing Detection": 0.6760417819023132, "Quantum sensing Metrology": 0.6740330457687378, "Quantum sensing navigation": 0.7161114811897278, "Quantum sensing Position": 0.7058362364768982, "Quantum sensing Timing": 0.6900069117546082, "Quantum sensing": 0.6890905499458313, "Quantum control": 0.6739844679832458 } }, { "id": 7802, "title": "Exogenous sodium sulfide improves morphological and physiological responses of a hybrid Populus species to nitrogen dioxide", "abstract": "Gaseous nitrogen dioxide (NO2) can disturb normal plant growth and trigger complex physiological responses. NO2-induced responses are influenced by biotic or abiotic factors. In this study, we investi...", "citations": 22, "author_count": 6, "categories": [ "Plant Sciences" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7811, "doi": "10.1016/j.jplph.2013.10.018", "umap_coordinates": { "x": 394.29150390625, "y": 135.70639038085938, "z": 203.57534790039062 }, "tsne_coordinates": { "x": 15.29712963104248, "y": 29.431236267089844, "z": 11.511143684387207 }, "pca_coordinates": { "x": -3.6772727966308594, "y": 0.7657654285430908, "z": -2.3838281631469727 }, "axis_scores": { "Quantum imaging": 0.6679031848907471, "Quantum Life Science Sensing": 0.6878470778465271, "Quantum sensing Detection": 0.6558335423469543, "Quantum sensing Metrology": 0.6388176083564758, "Quantum sensing navigation": 0.6610689759254456, "Quantum sensing Position": 0.6711594462394714, "Quantum sensing Timing": 0.6490820646286011, "Quantum sensing": 0.6789198517799377, "Quantum control": 0.6797277331352234 } }, { "id": 7803, "title": "A method to analyse observer disagreement in visual grading studies: example of assessed image quality in paediatric cerebral multidetector CT images", "abstract": "The purpose was to demonstrate a non-parametric statistical method that can identify and explain the components of observer disagreement in terms of systematic disagreement as well as additional indiv...", "citations": 22, "author_count": 6, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7812, "doi": "10.1259/bjr/26723788", "umap_coordinates": { "x": 395.7850646972656, "y": 133.05584716796875, "z": 204.90472412109375 }, "tsne_coordinates": { "x": -3.7066941261291504, "y": 32.14690017700195, "z": -14.289474487304688 }, "pca_coordinates": { "x": -2.332183599472046, "y": 4.800330638885498, "z": 1.3821473121643066 }, "axis_scores": { "Quantum imaging": 0.6928102374076843, "Quantum Life Science Sensing": 0.655570924282074, "Quantum sensing Detection": 0.6533264517784119, "Quantum sensing Metrology": 0.6597180366516113, "Quantum sensing navigation": 0.6642456650733948, "Quantum sensing Position": 0.6547546982765198, "Quantum sensing Timing": 0.6566044688224792, "Quantum sensing": 0.6600532531738281, "Quantum control": 0.6538259983062744 } }, { "id": 7804, "title": "Application of an XMM-Newton epic Monte Carlo technique to analysis and interpretation of data for the abell 1689, RX J0658-55, and centaurus clusters of galaxies", "abstract": "We propose a new Monte Carlo method to study extended X-ray sources with the European Photon Imaging Camera (EPIC) aboard XMM-Newton. The smoothed particle inference (SPI) technique, described in a co...", "citations": 13, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7813, "doi": "10.1086/521915", "umap_coordinates": { "x": 396.33099365234375, "y": 134.98219299316406, "z": 205.72994995117188 }, "tsne_coordinates": { "x": -33.88850784301758, "y": 26.609031677246094, "z": -0.8298715949058533 }, "pca_coordinates": { "x": -1.2854259014129639, "y": 3.4930925369262695, "z": 1.1853482723236084 }, "axis_scores": { "Quantum imaging": 0.6569308042526245, "Quantum Life Science Sensing": 0.659519612789154, "Quantum sensing Detection": 0.65076744556427, "Quantum sensing Metrology": 0.6414968967437744, "Quantum sensing navigation": 0.6730014681816101, "Quantum sensing Position": 0.6456142663955688, "Quantum sensing Timing": 0.6681941747665405, "Quantum sensing": 0.6517565250396729, "Quantum control": 0.6375073790550232 } }, { "id": 7805, "title": "The Chlamydomonas reinhardtii cia3 mutant lacking a thylakoid lumen-localized carbonic anhydrase is limited by CO2 supply to rubisco and not photosystem II function in vivo", "abstract": "The Chlamydomonas reinhardtii cia3 mutant has a phenotype indicating that it requires high-CO2 levels for effective photosynthesis and growth. It was initially proposed that this mutant was defective ...", "citations": 72, "author_count": 5, "categories": [ "Plant Sciences" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7814, "doi": "10.1104/pp.103.023481", "umap_coordinates": { "x": 394.60748291015625, "y": 136.01083374023438, "z": 203.9943084716797 }, "tsne_coordinates": { "x": 6.349475383758545, "y": 33.55533981323242, "z": 8.147915840148926 }, "pca_coordinates": { "x": -1.3189539909362793, "y": 1.777645468711853, "z": -0.25669318437576294 }, "axis_scores": { "Quantum imaging": 0.7088736891746521, "Quantum Life Science Sensing": 0.7106050848960876, "Quantum sensing Detection": 0.7071885466575623, "Quantum sensing Metrology": 0.698443591594696, "Quantum sensing navigation": 0.7030129432678223, "Quantum sensing Position": 0.6934976577758789, "Quantum sensing Timing": 0.6823753118515015, "Quantum sensing": 0.7203038930892944, "Quantum control": 0.7134595513343811 } }, { "id": 7806, "title": "Polarized and non-polarized Raman spectroscopy of ZnO crystals: Method for determination of crystal growth and crystal plane orientation for nanomaterials", "abstract": "Analysis and determination of crystal orientation and exposed surface facets remain a challenge in nanomaterial science. In this work, we show that polarized and non-polarized Raman spectroscopy can b...", "citations": 35, "author_count": 4, "categories": [ "Spectroscopy" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7815, "doi": "10.1002/jrs.6148", "umap_coordinates": { "x": 393.0867614746094, "y": 134.85488891601562, "z": 205.61976623535156 }, "tsne_coordinates": { "x": 29.923049926757812, "y": 2.2780745029449463, "z": 1.8362836837768555 }, "pca_coordinates": { "x": -3.271437168121338, "y": -2.0078177452087402, "z": -0.21853414177894592 }, "axis_scores": { "Quantum imaging": 0.7198437452316284, "Quantum Life Science Sensing": 0.757026731967926, "Quantum sensing Detection": 0.7144539952278137, "Quantum sensing Metrology": 0.727674663066864, "Quantum sensing navigation": 0.725662112236023, "Quantum sensing Position": 0.6944500207901001, "Quantum sensing Timing": 0.6636329293251038, "Quantum sensing": 0.729797899723053, "Quantum control": 0.6912118196487427 } }, { "id": 7807, "title": "Design and Characterization of Ethosomes for Transdermal Delivery of Caffeic Acid", "abstract": "The present investigation describes a formulative study aimed at designing ethosomes for caffeic acid transdermal administration. Since caffeic acid is characterized by antioxidant potential but also ...", "citations": 65, "author_count": 11, "categories": [ "Pharmacology & Pharmacy" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7816, "doi": "10.3390/pharmaceutics12080740", "umap_coordinates": { "x": 393.43963623046875, "y": 134.7528533935547, "z": 204.2076873779297 }, "tsne_coordinates": { "x": 31.760208129882812, "y": 21.505704879760742, "z": -11.23559284210205 }, "pca_coordinates": { "x": -4.598559379577637, "y": 2.5079989433288574, "z": -3.4822497367858887 }, "axis_scores": { "Quantum imaging": 0.6873915195465088, "Quantum Life Science Sensing": 0.7148423194885254, "Quantum sensing Detection": 0.6528030633926392, "Quantum sensing Metrology": 0.6726042628288269, "Quantum sensing navigation": 0.6671386361122131, "Quantum sensing Position": 0.6320755481719971, "Quantum sensing Timing": 0.6395682692527771, "Quantum sensing": 0.6733447313308716, "Quantum control": 0.693497896194458 } }, { "id": 7808, "title": "Graphene and other 2D materials: a multidisciplinary analysis to uncover the hidden potential as cancer theranostics", "abstract": "Cancer represents one of the main causes of death in the world; hence the development of more specific approaches for its diagnosis and treatment is urgently needed in clinical practice. Here we aim a...", "citations": 109, "author_count": 13, "categories": [ "Research & Experimental Medicine" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7817, "doi": "10.7150/thno.40068", "umap_coordinates": { "x": 393.420654296875, "y": 134.10069274902344, "z": 204.10414123535156 }, "tsne_coordinates": { "x": 18.637218475341797, "y": 29.359817504882812, "z": -11.696109771728516 }, "pca_coordinates": { "x": -2.537874698638916, "y": 0.433046817779541, "z": -1.6125938892364502 }, "axis_scores": { "Quantum imaging": 0.6961187124252319, "Quantum Life Science Sensing": 0.7131563425064087, "Quantum sensing Detection": 0.6750550270080566, "Quantum sensing Metrology": 0.6614245176315308, "Quantum sensing navigation": 0.6735705137252808, "Quantum sensing Position": 0.6539826989173889, "Quantum sensing Timing": 0.6558181047439575, "Quantum sensing": 0.6905903220176697, "Quantum control": 0.6765173673629761 } }, { "id": 7809, "title": "Fluctuating potentials in GaAs:Si nanowires: critical reduction of the influence of polytypism on the electronic structure", "abstract": "In this work, the effects of Si doping in GaAs nanowires (NWs) grown on GaAs (111) B by molecular beam epitaxy with different Si doping levels (nominal free carrier concentrations of 1 x 10(16), 8 x 1...", "citations": 14, "author_count": 13, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7818, "doi": "10.1039/c7nr08395e", "umap_coordinates": { "x": 392.3735656738281, "y": 134.94296264648438, "z": 207.4893035888672 }, "tsne_coordinates": { "x": 21.838468551635742, "y": -15.022550582885742, "z": -9.457860946655273 }, "pca_coordinates": { "x": 1.3190109729766846, "y": -1.9553380012512207, "z": -2.0428051948547363 }, "axis_scores": { "Quantum imaging": 0.6972634792327881, "Quantum Life Science Sensing": 0.7226364612579346, "Quantum sensing Detection": 0.691372275352478, "Quantum sensing Metrology": 0.696354866027832, "Quantum sensing navigation": 0.715373158454895, "Quantum sensing Position": 0.7016435265541077, "Quantum sensing Timing": 0.6818513870239258, "Quantum sensing": 0.7115879654884338, "Quantum control": 0.7065679430961609 } }, { "id": 7810, "title": "Electronic Structure Changes Due to Crystal Phase Switching at the Atomic Scale Limit", "abstract": "The perfect switching between crystal phases with different electronic structure in III-V nanowires allows for the design of superstructures with quantum wells only a single atomic layer wide. However...", "citations": 17, "author_count": 8, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7819, "doi": "10.1021/acsnano.7b05873", "umap_coordinates": { "x": 392.077880859375, "y": 135.0874786376953, "z": 206.89071655273438 }, "tsne_coordinates": { "x": 19.535076141357422, "y": -16.434240341186523, "z": -11.106298446655273 }, "pca_coordinates": { "x": 1.12361741065979, "y": -1.9931306838989258, "z": -3.3240954875946045 }, "axis_scores": { "Quantum imaging": 0.7179390788078308, "Quantum Life Science Sensing": 0.7466611266136169, "Quantum sensing Detection": 0.7083423137664795, "Quantum sensing Metrology": 0.7017355561256409, "Quantum sensing navigation": 0.7051416039466858, "Quantum sensing Position": 0.6907587647438049, "Quantum sensing Timing": 0.6745173931121826, "Quantum sensing": 0.7170093655586243, "Quantum control": 0.7123475670814514 } }, { "id": 7811, "title": "The XMM spectral catalog of SDSS optically selected Seyfert 2 galaxies", "abstract": "We present an X-ray spectroscopic study of optically selected (SDSS) Seyfert 2 (Sy2) galaxies. The goal is to study the obscuration of Sy2 galaxies beyond the local universe, using good quality X-ray ...", "citations": 8, "author_count": 10, "categories": [ "Astronomy & Astrophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7820, "doi": "10.1051/0004-6361/201526515", "umap_coordinates": { "x": 396.2716979980469, "y": 135.0420684814453, "z": 205.94190979003906 }, "tsne_coordinates": { "x": -26.423952102661133, "y": 21.82617950439453, "z": 3.488504648208618 }, "pca_coordinates": { "x": -1.6250072717666626, "y": 0.5283172130584717, "z": 1.1996328830718994 }, "axis_scores": { "Quantum imaging": 0.6875911951065063, "Quantum Life Science Sensing": 0.6985371708869934, "Quantum sensing Detection": 0.6738645434379578, "Quantum sensing Metrology": 0.7021760940551758, "Quantum sensing navigation": 0.6899879574775696, "Quantum sensing Position": 0.6803601384162903, "Quantum sensing Timing": 0.657555103302002, "Quantum sensing": 0.686682939529419, "Quantum control": 0.6729466915130615 } }, { "id": 7812, "title": "Influence of strain on the optical properities in bulk and low dimensional semconductor heterostructure based devices", "abstract": "In this paper we review some of the more important achievements in optoelectronics during the last decade. Especial emphasis will be given to strain adjusted devices and the consequences of strain on ...", "citations": 3, "author_count": 5, "categories": [ "Engineering" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7821, "doi": null, "umap_coordinates": { "x": 391.7724914550781, "y": 139.27120971679688, "z": 209.7291259765625 }, "tsne_coordinates": { "x": -6.807848930358887, "y": 46.31734848022461, "z": -4.258587837219238 }, "pca_coordinates": { "x": -2.071864604949951, "y": 0.8766564130783081, "z": -1.29192054271698 }, "axis_scores": { "Quantum imaging": 0.7114091515541077, "Quantum Life Science Sensing": 0.7322710752487183, "Quantum sensing Detection": 0.6997882127761841, "Quantum sensing Metrology": 0.7113814949989319, "Quantum sensing navigation": 0.7032455801963806, "Quantum sensing Position": 0.7024770379066467, "Quantum sensing Timing": 0.6655597686767578, "Quantum sensing": 0.7181804180145264, "Quantum control": 0.7060643434524536 } }, { "id": 7813, "title": "Thermal Emission and Radioactive Lines, but No Pulsar, in the Broadband X-Ray Spectrum of Supernova 1987A", "abstract": "Supernova 1987A offers a unique opportunity to study an evolving supernova in unprecedented detail over several decades. The X-ray emission is dominated by interactions between the ejecta and the circ...", "citations": 23, "author_count": 4, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7822, "doi": "10.3847/1538-4357/ac052d", "umap_coordinates": { "x": 396.30841064453125, "y": 135.02764892578125, "z": 205.98291015625 }, "tsne_coordinates": { "x": -34.226497650146484, "y": 20.218002319335938, "z": 1.2482343912124634 }, "pca_coordinates": { "x": -0.6390503644943237, "y": 1.785462737083435, "z": 1.4748573303222656 }, "axis_scores": { "Quantum imaging": 0.67015540599823, "Quantum Life Science Sensing": 0.6599692106246948, "Quantum sensing Detection": 0.6583314538002014, "Quantum sensing Metrology": 0.6279228925704956, "Quantum sensing navigation": 0.6754429340362549, "Quantum sensing Position": 0.6448858380317688, "Quantum sensing Timing": 0.6684595346450806, "Quantum sensing": 0.6540223360061646, "Quantum control": 0.6243582367897034 } }, { "id": 7814, "title": "A 7-Channel High-Tc SQUID-Based On-Scalp MEG System", "abstract": "Objective: To present the technical design and demonstrate the feasibility of a multi-channel on-scalp magnetoencephalography (MEG) system based on high critical temperature (high-Tc) superconducting ...", "citations": 35, "author_count": 9, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7823, "doi": "10.1109/TBME.2019.2938688", "umap_coordinates": { "x": 394.6437072753906, "y": 134.25730895996094, "z": 206.49549865722656 }, "tsne_coordinates": { "x": -23.010038375854492, "y": 2.355102300643921, "z": -22.44658088684082 }, "pca_coordinates": { "x": -0.5138123631477356, "y": 0.78163743019104, "z": 0.5945677161216736 }, "axis_scores": { "Quantum imaging": 0.6655042171478271, "Quantum Life Science Sensing": 0.6792007684707642, "Quantum sensing Detection": 0.6677094101905823, "Quantum sensing Metrology": 0.6806517839431763, "Quantum sensing navigation": 0.6667372584342957, "Quantum sensing Position": 0.6612535119056702, "Quantum sensing Timing": 0.6863783597946167, "Quantum sensing": 0.6868550777435303, "Quantum control": 0.6581723690032959 } }, { "id": 7815, "title": "On the Design of Host-Guest Light-Emitting Electrochemical Cells: Should the Guest be Physically Blended or Chemically Incorporated into the Host for Efficient Emission?", "abstract": "It has recently been demonstrated that light-emitting electrochemical cells (LECs) can be designed to deliver strong emission with high efficiency when the charge transport is effectuated by a majorit...", "citations": 25, "author_count": 8, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7824, "doi": "10.1002/adom.201900451", "umap_coordinates": { "x": 392.71917724609375, "y": 133.75775146484375, "z": 204.78802490234375 }, "tsne_coordinates": { "x": 27.922502517700195, "y": 10.828662872314453, "z": 5.394378185272217 }, "pca_coordinates": { "x": -2.997471570968628, "y": -0.551854133605957, "z": -2.126375913619995 }, "axis_scores": { "Quantum imaging": 0.6781218647956848, "Quantum Life Science Sensing": 0.6944809556007385, "Quantum sensing Detection": 0.6716492772102356, "Quantum sensing Metrology": 0.6636709570884705, "Quantum sensing navigation": 0.6643802523612976, "Quantum sensing Position": 0.6581403613090515, "Quantum sensing Timing": 0.6478028893470764, "Quantum sensing": 0.686307966709137, "Quantum control": 0.6845492124557495 } }, { "id": 7816, "title": "Birth defects' of photosystem II make it highly susceptible to photodamage during chloroplast biogenesis", "abstract": "High solar flux is known to diminish photosynthetic growth rates, reducing biomass productivity and lowering disease tolerance. Photosystem II (PSII) of plants is susceptible to photodamage (also know...", "citations": 13, "author_count": 9, "categories": [ "Plant Sciences" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7825, "doi": "10.1111/ppl.12932", "umap_coordinates": { "x": 394.4956970214844, "y": 136.20701599121094, "z": 203.7078094482422 }, "tsne_coordinates": { "x": 8.878859519958496, "y": 34.18441390991211, "z": 5.671501159667969 }, "pca_coordinates": { "x": -2.4084906578063965, "y": 0.8016320466995239, "z": 0.06300097703933716 }, "axis_scores": { "Quantum imaging": 0.6838985085487366, "Quantum Life Science Sensing": 0.7185238003730774, "Quantum sensing Detection": 0.6939970254898071, "Quantum sensing Metrology": 0.6642950773239136, "Quantum sensing navigation": 0.649023711681366, "Quantum sensing Position": 0.6517019271850586, "Quantum sensing Timing": 0.6636996269226074, "Quantum sensing": 0.7002919912338257, "Quantum control": 0.6781610250473022 } }, { "id": 7817, "title": "Observation of the 1S-2P Lyman-α transition in antihydrogen", "abstract": "In 1906, Theodore Lyman discovered his eponymous series of transitions in the extreme-ultraviolet region of the atomic hydrogen spectrum(1,2). The patterns in the hydrogen spectrum helped to establish...", "citations": 69, "author_count": 53, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7826, "doi": "10.1038/s41586-018-0435-1", "umap_coordinates": { "x": 394.47332763671875, "y": 135.49295043945312, "z": 207.13624572753906 }, "tsne_coordinates": { "x": -22.875259399414062, "y": -19.498632431030273, "z": -21.470544815063477 }, "pca_coordinates": { "x": 0.03762614727020264, "y": -0.27507734298706055, "z": -0.37773647904396057 }, "axis_scores": { "Quantum imaging": 0.6928591132164001, "Quantum Life Science Sensing": 0.7162668704986572, "Quantum sensing Detection": 0.6862925887107849, "Quantum sensing Metrology": 0.6608671545982361, "Quantum sensing navigation": 0.679882287979126, "Quantum sensing Position": 0.687383234500885, "Quantum sensing Timing": 0.6898826360702515, "Quantum sensing": 0.6901376247406006, "Quantum control": 0.637046754360199 } }, { "id": 7818, "title": "Essential on the Photophysics and Photochemistry of the lndole Chromophore by Using a Totally Unconstrained Theoretical Approach", "abstract": "Indole is a chromophore present in many different molecules of biological interest, such as the essential amino acid tryptophan and the neurotransmitter serotonin. On the basis of CASPT2//CASSCF quant...", "citations": 58, "author_count": 5, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7827, "doi": "10.1021/ct200646r", "umap_coordinates": { "x": 393.12841796875, "y": 136.58175659179688, "z": 204.14999389648438 }, "tsne_coordinates": { "x": -1.357054352760315, "y": 16.44190216064453, "z": 7.578731536865234 }, "pca_coordinates": { "x": -2.8897082805633545, "y": 1.859594702720642, "z": -1.6022894382476807 }, "axis_scores": { "Quantum imaging": 0.6850826144218445, "Quantum Life Science Sensing": 0.7077025771141052, "Quantum sensing Detection": 0.6620731949806213, "Quantum sensing Metrology": 0.6450440287590027, "Quantum sensing navigation": 0.6628780364990234, "Quantum sensing Position": 0.6407468914985657, "Quantum sensing Timing": 0.65091872215271, "Quantum sensing": 0.6775198578834534, "Quantum control": 0.6608220934867859 } }, { "id": 7819, "title": "Determination of NADH-dependent glutamate synthase (GOGAT) in Spodoptera frugiperda (Sf9) insect cells by a selective 1H/15N NMR in vitro assay", "abstract": "This is the second of two papers [Drews, M., Doverskog, M., Qhman, L., Chapman, B.E., Jacobsson, U., Kuchel, P.W., Haggstrom, L., 2000. Pathways of glutamine metabolism in Spodoptera frugiperda (Sf9) ...", "citations": 29, "author_count": 6, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7828, "doi": "10.1016/S0168-1656(00)00215-7", "umap_coordinates": { "x": 393.4790954589844, "y": 136.54290771484375, "z": 205.00901794433594 }, "tsne_coordinates": { "x": -9.382750511169434, "y": 21.15715217590332, "z": 3.118837594985962 }, "pca_coordinates": { "x": -2.6685433387756348, "y": 1.4813075065612793, "z": -1.2248867750167847 }, "axis_scores": { "Quantum imaging": 0.6608489751815796, "Quantum Life Science Sensing": 0.7123891711235046, "Quantum sensing Detection": 0.6614566445350647, "Quantum sensing Metrology": 0.664718747138977, "Quantum sensing navigation": 0.6914648413658142, "Quantum sensing Position": 0.6716394424438477, "Quantum sensing Timing": 0.6146577000617981, "Quantum sensing": 0.6742388606071472, "Quantum control": 0.6479657292366028 } }, { "id": 7820, "title": "Solution properties of the free and DNA-bound Runt domain of AML1", "abstract": "The Punt domain is responsible for specific DNA and protein-protein interactions in a family of transcription factors which includes human AML1. Structural data on the Runt domain has not yet become a...", "citations": 11, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7829, "doi": "10.1046/j.1432-1327.1999.00269.x", "umap_coordinates": { "x": 393.549560546875, "y": 136.43609619140625, "z": 204.9079132080078 }, "tsne_coordinates": { "x": 16.22456169128418, "y": 13.864910125732422, "z": 25.611967086791992 }, "pca_coordinates": { "x": -0.8515686988830566, "y": 2.5227320194244385, "z": -2.0352189540863037 }, "axis_scores": { "Quantum imaging": 0.6817275881767273, "Quantum Life Science Sensing": 0.7144474387168884, "Quantum sensing Detection": 0.6715696454048157, "Quantum sensing Metrology": 0.6916390061378479, "Quantum sensing navigation": 0.6891965270042419, "Quantum sensing Position": 0.6646230220794678, "Quantum sensing Timing": 0.6730855703353882, "Quantum sensing": 0.6915857791900635, "Quantum control": 0.670833170413971 } }, { "id": 7821, "title": "Advancing sustainability in the green engineering of nanocomposites based on marine-derived polymers and their applications", "abstract": "Nanocomposites are sophisticated materials that incorporate nanostructures into matrix materials, such as polymers, ceramics and metals. Generally, the marine ecosystem exhibits severe variability in ...", "citations": 15, "author_count": 10, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7830, "doi": "10.1016/j.ijbiomac.2024.133249", "umap_coordinates": { "x": 393.4413757324219, "y": 134.2173309326172, "z": 203.96119689941406 }, "tsne_coordinates": { "x": 23.816890716552734, "y": 18.71990394592285, "z": -2.582733631134033 }, "pca_coordinates": { "x": -4.904900550842285, "y": 0.622910737991333, "z": -1.7365996837615967 }, "axis_scores": { "Quantum imaging": 0.6916033625602722, "Quantum Life Science Sensing": 0.7206594944000244, "Quantum sensing Detection": 0.6482622623443604, "Quantum sensing Metrology": 0.6657782793045044, "Quantum sensing navigation": 0.675828218460083, "Quantum sensing Position": 0.6598566174507141, "Quantum sensing Timing": 0.6288101077079773, "Quantum sensing": 0.6760683059692383, "Quantum control": 0.6571320295333862 } }, { "id": 7822, "title": "Physical insights from imaginary-time density-density correlation functions", "abstract": "An accurate theoretical description of the dynamic properties of correlated quantum many-body systems, such as the dynamic structure factor S(q,omega), is important in many fields. Unfortunately, high...", "citations": 33, "author_count": 6, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7831, "doi": "10.1063/5.0149638", "umap_coordinates": { "x": 394.9591369628906, "y": 137.08099365234375, "z": 208.12538146972656 }, "tsne_coordinates": { "x": -19.51836395263672, "y": -32.32872009277344, "z": 0.398707777261734 }, "pca_coordinates": { "x": 3.0710268020629883, "y": 1.6889899969100952, "z": -0.42013996839523315 }, "axis_scores": { "Quantum imaging": 0.7274078130722046, "Quantum Life Science Sensing": 0.7317651510238647, "Quantum sensing Detection": 0.7095410227775574, "Quantum sensing Metrology": 0.6933644413948059, "Quantum sensing navigation": 0.7121381759643555, "Quantum sensing Position": 0.6852713823318481, "Quantum sensing Timing": 0.6897450685501099, "Quantum sensing": 0.7247426509857178, "Quantum control": 0.6925322413444519 } }, { "id": 7823, "title": "Quality Improvement of Fresh-Cut Endive (Cichorium endivia L.) and Recycling of Washing Water by Low-Dose UV-C Irradiation", "abstract": "Superficial short-wavelength ultraviolet (UV-C) treatment (1.2 kJ/m(2)) of fresh-cut endive was combined with conventional cold (4 A degrees C, 120 s) and innovative warm (45 A degrees C, 120 s) water...", "citations": 23, "author_count": 10, "categories": [ "Food Science & Technology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7832, "doi": "10.1007/s11947-016-1782-2", "umap_coordinates": { "x": 394.06005859375, "y": 135.06471252441406, "z": 203.98532104492188 }, "tsne_coordinates": { "x": 21.282211303710938, "y": 30.283836364746094, "z": 3.696031332015991 }, "pca_coordinates": { "x": -3.856503486633301, "y": 2.64312481880188, "z": -0.16112440824508667 }, "axis_scores": { "Quantum imaging": 0.6726803779602051, "Quantum Life Science Sensing": 0.7054072618484497, "Quantum sensing Detection": 0.6533294320106506, "Quantum sensing Metrology": 0.653843879699707, "Quantum sensing navigation": 0.6611783504486084, "Quantum sensing Position": 0.633188009262085, "Quantum sensing Timing": 0.6247474551200867, "Quantum sensing": 0.6710420250892639, "Quantum control": 0.6792385578155518 } }, { "id": 7824, "title": "Changes in pigmentation, bio-optical characteristics and photophysiology, during phytoflagellate succession in mesocosms", "abstract": "Pigmentation, bio-optical characteristics and photophysiology, were studied in mesocosms with different N:P ratios. No significant difference in biomass or species composition was seen under different...", "citations": 8, "author_count": 5, "categories": [ "Marine & Freshwater Biology" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7833, "doi": "10.1093/plankt/fbh025", "umap_coordinates": { "x": 393.8459167480469, "y": 136.27334594726562, "z": 203.6720733642578 }, "tsne_coordinates": { "x": 12.451353073120117, "y": 27.937421798706055, "z": 13.932519912719727 }, "pca_coordinates": { "x": -3.16064453125, "y": 1.4794880151748657, "z": -2.686131477355957 }, "axis_scores": { "Quantum imaging": 0.6385200619697571, "Quantum Life Science Sensing": 0.6948388814926147, "Quantum sensing Detection": 0.6360915899276733, "Quantum sensing Metrology": 0.6356393098831177, "Quantum sensing navigation": 0.63768470287323, "Quantum sensing Position": 0.6445930600166321, "Quantum sensing Timing": 0.6036326885223389, "Quantum sensing": 0.6531168222427368, "Quantum control": 0.6261676549911499 } }, { "id": 7825, "title": "RARE-EARTH PARAMAGNETISM, AS STUDIED BY MU-SR", "abstract": "Some recent result of muon spin relaxation measurements in rare earth metals and intermetallic compounds are reviewed. Special emphasis is put on measurements that relate to the properties of correlat...", "citations": 26, "author_count": 2, "categories": [ "Physics" ], "year": 1990, "topic": [ "all" ], "embedding_index": 7834, "doi": null, "umap_coordinates": { "x": 392.00579833984375, "y": 139.42080688476562, "z": 209.60296630859375 }, "tsne_coordinates": { "x": -6.424888610839844, "y": 44.54629898071289, "z": 1.7377887964248657 }, "pca_coordinates": { "x": -0.7826229333877563, "y": 4.751352310180664, "z": -3.2793331146240234 }, "axis_scores": { "Quantum imaging": 0.708523154258728, "Quantum Life Science Sensing": 0.7331100702285767, "Quantum sensing Detection": 0.70965576171875, "Quantum sensing Metrology": 0.7150436639785767, "Quantum sensing navigation": 0.7086508274078369, "Quantum sensing Position": 0.6828094720840454, "Quantum sensing Timing": 0.6615588068962097, "Quantum sensing": 0.7224704623222351, "Quantum control": 0.6939573287963867 } }, { "id": 7826, "title": "Optical setup for two-colour experiments at the low density matter beamline of FERMI", "abstract": "The low density matter beamline of the free electron laser facility FERMI is dedicated to the study of atomic, molecular and cluster systems, and here we describe the optical setup available for two-c...", "citations": 10, "author_count": 20, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7835, "doi": "10.1088/2040-8986/aa8fbd", "umap_coordinates": { "x": 395.408203125, "y": 134.76205444335938, "z": 206.0980224609375 }, "tsne_coordinates": { "x": -15.04676342010498, "y": 0.8172994256019592, "z": -15.890190124511719 }, "pca_coordinates": { "x": -0.7485406994819641, "y": 2.858245372772217, "z": 1.162071943283081 }, "axis_scores": { "Quantum imaging": 0.6846282482147217, "Quantum Life Science Sensing": 0.681551456451416, "Quantum sensing Detection": 0.6575803160667419, "Quantum sensing Metrology": 0.6646892428398132, "Quantum sensing navigation": 0.6800209283828735, "Quantum sensing Position": 0.6763396263122559, "Quantum sensing Timing": 0.6660328507423401, "Quantum sensing": 0.6673272848129272, "Quantum control": 0.6463907957077026 } }, { "id": 7827, "title": "Retrocommunication utilizing electroabsorption modulators and nonmechanical beam steering - art. no. 045001", "abstract": "A novel retrocommunication link utilizing reflective multiple quantum well (MQW) optical modulators and nonmechanical beam steering and tracking is demonstrated. Large aperture reflective MOW modulato...", "citations": 33, "author_count": 11, "categories": [ "Optics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7836, "doi": "10.1117/1.1883063", "umap_coordinates": { "x": 395.0392761230469, "y": 133.59454345703125, "z": 206.48843383789062 }, "tsne_coordinates": { "x": -0.7823262214660645, "y": 7.977778434753418, "z": -24.72890853881836 }, "pca_coordinates": { "x": -0.530754804611206, "y": 1.22005295753479, "z": 3.501667022705078 }, "axis_scores": { "Quantum imaging": 0.7110987901687622, "Quantum Life Science Sensing": 0.6780902743339539, "Quantum sensing Detection": 0.7001442909240723, "Quantum sensing Metrology": 0.7167007923126221, "Quantum sensing navigation": 0.7193810939788818, "Quantum sensing Position": 0.6879456043243408, "Quantum sensing Timing": 0.6735312938690186, "Quantum sensing": 0.7074941992759705, "Quantum control": 0.6963603496551514 } }, { "id": 7828, "title": "Photoluminescence Mapping over Laser Pulse Fluence and Repetition Rate as a Fingerprint of Charge and Defect Dynamics in Perovskites", "abstract": "Defects in metal halide perovskites (MHP) are photosensitive, making the observer effect unavoidable when laser spectroscopy methods are applied. Photoluminescence (PL) bleaching and enhancement under...", "citations": 8, "author_count": 7, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7837, "doi": "10.1002/adom.202300996", "umap_coordinates": { "x": 393.60784912109375, "y": 134.87033081054688, "z": 205.8072509765625 }, "tsne_coordinates": { "x": 27.408716201782227, "y": 4.217314720153809, "z": 25.307899475097656 }, "pca_coordinates": { "x": -2.7889997959136963, "y": -0.6696805953979492, "z": -0.22435730695724487 }, "axis_scores": { "Quantum imaging": 0.7118809223175049, "Quantum Life Science Sensing": 0.7090844511985779, "Quantum sensing Detection": 0.6832546591758728, "Quantum sensing Metrology": 0.6896860599517822, "Quantum sensing navigation": 0.6733514666557312, "Quantum sensing Position": 0.6879377961158752, "Quantum sensing Timing": 0.6963963508605957, "Quantum sensing": 0.6987541317939758, "Quantum control": 0.6876663565635681 } }, { "id": 7829, "title": "Quench dynamics and zero-energy modes: The case of the Creutz model", "abstract": "In most lattice models, the closing of a band gap typically occurs at high-symmetry points in the Brillouin zone. Differently, in the Creutz model-describing a system of spinless fermions hopping on a...", "citations": 81, "author_count": 5, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7838, "doi": "10.1103/PhysRevB.99.054302", "umap_coordinates": { "x": 394.3795166015625, "y": 137.49362182617188, "z": 207.95779418945312 }, "tsne_coordinates": { "x": -18.436552047729492, "y": -18.41866683959961, "z": 9.534561157226562 }, "pca_coordinates": { "x": 4.354391574859619, "y": 2.918776512145996, "z": -3.9828953742980957 }, "axis_scores": { "Quantum imaging": 0.6880359649658203, "Quantum Life Science Sensing": 0.712235689163208, "Quantum sensing Detection": 0.693463146686554, "Quantum sensing Metrology": 0.6758826971054077, "Quantum sensing navigation": 0.6911931037902832, "Quantum sensing Position": 0.6633591055870056, "Quantum sensing Timing": 0.6704387068748474, "Quantum sensing": 0.6908980011940002, "Quantum control": 0.7178741693496704 } }, { "id": 7830, "title": "Improved coupling of nanowire-based high-Tc SQUID magnetometers-simulations and experiments", "abstract": "Superconducting quantum interference devices (SQUIDs) based on high critical-temperature superconducting nanowire junctions were designed, fabricated, and characterized in terms of their potential as ...", "citations": 15, "author_count": 10, "categories": [ "Physics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7839, "doi": "10.1088/1361-6668/aa8e14", "umap_coordinates": { "x": 393.9336242675781, "y": 134.50254821777344, "z": 207.0995635986328 }, "tsne_coordinates": { "x": 4.003617286682129, "y": -27.013944625854492, "z": -25.936304092407227 }, "pca_coordinates": { "x": 0.8105242252349854, "y": -0.8281583786010742, "z": 1.8487825393676758 }, "axis_scores": { "Quantum imaging": 0.6834487318992615, "Quantum Life Science Sensing": 0.6735027432441711, "Quantum sensing Detection": 0.6644028425216675, "Quantum sensing Metrology": 0.6855627298355103, "Quantum sensing navigation": 0.6922870874404907, "Quantum sensing Position": 0.6598560810089111, "Quantum sensing Timing": 0.6805241703987122, "Quantum sensing": 0.6849743723869324, "Quantum control": 0.6594583988189697 } }, { "id": 7831, "title": "Nitrogen-related changes in exciton localization and dynamics in GaInNAs/GaAs quantum wells grown by metalorganic vapor phase epitaxy", "abstract": "In this work, we show the results of low-temperature photoluminescence (PL), time-resolved photoluminescence, and photoreflectance (PR) investigations, performed on a series of three Ga0.64In0.34As1-x...", "citations": 11, "author_count": 5, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7840, "doi": "10.1007/s00339-014-8794-4", "umap_coordinates": { "x": 392.52740478515625, "y": 135.23646545410156, "z": 207.3907470703125 }, "tsne_coordinates": { "x": 29.847383499145508, "y": -12.246881484985352, "z": 12.26321029663086 }, "pca_coordinates": { "x": 0.863652229309082, "y": -0.9099588394165039, "z": -1.1960707902908325 }, "axis_scores": { "Quantum imaging": 0.7123482823371887, "Quantum Life Science Sensing": 0.7010610699653625, "Quantum sensing Detection": 0.7011523842811584, "Quantum sensing Metrology": 0.6810338497161865, "Quantum sensing navigation": 0.7317288517951965, "Quantum sensing Position": 0.7125421166419983, "Quantum sensing Timing": 0.7002654075622559, "Quantum sensing": 0.7077421545982361, "Quantum control": 0.7036449313163757 } }, { "id": 7832, "title": "Metal Oxide Nanosensors Using Polymeric Membranes, Enzymes and Antibody Receptors as Ion and Molecular Recognition Elements", "abstract": "The concept of recognition and biofunctionality has attracted increasing interest in the fields of chemistry and material sciences. Advances in the field of nanotechnology for the synthesis of desired...", "citations": 28, "author_count": 4, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7841, "doi": "10.3390/s140508605", "umap_coordinates": { "x": 393.6222839355469, "y": 134.51556396484375, "z": 203.9777374267578 }, "tsne_coordinates": { "x": 26.831676483154297, "y": 22.384185791015625, "z": -8.509506225585938 }, "pca_coordinates": { "x": -3.4924607276916504, "y": -0.5942914485931396, "z": -1.6965136528015137 }, "axis_scores": { "Quantum imaging": 0.7132046222686768, "Quantum Life Science Sensing": 0.7694274187088013, "Quantum sensing Detection": 0.7283682823181152, "Quantum sensing Metrology": 0.7220184803009033, "Quantum sensing navigation": 0.7114848494529724, "Quantum sensing Position": 0.6882787346839905, "Quantum sensing Timing": 0.6645236015319824, "Quantum sensing": 0.7373592853546143, "Quantum control": 0.6884996294975281 } }, { "id": 7833, "title": "Fractionation and characterization of multi-feedstock lignocellulosic biomass via two-stage pretreatment", "abstract": "A two-stage pretreatment toward lignocellulosic biomass fractionation was devised. The process consisted of dilute acid hydrolysis using oxalic acid, followed by oxalic acid-assisted ethanol organosol...", "citations": 1, "author_count": 6, "categories": [ "Energy & Fuels" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7842, "doi": "10.1007/s13399-025-06576-8", "umap_coordinates": { "x": 393.0204162597656, "y": 135.67697143554688, "z": 203.94093322753906 }, "tsne_coordinates": { "x": 27.31804656982422, "y": 32.29937744140625, "z": -1.6591591835021973 }, "pca_coordinates": { "x": -3.461453437805176, "y": 1.3016273975372314, "z": -1.3689641952514648 }, "axis_scores": { "Quantum imaging": 0.6632189154624939, "Quantum Life Science Sensing": 0.6759092807769775, "Quantum sensing Detection": 0.6464241743087769, "Quantum sensing Metrology": 0.6530516147613525, "Quantum sensing navigation": 0.6411433219909668, "Quantum sensing Position": 0.6255156993865967, "Quantum sensing Timing": 0.6256259679794312, "Quantum sensing": 0.6651611924171448, "Quantum control": 0.6559610962867737 } }, { "id": 7834, "title": "A multiband NIR upconversion core-shell design for enhanced light harvesting of silicon solar cells", "abstract": "Exploring lanthanide light upconversion (UC) has emerged as a promising strategy to enhance the near-infrared (NIR) responsive region of silicon solar cells (SSCs). However, its practical application ...", "citations": 19, "author_count": 10, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7843, "doi": "10.1038/s41377-024-01661-5", "umap_coordinates": { "x": 392.6236267089844, "y": 133.47557067871094, "z": 205.92343139648438 }, "tsne_coordinates": { "x": 11.49583911895752, "y": -8.564812660217285, "z": -6.620044231414795 }, "pca_coordinates": { "x": -4.35582160949707, "y": -3.4867630004882812, "z": 2.1571269035339355 }, "axis_scores": { "Quantum imaging": 0.6674315929412842, "Quantum Life Science Sensing": 0.6910519599914551, "Quantum sensing Detection": 0.661723256111145, "Quantum sensing Metrology": 0.6717063784599304, "Quantum sensing navigation": 0.6484246253967285, "Quantum sensing Position": 0.6348066329956055, "Quantum sensing Timing": 0.6333378553390503, "Quantum sensing": 0.6764500737190247, "Quantum control": 0.6406451463699341 } }, { "id": 7835, "title": "An X-Ray and Radio View of the 2022 Reactivation of the Magnetar SGR J1935+2154", "abstract": "Recently, the Galactic magnetar SGR J1935+2154 has garnered attention due to its emission of an extremely luminous radio burst, reminiscent of fast radio bursts (FRBs). SGR J1935+2154 is one of the mo...", "citations": 11, "author_count": 23, "categories": [ "Astronomy & Astrophysics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7844, "doi": "10.3847/1538-4357/ad293b", "umap_coordinates": { "x": 396.05828857421875, "y": 135.1746368408203, "z": 205.92955017089844 }, "tsne_coordinates": { "x": -32.68344497680664, "y": 22.597721099853516, "z": 1.7186901569366455 }, "pca_coordinates": { "x": -1.033077359199524, "y": 3.7113289833068848, "z": -0.2734551429748535 }, "axis_scores": { "Quantum imaging": 0.6523621678352356, "Quantum Life Science Sensing": 0.6827070713043213, "Quantum sensing Detection": 0.6330997347831726, "Quantum sensing Metrology": 0.6416673064231873, "Quantum sensing navigation": 0.6668757200241089, "Quantum sensing Position": 0.6478834748268127, "Quantum sensing Timing": 0.6450365781784058, "Quantum sensing": 0.6403849720954895, "Quantum control": 0.6295811533927917 } }, { "id": 7836, "title": "Comprehensive and Critical Reanalysis of FORS Spectropolarimetric Observations: the Case of HD92207", "abstract": "Stellar spectropolarimetry has become extremely popular during the past decade, and has led to major advances in our understanding of stellar magnetic fields and their impact on stellar structure and ...", "citations": 2, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7845, "doi": null, "umap_coordinates": { "x": 392.00830078125, "y": 139.53567504882812, "z": 209.65029907226562 }, "tsne_coordinates": { "x": -4.695752143859863, "y": 45.29868698120117, "z": -2.2527730464935303 }, "pca_coordinates": { "x": -2.5820422172546387, "y": 3.752737522125244, "z": -2.998594045639038 }, "axis_scores": { "Quantum imaging": 0.7158036231994629, "Quantum Life Science Sensing": 0.7483967542648315, "Quantum sensing Detection": 0.7124733924865723, "Quantum sensing Metrology": 0.7088420987129211, "Quantum sensing navigation": 0.7127429246902466, "Quantum sensing Position": 0.6675009727478027, "Quantum sensing Timing": 0.6756176948547363, "Quantum sensing": 0.7350280284881592, "Quantum control": 0.7418191432952881 } }, { "id": 7837, "title": "Electron paramagnetic resonance and theoretical studies of Nb in 4H- and 6H-SiC", "abstract": "High purity silicon carbide (SiC) materials are of interest from high-power high temperature applications across recent photo-voltaic cells to hosting solid state quantum bits, where the tight control...", "citations": 10, "author_count": 10, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7846, "doi": "10.1063/1.4759362", "umap_coordinates": { "x": 393.21319580078125, "y": 136.0120391845703, "z": 208.55368041992188 }, "tsne_coordinates": { "x": 10.440505981445312, "y": -44.061378479003906, "z": 14.761775970458984 }, "pca_coordinates": { "x": 1.735987663269043, "y": -0.48474740982055664, "z": -1.694016933441162 }, "axis_scores": { "Quantum imaging": 0.6983064413070679, "Quantum Life Science Sensing": 0.7003732323646545, "Quantum sensing Detection": 0.6630644202232361, "Quantum sensing Metrology": 0.6682567596435547, "Quantum sensing navigation": 0.6805864572525024, "Quantum sensing Position": 0.6544753909111023, "Quantum sensing Timing": 0.6371232271194458, "Quantum sensing": 0.6867883801460266, "Quantum control": 0.6724005341529846 } }, { "id": 7838, "title": "Sustainable production of exopolysaccharides from quinoa stalk hydrolysates using halotolerant Bacillus swezeyi: fermentation kinetics and product characterization", "abstract": "Microbial exopolysaccharides (EPSs) have attracted increasing attention due to their versatile applications across diverse areas. However, large-scale production of EPSs remains challenging due to the...", "citations": 1, "author_count": 11, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7847, "doi": "10.1002/bbb.70021", "umap_coordinates": { "x": 393.18170166015625, "y": 135.17669677734375, "z": 204.01356506347656 }, "tsne_coordinates": { "x": 26.493932723999023, "y": 30.78434944152832, "z": 2.4246034622192383 }, "pca_coordinates": { "x": -3.305608034133911, "y": 0.7782742977142334, "z": -3.2639193534851074 }, "axis_scores": { "Quantum imaging": 0.6766241788864136, "Quantum Life Science Sensing": 0.7291768789291382, "Quantum sensing Detection": 0.6743800044059753, "Quantum sensing Metrology": 0.673569917678833, "Quantum sensing navigation": 0.6838533878326416, "Quantum sensing Position": 0.6530826687812805, "Quantum sensing Timing": 0.6477667689323425, "Quantum sensing": 0.6980143189430237, "Quantum control": 0.6759936213493347 } }, { "id": 7839, "title": "Ozone responses in Arabidopsis: beyond stomatal conductance", "abstract": "Tropospheric ozone (O-3) is a major air pollutant that decreases yield of important crops worldwide. Despite long-lasting research of its negative effects on plants, there are many gaps in our knowled...", "citations": 28, "author_count": 9, "categories": [ "Plant Sciences" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7848, "doi": "10.1093/plphys/kiab097", "umap_coordinates": { "x": 394.0978698730469, "y": 136.61842346191406, "z": 203.7391815185547 }, "tsne_coordinates": { "x": 20.430856704711914, "y": 39.1263542175293, "z": 12.356684684753418 }, "pca_coordinates": { "x": -0.5092001557350159, "y": 0.8649308681488037, "z": -1.3917572498321533 }, "axis_scores": { "Quantum imaging": 0.6950747966766357, "Quantum Life Science Sensing": 0.7242141366004944, "Quantum sensing Detection": 0.6885091066360474, "Quantum sensing Metrology": 0.6853459477424622, "Quantum sensing navigation": 0.7064730525016785, "Quantum sensing Position": 0.6771163940429688, "Quantum sensing Timing": 0.6612555980682373, "Quantum sensing": 0.707632839679718, "Quantum control": 0.6632356643676758 } }, { "id": 7840, "title": "A Holistic Picture of Physics Student Conceptions of Energy Quantization, the Photon Concept, and Light Quanta Interference", "abstract": "A detailed investigation of student conceptions of quantum phenomena is needed, both to characterize student understanding of quantum concepts and to inform how we might teach quantum mechanics (QM). ...", "citations": 20, "author_count": 6, "categories": [ "Education & Educational Research" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7849, "doi": "10.1007/s10763-018-9906-y", "umap_coordinates": { "x": 394.7255859375, "y": 137.24038696289062, "z": 205.9005126953125 }, "tsne_coordinates": { "x": -30.04582977294922, "y": -1.2005729675292969, "z": 13.173074722290039 }, "pca_coordinates": { "x": 0.2733418941497803, "y": 1.815532922744751, "z": 1.0093319416046143 }, "axis_scores": { "Quantum imaging": 0.7437573075294495, "Quantum Life Science Sensing": 0.7488196492195129, "Quantum sensing Detection": 0.7157865762710571, "Quantum sensing Metrology": 0.7212907075881958, "Quantum sensing navigation": 0.72797691822052, "Quantum sensing Position": 0.6947442293167114, "Quantum sensing Timing": 0.6828979253768921, "Quantum sensing": 0.73384690284729, "Quantum control": 0.6962568759918213 } }, { "id": 7841, "title": "Physicochemical properties of transferrin-associated lipopolyplexes and their role in biological activity", "abstract": "The combination of polyethylenimine (PEI), as a plasmid DNA pre-condensing agent, and cationic lipids has been reported to result in a synergistic effect on transfection. Recently, we have explored th...", "citations": 16, "author_count": 7, "categories": [ "Biophysics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7850, "doi": "10.1016/j.colsurfb.2009.10.034", "umap_coordinates": { "x": 393.7449645996094, "y": 134.77667236328125, "z": 204.22938537597656 }, "tsne_coordinates": { "x": 22.949493408203125, "y": 19.81796646118164, "z": 7.167273044586182 }, "pca_coordinates": { "x": -3.6638433933258057, "y": 0.6753847599029541, "z": -3.0855748653411865 }, "axis_scores": { "Quantum imaging": 0.6838018298149109, "Quantum Life Science Sensing": 0.7162441611289978, "Quantum sensing Detection": 0.6655206084251404, "Quantum sensing Metrology": 0.6644594669342041, "Quantum sensing navigation": 0.656028687953949, "Quantum sensing Position": 0.6684573888778687, "Quantum sensing Timing": 0.6534121632575989, "Quantum sensing": 0.6817476153373718, "Quantum control": 0.6543632745742798 } }, { "id": 7842, "title": "Giant magneto field effect in up-conversion amplified spontaneous emission via spatially extended states in organic-inorganic hybrid perovskites", "abstract": "Up-conversion lasing actions are normally difficult to realize in light-emitting materials due to small multi-photon absorption cross section and fast dephasing of excited states during multi-photon e...", "citations": 13, "author_count": 9, "categories": [ "Optics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7851, "doi": "10.29026/oea.2022.200051", "umap_coordinates": { "x": 392.9569091796875, "y": 134.28042602539062, "z": 206.63108825683594 }, "tsne_coordinates": { "x": 32.38325500488281, "y": -2.977074384689331, "z": -23.047727584838867 }, "pca_coordinates": { "x": -0.35736966133117676, "y": -1.4869575500488281, "z": 0.0135459303855896 }, "axis_scores": { "Quantum imaging": 0.7155421376228333, "Quantum Life Science Sensing": 0.7097902297973633, "Quantum sensing Detection": 0.6978083848953247, "Quantum sensing Metrology": 0.7086796164512634, "Quantum sensing navigation": 0.699162483215332, "Quantum sensing Position": 0.664462685585022, "Quantum sensing Timing": 0.6482434272766113, "Quantum sensing": 0.7170276045799255, "Quantum control": 0.6917546987533569 } }, { "id": 7843, "title": "Characterization of a compact LaBr3(Ce) detector with Silicon photomultipliers at high 14 MeV neutron fluxes", "abstract": "A new compact gamma-ray spectrometer based on a Silicon Photo-Multiplier (SiPM) coupled to a LaBr3(Ce) crystal has been developed for the upgrade of the Gamma Camera (GC) of JET, where it must operate...", "citations": 9, "author_count": 1238, "categories": [ "Instruments & Instrumentation" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7852, "doi": "10.1088/1748-0221/12/10/C10007", "umap_coordinates": { "x": 395.7223815917969, "y": 133.87757873535156, "z": 206.04762268066406 }, "tsne_coordinates": { "x": -26.99578094482422, "y": 22.515121459960938, "z": -13.059954643249512 }, "pca_coordinates": { "x": -1.9763410091400146, "y": 1.8328008651733398, "z": 2.563930034637451 }, "axis_scores": { "Quantum imaging": 0.7138850688934326, "Quantum Life Science Sensing": 0.7229064702987671, "Quantum sensing Detection": 0.7069557309150696, "Quantum sensing Metrology": 0.700797438621521, "Quantum sensing navigation": 0.6993088722229004, "Quantum sensing Position": 0.6876636743545532, "Quantum sensing Timing": 0.6691644787788391, "Quantum sensing": 0.7140340209007263, "Quantum control": 0.6774423718452454 } }, { "id": 7844, "title": "Scalable Fabrication of Edge Contacts to 2D Materials: Implications for Quantum Resistance Metrology and 2D Electronics", "abstract": "We report a reliable and scalable fabrication method for producing electrical contacts to two-dimensional (2D) materials based on the tri-layer resist system. We demonstrate the applicability of this ...", "citations": 9, "author_count": 13, "categories": [ "Science & Technology - Other Topics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7853, "doi": "10.1021/acsanm.3c00652", "umap_coordinates": { "x": 392.72686767578125, "y": 133.97891235351562, "z": 206.33718872070312 }, "tsne_coordinates": { "x": 24.403493881225586, "y": -11.4037504196167, "z": -7.14949369430542 }, "pca_coordinates": { "x": -1.2639904022216797, "y": -3.1328811645507812, "z": -0.562460720539093 }, "axis_scores": { "Quantum imaging": 0.714806079864502, "Quantum Life Science Sensing": 0.7444730997085571, "Quantum sensing Detection": 0.726442277431488, "Quantum sensing Metrology": 0.7476910352706909, "Quantum sensing navigation": 0.7182816863059998, "Quantum sensing Position": 0.7127135396003723, "Quantum sensing Timing": 0.6873739361763, "Quantum sensing": 0.7430022954940796, "Quantum control": 0.7008983492851257 } }, { "id": 7845, "title": "Insights into the detection of mutations and epigenetic markers using diamondoid-functionalized sensors", "abstract": "Nanogaps functionalized with small diamond-like particles, diamondoids, have been shown to effectively distinguish between different DNA nucleotides. Here, we focus on the detection of mutations and e...", "citations": 7, "author_count": 5, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7854, "doi": "10.1039/c7ra06889a", "umap_coordinates": { "x": 392.534912109375, "y": 135.31773376464844, "z": 205.0596923828125 }, "tsne_coordinates": { "x": 13.03256607055664, "y": 8.829998970031738, "z": -11.244403839111328 }, "pca_coordinates": { "x": -2.2971484661102295, "y": -0.7410321235656738, "z": -0.1813475489616394 }, "axis_scores": { "Quantum imaging": 0.703680157661438, "Quantum Life Science Sensing": 0.7489073872566223, "Quantum sensing Detection": 0.720894455909729, "Quantum sensing Metrology": 0.7068055868148804, "Quantum sensing navigation": 0.7203459143638611, "Quantum sensing Position": 0.6970110535621643, "Quantum sensing Timing": 0.6715063452720642, "Quantum sensing": 0.7238337397575378, "Quantum control": 0.6754080653190613 } }, { "id": 7846, "title": "Two-Photon Excited State Dynamics of Dark Valence, Rydberg, and Superexcited States in 1,3-Butadiene", "abstract": "Two-photon absorption in systems with parity permits access to states that cannot be prepared by one-photon absorption. Here we present the first time-resolved photoelectron spectroscopy study using t...", "citations": 24, "author_count": 4, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7855, "doi": "10.1021/jz402725u", "umap_coordinates": { "x": 392.3001403808594, "y": 136.09271240234375, "z": 206.35833740234375 }, "tsne_coordinates": { "x": 2.153218984603882, "y": -1.3447128534317017, "z": 10.009777069091797 }, "pca_coordinates": { "x": 0.7475080490112305, "y": -3.057783603668213, "z": -1.5830810070037842 }, "axis_scores": { "Quantum imaging": 0.7315799593925476, "Quantum Life Science Sensing": 0.7263396382331848, "Quantum sensing Detection": 0.7208955883979797, "Quantum sensing Metrology": 0.6751806735992432, "Quantum sensing navigation": 0.6866496801376343, "Quantum sensing Position": 0.6580699682235718, "Quantum sensing Timing": 0.6817377805709839, "Quantum sensing": 0.7221006155014038, "Quantum control": 0.6984100341796875 } }, { "id": 7847, "title": "Information content with low- vs. high-Tc SQUID arrays in MEG recordings: The case for high-TcSQUID-based MEG", "abstract": "Background: Magnetoencephalography (MEG) is a method of studying brain activity via recordings of the magnetic field generated by neural activity. Modern MEG systems employ an array of low critical-te...", "citations": 46, "author_count": 2, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7856, "doi": "10.1016/j.jneumeth.2013.10.007", "umap_coordinates": { "x": 393.76690673828125, "y": 134.12110900878906, "z": 205.90921020507812 }, "tsne_coordinates": { "x": -22.76642608642578, "y": 1.8310788869857788, "z": -20.00868034362793 }, "pca_coordinates": { "x": -1.550694227218628, "y": 1.0438060760498047, "z": 0.015284836292266846 }, "axis_scores": { "Quantum imaging": 0.6970255374908447, "Quantum Life Science Sensing": 0.6990709900856018, "Quantum sensing Detection": 0.681896448135376, "Quantum sensing Metrology": 0.6767988204956055, "Quantum sensing navigation": 0.691464900970459, "Quantum sensing Position": 0.6888760924339294, "Quantum sensing Timing": 0.6739428639411926, "Quantum sensing": 0.6927804946899414, "Quantum control": 0.6570277214050293 } }, { "id": 7848, "title": "METALS IN THE EXOSPHERE OF THE HIGHLY IRRADIATED PLANET WASP-12b", "abstract": "We present near-UV transmission spectroscopy of the highly irradiated transiting exoplanet WASP-12b, obtained with the Cosmic Origins Spectrograph on the Hubble Space Telescope. The spectra cover thre...", "citations": 304, "author_count": 21, "categories": [ "Astronomy & Astrophysics" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7857, "doi": "10.1088/2041-8205/714/2/L222", "umap_coordinates": { "x": 395.36077880859375, "y": 134.9905548095703, "z": 205.78176879882812 }, "tsne_coordinates": { "x": -25.755966186523438, "y": 18.980318069458008, "z": -6.310208797454834 }, "pca_coordinates": { "x": -2.211770534515381, "y": 0.42215919494628906, "z": -0.8765702247619629 }, "axis_scores": { "Quantum imaging": 0.6249414086341858, "Quantum Life Science Sensing": 0.6622476577758789, "Quantum sensing Detection": 0.6082835793495178, "Quantum sensing Metrology": 0.613818347454071, "Quantum sensing navigation": 0.6059935092926025, "Quantum sensing Position": 0.6266208291053772, "Quantum sensing Timing": 0.5994499325752258, "Quantum sensing": 0.6204352974891663, "Quantum control": 0.5680878758430481 } }, { "id": 7849, "title": "Strain in semiconductor core-shell nanowires", "abstract": "We compute strain distributions in core-shell nanowires of zinc blende structure. We use both continuum elasticity theory and an atomistic model, and consider both finite and infinite wires. The atomi...", "citations": 88, "author_count": 7, "categories": [ "Physics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7858, "doi": "10.1063/1.3207838", "umap_coordinates": { "x": 392.7785949707031, "y": 133.8587646484375, "z": 208.12326049804688 }, "tsne_coordinates": { "x": 21.752595901489258, "y": -20.585668563842773, "z": -3.2481637001037598 }, "pca_coordinates": { "x": 0.8201954364776611, "y": -4.238432884216309, "z": 0.3814932703971863 }, "axis_scores": { "Quantum imaging": 0.7220045328140259, "Quantum Life Science Sensing": 0.7331515550613403, "Quantum sensing Detection": 0.7164193391799927, "Quantum sensing Metrology": 0.7217747569084167, "Quantum sensing navigation": 0.7158135771751404, "Quantum sensing Position": 0.7166608572006226, "Quantum sensing Timing": 0.6912246942520142, "Quantum sensing": 0.7300873398780823, "Quantum control": 0.6995866298675537 } }, { "id": 7850, "title": "Bulky Substituents Promote Triplet-Triplet Annihilation Over Triplet Excimer Formation in Naphthalene Derivatives", "abstract": "Visible-to-ultraviolet (UV) triplet-triplet annihilation photochemical upconversion (TTA-UC) has gained a lot of attention recently due to its potential for driving demanding high-energy photoreaction...", "citations": 24, "author_count": 5, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7859, "doi": "10.1021/jacs.3c08115", "umap_coordinates": { "x": 391.9057312011719, "y": 135.88560485839844, "z": 205.68031311035156 }, "tsne_coordinates": { "x": 2.7037603855133057, "y": -1.3965574502944946, "z": -12.736692428588867 }, "pca_coordinates": { "x": -1.7446715831756592, "y": -1.8797354698181152, "z": -1.4537925720214844 }, "axis_scores": { "Quantum imaging": 0.6866818070411682, "Quantum Life Science Sensing": 0.666897714138031, "Quantum sensing Detection": 0.6682288646697998, "Quantum sensing Metrology": 0.6397836804389954, "Quantum sensing navigation": 0.6582944989204407, "Quantum sensing Position": 0.650031566619873, "Quantum sensing Timing": 0.6599528789520264, "Quantum sensing": 0.6733104586601257, "Quantum control": 0.6728252172470093 } }, { "id": 7851, "title": "Less is more: on the effect of benzannulation on the solid-state emission of difluoroborates", "abstract": "We investigate the emission properties of four organic dyes containing a strong electron-donating N(CH3)(2) group and an NBF2O-bearing heterocyclic moiety acting as the electron-accepting group. The f...", "citations": 10, "author_count": 12, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7860, "doi": "10.1039/d1tc03316f", "umap_coordinates": { "x": 391.9541015625, "y": 135.7775115966797, "z": 204.57498168945312 }, "tsne_coordinates": { "x": 1.025062084197998, "y": 12.269230842590332, "z": -4.561568260192871 }, "pca_coordinates": { "x": -0.853291392326355, "y": 0.8658795356750488, "z": -2.8403255939483643 }, "axis_scores": { "Quantum imaging": 0.6765581965446472, "Quantum Life Science Sensing": 0.6988117098808289, "Quantum sensing Detection": 0.6842838525772095, "Quantum sensing Metrology": 0.6834762096405029, "Quantum sensing navigation": 0.6729478240013123, "Quantum sensing Position": 0.6673887968063354, "Quantum sensing Timing": 0.6682302355766296, "Quantum sensing": 0.6957944631576538, "Quantum control": 0.6871322393417358 } }, { "id": 7852, "title": "Thermal stability of low and high Mw fractions of bio-oil derived from lignin conversion in subcritical water", "abstract": "The thermal stability of bio-oil influences its application in industry and is, therefore, a very important factor that must be taken into consideration. In this study, the stability of low and high m...", "citations": 26, "author_count": 7, "categories": [ "Energy & Fuels" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7861, "doi": "10.1007/s13399-016-0228-4", "umap_coordinates": { "x": 393.1088562011719, "y": 135.89678955078125, "z": 203.93116760253906 }, "tsne_coordinates": { "x": 26.37139892578125, "y": 33.45600891113281, "z": -0.745144784450531 }, "pca_coordinates": { "x": -2.158351421356201, "y": 0.8504122495651245, "z": -3.6325135231018066 }, "axis_scores": { "Quantum imaging": 0.6347149014472961, "Quantum Life Science Sensing": 0.682628333568573, "Quantum sensing Detection": 0.6143190860748291, "Quantum sensing Metrology": 0.6101600527763367, "Quantum sensing navigation": 0.6301404237747192, "Quantum sensing Position": 0.6048629879951477, "Quantum sensing Timing": 0.6019017696380615, "Quantum sensing": 0.6344291567802429, "Quantum control": 0.639006495475769 } }, { "id": 7853, "title": "Photochemical degradation of hydroxy PAHs in ice: Implications for the polar areas", "abstract": "Hydroxyl polycyclic aromatic hydrocarbons (OH-PAHs) are derived from hydroxylated PAHs as contaminants of emerging concern. They are ubiquitous in the aqueous and atmospheric environments and may exis...", "citations": 36, "author_count": 8, "categories": [ "Environmental Sciences & Ecology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7862, "doi": "10.1016/j.chemosphere.2016.04.087", "umap_coordinates": { "x": 393.4171447753906, "y": 135.53599548339844, "z": 204.22506713867188 }, "tsne_coordinates": { "x": 2.087780475616455, "y": 21.121042251586914, "z": 16.0509033203125 }, "pca_coordinates": { "x": -4.2339677810668945, "y": 1.2355194091796875, "z": -2.9174704551696777 }, "axis_scores": { "Quantum imaging": 0.6852459907531738, "Quantum Life Science Sensing": 0.7409055233001709, "Quantum sensing Detection": 0.6747852563858032, "Quantum sensing Metrology": 0.6478561162948608, "Quantum sensing navigation": 0.6555829048156738, "Quantum sensing Position": 0.6471086740493774, "Quantum sensing Timing": 0.6328315138816833, "Quantum sensing": 0.6839438080787659, "Quantum control": 0.650971531867981 } }, { "id": 7854, "title": "Using a PBPK model to study the influence of different characteristics of nanoparticles on their biodistribution", "abstract": "The studies on potential health risks possessed by engineered nanoparticles (NPs) have been growing rapidly. However, detailed and systemic knowledge on the uptake and biodistribution of NPs in body i...", "citations": 15, "author_count": 5, "categories": [ "Science & Technology - Other Topics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7863, "doi": "10.1088/1742-6596/429/1/012019", "umap_coordinates": { "x": 394.3291931152344, "y": 134.20616149902344, "z": 204.4208984375 }, "tsne_coordinates": { "x": 11.803254127502441, "y": 24.71090316772461, "z": 3.3468475341796875 }, "pca_coordinates": { "x": -3.006756544113159, "y": 1.4309295415878296, "z": 0.3773481249809265 }, "axis_scores": { "Quantum imaging": 0.6826260089874268, "Quantum Life Science Sensing": 0.6854914426803589, "Quantum sensing Detection": 0.6580986380577087, "Quantum sensing Metrology": 0.6543503403663635, "Quantum sensing navigation": 0.6708583235740662, "Quantum sensing Position": 0.6586813926696777, "Quantum sensing Timing": 0.6403799653053284, "Quantum sensing": 0.668219804763794, "Quantum control": 0.653643012046814 } }, { "id": 7855, "title": "Photoisomerization mechanism of 4-methylpyridine explored by electronic structure calculations and nonadiabatic dynamics simulations", "abstract": "In the present paper, different electronic structure methods have been used to determine stationary and intersection structures on the ground (S-0) and (1)pi pi* (S-2) states of 4-methylpyridine, whic...", "citations": 11, "author_count": 4, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7864, "doi": "10.1063/1.3547207", "umap_coordinates": { "x": 392.6488952636719, "y": 136.27833557128906, "z": 206.39797973632812 }, "tsne_coordinates": { "x": -3.6999969482421875, "y": 4.262752532958984, "z": 10.726019859313965 }, "pca_coordinates": { "x": 0.9909152984619141, "y": -0.29430079460144043, "z": -1.4728387594223022 }, "axis_scores": { "Quantum imaging": 0.7226620316505432, "Quantum Life Science Sensing": 0.7239919900894165, "Quantum sensing Detection": 0.7053653001785278, "Quantum sensing Metrology": 0.6883062720298767, "Quantum sensing navigation": 0.6947084665298462, "Quantum sensing Position": 0.680079460144043, "Quantum sensing Timing": 0.6725863218307495, "Quantum sensing": 0.7110351324081421, "Quantum control": 0.7031529545783997 } }, { "id": 7856, "title": "Graphene as transparent front contact for dye sensitized solar cells", "abstract": "A transparent conductive graphene film is investigated as front contact in dye-sensitized solar cells (DSSCs), as an alternative to traditional transparent conducting oxides (TCO). The film is compose...", "citations": 42, "author_count": 10, "categories": [ "Energy & Fuels" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7865, "doi": "10.1016/j.solmat.2014.10.016", "umap_coordinates": { "x": 393.0068359375, "y": 133.5585174560547, "z": 204.88145446777344 }, "tsne_coordinates": { "x": 31.784048080444336, "y": 7.647701263427734, "z": -6.363059997558594 }, "pca_coordinates": { "x": -3.6444690227508545, "y": -2.397157669067383, "z": -1.0862177610397339 }, "axis_scores": { "Quantum imaging": 0.6806430220603943, "Quantum Life Science Sensing": 0.7345852851867676, "Quantum sensing Detection": 0.6864452958106995, "Quantum sensing Metrology": 0.681297779083252, "Quantum sensing navigation": 0.6804668307304382, "Quantum sensing Position": 0.6849319338798523, "Quantum sensing Timing": 0.6458500027656555, "Quantum sensing": 0.698491632938385, "Quantum control": 0.6656139492988586 } }, { "id": 7857, "title": "Characterization of a pixellated CdTe detector with single-photon processing readout", "abstract": "A I mm thick pixellated CdTe detector bonded to the MEDIPIX2 [X. Llopart, M.Campbell, R. Dinapole, D. San Segundo, E. Pernigotti, IEEE Trans. Nucl. Sci. NS-49 (5, Part 1) (2002) 2279] readout chip has...", "citations": 15, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7866, "doi": "10.1016/j.nima.2006.01.076", "umap_coordinates": { "x": 394.750732421875, "y": 132.6253204345703, "z": 205.7193145751953 }, "tsne_coordinates": { "x": -11.55041217803955, "y": 15.098733901977539, "z": -9.717486381530762 }, "pca_coordinates": { "x": -3.3703083992004395, "y": -0.597296953201294, "z": 5.2364325523376465 }, "axis_scores": { "Quantum imaging": 0.7423093318939209, "Quantum Life Science Sensing": 0.7251346707344055, "Quantum sensing Detection": 0.7483826875686646, "Quantum sensing Metrology": 0.7430121302604675, "Quantum sensing navigation": 0.7093595862388611, "Quantum sensing Position": 0.7039439082145691, "Quantum sensing Timing": 0.6992561221122742, "Quantum sensing": 0.737646222114563, "Quantum control": 0.6805835962295532 } }, { "id": 7858, "title": "Field-tuned quantum renormalization of spin dynamics in the honeycomb lattice Heisenberg antiferromagnet YbCl3", "abstract": "The basis for our understanding of quantum magnetism has been the study of elegantly simple model systems. However, even for the antiferromagnetic honeycomb lattice with isotropic spin interactions-on...", "citations": 7, "author_count": 16, "categories": [ "Physics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7867, "doi": "10.1038/s42005-023-01333-7", "umap_coordinates": { "x": 392.8002624511719, "y": 136.11444091796875, "z": 207.3170166015625 }, "tsne_coordinates": { "x": 10.123196601867676, "y": -12.890478134155273, "z": 19.363645553588867 }, "pca_coordinates": { "x": 1.185722827911377, "y": -0.861555814743042, "z": -2.856964588165283 }, "axis_scores": { "Quantum imaging": 0.7390481233596802, "Quantum Life Science Sensing": 0.7265318632125854, "Quantum sensing Detection": 0.7136915922164917, "Quantum sensing Metrology": 0.702864944934845, "Quantum sensing navigation": 0.7461624145507812, "Quantum sensing Position": 0.7184464335441589, "Quantum sensing Timing": 0.704826831817627, "Quantum sensing": 0.7342410087585449, "Quantum control": 0.7598884105682373 } }, { "id": 7859, "title": "Belief Propagation Decoding of Quantum LDPC Codes with Guided Decimation", "abstract": "Quantum low-density parity-check (QLDPC) codes have emerged as a promising technique for quantum error correction. A variety of decoders have been proposed for QLDPC codes and many utilize belief prop...", "citations": 10, "author_count": 6, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7868, "doi": "10.1109/ISIT57864.2024.10619083", "umap_coordinates": { "x": 395.3676452636719, "y": 135.5577392578125, "z": 206.4698486328125 }, "tsne_coordinates": { "x": -24.60362434387207, "y": -0.3730882704257965, "z": -7.038729667663574 }, "pca_coordinates": { "x": 1.9393343925476074, "y": 1.2182201147079468, "z": 2.692305088043213 }, "axis_scores": { "Quantum imaging": 0.7529552578926086, "Quantum Life Science Sensing": 0.7340660691261292, "Quantum sensing Detection": 0.7514409422874451, "Quantum sensing Metrology": 0.7457217574119568, "Quantum sensing navigation": 0.7715146541595459, "Quantum sensing Position": 0.7189738154411316, "Quantum sensing Timing": 0.7087484002113342, "Quantum sensing": 0.7534711360931396, "Quantum control": 0.7189120054244995 } }, { "id": 7860, "title": "On the time evolution of gamma-ray burst pulses: A self-consistent description", "abstract": "For the first time, the consequences of combining two well-established empirical relations that describe different aspects of the spectral evolution of observed gamma-ray burst (GRB) pulses are explor...", "citations": 53, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7869, "doi": "10.1086/312443", "umap_coordinates": { "x": 395.8251647949219, "y": 134.9432830810547, "z": 206.41448974609375 }, "tsne_coordinates": { "x": -28.448522567749023, "y": 20.03703498840332, "z": 7.266556739807129 }, "pca_coordinates": { "x": -0.3253937363624573, "y": 2.7645320892333984, "z": 0.4466683268547058 }, "axis_scores": { "Quantum imaging": 0.6595039367675781, "Quantum Life Science Sensing": 0.6920807361602783, "Quantum sensing Detection": 0.6609551310539246, "Quantum sensing Metrology": 0.6487835049629211, "Quantum sensing navigation": 0.6723759770393372, "Quantum sensing Position": 0.652317225933075, "Quantum sensing Timing": 0.6898071765899658, "Quantum sensing": 0.66278076171875, "Quantum control": 0.6457338333129883 } }, { "id": 7861, "title": "Bone mineral status in end-stage liver disease and the effect of liver transplantation", "abstract": "Background: The aim of this study was to determine bone mass at different skeletal sites in patients with end-stage liver disease and the effect of liver transplantation on bone mineralization. Method...", "citations": 38, "author_count": 6, "categories": [ "Gastroenterology & Hepatology" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7870, "doi": "10.3109/00365529509101633", "umap_coordinates": { "x": 394.6888732910156, "y": 134.9122314453125, "z": 204.0287628173828 }, "tsne_coordinates": { "x": -0.03242254629731178, "y": 35.57410430908203, "z": 12.324952125549316 }, "pca_coordinates": { "x": -2.5714950561523438, "y": 4.021853923797607, "z": -2.1811957359313965 }, "axis_scores": { "Quantum imaging": 0.6648311614990234, "Quantum Life Science Sensing": 0.6908081769943237, "Quantum sensing Detection": 0.6441230773925781, "Quantum sensing Metrology": 0.6600640416145325, "Quantum sensing navigation": 0.6554337739944458, "Quantum sensing Position": 0.6561566591262817, "Quantum sensing Timing": 0.6289247870445251, "Quantum sensing": 0.6593136191368103, "Quantum control": 0.6418771743774414 } }, { "id": 7862, "title": "Impact of Traps and Strain on Optimized n- and p-Type TFETs Integrated on the Same InAs/AlGaSb Technology Platform", "abstract": "A simulation study on the impact of interface traps and strain on the I -V characteristics of co-optimized p-and n-type tunnel FETs (TFETs) realized on the same InAs/Al0.05Ga0.95Sb technology platform...", "citations": 5, "author_count": 6, "categories": [ "Engineering" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7871, "doi": "10.1109/TED.2017.2711779", "umap_coordinates": { "x": 393.9931335449219, "y": 133.49966430664062, "z": 206.43978881835938 }, "tsne_coordinates": { "x": 26.86427879333496, "y": 13.001644134521484, "z": -27.944345474243164 }, "pca_coordinates": { "x": -1.1232507228851318, "y": -2.4122815132141113, "z": 1.391770601272583 }, "axis_scores": { "Quantum imaging": 0.6977397799491882, "Quantum Life Science Sensing": 0.6851714253425598, "Quantum sensing Detection": 0.6792942881584167, "Quantum sensing Metrology": 0.6803339719772339, "Quantum sensing navigation": 0.6884087324142456, "Quantum sensing Position": 0.6858854293823242, "Quantum sensing Timing": 0.7084252238273621, "Quantum sensing": 0.696100652217865, "Quantum control": 0.6894980072975159 } }, { "id": 7863, "title": "Topological liquid nucleation induced by vortex-vortex interactions in Kitaev's honeycomb model", "abstract": "We provide a comprehensive microscopic understanding of the nucleation of topological quantum liquids, a general mechanism where interactions between non-Abelian anyons cause a transition to another t...", "citations": 64, "author_count": 5, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7872, "doi": "10.1103/PhysRevB.86.075115", "umap_coordinates": { "x": 394.34765625, "y": 137.00863647460938, "z": 208.99684143066406 }, "tsne_coordinates": { "x": -23.358280181884766, "y": -26.779348373413086, "z": 19.333707809448242 }, "pca_coordinates": { "x": 4.033139228820801, "y": 0.13710975646972656, "z": -2.174595832824707 }, "axis_scores": { "Quantum imaging": 0.6532764434814453, "Quantum Life Science Sensing": 0.6610357761383057, "Quantum sensing Detection": 0.6632977724075317, "Quantum sensing Metrology": 0.64726322889328, "Quantum sensing navigation": 0.6680281758308411, "Quantum sensing Position": 0.6482223868370056, "Quantum sensing Timing": 0.6462445855140686, "Quantum sensing": 0.6595169305801392, "Quantum control": 0.6641933917999268 } }, { "id": 7864, "title": "Solid-state NMR determination of sugar ring pucker in 13C-labeled 2′-deoxynucleosides", "abstract": "The H3'-C3'-C4'-H4' torsional angles of two microcrystalline 2'-deoxynucleosides, thymidine and 2'-deoxycytidine-HCl, doubly C-13-labeled at the C3' and C4' positions of the sugar ring, have been meas...", "citations": 11, "author_count": 6, "categories": [ "Biophysics" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7873, "doi": "10.1016/S0006-3495(02)75292-2", "umap_coordinates": { "x": 392.5237121582031, "y": 136.9642333984375, "z": 206.22817993164062 }, "tsne_coordinates": { "x": 15.341706275939941, "y": 5.078475475311279, "z": 28.28955841064453 }, "pca_coordinates": { "x": -1.6075775623321533, "y": 1.8311972618103027, "z": -1.6156091690063477 }, "axis_scores": { "Quantum imaging": 0.6794293522834778, "Quantum Life Science Sensing": 0.7293280959129333, "Quantum sensing Detection": 0.6872832775115967, "Quantum sensing Metrology": 0.6780803799629211, "Quantum sensing navigation": 0.7147907018661499, "Quantum sensing Position": 0.7140344977378845, "Quantum sensing Timing": 0.6825757622718811, "Quantum sensing": 0.6984494924545288, "Quantum control": 0.679692268371582 } }, { "id": 7865, "title": "Entangling power of holonomic gates in atom-based systems", "abstract": "Entanglement is one of the main resources of quantum computation, and entangling power of a quantum system is a crucial element in the universality and efficiency of a proposed architecture for realiz...", "citations": 4, "author_count": 3, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7874, "doi": "10.1088/1751-8121/aae78b", "umap_coordinates": { "x": 394.9273681640625, "y": 137.11997985839844, "z": 207.56320190429688 }, "tsne_coordinates": { "x": -33.50569534301758, "y": -10.099148750305176, "z": 14.825735092163086 }, "pca_coordinates": { "x": 2.918362617492676, "y": 1.6035938262939453, "z": -0.4819888174533844 }, "axis_scores": { "Quantum imaging": 0.7077924609184265, "Quantum Life Science Sensing": 0.683739185333252, "Quantum sensing Detection": 0.6974916458129883, "Quantum sensing Metrology": 0.6863968968391418, "Quantum sensing navigation": 0.7239729166030884, "Quantum sensing Position": 0.6948309540748596, "Quantum sensing Timing": 0.7101758122444153, "Quantum sensing": 0.71275395154953, "Quantum control": 0.7017025947570801 } }, { "id": 7866, "title": "Measurement of photon production in the very forward direction in deep-inelastic scattering at HERA", "abstract": "The production of photons at very small angles with respect to the proton beam direction is studied in deep-inelastic positron-proton scattering at HERA. The data are taken with the H1 detector in the...", "citations": 6, "author_count": 205, "categories": [ "Physics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7875, "doi": "10.1140/epjc/s10052-011-1771-6", "umap_coordinates": { "x": 396.40020751953125, "y": 134.18885803222656, "z": 206.9877166748047 }, "tsne_coordinates": { "x": -28.23979949951172, "y": 11.878087043762207, "z": -6.074413299560547 }, "pca_coordinates": { "x": -0.44464462995529175, "y": 1.4199994802474976, "z": 3.908851146697998 }, "axis_scores": { "Quantum imaging": 0.7250851392745972, "Quantum Life Science Sensing": 0.726236879825592, "Quantum sensing Detection": 0.7202396392822266, "Quantum sensing Metrology": 0.7090524435043335, "Quantum sensing navigation": 0.7280766367912292, "Quantum sensing Position": 0.7237539887428284, "Quantum sensing Timing": 0.7228566408157349, "Quantum sensing": 0.7272223234176636, "Quantum control": 0.6785097122192383 } }, { "id": 7867, "title": "Model calculation of the electron-phonon coupling in Cs/Cu(111)", "abstract": "A simplified calculation scheme is proposed for the analysis of the phonon-induced lifetime broadening of surface-electronic states. The aim has been to include the details of the electron and phonon ...", "citations": 6, "author_count": 4, "categories": [ "Materials Science" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7876, "doi": "10.1103/PhysRevB.78.035417", "umap_coordinates": { "x": 393.9185485839844, "y": 136.14862060546875, "z": 208.88023376464844 }, "tsne_coordinates": { "x": 6.756011962890625, "y": -43.52245330810547, "z": -3.845968008041382 }, "pca_coordinates": { "x": 3.5909314155578613, "y": -0.12048840522766113, "z": 0.5060364603996277 }, "axis_scores": { "Quantum imaging": 0.6942267417907715, "Quantum Life Science Sensing": 0.6928093433380127, "Quantum sensing Detection": 0.7132406234741211, "Quantum sensing Metrology": 0.6914031505584717, "Quantum sensing navigation": 0.7096576690673828, "Quantum sensing Position": 0.696722686290741, "Quantum sensing Timing": 0.6933490037918091, "Quantum sensing": 0.7163497805595398, "Quantum control": 0.6962143778800964 } }, { "id": 7868, "title": "Density-functional calculations of prefactors and activation energies for H diffusion in BaZrO3", "abstract": "Density-functional calculations are used to investigate hydrogen diffusion in the solid-state proton conductor BaZrO3. Activation energies and prefactors for the rate of proton transfer and reorientat...", "citations": 113, "author_count": 4, "categories": [ "Materials Science" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7877, "doi": "10.1103/PhysRevB.76.094301", "umap_coordinates": { "x": 394.1283264160156, "y": 136.624267578125, "z": 208.468994140625 }, "tsne_coordinates": { "x": 8.673720359802246, "y": -24.05290412902832, "z": 38.03197479248047 }, "pca_coordinates": { "x": 3.062417507171631, "y": 0.11324596405029297, "z": -2.6348400115966797 }, "axis_scores": { "Quantum imaging": 0.7018983960151672, "Quantum Life Science Sensing": 0.7136148810386658, "Quantum sensing Detection": 0.6796236038208008, "Quantum sensing Metrology": 0.6763455271720886, "Quantum sensing navigation": 0.7042521238327026, "Quantum sensing Position": 0.6696997880935669, "Quantum sensing Timing": 0.6648768186569214, "Quantum sensing": 0.701532244682312, "Quantum control": 0.6975790858268738 } }, { "id": 7869, "title": "Build-up cap materials for measurement of photon head-scatter factors", "abstract": "The suitability of high-Z materials as build-up caps for head-scatter measurements has been investigated. Build-up caps are often used to enable characterization of fields too small for a mini-phantom...", "citations": 33, "author_count": 4, "categories": [ "Engineering" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7878, "doi": "10.1088/0031-9155/42/10/002", "umap_coordinates": { "x": 395.807373046875, "y": 133.77139282226562, "z": 205.2960662841797 }, "tsne_coordinates": { "x": -16.5989990234375, "y": 31.26420783996582, "z": -12.870744705200195 }, "pca_coordinates": { "x": -4.364364147186279, "y": 3.3450160026550293, "z": 2.2502310276031494 }, "axis_scores": { "Quantum imaging": 0.6741032004356384, "Quantum Life Science Sensing": 0.6938058733940125, "Quantum sensing Detection": 0.6521986722946167, "Quantum sensing Metrology": 0.6633872985839844, "Quantum sensing navigation": 0.6557401418685913, "Quantum sensing Position": 0.6582628488540649, "Quantum sensing Timing": 0.6538501977920532, "Quantum sensing": 0.671734094619751, "Quantum control": 0.639412522315979 } }, { "id": 7870, "title": "Imaging Single Particle Profiler to Study Nanoscale Bioparticles Using Conventional Confocal Microscopy", "abstract": "Single particle profiling (SPP) is a unique methodology to study nanoscale bioparticles such as liposomes, lipid nanoparticles, extracellular vesicles, and lipoproteins in a single particle and high t...", "citations": 2, "author_count": 13, "categories": [ "Chemistry" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7879, "doi": "10.1021/acs.nanolett.4c05117", "umap_coordinates": { "x": 393.7716369628906, "y": 134.05728149414062, "z": 205.12814331054688 }, "tsne_coordinates": { "x": 5.666560173034668, "y": 19.158611297607422, "z": -18.405780792236328 }, "pca_coordinates": { "x": -4.0120158195495605, "y": -0.5671176910400391, "z": 0.7158851027488708 }, "axis_scores": { "Quantum imaging": 0.7120251059532166, "Quantum Life Science Sensing": 0.7156844139099121, "Quantum sensing Detection": 0.6787669062614441, "Quantum sensing Metrology": 0.6819009184837341, "Quantum sensing navigation": 0.689104437828064, "Quantum sensing Position": 0.6819424629211426, "Quantum sensing Timing": 0.6383821368217468, "Quantum sensing": 0.6943367719650269, "Quantum control": 0.656391978263855 } }, { "id": 7871, "title": "Applying the Quantum Approximate Optimization Algorithm to the Tail-Assignment Problem", "abstract": "Airlines today are faced with a number of large-scale scheduling problems. One such problem is the tail-assignment problem, which is the task of assigning individual aircraft to a given set of flights...", "citations": 65, "author_count": 7, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7880, "doi": "10.1103/PhysRevApplied.14.034009", "umap_coordinates": { "x": 395.384521484375, "y": 136.78343200683594, "z": 207.26434326171875 }, "tsne_coordinates": { "x": -29.138673782348633, "y": -20.8651065826416, "z": -11.069878578186035 }, "pca_coordinates": { "x": 2.359807252883911, "y": 1.8715579509735107, "z": -0.8850979208946228 }, "axis_scores": { "Quantum imaging": 0.7148424983024597, "Quantum Life Science Sensing": 0.710605263710022, "Quantum sensing Detection": 0.7145519852638245, "Quantum sensing Metrology": 0.7014926671981812, "Quantum sensing navigation": 0.7234851121902466, "Quantum sensing Position": 0.6950430274009705, "Quantum sensing Timing": 0.6922557353973389, "Quantum sensing": 0.7192655801773071, "Quantum control": 0.7044963240623474 } }, { "id": 7872, "title": "Anomalies in light scattering", "abstract": "The scattering of electromagnetic waves lies at the heart of most experimental techniques over nearly the entire electromagnetic spectrum, ranging from radio waves to optics and x rays. Hence, deep in...", "citations": 235, "author_count": 7, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7881, "doi": "10.1364/AOP.11.000892", "umap_coordinates": { "x": 394.5706787109375, "y": 134.78050231933594, "z": 206.14219665527344 }, "tsne_coordinates": { "x": -2.09757661819458, "y": -10.4989652633667, "z": -24.103830337524414 }, "pca_coordinates": { "x": 0.2764263153076172, "y": 0.8785481452941895, "z": 1.2243330478668213 }, "axis_scores": { "Quantum imaging": 0.7178699374198914, "Quantum Life Science Sensing": 0.7068580985069275, "Quantum sensing Detection": 0.7161448001861572, "Quantum sensing Metrology": 0.7028869390487671, "Quantum sensing navigation": 0.724406898021698, "Quantum sensing Position": 0.6946957111358643, "Quantum sensing Timing": 0.7117965221405029, "Quantum sensing": 0.727355420589447, "Quantum control": 0.6984319090843201 } }, { "id": 7873, "title": "Solvent effect on dynamical TPA and optical limiting of BDMAS molecular media for nanosecond and femtosecond laser pulses", "abstract": "The dynamical two-photon absorption (TPA) cross section as well as optical limiting of a 4,4'-bis(dimethylamino) stilbene (BDMAS) molecular medium for the nanosecond and femtosecond laser pulses is st...", "citations": 14, "author_count": 6, "categories": [ "Optics" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7882, "doi": "10.1088/0953-4075/44/3/035103", "umap_coordinates": { "x": 393.5821838378906, "y": 135.7711944580078, "z": 206.18194580078125 }, "tsne_coordinates": { "x": -15.1670560836792, "y": -2.59659743309021, "z": 37.63562774658203 }, "pca_coordinates": { "x": -0.9229207038879395, "y": 1.1396028995513916, "z": -1.6710997819900513 }, "axis_scores": { "Quantum imaging": 0.6894386410713196, "Quantum Life Science Sensing": 0.6943725347518921, "Quantum sensing Detection": 0.6564546227455139, "Quantum sensing Metrology": 0.6554986238479614, "Quantum sensing navigation": 0.6430699825286865, "Quantum sensing Position": 0.6446707248687744, "Quantum sensing Timing": 0.6496654748916626, "Quantum sensing": 0.6674866080284119, "Quantum control": 0.6611788868904114 } }, { "id": 7874, "title": "Using Rose's metal alloy as a pinhole collimator material in preclinical small-animal imaging: A Monte Carlo evaluation", "abstract": "Purpose: Pinhole collimation is the most common method of high-resolution preclinical single photon emission computed tomography imaging. The collimators are usually constructed from dense materials w...", "citations": 5, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7883, "doi": "10.1118/1.4914423", "umap_coordinates": { "x": 395.61065673828125, "y": 133.09381103515625, "z": 205.0764617919922 }, "tsne_coordinates": { "x": -10.434612274169922, "y": 22.50199317932129, "z": -5.574296474456787 }, "pca_coordinates": { "x": -3.4594991207122803, "y": 2.282365083694458, "z": 2.8736681938171387 }, "axis_scores": { "Quantum imaging": 0.7262664437294006, "Quantum Life Science Sensing": 0.678231954574585, "Quantum sensing Detection": 0.6840497255325317, "Quantum sensing Metrology": 0.6804977655410767, "Quantum sensing navigation": 0.6937409043312073, "Quantum sensing Position": 0.6974164843559265, "Quantum sensing Timing": 0.6825442314147949, "Quantum sensing": 0.6977942585945129, "Quantum control": 0.6587822437286377 } }, { "id": 7875, "title": "Insights into emulsion synthesis of self-assembled suprastructures formed by Janus silica particles with -NH2/-SH surface groups", "abstract": "Spherical particles with tunable anisotropic structures enabled by multiple surface functionalities have garnered interest for their potential applications in adsorption technologies. The presence of ...", "citations": 3, "author_count": 9, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7884, "doi": "10.1039/d3na00909b", "umap_coordinates": { "x": 392.71148681640625, "y": 134.7009735107422, "z": 205.06436157226562 }, "tsne_coordinates": { "x": 16.754053115844727, "y": -12.429067611694336, "z": -1.324763298034668 }, "pca_coordinates": { "x": -1.3143812417984009, "y": -1.7644271850585938, "z": -2.5051891803741455 }, "axis_scores": { "Quantum imaging": 0.6589674949645996, "Quantum Life Science Sensing": 0.7059972286224365, "Quantum sensing Detection": 0.6509735584259033, "Quantum sensing Metrology": 0.6533273458480835, "Quantum sensing navigation": 0.6727328300476074, "Quantum sensing Position": 0.6272883415222168, "Quantum sensing Timing": 0.5916626453399658, "Quantum sensing": 0.6699999570846558, "Quantum control": 0.6459827423095703 } }, { "id": 7876, "title": "Violation of Bell's Inequality and Postulate on Simultaneous Measurement of Compatible Observables", "abstract": "We discuss the connection of a violation of Bell's inequality and the non-Kolmogorovness of statistical data in the EPR-Bohm experiment. We emphasize that nonlocalty and death of realism are only suff...", "citations": 22, "author_count": 2, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 7885, "doi": "10.1166/jctn.2011.1780", "umap_coordinates": { "x": 395.8970947265625, "y": 136.91957092285156, "z": 206.43565368652344 }, "tsne_coordinates": { "x": -15.088140487670898, "y": -6.104104042053223, "z": -0.5189985632896423 }, "pca_coordinates": { "x": 0.23906290531158447, "y": 3.9750008583068848, "z": 2.719309091567993 }, "axis_scores": { "Quantum imaging": 0.7036432027816772, "Quantum Life Science Sensing": 0.7011111378669739, "Quantum sensing Detection": 0.7379105091094971, "Quantum sensing Metrology": 0.7345603108406067, "Quantum sensing navigation": 0.7254109382629395, "Quantum sensing Position": 0.728352427482605, "Quantum sensing Timing": 0.7339016199111938, "Quantum sensing": 0.7354055643081665, "Quantum control": 0.6958382725715637 } }, { "id": 7877, "title": "Superconductors are topologically ordered", "abstract": "We revisit a venerable question: what is the nature of the ordering in a superconductor? We find that the answer is properly that the superconducting state exhibits topological order in the sense of W...", "citations": 273, "author_count": 4, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7886, "doi": "10.1016/j.aop.2004.05.006", "umap_coordinates": { "x": 394.163818359375, "y": 136.72764587402344, "z": 206.8694610595703 }, "tsne_coordinates": { "x": -4.775169372558594, "y": -14.78239917755127, "z": 29.476722717285156 }, "pca_coordinates": { "x": 1.1446599960327148, "y": -0.21801280975341797, "z": -2.070197343826294 }, "axis_scores": { "Quantum imaging": 0.7180906534194946, "Quantum Life Science Sensing": 0.7066243886947632, "Quantum sensing Detection": 0.7062280774116516, "Quantum sensing Metrology": 0.6936047077178955, "Quantum sensing navigation": 0.713496744632721, "Quantum sensing Position": 0.7045575380325317, "Quantum sensing Timing": 0.7058554291725159, "Quantum sensing": 0.7250616550445557, "Quantum control": 0.7048468589782715 } }, { "id": 7878, "title": "Catalytic systems mimicking the [FeFe]-hydrogenase active site for visible-light-driven hydrogen production", "abstract": "A global hydrogen economy could ensure environmentally sustainable, safe and cost-efficient renewable energy for the 21st century. Solar hydrogen production through artificial photosynthesis is a key ...", "citations": 65, "author_count": 7, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7887, "doi": "10.1016/j.ccr.2021.214172", "umap_coordinates": { "x": 392.69683837890625, "y": 135.75613403320312, "z": 204.62753295898438 }, "tsne_coordinates": { "x": 19.698734283447266, "y": 7.242686748504639, "z": -6.874110221862793 }, "pca_coordinates": { "x": -3.0294370651245117, "y": 1.0884991884231567, "z": -2.7689175605773926 }, "axis_scores": { "Quantum imaging": 0.7118443250656128, "Quantum Life Science Sensing": 0.7403639554977417, "Quantum sensing Detection": 0.6995241045951843, "Quantum sensing Metrology": 0.6868292093276978, "Quantum sensing navigation": 0.6840906739234924, "Quantum sensing Position": 0.6568894386291504, "Quantum sensing Timing": 0.6673438549041748, "Quantum sensing": 0.7118316292762756, "Quantum control": 0.702279806137085 } }, { "id": 7879, "title": "Numerical investigations on the electromagnetic enhancement effect to tip-enhanced Raman scattering and fluorescence processes", "abstract": "In the present work, we theoretically study the electromagnetic (EM) enhancement of the Raman and fluorescence signals for a molecule placed in a nanocavity formed by a metallic tip and substrate that...", "citations": 9, "author_count": 6, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7888, "doi": "10.1088/1361-648X/ab0b9d", "umap_coordinates": { "x": 394.2478942871094, "y": 134.77056884765625, "z": 206.42213439941406 }, "tsne_coordinates": { "x": -17.378427505493164, "y": -8.252334594726562, "z": -22.38482666015625 }, "pca_coordinates": { "x": -1.116074562072754, "y": 0.6509512662887573, "z": 0.4322964549064636 }, "axis_scores": { "Quantum imaging": 0.6879996061325073, "Quantum Life Science Sensing": 0.6661624312400818, "Quantum sensing Detection": 0.6622241735458374, "Quantum sensing Metrology": 0.6633538603782654, "Quantum sensing navigation": 0.6587425470352173, "Quantum sensing Position": 0.6453803181648254, "Quantum sensing Timing": 0.6432000994682312, "Quantum sensing": 0.6728562116622925, "Quantum control": 0.6476348042488098 } }, { "id": 7880, "title": "Photochemical decomposition of 15 polybrominated diphenyl ether congeners in methanol/water", "abstract": "Among all brominated flame retardants in use, the polybrominated diphenyl ethers (PBDEs) have been identified as being of particular environmental concern due to their global distribution and bioaccum...", "citations": 409, "author_count": 5, "categories": [ "Engineering" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7889, "doi": "10.1021/es049830t", "umap_coordinates": { "x": 393.0165100097656, "y": 135.4632110595703, "z": 204.5138702392578 }, "tsne_coordinates": { "x": 15.428772926330566, "y": 21.77389907836914, "z": 10.24258041381836 }, "pca_coordinates": { "x": -2.9155735969543457, "y": -0.6151094436645508, "z": -2.605419635772705 }, "axis_scores": { "Quantum imaging": 0.680265486240387, "Quantum Life Science Sensing": 0.7228994369506836, "Quantum sensing Detection": 0.6778844594955444, "Quantum sensing Metrology": 0.6542133092880249, "Quantum sensing navigation": 0.6534826159477234, "Quantum sensing Position": 0.6520426273345947, "Quantum sensing Timing": 0.6302785277366638, "Quantum sensing": 0.6764646172523499, "Quantum control": 0.651940107345581 } }, { "id": 7881, "title": "Proton dynamics in oxides: insight into the mechanics of proton conduction from quasielastic neutron scattering", "abstract": "This article is concerned with the use of quasielastic neutron scattering as a technique for investigation of the dynamical properties of proton conducting oxides. Currently, the main interest in thes...", "citations": 69, "author_count": 2, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7890, "doi": "10.1039/c4cp04112g", "umap_coordinates": { "x": 392.3526611328125, "y": 136.611572265625, "z": 206.04661560058594 }, "tsne_coordinates": { "x": 3.5479907989501953, "y": 7.240650653839111, "z": 25.721784591674805 }, "pca_coordinates": { "x": 1.4040212631225586, "y": -0.6068227291107178, "z": -3.178398609161377 }, "axis_scores": { "Quantum imaging": 0.7158749103546143, "Quantum Life Science Sensing": 0.7452735900878906, "Quantum sensing Detection": 0.7009817957878113, "Quantum sensing Metrology": 0.6729351282119751, "Quantum sensing navigation": 0.7273547053337097, "Quantum sensing Position": 0.6770523190498352, "Quantum sensing Timing": 0.6557821035385132, "Quantum sensing": 0.7163159847259521, "Quantum control": 0.6879967451095581 } }, { "id": 7882, "title": "INCREASED FRACTURE RISK IN HYPERCALCEMIA - BONE-MINERAL CONTENT MEASURED IN HYPERPARATHYROIDISM", "abstract": "In the present study, 39 women with mild hypercalcemia, which had been detected 18 years earlier during a health survey, and presumably caused by primary hyperparthyroidism (HPT), were investigated to...", "citations": 59, "author_count": 6, "categories": [ "Orthopedics" ], "year": 1989, "topic": [ "all" ], "embedding_index": 7891, "doi": "10.3109/17453678909149275", "umap_coordinates": { "x": 395.2934875488281, "y": 134.952392578125, "z": 204.14695739746094 }, "tsne_coordinates": { "x": -2.514430522918701, "y": 38.855255126953125, "z": 11.03370475769043 }, "pca_coordinates": { "x": -1.6257493495941162, "y": 4.032586097717285, "z": -0.5265228748321533 }, "axis_scores": { "Quantum imaging": 0.6467329859733582, "Quantum Life Science Sensing": 0.6691961884498596, "Quantum sensing Detection": 0.6577189564704895, "Quantum sensing Metrology": 0.6668111681938171, "Quantum sensing navigation": 0.6469538807868958, "Quantum sensing Position": 0.6602314114570618, "Quantum sensing Timing": 0.6407684087753296, "Quantum sensing": 0.6550593972206116, "Quantum control": 0.6150959134101868 } }, { "id": 7883, "title": "PREDICTING FRACTURES IN WOMEN BY USING FOREARM BONE DENSITOMETRY", "abstract": "In 1,076 women the forearm bone mineral content (BMC) had been measured with single photon gamma absorptiometry (SPA) 10-16 years ago. The incidence of fractures incurred in the ensuing years (1975-19...", "citations": 244, "author_count": 4, "categories": [ "Endocrinology & Metabolism" ], "year": 1989, "topic": [ "all" ], "embedding_index": 7892, "doi": "10.1007/BF02553757", "umap_coordinates": { "x": 395.32073974609375, "y": 134.8590545654297, "z": 204.3438262939453 }, "tsne_coordinates": { "x": -5.150370121002197, "y": 36.4935302734375, "z": 8.64675521850586 }, "pca_coordinates": { "x": -2.984628200531006, "y": 3.4763364791870117, "z": 0.944909393787384 }, "axis_scores": { "Quantum imaging": 0.6501650810241699, "Quantum Life Science Sensing": 0.6647939085960388, "Quantum sensing Detection": 0.6629696488380432, "Quantum sensing Metrology": 0.6613875031471252, "Quantum sensing navigation": 0.6876758933067322, "Quantum sensing Position": 0.6777307987213135, "Quantum sensing Timing": 0.6449361443519592, "Quantum sensing": 0.6683534383773804, "Quantum control": 0.6347404718399048 } }, { "id": 7884, "title": "A 3.5-THz, x6-Harmonic, Single-Ended Schottky Diode Mixer for Frequency Stabilization of Quantum-Cascade Lasers", "abstract": "Efficient and compact frequency converters are essential for frequency stabilization of terahertz sources. In this article, we present a 3.5-THz, x6-harmonic, integrated Schottky diode mixer operating...", "citations": 23, "author_count": 12, "categories": [ "Engineering" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7893, "doi": "10.1109/TTHZ.2021.3115730", "umap_coordinates": { "x": 394.761962890625, "y": 134.30557250976562, "z": 207.1365509033203 }, "tsne_coordinates": { "x": 0.4028078019618988, "y": 0.11103148758411407, "z": -43.102046966552734 }, "pca_coordinates": { "x": 0.19351935386657715, "y": 0.0004994869232177734, "z": 0.16857177019119263 }, "axis_scores": { "Quantum imaging": 0.6410506963729858, "Quantum Life Science Sensing": 0.697414219379425, "Quantum sensing Detection": 0.650530219078064, "Quantum sensing Metrology": 0.6795693039894104, "Quantum sensing navigation": 0.6544557809829712, "Quantum sensing Position": 0.6428450345993042, "Quantum sensing Timing": 0.6931378841400146, "Quantum sensing": 0.6744672060012817, "Quantum control": 0.6698761582374573 } }, { "id": 7885, "title": "Energy projection and modified Laughlin states", "abstract": "We develop a method to efficiently calculate trial wave functions for quantum Hall systems which involve projection onto the lowest Landau level. The method essentially replaces the lowest Landau leve...", "citations": 10, "author_count": 5, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7894, "doi": "10.1103/PhysRevB.93.235149", "umap_coordinates": { "x": 395.0368347167969, "y": 136.98318481445312, "z": 207.45480346679688 }, "tsne_coordinates": { "x": -22.087886810302734, "y": -28.600439071655273, "z": 3.3350319862365723 }, "pca_coordinates": { "x": 2.7782654762268066, "y": 1.809914231300354, "z": -1.3151183128356934 }, "axis_scores": { "Quantum imaging": 0.7078738808631897, "Quantum Life Science Sensing": 0.7087709307670593, "Quantum sensing Detection": 0.6966859698295593, "Quantum sensing Metrology": 0.6856834888458252, "Quantum sensing navigation": 0.6935485601425171, "Quantum sensing Position": 0.6978761553764343, "Quantum sensing Timing": 0.6614879369735718, "Quantum sensing": 0.7061914205551147, "Quantum control": 0.7050853967666626 } }, { "id": 7886, "title": "Measurements of Wγ and Zγ production in pp collisions at √s=7 TeV with the ATLAS detector at the LHC", "abstract": "The integrated and differential fiducial cross sections for the production of a W or Z boson in association with a high-energy photon are measured using pp collisions at root s = 7 TeV. The analyses u...", "citations": 30, "author_count": 2654, "categories": [ "Astronomy & Astrophysics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7895, "doi": "10.1103/PhysRevD.87.112003", "umap_coordinates": { "x": 396.9685363769531, "y": 134.4134979248047, "z": 207.6636962890625 }, "tsne_coordinates": { "x": -38.27704620361328, "y": 8.122467041015625, "z": -11.136457443237305 }, "pca_coordinates": { "x": 2.330233573913574, "y": 0.006491422653198242, "z": 3.3943305015563965 }, "axis_scores": { "Quantum imaging": 0.6887161135673523, "Quantum Life Science Sensing": 0.6976445317268372, "Quantum sensing Detection": 0.6985665559768677, "Quantum sensing Metrology": 0.6866311430931091, "Quantum sensing navigation": 0.6994234919548035, "Quantum sensing Position": 0.6974530816078186, "Quantum sensing Timing": 0.7029379606246948, "Quantum sensing": 0.7003250122070312, "Quantum control": 0.6694290041923523 } }, { "id": 7887, "title": "Schrodinger dynamics as the Hilbert space projection of a realistic contextual probabilistic dynamics", "abstract": "We study the problem of consistency of classical and quantum probabilistic models ( also known as the problem of existence of hidden variables). We show that the solution of this problem depends cruci...", "citations": 14, "author_count": 2, "categories": [ "Physics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7896, "doi": "10.1209/epl/i2004-10425-9", "umap_coordinates": { "x": 395.00421142578125, "y": 137.9315643310547, "z": 206.13758850097656 }, "tsne_coordinates": { "x": -24.81718635559082, "y": 4.6864824295043945, "z": 20.15655517578125 }, "pca_coordinates": { "x": 2.37799072265625, "y": 4.219347953796387, "z": -1.5580463409423828 }, "axis_scores": { "Quantum imaging": 0.7351531982421875, "Quantum Life Science Sensing": 0.7281925082206726, "Quantum sensing Detection": 0.705117404460907, "Quantum sensing Metrology": 0.6786248683929443, "Quantum sensing navigation": 0.724841833114624, "Quantum sensing Position": 0.7036238312721252, "Quantum sensing Timing": 0.7084932923316956, "Quantum sensing": 0.7239313721656799, "Quantum control": 0.7331393957138062 } }, { "id": 7888, "title": "COLD-INDUCED REVERSIBLE MYOCARDIAL ISCHEMIA IN SYSTEMIC-SCLEROSIS", "abstract": "The effect of cold provocation on myocardial perfusion was studied in 21 patients with systemic sclerosis and 8 healthy controls. The cold provocation was designed not to cause a pain rection, and no ...", "citations": 94, "author_count": 6, "categories": [ "General & Internal Medicine" ], "year": 1989, "topic": [ "all" ], "embedding_index": 7897, "doi": null, "umap_coordinates": { "x": 391.3348693847656, "y": 139.70033264160156, "z": 209.48025512695312 }, "tsne_coordinates": { "x": 0.7696688175201416, "y": 45.59760284423828, "z": -1.5360872745513916 }, "pca_coordinates": { "x": -1.871211051940918, "y": 4.285253047943115, "z": -1.6102075576782227 }, "axis_scores": { "Quantum imaging": 0.6495606303215027, "Quantum Life Science Sensing": 0.6692386269569397, "Quantum sensing Detection": 0.6418336629867554, "Quantum sensing Metrology": 0.6265828609466553, "Quantum sensing navigation": 0.6256296038627625, "Quantum sensing Position": 0.6163123846054077, "Quantum sensing Timing": 0.643370509147644, "Quantum sensing": 0.6403481960296631, "Quantum control": 0.6301103830337524 } }, { "id": 7889, "title": "OPTICALLY INDUCED CARRIER TRANSFER IN SILICON ANTI-MODULATION-DOPED GAAS/ALXGA1-XAS SINGLE QUANTUM-WELLS", "abstract": "A series of single-quantum-well samples doped with Si in the well (antimodulation), has been investigated using photoluminescence and photoluminescence excitation spectroscopy. The photoluminescence s...", "citations": 4, "author_count": 6, "categories": [ "Materials Science" ], "year": 1992, "topic": [ "all" ], "embedding_index": 7898, "doi": "10.1103/PhysRevB.45.4227", "umap_coordinates": { "x": 393.3633117675781, "y": 134.5673065185547, "z": 208.9085693359375 }, "tsne_coordinates": { "x": 12.11655330657959, "y": -32.68749237060547, "z": -0.18321570754051208 }, "pca_coordinates": { "x": 4.046325206756592, "y": -3.563206195831299, "z": 1.708235263824463 }, "axis_scores": { "Quantum imaging": 0.7048354148864746, "Quantum Life Science Sensing": 0.6992402076721191, "Quantum sensing Detection": 0.7010200023651123, "Quantum sensing Metrology": 0.7024272680282593, "Quantum sensing navigation": 0.7073752880096436, "Quantum sensing Position": 0.6891359686851501, "Quantum sensing Timing": 0.6723103523254395, "Quantum sensing": 0.7135609984397888, "Quantum control": 0.695441484451294 } }, { "id": 7890, "title": "High-resolution photoemission on Ag/Au(111): Spin-orbit splitting and electronic localization of the surface state - art. no. 045419", "abstract": "We present a detailed photoemission study of the surface state dispersion in 0-10 ML thin Ag films on Au(111). The dispersion of the L-gap Shockley-type surface state changes monotonically from the on...", "citations": 61, "author_count": 10, "categories": [ "Materials Science" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7899, "doi": "10.1103/PhysRevB.72.045419", "umap_coordinates": { "x": 394.27459716796875, "y": 135.24122619628906, "z": 209.2881317138672 }, "tsne_coordinates": { "x": 9.782462120056152, "y": -39.1385612487793, "z": 0.973014235496521 }, "pca_coordinates": { "x": 2.6140034198760986, "y": -2.643199920654297, "z": -0.6043398380279541 }, "axis_scores": { "Quantum imaging": 0.677369236946106, "Quantum Life Science Sensing": 0.7000134587287903, "Quantum sensing Detection": 0.6888488531112671, "Quantum sensing Metrology": 0.6700915694236755, "Quantum sensing navigation": 0.6860317587852478, "Quantum sensing Position": 0.689903736114502, "Quantum sensing Timing": 0.6493427157402039, "Quantum sensing": 0.6971477270126343, "Quantum control": 0.6731310486793518 } }, { "id": 7891, "title": "Indirect excitation of ultrafast demagnetization", "abstract": "Does the excitation of ultrafast magnetization require direct interaction between the photons of the optical pump pulse and the magnetic layer? Here, we demonstrate unambiguously that this is not the ...", "citations": 68, "author_count": 28, "categories": [ "Science & Technology - Other Topics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7900, "doi": "10.1038/srep18970", "umap_coordinates": { "x": 393.7270812988281, "y": 135.73098754882812, "z": 206.9513702392578 }, "tsne_coordinates": { "x": 6.662063121795654, "y": -27.161888122558594, "z": 29.965557098388672 }, "pca_coordinates": { "x": -0.12190067768096924, "y": 1.222331166267395, "z": -0.35791003704071045 }, "axis_scores": { "Quantum imaging": 0.7350299954414368, "Quantum Life Science Sensing": 0.7164907455444336, "Quantum sensing Detection": 0.7006798386573792, "Quantum sensing Metrology": 0.6971592307090759, "Quantum sensing navigation": 0.6701386570930481, "Quantum sensing Position": 0.6483228206634521, "Quantum sensing Timing": 0.6574262380599976, "Quantum sensing": 0.7079867124557495, "Quantum control": 0.6556698679924011 } }, { "id": 7892, "title": "Comparing the measured affinity of 111 In-labeled ligands for cellular receptors by monitoring gamma, beta, or X-ray radiation with three different LigandTracer® devices", "abstract": "LigandTracer instruments measuring high energy photons (gamma-rays), particles (electrons and positrons) and low energy photons (X-rays) are novel semiautomated devices which produce real-time radiotr...", "citations": 4, "author_count": 3, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7901, "doi": "10.1007/s10967-014-3875-6", "umap_coordinates": { "x": 394.972412109375, "y": 133.89852905273438, "z": 204.41627502441406 }, "tsne_coordinates": { "x": 7.604248523712158, "y": 29.948963165283203, "z": -17.856008529663086 }, "pca_coordinates": { "x": -2.3933539390563965, "y": 2.7727553844451904, "z": 1.8383870124816895 }, "axis_scores": { "Quantum imaging": 0.6784510612487793, "Quantum Life Science Sensing": 0.690423846244812, "Quantum sensing Detection": 0.6799926161766052, "Quantum sensing Metrology": 0.6723204255104065, "Quantum sensing navigation": 0.6864114999771118, "Quantum sensing Position": 0.685691773891449, "Quantum sensing Timing": 0.6798691749572754, "Quantum sensing": 0.6778331995010376, "Quantum control": 0.6272242069244385 } }, { "id": 7893, "title": "Full-color and time-valve controllable luminescence of CsPbX3 nanocrystals via quasi-solid-state ion exchange for multilevel 3D anti-counterfeiting", "abstract": "Luminescent CsPbCl3 (CPC) perovskites nanocrystals (NCs) hold strong potential for applications in the display and information encryption. However, their static monochromatic luminescence (blue-emissi...", "citations": 4, "author_count": 11, "categories": [ "Engineering" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7902, "doi": "10.1016/j.cej.2025.163360", "umap_coordinates": { "x": 391.5731201171875, "y": 133.68406677246094, "z": 205.46560668945312 }, "tsne_coordinates": { "x": 23.371429443359375, "y": -0.8113349676132202, "z": -19.12322425842285 }, "pca_coordinates": { "x": -2.4648406505584717, "y": -2.0283913612365723, "z": -1.5391294956207275 }, "axis_scores": { "Quantum imaging": 0.724499523639679, "Quantum Life Science Sensing": 0.6966087818145752, "Quantum sensing Detection": 0.6837356090545654, "Quantum sensing Metrology": 0.6796916127204895, "Quantum sensing navigation": 0.6918898820877075, "Quantum sensing Position": 0.6717042922973633, "Quantum sensing Timing": 0.6985210180282593, "Quantum sensing": 0.703998863697052, "Quantum control": 0.7180783152580261 } }, { "id": 7894, "title": "Interlayer spaced hybrid WS2/NiCo(PO4)3/MXenes nanosheets for highly efficient asymmetric supercapacitors", "abstract": "Designing highly efficient ternary composite electrode materials with novel nanostructures plays a crucial role in enlightening both the high energy density and structure stability of supercapacitors....", "citations": 10, "author_count": 11, "categories": [ "Energy & Fuels" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7903, "doi": "10.1016/j.est.2025.115957", "umap_coordinates": { "x": 392.7887268066406, "y": 133.2573699951172, "z": 205.13510131835938 }, "tsne_coordinates": { "x": 25.14350700378418, "y": 9.471515655517578, "z": -4.291953086853027 }, "pca_coordinates": { "x": -2.137407064437866, "y": -3.0245485305786133, "z": 0.8570501208305359 }, "axis_scores": { "Quantum imaging": 0.6842326521873474, "Quantum Life Science Sensing": 0.6810762286186218, "Quantum sensing Detection": 0.6630122065544128, "Quantum sensing Metrology": 0.6757841110229492, "Quantum sensing navigation": 0.6685729622840881, "Quantum sensing Position": 0.6651444435119629, "Quantum sensing Timing": 0.6662790775299072, "Quantum sensing": 0.6914055347442627, "Quantum control": 0.6735509634017944 } }, { "id": 7895, "title": "Hydrogen Deuteride for Cold Neutron Production: A Model for the Double Differential Cross Section", "abstract": "The present work deals with the modeling of the response to neutrons of heteronuclear diatomic liquids, with special interest in the case of hydrogen deuteride (HD), as a possible candidate for the mo...", "citations": 1, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7904, "doi": "10.3390/app14114718", "umap_coordinates": { "x": 394.1523132324219, "y": 137.39173889160156, "z": 205.32546997070312 }, "tsne_coordinates": { "x": -18.926740646362305, "y": 6.436319828033447, "z": 20.077077865600586 }, "pca_coordinates": { "x": -1.04816734790802, "y": 1.8777965307235718, "z": -0.7940667271614075 }, "axis_scores": { "Quantum imaging": 0.6506940722465515, "Quantum Life Science Sensing": 0.6911085247993469, "Quantum sensing Detection": 0.664007306098938, "Quantum sensing Metrology": 0.648131251335144, "Quantum sensing navigation": 0.6541511416435242, "Quantum sensing Position": 0.6275478005409241, "Quantum sensing Timing": 0.6401816606521606, "Quantum sensing": 0.6698436737060547, "Quantum control": 0.652536153793335 } }, { "id": 7896, "title": "Review of Highly Mismatched III-V Heteroepitaxy Growth on (001) Silicon", "abstract": "Si-based group III-V material enables a multitude of applications and functionalities of the novel optoelectronic integration chips (OEICs) owing to their excellent optoelectronic properties and compa...", "citations": 93, "author_count": 10, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7905, "doi": "10.3390/nano12050741", "umap_coordinates": { "x": 393.1244812011719, "y": 133.2188262939453, "z": 206.32070922851562 }, "tsne_coordinates": { "x": 35.43513870239258, "y": 13.458784103393555, "z": -13.627625465393066 }, "pca_coordinates": { "x": -0.83673495054245, "y": -1.4237780570983887, "z": 1.0341084003448486 }, "axis_scores": { "Quantum imaging": 0.7255891561508179, "Quantum Life Science Sensing": 0.7460535764694214, "Quantum sensing Detection": 0.7265530228614807, "Quantum sensing Metrology": 0.7441396713256836, "Quantum sensing navigation": 0.7223302721977234, "Quantum sensing Position": 0.702459990978241, "Quantum sensing Timing": 0.7034915089607239, "Quantum sensing": 0.7386397123336792, "Quantum control": 0.7103012204170227 } }, { "id": 7897, "title": "Social Laser Model for the Bandwagon Effect: Generation of Coherent Information Waves", "abstract": "During recent years our society has often been exposed to coherent information waves of high amplitudes. These are waves of huge social energy. Often they are of destructive character, a kind of infor...", "citations": 12, "author_count": 2, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7906, "doi": "10.3390/e22050559", "umap_coordinates": { "x": 395.1870422363281, "y": 137.1548309326172, "z": 205.7203369140625 }, "tsne_coordinates": { "x": -25.459213256835938, "y": 11.01805591583252, "z": 10.301084518432617 }, "pca_coordinates": { "x": 0.009200096130371094, "y": 1.8319326639175415, "z": -1.0708177089691162 }, "axis_scores": { "Quantum imaging": 0.741029679775238, "Quantum Life Science Sensing": 0.7638684511184692, "Quantum sensing Detection": 0.7350720167160034, "Quantum sensing Metrology": 0.7212903499603271, "Quantum sensing navigation": 0.7440194487571716, "Quantum sensing Position": 0.713445782661438, "Quantum sensing Timing": 0.6988251805305481, "Quantum sensing": 0.7463971376419067, "Quantum control": 0.7334610223770142 } }, { "id": 7898, "title": "UV-A light induces a robust and dwarfed phenotype in cucumber plants (Cucumis sativus L.) without affecting fruit yield", "abstract": "Solar ultraviolet (UV) light influences plant growth and metabolism. Whereas high doses of UV can be deleterious for plants, natural UV doses are important for morphogenesis in many plants species, in...", "citations": 50, "author_count": 8, "categories": [ "Agriculture" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7907, "doi": "10.1016/j.scienta.2019.109110", "umap_coordinates": { "x": 394.2188415527344, "y": 135.6980743408203, "z": 203.48255920410156 }, "tsne_coordinates": { "x": 16.215173721313477, "y": 32.341224670410156, "z": 11.048467636108398 }, "pca_coordinates": { "x": -3.3447561264038086, "y": -0.11680769920349121, "z": 0.10027378797531128 }, "axis_scores": { "Quantum imaging": 0.7018540501594543, "Quantum Life Science Sensing": 0.7379103899002075, "Quantum sensing Detection": 0.7167757749557495, "Quantum sensing Metrology": 0.6813430786132812, "Quantum sensing navigation": 0.6808197498321533, "Quantum sensing Position": 0.6644223928451538, "Quantum sensing Timing": 0.6556068658828735, "Quantum sensing": 0.723804771900177, "Quantum control": 0.7151779532432556 } }, { "id": 7899, "title": "Colloidal metal oxide nanocrystals as charge transporting layers for solution-processed light-emitting diodes and solar cells", "abstract": "Colloidal metal oxide nanocrystals offer a unique combination of excellent low-temperature solution processability, rich and tuneable optoelectronic properties and intrinsic stability, which makes the...", "citations": 120, "author_count": 10, "categories": [ "Chemistry" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7908, "doi": "10.1039/c6cs00122j", "umap_coordinates": { "x": 391.7057189941406, "y": 134.29473876953125, "z": 205.62521362304688 }, "tsne_coordinates": { "x": 16.67334747314453, "y": 0.12214820832014084, "z": -11.165865898132324 }, "pca_coordinates": { "x": -2.8711819648742676, "y": -4.581913471221924, "z": -1.7627012729644775 }, "axis_scores": { "Quantum imaging": 0.664888858795166, "Quantum Life Science Sensing": 0.7100619077682495, "Quantum sensing Detection": 0.6633704900741577, "Quantum sensing Metrology": 0.6673510074615479, "Quantum sensing navigation": 0.6696798205375671, "Quantum sensing Position": 0.6527440547943115, "Quantum sensing Timing": 0.6344873905181885, "Quantum sensing": 0.6781236529350281, "Quantum control": 0.6522403359413147 } }, { "id": 7900, "title": "Formation and nitridation of InGa composite droplets on Si(111): In-situ study by high resolution X-ray photoelectron spectroscopy", "abstract": "We demonstrate applying synchrotron radiation based high resolution X-ray photoelectron spectroscopy as a versatile in-situ tool to study the step-wise formation and nitridation of indium gallium (InG...", "citations": 1, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7909, "doi": "10.1016/j.apsusc.2014.02.170", "umap_coordinates": { "x": 392.7790832519531, "y": 133.43031311035156, "z": 206.71995544433594 }, "tsne_coordinates": { "x": 38.13687515258789, "y": -13.003745079040527, "z": -1.5429550409317017 }, "pca_coordinates": { "x": -2.3506202697753906, "y": -2.5460891723632812, "z": 1.1623687744140625 }, "axis_scores": { "Quantum imaging": 0.6930709481239319, "Quantum Life Science Sensing": 0.7002179622650146, "Quantum sensing Detection": 0.6826078295707703, "Quantum sensing Metrology": 0.6712750196456909, "Quantum sensing navigation": 0.6559008359909058, "Quantum sensing Position": 0.6604888439178467, "Quantum sensing Timing": 0.6377786993980408, "Quantum sensing": 0.6899559497833252, "Quantum control": 0.6606770753860474 } }, { "id": 7901, "title": "Characterization of Nucleobase Analogue FRET Acceptor tCnitro", "abstract": "The fluorescent nucleobase analogues of the tricyclic cytosine (tC) family, tC and tC(O), possess high fluorescence quantum yields and single fluorescence lifetimes, even after incorporation into doub...", "citations": 45, "author_count": 6, "categories": [ "Chemistry" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7910, "doi": "10.1021/jp909471b", "umap_coordinates": { "x": 392.1869812011719, "y": 135.933837890625, "z": 205.12098693847656 }, "tsne_coordinates": { "x": 5.257201671600342, "y": 8.707253456115723, "z": 4.951683521270752 }, "pca_coordinates": { "x": -2.2510714530944824, "y": -0.17731952667236328, "z": -1.5151985883712769 }, "axis_scores": { "Quantum imaging": 0.6908694505691528, "Quantum Life Science Sensing": 0.7028213739395142, "Quantum sensing Detection": 0.6773354411125183, "Quantum sensing Metrology": 0.672372579574585, "Quantum sensing navigation": 0.6864683628082275, "Quantum sensing Position": 0.6812520623207092, "Quantum sensing Timing": 0.6817249059677124, "Quantum sensing": 0.6880406141281128, "Quantum control": 0.6906497478485107 } }, { "id": 7902, "title": "DNA pre-condensation with an amino acid-based cationic amphiphile. A viable approach for liposome-based gene delivery", "abstract": "A study related to the development and characterization of a new gene delivery system was performed. The approach consists in both the pre-condensation of plasmid DNA with an arginine-based cationic s...", "citations": 29, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2008, "topic": [ "all" ], "embedding_index": 7911, "doi": "10.1080/09687680701499451", "umap_coordinates": { "x": 393.06689453125, "y": 135.80189514160156, "z": 204.26124572753906 }, "tsne_coordinates": { "x": 10.669267654418945, "y": 15.512141227722168, "z": 1.6362264156341553 }, "pca_coordinates": { "x": -2.414201259613037, "y": 2.5571296215057373, "z": -0.36746126413345337 }, "axis_scores": { "Quantum imaging": 0.6554402709007263, "Quantum Life Science Sensing": 0.6773626804351807, "Quantum sensing Detection": 0.6390063166618347, "Quantum sensing Metrology": 0.6201910972595215, "Quantum sensing navigation": 0.651182234287262, "Quantum sensing Position": 0.6424189805984497, "Quantum sensing Timing": 0.630027174949646, "Quantum sensing": 0.6463965177536011, "Quantum control": 0.6369936466217041 } }, { "id": 7903, "title": "Interference modulation in the vibrationally resolved photoionization of the 1σg and 1σu core levels of the N2 molecule", "abstract": "The ratios of photoionization cross sections of the 1 sigma(g) and 1 sigma(u) shells of the N-2 molecule for the vibrational transitions to the nu' = 0 and nu' = 1 core-ionized states in the photon en...", "citations": 36, "author_count": 12, "categories": [ "Optics" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7912, "doi": "10.1088/0953-4075/39/12/L02", "umap_coordinates": { "x": 394.5430603027344, "y": 135.65895080566406, "z": 205.9128875732422 }, "tsne_coordinates": { "x": 2.641028642654419, "y": 0.5837556719779968, "z": 20.643712997436523 }, "pca_coordinates": { "x": -0.011462211608886719, "y": 1.4664008617401123, "z": 1.0306193828582764 }, "axis_scores": { "Quantum imaging": 0.7130151391029358, "Quantum Life Science Sensing": 0.7028573751449585, "Quantum sensing Detection": 0.7044714689254761, "Quantum sensing Metrology": 0.6770399212837219, "Quantum sensing navigation": 0.7021999359130859, "Quantum sensing Position": 0.6792246699333191, "Quantum sensing Timing": 0.6709908246994019, "Quantum sensing": 0.7053260207176208, "Quantum control": 0.6884317398071289 } }, { "id": 7904, "title": "Cost-Effective and Highly Efficient Manganese-Doped MoS2 Nanosheets as Visible-Light-Driven Photocatalysts for Wastewater Treatment", "abstract": "One of the main objectives in wastewater treatment and sustainable energy production is to find photocatalysts that are favorably efficient and cost-effective. Transition-metal dichalcogenides (TMDs) ...", "citations": 11, "author_count": 8, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7913, "doi": "10.1021/acs.langmuir.3c00390", "umap_coordinates": { "x": 391.8249206542969, "y": 133.76512145996094, "z": 204.93939208984375 }, "tsne_coordinates": { "x": 20.13827896118164, "y": -6.8379225730896, "z": -14.317612648010254 }, "pca_coordinates": { "x": -4.105062007904053, "y": -4.527755260467529, "z": -1.4979593753814697 }, "axis_scores": { "Quantum imaging": 0.663172721862793, "Quantum Life Science Sensing": 0.692252516746521, "Quantum sensing Detection": 0.6676549911499023, "Quantum sensing Metrology": 0.6700997948646545, "Quantum sensing navigation": 0.6635043025016785, "Quantum sensing Position": 0.617377519607544, "Quantum sensing Timing": 0.6085889935493469, "Quantum sensing": 0.685775876045227, "Quantum control": 0.6517133116722107 } }, { "id": 7905, "title": "Thermoelectric and thermal stability improvements in Nano-Cu2Se included Ag2Se", "abstract": "Recently, silver chalcogenides have attracted great attention due to their potential application for room temperature power generation and local cooling. In this work, we report the thermoelectric pro...", "citations": 36, "author_count": 8, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7914, "doi": "10.1016/j.jssc.2019.02.037", "umap_coordinates": { "x": 392.7297058105469, "y": 133.74197387695312, "z": 205.54010009765625 }, "tsne_coordinates": { "x": 35.718238830566406, "y": 9.780213356018066, "z": -0.7188019156455994 }, "pca_coordinates": { "x": -2.625927209854126, "y": -3.059072971343994, "z": -2.2773427963256836 }, "axis_scores": { "Quantum imaging": 0.6815880537033081, "Quantum Life Science Sensing": 0.7201191782951355, "Quantum sensing Detection": 0.6816902756690979, "Quantum sensing Metrology": 0.677230179309845, "Quantum sensing navigation": 0.6822112798690796, "Quantum sensing Position": 0.6724050641059875, "Quantum sensing Timing": 0.6604410409927368, "Quantum sensing": 0.6948341131210327, "Quantum control": 0.7026095986366272 } }, { "id": 7906, "title": "Effective photocatalytic sterilization based on composites of Ag/InVO4/BiOBr: Factors, mechanism and application", "abstract": "We hypothesized that photocatalysts with a low band gap could be useful in the sterilization of ceramic tiles in the natural environments of toilets using natural light in those settings. Certain phot...", "citations": 17, "author_count": 14, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7915, "doi": "10.1016/j.seppur.2023.125011", "umap_coordinates": { "x": 393.3679504394531, "y": 134.63694763183594, "z": 204.0443115234375 }, "tsne_coordinates": { "x": 17.466962814331055, "y": 16.903350830078125, "z": 2.2735049724578857 }, "pca_coordinates": { "x": -3.667109727859497, "y": 0.742412805557251, "z": -1.1168917417526245 }, "axis_scores": { "Quantum imaging": 0.6743904948234558, "Quantum Life Science Sensing": 0.7231496572494507, "Quantum sensing Detection": 0.67240309715271, "Quantum sensing Metrology": 0.6615300178527832, "Quantum sensing navigation": 0.6737347841262817, "Quantum sensing Position": 0.6433156132698059, "Quantum sensing Timing": 0.6309098601341248, "Quantum sensing": 0.6891514658927917, "Quantum control": 0.6780037879943848 } }, { "id": 7907, "title": "Lanthanide-based complexes as efficient physiological temperature sensors", "abstract": "A new molecular thermometric sensor based on the terbium(III) complex [C(2)mim][Tb(fod)4] (C(2)mim - 1-methyl-3-ethylimidazolium, fod(-) - tetrakis-6,6,7,7,8,8,8-heptafluoro-2,2-dimethyl-3,5-octanedio...", "citations": 21, "author_count": 10, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7916, "doi": "10.1016/j.matchemphys.2021.125424", "umap_coordinates": { "x": 394.017333984375, "y": 134.22500610351562, "z": 205.04388427734375 }, "tsne_coordinates": { "x": 15.309621810913086, "y": 14.186771392822266, "z": -19.659502029418945 }, "pca_coordinates": { "x": -2.7903072834014893, "y": 0.13262510299682617, "z": -0.4577018618583679 }, "axis_scores": { "Quantum imaging": 0.7173790335655212, "Quantum Life Science Sensing": 0.7540968656539917, "Quantum sensing Detection": 0.7198269367218018, "Quantum sensing Metrology": 0.7233051061630249, "Quantum sensing navigation": 0.6993787288665771, "Quantum sensing Position": 0.7156157493591309, "Quantum sensing Timing": 0.729975700378418, "Quantum sensing": 0.7325285077095032, "Quantum control": 0.6860105991363525 } }, { "id": 7908, "title": "Naproxen sodium salt photochemistry in aqueous sodium dodecyl sulfate (SDS) ellipsoidal micelles", "abstract": "The photochemistry and other properties of the anti-inflammatory drug (NSAID) naproxen (NP) in sodium dodecyl sulfate, SDS, micellar aqueous solutions at pH = 7 (NP is in anionic form) were studied. T...", "citations": 6, "author_count": 5, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7917, "doi": "10.1016/j.molliq.2020.114724", "umap_coordinates": { "x": 393.3091735839844, "y": 134.41502380371094, "z": 204.93865966796875 }, "tsne_coordinates": { "x": 18.60317039489746, "y": 20.5184326171875, "z": 13.019509315490723 }, "pca_coordinates": { "x": -3.8693079948425293, "y": -0.6724116802215576, "z": -1.8575654029846191 }, "axis_scores": { "Quantum imaging": 0.703458309173584, "Quantum Life Science Sensing": 0.7382057309150696, "Quantum sensing Detection": 0.683863639831543, "Quantum sensing Metrology": 0.6838023662567139, "Quantum sensing navigation": 0.7137653827667236, "Quantum sensing Position": 0.7064634561538696, "Quantum sensing Timing": 0.6592820882797241, "Quantum sensing": 0.6968162655830383, "Quantum control": 0.6746116280555725 } }, { "id": 7909, "title": "Higher-dimensional communication complexity problems: Classical protocols versus quantum ones based on Bell's theorem or prepare-transmit-measure schemes", "abstract": "Communication complexity problems (CCPs) are tasks in which separated parties attempt to compute a function whose inputs are distributed among the parties. Their communication is limited so that not a...", "citations": 15, "author_count": 3, "categories": [ "Optics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 7918, "doi": "10.1103/PhysRevA.95.042305", "umap_coordinates": { "x": 395.9752502441406, "y": 137.05482482910156, "z": 207.3965606689453 }, "tsne_coordinates": { "x": -27.15045166015625, "y": -10.152740478515625, "z": -0.16322346031665802 }, "pca_coordinates": { "x": 3.264838695526123, "y": 2.1144256591796875, "z": 1.040576696395874 }, "axis_scores": { "Quantum imaging": 0.7386727333068848, "Quantum Life Science Sensing": 0.7265565991401672, "Quantum sensing Detection": 0.7221341133117676, "Quantum sensing Metrology": 0.7220954298973083, "Quantum sensing navigation": 0.7298708558082581, "Quantum sensing Position": 0.7269501090049744, "Quantum sensing Timing": 0.707895040512085, "Quantum sensing": 0.7410660982131958, "Quantum control": 0.7303268909454346 } }, { "id": 7910, "title": "Searching for super-Eddington quasars using a photon trapping accretion disc model", "abstract": "Accretion on to black holes at rates above the Eddington limit has long been discussed in the context of supermassive black hole (SMBH) formation and evolution, providing a possible explanation for th...", "citations": 9, "author_count": 6, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7919, "doi": "10.1093/mnras/staa078", "umap_coordinates": { "x": 396.1891174316406, "y": 135.6788787841797, "z": 205.82321166992188 }, "tsne_coordinates": { "x": -32.515357971191406, "y": 26.72356414794922, "z": 6.8955397605896 }, "pca_coordinates": { "x": -0.48399341106414795, "y": 1.899989366531372, "z": 1.1784026622772217 }, "axis_scores": { "Quantum imaging": 0.6678645610809326, "Quantum Life Science Sensing": 0.6698235273361206, "Quantum sensing Detection": 0.6704534292221069, "Quantum sensing Metrology": 0.6652252674102783, "Quantum sensing navigation": 0.6933037638664246, "Quantum sensing Position": 0.6632039546966553, "Quantum sensing Timing": 0.6622426509857178, "Quantum sensing": 0.6643238067626953, "Quantum control": 0.6147939562797546 } }, { "id": 7911, "title": "Dropping a Droplet of Cysteine Molecules on a Rutile (110) Interface: Reactive versus Nonreactive Classical Molecular Dynamics Simulations", "abstract": "Two different types of classical molecular dynamics approaches, based on reactive and nonreactive force-field parametrizations, are used to investigate the adsorption process of a nanodroplet of cyste...", "citations": 18, "author_count": 5, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7920, "doi": "10.1021/acs.jpcc.5b00932", "umap_coordinates": { "x": 393.1125793457031, "y": 137.00636291503906, "z": 206.3621368408203 }, "tsne_coordinates": { "x": -5.402530193328857, "y": -6.349645137786865, "z": 23.71027183532715 }, "pca_coordinates": { "x": -0.38200825452804565, "y": 0.42055821418762207, "z": -3.1486458778381348 }, "axis_scores": { "Quantum imaging": 0.6921666860580444, "Quantum Life Science Sensing": 0.7210749387741089, "Quantum sensing Detection": 0.6978237628936768, "Quantum sensing Metrology": 0.6550798416137695, "Quantum sensing navigation": 0.6783502101898193, "Quantum sensing Position": 0.6725262999534607, "Quantum sensing Timing": 0.692430317401886, "Quantum sensing": 0.6969572901725769, "Quantum control": 0.6991897821426392 } }, { "id": 7912, "title": "QTL for chlorophyll fluorescence of barley plants grown at low oxygen concentration in hydroponics to simulate waterlogging", "abstract": "Waterlogging is a major factor limiting barley grain yield worldwide. Climate change will likely increase this water stress in Northern Europe. Breeding for waterlogging tolerance (WLT), as for other ...", "citations": 20, "author_count": 5, "categories": [ "Agriculture" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7921, "doi": "10.1007/s10681-014-1215-0", "umap_coordinates": { "x": 394.2515869140625, "y": 135.9307861328125, "z": 204.2121124267578 }, "tsne_coordinates": { "x": 11.46433162689209, "y": 30.511476516723633, "z": 9.20148754119873 }, "pca_coordinates": { "x": -2.2343945503234863, "y": 0.711524486541748, "z": -0.6794625520706177 }, "axis_scores": { "Quantum imaging": 0.6834767460823059, "Quantum Life Science Sensing": 0.7354984283447266, "Quantum sensing Detection": 0.6754510402679443, "Quantum sensing Metrology": 0.68329918384552, "Quantum sensing navigation": 0.6907922625541687, "Quantum sensing Position": 0.6741992235183716, "Quantum sensing Timing": 0.6828853487968445, "Quantum sensing": 0.6949383616447449, "Quantum control": 0.6875044703483582 } }, { "id": 7913, "title": "Generalized electronic diabatic ansatz: A post-Born-Oppenheimer approach to electronuclear dynamics in external fields", "abstract": "We examine a post-Born -Oppenheimer approach based on a generalized electronic diabatic (GED) ansatz for electronuclear dynamics in external electromagnetic fields. The model is a quantum n-electron s...", "citations": 7, "author_count": 3, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7922, "doi": "10.1016/S0065-3276(04)47016-6", "umap_coordinates": { "x": 393.7008056640625, "y": 137.3870391845703, "z": 206.2452850341797 }, "tsne_coordinates": { "x": -14.401111602783203, "y": 15.55546760559082, "z": 29.019481658935547 }, "pca_coordinates": { "x": 0.9123072624206543, "y": 1.085026741027832, "z": -2.7151684761047363 }, "axis_scores": { "Quantum imaging": 0.6762229204177856, "Quantum Life Science Sensing": 0.6767836809158325, "Quantum sensing Detection": 0.6544866561889648, "Quantum sensing Metrology": 0.6494444608688354, "Quantum sensing navigation": 0.6864073276519775, "Quantum sensing Position": 0.6606202125549316, "Quantum sensing Timing": 0.6497154235839844, "Quantum sensing": 0.6647828817367554, "Quantum control": 0.6695338487625122 } }, { "id": 7914, "title": "Revisiting the Vashishta-Singwi dielectric scheme for the warm dense uniform electron fluid", "abstract": "The finite temperature version of the Vashishta-Singwi (VS) dielectric scheme for the paramagnetic warm dense uniform electron fluid is revisited correcting for an earlier thermodynamic derivative err...", "citations": 12, "author_count": 5, "categories": [ "Materials Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7923, "doi": "10.1103/PhysRevB.109.125134", "umap_coordinates": { "x": 394.3790283203125, "y": 136.9653778076172, "z": 208.02645874023438 }, "tsne_coordinates": { "x": -3.105510950088501, "y": -7.799751281738281, "z": 17.6796817779541 }, "pca_coordinates": { "x": 3.0773582458496094, "y": 0.5013353824615479, "z": -1.0054153203964233 }, "axis_scores": { "Quantum imaging": 0.6371416449546814, "Quantum Life Science Sensing": 0.6679909229278564, "Quantum sensing Detection": 0.6298444867134094, "Quantum sensing Metrology": 0.6238342523574829, "Quantum sensing navigation": 0.6489639282226562, "Quantum sensing Position": 0.6144213080406189, "Quantum sensing Timing": 0.6246005296707153, "Quantum sensing": 0.6411569118499756, "Quantum control": 0.6311440467834473 } }, { "id": 7915, "title": "Solid-state Stern-Gerlach spin splitter for magnetic field sensing, spintronics, and quantum computing", "abstract": "We show conceptually that the edge of a two-dimensional topological insulator can be used to construct a solid-state Stern-Gerlach spin splitter. By threading such a Stern-Gerlach apparatus with a mag...", "citations": 4, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7924, "doi": "10.3762/bjnano.9.147", "umap_coordinates": { "x": 393.4032897949219, "y": 135.13136291503906, "z": 206.83035278320312 }, "tsne_coordinates": { "x": 4.012659549713135, "y": -10.844876289367676, "z": 27.66455841064453 }, "pca_coordinates": { "x": 0.0613938570022583, "y": -1.3267393112182617, "z": -0.39878883957862854 }, "axis_scores": { "Quantum imaging": 0.7159820199012756, "Quantum Life Science Sensing": 0.7472665905952454, "Quantum sensing Detection": 0.7256965041160583, "Quantum sensing Metrology": 0.7439042925834656, "Quantum sensing navigation": 0.7383322715759277, "Quantum sensing Position": 0.7032436728477478, "Quantum sensing Timing": 0.6821666359901428, "Quantum sensing": 0.7462863326072693, "Quantum control": 0.6893386840820312 } }, { "id": 7916, "title": "Fiber Bragg Grating Based Wireless Sensor Module With Modulated Radio-Frequency Signal", "abstract": "A fiber Bragg grating (FBG) sensing scheme based on the measurement of radio-frequency (RF) signal is presented for wireless sensing applications. A fiber ring combined with multiple sensing FBGs is p...", "citations": 11, "author_count": 5, "categories": [ "Engineering" ], "year": 2010, "topic": [ "all" ], "embedding_index": 7925, "doi": "10.1109/LMWC.2010.2047534", "umap_coordinates": { "x": 394.77752685546875, "y": 133.9539337158203, "z": 206.7960205078125 }, "tsne_coordinates": { "x": 4.7369513511657715, "y": -2.308614730834961, "z": -37.66402053833008 }, "pca_coordinates": { "x": -0.9158636331558228, "y": 0.331406831741333, "z": 2.921067953109741 }, "axis_scores": { "Quantum imaging": 0.6692682504653931, "Quantum Life Science Sensing": 0.7117831110954285, "Quantum sensing Detection": 0.7015108466148376, "Quantum sensing Metrology": 0.719629168510437, "Quantum sensing navigation": 0.6962045431137085, "Quantum sensing Position": 0.6900627613067627, "Quantum sensing Timing": 0.6677126884460449, "Quantum sensing": 0.7092896699905396, "Quantum control": 0.6712146997451782 } }, { "id": 7917, "title": "GROWTH AND CHARACTERIZATION OF DIGITAL AND COMPOSITIONALLY GRADED ALGAAS/GAAS NONRECTANGULAR QUANTUM-WELLS", "abstract": "Narrow symmetric quantum wells with triangular and inverse parabolic shapes have been grown by molecular beam epitaxy using digital and copositional grading techniques. Migration enhanced epitaxy was ...", "citations": 7, "author_count": 6, "categories": [ "Crystallography" ], "year": 1994, "topic": [ "all" ], "embedding_index": 7926, "doi": "10.1016/0022-0248(94)90134-1", "umap_coordinates": { "x": 392.4053955078125, "y": 134.56826782226562, "z": 207.41563415527344 }, "tsne_coordinates": { "x": 31.34372329711914, "y": -5.807107448577881, "z": 7.756050109863281 }, "pca_coordinates": { "x": -0.7533555030822754, "y": -0.8788738250732422, "z": 0.06208360195159912 }, "axis_scores": { "Quantum imaging": 0.7047526836395264, "Quantum Life Science Sensing": 0.7057555913925171, "Quantum sensing Detection": 0.695052981376648, "Quantum sensing Metrology": 0.7014721632003784, "Quantum sensing navigation": 0.7026936411857605, "Quantum sensing Position": 0.6960673928260803, "Quantum sensing Timing": 0.6791055798530579, "Quantum sensing": 0.7086567878723145, "Quantum control": 0.6804326176643372 } }, { "id": 7918, "title": "QUANTUM SIZE EFFECT FOR NA FILMS ON SI(100)", "abstract": "Photoemission spectra, recorded at low photon energies (homegaBAR < 6.0 eV) for very thin Na films evaporated onto a cooled Si(100) crystal, show peaks ascribed to quantum well type electronic states ...", "citations": 4, "author_count": 3, "categories": [ "Chemistry" ], "year": 1993, "topic": [ "all" ], "embedding_index": 7927, "doi": "10.1016/0039-6028(93)90917-9", "umap_coordinates": { "x": 392.57135009765625, "y": 133.70196533203125, "z": 206.8373260498047 }, "tsne_coordinates": { "x": 34.223899841308594, "y": -7.25683069229126, "z": -4.034109115600586 }, "pca_coordinates": { "x": -1.2621791362762451, "y": -0.9720795154571533, "z": 0.17930972576141357 }, "axis_scores": { "Quantum imaging": 0.7095451951026917, "Quantum Life Science Sensing": 0.7468705177307129, "Quantum sensing Detection": 0.6992925405502319, "Quantum sensing Metrology": 0.7006189823150635, "Quantum sensing navigation": 0.6903817653656006, "Quantum sensing Position": 0.708869993686676, "Quantum sensing Timing": 0.6628717184066772, "Quantum sensing": 0.7211565375328064, "Quantum control": 0.6766109466552734 } }, { "id": 7919, "title": "Design Rule Hidden from The Eye in S/N-Bridged Ancillary Ligands for Copper(I) Complexes Applied to Light-Emitting Electrochemical Cells", "abstract": "Enhancing low-energy emitting Cu(I)-ionic transition metal complexes (iTMCs) light-emitting electrochemical cells (LECs) is of utmost importance towards Cu(I)-iTMC-based white-emitting LECs. Here, the...", "citations": 12, "author_count": 11, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7928, "doi": "10.1002/adfm.202304668", "umap_coordinates": { "x": 392.087158203125, "y": 134.0006103515625, "z": 205.00526428222656 }, "tsne_coordinates": { "x": 26.6358699798584, "y": 2.5625925064086914, "z": -27.3411922454834 }, "pca_coordinates": { "x": -2.6933133602142334, "y": -0.4856886863708496, "z": -1.449427843093872 }, "axis_scores": { "Quantum imaging": 0.661885142326355, "Quantum Life Science Sensing": 0.6793658137321472, "Quantum sensing Detection": 0.67960125207901, "Quantum sensing Metrology": 0.6758960485458374, "Quantum sensing navigation": 0.6913312077522278, "Quantum sensing Position": 0.6714271306991577, "Quantum sensing Timing": 0.6586014628410339, "Quantum sensing": 0.6899059414863586, "Quantum control": 0.6850802302360535 } }, { "id": 7920, "title": "The influence of increased temperature and carbon dioxide levels on the benthic/sea ice diatom Navicula directa", "abstract": "Polar oceans are very susceptible to increased levels of atmospheric CO2 and may act as the world's largest sink for anthropogenic CO2. Simultaneously, as atmospheric CO2 increases, sea surface temper...", "citations": 78, "author_count": 4, "categories": [ "Biodiversity & Conservation" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7929, "doi": "10.1007/s00300-011-1056-4", "umap_coordinates": { "x": 393.80377197265625, "y": 135.9444580078125, "z": 203.50462341308594 }, "tsne_coordinates": { "x": 14.725929260253906, "y": 26.30299186706543, "z": 15.805981636047363 }, "pca_coordinates": { "x": -2.666011333465576, "y": 1.0870929956436157, "z": -0.823237955570221 }, "axis_scores": { "Quantum imaging": 0.6501816511154175, "Quantum Life Science Sensing": 0.6716194152832031, "Quantum sensing Detection": 0.643744170665741, "Quantum sensing Metrology": 0.633297324180603, "Quantum sensing navigation": 0.6535691022872925, "Quantum sensing Position": 0.6552889943122864, "Quantum sensing Timing": 0.6474332809448242, "Quantum sensing": 0.6516900658607483, "Quantum control": 0.6644550561904907 } }, { "id": 7921, "title": "Laser-plasma accelerators based high energy radiation femtochemistry and spatio-temporal radiation biomedicine", "abstract": "The innovating advent of powerful TW laser sources (similar to 10(19) W cm(-z)) and laser-plasma interactions providing ultra-short relativistic particle beams (electron, proton) in the MeV domain ope...", "citations": 3, "author_count": 5, "categories": [ "Engineering" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7930, "doi": "10.1117/12.921839", "umap_coordinates": { "x": 395.32080078125, "y": 133.78936767578125, "z": 205.3399658203125 }, "tsne_coordinates": { "x": 0.788575291633606, "y": 15.002999305725098, "z": -21.515594482421875 }, "pca_coordinates": { "x": -1.7301418781280518, "y": 1.6525604724884033, "z": 1.0287590026855469 }, "axis_scores": { "Quantum imaging": 0.7235531210899353, "Quantum Life Science Sensing": 0.7330369353294373, "Quantum sensing Detection": 0.7047314643859863, "Quantum sensing Metrology": 0.7033173441886902, "Quantum sensing navigation": 0.7095174789428711, "Quantum sensing Position": 0.6995506286621094, "Quantum sensing Timing": 0.7292560338973999, "Quantum sensing": 0.7144696712493896, "Quantum control": 0.6821966171264648 } }, { "id": 7922, "title": "Highly Emissive Biological Bilirubin Molecules: Shedding New Light on the Phototherapy Scheme", "abstract": "Bilirubin (BR) is the main end-product of the hemoglobin catabolism. For decades, its photophysics has been mainly discussed in terms of ultrafast deactivation of the excited state in solution, where,...", "citations": 6, "author_count": 6, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7931, "doi": "10.1021/acs.jpcb.1c05308", "umap_coordinates": { "x": 392.69482421875, "y": 135.51617431640625, "z": 204.2978057861328 }, "tsne_coordinates": { "x": 11.417547225952148, "y": 14.2682466506958, "z": -13.620820045471191 }, "pca_coordinates": { "x": -3.3183400630950928, "y": -0.24797630310058594, "z": -1.5164027214050293 }, "axis_scores": { "Quantum imaging": 0.7203665971755981, "Quantum Life Science Sensing": 0.730003297328949, "Quantum sensing Detection": 0.6942136883735657, "Quantum sensing Metrology": 0.6764293313026428, "Quantum sensing navigation": 0.6595771312713623, "Quantum sensing Position": 0.6565192937850952, "Quantum sensing Timing": 0.6559823751449585, "Quantum sensing": 0.7004708051681519, "Quantum control": 0.6776999235153198 } }, { "id": 7923, "title": "Cation effect on excitons in perovskite nanocrystals from single-dot photoluminescence of CH3NH3PbI3", "abstract": "The single-dot photoluminescence properties of similar to 7 nm perovskite MAPbI(3) (MA = CH3NH3+) nanocrystals (NCs) were investigated in the 5-295 K temperature range both in spectral and time domain...", "citations": 8, "author_count": 6, "categories": [ "Materials Science" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7932, "doi": "10.1103/PhysRevB.100.195430", "umap_coordinates": { "x": 393.8623046875, "y": 133.93328857421875, "z": 208.62852478027344 }, "tsne_coordinates": { "x": 5.82737398147583, "y": -25.51978874206543, "z": -6.768568515777588 }, "pca_coordinates": { "x": 1.7170617580413818, "y": -4.471275329589844, "z": 0.15219509601593018 }, "axis_scores": { "Quantum imaging": 0.6888651847839355, "Quantum Life Science Sensing": 0.6980041861534119, "Quantum sensing Detection": 0.6907120943069458, "Quantum sensing Metrology": 0.6693532466888428, "Quantum sensing navigation": 0.6616773009300232, "Quantum sensing Position": 0.6629211902618408, "Quantum sensing Timing": 0.6551530361175537, "Quantum sensing": 0.6982839107513428, "Quantum control": 0.6706637740135193 } }, { "id": 7924, "title": "X-Ray and Gamma-Ray Emission from Core-collapse Supernovae: Comparison of Three-dimensional Neutrino-driven Explosions with SN 1987A", "abstract": "During the first few hundred days after the explosion, core-collapse supernovae (SNe) emit down-scattered X-rays and gamma-rays originating from radioactive line emissions, primarily from the Ni-56 ->...", "citations": 11, "author_count": 11, "categories": [ "Astronomy & Astrophysics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7933, "doi": "10.3847/1538-4357/ab3395", "umap_coordinates": { "x": 396.4273376464844, "y": 134.43258666992188, "z": 206.2069091796875 }, "tsne_coordinates": { "x": -35.00360870361328, "y": 20.7014217376709, "z": 0.6297330856323242 }, "pca_coordinates": { "x": -0.9456088542938232, "y": 3.146169900894165, "z": 2.2866058349609375 }, "axis_scores": { "Quantum imaging": 0.6599329710006714, "Quantum Life Science Sensing": 0.6289912462234497, "Quantum sensing Detection": 0.6414294838905334, "Quantum sensing Metrology": 0.6242963671684265, "Quantum sensing navigation": 0.6688080430030823, "Quantum sensing Position": 0.613972544670105, "Quantum sensing Timing": 0.6225228905677795, "Quantum sensing": 0.6320664286613464, "Quantum control": 0.6236451864242554 } }, { "id": 7925, "title": "Quantifying the impact of solid-phase extraction on chromophoric dissolved organic matter composition", "abstract": "Advancing our understanding of the behaviour of dissolved organic matter (DOM) in aquatic environments necessitates efforts to combine complementary analytical data sets. However, some analytical meas...", "citations": 64, "author_count": 7, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 7934, "doi": "10.1016/j.marchem.2018.08.010", "umap_coordinates": { "x": 393.59686279296875, "y": 135.39193725585938, "z": 204.04788208007812 }, "tsne_coordinates": { "x": 22.999258041381836, "y": 26.68402099609375, "z": 15.248022079467773 }, "pca_coordinates": { "x": -3.709174394607544, "y": 2.900383710861206, "z": -2.790349245071411 }, "axis_scores": { "Quantum imaging": 0.7297146916389465, "Quantum Life Science Sensing": 0.7500700950622559, "Quantum sensing Detection": 0.724834144115448, "Quantum sensing Metrology": 0.7115833759307861, "Quantum sensing navigation": 0.7004006505012512, "Quantum sensing Position": 0.6870219707489014, "Quantum sensing Timing": 0.6683235168457031, "Quantum sensing": 0.7395678758621216, "Quantum control": 0.7020717263221741 } }, { "id": 7926, "title": "Modulation of nitrate reductase activity by photosynthetic electron transport chain and nitric oxide balance in the red macroalga Gracilaria chilensis (Gracilariales, Rhodophyta)", "abstract": "Nitrate reductase (NR), a key enzyme in nitrogen metabolism, has been implicated in the production of nitric oxide (NO) in plants. The effect of photosynthetic electron transport chain inhibitors and ...", "citations": 25, "author_count": 4, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7935, "doi": "10.1007/s10811-013-0005-8", "umap_coordinates": { "x": 394.21856689453125, "y": 135.97824096679688, "z": 203.97085571289062 }, "tsne_coordinates": { "x": 13.030460357666016, "y": 29.617448806762695, "z": 6.47163724899292 }, "pca_coordinates": { "x": -2.6404199600219727, "y": 1.0673918724060059, "z": -1.491898536682129 }, "axis_scores": { "Quantum imaging": 0.6794214248657227, "Quantum Life Science Sensing": 0.7362369894981384, "Quantum sensing Detection": 0.6758944392204285, "Quantum sensing Metrology": 0.6860842704772949, "Quantum sensing navigation": 0.7130808234214783, "Quantum sensing Position": 0.6729797124862671, "Quantum sensing Timing": 0.6445627212524414, "Quantum sensing": 0.6947910785675049, "Quantum control": 0.6980932950973511 } }, { "id": 7927, "title": "Fluorescence and absorption spectroscopy of the weakly fluorescent chlorophyll a in cytochrome b6f of Synechocystis PCC6803", "abstract": "A spectroscopic characterization of the chlorophyll a (Chl) molecule in the monomeric cytochrome b6f complex (Cytb(6)f) isolated from the cyanobacterium Synechocystis PCC6803 is presented. The fluores...", "citations": 73, "author_count": 9, "categories": [ "Biophysics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7936, "doi": "10.1016/S0006-3495(98)77523-X", "umap_coordinates": { "x": 393.49560546875, "y": 135.79556274414062, "z": 204.46932983398438 }, "tsne_coordinates": { "x": -1.4679186344146729, "y": 16.149906158447266, "z": 2.1660611629486084 }, "pca_coordinates": { "x": -2.911214828491211, "y": -0.41411757469177246, "z": -1.1174182891845703 }, "axis_scores": { "Quantum imaging": 0.6998270153999329, "Quantum Life Science Sensing": 0.7424591779708862, "Quantum sensing Detection": 0.6956684589385986, "Quantum sensing Metrology": 0.6915158033370972, "Quantum sensing navigation": 0.6804853677749634, "Quantum sensing Position": 0.6696169972419739, "Quantum sensing Timing": 0.646018385887146, "Quantum sensing": 0.7101064324378967, "Quantum control": 0.6624731421470642 } }, { "id": 7928, "title": "Nordic research and development cooperation to strengthen nuclear reactor safety after the Fukushima accident", "abstract": "A comprehensive study of photon interaction features has been made for some alloys containing Pd and Ag content to evaluate its possible use as alternative gamma radiations shielding material. The mas...", "citations": 1, "author_count": 5, "categories": [ "Nuclear Science & Technology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7937, "doi": "10.1016/j.net.2018.11.013", "umap_coordinates": { "x": 394.69146728515625, "y": 134.74578857421875, "z": 205.1971893310547 }, "tsne_coordinates": { "x": -15.213949203491211, "y": 25.861635208129883, "z": 3.732133388519287 }, "pca_coordinates": { "x": -2.670100212097168, "y": 2.495215892791748, "z": 0.08069580793380737 }, "axis_scores": { "Quantum imaging": 0.6826684474945068, "Quantum Life Science Sensing": 0.6829303503036499, "Quantum sensing Detection": 0.6700378656387329, "Quantum sensing Metrology": 0.6444878578186035, "Quantum sensing navigation": 0.6955814957618713, "Quantum sensing Position": 0.656603991985321, "Quantum sensing Timing": 0.6704656481742859, "Quantum sensing": 0.6761038303375244, "Quantum control": 0.677722156047821 } }, { "id": 7929, "title": "Near-threshold measurement of the 4He(γ,n) reaction", "abstract": "A near-threshold He-4(gamma, n) cross-section measurement has been performed at MAX-lab. Tagged photons from 23 < Ey < 42 MeV were directed toward a liquid He-4 target, and neutrons were detected by t...", "citations": 32, "author_count": 22, "categories": [ "Astronomy & Astrophysics" ], "year": 2005, "topic": [ "all" ], "embedding_index": 7938, "doi": "10.1016/j.physletb.2005.08.081", "umap_coordinates": { "x": 396.595947265625, "y": 134.0953826904297, "z": 207.4119415283203 }, "tsne_coordinates": { "x": -26.902099609375, "y": 8.116692543029785, "z": -16.101318359375 }, "pca_coordinates": { "x": 0.8871743679046631, "y": 1.8875236511230469, "z": 2.552593231201172 }, "axis_scores": { "Quantum imaging": 0.7269068956375122, "Quantum Life Science Sensing": 0.7349221110343933, "Quantum sensing Detection": 0.7466546893119812, "Quantum sensing Metrology": 0.7126336693763733, "Quantum sensing navigation": 0.7232366800308228, "Quantum sensing Position": 0.7355712056159973, "Quantum sensing Timing": 0.7300229668617249, "Quantum sensing": 0.7376665472984314, "Quantum control": 0.6705335378646851 } }, { "id": 7930, "title": "Monte Carlo simulation of the response of a pixellated 3D photo-detector in silicon", "abstract": "The charge transport and X-ray photon absorption in three-dimensional (3D) X-ray pixel detectors have been studied using numerical simulations. The charge transport has been modelled using the drift-d...", "citations": 5, "author_count": 5, "categories": [ "Instruments & Instrumentation" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7939, "doi": "10.1016/S0168-9002(02)00957-9", "umap_coordinates": { "x": 394.6895751953125, "y": 133.02557373046875, "z": 205.50730895996094 }, "tsne_coordinates": { "x": -11.430697441101074, "y": 17.222688674926758, "z": -8.905908584594727 }, "pca_coordinates": { "x": -1.5893299579620361, "y": 1.1615056991577148, "z": 2.746906280517578 }, "axis_scores": { "Quantum imaging": 0.7362655401229858, "Quantum Life Science Sensing": 0.7393777370452881, "Quantum sensing Detection": 0.7410768866539001, "Quantum sensing Metrology": 0.7421953678131104, "Quantum sensing navigation": 0.7339667677879333, "Quantum sensing Position": 0.7359218597412109, "Quantum sensing Timing": 0.7110123634338379, "Quantum sensing": 0.7402546405792236, "Quantum control": 0.6931499242782593 } }, { "id": 7931, "title": "New determination of the production cross section for ? rays in the Galaxy", "abstract": "The flux of gamma rays is measured with unprecedented accuracy by the Fermi Large Area Telescope from 100 MeV to almost 1 TeV. In the future, the Cherenkov Telescope Array will have the capability to ...", "citations": 9, "author_count": 5, "categories": [ "Astronomy & Astrophysics" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7940, "doi": "10.1103/PhysRevD.107.083031", "umap_coordinates": { "x": 396.3458557128906, "y": 134.91151428222656, "z": 207.14442443847656 }, "tsne_coordinates": { "x": -40.595401763916016, "y": -0.22437125444412231, "z": -15.549601554870605 }, "pca_coordinates": { "x": 0.7247467041015625, "y": 1.3442401885986328, "z": 1.6209673881530762 }, "axis_scores": { "Quantum imaging": 0.6736072897911072, "Quantum Life Science Sensing": 0.7186122536659241, "Quantum sensing Detection": 0.6777322292327881, "Quantum sensing Metrology": 0.6517730355262756, "Quantum sensing navigation": 0.6819285154342651, "Quantum sensing Position": 0.6481951475143433, "Quantum sensing Timing": 0.6251969337463379, "Quantum sensing": 0.6701457500457764, "Quantum control": 0.6439436078071594 } }, { "id": 7932, "title": "The detector simulation toolkit HORUS", "abstract": "In recent years, X-ray detectors used and developed at synchrotron sources and Free Electron Lasers (FELs) have become increasing powerful and versatile. However, as the capabilities of modern X-ray c...", "citations": 1, "author_count": 4, "categories": [ "Instruments & Instrumentation" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7941, "doi": "10.1088/1748-0221/7/10/C10009", "umap_coordinates": { "x": 396.1101379394531, "y": 134.29505920410156, "z": 206.08982849121094 }, "tsne_coordinates": { "x": -29.264362335205078, "y": 21.815080642700195, "z": -12.671368598937988 }, "pca_coordinates": { "x": -0.6504954099655151, "y": 3.064971685409546, "z": 1.7076785564422607 }, "axis_scores": { "Quantum imaging": 0.7123251557350159, "Quantum Life Science Sensing": 0.7037538290023804, "Quantum sensing Detection": 0.7005264163017273, "Quantum sensing Metrology": 0.6825573444366455, "Quantum sensing navigation": 0.6977818012237549, "Quantum sensing Position": 0.6661084890365601, "Quantum sensing Timing": 0.7088165879249573, "Quantum sensing": 0.703858494758606, "Quantum control": 0.6855170130729675 } }, { "id": 7933, "title": "Intraspecific variation in the response of the cyanobacterium Nodularia spumigena to moderate UV-B radiation", "abstract": "Floating and nodularin-producing strains of Nodularia spumigena from the Baltic Sea are regarded as belonging to one species. However, intraspecific variation in the response of N. spumigena to enviro...", "citations": 33, "author_count": 4, "categories": [ "Marine & Freshwater Biology" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7942, "doi": "10.1016/j.hal.2006.11.003", "umap_coordinates": { "x": 394.1387939453125, "y": 135.5832977294922, "z": 203.88706970214844 }, "tsne_coordinates": { "x": 14.021764755249023, "y": 31.388986587524414, "z": 13.517072677612305 }, "pca_coordinates": { "x": -2.7932257652282715, "y": 1.1615389585494995, "z": -1.1199042797088623 }, "axis_scores": { "Quantum imaging": 0.6922881603240967, "Quantum Life Science Sensing": 0.7148945927619934, "Quantum sensing Detection": 0.6936047673225403, "Quantum sensing Metrology": 0.6791988015174866, "Quantum sensing navigation": 0.6891225576400757, "Quantum sensing Position": 0.6734469532966614, "Quantum sensing Timing": 0.6478951573371887, "Quantum sensing": 0.7042352557182312, "Quantum control": 0.680946409702301 } }, { "id": 7934, "title": "Membrane interactions of cell-penetrating peptides probed by tryptophan fluorescence and dichroism techniques:: Correlations of structure to cellular uptake", "abstract": "This work reports on the binding and conformation of a series of CPPs in the bilayer membranes of large unilamellar vesicles and the effect of the presence of cholesterol. We show a negative correlati...", "citations": 106, "author_count": 5, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7943, "doi": "10.1021/bi052095t", "umap_coordinates": { "x": 393.4334411621094, "y": 135.19459533691406, "z": 204.16842651367188 }, "tsne_coordinates": { "x": 24.103975296020508, "y": 19.32430076599121, "z": 4.583590507507324 }, "pca_coordinates": { "x": -2.3986918926239014, "y": 0.4344303607940674, "z": -2.5579001903533936 }, "axis_scores": { "Quantum imaging": 0.7186015844345093, "Quantum Life Science Sensing": 0.7499980330467224, "Quantum sensing Detection": 0.696581244468689, "Quantum sensing Metrology": 0.6967185139656067, "Quantum sensing navigation": 0.695529580116272, "Quantum sensing Position": 0.6744343638420105, "Quantum sensing Timing": 0.6733131408691406, "Quantum sensing": 0.7063663005828857, "Quantum control": 0.6585848927497864 } }, { "id": 7935, "title": "Deciphering the selectivity of inhibitor MKC9989 towards residue K907 in IRE1α; a multiscale in silico approach", "abstract": "The selectivity of the ligand MKC9989, as inhibitor of the Inositol-Requiring Enzyme 1 alpha (IRE1 alpha) transmembrane kinase/ribonuclease protein, towards the residue K907 in the context of Schiff b...", "citations": 5, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7944, "doi": "10.1039/d0ra01895c", "umap_coordinates": { "x": 393.144775390625, "y": 136.83218383789062, "z": 204.5835723876953 }, "tsne_coordinates": { "x": 1.2230174541473389, "y": 13.560724258422852, "z": 18.28394889831543 }, "pca_coordinates": { "x": -2.2946977615356445, "y": 1.8721059560775757, "z": -2.0747766494750977 }, "axis_scores": { "Quantum imaging": 0.7092961668968201, "Quantum Life Science Sensing": 0.7103802561759949, "Quantum sensing Detection": 0.684483528137207, "Quantum sensing Metrology": 0.6832460165023804, "Quantum sensing navigation": 0.6812697649002075, "Quantum sensing Position": 0.6562913656234741, "Quantum sensing Timing": 0.6501667499542236, "Quantum sensing": 0.6943113207817078, "Quantum control": 0.664395809173584 } }, { "id": 7936, "title": "Existence of a Thermodynamic Spin-Glass Phase in the Zero-Concentration Limit of Anisotropic Dipolar Systems", "abstract": "The nature of ordering in dilute dipolar interacting systems dates back to the work of Debye and is one of the most basic, oldest and as-of-yet unsettled problems in magnetism. While spin-glass order ...", "citations": 17, "author_count": 5, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7945, "doi": "10.1103/PhysRevX.4.041016", "umap_coordinates": { "x": 394.05389404296875, "y": 136.7819366455078, "z": 208.91355895996094 }, "tsne_coordinates": { "x": 12.124351501464844, "y": -32.0135612487793, "z": 6.381890773773193 }, "pca_coordinates": { "x": 3.573314666748047, "y": 0.6363095045089722, "z": -1.7631728649139404 }, "axis_scores": { "Quantum imaging": 0.6739559173583984, "Quantum Life Science Sensing": 0.6973835229873657, "Quantum sensing Detection": 0.666960597038269, "Quantum sensing Metrology": 0.6553886532783508, "Quantum sensing navigation": 0.6867174506187439, "Quantum sensing Position": 0.6761797666549683, "Quantum sensing Timing": 0.6495946049690247, "Quantum sensing": 0.6680461764335632, "Quantum control": 0.6555857062339783 } }, { "id": 7937, "title": "Trimming Down a Protein Structure to Its Bare Foldons SPATIAL ORGANIZATION OF THE COOPERATIVE UNIT", "abstract": "Folding of the ribosomal protein S6 is a malleable process controlled by two competing, and partly overlapping, folding nuclei. Together, these nuclei extend over most of the S6 structure, except the ...", "citations": 17, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7946, "doi": "10.1074/jbc.M111.312447", "umap_coordinates": { "x": 394.11297607421875, "y": 136.49403381347656, "z": 204.78262329101562 }, "tsne_coordinates": { "x": 4.851334571838379, "y": 24.417926788330078, "z": 20.791067123413086 }, "pca_coordinates": { "x": 0.30552470684051514, "y": 2.0345239639282227, "z": -1.727870225906372 }, "axis_scores": { "Quantum imaging": 0.6848680973052979, "Quantum Life Science Sensing": 0.6981731653213501, "Quantum sensing Detection": 0.6777219772338867, "Quantum sensing Metrology": 0.7030350565910339, "Quantum sensing navigation": 0.6888514757156372, "Quantum sensing Position": 0.6989859938621521, "Quantum sensing Timing": 0.6584069132804871, "Quantum sensing": 0.6948699355125427, "Quantum control": 0.6805176138877869 } }, { "id": 7938, "title": "PHOTOCHEMICAL CHARACTERIZATION AND OPTIMIZATION OF ARGON ION LASER-INDUCED FLUORESCENCE DETECTION OF O-PHTHALALDEHYDE BETA-MERCAPTOETHANOL-LABELED AMINO-ACIDS AND GAMMA-GLUTAMYL PEPTIDES IN LIQUID-CHROMATOGRAPHY - ULTRATRACE ANALYSIS WITH NEUROBIOLOGICAL SAMPLES", "abstract": "Optimization of argon ion laser-induced (UV multiline) fluorescence detection in liquid chromatography (1 mm i.d. columns) was performed aiming for ultratrace determination of o-phthalaldehyde/beta-me...", "citations": 19, "author_count": 6, "categories": [ "Chemistry" ], "year": 1994, "topic": [ "all" ], "embedding_index": 7947, "doi": "10.1021/ac00096a013", "umap_coordinates": { "x": 394.5328674316406, "y": 134.5266571044922, "z": 204.6009521484375 }, "tsne_coordinates": { "x": 2.0088562965393066, "y": 16.223220825195312, "z": -13.14136028289795 }, "pca_coordinates": { "x": -4.233630180358887, "y": 1.7127621173858643, "z": 0.9778003096580505 }, "axis_scores": { "Quantum imaging": 0.6979753971099854, "Quantum Life Science Sensing": 0.7119937539100647, "Quantum sensing Detection": 0.6730654239654541, "Quantum sensing Metrology": 0.6672148704528809, "Quantum sensing navigation": 0.6839048862457275, "Quantum sensing Position": 0.666435956954956, "Quantum sensing Timing": 0.671367883682251, "Quantum sensing": 0.6824440360069275, "Quantum control": 0.652748167514801 } }, { "id": 7939, "title": "Ion temperature and toroidal rotation in JET's low torque plasmas", "abstract": "This paper reports on the procedure developed as the best method to provide an accurate and reliable estimation of the ion temperature T-i and the toroidal velocity v(phi) from Charge-eXchange Recombi...", "citations": 2, "author_count": 1111, "categories": [ "Instruments & Instrumentation" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7948, "doi": "10.1063/1.4963714", "umap_coordinates": { "x": 393.8143615722656, "y": 135.1847686767578, "z": 207.57171630859375 }, "tsne_coordinates": { "x": 1.5130391120910645, "y": -4.572949409484863, "z": 44.48050308227539 }, "pca_coordinates": { "x": 1.0863020420074463, "y": 0.3877840042114258, "z": -1.2230496406555176 }, "axis_scores": { "Quantum imaging": 0.6867552995681763, "Quantum Life Science Sensing": 0.6862893104553223, "Quantum sensing Detection": 0.6740869879722595, "Quantum sensing Metrology": 0.6642698049545288, "Quantum sensing navigation": 0.6869242787361145, "Quantum sensing Position": 0.6804678440093994, "Quantum sensing Timing": 0.6770349740982056, "Quantum sensing": 0.6844252347946167, "Quantum control": 0.6824625730514526 } }, { "id": 7940, "title": "Emergent magnetic behavior in the frustrated Yb3Ga5O12 garnet", "abstract": "We report neutron scattering, magnetic susceptibility and Monte Carlo theoretical analysis to verify the short-range nature of the magnetic structure and spin-spin correlations in a Yb3Ga5O12 single c...", "citations": 13, "author_count": 15, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7949, "doi": "10.1103/PhysRevB.104.064425", "umap_coordinates": { "x": 393.44866943359375, "y": 136.45468139648438, "z": 209.0457763671875 }, "tsne_coordinates": { "x": -8.052262306213379, "y": -34.41487503051758, "z": 17.738449096679688 }, "pca_coordinates": { "x": 5.308450222015381, "y": -0.9842603206634521, "z": -2.6263937950134277 }, "axis_scores": { "Quantum imaging": 0.7019018530845642, "Quantum Life Science Sensing": 0.6924850344657898, "Quantum sensing Detection": 0.6955157518386841, "Quantum sensing Metrology": 0.6831957101821899, "Quantum sensing navigation": 0.703339159488678, "Quantum sensing Position": 0.6563681364059448, "Quantum sensing Timing": 0.659026026725769, "Quantum sensing": 0.7023473381996155, "Quantum control": 0.6852618455886841 } }, { "id": 7941, "title": "Deactivation blocks proton pathways in the mitochondrial complex I", "abstract": "Cellular respiration is powered by membrane-bound redox enzymes that convert chemical energy into an electrochemical proton gradient and drive the energy metabolism. By combining large-scale classical...", "citations": 28, "author_count": 9, "categories": [ "Science & Technology - Other Topics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 7950, "doi": "10.1073/pnas.2019498118", "umap_coordinates": { "x": 393.3218078613281, "y": 136.98248291015625, "z": 204.8939971923828 }, "tsne_coordinates": { "x": 6.7596306800842285, "y": 15.715984344482422, "z": 18.507822036743164 }, "pca_coordinates": { "x": 0.38710057735443115, "y": 2.2144479751586914, "z": -2.62539005279541 }, "axis_scores": { "Quantum imaging": 0.6940896511077881, "Quantum Life Science Sensing": 0.7007821202278137, "Quantum sensing Detection": 0.6760879755020142, "Quantum sensing Metrology": 0.6640077233314514, "Quantum sensing navigation": 0.6698290109634399, "Quantum sensing Position": 0.6640633940696716, "Quantum sensing Timing": 0.6628984808921814, "Quantum sensing": 0.6859554648399353, "Quantum control": 0.6759350299835205 } }, { "id": 7942, "title": "DISCRETE EVENTS MEASURE SINGLE QUANTA OF ADENOSINE 5'-TRIPHOSPHATE SECRETED FROM SYMPATHETIC-NERVES OF GUINEA-PIG AND MOUSE VAS-DEFERENS", "abstract": "Intracellularly recorded excitatory junction potentials in smooth muscle cells, and the 1st time differentials of their rising phases (discrete events) were used to analyze transmitter secretion from ...", "citations": 97, "author_count": 3, "categories": [ "Neurosciences & Neurology" ], "year": 1984, "topic": [ "all" ], "embedding_index": 7951, "doi": "10.1016/0306-4522(84)90256-2", "umap_coordinates": { "x": 394.6675109863281, "y": 134.1135711669922, "z": 207.9084014892578 }, "tsne_coordinates": { "x": -12.789968490600586, "y": -15.922013282775879, "z": -26.67152214050293 }, "pca_coordinates": { "x": 0.559044361114502, "y": 1.14877188205719, "z": 2.5631966590881348 }, "axis_scores": { "Quantum imaging": 0.7110884785652161, "Quantum Life Science Sensing": 0.7376630902290344, "Quantum sensing Detection": 0.7201067209243774, "Quantum sensing Metrology": 0.7161796689033508, "Quantum sensing navigation": 0.6950615644454956, "Quantum sensing Position": 0.703580915927887, "Quantum sensing Timing": 0.717914879322052, "Quantum sensing": 0.7289687991142273, "Quantum control": 0.6793209314346313 } }, { "id": 7943, "title": "Manipulating photodissociation dynamics via an embedding UV pulse", "abstract": "Ultraviolet (UV) photodissociation provides valuable insights into fragmentation patterns and photochemical reactions. However, the limited overlap between vibrational bound states and continuum state...", "citations": 1, "author_count": 13, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7952, "doi": "10.1038/s42005-025-02262-3", "umap_coordinates": { "x": 393.367919921875, "y": 136.05398559570312, "z": 206.44961547851562 }, "tsne_coordinates": { "x": -6.544612884521484, "y": -0.22401469945907593, "z": -1.1401047706604004 }, "pca_coordinates": { "x": -0.7217802405357361, "y": 0.7127034664154053, "z": -0.015461146831512451 }, "axis_scores": { "Quantum imaging": 0.7211269736289978, "Quantum Life Science Sensing": 0.7045872211456299, "Quantum sensing Detection": 0.6957971453666687, "Quantum sensing Metrology": 0.6682906150817871, "Quantum sensing navigation": 0.7042951583862305, "Quantum sensing Position": 0.6889898777008057, "Quantum sensing Timing": 0.6972799897193909, "Quantum sensing": 0.7040566205978394, "Quantum control": 0.7122388482093811 } }, { "id": 7944, "title": "Instantaneous thermometry imaging using two-photon laser-induced fluorescence", "abstract": "Measuring temperature in complex two-phase flows is crucial for understanding the dynamics of heat and mass transfer. In this Letter, we introduce a novel, to the best of our knowledge, optical approa...", "citations": 1, "author_count": 6, "categories": [ "Optics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7953, "doi": "10.1364/OL.516775", "umap_coordinates": { "x": 394.4558410644531, "y": 134.0366973876953, "z": 205.8238525390625 }, "tsne_coordinates": { "x": 7.365399360656738, "y": 12.981922149658203, "z": -34.341548919677734 }, "pca_coordinates": { "x": -2.7265071868896484, "y": 1.0148155689239502, "z": 2.774142265319824 }, "axis_scores": { "Quantum imaging": 0.7602176070213318, "Quantum Life Science Sensing": 0.7374258041381836, "Quantum sensing Detection": 0.7277557253837585, "Quantum sensing Metrology": 0.7231097221374512, "Quantum sensing navigation": 0.7074984312057495, "Quantum sensing Position": 0.7053366899490356, "Quantum sensing Timing": 0.7305442094802856, "Quantum sensing": 0.7413772940635681, "Quantum control": 0.6742264628410339 } }, { "id": 7945, "title": "Disentangling Centrality Bias and Final-State Effects in the Production of High-pT Neutral Pions Using Direct Photon in d plus Au Collisions at √sNN=200 GeV", "abstract": "PHENIX presents a simultaneous measurement of the production of direct gamma and pi(0) in d + Au collisions at root S-NN = 200 GeV over a p(T) range of 7.5 to 18 GeV/c for different event samples sele...", "citations": 8, "author_count": 279, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7954, "doi": "10.1103/PhysRevLett.134.022302", "umap_coordinates": { "x": 396.7279052734375, "y": 134.4084930419922, "z": 208.10202026367188 }, "tsne_coordinates": { "x": -31.98032569885254, "y": 2.650909185409546, "z": -20.28553581237793 }, "pca_coordinates": { "x": 1.7979645729064941, "y": -0.9012031555175781, "z": 2.375645875930786 }, "axis_scores": { "Quantum imaging": 0.6628561019897461, "Quantum Life Science Sensing": 0.6671410799026489, "Quantum sensing Detection": 0.6906904578208923, "Quantum sensing Metrology": 0.6575145125389099, "Quantum sensing navigation": 0.6958038210868835, "Quantum sensing Position": 0.6730839610099792, "Quantum sensing Timing": 0.6823553442955017, "Quantum sensing": 0.6796700358390808, "Quantum control": 0.6690139770507812 } }, { "id": 7946, "title": "Exciton many-body interactions and charge transfer in CsPbBr3/graphene derivatives", "abstract": "Charge separation and many-body interactions at the interface of the light-absorbing semiconductor and contact layer are of crucial importance to the photophysical properties and optoelectronic device...", "citations": 6, "author_count": 13, "categories": [ "Materials Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7955, "doi": "10.1103/PhysRevB.108.155417", "umap_coordinates": { "x": 393.4183044433594, "y": 135.78639221191406, "z": 208.54542541503906 }, "tsne_coordinates": { "x": 7.94036340713501, "y": -20.99616050720215, "z": 0.11672050505876541 }, "pca_coordinates": { "x": 3.175685405731201, "y": -2.6168832778930664, "z": -1.4218237400054932 }, "axis_scores": { "Quantum imaging": 0.6987118721008301, "Quantum Life Science Sensing": 0.6988267302513123, "Quantum sensing Detection": 0.6883866190910339, "Quantum sensing Metrology": 0.6626360416412354, "Quantum sensing navigation": 0.6900171041488647, "Quantum sensing Position": 0.6749730110168457, "Quantum sensing Timing": 0.6640170216560364, "Quantum sensing": 0.6996206641197205, "Quantum control": 0.6722519397735596 } }, { "id": 7947, "title": "Anisotropies in the diffuse gamma-ray background measured by the Fermi-LAT", "abstract": "The small angular scale fluctuations of the (on large scale) isotropic gamma-ray background (IGRB) carry information about the presence of unresolved source classes. A guaranteed contribution to the I...", "citations": 1, "author_count": 7, "categories": [ "Instruments & Instrumentation" ], "year": 2012, "topic": [ "all" ], "embedding_index": 7956, "doi": "10.1016/j.nima.2011.12.093", "umap_coordinates": { "x": 394.5377502441406, "y": 133.16397094726562, "z": 205.5872802734375 }, "tsne_coordinates": { "x": -32.61809539794922, "y": -7.29079532623291, "z": -23.680757522583008 }, "pca_coordinates": { "x": -2.0157814025878906, "y": 1.0731642246246338, "z": 1.0474088191986084 }, "axis_scores": { "Quantum imaging": 0.7055286169052124, "Quantum Life Science Sensing": 0.6804954409599304, "Quantum sensing Detection": 0.6640217304229736, "Quantum sensing Metrology": 0.6756922602653503, "Quantum sensing navigation": 0.6987621784210205, "Quantum sensing Position": 0.6759289503097534, "Quantum sensing Timing": 0.6701434254646301, "Quantum sensing": 0.686570942401886, "Quantum control": 0.6391094326972961 } }, { "id": 7948, "title": "Quantum kinetic theory of vibrational heating and bond breaking by hot electrons", "abstract": "A quantum kinetic theory of surface bond-breaking induced by laser-excited hot electrons is presented within a vibrational-heating mechanism, in which the fast electron-vibration energy transfer leads...", "citations": 62, "author_count": 2, "categories": [ "Materials Science" ], "year": 1997, "topic": [ "all" ], "embedding_index": 7957, "doi": "10.1103/PhysRevB.55.1876", "umap_coordinates": { "x": 395.0793762207031, "y": 135.61083984375, "z": 208.51260375976562 }, "tsne_coordinates": { "x": 1.034057378768921, "y": -42.9591064453125, "z": 2.546842098236084 }, "pca_coordinates": { "x": 4.73767614364624, "y": 0.16738247871398926, "z": -0.7042756080627441 }, "axis_scores": { "Quantum imaging": 0.711678147315979, "Quantum Life Science Sensing": 0.7208739519119263, "Quantum sensing Detection": 0.7191147804260254, "Quantum sensing Metrology": 0.7000861167907715, "Quantum sensing navigation": 0.7084914445877075, "Quantum sensing Position": 0.6818512678146362, "Quantum sensing Timing": 0.7071030139923096, "Quantum sensing": 0.728387713432312, "Quantum control": 0.716291606426239 } }, { "id": 7949, "title": "X-ray deconvolution microscopy", "abstract": "Recent advances in single-photon-counting detectors are enabling the development of novel approaches to reach micrometer-scale resolution in x-ray imaging. One example of such a technology are the MED...", "citations": 11, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7958, "doi": "10.1364/BOE.7.001227", "umap_coordinates": { "x": 394.9516906738281, "y": 133.84765625, "z": 205.85943603515625 }, "tsne_coordinates": { "x": 3.3820295333862305, "y": 18.5181941986084, "z": -26.82880401611328 }, "pca_coordinates": { "x": -1.0994545221328735, "y": 1.5480695962905884, "z": 0.5607830882072449 }, "axis_scores": { "Quantum imaging": 0.7794713377952576, "Quantum Life Science Sensing": 0.7282686829566956, "Quantum sensing Detection": 0.7247442603111267, "Quantum sensing Metrology": 0.7180257439613342, "Quantum sensing navigation": 0.7365787625312805, "Quantum sensing Position": 0.714629054069519, "Quantum sensing Timing": 0.7135531902313232, "Quantum sensing": 0.7476342916488647, "Quantum control": 0.7335606217384338 } }, { "id": 7950, "title": "Narrow photoemission lines from graphite valence states - art. no. 235422", "abstract": "Valence-band photoelectron angular distributions, measured in the photon energy range 20-150 eV, are obtained from crystalline graphite overlayers prepared by heating SiC(0001) and from a graphite nat...", "citations": 33, "author_count": 5, "categories": [ "Materials Science" ], "year": 2002, "topic": [ "all" ], "embedding_index": 7959, "doi": "10.1103/PhysRevB.66.235422", "umap_coordinates": { "x": 394.91046142578125, "y": 135.08592224121094, "z": 209.09339904785156 }, "tsne_coordinates": { "x": 6.466397762298584, "y": -37.34465789794922, "z": -1.2160120010375977 }, "pca_coordinates": { "x": 3.1421523094177246, "y": -1.288437843322754, "z": 0.19175606966018677 }, "axis_scores": { "Quantum imaging": 0.6690202355384827, "Quantum Life Science Sensing": 0.7110585570335388, "Quantum sensing Detection": 0.6871513724327087, "Quantum sensing Metrology": 0.6708754301071167, "Quantum sensing navigation": 0.6873458623886108, "Quantum sensing Position": 0.6537251472473145, "Quantum sensing Timing": 0.6398041844367981, "Quantum sensing": 0.6932366490364075, "Quantum control": 0.6652874946594238 } }, { "id": 7951, "title": "Spin dynamics under the Hamiltonian varying with time in discrete steps: Molecular dynamics-based simulation of electron and nuclear spin relaxation in aqueous nickel(II)", "abstract": "A method of calculating the time correlation functions for electron spin is proposed, based on solving the time-dependent Schrodinger equation for a spin Hamiltonian that contains a term varying rando...", "citations": 38, "author_count": 4, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7960, "doi": "10.1063/1.471083", "umap_coordinates": { "x": 392.70770263671875, "y": 136.75961303710938, "z": 207.37008666992188 }, "tsne_coordinates": { "x": 0.6965371370315552, "y": -10.635838508605957, "z": 39.2392463684082 }, "pca_coordinates": { "x": 2.227121353149414, "y": 0.42089009284973145, "z": -3.6073920726776123 }, "axis_scores": { "Quantum imaging": 0.7494146823883057, "Quantum Life Science Sensing": 0.7319382429122925, "Quantum sensing Detection": 0.6940456628799438, "Quantum sensing Metrology": 0.6717278957366943, "Quantum sensing navigation": 0.7210386395454407, "Quantum sensing Position": 0.6879674792289734, "Quantum sensing Timing": 0.7030512094497681, "Quantum sensing": 0.7171797752380371, "Quantum control": 0.7199752330780029 } }, { "id": 7952, "title": "On determining intramolecular distances from donor-donor energy migration (DDEM) within bifluorophoric macromolecules", "abstract": "Recently a model based on donor-donor energy migration (DDEM) was developed for examining structure-function properties of biomacromolecules such as proteins (J. Chem. Soc., Faraday Trans., 1996, 92, ...", "citations": 13, "author_count": 4, "categories": [ "Chemistry" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7961, "doi": "10.1039/a909701e", "umap_coordinates": { "x": 392.8568420410156, "y": 136.37847900390625, "z": 205.6927947998047 }, "tsne_coordinates": { "x": 25.45433235168457, "y": 11.168776512145996, "z": 22.50252914428711 }, "pca_coordinates": { "x": -0.44447171688079834, "y": 0.6336525678634644, "z": -3.10955548286438 }, "axis_scores": { "Quantum imaging": 0.6701328754425049, "Quantum Life Science Sensing": 0.7008551359176636, "Quantum sensing Detection": 0.6384440660476685, "Quantum sensing Metrology": 0.6437081098556519, "Quantum sensing navigation": 0.6556297540664673, "Quantum sensing Position": 0.6592938303947449, "Quantum sensing Timing": 0.648358941078186, "Quantum sensing": 0.6576839685440063, "Quantum control": 0.6168368458747864 } }, { "id": 7953, "title": "Search for dark Higgsstrahlung in e+0e- → μ+μ- and missing energy events with the KLOE experiment", "abstract": "We searched for evidence of a Higgsstrahlung process in a secluded sector, leading to a final state with a dark photon U and a dark Higgs boson h', with the KLOE detector at DA Phi NE. We investigated...", "citations": 36, "author_count": 65, "categories": [ "Astronomy & Astrophysics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7962, "doi": "10.1016/j.physletb.2015.06.015", "umap_coordinates": { "x": 396.8755187988281, "y": 134.35110473632812, "z": 207.0769500732422 }, "tsne_coordinates": { "x": -35.71057891845703, "y": 11.387872695922852, "z": -1.756644606590271 }, "pca_coordinates": { "x": 0.07588708400726318, "y": 2.5725018978118896, "z": 1.373270034790039 }, "axis_scores": { "Quantum imaging": 0.6963635683059692, "Quantum Life Science Sensing": 0.695758044719696, "Quantum sensing Detection": 0.6927362680435181, "Quantum sensing Metrology": 0.6730576753616333, "Quantum sensing navigation": 0.6895236968994141, "Quantum sensing Position": 0.6740716695785522, "Quantum sensing Timing": 0.6731194257736206, "Quantum sensing": 0.6802875399589539, "Quantum control": 0.6560463309288025 } }, { "id": 7954, "title": "Atick-Witten Hagedorn conjecture, near scale-invariant matter and blue-tilted gravity power spectrum", "abstract": "We will provide an interesting new mechanism to generate almost scale invariant seed density perturbations with a red spectrum, while keeping the gravitational wave spectrum blue-tilted in a stringy t...", "citations": 13, "author_count": 4, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7963, "doi": "10.1007/JHEP08(2014)116", "umap_coordinates": { "x": 396.365478515625, "y": 135.61415100097656, "z": 206.68211364746094 }, "tsne_coordinates": { "x": -41.29155731201172, "y": 11.051074981689453, "z": -1.4404653310775757 }, "pca_coordinates": { "x": 1.5945541858673096, "y": 3.0426201820373535, "z": -0.23832327127456665 }, "axis_scores": { "Quantum imaging": 0.7028605937957764, "Quantum Life Science Sensing": 0.7046436667442322, "Quantum sensing Detection": 0.6791912317276001, "Quantum sensing Metrology": 0.6828409433364868, "Quantum sensing navigation": 0.7045722007751465, "Quantum sensing Position": 0.6970003247261047, "Quantum sensing Timing": 0.6839411854743958, "Quantum sensing": 0.695796549320221, "Quantum control": 0.6887271404266357 } }, { "id": 7955, "title": "Combined quantum chemical statistical mechanical simulations of Mg2+, Ca2+ and Sr2+ in water", "abstract": "We report results from a theoretical study on the solvation of the divalent cations of Mg, Ca and Sr in water at infinite dilution. The ions are treated at the Hartree-Fock level with an explicit solv...", "citations": 32, "author_count": 4, "categories": [ "Chemistry" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7964, "doi": "10.1016/j.cplett.2006.08.075", "umap_coordinates": { "x": 393.7480773925781, "y": 136.7603759765625, "z": 205.8192901611328 }, "tsne_coordinates": { "x": -2.5764801502227783, "y": 13.440417289733887, "z": 29.86516571044922 }, "pca_coordinates": { "x": -0.5860562324523926, "y": 1.3265341520309448, "z": -1.2920808792114258 }, "axis_scores": { "Quantum imaging": 0.7472185492515564, "Quantum Life Science Sensing": 0.7580583095550537, "Quantum sensing Detection": 0.7435412406921387, "Quantum sensing Metrology": 0.7424679398536682, "Quantum sensing navigation": 0.7331063747406006, "Quantum sensing Position": 0.7155129313468933, "Quantum sensing Timing": 0.7291837334632874, "Quantum sensing": 0.7630321979522705, "Quantum control": 0.728445827960968 } }, { "id": 7956, "title": "Dual-energy imaging using a digital scanned multi-slit system for mammography: evaluation of a differential beam filtering technique", "abstract": "This paper describes a method for single exposure contrast-enhanced dual-energy imaging of tumors utilizing a scanned multi-slit system for digital mammography. This photon counting system employs an ...", "citations": 1, "author_count": 4, "categories": [ "Engineering" ], "year": 2006, "topic": [ "all" ], "embedding_index": 7965, "doi": "10.1117/12.649513", "umap_coordinates": { "x": 395.6868896484375, "y": 132.81948852539062, "z": 205.767333984375 }, "tsne_coordinates": { "x": -12.048182487487793, "y": 22.556303024291992, "z": -28.737693786621094 }, "pca_coordinates": { "x": -2.9731481075286865, "y": 1.2477291822433472, "z": 4.0673136711120605 }, "axis_scores": { "Quantum imaging": 0.6960846185684204, "Quantum Life Science Sensing": 0.6748142242431641, "Quantum sensing Detection": 0.6902413368225098, "Quantum sensing Metrology": 0.6669179201126099, "Quantum sensing navigation": 0.6684358716011047, "Quantum sensing Position": 0.6589628458023071, "Quantum sensing Timing": 0.6595261096954346, "Quantum sensing": 0.6793001294136047, "Quantum control": 0.6203219294548035 } }, { "id": 7957, "title": "Peripheral circuits for ideal performance of a traveling-wave parametric amplifier", "abstract": "We investigate the peripheral circuits required to enable ideal performance for a high-gain travelingwave parametric amplifier (TWPA) based on three-wave mixing . By embedding the TWPA in a network of...", "citations": 6, "author_count": 6, "categories": [ "Physics" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7966, "doi": "10.1103/PhysRevApplied.21.064062", "umap_coordinates": { "x": 395.4474182128906, "y": 135.97915649414062, "z": 208.39996337890625 }, "tsne_coordinates": { "x": -17.432687759399414, "y": -19.276165008544922, "z": -3.376079559326172 }, "pca_coordinates": { "x": 2.0679397583007812, "y": 0.4902886152267456, "z": 1.9848344326019287 }, "axis_scores": { "Quantum imaging": 0.7073237299919128, "Quantum Life Science Sensing": 0.7146756649017334, "Quantum sensing Detection": 0.7084841728210449, "Quantum sensing Metrology": 0.7149152159690857, "Quantum sensing navigation": 0.7083926200866699, "Quantum sensing Position": 0.7012345194816589, "Quantum sensing Timing": 0.7050352096557617, "Quantum sensing": 0.7193276882171631, "Quantum control": 0.6726207733154297 } }, { "id": 7958, "title": "Electron correlation and relativistic effects in the excited states of radium monofluoride", "abstract": "Highly accurate and precise electronic structure calculations of heavy radioactive atoms and their molecules are important for several research areas, including chemical, nuclear, and particle physics...", "citations": 8, "author_count": 57, "categories": [ "Science & Technology - Other Topics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7967, "doi": "10.1038/s41467-025-55977-w", "umap_coordinates": { "x": 393.97027587890625, "y": 135.70191955566406, "z": 206.2922821044922 }, "tsne_coordinates": { "x": -4.441938877105713, "y": 13.2399263381958, "z": 8.635791778564453 }, "pca_coordinates": { "x": -1.2439764738082886, "y": 0.32610368728637695, "z": -1.2568542957305908 }, "axis_scores": { "Quantum imaging": 0.6829839944839478, "Quantum Life Science Sensing": 0.6795058250427246, "Quantum sensing Detection": 0.6630879640579224, "Quantum sensing Metrology": 0.6525773406028748, "Quantum sensing navigation": 0.6674822568893433, "Quantum sensing Position": 0.6512298583984375, "Quantum sensing Timing": 0.6445242166519165, "Quantum sensing": 0.6705052852630615, "Quantum control": 0.6562719345092773 } }, { "id": 7959, "title": "Measurements of inclusive and differential fiducial cross-sections of t(t)over-barγ production in leptonic final states at √s=13 TeV in ATLAS", "abstract": "Inclusive and differential cross-sections for the production of a top-quark pair in association with a photon are measured with proton-proton collision data corresponding to an integrated luminosity o...", "citations": 35, "author_count": 2685, "categories": [ "Physics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7968, "doi": "10.1140/epjc/s10052-019-6849-6", "umap_coordinates": { "x": 396.7695007324219, "y": 134.42413330078125, "z": 207.31939697265625 }, "tsne_coordinates": { "x": -36.48725509643555, "y": 12.222118377685547, "z": -9.193466186523438 }, "pca_coordinates": { "x": -0.5883407592773438, "y": 1.7709121704101562, "z": 1.1213083267211914 }, "axis_scores": { "Quantum imaging": 0.6849465370178223, "Quantum Life Science Sensing": 0.6789618134498596, "Quantum sensing Detection": 0.6764839887619019, "Quantum sensing Metrology": 0.6813008785247803, "Quantum sensing navigation": 0.6899116039276123, "Quantum sensing Position": 0.6872847676277161, "Quantum sensing Timing": 0.7350399494171143, "Quantum sensing": 0.6855146884918213, "Quantum control": 0.6829932332038879 } }, { "id": 7960, "title": "Measurements of inclusive and differential cross-sections of combined t(t)over-bar and tWγ production in the eμ channel at 13 TeV with the ATLAS detector", "abstract": "Inclusive and differential cross-sections for the production of top quarks in association with a photon are measured with proton-proton collision data corresponding to an integrated luminosity of 139 ...", "citations": 23, "author_count": 2681, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7969, "doi": "10.1007/JHEP09(2020)049", "umap_coordinates": { "x": 396.8444519042969, "y": 134.3684844970703, "z": 207.13145446777344 }, "tsne_coordinates": { "x": -37.68305969238281, "y": 12.087019920349121, "z": -8.254189491271973 }, "pca_coordinates": { "x": -1.4784727096557617, "y": 1.9345605373382568, "z": 2.052114963531494 }, "axis_scores": { "Quantum imaging": 0.6859476566314697, "Quantum Life Science Sensing": 0.6709449887275696, "Quantum sensing Detection": 0.6728000044822693, "Quantum sensing Metrology": 0.6614612340927124, "Quantum sensing navigation": 0.655962347984314, "Quantum sensing Position": 0.658035933971405, "Quantum sensing Timing": 0.7005816698074341, "Quantum sensing": 0.6771958470344543, "Quantum control": 0.6606655120849609 } }, { "id": 7961, "title": "Harnessing Integrated CPU-GPU System Memory for HPC: a first look into Grace Hopper", "abstract": "Memory management across discrete CPU and GPU physical memory is traditionally achieved through explicit GPU allocations and data copy or unified virtual memory. The Grace Hopper Superchip, for the fi...", "citations": 5, "author_count": 6, "categories": [ "Computer Science" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7970, "doi": "10.1145/3673038.3673110", "umap_coordinates": { "x": 394.59796142578125, "y": 137.766357421875, "z": 205.87339782714844 }, "tsne_coordinates": { "x": -5.821407318115234, "y": 14.260049819946289, "z": 39.243045806884766 }, "pca_coordinates": { "x": -0.4267101287841797, "y": 3.5169501304626465, "z": -0.19159716367721558 }, "axis_scores": { "Quantum imaging": 0.6962854862213135, "Quantum Life Science Sensing": 0.661457359790802, "Quantum sensing Detection": 0.6397725939750671, "Quantum sensing Metrology": 0.6292790174484253, "Quantum sensing navigation": 0.6552677154541016, "Quantum sensing Position": 0.6169489622116089, "Quantum sensing Timing": 0.663388192653656, "Quantum sensing": 0.6651940941810608, "Quantum control": 0.6559659242630005 } }, { "id": 7962, "title": "Characterization of SiGe/Si multi-quantum wells for infrared sensing", "abstract": "SiGe epitaxial layers are integrated as an active part in thermal detectors. To improve their performance, deeper understanding of design parameters, such as thickness, well periodicity, quality, and ...", "citations": 9, "author_count": 6, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 7971, "doi": "10.1063/1.4855595", "umap_coordinates": { "x": 393.47125244140625, "y": 133.29226684570312, "z": 207.71588134765625 }, "tsne_coordinates": { "x": 31.8565673828125, "y": -19.27374267578125, "z": -8.999165534973145 }, "pca_coordinates": { "x": -0.4854980707168579, "y": -2.8452296257019043, "z": 3.4159836769104004 }, "axis_scores": { "Quantum imaging": 0.7499508857727051, "Quantum Life Science Sensing": 0.7891324162483215, "Quantum sensing Detection": 0.7679922580718994, "Quantum sensing Metrology": 0.7791149020195007, "Quantum sensing navigation": 0.7308185696601868, "Quantum sensing Position": 0.7281627655029297, "Quantum sensing Timing": 0.7002918720245361, "Quantum sensing": 0.782029390335083, "Quantum control": 0.69048672914505 } }, { "id": 7963, "title": "Development and characterization of photovoltaic tandem-junction nanowires using electron-beam-induced current measurements", "abstract": "Nanowires have many interesting properties that are of advantage for solar cells, such as the epitaxial combination of lattice-mismatched materials without plastic deformation. This could be utilized ...", "citations": 7, "author_count": 4, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7972, "doi": "10.1007/s12274-022-4469-1", "umap_coordinates": { "x": 393.091064453125, "y": 133.7210235595703, "z": 206.87489318847656 }, "tsne_coordinates": { "x": 25.14889144897461, "y": -10.238380432128906, "z": -12.211421966552734 }, "pca_coordinates": { "x": -2.4602878093719482, "y": -3.2595291137695312, "z": 3.074565887451172 }, "axis_scores": { "Quantum imaging": 0.6988169550895691, "Quantum Life Science Sensing": 0.703953206539154, "Quantum sensing Detection": 0.6877546906471252, "Quantum sensing Metrology": 0.6902897357940674, "Quantum sensing navigation": 0.6927855610847473, "Quantum sensing Position": 0.6861760020256042, "Quantum sensing Timing": 0.6620091795921326, "Quantum sensing": 0.6910771131515503, "Quantum control": 0.6536771059036255 } }, { "id": 7964, "title": "Measurement of the e+e-→W+W- γ cross-section and limits on anomalous quartic gauge couplings with DELPHI", "abstract": "W(+)W(-)gamma production at LEP2 is studied using data collected with the DELPHI detector at centre-of-mass energies between 189 GeV and 209 GeV, corresponding to an integrated luminosity of about 600...", "citations": 33, "author_count": 356, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7973, "doi": "10.1140/epjc/s2003-01350-x", "umap_coordinates": { "x": 396.9628601074219, "y": 134.41860961914062, "z": 207.01405334472656 }, "tsne_coordinates": { "x": -32.98857116699219, "y": 14.333500862121582, "z": -6.2163214683532715 }, "pca_coordinates": { "x": 1.1579060554504395, "y": 2.356919527053833, "z": 2.4770219326019287 }, "axis_scores": { "Quantum imaging": 0.6776546239852905, "Quantum Life Science Sensing": 0.6604288220405579, "Quantum sensing Detection": 0.6718605160713196, "Quantum sensing Metrology": 0.6640302538871765, "Quantum sensing navigation": 0.6799219250679016, "Quantum sensing Position": 0.6797407269477844, "Quantum sensing Timing": 0.6891399025917053, "Quantum sensing": 0.6760992407798767, "Quantum control": 0.6854566335678101 } }, { "id": 7965, "title": "THE PP-]PP-PI(0) REACTION NEAR THE KINEMATICAL THRESHOLD", "abstract": "The reaction pp --> pp pi(o) has been measured using electron-cooled protons incident on an internal gas-jet target at seven different incident beam energies, from 280.7 MeV (1 MeV above the reaction ...", "citations": 94, "author_count": 31, "categories": [ "Astronomy & Astrophysics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 7974, "doi": "10.1016/0370-2693(95)00794-L", "umap_coordinates": { "x": 396.6793518066406, "y": 134.67213439941406, "z": 206.92572021484375 }, "tsne_coordinates": { "x": -27.292057037353516, "y": 11.498403549194336, "z": -16.137060165405273 }, "pca_coordinates": { "x": -1.1827472448349, "y": 4.034361839294434, "z": -0.05932354927062988 }, "axis_scores": { "Quantum imaging": 0.6573155522346497, "Quantum Life Science Sensing": 0.6568266153335571, "Quantum sensing Detection": 0.6583433747291565, "Quantum sensing Metrology": 0.6323684453964233, "Quantum sensing navigation": 0.6474294662475586, "Quantum sensing Position": 0.6866252422332764, "Quantum sensing Timing": 0.6845479011535645, "Quantum sensing": 0.6531285047531128, "Quantum control": 0.6291840076446533 } }, { "id": 7966, "title": "Characterisation of spectral performance of pixellated X-ray imaging detectors in a microscopy setup", "abstract": "In order to achieve energy resolved X-ray imaging with small pixel resolution, physical processes in the detector material such as fluorescence and charge sharing must be considered. This paper presen...", "citations": 4, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 2009, "topic": [ "all" ], "embedding_index": 7975, "doi": "10.1016/j.nima.2009.03.155", "umap_coordinates": { "x": 395.08587646484375, "y": 132.66299438476562, "z": 205.49722290039062 }, "tsne_coordinates": { "x": -11.61412239074707, "y": 14.681963920593262, "z": -11.75308609008789 }, "pca_coordinates": { "x": -3.719022512435913, "y": 1.5861669778823853, "z": 3.9125800132751465 }, "axis_scores": { "Quantum imaging": 0.758408784866333, "Quantum Life Science Sensing": 0.7240800261497498, "Quantum sensing Detection": 0.7265638709068298, "Quantum sensing Metrology": 0.7303619980812073, "Quantum sensing navigation": 0.706039309501648, "Quantum sensing Position": 0.7199068069458008, "Quantum sensing Timing": 0.687547504901886, "Quantum sensing": 0.7278729677200317, "Quantum control": 0.6542537212371826 } }, { "id": 7967, "title": "Limitations to flat-field correction methods when using an X-ray spectrum", "abstract": "Flat-field correction methods are implemented in order to eliminate non-uniformities in X-ray imaging sensors. If the compensation is perfect, then the remaining variations result from noise over the ...", "citations": 24, "author_count": 6, "categories": [ "Instruments & Instrumentation" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7976, "doi": "10.1016/S0168-9002(03)01563-8", "umap_coordinates": { "x": 395.442138671875, "y": 133.59132385253906, "z": 205.2952880859375 }, "tsne_coordinates": { "x": -6.803609371185303, "y": 17.359577178955078, "z": -12.099377632141113 }, "pca_coordinates": { "x": -3.552920341491699, "y": 2.326942205429077, "z": 0.014360487461090088 }, "axis_scores": { "Quantum imaging": 0.6571145057678223, "Quantum Life Science Sensing": 0.6786594390869141, "Quantum sensing Detection": 0.6474946141242981, "Quantum sensing Metrology": 0.6573689579963684, "Quantum sensing navigation": 0.6548904180526733, "Quantum sensing Position": 0.6548721790313721, "Quantum sensing Timing": 0.6345150470733643, "Quantum sensing": 0.6618464589118958, "Quantum control": 0.6244094967842102 } }, { "id": 7968, "title": "Superconducting flip-chip devices using indium microspheres on Au-passivated Nb or NbN as under-bump metallization layer", "abstract": "Superconducting flip-chip interconnects are crucial for the three-dimensional integration of superconducting circuits in sensing and quantum technology applications. We demonstrate a simplified approa...", "citations": 3, "author_count": 6, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 7977, "doi": "10.1063/5.0235266", "umap_coordinates": { "x": 393.9762268066406, "y": 134.3424530029297, "z": 207.45249938964844 }, "tsne_coordinates": { "x": 18.447187423706055, "y": -34.89020919799805, "z": -11.460773468017578 }, "pca_coordinates": { "x": 1.030156135559082, "y": -1.3930132389068604, "z": 1.6420533657073975 }, "axis_scores": { "Quantum imaging": 0.7119777202606201, "Quantum Life Science Sensing": 0.7120433449745178, "Quantum sensing Detection": 0.7180236577987671, "Quantum sensing Metrology": 0.7193310856819153, "Quantum sensing navigation": 0.7189031839370728, "Quantum sensing Position": 0.7160523533821106, "Quantum sensing Timing": 0.6907117962837219, "Quantum sensing": 0.7281448245048523, "Quantum control": 0.6833653450012207 } }, { "id": 7969, "title": "Thermopower as a tool to investigate many-body effects in quantum systems", "abstract": "Measuring the thermopower of a confined quantum system reveals important information about its excitation spectrum. Our simulations show how this kind of transport spectroscopy is able to extract a cl...", "citations": 2, "author_count": 6, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 7978, "doi": "10.1063/1.4893928", "umap_coordinates": { "x": 393.9627380371094, "y": 134.8638916015625, "z": 208.08419799804688 }, "tsne_coordinates": { "x": 23.375972747802734, "y": -27.86341667175293, "z": 8.491711616516113 }, "pca_coordinates": { "x": 2.4813990592956543, "y": -0.9323329925537109, "z": 0.6067788004875183 }, "axis_scores": { "Quantum imaging": 0.735546350479126, "Quantum Life Science Sensing": 0.7521942257881165, "Quantum sensing Detection": 0.7347953915596008, "Quantum sensing Metrology": 0.7254562377929688, "Quantum sensing navigation": 0.7071713209152222, "Quantum sensing Position": 0.7016727924346924, "Quantum sensing Timing": 0.6994061470031738, "Quantum sensing": 0.7552879452705383, "Quantum control": 0.7122785449028015 } }, { "id": 7970, "title": "Quantum antidot as a controllable spin injector and spin filter", "abstract": "We propose a device based on an antidot embedded in a narrow quantum wire in the edge-state regime, that can be used to inject and/or control spin-polarized current. The operational principle of the d...", "citations": 20, "author_count": 3, "categories": [ "Physics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7979, "doi": "10.1063/1.1804249", "umap_coordinates": { "x": 394.00189208984375, "y": 134.81240844726562, "z": 208.1928253173828 }, "tsne_coordinates": { "x": 20.320632934570312, "y": -30.08004379272461, "z": 4.880856037139893 }, "pca_coordinates": { "x": 1.9688100814819336, "y": -1.9545130729675293, "z": 1.3768320083618164 }, "axis_scores": { "Quantum imaging": 0.7856268286705017, "Quantum Life Science Sensing": 0.7684049010276794, "Quantum sensing Detection": 0.7809526324272156, "Quantum sensing Metrology": 0.7677367925643921, "Quantum sensing navigation": 0.777248203754425, "Quantum sensing Position": 0.7467807531356812, "Quantum sensing Timing": 0.73155677318573, "Quantum sensing": 0.7987971305847168, "Quantum control": 0.7832225561141968 } }, { "id": 7971, "title": "The photon structure and exclusive production of vector mesons in γγ collisions", "abstract": "The process of exclusive vector meson production, gamma gamma --> J/psi rho (nu), is studied for almost real photons. This process may be reduced to the photoproduction of J/psi off the rho (0) meson....", "citations": 6, "author_count": 3, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7980, "doi": "10.1007/s100520100626", "umap_coordinates": { "x": 396.7214050292969, "y": 134.81961059570312, "z": 207.0403289794922 }, "tsne_coordinates": { "x": -25.61236572265625, "y": 7.111943244934082, "z": -5.747340679168701 }, "pca_coordinates": { "x": -1.2812272310256958, "y": 1.4319629669189453, "z": 0.8934622406959534 }, "axis_scores": { "Quantum imaging": 0.6977267861366272, "Quantum Life Science Sensing": 0.6970875263214111, "Quantum sensing Detection": 0.6834786534309387, "Quantum sensing Metrology": 0.6663385033607483, "Quantum sensing navigation": 0.6992594599723816, "Quantum sensing Position": 0.671912431716919, "Quantum sensing Timing": 0.6645268201828003, "Quantum sensing": 0.6839439272880554, "Quantum control": 0.6639033555984497 } }, { "id": 7972, "title": "Subwavelength lithography over extended areas -: art. no. 013811", "abstract": "We demonstrate a systematic approach to subwavelength resolution Lithographic image formation on films covering areas larger than a wavelength squared. For example, it is possible to make a lithograph...", "citations": 28, "author_count": 4, "categories": [ "Optics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 7981, "doi": "10.1103/PhysRevA.64.013811", "umap_coordinates": { "x": 395.4384765625, "y": 135.6637725830078, "z": 207.75198364257812 }, "tsne_coordinates": { "x": -16.697399139404297, "y": -15.567622184753418, "z": -11.345377922058105 }, "pca_coordinates": { "x": 2.098358631134033, "y": -0.5519447326660156, "z": 1.86207914352417 }, "axis_scores": { "Quantum imaging": 0.7151846289634705, "Quantum Life Science Sensing": 0.7113350033760071, "Quantum sensing Detection": 0.698062539100647, "Quantum sensing Metrology": 0.7152858972549438, "Quantum sensing navigation": 0.7046467661857605, "Quantum sensing Position": 0.6871355175971985, "Quantum sensing Timing": 0.6728566288948059, "Quantum sensing": 0.7223230600357056, "Quantum control": 0.6814848780632019 } }, { "id": 7973, "title": "Metabolism of [123I]epidepride may affect brain dopamine D2 receptor imaging with single-photon emission tomography", "abstract": "Iodine-123 labelled epidepride is a novel radiopharmaceutical for the study of cerebral dopamine D-2 receptors using single-photon emission tomography (SPET). A lipophilic labelled metabolite of [I-12...", "citations": 6, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7982, "doi": "10.1007/s002590050028", "umap_coordinates": { "x": 395.0401916503906, "y": 134.22132873535156, "z": 204.42324829101562 }, "tsne_coordinates": { "x": -6.786697864532471, "y": 24.377323150634766, "z": 1.2552639245986938 }, "pca_coordinates": { "x": -3.531153678894043, "y": 2.1184396743774414, "z": 1.1454050540924072 }, "axis_scores": { "Quantum imaging": 0.7171195149421692, "Quantum Life Science Sensing": 0.6569518446922302, "Quantum sensing Detection": 0.6634058356285095, "Quantum sensing Metrology": 0.6596865653991699, "Quantum sensing navigation": 0.6699418425559998, "Quantum sensing Position": 0.6662870645523071, "Quantum sensing Timing": 0.6559661030769348, "Quantum sensing": 0.6607446670532227, "Quantum control": 0.6526667475700378 } }, { "id": 7974, "title": "13C PGSE NMR experiment with heteronuclear dipolar decoupling to measure diffusion in liquid crystals and solids", "abstract": "A new PGSE NMR experiment, designed to measure molecular diffusion coefficients in systems with nonvanishing static dipolar coupling, is described. The fast static dipolar dephasing of the single-quan...", "citations": 35, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2000, "topic": [ "all" ], "embedding_index": 7983, "doi": "10.1006/jmre.1999.1907", "umap_coordinates": { "x": 392.6593933105469, "y": 136.9193115234375, "z": 206.3759002685547 }, "tsne_coordinates": { "x": 14.351983070373535, "y": 4.599405765533447, "z": 31.583744049072266 }, "pca_coordinates": { "x": -0.8209031820297241, "y": 2.285576581954956, "z": -0.6527335047721863 }, "axis_scores": { "Quantum imaging": 0.7190089225769043, "Quantum Life Science Sensing": 0.7259148359298706, "Quantum sensing Detection": 0.6809356212615967, "Quantum sensing Metrology": 0.6852601170539856, "Quantum sensing navigation": 0.7051453590393066, "Quantum sensing Position": 0.6849032640457153, "Quantum sensing Timing": 0.6763904094696045, "Quantum sensing": 0.703009843826294, "Quantum control": 0.6887198090553284 } }, { "id": 7975, "title": "Rotational diffusion of the 7-diethylamino-4-methylcoumarin C1 dye molecule in polar protic and aprotic solvents", "abstract": "Fluorescence anisotropy decays of the 7-diethylamino-4-methylcoumarin C1 in various polar solvents of different viscosities and hydrogen bond donor/acceptor character have been recorded by means of th...", "citations": 32, "author_count": 8, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2003, "topic": [ "all" ], "embedding_index": 7984, "doi": "10.1039/b211755j", "umap_coordinates": { "x": 392.94183349609375, "y": 136.416748046875, "z": 205.35934448242188 }, "tsne_coordinates": { "x": 2.5614981651306152, "y": 16.125411987304688, "z": 10.28026294708252 }, "pca_coordinates": { "x": -0.6953626871109009, "y": 0.6126511096954346, "z": -3.3177027702331543 }, "axis_scores": { "Quantum imaging": 0.6981914043426514, "Quantum Life Science Sensing": 0.6879671812057495, "Quantum sensing Detection": 0.6648645997047424, "Quantum sensing Metrology": 0.6428501605987549, "Quantum sensing navigation": 0.6780580282211304, "Quantum sensing Position": 0.6764379739761353, "Quantum sensing Timing": 0.651482880115509, "Quantum sensing": 0.6830606460571289, "Quantum control": 0.6763173937797546 } }, { "id": 7976, "title": "Towards understanding the TiO2 doping at the surface and bulk", "abstract": "Anatase titanium dioxide is a common photocatalyst with limited application scope due to its wide band gap energy. Valence and conduction band doping have long been used to narrow TiO2 band gap energy...", "citations": 13, "author_count": 9, "categories": [ "Spectroscopy" ], "year": 2023, "topic": [ "all" ], "embedding_index": 7985, "doi": "10.1002/xrs.3363", "umap_coordinates": { "x": 393.0848388671875, "y": 134.9619903564453, "z": 205.40655517578125 }, "tsne_coordinates": { "x": 34.591644287109375, "y": 14.73035717010498, "z": 16.57219696044922 }, "pca_coordinates": { "x": -2.8043720722198486, "y": 0.34689855575561523, "z": -1.701289415359497 }, "axis_scores": { "Quantum imaging": 0.6967954635620117, "Quantum Life Science Sensing": 0.7270244359970093, "Quantum sensing Detection": 0.6847847700119019, "Quantum sensing Metrology": 0.6981889605522156, "Quantum sensing navigation": 0.6928841471672058, "Quantum sensing Position": 0.6943585872650146, "Quantum sensing Timing": 0.6768691539764404, "Quantum sensing": 0.7096396684646606, "Quantum control": 0.68022221326828 } }, { "id": 7977, "title": "The fabrication of atomically thin-MoS2 based photoanodes for photoelectrochemical energy conversion and environment remediation: A review", "abstract": "Photoelectrochemical (PEC) technology has been proved a promising approach to solve the problems of energy shortages and environmental pollution damages. It can convert unlimited solar energy resource...", "citations": 28, "author_count": 6, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 7986, "doi": "10.1016/j.gee.2021.05.002", "umap_coordinates": { "x": 393.0392150878906, "y": 133.96774291992188, "z": 204.8074951171875 }, "tsne_coordinates": { "x": 22.29241943359375, "y": 12.936359405517578, "z": -0.22072561085224152 }, "pca_coordinates": { "x": -4.2408857345581055, "y": -2.2568254470825195, "z": -1.2661588191986084 }, "axis_scores": { "Quantum imaging": 0.7197616696357727, "Quantum Life Science Sensing": 0.7613533735275269, "Quantum sensing Detection": 0.7139629125595093, "Quantum sensing Metrology": 0.7162720561027527, "Quantum sensing navigation": 0.7067935466766357, "Quantum sensing Position": 0.6797611713409424, "Quantum sensing Timing": 0.6742140650749207, "Quantum sensing": 0.7354300022125244, "Quantum control": 0.6996259689331055 } }, { "id": 7978, "title": "Highly efficient energy transfer from a water soluble zinc silver indium sulphide quantum dot to organic J-aggregates", "abstract": "The present work has been carried out with the aim to design and develop an efficient light harvesting inorganic-organic hybrid nanoscale material by employing a less toxic, environment friendly inorg...", "citations": 12, "author_count": 6, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7987, "doi": "10.1039/d0cp01845g", "umap_coordinates": { "x": 391.6813049316406, "y": 134.62005615234375, "z": 205.3349609375 }, "tsne_coordinates": { "x": 14.816384315490723, "y": -3.315441131591797, "z": -8.506475448608398 }, "pca_coordinates": { "x": -1.4724280834197998, "y": -3.9202146530151367, "z": -1.5026708841323853 }, "axis_scores": { "Quantum imaging": 0.7081483602523804, "Quantum Life Science Sensing": 0.723863959312439, "Quantum sensing Detection": 0.6967785954475403, "Quantum sensing Metrology": 0.6693835854530334, "Quantum sensing navigation": 0.6825035214424133, "Quantum sensing Position": 0.6639330387115479, "Quantum sensing Timing": 0.6408339738845825, "Quantum sensing": 0.7063826322555542, "Quantum control": 0.6859240531921387 } }, { "id": 7979, "title": "Electronic Transport as a Driver for Self-Interaction-Corrected Methods", "abstract": "While spintronics often investigates striking collective spin effects in large systems, a very important research direction deals with spin-dependent phenomena in nanostructures, reaching the extreme ...", "citations": 6, "author_count": 6, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 7988, "doi": "10.1016/bs.aamop.2015.06.002", "umap_coordinates": { "x": 393.8868713378906, "y": 134.06309509277344, "z": 205.5026397705078 }, "tsne_coordinates": { "x": 29.89436149597168, "y": 9.521224021911621, "z": 16.71336555480957 }, "pca_coordinates": { "x": -1.2657854557037354, "y": -0.037418365478515625, "z": -0.051771700382232666 }, "axis_scores": { "Quantum imaging": 0.7117505073547363, "Quantum Life Science Sensing": 0.7147940397262573, "Quantum sensing Detection": 0.7054136991500854, "Quantum sensing Metrology": 0.7029275894165039, "Quantum sensing navigation": 0.7169951796531677, "Quantum sensing Position": 0.7067329287528992, "Quantum sensing Timing": 0.6926408410072327, "Quantum sensing": 0.7157473564147949, "Quantum control": 0.7015793323516846 } }, { "id": 7980, "title": "Heteronuclear NMR investigations of dynamic regions of intact Escherichia coli ribosomes", "abstract": "N-15-H-1 NMR spectroscopy has been used to probe the dynamic properties of uniformly N-15 labeled Escherichia coli ribosomes. Despite the high molecular weight of the complex (approximate to2.3 MDa), ...", "citations": 90, "author_count": 12, "categories": [ "Science & Technology - Other Topics" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7989, "doi": "10.1073/pnas.0400928101", "umap_coordinates": { "x": 392.5689697265625, "y": 137.1833953857422, "z": 205.99652099609375 }, "tsne_coordinates": { "x": 15.346848487854004, "y": 9.498297691345215, "z": 31.65740203857422 }, "pca_coordinates": { "x": 0.5341691970825195, "y": 2.6697051525115967, "z": -2.2298576831817627 }, "axis_scores": { "Quantum imaging": 0.7106550931930542, "Quantum Life Science Sensing": 0.7185757160186768, "Quantum sensing Detection": 0.6706095337867737, "Quantum sensing Metrology": 0.6711219549179077, "Quantum sensing navigation": 0.6841534972190857, "Quantum sensing Position": 0.6622068881988525, "Quantum sensing Timing": 0.6681461930274963, "Quantum sensing": 0.6959824562072754, "Quantum control": 0.6681296229362488 } }, { "id": 7981, "title": "Calculation of absorbed dose and biological effectiveness from photonuclear reactions in a bremsstrahlung beam of end point 50 MeV", "abstract": "The absorbed dose due to photonuclear reactions in soft tissue, lung, breast, adipose tissue and cortical bone has been evaluated for a scanned bremsstrahlung beam of end point 50 MeV from a racetrack...", "citations": 24, "author_count": 6, "categories": [ "Engineering" ], "year": 1999, "topic": [ "all" ], "embedding_index": 7990, "doi": "10.1088/0031-9155/44/9/301", "umap_coordinates": { "x": 396.017822265625, "y": 133.76614379882812, "z": 205.2772674560547 }, "tsne_coordinates": { "x": -18.128307342529297, "y": 27.904417037963867, "z": -15.95669937133789 }, "pca_coordinates": { "x": -1.6830379962921143, "y": 2.8497414588928223, "z": 2.1615090370178223 }, "axis_scores": { "Quantum imaging": 0.6832341551780701, "Quantum Life Science Sensing": 0.7073371410369873, "Quantum sensing Detection": 0.6576882004737854, "Quantum sensing Metrology": 0.6495384573936462, "Quantum sensing navigation": 0.6644380688667297, "Quantum sensing Position": 0.6612304449081421, "Quantum sensing Timing": 0.6406302452087402, "Quantum sensing": 0.6648682951927185, "Quantum control": 0.6345539689064026 } }, { "id": 7982, "title": "Single and twofold cis trans isomerization of Z,Z-1,4-bis(1-propenyl)benzene on triplet-sensitized excitation", "abstract": "The mechanism for triplet sensitized cis-trans photoisomerization of the isomers of 1,4-bis(1-propenyl) benzene, denoted by ZZ, EZ and EE, has been studied by quantum yield measurements and laser flas...", "citations": 4, "author_count": 3, "categories": [ "Chemistry" ], "year": 1996, "topic": [ "all" ], "embedding_index": 7991, "doi": "10.1016/1010-6030(95)04188-5", "umap_coordinates": { "x": 392.5339050292969, "y": 135.85000610351562, "z": 206.2176971435547 }, "tsne_coordinates": { "x": -6.172440528869629, "y": -3.3792459964752197, "z": -14.15206527709961 }, "pca_coordinates": { "x": -0.4511657953262329, "y": -0.928016185760498, "z": -1.07407808303833 }, "axis_scores": { "Quantum imaging": 0.6757144927978516, "Quantum Life Science Sensing": 0.6991283893585205, "Quantum sensing Detection": 0.6780011057853699, "Quantum sensing Metrology": 0.6729175448417664, "Quantum sensing navigation": 0.6571378111839294, "Quantum sensing Position": 0.6694059371948242, "Quantum sensing Timing": 0.6790496110916138, "Quantum sensing": 0.6883279085159302, "Quantum control": 0.6495048999786377 } }, { "id": 7983, "title": "Interactive computational and experimental approaches improve the sensitivity of periplasmic binding protein-based nicotine biosensors for measurements in biofluids", "abstract": "We developed fluorescent protein sensors for nicotine with improved sensitivity. For iNicSnFR12 at pH 7.4, the proportionality constant for increment F/F0vs [nicotine] (delta-slope, 2.7 mu M-1) is 6.1...", "citations": 3, "author_count": 12, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2024, "topic": [ "all" ], "embedding_index": 7992, "doi": "10.1093/protein/gzae003", "umap_coordinates": { "x": 393.6392822265625, "y": 136.10723876953125, "z": 204.66075134277344 }, "tsne_coordinates": { "x": 2.9549059867858887, "y": 18.7343692779541, "z": 11.173829078674316 }, "pca_coordinates": { "x": -2.0917887687683105, "y": 1.0728294849395752, "z": -1.2564623355865479 }, "axis_scores": { "Quantum imaging": 0.6894698739051819, "Quantum Life Science Sensing": 0.6997763514518738, "Quantum sensing Detection": 0.6842555999755859, "Quantum sensing Metrology": 0.6670687794685364, "Quantum sensing navigation": 0.6907680034637451, "Quantum sensing Position": 0.665798544883728, "Quantum sensing Timing": 0.6436907052993774, "Quantum sensing": 0.6915232539176941, "Quantum control": 0.6715402603149414 } }, { "id": 7984, "title": "Fluorinated Cationic Iridium(III) Complex Yielding an Exceptional, Efficient, and Long-Lived Red-Light-Emitting Electrochemical Cell", "abstract": "A carefully designed red-light-emitting iridium (III) cationic complex yields light-emitting electrochemical cells (LECs) with exceptional efficiency and stability [Ir(4Fppy)(2)(biq)][PF6] (4Fppy = 2-...", "citations": 14, "author_count": 7, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7993, "doi": "10.1021/acsaem.0c01600", "umap_coordinates": { "x": 391.7297058105469, "y": 134.3047332763672, "z": 204.66709899902344 }, "tsne_coordinates": { "x": 17.246654510498047, "y": 5.7473464012146, "z": -24.89961814880371 }, "pca_coordinates": { "x": -4.282573699951172, "y": -2.3047471046447754, "z": -2.330723524093628 }, "axis_scores": { "Quantum imaging": 0.6542873382568359, "Quantum Life Science Sensing": 0.7120365500450134, "Quantum sensing Detection": 0.6503860354423523, "Quantum sensing Metrology": 0.6390860080718994, "Quantum sensing navigation": 0.6293013095855713, "Quantum sensing Position": 0.6083751916885376, "Quantum sensing Timing": 0.6141944527626038, "Quantum sensing": 0.6664221882820129, "Quantum control": 0.6204888820648193 } }, { "id": 7985, "title": "Cation-Dependent Hot Carrier Cooling in Halide Perovskite Nanocrystals", "abstract": "Lead halide perovskites (LHPs) nanocrystals (NCs), owing to their outstanding photophysical properties, have recently emerged as a promising material not only for solar cells but also for lighting and...", "citations": 280, "author_count": 5, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 7994, "doi": "10.1021/jacs.8b11867", "umap_coordinates": { "x": 391.50335693359375, "y": 134.23434448242188, "z": 205.92442321777344 }, "tsne_coordinates": { "x": 17.969465255737305, "y": -4.268397331237793, "z": -16.642255783081055 }, "pca_coordinates": { "x": -1.1976234912872314, "y": -3.294044017791748, "z": -3.309579610824585 }, "axis_scores": { "Quantum imaging": 0.6869768500328064, "Quantum Life Science Sensing": 0.6806446313858032, "Quantum sensing Detection": 0.6655439138412476, "Quantum sensing Metrology": 0.6503353714942932, "Quantum sensing navigation": 0.6567091941833496, "Quantum sensing Position": 0.6546409726142883, "Quantum sensing Timing": 0.6617663502693176, "Quantum sensing": 0.6834434866905212, "Quantum control": 0.6938432455062866 } }, { "id": 7986, "title": "Effects of methyl substitution on radiative and solvent quenching rate constants of [Ru(phen)2dppz]2+ in polyol solvents and bound to DNA", "abstract": "Methyl substituents on the distant benzene ring of the dppz ligand in the light switch complex [Ru(phen)(2)dppz](2+) have profound effects on the photophysics of the complexes in water as well as in t...", "citations": 96, "author_count": 4, "categories": [ "Chemistry" ], "year": 2004, "topic": [ "all" ], "embedding_index": 7995, "doi": "10.1021/ja047166a", "umap_coordinates": { "x": 392.751708984375, "y": 136.66824340820312, "z": 205.07566833496094 }, "tsne_coordinates": { "x": 7.2012248039245605, "y": 13.182961463928223, "z": 9.52861213684082 }, "pca_coordinates": { "x": -1.5973312854766846, "y": -0.3185584545135498, "z": -2.8665876388549805 }, "axis_scores": { "Quantum imaging": 0.6938063502311707, "Quantum Life Science Sensing": 0.7171118259429932, "Quantum sensing Detection": 0.6840468049049377, "Quantum sensing Metrology": 0.6683909893035889, "Quantum sensing navigation": 0.6762149333953857, "Quantum sensing Position": 0.6925545334815979, "Quantum sensing Timing": 0.6756666302680969, "Quantum sensing": 0.6927555203437805, "Quantum control": 0.6717195510864258 } }, { "id": 7987, "title": "Infrared photodetachment of Ce-:: Threshold spectroscopy and resonance structure", "abstract": "The negative ion of cerium is investigated using tunable laser photodetachment threshold spectroscopy. The relative cross section for photodetachment from Ce- is measured over the photon energy range ...", "citations": 45, "author_count": 8, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 7996, "doi": "10.1103/PhysRevA.76.052702", "umap_coordinates": { "x": 394.19146728515625, "y": 135.57168579101562, "z": 207.20924377441406 }, "tsne_coordinates": { "x": -6.048196315765381, "y": -11.422708511352539, "z": -4.417603969573975 }, "pca_coordinates": { "x": 1.304569959640503, "y": -0.03309273719787598, "z": -0.4988914728164673 }, "axis_scores": { "Quantum imaging": 0.7365894317626953, "Quantum Life Science Sensing": 0.765453577041626, "Quantum sensing Detection": 0.743501603603363, "Quantum sensing Metrology": 0.7124629616737366, "Quantum sensing navigation": 0.6989924907684326, "Quantum sensing Position": 0.7068212628364563, "Quantum sensing Timing": 0.7063531875610352, "Quantum sensing": 0.7325164079666138, "Quantum control": 0.6870046257972717 } }, { "id": 7988, "title": "The character of the Xe 4p→nl resonances studied with the aid of their Auger decay", "abstract": "Theoretical predictions for the Xe 4p --> nl photoexcitation are shown to depend strongly on the gauge and wavefunctions used in calculations. In order to test the theory, the resonant Auger decay of ...", "citations": 2, "author_count": 9, "categories": [ "Optics" ], "year": 1998, "topic": [ "all" ], "embedding_index": 7997, "doi": "10.1088/0953-4075/31/24/014", "umap_coordinates": { "x": 395.1831359863281, "y": 135.4342803955078, "z": 206.2493133544922 }, "tsne_coordinates": { "x": -0.5698796510696411, "y": -0.17691990733146667, "z": 16.040847778320312 }, "pca_coordinates": { "x": -0.517132043838501, "y": 1.915539026260376, "z": 0.5971549153327942 }, "axis_scores": { "Quantum imaging": 0.6504507660865784, "Quantum Life Science Sensing": 0.6771624088287354, "Quantum sensing Detection": 0.643233597278595, "Quantum sensing Metrology": 0.624300479888916, "Quantum sensing navigation": 0.6423189043998718, "Quantum sensing Position": 0.6585097312927246, "Quantum sensing Timing": 0.6256677508354187, "Quantum sensing": 0.6515977382659912, "Quantum control": 0.6110724806785583 } }, { "id": 7989, "title": "EXTraS discovery of an X-ray superflare from an L dwarf", "abstract": "We present the first detection of an X-ray flare from an ultracool dwarf of spectral class L. The event was identified in the EXTraS database of XMM-Newton variable sources, and its optical counterpar...", "citations": 20, "author_count": 17, "categories": [ "Astronomy & Astrophysics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 7998, "doi": "10.1051/0004-6361/201937163", "umap_coordinates": { "x": 396.4315185546875, "y": 134.7362060546875, "z": 206.00057983398438 }, "tsne_coordinates": { "x": -28.464344024658203, "y": 24.158164978027344, "z": 2.1646695137023926 }, "pca_coordinates": { "x": -1.3334184885025024, "y": 1.8209623098373413, "z": 0.8378133177757263 }, "axis_scores": { "Quantum imaging": 0.6758056879043579, "Quantum Life Science Sensing": 0.7009522318840027, "Quantum sensing Detection": 0.6710432767868042, "Quantum sensing Metrology": 0.6594828367233276, "Quantum sensing navigation": 0.6586139798164368, "Quantum sensing Position": 0.6674308776855469, "Quantum sensing Timing": 0.6468133330345154, "Quantum sensing": 0.6809118390083313, "Quantum control": 0.6416629552841187 } }, { "id": 7990, "title": "Relative calibration of energy thresholds on multi-bin spectral x-ray detectors", "abstract": "Accurate and reliable energy calibration of spectral x-ray detectors used in medical imaging is essential for avoiding ring artifacts in the reconstructed images (computed tomography) and for performi...", "citations": 1, "author_count": 3, "categories": [ "Instruments & Instrumentation" ], "year": 2016, "topic": [ "all" ], "embedding_index": 7999, "doi": "10.1016/j.nima.2016.09.045", "umap_coordinates": { "x": 394.86248779296875, "y": 132.80026245117188, "z": 205.45785522460938 }, "tsne_coordinates": { "x": -15.324237823486328, "y": 13.799797058105469, "z": -14.804774284362793 }, "pca_coordinates": { "x": -2.64387583732605, "y": 1.02512526512146, "z": 2.743906259536743 }, "axis_scores": { "Quantum imaging": 0.714583158493042, "Quantum Life Science Sensing": 0.7285469174385071, "Quantum sensing Detection": 0.7268737554550171, "Quantum sensing Metrology": 0.7278599739074707, "Quantum sensing navigation": 0.6996228098869324, "Quantum sensing Position": 0.7257183194160461, "Quantum sensing Timing": 0.7357393503189087, "Quantum sensing": 0.7242989540100098, "Quantum control": 0.6487393379211426 } }, { "id": 7991, "title": "Contrast-enhanced dual-energy mammography using a scanned multislit system:: evaluation of a differential beam filtering technique", "abstract": "This paper describes a method for single-exposure, contrast-enhanced dual-energy imaging of tumors utilizing a scanned multislit system for digital mammography. This photon-counting system employs an ...", "citations": 13, "author_count": 4, "categories": [ "Engineering" ], "year": 2007, "topic": [ "all" ], "embedding_index": 8000, "doi": "10.1117/1.2727497", "umap_coordinates": { "x": 395.5924377441406, "y": 132.50523376464844, "z": 205.6243133544922 }, "tsne_coordinates": { "x": -11.689467430114746, "y": 22.945446014404297, "z": -28.63868522644043 }, "pca_coordinates": { "x": -3.018129825592041, "y": 1.5480198860168457, "z": 4.17048978805542 }, "axis_scores": { "Quantum imaging": 0.7201516628265381, "Quantum Life Science Sensing": 0.6896950602531433, "Quantum sensing Detection": 0.720005214214325, "Quantum sensing Metrology": 0.6931098699569702, "Quantum sensing navigation": 0.6864331364631653, "Quantum sensing Position": 0.6707225441932678, "Quantum sensing Timing": 0.6753124594688416, "Quantum sensing": 0.709177553653717, "Quantum control": 0.6582828164100647 } }, { "id": 7992, "title": "Dual-Comb Swept-Wavelength Interferometry: Theory and Experiment", "abstract": "Much efforts have been put to elaborate and improve different high precision measurement schemes for characterization of advanced photonic devices and optical fibers with increasing bandwidth requirem...", "citations": 6, "author_count": 8, "categories": [ "Engineering" ], "year": 2022, "topic": [ "all" ], "embedding_index": 8001, "doi": "10.1109/JLT.2022.3196161", "umap_coordinates": { "x": 394.9032897949219, "y": 133.86337280273438, "z": 207.07122802734375 }, "tsne_coordinates": { "x": 0.7904683947563171, "y": -1.5135782957077026, "z": -38.4885368347168 }, "pca_coordinates": { "x": -0.23805773258209229, "y": 0.07538247108459473, "z": 1.8074231147766113 }, "axis_scores": { "Quantum imaging": 0.7217816114425659, "Quantum Life Science Sensing": 0.7603710889816284, "Quantum sensing Detection": 0.7406048774719238, "Quantum sensing Metrology": 0.7493394613265991, "Quantum sensing navigation": 0.7289224863052368, "Quantum sensing Position": 0.7111760377883911, "Quantum sensing Timing": 0.7140851616859436, "Quantum sensing": 0.7497535943984985, "Quantum control": 0.713056206703186 } }, { "id": 7993, "title": "Demonstration of active routing of entanglement in a multi-user network", "abstract": "We implement an entanglement distribution network based on wavelength-multiplexing and optical switching for quantum communication applications. Using a high-brightness source based on spontaneous par...", "citations": 84, "author_count": 6, "categories": [ "Optics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 8002, "doi": "10.1364/OE.21.029013", "umap_coordinates": { "x": 395.76190185546875, "y": 135.96157836914062, "z": 206.95294189453125 }, "tsne_coordinates": { "x": -18.419055938720703, "y": -4.227540016174316, "z": -7.334753036499023 }, "pca_coordinates": { "x": 2.1300220489501953, "y": 1.2539676427841187, "z": 2.8602192401885986 }, "axis_scores": { "Quantum imaging": 0.7451226115226746, "Quantum Life Science Sensing": 0.6942557692527771, "Quantum sensing Detection": 0.7275077700614929, "Quantum sensing Metrology": 0.7033008933067322, "Quantum sensing navigation": 0.7461725473403931, "Quantum sensing Position": 0.7165252566337585, "Quantum sensing Timing": 0.7022371888160706, "Quantum sensing": 0.7262347936630249, "Quantum control": 0.7133588790893555 } }, { "id": 7994, "title": "Majorana Bound States and Nonlocal Spin Correlations in a Quantum Wire on an Unconventional Superconductor", "abstract": "We study theoretically the proximity effect of a one-dimensional metallic quantum wire (in the absence of spin-orbit interaction) lying on top of an unconventional superconductor. Three different mate...", "citations": 120, "author_count": 6, "categories": [ "Physics" ], "year": 2013, "topic": [ "all" ], "embedding_index": 8003, "doi": "10.1103/PhysRevLett.110.117002", "umap_coordinates": { "x": 394.37042236328125, "y": 136.16111755371094, "z": 208.97230529785156 }, "tsne_coordinates": { "x": 2.983074903488159, "y": -24.1541690826416, "z": 8.561010360717773 }, "pca_coordinates": { "x": 5.2055344581604, "y": -1.5708441734313965, "z": -0.08781421184539795 }, "axis_scores": { "Quantum imaging": 0.6831809878349304, "Quantum Life Science Sensing": 0.6690201163291931, "Quantum sensing Detection": 0.6961702108383179, "Quantum sensing Metrology": 0.6698358058929443, "Quantum sensing navigation": 0.7065327167510986, "Quantum sensing Position": 0.6815410852432251, "Quantum sensing Timing": 0.6730777621269226, "Quantum sensing": 0.701161801815033, "Quantum control": 0.6862262487411499 } }, { "id": 7995, "title": "Heterogeneously Integrated InP Electro-Absorption Modulator for Beyond 300 Gbs Optical Links", "abstract": "The recent AI boom requires more focus on energy-efficient and scalable optical interconnects. Silicon Photonics is enabling technology to satisfy growing demand. However, the lack of lasers and high-...", "citations": 5, "author_count": 22, "categories": [ "Engineering" ], "year": 2025, "topic": [ "all" ], "embedding_index": 8004, "doi": "10.1109/JLT.2025.3526822", "umap_coordinates": { "x": 394.6824035644531, "y": 133.99859619140625, "z": 206.45912170410156 }, "tsne_coordinates": { "x": 3.2681734561920166, "y": 0.7376019358634949, "z": -36.032012939453125 }, "pca_coordinates": { "x": -0.824730396270752, "y": -0.2049105167388916, "z": 1.1668806076049805 }, "axis_scores": { "Quantum imaging": 0.7039403915405273, "Quantum Life Science Sensing": 0.697521448135376, "Quantum sensing Detection": 0.6697227954864502, "Quantum sensing Metrology": 0.696426510810852, "Quantum sensing navigation": 0.6894832849502563, "Quantum sensing Position": 0.6655629873275757, "Quantum sensing Timing": 0.6520875692367554, "Quantum sensing": 0.6913853287696838, "Quantum control": 0.679320752620697 } }, { "id": 7996, "title": "Non-hermitian Hamiltonian description for quantum plasmonics: from dissipative dressed atom picture to Fano states", "abstract": "We derive effective Hamiltonians for a single dipolar emitter coupled to a metal nanoparticle (MNP) with particular attention devoted to the role of losses. For small particles sizes, absorption domin...", "citations": 27, "author_count": 7, "categories": [ "Optics" ], "year": 2019, "topic": [ "all" ], "embedding_index": 8005, "doi": "10.1088/1361-6455/ab008e", "umap_coordinates": { "x": 394.515380859375, "y": 137.16355895996094, "z": 207.56336975097656 }, "tsne_coordinates": { "x": -18.473196029663086, "y": -11.873847961425781, "z": -20.221179962158203 }, "pca_coordinates": { "x": 1.794982671737671, "y": 0.9086263179779053, "z": -1.02138352394104 }, "axis_scores": { "Quantum imaging": 0.7376452684402466, "Quantum Life Science Sensing": 0.7318331599235535, "Quantum sensing Detection": 0.7218335270881653, "Quantum sensing Metrology": 0.7001519203186035, "Quantum sensing navigation": 0.7370378375053406, "Quantum sensing Position": 0.687705397605896, "Quantum sensing Timing": 0.6751991510391235, "Quantum sensing": 0.735322892665863, "Quantum control": 0.7237347960472107 } }, { "id": 7997, "title": "Unique continuation for the magnetic Schrodinger equation", "abstract": "The unique-continuation property from sets of positive measure is here proven for the many-body magnetic Schrodinger equation. This property guarantees that if a solution of the Schrodinger equation v...", "citations": 4, "author_count": 4, "categories": [ "Chemistry" ], "year": 2020, "topic": [ "all" ], "embedding_index": 8006, "doi": "10.1002/qua.26149", "umap_coordinates": { "x": 394.4707946777344, "y": 137.6140899658203, "z": 206.74671936035156 }, "tsne_coordinates": { "x": -19.212509155273438, "y": -16.224016189575195, "z": 24.99186134338379 }, "pca_coordinates": { "x": 0.31219756603240967, "y": 1.996077537536621, "z": -1.4314820766448975 }, "axis_scores": { "Quantum imaging": 0.6948642730712891, "Quantum Life Science Sensing": 0.7168005108833313, "Quantum sensing Detection": 0.690221905708313, "Quantum sensing Metrology": 0.7042391300201416, "Quantum sensing navigation": 0.7198002338409424, "Quantum sensing Position": 0.6855994462966919, "Quantum sensing Timing": 0.6721793413162231, "Quantum sensing": 0.7011454105377197, "Quantum control": 0.6898213028907776 } }, { "id": 7998, "title": "Decomposition of Hilbert space in sets of coherent states", "abstract": "Within the generalized definition of coherent states as group orbits we study the orbit spaces and the orbit manifolds in the projective spaces constructed from linear representations. Invariant funct...", "citations": 4, "author_count": 2, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 8007, "doi": "10.1088/0305-4470/34/23/304", "umap_coordinates": { "x": 394.92657470703125, "y": 136.92730712890625, "z": 206.7543487548828 }, "tsne_coordinates": { "x": -37.87358474731445, "y": 5.937333583831787, "z": 5.605241298675537 }, "pca_coordinates": { "x": 2.298189163208008, "y": 2.7814958095550537, "z": 0.34370607137680054 }, "axis_scores": { "Quantum imaging": 0.7550427317619324, "Quantum Life Science Sensing": 0.765094518661499, "Quantum sensing Detection": 0.7548720240592957, "Quantum sensing Metrology": 0.721958339214325, "Quantum sensing navigation": 0.7413167953491211, "Quantum sensing Position": 0.7285647988319397, "Quantum sensing Timing": 0.7119947671890259, "Quantum sensing": 0.7562417387962341, "Quantum control": 0.7266799211502075 } }, { "id": 7999, "title": "THEORETICAL-STUDIES OF THE OPTICAL CHARACTERISTICS OF THE RESONANT-TUNNELING LIGHT-EMITTING DIODE", "abstract": "We have developed a simple empirical way for future device design to obtain the energy band diagram of the resonant tunneling light-emitting diode based on our self-consistent numerical Hartree-Fock c...", "citations": 10, "author_count": 3, "categories": [ "Physics" ], "year": 1994, "topic": [ "all" ], "embedding_index": 8008, "doi": "10.1063/1.357330", "umap_coordinates": { "x": 393.92364501953125, "y": 134.4927978515625, "z": 207.95535278320312 }, "tsne_coordinates": { "x": 27.957590103149414, "y": -28.61562728881836, "z": 1.0450983047485352 }, "pca_coordinates": { "x": 1.1739943027496338, "y": -0.19556188583374023, "z": 0.2991008162498474 }, "axis_scores": { "Quantum imaging": 0.7251982688903809, "Quantum Life Science Sensing": 0.7296793460845947, "Quantum sensing Detection": 0.7155790328979492, "Quantum sensing Metrology": 0.7221834063529968, "Quantum sensing navigation": 0.6976330876350403, "Quantum sensing Position": 0.6759507060050964, "Quantum sensing Timing": 0.6847472190856934, "Quantum sensing": 0.734860897064209, "Quantum control": 0.6901928782463074 } }, { "id": 8000, "title": "Measurement of the differential γ+2b-jet cross section and the ration σ(γ+2b-jets)/σ(γ plus b-jet) in p(p)over-bar collisions at √s=1.96 TeV", "abstract": "We present the first measurements of the differential cross section d sigma/dp(T)(gamma) for the production of an isolated photon in association with at least two b-quark jets. The measurements consid...", "citations": 6, "author_count": 365, "categories": [ "Astronomy & Astrophysics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 8009, "doi": "10.1016/j.physletb.2014.09.007", "umap_coordinates": { "x": 396.9091491699219, "y": 134.20513916015625, "z": 207.6354522705078 }, "tsne_coordinates": { "x": -28.57072639465332, "y": 4.468753814697266, "z": -11.446149826049805 }, "pca_coordinates": { "x": -0.9295697212219238, "y": 1.0444419384002686, "z": 1.1794674396514893 }, "axis_scores": { "Quantum imaging": 0.6912336349487305, "Quantum Life Science Sensing": 0.6851898431777954, "Quantum sensing Detection": 0.7047747373580933, "Quantum sensing Metrology": 0.6809797286987305, "Quantum sensing navigation": 0.697222113609314, "Quantum sensing Position": 0.7097848057746887, "Quantum sensing Timing": 0.6988856196403503, "Quantum sensing": 0.7016550302505493, "Quantum control": 0.6770725846290588 } }, { "id": 8001, "title": "Dendrogramic Representation of Data: CHSH Violation vs. Nonergodicity", "abstract": "This paper is devoted to the foundational problems of dendrogramic holographic theory (DH theory). We used the ontic-epistemic (implicate-explicate order) methodology. The epistemic counterpart is bas...", "citations": 10, "author_count": 4, "categories": [ "Physics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 8010, "doi": "10.3390/e23080971", "umap_coordinates": { "x": 394.1649169921875, "y": 138.0995330810547, "z": 206.34890747070312 }, "tsne_coordinates": { "x": -34.693214416503906, "y": -18.872983932495117, "z": 15.507097244262695 }, "pca_coordinates": { "x": -0.12095904350280762, "y": 4.701704025268555, "z": -3.6030142307281494 }, "axis_scores": { "Quantum imaging": 0.6463542580604553, "Quantum Life Science Sensing": 0.6742879748344421, "Quantum sensing Detection": 0.6516943573951721, "Quantum sensing Metrology": 0.6567193269729614, "Quantum sensing navigation": 0.6625081300735474, "Quantum sensing Position": 0.6723976731300354, "Quantum sensing Timing": 0.6713825464248657, "Quantum sensing": 0.6563137769699097, "Quantum control": 0.6607791781425476 } }, { "id": 8002, "title": "Unconventional and robust light-matter interactions based on the non-Hermitian skin effect", "abstract": "Lattice models featuring the non-Hermitian skin effect have attracted rapidly growing interest due to their nontrivial spectral topology and the exotic field dynamics they enable. Such non-Hermitian l...", "citations": 5, "author_count": 3, "categories": [ "Physics" ], "year": 2025, "topic": [ "all" ], "embedding_index": 8011, "doi": "10.1103/PhysRevResearch.7.013140", "umap_coordinates": { "x": 395.5988464355469, "y": 136.26100158691406, "z": 208.0015106201172 }, "tsne_coordinates": { "x": -36.15621566772461, "y": -17.787229537963867, "z": -9.756109237670898 }, "pca_coordinates": { "x": 1.1259851455688477, "y": 0.9645901918411255, "z": 0.5091198086738586 }, "axis_scores": { "Quantum imaging": 0.7171127200126648, "Quantum Life Science Sensing": 0.7353416085243225, "Quantum sensing Detection": 0.7133147716522217, "Quantum sensing Metrology": 0.6925402283668518, "Quantum sensing navigation": 0.7179638743400574, "Quantum sensing Position": 0.6707949042320251, "Quantum sensing Timing": 0.6631312370300293, "Quantum sensing": 0.7247394919395447, "Quantum control": 0.6793971061706543 } }, { "id": 8003, "title": "Origin of resolution enhancement by co-doping of scintillators: Insight from electronic structure calculations", "abstract": "It was recently shown that the energy resolution of Ce-doped LaBr3 scintillator radiation detectors can be crucially improved by co-doping with Sr, Ca, or Ba. Here, we outline a mechanism for this enh...", "citations": 36, "author_count": 5, "categories": [ "Physics" ], "year": 2014, "topic": [ "all" ], "embedding_index": 8012, "doi": "10.1063/1.4880576", "umap_coordinates": { "x": 393.8541564941406, "y": 134.07008361816406, "z": 207.63636779785156 }, "tsne_coordinates": { "x": 11.977309226989746, "y": -22.508352279663086, "z": 5.801085472106934 }, "pca_coordinates": { "x": -0.29531151056289673, "y": -0.946314811706543, "z": 0.7177535891532898 }, "axis_scores": { "Quantum imaging": 0.763381838798523, "Quantum Life Science Sensing": 0.7455803751945496, "Quantum sensing Detection": 0.7379111051559448, "Quantum sensing Metrology": 0.7408257722854614, "Quantum sensing navigation": 0.7285243272781372, "Quantum sensing Position": 0.7295481562614441, "Quantum sensing Timing": 0.7140292525291443, "Quantum sensing": 0.7459583282470703, "Quantum control": 0.7101653218269348 } }, { "id": 8004, "title": "Chloroplast magnesium transporters play essential but differential roles in maintaining magnesium homeostasis", "abstract": "Magnesium (Mg2+) is essential for photosynthesis in the chloroplasts of land plants and algae. Being the central ion of chlorophyll, cofactor and activator of many photosynthetic enzymes including RuB...", "citations": 15, "author_count": 14, "categories": [ "Plant Sciences" ], "year": 2023, "topic": [ "all" ], "embedding_index": 8013, "doi": "10.3389/fpls.2023.1221436", "umap_coordinates": { "x": 394.2496032714844, "y": 136.27003479003906, "z": 203.53028869628906 }, "tsne_coordinates": { "x": 15.200372695922852, "y": 34.92715072631836, "z": 8.407564163208008 }, "pca_coordinates": { "x": -2.8663673400878906, "y": 1.5117908716201782, "z": -2.6948752403259277 }, "axis_scores": { "Quantum imaging": 0.674828290939331, "Quantum Life Science Sensing": 0.7114095091819763, "Quantum sensing Detection": 0.6752195954322815, "Quantum sensing Metrology": 0.6841944456100464, "Quantum sensing navigation": 0.6868664026260376, "Quantum sensing Position": 0.6628495454788208, "Quantum sensing Timing": 0.6701692938804626, "Quantum sensing": 0.6859118938446045, "Quantum control": 0.673577070236206 } }, { "id": 8005, "title": "Fluorescent CdS QDs Modified With Molecular Imprinted Polymer for the Photodegradation of Imidacloprid and Buprofezin Pesticides Under Visible Light", "abstract": "Molecular imprinted polymers (MIPs) are sort of custom-made material that can recognize the compounds selectively. Due to its unique qualities such as low cost, resilience and high selectivity, MIPs h...", "citations": 20, "author_count": 12, "categories": [ "Polymer Science" ], "year": 2023, "topic": [ "all" ], "embedding_index": 8014, "doi": "10.1007/s10904-023-02753-2", "umap_coordinates": { "x": 393.11419677734375, "y": 134.62997436523438, "z": 204.54478454589844 }, "tsne_coordinates": { "x": 13.93233871459961, "y": 26.768110275268555, "z": -13.911855697631836 }, "pca_coordinates": { "x": -4.810135841369629, "y": -0.5551519393920898, "z": 0.150579571723938 }, "axis_scores": { "Quantum imaging": 0.7016953229904175, "Quantum Life Science Sensing": 0.7112741470336914, "Quantum sensing Detection": 0.6916194558143616, "Quantum sensing Metrology": 0.6875008344650269, "Quantum sensing navigation": 0.6662963628768921, "Quantum sensing Position": 0.6712458729743958, "Quantum sensing Timing": 0.6503389477729797, "Quantum sensing": 0.6962589025497437, "Quantum control": 0.6778929829597473 } }, { "id": 8006, "title": "Production of Exopolysaccharides by Cultivation of Halotolerant Bacillus atrophaeus BU4 in Glucose- and Xylose-Based Synthetic Media and in Hydrolysates of Quinoa Stalks", "abstract": "A halotolerant, exopolysaccharide-producing bacterium isolated from the Salar de Uyuni salt flat in Bolivia was identified as Bacillus atrophaeus using next-generation sequencing. Comparisons indicate...", "citations": 7, "author_count": 14, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2022, "topic": [ "all" ], "embedding_index": 8015, "doi": "10.3390/fermentation8020079", "umap_coordinates": { "x": 393.5179443359375, "y": 135.60423278808594, "z": 203.8672332763672 }, "tsne_coordinates": { "x": 26.093917846679688, "y": 30.87143325805664, "z": 2.592162609100342 }, "pca_coordinates": { "x": -2.198159694671631, "y": 1.9253157377243042, "z": -3.4956612586975098 }, "axis_scores": { "Quantum imaging": 0.6648939251899719, "Quantum Life Science Sensing": 0.7102173566818237, "Quantum sensing Detection": 0.6620008945465088, "Quantum sensing Metrology": 0.6561119556427002, "Quantum sensing navigation": 0.6516699194908142, "Quantum sensing Position": 0.6269208788871765, "Quantum sensing Timing": 0.6266599893569946, "Quantum sensing": 0.6837745308876038, "Quantum control": 0.6726661324501038 } }, { "id": 8007, "title": "Controlled Oxidation and Self-Passivation of Bimetallic Magnetic FeCr and FeMn Aerosol Nanoparticles", "abstract": "Nanoparticle generation by aerosol methods, particularly spark ablation, has high potential for creating new material combinations with tailored magnetic properties. By combining elements into complex...", "citations": 27, "author_count": 10, "categories": [ "Chemistry" ], "year": 2019, "topic": [ "all" ], "embedding_index": 8016, "doi": "10.1021/acs.jpcc.9b01678", "umap_coordinates": { "x": 392.17718505859375, "y": 134.9034423828125, "z": 205.32565307617188 }, "tsne_coordinates": { "x": 35.24015426635742, "y": 20.654991149902344, "z": -3.4316580295562744 }, "pca_coordinates": { "x": -3.4573769569396973, "y": -2.6139073371887207, "z": -2.166954755783081 }, "axis_scores": { "Quantum imaging": 0.681024968624115, "Quantum Life Science Sensing": 0.7043269872665405, "Quantum sensing Detection": 0.6750578880310059, "Quantum sensing Metrology": 0.6843893527984619, "Quantum sensing navigation": 0.6557961106300354, "Quantum sensing Position": 0.626605749130249, "Quantum sensing Timing": 0.6166809797286987, "Quantum sensing": 0.6848531365394592, "Quantum control": 0.6939439177513123 } }, { "id": 8008, "title": "Silver enhanced TiO2 thin films: photocatalytic characterization using aqueous solutions of tris(hydroxymethyl)aminomethane", "abstract": "The photocatalytic activity in aqueous solutions of TiO2 and Ag enhanced TiO2 sol-gel produced films was characterized using tris(hydroxymethyl)aminomethane (Tris) under black light (365 nm) and the o...", "citations": 17, "author_count": 6, "categories": [ "Chemistry" ], "year": 2014, "topic": [ "all" ], "embedding_index": 8017, "doi": "10.1039/c3dt52270a", "umap_coordinates": { "x": 391.9943542480469, "y": 134.84507751464844, "z": 204.82876586914062 }, "tsne_coordinates": { "x": 13.226958274841309, "y": -0.12408308684825897, "z": -3.4561305046081543 }, "pca_coordinates": { "x": -4.4734954833984375, "y": -3.1747593879699707, "z": -2.4260990619659424 }, "axis_scores": { "Quantum imaging": 0.6606868505477905, "Quantum Life Science Sensing": 0.6921222805976868, "Quantum sensing Detection": 0.6588045954704285, "Quantum sensing Metrology": 0.6619634628295898, "Quantum sensing navigation": 0.6475263833999634, "Quantum sensing Position": 0.6448736786842346, "Quantum sensing Timing": 0.6408756971359253, "Quantum sensing": 0.6716555953025818, "Quantum control": 0.6431490182876587 } }, { "id": 8009, "title": "Self-Assembly of Linear Porphyrin Oligomers into Well-Defined Aggregates", "abstract": "Conjugated zinc porphyrin oligomers of various lengths are shown to form well-defined planar aggregates at low temperatures. The aggregation occurs over a narrow temperature interval (170-150 K) and i...", "citations": 20, "author_count": 6, "categories": [ "Chemistry" ], "year": 2012, "topic": [ "all" ], "embedding_index": 8018, "doi": "10.1021/jp306237e", "umap_coordinates": { "x": 392.18731689453125, "y": 135.74734497070312, "z": 205.17642211914062 }, "tsne_coordinates": { "x": 3.4210567474365234, "y": 1.3484770059585571, "z": -17.871562957763672 }, "pca_coordinates": { "x": -1.9632692337036133, "y": -2.8078503608703613, "z": -1.5599377155303955 }, "axis_scores": { "Quantum imaging": 0.6850905418395996, "Quantum Life Science Sensing": 0.7264572978019714, "Quantum sensing Detection": 0.6783562302589417, "Quantum sensing Metrology": 0.6646884083747864, "Quantum sensing navigation": 0.6744645833969116, "Quantum sensing Position": 0.672126293182373, "Quantum sensing Timing": 0.6349421739578247, "Quantum sensing": 0.6946370005607605, "Quantum control": 0.6581057906150818 } }, { "id": 8010, "title": "Role of Venous Endothelial Cells in Developmental and Pathologic Angiogenesis", "abstract": "Background: Angiogenesis is a dynamic process that involves expansion of a preexisting vascular network that can occur in a number of physiological and pathological settings. Despite its importance, t...", "citations": 142, "author_count": 8, "categories": [ "Cardiovascular System & Cardiology" ], "year": 2021, "topic": [ "all" ], "embedding_index": 8019, "doi": "10.1161/CIRCULATIONAHA.121.054071", "umap_coordinates": { "x": 395.095947265625, "y": 134.19317626953125, "z": 204.13343811035156 }, "tsne_coordinates": { "x": 0.14505599439144135, "y": 28.654071807861328, "z": 2.180786609649658 }, "pca_coordinates": { "x": -0.875627875328064, "y": 3.3969404697418213, "z": -0.8873479962348938 }, "axis_scores": { "Quantum imaging": 0.6615609526634216, "Quantum Life Science Sensing": 0.6475763320922852, "Quantum sensing Detection": 0.6480368375778198, "Quantum sensing Metrology": 0.6117549538612366, "Quantum sensing navigation": 0.654167890548706, "Quantum sensing Position": 0.630547285079956, "Quantum sensing Timing": 0.652934193611145, "Quantum sensing": 0.64255291223526, "Quantum control": 0.6697671413421631 } }, { "id": 8011, "title": "Molecular characterization of particulate organic matter in full scale anaerobic digesters: An NMR spectroscopy study", "abstract": "This study assesses the molecular characteristics of particulate organic matter (POM) in agricultural and food waste digesters and elucidates the molecular properties of the recalcitrant POM fraction,...", "citations": 30, "author_count": 9, "categories": [ "Environmental Sciences & Ecology" ], "year": 2019, "topic": [ "all" ], "embedding_index": 8020, "doi": "10.1016/j.scitotenv.2019.06.264", "umap_coordinates": { "x": 393.5229187011719, "y": 135.5836181640625, "z": 204.27273559570312 }, "tsne_coordinates": { "x": 22.064388275146484, "y": 25.661962509155273, "z": 17.17038917541504 }, "pca_coordinates": { "x": -3.5182807445526123, "y": 2.662858724594116, "z": -2.9813456535339355 }, "axis_scores": { "Quantum imaging": 0.6794354319572449, "Quantum Life Science Sensing": 0.7213686108589172, "Quantum sensing Detection": 0.6590321660041809, "Quantum sensing Metrology": 0.6607890129089355, "Quantum sensing navigation": 0.6598908305168152, "Quantum sensing Position": 0.6411887407302856, "Quantum sensing Timing": 0.6162559390068054, "Quantum sensing": 0.6790831089019775, "Quantum control": 0.6489793658256531 } }, { "id": 8012, "title": "Neutral pion and η meson production in p-Pb collisions at √SNN=5.02 TeV", "abstract": "Neutral pion and eta meson invariant differential yields were measured in non-single diffractive p-Pb collisions at root S-NN = 5.02 TeV with the ALICE experiment at the CERN LHC. The analysis combine...", "citations": 41, "author_count": 1023, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 8021, "doi": "10.1140/epjc/s10052-018-6013-8", "umap_coordinates": { "x": 396.78985595703125, "y": 134.60360717773438, "z": 207.36134338378906 }, "tsne_coordinates": { "x": -30.862552642822266, "y": 9.511422157287598, "z": -4.912063121795654 }, "pca_coordinates": { "x": -0.09701240062713623, "y": 1.0049989223480225, "z": 1.242091417312622 }, "axis_scores": { "Quantum imaging": 0.6606723070144653, "Quantum Life Science Sensing": 0.648445188999176, "Quantum sensing Detection": 0.6548329591751099, "Quantum sensing Metrology": 0.6325325965881348, "Quantum sensing navigation": 0.6765151023864746, "Quantum sensing Position": 0.6693649888038635, "Quantum sensing Timing": 0.6845788359642029, "Quantum sensing": 0.6575440764427185, "Quantum control": 0.6614580750465393 } }, { "id": 8013, "title": "Synthesis and DNA threading properties of quaternary ammonium [Ru(phen)2(dppz)]2+ derivatives", "abstract": "Ruthenium complexes with one dipyrido[3,2-a:2'-3'-c]phenazine (dppz) ligand, e.g. [Ru(phen)(2)(dppz)](2+) (phen = phenanthroline), shows strong binding to double helical DNA and are well-known DNA lig...", "citations": 17, "author_count": 3, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2009, "topic": [ "all" ], "embedding_index": 8022, "doi": "10.1016/j.jinorgbio.2009.04.005", "umap_coordinates": { "x": 393.03045654296875, "y": 135.846923828125, "z": 204.60877990722656 }, "tsne_coordinates": { "x": 9.088483810424805, "y": 15.392416954040527, "z": 8.971644401550293 }, "pca_coordinates": { "x": -1.7586535215377808, "y": -0.20401430130004883, "z": -1.2229669094085693 }, "axis_scores": { "Quantum imaging": 0.7247316837310791, "Quantum Life Science Sensing": 0.724714457988739, "Quantum sensing Detection": 0.7104577422142029, "Quantum sensing Metrology": 0.6940479278564453, "Quantum sensing navigation": 0.7432887554168701, "Quantum sensing Position": 0.7263123393058777, "Quantum sensing Timing": 0.7213594913482666, "Quantum sensing": 0.7201910018920898, "Quantum control": 0.7256134748458862 } }, { "id": 8014, "title": "Generalized electronic diabatic approach to structural similarity in two-dimensional potential energy surfaces of various topologies", "abstract": "Active site properties in some proteins can be affected by conformational fluctuations of neighbor residues, even when the latter are not involved directly in the binding process. A local environment ...", "citations": 7, "author_count": 4, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 8023, "doi": "10.1002/qua.21475", "umap_coordinates": { "x": 393.7470703125, "y": 137.079345703125, "z": 206.88450622558594 }, "tsne_coordinates": { "x": -16.56131935119629, "y": 15.717818260192871, "z": 29.2546443939209 }, "pca_coordinates": { "x": 1.1398000717163086, "y": 0.33429813385009766, "z": -3.233485698699951 }, "axis_scores": { "Quantum imaging": 0.6883552074432373, "Quantum Life Science Sensing": 0.6991013288497925, "Quantum sensing Detection": 0.6691867709159851, "Quantum sensing Metrology": 0.674451470375061, "Quantum sensing navigation": 0.6842415928840637, "Quantum sensing Position": 0.6603299975395203, "Quantum sensing Timing": 0.6589241027832031, "Quantum sensing": 0.6833706498146057, "Quantum control": 0.6868295073509216 } }, { "id": 8015, "title": "Z/E-photoisomerizations of olefins with 4nπ- or (4n+2)π-electron substituents: Zigzag variations in olefin properties along the T1 state energy surfaces", "abstract": "A quantum chemical study has been performed to assess changes in aromaticity along the T-1 state Z/E-isomerization pathways of annulenyl-substituted olefins. It is argued that the point on the T-1 ene...", "citations": 17, "author_count": 7, "categories": [ "Chemistry" ], "year": 2005, "topic": [ "all" ], "embedding_index": 8024, "doi": "10.1021/jo051558y", "umap_coordinates": { "x": 391.89056396484375, "y": 136.20875549316406, "z": 205.70391845703125 }, "tsne_coordinates": { "x": -4.99990177154541, "y": -5.676990032196045, "z": -14.242349624633789 }, "pca_coordinates": { "x": -1.1695685386657715, "y": -0.5988969802856445, "z": -2.0644450187683105 }, "axis_scores": { "Quantum imaging": 0.6675166487693787, "Quantum Life Science Sensing": 0.6648560762405396, "Quantum sensing Detection": 0.6301138401031494, "Quantum sensing Metrology": 0.6263614296913147, "Quantum sensing navigation": 0.654848575592041, "Quantum sensing Position": 0.6336762309074402, "Quantum sensing Timing": 0.6524749994277954, "Quantum sensing": 0.6500672698020935, "Quantum control": 0.6575469970703125 } }, { "id": 8016, "title": "LOW-TEMPERATURE STRESS AND PHOTOPERIOD AFFECT AN INCREASED TOLERANCE TO PHOTOINHIBITION IN PINUS-BANKSIANA SEEDLINGS", "abstract": "The capacity to develop tolerance to photoinhibition of photosynthesis was assessed in jack pine seedlings (Pinus banksiana Lamb.). Photoinhibition induced at 5 degrees C in control jack pine seedling...", "citations": 131, "author_count": 7, "categories": [ "Plant Sciences" ], "year": 1995, "topic": [ "all" ], "embedding_index": 8025, "doi": "10.1139/b95-122", "umap_coordinates": { "x": 394.37005615234375, "y": 136.12783813476562, "z": 203.5938262939453 }, "tsne_coordinates": { "x": 12.14870834350586, "y": 34.574214935302734, "z": 14.107476234436035 }, "pca_coordinates": { "x": -0.8658452033996582, "y": 0.8095235824584961, "z": -0.48671388626098633 }, "axis_scores": { "Quantum imaging": 0.666903018951416, "Quantum Life Science Sensing": 0.6813765168190002, "Quantum sensing Detection": 0.6716620922088623, "Quantum sensing Metrology": 0.6581612825393677, "Quantum sensing navigation": 0.6586761474609375, "Quantum sensing Position": 0.6596342921257019, "Quantum sensing Timing": 0.6812700629234314, "Quantum sensing": 0.6825247406959534, "Quantum control": 0.695113480091095 } }, { "id": 8017, "title": "Radiative and nonradiative exciton lifetimes in GaN grown by molecular beam epitaxy", "abstract": "GaN epilayers grown by molecular-beam epitaxy (MBE) have been studied by temperature dependent time-resolved photoluminescence (PL). The PL decay times for free excitons and donor-bound excitons as we...", "citations": 6, "author_count": 6, "categories": [ "Physics" ], "year": 2001, "topic": [ "all" ], "embedding_index": 8026, "doi": "10.1002/1521-3951(200111)228:2<485::AID-PSSB485>3.3.CO;2-U", "umap_coordinates": { "x": 392.8022155761719, "y": 135.39405822753906, "z": 206.9765625 }, "tsne_coordinates": { "x": 32.364402770996094, "y": -1.2329437732696533, "z": 18.924190521240234 }, "pca_coordinates": { "x": -0.7260309457778931, "y": -0.5696649551391602, "z": 0.016737282276153564 }, "axis_scores": { "Quantum imaging": 0.6903879046440125, "Quantum Life Science Sensing": 0.7017045021057129, "Quantum sensing Detection": 0.6769744157791138, "Quantum sensing Metrology": 0.6716116666793823, "Quantum sensing navigation": 0.6802831888198853, "Quantum sensing Position": 0.6427962779998779, "Quantum sensing Timing": 0.6824344992637634, "Quantum sensing": 0.6921307444572449, "Quantum control": 0.6584869623184204 } }, { "id": 8018, "title": "OPTICAL SPECTROSCOPY OF INDIVIDUAL SILICON NANOCRYSTALS", "abstract": "The available data on photoluminescence (PL) spectroscopy of single Si nanocrystals (Si-nc) is reviewed for two types of samples: (i) Regular matrices of Si pillars produced by electron-beam lithograp...", "citations": 2, "author_count": 3, "categories": [ "Science & Technology - Other Topics" ], "year": 2009, "topic": [ "all" ], "embedding_index": 8027, "doi": null, "umap_coordinates": { "x": 391.69305419921875, "y": 139.1872100830078, "z": 209.641357421875 }, "tsne_coordinates": { "x": -7.632152080535889, "y": 42.71311950683594, "z": -9.372946739196777 }, "pca_coordinates": { "x": -2.0489392280578613, "y": 0.19962644577026367, "z": 0.274166464805603 }, "axis_scores": { "Quantum imaging": 0.7492755055427551, "Quantum Life Science Sensing": 0.7602154016494751, "Quantum sensing Detection": 0.7482911348342896, "Quantum sensing Metrology": 0.7460980415344238, "Quantum sensing navigation": 0.7214395999908447, "Quantum sensing Position": 0.7083972692489624, "Quantum sensing Timing": 0.6895192265510559, "Quantum sensing": 0.7560988664627075, "Quantum control": 0.7037159204483032 } }, { "id": 8019, "title": "Atomistic k . p theory", "abstract": "Pseudopotentials, tight-binding models, and k p theory have stood for many years as the standard techniques for computing electronic states in crystalline solids. Here, we present the first new method...", "citations": 13, "author_count": 3, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 8028, "doi": "10.1063/1.4936170", "umap_coordinates": { "x": 394.29302978515625, "y": 137.6753692626953, "z": 206.65130615234375 }, "tsne_coordinates": { "x": -14.504066467285156, "y": -8.997075080871582, "z": 29.502477645874023 }, "pca_coordinates": { "x": 2.7736687660217285, "y": 1.3476344347000122, "z": -1.9511873722076416 }, "axis_scores": { "Quantum imaging": 0.7588281035423279, "Quantum Life Science Sensing": 0.7676377296447754, "Quantum sensing Detection": 0.7514223456382751, "Quantum sensing Metrology": 0.73538738489151, "Quantum sensing navigation": 0.7469319105148315, "Quantum sensing Position": 0.7181704044342041, "Quantum sensing Timing": 0.6948482394218445, "Quantum sensing": 0.7731384634971619, "Quantum control": 0.7545878291130066 } }, { "id": 8020, "title": "INFLUENCE OF THE GAS SWITCHING SEQUENCE ON THE OPTICAL-PROPERTIES OF ULTRATHIN INGAAS/INP QUANTUM-WELLS", "abstract": "The optical properties of narrow quantum wells (QWs) and their dependence on the details in the gas switching procedure have been studied for the InGaAs/InP lattice matched system. Both energy and wid...", "citations": 29, "author_count": 4, "categories": [ "Crystallography" ], "year": 1991, "topic": [ "all" ], "embedding_index": 8029, "doi": "10.1016/0022-0248(91)90523-8", "umap_coordinates": { "x": 392.1700744628906, "y": 134.36509704589844, "z": 207.7486114501953 }, "tsne_coordinates": { "x": 26.196556091308594, "y": -12.546439170837402, "z": 6.105207443237305 }, "pca_coordinates": { "x": 0.06183934211730957, "y": -1.37562894821167, "z": 0.053690314292907715 }, "axis_scores": { "Quantum imaging": 0.6967023015022278, "Quantum Life Science Sensing": 0.7016860246658325, "Quantum sensing Detection": 0.6828873753547668, "Quantum sensing Metrology": 0.6779826283454895, "Quantum sensing navigation": 0.6880411505699158, "Quantum sensing Position": 0.6812905669212341, "Quantum sensing Timing": 0.6913700103759766, "Quantum sensing": 0.699546754360199, "Quantum control": 0.667800784111023 } }, { "id": 8021, "title": "Measurement Quench in Many-Body Systems", "abstract": "Measurement is one of the key concepts which discriminates classical and quantum physics. Unlike classical systems, a measurement on a quantum system typically alters it drastically as a result of wav...", "citations": 24, "author_count": 6, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 8030, "doi": "10.1103/PhysRevLett.121.030601", "umap_coordinates": { "x": 395.72784423828125, "y": 136.2359619140625, "z": 208.21766662597656 }, "tsne_coordinates": { "x": -26.063316345214844, "y": -18.43677520751953, "z": 2.0855116844177246 }, "pca_coordinates": { "x": 5.375106334686279, "y": 1.4182859659194946, "z": 0.6616682410240173 }, "axis_scores": { "Quantum imaging": 0.7714729309082031, "Quantum Life Science Sensing": 0.7897520065307617, "Quantum sensing Detection": 0.7904111742973328, "Quantum sensing Metrology": 0.7774794697761536, "Quantum sensing navigation": 0.7654616832733154, "Quantum sensing Position": 0.7764119505882263, "Quantum sensing Timing": 0.7681584358215332, "Quantum sensing": 0.7892340421676636, "Quantum control": 0.7577040791511536 } }, { "id": 8022, "title": "Symmetries and defects in three-dimensional topological field theory", "abstract": "Boundary conditions and defects of any codimension are natural parts of any quantum field theory. Surface defects in three-dimensional topological field theories of Turaev-Reshetikhin type have applic...", "citations": 3, "author_count": 3, "categories": [ "Mathematics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 8031, "doi": "10.1090/pspum/093/01564", "umap_coordinates": { "x": 394.913818359375, "y": 136.98594665527344, "z": 207.67198181152344 }, "tsne_coordinates": { "x": -21.542757034301758, "y": -9.317024230957031, "z": 26.497634887695312 }, "pca_coordinates": { "x": 2.927722454071045, "y": 1.6990528106689453, "z": 0.19432944059371948 }, "axis_scores": { "Quantum imaging": 0.7035951614379883, "Quantum Life Science Sensing": 0.6906311511993408, "Quantum sensing Detection": 0.6959263682365417, "Quantum sensing Metrology": 0.6956778168678284, "Quantum sensing navigation": 0.7197924852371216, "Quantum sensing Position": 0.7049958109855652, "Quantum sensing Timing": 0.6962852478027344, "Quantum sensing": 0.698840856552124, "Quantum control": 0.6894471049308777 } }, { "id": 8023, "title": "Radiative association rate constant for the formation of CO: the importance of the first excited 1Σ+ state", "abstract": "The thermal rate constant for production of carbon monoxide, in its electronic ground state, through radiative association of carbon (C) and oxygen (O) atoms is computed. A combination of quantum and ...", "citations": 16, "author_count": 3, "categories": [ "Astronomy & Astrophysics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 8032, "doi": "10.1093/mnras/stv089", "umap_coordinates": { "x": 393.68109130859375, "y": 137.26390075683594, "z": 206.47384643554688 }, "tsne_coordinates": { "x": -7.725409030914307, "y": 0.42234382033348083, "z": 22.11204719543457 }, "pca_coordinates": { "x": -0.4564041495323181, "y": 0.4608834981918335, "z": -1.5887718200683594 }, "axis_scores": { "Quantum imaging": 0.6247913837432861, "Quantum Life Science Sensing": 0.6774371862411499, "Quantum sensing Detection": 0.6606472134590149, "Quantum sensing Metrology": 0.6600764989852905, "Quantum sensing navigation": 0.6498029828071594, "Quantum sensing Position": 0.6477736234664917, "Quantum sensing Timing": 0.6586447954177856, "Quantum sensing": 0.6615874767303467, "Quantum control": 0.618148684501648 } }, { "id": 8024, "title": "Weak localization scattering lengths in epitaxial, and CVD graphene", "abstract": "Weak localization in graphene is studied as a function of carrier density in the range from 1 x 10(11) cm(-2) to 1.43 x 10(13) cm(-2) using devices produced by epitaxial growth onto SiC and CVD growth...", "citations": 67, "author_count": 12, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 8033, "doi": "10.1103/PhysRevB.86.235441", "umap_coordinates": { "x": 394.7828674316406, "y": 136.11573791503906, "z": 209.13059997558594 }, "tsne_coordinates": { "x": -6.923982620239258, "y": -38.81345748901367, "z": 5.4247941970825195 }, "pca_coordinates": { "x": 3.222909450531006, "y": -0.6316661834716797, "z": 0.9137017130851746 }, "axis_scores": { "Quantum imaging": 0.6960522532463074, "Quantum Life Science Sensing": 0.7146053910255432, "Quantum sensing Detection": 0.7035269141197205, "Quantum sensing Metrology": 0.6900856494903564, "Quantum sensing navigation": 0.7234010696411133, "Quantum sensing Position": 0.7042901515960693, "Quantum sensing Timing": 0.6727321147918701, "Quantum sensing": 0.7117037177085876, "Quantum control": 0.6592768430709839 } }, { "id": 8025, "title": "Secure quantum random number generation with perovskite photonics", "abstract": "In the field of cryptography, it is crucial that the random numbers used in key generation are not only genuinely random but also private, meaning that no other party than the legitimate user must hav...", "citations": 1, "author_count": 8, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 8034, "doi": "10.1117/12.2692061", "umap_coordinates": { "x": 394.7581481933594, "y": 134.2243194580078, "z": 206.55592346191406 }, "tsne_coordinates": { "x": -2.355969190597534, "y": 6.084941387176514, "z": -33.41802215576172 }, "pca_coordinates": { "x": 0.9528236389160156, "y": -0.36035776138305664, "z": 2.0991692543029785 }, "axis_scores": { "Quantum imaging": 0.7551292777061462, "Quantum Life Science Sensing": 0.739751935005188, "Quantum sensing Detection": 0.7527531981468201, "Quantum sensing Metrology": 0.7474105954170227, "Quantum sensing navigation": 0.7616758942604065, "Quantum sensing Position": 0.7288416624069214, "Quantum sensing Timing": 0.7331628799438477, "Quantum sensing": 0.7683400511741638, "Quantum control": 0.7509057521820068 } }, { "id": 8026, "title": "Excitations and spectra from equilibrium real-time Green?s functions", "abstract": "The real-time contour formalism for Green's functions provides time-dependent information of quantum many-body systems. In practice, the long-time simulation of systems with a wide range of energy sca...", "citations": 9, "author_count": 4, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 8035, "doi": "10.1103/PhysRevB.106.125153", "umap_coordinates": { "x": 394.9037170410156, "y": 137.52853393554688, "z": 207.94302368164062 }, "tsne_coordinates": { "x": -21.82979965209961, "y": -32.409000396728516, "z": 0.24468034505844116 }, "pca_coordinates": { "x": 3.566070556640625, "y": -0.08484506607055664, "z": -1.8542492389678955 }, "axis_scores": { "Quantum imaging": 0.6975042819976807, "Quantum Life Science Sensing": 0.7320023775100708, "Quantum sensing Detection": 0.7040244340896606, "Quantum sensing Metrology": 0.6840668320655823, "Quantum sensing navigation": 0.7045640349388123, "Quantum sensing Position": 0.682137131690979, "Quantum sensing Timing": 0.6960985660552979, "Quantum sensing": 0.7110648155212402, "Quantum control": 0.6857551336288452 } }, { "id": 8027, "title": "Opto-E-Dura: A Soft, Stretchable ECoG Array for Multimodal, Multiscale Neuroscience", "abstract": "Soft, stretchable materials hold great promise for the fabrication of biomedical devices due to their capacity to integrate gracefully with and conform to biological tissues. Conformal devices are of ...", "citations": 63, "author_count": 11, "categories": [ "Engineering" ], "year": 2020, "topic": [ "all" ], "embedding_index": 8036, "doi": "10.1002/adhm.202000814", "umap_coordinates": { "x": 393.823486328125, "y": 134.1152801513672, "z": 204.97006225585938 }, "tsne_coordinates": { "x": 5.148265838623047, "y": 24.23438262939453, "z": 1.1456538438796997 }, "pca_coordinates": { "x": -2.8482542037963867, "y": -0.07567262649536133, "z": 0.18211382627487183 }, "axis_scores": { "Quantum imaging": 0.7071912288665771, "Quantum Life Science Sensing": 0.7289106845855713, "Quantum sensing Detection": 0.6979542970657349, "Quantum sensing Metrology": 0.7055435180664062, "Quantum sensing navigation": 0.6983630657196045, "Quantum sensing Position": 0.6835489869117737, "Quantum sensing Timing": 0.6804547905921936, "Quantum sensing": 0.7199116945266724, "Quantum control": 0.6776978373527527 } }, { "id": 8028, "title": "Entanglement Probe of Two-Impurity Kondo Physics in a Spin Chain", "abstract": "We propose that real-space properties of the two-impurity Kondo model can be obtained from an effective spin model where two single-impurity Kondo spin chains are joined via an Ruderman-Kittel-Kasuya-...", "citations": 87, "author_count": 5, "categories": [ "Physics" ], "year": 2012, "topic": [ "all" ], "embedding_index": 8037, "doi": "10.1103/PhysRevLett.109.066403", "umap_coordinates": { "x": 395.33795166015625, "y": 136.22213745117188, "z": 208.24044799804688 }, "tsne_coordinates": { "x": -15.714836120605469, "y": -12.620889663696289, "z": 8.580910682678223 }, "pca_coordinates": { "x": 5.0089030265808105, "y": -0.1896829605102539, "z": 1.3633184432983398 }, "axis_scores": { "Quantum imaging": 0.7503734230995178, "Quantum Life Science Sensing": 0.7529017925262451, "Quantum sensing Detection": 0.7602819204330444, "Quantum sensing Metrology": 0.7129780054092407, "Quantum sensing navigation": 0.7478766441345215, "Quantum sensing Position": 0.7219327092170715, "Quantum sensing Timing": 0.707426130771637, "Quantum sensing": 0.7593581676483154, "Quantum control": 0.72032231092453 } }, { "id": 8029, "title": "Geometrical Magnetoresistance as a Tool for Carrier Mobility Extraction in InGaAs MOSFETs", "abstract": "In this work, we for the first time show that the geometrical magnetoresistance (gMR) effect is a powerful tool for extracting the carrier mobility in diffusive InGaAs near-surface quantum well MOSFET...", "citations": 2, "author_count": 3, "categories": [ "Engineering" ], "year": 2023, "topic": [ "all" ], "embedding_index": 8038, "doi": "10.1109/TED.2023.3318556", "umap_coordinates": { "x": 394.3406066894531, "y": 134.13919067382812, "z": 206.90890502929688 }, "tsne_coordinates": { "x": 22.283008575439453, "y": 19.697101593017578, "z": -18.111736297607422 }, "pca_coordinates": { "x": 0.5508235692977905, "y": 0.07556772232055664, "z": 1.2984957695007324 }, "axis_scores": { "Quantum imaging": 0.7102214694023132, "Quantum Life Science Sensing": 0.6983895301818848, "Quantum sensing Detection": 0.7037172317504883, "Quantum sensing Metrology": 0.7202818989753723, "Quantum sensing navigation": 0.7279822826385498, "Quantum sensing Position": 0.6945334672927856, "Quantum sensing Timing": 0.6918503642082214, "Quantum sensing": 0.7149995565414429, "Quantum control": 0.6756400465965271 } }, { "id": 8030, "title": "A comparison of through-the-objective total internal reflection microscopy and epifluorescence microscopy for single-molecule fluorescence Imaging", "abstract": "The design and characterization of a wide-field, through-the-objective, Total Internal Reflection (TIR) microscope which has the sensitivity required for characterizing single molecules under ambient ...", "citations": 81, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2001, "topic": [ "all" ], "embedding_index": 8039, "doi": "10.1002/1438-5171(200110)2:3<191::AID-SIMO191>3.0.CO;2-K", "umap_coordinates": { "x": 394.3998107910156, "y": 134.16302490234375, "z": 205.7232666015625 }, "tsne_coordinates": { "x": -7.001051902770996, "y": 13.753207206726074, "z": -1.011009931564331 }, "pca_coordinates": { "x": -2.8771491050720215, "y": 0.16506719589233398, "z": 0.711191713809967 }, "axis_scores": { "Quantum imaging": 0.7374923825263977, "Quantum Life Science Sensing": 0.7097444534301758, "Quantum sensing Detection": 0.6870309114456177, "Quantum sensing Metrology": 0.710243821144104, "Quantum sensing navigation": 0.6967430114746094, "Quantum sensing Position": 0.6515601277351379, "Quantum sensing Timing": 0.6658953428268433, "Quantum sensing": 0.7097644209861755, "Quantum control": 0.6730583310127258 } }, { "id": 8031, "title": "Generalized Holographic Principle, Gauge Invariance and the Emergence of Gravity a la Wilczek", "abstract": "We show that a generalized version of the holographic principle can be derived from the Hamiltonian description of information flow within a quantum system that maintains a separable state. We then sh...", "citations": 19, "author_count": 9, "categories": [ "Astronomy & Astrophysics" ], "year": 2021, "topic": [ "all" ], "embedding_index": 8040, "doi": "10.3389/fspas.2021.563450", "umap_coordinates": { "x": 395.0641784667969, "y": 137.3684844970703, "z": 205.94676208496094 }, "tsne_coordinates": { "x": -29.671289443969727, "y": -13.218992233276367, "z": 16.833009719848633 }, "pca_coordinates": { "x": 0.29427003860473633, "y": 3.6593847274780273, "z": -2.261566638946533 }, "axis_scores": { "Quantum imaging": 0.6832743883132935, "Quantum Life Science Sensing": 0.704344630241394, "Quantum sensing Detection": 0.6703206300735474, "Quantum sensing Metrology": 0.6693131327629089, "Quantum sensing navigation": 0.7069846987724304, "Quantum sensing Position": 0.6583979725837708, "Quantum sensing Timing": 0.660305917263031, "Quantum sensing": 0.6891887187957764, "Quantum control": 0.6941865682601929 } }, { "id": 8032, "title": "Evidence for the formation of quasibound states in an asymmetrical quantum point contact", "abstract": "Features below the first conductance plateau in ballistic quantum point contacts (QPCs) are often ascribed to electron interaction and spin effects within the single mode limit. In QPCs with a highly ...", "citations": 21, "author_count": 5, "categories": [ "Materials Science" ], "year": 2012, "topic": [ "all" ], "embedding_index": 8041, "doi": "10.1103/PhysRevB.85.085305", "umap_coordinates": { "x": 394.57928466796875, "y": 135.67813110351562, "z": 209.0527801513672 }, "tsne_coordinates": { "x": -0.884894847869873, "y": -40.39896774291992, "z": -2.8536577224731445 }, "pca_coordinates": { "x": 4.4947896003723145, "y": -0.6798996925354004, "z": 0.15499526262283325 }, "axis_scores": { "Quantum imaging": 0.7049661874771118, "Quantum Life Science Sensing": 0.705834150314331, "Quantum sensing Detection": 0.7112279534339905, "Quantum sensing Metrology": 0.6958666443824768, "Quantum sensing navigation": 0.709582507610321, "Quantum sensing Position": 0.7295065522193909, "Quantum sensing Timing": 0.6783382296562195, "Quantum sensing": 0.7169835567474365, "Quantum control": 0.6822246313095093 } }, { "id": 8033, "title": "Effect of copper oxide and zinc oxide nanoparticles on photosynthesis and physiology of Raphanus sativus L. under salinity stress", "abstract": "The study evaluates the impact of two metal oxide nanoparticles: copper oxide (CuO) and zinc oxide (ZnO) on the growth and physiology of Raphanus sativus L. (radish) under salinity stress. Fifteen day...", "citations": 61, "author_count": 9, "categories": [ "Plant Sciences" ], "year": 2024, "topic": [ "all" ], "embedding_index": 8042, "doi": "10.1016/j.plaphy.2023.108281", "umap_coordinates": { "x": 393.9316711425781, "y": 135.51589965820312, "z": 203.6768798828125 }, "tsne_coordinates": { "x": 16.037080764770508, "y": 31.198862075805664, "z": 9.631087303161621 }, "pca_coordinates": { "x": -4.497025966644287, "y": -0.3615143299102783, "z": -1.2654945850372314 }, "axis_scores": { "Quantum imaging": 0.7129619121551514, "Quantum Life Science Sensing": 0.7513682842254639, "Quantum sensing Detection": 0.7022140622138977, "Quantum sensing Metrology": 0.7008228898048401, "Quantum sensing navigation": 0.695701003074646, "Quantum sensing Position": 0.6921554803848267, "Quantum sensing Timing": 0.6678873896598816, "Quantum sensing": 0.7209574580192566, "Quantum control": 0.7045695185661316 } }, { "id": 8034, "title": "Somatostatin Containing δ-Cell Number Is Reduced in Type-2 Diabetes", "abstract": "Recent developments suggest that increased glucagon and decreased somatostatin secretion from the pancreas contribute to hyperglycaemia in type-2 diabetes (T2D) patients. There is a huge need to under...", "citations": 14, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 8043, "doi": "10.3390/ijms24043449", "umap_coordinates": { "x": 394.5572814941406, "y": 135.04949951171875, "z": 204.05181884765625 }, "tsne_coordinates": { "x": -3.6396918296813965, "y": 28.1342716217041, "z": 12.802998542785645 }, "pca_coordinates": { "x": -3.266116142272949, "y": 1.8362412452697754, "z": -0.805585503578186 }, "axis_scores": { "Quantum imaging": 0.6830518841743469, "Quantum Life Science Sensing": 0.7123618125915527, "Quantum sensing Detection": 0.692440390586853, "Quantum sensing Metrology": 0.6930667161941528, "Quantum sensing navigation": 0.6956522464752197, "Quantum sensing Position": 0.699219286441803, "Quantum sensing Timing": 0.6837934255599976, "Quantum sensing": 0.7029408812522888, "Quantum control": 0.659462571144104 } }, { "id": 8035, "title": "Dose- and time-dependent effects of triethylene glycol dimethacrylate on the proteome of human THP-1 monocytes", "abstract": "Triethylene glycol dimethacrylate (TEGDMA) is commonly used in polymer resin-based dental materials. This study investigated the molecular mechanisms of TEGDMA toxicity by identifying its time- and do...", "citations": 10, "author_count": 8, "categories": [ "Dentistry", "Oral Surgery & Medicine" ], "year": 2018, "topic": [ "all" ], "embedding_index": 8044, "doi": "10.1111/eos.12559", "umap_coordinates": { "x": 394.56549072265625, "y": 134.93516540527344, "z": 204.1670379638672 }, "tsne_coordinates": { "x": 17.466367721557617, "y": 29.55813217163086, "z": 0.5558650493621826 }, "pca_coordinates": { "x": -3.118295431137085, "y": 1.5216307640075684, "z": -1.4457118511199951 }, "axis_scores": { "Quantum imaging": 0.6928367614746094, "Quantum Life Science Sensing": 0.7268193364143372, "Quantum sensing Detection": 0.6919183135032654, "Quantum sensing Metrology": 0.6937016248703003, "Quantum sensing navigation": 0.6630003452301025, "Quantum sensing Position": 0.6676092147827148, "Quantum sensing Timing": 0.6866830587387085, "Quantum sensing": 0.7033094763755798, "Quantum control": 0.6708166599273682 } }, { "id": 8036, "title": "Observation of the 1S-2S transition in trapped antihydrogen", "abstract": "The spectrum of the hydrogen atom has played a central part in fundamental physics over the past 200 years. Historical examples of its importance include the wavelength measurements of absorption line...", "citations": 144, "author_count": 55, "categories": [ "Science & Technology - Other Topics" ], "year": 2017, "topic": [ "all" ], "embedding_index": 8045, "doi": "10.1038/nature21040", "umap_coordinates": { "x": 394.036376953125, "y": 136.09068298339844, "z": 207.2807159423828 }, "tsne_coordinates": { "x": -22.979219436645508, "y": -19.173648834228516, "z": -21.740747451782227 }, "pca_coordinates": { "x": 1.4991936683654785, "y": -0.6122679710388184, "z": -1.4877126216888428 }, "axis_scores": { "Quantum imaging": 0.7038114070892334, "Quantum Life Science Sensing": 0.7428672313690186, "Quantum sensing Detection": 0.7193601727485657, "Quantum sensing Metrology": 0.6919849514961243, "Quantum sensing navigation": 0.7211829423904419, "Quantum sensing Position": 0.7148926854133606, "Quantum sensing Timing": 0.7228121161460876, "Quantum sensing": 0.7214869260787964, "Quantum control": 0.6758955121040344 } }, { "id": 8037, "title": "Oxidative Folding in Chloroplasts", "abstract": "Significance: Disulfide-bonded proteins in chloroplasts from green plants exist in the envelope and the thylakoid membrane, and in the stroma and the lumen. The formation of disulfide bonds in protein...", "citations": 30, "author_count": 2, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2013, "topic": [ "all" ], "embedding_index": 8046, "doi": "10.1089/ars.2012.4582", "umap_coordinates": { "x": 394.1670837402344, "y": 136.5717315673828, "z": 203.515380859375 }, "tsne_coordinates": { "x": 8.530970573425293, "y": 38.444156646728516, "z": 5.872024059295654 }, "pca_coordinates": { "x": -0.8941628336906433, "y": 1.452775478363037, "z": -2.0990841388702393 }, "axis_scores": { "Quantum imaging": 0.6970286965370178, "Quantum Life Science Sensing": 0.7465136647224426, "Quantum sensing Detection": 0.6880708932876587, "Quantum sensing Metrology": 0.6668932437896729, "Quantum sensing navigation": 0.6751204133033752, "Quantum sensing Position": 0.6487045884132385, "Quantum sensing Timing": 0.668369710445404, "Quantum sensing": 0.6977330446243286, "Quantum control": 0.662278413772583 } }, { "id": 8038, "title": "A new mass conservation approach to the study of CO2 advection in an alpine forest", "abstract": "A new method is proposed for the computation of CO2 Net Ecosystem Exchange (NEE) and its components in a forest ecosystem. Advective flux is estimated by taking into account the air mass conservation ...", "citations": 83, "author_count": 17, "categories": [ "Meteorology & Atmospheric Sciences" ], "year": 2009, "topic": [ "all" ], "embedding_index": 8047, "doi": "10.1029/2008JD010650", "umap_coordinates": { "x": 394.5110168457031, "y": 135.98414611816406, "z": 204.4635009765625 }, "tsne_coordinates": { "x": 17.518402099609375, "y": 40.32162094116211, "z": 2.9805166721343994 }, "pca_coordinates": { "x": -2.3802924156188965, "y": 1.9370025396347046, "z": -1.760098934173584 }, "axis_scores": { "Quantum imaging": 0.6078352928161621, "Quantum Life Science Sensing": 0.6390261054039001, "Quantum sensing Detection": 0.602846086025238, "Quantum sensing Metrology": 0.6051170825958252, "Quantum sensing navigation": 0.6279089450836182, "Quantum sensing Position": 0.6008059978485107, "Quantum sensing Timing": 0.5680384635925293, "Quantum sensing": 0.6079065799713135, "Quantum control": 0.6323245167732239 } }, { "id": 8039, "title": "Voxel-Based Correlation between Coregistered Single-Photon Emission Computed Tomography and Dynamic Susceptibility Contrast Magnetic Resonance Imaging in Subjects with Suspected Alzheimer Disease", "abstract": "Background: Current diagnosis of Alzheimer disease is made by clinical, neuropsychologic, and neuroimaging assessments. Neuroimaging techniques such as magnetic resonance imaging (MRI) and single-phot...", "citations": 13, "author_count": 9, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2008, "topic": [ "all" ], "embedding_index": 8048, "doi": "10.1080/02841850802438512", "umap_coordinates": { "x": 395.16595458984375, "y": 133.73582458496094, "z": 204.9621124267578 }, "tsne_coordinates": { "x": -6.212725639343262, "y": 30.687053680419922, "z": 1.7422690391540527 }, "pca_coordinates": { "x": -2.343616247177124, "y": 1.3861186504364014, "z": 2.7279863357543945 }, "axis_scores": { "Quantum imaging": 0.6806502342224121, "Quantum Life Science Sensing": 0.6668654084205627, "Quantum sensing Detection": 0.6578585505485535, "Quantum sensing Metrology": 0.6470609903335571, "Quantum sensing navigation": 0.6699716448783875, "Quantum sensing Position": 0.6562684178352356, "Quantum sensing Timing": 0.6594835519790649, "Quantum sensing": 0.6518858671188354, "Quantum control": 0.6175631284713745 } }, { "id": 8040, "title": "Quantum Hall hierarchy in a spherical geometry", "abstract": "Representative wave functions, which encode the topological properties of the spin polarized fractional quantum Hall states in the lowest Landau level, can be expressed in terms of correlation functio...", "citations": 17, "author_count": 2, "categories": [ "Materials Science" ], "year": 2013, "topic": [ "all" ], "embedding_index": 8049, "doi": "10.1103/PhysRevB.87.195131", "umap_coordinates": { "x": 394.56890869140625, "y": 136.99229431152344, "z": 208.7814178466797 }, "tsne_coordinates": { "x": -15.986730575561523, "y": -33.25770950317383, "z": 9.9224853515625 }, "pca_coordinates": { "x": 5.308075428009033, "y": 0.8714005947113037, "z": -1.4531933069229126 }, "axis_scores": { "Quantum imaging": 0.7262763977050781, "Quantum Life Science Sensing": 0.7367096543312073, "Quantum sensing Detection": 0.7324849963188171, "Quantum sensing Metrology": 0.725588858127594, "Quantum sensing navigation": 0.7594333291053772, "Quantum sensing Position": 0.7221062183380127, "Quantum sensing Timing": 0.688025951385498, "Quantum sensing": 0.7438635230064392, "Quantum control": 0.705427885055542 } }, { "id": 8041, "title": "Growth selectivity control of InAs shells on crystal phase engineered GaAs nanowires", "abstract": "In this work we demonstrate a two-fold selectivity control of InAs shells grown on crystal phase and morphology engineered GaAs nanowire (NW) core templates. This selectivity occurs driven by differen...", "citations": 6, "author_count": 5, "categories": [ "Chemistry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 8050, "doi": "10.1039/d2na00109h", "umap_coordinates": { "x": 392.0558776855469, "y": 133.86427307128906, "z": 207.0121307373047 }, "tsne_coordinates": { "x": 20.859777450561523, "y": -13.635284423828125, "z": -6.08296537399292 }, "pca_coordinates": { "x": -0.7443356513977051, "y": -3.8029770851135254, "z": -1.1308906078338623 }, "axis_scores": { "Quantum imaging": 0.709418773651123, "Quantum Life Science Sensing": 0.7131878137588501, "Quantum sensing Detection": 0.7160341143608093, "Quantum sensing Metrology": 0.7039392590522766, "Quantum sensing navigation": 0.7268428802490234, "Quantum sensing Position": 0.6897032260894775, "Quantum sensing Timing": 0.6614609956741333, "Quantum sensing": 0.7233451008796692, "Quantum control": 0.7129762172698975 } }, { "id": 8042, "title": "Bio-acceptable 0D and 1D ZnO nanostructures for cancer diagnostics and treatment", "abstract": "As bioapplications of 0D and 1D zinc oxide (ZnO) seem a recent development, they have brought many exciting proposals showing exquisite signs as sensors and assay platforms offering biomolecular selec...", "citations": 125, "author_count": 13, "categories": [ "Materials Science" ], "year": 2021, "topic": [ "all" ], "embedding_index": 8051, "doi": "10.1016/j.mattod.2021.07.025This", "umap_coordinates": { "x": 393.6171875, "y": 133.98605346679688, "z": 204.3644561767578 }, "tsne_coordinates": { "x": 16.57225227355957, "y": 22.452024459838867, "z": -2.860220432281494 }, "pca_coordinates": { "x": -4.049939155578613, "y": -0.8196783065795898, "z": -0.8670404553413391 }, "axis_scores": { "Quantum imaging": 0.7212743759155273, "Quantum Life Science Sensing": 0.7764554023742676, "Quantum sensing Detection": 0.719697892665863, "Quantum sensing Metrology": 0.7343618869781494, "Quantum sensing navigation": 0.7099728584289551, "Quantum sensing Position": 0.6941816806793213, "Quantum sensing Timing": 0.6718948483467102, "Quantum sensing": 0.7276779413223267, "Quantum control": 0.6955910325050354 } }, { "id": 8043, "title": "Soft and flexible material-based affinity sensors", "abstract": "Recent advances in biosensors and point-of-care (PoC) devices are poised to change and expand the delivery of diagnostics from conventional lateral-flow assays and test strips that dominate the market...", "citations": 75, "author_count": 4, "categories": [ "Biotechnology & Applied Microbiology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 8052, "doi": "10.1016/j.biotechadv.2019.05.004", "umap_coordinates": { "x": 393.4164733886719, "y": 134.29302978515625, "z": 203.9879150390625 }, "tsne_coordinates": { "x": 20.943124771118164, "y": 23.68463897705078, "z": -9.687138557434082 }, "pca_coordinates": { "x": -4.449225902557373, "y": -0.6966691017150879, "z": -0.4039711356163025 }, "axis_scores": { "Quantum imaging": 0.7116096615791321, "Quantum Life Science Sensing": 0.74820476770401, "Quantum sensing Detection": 0.7241120934486389, "Quantum sensing Metrology": 0.7205796241760254, "Quantum sensing navigation": 0.6972330212593079, "Quantum sensing Position": 0.7162284851074219, "Quantum sensing Timing": 0.6782608032226562, "Quantum sensing": 0.7400854825973511, "Quantum control": 0.6798354983329773 } }, { "id": 8044, "title": "ESTIMATION OF THE EFFECT OF PHOTOINHIBITION ON THE CARBON GAIN IN LEAVES OF A WILLOW CANOPY", "abstract": "The occurrence of photoinhibition of photosynthesis in leaves of a willow canopy was examined by measuring the chlorophyll-a fluorescence ratio of FV/FM (FM is the maximum fluorescence level of the in...", "citations": 165, "author_count": 3, "categories": [ "Plant Sciences" ], "year": 1990, "topic": [ "all" ], "embedding_index": 8053, "doi": "10.1007/BF00193011", "umap_coordinates": { "x": 394.56134033203125, "y": 136.34095764160156, "z": 203.76107788085938 }, "tsne_coordinates": { "x": 7.043320655822754, "y": 30.18213653564453, "z": 9.415736198425293 }, "pca_coordinates": { "x": -2.698507785797119, "y": 2.3385560512542725, "z": 0.03702390193939209 }, "axis_scores": { "Quantum imaging": 0.6433624625205994, "Quantum Life Science Sensing": 0.6839420795440674, "Quantum sensing Detection": 0.6517466902732849, "Quantum sensing Metrology": 0.6545118689537048, "Quantum sensing navigation": 0.6341475248336792, "Quantum sensing Position": 0.6442015767097473, "Quantum sensing Timing": 0.6193511486053467, "Quantum sensing": 0.660862386226654, "Quantum control": 0.6457380056381226 } }, { "id": 8045, "title": "Tracer or toxicant: Does stable isotope labeling affect central processes in aquatic food webs?", "abstract": "Stable isotope analysis (SIA) is an elementary technique in food web ecology, but its insights become increasingly ambiguous in complex systems. One approach to elevate the utility of SIA in such syst...", "citations": 2, "author_count": 6, "categories": [ "Marine & Freshwater Biology" ], "year": 2023, "topic": [ "all" ], "embedding_index": 8054, "doi": "10.1016/j.aquatox.2023.106542", "umap_coordinates": { "x": 393.85748291015625, "y": 135.510986328125, "z": 203.84027099609375 }, "tsne_coordinates": { "x": 10.982795715332031, "y": 23.721893310546875, "z": 14.041383743286133 }, "pca_coordinates": { "x": -2.9866108894348145, "y": 3.4140524864196777, "z": -2.398963451385498 }, "axis_scores": { "Quantum imaging": 0.6969717144966125, "Quantum Life Science Sensing": 0.733151376247406, "Quantum sensing Detection": 0.7045745253562927, "Quantum sensing Metrology": 0.690625011920929, "Quantum sensing navigation": 0.7280282974243164, "Quantum sensing Position": 0.7025288343429565, "Quantum sensing Timing": 0.6792335510253906, "Quantum sensing": 0.7158471941947937, "Quantum control": 0.7111750245094299 } }, { "id": 8046, "title": "Outer-shell photodetachment of the metastable Be- 1s22s2p2 4Pe state - art. no. 012702", "abstract": "We report calculated photodetachment cross sections from the metastable Be- 1s(2)2s2p(2) P-4(e) state in the photon energy range 0-10 eV. Outer-shell photodetachment takes place in this energy range, ...", "citations": 5, "author_count": 3, "categories": [ "Optics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 8055, "doi": "10.1103/PhysRevA.68.012702", "umap_coordinates": { "x": 394.8912658691406, "y": 135.4970245361328, "z": 207.1627960205078 }, "tsne_coordinates": { "x": 0.04261966049671173, "y": -6.787994861602783, "z": -1.5783302783966064 }, "pca_coordinates": { "x": 1.8655200004577637, "y": -0.7590041160583496, "z": -0.5400557518005371 }, "axis_scores": { "Quantum imaging": 0.6726427674293518, "Quantum Life Science Sensing": 0.7072560787200928, "Quantum sensing Detection": 0.6821668148040771, "Quantum sensing Metrology": 0.6618756055831909, "Quantum sensing navigation": 0.6704773306846619, "Quantum sensing Position": 0.6713822484016418, "Quantum sensing Timing": 0.658014178276062, "Quantum sensing": 0.6805123090744019, "Quantum control": 0.6540939807891846 } }, { "id": 8047, "title": "Conformational transitions monitored for single molecules in solution", "abstract": "Phenomena that fan he observed for a large number of molecules may not be understood if it is not possible to observe the events On the single-molecule level, We measured the fluorescence lifetimes of...", "citations": 309, "author_count": 4, "categories": [ "Science & Technology - Other Topics" ], "year": 1996, "topic": [ "all" ], "embedding_index": 8056, "doi": "10.1073/pnas.93.13.6710", "umap_coordinates": { "x": 394.1040344238281, "y": 135.08779907226562, "z": 207.22315979003906 }, "tsne_coordinates": { "x": 10.205087661743164, "y": -24.806581497192383, "z": 20.36934471130371 }, "pca_coordinates": { "x": 0.708910346031189, "y": -1.3914556503295898, "z": -1.9771742820739746 }, "axis_scores": { "Quantum imaging": 0.680360734462738, "Quantum Life Science Sensing": 0.7391603589057922, "Quantum sensing Detection": 0.6960983872413635, "Quantum sensing Metrology": 0.6968460083007812, "Quantum sensing navigation": 0.6817834377288818, "Quantum sensing Position": 0.6741485595703125, "Quantum sensing Timing": 0.6753785610198975, "Quantum sensing": 0.7078357934951782, "Quantum control": 0.6632612347602844 } }, { "id": 8048, "title": "Drought stress recovery of hydraulic and photochemical processes in Neotropical tree saplings", "abstract": "Climate models predict an increase in the severity and the frequency of droughts. Tropical forests are among the ecosystems that could be highly impacted by these droughts. Here, we explore how hydrau...", "citations": 11, "author_count": 10, "categories": [ "Forestry" ], "year": 2022, "topic": [ "all" ], "embedding_index": 8057, "doi": "10.1093/treephys/tpab092", "umap_coordinates": { "x": 394.32965087890625, "y": 136.4204559326172, "z": 203.95291137695312 }, "tsne_coordinates": { "x": 10.477278709411621, "y": 38.87422180175781, "z": 10.007242202758789 }, "pca_coordinates": { "x": -0.051706671714782715, "y": 1.8039007186889648, "z": -1.031453013420105 }, "axis_scores": { "Quantum imaging": 0.6670721173286438, "Quantum Life Science Sensing": 0.707545280456543, "Quantum sensing Detection": 0.6601536273956299, "Quantum sensing Metrology": 0.6528480648994446, "Quantum sensing navigation": 0.6673251390457153, "Quantum sensing Position": 0.6396020650863647, "Quantum sensing Timing": 0.6844229698181152, "Quantum sensing": 0.672505259513855, "Quantum control": 0.6503421068191528 } }, { "id": 8049, "title": "Two-dimensional cavity polaritons under the influence of the perpendicular strong magnetic and electric fields. The gyrotropy effects", "abstract": "The properties of the two-dimensional cavity polaritons subjected to the action of a strong perpendicular magnetic and electric fields, giving rise to the Landau quantization (LQ) of the 2D electrons ...", "citations": 3, "author_count": 5, "categories": [ "Physics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 8058, "doi": "10.1016/j.ssc.2015.08.027", "umap_coordinates": { "x": 392.9498596191406, "y": 134.99407958984375, "z": 206.74606323242188 }, "tsne_coordinates": { "x": 15.53799819946289, "y": -24.330650329589844, "z": 11.180144309997559 }, "pca_coordinates": { "x": -1.3134716749191284, "y": -1.171623945236206, "z": -1.3480528593063354 }, "axis_scores": { "Quantum imaging": 0.7282311916351318, "Quantum Life Science Sensing": 0.7122475504875183, "Quantum sensing Detection": 0.7093474268913269, "Quantum sensing Metrology": 0.7030918598175049, "Quantum sensing navigation": 0.7082220315933228, "Quantum sensing Position": 0.6886500120162964, "Quantum sensing Timing": 0.6625498533248901, "Quantum sensing": 0.7226895689964294, "Quantum control": 0.7089349031448364 } }, { "id": 8050, "title": "Seasonal variation of photosynthetic model parameters and leaf area index from global Fluxnet eddy covariance data", "abstract": "Global vegetation models require the photosynthetic parameters, maximum carboxylation capacity (V-cm), and quantum yield (alpha) to parameterize their plant functional types (PFTs). The purpose of thi...", "citations": 49, "author_count": 22, "categories": [ "Environmental Sciences & Ecology" ], "year": 2011, "topic": [ "all" ], "embedding_index": 8059, "doi": "10.1029/2011JG001742", "umap_coordinates": { "x": 394.2386779785156, "y": 136.48081970214844, "z": 203.6422119140625 }, "tsne_coordinates": { "x": 12.794852256774902, "y": 38.628971099853516, "z": 7.744585990905762 }, "pca_coordinates": { "x": -1.6284599304199219, "y": -0.2242298126220703, "z": -0.8227139711380005 }, "axis_scores": { "Quantum imaging": 0.6443536877632141, "Quantum Life Science Sensing": 0.6849607825279236, "Quantum sensing Detection": 0.6313125491142273, "Quantum sensing Metrology": 0.6414666771888733, "Quantum sensing navigation": 0.6593020558357239, "Quantum sensing Position": 0.626020610332489, "Quantum sensing Timing": 0.6233035326004028, "Quantum sensing": 0.6511098146438599, "Quantum control": 0.6450824737548828 } }, { "id": 8051, "title": "PREPARATION OF SUBMICRON DRUG PARTICLES IN LECITHIN-STABILIZED O/W EMULSIONS .2. CHARACTERIZATION OF CHOLESTERYL ACETATE PARTICLES", "abstract": "Submicron particles of a model drug, viz., cholesteryl acetate (CA), have been characterized. The particles were prepared by precipitation of CA in the dispersed phase of an o/w emulsion stabilized by...", "citations": 17, "author_count": 4, "categories": [ "Pharmacology & Pharmacy" ], "year": 1993, "topic": [ "all" ], "embedding_index": 8060, "doi": "10.1016/0378-5173(93)90013-6", "umap_coordinates": { "x": 393.25274658203125, "y": 134.56985473632812, "z": 204.60159301757812 }, "tsne_coordinates": { "x": 8.7357816696167, "y": 22.46025276184082, "z": 7.649157524108887 }, "pca_coordinates": { "x": -4.050285816192627, "y": 0.711504340171814, "z": -2.1349191665649414 }, "axis_scores": { "Quantum imaging": 0.6142650842666626, "Quantum Life Science Sensing": 0.6456006169319153, "Quantum sensing Detection": 0.5875643491744995, "Quantum sensing Metrology": 0.6055327653884888, "Quantum sensing navigation": 0.6038225293159485, "Quantum sensing Position": 0.6154816150665283, "Quantum sensing Timing": 0.5755536556243896, "Quantum sensing": 0.6076880097389221, "Quantum control": 0.6092996597290039 } }, { "id": 8052, "title": "Edge Majoranas on locally flat surfaces: The cone and the Mobius band", "abstract": "In this paper, we investigate the edge Majorana modes in the simplest possible p(x) + ip(y) superconductor defined on surfaces with different geometries, the annulus, the cylinder, the Mobius band, an...", "citations": 16, "author_count": 5, "categories": [ "Materials Science" ], "year": 2016, "topic": [ "all" ], "embedding_index": 8061, "doi": "10.1103/PhysRevB.94.125137", "umap_coordinates": { "x": 394.0543212890625, "y": 136.6876678466797, "z": 208.4419708251953 }, "tsne_coordinates": { "x": -5.512840747833252, "y": -28.752059936523438, "z": 11.87398624420166 }, "pca_coordinates": { "x": 1.661412000656128, "y": 0.47927236557006836, "z": -1.5362790822982788 }, "axis_scores": { "Quantum imaging": 0.7037684917449951, "Quantum Life Science Sensing": 0.6944180130958557, "Quantum sensing Detection": 0.6969026923179626, "Quantum sensing Metrology": 0.684683084487915, "Quantum sensing navigation": 0.6989172101020813, "Quantum sensing Position": 0.6677438020706177, "Quantum sensing Timing": 0.6398531198501587, "Quantum sensing": 0.6969936490058899, "Quantum control": 0.6805684566497803 } }, { "id": 8053, "title": "Tunable nonlinear current-voltage characteristics of three-terminal ballistic nanojunctions", "abstract": "The current-voltage (I-V) characteristics of three-terminal ballistic junctions (TBJs) fabricated from high-electron-mobility GaInAs/InP quantum-well structures are measured in the six-terminal config...", "citations": 35, "author_count": 5, "categories": [ "Physics" ], "year": 2003, "topic": [ "all" ], "embedding_index": 8062, "doi": "10.1063/1.1605822", "umap_coordinates": { "x": 393.76220703125, "y": 134.0715789794922, "z": 208.19598388671875 }, "tsne_coordinates": { "x": 27.07493019104004, "y": -26.73265266418457, "z": 13.713227272033691 }, "pca_coordinates": { "x": 1.7794549465179443, "y": -3.5284008979797363, "z": 0.9738754630088806 }, "axis_scores": { "Quantum imaging": 0.7263023853302002, "Quantum Life Science Sensing": 0.7432341575622559, "Quantum sensing Detection": 0.7304916381835938, "Quantum sensing Metrology": 0.7195003032684326, "Quantum sensing navigation": 0.7264576554298401, "Quantum sensing Position": 0.6969670653343201, "Quantum sensing Timing": 0.6710092425346375, "Quantum sensing": 0.7439228296279907, "Quantum control": 0.7199954390525818 } }, { "id": 8054, "title": "Subdiffusive Thouless time scaling in the Anderson model on random regular graphs", "abstract": "The scaling of the Thouless time with system size is of fundamental importance to characterize dynamical properties in quantum systems. In this work, we study the scaling of the Thouless time in the A...", "citations": 24, "author_count": 5, "categories": [ "Materials Science" ], "year": 2022, "topic": [ "all" ], "embedding_index": 8063, "doi": "10.1103/PhysRevB.105.174207", "umap_coordinates": { "x": 394.188720703125, "y": 137.00802612304688, "z": 208.5808563232422 }, "tsne_coordinates": { "x": -8.631954193115234, "y": -28.982479095458984, "z": 9.604557037353516 }, "pca_coordinates": { "x": 3.9973769187927246, "y": 0.33784008026123047, "z": -0.9387067556381226 }, "axis_scores": { "Quantum imaging": 0.6765013933181763, "Quantum Life Science Sensing": 0.7084687352180481, "Quantum sensing Detection": 0.6794854402542114, "Quantum sensing Metrology": 0.665536105632782, "Quantum sensing navigation": 0.6810644268989563, "Quantum sensing Position": 0.6562825441360474, "Quantum sensing Timing": 0.6964185833930969, "Quantum sensing": 0.6890453696250916, "Quantum control": 0.6788420677185059 } }, { "id": 8055, "title": "Improved many-body expansions from eigenvector continuation", "abstract": "Quantum many-body theory has witnessed tremendous progress in various fields, ranging from atomic and solid-state physics to quantum chemistry and nuclear structure. Due to the inherent computational ...", "citations": 50, "author_count": 11, "categories": [ "Physics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 8064, "doi": "10.1103/PhysRevC.101.041302", "umap_coordinates": { "x": 394.81549072265625, "y": 137.45790100097656, "z": 207.97853088378906 }, "tsne_coordinates": { "x": -24.475217819213867, "y": -33.39400100708008, "z": 1.0032529830932617 }, "pca_coordinates": { "x": 2.439358711242676, "y": 1.1510441303253174, "z": 0.23139876127243042 }, "axis_scores": { "Quantum imaging": 0.6663902997970581, "Quantum Life Science Sensing": 0.657073438167572, "Quantum sensing Detection": 0.6548858284950256, "Quantum sensing Metrology": 0.6486843228340149, "Quantum sensing navigation": 0.6697671413421631, "Quantum sensing Position": 0.6492839455604553, "Quantum sensing Timing": 0.6387797594070435, "Quantum sensing": 0.6632812023162842, "Quantum control": 0.6568179130554199 } }, { "id": 8056, "title": "Towards ab initio Calculations with the Dynamical Vertex Approximation", "abstract": "While key effects of the many-body problem-such as Kondo and Mott physics-can be understood in terms of onsite correlations, non-local fluctuations of charge, spin, and pairing amplitudes are at the h...", "citations": 24, "author_count": 8, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 8065, "doi": "10.7566/JPSJ.87.041004", "umap_coordinates": { "x": 393.7352294921875, "y": 137.56292724609375, "z": 206.916015625 }, "tsne_coordinates": { "x": -16.502288818359375, "y": 0.5877265334129333, "z": 27.095815658569336 }, "pca_coordinates": { "x": 2.085270881652832, "y": 1.3188334703445435, "z": -0.0059493184089660645 }, "axis_scores": { "Quantum imaging": 0.6600850820541382, "Quantum Life Science Sensing": 0.6466787457466125, "Quantum sensing Detection": 0.6506780385971069, "Quantum sensing Metrology": 0.6387028098106384, "Quantum sensing navigation": 0.6893772482872009, "Quantum sensing Position": 0.6862662434577942, "Quantum sensing Timing": 0.6612497568130493, "Quantum sensing": 0.6636562943458557, "Quantum control": 0.6725562810897827 } }, { "id": 8057, "title": "Extended Lagrangian Born-Oppenheimer molecular dynamics in the limit of vanishing self-consistent field optimization", "abstract": "We present an efficient general approach to first principles molecular dynamics simulations based on extended Lagrangian Born-Oppenheimer molecular dynamics [A. M. N. Niklasson, Phys. Rev. Lett. 100, ...", "citations": 16, "author_count": 3, "categories": [ "Chemistry" ], "year": 2013, "topic": [ "all" ], "embedding_index": 8066, "doi": "10.1063/1.4834015", "umap_coordinates": { "x": 393.8601989746094, "y": 137.81289672851562, "z": 207.40086364746094 }, "tsne_coordinates": { "x": -24.641672134399414, "y": 2.065427303314209, "z": 24.87874984741211 }, "pca_coordinates": { "x": 2.6737747192382812, "y": 1.5007174015045166, "z": -2.1758930683135986 }, "axis_scores": { "Quantum imaging": 0.7144474983215332, "Quantum Life Science Sensing": 0.7042868137359619, "Quantum sensing Detection": 0.6816636919975281, "Quantum sensing Metrology": 0.6674512624740601, "Quantum sensing navigation": 0.7074226140975952, "Quantum sensing Position": 0.6705862283706665, "Quantum sensing Timing": 0.6325882077217102, "Quantum sensing": 0.6886106729507446, "Quantum control": 0.7068924903869629 } }, { "id": 8058, "title": "TIME-RESOLVED SPECTROSCOPIC STUDIES OF THE 7P 2P STATES OF NEUTRAL SILVER FOLLOWING VUV EXCITATION", "abstract": "The radiative lifetimes of the 7 p2P3/2, 1/2 states of silver and the hyperfine structure of the 7 p2P3/2 state have been measured using pulsed laser excitation and direct observation of the induced f...", "citations": 9, "author_count": 5, "categories": [ "Physics" ], "year": 1991, "topic": [ "all" ], "embedding_index": 8067, "doi": "10.1007/BF01438570", "umap_coordinates": { "x": 393.0251770019531, "y": 135.4812469482422, "z": 205.55455017089844 }, "tsne_coordinates": { "x": 15.741719245910645, "y": 5.766950607299805, "z": 11.911499977111816 }, "pca_coordinates": { "x": -1.4246764183044434, "y": -1.4335973262786865, "z": -0.5213380455970764 }, "axis_scores": { "Quantum imaging": 0.6758792996406555, "Quantum Life Science Sensing": 0.69505774974823, "Quantum sensing Detection": 0.6664096713066101, "Quantum sensing Metrology": 0.6503652930259705, "Quantum sensing navigation": 0.6733111143112183, "Quantum sensing Position": 0.671301007270813, "Quantum sensing Timing": 0.6718528270721436, "Quantum sensing": 0.6697517037391663, "Quantum control": 0.6333937644958496 } }, { "id": 8059, "title": "Accuracy of 131I tumor quantification in radioimmunotherapy using SPECT imaging with an ultra-high-energy collimator:: Monte Carlo study", "abstract": "Accuracy of I-131 tumor quantification after radioimmunotherapy (RIT) was investigated for SPECT imaging with an ultra-high-energy (UHE) collimator designed for imaging 511-keV photons, Methods: First...", "citations": 42, "author_count": 4, "categories": [ "Radiology", "Nuclear Medicine & Medical Imaging" ], "year": 2000, "topic": [ "all" ], "embedding_index": 8068, "doi": null, "umap_coordinates": { "x": 391.3608703613281, "y": 139.35943603515625, "z": 209.6075897216797 }, "tsne_coordinates": { "x": 1.971817970275879, "y": 37.305267333984375, "z": -9.993328094482422 }, "pca_coordinates": { "x": -2.9136972427368164, "y": 3.9825501441955566, "z": 0.5592872500419617 }, "axis_scores": { "Quantum imaging": 0.740161657333374, "Quantum Life Science Sensing": 0.7184974551200867, "Quantum sensing Detection": 0.7082782983779907, "Quantum sensing Metrology": 0.7108455300331116, "Quantum sensing navigation": 0.7302812933921814, "Quantum sensing Position": 0.6962395906448364, "Quantum sensing Timing": 0.6928021311759949, "Quantum sensing": 0.7139319777488708, "Quantum control": 0.6924303770065308 } }, { "id": 8060, "title": "NanoXCT: development of a laboratory nano-CT system", "abstract": "The NanoXCT project aims at developing a laboratory nano-CT system for non-destructive testing applications in the micro-and nano-technology sector. The system concept omits the use of X-ray optics, t...", "citations": 7, "author_count": 14, "categories": [ "Engineering" ], "year": 2014, "topic": [ "all" ], "embedding_index": 8069, "doi": "10.1117/12.2061752", "umap_coordinates": { "x": 395.15399169921875, "y": 133.18272399902344, "z": 205.8633270263672 }, "tsne_coordinates": { "x": -1.517786979675293, "y": 20.348358154296875, "z": -24.758319854736328 }, "pca_coordinates": { "x": -2.2598421573638916, "y": 2.222426652908325, "z": 1.6603913307189941 }, "axis_scores": { "Quantum imaging": 0.7519736886024475, "Quantum Life Science Sensing": 0.7628648281097412, "Quantum sensing Detection": 0.7478678226470947, "Quantum sensing Metrology": 0.7433642745018005, "Quantum sensing navigation": 0.7423360347747803, "Quantum sensing Position": 0.7311267852783203, "Quantum sensing Timing": 0.7429227232933044, "Quantum sensing": 0.7569261789321899, "Quantum control": 0.7338048219680786 } }, { "id": 8061, "title": "Combination of many-body perturbation theory and quantum electrodynamics", "abstract": "A procedure for energy-dependent perturbation expansion has been developed, based upon the covariant evolution operator method. This makes it possible to treat energy-dependent perturbations very much...", "citations": 1, "author_count": 4, "categories": [ "Chemistry" ], "year": 2015, "topic": [ "all" ], "embedding_index": 8070, "doi": "10.1007/s00214-015-1707-6", "umap_coordinates": { "x": 394.4682312011719, "y": 136.44302368164062, "z": 206.5039825439453 }, "tsne_coordinates": { "x": -30.6949462890625, "y": -11.237689971923828, "z": 26.528133392333984 }, "pca_coordinates": { "x": 0.5327529907226562, "y": 1.005562424659729, "z": 0.2262675166130066 }, "axis_scores": { "Quantum imaging": 0.7127787470817566, "Quantum Life Science Sensing": 0.7292890548706055, "Quantum sensing Detection": 0.7086005210876465, "Quantum sensing Metrology": 0.7069433331489563, "Quantum sensing navigation": 0.7055171132087708, "Quantum sensing Position": 0.6941683888435364, "Quantum sensing Timing": 0.6832858324050903, "Quantum sensing": 0.7200511693954468, "Quantum control": 0.6986164450645447 } }, { "id": 8062, "title": "AN INVESTIGATION OF THE ACCURACY OF DOPPLER-BROADENED LINE-PROFILE ANALYSIS APPLIED TO PLASMA DIAGNOSTICS", "abstract": "A method for spectral line width measurements has been developed in order to compute the impurity ion temperature from Doppler broadening in the EXTRAP-T1 Reversed Field Pinch experiment. The equipmen...", "citations": 4, "author_count": 3, "categories": [ "Optics" ], "year": 1995, "topic": [ "all" ], "embedding_index": 8071, "doi": "10.1016/0022-4073(95)00081-U", "umap_coordinates": { "x": 394.5275573730469, "y": 134.67257690429688, "z": 204.90736389160156 }, "tsne_coordinates": { "x": -12.448023796081543, "y": 12.584104537963867, "z": -2.2721729278564453 }, "pca_coordinates": { "x": -2.250899314880371, "y": 1.2333835363388062, "z": 0.6854802966117859 }, "axis_scores": { "Quantum imaging": 0.6404798626899719, "Quantum Life Science Sensing": 0.6728021502494812, "Quantum sensing Detection": 0.6472088694572449, "Quantum sensing Metrology": 0.6473920345306396, "Quantum sensing navigation": 0.6529977917671204, "Quantum sensing Position": 0.6670525074005127, "Quantum sensing Timing": 0.6366051435470581, "Quantum sensing": 0.6550993919372559, "Quantum control": 0.6167870163917542 } }, { "id": 8063, "title": "Absolute measurements of chlorine Cl+ cation single photoionization cross section", "abstract": "The photoionization of Cl+ leading to Cl2+ was measured in the photon energy range of 19.5-28.0 eV. A spectrum with a photon energy resolution of 15 meV normalized to absolute cross-section measuremen...", "citations": 9, "author_count": 15, "categories": [ "Optics" ], "year": 2015, "topic": [ "all" ], "embedding_index": 8072, "doi": "10.1016/j.jqsrt.2014.10.004", "umap_coordinates": { "x": 394.03265380859375, "y": 133.99574279785156, "z": 205.50067138671875 }, "tsne_coordinates": { "x": 11.694215774536133, "y": 18.356464385986328, "z": 0.016897201538085938 }, "pca_coordinates": { "x": -3.465951919555664, "y": 0.6773726940155029, "z": 0.7996992468833923 }, "axis_scores": { "Quantum imaging": 0.7140418291091919, "Quantum Life Science Sensing": 0.7535175681114197, "Quantum sensing Detection": 0.7429206967353821, "Quantum sensing Metrology": 0.747931182384491, "Quantum sensing navigation": 0.7066227197647095, "Quantum sensing Position": 0.7320918440818787, "Quantum sensing Timing": 0.7212036848068237, "Quantum sensing": 0.7516592144966125, "Quantum control": 0.712944507598877 } }, { "id": 8064, "title": "Lead tolerance and accumulation in Arthrocaulon macrostachyum: Growth, physiological and antioxidant responses", "abstract": "Lead (Pb) is a non-essential and toxic metal for plants. Current study was planned to assess Pb-induced toxicity with and without NaCl in a halophyte Arthrocaulon macrostachyum. Three month old seedli...", "citations": 2, "author_count": 6, "categories": [ "Plant Sciences" ], "year": 2024, "topic": [ "all" ], "embedding_index": 8073, "doi": "10.1016/j.sajb.2024.10.006", "umap_coordinates": { "x": 394.3273010253906, "y": 135.33827209472656, "z": 203.75747680664062 }, "tsne_coordinates": { "x": 15.928705215454102, "y": 28.6611328125, "z": 12.153328895568848 }, "pca_coordinates": { "x": -3.19211745262146, "y": 1.0280492305755615, "z": -3.0898494720458984 }, "axis_scores": { "Quantum imaging": 0.6646973490715027, "Quantum Life Science Sensing": 0.7173159718513489, "Quantum sensing Detection": 0.661261796951294, "Quantum sensing Metrology": 0.6612032055854797, "Quantum sensing navigation": 0.6825207471847534, "Quantum sensing Position": 0.6817679405212402, "Quantum sensing Timing": 0.6557888388633728, "Quantum sensing": 0.6747013926506042, "Quantum control": 0.672461748123169 } }, { "id": 8065, "title": "The hydrogen anomaly problem in neutron Compton scattering", "abstract": "Neutron Compton scattering (also called 'deep inelastic scattering of neutrons', DINS) is a method used to study momentum distributions of light atoms in solids and liquids. It has been employed exten...", "citations": 4, "author_count": 2, "categories": [ "Physics" ], "year": 2018, "topic": [ "all" ], "embedding_index": 8074, "doi": "10.1088/1402-4896/aa9b6e", "umap_coordinates": { "x": 396.00201416015625, "y": 135.2601776123047, "z": 206.51231384277344 }, "tsne_coordinates": { "x": -42.55464172363281, "y": 7.261111736297607, "z": 4.599781036376953 }, "pca_coordinates": { "x": 0.7935009002685547, "y": 2.2791473865509033, "z": 0.11107110977172852 }, "axis_scores": { "Quantum imaging": 0.6716732382774353, "Quantum Life Science Sensing": 0.6835139393806458, "Quantum sensing Detection": 0.6707198619842529, "Quantum sensing Metrology": 0.6545912027359009, "Quantum sensing navigation": 0.6875718832015991, "Quantum sensing Position": 0.6741145253181458, "Quantum sensing Timing": 0.6794564723968506, "Quantum sensing": 0.6701138615608215, "Quantum control": 0.6532382965087891 } }, { "id": 8066, "title": "A sensitive and real-time assay of trypsin by using molecular imprinting-based capacitive biosensor", "abstract": "Use of a highly sensitive, selective capacitive biosensor is reported for label-free, real-time, easy and rapid detection of trypsin by using the microcontact imprinting method. Real-time trypsin dete...", "citations": 72, "author_count": 4, "categories": [ "Biophysics" ], "year": 2016, "topic": [ "all" ], "embedding_index": 8075, "doi": "10.1016/j.bios.2016.07.046", "umap_coordinates": { "x": 393.73797607421875, "y": 133.76620483398438, "z": 204.38978576660156 }, "tsne_coordinates": { "x": 22.22518539428711, "y": 22.955039978027344, "z": -12.067270278930664 }, "pca_coordinates": { "x": -4.716926574707031, "y": 0.6391708850860596, "z": 0.22918254137039185 }, "axis_scores": { "Quantum imaging": 0.6780716180801392, "Quantum Life Science Sensing": 0.7297322750091553, "Quantum sensing Detection": 0.7269862294197083, "Quantum sensing Metrology": 0.7005939483642578, "Quantum sensing navigation": 0.6722311973571777, "Quantum sensing Position": 0.6991708278656006, "Quantum sensing Timing": 0.6987183690071106, "Quantum sensing": 0.7212638854980469, "Quantum control": 0.6613467931747437 } }, { "id": 8067, "title": "Steady-state and time-resolved Thioflavin-T fluorescence can report on morphological differences in amyloid fibrils formed by Aβ(1-40) and Aβ(1-42)", "abstract": "Thioflavin-T (ThT) is one of the most commonly used dyes for amyloid detection, but the origin of its fluorescence enhancement is not fully understood. Herein we have characterised the ThT fluorescenc...", "citations": 95, "author_count": 6, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2015, "topic": [ "all" ], "embedding_index": 8076, "doi": "10.1016/j.bbrc.2015.01.132", "umap_coordinates": { "x": 393.9205322265625, "y": 134.9660186767578, "z": 204.1318359375 }, "tsne_coordinates": { "x": 6.014330863952637, "y": 23.343948364257812, "z": -3.872096061706543 }, "pca_coordinates": { "x": -3.324578285217285, "y": -0.03398013114929199, "z": -1.536729335784912 }, "axis_scores": { "Quantum imaging": 0.6548769474029541, "Quantum Life Science Sensing": 0.6951307654380798, "Quantum sensing Detection": 0.6522510647773743, "Quantum sensing Metrology": 0.6423659920692444, "Quantum sensing navigation": 0.6379384994506836, "Quantum sensing Position": 0.6381450891494751, "Quantum sensing Timing": 0.6430897116661072, "Quantum sensing": 0.6681641936302185, "Quantum control": 0.6161216497421265 } }, { "id": 8068, "title": "Report on fluorescence lifetime imaging using multiphoton laser scanning microscopy targeting sentinel lymph node diagnostics", "abstract": "Significance: Sentinel lymph node (SLN) biopsy is an important method for metastasis staging in, e.g., patients with malignant melanoma. Tools enabling prompt histopathological analysis are expected t...", "citations": 7, "author_count": 7, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2020, "topic": [ "all" ], "embedding_index": 8077, "doi": "10.1117/1.JBO.25.7.071204", "umap_coordinates": { "x": 394.7655944824219, "y": 133.56964111328125, "z": 205.27914428710938 }, "tsne_coordinates": { "x": -0.9003894329071045, "y": 22.763553619384766, "z": -29.274627685546875 }, "pca_coordinates": { "x": -2.9788947105407715, "y": 0.4739062786102295, "z": 3.1436190605163574 }, "axis_scores": { "Quantum imaging": 0.7278834581375122, "Quantum Life Science Sensing": 0.7421132922172546, "Quantum sensing Detection": 0.7187362313270569, "Quantum sensing Metrology": 0.7185981273651123, "Quantum sensing navigation": 0.7097265124320984, "Quantum sensing Position": 0.7069284915924072, "Quantum sensing Timing": 0.6872469782829285, "Quantum sensing": 0.7204135060310364, "Quantum control": 0.6592919230461121 } }, { "id": 8069, "title": "Ultrastrong coupling between electron tunneling and mechanical motion", "abstract": "The ultrastrong coupling of single-electron tunneling and nanomechanical motion opens exciting opportunities to explore fundamental questions and develop new platforms for quantum technologies. We hav...", "citations": 8, "author_count": 13, "categories": [ "Physics" ], "year": 2022, "topic": [ "all" ], "embedding_index": 8078, "doi": "10.1103/PhysRevResearch.4.043168", "umap_coordinates": { "x": 394.7343444824219, "y": 135.92417907714844, "z": 207.97764587402344 }, "tsne_coordinates": { "x": -11.364275932312012, "y": -29.279592514038086, "z": 7.143909931182861 }, "pca_coordinates": { "x": 5.1036601066589355, "y": 0.6991338729858398, "z": -0.3726479411125183 }, "axis_scores": { "Quantum imaging": 0.7234638929367065, "Quantum Life Science Sensing": 0.745507538318634, "Quantum sensing Detection": 0.7254644632339478, "Quantum sensing Metrology": 0.710667610168457, "Quantum sensing navigation": 0.74827641248703, "Quantum sensing Position": 0.7198822498321533, "Quantum sensing Timing": 0.7137401103973389, "Quantum sensing": 0.7338154315948486, "Quantum control": 0.713554859161377 } }, { "id": 8070, "title": "Single-shot imaging of ground-state hydrogen atoms with a nonlinear laser spectroscopic technique", "abstract": "We report on a novel nonlinear laser spectroscopic technique for single-shot imaging of ground-state hydrogen atoms in harsh environments. H atoms from the ground state were first pumped to the 2s sta...", "citations": 9, "author_count": 5, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 8079, "doi": "10.1364/OL.32.001569", "umap_coordinates": { "x": 395.0231628417969, "y": 133.95616149902344, "z": 206.95127868652344 }, "tsne_coordinates": { "x": 5.175025463104248, "y": 18.170574188232422, "z": -31.589942932128906 }, "pca_coordinates": { "x": -0.13529324531555176, "y": 0.5419983863830566, "z": 3.859677314758301 }, "axis_scores": { "Quantum imaging": 0.7509084343910217, "Quantum Life Science Sensing": 0.7206326127052307, "Quantum sensing Detection": 0.720568060874939, "Quantum sensing Metrology": 0.7085444927215576, "Quantum sensing navigation": 0.7177616357803345, "Quantum sensing Position": 0.6881109476089478, "Quantum sensing Timing": 0.6820976138114929, "Quantum sensing": 0.7302188873291016, "Quantum control": 0.65907883644104 } }, { "id": 8071, "title": "Detecting quantum critical points in the t-t′ Fermi-Hubbard model via complex network theory", "abstract": "A considerable success in phenomenological description of high-Tc superconductors has been achieved within the paradigm of Quantum Critical Point (QCP)-a parental state of a variety of exotic phases t...", "citations": 13, "author_count": 7, "categories": [ "Science & Technology - Other Topics" ], "year": 2020, "topic": [ "all" ], "embedding_index": 8080, "doi": "10.1038/s41598-020-77513-0", "umap_coordinates": { "x": 394.7010498046875, "y": 136.32989501953125, "z": 206.28965759277344 }, "tsne_coordinates": { "x": -19.332887649536133, "y": 0.6083778142929077, "z": -4.7220072746276855 }, "pca_coordinates": { "x": -0.018340349197387695, "y": 2.244657039642334, "z": 0.3481537699699402 }, "axis_scores": { "Quantum imaging": 0.7380942106246948, "Quantum Life Science Sensing": 0.7280636429786682, "Quantum sensing Detection": 0.749037504196167, "Quantum sensing Metrology": 0.7178410887718201, "Quantum sensing navigation": 0.746380090713501, "Quantum sensing Position": 0.7336052060127258, "Quantum sensing Timing": 0.7543232440948486, "Quantum sensing": 0.742806613445282, "Quantum control": 0.7024785280227661 } }, { "id": 8072, "title": "Photon scatter kernels for intensity modulating radiation therapy filters", "abstract": "The most important beam property while optimizing photon therapy is the ability to modulate the intensity of the beam. The use of photon absorbers for intensity modulation of beam profiles requires sp...", "citations": 4, "author_count": 5, "categories": [ "Engineering" ], "year": 2001, "topic": [ "all" ], "embedding_index": 8081, "doi": "10.1088/0031-9155/46/12/310", "umap_coordinates": { "x": 396.19732666015625, "y": 133.31076049804688, "z": 205.25833129882812 }, "tsne_coordinates": { "x": -14.983922004699707, "y": 32.09817123413086, "z": -15.086592674255371 }, "pca_coordinates": { "x": -2.1140694618225098, "y": 2.8074018955230713, "z": 3.098832368850708 }, "axis_scores": { "Quantum imaging": 0.6807180047035217, "Quantum Life Science Sensing": 0.6509972214698792, "Quantum sensing Detection": 0.6335461139678955, "Quantum sensing Metrology": 0.6404403448104858, "Quantum sensing navigation": 0.6557496190071106, "Quantum sensing Position": 0.6236931085586548, "Quantum sensing Timing": 0.6440548300743103, "Quantum sensing": 0.6443418264389038, "Quantum control": 0.6128588914871216 } }, { "id": 8073, "title": "Fluorescence Imaging with Single-Molecule Sensitivity and Fluorescence Correlation Spectroscopy of Cell-Penetrating Neuropeptides", "abstract": "Neuropeptide plasma membrane interactions in the absence of a corresponding specific receptor may result in neuropeptide translocation into the cell. Trans location across the plasma membrane may repr...", "citations": 2, "author_count": 4, "categories": [ "Biochemistry & Molecular Biology" ], "year": 2011, "topic": [ "all" ], "embedding_index": 8082, "doi": "10.1007/978-1-61779-310-3_9", "umap_coordinates": { "x": 394.9464111328125, "y": 133.9715576171875, "z": 205.73165893554688 }, "tsne_coordinates": { "x": -7.028584003448486, "y": 16.2412109375, "z": 0.5275757908821106 }, "pca_coordinates": { "x": -2.934065818786621, "y": 0.24473810195922852, "z": 2.8435473442077637 }, "axis_scores": { "Quantum imaging": 0.7345346212387085, "Quantum Life Science Sensing": 0.7472206354141235, "Quantum sensing Detection": 0.7329316139221191, "Quantum sensing Metrology": 0.7339427471160889, "Quantum sensing navigation": 0.7244884371757507, "Quantum sensing Position": 0.7012192606925964, "Quantum sensing Timing": 0.6957539319992065, "Quantum sensing": 0.7424807548522949, "Quantum control": 0.6689271330833435 } }, { "id": 8074, "title": "Excited-state symmetry and reorientation dynamics of perylenes in liquid solutions: Time-resolved fluorescence depolarization studies using one- and two-photon excitation", "abstract": "The excited-state symmetry and molecular reorientation of perylene, 1,7-diazaperylene, and 2,5,8,1 1-tetratert-butylperylene have been studied by different fluorescence depolarization experiments. The...", "citations": 18, "author_count": 4, "categories": [ "Chemistry" ], "year": 2008, "topic": [ "all" ], "embedding_index": 8083, "doi": "10.1021/jp8015694", "umap_coordinates": { "x": 392.4730529785156, "y": 136.19662475585938, "z": 205.61729431152344 }, "tsne_coordinates": { "x": 3.6994447708129883, "y": 0.5573327541351318, "z": 4.437590599060059 }, "pca_coordinates": { "x": -0.8437498807907104, "y": -0.859154462814331, "z": -1.2047970294952393 }, "axis_scores": { "Quantum imaging": 0.6930016279220581, "Quantum Life Science Sensing": 0.6989479064941406, "Quantum sensing Detection": 0.6690301299095154, "Quantum sensing Metrology": 0.663091778755188, "Quantum sensing navigation": 0.6737117767333984, "Quantum sensing Position": 0.6764563918113708, "Quantum sensing Timing": 0.6832995414733887, "Quantum sensing": 0.6804328560829163, "Quantum control": 0.6404696106910706 } }, { "id": 8075, "title": "Mutually unbiased bases and discrete Wigner functions", "abstract": "Mutually unbiased bases and discrete Wigner functions are closely but not uniquely related. Such a connection becomes more interesting when the Hilbert space has a dimension that is a power of a prime...", "citations": 31, "author_count": 5, "categories": [ "Optics" ], "year": 2007, "topic": [ "all" ], "embedding_index": 8084, "doi": "10.1364/JOSAB.24.000371", "umap_coordinates": { "x": 394.685302734375, "y": 135.64944458007812, "z": 206.43927001953125 }, "tsne_coordinates": { "x": -18.7710018157959, "y": 36.709068298339844, "z": -8.446184158325195 }, "pca_coordinates": { "x": 0.5826356410980225, "y": 1.0358260869979858, "z": 2.0080111026763916 }, "axis_scores": { "Quantum imaging": 0.7327184081077576, "Quantum Life Science Sensing": 0.7057185173034668, "Quantum sensing Detection": 0.7133217453956604, "Quantum sensing Metrology": 0.7250046133995056, "Quantum sensing navigation": 0.7283943891525269, "Quantum sensing Position": 0.6884139776229858, "Quantum sensing Timing": 0.7041501998901367, "Quantum sensing": 0.7321937680244446, "Quantum control": 0.7095381617546082 } }, { "id": 8076, "title": "Effective mass of electrons in quantum-well-like stacking-fault gap states in silicon carbide", "abstract": "A first-principles calculation of the effective mass of electrons in quantum-well-like gap states induced by stacking faults and cubic inclusions in 4H- and 6H-SiC is performed, based on the density f...", "citations": 5, "author_count": 5, "categories": [ "Engineering" ], "year": 2002, "topic": [ "all" ], "embedding_index": 8085, "doi": null, "umap_coordinates": { "x": 392.1087341308594, "y": 139.18296813964844, "z": 209.64886474609375 }, "tsne_coordinates": { "x": -8.79818058013916, "y": 47.412322998046875, "z": -3.257513999938965 }, "pca_coordinates": { "x": 0.847970724105835, "y": 0.9191896915435791, "z": -0.9275383949279785 }, "axis_scores": { "Quantum imaging": 0.7449120879173279, "Quantum Life Science Sensing": 0.7398120760917664, "Quantum sensing Detection": 0.7234138250350952, "Quantum sensing Metrology": 0.7377207279205322, "Quantum sensing navigation": 0.7332969307899475, "Quantum sensing Position": 0.7173383831977844, "Quantum sensing Timing": 0.693230390548706, "Quantum sensing": 0.7378444075584412, "Quantum control": 0.7221674919128418 } }, { "id": 8077, "title": "Interplay between structural changes, surface states and quantum confinement effects in semiconducting Mg2Si and Ca2Si thin films", "abstract": "Ab initio techniques have been used to investigate structural changes in semiconducting Mg2Si and Ca2Si thin films (from 17 nm down to 0.2 nm corresponding to the 2D structure) along with band-gap var...", "citations": 2, "author_count": 6, "categories": [ "Chemistry" ], "year": 2023, "topic": [ "all" ], "embedding_index": 8086, "doi": "10.1039/d3cp01878d", "umap_coordinates": { "x": 392.1666259765625, "y": 135.65359497070312, "z": 205.9779510498047 }, "tsne_coordinates": { "x": 12.861600875854492, "y": -6.2319254875183105, "z": 2.7978901863098145 }, "pca_coordinates": { "x": -0.08644461631774902, "y": -1.3772969245910645, "z": -3.091240644454956 }, "axis_scores": { "Quantum imaging": 0.7273792624473572, "Quantum Life Science Sensing": 0.7544111609458923, "Quantum sensing Detection": 0.7282822132110596, "Quantum sensing Metrology": 0.7144679427146912, "Quantum sensing navigation": 0.716560959815979, "Quantum sensing Position": 0.7079205513000488, "Quantum sensing Timing": 0.6844786405563354, "Quantum sensing": 0.7437558770179749, "Quantum control": 0.7276065945625305 } }, { "id": 8078, "title": "In-lab X-ray particle velocimetry for multiphase flows: Design principles and demonstration of O(1 kHz) XPV", "abstract": "We combine X -ray -specific tracer particles, a photon counting detector, and a liquid metal jet anode X-ray source to achieve O(1 kHz) X-ray imaging speeds in the laboratory, 15x faster than previous...", "citations": 5, "author_count": 5, "categories": [ "Engineering" ], "year": 2024, "topic": [ "all" ], "embedding_index": 8087, "doi": "10.1016/j.flowmeasinst.2024.102536", "umap_coordinates": { "x": 394.8402099609375, "y": 134.6995391845703, "z": 204.9905242919922 }, "tsne_coordinates": { "x": -0.8109304904937744, "y": 13.245827674865723, "z": -17.069961547851562 }, "pca_coordinates": { "x": -1.9924358129501343, "y": 2.7517361640930176, "z": 0.5916764140129089 }, "axis_scores": { "Quantum imaging": 0.7167937159538269, "Quantum Life Science Sensing": 0.7196733951568604, "Quantum sensing Detection": 0.6938746571540833, "Quantum sensing Metrology": 0.7042008638381958, "Quantum sensing navigation": 0.6996815800666809, "Quantum sensing Position": 0.6938235759735107, "Quantum sensing Timing": 0.6933085322380066, "Quantum sensing": 0.7071743011474609, "Quantum control": 0.7036954164505005 } }, { "id": 8079, "title": "A nuclear configuration interaction approach to study nuclear spin effects: an application to ortho- and para-3He2@C60", "abstract": "We introduce a non-orthogonal configuration interaction approach to investigate nuclear quantum effects on energies and densities of confined fermionic nuclei. The Hamiltonian employed draws parallels...", "citations": 1, "author_count": 6, "categories": [ "Chemistry" ], "year": 2024, "topic": [ "all" ], "embedding_index": 8088, "doi": "10.1002/cphc.202300498", "umap_coordinates": { "x": 392.8256530761719, "y": 137.36026000976562, "z": 205.8947296142578 }, "tsne_coordinates": { "x": -1.6144850254058838, "y": 5.01807165145874, "z": 24.35956573486328 }, "pca_coordinates": { "x": -0.43925976753234863, "y": 2.163499355316162, "z": -3.4339852333068848 }, "axis_scores": { "Quantum imaging": 0.6994804739952087, "Quantum Life Science Sensing": 0.7017275094985962, "Quantum sensing Detection": 0.6745203733444214, "Quantum sensing Metrology": 0.6506171822547913, "Quantum sensing navigation": 0.6760414838790894, "Quantum sensing Position": 0.6721083521842957, "Quantum sensing Timing": 0.6629135608673096, "Quantum sensing": 0.6884774565696716, "Quantum control": 0.6850202083587646 } }, { "id": 8080, "title": "Copper-zinc oxide heterojunction catalysts exhibiting enhanced photocatalytic activity prepared by a hybrid deposition method", "abstract": "Heterojunction copper-zinc oxide catalysts were prepared by a hybrid two-step methodology comprising hydrothermal growth of ZnO nanorods (ZnO-NR) followed by deposition of Cu2O nanoparticles using an ...", "citations": 15, "author_count": 8, "categories": [ "Chemistry" ], "year": 2021, "topic": [ "all" ], "embedding_index": 8089, "doi": "10.1039/d1ra00691f", "umap_coordinates": { "x": 391.8211669921875, "y": 134.36512756347656, "z": 205.03228759765625 }, "tsne_coordinates": { "x": 14.99221420288086, "y": 5.514067649841309, "z": -9.479113578796387 }, "pca_coordinates": { "x": -2.6696419715881348, "y": -3.5106067657470703, "z": -0.42860299348831177 }, "axis_scores": { "Quantum imaging": 0.6736167669296265, "Quantum Life Science Sensing": 0.6749366521835327, "Quantum sensing Detection": 0.6750641465187073, "Quantum sensing Metrology": 0.6617659330368042, "Quantum sensing navigation": 0.6484736800193787, "Quantum sensing Position": 0.6351831555366516, "Quantum sensing Timing": 0.6276475787162781, "Quantum sensing": 0.685758113861084, "Quantum control": 0.6675420999526978 } }, { "id": 8081, "title": "Ion-Selective Ligands: How Colloidal Nano- and Micro-Particles Can Introduce New Functionalities", "abstract": "Colloidal nano- and micro-particles can introduce new properties and functionalities to existing materials and thus are a valuable building block for the construction of novel materials. This is discu...", "citations": 8, "author_count": 9, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 8090, "doi": "10.1515/zpch-2018-1172", "umap_coordinates": { "x": 393.18951416015625, "y": 134.8800811767578, "z": 204.4014892578125 }, "tsne_coordinates": { "x": 22.493253707885742, "y": 25.37140655517578, "z": 4.525274276733398 }, "pca_coordinates": { "x": -2.629669666290283, "y": 0.4501149654388428, "z": -1.9580399990081787 }, "axis_scores": { "Quantum imaging": 0.7385603785514832, "Quantum Life Science Sensing": 0.7382164597511292, "Quantum sensing Detection": 0.7167298793792725, "Quantum sensing Metrology": 0.7112683057785034, "Quantum sensing navigation": 0.7321949601173401, "Quantum sensing Position": 0.7041120529174805, "Quantum sensing Timing": 0.6738279461860657, "Quantum sensing": 0.7367876172065735, "Quantum control": 0.7308517098426819 } }, { "id": 8082, "title": "Excited state non-adiabatic dynamics of the smallest polyene, trans 1,3-butadiene. II. Ab initio multiple spawning simulations", "abstract": "The excited state non-adiabatic dynamics of the smallest polyene, trans 1,3-butadiene (BD), has long been the subject of controversy due to its strong coupling, ultrafast time scales and the difficult...", "citations": 65, "author_count": 8, "categories": [ "Chemistry" ], "year": 2018, "topic": [ "all" ], "embedding_index": 8091, "doi": "10.1063/1.5018130", "umap_coordinates": { "x": 392.4217224121094, "y": 136.58175659179688, "z": 206.44393920898438 }, "tsne_coordinates": { "x": -1.897432804107666, "y": 2.6099863052368164, "z": 9.710848808288574 }, "pca_coordinates": { "x": 0.5242174863815308, "y": -0.46128344535827637, "z": -1.156760811805725 }, "axis_scores": { "Quantum imaging": 0.7084494233131409, "Quantum Life Science Sensing": 0.7087255120277405, "Quantum sensing Detection": 0.6988387703895569, "Quantum sensing Metrology": 0.6760190725326538, "Quantum sensing navigation": 0.6822790503501892, "Quantum sensing Position": 0.6695963144302368, "Quantum sensing Timing": 0.6837600469589233, "Quantum sensing": 0.705551028251648, "Quantum control": 0.6933282613754272 } }, { "id": 8083, "title": "Size dependence of the stability, electronic structure, and optical properties of silicon nanocrystals with various surface impurities", "abstract": "We present a comprehensive, ground-state density functional theory study of the size dependence of the optical and electronic properties and the stability of spherical silicon nanocrystals (NCs) with ...", "citations": 14, "author_count": 4, "categories": [ "Materials Science" ], "year": 2015, "topic": [ "all" ], "embedding_index": 8092, "doi": "10.1103/PhysRevB.91.125402", "umap_coordinates": { "x": 392.5711975097656, "y": 133.41409301757812, "z": 206.97825622558594 }, "tsne_coordinates": { "x": 35.26983642578125, "y": -11.257781982421875, "z": -7.422494411468506 }, "pca_coordinates": { "x": 1.733534812927246, "y": -2.705484390258789, "z": -0.20166099071502686 }, "axis_scores": { "Quantum imaging": 0.7191056609153748, "Quantum Life Science Sensing": 0.758874773979187, "Quantum sensing Detection": 0.7245089411735535, "Quantum sensing Metrology": 0.7149043679237366, "Quantum sensing navigation": 0.710365891456604, "Quantum sensing Position": 0.7021858096122742, "Quantum sensing Timing": 0.6762021780014038, "Quantum sensing": 0.7349646091461182, "Quantum control": 0.7143102288246155 } }, { "id": 8084, "title": "Temperature Dependence of Charge Separation and Recombination in Porphyrin Oligomer-Fullerene Donor-Acceptor Systems", "abstract": "Electron-transfer reactions are fundamental to many practical devices, but because of their complexity, it is often very difficult to interpret measurements done on the complete device. Therefore, stu...", "citations": 58, "author_count": 8, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 8093, "doi": "10.1021/ja2019367", "umap_coordinates": { "x": 392.6012878417969, "y": 135.8013153076172, "z": 205.64947509765625 }, "tsne_coordinates": { "x": 0.5231502056121826, "y": -6.779106616973877, "z": -12.109012603759766 }, "pca_coordinates": { "x": -0.7498688697814941, "y": -2.9786882400512695, "z": -2.1547691822052 }, "axis_scores": { "Quantum imaging": 0.7023587226867676, "Quantum Life Science Sensing": 0.7428580522537231, "Quantum sensing Detection": 0.6995996236801147, "Quantum sensing Metrology": 0.6807166337966919, "Quantum sensing navigation": 0.66646808385849, "Quantum sensing Position": 0.6744450330734253, "Quantum sensing Timing": 0.6886078715324402, "Quantum sensing": 0.7078616619110107, "Quantum control": 0.6711207628250122 } }, { "id": 8085, "title": "Using 915 nm Laser Excited Tm3+/Er3+/Ho3+-Doped NaYbF4 Upconversion Nanoparticles for in Vitro and Deeper in Vivo Bioimaging without Overheating Irradiation", "abstract": "Successful further development of superhigh-constrast upconversion (UC) bioimaging requires addressing the existing paradox: 980 nm laser light is used to excite upconversion nanoparticles (UCNPs), wh...", "citations": 506, "author_count": 9, "categories": [ "Chemistry" ], "year": 2011, "topic": [ "all" ], "embedding_index": 8094, "doi": "10.1021/nn200110j", "umap_coordinates": { "x": 394.3088073730469, "y": 133.58106994628906, "z": 205.3379364013672 }, "tsne_coordinates": { "x": 9.581192970275879, "y": 19.40275001525879, "z": -21.535070419311523 }, "pca_coordinates": { "x": -4.32151985168457, "y": -0.5329403877258301, "z": 0.8941928744316101 }, "axis_scores": { "Quantum imaging": 0.706096887588501, "Quantum Life Science Sensing": 0.7158381342887878, "Quantum sensing Detection": 0.6767846345901489, "Quantum sensing Metrology": 0.6743370890617371, "Quantum sensing navigation": 0.6706421375274658, "Quantum sensing Position": 0.6504176259040833, "Quantum sensing Timing": 0.6491891741752625, "Quantum sensing": 0.6862154006958008, "Quantum control": 0.6276747584342957 } } ] }