Publications

[Books & Book Chapters] [Preprints] [Journals] [Conference Proceedings] [Patents] [Links]

Books & Book Chapters

3. Chih-Sung Chuu and Shengwang Du, “Narrowband Biphotons: Generation, Manipulation, and Applications,” Book chapter in a compilation “Engineering the Atom-Photon Interaction,” edited by Ana Predojevic and Morgan W. Mitchell, Springer (2015): eBook ISBN 978-3-319-19231-4, Hardcover ISBN 978-3-319-19230-7; arXiv: 2021.10.08.463746.
 
2. J. F. Chen, Heejeong Jeong, M. M. T. Loy, and Shengwang Du, Optical Precursors: From Classical Waves to Single Photons, Springer Briefs in Physics, Springer (2013): ISBN 978-981-4451-94-9.
 
1. Shengwang Du, Atom-chip Bose-Einstein condensation in a portable vacuum cell, PhD Thesis, JILA & Department of Physics, University of Colorado Boulder (2005).

Preprints

4. Xuanying Lai, Shengwang Du, and Yue Jiang, "Theory of symmetry-protected two-photon coherence," arXiv:2504.04680 [quant-ph].
 
3. Xinzhe Xu, Ruben Canora, Hadiseh Alaeian, and Shengwang Du, "Engineering nonlinear activation functions for all-optical neural networks via quantum interference," arXiv:2504.04009 [physics.optics].
 
2. Chun-Hui Liu, Fu Li, Shengwang Du, Jianming Wen, Lan Yang, and Chuanwei Zhang, “Scaling of quantum Fisher information for quantum exceptional point sensors,” arXiv:2404.03803 [quant-ph].
 
1. Shengwang Du, “Is a single particle always entangled?” Optica Open. Preprint 22557619.v1.

Journal Publications

[2025-2021] [2020-2016] [2015-2011] [2010-1997]

2025

120. Shengwang Du, Yufei Ding, and Chunming Qiao, “S-QGPU: Shared quantum gate processing unit for distributed quantum computing,” AVS Quantum Sci. 7, 013803 (2025); arXiv:2309.08736 [quant-ph].

119. Jyun-Kai Lin, Tzu-Hsiang Chien, Chin-Te Wu, Ravikumar Chinnarasu, Shengwang Du, Ite A. Yu, and Chih-Sung Chuu, "Observation of subnatural-linewidth biphotons in a two-level atomic ensemble," Phys. Rev. Lett. 134, 043602 (2025); arXiv:2501.11908 [physics.atom-ph].

118. Ziqi Niu, Jianming Wen, Chuanwei Zhang, Shengwang Du, and Irina Novikova, “Bi-chromatic intensity squeezing using four-wave mixing in 85Rb vapor,” Optica Quantum 3, 72 (2025); Optica Open. Preprint 27226803.v1.

2024

117. Xuanying Lai, Christopher Li, Alan Zanders, Yefeng Mei, and Shengwang Du, “Symmetry protected two-photon coherence time,” Phys. Rev. Lett. 133, 033601 (2024); arXiv:2406.13028 [quant-ph].
 
116. Ziqi Niu, Yue Jiang, Jianming Wen, Chuanwei Zhang, Shengwang Du, and Irina Novikova, “Four-wave mixing with anti-parity-time symmetry in hot 85Rb vapor,” Appl. Phys. Lett. 124, 044005 (2024); arXiv.2308.10850 [quant-ph].

2023

115. Eun Oh, Xuanying Lai, Jianming Wen, and Shengwang Du, “Distributed quantum computing with photons and atomic memories,” Adv. Quantum Technol. 6, 2300007 (2023); arXiv:2207.02350 [quant-ph].
[Back Cover of Advanced Quantum Technologies, Volume 6, Issue 6, June 2023]
 
114. Zeyu Shen, Bowen Jia, Yang Xu, Jonas Wessen, Tanmoy Pal, Hui Sun Chan, Shengwang Du, and Mingjie Zhang, “Biological condensates form percolated networks with molecular motion properties distinctly different from dilute solutions,” eLife 12, e81907 (2023); bioRxiv:2022.07.20.500769.
 
113. Rong Chen, Xiao Tang, Yuxuan Zhao, Zeyu Shen, Meng Zhang, Yusheng Shen, Tiantian Li, Casper Ho Yin Chung, Lijuan Zhang, Ji Wang, Binbin Cui, Peng Fei, Yusong Guo, Shengwang Du, and Shuhuai Yao, “Single-frame deep-learning super-resolution microscopy for intracellular dynamics imaging,” Nature Communications 14, 2854 (2023); bioRxiv:2021.10.08.463746.
 
112. Yue Jiang, Yefeng Mei, and Shengwang Du, “Quantum Langevin theory for two coupled phase-conjugated electromagnetic waves,” Phys. Rev. A 107, 053703 (2023); arXiv:2301.11993 [quant-ph].
 
111. Ka Hung Chan, Shengwang Du, and Xian Chen, “Subnanometer accuracy of surface characterization by reflected-light differential interference microscopy,” Meas. Sci. Technol. 34, 025202 (2023); arXiv:2205.00650 [physics.optics].

2022

110. Xi-Wang Luo, Chuanwei Zhang, Irina Novikova, Chen Qian, and Shengwang Du, “Wavelength conversion for single-photon polarization qubits through continuous-variable quantum teleportation,” Phys. Rev. A 105, 052444 (2022); arXiv:2105.04737 [quant-ph].
 
109. Xi-Wang Luo, Chuanwei Zhang, and Shengwang Du, “Quantum squeezing and sensing with pseudo-anti-parity-time symmetry,” Phys. Rev. Lett. 128, 173602 (2022); arXiv:2108.12873 [quant-ph].
 
108. Ying Zuo, Chenfeng Cao, Ningping Cao, Xuanying Lai, Bei Zeng, and Shengwang Du, “Optical neural network quantum state tomography,” Advanced Photonics 4, 026004 (2022); arXiv:2103.06457 [quant-ph].

2021

107. Hong Liang, Kai Ming Lau, Wai Chun Wong, Shengwang Du, Wing Yim Tam, and Jensen Li, “One-sided destructive quantum interference from an exceptional point-enabled metasurface,” Phys. Rev. A 104, 063710 (2021); arXiv:2106.14862 [physics.optics].
 
106. Jianming Wen, Irina Novikova, Chen Qian, Chuanwei Zhang, and Shengwang Du, “Hybrid entanglement between optical discrete polarizations and continuous quadrature variables,” Photonics 8, 552 (2021); arXiv:2105.04602 [quant-ph].
 
105. Ying Zuo, Yujun Zhao, You-Chiuan Chen, Shengwang Du, and Junwei Liu, “Scalability of all-optical neural networks based on spatial light modulators,” Phys. Rev. Applied 15, 054034 (2021); arXiv:2102.09722 [physics.optics].
 
104. Ming Kan, Kai Ming Lau, Tsz Kit Yung, Shengwang Du, Wing Yim Tam, and Jensen Li, “Tailor-made unitary operations using dielectric metasurfaces,” Opt. Express 29, 5677 (2021).

2020

103. Zhuohui Zeng, Hoi-Chun Chiu, Luwei Zhao, Teng Zhao, Chenbo Zhang, Mostafa Karami, Hongyu Yu, Shengwang Du, and Xian Chen, “Dual beam-shear differential interference microscopy for full-field surface deformation gradient characterization,” J. Mech. Phys. Solids 145, 104162 (2020).
 
102. Bojeong Seo, Peng Chen, Ziting Chen, Weijun Yuan, Mingchen Huang, Shengwang Du, and Gyu-Boong Jo, “Efficient production of a narrow-line erbium magneto-optical trap with two-stage slowing,” Phys. Rev. A 102, 013319 (2020); arXiv:1912.12649 [cond-mat.quant-gas].
 
101. Yefeng Mei, Yiru Zhou, Shanchao Zhang, Jianfeng Li, Kaiyu Liao, Hui Yan, Shi-Liang Zhu, and Shengwang Du, “Einstein-Podolsky-Rosen energy-time entanglement of narrow-band biphotons,” Phys. Rev. Lett. 124, 010509 (2020); arXiv:1911.00723 [quant-ph].

2019

100. Yue Jiang, Yefeng Mei, Ying Zuo, Yanhua Zhai, Jensen Li, Jianming Wen, and Shengwang Du, “Anti-parity-time symmetric optical four-wave mixing in cold atoms,” Phys. Rev. Lett. 123, 193604 (2019); arXiv:1901.06805 [physics.optics].
 
99. Shanchao Zhang, Yiru Zhou, Yefeng Mei, Kaiyu Liao, Yong-Li Wen, Jianfeng Li, Xin-Ding Zhang, Shengwang Du, Hui Yan and Shi-Liang Zhu, “\delta-Quench measurement of a pure quantum-state wave function,” Phys. Rev. Lett. 123, 190402 (2019); arXiv:1906.00474 [quant-ph].
 
98. Yan Huang, Tianjin Ma, Pik Ki Lau, Jinhui Wang, Teng Zhao, Shengwang Du, Michael M.T. Loy, and Yusong Guo, “Visualization of protein sorting at the trans-Golgi network and endosomes through super-resolution imaging,” Front. Cell Dev. Biol. 7, 181 (2019).
 
97. Ying Zuo, Bohan Li, Yujun Zhao, Yue Jiang, You-Chiuan Chen, Peng Chen, Gyu-Boong Jo, Junwei Liu, and Shengwang Du, “All-optical neural network with nonlinear activation functions,” Optica 6, 1132 (2019); arXiv:1904.10819 [physics.optics].
[OSA News Release: “Researchers Demonstrate All-Optical Neural Network for Deep Learning“]
[IEEE Spectrum: “AI at the Speed of Light“]
[HKUST Press Release: “HKUST Researchers Build the World's First All-Optical Multilayer Neural Network Paving Way for Next Generation of AI Hardware“]
 
96. Shengwang Du, Teng Zhao, and Luwei Zhao, “Light sheets with extended length,” Opt. Commun. 450, 166 (2019); arXiv:1812.11524 [physics.optics].
 
95. Yunfei Wang, Jianfeng Li, Shanchao Zhang, Keyu Su, Yiru Zhou, Kaiyu Liao, Shengwang Du, Hui Yan, and Shi-Liang Zhu, “Efficient quantum memory for single-photon polarization qubits,” Nat. Photon. 13, 346 (2019).
[Cover of Volume 13 Issue 5, May 2019]
[HKUST Press Release: “HKUST Physicist Contributes to New Record of Quantum Memory Efficiency Bringing Quantum Computers Closer to Reality“]
 
94. Heejeong Jeong, Shengwang Du, and Na Young Kim, “Proposed narrowband biphoton generation from an ensemble of solid-state quantum emitters,” J. Opt. Soc. Am. B 36, 646 (2019).
 
93. Xiandeng Wu, Qixu Cai, Zeyu Shen, Xudong Chen, Menglong Zeng, Shengwang Du, and Mingjie Zhang, “RIM and RIM-BP form presynaptic active-zone-like condensates via phase separation,” Mol. Cell 73, 971 (2019).
 
92. Yue Jiang, Yefeng Mei, Yueyang Zou, Ying Zuo, and Shengwang Du, “Intracavity cold atomic ensemble with high optical depth,” Rev. Sci. Instrum. 90, 013105 (2019).
 
91. Hoi Chun Chiu, Zhuohui Zeng, Luwei Zhao, Teng Zhao, Shengwang Du, and Xian Chen, “Measuring optical beam shear angle of polarizing prisms beyond the diffraction limit with localization method,” Opt. Commun. 435, 227 (2019); arXiv:1810.04271 [physics.ins-det].
 
90. Zhuohui Zeng, Chenbo Zhang, Shengwang Du, and Xian Chen, “Quantitative surface topography of martensitic microstructure by differential interference contrast microscopy,” J. Mech. Phys. Solids 124, 102 (2019).

2018

89. Hongwu Yu, Cheng Xue, Mengping Long, Huiqiang Jia, Guosheng Xue, Shengwang Du, Yves Coello, and Toyotaka Ishibashi, “TEFM enhances transcription elongation by modifying mtRNAP pausing dynamics,” Biophysical Journal 115, 2295 (2018).
 
88. Shichang Liu, Fengchao Yu, Qin Hu, Tingliang Wang, Lujia Yu, Shengwang Du, Weichuan Yu, and Ning Li, “Development of in planta chemical cross-linking-based quantitative interactomics in arabidopsis,” J. Proteome Res. 17, 3195 (2018).
 
87. Xianxin Guo, Yefeng Mei, and Shengwang Du, “Single photon at a configurable quantum-memory-based beam splitter,” Phys. Rev. A 97, 063805 (2018).
 
86. Min Wu, Hong-Lei Tian, Xiaobo Liu, John Ho Chun Lai, Shengwang Du, and Jun Xia, “Impairment of inhibitory synapse formation and motor behavior in mice lacking the NL2 binding partner LHFPL4/GARLH4,” Cell Reports 23, 1691 (2018).
 
85. Sze Cheung Lau, Hoi Chun Chiu, Luwei Zhao, Teng Zhao, M. M. T. Loy, and Shengwang Du, “An integrated single- and two-photon non-diffracting light-sheet microscope,” Rev. Sci. Instrum. 89, 043701 (2018); arXiv:1712.02521 [physics.ins-det].
 
84. Aifang Cheng, Teng Zhao, Kai-Hei Tse, Hei-Man Chow, Yong Cui, Liwen Jiang, Shengwang Du, Michael M. T. Loy, and Karl Herrup, “ATM and ATR play complementary roles in the behavior of excitatory and inhibitory vesicle populations,” Proc. Natl. Acad. Sci. USA (PNAS) 115, E292 (2018).
[HKUST Press Release: “HKUST Scientists Reveal How Human Brains Keep Balance”]

2017

83. Yefeng Mei, Xianxin Guo, Luwei Zhao, and Shengwang Du, “Mirrorless optical parametric oscillation with tunable threshold in cold atoms,” Phys. Rev. Lett. 119, 150406 (2017).
 
82. Huiqin Huang, Xiaochen Lin, Zhuoyi Liang, Teng Zhao, Shengwang Du, Michael M. T. Loy, Kwok-On Lai, Amy K. Y. Fu, and Nancy Y. Ip, “Cdk5-dependent phosphorylation of liprina1 mediates neuronal activity-dependent synapse development,” Proc. Natl. Acad. Sci. USA (PNAS) 114, E6992 (2017).
 
81. Yueyang Zou, Yue Jiang, Yefeng Mei, Xianxin Guo, and Shengwang Du, “Quantum heat engine using electromagnetically induced transparency,” Phys. Rev. Lett. 119, 050602 (2017).
 
80. Lingbang Zhu, Xianxin Guo, Chi Shu, Heejeong Jeong, and Shengwang Du, “Bright narrowband biphoton generation from a hot rubidium atomic vapor cell,” Appl. Phys. Lett. 110, 161101 (2017).
[Cover of APL Volume 110, Issue 16]
 
79. Xianxin Guo, Yefeng Mei, and Shengwang Du, “Testing the Bell inequality on frequency-bin entangled photon pairs using time-resolved detection,” Optica 4, 388 (2017).
 
78. Franco K. C. Au, Yue Jia, Kai Jiang, Ilya Grigoriev, Bill K. T. Hau, Yuehong Shen, Shengwang Du, Anna Akhmanova, and Robert Z. Qi, “GAS2L1 is a centriole-associated protein required for centrosome dynamics and disjunction,” Developmental Cell 40, 81 (2017).

2016

77. Chi Shu, Peng Chen, Tsz Kiu Aaron Chow, Lingbang Zhu, Yanhong Xiao, M. M. T. Loy, and Shengwang Du, “Subnatural-linewidth biphotons from a Doppler-broadened hot atomic vapor cell,” Nat. Commun. 7, 12783 (2016).
 
76. Hao Wang, Xiaohong Zhuang, Xiangfeng Wang, Angus Ho Yin Law, Teng Zhao, Shengwang Du, Michael M. T. Loy, and Liwen Jiang, “A distinct pathway for polar exocytosis in plant Cell wall formation,” Plant Physiology 172, 1003 (2016).
 
75. Teng Zhao, Sze Cheung Lau, Ying Wang, Yumian Su, Hao Wang, Aifang Cheng, Karl Herrup, Nancy Y. Ip, Shengwang Du, and M. M. T. Loy, “Multicolor 4D fluorescence microscopy using ultrathin Bessel light sheets,” Sci. Rep. 6, 26159 (2016).
 
74. Graham Vail, Aifang Cheng, Yu Ray Han, Teng Zhao, Shengwang Du, Michael M.T. Loy, Karl Herrup, and Mark R. Plummer, “ATM protein is located on presynaptic vesicles and its deficit leads to failures in synaptic plasticity,” J. Neurophysiol. 116, 201 (2016).
 
73. Xinggui Gu, Engui Zhao, Teng Zhao, Miaomiao Kang, Chen Gui, Jacky W. Y. Lam, Shengwang Du, Michael M. T. Loy, and Ben Zhong Tang, “A mitochondrion-specific photoactivatable fluorescence turn-on AIE-based bioprobe for localization super-resolution microscope,” Adv. Mater. 28, 5064 (2016).
 
72. Luwei Zhao, Yumian Su, and Shengwang Du, “Narrowband biphoton generation in the group delay regime,” Phys. Rev. A 93, 033815 (2016); arXiv:1409.3341 [quant-ph].

2015

71. Luwei Zhao, Xianxin Guo, Yuan Sun, Yumian Su, M. M. T. Loy, and Shengwang Du, “Shaping the biphoton temporal waveform with spatial light modulation,” Phys. Rev. Lett. 115, 193601 (2015).
 
70. Siu-Tat Chui, Shengwang Du, and Gyu-Boong Jo, “Subwavelength transportation of light with atomic resonances,” Phys. Rev. A 92, 053826 (2015); arXiv:1506.00793 [cond-mat.mes-hall]
 
 
68. Xianxin Guo, Peng Chen, Chi Shu, M. M. T. Loy, and Shengwang Du, “Frequency-bin entanglement with tunable phase,” J. Opt. 17, 105201 (2015); arXiv:1504.03774 [quant-ph].
 
67. Peng Chen, Xianxin Guo, Chi Shu, M. M. T. Loy, and Shengwang Du, “Frequency-induced phase-tunable polarization-entangled narrowband biphotons,” Optica 2, 505 (2015).
 
66. Chi Shu, Xianxin Guo, Peng Chen, M. M. T. Loy, and Shengwang Du, “Narrowband biphotons with polarization-frequency-coupled entanglement,” Phys. Rev. A 91, 043820 (2015); arXiv:1411.6119 [quant-ph].
 
65. Teng Zhao, Ying Wang, Yuanliang Zhai, Xiaoxuan Qu, Aifang Cheng, Shengwang Du, and M. M. T. Loy, “A user-friendly two-color super-resolution localization microscope,” Opt. Express 23, 1879 (2015).
 

2014

63. Chang Liu, Yuan Sun, Luwei Zhao, Shanchao Zhang, M. M. T. Loy, and Shengwang Du, “Efficiently loading a single photon into a single-sided Fabry-Perot cavity,” Phys. Rev. Lett. 113, 133601 (2014).
Featured in Physics, see APS Physics Synopsis: Cavities Play Catch with Photons.
 
62. Luwei Zhao, Xianxin Guo, Chang Liu, Yuan Sun, M. M. T. Loy, and Shengwang Du, “Photon pairs with coherence time exceeding one microsecond,” Optica 1, 84 (2014).
 
61. Kaiyu Liao, Hui Yan, Junyu He, Shengwang Du, Zhi-Ming Zhang, Shi-Liang Zhu, “Subnatural-linewidth polarization-entangled photon pairs with controllable temporal length,” Phys. Rev. Lett. 112, 243602 (2014).
[Selected as Nature Photonics Research Highlights: Subnatural-linewidth biphotons]
 
60. Peng Chen, Weihua Wang, Nian Lin, and Shengwang Du, “Manipulating photon emission efficiency with local electronic states in a tunneling gap,” Opt. Express 22, 8234 (2014).

2013

59. Wenhao Guo, Shuigang Xu, Zefei Wu, Ning Wang, M. M. T. Loy, and Shengwang Du, “Oxygen-assisted charge transfer between ZnO quantum dots and graphene,” Small 9, 3031 (2013). [Selected as Frontispiece: Small 9, 3030 (2013)]
 
58. Eun Oh and Shengwang Du, “Manipulating cold atoms with off-axis rotating traps,” J. Korean Phys. Soc. 63, 938 (2013).
 
57. Daniel M. Farkas, Kai M. Hudek, Shengwang Du, and Dana Z. Anderson, “Efficient direct evaporative cooling in an atom chip magnetic trap,” Phys. Rev. A 87, 053417 (2013).
 
56. Dingdi Wang, Wenhao Guo, Shengwang Du, and Z. K. Tang, “Frozen iodine molecules in nano-pores of zeolite single crystals,” Mod. Phys. Lett. B 27, 1330014 (2013).
 
55. Shengwang Du, “Optical precursors,” Physics 42, 315 (2013). [in Chinese]
 
54. Chang Liu, Shanchao Zhang, Luwei Zhao, Peng Chen, C. -H. F. Fung, H. F. Chau, M. M. T. Loy, and Shengwang Du, “Differential-phase-shift quantum key distribution using heralded narrow-band single photons,” Opt. Express 21, 9505 (2013).
 
53. Dingdi Wang, Wenhao Guo, Juanmei Hu, Fang Liu, Lisheng Chen, Shengwang Du, and Zikang Tang, “Estimating atomic sizes with Raman spectroscopy,” Sci. Rep. 3, 1486 (2013).
 
52. Shuigang Xu, Chun Cheng, Wenhao Guo, Yuheng He, Rui Huang, Shengwang Du, and Ning Wang, “Tuning the optical and electrical properties of hydrothermally grown ZnO nanowires by sealed post annealing treatment,” Solid State Comm. 160, 41 (2013).
 
51. Yi-Hsin Chen, Meng-Jung Lee, I-Chung Wang, Shengwang Du, Yong-Fan Chen, Ying-Cheng Chen, and Ite A. Yu, “Coherent optical memory with high storage efficiency and large fractional delay,” Phys. Rev. Lett. 110, 083601 (2013).

2012

50. Shanchao Zhang, Chang Liu, Shuyu Zhou, Chih-Sung Chuu, M. M. T. Loy, and Shengwang Du, “Coherent control of single-photon absorption and reemission in a two-level atomic ensemble,” Phys. Rev. Lett. 109, 263601 (2012).
 
49. Shuigang Xu, Wenhao Guo, Shengwang Du, M. M. T. Loy, and Ning Wang, “Piezotronic effects on the optical properties of ZnO nanowires,” Nano Lett. 12, 5802 (2012).
 
48. Shuyu Zhou, Shanchao Zhang, Chang Liu, J. F. Chen, Jianming Wen, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, “Optimal storage and retrieval of single-photon waveforms,” Opt. Express 20, 24124 (2012).
 
47. J. F. Chen and Shengwang Du, “Narrowband photon pair generation and waveform reshaping,” Front. Phys. 7, 494 (2012).
 
46. Shanchao Zhang, J. F. Chen, Chang Liu, Shuyu Zhou, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, “A dark-line two-dimensional magneto-optical trap of 85Rb atoms with high optical depth,” Rev. Sci. Instrum. 83, 073102 (2012).
 
45. Chang Liu, J. F. Chen, Shanchao Zhang, Shuyu Zhou, Yoon-Ho Kim, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, “Two-photon interferences with degenerate and nondegenerate paired photons,” Phys. Rev. A 85, 021803(R) (2012). [Rapid Communication]
 
44. Juanmei Hu, Dingdi Wang, Wenhao Guo, Shengwang Du, and Z. K. Tang, “Reversible control of the orientation of iodine molecules inside the AlPO4-11 crystals“, J. Phys. Chem. C 116, 4423 (2012).
 
43. Rui Huang, Shuigang Xu, Xiang Wang, Wenhao Guo, Chao Song, Jie Song, Kin Ming Ho, Shengwang Du, and Ning Wang, "Effective control of photoluminescence from ZnO nanowires by a-SiNx:H decoration," Opt. Lett. 37, 211 (2012).

2011

42. Shanchao Zhang, Shuyu Zhou, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, “Optical storage with electromagnetically induced transparency in a dense cold atomic ensemble,” Opt. Lett. 36, 4530 (2011).
 
41. Rui Huang, Shuigang Xu, Wenhao Guo, Lin Wang, Jie Song, Tsz-Wai Ng, Jianan Huang, Shuit-Tong Lee, Shengwang Du, and Ning Wang, “Nitrogen deep accepters in ZnO nanowires induced by ammonia plasma,” Appl. Phys. Lett. 99, 143112 (2011).
 
40. Jian-Jun Song, Shengwang Du, and Bradley A. Foreman, “Atomic magnetometer based on double-dark-state system,” Phys. Lett. A 375, 3296 (2011).
 
 
38. Shanchao Zhang, J. F. Chen, Chang Liu, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, “Optical precursor of a single photon,” Phys. Rev. Lett. 106, 243602 (2011). [Editors’ Suggestion]
[Highlighted as APS Physcis Synopsis: “Single photons obey the speed limits”]
 
37. Shaoqi Feng, Xianshu Luo, Shengwang Du, and Andrew W. Poon, “Electro-optical tunable time delay and advance in a silicon feedback-microring resonator,” Opt. Lett. 36, 1278 (2011).
 
 
35. Jianming Wen, Shengwang Du, Huanyang Chen, and Min Xiao, “Electromagnetically induced Talbot effect,” Appl. Phys. Lett. 98, 081108 (2011).
 
34. Yadong Xu, Shengwang Du, Lei Gao, and Huanyang Chen, “Overlapped illusion optics: A perfect lens brings a brighter feature,” New. J. Phys. 13, 023010 (2011);
 
33. Wenhao Guo, Dingdi Wang, Juanmei Hu, Z. K. Tang, and Shengwang Du, “Raman spectroscopy of iodine molecules trapped in zeolite crystals,” Appl. Phys. Lett. 98, 043105 (2011).
 
32. Hui Yan, Shanchao Zhang, J. F. Chen, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, “Generation of narrow-band hyperentangled nondegenerate paired photons,” Phys. Rev. Lett. 106, 033601 (2011).

2010

31. J. F. Chen, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, “Optical precursors with finite rise and fall time,” J. Opt. 12, 104010 (2010).
 
30. Jianming Wen, Yan-Hua Zhai, Shengwang Du, and Min Xiao, “Engineering biphoton wave packets with an electromagnetically induced grating,” Phys. Rev. A 82, 043814 (2010).
 
29. Jianming Wen, Shengwang Du, and Min Xiao, "Improving spatial resolution in quantum imaging beyond the Rayleigh diffraction limit using multiphoton W entangled states," Phys. Lett. A 374, 3908 (2010).
 
28. J. F. Chen, Heejeong Jeong, L. Feng, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, “Stacked optical precursors from amplitude and phase modulations,” Phys. Rev. Lett. 104, 223602 (2010).
 
27. J. F. Chen, Weixin Lu, Shuyuan Wang, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, “Two-photon free-induction decay with electromagnetically induced transparency,” Opt. Lett. 35, 1923 (2010).
 
26. J. F. Chen, Shanchao Zhang, Hui Yan, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, “Shaping biphoton temporal waveforms with modulated classical fields,” Phys. Rev. Lett. 104, 183604 (2010).
 
25. J. F. Chen, Shuyuan Wang, Dong Wei, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, "Optical coherent transients in cold atoms: from free-induction decay to optical precursors," Phys. Rev. A 81, 033844 (2010).
 
 

2009

22. Dong Wei, J. F. Chen, M. M. T. Loy, G. K. L. Wong, and Shengwang Du, “Optical precursors with electromagnetically induced transparency in cold atoms,” Phys. Rev. Lett. 103, 093602 (2009). [Editors’ Suggestion]
 
21. Chinmay Belthangady, Shengwang Du, Chih-Sung Chuu, G.Y. Yin, and S.E. Harris, “Modulation and measurement of time-energy entangled photons,” Phys. Rev. A 80, 031803(R) (2009). [Rapid Communication]
 
20. Shengwang Du, Jianming Wen, and Chinmay Belthangady, “Temporally shaping biphoton wave packets with periodically modulated driving fields,” Phys. Rev. A 79, 043811 (2009).
 
 

2008

17. Shengwang Du, Jianming Wen, and Morton H. Rubin, “Narrowband biphoton generation near atomic resonance,” J. Opt. Soc. Am. B 25, C98 (2008).
 
16. Jianming Wen, Shengwang Du, Morton H. Rubin, and Eun Oh, “Two-photon beating experiment using biphotons generated from a two-level system,” Phys. Rev. A 78, 033801 (2008).
 
15. Shengwang Du, Chinmay Belthangady, Pavel Kolchin, G. Y. Yin, and S. E. Harris, "Observation of optical precursors at the biphoton level," Opt. Lett. 33, 2149 (2008).
 
14. Pavel Kolchin, Chinmay Belthangady, Shengwang Du, G. Y. Yin, and S. E. Harris, "Electro-optic modulation of single photons," Phys. Rev. Lett. 101, 103601 (2008).
[Physical Review Focus news story: Shaping Single Photons]
 
13. Shengwang Du, Pavel Kolchin, Chinmay Belthangady, G.Y. Yin, and S.E. Harris, "Subnatural linewidth biphotons with controllable temporal length," Phys. Rev. Lett. 100, 183603 (2008).
 
12. Jianming Wen, Shengwang Du, Yanpeng Zhang, Min Xiao, and Morton H. Rubin, "Nonclassical light generation via a four-level inverted-Y system," Phys. Rev. A 77, 033816 (2008).

2007

11. Frank Moscatelli, Charles Sackett, Shengwang Du, and Eun Oh, "Far-off-resonant ring trap near the ends of optical fibers," Phys. Rev. A 76, 043404 (2007).
 
10. Jianming Wen, Shengwang Du, and Morton H. Rubin, "Spontaneous parametric down-conversion in a three-level system," Phys. Rev. A 76, 013825 (2007).
 
9. Shengwang Du, Eun Oh, Jianming Wen, and Morton H. Rubin, "Four-wave mixing in three-level systems: Interference and entanglement," Phys. Rev. A 76, 013803 (2007).
 
8. Jianming Wen, Shengwang Du, and Morton H. Rubin, "Biphoton generation in a two-level atomic ensemble," Phys. Rev. A 75, 033809 (2007).
 
7. Shengwang Du, Jianming Wen, Morton H. Rubin, and G.Y. Yin, "Four-wave mixing and biphoton generation in a two-level system," Phys. Rev. Lett. 98, 053601 (2007).

2006

6. Pavel Kolchin, Shengwang Du, Chinmay Belthangady, G. Y. Yin, and S. E. Harris, "Generation of narrow-bandwidth paired photons: Use of a single driving laser," Phys. Rev. Lett. 97, 113602 (2006).

2004

5. Shengwang Du, Matthew B. Squires, Yutaka Imai, Leslie Czaia, R.A. Saravanan, Victor Bright, Jakob Reichel, T. W. Hansch, and Dana Z. Anderson, "Atom-chip Bose-Einstein condensation in a portable vacuum cell," Phys. Rev. A 70 , 053606 (2004).

2000

1999

1998

2. Y. D. Dai, S. G. Wang, and S. W. Du, "Probing pairing symmetry of superconductors by using rf SQUID," Solid State Communications 108 , 251 (1998).

1997

1. Qi Ming, Du Shengwang, Wang Xiaohua, "The Monte-Carlo simulation for detective performance of Si micro-strip detectors," Journal of Nanjing University (Natural Science) 33 , 527 (1997 ).

Conference Proceedings

1. Ruilin Zhou, Xuanying Lai, Yuhang Gan, Katia Obraczka, Shengwang Du, and Chen Qian, "A Simulator of Atom-Atom Entanglement with Atomic Ensembles and Quantum Optics," 2023 IEEE International Conference on Quantum Computing and Engineering (QCE), Bellevue, WA, USA, 2023, pp. 1271-1277, doi: 10.1109/QCE57702.2023.00143.

Patents

7. Shengwang Du, Junwei Liu, Ying Zuo, Bohan Li, Yujun Zhao, Yue Jiang, Peng Chen, You-Chiuan Chen, "All optical neural network," US Patent No.: US 12,229,662 B2 (2025).
 
6. Ming Tak Michael Loy, Shengwang Du, Teng Zhao, Sze Cheung Lau, Ying Wang, Yumian Su, "Methods and systems for generating non-diffracting light sheets for multicolor fluorescence microscopy," US Patent No.: US 10,942,346 B2 (2021); European Patent No.: EP 3,298,449 B1 (2022); China Patent No.: CN 107003509 (2021).
 
5. Ying Wang, Daiying Xu, Shengwang Du, Luning Wang, Lujia Yu, Wen Qi, "Three-channel fluorescence localization super-resolution biological microscope system and method," US Patent No.: US 10,914,680 B2 (2021).
 
4. Michael M T Loy, Shengwang Du, Teng Zhao, and Ying Wang, "Methods and systems for deep-cell super-resolution biological imaging," China Patent No.: CN 104458683 B (2018).
 
3. Teng Zhao, Michael M T Loy, and Shengwang Du, "A two-color super-resolution fluorescence localization microscope," China Patent No.: CN 104515760 B (2017); "Two-color fluorescence localization super-resolution biological microscopy method and system," US Patent No.: US 10,151,697 B2 (2018).
 
2. Shengwang Du, Shanchao Zhang, Shuyu Zhou, Guang Yu Yin, and Chinmay Belthangady, “Two-dimensional magneto-optical trap for neutral atoms,” US Patent No.: US 8,835,833 B2 (2014); China Patent No.: CN 102969038 B (2016).
 
1. Jing Jing Yu and Shengwang Du, “Interchangeable LED Bulbs,” US Patent No.: US 8,823,270 B2 (2014).

Links

Prof. Du’s Google Scholar Citations
Prof. Du’s Web of Science ResearcherID: IXN-3923-2023
Prof. Du’s ORCiD