| 2023 |
|
| |
|
 |
74. Yanghe Chen (陈洋河), Zhen Jiang (姜震), Guangqiang He* (何广强). Generation of hyperentangled photon pairs based on lithium niobate waveguide. Chinese Physics B, 32 (09), 090306 (2023).
https://doi.org/10.1088/1674-1056/acd5c4
|
| |
|
| 2022 |
|
| |
|
 |
73. Azka Umar, Guangqiang He, Chun Wang, and Chun Jiang. Constructing thermal phonon insulators by using photonic crystals. International Journal of Modern Physics B, 2022, 36(04): 2250038. |
| |
|
 |
72. Yi Huang, Minglong Li, Pu Tu, Haodong Zhu1 Junyu Xia, Guangqiang He, ZhenYu Yang and Ming Zhao, Multi-value phase grating fabrication using direct laser writing for generating a two-dimensional focal spot array, Journal of Optics, 24, 055601 (2022). |
| |
|
 |
71. Zhen Jiang, Chaoxiang Xi, Guangqiang He and Chun Jiang, Topologically protected energy-time entangled biphoton states in photonic crystals, Journal of Physics D: Applied Physics, 55, 315104 (2022).
https://doi.org/10.1088/1361-6463/ac6f2d
|
| |
|
 |
70. Lefeng Zhou, Yang Shen, Chaoxiang Xi, Xin Huang and Guangqiang He*, Computer-controlled microresonator soliton comb system automating soliton generation and expanding excursion bandwidth, Optics Continuum 1 (2), 161 (2022)
https://doi.org/10.1364/OPTCON.444797
|
| |
|
| 2021 |
|
| |
|
 |
69. Xiao Shunyuan, Yan Jiahao, Hu Tie, Wang Ziwei, He Guangqiang, Zhao Ming, Yang Zhenyu, Research on Calibration of Polarization Detection Reconstruction Matrix Based on Metalens, Acta Optica Sinica, 41 (20): 2012006 (2021). |
| |
|
 |
68. Xing Feng, Yuxi Wang, Yunxuan Wei, Tie Hu, Shunyuan Xiao, Guangqiang He, Ming Zhao*, Jinsong Xia*, and Zhenyu Yang*, Optical Multiparameter Detection System Based on a Broadband Achromatic Metalens Array, Advanced Optical Materials 9, 2100772 (2021)
|
| |
|
 |
67. Zhen Jiang, Yizhou Ding, Chaoxiang Xi, Guangqiang He*, and Chun Jiang*, Topological protection of entangled photon pairs in valley photonic crystals, Nanophotonics 10 (16): 4019-4026 (2021)
https://doi.org/10.1515/nanoph-2021-0371
|
| |
|
 |
66. Xipeng An, Yue Cao, Yunxuan Wei, Zhihao Zhou, Tie Hu, Xing Feng, Guangqiang He, Ming Zhao, and Zhenyu Yang*, Broadband achromatic metalens design based on deep neural networks, Optics Letters 46(16), 3881-3884 (2021) |
| |
|
 |
65. Xinyu Chen, Hao Ming, Chenjia Li, Guangqiang He and Fang Zhang*, Two-stage artificial neural network-based burst-subcarrier joint equalization in nonlinear frequency division multiplexing systems, Optics Letters 46(7), 1700 (2021)
|
| |
|
| 2020 |
|
| |
|
 |
64. Junhao Liu, Guangqiang He, Qin Wu, Yafei Yu, Jindong Wang* and Zhiming Zhang*, Fraction-order sideband generation in an optomechanical system, Optics Letters 45(18), 5169 (2020)
|
| |
|
 |
63. Yuxi Wang, Zhaokun Wang, Xing Feng, Ming Zhao, Cheng Zeng, Guangqiang He, Zhenyu Yang, Yu Zheng and Jinsong Xia, Dielectric metalens-based Hartmann-Shack array for high-efficiency optical multi-parameter detection system, Photonics Research,8 (4), 482 (2020) |
| |
|
.png) |
62. Aiguo Sheng, Chaoxiang Xi, Zhenyu Yang, Xiaoshun Jiang, and Guangqiang He, Quadratic Soliton Combs in Doubly Resonant Dispersive Optical Parametric Oscillators, IEEE Photonics Journal, 12(2), 6100607 (2020).
https://doi.org/10.1109/JPHOT.2020.2966533
|
| |
|
 |
61. Jia Wang (王佳), Aiguo Sheng (盛爱国), Xin Huang (黄鑫), Rongyu Li (李荣玉), and Guangqiang He (何广强), Eigenvalue spectrum analysis for temporal signals of Kerr optical frequency combs based on nonlinear Fourier transform, Chinese Physics B, 29 (3), 034207 (2020).
https://doi.org/10.1088/1674-1056/ab683a
|
| |
|
| 2019 |
|
| |
|
 |
60. Jia Wang, Yilong Zhao, Xin Huang and Guangqiang He*. High Speed Polarization-Division Multiplexing Transmissions Based on the Nonlinear Fourier Transform, ZTE COMMUNICATIONS 17, 3 (2019).
https://doi.org/10.12142/ZTECOM.201903008
|
| |
|
 |
59. Jiyang Ma, Longfu Xiao, Jiaxin Gu, Hao Li, Xinyu Cheng, Guangqiang He, Xiaoshun Jiang*, and Min Xiao, Visible Kerr comb generation in a high-Q silica microdisk resonator with a large wedge angle, Photonics Research. 7, 573-578 (2019) |
| |
|
| 2018 |
|
 |
58. Can Yang, Chaoxiang Xi, Jietai Jing, and Guangqiang He*, Counterpropagating path-entangled photon pair sources based on simultaneous spontaneous parametric down-conversion processes of nonlinear photonic crystal, Optics Express (2018) 26 (21):27945-27954.
https://doi.org/10.1364/OE.26.027945
|
| |
|
|
|
57. Can Yang, Cheng Ma, Linxi Hu, and Guangqiang He*, A Hierarchical Modulation Coherent Communication Scheme for Simultaneous Four-State Continuous-Variable Quantum Key Distribution and Classical Communication, International Journal of Theoretical Physics (2018) 57, 2775-2786.
https://doi.org/10.1007/s10773-018-3798-z
|
| |
|
| 2017 |
|
 |
56. Guangqiang He*, Yu Sun, Linxi Hu, Renhui Zhang, Xikun Chen, and Jindong Wang, Five-partite entanglement generation between two optical frequency combs in a quasi-periodic chi^2 nonlinear optical crystal, Scientific Reports, (2017) 7: 9054. |
| |
|
 |
55. Guangqiang He*, Luning Wang, Chenyang Li, Siyu Liu, and Weisheng Hu, Spectral function modulation based on nonlinear frequency division multiplexing, Scientific Reports, (2017) 7: 6058. |
| |
|
 |
54. Guangqiang He*, Chengrui Zhu, Yao Jiang, Jie Ren, Ying Guo, and Jietai Jing, Generation of path-polarization hyperentanglement using quasi-phase-matching in quasi-periodic nonlinear photonic crystal, Scientific Reports (2017) 7: 4954. |
| |
|
 |
53. Guangqiang He*, Linxi Hu and Rongyu Li, Highly efficient integrated generator of tripartite entanglement from chi^2 whispering gallery microresonator, International Journal of Theoretical Physics (2017) 56, 2458-2466. |
| |
|
 |
52. Linxi Hu, Can Yang and Guangqiang He*, Performance analysis of quantum access network using code division multiple access model, Chinese Physics B (2017) 26 (6), 060304 |
| |
|
|
2016
|
|
 |
51. Zitong Xiong, Jian Ruan, Rongyu Li, Zhi-Ming Zhang and Guangqiang He*, Soliton Formation with Controllable Frequency Line Spacing Using Dual-pump in Microresonator, Chinese Optics Letters (2016) 14 (12), 121903. |
| |
|
 |
50. Yadong Wu, Jian Zhou, Xinbao Gong, Ying Guo, Zhiming Zhang and Guangqiang He*, Continuous variable measurement device independent multipartite quantum communication, Physical Review A (2016) 93, 022325
|
| |
|
 |
49. Chenyang Li, Ruihang Miao, Xinbao Gong, Ying Guo and Guangqiang He*, Performance improvement of two-way quantum key distribution by using a noiseless amplifier, International Journal of Theoretical Physics (2016) 55, 2199-2211
|
| |
|
 |
48. Jianwu Liang, Jian Zhou, Jinjing Shi*, Guangqiang He and Ying Guo, Improving continuous-variable quantum key distribution using the heralded noiseless linear amplifier with source in middle, International Journal of Theoretical Physics, (2016) 55, 1156-1166 |
| |
|
| 2015 |
|
 |
47. L. L. Lu(陆亮亮), P. Xu(徐平)*, J. N. Xu(徐建宁) G. Q. He(何广强), and S. N. Zhu(祝世宁), Theoretical analysis of spectral correlations between photon pairs generated in nanoscale silicon waveguides, Communications in Theoretical Physics (2015)64, 735-740 |
| |
|
|
|
46. Yutian Wen, Xufei Wu, Rongyu Li, Qiang Lin and Guangqiang He*, Five-partite entanglement generation in a high-Q microresonator, Physical Review A (2015) 91, 042311
|
| |
|
|
|
45. Ronghuan Yang, Chenyang Li and Guangqiang He*, Optimal Control of Continuous Variable Quantum Dense Coding Under Bosonic Structured Environments, International Journal of Theoretical Physics (2015), 54(7), 2312-2320
|
| |
|
|
|
44. Ronghuan Yang and Guangqiang He*, The influence on secret key rate of faraday mirror’s imperfection in continuous variable quantum key distribution, Acta Photonica Sinica (2015) 44(2): 0227001
|
| |
|
| 2014 |
|
|
|
43. Jiahao Zhang and Guangqiang He*, Quantum network dense coding via continuous-variable graph states, Quantum Information Processing (2014) 13:2437-2450
|
| |
|
|
|
42. Jun Zhang,Guangqiang He and Feng He*, Optimal laser pulse design for transferring the coherent nuclear wave packet of H2, Molecular Physics (2014) 112:14, 1929-1937
|
| |
|
|
|
41. Yadong Wu*, Yunze Cai, Guangqiang He and Jun Zhang, Quantum secret sharing with continuous variable graph state, Quantum Information Processing (2014) 13: 1085-1102
|
| |
|
| 2013 |
|
|
|
40. Guangqiang He*,Taizhi Liu and Xin Tao, The multiparty coherent channel and its implementation with linear optics, Optics Express (2013) 21 (17):19790-19798
|
| |
|
|
|
39. Jian Fang, Peng Huang, Yuan Lu, Guangqiang He and Guihua Zeng, Discretely modulated continuous-variable quantum key distribution with a non-deterministic noiseless amplifier, International Journal of Quantum Information (2013) 11(4): 1350037
|
| |
|
|
|
38. Peng Huang, Guangqiang He and Guihua Zeng, Bound on noise of coherent source for secure continuous-variable quantum key distribution, International Journal of Theoretical Physics (2013) 52:1572-1582
|
| |
|
|
|
37. Zeyuan Shen, Jian Fang, Guangqiang He and Guihua Zeng, Synchronous scheme and experimental realization in CV-QKD system, Chinese Journal of Lasers (2013) 40(3), 0305004 (in Chinese)
|
| |
|
|
|
36. Peng Huang, Guangqiang He*, Jian Fang and Guihua Zeng, Performance improvement of continuous-variable quantum key distribution via photon subtraction, Physical Review A (2013) 87, 012317
|
| |
|
|
|
35. Xiaoqi Xiao, Jun Zhu, Guangqiang He and Guihua Zeng, A scheme for generating a multi-photon NOON state based on cavity QED, Quantum Information Processing (2013) 12:449-457
|
| |
|
| 2012 |
|
|
|
34. Yujing Qian, Zhean Shen and Guangqiang He* and Guihua Zeng, Quantum cryptography network via continuous-variable graph states, Physical Review A (2012) 86, 052333
|
| |
|
 |
33. Xilang Zhou, Guangqiang He, Junyan Wang and Xuguang Li, Teaching Reform and Practice to Plateform Course on Electromagnetic Field, Journal of EEE, (2012) 34(3), 29 (in Chinese)
|
| |
|
|
|
32. Peng Huang, Jun Zhu, Xiaoqi Xiao, Guangqiang He and Guihua Zeng, Different dynamics of classical and quantum correlations under decoherence, Quantum Information Processing (2012) 11 (6), 1845-1865
|
| |
|
|
|
31. Heng Zhang, Jian Fang and Guangqiang He*, Improving the performance of the four-state continuous-variable quantum key distribution by using optical amplifiers, Physical Review A (2012) 86, 022338
|
| |
|
|
|
30. Peng Huang, Jun Zhu, Guangqiang He and Guihua Zeng, Study on the security of discrete-variable quantum key distribution over non-Markovian channels, Journal of Physics B: Atomic, Molecular and Optical Physics (2012) 45, 135501
|
| |
|
 |
29. Yi Gu, Guangqiang He*, Xufei Wu, Generation of six-partite continuous-variable entanglement using a nonlinear photonic crystal by frequency conversions, Physical Review A (2012) 85, 052328
|
| |
|
 |
28. Lang Jiang, Guangqiang He*, Ding Nie, Jin Xiong and Guihua Zeng, Quantum anonymous voting for continuous variable, Physical Review A (2012) 85,042309
|
| |
|
 |
27. Yanyang Zhu, Guangqiang He* and Guihua Zeng, Unbiased quantum random number generation based on squeezed vacuum state, International Journal of Quantum Information (2012) Vol. 10, No. 1, 1250012
|
| |
|
| 2011 |
|
 |
26. Guangqiang He* and Jingtao Zhang,Comment on “Teleportation of two-mode squeezed states”, Physical Review A (2011) 84, 046301
|
| |
|
 |
25. Guangqiang He*, Jun Zhu and Guihua Zeng, Deterministic quantum key distribution based on Gaussian-modulated squeezed states, Communications in Theoretical Physics 56 (2011) 664-668
|
| |
|
 |
24. Guangqiang He*, Jingtao Zhang, Jun Zhu and Guihua Zeng, Continuous variable quantum teleportation under Bosonic structured environments, Physical Review A (2011) 84, 034305
|
| |
|
 |
23. Peng Huang, Guangqiang He, Jun Zhu and Guihua Zeng, Nonadditivity of quantum capacities of quantum multiple access channel and butterfly network, Physica Script (2011) 84, 045013
|
| |
|
 |
22. Jingtao Zhang, Guangqiang He*, Guihua Zeng, The dependence of fidelity on the squeezing parameter in teleportation of the squeezed coherent states, Chinese Physics B (2011) Vol. 20, No. 5, 050311
|
| |
|
 |
21. Peng Huang, Guangqiang He, Guihua Zeng, Quantum capacity of Pauli channels with memory, Physica Scripta (2011) 83, 015005
|
| |
|
| 2009 |
|
 |
20. Jingtao Zhang, Guangqiang He*, Guihua Zeng, Equivalence of continuous variable stabilizer states under local Clifford operations, Physical Review A (2009) 80, 052333
|
| |
|
 |
19. Xudong Qian, Guangqiang He, Guihua Zeng, Realization of error correction and reconciliation of continuous quantum key distribution in detail, Science in China Series F-Information Sciences (2009) Vol. 52, No.9, pp.1598-1604
|
| |
|
 |
18. Zhi Yi, Guangqiang He, Guihua Zeng, Quantum voting protocol using two-mode squeezed states, Acta Physica Sinica (2009) vol.58, no.5, pp.3166 (in Chinese)
|
| |
|
| 2008 |
|
 |
17. Guangqiang He*, Jingtao Zhang, Guihua Zeng, Teleportation of Continuous Variable Multimode Greeberger-Horne-Zeilinger Entangled States, Journal of Physics B: Atomic, Molecular and Optical Physics (2008) 41, 215503 |
| |
|
 |
16. Lijie Ren, Guangqiang He*, Guihua Zeng, Universal teleportation via continuous-variable graph states, Physical Review A (2008) 78, 042302
|
| |
|
 |
15. Ding Nie, Guangqiang He*, Guihua Zeng, Controlled teleportation of continuous variables, Journal of Physics B: Atomic, Molecular and Optical Physics (2008) 41, 175504 |
| |
|
 |
14. Guangqiang He*, Siwei Zhu, Hongbin Guo, Guihua Zeng, Security of quantum key distribution using two-mode squeezed states against optimal beam splitter attack, Chinese Physics B (2008) vol.17, no. 4, pp.1263 |
| |
|
 |
13. Guangqiang He*, Hongbin Guo, Yudan Li, Siwei Zhu, Guihua Zeng, Quantum key distribution using binary-modulated coherent states, Acta Physica Sinica (2008) vol.57, no.4, pp.2212 (in Chinese) |
| |
|
| 2007 |
|
 |
12. Guihua Zeng, Moonho Lee, Ying Guo, Guangqiang He, Continuous Variable Quantum Signature Algorithm, International Journal of Quantum Information (2007) vol.5, no.3, pp.553
|
| |
|
 |
11. Guangqiang He*, Zhi Yi, Jun Zhu, Guihua Zeng, Quantum key distribution using two-mode squeezed states, Acta Physica Sinica (2007) vol.56, no.11 pp.6427 (in Chinese)
|
| |
|
 |
10. Qian Wang, Jun Zhu, Guangqiang He, Guihua Zeng, Study on the design of DPC drive modular and performance monitored system based on embedded controller, Journal of Optoelectronics·Laser (2007) vol.18, no.10, pp.1176 (in Chinese)
|
| |
|
 |
9. Jun Zhu, Guangqiang He, Guihua Zeng, Security analysis of continuous-variable quantum key distribution scheme, Chinese Physics (2007) vol.16, no.5, pp.1364
|
| |
|
 |
8. Guangqiang He*, Guihua Zeng, Jun Zhu, Zheshen Zhang, Qian Wang, Xiaoqi Zhou, Xudong Qian, Jinye Peng, An integrable optic-fiber coherent state quantum identification system, Chinese Journal of Lasers (2007) Vol.34, No.7, pp.924 (in Chinese) |
| |
|
| 2006 |
|
 |
7. Guangqiang He*, Jun Zhu, Guihua Zeng, Quantum secure communication using continuous variable Einstein-Podolsky-Rosen correlations, Physical Review A (2006) 73, 012314
|
| |
|
 |
6. Jinye Peng, Guangqiang He, Jin Xiong, Guihua Zeng, Trojan horse attack strategy on quantum private communication, LNCS (2006) 3903, pp. 177
|
| |
|
 |
5. Guangqiang He*, Guihua Zeng, A quantum identification scheme based on phase modulation, Chinese Journal of Electronics (2006) vol.15, no.1, pp.156
|
| |
|
 |
4. Guangqiang He*, Guihua Zeng, A secure identification system using coherent states, Chinese Physics (2006) vol.15, no.2, pp.371
|
| |
|
 |
3. Guangqiang He*, Guihua Zeng, Deterministic quantum key distribution based on Gaussian-modulated EPR correlations, Chinese Physics (2006) vol.15, no.6, pp.1284
|
| |
|
 |
2. Guangqiang He*, Guihua Zeng, Quantum encryption protocol based on continuous variable EPR correlations, Communications in Theoretical Physics (2006) 46, pp.61
|
| |
|
| 2005 |
|
 |
1.Guangqiang He*, Guihua Zeng, A quantum identification scheme based on polarization modulation, Chinese Physics (2005) 14, pp.541
|