王旭阳 副教授 硕士生导师
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王旭阳,男,1984年生,山西省长治市壶关县人,副教授,硕士生导师,主要从事连续变量量子保密通信和硅基光电子芯片的研究,在量子态的制备、传输、测量,实际安全性,硅基光电子芯片的布局、流片和测试等方面具有丰富的专业知识和研究基础。2018年,入选山西省三晋英才支持计划青年优秀人才。2019年,以博士后身份赴南洋理工大学量子工程中心进行硅基光电子芯片的学习和交流。主持和参与完成国家重点研发等多项国家和省部级项目。目前已在Optica, NPJ Quantum Information, Laser & Photonics Review, IEEE J. Lightwave technol., ACS photonics 等国内外重要学术期刊发表SCI论文六十余篇,被引用九百余次;授权发明专利20余项,含两项美国国际专利,其中多项专利已实现技术转化;参与制订中国通信行业标准3项。

 

邮箱:wangxuyang@sxu.edu.cn

 

教育经历:

2010-09 2013-07, 山西大学, 光学, 博士

2007-09 2010-07, 山西大学, 光学, 硕士

2003-09 2007-07, 山西大学, 物理学(国家基地), 学士

 

工作经历:

2013-12 , 山西大学, 光量子技术与器件全国重点实验室,光电研究所

2018-12 2019-12, 南洋理工大学,博士后

 

主持的科研项目:

1.国家自然科学基金-青年基金,双高斯调制相干态远程连续变量量子密钥分配研究,115042192016/01-2018/12,结题

2.山西省回国留学人员科研教研资助项目,连续变量量子通信中散粒噪声极限特性的研究,2022-016, 2022/08-2025/08 , 在研

3.山西省基础研究计划(自由探索类),硅基低损耗动态偏振控制器及其在连续变量量子密钥分发中的应用研究,2021030212240102022/01-2024/12,结题

 

课程教学:量子光学、工程软件技术基础

 

代表性论文:

1. Y. X. Jia; X. Y. Wang; Y. Z. Hou; Y. Zhang; Y. Q. Shi; Q. Zhang; J. Zhou; Y. M. Li ; Calibration of cascaded phase shifters using pairwise scan method in silicon photonics

integrated chip, J. lightwave technol. DOI: 10.1109/JLT.2024.3525039, 2025

2. Xuyang Wang*, Tao Zheng, Yanxiang Jia, Jin Huang, Xinyi Zhu, Yuqi Shi, Ning Wang, Zhenguo Lu, Jun Zou and Yongmin Li*, Compact Quantum Random Number Generator Based on a Laser Diode and a Hybrid Chip with Integrated Silicon Photonics, Photonics, 11, 468, 2024.

3. Y. J. Zhang, X, Y, Wang*, Y. Zhang, N. Wang, Y. X. Jia, Y. Q. Shi, Z. G. Lu, J. Zou, Y. M. Li*, Four-state discrete modulation continuous variable quantum key distribution based on hardware synchronization, Acta. Phys. Sin., 73(6), 060302, 2024.

4. Q. R. Zhao, X. Y. Wang*, Y. X. Jia, Y. J. Zhang, Z. G. Lu, Y. Qian, J. Zou, Y. M. Li*, High precision auto-balance of the time-domain pulsed homodyne detector, Acta. Phys. Sin., 73(2), 024205, 2024.

5. 郭旭波, 王旭阳*, 贾雁翔, 张瑜, 侯一卓, 李永民, 具有时钟恢复和功率监测功能的时域平衡零拍探测器, 量子光学学报, 30(2), 020201, 2023.

6. X. Y. Wang*, X. B. Guo, Y. X. Jia, Y. Zhang, Z. G. Lu, J. Q. Liu, Y. M. Li*, Accurate shot-noise-limited calibration of a time-domain balanced homodyne detector for continuous-variable quantum key distribution, J. lightwave technol., 41(17), 5518-5528, 2023. 

7. Y. X. Jia, X. Y. Wang*, X. Hu, X. Hua, Y. Zhang, X. B. Guo, S. X. Zhang, X. Xiao*, S. H. Yu, J. Zou, and Y. M. Li*, Silicon photonics-integrated time-domain balanced homodyne detector in continuous-variable quantum key distribution, New J. Phys. 25, 103030, 2023.  

8. X. Y. Wang*, Y. X. Jia, X. B. Guo, J. Q. Liu, S. F. Wang, W. Y. Liu, F. Y. Sun, J. Zou, and Y. M. Li*, Silicon photonics integrated dynamic polarization controller, Chin. Opt. Lett., 20(4), 041301, 2022.

9. X. Y. Wang*, S. Y. Guo, P. Wang, W. Y. Liu, and Y. M. Li*, Realistic rate-distance limit of continuous-variable quantum key distribution, Opt. Express, 27(9), 13372-13386, 2019.

10. X. Y. Wang*, Y. X. Cao, Pu Wang, Y. M. Li*, Advantages of the coherent state compared with squeezed state in unidimensional continuous variable quantum key distribution, Quantum inf. Process., 17, 344, 2018.

11. Pu Wang, X. Y. Wang*, and Y. M. Li*. Security analysis of unidimensional continuous-variable quantum key distribution using uncertainty relations. Entropy, 2018, 20(3), 157.

12. P. Wang, X. Y. Wang*, J. Q. Li, and Y. M. Li*, Finite-size analysis of unidimensional continuous-variable quantum key distribution under realistic conditions, Opt. Express, 25(23), 27995-28009, 2017.

13. X. Y. Wang*, W. Y. Liu, P. Wang, and Y. M. Li†, Experimental study on all-fiber-based unidimensional continuous-variable quantum key distribution, Phys. Rev. A, 95, 062330, 2017. 

14. J. Q. Liu, X. Y. Wang*, Z. L. Bai, and Y. M. Li*. High precision auto-balance of the time-domain pulsed homodyne detector. Acta. Phys. Sin., 2016, 65(10), 100303, 2016.

15. X. Y. Wang, J. Q. Liu, X. F. Li, and Y. M. Li*, Generation of stable and high extinction ratio light pulses for continuous variable quantum key distribution, IEEE J. Quantum Elect., 51(6), 5200206, 2015. 

16. X. Y. Wang, Z. L. Bai, S. F. Wang, Y. M. Li*, and K. C. Peng. Four-state modulation continuous variable quantum key distribution over a 30-km fiber and analysis of excess noise. Chin. Phys. Lett., 30(1), 010305, 2013.

17. X. Y. Wang, Zengliang Bai, Pengyan Du, Yongmin Li*, and Kunchi Peng. Ultrastable fiber-based time-domain balanced homodyne detector for quantum communication. Chin. Phys. Lett.,29(12), 124202, 2012.

18. 王旭阳,白增亮,李永民,彭堃墀,全光纤分离调制连续变量量子密钥分发,计算机工程与科学,33(10), 57-59, 2011.

19. 王旭阳, 王文哲, 基于AT89S52单片机的温度控制系统, 国外电子测量技术, 28(8), 48-50, 2009.

20. Z. P. Fan, X. S. Yan, Z. Y. Li,* X. Ma, T. T. Lang, D. H. Dai, X. Y. Wang, and Jun Zou*, Ultracompact Polarization-Insensitive 1×N Silicon-Based Optical Wavelength Selective Switch by Leveraging I/O Waveguide Spacing Difference, ACS Photonics, 11, 53285338, 2024.

21. Z. P. Fan, X. S. Yan, X. Li, X. Ma, X. Y. Wang, J. Zou, Compact Arrayed Waveguide Gratings Fabricated on 800-nm-thick Si3N4 Photonic Integration Platform, J. lightwave technol. DOI: 10.1109/JLT.2025.3547494, 2025.

22. S. S. Liu, Y. Zhang, S. B. Ren, S. Qiu, Z. G. Lu, X. Y. Wang, and Y. M. Li, Experimental demonstration of complete quantum e-commerce based on an efficient quantum digital payment, Photonics Res., 13(3) , 572-582, 2025.

23. S. S. Liu, Y. Tian, Y. Zhang, Z. G. Lu, X. Y. Wang, Y. M. Li, Optica, 11(12), 1762-1772, 2024.

24. L. F. Li, H. N. Xiong, X. Li, X. F. Chen, C. H. Wang, Z. C. Le, X. Y. Wang, X. Ma, J. Zou*, Opt. Laser Technol., 175, 110817, 2024.

25. S. S. Liu, Z. Lu, P. Wang, Yan, T. X. Y. Wang, Y. M. Li*, “Experimental demonstration of multiparty quantum secret sharing and conference key agreement,” npj Quantum Inf. 9(1), 92, 2023.

26. P. Wang, Y. Zhang, Z. G. Lu, X. Y. Wang, and Yongmin Li, High-performance long-distance discrete-modulation continuous-variable quantum key distribution, New J. Phys., 25, 023019, 2023.

27. Y. Tian, Y. Zhang, S. S. Liu, P. Wang, Z. G. Lu, X. Y. Wang, and Y. M. Li, High-performance long-distance discrete-modulation continuous-variable quantum key distribution, Opt. Lett., 48(11), 2953-2956, 2023.

28. Y. Tian, P. Wang, J. Q. Liu, S. N. Du, W. Y. Liu, Z. G. Lu, X. Y. Wang, and Y. M. Li, Experimental demonstration of continuous variable measurement device independent quantum key distribution over optical fiber, Optica, 9(5), 492-500, 2022.

29. J. Zou*, L. F. Li, C. H. Wang, Y. Zhuang*, X. Y. Wang, J. H. Hu, S. B. Luo*, and J. J. He*, Novel high-resolution and large-bandwidth micro-spectrometer using multi-input counter-propagating arrayed waveguide grating and dual-wavelength grating coupler on silicon on insulator, Laser Photonics Rev., 17(2), 2200305, 2022.

30. J. Q. Liu, Y. X. Cao, P. Wang, S. S. Liu, Z. G. Lu, X. Y. Wang, Y. M. Li*, Impact of homodyne receiver bandwidth and signal modulation patterns on the continuous-variable quantum key distribution, Opt. Express, 30(15), 27912-27915, 2022.

31. J. Zou, L. F. Li, Y. Zhuang, C. H. Wang, M. Zhang, Z. C. Le, X. Y. Wang, G. Z. Cai, S. L.Feng and J. J. He, A polarization-insensitive high-resolution micro-spectrometer using (N + 3) × (N + 3) arrayed waveguide grating on SOI platform, IEEE J. lightwave technol., 41(1), 226-232, 2022.

32. J. Zou*, F. Y. Sun, C. H. Wang, M. Zhang, J. N. Wang, T. T. Lang, X. Y. Wang, Z. C. Le, J. J. He, Silicon-Based Arrayed waveguide gratings for WDM and spectroscopic analysis applications, Opt. Laser Technol., 147, 107656, 2022.

33. S. S. Yang, J. Q. Liu, Z. G. Lu, Z. L. Bai, X. Y. Wang, and Y. M. Li, An FPGA-based LDPC decoder with ultra-long codes for continuous-variable quantum key distribution, IEEE Access, 9, 47687-47697, 2021.

34. W. H. Zhang, R. X. Li, Y. J. Wang, X. Y. Wang, L. Tian, Y. H. Zheng, Security analysis of continuous variable quantum key distribution based on entangled states with biased correlations, Opt. Express, 29(14), 22623-22635, 2021.

35. J. Zou , X. Ma, X. Xia, C. H. Wang, M. Zhang , J. H. Hu , X. Y. Wang, and J. J. He, Novel wavelength multiplexer using (N + 1) ×(N + 1) arrayed waveguide grating and polarization-combiner-rotator on SOI platform, IEEE J. lightwave technol., 39(8), 2431-2437, 2021.  

36. Z. G. Lu, J. Q. Liu, X. Y. Wang, P. Wang, Y. M. Li*, and K. C. Peng, Quantum random number generator with discarding-boundary-bin measurement and multi-interval sampling, Opt. Express, 29(8), 12440-12453, 2021.

37. Z. G. Lu, S. S. Yang, J. Q. Liu, X. Y. Wang, and Y. M. Li, Efficient FPGA implementation of high-speed true random number generator, Rev. Sci. Instrum., 92, 024706, 2021.

38. W. Y. Liu , Y. X. Cao, X. Y. Wang, and Y. M. Li*, Continuous-variable quantum key distribution under strong channel polarization disturbance, Phys. Rev. A., 102, 032625, 2020. 

39. P. Wang, X. Y. Wang, and Y. M. Li*, Continuous-variable measurement device independent quantum key distribution with source-intensity errors, Phys. Rev. A., 102, 022609, 2020.

40. N. Wang, S. N. Du, W. Y. Liu, X. Y. Wang, and Y. M. Li*, Generation of Gaussian-modulated entangled states for continuous variable quantum communication, Opt. Lett., 44(15), 3613-3616, 2019.

41. P. Wang, X. Y. Wang, and Y. M. Li*, Continuous variable measurement device independent quantum key distribution using modulated squeezed states and optical amplifiers, Phys. Rev. A., 99, 042309, 2019.

42. N. Wang, S. N. Du, W. Y. Liu, X. Y. Wang, Y. M. Li, and K. C. Peng, W. Y. Liu, X. Y. Wang, N. Wang, S. N. Du, and Y. M. Li*. Imperfect state preparation in continuous-variable quantum key distribution, Phys. Rev. A, 96(4), 042312, 2017.

43. Q. Zhang, Z. Y. Li, X. Z. Tian, P. L. Hao, X. Y. Wang, and Y. M. Li, High-visibility,  high-strength, rapid-response, in-fiber optofluidic sensor, IEEE J. lightwave technol., 36(14), 2896-2902, 2018.

44. S. N. Du, Z. Y. Li, W. Y. Liu, X. Y. Wang, and Y. M. Li, High-speed time-domain balanced homodyne detector for nanosecond optical field applications, J. Opt. Soc. Am. B, 35(2), 481-486, 2018.

45. W. Y. Liu, X. Y. Wang, N. Wang, S. N. Du, and Y. M. Li*, Imperfect state preparation in continuous variable quantum key distribution, Phys. Rev. A, 96, 042312, 2017.

46. S. S. Yang, Z. L. Bai, X. Y. Wang, and Y. M. Li*. FPGA-based implementation of size-adaptive privacy amplification in quantum key distribution. Photon. J., 9(6), 7600308, 2017.

47. Y. M. Li*, X. Y. Wang, Z. L. Bai, W. Y. Liu, S. S. Yang, and K. C. Peng. Continuous variable quantum key distribution. Chin. Phys. B, 26(4), 040303, 2017.

48. Z. L. Bai, X. Y. Wang, S. S. Yang, and Y. M. Li*, High-efficiency Gaussian key reconciliation in continuous variable quantum key distribution. Sci. China Phys. Mech. Astron., 59(1), 044401,  2016.

49. D. H. Kong, Z. Y. Li, S. F. Wang, X. Y. Wang, and Y. M. Li*, Quantum frequency down-conversion of bright amplitude-squeezed states, Opt. Express, 22(20), 24192-24201, 2014.

50. Y. M. Li*, N. W., X. Y. Wang, and Z. L. Bai, Influence of guided acoustic wave Brillouin scattering on excess noise in fiber-based continuous variable quantum key distribution, J. Opt. Soc. Am. B, 31(10), 2379-2383, 2014.

51. 王少锋,王旭阳,白增亮,李永民,铌酸锂马赫-曾德尔调制器偏置工作点的一种锁定方法,量子光学学报,20(2), 167-171, 2014. 

52. 杜鹏燕, 白增亮, 王旭阳, 李永民, 量子密钥分发私密放大的实现, 量子光学学报,19(2), 129-133, 2013.

53. 赵军军,郭晓敏,王旭阳,王宁,李永民,铷原子吸收线波段双色连续变量纠缠态的实验制备,山西大学学报,36(2), 192-195, 2013.

54. D. H. Kong, Z. Y. Li, X. Y. Wang, and Y. M. Li*, Efficient generation of squeezed light based on MgO-doped periodically poled LiNbO3. Chin. Phys. Lett., 31(1), 014208, 2012.

55. J. J. Zhao, X. M. Guo, X. Y. Wang, N. Wang, Y. M. Li*, and K. C. Peng. Continuous variable entanglement distribution for long-distance quantum communication. Chin. Phys. Lett., 29(12), 124202, 2012.

56. 白增亮,王旭阳,杜鹏燕,李永民,连续变量量子密钥分发的数据逆向协调,量子光学学报,18(1), 23-26, 2012.

57. C. C. Liu, X. M. Guo, Z. L. Bai, X. Y. Wang, and Y. M. Li*. High-efficiency continuously tunable single-frequency doubly resonant optical parametric oscillator, App. Opt., 50(10), 1477-1481, 2011.

58. Y. M. Li*, X. M. Guo, X. Y. Wang, and K. S. Zhang. Observation of two-color continuous variable quantum correlation at 0.8 and 1.5 μm, J. Opt. Soc. Am. B, 27(4), 842-843, 2010.

59. X. M. Guo, X. Y. Wang, Y. M. Li*, and K. S. Zhang. Quantum noise limited tunable single-frequency Nd:YLF/LBO laser at 526.5 nm. App. opt., 48(33), 6475-6478, 2009.

 

专利与软著:

1.    王旭阳,郭旭波,李永民,贾雁翔,卢振国,刘建强,一种时域平衡零拍探测器散粒噪声极限的校准方法,202210725835 .82025.

2.    李永民,贾雁翔,王旭阳,卢振国,刘建强,张瑜,郭旭波,一种基于硅基光电子芯片的时域平衡零拍探测装置,202211059797 .3,中国发明专利,2025.

3.    王旭阳,李永民,刘建强,贾雁翔,卢振国,王少锋,李学锋,一种基于时域脉冲平衡零拍探测方案的量子随机数产生器,ZL 202011614925.7, 中国发明专利,2023.

4.    李永民,田岩,王旭阳,连续变量测量设备无关量子密钥分发系统及相位补偿方法,ZL 202111670733.2,中国发明专利,2023.

5.    李永民,王普,王旭阳,离散调制连续变量量子密钥分发态调制和密钥映射方法,ZL 202111456127.0, 中国发明专利,2022.

6.    李永民,刘文元,王旭阳,连续变量量子密钥分发系统脉冲光高速偏振锁定方法,ZL 201811406184.6, 中国发明专利,2022.

7.    王旭阳,李永民,刘建强,贾雁翔,卢振国,王少锋,一种连续变量量子密钥分发系统中内生量子随机数的方法, 中国发明专利,2022.

8.    李永民,刘文元,王旭阳, Pulsed light high speed polarization locking method of continuous variable quantum key distributionUS 11057202B2, 美国发明专利,2021.

9.    王少锋,贾雁翔,王旭阳,李学锋,李永民,一种输出方式灵活的新型偏压光电探测器, ZL 202022344246.4,中国实用新型专利,2021.

10. 王旭阳,李永民,One-dimensional modulation continuous variable quantum key distribution method. US 10911228B2, 美国发明专利,2021.

11. 李永民,杜珊娜,王旭阳,高速脉冲时域平衡零拍探测装置,ZL 201910926387.6,中国发明专利,2020.

12. 李永民,王普,张清萍,王旭阳,马俊明,张游杰,一种安全密钥速率计算方法及系统,ZL 201810883479.6,中国发明专利,2020.

13. 李永民,王宁,王旭阳,信号调制连续变量纠缠源的制备装置,ZL201710602457.3,中国发明专利,2019.

14. 王旭阳,李永民,一种实现一维调制连续变量量子密钥分发方法,ZL 201710230519.2,中国发明专利,2019.

15. 王旭阳,李永民,刘建强,可实现时域脉冲平衡零拍探测器自动平衡的控制装置,ZL 201510411759.3,中国发明专利,2017.

16. 王旭阳,李永民,刘建强,   一种适用于连续变量量子密钥分发的脉冲发生器,ZL 201410146307.2,中国发明专利,2017.

17. 李永民,王少锋,王旭阳,彭堃墀,锁定LiNbO3马赫-曾德尔调制器偏置工作点的方法,ZL 201310185704.6,中国发明专利,2015.

18. 李永民,王旭阳,彭堃墀,全光纤激光噪声过滤装置,ZL 201310014845.1,中国发明专利,2015.

19. 王旭阳,李永民,白增亮,苏静,全光纤脉冲平衡零拍探测装置,ZL  201110188519.3,中国发明专利,2012.

20. 李永民,刘建强,王旭阳,张强,王申,连续变量量子密钥分发虚拟仿真实验软件,软件著作权,登记号:2021SR0938764, 2021.